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
AK002_00001	408	dnaN		Beta sliding clamp	TTGGACGGTATTTATCCCGATACTTCTAGAATTATTCCAACCTCGCATAAAACAGAACTGGTTTTGGACACAAAAAAATTAAGCGAGTCGATCGACCGTGCCTACCTGCTCTCCAAAGAGGAGAAAACGAACATTGTTCTCCTGCAAACGATGGAACATGGCGGCATCGAGATCTCTTCCAGCTCTTCCGAGCTTGGTAAAGTGCGTGAGGAATTGGACCTGATCGATTTCAAAGGGGAGCCGCTGCGCATCTCGTTCAACTCGAAATACATGCTGGACGTGCTCAAGGTGGTTGAAAGCGAACAGCTGATGATCGCTTTCATGGGCGTTATGAGCCCGATCATCCTGAAGCCGCTCGACGACAGCAAGAGCCAATATATTATTCTGCCGTACCGTACGGCCAATTAA	MDGIYPDTSRIIPTSHKTELVLDTKKLSESIDRAYLLSKEEKTNIVLLQTMEHGGIEISSSSSELGKVREELDLIDFKGEPLRISFNSKYMLDVLKVVESEQLMIAFMGVMSPIILKPLDDSKSQYIILPYRTAN				NA	NA	NA	NA	NA
AK002_00002	216			hypothetical protein	ATGAAACAAATTTTTATCCACAGTGAATATATCAAGCTGGATCAGTTCTTGAAGCTATCCGATTGCGTATCCACAGGTGGGATGGCGAAGGCGCTGCTCGCGGAAGGGGCAGTTCTGGTCAACGACGAGAAGGAAGAGCGGCGCGGACGCAAACTGGTTCCCGGCGACATCGTAAAGGTAGAGGATTGCGGGACGTTTCAGGTGGCAGCACAATAG	MKQIFIHSEYIKLDQFLKLSDCVSTGGMAKALLAEGAVLVNDEKEERRGRKLVPGDIVKVEDCGTFQVAAQ				NA	NA	NA	NA	NA
AK002_00003	1113	recF	COG1195	DNA replication and repair protein RecF	TTGTTTGTCAAAAATGTCAGCCTGCAGCATTACCGAAATTACGAGAAGCTGCAGCTTGAGGCATTTGGCGATGTCAATCTGATCATCGGACGCAATGCCCAAGGAAAGACGAATTTGATGGAGGCGCTCTTCGTGCTTGCTTTAACGAAGAGCCACCGTACCTCCAAGGATCGCGAATTGATCGGGTTCGAGCAGTCCAGTGCCCATATATCTGCCGAGATTGACCGCAAGTACGGCACTCTGAGGCTGGAGCTGAGCTTGTCTCAGCAGGGGAAGAAGGCAAAAATCAACGGGCTTGAGCAGCGGAAGCTTAGCGATTTCATCGGCTCGCTCAATGTCGTGATGTTTGCGCCAGAGGATCTGGAGATTGTCAAAGGCACGCCGGGGGTCCGCCGCCGGTTTCTTGACATGGAAATCGGGCAGGTGGCCCCCAGCTACCTGTTCCATCTGCAGCAATACCAGAAGGTGCTCGTGCAGCGCAACAATCTGCTGAAGCAATTGTGGGGGAAGGGCAGCGCTGAGCAGGCGATGCTTGAAATTTGGAACAGCCAATTGGCAGAACATGGTGTTAAAATCGTCAAGAAGAGGAAACAATTTATAAAAAAGCTGCAAAAGTGGGCGGAAAGCATCCATCAGGGGATCACCAACGGCCTGGAAGACCTCTCTTTGCACTACCTTCCATCCTTTGCCGACGCGGAGGAAGAAGATGAAGCTGTCTTATTTGAGACATTTATGATAAAATTATCACAAATGAAAGAGCAAGAAATACGGCGTGGTATGACATTGGCAGGTCCTCATCGAGATGATCTGGCTTTTTATATTAATGGCAAAGAAGTCCAAACGTATGGATCTCAAGGTCAGCAGCGGACGACGGCGCTATCTTTGAAACTGGCTGAAATCGAGCTGATACAGGAAGAGATCGGTGAATATCCGGTGCTGCTTCTGGATGATGTGCTTTCTGAATTGGATCCGTACCGGCAGACACAATTGATCGAGACATTCCAGAGCAAAGTGCAGACATTCATCACGGCGACGGGCATTGAGAGTTTGAATACCGACAAATTGAAGGGTGCCAGCATTTTTCATGTCCATGACGGACAGGTGGGCTCTTAA	MFVKNVSLQHYRNYEKLQLEAFGDVNLIIGRNAQGKTNLMEALFVLALTKSHRTSKDRELIGFEQSSAHISAEIDRKYGTLRLELSLSQQGKKAKINGLEQRKLSDFIGSLNVVMFAPEDLEIVKGTPGVRRRFLDMEIGQVAPSYLFHLQQYQKVLVQRNNLLKQLWGKGSAEQAMLEIWNSQLAEHGVKIVKKRKQFIKKLQKWAESIHQGITNGLEDLSLHYLPSFADAEEEDEAVLFETFMIKLSQMKEQEIRRGMTLAGPHRDDLAFYINGKEVQTYGSQGQQRTTALSLKLAEIELIQEEIGEYPVLLLDDVLSELDPYRQTQLIETFQSKVQTFITATGIESLNTDKLKGASIFHVHDGQVGS				NA	NA	NA	NA	NA
AK002_00004	252			hypothetical protein	ATGTATATTCATTTGGGCGGAGAGAAGATCATCCGTTCGTCAGAGCTGGTTGGGATATTCGATATCTCGATAGAGAAATCCTCGAAAATCTCCAAGCAGTTCGTCACGCATGCCCAGCAGCATAAAGTCGTGGAGTTGATTGGCGAAGAGGATCCGAAATCCATCGTGGTGACGAAATCGATCGTCTATTACTCTCCGATTTCCTCTGCAACACTTAAGAAACGAGCGAATCATTTTGTAGCTCAGGCATAA	MYIHLGGEKIIRSSELVGIFDISIEKSSKISKQFVTHAQQHKVVELIGEEDPKSIVVTKSIVYYSPISSATLKKRANHFVAQA				NA	NA	NA	NA	NA
AK002_00005	1911	gyrB_1	COG0187	DNA gyrase subunit B	ATGTCTATGAATCAACCGACATATGATGAGAATCAGATTCAGGTACTGGAAGGATTGGAAGCCGTTCGTAAACGGCCGGGTATGTATATCGGATCTACCAGTGCCAAGGGTTTGCATCATTTGGTATGGGAAGTTGTGGACAATAGTATTGACGAAGCGATGGCGGGAATATGCGACCATATCGAAATCATTGTCCATGAGGATAACAGCATAACCGTTATCGATAACGGTCGCGGCATTCCGGTCGGCGAGAACGCTAAGCTGAAGAAGTCGACGCTGGAAGTGGTTATGACCGTCCTTCATGCCGGCGGTAAATTTGGCGGCGGCGGATATAAAGTATCCGGCGGTCTGCATGGTGTCGGCGTTTCGGTCGTGAATGCTCTGTCTTCGAAAGTCGTGGTTCAGGTCAAACGTGACGGGCACATCTACCAGCAGGAATATCATCGCGGCGTACCCCAATATGACATCAAAATCATCGGGGATTCCGACGATCACGGGACGACGGTAACCTTCCTGCCGGATCCGGAGATTTTCACGGAAACGACGGTCTATGACTATACAACTCTCCTGACGCGGATCCGTGAGCTGGCGTTCCTGAACAAGGGCATTGCGCTTACGCTGACGGACGAACGTACCGGGGCCTCGGACTACTTCAAGTACGAGGGCGGTATTATCGAATACGTCAAATTCCTGAATGAGAAGAAGGAAGCTCTGCACGAAGACCCGATCTATGTGGAGGGTTCCCGGGATAACATTCAGGTGGAAGTGTCGCTTCAGTATAACGACAGCTATACCGAGAATATTTATTCTTTTGCCAATAATATCAACACGCACGAAGGCGGAACGCATGAATCCGGCTTTAAGAGCGCGCTCACCCGGATCATCAATGACTATGCCCGCAAAACGGGATTGATCAAAGACAATAACAACAACCTGTCGGGTGACGACGTGCGCGAAGGATTGACGGCGATCATTTCGGTCAAAGTGCCGGAGCCGCAATTCGAAGGACAAACGAAGACCAAGCTCGGCAACAGCGAAGTGCGCGGGATCGTGGAATCCTTGTTCGCGGAGAAGCTGCAGGAGTTCCTGCAGGAGAACCCTGCGGTTTCCCGCCGGATCCTGGAGAAGGCGCTCCAAGCATCGCGTGCCCGCGAAGCGGCGCGTAAAGCCCGCGAGATGACGCGCCGGAAGAGCGCCCTTGAAGTCAGCGCATTGCCGGGTAAACTGGCGGACTGCTCCTCCAAGGACGCTTCCATCAGTGAGCTGTACATCGTCGAAGGTGACTCTGCCGGCGGTTCCGCCAAGCAGGGGCGCGATCGGCATTTCCAGGCGATTTTGCCGCTGCGTGGTAAAATTCTCAACGTCGAAAAGGCGCGGCTTGACCGCATCCTGTCCAATGCGGAGATCCGAGCCATCATTACGGCGCTGGGCACGGGGATTGCGGAGGATTTCGATCTCTCCAAAGCCCGTTACCACAAAATCATTATCATGACCGATGCCGACGTCGACGGTGCGCATATTCGTACCTTGCTGCTGACGTTCTTCTACCGTTACATGCGTAAGCTGGTGGAAGCGGGTTATATCTACATCGCCCAACCGCCGCTCTTCAAGATCGAGCGCAACAAGGTGATCCGGTATGCCGGCAGTGAGAGAGAACGCGACGAGATCATCAAGGAATTTGGCGAGAACGTCAAAATCAACGTACAGCGTTACAAAGGTCTCGGCGAGATGAACGCCGGCCAGCTGTGGGAGACAACGATGGATCCCGAGAGCCGTACGATGCTTCAGGTGACGATCGAGGATGCGATCTTGGCCGATACGTTGTTTGATACCCTGATGGGCGATAACGTGGAGCCGCGCCGGGATTTCATTCAGGAGCATGCGAAGTCGGTCCGGAATTTGGACGTATAA	MSMNQPTYDENQIQVLEGLEAVRKRPGMYIGSTSAKGLHHLVWEVVDNSIDEAMAGICDHIEIIVHEDNSITVIDNGRGIPVGENAKLKKSTLEVVMTVLHAGGKFGGGGYKVSGGLHGVGVSVVNALSSKVVVQVKRDGHIYQQEYHRGVPQYDIKIIGDSDDHGTTVTFLPDPEIFTETTVYDYTTLLTRIRELAFLNKGIALTLTDERTGASDYFKYEGGIIEYVKFLNEKKEALHEDPIYVEGSRDNIQVEVSLQYNDSYTENIYSFANNINTHEGGTHESGFKSALTRIINDYARKTGLIKDNNNNLSGDDVREGLTAIISVKVPEPQFEGQTKTKLGNSEVRGIVESLFAEKLQEFLQENPAVSRRILEKALQASRAREAARKAREMTRRKSALEVSALPGKLADCSSKDASISELYIVEGDSAGGSAKQGRDRHFQAILPLRGKILNVEKARLDRILSNAEIRAIITALGTGIAEDFDLSKARYHKIIIMTDADVDGAHIRTLLLTFFYRYMRKLVEAGYIYIAQPPLFKIERNKVIRYAGSERERDEIIKEFGENVKINVQRYKGLGEMNAGQLWETTMDPESRTMLQVTIEDAILADTLFDTLMGDNVEPRRDFIQEHAKSVRNLDV	PGPT0027710_1380	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
AK002_00006	813	yheD_1		Endospore coat-associated protein YheD	TTGACTATCCAACGCGTTGCAAGCAAGTGGGCGAAAACGAAAATACTGTTGAAAAACAAAGGCCTCGCCTCTTATGTTCCGGCTACCCGCCTATATTCATTGGAGACGCTTGAAGACATGCTGAATACGCATACGCTTGTGTATATCAAGCCTGACCGAGGGACCTACGGCATCGGCGTGATGTCGGTCGAACAGCTCCATTCCCAAACCGCGGATACTGATGAAACAAAGGATGCTTCCTACATGCTTCGTTACGACCATAAAACCGAAGTATTTACCTCTCTGGAGAGTCTCCATAAAACATTAAGCGCCTTGTTTCAGGGCAAGGACTATCTGGTTCAGCAAGGCATCCACCTGCTCCGCCATAAGGACCGTCCCTTTGATCTTCGTGTACTTACCCAGAAGAGTCCTTCCGGTCAGTGGGTGAGCACAGGAATAATCGGCCGGGTCGCGGCCAAAAATAAAATCATTACCAACCATCACAGCGGCGGCGTGGTTCATCACTACAAACCGCTGATGCTCGAGCATATGACGGCTGAAGAAGCGGGGAATATCCGCAGAGAACTGAATACGCTTGGAGTGAATGTCGCTTCGCAGCTGCAAAAAACGTATCCGAACCTGAAAGAAATCGGCCTGGATGTTGCGATTGACGATCGCTGGAACATTTGGATCCTGGAGGTTAATACCAAACCTGCCCTGTTCCCGTTCAAGAAATTCTTCAAAGATCCCAGCATCTACAAACAGGTAGAAAAATACGCCAATGCTTACGGACGTAATTTATCCGGCAAGAAGAAAGCCAAAAAAACCGGTTAG	MTIQRVASKWAKTKILLKNKGLASYVPATRLYSLETLEDMLNTHTLVYIKPDRGTYGIGVMSVEQLHSQTADTDETKDASYMLRYDHKTEVFTSLESLHKTLSALFQGKDYLVQQGIHLLRHKDRPFDLRVLTQKSPSGQWVSTGIIGRVAAKNKIITNHHSGGVVHHYKPLMLEHMTAEEAGNIRRELNTLGVNVASQLQKTYPNLKEIGLDVAIDDRWNIWILEVNTKPALFPFKKFFKDPSIYKQVEKYANAYGRNLSGKKKAKKTG				NA	NA	NA	NA	NA
AK002_00007	2505	gyrA	COG0188	DNA gyrase subunit A	ATGGCGGAAGAAAATTTCTCCCAAATCAAAGATCGGGACATTGGTACCGAGATGCGCGAGTCCTTTATGGATTACGCGATGAGCATCATTGTCAGCCGGGCTTTGCCGGATGTACGGGACGGAATGAAGCCAGTACACCGTCGTATTCTGTATGCGATGTCCGAACTTGGAATGGCTCCGGATAAACCGCATAAGAAATCGGCAAGAATCGTAGGCGAAGTTATTGGTAAGTACCATCCTCATGGTGATTCCGCAGTTTATGAATCCATGGTCCGGATGGCGCAGGACTTCTCCATGCGTTACATGCTTGTTGATGGGCACGGGAACTTCGGTTCCATCGACGGCGATATGGCAGCGGCTATGCGGTATACCGAGGCTCGTTTATCGAAGATTGCCATGGAAATGCTGCGTGATATTAATAAAGAGACAATAGACTTTGCTCCGAACTATGACGGCGAGGAGCAGGAGCCGGTGGTTCTTCCTGCGCGTTATCCTAACCTGCTGGTAAACGGCGTGTCAGGGATCGCGGTAGGGATGGCTACCAATATTCCGCCTCACAATCTTGGTGAAGTCATCGATGGTGTACAGGCGATGATTCGTAACCCTGACATCACGCCGATGGAACTGATGGAATACATCCAAGGACCGGATTTCCCGACAGCGGGTTATATTCTGGGACGTGAAGGCATTCGCCAGGCTTATCGTACGGGCCGCGGTTCCGTAACGATGCGGGCGAAGGCGACGATCGAAGAGAATAATAACAAGGCGCGCATTGTCGTTCATGAGATTCCATATCAAGTGAACAAGGCCCGTCTGGTTGAGAAAATTGCGGAATTGGTTCGCGAAAAACGAATTGACGGCATTACGGATCTGCGCGATGAATCGGACCGTAACGGCATGCGGATTGTCATTGAGCTGCGCCGGGACGTCAACCCGAATGTCGTTTTGAATAACCTGTACAAGCATACGGCCATGCAGTCGAATTTCGGCATTAATATGCTGGCCATCGTGAACAACGAACCGAAGATTTTGAACCTGCGCGACGTGCTGTTCCACTATTTGGAGCATCAGGTCACCGTTATCCGCCGCCGGACGGAGTTCGAACTTAAGAAGGCGGAGGCCCGCGCTCATATTCTCGAAGGTTTGCGTGTTGCACTGGATCATCTCGATGAGGTCATTGCCCTCATTCGCGCTTCCCAAACCACAGAGGCTGCCCGCGAGGGCTTGATGGAGCGTTTCGGTCTCAGTCATGAGCAGGCACAGGCCATTCTGGATATGCGTCTGCAGCGCTTGACCGGACTCGAACGGGAGAAGATCGAGAACGAATATCAGGAATTGCTTGCCAGAATCGCGGAACTCCGTGAAATCTTGGCTAATGAGCATCTTGTGCTTCAGATCATCAATGATGAGCTGCAAGAGATTAAGGAACGCTTCGCGGATGAGCGCCGCACCGAAATTACGGTCGGGGAAGACAGCATCCTGGACGAGGATCTGATTCCGCGCGAAGAAGTGATCATCACCATTACGCATACGGGTTACATCAAGCGTCTGCCTGCGAACACCTATCGCAGCCAGAAGCGGGGCGGACGCGGCGTTGTGGGGATGGATACGAAGAGCGAGGACTTTGTCGAGCATCTCTTCGTCACGAATTCCCACCATTACCTGATGTTCTTTACAGACAAAGGGAAGGCGTACCGGTTAAAAGCCTATGAAATTCCAGAGCTGAGCCGTACCGCCCGCGGAACGCCGATCATCAACCTGATTCAGATTGAACAGGGCGAATCGATCAATGCCGTGATTCCGGTGGAGAACTTTGACAGCGATAATTACCTGTTCTTTGCAACACGCCAGGGCGTCGTTAAGAAAACCCCGCTTGAGGATTATGTGAATATCCGCAAGGGCGGTCTGATTGCGATTAATCTGCGCGAGGACGATTCCCTGATCGAGGTGAAGCTGACGGACGGTCAGCAAGAAATCATTATGGGAACGGCGCAAGGAATGTCCATCCGCTTCAAGGAGAGCGATGTTCGCTCGATGGGAAGAAGCGCGACCGGTGTGAAAGGGATCACGCTGGACGACAATGATGAAGTCATTGGCATGGACGTAGTGGACCAGGACCTAGATATCCTCATTGTAACGACCAAAGGTTACGGTAAGCGGACGCCTGCAAGCGACTACCGCAGCCAGACCCGCGGCGGTAAAGGGATCAAGACCATCAATATTACGGAGAAGAATGGACCGGTTGTGGCACTGAAGGTCGTTAAATCGGAAGAAGACCTCATGATCATTACGGCAAGCGGCACCATCATCCGTACAAGCATGGAGGGCATCTCCACCATGGGCCGCTATGCTCAAGGCGTGAAGCTGATCAACATCCGCGAGGACGATGCCGTAGGTACCGTCTGCCGTGCGGATAAGAGCGATGAGCCGGATGCCGACGAAGAGGGAGAAGTAGGCCAAGACGGCGCAGAACCAATCGAGCCGGCCGAGCCGACCGAAGAATAA	MAEENFSQIKDRDIGTEMRESFMDYAMSIIVSRALPDVRDGMKPVHRRILYAMSELGMAPDKPHKKSARIVGEVIGKYHPHGDSAVYESMVRMAQDFSMRYMLVDGHGNFGSIDGDMAAAMRYTEARLSKIAMEMLRDINKETIDFAPNYDGEEQEPVVLPARYPNLLVNGVSGIAVGMATNIPPHNLGEVIDGVQAMIRNPDITPMELMEYIQGPDFPTAGYILGREGIRQAYRTGRGSVTMRAKATIEENNNKARIVVHEIPYQVNKARLVEKIAELVREKRIDGITDLRDESDRNGMRIVIELRRDVNPNVVLNNLYKHTAMQSNFGINMLAIVNNEPKILNLRDVLFHYLEHQVTVIRRRTEFELKKAEARAHILEGLRVALDHLDEVIALIRASQTTEAAREGLMERFGLSHEQAQAILDMRLQRLTGLEREKIENEYQELLARIAELREILANEHLVLQIINDELQEIKERFADERRTEITVGEDSILDEDLIPREEVIITITHTGYIKRLPANTYRSQKRGGRGVVGMDTKSEDFVEHLFVTNSHHYLMFFTDKGKAYRLKAYEIPELSRTARGTPIINLIQIEQGESINAVIPVENFDSDNYLFFATRQGVVKKTPLEDYVNIRKGGLIAINLREDDSLIEVKLTDGQQEIIMGTAQGMSIRFKESDVRSMGRSATGVKGITLDDNDEVIGMDVVDQDLDILIVTTKGYGKRTPASDYRSQTRGGKGIKTINITEKNGPVVALKVVKSEEDLMIITASGTIIRTSMEGISTMGRYAQGVKLINIREDDAVGTVCRADKSDEPDADEEGEVGQDGAEPIEPAEPTEE	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
AK002_00008	1113			hypothetical protein	ATGACGATCAAAGCCGTAAATGAAGTGGTGGCCGGAGTAAAGCTGGCTAAAGATGTACATACGCCTCTGGGGGGACTGTTGCTTCAAAAAGGCAAGGTCTTGCTTCCCCGGGATCTGGAAGTGTTGAAGGCTTTCATGGTGGACCATGTTACCGTAGAGTCCGTTGAAGCGGAGAGCACAAGAATACCAACCGTAAAATCCGCAGGGCAAAAGCCTTCGCTGATCTTTACGGGGAATCAACAGGGCAACGGGAACGAAGAAGCGCCTGCCCGAAAAGATCTGGCCTTGCATGAGGAATATGACAAGACCATGACCTTGGTCAAAAACTGTTATCAATCCGCAATAACGGGCGAGCTTCGAATGTATGAAGTTCGTAATCAGATGGAAAACTTATTGAAGCACCAACATGAGTATCACATTCTTAAATTTATTCCACGCATGACGAATCGCCATGATTACCGGTATCACAGTGCTGTGCTTTGCGCCCTTTCCTCCTATAAGCTGGCACAATGGGTAGGGCTTCCGCAGAAAGATTGGATGCAGGTCGCTTTTGCAGGATTGCTGCATGATATCGGAAATGCCAAGATTGATCCCATTGTGTTGAATAAACCTTCCAAGCTAACCGAAGAAGAGAACGAGGAAGTACGTCAGCATACGACCTATGGTTATCAGATTCTCAAGAATGTGGCGGCGGTGAATGAAGGAGTACGGCTCGCAGCTCTTCAGCATCATGAAAAAGTGGATGGCTCCGGATATCCGCTCCGCCTTGAGGGGAACAAGATTCATATCTATGCCAAGATCGTCGCCGTTACGGATATCTTTCATGCGATGACATTGGATAAGTTCTATCGGAATGCCCAGTCGCCCTATGTTGTGCTGGAACAAATCCAGCTGGAAGCCTTCGGCAAGCTGGACCCCAAAATCGTCCAGACATTTATTCAGAAGGTAACCGCCCTCCATTCAGGTACTTGCGTGCGCCTGAGCAATGGGACTTCGGGAGAGATTGTTTTTACCGATAGCCAGCATCCAACCAGACCGATGGTATCCGTTCAGGGAGAGATCATTAACCTGATGCAGCAGCGGCAGCTCTATATAGAAGAAGTCATTTACTGA	MTIKAVNEVVAGVKLAKDVHTPLGGLLLQKGKVLLPRDLEVLKAFMVDHVTVESVEAESTRIPTVKSAGQKPSLIFTGNQQGNGNEEAPARKDLALHEEYDKTMTLVKNCYQSAITGELRMYEVRNQMENLLKHQHEYHILKFIPRMTNRHDYRYHSAVLCALSSYKLAQWVGLPQKDWMQVAFAGLLHDIGNAKIDPIVLNKPSKLTEEENEEVRQHTTYGYQILKNVAAVNEGVRLAALQHHEKVDGSGYPLRLEGNKIHIYAKIVAVTDIFHAMTLDKFYRNAQSPYVVLEQIQLEAFGKLDPKIVQTFIQKVTALHSGTCVRLSNGTSGEIVFTDSQHPTRPMVSVQGEIINLMQQRQLYIEEVIY				NA	NA	NA	NA	NA
AK002_00012	438			hypothetical protein	ATGTTGCGTAAAAGTGGTCTGCATGTGGCAGGAATGATCTGTGCGGGTACGATACTGTTAATCGGATCCGGATGCGGGGCATCCACGGAACCAAGCTGGAAATCCTTTGACGGGGCAGCGAATGTGAAATCATTCCCGGTTCCGAAGGAAGCGAATAAAACGGAGCAGACAACAGGCAATAGTGACTTGGATTATGTACGCTATGCGCTTCCAGGCTTGAAGGAAGACGATAGTATTCCTGAGCCTTACTTGGATGAAATCGAGTCCTGGGGATGGAAGCAGAAGGAAGTTGAAGACAACGGGTCTTCGTTAGTGTTTGAAAAAGGTAAAAGTATCGTCCACCTTTCGGTGCAAGACGATTTTCTCATAATCACGGTTCCTGCTCAGCTTAAGAAACAAGTCATACAAGGATTGGAAAGCAATAAAGCGAATGAATAA	MLRKSGLHVAGMICAGTILLIGSGCGASTEPSWKSFDGAANVKSFPVPKEANKTEQTTGNSDLDYVRYALPGLKEDDSIPEPYLDEIESWGWKQKEVEDNGSSLVFEKGKSIVHLSVQDDFLIITVPAQLKKQVIQGLESNKANE				NA	NA	NA	NA	NA
AK002_00013	522			hypothetical protein	ATGGCAGATCCACACGGTCAAGCCACCTTTTATCACTACCGATTAATCAAGAAAATCCAGATTTCCAGAAGCTTGCTCATCCTCTACTTAAGTCTGCCTTGGCTTGCTGCAGCTGCAGGGACCCTATGGGTGTCTCCGTACATTCTGCTCTATATGCTCATCGCTTTTCCGCTTATGTTATGGATCCAGTACGTTATTGGTCATACCGTGCTTGTCCTCCTGGGAACAGGCTATCGGAAGCGCTGGCGCTTCAGGCTGAGGCTGCCTTGGCTTGGTTATATCCCGGATCAACATGTCAGCCGTCGCGTATTCATGTTGGTGCAGTTCTATACCTGTTGGATAGGGATAGTCTTAAGCGCTATCATGGCCTTCTGGTCATCGCTGCCGTTTGCCATTGCGATTGTGTTCTGGCATCTATGGCTGCTTCTTCCGCGAGGTTATACCATGCTGCGCCTGAGCGGTCAGCGTAAAGACGGGATGTTAAAAATGAATGAGCAGGATATCTCATACTACCAGCAATAA	MADPHGQATFYHYRLIKKIQISRSLLILYLSLPWLAAAAGTLWVSPYILLYMLIAFPLMLWIQYVIGHTVLVLLGTGYRKRWRFRLRLPWLGYIPDQHVSRRVFMLVQFYTCWIGIVLSAIMAFWSSLPFAIAIVFWHLWLLLPRGYTMLRLSGQRKDGMLKMNEQDISYYQQ				NA	NA	NA	NA	NA
AK002_00014	186	csfB		Anti-sigma-G factor Gin	ATGGAAGAATTGACCGAACACGTGTGTATCATATGCAATCAGTCGAAGACCGATGGAATCACCATTGTATCGCAATTCGTATGCGAGGAATGTGAATCGGAAATCGTCCATACCAGTGCGGAAGATGCCAAATATCATTTTTTTATCCGTCAATTAAAACAGATTGCGATGCCGAAGAATGCATAG	MEELTEHVCIICNQSKTDGITIVSQFVCEECESEIVHTSAEDAKYHFFIRQLKQIAMPKNA				NA	NA	NA	NA	NA
AK002_00015	1668			hypothetical protein	ATGACTACACATAGAGAGCGTGCCCCACTAACGGAAGCTTTAAGGTTATATCGGGAACGCGGGGCTTCATCTTTTCATGTACCCGGCCATAAGAACGGCAGGGCATACGGGGCAGAAGGTGACGCAGCGGAGATGCTGCGAGAGGCGATGCGCATCGATGTGACGGAAATTACCGGAACCGATGATTTATTTCATCCGGAAGGCGTGATTCAGGAAGCGCAGGAGCTGGCTGCCGATTGTTTTGGCGCCGAAGAAAGCTTTTTTCTGGTGGGCGGTAGCACGGCCGGCAATCTGGCGTTAATCCTGACGGTATGCCGCGAGCCGGGCGATCTCGTGCTGGTGCAGCGGAACGTACATAAGTCCGTGTTGAACGGATTGATGCTGGCCGATGCAAGGGCGGTGTTTCTTCAGCCGGAGCTGGACAAGCAGAGCGGTTTAGCCGTTGCCCCATCAGAAGCTACGCTGACAGCGGCTCTCGAGGCCTTCCCTGAGGCCAAGGGAGCGATCATCACGATGCCGAACTATTACGGGATGGGGAGTGACTTAAGGCCGCTGGCGGACGCTTGCCATAAGTGCGGAGTGCCGCTGCTGGTGGACGAAGCGCACGGAGCGCATTACGGGCAGCATCCCCAGCTGCCGATGAATGCTTTGTCATGCGGCGCGGACGGCGTGGTCCAATCCACGCACAAGATGTTAGCCGCGATGACGATGGGAGCCATGCTGCATGTACAGGGCGGGCTGCTCGACCGGAGCCTGCTGCGCCAGCGGCTGGCGATGGTGCAAAGCTCCAGCCCCTCGTACCCGCTCATGGCTTCGCTGGATCTGGCACGGCGCCTGCTGCACACGCAGGGCGCAGGCGCCTTCACGGCTGGCCTGGCTGCCGTGGATGCCTTCCGGCGCGGCCTCGCGAAGCTGCCGCGCTTCGGGCTGCTGCAGCCGCCGCAGCCCGGGGATGGCGCCGCGGGCACAGCCGCCGCGGCGTACACCCGCCAGGACCCGTTCAAGGCTGTCATTTATGACCGCACCGGGGCCCTGAGCGGGTATGCACTCCAGCGCGCATTAGAGGCGCGCGGCTGTGTGCCGGAGATGAGCGACGAGCTGCGCGTCGTCTTATTGTTTACATTGGGATCGACCCGCGAAGATGCGAATCACGTCTTATGGGCTCTTGTGCATATTGTAGAGCAGGGGGAGAAGACGGATGAGACCGGAACGGAACCAGGCACTGCTGCAGAAGGCACGGAATTACTGATCCGGAAATTGCGGGAACAGGGGGATTTCGTGAAGTACGAGCGGCCGGGGATCCACTTGAATGAGGGTTCTTCTCATTTCAATGTCGATACTAGCTTGTTAACTGAAGAAAGTTCGGTCTCCGATGTTTCCACGTGGAACAATTTGCTGCGACAGGCTCCATATTCAGCTCCAATCTCTTTCTCGCTCAAGCCGATTGACAAGGAGAGATTGGAATCGGTGCCGTTAGCGAAGAGCGCCGGGCGAAAGGCGGCCGAGATGGTTATTCCGTATCCGCCAGGCATTCCGATATTATACCCCGGTGAAGACATAACTGCAGAAATGGAACAGAGGATGCTGGCATTGAGGATGGCCGGGGCCAAGTGTCAGGGAATAACCGATCCCACGCTGCAAACCATCGTCGTTTACAAGGAAACGTAA	MTTHRERAPLTEALRLYRERGASSFHVPGHKNGRAYGAEGDAAEMLREAMRIDVTEITGTDDLFHPEGVIQEAQELAADCFGAEESFFLVGGSTAGNLALILTVCREPGDLVLVQRNVHKSVLNGLMLADARAVFLQPELDKQSGLAVAPSEATLTAALEAFPEAKGAIITMPNYYGMGSDLRPLADACHKCGVPLLVDEAHGAHYGQHPQLPMNALSCGADGVVQSTHKMLAAMTMGAMLHVQGGLLDRSLLRQRLAMVQSSSPSYPLMASLDLARRLLHTQGAGAFTAGLAAVDAFRRGLAKLPRFGLLQPPQPGDGAAGTAAAAYTRQDPFKAVIYDRTGALSGYALQRALEARGCVPEMSDELRVVLLFTLGSTREDANHVLWALVHIVEQGEKTDETGTEPGTAAEGTELLIRKLREQGDFVKYERPGIHLNEGSSHFNVDTSLLTEESSVSDVSTWNNLLRQAPYSAPISFSLKPIDKERLESVPLAKSAGRKAAEMVIPYPPGIPILYPGEDITAEMEQRMLALRMAGAKCQGITDPTLQTIVVYKET	PGPT0007770_1371	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
AK002_00016	645	tmk	COG0125	Thymidylate kinase	ATGAATAATCGCAGACCACTATTTATTACCGTAGAAGGAGGAGACGGATCCGGTAAAACGACCATGATGGGCAGACTCGCCGCGTTTATGCAGAATCATTCGATCCCGTATCTGATTACCCGCGAGCCCGGCGGCATAGAAATCGCCGAGAAGATCCGCTCCATTATTCTGGATCCGGAGCACACCTCGATGGATGCACGCACAGAAGCATTGTTATACGCGGCAGCCCGCCGCCAGCATCTTGTGGAGAAGGTGGAGCCGGCATTAAGGCAGGGATTGACCGTACTATGCGACCGATTCGTGGACAGCAGCCTGGTTTACCAGGGGTATGCGCGCGGATTGGGCATGGAAGAGGTATGGAGCATCAATCAGTTCGCCATTGATACCCGGATGCCGGATCTGACGCTGTTATTCGATATCGAGCCGAGGATCGGCCTGTCACGGATCGCGGCGAATGCGGAACGGGAATGGAATCGACTGGATATGGAGAACCTGACATTTCACGAGAAAGTTAGGGAAGGCTATCTATTGGTAGCAGAGCGTAATCCGGACCGAATTCGCATCGTGGATGCTTCCAAGACGCCCGCCCAGGTCGAAAGGGAAATGAATCGTCACTTGGAAGACGCGATATTAAAGGATTTTTGA	MNNRRPLFITVEGGDGSGKTTMMGRLAAFMQNHSIPYLITREPGGIEIAEKIRSIILDPEHTSMDARTEALLYAAARRQHLVEKVEPALRQGLTVLCDRFVDSSLVYQGYARGLGMEEVWSINQFAIDTRMPDLTLLFDIEPRIGLSRIAANAEREWNRLDMENLTFHEKVREGYLLVAERNPDRIRIVDASKTPAQVEREMNRHLEDAILKDF	PGPT0021395_2189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
AK002_00017	330	darA	COG3870	Cyclic di-AMP receptor A	ATGAAATTGATTGTTGCGATTGTCCAGGATAAAGATAGCAACCGTCTCTCCGCCGCATTGGTCAAAGCTAACTTTCGGGCGACAAAGCTTGCAAGTACAGGCGGCTTTCTGAAGGCGGGGAACACCACCTTTATGATTGGGGTAGACGATTCACAGGTTGAAAGTGTGCTCAGCGTCATTCGCACAAGCTGTAAGGTCCGCGAACAGCTGGTCACTCCGGTAACCCCTATGAGCGGTACAACCGATTCCTATTTGCCGCTTCCGGTCGAAGTGCAGGTTGGCGGCGCAACGGTATTTGTGCTCCCTGTAGAACGTTTCGAGCATTTCTAA	MKLIVAIVQDKDSNRLSAALVKANFRATKLASTGGFLKAGNTTFMIGVDDSQVESVLSVIRTSCKVREQLVTPVTPMSGTTDSYLPLPVEVQVGGATVFVLPVERFEHF				NA	NA	NA	NA	NA
AK002_00018	444			hypothetical protein	GTGAAGATCAATCCGGGCTTTCGGCCCATGAAAAGCGAAATCACGGTGCCGGATGGCAACGCCAGACCGATTCAGAAGCGATCGTTCTCGGATATGATGCAGCAGCAGGGAGAACGTGCGACCCATGAAGAGCTGAGTCGTCAAATGCGTGAAATTGCAATGCAAGGGGATCGTTTGGCCAAAGCGATGACCGTCCGGGAGTTAAAGGCATATAAATTGATGGTTCGCCGCTTCCTGGAAGAAACGGTTCGTCGCGGCGTGAAAATGAAGGAAACGCGAGGCTGGGACCGCCGGGGGCGCGGCAAGCGCTATAACGTAATCGATGAGGTCGATTCGGCGCTGCTCGAGATGGCGGATGAGCTGCTGGATACGGAGCAGGGGCGAATTGATCTGCTGAACAAGGTAGGGGAAATCCGGGGCATGCTGATCAATCTTGTATTCTAG	MKINPGFRPMKSEITVPDGNARPIQKRSFSDMMQQQGERATHEELSRQMREIAMQGDRLAKAMTVRELKAYKLMVRRFLEETVRRGVKMKETRGWDRRGRGKRYNVIDEVDSALLEMADELLDTEQGRIDLLNKVGEIRGMLINLVF				NA	NA	NA	NA	NA
AK002_00019	987			hypothetical protein	ATGTCTTTTAACGATATCGTAGGTCAAGAGACTGCGAAGCAACTGCTGCAAAATGCCTTGCGCCGTAATGCTGTCAGTCATGCCTATCTGTTTAGCGGCCCGAACGGAGCCGGACAGATGCAGACGGCGCTTACGTTTGCCAAGGCATTGTTTTGTACGGAACTGGATGACGATGCCTGCGGGCAATGTTTGGAATGCCGCAAGGTGGAGCACGGCAACCATCCGGATCTGACGATGGTCGAGCCGGATGGGGCCAGCATCAAGATCGATCAGATCCGCGATCTTCAGCGGATATTCTCTTATCGATCGGAGAACCGGAATCCCAAGGTATATATTATTGACCGCGCGGAGAAGATGACCACGCAGGCAGCCAACAGCCTGCTGAAATTTCTTGAGGAGCCGCAGGCGCCTGCCGTCGCCATCCTGATTGCCGAGAATGGACAAGCCCTTCTGCCCACCATTCAATCACGATCGCAGTTAGTCCCGTTTCGGGCACTCGATCCGCAGATGATGGAAAAGGTCCTTGTCGGCGAGGGCTATCCTGCCGCGCTTGTACGCTGTGCCGTTCATCTGGCGTCCGGGCTTGACGAGTGCAGGAAAATATTGAATGAGAATTGGTTTGCAGAAATTAGAAACGTAGTGTTACAATTAGGGAAGGAGTCTTTGAACCGCAGCGGCTCTGCGATGATCACCGCGAGTCAAAAAGTGTTCAAAACCGAACTCTCCGATCATCTGGACTTATTGTTCAGTATGTTTCATTTATGGTTTAAGGACATGATCCATGTCCAGTATGGAAGGAAAGAGTCTCTCGTTTTCATAGATCAGGCAGAGTATATCTCTGGTCATGCATCAGCCCGCAGCACAGCACAGTGGGTGTCATACATGGATTTGGCCGCAGAGTGTCAGAAGAAGTTACGCTATAATGTCAATGGACAGCTCAGTTTAGAGCAGTTATTGATGGGTTTGGGCGGTAACACTCCGGCGTGA	MSFNDIVGQETAKQLLQNALRRNAVSHAYLFSGPNGAGQMQTALTFAKALFCTELDDDACGQCLECRKVEHGNHPDLTMVEPDGASIKIDQIRDLQRIFSYRSENRNPKVYIIDRAEKMTTQAANSLLKFLEEPQAPAVAILIAENGQALLPTIQSRSQLVPFRALDPQMMEKVLVGEGYPAALVRCAVHLASGLDECRKILNENWFAEIRNVVLQLGKESLNRSGSAMITASQKVFKTELSDHLDLLFSMFHLWFKDMIHVQYGRKESLVFIDQAEYISGHASARSTAQWVSYMDLAAECQKKLRYNVNGQLSLEQLLMGLGGNTPA				NA	NA	NA	NA	NA
AK002_00020	801			hypothetical protein	TTGTACAGTGTAGTAGGTGTCCGCTTTAAGAAAGCGGGCAAAATATATTACTTTGATCCGCTCGACCTCCCCGTGGAGAAGGAACAATCCGTAATTGTGGAAACCGCGAGAGGGATCGAGTATGGTCAAGTTGTGATAGGAAAGAAGGAGGTAGGTGAATCGGACGTTGTCCTTCCTCTCAAGAAGGTCATTCGTATCGCTGGTGACTCCGATGCCCGTGTGGTTGAAGAGAACAAACAAGCGGCGAAGGATGCATTCACCACCTGTTTAAATAAAATTCGGGATCACGAGCTGAAAATGAAGCTGGTCGACGTGGAATTTACCTTTGACCGAAACAAAATCATTTTCTACTTCACGGCGGAAGGCCGTGTGGATTTCCGTGAACTGGTTAAGGATCTGGCCAGCATATTCCGAACAAGAATCGAACTTCGCCAGATTGGAGTTCGCGATGAAGCCAAAATGCTCGGCGGTCTTGGACCATGTGGACGTGTACTGTGCTGTTCCTCATGGCTTGGTGATTTTGAGCCGGTATCGATCAAGATGGCAAAGGATCAAAGCCTATCGCTCAATCCGACTAAAATATCCGGGCTATGCGGAAGATTGATGTGCTGCCTAAAGTTTGAGCATGATAATTATGAAAGCGTGAAAGAAGAGCTTCCATCCGCTGGGAAACTGGTCGTTACTTCGCTTGGAGAAGGCAAAGTAGTCGGGCTCAATGCGGATAAGCGGACGGTTCATGTTCAGCTGTTTGAAATTGGAAAGGTCAAGGAACTTCCAATGGATGACGTTGTCATCAAATAG	MYSVVGVRFKKAGKIYYFDPLDLPVEKEQSVIVETARGIEYGQVVIGKKEVGESDVVLPLKKVIRIAGDSDARVVEENKQAAKDAFTTCLNKIRDHELKMKLVDVEFTFDRNKIIFYFTAEGRVDFRELVKDLASIFRTRIELRQIGVRDEAKMLGGLGPCGRVLCCSSWLGDFEPVSIKMAKDQSLSLNPTKISGLCGRLMCCLKFEHDNYESVKEELPSAGKLVVTSLGEGKVVGLNADKRTVHVQLFEIGKVKELPMDDVVIK				NA	NA	NA	NA	NA
AK002_00021	321	yabA	COG4467	Initiation-control protein YabA	ATGGGACATATACACAGTGAACTGGGTGGACTTAAGCTGGTCATCAAGGAACTGCTGGAAGAGAACCATCGCCTCAGTCTTGAAAATGAACAGCTCCGGAAAATTTTAAAGAGGGAAGTCAATCCGGCAGAATTGGAAAACCCAGTTGCTTTACAGCCTCAGCCTCATGTGAAGGATGAGGAACATGAAGATGTGGTCGGTGAGGGGTATGATAACCTGGCACGGCTGTATCATGAAGGCTTCCACATTTGCAATGTCTATTATGGGCATCTGCGGACGGAAGGGGATTGCCTGTTCTGCTTGTCTTTTTTGAATAAATAA	MGHIHSELGGLKLVIKELLEENHRLSLENEQLRKILKREVNPAELENPVALQPQPHVKDEEHEDVVGEGYDNLARLYHEGFHICNVYYGHLRTEGDCLFCLSFLNK				NA	NA	NA	NA	NA
AK002_00022	768	yfiC		tRNA1(Val) (adenine(37)-N6)-methyltransferase	ATGAAATTGAAAGAAGTGTTATTGCACCCATCCGAGCGGATCGATGATCTGCTCACCCATGAGCTCGGCATCATTCAAAGCGAAGAGGTATTCAGCTTCTCCATGGATGCGGTCCTGCTTGCCAGGTTTGCCAGCATACCGCGCAGGGGCCGGATTCTGGATATGTGCACGGGTAATGGGGTGATTCCCATTCTGCTGTCGACACGTACAGGCACGCCGATCGAGGGGATTGAAATTCAGCCCAGACTTGCGGATATGGCCAGACGGAGCGTAGCGATGAATGACCTTCAGGACCAGATCACGATCCATGAAGGCGATCTGCGGGAACTGTACAAGGAAAAGGGATATGGTGCGTATGACCTGATTACGGTCAATCCGCCTTATATGCCGATGAATGGCAGCGACTTGAAGCTGAATGAGCATCAGGCGATTGCGAGGCATGAAATTCACTGTACGCTTGAAGAAGTCATTGAGTCCTGTGCAAGGCTGCTCAAACAAGGCGGGAAGATGAGCATGGTTCACAAGCCTCTGCGGCTGGCGGAGATTATCACCCTGATGAACAAATACCGGATTGAGCCGAAGGTCATCCGGTTTGTGCATCCGCGCGTGAAGATGGAAGCCAACATGGTCCTGATCGAGGGCATTCGGGACGGAAAGCCCGAGGTTCGGCTGAAGCCACCGCTGATTGTGTATGATGAGCAGGGGAATTACGGACCGGATTTTATGGAAGTTTACTATGGAACACATGAGGATGAGACAAAAGAATGA	MKLKEVLLHPSERIDDLLTHELGIIQSEEVFSFSMDAVLLARFASIPRRGRILDMCTGNGVIPILLSTRTGTPIEGIEIQPRLADMARRSVAMNDLQDQITIHEGDLRELYKEKGYGAYDLITVNPPYMPMNGSDLKLNEHQAIARHEIHCTLEEVIESCARLLKQGGKMSMVHKPLRLAEIITLMNKYRIEPKVIRFVHPRVKMEANMVLIEGIRDGKPEVRLKPPLIVYDEQGNYGPDFMEVYYGTHEDETKE				NA	NA	NA	NA	NA
AK002_00023	894	rsmI		Ribosomal RNA small subunit methyltransferase I	ATGAGAAATCTGGTGCAACAGAGTTATGCCGACCGGGGAGCGGGAAGTCCGGGTTCGCTGTATTTGGTGGCAACGCCGATCGGGAATTTAGAGGATATGACGTACCGCGCCGTACGCATCCTCCAGGAATGCGATATTATCGCGGCAGAGGATACGAGGCAGTCACGCAAGCTGCTGACCCATTTCGAAATTCCGGCTAAACCGCTCTTTAGTTATCACGAGCATAATAAGGCGGCAAGCGGTCCTGAAATCATACGTTATATAATAGAAGGAAAAAATGTGGCACTCGTCAGCGATGCCGGTCTGCCGGCGATTTCAGACCCTGGCAGTGATCTGGTTTCGCTTGCGATTGAGGCAGGAATTTCGGTCATTCCGATCCCGGGAGCCAATGCGGCGTTATCCGCCTTAATCGTGTCGGGTTTGCCGACCGAACGGTTTACGTTTATCGGCTTTTTGCCGCGGGAGCGCAAAGATATCGTCCAGCAGCTGCAAGCTTTGCAATCGGCGCAGGGAACGTTGTTATTTTATGAATCTCCGCATCGCGTGAAGAAGACGCTGGAGATCCTGCAGGAGGTACTGGGAAATCGGAAGGTGACCTTGGCACGGGAACTCACCAAGCGCTACGAGGAATTTGTCCGAGGCAGCATTTCCGAATGCCTGGACTGGCTCACGGAGCATCCGCCACTGGGGGAATATTGTTTGGTGGTGGAGGCCGGCAGTGCAGAAGAGGAGCAGAAAGAGAAAAATGCCTGGTGGCAGGAGCTTTCGCTGGAGGAGCATGTGGGGCACTATGAGCGGGAAGGACTAAGCCGCAAGGATGCCATGAAAAAAACCGCGGGTGATCGCGGCGTATCGAAAAGGGACATCTATAACGCACTCCTGACGGAGTCGTGA	MRNLVQQSYADRGAGSPGSLYLVATPIGNLEDMTYRAVRILQECDIIAAEDTRQSRKLLTHFEIPAKPLFSYHEHNKAASGPEIIRYIIEGKNVALVSDAGLPAISDPGSDLVSLAIEAGISVIPIPGANAALSALIVSGLPTERFTFIGFLPRERKDIVQQLQALQSAQGTLLFYESPHRVKKTLEILQEVLGNRKVTLARELTKRYEEFVRGSISECLDWLTEHPPLGEYCLVVEAGSAEEEQKEKNAWWQELSLEEHVGHYEREGLSRKDAMKKTAGDRGVSKRDIYNALLTES				NA	NA	NA	NA	NA
AK002_00024	255	abrB	COG2002	Transition state regulatory protein AbrB	ATGATGAAATCAACAGGAATTGTAAGGAAAGTCGATGAGCTTGGACGGGTCGTCATTCCAATTGAGTTGCGCCGCACGCTCGGAATTGGTGAGAAAGATGCATTGGAGATTTATGTAGACGGCGAACGCATCATGCTTAAGAAATATGAGCCTGCCTGCATCTTCTGTGGTAACGCTGAGAACGTCACTTACTTCAAAGGTAAAATTGTTTGCCATGAATGTATCTCGGAAATCCCTACACCTGTGACAAATTAA	MMKSTGIVRKVDELGRVVIPIELRRTLGIGEKDALEIYVDGERIMLKKYEPACIFCGNAENVTYFKGKIVCHECISEIPTPVTN	PGPT0014790_504	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK002_00025	1290			hypothetical protein	ATGCATTCACCCATTTCGGAAGAAAAAGTGTTTAAGGACCCCGTCCATAATTACATTCATGTGCAGGACGACATTATATGGCGGTTAATCGATACCCCGGAATTCCAGCGGCTTCGCCGGGTCAGGCAGCTGGGCACTTCTTTCCTGACCTTTCATGGAGCTGAGCACAGCCGATTCTCCCATTCTCTTGGGGTCTATGAAATTACGAGAAGAATCATCTCTCAATTTGAACGGAGAGGGTATTCCGATTGGCCTGCCGAAGAGCGGCAAGTTGCGCTCTGCGCGGCGCTGCTGCATGATGTGGGGCACGGACCTTTTTCCCATTCCATAGAAGAAGCTTTTCATATGAACCACGAGGATTGGACATGCCGGATCCTGCTCGGAGATACTTGCGTCAATCGGGTACTTCAGGAGCTCGGTGCCGATTTTCCCGAGAAGGTCGCCTCCGTTATTAACAAAACCTACGATAAGCCGATTGTCATGAATCTGGTCACTAGTCCGCTGGATGCAGACCGGATGGATTATTTGCTAAGGGATGCTTACTATACGGGAGTCAATTATGGAACGATTGACATCGACCGAATCCTGCGGATGCTGCGGCCGTACCGGGATCGGGTCGTCGTGAAGGAATCGGGCATGCACGCGGTGGAGGATTATCTCATGTCGCGGTATCAGATGTACTGGCAGGTGTATTTTCATCCCGTCACCCGAAGCTCCGAAATCATCCTGCGTCAAATCTTTCGCCGTGCCAAGGAGTTGCATGACCGTGGATATGCTTTCCGGTTCATGATCGAGCCGCTGCCTGCGCTGTTTTCGGGGAATATCGGCGTTCATCAATATTTGCGCCTTGATGAAGCCTTGATTCAAACGGCCTTTCTGCAATGGACGGAAGAGGAAGACCCGCTTCTTAGCGAATTATGCGGCCGTTTCATGCACCGGAAGCTCTACAAATACGTAGAAATCGACAACATCGATCTGGAAACCATCGACGGGATCCGTCAAGCGTTCCGGGCCGTGGGGCTGCATCCGGAATATGACCTGGAGATTGATTTTCCAACGGATCTTCCTTATGATAAGGTTCATTCCGATATGCCGCTTAACGAGAAACAGATTCTCCTTCTCGACCGGCATGACGAGCTGAGGGAAATCTCGGAGGTATCCGATATCGTACGCTCGATCAGCGGCATTCATAAAGGGCGGTATCATCTTTATTATCCGGAGGAGAAGGTGGGCCCGCTCCTGGGTCAAATGCCGGAGAGGATCGCCGGCGTCTTCAAACAACAGCATTAA	MHSPISEEKVFKDPVHNYIHVQDDIIWRLIDTPEFQRLRRVRQLGTSFLTFHGAEHSRFSHSLGVYEITRRIISQFERRGYSDWPAEERQVALCAALLHDVGHGPFSHSIEEAFHMNHEDWTCRILLGDTCVNRVLQELGADFPEKVASVINKTYDKPIVMNLVTSPLDADRMDYLLRDAYYTGVNYGTIDIDRILRMLRPYRDRVVVKESGMHAVEDYLMSRYQMYWQVYFHPVTRSSEIILRQIFRRAKELHDRGYAFRFMIEPLPALFSGNIGVHQYLRLDEALIQTAFLQWTEEEDPLLSELCGRFMHRKLYKYVEIDNIDLETIDGIRQAFRAVGLHPEYDLEIDFPTDLPYDKVHSDMPLNEKQILLLDRHDELREISEVSDIVRSISGIHKGRYHLYYPEEKVGPLLGQMPERIAGVFKQQH				NA	NA	NA	NA	NA
AK002_00026	765	ycfH_1	COG0084	putative metal-dependent hydrolase YcfH	ATGCTGTTCGACACGCACACTCATATGGACGCTCCCCAATTCGACGAAGACCGGGAAGCTGCAATTCAGCGGGCGCTTGAAGCCGGCGTTACGCGGATGATCAATATCGGATTTAACCGGGAGACGATCCCGACCACGATGAAGCTGGCCGAGACTTACGATTTTATATATGCAGCGGTAGGCTGGCACCCTGTAGATGCGATCACCATGGAGGATCAGGACCTGGATTGGATCGCCTCTTTATGCAGTCACGAGAAAGTGGTGGCAATCGGGGAGATCGGCTTGGACTATCATTGGGATACGTCCCCCAAGGAAGTGCAGCACCGTGTGCTTCGGCGCCAGATCGGGCTTGCCCGGGAATTGAACATGCCCATTGTCATTCATAACCGGGATGCGCATGAAGATATCGTTAACATTTTGCGTGAGGAAAAAGCCTCCGAGGTCGGCGGTGTCATGCATTCCTTCTCCGGAAGCTGGGAAACGGCAAAAATGTGCCTGGATATGGGATTCCATATCTCGTTTGGGGGGCCGATTACGTTCAAGAATGCGAAGCAGCCCAAAGAGGTTTTGGCAAAGGTCCCGCTTGATCGATTATTGATCGAAACGGACGCGCCTTACCTGACACCTCATCCCTTCCGCGGGAAACGAAATGAGACCGCATATGTAAAATTGGTGGCGGAGGCGGCGGCCGAAATTAGAGGGTTGTCCTATGAGGAATTGGCCCAAATTACCACCAAAAATGCACTGGAACGATTTGGTATTTAA	MLFDTHTHMDAPQFDEDREAAIQRALEAGVTRMINIGFNRETIPTTMKLAETYDFIYAAVGWHPVDAITMEDQDLDWIASLCSHEKVVAIGEIGLDYHWDTSPKEVQHRVLRRQIGLARELNMPIVIHNRDAHEDIVNILREEKASEVGGVMHSFSGSWETAKMCLDMGFHISFGGPITFKNAKQPKEVLAKVPLDRLLIETDAPYLTPHPFRGKRNETAYVKLVAEAAAEIRGLSYEELAQITTKNALERFGI				NA	NA	NA	NA	NA
AK002_00028	1188			hypothetical protein	GTGGGCATTTTTCAACCTGAAGAAACCCATGAATCACAATCATCCAGCATGTCTTACGCATTGAGATGGAAGCATGACAATTTGCGTCAACTGATGTTGCTCGGCGCCATGGGTGCCGTTACGGTATCACTTCTCATATCGTTGGTTGTACATGACCAGGCAGGCAAGGAAGTTCAGCTTGTCGTCGACGGCCGGGTCACTACGGTGGAAACACGTGGATCGTTGCTGCAGGAATTGCTGGATGAGCAAGCGATCACGTTGAGTCCCCAAGATCAAATTTCGATGCCCCTGAACGGCGCGATCCGGGACGGAGACCGAATTATTATTGACAGAGCTATTCCAGTCAACGTTACGGTAGGCAGCAAAACCAAAACCATATTTACATCCCAGGATACAGTTGATCATGTACTCAAAGAGGCTGGCGTTACGATCCAGGGTGAAGATATAGTACAACCGTCGCAAGACACGAAGCTGACCAGCAATATGAATATCCATGTCGTTCGCGTCACGAAGCAAAAAGTTAAGGAAACGGAAGACCGCGAATTCCGTGTGATCAAGACGGCCGATCCATCGCTTGAAAAGGGCGATAACCGCGTCATTCAGCGGGGCGAGCCTGGTCTTATGGTGAACCATTACGAGAAGGTCTACCACAATGGCAAGCTGGTTTCCAAGACGAAGGTCTCCCAAGAAATTGAACGCAGAACAAAGGATAAAATCATTGCCGTAGGTACGAAAAAAGTGGAGAAGCCTGTTATCGTCCAGGCGGCAGCCACCGATGTAAAAGCTACACCGGCTAAATTGTCCGGCACGAAAAAAGTAACGACCGCCAAGGCTGTGGAGAACAACGTGGTCTCCCGCGCAGGCGTTGATTTTAAATACAAGAAGGTATTGAACAACGTGTCGATGACGGCGTATTCGGCCGAGCAGCAAGGAATCGGTACGCGTACCGCATCCGGCACTCGCGTTACGGAAGGTCGCACCATCGCCGTTGATCCTAACATCATCCCGATCGGGTGGTGGGTCTACATCGAAGGCATTGGCTTCCGCCGTGCTGAAGATACGGGCGGCGCCATCAAAGGCAACAAAATCGATGTCTATTACGATTCGTTGAAATCGGCCATGAATTTCGGCCGGAAGAGCGGTCGCACCGTTTACGTGATCGGTCCGGTTAAACCTGAATTGAACTAG	MGIFQPEETHESQSSSMSYALRWKHDNLRQLMLLGAMGAVTVSLLISLVVHDQAGKEVQLVVDGRVTTVETRGSLLQELLDEQAITLSPQDQISMPLNGAIRDGDRIIIDRAIPVNVTVGSKTKTIFTSQDTVDHVLKEAGVTIQGEDIVQPSQDTKLTSNMNIHVVRVTKQKVKETEDREFRVIKTADPSLEKGDNRVIQRGEPGLMVNHYEKVYHNGKLVSKTKVSQEIERRTKDKIIAVGTKKVEKPVIVQAAATDVKATPAKLSGTKKVTTAKAVENNVVSRAGVDFKYKKVLNNVSMTAYSAEQQGIGTRTASGTRVTEGRTIAVDPNIIPIGWWVYIEGIGFRRAEDTGGAIKGNKIDVYYDSLKSAMNFGRKSGRTVYVIGPVKPELN				NA	NA	NA	NA	NA
AK002_00029	546	rnmV_1	COG1658	Ribonuclease M5	ATGATTAAAGAAGTGATTGTCGTGGAAGGCAGAGACGATACCGTTGCCATTAAACGGGCCGTAGAGGCCGATACGATCGAAACCGGCGGTTCAGCGATCAACAAACAAATCCTGAAGCGCATAGCGCTTGCCCAGGAGCGCAGAGGCGTTATCATATTGACGGACCCTGACCATGCGGGAGAACGAATCCGCAAAATCGTGGATCGGGGCGTACCCGGCTGCAAGCACGCCTTCATCCCGGAAGCGGACGCTACCCGAAAAGGGGATATCGGCGTGGAGAATGCCTCGCCAGAGGCGATACGGCGCGCGCTGGAGCGGGTTCACACGTCTTTTGAGGGTAGAGAGAGCCTGATCAGTTTGGAGGATCTGCTGGAGGCGGGATTATCGGCTCACCCGGAGGCCGCGGCAAGACGGATGGCGATGGGTAATCTGCTGGGCATCGGATACTGCAACAGCAAGCAGTTCCATAAACGATTGGCCATGTTTCAAATATCGCGGGAAGAATTTCTGGCAGCACTTGCACAGCTGGAAGAAGGGGGCATTTAG	MIKEVIVVEGRDDTVAIKRAVEADTIETGGSAINKQILKRIALAQERRGVIILTDPDHAGERIRKIVDRGVPGCKHAFIPEADATRKGDIGVENASPEAIRRALERVHTSFEGRESLISLEDLLEAGLSAHPEAAARRMAMGNLLGIGYCNSKQFHKRLAMFQISREEFLAALAQLEEGGI				NA	NA	NA	NA	NA
AK002_00030	885	rsmA	COG0030	Ribosomal RNA small subunit methyltransferase A	ATGAGTCGGATCGAGGATATATCAACACCAAGACGGACGAAGGAGATCATCTCACGCCATGGATTCTCCTTCAAGAAAAGTCTGGGCCAGAACTTTCTCATCGATCAGAATATTTTGTACAAAATCGTGGAAGCTGCAGGACTTGATGAAGATAAGGGCGCGCTCGAGATCGGGCCTGGCATCGGTGCACTGACGGAGAAGCTGGCGCAGACGGCAGGAACCGTCACCGCAGTCGAAATCGATCAGCGCCTGATTCCCATCCTGAAGGAAGTCCTGGAGCCCTACGGGAACGTGAGGGTTCATCATGGGGATGTGCTGAAGGTGGATCTTCATGAACTGTTCCGTCAGGATTTCGGGGACGTATCGAAGGTAAGCGTGGTTGCCAATCTGCCGTATTACGTGACGACGCCGATTCTCATGAAGCTGCTGGAGGAGAAGCTGCCGCTGGAGAACATCGTGGTGATGATTCAGAAGGAAGTGGCCGAACGGATGGCCGCTGCACCGGGAAGCAAGGATTACGGAAGTCTCAGCATTGCCGTTCAATATTACAGCGAGCCAAAGCTGGTCTGCATCGTGCCGCACACGGTGTTCATTCCGCAGCCGAACGTCGAGTCGGCCGTGATTCGCCTGGCGGTCCGGGAACAGCCTCCCGTTCGCGTGGAAGACGAACGCTTCTTCTTCGAGGTGGTCCAGGCTTCTTTTGCACAGCGACGGAAGACGATTGCCAACAATCTGAAGAGCCGGTTCTTCCCGGGTGAGGGGCGCGAACGGCTGGAGCAGCTGCTGCAGGAAGCAGGAATCGAGCCTTCACGGCGCGGAGAGACGCTTAGCATTGAGGAGTATGCGCGGCTTAGCAACGTGCTGTTCGGCGCCAATATCCGTTGA	MSRIEDISTPRRTKEIISRHGFSFKKSLGQNFLIDQNILYKIVEAAGLDEDKGALEIGPGIGALTEKLAQTAGTVTAVEIDQRLIPILKEVLEPYGNVRVHHGDVLKVDLHELFRQDFGDVSKVSVVANLPYYVTTPILMKLLEEKLPLENIVVMIQKEVAERMAAAPGSKDYGSLSIAVQYYSEPKLVCIVPHTVFIPQPNVESAVIRLAVREQPPVRVEDERFFFEVVQASFAQRRKTIANNLKSRFFPGEGRERLEQLLQEAGIEPSRRGETLSIEEYARLSNVLFGANIR				NA	NA	NA	NA	NA
AK002_00031	903	yabG		Sporulation-specific protease YabG	ATGAACTTGGGAGACTTGGTCGTTCGTAAATCCTACGGCGGCGATGTAACGTTCCGGGTAGAAGGCATGCGGCAAAATAATAATATCGTCATCAAAGGGACGGAATTCCGGTTACTGGCCGATGCTCCCGTTGATGATTTGGTTACGGTCCCGCATCCCACCTTAAGCGAACGAACAAAGCAGGCGCAGATCAAAGCCAATGAATCGCTGGACCGCCTGCAGAAGCAAAGACAGGAGCAGAGCGAGCGTCAACTGGCCAGCCTGCGGCATATTGAAGGCGGCCAGCTTGCGGATAAAGGATACTTTGACGTGCCGGGCAAGGTGCTGCATTTGGATGGAGATCCCCAATATCTGAAGAAGAGCATGACCTTGTACAACCAGCTTCGGGTCCCAGCGGAAGGCCATTATATCAATGAGTCGGGGATGGCCGATTCATTATATCGTCTTCTTCCGCGGGTAAGACCTGATATCGTTGTGATCACAGGGCATGATGGGGTTCTGAAGAGACGTCAGCCATACGATTTATATAGCCTGGACAGCTATAAGAATTCCCACAACTTCGTCACGGCGATTCAAGTGGCGCGTCAATATGAGCGGAACCTGGATTCCCTGGTCATCGTGGCCGGAGCGTGCCAATCGCATTTTGAGGCGCTGCTGCAGGCTGGGGCCAATTTTGCCAGCTCGCCGGGGCGAATCCTCATCCATGCGCTGGATCCCGTCTACGTCGCCGCTAAAGCGGCCTATACGTCGGTCCGGGATACCGTGAACATCCATGACGTGGTCCATCATACGATCAGCGGCAGCCAGGGCGTAGGCGGAATTGAGACGAGAGGCAGCTACCGGATCGGTCTGCCCAAGCTGCAGGATTTGTCCACCTTGAAGGTTACGCCTTCAGTCAGCTAG	MNLGDLVVRKSYGGDVTFRVEGMRQNNNIVIKGTEFRLLADAPVDDLVTVPHPTLSERTKQAQIKANESLDRLQKQRQEQSERQLASLRHIEGGQLADKGYFDVPGKVLHLDGDPQYLKKSMTLYNQLRVPAEGHYINESGMADSLYRLLPRVRPDIVVITGHDGVLKRRQPYDLYSLDSYKNSHNFVTAIQVARQYERNLDSLVIVAGACQSHFEALLQAGANFASSPGRILIHALDPVYVAAKAAYTSVRDTVNIHDVVHHTISGSQGVGGIETRGSYRIGLPKLQDLSTLKVTPSVS	PGPT0025240_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025240-yabG-K06436	NA	NA
AK002_00032	276	veg	COG4466	Protein Veg	ATGGCTAAAAATGCGCTGTTGGAAATCAAACGCAGTCTCGATGCCCATTTAGGGCAAAAAATTACGCTTCGGGCAAACGGTGGCCGTCGGAAGACCGTCGAGCGTACTGGTGTTTTGGAAGAAACGTACCCTTCTGTTTTCATTGTGAAGCTGGACCAAGACCAGCAAACTTTTAAACGTGTGTCTTACAGTTATGCGGATATTTTGACCGAAACCGTGGAGATCATGGTCACCGGTGACGACAACGAGATGCGAATCACCTATATCAAGTCATAA	MAKNALLEIKRSLDAHLGQKITLRANGGRRKTVERTGVLEETYPSVFIVKLDQDQQTFKRVSYSYADILTETVEIMVTGDDNEMRITYIKS				NA	NA	NA	NA	NA
AK002_00033	183			hypothetical protein	ATGAGCAGAAGAAGACGAAGCATCATGTCCGATCAATTGAAGACCGAATTGGCTAAAGAATTGGGATTCTACGACACCGTGGAAAAAGAGGGCTGGGGAGGCATTAAGGCCAAGGATGCCGGTAACATGGTAAAACGGGCGATTGAGCTCGCCGAGCGGGCAGCCCGCAAATCCGACCTGTAA	MSRRRRSIMSDQLKTELAKELGFYDTVEKEGWGGIKAKDAGNMVKRAIELAERAARKSDL	PGPT0024885_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024885-sspF-K06423	NA	NA
AK002_00034	855	ispE	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	TTGAAAATATACGAAAAAGCACCGGCCAAAATCAATTTGATGCTGGATGTACTCCATAAGCGTCCTGACGGCTTTCATGAGGTGGAGATGGTCATGACGATGATCGACCTCGCCGATCGGCTTGAGATGTCCGAACAGAAGCGGGACACCATCATCATCACCTCGCAGGCAGGATACATTCCGCTGGACGAGAAGAATTTGGCCTTTCAGGCAGCAAGACTAATCAAAGAGCGCTACGACGTGAAGAAGGGTGTACATATTCACCTGGACAAAAAAATTCCCGTTGCCGCGGGACTCGCCGGAGGCAGCAGCGATGCTGCGGCCACGCTGCGCGGCTTGAACCGCCTCTGGGAGCTCGGCATCCCCCAGCAGGAGCTGCTCGCGCTCGGTGCCGAGCTCGGCTCGGATGTGCCGTTCTGCGTGACCGGCGGCACGGCATTGGCTACGGGGCGCGGCGAAGTGCTCACGCCGATCCAGAACCCGCCGCAATGCTGGGTGATCGTGGCGAAGCCGCCGATCAATGTGTCGACGGCGGAGGTGTATGGCCGCTTGCGCAGCGAGCAAATTCAGTCCCATCCCTCGGCTGAACGGATGGTGGACGCGCTGGCGCAGGGCAGCTTCCAGCAGATGTGCCAGTCGCTGGGCAACGTGCTGGAAGAGGTGACCTTGAAGATGCACCCGGAAGTTCAGCAGCTGAAGGAAGGTATGCTGAAATTGGGCGCTGACGGCGCGCTGATGTCCGGCAGCGGTCCTACCGTCTTCGGACTGGTCTCCAAGGAATCCAAGGTTGCCCGGATTTACAATGGCCTTCGGGGCTTCTGCAAGGAAGTGTATGCGGTTCGCCTGCTCACTTAG	MKIYEKAPAKINLMLDVLHKRPDGFHEVEMVMTMIDLADRLEMSEQKRDTIIITSQAGYIPLDEKNLAFQAARLIKERYDVKKGVHIHLDKKIPVAAGLAGGSSDAAATLRGLNRLWELGIPQQELLALGAELGSDVPFCVTGGTALATGRGEVLTPIQNPPQCWVIVAKPPINVSTAEVYGRLRSEQIQSHPSAERMVDALAQGSFQQMCQSLGNVLEEVTLKMHPEVQQLKEGMLKLGADGALMSGSGPTVFGLVSKESKVARIYNGLRGFCKEVYAVRLLT	PGPT0007605_3181	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
AK002_00035	828	purR_1	COG0503	Pur operon repressor	GTGAAAAAATTAAAACGAAGCGAACGATTGGTCGATATGACCCAATATTTACTATCCAAACCGCATACGCTGATTCCGCTGACAACGTTCGCCGAGCGATATGGAGCAGCCAAGTCGTCCATTAGCGAGGATTTGGCGATCATTAAGGACGTATTTGAGAGCGAGGGGCTCGGAGAGCTTCAGACGCTGGCCGGCGCGGCCGGAGGGGTAAGGTACATTCCGAAGCTGCGCAGAGACCATGCCCTGCGCTTTGCGGAGGAGCTGTGCCAGCAGCTTCAGCAATCGGATCGGATTTTGCCGGGCGGCTACCTATACATGTCCGATCTGCTCGGACAACCTTCGCTCATGAACGAAGCGGGCAAAATCATTGCGACGGCATTCTCCGACCGGGAGATCGATGTGGTCATGACCGTGGAGACCAAAGGAATTCCGCTGGCCTATGCGACGGCGGCGCAATTGAACCTGCCGGTCGTACTAGTTCGCCGGGACCATCAAGTGACGGAGGGGTCGGCCGTAAGCATCAATTATGTGTCCGGCTCGCACAAGAGCATCCATACGATGTCTTTATCCCGCCGGGCGCTCAAGGAACGCTCCCGTGTACTGATCGTGGACGATTTCATGAAGGCAGGAGGCACCATTCAGGGGATGGTCGATCTGCTGGGTGAATTTAATGCCGAAGTCGCAGGCGTCGGGGTCCTGGTGGAATCGGGATCGGTAGAAACCGAGGAAAGACTTCTGGAGGACTATATTTCACTCGCGGTTTTGAGCGACGTAGACTCCAAAACCAAGAGAATTACCGTCAAACCTGGTAATTATTTCGAAAACTAG	MKKLKRSERLVDMTQYLLSKPHTLIPLTTFAERYGAAKSSISEDLAIIKDVFESEGLGELQTLAGAAGGVRYIPKLRRDHALRFAEELCQQLQQSDRILPGGYLYMSDLLGQPSLMNEAGKIIATAFSDREIDVVMTVETKGIPLAYATAAQLNLPVVLVRRDHQVTEGSAVSINYVSGSHKSIHTMSLSRRALKERSRVLIVDDFMKAGGTIQGMVDLLGEFNAEVAGVGVLVESGSVETEERLLEDYISLAVLSDVDSKTKRITVKPGNYFEN				NA	NA	NA	NA	NA
AK002_00036	285	spoVG	COG2088	Putative septation protein SpoVG	ATGCAAATTACGGATGTCAGACTCCGCCGTGTTAACTCTGAGGGGAGAATGAAGGCAATCGCATCCATTACCATCGATAATGAATTTGTCGTTCACGACATTCGCGTCATCGACGGAAACAATGGAATGTTTGTTGCAATGCCGAGCAAACGCACTCCTGACGGAGAATTCCGCGACATTGCCCATCCCATTTCCTCCGGTACCCGCGAGAAGATTCAATCGGCTGTATTGGCCGAGTATGAGCGTGCGGCTACTGAAGAAGAAGTGATTGAAGAAGGCGCTTAA	MQITDVRLRRVNSEGRMKAIASITIDNEFVVHDIRVIDGNNGMFVAMPSKRTPDGEFRDIAHPISSGTREKIQSAVLAEYERAATEEEVIEEGA	PGPT0024830_395	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024830-spoVG-K06412	NA	NA
AK002_00037	1395	glmU		Bifunctional protein GlmU	TTGAAAAGATTTGCTATTGTGCTCGCCGCTGGGCAGGGCAAACGTATGAAATCCAAACTATATAAAGTGCTGCATCCTGTTTGTGGCAAGCCGATGGTCGGACATGTGGTCCAAACGGTACAGCAGGTGAACTGCGAACGCAGTGTTGTGGTCGTTGGCCACGGCGCGGAAGCGGTTCGCACCTATCTGCAAGACGCAGCCGAGTATGTTCTGCAGGAGCAGCAGCTCGGAACGGGTCACGCCGTGAAACAAGCCAAGGAACTGCTTGGCGGTGAAGAAGGATCCACAATCGTCATTTGCGGGGACACTCCACTGGTGACGTCTGAGACGCTGGAGAATCTTCTGAAGCTTCATGAAAGCAGCAATGCGGCCGCCACGGTGCTCACCGCGCATATGGATAACCCCAAAGGCTACGGCCGAGTCATTCGAGGCGAGGATGGAAGCGCGCTTCGGATTGTCGAACAGAAAGATTGCAGTCCGGAAGAGGACGCCGTCACTGAAATTAATACCGGTACCTATTGCTTTGACAATAAAAAGCTATTTGCTGCACTGGATAACGTAACCAACCAGAATGCGCAGCAGGAATATTACTTGACCGATTGCATCGGCATCCTGAAACAAGCCGGCGAGACCGTGCTTGCTTATCAGACGGATGACTACGCCGAATCGATTGGCGTCAACGACCGTCTGGCGTTGTCGGAAGCCGAAGGCTTCATGAGAGAGCGCATCAACCGCTCGCACATGTTGAACGGTGTTACCATCATTGACCCGGCTTCTACGTATATCGGAGCCGATGTTCAGATTGGTTCGGATACCGTGCTTTATCCCGGCACCGTTCTGAAAGGGAACACGGTGATCGGCGAAGACTGCGTCATCGGGCCGGATACCGATATCGAGGACTCCGTTATCGCGGATGGTGCCAGCGTCAAACATTCGGTGCTCAGCAGCGCTGAAGTCGGCTCTCGGACCTCGGTGGGGCCTTTTGCTTATCTCCGTCCGGGGGCAAAACTCGGAGCTGACGTGAAGGTGGGCGACTTCGTCGAAGTGAAGAACGCGACGATTGACGACGGGTCTAAAGTATCCCATCTCAGTTATGTTGGCGATGCCAAAGTCGGCAAAAACGTCAATATCGGCTGCGGTGCGATTACAGTCAACTATGATGGTTATAATAAGTCCATTACCGAAATTGAAGACGATGCATTTATCGGCAGCAACGTGAATTTGATTGCACCGGTGAAGGTGGGCAAGGGCGCATTCGTTGTTGCAGGCTCGACCATTACGCATTCCGTCTCGGACAATGATCTGGCCATCGCTAGGCAGCGTCAGGAGAACAAGCCAGGGTACGCAGAGAAGATCCGGGCACGCGCCATCGCCAAGAAGAACAAGAAATCGTAA	MKRFAIVLAAGQGKRMKSKLYKVLHPVCGKPMVGHVVQTVQQVNCERSVVVVGHGAEAVRTYLQDAAEYVLQEQQLGTGHAVKQAKELLGGEEGSTIVICGDTPLVTSETLENLLKLHESSNAAATVLTAHMDNPKGYGRVIRGEDGSALRIVEQKDCSPEEDAVTEINTGTYCFDNKKLFAALDNVTNQNAQQEYYLTDCIGILKQAGETVLAYQTDDYAESIGVNDRLALSEAEGFMRERINRSHMLNGVTIIDPASTYIGADVQIGSDTVLYPGTVLKGNTVIGEDCVIGPDTDIEDSVIADGASVKHSVLSSAEVGSRTSVGPFAYLRPGAKLGADVKVGDFVEVKNATIDDGSKVSHLSYVGDAKVGKNVNIGCGAITVNYDGYNKSITEIEDDAFIGSNVNLIAPVKVGKGAFVVAGSTITHSVSDNDLAIARQRQENKPGYAEKIRARAIAKKNKKS	PGPT0018955_974	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
AK002_00038	954	prs_1	COG0462	Ribose-phosphate pyrophosphokinase	ATGACTTATCTTGATTCTAAATTAAAAATATTCACGTGTAATTCCAATCCTAAACTTGCCCATCAAATCGCTGATTATATCGGCATTCCGATGGGAGAGTCGCATACAACCAGCTTCAGTGACGGCGAGATTCAAGTTAAGCTCTCCGAGAGCGTGCGGGGTTGTCATGTCTATATTGTGCAGTCCACTTGCTTGCCGGTGAATGATAACCTGATGGAGCTGCTGGTTATGGTGGATGCGCTCAAGCGGGCATCCGCGAAGAGCATCAACGTGGTTATTCCGTATTACGGATATGCCCGTCAAGACCGTAAAGCGCGTTCGCGGGATCCGATCACCGCTAAGCTGGTTGCCAACCTGATCGAAAAGGCAGGGGCTCATCGCGTCATTACGATGGACCTGCATGCGATGCAGATTCAAGGGTTTTTCGATATTCCGGTGGATCATTTGCTTGGCGTGCCGATCCTTGCCCAATATTTCCGTTCGAAGCAGATCGAGAACCCGGTCGTTGTATCTCCGGATCACGGCGGCGTGGTTCGCGCGAGAAAGCTTGCTGATTTCCTGAATGCCCCGCTGGCGATTATCGATAAACGCCGGCCGGAGCCGAATGTCAGTGAAGTCATGAACATTATCGGGAATATCGAAGGCAAGACCGCCATTCTGATCGATGACATTATCGATACCGCCGGAACGATTGTGCTGGGTGCCAATGCGTTGATGGAAGGCGGCGTGAAGGAAGTCTATGCGTGCTGTACGCATCCGGTTCTGTCGGGCCCTGCCCATGAGCGTCTGGAAAACTCCCCGCTGAAGGAAGTTGTCGTAACGGATACCATTCCGATCACCAATCCGAACCCTAGCAGCAAACTGACGGTACTGTCGGTTGCTCCGTTGATGGGTGAAGCCATCATCCGGGTTCACGAGGAATTGTCGATCAGCAAGTTGTTTGAAATAGAATAA	MTYLDSKLKIFTCNSNPKLAHQIADYIGIPMGESHTTSFSDGEIQVKLSESVRGCHVYIVQSTCLPVNDNLMELLVMVDALKRASAKSINVVIPYYGYARQDRKARSRDPITAKLVANLIEKAGAHRVITMDLHAMQIQGFFDIPVDHLLGVPILAQYFRSKQIENPVVVSPDHGGVVRARKLADFLNAPLAIIDKRRPEPNVSEVMNIIGNIEGKTAILIDDIIDTAGTIVLGANALMEGGVKEVYACCTHPVLSGPAHERLENSPLKEVVVTDTIPITNPNPSSKLTVLSVAPLMGEAIIRVHEELSISKLFEIE	PGPT0021480_3907	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
AK002_00039	201			hypothetical protein	TTGAAAGCTTTCGAACAGAAATTAACGCATCACAGCCATTTTCAATACCATATGAAGCACGGCATCCCTGTTCAAGTCTATGAACTCGGTTGTCACATCGACGTGGGTCTGATCACTGCGGTCGACGCCTATTTTGTCGAGCTTGAGGGAACGCTGTACAACCGGAGTACGTTCACTTTCATCTCCAGGCCCGGATACTGA	MKAFEQKLTHHSHFQYHMKHGIPVQVYELGCHIDVGLITAVDAYFVELEGTLYNRSTFTFISRPGY				NA	NA	NA	NA	NA
AK002_00040	564	pth		Peptidyl-tRNA hydrolase	ATGAAATGGATTGTCGGACTGGGCAACCCCGGTCCCAATTATGAGAAGACACGCCACAATGTTGGATTCATGGCATTGGATGCCCTCGCAGAGCGCCATGGCCTGAAGTTCAATCAGAATAAATGCAAGTCGGTCATCGCCGAAGGAATGATTGGCGGCACCAAAACCGTCCTGATCAAACCGATGACGTTCATGAATCTCTCGGGCGAGGCTGTGCGTGCTTATATGGATTATTATAAGGTGAGCCTGGAAGACATGATTGTGGTTTATGATGATTTGGATACCGTCGTCGGCAAAATCCGCCTGAGGTATCAGGGCAGCGCCGGAGGACATAACGGCATCAAGTCCATCATTCAGCATACCGGGACCCAGAGCTTCAACCGGGTCCGAATGGGCATTTCGAGACCAGAGCCGGGTTATGCGATTGTCGACTACGTGCTCGGGACGTTCCCGAAGAAGGAGCGCGAACAGCTGCAGCACATGGTGGAAGAGACCTGTGACGCACTGGAATTCAGTTTGGATCATACCTTTGAGCAGACTATGGCGAAGTTTAACAAGTCGTAG	MKWIVGLGNPGPNYEKTRHNVGFMALDALAERHGLKFNQNKCKSVIAEGMIGGTKTVLIKPMTFMNLSGEAVRAYMDYYKVSLEDMIVVYDDLDTVVGKIRLRYQGSAGGHNGIKSIIQHTGTQSFNRVRMGISRPEPGYAIVDYVLGTFPKKEREQLQHMVEETCDALEFSLDHTFEQTMAKFNKS	PGPT0023420_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023420-tarL-K18704	NA	NA
AK002_00041	231	fin		Anti-sigma-F factor Fin	ATGGCGATAACCTATGTTTGCAGACATTGTCGAGCGTTCCAGGGCCGCATCGATTCCCATGATGTATCCGAAGCCCGTCTCGGATTTGATTCCTTGACCCCTGAGGAACGCAGAGATATAATAGCGTATGATTTTAACGGAGAAGTGATGGTTCGGGTAACCTGCGATCATTGTAGGGAAGCGCTCGAGGCCCATCCGGAACTCAGCCTTTTGGCAAACCCCCTGCAATGA	MAITYVCRHCRAFQGRIDSHDVSEARLGFDSLTPEERRDIIAYDFNGEVMVRVTCDHCREALEAHPELSLLANPLQ				NA	NA	NA	NA	NA
AK002_00042	3528	mfd_1		Transcription-repair-coupling factor	TTGTTACAAGCACTTATTGATGTATTTTCGAAGGATTCGGACTTCAAATCCATAACGTCTGGCGTTCATGCCGGCATGAGGGAGCAATTGATCTCCGGTCTTTCCGGGTCGTCCAGGCAGATCTTAATGGCTGCCCTGCACCAGGACCAGCAGCGCCCGCTGCTCGTGGTCACTCATAATATGTTTTCAGCCCAGAAAATCGCAGATGATTTACAGGAAGCGCTGTCATCGGATCAAGTGCTGTTATACCCTGCGAATGAACTGGTGGCGGCGGAGTCGGCCGTTTCAAGCCCCGAGACTCTGGCGCAGCGGATCGACGTGCTCGTCCGTTGTGCAAGAGGCTTCCGGGGTATTGTCGTTGCGCCATTTTCCGGCGTGCGCCGCCTTCTCCCCGCCCCCGAGGTAATGTCCGATGCCCGAATCGTGCTTCACGACGGCGGGACCCTCGTGTTGGATGCCTTCCTCAACCGGATGATCGAGATGGGGTACGAACGCGTGGAACGGGTAGAGCGCCGCGGCGAGATGAGCGTCCGCGGGGGGATCATCGACTTCTACCCGATGACAACGGCCATGGCGTACCGCGTCGAGCTGTTTGATGAGGATATCGACTCGATCCGAACCTTTGATCCGACGGATCAGCGCTCCATCGACAAGGTCCGGGAGGTTATGATCACACCGTGCAAGGAAATCATTGCGGATGCGGAGCGGCTCAGCCGCACGGCGGATACGGTGGTCCGCCTGCTGGAGGCGCAGCTTGAACGCATGAGCGACCGTCAGGCCAAGCTCCGCCTGCGAGATGAAATACACCGGGAAGTCGAAATGCTGCGCGAGCGGATCTACTTCCCTGAAATCTATAAATATATCTCCTTGTTGTATCCGGAGAAGACCAATCTGTACGATTACATGCCGAAGGATACGATTCTGATCATGGATGAGCCTGCCCGTCTGCTGGAAACAGCCAAGCAGCTGGAGCGGGATGAAGCGGAATGGAATTTGCATCTGATGCAAAACGGCAAATCGCTGCCGGATCTGCCGTTGTCCCTGGATACGGAGGAGCTGATTTATCAGCATCCCTACCAAAGTCTGATGATCTCCATCTTCCTGCGCCAGGTGCCAAGAATGCAGCCGCAGAATATCGTCAATGTCATTACGCGCGGCATGCAGGATTTCCATGGCCAAATGAACGTGCTCAAGGCCGAGATGGAACGCTGGAAGAAGTCGGGCGTCCAGGTCATGATGCTTGCCGGCGATGCGGAGCGGATGGACCGGATGCGGCGGGTTCTGCAGGACTACGGCATCGAAGAACCGGTTATGCTGGAAGGCCATCTCCAGAACGGCTTCGAGATGCCTTCGGTTCACGCGGCCATTATTACGGAGAGCGAGATGTTCTCCTCGAAGCAGCGAAAAACACGCAAAACTACAAAGAATATGGACAACGCCGAGCGCATCAAGAGTTATACGGAGCTCAAGGTCGGCGATTATGTGGTGCATCAAAACCACGGCATCGGGAAATATATGGGGATCGGGACGCTCGAAATCAACGGGATCCATAAGGACTACATGCATATTCTCTACGCTGGGGGCGATAAGCTGTCCGTTCCGATCGAACAGATCGATCTCATCCAGAAATATGTCGGTTCCGAGGATAAGGAGCCGAAGGTTTACAAGCTGGGCGGAAATGAATGGACGCGGGTCAAGAACAAGGTTCGTTCCTCCGTTCAGGATATCGCCGACGATCTGATCAAGCTGTATGCCGAGCGTCAGTCTGCGCCGGGGTACGGATTTGAGAAGGATACGTCCGAGCAGCAGGAATTCGAGGACATGTTCCCTTATGATGAAACCCCCGATCAGCTTCGGGCCATTACCGAAATCAAAAAAGACATGGAGCAGAACCGGCCGATGGACCGGCTCTTGTGCGGTGACGTCGGTTACGGGAAAACGGAAGTGGCGGTTCGCGCTGCATTCAAGGCGGCGATCGAAGGCAAGCAGGTTGCGGTGCTGGTACCGACCACGATTCTGGCCCAGCAGCATTACGAGACGTTCCGGGAGCGCTTCGCCAATTACCCGATCAATATCCAGGTGTTGAGCCGTTTCCGCAGCCGGAAGGAACAGAATGAGACGATCAAAAAAGTGAAGCAGGGCTCGGTCGATATTCTGATCGGCACGCACCGACTCCTGTCCCAGGATATTGTGTTCAAGGATCTGGGGCTGCTGATCGTGGATGAGGAGCAGCGCTTTGGCGTTACGCATAAGGAAAAATTGAAAAAGCTGAAGACCAATGTCGACGTGCTGACGCTGACGGCAACGCCGATTCCGCGCACGCTGCATATGTCGATGCTCGGCGTTCGGGACTTGTCCGTAATCGAGACGCCGCCGGAGAACCGTTTTCCGGTGCAGACGTATGTCGTGGAGCATAGCCAGACCTTGGTGCGGGAAGCCATTGAACGGGAGCTGGCCCGAGGTGGCCAGGTATACTATCTCTACAATCGGGTTCAGGGCATCCAGGAGATGGCAGCCCAGATATCGATGCTGGTGCCGGAGGCCCGCGTAGGCGTCGGGCATGGCCAAATGTCGGAAACGGAGCTGGAGAAGACCATTCTCGACTTCCTCGACGGCGAATACGACGTATTGGTGAGCACGAGCATTATCGAGACGGGTGTCGACATTCCGAATGTTAACACGCTTATCGTGCATGACGCCGACAAAATGGGTCTCTCCCAGCTGTACCAGCTGCGCGGACGCGTCGGACGTTCCAACCGGATCGCGTATGCCTATTTCACGTACCAGCGGGATAAGGTGCTGACCGAAGTAGCCGAGAAGCGGCTGCAGTCGATTAAAGAGTTTACGGAGCTGGGCTCCGGATTCAAGATTGCGATGCGGGACTTGTCGATCCGCGGAGCGGGCAACTTGCTCGGGGCGGAGCAGCATGGCTTCATCGCTTCGGTCGGGTTTGACCTGTATTCGCAGATGCTGGCAGAGGAGATTCAGAAACGCAAAGTCAGCATGCTGGGCGAGCCGTCACTGCCGTCGAAGGACTGGAACACGTCCATTGATTTGGGGATTGACGCTTACCTGCCGTCCGATTACATTTATGACAGCATTCAGAAGATCGAAATTTATAAAAAAGTGGCCGTCGTTTCCTCGATCGACGAATCGGCTGAGCTTGAGGACGAGCTGCTTGACCGCTTTGGCGAGCTGCCGCTGGCGGTAAGCAACCTGCTTGCCGTATCCCGCTTGAAGGTATATGGCCGTACGTACGGGATCGATTCCATTACCCAGCGCGGGGACGACGTTCTGCTGCAGTTTTATGAAGGGCAGGATAAAGCGGTGGACACTGCAGGGCTTGCGCAAATTGGAAATAAGTTCGAAAGACGTGTACAATTTGAACAAGGGCCGGCGATGGCCATTCGAATCAAAGGCAAGGGACTATCCGATCAACAACTGTTAGAATTGCTTGAGCAATTCCTGGAGGCTGCACAAGGGCCATTCAACCTGAAGGGAGAACTACAAAATGCCGTCAAGAAATAA	MLQALIDVFSKDSDFKSITSGVHAGMREQLISGLSGSSRQILMAALHQDQQRPLLVVTHNMFSAQKIADDLQEALSSDQVLLYPANELVAAESAVSSPETLAQRIDVLVRCARGFRGIVVAPFSGVRRLLPAPEVMSDARIVLHDGGTLVLDAFLNRMIEMGYERVERVERRGEMSVRGGIIDFYPMTTAMAYRVELFDEDIDSIRTFDPTDQRSIDKVREVMITPCKEIIADAERLSRTADTVVRLLEAQLERMSDRQAKLRLRDEIHREVEMLRERIYFPEIYKYISLLYPEKTNLYDYMPKDTILIMDEPARLLETAKQLERDEAEWNLHLMQNGKSLPDLPLSLDTEELIYQHPYQSLMISIFLRQVPRMQPQNIVNVITRGMQDFHGQMNVLKAEMERWKKSGVQVMMLAGDAERMDRMRRVLQDYGIEEPVMLEGHLQNGFEMPSVHAAIITESEMFSSKQRKTRKTTKNMDNAERIKSYTELKVGDYVVHQNHGIGKYMGIGTLEINGIHKDYMHILYAGGDKLSVPIEQIDLIQKYVGSEDKEPKVYKLGGNEWTRVKNKVRSSVQDIADDLIKLYAERQSAPGYGFEKDTSEQQEFEDMFPYDETPDQLRAITEIKKDMEQNRPMDRLLCGDVGYGKTEVAVRAAFKAAIEGKQVAVLVPTTILAQQHYETFRERFANYPINIQVLSRFRSRKEQNETIKKVKQGSVDILIGTHRLLSQDIVFKDLGLLIVDEEQRFGVTHKEKLKKLKTNVDVLTLTATPIPRTLHMSMLGVRDLSVIETPPENRFPVQTYVVEHSQTLVREAIERELARGGQVYYLYNRVQGIQEMAAQISMLVPEARVGVGHGQMSETELEKTILDFLDGEYDVLVSTSIIETGVDIPNVNTLIVHDADKMGLSQLYQLRGRVGRSNRIAYAYFTYQRDKVLTEVAEKRLQSIKEFTELGSGFKIAMRDLSIRGAGNLLGAEQHGFIASVGFDLYSQMLAEEIQKRKVSMLGEPSLPSKDWNTSIDLGIDAYLPSDYIYDSIQKIEIYKKVAVVSSIDESAELEDELLDRFGELPLAVSNLLAVSRLKVYGRTYGIDSITQRGDDVLLQFYEGQDKAVDTAGLAQIGNKFERRVQFEQGPAMAIRIKGKGLSDQQLLELLEQFLEAAQGPFNLKGELQNAVKK				NA	NA	NA	NA	NA
AK002_00043	1086	prsA3	COG0760	Foldase protein PrsA 3	ATGCCGTCAAGAAATAATAAGGCATGGAAGACGTTTATTGTATCGATCACAGCTGTACTATCCATGTCGATGATCGCTGCTTGCGGAAACGACAAGACTAAAGGTGCCGAAGAAGATAACAGCAAAGTCATTGTCAAATATAAGGGTGGAGAAATTACCGAGAAGGAATTTGACCTGGAACAGCGCATGATTCAGTTCATGTCCCCGGAATATGCCCAATTTTTGCAAATGGATGAATTTAAGGAATATTTGGCGAAACAGGGGGTAGCGTATGAGTACCTGTACGCCAAAGCTGACGATAAAGCCAAGGAAGCTGCCGAGAAGCAAACGGATGATTTGTTAAAGCAGCAAAAAACCGGAATGGGCGAGGAACAGTTTAAAGCCGCCCTGGAATCGCAAAAATTGACGGAGGACGACCTGAAGAATTATATGCTTCGGGTCATGACCGTCATGGAGCATGAGAAGAATCAGGTAACCGAAGAGGATATCAAGAAGGAATTCGATGCGAACAAGAAGGACTACACCAACATTAGCGTTCGTCATGTCCTGATTGCTTTTCAAGATGCCGAAGGCAAGGAGAGACCGGAGGGCGAGGCGCTCAAAATTGCCAAGGAAGTACAGTCCAAGCTGAATAAAGGGGAGGATTTTGCTGCTTTGGCGAAGGAATATTCTCAGGACCCGGGCTCCAAGGACAGCGGGGGCCTGTATGAGAACAAGCCGGCAGGCAGCTGGGTGCCTCAATTTAAGGAAAAGGCCTTAACGCTGGAACTGAACAAAATCAGCGATCCGGTAGAAACCGATTACGGCTACCATGTCATGAAAGTGGAGAAGCGCGAGGAAGTGACGTATGACAAGCTTCCTGCCGATCAGAAGGAAGGCATTCGGAGCGAACTGGCTTCGGCGAAGATCGACAACTTTATGCAGAATGAACTCAACAACCTGATTGAGAGCATGAACCTTCCGAAGAGCGAGAATGCGGACAAGCCTGCCGAAGGCACGGGCGACCAGAAGACGGACGGCACGACCGACAAACCGGCAGAGGGCGACCAAACACCGGATGCAGGCAAGGAAGATACGGGTAAATAA	MPSRNNKAWKTFIVSITAVLSMSMIAACGNDKTKGAEEDNSKVIVKYKGGEITEKEFDLEQRMIQFMSPEYAQFLQMDEFKEYLAKQGVAYEYLYAKADDKAKEAAEKQTDDLLKQQKTGMGEEQFKAALESQKLTEDDLKNYMLRVMTVMEHEKNQVTEEDIKKEFDANKKDYTNISVRHVLIAFQDAEGKERPEGEALKIAKEVQSKLNKGEDFAALAKEYSQDPGSKDSGGLYENKPAGSWVPQFKEKALTLELNKISDPVETDYGYHVMKVEKREEVTYDKLPADQKEGIRSELASAKIDNFMQNELNNLIESMNLPKSENADKPAEGTGDQKTDGTTDKPAEGDQTPDAGKEDTGK				NA	NA	NA	NA	NA
AK002_00044	543	spoVT	COG2002	Stage V sporulation protein T	ATGAAAGCTACTGGTATCGTCCGCCGTATTGATGACCTCGGGCGCGTGGTCATTCCAAAAGAAATTAGACGCACACTGCGGATTCGCGAAGGCGACCCGCTCGAAATCTTCGTGGACCGGGATGGCGAAGTCATTCTGAAGAAATATTCACCGATCGGTGAATTGGGCGATTTTGCGAAGGAATATGCAGAGTCCCTTTATGAGAGTACAGGCCACATCACGATCATATCGGACCGTGATACGTTTATCGCCGTTGCAGGCGGCTCCAAGAAGGAGTATTTGGACAAGCCGATCGGCAACCTTCTGGAAAACTGCATGGAAAATCGCAAGACGGTACTGGAAAGCAACAACGGTACGTATGAGATCAGCAAAGACAATCCAGAAGCGTTGTCTGCTTTTGTCGCCGCGCCTATCATTGCAGGAGGAGACCCGATTGGCAGCGTCGTGCTGCTGAACAAGGACGAATCCGTGAACATGGGCGAGATGGAAGTGAAAATGGCTGAAACTGCCGCAGGTTTCCTCGGCAAGCAAATGGAACAGTAG	MKATGIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIFVDRDGEVILKKYSPIGELGDFAKEYAESLYESTGHITIISDRDTFIAVAGGSKKEYLDKPIGNLLENCMENRKTVLESNNGTYEISKDNPEALSAFVAAPIIAGGDPIGSVVLLNKDESVNMGEMEVKMAETAAGFLGKQMEQ	PGPT0024790_164	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024790-spoVT-K04769	NA	NA
AK002_00045	1680	murJ_1	COG2244	Lipid II flippase MurJ	ATGAAACCAGATCAAACCGGGGCAAGGCTGTTGCACGGAGCGTTTATCCTCAGTGCAGCCGCCATACTGTCCAAGCTGATTGGCACGCTGCAAAAAATACCGCTGCAAAACATGGGCGGCGATGCCGTCTTTGGTATCTACAACACGGTTTATCCGTTCTATATGATGATCATTACAATCGCGGCGATCGGTTTTCCCGCGGCCGTATCCAAGTATGTGGCAGAGTATGAGGCGGAAGGGCGCACTCGGGACGGTCATCGGCTGCTGCGCTTGTCCTCCGCCGCGCTGGTGCTGTTCGGTCTGATTCTCGGTTTCCTGATGTACGCCTGCGCTCCGTGGATCGGGAAGTGGATCGGCAGCAGCCAGGTAATACCGGCTCTCCGCGCAGGAGCTTTGGCGCTGGCTTTCGTGCCCTGGATGTCGGTTCTGCGCGGTTACTTTCAGGGGCTGCATAATATGGTGCCGACGGCTATCTCCCAGATTACGGAGCAGATGGTCCGCGTCGGGGTCATGATCGTGCTGTTGCTCTACCTGATCCGTGTCGGCGCCGATGCCGACGTGATTGCGGCGGGGGCGCTGCTTGGATCTGCTGCCGGCGGTGCCGCCGGTCTGTTGGTGATGGGGCTCTACTGGCGCAAGCATATCCGGGCATCTCGAAGCGCCACGCGGGGAGCAGCAAGGCACGAATTCGGAGAGTCCGGTATGAACAAAACGGAGATGCATGCCGATGTAACTAAAGAGGGAGCAGGTGTTCTGCTTGGCCGCCTGCTTGCTTATGGCATCCCGGTCTGCCTCAGTCTGCTGGCGGTTCCGCTGATCGGACTGGTGGACACCTTCACCGTGCCCCGGTTATTGACGTCCGGCGGACTTGGCGAATCGCTGGCCATGGCGGAGTTTGGGGTCTATAACCGCGGCCTGCCGCTGGTCCAGCTGGTTACGATGCTCGCCGCTTCCTTGTCGGTTCTGTTCATTCCTGCGCTGGCGGAAGCCAAGTTCAAGGGAGAATCGGACCGGGTCGCAAGCCAAAGCCGCATGGCCCTTCGCTGGTTCTGGCTGATCGGCATGACGGCCTCCGTAGGCCTGGCTGTGCTCGCTGAGCCGATCAATATCATGCTGTATGAAGATGCCGCAGGTACGGGCACGATGCAGGTGATTGCCTTTACAGCGGCCGGGGGGACTCTGAGCACGATTACGGCAGCGCTGCTCCAGGGCATCGGCATGGTCAAGGGGCCGGCGATTCACCTGCTGGCTGCGGCAGGTCTGAAGCTGCTGCTCAACCTGCTGCTGGTGCCGCAGTTCGGCATTACCGGCGCGGCCATCGCCGGCGTGGCTGCGCATCTGACCGCCGCCGCGCTCAACCTCGCGCTGCTCTCGCGAAGGGCCGGCGCCCGCCTTGACGCCGGCGGAATGCTGGCGAGGACGCTGCCGGTCCTCGCTGCGGTGGCGCTGGCCGCCTGGGGCGCAAGTGCCGCGTCCGGCGGCCTTCTGGGGGCGGCCGGCTTCGCACCAGGCCGCCTGACCCACGCGTTCGCGAGCCTGAGCGGCGTCGCGGCCGGCTGCGGCGCCTTCCTCATCGGCGCCGTGCTCACGAAGCTCCTCACCGAGGAGGAGCTTCGGATGCTGCCGAAGGTCGGAAGACCGCTGGCAGCCTTCTTGCGGGCCCTGCGCGTGCTGCGCTGA	MKPDQTGARLLHGAFILSAAAILSKLIGTLQKIPLQNMGGDAVFGIYNTVYPFYMMIITIAAIGFPAAVSKYVAEYEAEGRTRDGHRLLRLSSAALVLFGLILGFLMYACAPWIGKWIGSSQVIPALRAGALALAFVPWMSVLRGYFQGLHNMVPTAISQITEQMVRVGVMIVLLLYLIRVGADADVIAAGALLGSAAGGAAGLLVMGLYWRKHIRASRSATRGAARHEFGESGMNKTEMHADVTKEGAGVLLGRLLAYGIPVCLSLLAVPLIGLVDTFTVPRLLTSGGLGESLAMAEFGVYNRGLPLVQLVTMLAASLSVLFIPALAEAKFKGESDRVASQSRMALRWFWLIGMTASVGLAVLAEPINIMLYEDAAGTGTMQVIAFTAAGGTLSTITAALLQGIGMVKGPAIHLLAAAGLKLLLNLLLVPQFGITGAAIAGVAAHLTAAALNLALLSRRAGARLDAGGMLARTLPVLAAVALAAWGASAASGGLLGAAGFAPGRLTHAFASLSGVAAGCGAFLIGAVLTKLLTEEELRMLPKVGRPLAAFLRALRVLR	PGPT0017190_5	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_OTHER_SUGAR_TRANSPORT_RELATED_PROTEINS,PGPT0017190-TC_PST-K03328	NA	NA
AK002_00046	1518			hypothetical protein	ATGAGTGCATCCATTACGGTGGTCGGCTTGGGTTCTGGCAATCCGGATCGATTGACGATAGGCATCATCAAAACCATGCAGCGGGCATCGAAGGTGTATGTGCGCACATTATCCCATCCCGTCATGGCTGCGTTGAAGGAGTTCCAGGTACAGCCGGAATCGTTTGACCATGTGTATGAAGCGCATGACACTTTCCCCGAGGTGTACGAATCCATTGCAGCCGCTCTAATCAATTTGGCCAAGGCCGCGAAGGACGACGAGCGCGAGATCGTCTACGCGGTACCCGGGCATCCGATGGTAGCGGAAGCAACGGTCCGGCTATTGCGCGAGCGCTGCCCCGGAGAGAATGTGATGCTTACGGTGCTCGGCGGCGAGAGCTTTCTGGACGAGGCCTTCGTCCGCCTTGGCTTCGATCCCATTGAGGGCTTCCAGCTGCTCGATGCCGCTGAGCTTCGGGCAAGCGTCATCCAGCCGCAGCTGCATACCCTGATCGGCCAGGTGTATGACATGTTTACGGCTTCGGAAGTGAAACTGGCGCTGATGGAGCTGTATCCGGACGATTATCCGGTCATTGTCGGCCATGCGCTGGGCGTTGAGGGCGAGGAAGCGATCCGGCAAGTGCCGCTCTTCGAGCTCGATCGCATCGACGGCTACGGCAATTTGTCGCTGATCTATGTACCCCGAAGCGATGACAGCAATCTAAGGCAGCGGACGTTTGCGAGGCTTCACGAGATCGTTGGCATTCTCCGCAGTCCCGAAGGCTGTCCGTGGGACCGTGAGCAGACCCACGAATCCATCCGCAAAAATCTGATCGAAGAAACCTACGAGGTATTGGAGACGATTGACGAGGATGACCCCGAGCATATGCAGGAGGAACTCGGCGACCTGCTCCTGCAGATTATGCTGCATTCCCAGATGGAAGAAGAGCTGGGTACCTTCACGGTGTATGACGTCATTCAAGCCCTGAATGACAAGCTGATCTTCCGCCACCCGCATGTTTTTGGCGAGAGCAGCGCCAAAGACGCGGAATCCGCCCTGCAGAACTGGGAGCAGATGAAGGCGGAAGAGAAACGGCGCAAGGGGCTCTCCCCGGAGAAAGCTTCGGCGCTGGACGGCATCCCGCGGGACCTTCCCGCCTTGATGAAGGCGTACAAGCTCCAGAAGAAGGCGTCCAAGGTGGGCTTCGATTGGGATAACATCGACGGCGTATTCCAGAAGATTGAGGAGGAGCTCGGTGAGCTGCGGCAAGCGGTGACGGAGGGTCAATCCGACGAGGATACGGCGCTCGAGCTCGGCGATCTGTTGTTCGCGGTTTCCAATGCGGCAAGATTCATCGGCGCGGATCCGGAAGAGGCGCTTTCGAGAACGAACCGGAAGTTTATCCGTCGTTTCAGCTACATAGAGGAGCAGCTTGCCGCCCAGGGCAAAACCCTGCAGGAAAGCACCTTGGACGAGATGGAAGCCCTGTGGCAGTCCGCCAAAACGGGATCGGCGCATCACGGCGGTATCAAAGAGTGA	MSASITVVGLGSGNPDRLTIGIIKTMQRASKVYVRTLSHPVMAALKEFQVQPESFDHVYEAHDTFPEVYESIAAALINLAKAAKDDEREIVYAVPGHPMVAEATVRLLRERCPGENVMLTVLGGESFLDEAFVRLGFDPIEGFQLLDAAELRASVIQPQLHTLIGQVYDMFTASEVKLALMELYPDDYPVIVGHALGVEGEEAIRQVPLFELDRIDGYGNLSLIYVPRSDDSNLRQRTFARLHEIVGILRSPEGCPWDREQTHESIRKNLIEETYEVLETIDEDDPEHMQEELGDLLLQIMLHSQMEEELGTFTVYDVIQALNDKLIFRHPHVFGESSAKDAESALQNWEQMKAEEKRRKGLSPEKASALDGIPRDLPALMKAYKLQKKASKVGFDWDNIDGVFQKIEEELGELRQAVTEGQSDEDTALELGDLLFAVSNAARFIGADPEEALSRTNRKFIRRFSYIEEQLAAQGKTLQESTLDEMEALWQSAKTGSAHHGGIKE				NA	NA	NA	NA	NA
AK002_00047	273	hup_1		DNA-binding protein HU	ATGAACAAAACAGATCTGATCAACAACATTTCCGGTAAAAGTGGATTGACTAAAAAAGACGTAGAGAACGTCCTGAACGGCTTCCTTGGCGAAATCACGGAAGCTTTGGCTAATGGCGATAAAGTTCAATTGATCGGCTTCGGTACATTCGAAACTCGCAAGCGCGCTGGACGCACAGGCCGCAACCCGCAAACAGGCAACACGATCGAAATTCCAGAATCCAACGTTCCTGCGTTCAAGGCAGGCAACAAGCTTAAAGAAGCTGTAAAATAA	MNKTDLINNISGKSGLTKKDVENVLNGFLGEITEALANGDKVQLIGFGTFETRKRAGRTGRNPQTGNTIEIPESNVPAFKAGNKLKEAVK				NA	NA	NA	NA	NA
AK002_00048	279		COG1188	putative protein	ATGCGCGTCGATAAATTCCTGAAAGTATCGAGGTTAATCAAGCGGCGTACCGTAGCGAAAGATGTATCGGATCAAGGCCGGGTGCTGATCAACGGCCGCGAGGCCAAGCCGAGCAGCACGGTTAAAGTGGGCGATGAGATCACCGTCCAGTTTGGCCAGAAGCTGGTGACCGTCCGGGTCGAGCGTCTTACCGAGACAACCCGTAAAGATGAGGCGACCAGCCTCTATACCTTGGTCAAGGAAGAACCGATCGTTAAAGATCGCGGATTGGACTGGTAA	MRVDKFLKVSRLIKRRTVAKDVSDQGRVLINGREAKPSSTVKVGDEITVQFGQKLVTVRVERLTETTRKDEATSLYTLVKEEPIVKDRGLDW	PGPT0012225_994	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK002_00049	282	yabP		Spore protein YabP	ATGATCGACCAAGGGAAGGGCAAGTTTCATGATCTGCGGATGCAGAACCGGAAGCTGCTGGACATTACGGGTGTCCAAAACGTGGAGAGCTTTGACAGCGAAGAATTCCTGCTTCAGACCGAGCTTGGGCATCTGACCATTCGAGGGCAAAATTTACATATTAAAAATCTCAGCCTGGAAGAGGGGCTTTTGTCGATTGAAGGTCAGGTGCACTCCCTGATATATTTGAATCCCGGTTCGCAGACCAAGAACAAGAGTCTGCTGGGCAAGCTGTTTAAATGA	MIDQGKGKFHDLRMQNRKLLDITGVQNVESFDSEEFLLQTELGHLTIRGQNLHIKNLSLEEGLLSIEGQVHSLIYLNPGSQTKNKSLLGKLFK	PGPT0024990_245	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024990-yabP-NA	NA	NA
AK002_00050	570	yabQ		Spore protein YabQ	ATGAATCCCAGCGTACAATGGATCACGCTGCTCTGGATGCTCTTCTCCGGAGCAGCGATGGGAGTCGCCTTCGACAGCTACCGGGTGCTGGCAGGGCAGCTCCGTTTCCCGCAATGGTCCAAGCATGCCCTGGACTTCCTTTACTGGATTGCGGCAGCCTTCTTCATTTTTCGCATGTTATACATGACCAATGACGGGCAGCTACGCTTTTATGTGTTTGTTGGGCTATTTATAGGGGTTTGGATCTATTTTTTATTATGGAGTGTCATAACCCAGCGTTTTGTGGTAATGTTAATTCAAGTGACAAAAGGCTTGCTGTCCTTTTTGTACAAGCTGTTCCGTATGCTATTATGGAATCCGATCAAAGGAATCCTGATGCTGGGCTTAGGGCTGTTAAGGTTTCTATGGAAGTTTCTCCTGTCGCTGTTGCGTTTAATCCTTAAATGCCTCATGCCTTTTTGGCGACTCCTGAAATGGATGCTGAGACCGATCACGTCCAGGGTCAGGCTGCCGGCATGGAGCAGGCAATTAGCGGACAAGGTTATCAAGGCGTGGAAGCGCTGGTTTTAG	MNPSVQWITLLWMLFSGAAMGVAFDSYRVLAGQLRFPQWSKHALDFLYWIAAAFFIFRMLYMTNDGQLRFYVFVGLFIGVWIYFLLWSVITQRFVVMLIQVTKGLLSFLYKLFRMLLWNPIKGILMLGLGLLRFLWKFLLSLLRLILKCLMPFWRLLKWMLRPITSRVRLPAWSRQLADKVIKAWKRWF				NA	NA	NA	NA	NA
AK002_00051	351	ftsL_1		Cell division protein FtsL	ATGGGAAGATTTGCTGATCCATCGAAGCAGGCTCCCCAACAAACCAAGACAAAGAACAAAGGCGCCCGCCGGCGTAAGAGAATGTTTGTGGCGATGATGGCGCTGTTTTTGATCTGGGCAGGATCAACGCTCTGGTCCCAGAATGACCGCATCCGTAATCAGAACGAAGCGCTAGCTCAGAAGCAAGAGGATTATAAGTCCGTTGAACAGTCGCTCATCCAGATTACTCACGAAGTGGAGCGATTGAAGGACCCAGAATATATCGGGCAGATTGCCCGCAAGAAGTTCGGATTGTATCTGCCGAATGAAACGCCGATCATTCAGCCCCAAAATTCGGGCGAATCGCCGTAA	MGRFADPSKQAPQQTKTKNKGARRRKRMFVAMMALFLIWAGSTLWSQNDRIRNQNEALAQKQEDYKSVEQSLIQITHEVERLKDPEYIGQIARKKFGLYLPNETPIIQPQNSGESP				NA	NA	NA	NA	NA
AK002_00052	489	pnp_1		Polyribonucleotide nucleotidyltransferase	ATGGCAATTGAAGTGGGCACCAAGTTAGAGGGCAAGGTGACAGGCATAACGCATTTTGGAGCATTTGTGGATCTGTCAGGAGGTGTCACGGGTCTCGTTCACATCTCGGAAATCGCCGACAACTACGTTAAGGATGTCAACGATCATTTGAAGATCAACGATGTCGTTACCGTGAAGGTGATTAATGTCGACAAGGACGGCAAGATCGGTCTATCGATCAAGCAGGCTGTCGACAAGCCGGCTTCCGAAAGTCGTCCACCCCGCGCACCGAGACCGGAACGCAGTGGAGGCGGCGGAGAACGATTCGGAGGTGGCGGTGGAGGAGGATTCAACCGCGAACGCGGTGGACGCCCGTTTAAGCCTGCGGCCAACAAGCCTTCATTTGAGGATAAAATGTCACGCTTCCTGAAAGACAGTGAAGAACGAATCTCTTCGCTCAAGAAGAATACGGAAGGCAAACGCGGCGGACGCGGAGCCAAACGTATGTAA	MAIEVGTKLEGKVTGITHFGAFVDLSGGVTGLVHISEIADNYVKDVNDHLKINDVVTVKVINVDKDGKIGLSIKQAVDKPASESRPPRAPRPERSGGGGERFGGGGGGGFNRERGGRPFKPAANKPSFEDKMSRFLKDSEERISSLKKNTEGKRGGRGAKRM	PGPT0014890_14	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014890-yugI-K07570	NA	NA
AK002_00053	2511	spoIIE	COG2208	Stage II sporulation protein E	ATGGATAAAAGAAATCTGGTGATGTTTCCGGGTACTGAGGCAGTTAAAGGGGGAGCGGGTTCCATTCGTGCCCGCGTGGCGGAACGGTTAGGGCAGCTGCCTTTCCTGCAGCGTCCCATCCACTTCCTGGCCGCAAAGAAGTGGATGATCCTGCTAACCTTCATGGGTTTTCTGCTCGGACGAGCTATGATTCTGGGGGAACTTTCTCCATTTGCCGTCGCCTATTTCGCAGTCATCGCCTTTATGCGACGCGATGTTTTGCTGCCGGTAGGCGCAGCGATCGTTGCAGGAAGTTTATTTGCGTCCTTTCCGGTGGCATGGATGGTGCCGGCAGAGATTTTGATCTTTTATTTTATGATGCGGGGCTTGGAGACATATGATCGGGCGGAATTGTCTTATGCACCGTTGATGGTATTTGTCTCCACCTTCTTTGTGAACCTGTTCAGCGTCCTCATCGGACCCAGCATTACCTGGTACTCCATGATGATGCTCACCTTGAATGCCGTACTCAGTTTCGTGTTAACGCTGGTCTTTATCCAGGCGATTCCGGTGCTGACGCTTCGTAAAAAAACGCATGTTCTTCGTAATGAAGAAATTCTATGCATCATCATTCTGCTGGCGTCGGTCATGACAGGTGCCGTCGGCTGGACCGTTCAATCCCTGTCGGTGGAGCATGTCTTATCCCGGTATCTGATTCTGCTGTTTGCGTTGGTAGGGGGTGCGCCGCTGGGCGCCTCGGTTGGCGTAGTGACGGGCCTGATCCTCAGTTTGGCCAATATATCGGCCTTCTCGCAGATGAGCCTGCTCGCCTTTTCCGGGATGCTTGCCGGTATGCTGAAGGAAGGGAAGAAAGGCGGCGTATCGCTGGGCATGCTGCTCGGGGCAACCATTCTTTCCATCTATTTCAGCAATCCCGGAGAAGTCATGATCTCCACATGGGAAACCTGCGCAGCCATCGTGCTGTTCCTCATTACACCGAAAAGCGTGATGCAGGCCATCGGCAGATATGTGCCGGGGACGCAGGATCATACCCGTTCTCAGCATGAATATGCCAAGCGGGTCCGGGACCTCACAGCCGATCGCGTGACCCAATTCTCCAAGGTGTTCCGCCAGCTCTCGCAAAGTTTCGGACAAACGTCAGGGGTCATACAGCCTCCAGGCAAACAGGCGGAGGAGATGAATCATTTCATGAATGCCGTGGCGGAAGGAAGCTGCGCCACCTGCTATAAACGGAATCAGTGCTGGGACATGAAATTCTACCAGACTTATAAATATATGACCGATATGATGACCTCGATCGAGGAGAATCCCGAGATGGAAGCAGACGATCTGCCGCCGGAGTGGAGCCGGATCTGCGCCAAGAAGGAGGAGGTGCTCGGCATCCTGAAGCAGCAGTATCATCTTTACCAACATGATATGCAGTGGAAACGCCAAATATACGATAGCCGCCATCTGGTAGCGGAACAATTATCCGGGGTGTCGCAGGTCATGGAGGATTTGGCTCGAGAGATTAAACGGGAAAGCCAGACGATGCACATTCAGGAGGAGCAGATCAGGGAAGCGCTGCAGCAGTTGGGGTTATCGATCCAAGGCATCGATATTATTAGCCTGGATTCGGGTCAGGTCGAGATTGAGATCGTTCATGCGTATACCCGCGGATATGACGAATGCAGGAAGATTATCGGACCGCTGCTGTCCGACATTCTCGGGGAGCATATCGCCGTGATGGAAGAAACCCTGACCCATCCTAGGGACGGATTGGCGACGGTGCGTTTCGGTTCGGCCAAAACATTTGAAATTATGACGGGGGTAGCGGCAGCGGCCAAGGGAGGAGATCTTTTATCAGGGGATAGTTTCAGCACGGTTGAGCTGGGCAACGGCACGTTTGCGGTAGCGCTCAGCGATGGAATGGGGAACGGGGAAAGGGCAAGGCTCGAGAGCAGCTCGGCCCTGAATATATTGGAGCAGCTGCTACAATCCGGCATGGATGAGAAGCTGGCGATTAAATCGGTCAACTCGATCCTGATGCTGCGTTCGCCGGATGAAATCTATGCCACCGTCGATATGGCTCTCATCGATCAATACACGGCTCAGACCACTTTTATGAAGATCGGTTCGACGCCAAGCTTTATCAAAAGGGGCAATGATGTCATACCGGTCTCGGCCAGCAATCTTCCCATCGGCATTATCCAGGATATCGAGGTGGATTTGGTATCCCTGCAGCTGCAGGCGGGCGATGTTCTCATTATGATGACGGACGGCATTTATGATGCGCCGGGTTACGCGGTGAACAAGGAGTTATGGATGAAACGAATGATCCAGGAAGTGAACAGTGAAGACCCGCAGGAAATAGCCGATTGTCTGCTTGAGAAGGTGATCCGCTATCAACAGAATCAAATCCATGATGACATGACGGTGGTGGTCGGGCGCGTGGATCACTTCCATCCGGAATGGTCGAATGTGCATGTTCCGGGATTCGCCCGCATGGAGCGGCCTCGAACGGTTAGCTGA	MDKRNLVMFPGTEAVKGGAGSIRARVAERLGQLPFLQRPIHFLAAKKWMILLTFMGFLLGRAMILGELSPFAVAYFAVIAFMRRDVLLPVGAAIVAGSLFASFPVAWMVPAEILIFYFMMRGLETYDRAELSYAPLMVFVSTFFVNLFSVLIGPSITWYSMMMLTLNAVLSFVLTLVFIQAIPVLTLRKKTHVLRNEEILCIIILLASVMTGAVGWTVQSLSVEHVLSRYLILLFALVGGAPLGASVGVVTGLILSLANISAFSQMSLLAFSGMLAGMLKEGKKGGVSLGMLLGATILSIYFSNPGEVMISTWETCAAIVLFLITPKSVMQAIGRYVPGTQDHTRSQHEYAKRVRDLTADRVTQFSKVFRQLSQSFGQTSGVIQPPGKQAEEMNHFMNAVAEGSCATCYKRNQCWDMKFYQTYKYMTDMMTSIEENPEMEADDLPPEWSRICAKKEEVLGILKQQYHLYQHDMQWKRQIYDSRHLVAEQLSGVSQVMEDLAREIKRESQTMHIQEEQIREALQQLGLSIQGIDIISLDSGQVEIEIVHAYTRGYDECRKIIGPLLSDILGEHIAVMEETLTHPRDGLATVRFGSAKTFEIMTGVAAAAKGGDLLSGDSFSTVELGNGTFAVALSDGMGNGERARLESSSALNILEQLLQSGMDEKLAIKSVNSILMLRSPDEIYATVDMALIDQYTAQTTFMKIGSTPSFIKRGNDVIPVSASNLPIGIIQDIEVDLVSLQLQAGDVLIMMTDGIYDAPGYAVNKELWMKRMIQEVNSEDPQEIADCLLEKVIRYQQNQIHDDMTVVVGRVDHFHPEWSNVHVPGFARMERPRTVS	PGPT0024675_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024675-spoIIE-K06382	NA	NA
AK002_00054	741			hypothetical protein	ATGAAACAAATCTTGCTGATTACAGACGGGTGTTCGAATGTCGGTGCCAGTCCGGTTCTGGCCGCGGCGCATGCGCTGCAGGATGGTATTGTCGTAAACGTGGTGGGGGTCCTTGATTACGGGACGATCGGTGAACTTGGGGGATTGGAAATACAGGAGATAGCCAAAGCGGGAGGAGGCATACACCGGATCGTAGGTACGCCGCAGCTTGCGCAGACGATGCAGATGATGACTCGGAAAACGGTGGTTCAGACGATCCAACAAGCGGTAAATAAGGAGATACAGCATATTTTGGGAGGCGGGACGCTGGAGGAACTTCCGCCGGACAAGCGTTCGCAAGTCGTCGAAGTGGTGGATGAGCTGGCCGAGACGTCATCCCTTCAGGTTGCACTGTTAATCGATGCAAGTGCAAGCATGAAGCCTAAGCTGGCAGCCGTTGAGGAAGCGATACGCGACCTGATGCTGAGCTTGAAAGCGCGCGCAGGCTCAAGCGAATTGTCGGTATTCCATTTTCCCGGAAAACATAGCGGAGAGGATATCGTCATGGACGTGGATTGGACCTCGGATCTTGACGGTGCCCGCGGCATGTTCAGCAGGCTGCAGATGAAGGGGGCGACGCCGACAGGACCTGCCTTGTTAAAGGTGATTGAATTTTACCGATATGGTACACTAGAAGGTAATCAATCATGGCAGGGTCGTTCCAGCCAAGAGGAAGGGATGCTCGGTGACTACGTTGTCTAA	MKQILLITDGCSNVGASPVLAAAHALQDGIVVNVVGVLDYGTIGELGGLEIQEIAKAGGGIHRIVGTPQLAQTMQMMTRKTVVQTIQQAVNKEIQHILGGGTLEELPPDKRSQVVEVVDELAETSSLQVALLIDASASMKPKLAAVEEAIRDLMLSLKARAGSSELSVFHFPGKHSGEDIVMDVDWTSDLDGARGMFSRLQMKGATPTGPALLKVIEFYRYGTLEGNQSWQGRSSQEEGMLGDYVV	PGPT0014015_7180	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
AK002_00055	921	yabT	COG0515	putative serine/threonine-protein kinase YabT	GTGACTACGTTGTCTAACCCGGGTTATCCGCCAGGAACCGTAATTAAGGGCAAATGGCGGAACAGCCGGTACATCGTGGAACGTATGCTCGGTAAAGGGGCTAACGGCAAGGTGTATCTGGTCCACCGGGCAGGAGTTCGCGAGCGTTATGCTTTAAAAGTAGGCTATGACGCTCTGGATCTACAATCCGAAATTAATGTGCTGAATGCGCTGAAAGAACAAATGACGGACCCTTACCTCGTGGAGGCGGACGATCATCATGATGGCAGCGGCGAAGTGTCCTTCTATGTCATGCGTTACATTGAGGGGAGCCCGCTGCATCATTTTATTCGCAAACGCGGCACCGAGTGGGTCGGCCTGATCGGGCTGAAGCTGCTTGAGAAGCTGTCCGTTCTGCATGCATCCGGTTATGCGTTCGGAGATTTGAAGCCGAATAATGTGATGGTTTCGGCCTACGGAAGGGTGGAACTGATCGATTACGGCGGCGTCAGCTCCTTCGGGCGCAGCGTAAAGCAGTTTACGGAATGGTATGACCGGGGATACTGGAATGCCGGGAGCCGGACCGGCGACGTATCCTATGATTTGTTCTCGTTTGCCGTGATGTGCATCGGCCTGCTGGATGAGAAGTCGCTTAAGGAGGCGTCTTGTCAGCTCCCCCAAACCCGGAGCGTTGCCGACCTGCAGCTGGTGCTGCGAAGAAACCCCGTATTCAAGCCGTACGCCGTCTGGCTGAACAAGGCATTATCGGGAGAATTCGCGGATTCACGGGAAGCGCTGAACGAGTGGAGAAAACGGATATATGAAGGCTCGAGCCGAGGCGGGCGCCCAGCTCCGGGACGTACACCGCGCTGGCTAAGGAACGCGTTTGGGTTGTCCTTGGTCATTATGGCCTGCGCCGTTTATTTTTTCTTTCGCTCATGA	MTTLSNPGYPPGTVIKGKWRNSRYIVERMLGKGANGKVYLVHRAGVRERYALKVGYDALDLQSEINVLNALKEQMTDPYLVEADDHHDGSGEVSFYVMRYIEGSPLHHFIRKRGTEWVGLIGLKLLEKLSVLHASGYAFGDLKPNNVMVSAYGRVELIDYGGVSSFGRSVKQFTEWYDRGYWNAGSRTGDVSYDLFSFAVMCIGLLDEKSLKEASCQLPQTRSVADLQLVLRRNPVFKPYAVWLNKALSGEFADSREALNEWRKRIYEGSSRGGRPAPGRTPRWLRNAFGLSLVIMACAVYFFFRS				NA	NA	NA	NA	NA
AK002_00056	180			hypothetical protein	ATGTTTCCGCAGGAAACATACTTCGAAAGCGTCTGCTTAGGCCCGGCTGAGTTCAAGATTGATGCCGAGTGGCTTCCGGATTCACTTCGTGTTAGATATAGAATTTATGAGTTATCAGTGGAACTGATGAAATTCTATAGCAAGAAAACCTACCTATGCATCGCGGTCGCTCATCCTTGA	MFPQETYFESVCLGPAEFKIDAEWLPDSLRVRYRIYELSVELMKFYSKKTYLCIAVAHP				NA	NA	NA	NA	NA
AK002_00057	1431	tilS	COG0037	tRNA(Ile)-lysidine synthase	GTGAAACAGGATTATTTACGAACATTCGTCCAACATATCGAGCGTACTGCCGCAGAGTTTGATTTGTGGTCGGAAGGCGACGGTATCGTGGTTGCCGTTTCCGGCGGACCGGATTCCGTTGCGCTTCTGCACGTTCTGCATGAAATCTCTATGCACCGTACGCCGCTCCGATTGATCTGCGCTCATGTGCATCATGGTTTTCGAAGAGAGTCGGATCAGGAGGCGGAGATGGTGCGCGAGCTGGCGGAATCGCTCGGACTTCCATTGGAAACGGCGTTCATCGATATTCCCGCTTATATGGAAGAGAGCGGCAAGGGTGGACAGGAAGCGGCGAGAGAGAAGCGTTACGAATTTCTGCTGCAAACGGCCCGGAAACACAATGCGCGCTCCGTGGCTTTGGCTCATCATGCCGACGATCAAGCCGAGACGGTATTCATGAGGCTACTGCGCGGAAGCGGTTTGTCGGGCCTGGGCGGCATCAAATTTAAGCGCACGGAAAAAAAAGTGGAACTTATCCGCCCGTTCCTTCGTATGTACAAGGCGGATATCGTGGAGCTGTGCCGCGTGTGCGGATTCCAGTATGCGGTGGATCACAGCAATCTGCAGACGAAGTACCGCCGTAATGCGATTCGCCTGGAAGTATTTCCTTTTTTGGAGCGATACAACGGGCAGTTCTCCTCCTCACTCAATCAGCTGGCCGAAATTGTCCAGCAGGAGGATGATTTTGTGGAGCTTGAAGCTGCGAAGCAATTTCGGAGTTTGGTACAGGAGAACGATGGGAGGCTCGCTTTCGACGCGCCTTCCTTTTTGGGCTTACATGTCGCTTTACAACGGCGTTTGATTAAACTAATATTAAATTACCTGCCCTCAGATCAGGAAAACACCGATTTTGTCAAGATTGAAACGGTGCGCCACGGCATTCTTAACGATCAGCGAAGCAACTGGCGTCTGGATCTGGGTGACGGCATAACCTGTGTTCGTGAGTACGGAGTGATCCAGTTTTGGCCTAATCCTCCGGAAGAACAGGGACAGTACATATACATTCTTGATTCTCCTGATGCGTCAGAGCTTTATGTTAAGGAAATCGGAAAAATGCTGACATTGTCGTTAAAGACAGGAAGCGAAAGCCGGAGCGGCTCCAGACCATCGGCCTTTGTGGCGGATTTTGATGCGGATGAGCTGCGGTTTCCTTTAACCGTGCGCAACAGACAGCCGGGAGACAAGATGAAGATCATGGGATTAAACGGAAGCAAAAAGGTGAAAGATATTCTCATTGATGAGAAAATCCCGCCGTCTGTCCGTGCCCGGATTCCTATTCTTTGTGACGGTTCCGGCAGCATCGTATGGATTCCAGGTGTACGACGTTCCGTTCACGCCGCTTGCGGGCGGCACACATCACGAGTTCTCCGGATGGAGCTGTCGGATGTTTAA	MKQDYLRTFVQHIERTAAEFDLWSEGDGIVVAVSGGPDSVALLHVLHEISMHRTPLRLICAHVHHGFRRESDQEAEMVRELAESLGLPLETAFIDIPAYMEESGKGGQEAAREKRYEFLLQTARKHNARSVALAHHADDQAETVFMRLLRGSGLSGLGGIKFKRTEKKVELIRPFLRMYKADIVELCRVCGFQYAVDHSNLQTKYRRNAIRLEVFPFLERYNGQFSSSLNQLAEIVQQEDDFVELEAAKQFRSLVQENDGRLAFDAPSFLGLHVALQRRLIKLILNYLPSDQENTDFVKIETVRHGILNDQRSNWRLDLGDGITCVREYGVIQFWPNPPEEQGQYIYILDSPDASELYVKEIGKMLTLSLKTGSESRSGSRPSAFVADFDADELRFPLTVRNRQPGDKMKIMGLNGSKKVKDILIDEKIPPSVRARIPILCDGSGSIVWIPGVRRSVHAACGRHTSRVLRMELSDV	PGPT0021660_31	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021660-tilS_hprT-K15780	NA	NA
AK002_00058	540	hpt		Hypoxanthine-guanine phosphoribosyltransferase	TTGCAGAATGACATTCAGGAAATACTCATCAGTGAAGAAGAGATCCGCGCAAAAATTAAGGAACTCGGTTCCAAACTCAGCGCCGAATATGAGGGACGCAATCCGCTCGTTATTTGCGTTCTTAAAGGTGCGTTTATTTTTATGGCCGACTTGGTTAAATCCATAACAGTACCTCTGGAGTTGGATTTCATGGCTGTATCCAGCTATGGAGCATCAACCAAATCCTCTGGCGTGGTCAAGATCATTAAAGATCTGGACGCTTCCGTTGAAGGCAGGGATGTTCTGATTGTGGAGGATATTATTGACAGCGGTCTTACGCTCAGCCATTTGATTGAGCTTCTTAAGAGCCGCAAGGCAAACTCGGTGCGTGTTGTCACCCTGTTCGACAAGCCGGCACGCCGTACGGTGGATTTGCAGGCTGATTATACCGGATTCGTGCTGCCGGATGCTTTTGTTGTCGGATACGGGCTCGATTACGCCGAGCATTACCGGAACCTCCCCTACATCGGGATTCTGAAACCGGAAATCTACAGCAGTTAA	MQNDIQEILISEEEIRAKIKELGSKLSAEYEGRNPLVICVLKGAFIFMADLVKSITVPLELDFMAVSSYGASTKSSGVVKIIKDLDASVEGRDVLIVEDIIDSGLTLSHLIELLKSRKANSVRVVTLFDKPARRTVDLQADYTGFVLPDAFVVGYGLDYAEHYRNLPYIGILKPEIYSS	PGPT0007295_2729	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
AK002_00059	2070	ftsH_1	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGAGTCGGTTCATCCGGAATTCTGGTTTTTATTTGATTCTATTTTTAGTCGTGGTGGGCATAGTACAATTCGTCACCAATGGCGGCGAGCAAGCCGATGCCCCTAGTTATAATCAACTGCGGCAGGAAGTCAAAGCTAACAACATAGAGGAAATGACGGTACAATTTGACGGTTACGCTTATCTGGTGACCGGTAAGTATAGGGAGATATCCGAAGAGAAAAAATCGGAGAATTTCTCGACCTATATTCCTGCCACGGATGCAGCAATGCAAGAGCTGACTGCAGCCAGTGATAGCAACAATGTCAAACTGTCCGTGGTGCCAATGGAAGGCCAAAGCATTTGGCTGACATTGCTTTCATCCTTTATTCCGCTCATCATTATGTTTGTTCTGTTCTTCTTCCTGTTCAATCAGGCTCAGGGCGGCGGCGGCAAAGTGATGAACTTTGGTAAGAGCAAAGCCCGCTTATATAATGAAGAGAAGAAACGGATTACATTTGAAGATGTAGCCGGAGCAGATGAAGAGAAGCAGGAGCTTGTCGAGGTTGTTGACTTCTTGAAGGATCCGCGCAAATTTAACACGGTTGGCGCTCGCATTCCGAAGGGCGTCCTGCTTGTCGGTCCTCCGGGTACCGGTAAGACGCTCCTTGCACGTGCCGTTGCCGGCGAAGCGGGAGTGCCGTTCTTCAGTATTTCCGGTTCCGACTTCGTAGAGATGTTTGTCGGCGTCGGTGCTTCTCGCGTACGCGACTTGTTCGAAAACGCGAAGAAGAATGCACCATGTATCATCTTCATCGATGAGATTGATGCTGTAGGTCGTCAGCGCGGCGCCGGTCTCGGCGGCGGTCATGACGAGCGCGAGCAGACGCTCAACCAATTGCTGGTTGAGATGGACGGTTTCGGAGCGAACGAAGGCATTATCATCGTCGCTGCGACCAACCGACCGGATATTTTGGACCCGGCGCTTCTTCGCCCGGGACGTTTTGACCGTCAGATTACCGTCGATCGCCCGGATGTGAAGGGCCGTGAAGCCGTACTGAAGGTTCATGCACGCAACAAACCGTTGACGAAGGATGTCAAGCTCGACATCATCGCCAAACGTACAACCGGTTTTACGGGCGCCGATCTGGAGAATCTCCTGAACGAGGCTGCCTTGCTTGCGGCTCGCCGCAACCGTAAAGATATCTCCATGCGAGAAGTGGATGAAGCGATTGACCGCGTTATCGTGGGTACCGAGAAGCGCAGCCGCGTGATCAGCGACCGCGAGAAACGCATCGTAGCTTACCATGAAGCCGGTCATACCATTGTGGGTTACTTCCTTGAGCATGCGGATACGGTGCACAAGGTAACGATTATTCCTCGCGGCCGTGCCGGCGGATATGTCATCATGATGCCGAAGGAAGATCGGATGCTTGTAACGAAGCAGGAATTGCTGGACCGCGTAACCGGTTTGCTTGGCGGCCGTGTCGCCGAGGAGCTGTTCATCGGCGAAATCGGAACCGGAGCATACAGCGACTTCCAGCAAGCAACAGGCATCATTCGCAGCATGATTGTGGAATACGGTATGAGTGAGAAGCTCGGACCGATGCAGTTCGGTACATCCCAAGGACAAGTGTTCCTGGGACGTGATATCGGACACGAGCAGAACTATAGTGATGCAATCGCTTATGAAATCGATCAGGAAATGCAGCGGTTCATTAACGAATGTTATGAGAAGTGTAGAGAGCTTCTGACCAAGCATTCCAAAGAGGTTCATCTGATTGCCAACACGCTTCTGGAGAAGGAAACACTGGAGCTTGAGCAGATCAAGAACCTCATTGAGACCGGATCGGCTGAAGGCGATGGCAGTGGCGAAGGTGAAGGTTCTTCCGAGAACGGCGAGCCGATCATCGACAACATTGGCGACGTGAAAGTTCGCATCCAAGGGAAAGAAGACGGCGGGCAGCCGACTTCCACGGAAGAAATTCCGAACAACCCGATGGATTCGAATGATCCAGCACCGGAAACCAAAGATTCCGAACGCAAGGATCCTCCAGGCGGATCGGACAACGGTAACAGCAGTTTAACGTAA	MSRFIRNSGFYLILFLVVVGIVQFVTNGGEQADAPSYNQLRQEVKANNIEEMTVQFDGYAYLVTGKYREISEEKKSENFSTYIPATDAAMQELTAASDSNNVKLSVVPMEGQSIWLTLLSSFIPLIIMFVLFFFLFNQAQGGGGKVMNFGKSKARLYNEEKKRITFEDVAGADEEKQELVEVVDFLKDPRKFNTVGARIPKGVLLVGPPGTGKTLLARAVAGEAGVPFFSISGSDFVEMFVGVGASRVRDLFENAKKNAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQLLVEMDGFGANEGIIIVAATNRPDILDPALLRPGRFDRQITVDRPDVKGREAVLKVHARNKPLTKDVKLDIIAKRTTGFTGADLENLLNEAALLAARRNRKDISMREVDEAIDRVIVGTEKRSRVISDREKRIVAYHEAGHTIVGYFLEHADTVHKVTIIPRGRAGGYVIMMPKEDRMLVTKQELLDRVTGLLGGRVAEELFIGEIGTGAYSDFQQATGIIRSMIVEYGMSEKLGPMQFGTSQGQVFLGRDIGHEQNYSDAIAYEIDQEMQRFINECYEKCRELLTKHSKEVHLIANTLLEKETLELEQIKNLIETGSAEGDGSGEGEGSSENGEPIIDNIGDVKVRIQGKEDGGQPTSTEEIPNNPMDSNDPAPETKDSERKDPPGGSDNGNSSLT				NA	NA	NA	NA	NA
AK002_00060	939	nadA	COG0379	Quinolinate synthase A	ATGGAAGCTTTGGCACTGGAGCGCAAGGCAGAACAGAACCGTGAACTGCGTGAGCGGTTAATGCAGTTGAAGAAGGAACGTAATGCAATTATTTTGGCTCATTATTATCAACGGGACGAAATTCAGGAGGTTGCTGATTTCCGGGGGGATTCCTTCTTGCTCGCGCAGAAGGCGGCACAAACCGACGCCGAGGTCATCGTATTCTGCGGCGTGCATTTTATGGGCGAGAGCGCCAAAATCCTGGCACCAAACAAAACGGTTCTCATTCCGGATGAACGGGCCGGCTGTCCTATGGCCGATATGGTGAACGTGGACGGACTGCGGAAATTGAAAGCGCAGCATCCGAATGCGAAGGTGGTTACGTACATCAATTCATCCGCTGAAATCAAGGCCGAAACGGATATCTGCTGCACTTCCTCCAACGCCGTGAAAGTGATTCAGTCGGTGGATTCGGACGAAATTATATGGGTTCCCGATAAGAACCTGGGGCACTATGTTCAGCAGCATACCGACAAGAAACTCATTATTTGGGAAGGATACTGCAACACGCATGACATGCTGACCGTTAAGGATGTCGTCGAGATGAAGGCCAAATATCCTCAGGCTGAATTTGTGGTGCATCCGGAATGCCGTCCGGAGGTTGTTGCCATGGGTGACTTTGTGGGAAGTACAACCGCCATCCTGGAATATTGCAAACAGTCATCGGCCAAGGAGTTTATCGTGGGAACTGAGGACGGTACCGGTTATCAGCTTCGATTGGATAGTCCGGATAAATCGTTCCACTTCGCGACGAAATTCCTGGTATGTCCGAATATGAAAGTGAATAATCTCAAAAAGCTGGTGAGAGCACTTGAAACGATGAAGCCGCAGATCTATGTGCCGCCGGTCGTTGCAGAGAAAGCCAGAACTTCATTAGAGCGCATGTTACAGGTTAAGTAG	MEALALERKAEQNRELRERLMQLKKERNAIILAHYYQRDEIQEVADFRGDSFLLAQKAAQTDAEVIVFCGVHFMGESAKILAPNKTVLIPDERAGCPMADMVNVDGLRKLKAQHPNAKVVTYINSSAEIKAETDICCTSSNAVKVIQSVDSDEIIWVPDKNLGHYVQQHTDKKLIIWEGYCNTHDMLTVKDVVEMKAKYPQAEFVVHPECRPEVVAMGDFVGSTTAILEYCKQSSAKEFIVGTEDGTGYQLRLDSPDKSFHFATKFLVCPNMKVNNLKKLVRALETMKPQIYVPPVVAEKARTSLERMLQVK	PGPT0013365_3290	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
AK002_00061	1617	nadB	COG0029	L-aspartate oxidase	GTGATACCGCAGTATTTGATTGATTTTGAGCTGAACGATCTCCCGGTTGTAGAGACGGATGTCATCGTGATCGGTTCAGGCATTGCGGGTTTATATACGGCGATCATGGCAAGTGCGACTCAGAATGTGCTTTTGATTACGAAAAAATCACTCCTCGAGAGCAACACGCGTTATGCTCAAGGCGGGATCGCGGCCGTAACGGCCGAGGATGACTCGCCGGCATATCACCGTCAGGATACCCTCCTTGCAGGGGCCGGTTTATGTTCATCTGCCGCGGTGGATGTGCTTGTAAACGAGGGTCCCGTCGGGGTTCAGGAGCTGATTCGCCTCGGCACGACGTTTGATGTGGAGAACGGCGAGCTTGCATTGACCAAAGAAGGTGCGCACAGCCACCGACGGATCCTTCATGCCAACGGTGATGCTACCGGTTATGAAATTGTGCGCGCTCTTTCCATTCAGGTCGAAATGCTTCACAATATAAAGGTATGGGACGATCATTTTGTCATTGACCTGATTACCGAGCAGGGAGAGTGTCACGGCGCTTTGGTACAGATGCCGGATGGCAAGCGGGTATTCGTGCGCGGCCGTGCGACGATTATGTGTTCCGGCGGGGCCGGTCAGTTGTACCGGTACACGACCAATCCGGAGGTTGCGACCGCGGATGGCATCGCCATGGCTTATCGGGCAGGTGCGGAAATTCGGGATATGGAGTTTATCCAGTTTCATCCGACGGCGCTCAGCTATCCGGGCGCTCCCCGATTCCTGATATCAGAGGCGGTTCGCGGCGAAGGTGCCGTGCTTCGTAATATAAGAGGGGAACGGTTCATGCCGAAATACCATGAGTTACAGGAGCTCGCACCGCGGGATATCGTGGCACGGGCCATTGTCAGCGAAATGGAAGCGACGGGATCGACCTTCGTATATCTGGATATTACCCATGAGTCGCCGGAAATGGTCAAACATCGATTCCCTACGATTTATGAAACATGCATGCAGTATGGGCTGGATTTATCGTCCGATTGGATTCCGGTCTCCCCGGCTGCGCATTATATGATGGGGGGCATCAAGACCAACCTGCACGGCGAGAGCAGCGTGAAGCGATTATTTGCTTGCGGAGAGGTCTCGTCTACCGGTGTTCACGGAGCGAACCGGTTGGCCAGCAACTCGCTTTCGGAGGCGGTCGTGTACGGCAGTCGGATTGTCGAGCGCATTAAGAGCCTCCCGGAACCCTCTGGGGATCCTCTTCGGGTATCATTCCATCTGGGCCGCAAGGACGCTCCGTCGCAAGCGATGGTGGAAAAACGCTTGAAGCTTCAGAAGGTCATGGTGCGTTATGCAGGACTTCGGAGAAATCGGGATACTCTAATAAGAGCAGCGGAAGAGCTTGGCCGTCAGCTGCCCTTGTTCCAATCGATGCTCTCCAAGCGTGAAGAATACGAATTTGCGAACATGCTGACTGCATCCCTGCTGGTGGTTCAAGGCGCGCTGGGACGGGAAGAAAGCCGGGGAGCTCACTATCGTGAGGATTATCCGGAGCGAAATGACAGCGAATGGCGCAAGCATATTGTGTTTATACGGGACCAAGAAATGACGGAGGAATTGAGCGATGATGTTTAA	MIPQYLIDFELNDLPVVETDVIVIGSGIAGLYTAIMASATQNVLLITKKSLLESNTRYAQGGIAAVTAEDDSPAYHRQDTLLAGAGLCSSAAVDVLVNEGPVGVQELIRLGTTFDVENGELALTKEGAHSHRRILHANGDATGYEIVRALSIQVEMLHNIKVWDDHFVIDLITEQGECHGALVQMPDGKRVFVRGRATIMCSGGAGQLYRYTTNPEVATADGIAMAYRAGAEIRDMEFIQFHPTALSYPGAPRFLISEAVRGEGAVLRNIRGERFMPKYHELQELAPRDIVARAIVSEMEATGSTFVYLDITHESPEMVKHRFPTIYETCMQYGLDLSSDWIPVSPAAHYMMGGIKTNLHGESSVKRLFACGEVSSTGVHGANRLASNSLSEAVVYGSRIVERIKSLPEPSGDPLRVSFHLGRKDAPSQAMVEKRLKLQKVMVRYAGLRRNRDTLIRAAEELGRQLPLFQSMLSKREEYEFANMLTASLLVVQGALGREESRGAHYREDYPERNDSEWRKHIVFIRDQEMTEELSDDV	PGPT0013355_1212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
AK002_00062	876	nadC	COG0157	putative nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGATGTTTAACGGATACAACGATGGCCTTCTCCAGAGCATACGAACTTGGCTGCAGGAGGATATTGGGTCGGGGGACATTACGACCCTCACCACGATCGAGCCGGGTCACGAATCCAAAGGGGTTATCCATGCCAAAGAGGCAGGGATCGTGGCAGGCATGCCGGTGGCAGAGCTGGTATTCGAAACGGTAGATCCAACGCTTACGTTTACGGCATTGGTCCGTGACGGAGAAGTGGTGGAAAAAGGGACGATTCTCGCTGAGGTGGAAGGAAGCACCCATCGTATTTTGACAGGCGAGCGGCTCGCGTTAAATTTGCTTCAGCGTCTATCGGGCATTGCAACCAAAACACGTTTTTTTGTTGATGTGCTTGAGGGATTGCCGACAAGGCTGGTGGATACCCGGAAAACGACGCCAGGCCACCGGATGCTTGAGAAATATGCCGTGCGGGTCGGCGGCGGCGCGAATCATCGCTTCGGCCTGTACGATGCCGTCATGATCAAGGATAATCACATCAAGGGTGCGGGCGGAATCGCCCAGGCGATCAGCCGGGCCAGAGCCCATATCCCGCACACCATGACGATCGAAGTTGAAACCGAGAGCCTGGCACAAGTGGAAGAAGCCTTGGCTGCAGGCGCGGATATTATCATGCTGGATAACATGAATCATGACATGATGACGGAGGCCGTGCGGAGAATCAAGGCCAAGTCGCCTCACGTTCGCGTTGAAGCATCGGGGAACGTTACATTGGAGACCGTGCGCGGGATTGCGGAGACCGGGGTCGATGTCATTTCGGTTGGACGGCTGACGTATTCATTCCATAGTCTCGATATTAGTTTGGATCTGAATGCAAAGAAAGGAGGAGCAGAGGGTTGA	MMFNGYNDGLLQSIRTWLQEDIGSGDITTLTTIEPGHESKGVIHAKEAGIVAGMPVAELVFETVDPTLTFTALVRDGEVVEKGTILAEVEGSTHRILTGERLALNLLQRLSGIATKTRFFVDVLEGLPTRLVDTRKTTPGHRMLEKYAVRVGGGANHRFGLYDAVMIKDNHIKGAGGIAQAISRARAHIPHTMTIEVETESLAQVEEALAAGADIIMLDNMNHDMMTEAVRRIKAKSPHVRVEASGNVTLETVRGIAETGVDVISVGRLTYSFHSLDISLDLNAKKGGAEG	PGPT0013370_1559	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
AK002_00063	765	coaX	COG1521	Type III pantothenate kinase	TTGATTCTCGTTGTGGACGTAGGGAATACCAATATTGTGCTGGGTGTGTACCAGGGAAAGAAACTGCTGCATGATTTTCGGATCAGTACATCGCGTCAGTCTACCGTGGACGAATACGGTGTATTGATCCACAATTTGTTTCAAATGTCCAATATATTGGTAAGCCAAATAGAAGGCGTTATTGTCTCTTCCGTAGTTCCTCCGCTTGTGCGCGTGGTCGAGGAAATGTGCAATAAATATATTGGCAAGGCGCCCCTTATCGTTGGGCCGGGAATCAAAACCGGACTCAATCTGCGGTATGAGAATCCGCGCGAGGTGGGGGCTGATCGGATCGTGAATGCAGTAGCAGCCGTCGAGCAGTACGGGGGGCCGCTGATCGTAGTGGATTTCGGTACGGCGACGACGTTTGATTGCATTGATGAAGCTGGCAACTATCTGGGCGGCGTAATTGTGCCGGGCATTGGCATTGCCACGGAAGCCCTTGTACAGCGTGCTTCCAAGCTTCCTCGCGTAGAGCTCGAAAAGCCGAAAAAGGTGATTGGGCGCAACACCGTTCATGCCATGCAAGCCGGCATCGTATTCGGTTATGCAGGACAGGTCGATGGCCTGGTTAAACGCATAAAAGCCGAGATGGGAACGGACAATGTTAAGGTTATCGCCACGGGGGGAATGGCTGAGCTGATTGCCGGCGAAACGGAATCCATCGAAGAGATTTCTCCCCTCTTGACGCTGGAAGGCTTGCGTATTATTTACGAGCGTAACTAG	MILVVDVGNTNIVLGVYQGKKLLHDFRISTSRQSTVDEYGVLIHNLFQMSNILVSQIEGVIVSSVVPPLVRVVEEMCNKYIGKAPLIVGPGIKTGLNLRYENPREVGADRIVNAVAAVEQYGGPLIVVDFGTATTFDCIDEAGNYLGGVIVPGIGIATEALVQRASKLPRVELEKPKKVIGRNTVHAMQAGIVFGYAGQVDGLVKRIKAEMGTDNVKVIATGGMAELIAGETESIEEISPLLTLEGLRIIYERN	PGPT0008780_2033	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
AK002_00064	885	hslO	COG1281	33 kDa chaperonin	ATGGGTAATCAAAAAGACCGTATGCTGCGGGGAACGGCGTTAAACGGGAAAGTGCGGGCATTTGCCGTTCGGACAACCGATCTGGTGGAAGAGCTTCGCCGAAGACACGATACGTTCCCTGTCGTCACAGCCGCTTTGGGCCGCACCGTGTCAGCAGCAGCGATGATGGGAGCTATGCTGAAGGGAGATGAGCGTCTTAGCATTCAGGTTCGCGGCGATGGGCCGATCGGTCTGATTGCGGCGGAGAGCAATGCCAAGGGCGAGGTACGCGGTTATGTCAAAAATCCGCATGTGGAGCTGACGAATATACGTCCGGGCAAGATGGACGTAGCCGCTGCGGTAGGGACCACCGGTCAGATTGATGTAGTCAAGGACTTCGGATTGAAGGAGCCTTACCGTGGTAGCGTGCCGATTATCTCGGGCGAGCTGGCTGAAGATTTCACGTATTATTTTGCCGTATCCGAACAGACCAACTCGGCGGTAAGCTTGGGCGTCCTGGTTTCGCCGGATTATTCCGTGGCCAATGCCGGCGGCTTCATCATTCAGCTTCTCCCCGGCGTTAGCGATGAAGAGATTACGGAGATCGAGCTGGCGTTAAGCAAGATTCCTCCGATCACCGAGATGCTGGAGGAAGGGCTGGATCTCGAGGATATCCTGAAACGCGTCGTTCCGGATGTGACGATTCTGGAGGAAACGGAAGTCTACTTCAGCTGCGACTGCTCGCATGAGCGGGTGGAGCGCGCACTGATCAGCCTGGGACGGGAAGAGCTTGAGCAGATGATCGAAGAGGACGGCAAAGCAGAGGTTTCCTGCCATTTTTGCAATGAACGATATACGTTTGACCGAGAACAGCTTAAATCCGTGCTAGAGCGGGCCAAATCTTAA	MGNQKDRMLRGTALNGKVRAFAVRTTDLVEELRRRHDTFPVVTAALGRTVSAAAMMGAMLKGDERLSIQVRGDGPIGLIAAESNAKGEVRGYVKNPHVELTNIRPGKMDVAAAVGTTGQIDVVKDFGLKEPYRGSVPIISGELAEDFTYYFAVSEQTNSAVSLGVLVSPDYSVANAGGFIIQLLPGVSDEEITEIELALSKIPPITEMLEEGLDLEDILKRVVPDVTILEETEVYFSCDCSHERVERALISLGREELEQMIEEDGKAEVSCHFCNERYTFDREQLKSVLERAKS	PGPT0014645_1677	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
AK002_00065	936	prsA_1		Foldase protein PrsA	ATGACGAGACAAGAGAAGGGATTGTGGGCGACCGTCATTGTCTTGACAGCATGCGTATTGGGTATGGGGGGCTGGATGCTGTTTTCCGGGGGCTTTTCGCAGGAGGCTTCTCCGCCGTGGAAAGCAGGCTCCCAGCCCGTTGCATCCATCCAGGACAGGGCGATTACCGAAGACGAGTGGGTTGACGAGCTGAAGAAGAGATATGGGCGCGAAATGCTGATGACCATGCTGAATCGGCACGCCGTGGCGCTGGAAGCGAAAGCGAAGGGCATTGATGTGACGGCAGCGGAAGTCGAGACGGAAATCGAAGTCATGAGCCGAAGCTATGGCTCTAAGGAACGGTTCTTATCGGAAATGGAAGATCAGCTTGGCATTACGGAGAGTGAGTTAAAGACGGAGACGACATATCGGCTCCTGCTTGAGAAAATTGCGACTTCCGATGTTCACATCGAGGAGCAGCAAATCGATTCGTATCTGGAACAGTACCCTGATCAATTTCGACCCAAGAAACAGCTGAATTTATCCATGATTGAAGTCGCTTCGGAAGATGAGGCGGAACGCGTCATGGATCGGTTGGAGAATGGGGAGGATTTTGCGGATCTCGCAGCTCAGGTATCCCTTGACGAGTACACTCGGGAAGACGGCGGACAGATCGGCTTGGTAGAAGAGGATGACCCTTTTTTGCCGCCAGAGCTGCTTGAAGCAGCGTTATCGCTCGAGCCCGGGGATATTGCGGGACCTGTATCGCTCACGGACACATATGCCATAGTATATGTTAAGGATATTATTGAGCCTCAAGCTCCTAGCGAGGAAAGTATCCGGAAGGCGGTTCGCAAGCAGCTGGCCCTGGAGCAGTCGGTGTCCTTATCGGAATTGGAGCGGCAGCTTCGCGAGAAATACGAGGCACGGATCAGTGCGGGTACGGTTACGCTGTAA	MTRQEKGLWATVIVLTACVLGMGGWMLFSGGFSQEASPPWKAGSQPVASIQDRAITEDEWVDELKKRYGREMLMTMLNRHAVALEAKAKGIDVTAAEVETEIEVMSRSYGSKERFLSEMEDQLGITESELKTETTYRLLLEKIATSDVHIEEQQIDSYLEQYPDQFRPKKQLNLSMIEVASEDEAERVMDRLENGEDFADLAAQVSLDEYTREDGGQIGLVEEDDPFLPPELLEAALSLEPGDIAGPVSLTDTYAIVYVKDIIEPQAPSEESIRKAVRKQLALEQSVSLSELERQLREKYEARISAGTVTL				NA	NA	NA	NA	NA
AK002_00066	936	cysK_1		Cysteine synthase	ATGGCAAAAGTCGTAAATAATGTGACAGAATTAATCGGTGAAACACCGCTCGTCCGTTTGAACCGGATCGTACCGGAGGATAGCGCAGAGATCTATCTGAAGCTGGAATACCAGAACCCGGGCGCCAGCGTTAAAGACCGGATCGCGATCAGCATCGTGGAAGAGGCAGAGAAGGATGGACGTTTGAAGCCGGGCGATACGATTATTGAAGCGACCAGCGGTAATACCGGCATCGGCTTAGCTATGGTGGCAGCGGCCAAAGGCTATAAAGCGGTTATCGTCATGCCTGAAACCATGAGCTTGGAGCGCCGGAACCTGCTGCGTGCTTACGGAGCGGAACTGGTCCTGACACCGGGATCGGAAGGAATGAACGGAGCCGTTAAGAAGGCCGAAGAAATCCTGAAGGAAAATGCCGGATTCTTCATGGCCGAGCAGTTCAAGAACCAAGCCAACGTGAAGATCCACCGTGAAACGACTGGTCCGGAAATCGTTGAAGCGATCCAATCGATCGGCGGTTCCCTGGATGCGTTCGTGGCTGGCATCGGAACAGGCGGTACGATTACAGGCGCTGGGGAAGTGCTGAAAGAGCAATACCCTGACATCAAGATTATTGCGGTGGAGCCTGCTGCATCGCCAATCCTTGCCGGTGGCAAGCCAGGCCCTCACAAAATCCAGGGCATCGGCGCAAACTTCATCCCGGAAATATTGAACCAAGAAGTCTACGATGAAATCGTCCATGTAGAGAATGACGATGCCTTTGAAACTTCCCGCCGCGTGGCGAAGGAAGAAGGCGTTCTTGGCGGTATTTCCTCCGGTGCGGCTGTATATGCTGCCTTGAAGGTCGCCAAAGAGCTTGGTAAAGGCAAGCGGGTTGTTGCTATCATTCCAAGTAACGGAGAGCGTTACCTGAGCACGCCGCTCTATAACTTCGAATAA	MAKVVNNVTELIGETPLVRLNRIVPEDSAEIYLKLEYQNPGASVKDRIAISIVEEAEKDGRLKPGDTIIEATSGNTGIGLAMVAAAKGYKAVIVMPETMSLERRNLLRAYGAELVLTPGSEGMNGAVKKAEEILKENAGFFMAEQFKNQANVKIHRETTGPEIVEAIQSIGGSLDAFVAGIGTGGTITGAGEVLKEQYPDIKIIAVEPAASPILAGGKPGPHKIQGIGANFIPEILNQEVYDEIVHVENDDAFETSRRVAKEEGVLGGISSGAAVYAALKVAKELGKGKRVVAIIPSNGERYLSTPLYNFE	PGPT0002810_5217	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
AK002_00067	1665	pabB	COG0147	Aminodeoxychorismate synthase component 1	ATGGATAGAAGAGTGGAGCTGGCCCAGTGGCAGGCATGGGCTAAAGAGGGCTGGTCCGTCGTTCCCTATCTGGTTCAATATAAAGGAGCAACACGAGGATTACCCCTGTCATGGAGACATGCTTGGAAAGAAGCATCGCCTTATGCCTTTGTGCTGGAGAGCGGCAAGGGTGGACGCTACACGTATCTTGGGTTACGACCGGTGTCCATTTTGCAGGGAAAAGGAAGCCAGGGCGAGGTCGTCGAAATGTCAGGCGGATTGCGAACGCAGATAACGGGAGAGCCGCTGCATCTGTTGGAGCAGTGGATGAAAGCGTGGAAATCACCCCGAGTGCCGGGATGGCCGGACTTTCGGGGAGGCTGTGCAGGCTTTCTGAGCTACGATGTCATCCGCTCGATCGAGCAGCTGCCCGTGATGGCAAAGGATGAGCCCGGCTTTCCGGATTATTTGTGGATGCGCATGGAAGAAGTCTGGATTTACGATCATGCGGATGACAGCCTATACTGCTCGGTGCATGTTCCTCTGCCTTGGGCTTTCGGGAGCGGGGAAGATTCGAAGGAAGCGACGGCGATTGAGGATTCAGCGGATGTTTCTGAAGGTTCGGAGCTCTCACAGGGGCAGGAAGGGATTTTGGAGGAATTATATGAGAAGGCCGCCTTAAGAGCCGAATCGATGCTCTCCCAATGGAATCAAATGTACGGAACGGGACCAGAGAACGATTCGAGATCCGAAGATGAACGGATGCGGCAGGAACGATGGAAGAAAGCGCAGGAGCTGTCAGGGCCGAATGTGGAGGTCTGGGATCGGCTGGAGATTGATTTTTCGCAGGAAGCGTTCGAGCAGGCGGTTCTCTCGATCCAAGAATATATTCGGCAGGGCGATGTTTTTCAGGTCAACTTGTCTCTTCGCCGGCATCTGCAGCTCCATGCGGAACCTTCCGATATTTACGAGTGGCTGCGCATTCTGAACCCTTCGCCTTATATGGGGTATTTATCCTCGCCAGGCTTCAGTTTGGCTAGCGGCTCACCGGAATTGCTGGTGAAGCTGGATGGCGATACCGTGTCAGCCCGGCCGATCGCGGGTACCCGGCGCCGGGGGAGAAATCCGGAAGAGGACGCGGCCATGGAAGCGGAGCTGCTTGGCAGCGAGAAGGAACGGGCTGAGCATATTATGCTGGTCGACCTGGAGCGGAATGACATCGGCCGCATAGCCGAATACGGGACGGTGCATGTTCCGGAGCTGATGACCGTGGAGAGGTACTCGCATGTCATGCATTTGGTGTCCCAAGTGGAAGGGCGGATTGCTGAGGGCAACAATGCATATGATGTCATTGCGGCAGCGTTCCCTGGCGGCACCATTACCGGCGCGCCCAAAATCAGGACCATGGAAATCATCGAAGAGCTGGAGCCCGTGACGCGGGGGCCTTATACCGGCTCCATGGGCTGGATCGATTATAACGGCGATATGGAGCTTAACATTATTATCCGGACCCTCGCCGTGAAGGATGGGGTCGGTTACATTCAGACAGGTGCTGGGATCGTCATTGATTCCGATCCTTATCGGGAATACCGGGAGTGCCATAACAAGGCCAAAGCTTTGATAGCGGCGCTGATGTGCAGTGAAGAAGAAGCCGCAGCGGCAGCTGCCTATATAGGGGGAAAATAA	MDRRVELAQWQAWAKEGWSVVPYLVQYKGATRGLPLSWRHAWKEASPYAFVLESGKGGRYTYLGLRPVSILQGKGSQGEVVEMSGGLRTQITGEPLHLLEQWMKAWKSPRVPGWPDFRGGCAGFLSYDVIRSIEQLPVMAKDEPGFPDYLWMRMEEVWIYDHADDSLYCSVHVPLPWAFGSGEDSKEATAIEDSADVSEGSELSQGQEGILEELYEKAALRAESMLSQWNQMYGTGPENDSRSEDERMRQERWKKAQELSGPNVEVWDRLEIDFSQEAFEQAVLSIQEYIRQGDVFQVNLSLRRHLQLHAEPSDIYEWLRILNPSPYMGYLSSPGFSLASGSPELLVKLDGDTVSARPIAGTRRRGRNPEEDAAMEAELLGSEKERAEHIMLVDLERNDIGRIAEYGTVHVPELMTVERYSHVMHLVSQVEGRIAEGNNAYDVIAAAFPGGTITGAPKIRTMEIIEELEPVTRGPYTGSMGWIDYNGDMELNIIIRTLAVKDGVGYIQTGAGIVIDSDPYREYRECHNKAKALIAALMCSEEEAAAAAAYIGGK	PGPT0008005_36	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008005-pabB-K01665	NA	NA
AK002_00068	582	pabA	COG0512	Aminodeoxychorismate/anthranilate synthase component 2	ATGATACTTGTCATCGACAATTATGATTCGTTTACGTATAACCTGGTTCAATATTTGGGAGAGCTCGGCGAGGAAGTCAAGGTTTACCGGAATGATGAGATCGACATCGCCGGCATCGAAGCGTTGGCGCCGGACCATATCCTGATATCGCCGGGACCGTGCACGCCGAATGAAGCGGGCATCAGTCTGGACGTGATTTCGCATTTCAAAGGGATCATTCCGATCTTCGGCGTCTGCCTCGGCCATCAGGCGATCGGGCAGGCCTTTGGCGGCAACGTCATTCGTGCGGAGCGCCTCATGCATGGGAAAACATCCGCCATCCAGCACACAGGAGAGTCGGTCTTCACAGGTTTGCCGGTTCCGTTCACCGCAACGCGATATCACTCGCTGATCGTTGAGAAGGAGACCCTCCCCGAGGAGCTGGAGATTACCGCCTGGACGGAAGAGGGCGAAATCATGGGGCTGCGGCACAAGCATTATCCCGTGGAAGGCGTACAGTTTCATCCGGAATCCATCATTACCGACCATGGCCATCAGATGCTGCGCAACTTCCTGAAGCGCACGGCTGGCGCCAAGGCATGA	MILVIDNYDSFTYNLVQYLGELGEEVKVYRNDEIDIAGIEALAPDHILISPGPCTPNEAGISLDVISHFKGIIPIFGVCLGHQAIGQAFGGNVIRAERLMHGKTSAIQHTGESVFTGLPVPFTATRYHSLIVEKETLPEELEITAWTEEGEIMGLRHKHYPVEGVQFHPESIITDHGHQMLRNFLKRTAGAKA	PGPT0008000_1167	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
AK002_00069	888	ilvE_1	COG0115	Branched-chain-amino-acid aminotransferase	ATGAAATATATAGGCATGAACGGCGGCATCGTTGAAGCTGCCGACGCGGTCATACCTGTGATGGATCATGGGCTTTTGTACGGAATGGGTCTATTCGAAACCTTCCGCACATATCAAGGGAAGCCCTTTTTGCTAGAGCGGCATTTGAACCGGCTGACGGACAGCTGCCGGGAGCTCGGAATCGCCCACAAGGCGGATGCCGAGAGGATCAGCGGCTGGATTGCGGAGCTGATGGAGGCGAACGGCCTTCAGGATGCCTATATACGGTACACCGTAACCGCAGGAGAAGGCTTGCTCGGTTTGCCGGCCGGAGATTATGCGAAGCCGGCCGAGATATTATTCGCCAAGGAGCTGCCGGCCGCCAATGCTGCGCTCTACGAGACTGGCAGAGCCATGAGGCTGCTGTCCCTACCGCGGAACACGCCGGAATCAGCGGTCCGGATGAAATCCCTGCATTATATGAACAATATACTCGCAAAGCGGGAATTGGCAAGATATCCGGAACCATCGGGTGGTCCGGCAGAAGGGCTGATGTTAACTTCGGCGGGAGACGTGGCCGAAGGCATCGTCAGCAACGTCTTTTTCGTCAAGAAAGGGCGTTTATATACGCCGGAGGTGGGTACGGGCATTTTGCCGGGGATTACCCGGGCGGTGGTGCTGGAATTGGCTGCCGATCTTGGCATTGAGGCCGAAGAAGGCCGTTATGGTTGGGATGTATTTGCCGGAGCGGATGAAATATTTACGACAGGCTCTGTTCAGGAGATTGTTCCGGTCACGACGTTGATTGGAGTTGAAGGTGAGGCACTGACCATCGGACAAGGAGTGGCCGGCCCGATAACCCGTACATTGCTGTATGCGTATAGAAGGAAAGCAGGGCTTGATATATGA	MKYIGMNGGIVEAADAVIPVMDHGLLYGMGLFETFRTYQGKPFLLERHLNRLTDSCRELGIAHKADAERISGWIAELMEANGLQDAYIRYTVTAGEGLLGLPAGDYAKPAEILFAKELPAANAALYETGRAMRLLSLPRNTPESAVRMKSLHYMNNILAKRELARYPEPSGGPAEGLMLTSAGDVAEGIVSNVFFVKKGRLYTPEVGTGILPGITRAVVLELAADLGIEAEEGRYGWDVFAGADEIFTTGSVQEIVPVTTLIGVEGEALTIGQGVAGPITRTLLYAYRRKAGLDI	PGPT0008020_306	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008020-pabC-K02619	NA	NA
AK002_00070	861	folP		Dihydropteroate synthase	ATGAAAACAACCATCTATGAACGTGAATATCGTTTGAGCAAGGACGCTTCGTTAAAGCTCGGTCAGTCGACGCTCATTATGGGCATATTGAATGTGACGCCGGATTCGTTCTCGGACGGAGGCCGCTATAACGACACGGAGCGAGCCGTGGAGCATGCGCTTCAGCTGATTGAGGAGGGAGCCGACATCATCGATATCGGCGGGGAATCGACGCGGCCGGGACACGAGCCGGTTGGAGCTTCAGTGGAGCTTGCCCGCGTAATCCCGGTTATTGAAGCTATTCACCGGCACGCGCCGCAAATTCCGTTGTCGATTGACACCTATAAAGCGGAAGTGGCGCGCCAGGCTATTGGAGCGGGGGCTCATATCATCAATGATATCTGGGGCTTTAAAGACGATCCTGATATGCCTAAGACGGCGGCAAAGCTTGGATGCCCCGTCATTCTTATGCATAATCGCCGCGATCGAAATTACACGAATTTGATAGAAGACGTAAAACGCGATTTGCTGGAAAGCGTCGAAATTGCGCGCGCTGCCGGTGTGCAGGATCACCAAATTTTACTTGATCCGGGCATCGGGTTTGCTAAGGACTATGACGAGAACATGAAAGTGATGGCATCTCTCGATCAGCTTGTGGGGCTGGGGTTTCCGGTACTGCTGGCTACCTCCCGCAAAAGGTTTATCCAAACCGCGCTTGGCGCTCCGGCACAAGACGTGCTGGAAGGAACGGCAGCCACCGTCGCATACGGGATTTCGCAAGGCTGTCAGATCGTTCGGGTGCACGACGTGAAGCATATGAAACGGACAGCGATGATGTGCGATGCCATGACTTACGCTTCAACGGAGCTTCAACGCAACTAA	MKTTIYEREYRLSKDASLKLGQSTLIMGILNVTPDSFSDGGRYNDTERAVEHALQLIEEGADIIDIGGESTRPGHEPVGASVELARVIPVIEAIHRHAPQIPLSIDTYKAEVARQAIGAGAHIINDIWGFKDDPDMPKTAAKLGCPVILMHNRRDRNYTNLIEDVKRDLLESVEIARAAGVQDHQILLDPGIGFAKDYDENMKVMASLDQLVGLGFPVLLATSRKRFIQTALGAPAQDVLEGTAATVAYGISQGCQIVRVHDVKHMKRTAMMCDAMTYASTELQRN	PGPT0007915_2107	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
AK002_00071	354	folB	COG1539	Dihydroneopterin aldolase	ATGATACTGAGCCGCATGGAATACTACGGTTACCACGGTGTGTTTGAGGAAGAGCGGAAGCTGGGCCAACGTTTCTATGTGGATCTTGAGCTGGAGATGGATTTAAGCAAAGCCGCGAAGACGGATGATCTGACGTTAACGGTAAATTATGCCGAAATTCACGAACTCCTGCTGGAGATTATGCGGACGGAGTCGTTCCGCCTGATTGAAGCTTTAGCGGAGCATATTGCATCTAAGGTATTGGACACTTATACTATTATCGATGCTTTAACGGTCCGATTGACGAAGCCGCACCCGCCTTTTGACATTCATTTTGAAGGTGTGACCATTGAGCTGCACCGGACCAGGAAGTGA	MILSRMEYYGYHGVFEEERKLGQRFYVDLELEMDLSKAAKTDDLTLTVNYAEIHELLLEIMRTESFRLIEALAEHIASKVLDTYTIIDALTVRLTKPHPPFDIHFEGVTIELHRTRK	PGPT0007905_2171	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
AK002_00072	549	sulD	COG0801	Bifunctional folate synthesis protein	ATGAATTCACACGCCACCTCTGAGTGTTCAGAGGCTTATATTGCTTTAGGGGCCAATTTGGGAGACCGCGAGGGGAACCTGATGGAGGCTTTGGAACGGTTGGATGAAGTGCCAGGCATTGAGGTAGAGCGCGTATCCAATCTGTATGAGACCGAACCGGTCGGTTACGTGGATCAGCCGATGTTCCTTAATATGGCCGCAGCCGTGTCGACATCGCTGAGTCCTCATGAGCTGCTTGCCGTAATGCAGCAAATCGAGAAACAGCTCGGCCGGGTCCGTCATATTCACTGGGGACCTCGGACGGTGGATCTGGATCTGTTATGGATGGAAGGACGCCGCCTGGATACGCCGGACCTCGTTCTGCCGCATCCCCGCATGCAGGAACGGGCTTTCGTTCTCAGGCCGCTGGCCGATATCGTGTCTGAGCTTGAACCTTCTGGTCTGTACCCCGTGGTGAAGACAGCACTTGAGAACCTGGAAGGAAAGGAAGGAATTCAGCTTTGGAAAACAAGCAGCTGGCGCAGCGTATCCGCGCTTTCCGAAAATTGA	MNSHATSECSEAYIALGANLGDREGNLMEALERLDEVPGIEVERVSNLYETEPVGYVDQPMFLNMAAAVSTSLSPHELLAVMQQIEKQLGRVRHIHWGPRTVDLDLLWMEGRRLDTPDLVLPHPRMQERAFVLRPLADIVSELEPSGLYPVVKTALENLEGKEGIQLWKTSSWRSVSALSEN	PGPT0007910_619	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
AK002_00073	207			hypothetical protein	TTGGAAAACAAGCAGCTGGCGCAGCGTATCCGCGCTTTCCGAAAATTGAAGGGTTTGACCCAGCAAGAGCTCGCCGAGCGATCCGGTATTTCTCTGGCTGTTCTTGGCGCCATCGAGCGGGGGAACCGTCGTGCCGAGGAGCAGATGCTGGCTCAGATTGCCGACGTGCTGGAGATTACGTTGCAGGAGCTTAAAGAACGGAACTAG	MENKQLAQRIRAFRKLKGLTQQELAERSGISLAVLGAIERGNRRAEEQMLAQIADVLEITLQELKERN				NA	NA	NA	NA	NA
AK002_00074	1032	dusB	COG0042	tRNA-dihydrouridine synthase B	ATGGATCAATTGAAAATCGGAAACGTTGAAATGAAAAACCAAGTGGTTCTGGCGCCGATGGCTGGCGTGTGCAATCCGGCGTTCCGATTGATCGCCAAGGAATTCGGCACCGGTCTGGTCTGCGCCGAAATGGTCAGCGGCAAGGCGATCGTTCACGGCAACAAGCGCACCCAGGAAATGCTGTTCGTCGACGAGCGGGAGAAGCCGTTGAGCCTGCAAATTTTTGGCGGCGACCGCGTATCCCTGGTGGAAGCGGCCAAAGTCGTCGATCAGCAGACCAATGCCGATATCATCGACATCAACATGGGCTGCCCTGCACCGAAGGTAACGAAGATGGATGCGGGAGCGCGCTGGCTTCTGGATTCGAACAAAATCTATGAGATGGTCGCGGCGGTTGTCGATGCCGTGAACAAACCGGTCACGGTGAAGATGCGCACAGGCTGGGATAGTGATCATATCTACGCTGTCGAAAATGCGCAGGCTGTCGAACGGGCGGGCGGTCAAGCCGTCAGCGTTCACGGACGTACGCGCGAGCAGCTCTACACCGGGCACGCAGATTGGGACATCATTCGCCAAGTGAAGGAAGCCGTCTCCATTCCGGTTATCGGCAACGGCGACGTAGTGACGCCGGAAGATGCACGACGGATGCTGGATACGACGGGATGTGATGGCGTCATGATCGGTCGTGGAGCGCTGGGCAATCCTTGGATGCTGTACCGTACCGTGGAATACCTGAAGACGGGCCAGCTGCTGTCGGATCCATCTCCGCAGGAGAAAATCCGGATTGCCATCCTGCATATGGACCGGCTGATCGCCCTGCGCGGCGAAGCGGTAGCGGTTAGGGAGATGCGCAAGCATCTTTCCTGGTACTTGAAAGGGCTCAAGGGATCGGCTCGCATTAAAGATATTATTATGGAAGAAACGAAGCGTGATGAATTGGTCAGCCTTCTGAACAACTTTGTGAACAATCTGGAGGTCCATGAAGAATCGGCAAAAAGCGTATACCCTCAAGCCGCTGCGGCGATTGGATGA	MDQLKIGNVEMKNQVVLAPMAGVCNPAFRLIAKEFGTGLVCAEMVSGKAIVHGNKRTQEMLFVDEREKPLSLQIFGGDRVSLVEAAKVVDQQTNADIIDINMGCPAPKVTKMDAGARWLLDSNKIYEMVAAVVDAVNKPVTVKMRTGWDSDHIYAVENAQAVERAGGQAVSVHGRTREQLYTGHADWDIIRQVKEAVSIPVIGNGDVVTPEDARRMLDTTGCDGVMIGRGALGNPWMLYRTVEYLKTGQLLSDPSPQEKIRIAILHMDRLIALRGEAVAVREMRKHLSWYLKGLKGSARIKDIIMEETKRDELVSLLNNFVNNLEVHEESAKSVYPQAAAAIG				NA	NA	NA	NA	NA
AK002_00075	477	greA_1	COG0782	Transcription elongation factor GreA	ATGAGCGATAAAGAAGTCATTCTTACCCAGGACGGTCTGAAGAAACTGGAGGACGAACTTGAGAATCTGAAGTCTGTGAAGCGCCGCGAGGTGGCTGAGCGGATTAAAGTTGCCATCGGTTATGGCGATATTAGTGAAAACTCCGAATATGAAGACGCCAAGAACGAGCAAGCCTTTATCGAAGGCCGGATTATTACGCTGGAGAAAATGCTCCGCAATGCGCGCATCATCAACAACGATGATATCAATACCGATGTAGTCGGCGTGGGCAACACGGTGATCGTGGAGGATTTGGAATTTGGCGACACGATGGAATATACCATTGTAGGTACGGCCGAATCGGATCCGCTTAACAACAAAATCTCGAACGAGAGCCCTGTCGGCAAAGCGATTATCGGCAAGCAAAAAGGATCGGTTGTGGATGTTAACGTTCCTGCGGGCGTTATTCAATATAAAATTGTAGACATTAAGAAGTAA	MSDKEVILTQDGLKKLEDELENLKSVKRREVAERIKVAIGYGDISENSEYEDAKNEQAFIEGRIITLEKMLRNARIINNDDINTDVVGVGNTVIVEDLEFGDTMEYTIVGTAESDPLNNKISNESPVGKAIIGKQKGSVVDVNVPAGVIQYKIVDIKK	PGPT0030495_2323	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
AK002_00076	1512	lysS		Lysine--tRNA ligase	ATGACGGAAGAATTGAACAACCAGGAACAAGAACAGGAGTTAAGTGAGCTTTTGCAAATCCGCCGCAACAAATTGGACGAGCTTCGCAAGCTGGGCATCGATCCGTTTGGCGGAAAATACGAAAGAGAACATCACGCAGGTGATATTCTGAAACAGTACGACGAGCTCTCCAAGGAAGAGTTGGAAGAGAAGCAGGTGGAAGTGAACCTGGCTGGACGAATTATGGCTAAACGCGGCATGGGCAAGGCTTCTTTTGCCCATATTCAGGATTTGAGCGGCCGGATTCAGATTTATGTTCGCCAGGATTCCGTTGCAGAAGCGCAGTATGAAGCATTCAGCATCCTTGATCTGGGTGACATCATCGGGGTAAAAGGGGTCTTGTTCAAGACCAAGACCGGTGAAACTACCGTAAAAGTGAAGGAACTGGAGGTTCTTTCGAAATCGCTGTATCCGCTCCCTGAGAAATTCCATGGTTTGAAGGATGTAGAGCTCCGTTATCGTCAGCGTTACGTCGACCTGATCATCAATCCCGATGTGCAGAAAACCTTCATTACCCGTTCCCGGATTATCCAATCGATGCGCCGTTACCTGGATTCCCAAGGCTATCTTGAGGTGGAGACCCCGACCTTGCATTCCATCGCTGGCGGTGCGGCGGCACGCCCGTTCATCACGCATCATAATGCGCTCGATATGGAACTGTATATGCGGATCGCAATTGAGCTCCATCTGAAGCGCCTGATTGTGGGCGGACTTGAAAAAGTGTACGAAATTGGCCGCGTATACCGGAATGAAGGGATCTCTACCCGTCATAATCCGGAGTTTACGATGATTGAGCTTTATGAAGCTTATGCGGACTACAAAGATATTATGGCACTGACTGAGAATCTGATTGCCCATATCGCCCAAGAGGTGCTGGGCACCCAAGTCATTTCCTATCAAGGGCATGAAGTGGACCTGACGCCGCAGTGGCGCCGCGTATCCATGGTGGATGCGGTAAAAGAAGTTGTCGGCGTAGACTTCAGCGTGGATATGTCCAACGAGGAAGCGCATCGTCTTGCCAAAGAACACAAAGTTCCGGTTGAGCCGCATATGACATTTGGTCATATTTTGAACGCGTTCTTTGAGCAATTCGTAGAAGAGACGCTGATTCAGCCGACGTTCGTAACCGGTCACCCGGTTGAGATTTCGCCGCTGGCGAAGAAGAACGACGTGGATCCGCGGTTCACGGATCGCTTTGAGCTGTTTATCGTGGCGCGCGAACACGCCAATGCATTCTCGGAGCTCAATGATCCGATTGACCAGCGTCAGCGTTTTGAAGCGCAGATGAAGGAGAAAGAGCAGGGCAATGACGAAGCGCACGAGATGGATGAAGATTTCCTGCGTGCCCTGGAGTATGGCATGCCGCCAACTGGCGGACTTGGCATCGGGATTGATCGTCTGATCATGCTTCTGACCAACTCCCCGTCCATTCGCGATGTCTTGCTGTTCCCGCACATGCGTAATAAGGAGTAG	MTEELNNQEQEQELSELLQIRRNKLDELRKLGIDPFGGKYEREHHAGDILKQYDELSKEELEEKQVEVNLAGRIMAKRGMGKASFAHIQDLSGRIQIYVRQDSVAEAQYEAFSILDLGDIIGVKGVLFKTKTGETTVKVKELEVLSKSLYPLPEKFHGLKDVELRYRQRYVDLIINPDVQKTFITRSRIIQSMRRYLDSQGYLEVETPTLHSIAGGAAARPFITHHNALDMELYMRIAIELHLKRLIVGGLEKVYEIGRVYRNEGISTRHNPEFTMIELYEAYADYKDIMALTENLIAHIAQEVLGTQVISYQGHEVDLTPQWRRVSMVDAVKEVVGVDFSVDMSNEEAHRLAKEHKVPVEPHMTFGHILNAFFEQFVEETLIQPTFVTGHPVEISPLAKKNDVDPRFTDRFELFIVAREHANAFSELNDPIDQRQRFEAQMKEKEQGNDEAHEMDEDFLRALEYGMPPTGGLGIGIDRLIMLLTNSPSIRDVLLFPHMRNKE	PGPT0012225_3645	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK002_00080	1458	guaB	COG0516	Inosine-5'-monophosphate dehydrogenase	GTGTGGGAAGATAAGTTTAGCAAGGAAGGCTTCACTTTTGACGATGTATTGTTGGTTCCTAGAAAATCCGAGGTACTTCCAAAAGAAGTGGATGTTAGCACCAAATTGAGCGAGCACGTGAAATTGAACATCCCGCTCATTAGTGCAGGTATGGACACCGTTACGGAAGCTCCTTTGGCCATTGCCATTGCTAGAGAAGGCGGAATCGGCATTATTCATAAAAATATGACGGTTGAACAACAGGCGGAAGAAGTAGATCGGGTGAAGCGCTCGGAAAGCGGAGTCATCACCAATCCATTCTCGCTTCATGCCGATCATCTTGTATCCGACGCTGAGAAACTCATGGGCAAATTCCGGATTTCCGGGGTTCCGATCGTGGATGAGAACAATAAGCTGATCGGGATTTTGACGAATCGTGATCTTCGTTTTGTTCATGATTACAATACGGTTATCAGCGAAGTGATGACCAGCGAGAACCTGGTTACCGCTCCGGTTGGAACGACCCTTCAGGATGCCGAAATGATCCTGCAGAAGCATAAAATCGAGAAGCTGCCTTTGGTGGACGACGATAATGTTCTTAAGGGACTTATCACGATTAAAGACATTGAGAAAGCGATTCAGTTCCCTAGAGCAGCTAAGGATGCTCAGGGCCGCCTGCTTGTAGGTGCAGCGATCGGAATCTCCAAAGATACCTTCGAAAGAGCAGAAGCGCTTGTGAAAGCCGGTGTAGACGTCATAACCGTTGATTCCGCTCACGGTCATCACATCAATATTATTGATTCCGTACGCAAACTGCGCGAATTGTATCCGGAGCTGACCATTATCGCGGGTAATGTGGCTACAGGCGAAGGTACGCGAGAGCTTATCGAAGCCGGTGCATCCGTCGTTAAAGTGGGAATCGGTCCTGGATCCATCTGTACGACCCGCGTTATTGCCGGCATTGGCGTACCGCAAATCACGGCCATCTATGACTGCGCAACGGTTGCTAAAGAGTACGGCGTACCGATTATCGCAGACGGCGGTATCAAATACTCCGGAGAAATTACAAAAGCCATCGCAGCCGGCGCCAGTGCCGTTATGCTGGGCAGCATGTTTGCAGGAACGGAAGAAAGCCCGGGCGAAGCCGAGATCTACCAAGGACGCCGTTTCAAGGCTTATCGGGGCATGGGTTCCCTTGCTGCCATGAAACAAGGCAGTAAAGACCGTTATTTCCAAGATGATGACAAGAAATTGGTACCGGAAGGCATCGAGGGCCGTGTAGCTTATAAAGGGCCATTGGCAGATACCATCCACCAGCTGATCGGTGGATTGCGTTCCGGCATGGGGTATTGCGGAACGCAAAACCTGGAGGAGCTGCGGAATGATACCCAATTTATCCGCATTTCCGGGGCTGGTCTCCGCGAGAGCCATCCGCATGATATTCAAATCACCAAAGAAGCGCCTAACTATTCCTTGTAA	MWEDKFSKEGFTFDDVLLVPRKSEVLPKEVDVSTKLSEHVKLNIPLISAGMDTVTEAPLAIAIAREGGIGIIHKNMTVEQQAEEVDRVKRSESGVITNPFSLHADHLVSDAEKLMGKFRISGVPIVDENNKLIGILTNRDLRFVHDYNTVISEVMTSENLVTAPVGTTLQDAEMILQKHKIEKLPLVDDDNVLKGLITIKDIEKAIQFPRAAKDAQGRLLVGAAIGISKDTFERAEALVKAGVDVITVDSAHGHHINIIDSVRKLRELYPELTIIAGNVATGEGTRELIEAGASVVKVGIGPGSICTTRVIAGIGVPQITAIYDCATVAKEYGVPIIADGGIKYSGEITKAIAAGASAVMLGSMFAGTEESPGEAEIYQGRRFKAYRGMGSLAAMKQGSKDRYFQDDDKKLVPEGIEGRVAYKGPLADTIHQLIGGLRSGMGYCGTQNLEELRNDTQFIRISGAGLRESHPHDIQITKEAPNYSL	PGPT0021445_4524	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
AK002_00081	1419	dacA_1	COG1686	D-alanyl-D-alanine carboxypeptidase DacA	TTGATAGACAAGTCTATAAAGAAGAATAAGCGACAACGAATTCAAAGAACGCTGGCATCCTTGATGCTCTTTAATATACTATGTTTCTCTGCTGCGCCTGCGGTTTCGCTCGCTGCGCCTAATATGCTGGCTACAGCGGATACAACCAAAGCTACGGAAGACAAAGCGGCAACGGACAAGGCTGCGACGAATAATGCGAAGCCGGACAAAGTGCCATCGGTCGATCAGTTGGGCTTGGAAGTGAGCTCTGCCGTCTTGATCGAGCCATCTACGGGCCAGGTGCTGTTATCCATAAATGCGGATGAAGCATTGCCGCCGGCAAGCATGACGAAGATGATGACGGAATATATCGTGGCAGAGAAGGTAAAACAAGGCGAGTTAGCTTGGGATGACGTAGTCACGGTAGGGGAAAATGCTGAAAAAACCGTGGGCTCACGGATATTTTTAGCTGAAGGCGACCAACATACAGTGGAAGAGCTCTACATAGCCATGGCTGTCGGCTCGGCGAATGATGCAACGGTAGCATTGGCTGAACATATCGCTGGTTCCGAAGCAGAGTTTGTTACCATGATGAACGATACGGCGAAAAAGATGGGATTGAAGACCGCTTTCTTCATTAATTCCACAGGCCTTAGCCGTGCAGATATGCCTGAGAAATACCGTCCTGCAGAAGATAAAGAAACCGTAATGTCGGCAATGGATACTGCATTACTTGCCAAGTATATCGTCGAGGATCATCCTGACTTTGCTAGATTTACAGCCATTCAATCGCATAAATTCCGGCCGCGGGATACGAGTCCGATCATCAACTACAACTGGATGCTGGAGGCCAACAAAAGCATTACGAACTTCAAGGCCTATGCTTACGAAGGTTTGGACGGTTTGAAAACCGGTCATACCAATGCGGCGGGTTATTGCTTTGCCGGTACCGCTGAGCGTGACGGCATGCGCTTGATCAGCGTGGTTATGGGAACGAAATCCGAAGGGGCTCGCTTTAAGGAAACCAAAAAAGTCCTTGATTACGGCTTTGACAACTTCGAAGTGAAGGAAGTCCAAGCAGCCGGAGCAACCGTGCAAGGGTTTGAAACCGTCGAAGTGAAGAAGGGCAAAGGTAAGGAAGCTGGGCTGGTGACCGATAAAGCCCTCACATTTGTTGTGCCTAAAGGCTCTAGCGGAAAGAACATTACCTTCGAAGCCAAACTGGATTCTTCCAGCGTGACGGCGCCTGTCGCTAAGGATACGAAGGTGGGCACGGCAACCTACTCATACAAAATCGAAGGCATGAAGGAAACCCAGACCGAAACGGTGAATCTCATCACGGCAGACGAGGTAGAGAAGGCTGGCTGGTTCAAGCTGTTCCTCCGTGCGATCGGTGACTTTTTCGCGGATTTGTTTGATTCCATCAAAAATCTTTTCTAA	MIDKSIKKNKRQRIQRTLASLMLFNILCFSAAPAVSLAAPNMLATADTTKATEDKAATDKAATNNAKPDKVPSVDQLGLEVSSAVLIEPSTGQVLLSINADEALPPASMTKMMTEYIVAEKVKQGELAWDDVVTVGENAEKTVGSRIFLAEGDQHTVEELYIAMAVGSANDATVALAEHIAGSEAEFVTMMNDTAKKMGLKTAFFINSTGLSRADMPEKYRPAEDKETVMSAMDTALLAKYIVEDHPDFARFTAIQSHKFRPRDTSPIINYNWMLEANKSITNFKAYAYEGLDGLKTGHTNAAGYCFAGTAERDGMRLISVVMGTKSEGARFKETKKVLDYGFDNFEVKEVQAAGATVQGFETVEVKKGKGKEAGLVTDKALTFVVPKGSSGKNITFEAKLDSSSVTAPVAKDTKVGTATYSYKIEGMKETQTETVNLITADEVEKAGWFKLFLRAIGDFFADLFDSIKNLF	PGPT0024040_308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK002_00082	882	pdxS	COG0214	Pyridoxal 5'-phosphate synthase subunit PdxS	ATGGAAACAGGAACATCTACTGTAAAAAGAGGTATGGCGGAAATGCAAAAAGGCGGCGTCATTATGGACGTCATGAATGCGGAACAAGCGAAAATCGCTGAAGCTGCCGGTGCTACGGCGGTTATGGCGCTGGAACGCGTTCCTTCCGATATTCGCGCTGCTGGGGGAGTAGCACGGATGGCTGACCCAACCATCGTTGAGGAAGTCATGAAAGTCGTATCCATTCCAGTTATGGCCAAGGCTCGTATCGGTCATTACGTTGAAGCGAAAGTGCTTGAATCTCTCGGCGTGGATTACCTCGATGAGAGTGAAGTGCTGACGCCTGCGGATGAAGTGTTCCACATCGACAAATGGGATTTCACCGTACCGTTCGTATGCGGCGCGAAAGATATCGGTGAGGCGCTGCGTCGCATCGGCGAGGGCGCATCCATGATCCGTACGAAGGGCGAGCCGGGAACAGGCAATATCGTGGAAGCTGTTCGCCATATGCGCTTGATCAACAGCCAGATTCGCAAGGTTCGCAACATGTCGAAGGACGAACTATATGCCGAAGCCAAAAACCTCGGTGTTTCCTATGACCTCCTGAAAGGCGTTCATGAGACGGGCAAGCTGCCTGTCGTTAACTTTGCCGCCGGTGGCGTGGCCACCCCTGCGGATGCCGCATTGATGATGCATCTGGGCGCTGATGGCGTTTTTGTAGGATCCGGTATTTTCAAATCCGAAAACCCTGAGAAATTTGCTCGTGCGATCGTTGAAGCGACGACGCATTATGATGATTATAAATTGATTGCTGAAGTATCCAAGAACCTGGGTGCTCCAATGAAAGGCATCGAGATATCCAAGCTTAGTCCGGCTGAGCGCATGCAGGATCGCGGCTGGTAA	METGTSTVKRGMAEMQKGGVIMDVMNAEQAKIAEAAGATAVMALERVPSDIRAAGGVARMADPTIVEEVMKVVSIPVMAKARIGHYVEAKVLESLGVDYLDESEVLTPADEVFHIDKWDFTVPFVCGAKDIGEALRRIGEGASMIRTKGEPGTGNIVEAVRHMRLINSQIRKVRNMSKDELYAEAKNLGVSYDLLKGVHETGKLPVVNFAAGGVATPADAALMMHLGADGVFVGSGIFKSENPEKFARAIVEATTHYDDYKLIAEVSKNLGAPMKGIEISKLSPAERMQDRGW	PGPT0009180_1698	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009180-pdxS|pdx1|yaaD-K06215	NA	NA
AK002_00083	588	pdxT		Pyridoxal 5'-phosphate synthase subunit PdxT	ATGAAGGTCGGCGTACTGGCACTCCAGGGTGCCGTTGCAGAGCATATTCGAAGCATTACGCTTGCTGGCGCCGAAGGGGTGCCGATCAAGAAGGTCGAGCAGCTGGACGGCATTGACGGCTTGATTATCCCTGGCGGTGAGAGCACGACGATTGGCAAGCTCATGCGAAAGTATGATTTTATGGATGCGCTTCGTCAGTTTTCAGCCCAAGGCAAACCGATATTCGGAACCTGCGCCGGACTGATTGTGCTGGCCGAGCGAATTCAAGGCGACGAAGAGGCGCATTTGAAGCTGATGGACATCACGGTGGCGCGGAACGCATTCGGACGTCAGCGTGAAAGTTTCGAGACCGATTTGCCGGTGAAGGGCATCGATGAAACGGTGCGAGCCGTCTTCATCCGCGCTCCGCTCATTCTGGAAGTGGGACCGGGCGTTGAGGTTCTGTCCACGTATAAGGATGAGATCGTCACAGCCAGACAAGGGCATCTGCTTGCGGCTTCCTATCATCCGGAGCTGACAGACGATTACCGGCTCCATCAATATTTTGTGGAGATGGTTCGCTCCCGAGCGACGGCGCCACAGGCGTAA	MKVGVLALQGAVAEHIRSITLAGAEGVPIKKVEQLDGIDGLIIPGGESTTIGKLMRKYDFMDALRQFSAQGKPIFGTCAGLIVLAERIQGDEEAHLKLMDITVARNAFGRQRESFETDLPVKGIDETVRAVFIRAPLILEVGPGVEVLSTYKDEIVTARQGHLLAASYHPELTDDYRLHQYFVEMVRSRATAPQA	PGPT0009185_1296	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009185-pdxT|pdx2|yaaE-K08681	NA	NA
AK002_00084	1284	serS_1	COG0172	Serine--tRNA ligase	GTGTTAGACGTAAAAATATTGCGCAGCGAGTACAGTCGTGTTGAAGAAGCGCTGAAGAATCGAGGCAAATCGCTCGATTTGATTGCGGATTTTCCTAAGCTTGACGCCCGGCGCCGGGAATTGCTGCAGGAAAGCGAAAGTTTGAAGAATCGCCGCAACACCGTGTCGGCTGAAGTAGCCAAGCTGAAGAAAAATCGCGAAAACGCAGATGAGCTGATTCTGGAGATGCGCCAAGTGTCAGACCAGATTAAAGCAATGGATGAGGAAGTTCGAGAGCTGGAAGCCAGTATATCCGAGCTTACTTTGGCGATTCCGAATATTCCCCACGATAGCGTGCCGATCGGCGCCTCGGAGGAAGAGAACGTGGAAATTCGCCGCTGGGCGGAGCCAAAAGCTTTTGATTTCGAACCTAAGGCTCACTGGGAGATTGCCCAGAACCTGAGTATTTTGGACTTTGAAGCAGGCGCGAAGGTTACGGGTTCCCGGTTTACGTTCTACAAGGGTTTGGGTGCACGGCTTGAGCGTGCCTTAATCAGTTTCATGATGGATCTGCACAGCGACAAACACGGCTATGAGGAAATGCTGCCTCCATATATCGTCAACCGGGACAGCTTGTACGGAACGGGTCAACTGCCTAAATTCGAAGAGGATTTATTCAAAATTAGCGATACCGACTATTACCTGATCCCAACGGCTGAGGTTCCTGTAACGAACTACCATCGTGAGGAAATCCTAAATAGCGAAGAGCTGCCTAAATATTACGTCGCATACAGCTCCTGTTTCCGTTCGGAAGCCGGCGCGGCAGGACGCGACACCCGGGGACTTATTCGTCAGCATCAGTTTAATAAGGTCGAGATGGTGAAGATTGTACATCCGGAAACATCGTTTGATGAGCTCGAGAAAATGACGGCGGATGCGGAGCGTGTGCTGCAGCTGCTGAATCTCCCTTATCGCGTCATGACGCTATGTACCGGGGATATGGGCTTCGGCTCCATGAAGACCTATGATCTGGAAGTATGGCTTCCGGAGAGCGGCGTATACCGTGAAATCTCTTCCTGCTCGAATATTGGAGATTTCCAGGCACGCCGTGCCAATATTCGCTTCCGTCCGGAGCCGAAGAGCAAGCCGGAGTTTGTTCACACCTTGAATGGTTCCGGGCTCGCGGTAGGGCGTACGGTTGCGGCCATTCTGGAGAATTATCAACAGGCCGACGGCTCCGTTGTCATTCCGGAAGTGCTTCGCCCTTACATGGGGAATGTTAGCATTATCGAACCTAAGAAATAA	MLDVKILRSEYSRVEEALKNRGKSLDLIADFPKLDARRRELLQESESLKNRRNTVSAEVAKLKKNRENADELILEMRQVSDQIKAMDEEVRELEASISELTLAIPNIPHDSVPIGASEEENVEIRRWAEPKAFDFEPKAHWEIAQNLSILDFEAGAKVTGSRFTFYKGLGARLERALISFMMDLHSDKHGYEEMLPPYIVNRDSLYGTGQLPKFEEDLFKISDTDYYLIPTAEVPVTNYHREEILNSEELPKYYVAYSSCFRSEAGAAGRDTRGLIRQHQFNKVEMVKIVHPETSFDELEKMTADAERVLQLLNLPYRVMTLCTGDMGFGSMKTYDLEVWLPESGVYREISSCSNIGDFQARRANIRFRPEPKSKPEFVHTLNGSGLAVGRTVAAILENYQQADGSVVIPEVLRPYMGNVSIIEPKK				NA	NA	NA	NA	NA
AK002_00086	342			hypothetical protein	ATGAACTCAGAACTGAATGTCGACCAGTCGACGCTGGTCAATGCTTGGCAGGAAAGGCTGCCGACCATACTCAAACCGGGGGATCGTGCAGAAGTGGCAGCAGACGAAGGAGATCCGAACGCCATCCGCATTCACATTGGCGCAGCAGGTCGTCAGGAATATTCGTTTGATTTTCAATGCACCTATGTGGATTCCCGGGAAGTGAAGGTCGCTCTGATCGATGTAGAGCGTGACGGCGCGACGACGGATGAGCGCAATGAGAACATACAGGGCATGGTGGGCGATTATACGCGTCATATTCATGAGTGTGCTCAAACGCTGCAGCAAATCACGCATCACTAA	MNSELNVDQSTLVNAWQERLPTILKPGDRAEVAADEGDPNAIRIHIGAAGRQEYSFDFQCTYVDSREVKVALIDVERDGATTDERNENIQGMVGDYTRHIHECAQTLQQITHH				NA	NA	NA	NA	NA
AK002_00087	150			hypothetical protein	ATGAGTAAACCAAAGTCGATTCCGGTGCCTGAAGCACAGGAACAACCAAGGCAGCGAAAGGACCATGACCGGGGCGGCCAGGAGCCGCTGTCAGGCTCGCACAGAGCGAAGATCCGCAAGCAGGATGGCCATTATAATCCGGAGGGCTAA	MSKPKSIPVPEAQEQPRQRKDHDRGGQEPLSGSHRAKIRKQDGHYNPEG				NA	NA	NA	NA	NA
AK002_00088	1086			hypothetical protein	ATGAACAAGAAGTTTGCAGCGATCATGCTGACACTGCTGCTCACGGTGACAGTTGTGCTTTCCGGCTGCGCCAAGAAAGAAGAGCCTAAGGCGGCAATGACCAATGCTGCTACGAACGCGATGAAGATGACATCCTACGAAATGAAGAGCAAATTTGTCATTGAAGACCTTCAAGTTAACATACCTGCAGTTGAAGGCGATCCAAGCGTAACACAGGCGATGACGATGTTGAAGAATGCAGAGGTTACACTGGACGGGATCTACCAGGCTGAGCCAATGCAAACCGAAATGAACATGGGTATCAATTTGAAGGGTGACATGGCGATGTCCTTCAACATTGATATGGTGATGACGAAAGAGAAAATCTACGTTAAAGTGCCAAGCATTCCTATGCTGCCGTTCCCGGAAGACGTTGTTGGTAAATTCCTCGTGATGGACATGAAAGAGCTTGCTGAGCAATCCGGCGAAACATTTAACCCAGAAACCCTGGATACCGAGAAGTCCCAAAAATTCGTTAACGAAATCCTTGAAGCTTTGCTGAGCGAATATGATCAAGCAAAATACTTCAAAGAGATCAATGTTAAAGATGCCGGCCTTCCAGAAGGTGTTGACGCTAAACAAGTGGTACAATTCTTTGTAACCAATGATAACCTGAATGAAGCATTGGATATTATGGTAAATAAGGTTGCACCTAAGGTTGTTGATATTGCGGCTAAAGACGAGTACCGCGAATTGCTGGGTCTGACCCAAGAAGACATCGATGCTGCCAAAGCTGAAGTGTCCAACGTCAACCAAGACGAATTCAAAGCGGGCTTGGAAGAAATGCAGAAATACCTGAAGATCAATACATTCAATATCAACACGGCTATCGATAAAAAAGATTTCCCTGCGTACCAAGATGTTGTGCTGAACGTTGATTTCAATGATCCAGAAACCAATGAGAACGTGAAGTTGGCTGTGAAGGGTAGCACCCAATACAACAACATCAACGCGAAACAAGAGTTCAAAATCGGTATTCCAAAAGAAGCTGACGTCATTACGATGGAGCAATTTGAGGAATCCATGAGCCAAATGAGCACTTACTAA	MNKKFAAIMLTLLLTVTVVLSGCAKKEEPKAAMTNAATNAMKMTSYEMKSKFVIEDLQVNIPAVEGDPSVTQAMTMLKNAEVTLDGIYQAEPMQTEMNMGINLKGDMAMSFNIDMVMTKEKIYVKVPSIPMLPFPEDVVGKFLVMDMKELAEQSGETFNPETLDTEKSQKFVNEILEALLSEYDQAKYFKEINVKDAGLPEGVDAKQVVQFFVTNDNLNEALDIMVNKVAPKVVDIAAKDEYRELLGLTQEDIDAAKAEVSNVNQDEFKAGLEEMQKYLKINTFNINTAIDKKDFPAYQDVVLNVDFNDPETNENVKLAVKGSTQYNNINAKQEFKIGIPKEADVITMEQFEESMSQMSTY				NA	NA	NA	NA	NA
AK002_00089	495	tadA	COG0590	tRNA-specific adenosine deaminase	TTGATATCAAATTCAATAGACCCACTGGCTGTGGATAACGAAAATCATGAACGCTGGATGCGAGAAGCCATCGCGGAAGCTCGGAAGGCCGAAGAGCTTGGTGAAGTTCCTATTGGCGCTGTCATCGTACGGGGCGATGAAATTATTGGCCGTGGATATAATCTGCGTGAAACGACTTACGATGGGACGGCTCATGCCGAGATGGTCGCGATCCGGGAGGCAAGCCGACACCTTGGAGCCTGGCGGCTGCTCGACTGTCGATTATACGTGACGCTGGAGCCTTGTCCCATGTGTGCGGGCGCCATCGTCCAATCCCGGGTACCGCAGCTCATCTACGGCACGGGCGATCCCAAGGCAGGCTGTGCGGGCACACTGATGAATCTGCTTCAAGAGCCGCGCTTTAATCATCGGACGCACGTGGTAGATGGCGTGCTGCAGGAAGAATGCGCATCGTTGCTGACTCAGTTCTTTCGGCGTTTACGCGGGAAAATATGA	MISNSIDPLAVDNENHERWMREAIAEARKAEELGEVPIGAVIVRGDEIIGRGYNLRETTYDGTAHAEMVAIREASRHLGAWRLLDCRLYVTLEPCPMCAGAIVQSRVPQLIYGTGDPKAGCAGTLMNLLQEPRFNHRTHVVDGVLQEECASLLTQFFRRLRGKI	PGPT0006855_34	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
AK002_00090	2295	sasA_1		Adaptive-response sensory-kinase SasA	TTGTCGATTAAGACGAAATTATCGATGATCATGTCCATATCGGTATTATTTATCCTTCTGCTTAACATTACGCTGAATTATTACACGACCCAGGAAAACCTGCAGCAGGATAGTGAAACCAAAATGGTGATGGCCGCTACGCAGATCGCCATTACGGTTCAGCAAACCGGCTTTAGCTCTGCGTATGTGGATAACATTTTCGGTGATATGCTGAAGGTCGCCGCAGTCAATGCGGCAAAGGCCTTAGATCCCGATATTAACAATATAACCAATCAGCAATTGGCCGAATTAAGTAAGGAGATCGGTGTCACCCACATTTCGCTGCTGGTTCGAGCCAACGATGATATCGTTGTTGCCCGTTCCTCCTCCCAAGACGAAATCGGCCTTTCCACAAAAAACTGGGGTTATTGGCATACCGCATTTCTGGAATTGTTCCAGCATGGCAAAGTGGTATCCGTTACGGAGGGGCAGCGCGCCGAGCATTTCTGGTCCGGACCGTTCGAGTTCTCCACATCCAATCCGGAGTTCATTGATAAATGGGGATACTATTATGATGGCAAGCGGAATTATATTATCGATCCCTACATCCGGAATTCGAATATCAAGGATTTTGTGAAGATCACAAGCCCGAACACTGTGGTGGAGGAGACATTGAAATCGAATCCGCGGATATTGGAAGTGACGGGCATCAACCCTGAAACGTTTGGCAATGAATATATGAGGGAGGATGGAACGGACGAAGTTCACCGCAAGCTCCGCAATCGTCCGATTACGTTCGGCACCTACAATTATGGGAGCCTGGATCAAGATACGGAAGCCGTGCAGAGGGCCGTGTCTACCAGCGACAATGTGGTGTTTGTCAGCACGATCAATAATAAGAAGGTGTTAAAAAGCTTCATTCCCATCCTGTCCGAAAATAAACCGACCAGCGTGATCAGTGTCGTCATGGATTATGAAGCCATCTCTTCCGTGATGAGGGAGCAGATGATCAGTCTGGTGGCTATTTCACTGGTTTTGCTCGAAATCGTGATTTTTGGCAGTTACATTGTAGCGGGTTATTTTACGAAGCCGATTCAGGCCATCCTGGGCACCGTAAACGATGTATCGGATGGTCACTTCGATCGTAGACTCGAGGTTAGCAGCCGGGACGAGCTGGGGCAGCTTGCAGGCCGCATCAATGCCATGACCCGCAATCTGGGTACCTACACGAGCCAGTTGAAGCAGATGGTCGATGAGAACCAGTCCGTTAAAGAATATTTAGAGTCCGTTATCAATCAGACGGCCGATGCCATTCATACAACCGATACCTATGAACGCGTGATTAGCGTGAATAAAGCGTTTGAGCAATTATACGGCTGGAAGGCGCACGAAGTGGTCGGGCGGAAGCTTGCGCTTGTGCCTCCGGCCAAAGAGGAAGAGGAGAAGGAACGCATCCGTCGTTTGCGGGCTGGTGAGCGGCTTCCGCCGGTGGAGACGGTCCGTCTGCGCAAGGATGGAAGCACGATTGAAGTGAGCATCAGCACCTCGCTTGTGCGGGACGAGAACGGCGAGGTTACCTCCATGATTAGCGTATCCCGCGATGTGACGGAACGCAATCGGATTGAGGAACTGCTGCGGCGTTCGGAGAAGCTCAATACCGTGGGGCAGCTGGCTGCAGGGGTTGCGCATGAAATCCGGAATCCGCTTACGACCCTCCGAGGATTTTTGCAGCTTCAACAGCAGACTCACCAAGCGAATCCCGATCATATCGACCTGATGCTGTCCGAGCTGGACCGAATCAATCTGATTGTCAGTGAATTTCTGATATTAGCCAAGCCACAGGCGATTAATTTCCAGGAGAGGGACGTGGGCATCATTATGGGGGATGTCATCTCCTTCCTCGACAGCCAGGCGCATCTGTACGGCATCGAGTTCAAATTGGATTTTATTGAAGAACCGACCTTTGTGCATTGTGAAGAGAACCAGCTCAAACAGGTGTTCATAAATCTGCTCAAGAATGCCATTGAAGCCATGCCGGAAGGCGGCAATATATGGATTAGGCTTACACGCCCGCAGGTCGATCAGATACAGATCGATATTCGGGATGAAGGTCAAGGCATTCCGGAAGACATGATGCCGCATCTTGGCGAACCGTTTATTACGAATAAGGAAACGGGCACAGGCCTCGGGTTGATGGTAAGCCAGCGCATTATCCAGGGCCACCGGGGAACGATGGAAATCGAGAGTGAAGTTGGCGTAGGCACGAGAGTAAGTATTGTCCTGCCTGCGGTACCGCAGAAAACAATCGAAGGCTGA	MSIKTKLSMIMSISVLFILLLNITLNYYTTQENLQQDSETKMVMAATQIAITVQQTGFSSAYVDNIFGDMLKVAAVNAAKALDPDINNITNQQLAELSKEIGVTHISLLVRANDDIVVARSSSQDEIGLSTKNWGYWHTAFLELFQHGKVVSVTEGQRAEHFWSGPFEFSTSNPEFIDKWGYYYDGKRNYIIDPYIRNSNIKDFVKITSPNTVVEETLKSNPRILEVTGINPETFGNEYMREDGTDEVHRKLRNRPITFGTYNYGSLDQDTEAVQRAVSTSDNVVFVSTINNKKVLKSFIPILSENKPTSVISVVMDYEAISSVMREQMISLVAISLVLLEIVIFGSYIVAGYFTKPIQAILGTVNDVSDGHFDRRLEVSSRDELGQLAGRINAMTRNLGTYTSQLKQMVDENQSVKEYLESVINQTADAIHTTDTYERVISVNKAFEQLYGWKAHEVVGRKLALVPPAKEEEEKERIRRLRAGERLPPVETVRLRKDGSTIEVSISTSLVRDENGEVTSMISVSRDVTERNRIEELLRRSEKLNTVGQLAAGVAHEIRNPLTTLRGFLQLQQQTHQANPDHIDLMLSELDRINLIVSEFLILAKPQAINFQERDVGIIMGDVISFLDSQAHLYGIEFKLDFIEEPTFVHCEENQLKQVFINLLKNAIEAMPEGGNIWIRLTRPQVDQIQIDIRDEGQGIPEDMMPHLGEPFITNKETGTGLGLMVSQRIIQGHRGTMEIESEVGVGTRVSIVLPAVPQKTIEG	PGPT0025290_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025290-kinE-K13533	NA	NA
AK002_00091	711	rluF	COG1187	Dual-specificity RNA pseudouridine synthase RluF	ATGGCATCTTTGAGAATCAATAAATTTATCAGCGAAACGGGTTATTGCTCGCGTCGTGAAGCGGACAAGCTGGTGGAGAGCGGGAAGGTCACCATTAACGGCGTGGTTGCGGTATTGGGCAGCCAGGCCGAGGAAGACGACGATGTGCGGATCCAGGGAAAGCCGCTTCAGGACAAGAAGAAGCATGTATATATTGCTCTTAATAAGCCGGTCGGGATTACGAGCACCACCGAGTCGCATATTAAGGGCAATATTGTAGACTTCGTAGGCCATAACGAACGGATTTTTCCCATTGGACGATTGGATAAGGACTCCGAAGGACTGATCTTGTTAACGAATGACGGAGATATCGTCAATAAGATCCTTCGCTCCGAAGGAAAACATGAGAAAGAATATATTGTGACGGTGGACCGTCCGGTAACGGAATCCTTCCTTCGCGGAATGGCCGGCGGCGTCAAAATTTTGGGGGAGATAACGCTCCCCTGCGAGGTCACGCGAATGTCCGAACGCGTATTCCGAATCATTCTGACGGAGGGGAAAAATCGGCAAATCCGCAGAATGTGCAGCGCTTTTGGTTATGAGGTTCGCAAGCTGCAGCGAATCCGGATTATGAATATCCGACTTGGCAGCCAACGTATCGGCTCATGGCGCGATCTTAATGACAAAGAGAAGGAAGAGCTTGGCCGGCTGCTGAACTATAAGCTCGAGTAG	MASLRINKFISETGYCSRREADKLVESGKVTINGVVAVLGSQAEEDDDVRIQGKPLQDKKKHVYIALNKPVGITSTTESHIKGNIVDFVGHNERIFPIGRLDKDSEGLILLTNDGDIVNKILRSEGKHEKEYIVTVDRPVTESFLRGMAGGVKILGEITLPCEVTRMSERVFRIILTEGKNRQIRRMCSAFGYEVRKLQRIRIMNIRLGSQRIGSWRDLNDKEKEELGRLLNYKLE				NA	NA	NA	NA	NA
AK002_00092	807	motB	COG1360	Motility protein B	GTGAGCAAAAAGACTAGACACGAGCCGCACGAGGAGCATGCCGACGAATCCTGGCTTCTTCCGTACGCTGACCTGCTGACATTGCTTCTGGCCCTGTTCCTGGTGCTGTATGCCATGAGCGCGACGGATGCACGCAAATTTCAAGAAATGAGCGAAGCCTTCAGCGTTGCTCTCACCGGCGGAACCGGCGTGCTGGATTACAGCAAGACCGAGCCCAGCGACACCCCGCCGAATATTAACGATCATAAAGCGACAACCCCTTCCGTTCCTGCAACAACGCCCGACCAACGTCGTGCCGAGTTGATGCGCCAGGAACAAGAGGATCTGGAGAAGCTGAAGAAGCAGCTCGATAATTATATTAAGAATAACGGTTTGACCTCAGAGCTCAGCACCAAGTTAAACCACTCCCAGCTTGTCATTACGATCCGGGATAATGCGCTGTTCCCGTCCGGCGAAGCCGTGGTGAAGCCGGAGGCCCGTAAACTGGCCAAGGCCATATCGCAAATGCTTCACAAATTCCCGGATTATGAGATCATTGTTTCCGGTCATACGGATAATGTGCCGATTTCCAACAGCAAATATCCGTCCAACTGGGATTTAAGCTCGGATCGGGCATTGCAGTTCATGAAGATTCTGCTCACCAACTCGGAACTGGATCCTAAACGGTTCATGCCGATCGGTTATGGGGAATACCATCCGATCGCCGATAACAACACCGCTGTTGGACGAGCGAAGAACCGTAGGGTTGAGGTATCCATTATACGTAAATACCAGGATAGCGCAACGTTTACCAGCGTTAATGAATAA	MSKKTRHEPHEEHADESWLLPYADLLTLLLALFLVLYAMSATDARKFQEMSEAFSVALTGGTGVLDYSKTEPSDTPPNINDHKATTPSVPATTPDQRRAELMRQEQEDLEKLKKQLDNYIKNNGLTSELSTKLNHSQLVITIRDNALFPSGEAVVKPEARKLAKAISQMLHKFPDYEIIVSGHTDNVPISNSKYPSNWDLSSDRALQFMKILLTNSELDPKRFMPIGYGEYHPIADNNTAVGRAKNRRVEVSIIRKYQDSATFTSVNE	PGPT0015375_3609	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
AK002_00093	801	pomA_1	COG1291	Chemotaxis protein PomA	ATGGAAATTTCAACAATTATAGGCTTAATCATCGGTATCGTCGCGGTACTGGTGGGCATGATTCTTAAAGGTGCCTCCCTTCTCGCTTTGTATAACCCGGCAGCCTATCTAATCATTCTTGGCGGTACGGCAGCAACTTTATTCATCGGATTTCCGTTATCCGAGCTGAAAAAGATTCCGAAGCTGGTCAAAATGACCTTCGTGAAACAGAATCTGATGGACAAGACGGACATGATCAAGCTGTTCATGGAATGGGCTTCGATTACGCGCCGTGAAGGTCTGCTGGCTCTGGAAACCAAAGTCGATGAGATCGATGACAGCTTCCTGCGTAACGGAATGCGCATGATTATCGACGGCAACGACCAGGAATTCGTGCGCGATGTATTGATGGAAGATATCAACGCCACGGAAGAGCGCCATCGTTCCGGCTCGCTGATCTTCTCCCAGGCAGGTATGTATGCACCTTCCCTCGGGGTACTCGGAGCCGTTATCGGTTTGATCGCTGCACTATCCCATATGGAAGACATGGGCGAGCTTGCCCATGCCATCGGAGCTGCGTTTATCGCTACCCTGCTCGGTATCTTCACCGGTTATGTCATCTGTCACCCGATTGCGAACAAACTCAAGCGCCTATCCAAGCGCGAGGTTGAAATCCGCCTGATGATGGTAGAAGGCCTGCTGTCCATTCAATCCGGTGTATCCACCATTGCAATCAATCAGAAGCTCTCCGTGTTCCTGACACCGTCCGAACGGGCTGAGCTCAGCGAGAGGGAGGCTGGTGCTAGTGAGCAAAAAGACTAG	MEISTIIGLIIGIVAVLVGMILKGASLLALYNPAAYLIILGGTAATLFIGFPLSELKKIPKLVKMTFVKQNLMDKTDMIKLFMEWASITRREGLLALETKVDEIDDSFLRNGMRMIIDGNDQEFVRDVLMEDINATEERHRSGSLIFSQAGMYAPSLGVLGAVIGLIAALSHMEDMGELAHAIGAAFIATLLGIFTGYVICHPIANKLKRLSKREVEIRLMMVEGLLSIQSGVSTIAINQKLSVFLTPSERAELSEREAGASEQKD	PGPT0015370_1902	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
AK002_00094	294			hypothetical protein	ATGGGTGTGAAGCACGGAAGGGATTACGGCGAAATCCTCGCGGAATTGACCGAAGCCGTCGGGCGAATTTCCGACAGCTACGTTTTCTTTGAAATGGAAGCGGAGGATTGGGGCAATTTGGGCGAAGCCGAGCGGAATGAGGTTCATGAGGCGTTGGCAGAGGATTTGTTCTATGCGCTGGGCACGGAGCCGGTGATTAGCGTCGGCAGCGGCGTGGTCATGCATGACCAGAATAACCATCGAATACATATTTTGATCGGTGAAGAAGAGTTGGCCTTTGTGGCTCTTGTGTAA	MGVKHGRDYGEILAELTEAVGRISDSYVFFEMEAEDWGNLGEAERNEVHEALAEDLFYALGTEPVISVGSGVVMHDQNNHRIHILIGEEELAFVALV				NA	NA	NA	NA	NA
AK002_00095	315		COG2154	Putative pterin-4-alpha-carbinolamine dehydratase	ATGCTTTATACGCAGCAAGAAGTAGAGGCTCATCTGGAAAAGCTTGAGGGTTGGGAATTTGAACAAGGGAGATGGATCGTCAGGAAGTATACCTTCTCCTCCTTCATGAAGGGAATCGCTTTTGTTGATGAAGTGGCAGCTATTTCGGAAGCTTTCGGACATCACCCCTATATCACCATAGATTACAAAGTCGTTACGCTGCGTCTCACTTCCTGGGACGACGGCGGCATTACGGCTGTGGATATTAAGGAAGCGCAGCAGTTTAACGAGGCCTATGAGAAAAGCCGTTCCAAGGACGGCAAGTCGGGACAATAG	MLYTQQEVEAHLEKLEGWEFEQGRWIVRKYTFSSFMKGIAFVDEVAAISEAFGHHPYITIDYKVVTLRLTSWDDGGITAVDIKEAQQFNEAYEKSRSKDGKSGQ				NA	NA	NA	NA	NA
AK002_00096	363	cccB	COG2010	Cytochrome c-551	ATGACGATGCAAAAATGGATCATGAGCGGATTGTTCTTCGTCGCATGTGCGTTGGCTATTGCGCTGATGTTTACGCTCCCAGGCAAGGAACAGGTAGCTCAGGAAGAGAAGCCGACTATGCCGGAAGTGACTCTGGATGCTGCCACAGCGGAAGCCACACTGAAAGCAAGCTGCATCAGCTGTCATGGTGACCAACTTCAAGGCGGCGCTGGACCGGCTTTGAATCAAGTAGGCGGACACATGGATGCGGACGCGATCTTCAACGTTGTAACCAAAGGCCGTAAGGGTATGCCTTCCTTTAAGGATCAACTTAAGCCTGAAGAAATCGCAAACATCGCGCTGTACCTTGCTGAGAAAAAATAA	MTMQKWIMSGLFFVACALAIALMFTLPGKEQVAQEEKPTMPEVTLDAATAEATLKASCISCHGDQLQGGAGPALNQVGGHMDADAIFNVVTKGRKGMPSFKDQLKPEEIANIALYLAEKK				NA	NA	NA	NA	NA
AK002_00097	501			hypothetical protein	ATGGATGCAGCACCGATTTCATTTCACACGGTGGTCATGCTTGAAGAGCATGCGAAAGAAATATGCGCCTGGACCTATCCTCCTCCCTATAACATTTACGGTTTTCTTCCATGGGAGCAGATGAAAGGGCTTGGGATCGAGTTTGGCGATCCGGACATCCGCCGGGAGCAGTACATTTCGATTTTGGATGAACGGAAGACACTATGGGGATTTGCCCAGCTGTTTCCGATGCATGAGGTTACGCGAATCGGGCTGGGCATGCGGCCTGATTGGTGCGGGCGCGGAATGGGTAAACGGTTTATGCAGACGATTGTCCGGGAAGCGAGGCGGAGGCGGCCTGCCGATGAGATCGACCTGGAGGTAATGACCTGGAATGAACGCGCGATCCGCGCATACGAAAAGGCGGGGTTTCATATCACCGATACGTACGAGCGCCTTACGCCGACGGGAAACGCCCTTTTCCACTGCATGGTGTATGAGCCTCCGGCAAATGAGGAATAG	MDAAPISFHTVVMLEEHAKEICAWTYPPPYNIYGFLPWEQMKGLGIEFGDPDIRREQYISILDERKTLWGFAQLFPMHEVTRIGLGMRPDWCGRGMGKRFMQTIVREARRRRPADEIDLEVMTWNERAIRAYEKAGFHITDTYERLTPTGNALFHCMVYEPPANEE				NA	NA	NA	NA	NA
AK002_00098	474			hypothetical protein	TTGAAAAAGAAGTTAACGGCCATTTCTCTAGGCCTGGCCCTCGCACTCACATTAGGGACCGGAAGCGCTTTCGCCGATTCCAAATTAAATACTGCAATCAAACCAGCCATTGGTGTCTCTTATAAAACAGGTGGAACCACAACGAATGGTTTTGACTGCTCCGGATTCACCAGCTATATCTACAAGAAACTTGGTCTGAGCCTGCCACGCACGTCTGCAGCTCAATACAAAGTCGGTACGGCCGTAGCCAAGAGCAAGCTGAAAGCTGGCGATCTCGTGTTCTTCAACACATCCGGCAGAGGTGTATCTCATGTGGGTATTTATGTTGGGGGCGGCAAATTCGCTCATTCCTCATCCTCGCGCGGCGTCATCATCAGTCCGCTGAGCCAGAGCTATTACGCCAATCGATACGTAGGTGCTAAGCGAGTCATGAGTCAGTCTACGTACAAGTCTGTAGCTGTGAACTACAATTAA	MKKKLTAISLGLALALTLGTGSAFADSKLNTAIKPAIGVSYKTGGTTTNGFDCSGFTSYIYKKLGLSLPRTSAAQYKVGTAVAKSKLKAGDLVFFNTSGRGVSHVGIYVGGGKFAHSSSSRGVIISPLSQSYYANRYVGAKRVMSQSTYKSVAVNYN	PGPT0023820_669	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
AK002_00100	828			hypothetical protein	ATGAAAAGTTATGCAGGCCAAGGCTGGATCAGTGTTAAAGACCAATTATACGTCTCCATTCTGCTGTTCTTGTACCGCATGCTGTGGGGATATTGCCTGTACCGGCTTGTAAAATCGGCAGTCGTCCCCCTGCTGATGCGGTATCCGGATTCTGCCCCTAACGAGCTTAGTCGCCTGTTATTCTTCTACGAGGGCGAGATGAGTCTATCGTTAAGCGGCACGGTCCATACCTATGGTTGGCTTCTGGCCGCTCTGCTCCTGATCCGGATGGTATGTACCCCGCTCATTCGGGCAGGCATCTTCTATAACCTCCATCAGGAGGCCAAGGGCGAGCGCGGATTATTCTTCTTCACCGGCATGCAGAAGCTGTGGAAGCCCGTTACGGTATTCTATCTGATCGAACTTGTTCTTACCTTTGTGCCCGGATACTGGATTCTGCCCAAAATCCTTCCGATACTGCTGAACGGGATCCATGAGCCGGTTCTGCTGCTTCGTGCGCTGCCTCATGCAGCCGGCTGGTTTCTGTACGCCTATCTGATTCGCCTGTTATTGCTCTATATGCAATTCGGCCGTACGGACAATTCCGGCATGATCAGCTCCGTTCTTGCGCTCTTCCGCCGACTGGGCACGGCCGTGCTGTTATCCCTTACCGTTGGCGGATCAGCCTGCGTCATTCTTTTGCTCCTGAGTTCGGCATCGCTCTTCTGGGCCGGATTGATCGGCTTGATTATTCAGCAAGCCTCCTATTTTCTAAATGGACTTTTCCAAATTTGGGCAATTTCCGCCCAATACCATTTGTGGCGGGATTCTTCCTCGCAGCATGCCTAA	MKSYAGQGWISVKDQLYVSILLFLYRMLWGYCLYRLVKSAVVPLLMRYPDSAPNELSRLLFFYEGEMSLSLSGTVHTYGWLLAALLLIRMVCTPLIRAGIFYNLHQEAKGERGLFFFTGMQKLWKPVTVFYLIELVLTFVPGYWILPKILPILLNGIHEPVLLLRALPHAAGWFLYAYLIRLLLLYMQFGRTDNSGMISSVLALFRRLGTAVLLSLTVGGSACVILLLLSSASLFWAGLIGLIIQQASYFLNGLFQIWAISAQYHLWRDSSSQHA				NA	NA	NA	NA	NA
AK002_00101	1992			hypothetical protein	ATGGTCCCACCACGTGCCAAAGTCTTTCTATCATCCCTGCTTGCCCTTGGTTTGCTTGCAGGATCGATGCCGATATTTCTGAATCCAGGGCCCTCAGCGTCTGTCCTTGCCCCAAATGCGGGCAAGCCCTCTGCCTCTGCCGTGGAGAAGGCCCCGCTCTCACCGCCTAAGGTGCAGCCTGATACTCCCGCTCCGGCCCTAAGCGACCGGCTGGTGGAATATCACATGGATGTTCGGTACGAGCCTGAGGAGAACAAGCTTAAGGGCAAGCAGACACTCACTTGGACTCACCCAGGCAAAAAAAGCGTAAATGAGCTGTACTTTCATCTGTATCCCAATGCCTTTGCTTCCGATGAAACGACCTTTATGAAGGAATCGGGCGGCAGGCTTCGTTCCGACCCCATGCCGGACGACGGGTACGGCTCCATGACCATTACCAATGTGAAAACGACGGAAGGACTGGCCCTTACCCATCGCCTTCAATTCGTCCAACCCGATGACGGGAACATCAAGGATCACAGCCTTGCCAAACTAAGATTGCCCAAACCCATCAAGGGCGGGGAGAGCATCACCATTCACATGGAATTTGAAGTCGAGCTTCCCAAAATATTCGCGCGCATGGGTACCACCGAGAATTTTATTATGGCTGGCCAATGGTTTCCTAAAGTATCGGTCTATGAACCGGCCGGACTTCGCGGAAGAGCCGAGGAAGGATGGAATCTTCATCAATACCACGGCAACTCCGAGTTCTACTCCAATTTCGGCATTTACAGCGTTCGCATCCGGGTGCCCGAAAATTACATTGTCGCCGCGACCGGATTCCCGACCAAGCCTGCCCAAAAATCGAACGGGGAAAAAATTTATCAATTCTATGCCGATGATGTGCATGATTTTGCCTGGTCGGCCTCGCCCAACTTTGCCACGGCCGAGGAAGCCTTTTCGGCACCGGGCGTGCCGGGCGTCCGCATCAAGCTGTATCTCGATCCGGCCCATAAAGACCTGAAGGACCGTTACTTTGATGCCGCCAAGTCGGCACTGGCTTCGTTTGGTAAATGGTACGGAACCTATCCTTATTCCACGTTGTCCATCGTCGTGCCGCCGGAATCGGGCAACGGTGCAGGCGGTATGGAATACCCGACGCTGGTCACGGCCTTCGGTGCCAAGAACGATTCGCCGGGTTATGAGCTCGAACGGACCGTCATTCACGAGATCGCCCACCAATATTTTTACGGAATGATCGCAAGCAACGAATTTGAGGAAGCGTGGCTGGACGAGGCCTTTGCAACCTATGCAGAAGAAAGAGTGATGGAGAAGGAATACGGCATTACCTCCAACACCGCTGCTCAAGGAGCATCGATTACCTCCCCTGCCCCGCTGAAGATGGAGTCCTGGAAATACAGCTCACACGAGAACTACGCGCTGAATGTTTACACGAGAGGCAAGCTGGTGCTGCAAGGCATTGAACGGCAGGTCGGTCCACAGATGATGGGGAAAATCATGCATACCTATGCCCAGAAATACCGGTTCAAGCACCCAACCACGTCAGATTTTCAGAAAGTCGTCGAGCAAGTAAGCAAAACCTCCTGGCAATCGTATTTTGACCAATATGTATATGGAAGCCAAATGGCCGACGTCGCCATCGATGTGATCAAAACCAAAAATGAAGGCACGTCAGACCATCCGCGGTATGAATCCACGGTCAAGATCACGAGCAAGGACGGAGATATAACCGATGTGCCTATCGTGTTCGCCTTTGAGGACGGCAAAACGGTGGAGCGAACTTGGAGCGGCAAGGACGGTAAAGTTACGTACACCCTGGAGTACAGCACTCCGCTCGCCTGGGCTATGGTTGATCCGAAATACTCCATTGTTCTGGAGAATAGACACATCAATAACTATATGAAGGCAGGAATGGATCCGAAAGTGGTCACACGCTGGAATCTCAGTATTACCAAGCTTGTGGAGACGTTGTTCGGCAGCCTGTCATGGTGA	MVPPRAKVFLSSLLALGLLAGSMPIFLNPGPSASVLAPNAGKPSASAVEKAPLSPPKVQPDTPAPALSDRLVEYHMDVRYEPEENKLKGKQTLTWTHPGKKSVNELYFHLYPNAFASDETTFMKESGGRLRSDPMPDDGYGSMTITNVKTTEGLALTHRLQFVQPDDGNIKDHSLAKLRLPKPIKGGESITIHMEFEVELPKIFARMGTTENFIMAGQWFPKVSVYEPAGLRGRAEEGWNLHQYHGNSEFYSNFGIYSVRIRVPENYIVAATGFPTKPAQKSNGEKIYQFYADDVHDFAWSASPNFATAEEAFSAPGVPGVRIKLYLDPAHKDLKDRYFDAAKSALASFGKWYGTYPYSTLSIVVPPESGNGAGGMEYPTLVTAFGAKNDSPGYELERTVIHEIAHQYFYGMIASNEFEEAWLDEAFATYAEERVMEKEYGITSNTAAQGASITSPAPLKMESWKYSSHENYALNVYTRGKLVLQGIERQVGPQMMGKIMHTYAQKYRFKHPTTSDFQKVVEQVSKTSWQSYFDQYVYGSQMADVAIDVIKTKNEGTSDHPRYESTVKITSKDGDITDVPIVFAFEDGKTVERTWSGKDGKVTYTLEYSTPLAWAMVDPKYSIVLENRHINNYMKAGMDPKVVTRWNLSITKLVETLFGSLSW				NA	NA	NA	NA	NA
AK002_00102	519			hypothetical protein	GTGGAGAACGAAGATCAGAAGCAGGGTGCGAAGAAACCCATTGCGTTGAATATTATCAATAGCAAGAGTAAGCATAAGGGGTTTGGATCCGGCTCCATCGATTTGAACAGTTTGTCGCCTGTCATCATCGACAATGGCGAGGCGCGAGTGGATATTGGAGCCATGCATGCAAAGAGCAAGGTGGAGAAGGGCATCCGTTTCAGCATGAACCGGGATGAAGTGCCCAACGGACGCCAGGTGTGGATCGTGTGGGTAGCTGTAGACCGTACCGCGGAAGGACAGCATTATGCAGGAATGACCGCGTGCGAAATGTGGATCGACCATGAAGCCCGCCGCGGCTGGAAAATCCTCGCCGACCATGTGAATAAAATGGATGCGGCGATGAAACGCAAGATTATTCTGGATGGGCTTGGCGACGTGGAGAAGAAAGCGCTGCGCGAACTGCTGATCTCCCGTAACGAGGAATGGTGGAATGCCTCCCCGGAGGAGTTTAGAGAAGCTCTTCAAACAGCGGAATGA	MENEDQKQGAKKPIALNIINSKSKHKGFGSGSIDLNSLSPVIIDNGEARVDIGAMHAKSKVEKGIRFSMNRDEVPNGRQVWIVWVAVDRTAEGQHYAGMTACEMWIDHEARRGWKILADHVNKMDAAMKRKIILDGLGDVEKKALRELLISRNEEWWNASPEEFREALQTAE				NA	NA	NA	NA	NA
AK002_00103	1170			hypothetical protein	ATGAAATCCGTACAAATCATCAAACTAGCAGGTACCGCATCCATAGCATTGTCTTTAATGCTTACATCCTCATCGCTCGTAACCATTCCTGCCCATGCGGCAGCAGCCTCCACATCGCAGAGCAAGGCAGCCTGGAGCACGCTCGATGTGAAGCATAAACCTTATACGAAAAAAGGCGTCGTGTTCATTCCACTGAAGGAAGTTTCCGAACAGCTGCAGCTGCAGCTGACGATCCCTGGAAAGAACGAGCTGTACATTAACAGCCCGACCCAGTCTGTTCGCATGATTATTGGAAACTCGCGCGCCGTCAATGCCAAGGGTACCGCTCTGAAGCTTGAGGCAGCTCCGGTTGTGAAGAATGGCGTGACTTATGTTCCCGCCAGCCTGATTACCAAAGGCTTCGGCATTCAGCTTAAGTACGACAGCAAATCCGGACTTCGAACCACCTTTGATTCCTGGTCCCGATACGCTTATGCCTCCAAGGCCAATATGCTGTTCTGGGTGAATCGCGAGACCGGTATGCTGTCCATGGGGAAAGCCGGAACGACGCCAACGAAAGTCGGCATTCTCCCGGTTGAGGATATCGATCAAGTGGGCTTGAGCGCACATCGCATCAACAGCAATACCTATGTCATCGACTTGTCCAATTATTACGGAGAACCTCATATCCATGAAGGGAGATATCGGGTGCTCATTCAAGACAAGAAAATCCTGAAGCTTTCCAAAACCAATCACACCAATTTTGCCGGGATCAACTACCATTCGGACCAACTTAGCTACAAAGGCAATATCGCCATGATGAATGGCAGCACGCTGGAGCTGGTTCATCCGATGGGCAAAACGGTAAAAACCTACGATCTCGCCGCCCTCACCGGTGTTGACGATCATTTTATTGTGGAAGCGATCGAACAGGACTTCCTGCTCGTCCGTCCCTATACGAAGGCAACCCTGTATATCGTTGAACCGACAGGCAAGTCCGCAGAACTTATCTATCCCGATCTTTTGGACGAGGAGAGTATCAAGGCTATTGAGGAGATGCCGCCAAACGAAGTGGGTTTCATCGGAGACGGCCTTACGTATGACGGATATGCCGGCGGCAAGCTGAAGCTTCAATACGAAAATCCGTTTCTTGATATAAAGAAAAAGCTGACCTACGCCCTTCCATTCTAA	MKSVQIIKLAGTASIALSLMLTSSSLVTIPAHAAAASTSQSKAAWSTLDVKHKPYTKKGVVFIPLKEVSEQLQLQLTIPGKNELYINSPTQSVRMIIGNSRAVNAKGTALKLEAAPVVKNGVTYVPASLITKGFGIQLKYDSKSGLRTTFDSWSRYAYASKANMLFWVNRETGMLSMGKAGTTPTKVGILPVEDIDQVGLSAHRINSNTYVIDLSNYYGEPHIHEGRYRVLIQDKKILKLSKTNHTNFAGINYHSDQLSYKGNIAMMNGSTLELVHPMGKTVKTYDLAALTGVDDHFIVEAIEQDFLLVRPYTKATLYIVEPTGKSAELIYPDLLDEESIKAIEEMPPNEVGFIGDGLTYDGYAGGKLKLQYENPFLDIKKKLTYALPF				NA	NA	NA	NA	NA
AK002_00104	2262	cadA		Cadmium-transporting ATPase	ATGAGCACGGACAACCATCAGCAATCCAAAACATCTCCTGACGCAGGTGGCAGCAAACTTGTCGAATACAAGGTCCAGGGCCTCTCGTGCCCGAACTGCACCCGTGAAATGCAGGAGGAGATCCAGAAGCTCGACCATGGAGGCGACGCCCGGCTGAGTTATAACAGCGGAAAGCTGACCCTTTCCCCCCAGGTGAACCTAAACCGGGTAGAAACCATTTTGAAAAGTGATGGAGCCCGAATCGTTTTCGCTCCCCAGACAGCCCTTTCGGCTGCCGGCGCTGATGTTCAGCCCGCCTCTTCCCCGCACGCGCATGGTGCGTCAGATGAACACGACCACGGACGAAGCCATGGACATGGACATGAACACAGCCATGGCAGCGAACGAAAAATGAAGTGGCTGCTGTCCATCTCGGCTGCGTTTTATCTGCTAACTTTTCTATTAGAAGGGAAAGCCGCCGAGCCGGTTGTGATCGCATTATACGCAGGTGCCATGATATTGAGCGGGTATACGACTTTTTTGCGCGGACTGCGTAACCTGACCCGCTTCAAATTCAATATGGATACCCTGATGACCGTTGCGCTCGTAGGTGCCGTCATTATCGGGGAGTGGCGGGAAGCCACGCTCGTTGCCATTCTGTTCGGCCTCAATGAGCTGCTGGAAGGCTACGGCATGAACCGTGCCCGCCAATCCATGGAAGCGCTGCTGGCCGCAGCGCCGAAGGAAGCCGAGCTTTGGGTAGACGGTCAAACCAAACGCGTGCCGATCGAGAGCCTCTCTCCCGGAGACGTTGTCCGGGTAAGACCTGGCGAGAAAATTCCTTCAGACGGAGCGATAACCCAGGGAACCGGCGCGGTGAACGAAGCTGCTATAACCGGAGAATCGGTGCCTGTTACGAAACGGGAGGGCGACGCCGTCTTTGGCGGCAGCGTAAGCACCGATGGCGTGCTCTACATCGCCATATCGAAGGCCTATCAGGATTCCTCCCTGGCCAAGATCATGCATCTTGTGCAGGAGGCGCAGGACAGCAAGACGCCGACGGAGTTATTCATCGATAAATTTGCTAAATACTATACGCCCGCCATTATGATCATCGCGTTGGCTGTTGCGCTGATTCCTCCGTTGCTGCTGAATCAGCCCTGGATGACCTGGGTCTACCAGGGGCTGTCCATTCTCATTGTCGGGTGTCCTTGCTCGCTCGTGCTCTCTTCGCCGATAGCGCTGGTTAGCGGGATGACCCGTGCGGCACGCAACGGCATTCTAATTAAAGGCGGAGTCCATCTGGAGCAGCTTGGACGCCTGGAAGCCGTCGCTTTCGACAAGACGGGAACCCTGACCAAGGGCGAGCCGGCCGTCTACGCGGAAACCGTATATGATGAAGAGAAATTTTATGCCGTGGTAGGCGCGCTGGAGCAATCCTCTCTCCATCCGTTGGCCAAAGCCGTCATGAAACATCTGGAGATCAAGCAGCCGCAATGCATGTTTAATGAACCTCGACAGATAACGGTGCTGCCGGGTGAAGGCATTCGGGCTGAAATCGGAGGGAAGCTGTTCTGGGTGGGCAGCGAGGAAGTGCTGAAGCATGTGAGCGGCCCTCAAGATCAAATCCGTGCCATTGAGGATGACATTCGGAGAATGAAGGCCCAGGGGTACACGATCGTTGCCGCCGTAAGCGAGGAGCGCGTATTAGGTCAATTCGGTCTTGCCGATGAGATTAGGCCGGAGACCGCAGCCGTTGTCCGCAAGCTTCATGAGGCTGGAATCGCGGATACGGTGATGCTGACGGGCGACCATGAGCAATCGGCGCAGGCGATCGCGAAACAATCCGGCGTATCGCGGGTGTTCGCAAGCCTGCTGCCGGAACAGAAGGTTGCCAAAATCAAGGAGCTTAGATCCCGCAAAAAGACCGGCATGGTCGGCGATGGCATTAACGACGCCCCTGCATTGGCCGCTGCCGATCTGGGCATCGCAATGGGAAAAGGAACGGACAGCGCCATCGAAACCGCCGACATCGTATTGATGCAGGATCACCTTGGTAAGCTTCCCGGAGCCATCAAGACCGCAAGACGCGTCAATCGGATTATTAAATGGAACATCGGACTTTCCTTGTCGCTAAAGGCCATCGCTCTGCTGCTAACGATTCCGGGCTGGCTGACCCTATGGATCGCGATCATATCGGACATGGGGGCCACCATTATCGTTACCCTGCTGGGTCTCACCATTCTGCTTGGCAAGGATCAGGAGCTGCAATCAGGACATTGA	MSTDNHQQSKTSPDAGGSKLVEYKVQGLSCPNCTREMQEEIQKLDHGGDARLSYNSGKLTLSPQVNLNRVETILKSDGARIVFAPQTALSAAGADVQPASSPHAHGASDEHDHGRSHGHGHEHSHGSERKMKWLLSISAAFYLLTFLLEGKAAEPVVIALYAGAMILSGYTTFLRGLRNLTRFKFNMDTLMTVALVGAVIIGEWREATLVAILFGLNELLEGYGMNRARQSMEALLAAAPKEAELWVDGQTKRVPIESLSPGDVVRVRPGEKIPSDGAITQGTGAVNEAAITGESVPVTKREGDAVFGGSVSTDGVLYIAISKAYQDSSLAKIMHLVQEAQDSKTPTELFIDKFAKYYTPAIMIIALAVALIPPLLLNQPWMTWVYQGLSILIVGCPCSLVLSSPIALVSGMTRAARNGILIKGGVHLEQLGRLEAVAFDKTGTLTKGEPAVYAETVYDEEKFYAVVGALEQSSLHPLAKAVMKHLEIKQPQCMFNEPRQITVLPGEGIRAEIGGKLFWVGSEEVLKHVSGPQDQIRAIEDDIRRMKAQGYTIVAAVSEERVLGQFGLADEIRPETAAVVRKLHEAGIADTVMLTGDHEQSAQAIAKQSGVSRVFASLLPEQKVAKIKELRSRKKTGMVGDGINDAPALAAADLGIAMGKGTDSAIETADIVLMQDHLGKLPGAIKTARRVNRIIKWNIGLSLSLKAIALLLTIPGWLTLWIAIISDMGATIIVTLLGLTILLGKDQELQSGH	PGPT0004200_1532	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
AK002_00105	384	cadC		Cadmium resistance transcriptional regulatory protein CadC	ATGAATGCCCGAACAATGAACGAGGATGTGGCTCTGGAGCTGTGTGAAACGGAATGTCCTTCAACCGAGAGGGTTGCTTTGTTAAAAGAAACGGTTTCGGATGATGATATGCTCGGCATGGCCGAGATCTTCAAGGCGCTGGCCGACCCGACGCGGGTCAAGGTAGCCTATATGCTGGACCGCGGCGGCGAGCTATGCGTTTGCGACGTGGCTGAAGTTCTCGGAAGCTCCACCGCAACAGCCTCCCATCATTTGCGCACGCTGAAGAACAAGAATATCGCCAAATCGCGCAAGGCGGGCAAGAATGTATACTATTCGCTAAAAGACGACCATATCCGGACTTTGCTTCATATGACGCTGGAGCACCAGAAGGAGAGGGTGTAG	MNARTMNEDVALELCETECPSTERVALLKETVSDDDMLGMAEIFKALADPTRVKVAYMLDRGGELCVCDVAEVLGSSTATASHHLRTLKNKNIAKSRKAGKNVYYSLKDDHIRTLLHMTLEHQKERV	PGPT0004290_342	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_BISMUTH_RESISTANCE	BISMUTH_RESISTANCE-BISMUTH_HOMEOSTASIS,PGPT0004290-cadC|smtB-K21903	NA	NA
AK002_00106	879			hypothetical protein	ATGACTTGTCCGATATGTCGATATGAAACGGGAGATGGGAAATATTGCAAGAAATGCGGGGCCAGGCTGATTATCGAGGATTCCCCCGTCTTTGCGGCCATGAAGGAGCAAGCTGCCTCGTCGGAAATTTACGGCGTCGCCAGGCGAGGCGGAAGCATAAATAGGGAGATTTCTCATGTGCGCCAAGGAGAAGCTGCTCTGCCGGTGTATACTCCACCGGATATTTCATTTCCTACAGCAGGCCGCCAGCATGCCGAAGAGGAAGAGGGGCCGAATCCTTATTGGACCAGCTTAAAATTGTACGGGCAGCTCTATGGGGAACATTTCCTGAAGGGGCTAAGGCATCCCTTCAGCGCAGCTGCCGTAACGGACAACAGCCAGTTCTTAAACGCGATCGTATCCATGCTGCTCTATATTGTGCTCTTTCCGCTCGCGCTGTACGCAGCGCTTCATCATGAAATGCAGGGACTCCCGGAGGGGGCGTTTGTAGATCTTGTCCTGAAGCCTATTGTATGGATTGCGATTTTCTTGTTTTTGCTGAACGTCTTTACCTTCGCTGCAGTCAAGCTGTCATTTAACCCGGCTGCGAAGCTGAAAGAAGTCATGGCCAGGTTCGGCACATTGCTGCCGCTATACCTTGTGTTGTATGCGATCAGTCTGCTGTTCCTGTTTCTGAATGGCGATATATCCAAGGTGATCATCCTTCTAGCGTTTATCAGCACCGTGATGACCGTGCCGTTATGCGTCATGACCGGCTACAAGAGAAGAGTGGCCGGCGGCCTGGATCCGCTGTATGCGATCCTGCTGGTCTACGTTGCAGTCATGCTCGTCATCGTGCTTCTGGGCAGCTCCATGATCGAATATATGAGCATTTTATAA	MTCPICRYETGDGKYCKKCGARLIIEDSPVFAAMKEQAASSEIYGVARRGGSINREISHVRQGEAALPVYTPPDISFPTAGRQHAEEEEGPNPYWTSLKLYGQLYGEHFLKGLRHPFSAAAVTDNSQFLNAIVSMLLYIVLFPLALYAALHHEMQGLPEGAFVDLVLKPIVWIAIFLFLLNVFTFAAVKLSFNPAAKLKEVMARFGTLLPLYLVLYAISLLFLFLNGDISKVIILLAFISTVMTVPLCVMTGYKRRVAGGLDPLYAILLVYVAVMLVIVLLGSSMIEYMSIL				NA	NA	NA	NA	NA
AK002_00107	2061	pbpG	COG0744	Penicillin-binding protein 2D	ATGCCGGGGCAAAAAAAATCACCCAAGCGCAAACGTCGTTTCGTCCGGCTTGCTACATTTCTGTTCGTACTCCTTGGCATTTCCATCATCGCCGGCGGCATTCTGCTCGCCTATTTATTTATAACGCCGCTGCCGGTCGCGGAAACATCCCGCTACTCCCGTCTGCTCGACAGCCAGGGAGATTTGATCGCCACATTCTCAAGCACGGGACATACATCCGAGCAGGTGAACCTGGCCGACATATCCCCCCTCCTGATTCAGGCCACCTTGGCGGTGGAGGACCGAAAATTCTATGATCATCCCGGGTTCGATATGAAGGGTATGGCCAGGGCCGTATTGGTCAACCTGCAGCATATGGATCGCAAACAGGGAGCGAGCACGTTAACCCAGCAGCTTGCACGAAACTTATACCTATCTCATGAAAAAACATGGACACGAAAACTCAAGGAGGCCAAATTCACCGCCCAGCTTGAGATGAAATATACGAAAGATCAGATTCTCGAAATGTACCTGAACGAAATTTATTACGGTCACGGCGCTTACGGCATCGAGTCGGCGTCGCTGCTGTATTTCGGCAAATCGGCGAAAAACCTGACCTTGGCCGAAAGCGCAATGCTGGCCGGCATTCCGAAGGGGCCCACGTATTACTCGCCCTACAATCATAAGGACAACGCGGTCAAAAGACAGCAGATCGTCCTGAATGCCATGGCAGAGACCGGATTCATCACGGAGGCCGAGGCGGATAAAGCCGCTTCGGCCAAGCTTGCCCTGCTCCCGCAGGACCGGCAGGAGAATAAAGTAATTGCCTCCTACTTCCGGGACTATGTCCGGGCTCTCGTCACCAAGCAGTTGAACATCACGGACCAGCAGCTCGAACAGGGCGGCTTGAACATTTATACAACCCTGGATCCGCGGGCCCAGAAAGCAGCCGAAGAGGCCGTATCCGAGGGCATGGACAGCAAGAGCGAGCTGGAGACGGCGCTCGTATCCATCGACCCGCGAAACGGCCACATCAAAGCTATGGTCGGCGGTAAGAATTACCGCGAGAATCAATACAACCACGCGTTGGCCAAAACCAGGCAGCCCGGCTCCTCGTTTAAGCCGATTATGTATTTAACGGCCATTGCATCCAAAGAAATGACGAGCACCAGCGTGTTCAACAGCCAGCCTACCCTGTTTCATTACGATAACAATCGCAAAACGTACCAGCCCAGCAACTTCGGCGATAAATATTTTGGCGAAATCCCCATGCGGGAAGCCATTGCCGCCTCGGATAACATCTATGCCGTGAATACCATCATGAAGATCGGCCCGGATAAAGTCGCCGACATGGCGAAAAAGATGGGCATCACGAGTCCGCTGGAGCCCGTTCCTTCGCTGGCCCTGGGCACCTCGCCCGTCAGCCCGCTGGAGATGGCCTCCGCTTACGCCGTCATGGCTAACAGCGGCAAGCGGGTCTCCCCTGTCGCCGTACTGAGCATCACCGACGCGGCCGGCCGCAGCTTGTTTACGGCTCCGGAAGAGGAAGGTGAACAAGTAGTTGAGCCTTCCGCAGCTTACGTGATGACGCGCATGATGGAGGGGGTATTCGAGACCGGCGGAACGGGTAACCGCGTCTCCACCCTGATGAAACGGCCCGTGGCCGGAAAGACGGGCACGACCGACACCGACGCCTGGCTCGTCGGATATACCCCGGAGCTGTCGACGGCGGTTTGGGTCGGGTATGACAAAGGACGGGAGATCAGCAAGGTCGACGGACGGCGCGCAGCGCCGATCTTTGCGCAATATACGGAGAAGGCACTGGAGAACGTGCCGCCCAAGATTTTTCCGATCCCGGATGAAGTCGTCAGCGCGTATGTGGATCCGAAGACGGGCAAGCTTGCAGGCGCCGGCTGTCCGGACAAAATGCTGGAGGTTTTCGTCAGAGGGACGGAGCCCACGGAGTATTGCGACGAACATGAGGGCGGGGAGCCCGCTAAGAAGGCTAACCCTGCAGATGCTGCCGAGAAACAGGAGGAACGTTCCTGGTGGAAGGATTTCAAACGATGGTGGGTCGAATAA	MPGQKKSPKRKRRFVRLATFLFVLLGISIIAGGILLAYLFITPLPVAETSRYSRLLDSQGDLIATFSSTGHTSEQVNLADISPLLIQATLAVEDRKFYDHPGFDMKGMARAVLVNLQHMDRKQGASTLTQQLARNLYLSHEKTWTRKLKEAKFTAQLEMKYTKDQILEMYLNEIYYGHGAYGIESASLLYFGKSAKNLTLAESAMLAGIPKGPTYYSPYNHKDNAVKRQQIVLNAMAETGFITEAEADKAASAKLALLPQDRQENKVIASYFRDYVRALVTKQLNITDQQLEQGGLNIYTTLDPRAQKAAEEAVSEGMDSKSELETALVSIDPRNGHIKAMVGGKNYRENQYNHALAKTRQPGSSFKPIMYLTAIASKEMTSTSVFNSQPTLFHYDNNRKTYQPSNFGDKYFGEIPMREAIAASDNIYAVNTIMKIGPDKVADMAKKMGITSPLEPVPSLALGTSPVSPLEMASAYAVMANSGKRVSPVAVLSITDAAGRSLFTAPEEEGEQVVEPSAAYVMTRMMEGVFETGGTGNRVSTLMKRPVAGKTGTTDTDAWLVGYTPELSTAVWVGYDKGREISKVDGRRAAPIFAQYTEKALENVPPKIFPIPDEVVSAYVDPKTGKLAGAGCPDKMLEVFVRGTEPTEYCDEHEGGEPAKKANPADAAEKQEERSWWKDFKRWWVE	PGPT0023955_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023955-pbpG-K21464	NA	NA
AK002_00108	828	speE	COG0421	Polyamine aminopropyltransferase	ATGGAATTATGGTACACAGAGAAGCAAACCCCGACTTTTGGCATTACGGCTAAAATCCGGGAGACCTTTGTACATGAGAAGACGGAGTTTCAACAATTGGATATGATCGATACCGAGGAATTCGGGCGCATGCTCGTGCTGGACGGTATGGTTATGACTACGATTAAGGATGAATTCGTCTATCATGAGATGGTCGCTCACCCCGCGCTGAACACGCATCCAAATCCGAAGAAGGTTCTTGTTGTCGGCGGAGGAGACGGTGGCGTCATTCGCGAAGTGATCAAGCATCCGGGCGTAGAGAAGGCCGTACTCGTTGAAATTGATGGAAAAGTTATTGAATATTCGAAGCAGTACTTGCCTGAGATCGCCGGCAAGCTGGACGATCCGAAGGTTGAAGTGCTGGTTAACGATGGATATATGCACATTATCGAGCATAAGAACGAATACGATGTTATCATGGTGGACTCGACCGAGCCTGTAGGCCCGGCTGCTCCGTTGTTTGAGCGCGGATTCTATCAAGGGATCTATGAGGCGCTGAAGGAAGACGGTATTTTCGTGGCGCAAACGGACAATCCGTGGTTCAAAGCGGACCTGATTCAGCAGGTCAACAAAGACGTGAAGGAAATCTTTCCGATCGTGCGTGTCTATGGAGCGAACATTCCAACCTACCCAAGCGGTCTGTGGACCTTTACGATGGGCAGCAAAACATACGATCCGCTTGAAGTGGACGAGTCTGCGATTGATGAGATGGATACGAAGTATTATTCGCCTCGTCTGCATAAAGCCGCCTTCGTGCTGCCGAAATTCGTAGAAGACTTGGTGAAATAA	MELWYTEKQTPTFGITAKIRETFVHEKTEFQQLDMIDTEEFGRMLVLDGMVMTTIKDEFVYHEMVAHPALNTHPNPKKVLVVGGGDGGVIREVIKHPGVEKAVLVEIDGKVIEYSKQYLPEIAGKLDDPKVEVLVNDGYMHIIEHKNEYDVIMVDSTEPVGPAAPLFERGFYQGIYEALKEDGIFVAQTDNPWFKADLIQQVNKDVKEIFPIVRVYGANIPTYPSGLWTFTMGSKTYDPLEVDESAIDEMDTKYYSPRLHKAAFVLPKFVEDLVK	PGPT0007750_3360	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0007750-speE|SRM|SPEC_3|SPSD-K00797	NA	NA
AK002_00109	870	speB	COG0010	Agmatinase	ATGAAACTGGACCAAGGTTATTCCGGCAACGTGTTTATTCTGAGCTCCGAGGATTATGAAGGATCCAAGGCCGTCATCTACGGTATGCCGATGGACTTCACGGTTAGCTACCGTCCCGGCTCCCGTTTCGGCCCGGCCCGTATCCGCCAAGCATCCGTTGGCTTGGAGGAGTACAGCCCGTACTTGGATAAGAGCATTGAAGATATCACTTATTTCGATGCAGGCGATCTGATGCTGCCTTTCGGCAATGCCGGTCGCAGTCTTGAAGTGATCGGCCATTATGTAGGCAAGCTGCTGGACGACGGGAAGTTCCCGATCGGACTCGGCGGAGAACACCTCGTATCGTGGCCGATTATTCAGAAGGTGTATGAGAAGTATCCTGATCTCATTCTGATCCATATCGATGCCCATGCCGATCTGCGCGAGCATTACGAGGGAGAGCCGTTGTCCCACTCCACGCCGGTCCGCAAGGCGGCGGGCATGATGGGCGGCAAGAACATTTATCAGTTCGGCATCCGTTCCGGCTCCCGCGAGGAGTTCCAGTATGGACGCGAGAACATCAATTTCTACCCGTTTGAGGTAGCCGCTCCGCTGAAGGAAGCATTGCCTTCCATGGGCAACCGACCGGTCTACGTGACTATCGACATCGACGTGCTGGATCCGTCTGCCGCACCGGGCACCGGTACGGCAGAAGCCGGCGGCATCACGTCGAAAGAGCTGCTGGAAGCCGTACATCTGATTGCAAACTCCGATGTGAACGTTGTTGGCTGCGATCTCGTGGAAGTGGCGCCGATCTACGATCCGACCGAGCAGACCCAGATCGTGGCTGCGAAGCTGATTCGCGAGATGCTGCTGGGATTCGTGAAGTAG	MKLDQGYSGNVFILSSEDYEGSKAVIYGMPMDFTVSYRPGSRFGPARIRQASVGLEEYSPYLDKSIEDITYFDAGDLMLPFGNAGRSLEVIGHYVGKLLDDGKFPIGLGGEHLVSWPIIQKVYEKYPDLILIHIDAHADLREHYEGEPLSHSTPVRKAAGMMGGKNIYQFGIRSGSREEFQYGRENINFYPFEVAAPLKEALPSMGNRPVYVTIDIDVLDPSAAPGTGTAEAGGITSKELLEAVHLIANSDVNVVGCDLVEVAPIYDPTEQTQIVAAKLIREMLLGFVK	PGPT0007775_2817	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
AK002_00110	486			hypothetical protein	ATGACGAATGCTTCAAGCAAGAAGAGAACCGACACGGCATCAAGGGTTATTATGGCGTCGCCATCTACGATTTATCAGGCATTCTTGAATCCGGAGGCGCTGGCTTCGTGGCTTCCGCCAAAAGGGATGACAGGCCATGTCGACACGTTTGATGCCCGCGAGGGTGGGACTTATCGAATGATACTTACCTATAACGATACCGATCACTCGGCACCCGGTAAGTCTTCGGACAATACGGACGTCATTGAAGGAAAGTTTCTGGAGTTTGTTCACGAAGAGAAGGTTGTGCAGCTGGTCGAATTTGAGTCTGATGATCCCAGTTATGCAGGGTTTATGAAGATGACATGGGCATTGGAGCCGCTTGCGGAAGGCACCCAAGTCACGATCGTGTGTGAGAATGTGCCCGAAGGCGTACGGAAGGAAGATCACGATGAAGGCTTGAGGTCCACACTCGAGAATCTCGCCGAATCTACGGAGGGACAATAG	MTNASSKKRTDTASRVIMASPSTIYQAFLNPEALASWLPPKGMTGHVDTFDAREGGTYRMILTYNDTDHSAPGKSSDNTDVIEGKFLEFVHEEKVVQLVEFESDDPSYAGFMKMTWALEPLAEGTQVTIVCENVPEGVRKEDHDEGLRSTLENLAESTEGQ				NA	NA	NA	NA	NA
AK002_00111	966	yteP_1	COG4209	putative multiple-sugar transport system permease YteP	ATGGCAGCCCAGTCACCCGAATTAAAGCGCGAGGATTTGATAACCGCCCGGCATCCAGGGACATCCCGTAATCGGTACATAGCCAACATCCGCAAGCATTGGATGCTGTATCTCATGATCATACCCGGAATTCTCTATTATGTTGTGTTTAAATATGTACCGCTGGCGGGCAGTGTCATCGCATTTCAGGACTATCAGATTTTCAAAGGCATCCTTGGCAGTCCGTGGGTGGGACTGGACAATTTTGGATTTATTTTTTCCTACCAGGATTTTTACAACGTGCTGCGCAATACGGCGGTGATCGCTCTCTATCAGCTTGTTTTTGGTTTTCCGGCTCCGATCGTGCTGGCTCTGCTGTTCAATGAAATCCGCATCATGCTGGCAAAACGGGTCGTGCAAAGCATGTTCTATCTTCCGCACTTTTTATCATGGGTTGTTGTCGGCGGGATCGTCTTCGAGCTGTTATCCAACCAAGGGGTCGTGAATGCGGTGCGGGACTGGTTCGGCTACGAACCCATTCTGTTCATGCAGGAGGAGCGGTATTTCCGAGGGATTGTCGTCCTGTCCTCGATCTGGAAGGAAGTAGGCTGGGGAACGATTATTTATTTGGCTGCCATCGCCGGCATCAATCCGAATTTATATGAAGCAGCCGTCATGGATGGAGCGAGTCGGTGGAAACAAACGATCTATATTACGCTGCCCACGATGTTTCCGACGATTCTGGTGCTGTTCCTGCTGCAGATCGGTAATTTCCTGGAGCTCGGCTTCGATCAGATTTACAATTTACTGACACCGATGACGTATTCGGTAGGCGATATCATCGAAACGTACGTCTATCGTGCGGGTGTGCTTCAGGGACAATACAGCATGACAACGGCCATTGGGCTGTTCCAGTCCGTCATTGGGTTTATACTGCTGTGGATTTTTAACCGGTTGGCCAGAAAAACGGATCAGGGGTTGTGGTGA	MAAQSPELKREDLITARHPGTSRNRYIANIRKHWMLYLMIIPGILYYVVFKYVPLAGSVIAFQDYQIFKGILGSPWVGLDNFGFIFSYQDFYNVLRNTAVIALYQLVFGFPAPIVLALLFNEIRIMLAKRVVQSMFYLPHFLSWVVVGGIVFELLSNQGVVNAVRDWFGYEPILFMQEERYFRGIVVLSSIWKEVGWGTIIYLAAIAGINPNLYEAAVMDGASRWKQTIYITLPTMFPTILVLFLLQIGNFLELGFDQIYNLLTPMTYSVGDIIETYVYRAGVLQGQYSMTTAIGLFQSVIGFILLWIFNRLARKTDQGLW	PGPT0017250_957	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00112	846			hypothetical protein	ATGTTTCAGACGCTGAATTATGTGTTTCTGTTCGCTGCTGCGGTGACAATGCTGTTCCCGCTTCTTCAGCTGCTTGCCGTATCGCTCAGCTCCCCGGTAGCTGCCGATTCGAAGGAAGTATTCCTGCTCCCCGTGGAGTTTACGACCGCTTCTTGGGAGCACGTATTAAAAAATAAAGGCCTGTGGACATCATTCGGGATTACCGTATATATTACGATCGCCGGGACGCTGCTCAGCATGCTGTTTTCGGTCATGACGGCATACCCGCTTTCACGACGGGAATTTCTGATCCGCAAACAAGTCATGTTCGGCATTGTGCTAACGATGATTTTCAACGCGCCGATGATCCCGTTTTTTTTGACCGTTCGCGAGCTTGGCATGATGAATTCCTTGTGGGCTCTCATCATTCCCGGTCTGGTCGGCACATTCAACATGATCATTATCCGGACCTTTTTCATGGGCATTCCCAGTGAACTGGACGATTCGGCGCGAATCGACGGATGCAGCGAATTCGGCATATTGTTCCGCATGTACTTGCCTTTATCCAAACCGGTGATGGCGACGGTCAGTCTGTTTTACGCGGTCGGATACTGGAACACCTTCTCCCGTGCGGTGCTGTTTATAAGGGATCCGGAGAAATGGCCGCTTCAAATGAAGCTGAGAGCTTACCTGCAGTCTCCCGAAGAGCTGGCTGCGGTCAATCTGTTTCTTGGGGATTACGATTTCAACACGACAACCTTGAAAGCGGCAACCATCCTGTTTGCCACCATCCCGATCATTCTGGTGTACCCGTATCTGCAAAAATATTTTGTCAAAGGGTCCATGCTGGGTTCGTTAAAGGAATAA	MFQTLNYVFLFAAAVTMLFPLLQLLAVSLSSPVAADSKEVFLLPVEFTTASWEHVLKNKGLWTSFGITVYITIAGTLLSMLFSVMTAYPLSRREFLIRKQVMFGIVLTMIFNAPMIPFFLTVRELGMMNSLWALIIPGLVGTFNMIIIRTFFMGIPSELDDSARIDGCSEFGILFRMYLPLSKPVMATVSLFYAVGYWNTFSRAVLFIRDPEKWPLQMKLRAYLQSPEELAAVNLFLGDYDFNTTTLKAATILFATIPIILVYPYLQKYFVKGSMLGSLKE	PGPT0017255_2676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00113	1542	lipO_1	COG1653	Lipoprotein LipO	ATGTCGAAATGGTTTTTCCAGAAAGGGGCATGGAAACCGGCGCTCACGGCGACACTTGCGGCAGTCATGCTGTTTGGCTGCGGCGGCAAGGGCGACAACGAATCGCAAGCGGGCCAGGGCGGGGAGGGAAATGAAGAACTTACACAAGTAAAGGTGTTCAAAAGCCACATGGGCGTCGGCACGATTCCGGGCGCGGATAATCCGCATGTCCAGTATGTGGCGGAGCGGACCGGCGTGGAATATCAGCTGGTGACGACCCCGCCGGGATCGGAGCCGACCGAATATCTCAATCTGATGATTGCATCCGACGACTTGCCCGATATTCTTCGGCCCATCGGCGGGATCGAGCAGACCCTTATTCGCCAGGGAGGAGCGCTGGCACTGGATGATTTGCTGCCCCAGTATGCCCCGAACGTCTGGAACAATATCCCGCAGGAGGCATGGGATGTCGTTCGATCCGCTTCGCCGGACGGCAAAATCTATTATGTGCCTAAAGTGTTCCTGGTGCCGGAAAGAGCGCCGCTGATCCGCCAGGATTGGCTTGACAAGGTGGGGATGTCCATGCCGAAGACAACGGAGGAATACAAGGAGGTGCTGCGCGCCTTCCTCAACGAAGACCCGAACGGGAACGGTCTGAAGGACGAACTGCCTACAACGGGCCGCGAATTCGGCAAATGGATGGACCATTTGTTCGCCATGTTCGGCGTCGCGATGTGGGAGGGGAGTCCGGAATGGGACGTCTATGACGGAAAAATCCAGTATGCCGGCGTAACGGACAATATGAAGGCTGCCATTGCGTTTGCCCGTGAGTTATATGACGAGAAGCTGCTGGACAACGAGACGTTTCTGAACAAAGGCGATGTATGGACAGCTAAAATCAATAACAATCTGGTCGGCAGCTGGTACCACCTTCCCGCCAACCTGCGCGATCGGTTCACGGCCATGCAGCAAAAAGCACCGGATGCTTATATCGTTGGCATGCCGCTTCCAAAGGCCGATGGGTTTGAGGGATTTGTCACGCAGAAGAGCATGGGCGAACCGGAGTGGATCATTCCGGCAAAGGCCCAGGATAAAGCTCCGGCCGCCTTGAAGCTGCTCGATTTCTTCTATGATCGGTCGAATGATGAATTTACCCGCTTTGGCATCGAAGGATTGCAGCATGAAGTTGTTGATGGCAAAAAAGTGCTGCTTCCGGCCGAGGACAGCCGTCCGTTGGCCCTCGGCATGCGCAACCTGACGACAAAGGAGGATATGGACATCCGGATTCAGGAGACGATCCCGGAAGACATGCAGCAGATGGTGAAGGATATATTTGAGGTGAGTACCGCGGACGCGAAGCGGATCGCCGGGGATGGACTTCCAAGTACCGTGTATGAAGGCTTCCCGGACATTCAATCGCATAAGCTGTTTCAGGAGTATGTAACCAAGATCGTCATCGGCGAATGGCCGCTGGAGAAGTTCGATGAATTCGTCGACCGCTGGCATGAGGCAGGGGGAGACGAAGTAACGAAGAGGGTAGAGGAATGGTACTCAAGGATGTGA	MSKWFFQKGAWKPALTATLAAVMLFGCGGKGDNESQAGQGGEGNEELTQVKVFKSHMGVGTIPGADNPHVQYVAERTGVEYQLVTTPPGSEPTEYLNLMIASDDLPDILRPIGGIEQTLIRQGGALALDDLLPQYAPNVWNNIPQEAWDVVRSASPDGKIYYVPKVFLVPERAPLIRQDWLDKVGMSMPKTTEEYKEVLRAFLNEDPNGNGLKDELPTTGREFGKWMDHLFAMFGVAMWEGSPEWDVYDGKIQYAGVTDNMKAAIAFARELYDEKLLDNETFLNKGDVWTAKINNNLVGSWYHLPANLRDRFTAMQQKAPDAYIVGMPLPKADGFEGFVTQKSMGEPEWIIPAKAQDKAPAALKLLDFFYDRSNDEFTRFGIEGLQHEVVDGKKVLLPAEDSRPLALGMRNLTTKEDMDIRIQETIPEDMQQMVKDIFEVSTADAKRIAGDGLPSTVYEGFPDIQSHKLFQEYVTKIVIGEWPLEKFDEFVDRWHEAGGDEVTKRVEEWYSRM	PGPT0017245_2785	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00114	1299	yteT_1	COG0673	Putative oxidoreductase YteT	GTGAAAAAGAAATATGCCATATGCGGTGTGAGCGGTCGTGCGCTCGGCATGTTCGCCAAACCGATTCTGACGACGCATGCACGGCGCTGCGACCTGGTTGCCATACTGGATTGCGATCCGGCCCGCTTCGAGCTGTACCGCTCCCGCTTCCCGGAGCATACCGCCGTCGGAACTTACGGTGAAGAGGAATTCGGGAAGATGATTGACGAGACTCGGCCGGATGTGGTCATCGTGGCGGGGCGCGACGATACGCATGCGCGTTATATTGTTGCCGCGCTTGAACGGGATCTGGATGTCATCACGGAAAAGCCGATGGTCACGACGGGTAAGGACGCGCGGCGCGTGTTGGATGCGGAGCGGGTGAGCAAAGGCTCGGTGACGGTCACGTTTAATTACCGTTATGCCCCGATTCACGCCAAAATCAAAGAGATGGTGTGGGAGGGCAAACTCGGCCGGATTACATCCGTCGATCTCAACTGGTATTTGGACACGTATCACGGCTCCAGCTACTTCAAACGGTGGAACCGCCGGCGCGAAATGTCAGGAGGCCTCTCCATCCATAAAAGCACGCATCATTTCGACCTTGTGAACTGGTGGATCGGTCAAAAGCCGGTCGAGGCCTTCGCCTACGGGGCGCTCCATTATTACGGTGCCCAAGGGGAGCTGAATCCGGGCAAAGAAGACGGTCGCCATTGCGGAACCTGCCTCACAGCCAGCCGCTGTGCTTATCATTCGCGCTGGAACGCACGTCATGTGCAGGACGATCATCTCGGTCAGCTGGATAGCGGGGGACCGCAATTTCCTTATACAGGCTACCGCCCGGACCGGTGTATTTTTGATGATGAGATCGATATTGAGGATACGTATGCGGCCACCGTCAAATACAGCGGAGGCGCACTGCTCAGCTATTCCGTCAACTTTTCGCTGCCGTATGAAGGGTATCGCTTGGCGATCAACGGTACGAAAGGCCGGTTGGAGACGATCGAATATCATGCACCGTCCCGAACCCCTTTTCCAACACCGATCCAGACGATCGATTACTTCCCGTTGTTCGGCTCCAAGGAAACCATCCATGTCGTCCATCGGGAAGGCGGCCATGGAGGAGGCGACCCGCTTCTGCTGAACGACCTGTTTCTCGGTGAGAACCGGGAAAGGCCGTTCCCGGTTTTGTCCGGGGCTGTGGATGGCGCCTATTCCGTGGCAACGGGGGAAGCCGTGTGGCGTTCCGTGAAGGAACACCGTCCGGTGGCGATAGCGGATGTTCTGGGCGGGTGGAAGGAGAGTGAGCCTATTGAATGA	MKKKYAICGVSGRALGMFAKPILTTHARRCDLVAILDCDPARFELYRSRFPEHTAVGTYGEEEFGKMIDETRPDVVIVAGRDDTHARYIVAALERDLDVITEKPMVTTGKDARRVLDAERVSKGSVTVTFNYRYAPIHAKIKEMVWEGKLGRITSVDLNWYLDTYHGSSYFKRWNRRREMSGGLSIHKSTHHFDLVNWWIGQKPVEAFAYGALHYYGAQGELNPGKEDGRHCGTCLTASRCAYHSRWNARHVQDDHLGQLDSGGPQFPYTGYRPDRCIFDDEIDIEDTYAATVKYSGGALLSYSVNFSLPYEGYRLAINGTKGRLETIEYHAPSRTPFPTPIQTIDYFPLFGSKETIHVVHREGGHGGGDPLLLNDLFLGENRERPFPVLSGAVDGAYSVATGEAVWRSVKEHRPVAIADVLGGWKESEPIE				NA	NA	NA	NA	NA
AK002_00115	2187			hypothetical protein	TTGAATGATAAAGGATACGTTGATCCGGCGGAAAGCCTGGCTTCCCAAACAGAGGGCAGTAACATCGAGCATGCGCTAACGGTCATTGCCCAGCGTTATGTCGGTGACAATCCGCCTCATGCCCCGGTTTACCGGGTGACGCGCAAGAGTCCGATCCGCAAGCGGGCCGACCACTGCTATCAACTCCCCATCGCGGATACGTTCCCCGAGATGACGGGGAGCCAGGTGGTCTACGCCTGGACGAAGCTGTGGGCTGCCGAACCGCAGATCTTCCCCTTTCTGATGGAATGGACGGGGCAAGTTCGGCTGTACCATAACGGCCGGAAGCGGTTCGGTTCGGCGCCAGGGGAAGAAGCGACAGCAGGCGAATTGCCTCTGAAGCTTGGGATTCAGCTTACCAAGGGATGGAATCACTTCGTCCTGGAATTCCGCCGGAGCCCAAACGGCTGCGGAGCGGTATTTGGCACAAGCAACCGCAAGAACAAGCCGTTTCACTTTCTGGCTCCATCCATGGAGCGGGAGGGCGAGGAAGGATGGATTGTGACGATGCCGATGGACGGGGCGCTTGCCCGCATCCCCGATTCAATGGAAAGCGAATCATGGACGGGTGCACAGTGGCTGCCCGTGCCAGCAAAGCACGGTGGGGAAGCAGATGGCGGCCCAATGTTGAGAATGTACGGGCGGAAGCCGGGATATGCCGCTTACGCCTGGACTGCCGTGGTCAACCGGACCTTAACGGGCAAGAAGGTGACCTTGTCAGGAACCTCTTATGGACCGGTCCGGTTTGAATGGAACGGCAGGGAGGTTTACACAAGTCGGGAGGCAGGCACATTCCGTATTGCCATCGATGTGCCTCCCGGCCGCGGGGAGCTTACCGCACGCAGCGAATACGTTCAAGAGGGCTGGGGGTTCGAGGTCAGCGAAGCCTCGCCTGAAGGGATGTTGACCGCGCCGCGCAGGGTGCACGGCCTGACCGGCGAGTGGCTTTATCTGGGTCCGATCCGTGCGGAAGCAGAACTTGAGCTGTCCGACTATTTCGGACTGGATACGGTTGCTGTTGACGGCGGACAGACGCTGTTCTGGACAGGAAGCGAACCGGGAGCCTGTGTGAGGCCGTTTTTGGAGAATGAGCTTTTCGGCCGCTGGAATTATCCGCTTGGTGTCACGATGTACGGCTTGTTGGAGACGGGCAGGCTGCTTAATCGCCTGGACATCCAGGAATATGTGCTCCGCCATGTCGAGTTTTCCGCAAGGCATTACGAATATTCCTTATGGGATCGGGAGGAATTCGGTGCGGCAGGGCTGAACAATCAGCTGTCCGACATCGACAGTCTGGACGATTGCGGATCTTTCGGCGCGCTAGCCATCCTTGCAGACCGAGTTCGATCCTTGAAAGGGGTGCATAGGGCAGCGGACGACATCGCCCGGTACATCATGGATAAGCAATCACGTCTTGAGGATGGGGCGCTTTATCGCGAAGTCGGCGTTTCCCCGAGCATGCACCTTACGATGTGGTGCGACGATATGTACATGAGCGTACCGTTCCTGTGCCGATACGCCGAGCTGTCCGGCGATTCCCGCTATCTGGACGAGGCAGCACGCCAGCTTCTGCTGTATAAGTCCTACCTATACCTGCCCGACCTGCAGTTGATGTCGCATGTATACGATGTACGTCATGGGCAGCCTTCCCGGACGGTATGGGGACGAGGCAACGGATGGGTGTTTTTCTCGCTGTCAGAGCTGCTTGCCGTGCTTCCGTTTGGCCATCCCGACTATGAGGGACTGCTGCTTTTTTATCGCGCGCTGGCGGAAGGGTACCTTCGTGTGCAGGGAGTAAACGGGTTATGGCACCAAGTGCTGACAGACCCTGAATCCTATGAGGAAGCCTCGTGTACCGCAATGTTTATTTTCGGCATGGCGCGGGGGATTCGCCACGGCTGGCTGGAGGACCCGGATCCGTACTTGCAATCCGCCGCTGCGGGGTGGGAAGGTTTAACCAGCAGGGCCATCGACCGCCTGGGAAATGTGTATGGCGTGTGCAAGGGCAGCAGCTGGTCGACCTCGCATGCGTACTACAAGCACGATTTATCGTGGAACTTGAATGATACGCACGGAATCGGCATCGTGCTGTTGGCCGGAGTCGAGCTGCTCGGACTGATGCGGGCCAGCCCAATTGTAAACGCTTAA	MNDKGYVDPAESLASQTEGSNIEHALTVIAQRYVGDNPPHAPVYRVTRKSPIRKRADHCYQLPIADTFPEMTGSQVVYAWTKLWAAEPQIFPFLMEWTGQVRLYHNGRKRFGSAPGEEATAGELPLKLGIQLTKGWNHFVLEFRRSPNGCGAVFGTSNRKNKPFHFLAPSMEREGEEGWIVTMPMDGALARIPDSMESESWTGAQWLPVPAKHGGEADGGPMLRMYGRKPGYAAYAWTAVVNRTLTGKKVTLSGTSYGPVRFEWNGREVYTSREAGTFRIAIDVPPGRGELTARSEYVQEGWGFEVSEASPEGMLTAPRRVHGLTGEWLYLGPIRAEAELELSDYFGLDTVAVDGGQTLFWTGSEPGACVRPFLENELFGRWNYPLGVTMYGLLETGRLLNRLDIQEYVLRHVEFSARHYEYSLWDREEFGAAGLNNQLSDIDSLDDCGSFGALAILADRVRSLKGVHRAADDIARYIMDKQSRLEDGALYREVGVSPSMHLTMWCDDMYMSVPFLCRYAELSGDSRYLDEAARQLLLYKSYLYLPDLQLMSHVYDVRHGQPSRTVWGRGNGWVFFSLSELLAVLPFGHPDYEGLLLFYRALAEGYLRVQGVNGLWHQVLTDPESYEEASCTAMFIFGMARGIRHGWLEDPDPYLQSAAAGWEGLTSRAIDRLGNVYGVCKGSSWSTSHAYYKHDLSWNLNDTHGIGIVLLAGVELLGLMRASPIVNA	PGPT0018255_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
AK002_00116	2274	rhaR_1		HTH-type transcriptional activator RhaR	ATGTTCCTATCGATCGGCAAGTGGCTGAAATACACGCTGGCCCATACGCAAGCGAGGCTGGTGCTCATTTTGACCGTTTCCGTTTTTATGATCATTTTGGCCGTCAGCCTGACATCATATTACACCTCCAAATCGGTGCTTCAGGAAGAGCTCAGCGAGCCGCAGCACCAAATGCTGCAGATCAGTATGAAATATATCGACGATTTGATCCGGGAGAGCGACAAGATTGCGGTCCAGGTCGCGGTGAATGACGATATCTACGATTTTCTGACGAGCGAGAATCAGAACTCGGTGTCCAATATATCGACATTGTACCGACTGCTCTCAACCTGGATCAGCAACTCAAAATACATTAACAGCATATACGTTTACGATGTCGAGCGGGGAAGCTTTATTTCGCTTCCGCAGGGATACAGCTCGAGCAAGCTCACATTCGTGGATTCCGAGTGGACCGGTATCGCTGATGAATTCGGAGACGACATGATGATGATCCGCAAAAGGCATGTCCCCGAGGGGGCGGGCAATAAAGGGTCGGAGCTGACGCTGTTCCGCAAAATCATGATCCAGGGCCGATTAAGAGGCGTCGTAGCGGTCAATTTGCTGGATGCTGAACTGTTCGCGAAATTGAATCCGCCGGCGCTGTCGCAGCTCGACAGCATGCGGTACATCGTGGACCAGCATAATAACATTCTTTATTCGGTTTCGAATTCGGAATTCAAACCGGAAGCGGTGAGGCAGGCGCTGCACGAGCTGAAGGAAGACCACTTCGGGGATTTTTCCCATGAGGGTCGGAAGCTGCTGGTCAATCAAATCGAATCGCCGCTGACCGGATGGAAATACGTATCCATCGTCTCCCAGGATAGTTTGCTTGCACAGTCCAAAAAGGTGCGAGACACGGTGCTGTATGTATCGGTGGCGGCACTTGCGCTCGGCGTGCTGACCATTCTGTATGTAAACTCCGCGGCCTTCCGCCCGGTGCGCAGGCTTAAGCAGCTGTTCAGCGCCTACAACGGGAAGGCGACCAGCCCGGATCGCATCGATCTGGAAAAGCTGGCTGGCGAACTGCTCAGCAATCATGCGCATCTGTCTCAGCTGATCCGCGAGACGATATCCGATGCGGCTTCCAAGTTTTTGTATGATATTCACTCGGGTCATATGAGCGGCAGACGCGAAATCCGCGAGAAGTGGAGACGGTATTTTGCGGAATGGACGGATGCGCCCGTCACGGTAGCGGTGCTGTCGATCGACCGCTATGATTCGTGGTCGCGCAGGTTTCCGGCCAGTGACCACTCGCTGCTGAAGTTTGCCTTGGCCAATATCATGGCAGAGCTGCATGAGCCCGAATGGAGGGTGGCCTGTGCCGATTTCGGAGCGGACCGGATGGCTATCCTGTTTCAACCGCGGAGCGGGGAAACTCGGCCTCCGCTGGCCGAGGCGATCGAAACGGTGTCCCGTTTGCTGAAATTCAGCGTGTCCGCTGGCGTGAGCATGCCGCAGAGCGAGGTTTGCCGGTTAAAGCAGGCCATGCTGGAAGCGGAGAACGCGTTAACCTACCGTTTATATAAAGGGTACGGTCAGCTCGTGCCGTTTCAGGATGTATCCAGTCACGAAGTGACGGATATGCAGCCGCAGGAAGATGGCATACGAGAGTTGATGACTGCTGTGGAGACCGGTGAAGGGGAGCGGGCTATAGAGCTGCTTGGGCGTATCATTGGCGATATCCGCAGCCGTTACTGGTATCCTTCGGAGGCGCTTGCCTTGCTGCAGGCGCTGCTGGAACGTCTTAAAGGGATATGCCCAGAGGGAGAAGGCCCCGAGGGGGACCCGGCAGGTCGGCTGGGCACGCTGTACATTGAAGATATCGAGGCGGAGCTTTCCGGCCTGATTTCGGTCTTGGCCGACCGTTACCGCCGTTTAATCGGCAGCAAGGATTTCTTGATGTGCCAGCGGATGATCGAATTCATGGAGCAGCACCTCGGCGATCCGATCGGCATTCCGGAAATTGCAGAATCGACCGGCATCAGCAGCAGCTTGGCCAGCCAGCTGTTCAAGCAGGAGACAAACGAAACGATCTATAACTACTTAACCCGGCTGCGGATGGAGCGGGCTAGCGAGCTGCTGGTCAAAACCGACCGCAAAATATCCGATATCGCTCAAATGGTGGGCTACCAGCATGAAAACAGCTTCATTCGCAGCTTCCGCAAATTCAAGGATATCACCCCGGGCAAATACCGGGATATGATGAGAACCCGGATAGACGCCTTGTTTGAATGA	MFLSIGKWLKYTLAHTQARLVLILTVSVFMIILAVSLTSYYTSKSVLQEELSEPQHQMLQISMKYIDDLIRESDKIAVQVAVNDDIYDFLTSENQNSVSNISTLYRLLSTWISNSKYINSIYVYDVERGSFISLPQGYSSSKLTFVDSEWTGIADEFGDDMMMIRKRHVPEGAGNKGSELTLFRKIMIQGRLRGVVAVNLLDAELFAKLNPPALSQLDSMRYIVDQHNNILYSVSNSEFKPEAVRQALHELKEDHFGDFSHEGRKLLVNQIESPLTGWKYVSIVSQDSLLAQSKKVRDTVLYVSVAALALGVLTILYVNSAAFRPVRRLKQLFSAYNGKATSPDRIDLEKLAGELLSNHAHLSQLIRETISDAASKFLYDIHSGHMSGRREIREKWRRYFAEWTDAPVTVAVLSIDRYDSWSRRFPASDHSLLKFALANIMAELHEPEWRVACADFGADRMAILFQPRSGETRPPLAEAIETVSRLLKFSVSAGVSMPQSEVCRLKQAMLEAENALTYRLYKGYGQLVPFQDVSSHEVTDMQPQEDGIRELMTAVETGEGERAIELLGRIIGDIRSRYWYPSEALALLQALLERLKGICPEGEGPEGDPAGRLGTLYIEDIEAELSGLISVLADRYRRLIGSKDFLMCQRMIEFMEQHLGDPIGIPEIAESTGISSSLASQLFKQETNETIYNYLTRLRMERASELLVKTDRKISDIAQMVGYQHENSFIRSFRKFKDITPGKYRDMMRTRIDALFE				NA	NA	NA	NA	NA
AK002_00117	2073			hypothetical protein	ATGGAGAGAGAGCAGATTGTTTGGCGGCATCATCCTGAATTCGACAGGCTGGATCCGCTATCGCCACTGTCGGTAGGCAACGGGGAATTCGCGTTTACCTCCGATATTACCGGGCTGCAGACTTTTCCTGAACAATATGAGGTGTCGCTTGGCACCCAGTCGAACTGGGGCTGGCATTTTACGGGGGGGCGCGGCAGGTTCTCCGCGAAGGATGCAGCGTTGCAGATGTTCGAGACCCACGGCCGGCAGGTCGGCTATCCGATGAAGCCGGGGGATAAGCCGGAAGCTTACCAATGGCTGCGGCAAAATCCCCACCGTCTTCACCTAGGCCGGCTGTCGTTCCGATTTCTGGACGAAGCGGGAGAAGAGCTCGGTTACAGCGATGCAGGCCAATTCCGTCAAAAGCTCGATCTGTGGACGGGCATTCTATCGAGCAAGTTCGAAATTCGCGGCGTGCCGGTAGAAGTTACGACGGCGTGCCACCCCGAAGCCGATATTTTGGGCGTGCGGGTGATCTCGCCCCTTATCCGGGAAGGGCGGCTTCAGGTATTCATCCGTTTCCCCGCACCGGATATGACTCATTCGGCTTGGGCAAAATCGGTGTTTCCCGATTGGGAAAGCGATCATCGGCATGATACCGTTCTCGTTCGGCAGGAGAAAGGAACGGCCCTGTTGGAGCGGACTCTGGACGAGGAGCGTTATGCGGTCCGCTGGCGTTGGAATATTGGCCGGCTGGAGCAGACGGAAACACATGAATTCACGCTGAATCCTGGCGAGTCTCAGGATGAATCCCCCAATGAATCACCGGAGGAGCTGACGTTTTCCGTAGGCTTTGCGGCTGGGTCGCCCGGTGTGGCTGACTTTGAAGCTATTGTTTCGGCGAGCATCCGGCATTGGGAATCGTTTTGGCAGAGCGGTGGCGCAGTCAGCTTCGCAGGCAGCTCCGATCCGCGAGCTTTTGAGCTGGAGCGCCGCGTCGTCTTGTCGCAATGGTTATGCGCCATTCACAGCGGGGGCTCGATGCCCCCCCAGGAGACCGGTCTGATGTACAACAGCTGGTTCGGCAAATCGCATTTGGAGATGCATTGGTGGCATGCCGCCCATTTCGCGCTATGGGGCCGGGCCCCCATATTGCGGAGAAGCATGGACTGGTATAACGGTATACTGCCGGTCGCCCGCGAACTGGCGCTATCGCAGGGATACGAGGGAGCGCGCTGGCCGAAAATGGTCGGTTTCGACGGCATTCCGTGCCCCTCGCCGGTCGCTCCGGGCTTGATCTGGCAGCAGCCGCACCCGATCGCCATGGCGGAGCTGTGCTACAAGGCCGACCCGGCACAAGAAACGCTGCGCCGGTTCCGTGACATCGTCTTTGAATCGGCTGACTTTATGGTTTCCTTTGCCCACTGGAATGAGTCAAAAGATGCCTTCGATCTCGGACCGCCGCTCATTCCGGCTCAAGAATGCCATCCGATGAATGCAAGCGTGAACCCGCCTTATGAGCTGGAGTATTGGAAATATGGCCTGGATATCGCTATAAAGTGGGCTGATCGATTGGGTATCCAGCCGAATCCGCGCTGGGTTGAGGTGGCGAATAATCTGGCGGCGCCGCCCCGACTCGACGGCGTTTACCTGGCGCATGAGTTGGCGCCGGACACGTTTACGGAGAATAATCATGACCACCCGTCCATGCTGTGTGCATTAGGCGTGCTTCCCGGCAAGCTTGTCGACCGGGAAACCATGCGGCGTACTTTGTGGAAGGTCAAGGACGATTGGAAATGGGAATCGGCCTGGGGATGGGATTTTCCCGTATGCGCCATGACCGCTGCTCGGCTCGGCGAGCAAGATCTGGCTGTCGATTTTCTGTTAATGGACGAAATGAAAAACACGTTTTTGCCGAACGGGCATAACTATCAGCGCCCGGGTCTGACCGCTTATTTGCCGGGTAACGGCGGATTGCTTACGGCGGTGGCCATGATGGCCTGCGGCTGGGAAGGAGAAGAAGATCTGCACTGTCCGGGATTTCCGGCAAGCGGCTGGACGGTGCAGTGGGAGGGGCTGAAGCCGTGGCTTTAG	MEREQIVWRHHPEFDRLDPLSPLSVGNGEFAFTSDITGLQTFPEQYEVSLGTQSNWGWHFTGGRGRFSAKDAALQMFETHGRQVGYPMKPGDKPEAYQWLRQNPHRLHLGRLSFRFLDEAGEELGYSDAGQFRQKLDLWTGILSSKFEIRGVPVEVTTACHPEADILGVRVISPLIREGRLQVFIRFPAPDMTHSAWAKSVFPDWESDHRHDTVLVRQEKGTALLERTLDEERYAVRWRWNIGRLEQTETHEFTLNPGESQDESPNESPEELTFSVGFAAGSPGVADFEAIVSASIRHWESFWQSGGAVSFAGSSDPRAFELERRVVLSQWLCAIHSGGSMPPQETGLMYNSWFGKSHLEMHWWHAAHFALWGRAPILRRSMDWYNGILPVARELALSQGYEGARWPKMVGFDGIPCPSPVAPGLIWQQPHPIAMAELCYKADPAQETLRRFRDIVFESADFMVSFAHWNESKDAFDLGPPLIPAQECHPMNASVNPPYELEYWKYGLDIAIKWADRLGIQPNPRWVEVANNLAAPPRLDGVYLAHELAPDTFTENNHDHPSMLCALGVLPGKLVDRETMRRTLWKVKDDWKWESAWGWDFPVCAMTAARLGEQDLAVDFLLMDEMKNTFLPNGHNYQRPGLTAYLPGNGGLLTAVAMMACGWEGEEDLHCPGFPASGWTVQWEGLKPWL	PGPT0019270_227	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019270-kojP-K22078	NA	NA
AK002_00118	1146	ogl	COG0823	Oligogalacturonate lyase	ATGGCCAAGGGAACGGTGTGGAAGCCGGAACGTAAGCAGTATCGCGACCGATTGACCGGAGTCGAAGTGGTGCAGCTGACCGACTATAAGGCTCATAGTCATCATCTATATTTTACGGAGAACGGATGGTATGACGGCGGCAAGCGGCTGTTGTTCGTATCGGATAGGGAAAACAGTTCGAACTTGTACAGCATGGATGTCATCAGCGGCGAAATGCTCCAGCTGACGGATTACCCGGACAATGATTTTGTGGATGCGTGTCTGTTACCGGATGGCCGGGCCGCTTTCGTCAAAACGGGTCGGAGCGTACGCCGCCTTGATCTGACAACATTGGAGGAAGAGCTTGTCTACGAAGCTCCAGAGGGGTACAACATCGGCAACCTGAGCTGTCCTGCCGATGGTCGTTCGGTCGTCACCTGCATACAGGAGGATCTGTCCCATCGCATGCAGCTAGACCTCGGCAATGGCTATGTCGGCCATAGGGAGTTGATGGAGGCTGCTCCTCACAGCCGGATCGTGCGGATCGATTCGGAAGGGCAGACGCAGCCTGAAACCCTGTATGAAGCCCATCGCTTTATAACTCATATTAATGCATCACCCGTCGAACCATGGTTGATCACCTTTTGCCACGAAGGGCCGTGGCATTTGGTCGATCACCGGATATGGGGACTGGATCTTCGGAACGGAGAGGCCTGGAGAATTCGCCAGCGCCTTGAACCCGGAGAAAAGGTCGGCCATGAATTTTTTTATCCTGACGGCGTTACCATCGGTTACCATGGCTTCCGTATGGATGGAACCAATTTCTTCGGAAATATCCGGTATGACAATACGGCCATGGAAGAGACGGATTTCGGGTTTGATACGTGGCATGCGTATGCGGACGGCCTCGGTCAGGCCGTTGTCGACGGCAAAGGGTCGGTCAAAACCCTCTCCGTATGGCGTAAAGACGCCAAAGGAGTCTATCAAGGGCCGAGGATGCTGTGCGAGCTCCGATGCAGTTTTCATTCCCAGAAGGTGCATGCGCATCCGCGTTTTGATCCGGACGGTAAACGACTCTTGTTTACAAGCGATAAAAATGGTTATGGCAATCTGTATCTGGTCGACATGCCGGAAGATTTCGATTCGCTGCCGCCGCAATCGGTCTAA	MAKGTVWKPERKQYRDRLTGVEVVQLTDYKAHSHHLYFTENGWYDGGKRLLFVSDRENSSNLYSMDVISGEMLQLTDYPDNDFVDACLLPDGRAAFVKTGRSVRRLDLTTLEEELVYEAPEGYNIGNLSCPADGRSVVTCIQEDLSHRMQLDLGNGYVGHRELMEAAPHSRIVRIDSEGQTQPETLYEAHRFITHINASPVEPWLITFCHEGPWHLVDHRIWGLDLRNGEAWRIRQRLEPGEKVGHEFFYPDGVTIGYHGFRMDGTNFFGNIRYDNTAMEETDFGFDTWHAYADGLGQAVVDGKGSVKTLSVWRKDAKGVYQGPRMLCELRCSFHSQKVHAHPRFDPDGKRLLFTSDKNGYGNLYLVDMPEDFDSLPPQSV	PGPT0018250_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_OLIGOGALACTURONIDE_LYASE,PGPT0018250-ogl-K01730	NA	NA
AK002_00119	1146	yteR_1	COG4225	Unsaturated rhamnogalacturonyl hydrolase YteR	GTGGCTGAAGCAACGGTCCTGGAACGAATACCGGTCCGGGTGGCAGAAACGATCTTGTCCGCTTGCGTGGACGGATACCATCCGAATATAGCCAACAAATGGGGTTACGTGGCCGGCATGGCTTTGAGTGCACTGGGCCGCCTGGCCGAATGGACGGGCGAGAAGCGCTTCAATGAAGCAGTCAAGCGCCATATGGACGTCTTCATACAAGAAGACGGGACGATAGCAGGCTATACACTGGAGGACTATAACCTCGATCACATCAATAAAGGCAAGAATCTGCTCCCCTTGTGGCGCACGACGGAAGAAGAGAAATACCGCAGGGCTGCCGAGCTGCTGGCATCTCAGCTGGTTGGACAGCCGCGGACAGACGAAGGCGGATTTTGGCATAAGAAAATCTATCCGTTTCAGATGTGGCTGGACGGCCTCTATATGTCGTCACCGTTTATGGCGGAGTACGCAGAAACGTTTGATGCGCCGGAATGGTTCGACGAAGCGGCACGTCAGCTGCTGCTCATCGAGCGGCGCACGCGGAATCCGCAGACGGGCCTGCTGCATCATGCTTATGATGAGAGCAGGGAGCAGCGCTGGTGCGACAAGGAAACGGGCCGCTCGCGCCATGTATGGGGGCGGGCCATGGGCTGGTATGCGATGGCCCTAGTGGACTCACTGGAGCATTTCCCCGTAAGGCATCCGCAGCGCGGCCAGCTGATGGGCATTTTCGAACGAATGGCCAATGCGCTCGTACGCGCCCAGGATCAAGACAGCGGGCTGTGGTATCAGGTGATGGACTGCAACGGACGGCAGGGCAATTATTTGGAGGCTTCGGGCTCCTGCATGTTGACCTATGCCTTGGCCAAAGGCATTCGGCTTCATTATTTGGCCGAGATCGACATCGGGGTGGTCGAACGTGCCTATGACGGCATCAAGAAACGTTTTCTCACCGTCGATGCCGAAGGACTGCACCTTCACGGCATATGCCACGGCGCCGGATTGGGCGGGCGGAAATACCGTGACGGATCATACGAGTATTATTTGAGTGAAAAGGTAGTCAGTGACTCGCTCATGGGCGTCGCACCGCTCCTGCTGGCCAGCATCGAAATGGAGAGGCTGCAGGCGGGAGACGAGAGCGGGCATCGAGGATGA	MAEATVLERIPVRVAETILSACVDGYHPNIANKWGYVAGMALSALGRLAEWTGEKRFNEAVKRHMDVFIQEDGTIAGYTLEDYNLDHINKGKNLLPLWRTTEEEKYRRAAELLASQLVGQPRTDEGGFWHKKIYPFQMWLDGLYMSSPFMAEYAETFDAPEWFDEAARQLLLIERRTRNPQTGLLHHAYDESREQRWCDKETGRSRHVWGRAMGWYAMALVDSLEHFPVRHPQRGQLMGIFERMANALVRAQDQDSGLWYQVMDCNGRQGNYLEASGSCMLTYALAKGIRLHYLAEIDIGVVERAYDGIKKRFLTVDAEGLHLHGICHGAGLGGRKYRDGSYEYYLSEKVVSDSLMGVAPLLLASIEMERLQAGDESGHRG	PGPT0018255_499	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
AK002_00120	2475			hypothetical protein	ATGAGTCAAGAGAACCTGTTGACCATGAGGTATCCCGCATCTTGGTGGCGTAATATGTGGCGTGAGGGGTTACCCTCAGGCAATGGAATGGTCGGGGCCTCGGTATTCGGGGGCGTGCATGAAGAGACGGTGCTGCTGAATCATGAGGGGTTGTGGCATTGGGGCCGGAAGGATCCGCTGCCGGACGTGAGCATGACGCTTGCCGAAACGCGCAGGCTGATGGATGAAGGACACTATGCGGAGGGCAGCTGGAGCTTGGCGAACGCTTTACGGGAGCGGGGATACGGGACGAGGCTGGCCTCCCGCTTCCCGCTCGCGGCGATTAAACTGTTCATGCCCAGTACACGGGCGTTCCGCCATTACCGAAGAACCCTCAATATGGAGACCGGTGAGGTTTCGGTTGGCTGGACGGACGGTTCGATCCGATACGTAAGGCGGTTGTTCGTCTCCCGTGCAGATAGGGCCATCGTTTACGAGATTGGCTCCGAGGGATGTGCTAACCAAGAAATAAACCCAGAAGGCAGGAAAGGGATCGGTAAGCATATCGAGGTTCAAGCCGGGACGAGTCACTGTATTTCGGGAGAGATTGGATTGGCGCTCTACCCGAGCAACCGATTGGGGGATACGCCGGAATTCAAGGAACTGGCCGAATCCGTGGTCACTTCGGCGAAAGGGACGTTTATCCGGTACGCCGGCCGCAATGATGACGGTACAGATTTCGGGGCCGTGCTGCGGCTTATTTGCGAAGGCGGAAGTTTACAGTCAACCAAGGAAGGAACGATGTTAAGTTTTGTTAAGGCCCGACGGGCCCTGGCACTGGTGAAAGTATTTATCCGTGGCAAGCGTGAACAGGAATGGGAGCAGCTTGAGCGTGAGCTCAGCGACTTCCCTGAAAATTGCGAATATGACCTGCTTCTCAAGCGCCACGCCGAGCTTCATGGTCCATTGTTCCATTCCGCATCCTTGAAGCTGAACGTGACCAGCGGGGACGTGCGTTCGAACGAGGAACTGCTGCTGGAGGCTTACGAGGGCGAGGCGCCCGATTCGCTCGTTCGTAAAATGTGGGCTTATGGAAGGTATTTGTTTATTAGCGGGACGGCGGCCGAATCGGGGCCGTTCGGACTATATGGCCTATGGGGCGGAGACTACCGGCTTGTCTGGTGCCACCATATGGCGAATGAGAATATTCAAATGATGTATTGGCACGCGCATGTTGGAGGCTTGGGAGAACTAGTACCCCCTTTGTTCCGCTACTACGGAAGCCTAATGGACGATTTCCGCGGCAATGCCCGCAAGTTGTATGGTTGTCGCGGAATCTACATCCCGGCTGGGACTACGCCAGGGATCGGAACGCCGAATCAAATCGTACCCGTCATTCTAAACTGGACGGGAGCGGCCGGGTGGCTGGCCCGGCATTATTATGAGCATTTTTTGTATACGGGAGATGTCCGGTTTTTGCGAGAGGAGGCGCTGCCGTTCATGCGTGAAGCCCTTCAATTCTACGAGGACTTCGCAGTTGTCGGTGAGGACGGCGCCTACCGTCTGTATCCTTCGGTTTCGCCGGAGAACACGCCGCTCAATTTCATGCCGGAGGACGGAAGGCAGCTGGCACACCCGATGCCGACAACCGTCAATGCTACGATGGATATTGCAATTATGAAGGAACTGCTTACCCATCTGATCCAAGCGAATCGGCTAGTCGGCGGACCCGGTTCGGAGGAAGAACGGTGGATGCGAATGCTGGAACGCATTCCGCCTTACCGGACGAACGGGGACGGAGCCCTTGCGGAATGGCTGGATCCCGCGTTTGAGGACCGATACGATCACCGTCATCTCTCCCATATCTATCCCTTGTTCCCGGGTGATGAAGTGACTCGGGAATCAGCACCAGAGCTGTACGTCGCTTTTGAGAAGGCGGTGCGTCTGCGCCGACTCGGAGCCCAAAGCGGTTGGTCGCTTGCCCATATGGCTTCCATTTACGCGCGGCTGGGGGCAGGCGATCGTGCGCTGGAGTGTCTTGATACATTGGCGCAATCATGTCTGCTGCCGAATCTGTTTACCCTCCATAATGATTGGAGGGGGATGGGGATATGCATGGATATGCCGGCAGCGCCGATACAGCTCGATGCAAACATGGGATGGGTGAATGCCGTACAGGAGATGCTGCTGCAGGTGTCGCCGGATATGGTGAAGCTCCTGCCAGCGTTGCCGGAGCGCTGGCGTAGTGGCCGACTCTCAGGCTGGAGATACCATACCGGTCGGATCACCGTGGAATGGGACCGGGATGCCGGTATGTTCCACGCCAAGCTTGAGGCTGAACGGGAGACGGACATCCTCGTTTCCCTGCCGCCTTGGGCAGGGGAATGTTCCATGTCCGGCCCGGCAGCCTCCGTCCAGCCATCAATGCTAGGGCCCCTTTTTCATGCGGTCCGTCTGCACCCGGGGTCACAGCTGTTGATCGATTGCAGCCCGTAA	MSQENLLTMRYPASWWRNMWREGLPSGNGMVGASVFGGVHEETVLLNHEGLWHWGRKDPLPDVSMTLAETRRLMDEGHYAEGSWSLANALRERGYGTRLASRFPLAAIKLFMPSTRAFRHYRRTLNMETGEVSVGWTDGSIRYVRRLFVSRADRAIVYEIGSEGCANQEINPEGRKGIGKHIEVQAGTSHCISGEIGLALYPSNRLGDTPEFKELAESVVTSAKGTFIRYAGRNDDGTDFGAVLRLICEGGSLQSTKEGTMLSFVKARRALALVKVFIRGKREQEWEQLERELSDFPENCEYDLLLKRHAELHGPLFHSASLKLNVTSGDVRSNEELLLEAYEGEAPDSLVRKMWAYGRYLFISGTAAESGPFGLYGLWGGDYRLVWCHHMANENIQMMYWHAHVGGLGELVPPLFRYYGSLMDDFRGNARKLYGCRGIYIPAGTTPGIGTPNQIVPVILNWTGAAGWLARHYYEHFLYTGDVRFLREEALPFMREALQFYEDFAVVGEDGAYRLYPSVSPENTPLNFMPEDGRQLAHPMPTTVNATMDIAIMKELLTHLIQANRLVGGPGSEEERWMRMLERIPPYRTNGDGALAEWLDPAFEDRYDHRHLSHIYPLFPGDEVTRESAPELYVAFEKAVRLRRLGAQSGWSLAHMASIYARLGAGDRALECLDTLAQSCLLPNLFTLHNDWRGMGICMDMPAAPIQLDANMGWVNAVQEMLLQVSPDMVKLLPALPERWRSGRLSGWRYHTGRITVEWDRDAGMFHAKLEAERETDILVSLPPWAGECSMSGPAASVQPSMLGPLFHAVRLHPGSQLLIDCSP	PGPT0018650_610	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_00121	2076	dap_1		D-aminopeptidase	TTGAAGAAAAGATTATCACGAATGCTGGTTGCCCTGCTTGCGGTTACGATGATCCTTCCAGCCGGAGCCATGGCAGCAGATAACAGCCAGACTGCCGCTGCAGGAGGGGGTCTTGAGAAGATCGCCGCAGAGAAAGCCAAGCTGCTCACCGAGACGTATGGAACGACAAGCGTCCAATATGCCCTGATCGACAACGGCAAGATTACCGTGTCCGGGCAAGCGGGCGTCAATGATATCGAAGGAAAGATCCCGTTGACCGAAGATACGATGTATGGGATCGGCTCCACGAGTAAAGTGTTCACTGCCGCCGCGGTCATGAAATTGGTGGATGACGGGAAGATCAACCTGGATGCGCCTCTCGTTCAGTACATACCCGAATTCACGATGAAAGACGAACGCTACAAAAAAATCACGCCGCGCATGCTGCTTAACCATTCCTCCGGCCTGCAGGGCTCAAGCCTGAACAACGCGTTTTTGTTCGAAGATAATGACCCGCATGCACATGACACGCTGCTGAAGCAGTTGTCCACCCAAAACCTGAAGGCAGACCCGGGTGCATTCTCCGTGTATTGCAATGACGGATTCACGCTCGCCGAGATTCTCGTGGAAAAAGTGAGCGGCAAGGATTTTACCGCATTCATTCATGAACATTTTACCGAGCCGTTAAACATGGACCACACCAAGACATCCCAAGACACATTGGATTTAAGCCAAATGGCGGGCCTCTATTATCCGGCTCATCAAGGACAGCTGCCTAACGAGACCATCAATGTCATCGGAACCGGCGGCATCTACTCCACGGCCGAAGACCTGGTGCAGTTTGCGCAGATTTTCACCGGGGAAGCCGAGGGAATCCTCTCAGATCAGTCTGTAAAAGCCATGGAGCAGGAAGAGTATAAAAAAGGCCTGTGGCCAGAAGATGCCGATAATTCGTTCGATTATGGACTTGGCTGGGACAGCGTGAGACTGTTCCCGTTTAACCAATATGACATGAAAGCCGTGACTAAAGGCGGCGACACCATTCTATACCACGCTTCGCTCGTTGTGCTTCCGGAGCAGAACATGGCAGCTGCCGTATTATCTTCCGGCGGTTCGAGTTCAACCAACCAATTGCTGGCAAACGAAATTTTGCTGCATACGCTCAAGGAAAAAGGCACCATCAAGGAATTCAAGCCTGAAAAATCGTTCGGCAAACCGGTCCAAGCGGATATGCCTGACAATATGGCGGAATTCGCCGGTTACTATGGCGTGACGAATCAGCAGATGAAAGTCGACATCAAGGACGGCGAACTGTCCATTACCGTACCGATGGTACCGGACTATCCTGCCGAGAAATATGTATACACCGCGGACGGAACGTTTGTCAGCGCGGATGGCAGCATCAAGGTCAGCTTCGTTAAGGAAAAGAATGATCGCATCTACCTATGGGTAAGACAATATGTTTCGATTCCTGGACTGGGACAGATGGCCTTGTCGCAATATTCGGCCGAAAAAATGGAAGCAAACCCGCTGTCCAAGGAAACCGCTGCCGCATGGGCGAAGCGGGAAGGCGAAACGTTCTATCCATTGAACGAGAAATTCACATCGCTGATGTACTTCATTACGAAACCGACGGTAGAGATTAACAGCAAGAGCGGCCTGGAAGGATATCTGATCGACAAGCAGATCATCGATCCGGATACCGCAGTAAGCCAGCACCAGGTTCCGGCGATTGGCAGCCGGGATACGTCCGAATTCCGCTTCTATAAGGAAAAAGGCGTAGAGTATCTCGAGGGTGCTGGATCCCTGTTTATCAGCGGCAAGCACGTGAAGCCGCTGTATAAAGGGAAAAAATCCACCGTTACCCTGCAAGCCGACGGCTATGCCAAGTGGTATACCGTTCCTGAAGCAGCCGCAGGCAAAACCATGACGGTAACCCTGCCGGCGGAAGGCGCATTCGCCGTATACGATGAGAAAGGCACGGTCGTAAACTACACCGTGGTCAGCGGCTCCAACGAAGTTAAGCTCCCGGCTAACGGAGCTGTCGTATTCGCCGGTGCCCCAGGTTCGGCATTCGGCATCACCCTGCAGCCGTAA	MKKRLSRMLVALLAVTMILPAGAMAADNSQTAAAGGGLEKIAAEKAKLLTETYGTTSVQYALIDNGKITVSGQAGVNDIEGKIPLTEDTMYGIGSTSKVFTAAAVMKLVDDGKINLDAPLVQYIPEFTMKDERYKKITPRMLLNHSSGLQGSSLNNAFLFEDNDPHAHDTLLKQLSTQNLKADPGAFSVYCNDGFTLAEILVEKVSGKDFTAFIHEHFTEPLNMDHTKTSQDTLDLSQMAGLYYPAHQGQLPNETINVIGTGGIYSTAEDLVQFAQIFTGEAEGILSDQSVKAMEQEEYKKGLWPEDADNSFDYGLGWDSVRLFPFNQYDMKAVTKGGDTILYHASLVVLPEQNMAAAVLSSGGSSSTNQLLANEILLHTLKEKGTIKEFKPEKSFGKPVQADMPDNMAEFAGYYGVTNQQMKVDIKDGELSITVPMVPDYPAEKYVYTADGTFVSADGSIKVSFVKEKNDRIYLWVRQYVSIPGLGQMALSQYSAEKMEANPLSKETAAAWAKREGETFYPLNEKFTSLMYFITKPTVEINSKSGLEGYLIDKQIIDPDTAVSQHQVPAIGSRDTSEFRFYKEKGVEYLEGAGSLFISGKHVKPLYKGKKSTVTLQADGYAKWYTVPEAAAGKTMTVTLPAEGAFAVYDEKGTVVNYTVVSGSNEVKLPANGAVVFAGAPGSAFGITLQP				NA	NA	NA	NA	NA
AK002_00122	525			hypothetical protein	ATGATAACTCGTTCGATGGATTGGCTTCAGCAACATGACCACCTTATCTTCCGCTGGTTAAACCGCAAGATCAGCAACAAAATGGTGGATTCGATGCTCGCGCTGGTCACCCATATGGGGGGTGCTATCTTTACCATTGTGCTGACACTTTCGATAGCGTTTTTTGCACCGGAGCCGTGGGATACGATGGGATGGCAGAGCTTTATCGCACTGTCCCTCAGCTTCCTGATTACGGCTCTCATCAAAAAGAAACTGCGGCGCATCCGGCCATACCAGGCATTGGAAAAAGTGAGGTTTGAAAAGAAACCGATGAAGGACCATTCGTTTCCTTCCGGGCACTCGACGGCCATATTTTCCATCATCACGCCGTTTCTGTTCGTAACGCCCTGGCTGTCATTGATCTTGATCCTGCTGGCGCTTACGGTCAGCCTGTCACGGGTTTATCTCGGCTTTCATTATCCTTCGGATTGCCTGGCCGGCTGTTTCGTCGGCACCGCTTCGGCACTCCTGATCGTGCTTAGTTAA	MITRSMDWLQQHDHLIFRWLNRKISNKMVDSMLALVTHMGGAIFTIVLTLSIAFFAPEPWDTMGWQSFIALSLSFLITALIKKKLRRIRPYQALEKVRFEKKPMKDHSFPSGHSTAIFSIITPFLFVTPWLSLILILLALTVSLSRVYLGFHYPSDCLAGCFVGTASALLIVLS	PGPT0024170_2364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
AK002_00123	858	nit1		Deaminated glutathione amidase	ATGAAATTTCGCGTTTCTGCCGTGCAATATCATCTGCACACGATTCAATCCTTTGACGATTTTGCCCGTCAATCGGAGCATTATATCCGAACGGCGGAGGAGTTCGAAGCCGATTTTGTGCTGTTTCCGGAATTTTTCACGACGCAGCTGATGTCCATCGGGGACGATCAGGGCCAGGCTTTAACGATCAATGACCTTCCGGATTTCACAGACCGTTACCGCGAGCTGTTCCAGGGCTTTGCGAAGCAATATAACATGCATATCATTGGCGGGACCCACGTCATTCGCCGGGAAGGGAAGCTTTACAATGTGGCGCATCTGTTCTATCCGGACGGCCGCATTGCGGAGCAGGCGAAGATTCATATTACGCCTTCGGAGATAACCGGCTGGAACATGGGGGCCGGCGAAGGGCTCGAAGTATTCGAGACCGAAAAAGGCACCATCGCGATGCTCACCTGCTATGACATCGAATTTCCCGAGATCGTGCGCATGGCCAAGGCCAAAGGGGCCGACGTCATTTTCTGTCCGTCCTGCACCGATGATCGCCACGGATTCCACCGCGTGCGTTATACCAGCCATGCCCGCGCCATCGAGAATCAAATCTATGTGGTGCTGACCGGCACGGTTGGATCGCTGCCTACCGTGGATCTGATGCGTGCCAACTTCGGGCAGGCTGCCATCATTACGCCGAACGATATTCCGTTCCCGCCGAAGGGCCTGCTGGCCGAGGGAGAGCTGAACAACGACATGATCATTACCGCCGATCTCGATCTGGATTTATTGTATCAAGTGCGCGAGAAGGGCTCCGTCACGACATGGCGTGACCGGCGTACGGATTTGTATCCAGATTGGGAGTAA	MKFRVSAVQYHLHTIQSFDDFARQSEHYIRTAEEFEADFVLFPEFFTTQLMSIGDDQGQALTINDLPDFTDRYRELFQGFAKQYNMHIIGGTHVIRREGKLYNVAHLFYPDGRIAEQAKIHITPSEITGWNMGAGEGLEVFETEKGTIAMLTCYDIEFPEIVRMAKAKGADVIFCPSCTDDRHGFHRVRYTSHARAIENQIYVVLTGTVGSLPTVDLMRANFGQAAIITPNDIPFPPKGLLAEGELNNDMIITADLDLDLLYQVREKGSVTTWRDRRTDLYPDWE	PGPT0007175_39	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007175-yhcX-NA	NA	NA
AK002_00124	672			hypothetical protein	ATGGCCCGGTTTCATCAACAGTTTTATGTATTCGACGACGCCCGGCCGGTGCCGGTTGTCATTCGAGGCTACACCGAAGCGGACTTCGACGAGCTGATCGCCATTCAATCCGAGACGTTCCCGCCTCCGTATCCGCCGGAGCAATGGTGGAACAAGGAACAGCTGATGCAGCATGTCACCTTGTTTCCCGAGGGCGCGCTATGCGTTGAAGTGGATGGCATGCTCGCAGGCTCCATCACCTCGCTCATTGTGGATTACGATCCGATGGAGCCTGCCCACTCCTGGGCGGAGGCCACGGATAACGGATACATCCGCACGCATCAGCCGGACGGAAACACGCTGTACATCGCCGACATTTGCGTCCGGCCGCGCTTTCGCAAGCTGGGACTCGGCAAATGGCTGATTCAGTCGCTGTATCACGTGACCGTCGAACGGGGACTGGACCGGCTGCTTGGCGGCGGACGGATGCCCGGCTATCATCGGCATGCGCACGAAATGTCGGCCGCGGAATATTTGGATGCCGTTGTACGGGGAGATCTCAAAGATCCCGTAATTACCTTCCTGCTCCTGTGCGGCCGGACGCCCGTTGGGGTAGCGGCAGAGTATTTGGAGGATGAGGAGTCCTGCAATTACGGGGCCTTGATGGAATGGAAGAATCCGTTCCGAGAGTGA	MARFHQQFYVFDDARPVPVVIRGYTEADFDELIAIQSETFPPPYPPEQWWNKEQLMQHVTLFPEGALCVEVDGMLAGSITSLIVDYDPMEPAHSWAEATDNGYIRTHQPDGNTLYIADICVRPRFRKLGLGKWLIQSLYHVTVERGLDRLLGGGRMPGYHRHAHEMSAAEYLDAVVRGDLKDPVITFLLLCGRTPVGVAAEYLEDEESCNYGALMEWKNPFRE	PGPT0007175_22	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007175-yhcX-NA	NA	NA
AK002_00125	672			hypothetical protein	ATGGAATATATTCGCATTACGAGCATCGACGATCCCTTGTTCCGCAAAATGCACGATCTCATGAAGGAAGTGTTCCCTCCGGAAGAGGTGCTGGAATTCAGCTTATGGAAGGAGCCGCTCGAAGATCCGGGCATTCGGGTATTTGTTGCCCTGCATGAGGACGAAGTGGTGGGTACGACGGAATACCGCTATTACGAGGACTGGAACGTGGCGATGACCGATTTTACCATTATCGGGCGTGAAGGGCTCGGCATCGGCCGATTCCTGGCACAACATCGCTTGAAGGATCTGAATCAATTGGCGGCGGCAAACGGCAAAGAGCTGTTCGGCATGTTTGCCGAGATTTACGATCCATATCGGGTGCAGGACCATGCATTCGGCGGCGTGAAACCCATGGATCCGTTCGTTCGCCGCGAAGTCCTGTCGCATCTGGGTTACAAACGCACGGATATCGACTATGTGCATCCCTCCTGGAACAATGATGGCGAGGCGGTGAGCGGGCTTGATTTCTGCTTCATGCCGGGCGACGATGCTGTTGATGAATTGCCTGCGGAGCTGATTGCCAACTTCTTGAGACGATACTATTCGGTGCTGCCTGAGAAACCGCAAGCCTGGAACGACATGGTAGCCAAGCTGGACGTGCGGGAGAAGGTATCCTTGCTTCCGCTGTAA	MEYIRITSIDDPLFRKMHDLMKEVFPPEEVLEFSLWKEPLEDPGIRVFVALHEDEVVGTTEYRYYEDWNVAMTDFTIIGREGLGIGRFLAQHRLKDLNQLAAANGKELFGMFAEIYDPYRVQDHAFGGVKPMDPFVRREVLSHLGYKRTDIDYVHPSWNNDGEAVSGLDFCFMPGDDAVDELPAELIANFLRRYYSVLPEKPQAWNDMVAKLDVREKVSLLPL				NA	NA	NA	NA	NA
AK002_00126	519			hypothetical protein	ATGAAGCGAAATCGTATTTGGTTATGGGCAGGTATTGGTTTAAGCATCGTAATCCTATATTCATTCATGCAACTAAGCGTTCATCTCGGCAAACCCATGTCCGAGGAACAGAAGATAGCGGCCTCTTACGTGAAATCGCTGGGCTATAAGATTGTAAGCCACTCCAGTAAACCGATTACTTATACGCTTGAGAAATCTCTTCTCGCACCCGGTACCGGCGCAATCCCCTATATTCAGACATGGAGTGTACAGAGCCAAGATCCGGCAAACTACTACGGAAAAGAAATTGTCACTTATCGTTTCAAGGTTTCCGGGCATCCGCTTGACCGCATGTATAATACGAATACGGCCTTATTCGTGATGATGTCGGAGGGGAAGGTCATCGGGGGAACCTCGTTCCCTGATCGGAACGATTTAGCTGGAGCCCCTTATTCTATTGATGGAAAGACCTTGGAGGAAATCACGGGCAACAGTTTCGGGGAATGGCGCGAGCAATGGGCCAAGAAATACGGGAATTGA	MKRNRIWLWAGIGLSIVILYSFMQLSVHLGKPMSEEQKIAASYVKSLGYKIVSHSSKPITYTLEKSLLAPGTGAIPYIQTWSVQSQDPANYYGKEIVTYRFKVSGHPLDRMYNTNTALFVMMSEGKVIGGTSFPDRNDLAGAPYSIDGKTLEEITGNSFGEWREQWAKKYGN				NA	NA	NA	NA	NA
AK002_00127	426			hypothetical protein	ATGAACGACCGAAAACAAGTGAGCATCCGTCTTCAGAGCCTTCACGAAGGAGAGAATACGATACAGGAGCTTCCCGCAGAGGCGTTTATCAAGGGGAAAGTGCTGTATGTGCGCTATACGGAGCCTGCGCTTGGACCGCATCAGGGGGAAACCCGGGCCATGCTCAAGCTGACGGAGGACGAGCTGAAGCTGATCCGTCACGGCGAGGTGGAGTCCGAGCAGGCGTTTAAGCTGGGTCAGCGATTGCCAGGGTATTATCGCTCCCCGTTCACTTCATTTAATCTGTCTACGCACACCCAGCGTCTGGAGCTAGCGCTAGAGGGCATGACCGGACGAGCGGCTTGGGCGTATGATTTATATGTGTTTGACGAGTTTTCGGGACACTTTTCGATCAGTTTGACTATTCAGGAGGCACATGAATCATGA	MNDRKQVSIRLQSLHEGENTIQELPAEAFIKGKVLYVRYTEPALGPHQGETRAMLKLTEDELKLIRHGEVESEQAFKLGQRLPGYYRSPFTSFNLSTHTQRLELALEGMTGRAAWAYDLYVFDEFSGHFSISLTIQEAHES				NA	NA	NA	NA	NA
AK002_00128	1680	argS_1		Arginine--tRNA ligase	ATGACAATGAATCCATTAGATCACATTAACGGGCTGGTTGCAGAGGCGGTAGGAGACGCTGCCGTAGCTGCCGGACTGGTGTCCCGCGAGGAGCTGCCCGCCATTACGCTGGAAGTTCCGAAGGATAAGTCGCACGGCGACTTGGCTACGAACGTAGCGATGCAGCTGACGCGGATTGCCAAGAAGAACCCGCGGCAAATCGCGGAAGCTATCCTGGAACATTTGGATACGGCAAAGGCTTCCATTGAGAAAGCGGAGATCGCCGGGCCCGGGTTTATTAACTTTACCTTGGACAAGGGGTATCTCTATCCGATCGTGGCATTGGTTCAGGAACAGGGCGATAACTACGGGCGGATCGCTACGGGCGAAGGGCAAAAGGTCCAGATGGAGTTTGTCAGCGCCAATCCCACCGGAAGTCTGCATCTTGGACATGCCCGCGGGGCGGCGGTAGGCGATGCCCTTTGCAATGTGCTTGATTTTGCAGGATACGAAGTTACGCGCGAATACTACATCAATGATGCAGGCAACCAAGTAGTGAACCTGGTTAAATCCCTCGAAGCCCGCTATTTGCAGGAGCTCGGTCAGGATGCCGAAATGCCTGAAGACGGATACCATGGCGAGGATATCAAAGGATTTGCCAAAGAGCTTGTAGCCGAGAAAGGCGATTCCTTGCTATCGATGGACCCAGGCGAGAGAACGGCATTCTTGCGTCAATTCGGGCTTGAGAAGGAACTTGGTAAAATCAAACGCGATTTGAATCGATTCCGCGTCCATTTTGACGAGTGGTTTAGCGAAACGTCCCTGTATGAGGATGGACTGGTGGAGAAATCCCTGGAAGAACTGAAAGCCAAGGGCGAAGCTTACGAGAAGGATGGGGCAACCTGGCTCCGCACCACCGATTATGGGGATGACAAAGACCGCGTCCTCGTTAAGAATGATGGAACGTATACCTACCTGACGCCGGATATTGCGTACCACCGCAATAAATACGAGCGCGGCTATGACAAGATCCTGAATATTTGGGGAGCCGACCACCATGGTTACGTTCCGCGCATGAAGGCTGCCATGGAGGCGCTCGGCAATGACCCGGACAAACTCATCGTATTGATCGCCCAGATGGTCAGCCTGTTCCAGGACGGCGAGAAGGTGAAGATGTCCAAGCGTACCGGTAAAGCGGTCACGATGGAAGATCTGATGGATGAGGTCGGCGTGGACGCGATCCGCTATTTCTTCACCATGCGCAGCATGGATTCGCATTTGGATTTCGATATGGATCTGGCGGTGTCCACGTCCAACGAGAATCCGGTCTTCTACGTACAGTATGCACACGCACGCATTTGCAGCGTATTCCGCCAAGCGGAGGAGCAAGGCGTTAGCCTCCTGCCGCTTGCCGACGTCAACCTGAGCGTTCTGACCGCCGAGCATGAATACGACATTTTGCGCAAAATGGGAGAGCTCCCGCAGGAAGTGTCGCTTGCTGCGGAGAACTATGCACCGCACCGGCTTATCCGGTATGTATATGAACTGGCTTCCTTGTTCCACAGCTACTACAGAGCTGAACGCGTGATTACGGAAGACGCGAATCAAACGCAGGCCCGCCTTGCTTTGCTGGGAGCGGTCCGCACGGTCATTGCCAACGTGCTTCGCCTGATGGGCGTATCGGCGCCGGAACGCATGTAA	MTMNPLDHINGLVAEAVGDAAVAAGLVSREELPAITLEVPKDKSHGDLATNVAMQLTRIAKKNPRQIAEAILEHLDTAKASIEKAEIAGPGFINFTLDKGYLYPIVALVQEQGDNYGRIATGEGQKVQMEFVSANPTGSLHLGHARGAAVGDALCNVLDFAGYEVTREYYINDAGNQVVNLVKSLEARYLQELGQDAEMPEDGYHGEDIKGFAKELVAEKGDSLLSMDPGERTAFLRQFGLEKELGKIKRDLNRFRVHFDEWFSETSLYEDGLVEKSLEELKAKGEAYEKDGATWLRTTDYGDDKDRVLVKNDGTYTYLTPDIAYHRNKYERGYDKILNIWGADHHGYVPRMKAAMEALGNDPDKLIVLIAQMVSLFQDGEKVKMSKRTGKAVTMEDLMDEVGVDAIRYFFTMRSMDSHLDFDMDLAVSTSNENPVFYVQYAHARICSVFRQAEEQGVSLLPLADVNLSVLTAEHEYDILRKMGELPQEVSLAAENYAPHRLIRYVYELASLFHSYYRAERVITEDANQTQARLALLGAVRTVIANVLRLMGVSAPERM				NA	NA	NA	NA	NA
AK002_00129	1149			hypothetical protein	ATGGATTACACCCGGATCATGCAATCACTACTTGCAGAGACGAACCCTATGCGGAACGTCCGGGAAATGAACCGGCGGCTCCTCACGTTTCATGACCCTCAGCTGTACCAGAAATGCATCCGCGAATGGAACCGGCTCGCAGGGAAAAGGCGTTTCCCGAGTTCGGTCAGCCGCTCGCCGCTTACTCGCACCATCATCGCTCCAGCTCCCCAAACCGCGAAGTTTGAAGCGGAGTTTCGGAACGAACTGATGGTTGAAGAGGATGAACAGGTTCATATCCACGCCATACAGGGGACAATAGGAACGCTAACCGGGATCCCATGGGGTATCAAGCAAATCAAAGCCCCTCAAGCCTGGTCTACCTCGACAGGACACCGCGTGAAGATTGCCGTTATCGACACAGGGGTGGATTTCGGTCACCCGGATCTGAAGTATTCGCTGACCCGAGGGGTCAACCTCGTCCATCGCAACATCCCGCCTTATGACGACAATGGGCATGGAACGCATATCTCGGGCACCATCGCTGCAGCAAACAGCACCCAAGGTATGATCGGCGTTGCTCCCAGATCTGTCGTGTATCCGGTCAAAGCCTTTGATCACAACGGCTCCGCCTTCGTGTCGGATATCATTCTGGCCATCGACTGGTGCGTGCGGGCCGAGATCGATATCATCAATATGAGTTTTGGCATGCAGACCCGAAGCCGCACGCTGCTGGATATCGTAAGCAAGGCCAACCAAGCAGGCGTCCTCATTGTGGCCTCTTCCGGCAATGACGGCAAACGCCGTACCGCGGACTATCCTGCCCGTTATCCCCAAACGATATCCGTCGGAGCTACCGACCGCAGCCGGAGGATCCCCGGCTTCAGCAATCGTGGGCAATTTGTCGATATTTATGCGCCCGGAGATAAAATCGTGTCAGCCTGGCTGCAGGGAAAATACCACGAAATGAGCGGTACTTCCATGGCCACTTCACACGTCAGCGGAGCAATCGCCCTGCTTCTTGCCCAGAAGCCTGACTTGAAAAAAACAGCTACGATCAAGGCCCTGCTGCGGCGCACCTCCTCCCCCCTTAAGCTCAAAAAAGGATACAGCGCCTCCGATGGAGAGGTAAATGCCTTGAAATTTTTGCGCGAGGGCATGAAATTATAA	MDYTRIMQSLLAETNPMRNVREMNRRLLTFHDPQLYQKCIREWNRLAGKRRFPSSVSRSPLTRTIIAPAPQTAKFEAEFRNELMVEEDEQVHIHAIQGTIGTLTGIPWGIKQIKAPQAWSTSTGHRVKIAVIDTGVDFGHPDLKYSLTRGVNLVHRNIPPYDDNGHGTHISGTIAAANSTQGMIGVAPRSVVYPVKAFDHNGSAFVSDIILAIDWCVRAEIDIINMSFGMQTRSRTLLDIVSKANQAGVLIVASSGNDGKRRTADYPARYPQTISVGATDRSRRIPGFSNRGQFVDIYAPGDKIVSAWLQGKYHEMSGTSMATSHVSGAIALLLAQKPDLKKTATIKALLRRTSSPLKLKKGYSASDGEVNALKFLREGMKL				NA	NA	NA	NA	NA
AK002_00130	564	rpoE		DNA-directed RNA polymerase subunit delta	GTGAGTAATCCGCTCAATTTAAAGATCGATCCGGAGAAGATTCAGGAAATCCCGATGGTTGACCTGGCTTTTATGGTTCTGAAGGCGGCGAATACGCCGTATTATTACCGTGACCTGATGAATGAGGTGGCCAAGCTTCGCGGCTTTACGGAACAGGAAATTAACGAAACGATTGCCCAGTTATATACCGAGATCAATATAGACGGACGTTTCGCATGTGTAGGAACGAATCTGTGGGGACTAAAGCGCTGGTATCCGCTTGAGAAGTCCGAAGATCCGATTGCGAACGCCAAACGTCCGCGGATCATCAATGATGAAGACGATGATGACGATGACTTCACGGATGAAGAGGATACCTATAGCGGCGACGATGCCGAAGAGGATTTCGACAGCATCGATGAGGAAGATGATGATCACGACGATCTCTTCCCGGATGATGACGATGCTGACGATGATGTAGATGAAGACGTTGTTCTGGATGATGAGGAATTGGATGACGAAGATGCGGATTCCGATGAAGAAGAACTGGAAGAGGAAGAGTTTGAGGAAGACGACAGAGATTAA	MSNPLNLKIDPEKIQEIPMVDLAFMVLKAANTPYYYRDLMNEVAKLRGFTEQEINETIAQLYTEINIDGRFACVGTNLWGLKRWYPLEKSEDPIANAKRPRIINDEDDDDDDFTDEEDTYSGDDAEEDFDSIDEEDDDHDDLFPDDDDADDDVDEDVVLDDEELDDEDADSDEEELEEEEFEEDDRD				NA	NA	NA	NA	NA
AK002_00131	303			hypothetical protein	ATGATGTTTATCCTAACCCGTTTTCCCCTGATTCATCAGAGGGACCAACAAAAACATCGCTCGCTTCCAATAATGGTGAGCGAGCTGACCTCCGACCTATTACAAACCGCATATATTGACGCTAAAATGATCCCCATCGGGCTGCCGGTACGGCATAACGTTATGAGGCTTCAGGGCGAGCGATTCCAATACATCTTAACACTCTGCATATCTGAAACTTGGTCTTTCTATATTGGCCCGGAAGCTAGCGTCGTTTACACTTTCCGAGCCTTAAAAACAAAAAAAGTGACCCCGAATAAATAA	MMFILTRFPLIHQRDQQKHRSLPIMVSELTSDLLQTAYIDAKMIPIGLPVRHNVMRLQGERFQYILTLCISETWSFYIGPEASVVYTFRALKTKKVTPNK				NA	NA	NA	NA	NA
AK002_00132	1602	pyrG		CTP synthase	GTGACAAAGTATATTTTTGTAACAGGCGGAGTCGTGTCATCTCTAGGTAAGGGAATTACCGCCGCTTCGCTCGGTAGATTGCTTAAGAACAGAGGGCTCAAGGTAACGATTCAGAAATTCGATCCGTACATTAATATAGATCCGGGCACCATGAGTCCTTACCAGCATGGCGAAGTGTTCGTTACTGACGACGGTGCGGAAACCGACCTGGACCTGGGACACTATGAGCGCTTCATCGATATTAACCTGTCGAAGAACAGCAACGTGACAACAGGAAAAGTATACTCTTCTGTTATTAGCAAGGAACGCCGGGGGGAATATTTGGGCGGCACCGTGCAGGTTATTCCTCATATTACGAACGAGATCAAGGAGCGCGTATTCCGTGCGGGTCGTGAAGCGGGTTCGGATGTGGTCATTACCGAAATCGGCGGAACGGTCGGCGATATCGAAAGCCTTCCTTTCCTGGAGGCCATCCGCCAAATCAAGAGCGATGTTGGCCGTGAGAACGTGATGTATATTCATGTAACCCTCATTCCATATATTAAGGCAGCCGGTGAAGTGAAAACGAAGCCGACGCAGCACAGTGTAAAAGAACTCCGCAGCATCGGCATTCAGCCGAATGTCATCGTGTGCCGTACGGAGCATGAGCTTTCAACCGAGATGAAAGCCAAAATCGCGCTTTTCTGCGATATCGACCCTAACGCGGTCGTAGAATGCCGCGACGCATCTTCCCTATATGAGGTGCCGCTGAATCTGCGCGATGAAGGCCTGGACGAAATTGTTGTCAATCATCTGAAGCTGACGACTCCTGCGCCGGATATGAGCGAGTGGGAAGATCTGGTGGAGCGCGTCTCCAAGCTGGAGAAGACCGTTGAGATTGCGATTGTCGGCAAGTATGTCGCGCTTCATGACGCCTACCTCAGCGTAGTAGAATCCCTGTCCCATGCCGGCTTTGATGCCAATGCCGACGTGAAGATCCGCTGGGTGAACGCCGAGGAAATTACGGCGGACAATGTGGAAGAGACGTTGAACGGCATCGGCGGTATTCTGGTACCTGGTGGATTTGGAGACCGGGGTATCGAAGGCAAGATCAGCGCGATCCGTTATGCCCGCGAGCGCAACATTCCATTCTTCGGCATTTGCCTTGGCATGCAAGTGTCCGTCATCGAATATGCCCGTTCGATCGTAGGTCTGAACGGCGCGAACAGCTCCGAAATTGATCCGGCTACCGAATATCCGGTTATCGACCTGCTTCCGGAGCAGAAGGATATCGAGGATCTTGGCGGAACGATGCGCCTTGGCCTGTATCCTTGCAAGCTGGTTCCGGGATCGCTTGCGGAGTCCTGCTACCAGGACGAGCTGGTTTACGAAAGACATCGCCACCGGTACGAGTTCAACAACCAATACCGCGAAGATATCGAGAAAGCGGGCCTGCGTATTTCCGGTACTTCACCGGACGGACGTCTGGTCGAGATCGTGGAGCTGCCAGGACATCCTTGGTTCCTCGCCGTGCAATTCCATCCGGAATTCACTTCCCGTCCGAACCGTCCGCAGCCATTGTTCCGTGAATTTGTAAAAGCCTCGATCCAGCATCAGGCATAA	MTKYIFVTGGVVSSLGKGITAASLGRLLKNRGLKVTIQKFDPYINIDPGTMSPYQHGEVFVTDDGAETDLDLGHYERFIDINLSKNSNVTTGKVYSSVISKERRGEYLGGTVQVIPHITNEIKERVFRAGREAGSDVVITEIGGTVGDIESLPFLEAIRQIKSDVGRENVMYIHVTLIPYIKAAGEVKTKPTQHSVKELRSIGIQPNVIVCRTEHELSTEMKAKIALFCDIDPNAVVECRDASSLYEVPLNLRDEGLDEIVVNHLKLTTPAPDMSEWEDLVERVSKLEKTVEIAIVGKYVALHDAYLSVVESLSHAGFDANADVKIRWVNAEEITADNVEETLNGIGGILVPGGFGDRGIEGKISAIRYARERNIPFFGICLGMQVSVIEYARSIVGLNGANSSEIDPATEYPVIDLLPEQKDIEDLGGTMRLGLYPCKLVPGSLAESCYQDELVYERHRHRYEFNNQYREDIEKAGLRISGTSPDGRLVEIVELPGHPWFLAVQFHPEFTSRPNRPQPLFREFVKASIQHQA	PGPT0021215_5447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
AK002_00133	393	spo0F	COG0784	Sporulation initiation phosphotransferase F	ATGAGCAAACAAAGCAAACACAAAGTGCTGATTGTGGATGACCAGAATGGGATCCGCATCCTGCTTGTGGAAGTGTTCAGCAGTGAAGGATATGAGACGTTCCAAGCGGCGAACGGCAAGGCTGCCCTTGAAATCGTGAAGATGCATGCCCCGGATTTGGTGCTGCTGGATATGAAAATTCCTGGAATGGACGGGCTTGAGATTTTGAAGCATATTAAACAGATGAATCCGGACATTAAGGTGATCATGATGACAGCCTACGGAGAGCTTGACATGATCAAGGAAGCGACCGATCTTGGAGCACTGATGCATTTTACCAAACCCTTCGACATCGACGAGATGCGGCAAGCCGTCAACATGCAGCTGAAAGGGACCGCGAACAACATCGGTTGA	MSKQSKHKVLIVDDQNGIRILLVEVFSSEGYETFQAANGKAALEIVKMHAPDLVLLDMKIPGMDGLEILKHIKQMNPDIKVIMMTAYGELDMIKEATDLGALMHFTKPFDIDEMRQAVNMQLKGTANNIG	PGPT0024650_80	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024650-spo0F-K02490	NA	NA
AK002_00134	855	fbaA	COG0191	putative fructose-bisphosphate aldolase	ATGCCATTAGTATCAATGACAGACATGCTGAACAAAGCACTCGAAGGTAAATATGCTGTTGGTCAATACAACATCAACAACCTGGAGTGGACATATGCAATTCTTGAAGCGGCAGAGCAAGAGAAATCACCGGTCATTCTTGGTGTTTCCGAAGGCGCAGCTCGTTACATGGGTGGATTCAGCACCGTTGTACACATGGTAAAAGGTTTGATGGAGGACCTGAAAGTTACAGTTCCTGTTGCCATTCACCTTGACCACGGTTCAAGTGTTGAGAAATGTAAAGAAGCAATCGACGCAGGGTTCACTTCGGTTATGATCGATGATTCCCACAGCCCGATTGAGACGAATATTGCAACAACGAAACAAGTGGTTGAGTATGCTCACGCAAAAGGCGTTTCCGTTGAAGCCGAAGTTGGCATGGTCGGCGGACAAGAGGATGACGTTATCGGCGACGTAATGTACGCGAAGCTTGACGACTGCGTACGCATCGTGAACGAGACAGGCATCGACACATTGGCGCCTGCGCTTGGTTCTGTTCATGGTCCTTACAAAGGCGAACCGAACCTTGGTTTCAAAGAGATGGAAGAGATTCGCAATGCTGTGAAACTTCCGTTGGTGCTTCATGGCGGTACGGGCATCCCGACGCATGACATCAAGAAAGCTATCTCCTTGGGTACTTCCAAAATCAACGTGAACACCGAGAACCAAATCTCGTTCACCAAAGTTGTTCGTGAAGTGCTTGCCGCTAAACCGGAAGCTTACGATCCGCGCACATTCCTGAAACCAGGCCGCGAGGCAATCAAGGAAACCGTTGTCGGCAAAATCCGTGAGTTTGGTTCCAACAATCAAGCTTAA	MPLVSMTDMLNKALEGKYAVGQYNINNLEWTYAILEAAEQEKSPVILGVSEGAARYMGGFSTVVHMVKGLMEDLKVTVPVAIHLDHGSSVEKCKEAIDAGFTSVMIDDSHSPIETNIATTKQVVEYAHAKGVSVEAEVGMVGGQEDDVIGDVMYAKLDDCVRIVNETGIDTLAPALGSVHGPYKGEPNLGFKEMEEIRNAVKLPLVLHGGTGIPTHDIKKAISLGTSKINVNTENQISFTKVVREVLAAKPEAYDPRTFLKPGREAIKETVVGKIREFGSNNQA	PGPT0017615_4829	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
AK002_00135	249			hypothetical protein	ATGCTGCATACAATGAAATGGAAAGCACACCGCATAGCCGGTGTTTTTCCATTTCATTTATTAAGTTATCAAAAAGCGCAAGCGGATTGTGAGGCTTCACAACCGGATAATCGCTACGAAAACGAACGCTTATTGCGTCTGTCATCCTTTAGGAACGTCGATACGACGTTTTTCTTGTATGACGGGCATCAGAACCATTTCCGGCTGCGAAGTGATGTAGGGGGAACCGAAAGCTTATGGAAAAATTGA	MLHTMKWKAHRIAGVFPFHLLSYQKAQADCEASQPDNRYENERLLRLSSFRNVDTTFFLYDGHQNHFRLRSDVGGTESLWKN				NA	NA	NA	NA	NA
AK002_00136	1260	murAB	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 2	ATGGAAAAATTGATGATCAGCGGTGGACGCCCACTGCGAGGTGCTGTAACAATCAGCGGTGCCAAGAACAGTGCTATTGCGTTAATTCCCGCCGCAATCCTGGCGGAATCGGAAGTCGTACTTGATAATTTGCCGCTTCTCAGCGATGTGGCTGTTTATGCTGAGATCCTTGAGGAATTAGGCGGGCAGGTTTCATGGGAAGGCAATCAGATGAGAATTGACCCTTCTGATATCAAATCCATTCCGATGCCTAACGGACCCGTCAAGAAACTGCGCGCGTCCTACTATATGATGGGCGCCATGCTTGGAAGATTTAAAGAAGCCGTGATCGGCCTGCCGGGCGGCTGTAATTTTGAACCTCGTCCCATCGACCAGCACATCAAGGGCTTTGAAGCGCTTGGCGCGACCGTGACCAATGAACACGGCTCGATTCACCTGCATGCCAAAGAGCTGCGGGGCGCGAAGATCTACCTCGATGTGAGCAGCGTGGGTGCAACGATTAACATTATGCTGGCGGCTGCCAAGGCCAAAGGCTCCACAATTATCGAAAACGCGGCGAAAGAGCCTGAAATTATAGATGTTGCAACACTTTTAAATTCCATGGGAGCTGTCATTAAGGGCGCCGGAACGGAAACCATCCGGATCGAGGGCGTGACCGAGATGCATGGCTGCCGACATTCCATTATTCCAGACCGGATTCAGGCCGGTACATATATGATTGCTGCCGCAGCTACGCGCGGCGATGTTCTGATTGACAACGTCATCCCGAAACATCTTGAGGCCCTCACGGCCAAGCTGATCGAGATGGGTGTGGGCATTGAAGAGCTGGACGAAAGCATCCGCGTGATCGGTAAAAACCGGTATCAGCATGTGGATGTGAAGGCGCTTATATATCCTGGATTTGCAACGGATTTGCAGTCACCGATGACCAGCCTCCTTACGCAAGCGGAAGGCGTCAGCGTCCTTAGTGATTTTGTATATAGCAACCGATTTAAACATGTACCGGAGCTCGTTCGCATGGGAGCCAAAATTCGCGTGGAGGGACGCTCTGCCATCATCGAAGGCGGCCCGCTGAATGCAGCCAAAGTCAAAGCGACCGATCTGCGCGCGGGTGCGGCTCTTGTCATTGCGGGACTGACGGTGCCTGAAGGGATAACGGAGGTAAGCGGCGTGGAATTCATCGACCGCGGCTATGACCATCTTGTTTCCAATTTACGCGAACTGGGTGCCGACGTGTGGCGTGAGACCGAAGAAGAGTGA	MEKLMISGGRPLRGAVTISGAKNSAIALIPAAILAESEVVLDNLPLLSDVAVYAEILEELGGQVSWEGNQMRIDPSDIKSIPMPNGPVKKLRASYYMMGAMLGRFKEAVIGLPGGCNFEPRPIDQHIKGFEALGATVTNEHGSIHLHAKELRGAKIYLDVSSVGATINIMLAAAKAKGSTIIENAAKEPEIIDVATLLNSMGAVIKGAGTETIRIEGVTEMHGCRHSIIPDRIQAGTYMIAAAATRGDVLIDNVIPKHLEALTAKLIEMGVGIEELDESIRVIGKNRYQHVDVKALIYPGFATDLQSPMTSLLTQAEGVSVLSDFVYSNRFKHVPELVRMGAKIRVEGRSAIIEGGPLNAAKVKATDLRAGAALVIAGLTVPEGITEVSGVEFIDRGYDHLVSNLRELGADVWRETEEE	PGPT0024090_4981	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK002_00137	1329	rho	COG1158	Transcription termination factor Rho	ATGGATTTACAAATAGCCGATTTGGAAGGCATGAAGCTGACGGATCTGTATAAGCTGGCCAAGAAGTATCAGATTCCTTATTATGGCCAGTTGAAGAAAAAAGAATTGATATTTGCCATTCTCCGGGCGCAGGCCGAACAGAGCGGCTTGATGTTCATGGAGGGCGTACTCGAGATTTTGCCGGAAGGATACGGCTTTCTGAGACCGATCAACTATTTGCCGAGCACGGAGGATATCTACATTTCGGCCTCCCAGATCCGCAAATTCGATTTGCGGACCGGAGATTTGGTTTCAGGCAAATGCCGGACGCCGAAAGAGAACGAACGTTACTTCGGGCTGCTGCAGGTCAACGCCGTCAATGGCGAGAATCCTGCCGTCGCAGCGGAACGATTACACTTCCCAGCCTTGACTCCTCTATATCCGCAAGAAAAGCTTGTTCTTGAAACATCCCCTAATCAGTTGTCAACCCGAATTATGGATCTGCTTGCACCCGTAGGTTTAGGACAACGCGGTTTGATCGTGGCACCGCCAAAAGCAGGGAAAACGCTCCTCTTAAAAGAAATCGCCAACAGCATCTCAACCAACAATCCAGAGATTGAACTGTTTGTTTTACTCATCGATGAACGGCCTGAAGAAGTGACGGATATGCAGCGTTCCGTTAAGGGTGAGGTGGTTGCTTCTACTTTTGACGAGCTTCCGGAGAACCATATCAAAGTGGCGGAACTGGTATTGTCGCGCGCCTTGCGGCTGGTGGAGCATAAGAAGGACGTGGTTATCTTGCTGGACAGCATCACCCGTCTGGCCCGTGCGTACAACCTGGTTATCCCTCCGTCCGGCCGAACGCTGAGCGGCGGTATTGATCCTGCGGCATTCCATCGGCCGAAACGTTTCTTCGGATCGGCTCGTAACGTGGAGGAAGGCGGAAGTCTGACGATCCTGGCGACAGCCTTGGTTGAAACCGGATCTCGGATGGATGATATCATTTATGAGGAATTTAAAGGCACAGGCAACATGGAGCTGCACTTGGACCGCCGCTTCGCGGAACGCCGTATTTTCCCGGCGATCGATATTCGTCGCTCCGGTACCCGGCGCGAAGAGGTGCTGCTGAACAAGGATGAACTGGATACCATTTGGGCGATCCGCAAAAATATGAACGACTCTGCCGATTTTGTGGAAGGCTTCCTTAAAAAAATGCGTGAGAGCAAGAATAACGCGGAGTTCTTGGCATCATTTGACGTGAATGCCAACAACGGCGGCGGAACCGGGACTCAGGGCCAGACAGCCAGACGTCCATCGCGTGCATCTGCGGCGACGGCCCCTCAGAGCTAA	MDLQIADLEGMKLTDLYKLAKKYQIPYYGQLKKKELIFAILRAQAEQSGLMFMEGVLEILPEGYGFLRPINYLPSTEDIYISASQIRKFDLRTGDLVSGKCRTPKENERYFGLLQVNAVNGENPAVAAERLHFPALTPLYPQEKLVLETSPNQLSTRIMDLLAPVGLGQRGLIVAPPKAGKTLLLKEIANSISTNNPEIELFVLLIDERPEEVTDMQRSVKGEVVASTFDELPENHIKVAELVLSRALRLVEHKKDVVILLDSITRLARAYNLVIPPSGRTLSGGIDPAAFHRPKRFFGSARNVEEGGSLTILATALVETGSRMDDIIYEEFKGTGNMELHLDRRFAERRIFPAIDIRRSGTRREEVLLNKDELDTIWAIRKNMNDSADFVEGFLKKMRESKNNAEFLASFDVNANNGGGTGTQGQTARRPSRASAATAPQS				NA	NA	NA	NA	NA
AK002_00138	1278			hypothetical protein	ATGTATTTGGTTTATGCAGATGAACAAGGGAATGTATACGATCATTCCGAGCTGTTCGGGATGGCCCGCAGCGGAGATATGATCGTCGAGATATTGGAGGATGAATTGATACCTTTGCCGGAGGGAGCTACGCTGGTCGGACTGCCGAGTACCCGAGCGATCGGAATGGATCCGGAGACCGGTGACATGATGCCGCTTGAGGACGGGTATACGGCTGTCGGAGCGCTTCTGCCGCAAGGCTACACCCGGCTCTGCCTGCCGGGGTACGTGAAGTCGGACAAGGAGTATAAGCTGCCGCTATTTGGTTATTCGGCAGTCGTATGGAAGGATGGCGCTTTCTATACGACGGCGCGTTTGTCCGACGATCCCGAGAAATGGAATCCTGTGAATTGTGACCTGGACGACCTTGAGCTTGGGGTTAAGACGCTGAAGGAGAAGTATCCCGAGAACCGGCTCTACGAACATCTGTCTAACTGTGCGTTGGGATACGAGTGCCTGACGGCGTCCAACACCTTCCTGAATCGCTGGGAAGGCGCGGTTCCCGTGTCTTACTCCTGCAATGCGGGCTGCTTCGGTTGCATTTCGGAACAGCCGGATGACAGCGGTTTTGTCTCCCCGCAGACGCGCATGAACTTCCGTCCGAGAGTGGATGAACTGGTGCAGGTCATGCTGGAGCATCTGAAGACCCCGGAGTCGATCATCAGCTTTGGCCAAGGCTGTGAGGGCGAACCCTCCACCCAGGCGAAGATCATTATAGAGGCCATGAGAGAAGTCCGGGCACAGACCGACATGGGTTACATTAATATTAACACCAATGCGGGACTGACCGATTTTATCCGCGGTATCGTGGATGCGGGTCTTGATCTGATGAGAGTCAGCACGATCAGTGCATTGGATGCCCATTATAACGCATACTACAAGCCAAGAGGCTACACGCTCGCTAATGTGGAGAAATCTCTTCGTTACGCAACGGATCAGGGCGTATATACATCCATTAACTATCTGATCTTTCCGGGCGTGACCGACCGCGAGGAAGAGCTGGAAGCCATGATCGAGTTTGCCCGGCGCACGGGACTCAAATTGATTCAGCTTCGCAATCTGAATATTGACCCTGAGAGCTATCTTGGCCTCATCCCGCCTGCGCAAGGCGAGATTCTCGGAATGAAGCAGGCGATCGAGATCATGCAGGAGGAGCTGCCGGATGTGGTGATCGGCTCCTATACGCATGTGCCCCCTGCTGGGCAGGCGAGACCGAAAAAGCGGCCTTCGATTATTTAA	MYLVYADEQGNVYDHSELFGMARSGDMIVEILEDELIPLPEGATLVGLPSTRAIGMDPETGDMMPLEDGYTAVGALLPQGYTRLCLPGYVKSDKEYKLPLFGYSAVVWKDGAFYTTARLSDDPEKWNPVNCDLDDLELGVKTLKEKYPENRLYEHLSNCALGYECLTASNTFLNRWEGAVPVSYSCNAGCFGCISEQPDDSGFVSPQTRMNFRPRVDELVQVMLEHLKTPESIISFGQGCEGEPSTQAKIIIEAMREVRAQTDMGYININTNAGLTDFIRGIVDAGLDLMRVSTISALDAHYNAYYKPRGYTLANVEKSLRYATDQGVYTSINYLIFPGVTDREEELEAMIEFARRTGLKLIQLRNLNIDPESYLGLIPPAQGEILGMKQAIEIMQEELPDVVIGSYTHVPPAGQARPKKRPSII				NA	NA	NA	NA	NA
AK002_00140	1716	ruvB_1		Holliday junction ATP-dependent DNA helicase RuvB	GTGGAACATATCGCGTTATATCGAGCTTGGCGACCACAGTCGTTCGGCGACATGGTGGGCCAGCAGCATATTATCCAGACCCTGCAGAATGCCATTCGCGAGCAGCGGGTTTCCCATGCCTACCTGTTCAGCGGTCCACGGGGTACGGGCAAGACCAGTGCCGCTAAAATTTTGGCCAAAGCCGTGAACTGCGAGCATGGTCCGGCTGAGGAACCCTGCAATGCATGCGAGGCCTGCCGGCGCATAACGTCCGGAGCCGTCATGGATGTCCAGGAGATCGATGCGGCATCCAACCGCGGCGTCGAGGAAATCCGTGATTTGCGGGAGAAAGTCAAATACGCACCGACCGAAGTGCGGCGCAAGGTTTATATTATTGATGAAGTACACATGCTGACGACGGAAGCGTTCAATGCCTTGCTGAAAACGCTGGAGGAACCGCCGGCACATGTGATGTTTATACTAGCGACAACAGAGCCGCACAGGCTTCCGGCAACGATTATCTCACGCTGTCAGCGGTTTGACTTCCGTAGGGTTTCCCTGGAGGAACAAACCGGACGTCTGGAGCAGATCTGCGGGGAAGAAGGCATTACGGCTGAGCATGAAGCGCTGCAGTATATTGCGCGTCTATCGGATGGCGGTATGCGGGATGCATTGAGCATTCTGGATCAGATCGCTTCCTTCACTGGAGGTACCGTATCTTACCGGCAGGTCATGGACATGACGGGAGGCATTGCCTCAGAGCAGTTTGGCCGTCTGGCCGGCGCCGTGAAGCAGGGGGATGCCGGATTGGTCCTGCAGATCGTGGAGCAATTTATGCAGGAGGGAAAAAGCGCAGATAAATGCATGGAGAATCTCCTGTACTATTTCCGCGATTTGCTTATGATCAAGATGGTTCCCGATGCCGACAAGCTGACCGATCGGGTTTTGAACCCGGCCGAGTTTCAGGAGATGGCTAATGCCTTCAGCCGGGATGAGCTGTTTCAAATGATCGATACGCTCAACCGTTATCAGAGTGAGATGAAATATGCCTCGCAGCCGCAAACCCTGTTTGAGGTGGCACTGCTCAAGCTTTCCGGCATTACCCAATCCGGGGGCGGGTCCGCAGCTGTCCATTCTACCGCCGATGCGGGAGAACTGGCTCAGCTGAAGCAGCATGTAGCCGCACTTGAGAAAAAGCTGGAGCGTCTGATTCAAAACGGTGTTCCTGCATCGAATCAACGCGAACCCGCCAAGTCTGCCCGTACACCTGCACCGAAAGCAGCTTCAACGGCCAAGATTCCGCAGCATATGGATCAGTACGTATCCTCCCGGACCGGAGAGGATTATACCGCTGTACATCGGCAGTGGGCCCAAATTCTGCAGAACGTGAAAGAGGAGAAGGTAACGGTTCACGCATGGCTGATGGATGGTGAGCCCGTATCCGTATGGGAAGACAAGGTTCTTGTCGCTTTCAAAAACAACATCCACCGCGAAACCACGGAGAAACCTGCCAACAAACAGGTGATTGAAGGGGTTCTTGAGTCTATGCTCGGCAAGCCGTATCATCTGGTGACCATGATGCTTCGCGACTGGAATGATGCGGTGGAAGGAGTCGGCAAGCCTCAGGCGGAAGAGCTTAAGCTGGAACATGAAGAAGCTGATGCCGGTGGAGAAAAACCATGGATTGATGAGGCGATCCAGCTGTTTGGAGAAGACCTCGTTGTCATAAAAGACTAG	MEHIALYRAWRPQSFGDMVGQQHIIQTLQNAIREQRVSHAYLFSGPRGTGKTSAAKILAKAVNCEHGPAEEPCNACEACRRITSGAVMDVQEIDAASNRGVEEIRDLREKVKYAPTEVRRKVYIIDEVHMLTTEAFNALLKTLEEPPAHVMFILATTEPHRLPATIISRCQRFDFRRVSLEEQTGRLEQICGEEGITAEHEALQYIARLSDGGMRDALSILDQIASFTGGTVSYRQVMDMTGGIASEQFGRLAGAVKQGDAGLVLQIVEQFMQEGKSADKCMENLLYYFRDLLMIKMVPDADKLTDRVLNPAEFQEMANAFSRDELFQMIDTLNRYQSEMKYASQPQTLFEVALLKLSGITQSGGGSAAVHSTADAGELAQLKQHVAALEKKLERLIQNGVPASNQREPAKSARTPAPKAASTAKIPQHMDQYVSSRTGEDYTAVHRQWAQILQNVKEEKVTVHAWLMDGEPVSVWEDKVLVAFKNNIHRETTEKPANKQVIEGVLESMLGKPYHLVTMMLRDWNDAVEGVGKPQAEELKLEHEEADAGGEKPWIDEAIQLFGEDLVVIKD				NA	NA	NA	NA	NA
AK002_00141	312		COG0718	Nucleoid-associated protein	ATGAATAATATGAACCAAATGATGAAGCAAGTGAAAAAGATGCAGGAGCAAATGCTGAAGGCGCAGGAAGAGCTTGCTACAAAAACCGTTGAAGGAACTTCCGGCGGCGGCGTGGTTACCGTAGAAGCGAATGGCCATAAACAAATTTTGTCCATCAACATCAAGCCTGAGGCAGTTGACCCGGATGATGTGGAAATGCTGCAGGATCTGGTGCTGACTGCGGTTAACGATGCACTTGCCAAGGCTGAAGAAATTGCGAACGCCGATATGGGCAAATTCACCGGCGGCATGAAAATCCCGGGCTTGTTCTAA	MNNMNQMMKQVKKMQEQMLKAQEELATKTVEGTSGGGVVTVEANGHKQILSINIKPEAVDPDDVEMLQDLVLTAVNDALAKAEEIANADMGKFTGGMKIPGLF				NA	NA	NA	NA	NA
AK002_00142	600	recR	COG0353	Recombination protein RecR	TTGTACTATCCTGAACCGATCGCGAAGCTCATCGATGCCTTTACGCGACTGCCGGGTGTGGGGCCGAAAACGGCCGCCCGCCTGGCTTTTCATGTTCTGAACATGAAGGAAGATGACGTTATTGATTTTGCCAAAGCGCTAGTCAGTGTCAAAAGGAATCTGCACTACTGCTCCGTCTGCTGCAACATCACGGATACGGATCCATGCCGGATATGTCAGGACAAGACTCGGGATGCCTCGATCATCTGCGTTGTACAGGATGCGAAGGATCTGGTGGCGATGGAGCGCACGAAGGAATTCGAGGGCTACTATCATGTCCTCCATGGGGCCATATCTCCGATGGAGGGGATCGGGCCGGATGAAATCCGTTTGAAGGAGCTCCTCACGCGCTTGAGTGACGAACGAGTGAAAGAACTCATTTTGGCGACGAACGCTAATATCGAGGGAGAGGCAACGGCGATGTACATATCGCGCCTGGTCCGTCCTTTTGATATTAAGGTGACTCGTATAGCCCATGGACTGCCGGTTGGCGGCGACCTGGAGTATGCAGATGAAGTGACTTTATCCAAAGCGCTTGAAGGTCGAAGAGAACTGAACTGA	MYYPEPIAKLIDAFTRLPGVGPKTAARLAFHVLNMKEDDVIDFAKALVSVKRNLHYCSVCCNITDTDPCRICQDKTRDASIICVVQDAKDLVAMERTKEFEGYYHVLHGAISPMEGIGPDEIRLKELLTRLSDERVKELILATNANIEGEATAMYISRLVRPFDIKVTRIAHGLPVGGDLEYADEVTLSKALEGRRELN				NA	NA	NA	NA	NA
AK002_00143	288			hypothetical protein	ATGAAGATATGGTGGAAGTCGAGGAAGAAAGAAGAGGAAACGTATATCACGGCAGAGGAGCAAGAACGGATGTGGCATGTCTTCTTGGACGTCCAGAGATCCCAGATGGAGTGGGAGCGGGCGCACTTGCTGTTCCAGGAGGCTACGGGACAGGATCAGATCGATTATGCGATCTACATGTTGGAGGCGGCAGAGCGTAAATACCAGATGAATCTCAAACAGGCCAAGCAGCTCAATCTGGATGGAGCAAGGATGCAGTATATCGAGCAAAAAAGGGAGAATGGTTAA	MKIWWKSRKKEEETYITAEEQERMWHVFLDVQRSQMEWERAHLLFQEATGQDQIDYAIYMLEAAERKYQMNLKQAKQLNLDGARMQYIEQKRENG				NA	NA	NA	NA	NA
AK002_00144	270			hypothetical protein	ATGAAATTGATTGTGCTTGGCGTACTATGCATTTCGCTCTTGCTGCTTATCTATGTTGTGTTTAGAAAGAAGCTGGGGCTGGGATGGCTAACTGTATTCGGGGCGCATCTGGCCCTTTCGGCTGTAGCGATCTATGTTGTGAATTTCACCGGATTAGCAGCTGAAGCGTATATTCCTCTGAATCCGATGACCATAGGAACGGTCATGGTCCTTGGCTTGCCGGGTGTGGCCCTTCTTGTCGGTTTAAAATTTACGATATTAGGTAGTTGA	MKLIVLGVLCISLLLLIYVVFRKKLGLGWLTVFGAHLALSAVAIYVVNFTGLAAEAYIPLNPMTIGTVMVLGLPGVALLVGLKFTILGS				NA	NA	NA	NA	NA
AK002_00158	1215			hypothetical protein	ATGGTGGAGATGGAGCATATCGTTCAGAAACTGGAGCAGACCTTGGGTACCTCACTCGGCTTAAAAACATTGAATGAGCAGGAATCGCTATGGCTCACGGAATCGATGGCGATCACCTCGCGATTCGGTGACCGGTTTGGTCGTGAAGAAAGAACTACAAGTTCAATTCGCCGTGGAGAAAGCGTAAGCTCAAACACAACACGAATGATTGATGGTGCCTATGTGCATAAGGAGCTTGGTGAGATCTGGTTTCCCGTTAATCAACAGGATCCGAGCCGGGTCCTGGTGGCGGATTCCAATGCTTTGACGGAGTCGGAGATTGGGCTTGTCGCTCTTTTATTGACGAGCCTTCAGGAAGCGCCTTCAGGCTCGATGTCAAAGAATGCAGCCAAGGTTGAAGAAGAACGGCGCGCCCAGCAGTTGGGCGGTTGGTTGAAAGAGCGCCTTCAAGCCGGCGAGCTGCATGCTGAGCTACCGGATGAGATGCTGATTCGGACAAGCTTGACGGAGGAAATGGTCCCCTTTCTCCTCATTCATGAGAGCGAGCATGCTCCCACGCCAAGTTATAAAGCGCTGCTGCGGTTGTTGCGCAGTTATTTTGACGGGGATATCATTCTTGTGCCGCTGCTGGATAAGGAATGGATTATCCTTGCCAATCAGGAGCTGCTGGGCGGCATAACGACGGATGATAAAGAGGAAGCATCCTCAGAAGCCGATCAGGACTTGCTGTCCTTATTCTGTATGGGGCTGTACGAGCTCATTTCAACGGAATGGGTGGGCGATTTTCATATTTCGGCAATCCCGGCAGTCAATGCGCTTCAAGCTTTGCCGCAGACGGTTGGCATGCTGCGAGAGACCATGACCATCGGGCGTACTTTTCAGGTCAAGGAGCATATTCATCTGTCGACCGGTCTTCATCTGGAGCGCCTGGTTTACAGCATTCCTGAGTATCAACGGAATCAATTCCTGCGTGAGTACGCTGCCGGACATACCGACTTATTCGAGGACAGTGAGACCTTGTCGACGCTGGAGTCTTTTTTTGAATTGGACTGCAATGTGAGCGAGACGGCCAAACACCTGTATATTCACCGAAATACGCTGCTGTACCGACTGGATAAGATCAAACAGGAGACGGGGCTTGACGTTCGCAGCTTCAGTGATGCGGTATTGGTGAAAATAACGCTTCTATTGTATAAAGTGACGAAAAGGAAATAG	MVEMEHIVQKLEQTLGTSLGLKTLNEQESLWLTESMAITSRFGDRFGREERTTSSIRRGESVSSNTTRMIDGAYVHKELGEIWFPVNQQDPSRVLVADSNALTESEIGLVALLLTSLQEAPSGSMSKNAAKVEEERRAQQLGGWLKERLQAGELHAELPDEMLIRTSLTEEMVPFLLIHESEHAPTPSYKALLRLLRSYFDGDIILVPLLDKEWIILANQELLGGITTDDKEEASSEADQDLLSLFCMGLYELISTEWVGDFHISAIPAVNALQALPQTVGMLRETMTIGRTFQVKEHIHLSTGLHLERLVYSIPEYQRNQFLREYAAGHTDLFEDSETLSTLESFFELDCNVSETAKHLYIHRNTLLYRLDKIKQETGLDVRSFSDAVLVKITLLLYKVTKRK				NA	NA	NA	NA	NA
AK002_00159	1125	msmX_1	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCTGGTGTACGCTTAGAGCATATTTACAAAAAGTATGCAGGTGCGGATAAAGCAACTGTAATTGACGTTAATTTGGATATTAAAGATAAAGAATTCTTGGTATTGGTAGGTCCTTCCGGTTGCGGTAAGTCTACGACACTTCGTATGATCGCAGGTCTTGAGGAAATTTCCGAGGGTAAACTTTACATTGGCGACCGCGTTGTTAACGATGTAGCACCTAAAGATCGTGACATCGCAATGGTATTCCAATCCTACGCCTTGTATCCGCATATGAACGTATATCAGAACATGGCATTCGGTTTGAAACTCCGTAAAGTGAAGAAAGACGAAATCGATAAGCGTGTACGTGAAGCAGCGAAAATCCTGGATATCGAGCATTTGCTCGAGCGTAAACCGAAAGCTCTCTCCGGTGGTCAGCGTCAGCGTGTTGCCTTGGGCCGTGCGATTGTCCGTGATCCGCAAGTCTTCTTGATGGATGAGCCGCTTTCCAACTTGGATGCGAAACTCCGCGGTCAGATGCGTGCTGAAATTACTAAGCTGGTGAAGCGTCTTGAAACCACTTGTATCTATGTAACGCATGACCAAACAGAAGCTATGACGATGGGTGACCGTATCGTTGTTATGCAGGATGGCATCATTCAACAAGCGGATTCCCCAGAACAGCTGTACAACAATCCAAACAACCTGTTCGTTGCTGGTTTCATTGGTTCCCCAACCATGAACTTCATCAACGGTAAATTGTCCGAGCAAAACGGTGGCGTATACTTCACTTCCCAGGGCTTGAACGTTCAAGTTCCAGGCGGTAAAGCACAATTGCTCAAAAATAAATCCATGATTGGCAAAGAAGTAATCATGGGTGTTCGTCCGGAAGATATTCATGAAGAGCCAGTATTCCTGGAAGCTTCCCCGAACACAATCTTCACAGCGAAAGTGGACGTAACCGAGAACCTTGGTCACGAAATGCTCTTGTACCTCAGCGGCTTGGGCACCGACACAGTTATCGGCCGTGTAGACGGACGTTCGACTACTCGCGAAGGCGACAATGTGAAATTGGCACTCGACATGAACAAAGTTCATATCTTTGATAAAGAGTCTGAATTGAACGTATTGCTCGAAGACTAG	MAGVRLEHIYKKYAGADKATVIDVNLDIKDKEFLVLVGPSGCGKSTTLRMIAGLEEISEGKLYIGDRVVNDVAPKDRDIAMVFQSYALYPHMNVYQNMAFGLKLRKVKKDEIDKRVREAAKILDIEHLLERKPKALSGGQRQRVALGRAIVRDPQVFLMDEPLSNLDAKLRGQMRAEITKLVKRLETTCIYVTHDQTEAMTMGDRIVVMQDGIIQQADSPEQLYNNPNNLFVAGFIGSPTMNFINGKLSEQNGGVYFTSQGLNVQVPGGKAQLLKNKSMIGKEVIMGVRPEDIHEEPVFLEASPNTIFTAKVDVTENLGHEMLLYLSGLGTDTVIGRVDGRSTTREGDNVKLALDMNKVHIFDKESELNVLLED	PGPT0016310_1905	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
AK002_00160	939	hprK_1	COG1493	HPr kinase/phosphorylase	ATGGCCAAGAAAGTGAAGGTATCCGAGCTGGTCCAGCAGTTTCAGCTGGAGGTCATCGCAGGTGAGGAAGGCTTGAAACGTCAGATTACAACGGACGATCTGAATCGACCGGGATTGGAAATGGCCGGTTATTTTGAATACCATCCGCGGGAACGGGTTCAGCTTATGGGGCGCACGGAGCTGGCTTTCTTTGGAATGCTGAAGCCGGAAGAGCGGAAAGAACGCATGCGCAGCCTGTGTACGGAAGAAACGCCTTGCATCGTGGTTACGCGTTCCCTGGAAGTGCCGGAAGAGCTGGTAGAGCTCGGCAATGAAAGAGGTTTGCCCGTGCTGCGCAGCAGCATGGCGACGACCATCCTGACAAGCCGATTCACGAGTTTCCTGGAACGCAGACTTGCGCCAACGACGACTATCCACGGGGTATTGTGCGATGTTTACGGCGTAGGGATGCTGATCACGGGCTCGAGCGGTATCGGGAAAAGCGAAACGGCTCTGGAGCTCGTCAAACGCGGACACCGCTTAATCGCGGACGACGCGGTGGAGATTCGCCAGACGTCGGATTTTCAGCTGCATGGAACAGCGCCTGAACTGATTCGCCATCTACTGGAGATTCGCGGGGTCGGTATTATTAATGTTATGACGTTATTCGGTGCAGGCGCCGTTCGGAATAATAAACGGATTACGCTTGTCGTTCGATTGGAGGCCTGGCAGCAGGATAAACAGTATGATCGTCTGGGATTAGATGAAGAGACAACACGAATTATAGAGACGGATATCCCTCTGGTCACCATTCCGGTTCGTCCAGGACGTAACCTTGCGGTTATTATTGAAGTGGCAGCTATGAACTACAGATTGAAGCAAATGGGACTAAATGCTGCACTGCAGTTTACGAACAAGCTGACGGCAACGATTGCTGAAGATATGGACGATTTGGACTAG	MAKKVKVSELVQQFQLEVIAGEEGLKRQITTDDLNRPGLEMAGYFEYHPRERVQLMGRTELAFFGMLKPEERKERMRSLCTEETPCIVVTRSLEVPEELVELGNERGLPVLRSSMATTILTSRFTSFLERRLAPTTTIHGVLCDVYGVGMLITGSSGIGKSETALELVKRGHRLIADDAVEIRQTSDFQLHGTAPELIRHLLEIRGVGIINVMTLFGAGAVRNNKRITLVVRLEAWQQDKQYDRLGLDEETTRIIETDIPLVTIPVRPGRNLAVIIEVAAMNYRLKQMGLNAALQFTNKLTATIAEDMDDLD				NA	NA	NA	NA	NA
AK002_00161	1140	lgt_1		Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCAAACTTTGCTCATCGATCCGGTGGCGTTCTCCATCGGATCGTTGCGTGTTCATTGGTATGGCTTGATTTTGGGCCTCGGTGCCTTGGCAGGTCTGCTGCTGGCCATTCGCGAGGGGAAGCGTTTTGGTATTCCGCAGGAATTTTTCATGGATTTGCTCTTGCTTGGGGTTCCTTCCGCTATCATCGGTGCTCGTATTTATTATGTAGCTTTTAAATGGGAAGACTATAAGGATAACTTCCTGGATGTGTTCAAAATATGGAATGGCGGGATTGCCATATTCGGCGCCTTGATCGGCGCCATTATCTGTGCGTTGATCTATGTTCGCCGAAAAGGCTACAACTTCTGGCGAATTGCCGATATCTGTGCGCCGTCCTTGTTGGCCGGCCAGATTATTGGACGCTGGGGGAACTTCGTTAACCAGGAGGCCTATGGCGGTCCTGTCAGCGAGTCTTTCCTGCGAGGACAGCTGCATTTGCCTGATTTTATCGTGAATCAAATGAATGTACAGGGCGTATTCCATCACCCTACCTTCTTATATGAATCGCTGTGGAACCTGTTGGGTATCGTCATACTGCTTATCATTCGCAGACAGAAATTTCTGCGGGCAGGCGAACTCTTCATCGGATACTTCATCTGGTATTCCATCGGCCGGTTCTTTATTGAAGCGGTGCGGACGGACAGCTTGGCTTTTCAAGGCGCCGCCGGACTTGCCGATTTCATTAACAATACGTTATGGGCACCGATGACTTGGATGGGATTTGAACTGGGTCACCTTGACCCGGCTTATGGCAACATTCGGATCTCCCAGCTGCTGTCCGTATTGATTGTCATCGGAGGCATCGTACTGATCATTGTGCGCCGTGTAACGGGCCGCGCCAATGTGCGCTATTTGGACCCGATCGTGTCGACGAAGACCGGAGCAGGTCCAACGCCGGAAGCCGATCTTCAAACGAACAAAACCGTCAAATCCCCTGCGCCGGCTCCTGCTAAACAGCATAAACAGGCCGCAGAACCGGAGGGAATGGCGGATAAAGACGTTGTTACCCAAGCAGAGGAGACAGACGTCAAATCCTCATCACGGGAAGAAGAAGACACTCCGACAATAAAACCGGATACGGAGGACAAAAAGGAGTAG	MQTLLIDPVAFSIGSLRVHWYGLILGLGALAGLLLAIREGKRFGIPQEFFMDLLLLGVPSAIIGARIYYVAFKWEDYKDNFLDVFKIWNGGIAIFGALIGAIICALIYVRRKGYNFWRIADICAPSLLAGQIIGRWGNFVNQEAYGGPVSESFLRGQLHLPDFIVNQMNVQGVFHHPTFLYESLWNLLGIVILLIIRRQKFLRAGELFIGYFIWYSIGRFFIEAVRTDSLAFQGAAGLADFINNTLWAPMTWMGFELGHLDPAYGNIRISQLLSVLIVIGGIVLIIVRRVTGRANVRYLDPIVSTKTGAGPTPEADLQTNKTVKSPAPAPAKQHKQAAEPEGMADKDVVTQAEETDVKSSSREEEDTPTIKPDTEDKKE				NA	NA	NA	NA	NA
AK002_00162	651	ppaX_1	COG0546	Pyrophosphatase PpaX	ATGATCGAAACCGTACTGTTTGATTTGGACGGCACCATTATCGACACGAATGAATTGATTATCTCATCGTTTATGCATGTTTTCGAGGCGCAGGCCCCGGGACCGTTGACCAGAGAGCAGATCATTCCGCATATGGGAACCACGCTGGAACAGCAGCTGCAGGCTTTCTCAGGGGGCGTCGAGGATGTCAGTCCGCTTGTCAAAGCCTATCGCTCTTTCAACACGATCCATCATGATGACATGGTCAAACCATTCCCGCATGTGAACGAAGTCGTGGAGCGTCTTCATCGTCACGGGCTTTCGCTCGGGATCGTAACCACGAAGATCCGCCCTTCCACCATGATGACGCTGGAGAAGTACGATCTGGAGCGCTTCATGTCGGCGATTGTTACGGTGAACGATGTGGAGCATCCGAAACCGCATCCGGAGCCCGTCCTGACGGCGATGGAGCAGCTGGGGGCCAATCCGGCCACCACTTTGATGATCGGAGACAGTCCGGTGGACATTCAGTCTGCCAAGGCGGCGGGCGTGAAGGCCGCCGCTGTAGCTTGGTCCCTCAAGGGTGAGCAAAAGCTGATGGAGTACGGGCCGGATTTTATATTGAAGGATATGAGAGATCTGTTTGAAATCGTAGGACTTCAAGAGGAATAG	MIETVLFDLDGTIIDTNELIISSFMHVFEAQAPGPLTREQIIPHMGTTLEQQLQAFSGGVEDVSPLVKAYRSFNTIHHDDMVKPFPHVNEVVERLHRHGLSLGIVTTKIRPSTMMTLEKYDLERFMSAIVTVNDVEHPKPHPEPVLTAMEQLGANPATTLMIGDSPVDIQSAKAAGVKAAAVAWSLKGEQKLMEYGPDFILKDMRDLFEIVGLQEE				NA	NA	NA	NA	NA
AK002_00163	507	dapH		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGGCCAGAAAGATTACCCGTTATCCTGTAGAAGGCCCCAACGCGTTATGGCAAATCTACCGCACCGTGAGCCCGTTCAAGGGCGTCAAGAACTTCATTTTTATCCAGATCGCCCGCTATTGTCCTATCCTGCCTATGAAGAATTGGATCTATCGCCATATGCTCGGGATGAAAGTGGGGAGGCATACCGCGTTTGGATTGATGGTCATGGTGGATGTGTTTTTTCCGGAGAAAATAACCATCGGCGAGAATTCGGTCATCGGCTACAACACGACCATTCTGGCTCACGAGTATTTAATAAAGGAATATCGTTTGGGTGAAGTGCGGATCGGGGAGAACGTGCTCATCGGCGCGAATACCACGATTTTGCCAGGCGTAACGATCGGAGACGGCGCGGTCGTTGCTGCAGGATCTGTCGTACATAAAGACGTGGCACCTGGTGTTTTTGTAGGCGGGAATCCATTGCGAGAGCTGAAGAGGACATCGACGGAAAGCGAGTCAATTTGA	MARKITRYPVEGPNALWQIYRTVSPFKGVKNFIFIQIARYCPILPMKNWIYRHMLGMKVGRHTAFGLMVMVDVFFPEKITIGENSVIGYNTTILAHEYLIKEYRLGEVRIGENVLIGANTTILPGVTIGDGAVVAAGSVVHKDVAPGVFVGGNPLRELKRTSTESESI				NA	NA	NA	NA	NA
AK002_00164	1227			hypothetical protein	ATGGGTGCAACGCTGAACAAAAAGGAAAGGCTGCCGCAGCTCGATATTTATCGTGCGCTGGCCATCCTGGGCGTGCTTCACGTTCATGCGACTTCATTTGCAACGGTGGATGCGATTGATTCGCGATTCTATTATATTATTAATTTCTTGAATATTTTCTTTAAATACGGTACCCCCTCGTTTATATTCCTAAGCAGCTTTGTGCTGTTCTATAACTATGCGGACCGGCCGCTGACCAAGGACTTGATCAAAAACTTCTATAAACGGCGGCTCTTGTACATTTTGCTTCCGTATGTGTTGTTCTCGATCATCTACTTCTTTGTGAGGATGTATCAGAACGGGCTGCTGAACAGCTCGTTTGATCTATGGGCACAGATGCCGCTATTCTTTGAACGCTTGGTTCGAGGGCAGAACTATACGCACTTATACTTTGTATTTATCAGTTTGCAGTTCTATATTCTGTTTCCGATCTTCCTCAAGCTGTTCAAATCCTCCCGGTTTCTCGTAAGGTGGGCGGTGCCGATTGGATTCCTGCTGCAATGGGGCTTCATCATCTGGAACAAATACGAGCTGCAGTACACGTTTAAAGGAAGCTTGGCCATTTCGTATTTAGCCTACTATATGCTCGGCGCTTACCTGGCGATGAATTACGACAAATTCAAGGGCTGGCTGACGTCTTCTTGGAAAAAGCAAACCACTGGTCAAAGAGCAGGCACAATCGTGTTATGGGCCGGCTGGCTCGCGATGGCGCTGACGCATGTGCAGATTTGGTACAATCAGAGATTGCATGGCGCTAAATATGATTCCCTATTATACGAGCTGTTATGGAATCTGCACACCGTGTTCTCCGCGATTGTGCTGATGCAGCTGGCGAGCTGGCTGTATAGCAGCGGCTGGAAACTCATTGTGAAAGTGCTGACGCGGATTGGCGAGCTGTCTTTCGCGATCTATCTCGTGCACCCGCTCTGGCTGTTCCTGTATCGGGAATTCGATCCGAAGCTGAATCCCGTAACCGATGATTATCTAATCTGGATATACGGCGGGATGGTAACGGCTTTGATCGTCAGTGCGTTAGTGGTGCAGACGGTGTTCCGGTGGATTCCAGGGTCGTGGATGCTGCTGGGCAGCGTTCCTCGATCATTGAAGCCAACCTCCAAAGCACCTACGACACCATCGCAAAGAAAAGATACCGTTACAGGCGACAGCAAGAAATCGGTCGATCTGTAG	MGATLNKKERLPQLDIYRALAILGVLHVHATSFATVDAIDSRFYYIINFLNIFFKYGTPSFIFLSSFVLFYNYADRPLTKDLIKNFYKRRLLYILLPYVLFSIIYFFVRMYQNGLLNSSFDLWAQMPLFFERLVRGQNYTHLYFVFISLQFYILFPIFLKLFKSSRFLVRWAVPIGFLLQWGFIIWNKYELQYTFKGSLAISYLAYYMLGAYLAMNYDKFKGWLTSSWKKQTTGQRAGTIVLWAGWLAMALTHVQIWYNQRLHGAKYDSLLYELLWNLHTVFSAIVLMQLASWLYSSGWKLIVKVLTRIGELSFAIYLVHPLWLFLYREFDPKLNPVTDDYLIWIYGGMVTALIVSALVVQTVFRWIPGSWMLLGSVPRSLKPTSKAPTTPSQRKDTVTGDSKKSVDL	PGPT0022170_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022170-yfiQ-NA	NA	NA
AK002_00165	177			hypothetical protein	ATGCATATACTTCTTATCCATCATCATGAAGCAAAGCCGTCCGGGCACCCGGGCGGCTTTTTTTGTATTGAGGCCATCCGGATCAATGCAGGTTCAGCCAATAGACAAGCAAGCCACGCTGGTCCGTTCTTGTGTTACAATTATACCCAGAAGTTAGACGGATCTATTAATGCGTAA	MHILLIHHHEAKPSGHPGGFFCIEAIRINAGSANRQASHAGPFLCYNYTQKLDGSINA				NA	NA	NA	NA	NA
AK002_00166	1194	hisZ	COG3705	ATP phosphoribosyltransferase regulatory subunit	ATGTCTAAACCGAAAGGCTTCGAGAAACCGGCAGGTGTTCGTGATTATCTTCCTCATGCGGTCGCCAAGCTGCGGCGGATTGAACGCGAAGTGCTTGCATGCATGGACCGCTGGGGTTACCGGCAGATTATGACACCAACGATGGAATATTACGATACGGTAGGCGTGGCAAGCTCTACGTCGGACCAGAAGCTGTTTAAACTATTGAATAAACGCGGAACGACAATGGTGCTGCGTTCCGATCTGACCGCCCCCATAGCGCGGGTTATGTCCTCGCTGCTGAAGGATGAACCGCTTCCGGTACGTTTGTCTTACCATGCCAATGTATTTCGCGCCATTGAGGAGGAAGCGGGGCGGGAAGCGGAATTCTTTCAGACCGGCGTCGAGCTTGTAGGCGATGATACGCCGGAGGCCGATGCCGAAGTGATTGCGCTGGCCATCGAATCCCTGAAGGCGGCAGGCGTGGAGAAATTCAAAATCGCGATGGGTCATATGGGTTATCTGAATGGCTTACTTCAAGAAGTGCTGCCGGAACGGACGGAGGATCAGGAGAGCCTGAAGCAGGATTTGCTGAACCGCGACTACGTTGGATACCGCAACACCATTGCCAGCCTGAGCCTGACGGAGGTACAGCAGGACCAGTTGGAGGGAATCCTGAAGCTGCGCGGGGGCAGGGAGATTGCCGGGCAAGCTCTCGAGATTAGCAGCAACGAACTCGCGAGAGCTTCTATCGAGCATCTGAGCAAGGTATGGGAAGTGCTCGAGGCTTACGACGTCTCCAGACATGTTCTGTTTGATTTGACGATGCTCGGAGACTTCTCCTATTACACGGGAATGACGTTCGAGGGTTATGCTGCCGAGCTGGGCTCTCCCGTCGCAAGCGGCGGTCGTTATGACAAGCTGCTTCGGCAGTTTGGCCGTGCCGTTCCGGCAACAGGCTTTGCACTCAAGACCAATCGCATTCTCGATGGGGTGCAAGGAGAGGAGATTGTCGAGGAATTGCCCATTCTCATCCGGTACACGGCTTCTTATCGAAAGGAAGGATTGGCTAAAGCCTCAGAACTTCGGGCGCAGGGACATTCCGTCATCACTTCGATCCTACCGGATTCGGCCAATGTCCGAGATGCCGAGGTACCCGTTGTGTCCGGCAGTCTGCTCCATAGAGGATACCGAGAGGTCATAACCCTTCGATAG	MSKPKGFEKPAGVRDYLPHAVAKLRRIEREVLACMDRWGYRQIMTPTMEYYDTVGVASSTSDQKLFKLLNKRGTTMVLRSDLTAPIARVMSSLLKDEPLPVRLSYHANVFRAIEEEAGREAEFFQTGVELVGDDTPEADAEVIALAIESLKAAGVEKFKIAMGHMGYLNGLLQEVLPERTEDQESLKQDLLNRDYVGYRNTIASLSLTEVQQDQLEGILKLRGGREIAGQALEISSNELARASIEHLSKVWEVLEAYDVSRHVLFDLTMLGDFSYYTGMTFEGYAAELGSPVASGGRYDKLLRQFGRAVPATGFALKTNRILDGVQGEEIVEELPILIRYTASYRKEGLAKASELRAQGHSVITSILPDSANVRDAEVPVVSGSLLHRGYREVITLR				NA	NA	NA	NA	NA
AK002_00167	648	hisG	COG0040	ATP phosphoribosyltransferase	GTGGCGGAAACGTTGAAAGTAGCGATGCCCAAAGGGCGCATATATAAAAAAGCATCCGCGCTGTTCCGTTCAGCCGGACTTCCGATACCCCTCGACGTGGATGAAACGCGCAAGCTGGTCATTCCCTTGCCGGAGGCAGGAATGGAATTTATCCTGGCGAAGCCGGTGGATGTGCCGACTTATGTGGAATACGGCGTGGCGGATATCGGTATCGTCGGCAAGGACGTGCTAATGGAAGAGAACAAGGACGTTTATGAGCTGCTTGATCTCGGCATTGCGCGGTGCAGGATGTCGGTCATCGGCTTGCCGGACTGGAAGCCGGGCATACGACAGCGGGTTGCCACCAAATATCCGAACGTGGCTTCACAGTATTTCCGAGAGCAGGGCCAGCAGGTTGAAGTGGTTAAACTGAACGGTTCCATCGAGCTTGCACCGCTCATCGGTTTGGCAGACCGGATCGTCGATATGGTGGAAACGGGCCAAACGCTCAAGGAGAACGGACTTGTAGAGATGACCAGCATTTTTGAAATTACAAGCCGCCTGATTGCCAATCGCGTTAGTTATCGGATGAAGAATGATGAAATTCAGGCCTTGTGCGACCGGCTGCAAACGGTCATTATGTCTGAGAGTACGAATATACGGCAATAA	MAETLKVAMPKGRIYKKASALFRSAGLPIPLDVDETRKLVIPLPEAGMEFILAKPVDVPTYVEYGVADIGIVGKDVLMEENKDVYELLDLGIARCRMSVIGLPDWKPGIRQRVATKYPNVASQYFREQGQQVEVVKLNGSIELAPLIGLADRIVDMVETGQTLKENGLVEMTSIFEITSRLIANRVSYRMKNDEIQALCDRLQTVIMSESTNIRQ	PGPT0017400_3695	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
AK002_00168	1284	hisD	COG0141	Histidinol dehydrogenase	GTGAAGGTAGTATCAGCACGGGACTTTGAGCTGAAACGGGACAATGATTACGGCACACCAGAGCAGAATGAAGTCGTGAAGGCTATTGTGCGGGATATTCGGTCCGAAGGAGATGCCGCCTTGCTGCGGCATACCGAGCTATTGGACCGTGTCCGTCTGACCGCAGGTCAGCTTCGCGTAACGGATGAGGAGCTCAAGGCAGCTTATGATCATGTGGAGCCTTCGTTCGTGAAGGCGATACAAGCGGCGGCAGACAACATTCGCGCATTTCATGTGAAGCAGAAGCGGAATTCCTGGATGGATCTACAGCCGGACGGTAGCATCTTAGGACAAATTGTTCGTCCGTTGAAACGCGTCGGTGTCTATGTGCCCGGTGGAAAGGCAGCCTATCCTTCATCCGTGCTGATGAACGTGATCCCGGCCCAAGTGGCAGGCGTACCCGAAATCGTCATGGTCACTCCCCCGGCAACCGGCGGGAAGGATGGAATCAATCCCTATATTCTGGTGGCTGCAGCCGAGGCAGGCGTTACGGAAATCTACCGCGTAGGAGGAGCACAAGCCATTGCGGCATTGGCCTACGGCACGGAGACCATTTCCCCCGTCGATAAGATTTGCGGGCCCGGCAATATTTACGTTGCCCTGGCCAAACGTGAAGTGTACGGCGCAGTCAATATTGACAGCCTGGCCGGTCCAAGCGAGATTGCGGTATTGGCCGATGAACATGCAGATGCTTCGTATATTGCAGCGGATCTGCTTTCCCAAGCTGAGCATGACGAGATGGCATCGGCCATTCTCGTGACGCCTTCCCGAAAGCTGGGCGAGGCTGTTGCCGCCGAAGTAGAGCGGCAGCTTGAGCTGCTGCCGCGGCGGGACATCGCCCGTGCTTCCGTGGACAGCTACGGCGCGGTGATCGTCACGGAATCCCTCCAGGAAGGGATTGAAGTCATTAACCGTTTAGCGCCGGAGCATCTGGAAATCGTGACGGAGGAGCCGATGGCGATCGTGGGCCAGATCGAGAACGCAGGCGCGATCTTCCTAGGACCGTACAGCTCAGAGCCGGTAGGCGATTATTTTGCAGGACCGAACCATATCATTCCGACGAATGGGACGGCACGGTTCGCATCACCAGTGGATCTGGACGATTTCATTAAGAAATCGAGTTTGATCTACTACAGTAAAGAAGCGCTGCTGCGCGACGGCGAGCAGATCATGGAGCTGGCCCGGCGCGAAGGGCTTGAGGGCCATGCCCGGGCGATCGAAATCCGGCTTGAACAAGAACGATAA	MKVVSARDFELKRDNDYGTPEQNEVVKAIVRDIRSEGDAALLRHTELLDRVRLTAGQLRVTDEELKAAYDHVEPSFVKAIQAAADNIRAFHVKQKRNSWMDLQPDGSILGQIVRPLKRVGVYVPGGKAAYPSSVLMNVIPAQVAGVPEIVMVTPPATGGKDGINPYILVAAAEAGVTEIYRVGGAQAIAALAYGTETISPVDKICGPGNIYVALAKREVYGAVNIDSLAGPSEIAVLADEHADASYIAADLLSQAEHDEMASAILVTPSRKLGEAVAAEVERQLELLPRRDIARASVDSYGAVIVTESLQEGIEVINRLAPEHLEIVTEEPMAIVGQIENAGAIFLGPYSSEPVGDYFAGPNHIIPTNGTARFASPVDLDDFIKKSSLIYYSKEALLRDGEQIMELARREGLEGHARAIEIRLEQER				NA	NA	NA	NA	NA
AK002_00169	606	hisB_1	COG0131	Imidazoleglycerol-phosphate dehydratase	GTGAGCAGTTTGGATGCAGCAGCAAGATCAGCCGGCGTGAGCCGCAAAACCAATGAGACCGACATTGCCCTGGATTTCAATGTCGATGGGACCGGGATTTCGGAATTGGAGACCGATGTACCTTTTCTTAATCATATGCTTGATTTGTTCACAAAGCATGGCCAGTTTGATCTTCGCGTCAAGGCAAAGGGCGATATCGAGATCGATGACCACCACACGGTGGAGGATATCGGGATCTGCTTAGGGCAGACGTTCCGCGAAGCACTGGGCGATAAAAAAGGCATCAAACGTTATGCCAGCGTGTTTGTGCCGATGGATGAGGCGCTTGCTCAAGTTATTGTGGATATCAGCAACCGCCCGCATTTTGAGTACCGGGCGGAGTATCCTTCGCAGCAGGTAGGCTCTTTTCATACCGAGCTTGTCCATGAATTTCTATGGAAATTGGCGCTGGAAGCCCGGATCACGCTGCATGTCATCGTTCATTACGGACACAATACCCATCATATGATTGAAGCGGTGTTTAAGGCGCTCGGCCGTGCATTGGATGAGGCGACCACCGTGGATCCGCGGGTGACCGGCGTACCGTCCACGAAGGGAGTGCTCTAA	MSSLDAAARSAGVSRKTNETDIALDFNVDGTGISELETDVPFLNHMLDLFTKHGQFDLRVKAKGDIEIDDHHTVEDIGICLGQTFREALGDKKGIKRYASVFVPMDEALAQVIVDISNRPHFEYRAEYPSQQVGSFHTELVHEFLWKLALEARITLHVIVHYGHNTHHMIEAVFKALGRALDEATTVDPRVTGVPSTKGVL	PGPT0020305_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK002_00170	609	hisH	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGGCCATTGCAATCGTGGATTACGGCATGGGCAATCTGCACAGCGTGAGCAAAGCGGTAGAGCGGCTTGGGTATCAGCCGCTCGTAACCGGAGAGCGGGAGGAGCTTCTGGCGGCGAATGGCATCATTCTGCCCGGAGTCGGCGCGTTCGGAGATGCCATGGAGCAGCTCCGCGAAGCCTCGCTGGACTCGGTCATGAAGGAAGCTGCAGAGTCGGGAAAACCGCTGCTGGGGATCTGTCTCGGCATGCAGCTCCTGTTCAGCCGGAGCGAGGAGCATGGCAAGTATGAAGGGCTGGATATACTCCCCGGGTCGGTTGTACGATTTGCGGGTGGGGACTACAAGGTGCCGCATATGGGCTGGAATTCATTGCAGTTCAAGAAGCGGGAGCACCCGCTGTTTGCGGGACTTGAGGAAGGTCATGTGTATTTTGTCCACTCGTATCATGTTCTTCCTGAGGTTCAGGCTGATTTGCTGGCGGTTACCGATTACGGTCAGCCAGTAACGGCCATCGTGGGCCGCGGTTCGGTGTACGGCATGCAGTTCCATCCCGAGAAGAGCGGGGAGCTTGGCATGAGCCTGCTTCGCAATTTTTTGGCTTTAACGTAA	MAIAIVDYGMGNLHSVSKAVERLGYQPLVTGEREELLAANGIILPGVGAFGDAMEQLREASLDSVMKEAAESGKPLLGICLGMQLLFSRSEEHGKYEGLDILPGSVVRFAGGDYKVPHMGWNSLQFKKREHPLFAGLEEGHVYFVHSYHVLPEVQADLLAVTDYGQPVTAIVGRGSVYGMQFHPEKSGELGMSLLRNFLALT				NA	NA	NA	NA	NA
AK002_00171	738	hisA	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGGGGATGTCCTCTTTTATCATATATCCGGCAATCGATATTCGCGGCGGCAAATGCGTCAGGCTGGTCCAAGGCGATTATAATCAAGAAACGGTATACAACGACAATCCGCTCGAGGTAGCCAAATCGTGGGAAGAGCAGGGCGGCACATTTATTCATCTCGTGGATTTAGACGGCGCGAAGGCAGGTCAGCCGGTGAATGACGACATCATCGGGAAGATTGCATCCAGCGTTCAGGTTCCGGTTCAAGTAGGCGGAGGCTTGCGCACGCTGGCGGATGTGGAGCGGCTGCTGTCGCTCGGCGTCAGCCGGGTTATCATCGGGACGGCAGCGATCGAAGACCGCGTCTTTACGGAAGAGGTGCTGGGCAAATACGGGGATAAGGTGGCCATCGGCATCGACGCTCGCAACGGATACGTCGCAACGAGAGGCTGGCTGGAAACGTCGGAGGTTCAAGCTGAGGTGTTGGCAAAAGAATTAGCAGCCAAGGGAGCGGAAACCTTCATCTTCACCGACATTTCCCGCGACGGAATGATGCAGGGACCAAACGTAGAGGCGATTGTCTCGCTGGCCAAAGCCAGCGGCCGCTCGGTTATCGCTTCGGGCGGCGTGACGAAGCTGGATGATCTGCTGGCGCTCAGCGCGCACAGCGGCGACGGTGTAGGCGGAGCGATCGTAGGCAAGGCGCTGTATACAGGCAATATTGATCTAAAAGAGGCTATTACGCGAATCCAATGA	MGMSSFIIYPAIDIRGGKCVRLVQGDYNQETVYNDNPLEVAKSWEEQGGTFIHLVDLDGAKAGQPVNDDIIGKIASSVQVPVQVGGGLRTLADVERLLSLGVSRVIIGTAAIEDRVFTEEVLGKYGDKVAIGIDARNGYVATRGWLETSEVQAEVLAKELAAKGAETFIFTDISRDGMMQGPNVEAIVSLAKASGRSVIASGGVTKLDDLLALSAHSGDGVGGAIVGKALYTGNIDLKEAITRIQ				NA	NA	NA	NA	NA
AK002_00172	759	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGCTGGCAAAACGGATCATACCTTGCCTGGACGTGAAGGACGGCCGGGTGGTGAAGGGCGTAAACTTTGTGAATCTCCGCGATGCGGGCGATCCCGTGGAATTGGCCGCGCTCTACGACCGGGAAGGCGCAGATGAGCTTGTCTTTTTGGATATATCGGCTTCGGTCGAAGGCCGGGCAACGATGGAAGAAGTCGTTCGGAGAACGGCAGGGGAGATCGCCATTCCTTTTACCGTAGGCGGAGGCATCTCCTCCGTGGAGGACATGAAGCGGATTCTGCGGGCGGGGGCGGATAAGATCGGGATAAATACGGCAGCGGTCAAGCAGCCGGAGCTCATCTCCGCCGGGGCGCGCAAATTTGGGTCCCAATGCATCGTCGTGGCGATCGACGCTAAGTACAACGATGCGTGGGGAGAATGGGAAGTGTACACGCACGGCGGACGTACGCCTTCCGGCATCAAGGCGCTTGATTGGGTGAAGCAGGCGGAAAGCTTGGGTGCGGGCGAGATTCTGTTGACCAGCATGGATGCGGACGGAACGAAGGACGGCTTCGATCTGCCGCTGACATCGGCCGTAGCCTCTACCGTGCAGATCCCGGTCATCGCGTCCGGCGGCGCCGGCAAAGAAGATCACTTCTATGACGTATTCACTCAGGGCAAGGCGGATGCGGGTCTTGCCGCCACGATTTTTCACTATAAAGAGATCTCGATCCCTCATCTTAAGTTGCAGCTTAGCCAAAAAGGAGTGGATATACGGTGA	MLAKRIIPCLDVKDGRVVKGVNFVNLRDAGDPVELAALYDREGADELVFLDISASVEGRATMEEVVRRTAGEIAIPFTVGGGISSVEDMKRILRAGADKIGINTAAVKQPELISAGARKFGSQCIVVAIDAKYNDAWGEWEVYTHGGRTPSGIKALDWVKQAESLGAGEILLTSMDADGTKDGFDLPLTSAVASTVQIPVIASGGAGKEDHFYDVFTQGKADAGLAATIFHYKEISIPHLKLQLSQKGVDIR	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
AK002_00173	702	hisI		Histidine biosynthesis bifunctional protein HisIE	GTGAGCGAAGATATGTTGAAAGATTTATCCCTGGAGCAGGTCAGCGAGCATATCCGTTGGGATGCCGCGGGCCTGGTGCCGGCGATTATACAGGATGCAGAGAGCAAGCAGGTGCTGATGATGGCTTATATGAACCGGGAATCGCTGCGATTGACGCTGGAGAGCGGCGAGACTTGGTTCTGGAGCCGTTCGCGCGGAGAGCTGTGGCATAAGGGGGCAACTTCCGGGAATGTACAGACCGTGGTATCGATGACATACGATTGCGACGGAGACACCCTCTTGCTGCAGGTGAATCCGAATGGACCTGCTTGTCATACCGGACAAACGACCTGCTTCCACAATGAGATTACCGCTCAAGGGCAGAAGAGAGAGCTAGCTAATCAAGGTACAGCGGTATCCGGCGAGCGCTTCGCGGTACTTGCCGAGCTGGAAGAAGTCATTGCCCAGCGTGAGGTGGAGCGGCCGGAAGGGGCCTATACAACCTACCTGTTCGATAAAGGCGTGGACAAAATCCTTAAGAAGGTGGGCGAAGAAGCTTCCGAAACGATCATCGCCGCCAAAAATAAAGACAACGCCGAGCTGAAGCTTGAAGTCAGCGATCTGATCTATCACCTGCTGGTACTCCTTCAGGAGCGGAAGCTCCCGCTGGATGAGATCATGGATGAGCTGAGCCGCCGGCATGAACGGCCGCGCCGCGATTAG	MSEDMLKDLSLEQVSEHIRWDAAGLVPAIIQDAESKQVLMMAYMNRESLRLTLESGETWFWSRSRGELWHKGATSGNVQTVVSMTYDCDGDTLLLQVNPNGPACHTGQTTCFHNEITAQGQKRELANQGTAVSGERFAVLAELEEVIAQREVERPEGAYTTYLFDKGVDKILKKVGEEASETIIAAKNKDNAELKLEVSDLIYHLLVLLQERKLPLDEIMDELSRRHERPRRD				NA	NA	NA	NA	NA
AK002_00174	840	hisK_1	COG1387	Histidinol-phosphatase	ATGCATATTGATTACCATACCCACCATGCCCGGTGCGGACATGCCGAGGGGCAGCTGGAGGAGTATGTACGGCGCGCCATCGAACTCGGGATGGATCAATTGGGATTATCGGACCATATGCCTTTGATACACGTGAATCCGGAGGCGTACTATCCGGAGATGGCCATGCCGATGGACGAGCTGCCGCGTTACGTGGAGGAATGCCTGCAGCTGAAGGAGCGCTACAAAGGGCAGATTGACATTCGGATCGGACTCGAAGGCGATTATATCGAGGGCTACGAAGAACAGATCGAGCGGATCGTGAAGGACTATCCGTGGGATTATGTCATCGGGTCCGTTCATTTTCTTGGCGAATGGGACATCACGGATTACCGCCAGACCCAGGGCTGGGAGGGCAAGGATCCGCTTGAAGTCTATCGACAATATTATGATGCGGTGCAGAAGGCTGCCGCAACCGGCTTCTACGATATCATGGGCCATCTGGACGTGATCAAGCGGTTCGGTTATGGGCCGGGCCCCGAACAGAAGCCGGACGTGATCGCATTGGAGCAAGCAGCGCTTGCGGCCGTGGCCCGGAGCGGGAAGGCGATGGAGCTGAACGCCTCAGGTTTATCAAAGGCCTGCGAGGAGATGTTTCCAAGCCGGCGAATGCTGGAGGAAGCGATCAAGCTGGGCATTCCGTTGACTTTAGGGTCGGATGCTCATCAGCCCATGAAGCTCGGCGAGCATCTGGATCAGGCACGGGCACTGCTGTCAGAGCTTGGCGTTCGGGAGCTTGCGACCTTCCGTAACCGGAAGCGGGAGATGGTCCTTTGGAATGTGGAAGGAAACGATGTATAA	MHIDYHTHHARCGHAEGQLEEYVRRAIELGMDQLGLSDHMPLIHVNPEAYYPEMAMPMDELPRYVEECLQLKERYKGQIDIRIGLEGDYIEGYEEQIERIVKDYPWDYVIGSVHFLGEWDITDYRQTQGWEGKDPLEVYRQYYDAVQKAAATGFYDIMGHLDVIKRFGYGPGPEQKPDVIALEQAALAAVARSGKAMELNASGLSKACEEMFPSRRMLEEAIKLGIPLTLGSDAHQPMKLGEHLDQARALLSELGVRELATFRNRKREMVLWNVEGNDV				NA	NA	NA	NA	NA
AK002_00175	951	prs_2	COG0462	Ribose-phosphate pyrophosphokinase	ATGTATCGTTCATTACGATTGTTCGCCGGAACTTCCAATCCGGCGCTTGCCGCCAGCATCAGCCAGCAGTTGGGCGTTGAATTGGGAAAGATCAAGATTTCCCGCTTTCAAAGCGGCGAGGTTTATGTCCACTATGAAGAAAGCATCCGCAATTGCGATGTTTTTCTGCTGCAGTCCTTTTCTCACCCTATCAACGAAATGTTCGTAGAGCTGCTCGTGATGATTGATGCCGCCAAGCGTGCTTCCGCCAGAACGATCAACATCATTGTTCCTTATTACGGTTATGCCAGACAGGAACGAAAGGCAGCGCCGCGAGAGCCGATATCGGCCAAAATGGTAGCCGACGTGCTGACCACGGCCGGTGCCAACCGCGTGATAACCATTGATCTGCATGCGCCTGCCATTCAGGGGTTCTTCAATATACCGGTGGACCATCTGACTGCGCTGGATTTGATTACGGAGTATCTGAAGTCCAAGAATATTGAGAATCCGGTTATCGTTTCTCCCGATGCCGGGCGGGCGAAGACGGCCGAGAAGCTTTCGAGCCGCCTGGGATCGCCGTTTGCCATGATGGTCAAGCAGCGTCCTGCCCATAACGAAGCGGTGATTACCCATGTTATTGGAGACGTGGCGGGACGCACGCCGATTATTATCGAAGACCTGATTGATACGGGAACCACCATCGTGCAGGTGGTGGAAAGCTTAAAGGAACGGGGAGCCAATGATGCCATTGTGTGCGCGACCCATGGCCTGTTCTCCGGTGAAGCACTTGACCGTCTCGACCATGCTCATATCGAGGAGATCGTGGTCACGGACTCCATCGTGCTCCCGGACCATCACTGCAAGATGCGGTTAAAGGTGCTGTCTGTTGCGCCTATGCTGGCCCAGGCCACTCACATTATCATCGAGGGCGGATCGATCGCCACTTTATTCAAAGACGCCGGTGTGTAA	MYRSLRLFAGTSNPALAASISQQLGVELGKIKISRFQSGEVYVHYEESIRNCDVFLLQSFSHPINEMFVELLVMIDAAKRASARTINIIVPYYGYARQERKAAPREPISAKMVADVLTTAGANRVITIDLHAPAIQGFFNIPVDHLTALDLITEYLKSKNIENPVIVSPDAGRAKTAEKLSSRLGSPFAMMVKQRPAHNEAVITHVIGDVAGRTPIIIEDLIDTGTTIVQVVESLKERGANDAIVCATHGLFSGEALDRLDHAHIEEIVVTDSIVLPDHHCKMRLKVLSVAPMLAQATHIIIEGGSIATLFKDAGV	PGPT0021480_4335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
AK002_00176	1746	bepA_1		Beta-barrel assembly-enhancing protease	TTGCTTTTCGTGAATGGTCATCCATATGGGTCCAGTGACCCCCACAATGTTATATCTATCGAAATGAATGCTAATTTCTTCTTCGATCGCGCGGTTCGTTCGCTTGATCGTTACCAATATGACAAGGCTCTGAAATATTTTCGCAAAGCTGTAGAATATGAACCCGATAATCCGGTGAATCATTGCAATATGGCGGGTATATTATCAGAGACGGGAGATTATAAAGCTTCCAACGATGTGCTGGCTCATATTCTGGAGCAGGTTGACCCGTTGATGACGGAATGCTATTTCTATATGGCGAACAATTATGCCAATATGGAGCAGTTTGAGAAGGCGGAAGAAGCGCTTGTCACTTATCTGGAGGAAGATCCTAACGGTCAATTTCTGGATGAGGCCGAGGAAATGATGGAACTGCTCCATTACGAGCTGAATCGTCCTGCCAAGCTGAACCGGATCAAGAGCCGCGAAGGCGTGGTCGAGCATGAGCATGCCCGGGCACTGCTGGAGGAAGGGAAATTCGCCCAAGCGGTCAAGCTGTTGGAGGAAATCGTCAAGGATAATCCGGATTTTCTAGCTGCGCGCAACAATTTGGCCCTGGCTTACTACTATATGGGGCGTTTCGATACCGCGAAGCGCACCATTGGCGAGGTGCTGGATCAGGAGCCGGGCAATCTGCACGGTTTATGCAATCTGGCCATCTTCTTTCAGCATGAGGGAAATCAGGAGCAGCGCGACCGTTTGATGGACATGCTAACGGTAACGGTTCCTTTTCATCTGGAACATGTGTTTAAGCTTGCGACGACGATGGGCATATTGGGGCAGCACGAAATTGCCTACGGTCATTTTCGCCGATTGCTGAAAGAGGATGAGTTTAGCGGAGATCCAAGCCTGTATCATTATACGGCCGTTGCGGCCTGCAACAGCGGTTATTACGACAAGGCCGAGAAATATTGGCGGCAGGCGCTGAAGCTGGACGGAGATTCGGTGATTCCGGATTTCTATTTGGCCCAGCTGCAGAAGCGTAAAGAAACCGGTACCGATCAGATGAAAGTGAGTTACCACTATCACCTTCCGTTCGAAGAGCAGTTCAAACGCTGGGAGCATGACGGCGATAAACTGACCGAGGAAGCGAAGCAGAATCCGCTGATTCGTTCATCGTTCTTCTGGGCGCTCCGGCATGGCGATCCCCAGACCAAGCTGCAGGTGATCCGGACGCTGGAATTGATCGCCGATGAAGAGGTGCAGCATGCGCTGCAATCGTTCCTGCAGGAACCGGGAGAGGACGCGGAGCTGAAGGGTGCCGCCCGCCTGGTCCTCCAGCAGATGGAGGCCGCAAGCAATCGGTTGAAGGAGCGCCGCGACGATCGCGATTTATCCGGGGGCAAGACCCGCGAGGTGCTGCCGGATTGGCTGCCTTCCTGGAAGGCGGTGCTGGAGAAGGCCGAGCAAACCATGGACATGCGGGTTGACGCCTTTTGGAAAAAAGAGATGGAAAATCTCTGGTCCGAATTCCTGAGCCGGCTGTACCCGGATATTCCGAACATTCGGAATGTCGAGGGCTGGGCAGCGGCATTGGAATATCTGACGGCCAAGAAACGCGGACGTACCCTGACTTATGAACAGGTGGCTGTCCGTTACGGGATTTCCTCATCCACCGTGAGCCGTTATGCACGTCAAATGGATAGCGTATGTGAAACGAAAGGACAACCGGATGATAGTTTCCGGCCATTTACGGAAAATATTTAA	MLFVNGHPYGSSDPHNVISIEMNANFFFDRAVRSLDRYQYDKALKYFRKAVEYEPDNPVNHCNMAGILSETGDYKASNDVLAHILEQVDPLMTECYFYMANNYANMEQFEKAEEALVTYLEEDPNGQFLDEAEEMMELLHYELNRPAKLNRIKSREGVVEHEHARALLEEGKFAQAVKLLEEIVKDNPDFLAARNNLALAYYYMGRFDTAKRTIGEVLDQEPGNLHGLCNLAIFFQHEGNQEQRDRLMDMLTVTVPFHLEHVFKLATTMGILGQHEIAYGHFRRLLKEDEFSGDPSLYHYTAVAACNSGYYDKAEKYWRQALKLDGDSVIPDFYLAQLQKRKETGTDQMKVSYHYHLPFEEQFKRWEHDGDKLTEEAKQNPLIRSSFFWALRHGDPQTKLQVIRTLELIADEEVQHALQSFLQEPGEDAELKGAARLVLQQMEAASNRLKERRDDRDLSGGKTREVLPDWLPSWKAVLEKAEQTMDMRVDAFWKKEMENLWSEFLSRLYPDIPNIRNVEGWAAALEYLTAKKRGRTLTYEQVAVRYGISSSTVSRYARQMDSVCETKGQPDDSFRPFTENI				NA	NA	NA	NA	NA
AK002_00177	954	trxB_1	COG0492	Thioredoxin reductase	ATGTACAAATCAATCGTAATCGGAACAGGACCTGCCGGATTGACGGCAGCCATCTACTTGGCACGCGCAAACTTGAAGCCGCTCGTGATCGAGGGAATGCAACCGGGAGGCCAGCTGACGACAACGACAGAGGTCGAGAACTTCCCTGGATTCCCGCAAGGCATCATGGGTCCCGAGCTGATGGATAATATGCGTCAACAAGCGGAGCGCTTCGGTGCAGAGTTCAAGAGTGCCTGGGTCGAGTCCGTTGATTTCTCCGAGCGTCCGTTCAAGGTGAATGTCGAGGGCATGGGCGAGCTTCTGGCCGAGTCCGTGATTATCTCGACGGGAGCTTCCGCGAAGTATCTCGGAATTCCGGGAGAGCAGGAGAACGTTGGACGGGGCGTTAGTACATGCGCCACTTGCGACGGGTTCTTCTTCCGCGGGAAAAAAATCATTGTCATCGGCGGCGGCGACTCTGCAATGGAGGAGGCCAGCTTCCTGACGCGTTTCGCTTCCAGCGTAACGGTGGTGAACCGCCGCACCGAGCTGCGTGCGTCCAAGATCATGCAGGAGCGCGCGCGTGAGAACGAGAAGATCCAATGGGCTTTGGACCGCACGCCGGTTGAGGTGGTAACCAGCGATACCGGAGTTAAAGGGCTGAAGGTCCGCAACAACGAAACGGGCCAGGAAGAACTGATCGAAGCGGAAGGCGTGTTCGTAGCCATCGGGCATACGCCGAACACAGGCTTCCTCGGCAATCAGATCACAACCGATCCGACCGGCTACATCCTGGTTAAACCGGGAACGACCGAAACGAATATCCCGGGCGTATTCGCCTGCGGCGACGTTCAGGATACGCGTTATCGCCAAGCCATCACGGCTGCAGGAACAGGCTGTATGGCCGCTATGGACTGCGAGAAATATCTCGAGGGCCACATGGTCCATGATTGGAGCGAGACGCTGAATAAGTAA	MYKSIVIGTGPAGLTAAIYLARANLKPLVIEGMQPGGQLTTTTEVENFPGFPQGIMGPELMDNMRQQAERFGAEFKSAWVESVDFSERPFKVNVEGMGELLAESVIISTGASAKYLGIPGEQENVGRGVSTCATCDGFFFRGKKIIVIGGGDSAMEEASFLTRFASSVTVVNRRTELRASKIMQERARENEKIQWALDRTPVEVVTSDTGVKGLKVRNNETGQEELIEAEGVFVAIGHTPNTGFLGNQITTDPTGYILVKPGTTETNIPGVFACGDVQDTRYRQAITAAGTGCMAAMDCEKYLEGHMVHDWSETLNK	PGPT0013060_6165	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK002_00178	483	cotF	COG5577	Spore coat protein F	ATGAGTCACAATCCGAGACATCTCGCTTGGCACGAAACACTGGAGATTCATGAATTAACTGCCTTTCAGGCGAATCACTTGATGGCGTTCAAGATGTCAGTGCATGATATCAAAGACCCGGAGCTCCATGGACTGTATATGGAAGCGATCCAAGGGGTTGAACAGAACCTGAAGGAGCTTCTGCCTTATTATTCGGAAGCGCCCACGGGAACCCGCAGTCTCTCCGGTGCCGATTTGACGGCGTATTACGCAGGTCATCTGCTGGGGTTTGCCAAAACCTCGGTCCGCAGCTACGCCATTGCTATTACCGAGGCGGCAACTCCAAGCGTAAGAGAAACACTTCAGAAGCAGTTGAACAAAGCCATTGAACTGCACGGAAAAATCTTCTACTTCATGTATGCGCGCGGCCTGTATCCGTCATACAATTTGAAGCAGCTGCTGGAGAATGACGTGAAAAATGCGAACAAAGCGCTGAACTTGTAG	MSHNPRHLAWHETLEIHELTAFQANHLMAFKMSVHDIKDPELHGLYMEAIQGVEQNLKELLPYYSEAPTGTRSLSGADLTAYYAGHLLGFAKTSVRSYAIAITEAATPSVRETLQKQLNKAIELHGKIFYFMYARGLYPSYNLKQLLENDVKNANKALNL	PGPT0025160_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025160-cotF-K06329	NA	NA
AK002_00179	456	yvbK		putative N-acetyltransferase YvbK	GTGAACATTAGAAAGCTGAATACTCATGAAGAAACGCCCCCTATGGACCTGCTCCTTCTTGCGGATCCATCGATAAGGCTTGTCGAAGAATACGTAAACCGCGGTCACTGCTATGTCGCTGAAGAAAGCTCACAACCCATCGGGGTCTACGTCCTGCTGCCCACCAGACCCGATACCATCGAGCTGGTGAACGTTGCCGTAAGCGAGAATCTGCACGGCCGGGGCTATGGCAAACAGCTCGTGAATCATGCCGTTGATCAGGCCCGGGAGCTCGGATATGCCACGATTGAAGTAGGAACAGGGAGCACCGGGGTGGCACAGCTGGCGCTGTACCAGAAATGCGGATTTCGAATGACAGGCATCGACCGGGACTTTTTTGTCCGTCATTATGATGAAGAAATCTACGAGAACGGCATGCTGCTGCGGGACATGGTCCGGATGTCCTTAGATTTGTAA	MNIRKLNTHEETPPMDLLLLADPSIRLVEEYVNRGHCYVAEESSQPIGVYVLLPTRPDTIELVNVAVSENLHGRGYGKQLVNHAVDQARELGYATIEVGTGSTGVAQLALYQKCGFRMTGIDRDFFVRHYDEEIYENGMLLRDMVRMSLDL				NA	NA	NA	NA	NA
AK002_00180	819	tam_1		Trans-aconitate 2-methyltransferase	ATGAGAGACATGTTGGCCAAAAATATTAATCGTTACCGTAAAGAACGGAGACTTACCCAAGAAGGATTGGCGCACAAGCTGGGCGTTACCTTCCAGGCGGTATCCAAATGGGAGACCGGGCAGACCATGCCCGATATCGCGCTGCTTCCGGAGCTGTCCCGGCTGCTGGACGTCAGCATCGATAAGCTGTTTGGTTATTCTTCGACGGGCAAGCCGATCAGCATCTATGAAGAAGAGTACAAAACGCCGGAGTACTATTGGGGCACGGAACCGAACGCAGCCTGTTATCAGGTGCTTGAAATGATCCCGCCGACAAAAAGATTAAGGCTGCTGGATATCGGGTGCGGGGAAGGGAAGGATGCCGTGTTTTTTGCCCGCAACGGGTATGAGGTAACGGCATTCGACATTTCGGATGCGGGGATCGAGAAAACGAAGCGATTGGCCGATCACATCGGGGTACACGTGAACGTATTCAAGGCGGATATATCGGATTACCGTCTGGATTCGGAGTTTGACGTGCTGTATTCCAGCGGCGTGCTGCATTACATCCGACCCGAGTATCGCGAGGAGATTTTTTCCAATTACAAAAAATTCACCTCGGCAGAGGGACTCCACTGCCTGAATGTATTCGTGCAGAAGCCGTTCATTGCGCCTCCTCCCGAGGATGAGCCTTATGCTTATGACTGGAAGTCCGGAGAGCTTATGCTGCATTATCACGATTGGTTGATTCACAGCTGCCCGGAGGTCATTTTTGATTGCAACTCATCGGGTATACCGCACCGGCATGCGATGAGTAAGTTGATTGCTCAGAAGGCGTAA	MRDMLAKNINRYRKERRLTQEGLAHKLGVTFQAVSKWETGQTMPDIALLPELSRLLDVSIDKLFGYSSTGKPISIYEEEYKTPEYYWGTEPNAACYQVLEMIPPTKRLRLLDIGCGEGKDAVFFARNGYEVTAFDISDAGIEKTKRLADHIGVHVNVFKADISDYRLDSEFDVLYSSGVLHYIRPEYREEIFSNYKKFTSAEGLHCLNVFVQKPFIAPPPEDEPYAYDWKSGELMLHYHDWLIHSCPEVIFDCNSSGIPHRHAMSKLIAQKA	PGPT0004925_316	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004925-tehB-K16868	NA	NA
AK002_00181	342			hypothetical protein	TTGAACAACCATGTCAACACAGCAGGTTATCCGGCGCCGTCTGCAGGTTATGCACAGGGATACTATGCCTACCCTCCACTCCAGCCTATACCGCCGTATTACGCGCGCCGGACCCCGGCAATCCCGCAGCCGATGCACTATGCTACGTTGGTTGAACCGGTATTTATTGACCATCTGCTCCGGCATAAAGGAGCCAAGGTGGTCATCATGACCACTGCGGGGAAAGTAGAGGGGATTTTATCCGGTGTGGTGGTCGACCATGTCCAACTGACGATCGGGGACAACAAAGCACTGCATATTCGGCTGGCCGAGGTGGTGTACTTCGAGGGAGTTCCATTCTGA	MNNHVNTAGYPAPSAGYAQGYYAYPPLQPIPPYYARRTPAIPQPMHYATLVEPVFIDHLLRHKGAKVVIMTTAGKVEGILSGVVVDHVQLTIGDNKALHIRLAEVVYFEGVPF				NA	NA	NA	NA	NA
AK002_00182	495			hypothetical protein	ATGAATTCATATCATATTCGAGTCGCAGGCCGGGAGGACGCATCCTTTTTACGGGAGATGCTGTACGAGTCCCTGTATGTGCCCGAGGGAGGGGAGCCTTTTAGCCGGGACATTCTCGAAGAGCCGTTTATGAAAAAATACGTGGAGGACTGGGGGCGCGCGGGTGATCTGGGCTACATTGCCGTGAATGCAGCGGGCAAACCGGCAGGCTCGATTACCATCCGGTATTTTGATGAAGGGAACAAAGGGTTCGGTTACGTGAGCGACGACATTCCGGAGCTGGGCATGGCGCTGATTCCCGAATCCCGCGGGCAAGGGCTAGGAACCGCCCTGATGAAGGAATTGTTCAGAGGAATGAAGGAGCGGGGGATTCGAAAGGTATCGTTAAGCGTCGCTCCGGAGAATGCCGCAGCTATGAAATTGTATGAGCGCTTCGGATTTCAGGAGGCGGGCATGTGCGGAACCTCTATCACGATGGTTGCGGATGTAATCTGA	MNSYHIRVAGREDASFLREMLYESLYVPEGGEPFSRDILEEPFMKKYVEDWGRAGDLGYIAVNAAGKPAGSITIRYFDEGNKGFGYVSDDIPELGMALIPESRGQGLGTALMKELFRGMKERGIRKVSLSVAPENAAAMKLYERFGFQEAGMCGTSITMVADVI				NA	NA	NA	NA	NA
AK002_00183	570	aacA-aphD_1		Bifunctional AAC/APH	ATGCTGGTATATGAGGCAGGGCCTATTACGGTTCGCGAGCTGGAGGAGAAAGATGAATGTTCCTTAGCTTCTTGGCTGTCCAATCCGGATGTGCTGCAGTATTACGAGGGACGGGACAATCCTCACGACGTGGAGCGGGTGCGGGAGCATTTCTATGTGGATGATGATGAGACTCGCTGCATTATCGAATATGAGGGGAAGCCGATCGGGTATATCCAGTTCTATCTTCTCGATGAAGATACGTTAGACGAGTATGGGTATGACGGGAACGATGCGGTCGGCAGAACATTCGCCACGGATCAATTCATCGGGGAGCCGGATTATTGGAATCGAGGCATCGGTACGAAGCTCGTGACTTCCATGATGGATTACCTCGTGTTTCAGAGGCAGGCCGACCGGATCGTGATGGACCCGCAGGCTTGGAATGAACGGGCCATCGCTTGTTACGAGAAGTGCGGCTTTCGGAAGGTCAGGCTGCTGGAGAAGCATGAACGGCATGAAGGAGAGCTGCGGGACTGCTGGATTATGGAGTATCGGGCGGAGCGCGGCAGATCCGGTCCGAGTCGATGA	MLVYEAGPITVRELEEKDECSLASWLSNPDVLQYYEGRDNPHDVERVREHFYVDDDETRCIIEYEGKPIGYIQFYLLDEDTLDEYGYDGNDAVGRTFATDQFIGEPDYWNRGIGTKLVTSMMDYLVFQRQADRIVMDPQAWNERAIACYEKCGFRKVRLLEKHERHEGELRDCWIMEYRAERGRSGPSR	PGPT0028650_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028650-aacA-K00663	NA	NA
AK002_00184	147			hypothetical protein	ATGATTCCATGGTACCATCCGGACAACGACGTCACGGCAAGCCGGCTGATCGGCATGAAGGGCATCTGGAAGCGGGATTCCTATTATGATCGGGATTTTGCCAAGGATGGGAGATTAGCGATTTACTCGAAATCCTCCATTATTTGA	MIPWYHPDNDVTASRLIGMKGIWKRDSYYDRDFAKDGRLAIYSKSSII				NA	NA	NA	NA	NA
AK002_00185	414			hypothetical protein	GTGAATCGAAATAAAACCATGACCTTGATAGGTAAGGGTGAGTCTTGGAAAGCGACTTATGTCGTTTCCCATCAGGATAAGGTCAATGCGAAGCTTACCGTGTTTCAGGATGCGCTTGGCGGAAAGCTGAAGCTTCAGTACTCGGGGAAGGAGCTTCTGGAACATGGGCAGATTAACTATCGGCTTGAGGACATGACGGGCCGCTTCCAGGAGGGCGGAATCGTCGTGGGGACCGACCATGCTGCCATGAAGGAGACCAAGGGTGCGCTGGATTTGGCGCGTCTGCTCGATATGATGAACCCGAACAAGGATCTAACGATCCAGATAGAGTGGAATGGGCACCGTGAAGAATTCAAGCTGGGACTTCCGCGAAAGATTAGCTTTGGAAAAGCCGTCCGCAAACGGAAGGAATAA	MNRNKTMTLIGKGESWKATYVVSHQDKVNAKLTVFQDALGGKLKLQYSGKELLEHGQINYRLEDMTGRFQEGGIVVGTDHAAMKETKGALDLARLLDMMNPNKDLTIQIEWNGHREEFKLGLPRKISFGKAVRKRKE				NA	NA	NA	NA	NA
AK002_00186	342			hypothetical protein	ATGACGGGGATCCCTTCGTTTAAAATGCGTTTAAAAAAACATATCCGCATCAAGGCCGACATGCCTGTCACCCTCGCGCTTCGCAAACCGAATAACCCACACCATCAGTGTGGGCAGGGTCACCATATACAAACGCAAACGCATTGGATTCAATGTCATTGGAATAACATGGTCGTTATTCCCGCCTTACGCGTTTATGTCGACGGGAGTCGGCCCCAGTCCTGCTTCCATGAAGTCCCGTTATTCCTTCCGTTTGCGGACGGCTTTTCCAAAGCTAATCTTTCGCGGAAGTCCCAGCTTGAATTCTTCACGGTGCCCATTCCACTCTATCTGGATCGTTAG	MTGIPSFKMRLKKHIRIKADMPVTLALRKPNNPHHQCGQGHHIQTQTHWIQCHWNNMVVIPALRVYVDGSRPQSCFHEVPLFLPFADGFSKANLSRKSQLEFFTVPIPLYLDR				NA	NA	NA	NA	NA
AK002_00187	1107			hypothetical protein	ATGCTGGAAGCCTATCTATTTCCGATATCCTATGCATTTTTAACCTTTCCCATAGCGGCTTTGCTGTGCGCAGTTCCCTTTCTGATCGTGCAGTATCGCAAATATGGTTATTTTAATAAATTCCGGGGATTTCTGCTGTATTTATTCCTGCTGTACATGATGAACGCAGTGTATCTTGTGCTCCTTCCTTTGCCCGCCTCGCGGCATAATGCTCCGATGGATGTCGCCTCGGTTATGCAGTGGATGCCGCTGAATTTTATACAGGACATCTTAAAGGAGACCAAGGTGGTATGGGGCGTGCCGTCGACTTACACGCATTTGTTGAAGGAAAGAGCCTTCTTGCAGGTCGTGTTTAACGTCATTCTTGTGGTACCGTTCGGCATGTTCCTCCGTTATTATGCGAGAGCGTCCTGGGTTGCGTGTCTGGCGGCCTCGTTCGGCTTGTCGTTGTTCTTCGAGGTAACCCAGGTGACCGGCATTTACGGCTTCTATGATCACCCGTACCGATTGTTTGACGTGGACGATCTGCTGATGAATACCCTGGGCGGAATGATGGGCCTCGTGATGGCGGATTGGATGAAAAATCACCTGCCCCGCCTGGATCGTCTGGATGAGAAGGTGGATCTGTCGCAGAAGCGGGTCAGTTATACGCGCCGGGCCATTGCTTTTGGCATGGATGCAGCGGTCATGCTGCCGATCATTGGCATGCTGACCGTGATGAACGTGAGGGGTGCATACTTCTTTGCCGTGATTTTATATTATATCGTGCTGCCTTATATGATGCAGGGGCAGACGCTGGGGAAATGGGTCGTCCGGGTCCAGATCCGCGGAGCGGGCGAACATCTGAAGCTGAAGGAAGTGATTGTCCGCAACGGCCTGCTGTATGTGGTATGGGGCGGGTTCCATGCCTTGTTCATTACGGTGAATGTCACCGGCTCTCATGTCCTGCTTGCGATGTACGCGCTGGGGATATTGCTGCTGGACGGCGCTGTGTTCCTTCACGTGCTGTTATGTCTCATCCATCGCGACCGGAAGCTGCTGCATGAAGCCAAGAGTGGAACAAGGCTCGCTATCGTAGAGAATAAACCCGTGCATAAGGCGGACTAA	MLEAYLFPISYAFLTFPIAALLCAVPFLIVQYRKYGYFNKFRGFLLYLFLLYMMNAVYLVLLPLPASRHNAPMDVASVMQWMPLNFIQDILKETKVVWGVPSTYTHLLKERAFLQVVFNVILVVPFGMFLRYYARASWVACLAASFGLSLFFEVTQVTGIYGFYDHPYRLFDVDDLLMNTLGGMMGLVMADWMKNHLPRLDRLDEKVDLSQKRVSYTRRAIAFGMDAAVMLPIIGMLTVMNVRGAYFFAVILYYIVLPYMMQGQTLGKWVVRVQIRGAGEHLKLKEVIVRNGLLYVVWGGFHALFITVNVTGSHVLLAMYALGILLLDGAVFLHVLLCLIHRDRKLLHEAKSGTRLAIVENKPVHKAD				NA	NA	NA	NA	NA
AK002_00188	687			hypothetical protein	GTGGAAAATGGATTCATCGAGGAGGAGATACAACTGAAAGGCAAAATCCTCTCCATTTCTGCCATTATCCTGGGTTTGTTCTTCATTTCCAATCAGCATCTGGGCTATTCATTCGGGGATGATCTGTTCCGCTGGGCAGGGATCCCGCCATGGACTAAGCAAGGCAACTATGGTCTTCATCTGCCCGTTATCGCAGGTCTTATCTTATTGACGATCGGCATTCTGCGGGTAACGAGCATTTATCGCCCGCTTTATCCGAAGATCATGAGCCGGGTGATGATCGGTTGTGTTGCATGGATCGTCGTTTTTCCCTTCGTATCGGAGTCCGTCATGTTTGTGGCCAATTTCAATTCGAGCGGCATATCCACCGTCGCCTATTCCAAAAAAGACAGCAACTGCGAATATCGTACAGAGAACGAGGTTATTCTGGCACGCTGCCAGATTCAAATTTACAGTTACGGCACCGAGCGGCAGGTTACGGTACGCCCGCTAAGCGTGGATGTTGGCGGAAGGGTGATTGATTTCGAGTCAAAGGTGGTTGCGGTTCGGCCGCGAGGGAAGGTCCAGGTCCATGAATCCTTTGAGGGTTTCTTGGACCGGCCGGACCCTTCCTACAGTATGTCGGGAGGGACGAACAAGCCGAACATCGAGCTGATCGTCGATGGCAGGAGCAAGCAGGTGAAATAG	MENGFIEEEIQLKGKILSISAIILGLFFISNQHLGYSFGDDLFRWAGIPPWTKQGNYGLHLPVIAGLILLTIGILRVTSIYRPLYPKIMSRVMIGCVAWIVVFPFVSESVMFVANFNSSGISTVAYSKKDSNCEYRTENEVILARCQIQIYSYGTERQVTVRPLSVDVGGRVIDFESKVVAVRPRGKVQVHESFEGFLDRPDPSYSMSGGTNKPNIELIVDGRSKQVK				NA	NA	NA	NA	NA
AK002_00189	474			hypothetical protein	ATGCCGAATTTTCATCGCACGGAAAGGTATTTGAAAATACCGCTGATTACGCTTCTGCTGTTGGTTATGTGTTCATCGCCCGTTGCGCTTGCCTCATGGGCATATTCGTTTGTCGTGAATGACGGGAAGATCTATGTCATGTCGGAAAATCCCGTTGAAGCGTCTGCGCTTGGAGACGTGGTGGGAAAGGTCACCTACCATACGGATCGGGAAGGGTCTTACGGCGGTAACTTCTCCAATGTGTACCCGAAGGGAACGAAATACTATGCGGTCCAGGGAATCGCCCCCGAAACCGCCATAGCGGTTGAGACGCAGGCCGGCTATCTTATGGCTCATTATGAGGGCGAGTACGGGGGTGCCCGTGTTTCGTGGATGTTCAAGGATTGGATTGCCGCAGGGCTGATCCTGTTGATCGTTGGGTGCGTGGCGGTCGTCGTATTAAAGAAGCGGAAGGATGGCTCATATAGGCGCTAG	MPNFHRTERYLKIPLITLLLLVMCSSPVALASWAYSFVVNDGKIYVMSENPVEASALGDVVGKVTYHTDREGSYGGNFSNVYPKGTKYYAVQGIAPETAIAVETQAGYLMAHYEGEYGGARVSWMFKDWIAAGLILLIVGCVAVVVLKKRKDGSYRR				NA	NA	NA	NA	NA
AK002_00190	462			hypothetical protein	ATGAAACCGATTCGAAACTCGGCCAAAGCGATGATTGTCCGAGATGACCAAATTCTTTTAACGAAGAATGTAGACCAATGGGGGGACTTCTATCTGTTCCCAGGCGGCGGGCAAGAGAAGGGCGAAACCTTGGTGCAAGCCGTGGTTAGAGAGTGCCTGGAGGAAATCGGGCGCAGGGTGGAAGTTGAAGATCTGCTGCATGTCCGTGAATACATAGGGTCCAACCACGAGTTCGCGGAATGGGATTCCGACGTGCACCAAGTGGAGTTTTACTTTGAGTGCCGTTTGGCGGATGAGGGGGATCTGTTTCAAGGACATAACCCGGATGAATATCAGGTGGGCGTAGAATGGATCGATTTGTCTTCATTGGATGGGATTCGAATCTACCCCCGCTCGCTGGTCAAGCCGCTTATGGATAAAGCGGGACGCTCAGCGGTTTGTTATGTCGGAGATACGAACTGA	MKPIRNSAKAMIVRDDQILLTKNVDQWGDFYLFPGGGQEKGETLVQAVVRECLEEIGRRVEVEDLLHVREYIGSNHEFAEWDSDVHQVEFYFECRLADEGDLFQGHNPDEYQVGVEWIDLSSLDGIRIYPRSLVKPLMDKAGRSAVCYVGDTN				NA	NA	NA	NA	NA
AK002_00191	204			hypothetical protein	ATGGATCAATGGGAATACAAAACGCTGAAATACAAAACCGGAGGATTCCTTGGGGGTAAAGTGAACGAGGAGGAATTCGAGGATTTACTTAACAGCTACGGGATTGACGGCTGGGAATTGATCTCGTGCTTCGATACGAGCGTACATCAAGGCCAGTCCAGAGATATCATTGCCGTGATGAAACGAAAAGCGTATCTGGGGTAA	MDQWEYKTLKYKTGGFLGGKVNEEEFEDLLNSYGIDGWELISCFDTSVHQGQSRDIIAVMKRKAYLG				NA	NA	NA	NA	NA
AK002_00192	750			hypothetical protein	ATGATCATTCGCGAGACGGAAGATGCTTTTGTGATGACGACCCAGGACGACCATGGCCGCTTCTCGGGCGATGTGGCCCGGGGCTTTCGGAGAGAGCTGTTTATGGATGAGACGGTAAGGGAAGAAGTGCTGCTGGCTATAACCGAGCATGACCGCGCCTGGCTTCGAATGGATGATACGCCGATCTGGAATGATGCAAGCCGGACTCCGTTCACTTTTATCGATTATCCGGTCATGCCGAAGATGCTAATGTATACCAAGGGCGTTGATGAGATCGAAGCGATGAGTCCTTATGCAGGGTATCTTTGCAGCCTTCATTTCGCTTCATTTATGAAAAACGCCACCGAAGCGCCGCTGGTGGAATTCTATCATGATGAGCTGGATCGGCAAAAACGGCTGCGTGATCATTATTCGTTTCCGGGCGAAGCCGTGATTCACAGGCAGTTTGGGCTGCTGCAGCTGTGCGATGACATCTCGCTCTATGTGAACATGAATGCCCCGGGTGTTTCCAAGGATCAGGAGCATCCATGGTTCAAAGAGGGTTTCGATATGACGATCGATGGGGAAAGAGTCGTGGCGGCCTGGGCCAGCGAACATGAGATCAGATTGAGTCCGTTTCTGTTCGAAGGAGCATGGTCGGCTACGGTGAAATGGAAATACGTGCTGAAGGCGGAGATTGATGCTCAGGGAGTGGCGAAGGCTTTTGATGGTGCGCCGTGGACCGAGCAGACGATAACATTTATACGGTGA	MIIRETEDAFVMTTQDDHGRFSGDVARGFRRELFMDETVREEVLLAITEHDRAWLRMDDTPIWNDASRTPFTFIDYPVMPKMLMYTKGVDEIEAMSPYAGYLCSLHFASFMKNATEAPLVEFYHDELDRQKRLRDHYSFPGEAVIHRQFGLLQLCDDISLYVNMNAPGVSKDQEHPWFKEGFDMTIDGERVVAAWASEHEIRLSPFLFEGAWSATVKWKYVLKAEIDAQGVAKAFDGAPWTEQTITFIR				NA	NA	NA	NA	NA
AK002_00193	177			hypothetical protein	ATGAAGAAAAAGGAATTTTTGATCGTGGCACTGCTTAATTTTTTGGCCGCGATAGCGTTCTTGGTGGTTGTTTTCATAACGGATCGAAGCTCATGGCAATGGGGATTCGGAATCGTTTCCTTGTTGTTTGCGATTGGTGGAGTAGGAAACTTGGTATTGCATGCCAAGAACAAATAA	MKKKEFLIVALLNFLAAIAFLVVVFITDRSSWQWGFGIVSLLFAIGGVGNLVLHAKNK				NA	NA	NA	NA	NA
AK002_00194	219			hypothetical protein	ATGATCCATGTTATCGGAATCCCCTTCTGCGGAAAAAATCAAAACCTGGAACCGGCACAAAACCAGGAAGCCTGCGGCTCCCTGATGTATGCTTCTTTCCTGAAATCTAATCGGGACCACCCTGCGAAGGGGTTATTTGTTCTTGGCATGCAATACCAAGTTTCCTACTCCACCAATCGCAAACAACAAGGAAACGATTCCGAATCCCCATTGCCATGA	MIHVIGIPFCGKNQNLEPAQNQEACGSLMYASFLKSNRDHPAKGLFVLGMQYQVSYSTNRKQQGNDSESPLP				NA	NA	NA	NA	NA
AK002_00195	198			hypothetical protein	ATGAGGAATCATGGGATTTGTGTCAGCTGCGGCGGTAAGGTATATGCTGCCTCCAATCGTTGCGTTCAATGCGGAATACCGCAGCCGTACGGTCCATCCAAACAAGCCTTTATGCTGCAGGTCGCCGCAATGATCGGGGTCGGTTTACTTATTTTTGCGGTACCGGTGATTCTGCTGACGATGTGGGCGAAATATTAG	MRNHGICVSCGGKVYAASNRCVQCGIPQPYGPSKQAFMLQVAAMIGVGLLIFAVPVILLTMWAKY				NA	NA	NA	NA	NA
AK002_00196	3084	rcsC_1		Sensor histidine kinase RcsC	ATGAACAAAAAACGGCGCGTGATGTTTACGGGGTTGGCATTGGTTATACTCTTGCCCATATGGTTTATCGTTCGGTTTATCGCGACCCCGAATGTAAGTCCTGAAGCTTTCCAAGGAAGACTTGATTTAACAGCGTGGGACTTTTCGAAGGAAGGCGGAGTCCCGCTCAACGGGGAGTGGGAGTTCTATCGGGGACAGCTGTTAACCCCGGAGAGCTTTGGACCCGGAACACCGAATGAGAAGAAGCCGTCTCCCACAAGCGTCGTATCGATACCAGGCAAGTGGAACCGTTATGTTACGGAGAACGGCGAGTCCGGGCCTGAGGGTGTCGGAACGTTTAGGCTGGTTGTTCGATTAAAGGAAAAGGAAGGCATCTATGGCCTTCATACCGGCAACATACGGACGGCTAACCGGATCTTTATGAGCGGTCAGGAAATCGGGGCCAGCGGCTCCCCCGGAATGTCCGGAGAGGGGAGCACCCCCAATAATATTCCATACGTCGGTTATGCCCAGGTTAACGGGAACGAAGTTGAAATCATCGTGCAGGTAACCAACTATATTTATTCTTCAGGGGGCATCTTCTCTCCGCTGATATTTGGCGACATGAAATCGGTGATGAAGAGCCGTGAAACCGCCGTGTTTGTCGATCTGATGACCCTCGCGGGCTTCCTGATTCCTGCTATGTATTTCTTGCTGCTGTATCGAATGCAGCGGAACGAGAAATCGCTCCTGTATCTGGGGCTCTTCTGTCTGTCCTCGATGATCTACGTGGCTACGCACGGCCAGAAGCTGTTGTCTTCGGTATGGCCCGATCTTTCATATGAATGGTTCATCCGGATTCAGCTGGTTTTTTCCGCCTTCGTTTATTACTTTTTGCTGCGTTATATAGCGGAAGCCGTTCAGGGCCTTATTCACCGATGGGCCCTGCGTTTAAGCAATGCGGCAACGATGATAGCCGTTGGAATTGGGCTTGCATTGCCGACGGTTGTCTTCTCGAAAATGGAGCCGGTCATTTATATGTTCTCGGTATTTATCATTGGTTATATCACGTTCGTGATGGGAAGGGGAATTTGGCGAAGGTCTGCGGATACGGAATTTATGGTGATCGGCATTCTGAGCATTATGGTGGTGATTGCCGTCCATGTGCTCAGCTTAATGGGAGTTTACAACAGCCTGGCCATCGTTCCGCTTGAGATGCTGCTGTTTGTGGTAACGCAGGCGATGCTGCTTGCTCAGCGCTTCTCCAGGGCGTTTACCGACGTAGACCAGCTTTCCCGAAGATTACTGACCTTGGATGGTTTGAAGGACGAATTTATGGCGAATACATCGCATGAACTTCGAACCCCTCTGCATGGCATCGTGAATATTGCCCAGTCCCTGATGGACGGAAGTTCAGGCTCCGTAAGCGATCGACAGTCCAGGGAGCTGTCCATGATTGTGTCCACCGGCAAGCGGTTATCCACGCTCGTGAATGATATTCTCGATTTTAGCAAACTGAAAAATGGGGAGATTGTGCTTAAGCGGCAGCCGGTCGACCTGAAAGCCGTTACCCAATCCGTGCTCGAAGTGGTGACGCACCTTGCCGCGGGCAAACCGCTCTCCCTGAAGCAGGAATGGCCGGACAATCTGCCATGGCTGGATACCGATGAGGATCGATTGCGGCAAATTCTGTATAACCTGCTTGGGAATGCGGTGAAATTCACGGAGACGGGAACGGTACAGGTAACCGCTCATGCGCTGAACGGTCATGTGCGGGTATCGGTGACGGATACGGGGATCGGCATCTCACCGGAGCGGCTGATCGATGTGTTCAAATCCTACGATCAGATAGGATATGCATCCGATCGGGAATATAGCGGCACGGGCATCGGACTGAGCATTACGAAAAAACTGGTAGAGCTGGGCGGAGGTGAAATTTGGGCCGAGTCTATGCCTGGTGCGGGTTCAGCCTTTCATTTTACGCTGCCGTCTACGCAAATCCCCCCGCAGGCAACATTGGCCGGCTTCGGAGGAACGGGGGAAGTCCTGGTCGCCGCGGCAAAGGAACGCGTTCCCGAGCAGGATGAGCCTGGGCAGCATTCGAAGGGGTCTACCGTGCTGCTGGTTGACGATGATCCGGTTAATCTGCAGGTGCTTCGCAGCCTGCTATCGGCAGAGAATTACCATTTGATTAGCGCAGGTAACGGAGCCCAGGCACTGGAGCACATCCGGTCGGGGCAAGGGATCGATTTGGTCATCACGGACTGGATGATGCCGGGGATGTCCGGATTGCAGCTGTGCATGACGGTCCGGCAGCAATTCACGCTCTTCGAGCTGCCCATGCTCATGCTGACAGCCCGAAGCTTGCCCGACGATGTTCGAACAGGCCTGCAGGCGGGGGCGAACGATTTTCTGAGAAAGCCGGTGGAAGCCGATGAGCTGCGAGCGAGGGTCCGGAATCTGCTGGAGCTCCGGCGGTCCGTTCGGCAGACCATTTCGGCGGAGATGGCTTTCCTCCAAGCCCAGATCAAGCCGCATTTCATGTCGAACGCGCTGAATACCATTCTGGCCGTGCTGTATACGGATCCGGACAAAGCGACGCGGCTGCTGATCGAGCTGAGCCATTATCTGCGTGGCAGCTTTGACTTCCAGAACCGCGACCAGCTTGGCCCGCTGCAGAAGGAAATGGCCTTATTACAGTCCTACTTGTTCCTGGAACAGGCGCGGTTCGAGGATCGTTTAACCGTTGAATATGATGTTCATGCGCCATTAGATGCCTTGGTACCGCCGCTCAGTATACAGCCGATCGTGGAAAACGCGGTGCGGCATGGGATTACGAAGCGGGTATCCGGGGGAACGGTCCATATTTCAATTCATGAACGCGAAGGGCAGATCACCATTTCCGTTTCGGATAACGGCGTCGGCATGAGCGAGGAGAAGGTTAACGCCTTGCTCTCCGCAGCGTCCGATTCGGGTGGAGGCGTGGGGCTTCGAAACATACACGCCCGATTGCTCACGCTGTACGGCAAAGGCCTTCAAATCGAGAGTCAGCCTGGGGACGGTACTTCTGTAAGCTTTGAAGTGCCTTCTCGTCAAGTGATGTAA	MNKKRRVMFTGLALVILLPIWFIVRFIATPNVSPEAFQGRLDLTAWDFSKEGGVPLNGEWEFYRGQLLTPESFGPGTPNEKKPSPTSVVSIPGKWNRYVTENGESGPEGVGTFRLVVRLKEKEGIYGLHTGNIRTANRIFMSGQEIGASGSPGMSGEGSTPNNIPYVGYAQVNGNEVEIIVQVTNYIYSSGGIFSPLIFGDMKSVMKSRETAVFVDLMTLAGFLIPAMYFLLLYRMQRNEKSLLYLGLFCLSSMIYVATHGQKLLSSVWPDLSYEWFIRIQLVFSAFVYYFLLRYIAEAVQGLIHRWALRLSNAATMIAVGIGLALPTVVFSKMEPVIYMFSVFIIGYITFVMGRGIWRRSADTEFMVIGILSIMVVIAVHVLSLMGVYNSLAIVPLEMLLFVVTQAMLLAQRFSRAFTDVDQLSRRLLTLDGLKDEFMANTSHELRTPLHGIVNIAQSLMDGSSGSVSDRQSRELSMIVSTGKRLSTLVNDILDFSKLKNGEIVLKRQPVDLKAVTQSVLEVVTHLAAGKPLSLKQEWPDNLPWLDTDEDRLRQILYNLLGNAVKFTETGTVQVTAHALNGHVRVSVTDTGIGISPERLIDVFKSYDQIGYASDREYSGTGIGLSITKKLVELGGGEIWAESMPGAGSAFHFTLPSTQIPPQATLAGFGGTGEVLVAAAKERVPEQDEPGQHSKGSTVLLVDDDPVNLQVLRSLLSAENYHLISAGNGAQALEHIRSGQGIDLVITDWMMPGMSGLQLCMTVRQQFTLFELPMLMLTARSLPDDVRTGLQAGANDFLRKPVEADELRARVRNLLELRRSVRQTISAEMAFLQAQIKPHFMSNALNTILAVLYTDPDKATRLLIELSHYLRGSFDFQNRDQLGPLQKEMALLQSYLFLEQARFEDRLTVEYDVHAPLDALVPPLSIQPIVENAVRHGITKRVSGGTVHISIHEREGQITISVSDNGVGMSEEKVNALLSAASDSGGGVGLRNIHARLLTLYGKGLQIESQPGDGTSVSFEVPSRQVM				NA	NA	NA	NA	NA
AK002_00197	369	cheY_1	COG0784	Chemotaxis protein CheY	ATGAAAGCCATCGTGATTGATGATGAGAATCCGGCGCTGATGCATATGCAGCGGCTCATTGAACGTGATGGGCGCCTGCAGGTGGCAGGTATGTTCACCCGGGCTCAGGATGCAATAGAGCAGTGGCGATCCTGCAAGGCGGATGTTGTATTTTTGGACATCGATATGCCTGGAATGACCGGGCTGGAAGCAGGTGAAAGACTGGTACAGCTTGAACCAAACGTTCGTATCGTCTATGTGACGGCCGAAGCCGCGGATTCGCCTGAGTGGGATGCCCGCCATTATTTATTGAAGCCGGTGGATCCGGAACGTTTCAGCCTCACGGTTACGCAGCTGGAGCAGTGTAGGCATGAGCGGAGTTCCCTCTGA	MKAIVIDDENPALMHMQRLIERDGRLQVAGMFTRAQDAIEQWRSCKADVVFLDIDMPGMTGLEAGERLVQLEPNVRIVYVTAEAADSPEWDARHYLLKPVDPERFSLTVTQLEQCRHERSSL	PGPT0026304_3683	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
AK002_00198	1014	pbpE	COG1680	Penicillin-binding protein 4*	ATGATACATAAAATGGAGGAATGGGCTGCCAACAGCCATTTTTCAGGAACGGTGCTCTTAACGGATCAAAATCGCAACATCATATGGAATGCCGCCTTCGGCTATTCCAATCGGGCCGACCGCATCCCGAATCAAGGGGACACCAGGTTCGGCATCGCTTCAGGCTGCAAGCTGTTCACCGCGATTGCGGTTTGCCAGCTTATTGAACAAGGCAAGCTGTCGCTGGACAGCAAACTGAGCGAGTGTCTGGATATTCGCCTGCCCCATGTTAGCCCGGAGATTACGGTGTTTCATCTACTGAGCCACACCTCGGGTATTCCGGATTACTTTGATGAAGAGGTCATGGATGACTTTGAGGATCTGTGGAAGGCCGTGCCGATGTATACGCTCCGGAGTGGAAGGGACTTTCTCCCTTTGTTCCAGAATGAGCCGATGAAATTTCAAACCGGCGAGAGATTCCACTATAACAATGCAGGCTTTGTGTTGCTTGGCCTGATCGTTGAACAGCATGCCGGCCTGTCGTTTCGCAATTATGTCCAGCAGTTTGTTTTTGAGCCTTGCGGCATGAACGATTCGGGATATTTCCCGCTGGATCGCCTGCCCGCGAATACGGCTTACGGGTATATCGATGAGGAGGACGGTACGTGGAGAACGAATCAGTATGCCATTCCGATTCAGGGTTATGCCGATGGCGGGGCGTATGTGACGGCTCCGGACATGGCAAAGCTATGGAATGGACTCTTGTCCAATACTCTGCTCTCGGCATCGATGACGGAGCAGCTGCTGGCTGCCCATTCGCACGACCCGGACAGTGACCTGAAATATGGGCTTGGCGTGTGGATCACCGAGAAGAATGGAAATGTGTACAAATATCATGTTATGGGCTACGACCCGGGCGTGAATTTCCGATCCGCGTATTATCCGGACACCGGACATACGTTGGTCGTGGCATCCAATGCCAGCGACGGCGCTTATGAAATGATGCAGACCATAGAGGAAGCTTTATTCAATTGA	MIHKMEEWAANSHFSGTVLLTDQNRNIIWNAAFGYSNRADRIPNQGDTRFGIASGCKLFTAIAVCQLIEQGKLSLDSKLSECLDIRLPHVSPEITVFHLLSHTSGIPDYFDEEVMDDFEDLWKAVPMYTLRSGRDFLPLFQNEPMKFQTGERFHYNNAGFVLLGLIVEQHAGLSFRNYVQQFVFEPCGMNDSGYFPLDRLPANTAYGYIDEEDGTWRTNQYAIPIQGYADGGAYVTAPDMAKLWNGLLSNTLLSASMTEQLLAAHSHDPDSDLKYGLGVWITEKNGNVYKYHVMGYDPGVNFRSAYYPDTGHTLVVASNASDGAYEMMQTIEEALFN				NA	NA	NA	NA	NA
AK002_00199	576	desR_1	COG2197	Transcriptional regulatory protein DesR	ATGCTGCGCGGCGCTCTGGCTTCCTTGCTTGATTTTGAAGACGATATCGATGTGATCGGTCAAGCCGGCGACGGCGAGGAGGCCCTATCTCAGATTGCCATCCATCAACCGGATGTTTGCTTGCTGGATATCGAAATGCCTGTGCGCAGCGGCCTTGAGGTGGCGGAGGAAGTAAAGCGGCGCGGGTATGCCAGCCGGGTCATCATCCTGACTACGTTCGCCAGGCCCGGTTATTTCGAGCGAGCCGTACAGGCCGGGGTCCAGGGATACCTGCTCAAAGACGAACCCAGCGAACGGCTGGCGGAAGCCATCCGGAGAGTGATGGGTGGGCGCAGGGAAGTTTCCCCTGAACTCGTATTCGGGACGTTGTCCGGTGCGGGTGCCAACCCGCTTACCGAACGCGAACGGGAAGTGCTGCGGCTGGCCGCAGACGGAAACAGCTCCAATGATATCGCAGCGAAGCTGCACTTGTCCTACGGAACGGTCCGCAACTATATGTCCGAGATTCTAAGCAAGCTGAATGCCAAGAACCGTATCGAGGCCATCTCGTTGGCGGAAGAGAAGGGATGGATATAG	MLRGALASLLDFEDDIDVIGQAGDGEEALSQIAIHQPDVCLLDIEMPVRSGLEVAEEVKRRGYASRVIILTTFARPGYFERAVQAGVQGYLLKDEPSERLAEAIRRVMGGRREVSPELVFGTLSGAGANPLTEREREVLRLAADGNSSNDIAAKLHLSYGTVRNYMSEILSKLNAKNRIEAISLAEEKGWI				NA	NA	NA	NA	NA
AK002_00200	1227	desK_1	COG4585	Sensor histidine kinase DesK	ATGAAAAAATTGAAAGACGCAAAATCCGCAGGGTTCGAGGTGTTTCCAACGCAATTGGGTTTTTTTCCCTACCTATGGCTCATCTATATATCCCTTCCCGTGATCAACATGATGAGCGAGGAAGGCTGGAAGATGGGGATCGGCTTTGCGCTGATCGGCTTGTTTCTTGTCACCTATCGCCAGCTCTACTTCGTCGCGGGCACCCCTCGTTTCTTTGTGTGGCTGGGCATTCAGATGTCCATCATTTTCATTCTCTGCATGTGGTATCACCCGACCTACATGTACATGGGCTTTTTTACGGCCAATTTCATCGGCTGGTATACCGACCGGCGCAAATTCACGATATCCCTTGTGCTGTTTGGCATCATCGAGACGATTCCTTTAATCAAGAACGCAAGCATGCTGGGAAAGGATCTGCTCTTTATGATTCCTTTTTTTCTCATCATGCTGTTTTCGCCCTTCGGCATCCGCTCGCTGAACCGGCGACAGGAGTTGGAGAGGGAGCTCGCCCAGGCTAACGAGCAAATCCGCAATCTGATTAAAGGCGAAGAGCGGATGCGTATTGCCAGGGATCTTCACGACACCTTGGGTCATACCCTGTCTCTCATCACGTTGAAGAGCCAGCTTGTGGAGAAGCTGGCGGCGAAGGATCCCGCGAAGGCCCAACTGGAAGCCCGGGAGATCCAGAATACCTCCCGGGCCGCGCTGCGCCAGGTGCGTGAGCTGGTATCCGATATGCGAACCGCCACCCTACCGGAAGAATTGGTGGAAGCCCAGATCATTCTGGAGAGTGCCGATATCCAGTTCAACTGCACCGGTAATCCGAAGCTGGAAGGCATATCCGACTTGGCCCACAATATCCTGAGCCTCTGCTTGCGAGAGGCCGTAACCAATGTGGTGAAGCACAGCCAGGCAAGCCAGTGCCGGATTGACATTGAATCCCTGGATAATGAATGGCGGCTGTTGGTGGCGGACAACGGAATCGGTCTTAAAGGCAAAGAAGAGGGGCCATCCGGTACCGACAGCAATGGCTTGAAGGGGATGGCGGAACGTCTGTCCCTCATCGGGGGCACCGTTGAGGCCGTCTCCGACCCGCAAGGCACGAAAGTGAGCATTCGCGTTCCGATCATCATCAAGAACCGGAAGGAGGACACCACCCATGAGCATCAAAGTGCTGATAGCCGAGGACCAGCGAATGCTGCGCGGCGCTCTGGCTTCCTTGCTTGA	MKKLKDAKSAGFEVFPTQLGFFPYLWLIYISLPVINMMSEEGWKMGIGFALIGLFLVTYRQLYFVAGTPRFFVWLGIQMSIIFILCMWYHPTYMYMGFFTANFIGWYTDRRKFTISLVLFGIIETIPLIKNASMLGKDLLFMIPFFLIMLFSPFGIRSLNRRQELERELAQANEQIRNLIKGEERMRIARDLHDTLGHTLSLITLKSQLVEKLAAKDPAKAQLEAREIQNTSRAALRQVRELVSDMRTATLPEELVEAQIILESADIQFNCTGNPKLEGISDLAHNILSLCLREAVTNVVKHSQASQCRIDIESLDNEWRLLVADNGIGLKGKEEGPSGTDSNGLKGMAERLSLIGGTVEAVSDPQGTKVSIRVPIIIKNRKEDTTHEHQSADSRGPANAARRSGFLA				NA	NA	NA	NA	NA
AK002_00201	747			hypothetical protein	ATGACAACCTGGAAACTGATTACCTTACAATGCAGAATGGAATTGCTTCGGATGGTACGCAATCCGTATTATATTTTCTGGTCGCTGGCGATGCCGATCCTGTTCTATTTCATCTTTACCCGCGTCGTGAATACGGGAGCGGACGATGCCGGACAATGGCAGGCGCATTATCTCATGTCGATGGCATCCTTCAGCGTCATGGGTACCGCCATCATGTCCCTCGGCATACGACTCGTTCAGGAGCGAGTACAGGGCTGGGCCGTATACATGCGTGTAACGCCGCTTCCCGGCAGCGTGTACTTCTTCGGCAAAATGTTCGTGCAGACGGTTATGCATCTGCTCTGCATCATCGTGATTTTCGTAGCCGGCTACCTGATTAACGGCGTCTCCCTCACCTTCGGACAGTGGCTGCTCAGCGGACTATGGATTCTGATCGCATCCGTTCCGTTTCTTGCCATCGGCACCCTGATCGGCTCCATGAAACGGGTCGATACGGCAAGCGGCGTCAGCAACGGCATCTACTTGGGACTGGCCGTTACGGGCGGGATGTGGTTCCCGATCGAAGCGATGCCTTCCATCATGCAGGCCATCGGCAAGTGGATGCCTTCCTACCATTTCGGCGGAGGCGCCTGGTCGATCGTGCGCGGAGAAGCGCCGGGCTTGGACAATTTCATGGTTTTGGCAGGATATTTGGCCGTATTTATGTTACTATCCACCTATATTCGGAAAAAACAACAGGCCGATTAA	MTTWKLITLQCRMELLRMVRNPYYIFWSLAMPILFYFIFTRVVNTGADDAGQWQAHYLMSMASFSVMGTAIMSLGIRLVQERVQGWAVYMRVTPLPGSVYFFGKMFVQTVMHLLCIIVIFVAGYLINGVSLTFGQWLLSGLWILIASVPFLAIGTLIGSMKRVDTASGVSNGIYLGLAVTGGMWFPIEAMPSIMQAIGKWMPSYHFGGGAWSIVRGEAPGLDNFMVLAGYLAVFMLLSTYIRKKQQAD	PGPT0006730_22119	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_00202	924	drrA_1		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGACAAACCCAATCCATGAACCTATTGCAGAGCTGCGGCAGGTAACCAAGATGTTCGGGAGCAAAAAAGCCGTCAACCAAGTGTCGTTTACGATAGAAAAAGGATCCATCACAGCCATTCTCGGTCCTAACGGGGCCGGCAAATCAACCGCCATCTCCATGATGCTGGGCCTTAAGGACGCCAGCGAAGGCAAGGTTCTCCTGTTTGGCCAAAGCCCGAAGGACTTGAAGGTCCGAGAGAAAATCGGCGCCATGCTCCAGGAAGTCAGCGTCATGGACGGACTCCGCACACGCGAGATCATCAACCTCATTCGCGGCTATTATCCGAATCCGCTGTCGCTTGACGACATCGCCCTGCTAAGCGGGCTTACTCCCGAGGAGCTTAACAAATGGGCCGTAAAAATGTCCGGCGGCCAAAAACGCAAGCTCAGCTTTGCGCTGGCGATTGCAGGCAATCCCGAGCTGTTATTCTTCGACGAACCGACGGTCGGCCTGGATACCTCGGCACGCCGGTTATTTTGGCAGACGGTGCGCAAGCTGGCCGATCAGGGAAAAACCATCCTGTTCACCACGCACTACCTGCAGGAGGCGGACGATATGGCAGACCGCATTCTGCTGTTCCATCAGGGTCAGGTGGCTGCAGACGGCACGCCGGAAGCGATCAAATCCAAGCTGACCCGAAAGTCTGTCTCCTTTATCGTGGATGCAGACCACCGGCAGGTCAAGGAGCTGCTGCGTGAAGTGCCCGGCGTCACCGATGTGTTTGAGAACAATGGCCGTTTGAACGCCGTCACGGATGATACGGACACGGCGCTGGCTGCCTTGTTCCGAGCCGGGCTCGCCGTACGCGACGTTCGCATCGATCAAGGAAGCCTGGATGAAGCATTCGACCAATTAACGATGGATCAAGGGGAGGCCGTATAA	MTNPIHEPIAELRQVTKMFGSKKAVNQVSFTIEKGSITAILGPNGAGKSTAISMMLGLKDASEGKVLLFGQSPKDLKVREKIGAMLQEVSVMDGLRTREIINLIRGYYPNPLSLDDIALLSGLTPEELNKWAVKMSGGQKRKLSFALAIAGNPELLFFDEPTVGLDTSARRLFWQTVRKLADQGKTILFTTHYLQEADDMADRILLFHQGQVAADGTPEAIKSKLTRKSVSFIVDADHRQVKELLREVPGVTDVFENNGRLNAVTDDTDTALAALFRAGLAVRDVRIDQGSLDEAFDQLTMDQGEAV	PGPT0006725_11497	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00203	951	glcK	COG1940	Glucokinase	ATGTCTGAGAACATCTACGTCGGTGTCGATCTTGGCGGAACAGCTATTAAAGTTGGAATATGTAACGAAGAAGGGCATCTTCTGCAGAAGTACGAAGGGCCGACGGAAACAGCCAAAGGCGTTGACACGGTTATTGACAACATTGAGAAATATGTGCGTCACATTGTGGAAGAATCGCCATACAGCTGGGATCAACTTGCTGGTGTGGGAGCTGGTTTCGCCGGGTTTACGAATATACGTGAAGGCATCATCATTCTGGCACCGAATGTAGGATTTAAAGATGTACCGATTCGCGCACTGCTTGAAGAGCGTCTCGGCAAGCCCGTCAAAATAGACAACGACGCCAATGTGGCTGCCCTGGGTGAGGCTTGGAGCGGCGCAGGACGCGGCGTTGAGAACTGCGTATGCTACACGCTCGGAACCGGCGTGGGCGGGGGTATTATCGTAAACGGCAAAATTTATCAAGGCTTCGGCGGCATGGCCGGCGAGCTTGGGCATATCTCGGTCGTGCCTGATCTGGAAGCCATTCAATGCGGATGCGGCGAAATGGGCTGCCTGGAGACGGTTTCATCGGCAACCGGTATTATCCGCATGGCGAAGGATGCCGTTGAGCGCGGCGATCGCACTTCCCTTGCGCATGTGGAGAGCATTGCGGCGAAGGAAGTGTTTGATGCTGCGAAAGCGGGCGATGAAGTCGCCATTCGCATCGTGAATCGCGCAGCTTATTACCTCGGCAAATCCATGGCAGCCGTTGCGGCCGTGTTAAATCCCGAAGCGTTTATCATCGGCGGCGGCGTATCCAAAGCCGGGGATATTCTGTTTAATGAAGTTCGTGCCGTATTTGCTAAACTGACACCGGAACCGCTTCAACGCGGCGTACGGATCGTTCCAGCTGAGCTTGGCAACGACGCCGGCGTTGTTGGCGCAGCCGGTTTGCACTTGCGTTCGTAG	MSENIYVGVDLGGTAIKVGICNEEGHLLQKYEGPTETAKGVDTVIDNIEKYVRHIVEESPYSWDQLAGVGAGFAGFTNIREGIIILAPNVGFKDVPIRALLEERLGKPVKIDNDANVAALGEAWSGAGRGVENCVCYTLGTGVGGGIIVNGKIYQGFGGMAGELGHISVVPDLEAIQCGCGEMGCLETVSSATGIIRMAKDAVERGDRTSLAHVESIAAKEVFDAAKAGDEVAIRIVNRAAYYLGKSMAAVAAVLNPEAFIIGGGVSKAGDILFNEVRAVFAKLTPEPLQRGVRIVPAELGNDAGVVGAAGLHLRS				NA	NA	NA	NA	NA
AK002_00204	909	yvcJ	COG1660	Nucleotide-binding protein YvcJ	ATGCTGGAAGCAGCCGACCGCGGCAGCAACACATCATCCATGGCCACCCTGATCATCATCACCGGGATGTCGGGAGCAGGTAAGACCTTGGCCGTACAAAGTCTGGAGGATCTTGGATTCTTTTGCGTTGATAACCTGCCCCCGGTGCTCATTCCGAAATTCGCGGAGCTGATCGATCAATCGAAGGGTAAGATCGGCAAGGTTGCATTGGTCATCGACCTGCGTGGCCGCGAATTTTTCACCGCTTTATCGGAATCGCTGAATTACATCAAGGACCACTTCACCATTCACTGCGAGATTCTGTTCCTGGATGCCACGGACTCTGTGCTTGTTCAGCGTTACAAGGAAAGCCGTCGCCGCCATCCGCTCGCTCCGGAAGGCATGCCGCTCGACGGTATAAGGTTGGAGCGCAAAATGCTGGATGAGCTGAAGAATTCGGCCACCCAGGTCATCGATACCAGCAACATGAAGCCTGTGCGCTTGAAGGAGAAGATCATCTCTCGCTTCACGCATTTGGAGAGCAGCACGTTATCGGTTAATATTACGTCTTTCGGATTTAAGTACGGTATTCCGATTGACGCCGATCTGGTGTTTGATGTGCGTTTTCTGCCCAATCCGCATTATGTGGAGCATCTGCGGCCCAATACCGGCCAAAACAGCGATGTATACGAATACGTCATGAAATGGCCGGAGACGCAAGCTTTTCTGACCAAACTGCTCGATATGCTGCATTTCTTGATCCCGCAGTACCGCAAGGAAGGCAAGAGTCAGGTGATCATCGGCATTGGCTGTACCGGCGGGAAGCATCGTTCCGTAGCGATTGCCGAGTATCTCGGCAAAATGCTGGGCGTCAGCGAAACGGAGACGGTATCGGTGAGCCACCGCGATTCTGAGCGGGATCGGCATTAA	MLEAADRGSNTSSMATLIIITGMSGAGKTLAVQSLEDLGFFCVDNLPPVLIPKFAELIDQSKGKIGKVALVIDLRGREFFTALSESLNYIKDHFTIHCEILFLDATDSVLVQRYKESRRRHPLAPEGMPLDGIRLERKMLDELKNSATQVIDTSNMKPVRLKEKIISRFTHLESSTLSVNITSFGFKYGIPIDADLVFDVRFLPNPHYVEHLRPNTGQNSDVYEYVMKWPETQAFLTKLLDMLHFLIPQYRKEGKSQVIIGIGCTGGKHRSVAIAEYLGKMLGVSETETVSVSHRDSERDRH				NA	NA	NA	NA	NA
AK002_00205	981		COG0391	Gluconeogenesis factor	GTGGCTGTGCAAGCTAGAAAGCGCCCCCGCATCGTCGTGATGGGTGGAGGAACCGGGCTGTCCGTCATGTTGCGGGGACTCAAGGAAAAGCCTCTCGATATTACGGCCATCGTCACCGTTGCGGATGACGGGGGTAGCTCCGGCATACTGCGTAGCGAGTTGCAGATGCCGCCTCCGGGAGATATTCGTAATGTACTGACGGCACTCGCGGATGTGGAGCCGCTGTTATCCGATATATTGAAATACCGTTTCAAGAATGGCTCGGGACTGGCCGGGCACAGCCTCGGCAATTTGATCCTGGCTGCCATGACGGATTTGCACGGTGATTTTGTCACGGCAGTCAAGGAGATGAGCCGGGTTTTTGTTGTTCGCGGACAGGTGCTGCCCGCAGCGGGCGAAGCTGTCATTCTGCATGCGGAGATGGAGGACGGCACGATTGTGACCGGCGAATCCAAAATCCCGGAGGCCGGGCGCCGCATCAAGCGGATCTTCCTGGAGCCGGAACATGTGGAACCGCTGCCGGAAGCGCTGGAAGCGATTCAACAGGCCGATGCGATTCTGATCGGTCCAGGCAGCCTGTACACCAGTATTTTGCCCAATTTGCTGGTTCCCAAGCTTGCCGAAGCCATTGTCTCGTCCGAAGCGATCAAAATGTTTGTGTGCAACGTGATGACGCAGCCGGGAGAAACCGATAATTATACGGTGAGCGATCATTTGCAGGCCGTTTACGACCATATTGGTCTTCATCTGTTCGATTATGTTATTGTTAATGATGGTGAGATTCCGCCTCAGGTTCAGGACAAGTATGCACAGAAGGGCGCGAAGCCCGTTCTGCTGGACCGCGATGAGGTGACCAGTCGAGGATATAAACTTATTGCCGATAAGCTTGTGCTATTTAGAACATACTTAAGGCATGACGCTGACAAGCTGAGCAACCATATTTTTCAGCTGGTACAGGATTGGATTACACGAAAGGGGTGA	MAVQARKRPRIVVMGGGTGLSVMLRGLKEKPLDITAIVTVADDGGSSGILRSELQMPPPGDIRNVLTALADVEPLLSDILKYRFKNGSGLAGHSLGNLILAAMTDLHGDFVTAVKEMSRVFVVRGQVLPAAGEAVILHAEMEDGTIVTGESKIPEAGRRIKRIFLEPEHVEPLPEALEAIQQADAILIGPGSLYTSILPNLLVPKLAEAIVSSEAIKMFVCNVMTQPGETDNYTVSDHLQAVYDHIGLHLFDYVIVNDGEIPPQVQDKYAQKGAKPVLLDRDEVTSRGYKLIADKLVLFRTYLRHDADKLSNHIFQLVQDWITRKG				NA	NA	NA	NA	NA
AK002_00206	939	whiA	COG1481	putative cell division protein WhiA	GTGAGTACCTTGTCCTTTGCGGCACAGACGAAGAAAGAACTGACGATGATCGAAAGCCAGAGCTGCTGTGAAAAAGCCGAACTGTCCGCGCTCATTCGGATGAACGGCTCTGTTCAGCTTTCGAACAAAAAGGTAATCCTGGATATTTCGACGGAAAATGCCGCGATTGCAAGACGTATTTATTCCTTAATTAAGAAGCATTTCCAGGCGCATACCGAACTTTTGGTGCGTAAAAAAATGCGTTTGAAGAAGAATAACGTATATATCGTTCGTATTCCCGCCCAGGTTCAGGAGATTCTGAAGGAGCTTCGCATCGTTTCCGAAGGCTTTCTGTTTCAATCGCGCATCGACGAGCAGATCGTTCGCAAAAATTGCTGTAAGCGGGCTTATCTGCGAGGTGCCTTCATGGCAGGCGGATCCGTGAACAACCCGGAGGGGTCTTCGTACCATCTGGAAATTGCCTCGATGTATGAGGAGCATTGCCAGTCCCTGGTGGACCTGGCGAATGAATTTCATCTGAACGCACGCTGCATCGAGCGAAAGAAGGGCTTCATCTTCTACATCAAGGAAGGCGAAAAAATCATCGAATTCCTCAATTTGATCGGTGCCCATCAGGCCTTGTTCAAGTTCGAGGATGTCCGGATTATGCGGGACATGCGCAATTCGGTGAACCGGATCGTAAACTGCGAGACCGCCAACCTAAACAAAACGATCGGCGCAGCCGTCCGTCAGATTGAGAACATCAAGCTGCTCCAAAAAGAAGTGGGTCTTGAGAATTTGCCCGATAAACTGCGGGAAGTGGCAGAGATTCGGCTGGCTCATCCGGATATGAACCTGAAGGAAGTCGGCGAATTGCTCAAAGGAACCGTCAGCAAATCAGGCGTCAATCACCGTCTGCGCAAAATCGATGAATTGGCCGAAAAGATTCGGAATGCTTAA	MSTLSFAAQTKKELTMIESQSCCEKAELSALIRMNGSVQLSNKKVILDISTENAAIARRIYSLIKKHFQAHTELLVRKKMRLKKNNVYIVRIPAQVQEILKELRIVSEGFLFQSRIDEQIVRKNCCKRAYLRGAFMAGGSVNNPEGSSYHLEIASMYEEHCQSLVDLANEFHLNARCIERKKGFIFYIKEGEKIIEFLNLIGAHQALFKFEDVRIMRDMRNSVNRIVNCETANLNKTIGAAVRQIENIKLLQKEVGLENLPDKLREVAEIRLAHPDMNLKEVGELLKGTVSKSGVNHRLRKIDELAEKIRNA				NA	NA	NA	NA	NA
AK002_00207	270	crh	COG1925	HPr-like protein Crh	ATGACAAAGCACCCGGTAGTCGTTCGGTTAAAGACGGGTCTTCACGCCAGACCGGCCGCGCTGTTCGTTCAGGAAGCGAATAAATACTCATCTGAAATTTTTGTTGAAAAAGATGATAAAAAAGTAAATGCCAAAAGTATCATGGGAATTATGAGCCTTGCGATCAGCTCAGGAACGGAAGTTTACATTAGTGCTGAGGGAGCTGACGCTGAGCAAGCGGTTACTTCACTCGTGAACTTGGTGAGCAAAGAGGAACTCGAGAACCAATAG	MTKHPVVVRLKTGLHARPAALFVQEANKYSSEIFVEKDDKKVNAKSIMGIMSLAISSGTEVYISAEGADAEQAVTSLVNLVSKEELENQ	PGPT0016875_2318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
AK002_00208	1797	bmrA_1	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	ATGAGTTCAACGGGTACTGCTGTACAGGAAATCACGCGCGAAGAACAGGCCGGGAGCAAGAAGGCAGGTTCCCAGGCGTTCTTCCGGTTATTGAAGGAAACGAAACCGCCGATGCTGCTGCTGATCGGGGCGATCCTGCTGAATGTGATCTCAACCTTGGTCGGGCTTGTCATACCGATGTTTACGAAGAGCCTGGTGGATGGCTTCTCGCTGACGGATATGAATCGGTCCCATATCATTGGGCTCGGCATCGCGTTTGTGGTGCAGACGATTGCTGCCGGGGTCTCGATTTTTCTGTTAAGCTATACGGGACAAAAGATGGTGGCTGCCCTGAGGGAGCGGCTGTGGAAAAAGCTGCTTGTGCTGCCGATCCGCTATTTCGATCATAACCGGTCGGGGGAGTCGGTCAGCCGGATGACGAATGATACAGGAGTGATCAAAAGCCTCATATCAGACCATGTGGCCGGATTCTTCAGCGGGATTATCTCCATTGTGGGTTCCATTGGGGTGCTCCTTTATCTAAACTGGAAAATGACGCTGACGATGTTTATCGTCATTCCGATAGCGGCGCTGATCCTTGTCCCGCTCGGCAGGAAGATGTACAAAATATCGCTGGGCATGCAGGACGAGACGGCGTCGTTTACGGCGAATATCAGCCAGGTGCTGTCGGAAATTCGGCTGGTTAAAGCCTCTAATGCGGAGAATAGAGAGTATGAGAACGGGAACAAAGGCATCACCAACCTGCTGAATTTCGGTATCAAGGAAGGCGTAGTCTCTGCCTGGATCGCACCGCTGATGTCTTTTGTGCTGATGATGCTGCTGGTGGTGGTGATCGGGTATGGCGGACTACAGGTATCCACCGGAGCACTGACCGCGGGAGAACTGGTTGCGTTCATCCTGTACCTGATTCAGATCGTCATGCCGATGACGCAATTAACGACGTTTTTTACCCAGCTGCAGAAGGCGAAGGGAGCGACGGAGCGAATATTGGAAACCCTGGATGCAGACGAAGAATCCATTACGGCCGGTGACGAGGTGGCGGATGCCAACCAGCGGGTGTCGATCGAGAACCTTTCGTTCGGGTATAAGCCCGATGAGCTTGTGCTGCATGATATCAGCTTTCAGATGGAGCCGGGGACGGTCACGGCCGTGGTCGGGCCGAGCGGCGGAGGGAAAACGACGCTGTTCTCCATGCTGGAGCGCTTCTACCTGCCACAGAAGGGACAGATCCGCTTGGGCAAGACGCCCATAGATACCTTCTCCTTACGCTCCTGGCGCGGATTGATCGGCTATGTATCGCAGGAAAGTCCGATGATTGCCGGAACCATACGCGACAACTTATGTTACGGAATGGACCGGGAAGTGAGTGACGCTGAGCTCCGAAGAGCGGCAGAAATGGCGTATGCCGATGGATTTATTGATGAGCTGCCAAGCGGCTTTGATACGGATGTGGGCGAACGGGGCGTGAAGCTCTCGGGCGGACAGCGGCAGCGGATTGCCATCGCCAGGGCTCTGCTGCGGGATCCCAAGATCCTGATGCTGGACGAAGCCACCTCCAGTCTGGACAGCCGTTCCGAGATCGAGGTGCAGAAGGCGCTCAAGAACCTCATGGCTGGACGGACGACGATTATTATCGCGCACCGGTTATCCACGGTGGTGGGGGCCGATCAGATCATATTTATAGAAAAAGGAACGGTGACCGGCCGGGGAACGCATGATGAATTGATCGGGCAGCATGATATGTACAGGGAGTTTGCCGTTCAGCAGCTGCAGATGAATGAGGCAATCGAAGCTTAA	MSSTGTAVQEITREEQAGSKKAGSQAFFRLLKETKPPMLLLIGAILLNVISTLVGLVIPMFTKSLVDGFSLTDMNRSHIIGLGIAFVVQTIAAGVSIFLLSYTGQKMVAALRERLWKKLLVLPIRYFDHNRSGESVSRMTNDTGVIKSLISDHVAGFFSGIISIVGSIGVLLYLNWKMTLTMFIVIPIAALILVPLGRKMYKISLGMQDETASFTANISQVLSEIRLVKASNAENREYENGNKGITNLLNFGIKEGVVSAWIAPLMSFVLMMLLVVVIGYGGLQVSTGALTAGELVAFILYLIQIVMPMTQLTTFFTQLQKAKGATERILETLDADEESITAGDEVADANQRVSIENLSFGYKPDELVLHDISFQMEPGTVTAVVGPSGGGKTTLFSMLERFYLPQKGQIRLGKTPIDTFSLRSWRGLIGYVSQESPMIAGTIRDNLCYGMDREVSDAELRRAAEMAYADGFIDELPSGFDTDVGERGVKLSGGQRQRIAIARALLRDPKILMLDEATSSLDSRSEIEVQKALKNLMAGRTTIIIAHRLSTVVGADQIIFIEKGTVTGRGTHDELIGQHDMYREFAVQQLQMNEAIEA	PGPT0028965_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
AK002_00209	681	hssR_1		Heme response regulator HssR	ATGGCAAAAATATTGGTTGTGGACGACGATCCGAACATCCGCGAACTCATCAAGGTGTTCCTGGAGGAGGCGGGGATGGAAGAGGTGATGGAGGCCTCGGATGGCGTCGAGGCCCTGTCCGTGATGGAGCAAGTTTCGGTCGATCTGGTCGTGATGGATATCATGATGCCCAATATGGATGGATGGGAGCTCTGCCGGGAGATTCGGAGGAATACCGGCATTCCGGTGCTGATGCTGACGGCCAAAGGGGAAACGAGACAGATCGTAAAGGGCTTTGAGCTGGGCACCGACGATTATCTGGTGAAGCCCTTCGAGCCCGCGGAGCTCGTCGTTCGCGTCAAAGCGCTGCTGAAGCGGTATCAGGTAGCCGCATCGCAGACGGTGACCATCGGCAAGCTGCAGATGAACCGCAGAACCTATGAGGTCAAGGCGGGCGAAGAGGTCTTTACCCTGCCGCTGAAGGAGTTCGAGCTGCTCTTCAAGCTGGCCAGTTACCCGGGGAGCACGTTGCCGCGCGACCGGCTGATCGAAGAGATATGGGGATATGACTTTGAAGGGAACGAACGCACGCTGGACGTTCACGTGAATCGGCTGCGGGAACGGTTCCCGGAGGAGAAGTACCGGTTCAGGATTCGAACGGTACGCGGCCTGGGGTATCGACTGGAGGCAGGTGAGGGCTGA	MAKILVVDDDPNIRELIKVFLEEAGMEEVMEASDGVEALSVMEQVSVDLVVMDIMMPNMDGWELCREIRRNTGIPVLMLTAKGETRQIVKGFELGTDDYLVKPFEPAELVVRVKALLKRYQVAASQTVTIGKLQMNRRTYEVKAGEEVFTLPLKEFELLFKLASYPGSTLPRDRLIEEIWGYDFEGNERTLDVHVNRLRERFPEEKYRFRIRTVRGLGYRLEAGEG	PGPT0028965_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
AK002_00210	1080	sasA_2		Adaptive-response sensory-kinase SasA	ATGAGGAGACCGCTCAAAATCTTGTGGAAAATCGTTCGGGAAACGATTCAGACCATCCTGATCTTCGCGGTCTTGGGAGCGTCATGGACGGCGGCGACCTACGTGACGCGGTTTGTTTACAACTGGACGGGAACGCCGCCATGGGATTATGCTGTCCAGTTGATCGACTTGTTTGTCGGCGTCATCATTTTCTTCCTGTGCATGCTGGTCGTAGGGATGTTCTTCAAGCACAGGCAAATGGCCATGCTGAATTCCATAACGGATGCCATGCGCCGGATCTCCCAAGGGGATTTCAGTGTGAAGATGGATGAACACCAATGGCGCGGGGAGTTCAGGATGATTGCTTCCGGCATTAACGACATGGCCGGCGAGCTGGGGCGCATGGAGACGATGCGGCAGGATTTCATTTCCAACGTATCCCATGAAATCCAATCCCCGCTCACTTCGATTCGGGGGTTCGCAAGGGCGCTCCGAAATCCACGTCTCACCGAGGAGAAGAGAGCCCGTTACCTGGAGATCATCGAGGGAGAGGGCCGCCGTTTGTCGCAGCTGAGTGACAATCTGTTGAAGCTGTCGTCTCTGGAAGGCGATCAGCCTGCCTTCGAAAGGGCCCGTTACCGGCTCGACGGGCAGCTGCGCGCGGTCGTCTTGGCGCATGAGCCGCAGTGGCTGGCGAAGCGAATTCAGGTGGATCTCGATCTCGCCGAGGTCGAGATTGAGGCGACGGAGGATCTGCTGAGTCAAGTATGGACCAACTTGCTGCACAACAGCATCAAGTTCACGCCCGAGGACGGCATGATCACCATCGTGCTGAAGGCAGGGGAAGACGGAGCCGAGGTTACCATGACCGATACGGGGGTCGGGATGTCGGACTCCGATCAGCTGCATATCTTCGAGCGCTTCTACAAAGCGGACAAATCGCGTAATCGCGCGGCTGGCGGCAGCGGGCTTGGGTTGTCGATCGTGAAGCGGATCGTGGATATCCACCAAGGGAGAATAACGGTCCAATCGGAGCCGGGGAAGGGATCGGCATTTACCGTGGTGGTGCCATACAAGAGTTCCGGTGAAACGAAGCAGTGA	MRRPLKILWKIVRETIQTILIFAVLGASWTAATYVTRFVYNWTGTPPWDYAVQLIDLFVGVIIFFLCMLVVGMFFKHRQMAMLNSITDAMRRISQGDFSVKMDEHQWRGEFRMIASGINDMAGELGRMETMRQDFISNVSHEIQSPLTSIRGFARALRNPRLTEEKRARYLEIIEGEGRRLSQLSDNLLKLSSLEGDQPAFERARYRLDGQLRAVVLAHEPQWLAKRIQVDLDLAEVEIEATEDLLSQVWTNLLHNSIKFTPEDGMITIVLKAGEDGAEVTMTDTGVGMSDSDQLHIFERFYKADKSRNRAAGGSGLGLSIVKRIVDIHQGRITVQSEPGKGSAFTVVVPYKSSGETKQ	PGPT0002705_4082	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
AK002_00211	729	artM_1	COG1126	Arginine transport ATP-binding protein ArtM	ATGGATAAAATCCGCATAGAAGGACTGAAGAAGAGCTTTGGCACGAACGAGGTACTGAAGGGAATCGATATGCAAGTCCAGGAAGGCGAGGTTGTCTGCGTAATCGGGCCATCGGGCTCGGGCAAAAGCACCTTTCTGCGCTGCATCAACCGGCTGGAGGAAATTACGGCTGGCAGGGTCTTCGTCCATGATCAGGATATCAATGACCCTAAAACGAACATCAATAAGGCGCGCGAGAACATCGGCATGGTGTTCCAGCATTTTAATCTCTTTCCGCACTTCAACGTGCTGAAGAACATTACCTTCGCCCCAGTCGAGCTGGGCAAGCAAAACGCCGCCGAGGCACGTGCCACGGCGCTGAAGCTGCTAGACCGAGTAGGCCTCTCCGATAAGGCTGACGCTTTCCCTAGCCAGCTGTCAGGCGGCCAGAAGCAGCGCGTAGCGATCGCCCGGGCTTTGGCGATGAATCCCGACATCATGCTGTTCGACGAGCCGACCTCGGCGCTGGACCCGGAGATGGTCGGCGAGGTGCTCGGCGTCATGAAGGACCTGGCACGCGAGGGCATGACGATGATGATCGTCACGCATGAGATGGGTTTTGCCCGCGAGGTTGCGGACCGGGTCATCTTCATGGACGGCGGGTATATCGTAGAGGAAGGTCCGCCGGAAGAGGTGTTCGGCAGCCCGAAACATGAGCGGACGATCAGCTTTCTGGAGAAGGTGCTGTAA	MDKIRIEGLKKSFGTNEVLKGIDMQVQEGEVVCVIGPSGSGKSTFLRCINRLEEITAGRVFVHDQDINDPKTNINKARENIGMVFQHFNLFPHFNVLKNITFAPVELGKQNAAEARATALKLLDRVGLSDKADAFPSQLSGGQKQRVAIARALAMNPDIMLFDEPTSALDPEMVGEVLGVMKDLAREGMTMMIVTHEMGFAREVADRVIFMDGGYIVEEGPPEEVFGSPKHERTISFLEKVL	PGPT0000730_487	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000730-glnQ-K10038	NA	NA
AK002_00212	1449	mltF_1		Membrane-bound lytic murein transglycosylase F	ATGAAATCATTGCGTGTATTCTACGTGTTCATGTCACTGCTGCTCCTCATGGCCGTTGGCGTTCCCTATGGGACGGTAAGCGCGGCGGGAGAGCCAGCCTCCGGCAAAACCTATCAGATCGGAACGGACGTTACGTTTGCCCCGTTTGAATTCCAGGATGCGAGCGGCAAATTTGTCGGCATCGATATGGATCTCCTGGATGCGATCGCGAAAGACCAGAACTTCAAATACGAGATCAAGCCGCTCGGCTTCAATGCGGCGGTTCAGGCACTGGAAGCCAATCAGGTCGACGGCGTCATTGCCGGCATGAGTATCACGGATGAACGGAAGCAGAAATTCGATTTTTCCGACCCCTATTTTGATTCGGGCGTTGTCATGGCCATCCGCCAGGACCAGGAATCCATCAAATCCTATGAGGATTTAAAAGGGAAAAAGGTTGCCGTCAAAACCGGTACGGAGGGTTACAGCTTCGCGGAATCCATATCCTCCAAGTACGGCTTCACCATCGTGCCTTTTGACGATTCCGCCCAAATGTATGACGATGTCAAAACCGGCAATTCCGTTGCCTGCTTTGACGATTTTCCCGTCCTCGCTTATGGAGTGGAACAGAACAACGGACTGAAGATCGTTACGGAGATGGAACCCGGTGCCTCCTACGGATTCGCCGTTAGCAAGGGACGGAACCAGGAGCTTCTGGAGAAGTTCAACGCCGGCTTGGTGAATCTGAAGGCAAGTGGAGAGTACGATCGCATTAAGGAAAAATATATCGGGGAGAATGCCGTAAGCGCGGCGAATCAAAGCCGCTGGGGATTGATCGTGGAGTCGCTGCCTTCCCTGCTGAAGGGCCTTGGCAATACGCTGCTGCTGACCATCGTGTCGCTGTTTTTTGCGTTTTTCTTAGGGCTGATCTTCGGTTTCATGAAAGTCGGCCGCAATCGATGGCTCCGGGGCATCGCTACCGTATTCGTAGACATCTTCCGCGGCATACCGCTGCTGGTGCTTGCCTTCTTCATCTACTTCGGCATTCCGCAGGCGTTCGGCTTTACGATGTCGCCGATCGTCGCAGCGGTCCTGACGCTGAGCTTGAATGCCGGCGCTTATGTCACGGAGATTATTCGCGGCGGCATTCAATCCATTGACCCCGGGCAGCTGGAGGCGGCCCGCTCACTCGGACTGCCATACCGCAAAGCCATGATGAAAATCATCATTCCGCAGGCGATCAAAGTGATGATTCCGACCTTTATTAACCAGCTGGTGATCACGCTGAAGGATACGTCCATCCTGTCGGTGATCGGTCTGGTCGAGCTGACCCAATCCGGAAAGATCATCATTGCGAGAACGTTCGCCTCGTTTGATATCTGGCTCGTGGTGGCCATCATGTATCTGGTCGTGATCACAATTCTGACGAAAATTTCGGACCGTCTGGAAAGGAAGGTGCGTCATGGATAA	MKSLRVFYVFMSLLLLMAVGVPYGTVSAAGEPASGKTYQIGTDVTFAPFEFQDASGKFVGIDMDLLDAIAKDQNFKYEIKPLGFNAAVQALEANQVDGVIAGMSITDERKQKFDFSDPYFDSGVVMAIRQDQESIKSYEDLKGKKVAVKTGTEGYSFAESISSKYGFTIVPFDDSAQMYDDVKTGNSVACFDDFPVLAYGVEQNNGLKIVTEMEPGASYGFAVSKGRNQELLEKFNAGLVNLKASGEYDRIKEKYIGENAVSAANQSRWGLIVESLPSLLKGLGNTLLLTIVSLFFAFFLGLIFGFMKVGRNRWLRGIATVFVDIFRGIPLLVLAFFIYFGIPQAFGFTMSPIVAAVLTLSLNAGAYVTEIIRGGIQSIDPGQLEAARSLGLPYRKAMMKIIIPQAIKVMIPTFINQLVITLKDTSILSVIGLVELTQSGKIIIARTFASFDIWLVVAIMYLVVITILTKISDRLERKVRHG	PGPT0000665_288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000665-glnH-K10036	NA	NA
AK002_00213	762			hypothetical protein	ATGAAAAGATGGGTCAAACAAGTAGGTTCTATCATGATTGCAGGCGCACTGCTGACTGGCAGCACGGCTTGGGTCGGGTTGAGCGGAGCAACCGAGGTGCACGCGGCGGAGGCAGCACAGCAAAACCTTCTTACCGTACTTGGTAAAGGCGAGATCTCGGTGAAGCCAGATATCGTTTATCTTTCCATCGGGGCAGAATCATATGCGGAAACCGCAAAATCCGCACAGAAGAGCAATGCGCTGAAAATGGATAAGATTACGAAGCTGTTGAAGGAAACCTGGAAGATCGACGACAAGGATATCAAAACCGAGCAGTTCTACGTACAGCCTAACTATACGTACTCCGATGAGAATGGACGTAAAGTGAAAAATTACACCGCCTATCATTCCCTGGAAGTTACGCTTCGCGATCTGAGCAAGGTCGGGGATCTGCTCGATGCAGCATCCGAAGCCGGCGCCAATTCCATTGGCAACGCCCGTTTCTCGGTTGAGAACCGCGATGCGTTCGAGGCTCAAGTGATTGATAAGGCGATGGCGAATGCAGACCTGAAGGCACAAGCGATGGCAAAGGCGTCCAAGCGTCAGCTCGGTATCGTGCTGAACATTGTGGAAGGTTCCGTTGGCGTAGATACCATCTATGGCCTCCAAAAAATGGCAATGGAGGCTCAGTCCACGGCAGCGGACGCGGGCGCAAACACCTCTGTGAAGCCGGGCGAGATCAAAATCACGACACAGCTGTACGTGCAATACCAGCTGAAGTAG	MKRWVKQVGSIMIAGALLTGSTAWVGLSGATEVHAAEAAQQNLLTVLGKGEISVKPDIVYLSIGAESYAETAKSAQKSNALKMDKITKLLKETWKIDDKDIKTEQFYVQPNYTYSDENGRKVKNYTAYHSLEVTLRDLSKVGDLLDAASEAGANSIGNARFSVENRDAFEAQVIDKAMANADLKAQAMAKASKRQLGIVLNIVEGSVGVDTIYGLQKMAMEAQSTAADAGANTSVKPGEIKITTQLYVQYQLK	PGPT0012980_371	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
AK002_00214	1008	potA_1	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGGAACGAACAGGTCACATTTTGAAGAAGGGGTTGATGCATGTGATTGAACTTGTCCAGATCGAGAAGCATTTTCAGGGACAAGCGGTCGTGCATCCGCTGTCGCTCTCCATTAAAGAAGGGGAATTCCTGACTTTGCTGGGCCCCAGCGGCTGCGGCAAAACGACGATTCTCCGAATGATAGCAGGATTCGAGCAGCCGACCGAAGGACAGGTATGGCTGGCGGGTCAGAATGTGACGGATATGCCTGCGAACAAGCGGGATTTGAATTTGGTATTCCAACACTATGCTCTGTTTCCGCATATGACCGTAGAAGACAATATCGCTTTTGGACTGAAAATGAAAAAAATGCCGCGTCAGCTCATCAAGGAGCGCGTGGACGAGGCTGTCGCGATGACGCAGCTGACCGCCTTGCGGGAACGCTTCCCGCACCAGTTGTCCGGCGGACAGCAGCAGCGCGTGGCCATTGCGCGCGCCATCGCCAACAAGCCGAAGGTGCTGCTGCTGGATGAACCGCTCGGCGCGCTGGATTTGCAGCTGCGGAAGAACCTGCAGTCCGAGCTCAAGCATTTGCAGCGGACGCTCGGGATAACGTTTGTATATGTAACGCACGACCAAGAGGAAGCCATGATGCTGTCCGACCGGATCGTCATCATGAACCATGGACGGGTAGAGCAAATCGGCACGCCGCGCGAGATCTATGCGAGACCGCAAACGCTGTTTGCCGCCACGTTTGTAGGGGAGAATAACGTCTTCTCCTCGCCTGAGGGGCTTTTTGCCGTACGGCCGGAGAAACTCATTCCCCAGCGGGAATCGGGTGCCAAGAAGAGCGGCGTGATTGAGGATGTGCAGTACCTCGGCAGCGTTCATAAGCTGCTGGTCCAATTGGACGATGAGCCGATGAAGGTCACGATTGCCCTCGATATCTCGGATGACCATCCGTGGGAGGTTGGCGAACGGGTTGGGGTGAACTGGAACGCCAAGGATGAGGTGATCATCGGACCATGA	MERTGHILKKGLMHVIELVQIEKHFQGQAVVHPLSLSIKEGEFLTLLGPSGCGKTTILRMIAGFEQPTEGQVWLAGQNVTDMPANKRDLNLVFQHYALFPHMTVEDNIAFGLKMKKMPRQLIKERVDEAVAMTQLTALRERFPHQLSGGQQQRVAIARAIANKPKVLLLDEPLGALDLQLRKNLQSELKHLQRTLGITFVYVTHDQEEAMMLSDRIVIMNHGRVEQIGTPREIYARPQTLFAATFVGENNVFSSPEGLFAVRPEKLIPQRESGAKKSGVIEDVQYLGSVHKLLVQLDDEPMKVTIALDISDDHPWEVGERVGVNWNAKDEVIIGP	PGPT0007840_2704	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007840-potA-K11072	NA	NA
AK002_00215	849	potB	COG1176	Spermidine/putrescine transport system permease protein PotB	ATGAGGAAATCAAGGTTCCTGTTGACTCCGGTGCTGCTGTGGTTATCCCTGTTCCTGATCGTTCCGATGCTGATCGTGGTCGGCATTTCCTTTCTCTCGCGGGATTCGCTCGGGAATGTCGTGTTTTCCTTCAGTCTGGAAGGATACAAGACTTTTTTTGATCCATTATATTTGGGCATCTACTGGGATACCTTGGTACTGTCGCTGCTGACTACGGTGATCTGCTTGTTAGTCAGCTATCCTTTGGCCTATTATATAGCCAACGCTTCCCCGCGTATCCAAACCTGGGGATTGATTCTGATCACGGTTCCGTTCTGGATCAACTTTTTGATTCGAACCTATGCGTGGGTTCTGCTGCTCCGGACGCAAGGCGTGGTAAACAGCCTGCTGCTGTGGGCGGGATGGATCGACGAGCCGATTCAGATGCTGTATACGTACGGCGCCGTACTGCTCGGGATGGTGTATAACTTCATTCCGTTCATGGTGCTGCCGATTTACGTGGCCTTGGAGCAGATGGACAAACGTCTGCTGGATGCGGCTAGCGATCTGGGCGCTTCCAGATGGAAGGCATTCCGTCATATTACCTTGCCTCAGAGCAAGTCTGGCATCATGACGGGTGCGGTTCTGGTCTATGTATCGACTTCGGGGATGTTTGTCGTTACGGATATATTGGGAGGCGCCAAGTCCTCCATGATCAGCAATATCATTCAGCAGCAGTTCCTGGGTGCGCGCAACTGGCCCTTTGGAGCGGCGTTATCGGTTATTTTTGTGATTACGTCCCTGGTGCTGATCCTGCTCTTTAACCGGGCGATGCAAGCCCGCCATCAACGCGTAGGGGAGGGGAGATAA	MRKSRFLLTPVLLWLSLFLIVPMLIVVGISFLSRDSLGNVVFSFSLEGYKTFFDPLYLGIYWDTLVLSLLTTVICLLVSYPLAYYIANASPRIQTWGLILITVPFWINFLIRTYAWVLLLRTQGVVNSLLLWAGWIDEPIQMLYTYGAVLLGMVYNFIPFMVLPIYVALEQMDKRLLDAASDLGASRWKAFRHITLPQSKSGIMTGAVLVYVSTSGMFVVTDILGGAKSSMISNIIQQQFLGARNWPFGAALSVIFVITSLVLILLFNRAMQARHQRVGEGR	PGPT0007835_1852	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007835-potB-K11071	NA	NA
AK002_00216	807	ydcV		Inner membrane ABC transporter permease protein YdcV	GTGAAAAAGAAGAATCACCCGCTGCTCGGGATTCACTCTTTCCTTATGATGGCTTTCATCTATGTACCCATCGTCATGATTATCATCTATTCCTTTAACGATACGCGGCTTAGCGGCAATTGGGAAGGCTTTACGATGGATTGGTATGTGTCGCTATTCCAGAATCGGCACGTGATGGAAGCGCTGATGAACAGTTTGACGGTGGCCGTCATCTCGACGATCGTTTCCACCCTGCTCGGGACCGCAGCGGCGCTCTCGCTTCGGAATTTGGGGCGTAAAGGCCGCAGCGGCATGAATGGCCTGCTGTATCTGCCGGTCATCATCCCGGATATTATTATGGGGCTGTCGCTGCTGGTGCTGTTCAGTCAACTGAACATGCCGCTTGGCAAGACAACGGTGATCATCGCCCATATCACGTTCAGCTTGTCGTATGTGTATGTTGTGGTAACGGCCCGACTGTCGGGGATGGGCAAACAGCTCGACGAGGCTGCCCAGGATTTGGGCGCCACGCCTTGGCAAACATTCCGGCACGTCACGCTGCCGCAGATTGCACCGGGCATTATCTCCGGCGCATTGATTGCTTTCACGCTGTCGCTGGACGATTTTATGGTTAGCTTTTTCGTCGCCGGCCCAAGCTCAACAACGCTGCCGATCTATATATACGCTCAGGTGAAGCGCGGCATCTCGCCAGAGATCAACGCGCTGTGCACGTTGCTCATACTGGTCAGCATCACGCTGATCCTGTTAGCCCAATATATTCTTAACCGCGGCAATGGGCAGAAGAAACACAAAACATTACCGATCTAA	MKKKNHPLLGIHSFLMMAFIYVPIVMIIIYSFNDTRLSGNWEGFTMDWYVSLFQNRHVMEALMNSLTVAVISTIVSTLLGTAAALSLRNLGRKGRSGMNGLLYLPVIIPDIIMGLSLLVLFSQLNMPLGKTTVIIAHITFSLSYVYVVVTARLSGMGKQLDEAAQDLGATPWQTFRHVTLPQIAPGIISGALIAFTLSLDDFMVSFFVAGPSSTTLPIYIYAQVKRGISPEINALCTLLILVSITLILLAQYILNRGNGQKKHKTLPI	PGPT0007830_1289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007830-potC-K11070	NA	NA
AK002_00217	1053	potD	COG0687	Spermidine/putrescine-binding periplasmic protein	TTGAAAAAATCAAGATGGACCCGCCTGCTGACGGCAGGCATGGTTGCGGTATTGTCTGTAGGACTGCTGGCCGGCTGCGGCTCGGATAAGGAGACGCTTCATATTTACAGCTGGGCGGATAACTTCGATCCCGAGGTGCTGAAGGACTTTGAGGAGAAGTTCGACGTGAAGGTAACCTACGACAACTACGCGAACAATGAAGACCTGCTGGCTAAAATCAAGGCTGGCGGCAGCGGTTATGACCTCATTCAGCCGTCCGATTATATGGTCAAAACGATGATTGAATCGGAGCTGCTTGAGCCGCTTGACATGAATAATATCCCGAACTTCGTCAATATTACGGATACTTTCAAAGATCCGTCTTATGACCCGGGCAATAAATATTCGATCGTTTACACGTCCGGCGTAACGGGAATTGCATATAACAAGAAGTATGTGAAGGACGAAATCAACAGCTGGGAAGACCTCTGGAATCCGGAATACAAGGGCAAAGTCCTGCTTCTGGACGACAACCGGGAAATGATCGGCATGGCGCTGAAAAAGCAGGGGAAATCCAACAGCAGCACGGATGAGGCGGAAATCACGGCTGCATCCGATGAGCTGAAGACACTGCTGCCGAATGTCCTTGCGTTTGATACGGACAATATCAAGCAGAAGATGATTCAGGAGGAAGGCTGGATTGCCACGGTTTGGTCCGGAGACGCGGCGTTCATCGCGGCGGAGAATCCGGATGTGGCGTACGTGGTGCCTGAAGAAGGAGCGACCATATTCTCGGACAACTATGCGATTCCTAAAGGTGCGAAGAATAAGGAGCTGGCCGAGAAATTCATCAACTTCATGATGGAGCCTGAAGTCAGCGCCAAAAACTATGAATTTATCGGATACAGCAATCCGAACACCAAAGCGATGGAATTCCATAGCGAGGAATACCGCGCCAATACGATGATCAACCTGACGGAAGAAGAGCTGGGCCGTACCGAGTGGCTTGATAATGTCGGTGACTCGCTCTCCGTCTATGATCGTTTATGGACCGAACTGAAGAGCGGTCGTTAG	MKKSRWTRLLTAGMVAVLSVGLLAGCGSDKETLHIYSWADNFDPEVLKDFEEKFDVKVTYDNYANNEDLLAKIKAGGSGYDLIQPSDYMVKTMIESELLEPLDMNNIPNFVNITDTFKDPSYDPGNKYSIVYTSGVTGIAYNKKYVKDEINSWEDLWNPEYKGKVLLLDDNREMIGMALKKQGKSNSSTDEAEITAASDELKTLLPNVLAFDTDNIKQKMIQEEGWIATVWSGDAAFIAAENPDVAYVVPEEGATIFSDNYAIPKGAKNKELAEKFINFMMEPEVSAKNYEFIGYSNPNTKAMEFHSEEYRANTMINLTEEELGRTEWLDNVGDSLSVYDRLWTELKSGR	PGPT0007825_2331	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007825-potD-K11069	NA	NA
AK002_00218	255			hypothetical protein	TTGAGTGATCTGACGAGCATGGGGTTTATTGCTTTGATTGTTGCAGGAATCGCGGCTGTTTTATTTCTAAATTTTTTCGGGAAAAGCGCGCTGCATCTGCTGCTGACGAGCATTCACAGTGCACTCGTTGGCATCGGCTTGATTCTTCTTGCTTACGTTGTACAAGGCAGTGAACTATTGCTGCTTGCGGGTTCAAGTGCTCTCTTGTTCGGTGTGTTTCTTAGCGCAGCGGCGTTCGTCCGGAAAGAATCATGA	MSDLTSMGFIALIVAGIAAVLFLNFFGKSALHLLLTSIHSALVGIGLILLAYVVQGSELLLLAGSSALLFGVFLSAAAFVRKES	PGPT0028785_2906	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
AK002_00219	1074			hypothetical protein	ATGAATCCTAAATTTCGTGTATGTGCATCATTAATTGCTACTAGTGTCCTGCTTGGTAGTCTTGGTTTGAGCGGACAGGTCATCGATGCAAGCGCCGCTAAGGCACCCGTTTCCGCCAGCCAAAAAACGTCGAAGAATGAAGTTGTACTGAAATGGAACGGCAAAACCTTGTCACAAAAAGGTCTAGTGCTGCATGGGGTAACTTATGTGCCAGCGACCGCTTTGCGGGATGGTCTGGGGATGCCTCTTAAATATGATTCCAAAAACCGCACGTATACACTGGGTAACGGCTATAACAAGCTGAGCGCCGCCGTGTATGCTGCAAGCGAAATCGGCATTCTGGTGAACGGTTCGTATGCCGGCGAGCCTGGCGGACAGATCATCAATGGACGTCTGTATCTGCCGTTCAAAACGATCAGCGAATACATGGGTGTTCAGGGACAGTGGAATCCTTCCTTGAAAACACTGAGCATGACACAGAAGAAGCTGAATGACATTACCATTAAATCGGTTGCGCTCAAGAAGAATATTCAGGGCGTAGACGCTGTTGTGAATTATCCTGTAATCAGCGGACTCGATAATGCGGAGGTCCAAGCCGAAATCAACAAAGTGTTGAAAGAAAATGCGTCCGGCGTAATCACCGGTGCGGAAGGAAACGCCGAGGAATTCCCGCCGTCGGAATCCAGTTTCCCTTACGAATTCAGCGGTGACTTCGTGGTCCATTACAACCAGAACGACATCCTGAGCATTACGGCGTATGATTATTCGTACACCGGCGGTGCCCATGGCATGACCTTCCGTAAAAGCTTCACGTTCTCCTTGAAGGACGGCAAGCAAATGAAGCTGGGGGATTTCATCAACATGCAGGGCAAGAACAAGCAGAAGCTGAACAACCTTGTGCTGAGCAAGATGAAGAAAGAGGGAGGTTACCTCGGCGGTTTTGAGGGAGTGCCTGCCGATGCCGACTTCTACGTGAAGGATAACGCGGCGGTGCTGTACTTCCAGCTTTATGAGTACACCGCCTATGCCTATGGATTTCCTGAGTTTGAGCTGAAGCTGAAAGAGTGGAAGTAA	MNPKFRVCASLIATSVLLGSLGLSGQVIDASAAKAPVSASQKTSKNEVVLKWNGKTLSQKGLVLHGVTYVPATALRDGLGMPLKYDSKNRTYTLGNGYNKLSAAVYAASEIGILVNGSYAGEPGGQIINGRLYLPFKTISEYMGVQGQWNPSLKTLSMTQKKLNDITIKSVALKKNIQGVDAVVNYPVISGLDNAEVQAEINKVLKENASGVITGAEGNAEEFPPSESSFPYEFSGDFVVHYNQNDILSITAYDYSYTGGAHGMTFRKSFTFSLKDGKQMKLGDFINMQGKNKQKLNNLVLSKMKKEGGYLGGFEGVPADADFYVKDNAAVLYFQLYEYTAYAYGFPEFELKLKEWK				NA	NA	NA	NA	NA
AK002_00220	597	clpP_1	COG0740	ATP-dependent Clp protease proteolytic subunit	GTGAGTTTTATACCTATGGTCGTTGAACAAAGCAACCGCGGTGAGCGGGCGTACGACATCTATTCCAGATTGCTGAAAGACCGCATTATCTTCCTCGGCTCCGACGTAAATGACGTGGTCGCCAATTCCATCATTGCCCAAATGCTGTTCTTGTCGGCTGAGGATCCCGAGAAGGATATTCATCTTTACATCAACAGCCCTGGCGGTTCCATTACCGCAGGTATGGCGATATTCGATACGATGCAGTTCATCAAACCGGACGTCTCGACGATCTGTGTCGGCATGGCTGCTTCCATGGGCGCATTCCTGCTCAACGCAGGCGCCAAAGGCAAACGCTACGGTCTGCCTAACAGCGAGATCATGATTCACCAGCCGCTCGGCGGCGCACAAGGTCAAGCCACGGATATTGAAATCCGTGCCCGCCGCATTCTGAAAATGCGCGACAAGCTGAACCGCATCCTGTCCGAACGCACCGGCCAACCGCTGGAGCGCATCGAGAAGGATACTGATCGCGACTACTTCATGACGGCTGACGAAGCCAAAGAGTATGGCCTGATCGATCAAGTACTGGAAAACACACCACCGCAAGGCTTATAA	MSFIPMVVEQSNRGERAYDIYSRLLKDRIIFLGSDVNDVVANSIIAQMLFLSAEDPEKDIHLYINSPGGSITAGMAIFDTMQFIKPDVSTICVGMAASMGAFLLNAGAKGKRYGLPNSEIMIHQPLGGAQGQATDIEIRARRILKMRDKLNRILSERTGQPLERIEKDTDRDYFMTADEAKEYGLIDQVLENTPPQGL	PGPT0014595_6793	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK002_00222	1044	cggR	COG2390	Central glycolytic genes regulator	ATGCGTAACCTATTAGAAATACAAGAGCAACTTCTGCCGGATCTGATGGACACTCTTAAACGAAGGTATACCATCCTTCATCAGATCAAGTTGTCCGGAATTGTTGGCCGAAGAACACTGGCTTCATCGCTATCGATGACCGAGCGTGTTCTCAGAGCAGAGACTGATCTTCTGAAAGCGCAAGGGCTGATCGAGATTGAAACGCTCGGCATGCGGATCAGCGGCTCAGGGATATGCTTGCTGGAGGAGTTGGAACCGGTCATGAATGAGTTGTTCGGACTGGTTGAACTGGAAGAGAAGATTCGTCAGGCTTACGGGCTTCGTAAAGTGGTCATTATTCCCGGTGACAGCGAGTCATCTCCGGAAGTCAAACGTGAGCTTGGCCGGGCCGGAGCAAGAACGCTGCTTAACTTTGTCCAGGATGGAGATACGATTGCTGTTACAGGCGGCTCCACGCTCGCCGAAGTGGCAGAGCAGATGTCCTCTTTGCCTGGCGGAGAACCGTTGACAAGCACTTGGTTTGTGCCGGCGCGAGGCGGCCTCGGGGAGAGCATGGAGATTCAAGCGAACACCATTGCTTCCAAAATGGCTAAGCGCGTTGGGGCTGAGTACCGATTGCTTCATGTACCGGATCTGCTCAGCGAGGATGCTTATCAATCGTTGGTTCAGGATCAGCACATCCAGGAGATCGTGGATGTGATCAGGCGCAGCCGCGTCATTATTCACGGCATCGGAGATGCCATGGAGATGGCCAGACGGCGCAAGCTGGATGAAGGCTCTATCCGGAACTTGCAGGCAGATGGCGCGATCGCGGAATCCTTCGGCTATTATTTCAGCGAAGATGGCGAAGTTGTCCACAAAATGCTTACCCTTGGACTCCGGCTTGAGGATATTATGCGGACGGAGACCATCATCGGCATTGCCGGAGGGCAAGGCAAGGGCAAAGCGATCCACGCGGTGCTGAAATTCGGGCACGAGGACATTCTCGTTACGGATGAAGCCGCGGCATTGGAAGTCGAGAAGGAAATTGACGCCGGCATCTGA	MRNLLEIQEQLLPDLMDTLKRRYTILHQIKLSGIVGRRTLASSLSMTERVLRAETDLLKAQGLIEIETLGMRISGSGICLLEELEPVMNELFGLVELEEKIRQAYGLRKVVIIPGDSESSPEVKRELGRAGARTLLNFVQDGDTIAVTGGSTLAEVAEQMSSLPGGEPLTSTWFVPARGGLGESMEIQANTIASKMAKRVGAEYRLLHVPDLLSEDAYQSLVQDQHIQEIVDVIRRSRVIIHGIGDAMEMARRRKLDEGSIRNLQADGAIAESFGYYFSEDGEVVHKMLTLGLRLEDIMRTETIIGIAGGQGKGKAIHAVLKFGHEDILVTDEAAALEVEKEIDAGI	PGPT0019460_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CARBON_CATEBOLITE_REGULATION,PGPT0019460-cggR-K05311	NA	NA
AK002_00223	1005	gap1	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 1	ATGGTTAAAGTAGGTATTAACGGTTTTGGACGTATTGGACGTAACGTATTCCGCGCTGCGCTGAACAACAGCGAAGTTGAAATCGTAGCAATCAACGATTTGACGGACGTAAAAACGCTGGCACACCTTTTGAAATATGACACGACTCATGGCAGACTGAATGCAACTGTTGAAGCTAAAGAAGGCGCACTCGTTGTAAACGGCCGCGAAGTGAAAGTATTCGCTGAGCGTAACCCTGAAGCATTGCCTTGGGCTGAGTACGGCGTTGAAATCGTTGTAGAATCCACTGGTATTTTCACGGCGAAAGACAAAGCTTCCGCTCACTTGAAAGGCGGCGCTAAGAAAGTTATCATCTCCGCTCCAGCTACTGACGAAGATATCACCATCGTTATGGGCGTTAACGAAGACAAATACGATGCAGCTAACCATACTGTAATCTCCAACGCATCTTGTACAACAAACTGCTTGGCTCCTTTTGCTAAAGTTCTTGACGAGAAGTTCGGTATCGTTAAAGGCATGATGACTACGGTTCACTCCTACACGAATGACCAGCAAGTGCTTGATCTTCCGCACAAAGACCTGCGTCGTGCTCGTGCAGCTGCTGAAAACATCATTCCATCCACAACAGGTGCTGCTAAAGCGGTTAGCCTCGTTCTGCCACAATTGAAAGGCAAATTGAACGGTATGGCAATGCGTGTACCTACGAAGAACGTTTCCGTAACGGACCTCGTAGTTGAGCTGTCCCAAAACGTAACCCTTGAAGATGTAAACGGAGCTCTGAAAGCAGCTGCTGAAGGCCCGCTGAAAGGCATCTTGAACTACTCCGAAGAGCCGCTTGTATCCAGCGACTACAATGGCGATCCAGCTTCTTCCACTATCGATTCGCTCTCCACTATGGTAGTTGGCGACAACATGGTGAAAGTTGTTTCTTGGTATGACAACGAGTGGGGCTACTCCAACCGTGTCGTTGACCTCGCTGCTTACATCGCAAGCAAAGGTCTGTAA	MVKVGINGFGRIGRNVFRAALNNSEVEIVAINDLTDVKTLAHLLKYDTTHGRLNATVEAKEGALVVNGREVKVFAERNPEALPWAEYGVEIVVESTGIFTAKDKASAHLKGGAKKVIISAPATDEDITIVMGVNEDKYDAANHTVISNASCTTNCLAPFAKVLDEKFGIVKGMMTTVHSYTNDQQVLDLPHKDLRRARAAAENIIPSTTGAAKAVSLVLPQLKGKLNGMAMRVPTKNVSVTDLVVELSQNVTLEDVNGALKAAAEGPLKGILNYSEEPLVSSDYNGDPASSTIDSLSTMVVGDNMVKVVSWYDNEWGYSNRVVDLAAYIASKGL	PGPT0018000_5684	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
AK002_00224	1182	pgk	COG0126	Phosphoglycerate kinase	ATGAACAAGAAAAGTGTACGTGATGTAGAAGTAAGCGGCAAACGGGTGTTTGTCCGCGTCGATTTCAATGTACCGCTCGAAGATGGTAAAATTACAGACGACACTCGTATTCGCGAGACTTTGCCGACGATTAAGTATCTGGTGGAGCAAGGAGCAAAAGTCATCCTGGCCAGCCACATGGGTCGTCCCAAAGGAGAGGTCGTAGAATCTTTGCGCCTGACTCCGGCAAGTCAGCGTCTGTCGGAACTGCTCGGCAAACCGGTAGCCAAAGCGGATGAAGCGGTAGGAGAAGCCGTTAAAGCTCAAGTCGAGAAGCTGCAAAACGGCGATGTGCTCGTACTTGAAAATGTTCGTTTTTACCCTGGTGAAGAGAAGAATGATCCAGAACTTGCGAAGCAATTCGCTGAGCTGGCCGATCTGTTCGTGAACGACGCGTTTGGTGCTGCTCACCGTGCGCACGCTTCGACAGAGGGTATTGCTCATCATCTTCCGGCCGTATCGGGATTGTTGATGGAGAAAGAGCTGTCCGTTCTCGGCAAAGCCCTTTCGAATCCGGACCGTCCTTTTACCGCCATCATCGGTGGATCCAAGGTTAAGGACAAAATCGACGTGATCGACAACCTGCTTACGCTTGCTGACAATGTCATCATCGGCGGTGGACTTGCTTACACGTTCTTCAAAGCTCAAGGCCATGAAATCGGTCAATCTCTGCTTGATAAAGAGAAGCTTGATGTGGCACTCGGTTTCATCGAAAAAGCCAAAGAGCTGGGCAAAAACTTCTACCTGCCGGAAGATATCGTCGTTACGGACGAATTCAGCGCAGACGCGAATACCAAGGTCGTTGATATCGACGGCATCCCAGCCGATTGGGAAGGCGTTGACATCGGTCCTAAGACTCGCGCCAAGTATGCAGAAGTGATCAAGAACTCCAAACTTGTCGTGTGGAACGGTCCTATGGGCGTATTCGAAATCGCTCCGTTCAGCAACGGTACTCGTGAAGTGGCACAGGCCTGTGCGGAAACGGAAGCTTACACGATTATCGGCGGCGGCGACTCGGCTGCAGCAGCGGAGAAATTCGGCCTTGCCGACAAGATGGATCACATCTCGACAGGCGGCGGTGCATCCCTTGAGTTCATGGAAGGCAAAGCACTTCCTGGTGTTGTGGCACTGAACGATAAATAG	MNKKSVRDVEVSGKRVFVRVDFNVPLEDGKITDDTRIRETLPTIKYLVEQGAKVILASHMGRPKGEVVESLRLTPASQRLSELLGKPVAKADEAVGEAVKAQVEKLQNGDVLVLENVRFYPGEEKNDPELAKQFAELADLFVNDAFGAAHRAHASTEGIAHHLPAVSGLLMEKELSVLGKALSNPDRPFTAIIGGSKVKDKIDVIDNLLTLADNVIIGGGLAYTFFKAQGHEIGQSLLDKEKLDVALGFIEKAKELGKNFYLPEDIVVTDEFSADANTKVVDIDGIPADWEGVDIGPKTRAKYAEVIKNSKLVVWNGPMGVFEIAPFSNGTREVAQACAETEAYTIIGGGDSAAAAEKFGLADKMDHISTGGGASLEFMEGKALPGVVALNDK	PGPT0018015_4882	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
AK002_00225	753	tpiA	COG0149	Triosephosphate isomerase	GTGAGAACACCTATCATAGCTGGTAACTGGAAAATGTTCAAAACTGTTCCGGAAGCAACTTCATTTATTGAAGATGTGAAGGGCAAAGCGGAAGTAGAAGGCGTGGAAAGCGTGATCTGCGCGCCGTTTACCAATCTTCCTGCATTGGTTGAAGCGGCAAAGGGCACGAATATCAAAATCGGTGCACAAAATCTTCATTTCGAAGACAATGGCGCCTTTACGGGTGAAATCAGCGGCTTGATGCTGAAAGACCTGGGCGTGGACTACGTCATTATTGGACATTCCGAGCGCCGTCAGTATTTTGCTGAAACCGATGAGATCGTGAACAAGAAGGTACATGCGGCATTCCGTCATGGTCTTCTTCCGATCGTATGCGTTGGCGAGAAGCTGGAAGAACGCGAAGCCGGCCAAACCAAAGACGTGTGCAAAGTACAAACAGAAGCAGCGTTCGCAGGTGTTCCTGCTGATCAAGCGGTTCATGTCGTTATTGCTTACGAGCCAATCTGGGCAATCGGAACGGGCAAATCCTCCACGGCAGAGGATGCGAATGAAGTCATCGCCTATATTCGCGAACTCGTTAAAGGCCTGTACGGCGAAACCGTTGCAGACCAAGTTCGCATTCAATACGGCGGCAGCGTGAAGCCTGAAAATGTAGCGGAGTATATGGGACAAAGCGACATCGACGGCGCGCTCGTTGGTGGTGCAAGTCTACAACCGGCTTCCTACATCGCACTCGTTGAGGGGGCGAAGTAA	MRTPIIAGNWKMFKTVPEATSFIEDVKGKAEVEGVESVICAPFTNLPALVEAAKGTNIKIGAQNLHFEDNGAFTGEISGLMLKDLGVDYVIIGHSERRQYFAETDEIVNKKVHAAFRHGLLPIVCVGEKLEEREAGQTKDVCKVQTEAAFAGVPADQAVHVVIAYEPIWAIGTGKSSTAEDANEVIAYIRELVKGLYGETVADQVRIQYGGSVKPENVAEYMGQSDIDGALVGGASLQPASYIALVEGAK	PGPT0017995_3948	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
AK002_00226	1545	gpmI	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGTCTGCTCCAAAACCCGTAGCTCTGATCATCATGGACGGTTTCGGGCTTCGCAACACCGAGGTGGGCAATGCGGTCGCTCAAGCGAACAAGCCTAACTACGACCGGTATTTGAAGCAATATCCGAACACCACGTTGACCGCTTGCGGCGAAGCCGTAGGCTTGCCGGAAGGTCAAATGGGGAACTCCGAAGTGGGTCACTTGAACATCGGCGCAGGCCGGATCGTGTATCAGGATTTGACCCGCATCACGAAGTCGATTCGCGAAGGAGAATTCTTCGAGAACGAAACGCTGGTGGAAGCCGTTCGCGCTGCCAAGAACAACAACAAGAAGCTGCATCTGTACGGGCTGGTATCCGACGGTGGCGTTCACAGTCACATTGAGCACATGTTTGCGATGCTGGATCTTTGCAAGAAGGAAGATTTCCATGACGTATACATCCATGGTTTCATGGATGGACGCGACGTGGCACCGGACAGCGGCAAGCAGTTCGTTAAGGATCTGATTGCGAAGATTGAGGAAGTGGGCGTTGGCCAAATTGCTACGCTTTCCGGTCGTTACTACGCAATGGACCGCGACAAGCGTTGGGACCGCGTCGAGAAGGCATACCGTGCGATGGTGTACGGCGAAGGCCCTAAATATACGGATCCGCTGAAAGCCATCACCGAATCCTACGAGAAGTCGGTCTATGATGAATTCGTAGAGCCGACCGTCATGGTAAATGGCGCGGGAGAACCGGTAAGCCTGGTGGAGAGCGGAGATTCCGTCATCTTCCTGAACTACCGTCCTGACCGTGCGATCCAGCTGTCCCAAGTGTTCACGAACAAAGATTTCCGTGGTTTCGATCGCGGACCGAAATTCCCGCAAAGCTTGCATTTTGTCTGCTTGACGCTGTTCAGCGAGACGGTGGAAGGCTTCGTCGCCTACAAGCCGAAGGATCTGGACAACACGCTGGGCGAAGTGCTGGTTCAGCACAACAAGAAGCAGCTTCGCATTGCGGAAACGGAGAAGTACCCGCACGTGACGTTCTTCTTCAGCGGCGGACGCGATGTTGAGCTTCCAGGCGAAACGCGCGTATTGATCAACTCGCCGAAAGTGGCGACGTACGATCTGCAGCCGGAGATGAGCGCCTATGAGGTGGCGGATGCTTGCGTGAGAGAAATCGAAGCGGATAAGCATGATGCGATCATCTTGAATTTCGCGAACCCGGACATGGTTGGTCACTCCGGTATGCTGGAGCCTACCGTTAAAGCGGTAGAAACCACCGATGAGTGCGTTGGCAAAGTGGTGGATGCCGTTCTTGCCAAAGGCGGCGTGGTTATCATTACGGCTGACCACGGAAATGCGGACATGGTATTCGACGAGAATGGCCGTCCATTCACCGCGCATACCACGAACCCGGTTCCGTTCATCGTAACGGATGAGAACGTAACGCTGCGTGAAGGCGGTATTCTGGCCGACATCGCACCAACGATTCTTGATCTGATGGGGCTGCCGAAGCCTGACGAGATGACGGGAACCTCCATGATTGCAGCACGTAAATAA	MSAPKPVALIIMDGFGLRNTEVGNAVAQANKPNYDRYLKQYPNTTLTACGEAVGLPEGQMGNSEVGHLNIGAGRIVYQDLTRITKSIREGEFFENETLVEAVRAAKNNNKKLHLYGLVSDGGVHSHIEHMFAMLDLCKKEDFHDVYIHGFMDGRDVAPDSGKQFVKDLIAKIEEVGVGQIATLSGRYYAMDRDKRWDRVEKAYRAMVYGEGPKYTDPLKAITESYEKSVYDEFVEPTVMVNGAGEPVSLVESGDSVIFLNYRPDRAIQLSQVFTNKDFRGFDRGPKFPQSLHFVCLTLFSETVEGFVAYKPKDLDNTLGEVLVQHNKKQLRIAETEKYPHVTFFFSGGRDVELPGETRVLINSPKVATYDLQPEMSAYEVADACVREIEADKHDAIILNFANPDMVGHSGMLEPTVKAVETTDECVGKVVDAVLAKGGVVIITADHGNADMVFDENGRPFTAHTTNPVPFIVTDENVTLREGGILADIAPTILDLMGLPKPDEMTGTSMIAARK	PGPT0018040_1393	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
AK002_00227	1290	eno	COG0148	Enolase	ATGACTATTATTTCTGATGTATATGCACGCGAAGTCCTTGACTCCCGCGGCAATCCAACCGTAGAGGTTGAAGTATACCTGGAATCCGGTGCAATCGGTCGCGCTATCGTTCCATCCGGTGCTTCCACTGGCGTTCACGAAGCTGTTGAGCTTCGCGACGACGACAAATCCCGTTACCTGGGCAAAGGCGTTCTGAAAGCCGTTGAGAACGTGAACGAAATCATCGCTCCTGAAGTGATCGGCATGGACGCTCTGGACCAGCTCGGCATCGACAAGCTGATGATCGCTTTGGACGGTACGCCAAACAAAGGCAAATTGGGTGCGAACGCCATCTTGGCCGTATCCATGGCTGTAGCTCGCGCTGCTGCTGATGCTTTGGATCTTCCGCTGTATGTATACCTTGGCGGATTCAACGCCAAACAACTTCCAGTACCTATGATGAACATCGTGAACGGTGGCGCTCACGCGGACAACAACGTTGACGTACAAGAATTCATGGTATTGCCTGTTGGTGCACCTAGCTTCAAAGAAGCTCTTCGCATGGGCGCTGAAATCTTCCACAACCTGAAATCCGTTCTGAAGGGCAAAGGCCTGAACACGGCGGTTGGTGACGAAGGCGGCTTCGCTCCTAACTTCACGTCCAACGAAGATGCACTGTCTTCCATCATCGAAGCGATCGAAAAAGCCGGCTACAAGCCAGGCGAAGATGTATTGCTGGGTATGGACGTTGCTTCCACCGAGTTCTTCAAGGATGGCAAGTATGTTCTGGAAGGCGAAGGCAAATCCTTCACGCCGGCAGAATTCGTTGACCTGCTCGCTTCTTGGGTAGACAAATACCCGATCGTAACCATCGAAGACGGATGCTCCGAGGACGATTGGGAAGGTTGGAAATTGCTCACCGAGAAATTGGGTAACAAAATTCAGCTCGTGGGCGACGACCTGTTCGTTACGAACACGGAGCGTCTGGAAAAAGGCATCAACGAAGGCATCGGCAACTCCATCCTGATCAAAGTAAACCAAATCGGTACATTGACTGAAACTTTCGATGCGATCGAAATGGCAAAACGCGCAGGATACACGGCTGTCATCTCCCACCGTTCCGGTGAGTCCGAGGACAGCACGATTGCTGATATCGCAGTGGCTACTAACGCAGGTCAGATCAAAACGGGTGCTCCTTCCCGTACCGACCGTGTGGCGAAATACAACCAATTGCTTCGCATCGAAGACCAATTGGGCGAGCTTGCTCAATACAACGGCTTGAAGTCGTTCTACAACCTGAAGCAAAAATAA	MTIISDVYAREVLDSRGNPTVEVEVYLESGAIGRAIVPSGASTGVHEAVELRDDDKSRYLGKGVLKAVENVNEIIAPEVIGMDALDQLGIDKLMIALDGTPNKGKLGANAILAVSMAVARAAADALDLPLYVYLGGFNAKQLPVPMMNIVNGGAHADNNVDVQEFMVLPVGAPSFKEALRMGAEIFHNLKSVLKGKGLNTAVGDEGGFAPNFTSNEDALSSIIEAIEKAGYKPGEDVLLGMDVASTEFFKDGKYVLEGEGKSFTPAEFVDLLASWVDKYPIVTIEDGCSEDDWEGWKLLTEKLGNKIQLVGDDLFVTNTERLEKGINEGIGNSILIKVNQIGTLTETFDAIEMAKRAGYTAVISHRSGESEDSTIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLGELAQYNGLKSFYNLKQK	PGPT0018050_3595	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
AK002_00228	1851			hypothetical protein	ATGAAACGATCACTCCAACGATCGAGAAAATGGCTGATTCTGCCTGCGGCTATGCTGATCGCGGCAGTCTTATCGGTCCCCGATGCCCATGCAGCTGACGTTCAGCAGCTGACGGGAGATCGAACGAAGCAGGATATCCTGAATAAATGGCAGCAGTTCAAACCCATGGATACTGGCACATCCTACATGGGGCCTGAACGAATTTACATGGAATCGCCAAACGTCGCCGTACCCTATAAGGCAGGGACGATAAAACCGGAATATATCGAGGACGGCCTTCGCGCCGTCAACTTTGTAAGATACCTATCCGGCCTGCCCGATGACGTGACAGCCAACCCTTCGCTTGCAGGGCAGCAGCAGGCGGCAGCGCTAGTAAACGCTCTGCATCAAAAGCTGAGCCATTATCCAACCATGCCGGAAGGCATGGACGATTCGCTGTATACTTCAGCGAAGGAAGGAGCGAGGACAAGCAACCTTTACGGGGGCAGCCCGACCTTTTATGACAATGTTCTTGGTTATATGGCGGATAGCGGGGCTACGAATATCGACCGCGTCGGACACCGCCGGTGGATCATCAATCCGGAGATGAAACAGACCATGTTCGGCATGGTACATAACGCCAACAACGTAGCCTATGCGTCGATGTACTCGATGGACAAGGGCCGCCCGGCTTCCGAAGTTCAGTATGATTACATCGCCTGGCCGTCTGCAGGATATTTTCCGGAAGAGGTTTTTAAGACAAACGATCCATGGTCGGTGTCGTTGAACCCGCAAAAGTATGACCGGACAAGAACGGATCAGATTCAAGTGAAATTGACCCGTGTCAGGGACGGGAAAGAGTGGAGCTTTGACAAAAGCGACAACGATAAATCGGGCAAATATTTCAATGTGCAGACCAGCTATTACGGCGTGCCGTTTGCCGTCATTTTCAGGCCTGACGGCATAGGCGATTTTGCGCCGGACGATGCCTTCACCGTTCAGATCACGGGTCTATATAGCGCTTCCGGAAGCGCGGCACAGGTTGAGTTCACCACGACGTTTTTCAAAATGATGCCTGGTTTATTGGCCCGCTACGATATTCAGCTTCAAAAAGGGGAAACCCTTCAAATGGGCCTTACCGACGGACTGCAGACCAGCGGCAATACGTTCAAAAGCGGAGATAACCGGATCGTTGAGATTGATGCAAACGGCAAGGTCAAAGCCGTAGGCAAGGGATCGACATGGATCTCAGCCAATGATTATCTGGGGGCGAGAAGCCTTGTCTACGTTAACGTGAATGATGGTCCGGCTGATGGCAAAGTGAGCAACTGGGCTCAAGCGGATTACATGAAGGCAAAAGCCAATGGCATTATCGGCTGGCCGTTTGACCGATCCTACCAGCAGCCGATCACCAGAGTGGAGTTTACGGAGATGGCGGTACATATGATCGAAACCATGCTGGGACAGGATCTTTATATGGATGTCTCTGGCGTTAAGACCCCGTTTAAGGACGTCGATGATTGGACCGTGACGTGGGCAAGCCAAAATGGTATCATCAACGGCACATCGCCGCAATCCTTCTCGCCGCGAGCGACCATCACCAGGGAACAGGCCGCCGCGCTGATCCTTCAGGTGTATGCCAAGACGAATGAATTGAAAGGCAGACTGGTATCAACCGGATCCGTTTCGGCTTCTCGGTTCGCGGACGATAGCAGCATCTCGCCATGGGCGAAGGAACAAGTATACCAAGCGATAAACCTCTCTTTAATGAACGGCATGGCCAAGAATCAGTTCAACCCGAAAGGCGAGCTCACTTTCGAGCAGACCTATGTGCTGTTGTTAAATTGCTTTGAAATGCTGATGGAAAAGTAA	MKRSLQRSRKWLILPAAMLIAAVLSVPDAHAADVQQLTGDRTKQDILNKWQQFKPMDTGTSYMGPERIYMESPNVAVPYKAGTIKPEYIEDGLRAVNFVRYLSGLPDDVTANPSLAGQQQAAALVNALHQKLSHYPTMPEGMDDSLYTSAKEGARTSNLYGGSPTFYDNVLGYMADSGATNIDRVGHRRWIINPEMKQTMFGMVHNANNVAYASMYSMDKGRPASEVQYDYIAWPSAGYFPEEVFKTNDPWSVSLNPQKYDRTRTDQIQVKLTRVRDGKEWSFDKSDNDKSGKYFNVQTSYYGVPFAVIFRPDGIGDFAPDDAFTVQITGLYSASGSAAQVEFTTTFFKMMPGLLARYDIQLQKGETLQMGLTDGLQTSGNTFKSGDNRIVEIDANGKVKAVGKGSTWISANDYLGARSLVYVNVNDGPADGKVSNWAQADYMKAKANGIIGWPFDRSYQQPITRVEFTEMAVHMIETMLGQDLYMDVSGVKTPFKDVDDWTVTWASQNGIINGTSPQSFSPRATITREQAAALILQVYAKTNELKGRLVSTGSVSASRFADDSSISPWAKEQVYQAINLSLMNGMAKNQFNPKGELTFEQTYVLLLNCFEMLMEK				NA	NA	NA	NA	NA
AK002_00229	1785			hypothetical protein	GTGCTGAACCGAATACGATCCCTGTTTCCACACAAGCTGAAATACCGTCTGTTTGCCGCGTTCGTCCTGGTCATATTGCTGCCTTTCGGCATTTTGAATTTGTACAACTACCAGCGGATCGAGACCTTGGTCCAGGAGAAAATCAGCCAGCAGAGCCACAGCCAGCTGGAGCAGATGTATCGAACGCTGGAGGACCAGTTGAGCGTAGCCTTCAAAACGCTGATATTTCTGGAGCAGGATTCGACGGTGGCCTCCGTGCTGACCCATCCCGGGCAGCGGCAGGGACTCGAGAACAAAAACCTGATGGAGGAGAAGTTCAAAAATTTGAACAACAGCTTTTTCCTATATAATCCGTCGGTCTACTTCACGATTCTCGACTTTCATGGCAACGCTTACACTTCTTATTCTCCCAGGGAGGCGCTCGATTACAGGAAGCTGCGGGACAACCCTGGCTTTGATCGGGAACAGATGGAGGGCGTGTCGTATCATTGGGTTTCGAGCGACGCGAACTACGTGCTGCGGGATATCTCGACGAGTCCTTACCTGCTGTCACTGTACGCTTACATGGAAACCCCCCGCAACAAGCCGTACGGCATGGCCCGGATCAGCATCGATTACTCCTTTTGGTTTCAATCGGTCTTGAAGCAGTCGACGCTGCGCCAGGAATATTTCTTGATTACGAGCGCCGGCGAGAACGTGTCCCAATCGATTTTGAACAGCAGTCTGACCGGCGAGGTGAAAGCCAGGATTGCGGCCGAGCCCAGGCAGAAGTATTTTATCGATAAAACCTCCAACACCCTGGTGAATTACATTTACGTGGAATCGCTGGATTGGTATATCGTGAACCGGATTCCGCTAACGGTGCTCTTTAACGAGATCGAGGAGCTGAAGCGCCAATATTTCATGACCTTTTTCCTGCTGACCGGCGCTTTTCTCATCATGACCTTCATTATTGCCGCCACGATTACCCGGCCGTTATCCCATTTGCAGAATAAGATGAAGGCGGTTGTCCGCAACAATCTAAAAATCCGGCTGCCGGAGCACAAGTTCCGGGGCGAGATTCTGGAGCTGACGCAGACGTTCAATTCCATGCTCAACGACATGGATGTGCTGATTCAGCGATTGAAGGCCGAGGAAAGGCAGAAGGAAGCAGTGCATTTTCATATGCTGCTGGCTCAGATGAACCCGCATTTTCTGCTCAACACGCTAAATACGGTCAAGTGGAGTGCCATTCGCCATGGGAATGAGGATATCACGAATATCACCCTGTCTCTGGGCAAGCTGCTGGAGGCGAGCCTGAATACGGAGAAGGATCTGGTGCACCTGAAGGATGAAATCGAGCTGGTGCAGGCCTATGTCCATATTCAGCAGGTGCGTTATAATCACCGTTTTGACGTGACCTTTGCGTATGATGAGGACATCCTCTATGCGCTTGTGCCCAAGCTCTGTCTGCAGCCGCTCGTGGAGAATGCCATCCTACACGGAATCGGGCCGCTGCCGGAACAGGAGGGTCTCATTGAAATTACGGTTACCCGGGAGGGACCCAATCGATTGGCGGTGGAGATCAAGGACAACGGCGTCGGCATGGAGCAGTCCCGGCAGGCGGGCGGAATGCGTAAACGTCCGGGCATCGGTCTTAACAATGTGCAAGAGCTGCTGCGGCTGTTATTTAAAGAAGAGGGCAGCATGGAGATTATTTCTTCGGAGCGGGGAACGCGGATTCGATTTTCTATCCCGTTGTTAATCTCAACGCCTTATCAGAACGATCACTTGATTTCATCATAA	MLNRIRSLFPHKLKYRLFAAFVLVILLPFGILNLYNYQRIETLVQEKISQQSHSQLEQMYRTLEDQLSVAFKTLIFLEQDSTVASVLTHPGQRQGLENKNLMEEKFKNLNNSFFLYNPSVYFTILDFHGNAYTSYSPREALDYRKLRDNPGFDREQMEGVSYHWVSSDANYVLRDISTSPYLLSLYAYMETPRNKPYGMARISIDYSFWFQSVLKQSTLRQEYFLITSAGENVSQSILNSSLTGEVKARIAAEPRQKYFIDKTSNTLVNYIYVESLDWYIVNRIPLTVLFNEIEELKRQYFMTFFLLTGAFLIMTFIIAATITRPLSHLQNKMKAVVRNNLKIRLPEHKFRGEILELTQTFNSMLNDMDVLIQRLKAEERQKEAVHFHMLLAQMNPHFLLNTLNTVKWSAIRHGNEDITNITLSLGKLLEASLNTEKDLVHLKDEIELVQAYVHIQQVRYNHRFDVTFAYDEDILYALVPKLCLQPLVENAILHGIGPLPEQEGLIEITVTREGPNRLAVEIKDNGVGMEQSRQAGGMRKRPGIGLNNVQELLRLLFKEEGSMEIISSERGTRIRFSIPLLISTPYQNDHLISS				NA	NA	NA	NA	NA
AK002_00230	807		COG4753	putative response regulatory protein	ATGTGGAAGGTGCTGCTGGTGGAGGACGAGGTATTTGTGCGAGAGTCCGTGCGCGAGATCATCGCGTGGGAGGAGCTTGGATTCAAGGTGGCGGGAGAGGCAGGCAACGGCGCCGAGGCGCTGGAGATGATCCGGAGCAATCCGCCCGATCTCGTGCTGACCGATATCGTGATGCCGGAAATGGATGGTGTGGAGCTCCTCCGCAGAACCCGGGAAGAGGGATACGCTTCTCGGTTCGTGATGCTGACCTGTATGAGTGAATTCGAGTATGTCCGGCAAGCGATGGAATACGGGGCATCCAACTATATCCTGAAGCTGTCGATGAGCGTGAATACGCTGCGGGAGACGCTGCACAAAATGAATGCCGAGCTGACCAAGAGTAACCCGAACCCAAGCCAACCTGTTTCGATTCCGGTCGCGTCCACGGAGACGATGCCGTCACAGTCGGCGCATCATGCCTCCCCCGAGGAAATCACATCACACCCGGAAGTACAGAAAATATTGCAGTACATCCATGAGCACTACGAGCAGGACATTACGGTAAAATCGATGTCGGGCTACGTGATGATGGGTGAGAATTACGTCAGCGCGCTCTTCAAGAAAAAGACCGGACGCACCTTGATTCATTATTTGCACCAGGTCCGGGTGGATAAAGCCATCGCGTATTTGCTTCAAACCGACCTCCCTGTTCACGAGATCGGCCTTCGGGTGGGGTTCGTGAACGACAATTATTTTATAAAAATATTCAAGCGGTTGACCGGCTTCACGCCGAGCAAATACAGGCAACACAACAAAGACGCTAAATAG	MWKVLLVEDEVFVRESVREIIAWEELGFKVAGEAGNGAEALEMIRSNPPDLVLTDIVMPEMDGVELLRRTREEGYASRFVMLTCMSEFEYVRQAMEYGASNYILKLSMSVNTLRETLHKMNAELTKSNPNPSQPVSIPVASTETMPSQSAHHASPEEITSHPEVQKILQYIHEHYEQDITVKSMSGYVMMGENYVSALFKKKTGRTLIHYLHQVRVDKAIAYLLQTDLPVHEIGLRVGFVNDNYFIKIFKRLTGFTPSKYRQHNKDAK				NA	NA	NA	NA	NA
AK002_00231	1332			hypothetical protein	GTGAAAAATAAAAAAGGATGGGCGATGCTTCTCATCGGTGTATTGCTAATGGGTCTTCTTGCAGGCTGCGGCGGCAAAACAGCGTCATCCGCGAATGAGGGACAAGGAACGGACAATTCGAAAGCGCCTTCATCCGGCGATCCGGTCAAACTAACCATGTGGGGCGGCGTACCGCCGGAGGCGGGACCGCAAGAGGTCATCGACGCGTGGAATGCCGAGCATCCCGATATTCAAGTCGAGTATGTCCGCTACGTCAATGACGATGACGGGAACCTGAAGCTCGATACAGCCATGATTACGGGGCAGGATGTTGACCTGTTCGTGAATTACACGCTTTCTCAAACGTCCAAACGGGTGGAGTCCAACCTGGCCTTGGATCTGAGCCAGTTCGACGATTACAATATCGACGAGAAAATGGGGCCTGACGCCGAAGGCTGGAAAATCAACGGGAAGTATTACGGGATGCCGACCACGAAAAGCGCCTTCTTCGTCGCGCTGAACAAGGATGCCCTTGATGCGGCCGGCCTGCCCGTTCCGAAGGACTGGACGTGGGATGAACTGCGCGAATATGCCAAGAAGCTCAAAGTCGGCAATAACTACGGATTTATTCAAAATATGGAGCCGTTCGTCGATCCGATTGATTCGGTGTTATCGCAAGAGGGGTACACCAAGGCGGACGGAACTTCGAATCTGGACCACCCGCTGGTCAAAAAATGGCTGGAAACCCTGAACGTCATGATGAAGGAGGACAAGACCACGCCGCCGCTCGGAGAGCAGCTGACTTCCAAAATGCCGGTGGAGCAAGTGTTCCTGAGCGGGGAAGTGCCTATGCTGAATATCGGGGCTTGGCTGCTGCGAAGCTCGAATAACTTTACGGATTTTCCGCGCGACTTCACCATCGCGTTCGCCCAAGTGCCGAGATTAACGGACAGTGCGGACAGCTACGTGACAAGGGGCGGCCTCGGTGATTACATCTCCATTAATGCCAAATCCAAAAAACAAGCGGAAGCTTGGGAATTCCTGAAGTGGTATGCGGACGGAGGCATGGCTCCTATGGCTGCGGGCGGAAGATTGCCGGCTTCGAAAGACGCCGATCAGGATGAGGCGTTAAACAACCTGCTCGGTGATAAGAAAGACACGTATGACCTGGATTCCTTGATGCACGTCATGTTCGAAGACAAAACGCCTACGTACGTTAGGAGCTTGCCGCAAGAGGTGATGGATATGCGGGCTCAGGAGTATGAGAAGTATTTCCTTAACGCCCAATCGCTCGATCAAACGCTGGAGGCCATGGTGAACCGGCACAATACGTTTTTAAAAGAAGGCAAATAA	MKNKKGWAMLLIGVLLMGLLAGCGGKTASSANEGQGTDNSKAPSSGDPVKLTMWGGVPPEAGPQEVIDAWNAEHPDIQVEYVRYVNDDDGNLKLDTAMITGQDVDLFVNYTLSQTSKRVESNLALDLSQFDDYNIDEKMGPDAEGWKINGKYYGMPTTKSAFFVALNKDALDAAGLPVPKDWTWDELREYAKKLKVGNNYGFIQNMEPFVDPIDSVLSQEGYTKADGTSNLDHPLVKKWLETLNVMMKEDKTTPPLGEQLTSKMPVEQVFLSGEVPMLNIGAWLLRSSNNFTDFPRDFTIAFAQVPRLTDSADSYVTRGGLGDYISINAKSKKQAEAWEFLKWYADGGMAPMAAGGRLPASKDADQDEALNNLLGDKKDTYDLDSLMHVMFEDKTPTYVRSLPQEVMDMRAQEYEKYFLNAQSLDQTLEAMVNRHNTFLKEGK	PGPT0016545_4048	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00232	882	lacF_1		Lactose transport system permease protein LacF	GTGAAAACATCCTGGATGAAACGGCAGCAGTATCTCGGCTATCTGTTTATAGGGCCAAACATGGTCGGCGTGATGCTGTTTTTTATTGTGCCAGCCTTGTATTCGTTCTATCTCATGTTCACGGACTACAAATTTATGAGCTCGGACACGAAGTTCGTGGGCCTGGCCAACATTCAAAAAATGCTGGGCGACGAGGTCTTCTACATTTCGATCAAAAATACGCTGTTCTTTCTGTTATCCGTTCCTATATCGATCGGACTGGCCTTCATCGTCGCCGTGGTTCTGAACCGCTCGGTGTATTTAAAAAAGCTGCTCCGCGCCTTATATTTCATGCCTTACATCACCAGCGGCGTCGCCGTGGCTTTCGTATGGATGCTGCTGTTCCATCCGAACAACGGCCCGATCAACGGAATCCTCAAGTCGTTCGGCATAACCAATCCCCCGGGATGGCTGTCCACCATGGATTCCTCCATGTATGCCATCGACATCATCTGGATCTGGTTCATGCTCGGTTATAACATGATCATCTACCTGGCCGCGCTGCAGGAGGTCTCGACCGAACTGCTGGAGGCCGCCAAAATCGACGGGGCCCGCGCCTGGCAAACCGTTCGCAGCATCCTGTGGCCGCTCGTCAGCCCCACGACCTTCCTGCTGCTTATTACCGGACTCATTATGACCATCAAGCAGTTCGGGATCATTCAAGCCATTACGCAAGGGGGCCCGGGCAACAGCACCACCGTGCTATCTCTGTTCATATACCAGAATGCCTTCCGCTACTACGAAATGGGTTATGCATCCGCGATCTCCTGGGCGCTGTTCTTGATCATCATGATCTTCACCGTCATTCAATGGATCGGTCAGAAGCGCTGGGTTCACTATTAA	MKTSWMKRQQYLGYLFIGPNMVGVMLFFIVPALYSFYLMFTDYKFMSSDTKFVGLANIQKMLGDEVFYISIKNTLFFLLSVPISIGLAFIVAVVLNRSVYLKKLLRALYFMPYITSGVAVAFVWMLLFHPNNGPINGILKSFGITNPPGWLSTMDSSMYAIDIIWIWFMLGYNMIIYLAALQEVSTELLEAAKIDGARAWQTVRSILWPLVSPTTFLLLITGLIMTIKQFGIIQAITQGGPGNSTTVLSLFIYQNAFRYYEMGYASAISWALFLIIMIFTVIQWIGQKRWVHY	PGPT0016535_8056	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00233	828	melC_1	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGACCAAAGCCTTATACACCAAAATAATCGTCACGCTCATTATGCTGTTCTTCAGCGTGGTTATGATCGTTCCTTTCCTCTGGATGATCAGCACCTCGTTCAAGATGCCGGCGGAAGTATTCCAGTACCCGATTAAGTGGATTCCCAACCAATTCATGTGGGATCATCATGTGAAAGTGTGGACCGGAGCGAACAGCTTTGGCCACTACTACCTCAACTCGCTTAAAGTCGCCTTGATCAGCACCGTCGGAGCGGTATTGCTGTCCGCTTTAGCCGCTTACGGTTTTGCCCGGATCGAGTTCAAGGGACGGAATGCGATGTTCATGATCTATTTGTCGATGATGATGGTCCCTCCTCAAGTGCTGTTTGTGCCAAAGTTCATCATGTTCGACTGGGTCGGCATTTACAACACGCATTGGGCTCTTATATTGCCGGGCGTATTCACGATATTCGGGGTGTTCATGATGCGGCAGTTCTTCCTCTCCGTACCGTATGAAATTTCGGAAGCTGCCTTTATCGACGGAGCAGGACATTTCCGCATTTTTTCCCGGATCATTCTGCCGATGGCGAAGCCTTCGCTGGCCACGCTGGCCATTATCGATTTCTCCTGGCACTGGAACGATTACGAGAACGCCTTGGTGTTCTTGATCGATCAGGATCTGTATACCGTTCCGCTGGGGCTGCAAAATTTCATCCTCGAAAATACGGTGGATTATAACGGCATGATGGCGGCGGCGACCGCAGGGATCATTCCGATGATCCTCGTATTCCTGATCGGTCAGAAATATATCATTCAGGGCGTGGCAAGCTCGGCTGTTAAAGGATAG	MTKALYTKIIVTLIMLFFSVVMIVPFLWMISTSFKMPAEVFQYPIKWIPNQFMWDHHVKVWTGANSFGHYYLNSLKVALISTVGAVLLSALAAYGFARIEFKGRNAMFMIYLSMMMVPPQVLFVPKFIMFDWVGIYNTHWALILPGVFTIFGVFMMRQFFLSVPYEISEAAFIDGAGHFRIFSRIILPMAKPSLATLAIIDFSWHWNDYENALVFLIDQDLYTVPLGLQNFILENTVDYNGMMAAATAGIIPMILVFLIGQKYIIQGVASSAVKG	PGPT0016540_7798	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00234	2256			hypothetical protein	ATGAGAAACGAAACGGAAGTAAGCGACATAACGGTGATTGGCGGCGGTTTGGCAGGGGTCTGCGCGGCGGTGGCGGCCGCCAGGCTCGGACAAAAGGTAGCGCTCGTGCAGAACCGCCCGGTTCTGGGCGGCAACTCCAGCAGCGAGGTGCGCGTATGGGTATGCGGCGCGACGGCTCACGGGATCAACCGCTATGCCCGGGAAACCGGCATTATGGGCGAGATGTTCGTGGAGAACCAGTACCGGAATCCGGACGGCAACCCGTATCTATGGGATTTGATCATTCTGGAGACCGTGCGGGCCGAGCCGAACATCACCCTGTTCTTGAATACGGACGTGCATGAGGTAGAGGCGGACGGAGATTCTGACGCGCGGCAGATCCGATCGGTTACCGGTTGGATGATGGGCTCGGAGCGGCGCATCCGGTTTGAGAGTCCCGTATTTCTGGATTGCACGGGGGACGGGCTGGTCGGATTCTTGGCAGGAGCGAAATACCGGCTCGGGCGGGAAGCGCGCGATGAATACGGGGAAGAGTGGGCGCCGGAGACGGCGGACGATGTGACACTCGGCAGCACGCTGCTGTTCTACACGAAGGATGCCGGACACCCGGTGAAATTCGTGCCGCCCGTCTTTGCCAAGGACATTACGCAGACGCCGATCCCGATCAAGCGGGTCATCCGCAGCGGCGACTCGGGCTGCCATTATTGGTGGATCGAATGGGGCGGCGAGCTCGACACCGTGCATGACAATGAGCGGATCCGCGATGAGCTGTGGTCAGTCATATATGGCATATGGGACTATATCAAAAATTCCGGTAAGTTTGATGCCGCCAATATGACGCTGGAATGGGTCGGCGCCCAGCCGGGCAAGCGGGAATACCGCCGTTTTATCGGCGACTATGTGCTCACGCAAAACGATATTATGGCCCAAGAGCCGTTCGGGGACCGGGTCGCCTTCGGCGGCTGGTCGATCGATCTGCATCCGCCGCAGGGCATGTACGCCGAAGAGAGCGGCTCGAAGCATATGCATGCGGACGGGAATTACCATGTACCGTTCCGCAGCCTGTACTCGGCGAACGTGGTCAACCTGTTGTTCGCCGGGCGCAACATCAGCGCCACCCACGTGGCCTTCGGCACCACGCGGGTGATGGCGACCTGCGCCGTCCTGGGCGAAGCGGCCGGCACCGCTGCGGCGCTGTGCGTTCAGCACGGCCTTTCCCCGCGCGAGCTGTCCAGCAGTCGGAGCGGAGAGCTTCAGCAGACGCTGCTGAAGCAGGATGCCTCCGTGCTCGGGGTTGCGAACCGCGATCCGCTGGATCTGGCCCGAAGCGCCAAGGTCAGCGCATCGTCCCATCTGTCCAGGATCGCGATCGAGGAGGCGGAGGCGCCTTACCCGTTGGAGCGGGACATTGCCGTGCTGATGCCGGCCGATCCGGGGCTGGCGGGCGAGGTGGCATGGCTGGTGGATGCGGAGCAGGAGACCGACATGACGGTGGAGGTTTGGAGCACGGGACGTCCGGAGAATTACGTGCCGGCAGCGTTAGAATTTCGCACCTCCGTCCGGATTATGCCGGGGCAGGGACAGTGGGCCCCCGTCCAGCTGGATTGGCAGCCGGCGGAGCCGCAAAACGCTTTTATCATCGTGCGCAAAAATCCGGATCTGACGCTGTATTTGTCGTCCAAGCCGATGAGCGGGCTGCTTGCCTTCGAACGGGGGACGCCAGCCCGCGTCTCCAAGGAGCTGGAAGATCATGATGACAGCCAGCCGGTGGTGGAGTGGAGCATGAAGGGGATGGTCCGCAAGCTGTTCTGCCTGCGGTCGACGATCGGTTCAAGGGCGTATCATCCCGAGCATGTCATTGATGGATACAAGCGCCCTTACGGCGGTCCGCATATGTGGGTATCGGAGCGAATCGCAGACGGGGAGACGCCTTGGTTGAAGCTGGAGTGGGGGGAAGTGCAGACGGTCCGCGAGGTTCATCTTATCTTCAACGATGATGTCAACGAGGATCTGATCAATCTGCACCATCATCGTACGCCGTTCGAGATCATCCCTGAGCTGGTTCGTGCCTACAGATTAGAAGCCCTGGATTCGGAGGGGAAATGGATCACGCTTGCTTCGGAGGCGTCGAACCGCCGCCGGAGAACCGTGCACCGTTTGGAGGAGCCCGTTCCTTGCACGGCGCTTCGATTGGTGGTGGAGCGCACGAACGGCTCGGACTATGCCGAGGTTATTGAAGTGAGGGCTTACGGTTAG	MRNETEVSDITVIGGGLAGVCAAVAAARLGQKVALVQNRPVLGGNSSSEVRVWVCGATAHGINRYARETGIMGEMFVENQYRNPDGNPYLWDLIILETVRAEPNITLFLNTDVHEVEADGDSDARQIRSVTGWMMGSERRIRFESPVFLDCTGDGLVGFLAGAKYRLGREARDEYGEEWAPETADDVTLGSTLLFYTKDAGHPVKFVPPVFAKDITQTPIPIKRVIRSGDSGCHYWWIEWGGELDTVHDNERIRDELWSVIYGIWDYIKNSGKFDAANMTLEWVGAQPGKREYRRFIGDYVLTQNDIMAQEPFGDRVAFGGWSIDLHPPQGMYAEESGSKHMHADGNYHVPFRSLYSANVVNLLFAGRNISATHVAFGTTRVMATCAVLGEAAGTAAALCVQHGLSPRELSSSRSGELQQTLLKQDASVLGVANRDPLDLARSAKVSASSHLSRIAIEEAEAPYPLERDIAVLMPADPGLAGEVAWLVDAEQETDMTVEVWSTGRPENYVPAALEFRTSVRIMPGQGQWAPVQLDWQPAEPQNAFIIVRKNPDLTLYLSSKPMSGLLAFERGTPARVSKELEDHDDSQPVVEWSMKGMVRKLFCLRSTIGSRAYHPEHVIDGYKRPYGGPHMWVSERIADGETPWLKLEWGEVQTVREVHLIFNDDVNEDLINLHHHRTPFEIIPELVRAYRLEALDSEGKWITLASEASNRRRRTVHRLEEPVPCTALRLVVERTNGSDYAEVIEVRAYG				NA	NA	NA	NA	NA
AK002_00235	885	cynR_1		HTH-type transcriptional regulator CynR	ATGATCGCCAACACCGAATGGTATCGAGTGTTTCTGCATGCCGCCGAGACGTCCAATTTGACGAAAGCTGCACAAAACCTCCATATGACACAGCCTTCTGTGAGTTATGCCATCAAGCAGCTGGAAGAAGCGCTCGGCGTGGGCCTGTTCGACCGGTTATCCAAGGGCGTCCGCCTGACGCAAGAAGGCCAAGCCCTGTATCAGCATGTACGGCAAGCCTTTGATGAACTCGATTCAGCCGAGCGCAGCTTGAAGAAGCTGAAGCAGTTCGGCGAAGGCAGGCTGAGGATCGGCGCGAACGGGGCTATCGTTAAGGACTTTCTCCTCTCCTTGCTCGACCGATTCCATGCCCGCTATCCCGACATCCGCATTCAGCTGTCACAGGAGCGAACCAGCAGCATCGTGGAGCGTTTAAAGAAAGGCTCGTTGGATCTCGGCTTTGTTCACCTTCCCGTATCGGACGAGGAAATCCATATCATCGACTCCCGTACCTCGCCTTATTGCGCCGTGGTCGGAACGGCCTTCGCAGATTGGGCTCGCAGGCCTCTACGGACGGAAGAATTGACGGAGCTCCCCCTCTTGATGCTATCCCCCGGCAGCTCGACGCGATCCTTCATCGAAGGGTGGTTCCGATCGCACGGGGTGGAAGTGGAAGCCGACTTCGAGTTGAACAGCCTGGACATGTTAGCGGAATTTGCCGAGCGCGGTTATGGAACGGCCTTCTTGCCGCGGGCCTTTGTCTCGCCCCGCATCTCGGACGGTTCCTTGTTGGAGCTTCGAACCGACACTCCGTTACCGGATCGATATATCGGCGTCGCCGTTCGAAAGCACCAGTCGCCATCGCTGGCGGCAGGGGCATTTTTGGAGATGCTGCAGCAGAATTGA	MIANTEWYRVFLHAAETSNLTKAAQNLHMTQPSVSYAIKQLEEALGVGLFDRLSKGVRLTQEGQALYQHVRQAFDELDSAERSLKKLKQFGEGRLRIGANGAIVKDFLLSLLDRFHARYPDIRIQLSQERTSSIVERLKKGSLDLGFVHLPVSDEEIHIIDSRTSPYCAVVGTAFADWARRPLRTEELTELPLLMLSPGSSTRSFIEGWFRSHGVEVEADFELNSLDMLAEFAERGYGTAFLPRAFVSPRISDGSLLELRTDTPLPDRYIGVAVRKHQSPSLAAGAFLEMLQQN	PGPT0001160_882	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
AK002_00236	1059	aroC_1	COG0082	Chorismate synthase	ATGGCAGGAAGCACGTTTGGAGAACGATTGAAAATGACTACGTTCGGGGAATCGCACGGAGAAGCAGTCGGCGTCATTTTGGAGGGCGTCACGCCTGGCGTCGAGCTGGATGAGGCCTACATCCAGATTCAGATGGATCGCAGAAGGCCGGGGCAATCCTCCGTTACGACTCCCCGCAAGGAATACGATAAGATCCGCATTGTATCCGGACTTTTCGAGGGGCGAACCACGGGCACGCCACTGTGCATCATGCTGAACAACACCGACATGCGCCCGTCGGCATACGACACCATCAAATCGGCCTACCGGCCCGGGCACGCGGATTTCACTTATGAGAAAAAATACGGGATACGCGACTATCGAGGAAGCGGAAGAGCTTCGGGAAGGGAGACGGCTGCGCGAGTGGCAGCCGGTGCCGTGGCGCGCAAGCTTCTGGAACGCCGGGGCGTCTCGATCCTGGCCTATACGACGGAGATCGGCGGCATTCGATGCGAGCAATTCGACGTCGATGCCATCGAACGCAATGCTGTTCGGGCTTGTGATCCTGAAGCGGCCGTTCGCATGATCGAAAGGATAGAACGATTGGCCGAAGAGGGCGACAGCTGCGGGGGAATCGTCGAATGCCGTATCAGCGGAATCGCTGCGGGATTAGGAGAACCCGTATTCGACAAGCTTGACGCTGAGCTGGCAAAGGCGATGTTGTCCGTTGGAGCGATTAAGGGCATTGAATTCGGGACGGGCTTCCAAGCCGCCTCCATGCGGGGAAGTGAACATAACGACCAGATGGACTCGGAGGGGTTTCGGACGAACCATGCCGGCGGGATCATCGGCGGTATCAGCACCGGGGCGGACATCGTGTTCCGAGTCGTCGTCAAGCCGACATCCTCCATATCGATTCCCCAACGGACAGTCGATGTGGAGGGGAACGAACGGGAGATAACGACGATCGGCAGGCACGATCCATGCATCTGCCCTCGTGTCGTACCCGTAATCGAAGCGATGGCTTGCATGGTCATCGAGGATCATTACAAGCGGCAAGCCGCTTTGCATGACGAATAG	MAGSTFGERLKMTTFGESHGEAVGVILEGVTPGVELDEAYIQIQMDRRRPGQSSVTTPRKEYDKIRIVSGLFEGRTTGTPLCIMLNNTDMRPSAYDTIKSAYRPGHADFTYEKKYGIRDYRGSGRASGRETAARVAAGAVARKLLERRGVSILAYTTEIGGIRCEQFDVDAIERNAVRACDPEAAVRMIERIERLAEEGDSCGGIVECRISGIAAGLGEPVFDKLDAELAKAMLSVGAIKGIEFGTGFQAASMRGSEHNDQMDSEGFRTNHAGGIIGGISTGADIVFRVVVKPTSSISIPQRTVDVEGNEREITTIGRHDPCICPRVVPVIEAMACMVIEDHYKRQAALHDE	PGPT0012875_5028	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
AK002_00237	1125			NADH oxidase	ATGAGCAACCAAAATCAAAGCGTCCAATCTACCGCATCCCTATTCGAGCCCTATACCATCGGTAACCTTACCCTTCCTTCCCGCGTGGTGATGGCTCCCATGACCCGAGGCTTCTCCCCGAATGGCATTCCGGGCCCGGATGTTGCCGCTTACTACCGCCGGCGTGCGGAGAACGGCGTCGGATTGATCATTACCGAAGGAACGCTGATTAACCACCCGGCGGCTACCGATAACCCTAATATACCTAATTTCCATGGAGAGGCCGCATTGAACGGCTGGGCCGAGGTGGTCCGTCAGGTCCATGAAGCCGGCGGTAAGATCATGCCGCAAATTTGGCACATCGGCATGACAAGACCGCTAGGTGCCGAGCCTAACCCGGAAGCACTTCCGATCGGGCCATCCGGACTTGACCTGGACGGCAACGTCGTCACGAAACCCATGACCAAGGATGAAATCGAGCAGGTGATTCAAGCTTATGCCGATGCAGCCGCGAATGCCAAACGCCTTGGCTTTGACGGCGTAGAAATCCATGGTGCCCACGGTTACCTGATCGACCAATTCCTCTGGGAAAGAACGAACCGGCGTACCGATGAATACGGAGGCGACATGCTGAAGCGTGCCCGCTTTGCGATCGAAGTCGTAAAGGCAGTCCGTCAAGCGGTAGGTCCTGACTTCCCTGTTGCCATCCGTCTATCCCAATGGAAGACGACCCAATATGAAGCAAAGCTGGCGGATACGCCTGAAAAGCTGGGGCAGCTGTTAACCGCGCTGTCAGACGCTGGCGTCGACATATTCCACTGCTCGACCCGCCGCTTCTGGGAGCCTGAATTTGAAGGCTCTGACCTGAACTTTGCCGGATGGGCCAAGAAGCTGACTGGAAAAACGGTCATCACCGTCGGTTCCGTCGGCCTCGATGAAGTATTTACCAGCCTCTTCACCCAAGGTAAGGGTGCCGGCCAAAGAGACCTCGAAGAGCTGCTGAATCGTCTTGAGGAACATGAATTTGACCTGGTTGCCGTCGGCCGTGCTCTGCTGGCGGATCCAGAGTGGGCGGCCAAGGTTCGAGACGGGCGTTTCGACGAGCTTGCCCCATTCACGCCGGAATCCTTGCAAACCCTGGTTTAA	MSNQNQSVQSTASLFEPYTIGNLTLPSRVVMAPMTRGFSPNGIPGPDVAAYYRRRAENGVGLIITEGTLINHPAATDNPNIPNFHGEAALNGWAEVVRQVHEAGGKIMPQIWHIGMTRPLGAEPNPEALPIGPSGLDLDGNVVTKPMTKDEIEQVIQAYADAAANAKRLGFDGVEIHGAHGYLIDQFLWERTNRRTDEYGGDMLKRARFAIEVVKAVRQAVGPDFPVAIRLSQWKTTQYEAKLADTPEKLGQLLTALSDAGVDIFHCSTRRFWEPEFEGSDLNFAGWAKKLTGKTVITVGSVGLDEVFTSLFTQGKGAGQRDLEELLNRLEEHEFDLVAVGRALLADPEWAAKVRDGRFDELAPFTPESLQTLV				NA	NA	NA	NA	NA
AK002_00238	312			hypothetical protein	ATGGATACCTTACAAACCATCAAAGCACTATCAAACGAGTCCCGGTTCAAAATTCTGGAGTGGCTGAAGCACCCGGAAGAACATTTTGATCCGCAGGATCACATGCCTTCCAAATGTGATTTTCATGGCGGTATCTGCGTGGGCTCCATTTCAGAAAAAACAGGACTCGCTCAGTCGGTCGTTTCTGGCTACCTCGTCAAATTGCAAAAGGCTGGTCTACTGGAATCCCATCGAGCGGGCCAGTGGACGTATTACAGACGTAATGAGGAGGGCATTAAGCGTTTTATCGAACAACTCAAGGAAGAGCTTTAA	MDTLQTIKALSNESRFKILEWLKHPEEHFDPQDHMPSKCDFHGGICVGSISEKTGLAQSVVSGYLVKLQKAGLLESHRAGQWTYYRRNEEGIKRFIEQLKEEL				NA	NA	NA	NA	NA
AK002_00239	219			hypothetical protein	ATGCGTGACAACCCCCCTGCAGCTGCGGCCGAGAGCGACTTTCCCGTTAAGGCCGGTAATCCGGCACGGCGAGCCCTGATCGTTGCCGGCTATCATCAGCTTGCCGATCTTACCCGGGCGACGGAGAAAGAACTGCTTGCGCTTCACGGAGTTGGTCCAAAGGCGATCGGAGTATTGCGCGCCGCTTTGGCCGAGAAGGGTCTGGCCTTCAAAGAATAA	MRDNPPAAAAESDFPVKAGNPARRALIVAGYHQLADLTRATEKELLALHGVGPKAIGVLRAALAEKGLAFKE				NA	NA	NA	NA	NA
AK002_00240	1035	fpuA	COG0614	Petrobactin-binding protein FpuA	ATGCGGAGTATGAAGGGTCTTGTATTTATTGTATTGATATTTGCTGTGGTTTTAGCCGGCTGCGGCGGGGGTGCGGCATCCAATGGAGGAAGCGGTTCTACGACAGCGCAGAATTCGGATCAAGGGGCCGCACAGGGCGGGGATAACACCGAGGCCACGCCGGAGACCCGAACCATCAAGCACGCATTGGGCGAAACGAAAATTACGGGCGTTCCGAAGCGCGTGGTGGCGCTGGAGTGGCTTTACGCAGAAGATGTTCTTGCGCTGGGTGTTCAGCCTGTCGGCATTGCGGACATTGAAGGGATGAAACAGTGGGTGAACATTCCGGTAGAGATCGGTTCCGACGTAACCGATGTCGGCACTCGCCAAGAGCCGAATCTGGAGCTTATCGCTTCCTTGAAGCCGGACCTGATCATCGGTTTGAAATCCAATCTTGAAGCCGGTTTTGAAACTTACAACAACATCGCGCCAACATTGGTGTTTGATCCTTATCCGGCTGAGGGACAAGGGGATCAGTATGAAGAGATGATCAATACCTTTAATACGATTGCTGACGTGCTTGATAAAAAAGACGAAGCCGCAAACGTGCTTAGCGATTTGGATCAAACCTATGCCGATGCCAAAGCCAAGCTTGAAGCTGCGGGCATGACGGAAAAACCGTTTGCGCTGGCGATGGGGTACAGCAACCAGAATGCGGCGGTATTCCGAATATCGACGGATAATTCCCTGGCCGTAAAAATTCTTGAACACATCGGGCTGACCAACGCTCATAAGCCAGGTCAATTTGAAGTCTACGGATTCACCACTGCGGACGTCGAGGCGCTGCCGGCTCTTCAGGACGCGAATTTCCTGCACATTATCCAGGACAGTGATAACATCATCGAGAATCAATTGAAGGACAATCCGGTTTGGAAAGGCCTGAACTTTGTTAAAGAAGACCGCGTGTATGCACTTGGCGGTGACATGTGGCCTTACGGCGGCCCGTTGTCTGCCCAGACCATGGCTCAAAAGACAGCTGACCTGCTCACGCAATGA	MRSMKGLVFIVLIFAVVLAGCGGGAASNGGSGSTTAQNSDQGAAQGGDNTEATPETRTIKHALGETKITGVPKRVVALEWLYAEDVLALGVQPVGIADIEGMKQWVNIPVEIGSDVTDVGTRQEPNLELIASLKPDLIIGLKSNLEAGFETYNNIAPTLVFDPYPAEGQGDQYEEMINTFNTIADVLDKKDEAANVLSDLDQTYADAKAKLEAAGMTEKPFALAMGYSNQNAAVFRISTDNSLAVKILEHIGLTNAHKPGQFEVYGFTTADVEALPALQDANFLHIIQDSDNIIENQLKDNPVWKGLNFVKEDRVYALGGDMWPYGGPLSAQTMAQKTADLLTQ	PGPT0003330_93	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003330-fhuD-K23227	NA	NA
AK002_00241	2106	fpuB_1	COG0609	Petrobactin import system permease protein FpuB	ATGAGTTTCGGCGAGAAACCAGCTCAAGGCTCCACGCCGGTGAGCATCCATCCGGCCCCGCCTGTTGCCTCAGGTAGGGGCTGGAAGCCGTTATGGATGCTGGCTGGAGGCCTTGCGGCACTGCTATTTCTTACGTTTATCAGCTTAACGCAAGGGCTTGCGGATATATCGGTCAAAACGGTTGTGCAGGCGCTGGTGTCTCCGCAGGATATTGCAGATCACCATCTCATCCGCAGCGTGCGCCTTCCGCGAACGGTCATGGGCCTGCTGGCGGGCGCGGCCTTGGCGGTGTCCGGCGTGCTTATGCAGACCGTAACGCGCAATCCGCTTGCTTCGGAGACGACGCTTGGCGTGAATGCGGGCGCTTATTTGGCTGTCGTGGCCGGGATGATCTTCTGGCCGGGATTGCTGCACCAATATGCCCTTCCACTGGCAGTGGCAGGCGGAACGCTGGCGGCTGTAGCCGTCTATGCGCTGGCTGGCAGGACGCACGGCTCTCCCTTGCGGATTGCATTGTCCGGCATGATCGTAACCCTGGTTCTTTCGTCCGTCACGAGCGCGCTGCTGCTGTTGAATCAGCAGACAACACAGGGGATTTTACTGTGGGGTTCGGGCTCGCTGATCCAGAACGACTGGGATGGCGTAGCTTTTTCATGGCCGTGGATCATCGGCGGGTTAGTCGTGTTATGCATGGCGGTACGCCAATGGGACATTCTCACGCTCAATGAGGAATCGGCGCGCTCCCTCGGCCAAAAAGTCGGCACCACCCGCTTGCTTGCCATGGGGGCAGCTATCGTGCTGGCCTGCGTGACCGTGAGCGTTGTCGGTCCGATCGGCTTTATCGGGTTGATTGCTCCCCATTTGGTCCGCTTGTCCGGCGTAGTCCGGCATGCAGGATTAATTCCGCTGGCCGCGTTATGGGGCTCTGCTCTGCTTGTCGGGGCCGACACGGTGGCCAGGATGTTCGTGAATGCCTACGGGGAGCTTCCGGTCGGAGCCATTACGGCCATGCTCGGTGCCCCTTGCCTGATCTGGCTTGCGCTTCGGGTATCCCGCTCGTTGATCGGGGGACGCGGAGCCTCGGGAGGATCGATGATGGCGGGCACAAGCCTGCGCCGGATTCCATATCCGGTCCTGGTTGCACTGTTCAGCGTGCTGCTGGTGCTCGTCTGGGTGTTCAGTCTGGTGAGCGGCAGCTTGCGCATCCCCTTTACGGAAGTGGTGGCCGTGCTTACCGGAGGCGGCGAGGAGATGTATCGCCAGATTCTGCTGGACTTCCGCCTGCCAAGGCTGCTCACGGCCGGCTTGTCCGGCATAGCGCTGGCTGTCAGCGGCAGCCTGCTGCAGAATGCGGTCCGCAACCCGCTGGGAGATCCCCAGGTGATCGGGGTAACCAGCGGGGCTGGAGCCGGGGCGCTGCTCCTGATGGTAGGCTTCCCGCAATTGTCGGCCGGCTGGGTACCGGTCGGCGCGGTGATCGGGGGAATGGCTGCCGCTGCTTTGGTATACGCGGTGTCCTGGAAGAGAGGGCTTCACCCGACAATTCTTACGCTGGTCGGCATTGCCGTCGCCGCGCTGGGTTCGGCCATCATCAATTTGATGATTGTCCATGCAAAGGTCGACGTTGCGCCCGCTTTATCCTGGATGGCGGGGAGTACCTATAACCGGGGCTGGACGGAGGTGCAGCGGATTGTTCCGGCGATCCTCATCCTGCTGCCTTTGGCGGCATGGCTCGGACGGAAGGTGGATCTGCTGACGTTTAACGAAGAAAGCTCCACCGGACTTGGACTGAATGTGCGGAATACCCGGATGTATGTCGCCATCATTGCGGTGCTGCTGGCTTCCATAGCTGCCGCGAACGTCGGCTCGGTCGGCTTTATCGGGCTGCTTGCGCCGCATGCCGCCCGAATGCTGGTCGGTGCCCGTCATCGGCAATCGATGGTGATTGCGGCGCTGCTCGGCGGAATTCTGCTGGCCGGGGCAGACTGGATCGGCAGGGTGGTCATCATTCCGAAGGAGCTGCCTTCGGGTATCGTTACCGCGCTCCTGGGAGCACCGTATCTGTTATATTTAATGGGGAAATCCAATAAACTGAAGAAGAAATAA	MSFGEKPAQGSTPVSIHPAPPVASGRGWKPLWMLAGGLAALLFLTFISLTQGLADISVKTVVQALVSPQDIADHHLIRSVRLPRTVMGLLAGAALAVSGVLMQTVTRNPLASETTLGVNAGAYLAVVAGMIFWPGLLHQYALPLAVAGGTLAAVAVYALAGRTHGSPLRIALSGMIVTLVLSSVTSALLLLNQQTTQGILLWGSGSLIQNDWDGVAFSWPWIIGGLVVLCMAVRQWDILTLNEESARSLGQKVGTTRLLAMGAAIVLACVTVSVVGPIGFIGLIAPHLVRLSGVVRHAGLIPLAALWGSALLVGADTVARMFVNAYGELPVGAITAMLGAPCLIWLALRVSRSLIGGRGASGGSMMAGTSLRRIPYPVLVALFSVLLVLVWVFSLVSGSLRIPFTEVVAVLTGGGEEMYRQILLDFRLPRLLTAGLSGIALAVSGSLLQNAVRNPLGDPQVIGVTSGAGAGALLLMVGFPQLSAGWVPVGAVIGGMAAAALVYAVSWKRGLHPTILTLVGIAVAALGSAIINLMIVHAKVDVAPALSWMAGSTYNRGWTEVQRIVPAILILLPLAAWLGRKVDLLTFNEESSTGLGLNVRNTRMYVAIIAVLLASIAAANVGSVGFIGLLAPHAARMLVGARHRQSMVIAALLGGILLAGADWIGRVVIIPKELPSGIVTALLGAPYLLYLMGKSNKLKKK	PGPT0003320_91	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003320-fhuB-K23228	NA	NA
AK002_00242	933			hypothetical protein	ATGAACGAATCGAAGCTGGAAACCAACCGTTATCCGGCATCCCGGATCGTGGAAGTCGCCAAGGCCTTATCCAGCGATGTCCGGGTCCGCATCCTTGAAGCGCTCGGCGATAAACCGATGAGCGTCGGTCAGTTGGCGGAGGCGCTGGGGATTGCCCAGCCTACAGTGTCCATTAATGTCCAAATGCTGGAGCAAGCGGAACTGATCGTCTCTTCGCAAGGTGCGAATCGGGAAAAAATCTGCGCCGTCACCTGCCGCTCCATTCTTCTCGAGCTGCCCTCGAAGCCGGGAGAAGGGCTGCAGCGCACGGAAGAAATCCACATGCCGATCGGCATGTTTTCCCACTGCTGCATCGAGCCTACGTGCGGCATGGCGGCCCGGGACGGCTCGCTGATCGGATCGCCTGACGATCCGCGCGCCTTTTACATGCCGGAACGAACGGAGGCTGCGCTCCTCTGGTTCTCGGGGGCGGGATACATCGAATATTATTTTGCGAACCCCATGCCGCCCGGTGCGGCCCTCGATGAGCTCCGCATCCGCGCGGAGCTAAGCTCGGAAGCGCCTTCCTTCCAGCAGGAATGGCCATCCGACATCACCGTCAGCATCAACGACCTACCTGTAGGCACTTGGAGAAGCCCCGGTGATTTTGGCGACCGCAAAGGGAAGCTTACCCCGGATAAATGGAGGAGCGGCAGCGAGTACGGCATGCTGACGGAATGGCGCGTGACGAAACAAGGCAGCCAGGTCGACGGCCATGCATCCAGTGCCACGACCATTGATTCGCTGGACCTTGCTTTTAACCGGCCGATCCGCGTCCGCTTTGAGGTGAAAAAAGACGCGGAATATCCAAACGGACTGAATCTATACGGTTCGGGCTTCGGTGATCATCCGCAGGATATCATCCTGTCGTTTGTGCGCTACACGGAAGCCTGA	MNESKLETNRYPASRIVEVAKALSSDVRVRILEALGDKPMSVGQLAEALGIAQPTVSINVQMLEQAELIVSSQGANREKICAVTCRSILLELPSKPGEGLQRTEEIHMPIGMFSHCCIEPTCGMAARDGSLIGSPDDPRAFYMPERTEAALLWFSGAGYIEYYFANPMPPGAALDELRIRAELSSEAPSFQQEWPSDITVSINDLPVGTWRSPGDFGDRKGKLTPDKWRSGSEYGMLTEWRVTKQGSQVDGHASSATTIDSLDLAFNRPIRVRFEVKKDAEYPNGLNLYGSGFGDHPQDIILSFVRYTEA				NA	NA	NA	NA	NA
AK002_00243	2769	lacZ_1		Beta-galactosidase	ATGAAGATTCCTGTGGCAGCGCCCATCCGTACGGACATTCCACGTCCCGAGTATCCGAGACCGGATTTTGAACGAAAAGACTGGCTGAATTTGAACGGGCCGTGGTCGTTCACGCTCGAGACCAGCGGCGCTTTGGAGCAAGGCGGCGTGGGCTCGGAACAGTTGCAAGGGGGAGAGGCCGGTCTTTTTGATTCGGAGATCACGGTGCCGTTCTCGTGGGTCAGTCCCTTATCCGGCATTGCACGAGACGAGAAGGGAGTTGGCTGGTATCGCCGGTCCGTGAAATGGGAGCCGGCCGAGAAGCAATCGCGGATCTTCCTGCGATTCGGTGCCGTGGATTATTTGTGCGACGTATGGGTCAACGGCAAGCATGTCGGCTCGCATCAAGGCGGATACGGAACCTTCGAGTTTGAGGTGACAACCGTTTGGAATACGGAACAAGACAATGTTCTCGTGATTCGTGCAGAGGATTACGACCATAACTACCAAGCCCGCGGGAAACAGGGGTACGGCGAGATCAGAGGGATTTGGCAGCCGGTTTGGCTGGAGGCCCGGCCGAAAACCTACTTGGAGCAAGCAACCTTTACGACTTCCATGGACGGCCGCGTCGAATTGAAGTCCAAAATCCAGGCGCTGGAAGCAGGCGCCGTGACACTCGGGCTCTCGTTCGCTGGGGGCTCGATCACCCATCAGGCGGAGTGGGAGCTGCAAGAAGGCCCGAATGAAATGACAACGGTGTTCCAGGTTGACGATCCGCAGCTGTGGAGTCCTGAAACCCCGCATTTATACGAAGGGGAGCTGCGCCTGGCGGGTTCCGCCGGCGAGGATGTCGTTCATACTTATTTTGGGATACGCGAGATCGGGACGGCGAAGTTCGATGGCCGGGATTACCGCTGGATTACGTTGAACGGGAAGCCGGTTTATTTAAACGGAACGCTGGACCAGTCTTACCATCAGACGGGATTCTTCACTTACCCGACGGATACGGAGATGCGGGACGAGATTTACCTGATGAAACGGCTCGGGCTGAACTTCGTGCGGATTCATATTAAGCCGGAGGAGCCCCGCAAGCTGTATTGGGCGGATAAACTCGGGATTCTGGTGATGGAGGATATGCCGTGCTTCTGGGGCAATCCGGACGAGGCGGCGCGTTCCGCCTATGAGCGCGAGGCGCTGGAAGTGATTGAACGGGACCGGAATCATCCGTCGATTTTTTCCTGGGTTATGTTCAACGAAACTTGGGGGCTTCGCACGGATAGCGAGGCTGCCGGCCTGACAGGCGGAGAAGGACAGCAACATTATTATCTCCAGGAGACGCAGGAGTGGGTGCGGGAGAAGTACCGCTGGGCCAAGAGTGTTGACCCTACCCGAATCGTGGAGGACAATTCGCCATGCAATTATGATCATGTGGAGACAGATATCAACACTTGGCATTTTTATATCAACGGTTATGAACCGCTGCGGAATCATATCGAGGAAATTGTACAGAAGACGTATCCGGGATCGGAGCATAACTACATCGGTGGCAACCAGCAAGGCGATGCTCCGCTCATGAACAGCGAATGCGGAAATGTGTGGGGAATCGACGGGGGAGCCGGGGACAGCGATCTCGCGTGGCACTATCGTTACATGCTGAACGAATTCCGCCGCCATGATAAGCTATGCGGCTTCGTATTCACGGAATTCCGCGACGTCACGAACGAGTTCAACGGCTATTATCGGCTGGATGGGACGGATAAAAAATTCGGGTACGAGGATTTTGTGCCGGGCATGACGATCGCCGATCTGCATACGCCGGACTTTATCGTGATCGACGCGCCGCCGTGCCAGACGCTGGACCAAGGGGCTGAGAAGACCATACCGCTGCTGCGTTCCAGTTATTCAGATCGATATCACGGGCAGAAGCTGACCGTAGCCTGGGAGTTATCCTATGACCGGCTAGGCACGAAGGTCGTGGCGGATCAAGGAAGTCTGGAAGTAGCATGGAACGGCTACGGCGTGGCGCCGCTGACCGAATTGCAGCTTCGCATGCCGGAGACCGATGCGGTCGCGATCCTCGGTGTTCGTCTCCTAAATGCTGTGGGCGGCGTAGTAACGCGTAACTTTACGACGTTTGATGTGCGTGGTGCGGAGGAACAAGGGAACGATGGAGCGGATGTCACTACCTTAAGCATTCCCGTCAACTCGTTCCGTGAGCAAAGCTTTGCCTACATGTGGGAGGCGCTTCTAGGCTCCAAAGTAAACGGCGGCGGTGAAGGGCGGTTCGTCTATGACGTGCAGCTGCCGGACCAAGAGGAACAGCCGCTGATCCGCGATATCGACATTGTTTTCGAGGCAGGCGCGAAGCGCTTATTGGCAAGAAATATCGAGGGGGCGCGGCATCGCGCTCACGGTATCGACTTTATGCACGGGGCTTCGGCGGACGTGGAATATAATCCAAGCACCTATTATATGACGGATGAAGAGCTGCATGAATCCCGTGTATCGGTGTGGGTGGACGATGTCAAAATCGGCGAGGCCGTGCTCGCGGATGACCCTGCCGACAGCCGGGGCGTGCTGTCGTGGCACTATCAGCCGGTTCATAACCTTCTGGAAGAGGCCGGTTCGTACGGCTATCTGTGCCAGGCGCAGGTGCCGGGCAGACTCGCGGCAGAGCTGGACCGCAAGCGGAGCTTCCGTCTGGAGCTGCGCACCGAGGAGGGCGGCATCAGTTTGTATGGTCGGAATGCGGGCCGCTATCCGATCGATTTGCTGGTGCGGTGCCGGTGA	MKIPVAAPIRTDIPRPEYPRPDFERKDWLNLNGPWSFTLETSGALEQGGVGSEQLQGGEAGLFDSEITVPFSWVSPLSGIARDEKGVGWYRRSVKWEPAEKQSRIFLRFGAVDYLCDVWVNGKHVGSHQGGYGTFEFEVTTVWNTEQDNVLVIRAEDYDHNYQARGKQGYGEIRGIWQPVWLEARPKTYLEQATFTTSMDGRVELKSKIQALEAGAVTLGLSFAGGSITHQAEWELQEGPNEMTTVFQVDDPQLWSPETPHLYEGELRLAGSAGEDVVHTYFGIREIGTAKFDGRDYRWITLNGKPVYLNGTLDQSYHQTGFFTYPTDTEMRDEIYLMKRLGLNFVRIHIKPEEPRKLYWADKLGILVMEDMPCFWGNPDEAARSAYEREALEVIERDRNHPSIFSWVMFNETWGLRTDSEAAGLTGGEGQQHYYLQETQEWVREKYRWAKSVDPTRIVEDNSPCNYDHVETDINTWHFYINGYEPLRNHIEEIVQKTYPGSEHNYIGGNQQGDAPLMNSECGNVWGIDGGAGDSDLAWHYRYMLNEFRRHDKLCGFVFTEFRDVTNEFNGYYRLDGTDKKFGYEDFVPGMTIADLHTPDFIVIDAPPCQTLDQGAEKTIPLLRSSYSDRYHGQKLTVAWELSYDRLGTKVVADQGSLEVAWNGYGVAPLTELQLRMPETDAVAILGVRLLNAVGGVVTRNFTTFDVRGAEEQGNDGADVTTLSIPVNSFREQSFAYMWEALLGSKVNGGGEGRFVYDVQLPDQEEQPLIRDIDIVFEAGAKRLLARNIEGARHRAHGIDFMHGASADVEYNPSTYYMTDEELHESRVSVWVDDVKIGEAVLADDPADSRGVLSWHYQPVHNLLEEAGSYGYLCQAQVPGRLAAELDRKRSFRLELRTEEGGISLYGRNAGRYPIDLLVRCR				NA	NA	NA	NA	NA
AK002_00244	2691			hypothetical protein	ATGCACATCACGAAAGCGCTAAAGAAACCCGTCTTTGTCATGATCATGCTCATCTTCTCGCTGTCCATCATGACGACGGCATGGGCCGCACAACCGGATGCTTACGATCTTCAAGGACATTGGGCGGAGACCCGGCTGCGCAGCTGGTCCGATCAGGGCCTGCTTCAGGGCTATAACGGGAAATTCAACCCCGATCGTCCAGTAACGCGGGCCGAATTGGTAACGCTGATCAACCGTTCTTTTGAAATAACCGAACCAAGCAGCATCTCGTTTAAGGACTTGGAAGCTTCTCATTGGGCTTATGACCAAATCGCCAGAGCCGTGAAAGCAGGCTACATCGATGGATATAACGACAATACGGTACGCCCGGACCATACGGTTACTCGCGAAGAAGCCGCCGTCATGGTGGCCAAATTGACGGAGCTTGTCTCCGCCGAAACCGTGCCTGCAACCGATTTTAAGGACGACTCCTCCATTTCCAAGTGGAGTAAACCGGCGGTTTCCGCTTTGGCTGAGAAAGCCGTTATCACCGGCAGCGCCAAAGGGAACTTTAATCCGCAGGGCAAACTTACTCGCGCGGAGGCCGTTACCCTGCTCGATAAATCACTGGAGTACAAGGTTCCGACGGAAATTACATACGATAAGGCTGGGACTTACGGACCGGCTGCCGGCATCGAAACGATCAAAGGGAATGTCATCGTAGCCGCGCCGGGCGTTACCCTTCAAAATGTGGTGATCGAAGGGAATCTTACGCTGACCGAGGCCGTCGGAGAGGGTGATGCCTTCTTCAAAAAAGTAAACGTCAAAGGCACCACGACCATTCAAGGCGGCGGAGCCAACTCGGTCCACTTCGAGGACTCAGTATTGGTACGCGTATCCGTTGACAAGCAAACCGGCACCGTGCGTGTCGTTGTCGTCGGAGAATCCGCGATTCAGCATGTGGTTGTCCATTCTCCGGTCAAGCTTGAGGAATCCAGCGTGACCGACAGCGGATTCGCCAATGTGGAAATCGCGAAGAACATGCCTCAAGGCTCCGAGGTTCAGCTTGTCGGCCAATTCGAGGATGTTCGCGTGCTTTCATCGGACATCAAAGTCAGCATCCCTAGCGGGTCCGTTAAGCAGTTGAACGTGGAAGAAGGAGCAAAAAATACGGAGATCAACGTCAATGCCAATGCTTCGGTCATGGATCTCGTTCTGAACGCCGTTGCCAAACTGCTTGGTCAAGGCACCATCGCCAATGCAACGGTTAACGCGGATGCCGCCGGCTCTACATTCCAGAAGCGCCCTGGCGCGGTTGCCGGCGATGCGGCAAACACGATAACGGCACCGCCCGCAAGCGGCAGCACGACGGGCAGCGGCAATAACAGCAGCAACAATGGCGGCGGTGTGGTGGATGGCGGCTCCGGCGGAAACGGCGGCGGCAATAATGGGAGCGACCCGGGACCAGGCAACGGTGGCGGAAACGGCGGAGAACCCGTTCCTTGCACAGGAACGGCAGACCAGTGCAGAGACGCCCGTCTGGTGGATCTCACCGTATCCGGCTTCACCATGAACCAGTTGGATGCGAACGAGTACACTACGGGAGTCACCGGCTTTAGTCCGGACACGTTCGAATACAGCATCGTGACGGACCGCAGTATGACGCAACCCGTATCGGCTACGGTATCTGTCACGAAAGCGACTTACAACAAGGTAGACTATATCGTCTGGGAGGATGGAGCGAATACCTTGGCTTCCGGGACGATCACCGACGAGAATCCTGCATTCAACCTGGAGATCAAAGGCATGAAGGATGTACGGGTTCGCTTGACCGTCACGAGCGGAGACGGAATCGGCAAGAAGGTCTACGAAATTTTCATTCAATACCCAAGAACGATCCAAGAGGGTCTAAAGATTGGTTCCCACAAGGGGACGCACAGCAACAACGGAGTGCTGGTAGGGGAAAAGATGTACTACAACCTCATTAAAGGCAATGTAGGCGGAATCAAGCTGGGGGAACTGTACACGGTTCTCTTATATGAGCCGAACGCTTCCACGCCGTTCCTGACCTGCCAATATACCAGCTGTAACCTGCCGGACGGCAAATTTGCTAAGGATACCGCAGGTACCTGGAGGGTAGAGATTCTTCGCGACGGTGCGGTTGTAGACTCCGGCGATTATCAATACGATTTCATGACGGCGCCGGTGCTGAGCAACGACATCGGATTGCGGGCTTCTGCCGTTACCAAGCAGGAATTGATCGATTTCTTCTTGAGCGGAGGAAACTTCACCACGCCGTTTAAGTACGGTTATCTCGTCTACGCGGACATGTCCAAGCTTCGCGCCGAGTTTCCGACAGCCAAATTCTTCGTGGAAGGGTCGTATGAGATGTACATGCCGACATCCTCGCTCCCTTCGGGATTGAGCGTAGACGAATTGAAGGGCAATTTGCAGCCGTACGGTTACCAAGCTTACCAAATGAGCAGCTTGCGCCCGATTCCATCCGGTTCGGGAGAGGTACAGCTCACCGGGGGATACTACCACCAATCCGACTATGATAATGAAAAAATAGTCAACGATAAAGTCGTATACCTAAGTCTATACGATGAAAATCACAACATCATCGGTCAATACGTCACCATCCTGCAGTTTGACCAGGACCATGTTGCTGACGGTTTTACGCCGTCTGAAACCTGGCAGCCGACTCCGTAA	MHITKALKKPVFVMIMLIFSLSIMTTAWAAQPDAYDLQGHWAETRLRSWSDQGLLQGYNGKFNPDRPVTRAELVTLINRSFEITEPSSISFKDLEASHWAYDQIARAVKAGYIDGYNDNTVRPDHTVTREEAAVMVAKLTELVSAETVPATDFKDDSSISKWSKPAVSALAEKAVITGSAKGNFNPQGKLTRAEAVTLLDKSLEYKVPTEITYDKAGTYGPAAGIETIKGNVIVAAPGVTLQNVVIEGNLTLTEAVGEGDAFFKKVNVKGTTTIQGGGANSVHFEDSVLVRVSVDKQTGTVRVVVVGESAIQHVVVHSPVKLEESSVTDSGFANVEIAKNMPQGSEVQLVGQFEDVRVLSSDIKVSIPSGSVKQLNVEEGAKNTEINVNANASVMDLVLNAVAKLLGQGTIANATVNADAAGSTFQKRPGAVAGDAANTITAPPASGSTTGSGNNSSNNGGGVVDGGSGGNGGGNNGSDPGPGNGGGNGGEPVPCTGTADQCRDARLVDLTVSGFTMNQLDANEYTTGVTGFSPDTFEYSIVTDRSMTQPVSATVSVTKATYNKVDYIVWEDGANTLASGTITDENPAFNLEIKGMKDVRVRLTVTSGDGIGKKVYEIFIQYPRTIQEGLKIGSHKGTHSNNGVLVGEKMYYNLIKGNVGGIKLGELYTVLLYEPNASTPFLTCQYTSCNLPDGKFAKDTAGTWRVEILRDGAVVDSGDYQYDFMTAPVLSNDIGLRASAVTKQELIDFFLSGGNFTTPFKYGYLVYADMSKLRAEFPTAKFFVEGSYEMYMPTSSLPSGLSVDELKGNLQPYGYQAYQMSSLRPIPSGSGEVQLTGGYYHQSDYDNEKIVNDKVVYLSLYDENHNIIGQYVTILQFDQDHVADGFTPSETWQPTP				NA	NA	NA	NA	NA
AK002_00245	663			hypothetical protein	ATGAATAAATGGCTGAAAGCATTGTTATTTCTGGCGGGCGCGGCTTTTCTGACGAGGCTGATCCCCTTCTCTTCCTGGTTCCGTATCCTGGATACGATGATCCATGAGCTGGGGCATGCCGCCATGACCCTTCTCATGTCGGGCCGGGTGCTCAGCATCGAGCTGAATCCCGATCACAGCGGCGTCACCTATTCCATGCTGGCTTCCGGCGGCTGGAGTCCGATCGTGGTCTCGCTTGCTGGCTATACGTCGGCCTCCCTGTTCGCCATTCTGATGTTCTACGGCTATGCCAAGAAAAAACAGGCTACCGGCCTGATCACCATTACCGTGCTTGCCCTCATCATGATCATCTTCTTCGTTCGCGCCGGTTACGGATTATGGTGGCTTATCATATTTATGATCGTGAATCTGATCTTCTATTTCCTCGGCGATAAGGTCCGCAATTTCTATTATCTGCTGCTCGCCTTTCTCGTGCTGGAAGAATCCGTGGTCGGTCCGCTGACCCTCTTGACCATGGCGCTGACCCAGCCCAAGCAAGCGGGCGACGCGTCCAACCTGGCCAACATGACCGTGCTCCCGGCGTTCGCCTGGGCGCTGCTGTTCCTGCTGTTCTCCCTATGGTGCGCGAAGGTGGCGCTCCAGCTGTTCTGGAAGAAGCGGTAA	MNKWLKALLFLAGAAFLTRLIPFSSWFRILDTMIHELGHAAMTLLMSGRVLSIELNPDHSGVTYSMLASGGWSPIVVSLAGYTSASLFAILMFYGYAKKKQATGLITITVLALIMIIFFVRAGYGLWWLIIFMIVNLIFYFLGDKVRNFYYLLLAFLVLEESVVGPLTLLTMALTQPKQAGDASNLANMTVLPAFAWALLFLLFSLWCAKVALQLFWKKR				NA	NA	NA	NA	NA
AK002_00246	1896			hypothetical protein	ATGAAAAACGATAAGCCTAACAACGACAATCACATAGATTCGATAAGACATACTACGCACGTGACCGACCAAGGGATTCGCTTTGCCGAATTCGAGCTGGCCGGTGATGAGCAGGATATTCCACTGCCGGACAAGCGGCCGAATCATCAGGAACAGGAGATCGTTAATCCTAACGCGCAAGCGAAGAATTCCCTGATTGTGAAGCCGCAGCAGCCGCTGGACATGAATTGGGGCGAGGACTTCCGCTATGTGACCAAGGAACAGCAATTCGTGCAGAAGGCGAGGGAACTCGCATGGCATGTGGAGGATGAGGCCCCTTTCGTAGCCTTCAAAAGCTATTGGCCGACCTACGACCAGATGGCCAGCGACCAGTTCAAATGGTATTTTTACTGGCGGGAGGAAGTAAGGTCCGGGCGATATCCGGATACGGACCTTTCCTATCTTTTTGTCTATTTTTACGAGCTGATCCATGGCGTGGGCTGGAGCGATCCCCTGCAGGGCTATGCATTGATGGAGCAAGTGTGGACGGCCTACCGCAAGCGTTATGCCAAGTTGGATACGTATCTGCGGGAGTGGTTATATGATTTTATGATCGTCCATGCCCTGGATATGCCGATCCGGGAGACGTACCAGCGTTTTCCGCGCGTCCTATCCGCTGAGCTGAAGGAGAAGGAATGGAAGCGCCGATTCTCCCTCCAGCCGGTGGAGCTGACGTGGGAGCTGCTGCTCGATTTGCTGGATTATGACGTGGAGAAGAGCCGTTTTTACCAAGAGAAGGGCCGCAAGGACCTGGAACGGTACGCTCCGAAGGTGATTGCGCTCGTGGACAGCTACTTAGCCAAAATGAAGGGGCAGCGTCTTATTGACCGCTTTCAGCCGCGGCCCCGGCAGGTGAAACGGCATTTATTCCGCAGCGCGGTGTACGATCACGGGTTATACGGCCGGACCGTCGTGCTGACGGTGGTGTCCTTAAGCGAGCACGCTCCTTTGCGCTCCTATATAACCGGGCTGGTCCGCTTGACCGAGAATAAGCTGCGGGAATTGAAGGGCTTCAAGGGACGGCTGCGCGGGGCGGATGCGGTAGAACCCGAAGTGGAAGAGATCATCACCCGGTATCTAAAAAAAGAGATTCAGGAGCAGATGGAGGCCGAGCGCAAGCAGAGCCTGCCTGAGGTTCAGATCGATACAGGGAAGCTGCGCCGCTTGCAGCGGGAATCGGACCAGGTCCGCGACATGCTGCTTACGGAGGAAGCCGGGCAGCAGGAGGTTGAAGCGGAGAACAGCCAACCTGCAGCGGAAATTGTAACGGATGCGGGAGCCTCTTCGGGCTATGGGGGACATGCAGCAACTAACAGGAGAACGGATGCGTCTTCAAAGGGGCATTCCTCTCCAAAATCCGCGGCGAAGAACCCTGAAGTGTTCCAGGCCGTGATGGATTTTGATGCGATTATTTATGAAGAGACGAAAGTTCCAGAGACAGGCCAGAATGGAGCTAAGGCAGCGCTCGTTTTGACCGAGAGGGAAGAAAAGGCAATCGCTGCATCGGAGGATGAAGGAACAGCGCTCGCTGCACCCGAGAGTAAGGAACCATCCGTCCCGGCGGCTGGTAAATCATCTGAGGGTGCGGTGGTTTGGAATACGGACGGACTGGATGAGGAATGGCAGGAGCTAGGTGAGCGTCTTAACCTTATACACTTGGAGGTCCTGCACGCCCTCAAGTCCGGACCGAACCGAACGCAGCTGCAGCGGATTGCGGAGCAGGCCGGCTCCATGCCGGCGCTGCTGCTTGATGAGATCAACGAGGCCGCGATGGATACCGTCGGCGATCTGCTGATCGATGGGGAGTCCATTGCGGATGATTATATAGATATGCTGGAAACATTGAAGTCCGTATAA	MKNDKPNNDNHIDSIRHTTHVTDQGIRFAEFELAGDEQDIPLPDKRPNHQEQEIVNPNAQAKNSLIVKPQQPLDMNWGEDFRYVTKEQQFVQKARELAWHVEDEAPFVAFKSYWPTYDQMASDQFKWYFYWREEVRSGRYPDTDLSYLFVYFYELIHGVGWSDPLQGYALMEQVWTAYRKRYAKLDTYLREWLYDFMIVHALDMPIRETYQRFPRVLSAELKEKEWKRRFSLQPVELTWELLLDLLDYDVEKSRFYQEKGRKDLERYAPKVIALVDSYLAKMKGQRLIDRFQPRPRQVKRHLFRSAVYDHGLYGRTVVLTVVSLSEHAPLRSYITGLVRLTENKLRELKGFKGRLRGADAVEPEVEEIITRYLKKEIQEQMEAERKQSLPEVQIDTGKLRRLQRESDQVRDMLLTEEAGQQEVEAENSQPAAEIVTDAGASSGYGGHAATNRRTDASSKGHSSPKSAAKNPEVFQAVMDFDAIIYEETKVPETGQNGAKAALVLTEREEKAIAASEDEGTALAAPESKEPSVPAAGKSSEGAVVWNTDGLDEEWQELGERLNLIHLEVLHALKSGPNRTQLQRIAEQAGSMPALLLDEINEAAMDTVGDLLIDGESIADDYIDMLETLKSV				NA	NA	NA	NA	NA
AK002_00247	1338			hypothetical protein	ATGACGGAACTGAAAATACCGAAGCGGCTCACGACCGCCCTCGTGAACTCCTTGACGGCAGGGGTCGTGCCGCGGGTGGGGCTGGAGTTCATCGCCGTCGGCCGCAAGCCGGAGGTGGAGTCGATCCTGCGCGACATGGATAATATCGCCGAGGGCGGCGCCGCCTTCCGGCTGATTACCGGCCGCTACGGAAGCGGCAAAAGCTTCCTGCTGCAGATCATCCGCAACTACGCGATGGATCGCGATTTTGTGGTGGCGGATGCCGATCTGTCGCCGGAGCGGCGGCTTGTGGGCACGAAAGGGCAGGGCCTTGCCACATACCGCGAGCTGATGACCCATCTGTCCACGAGAACGCGTCCGGACGGAGGCGCGCTGGAGGCTATTTTGCAAAAATGGATCGCCGCGATCCAGCAGGACATCATGCAGGAGACGGGCCTGCGCCCGGATGACCCTGCGCTGAACGATAAGGTGGAAACGCAGATTTATGCCGTGACGAACGGCATGCAGAATCTGGTGCACGGTTTTGATTTTGCAAAGGTTCTCGCTGCTTACTGGAACGGCTATAAGATTGGCGACGATGACCGCAAGGGAGCGGCGCTGCGCTGGCTCCGCGGGGAAGTCCCGACGAAGACGGAGGCCCGCAAGGACCTTGGCGTCGGAGTCATTATCGATGACGACAATTGGTACGATTACATGAAGCTGTGGTCCGAATTTACGGCGGCCATCGGGTATAAGGGATTGCTGCTGTTCATTGACGAAGGGGTTAACCTCTACAAAATCACCAACAGCGTGTCCCGCCAGAGCAACTACGAGAAGCTGCTGACCATGTTCAACGACACGATGCAGGGCAAAGCGGAGCATCTGGGCATCTATATGGGCGGAACGCCGCAGTTTGTCGAGGATGAGCGACGGGGACTGTTCAGTTATGACGCGCTGCGCTCCCGCCTGATCGACGGACGCTACGGCAGCAGTTCGCTGAGAACCTACACGTCGCCTATCCTGAAGCTGGACATGCTGTCGTATGAGGAAATTCTCATCCTCCTGCAAAAGCTGCGCGACATCCATGCCCTGCATTTCAAGTATGAAGCGCAGTTGACGGACGAGCAGCTGATCGCGTTCATGCAGACGGCCGTGAATCGGCTGGGAGCTGAGGAGCTGCTAACCACCCGCGAGGTGGTGCGGGATTTCATGGATCTGCTGCATACGCTGCATCAGCATCCGGAGGCGACGTTTGAAGAGCTGCTAGGCGAGCGCGCCGCAGCGCAGCCGCAGGGCAAGGGGCAAAGCGATGCTCCTTCGGACGATCTGGACGATCTGCTGGCGGAGTTTGAGCTATGA	MTELKIPKRLTTALVNSLTAGVVPRVGLEFIAVGRKPEVESILRDMDNIAEGGAAFRLITGRYGSGKSFLLQIIRNYAMDRDFVVADADLSPERRLVGTKGQGLATYRELMTHLSTRTRPDGGALEAILQKWIAAIQQDIMQETGLRPDDPALNDKVETQIYAVTNGMQNLVHGFDFAKVLAAYWNGYKIGDDDRKGAALRWLRGEVPTKTEARKDLGVGVIIDDDNWYDYMKLWSEFTAAIGYKGLLLFIDEGVNLYKITNSVSRQSNYEKLLTMFNDTMQGKAEHLGIYMGGTPQFVEDERRGLFSYDALRSRLIDGRYGSSSLRTYTSPILKLDMLSYEEILILLQKLRDIHALHFKYEAQLTDEQLIAFMQTAVNRLGAEELLTTREVVRDFMDLLHTLHQHPEATFEELLGERAAAQPQGKGQSDAPSDDLDDLLAEFEL				NA	NA	NA	NA	NA
AK002_00248	2220	srmB		ATP-dependent RNA helicase SrmB	ATGAGAGCGAATCCTTTTTCCAGGTTGGCCCCGTTCATTCAGGAGTTTATCTATAAAAAAAGATGGGACACCCTTCGCGAGGCCCAGGTGGAAGCCTGCCGCGTCATGTTCGACACGTCCAATCATCTGCTGATCGCTTCCGGCACGGCATCGGGCAAGACCGAAGCCGCATTCTTCCCGGCGCTGACGGAGCTGTACAACATGCCTTCCAGCTCGGTCGGGATCCTGTATATCGGGCCGCTAAAGGCACTGATTAACGACCAATTCGAACGGATCACCGATCTGCTGAAGGAAGGCCAGGTGCCGGTATGGCATTGGCACGGCGACGTGTCCCAAGCCGAGAAAACGAAGCTGATGCAGAAGCCGTCGGGCGTGCTGCAGATTACGCCGGAATCGCTTGAAGGGCTGCTCATGAACCGGCCGAACGCCATCCCGGCGCTGTTCCAGGATTTGCGGTATGTCATCATTGACGAGGTTCATGCCTTCATGGGAGCCGACCGGGGCATTCAGGTGCTGAGCCAGCTGACCCGGATCGAGCGGATGGCTTCCTGTTCGCCACGCCGCATCGGGTTGTCGGCGACGCTCAGCGATTACGAGACCGCAGCCGGTTGGCTGGGCGCAGGCACGAAGCACGCGGTCGAGGTTGTCTCGCCGCAAGGGGGGCGGAAGCTGCGGCTGTCGGTCGAGCATTTCTCCTTCCCGGATGCGCGGGACGAGAAGCAGGCGGAGCAGCTGGAGCTTGCGCGCAAAGCCTACTACGATTTCGTATACGACAACACCCACCTGAAAAAAGCGCTGGTCTTCACCAACAGCCGCTCGGATGCCGAGCTGACCACGCTCGAGCTGCGGCGGATTGCGGCCAAGCGCGAGCAGCGGGATGTCTTCCATGTGCATCATGGAAGCATTTCCGCCATGCTGCGCGAGGAAGCCGAGGCCGCGCTCCGCGAAGGTCCGGGGCCGGCGGTCGCGGCGGCTACCCTGACGCTGGAGCTCGGCATCGATCTCGGCGAGCTGGAGCGGGTGATCCAGCTGGGCGCTCCGTACAGCTGCTCCAGCTTCGTTCAGCGGCTGGGCCGCTCGGGCCGGCGCGGGGATCAGGCCTCCGAGATGATGTTCCTCTGTCCGGAGGACGAGGACGAGGAGGCTATGCTGCCTGCGCGCATGCCATGGATGCTGCTCCGGGCCATTGCCGTCATTGAGCTGTATATTCGCGAGAAATGGGTCGAACCGCTGGCCCTGCGGAAGAAACCGGTCGGCGTGCTTTACCATCAGACGATGAGCACGCTCAAGAGCATGGGCGAGGCCGAGCCGCCGGATCTGGCTCGAGCGGTGCTCACGCTCCCGGCCTTCCGCGGCATCGAGCCGGAGGAATACAAGGAGTTCCTGCAGTATTTGCTCCAGACGGACCACATCCAGCGTACGGAGGAAGGCAGCCTGATCATCGGCCTTGGCGGGGAGAGAATCGTGAACAATTACCGCTTCTATGCGGTGTTTAAGGACGATGAAGAGCATGTCGTCTATAACGGGTCGGAAGAAATCGGATCGATTACGACCGTGCCGCCGCCAGGCTACTGCTTCTCGCTGGCAGGCAAGCTGTGGAAGGTAGAGGAAGTCGACACGAAGCATAAGGCCCTGTACGTGAAGTCGGCCAAGGGCAAGGTCGATACGTTGTGGCTTGGCGCAGGCGGCGATGTGCATACCCGCGTGGTGCAGAAGATGCGGGAGGTGCTCGCTGACAGCGCCATCTATCCGTACCTGGCGCCGGGTGCGGTGAATCGCCTGGAGCGGGCCCGCCGACTTGCTCGGGAGAGCGGACTGCTGAAACAGGTGGTCATACCGGCGGGCGGCGACTCCCTGTTCATTCTGCCTTGGGCGGGCAGCAAGCAGTTTCGCACGCTGGAGCGATTGCTTAAGCATAATCTGTCGGAGAGGCTGGCTCTCCGCTCTATCGTGCCGATGGAGCCGTATTACATGGTGGTCGCGGGCAAGGTCGATAACGAAACGCTGATGGAAGAAATCAAGCAGGAATTGGCGAACTGCGAGGACGCCGGCGCGCTTCTCGATCCCGACGAAGCGCCGTATCTCGGCAAATATGACGAGTTCGTCCCGCCGAAGCTCGTTCGCACCGCTTTTGCCGCCGACGGACTGGATCTGGAGGGACTGGCTGAGGCGCTGGGGATGGCACATGGTGCAGCGGGAAGGGGAGCTACGAATGAATGA	MRANPFSRLAPFIQEFIYKKRWDTLREAQVEACRVMFDTSNHLLIASGTASGKTEAAFFPALTELYNMPSSSVGILYIGPLKALINDQFERITDLLKEGQVPVWHWHGDVSQAEKTKLMQKPSGVLQITPESLEGLLMNRPNAIPALFQDLRYVIIDEVHAFMGADRGIQVLSQLTRIERMASCSPRRIGLSATLSDYETAAGWLGAGTKHAVEVVSPQGGRKLRLSVEHFSFPDARDEKQAEQLELARKAYYDFVYDNTHLKKALVFTNSRSDAELTTLELRRIAAKREQRDVFHVHHGSISAMLREEAEAALREGPGPAVAAATLTLELGIDLGELERVIQLGAPYSCSSFVQRLGRSGRRGDQASEMMFLCPEDEDEEAMLPARMPWMLLRAIAVIELYIREKWVEPLALRKKPVGVLYHQTMSTLKSMGEAEPPDLARAVLTLPAFRGIEPEEYKEFLQYLLQTDHIQRTEEGSLIIGLGGERIVNNYRFYAVFKDDEEHVVYNGSEEIGSITTVPPPGYCFSLAGKLWKVEEVDTKHKALYVKSAKGKVDTLWLGAGGDVHTRVVQKMREVLADSAIYPYLAPGAVNRLERARRLARESGLLKQVVIPAGGDSLFILPWAGSKQFRTLERLLKHNLSERLALRSIVPMEPYYMVVAGKVDNETLMEEIKQELANCEDAGALLDPDEAPYLGKYDEFVPPKLVRTAFAADGLDLEGLAEALGMAHGAAGRGATNE				NA	NA	NA	NA	NA
AK002_00249	813			hypothetical protein	ATGAATGACAAGGAAGAAATACTTCCTGGTGGCAATGTGAACGAAGTCGTACGTATCGGTAATAACGTTCATCGTACTACGAAATGGAGTTCTTTCGTGCATGACTTGCTTCGACACTTGGATAAGCAGGGGTTCGAAGGTGCCCCCAAGTTCATAGGCATTGATCATAGCGGTCGGGAGATTTTGTCTTACATTCCTGGCGAAGTGCCGGGAAACCAATATCCTGATTTTAAACCCTATATATGGTCGGACCATGCCCTTATCCAGAGTGCAGCGTTGTTACGGCGTTATCATGACGCCGTACAGGGTTTTGCTGCAACTTCAATCCAACCCGAGGTTGCACATACCTCTCAGGCTTCGGGGGAGTGGGTCGATGAAGTGATCTGTCACAATGATGCCGCGCCATACAATATCGTTTTTCAAGATGAAGTGCCGGTTGCACTGATCGATTTTGATTTGGCTGCGCCAGGTCCAAGAATCTGGGACATGGTTTATATGCTGTATACCTCAGTCCCGCTGGCAAGCTTTGCAATAGATTACACTACAGGGACATCGATACCTTATCAATCGGAATTACATGCTGCGGATCGCACGCATAGAATATCGCTGTTCCTTAAGTCCTATGGCATATCACCGCCTCCCAACTTGAAAGAATGGACTATAAGACGCCTGAAGGCATTATGCGATACACTTACAACCGGTGCGGCACAAGGAAACAAGGCTTACCAGAACATGATCGATGAGGGGCATGTGGCCCATTACGAACGAGAGATTCAATTTCTGCAGGCACACTTCGAAGAGTGGTACCGGTGA	MNDKEEILPGGNVNEVVRIGNNVHRTTKWSSFVHDLLRHLDKQGFEGAPKFIGIDHSGREILSYIPGEVPGNQYPDFKPYIWSDHALIQSAALLRRYHDAVQGFAATSIQPEVAHTSQASGEWVDEVICHNDAAPYNIVFQDEVPVALIDFDLAAPGPRIWDMVYMLYTSVPLASFAIDYTTGTSIPYQSELHAADRTHRISLFLKSYGISPPPNLKEWTIRRLKALCDTLTTGAAQGNKAYQNMIDEGHVAHYEREIQFLQAHFEEWYR				NA	NA	NA	NA	NA
AK002_00250	1020	exuR_1	COG1609	putative HTH-type transcriptional repressor ExuR	ATGGGTAAAGTAACGATCAAGGATGTGGCAAGAGAAGCCGGAGTCTCCATTTCTACGGTTTCGAATGCATTGAACGACGTAGATGTATTGAACCCGGAGACCAAATCCCATGTGCTGAAGGTGGCGGAGCGGCTCAATTACGTACCTAACCTGAACGGAAAGCTGTTGAAGTCGGGCAAGACCAAGATGCTGGGCTTTTTTACAACAAGCGTGTCAGGGCCTTACTTCTACACGTTGGTGGAGTCGATGTCACGGGAATGTGACCGTCTGGGTTATGGTTTGAACGTGTTTGTGACGAAGGATAAGCAGGTGATCATGAGCAATATTATGGGCGGCCGTGTGGACGGCGTCATTATCTTCGAAGAGCTGAAGATCGACGACAAAGACATCGCTGCCATGGAGAAGGATAAGATTAAGGCCGTATTCCTGGATCGCGAGGTTCAGAACGAAACGATGGGCAGCATCATATTCGACTCTTACGTAGCCGGTTATGAAGCAACCAAGTACCTGATCAGCCTGGGGCATAAGAAGATTGCCTACATCTCCGGCGTGGATACGATGTTTGACAGCGTGCAGCGGAAGGAAGGGTATCTGGCTGCGCTCCGGGAGTGCGGGTTCCCGGTCGACGGAGACTACATACTGCAAGGCTATTTCGAGGAAGAGGGTTCTTATAACGCCGTCAAATCGTTTCTTCACTTACACCCAGGCAAAGTGCCCGATGCTTTTCTCGCCGGTAACGACGTGAGCGCCATCGGCTGCATCCGGGCCCTGAAGTCCCACGGATACGAGGTTCCGCAAGACGTCAGCGTCGTGGGCTTCGATGATATCGATATCGCGCAGTATTTTACGCCGCCTCTATCGACCGTTCGCAACCAGATTGCCAGACAGGGGATTTTGGTCGTGGATCATCTGGTGCGCATGATTCAGAAGAAAGAGAAGGGCAAGATTCAGAAGCTGCCGGGAGAACTGGTCGTTCGCGGCTCCAGTCACGTGAAGATGAATCGGAATGAACCGGTTTAA	MGKVTIKDVAREAGVSISTVSNALNDVDVLNPETKSHVLKVAERLNYVPNLNGKLLKSGKTKMLGFFTTSVSGPYFYTLVESMSRECDRLGYGLNVFVTKDKQVIMSNIMGGRVDGVIIFEELKIDDKDIAAMEKDKIKAVFLDREVQNETMGSIIFDSYVAGYEATKYLISLGHKKIAYISGVDTMFDSVQRKEGYLAALRECGFPVDGDYILQGYFEEEGSYNAVKSFLHLHPGKVPDAFLAGNDVSAIGCIRALKSHGYEVPQDVSVVGFDDIDIAQYFTPPLSTVRNQIARQGILVVDHLVRMIQKKEKGKIQKLPGELVVRGSSHVKMNRNEPV	PGPT0017992_8833	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
AK002_00251	993	yteP_2	COG4209	putative multiple-sugar transport system permease YteP	GTGAGCAAAACAGCTGCAGCAGTTCAGTCAACCGGAAAGGGAGCGGTTCAACCCACCGGGAAGAAGCCGATGGGGCAGAGGATCAAGGAATTCTTTATTGATTACAAGCGGCAATGGGAGCTTCAATCGATGATCATTCCCGGCGTCATCTTCATGTTCATCTTCTGCTACATACCGATTTACGGTTTGACGATTGCGTTTAAAAATTACACCGTTATCGATACGCTGGATTCCGCGCCGTGGGTTGGCCTGGACAATTTCAAGATCATTATGTCGGACAAGTATTTCTGGGACTCCGTCGTCAACACGCTGGGCATCAGCTTCTTGAAACTGGCGATCGGCTTTGTCATTCCGATTATTCTGGCCATTATGATTTACGAGGTTGGCATGGGGCGCTTCAAAAAATTCGTCCAAACCGTCTCGTACCTGCCCCACTTCTTGTCCTGGATCGTATTGGGCGGCATGCTCATTACTTGGTTCTCGACATCCGGCCTGTTCAACGAAATCTTGCTTGCTCTGGGGCTGATCTCGCAGCCGCAAAACATTTTGCTTGATCCAAGCAAGTATTGGTGGATTGCAACGCTGTCGGATATTTGGAAAGAGGCCGGCTGGGGAACGATTCTGTACCTGGCGATCATGGCCAAGATCGATCCTACCTACTACGAGGCCGCAAGAATCGACGGGGCCAGCCGCTTGAGACAAATCTGGAACATCACCCTGCCGAACATGAAGATGATTATCAGCTTGAATTTGATCCTGACTGTAAGCGGTTTATTGGGATCGAATCTGGATCAAACCTTAGTGCTCATGAATTCGCAGAACCGGGAAAAGGCCGAAGTCATTAACTCGTACGTGTACCGGATGGGTATGACGCAGGGAGATTTCTCTTACGCCACAGCCGTTGGTTTGGGCGTATCCATCATCTCCGTCATTCTGCTCGTTACGGCGAATAAGGTGACCAGTAAATTAAACGATAATCAATCCGTTCTATAG	MSKTAAAVQSTGKGAVQPTGKKPMGQRIKEFFIDYKRQWELQSMIIPGVIFMFIFCYIPIYGLTIAFKNYTVIDTLDSAPWVGLDNFKIIMSDKYFWDSVVNTLGISFLKLAIGFVIPIILAIMIYEVGMGRFKKFVQTVSYLPHFLSWIVLGGMLITWFSTSGLFNEILLALGLISQPQNILLDPSKYWWIATLSDIWKEAGWGTILYLAIMAKIDPTYYEAARIDGASRLRQIWNITLPNMKMIISLNLILTVSGLLGSNLDQTLVLMNSQNREKAEVINSYVYRMGMTQGDFSYATAVGLGVSIISVILLVTANKVTSKLNDNQSVL	PGPT0017250_333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00252	885	ngcG_1	COG0395	Diacetylchitobiose uptake system permease protein NgcG	GTGAATTTCAAAGCAGCAAAAGGAGATCTCGACAGCCGGATCTTTGATACGATCAACATCATTTTACTGGTTACGTTTACGATCATCATCGTCGTTCCGTTATGGAACGTCGTCGTCTCATCCTTCAGCTCGGGCAGGTCCCTTGCCGAGGGTGGGTTCATCTTCTGGCCTACCGAGTTCTCGCTTGAGAATTATCAGGCCGTGTTCAGGGATGCCGGCATATGGAATGCCTTCTTCATCTCGGTGGCCAAAACCGTGATCGGGGTCATCACGCACGTGTTCTTCTGTGCGATGGTGGGATACGGCTTAAGTAAAAAATACGTCCGCGGCCGCAAGTTCTACGTGGCGATGGGTGTCGTTACCATGTTTTTCTCGGGCGGCATGATTCCGACGTACTTGTTGATCAAAGACTTGGGGCTGCTAAACAGCTTCTGGGTTTATATCATCCCGGCTCTGTTAAGTTTTTACGACGTTATCATTCTGATGAACTTCTTCCGCAACGTGCCGGATTCGCTGGAAGAGTCGGCGAAGATCGACGGCGGGGGCGACTGGAGAATATTCCTCAGCATCTTCATTCCTCTTTCCATGCCGGCTATGGCGACGATTGCCCTGTTTAACGGAGTCGGGCAATGGAACGATTTTATGACCACCAAATTGTATATCACGGATCAGTCGCTGTATCCGTTACAGATGATGCTGTATGAGATTATTGTGCAGTCCCAGACCCAATCGATGCAAAATATCGGTTCGGTCGCGATTCAGACGACGACCAAAGGGGTCCAACTAGCAACAATTGTCGTGACGACGCTGCCGATTGTTGTGATGTATCCAATATTACAGAGATATTTTATCTCCGGCATGATGCTCGGAGCTGTTAAAGAGTAG	MNFKAAKGDLDSRIFDTINIILLVTFTIIIVVPLWNVVVSSFSSGRSLAEGGFIFWPTEFSLENYQAVFRDAGIWNAFFISVAKTVIGVITHVFFCAMVGYGLSKKYVRGRKFYVAMGVVTMFFSGGMIPTYLLIKDLGLLNSFWVYIIPALLSFYDVIILMNFFRNVPDSLEESAKIDGGGDWRIFLSIFIPLSMPAMATIALFNGVGQWNDFMTTKLYITDQSLYPLQMMLYEIIVQSQTQSMQNIGSVAIQTTTKGVQLATIVVTTLPIVVMYPILQRYFISGMMLGAVKE	PGPT0017255_1918	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00253	1644			hypothetical protein	ATGTTAATGAACAAAGCTATGGGTAAGAGAGGACTTACGCTGCTTACGGCATTGATGGCCGTTGTGCTGGTTGTGAGCGGCTGCGGCGGATCGGGGGGGTCCGGCTCCAAGAAGGAGAATTGGATTTCGATCGAGGACCGGTATACACCGGATCCGGAAAAGCCGGCTTGGCAGCTGGACAAAAAAGAAGAGACCACCGAGCTGACTTGGTACGTGAATGCAGACTGGTGGAACACGGATTTCGGCAAGGACGTTGTCACCAAGAAAATTAAGGAAGACCTGAATATCAATATCAAATTCATTACGGGCGACGATACCAAATTGAATACGTTTTTTGCCGGCGGGGAGATGCCGGATTTGATCACGACGTTTGACTCGAACTCCCCGGTCGTGCAGAAAGCGGCGACATGGGCGCTGCCGCTGAACGATCTGGCCGAGAAATATGACCCTTACTTCAATAAGGTAGCGGCGCAGGATACCCTCAACTGGTTCCAATTGAAGGACGGCAAAACGTACGGATACCCGAATTATTCCAATACGCAGGAAGACTATGACAGCGGCAACATTCCTGCCAAAACGGCATTTATCATCCGCAAGGACGTGTACGAGGCTATCGGCAAGCCTGCGATGGGAACGCCTGAGGAGTTCCGGGCTGCTCTCGCGGATATCAAGAAGCAGTTCCCTGCCCTGATTCCACTGGGCTTCAATTCCATCGGCGAAGGTACGGGCTCGCTCGGCGACGTGCTGCAGGATTTCATCGGCGTGCCGCTGGAAGACGAGAACGGCGGCTTCTATAACCGGAACCTGGATGAAGACTATCTGACTTGGGTGAAGGCGTTCAATACCGTATACCGTGACGGCGCGATCAGCGATGACAGCTTTGCCGATGACGGAACGGCTTTTGAAGAGAAGGTGAAGGCGGGCAAATACGCAACGATCATGCTGGACGGCACGCCGCAGCAGGGCGGAAACCTGCAGAGCTTCTACAGCAACAACAAAGGCAAAGAGTACATCGCAATTGACGGACCGCAAAGCACGGTCGGACATGCGCCGACCCTGAACCAATCCGGTATTACGGGCTGGATGATCAGCTTTATCACGAAAGAGAATGCAGACCCTGCCAAATCCATTCAGCTCTTCACGTACCTGTTAAGCGAAGAAGGACAAATGCTGATGAACTATGGCATCGAAGGCGAGACTTACCAAGTGAACGCAGACGGCACGGTGGAATTCCTGCCGGACGTGAAGGAGCTTCAGCTGAACAATCCGGATACGTTCAAGAAGGACTACCGCATGGGCGAATTCATGTTCTTCGGACATGACCGCCACAAGGCCCTGAGCGGGGATGCGTTCCCGGATGCGATCAAGCAAATGCAGGAATGGGGCAAAGGCAAGCTGACGCCGCACTTTATTTTGGAGAATATCAACCCGGATCAGGGCACGCCGGAAGCGCGCTCCCTGACGGCCATCAATACGAAATGGAACTCCACGCTCGTCAGCATGATTCGCTCGAAGGACGACGCAGCCTTCGATAGCCTCTTGAACGAATATAAAAAGTTCCTGGACGATAACAACTGGGATAAAATCGTCGAAGTCCGCAACGAGAAGATGAAAGCGAACAAAGAGAAGCTGGGGCTGAAATAA	MLMNKAMGKRGLTLLTALMAVVLVVSGCGGSGGSGSKKENWISIEDRYTPDPEKPAWQLDKKEETTELTWYVNADWWNTDFGKDVVTKKIKEDLNINIKFITGDDTKLNTFFAGGEMPDLITTFDSNSPVVQKAATWALPLNDLAEKYDPYFNKVAAQDTLNWFQLKDGKTYGYPNYSNTQEDYDSGNIPAKTAFIIRKDVYEAIGKPAMGTPEEFRAALADIKKQFPALIPLGFNSIGEGTGSLGDVLQDFIGVPLEDENGGFYNRNLDEDYLTWVKAFNTVYRDGAISDDSFADDGTAFEEKVKAGKYATIMLDGTPQQGGNLQSFYSNNKGKEYIAIDGPQSTVGHAPTLNQSGITGWMISFITKENADPAKSIQLFTYLLSEEGQMLMNYGIEGETYQVNADGTVEFLPDVKELQLNNPDTFKKDYRMGEFMFFGHDRHKALSGDAFPDAIKQMQEWGKGKLTPHFILENINPDQGTPEARSLTAINTKWNSTLVSMIRSKDDAAFDSLLNEYKKFLDDNNWDKIVEVRNEKMKANKEKLGLK	PGPT0017245_1435	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00254	1347			hypothetical protein	ATGCTGAACATCACCATCTACCAGTCAAACGGTGAAGAAGAATTATTCGTGAAGAAAGACAAGGCGCAGCTGACGCCCGTAACTACGGGTGCAGCGAAGCATTCGGTTGTCATCGATGAGGAGCAGACGTTTCAGGAGATGGACGGCTTCGGCGCGTCCTTCACGGACTCCGCTGCTTATCTGATCCATCAGGTGCTGGAGACGAAGCAGCGTTCCGAGCTCATGACCCAGCTGTTCGATCCAAACGAAGGGATCGGGTTATCCGTACTCCGCCAGCCGATGGGGGCATCGGATTACGCGCGTGACTTCTACAGCTACAATGATATGCCTGAGGGCCAGACGGATGTAGAGCTGGAGCAGTTCTCCATTGCGCATGACGAGGAAGATATCATTCCTCTTCTGCAGGAAGCGGCGAGATTGAATCCGGACGTGAAGCTGATGGGTTCCCCGTGGAGTCCGCCCGGCTGGATGAAGACGAGCGGGTCGATGATCGGCGGAGAGCTGAAGCCGGAATACTATTCGGTGTATGCTGATTATTTTGTGCGTTATATCCAGGGGTATGAAGCCAACGGGCTGCCAATCTATGCAATTACACCGCAAAATGAGGCATTATACTCGCCTGGTCATTATCCTGGCATGATCATGCTGCCCGAAGCGCAGAGCGATTTTATCAAGAACCATCTGAAGCCGCAATTCGTAAAGAACGGCATCGGTACGAAAATACTCTGTTATGACCATAACTGGGACAAGCCCGACTATCCGTTGACCGTCTTTGAGCAAGCGGCCGACGCTGTGGATGGGGTTGCCTGGCACTGGTACGGCGGTAAACCGTCGGCCCAATCCGAAGTCTTCGAGGCATTCCCGGGGAAAGAGGTTCATTTTACGGAAGGATCGGGCGGGGAGTGGATTCCGCCGTTTGAGCAAGCCTTCTCCAATGTGATGCGAACCGGAATCGAGATTCTTCGCAATCACAGCAAGTCTTATGTGCTATGGAATATGGCGCTGGACGAGAAGAACGGACCTACCGTGCCGGGCTTTGGCAAAAGCACCTGCCGCGGCATCGTGACGGTGAATCAGCAGACGAAGGAGCTTACCTATACGCTGGATTACTACGCGCTGGCACACTTTAGCAAGGTGATCCGTCCCAAAGCACGGCGCGTGGCATCTACCAGCCATGAGTCCATCCGTTCGGTAGCCTTCAAGAACACGGACGGCTCGATTGCCGTCGTGTTGTTCAACGACAGCGAGGCTTCGGAGAGCGTGGCGATCCAGCTGCGCGGGGAAGAGGCGTTGCAGCTGGAAATGCCGGCGAAGAGTGCGCTGACAGTCAAGATGGAGAGCAACTGA	MLNITIYQSNGEEELFVKKDKAQLTPVTTGAAKHSVVIDEEQTFQEMDGFGASFTDSAAYLIHQVLETKQRSELMTQLFDPNEGIGLSVLRQPMGASDYARDFYSYNDMPEGQTDVELEQFSIAHDEEDIIPLLQEAARLNPDVKLMGSPWSPPGWMKTSGSMIGGELKPEYYSVYADYFVRYIQGYEANGLPIYAITPQNEALYSPGHYPGMIMLPEAQSDFIKNHLKPQFVKNGIGTKILCYDHNWDKPDYPLTVFEQAADAVDGVAWHWYGGKPSAQSEVFEAFPGKEVHFTEGSGGEWIPPFEQAFSNVMRTGIEILRNHSKSYVLWNMALDEKNGPTVPGFGKSTCRGIVTVNQQTKELTYTLDYYALAHFSKVIRPKARRVASTSHESIRSVAFKNTDGSIAVVLFNDSEASESVAIQLRGEEALQLEMPAKSALTVKMESN	PGPT0018770_1093	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCCOSYLCERAMIDASE,PGPT0018770-srfJ|xynC-K01201	NA	NA
AK002_00255	918			hypothetical protein	ATGACCTTTATCAGAGTTGACTATTCGCCTGTTCACGAGCTGATCACCAGCTTGTTCGCATATACGGATAATAAAAATCAAATGCATGATCTGGGGAGTAAATGGAGGAAAGAGATTCAGAAGAATCTGCCCGTTTGGTTTACGGATAAGCTGGAAGGACTGGACCTGTGCGAAACCATTGCTTATCTGCACCTGGTCATCGCAGACAGCCCGGAGAAAGACAATGTGGAGCGCTTTCTTGCCTGGTTCGCCGATTTAGGAGAAGGCCATTTGTACGAACTCCTGGCGCCTTATCTGGAAGATGGATTTCCGATGGGACTAAAAACCTTTCGGGAGCTGAGCCATGAAATCATGTCGGAGTGGCATCGAGCCTATCCCATCACGCCGGAAATTCACGAGCTGTTAGGGCGTTCCGCCGCCCGCATGGAGCTGCTGAGCCGGGAGCTTCCCTACATTGATTTGATCGATGAGGCAACAAGCGGGATCGTGCTCGATCCCGAAGACGAATATAACGCCATTCTGCTCATTCCCACCTATCACATCAAGCCGTTAAACCGGATGGATTACGTGAGCAACCGACAGCTCATCATCAGTTATGCCGTAGACGATGAGCAGCTGGACGAAGATACGCCGACCCATCAGCTGCTGCGCATGACCAAGGGATTAGCAGACGAGAAGAGGCTCGTGCTGCTGCACATTCTCGCTGACGGTCCTGTCACGTTTACGGAATTACAGCAGAAGACCGGTCTTTCCAAGAGCAACCTGCACTATCATTTGTCCCTGCTTAAAACCGCGGGCCTTCTGCGCATGCACTTCAAAATGCCGAATGAACGATATAAATACAGCGCGAGGCCCGAATCTTTCACTCAGCTGAAGGCTTTCCTGGAGTCTTACGTGTTCGGTCTGACAAAAGAATAA	MTFIRVDYSPVHELITSLFAYTDNKNQMHDLGSKWRKEIQKNLPVWFTDKLEGLDLCETIAYLHLVIADSPEKDNVERFLAWFADLGEGHLYELLAPYLEDGFPMGLKTFRELSHEIMSEWHRAYPITPEIHELLGRSAARMELLSRELPYIDLIDEATSGIVLDPEDEYNAILLIPTYHIKPLNRMDYVSNRQLIISYAVDDEQLDEDTPTHQLLRMTKGLADEKRLVLLHILADGPVTFTELQQKTGLSKSNLHYHLSLLKTAGLLRMHFKMPNERYKYSARPESFTQLKAFLESYVFGLTKE				NA	NA	NA	NA	NA
AK002_00256	93			hypothetical protein	ATGACCAATTGGTTCATTGTGGAATCTCTCATCAAGCAGCAGCAGGTGGAGTTACGATCGAGAGGCTGGAGAGTCCTGGAAATATGCGCATGA	MTNWFIVESLIKQQQVELRSRGWRVLEICA				NA	NA	NA	NA	NA
AK002_00257	321			hypothetical protein	ATGGACCTTTTGGCTGAGAATCGTTTAAGCGAGTGCGCCGTACAGGTGCCTGAATCGATAATGAATAACGAGGGAAGCCATGACGAGCTGTTGTCTGCCGTGCTCATGCTGCCCGAAACCTTAAGACAACCGATGTATTTGTACTATTACGAGGATTTCAACACCTTGGAAATTGCCGAAGTGCTGCAGATTGAGCCCGAAAATGTCCGGAACCGCATGAGCAGAGCCCGCAAGAAGCTTAAAATGATGCTGGGCAAGAAGCTGGGCGTGATACGGGACGGCCGGGAAAGGGCAAGAAAAGCTGCTTATTCGTCCTCTTGA	MDLLAENRLSECAVQVPESIMNNEGSHDELLSAVLMLPETLRQPMYLYYYEDFNTLEIAEVLQIEPENVRNRMSRARKKLKMMLGKKLGVIRDGRERARKAAYSSS				NA	NA	NA	NA	NA
AK002_00259	1641	metG_1	COG0073	Methionine--tRNA ligase	ATGACGAACATTTTTATCGGCGGTGCCTGGCCATATGCCAACGGGTCTTTACATTTGGGGAGGCTTGCCAGCCTCCTGCCGGGCGATGTGTTGGCACGTTATTTCCGCGCGAAGGGAGATCACGTCTTGTATGTATCGGGCAGCGATTGCCACGGCACGCCGGTGGCGGTGCAAGCGATCCAAGAGGGCGTAACGCCGGGGGATATTGCCGATCGGTATCATGCGGAGTTCGCGGAGTCCTTTGCACAGCTGGGTTTCTCTTACGATTTATATACGCGAACCGATCAGGCGTTTCACCATGGCGTAGTACAAGAGCTGTTCCTGAAGCTGCTGGACAACGGTCATCTGTACCGTAAAACCGTGCTGCAAACGTATTGCGAAACCGATCGGCGGTTTCTGCCGGATCGTTATGTGGAAGGAGATTGCCCCGTATGCGGGAGCAGGGCCCGCGGGGATCAGTGCGACGCCTGTTCCACGATGCTTGATCCTTCCGATCTGACGAACAGGACCTGCAAAATGTGCGGGAACCCGCCGGTGGAGCGGCCCACCGAGCATTTTTATGTAGCGCTGTCGCATTTCCAAGCTGAGCTGGCGGATGATTTGAGTCACGCCCAAGGCTGGCGGGATAATGCGGTGCACATGACCCGAAGATACTTGGAGGAAGGGCTTCAGGACCGAGCGGCTACGCGGGATCTGACCTGGGGCATGGACGTCCCGGTTCCGGGCTTTGAGGATAAGAAAATCTATGTTTGGATTGAAGCGGTCAGCGGCTACTTGTCCGCCAGCAAGCAGTGGGCCGCGGAGACGGGCGGCGATTGGGAGCCCTTTTGGCGCAAGGGTCAGGGCGAGGTGACCGCTTACTATGTTCATGGGAAGGACAATATTCCGTTTCATACGTTGATTTGGCCCGCGCTGCTGAAGGGGGCCGGGGATCTGCATCAGCCGGATCGGATCATTTCTTGCGAGTACATGACGCTGGAAGGGAAGAAATTCTCAACCAGTCGCAATTGGGCGATATGGGTGCCGGATTTGTTACGCCGCTATCAGCCGGACTCGATTCGGTATTTCCTTATTGCGAACGGTCCCGAGAAGCGGGATGCGGATTTCTCCTGGAGGGAGTTCATTCACAGCCATAACGGCGAGCTGCTTGGAGCGTTCGGGAATTTGGTCAACCGGACTTTGGTGTTTGCGAACAAATCGTTTGACGGGAAAGTGCCTGAGGGTAGCATATCCGATGAGTGGCAGGGCCGGTTGGAGGCATTGTATCAGCAGGCCGGGGCGCTTATTGAGGAGGGGCGACTGAAAGAAGCGTTGGAGTTGATTTTCAGCGTGGTACGCCAGGCGAACAAATATTTCGATGAACGGAAGCCGTGGATTCAGGTCAAGGAGGATCGGGCCGCCTGCGGGACCACGCTGTACACCTGCATTCTGATTATGGCCAATCTGGCGAACCTGCTGCAGCCGTTCATTCCGTTCTCTTGCGATAGGATCCGCGACTTTCTCTCGCTGGAGCCGCCTGCGTGGAAGTGGTGCCACGTTCCGGCCGGCAGGCCGATTCATGGGGTGGAGCTGTTGTTTGAGCGGATCGATCCAAGCCGGATTGAGGAGGAGAGCCGTCGGCTGGGGGAGCTGTCCCTTTAA	MTNIFIGGAWPYANGSLHLGRLASLLPGDVLARYFRAKGDHVLYVSGSDCHGTPVAVQAIQEGVTPGDIADRYHAEFAESFAQLGFSYDLYTRTDQAFHHGVVQELFLKLLDNGHLYRKTVLQTYCETDRRFLPDRYVEGDCPVCGSRARGDQCDACSTMLDPSDLTNRTCKMCGNPPVERPTEHFYVALSHFQAELADDLSHAQGWRDNAVHMTRRYLEEGLQDRAATRDLTWGMDVPVPGFEDKKIYVWIEAVSGYLSASKQWAAETGGDWEPFWRKGQGEVTAYYVHGKDNIPFHTLIWPALLKGAGDLHQPDRIISCEYMTLEGKKFSTSRNWAIWVPDLLRRYQPDSIRYFLIANGPEKRDADFSWREFIHSHNGELLGAFGNLVNRTLVFANKSFDGKVPEGSISDEWQGRLEALYQQAGALIEEGRLKEALELIFSVVRQANKYFDERKPWIQVKEDRAACGTTLYTCILIMANLANLLQPFIPFSCDRIRDFLSLEPPAWKWCHVPAGRPIHGVELLFERIDPSRIEEESRRLGELSL				NA	NA	NA	NA	NA
AK002_00260	855	pip		Proline iminopeptidase	ATGAATACACGAGAAACGATAATGAGCGAAGGTTTTGCATTGAATGTTTCCATTCGCGGAAACGGCAAGCCCATATTGGTGGTGGGAAGCAGCGTTTACTACCCCCGCTTGTTTTCGGAGCAGCTATATATGTCATTTCAATTGATTTTCCTGGACCATCGAGGCTTTGTGGAGCCTCCTCGGACACTGGAACCCGAAGACTATACGCTGAATAAGGTTCTGGATGATATCGAAAGGGCAAGACAAGCGCTGGGACTGGAGGATTTTATCATATTGGGGCATTCGGGACACGCCTTTATGGCGCTGGCGTATGCCCAAACCTATCCGGAACATGTCCGCAAGGTGATCCTGCTGAATACGGCACCCTCCAATAGATCGGAGCGGCAGCAGCAGAGCATCGCTTTTTTCAATGAGACGGCAAGCCCTGAGCGGAAACGGCAGTTCGAAGTGGATATCGCCCTGCTGGAGGAGGATATCCGAAGGGAGCCTGAACGGCGGTTTGCTCATATGTGCATTCGGATGGGAGCCCACAGCTTTTATGATTATGCCTATGATGCGGCTTGGATGTGGGATGGGGTCTTCACCAGCATGCCCGTCTTGGATCATTTATGGGGAGAAGCCTTCGCGCGGCTGAATCTGATCGATTGCCTGGAAGAGGTCAATATCCCCGTCTTCATCGGTCTTGGACGGTACGACTATTTGGTCGGCCCCGTGTCGCTATGGGATGCCGTAGACGGCTCGCAAGCAAACGTCAGAAAGGTCGTTTTTGAGCAAAGCGGCCATAATCCGATGTTCGAGGAGCCTGAGCTTTTTAACGCCGTCTTGACGAATTGGATTCACGAAACGGATCGCTGA	MNTRETIMSEGFALNVSIRGNGKPILVVGSSVYYPRLFSEQLYMSFQLIFLDHRGFVEPPRTLEPEDYTLNKVLDDIERARQALGLEDFIILGHSGHAFMALAYAQTYPEHVRKVILLNTAPSNRSERQQQSIAFFNETASPERKRQFEVDIALLEEDIRREPERRFAHMCIRMGAHSFYDYAYDAAWMWDGVFTSMPVLDHLWGEAFARLNLIDCLEEVNIPVFIGLGRYDYLVGPVSLWDAVDGSQANVRKVVFEQSGHNPMFEEPELFNAVLTNWIHETDR				NA	NA	NA	NA	NA
AK002_00261	1119	gyrB_2		DNA gyrase subunit B	ATGACACGTGATCTGACCCAAGAGATGGATGTCTTAAAGAATCAAATGGCGGAGCTGCAGCAGCTTGTTTATCAAGCTCTTATGGAACGAAAACCTGCATCCGCATCAAACCCATACCGCCAAGAAATCGCAACAGCGCCCACCATAGATGAACCCAATCCGGAAGATGGCTCTGTCTTCTACTCCGGGCAAGTGCACCTGAACGGACAAAACATCCGCTGGGAGCCACAGCAACGCCGATTAAATCAATTGCTGGACATGAATACCGAGAAGGCGGCCAAAATCCTCGCTGCCCTGGGCAACAAGCAGCGCCTGGATATTTTGAAGGCCGTCATGGCGGAGCCACTATCGGGCTCCGAGCTGGTGGAACGGTTGAACATGGGGACGACGGGTCAGCTGTATCATCATCTCAAGGCGCTGCTCGGCGCAGACCTGCTCGTCCAGGAGCAGGGGGGCCGCTACGCTCTTCCCCAGCATCGAAGCCTGCCGTTCCTGCTGCTGTTGTCCGCTGCCGGCGATCTGCTCGATGCCAGCGATTACCTGGAGATGTCGGAAACCCGCAACAATGCAGGGATGTACTTCGGGCCCTCGCATGGCTTTGATATTCATCAGCTGCTTTGGGCCGTGGTGGAAAATTCGATTTTGGAGCATACGAGCGGGTATGGCGATCAGATCGGCATTTTTCTGCATGAGGATGGCAGCGTGACGGTGACCGACAACGGAAGGGGCATTCCGGTGCAGGCCCTCCCAAATTCCGATGTCCCCGTTGTGCAGTCGATTCTGACCGGTGTCCACCGGTTCAACAACAGCGCGCACTTTCTGGTTCCCGGCGCGGAAAAAGGCATCAGCATTGCCGTGGTCAATGCCCTCTCCAAGCAGCTGTCCGTGGAAATTCGGCGTGACGGGAATATATACCGGCAGGAATACCGGCACGGCATTCCACAGACGGGTCTTTTGACGGTTGGTTTGACTCAAGAGACGGGAACCAGCGTGACGTTCAAGCCCGAGCCGGAATTGTTCAGCTCGGCCTTTGAATTTGACCGCATCCTCGAGCGCAAGGACGCGATTGCCGCGGATTATCCTGCACTTGCCCTGACCCTTCGGAACACCGCTGAATAA	MTRDLTQEMDVLKNQMAELQQLVYQALMERKPASASNPYRQEIATAPTIDEPNPEDGSVFYSGQVHLNGQNIRWEPQQRRLNQLLDMNTEKAAKILAALGNKQRLDILKAVMAEPLSGSELVERLNMGTTGQLYHHLKALLGADLLVQEQGGRYALPQHRSLPFLLLLSAAGDLLDASDYLEMSETRNNAGMYFGPSHGFDIHQLLWAVVENSILEHTSGYGDQIGIFLHEDGSVTVTDNGRGIPVQALPNSDVPVVQSILTGVHRFNNSAHFLVPGAEKGISIAVVNALSKQLSVEIRRDGNIYRQEYRHGIPQTGLLTVGLTQETGTSVTFKPEPELFSSAFEFDRILERKDAIAADYPALALTLRNTAE				NA	NA	NA	NA	NA
AK002_00262	885			hypothetical protein	ATGCCTCTGCTAGGCGAGTTATATCAGGCGGTATCCGCCGAGAATGCGCTGTTCTGGTGGGTGGGTGACCGGGAGAATTGGGAAAACGTGTTCTGTGTTATCGAAGACGGGAAGATGGTAGCTAAGGGTCAGGTCGGGATCATGAACGTGATTCCGCCGGGACGTGCCCCGAACTGCAAGCATCATATTTACGTGAATCTCAAGGCGGTTCCGCATCGTGAGCGGGATGATGGCCTGTTGGACGAATTGTATCAGGTCCTGTATGAACGGGCGGTTGTCTTAATGAGGACTTTGCCGAAGACGTACGAGACGTATTTGTGCGTGGGCAATTATGTCCATGAGAGCGCCAATAACGCTTTTTTTACGGTGAAGAAGGGGTTTCAGCCGCTGGAGAACCTTTATGCCATGAAACGATCATTGGAGGAGCCTATTCCTGCCTTGCCGTTAGATGATCGCTATCAAAATCGGTTGTGGAGGATCGAGTCTGCGGAAGAGGAAGTGGAGTATTTAAAGCTCGAAGCTGAGATTTGGCCGGAAGCGCCGCTGGGTCTCGAACGATTACGGGAATATAAGGCGCATTCCAACTGGATCGCCATGAATGTCTTGGAAGGGGATACGATCGTCGGCAGTACCATGGCATGGCAGGAGGAGGGGGATGGCGTGATTGAAGATGTGTTTGTGCGGGAACCGTGGAGACGGCGGGGGATCGCCAAACATCTGCTTTGCCGCGCCATATCTTATCTTCAGGCGCATGGGTCCGCCACGGTCAAGCTGCAAGTAAAGGCAGCCAATGATACGGCGTTATCGCTGTATCGGTCGGTCGGCTTTGCCATAGACCAAGAGGAGCACCGGTTTTACCTGCCGCTGGAGCAGGAAAGCCACTAA	MPLLGELYQAVSAENALFWWVGDRENWENVFCVIEDGKMVAKGQVGIMNVIPPGRAPNCKHHIYVNLKAVPHRERDDGLLDELYQVLYERAVVLMRTLPKTYETYLCVGNYVHESANNAFFTVKKGFQPLENLYAMKRSLEEPIPALPLDDRYQNRLWRIESAEEEVEYLKLEAEIWPEAPLGLERLREYKAHSNWIAMNVLEGDTIVGSTMAWQEEGDGVIEDVFVREPWRRRGIAKHLLCRAISYLQAHGSATVKLQVKAANDTALSLYRSVGFAIDQEEHRFYLPLEQESH				NA	NA	NA	NA	NA
AK002_00263	1059			hypothetical protein	ATGAACGTTGGATCAGCACGAGCAGCGGCAACAGATTGGGTCTTGCAGCATGCAAGCAGGGAGCCTGGATTCATGGGTGCCTATTTCAGCGGCTCCACGGTCGGCAAGCCGGACGATGCCCAGATGGCTCCGTCATCAGACATTGACGTCGTTGTAGTCACCGCGGATCCGGAGCCCCCGCTGAAACCGGGGAAGTTTATCTACCAGGATGCCTTGATCGAGGTCACCTATCTGTCCTGGCAGGACCTAGCTTCGCCCGAGCAAGTATTAACGTCCTACCATCTGGCCGGCAGCTTCCGCGTAGACACCCTGATGTCCGACCCGACCGGGCAGCTGCGCAAGCTGCAGACGGACGTCTCGCGGCATTTTGCCGACCGGATCTGGGTCACCCGCCGCTGTGAGAACGTGCGCGAACGTATCATGAACGGTCTCCAATCCATAGATCCTACCGCTCCTTGGCATCGCCAGGTAACCTCGTGGCTGTTTCCTACCGGCGTAACCACCCATATGCTTCTGGTCGCCGCGCTTCGCAACCCCACGGTCAGACTCCGCTATGCGGCAGTTCGCGACGTGCTGAAGGAATATAACCAAGAGGAGGTCTACGAGGAGCTGTTACGTTTGCTGGGCTGTAAAGACCTGACTGCCGAGCAAGCCATGAATCATCTCAACGGACTGGCCCGAACCTTCGATGCTGCTGCTGCGATTGCGAAGACACCCTTTTTCTTCAGCAGTGACATTACGCCGGAGGCAAGACCGATTGCCATTGACGGCAGCCGCGAGCTGATCCTAAACGGAAGCCATCGGGAAGCCGTCTTCTGGATGGTGGCCACCTTCGCCCGCTGCCACAACATCTTGGAGGTTGACGGGACTCCCCAATTTCAAGAACAGTATGCTCCCGCTTTCGATGCGATCCTGGCCGATCTCGGCATAACGTCTACCGATGACCTGCTCCGGATGGCCGAAGAGACCCTCCGTTTCCTGCCGAAGCTGTGGGATGTCACGGTAGGCATTCTGGATGCCAATCCGAATGTTTCCGGGGGCGAAGAATCAACCTCATAA	MNVGSARAAATDWVLQHASREPGFMGAYFSGSTVGKPDDAQMAPSSDIDVVVVTADPEPPLKPGKFIYQDALIEVTYLSWQDLASPEQVLTSYHLAGSFRVDTLMSDPTGQLRKLQTDVSRHFADRIWVTRRCENVRERIMNGLQSIDPTAPWHRQVTSWLFPTGVTTHMLLVAALRNPTVRLRYAAVRDVLKEYNQEEVYEELLRLLGCKDLTAEQAMNHLNGLARTFDAAAAIAKTPFFFSSDITPEARPIAIDGSRELILNGSHREAVFWMVATFARCHNILEVDGTPQFQEQYAPAFDAILADLGITSTDDLLRMAEETLRFLPKLWDVTVGILDANPNVSGGEESTS				NA	NA	NA	NA	NA
AK002_00264	756	srlR_1	COG1349	Glucitol operon repressor	TTGGAGAGGCAAAAGAGAATACTTGAGCTGCTTACGATTCGAAAAGTACTGAAGATCACGGAGCTTACGGATGAGCTGAACGTCTCCGTGGATACGCTGCGACGGGATTTGAACACCCTGACCAAGCAAGGGCGGATTGAGAAGATCTATGGCGGGGTAAAGCTCGTGGAGTCCCGGTTCGGCGAATCCTCCATGGATGAGCGCATGGTCAGCCAGCTGGAAGAGAAGGACCGGATCGCCCGCAAATGCAGCGAATTCGTTCATGACGGCGACTGCATCTACATCGACAGCGGCTCGACCACGTACCAAATCGCCAAATACGTGAAGCATAAGAAGAAGCTGACGGTGGTTACGAATTCACTTCCGGTTGCGATCGAGCTGATGGACAGCGACGTGGAGCTAATTATGATCGGCGGCAAAATCCGGCGGGAGGAGCAATCCGTCGTCGCGTATGAATACATCTTCAACTTTCATGAGCTGAATGTGCTGAAGGCGTTTATCTGCTGCAGCGGCATCACCATCGAAAAAGGCATCTCCGACTACAACCTGGAAGAAGCCATCACGCGCAAAAAAATGATCGAGCTGTCCAAAGAGGTGATTGTCATGGCGGACAGCACCAAGTTTGGCAAAGACGTTACCATTTCCATCGCTCCGCTCGACAGAATCGGTACCATCGTGACGGATGCGAACGTCCATCCAAGCTTTATTCCAACATTCAAGAAGACCAATACAACGCTTGTGATTGCAGATGAATAG	MERQKRILELLTIRKVLKITELTDELNVSVDTLRRDLNTLTKQGRIEKIYGGVKLVESRFGESSMDERMVSQLEEKDRIARKCSEFVHDGDCIYIDSGSTTYQIAKYVKHKKKLTVVTNSLPVAIELMDSDVELIMIGGKIRREEQSVVAYEYIFNFHELNVLKAFICCSGITIEKGISDYNLEEAITRKKMIELSKEVIVMADSTKFGKDVTISIAPLDRIGTIVTDANVHPSFIPTFKKTNTTLVIADE	PGPT0017590_853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK002_00265	753	potA_2	COG3842	Spermidine/putrescine import ATP-binding protein PotA	TTGCTGAAGCTAGAGCATATTTGCAAACAATTCGACGATAAAGTGGTTTTGGATGACATCAACGTAGAAATCGGCACGGGCGAGATTGTATCGCTGCTCGGTCCGAGCGGGAGCGGGAAGACCACATTGCTGAATATTATTTTGGGACTCACCCGAATGGATCAGGGAAAAATCGTGTTCCAGGGTCAAGATCTGAGCAACATACCGATGAAGAAGCGGGGATTTAATATCGTGTTTCAGGACTATGCCTTATTCCCCAACTTGAATGCCTACGACAATATCGTATACGGCCTGCGCAATAAGAAGGGAACCGCGAGCGAGCAGGAGGTCCGGGAATATATCGATTTTCTCGAGCTCCAGCCCCACTTGGACAAGCGGATCGGCGAACTGTCAGGGGGGCAGAAGCAGAGAGTGGCGCTGGCCAGAACGCTGGTCACGAAACCGAAAATTCTGCTGCTCGATGAGCCGCTCAGCGCGCTGGACGGCGTGATCAAGGAATCGATCAAGCAGCGGATCCAATCGATCGCCAGGGAATTCAAGCTGACCACGATCATTGTGACGCATGACCCGGAAGAGGCGCTGACGCTCTCGGACAAAATCCTGATCATCCATCAGGGACAGATTGCCCAATTCGGCACGCCTCAGGAGATTGTCCATCATCCGAGCAATGATTTTGTGAAGCAGTTCATTATCAAGCAGCTGCATATCAAAAGGCAGAACATCTACAACCTGTTCGGTGAACAGTATGCGTAG	MLKLEHICKQFDDKVVLDDINVEIGTGEIVSLLGPSGSGKTTLLNIILGLTRMDQGKIVFQGQDLSNIPMKKRGFNIVFQDYALFPNLNAYDNIVYGLRNKKGTASEQEVREYIDFLELQPHLDKRIGELSGGQKQRVALARTLVTKPKILLLDEPLSALDGVIKESIKQRIQSIAREFKLTTIIVTHDPEEALTLSDKILIIHQGQIAQFGTPQEIVHHPSNDFVKQFIIKQLHIKRQNIYNLFGEQYA	PGPT0003735_4274	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
AK002_00266	1617			hypothetical protein	ATGCGTAGCGCGAAGCCTGAAATGTGGGTTATCTTTACCGTTATCCTGTTATTGTTCGCCGTGTTTCTGTTCCTGCCGCTGCTCATATTGCTGATCCGCTCCTTCGGATCCGATCAGGGATTTACCCTTGGACACTATGCATCCATAGGGGCGAATCGGGAATTCGTCGAGGCGATCGGCAACAGCGTGAAGGTATCGGGCGTAACGGCCGTGATCACGACCGTTCTGGGGTTCATACTCGCGTATTCCATTCATTGCACCAAAATATACCGGCCCGTCAAAGGCCTGCTGAAAACCGTCATCATGGTCCCCATGCTGCTCCCGACCATTACCTATGGGTTCGCCATCATGTATTCGTTCGGTAACCAGGGCTTGATCACCCGGCTTGCCGGGCGCAATCTGTTCGATATCTACGGATGGAACGGGCTGCTCATCGGCTACGTCATTTACACGCTGCCGCCGGTATTCCTGCTGATCCATAACGCGTTTAAGTACATTGATAAAAAATTCATCATCGTATCCAAGTTAATGGGTGACGGTACGATGAGAAGTTTCATGAATACGATTTTGCGTCCCCTTGCGGGAGCCCTTGGAGGGGCCTTTGTGCTGTCCTTTATCTTAAGCTTTACGGATTTTGGGATTCCGGCTTCCGTCGGCGGTACCTATCCGGTCGTGGCGACGCAGCTGTACCAGGTGATGCTGGGTTCCATTCCTGACTTCAATCAAGGCGCTGTCATTGCGGTGATGATGCTGATTCCGGCCGTGTTCGGCATCTGGCTGCTGAATTATCTGGAAAAGTGGAATTTCCACTATGACAAGCTGTCGGATATCGAGCTGCCGCGGCAGCGCGTTCGGGATATCGCCTTCGGCGTGATGTCGTCGGCCATTGTGATGGGCATGCTGTCCATTTTTGCGGTGATGTTCATCGCTCCTTGGTTGAGCAGTTACCCCTATGACATGACCTTCACGTTCCAGCATGTGCGGGATGTGATTCAATCGAGTGATTTGACGGGGGTCTATCGCAATTCGCTCTGGGTCGCCTTCTTGACGGCGCTGTTCGGTACCTTGATGGCGTACTTATCCGCGCTGCTCAATGTGCGTACATCGTTAAAAGCCCGGTCCGCGGTAGACATCATATCCATGATAACCAATACCGTGCCCGGCATGGTGCTCGGGATATCCTACCTGCTCTTCTTTAACGGGAGCAGCCTGAAGGGGACCTTTATCATTATCGTTCTGTGCAACATCGTTCATTTCTTTACGACGCCGTACCTGATGGCCAAGAACTCTCTGTCCAAGATGAATCCCTCCTGGGAAACCACGGGAGAACTGCTGGGGGACAGCTGGTTCAAGACCGTGTATCGGGTGGTCCTCCCGAACTCGGCCTCAACCGTCATTGAGATGTTCAGCTACTATTTCATCAATGCCATGGTGACGATTAGCGGCATCATTTTTCTCGTATCGGCCCAGACGTCGCTCGTCGCCAGCAAAATCAAAGAGCTGCAGCATTTCGCCAAGTTTAATGAGATCTTCGTGCTGTCGATGCTGATCTTCTTCACGAATCTGATCATCAAGCTGGTGTGCGACGCATGGCAGAGGAGAACGGCGCAGCGCTAA	MRSAKPEMWVIFTVILLLFAVFLFLPLLILLIRSFGSDQGFTLGHYASIGANREFVEAIGNSVKVSGVTAVITTVLGFILAYSIHCTKIYRPVKGLLKTVIMVPMLLPTITYGFAIMYSFGNQGLITRLAGRNLFDIYGWNGLLIGYVIYTLPPVFLLIHNAFKYIDKKFIIVSKLMGDGTMRSFMNTILRPLAGALGGAFVLSFILSFTDFGIPASVGGTYPVVATQLYQVMLGSIPDFNQGAVIAVMMLIPAVFGIWLLNYLEKWNFHYDKLSDIELPRQRVRDIAFGVMSSAIVMGMLSIFAVMFIAPWLSSYPYDMTFTFQHVRDVIQSSDLTGVYRNSLWVAFLTALFGTLMAYLSALLNVRTSLKARSAVDIISMITNTVPGMVLGISYLLFFNGSSLKGTFIIIVLCNIVHFFTTPYLMAKNSLSKMNPSWETTGELLGDSWFKTVYRVVLPNSASTVIEMFSYYFINAMVTISGIIFLVSAQTSLVASKIKELQHFAKFNEIFVLSMLIFFTNLIIKLVCDAWQRRTAQR	PGPT0003730_3636	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK002_00267	996			hypothetical protein	ATGATGAAGACGCTGAAGGGAATGCTGCTGTCATTGATCGCAGTCAGTATGGTGTTTGCTTTGGCCGCCTGCGGCAGCGGCAGTGCGGGGGAAGCGAAGAAGGTAGTCATCTACACCAATGGGGATGAAGAAGCCGTTGCGGCAATGGAGACCTCATTGAAGAATGCCGGATATGAAGGACAGTACCTTGTCCAATCCCTGGGCACCTCCGAACTTGGGGGCAAATTGATGGCGGAGGGGAACAAAATCGAGGCCGATCTCGTCACGATGAGCTCCTACTTCATCGAAAGCTCGCAGAGCAAGCATTCGATGTTTAAGGATCTGGCTTTTGACGCAGGCGCTACCGGTTCTTATCCGGCATATTACACGCCGATTCTGGCGAATACCGGCTCCATCTTCGTGAATACGGAAGTGCTGAAGGACAAAGGATTGACGATGCCTACCTCCATCACGGACCTGACCAAACCGGAATTCAGCGGACTTGTATCGATTCCGAACATCATGGATTCTTCCACCGGCTGGCTGCTCGTTCAGGCCATTATTACGCAGTACGGCGAAGATGCGGGACGTAAAGTGCTTCATGACCTGATTGCTAACGTGGGACCGCATCTGGAGAGCTCGGGCTCCGGTCCGATCAAGAAAGTGCAGGCGGGCGAAGTGGCGGCTGGGTTTGGACTCCGCCATCAGGCGGTAGCGGCCAAAGCCGCCGGTGCACCGATTGACTACGTGGATCCGGTCGAAGGAAACTTCTCGCTGACCGAATCGGTTGCGGTCGTGGACAAGAAGAATGCAACGACCGATCTAGCGATGAAGATGGCCGAGACCATCGTAAAGGATGCCCGCAAAGATCTGATTGCGAACTACCCGGTGGCCCTGTACGAAGGGGAGACCGTCGATGAAGTCAACAAGCCTGCATACTCGATGACCTTCGAGAAGCCGCTGACCGTGGAGCTGCTGGAAGAGCATCAGCAATTCTTCAACGGATCCAAAGAATAA	MMKTLKGMLLSLIAVSMVFALAACGSGSAGEAKKVVIYTNGDEEAVAAMETSLKNAGYEGQYLVQSLGTSELGGKLMAEGNKIEADLVTMSSYFIESSQSKHSMFKDLAFDAGATGSYPAYYTPILANTGSIFVNTEVLKDKGLTMPTSITDLTKPEFSGLVSIPNIMDSSTGWLLVQAIITQYGEDAGRKVLHDLIANVGPHLESSGSGPIKKVQAGEVAAGFGLRHQAVAAKAAGAPIDYVDPVEGNFSLTESVAVVDKKNATTDLAMKMAETIVKDARKDLIANYPVALYEGETVDEVNKPAYSMTFEKPLTVELLEEHQQFFNGSKE	PGPT0003725_4701	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK002_00268	1095	phnW	COG0075	2-aminoethylphosphonate--pyruvate transaminase	ATGAAAACCTACAAGCTTTTGACACCGGGACCTTTGACCACAACCAAGGCGGTAAAAGAGGAAATGCTCTTTGACCGCTGCACGTGGGATGATGAATACAAATCGATTACGCAAAAAATCAGATCGCAGCTCCTGGCACTGGCCGGAGCGGATCCAGAGCTGTACACCGCCGTGCTGATGCAGGGAAGCGGCACGTTTGCCGTCGAAGCCGTCATGACGTCCGCCATTTCGAAAGACGATAAGGTACTGATCGTAACGAACGGTGCCTACGGCGAGCGGATCGTGAAAATGGCGGAGTACATCGGAATGAATTACGCGGAGTACAAGGTGAATTACGATGAACATCCAAGCGAGGATGAGCTGCGGGCCATACTCCATGAGGATTTGCGGATTACGCATATCGCGATGGTTCATTGCGAGACGACCACCGGCATTCTGAACCCGCTGGAGATGATCTCGAAGCTGTCCAGGGAATATGGAAAAACCCTCATTATTGATGCGATGAGCAGCTTTGGCGGCATGGAGATCGATGTTCACGGGCTCGGCATCGATTACCTGATCAGCAGCGCGAATAAATGCATTCAAGGCGTTCCGGGGTTTGGCTTCGTGATCGCCAAGCTGGAGAAGCTTGCAGTCTGCGAAGGGATAGCACGGAGCTTGTCGCTCGACCTGTACGACCAATGGAAGGGCATGGACAAGGACGGCAAATGGCGTTATACCTCGCCGACCCATGTCGTGGCGGCTTTCTCCAAAGCGTTGGATGAGCTGAATGAAGAAGGTGGCGTCCCTGCCAGGTTCAGCCGTTACCGGAATAACAATCGCCTGCTGCGGGAGAGATTGGCGGAGATCGGCATCCGGGCATATATCACCGATGACAAACAATCCCCGATCATCACCACGTTTTTATTCCCGAGCGAAGGGTTCAGCTTTGAGCATTTTTACGCTTATATTAAAGAAAGAGGTTATGTGATTTACCCGGGCAAGCTGACCGACGTGGATACCTTCCGCATCGGGAATATCGGGGAGATCTATGAGCAGGATATCGAGCAGTTATGTACGATTATTGAAGAATATATGGGGGTGACGGCACGATGA	MKTYKLLTPGPLTTTKAVKEEMLFDRCTWDDEYKSITQKIRSQLLALAGADPELYTAVLMQGSGTFAVEAVMTSAISKDDKVLIVTNGAYGERIVKMAEYIGMNYAEYKVNYDEHPSEDELRAILHEDLRITHIAMVHCETTTGILNPLEMISKLSREYGKTLIIDAMSSFGGMEIDVHGLGIDYLISSANKCIQGVPGFGFVIAKLEKLAVCEGIARSLSLDLYDQWKGMDKDGKWRYTSPTHVVAAFSKALDELNEEGGVPARFSRYRNNNRLLRERLAEIGIRAYITDDKQSPIITTFLFPSEGFSFEHFYAYIKERGYVIYPGKLTDVDTFRIGNIGEIYEQDIEQLCTIIEEYMGVTAR	PGPT0002485_659	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-ANTIBIOTIC_PHOSPHONATE_SUBSTANCES,PGPT0002485-phnW-K03430	NA	NA
AK002_00269	819	phnX		Phosphonoacetaldehyde hydrolase	ATGAACCGAATCGAAGGCGTTATATTGGACTGGGCCGGAACGGCCGTGGATTTTGGATGTTTTGCGCCCGTGAACGTGTTTGTCGATATTTTCAAGAATGCGGGTATTGAGGTAACCATGGAGGAAGCGAGAGCGCCGATGGGCATGCTGAAGATCGACCATATTCGTGCCATGCTGTCTATGCCGAGAGTGTCTGCGCTATGGGAGGCGAAGTACGGCAGAGCTTTCGGTGAGCAGGATGTAGAACGGCTGTATGCGGAATTCGAGCCGGCTTTGATGGTCTCTTTATCCGAGTACACGGACCCGATTCCGGGTGTCATTGAGGCGGTTGAAGCGCTGAAGGAGCAAGGCTTGAAAATCGGTTCCACGACCGGTTATACGAGCAGCATGATGGAGGTCGTGGTTGCCAATGCGCGGCAAAAGGGGTACAGCCCGGATGTCTATTTCACGCCGGATGACACGCACTCTCAAGGAAGACCTTATCCCTACATGATCTACCGGAACATGGAGTTTCTTGGATTATCGGCTTCATGGAAAGTCGTTAAGGTGGGCGATACCGTCTCCGACGTGAAAGAAGGCGTGAACGCTGGCGTGTGGTCGGTTGGCGTTGCAATTGGCAGCTCCGAAATGGGCCTGAGCTTGGAAGAGTTCCATGCCCTGTCAGAGTCGGACCGGGAAACCGCGATCTCGAAAACCGAAGAGACGTTTATCCGTAACGGGGCGGATTTTACGATCCGGACGATGAGCGAGCTGCCGCAGTTAATCGAGAGCATTAACGGCATGCTGGCTGAGGGAAAAAGACCGGGGTTTCAGCGCTAG	MNRIEGVILDWAGTAVDFGCFAPVNVFVDIFKNAGIEVTMEEARAPMGMLKIDHIRAMLSMPRVSALWEAKYGRAFGEQDVERLYAEFEPALMVSLSEYTDPIPGVIEAVEALKEQGLKIGSTTGYTSSMMEVVVANARQKGYSPDVYFTPDDTHSQGRPYPYMIYRNMEFLGLSASWKVVKVGDTVSDVKEGVNAGVWSVGVAIGSSEMGLSLEEFHALSESDRETAISKTEETFIRNGADFTIRTMSELPQLIESINGMLAEGKRPGFQR	PGPT0002490_278	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002490-phnX-K05306	NA	NA
AK002_00270	828	catD_1	COG0596	3-oxoadipate enol-lactonase 2	ATGACCACGAAGTTACATGAGGGCACAATGATAAACGGGTTAAACTTTTTCACAACCATTGATGGAGTTAGAATTGCTTATCGAATGGATGGTCCAGCCGGTAAACCGGTACTGATGCTGGCGAACTCAATTGCAACCACAATGCACATGTGGGACGGCCAAATAGCTGATCTTTCTGAGCATTTTCTCGTGCTTCGCTACGACTATCGGGGACATGGCGAATCGGATACACCTGAGGTTCCCTATTCGTTCGATCGACTGGGGCGGGATGTCATCGAACTGCTTGACTCGCTTCACATTGACCGCGTGCATTTCCTTGGGCTATCGTTAGGCGGCGCGGTCGCACAATGGCTTGCGATCCACGCTCCAGAGCGGATCGACCGGCTCGTCCTAAGCAATACATCCTCTTATCTGGGACCGGCTGAGCAATGGCAAGGTTTAATCACATCTGTGCTGCAACGCGAGAACCTTCCAGAGTTCGCCGATACATTCATGAAGAACTGGTTTCCTTCACATATGGTGGAGTCAGAAAATGAGATCGTTGCTTCTTTTCGGGAGATGGTGCTGTCGACTCGCCCACATGGAATCGCAGGAAGCTGGGCTGCTATCCGCGATATGGATATGCGCCGGACGGCTTCCCTGATCAGCAGCCCAACACTCGTCATTAGCGGGCAGTATGATACTGTGACGCTTCCGAGCCACGGTGAATTGATCGCTAAAACGGTGCCGAATTCCAAGTTCGTCTTGTTCCCATCCGTACACTTAACGAATGTGGAGTATCAATCCGAGTTCCTGAGTACTGTGTTGGAGTTTTTGCAGTCGGAATAA	MTTKLHEGTMINGLNFFTTIDGVRIAYRMDGPAGKPVLMLANSIATTMHMWDGQIADLSEHFLVLRYDYRGHGESDTPEVPYSFDRLGRDVIELLDSLHIDRVHFLGLSLGGAVAQWLAIHAPERIDRLVLSNTSSYLGPAEQWQGLITSVLQRENLPEFADTFMKNWFPSHMVESENEIVASFREMVLSTRPHGIAGSWAAIRDMDMRRTASLISSPTLVISGQYDTVTLPSHGELIAKTVPNSKFVLFPSVHLTNVEYQSEFLSTVLEFLQSE	PGPT0004995_424	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
AK002_00271	474			hypothetical protein	ATGGATCACATAGACAATAAAATCTTATCGATCCTTCACGGAAATGCTCGAATAACAATCTCCGAGATGAGCCGATTAATCATGATGTCCCAGCCAGCCGTGACGGAACGGCTTCGGAAGCTGGAGGAGCAGGGAGTTATAACGGGGTATCGTGCAGTGCTTGCCCCATCGAAACTCGGCAAGTATACCACTGCGTTCGTACTGTTTAAATCGAATAACTGCAGGGAGTTCGAGGCATACGCAGAGTCGGCTCCGGAGATCGTCGATTTCTACAGGACGAGTGGAGAGTACAATTATTTATTGAAGGTCGTCACCGCAACGAGTGAAAGCTTGGAAACCTTCCTTGAAACGTGCAACACGTTTGGCCATTCATCGACGCATGTCGTTCTGTCCACACGATTCGAGGATAAAAGTCTGGTCTCAAGCCAGGATGCATCGAACACCATTCCACGCATTAATCCGCCGGGTATTTGA	MDHIDNKILSILHGNARITISEMSRLIMMSQPAVTERLRKLEEQGVITGYRAVLAPSKLGKYTTAFVLFKSNNCREFEAYAESAPEIVDFYRTSGEYNYLLKVVTATSESLETFLETCNTFGHSSTHVVLSTRFEDKSLVSSQDASNTIPRINPPGI				NA	NA	NA	NA	NA
AK002_00272	927	menH_1		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGTCTGCAGCTATTATCGCATTACTAGCGATCATTATAATTTCAGCCAGCTTCTACTTCTATAACGTCGCTATTGCCCGGGCCGATAAGGCTTTCCTGAACGGCAACCCGGACCTGGAAGCCAACTCGAATATCGATAACCCCTTTGCGGATAGTAAGGATTGGTGGGCCAAGCAAAGCTTCGAGGAATGGAGTCTTACCTCAGACGACGGCTTGAAGCTGCATGCGTACTATATACCTGCCGAAGTGCCCACGGATAAAACCGTCTTGATCGCGCACGGATACTCCGGCCATTCGGAGCAGATGAGCGGATTCGCCCAAATGTATCATGAGGACCTGGGCTACAACGTCCTTCTTCCCGATGCGCGTGGCCACGGAAAGAGCGAAGGCGATTACATCGGCTTCGGCTGGCCGGAGCGGATGGATTATCTCAGATGGATTGAACGTGTCATCCGGCATACAGGGGAAGACGCCCAGATTGTCCTGCACGGCGTGTCCATGGGCGGGGCTACGGTGATGATGACCAGCGGCGAAGAGCTTCCGCCCCAGGTGAAAGCCATTGTCGAGGACTGCGGGTATACCTCGGTCACGGATGAGTTGACCTATCAGCTGAAGCGCATGTATAAGCTTCCATCCTTCCCGCTGGTTCAATCCACGAGCCTGCTCACCAAGATCCGGGCCGGATACTCCTTCGGCGAGGCCTCCGCGCTGGAGCAGGTGAAGAAATCCAAGACGCCCACGCTGTTCATACACGGCGGCGGGGATCTGTTCGTCCCTACCGAGATGGTGTATGAGCTGTACGAGAACGGTCCGGAGCAAAAGAAGCTGTTCATCGTCCCCGATGCAGGCCACGGCCTAGCACGCCAGTTCGATCCAGAAGGGTACGACCGGGAAGTGAAGGAGTTTATCGGCACGTATGTGCAATAA	MSAAIIALLAIIIISASFYFYNVAIARADKAFLNGNPDLEANSNIDNPFADSKDWWAKQSFEEWSLTSDDGLKLHAYYIPAEVPTDKTVLIAHGYSGHSEQMSGFAQMYHEDLGYNVLLPDARGHGKSEGDYIGFGWPERMDYLRWIERVIRHTGEDAQIVLHGVSMGGATVMMTSGEELPPQVKAIVEDCGYTSVTDELTYQLKRMYKLPSFPLVQSTSLLTKIRAGYSFGEASALEQVKKSKTPTLFIHGGGDLFVPTEMVYELYENGPEQKKLFIVPDAGHGLARQFDPEGYDREVKEFIGTYVQ				NA	NA	NA	NA	NA
AK002_00273	447			hypothetical protein	ATGAATAAATACTTTATCAGCTTGATCCTTGCGGTCGTCACGATTTTCGGCTTGCCGCTGCCATCCCATGCCGAGGTGACCGATTATACATCACCGAAAAAAGACAGTGACCAACTGCAGTATCAGGATATGCTGATGCTGTTTCTGCTTCCCCATATCGATGAAGTCGTCAATCGGCATTATAGCCATACGTTGAAGGAGCTTCCGGTTGTCTATCCCTACTTCGTGGACGTAATCCAAGTGAAGAGAGTGAACGGATTCCGCGGCTTTCATTTCGTCATCACGCTGGAGGCCCGCCCGGTGGTCGGTCCCCATATCCCGGTGGGAAAGGACCACCTGGTTTTTGAGGTGGCTCCGACGATTCCCGGCAGTATGGTGAAGCTGTTGGAATACAAGCATCTGAAGACATATGAGCTTCCTTCGCATTGGCAAGACATCGTGAAGTAA	MNKYFISLILAVVTIFGLPLPSHAEVTDYTSPKKDSDQLQYQDMLMLFLLPHIDEVVNRHYSHTLKELPVVYPYFVDVIQVKRVNGFRGFHFVITLEARPVVGPHIPVGKDHLVFEVAPTIPGSMVKLLEYKHLKTYELPSHWQDIVK				NA	NA	NA	NA	NA
AK002_00274	1767			hypothetical protein	ATGCAAATTCAATTGAGCAGACCGCCGGACCGCAGACCGCCTTATTGGCTGCCGCTTACAACCATCCTGGCCGTCATACTCTTTATCTCCCTCATGCTGTGGTTCGAGAAGCCGCCGGAAGCCAGAAAGATCGATGCACCCGCAACTGAGTTCTCCGCAGAACGCGCCATGGCACATGTCGAGCGGATTGCCCAAGAGCCCCACCCGATGGGGTCCCCTGCCAATGCGGAAGTCCGGGCTTATTTGGTGGAACAGATGAAGCAGCTCGGCTTGAACCCGGAGGTTCAGGAGTTTAATGACCGTCTGACAACCAAGTACATCGACGCCGACGTGCAGCTTACGAACATTCTCGGCGTCATTAAAGGAACCGGATCGGGGAAACCGCTCCTACTGATGTCGCACTATGACTCGGTCCCTACCGGACCGGGAGCGAACGATGCTTCGGTCAGCGTAGCTTCCTTGCTGGAGACGGCAAGAGCGATCCAGGCCGGACCTCCGCCGCAAAATGACATATGGATCCTGCTGACAGACGGGGAGGAAAGAGGCCTGCTAGGTGCTGAGGTGTTCTTTCAGGATCCGGCGCACCGTGAGATTGGCATGATTGCGAATTTTGAAGCCCGGGGATCGAAGGGCTCGTCTTTCATGTTCCAGACCAGCGACAGCAATGGACGGATCATTGAAGAATATGCCCGGGCCGTATCCAATCCTGTCAGCAACTCCCTCTTGGTGGATCTCTACAAACAACTGCCGAACGATACCGATCTGACGGTGGCGCTGGAGCATGGCCTCCCGGGGCTGAACTTTGCCTATGGCGACGGGTGGGTAGCTTACCATACCCCGATGGACAACACGGAGAATGTCTCCCTTGAGACCATGCAGCATCAAGGCGAGAATGCGCTCGCCATGGCAAAGCATTTTGGCAACCTGGACTTGGCTGACCTGACCTCCACAGGCGACCGCATCTATTTCAATCTGTTTGGCCTGCTGATTCACTACCCTGCGCAATGGGCAATTCCGATCACCGTAGCGATCGCAGCGCTATGGCTGGCTTTTGCTTGGTTGTTTGCCCGCTTCTCCCTGCTTACCGTTAAGGGAGGGCTGATCGGGCTCGGAACTCCGATTCTAGCCGTCGTGCTCTCAACCGCGCTCAGCTACGGCTTGTGGACGCTCATCGATGCGTTGTGGGCAGGCAAAATGACGCAGCCTACAGGCGCAACCTATGATTCGCTTCTGTACAGCGTCAGCTTTGTCCTGGTGACCCTCATCGTTCATGTCGCGCTTACCCGCTGGGTGGTGCGGAAAGCAAATGAAGTGGAGATGCTGCTTGGGGGCGCACTCCTGTTCCTGCTGCTGCTCATCGGCTCGACTTGGTTCCTGCCGGGCGCAAGTTATTTATTCGCGATACCGCTGCTGGTTCATTTCGCGGCTCTGACGTGGGCGGCATTTACCCGGGACCCGCGCGAAACCTTAATCCATCCGGCCGTCGTGTTGGGAACGTCGCTTATCCCGGTTCTGATGTTCACGTCGGTCTTTCACATCGTATTCCTCCTGCTCCCGCCGGGGATTCATCTATTCAGCGTTGTGCTCATCGGACTGATACTGGCCCTGATGTCCCCGGCAGTCCGAATGCTCGCGCATTCTTGGAAATGGGTGCTGCCGGCCGCTTTCATCGCCATCGTTGTCCTGCTCGGCATCGGCTGGAGCCAAGCTGAGCCCGGGCCGGATCGGCCGGTTTATGAAAATCGGCAGGCCCCCCTAAAGCGCTAA	MQIQLSRPPDRRPPYWLPLTTILAVILFISLMLWFEKPPEARKIDAPATEFSAERAMAHVERIAQEPHPMGSPANAEVRAYLVEQMKQLGLNPEVQEFNDRLTTKYIDADVQLTNILGVIKGTGSGKPLLLMSHYDSVPTGPGANDASVSVASLLETARAIQAGPPPQNDIWILLTDGEERGLLGAEVFFQDPAHREIGMIANFEARGSKGSSFMFQTSDSNGRIIEEYARAVSNPVSNSLLVDLYKQLPNDTDLTVALEHGLPGLNFAYGDGWVAYHTPMDNTENVSLETMQHQGENALAMAKHFGNLDLADLTSTGDRIYFNLFGLLIHYPAQWAIPITVAIAALWLAFAWLFARFSLLTVKGGLIGLGTPILAVVLSTALSYGLWTLIDALWAGKMTQPTGATYDSLLYSVSFVLVTLIVHVALTRWVVRKANEVEMLLGGALLFLLLLIGSTWFLPGASYLFAIPLLVHFAALTWAAFTRDPRETLIHPAVVLGTSLIPVLMFTSVFHIVFLLLPPGIHLFSVVLIGLILALMSPAVRMLAHSWKWVLPAAFIAIVVLLGIGWSQAEPGPDRPVYENRQAPLKR				NA	NA	NA	NA	NA
AK002_00275	762	knt		Kanamycin nucleotidyltransferase	ATGCTATCTTATCCTGCGGCTACGACCAGAGAAGAGAAAATGAACATCATTCATCACATCAAAGACCGGCTGCTTCACTTGCACGGCGATGACATTCTGGCCATCGGCCTGTACGGCTCGATTGCGCAAGGGATCGATGGTCCTTACTCGGACATTGAGCTTCGGATTGTTACGCAGGACGGAGTCTCCCTGCCCGGGCACGAATTCATATATCCCCCTTTCAAAATCGAAATCGGAATGAAACAGAAACAGGACATCTTCAAGGCTGCTGCGTCTGTGGATGACTCCTGGGCAATTAAGGCCGGCGCCTATGTACACCTGCAGGAAATCTACGATCCGGGGAACCTGCTCGCCGAGATTCGGAAGCTGCCCCTCGAGGTTTCGGAGGAAGCGATCAAAGAAACGATGCGGGAATTCATGATTTGGGAGCCCTACGAAACGATGGGCAAAATCCGAAACAACGTCCAGTCCGGGAACCTTAACTATCTCCCGCTTGGCGCTAAGGACCTGACCTGGCAGACGGCCAAGCTGATTGGACTTGCCAACCGAACCTTTTATCATACAAGAGCGCGGACGTTGGAGGAATCCCTGTCCCTCCCGTCCCGACCTTCCGGTTATGACGAGCTGGCGCAGCTGGTCATGCGCGGACAGCTTCTCCAAATGGATCATGTCTATGAGCTCTGCGAGCAGCTCTGGACCGGACTAAACGCATGGTATGAACAGATGAATATCGAATATAAATTAAGAGAGCTTCCATTCTGA	MLSYPAATTREEKMNIIHHIKDRLLHLHGDDILAIGLYGSIAQGIDGPYSDIELRIVTQDGVSLPGHEFIYPPFKIEIGMKQKQDIFKAAASVDDSWAIKAGAYVHLQEIYDPGNLLAEIRKLPLEVSEEAIKETMREFMIWEPYETMGKIRNNVQSGNLNYLPLGAKDLTWQTAKLIGLANRTFYHTRARTLEESLSLPSRPSGYDELAQLVMRGQLLQMDHVYELCEQLWTGLNAWYEQMNIEYKLRELPF	PGPT0028685_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028685-aadD|knt-K17882	NA	NA
AK002_00276	399			hypothetical protein	TTGAAGTTTAGGAGCGTTATGTCTTGGTTCGTCTTGGCGATGGTGATCGGTTGTTCCGGTTTGAGCAAGATAGAAGTTCCTGAGGAACTGCTGGCGGAAAAAGACGAATTACGAATTCATTATTTCTATGAAGATGCGAATGCGGCGAATGGGCCGAATGAGCAGACGCATGTTGCATGGTGGAGTGAAGAGATCCATATGTCCGATGCCGATCGAGAGGTTTTGCAAGCTACCATTTTACATAATGTAAGGGACGAGACCGGCAGGCAAACGGCGGATGTTATAGGACTAACCAGATTTCCGATTGTTGTATTGGTGAATGATAAAGAAATCGTCTTGAAAACGGATGACTTAAATGAGGTTATAGATTTTCTTGAAAAGATCAGGCAGGGATCATAA	MKFRSVMSWFVLAMVIGCSGLSKIEVPEELLAEKDELRIHYFYEDANAANGPNEQTHVAWWSEEIHMSDADREVLQATILHNVRDETGRQTADVIGLTRFPIVVLVNDKEIVLKTDDLNEVIDFLEKIRQGS				NA	NA	NA	NA	NA
AK002_00277	729			hypothetical protein	ATGAGTAAAGCTGAGCAGAGTAGAGGCAAGACCAAGCAGGCATTGGACCGGGTTGTATTCATTGGCCGCACGTTTGAAGAGTACGCGAACATGTTTGATTTGAAGATGCCGGAGCTTGCCGGTAAAAGGGTGCTGGATTGCCCTTCCGGCGCGTGTTCGTTCACCGCTCACGGTTCGAAGCAGGGTCTCGATATAACGGCCAGTGATATTGCTTATGATCACAAGCCGGATGATCTGGAGGCCAAGGGACTGCAGGATATCGGGCATGCCATGGAAACGATGGAGCAGGCGAAAAGCAATTATGTCTGGGATTATTACGGGGATGTGGAGGGGCTCCGCCGGCATCGCGAGCAAGCGCTCCGCGATTGCGTTAGGGATATGCGGGAGTTTCCGGATCGCTATGTCGCTGCGGTACTGCCGGAGCTGCCTTTTGATAACGAACAGTTTCACCTGGTGCTGTCCGCCCATTTTCTGTTCATGTACAGCGACCGATTGGATTATGACTTTCATGTCCAGACGGTCCGGGAGCTGCTGCGAGTGGCCTCGGAAGAGGTGCGCATCTTCCCGTTGACCGATTTATCGGGGAGCCGCTACGTCCATTTGGACCGTCTGATTCATGAGCTGGAGGCAGAAGGCTTCCGGATAGCGGAAGTTAAAGTACCTTATGAGTTTATGAAGAACGGCAATTCGCTGCTACGCATTCGCAAGTTGCAGAAGTTTAGAAGGTAA	MSKAEQSRGKTKQALDRVVFIGRTFEEYANMFDLKMPELAGKRVLDCPSGACSFTAHGSKQGLDITASDIAYDHKPDDLEAKGLQDIGHAMETMEQAKSNYVWDYYGDVEGLRRHREQALRDCVRDMREFPDRYVAAVLPELPFDNEQFHLVLSAHFLFMYSDRLDYDFHVQTVRELLRVASEEVRIFPLTDLSGSRYVHLDRLIHELEAEGFRIAEVKVPYEFMKNGNSLLRIRKLQKFRR				NA	NA	NA	NA	NA
AK002_00278	663			hypothetical protein	ATGTGTTCAACAGAGAGGGGGCGTGAAGGTGGGCAGCGGGCGAACGGAATCCCGTTGCTCATGGAACCTATGTCACATGACCAACCATTAACGAAAGAAGCCATATTGGACGCGGCCGAGCAGACGCTTCGACGTTATGGCCCAGACAAGACCTCGGTTGTCGATGTGGCCAAAGCGCTGCAGGTGAGCCACGGCTCGCTCTATCGGCATTTTCCCAGCAAGGCCGCTCTCAGAGAAGCCGTCACGGAGCGGTGGCTTCAGCGGATTGCGGATCCGCTGCAGATCATTGCAGACGGGACGAATGGCAGCGCCACCGATCGCTTGCGGTTATGGACGGATACCCTGATCCGGGCTAAGCGGACTTACGTTCTCGAGGATCCCGAGATGTTTGCCATGTACGCGTCCGTGACACTGGAAGCTGTCAAGATCATTGATACGCATGTGAATTTGTTAATCGGGCAGATCACCCAGATTATGGATCAAGGGATGCGTGCCGGTGAATTCAAGCCAGGCCAGCCGGAGTCGGCGGCGAAGGCTTTTTTCATGGCAACCTCCTTGTTTCACCATCCGGCCCATGCCTATCAATGGACTTCGGATGGGATCGAAGCCGCCTTCGAGTCGGTTTGGACGTTATTGTTGGCCGGGATTTCGACGAACGGTTAG	MCSTERGREGGQRANGIPLLMEPMSHDQPLTKEAILDAAEQTLRRYGPDKTSVVDVAKALQVSHGSLYRHFPSKAALREAVTERWLQRIADPLQIIADGTNGSATDRLRLWTDTLIRAKRTYVLEDPEMFAMYASVTLEAVKIIDTHVNLLIGQITQIMDQGMRAGEFKPGQPESAAKAFFMATSLFHHPAHAYQWTSDGIEAAFESVWTLLLAGISTNG				NA	NA	NA	NA	NA
AK002_00279	744	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGACAAAGGGCTTATCGGGCAAGGTAGCTATCGTAACGGGAGCATCGAGAGGCATCGGGCGCGAAATTGCGGAGAGACTTGCGGAGAACGGAGCCAAGGTTGTCGTAAACTATGCAAGCAGTCCGGCTAAAGCCGAGGAAGTGGTGGGCTGCATTAAGCAGGGCGGCGGCGAAGCCCGGGCCATTCAAGCCGATATTAGTCAGGTAGCGGAGATCGAACGGCTGTTTCGTGAAACGATCGAAGCCTATGGCGGAATCGATATCCTCGTGAACAATGCCGGCATCATGACCACCAAGCCGATTGCGGCCATAACGGAGGAGGATTTCGATCAACATTTCGCGATTAACGTGAAGGGGACTTATTTTGCGATCCAGCAGGCTTTTCACCATATGAACTCCGGCGGGCGCATTATCAATTTCTCGACGTCGGTCGCTGGGCAGATGTTCCCGACTTACAGCGTATACGCGGGGACGAAGGGAGCTGTAGAGCAGTTTACGCGTCAGTTGGCCAAGGAATTCGGGCCCAAAGGGATCACGATTAATGCAGTGGCGCCCGGGCCGATTAATACGGAGCTATTTACCGTTGGCAAATCGGAGGAACAGATTGCTGGGATCGTGAGCATGAACTCCTTCGGGCGCTTGGGCGAACCGGATGATATTGCAGGGGTCGTGCTGTTCCTGGCCAGCGAAGAGTCAAAATGGATCACGGGTCAAACGCTGCGCGTGAACGGCGGGTTCGTGTAA	MTKGLSGKVAIVTGASRGIGREIAERLAENGAKVVVNYASSPAKAEEVVGCIKQGGGEARAIQADISQVAEIERLFRETIEAYGGIDILVNNAGIMTTKPIAAITEEDFDQHFAINVKGTYFAIQQAFHHMNSGGRIINFSTSVAGQMFPTYSVYAGTKGAVEQFTRQLAKEFGPKGITINAVAPGPINTELFTVGKSEEQIAGIVSMNSFGRLGEPDDIAGVVLFLASEESKWITGQTLRVNGGFV	PGPT0003180_15643	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
AK002_00280	579	yvdD	COG1611	LOG family protein YvdD	TTGAAATCCATATGCGTATTTGCAGGATCGAACATGGGCGAGCATCCGGACTATAAAGCAAAAGCGGCCGAACTTGGCAGGCATATTGCCCACAACCAATACCAATTAGTATACGGCGGCTCCAACATCGGATTGATGGGTGAAGTAGCCAACGCCGTATTGCAAAATGGCGGCGAAGTGATCGGGGTCATGCCGAGAGGGCTGTTCAAGGGGGAAATCGTACATACCGGGCTGACCCAGCTCATTGAAGTAGCCGATATGCATGAACGCAAAGCGACGATGGGCAAGCTGGCCGACGGGTTTATCGCCATGCCGGGCGGTTTTGGAACCTATGAGGAATTGTTCGAGGTGCTGTGCTGGTCCCAAATCGGAATTCATCAGAAGCCGATCGGGCTGCTCAGTATCCGCGATTATTTTGAACCGTTCATGAAGCTGATTCAGTACAGCATTACCGAGGGCTTCTCCAACTCCTCGCACTTGAACCTGATCAACATGTCCGATGATCCGCTCAAGCTGTTAGAGCTTATGGACAGCTACACGCCTCCGACGCTGGACCTGAAGTGGAAGGACCTGGATTAA	MKSICVFAGSNMGEHPDYKAKAAELGRHIAHNQYQLVYGGSNIGLMGEVANAVLQNGGEVIGVMPRGLFKGEIVHTGLTQLIEVADMHERKATMGKLADGFIAMPGGFGTYEELFEVLCWSQIGIHQKPIGLLSIRDYFEPFMKLIQYSITEGFSNSSHLNLINMSDDPLKLLELMDSYTPPTLDLKWKDLD	PGPT0007225_929	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
AK002_00281	318			hypothetical protein	ATGGATATGAATGAAGCTCAGCAATGGATTAAACAGTTCTACGGTGAAAGAGGCTGGGCCGGTTACGGCCCCTTTATCCGGGTTGGATTTTTGATGGAGGAAGCAGGGGAAACGGCGCGTGCCGTTCGCGCGTATGAGATTGGCAGGGACCGCCCCGATGAGGAGGTTCAGTCGAGGGAACGGCTCAAGCAGGATCTGGTGGAGGAGATCGGGGACGTGCTCGGCAATATTTCGCTGTTGGCGGATCTCTATGATATTTCGCTGGAAGAAGCGTTTACGGCCCATCAGCAGAAGCTGTTGAAACGGTTTGGTTCTTAA	MDMNEAQQWIKQFYGERGWAGYGPFIRVGFLMEEAGETARAVRAYEIGRDRPDEEVQSRERLKQDLVEEIGDVLGNISLLADLYDISLEEAFTAHQQKLLKRFGS				NA	NA	NA	NA	NA
AK002_00282	978	etfA	COG2025	Electron transfer flavoprotein subunit alpha	ATGAGCAAAACGATATTAGTGTATGCCGAGAACCGGGATGGGAAGCTGCGTCAGGTTGCTCTCGAGACGCTTGGCGCTGCCCGTTTAATTGCAGAAGATGGTGACAGCATCCGTATTCTGGTTGCAGGCTCCAACATTACGGAGGCCGTATCGGCCCTGAACGGCTATGGTGCCGATACCATCTATGCCGTCGAGCATGAGGATCTAGAGAGCTATAATCCCGAAGCTTATATGGCCGCCATCGAAGCGGTAATTAGTCAGGCACAGCCCGATGCCGTCCTCTTCGGGCATACGGCCATCGGCCGCGACTTGGCACCGCTTGTCGCCGCTTCCCTGAATGCCGGGCAAATTTCCGACGTAACCGCGATCGAGACTGAAGGTGGAGAAGCGGTATTCACGCGTCCGCTCTATGCGGGTAAAGCCTTTGAGAAACGCGTCTTTCAGAACGGACCGTGGGTGGTCACGGTTCGACCGAACAATATTCCCGCCGCGGAAGCCATCGAAGGCGCCAGCGCCGGCATTGAGGACATCGCTTACCCGGCTCCTTCCCTCCGCTCCGTGGTAAAGGACGTCGTTCGCAAAACCACGGGAAAAATCGACCTATCGGAAGCCAAAATCGTCATCTCCGGCGGGCGCGGCGTGAAGAGCGCGGACGGCTTTAAGCCGCTGGAGGAGCTCGCCGACCTGCTCGGCGGGGCGGTCGGCGCATCGCGCGGCGCCTGCGATGCCGGCTACTGCGATTACGCGCTCCAGATCGGGCAGACCGGCAAAGTCGTCACGCCCGAGATCTATATTGCCTGCGGCATTAGCGGCGCGATCCAGCATTTGGCGGGCATGAGCCAATCCCGGGTCATCATTGCCATCAATAAGGACCCGGAGGCACCGATCTTTAAAGTTGCCGATTACGGCATCGTCGGCGATCTGTTCGATGTCGTCCCGCTGCTGACGCAGGAATTCCGCAAGGTGTTGGTATCCTAG	MSKTILVYAENRDGKLRQVALETLGAARLIAEDGDSIRILVAGSNITEAVSALNGYGADTIYAVEHEDLESYNPEAYMAAIEAVISQAQPDAVLFGHTAIGRDLAPLVAASLNAGQISDVTAIETEGGEAVFTRPLYAGKAFEKRVFQNGPWVVTVRPNNIPAAEAIEGASAGIEDIAYPAPSLRSVVKDVVRKTTGKIDLSEAKIVISGGRGVKSADGFKPLEELADLLGGAVGASRGACDAGYCDYALQIGQTGKVVTPEIYIACGISGAIQHLAGMSQSRVIIAINKDPEAPIFKVADYGIVGDLFDVVPLLTQEFRKVLVS	PGPT0001040_1808	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
AK002_00283	768	etfB	COG2086	Electron transfer flavoprotein subunit beta	ATGAAGATTGTGGTATTGCTTAAACAGACCTTTGACACGGAGGAAAAAATCACGATTGAGAATGGATCGATTGCCGAGGATGGGGTGAAATTCGTCATCAATCCGTATGACGAATATGCGGTAGAAGAAGCCGTGAAGCTTCGGGATGACCACGGCGGCAGCGTGACGCTCCTGTCCGTCGGACCCGACCGTACGGCAGAAGCCCTCCGGACCGCCCTTGCGATGGGGGCGGACGATGCGGTGCTGATCTCCGACGAACGGATTCCGGACGATGAATATGCGGTATCGAAGGTGCTGCATGCGTATTTGTCCAAGGAAAGCCCGGATCTGATCCTCGGCGGCAACTTCTCCGTGGACCGCGGTTCAGGCCAAGTGGCCATCCGCCTGGCACAGCTTCTCGGCATTTCGCACACCGGCTCCATTACCAAGCTTACCCTGAACGGGACCACCGCTGAAGTGCACCGGGATGCGGAAGGCGATCTGGAAGTGCTTGAAGTCCAGCTGCCGGCCATCTTCACCGCACAGCAGGGATTGAACGAACCCCGCTATCCGTCGCTGCCGGGCATCATGAAGGCCAAGAAGAAGCCTTTTCAGACGCTGACCTTGGATGATCTCGGGTTATCCGAACCCGATATTCAGCCGGCAACGAAGCAAAGCGAGCTGTCCTTGCCGCCGGAGCGAAGCGCCGGGCGCATTCTGAAGGGGGAGCCTGCCGAAGTGGCGCATGAGCTGGTATCCTTGCTGCGAACGCAGTCGAAAGTGATTTAA	MKIVVLLKQTFDTEEKITIENGSIAEDGVKFVINPYDEYAVEEAVKLRDDHGGSVTLLSVGPDRTAEALRTALAMGADDAVLISDERIPDDEYAVSKVLHAYLSKESPDLILGGNFSVDRGSGQVAIRLAQLLGISHTGSITKLTLNGTTAEVHRDAEGDLEVLEVQLPAIFTAQQGLNEPRYPSLPGIMKAKKKPFQTLTLDDLGLSEPDIQPATKQSELSLPPERSAGRILKGEPAEVAHELVSLLRTQSKVI	PGPT0001035_2441	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
AK002_00284	591	fadR_1		Fatty acid metabolism regulator protein	ATGACAAGTAAAAAAAATGAAAAATACCACCTGATCCTCCAGGGCGCCCTGAAAGTTTTTGCCGAAAACGGCTATCACCGGTCCCAGGTATCCAAGATCGCCAAGGCTGCCGGCGTGGCCGACGGCACCATCTATCTGTACTTTAAGAGGAAGGAGGATATCCTGATCCGCCTGTTCCAAGAAAAGCTTGGGGAGCTGGTCGGCAAATTCCACGAAAGCGTGGAAGGCACCACGGACGCCGTGGAAGCGCTGCGGACGGTGTGCAGCATCCATTTCTCGGAGCTGGAGAGCAATCCCGAACTTGCCTATGTCACGCAGATTGAGCTGCGGCAGAGCGATTTGGAGCTGCGCAAGGAAATCGGCAGCGCGCTTAAGCCATATATCGTACTGATCGAGAATATCCTGGAACAGGGCATCCAAGAACAGAAATTCCGTTCCGATCTGAACGTCAAGCTGGTCCGCAACCTGATTTTTGGCGCGATGGACGAAGCGGTAACCTCTTGGCTGATCTCCGGCCGTAAATATTCGTTGTCCGATCAAGCGGATGAGACGCTAAGCTTTTTTCTGAGCGGTGTTTCCGGCGGACAATAA	MTSKKNEKYHLILQGALKVFAENGYHRSQVSKIAKAAGVADGTIYLYFKRKEDILIRLFQEKLGELVGKFHESVEGTTDAVEALRTVCSIHFSELESNPELAYVTQIELRQSDLELRKEIGSALKPYIVLIENILEQGIQEQKFRSDLNVKLVRNLIFGAMDEAVTSWLISGRKYSLSDQADETLSFFLSGVSGGQ	PGPT0023505_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_LIPID_DEGRADATION	PLANT_PHOPSHO-|LIPID_DEGRADATION,PGPT0023505-ysiA|fadR-K13770	NA	NA
AK002_00285	2181	fadF	COG0247	putative iron-sulfur-binding oxidoreductase FadF	ATGATTCCAACATTAATCAACGCGCTGCTCTTTGTCTTGATCACGGGCTGGGCAGTGCACATGTTCGCCACCGTGGTGTATCGCCGTTACCTATATATCCGTTTGGGCAAGCCGGCGAATCTGAAGAAGGATCTGAAGGAGCGCCTGAGCCAGTTCGCCATCCAGGTGTTCGGACAGAGCAAGCTGTTTAAGGACCGCAAGAGCGGCATCATGCACTTTATCGTGTTTTACGGATTTATCATTTTGCAGTTCGGGGCGCTCGATATCATCTGGAAAGGGCTGTCGGGCCACAACCTGCCGATTCCGGGCCATGCGGGCTTCATCCTCATGCAGGAGATTACGGTTGCGCTGATTCTGCTGGCCATCGGTTATGCGGCATATCGCCGATATGGCGAGAAGCTGAAACGGCTCAAGCGAGGCTGGAAGCCAAGCATTGTCGTGTTTTTCATCACCACGCTGATGGCTTCGGTGCTCCTGACGATGACTTTTGAACGGCTCATGGAAGGTCTGGCGTGGTCGGCCATGGCACCGATCTCCTCGAGTATCGCGGCCGCGTTTGCCTGGATGCCGCCGGTGGCAATAACGGTGTGTTATTACGTATTCTGGTGGCTTCACCTGCTGATTTTGTTGTCGTTCCTCATTTACGTGCCGCAATCGAAGCATTTTCACCTCATTACGGCACCGATCAACATTCTGGTTCGTCGCACGGATCCCCCGGGCAAGCTCAGCAAGCTGGACCTGGAGGATGAAGAAGCCGAGGAATTCGGGGTAGGCAAAATCGAGGACTTCACGCAAAAGCAGATGCTGGATTTCTATGCCTGCGTTGAATGCGGACGATGCACCAACGTGTGCCCGGCCTCGAACACGGGCAAGCTGCTGTCGCCGATGCACATGATCGTGAAGCTGAGAGACCATCTCACGGAAAAAGGTGCTGCGCTCACCTCCAAATCGGCGTGGATGCCTGCCTCCGTGTTTGGGTCGCCGGGCGTCCACTCCATGGGCGCAACGGATCTGGCGCTTGTCGGCTGGAAGGGCGAGGGGGTCACCGACATCGGACCGACGATGGATGTGCAGAAGCGTTCCTGGCACCAAGTCGAGGGCGTAGACCCGAAGGATATTCAATTGATTGGCGGCGTCATGACCGAGGAAGAGATTTGGGCGTGCACGACCTGCCGCAACTGCGAGGATCAGTGTCCGGTCGCAAATGAGCATGTCGACAAAATCGTGGATCTCCGGCGACATCTCGTTCTGATGGAGGGCAGCGTGCCGCAGGAAGGCCAGCGAGCCATGCAAAACATCGAACGACAAGGCAACCCTTGGGGAATCAGCCGCGCGGACCGGAGCAAGTGGGTGAAGGAGGTTGATCCGGAAGGGACGTTGGATCTGAAGATCCCGACCGTGAAGGAGAATCCGGACTTCGACATTCTGTTCTTTGTCGGTTCCATGGGTTCCTACGACAATCGCAGCCGCAAGATCACCCGGGCATTCGTCCGGCTCATGAATGAAGCGGGCGTCAACTTCGCCATTCTCGGCAACGAGGAGAAGAACTCGGGCGACACTCCGCGCCGGATGGGCAATGAATTTCTGTTCCAGCAGCTGTGCATGGAGAACATCGAGACGTTTCAGAAATACGATGTGAAACGAATCGTCACGGCTTGCCCTCATACCTTCAATATTTTCAAGAACGAATATCCGGAATTTGGACTGGAGGCTGAGGTCGTCCACCATACGGAGCTGCTGGATCAACTGATGAAGGAAGGGCGTCTTAAGCCCAAGTATCAGGTTCAGGAGAAAATCACCTATCATGACTCCTGCTACCTGGGACGGTATAACGACGTATACGATCAGCCGCGCAGCGTGCTTCGCGCCATTCCCGGCGTCGAGCTCCTGGAGATGGAGCGGAGTCGCGAGAACGGGATGTGCTGCGGCGCCGGCGGCGGTCAGATGTGGATGGAGGAGGACGCAGGCAAGCGCGTGAATCTGGCGCGTACCGAACAGGCGCTGGCCGTATCCCCGACGATGATCAGCTCCGCCTGTCCGTTCTGCCTGACGATGCTGGAGGACGGCACGAAGCTGAAGGAAGTGGAAGAAAGCGTGAAAACGCGAGATATTGCGGAAATTCTGGAGTTATCCGTATTTGGTCTATCCGAAATCCATGAACAGGAGGTCGTTGTGCAATGA	MIPTLINALLFVLITGWAVHMFATVVYRRYLYIRLGKPANLKKDLKERLSQFAIQVFGQSKLFKDRKSGIMHFIVFYGFIILQFGALDIIWKGLSGHNLPIPGHAGFILMQEITVALILLAIGYAAYRRYGEKLKRLKRGWKPSIVVFFITTLMASVLLTMTFERLMEGLAWSAMAPISSSIAAAFAWMPPVAITVCYYVFWWLHLLILLSFLIYVPQSKHFHLITAPINILVRRTDPPGKLSKLDLEDEEAEEFGVGKIEDFTQKQMLDFYACVECGRCTNVCPASNTGKLLSPMHMIVKLRDHLTEKGAALTSKSAWMPASVFGSPGVHSMGATDLALVGWKGEGVTDIGPTMDVQKRSWHQVEGVDPKDIQLIGGVMTEEEIWACTTCRNCEDQCPVANEHVDKIVDLRRHLVLMEGSVPQEGQRAMQNIERQGNPWGISRADRSKWVKEVDPEGTLDLKIPTVKENPDFDILFFVGSMGSYDNRSRKITRAFVRLMNEAGVNFAILGNEEKNSGDTPRRMGNEFLFQQLCMENIETFQKYDVKRIVTACPHTFNIFKNEYPEFGLEAEVVHHTELLDQLMKEGRLKPKYQVQEKITYHDSCYLGRYNDVYDQPRSVLRAIPGVELLEMERSRENGMCCGAGGGQMWMEEDAGKRVNLARTEQALAVSPTMISSACPFCLTMLEDGTKLKEVEESVKTRDIAEILELSVFGLSEIHEQEVVVQ				NA	NA	NA	NA	NA
AK002_00286	2442	fadN	COG1024	putative 3-hydroxyacyl-CoA dehydrogenase	ATGAGTAATACCATTACCAAAGAAGCCGTCAGCGGTTCCGGGGTCGCAATTCGAAACATCACTAAAGCCGCCGTGATCGGCTCGGGCGTCATGGGATCGGGGATCGCCGCCCATCTTGCCAACGCAGGCATTCCCTGCCTGCTGCTCGACATCGTTCCGAATGCCTTGACCGCCGAGGAGGAAAAGGCCGGCCTGACGCTGGATCATCCGAAGGTACGAAACAGGCTTGCCGCCAAGGCGATAGCGGCTCTGCCTAAATCAAGCACCGCTCCGCTCTACAGCGCTGATTTTGCGGATCGGATCACGCCGGGAAACACCGAGGATCATCTAAGCCTGTTGAAGGATGTGGACTGGATCATCGAGGTGGTTACGGAACGCCTGGAAATCAAAAAGAGTATCTTCAAGCAGATTGAAGGCGTGCGTAAGGAAGGATCGATCGTCAGCACGAACACCTCGGGCATTTCCGTCAATGCGATGGTCGAAGAATGCAGCGAGGAATTCCGCAGCCACTTCCTGGGAACCCATTTCTTCAATCCGCCGCGTCATATGAAGCTGCTTGAGATTATTCCGGGCTTTGATACCGATCCGAACATTACGAAGTTTATGGTTGAATTTTGCACGAAGCGCCTTGGTAAAGGGGTTGTGCTTGCGAAGGACACGCCGAATTTCATCTCGAACCGGATCGGCACCTACGGACTTCTGGTCACGCTGCAGGAGATGGTGAAGAACAGCTATACCGTGGAGGAAGTAGATGCGGCCACGGGTCCTGTTCTGGGACGTCCAAAGAGCGCCACCTTCCGCACGCTGGATCTGGTTGGCATCGATACGTTTGTCCATGTGGCCAGAAACGTGTACGACTCCGTACCGGACGGCGAGGAGAAAGACGTGTTCACGGTGCCCGACGTCATGAATGAGCTTGTCGCCCGCGGCTGGACCGGGGAGAAGGGCGGCCAGGGCTTCTATAAAAAAGTAAAAGGGGATCAAGGCAGCAAAATCCTATCGCTCAATCTGTCCACGATGGAGTACAATCCGAGCGCCAAAGTGAGCTCCGCTTCCATCGAAGCTGCTAAAGCGGTAAAGGGAGCCAAGCGGAAGATCAAGGCTTTCCTGGGGACGCAGGATCGTTACTCGGAGCTGGCCTGGAATGTATTGAAGCAAGTGCTCGTCTATGCGGCCGGCAAGCTGGGAGAGATCGCCGATTCCATCCAGGACATCGACAACGCGATGAAATGGGGGTTCAACTGGGAGCTCGGTCCCTTCGAGACCTGGGATCTGATCGGACTGCCGGAATCCGTGCAGCGCATGGAAGCAGAGGGCTTGACCGTCCCGGCGTGGGTGAAGGAGTGGGTTGCCGAAGGCAACAAATCCTTCTATCAGGAGAAGGACGGCGAGGTGTTCCATTATTTCAAAGGCGAGTATAAGGGCGTTGAGGTTCAGCCTGAGCTGATCTCGCTGCAAGCGCTCAAATCGCAAAACCGGATCATCCGCTCGAATACGGGGGCGAATCTGATCGATATTGGGGATGGCGTTGCATGCCTTGAATTCACTTCGCCGAACAACGCGATCGGCGCCGATATTCTGGTCATGATTCAGCAGAGCGTGGAAGAGGTCAGGGCCAATTACCGCGGGCTGGTGCTGGCGAACGAAGGCCGGAACTTCTGCGTCGGCGCCAATCTGATGCTCATGCTGATGGAAGCGCAGAGCGGCGACTGGGATGAGGTGGATGACATCATCCGTCTGTTCCAGGGCAGCATGATGAAGCTGAAGGGCCTGGAGAAGCCGGTTGTCGCCGCGCCTCACCGGATGACGCTGGGCGGCGGCGTGGAAGCGTGTCTGCCGGCGGACCGGATCATTTTCTCGGCGGAGACCTATTTCGGGCTGGTGGAGACGGGGGTCGGCCTCATTCCGGCAGGCGGCGGCTGCAAGGAGCTGGCGCTAATGACCAGCAACCGCCATCCCGACAAGGACAGCGACCTCCAGCCGGAGATCAACAAAATCTTCGAGATGGTGGCGATGGCCAAGGCATCGACTAGCGGACATGAAGCGATCCGCATGGGGTATGGACGCAGCGGGGATACGGTGGTCATGAATCAGGATTACCGGATCCATGAAGCAAAGCAGGCCGTGTTAGCGATGGACCGGGCGGGTTATGTGCCGCCGCAGCCGGGCAAAGCCCGCGTTGTCGGCCGCGATGGCCGGGCCGTGCTCCAAATGGGCGCGATCGACATGAAGCGAAGCGGCTATATCAGCGATCACGATCTGTTGATCGCGAAGAAGCTGGCGCATATCCTGACGGGCGGCGACGTCCCTGCGGGAACGGTCGTGAGCGAGCAGCATCTGCTCGACCTGGAGCGCGAAGCGTTCCTCAGCCTGCTCGGGGAGGTCAAGACCCAGCAGCGCATGCAGCATATGCTGGCAAAAGGCAAGCCGCTGCGGAATTAA	MSNTITKEAVSGSGVAIRNITKAAVIGSGVMGSGIAAHLANAGIPCLLLDIVPNALTAEEEKAGLTLDHPKVRNRLAAKAIAALPKSSTAPLYSADFADRITPGNTEDHLSLLKDVDWIIEVVTERLEIKKSIFKQIEGVRKEGSIVSTNTSGISVNAMVEECSEEFRSHFLGTHFFNPPRHMKLLEIIPGFDTDPNITKFMVEFCTKRLGKGVVLAKDTPNFISNRIGTYGLLVTLQEMVKNSYTVEEVDAATGPVLGRPKSATFRTLDLVGIDTFVHVARNVYDSVPDGEEKDVFTVPDVMNELVARGWTGEKGGQGFYKKVKGDQGSKILSLNLSTMEYNPSAKVSSASIEAAKAVKGAKRKIKAFLGTQDRYSELAWNVLKQVLVYAAGKLGEIADSIQDIDNAMKWGFNWELGPFETWDLIGLPESVQRMEAEGLTVPAWVKEWVAEGNKSFYQEKDGEVFHYFKGEYKGVEVQPELISLQALKSQNRIIRSNTGANLIDIGDGVACLEFTSPNNAIGADILVMIQQSVEEVRANYRGLVLANEGRNFCVGANLMLMLMEAQSGDWDEVDDIIRLFQGSMMKLKGLEKPVVAAPHRMTLGGGVEACLPADRIIFSAETYFGLVETGVGLIPAGGGCKELALMTSNRHPDKDSDLQPEINKIFEMVAMAKASTSGHEAIRMGYGRSGDTVVMNQDYRIHEAKQAVLAMDRAGYVPPQPGKARVVGRDGRAVLQMGAIDMKRSGYISDHDLLIAKKLAHILTGGDVPAGTVVSEQHLLDLEREAFLSLLGEVKTQQRMQHMLAKGKPLRN	PGPT0008395_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
AK002_00287	1191	fadA	COG0183	3-ketoacyl-CoA thiolase	ATGAGAGAAGCAGTCATAGTATCCCTTGCTCGCACCCCGGTGGGGAAGGCGAAGAAGGGCAGTTTTGCCCAGACGCGCGTAGAGGATCTCGGCAAAGCCGTACTGGAAGCCGTCATTGAGCGTGCGCCGGGCCTGAAAAAAGAGGACGTCGAGGACATTATCCTCGGCTGCGCGATGCCGGAAGGCGAGCAGGGCCTTAACGTTGCGCGGATTATTTCCTTGTATGCGGGTTATCCGGTCACGGTGCCGGCCTTGACCGTCAATCGCTTCTGTTCGTCCGGACTTCAGGCGATCGCTTTTGCTGCGGAACGCATTATGCTCGGCCATGCCGAGGTCATCGTTGCCGGCGGCGTCGAGAGCATGAGCCATGTGCCGATGACCGGCTTCAAGCCGGCACCGCATCCGACGATCGTCGAAGAGATGTCGGAGGTTTACATCGGCATGGGCCATACGGCGGAAGAGGTAGCCCGCCGCTTCGGCATCACCCGCGAGGCGCAGGATGCCTTCGCGGCCAGCAGTCACCGCAAGGCCGCAGCCGCTATCTCCGAAGGCAAGTTCCGGGACGAGATCGTACCGGTGAACGTAACGCTGGCTGCCGCCGATGAGCAGGGCAAGGTGCGCAGCAAAACCTTAGCCATCGATACGGATGAAGGAGTTCGGCCAGACACAACACCGGATGTGCTGGCCAGACTGAAGCCGGCCTTTGCCCTCGGCGGCTCGGTTACCGCGGGCAATGCGTCGCAGACGAGCGACGGCGCGGCGGCGGTAGCCGTCATGAGTCGCGAGAAAGCGGAGCAGCTGGGCCTTGACCCGCTGGCTACCTTCAAATCGTTTGCCCTGGCAGGCGTGGAGCCGGAAATTATGGGCGTCGGCCCCGTGGAAGCGATCCCGAAGGCGCTGCGCATGGCGGGCATCGAGCTGGATCAAGTGGATGTGTTCGAGATTAACGAAGCGTTCGCTTCGCAATGCCTCCACATCATCCGCGCGCTGGGGATCGACGAGAGTAAGGTCAACGTCAACGGCGGCGCCATTGCGCTTGGCCATCCGCTCGGCTGCACCGGCGCCAAGTTGACCGTCAGCCTCGTCTCCGAGCTCGCCCGCCGCGGCGGCGGCTACGGCGTCGTGAGTATGTGCATCGGCGGCGGCATGGGCGCAGCGGGAGTGTTCGAGGTGCATGCCGCCGGGGCGTAA	MREAVIVSLARTPVGKAKKGSFAQTRVEDLGKAVLEAVIERAPGLKKEDVEDIILGCAMPEGEQGLNVARIISLYAGYPVTVPALTVNRFCSSGLQAIAFAAERIMLGHAEVIVAGGVESMSHVPMTGFKPAPHPTIVEEMSEVYIGMGHTAEEVARRFGITREAQDAFAASSHRKAAAAISEGKFRDEIVPVNVTLAAADEQGKVRSKTLAIDTDEGVRPDTTPDVLARLKPAFALGGSVTAGNASQTSDGAAAVAVMSREKAEQLGLDPLATFKSFALAGVEPEIMGVGPVEAIPKALRMAGIELDQVDVFEINEAFASQCLHIIRALGIDESKVNVNGGAIALGHPLGCTGAKLTVSLVSELARRGGGYGVVSMCIGGGMGAAGVFEVHAAGA	PGPT0001565_2790	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
AK002_00288	1791	fadE	COG1960	putative acyl-CoA dehydrogenase	ATGAGCGATAACCAAACCAAAGAACCGAAAATCAAAGGCGGCAGCTTTGTCATCGACAATCCCGATATGCAGCGCATCCTGACACCAGAGGATTTTACGGAAGAGCATCGCATGATCGGCGAGACGGTGCGCGATTTTATCGACGGCGAAGTGGTGCCGCACGATGAAGAGCTGGAGAAGCTGAATTACGAGATGACGGTAGACCTGCTTCGCAAAGCAGGCGAGTTGGGCCTGCTTGGAGCCGATGTGCCGGAGCTGTTCGGCGGGATCGGACTGGATAAGGTCAGCTCTACGATTATTAACGAAAACTTGGCGAAGGGATCGTCCTTTGCGCTTTCCTTCGGGGCTCATGTGGGGATCGGAACACTGCCGATCGTGTTCTTCGGCACGACCGAGCAGAAACAGAAGTACCTGCCGGATCTCTCGACCGGTGCGAAAATTGCGGCTTATTGCTTGACGGAGCCGACCTCCGGCTCGGATGCGCTGGGCGCCAAAACGACGGCACGCCTGTCCGACGACGGGGAGTATTATATTTTGAACGGATCGAAGCTATATATAACTAACGCCGGATTTGCGGATATCTTTATCGTCTACGCCAAGATTGACGGAGAGCACTTCACCGCGTTCATCGTTGAGAAGGAGATGGAAGGCTTCACGCTCGGGCCGGAGGAGAAGAAGATGGGCATCAAGGGCTCGTCGACGCGTCCGCTCTTCTTCGAAGACGTGAAGGTACCGAAGGAGAACCTGCTCGGCGAGATCGGCAAGGGCCACCGGATCGCCTTCAACATCCTGAACATCGGCAGGTACAAATTGGCGGCTGGTACTGTCGGTGCAGCGAAGGAATCGATCGAGCTGAGCGCGAAATATGCTAACACCCGCAAACAGTTCGATACGCCCATTTCGCAGTTCCCGCTCATGCGCAAGAAGCTGGCCGAGATGAACATCACCGCCTTCGTGATGGAGAGCATGGTGTACCGTACGGCAGGACTGCTGGACGAAGCGATGCAGGACATCGATTACAACAGCGAGGATGCAGGCATCCACTCGGCGGCCGCGATTTCCGACTATGCCATCGAATGCTCGATCAACAAGGTGTTCTGTTCGGAAGGACTGGATAACGTGGCAGACGAAGCGGTGCAGATTCACGGGGGCTATGGGTACATCCAAGAGTATAAAGTGGAACGCATCTATCGGGACTCCCGCATCAACCGCATCTTCGAAGGCACGAACGAGATCAACCGGCTCCTCATTCCGGGCACGCTCGTGAAGAAGGCGATGAAAGGCGAAATCGCGCTCCTGCAAAAAGCGCAAGGCCTGCAAGGGGAGCTGCTCCAGCTGGTACCGGGCCAAACCTTTGAAGGAACGCTGGAGCAGGAAGCGCATTTCCTGGACATGAGCAAGAAGATTTTCCTCCTCGCCGGCGGTCTGGCCGTTCAGAAGTTCGGCGCGAAGCTGGAGAAGGAGCAGGAGGCCTTGTCCAACCTGGCGGATATGATGATTGATATTTATGCCCTCGAAAGCGCATTGCTGCGCACCCGCAAGCAAATCGAACGCACCTCGGAGGAAAAAGCAGCGAGCATGATCGAGATGACGCAGGTGTTTGCTTACGAGGCGTTCCAGCGCATTGAAGCACTCGCCAAAGAAACGCTGGCTTCGGTGGAAACCGGCGACATGCTGCGGATGCAGCTGTCGGTGCTCAAGAAGCTGACGCGCTGCACGCCGGTCGATACGGTGGCCCTCAAGCGCAGCATCGCAGCCCGCGTGGTCAAGAACGAGCGGTACACGGTGTAA	MSDNQTKEPKIKGGSFVIDNPDMQRILTPEDFTEEHRMIGETVRDFIDGEVVPHDEELEKLNYEMTVDLLRKAGELGLLGADVPELFGGIGLDKVSSTIINENLAKGSSFALSFGAHVGIGTLPIVFFGTTEQKQKYLPDLSTGAKIAAYCLTEPTSGSDALGAKTTARLSDDGEYYILNGSKLYITNAGFADIFIVYAKIDGEHFTAFIVEKEMEGFTLGPEEKKMGIKGSSTRPLFFEDVKVPKENLLGEIGKGHRIAFNILNIGRYKLAAGTVGAAKESIELSAKYANTRKQFDTPISQFPLMRKKLAEMNITAFVMESMVYRTAGLLDEAMQDIDYNSEDAGIHSAAAISDYAIECSINKVFCSEGLDNVADEAVQIHGGYGYIQEYKVERIYRDSRINRIFEGTNEINRLLIPGTLVKKAMKGEIALLQKAQGLQGELLQLVPGQTFEGTLEQEAHFLDMSKKIFLLAGGLAVQKFGAKLEKEQEALSNLADMMIDIYALESALLRTRKQIERTSEEKAASMIEMTQVFAYEAFQRIEALAKETLASVETGDMLRMQLSVLKKLTRCTPVDTVALKRSIAARVVKNERYTV	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
AK002_00289	1677	fadD	COG0318	Long-chain-fatty-acid--CoA ligase	ATGGATACAAAGCCTTGGCTGCCGTTTTATCCGCCCGAAGTAGCCCCCGCTTTTGATTATCCGAAACAGAATTTGGCATTATTTCTCGTAACGTCGGCGCAGAAGTTTCCGAATCGTCCGGCCCTGTATTTCATGGGAAAGACGATCAACTACAGGAGTCTGCTGGATTCGTCATACCGGATGGCGAATGCGCTCCGCAGCAAAGGGATCAAGAAGGGCGACCGGGTAGCGATTATGCTGCCCAACTGCCCGCAGGTCGTTATTTCTTATTATGGCGTGCTGCTCGCAGGAGCCGTGGCCGTCATGACCAACCCGCTCTATATGGAGCGGGAAATTGCGCATCAGATGAAGGATTCCGGTGCCAAGATCATCATTACGATGGATATGTTCGTATCCCGCGTTGAAAAAGTCATCGAGGAGACGGAACTGGAGCATATGATCGTCACGTCCGTGGCGGATTATCTGCCGTTCCCCAAGAATCTTCTCTACCCGATCAAAGCCAAGAAGGAAGGCCCTCTTCCGGTCGTCGACTACGGAAGCCGCGTCCATGCCTTCAAAAAGCTGCTTGCTGGCGCGCCGAATGATCCCGTCTGCGAATCCGTGAAAGCGGAGAAGGATTTGGCCCTGCTCCAATATACAGGCGGCACGACCGGTGTTCCCAAAGGCGTCATGCTGACGCATATGAATCTGATCGCCAATACTGTGCAGTCTGCGAACTGGTGCTTTCAGGTGGAGGATGGGAAGGAGCGCTATTTAGCGGTTTTGCCCTGTTTTCACGTATTCGGGTTGACCGTACTGCTGAACCAGGCGATCTACCGTGCCGGCATGCTGATATTGGTACCGAAGTTCGAAGTGACGATGATTCTGAACCTGATCAAAAAAATGAAGCCGACACTCTTCCCAGGCGCCCCGACCATGTATATCGCGCTGATAAATCACCCGCGGATCAAGGAATACGATCTGTCGTCGATCAATGCCTGCGTCAGCGGCTCTGCCGGGCTTCCGGTCGAGGTGCAGGATAAGTTCGAGGAGTTGACCAAAGGTCGGCTGATCGAAGGCTACGGCCTGACCGAGGCGTCCCCGGTTACCCATGTGAATCCGATATGGGGGAGGCGGAAGATCGGCACCATCGGCGTCCCCGTTCCGGATACGGACGCGAAGGTCGTGGATCCGGAGACGGGCGAAGAAATGCCGGTCGGCGAGCCTGGCGAGCTGATCGTGAAGGGACCGCAGGTGATGATGGGGTATTGGAACCGGCCGGAGGAGACGTTTGATACGCTCCGCAACGGCTGGCTGTTCACGGGCGACATGGCCACGATGGACGAAGAGGGGTATTTTACGATCATCGACCGCAAGAAAGACATGATCATTGCAAGCGGTTTCAATATTTATCCTCGGGAGATCGAGGAAGTGCTGTATGAGCATCCGTCCGTGAAGGAAGCCGTCGTGGTCGGAACGAAGGACGATTATCGCGGCGAAACCGTGAGAGCTTATATTGTACTGAAGGATGGCGCGTCTCCGGACCCTTCGGGCCTGGAGAAGTTTTGCCGCAGCCAGCTGGCGGCCTATAAAGTGCCGCGTGAATATGTCTTCCGCGATTCGCTGCCGAAGACGATGGTAGGCAAGGTGCTGCGCCGCAAGCTGCTGGAGGAGGAAGAGGAAGGCAGAACGGGCTGA	MDTKPWLPFYPPEVAPAFDYPKQNLALFLVTSAQKFPNRPALYFMGKTINYRSLLDSSYRMANALRSKGIKKGDRVAIMLPNCPQVVISYYGVLLAGAVAVMTNPLYMEREIAHQMKDSGAKIIITMDMFVSRVEKVIEETELEHMIVTSVADYLPFPKNLLYPIKAKKEGPLPVVDYGSRVHAFKKLLAGAPNDPVCESVKAEKDLALLQYTGGTTGVPKGVMLTHMNLIANTVQSANWCFQVEDGKERYLAVLPCFHVFGLTVLLNQAIYRAGMLILVPKFEVTMILNLIKKMKPTLFPGAPTMYIALINHPRIKEYDLSSINACVSGSAGLPVEVQDKFEELTKGRLIEGYGLTEASPVTHVNPIWGRRKIGTIGVPVPDTDAKVVDPETGEEMPVGEPGELIVKGPQVMMGYWNRPEETFDTLRNGWLFTGDMATMDEEGYFTIIDRKKDMIIASGFNIYPREIEEVLYEHPSVKEAVVVGTKDDYRGETVRAYIVLKDGASPDPSGLEKFCRSQLAAYKVPREYVFRDSLPKTMVGKVLRRKLLEEEEEGRTG	PGPT0008380_10468	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK002_00290	450			hypothetical protein	ATGAATCATACCAATGTCAACCCCGACGCGAAGGCCGAACAGCCGGCATTCGACCGGGAGGCGTACATCGAGGCCATGACCAAAGCGGCGGAGCCCACCTTTTGGGGATATCTCGGCTGCAAGCTTGCGTCAGCCAGCTCGGAGGCGGTTGTTGTCACGCTGGATGCGCAGCCTCATCATATGAATATGATGGGCATCGTGCATGGCGGTGTGCTCTCCTCACTGATGGATAACGCCATGGGCATTGCCGTCATGCTGGAGCGTCCCGGCGAATCGACGGTGACAAGCAATCTGAACGTGCATTTTGTCATGCCGGCCAGGGCCGGGGTCCTTACGGTTACGGCAAGCATCGTGCATCAGACGCACCGTTCGGTCACGACGGAATGCAGAATAACGAACGATAAGGGCGAGCTGGTCGCGATCAGCACAGGATCGTTCCGAGTGAAATAA	MNHTNVNPDAKAEQPAFDREAYIEAMTKAAEPTFWGYLGCKLASASSEAVVVTLDAQPHHMNMMGIVHGGVLSSLMDNAMGIAVMLERPGESTVTSNLNVHFVMPARAGVLTVTASIVHQTHRSVTTECRITNDKGELVAISTGSFRVK				NA	NA	NA	NA	NA
AK002_00291	402			hypothetical protein	TTGAGAATAAAAGTAATCATCTCATTATTGACCTTATTATTCGTGTTCGGAATCTTTCTTCAATTCATTATTTTCGACAGCAAATCTATTGAAACAAAGATTGTTGAACAGCTTACTATTCAAGATAATACGTTTAAAGAATTGGTTCATTATGACATGAAAAACAATAATATTTATGCCTTTTATACAAATACAGTATATAACACTTACCCTGGACTTGGATTAGGTGTATTAGAGAACAATAGAATGATGAAAGCGAACATAGTAGGAGGTATACCGATTGCTTCAAATAAAGGTTTTACATATGAAGTTGCTGAGTCCGAACAATTTAGCGTTGTTTACGGGACAATTACCAACCCTCAAATAACGACAATAGAGGTAAATGGGAAAAAGGTAATTTAG	MRIKVIISLLTLLFVFGIFLQFIIFDSKSIETKIVEQLTIQDNTFKELVHYDMKNNNIYAFYTNTVYNTYPGLGLGVLENNRMMKANIVGGIPIASNKGFTYEVAESEQFSVVYGTITNPQITTIEVNGKKVI				NA	NA	NA	NA	NA
AK002_00292	231	secG	COG1314	putative protein-export membrane protein SecG	ATGGTTGTATTTTTTGAAGTGTTGCTTGTTATTTTCTCCATCGGGTTGATTACTGTCGTTCTTCTCCAAAAAGGGAAAAGCGCAGGTCTTGCCGGTGCCATCTCCGGCGGTGCGGAACATCTTTTTGGTAAAACGAAGGCTCGCGGTATGGATCTCGTACTGCAGCGTACAACGGTAGGTCTTGCAGCAGGATTTATGATTTTGGCCATCGTTGTTGCTATGTTGAAATAA	MVVFFEVLLVIFSIGLITVVLLQKGKSAGLAGAISGGAEHLFGKTKARGMDLVLQRTTVGLAAGFMILAIVVAMLK	PGPT0025720_4016	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
AK002_00293	2646	rnr	COG0557	Ribonuclease R	ATGATGATAACTGAAGAAATATTACTGAATTTTATGCGGGAAACTGCATACAAACCGATGACGTACCAGGAATTGGAGCAGCATTTTGCCATTAAGGATGCCCATGAATTCAGGGAATTCCTGAAGCTGCTGAATGAGCTTGAGCAATCCGGAAAAATCATTCTGACCAGCACCGAGCGTTATGGCGTGCCGGAACGGATGAATTTGCTGCGCGGACGTCTGCAGGCACATGCGAAGGGTTTTGCCTTTCTGATTCCCGATGATCGCGAGCACCCGGATGTGTACATTCATGCCAATGACTTGAAGAGTGCGATGAATGGAGATATCGTGCTTATCCGGATCAGTTCCAAACAGAACGACGGCGGCAAAATGGAAGGCGAAGTGGTCCGTATCGTGACGCGCGCCGTCACCCAAGTCGTGGGTGTATTCCAGAACCATGAAGCCTATGGCTTCGTGCTGCCGGATGACAAGCGGATCAACCGGGATATTTTTATTCCGAAGCATGCGATGAACGGAGCCGTTGATGGCGTGAAGGTCGTGGTGAAGCTGGTGAGCTATCCGGAAGGAAGAGCTGCGGCAGAGGGCGAAGTGGTGGAGATTCTGGGTCACAAGGATGATCCGGGTGTCGACATTCTGTCCATTATCCGCAAGCATCAGCTGCCGGAAGGTTTTCCGGAGGAAGTGCTGGCTGAGGCGGATGCAGCGCCGGATTCCATTACGGAAGATGAGATTGTGCAGCAGGGACGCCGTGATTTGCGCGGCTTGAACATTGTGACAATTGACGGTGAAGATGCCAAGGATCTCGATGATGCGGTAAATGTGGAACGTCTGCCGAACGGGAATTACCGTCTAGGCGTCCATATTGCCGATGTCAGCTATTACGTCCGCGAGCGTTCCGAGCTGGATAAGGAAGCTTACAATCGCGGCTGCAGCGTGTATTTGGTGGATCGGGTGATTCCGATGCTGCCGCACCGCCTGTCTAACGGCATATGCAGCTTGAATCCGCAGGTGGATCGTCTGACGATGTCCTGTGAGATGGAATTCAACGATCAGATGAAAGTCGTGAAGCACGATATCTTTACGAGTGTTATCCGTACGAAAGAACGGATGACGTATAACAATGTGAGAAAAATCCTGGTGGATGAGGATCCGGAGCTGATCGAGCGCTATAGTGACCTCGTGGAGGATTTCCGCTTGATGCGCGAGCTCGCGCTGAAGCTGCGGAACCGCCGGATGCGCCGGGGTGCGGTGGATTTTGATTTTGTGGAATCCAAGGTCATTGTGGATGAGAACGGCAAAGCCGTGGATATCGTCAAAAGAGAACGCTCCATCGCGGAGCAGATCATTGAAGAATTCATGCTGGCGGCCAACGAAACCGTAGCTGAGCATTTCCACTGGCTGAAGGTACCGTTCATCTACCGGATCCATGAGGATCCGGATCAGGAGAAGCTGCAGAACTTTATGGCGTTTGCGGCCAATTTCGGGCATCAGGTGAAGGGACGGGGCAACTCGATCCATCCGCGTGCGCTGCAAAACCTGTTGGAAGCCATTCAAGGCACGAAGGAGCAAACGGTGCTCAGCACGATGATGCTCCGATCGATGAAGCAGGCGAAATATGATGCAGAGAGCACGGGCCACTTCGGTCTTGCGGCCGAATATTATTCTCACTTTACGTCTCCGATTCGGCGTTATCCCGATCTGGTCATTCACCGGGTCATCCGGGAAGTGCTGGAGAGTGGCGGCGCGCTTAATGAGAAGCGCCATGAGCATCTGGCCGGTCGGATGGCTGACATCGCTCAGCAATCCTCGGAGCGCGAGCGTGTAGCCGTGGATGCGGAGCGCGATACGGAAGCGCTCAAGAAAGCCGAGTTCATGCTGGATAAGGTCGGCGAAGAGTTCGAAGGCATTATCAGCAGCGTGACCAGCTTCGGCATGTTCATTGAGCTGGAGAATACGGTCGAAGGCTTGATTCGTCTCAGCGCGATGACCGACGATTATTATCACTTCGATGAGGGCCATATGGCGCTGATCGGGGAGCGGACCTCGAAGGTATACCGCATCGGTGATGATGTGAAGGTTCGCGTGGCGAAGGTGAACATGGACGATCACACCATCGATTTTGAGATGGTGGACATGAAGCCGCGCCGCCAAGGGCGCGGCGAAGGCGACCGCGGCGGCAATGGCGGCCGCGGATTTGGTGCCCGCGATGGCGCAGCCCGCGGGGGCAAGGGCCGCGGCGGCAAACGCGGCGCGGCTGAAGGCGGCGCGCCAGGCGGGCGCCGCAGTGACAGCGCCGGAGGCCAGGGCGGCCGCGGCAAGCGCGGCGGCGAGGCGCCGGCAGGTGCGAGTGCTGGCGCAGGCGCAGGCGAGCAGCAGGCGTCGAACTTCGCCTTTGGCTCCGGCAAAGGCGGATACAGCTCCGCTGGGGGCGGCGCTCTCGGCTTTGACCGCAATGCACGCAGCTCTGGCGGTGCCGGTGGGAAGAACCGACGCAAGAAGACGTCGGGCAGCGGCATTTTCATCGGCGAAGGTCCAACTCCAGGCGGCAACGTTGGAGGGAACTCCGGCGGAGGCGGCGGTGGCCGTAAACGGAAGAGCCAAGGCGGAAACGGCACGGCCGCTTTTGTACGCAAGAAGAAAAAGTAA	MMITEEILLNFMRETAYKPMTYQELEQHFAIKDAHEFREFLKLLNELEQSGKIILTSTERYGVPERMNLLRGRLQAHAKGFAFLIPDDREHPDVYIHANDLKSAMNGDIVLIRISSKQNDGGKMEGEVVRIVTRAVTQVVGVFQNHEAYGFVLPDDKRINRDIFIPKHAMNGAVDGVKVVVKLVSYPEGRAAAEGEVVEILGHKDDPGVDILSIIRKHQLPEGFPEEVLAEADAAPDSITEDEIVQQGRRDLRGLNIVTIDGEDAKDLDDAVNVERLPNGNYRLGVHIADVSYYVRERSELDKEAYNRGCSVYLVDRVIPMLPHRLSNGICSLNPQVDRLTMSCEMEFNDQMKVVKHDIFTSVIRTKERMTYNNVRKILVDEDPELIERYSDLVEDFRLMRELALKLRNRRMRRGAVDFDFVESKVIVDENGKAVDIVKRERSIAEQIIEEFMLAANETVAEHFHWLKVPFIYRIHEDPDQEKLQNFMAFAANFGHQVKGRGNSIHPRALQNLLEAIQGTKEQTVLSTMMLRSMKQAKYDAESTGHFGLAAEYYSHFTSPIRRYPDLVIHRVIREVLESGGALNEKRHEHLAGRMADIAQQSSERERVAVDAERDTEALKKAEFMLDKVGEEFEGIISSVTSFGMFIELENTVEGLIRLSAMTDDYYHFDEGHMALIGERTSKVYRIGDDVKVRVAKVNMDDHTIDFEMVDMKPRRQGRGEGDRGGNGGRGFGARDGAARGGKGRGGKRGAAEGGAPGGRRSDSAGGQGGRGKRGGEAPAGASAGAGAGEQQASNFAFGSGKGGYSSAGGGALGFDRNARSSGGAGGKNRRKKTSGSGIFIGEGPTPGGNVGGNSGGGGGGRKRKSQGGNGTAAFVRKKKK				NA	NA	NA	NA	NA
AK002_00294	480	smpB	COG0691	SsrA-binding protein	ATGGGTAAGAAAAGTGACGGGAAGGTTCTGGCCCAGAACAAAAAAGCTTCCCATGATTATTTCATCGAGGATACGTATGAAGCCGGGATGGTGTTGACCGGAACGGAGATCAAATCCATACGGAACGGCCGTGCCAATATTGGAGATGCGTTCGCTACCATTCGGAATGGCGAGATTCATATTCATAACATGCATATCAGCCCGTTCGAGCAGGGGAACCGCAACAACCCGACGGACCCTACGCGGACACGGAAGCTGCTGCTGCATAAGGAGCAGATCCGCAAGCTGCTGGGCCTGTCCAAGCAGGATGGCTACGCGATTGTACCGTTGAAGATTTATATCCGTAACGGCTATGCGAAGTTGTTGCTGGGCCTTGGTAAAGGTAAGCGTCAGTACGACAAGCGTGCCGATGCCGCCAAGAAGGACGCACAACGCGATATCCAGCGTGCGCTGCGCGAGAAGCAGAAGATTGCACGGTAA	MGKKSDGKVLAQNKKASHDYFIEDTYEAGMVLTGTEIKSIRNGRANIGDAFATIRNGEIHIHNMHISPFEQGNRNNPTDPTRTRKLLLHKEQIRKLLGLSKQDGYAIVPLKIYIRNGYAKLLLGLGKGKRQYDKRADAAKKDAQRDIQRALREKQKIAR	PGPT0014355_21	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
AK002_00296	99			hypothetical protein	ATGGTTGCCAATCGAGAGCAGCTTCAAGAAATTCTGAAAAAAAGCGAATCAACATGCACGCAAGAAGCCAGGGGCATCCATTTACTATATCAAGAATAA	MVANREQLQEILKKSESTCTQEARGIHLLYQE				NA	NA	NA	NA	NA
AK002_00297	462			hypothetical protein	ATGAATCATAGTCATGATGGAGAGGAACCACTGATAACGGTACTCAATATGGATGGTCAACAACTAACGCCATGTTTGCCCCATCGGGCTTGGCGGGAAGTTGAGCGATCGCGAGCTGTCTGGATTGATGAGCAGACGATCCAACTACTTTATAATCCGTTCTTATTTCGGCACTATCGAAAAGCCGCACTGAAACGAGATCATCACACTTGTTTGTGGTGCGGACGATACGCCACGACAGTGGACCATGTTATCCCTGCAAGCAAAGGCGGCTCGGATCTTCCGCATAACCTGATCGCTTCATGCAGCGAATGCAATACTAAACGAGGAGACCGTTCTGCATTATCCTATCTCAAAGAAAACGCGAACCTTGTTCCAAATCTTATGAAGCTCTACTGGCGTATCTTTAAAGCTAAATACAAACATCGTCTAATGAAAAAGGGACACGTAAGTAAAGCGTAG	MNHSHDGEEPLITVLNMDGQQLTPCLPHRAWREVERSRAVWIDEQTIQLLYNPFLFRHYRKAALKRDHHTCLWCGRYATTVDHVIPASKGGSDLPHNLIASCSECNTKRGDRSALSYLKENANLVPNLMKLYWRIFKAKYKHRLMKKGHVSKA				NA	NA	NA	NA	NA
AK002_00298	906	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGACAAAGGCGATTGAATGTATAAATCTAGTGAAGAAATTCGGCGACTACTGTGCCGTTGATCATATGAATCTATCATTTGAGAAAGGTCAAATAACAGCATTGCTCGGACCGAATGGTGCAGGGAAGACAACAACCATTTCCATGATACTCGGAATGATCAAGCCAACATCAGGAGAAGTCAGGGTCTTGGGGATGCCGTCTGGAACAAAAGAATTACGGCAACGCGTTGGAGCGCTTTTGCAGGATGTTAAAGCAGCAGATGGACTTACGGTCAAAGAAGTGCTTCAATTGTTCCGCAGTTATTATCGTAATCCGATGTCGCTAGAGCGATTGTTAGACATTTCGGGTCTGCACGCGGATCAGAAACGACGCGCATCCTCCCTGTCTGGAGGACAACGCCGTAGATTAGCCTTCGCCCAAAGTTTGGCGGGAAATCCAGAGCTTCTCCTGCTGGATGAACCAACAGTCGGAATGGATATCGAGGCTCGAGGTCGCTTTTGGGACACCATCCAAGCGCTGGCAAGTGACGGACGTACTGTGCTCTTAACTACACATCATTTAGAGGAAGCTGATGCTGTCGCAGATCACATCGCGGTAATCGCCAGTGGACAGGTTGTTGCGGAAGGGACTCCAGAACGTTTAAAGGCTCAAACAGCGCTTAGAACCGTTTCATTTCGAGCGGCGAACGCGCCAGCCCAGCAGGAATGGCTCACATTACCTGGTGTAGAAAAGGCAGAGTGTAGCGGCGAGCGAATTCGTCTGTATGCTCAAGAGACCGATGTATTGTTATTTACACTGATGCAGTCTGAATGGGGAATTTCCAATATTGATATACATTCCGCCAGTTTAGAAGATACATTCCGAAGTCTTACAGGTTCAAATAAACCAACGATTATACGATAA	MTKAIECINLVKKFGDYCAVDHMNLSFEKGQITALLGPNGAGKTTTISMILGMIKPTSGEVRVLGMPSGTKELRQRVGALLQDVKAADGLTVKEVLQLFRSYYRNPMSLERLLDISGLHADQKRRASSLSGGQRRRLAFAQSLAGNPELLLLDEPTVGMDIEARGRFWDTIQALASDGRTVLLTTHHLEEADAVADHIAVIASGQVVAEGTPERLKAQTALRTVSFRAANAPAQQEWLTLPGVEKAECSGERIRLYAQETDVLLFTLMQSEWGISNIDIHSASLEDTFRSLTGSNKPTIIR	PGPT0006725_14518	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00299	744			hypothetical protein	ATGTTACATATGTTTGTTGCCCAGACCAAAGCAGAAAGTATACGAATTATCCGTAGTCCATTCTTCTTGCTCTTCTCTATTGCGATGCCGCTTGCTTTCTACTTTTTATTTGCGAGTATGAATGGGGTAGATCAATCGATTCAATCCACAACTTGGGGTGTCTTTTCATTGATGTCAATGACGGCATTCAGTTTGATTGGTACAGCCGTATCTCAATTCGGTATCCGTCTATCGTTCGAGCATCAAGACGGGTGGGTACGCTTGTTGAAGTTGACTCCACTATCTCCTGTAGTCTGGATTGGCAGCAAAATCGTATCGCAAATGGCTGTTCACTTGATCGTCATTGTTGTTATATTTGTATCTGCTGGCCTTGTTCATGATATACAATTGACAGCCGGGCAATGGATATTATGCGGACTATGGTTATGGATTGGGAGCATATCTTTTCTGGCGCTTGGTGCCTTGTTAGGAACGCTTAAAAATGCGAACACCTCCGTTGCCATCGGAAATGTATTACAGATGGGGCTTGCCATTGTGGGGGGGCTTTGGATGCCGCTTAGTACTTTGCCAAGTTGGATGGGCTCGGTCGGGGAATGGCTTCCATCTCACCGTTACGCCAATGGGGCATGGAATATGATCGCTGGACAAAATCCAGCAAGTATCGATTTCATAATTTTGACAGGATGCGGTCTCCTCTTTATGCTACTATCAATCTATATATATAATCGACGGGATGCGGTCTAA	MLHMFVAQTKAESIRIIRSPFFLLFSIAMPLAFYFLFASMNGVDQSIQSTTWGVFSLMSMTAFSLIGTAVSQFGIRLSFEHQDGWVRLLKLTPLSPVVWIGSKIVSQMAVHLIVIVVIFVSAGLVHDIQLTAGQWILCGLWLWIGSISFLALGALLGTLKNANTSVAIGNVLQMGLAIVGGLWMPLSTLPSWMGSVGEWLPSHRYANGAWNMIAGQNPASIDFIILTGCGLLFMLLSIYIYNRRDAV	PGPT0006730_22444	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_00300	1116	desK_2	COG4585	Sensor histidine kinase DesK	TTGTTAACAAATGTAATGATACCCATGTACTTTTTACTCTATGAGCCATCAAGTATACAGTGGCTTGGCTTTGTTCTGTTAGGCATATTCGTTCTATTGTTTCGACAATCCTACTTTTATTTAAAGTGGGCCACGCCAATATTGATCGTTCAGGTGGGTATACTTTTGATTTTAGCAGCTGTATTTCACCCTATGTATACGTTTATGGGTTTTATGATAGCTGCTCCGCTGAGCAAACAAAAGCTGCCGATATTACTCTCTATAACGATCGTTTTTACTGTAGCTATGGGATTTATCGCTGTTCCTTACTTGGATCGGATGGGCAGCCTAGTATGGATAGGGCTGGTGCCTATGTTTGGCATCTGTATTCTGCCGTATATTATTCGAACGTCGACCCGATTTCAACAGAAGTCTGCGCGGCTGCGGGCAGAAACGGCCGAACGAATGGCACAGCAGGAGGAGCGCCAGCGGATCGCACGAGAATTGCATGATACATTGGGACATACGCTGTCATTGATCGCACTAAAAGGCGAGGTCGTTGAGAAATTGGTCAATCGTCAACCCGAGAGAGCGATAGAAGAGGCTCGTGAAATACGAGAAACGGCACGCGCAGCCTTGAAACAAATGCGGGAATTGGTTACGGAGATGAAGGTTACATATCTCGCTGACGAATATAAGCATGCTGTATCGTTATGTTCAGCAGCGGGCATACCGCTTTTATTTCAATATCAATCGATTTCAGATCCCAGACCTTCTAATGTAGGGACGGAAGACGCTTTAGTGAACAATCCGCTTCCTTTAACACCCTTGCAGGAGACGATTTTAGCGATGTGTTTTCGCGAGACGATTACTAATGTGGTTCGACATAGCCGAGCAACAAAATGCAGCGTTCTCCTCGACATTCAGGAAGGGGAAGTTCGTGTATCCGTAAGTGATGACGGTATTGGGGCAGATATGGATCAATTCTATACTAGCAGTAATGGCCTCGCCGGATTGCGGCAACGGTTGGTTATGATCGATGGTCGTATGTCGCTGTCTTCGTCCCCAGGCAAGGGGACGAAAGTCACCTTACATATACCTAGGGTAATACGAAATGAAAAGGTAGGTAGTGCTTAG	MLTNVMIPMYFLLYEPSSIQWLGFVLLGIFVLLFRQSYFYLKWATPILIVQVGILLILAAVFHPMYTFMGFMIAAPLSKQKLPILLSITIVFTVAMGFIAVPYLDRMGSLVWIGLVPMFGICILPYIIRTSTRFQQKSARLRAETAERMAQQEERQRIARELHDTLGHTLSLIALKGEVVEKLVNRQPERAIEEAREIRETARAALKQMRELVTEMKVTYLADEYKHAVSLCSAAGIPLLFQYQSISDPRPSNVGTEDALVNNPLPLTPLQETILAMCFRETITNVVRHSRATKCSVLLDIQEGEVRVSVSDDGIGADMDQFYTSSNGLAGLRQRLVMIDGRMSLSSSPGKGTKVTLHIPRVIRNEKVGSA				NA	NA	NA	NA	NA
AK002_00301	606	desR_2	COG2197	Transcriptional regulatory protein DesR	ATGATTCGTATTGTTTTGGCAGAAGATCAAAAGTTATTAAGGGGAGCACTGGCAACGTTACTCTCGTTAGAAGATGATATTGAAGTCGTCGGTCAAGCTGAAAATGGGGAAGACGTGATGTCCATGATTCAGCAATATGAACCCGATGTAGCTGTTCTGGATATTGAGATGCCGCTGAAAACGGGGCTAGATATTGCGGAATTAATTCAAAAAAATAAGTCAGCTTGTCGTGTCATCATCTTGACGACATTCGCGCGTCCTGGATATTTCCAGCGGGCTATGCAGGCAGGAGTTTATGGATATCTTCTTAAAGATACGGGCAGCGAGGAACTGGCCGATGCAATTCGTCGAGTCTATGATGGGAAACGTGTCATCAATTCAGAATTATCGCTCGCGGTATGGGATGATCCATGTCCATTATCACCCAGGGAGCGTGAAGTCATGAAGTTGGCTGCCCAAGGCTTAGTTCTTCAAGATATTGGAGCACAGCTGTTTCTATCCTATGGAACGGTACGTAACTATATGTCAGAGGCGATTGGGAAGCTTGGGGCGAATACACGGATCGAGGCAATCGATATCGCACGTAGCAAGGGATGGTTGGACTAA	MIRIVLAEDQKLLRGALATLLSLEDDIEVVGQAENGEDVMSMIQQYEPDVAVLDIEMPLKTGLDIAELIQKNKSACRVIILTTFARPGYFQRAMQAGVYGYLLKDTGSEELADAIRRVYDGKRVINSELSLAVWDDPCPLSPREREVMKLAAQGLVLQDIGAQLFLSYGTVRNYMSEAIGKLGANTRIEAIDIARSKGWLD				NA	NA	NA	NA	NA
AK002_00302	858			hypothetical protein	GTGAAAAAAAGTTTAAAAACACTTTCTGGGTTATTAGCGCTCGTCATACTATTCATTTCCTTTATACCGGCAGCCCAGGCCAACGCCGATAGTGATCCGGTTGCAATCGAAAAGCTGTCGTATTTAAGCGGTGAAGAACAGTTAGACGCCCTTTTAGAAAATGGACTCGTATTGCCTGAAGCATTTGAACAGGACGAGTATACGGTAAATGCCGTAAAAACGATCGTAGCTGATATTCAACGAGGAGTAACGACCGTAGACCGCATACCGTATAACTATACGGAGTTAGCGGAGCTGGCCAAGAGAATCCTGGATGTGTCCGGGCAAGAAAGCATATCTGCTTTAGCGAACTATACGTTAAAAGATAGTACGGTAATAGGAACATGGTCGAACAGCTATACAGGATATAATTGCTACGGGTATTCCATAGGCGTGCATGTCTTTCAAAATCCGGGCTATCATTCCAATCAGAGCTTCAACATGAATCTATCGATTGCAAGTATGGCAGATTTAGTCGTTGATGATCTGGAGGCCCTTGGATATTGGGGTTATAAGACAGCGACTAAACCATCATCGTTAGCTAATTATGAACGTGTGGTGGCAATCCGAAAAGGAAGCGTCGATTACCATTTCATGAAAGGAACGACGACGGCTTCGGATTGGACTCATAAGCCAGGAGGGACGAATCCTTTGAGATGGAATTATTCTTCGCCTGGGTATAAAACTTGGACAAATGAATATTCCTACAATAATGTAAGTTATCAAGGAGACATCACCTACAATAGCTCCATTTATTACATCATCTATTGGCCTAAAAACGTCGGTCCACAGCCTGACAAGATTGATTTTTCAATTTGA	MKKSLKTLSGLLALVILFISFIPAAQANADSDPVAIEKLSYLSGEEQLDALLENGLVLPEAFEQDEYTVNAVKTIVADIQRGVTTVDRIPYNYTELAELAKRILDVSGQESISALANYTLKDSTVIGTWSNSYTGYNCYGYSIGVHVFQNPGYHSNQSFNMNLSIASMADLVVDDLEALGYWGYKTATKPSSLANYERVVAIRKGSVDYHFMKGTTTASDWTHKPGGTNPLRWNYSSPGYKTWTNEYSYNNVSYQGDITYNSSIYYIIYWPKNVGPQPDKIDFSI				NA	NA	NA	NA	NA
AK002_00303	597			hypothetical protein	ATGTCCAACATAATCAAAGTCGGCGGACTTAAATTACTGTTCATCTGTGCGGGCCTGGGATTGATTCTGCTTGGCGCCGGGTGCGCTCCGAAGACGGAGGAAGATGTGAAGCCGGAGGTTGTAAACGTACCTGCGGAAGAAATGATCGCCATACTTTGGAATAAAGGATGGTCACCGGCTATCAGCGTCACTCGGGGCATTCCGTTTGAACTGAGCGGCAGTGATGAAATCACGTATGACATATCAGGCGATACCGACTACTTATGCGCGGAAATCAAAGGCAGGCTTGAAAGCATGAGCAAGACGGGAACCTCAAGGAAAGCGGGAGAGCAATTTTACTGGAGCCCTCTCTGCGGGGATCCTCCTGCTGATCTCGCCGAAATTGGAACCTCATGGGTCACCGTCGTTCGTAAACAGGATGGGTATTCGTCCGGAATGGTTCTGGTCAGGATCTCGCCGGAGCGAGACAACGGGAATGGAGGATTGACGTTCAAGGCAGACATCATCGCGAGTTTGGCTTTTCCCCAACAAGACGGGGCTTACCAAGACATTTCTGACGAGGATTTAAAGGAACTTGAAGCCACCTACAAAAATTGA	MSNIIKVGGLKLLFICAGLGLILLGAGCAPKTEEDVKPEVVNVPAEEMIAILWNKGWSPAISVTRGIPFELSGSDEITYDISGDTDYLCAEIKGRLESMSKTGTSRKAGEQFYWSPLCGDPPADLAEIGTSWVTVVRKQDGYSSGMVLVRISPERDNGNGGLTFKADIIASLAFPQQDGAYQDISDEDLKELEATYKN				NA	NA	NA	NA	NA
AK002_00304	366			hypothetical protein	ATGAGCGAAAAATTCTGGTTAGTGGTACAGTATCCTCTGAAAAGTGCAAAAGGCAGCCAGCGCGACCACTGGTTAAGAGAAAAAGTAATGGAATATTTAGAATTATCTCTAGCGGATGCCGATTTAGGCCATGTCGACGGCTTTGATATGGGGACATGCATGTCCGACCCGAAGAAGTATGCGCTTAATATATTTTGTGTTGTTACGGAGGAAGAACGGGGTATAGCCTTGGTAAAAAGAGTGATAAAAGAGAGTCGGCTTGATTATACCCGCATAAAAATGGCTACCATGCCCTATGGAAAAGAAGAAGAAACCTATACTCTGAAGTATGCCTATAAGAAGGGCGTTACCGATTTTTCACTATAG	MSEKFWLVVQYPLKSAKGSQRDHWLREKVMEYLELSLADADLGHVDGFDMGTCMSDPKKYALNIFCVVTEEERGIALVKRVIKESRLDYTRIKMATMPYGKEEETYTLKYAYKKGVTDFSL				NA	NA	NA	NA	NA
AK002_00305	795			hypothetical protein	ATGAAGGCAACAGAAGCGACTGCCATGTCGCGGGCAGGCAAGGTGAATTGGGTGCTTTTTAATCCGAAAACCTATGCAACGATTCTCTATTTATTGCTATCTCTCCCGTTAGGGATTATTTATTTTACAGTAGCGATAACGGGACTTACATTATCCATCGGTTTGACTCCGATATTTATCGGAATACCGCTGTTTTTTGGAGTAGCTAAGCTGTTGAATGGGATTGTGATTTTTGAACAAAGCATGATTAGACAAATTTTAGGTTTACCTAATCCTACTGTATCGTATACCTACAATCACCAGTCTGAAGCTGGGCAGAATTGGTTGAAACGAATGGTTAGCGGATTTGACGGAGCGCTCTTTATTCGAAATCTGCTGCTCGTATTACTAAGATTTGTTACAGGCATCGTATTCTTTGTTATTATGGTGACGGTGATTTCACTGGGACTCGGATTGATTGCTCTTCCGGTCGTGCATATCATTTTGATGAATGAACTGCAGCTTGATATTTTGGAGAATAGCTTGTTCAGTTATTTTCATATCGATTGGACCTATAATCAGCAATACCTGCTGTATATAGGCGTAGGCCTTATCCTGTTCTGGGTTGCGCTGCGCGTTGTGAATGGGCTTATGCAAATTCTGCGCAGAATCATGTATGTGGATGAGCCCTATCAGCAGCCGTCAGTGCCGCCGATGGAAGCACAAATCCATGCGCCCGTTCAGTCGCAATATTACGAGTACCCAGAGGATCACCCCACTCAAGGGATGATGCAGCCAGCCCATAGAGAGCTTTAG	MKATEATAMSRAGKVNWVLFNPKTYATILYLLLSLPLGIIYFTVAITGLTLSIGLTPIFIGIPLFFGVAKLLNGIVIFEQSMIRQILGLPNPTVSYTYNHQSEAGQNWLKRMVSGFDGALFIRNLLLVLLRFVTGIVFFVIMVTVISLGLGLIALPVVHIILMNELQLDILENSLFSYFHIDWTYNQQYLLYIGVGLILFWVALRVVNGLMQILRRIMYVDEPYQQPSVPPMEAQIHAPVQSQYYEYPEDHPTQGMMQPAHREL				NA	NA	NA	NA	NA
AK002_00306	1503	rhaR_2		HTH-type transcriptional activator RhaR	ATGTATAAAGTCATAATCGCGGACGATAACCCTATTATTTGCAAAGCCCTGGAGAGTCGCATTCCATGGGACGAGCTTGGCCTGGAGCTTTGCGGCGTTTGCCATGACGGCAGCGATGTTCCGGATCTGATTAGAAGCCAAGCGCCGCATATCATGATCACGGATATCAAAATGCCCATCCTGGACGGAATCGCGCTTATCGAGCAGCTGCGCTCCCACAGGTATCCCCTGCAAATCATCATCATCTCCGGCTATAACGATTTTATATATCTGAAGAAAGCTATCGATTATGACGTGGCAGGTTATTTGTTGAAGCCGATTCAGGACGAAGAGCTATTGAACAGTTTGCAAAAAGTGATCGGAAATTTAAAAGAGCAGGAAACATTCTCGCAAATGAGCCGCTCGGCCCGTATCCTGGAGATGCTTGAATCCAAGCGGATCGCCAGCGGGCTATTGTCTGCCATCATTCGGGGGGCTGATTCTTGCATACAATCAGGTGAAGCTTTAGCTGATCTTTCTTTTCCTTCCTCCTACCAATGGCTCCTGTTTCAACTGCCGCTTCAAGAGGATGGGAGATTATGCGAATTCTCCATCGAAGATATCCTGGAGTTTGAAGATGCCCTCCGTCATTCTTATCGTCTGGCATGCCATTTATTCCTTCCATCGGACACCATGCTCGCTGTCATTTCTCCATATGAACATTCCGATTCGGTTACGGACCTGGTTTCGCAGCTACTTCGGGAAGACGGTATTCGATCTTCGCATGCGGCCAGCAAGCCCTTTCGGTCGCTGTCCGGCATGCAGCTGGAGCTAATGGAAACGATCAGCGGTTTATACGGGCAGCTGTATCCCGGCCGATTCACGGCAGCCCCTGCAGGGCATGCCCCTTTCTTGACCCTGAAGGATCAGCAGGCCATCGGCATGCATCTCTCCTTGCATGATTACAAAGGCGCACTCGCTTATGTTACCGAACAGCTCGATCAATGCCTCGCCTCAGCTCCGACACCTGGTCAACTCGATACCTTCATCAAAACCGTGATCAAGTGGTATTCGGATTATGACGCTGCCTATTATGACATGCAGGAGCAGATGGATGCAGCACTGCTGGCCGCGCTTGCCTTTTCCTCGAGACAGGACATGCTGGACGCGTTGGCCCCAATGGCAGAACCGGCCTCCGATTCGGGAAGCAAAGCGACGTACGTCATCCAGTATATCGAGAATCATCTGAATCAGCCCTTGACCTTGAACATGCTGAGCAAAATCTTTCATCATAACAGCATCTACCTTGGACAGCTGATCAAAAAAGAAACGGGAATGCCGTTTAATCAGCTGGTGAACAAGCTGCGCGTCGAGCGGGCCGAAGAGATGCTCCGCCGCAATCCCGATGTGAAACTGGCGGATTTGGCCTATCAGCTGGGCTTCTCGGACAGTAAATACTTTTCCAAGGTTTTCAAGAAAATTACGGGAAGACCGCCAAGCCAAAGTGCGGAGTCCGAAATGTAG	MYKVIIADDNPIICKALESRIPWDELGLELCGVCHDGSDVPDLIRSQAPHIMITDIKMPILDGIALIEQLRSHRYPLQIIIISGYNDFIYLKKAIDYDVAGYLLKPIQDEELLNSLQKVIGNLKEQETFSQMSRSARILEMLESKRIASGLLSAIIRGADSCIQSGEALADLSFPSSYQWLLFQLPLQEDGRLCEFSIEDILEFEDALRHSYRLACHLFLPSDTMLAVISPYEHSDSVTDLVSQLLREDGIRSSHAASKPFRSLSGMQLELMETISGLYGQLYPGRFTAAPAGHAPFLTLKDQQAIGMHLSLHDYKGALAYVTEQLDQCLASAPTPGQLDTFIKTVIKWYSDYDAAYYDMQEQMDAALLAALAFSSRQDMLDALAPMAEPASDSGSKATYVIQYIENHLNQPLTLNMLSKIFHHNSIYLGQLIKKETGMPFNQLVNKLRVERAEEMLRRNPDVKLADLAYQLGFSDSKYFSKVFKKITGRPPSQSAESEM				NA	NA	NA	NA	NA
AK002_00307	1728			hypothetical protein	TTGATTGGAAAAACGCATTTTTTCAATTATTTATACCGCAGGACGGTCGCTTACATCGTCTGTTCCGTCATCGTGATTACCGTTCCCCTGCTCATCATGCTTTCGGTCTACTCCAGGAACGAGATCATGAAATACAATAACGAAGCCATCAGCCTCATTAACGATCAACTGGATTCGTTCTTTCGGTCGGTGGAAAACACGCAAAACATCATTACGACCGACAACAGCGTCGTTCTGCCGCTTACGCTCTATTACGCGGTTCCCAATTACGATTCCAGCGCTGCCACCCATGCGTTCCGCAGCATGTCCACCACGCTGAAGAACATGACCATGTTTCAGGACGGACTGCAGTTTTGCGTCGTGGGTCAAAAAGGACATTTGCCCGTCAATTCAACGAAAGAAGACATTAACGATAACTTTATCCCGATGGACGCCGTTTGGTACGAGACATTCGAACAAAATCCGGAGAAGAGCCAGTTTTTCTTCAATAATGAGCGTGATTACTATATCTCGGCCGAAAAAGCCATCTCCATCATCAAACCGATTCCCGACATCCAGACCCGAAAGCCGATCGCTTATGTCATCATGGATATTACCTACCCGGATTTCAGGGATATGGTCGAACGGATTCATCCATCGATTCCGATCCGGATTCACGATCCGTCTGGAGAGATCTTGTTCAGCAATATGGCCCCTGAGAGTCAGCCGTCCTCGTCAGACAGCAAGTTGTTCAGCCGCCAGATTTCGCCGTTTACGGGCATCACGATCGAGAGCTACGTGCCGGAGCAGCTTTTTATCAAGCAGATTAGCATGATCATCGTGGTCATTCTGGCGATCATGGCTGTGTATCTGTTCATTATTTTCATCATTTCGCTTGTTTCCATGAAGCGGTTTACACGCCCAATCTATTTGCTGATGAAAGCCATGAAGCAGGTGTCCAGAGGCAATTTGGAAGTTACCGCAGACTATCAGGGAAACATCATCGAGCTTCATGACCTCAAAAATTCCTTCAATATTCTCGTTGCCGGCACCAAGGACCTCCTGAAGGAAAACTACGAAATGAATCTTTTGAAGACGCAGGCGGAGCTGGATGCCCTGCAGCAAAAAATCAATCCGCATTTTCTATATAATGCCCTGGAGACCATCTCCAGCCAGGCGATCATCGACGGCTCCAAAACCGCCAGCATCATGTGCCAAAAGCTCGGAGCTCTGTTTACCTACAGCCTTCAGCCTCAGGACATCGTGACGCTGGAGCAGGAAATCAGGCATCTGAAAGATTATGTGTATATCGCCGAGATCAGCTCTTTTTATCCGCATATCCACGTGGACATGAGCCTCCATCCAGATACGCTGCACCAGCTCATACCCAAAATGGCGCTTCAGCCCCTGCTCGAAAACTGCTTCAAGCATGGGTTCGGCAAACAGCCGGGCAATTCCCCCTTGATCCAGATCCAGAGCGGCATTCAGGATGGCTATGTCCGCATCGCAGTGAGCGATAACGGCAAGGGGATGTCCTCCGATGAACAGATCCGTTTGAGAGAAAGCCTGAGACAGGTGGAGAAAAGAACGCTGGCTTCTCCAGACACCTCCATCGGGCTGCGACATGTCCATTCCCGACTCGCTTTATTCTATGGGGATTCCTACGTTATGGACTTTCAATCCGCCCCTTTACAGGGAATGCGAATGGTATTATTAGTTCCGATCCGAAAGGAAGATGCTTATGTATAA	MIGKTHFFNYLYRRTVAYIVCSVIVITVPLLIMLSVYSRNEIMKYNNEAISLINDQLDSFFRSVENTQNIITTDNSVVLPLTLYYAVPNYDSSAATHAFRSMSTTLKNMTMFQDGLQFCVVGQKGHLPVNSTKEDINDNFIPMDAVWYETFEQNPEKSQFFFNNERDYYISAEKAISIIKPIPDIQTRKPIAYVIMDITYPDFRDMVERIHPSIPIRIHDPSGEILFSNMAPESQPSSSDSKLFSRQISPFTGITIESYVPEQLFIKQISMIIVVILAIMAVYLFIIFIISLVSMKRFTRPIYLLMKAMKQVSRGNLEVTADYQGNIIELHDLKNSFNILVAGTKDLLKENYEMNLLKTQAELDALQQKINPHFLYNALETISSQAIIDGSKTASIMCQKLGALFTYSLQPQDIVTLEQEIRHLKDYVYIAEISSFYPHIHVDMSLHPDTLHQLIPKMALQPLLENCFKHGFGKQPGNSPLIQIQSGIQDGYVRIAVSDNGKGMSSDEQIRLRESLRQVEKRTLASPDTSIGLRHVHSRLALFYGDSYVMDFQSAPLQGMRMVLLVPIRKEDAYV				NA	NA	NA	NA	NA
AK002_00308	1314	ugpB_1	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	GTGATCAAAAACTTCAAAGGACTTGCATTAACGCTGATTGCAGCTATGCTATTGGCCCTATTATCGGCGTGCTCCGGATCTTCGGGCAAAGAGGGAGCTTCCGGTACGGATCAGCCGGCTGCAGGTAAAAGAGTGACGATTACGGCCTGGCATGGTGCATCCGGAGAGAGCGCGAAATTTTTAGAAAATATCGTTAAGCAGTATAACGAATCGCAGTCCAGCGCCACGGTAAAGCTCGTATTCGTGGACACGGACAATATGGTGACCAAATTAACCGCGGCGGCTGCAGGCAATGCATTGCCGGAAGTCGGGATGCTGATGTGGCCGATGTGGCTCGGACCGCTGAAGGATGTCGTCAAACCGCTGGATGAATACATCCAGGCCGAGCCGGATAAGTGGAATGAGGATGATTTCCTGAACGGTCTGATTGACGGTAACGTGCGTTTTGACGGAGTAACCTACGGTATTCCGATCGAGACGAACAATCGTGCGCTCTATTACAACAAGAAGCTGTTTGAAGAAGCGGGCCTTACCCCGCCGAAAACTTGGGATGAGCTGGTCGAAGCGGCACAGAAGCTGACGGATCCAGCTAAAAAGAGATGGGGAATGTCCCTGCCGACGACGCAGGGCGGAGCGCTGGATGCCGCTTGGGCACCCTTTATGTGGCAGGCCGGGGGCGACTATGTCAATGCGGAAGGTACGGAGCTGCAGTTTAACGGAGAAGGCGGCATTGCCGCAACCCAGTTCTTCGCCGACCTGATCAACAAGCATAAAGTGGCCAGCCTATCGCCGCCGCAGAACGGATTCCAGTCCGGCATGATCGCCATGAGCATATCGGGGCCTTGGTCGATCCCAACGCTGAACGCCAACGAAAAGCTGGATTACGGCATTGCGCCGCTGCCGGAAGGAACGAAGGGCAAGGCGACGATTTTGGGCGGCACGAACAATTTCATTTTCAAAACGACTCCCGAAAAGGAAAAGGCGGCCTGGGATTTTCTGACCTGGTTGTCCACGCCGGAAAAAACGGCTGAATTCGCGGTCGGCTACGGTTCGATTCCGATTCGCAAGAGCAGTTCGGATGCCGCTGTTTGGAAGGACTTCGTCAAAGAGAATCCGGATATTCAGGTTCATATCGACGGGTACCAGTACGGCAGATACCAGCCTTTCAACGTGCTCACTCTTACGGAGATCACCGAAGTTATCACTTCGCATATCGAAGCTGCCATGCATAACAAAGAAACGGCTGAAGAGGCCATGAAAAAAGCGTATGAGGAAAGCAAGCCATTATTGAAAACATGGTCCTCATCTAAATAG	MIKNFKGLALTLIAAMLLALLSACSGSSGKEGASGTDQPAAGKRVTITAWHGASGESAKFLENIVKQYNESQSSATVKLVFVDTDNMVTKLTAAAAGNALPEVGMLMWPMWLGPLKDVVKPLDEYIQAEPDKWNEDDFLNGLIDGNVRFDGVTYGIPIETNNRALYYNKKLFEEAGLTPPKTWDELVEAAQKLTDPAKKRWGMSLPTTQGGALDAAWAPFMWQAGGDYVNAEGTELQFNGEGGIAATQFFADLINKHKVASLSPPQNGFQSGMIAMSISGPWSIPTLNANEKLDYGIAPLPEGTKGKATILGGTNNFIFKTTPEKEKAAWDFLTWLSTPEKTAEFAVGYGSIPIRKSSSDAAVWKDFVKENPDIQVHIDGYQYGRYQPFNVLTLTEITEVITSHIEAAMHNKETAEEAMKKAYEESKPLLKTWSSSK				NA	NA	NA	NA	NA
AK002_00309	897	lacF_2		Lactose transport system permease protein LacF	ATGAAACGGTTTAAGCGTATGTTCGGCAAGGATGCGGCGGTCGCATGGATGCTGATCGCGCCAAATGTCATCTGGATCGCGGTATTTACGCTGTTCGCCATATTTTATTCGTTTTATTTGAGTTTTACCGAGGTCGATTTATTCGCGAATCAATTCACGCTCGTGGGCCTGGATAACTACACGCAATCCTTTGCGGATCCCGTGTTCACTAAGTCCATCGTTAATACGACCGTGTTTACGATATTTACGGTGGCCTTCTCCATGGCTATTGCGATCGTGGTGGCCGTGCTGCTCAACAGCAAAATCAAAGGCCGAAAGCTCATGCGTTCGGCATTCTTTCTTCCTTCCATCCTGCCGATTATCGCCGTGGCGCAGGTTTGGATATGGATTTATGAACCGAGTTACGGACTCCTGAATTATTTTCTGGAGAAAATAGGGGTCGGAAACCCGAGCCATCCCTTTCAATGGCTTGTCTCGCCGGATACGGCGATGCTGTCGGTCATCATTTTCTCGATCTGGAAGTCGTTCGGCTATAACATGGTCATCTACCTGGCCGCGCTGCAGGGCGTATCCAGATCCTTATATGAAGCTGCGGAAATCGACGGCGCGAATGCCATCCAGAAATTTTTCCGCATTACGATTCCGGGGCTCAGACCAGCCACATTTTTCATCTTGATTACATCCATTAGCGGTTCCTTCCAGACCTTTGGCGAGATTTATGCCTTGACGAACGGCGGACCGATGAACCAGACGAATATGATTGCCTATTACATCTACCAATACGCGTTCGAGTTTTTCAAAATCGGCAGGGCTTCGGCGGTGAGCGTGCTGCTGTTTATACTGCTGTTCGCCATCACGATCTGGCAGTGGAACTCGTATCAGAAGAAAGAGGATTGA	MKRFKRMFGKDAAVAWMLIAPNVIWIAVFTLFAIFYSFYLSFTEVDLFANQFTLVGLDNYTQSFADPVFTKSIVNTTVFTIFTVAFSMAIAIVVAVLLNSKIKGRKLMRSAFFLPSILPIIAVAQVWIWIYEPSYGLLNYFLEKIGVGNPSHPFQWLVSPDTAMLSVIIFSIWKSFGYNMVIYLAALQGVSRSLYEAAEIDGANAIQKFFRITIPGLRPATFFILITSISGSFQTFGEIYALTNGGPMNQTNMIAYYIYQYAFEFFKIGRASAVSVLLFILLFAITIWQWNSYQKKED	PGPT0016535_1964	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00310	834	dasC_1	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGAAGACCAACACACATAATCGGGATGCTTGTCGTGTACGTGATCCTGTTTTTGACGGTTGTGACCACCCTGCTGCCATTAGTTTGGATGATTACGACTTCAATCAAAACGCCGGGAGAGGTATTTGTGTATCCCCCCAAGTGGATTCCTACCGAATTTGCCTGGTCCAACTACAAAACGGCTTGGGAGATGGCACCCTGGAATAGATACTTTTTGAATACTGTTTTCTATACAGTGAGTACCGTGGCAGGCGTTCTGATCACGTCCGTTGCGAGCGGATATGCCTTTTCCAAGCTGGAATTCAAGGGGAGAAAGACGCTTTTCCTGGCTTACATCGGGACGATGATGGTACCCTCGCAGGTAACGATCATTCCGGTATTTATGATTCTTTCGCAAATGAACTGGGTGGATACGTATGCAGGCCTGATCATTCCCGGTCTTACCAGCGCCTTTGGCTGCTTCCTGATGAGGCAGTTCATTACGGGCATCCCGACAGAGCTGATTGAGTCGGGCCTGATTGAAGGAGGAGGTCATATGCGTATACTGGCTTCGATCGTAACACCGCTTCTGAAGCCGGCTGTAGCGACGCTGGGGATATTCACGTTTATGGGGACATGGAACAATTTCTTCTGGCCGCTGATCGTCACGAATAGCGACGAGCTTCGTACCGTGCAGGTAGGGCTCAGCTCTTTCCAGAACCAGTACGGGGACGGCGATTGGGGAGCGATGATGGCAGCTGCGACCATGGTCAGCGCTCCGGTGCTCATCCTTTTCTTTTTCGCCCAGAAGTACTTCATTGAAGGCATTGCGATGACAGGAATCAAGGGATAA	MRRPTHIIGMLVVYVILFLTVVTTLLPLVWMITTSIKTPGEVFVYPPKWIPTEFAWSNYKTAWEMAPWNRYFLNTVFYTVSTVAGVLITSVASGYAFSKLEFKGRKTLFLAYIGTMMVPSQVTIIPVFMILSQMNWVDTYAGLIIPGLTSAFGCFLMRQFITGIPTELIESGLIEGGGHMRILASIVTPLLKPAVATLGIFTFMGTWNNFFWPLIVTNSDELRTVQVGLSSFQNQYGDGDWGAMMAAATMVSAPVLILFFFAQKYFIEGIAMTGIKG	PGPT0016540_5439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00311	1605			hypothetical protein	TTGGATTTTAATATATTCAATTCACCTTCGTTGGTGCTGGCCGAGACCGAACAGGGCTGGGAGAAGCTGATGCCTGCGGCGGATTCGGTGTGGAGCGCGGGACACGTCGCGGTGACCATGAAGCAGCGGGAAACGGCAGCGGATATGGGACTTTATCTGGAATCTACAAAGCTGGCGGTATATACCATCCGCATTCGTTGGAACCACCGCTTCGCGAAACCGGTAACGCTGTTCGGAGATCACTGGGAACGCGGCTACGGAGACATGGGCTGGTCCGGCCTGCAGCCGGAGCGCGCGATGCCATGGTATTTCATGATTCACGACGGCTCATCGACGGCCGGGTTCGGAGTGAAAACCGGGGCGGGATCGATGTGCTGCTGGCAGGTGGACGCCGATGGCGTGACGCTGACGGCGGATGTAAGCAGCGGCAGTCAAGGCGTCACCCTTGGAAAGCGGATTCTCAAATTCGCCGAGCTCGTGCAGGTCCATGGAGGCGAGAACATGACGCCGTATGAGACGACCCGGATGCTGTGCAGCTCCATGTGCGAGCAGCCGGTGCTGCCGAGCGTTCCGGTGTATGGGGGCAACAACTGGTATTATGCCTACGGCAAGAGCTCCCACCATCGAATAGTAGAAGATTCGCGGTTTATTTCCGCCATGGCGGAGGGCTTAACGAATCGTCCGTTCATGGTCATCGATGACGGCTGGCAGATCAGTTCCGGCACCTGTAACGGTGGTCCATGGATAGGAAATCGTGGTTTTCCCGACATGGCTGGACTAGCGGATGAAATGAAGCAGGCTGGCGTTAGACCCGGCATCTGGTGTCGTCCACTGCTGACGCAGGAGAAGGTGCCGGAATCCTGGATCCGTTATACGAAAGGCGGGCATTTCTTAGATCCGAGCTGCCCGGATGTGCTGGAATATGTCGCGGACACGATGAGTCGGATGAATGAATGGGGTTATGAGCTGATCAAGCATGATTTTTCGACCTTCGATCTGTTTGGGCAATGGGGGTTTCAGATGAAGGGAAAAGCCCATGCACTGCCGTACGCCTTGGGGGATACCACCCGCACCACCGCCGAAATCGTCCTCGACTTGTACCGGACGATTGCTGAGGCTTCGAAAGACAGTCTGATTATCGGCTGCAATACGATTGGGCATCTGGCGGCAGGCTTGTTTGAAATTCAGCGCACCGGAGATGATACCAGCGGCAGATCGTGGGAAAGAACGCGCAGAATGGGCGTGAATACGCTGGCCTTCCGAATGCCTCAGCATGGAACCTTGTTCAGCCATGATGCGGATTGCGTAGGCATCACCTCCAGCGTTCCTTGGGAATTCAATCGTCAGTGGCTCGATCTGCTGGCAAACAGCGGCACGCCGCTCTTCGTGTCGGTCGACCAGAAGGAGTTAAGCTTGCTGCAGAAGCGGGAGGTGCGGCAGGCCTTTGAGGCTGCTTCCCGTCCGCTTCCGGCAGCGGAGCCGTTAGACTGGATGTATAACAGTTGTCCTTCTTTGTGGAAGATTGCCGGGGAGGTCCGGAATTACAGCTGGAACGGCGAAGCCGTCTTGGGGGCAGGTACAAGAGATCACGAATGGTGGCGTTAA	MDFNIFNSPSLVLAETEQGWEKLMPAADSVWSAGHVAVTMKQRETAADMGLYLESTKLAVYTIRIRWNHRFAKPVTLFGDHWERGYGDMGWSGLQPERAMPWYFMIHDGSSTAGFGVKTGAGSMCCWQVDADGVTLTADVSSGSQGVTLGKRILKFAELVQVHGGENMTPYETTRMLCSSMCEQPVLPSVPVYGGNNWYYAYGKSSHHRIVEDSRFISAMAEGLTNRPFMVIDDGWQISSGTCNGGPWIGNRGFPDMAGLADEMKQAGVRPGIWCRPLLTQEKVPESWIRYTKGGHFLDPSCPDVLEYVADTMSRMNEWGYELIKHDFSTFDLFGQWGFQMKGKAHALPYALGDTTRTTAEIVLDLYRTIAEASKDSLIIGCNTIGHLAAGLFEIQRTGDDTSGRSWERTRRMGVNTLAFRMPQHGTLFSHDADCVGITSSVPWEFNRQWLDLLANSGTPLFVSVDQKELSLLQKREVRQAFEAASRPLPAAEPLDWMYNSCPSLWKIAGEVRNYSWNGEAVLGAGTRDHEWWR	PGPT0018835_2335	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
AK002_00313	2058			hypothetical protein	ATGAAGAACAGCGTTGCAAAGGTAACCGGCATGGTGTTGTTGTTTTCTCTGGCGCTATCTCTCATAGCGGGAGGATGGGTGAATAAGACAACGGTCCATGCTGCCGGTCTTTCGATTATCGGCGGCGGGGGCTGGAATGAAACGACGTATATAGAATGGTCACCCGTGAGTAATGCGGAGGGATACAATGTCTACGTGAAACACGCCAATGCGCCGGATTCCGGCTTTCAACAACTGGATAATGAGCTGATCCGGCAATACCCTTCCTATTGGAGAGCAGATGCCGTTGGACTTGCAGCAGGAAATTATGTGATGAAGGTTGAAGCCAGGCTGTCGGACGGTTCAACGGTAAGTGTCGTTTCGAATAACCTATCCGTAGCGCTGCATGATCGATCCGGATTTGCTTTTTCCTCAGACTCGCCATACGGGACTGGCTCGGGTGCCTACAATGATGACGGTACGCTTAAAGATGGTGCACAAGTTATTTATGTGACCTCCGAGACGGCACGAACCGTAACCCTTGATGTGAAAATCAATAGCTCAGGCGGGGTTCAAACGGGCGTGGGGATCGGCGAGATTTTGACGCTAAGACAAAAAGGCTATGATACAACCCCTCTTGCGATCCGGTTTATTGGAAAAGTTACCGATGACGACATGAGCGGACAGCTGAATAGCAGCGGCTACCTTCAAGTAAAAGGCAAAAACAATTACTCGGAAATGAATATGACGATCGAAGGGATCGGAGACGACGCTTATGCTTACGGGTGGGGATTGCTCCTTAGATACGTAGGGAATGTGGAAGTAAGAAACCTCGGGCTCATGTTGTTCCCTGATGATGGAATTTCCATGGATACAGGAAACGTCAACGTGTGGGTGCATAATAACGATCTGTTTTATGGAACCGCAGGAGGAGATGCCGACCAGGCCAAGGGCGATGGTTCAACGGACCTGAAAAAAGGGTCGACCTATATTACCATCTCTTACAATCACTACTGGGATTCGGGAAAAGCGGCTTTGGTCGGTTTGAGCGAATCGGAGGAATTCTTTGTCACCTTCCACCATAACTGGTTTGATCACTCGGACTCCCGCCATCCGCGAATCCGATTGGCATCGGTTCACATCTACAATAACTTCTATGACGGAGTCTCAAAATATGGGGTGGGTGTGACAACGGGAGCTTCGGCCTTCGTGGAATCCAATTACTTTAGACATGCCAAATACCCGATGTTGAGTTCCTTGCAAGGTACGGATGCTTTAGGGGAAGGGACCTTTTCAGGCGAAGACGGAGGCGTGATTAAGGCCTATAACAATAGGATCGTAGATGCGGACAGCCTGATTTATGCAAATTCCAATACCGGAACAGCTCCGGTAAATGCAACCTCATTCGATGCATACTTGGCTTCATCAAGAAATGAAACCGTACCAAGCTCATACAAAGCATTCGTGGGAGGAACGGCTTATAATAACTTCGATACAACCGTCGATACGGGAGTAAATAGCGCCGACATCGATAACGTGAGCGATGTGGAACAGATCGTTACCGCACAAGCCGGACGCCTGAATAACGGGGACTTCACTTGGGAATTCAATGATGCCGTAGACGACACATCCTATACACTCAATACAGCTCTTATGGCTAAAATAAGCAGCTACACCAGCGGGCTTGTATCCGTAGGCGGGAATTCAACCGGGGCGGAGCCGGAACCAGAACCAGAGCCGTCCACCGGAGAACATGTTCACAACTTTACAACGTCCGGATTAGCAAGCGATTTCTTTCATATTGTAGGGAATCTCTCCACAACCAAGGGAACCGCGGTGTATAACGGCTTAACGCTAACCCAATGTTTGAAAATCGAGAGTTCAACCCGCATTACCTTTACCTCTACGGAAACCGCTACATTAACATTAGTGTTTAATTCGGCAGACGGAACCAAGATCAAGATTGATGGAACGAGTTATCCAATGACGAATGGTATGGTCAGTGTGCCACTTGCTCCAGGAGCGCATACGATTACAAAAGATCATACGACGAATCTCTTTTATATGGAGTTGGAGTAG	MKNSVAKVTGMVLLFSLALSLIAGGWVNKTTVHAAGLSIIGGGGWNETTYIEWSPVSNAEGYNVYVKHANAPDSGFQQLDNELIRQYPSYWRADAVGLAAGNYVMKVEARLSDGSTVSVVSNNLSVALHDRSGFAFSSDSPYGTGSGAYNDDGTLKDGAQVIYVTSETARTVTLDVKINSSGGVQTGVGIGEILTLRQKGYDTTPLAIRFIGKVTDDDMSGQLNSSGYLQVKGKNNYSEMNMTIEGIGDDAYAYGWGLLLRYVGNVEVRNLGLMLFPDDGISMDTGNVNVWVHNNDLFYGTAGGDADQAKGDGSTDLKKGSTYITISYNHYWDSGKAALVGLSESEEFFVTFHHNWFDHSDSRHPRIRLASVHIYNNFYDGVSKYGVGVTTGASAFVESNYFRHAKYPMLSSLQGTDALGEGTFSGEDGGVIKAYNNRIVDADSLIYANSNTGTAPVNATSFDAYLASSRNETVPSSYKAFVGGTAYNNFDTTVDTGVNSADIDNVSDVEQIVTAQAGRLNNGDFTWEFNDAVDDTSYTLNTALMAKISSYTSGLVSVGGNSTGAEPEPEPEPSTGEHVHNFTTSGLASDFFHIVGNLSTTKGTAVYNGLTLTQCLKIESSTRITFTSTETATLTLVFNSADGTKIKIDGTSYPMTNGMVSVPLAPGAHTITKDHTTNLFYMELE	PGPT0018225_111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_I_SECRETION_SYSTEMS	CE-T1SS_SECRETED_PROTEINS,PGPT0018225-pel|plyB-K01728	NA	NA
AK002_00314	1833			hypothetical protein	GTGTCTTTCAGGTTCAAACCGCTTAAGTCCTGGAGTCTTCGTGCTAAAATTTTGCTGATCTTCCTGCTGCTCATTTCGATTCCGCTCAGCCTGCAGGGCGTGGCTACCTACGTGGGTTTCTCCAACTCCGTTGAACGAAGAACCTCCGATTATACCGCTCAATTGGTGGACCAGATCAACCGGAATTTGGACAGGACCCTGATGGAGATGCAGAGATTGACGTTGATGCCTTTGTACGATTCGGGGGTATTGTCCATCTTGCGCAAGTACAGGGAGGAGGATAGTCTACATCAGCAGCCTACGGTGGAAGAACGCTCCAAAATGCAGCTTTATATCGCCAGCATGACCTTCGACAGGCCAGAGATTGACAGTATCCAGATTTTCGCCGGAAGCGGTTACACCTTCTCAAGCCTGGCTCCTAGCGCGATCGCTGCCTATACAGACGTGGAGCGGCAGCCCTGGTACCCCGGCGTGGTGGAAGCGAGAGGGGCTTGGGTGCTGCTTCCGCCTCATCGGCCTTCTTACTATCTGGACGGCAATCAAAGCTATTTTTCCGTAGCCCGGCTGATCCGTGAGCCCAATACCAACCGGACGCTCGGGTTAGTCAAAATCGATTTGAAGCAGACCTTGTTCAAGCAGCTTGTCGATAATGTCAGGCTGGAAGAGAACGGCGGCATCGTCGTGCAGAATAGCCGGGAAGAGCTTTTCTACACGGCGACCGCAGATGGGGAAACGGAAGCCTCCAAGCTGCTATCGGACCGGATCCTCGGGCTTTCAGGGCGTTCGGAAACGGCCAGCGAGATTCTGCATATGGAGGGCAGCAAGTATTTGGTTGTCTCCAACTATTCCCGATATTCCGATATCAATATTGTGAGCTATATTCCGGTGGCATCCCTGCTTGTGGAGACCAAGGAACTTCGCAACTTTACGCTTCTAGCCGGCCTGATATGTCTCGTTTTGGCCGGGGCCTTAGCCATCTACTTCTCTTATCGGCTGACCCAACCTCTCGGGACGCTGGTACGAAAAATGCGACTTGTGGAGCTCGGCGATTTCAAGCAGAGCGTGCCGGTAACTGAGGATGAAATCGGTCGGCTTGGTTCCGGCTTCAACCGGATGGTAGAGGAAATTGACCGGCTCGTCCATGAAGTATACGTGCTCGGCATGAGGGAAAGAGAGGCGGAGCTAGCCGCACTGCAGAGCCAGATCCAACCCCATTTTATATATAATACGCTGGAGTCGATCAGCATGCTTGCCCGGCAGCGCAATAATGAGGACGTCTCGGAAATGGCCACGGCTTTGGGACGACTGATCCGCAGCGCAGTGGAGCAGGACCGAAGCCTCATCCGGCTTGGCGAGGAGCTTGAGACGGCGGAGTCGTATATTCGCATTCAAAAAATGCGCCACGGTTCCAGGCTGCAGGCTATGTTCGATATCGAAGAAGGGTTGGACGATTGCCTGGTTCCGAAGCTGCTGCTCCAGCCGCTCATTGAAAATGCGATTATGCACGGGATTGGAGACCGCGAGCAAGGGGGCACGGTATACGTTACGGTGGCGCGATTTGAGGATGAGGTGCTGTTGACCATTCGGGATGACGGGCGGGGCTTGTCGGAGGATGAATTGGCGGCTCTGCAAGCTTCATTGGAAGAGGCCGGTGATGATGTGGCAGTAAAAACTCCGGCAATGCCATTACGCGGTCATGGAGTGGCGCTAAAAAATATTAATCAGCGGTTGCGTTTGATTTACGGCCGGGACTGCGACTTCGAAATCGATGGAAGCGTGGGACAAGGTGCGGCTTTTACCGTGACGCTGCCGTTCGCGAAACAAGAAAGGTAG	MSFRFKPLKSWSLRAKILLIFLLLISIPLSLQGVATYVGFSNSVERRTSDYTAQLVDQINRNLDRTLMEMQRLTLMPLYDSGVLSILRKYREEDSLHQQPTVEERSKMQLYIASMTFDRPEIDSIQIFAGSGYTFSSLAPSAIAAYTDVERQPWYPGVVEARGAWVLLPPHRPSYYLDGNQSYFSVARLIREPNTNRTLGLVKIDLKQTLFKQLVDNVRLEENGGIVVQNSREELFYTATADGETEASKLLSDRILGLSGRSETASEILHMEGSKYLVVSNYSRYSDINIVSYIPVASLLVETKELRNFTLLAGLICLVLAGALAIYFSYRLTQPLGTLVRKMRLVELGDFKQSVPVTEDEIGRLGSGFNRMVEEIDRLVHEVYVLGMREREAELAALQSQIQPHFIYNTLESISMLARQRNNEDVSEMATALGRLIRSAVEQDRSLIRLGEELETAESYIRIQKMRHGSRLQAMFDIEEGLDDCLVPKLLLQPLIENAIMHGIGDREQGGTVYVTVARFEDEVLLTIRDDGRGLSEDELAALQASLEEAGDDVAVKTPAMPLRGHGVALKNINQRLRLIYGRDCDFEIDGSVGQGAAFTVTLPFAKQER				NA	NA	NA	NA	NA
AK002_00315	765		COG4753	putative response regulatory protein	ATGATCAAGCTCATGTTAGTGGAGGACGAGGATATTATCCGTAAAGGCATCCGCGATTTGATCGGCCGTGTGGCTCCTGATGTTGAGGTCGTATACGAAGCCGCTCATGGAAAGGAAGCGCTGGCTTATCTGGAACGCAATGTGGTGGATGTGCTCATTACGGATATTCGAATGCGGGAGATGGACGGGCTTCAGATGGTCGAAAAGCTGCGGACCGCGGGCCATGAGATGCCGATTGTCATTATCAGCGGCTATGGAGATTTTGTATACGCCAAAAAAGCGCTGCAATTCGGGATCGCCGATTACCTGCTGAAGCCCATAGACCGTAAGGATTTTACGGTTGCATTGGACAAGATTCGGCTAACCTTGAATTCTTCAAATCGAAATGCGGGCGGGGCTGAGCCGTATAGCGAGGCGGACGGGGGGCCGCCGTCCAGCGAGGGGCGCAGGATGATCCGGAAGCTGAAGGCGTATATCGCTGAAAACCCCGACGGTGATTTGCGTTTGCAGACGTTAGCGGAGATGGTGCATTTAAATCCTTCCTATCTAAGCCAGCTCTTTAAGCAGGAAGGGGGCGGCAATTTGTCCGATTATATCGCCGAAACGCGCATCCGGCGAGCCTGCAGGCTGCTGGAGACGACGAACCTGAAGGTTTACGATATCGCCCGTTTATCGGGATATCAAAGTCCGAAGCATTTTATGCTGGTATTTAAACAGCATACCGGAATGACGCCGGGAACCTATCGGGAGCAATACAGTGTGTAA	MIKLMLVEDEDIIRKGIRDLIGRVAPDVEVVYEAAHGKEALAYLERNVVDVLITDIRMREMDGLQMVEKLRTAGHEMPIVIISGYGDFVYAKKALQFGIADYLLKPIDRKDFTVALDKIRLTLNSSNRNAGGAEPYSEADGGPPSSEGRRMIRKLKAYIAENPDGDLRLQTLAEMVHLNPSYLSQLFKQEGGGNLSDYIAETRIRRACRLLETTNLKVYDIARLSGYQSPKHFMLVFKQHTGMTPGTYREQYSV				NA	NA	NA	NA	NA
AK002_00316	1293			hypothetical protein	ATGAAAAAATGGTTGACCGGTTTATTGGCATTAACACTTGGTGTGGGGCTCATGGGCTGCGCCGGAAAAGAACAGCCGAAGAATACGCCAGGCGAAGCCAGTGGCGAGAAGGTACTGCTCAAATTCGCGACATGGGGAAATCCGGCGCAGCTTGAGCTGTACAAAGGGCTGACTGACGCTTTCACGCAGGAGCATCCGAATATTGAGGTGCAAATTGACACGATCCCGTTTGCGGACTATCAGCAAAAAATGTCCGTACTGGCGGCAGGCCAGGAGCTGCCCGACATTGCCTGGGTATCGGAGCGGATGGTACCGCAATTTATGGCCAACGACATTCTGGCCGATGTCACGGATATCGTTCAGGATGACGCTTTTGACATCGATGACATTATACCTTCGACGCTTGAACTGTTTCGCCAGGACGACAAGCTATACGGACTGCCGTTTTCCACTCCGCCCAGCGTGGTGTTCTACAACGAAGATTTGTTCAAGCAAGCGGGCTTAAGTACGCCGAACGAGCTTGCGGAAAAAGGTGAATGGACGTGGGAAACGTTCGAAGAAGCTGCAAAAACGATCAAGACGAGCGCTGCTTCACCGAACGTTTACGGGGCTAACTTTTTCCGCGACTGGAAGACATGGATTATTCTCGCTTCGTATTCTTGGTCAAACGGGAGCGGACCTTTTAATCCAGAGATGACGGAATACACTTGGAATGATCAATACGGGGTTGAAACCTTGGACATGCTGAAGCGCATGATGTTTACGGAAGGCTCGCACCCGAAGGCGGGAGAGCAGGTTAATTTTGAATCCGGGCAAATCGGCATGATTTTCGACAACTATAGCTTTGTATCCAAAGCCAGGGAGATCCAAAATTTCAAATGGAGCATTGCGCCAATGCCATCGGGCTCGAAAGGCAGCGTTCCGATGATGGGTCAGGCGGGTTACGTGCTATTTAAAGAGGGAAAACATCCGGAGGAAGCCAAGGAACTGTTGAAATTCCTTGCCGGCAAAGAGGGTGTACAGAAAACTTCGGCCTTCTTTGTGCCGCCGCGCCAATCGGTGCTGAACTCGGATGAGTTCCTGAGCGTGGAGGGCAATCCGGATGCCGGGCACATCAAGCAGGCGGTCATCGACGAAATGCCTAAAGCGGTTGTGCAGCCGGGACATATCCGCTGGCAAAACATCGACACGGAGATTTTGACAGGCTTTGACGAGTTATTTGCCGGGCGGGGCGAACCGCAGAAAATTCAGGATGAGGTAAAAAGCAAGGTGGATGCTCTGCTGAGCAAATAG	MKKWLTGLLALTLGVGLMGCAGKEQPKNTPGEASGEKVLLKFATWGNPAQLELYKGLTDAFTQEHPNIEVQIDTIPFADYQQKMSVLAAGQELPDIAWVSERMVPQFMANDILADVTDIVQDDAFDIDDIIPSTLELFRQDDKLYGLPFSTPPSVVFYNEDLFKQAGLSTPNELAEKGEWTWETFEEAAKTIKTSAASPNVYGANFFRDWKTWIILASYSWSNGSGPFNPEMTEYTWNDQYGVETLDMLKRMMFTEGSHPKAGEQVNFESGQIGMIFDNYSFVSKAREIQNFKWSIAPMPSGSKGSVPMMGQAGYVLFKEGKHPEEAKELLKFLAGKEGVQKTSAFFVPPRQSVLNSDEFLSVEGNPDAGHIKQAVIDEMPKAVVQPGHIRWQNIDTEILTGFDELFAGRGEPQKIQDEVKSKVDALLSK	PGPT0016545_7001	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00317	693			hypothetical protein	ATGAATCGTTTGGATAAAGCATTAAACGAAGCGCCGGGGCTGCAGCTGTTCGTCAGCCTCCCGGCCAATGACATCAAGCTTGCAGAGGCAGCCTTGGCTTCGGGCGCCGACGGTTTGAAAGTCCATATCAACGTAGGGCACCGGGCCAGCGGCAATCGCTTCGGCACGCTGGACAGCTATGCCGACATTTTCAAGGACATTCGCTCCCGCTTTGACGGCCCCCTTGGAATTGTGCCCGGAGGCTCGGTGGAAGAGGTAAACGCGGAGGAAATCAACCGGCTCCCTGAGCTTGGCGTCGATTTCTACTCGATTTATGCCTTTCATCATCCTGCTTCTCTGCTGCAGGCCCCGGGATTGGCAAGAACGTTTGCGATCGATAGCGAGTTCGACCGGGGCGTCGTGGAAGGAGGCCGGACCTTCGGCATCAGCGCGCTTGAGGCTTCCATCGTTCCCGGCCATGAATATGGTACCAGGCTTACCCTTGCCGATCTGCTTCATTACCGCTGGCTGGCGGCACACGGCGGTTTGCCGGTCATTGTGCCAACGCAGCGTAAAATCGGCCCGGAGGATATCCCGGCCTTGGCCGATAGCGGCGTCAAGGTGCTGTTGGTCGGAGCGGTGGTCACGGGCAATGAAGCGGAAGGCATCCTTAGGGAGGTTGCCGCTTTACGGAATGCAATCGATCGTCTGTAG	MNRLDKALNEAPGLQLFVSLPANDIKLAEAALASGADGLKVHINVGHRASGNRFGTLDSYADIFKDIRSRFDGPLGIVPGGSVEEVNAEEINRLPELGVDFYSIYAFHHPASLLQAPGLARTFAIDSEFDRGVVEGGRTFGISALEASIVPGHEYGTRLTLADLLHYRWLAAHGGLPVIVPTQRKIGPEDIPALADSGVKVLLVGAVVTGNEAEGILREVAALRNAIDRL				NA	NA	NA	NA	NA
AK002_00318	948	lacF_3		Lactose transport system permease protein LacF	ATGACCACACTTGAAACGATAAAATCTGAAGGGCCCGGCCGTCCATTCCGAAGGAAGGCAAGGAAGACCAGGCCTTTAAACCGCGGTGACCATTTGGCGGGTTGGCTGTTCGTGCTGCCGATGGTGCTGGGGTTCGTTCTGCTGCTGCTTGTCCCGCTCATGATGGCGCTTTATATGAGTTTTACCGATTGGCCGCTGCTGGGTGAGGCCAAGCTCATCGGATTCGAGAACTACCGCACGATTGCGGGGGATGCAGAATTTTGGCGCGTGCTGGGCAATACGCTTTATTTTGCCGCCGGACTTGTTCCGCTGAACATTATTTTGGCATTGCTGCTTGCAATCCCGTTATCAAAAAATATTCGCGGAGCCGGCTTTTTCCGGACATTGATCTTTATTCCGGTTATGACCTCGCTGGTGGTCTGGTCGATTGTTTGGAAGTATATGTTTGCCACGGATTCCGGGTTCATTAACCAGCTGCTGCGTATGATCGGCATTACCGGCCCGGCCTGGCTGTACGATACCCGGCTTGCCATGCCCGTTGTTATCGTGACCAGTCTCCTGAAAAATGTCGGTTTGAATATGGTGTTGTTCATTGCGGCGCTGCAGCAGGTTCCGGCGCAGCTCTACGAGGCGGCCAGGATCGATGGCGCAGGGAGAATGCGGATTTTTTTCCGAATTACCGTACCCATGATCACGCCGACGATTTTTTTGACCCTGATGATGACCATTATCGGTTCGCTGAAGGTGTTCGGACAAATTTACGTGATGACACAAGGGGGGCCTTCCGGAAGCACCAAGGTGCTCGTCTACAACATTTGGGAACGAGCCTTTAAGCTGTTCGAGTTCGGATATGCTTCTGCGCTGGCTTATGTGCTGTTTGTCATCACCCTGCTGCTTACGCTGGCACAATGGCAGATGAGAAAAAGGTGGGTTCTGAATGAAAGCTAG	MTTLETIKSEGPGRPFRRKARKTRPLNRGDHLAGWLFVLPMVLGFVLLLLVPLMMALYMSFTDWPLLGEAKLIGFENYRTIAGDAEFWRVLGNTLYFAAGLVPLNIILALLLAIPLSKNIRGAGFFRTLIFIPVMTSLVVWSIVWKYMFATDSGFINQLLRMIGITGPAWLYDTRLAMPVVIVTSLLKNVGLNMVLFIAALQQVPAQLYEAARIDGAGRMRIFFRITVPMITPTIFLTLMMTIIGSLKVFGQIYVMTQGGPSGSTKVLVYNIWERAFKLFEFGYASALAYVLFVITLLLTLAQWQMRKRWVLNES	PGPT0016535_2824	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00319	858	araQ_1	COG0395	L-arabinose transport system permease protein AraQ	ATGAAAGCTAGTCTATTTGCTAAAAGGGGCAACCCGGCAGGCGGGAACCTGTTCCATTATCTGCTGCTGCTTGCCGTTTCGGTGGTCATGATGACCCCGTTCGTGTGGATGGTCTCTACTTCGCTCAAACAGCCGGCCGATGTGTTTGTTTTTCCGCCGCAGCTGATTCCGTCGCCGATACGATGGGCGAATTATGCGGAAGTGCTGGAGACGATCCCGTTCCATCTATTTTATGGCAACAGCGTATATATCGCCCTTCTGGTTACCGTGGGCACCGTGCTTTTCTCTTCCATGGCGGGGTATTCGTTCGCACGAATTCCTTTTTGGGGGAGAAGCCTGGTGTTTCTGCTGCTGCTGAGCACGATGATGATTCCGAACGAGGTCATTGCCATTCCGATGTTTCTGTTTATGCGTGAGCTGGGTTGGATCAATACGCATTTACCGCTGATTATTTTGCCTATATTCGGCGCGGGCGGTGTGTTCGGGGTGTTTGTGATGCGGCAATTTTTTCTGGGGATTCCGAAGGAGCTGGAGGAGGCAGCGATGATCGACGGCTGCTCGCGGCTGCGGATTTATTCCACAATCATGTTGCCGTTAGCAAAACCCGCGATCGCCACGCTGATCATTTTCACGTTTTTGACGAGCTGGAACGATTTTTTTGATCCGCTCATCTTTATTAATGACCGTAAGCTGATGACCTTGCCGCTGGGATTATCGCTGTTTACCGATGAGTCGGGAACATCGTGGCATCTGCTGATGAGCGCTTCGGTTATGGCGACATTACCACTGCTCATTGTGTTTTTCTTTGCGCAGAAGCAGTTTGTCGAAGGGGTATCCATGACGGGTCTCAAGGAATAG	MKASLFAKRGNPAGGNLFHYLLLLAVSVVMMTPFVWMVSTSLKQPADVFVFPPQLIPSPIRWANYAEVLETIPFHLFYGNSVYIALLVTVGTVLFSSMAGYSFARIPFWGRSLVFLLLLSTMMIPNEVIAIPMFLFMRELGWINTHLPLIILPIFGAGGVFGVFVMRQFFLGIPKELEEAAMIDGCSRLRIYSTIMLPLAKPAIATLIIFTFLTSWNDFFDPLIFINDRKLMTLPLGLSLFTDESGTSWHLLMSASVMATLPLLIVFFFAQKQFVEGVSMTGLKE	PGPT0016540_4565	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00320	1356	sthA		Soluble pyridine nucleotide transhydrogenase	ATGGACAGCAGGACACGGATCATGGAGGCGGACGTGGTAGTTATAGGTGCAGGGCCGGCAGGCATTGCCGCCGCCATTGCCGCCGGCAGGCAGGGGGCAAGCGTCATCTTGATTGAGCGGTACGGATTTGTCGGCGGGATGTCTACGGCTGCCGGAGTTTATCCTTGGATGACGTTTCATACTCAGCAAGGGGAACGGGTCATCGGCGGCATTGCACAGGAAATTGTGGAGCGCTTGATGGAGCGCGGGGGCTCGCCCGGCCATCTTCGCGATACCGTCGGTTTCGTGCATACGCTGACGCCGTACCATCCAGAGATATATAAGGTGCTTGCCGTCGATATGCTGCGCGAAGCGGGGGTAAAGCTCGTCTCGCACAGCTTCGTTGACGAAGTGGGACGTGAAGGCGAATACATCCAGTCCGTGACCCTTACTGGAAAATCGGGGCGAATCAAGGTGGACGGGAAGATGTTCGTCGATGCGTCCGGCGATGCGGACGTCGCTTATCTGGCGGGAGCGCCGACGCTTCAGGGGCGGGAAAGCGACGGGCTGTCGCAGCCGATGACGATGAAATTCCGGATGCGGGGTGTTGACGTGGAGGCGATTCGGAAGGCGATGCTTGCTGATCCCGACAACTTTTATCACAAGACGCCGTTTGCCGAGCTAGAGAAGGAGCTTATTCCGCTCACGGGGGTTTCCGGCTTTTATAAGGAGTGGAAGGCTGCGGAGGTCCCGATCAACCGCGATCAGGTTCTGTTGTTTATCGGACCGGAGAAGGATGAGGTGCTGATTAACTGTACGCGGGTACAAGGCTTAAGCGCTACCGATGTCGAGGAACTCACTTTGGCGGAGGAGGAAGGGCGCAAGCAGGTGCTGATGATGGCGGAATTTTTGAAGTCGCGGGTGCCCGGATTTGCCGAGGCCTCCATTTCCTCGGTTGCTCCCCAGATCGGAATTAGGGAATCGCGCCGAATCGACGGTCTGTATCGGTTAACGATGGAGGACGTGGTGACGGGACGACATTTTGAAGACGGCATTGCGAGGAGCGGTTATCCGGTTGACTTGCATGATCCGTCAGGCAAAGGGATCATGGAGGCTACCATCGAGAATGACGGTTCCTACAGCATTCCTTACCGCTGCCTGGTGGCCCGAGGGCCAGCAAATCTGCTCGCGGCAGGGCGCTGCATTTCCACCACGCATGAAGCACTGGCGACCACGCGCTTGACGCCAAGCTGCATGGCTACGGGAGAAGCGGCGGGCACGGCGGCGGCCCTGGCCTGCAAGGCGGGAATCACCGCGGCGGAAGTCGATGCATCGCAGCTCAGGGAGATGCTGCACGCCCAAGGGGCGATTGTGTGA	MDSRTRIMEADVVVIGAGPAGIAAAIAAGRQGASVILIERYGFVGGMSTAAGVYPWMTFHTQQGERVIGGIAQEIVERLMERGGSPGHLRDTVGFVHTLTPYHPEIYKVLAVDMLREAGVKLVSHSFVDEVGREGEYIQSVTLTGKSGRIKVDGKMFVDASGDADVAYLAGAPTLQGRESDGLSQPMTMKFRMRGVDVEAIRKAMLADPDNFYHKTPFAELEKELIPLTGVSGFYKEWKAAEVPINRDQVLLFIGPEKDEVLINCTRVQGLSATDVEELTLAEEEGRKQVLMMAEFLKSRVPGFAEASISSVAPQIGIRESRRIDGLYRLTMEDVVTGRHFEDGIARSGYPVDLHDPSGKGIMEATIENDGSYSIPYRCLVARGPANLLAAGRCISTTHEALATTRLTPSCMATGEAAGTAAALACKAGITAAEVDASQLREMLHAQGAIV				NA	NA	NA	NA	NA
AK002_00321	1257			hypothetical protein	ATGAGTGAATTCATTAATAACCGTGAGGAAGGACTTTCTGCTCATCGAACGGCCCGTATACATTTGCTCAAGGAAATCATGAAAGAGCTGCACCATGGAAAAAGCGTGGAAGAAGTGAAGTCAAAATTCAATCAAGCTGTGGGCGAAATATCGGTTGATGAAATTTCGGAGCTGGAACAAGTGCTGATGCAGGAGGAAGGAATACCGGTAACCGAAGTACAGCGACTGTGCAGCGTGCATGCTGCCGTATTCAAAGGTTCCATCCAAGACATTCACAGAACTCATAAACCCGAAGAGCAGCCTGGACATCCTGTGTTTACGTTTAAGAGGGAGAACCAAGAAATCGATCGACTGGCAAATTTCAAAATCGCGCTGCATCTGGATCAATTTCTGAAGGATCAAGGGGAAGCAAATCGCCTCAAATTGCTGGAGGATTTCAGTCTCCTCTATGACGTAGACAAACACTACAGCCGCAAAGAAAATTTGCTCTTTCCATTTCTCGAGAAATACGGAATTTATGGACCGACCAAGGTGATGTGGGCGGTAGATGACGGTATCCGAATGGGAATAAAAGAAGTGAAATCCAAACTCGCTCATGATGAGGGCAATACGCAGAGCGTAGTGGACCTTGCCAAACGCGTCTTAAACGAAGTAACAGAAATGATCTATAAAGAGGAACATATTTTACTGCCTATGGCTCTGGAGAAGTTGACGGAAGATGAATGGCTTCAAATTGCTGCCCAAAGCGAAGAAGTCGGTTATTGCTTGGTTGCACCGGATCAACCATGGATTCCTGAAAGAGCAGCTGAACCTGGGGCAGGTCAGGGATTGGGGTCTTCTCCGCTGCAAGAGGGATATATCCGAATGAGTACAGGCATTTTATCGGTCAAACAGATGGAATCCATCTTAAATCATTTACCGGTCGACCTAACCTTTATCGATGAACATGATATCGTTCGATATTTTTCACAGGGCAAAGAACGAATCTTCGTTCGTACCAAAGCGGTGATCGGCCGAAGTGTTCAGAACTGCCATCCTCCGCAAAGCGTTCACGTCGTCAATCAGCTGCTTGCTGATTTCAAAGCAGGTGTCAAAGATACAGAAGATTTCTGGATCCCGGTTAAAGATAAATTTGTCTACATTCGTTATTTTGCCGTAAGGGATGAAGAAGGAAACTATTTAGGCACGCTGGAATTCACTCAAAACATTAAGCCGATTCAGGAGCTTACCGGTCAAAAACGGATACTCTCTCCGTAA	MSEFINNREEGLSAHRTARIHLLKEIMKELHHGKSVEEVKSKFNQAVGEISVDEISELEQVLMQEEGIPVTEVQRLCSVHAAVFKGSIQDIHRTHKPEEQPGHPVFTFKRENQEIDRLANFKIALHLDQFLKDQGEANRLKLLEDFSLLYDVDKHYSRKENLLFPFLEKYGIYGPTKVMWAVDDGIRMGIKEVKSKLAHDEGNTQSVVDLAKRVLNEVTEMIYKEEHILLPMALEKLTEDEWLQIAAQSEEVGYCLVAPDQPWIPERAAEPGAGQGLGSSPLQEGYIRMSTGILSVKQMESILNHLPVDLTFIDEHDIVRYFSQGKERIFVRTKAVIGRSVQNCHPPQSVHVVNQLLADFKAGVKDTEDFWIPVKDKFVYIRYFAVRDEEGNYLGTLEFTQNIKPIQELTGQKRILSP				NA	NA	NA	NA	NA
AK002_00322	480			hypothetical protein	ATGAACGCGATATCTTATCGGAAATCTGTGGCATGGGGCAAAGCACTTGGCAGTTTACTGTTTGTGCTGGCTTGCCTGTTTCTGCTGTACGCGGCCTTTTTTATGGATACTTCCTTTATTCGCAAGTTTTTTTGTATCACATCAGCCATAATAGGGATTCCGTTTTTTGGAGGTTATCTGTTTGTCAGCTTGCCAAAGGCGCTGAGATCAGACACGCAGCTCCTAACCTACGATCAAAATTCCATTTCGGATGGAAAGCGGACCGTAGCGTGGGAGGAGATTGCAAGTATCAGTTATAGCGGCCCTTCCATTCGGGAGTGGCTGCTTCCGAAATTTCCTAAGCTGATTTTTCATTTAAAAAACAGAGAAACCTGGATGGTGAATACGTATTATTTGTTGACCGATACCGAAGTTCAGTCTGTCATGAAGCGCCTGCGGGGGTTGATCAGCCGTAACGGAAAGGAAATGAAATATATCTGA	MNAISYRKSVAWGKALGSLLFVLACLFLLYAAFFMDTSFIRKFFCITSAIIGIPFFGGYLFVSLPKALRSDTQLLTYDQNSISDGKRTVAWEEIASISYSGPSIREWLLPKFPKLIFHLKNRETWMVNTYYLLTDTEVQSVMKRLRGLISRNGKEMKYI				NA	NA	NA	NA	NA
AK002_00323	1254	ybdG	COG0668	Miniconductance mechanosensitive channel YbdG	ATGGACTTTATCAAAAATCAACTAGACGGATATGGCATGAGCGAACAAACCATTGGATATCTCTCGAATATGATCATGGTCGTTTTTATCGCGGTGATCTCCATACTGGCTAATTTTATTACCAAAAAAATCGTGCTGAAGACGATTATTCATATCGTCAACAACAATCGGTACACATGGGACAATATCATCGTGGAGAAAAAAGTGTTCCACAAGCTGTCGCATCTTGTGCCGGCAATCATTATTTATTTTTCGGCGTCCATCTTTCCGGCGTACCAAATTCTGATTGAAAAAGCGGCCATGACGTACATGATTATCGTCACCATCACGGTGTTGAATGCGCTGCTTAATGCTTTTGATGACATTTATCGTTCATTTGAAGTTTCCAAGATTAGGCCGATTAAGGGATACATTCAGGTGGTGAAAATCGTTCTGTTCATCATCGGCGGCATTGTGGTGATCTCGAACCTCATCGGACAGAATCCTTTGATCATTCTCAGTGGGCTTGGTGCTCTATCGGCCGTTCTGATGCTGGTTTTCAAGGACTCCATATTGGGCTTGGTTGCAGGCGTTCAATTATCATCCAATGATATGGTGCGTGTCGGCGATTGGATTGAAATGCCGAAATACAATGCGGACGGCGACGTCATCGACATTACGTTGAATACGGTAAAAGTGATGAATTTCGATAAAACGATCACGATGATTCCCAGCTATGCCCTCATCTCGGACTCGTTCAAGAACTGGAGAGGCATGCAGGTATCCGGCGGCCGAAGAATTAAGCGAAGCTTCTATGTCGATACGAGCAGCATCTGCTTTTGCACCAAGGAGATGATTGAGGAATTTCAGAAGATTCACTACCTTACCGATTATGTCACGACCCGATTACACGAAATTAACGCATACAACATCGAGCATCAGATCAATACGGAAAGCAACGTGAACGGCAGACAGCTTACGAATGTGGGCGTGTTCAGGGAGTATATCCATCAATACCTGCGGAAACATCCGAAAATCCATAAGGATATGACGCTGATTGTCAGGCAGTTAGCGCCGGGAGATAATGGACTGCCCTTGGAAATCTACGCGTTCAGCAATGATACCAACTGGGGTGTGTATGAATCGATTCAAGCGGATATCTTTGACCATATCTTTGCCGTTGCGCCGACCTTCGGGCTTCGTGCCTTCCAAAATCCAACCGGCCACGATATCGTCCATCTCAAAGAAAGCCCGGAATATTCCCGGGGTTATTGA	MDFIKNQLDGYGMSEQTIGYLSNMIMVVFIAVISILANFITKKIVLKTIIHIVNNNRYTWDNIIVEKKVFHKLSHLVPAIIIYFSASIFPAYQILIEKAAMTYMIIVTITVLNALLNAFDDIYRSFEVSKIRPIKGYIQVVKIVLFIIGGIVVISNLIGQNPLIILSGLGALSAVLMLVFKDSILGLVAGVQLSSNDMVRVGDWIEMPKYNADGDVIDITLNTVKVMNFDKTITMIPSYALISDSFKNWRGMQVSGGRRIKRSFYVDTSSICFCTKEMIEEFQKIHYLTDYVTTRLHEINAYNIEHQINTESNVNGRQLTNVGVFREYIHQYLRKHPKIHKDMTLIVRQLAPGDNGLPLEIYAFSNDTNWGVYESIQADIFDHIFAVAPTFGLRAFQNPTGHDIVHLKESPEYSRGY	PGPT0013774_656	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013774-mscM|ybdG-K16053	NA	NA
AK002_00324	885	xsa_1		Xylosidase/arabinosidase	TTGAACATCAACAATCCGATCATACCCGGCTGGTATGCAGATCCCGAAGCCAGAACGTATGAGGGGAAGCACTGGATTTATGCAACGCGGTCCTTCACGGAATATACGATGCAGATGAATCTGGACGCATTCAGTTCCGACGATCTGATCCATTGGGAGAAACACGAAGGCATTATCGAAATGGCGGATTTTCCATGGATATGGAGGGCGGTTTGGGCACCGACCCATATCGAACACCAAGGGAAATATTATCTCGTGTTTGCATCGAACGACATCCAATCGAACGAGGAAATCGGCGGCTTGGAAATTGCCGTTGCGGACCGTCCGGAGGGGCCGTACAGAGGCTACTTGGGGAAGCCGCTCGTGGATAAGTTCATTCATCAGGCACAGCCGATCGATGCGCATCTATTCAAGGACGAAGATGGAACGATCTATCTGTATTATGGCGGATGGGGGCATTGCAACGTTGCGCGGATGAACGAAGAGATGACGGGATTCGTTCCATTGGCCGACGAAGGCAATGAAATTTTCCGTTCCATTACGCCGGAGGGATACGTGGAAGGTCCTTGTATGATTAAGAAGGACGGACTTTATTATCTGATGTGGTCCATGGGCGGATGGACGAATGGAACCTATCGCGTAGCCTATGGCGTAAGCGACAGTCCGCTCGGTCCATTCAAGAATGAAGGCACGATTCTGGAGCGTCAGGAGCCGATTGCCGAAGGACCCGGCCACCATGGCTACTTGCATTTGCAGGAGAGGGATGAATGGCTTATCGTATACCACCGCCGAATCATTGGGGACACCGAGCCGGGACACCGCCAGTTATGCATGGATCGGATGCGGATCGGCAACGGCAAGATTGAGCCGGTCATCATGACTTGA	MNINNPIIPGWYADPEARTYEGKHWIYATRSFTEYTMQMNLDAFSSDDLIHWEKHEGIIEMADFPWIWRAVWAPTHIEHQGKYYLVFASNDIQSNEEIGGLEIAVADRPEGPYRGYLGKPLVDKFIHQAQPIDAHLFKDEDGTIYLYYGGWGHCNVARMNEEMTGFVPLADEGNEIFRSITPEGYVEGPCMIKKDGLYYLMWSMGGWTNGTYRVAYGVSDSPLGPFKNEGTILERQEPIAEGPGHHGYLHLQERDEWLIVYHRRIIGDTEPGHRQLCMDRMRIGNGKIEPVIMT	PGPT0019100_91	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019100-hypBA-K09955	NA	NA
AK002_00325	675	ung_1	COG0692	Uracil-DNA glycosylase	ATGGCGATATTGAAGAATGACTGGGCGACATATTTAGAGCAGGAGTTTACGAAGCCATACTACTTACAGCTGCGGGAATTTCTTATTGACGAATATCGGACGAAGACCATTTTTCCCGATAAATACGATATTTTTAACGCGCTGCACTATACACCGCTGGCCGACACCAAGGTGGTCATTTTGGGCCAGGATCCTTATCATGGACCGGGACAGGCCCACGGCCTAAGCTTCTCTGTCAAAGAGGGCGTCAGCACGCCTCCTTCCTTGCAAAATATGTACAAGGAGCTTCAGGATGATCTGGGCTGCTTCATTCCCAATAACGGCCATCTGATAACATGGGCGAAGCAGGGGGTACTGCTTCTAAATACGGTGCTCACCGTAAGGGCCCATGAAGCGAATTCTCATAAAAACAGGGGATGGGAAAGCTTTACGGATAAGGTTATTGAGGCGATCAACCGGAAAAAGGAACCTGTCGTGTTCCTGTTATGGGGAAGCCACGCCCAGAAGAAGGCGGAGCTCATTACGAACCGGCAGCATAAACTGATTCGTTCGCCGCATCCGAGTCCGTTGTCTGCGCATCGAGGCTTTTTTGGCAGCAAGCCGTTTTCTCGCGCTAACGAATTTCTACGCAGTATGGGGCTTCAGGAAGTGAATTGGCAGATTCCGAACTTGTAA	MAILKNDWATYLEQEFTKPYYLQLREFLIDEYRTKTIFPDKYDIFNALHYTPLADTKVVILGQDPYHGPGQAHGLSFSVKEGVSTPPSLQNMYKELQDDLGCFIPNNGHLITWAKQGVLLLNTVLTVRAHEANSHKNRGWESFTDKVIEAINRKKEPVVFLLWGSHAQKKAELITNRQHKLIRSPHPSPLSAHRGFFGSKPFSRANEFLRSMGLQEVNWQIPNL	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
AK002_00326	771	ypdB_1	COG3279	Transcriptional regulatory protein YpdB	ATGTGGAAGATCATTATCGTGGAGGATGAGAAACCGATTCTGGGCCTGCATGCCAGATTACTCGAAACGCATGGCCCGTTTCAGGTTGTAGGCTGCTACGAATCGCCGTTCGATGCGCTGCAGGAGATACCGAAGCTGGATCTGGACGCACTCGTGCTCGACATTGAAATGCCGAGAATGACGGGGCTTCAGCTGGCTCAGAACTTGGTGGAGAACGGGATCGACGTGCCTGTGATCTTCACGACCGCTCACCAGCAATATGCCGTGCAAGCCTTTCGCGTGCAGGCCCTGGATTATCTCTTGAAACCGATGACCATCAATATGGTGAAGCAGCTGGATGAACGCCTTCAGAAGTATTACGGCCAGAGACCAAAGCAGGCCCAGAAGAAGGAACTCGACGTCCAGTTATATGGAGAAGCTTCCGTTATGCAAGGCGAGGAGCTTGTAAAATGGCCTACCCGCATCACCGAGGAGCTGTTTTACTATTTGCTGCTGCATGAGAATAAATTGTGCCCGAAGTGGAGAATCCTCGATGATCTCTGGACGAACGTGGAGGAAAAACGAGCGCTTTCCAATCTGTATAATACGATTTACCGAATGCGTCAGCTGTTTATGGAGCTCGATATTCCTATCGTCATCGAACGAGTGAATGATGGTTATATCATGAATGCGAACAACAGCATCATCATGAAGCCGAAAGAAAGGCCGGATGCCCTTCTATTAGAATCGAAAGGATATCTGTGGGCCTACGCTTTCGAATCGGGCCGTTAG	MWKIIIVEDEKPILGLHARLLETHGPFQVVGCYESPFDALQEIPKLDLDALVLDIEMPRMTGLQLAQNLVENGIDVPVIFTTAHQQYAVQAFRVQALDYLLKPMTINMVKQLDERLQKYYGQRPKQAQKKELDVQLYGEASVMQGEELVKWPTRITEELFYYLLLHENKLCPKWRILDDLWTNVEEKRALSNLYNTIYRMRQLFMELDIPIVIERVNDGYIMNANNSIIMKPKERPDALLLESKGYLWAYAFESGR	PGPT0026304_727	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
AK002_00327	2940	rcsC_2		Sensor histidine kinase RcsC	ATGAAGAAATGGATGGGTTATCTGGGTGCAATATGCGCCTTAATCGCCATTCTCTATATGATTTTTAGCGACCGGGACACAGGTGCCGTCCATATCAAAGCCGTAGACGGCGTGCTTGATTTGCGAGAGCTTAAGGATCCGCCGTTTGTATCGCTAGCCGGCGATTGGAAATTCACCGCCGAATCTTTTGTCGAACCGGTCGACTTTTCAAGCGAAACCGATTATCTTTCAGTACCCGGTCCCTGGGCATCGGATGTCGAGTGGGGATCCTACCAGTTAATCGTATACCTGCCGGACCACTGGACCGATGAGATCGGTCTCCGTGTTCGGAATATATGGTCTGCCCATACCATCTATATTGATGGCGTACCCCTATCGAAAATAGGAACCGTGGCAGCAACCAAGCAAGCGACAACCCCGGACAATCCTGCCTATGAAGCGTATTTTAAACCGGGGGACAGGCAGCTGCTGATTACCATTCATGCCTCCAATTTCTATAATACGAGAGGCGGCATCGTCCTGCCGATCGATTTCGGCGACGCCGAGCAGATGAAGGAAGACGTGCAGCGGGATCTATCCTTGGAATGGACGGCTACCTTATGTTTGCTGCTGTTCAGCATGTTCCATATCACGATCTACATGCTGCGAACGAAGGACGAGGCCTTCTTATACAGCGGTCTGCACTTTCTGCTATTGGCATGGGTCATCGTGCTGCGAGGAGAGCGGCTGTTCATTCGGGAGTTTCCGTCATTTCCCTTTGAACTCTATTTTCGCCTGCAGGACAGCTTGACCTTCTTGGCCTCCACCTTGCTGATTGTCTTTATCGTCAAAATGATTCCTTCCATCATGAGCCGAAAGACGATGTATCTGCTGTTTCTGCCGATCCTGGCCTACGCGTTCTTTAATGCGGTTCTCCCGGCCAGAACCATGTCGATTACGCAGTATCCGCTCTTTTATTACAACGATGGATTAATCTTAGGCATTATTATTCGCATCTTCTATCTGACGATGAAGAAGCGAATCAACATCCGTAAGAATGAAGCCGTCATCCTCATGTCGATGCTTCTGTTTCTAGCCGTATTCGCGATAAGCGCTTCATCGGACAGCTTGTTCTTCACCGGGCGCAACTATATGAACCGAATCGGGCTGGTCGGGTTTGTCATGACGATGAATGTTTTTCTGGGCATACGCCTGATGAACCGGGCCGAGGAATCGGAGCAGCTGAGCACCAGGCTGCAGAAGGCTAACGATGCGAAGGATGCCTTCTTGAAGGTCACGACGCAGGACCTGCAGAGGCCTCTGCACGATGCCGTTCATCTGGTGGGGTCCATCAACCGGGAGCCCCATCGCGAGAAGCAAGGCGAGCAGTTGTACTTGGCTGAACAGCTGATGGGGAACATGGTGTATTTATTGAGGGATCTGCATGATTTCACCCGCATCCGGTTTGATGATTACGCGATCCAGCTCAAGTCCACCAATATTCGGATGGTCATGCTCCATGTCATTCAGCTGATGCAGTTTACCTTCACGAAGAAGAAGATCGCAATCAATGAACAGATTCCGAAGCAGCTTTACGTATGGGCGGATGAGCAGCGCCTGACGCAGGTATTCATCCGGATCATGACCGAGATCTCCCACGACACCGCAGATGATCAGCTGACCATTGAAGCCGTACAGGTGGGCACGGAAGTCCTGCTTCGAGTGAGGTCAACCGGCGAATCCATGGCAGTGAATCGGGAACGCCCGCATTCTTCGGGGCTTATGATGACGGAGGAACTCATCCAACAGATGAACGGAAGCATCGCATATGAACGCCTGCAACGCGGCATTCGCTTTACGGTCACCCTGGCTTTCAGCGAATGTAAAGAGCCGGTTAACGCAGCGGAGCATGAATACGATCTACAGTCTGCGGCGCACGCAGAAGATCGGACGTTAGGAACGCTCCTGATTGTGGATGATGACGTGATGCATGCGGAAGTCATGAGGGATATGTTGGGGGATGCTTACAAGGTACGAATCGCTTATACAGCTCAAGAAGCGCTTGACTACTACAGGAATCATCCGGAAATCGCGATGATGATCATGGATGACATCATTCCAGGCGACATGGATAGTCTGGAATTGCTTCGGCAAATCCGTACACAGGCATCCTTAATGGACCTGCCGATCTTGATGATGATTTCTTCCGAATATCCCAGACATGTTGAAATGATTTTTGCAGCCGGCGCCAATGATTATTTGCTGAAGCCTTTTTCCAAAGAGACCTTGATGGCCCGCTTGAACGCTGCGGAACAAACGAAGCAGTCGATGCTGAAGGCGATTGAGTATGAAATGGCATTTCTGCAGACCCAAATTAAACCGCATTTTCTATACAACGCGCTTAGCAACATCATTGCCTTTTGCTATACGGATGGGGAGCGTGCAGCCTATCTTCTAACGATGCTCAGTTCTTTCCTGCGTTATATCTTTGAGACGAGCCGGGATGGACAATTCTCCACCCTGCAGAAGGAGCTGGAAATTATCGAGGCCTATGTCGAGGTGGAAAAAGCCAGATTCGGCGAACGGTTAACCTTTGCTTATGACATCGATCCGTCCATTGCCGCGGAGCATGTTCGGATTCCTAGCCTGCTCCTGCAGCCTTTAGTCGAGAATGCAATACGCCACGGCCTATTCGACAAGGAAGGTCCGGGACATGTCCAGGTCACCATTTCCTTGCACGCATCCTGCTTGAAGATCCGCGTCGCCGATGATGGCGTAGGCATGTCGGCCGCGCAGTGCGCTCAGTTGATGGGGGGAACGGCCGCCAATGCCGGAATCGGGTTCACGAATGTACGTCGGCGCGTACATGATCTTACCCAAGGAAGCCTGGAGCTTCACTCGTCGCCGGGCAACGGAACAACCATTCAAATATCGATTCCCGTGAAGGAGGGACAAGGGTAA	MKKWMGYLGAICALIAILYMIFSDRDTGAVHIKAVDGVLDLRELKDPPFVSLAGDWKFTAESFVEPVDFSSETDYLSVPGPWASDVEWGSYQLIVYLPDHWTDEIGLRVRNIWSAHTIYIDGVPLSKIGTVAATKQATTPDNPAYEAYFKPGDRQLLITIHASNFYNTRGGIVLPIDFGDAEQMKEDVQRDLSLEWTATLCLLLFSMFHITIYMLRTKDEAFLYSGLHFLLLAWVIVLRGERLFIREFPSFPFELYFRLQDSLTFLASTLLIVFIVKMIPSIMSRKTMYLLFLPILAYAFFNAVLPARTMSITQYPLFYYNDGLILGIIIRIFYLTMKKRINIRKNEAVILMSMLLFLAVFAISASSDSLFFTGRNYMNRIGLVGFVMTMNVFLGIRLMNRAEESEQLSTRLQKANDAKDAFLKVTTQDLQRPLHDAVHLVGSINREPHREKQGEQLYLAEQLMGNMVYLLRDLHDFTRIRFDDYAIQLKSTNIRMVMLHVIQLMQFTFTKKKIAINEQIPKQLYVWADEQRLTQVFIRIMTEISHDTADDQLTIEAVQVGTEVLLRVRSTGESMAVNRERPHSSGLMMTEELIQQMNGSIAYERLQRGIRFTVTLAFSECKEPVNAAEHEYDLQSAAHAEDRTLGTLLIVDDDVMHAEVMRDMLGDAYKVRIAYTAQEALDYYRNHPEIAMMIMDDIIPGDMDSLELLRQIRTQASLMDLPILMMISSEYPRHVEMIFAAGANDYLLKPFSKETLMARLNAAEQTKQSMLKAIEYEMAFLQTQIKPHFLYNALSNIIAFCYTDGERAAYLLTMLSSFLRYIFETSRDGQFSTLQKELEIIEAYVEVEKARFGERLTFAYDIDPSIAAEHVRIPSLLLQPLVENAIRHGLFDKEGPGHVQVTISLHASCLKIRVADDGVGMSAAQCAQLMGGTAANAGIGFTNVRRRVHDLTQGSLELHSSPGNGTTIQISIPVKEGQG				NA	NA	NA	NA	NA
AK002_00328	3642			hypothetical protein	TTGAAGAAAAAGATAATTTCAATGATCGTGGCAACGCTGTTGATTGTTACGAATATGCCAATGGCATATGCGCTCTCGCCGGTAGCAGAGGTTTACTATAATGCCGGAACGAGCATCTATGATTCCAGTGATTTTGAGAGCCAGTTGAATGATGCAATTAAAGCCCGGTTGAGCGCACAAGGCGTAAATCCTAAATATGTGTCCATCATGGACGCGAGCGCAGACCGGACAACGGTAACGGATACGACATATGTGCATGCCGGATATGACAGCTGGTATATAAATCAATTTGGCTATGCGATTCCCCCGGCGGTTGAAACTGCCGATTACAATCACGTTCAAGCTTCCAACGGGGGCAACACGTTAACCTTCTATGGTTATACCTCGCCTGCGTATAAGGATTTCATGCTGACGCAGGGAAGCCCTTCAGGCAAGAAGATCATTACCTTCGACATGGATGAATCCAAAGTGGATTACCACAGCATGGAAGGCGGAGGTTTTCTATTTAATACCCAGGTCGAGAGCGACGGTAAATTAAGCGGGTATGCGATTTTATATGTTCAGGGTGCCATCAATGTATATAAGATCGATGGCGTAGATGCTGCTGCGCTGCACAATGAGACGGGAAGAGCGTTGAGTTCCGTATCAGGCGTTACCCAAATTGGAAACTTCCCAAAGGGAACATCGACTCATCACAGCATTAAGATTGTCGCAACGGACACGACTTTGAATATGTGGGATAATGGCGACCAAATCATAAGAAAATTAGCTCTACCGGACGTGTACGGCAATGAATTTGGTCCCATTGTCAGCCATATAAGCCATGCTTGCGAGATCATTTCGATTTTTTCATTCGACAATATGAAATTATATTCAACTTCGAGCAAGCCGTTGGATGTAGCGGTCGATAATATCCTGTGGGGGACGTCGCCGCTGCGCTATGTCGTGAACATTAACGATGACCCTCGCGGGGATTTGGATCAGGGATCGAATCAATCTAAGCTGACGGAAACGTTCAATAACAAAGGCACACAGTATATCGGCGTTACGGAGTCGACTTATACGGACACCAACGATGATTTTATCCGCGGCCTGAACGAAGGCGGACTGCATGTCGATTCCGACAAATCAACCGACGACATCATTCAGGAAATTGCGAACCGGATCGCGGATCAACTTGTTTCCGATTATAAAGAAGCCATTCAAGCCATTGAAACGGCAGAGGACAAAACCGATATCGAGTACCATTTTACCGACACGAAAAATTCGGTGAAAAACAATCTTACATTGAAGCAAGACGATGACGTCACCACCGTCTGGTCCTCCGACCAGCCGTCGGTCATTGCACCTGATGGAACCGTGACGAGACCGGTTACGAACCAGTCGGGAACTTACGTGACCTTGACGGCAACCATCACCAAAGACGGGCTGACAAGCGAGAAGACGTTTACCGTCTATGTTCTTGCCGCAGATCCGGCTCCTTTAAGCACATTGAGCGCTGTTGCGGGCAATGAGCAAGCGACATTGAAATTCCCTGCTTTAACAGGTGCAACAAACATCGTGGTTGAACAGTCTACCGACGGTACCAACTTTACGCAGGTAAGACCATTGGAGACGCTGGATGCGGCTTCAACAATTGCAACCGTAACCGGATTAACGAACGGTGAAACCTACTATTTCCGACTGAACGTCGAATCCGGACTATATGACGGCGTATCCAACGTAGTCCAAGCCTCGCCGTCGAAATCGTTAACCACGTTATCGGCAGATGCAGGCAATGGGCAAGTGACATTGACTTTCCCGCCATTAACAGGGGCAACGAGCATTGTAATTGAACAATCTACGGACGGCACTGCGTTTACTGTGGTTAGCCCGTTGGAGACATTAGATGCTGCTTCTACGAGTGCAACCGTAACCGGATTGACGAACGGCGAGACCTATCATTACCGATTGGACGTCAAATCGGGTCCATACGCAGGCTTGTCCAATGTGGTACAGGCCTCGCCATCGGAACCGATCACCACGTTGTCGGCGGTTGCGGGCGTCGGACAAGTGACATTGAATTTCCCTGCTTTAACGGGGGCAACGAGCATCGTTATTGAAAAATCTACGGACGGCACCACGTTCACGCCGGTCACCCCAGTGGAGACCTTGGATGCCGGTTCAACGAGTGCAACCGTAGCCGGTTTATCGAGCCGTGAAACCTACTATTTCCGGTTAAACGTCGAATCGGGTCCACATGCAGGTCTGTCCAATGTAATTAGCATCAAGCCAAACGCGCCTGCGGTACCGGCAGAAGATCCGCCTGCAGGGAATACAAACGTTGTACAGCAGCCTGCACCTACTATGAAAACGGACGTTGTTGTTTCCGATCAAGCCAACGGGGGCAAAGTCGTCCAGGACAAAATCACGAAGCTCGTCGGAGACAGCCTGAAAGTATCAGGGAAAATAAAATCGGCATCCGGGCAAGAGCTGAATGTGCCGAATATCGTCATGAATCAGGACGGCAGCTTTACGCTTCCGAAAGTTGCACCTGGCGAATATACGTTGTCGCTGAACGTGATCGCGCCTAACGGGGAGAAGCTGGCTGGTCCTGCCGGCAAGCTGAGCGTCGATAGCAATGGAAATGCCAAGTTATCGGTTGATCTAGTCGATCCATATGGCACGATTCTCGATAAGGTGACGGAACAGCCTGTATCAGGCGTGAAGATGCAATTGTATTGGGCGGATACGGAGCTGAATCGTTCCAAAGGCAGAGTGCCGGGAACGCTTGTTCAACTGCCGGAGCTTCCTGATTTTGCACCCAACAAGAACCATAACCCGCAAATGAGCTCAGACAGCGGTCAATATGGCTGGATGGTTTACGCCAATGGCGATTACTACTTCTTGGGCGAGAAGAACGGATACGTTGTTTTTGACAGCCGTACCGATAAGCGTGAAGAGCGATTTGGCGCTGACAGCTATATTAAGGACGGAGTCATCCACGTCGGCGACACGATCGTGAAATTCAGCTTCTCCCAGGAGCCGAAAGTGAAGGCCGCAGGCGATCATCGCGCATACATGGTCGGATATCCCGACGGGACGTTCCAAGCCGATCGTGGCATTGTCCGGTCCGAAATGACTGCGATCCTATCTCGTTTGTATACATCCGCAGTGAGCTCGAAGAAAGTATCGTATTCGGATGTGAGTGCGAAACATTGGGCAACGAACGCGATTTCGACCGCAACCAATAATAAATGGATGGTCGGTTTCGGCGACAATACGTTCAAACCGAAGAAACAGATCACGCGGGCGGAATTTGCACAGATTCTCATGAATTTGAATAAATGGGACGCTGTCCAGGAGAGCACCTACACGGACGTAGCGGGACACTGGGCTGAAAAAGCCATTGCAACGGCTCAGGAGCAAGGTGTGCTGTTCGATTTCACGGAGGAGACCTTCCATCCGAATCAGCCGATTACGAGATTAGAGGTTGTTCGAATCCTGAACCAACTGCTGGATCGTAAACCTTGGGATATCAAGGTTGGACCGAAGTGGACCGATGTTCCGGAAAACCACGACCATTATTCAGACATCATGGAAGCTTCGATTCCGCATGGGTTTGAGCAGCTTGAGACCGGAATTGAAGATTGGAAGGAATAG	MKKKIISMIVATLLIVTNMPMAYALSPVAEVYYNAGTSIYDSSDFESQLNDAIKARLSAQGVNPKYVSIMDASADRTTVTDTTYVHAGYDSWYINQFGYAIPPAVETADYNHVQASNGGNTLTFYGYTSPAYKDFMLTQGSPSGKKIITFDMDESKVDYHSMEGGGFLFNTQVESDGKLSGYAILYVQGAINVYKIDGVDAAALHNETGRALSSVSGVTQIGNFPKGTSTHHSIKIVATDTTLNMWDNGDQIIRKLALPDVYGNEFGPIVSHISHACEIISIFSFDNMKLYSTSSKPLDVAVDNILWGTSPLRYVVNINDDPRGDLDQGSNQSKLTETFNNKGTQYIGVTESTYTDTNDDFIRGLNEGGLHVDSDKSTDDIIQEIANRIADQLVSDYKEAIQAIETAEDKTDIEYHFTDTKNSVKNNLTLKQDDDVTTVWSSDQPSVIAPDGTVTRPVTNQSGTYVTLTATITKDGLTSEKTFTVYVLAADPAPLSTLSAVAGNEQATLKFPALTGATNIVVEQSTDGTNFTQVRPLETLDAASTIATVTGLTNGETYYFRLNVESGLYDGVSNVVQASPSKSLTTLSADAGNGQVTLTFPPLTGATSIVIEQSTDGTAFTVVSPLETLDAASTSATVTGLTNGETYHYRLDVKSGPYAGLSNVVQASPSEPITTLSAVAGVGQVTLNFPALTGATSIVIEKSTDGTTFTPVTPVETLDAGSTSATVAGLSSRETYYFRLNVESGPHAGLSNVISIKPNAPAVPAEDPPAGNTNVVQQPAPTMKTDVVVSDQANGGKVVQDKITKLVGDSLKVSGKIKSASGQELNVPNIVMNQDGSFTLPKVAPGEYTLSLNVIAPNGEKLAGPAGKLSVDSNGNAKLSVDLVDPYGTILDKVTEQPVSGVKMQLYWADTELNRSKGRVPGTLVQLPELPDFAPNKNHNPQMSSDSGQYGWMVYANGDYYFLGEKNGYVVFDSRTDKREERFGADSYIKDGVIHVGDTIVKFSFSQEPKVKAAGDHRAYMVGYPDGTFQADRGIVRSEMTAILSRLYTSAVSSKKVSYSDVSAKHWATNAISTATNNKWMVGFGDNTFKPKKQITRAEFAQILMNLNKWDAVQESTYTDVAGHWAEKAIATAQEQGVLFDFTEETFHPNQPITRLEVVRILNQLLDRKPWDIKVGPKWTDVPENHDHYSDIMEASIPHGFEQLETGIEDWKE	PGPT0022155_3000	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
AK002_00329	420			hypothetical protein	ATGGCTGAACAGGTTAGAGTGAGCCCGCAATTCAAAAGGCTTTGCGACCAATTTGGAAGAATCCTAGGCGGCGAATCGGAAATTGAAGAAGGTCCGGTTTGTTTTGTCACGCGGATGACGAACTTAAGAGAGACGATTTTGGGAAGAAGAACGCGTTCCCCTTTGGTTCAAATGCAAATGTTTTCGTTTGAATCGCTTGACCAGTCGGGCCGCGCGCTTTGTTTGGGTGAGACTGCCGTGCATCAAAACCAGGTGAATCGATTGATGTCGAATCTCCGCAAACGGGGGATTAAAGTAACGGCGCTCCATAATCACTGGCTAAAAGAACAGCCTCGTTTAATGTATATGCATTGGGAATCGATTGACAATCCGGTTGCGTTTGCCAGAAAAACAAAAGAATCCATTGCGTTCTTGGGTTAA	MAEQVRVSPQFKRLCDQFGRILGGESEIEEGPVCFVTRMTNLRETILGRRTRSPLVQMQMFSFESLDQSGRALCLGETAVHQNQVNRLMSNLRKRGIKVTALHNHWLKEQPRLMYMHWESIDNPVAFARKTKESIAFLG				NA	NA	NA	NA	NA
AK002_00330	420			hypothetical protein	ATGGCGGAAGTGCAAGCAAGTCCTCGCTTTAGAAGACTTTGTAACCAATTCTCAAGTATTTTAGGCGGAACGGAGCATGAAATTACAAAAGGCCCGGTTTGCTTTGTCTCCAGAAATAGGAGAGTAAACGCATCTATCTTAGGTAGACGTACCACTTCTCCTTTGATCCGTTACCAACTCTTCTCGTTTGAATCGCTGGACAGTTCCGGTCGCGCGCTTTGTTTGGGAGAAACGGCTCTCTTCCAAGGCCAAGTGAATCGATTGCTGTCGAATCTTCGTAAGAACGGGATTAAAGTAACGGCCGTCCACAATCACTGGTTGTTTGAAAATCCCCGTTTGATGTATGTTCACTGGGAGTCCGTCGATGATCCCATTGCATTTGCAAGAAAAGTAAAGCGTTCTATTGCATTCTTAGGTTAA	MAEVQASPRFRRLCNQFSSILGGTEHEITKGPVCFVSRNRRVNASILGRRTTSPLIRYQLFSFESLDSSGRALCLGETALFQGQVNRLLSNLRKNGIKVTAVHNHWLFENPRLMYVHWESVDDPIAFARKVKRSIAFLG				NA	NA	NA	NA	NA
AK002_00331	177			hypothetical protein	TTGAGCACGAACCAACCGGACAAAAATCTGATTAACACGGTGGAACAACTGGCAGAGACACCCGTGAACAGCCATGAGGCCCAGCAACAGCAGCAAGCCCGCAATGATCGCCGGAAACAGGCTCTGCATGACAGCGACGGCAAATTCAAAGAGAATGAGTCCAAGAACTATCACTAG	MSTNQPDKNLINTVEQLAETPVNSHEAQQQQQARNDRRKQALHDSDGKFKENESKNYH				NA	NA	NA	NA	NA
AK002_00332	1002	pdxA2	COG1995	D-threonate 4-phosphate dehydrogenase	ATGAAACCGACGGTTGGAATTACGATGGGCGATGCGGCAGGCATCGGACCCGAAATCATTATGAAGGCCTTATCCCATCAGGAGATGTACGATAACTGCAACCCGCTCGTGATCGGCGACGCCAAAATATTAGAACGCGTGCTGCCGATTATCGGCTCAAGCCTGAAGGTGAACGCCATTCAAGAGCCCGCCGAGGCAAAATACGAGTTCGGCACCGTGGACGTTATCGATCTGGACCTCGTGCCGGCCGACCTTGCATTCGGCGAAGTATCGGCCGTCGCGGGAGATGCTGCTTTTCAGTTTCTGGCCAGAGCCATCGATTTGGCGAAGCAGCGGAAGATCCATTCCATCTGCACGGCTCCGCTGAACAAGGAAGCTCTGCACCAAGGCGGACATATGTACCCGGGTCACACCGAAATTTTGGCTGATCTCACGGATACCAAGGACTTCTCGATGATGCTGACGACCCCGAACCTGCGGGTCATTCACCTGACGACGCATATGGGATTGATCGAGGCCATTCAGAGCATCAATCCGGAAAGAACGTATACCGTCGTCAAACTGGCCCACGATACCTTGAAAAAGGCCGGTTTCGACAATCCAAGAGTCGCGGTCTGCGGAATCAACCCGCATGCGGGCGAGAACGGATTGTTCGGCAACGGCGAAGAAGAAGAAAAGCTGCTCCCGGGCATCAAGCGCGCCCAGCAGGAAGGCATTAATGTAGTCGGCCCCCTCCCTGCGGATACGTTATTCTTCAGAGCCGGCCGAGGCGATTTCGATATCGTCGTGGCCTGCTACCATGACCAGGGACATGCCCCGATCAAGGTCATGGGCATCGAAGAGGGCGTGAACATAACGGTCGGACTAAAAGGCGGTATCATCCGCACCTCGGTCGACCACGGCACAGCCTTCGATATTGCAGGGAAGAACATCGCCGATGACAAGAGCATGCTCGCCGCGATTCGTTCTGCCATTGAGCTTGCCCCGAAGGATCAAATATAA	MKPTVGITMGDAAGIGPEIIMKALSHQEMYDNCNPLVIGDAKILERVLPIIGSSLKVNAIQEPAEAKYEFGTVDVIDLDLVPADLAFGEVSAVAGDAAFQFLARAIDLAKQRKIHSICTAPLNKEALHQGGHMYPGHTEILADLTDTKDFSMMLTTPNLRVIHLTTHMGLIEAIQSINPERTYTVVKLAHDTLKKAGFDNPRVAVCGINPHAGENGLFGNGEEEEKLLPGIKRAQQEGINVVGPLPADTLFFRAGRGDFDIVVACYHDQGHAPIKVMGIEEGVNITVGLKGGIIRTSVDHGTAFDIAGKNIADDKSMLAAIRSAIELAPKDQI	PGPT0018130_368	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018130-pdxA2-K22024	NA	NA
AK002_00333	1296	dtnK	COG3395	D-threonate kinase	ATGAAATTAGCCATCATTGCAGACGATTTGACTGGCGCCAATGACAGCGGGGTCCAACTCGCTCGTCATGGCCTTAAAACCAGCGTTCTGTTCGATATGGACCAAGACAACATTCGTCATTACGATGCCGTTGTTTTCGATACGGACAGCCGTTCCATAACACCCGAAGAAGCTTATCAGCGAGTAAGCCGAGCCGCTCGATTTTTAACGGATGCCGGGTTTGATACGATATTCAAAAAAATGGACTCCACCATGCGCGGCAATATCGGGACCGAAATTGATGCGCTGTATGATGTGGTGAAGCCGGACTTTATGATGATCGCTCCGGGCTATCCCAAGAACAATCGAACCATTCTTAACGCTACCCATTACTTGAATGGAGTACCGTTAGCCGAAACCGAGATTGCCCATGATCCCAAAACGCCTGTCACCCACTCCTATCTTCCCGACTTGCTGAAGCTGCAAACCAAGTATGCCGTCGGCGAGATCTCAGTCCGTGATCTGGAGGCTGGAGCAGGCCGCATTGAAGGCAAATTAAAAGAGTTTCAACAACATAACATACCGTATGTGCTGATCGATTCCACGGAAGAAGCCCATCTGGAGTTCATCCTGCACATCACCGGGCAGCTTCCATACACGTTCGCATGGGCCGGCTCTGCAGGCATCGCCAATTATCTGCCCGCCCATTACCATATTTCGTCCAAACCGAGGGAGCTTGCTATCGCGCAGAATCAGGGACCCATTCTTACCGTGGTCGGCAGCGTGAACAAGAACTCCCGTGCCCAGCTGAAGCTTTTGCTTGAGCATACCGACGTGGTTCCCGTGCAATTCGTGTCTTATAAGGCTGTGTCCGATTCAGCGGAGCGCACGGAAGAAATGGATCGCGTCTATCAAGAAGTCAAGCTGCACGCGCTGGAAGGCAAAGATATCGTGATCTATTCGACGGCGGAGCCTTCCGATATCGAACGGGCCCGTGCCACAGGCGAAGCCCACGGGCTCAATCACACCGAGGTCAGCAATGAGATTGTCCGCGCCATGGGAGAAATCTGTGCCCGGCTGCTGGAGCACGGTTATTTCAAGGGTGTATCCATGACAGGCGGAGACACGGCCAAACAAATCTGCATGCAATGGAGCATTAGCGGCTTCGAATTGCTGGACGAGCTGGAAATCGGCGTGCCGATCTCGAAATTTATAGGGATCGACGATTTGTATGTGGTCACCAAGGCAGGCGGATTCGGCAAGCCGGACGTATTTATCCATGCGATTCAAACGATAAAAGGAGGTAATCCAGCATGA	MKLAIIADDLTGANDSGVQLARHGLKTSVLFDMDQDNIRHYDAVVFDTDSRSITPEEAYQRVSRAARFLTDAGFDTIFKKMDSTMRGNIGTEIDALYDVVKPDFMMIAPGYPKNNRTILNATHYLNGVPLAETEIAHDPKTPVTHSYLPDLLKLQTKYAVGEISVRDLEAGAGRIEGKLKEFQQHNIPYVLIDSTEEAHLEFILHITGQLPYTFAWAGSAGIANYLPAHYHISSKPRELAIAQNQGPILTVVGSVNKNSRAQLKLLLEHTDVVPVQFVSYKAVSDSAERTEEMDRVYQEVKLHALEGKDIVIYSTAEPSDIERARATGEAHGLNHTEVSNEIVRAMGEICARLLEHGYFKGVSMTGGDTAKQICMQWSISGFELLDELEIGVPISKFIGIDDLYVVTKAGGFGKPDVFIHAIQTIKGGNPA	PGPT0018125_199	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018125-dtnK|denK-K22129	NA	NA
AK002_00334	984	kdgT		2-keto-3-deoxygluconate permease	ATGAAAATTAAAGCGACATTAGATCGTATCCCTGGCGGTATGATGGTTGTTCCCCTCCTCATCGGAGCGTGCATCAATACATTCGCACCTAACGCTTTGCGGATCGGCGGGTTTACGGAAGCCTTATTCGTGAACAGCTCGAGTACGCTCATCGCCCTTTTCTTATTGATTGCCGGCACGCAGATCACGTTCAAAACGGCGGGTTCGTCGGTGGGAAAAGGCGTCACGCTGCTTGTGTTTAAGTGGACGATCGGCGCGATATTAGGTTTGGTCGCCATCCTGTTTGCGGATTCCAACGGATTATTCCTGGGCCTTGCCCCTCTGGCCATTATCGCGGCCATGACGAATTCAAACGGCGGACTGTATATCGCGTTAGCCGGACAATACGGAAAAGAGGATGACAAAGCAGCCTATCCTTTCCTGGCATTAAGCGACGGACCGTTCTTGACGATGGTCGCGCTCTCGATCTTCGGTGCCATGGGCTTTGCCAACGGCATGTTCTCACCGATGTCTTTCGTTGCCGTACTGCTTCCGCTGCTCGTCGGCGTCGTGATCGGGAACCTGGACCGGAATATGGCAGAATGGCTGCATAAAGGCAGTGACAAGCTGGTTCCGTTCTTTGCCTTCTCGCTCGGTATGGGCATCAATTTCTCATCCATCATTCAAGGCGGACTAAGCGGTATTCTGCTTGGCGTGCTGACGGTCCTGCTCACAGGGGGCATTGGTTTTCTGCTGTTCAAGGCGATCGGCTGGAATCCGATTGTCGGTGCTTCCGAGGGCTCCACGGCGGGTAATGCGGTAGGCACGCCGGCTGCGATCGTCGCCGCGAATGCATCCTTCGCCCCGATTGCCGAAATCGCGACCGTACAAATCGCCGCGAGCGTCGTGACGACCGCCATACTGCTGCCTGTCTTTATTGGTTTCCTGTCCAAGAGACTGGAGAAATCAGGCGGCGTCGAAAAATACAACAACCCTGCAGCATAG	MKIKATLDRIPGGMMVVPLLIGACINTFAPNALRIGGFTEALFVNSSSTLIALFLLIAGTQITFKTAGSSVGKGVTLLVFKWTIGAILGLVAILFADSNGLFLGLAPLAIIAAMTNSNGGLYIALAGQYGKEDDKAAYPFLALSDGPFLTMVALSIFGAMGFANGMFSPMSFVAVLLPLLVGVVIGNLDRNMAEWLHKGSDKLVPFFAFSLGMGINFSSIIQGGLSGILLGVLTVLLTGGIGFLLFKAIGWNPIVGASEGSTAGNAVGTPAAIVAANASFAPIAEIATVQIAASVVTTAILLPVFIGFLSKRLEKSGGVEKYNNPAA	PGPT0017210_403	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_KETODEOXYGLUCONATE_TRANSPORT,PGPT0017210-kdgT-K02526	NA	NA
AK002_00335	1686			hypothetical protein	ATGCGTATACGTGTCCATATAATCGCACCTTATGAAGCGATGGTTCCTATCATACAAGAGTGCATTCCCCTGTTTCCCCAGTTAGACATACAATACGCCGTCGGCGACTTGCAAAAAGGGGCCGAGCTGGCAGCTTCGGCTCAAAACAACGGAGCCGAGGTGATTATCAGCCGCGGCGGAACGGCCCAGCTGATTAAAGCCGCGGTATCGATTCCCGTCATTGATGTCCACCTGTCCGGATACGACATGATCCGTTCCTTGACGCTGGCGAGCCAGTTTAACGGAAAAACCGCCATTGTCGGCTTTTCCAATATTACATCGGGCGCCCAATCGATTATTGATTTAATGGATCTGCCTTTAAAAGTGTATACCATACACAGCTCCGAAGATGTTGCACGGTTATTGCTGGAGCTGAAAGCTGCCGGATACCGCCAGGTAGTCGGGGATGTCATCACCGTCCATACGGCCGAGGCCTACGGGTTAAAGGGCCTCCTCATCCATTCCGGCAAAGAATCCATCATGCGAGCCCTGGACGATGCCCAGCTCATCTACCGCTACCTGAGCAACAACTATACCGTCTCAGCAATCCTGAACGAGCTGGTTGCCAAAGAACACCCCAATCTCGTGATCTTTAACGATCAGAATGAAATCGTATACGAGCAATTGACCGATTTTGAGCACAGCCCTTTGACGGATAATCATATCTATCTGATCAATACTAATGTGGAATTCCACAAAGCCCAAGTGCAGAATGTTTTTACGATGGACGATTACCAGCTTTCCGTCACAGCCTATGAAACCTCATTGGACAACAAAAGCTATAAAGTATACTCCTTGGAAAAAGGGCGGCCCTATGAATTTGCGCAGTCAGGCATCAAAGCCTATGCTGAACCATTAGCAGAGCCGATGATTGCCGAATCCGCTGCGATGCGCACCACGTTGGCAAGCATCCAAGCTCTGTATCAACATCATGAGCCCATCCATCTGCTTGGCCGGGAAGATACGGGCAAGTCCTTCGTCGTGAAGTATATTCATCAATTGTACTCGGACGGCGGTTTGCTGCTCCAGATCGATCTAACCCAAGTTTCCCCGGATCAGTTAGGAACCCTTCCGCTATCCAAAGCCAGGACCGTGGAATTCATCCATGTGGAAGAATGCATACAGGATCCGAATTTGATAGCATTTGTGGAGACCTGCCTAAATAGGCGGATTGGCGTATTCATACTTAGCGATCGGGCGCTTGACCAACAGAGAACCCCCAACATGAAGCTGAATACGATCCTCATGCCTTCGCTGTCGGACCGTTTGGAGGATCTGCCTTCGCTTATTCAGCTCTTTTTAAGCCGATACCATCAAAAATACGGGACGGCGGCGGTAAAAATAAGGGAAGACGCCTTGCAGCTTATACGGCAGAATGCTGAGCACATGACGATCGGCCAATTAAAGCAGCTCATTAAACAGGCTGCAATGAACGAAACGGACTATGTGATTTCAGCCGATATACTTGCTCGCTTGCTCGACCATCAGCCTCCGGCCTCAACCCCTATTCCGTTGAAAGGGACTCTTAAAGAGATCGAGAAAGACATTATTCAATACGTACTTCACGAGGAAAAGAATAACCAATCTAGAGCAGCCGAACGGTTAGGGATTAATCGGGCCACGCTTTGGCGTAAACTTAAAGAATAA	MRIRVHIIAPYEAMVPIIQECIPLFPQLDIQYAVGDLQKGAELAASAQNNGAEVIISRGGTAQLIKAAVSIPVIDVHLSGYDMIRSLTLASQFNGKTAIVGFSNITSGAQSIIDLMDLPLKVYTIHSSEDVARLLLELKAAGYRQVVGDVITVHTAEAYGLKGLLIHSGKESIMRALDDAQLIYRYLSNNYTVSAILNELVAKEHPNLVIFNDQNEIVYEQLTDFEHSPLTDNHIYLINTNVEFHKAQVQNVFTMDDYQLSVTAYETSLDNKSYKVYSLEKGRPYEFAQSGIKAYAEPLAEPMIAESAAMRTTLASIQALYQHHEPIHLLGREDTGKSFVVKYIHQLYSDGGLLLQIDLTQVSPDQLGTLPLSKARTVEFIHVEECIQDPNLIAFVETCLNRRIGVFILSDRALDQQRTPNMKLNTILMPSLSDRLEDLPSLIQLFLSRYHQKYGTAAVKIREDALQLIRQNAEHMTIGQLKQLIKQAAMNETDYVISADILARLLDHQPPASTPIPLKGTLKEIEKDIIQYVLHEEKNNQSRAAERLGINRATLWRKLKE	PGPT0019455_300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0019455-prpR-K02688	NA	NA
AK002_00336	2787			hypothetical protein	TTGAGTACACAGAGAGTGGGAGCTCCTTTGGAGGGCTTTGCGGAGTTCAGCCGAAAAGTCGCCGCCGAAGGTGCCGTACTGTTAAAGAATGAAGGACAGGCTCTGCCCCTGCAGCCGAACGAAACCGTTTCCGTTTTTGGCAGAACGCAGGTTCATTATTACCGCAGCGGTACGGGGTCGGGAGGCAGCGTTCATGTTTCCCATACAACGAATCTGCTGGGCGGTCTTCGGGATCAGAAGGGCATCGCCGTCAATGAAGAATTGGCTGCCGTTTATGAGCAGTGGATCGAGCAGAATCCTTTCGATAATGGCGGAGGCGGCTGGGCGGCTGAGCCGTGGCATCAGAAGGAAATGCCTTTGACCGATGAGCTGGTCTCCGCGGCAAGACGCGCATCCGACAAGGCGATCGTTGTCATCGGACGGACGGCCGGAGAAGATCAGGACAACGCCAATGAGCCGGGCAGCTACCAGCTAACGTCCGAAGAAAAAGCCATGCTGCAGCAGGTGACCGCACACTTTGAGCAAACCGTTGTGGTGCTGAATGTGTCCAACATTATCGATATGAGCTGGATGCTCGATGAAGGTTATGTGTATCCGATTTCTTCAGTCATTTATGCTTGGCACGGCGGCATGGAGGGCGGCAACGCCATTGCGGACGTATTGGCGGGCGAGGTGACGCCCAGCGGCAAACTGACGGATACGATTGCTTATTCGATCGAGGATTATCCATCGACCCGCAATTATGGCAATGAGCTTAAGAACCTGTATCAAGAGGATATTTATGTGGGCTACCGTTTTTTCGAAACGTTTCGACCCGCAGCCGTCCAGTATGAATTCGGGTTTGGATTGTCCTATACGCAGTTCCGAATCGAGCCGCGAGAAGCCAAACTCGCGGTCAGAGAGGGAGCGCCAACCGTTGAGATCGGCGTGAAGGTGACCAATATCGGGACCGCCTATGCAGGTAAAGAGGTTGTGCAAGTTTATTACGAAGCACCGCAAGGATGGCTGGGCCAGCCTGCCAAAGTTTTGGCCGCTTTCGGGAAGACGCAGGAGCTACAGCCGGGGGAATCGCAGCAGCTAACGCTCCAGTTCCCGGTTCATGCCATGGCCTCCTATGACGATGCAGGCGTGACGGGCCACCGTTCAGCCTATGTATTGGAGGCCGGAACGTACCGTCTGTACGCGGGAACCAGCGTGAGAAATGTGCAGCCTATCGGCTTGGATGGTCAAGAAGGTTATGTTGTAGAAACTCTGCAGGTTGTCGAGCAGCTCCGGGAAGCCATGGCGCCAACGGAGAGCTTCACGCGAATGAAGCCGGGCGTTCGTAGGGAGGACGGCTCGTACGAGCTTACTTTTGCGGAGGTGCCGAAGCGCACGATTGCCATGGAAGAGCGCATTCGCCAAAACCTGCCGCCGACCTTGGAGCAAACGGGCAATCGAGGCTATACCTTAAGGGACGTCCATGAGGGGAAAGTCAGCATGGAGGCTTTCATCGCCCAGCTTAGCGATCAGGATCTGGCGGTCATCGTCAGAGGAGAAGGCATGAGCAGTCCGCTGGTTACGGCGGGGACGGCATCGGCTTTTGGCGGCGTGAGCGACCGCCTGCTCGACTACGGAATTCCGGTGGCTTGCACCGCGGACGGACCGTCCGGTATTCGGATGGACAGCGGGCAGCAGGCAACGCAGGTGGCGATTGGCACCCTGCTTGCAGCAACGTGGAATACGGAGCTGGTCGAAGAGCTCTATGTGATGGAAGGCCGGGAGCTGCTCAGCTACAACATCGATGCGTTGCTGGGTCCCGGCCTGAACATTCGGCGCAGCCCGCTGAACGGTCGCAATTTCGAGTATTTCTCGGAAGATCCGCTCATCTCCGGCGCCTTTGCCGCGGCATGCACGCGCGGGATTATGAAGGGCGGCTCCAACGCCACGCTGAAGCATTTTGCTTGCAATAACCAGGAGAAGCATCGGAGCAAAGTCGACGCCGTCGTATCCGAACGGGCCCTTCGGGAAATTTATCTGAGAGGCTTTGAAATCGCGGTGAAGCAGGGCGGGGCCAACTCCATCATGACCTCGTATAACCCGATCAATGGACACTGGGCGGCTTCCAATTATGATCTGAACACCACGATTCTGCGCGGAGAGTGGGGATTCCAGGGCATCGTCATGACGGATTGGTGGGCCATTATGAACGACGTGGTGAACGGAGGCCCGGCCGATCGGAAAAATACGAACTGGATGGTCCGTGCCCAAAACGATTTGTACATGGTGGTCATGAACTACGGAGCGGAAATCAATGCCTGGGAAGACAATACGCTGGCATCCTTGGAAAATGGCACGCTGACCCGCGGAGAGCTGCAGCGCAGCGCCATGAACATCTGCCAATTCCTGATGCATGCGCCGGTCTTCTCGAGAAAGCAGGTGATCGAGGAAGCCGTGGGTTCATTTAAAGCCGATCCTTCCCTCGAGCCGGTACCAGCGCAAGCCTTATCGGAGAGCACGCAAGTGAAGCCGGCTGCAGCGGGATCAACATATATGAAGGTAGAGGAATCCGGTGAGTACCGGATCATTGTGCGCATCATGTCGCCGGAATCGGAACTGGCCCAAAGCGCCTGCAACGTCACGCTGAACGATCAGCCGGTAACCACGATTCAAACGAATGGTACCGACGGCAGATGGATTCGGCAGAAGCTTGTCAAAGTGGAACTGGAAGCGGGTTATTACGAGATGAAGCTGGATTTCGTCAAGCCGGGCTTGCAGATCGAGTGGATTGAATTTAAAGGGGTTTAG	MSTQRVGAPLEGFAEFSRKVAAEGAVLLKNEGQALPLQPNETVSVFGRTQVHYYRSGTGSGGSVHVSHTTNLLGGLRDQKGIAVNEELAAVYEQWIEQNPFDNGGGGWAAEPWHQKEMPLTDELVSAARRASDKAIVVIGRTAGEDQDNANEPGSYQLTSEEKAMLQQVTAHFEQTVVVLNVSNIIDMSWMLDEGYVYPISSVIYAWHGGMEGGNAIADVLAGEVTPSGKLTDTIAYSIEDYPSTRNYGNELKNLYQEDIYVGYRFFETFRPAAVQYEFGFGLSYTQFRIEPREAKLAVREGAPTVEIGVKVTNIGTAYAGKEVVQVYYEAPQGWLGQPAKVLAAFGKTQELQPGESQQLTLQFPVHAMASYDDAGVTGHRSAYVLEAGTYRLYAGTSVRNVQPIGLDGQEGYVVETLQVVEQLREAMAPTESFTRMKPGVRREDGSYELTFAEVPKRTIAMEERIRQNLPPTLEQTGNRGYTLRDVHEGKVSMEAFIAQLSDQDLAVIVRGEGMSSPLVTAGTASAFGGVSDRLLDYGIPVACTADGPSGIRMDSGQQATQVAIGTLLAATWNTELVEELYVMEGRELLSYNIDALLGPGLNIRRSPLNGRNFEYFSEDPLISGAFAAACTRGIMKGGSNATLKHFACNNQEKHRSKVDAVVSERALREIYLRGFEIAVKQGGANSIMTSYNPINGHWAASNYDLNTTILRGEWGFQGIVMTDWWAIMNDVVNGGPADRKNTNWMVRAQNDLYMVVMNYGAEINAWEDNTLASLENGTLTRGELQRSAMNICQFLMHAPVFSRKQVIEEAVGSFKADPSLEPVPAQALSESTQVKPAAAGSTYMKVEESGEYRIIVRIMSPESELAQSACNVTLNDQPVTTIQTNGTDGRWIRQKLVKVELEAGYYEMKLDFVKPGLQIEWIEFKGV	PGPT0019110_591	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
AK002_00337	201	cspD_1	COG1278	Cold shock protein CspD	ATGCAAACAGGAACAGTGAAATGGTTTAACGCAGAAAAAGGCTTTGGTTTCATCGAGGTTGAAGGCGGCGAAGACGTATTCGTACACTTCAGTGCAATCACTGGTGACGGCTTCAAGTCGCTTGACGAAGGACAGCGCGTTGAATTTAACGTAGTCCAAGGCAACCGCGGACAGCAAGCCGAGAACGTTGTAAAACTGTAG	MQTGTVKWFNAEKGFGFIEVEGGEDVFVHFSAITGDGFKSLDEGQRVEFNVVQGNRGQQAENVVKL	PGPT0014675_9403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK002_00338	243			hypothetical protein	TTGTCATATTCTTGGAATAAGCCGCTGGAAAATCTGCCGGAAGAGATGACCACGATCTGGTCTTGTACGAAGGAAGGGTGTAACGGTTGGATTCGAGACAACTTCTCGTTCAAGGAAGTTCCCGTTTGTTCACAGTGCGCGTCGCCCATGGTCAGCAGCAATAAAATCCTGCCGATTCTCGTTTCGTCGGATCAGCAAATCAAGCTTTACCGCAAGAATCAGCGCAAGGACACGAAGTCGTAG	MSYSWNKPLENLPEEMTTIWSCTKEGCNGWIRDNFSFKEVPVCSQCASPMVSSNKILPILVSSDQQIKLYRKNQRKDTKS				NA	NA	NA	NA	NA
AK002_00339	228			hypothetical protein	ATGCAGGCATTCGAAGATTGGAATCTAAAGGTGAAAAAAACGTTTAATGCTACAAGTAACAAGGAGGTATTAACCGTGTCTGAGGCAGGTCATTTGTTAGGTCTGTCCAAAGATCAAATGAAGATCTATGTCGATCAGAATAAGCTGACTAAGGTTCCGATCATGAGAAGCGTGCATCGATACCTTTTGTTGAAAAGTGAAATCGATCGAATTATGCAAAAGCAATAA	MQAFEDWNLKVKKTFNATSNKEVLTVSEAGHLLGLSKDQMKIYVDQNKLTKVPIMRSVHRYLLLKSEIDRIMQKQ				NA	NA	NA	NA	NA
AK002_00340	462		COG0071	18 kDa heat shock protein	ATGATGTTTGAATTGATGCCATTCGGCAAGCGCAGAGAGGATGCCTTCGGACAACTGATGAAGTCATTTCATGATGCCTTTAACGACGCTTTTCCTGATGATGTGTTTGCGCCGTTCAAGGGTTCGATGATGTCGTTTAAGACGGACGTCAAGGAGACGGAGCACGCTTATCTGGTTGAGGCGGAACTGCCCGGTTTTCGCAAGGAAGACATCGAAATCAGCTACGCTGACCCTTACTTAACGATCAAAGCCGTGCGCAAGGAAGATCAGAGCGTGGAGGATACGAACCAGCACATCGTCCGCAAGGAGCGCCGTTACGGCCAGTATGTGCGCAGATTTTACGTTCAGAACATAGCCGAGGACCAAATCGACGCTTCCCTGAAGGATGGAGTCCTTAAGCTTGAAATACCAAAAAAGCCCGACCCTGGTAAGAAACGCATCCAGATCCGGGATGATATCTAA	MMFELMPFGKRREDAFGQLMKSFHDAFNDAFPDDVFAPFKGSMMSFKTDVKETEHAYLVEAELPGFRKEDIEISYADPYLTIKAVRKEDQSVEDTNQHIVRKERRYGQYVRRFYVQNIAEDQIDASLKDGVLKLEIPKKPDPGKKRIQIRDDI	PGPT0014635_4317	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
AK002_00341	708	ydjF_1	COG1842	Phage shock protein A	ATGATGGGAATCTTATCGAGGTTTAAGGATATTATGAGGGTGAATGTGAATTCGTTATTGGAACGGACGGAAGATCCGGAGAAAACGATCGATACCTATATGCGGAGCTTGAACGGCGATCTGGGTAAGGTGAAAGCGGAGACCGCTTCCGTGCTTTCGGATGAGCGGAGAGCGAAGCGGGCACTGGATGAGTGCAGCGCCGAGATTCAGAAGCTGCAGCGATATGCGGAGAAGGCCGTGGAAGCGGGAAATGAAGGCGATGCCCTGAAGTTCCTGGAGCGAAAAGCGGCGCAGGCCGAGAAGCTGAGCGACCTGCAGGCAGCCCACGAATCGGCTGCCGCAAACGCCGTCAGAATGAAGCAATTGCAGGATAAGCTGGTGTCGGATATGAGCCAGCTGGAAGATCGCTATGCCGAGCTGAAAGGGAAGATGGCGGCTGCCAAATCCCAGCAGGAGCTGAATTCCGGCCGATCCTCCTTGGGCGGTGCCAATGCGGCATTCCATACCATGGAGGAGAAAGCGAGCCGTGCTTTGGATGAAGCGGAGGCCCTGGCTGAGCTGCGCGCAGGAGCGAAGGAAGATGACCTGGACGATTTGATCGCGGAATTGGAGAAGAGCATGGGCAAGGACGGAGCTGCCCCGACTTCACCTCCTAATGCCAAGGATGAACTGGAAGCGATCAAAGAAAAGCTGAACAAGAAGGAGTAA	MMGILSRFKDIMRVNVNSLLERTEDPEKTIDTYMRSLNGDLGKVKAETASVLSDERRAKRALDECSAEIQKLQRYAEKAVEAGNEGDALKFLERKAAQAEKLSDLQAAHESAAANAVRMKQLQDKLVSDMSQLEDRYAELKGKMAAAKSQQELNSGRSSLGGANAAFHTMEEKASRALDEAEALAELRAGAKEDDLDDLIAELEKSMGKDGAAPTSPPNAKDELEAIKEKLNKKE	PGPT0014646_971	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
AK002_00342	1032			hypothetical protein	ATGCCGGTAATTGAATACAAATGTCCGAACTGCGGCAGCGGCATGGTTTTTGACGGCGATACGGGAATGTTGTCTTGCCCCAGCTGCGGAAGAAAAGACAACATCGAGGAAATCCCCGACCCGCTGAAGAAGCAGGTGTTCGCGGAAGATGAGGTAAAGGAGTACCATTGCAACAGCTGTGGAGCCGTGATCGTGACCGAGCCGGAGACCAGCGCCACGACCTGCAGCTTCTGCGGATCGGCCGTCGTGCTCAGCGACCGGTTGAGCGGCGAGCTGGCACCGGTGAAGGTCATCCCTTTTTCGATTACGAAGGAAGAGGCGATGAAGGCGTTCAAGAAATGGTGCCGGAACGGCCTGTTGACGCCAAGCGGATTTATGACAGCGGACCGGATCAAGGGCATCACCGGGATCTACGTTCCCTTCTGGCTGTATGAGCTGCATAATCGGGTTGAGGTTCATGGTCAGGGCACCAAGGTGAGAACTTACACGCAAGGAGATTACCAGTACACGGAGACCGAGCATTTCGACATCTACCGGAAGATTCGCTTGAATTATGTGAAGGTGCCGATCGATGCTTCCGAGAAAATGAACGATGAGCTGATGGATAAGCTGGAGCCTTTTCCCTATCAGCAGCTGAAGGAATTCAAGACCCCTTATCTGGCCGGGTACATAGCGGAAAAATACAGCCATGACGACGAGCAGCTTCTTCCGCGCGCTAAGGAAAAGATCAGCTCCTTCATTGATTCGTATATTTCGTCGGCGGTCTCAGGATACACGACCGTGAGTTATACCAACAAACGGATCGATACCACCAAGAAACAGGCGGATTACGTTCTTCTTCCGGTATGGATGGTGCACTATGATTACAACAAATCGGAGTACACGTTTGCGATGAACGGCCAGACGGGCAAGGTGGTCGGCAAGCCGCCGATCAGCAAAGCGAAGGTGGCCGGGTGGTTCGCGGGCATTTCGGGCGTCTCCTTGCTATCCTTGAAGCTGATCTCCTGGGCAATGGGAGGAGGGTTCCTGTGA	MPVIEYKCPNCGSGMVFDGDTGMLSCPSCGRKDNIEEIPDPLKKQVFAEDEVKEYHCNSCGAVIVTEPETSATTCSFCGSAVVLSDRLSGELAPVKVIPFSITKEEAMKAFKKWCRNGLLTPSGFMTADRIKGITGIYVPFWLYELHNRVEVHGQGTKVRTYTQGDYQYTETEHFDIYRKIRLNYVKVPIDASEKMNDELMDKLEPFPYQQLKEFKTPYLAGYIAEKYSHDDEQLLPRAKEKISSFIDSYISSAVSGYTTVSYTNKRIDTTKKQADYVLLPVWMVHYDYNKSEYTFAMNGQTGKVVGKPPISKAKVAGWFAGISGVSLLSLKLISWAMGGGFL				NA	NA	NA	NA	NA
AK002_00343	789			hypothetical protein	GTGAGAAGACGATATGCGTTATGGACGGTCTTATTTTTACTAACGGTATATTTGATAGCGCCCTCCGGGATCGTCAAAGCTGCGGATGATAAGACTTTGATCTTTGACGAGGCGAATTTGCTCAGTCCGGAAGAACGCCAAGAGCTGAGTGCGATGGCGAATGAGTACGGTGCCGAACGCGAAACGGACTTTATGATCCTAACAGTTAACCGTGTTGAGAATGATGACTATGAGACTTGGACGGAAAACTTTTACGATGAATACGCACCTGGGTATGACAAGCCGCACGGTAATACTGTTATTTTAACCCTAGTGATGGATACCCACGATGTGCATTTGGAAGGTTATTATAAGGCTGAGAAGTATCTCGATTCCGGGAGACTGACCAAAATACGCAACAAGATTACGCCTGATTTATCGAACGGCAATTACAAGCAGGCTTTTGAAAAATACATCAAAACCGCTCATCGGTACATGGGCTTTGAGCCGGACGTGAACCCGGATAACATTATATTTAATCTCTGGTTTCAACTGGGAGCTGCCGCTGCCATCGGCGTGGTCGCCGTGGGCATCATGGCTTACCGCTCCGGCGGGCGGGTGACGGTCAACAGCCGAACCTATGAGGATGCCAGCACATCGGGGATCTTGAATCAGCAGGACCGATATATCAGAACGACCGTAACAAAGCGGAAAATAGAGCGCAACACGAGCAGCGGCTCGGGCGGCGGAGGCGGAGGCGGCGTCACCGGCGGCGGCCATTCGCACAGCAGCAGCAGCGGGAAATTTTAA	MRRRYALWTVLFLLTVYLIAPSGIVKAADDKTLIFDEANLLSPEERQELSAMANEYGAERETDFMILTVNRVENDDYETWTENFYDEYAPGYDKPHGNTVILTLVMDTHDVHLEGYYKAEKYLDSGRLTKIRNKITPDLSNGNYKQAFEKYIKTAHRYMGFEPDVNPDNIIFNLWFQLGAAAAIGVVAVGIMAYRSGGRVTVNSRTYEDASTSGILNQQDRYIRTTVTKRKIERNTSSGSGGGGGGGVTGGGHSHSSSSGKF				NA	NA	NA	NA	NA
AK002_00344	1020			hypothetical protein	ATGGGATTTTTCAAGAATCAATTCTCCAACGTAGTGGAATGGGAAGAGTTTAGGGATGACATGATTTTCTGGAAATGGCGCAACCGGGAGATTAAAAAAGGAAGTAAGCTGGTCATTCGCTCCGGTCAGGATGCGATCTTCATCAATAACGGCAAAATCGAAGGGATTTTCGAGGATGAAGGCGTATATAACATCGATTCGGATATCATCCCGTTTCTTTCTACCTTAAAAGGATTTAAATTCGGCTTTAACAGCGGCATGCGCGTGGAAGTGCTGTTCGTGAACACCAAGGAGTTCACCGTCCGATGGGGGACGCAGAACCCGGTTCTGATCCCGACGCCGCAGCTGCCGGGCGGCATGCCGATCCGTGCCAACGGGACATTTAATTTTAAAGTGAACGATTACGTGACGCTGATCGACAGGATTGCCGGGATCAAAGAGAGCTACCTTGTGGAGGACGTGAAAATCCGGATCAGTTCGGTACTCGATCAATTGTTGATGAAGTGGATCAGCCGCGAAGGCAAGGACATGTTCAATCTGCAGGCGAACGCTTCCGACATCGCCAGGGGGATTCGGGAAGACCTCGACATGGAAGTGATGGACAACGGGATGACGATTACCGGTTTCCAGGTGATGAGCTTCAATTATCCGAAGGAAATTCAGGACATGATCACGAAGACGGCCTCCCATGAAATGATCGGCAATCTGCAAAAGTACCAGCAGGTCAGCATGACGGACGGGATCGCGTCCGGCAAGGTGAAAGGCGGCGGTGCGGCTTCGGATATGGCAGGCATGATGATGGGGATGAACATGGCCAATGAAATGATGAAGAATATGAATCAGAACCAGGGCCAAAACAATCAGAATCAAAGCCAGCAGTCTCCGGCCGCGAAGGAGCCATCCGCCCCGGCATCCTCGTCCTCTTCCGAAGGAAACAAGAAGCCCAATTTCTGCCCGAACTGCGGCGCGAAGAACGAAGGCGCGAACTTCTGTCCGAATTGCGGACAGAAGCTGGGTTGA	MGFFKNQFSNVVEWEEFRDDMIFWKWRNREIKKGSKLVIRSGQDAIFINNGKIEGIFEDEGVYNIDSDIIPFLSTLKGFKFGFNSGMRVEVLFVNTKEFTVRWGTQNPVLIPTPQLPGGMPIRANGTFNFKVNDYVTLIDRIAGIKESYLVEDVKIRISSVLDQLLMKWISREGKDMFNLQANASDIARGIREDLDMEVMDNGMTITGFQVMSFNYPKEIQDMITKTASHEMIGNLQKYQQVSMTDGIASGKVKGGGAASDMAGMMMGMNMANEMMKNMNQNQGQNNQNQSQQSPAAKEPSAPASSSSSEGNKKPNFCPNCGAKNEGANFCPNCGQKLG				NA	NA	NA	NA	NA
AK002_00345	2304	yesS_1	COG2207	HTH-type transcriptional regulator YesS	ATGGAAAAGGGGTACATTATGATAGGACATATCGGTCATAAGAGAACTCCCGAAGACGAAGGGGGACAGGGGGATACTATGTTCAGATCGACATCCTGGCGCATATTCGTGATAAGCGGCATCTTTTTTGCAATGACCATCATACCGTTCTCGTTGTTTCTGGCCAACCGGTTTTCTCATTTCGCATACTCGCAGATGGGGACGTTCAACCAGGACCGCATCGAAGAAATGGCGGAGCGGGTCGAGTACATCCTGGCCAAGCTGAAATGGTACAGCCTGACCATGTATGAAGACCATTCCGTTCAAAACTGGATGTATGCTTCAGCCGACAATCTGCTGCAAAATGCCAGCACGATGGGGGTGTTATCTAAATATTTATCTCATGAGCCTTATATTGAAACCGCTTACTTATTCAGTATCCGCAAACGCGAGGTGATCGACGCCAAGGTTGGATTGCTTTCATTCGAGGAATTTGCCGATCAGACGATGCTGCAGCGGATCGAGCGCACTCCCGGGACATTCCTCCGCTATTTTGATCACAGGATAGGAAATAATTCGTATTTGGCTCTTCAGCTTCCTTCGACTCCTGAGCAGAAAAACCGCGACGGGTATCTTGTCGTCCTGTTCGACAAAAAGGAGCTGCAGAAGCATTTGATCTCAGGCGACGGAAGGGCGGATACACTGCTTTCGATCGTGGATGATCGAGGAAGATTGATTCTGGGCGAATGGGATGAGCGGCTCGAGGAGACCATCGATAACATCCAGACAGGGCAGAACCAGGGAGCCTTCGAAATGAACAGCGCCGAAGGGAAAGCGTTCGTCAACTATGCGCGGATGGGATCGCCGGAGTGGACCATTATATCTGTTACTGAAATGAAGCAATTCCGCGAAAAGGCGGGGGCGTTCAAAACCGTCATCATCGTCTGCTCGCTCCTGCTGCTCGTGGCGCTGCTTCTGATCGCCTATTGGAATTCGCGCCGTTTTGTCGGGCCTTTCCGACGACTGGCGGATCAACTGCAGCGGAAGCTGGGCGTGAAGGGGGAGAACGATTACGGCGTCATCGAGCAGGGCGTCGTTATGCTTCGCGATCATTATCCGCTGATCAAGACCGAATATTTGCGGCAATGGCTGCTGCAGGGCAGGCTGACCGACGGCGCCAGAGCGGCGATTGTCCGCGAATCGTGCCTGCTTGACTATGAGTGGCTTCGGTTGGCTGTTATCAAGATCGATTCCTATTACGAGATATCCGAGCGGTATGATTTCTTCTCTCGCAAGCTGCTCAAGTATGCAATCGGCAATATCGCAGAGGAGCTGCTTGGCACATCAGAACGGCCGATCGAGGTGGTCGATTTTGGGACCGACCATCTGGTCGTGCTGGTTGGCACGGCCAGTTCCCTCCCTGATCCCGAGTTGACCCAAGAGCTCAAGGAGTTTAGCCGTCAAGTCAGCCGTTACGTAAAGCTGGACGTGACGATCGCAGAAAGCGAGGCGCGGCGCGTACATGACGATTTGCGGAAAGTATACGACGACATGAACGAACTGACATTATTCAAGTTTGTCAGCGGTGATGACAAAATCTACGTCGAACAAGACTTTGAACGATATGCCGATTTACAGGCGCCGATCGACTCCGCTGTGCATGAGAGCTTGATCCAGACGATTCGAAGCGGCAAAGAGGAGAAGGTGCTGGCCATGCTGGATGAGGTGTTCACGCGCCTGCAGACGATGAAATATACCGAGTGCCAATTCCAACTGAAGCTGCTTCTGTTTGCGATCGTCAAGTCGTTCAGCAAAGTGATGTCTATCCAGAGTGTTGAAGGGATTGAGCGCCACTTGAGGCAGTTCGCCACGCTTACCGAGGTTCGCGAATGGCTGAAGGAAGAGACCGGGCGGATGATCCGGCAGCTTAGCGACCAAAAGGGATTCAATCGCAAGGAAAAGCTGATTGGGGAAATCATCGAGTACGTCCGCTACCATACCCATGACCCGATGCTGTCGGTAGACGATATCGCTGACCATATCGCTTTGTCGGCCAAATACGTCCGGCAGCTGTTTCACGAACATTATGGCATGCCTCTATCGAATTTCATCTTGAACGAGCGGCTCGGGAAGGTTAAGGAGCTGCTGGAGCAGACCAGCATGCAGATCACCGAAATTGCAGAGCAGTCCGGTTTTCAGACCAAAAGCCACTTTTTCACCGCATTTAAAAAAGCGACCGGCATGACGCCGAGTCAATACCGCGACAGCAAGGCGGACGAGCGGATGGAGCGGACGCGGCAGATAGTCGGGAACTCTGCGAATTAG	MEKGYIMIGHIGHKRTPEDEGGQGDTMFRSTSWRIFVISGIFFAMTIIPFSLFLANRFSHFAYSQMGTFNQDRIEEMAERVEYILAKLKWYSLTMYEDHSVQNWMYASADNLLQNASTMGVLSKYLSHEPYIETAYLFSIRKREVIDAKVGLLSFEEFADQTMLQRIERTPGTFLRYFDHRIGNNSYLALQLPSTPEQKNRDGYLVVLFDKKELQKHLISGDGRADTLLSIVDDRGRLILGEWDERLEETIDNIQTGQNQGAFEMNSAEGKAFVNYARMGSPEWTIISVTEMKQFREKAGAFKTVIIVCSLLLLVALLLIAYWNSRRFVGPFRRLADQLQRKLGVKGENDYGVIEQGVVMLRDHYPLIKTEYLRQWLLQGRLTDGARAAIVRESCLLDYEWLRLAVIKIDSYYEISERYDFFSRKLLKYAIGNIAEELLGTSERPIEVVDFGTDHLVVLVGTASSLPDPELTQELKEFSRQVSRYVKLDVTIAESEARRVHDDLRKVYDDMNELTLFKFVSGDDKIYVEQDFERYADLQAPIDSAVHESLIQTIRSGKEEKVLAMLDEVFTRLQTMKYTECQFQLKLLLFAIVKSFSKVMSIQSVEGIERHLRQFATLTEVREWLKEETGRMIRQLSDQKGFNRKEKLIGEIIEYVRYHTHDPMLSVDDIADHIALSAKYVRQLFHEHYGMPLSNFILNERLGKVKELLEQTSMQITEIAEQSGFQTKSHFFTAFKKATGMTPSQYRDSKADERMERTRQIVGNSAN				NA	NA	NA	NA	NA
AK002_00346	936	yteP_3	COG4209	putative multiple-sugar transport system permease YteP	TTGGAGCGACGTAGAAGGTTCGGCGGGTCGTTTGTGCGCGAGCTGTCGCGGAACCGGTATTTGTACTTGCTGGCGCTGCCCGGCATTGCGTTTCTGGTCGTATTTGCTTATATGCCCATGGCCGGGCATCTGCTCGCCTTCCAGGATTACCGGCTATCCGATGGAATATGGGGGAGCGAATGGGTCGGATTTAAAAACTTCGAGTTTTTCTTCAATGGGAAAGACTGGCTGCGGGTGACGCTGAATACCGTTTTCCTGAATGTACTGTTTCTCGTAACCGGCCTCGGCAGCGCGGTCGTGCTGGCTATTTTTCTGAACGAAATCCGTAACAGGCTGTTCAAGCGAATCACGCAATCGTTTATTTTTTTACCGTATTTCATTTCTTGGCTTGTCGTCAGCATGATGACGTTGACGCTATTCAGCACATCCGAGGGGCTCATTAACCGCGCGCTTGCCGCCCTTGGCTACGAAGGAGTGGACTGGTATTTGACGCCTGGCGTATGGCCGTATATTTTAACCGTCATTAGCGCCTGGAAGATTGCCGGCTATAATTCCATTATTTTTTTGGCCGTCATTACGGGCATCTCCTCGGAATATTACGAGAGCGCCCGAATAGAAGGCGCGAGCCGGATGCAGCAGATGCTCTACATAACGCTGCCGTTGATGCGGCCGACCGTGATGATATTGGCGCTGCTTGGCATAGGCCGTATTTTCTACGGCGATTTCGGCATGATTTACGCGATCATCGGAGATAACGGCATACTCTTTCCGACGACAGATGTCATCGATACGTATGCGTTTCGTGCGCTGAGGCAGCTGGGGAATTTCAGCATGTCCGCTGCCGTTGTCGTGTACCAGTCCTGCATGGGGCTTGTCACGATTCTGATCTTCAATGCGATCGCGCGCAAGGTGGACGCGGATTCAAGACTATTCTAA	MERRRRFGGSFVRELSRNRYLYLLALPGIAFLVVFAYMPMAGHLLAFQDYRLSDGIWGSEWVGFKNFEFFFNGKDWLRVTLNTVFLNVLFLVTGLGSAVVLAIFLNEIRNRLFKRITQSFIFLPYFISWLVVSMMTLTLFSTSEGLINRALAALGYEGVDWYLTPGVWPYILTVISAWKIAGYNSIIFLAVITGISSEYYESARIEGASRMQQMLYITLPLMRPTVMILALLGIGRIFYGDFGMIYAIIGDNGILFPTTDVIDTYAFRALRQLGNFSMSAAVVVYQSCMGLVTILIFNAIARKVDADSRLF	PGPT0017250_1842	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00347	867	araQ_2	COG0395	L-arabinose transport system permease protein AraQ	GTGAGAGAACGGTTGTTTCTTGTTTTGATGTACGGAGTGCTGGGTGCTTTTGCGCTGTTTTGCTTCATTCCGTTCTGGATTGTGTTCATCAACTCGTTCGCCGATGAATCGCTTCTGCAGACGGCGGGGTACCAGTTGCTGCCGAGCAAATTCAGCCTCCATGCGTACAAATTTTTGCTTTCCGGCAAGCAGGTGTTTCTAAGCTACGGCATTACGATGATCGTGACGATCGCCGGCACGGCATTGGGCGTACTCTTGACAGCCGCCTATGCGTACACGCTGAGCCACCGGAAAGTGAAGTACCGCCATATTTTATCGTTTCTAACCTTCCTGACGATGCTGTTCGGCGCAGGACTGGTCGGCTTTTACATGCTGATCGCCAACTGGCTGCAGCTGAAAGACTCGGTGTGGGCACTCATTTTGCCCTATCTGCTTAATCCGTTCTATGCCTTCATTCTTGTCTCTTACTACCGGACGCTGCCGTATGAATTGAATGAAGCTGCGACTGTGGACGGCGCCAATGATCTCTATATTTTCTTTCGCATCATCTGGCCGATTTCGCTGCCTGTTATCGCCACGGTGAGCCTGTTTTACGCGCTGCAATATTGGAACGACTGGTACTTGTCATTGCTGTTTATCGACAATCACAAAATGCTGCCGTTGCAGATGATGATCCGCCAGCTTATGTCCAATTTGAATGTTATGGCTTATGTAAGCGGGAGCCAGACGCAGTACAACGTCGTCGTGCCGACCTATGGCATGCAGCTGGCGATCGTCTGCGTTACCATCGGCCCGATCGTGTTCGTCTATCCGTTCATACAGCGCTTCTTTATTAAAGGTTTGACGCTTGGTTCGGTAAAAGGGTAG	MRERLFLVLMYGVLGAFALFCFIPFWIVFINSFADESLLQTAGYQLLPSKFSLHAYKFLLSGKQVFLSYGITMIVTIAGTALGVLLTAAYAYTLSHRKVKYRHILSFLTFLTMLFGAGLVGFYMLIANWLQLKDSVWALILPYLLNPFYAFILVSYYRTLPYELNEAATVDGANDLYIFFRIIWPISLPVIATVSLFYALQYWNDWYLSLLFIDNHKMLPLQMMIRQLMSNLNVMAYVSGSQTQYNVVVPTYGMQLAIVCVTIGPIVFVYPFIQRFFIKGLTLGSVKG	PGPT0017255_2768	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00348	1545			hypothetical protein	ATGAAAAGATTATTGTCCATCGCGCTTGTGTTATTGATCGCGCTTGTCGCGATTGCAGGTTGTTCGGGCAAGAACGAAGGGGAAGGGAAGACGCCCGGACCGTCGGGTCAAACCGGAGACAGCGCCGGCGGTGACGCCAAACTTGAAGAGGTGACCCTGAAAATCATGATTCCCGGTGATCGGCCGTCGGATATGGATTTGGTCATCGCCGAAGCAGAAAAGCGAATGAAGGATACGATCAACGTCAAACTCGACGTCGTCTTCGTACCTTGGTCCGATCTGGCGCAAAAGACACAGGTAACGCTTGCTTCCGGTGAAAACATCGATCTCATCTTCGATGCGCCATGGCTGCACATCAATCAGATGATTGCAAACGGATTCTATGAGCCATTGGACGACCTGTTGGCCCAGTACGGCCAAACGGTGCTCGAGAAACGGCCGCAGCAAATGTGGGACTACAACAAATACGGCGGCAAAATTATGGCCGTTCCGCTCGGCGTCAGCTACATGTCCGGCAATTCCTACATGGTGCGCAAAGATATTCGCGAGAAGCTCGGCGTACCGCCGATTAAAACCTATGAAGATTTGATCGCTTTCGCCTACAAGGTGAAAGAGCAGGAGAAAGGCATCATCCCGATGACCGCAGGCTCCGGCACTTATTCATTTGTCGCTCACCATGCGCTGAACGATTACGAAACCCATGTTAGACCTACCCACGCCCTGGGCAACAGCCTGATGCTCTATTACAAGAACAATGACGGCAAAGTTTACAATTTGCTGGAGGATCGGGAGCCGATCGGAACGTGGCTGGCGAACACGCGCAAATGGTTTACTGACGGTCTGATTTTTAAGGACATTTTGACGACAAAAGATTTTCATCAGCCGATCTCGGCAGGCAAAGTGGCAATCGTCACAAACGGCGCGTTCGGCATCGGCGATTCCCTCAAGAACACGTTAAAGAACAATGTGCCGGACAGCGAGCTGGAGACGGTCACCTTCTTTAATCCGGAGAAGGGTGCGAACATCACCGACTTCAAACAGTGGAACTTTCTGGCCGTTCCGAAGGTAAGCAAGAATAAGGAGCGGGCGATTATGTTCCTGAACTGGGCGAATGAGAAGGAAAACTACGACCTGCTTTCTTACGGAATCGAAGGGAAGCATTGGGAAGCGGTAGGCGACGACAAAATGAAAACCCTGGATACATCCGGCTACTCTGCTTTCGGCTATGTTTGGCTGTGGAATCCCGTCGATGAGCGGAGTGATGTGAAGGGCGAGAATGAGGAGTTGAACGCTGTGCTTAAGGATGCCGACATGTTCACGACCGATATTTTGGCCGGCTTCGAATTTGACAGTACCCCGGTGCAAAACGAGGTCAGCCAGTACAATACAGTCGATGGGCAATACTACACGGCGCTGTTCAACGGGGTTATCGATCCGGACGAGACATTGAAAAAATTTGAAGCGGAAGCCGGCCCCGCCCTCAAAAAAATTCAGCAGGAACTGCAAAAGCAGATTGATGAGTTCCTGGCGGCAAAGGCGAAGTAG	MKRLLSIALVLLIALVAIAGCSGKNEGEGKTPGPSGQTGDSAGGDAKLEEVTLKIMIPGDRPSDMDLVIAEAEKRMKDTINVKLDVVFVPWSDLAQKTQVTLASGENIDLIFDAPWLHINQMIANGFYEPLDDLLAQYGQTVLEKRPQQMWDYNKYGGKIMAVPLGVSYMSGNSYMVRKDIREKLGVPPIKTYEDLIAFAYKVKEQEKGIIPMTAGSGTYSFVAHHALNDYETHVRPTHALGNSLMLYYKNNDGKVYNLLEDREPIGTWLANTRKWFTDGLIFKDILTTKDFHQPISAGKVAIVTNGAFGIGDSLKNTLKNNVPDSELETVTFFNPEKGANITDFKQWNFLAVPKVSKNKERAIMFLNWANEKENYDLLSYGIEGKHWEAVGDDKMKTLDTSGYSAFGYVWLWNPVDERSDVKGENEELNAVLKDADMFTTDILAGFEFDSTPVQNEVSQYNTVDGQYYTALFNGVIDPDETLKKFEAEAGPALKKIQQELQKQIDEFLAAKAK	PGPT0017245_2754	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00349	2901			hypothetical protein	ATGAATTTCAATAAAAAATGGTTATCCGGATTAATGGCAGCGGTATTACTACTGACTCCGCTCTCTGCGGTTCAGGCGAAATCGCTTGTTCCGGATGTGACCGTCCTGCAGGCGGCAGGTGCAGACCAGATGGAAGCAGGAAAGGATACAGGTCATCCACAGGTCGAACTAGATCTACTGACGGATGCTGGTGAACAGGCAGCGGAACAGGCACCACAAGCAAAAGGTGAAAATCAAGCGGCAGCATCTTTGGCAGTGCAGGAGACGCAATTCCGCAATCTCGCGGCAGGCCTTCCGTATGAATGGTCTGAAGCTCCGGAAGCTTCGCATCCCGATGACGGATACAAGCTTACGGACGGAAAATACGGCGCATTGGATATGAACGACCCGGGATGGGTAGGACATCTGCGCGGAAAGGCTCGCGAAGTTGTGTTCGATCTCGGTGAGGAGAAGTCAATTGGAAAGATCACGGCTAATTTCTTTCAAGATTTTCCTACGAATTCGATTCTCGTGCCGCTGTCGGTATCGATGTATGTCTCCGACGATAAGGAAAATTGGGGGCTGCTTTCCCATAACGCTACGCAGCTTCTGTGGGGAGAAGGACCGCCCAGACAGGAGACCTTTGAATGGGATGGCAGCCGGGATGGAATCAAAGGCGGGAATACGGATGGCAAGCTGGCTTATGCCCGTTATGTGAAGGTGACCTTTTATATGCATCCTACACAGTGGGAATACATTGATGAAATCGAAATTATGGGTATGGACGGCAAGATTGAAGGGGCGGTAAAGGTTCCTGCCGAGCAGCCTCGTTTTTTGGAGCCGGGGGAAGCTACGGCCGGGATCCGGAATCTGAATTTGCTGTATAACGGACAATATGCGAATGGTTTGGGTGATTGGAAAAAGGAACGGATTATCCCTAATATCAGTTATGTAAATAAAGACGGCGAGCCGGTCGATTGGCTTTATGACGGCGTTCTATATCTCGGGATTGCTTCGCCTGCCGGCCGTGATTTCGGTCAGGGACAAACGAACCTGGACGATTGGAAATGGTATTTGGATAAAACCTTTGCAGCCACGGGCGATATGCAGCAGTTGAATGAGGCTGCCAAGGAAGTTGGGGCCAAGCTGAAACAGCCCGATCATCAAGTCAAGGTTGTGTTAATGATTCCGAATCCAGGGGAATCCTTAACCAATTTTGGCGACATTGACGGTAGCGGTTCCTTAAATTTCAACGACTCCGTCGTAGGCAAAGAAAAAGCGTCTGAAAACAGAGGAAAAGCGGTGCAGTGGTGGCTGGACCAGACCCGGCAAAGATGGCAGGCTGCCAACTACTCGAATCTTGAGCTTGTCGGCATGTACTGGATGCCGGAACAAATCGACATATCCGAATCGGGACCGGACATAGCTCGCATGGTGTCGGATAAAGTGCATGCCATGAACATGAAGGTTTTCTGGATTCCACACTCCTATGCTTACAAAATGTTTATGTGGAAAGACGTAGGGTTCGATGCCGCGGCGCTTCAGCCTAACTATTTCTTTGGCGGAATGGATTCCGACCGTCTGGATGATGCTACGGATACTGCAAAGCGATACGGAATGGGGAACGAAGTTGAATTTGATGACGGAATGCTGACAGATCCCGTACTTCGTCAGCGTTTTGTCGAATACTTGGACAGCGGCGTCAGATCCGGTCTGATGCAAAATGGCTTCAGAGCTCACTATCAAGGCAATAATGCAGTATACAACTTAGGGGTAAGCAAGGATCCAAGTTTGCGTTTAATGTATGACTGGCTGTACCAGTATTTGAACGGAACGTACGCCATCGATAGCAGCCCGGCGCCGGAGACGATGGCGGAGGTTGTACAGCGTTATGTCGCATCGAACGAAATCAAGCCGGCTTTTGGTAATGATTTGACGTATCGATTGCAGACCATCAAGCTTCTTTTGGACGATAACAAGCCGAAGGAAGCCGTGACGTATATGCAGGATTTTCTCGCGCACATTCACGACCCGGCCGTCCAAGCGCAAGGGTTGATTTCGGTCCCGGCCGCAACGGTGCTTGATTCCTACGCCCAAGTTCTCATTCATACCTGGTCTGACGGAGGGGGACTCAGCAATCTGGTTCTTGGCCAAAGCTATACAATTTCACAGCAGCCTAACAGCAACTATCCCGATTCCGGGAACGAACTTACGGACGGCCGATTCGGCGGGACGGATTACCGCACCGAGCAGTGGCAGGCCCATGCGGGAAGCGACTACCCTGACGAACGAAGCCGCACCATCACATTTGATTTGGGTGGCAACAAATCGATCGGGGCAATCAGAGCCCATTTTCTTCAGGATAAAGGACCTGGCATCTATTTTCCTCCGAACGTCACTTTTTCCGTTTCATCTGACGGCCAATCCTGGAGCACGCTGGCGACCGTTTCTCCGCCACCGGCACAGGATGCTGCCTCGGCCGAGTTCGTGGGTTGGAGCGGAATAACAGACGGCGTGCCGGGGAAAGCGGGAGCCGATAAAGTATACGCCCGCTATGTCAAAGTCGAATTCCCGGTCAACGTCTGGGTCTTCCTTGATGAAATCGAAGTTCTTGGCATTGACGGCCATGCGGGGGGTGGCACTACAATCGACAGCGCAAGAGCCGTGGTGGATGCCGCTGCGAAGAAATTGACGATCGACGGTCTGGTCGTGAACGGCAGTCAGTCCCAAGTGAATTTGAAAATACTCGATTCGAAAGGGAAAGTTCGGTACGAAGGCCAGACGACCAGTACGGAAACGGGAAGTTTCCAATTCACGATCAAGCTTACCGGGAATTTAAAGGGAACCTGCGAGGCCTATCTGTCTATGGAGGGAATGCCGGCTCCTGTTAAGATTTCATTCGAGTACAATAAAAAGGACTGA	MNFNKKWLSGLMAAVLLLTPLSAVQAKSLVPDVTVLQAAGADQMEAGKDTGHPQVELDLLTDAGEQAAEQAPQAKGENQAAASLAVQETQFRNLAAGLPYEWSEAPEASHPDDGYKLTDGKYGALDMNDPGWVGHLRGKAREVVFDLGEEKSIGKITANFFQDFPTNSILVPLSVSMYVSDDKENWGLLSHNATQLLWGEGPPRQETFEWDGSRDGIKGGNTDGKLAYARYVKVTFYMHPTQWEYIDEIEIMGMDGKIEGAVKVPAEQPRFLEPGEATAGIRNLNLLYNGQYANGLGDWKKERIIPNISYVNKDGEPVDWLYDGVLYLGIASPAGRDFGQGQTNLDDWKWYLDKTFAATGDMQQLNEAAKEVGAKLKQPDHQVKVVLMIPNPGESLTNFGDIDGSGSLNFNDSVVGKEKASENRGKAVQWWLDQTRQRWQAANYSNLELVGMYWMPEQIDISESGPDIARMVSDKVHAMNMKVFWIPHSYAYKMFMWKDVGFDAAALQPNYFFGGMDSDRLDDATDTAKRYGMGNEVEFDDGMLTDPVLRQRFVEYLDSGVRSGLMQNGFRAHYQGNNAVYNLGVSKDPSLRLMYDWLYQYLNGTYAIDSSPAPETMAEVVQRYVASNEIKPAFGNDLTYRLQTIKLLLDDNKPKEAVTYMQDFLAHIHDPAVQAQGLISVPAATVLDSYAQVLIHTWSDGGGLSNLVLGQSYTISQQPNSNYPDSGNELTDGRFGGTDYRTEQWQAHAGSDYPDERSRTITFDLGGNKSIGAIRAHFLQDKGPGIYFPPNVTFSVSSDGQSWSTLATVSPPPAQDAASAEFVGWSGITDGVPGKAGADKVYARYVKVEFPVNVWVFLDEIEVLGIDGHAGGGTTIDSARAVVDAAAKKLTIDGLVVNGSQSQVNLKILDSKGKVRYEGQTTSTETGSFQFTIKLTGNLKGTCEAYLSMEGMPAPVKISFEYNKKD				NA	NA	NA	NA	NA
AK002_00350	189			hypothetical protein	ATGAAAAGGTATAGCGTGTGGCGTCCGGTCATGCTGATTGCGGTGGCGCTGCTTACGAATAACTTGGTCACGAGTTTGGCGGGCGTGTTTGGCATGTCGCCGAAGTCGGCGAGCGATTTAGGTTTTATCGCGATGATTATTGCCGCATTCATTACATATAACCGCATGATGAAAATCCGCCGCAAGTGA	MKRYSVWRPVMLIAVALLTNNLVTSLAGVFGMSPKSASDLGFIAMIIAAFITYNRMMKIRRK				NA	NA	NA	NA	NA
AK002_00351	1113	tmpC	COG1744	Membrane lipoprotein TmpC	ATGAAAAAAGGGGTCATATCTTTAATCAGTTTGGCGTTATCTGTCACGATGCTGGCAGGCTGCGGCGACAAACCGGCGTCAGAGCCAAGCGGCGGCGCAGGCGGCGACGCACCTAAGGCAAACTTCAAGGTAGGGATGGTTACGGACGCGGGAACGATCGATGACAAGTCGTTTAACCAAGGCACATACGAAGGTATCGTGAAGGCGAACGAGGACTTCAAAATGGAGTATAAATACCTGAAGCCGGCCGGAACCACAGAAGCCGACTATTCGAAAGAGATCGGTAACCTGTACGATGCCGGATTTAAATTTATCGTAACGCCAGGCTTCAAATTCGAAACAGCCGTGTTCAAGGCACAGGACAAGTATAAAGACGCTAAATTCGTAATTATCGACGGAACGCCTCAATCTGGAGAAGAAGGCGCAACACCGGTCGTTAAAGAAAATACCGTATCCATCTTCTTCGCTGAGCAAGAGTCCGGCTTCCTGGCTGGCGTTGCAACAGCGCTTCATGTGAAGGATGGTCAAGCAGGCTTTATCGGCGGCATGGAAATTCCGCCTGTACAGAAGTTCAACTGGGGCTTCCAACAGGGTGTAGCTTATGCTAATGAGAATCTTGGCACGAAACTCGTCATCAACAAAGAAAACGTGGTATACCAAGGATCTTTTGACGACGTTGCGGCAGGCAGCCAATTGGCGGCCCAGATGTATGACCGCGGCGTAAACGTGATCTTCGCGGCTGCTGGCGGCGTTGGCGTCGGCGCGATTAACGAGGCGAAGACTCGCGTGCAGAACGGATCCGAGGTTTGGATCGTCGGCGTCGACGTTGACCAATACCAAGACGGCGTATACGAAGGCGACAAGTCCGTTGTCCTGACTTCCGCTGTCAAGAAAATCGACCATGCGGCTTACGATATGATCAAAGCCGAAACCGAAGGCAAATTCCCGGGCGGACAAACGCTTACGCTGGATGCCACAAATGACGGCGTCGGACTTCCTGAGAATAACCCGAACTTGAGCGAGGACGTTCTGAAGCAAGTAGATGAAGTGTTTGGCAAGATCAAAGCCGGCGAAATTAAAGTAGCCGCAGAGCAAGGCGAATTGATTAAATAA	MKKGVISLISLALSVTMLAGCGDKPASEPSGGAGGDAPKANFKVGMVTDAGTIDDKSFNQGTYEGIVKANEDFKMEYKYLKPAGTTEADYSKEIGNLYDAGFKFIVTPGFKFETAVFKAQDKYKDAKFVIIDGTPQSGEEGATPVVKENTVSIFFAEQESGFLAGVATALHVKDGQAGFIGGMEIPPVQKFNWGFQQGVAYANENLGTKLVINKENVVYQGSFDDVAAGSQLAAQMYDRGVNVIFAAAGGVGVGAINEAKTRVQNGSEVWIVGVDVDQYQDGVYEGDKSVVLTSAVKKIDHAAYDMIKAETEGKFPGGQTLTLDATNDGVGLPENNPNLSEDVLKQVDEVFGKIKAGEIKVAAEQGELIK	PGPT0021055_1167	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
AK002_00352	1533	mglA_1	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGGACTATGTTGTCGAGATGGTGGGCATCCGCAAGGAATTTCCGGGAATCGTGGCCAACGACGATATCACGATTCAACTGAAGAAAGGCGAGATTCACGCGCTGCTCGGCGAGAACGGCGCGGGCAAGTCGACCCTGATGAGCATCCTGTTTGGCATGTACCAGCCTGACCGTGGCGTGATCAAAGTCAACGGCAAGGACGTGAGGATTTCGAATCCGAACGTCGCGAACAAACTCGGAATCGGGATGGTGCATCAGCATTTCAAATTGGTGGAGCCGTTTACCGTAACCGAGAATATTATTCTCGGCAGCGAGACGCGAAAGTATTACTTTGGGTTAGACGTGAGATCCGCAGCCAAGCGGGTCGAGGAGCTGTCCAAACGATACGGTCTCAACGTTGACCCCTATGCCAAAATTGAGGATATCTCGGTAGGGATGCAGCAGCGCGTGGAAATTCTCAAAATGCTGTACCGCGATGCGGAAGTGCTCATATTTGACGAGCCCACGGCGGTGCTGACCCCTCAGGAAATCGAAGATTTGCAGGGCATTATGAAGAACCTGGTCAATGAAGGCAAATCGATCATTCTGATCACGCATAAATTGAAAGAAATTAAAGCGGTTGCGGACCGCTGTACCGTCATCCGCCGGGGGAAAACGATCGGCACCGTTGACGTGGCCGATACGAGCCGCGAAGCGATGGCCGAAATGATGGTAGGCCGCAGCGTTTCCTTTAAAGTGGACAAACAGGAGAGCCGTCCGGGCAAGACCGTTCTTCAGATCCAGTCGCTTACCGTGAAGAACAGTAAAAAAGTCGATGCGCTCAAAGGCTTCAGTCTGGATCTGCATGCCGGCGAGATCGTGGGCATTGCAGGCGTCGACGGCAACGGCCAAACGGAACTGGTGGAAGCCATTACCGGCTTGCGTCAAGCGGAGAGCGGGACGGTGAGCCTGAATGGTAAGACGCTTAACGGACTATCCGTCCGTCAGCGGAACGAGAGCGGAATCGGCCACATTCCGGAGGACCGCCAGAAGAGGGGCCTCGTGTTGGATTATACGATTGAAGAGAATCTGATCCTTGAGGTGTATAACCGCCCACCGTATTCCAGGAACGGGCTGCTGCAGCCGGCAGCGATCCGCAAGCATGCGGAGCATATCATTCAGAGCTTTGATGTGCGTTCCGGAACGGGCGGCCGGTCGATCGTGCGTTCGATGTCCGGCGGTAACCAGCAAAAAGCAATCATCGGCCGCGAGGTAGAGCGCGATCCGGATCTGCTTATTGCCGTTCAGCCGACCCGGGGCCTTGACGTAGGCTCGATTGAATATATTCACCGTCGTCTGATCGAACAGCGGGACAAGGGGAAAGCCGTTCTGCTGGTTTCCCTGGAGCTTGATGAAGTGCTGAACTTGTCGGACCGCATTGCCGTTATCAATAACGGTGAACTGGTAGGTATCGTTAAAACCTCCGAAACGAACGAAAGAGAGCTCGGACTGATGATGGCCGGGTATCAAAAAGAGGAGGCGCCACATGAATAA	MDYVVEMVGIRKEFPGIVANDDITIQLKKGEIHALLGENGAGKSTLMSILFGMYQPDRGVIKVNGKDVRISNPNVANKLGIGMVHQHFKLVEPFTVTENIILGSETRKYYFGLDVRSAAKRVEELSKRYGLNVDPYAKIEDISVGMQQRVEILKMLYRDAEVLIFDEPTAVLTPQEIEDLQGIMKNLVNEGKSIILITHKLKEIKAVADRCTVIRRGKTIGTVDVADTSREAMAEMMVGRSVSFKVDKQESRPGKTVLQIQSLTVKNSKKVDALKGFSLDLHAGEIVGIAGVDGNGQTELVEAITGLRQAESGTVSLNGKTLNGLSVRQRNESGIGHIPEDRQKRGLVLDYTIEENLILEVYNRPPYSRNGLLQPAAIRKHAEHIIQSFDVRSGTGGRSIVRSMSGGNQQKAIIGREVERDPDLLIAVQPTRGLDVGSIEYIHRRLIEQRDKGKAVLLVSLELDEVLNLSDRIAVINNGELVGIVKTSETNERELGLMMAGYQKEEAPHE	PGPT0021040_2316	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
AK002_00353	1056			hypothetical protein	ATGAATAACAGCGTAAAATCGTTGCTTGCCGTCCTGTTCGGACTCATCGCGGGGGCATTGCTTATGGCGCTGACCGGGCATAATCCGATAGAAGGATATAAGTATCTCCTCCAAGGCGGGCTTAAAAATCCGGAGCGGATCGGAAATACGCTGGCGACGGCGACTCCGCTTATTTTGACCGGCTTGTCCGTGGCTTTTGCCTTCCGTACCGGGCTGTTCAATATCGGTGCTGCGGGCCAAATGCTGTTCGGTGGTTTCTGTGCAACGGCTGTCGGCCTTTCGCTGGATCTGCCGCGGGCTCTGCTCCTGTTGGTCATGGTGCTGGTCGGTTTCATCGGCGGCGCACTATGGGCGGTGGTTCCCGGTTTCTTGAAGGCCAAATATAACGTGCATGAGGTCGTATCCACGATCATGATGAACTGGACGGCCTACTGGACCGTTTATTATGTCATTCCGGGTTACTTCAAAGGGGCGAGCCTGGAGACGGAATCGCGCCAGCTTCCGCCCGAAGCCATGCTGCATCAGCAGTGGCTCACCGATATGTTCCAAGGTTCTTATGTCAATCTGGGCTTTTTTATCGCGGTGATCGCCGTTCTGGTCGTCGCTTTCCTTATTAACAAAACAACGCTCGGATATGAATTGAAAGCGGTCGGATTCAACCGGCACGCTTCCGAATATGCGGGGATCGCTGTTAAACGCAGCATCGTGCTGTCCATGTTCATCTCCGGCGGCCTCGCGGGCCTCGCGGGTGTTGCACAGTATGCGGGGAATGCCTCCAGCATGCAGATCGGCATTCTGCCGAGCCAGGGATTTGACGGCATTGCCGTAGCCCTGCTTGGAATCAACGCACCTATCGGTGTTTTGGTGTCGGCCCTGTTCTTCGGGATTCTCTACTCGGGCAGAGGGTTTATGAATGCCATGACGGAGATTCCGCCGGAAATCGCCGATTCGATTATCGCCATCATTATCTATTTTGCGGCAACCAGCATCTTGATCGAGCGTTTGTACCGTAAATTCAAGCTGCGTCGCGCGGCAAATAAAAAGCAGGGGGAGTAA	MNNSVKSLLAVLFGLIAGALLMALTGHNPIEGYKYLLQGGLKNPERIGNTLATATPLILTGLSVAFAFRTGLFNIGAAGQMLFGGFCATAVGLSLDLPRALLLLVMVLVGFIGGALWAVVPGFLKAKYNVHEVVSTIMMNWTAYWTVYYVIPGYFKGASLETESRQLPPEAMLHQQWLTDMFQGSYVNLGFFIAVIAVLVVAFLINKTTLGYELKAVGFNRHASEYAGIAVKRSIVLSMFISGGLAGLAGVAQYAGNASSMQIGILPSQGFDGIAVALLGINAPIGVLVSALFFGILYSGRGFMNAMTEIPPEIADSIIAIIIYFAATSILIERLYRKFKLRRAANKKQGE	PGPT0021045_2816	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
AK002_00354	954			hypothetical protein	ATGTGGACAACGATTGAACAGATTTTTCCGTATGCCATCGCTTACACGATCCCGCTTTTGATTACCGCCCTGGGCGCGCTGTTCAGTGAACGAAGCGGGGTCGTCAATATCGGCCTTGACGGGTTAATGATTGTCGGTTCTTTCATCGGCGCCTTTGTCATTTTCAAAATGCAGGCCCAATGGCCTGGCCATTCATGGGTACTATGGGTCGGCCTGCTGGCGGCGGCGGCAGCGAGCGCGCTATTCTCGCTACTGCATGCCTTTGCCAGCATTAACCTCAGTGCCAATCAGATCATAAGCGGTACGGCGATTAATATGATCGCGGGCGCCCTGACGATTTTCCTTGCCCGTAACATTACGGGCAGCGGCAAGATCAGCATCACGAATGGTTTTGCGCCGTTCGATGTGCCTGTGCTGTCTAAAATACCGATTATTGGGGATTTATTCTTCACCAAAACCTATGCAACGACTTGGCTCGTTCTGTTAGTGTTATTGCTCAGTGCACTGGCGCTATACAGAACACCCTTCGGTCTGCGCCTCCGCTCCTGCGGTGAGCATCCGCATGCGGCTGAAGCAGCCGGTATTAAGGTGCAGTCCATGCGGTATGTCGGCGTCATGATCTCTGGTGCCTTTTCCGGACTCGGTGGGGCTGTCATTCTGTTGACGTATTCCGGCGAATTTACGGGGAACGTTGCGGGACTCGGGTTCCTGGCTCTGGCATCCCTCATTTTCGGACAATGGAAGCCGCTCGGCATCCTGTTGGCGACCTTGTTCTTCGGATTTGCCACGACGGTAGCCAACGTATCGCAGGTCATTCCGTCCTTGGCGGTGATCCCGCCGGTCATTCTCAAGATTTTCCCTTATATCGTCACGCTGATCGCGCTTGTGATTTTCTCCAAATCCTCGAATGCGCCGAAAGCGGTAGGGGAGCCGTTCGATTCAGGTAAACGGTAA	MWTTIEQIFPYAIAYTIPLLITALGALFSERSGVVNIGLDGLMIVGSFIGAFVIFKMQAQWPGHSWVLWVGLLAAAAASALFSLLHAFASINLSANQIISGTAINMIAGALTIFLARNITGSGKISITNGFAPFDVPVLSKIPIIGDLFFTKTYATTWLVLLVLLLSALALYRTPFGLRLRSCGEHPHAAEAAGIKVQSMRYVGVMISGAFSGLGGAVILLTYSGEFTGNVAGLGFLALASLIFGQWKPLGILLATLFFGFATTVANVSQVIPSLAVIPPVILKIFPYIVTLIALVIFSKSSNAPKAVGEPFDSGKR	PGPT0021050_1317	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
AK002_00355	6258			hypothetical protein	ATGCGCATTCGATTACATAGGTGCCAAAGGCCGTTAAGCATGCTTTTGGTTTTCGTGATGCTTCTGAGTATCATCGTTCCGTTCAGCCCTGTGAAGGTGGCAGAGGCTTCTCCCCGGCATGACCAGGTTGTGATTAGCCAGGTGTACGGTGGCGGCGGGAATAGCGGGGCCGTTTATACGCATGATTTTATCGAATTGTTCAATCCGACCAGCAGCCCGGTCGACCTGACAGGCTGGAAGGTGCGTTATGCAAGCGCAGCAGGTGATTTCAGTTCGAGTAACACAACCTCTTTAAGCGGTATCATAAAGCCTTATTCGTACTTATTAATCCAACAGAGTGGCGGCACCATAGGATCATTTTTGCCGACACCTGACGTTCAAGGAAAATTGAGTATGGGCGGCTCCAACGGCAAGGTGGATCTGGTGAACGCCGCTGGCGACCGCATCGATCTTATTGGCTATGGAAATGCAACGCTATCTGAAAAGAGCCCAACCGCAGCTCTCTCCAACAGCACGGCTGCGATTCGCAAGGAATTGACCTTTGGTCAAAATGATCGCGGCCGAGACACGGATAACAATGCAGCGGATTTTGCGGTTACGACGCCGGATCCTCGAAACAGCTCGAGTCCAGCTACGCCAGTCACGCCCGGCTCGGGCCTGGGAGCGGTAACGGCCAATCCGGAGCCTAATGCTTGGCCAGCCGGAACGGAGATTACGCTGAATCCGCCTACGGTAGGCGCTTCCGTTTATGCGGATGTGTATTTGTCCGGCGGAAACGGGTCCGGCTTCCAGATCGTCAACGGCCCGATCATCCTTAACGAGCCTACGCGGGTGGATGCCTATGCAGCCCAGGATGGCCAGCCGGATGGGCCGGTCTCCTCGTTCCAATATGATATTTTAAGGCAATCGTCCGTCGCTGATGCCCGCAGCAAGGCAAAAGGCGAGCATGTATGGACGGAAGGCATCATTACGCATATCGAAGGCAGAGAAACCTACATTCAAGATGACACGGCAGGTATCGTGCTCTATGATTACCCGCTTAATGCCAGTGTTGGCGATCGGGTGAGCGTGGCCGGCGTAATGGAGATTTACAACAATCTTCAGGAGATCAAACCGCACGCCTTGCTGCCGCACGACGTAACGGGGAACCAGGTCGGAGTTCCGCAGGCTCTCCCAATTACCGGAGCTGATCTATCTGCAGCTGCAGGGGAGAATTATGAGGCAAGACTAGTCTCCCTGAATGATGTCACCATCAAGTCCGAGAATAGACCTGGAGAATACACAGCCGAGCAAGGCGGGCATGAATTCATCATTTATTCGGGCTTGTCCAAGCTGAAGACGGTGAAGACCTTCAGCCGCATCACGGGCGTGGTGAAGCAGTTCGGAAACGTCTATGAACTGATCCCTTTAGGCGAGGATGCCTTAATCGAAGAGATGTTCTCCGTAATCGCAAGTCCCGGTGCCGGACCGATTATTACCGGGGGAACGGTAACGCTGTCCAGCCCTACGCAAGGGGCAAGCATCTATTATACGCTCGATGGATCGGTACCGACGACAGCAAGCACGCTGTACAGCGCACCGATACAGATTGACCGTGATACGACCATCAAGGCAATTGTTGTCTCAGGTGCGGATGTGAGCAAGGTATACGAATTTGCTTACAAGGCCACTCAGCAGCCGCGCATCGCGGATATCCAAGGCGAGGACCATGCTTCGCCGTATACTGGACAGACGGTAACCGATATTGAAGGCGTTGTAACCCAGTACGGTTATACGTTCTCTAACGGCAATATCAAGGGATTCTACATCCAGGATCCGAAGCCGGATTCCAATCCGGATACCTCGGACGCCATTTTTGTGTATTCCACGGATCCAAACCGGCCTCAAATCGGAGATTTGGTGAGCGTAATCGGTAAAGTGGCCGAGTATAACGAGGGAAGCTCCAGCAACCTGACATCGACCCAAATCGAGATGCAATCGTTCAAGAAGCTGGATCAGGCTCAACAGCTGCCTGAACCGGTTACCTTAGGGAAAGGCGGACGCCCGATTCCGGCTGCCATTATCGATAACGACGGCATGACAACGTTCGATCCGGACGAAGACGCCATCGACTTCTACGAGTCGCTGGAGGGCATGTTGGTCAGACTTCCGCAGCCAACGATCATTAGTCCGTATTGGACAAGCGGCGGCACCTACAACATTGCGACCCGGGTCGAAAATGATGTCGCCGATGTCATAACGCCAGCGGGCGGGCTGGTTCTAAAAGAGAACGGTAATTTCAACCCGCAGCGTCTCTTGATTGCTTACGGCAATCCGGGTCAAGAAGTGAGCACGGGCGATACGTTTGCCGATGATGTGATCGGCGTGATTGGGTATAACGGCGGGAACTTCAAGGTGATCCCTGCCAAAGACAGCCTGCCTCCAATCGACAGCAGCTCTTTTAAGCAAGAGGTATCTACTATTGACGTGAATGCCGAACAGCTCAGAGTAGCGACGTATAATATTGAAAATTTCTACCCGGGCGTAAGCTCCGCCAAAATCAACAAGCTGGCGGAATCGATCGTTAACAACATCAAGTCTCCGGATATTATCGGTCTTGTCGAAGTACAGGATAATAACGGAGAGCAGAACAACGGAACCACCGCGGCCGATCAAAGCTACCAGACCTTGATTAACGCCATCAAGGCAGCCGGCGGACCAACCTATAGCTTTACCGACATTGAGCCGGTGAATAATAACGACGGGGGAGCGCCGGGAGCCAACATTCGGGTCGGGTTCCTCTACAACGCGGATCGCGTCCAGTTAACGGACAGCGTTCAGGGCAAGAAGGGATCCCCGACGGAATCCGTGGCGTATGATGCGGCGACGGATCAGTTAACCCTGAATCCGGGGCGGATCGATCCGCAGAATGCGGCATTCAATGCATCGCGCAAGCCTCTGGCTGCGCAGTTCGAATTCCAAGGGGAAAAAGTGATTGTCATCGCGAATCATTTTAACTCGAAATCCGGAGACCAAGGACCATTCGGCAACACCCAGCCGCCGGTTCTCTCCAGCGAAACCCAGCGCCATCAGATCGCAGCGGTCGTGAACGGATTCGTGAAAGACGTGGTGTCTGCTAATCCTGACGCGAACGTCGTCGTGCTGGGGGATTTGAATGATTTCCAATTTACCGAGACGACAAACATTTTGAAGGGCAACGAATTAGACAACCTGATCGAGACGCTTCCGCTCAAGGAGCAGTACACGTACACGTATGACGGAAACTCGCAGGTGCTGGATCATATTCTGGTCAGCAAGAACCTGACCCGTTCTACGCAAGTCGATATCGTGCATCTGAACGCCGATTTCCCGGCCTCCAAGGGCCGCGTATCGGATCATGATCCCGTCGTCGCCCAGATCGACCTGAAGGAAGAAGCCGCGAACGGCTTCCCGCTGACGATTTTGCATACCAATGACACGCATGCCAATCTGGACACCGTAAGCTCGCCGGATAATATTGCGCGCCGGGTTACGGCAATCAAGGAAGCCAAAGCGAATGCGGTCAATCCTCTGCTCGTGGATGCGGGAGACGTATTCTCAGGCACGCTGTATTTTAATCAATATTTGGGACTTGCCGATCTGGAGTTCATGAATTTGGTTCAATATGATGCCATGACCTTCGGTAACCATGAGTTCGATAAAGGATCCGAGGTGCTGAACGATTTCATCGAGCATGCGGAATTCCCATTTGTGTCTTCGAACGTGAATTTTTCGGCCGATGCTTTATTGACCCAGAAATTCAAGAATGAAGTGACCCGGGATGCCAAGGATGCAACCATCTACCCGGCCATCATCATGGAGGTAGACGGGGAGCAGGTTGGCCTCATCGGACTGACAACCGAAGACACGGCGAACATCGCTTCGCCTGGAGACGTAACCTTTGAGAATGCGGTGCAAAAGGCAAAAGACACCGTAGCGATGCTGAAGAATGAAGGTATCAACAAAATCGTCGTACTGTCGCACCTCGGTTATGACGTGGATGTCAACCTTGCGAAGGAGGTCGAGGGCATCGACATCATCGTGGGCGGTCACAGTCATACCAAGCTGGATCAGGCGGTCGTGGACCGTTCGGACAGCGAACCGAAGCTGATTGTGCAGACAGGTGAAAAAGGTCAATTCTTAGGTCAGTTGGAGGTCGTATTTGACGACGAGGGGGTTCTGCAGGAGTGGAACAGCAGCCTCATTTCCGTTGACGAGAAAGATAGCAATGAGCAGTATGTCATTCAGCCGGATCCCGAAGCCTTGCAAATTCTGAACACCAAATATAAGCCGGGCGTGGAGGCATTGAAACAAACGGAGGTGGGCACGACAGAAGTGAAGCTGAACGGCGTCCGCGCCGATGTCCGCACGAAGGAAACGAATCTCGGCAATCTGATTGCCGATGGCATGCTGGATGCGGCGCAAGCCGCCGGCACGAATGCGGTCATCGCCCTGCAGAACGGCGGCGGCATCCGCGAATCCATTGAAGCAGGCAAAATCACGATGGGTGACGTCATGACGGTGCTTCCGTTTAACAATGATCTCGTCACGATCACGCTAACGGGCGCCGAGATCAAAGAAGCCATGGAGAACGGGGTCTCTAAAACCCCTGCTCAGGACGGGCGCTTCCCGCATATCGCGGGCATGAAGTTCTATTATGATTCGACCAAGCCGGTTGGATCGCGCGTCCTGCGCATCGAGGTGAAAGGCAAGAACGGATATGAGCCGATCGACATGAATAAATCGTATGAAGTAGCGACGAACGCATTTACCGCTAAGGGCGGCGATTTCTATGCTTCGCTCGAGAAGGCCTATCTGGAAGGGCGCGTGAACCTGCTTTATAAGCCTGACTATGAGGTATTCTCGAACTATGTGAAAAAGGTAGGCACCATCACGACCAAGACCTCCTACGTCGAAGGACGGATTACGGACTTGAAGGGAGCGCCGCTTCCTGGAGGACCTGGAGAGCCTGGGCCGGGCAACCCTGGGAATCCGGGCACGCCTGGAACTCCAGGACCGACGACGCCTCCCGTAAACCCATCGAACCCTGGCACCACGACGCCGGCAGAACCGGGCAAGGTCAAGGTTCCGGTTATGGTGGAGAACGGCGCAGCGGCAGGCAGCGTGACCGGAGCGGCCATGAAGGAAGCCCTGAAACAGCCTGTTGGCGGAAAAGTTACCGTAGAGGTAACAAGCACGCAGCCCATCTCTTCTTCATCCGTTACCATCGAGAATGAAGCGCTGCGAGCGTGGCTTGATCAAACAAGCGCGAAGGTGCTGGTGGTAGCGACGCCTTACGGAAGCTATGAGCTTCCGAAGAAGGAGATCGATCTTCAAGCGCTGGCGGCCCAAGCCGGCTCGGACATGAACAGCCTTCAATTGGTCATTCAGCTTGCTATCGATGAGGATGCCCTTAAATCAGCGGCCTCCAAAGGATATCATGCGCTGCAAGCCGTGAGCTACACCGTGACGGTTAAGTCCGACAATGGCAAGACTATCACGCTGGATTCGTTCCAAACGTATGTGAAGCGGTCCCTGAATGTCGACAAATCGCATGCGTTGACGGACATCGCGGTTGTCCGAGTGGATGGAAACGGCGAATACACGCCAGTACCATTTAAGGTAAACGGCCAACGTATCGATATCTATAGCCGAACCAACAGCACATACCTGGTGTTGCAGAACCCGGTAACGTTCCAGGACATCGCGTCGCATTGGTCGAAGGGTGAGGTTGAATCGCTTGCGGCCAAAATGATCGTAACCGGGCGCACGGAGCAGACCTTTGTTCCGAACGCTCCAGTCACTCGGGCCGAGTTCGCAGCGCTTGTCGTCCGGGCACTGGGACTTTCTGCAGACGCTGCGTCAGGCAGCTTCCAGGACGTTGCTTCATCCGACTGGTACGCGGGAGCGATCCAGGCAGCAGTCGATGCCGATATCATTAACGGCTACACGGACGGCACCTTTAAGCCGAATCGGACGATCACGCGCGAAGAGATGGCCGCGATGGCCTACAACGCGCTGGAGTATGCCGGATACAACCCCGTCGACGCGGCAAAAGCTCATTTTGCCGATGCGTCCTCGATCGGTGCTTGGTCTCAGGTGGCGGTGTATGAATTGGCGGCACTTGATATTCTGAATGGAGATCCGAAGCAGCGCTTCAATCCTAAATCGAATGCCACCCGCGGCGAAAGCGCCGCTGTGCTCCATCGTTTGATGCAGGATTTGACGTACGTAAAATAA	MRIRLHRCQRPLSMLLVFVMLLSIIVPFSPVKVAEASPRHDQVVISQVYGGGGNSGAVYTHDFIELFNPTSSPVDLTGWKVRYASAAGDFSSSNTTSLSGIIKPYSYLLIQQSGGTIGSFLPTPDVQGKLSMGGSNGKVDLVNAAGDRIDLIGYGNATLSEKSPTAALSNSTAAIRKELTFGQNDRGRDTDNNAADFAVTTPDPRNSSSPATPVTPGSGLGAVTANPEPNAWPAGTEITLNPPTVGASVYADVYLSGGNGSGFQIVNGPIILNEPTRVDAYAAQDGQPDGPVSSFQYDILRQSSVADARSKAKGEHVWTEGIITHIEGRETYIQDDTAGIVLYDYPLNASVGDRVSVAGVMEIYNNLQEIKPHALLPHDVTGNQVGVPQALPITGADLSAAAGENYEARLVSLNDVTIKSENRPGEYTAEQGGHEFIIYSGLSKLKTVKTFSRITGVVKQFGNVYELIPLGEDALIEEMFSVIASPGAGPIITGGTVTLSSPTQGASIYYTLDGSVPTTASTLYSAPIQIDRDTTIKAIVVSGADVSKVYEFAYKATQQPRIADIQGEDHASPYTGQTVTDIEGVVTQYGYTFSNGNIKGFYIQDPKPDSNPDTSDAIFVYSTDPNRPQIGDLVSVIGKVAEYNEGSSSNLTSTQIEMQSFKKLDQAQQLPEPVTLGKGGRPIPAAIIDNDGMTTFDPDEDAIDFYESLEGMLVRLPQPTIISPYWTSGGTYNIATRVENDVADVITPAGGLVLKENGNFNPQRLLIAYGNPGQEVSTGDTFADDVIGVIGYNGGNFKVIPAKDSLPPIDSSSFKQEVSTIDVNAEQLRVATYNIENFYPGVSSAKINKLAESIVNNIKSPDIIGLVEVQDNNGEQNNGTTAADQSYQTLINAIKAAGGPTYSFTDIEPVNNNDGGAPGANIRVGFLYNADRVQLTDSVQGKKGSPTESVAYDAATDQLTLNPGRIDPQNAAFNASRKPLAAQFEFQGEKVIVIANHFNSKSGDQGPFGNTQPPVLSSETQRHQIAAVVNGFVKDVVSANPDANVVVLGDLNDFQFTETTNILKGNELDNLIETLPLKEQYTYTYDGNSQVLDHILVSKNLTRSTQVDIVHLNADFPASKGRVSDHDPVVAQIDLKEEAANGFPLTILHTNDTHANLDTVSSPDNIARRVTAIKEAKANAVNPLLVDAGDVFSGTLYFNQYLGLADLEFMNLVQYDAMTFGNHEFDKGSEVLNDFIEHAEFPFVSSNVNFSADALLTQKFKNEVTRDAKDATIYPAIIMEVDGEQVGLIGLTTEDTANIASPGDVTFENAVQKAKDTVAMLKNEGINKIVVLSHLGYDVDVNLAKEVEGIDIIVGGHSHTKLDQAVVDRSDSEPKLIVQTGEKGQFLGQLEVVFDDEGVLQEWNSSLISVDEKDSNEQYVIQPDPEALQILNTKYKPGVEALKQTEVGTTEVKLNGVRADVRTKETNLGNLIADGMLDAAQAAGTNAVIALQNGGGIRESIEAGKITMGDVMTVLPFNNDLVTITLTGAEIKEAMENGVSKTPAQDGRFPHIAGMKFYYDSTKPVGSRVLRIEVKGKNGYEPIDMNKSYEVATNAFTAKGGDFYASLEKAYLEGRVNLLYKPDYEVFSNYVKKVGTITTKTSYVEGRITDLKGAPLPGGPGEPGPGNPGNPGTPGTPGPTTPPVNPSNPGTTTPAEPGKVKVPVMVENGAAAGSVTGAAMKEALKQPVGGKVTVEVTSTQPISSSSVTIENEALRAWLDQTSAKVLVVATPYGSYELPKKEIDLQALAAQAGSDMNSLQLVIQLAIDEDALKSAASKGYHALQAVSYTVTVKSDNGKTITLDSFQTYVKRSLNVDKSHALTDIAVVRVDGNGEYTPVPFKVNGQRIDIYSRTNSTYLVLQNPVTFQDIASHWSKGEVESLAAKMIVTGRTEQTFVPNAPVTRAEFAALVVRALGLSADAASGSFQDVASSDWYAGAIQAAVDADIINGYTDGTFKPNRTITREEMAAMAYNALEYAGYNPVDAAKAHFADASSIGAWSQVAVYELAALDILNGDPKQRFNPKSNATRGESAAVLHRLMQDLTYVK	PGPT0013420_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013420-yfkN-K08693	NA	NA
AK002_00356	327			hypothetical protein	ATGCGATCCTTGCACCGCTTCTTTCGTAAATGGGTCGCACACCCATTTACGAAAGAAGCGGTTCTCTTCATATGTCGAAATGAAGTTTTTCTCATGGTAGCGGAGGGGACGAAACGATTTCGGACAAGCGCCAGCGGTCGCCTGAAAGCTTTCCAACGGAAAGCTCGCATCGAAAGCATATTCTTTGTCCCCGAATTTCTCCCTTGGTTACAATCATTCCAAGAAATTTGGGGACAACAGCGATGGGAGGAACGATTCTCGTACACGGAGTGTCTCCTAACAGAAAAAGGAGATAGTCCTATCTATCGGGACCCCCTCTTTTTTTAA	MRSLHRFFRKWVAHPFTKEAVLFICRNEVFLMVAEGTKRFRTSASGRLKAFQRKARIESIFFVPEFLPWLQSFQEIWGQQRWEERFSYTECLLTEKGDSPIYRDPLFF				NA	NA	NA	NA	NA
AK002_00357	489	sigV_1	COG1595	RNA polymerase sigma factor SigV	ATGCAGATCGATTCGCTCCGGCCGGGCGGAGATATTACGGAAACCTATGAATTATATGGCGATATGCTTTTTAAAATAGCGATGGTGTACCTTGGGAACAAACAGGATGTCGAAGAAGCCATTCAGGAGACGTTCATTAAATTGATATATAAAGCGCCTGACTTCAGGGATCAGGAGCATAAGAAAGCTTGGCTCATTCGGGTGATTACGAACCACTGCAAGAACATGCAAGGGAGCCTGTGGCGCAAGCGGGTAACCAAGATGGAGCATATGAACGATTATTTTGTCGAACCGTCGGAACGGACGTTGATGGATAACGTCATGAGTTTGCCGTTCAAGTATAAGTCGGTCATCCATCTGTTTTATTACGAGGATTATTCCGTTAAGGAAATCGCCGGGATTTTGCAGATTAACGAGTCTGCGGTCAAGATGCGTCTTCAGCGCGGCAGGAAGCTGCTGCGCATGGACTTGGAAGGAGAGGACGATTGA	MQIDSLRPGGDITETYELYGDMLFKIAMVYLGNKQDVEEAIQETFIKLIYKAPDFRDQEHKKAWLIRVITNHCKNMQGSLWRKRVTKMEHMNDYFVEPSERTLMDNVMSLPFKYKSVIHLFYYEDYSVKEIAGILQINESAVKMRLQRGRKLLRMDLEGEDD				NA	NA	NA	NA	NA
AK002_00358	987			hypothetical protein	ATGAATCGGAATGACTACAAATCATTGATTGATCGAATAGAACCTGATAAAGGATTGGAGGAGCGGATCATGAAAGGAATGAAACAAAATCAGCGTCAAACGACAAGAATGAGCCGAATGGGGGTCGCCGGCGTCACCGCGGCCATTATGCTGGGGCTGGTGGTAGTGACTTCGCTGGTATTGAATCTTGAGAACGAGCCAGCGGTCAGCGATATCCCGGTGGTTCAACAAGGGACTGGGGCGAATACCCCGCCGACCGCGAAGGTTGGCCACGATCCGGTAACCATTCCGAAAATTGAGCTTCCGGGCGAGAGCAACGTCAAAGCCGATATGATCGGTTTGGTTGTATACCAGGGCAATATCTACACCCAAACCGGTACGCAAATCACGCCGGAAATCGCCAAGCAGCTGCGGGGCGACAAGCTCGGACGGTCGAAGTCGGGGATTACGGAATGGAGCTCCTCCGATGACTACACGGAGCTTGCTTCGACGATCGGCGAAATGGATATATTCACGGTTAAGGGATATGACGCCGATTTTAGAATCATGTCCTACATGGAGCACGACGGGGAAGTCTACGCCGAATTGTATGAGCATTTGAACGGGATTACGGTGGCCAAGGGCGAGGATATCATCGGCAAGCTGAATCTGATGGGGAACATGATTTCGGTCAAATGGCAGGATTTCGACAGTTGGAACATGGGCGAGAACAAGCTGCGCGAGCTTTCCGCCGATGCGGAGGTGCAAGCCTTCGTTGACGCTTTATATGAAGCGAAGCCGATAGCGGCCGAGCCTCTGTTTGAGCAAGGGATCTACGAGACCGGGCCTAGCGAACAGAAATTTCTGTATATCCAGCTGCAGGACGGGACGGAAGTCCAGTTAAGACTGTTCAAAGGCGGCCAATATGTGCGATATGCCAATGCGCCTGTGTTCTTTCAATTGGAAGGTGAGGCATTCACCACGCTGTGGGAGCTGATGGAGGAGTAG	MNRNDYKSLIDRIEPDKGLEERIMKGMKQNQRQTTRMSRMGVAGVTAAIMLGLVVVTSLVLNLENEPAVSDIPVVQQGTGANTPPTAKVGHDPVTIPKIELPGESNVKADMIGLVVYQGNIYTQTGTQITPEIAKQLRGDKLGRSKSGITEWSSSDDYTELASTIGEMDIFTVKGYDADFRIMSYMEHDGEVYAELYEHLNGITVAKGEDIIGKLNLMGNMISVKWQDFDSWNMGENKLRELSADAEVQAFVDALYEAKPIAAEPLFEQGIYETGPSEQKFLYIQLQDGTEVQLRLFKGGQYVRYANAPVFFQLEGEAFTTLWELMEE				NA	NA	NA	NA	NA
AK002_00359	876	rhaR_3		HTH-type transcriptional activator RhaR	ATGAGTTTAACAGTGAATCAGCGGCCATCCCGAGAAGAATACTTTAACAACCCGGCTCACTTTGAGACACAACTGGGATTATGGATATTCAAATCCGGATCCCACCCCTTTTTCACCGAGAAAGTCGGTCCCCGGTCCGTCGAATTTTACAGTATACATTTCGTTGCCAGCGGCAAGGTGCGGTTCGGATGGGACGGCAGCAGCGTCTCCCTCTCGGAAGGCGACCTCTTCTGCCTCTTCCCCGGCTCGGTCTATACGTATGTCAAGGACTGCGACGAGCCGTCTACCATGATCACCTGGACGGCCTATATGGGCGAGTTGATGCCGTCCATATTGAACCATGTCGATTTATGTCCGGAACGGCCCTATCGACGAAATGCCTTCAGGGACGATGCCTTGGCTGTCATCAAGGACATTCAGCGATTGCTCCGGCAGCCCCAGCAGGACCATAGCCTCCAGCTGATGTCGCTGGGATTCCAGCTGATCCACAGCATCGATCCCAACCGGGACCAGCACCTCCCCGCTGCTTCGGCTGCTTCGGACTGGCTCGAGTCCGTCCCCGGATATATGGGGCTTCATTGCACGGAGAACCTGTCCGTGGAGGAGCTTGCCGCCTGGGCCGGCGTGCATCGCAGTCACTTCACCCGCGCGTTTACCCGCCGATACGGCATCTCTCCGTCCCGCTACATGCAGCAGTTGATCATGGAGAAAGCGACCCGCCTGTTATCCGCCGAGGGAACCAGCATCACGCAGACCGCTTTATCCCTGGGCTATTCGGATTTGTTTACGTTCTCCCGCGCCTTTACCCGGTATTTCGGAATGACGCCGAGCGCATTCGTGAAAGCGAACCTCCCATCATCGAGAACAAGCGAATAA	MSLTVNQRPSREEYFNNPAHFETQLGLWIFKSGSHPFFTEKVGPRSVEFYSIHFVASGKVRFGWDGSSVSLSEGDLFCLFPGSVYTYVKDCDEPSTMITWTAYMGELMPSILNHVDLCPERPYRRNAFRDDALAVIKDIQRLLRQPQQDHSLQLMSLGFQLIHSIDPNRDQHLPAASAASDWLESVPGYMGLHCTENLSVEELAAWAGVHRSHFTRAFTRRYGISPSRYMQQLIMEKATRLLSAEGTSITQTALSLGYSDLFTFSRAFTRYFGMTPSAFVKANLPSSRTSE				NA	NA	NA	NA	NA
AK002_00360	1320	atsA	COG3119	Arylsulfatase	ATGAAACAACCGAATTTTATCGTGATTTATTGCGATGACTTAGGGTATGGAGATCTTGGATGCTACGGTTCGGACACCGTGAAAACCCCGCACCTGGACGGGTTGGCTGATGAAGGCATTCGTTTTACGAATTGGTATTCGAATTCCCCGGTCTGCTCCCCGTCACGAGCCTCTTTATTGACGGGCAAGTACCCGGCCCGAGCTGGAGTCGGCGAGATTCTTGGGGCGAAGCGCGGTTCGCATGGACTGCCTGCCGACGAGGTGACGTTGGCCAAGGCGCTCAAGCCTGCCGGGTACAGGACGGCGCTGTTTGGAAAATGGCATTTGGGCTTGTCCGAGGAAACCAGCCCGAATGCGCATGGATTTGATGAGTTTTTCGGATTCAAGGCAGGCTGCGTCGATTTTTACTCGCACATTTTTTATTGGGGCCAAGCCCATGGCGTCAACCCCCTGCATGACCTATGGGAAAACGAAACGGAGGTTTGGGAGAACGGCCGGTACATGACCGAGCTGATCACGGAACGATCCGTTGATTTCATTCAGCGGTCGCGGGAGCAGGAGGCTCCGTTCTTCTTGTTTGCGTCGTACAATGCGCCGCACTATCCGATGCATGCCCCGCAGGAATACATGGACCGGTTTGCGCATTTGCCTTGGGATCGGCAGGTCATGGCCGCCATGATTGCCGCGGTGGACGACGGCGTCGGGGAGATCGTAAAGGCGCTGAAGGAAGCCGGGTGTTACGAGGATACGGTCATTTTCTTCTCCAGCGATAACGGACCGTCCTCCGAGAGCCGCAACTGGCTGGATGGGACGGAGGATGTGTATTACGGGGGAAGCGCGGGGATCTTCCGGGGGCATAAAGCAAGCCTGTTCGAAGGCGGAATCCGCGAGCCTGCCATATTGAGCTGGCCGAACGGATGGGAAGGCGGGCAAGTGAGAGATGAAGTGGTGGCTATGATGGACATCGCACCGACCTTTTTGGATCTGGCCGGCGTCGATCCGGCGGCAGGACCGCTTCAAGGCGTTGCGCTGGACGGAAGCAGCCTGAAGGAGATGCTGCAGATGCGCATGCCGTCGCCGCATAAGCAATTGTTCTGGGAGTATCAAGGCCAGCTGGCTGTCCGGGAAGGGGATTGGAAACTGGTGCTGAACGGGAAGCTCGATTTTGACCGCGTGGTTCCGGATCAGGTTCATCTGTCCGATCTGTCCAGGGATCCCGGGGAGCGCTCCAACCTGGCGGACCGTTACCCCGAGATCGTGGAACGGCTTAGCCGGGATGTGCGAGACTGGTATAAGGAAGTGCAGCGTCACGGCTCCTGA	MKQPNFIVIYCDDLGYGDLGCYGSDTVKTPHLDGLADEGIRFTNWYSNSPVCSPSRASLLTGKYPARAGVGEILGAKRGSHGLPADEVTLAKALKPAGYRTALFGKWHLGLSEETSPNAHGFDEFFGFKAGCVDFYSHIFYWGQAHGVNPLHDLWENETEVWENGRYMTELITERSVDFIQRSREQEAPFFLFASYNAPHYPMHAPQEYMDRFAHLPWDRQVMAAMIAAVDDGVGEIVKALKEAGCYEDTVIFFSSDNGPSSESRNWLDGTEDVYYGGSAGIFRGHKASLFEGGIREPAILSWPNGWEGGQVRDEVVAMMDIAPTFLDLAGVDPAAGPLQGVALDGSSLKEMLQMRMPSPHKQLFWEYQGQLAVREGDWKLVLNGKLDFDRVVPDQVHLSDLSRDPGERSNLADRYPEIVERLSRDVRDWYKEVQRHGS				NA	NA	NA	NA	NA
AK002_00361	1917			hypothetical protein	ATGAAATTTCGTTTCGAGGGCGCTGTTACGGATGTCATGCCAGGCATTGAGCTGCTGCTGGATGGGCTTGGCGTCGAGCTTGGGGAAAACGGCATTCCCGTTGAGGCAGCCTTGTCCGATGGCGATCTGGAGGTCGGCAGGGACCGGGACCACGCCTATATTCGTTACGGACGAAAACATCAATTTTTCCGGGGACTCGGCTTGCTGGTTCAACATAGCCGCCAAAGCGATTCGTTCCACCTTCTCGAACGCCAGCAATTTGACCAGATCGGCCCGATGTTCGACCTGTCCCGCAACGCCGTGCTGACCGTGGACAGCTTCAAGCTCATGCTGAATAAAATGGCCCTGATGGGCATGAACAGCGTGATGCTGTACATGGAGGACACCTACCAGATCGAAGGCGAGCCGTATTTCGGTTATATGCGCGGTCGCTACACGCAGGCGGAGCTGAAAGAGATGGACGATTATGCCGATCAATTCGGCATCGAGGCTTTCCCAAGCATCCAAACCTTAGCGCACCTGGAGGAGTTTCTGAAGTGGGAGCCCATCAAGCATTACCGCGATACGAAGGGGGCCCTGCTCGTCGGCAGCGAGCAGACCGATTCCCTGATCGAACGGATGATCGAGGCCGCCAGCGTTCCGTTCCGCAGCAACAAGATTCACATCGGAATGGACGAAGCGGAGGAGCTCGGACGGGGTAAATATTTGGATCACAACGGTTATGTGAGCCGTTTCGACATTATGATCGCCCATCTGGACAAAGTCCTGGCTGCCGTCCGCAAGCGCGGTCTAAAGCCGATGATGTGGAGCGACATGTTCCTGAAGCTCGCTGCCGGCGGAGGCGGCGATGCGGCGTATTACGACAAGGACACCTCGATTCCGGAGGATATGGCCCGCCGCATCCCGAAGGATGTGGATATGGTGTACTGGGACTACACCCACATGGAGCCGGCGGACTATGAGAAGCTGATCGCCAATCACCGCCCGCTGGGCTGCAACCTCGTGTTTGCCGGAGCCGTCTGGATCTTTAACACATTCGGCGTCAACTACGGGTTGTCCCTGAACGCTTCGAATGTTGCGCTTCAAGTGTGCAAGCAGGAAGGAATCCGCGAGGTATACGCCACGATGTGGGGCGACGACGGCAACGAAGGAAATCCGTTCGCAGCGCTGCTCGGTCTGCAGCTTTATGCCGAGCATGCCTACTCGGAACAGGAGCCTTCTTCGGCTCAGTTGGCGGAACGGGTGAAATTCTGTACGGGCATCGACATGGAGGCGTTCCTCCTGCTGAAGGATCTGGACGAGATTCCCGGCCAGGAGCCGAACAACGCCAAGCAGAGCAACCCGTCGAAATTTTTGCTGTACCAGGATGTGCTCCTCGGGATGTTCGACAAACAGATCGAAGGCCTGGACCTCTCGAACCACTATGCCGAGCTGGAGCAAAACCTGCGCGCGAAGCGCGATAGCGGCGCCGAGCTGGACTATCTGTTCGAGATGCCGGAGAAGCTAAGCGCCGTCCTCAAACGCAAGAGCGAAATCGGCATTCTGCTGAAGCAAGCCTATGATGCCAAGGACGTCGATACCTTAAGGCATATGGCCAAAAACGTGCTCCCTGCCATCTCCAAAGCCGTGCAAGAGCTCCGCATAGGACACCGTACGCAGTGGCATCGGATGTTCAAGCCCTTTGGCTGGGAGGTCATCGACATCCGCTATGGCGGCGTCATCACCCGCCTGGACACCGCATCGTTCCGCATTCTGGAATACGTGGAGGGACGGACGGAACGGATCGAGGAGCTGGAGCAGGAACGGCTGGTGTTCAGCACGACCAACCGCGACAACCACAAGGGCGTCGGCTGGTGCAGCCATTATTACCGCATGGCTTCGCCGAACGTGTTCTACCATGTGCTGAATCCTTTTTAA	MKFRFEGAVTDVMPGIELLLDGLGVELGENGIPVEAALSDGDLEVGRDRDHAYIRYGRKHQFFRGLGLLVQHSRQSDSFHLLERQQFDQIGPMFDLSRNAVLTVDSFKLMLNKMALMGMNSVMLYMEDTYQIEGEPYFGYMRGRYTQAELKEMDDYADQFGIEAFPSIQTLAHLEEFLKWEPIKHYRDTKGALLVGSEQTDSLIERMIEAASVPFRSNKIHIGMDEAEELGRGKYLDHNGYVSRFDIMIAHLDKVLAAVRKRGLKPMMWSDMFLKLAAGGGGDAAYYDKDTSIPEDMARRIPKDVDMVYWDYTHMEPADYEKLIANHRPLGCNLVFAGAVWIFNTFGVNYGLSLNASNVALQVCKQEGIREVYATMWGDDGNEGNPFAALLGLQLYAEHAYSEQEPSSAQLAERVKFCTGIDMEAFLLLKDLDEIPGQEPNNAKQSNPSKFLLYQDVLLGMFDKQIEGLDLSNHYAELEQNLRAKRDSGAELDYLFEMPEKLSAVLKRKSEIGILLKQAYDAKDVDTLRHMAKNVLPAISKAVQELRIGHRTQWHRMFKPFGWEVIDIRYGGVITRLDTASFRILEYVEGRTERIEELEQERLVFSTTNRDNHKGVGWCSHYYRMASPNVFYHVLNPF	PGPT0012150_1862	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
AK002_00362	1014	ccpA_1	COG1609	Catabolite control protein A	ATGGCAGCAACCATAAAAGACGTCGCCCGTGAGGCAGGCGTAGCAGTTTGTACCGTGTCGTTTGCGGTCAATGGCTCCGCGCATGTAGCGGAAGCGACCAAGAAGCGGATATTCGATGCAATCGAGAAGCTGAATTACCGGCCGAACCAGTCCGCGCGCGGATTGGTCACGAAGAAGACGAACAACATCGGCCTGGTGGTCGAGGATACGGTGGACGGTTTGGAGAATACCATTCTCCTCGACGTCGTCAAGGGGCTTGGGGAGGCGACGGGAGACAACAATTACGATTTGCTGCTGTCCTTTCAGAAGCCGAGTACGAATAAATTGGCGGATCACCTGCTGGACGTCTACCGCAAGCAATCGGCGGATGGACTGATCCTGATGGGGGCGGCCATTAACCAGCCGTATGGGGAGCTGATCAAGAACCGGTTTCCTTTTGTCCTGCTCGGGAGGCCGACGATGCCCGGGGTGTGTCACAGCGTCAATGCGGATAATGAGCAAGGCGCCTATGAAGCCGTTAAATATCTGATCGGCAAGGGTCATCGCCGGATTGCGCTCATCACCCCATGCTCGCTGGAAGTGGATGCCTCGCTGGACCGGTATAACGGCTACCGCCAGGCCATGGAGGAATTAGGCGACGGGTTCGACGAGCGGTTGGTTGAGATCGGTTCCTTCGAAGAAGACAGCGGGTATACGGAAACGGAGAAGCTGTTGAACCGAGTCGAGCGTCCTACCGCCATCATCGCCGGACGCGACGTGGTCGCTTCCCGCGTCGTCGAGAAGGCTCAGGAGCTGGGTTACAAGGTGCCGGAGGACCTGGCGGTGATCGGATTCGATAACACGGCTGTCTCCCAGTTGGCCCGGCCATCCATTACATCGATTGAGCTGCCGATGCGGCAGATGGGTCTGGAAGCAGCGAAGCTGTTAATGCAGCTGATTGACGGCGAAATTCGTTTTGACGATATTCAGACGATCGTTTTGCCGTGTACCGTCATTGAAAGAGAATCGACCTGA	MAATIKDVAREAGVAVCTVSFAVNGSAHVAEATKKRIFDAIEKLNYRPNQSARGLVTKKTNNIGLVVEDTVDGLENTILLDVVKGLGEATGDNNYDLLLSFQKPSTNKLADHLLDVYRKQSADGLILMGAAINQPYGELIKNRFPFVLLGRPTMPGVCHSVNADNEQGAYEAVKYLIGKGHRRIALITPCSLEVDASLDRYNGYRQAMEELGDGFDERLVEIGSFEEDSGYTETEKLLNRVERPTAIIAGRDVVASRVVEKAQELGYKVPEDLAVIGFDNTAVSQLARPSITSIELPMRQMGLEAAKLLMQLIDGEIRFDDIQTIVLPCTVIEREST	PGPT0017992_9808	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
AK002_00363	1671			hypothetical protein	ATGATCCATTTCAGAAAAATCGTAAGCCTCATTTTGATTTCCTCACTAATGATCATCATCGCAGCGGGTTGTACCAGCAGCGGACCCAATACCGCCAGCCCGTCGCCATCCGAACAGCCTACCCCAACGGATACCAAAACACCAGCCGAACCAGCCGGAGAAGATACGGAAAAACCTAAAAGCGGCACGATCCAAATATCCTTGCGCGGTGCCTCAGCCGAGGTTTGGGGCAAGGTAGCCGACGCTTACATGGCTAAGCATCCGGGCGTTAAGGTCGTCGTGGATATCAAGCCGGCCGAGGGCTACCGCGAATGGCTGCAGGCTCAGTTTGCCGCCGGAGAGCCGGAGGCCGATTTTGTGAACACGAATGAAAACAGCGACCTGAACGAAGACCAGAAATTCGTGGACTTCAAGCCTTGGCTGGAGACGGAGAACCCCTACACCGGAAAGATCTGGAAGGAAAGCTTCAACCTGGACGGCATGGGCGTCAATCTGGATGACCCTAACCTGCAAACTTTGCAAGCGCTTAACTTTGAATCGGTTCAAATCCTCTGGATGTACAACAAAGAGATGTTCGAGAAAGCGGGAATTACCGATACCCCTAAAACGTTCGATGAACTCATCGCGACCTACGACAAACTGAAGGCGGCGGGTTATATCCCGTTCACGATCGGCGGCAACGCGCTCTCCCTGTGGAGCGGTCAGGCGGGCTGGCTCATGCGCATTTATCCGGACCAGTACTTCCGCGATTACGTGGAGCTGATCAAATCAAAGCCGGAAGATTATACGTACATGCCAAACATCGACGATAACTGGAAGTTCGACCTGAGCGACCCGTACAACGATTCCCGTTCCAAAGTATCGACGAACGAGCTGCGGATGTACCAGGCGATCAAAAACAAAGTCGGCCCGTATAAAGTCGAGGGCAATCCGGCGTGGCGCGAAGTCATGACAAATCTGAAAACCTTGTTCGGTTACGCTCCGGACGGTTTTATGGGCATGTCCGAGGAGCAGGCCTACAAGCTCTTCCTGACAGGCAAGGCCGCAACCATGGTCGCGCTTCCGTCCTCCTACTGGCAGCTTCCCAAGGATTTTGCCGATGCGGAAAAAACGGGAGAGAGCGGCGGCGTGAAATCCTTCGACTTCGGATTCTTCAACATGCCTTCCATGGAAGGGGAGCTGGTCCAGGCTCCGGCGAGAACGATTCACATTTACACCGGCTTCTACGGCTTCGTGAAGAAGAATGCGGAGCAAACCGCCCTGAACGTGGATTTCATGATGTATTTGACCAGCCCGGAAGGATATAAAGTGTACCTGGAAGCCATCCAGAATTCCAAAGACGCCTCCTTGAACGGCGCGCCGCTGCTTAACGACATCGAGCTGCCGGAAGAAATGAAGAAGACGTTCGAATCGTTTGACGCGATCGGGAATACGGAAGGGCTGAACAGCCCGGGCAACGTGTTGGCCCGCGGTCTCCATGACTATCAGCCGTCCGTGCAGAGCTATATCGGCCTGATCTCCAAATACTTCAACGATGAAATCGATGTGGATCAGCTGCTGAAGCAGTACCAGGCGGATATTGACGCCAAATTCGAAGCCATGCTCAAGGAACGCAAAAAAGAACTCTCCGATATCGAGAATCCGGAGCGTCAGCCGCCTGTCAGACAGTAG	MIHFRKIVSLILISSLMIIIAAGCTSSGPNTASPSPSEQPTPTDTKTPAEPAGEDTEKPKSGTIQISLRGASAEVWGKVADAYMAKHPGVKVVVDIKPAEGYREWLQAQFAAGEPEADFVNTNENSDLNEDQKFVDFKPWLETENPYTGKIWKESFNLDGMGVNLDDPNLQTLQALNFESVQILWMYNKEMFEKAGITDTPKTFDELIATYDKLKAAGYIPFTIGGNALSLWSGQAGWLMRIYPDQYFRDYVELIKSKPEDYTYMPNIDDNWKFDLSDPYNDSRSKVSTNELRMYQAIKNKVGPYKVEGNPAWREVMTNLKTLFGYAPDGFMGMSEEQAYKLFLTGKAATMVALPSSYWQLPKDFADAEKTGESGGVKSFDFGFFNMPSMEGELVQAPARTIHIYTGFYGFVKKNAEQTALNVDFMMYLTSPEGYKVYLEAIQNSKDASLNGAPLLNDIELPEEMKKTFESFDAIGNTEGLNSPGNVLARGLHDYQPSVQSYIGLISKYFNDEIDVDQLLKQYQADIDAKFEAMLKERKKELSDIENPERQPPVRQ	PGPT0016330_24	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_00364	1926			hypothetical protein	GTGAACACGAAGGTGATGAGAACAATATATTCCTGCCTGCTGGCTTCGCTGCTGCTATTTCTATATGCCCAGCCGATCCATGCCTCTGAGCCGATCTGGACGATGGAGCAGGGCCTTACGATCAAAGGTTTGTCCATATCGGAAGACGGCGAGCTGGTGGCGGTCGGTACGCAGAATGCGAGTGCCATTCTTCTTCAGCGCGACGGCACCCAGCGATTCGAATTCATGGCGAACAACGTCGTGACCGGTGTCGCCCTCCTGAATGACGGCCGCATGCTCGTCACTTCCGATGACCGGCATCTTTATATGCTGAGTGCTGACGGCAAGGAGCTGTGGAAGCGGGATTTTAAGAAAATGATCAAGAATCTGTCGGCAACGCCCGACGGCAAGCTGGCTATCGTGACGCTGCATAACGAAAGTTTGGTGCATGTTCTGGACGAACAAGGACAGACGCTGCGTGAAATTTCGATCGGCATCGCGGTGAAGAGCGCCGCGGTATCCCCGAACGGGCAATGGCTGGCAGCCGGAGCTGCGAACCAGTATGCCTATTTGTTCAATCCTGCCGGCGAGCTGCAATTCCAGACGCCGCTGGAGGGCGACATTCTTCATGCTTCCGTTGCGGATAACGGAACGATGGTGGTCGGAACGTCCAGCAATAAAGCGGTCCTCTATTCGGCGGAGGGCAGCAGGCTTGGCGAATTGTTGACCAAGGATAAAGTGACCTCCGTGCATGTCACCCATGACGGGGAGTTTATCGGGGTAGCGGACTACTCGGGCAATTATTACGTGGCCAATCAAGGCGGCGAATTGTTGTGGAGCACGAAGGAGGCCGGAGCCGGCCAGCAAATCCGGTTCAGCAAAGACGGTACGCGGCTCTTCGCAGGCTCGGACAAAGGAGCCGTCTTCCAATATGAAGTCGGGGCCGTGCTGGAGCAAGGCAAACAGGCAGCGATGGTCAAAACCGTGGTACAGGTAGCGGCCGTGATCGTATTCGTTCTGTTGACGGCACTGTTATTTTTCTGGTTACGGCGCAAAAAGCCTTACATTCTTCACCGGTTGTGGAAGAGCAAACTGGCGTATGCTATGCTGCTCCCCAGCTTTACGCTCATTATTATATTCCTGTATATCCCGGCGTTCTCCGGCTTGATTCATTCTTTGTACGACTGGAATCCCGGGGCAAGAAGCGAGTTTATCGGGCTGGACAATTTCAGGCGAATGGCGAATGATCCGTACGTCACCAAAGGCGTGGGCAATCTGCTCATCCTCATCGTCACCGGATTGTTCAAGGCTCTCATTCCGCCGCTGATCGTGGCGGAGCTGATCTATCATCTGAGAAGCAAAAGGTCCCAGTATGTATTCCGTACGTTTTTCGTCATTTCCATGGTCATTCCATCCGTTGGCATGCTGCTGGTCTGGCAGGACATGTACGATCCGAACATCGGCCTTGTGAACCAGCTGCTGCGCATGATCGGACTCGGCTCGCTAAGCCATCCTTGGCTGGGAGACCCGAATACGGCGCTGTGGGCCATCATTATGATGGGCTTCCCGTTCGTCGGCATCCTGCAGCTGCTGGTGATGTACTCGGGGCTGATCGCCATTCCGGAAGAAGTGATCGAAGCGGCGAGAATCGACGGCGCCAAATCTTTTCGCATTATCCGGGCGATTCACCTGCCGCTGCTGGCAGGGCAATTCAAGCTGCTGATCGTGCTCGCGCTGATCGGCATCATTCAGGACTTCGGCTCCATCCTGATCGTGACCGGCGGGGGGCCTGCCGACTCGACCTATGTGCCGGCGCTGCAGATGTATTTTGCCGCAACGAAATTCAATGACCTGGGATATGCGTCGGCGCTTGGCGTCAGCATGTTTGCCATCATTATGGTGATTACGGTCATCAATATGAAATTCATCAAAACCAATACGGATTAG	MNTKVMRTIYSCLLASLLLFLYAQPIHASEPIWTMEQGLTIKGLSISEDGELVAVGTQNASAILLQRDGTQRFEFMANNVVTGVALLNDGRMLVTSDDRHLYMLSADGKELWKRDFKKMIKNLSATPDGKLAIVTLHNESLVHVLDEQGQTLREISIGIAVKSAAVSPNGQWLAAGAANQYAYLFNPAGELQFQTPLEGDILHASVADNGTMVVGTSSNKAVLYSAEGSRLGELLTKDKVTSVHVTHDGEFIGVADYSGNYYVANQGGELLWSTKEAGAGQQIRFSKDGTRLFAGSDKGAVFQYEVGAVLEQGKQAAMVKTVVQVAAVIVFVLLTALLFFWLRRKKPYILHRLWKSKLAYAMLLPSFTLIIIFLYIPAFSGLIHSLYDWNPGARSEFIGLDNFRRMANDPYVTKGVGNLLILIVTGLFKALIPPLIVAELIYHLRSKRSQYVFRTFFVISMVIPSVGMLLVWQDMYDPNIGLVNQLLRMIGLGSLSHPWLGDPNTALWAIIMMGFPFVGILQLLVMYSGLIAIPEEVIEAARIDGAKSFRIIRAIHLPLLAGQFKLLIVLALIGIIQDFGSILIVTGGGPADSTYVPALQMYFAATKFNDLGYASALGVSMFAIIMVITVINMKFIKTNTD	PGPT0016335_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_00365	831	araQ_3	COG0395	L-arabinose transport system permease protein AraQ	ATGAATGCAAAAGCAAGACTCGTTCGGCAGTCGGCGCTCTATGTGCTGCTTATCGTTTTTGTTGCGTTGACCCTCGCCCCCATCGCCTTCACCTTGATTTCATCCTTCAAAAATAACGCGCAGATTCTGGGAGGCATCTGGACGATGCCGATCCCGGCGCAGACCGCGAATTATGCGGAAGCCTTCGCGGCGATCTGGCGGTATACCTTGAATACGGTGCTCTATGCGGCGGTGGGCGGCACGCTGGTCGTGGCCCTGTCCGCCGTTGCGGGCTATACCTTTGCCAAGAAGGACTTTCTCGGCAAGGAGGTGCTCTTCATGCTGATGCTGGCCATCATGATGATACCGGGCGTCATGACGCTGATCCCTTCTTACGTGCTGTATGCGAATCTGGGGCTGGTGAATACGCCTTGGGTCATCATTATCAGCGCGGCCGCGGGTGGCCAGATTTTCGGCACGTTTTTGTGCAGGAGCTTCATGGCGGGCATTTCCAACGAGCTGTTTGATGCCGCCAAAATCGACGGTGCGGGAGAGTTCGTGGTGTTCACGAGAATGGTGCTGCCTCTGTCCGTTCCCGTTCTCATGACCTTGATGATCATGCAGTCCGTCGGGATCTATAACGATTACATCTGGCCGCTTTTGACCATTAAATCGAACAGCATCCAGATGATTGGCGTCGGGCTTACGCAATTCACGAACCAGTTCGGCATCTCCAACATGGGCGTGGAATTCGCGGCGTACATCATATCGGCGATTCCGCTGGTGCTGCTGTTCAGCTTCGGGATGAAGTATTACATCCAGGGCGTTACGCAAGGGGCTTTAAAAATATAA	MNAKARLVRQSALYVLLIVFVALTLAPIAFTLISSFKNNAQILGGIWTMPIPAQTANYAEAFAAIWRYTLNTVLYAAVGGTLVVALSAVAGYTFAKKDFLGKEVLFMLMLAIMMIPGVMTLIPSYVLYANLGLVNTPWVIIISAAAGGQIFGTFLCRSFMAGISNELFDAAKIDGAGEFVVFTRMVLPLSVPVLMTLMIMQSVGIYNDYIWPLLTIKSNSIQMIGVGLTQFTNQFGISNMGVEFAAYIISAIPLVLLFSFGMKYYIQGVTQGALKI	PGPT0016540_7551	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00366	2145			hypothetical protein	ATGAATATACACAGACAAGCGGAGAAGATACCCAGCTGGATCTGGCATCGGGAACGTGAGGGCCGGCGGCATGTCGTACTGGAAAAATCCTTTGTTCTGCATGCCGCGGTTGAGCAGCTTGAGATGAGAATCGCCTGTACGGGAGAAGCCGAGATCAGGCTGAACGATGCCGTGATCGGCCATTTCCCGGAGCATGCCAGGCACACATCCGCATTTTATCCGGTAGAGGGGCTCCCCGGCGGTTTGGAGCCTGGAGCCTATACAATCCGAATCGAGCTCCGAAATACGGAGCCGATGCCGATGCATCCCATCAATATGCATCTGCATGACCGTTCGGTGGGATGCATCGCCTACTTGAGCGGAAGCGAAGGCTTATGGCTGGCAACGGATGATACCTGGGAGACCGGGGACGGCCCGGCGGAGGTGGTATGCGTTTGGGGCGAGGAGCCTTTTGGAGACCTGGATCATGCGCCTCCTTGGTTTATTGCCGGAGGATACGGCGATATCGCGGTCGAGCCTGTTCAAGGCATAAGAGTCATGTCCGCAGCCGGAGTGGAAGCGGTCAGCGGCATAGATGGTGTAATTCAGATGAAAGGAACGGCCGGTGGGCGAATCGTCCTAGGCGAAGTGGAGTCCCGAAATGAACGGCATATTTTTTATCATCTTCTGAAGCAGGGGGAATGGAAGGAACGTAGGACACAGCAGAAAGAACTGGATTTGAGCCGGATGCCGGAGCTGCTGCTGGAATTGCCCCATGAGCTCAATGTGCGGATGCAGGTGAGCAACCACGGCGATTCCGAGATCGGTTTGCTGTGGAATGGCGCTGAATCCTTGCAGGAGCTGCGGCATTATGACGGATGCATGACGGAGTGGTTGGCGATTCCGCCGGGAAGCCTGTCGGCAACGAATCCCCAGGGCATGCGGTACGTGCAAATTTACGTAAGCGATGACGATGGAGGGGAATTCCATATCGAGCTCCGGTTGGAGGCAGCCGGTGCTGAGCTTAATCAGGCGGGACAATTGCAGACGGATCACGACCTTCTGCAGCGAATCTATGACGTGTCGGTGCATACCAGCCGGGTCTGCCATCAAATCGGATTGTGGGACGGCATCAAGCGGGACCGCCTCAATTGGGCTTACGATATTTACCTGGCCGCCAAAACCGAATACTCGCTCTGGGATGATTATTCGGTATTGAAGCGGTCGCTCCGGGAGCTGGGGCGGACCCCTTACGGCTATTGGATGAACAATCTCCCTTCCTATACGCTGTGGTGGCTCAGCAGCATATGGGATTACTTCTTCGAGACGGGAGACCGCGATTTCGTATGGGAAATCCGGGAGGATCTGCAGCGGCATATCGCTTGGGTGAAGGCGAATGCGGAACCGTCCAGCGGGATTTTTATGCCGGATGCCAGAGAGGAACACTCCTTCATCGAATGGTCGCCCATGGGGACGTCTGAATCGTGGGCGTGCCTGAACGCGATTTACGGCATGACGAAGAGTCAAATGAAACAGCTGGCGGATTACATGCCGGAGCTCCGGCTCCATTGGGATGAACCGCAGGCAGAGCTTAAGGAGGAGCAGTTCATTGGACCATCGTACGCGCTGCTCACCTCGGTCATCGGCATTAAGAGCGGGTATGTGGAAGAAGATAGCGCACGCAGATTTCTCCTCGACTATCGGCTGAGGGACCCGCTCACGCCATTGTCCGCCTACTGGCTGGCGGAATGCTACTCGGAGTACGGCATGCACGAACGGGCGTGGGATGTTATCGCTACGGTCTGGGGAACGATGCTGGATGCGGGAGCAACCACCTTCTGGGAGGGGATCAGGCTGACGCCGAGCAGCGATATCCATCATGACTTGACCACGTATACCGCGTATGATTCCTACCGGATGAGCCTGTGCCACAGCTGGTCGAGCACGCCGGTGGTCTGGATTGCTAGGTATGTCCTTGGGATTCGCGCGCTTGAGCCCGGTTATGCCCGCATCGCTTTCGAGCCTCATGCCATCGGGGGGCTAACGGCTGCACGGGGCGTGATTCCAAGTCCCAAGGGTTTGATTAAGGTGGAATGGAAGCTGGAGGATGGGCGCATGATCAAATCAGCTCGCATTGGAGAAGCTGAGCTGGCAGGGAGCGCATGA	MNIHRQAEKIPSWIWHREREGRRHVVLEKSFVLHAAVEQLEMRIACTGEAEIRLNDAVIGHFPEHARHTSAFYPVEGLPGGLEPGAYTIRIELRNTEPMPMHPINMHLHDRSVGCIAYLSGSEGLWLATDDTWETGDGPAEVVCVWGEEPFGDLDHAPPWFIAGGYGDIAVEPVQGIRVMSAAGVEAVSGIDGVIQMKGTAGGRIVLGEVESRNERHIFYHLLKQGEWKERRTQQKELDLSRMPELLLELPHELNVRMQVSNHGDSEIGLLWNGAESLQELRHYDGCMTEWLAIPPGSLSATNPQGMRYVQIYVSDDDGGEFHIELRLEAAGAELNQAGQLQTDHDLLQRIYDVSVHTSRVCHQIGLWDGIKRDRLNWAYDIYLAAKTEYSLWDDYSVLKRSLRELGRTPYGYWMNNLPSYTLWWLSSIWDYFFETGDRDFVWEIREDLQRHIAWVKANAEPSSGIFMPDAREEHSFIEWSPMGTSESWACLNAIYGMTKSQMKQLADYMPELRLHWDEPQAELKEEQFIGPSYALLTSVIGIKSGYVEEDSARRFLLDYRLRDPLTPLSAYWLAECYSEYGMHERAWDVIATVWGTMLDAGATTFWEGIRLTPSSDIHHDLTTYTAYDSYRMSLCHSWSSTPVVWIARYVLGIRALEPGYARIAFEPHAIGGLTAARGVIPSPKGLIKVEWKLEDGRMIKSARIGEAELAGSA	PGPT0019195_1418	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-RHAMNOSIDASE,PGPT0019195-ramA-K05989	NA	NA
AK002_00367	2412			hypothetical protein	ATGAAAGAGCACTGGCAAGCGAACTGGATATGGGGGGATTTACCGCCCGATTCGGCCAACGTATATCTGGAAGCGAGAAGGAGCTTTGACTTGCAGGAAGCGCCGATGGCGGGCCGATTGTACGTGTCGGCCAACCAGGAGTACTTGCTCTATGTCAATGGGGCCGTGGTCGGGAGGGGCCCCTCACCTGCCGATCAGCAGTGGAAGTATTACGACGAGATCGATGTGACCCCGCTGTTGTCGGTGGGTAGGAATGTGCTGGCCATCGTCGCCTACAATTTCGGTTCGACCGATATCGTGACAGGCCAGATGCAAGGGCAGGGGGGCTTGATTGCCGAGCTTGATATCGAGCACGGAAACGGAGTGTTCTGCGTGGCCGCCACGGATGCGGAATGGAAGGTCCGGCGATCGCCAAGATGGATGGCCCAGGTGTCGCGCCAGCATCAATGGAACGGATTCCGCGAAATTTATCTCGCGGAGCAGGAGGACGGATGGGCGGAATCCGCTTATGACGATTCCTCCTGGAGCGGGGCGGTGGTTATCGCCAAAGCATTGGATCCGGATTCGCCATGGCCGCGACTGCTTCCGCGGGAGATTCCTCCGCTGCACAGGGAGTGGGTCAGTCCGGCAGCGATCGTGCGAACTGACGCCAATTTCGGCGTCAGCCTGGGGGAGTCCGGCATGCTTCGGAATCGTGGGGGCAGCTCGGAAGCGTTCGGTTCGCTGGAGCATACCTCTCCGCGTCATGAAGCGATTGGCTTGCAAGACGACTCAGCGGAAACAGAAAGAGATCCAGGCGGGTTAGCAGCAGGTACAACAGGCTGGACGCTTGATGCCAGCATGCCCGGCTCGCTGCCGGGTGTTGTATATGATTTTGCTAGCGAAATCGTGGGGTATCCCGAGCTGGAGCTGGACGCACCCGCGGGCGGCGTGATCCAGCTGTCGTACGGAGAATCGCTGGAGCTGCAATTGTACGATACCTTCATCCTGCGCAAAGGGCGAAATCGGCTGAAGCCCTTTGGCCGCCGGGCTTTCCGTTTCCTTCAGGTTACGGCACAGGCGACGCCGGCCGCGCTGACGATATCGCGCTTCGGCGTCGAATCCGTCCATTATCCGTTTGACGAATCCGGCTTTTTTCGCTGCAGCGATGATCGTCTGAACCGGATCTGGGAGGTCGGGGCGTATACGACGCTGGTGAACAGCCAGGACCATCTGGAGGATTGCCCGCTGCGCGAGAAGGCGCTCTGGGTAGCCGATGCCGTGGTCATGGGCAAAGTCATCTACCACGCGTTCGGCGATGATCGGCTGCTGCGCAAATGTTTCCTGCAAGGGGCGCGGATTCAGAATGACGACGGCTCCATACCCGGTACCGGCCCGGAACGAAACTCGTTCCTGCTGCCCGATTTCTGCGCGCATTGGTTGTTCGGCGTGCATGCCCACTGGCTGTATACGAAGGACCACGATTTCCTGGAAGAAATCTGGCCGGCCATCACACGGTTGATGGCGTGGTTCGCGCTGCAGGAGGATCGGGATGGCCTGTTTGCCGGCGCCGACCGGCCTGGCTGGTGGTGCTTTATCGATTGGGCCGATTACATCGACCGGCGCGACCGGGTGACGGCCGTCTCCTGCTTCTATCACAAGGCGCTCGGGTTGGCGGCGGAGCTGGCGCAAGCGATTGGGCGCGGCGAGCTGGCAGGGCAGTGGAAAGACCAGGCGGTCCGGCTTCGCGCTGCCATAAGGGAGCAGATGCGGCCCCCTGGCGAGATCGTATTTGCGGATTGCATCGGACCGGACGGATTATCGAAGCAGATCACGGCTCAGACCAACTTTGCGGCGATATGGTCCGGCCTGATGGACCCGGCGGAAGAGGACCGCTTCCTCGACGAATGGTACGACGGCGGAAAGCTGCCGCCGTTAAAAGGCGCTTTTTTCTATCATGTGGTTCTGGAGACGTTGATGAGCAAAGGACGCGTAGACAGCGCTTTGGAGATCATTAGAAGCTATTGGGGCGGCATGCTGGACCGGGGAGCGACCACCTGGTGGGAGACGTATGATCCATCAACGCCAGCCTGTACCGTGCCGAGCGCTTATCAAGGCAATACGCCAACTTATTTAGTTGATCATATTCCCGTGAGCTTTAGCCACGGCTGGGGCGCATCGCCGAGTTATATTTTGACGCAATCCGTGTTGGGCCTTGATTTAAGCAGACTCGGCGAGCAGGAGGTATATCTTGCCCCGCATGCCGGTGATCTCGATTGGGCGGAAGGCGCTGTACCGACGCGCTTTGGCATGATGGAAGCAAGCTGGAAGAGAGAGAAGGGAGGGAAACTGAAATACGAGCTCACGATTCCGGAGGGAATTACCGTGAAAGCGATCGACGGGGCGGAGCTTGTGCTTAGAATCAGAGATTAA	MKEHWQANWIWGDLPPDSANVYLEARRSFDLQEAPMAGRLYVSANQEYLLYVNGAVVGRGPSPADQQWKYYDEIDVTPLLSVGRNVLAIVAYNFGSTDIVTGQMQGQGGLIAELDIEHGNGVFCVAATDAEWKVRRSPRWMAQVSRQHQWNGFREIYLAEQEDGWAESAYDDSSWSGAVVIAKALDPDSPWPRLLPREIPPLHREWVSPAAIVRTDANFGVSLGESGMLRNRGGSSEAFGSLEHTSPRHEAIGLQDDSAETERDPGGLAAGTTGWTLDASMPGSLPGVVYDFASEIVGYPELELDAPAGGVIQLSYGESLELQLYDTFILRKGRNRLKPFGRRAFRFLQVTAQATPAALTISRFGVESVHYPFDESGFFRCSDDRLNRIWEVGAYTTLVNSQDHLEDCPLREKALWVADAVVMGKVIYHAFGDDRLLRKCFLQGARIQNDDGSIPGTGPERNSFLLPDFCAHWLFGVHAHWLYTKDHDFLEEIWPAITRLMAWFALQEDRDGLFAGADRPGWWCFIDWADYIDRRDRVTAVSCFYHKALGLAAELAQAIGRGELAGQWKDQAVRLRAAIREQMRPPGEIVFADCIGPDGLSKQITAQTNFAAIWSGLMDPAEEDRFLDEWYDGGKLPPLKGAFFYHVVLETLMSKGRVDSALEIIRSYWGGMLDRGATTWWETYDPSTPACTVPSAYQGNTPTYLVDHIPVSFSHGWGASPSYILTQSVLGLDLSRLGEQEVYLAPHAGDLDWAEGAVPTRFGMMEASWKREKGGKLKYELTIPEGITVKAIDGAELVLRIRD	PGPT0019195_1122	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-RHAMNOSIDASE,PGPT0019195-ramA-K05989	NA	NA
AK002_00368	3834			hypothetical protein	ATGAAGTTGAAGGGGTTTAAAAGGCTGCTGCTGTATTCAGTCCTGCTGGCGCTCACCCTGCAAGCGTATCCCGCCGGGATCGTGTTTGCGGGCACGTATGATCCGGATTTAAAGGCATCTCCCCATGTGCTGAACGTGACGGGTTACACGCCTTCGATTGTCATTGACGATTTTAACGAGCCCGATGCGGTAAACCAGCCGGGAAAATGGACCAGCGGAGCGGGGGCGGAGAAAGTCACCTACGCCGACCGTTATGCCAACGGTCCGAATTCTCCATATGAGGGGAGCCATGTGCTCGAGGTATGGTCGGATGAAGTCAAGGCTTATGAATGGAGAACGGTATCCAGGGATTTCGATCAGCCGCTCGACTTGTCGGGCGTGAACTATCTGACGTTTGCGGCCAATTGCTACGGGTGGCAGACGGAGGACTATCTGATCAAGGTTACCCTGTTCAGCGGCGAAGATTCCTATGAGAGCATTGCCCAAATCAATCCGAACAGCTGGAGCAAAGTGGCGGTGTCCGTTAAGGACTGGGCCTTGCGGGACCACGTCACCAAGATCGAATTCGCGTTCATGCTCAACTTCGATCACGGCGGACTGAAGCCGGGCGATCCGGGATACGAATTCTGGGGCGGCAATTACCAGATCGATTATCTCAGCGGATCGAACGCCATCGGCATGGATTTTAACGCGGACGGGGAAACGGAAGGGTTTACCGCCCAAGGCGCCGAGGTAGACGCAGCCGGCGGTGAGCTCCGATTGACACTGGCTGGTGCCGCTCCCGTATTGCAATCTCCGGTGATCATCCAGGATATCGATCATTACAATACATTGAGCGTCAAATGGAGGAACGAGTCGCCATTCAACAAAGTGAAGGTCGAATGGATTACGGAGGAAAGCCCCGATTGGGACGACACGAAGTCGGAGGTGTTCGACATCGAAGCGAATAACAGCCAGTCCGTTGAACAGGAATTTAATCTGTCGCTGCATCCGGAGTGGAGCGGCAGTCTAAAGCAGTTCCGGTTGACGTTCTTGAGCGACGGAGGGGCAAGCACGGGAGAAGTCGGCATCGATCAGATCCGGTTCAAACAGCTGGCACCGATCGAGGTTTTCCCCGGGGAGCTTACGAGGCATGAGATCGCGGCCTCCCGGGATCGGATCGTGATCGAGGGCGCATTAAAGCCCGGGGAAGCGGAGCTTTATGAAGGCGGAGAGCTCCAATTATTTGAGCTGCAGCCCTATGAATCCGAAAGGGATCTGGCGAATCGAGAGCCGATTGCCGAACAGGGGATTCAAGGACAATTTATGTTTGAGCTGGACCTGGCAGGAGAAGAGGGACGTACCCGCCTGCAATCCAAATTTGCGGTCGCGGCCAGGCTTCCGGACGGATCGCTGGAGCTCGTGGACCGCGCCAAATACGTGAGCAATCCCGAGATACTTGCGCCGAATACGTATCCGTTCCCAGTGGCGAAGAGCAAGAAGGGGCTGCAGGTGCAGATGGTCGGCGATGCGGAGGACCTCGGCATCAGCCATGCCGCGCTGAACGTGGATTACAATAACGCGCTCTACATGAACGGGACCGTCAATCCGGCCAATACGTTCGAATATTCCTACGAAGGGGAGACCTTCTACTTCAAGAAGGATTGGATCGAGGAGCGGGATAATTCCATCAAGAGTTTGTCCGATAACGGAGTGACGGTATCCCTGATCCTCCTCATGTATAAGGGGGGAATGGACGATACCACGCCTAACCGGTATTTGCTCCATCCGGATGCCACGGAAGGCATCGTCTATGCATTTAACACGACGGATGAGCTAGGAACGAAGTATTATAAAGCCATCACCGCTTTCCTGGCGGAGCGCTACTCCCGCGAGGACGAGAAATACGGCAGAGCGGTCAATTACATCGTTGGCAATGAGGTGGACGCCGGGGAGACCTGGTACAATATGGGCAACGATAAAACGGTCAGGGAATTCGTTCAGGACTATGCCCGGACCGTGAGAATAACGAATACCGTCGTAAAAAGCTTTTACAGCAACGCCAGAGTGTATATTTCGCTGACGCATAACTGGGATCAGCAGCTGCCGTCCACGCAGATCGGCTCGTTCGACGGCCGATCGATCATCGATACGCTTCAGGCGGAGATCGACGCAGAGGGAGATATTCCATGGCATATCGCTTATCATCCTTATCCGGAAAATCTGTTCGATCCGAGAGCTTGGGTTGCGCCGCAGTCCCTCGAGCAGTTTGATACGCCGAAAATCACGTTTAAAAACCTGCACGTCCTCGTTGATTACATGAAGCAGCCGAAGTTCATGTACGGCGATGAGGCGCGCCGGATTATCCTGTCGGAGCAGGGCTTCCACAGCGGCGACAATTCGCCGGAAGGCCAGCAGCTGCAGGCGGCAGCCTATGCGTATGCCTATTACATTACGGACTTCCTGGACGGCATCGACTCCTTCATTCTGCACCGGCATGTGGACCATGCCGAAGAGTACGGCTTGAATCTCGGATTGTGGACGCATGATCCGGATACGAGCAGGGGCGCCAGCATCCCTGCGGAGCACAAGCTGGTGTATGATGTCTTTAAGTATATCGATACGGAACGTTCGCTGGAGGTGACGGAGTTCGCGAAGCCGATCATTGGCATCGCCGACTGGCAGGATATCGCGCCATCCTTCGATGCCGGCATGCTTGCTCGGCGGGAGATACCGGATACGGCGCCAGCGGCTGTCCTTCCTCCGGAGCAGCTGGAGGGTGCGGAAATGCTGTTTGATTTTGAGAACGGCGATGAGGGCTGGACCCATGCGGAGTATGTATCCGGCGTCGAAACCGATGCTTCTGTCACCTGGACCGGCAGTCAAACGCTCAAGGCCACGGTGATGACCAGAGAGCAGCTGGGCGACAGCAAAGGCATCGCCAAGCGGTTCGACGAGCCGCTGAATGCCGAGGGCAAACCCTACCTGTTCTTTGGCATCAATCCTTCGAACGGACCTGCGTCCGAATCCTATACCGTTCGGGTAAAGGTGTACAGCGATCAGCATGTGCTGGAAGCAGAGGGGAATGTTCCGCCGAAGCAGTGGAGCAACCTGGCGGTTGACTTAGGGGATTGGGCCTATAAGGACCGGATCACCAAAATTAAAATCGGGCTTGTGCCGGCAAGCCGGGTGCATTGGCAAGGAGGATATTTCCATGTCGACGGCATCGGTTTGGCCGACGGCATGGAGGCGGCAGAGCTTACCGCCGCTTTGACGCCGGAGCAGCCGGATGGCAACGACGGCTGGTACCGAAGCCCGGTAACCGTCAAGCTCGGGGCAGCGAATGGCTTGCCGGACGGCTACGGCATTCAGTTTCGCGTGAATGACGGAGAATGGCAGACGTACGGTTCCGAAATGATCATGGATACGGATGGGATTCATGAGCTGGACTATCGGACGATGAGTCCAGCCGGGGAACCGGGTTCCATCAAGTCGTTGACCTTGAAGATCGACCAGACCGCGCCCGTGGCGACCGTAACGGCGGACCCGGTCAAGTTGTGGCCGCCTAACCAGAGGCTGGTCCAGGTCACGGCTTCCGTCGAAGCCAGCGATTCGGGCTCGGATATCGGTTCCGTCGTGCTGACCTCCATTACAAGTAATGAGGAGCTGCAAGCGGAGGATATTCAGGGTGCGGAGCTGGGCACGACGGATACCTCGTTCAGCTTGCGCGCGGCAAGATCGGGTGCAGGCTCCGGCAGGATCTACACGATCACGTATACGGTCACGGATCAAGCCGGCAATGAAACCGCGGCGGTGACCCAGGTGAACGTGCCGCATGATCAATCGAATCCATGA	MKLKGFKRLLLYSVLLALTLQAYPAGIVFAGTYDPDLKASPHVLNVTGYTPSIVIDDFNEPDAVNQPGKWTSGAGAEKVTYADRYANGPNSPYEGSHVLEVWSDEVKAYEWRTVSRDFDQPLDLSGVNYLTFAANCYGWQTEDYLIKVTLFSGEDSYESIAQINPNSWSKVAVSVKDWALRDHVTKIEFAFMLNFDHGGLKPGDPGYEFWGGNYQIDYLSGSNAIGMDFNADGETEGFTAQGAEVDAAGGELRLTLAGAAPVLQSPVIIQDIDHYNTLSVKWRNESPFNKVKVEWITEESPDWDDTKSEVFDIEANNSQSVEQEFNLSLHPEWSGSLKQFRLTFLSDGGASTGEVGIDQIRFKQLAPIEVFPGELTRHEIAASRDRIVIEGALKPGEAELYEGGELQLFELQPYESERDLANREPIAEQGIQGQFMFELDLAGEEGRTRLQSKFAVAARLPDGSLELVDRAKYVSNPEILAPNTYPFPVAKSKKGLQVQMVGDAEDLGISHAALNVDYNNALYMNGTVNPANTFEYSYEGETFYFKKDWIEERDNSIKSLSDNGVTVSLILLMYKGGMDDTTPNRYLLHPDATEGIVYAFNTTDELGTKYYKAITAFLAERYSREDEKYGRAVNYIVGNEVDAGETWYNMGNDKTVREFVQDYARTVRITNTVVKSFYSNARVYISLTHNWDQQLPSTQIGSFDGRSIIDTLQAEIDAEGDIPWHIAYHPYPENLFDPRAWVAPQSLEQFDTPKITFKNLHVLVDYMKQPKFMYGDEARRIILSEQGFHSGDNSPEGQQLQAAAYAYAYYITDFLDGIDSFILHRHVDHAEEYGLNLGLWTHDPDTSRGASIPAEHKLVYDVFKYIDTERSLEVTEFAKPIIGIADWQDIAPSFDAGMLARREIPDTAPAAVLPPEQLEGAEMLFDFENGDEGWTHAEYVSGVETDASVTWTGSQTLKATVMTREQLGDSKGIAKRFDEPLNAEGKPYLFFGINPSNGPASESYTVRVKVYSDQHVLEAEGNVPPKQWSNLAVDLGDWAYKDRITKIKIGLVPASRVHWQGGYFHVDGIGLADGMEAAELTAALTPEQPDGNDGWYRSPVTVKLGAANGLPDGYGIQFRVNDGEWQTYGSEMIMDTDGIHELDYRTMSPAGEPGSIKSLTLKIDQTAPVATVTADPVKLWPPNQRLVQVTASVEASDSGSDIGSVVLTSITSNEELQAEDIQGAELGTTDTSFSLRAARSGAGSGRIYTITYTVTDQAGNETAAVTQVNVPHDQSNP				NA	NA	NA	NA	NA
AK002_00369	2682			Alpha-L-rhamnosidase	GTGCTTACGATACAAAAAACGCTTGTGCATGGTCTGGAGAATCCATTGGGGCTGGATGTGTCTTCTCCCCGTTTTTCCTGGCTGCTAGAGAGCGATCGGCGCGGAGAGGCGTGCGCGGCTTACAGGGTGAGGGTGTGGGTGTCCCTTTCCGCGGAGGGGCTCTCTAACAGGGACGAAGTTTTGGTGTGGGACAGCGGCAGGCGGAGTGGCCAAAGCTTAAGCCTCCTGTATGATGGTCCGCTGCAGAGCAATACGCGTTACTGGTGGCGGGTTACGGTCTGGGACCGTCAAGGAAAGGAAAGCGAAAGCGTACCGGCATATTGGGATACGGGCTTGTTTCCCGGCGATTGGAGTGCTGAATGGATATGGCGGTCCGAGGAGATGAAGCTTAATGATTTTGCCTATTTCCGCAAATCCTTTGATCTCCGGGGAGCCGCTACCCGGGCCAAAATATTCGTATCCGCCCATCATGTATTCCAATTGTTCGTTAACGGACAACGGGTTGGAGGCTATGGTTCACCCGCACCGACGGGGGTGCCTCACCGCAAATATTATTTGGCTTATGATGTGGCCTCCCTCTTGTCGACCGGTTCCAACTGCATCGGCGTTGCCGCTCATTATTTGGGCGGAAGCGGCCAGAACTATGTGAACGGCGTCCCGGGAATGCTGCTCCAGCTGCACGTGGAGCATGAGGACGGGACGGAGCAGCTGGTTGTATCGGATCTGACATGGCAGGCCTTAAGGCAGATTCCGCATCGCATAGGGTCTCCTTATCAGCAGAACCGCCGCTTATCGGCCATAGAGGACTATGACGCGGCTCTTCTGGAACCGAACTGGCTGCAGCCCGATGTTGGAGAGGAACACTGTAGTTCGGTTGTTCTTGCTCATCCATCCGCACAGCAATGGTCACTCCATTGGCAGCAGCTCCCCGAGGCGGAAGAGCTGGAGTCGATCATTCCATCCGTGGCAGCGGCGCCGTCGTTCGTAAACGGGGAAGAGGGGCTCATTCAGGTATTCGACGCTGGCAAAATCATATCGGGCTGGCCGCAGTTGGCCTTGCCCGGTATGGCAGGCGTCACGGTACGGCTGCGGTACGCCGAAACGCTCGATGGCGACGGGCGGGTCGTTCATCAAGTGTGCAACGAGACCTCGCATCATTATTACGACCTGTATACGATGCATGGACGCGGAGGGATCGAATATTGGCAGCCGGATTTCAGCTTTAAAGCCTTTCGTTATGTGGAGGTTACCGGCTATCCGCAACCGATTGAGGAAGGCCAGCTGCGAATTTGCTCAGCGGGTACGGCCATGGCACGGACGGGGCGTTTTCGGTGTTCGTCTGACTTCTTAAACAAGCTGTACGACGTTTGCCTGCAGACGCAGCGCAACAATGTGCTGGGCCAGGTGGTCGATTGCCCGCATCGGGAACAGGCGCAGTATCTCGCGGATACCGATCTCCAAGCCGAGACGCTGCTCTATAACTTCGATGCCTATCCGGTATTGGATAAGACGCTGCAGGACTTTGCGGACGGCCAATTGGAAGACGGCTCCTTCCCTTTTGTGTTCCCGTCGAACTACGAGCATCCAGACTTTTTCATACAAATCCCGGAATGGGACCTGCATTATGCGACCTTGCTGTGGAAGCTTTACCAGTTTAGCGGAGATACGGAGCTGCTCTCGCGATATTATGAACCGCTCCGGGCCATGATCGAGGGTTATCTATCGTTGATATCGCCGGCAACAGGCCTGATTCCGGTCGGCCGCGGATGGCATATTAGCGATTGGCCCTACCCGACGGTTGAGCATGAAGGCGAACATCTGACCGTGCAGCAGATCAAGGCATGGCAGGCGTTGCGCATTCTGTCCGAAGCCGCTGCCTTGCTGAACCGGGCAGATGACAGTGCAGCGTATGCTGCCTATGCGCAGAAGCTGCAAGTCAGCGTCCTGAATGAGCTGTACGATGGCTCCGGCAAGCTGCTGCATGACAGCTCGGGATCGACTGCCATCCACCAAGGCGTTAATGCGTTGGCATTATATGCGGGGCTCCTGCCGCAAAAAGACCGGGAGGCTGCATTGAAGGCCGTGGCAGGCAAACCGTGGGAGAGCAAGACGGTCTTGTCGCTCCCGCTGCTCCGTCTTTTGTTCGAGGAGGGATTGCAGGATCAGGCCTACCATTTGCTGAGTAAACCGGATTACCCGGGGTGGGGCTGCATGATTGCACAAGGAGCCGAGACCATGTGGGAAGGCTGGGATGATATCGAGTCCCATTGCCATGCATGGAACGGTTATCCCGCCCGCTTGCTGCAGGAGTATGTCTGCGGGATTCAGAGCGGAGCTCCCGGATTCGCGACGGCACGAATTCGCCCCTTTTTCGCGCCGGATCTGGACTTTGCCGAGGCTTCCGTTTCCACCGTAAGAGGCAAGATCGCCGTACGCTGGGAGCGGGTCAGCGAAGCCGGCATTCGGATACGGCTTGAGCTTCCCTGCACAATGAGAGCTACCGTTGCATTGGCATCAACGAACTCCCGCCCCATTACCGGTCTCCTGATCGATGGTGTAGAGATATGGGGAGGATCAGCTTCACGCTGCATGCCGGACGGCATCGTCCGCTGCGGACTGGACCATAGCATGCTTGAACTTGAGCTGCTGTCCGGACGTTATGAGTTAACGGTTCGCTATTAG	MLTIQKTLVHGLENPLGLDVSSPRFSWLLESDRRGEACAAYRVRVWVSLSAEGLSNRDEVLVWDSGRRSGQSLSLLYDGPLQSNTRYWWRVTVWDRQGKESESVPAYWDTGLFPGDWSAEWIWRSEEMKLNDFAYFRKSFDLRGAATRAKIFVSAHHVFQLFVNGQRVGGYGSPAPTGVPHRKYYLAYDVASLLSTGSNCIGVAAHYLGGSGQNYVNGVPGMLLQLHVEHEDGTEQLVVSDLTWQALRQIPHRIGSPYQQNRRLSAIEDYDAALLEPNWLQPDVGEEHCSSVVLAHPSAQQWSLHWQQLPEAEELESIIPSVAAAPSFVNGEEGLIQVFDAGKIISGWPQLALPGMAGVTVRLRYAETLDGDGRVVHQVCNETSHHYYDLYTMHGRGGIEYWQPDFSFKAFRYVEVTGYPQPIEEGQLRICSAGTAMARTGRFRCSSDFLNKLYDVCLQTQRNNVLGQVVDCPHREQAQYLADTDLQAETLLYNFDAYPVLDKTLQDFADGQLEDGSFPFVFPSNYEHPDFFIQIPEWDLHYATLLWKLYQFSGDTELLSRYYEPLRAMIEGYLSLISPATGLIPVGRGWHISDWPYPTVEHEGEHLTVQQIKAWQALRILSEAAALLNRADDSAAYAAYAQKLQVSVLNELYDGSGKLLHDSSGSTAIHQGVNALALYAGLLPQKDREAALKAVAGKPWESKTVLSLPLLRLLFEEGLQDQAYHLLSKPDYPGWGCMIAQGAETMWEGWDDIESHCHAWNGYPARLLQEYVCGIQSGAPGFATARIRPFFAPDLDFAEASVSTVRGKIAVRWERVSEAGIRIRLELPCTMRATVALASTNSRPITGLLIDGVEIWGGSASRCMPDGIVRCGLDHSMLELELLSGRYELTVRY	PGPT0019195_749	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-RHAMNOSIDASE,PGPT0019195-ramA-K05989	NA	NA
AK002_00370	7584	glgX		Glycogen debranching enzyme	ATGAGAATGACGGTTTCAAGCAAACGAATGTGGTCCATCATCATGATTGTTTCGCTGATTTTCTCCATGCTCGGCATTCCGCCATCCACGGCCGATGCCAATAGCGCGCCAAGCCAGGTTACGCTGGTGGGGACTCTGCAATCCGAATTAGGCCATAGCGGGGATTGGGATCCGACTGCCGCCGCGACAACCATGAACGATATGGGGAACGGAGAATACAGGTTCACCGGCAGCTTGCCCGCGGGATCGTACGAATACAAGATCGCGATCGACGGCAAGTGGGACGAGAATTACGGCTCCGCCCATTATTCCAATCCGAGCGGAGCAAACAAGGATGGCAACATCCTCATAACGCTCGCTCAAGATTCCCAGGTTACCTTTTATTACAACCATGGGACTCACCGGATCGCGGATTCTACATACTACGCTCCGATCGAGGCGGATAAGCTTCCCCGAGTGATCGGCAGCTTCCAATCGGGCATCGGCGAAGCGGCCGACTGGTCGCCTGCGGATGCGAGATTAATCATGCAGGATTCCGATTATGACCATGTATACACGGTGACGGCCGACGTGTACGAAGGGGATCATGAGTACCAAATCGCTTTGGGCAGCGATGCGGCAAGTCCGGTTCACCCCGCTAATCGGGAGGCGCTTCAGCTGCCGCAGGACGTGAAGGTTACGTTCAGCTACGACGCGGCCAATCACGGCGTTGCCGCTCATTTCACGGTACCCGCCGATCCGGGAACGCCGGTGCCGGCTAACCATCTGCGCGTCCATTACAGCCGGGCTGACGCGAATTACGGCAGCATCGGACTGTGGATATTCGATGACGTCGCATCTCCGTCCGCCAATTGGCCGGCAGGCGCAACGCCATTCCCTGGCGGGCAGCAGGACGCCTACGGGGCCTTCGTCGACATTCCGCTCAAGGACGGCGCGCAAAAAGTCGGCATCGTCGTTGTCGATCGCATCAGCGGCAATAAAGACGGCGGCGACAAGAAATTCACCCTAGCCTCGCCGGACATGAACGAAGTATGGCTCAAGGAAGGCTCCGATACGGTATACAGCTTTGAGCCTGTTGACCTGCCGGCGGATACCGTGCGTATCCACTATCAACGGCAGGATCAGAACTATGATCCGTACGGTTTATGGTTATGGGGAGACGATGTCGCTGCGCCTTCGAAAGACTGGCCGACGGGGGCTACCATGTTCCCTTCAGGCCAAACCGACCGATATGGCGCTTATGTGGACATTCCAATGAAGCCGGGAGCCCAGAAGATTAACTTCCTCGTGCTGGATCCGGCCAAAGGAGACGCCGGCAAAGATGGAGGCGACAAAGGCTTCTCTCTGGTGGATCGATACCAGCATCTGTTCATTCAAGAAGGCGACAACACCGTCTACACATCCCCATATGGGGAAGTGCCTACCGGGTTGGTCTCGGCTGAAGTATTGGCTCCGGGAAAGCTCCAGCTCGGATTTACCATGACCGATGGTTTGGAAGCGGATACGCTGAAGAATGAGCTGCTGATTAAGAATAAGGACGGCCATCCGGCTGCCATTCAAAACGTGAAGATTACCGGAAACACGACCATCGAAGTATCGGCATCATTTCAGCTGGATCAATTACCGCTAAGCGTAACCTACGCCGGAAAAACCGTATCCGCCTCCACCGGCTGGAGAATGCTGGATGAGATGTACGCTTACGACGGCGATGACCTCGGGGCGACTTATCAGGCTGGAGGAGCCGAGCTAAAGCTGTGGGCACCGACGGCGACCGAAGTCACCGCAAAGGTGTACAGCAAGAATGATGCCACGCAGTTTATCGGCAATGCCGCTCTCCAAAAGGGTGATAAAGGGGTATGGTCGGTTCGGTTGAAGCCGGGAGACCTCGGCATCCAAGATTTTAGAGGATATTTTTATCAATACGAAGTGACCAACAACGGCGTGACGAAAACCGTCCTGGATCCTTATGCCAAATCCATGGCGCAATTCAGAGTGAACACCAAGGGCGAAGTTGGACCGGACGGCGATACCGTCGGCAAAGCCGCGATCGTCGATTTGAGTCAAACGGATCCCGCCGGCTTGGATTTTGCGGACATTCCGGGCTACGAGCAGCGGGAAGACGCCATCATCTGGGAAATTCACGTCCGTGATTTCACGTCGGATCCGACGATTGAGAATGACCTGCATAACGCGACTTGGGGATCCTACGACGCGTTCAAAGAGAAGCTCGAATACATCAAGTCCCTGGGCGTCACCCATGTTCAGCTGCTGCCCGTGATGGCTTGGTATTACGGCGACGAAGCGGCCATGAAGAACAGGGAGCTGGATTATTCGGCCAAAGACAACGAGTACAACTGGGGATATGACCCGCACAGCTATTTCTCCCCTGACGGTGCTTACTCCGAGGATCCAACGGATCCCGAGCTTCGCATCAAAGAATTGAAGGCGATGATCAACGCCATTCACGAGGCGGACATGGGCGTCGTATTGGACGTGGTCTACACCCATATGGCCAAGGCAGATTTCTTGAATGATATCGTGCCGAACTATTATGCATTCCAGGATGCCAACGGTAATTTCATCGGCGGCTTCGGCAACAATCTGGCGACCAACCACAAGATGGCCGAGAAGCTGATGGTGGACTCCGTGAAATACTGGTTCGACGAATACAAAATCGACGGCATGCGCTGGGACATGATGGGCGACGCCACCTATGAAGCCGTGCAGAACGCTTATGATGCCGCTGCAGCCATCAACCCGAAAGCGCTGTTTATCGGCGAGGGCTGGGTCACGTTCGGCGGCCATCTGTCGGATCCCTCCCTGGCAGGCAAGGGTGCGGACCAGAATTGGATGGATAAAACGGACGACGTCGGCGTTTTCTCCGATGAGTTCCGCAACGAGCTGAAGTCCGGCTTCGGCAATGAAGGCGAGCCTCGATTCATTACAGGCGGCGCGCGCGACATCCAAACCATTTTCAACAATATCAAGGCGCAGCCGAGCAACACGAAGGAAGACGATCCGGGTGACATGGTTCAATACATTGAAGCACATGACAATCTGCCGCTGTACGACATTATTGCGCAGTCCATCAAAAAGGACCCGTCGATTGCAGCGAATGATCTGGAGATCCATAAGCGCATTCGCCTGGGCAACCTGCTCACCTTGACCTCGCAAGGAACGGCGTTCCTCCATGCAGGACAGGAGTACGGGCGGACCAAGCAATGGCTGGGCCCAGGGGTTCCCGAGCAGAAATACCATGAATTAGAGGACGAGGCAGGAAACCGCTTCGGTTATTTCATCCATGATTCCTACGACTCCTCCGACGCCATCAACATGTTCGATTGGGAGAAAGCGACGGATGAAGCCAAATATCCGGAGAATAACAAGACGCGGGAATATACGACCGGACTGATCGAGTTAAGAAAATCGTCCGACGCTTTCCGCCTCGGCGATCAGTCGATGGTGAATTCGAACGTAACGCTGCTGCAGATTCCCGAAGTAAAGGCGCAGGATCTGGTCATTGCTTATAAGAATAAAGCGACGGACGGAACCGGCCATTATTATGTGTTCGTTAATGCGGATAATCAGTCGAGAACGCTTACGCTAAGCGAAGATCTGAGCTCCGGCACGGTGGTGGTCGACAACGATGAAGCCGGCACGACAGGCGTCAAAGCGAAGTCCGGCTTCACGTTAACCTCCGGCTCGATCACGCTTGAGCCTCTGACGGCCGTTGTGATCAAGACGGACGCCGCGGCAGCCGTACTCCGCGCGATATCGGCAGATCAAGATAGTTACTCTCTGCAGACCGGTAAGACGCATCAAACCGCGGTATACGCTGAATACGAGGACGGCAGCAAGCGAGCCGTAACGAAACAAGCAACCTATGCATCCAGCAACCCGCAGGTGGCTTCGGTAACGGCCGCAGGCGTGGTGAAGGGAGTCGCGGAAGGAACGGCGGTCATAACCGTTTCCTATCGGGGGTTCCAGAAAGAGATTACCGTAACCGTTACAGCCGATGTAGTGGACAATAAACGGTATGTGCAGCTTAACTACATTCGGCCGGATCAGGATTATGCGGATTGGAATTTGTGGGTTTGGAATACGGGGGTAACGAACGGTGAGATTAAGTTTGAAAAGATAGAGAATGGCGCGGCTACCGTACAGATTGAGGTGGCACCCGAAACAACAGGCGTCGGTTTCGTTCTGCGCAAAGGAACGAATTGGGATACGGCCAAGCAGGATATCCCGGATGACCGGATCATTCCGCTTCAGCCAGGAGAGGCCTTCACGAAAGTGAATGTGACCAGCATGGTGCATGAGCTGGAGATTTTGCCGAGCATTACGGGGCCGACGCTTGAAGACGGTAACATTACGTTCCATTATCGGGACGATCAATTGTTCAGGGACGGCCGGATGGATAGCATCTCTGACGTGAAAGTGAAGATTAACGGGAAGCCGGAAACGATGGTCTACGTTCCTGACAAGGAATGGTTCAGTTATACGCTTAAGGGCGTTGCTCCCGGAACGTACGAATACACGTTCATCGTCAATCATAACGGAACCACGAAGGAAGTCACCGATCCGAAAAACACGGTGAACGGAAAGTCGCAGGTGGTTTACCGCGATCCGACCGTGACCATCAGGGCGAAGGTAACCCCTGGTTCCATCTCTTATGATGAAAATGCGGTGCTAAAATTGAATGTAACCTCTTCGGAGCCCGTTGCTTACAAGGAAGCGTTCGTCGACCTGACGGAGCTGGGAGGACCGGCCCGAGCGAAGGTTGATACAGAGCTGCTGGAGCACAGCATTGCCGTAAAGGATACGGTCACGGCCGGCAGCAAGAAAGTAGGAATCACGCTAGTCGACCAATACGGCAATAGGCATACCGGCGAAGCCGCGGTAACGGTGAAGCCAAGAATCGCAGGCGGCAAACTCGATTTCGATTGGGACGAGGCGCGCATTTATTTTGTGCTGACCGACCGTTTCATGGATGGGGATGCTTCCAACAATGCGAATGTTGACAAGGATCACCCGGAAGCCTACCATGGCGGGGATTTCAGAGGACTGATCGATAAACTCGATTACATCGAGGATCTGGGCGTAAATACGCTGTGGATCACGCCGATTGTGGATAACATCGATTTCAATCAGGGTGCAGGCTTCGGCGGCAAGCAATATGCGTATCACGGCTATTGGGCCAAAGATTTTACGAAGATCGATGAGCATCTGGGCGATCTGGATACCTTTAAGGAGCTGATCGATAAGGCGCATGACCGGGGCATCAAAATTATGGTGGACGTCGTAGTCAACCATACGGGATATGGCCTGAAGCCGGGAGACAGTGCGCCCGGTATCACGCAGGAAGATAAGGACCGGTTTAAAGATATGCTTCGTACAGACGGTCTGTCTGCCGATACCGATCCGATCAAAGGCGAATTAGCGGGGCTGCCTGATTTCATAACGGAGAATCCGGTTGTTCGCCAGCAGATCATCGATTGGCAGGCAAGCTGGCTGGAGCGTGCCAAAACCGACCGCGGAGACACGATCGACTACTTCCGCTTGGATACGGTGAAGCACGTGGATGAAACGACATGGAAGGCGTTCAAAAATGCGCTGACCCATCTCGATCCGAGCTTCAAAATGATTGGCGAATATTTCGGAGCCACGGTTGACAGCGATGGCGGAACGCTTCAGAGCGGCCAGATGGACAGCTTGCTGGACTTCGGCTTCAAAGGAAAGGCCAAGGAATTCGTGAACGGCAGCGTGGAATCGGTTGAGGCCTACCTGGCTGACCGCGAATCGAAGCTGGATAACACCCGAATGATGGGGCAATTCCTAAGCAGTCATGACGAGGATGGCTTCCTGTCCCACTACGTGGATGGCGACAAGGCAAAGCTGATGGCGGCCGCAGCGCTGCAAATTACATCCAAAGGCCAGCCGGTCATCTATTATGGCGAAGAGCTTGGGCGCTCCGGCAAGAATGCCGGGGATATGGGCAAAGGCGAATTTAGCGAGAACCGCGGCGATATGCCATGGGACCAGCTGGAGGGCGAGAAGAAGCTGCTCACGCATTACCAGAAGCTCTTGAACATTCGAGCGGCAAACTCGAAAGTGTTTTCAAAAGGAACGCGCACATCCATCGCGGCTTCGAATGCGGATGGTTATCTCGCATTCGACAAGCAGTATAACGGAGAGCATATCGTTACCGCGATTCACGTGAAGAACGAACCGAAAGAAGTCGTCCTGCCTGTGCCGTTTAAGGCGGGCAGCAAGGCGAAGGACTTGTACGGCGGCAGCGTGTATAACGTAACGGCCGATCAGAAAGTGACGCTAACGCTCCCTGCCATGTCGGATGGCGGTACCGTCATTCTGGCTGCAGTGCCAACTGAAGGCGGCGGCAACGGCAGCAACTCCGGCAGTGGAAACGGAAGCGGAGGAGCAGGCGGCAATCCGTCTACCGATCCGGGAACGAAGCCAAATCAGGGTCAGCGGATCGTTAACGAAGAATCGCTGCGCGGCGGGCAAGAGAAAGTGACGATTCAGCTCGGTGCCGAGGATATCGAAGTTCTCCTGCCGCTGACGGCAGGGGATATTCTGGGGGCGAAGCCGCTGGAGCTGAAGCAGGACGGCGTGATGGTACAGCTTCCGTCCGCGCTGCTCAAAGCGCTGCGCCAGCTCGTACCGGCCGAGCAGGCTAAGGATGCGGTCATTTCGTTTAAGCTGAAGGAGGTTGGATCGCAGACAGCCGCCTCTCTCGTAGCCAAAGCAGCTGCTGCCGGGAAGGCTAAACTGAAGCAGGGCAGCAAGATGTACGAATTAGATCTTAACGTCCGTACGAAAGACGGCAAGGCATATAAGCTGGAGCATTTCATAGCGCCTGTAACGATTGCTTTTCCTGTCGACAGCGCCATTCACGGCGAGCTGGCCGGCATCTATCGCATTTCGGAACGGGGACCATTGAAATATGCCGGCGGAAAGCCGGTAAACGGGCAGCTGACGGCTGAAGTCAGTCAATTGAGCTACTATGCCGTGCTGGAATACGACAAATCGTTTGCCGACCTTGCCGGCCATTGGGCGGAGCAAGCGGTAAAAGAGCTGGCAGCCAAGCATATTGTGAATGGCACCGGCGATACGAAATTCAGTCCGCAACAGCCGCTGACACGCGCGCAGTTCGCAGCGATGCTCGTTCGTGCCCTGGGCCTTGAAAGCACGCAAGACACGGCCTTCACGGATGTGGACGGCGAAACATGGTATGCTTCGGCGGTTGCGGCGGCTTACCAGCACGGGCTGGTGAACGGCAGAGGCAAGGACACGTTCGCACCGAACGCGGCCATCACCCGCGAGGAGCTGGCTGTGATGCTTTATCGTGCTTACCAGACCAAGGGAGACGCTTCCTCTTTAGAGGAGGCACCGGACCTGAAAGATCAGCAGCAAATTTCTTCATGGGCACTCCAAGAGGTGAATGAAGCCTTGGCCCTTGGCTTGATGAAGGGGCATGCCAATGGCATGTTTACGCCTCAAGCCAAGACCACCCGTGCGGAAAGCGCGCAAGCCATGCTGAATCTGTTGGATCGACTGCAGTAA	MRMTVSSKRMWSIIMIVSLIFSMLGIPPSTADANSAPSQVTLVGTLQSELGHSGDWDPTAAATTMNDMGNGEYRFTGSLPAGSYEYKIAIDGKWDENYGSAHYSNPSGANKDGNILITLAQDSQVTFYYNHGTHRIADSTYYAPIEADKLPRVIGSFQSGIGEAADWSPADARLIMQDSDYDHVYTVTADVYEGDHEYQIALGSDAASPVHPANREALQLPQDVKVTFSYDAANHGVAAHFTVPADPGTPVPANHLRVHYSRADANYGSIGLWIFDDVASPSANWPAGATPFPGGQQDAYGAFVDIPLKDGAQKVGIVVVDRISGNKDGGDKKFTLASPDMNEVWLKEGSDTVYSFEPVDLPADTVRIHYQRQDQNYDPYGLWLWGDDVAAPSKDWPTGATMFPSGQTDRYGAYVDIPMKPGAQKINFLVLDPAKGDAGKDGGDKGFSLVDRYQHLFIQEGDNTVYTSPYGEVPTGLVSAEVLAPGKLQLGFTMTDGLEADTLKNELLIKNKDGHPAAIQNVKITGNTTIEVSASFQLDQLPLSVTYAGKTVSASTGWRMLDEMYAYDGDDLGATYQAGGAELKLWAPTATEVTAKVYSKNDATQFIGNAALQKGDKGVWSVRLKPGDLGIQDFRGYFYQYEVTNNGVTKTVLDPYAKSMAQFRVNTKGEVGPDGDTVGKAAIVDLSQTDPAGLDFADIPGYEQREDAIIWEIHVRDFTSDPTIENDLHNATWGSYDAFKEKLEYIKSLGVTHVQLLPVMAWYYGDEAAMKNRELDYSAKDNEYNWGYDPHSYFSPDGAYSEDPTDPELRIKELKAMINAIHEADMGVVLDVVYTHMAKADFLNDIVPNYYAFQDANGNFIGGFGNNLATNHKMAEKLMVDSVKYWFDEYKIDGMRWDMMGDATYEAVQNAYDAAAAINPKALFIGEGWVTFGGHLSDPSLAGKGADQNWMDKTDDVGVFSDEFRNELKSGFGNEGEPRFITGGARDIQTIFNNIKAQPSNTKEDDPGDMVQYIEAHDNLPLYDIIAQSIKKDPSIAANDLEIHKRIRLGNLLTLTSQGTAFLHAGQEYGRTKQWLGPGVPEQKYHELEDEAGNRFGYFIHDSYDSSDAINMFDWEKATDEAKYPENNKTREYTTGLIELRKSSDAFRLGDQSMVNSNVTLLQIPEVKAQDLVIAYKNKATDGTGHYYVFVNADNQSRTLTLSEDLSSGTVVVDNDEAGTTGVKAKSGFTLTSGSITLEPLTAVVIKTDAAAAVLRAISADQDSYSLQTGKTHQTAVYAEYEDGSKRAVTKQATYASSNPQVASVTAAGVVKGVAEGTAVITVSYRGFQKEITVTVTADVVDNKRYVQLNYIRPDQDYADWNLWVWNTGVTNGEIKFEKIENGAATVQIEVAPETTGVGFVLRKGTNWDTAKQDIPDDRIIPLQPGEAFTKVNVTSMVHELEILPSITGPTLEDGNITFHYRDDQLFRDGRMDSISDVKVKINGKPETMVYVPDKEWFSYTLKGVAPGTYEYTFIVNHNGTTKEVTDPKNTVNGKSQVVYRDPTVTIRAKVTPGSISYDENAVLKLNVTSSEPVAYKEAFVDLTELGGPARAKVDTELLEHSIAVKDTVTAGSKKVGITLVDQYGNRHTGEAAVTVKPRIAGGKLDFDWDEARIYFVLTDRFMDGDASNNANVDKDHPEAYHGGDFRGLIDKLDYIEDLGVNTLWITPIVDNIDFNQGAGFGGKQYAYHGYWAKDFTKIDEHLGDLDTFKELIDKAHDRGIKIMVDVVVNHTGYGLKPGDSAPGITQEDKDRFKDMLRTDGLSADTDPIKGELAGLPDFITENPVVRQQIIDWQASWLERAKTDRGDTIDYFRLDTVKHVDETTWKAFKNALTHLDPSFKMIGEYFGATVDSDGGTLQSGQMDSLLDFGFKGKAKEFVNGSVESVEAYLADRESKLDNTRMMGQFLSSHDEDGFLSHYVDGDKAKLMAAAALQITSKGQPVIYYGEELGRSGKNAGDMGKGEFSENRGDMPWDQLEGEKKLLTHYQKLLNIRAANSKVFSKGTRTSIAASNADGYLAFDKQYNGEHIVTAIHVKNEPKEVVLPVPFKAGSKAKDLYGGSVYNVTADQKVTLTLPAMSDGGTVILAAVPTEGGGNGSNSGSGNGSGGAGGNPSTDPGTKPNQGQRIVNEESLRGGQEKVTIQLGAEDIEVLLPLTAGDILGAKPLELKQDGVMVQLPSALLKALRQLVPAEQAKDAVISFKLKEVGSQTAASLVAKAAAAGKAKLKQGSKMYELDLNVRTKDGKAYKLEHFIAPVTIAFPVDSAIHGELAGIYRISERGPLKYAGGKPVNGQLTAEVSQLSYYAVLEYDKSFADLAGHWAEQAVKELAAKHIVNGTGDTKFSPQQPLTRAQFAAMLVRALGLESTQDTAFTDVDGETWYASAVAAAYQHGLVNGRGKDTFAPNAAITREELAVMLYRAYQTKGDASSLEEAPDLKDQQQISSWALQEVNEALALGLMKGHANGMFTPQAKTTRAESAQAMLNLLDRLQ	PGPT0012195_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200	NA	NA
AK002_00371	777			hypothetical protein	ATGAAAATTGATCTCCATACCCACGCCAAATTGTCCAAAGCGTCCGATTTCTCTAAACATTATTATGAGGAGATGATCCGGGAGGCGCTGGACAACGGACTTGATGCACTCGCTTTGACCGAGCATTTTAACACGCGCCATTTTGACGAGGTGTACCGGCAGCTTGACAGCATGTTCCCCTATAACGGCGAATACTACGATGCAGGCGGATTAAAGATCTTTCCTGGGATGGAAGTGGACATCCGGGAAACCGGCCACATTCTGCTGATCGGCCGGAAGGAGTTCATTCTGGAAACCCGCCGTCGCCTGGACGGGTATACGGAGAAGGGCGCCTTCATCCCTTTCGATGATCTGATGGACTTGGCCGAAGCCTTCCCGCTGCTCAAGATCGGAGCCCATCCGTTCCGGGAGAGCACGCCGCTCCACCATCTCACGCGCAGCCAGTTGAGCCGCCTGGACGCCTTTGATCTCAATGCCAAGGATATGTACCAATACGGCAGCGAAGCCAATCAAGATCAGGTTCAACGTTTCGCCGCCGATCTCGGCAAACCTGTTACGGCGGGTAGCGATACGCATCAATGCCTCCAATTCGGAAGCGTCTATAACGAGCTGCATATGCCTTGCGAATCCGCTGCCGAGCTCAAGGATGCCATTATGCAAGGCGCTTACCAGCTTCATGTCTCGGACAGCCTGCCGATTAAGGTCAAAGCATCCGTCATGCTGAAAAAGCTCATGAAGGAGATCATCCGGCTCCAGTCCCCCTCAGCCGTCATCTAG	MKIDLHTHAKLSKASDFSKHYYEEMIREALDNGLDALALTEHFNTRHFDEVYRQLDSMFPYNGEYYDAGGLKIFPGMEVDIRETGHILLIGRKEFILETRRRLDGYTEKGAFIPFDDLMDLAEAFPLLKIGAHPFRESTPLHHLTRSQLSRLDAFDLNAKDMYQYGSEANQDQVQRFAADLGKPVTAGSDTHQCLQFGSVYNELHMPCESAAELKDAIMQGAYQLHVSDSLPIKVKASVMLKKLMKEIIRLQSPSAVI				NA	NA	NA	NA	NA
AK002_00372	810			hypothetical protein	ATGCAGGTAGTCCGCAACTGGTTTAACAAGATTTCGATTGAACGGATTCAGCTCGAGTTGATGAATACCGCCTACGGGAGCGGTCATGCCGCCCTTTCCCGGCTCGATCCCCGATGCATGCTGATCTGGTACCTGTTATTTGCCATAGCGCCCTGGTTTATTTCCAGCATGACCGTGCTGGCCGGATTGTTTCTCATGATGGTGGTCACCACCATTCTGTCCCGGGTTACGCCGTTTATTATCGTCGTACTATGCCTGGGCCTGATCGGCCAGGTCGGCTGGCTGTTTGTGGTATCCCTCTTTTTCGGCGGGGACGTCAGCTCGGCGCTTCCGCTGCTGAAACTCACCTTAAAGCTGTCGGTTGTATCGCTTGCAAGCATTACGGTGTTCTCCGGCATGGATCCCGAGAAAATCAGCGACGGCCTGCTTGCGCTCGGCATGCCTGCCGCCTTCTCGTTCAGCTTGTCGTACGGCTATCGGATACTCCCCGTATTGTTCGAAGAATTTCGCCATGTGCTGCTTTCTTACCGGCTTCGGGGAAAAGCGCCGGAACATCCCGGCTTTCTCTACTGGCGGCTCGCGGCTTATTACATGAAACTGCTGATGCTATCCTTTTTCCCTTTGATGCTGGCGACCGCCAAACGTTCCCGCACGACGGTAGAAGCGCTGGAGACCCGCGGTTTCTCCTACGGCATGAAGAATCCGGCTGCCAAGAAGCTGAAGCTGTCCCACCTGACCCTGTCGGCGCGGGATGTGGTGTTCCTGACCGGAACGGCAGCATATACCGCATTATTGTTCTGGTTCGGCTGA	MQVVRNWFNKISIERIQLELMNTAYGSGHAALSRLDPRCMLIWYLLFAIAPWFISSMTVLAGLFLMMVVTTILSRVTPFIIVVLCLGLIGQVGWLFVVSLFFGGDVSSALPLLKLTLKLSVVSLASITVFSGMDPEKISDGLLALGMPAAFSFSLSYGYRILPVLFEEFRHVLLSYRLRGKAPEHPGFLYWRLAAYYMKLLMLSFFPLMLATAKRSRTTVEALETRGFSYGMKNPAAKKLKLSHLTLSARDVVFLTGTAAYTALLFWFG	PGPT0004015_1391	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
AK002_00373	1959	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGCCTAAGCCGTCCGTTCAAGACAACCCGGCCATCCGAATCGCAGGCGTCACCTTTGCCTATCCCGGTTCGGAGCAGCCTGTGCTGAAGGAAGCTTCCCTGCATATTCGCCGCGGCAGCTTTACGGCCATCATCGGAGGAAACGGCTGCGGCAAATCCACGCTTTGCAAGCTGTTCAACGGATTGATTCCCCACTATTATTCAGGCGATTTCACGGGTACCGTCGAAATCTGCGGGGCTTCCGCCGAGAATCGGACGGTCTCCGAGCTGTCGCGCATGGTGGGGTATGTCTATCAGGATTTTGATAACCAGCTAGTCCGCCCCACCGTCATGGATGAAGCCCATTTCGCTCCGCTCAATTACGGGCTCTCGGACTACCGGGCCATGGGCGCCAGGGCACTCGATATGTGCGGATTAACCCATCTGAAGGACCGCTATATTTGGGAGCTGAGCGGCGGGCAGAAGCATCTGCTCGCCTTGGCGGGAGCCCTCTCGCTGGAACCGGACATTCTCGTTGTGGATGAACCGGTATCCCAGCTCGATCCCCAGCACGCCAAGCAAGTATATGATGTGCTGCGCCAGTTAAATCAGGTCCATGGAAAGACCATTATCGTGATTGAGCATCATGCGGAGTTTATTGCGGACTACTGCGAGGAAGTATGCCTGATGGAGCAGGGGAAGGTACTGTGGCAGCGCCCGGTCATCGAAGCGCTGAACAGCCTTGAAGATCTGGAGCGGCTTGGCATCCAGCCGCCCCAGGTGACCAAAGCAGCGGTACAGCTGTCTGCGATTTTGCTGAATGGCGGTTTGGCTCCCGGCCGTCCGCAGGATGGACACTCGATAACGGTCGGCTCAGACTCTTATTCTATGGGGTTGTCCGGATATCAGCTGAAGCAGCCTTACCCTATTACGGCCGAAGAAGCAGAAGTCTATTTTGCAGAGCTTCTGCACAGCCACGCGGATAGCCCAGCGCTGCTTGATCATCCACCAACCGACGCTAGAGCAGACGATGCTTCCCCCGCTGACACCACCGTGAAAAACCCGGAATCCGACCAGCGCCGCATCCTGCAGGGCGATGAATCAGAACGGCAAGGGGAGCATGGTTCACTGGTGGAGTTCCACCATGCCGTACTTCGCTACCGAACGATTCACAAAACGGAGCACGAGGTTCTTCGAGGCATTGATCTTCGCCTGTATGAAGGCGAACGCATCGCACTTGTCGGCAACAACGGCGCGGGCAAATCGTCGCTTCTAAAGCTGATCGCCGGCATCGCCAAGCCTTCCGGCGGCTCCGTCACGATGATGGGCAGAAATACCAAGGATTTATCGCTGGAGCAAATATCCGCTGGCGTCGCTTACGTCTTCCAGAACCCCGAGGATATGTTCATTGAAGATAATGTGCATCAAGAGGTGGCCTACGGCTTGAAGAGCCGCCGTCACCCGGAAGCGGAGGATCGGGTTCAGCGCATGCTGACTCATTTCCGGCTTCAGCCTCTCCAGGAACGGGATGCCCGCCTCCTCAGCGGCGGTCAGCAGCGCCGCGTATCCCTGGCCATAGGGGCCGCTATGATGCCCCGGCTGATTCTGCTGGATGAGCCGACGGCCAATCTGGACATGTCTACTCGTGAAGAGCTTCTGGATACGCTGCAGGAGCTGGAGGACCATGTCCGTACCGTTGTCATCGCCACCCATGATATGCAGCTGGTTCACGAATGGGCGACCAGAGTGATCATCTTGAATCAAGGCGTTGTGGCCGGCGACGGCACCGTCTCCGAGATTTTTGCCGATTCGGAGCTTATTTCCCGGGCCGGGCTCGCACCGACCCAGATGATGGATTTATCTATAAGGCTGGGCGTCATGCCCCCGACCAGCTCGCCGGACGAATTTGCCCGGTATATGTACGGCATTCTGAGCGGAAAGGAGATTCACCGTCATGCAGGTAGTCCGCAACTGGTTTAA	MPKPSVQDNPAIRIAGVTFAYPGSEQPVLKEASLHIRRGSFTAIIGGNGCGKSTLCKLFNGLIPHYYSGDFTGTVEICGASAENRTVSELSRMVGYVYQDFDNQLVRPTVMDEAHFAPLNYGLSDYRAMGARALDMCGLTHLKDRYIWELSGGQKHLLALAGALSLEPDILVVDEPVSQLDPQHAKQVYDVLRQLNQVHGKTIIVIEHHAEFIADYCEEVCLMEQGKVLWQRPVIEALNSLEDLERLGIQPPQVTKAAVQLSAILLNGGLAPGRPQDGHSITVGSDSYSMGLSGYQLKQPYPITAEEAEVYFAELLHSHADSPALLDHPPTDARADDASPADTTVKNPESDQRRILQGDESERQGEHGSLVEFHHAVLRYRTIHKTEHEVLRGIDLRLYEGERIALVGNNGAGKSSLLKLIAGIAKPSGGSVTMMGRNTKDLSLEQISAGVAYVFQNPEDMFIEDNVHQEVAYGLKSRRHPEAEDRVQRMLTHFRLQPLQERDARLLSGGQQRRVSLAIGAAMMPRLILLDEPTANLDMSTREELLDTLQELEDHVRTVVIATHDMQLVHEWATRVIILNQGVVAGDGTVSEIFADSELISRAGLAPTQMMDLSIRLGVMPPTSSPDEFARYMYGILSGKEIHRHAGSPQLV				NA	NA	NA	NA	NA
AK002_00374	891			hypothetical protein	ATGGCAAGCAATTCACGGGTCTATACCCTGACCTCTTCGCAGAAAATGATGATTCTCGTGCTGTCCATGTCGCTGTACGGCCTGTCCAACATGTTCACCGAGCTCATTCCCGCGTTTCGCCTGGGTCCGATCGAGCTTTCGGTCGAATATTTCGCGTTCATTCCCCTAACCCTCTGCATGCTGTTCCATCCTTTTTATGCTGCTGTAGGGGCTGCGCTCGGCGAAGTCATCTTCGGTGAACTGATGCTCGGGCAATTCGGCGGCCTCGGAGAGCTGGAGAAGTTTCTTACCTTCTCCTTCGCCATGTACGTCGCCGGCCGCTTGGTCAAAAATCCCCTCAGCCGCGCTCAGGTCGGCATCGCCGCCATGTCGGGCGTCATCATCCACCAGCTGTGCAGCTCTCTGGTTGATATCGGCAAGGTCTGGATCGGCGTCGAGGAATTCGAAGCCGTGCCGGGGCTTGCACAAAGCGTGGTCCTTGTCGAAGGCATCGGTTTCCTGAACGATGTGCTGTTCTCCGGCATTCTGTTCGCTCTTCTGCCTACATTATATCTGGTTCCAAGGTTGTATGGAAAAATCGAGCCGCTGCTCGGCATCAAACCCCGCCAGAAGCTTACCCAATACGAAGCCGCCGGCATCGTCTCGCCCAAGCTGGTCCTGGCCGGAATCGTTTTGGCGCTGATTGCCTTCGGGGCGGAATCCCTTTCGGAAACGGACTGGAACCTCGGGGAGTGGGACAGCGGATTTGCAGACCGGTTCGGCGTCGGCGCGATCTGGATCAGCATTGCTGCAGCCGCCATCGTTGCTATTGCGGTACTGACGTTCATGCGGGCCAGAAAAAACCGTGGCCTTCAAGAAGAGGAAATGCCGGAGAACCCGCCTTATGCCTAA	MASNSRVYTLTSSQKMMILVLSMSLYGLSNMFTELIPAFRLGPIELSVEYFAFIPLTLCMLFHPFYAAVGAALGEVIFGELMLGQFGGLGELEKFLTFSFAMYVAGRLVKNPLSRAQVGIAAMSGVIIHQLCSSLVDIGKVWIGVEEFEAVPGLAQSVVLVEGIGFLNDVLFSGILFALLPTLYLVPRLYGKIEPLLGIKPRQKLTQYEAAGIVSPKLVLAGIVLALIAFGAESLSETDWNLGEWDSGFADRFGVGAIWISIAAAAIVAIAVLTFMRARKNRGLQEEEMPENPPYA				NA	NA	NA	NA	NA
AK002_00375	843			hypothetical protein	TTGAAGAATCTGTTTCCCGATACATCCGGGCTGTCGCCGAGCCAGCTCAAAATCGCCGATTTTATCGAACGTAATCCCGAGGAGATGCTGTTCATGACCGAGCAGGAAATCGCCGACAGGCTTGGCACCAGCATCGCGACCGTTTCCCGGTTTTGGCGTGCCGTCGGGCACGAGAATGCCAAGGCGTTCAAGCTGAAGCTGCGGGAATCCTCGGACACGACGCCTGCCGTAAAGCTGGAAAAAACGATATCCCGGCTGGACGCGTCCAGTCTGCCCGCGAAAATGCTGGAACAGGCGAAGCATCATCTGCAAGACACGATGGAGAAGAACCGCCCGGACGAGCTGGAGGAGGCAGCCCGTCTAATGGCCTCGGCAAGACGCGTGTATGTGCATGCGCCTGGTCCGTCCCTCTCGCTGGGCGAATTATTGTCGTACCGTTTATCCCGGTTTGGCATGTCGGTGCGAATCATGGCCGGCAGCGGTCATGAACTGCTGGAATCGCTCGCGCATGTGGAGAGAGAAGATGTTGTGCTGATCTTCAGCTTTACTCGGATGCTCCCGGAAACGGAGGTCATCCTGGACTGCGTAAGCCGCGTGCAGAATGCGGCGATCATGATCACGGACCGGGAGGAGTTCCGGTATGGAACGCCGGCGCAGATCTCCTTTTTTGTCAGTCGGGGGGATATGGGCGAATTTCATTCCATGGTGACGCCATTGCTGCTGATCGAGCAGCTCATTCTGAGCATGGGCATGCTGAATAAAGAGAAGGTGCTCGGCAAGCTGGATTACTTGGGCGAGTTGCGGACCCGATATGCGGATAAGCTGCCCAGAGGCAAAGCTTGA	MKNLFPDTSGLSPSQLKIADFIERNPEEMLFMTEQEIADRLGTSIATVSRFWRAVGHENAKAFKLKLRESSDTTPAVKLEKTISRLDASSLPAKMLEQAKHHLQDTMEKNRPDELEEAARLMASARRVYVHAPGPSLSLGELLSYRLSRFGMSVRIMAGSGHELLESLAHVEREDVVLIFSFTRMLPETEVILDCVSRVQNAAIMITDREEFRYGTPAQISFFVSRGDMGEFHSMVTPLLLIEQLILSMGMLNKEKVLGKLDYLGELRTRYADKLPRGKA				NA	NA	NA	NA	NA
AK002_00376	744			hypothetical protein	TTGAATGGCTCGAAGTCCGCGAAGCTGTTCCTGCTAATGGCGGTTATCGCGATCGTGAATATTGTCCTGGTTTCGCCCGGGCTGCTCGGCTTTCAAGTCGGCGGCGATAACGCTTTCCAGTCTGCACTGGTCATCACCGTATGGGTCGTCAGTATTCTTGCACTCTTTTATGGAAGTTATGTTTTGTTGTTCAAGTCTCCGGCTGCAAAACCGATCCAAACGATTCAGACCCGCGAGGATTACATAGAGGCGCTCCACCATTACCGCAACGTAAAAGTGCTGAAGGATGATATCGCTCTTGCCCTGGATCAATTGGAGCGAATCGAGAAGAAGAGAAACGCGCTGCTGGGCGTTCTGGGTCAGCGTTTTCAGCCAACGGAGCTCAGTTACAGGAAATTCATGGGTGTCATCGATGAAGTCGAGAAGCTGTTCTACCTCAATATCCGAGGGATACTGAACAAGCTTGGCGTCTTCGCCGCATCCGATTTCGCCCGCATGGCGGATCAGCCGAAAGCCTCCCAGCTGTCCAGCAAGGTGGCGCAGAAAAAAACGGCGTTATACCAAGAGTACTTGGCTTACGTGACCGGTTATCTGGAGGCGAACGAGGAAATCATGCTCAAGCTTGATCAGCTGCTGCTGGAGATCTCTTTGCTCGGCAGCACCGATTACCGGGATGTGGAGGATATGCCGTGCATGAAGGAAATCGATGCGTTAATCAAGCAAACCAAATTATACAAGCAATAA	MNGSKSAKLFLLMAVIAIVNIVLVSPGLLGFQVGGDNAFQSALVITVWVVSILALFYGSYVLLFKSPAAKPIQTIQTREDYIEALHHYRNVKVLKDDIALALDQLERIEKKRNALLGVLGQRFQPTELSYRKFMGVIDEVEKLFYLNIRGILNKLGVFAASDFARMADQPKASQLSSKVAQKKTALYQEYLAYVTGYLEANEEIMLKLDQLLLEISLLGSTDYRDVEDMPCMKEIDALIKQTKLYKQ				NA	NA	NA	NA	NA
AK002_00377	1689			hypothetical protein	ATGCGAAGCAAGGGGAGTGCCTTTGTCGTATTAGTGGCCATTGCAGTGGTCGTGTTTGTTCTAGTGTACGCGGGGATCACATTGACCTCCAATCTGGGCAAAAGCCAAGCCGAGGTCGATTCGGAAGGCGCGGCTAAAAAGATCAACAAAATCTACAAGGATATTACTGTCACGACAGCCGATCCCATCAAAGGCCAAGTCGATCTCGACCCGGTGGCCGTCGCGGATTCCCTGCCCGATATATCGAAGTTCCCGATCTCGGTCGAGAATACGACGGACTTGTACGTGGAGATTTTCTCCTCGCCGGAGAAGGCGGGACCGGGCATTGACGGATGGCTGAACGAAGTGGCAGAGGAATTCAACAAATCCAAGCCGGTAGTGAACGGCAAGCCGGTATCCGTGAAGATCCGCAATATCGCTTCGGGAACCGCAACCGATTACATAACATCCGGGAAGTACGTGCCGGACGCTTTTACGCCTTCCAATGAGCTGTGGGGGGAGATGGTCAAGGAATACGGCGTCAAAGCCGAGCTGGTATCCAAGCGCCTGACGGGGAACGTCACCGGCGTCGTCACCCGGAAAGCCAAATACGACGAGCTGGTGGAGAAGTACGGCTCCTTGAACGTCAAGACGCTGACGGATGCGATAGCGAATAATGAATTGGCGATGGGGTACACGGATCCTTTTGCCAGCTCCACGGGCCTCAACTTCCTGATCACGGCCCTTGAAACGTTCGACAGCAACGACATACTGGGTGAGAAGGCGGTACAGGGCTTCGAGAAATTCCAAGCGAACGTTCCTTTCACGGCTTCCACCACGATCCAGATGCGCGATGCGGCGAAGTCCGGCATGCTGGATGCCTTTGTCCTGGAGTATCAGACCTTTGTCAACGCGGCGGATATGAAAAGCGGTTACGTCTTTACCCCGTTTGGGGTAAGGCATGACAGCCCTTTGTACGCGCTCGGGAAATTGCCGAAGGAGAAGCTGGACATCATCAAGAAATTCGCGGAATTTGTTGAGCAGGACAAATACCAGCAGATGGCCGACAAAAAAGGGTTCAACGGTCTTAATGATTACCAATCCGAGCTCGAGGTCGTTGACAGCAGCCTGCTGCCGTCCGCCCAGAAGCTGTGGAAGGAGAAGAAGGACGGCAACAAGCCGGTAGCGGCCGTGTTCGTGGCGGACGTATCGGGGAGCATGGACGGCGAGCCGTTAAACCGTCTCAAGGAATCGCTGTTGACGGGACAGAAATATCTGGGCCGGGACAACAGCATCGGTTTCGTATCGTATTCCACGGACGTTACGATCAACCTTCCGATCGGCAAGTACGATTTGAATCAGCAGTCGATGTTTGTCGGTGCGATCAACAGCCTAGAGGCCAGCGGGAATACCGCAACCTTTGACGGCATCGTCGTGGCGATGAAGATGCTGCAGGACGAGATGGCGGCAAATCCAGACGTGAAACCCCTGATTTTTGTGCTGAGTGACGGGGAGACGAACGTCGGGCATTCCCTAGACGATATCCGCGGACTGATCCAAGCCTTCAAAATCCCGGTGTATACGATTGGCTATAATGCCGACATTCAGGCGCTCCAAAGCATTTCCAGCATCAATGAAGCTGCCAGCATCAACGCCGATACCGATGATGTCGTATACAAAATCGGCCAGCTGCTGAATGTGCAGATGTAG	MRSKGSAFVVLVAIAVVVFVLVYAGITLTSNLGKSQAEVDSEGAAKKINKIYKDITVTTADPIKGQVDLDPVAVADSLPDISKFPISVENTTDLYVEIFSSPEKAGPGIDGWLNEVAEEFNKSKPVVNGKPVSVKIRNIASGTATDYITSGKYVPDAFTPSNELWGEMVKEYGVKAELVSKRLTGNVTGVVTRKAKYDELVEKYGSLNVKTLTDAIANNELAMGYTDPFASSTGLNFLITALETFDSNDILGEKAVQGFEKFQANVPFTASTTIQMRDAAKSGMLDAFVLEYQTFVNAADMKSGYVFTPFGVRHDSPLYALGKLPKEKLDIIKKFAEFVEQDKYQQMADKKGFNGLNDYQSELEVVDSSLLPSAQKLWKEKKDGNKPVAAVFVADVSGSMDGEPLNRLKESLLTGQKYLGRDNSIGFVSYSTDVTINLPIGKYDLNQQSMFVGAINSLEASGNTATFDGIVVAMKMLQDEMAANPDVKPLIFVLSDGETNVGHSLDDIRGLIQAFKIPVYTIGYNADIQALQSISSINEAASINADTDDVVYKIGQLLNVQM	PGPT0014015_2085	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
AK002_00378	1140			hypothetical protein	TTGTCATTTACGATGGAAGTCATTCGTCCCGAAGAGATCAAGACGGCGATCGAGGAGCAGGTGAAGCCTGAGCCGGAAGAAGTCACGCAGCTGAAGGAGCTGGCGGCTAACAATGTGCAGGCCATCATGGAGCTGGATATTGAATCGCTCGAGAAGCGAAGACAGGTGCTGCAATCCATTGAAAGCTTTGGCATCAGCACGATGAGATCCTCCTCGGAGAAGAACGCGCTCCTGCAGGTTCAGGTGGGGAGATTATCGAAAACCGGGGACGAAGGCGGTCAAGTGGCCAAAGGGTTAACGGAGCTGCAGCTGCAGCTGAAGGATCTGGATCCGAGCGTTGTGGATTTTGCGAAGAGCGGGCTGCTGGGCATGGTGTTTAACCCGCTGCGCCGATATTTTGCCAAGTTCCAAAAGGCGGATGCCGTCATCTCGGACATCATCATTTCTCTGGATAAAGGAAAAACCGTATTAAAGAACGACAACACCACGCTGGAGATTGAACAGCAAACCCTCCGCGAGCTCACCAAAAAGCTGCAAAAGGAAATTCAGCTGGGCATGCTCATGGATGCAGAGATCGAATCCCAGGTCGAGGCGGCCAAAATACGGCAGGAGTCGGAGGATAAAATCCGGTTTATTACCGAAGAGGTGCTGTTCCCGCTGCGCCAGCGCGTGATGGACCTGCAGCAGATGCTGGTCGTAAACCAGCAGGGAATTATGGCGATTGAAGTCGTCATTCGGAACAACAAGGAGTTAATCCGTGGTGTGGATCGGGCGAGAAACGTAACGGTAACGGCGCTGAAAATATCGGTCACGGTGGCAAGTGCCCTGTACAACCAGAAGATTGTCTTGAAGAAAATCGAGCTGCTGAACGAAACCACCAACAACCTGATCAGCGCCACCTCCAAAATGCTGAAGGATCAAGGTGCGGCGATTCATAAGCAATCGCTGGAAACGAGTATTTCCGTTGATACCTTGAAGCAAGCGTTCACGGATGTGCTGTCAGCGCTTGATTCCATCAGCACTTACAAGCAGGAGGCTCTCCCGCGGATGCGCGAGACGATCCATCAGTTCAGCGAGCTGGCGGTCACGGGCGAGCAGCAGATCCAGCGCCTGGAGCGGGGGCAGAAGCTGGGCCTGTAG	MSFTMEVIRPEEIKTAIEEQVKPEPEEVTQLKELAANNVQAIMELDIESLEKRRQVLQSIESFGISTMRSSSEKNALLQVQVGRLSKTGDEGGQVAKGLTELQLQLKDLDPSVVDFAKSGLLGMVFNPLRRYFAKFQKADAVISDIIISLDKGKTVLKNDNTTLEIEQQTLRELTKKLQKEIQLGMLMDAEIESQVEAAKIRQESEDKIRFITEEVLFPLRQRVMDLQQMLVVNQQGIMAIEVVIRNNKELIRGVDRARNVTVTALKISVTVASALYNQKIVLKKIELLNETTNNLISATSKMLKDQGAAIHKQSLETSISVDTLKQAFTDVLSALDSISTYKQEALPRMRETIHQFSELAVTGEQQIQRLERGQKLGL				NA	NA	NA	NA	NA
AK002_00379	624			hypothetical protein	ATGAATCCCCAAACCCGAAACGCCCGAACCCAAATCATCATCGAAGCAGCCGAGCGCGTATTTACACATAAAGGCATTGAAAAAGCCACCATGCAGGATGTAGCCACCGAGGCTGCCATGGGCGTAGCTACCGTTTTTCGTTTTTTTCCCCGCAAAGAGAAACTCGTCGTTGCCGTTGCCACGAAAATGCTGGAGACCGTTCTCGAGACCTTCCGCTCCATCGCGGAACAGCCGGTTTCCTGTATGGAGAAGCTGGAGCTGCTGTTCGACCACTTCATTTCCCTGCTGGAGCAACAGACCAGCTCGAACGTGAAGCTGCTCGAGAACTTCGAGAGCTATGCGGCTCAGTTTACAGAGCCTCTTGAGGACATCGAGCTGTTTAACGCCGTCTACCGGGATATATCCCAGGTATTCTCGACCATCGTGGAGCAGGGCATCGAGGATGGATCGGTTCAAGCCGATCTTCCGATTGCCGAGACGCTGACCACCATCGTGAATACGTTCGGCATTTTTGCCAGAAAGCTGTCCCTCCAGAAAAACATTCTGGTGGTCGAGCCGGACCTCGCACCGGAGAAGCAGCTGGCGATTCTCAAGCACATTCTGCTTAATTATTTGCGGGCATAA	MNPQTRNARTQIIIEAAERVFTHKGIEKATMQDVATEAAMGVATVFRFFPRKEKLVVAVATKMLETVLETFRSIAEQPVSCMEKLELLFDHFISLLEQQTSSNVKLLENFESYAAQFTEPLEDIELFNAVYRDISQVFSTIVEQGIEDGSVQADLPIAETLTTIVNTFGIFARKLSLQKNILVVEPDLAPEKQLAILKHILLNYLRA				NA	NA	NA	NA	NA
AK002_00380	948	srkA_1		Stress response kinase A	TTGGAACGTCGGAGCGAGCTTATGGCCGCGGCTGCAAGCAGGTTCGGACTCTTGGAGCGGAATAGACTCCAGACGCATTTTTCCGAACACAGCCTTGTCCGTTCTTATCGAAGGGACGAGAAGATCGTGTATGTGCGCTTGACCGACGAGTCCCACAAACCCTATGCGAAGATTGCCGGCGAGGTGCAGTGGGTGGAGTATCTTGGGAGTAAGGGCGTTTGCGTTTCGAGGCCGCTCCATTCGGCAGCCGGGAACCTTGCGGAGCGAATCCGGATGGAGGACCGTGAATATACGGCGGTCTGTTACGAGGAAGCCAAGGGGCGTCCGGTTGGGGAGAACGAAGCCGGCGAGGATTTATACAGGCGAATGGGCCGATTCATGGGGGGCATGCATCGTATCACCCAAGCGTATATCCATCAGGACCCCTCCACAAGCCGGCCGGATTGGTCGTATGAGGCAGAGAAGGTTCGACATCTCGATTTTCCGCCATCCGAAAAGGGGATTGCCTCTCGTTATCAAGCCTTGTGCCAGTATATATCGAAGCTCCCTGTTTCTAGGGAGACTTACGGATTGATTCATGCCGATTTTCATTACGGCAATTTTTTTGTCCAGGGGGATGCGTTGTGCCTGATTGATTTCGATGCGAGCCGTTATTCATGGTTCGTGGATGATATAGCGGTCGCCGCCTTCTTCTCGGGTTTGACCGAAGGGGCCGATCCGGACAGCGGTAAGTTCCTGATCCCTTTCCTGGAAGGATACCGTGTGGAGCATCGCCTGGAGGAGGAGTGGCTTCGGGAGATCCCCTATTTCATGAAGCTGAGAGAAATGGGGCGGTATATGAAGCTGTTCCATGCCTGCCGCGGAAATTTCGATAAACTTCATCCCTGGGGACAGTGGTATATGAAAGGGCGCAGGGAAAAGATTTTGCAAAGCGATCTGCCACTTTAA	MERRSELMAAAASRFGLLERNRLQTHFSEHSLVRSYRRDEKIVYVRLTDESHKPYAKIAGEVQWVEYLGSKGVCVSRPLHSAAGNLAERIRMEDREYTAVCYEEAKGRPVGENEAGEDLYRRMGRFMGGMHRITQAYIHQDPSTSRPDWSYEAEKVRHLDFPPSEKGIASRYQALCQYISKLPVSRETYGLIHADFHYGNFFVQGDALCLIDFDASRYSWFVDDIAVAAFFSGLTEGADPDSGKFLIPFLEGYRVEHRLEEEWLREIPYFMKLREMGRYMKLFHACRGNFDKLHPWGQWYMKGRREKILQSDLPL				NA	NA	NA	NA	NA
AK002_00381	1599	appA_1		Oligopeptide-binding protein AppA	ATGAAAGCCAGAAAGTTAGGTTTACTCTTATCGTCGATCGTGCTGATGCTGTTGATCGCGGCATGCGGCAACGGCTCCGATCCGGCGGCAGAGGGCGCAGCTGAAGACAAAGGAAGCGAGAAGCAAGCCGAACAGCAAGAGTACAAAGACGAGCTGAACATCGCGCTTACGGCTCAGCCGCCAACGTTGGATACGGCCTTGACGGTATCGGCGGTTGCGCTCGATACGGCCGGCAATATCTTCGAGCAGCTCTACACGCTGAATGCAAACTATGAGCCCGTACCGGCTCTGGCAGAGTCGGTCGAACGAAGCGAGGATGGTTTAACGTATACGTTCGCCCTTCGCCAAGGCGTGAAGTTCCACAACGGGAAAGAGATGACGTCCGAGGATGTTGTAGCCTCGATGAACCGCTGGCTGGTGACTTCGTCCCGGGCGAAGGTGCTGCTGACGAATGCCAAATTCGAAGCCGTCGACACGTATACCGTGAAGCTGACCGTAGAGACGCCTACGTCGGACGTGTTGATTCTTATTGCATCGCAAGCGCAGTTCCCTTCGATCATGCCGAAAGAGATCGTGGATGCAGCGCCGGCTGACGGAATCAAGGAGTACATCGGTACAGGACCTTATAAATTCCAGGAATGGAAGCAGGATCAGTACATCCATTTGGTGCGAAACGACGATTATCAGCAGGTGTCGGATGCGGAGCCAAGCGGATTTGACGGGCGAAAAGAAGCTCCCGCCAAAGACCTGTACTTCCATTTCGTGACGGACCACTCCACGCGCATTGCAGGCGTGAAGACCGGCCAGTACGATGTGGCGGACAGCATTCCGATCGAAAGCTATGATGAGCTGGCTGCCGACAACAACATCAACCTGCTCTCGTTCCCTGGCGGTGCCCTGACGGCATTTTTCAATACCAGCGAGGGATTGTTAAAGGACGTGAAGATTCGCCAGGCCATTCTCGCCGCGTTCAATAATGAGGAGATCATGTTGGCGAGCTTTGCCAAACCGGATTTGTACTCTTTAGCGCCGGGTTACCTGAATACGAATCAAGTCCAATGGTCGACCGAAGCCGGTGCGGAGTATTACAACCAGTCCAATCCCGAGAAGGCCAAGCAGCTGCTGCAAGAAGCCGGGTATAACGGCGAAGAAATCACGCTGCTGACGACCAAGGATTATAACGAGATGTACACGGCCACGTTGGTCATTCAGGAGCAGCTTCGTCAGATCGGCATGAACGTAAAAGTGGAGAACTTCGATTTCCCGACGTTCCTGGAAACGAAGAACGACCGTTCCAAGTGGGACATCTTTGTTGCCAGCACGGGCTATCAGCTTACCCCGCCGCAGCTGCTGGCCGTTAATCCGGATTGGGCCGGACTCGACAACGAAACCGTCAAGCAGGCGCTGATCGATATTCGCGGCGCAGCCACGCCGGAAGCCGCCAAGCAGGAATGGGAGAAGCTGCAGGGCTTCCTGTACGAATTTGCTTCCTCCACCGTGATCGGCCATTATAATGGCGTCGTCGCCACAACGAAGAAGCTTGAAGGGTTCGAGCTGTTCGAAGCACCGGTGGTTTGGAATGCCAAAGTAGCGAAGTAA	MKARKLGLLLSSIVLMLLIAACGNGSDPAAEGAAEDKGSEKQAEQQEYKDELNIALTAQPPTLDTALTVSAVALDTAGNIFEQLYTLNANYEPVPALAESVERSEDGLTYTFALRQGVKFHNGKEMTSEDVVASMNRWLVTSSRAKVLLTNAKFEAVDTYTVKLTVETPTSDVLILIASQAQFPSIMPKEIVDAAPADGIKEYIGTGPYKFQEWKQDQYIHLVRNDDYQQVSDAEPSGFDGRKEAPAKDLYFHFVTDHSTRIAGVKTGQYDVADSIPIESYDELAADNNINLLSFPGGALTAFFNTSEGLLKDVKIRQAILAAFNNEEIMLASFAKPDLYSLAPGYLNTNQVQWSTEAGAEYYNQSNPEKAKQLLQEAGYNGEEITLLTTKDYNEMYTATLVIQEQLRQIGMNVKVENFDFPTFLETKNDRSKWDIFVASTGYQLTPPQLLAVNPDWAGLDNETVKQALIDIRGAATPEAAKQEWEKLQGFLYEFASSTVIGHYNGVVATTKKLEGFELFEAPVVWNAKVAK	PGPT0004430_10216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
AK002_00382	951	gsiC_1	COG0601	Glutathione transport system permease protein GsiC	GTGCTGGCTTATATTACGAAAAGACTTTTGTCGCTGATTCCCGTACTGGCCGTCGTCACCATCGCTATTTTTCTGATCATCCACATAACGCCGGGGAATCCGGCGGCGGCCATCTTGGGCATGGAGGCGTCGGAGGAGGAAATACAGCAGCTGAATCAGGACCTTGGACTGGACCGTCCGATACTCGAACAATATACGAGCTGGGTGGCCAACCTGTTCAAGGGGGACCTGGGGGATTCGATCTTCATGAAACAGCCGGTCAGCGAAGCCATTGCGGAGCATATTACCCCCACGCTATCGCTGGCCATTCTGGCACAGGTCATCGCGATCCTGCTCGCGATTCCCTTCGGGATTATCGCCGCTTACAAGCGAGGATCCATCGCCGATTATACGTTGATGGGGATATCCTTGCTGGGCATGGCCTTGCCCAGTTTCTTGCTGGGATTGTTCCTTATGCTGTTCGTGGGCGTCAAGCTGCAGTGGCTGCCGGTCGCTGGATATGAACCGCTGAGCAGCGGGCTATGGGAACATATGAAATATCTGATTCTTCCCGGCATTTCCCTTGGAACCATACAGGCGGCCCTGATTACGCGGATGACCCGTTCGTCCATGCTGGAAGTGCTGAATTTGAATTTCATCAAGACAGCCCGATCAAAAGGCCTGCATGAAATGAAGGTGCTGTTCAAACATGCGTTTCGGAGCGCGTTTCTGCCCATTCTGACCGTCATTGGACAAACCTTCGGCACGTTGGTGACGGGAGCGGTGGTCGTGGAGGCCATATTTAACATTCCCGGTCTGGGTCAATTGATCTTGAATTCCATTGCCAGAAGGGACTTTGCGGTGATCCAAGGGGTGGTGCTCGTCGTCACGCTGATGTACGTCACCATCAACTTGATCATCGACTTGCTATACGGCGCGGTGGATCCGCGCGTTCGATTGGATCGCAAATAA	MLAYITKRLLSLIPVLAVVTIAIFLIIHITPGNPAAAILGMEASEEEIQQLNQDLGLDRPILEQYTSWVANLFKGDLGDSIFMKQPVSEAIAEHITPTLSLAILAQVIAILLAIPFGIIAAYKRGSIADYTLMGISLLGMALPSFLLGLFLMLFVGVKLQWLPVAGYEPLSSGLWEHMKYLILPGISLGTIQAALITRMTRSSMLEVLNLNFIKTARSKGLHEMKVLFKHAFRSAFLPILTVIGQTFGTLVTGAVVVEAIFNIPGLGQLILNSIARRDFAVIQGVVLVVTLMYVTINLIIDLLYGAVDPRVRLDRK	PGPT0004445_10434	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
AK002_00383	906	gsiD_1	COG1173	Glutathione transport system permease protein GsiD	ATGGCTACAGTTCAGGAAAAGGAATATGTCGCTCAAGTCAGCAAAAAGCTGAAAAAAGAACAGCGAGCCTTAGGATATCGCCGCCTGAAGTCCAACTACGGGCTTTTGATCGGAGCGACCATCTTTGTTGTATTGGTGATTCTGGCGCTGATCGGACCGCTCTTCACGAACTACGGTCCGTACGACATGAAGGTTGTGGACCGTTTAACGCCGCCCGGGACCGAGCATTGGCTGGGTACCGACGAATTCGGACGGGATTTGTTAACCCGGCTTCTCTACGGGGCCAGGGTATCGATTAGCGTCGGACTGGCGGTTGCGCTGCTGTCCTCCGCTCTGGGACTCGTGATCGGCGTCTATGCGACGTATTACAAGACGTTGGACCATATTCTCATGCGCATTTGCGACGGGTTGATTGCGATTCCGGGAATCTTGCTTGCCATTGCCTTAATGGCCGCGCTCGGCGCATCCGCTTTGAACGTTATCATTGCGCTGACGATCGTGTTCACGCCGAATATTGCCCGAGTCGTCCGCTCGGCAGCACTGGTGGTGCGCGAGCAAACCTACATCGAGGCGATGCATGTCCAGGGGGCCAGCTCCACGCGCATTATATGGCAGCACATCGTGCCGAATGTACTGTCTCCTCTATTGGTACAGGCGACATTCGTATTTGCCGAAGCGATTATCTCGGAGGCGGCTTTAAGCTTTCTCGGTGCGGGCATTCCTGCGCCCGAAGCCAGCTGGGGGAACATTTTGCAGGCAAGCAAGCTTGTTATTTACAAGGCATGGTGGATGGTCGTATTTCCCGGGGCCACGCTCGTTCTGTCCGTCCTCAGCTTGAATTTGCTGGGAGACGGGCTGCGCGATTTGCTGGACCCTCGCGTGAAGCAAAAGTTTAGAAAGCGATGA	MATVQEKEYVAQVSKKLKKEQRALGYRRLKSNYGLLIGATIFVVLVILALIGPLFTNYGPYDMKVVDRLTPPGTEHWLGTDEFGRDLLTRLLYGARVSISVGLAVALLSSALGLVIGVYATYYKTLDHILMRICDGLIAIPGILLAIALMAALGASALNVIIALTIVFTPNIARVVRSAALVVREQTYIEAMHVQGASSTRIIWQHIVPNVLSPLLVQATFVFAEAIISEAALSFLGAGIPAPEASWGNILQASKLVIYKAWWMVVFPGATLVLSVLSLNLLGDGLRDLLDPRVKQKFRKR	PGPT0004450_7169	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
AK002_00384	1023	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGAATAAAGAGCCTCTATTGGAAGTGAAAAATCTTAAAACGCATTTTCATACCGAGCGCGGAAAAGTGACAGCGGTGAACGGGGTCAGCTTTTCCATGAATACTGGTGACATCATCGGTATCGTCGGAGAGTCCGGCAGCGGAAAAAGCGTGATGTCCCAATCCATCATGAGATTGCTGGATCATACGGATGCGATCGAGTACGAGGGAGAGGTCATATTCGAGAATCAGAACCTGCTGTCCCTCCCGCATTCCAAATTACGGGCGATCCGGGGAGATCAAATATCCATGATATTTCAGGACCCGCTAACCTCCCTGAGCCCTGTCTATACGATTGGAAATCAAATCGGAGAAGCCATACGCCTTCATCAGAAGAAGTCCAAGAAGGAAGCCCATCAGCAAGCCATCGAAATTTTGCGGATGACGGGCATTCCTTCGCCCGAAATCAGGGTTAACGAATATCCCCATCAGCTGTCGGGGGGGATGCAGCAGCGGGCGATGATTGCCATGGCGCTCTCCTGCGAGCCGAACCTGTTGATCGCGGATGAGCCGACAACCGCGCTCGATGTGACGATTCAGGCGCAGATTTTGGAATTGATCGCCGACTTGAACCGCAAAATGGGCATGGGCGTGCTGTTCATTACGCATGATCTGGGCGTGGTCTCGGAAATTTGCACGGGCGTGAAGGTGATGTACTTGGGGCAGATCGTGGAGGAAGCTCCCACGGAACAGCTGTTCCAAACGCCGCTGCATCCTTATACCCAGGGGCTGATCCAATCCATCCCCAAGCTGGAAGGGGACAGGGAAGATGAGCTTTACGTCATTGAGGGAACGGTGCCGTCCCTGACGGATATTCCGCAGGGCTGCGGCTTCTCAACGCGGTGTCCTTATGCCGACGAGCTGTGCCGTACCTCCGAGCCCCCGATGCAAACGGCCCAAACGGACCATCGAGTGAAGTGCTGGCATTATGAGGCCCTAAACAAGCCGGAAGGGAGGGAGACAGCCGTTGGAACAAGCAGCTGA	MNKEPLLEVKNLKTHFHTERGKVTAVNGVSFSMNTGDIIGIVGESGSGKSVMSQSIMRLLDHTDAIEYEGEVIFENQNLLSLPHSKLRAIRGDQISMIFQDPLTSLSPVYTIGNQIGEAIRLHQKKSKKEAHQQAIEILRMTGIPSPEIRVNEYPHQLSGGMQQRAMIAMALSCEPNLLIADEPTTALDVTIQAQILELIADLNRKMGMGVLFITHDLGVVSEICTGVKVMYLGQIVEEAPTEQLFQTPLHPYTQGLIQSIPKLEGDREDELYVIEGTVPSLTDIPQGCGFSTRCPYADELCRTSEPPMQTAQTDHRVKCWHYEALNKPEGRETAVGTSS	PGPT0004435_8259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
AK002_00385	987	btuD_3		Vitamin B12 import ATP-binding protein BtuD	TTGGAACAAGCAGCTGATCATTCGATTTTAAAGGTAAGCTCCCTTCACAAGCAGTTTCCGGTGTATGGATCATTCGGCAAATTAGGGGGCGCCAAAGCATACGTCAACGCGGTCTCGGACGTTTCCCTGCAATTGAACGAGGGAGAAACCTACGGTCTGGTCGGCGAATCAGGCTCCGGGAAAAGCACCACGGGACGTACCATCCTCGGATTAACGCCGGCGAGCCAAGGGCAGGTTCTGTATCGGGATCGGGAATTGTCGGCCATGACGAGGGAGGAAATGCGGAATTTCCGCAAGGATGTGCAGCTTGTTTTTCAAGATCCGTTCTCTTCGCTCAATCCGAGGAAACGAATCGGCCGGATGCTGGAGGAGCCCTTGATCATTCATAAAATGGGGGACAAGGCGGAGCGTCAGGAAACCGTGTTCCAAATCCTGAAAACCGTCGGCTTGCAGCCGGAGCATGCCTTTCGCTTTCCCCATGAATTCTCGGGCGGTCAACGCCAGCGGCTGGGCTTGGCGCGCGCGCTGATCATGAATCCGAAAATCATCGTGTGCGACGAGCCGGTCTCCGCCCTGGACGTGTCCATCCAGTCGCAAATTCTGAACATGCTCAAGCGCCTGCAGCGCGAAATGAAACTAACGCTATTATTTATAACGCATGATATCAGCGTGGTTCGGTATATTTCGGATCGGATCGGCATTATGTATCTCGGAAAAATAATGGAAGAGGCTTTGACGGACGATTTGTTCCATGAGCCGCTGCATCCCTATACGAAGGCGCTGTTCTCGGCCGTACCCGATTTCAACCGCAGCCGATTAAAGGAACGGATCGTGTTGCGGGGGGAAATCCCGTCCCCGATATCGCCGCCGAGCGGCTGTGTTTTCCACACGCGCTGTCCCTATGCAACCGATGTATGCAGAACAGACATACCGGCTGTAAGAGAAGTGCGGCTGGGCCATAAGGTCGCCTGTCATCTTGTTGACTAG	MEQAADHSILKVSSLHKQFPVYGSFGKLGGAKAYVNAVSDVSLQLNEGETYGLVGESGSGKSTTGRTILGLTPASQGQVLYRDRELSAMTREEMRNFRKDVQLVFQDPFSSLNPRKRIGRMLEEPLIIHKMGDKAERQETVFQILKTVGLQPEHAFRFPHEFSGGQRQRLGLARALIMNPKIIVCDEPVSALDVSIQSQILNMLKRLQREMKLTLLFITHDISVVRYISDRIGIMYLGKIMEEALTDDLFHEPLHPYTKALFSAVPDFNRSRLKERIVLRGEIPSPISPPSGCVFHTRCPYATDVCRTDIPAVREVRLGHKVACHLVD	PGPT0021035_1477	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021035-oppF-K10823	NA	NA
AK002_00386	420			hypothetical protein	ATGACAACGTTGCAAATCGTAGAAGGCCAGGATCGGATATTCAATGAGGCGGGGTTTCAGATTGCAGGAAACCACGGGCCGAATTTGGAGGGCGGCTTGTCTCCGAGAGAGCTGCTGGAAGCGTCCCTGGCGCTGTGCGTATCCATCTCGATTCAAAAAATAATGGCTTACGACGGCGTGGAATATGATAAGTCTTCCATTCATATCGAAGTGTCATCAGTAAAAGCAGAGGATAAAAGCAATAAGTTCTCGCATTTCAACGTCCTTGTCTCGCTGCCGCCAACGCTGGAGCCTGCCTACAAGGAGAAGCTGAAATCCGTCGTAGAGCGTGCATGCACGATCGGCAATACGCTGAAAAGCGAGGCCGTCGTTGAACTGATCGAAGTGAATGAGCCTATCGAAACGAGCAGCAATGCGTAA	MTTLQIVEGQDRIFNEAGFQIAGNHGPNLEGGLSPRELLEASLALCVSISIQKIMAYDGVEYDKSSIHIEVSSVKAEDKSNKFSHFNVLVSLPPTLEPAYKEKLKSVVERACTIGNTLKSEAVVELIEVNEPIETSSNA				NA	NA	NA	NA	NA
AK002_00387	414			hypothetical protein	ATGATGCCCCAAGGAATGTCTTTTGGCGGAGGTTTTGATTTTATGTTTACGCTGGTTCCCATTCTGATCGGGATTGTATTCGTGATTGTGATCGTGGGCTTCATCTCCAACGGTGCCCGCTATGTTAAGAATGCCAAATCCCCGCGTACTTCCGAGTTTGCCCGGGTGGTCTCCAAACGGATGGATGTCCGCCATCATACCAATCACCACAACAGCGATAACGGAATGATGCACGCCAATCATTCATCCCGTACGTATTATTACATCACCCTCGAATTTGATAATGGAGAACGAAACGAGTATCTTGACGTCAAGAATCTGTACGGTCTTGTCGTGGAGGGAGATACGGGCTATGCCGCCATCCAGGGCGACTGGATCGTCGCGTTTGAGCGGAATATGCAGCCGCAGTCGTAA	MMPQGMSFGGGFDFMFTLVPILIGIVFVIVIVGFISNGARYVKNAKSPRTSEFARVVSKRMDVRHHTNHHNSDNGMMHANHSSRTYYYITLEFDNGERNEYLDVKNLYGLVVEGDTGYAAIQGDWIVAFERNMQPQS				NA	NA	NA	NA	NA
AK002_00388	597	kefF		Glutathione-regulated potassium-efflux system ancillary protein KefF	ATGATGAAAGTACTGACCGTTGTCACTCATCCCAGAGTGAACTCCTTTACATTTGCTGTCACGGAGCGATTTGTGCAGGGGCTTCAAGATGCCGGACATGAGACGGAGGTTCTGGATCTTCACCGCATCGGTTTCGATCCGGTTCTGTGGGAGGCGGACGAACCCGATTGGTCTGATGCTGGCAAGGTTTTTTCCGCTGAGGTTGAAAACGAGATCGCGCGAATGAAACAGCATGACGCGCTGGCCTATATTTTCCCGGTATGGTGGTACGGGGTTCCGGCTATGCTGAAGGGGTATATCGACCGTGTCTGGAATCACGGCTTCGCGTATGGCGGCGGTTCCAAGCTCCATCACAAGAAGGCGTTATGGATCGCATTGGCAGGCGCGTCGGAGGACCATTTTGCCAAGCGGAGCTATGATACAATGCTGTCCCATTCCCTCAACGTCGGCATGGCCAACTATTCCGGAATCGAAGATTCCCGAGTGGAATTCTTCTATGATACGTTAGAGGGCAGACCGGAGCACATGGAGAGCCTGCTGGAGCGGGCATACCAGTTGGGGCTGCATTATGCGGGTTCGGGAGTACATGTGAAGTAA	MMKVLTVVTHPRVNSFTFAVTERFVQGLQDAGHETEVLDLHRIGFDPVLWEADEPDWSDAGKVFSAEVENEIARMKQHDALAYIFPVWWYGVPAMLKGYIDRVWNHGFAYGGGSKLHHKKALWIALAGASEDHFAKRSYDTMLSHSLNVGMANYSGIEDSRVEFFYDTLEGRPEHMESLLERAYQLGLHYAGSGVHVK	PGPT0009455_1569	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
AK002_00389	339	ytcD_1	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAATCGTGACCGGCAATACCATATTCCGTCCGAAGCCACCATGGAGGTGATCGGCGGCAAGTGGAAGATCGTTGTGTTGTGCCACCTTAGTTATGGGCCCAAGCGTACGAGTGAAATTAAGAAAGAGATGCCGGATATTACGCAGAAGATGTTAACCCAGACCCTTCGGGAGCTGGAGGAGGATGGGATTATTACGCGAACGGTCTTTAATCAAGTTCCGCCGAAGGTCGTGTACGAGCTGAGCGAATTGGGCGTTTCACTGCAGCCCATCCTGGATCAAATCTGTGAGTGGGGCGAGAAGTATATGAATGGAGAAACGAAGGTAAGTGCTCCATGA	MNRDRQYHIPSEATMEVIGGKWKIVVLCHLSYGPKRTSEIKKEMPDITQKMLTQTLRELEEDGIITRTVFNQVPPKVVYELSELGVSLQPILDQICEWGEKYMNGETKVSAP				NA	NA	NA	NA	NA
AK002_00390	2019		COG2200	putative signaling protein	ATGGACGGCAATTATAACTTGTATATTGTTGGGCTTTCAATTGCGATCGCTATACTTGCTTCATACTCGGCTTTGAATATTACGTCCAAAATTTCGGACGCGAACGGCAAATCCAAGTTTTTTTGGCTATTCGGGGGAGCCATGGTCATGGGAAGCGGCATTTGGTCCATGCATTTTGTCGGCATGCTGGCGATGCACATGAATATGAACGTGAAGTACGATGCCTTTCTGACCATCATGTCGATGCTGGCCAGTGTGATTTCCTCGTTCATCGCGTTTTATATCACCATGCCCAAGGATATCAACTGGTCCAAAATCGCCATTGGCGGTTTCGTTATGGGAAGCGGCATCGTGACGATGCATTACATAGGAATGGAAGCCATGGTCGTTCACGCCGACATCCGTTACGATCTCGTATTTTGGATCTTGTCCGCCGTCATTGCACTGGCGGCCTCCTATGCGGCCTTATTATTGTTTCTTCGTTTTCGCAACCATTCCAAGTCCAGCTTTCTCAAATGGGGCTCGGCGGTTGTGATGGGATTCGCCGTGTGCGGGATGCATTATACAGGGATGAAGGCGGCGCGCTTTGAAGCACATGCCGGCATGATGACACATCAGCCGCAGTCTCTGGATTTCTTCCTCTTGTACTGCGTGACGGTCGCGATTTTTGCTATTCTGTTGATTTCCTGGGGCGCGATGTTCTTTGACCGGCATGTGCTGGAAAAGCTGGCCTATCAGGATACGATCACGGGATTGCCCAACCGCAATGAGATGAATCGGTTCTTCAGGACGAATGCCGAAACGGATCAGATTACGATCCTGTTTCTGGATCTGGACCAATTTAAGGCCATCAACGATACGCTGGGTCATAATGTCGGGGATTTGCTGGTCCAGGAAGTGGGCAAGCGGCTGCGTCAATTCATTCGAAGCGGCCAGCAGGTGTTCCGAATCGGGGGCGACGAATTTCTGGTTATTTTGAAGCAAAGCGACCCGAATTATGCCCAACGCTTAGCCGATGATATACTCCAACAAATTAAAAAGGTGTACCATATCGACGGCAACGAGCTGTATGTGACGGTTAGCATCGGCATCAGCATCGGTTCCGTCCATAGCTCGGATCGTACGACGCTGCTGAAGAATGCCGACACCGCCATGTATAAAGCGAAGGGGCTCGGCAAGAATCAGCAATGCCTTTATGACGAGGAGATGGGTCTTCAAGAGGTTCGCAAGATGGAATTGGAAAAGGACCTGCAAAGAGCGCTGGAGATGAAGGAGTTCTTCATCGTGTATCAGCCGAAATGGAATGTGCAAAGCGATCGCTTGGTCGGATTCGAGGCGCTGCTCCGCTGGAGGCATCCGAGGCTCGGCGTGATTTCCCCGCAGGAATTCATTCCGATAGCGGAAGAGACGGGACTGATTATTCCGATGACCCGATGGACGCTTGAAGAAGCATGCAAGCAGTGCAGGGTGTGGCAGGATAGCGGGATTGTCCAGCCGGTCTCGGTGAATCTATCGGTCCGTTTATTTCATGGCGACAATCTGCTGGAGCTGATTCAAAACGTGCTGCGCCAGGCGGATTTGGAGCCGCGGTTGTTAGAGCTGGAGATTACGGAGTCCATGGTGCTGCACGATGTGAACGATATCATCCGTCAGCTTGGGAATATCCGATCCTTAGGGGTTAAGGTCTCCATGGATGATTTCGGAACCGGCTATTCCTCGATTGGGCTCTTGGACCGGATTCCGATTGATGCCCTGAAGCTGGACCGCCAGTTCACCAATGATTTGGACACGCCCAGCAAGCGTGCCATCGTCAACGCCGTCGTTCTTATGGCGGAAAAGCTGAATCTGGACGTGATCGCCGAAGGCGTGGAGAATAAGGAGCATATCGACTTTTTGACAGGGCTCGGGTGTCATGTCATGCAGGGGTACTATTACGGAAAGCCGATGGATATCCATGAGATTGAGGTCTGGATGTACGACCAAGATCACAAGGCCGAAGAGTTCGCGGCCCTTCGATGA	MDGNYNLYIVGLSIAIAILASYSALNITSKISDANGKSKFFWLFGGAMVMGSGIWSMHFVGMLAMHMNMNVKYDAFLTIMSMLASVISSFIAFYITMPKDINWSKIAIGGFVMGSGIVTMHYIGMEAMVVHADIRYDLVFWILSAVIALAASYAALLLFLRFRNHSKSSFLKWGSAVVMGFAVCGMHYTGMKAARFEAHAGMMTHQPQSLDFFLLYCVTVAIFAILLISWGAMFFDRHVLEKLAYQDTITGLPNRNEMNRFFRTNAETDQITILFLDLDQFKAINDTLGHNVGDLLVQEVGKRLRQFIRSGQQVFRIGGDEFLVILKQSDPNYAQRLADDILQQIKKVYHIDGNELYVTVSIGISIGSVHSSDRTTLLKNADTAMYKAKGLGKNQQCLYDEEMGLQEVRKMELEKDLQRALEMKEFFIVYQPKWNVQSDRLVGFEALLRWRHPRLGVISPQEFIPIAEETGLIIPMTRWTLEEACKQCRVWQDSGIVQPVSVNLSVRLFHGDNLLELIQNVLRQADLEPRLLELEITESMVLHDVNDIIRQLGNIRSLGVKVSMDDFGTGYSSIGLLDRIPIDALKLDRQFTNDLDTPSKRAIVNAVVLMAEKLNLDVIAEGVENKEHIDFLTGLGCHVMQGYYYGKPMDIHEIEVWMYDQDHKAEEFAALR	PGPT0026010_1814	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
AK002_00391	1026	splG		Spore photoproduct lyase	TTGGAGCGTTTTGACCCGGAACTCGTCTTTTTTGAGCCGGATGCGTTGGAGTATCCGCTTGGGAAGAAGCTGCAAGCATGGTTTGAGGAATTAGGCACACCCATCAAAATGACCACCTCCCATAATCGGGTAACCGGCATTCCGGGGGAGACCGAAACCGAAAAATACCGAAACGCCAAACGCACCCTAGTCGTTGGGATTAGGAAGACCTTGGATTTCGATACGTCGAAGCCTTCTGCGGAGTATGCCATCCCGTTGACCACGGGATGTGCAGGACATTGTCATTACTGCTACCTGCAAACCACCATGAGCTCGAAGCCTTATGTCCGGATTTATGTCAACCTGGATGAAATTCTGGACCGAGCGAAGCAGTACATCGCTGAGCGGTCGCCCGAAAACACCCGGTTCGAGGCCGCTTGTACCGGCGATCCCGTATCTCTGGAGCATTTGACCGGGGCACTGGCCTATTACATTGAATTTATGGCCAAGCAGGAACATGGCCGACTGCGATTCGTAACGAAATTCGCCAACATCGATTCCCTGCTGAATATCCATCATGGCGGCCATACCAGGGTACGCTTCTCCATCAATTCCGATTATGTGATCCGTTATTTCGAGCCGGGTACCTCTTCCTTCGAAGAACGCATTGAAGCCGCAGGGAAAATTGCCGAAGCCGGATATCCGTTAGGTTTCATCATTGCCCCGATTGTCAAATATGACGGATGGCAGGAAGGATACTGGCATTTATTAGAGAAGCTCCATGAGCGATTGAGCCATGTGGAGGTTAAGGATCTGACATTTGAGCTCATTCAGCACCGGTTTACCAAAACGGCCAAAAACACCATTTTGAAACGGTACCCCAAAACCAAGCTGGACATGGATGAGGAGGACCGGCAGTTAAAATGGGGAAGGTATGGAAAATTCAAATATGTCTATAAAGCCGAAACCGTCGAGGAGTTTCAGCAGCTGTTCGAAAAGGGAATCAAAGAATATTTCCCGCGCGCGGAAATTGCCTATTTCGTCTAA	MERFDPELVFFEPDALEYPLGKKLQAWFEELGTPIKMTTSHNRVTGIPGETETEKYRNAKRTLVVGIRKTLDFDTSKPSAEYAIPLTTGCAGHCHYCYLQTTMSSKPYVRIYVNLDEILDRAKQYIAERSPENTRFEAACTGDPVSLEHLTGALAYYIEFMAKQEHGRLRFVTKFANIDSLLNIHHGGHTRVRFSINSDYVIRYFEPGTSSFEERIEAAGKIAEAGYPLGFIIAPIVKYDGWQEGYWHLLEKLHERLSHVEVKDLTFELIQHRFTKTAKNTILKRYPKTKLDMDEEDRQLKWGRYGKFKYVYKAETVEEFQQLFEKGIKEYFPRAEIAYFV				NA	NA	NA	NA	NA
AK002_00392	756		COG4753	putative response regulatory protein	ATGATGTTTAATGTTCTTGTTGTTGACGATGAGTCTGTTCAAAGAGAAGGCATTAAGGATTTGATCTCTCAGTACCGCTTCCCATTTCAAGTAATGGAAGCCGAGAACGGAATGAGCGCGGAGCGGATTCTGGTGGACAATGCAATTGATATCCTCATCACCGACGTCAAAATGCCTCTGATGGATGGACTGGAGCTAAGCAAACTAGCGCGAAAGGTTCAGCAGGATCTAAAGATTGTCATCTGCAGCGGTTATGATGAATTTGAATATGCCCGCAGTGCCATCCGGCTGGGCGTGGTGAATTACTTGCTGAAGCCGTTAGTCAGGGAGGAGTTTCTGGAGGTGATGGAGGACATTACCCAGATCAGCCCTTATGGAGGGGACTACCAGCAGGAGTCGTTGGAATCCAAGGTTATCGTTCAGGTCAAGGATTATGTGAAGGATCATTACCAGCGGGACATCTCGTTGTCGGATGCAGCTCACGATGTATATCTGTCCCCGGGGTATTTGAGTATTTTGTTCAAGAAAGAGACCGGCGAGAACTTCTCGAAGTATTTGACCGATTACCGCTTGCGGCGGGCAAGCCATCTGCTCCAGAATTCCAATATGAAGGTCAATGATATCGCTGTAGCCGTTGGCATCGATAACCATTCCTATTTTGCCAAGCTGTTCAAAAGCAAGTTCGGCGTGAGTCCGATACAGTACAGAGAGTGCGGGGTGCCCCATGATCGGGTGGATCAAGAACAAGTTCAATGA	MMFNVLVVDDESVQREGIKDLISQYRFPFQVMEAENGMSAERILVDNAIDILITDVKMPLMDGLELSKLARKVQQDLKIVICSGYDEFEYARSAIRLGVVNYLLKPLVREEFLEVMEDITQISPYGGDYQQESLESKVIVQVKDYVKDHYQRDISLSDAAHDVYLSPGYLSILFKKETGENFSKYLTDYRLRRASHLLQNSNMKVNDIAVAVGIDNHSYFAKLFKSKFGVSPIQYRECGVPHDRVDQEQVQ				NA	NA	NA	NA	NA
AK002_00393	1650			hypothetical protein	ATGATCGGGTGGATCAAGAACAAGTTCAATGATATCAGGTTCCGCAACAAGCTGCTGCTGTCCCACTTGGTGATTGCACTCATTCCCATTCTTCTGCTCGGGCTGCTCTCCTTCATTCAGTCCTACCGCATTCAGATGAAGGAACTGCGGAGCGAGGCCGAGGCTAGCCTGGAGCAGGTGGCGAACATTATGGATTACAAGATTAACCGGTACAATACGCTGAGCGAATTCATGGTGCTGAATCGGGATTTATCCCAAATTTTCATTAAGGATTACGAAGAGAACTATTTTAACATGTACTTGGATTTCCGAGACATCCTGGAGCCGTTGATCTCGAACATCAGGCTGATGGACGAGAATATTGAGGCGATTACCTTTTATACATCCGGTGAGCTGCTGGGGATTCGCGACAATATTTTGCCGATCGGGGATCTTAAGAGCAAGTCTTGGTATGACGGATTTCGGGGCAGGCGCTGGATCGTGGACGGGGAGAAACTTTATCTCGTTCAGGAACTGATCAGCAATCCGAAGGACAGCAATTTCATGGTCATTTCCATTCAGCACGACAGCATCTTTGCAGACCTGGACAAGCTGTCGGAGCATGTGGCGGTTCAGATCAAGGATGCTGAGCAGCGGGTGATATTCAAGGAAAGCAAGGCGCCGGATGCATCTGCCGGTTTGGAGGGCGGGGAGTCGAGCGGACTGAGCCTAAGCCGATCACTCGCTAACAATGGCTGGATGGTTCACTATCATTTGCTGAATACGAATGCGTACGCTAATGCGCTCGGTATTTTTCAAATTACGTTGTTTGTCATTATCCTCAGCTTGATCATTACCTTCCTGCTCATTTATGTGATTTCCAACAATTTCACACGCAGAATTATTCATATTAAGAACAAGGTAGACAAGGTGGAGCAGAACAATCTGGATGTCATTATCCAAAGCTCGTCCAAGGATGAATTCGGTGAGCTGACCAACGGCATCGGCAAAATGCTGAAACGGATCAACAGCCTCATCTCCCAGGTGTATCAAGCGGAAATCGCCAAGAGGGAAAGCGAATATAACAAGCTGATCAATCAGATTAATCCGCATTTCCTATACAACACCCTCTCCTTTATCCGGTGGAGGGCCGAGAAGAAGGCGGATATCGAAACGAGTTACATGGTATCGGCATTGGCTCGGTTCTATAGAACGACGCTGAATCAGGGGAGGCATATGGCAACGATCAAGGATGAGGTGCAGCACATCAAGGCTTACCTGGATTTGCAGCTTATTATGAATGATGGCCGGTTTGACGTTGATTACCATATCGATGAGGGAGTATTACATACCGAGATCATCCATTTTATTCTGCAGCCGATTGTGGAGAATGCCATCAAGCACGGATTTGTGGAGGCCAGAGGGGCCGATTACCAAATCCACATTGGGGTCAGCCGGATCGAAGGGGGTATTAAACTATTCGTTAGCGACAACGGGGTGGGCATGACACCCGAGCAGGCGGCGAGGCTGCTGGCCGGAGAGAGCGGCGGCTGCGGCGTTCGAAACGTGAATGACCGGATTAAGCTGTGCTACGGGCAGGATTATGGACTCGATATCCATAGCGAGTCAGGCAGTGGAACAGAGGTATCGATGGTCATTCCAGCCTCCTGA	MIGWIKNKFNDIRFRNKLLLSHLVIALIPILLLGLLSFIQSYRIQMKELRSEAEASLEQVANIMDYKINRYNTLSEFMVLNRDLSQIFIKDYEENYFNMYLDFRDILEPLISNIRLMDENIEAITFYTSGELLGIRDNILPIGDLKSKSWYDGFRGRRWIVDGEKLYLVQELISNPKDSNFMVISIQHDSIFADLDKLSEHVAVQIKDAEQRVIFKESKAPDASAGLEGGESSGLSLSRSLANNGWMVHYHLLNTNAYANALGIFQITLFVIILSLIITFLLIYVISNNFTRRIIHIKNKVDKVEQNNLDVIIQSSSKDEFGELTNGIGKMLKRINSLISQVYQAEIAKRESEYNKLINQINPHFLYNTLSFIRWRAEKKADIETSYMVSALARFYRTTLNQGRHMATIKDEVQHIKAYLDLQLIMNDGRFDVDYHIDEGVLHTEIIHFILQPIVENAIKHGFVEARGADYQIHIGVSRIEGGIKLFVSDNGVGMTPEQAARLLAGESGGCGVRNVNDRIKLCYGQDYGLDIHSESGSGTEVSMVIPAS				NA	NA	NA	NA	NA
AK002_00394	1638			hypothetical protein	ATGAACAAACGCAGAAAGATCGCTTCTCTGCTGCTCGGCTGCATGATGCTGGCCGTAGTCAGCGGCTGCGGCGGGGGCAAGAGCGATAACGCGCAGCCGGAAATTTCAGAGCAGGATTATGAGCCGTACGGGAAATATGAGACACCGGTGGAATTTACGATCGGCCGGAATACCAATCATGTGAACAACCTGCCACCAGGCGATACGATTGAGGACAATTTGGCTACTCGTTACGTGGAGGATCGGGTGAACGTAAAAGCCAAGGTGGCTTGGGAGACGGACGATATGGATCAGAAGCTGTCGCTATCGATGACAACGGGCGATCTGCCGGACGTTATGCTGGTCAGCCGCGATATTTTCAACCAGCTGGTGGATAATGATCTGATTGCCGATATGACGGAGGTGTACGAGAAGACCGCATCCGACGGGGTCAAGAATATCTACGCTTCCTATGGTGACTTGCTGCTGAACCAGGTGAAGGTCGACGGTAAAATCATGGGCCTTCCGATGACGAATATCGGCAACCAGCACCAGCTGCTGTGGGTTCGGAAGGACTGGGTGGATAAAGTCGGCGCGAAGATGCCGGAATCCGTTGAGGACGTATGGAACCTCGCCAGAACGTTCGTGGAAAAGGACGCCTCGGGAACAGGCAAAACGGTCGGAATGGTGATGGATTCCAATGCCATGAACTTTACGCCGGTATTCGCTGCGCATGGGGCCTTTCCGATGAATTGGATCGAGAAGGACGGTCAGGTCGTATATGGATCGGTCCAGCCCGAGATGAAGCAGGCGCTGACGGAGCTAAGCGCCATGTACAAGGAAGGTCTGATTGATAAACAGTTCGCCGTCCGGTCGAATGAAGAGAAGGAAGCGCTTGTGATCAACGGACAGGTAGGCATGCTGTTTAACCCATGGTGGATCGGCTACACCAACTACAAGGACTCGATCAAGCAAGATCCTGATGCTGTCTGGGTAGCCGTATCGGCACCGGTAGACGAGAACGGCAAATTCAAGACGATTCGTCAGGATCCGGTGGGCGGGGGCATCGTTGTGGTGAAGAAGAATTTTGCCCATCCCGAAGCAATCATGAAGTCGGTCAATCTGACAACGGATTTCCTGTACTCCTTAACGGATGATGCCATCAACTACAAAAAAGAGCATCCGGACGAGATGCTGACCGATGCCAGCCGTTGGAACAATGATCCGACGCAAATTCCGATGCAAGTGGATTATGATGACGTGTTGAAGCGTTATTACGACGATCTGATGAAGGCGGATCAATCCGGGGATGCTTCGGCCGTTCAGGAGGACCGGGTGGTATCTTTCAAGGCGTATCAGGAGTTTAAGGAGAAAGGCAATGACGTCGATGTGAACACCTATGGCGAATATCTCTCCCGTATCGAGGGTCAGCGCGAAGCGAACAATCCGAATCTGGAGGTAATTCCTGCCGGCTTCTATGGAACCACCGAGACGATGAAGCTGAAGTGGGCGAACCTCCAAAAGCTCGAAGAGGAGACCATATTGAAAATCATCATGGGCCAAGCCCCCGTAGATGAATTCGATAAGTTCGTGGACACCTGGAAGCGTACCGGCGGCGATGAAATTACAGAAGAGGTCAACCAGATGAGCAGCAGATAA	MNKRRKIASLLLGCMMLAVVSGCGGGKSDNAQPEISEQDYEPYGKYETPVEFTIGRNTNHVNNLPPGDTIEDNLATRYVEDRVNVKAKVAWETDDMDQKLSLSMTTGDLPDVMLVSRDIFNQLVDNDLIADMTEVYEKTASDGVKNIYASYGDLLLNQVKVDGKIMGLPMTNIGNQHQLLWVRKDWVDKVGAKMPESVEDVWNLARTFVEKDASGTGKTVGMVMDSNAMNFTPVFAAHGAFPMNWIEKDGQVVYGSVQPEMKQALTELSAMYKEGLIDKQFAVRSNEEKEALVINGQVGMLFNPWWIGYTNYKDSIKQDPDAVWVAVSAPVDENGKFKTIRQDPVGGGIVVVKKNFAHPEAIMKSVNLTTDFLYSLTDDAINYKKEHPDEMLTDASRWNNDPTQIPMQVDYDDVLKRYYDDLMKADQSGDASAVQEDRVVSFKAYQEFKEKGNDVDVNTYGEYLSRIEGQREANNPNLEVIPAGFYGTTETMKLKWANLQKLEEETILKIIMGQAPVDEFDKFVDTWKRTGGDEITEEVNQMSSR	PGPT0017245_1467	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00395	951	yteP_4	COG4209	putative multiple-sugar transport system permease YteP	ATGGGGCAAGTGGAAACAACCGTCAATCCAGAGCGGGAAGTACGATACCGGAGGAAAAAGAAACGAAGAACCTTTGACGAAATGACCTATCATGCGATGCTGCTGCCCGGTATGGCGATGCTGTTTATTTTCTCGATTGTGCCGATGTTCGGGGTAGTCATGGCTTTTCAGAAGTTCATCCCCGCGAAAGGGATACTCGGCTCCGCATGGGCAGGGCTCGACAATTTCACGTATATGTTTCAGCTGCCGGATGCCAAGCAGATTTTTGTGAATACGCTGGTCATCGCGGTCGGAAAGATTGTTCTCGGATTGATTGTGCCGATCATATTCGCCCTGCTGCTTAATGAGGTGCGTCTGAAGCTCTTCAAAAGCACGATACAAACCATTGTGTATTTGCCGCATTTTATGTCGTGGGTGGTTCTGGGCACGATGCTGACCATGATCTTTTCCTTTGACGGCATGATTAACAATTTCCTTGAGTTTCTAGGGCTGGAGCGGATCATGTTTCTGGCAAGCAACGACTGGTTCAGGCCGCTGCTCATCGTGACGGATACCTGGAAGGAATTCGGCTACGGGACGATTGTGTATCTGGCTGCGTTGACGGCGATAAATCCGGCTCTGTATGAATCCGCCGCAATGGACGGCGCAAGCCGCTGGAAGCAGACCCTGAATATCACACTCCCGGGCATGTTTCCGACGATCATCCTGCTGGGCACGCTGAGTCTCGGCAATGTGCTGAATGCGGGATTTGACCAGGTGTTCAACTTGTATAATCCGCTGGTCTATGAGACGGGTGATATTATCGATACATTTGTGTATCGTATGGGTCTGATCAATATGCAGTATTCGTTCGCAACGGCGATCGGTCTGATGAAATCGGTCATCAGCTTTATTCTGATCGTTATATCCTACAGGCTGGCCTCGAGGTATGCGGGGTACAGGATTTTCTAG	MGQVETTVNPEREVRYRRKKKRRTFDEMTYHAMLLPGMAMLFIFSIVPMFGVVMAFQKFIPAKGILGSAWAGLDNFTYMFQLPDAKQIFVNTLVIAVGKIVLGLIVPIIFALLLNEVRLKLFKSTIQTIVYLPHFMSWVVLGTMLTMIFSFDGMINNFLEFLGLERIMFLASNDWFRPLLIVTDTWKEFGYGTIVYLAALTAINPALYESAAMDGASRWKQTLNITLPGMFPTIILLGTLSLGNVLNAGFDQVFNLYNPLVYETGDIIDTFVYRMGLINMQYSFATAIGLMKSVISFILIVISYRLASRYAGYRIF	PGPT0017250_2488	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00396	888	lacG_1		Lactose transport system permease protein LacG	ATGATTCAATCCAAAACGCTGGGCTCAAGGCTATCCCGCCTGATGATTATGCTCGCGCTCGTCCTGATCACATTTCTGTCGCTGGCTCCCATCGTTAATACGATTATGGTGTCCGTCAGCAGCAGCACGGCTGTGAATGCCGGCCGGGTCTACTTCATTCCGGTAGAGCTGAACTTCTCATCCTACGGGCAGATACTGAATGACATGAAGTTTTGGAAGGCGTTCCTTATATCCGTGGAACGGGTGCTGCTTGGGGGTGCGATCAACATGATTCTGACCATCCTCATGGCGTATCCGTTGTCGCGGAGCGTTACGCAGTTCCGATCGAGAAACAAATACATGTGGATTATCGTGTTTACGATGCTCTTCAGCGGCGGGATCGTTCCCTGGTATATGGTGATCAGCAAGCTGGGGTTGATCAACAGCATTTGGGCGCTGGTTCTGCCGGGAGCGGTTCCTGTCTTCAACGTCATTCTCCTGATGAACTTCTTCAAGGGCATTCCGAAGGAGCTGGAGGAGGCCGCATTCATTGACGGTGCCGGTCCGCTGAAAATCCTGCTCAAAATCTTTATCCCGATCTCCATGCCCAGTTTGGCAACCATTACCCTGTTTGTCATCGTCGGTCACTGGAACAACTTTTTTGACGGGATCATTCTGATCAATGATAGCGAAAAAATACCGCTTCAGACCTATCTGCAGCAGCTCAGTCTGACGCGGGACCAGATGCAGAATCTCTCGGTCGAGCAGCTGCAGCAGTTCAATAAAATTTCCAATACGACCCTGAACTCTGCCAAAATTCTGGTTTCCATGATTCCGATTCTGCTGATCTATCCGTTTCTGCAGCGTTACTTAATTCACGGAATCGTTCTGGGAGCCGTGAAGGAATAG	MIQSKTLGSRLSRLMIMLALVLITFLSLAPIVNTIMVSVSSSTAVNAGRVYFIPVELNFSSYGQILNDMKFWKAFLISVERVLLGGAINMILTILMAYPLSRSVTQFRSRNKYMWIIVFTMLFSGGIVPWYMVISKLGLINSIWALVLPGAVPVFNVILLMNFFKGIPKELEEAAFIDGAGPLKILLKIFIPISMPSLATITLFVIVGHWNNFFDGIILINDSEKIPLQTYLQQLSLTRDQMQNLSVEQLQQFNKISNTTLNSAKILVSMIPILLIYPFLQRYLIHGIVLGAVKE	PGPT0017255_1754	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00397	1164	araR_1	COG1609	Arabinose metabolism transcriptional repressor	TTGAAAGATGCAGCTTCCACGAAGCCGATGTATGAACAGATTTTTAACGAGATGAAGCGAAAGATCTCAACCCATATGTTTCGGATTGGAGATAAAGTTCCATCAGAGAAGGAACTTGCGGATGAGTACGGAGTTAGCCGAATCACTAGCAAGAAGGCATTGGATCTGCTGGCGGCTGAAGGCGTGATCGTGCGCAAGCCGGGCAAGGGATCGTTCGTAGCCGATCCGGATGAGCCTGTAGTACACAGGGAACCGCTCTCCTCAGAGAGCGCGGATGCCGGAGCAACCGGCCGGGAAAAAATGATCGGCCTGGTCATTACGGACTTTTCCTCAAGTTACGGGACACGGCTCATCTACAGCATGGAGCAGTATTCCAGGGAGAATGACTGCTTTCTGGTCCTGCGCAGAACGTTCGGGGACCAGGATAACGAGGAATTATCCATCCAGAAGCTGCGGAATCTCGGCGTGAACGGACTTATCGTATTTCCCGCGCAGGGGGAATATTTCAATGCTGAAATATTGAAGATGGTCATAGCCCGTTTCCCGCTGGTCCTGATTGATCGCAAGCTGAAGGGAGTCGCAGCTGCTTCCATCAGCACGGATAATCTAGGGGCAGCCGTGCAAGCGGTGGAGCATTTATTCGATTTGGGGCACCGCCATATTTGCCTGCTATCTCCTCCCCCGAGGGATACGACGGCGGTGGAAGAGCGGATTGAAGGATTCGTTCAGGCTCATGCCGCCCGGGGCATCGCGTTTGACAAGGAAATCTGGATCAGTGACGTAACAGCCACGTTACCGAATGCTTTCTATGAAAGCAATATTGAACGGGAAATTCAGCGGATCATGCAGCATTTGCAGGATCATCCGTCGATTACCGCTTTTTTTGCGATCGAGTACAATATTGCACTGCTTGCCAAAGTTGCAGCTGAACGTCTCGGTTTGCGGGTGCCGGAGGATGTATCGATTATATGCTTCGACAGTCCGCAATTAAATATCGGCGAGGGGTATTTGTTCACCCATATGCGGCAGAACGAGGAAGAGATGGGGAGACTGGCGATCGAGACGGTGCTGGGCATCATGAACCACGATGCGGTTGCGGTCGAGAAGAGATTGCCTGCGGAATTGGTGGTTGGCGCATCTACCGGTCCTGTTAAGGAATCGTAG	MKDAASTKPMYEQIFNEMKRKISTHMFRIGDKVPSEKELADEYGVSRITSKKALDLLAAEGVIVRKPGKGSFVADPDEPVVHREPLSSESADAGATGREKMIGLVITDFSSSYGTRLIYSMEQYSRENDCFLVLRRTFGDQDNEELSIQKLRNLGVNGLIVFPAQGEYFNAEILKMVIARFPLVLIDRKLKGVAAASISTDNLGAAVQAVEHLFDLGHRHICLLSPPPRDTTAVEERIEGFVQAHAARGIAFDKEIWISDVTATLPNAFYESNIEREIQRIMQHLQDHPSITAFFAIEYNIALLAKVAAERLGLRVPEDVSIICFDSPQLNIGEGYLFTHMRQNEEEMGRLAIETVLGIMNHDAVAVEKRLPAELVVGASTGPVKES	PGPT0017490_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_00398	1284			hypothetical protein	GTGCATTCCATAACTGAACTGCCAGAGGCCGTTAAGCGGTTAACGGATCTGGTTCGGGCGAAGCAGCCGGAACGAACAGCCGACATGTTCGAGAGATGCCTAGCGAATACCTGGAATACCACCTTGAAGCGAATGGAGGACGGCACGACGTTTGTCATTACCGGGGATATCCCCGCCATGTGGCTGCGCGATTCGGCTGCGCAGGTCAGGCCCTTCCTGGTGCTTGGAGAGGACCGGGAGATCGGCGACATGATTCAAGGCGCGGTCAGACGCCAGTTTGACTATATTCTGCGGGATCCGTATGCCAATGCGTTCAATGAGTCCGCGAACGGGATGGGACATCAGGATGATGCAACCGAGATGAGTCCGTGGATTTGGGAACGGAAATACGAGATCGATTCGCTGTGTTATCCGATCCAGCTCAGCTACCTGCTGTGGAAAAACTCCGGGAGAACCGGCCATTTTGACGAAGCCTTTCGGGCAGGCGTGCGGCAGATAATCGAGTTGTGGACGACAGAGCAGCACCATGAACAGCAATCGGCTTACACCTTCGAGCGGAGCAGCTGCCCTCCGTCGGATACGCTGGTCCGTGGCGGAAAAGGAGCACAGACGGCATATACCGGCATGACCTGGTCTGGCTTCAGGCCGAGCGACGATGCTTGTGCCTACGGGTACCTGGTTCCGTCGAACATGTTTGCGGTCGTTGTGCTGGGGTATGTGACGGAGATTGCCGAGGAGATTCTGAAGGATCGGGAGCTGGCAGCGGCGGCAGAGGAGCTCGCGGCACAGATCGAAGCCGGCATACAGCGGTACGGCATTGTGGAGCATCCTGAATGCGGCCCTATCTATGCATACGAGGTGGATGGATTGGGTTCGATGAATCTGATGGACGATGCGAATGTGCCCAGCCTGCTGTCCATTCCGTACCTGGGATACCGAAATGCGGAAGATCCGATATACGCGAATACGCGGAGGTTTATCTTGAGTGACCGGAACCCGTACTACTTCTCCGGGACGGCTGCATCCGGCATCGGCAGTCCGCATACGCCGGATCAATACATATGGCATATTGCGCTTGCGATGCAAGGGATGACCGAACAGGATGAAGCCGAGCGTCAGCGCCTCCTTGAACTGCTGCTGGCAACGGACGGAGGAACCGGGCTCATGCATGAAGGGTTTCATGTGGATCGGCCGCAGGAATATACCCGGCCTTGGTTTTCATGGGCCAATATGATGTTTTGCGAACTGGTGCTGTTGTGCTCCGGTATCGCGGTTAAACGGTAA	MHSITELPEAVKRLTDLVRAKQPERTADMFERCLANTWNTTLKRMEDGTTFVITGDIPAMWLRDSAAQVRPFLVLGEDREIGDMIQGAVRRQFDYILRDPYANAFNESANGMGHQDDATEMSPWIWERKYEIDSLCYPIQLSYLLWKNSGRTGHFDEAFRAGVRQIIELWTTEQHHEQQSAYTFERSSCPPSDTLVRGGKGAQTAYTGMTWSGFRPSDDACAYGYLVPSNMFAVVVLGYVTEIAEEILKDRELAAAAEELAAQIEAGIQRYGIVEHPECGPIYAYEVDGLGSMNLMDDANVPSLLSIPYLGYRNAEDPIYANTRRFILSDRNPYYFSGTAASGIGSPHTPDQYIWHIALAMQGMTEQDEAERQRLLELLLATDGGTGLMHEGFHVDRPQEYTRPWFSWANMMFCELVLLCSGIAVKR				NA	NA	NA	NA	NA
AK002_00399	1281			hypothetical protein	ATGAAAAAGCAGTGGAAGATCGTATGGTCGATGATAGTTGTGATTGGGCTTCTGGCGGGCTGCTCAGGGGGCAGCGGCGGCTCCTCCGGCGGAGAAGCCAGCGGCGGCAAAACGGTGCTGACCTTCTGGGGAGACTGGGGCGGAGAAGGGCAGGAACAGATCCAAACGATGGTGGATGCTTTTAATAAATCCCAAGATAAAATCGAGGTAAAATATGCCCTGCAGCAGGACGTGGTGACGAAGTTTCTGACCGCGGCCACGAACGGGGGGACGCCGGATGTCGTGTTCTGGGACCGGTGGCGGACCGCGCTCTATGCACCTAAGAACGTGCTTCATCCCGTAGATGAATACCTGGAGCGCGACGGCGTCAACAAGGAGGATTTTTACGAAGAGGCTCTGAAGGAGCTTACCTATGATGACAAGCTGTACGGATTGCCGTTGACGGTGGACGCGCGGGCCCTGTTCTACAACAAGAAAATGCTGGAGGAAGCCGGGCTTGAGCCGCCAACGAACTGGGATGAGCTTGAGGCGGCAGCCAAAGCCACGACCAAGTGGAACGGGACCAAGCTCGAAACGGCAGGGTTGTCGATGGGGGATCCCGGACTGTTCAACATGTATTTGCAGCAGGCGGGCGGAACGATGCTGACCCCGGACAACACGATGAACGTGAACAACGAGAAGGGCAAAGCGGTATTGGACTTCTGGGGACGTTTGCTGAATGAGGACAAGGTGTACAAGATCGGTTTCGAGGACGGCTTGGGCGAAGGAACGGATGCGTTTGTAACCGGAAAAGTCGCTATGCTGTACACCGGCCCTTGGATGCTGAGCACCTATGATAAATACGGCAAAGATCTGGAATATGGCATCGTGCCGCCACCGGCCGGACCGAACGGCGATAAGGGAAGCGTTATGGGCGGCTTTGGGCTTGTCATTCCGCAAGGCTCGAAGCATCCGGAGGAGGCTTGGGAGTTTATCAAATGGTGGACGGCCAACAAGGACAATGCCGTGTTATGGGCCAAAACAAGCCTGAATATGCCGGGCTTCAAGCCTGCCTTCGAAGATCCGTTCTTCGCGGACGATCCGAAATGGATTCCGTTTATGGAGACGCTTGAATTTGCCAAAACACGGCCGACGCATCCGGGTTACTCCGTCATGGAGGAGAACGCCGTCATTCCGAATCTGGAGCTGTTCATGCAGAACAAGCAGAGCGCCGAAGAGACCCTTCGGCTCAGCCAGGAGCAGGGCGATAAGCAGCTGAAGGAAAATGCCGTTGCCCGTTAA	MKKQWKIVWSMIVVIGLLAGCSGGSGGSSGGEASGGKTVLTFWGDWGGEGQEQIQTMVDAFNKSQDKIEVKYALQQDVVTKFLTAATNGGTPDVVFWDRWRTALYAPKNVLHPVDEYLERDGVNKEDFYEEALKELTYDDKLYGLPLTVDARALFYNKKMLEEAGLEPPTNWDELEAAAKATTKWNGTKLETAGLSMGDPGLFNMYLQQAGGTMLTPDNTMNVNNEKGKAVLDFWGRLLNEDKVYKIGFEDGLGEGTDAFVTGKVAMLYTGPWMLSTYDKYGKDLEYGIVPPPAGPNGDKGSVMGGFGLVIPQGSKHPEEAWEFIKWWTANKDNAVLWAKTSLNMPGFKPAFEDPFFADDPKWIPFMETLEFAKTRPTHPGYSVMEENAVIPNLELFMQNKQSAEETLRLSQEQGDKQLKENAVAR	PGPT0016545_7728	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00400	921	melD_1	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGACTTCCGCCACGAAGCCAGTCAGCGCCAAGCCTGCTTCCGTCACGAAGCTGGGCAAACACCAGGCCAGGATGGGCTACCTGTTCATTATGCCGACAATGCTGTTATTTGCGGTATTCATGGTGATCCCGGTTGGAATGGCGCTATACCTGAGTTTTACCAATTATGACGTGCTCAGCTCGAACGACTGGGTCGGCATGGACAATTACAGGCGACTGTTCGGCGATGATTTGTATTGGAAAACCTTCGTTAACGTGATGATTTATGCGGTGGTGTTCGTGCCGCTTAACGTACTGATCTCCCTTCTGCTGGCGATTCTGCTGAACCGGGCTGCGAGGGGAGTCAAGGCGCTGCGGACGTTTTACTATCTTCCGACCTTGACGTCGGCGGTCGCGGCGGCCACCGTCTGGATCTGGATGCTGCATCCCGAATACGGGCTCGTTAACGGGATCCTGTCGCTGTTCGGCATCACGGGCCCGGCCTGGGTGTCTCAGACCGATACCGCCATGCTGTCGATTATTATGATGACGCTGTGGCAGAGCGTAGGCTCCAATATGATCATTTACCTGGCCGGTCTTCAGGGCGTGCCGGATTACCTGTACGAGTCCGCTCGTCTTGACGGTGCCAGCAAATTCGATTGCCTGCGTTACATTACCTGGCCGCAGCTGCGGCCGACCACGTTCCTTGTCAGCACGATGTCGATTATCGGCGCGCTGCAGCTGTTTGATCAGGCATTCGTGCTCACGCAGGGCGGACCCGCCAATGCAACGAAAACGCCGGTTTATCTCATTTATCAGCAGGGCTTTAACCAGCTGCAGATGGGATATGCATCGTCGCAGGCCTTTGTGCTGGCGATGGCGATTCTGGTCTTCTCGCTGATCAGCATGAAGATCAATAAATCGGAAGAATCGATTGTGTAA	MTSATKPVSAKPASVTKLGKHQARMGYLFIMPTMLLFAVFMVIPVGMALYLSFTNYDVLSSNDWVGMDNYRRLFGDDLYWKTFVNVMIYAVVFVPLNVLISLLLAILLNRAARGVKALRTFYYLPTLTSAVAAATVWIWMLHPEYGLVNGILSLFGITGPAWVSQTDTAMLSIIMMTLWQSVGSNMIIYLAGLQGVPDYLYESARLDGASKFDCLRYITWPQLRPTTFLVSTMSIIGALQLFDQAFVLTQGGPANATKTPVYLIYQQGFNQLQMGYASSQAFVLAMAILVFSLISMKINKSEESIV	PGPT0016535_5046	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00401	891	araQ_4	COG0395	L-arabinose transport system permease protein AraQ	ATGAGAGCAATTGAGAGTCAGGCCAAGCGGCAGCGAATCCTTACCGCGAGCGTCTTCTATATCGGTGCCATTCTGATCGCCATCGTCATGTTTCTCCCGTTCTACTGGAGCGTGATGACCTCTTTTAAGCCGGATGAGGATATGTTCTCGATGCCGATCAAATGGTTCCCTACGGACATCACGCTGGAGCACTATAAAAAGGCGTTCACAACCGTACCCTTCGGCCTTTATTTCTGGAATTCATTCTTTCTGGCCGTTACCGGCGTGCTGCTCAACCTGTTCTTCGGTTCGCTCAGCGGCTACGCTTTTGCCAAGCTGAAGTTCAAAGGCAACTCGGGTCTCTTCCGCGTGCTGCTGGCCGCGATGATGGTCCCGGGCATCGTCACGATGATCCCGAGCGTGTATGTGCTGCGCCATATACCGCTGATGGGAGGCAACGACCTGTTCGGAAGCGGCGGCATGGGGTTGATGAATTCCTTCTGGGGGATCATTCTTCCGGGGGCTTCCGGCACGTTCGCGGTGTTTTTCATGCGGCAGTTCTTCCTGACGCTCCCCTCCGACATGATGGAGATGGCGCGGATTGAGGGCTGCGGCGAATTCAAAATTTTTTGGCGCATCTATTTGCCTCTGACCAAGCCGGCGCTGGCAACCCTGAGCATCTTCACGTTTCAGGCGGGCTGGAACAGCTTCCTGTGGCCGATGATCGTGCTGAACGATCCGAACAAGGCGACGATCCAGATGGGGCTCCAGGCGTTCTCGTTCAATTTCCAGACGGATTACGGCCCGATGATGGCCGGGGCGCTGGTGGCTATTTTGCCGATCCTTGTCCTGTTCCTGGCTCTGCAGCGGTACTTCATTCAGGGCATCGCATTTAGCGGGATCAAAGGCTAG	MRAIESQAKRQRILTASVFYIGAILIAIVMFLPFYWSVMTSFKPDEDMFSMPIKWFPTDITLEHYKKAFTTVPFGLYFWNSFFLAVTGVLLNLFFGSLSGYAFAKLKFKGNSGLFRVLLAAMMVPGIVTMIPSVYVLRHIPLMGGNDLFGSGGMGLMNSFWGIILPGASGTFAVFFMRQFFLTLPSDMMEMARIEGCGEFKIFWRIYLPLTKPALATLSIFTFQAGWNSFLWPMIVLNDPNKATIQMGLQAFSFNFQTDYGPMMAGALVAILPILVLFLALQRYFIQGIAFSGIKG	PGPT0016540_2598	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00402	825			hypothetical protein	ATGATAACGGTGTCCGGTATATGGACCAAAAGGGCCGATGAGGCGCAGCGCGCGCTGGAACGTCTTTTCTGGAATGATTCGATCCGTATGTACAATATAGAAACGCCGTGCCCGGACGGGGCGTGCAATACGATTTTCCATTATTGGTGGATGGCGCACGCGGCGGATGTGCTGGTGGACGGTTATGTTCGCACGGCAGATCCGTTGTATGCGGAGCGGCTGGAGCAGTTGTATGAGGGAGTGCTCCGCCGGAATAACGGCGAATGGCCGAATGAGCTGTACGATGATATGGAATGGATGGCGCTGGCATGGCTGCGCGCCTATGAGGCGACGGGGCTGGAGAAGTACAAGCAAGCGGCGCTGACGCTCTGGGAGGATATTCAAACCGGCTGGAACGAGGTTCAAGGCGGGGGAATTGCATGGCACAAGGAGCAGCTCGGTTATAAGAATACCCCGGCTAATGCGCCTGCGATTATTTTGGCGGCACGGCTGTATCGGGCTTTCGGCAACCCGGCGGACCTGGAATGGGCTCGGAAAATCTACGCTTGGCAGAAGAATGCCCTCGTGGATCCTATCACGGGTTTTGTCTGGGACGGGATGAACCGGACCGGGGACGGGGCCATCGATAAAGATTGGAAATTCACGTATTGCCAAGGCGTCTTTATCGGAGCCGCTGTCGAGCTGTTTCGGGTCACGGGCGATTCGGCGTATCTTGAAGACTCCAAGCGGACCTTTCAAGCGATGCGCGTAGAGCTGGCGGATTCGGCAGAAGGCATTCTTCCGGACGAAGGGGGGGCGACGCCGGATTGTTCAAAGGCATCCTGA	MITVSGIWTKRADEAQRALERLFWNDSIRMYNIETPCPDGACNTIFHYWWMAHAADVLVDGYVRTADPLYAERLEQLYEGVLRRNNGEWPNELYDDMEWMALAWLRAYEATGLEKYKQAALTLWEDIQTGWNEVQGGGIAWHKEQLGYKNTPANAPAIILAARLYRAFGNPADLEWARKIYAWQKNALVDPITGFVWDGMNRTGDGAIDKDWKFTYCQGVFIGAAVELFRVTGDSAYLEDSKRTFQAMRVELADSAEGILPDEGGATPDCSKAS				NA	NA	NA	NA	NA
AK002_00403	1308			hypothetical protein	TTGTTCAAAGGCATCCTGATCCGTTATGTGACGGAAGCCATCCAGGTGTGGCCTGAAGCAGCAGAAGCTGCAGGGTGGTTGACGCGGAACGCTGATAGGCTATGGGAACAGGGAAAGACTGCAGATGGCGCGTTGTTCGGGACCGATTGGAAGAGCCGCCGAACGTCTGACGCTATCGTTCAGCTCAGCTCACAGCTGAGCGGCGTGATGCTGCTTGAATGTGCGGCCGTACTGGAATCGGCAGGGCAGGCTGGGGGGAGCGATGGTCGGCATTCTGCGGCAAACTGGGATAAGAGAGCGGACCTGCTGCAGGAGGCCATGTACCGAAATTACGCAAACCCGGACAGCGGTATTATGGATCAATGGTTTCCGCGGGAACATGCCGCGGCAGGCGAGAATTTCTATTATTGGTGGCAGGCGCATGTGCTGGATGTGCTGGTGGACGCTTATAAGCGCACGGGAAAACCGATGTACGCCGACCGAATGGAAGCATTCAGCCGAAGCCTGTACAAGTACAACGGCCATACGTTCACCCACAATTATTACGATGACATGGAGTGGACGGCACTCGCGCTGCTGCGTGCGCATCAGGCTACCGGAAGCGAGTGGTTTAAGGAGCAGGCGCTTACGCTGTGGGAAGACATCAAGACCGCTTGGAACGATCACTGCGGGGGCGGCATGGCGTGGAAGAAGGATCAGCTGGATTACAAAAACACGCCGGCTAACGCGCCTGCCGCCATTTTGGCGGCAAGGCTGTATCTTTTGGAGCGAAACGAAGAGGATTTGAACTGGGCAAAGCGCATTTATGAATGGAATAAAAGCCGACTTGTCGATCCATCGACCGGGTTCGTATGGGATGGCATGAACCGGCTGGGCGACGGTGAGATCGATTACGATTGGAAATTCACGTATTGTCAGGGCGTGTTCCTCGGTGCCGGAGTGGAATTATACCGTTGTACGGGGAATAAGTCCTATCTCGAAGACGCTAAACGGACCGCTGACGCATGCATGCTCGAGCTGTGCGATCCAAAAACCCTGCTTCTGCCCGATGAGGGCATTGACGACACGGGTCTGTTTAAAGGCATCCTCATCCGTTATCTGCTGGTGCTGCTTGAAGAGGCGCCCGAAGAGGACGCCGTACGCCGAATGGTTCAGTGTAACGCGGAAACGCTGTGGGAGAAGGGAATGCTTGAGGATGCTGGTATATGCGGCCCTGCCTGGGACACTCTGCCGACTCTTCCCGTTCAACTGAGCGTGCAGCTGAGCGGAATGATGCTGACGGAGGCTGCGGCCGTGTTGAGCAAATAG	MFKGILIRYVTEAIQVWPEAAEAAGWLTRNADRLWEQGKTADGALFGTDWKSRRTSDAIVQLSSQLSGVMLLECAAVLESAGQAGGSDGRHSAANWDKRADLLQEAMYRNYANPDSGIMDQWFPREHAAAGENFYYWWQAHVLDVLVDAYKRTGKPMYADRMEAFSRSLYKYNGHTFTHNYYDDMEWTALALLRAHQATGSEWFKEQALTLWEDIKTAWNDHCGGGMAWKKDQLDYKNTPANAPAAILAARLYLLERNEEDLNWAKRIYEWNKSRLVDPSTGFVWDGMNRLGDGEIDYDWKFTYCQGVFLGAGVELYRCTGNKSYLEDAKRTADACMLELCDPKTLLLPDEGIDDTGLFKGILIRYLLVLLEEAPEEDAVRRMVQCNAETLWEKGMLEDAGICGPAWDTLPTLPVQLSVQLSGMMLTEAAAVLSK				NA	NA	NA	NA	NA
AK002_00404	5103			hypothetical protein	ATGTTTGAATTGCCAGGATATCAAACATTGGACGTAATCCATACTAATGGAGACATTCAACTCTTTAGACTTTCGCGTTCTATCGACGGTTTGCGCGTCTTAGCCAAGACAACGCGCGATGCAGGTCCGGAATCGGCCATGGTGGCTGCTTTTCGATACGAGTATGACGTATTGAAGAAGCTGGATGGCCGTGGAGCCTTGGAAGCGTACAGCTTGGAGATGATCGCAGATCGGCCGGTTCTTCTCCTGAAAGAGATGGCCGGGGTTACATTGGAACAGCTCCTGCGGGCATATTCTGACGTTCCGGAACTTCCGGATCTCCTGCGCATGGCTGTTGCCATAACCGATTGTTTTATTCGGATTCATCGAGAGAACATGACGCTGAACGAAATCACGCCCTCTCATTTGATGGTCAATCCCCGCACCTATGAAGTGAAGCTGATCGATATTCGTATGTGTTCAACCGAAGCGGGCAAAAGCCCGCTGTCTTCTTTAAGCCGGCCGGATGCGTCTCTTCCTTATATATCGCCCGAACAGACACGCAGAACGGGAATGACGCCGGATTACCGATCCGATTTTTATTCCCTCGGGATCATATTATACGAGTGGTTGTCCGGTACTTTACCCTTTGAACATATCGACCCTGTAAATACGGTATACCGCCATCTTGCCGGTACCCCTGAGCCTCTTCACCGCAAATTCCCCTTCATCCCCAAAATAGTGTCCGATATTATACAGAAATGCATGGAGAAGATGCCCGGCGATAGGTATGTCAGCGCATTCGGAATTCAAACGGACCTTGAGGAGTGTTTCAATCGGCTTCAGGATACAGGCGAGGTGGAACCATTTCGACTCGGAAGCCGGGATATACCGGAACGATGGGTGGAATCGGCCCAATTCTACGGACGGCAGGCTGAGCTGCAGATGCTGCAGGATGCAGTGCGGAGGGCGGCTAGCGGGTCTGTTGTGCTGGTTGGCGTTAGCGGTACGGAGGGGATAGGAAAAACTTCTTTTCTCATGGAAGCCCTGGATCAGGCTGCATCTATGGACTATTTCTTCATCAGGGGCAAGTTCGGCACCCATCAGACGGCTCAGCCTTACGATATTTGGATTCAGGTGATCCGTAAACTGATTCGTCAACTGCTGACCGAGGGCAATCTGCAGGCCGAAGTATGGAAGCTGCGGATTCTTCAAGCGGTTGAGGATTACGGGAAAATTCTGATTGAACGGGTTCCCGAGCTGGAATTGCTGATAGGCCAACAGCCGCCTGTTCAACCGCTGCCGCCCGTAGAAGCCCAGGAACGGTTTCATCTGATCATGAACCGATTTATCCAGTTGTTCCTTCGTCCGAACTGTCCCTTGGTTCTATTTCTTGACGATCTTCAATGGGCGGACGAAGCATCTCTTCGATATCTGGAATTTCTTCTGGACGACAGAGCAACCAAGCATCTGCTGGTTGCATTGGCTTACCGCGATCAAGATGGCGACCTGATTCGTCGATTAGAAAACCGCTTGACTCATGATCGTATAATACGGAATCATATCGATCTGCAGCCTCTCGCCTTGGATGATATAAACCAGCTGTTAAAGGATGTCATGCGTCATAAAGATGACGATGTAGCGGAGCTGGCTGTTGCCTTGCTTAGGAAGACAGACGGCAACCCCTTCTTTCTCAAGCAGTTTCTTGGAGATTTAATTGCCCATGGCCATGTTTTCTTTGATCAATCGAGCAAAAGCTGGTCATGGGATTTGCCGTTTATTGCCGAAATGAACATTCCCGATAATGCGGTCTCCTATCTGACGGATCGATTGCGGGTACTGCCAACATCCACAAAGATTGTAGTCGGCTATGCTTCATTTCTCGGAGACCGATTTGATCTGGAAACCCTGTCCGTTATATCCGGGCTCCACATAACGAAACTGGCGAAGGAACTGGAGATGGCAGAAAGGATGTCATTGGTGCAGCTCATCAACGACGGCAGCCGAAGCTCCTATAAATTTCAACACGACCGCATCCAGCAGGTGGCTTACACGCTTGTTCCGGAAGAAGAACGCTCGGATTTGCATTGGAGCATCGGCTTGCTCTTCCTTGACCGAATGAATCTCGGTCAGGGAGATGGTACGGAGGCTTTATTTGAAGCTGTTAATCATATGAATCTTGCTGTGGAGCGGAACCGTCAACCTGAACAGAGAACAAGGATGGCGGAGCTGAATCTTAGGGCAGGCTTGAAGGCAAAAGAATCGACCGCCTACGAGACTGCTCTGCGATATATGCGCCTTGCAACGGCTTATTTGGAGGCGGACGGGGATAACTGGGGGACAAATTATGGGCTCGCTTTTCAGGCTAACCGGGAACGAGCGGAATTGGAATATTTATGTGCCCATTTCCAGCTCGCCCACGACTTGTTCCGATCTTTGATGGAGAAGGCGGTTACCCCTTTTGACAAAGCATCGGTTTGTGTACTGAAGATGCATCTGAAGGCAAGTCAGGACCATTATGGGGAAGTGATCTCGTTAGGTCAAGATGCCTTAAGGCTGCTGCAAGTTGATTTTCCGTCTGATTTCGGTTCAATCGGATTGACTCTCCAGTGGTTACGGCTAAAGCGGAAATTAGGCAAGTATTCGATGAAAGAACTGAATCAATTGCCTCCTATGACGGATGCGTCCCGGCAGCTGGCCATATCCGCGTTGGTCCATATGAGCAATGCCTCGTTCTATGTCAATCGGAAGGGATGGCTTTCTTATACTCTAACGATCGTCGATATGACGCTGCGTTACGGCATAACCCCGGAGGCCTCCATCGGGTTTATGGGTTACGCCCTGTTCATGTATTATCGCTTTCGTCATGAAGAGGCATTTAAATGGGGAATGCTCGCCTATCGCTTGTCGAAACCATATCCGCAGCTGCATGTGAGAACACTGACCGCCTTTACTTTGTGTTCCGATAGTTGGCGGCGATACGACCCGGCCCTGCTCGGGGTATTTACCGAGAAGGTAGGCAAGATCGGGTTAGAATCGGGCGACTTATGGCAAGGGAATCAAAGCGTGCTGATCAATTGTGCTTCTCTCTTTCAGTTTGGTCATCCTTTAGGTGAGATATATGACCGGCTAATCGCAAGCTCAGGGAATTTCTTAAGACATCATAATCATCTTCATTCCAAGCAGCTTAAAGTATTTATTGCGCTTCTCATTCGGTTGACGGGTGTTCGATCACCTGATGATCCCTTCGATACCGGGCAGATTACGGACGCGGAGTTTGCCGAGTCGGTTCACGGGGATTCATTCGATATGATTGAAGAGTTAGTATGCATTTATCGATATTTGCCGGGGTATCTGTTTGGCGAGTATCGGGAAGCGAATGAAGCGTTAGCGAGGTCAGCCATTATCTTGAAAAAGCGGAAAACGGCCGGTGATCCGATTCTTCAATACTATTACGAGTCGCTGGTATGGGCACAGCTTTACGAAGAAGCCCCGCTGGATGTGCAGAACGATTATATGGGGAAATTGCGCAAGCGGCTATACAAAATGAAGGAATACGCCGCTCGCTGCCCCGAAAATTATCAGCATAAATATTTGTTGATGAAAGCGGAGATATTTCGGTTGACGCGGAGGAACCGGCAAGCCGAGGAATTATACGAGCAATCGATAGAGGCTGCCCGTCAATATGGACATATTCACGATATGGCGATGGCGGCGGAGTGTTACGGCAAATATGGCTTGCGTCAAGGCAAGCAGCGTCTGGCCAGAATATATATGACGGAGGCTTATGAAGCTTACGTGCAGTGGGGGGCTTTGGCGAAGGCTGCGGTCCTTAAGCAGGAGCACCCTCATCTGCTGCAATTGAGGCCTGAGTCTGGATTGGAACGCGTGGATACGCTCTCTGTCATGATGTCCGCCCAGGCTTTATCGGGCGAAGTGGAGATGAGTCGGCTGTTGGATTCGCTGATGCGGATTATGCTGCACAATGCGGGCGCGGAGTATGGGGCGGTTATTTTCGACGATGAGAGTAAATGGACGATTGAGGCTTGGGGCACATCAGCGGATATCCGGATCGAGTCCGTGCCGTTGGGGGAGGAATCCGAAATCGTACCTGCCCCCATTGTCGGTTATGCAGCCAGAACGCAGGAGGTCATTGTTCTCCATGACGCATCTAATGAAGGAATGTTTGTACGCAATACGTATGTCAGGAACAAAGGGTTGAAATCGGTGCTGTGTCTACCGATTATCCATCAGAATCAACTGACGTGCGTTCTATATATGGAAAATAAATTATCGAGAAGCGTATTTACGCCCCAGCGGCTCGATATATTGAAATTGCTAGGCTCTCAATGCGCAATTTCGATCAAAAATGCCAAGCTGTATACCGGGATTCAATATTTGAAGGAAAATCTGGAGCTTCAAGTGGAAGAGCGAACGCGAAGTCTGGAGCAATCGATGAGGGAAACATCGGCCGCACTGGCTGAGGCCTCTGTATATGAGGAACGGAATCGTATCGCGCAAGAAATTCATGACATTGTTGGGCATACGCTTACTTCGACGATTCTGCAGATTGAAGCAGGCAAAAGGCTGCTTCATAAGGATATGCAAGCCGGGGTTCAGCGGCTGAACGAGGCACAGGATTTGGTGCGCCACAGCCTCAATGAAATCCGGGGCTCGGTACACATGTTAAAGGAGGACAAGTATGCCCATCTTCCCAATATGCTTCAGGAGTTAATCCGGGATACAGAGCGAAACGCGGGAGTTACCATCCATGCGTCTATCCATGATTTGCCCGAATGGTTGTCTGCAGCATGTAAGAAGACGATTTATCATGCGCTGCAGGAGGGATTAACTAACGGAATACGACATGGTGGAAGCAAGGTGTTCCATTTTAATCTGATGCTCGTGGGGTCGGAGCTTGAGTTCAGGCTTCAAGACCAAGGTATCGGGGCTCGCACAATCGTTAATGGTTTTGGACTGAAAACAATGAGAGAACGCGTTGAACAATTGGGAGGCAGCTTGACGGTGGATTCCAGACCTGATCAAGGTTGTCTGCTTCGGATTAATTTGCCTTACCAAAAGCAATGGATTGGGGAAAAGGAATGGAAAAAATCACGATTGTAG	MFELPGYQTLDVIHTNGDIQLFRLSRSIDGLRVLAKTTRDAGPESAMVAAFRYEYDVLKKLDGRGALEAYSLEMIADRPVLLLKEMAGVTLEQLLRAYSDVPELPDLLRMAVAITDCFIRIHRENMTLNEITPSHLMVNPRTYEVKLIDIRMCSTEAGKSPLSSLSRPDASLPYISPEQTRRTGMTPDYRSDFYSLGIILYEWLSGTLPFEHIDPVNTVYRHLAGTPEPLHRKFPFIPKIVSDIIQKCMEKMPGDRYVSAFGIQTDLEECFNRLQDTGEVEPFRLGSRDIPERWVESAQFYGRQAELQMLQDAVRRAASGSVVLVGVSGTEGIGKTSFLMEALDQAASMDYFFIRGKFGTHQTAQPYDIWIQVIRKLIRQLLTEGNLQAEVWKLRILQAVEDYGKILIERVPELELLIGQQPPVQPLPPVEAQERFHLIMNRFIQLFLRPNCPLVLFLDDLQWADEASLRYLEFLLDDRATKHLLVALAYRDQDGDLIRRLENRLTHDRIIRNHIDLQPLALDDINQLLKDVMRHKDDDVAELAVALLRKTDGNPFFLKQFLGDLIAHGHVFFDQSSKSWSWDLPFIAEMNIPDNAVSYLTDRLRVLPTSTKIVVGYASFLGDRFDLETLSVISGLHITKLAKELEMAERMSLVQLINDGSRSSYKFQHDRIQQVAYTLVPEEERSDLHWSIGLLFLDRMNLGQGDGTEALFEAVNHMNLAVERNRQPEQRTRMAELNLRAGLKAKESTAYETALRYMRLATAYLEADGDNWGTNYGLAFQANRERAELEYLCAHFQLAHDLFRSLMEKAVTPFDKASVCVLKMHLKASQDHYGEVISLGQDALRLLQVDFPSDFGSIGLTLQWLRLKRKLGKYSMKELNQLPPMTDASRQLAISALVHMSNASFYVNRKGWLSYTLTIVDMTLRYGITPEASIGFMGYALFMYYRFRHEEAFKWGMLAYRLSKPYPQLHVRTLTAFTLCSDSWRRYDPALLGVFTEKVGKIGLESGDLWQGNQSVLINCASLFQFGHPLGEIYDRLIASSGNFLRHHNHLHSKQLKVFIALLIRLTGVRSPDDPFDTGQITDAEFAESVHGDSFDMIEELVCIYRYLPGYLFGEYREANEALARSAIILKKRKTAGDPILQYYYESLVWAQLYEEAPLDVQNDYMGKLRKRLYKMKEYAARCPENYQHKYLLMKAEIFRLTRRNRQAEELYEQSIEAARQYGHIHDMAMAAECYGKYGLRQGKQRLARIYMTEAYEAYVQWGALAKAAVLKQEHPHLLQLRPESGLERVDTLSVMMSAQALSGEVEMSRLLDSLMRIMLHNAGAEYGAVIFDDESKWTIEAWGTSADIRIESVPLGEESEIVPAPIVGYAARTQEVIVLHDASNEGMFVRNTYVRNKGLKSVLCLPIIHQNQLTCVLYMENKLSRSVFTPQRLDILKLLGSQCAISIKNAKLYTGIQYLKENLELQVEERTRSLEQSMRETSAALAEASVYEERNRIAQEIHDIVGHTLTSTILQIEAGKRLLHKDMQAGVQRLNEAQDLVRHSLNEIRGSVHMLKEDKYAHLPNMLQELIRDTERNAGVTIHASIHDLPEWLSAACKKTIYHALQEGLTNGIRHGGSKVFHFNLMLVGSELEFRLQDQGIGARTIVNGFGLKTMRERVEQLGGSLTVDSRPDQGCLLRINLPYQKQWIGEKEWKKSRL				NA	NA	NA	NA	NA
AK002_00405	654	lnrK_1	COG2197	Transcriptional regulatory protein LnrK	ATGGAAAAAATCACGATTGTAGTGGCTGACGACCAGCTGTTAACACGCGAAGGGCTACGGACGATACTGGATCTGGAAGACGACATGGAGGTTGTAGGGGTAGCCAAGAACGGGGAAGAGGCTTGTGAATTGGCGGATGCCCTCCAACCCAGACTTGTACTGCTCGATATTCAAATGCCCGTCATGGATGGAATCCAAGCGCTGAAGCATATAAAACAGAGCCATCCGGACATCTTTATTCTTATTTTGACTACGTTCATTGAGACGGATTACATCGTAGAAGGAATGGCGCACGGAGCGAACGGATACATGCTAAAGGATATGGATGCGGATAAAATGATTGCATCGATTCGGGATACGATTGCGGGACAGTTCATTCTTCCTGCTCCGGTTGCCGCTAAATTGGCGGCAAGAATGAACAGAATGTCAGAAGGGCATTCTGGTTTGCGAAAAAATCGGTTGGATCGGATCCGGTTGACCGAAAGGGAAGAAGAACTGGCGAGACTGATGGTCCAAGGGTTGAACAACCGGGAAATCGCAGATATGCTGCACATTGCGGAAGGCACAGCCCGTAATTACATTAGTAATCTCTACAGTAAACTGGAGGTTGTCGATCGGGCGCAGGCTATCGTCCGGCTTCAGGCGATGCTGTGA	MEKITIVVADDQLLTREGLRTILDLEDDMEVVGVAKNGEEACELADALQPRLVLLDIQMPVMDGIQALKHIKQSHPDIFILILTTFIETDYIVEGMAHGANGYMLKDMDADKMIASIRDTIAGQFILPAPVAAKLAARMNRMSEGHSGLRKNRLDRIRLTEREEELARLMVQGLNNREIADMLHIAEGTARNYISNLYSKLEVVDRAQAIVRLQAML	PGPT0012750_149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692	NA	NA
AK002_00406	1137			hypothetical protein	TTGAACACGAATCTTTCGGACGGAGTCATACTTCCATTTTTTGAAAAGGAATTAGAAATGAAAGGTACAAACCAATCTTTGACAGGGCTTAGAGGTCTGCTTGCATTATCTGTCGTTATCTATCACATATTCGGTTCAGCCATACTAGAAGGATATCTGCCGGAGGTTGCAAAGGAATCCCCTCTGTATTGGATCAACTATGCCGGACCTATCTCAGTTAACTTATTTTTCGTGATCAGTGGATTATTAATTACGCAAAGTCTGTTGAACAAGCGAACATTGGGGCAATTTGCTCTTAATCGTATTTGGCGTATCTATCCCGTGTATATTACGATCCACATCATTATTTTCGCTGTAGGTCCCTTTATCGGATACAAATGGATGGATGGCATTGGATTCGTAGATTATATTACTAACTTCATAACGAATACACTGTTACTTCCCGGCATTTTTCCTTTGCCTATCGCGCAAATTGTTGCATGGTCATTAAGTTATGAGTTGTTTTTTTATATTATTGCGGGCTTGGCTTGGTTTGTTTATCGTAATGAGAGACTTTCTGTAGTTTCAAAATGGGTTCTGTATGCTTTAGTTATCGGGTTGAGCATAGTCATTGTGGTTTATCACAGTAATTTCTTGTTTTTTGCAGTAGGTGTTCTGCTCTTTATATGTCAAAATAAGCTGCGAAATAGGTCGAAGCCTAATAAGATTTTTTATTTCAATGGATTGATATGTTTCATTCTCATGTATGTCGCTTATCATATATTTACTGTGCCAATCGCTGTTGCTCTCCTGTTAAGCTTCCTGTTGTTTATTCCAATCATTAAGGAATATGGGTTATTATCTCGCGTTCTTCGTACCGGTTTTATGATTTATTTAGGCAGGATCAGTTATAGCTTGTACATGTGGCATACGATGGTTATGTTTGCGTTAAAAATCTTTGTTCCTAAACTTAGTAGTATGATTGGCAGTTCATCTTTGTCTTTTGCGATGTATGCAGTCTTATCCCTTTTCTTATCCATTGTTGTTTCGCATCTATCCTATCAATTTATAGAGCAATGGCTAACAGGTCAATTAAAGTTACGGATCAAAAAAAAAGATATTCCTGCAGAAACAGGAGTGATTATGAAGACAAGTTGA	MNTNLSDGVILPFFEKELEMKGTNQSLTGLRGLLALSVVIYHIFGSAILEGYLPEVAKESPLYWINYAGPISVNLFFVISGLLITQSLLNKRTLGQFALNRIWRIYPVYITIHIIIFAVGPFIGYKWMDGIGFVDYITNFITNTLLLPGIFPLPIAQIVAWSLSYELFFYIIAGLAWFVYRNERLSVVSKWVLYALVIGLSIVIVVYHSNFLFFAVGVLLFICQNKLRNRSKPNKIFYFNGLICFILMYVAYHIFTVPIAVALLLSFLLFIPIIKEYGLLSRVLRTGFMIYLGRISYSLYMWHTMVMFALKIFVPKLSSMIGSSSLSFAMYAVLSLFLSIVVSHLSYQFIEQWLTGQLKLRIKKKDIPAETGVIMKTS				NA	NA	NA	NA	NA
AK002_00407	1323	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGAACGCAGTACAGCTACGACACGTGCAGAAGACATCCGGCAGTACCGTATTAATTCCACACATCAACCTTGAGGTGAGCGCAGGTCAATGCGTCGTCATTCAGTGCAATCACGAATTAGGACATCAATTGCTGCTCGCCATGATCGGGCAGACACCGATATCGGAGGGTTCCATCTGGATTCAGGGAGAGGCGCTGACACCGGATCATACTCGGAGTTTTAGAGAAAAAATAGGGATTCAGCTGTTATCGGATGCGGCATACGAGCGTCTGAAGGTCCGTGAATTTCTCCATTTTTATGCTCGTCTCTATGAGACGAAGCCGGACATGGAGTTGTTATTGCAGCGGTTAGGACTAACCGAGAAGCAAAATAGCCGGGTGTCGCAGTTGACGCCGTCGGAATTGCGCCGATTGTCCATTGCACGTGCACTCATACATAATCCGCAGGTTTTGTTCATGGAAGACCCGGAGCAAAATGTCGATTTAGAGACTAGTTATATCATTCGTAATCTGATACCGGCTCTGATAGAGGAAGGCAAAGCGATCGTCATCACGACCCTGGTGCTGGAGCAGGCCATATCGATAACCAATGATGTGTATCTATATAGCCATGCCGGGTTCAAAAAGCTGGAGACGGCGGAAGAAGAACTCGAGCCCCTTGGCGATAAGGATGGAGATCAAGAGCCATTCCATTCAATAGAGGCCGAGGAGCAGGAAAGACGTTATACCGCAGCAGATTCCCGGACTGAAAATAGGGTGCCCGCTGAGGCTGCCACGGAGACTGTATCTCAAGAAACAGGAGCACGGGTTCCGTTAACTGCGCCTAAGACCGCAACAGAAACGGAATCCAACGAAGCTGCGCTGAAATCCGCCCAGCTAAGCGCTTTATCTGATCAATCGCATTCTTCAGAATCCGTTGATGAAGCCAGGGCTGCAGCGCAACCGGTTCCCATGGGAGCTCAAGTGCCGGCCTTCGTCCAGCCCGTACGCTTCGAGAAGATTCCGGCCAAGTTGGGGGACAAGCTGATTCTGTTTGATCCGACAGAAATTGATTATATCGAGAGCCATGAAGGCGTCGCGAATCTTCATGTTCTCCAAGGGGTCTATGCCTGCTCCATGTCGTTAAGCGATCTGGAAGGGCGACTCAAGGGGTTCGGGTTCTATCGCTGTCACCGCTCGTACCTGGTGAACCTGCAGAAGGTCCGCGAAGTCATCACATGGACACGGAACAGCTACAGTTTAATTCTGGACGACCATTCCAAGAGCTCCATCCCGTTATCCAAAGGCAAATACGATGAGTTAAAAAAGATCATTGGCATTTGA	MNAVQLRHVQKTSGSTVLIPHINLEVSAGQCVVIQCNHELGHQLLLAMIGQTPISEGSIWIQGEALTPDHTRSFREKIGIQLLSDAAYERLKVREFLHFYARLYETKPDMELLLQRLGLTEKQNSRVSQLTPSELRRLSIARALIHNPQVLFMEDPEQNVDLETSYIIRNLIPALIEEGKAIVITTLVLEQAISITNDVYLYSHAGFKKLETAEEELEPLGDKDGDQEPFHSIEAEEQERRYTAADSRTENRVPAEAATETVSQETGARVPLTAPKTATETESNEAALKSAQLSALSDQSHSSESVDEARAAAQPVPMGAQVPAFVQPVRFEKIPAKLGDKLILFDPTEIDYIESHEGVANLHVLQGVYACSMSLSDLEGRLKGFGFYRCHRSYLVNLQKVREVITWTRNSYSLILDDHSKSSIPLSKGKYDELKKIIGI	PGPT0006725_429	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00408	849		COG1131	Fluoroquinolones export ATP-binding protein	GTGCAACCAATCATTGAAGTCAATCAGCTGCTGAAAGCGTTCGGAAACAAGAGCGCGTTACAGCATATCCAATTTAATGTTCATCAAGGCGAAATATTCGGATTCCTGGGTCCAAGCGGATCCGGCAAAACAACGACGGTGAAGATCCTGACTTCCCAATTGCTTCCAACCTCCGGCACCGTGAAGGTGTTTGGTCAACCTATACATAAAATGAACGATGCCAGCCATAAGCGCCGGATCGGCATACTGACCGATAACAGCGCATTATATGAAAGACTCACCATTCAAGACAACCTGGAACTGTTCTGCAGGCTGTATGACGTGGAATCGAAACGGATTGCCGAGGTGTTGGAAGAGGTTAATCTGGCCAATGATCGTCAGACGATGGTGAAAAAGCTCTCCAAAGGGATGAAACAGCGAGTGATGCTGGCACGTGCTATTCTTCACAAGCCGGATCTGCTATTCCTGGACGAGCCGACGTCAGCGTTGGACCCGGTTAACACCCTTCATATTCATGAGGGCCTGCGGAAATTGAATCGGGAAGGAACCACCATTTTTCTGACCACCCACAATATGATGGAAGCGGAGAGCCTCTGTGATCGCGTGGCCTTTATCCATGATGGCGTGATCAAAGCGATCGATACCCCGCAGCAGCTACGCCTGGCGCATGCCGATCAATCGATGACGGTGTTGGTGAAGGGCGAGGGCAAGCGGGTGCTGCAGCAGAATGAAGAGAGCGCGCGGCGCATCGGACAATGGATTCAGGAAGGCAGGCTGTTATCGATTCATTCCAATGAACCGACGTTAGGCGATATTTTCGTAAAAATGACCGGGAGGGAATTGCAATGA	MQPIIEVNQLLKAFGNKSALQHIQFNVHQGEIFGFLGPSGSGKTTTVKILTSQLLPTSGTVKVFGQPIHKMNDASHKRRIGILTDNSALYERLTIQDNLELFCRLYDVESKRIAEVLEEVNLANDRQTMVKKLSKGMKQRVMLARAILHKPDLLFLDEPTSALDPVNTLHIHEGLRKLNREGTTIFLTTHNMMEAESLCDRVAFIHDGVIKAIDTPQQLRLAHADQSMTVLVKGEGKRVLQQNEESARRIGQWIQEGRLLSIHSNEPTLGDIFVKMTGRELQ	PGPT0006725_19847	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00409	726			hypothetical protein	ATGACATTTTCCATGAAAAGACTGCAAGCCATAATAAACAAAGAGTGGAAAGATAGTATCCGTAACCCGCAAATTCTGTTGATGATGGGAATGCCGATCATGTTTGCCTTCCTGTTCAGCAAGATGGGGAGCGACGGGACAAAGGGCGATGACATGATGATCCTGAGCTTTCCGATATTACTCGCCTTATCGATGACAGGCGCATTCGTGCTGGCGATGATGGTGGCTGAAGAGAAGGAAAAGCATACCCTGCGCGTATTGATGCTCTCGCCTGCGAGCACTACCGAGATTCTGATGGGCAAAAGCTTCCTCACCTTCGTATTGACCCTGATCGCGGTGATCGCTTCGGTGGCCGTTTCGGAGGTGCCGGAGGTCAACTGGGGAATTCCGTCCCTGTTGATTCTCGTCTCGCTCATCATGTTCATTGCGCTTGGTTTAATCATCGGCTTGATGTCTCGTACCGTACAGGAGTCCTCCATTATCGGTTTGCCGGTACTGATTGTCTTCGTTATGGGCCCGATGTTCGCTCCCATGTTAGGCAATGAATGGATCATGAGCATCGTGAATTACTTGCCTACGCAGAAGTTTATCGATGTGATGGGCAGCGTCAGCCAAGGTGCCGCTATCAGCGAAATGACCCAGGATCTGCTGATCTGTGCAGGGTGGACGGTCATCTCCATCGTTGCAGCTGCCGCGGTGTACAGCCGTAAAAGATTCGATCGATAG	MTFSMKRLQAIINKEWKDSIRNPQILLMMGMPIMFAFLFSKMGSDGTKGDDMMILSFPILLALSMTGAFVLAMMVAEEKEKHTLRVLMLSPASTTEILMGKSFLTFVLTLIAVIASVAVSEVPEVNWGIPSLLILVSLIMFIALGLIIGLMSRTVQESSIIGLPVLIVFVMGPMFAPMLGNEWIMSIVNYLPTQKFIDVMGSVSQGAAISEMTQDLLICAGWTVISIVAAAAVYSRKRFDR	PGPT0006730_23757	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_00410	477			hypothetical protein	ATGCCGATTCAATTGTTGGACATGCGTCTATCCGTCCATATGCCAATGTGGGCCAGCGACAGTGAACCCATCGATAATTCCGAGCCGCTTCTTATCGGAGATATCGGACTTCAAACGATCCCGGCGCTTGGAACGGTCAACGTCACGGACGTGCGCGTATGGCTGTCCGGCACGGTTTCCTTGTTACGTCCGCCCACAACCGAGGCAGAGCCTTCCTCCATGACTCTATTGATTGAGCGCGACGGCAGCGGAACGCCGGGTTCCGGAACGATCATTTATGAGCAGGTCGTCGATCCCGGGAACCTCTCATTCAATATGTTTCCCATCTCCCTGACGGCCGGTGATACCCCTCCCGCCGCGGTCGTTAACCAAGGATTGATCCGTTATACTCTCTATATAGCCTCCCCCGGCGAAAATTCACTGCTGCTCAGCGGACCGGTCTCCTTCAGCGGCATTGCGGTCGCCGGATCCGGTTGA	MPIQLLDMRLSVHMPMWASDSEPIDNSEPLLIGDIGLQTIPALGTVNVTDVRVWLSGTVSLLRPPTTEAEPSSMTLLIERDGSGTPGSGTIIYEQVVDPGNLSFNMFPISLTAGDTPPAAVVNQGLIRYTLYIASPGENSLLLSGPVSFSGIAVAGSG				NA	NA	NA	NA	NA
AK002_00411	1356			hypothetical protein	ATGAAATCTCAGCTCAACAACCCAGCTTCACCGGGGAAAAGCGATCGTTTTTCCTCTGCTGGATTCATTCTGGCCGCGATCGGGAGCTCTGTCGGCCTCGGAAACATGTGGAAGTTCCCGTACATTACGGGAGAACACGGCGGCGCAGCTTTCTTTCTGCTCTTCATCATCTGCCTTATCATAATCGGTTTGCCCGTCCTGCTGGCGGAGCTTGCCATCGGACGAGCCGGCCGCGGGAGTGCCGCGACTTCCTTCGTTAAAGCGGGCGGACCGAAAGTCTTCGGGCAGCTTGGATTGCTCCAGGTTATCGCGCCGTTTCTCATCCTGACCTTCTATGTCATTGTGGCAGGCTGGACGCTTCATTATGCGGTCATGTCGTTTAGCGGTAATCTGTACAACAATACGGATTTCGGCGGTCAATTCACTGGGTTTACGGAAGGCTATATGCCGATTATATGGCAAGTTGTCGCTATTGCGATCACGGGCTGGGTAGTAGCTAAGGGCATCTCCGGCGGAATTGAAAAATTCAACAAGGTTCTGATTCCTGGCCTGATCATCCTGTTAATCGTTTTAATGATCCGCGCGGTAACCTTGCCAGGGGCCGGAGCAGGCGTATCCTTCTTCTTGAATCCGGACTTCTCGAAGCTAAGCCCGGAAGCGGCGCTCGTCGCGCTGGGACATGCCTTCTTCTCCCTCTCGCTGGGGATGGGGATTCTGTTGACCTACGGGGCTTATGTCGATAAGCGGCAATCCCTTGGTCCGGCTACCCTCGCCATCGGCGCTGGCGACCTGATCTATGCATTTATTGCCGGGCTTATCATATTCCCGACAACCGCTTCGTTCGGGATCGAGCCGAATGCCGGCCCTTCCCTTGTCTTCATTGCCCTGCCGGCCGCCTTCTCGGCCATGCCGCTGGGCGCTTTTTTCGGAGGATTGTTCTTCGTCCTTCTAGCCATCGCCGCTTTAACGTCCGCGGTCTCCTTGCTGGAGGTTCCAACCTCGTATGTCATGGACCGCTGGCATTGGGGACGCACCAAAGCCGTTGTGGTTATCAGCGCACTGGTTCTGCTGGTCGGCTTACCCTCCGCGTTGTCATTCGGCATCGTGCCCGGGCTTACCGATATCGGCGGCAAAAATTTCTTTGATTGGCTGGATTTCATCACATCCAACATTCTGCTTCCAATCGGTGGCCTGATCACCACCATCTTCGCGGGATACTTCTGGAAGAAGGCGGCAGATGCCGCTGGTCTGAAAGCAGGCTGGTTCCGGGTGTGGCTGTTCATGCTCCGTTATATTGCGCCGGTTCTCGTATTACTGGTGCTGCTTCATACCACGGGCGTTATCACATTCGAATAA	MKSQLNNPASPGKSDRFSSAGFILAAIGSSVGLGNMWKFPYITGEHGGAAFFLLFIICLIIIGLPVLLAELAIGRAGRGSAATSFVKAGGPKVFGQLGLLQVIAPFLILTFYVIVAGWTLHYAVMSFSGNLYNNTDFGGQFTGFTEGYMPIIWQVVAIAITGWVVAKGISGGIEKFNKVLIPGLIILLIVLMIRAVTLPGAGAGVSFFLNPDFSKLSPEAALVALGHAFFSLSLGMGILLTYGAYVDKRQSLGPATLAIGAGDLIYAFIAGLIIFPTTASFGIEPNAGPSLVFIALPAAFSAMPLGAFFGGLFFVLLAIAALTSAVSLLEVPTSYVMDRWHWGRTKAVVVISALVLLVGLPSALSFGIVPGLTDIGGKNFFDWLDFITSNILLPIGGLITTIFAGYFWKKAADAAGLKAGWFRVWLFMLRYIAPVLVLLVLLHTTGVITFE	PGPT0013950_1990	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK002_00412	228			hypothetical protein	ATGATCCAAAGCTTAACCCGGATTAACGAATTGGCACAAAAACAGCGGGAAGGAGTGCTCACTGCTGCGGAAAGAGCCGAACAGCAAGTTTTGCGCACGGAATATCTGCGCGAAATTCGCGGACAGGTGCTGAGCACCTTTTCGGGATTAAGCATCGTGGATCCCGCCGGTAATGACGTGACACCTGAGAAACTTCGCAATGAGCAAAAGAACTGGAAGGAAAATTGA	MIQSLTRINELAQKQREGVLTAAERAEQQVLRTEYLREIRGQVLSTFSGLSIVDPAGNDVTPEKLRNEQKNWKEN				NA	NA	NA	NA	NA
AK002_00413	1296			hypothetical protein	GTGACTGACTTTTTCCTCGTTATCTCCATCATCAGCATATGGATTGCCGTACTGGAGTCAATTATTATCATGGCCGGTGCCATCGTGTTCATTCATAAACAAAGCCGGCAGAAGCTGGTGAATCCCGGCAATTTGGAGGATTACCCCACCGTGACGGTCATGGTCCCCGCGCACAATGAGGAATTGGTCATCCAGGCAACGGTCGAGCACATTTTACAGATGAATTACCCTCACCACAAAATGCAGCTGATTGTCATCGCCGACAATTGCAAGGATCAAACGGCCGAGCGGTTAAAAGCGCTGAAAGCGAATGAGCGTTACCGGAACCGCAACTTTGTGATCCTGGAGAGAACCGGAACCGGCGGCAAATCGGGCGCTTTGAACGACGCGCTCAAGCAGGCAACGGGCGAATGGATCTGTGTTTACGACGCGGACGCCGCTCCTGAGAAAAATGCGCTGTTGTTTCTCACGCAGAAGGCGATGGAGCAGCCCGAACGCTACGGGGCCGTCTTCGGGCGCAACAAGGCCCGTAACCGCGGGCAGAATTTCCTGTCCCGCTGCATCAATCTGGAGCTGGTGACCATTCAGCGCGTGCATCATACCGGACTGTGGCAGCTGTTTAAGCTGGGTACCATTCCCGGCACGAACTTTATCGTGAAAACCGCGCTCATTCAGGACATCGGCGGATGGGATGAGCATGCGATCACCGAAGATACCGCGATTTCGTTTCAGATCCTGACAAGGGGACAGCTGATTGCGCTGGCTCCCCAAGCCGAAGCTTATCAGCAGGAGCCAGAGGATCTGAAGGTGTACATGAAGCAGCGCGAACGCTGGGCCAAAGGCAACTACAGCGTCGTCACGGATAATATTCGTCATCTGTTCGACCGGAGCAGCTGGCGGATTAAGCTGCATGTGCTGTATTACGCGGCCAGTTACTTCTGGTTTATGATTGCCATCATCATCTCGGATATTATATTTATCGCCAATATCGTGTATCAGATCATCGCGCTGTTTAATCCGGCCGTCGTCTCCCCTTTCCGGTTTGAAGGGGATGTCTACATGTATCTCGTCATTGCCTGGGCCTTAATGTATTACATCTACGTCCTGCAGATTAACCTGGCGCTCGCAACGGACATCGGCCAAAGCACCACGCGCAACTTCATTCTATCCTGCGTGTCGTACTTCACCTACGCTCAGCTGTTCCTCGTCATATCCATCAAGGCGTTCTACTCCATGATCGTGGACAAGATTACGGGCAGGGAATCCAAGTGGTATAAGACGGAGCGGTTTGGATAG	MTDFFLVISIISIWIAVLESIIIMAGAIVFIHKQSRQKLVNPGNLEDYPTVTVMVPAHNEELVIQATVEHILQMNYPHHKMQLIVIADNCKDQTAERLKALKANERYRNRNFVILERTGTGGKSGALNDALKQATGEWICVYDADAAPEKNALLFLTQKAMEQPERYGAVFGRNKARNRGQNFLSRCINLELVTIQRVHHTGLWQLFKLGTIPGTNFIVKTALIQDIGGWDEHAITEDTAISFQILTRGQLIALAPQAEAYQQEPEDLKVYMKQRERWAKGNYSVVTDNIRHLFDRSSWRIKLHVLYYAASYFWFMIAIIISDIIFIANIVYQIIALFNPAVVSPFRFEGDVYMYLVIAWALMYYIYVLQINLALATDIGQSTTRNFILSCVSYFTYAQLFLVISIKAFYSMIVDKITGRESKWYKTERFG	PGPT0015297_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0015297-ydaM-NA	NA	NA
AK002_00414	144			hypothetical protein	ATGTCGTATACCCATTGGTTTATCCCTCTCTGCATCGGGGTCAGCATCGTGTTCTCCATCGCCATCATCATCCTGACGATCGCAACCTTAAGCTTCCGTTCGAAAATCAAACGAAAGTATGATCGGGGGAAGTTCAGTGACTGA	MSYTHWFIPLCIGVSIVFSIAIIILTIATLSFRSKIKRKYDRGKFSD				NA	NA	NA	NA	NA
AK002_00415	876			hypothetical protein	ATGAAAAAATCCACCCCTTTACGTCGCGTCGAATTCGGTTATTTTCTGCTGATTGCTCTTGCCGTCGTCCAGCAGGCGTTATTATTTTGGCACATCCATGTAAACCAAAGTTTTACTTTCATGGAATTTATGTTTAGCATCGGCTCGTTGGCCGCTTTGCTTATCGGCTTCTTCCTGCCGGTCGGCGTTTCGACGGTCGCCGTTTTTGTTTATTTGGTCACGTATTTCGTCTGGTTGTCCACGCTGGCTCCGATCCATGCGCTCACGCTGTCCTGGATTTTGCTGCTGCCCGCCAATACCGCCATTGCCGTCTTCATTAAGCTGGCTCTCGTGCGAAGCCGTAGATTTATCCGCCGTCTCGAGCAGCTCAGGAAAACCAACCCGGACATCGACATTGACACCTCGCTCGGCAGCAAGGAGGCTTTTGAAAGCACGCTGGTGAAGCAAGCGAATCTGGCCCATCGGTATTCCGATCAATACGGCTTCTGCATTATGATGTTTAAGCTCGATTTCCTCCCCCTGACCAGGGAAAACGTCGGCTCCCACCGCTTTGCCAAGCTGATTGTAGAACTGTCCAATACGATTCAGAAGCAGATCCGTTACGAGGACTATAAGTTCTCCATCGGCGAAGGGCGGTTTATCATTCTGTGTCCGCTCACCAAGCCGGAGTACCTCAAAAGCCTCATGGACCGCATCAAAGTCGCCATGATGAACGTCCCTTTCCGGGATAAAAAAGGCATGTCCCTCAAGCTAGTGGTCCGAGCCGGCGGCCTCGTGTTCCAGAAAGAGCAGTTCAGCCGATATGAACATATCGATGACGTCATTTCCGCTTTAGAACGAAATACCGAAACCGACCTCATCGGGGAGTATATCTAA	MKKSTPLRRVEFGYFLLIALAVVQQALLFWHIHVNQSFTFMEFMFSIGSLAALLIGFFLPVGVSTVAVFVYLVTYFVWLSTLAPIHALTLSWILLLPANTAIAVFIKLALVRSRRFIRRLEQLRKTNPDIDIDTSLGSKEAFESTLVKQANLAHRYSDQYGFCIMMFKLDFLPLTRENVGSHRFAKLIVELSNTIQKQIRYEDYKFSIGEGRFIILCPLTKPEYLKSLMDRIKVAMMNVPFRDKKGMSLKLVVRAGGLVFQKEQFSRYEHIDDVISALERNTETDLIGEYI				NA	NA	NA	NA	NA
AK002_00416	900	sigJ_1		ECF RNA polymerase sigma factor SigJ	ATGTTATGGGATCAAATCTATATCGAATACAAGCCGATGATGTTCGGCCTGGCCTACCGGATGCTGGGTAGTGCAGCGGATGCGGAGGACATCGTGCAGGATGTTTTTTCCCAATTCGTGCAGATGGATCGGGGAGAGGTGCTTAACGAGAAGGCGTATTTGGCCAAAATGACAACGAACCGCTGCATCAACCTGCTGAAATCGTCCAGGCGCCAGCGCGAAACGTATACCGGTCCCTGGCTGCCGGAGCCGATGCCGGATTATGACATGATAAAGCGGTCCGATCCTGCGGAACGCCGCGAGAATATCGGATATGCCTATCTGGTGCTGCTTCAACGCTTAACGCCGCTGGAGCGTGCCGTCTATATCGCCAAAGATACGCTGGGTCTCGAATATCATGAAATCTCGGAGATGCTTGGAAAGACGGAGATCAGCTGCCGCAAGACCTTCAGCCGTGCCAAGGAAAAAATGGGCCGCCATTCGGAGGGGCCGGTGGGAGAAGGGACCCGGACGGAACAGCAGGAACGCTTCGTTGAAGCCTTCCTGCGGGCGTCCGATATGGGGAATTTTAAGCCGCTGCTCTCTTTCCTGAAGGAAGAAGTCACGCTGCTGTCGGATGGCGGCGGCAAAGTGAAGGCAGCCATCAATCCGATATTGGGCATGGAGCGGGTACGGGCTTTCTTCGAGGGATTGTCTGCCAAAGGCTCGTTCCGGGAAGGGTTTGAACCCGTCTCCGTCAACGGGGAGCCCGGTGTATTGCTGAAGCGGGAAGGCAGAGTCTCCATGGTCATTACGGCTGAGTGGGAACCCGACTTATCCCGTATCAGCCGGATTTTTCTTGTGGTCAATCCGGATAAATTGCAGCTGTTTAATCAAAACAGCCCGGGAACAGCCCTGTAG	MLWDQIYIEYKPMMFGLAYRMLGSAADAEDIVQDVFSQFVQMDRGEVLNEKAYLAKMTTNRCINLLKSSRRQRETYTGPWLPEPMPDYDMIKRSDPAERRENIGYAYLVLLQRLTPLERAVYIAKDTLGLEYHEISEMLGKTEISCRKTFSRAKEKMGRHSEGPVGEGTRTEQQERFVEAFLRASDMGNFKPLLSFLKEEVTLLSDGGGKVKAAINPILGMERVRAFFEGLSAKGSFREGFEPVSVNGEPGVLLKREGRVSMVITAEWEPDLSRISRIFLVVNPDKLQLFNQNSPGTAL	PGPT0014960_1940	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00417	447			hypothetical protein	ATGGAACTGCGAATGAATTACCGGTCGGCCAATCCCGAAGCCTTCAAGACCCTGCTTGCCCTGGAGCAAGCGGCCCAAAAAAGCGGACTGGATCACAAGCTGTACGAGATCATCAAGCTCCGGGCATCCCAGATCAACGGCTGCTCCTTCTGCGTGGATATGCATTCGAAGGATCTGCTCTCCATGGGCGAGAGCGTGGACCGTCTCCTCCTTCTGCCGATGTGGCGCGAAGTGCCAATCTATTCCGACGAGGAACGGGCCGTCATCGAATTGACGGAATGCGTGACCAAGCTGTCCGAAGCCGGCGTTCCGGCCGCAGTATACGAACGCGTGCGCAAGCATTTTGACGAGAAGCAATTCGTCGATCTGGTCATGGCGATTACGACCATCAATGCCTGGAACCGGATCGGCGTCGCTACAGGGCTGTTCCCGGGCTGTTTTGATTAA	MELRMNYRSANPEAFKTLLALEQAAQKSGLDHKLYEIIKLRASQINGCSFCVDMHSKDLLSMGESVDRLLLLPMWREVPIYSDEERAVIELTECVTKLSEAGVPAAVYERVRKHFDEKQFVDLVMAITTINAWNRIGVATGLFPGCFD				NA	NA	NA	NA	NA
AK002_00418	1650			hypothetical protein	TTGGAACGTTTTGAGAACAATCTGAAAAATCAGATGAACACAGCGAATAACGTGTCTTATCCTGATTTTGACCGGATGTGGAGCAGCATACAGCAGGACGAATTGAAGGTGGCCGGAGGGGAATCGACTCCGCTTCGTCCGCGTAAGCGAAAGCGAATTGCGATCATTACCGGAATTTCCGTCGCCCTAATGGCCACACCGGTCTATGCAGCCTTGAATTATGATTGGTCCCATCTTCTGTCTTACAAGGCCGGGATCCAGACTGCGCTAGAACAAGGGCTTGGCCAGTCGATTGAGAAATCCGTTACGAAGGATGGTATAACGCTAACGGTGCACACGGCATTTATCGATGAGAACCGCACGTTCCTGCTCTACAGCTTAGATCCTGGCTCGACGCGGGCCGGCGAACAAATCGCTTTTGACCGAATCGGGCTTAAGGATAAAGAAGGCCATTCCGTCGAGGGCCATTATTCCCATCAGTGGAACGAGGAGTTAGGCGTATTCCAGGGGTATTTCGAAACCGATTGGGTTGCTGAGGGCCAGATCGCGGATATCGAGTTTGCGATGGAGAATATCCGTTTTACCGGCGACGGAACACAGTCCATCCCTTACGACCCTCAAAACCCGAATACGCAGGTATTCCCCATTCAAAAGGATGGCATTGACAGCGTGACCCTGCAGTCCTTCGAGCAAGCCGAAGGCAATGTCCTGCTCCAATCGGCCATTAGATTTACGGACCCTGAAATGAACAGCAGAAGCTGGGTGCGAATTCAAGCGGCCGATGGCAAGAATGAGATGATTAAGGAGGTTAAACCTTCTACTTTCGGAACTCCGGCAGCCACCGGAGAATACCTGAGCCAGCAAATATTCAAGTCCGATTCCCTGCGTGCAGGAGGTACGACATTCCAGCTGGCTTATGATCGCACGCTGCAAAGCGCAGACGGTATCTGGAGCTTGAATATGGCCCTGTCCAAGAAACAAATGGCCAACGGCACATGGAAGGACGTCCTGAATATCCCTGTAGATCAGGTGCCTGGCGAAACGAAGATCCATGAAATGATCGTGACGCCAACCCAAGTCCGGCTGATCCTGACCCATGAAGAAAAGTATACCCGTTTTCCTTTCATGGATTATCAACTAGATATAGGCGGAACGCTGTTGAACGGAGGTGTATGGTTTATTCAGGGACAATCCAATAAAACAGAGCTTCGCTTTGAAATGGCCGGACTGAATGCAGCCTCCCTGGCGAACCAGCCGGTGTCCCTGATCGCCAAGCACCGCGTCGACGAATTCGCCGGTGACAAGAGTCCGATCCGCTTGACCGATATTTCGGCTGAGCATCAGACCTTAACGTCCAGCATCGCCGGCTATCCGATCACGTGGACCTATTACATGAAGGACCACAACCTCTATGTGGAATCCTTGAGCTCCGACCCGGCGTTCGGCGGCGTCAACCAGACTTATTATCTGGACGGCGAAGATCGGAGCTATGGCATGCCGGCCATCATCGGCCTGATCGGCGATGACAGCAATAGACATATGGACGTGTATGAAAATTTCGACAATACCGATCTCGAAGTGTATGTTTCGAACTATACCACCCATAAGCGGGACGATGTCCTGCGCATCCCGCTTAAGGCCGGAAAATAA	MERFENNLKNQMNTANNVSYPDFDRMWSSIQQDELKVAGGESTPLRPRKRKRIAIITGISVALMATPVYAALNYDWSHLLSYKAGIQTALEQGLGQSIEKSVTKDGITLTVHTAFIDENRTFLLYSLDPGSTRAGEQIAFDRIGLKDKEGHSVEGHYSHQWNEELGVFQGYFETDWVAEGQIADIEFAMENIRFTGDGTQSIPYDPQNPNTQVFPIQKDGIDSVTLQSFEQAEGNVLLQSAIRFTDPEMNSRSWVRIQAADGKNEMIKEVKPSTFGTPAATGEYLSQQIFKSDSLRAGGTTFQLAYDRTLQSADGIWSLNMALSKKQMANGTWKDVLNIPVDQVPGETKIHEMIVTPTQVRLILTHEEKYTRFPFMDYQLDIGGTLLNGGVWFIQGQSNKTELRFEMAGLNAASLANQPVSLIAKHRVDEFAGDKSPIRLTDISAEHQTLTSSIAGYPITWTYYMKDHNLYVESLSSDPAFGGVNQTYYLDGEDRSYGMPAIIGLIGDDSNRHMDVYENFDNTDLEVYVSNYTTHKRDDVLRIPLKAGK				NA	NA	NA	NA	NA
AK002_00419	534	sigW_1	COG1595	ECF RNA polymerase sigma factor SigW	TTGACGGAACGCGAGTTATTCGATTCATACAACAAGGATGTGTACCGTACCTGCTACTACATGCTGCGGAACGCCCAAGACGCGGAAGATCTCTGCCACGACGTATTCGTCACCGTATTTCGCCAGGATTGGAGAAGCGTGGAGCATACACGCGCCTGGATCATGCGCATCGCGATGAATCATTGCCTGAACCTGCTTCGAAGGAATCAGACCCAGCGGGAAAAGCAAAGCCAGGTCGAGTGGCTTCACGAACAGACCGCGGCATCGGTTAAATCCGTGGACACCATCGTATTGGAAAAAGCCGCGGCCGCGGAATGGGAGAGCCTGCTGCGGCAGCTCCCGGACAAGCTGATGGCCGTGGTCACGCTCCGCTATATTGGCGAGCTGTCGATGGCGGAAATTGCCGAAACGTTGAAGATCCCTGTAGGAACGGTAAAATCAAGGCTTCACAAAGCATTGAAAATCATGCGCAAAAAGCTCGAGCATCATAACGGCTTTTGGCTGAAGGGGGAGAAGCAATTTGGAACGTTTTGA	MTERELFDSYNKDVYRTCYYMLRNAQDAEDLCHDVFVTVFRQDWRSVEHTRAWIMRIAMNHCLNLLRRNQTQREKQSQVEWLHEQTAASVKSVDTIVLEKAAAAEWESLLRQLPDKLMAVVTLRYIGELSMAEIAETLKIPVGTVKSRLHKALKIMRKKLEHHNGFWLKGEKQFGTF	PGPT0014960_10507	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00420	2805	xyl3A	COG1472	Xylan 1,4-beta-xylosidase	ATGAAATATCCGTTCCAGGATCCGGATCTGCCGCTGGAAGAGCGGGTTCACGATCTGGTGTCCCGATTGACCTTGGACGAAAAAATCGAATTAATGTGCCAATACCAGACGGAAATCCCCCGTCTCGGCGTGCAAAAATATAAGCATGGCACCGAAGGCGCCCACGGCGTGGCATGGCTTGGCGAAGCGACGGTCTTCCCGCAAAACACCGGACTTGCGTGCACGTGGAATCCCGAGCTGATGCGTGAAATCGGCTCGGTCATCGCAGAGGAAGCCCGGGTCTATTACCAGCGCGACCGGGCCATCAACGGACTGACCATCTGGGCGCCGACCGTGGATCTGGAACGCGATCCCCGGTGGGGACGGACGGAAGAAGCCTACGGGGAAGACCCGCACCTGACCGGGGAACTATCCACCGGGCTGGTGAAGGGCATGCAGGGAGACCATCCCTTCTACTACAAAACGGTTGCTACCCTGAAGCACTTCTACGGCAATAACAATGAAGCCGACCGCGGCAGCGCCTCGGTAAGCATCGATCCGAGAAACAAACGCGAATATTATCTGAAGGCTTTCGAGGCTCCGTTCCGGGAAGGGAAAGCCGGTTCCATGATGACCGCGTATAACGGCATCAACGGCACGCCGTGCAACCTGAACCATGAAGTGAACGATATCGTCAAGCAGGAATGGGGCATGGACGGATTCGTCGTAGGGGACGCGGGTGACGTGCTGGGTACCGTCATGGACCATCATTATGTCGCTTCCTACGCGGAGGCCGTTGCGGATTCCGTCAAAGCCGGGATCGACAGCATCACCGACGATCAGGACATCTCCTTCCGCGCTCTCCGCGATGCTTTGGAGCAAGGATTGCTTGAAGAGCAGCATCTGGACCATGCCCTCCGCAATACCTTCCGCGTCCGATTCCGCCTTGGCGAATTCGACCCGGAAGAGCGGAATCCATACAGCCGCGTACCGGAGTCGAAGCTCTGCGCGCCGGAGCATGCCGAATTATCTCTTCGAGCCGCACGTGAGTCGATCGTGCTGCTGAAGAACGACGGTTTGCTTCCCCTTCCGCGTGATCCGTTCAAATCCGCGGCCGTGATCGGACCGCTCGCCAACGAAGCGTTCACGGATTGGTACAGCGGCACGCCTCCCTACCGGATTACGCCGCTTCAGGGCGTGCAGGCCAAAGCGGGAGACCGCAGCGTTCAATTCCATACGGGATTGGATCAGGTGCGCCTTCGTTCTGCCGTCAGCGGCACGTATGTCGCCCTGTCTTCCGAGGAGCAGGGCATCCTGCTTGCAGGCACGTCAGAATCCGCCGATGCCGCCGTGTTCGAGCGAAACGACTGGGGCTGGGGCTCCGTCACGCTCCGCCTGGTCAGCAGCGGCAAATTCGTGACGGAAACGGAAACGGGACTGCAAGCTGCAGCCGATGAGGCTCGCGGCTGGTTCGTGAAGGAGGCTTTCGGCTTCGAGGCGATGCCGGACGGAAGCTTTAAGATGAAAAACTGGGAAGGCAAACCGATCCTGCTCGATGAGCATGGCCGGCTTGTTGTTGGCGGCATCGAGGAAAGTGGAACGCCGTTTACCATCGAAACGGTTCAGGACGGCATCGCTGAAGCCGTTGCAGCGGCAGCATCGGCTGAAACCGCCGTCGTCTTCGTGGGAAACAGCCCGTTCATTAACGGCAAGGAAACGATCGACCGTCCCGACATCACCCTTCCGCCTGCACAGCAGGCCTTGATACAGGCGGTGTTCGAGGCTAATCCCCGTACGGTGGTGGTCATCGTAGGCGGGTATCCGTTCGCGGTGAACTGGGAACAGGAGCATGTGCCGGCCATCCTCTTTACGTCTCACGCCGGGCAGGAGCTGGGCCATGCGGTGGCCGACGTATTGTACGGAGATTACAATCCGGGCGGCCGGTTAAACATGACGTGGTACAAGTCAACCGAGCAGCTTCCGGACATCATGGATTACGACATTATCAAAGGAAAACGGACCTATCAATATTTCGACGGGGATGTACTGTATCCGTTCGGTCACGGTCTCAGCTACTCCCGCTTCAAGTACAGCGGTCTATTGCTGAGCCAGCCGAAAATGACGGCCGAAGGCAGCGTAACCGTTACCGTTGCCGTAAGGAACGAGAGCCAGCGGGCCGGGGATGAGGTGGTTCAGCTGTATGTGAAGGCTGACTCCTCCCGCGTCATCCGTCCGCTCAAAACATTGAAGGGCTTCCGCCGCGTCCATGTGGCTCCGGACACTTCGGAAACGGTAACCTTTGAGCTCAAGGCCGAGGATCTGGCCTTCTGGGACGTTACCCGAGAGCACTACTGCGTGGAAAGCGGGACCTATACGCTCATGGCTGGACCATCCTCCGGCCGACTGCCGGTCACCGCAGTCCTTCAAGTCGAAGGAGAGACGATCCCGCGACGCATGCTGCGAGAGCCTGTTCGAGCAGTGAATTATGACGACTACCAGGGTGTCTTCCTGGATGAATGCCGCGAAGGCGGCGAAAGCATCCGTTTAACCGGCGACTCGGGATGGATCGCCTTCCATGACGCCGATCTCGGCGATTCTCCGGTAACGTTCGAGGCCAGGGTGAGCGGACATATCAAGGGCGGCGACATCGTCATTACAACCGGCAGCCCGGATGGTCCGAAAGTCGGAAGCTGCAGGGTTCTGCCGACCGGAGGACGCCAGGCCTGGACGACGGTGGAGGCCGATCTGAAGGGGTTAACAGGACGCGCCGACGTCTTCCTGATCATGAAAGGCGAGGTGCAGATCAGCTGGTTCCGCATAGCTTAA	MKYPFQDPDLPLEERVHDLVSRLTLDEKIELMCQYQTEIPRLGVQKYKHGTEGAHGVAWLGEATVFPQNTGLACTWNPELMREIGSVIAEEARVYYQRDRAINGLTIWAPTVDLERDPRWGRTEEAYGEDPHLTGELSTGLVKGMQGDHPFYYKTVATLKHFYGNNNEADRGSASVSIDPRNKREYYLKAFEAPFREGKAGSMMTAYNGINGTPCNLNHEVNDIVKQEWGMDGFVVGDAGDVLGTVMDHHYVASYAEAVADSVKAGIDSITDDQDISFRALRDALEQGLLEEQHLDHALRNTFRVRFRLGEFDPEERNPYSRVPESKLCAPEHAELSLRAARESIVLLKNDGLLPLPRDPFKSAAVIGPLANEAFTDWYSGTPPYRITPLQGVQAKAGDRSVQFHTGLDQVRLRSAVSGTYVALSSEEQGILLAGTSESADAAVFERNDWGWGSVTLRLVSSGKFVTETETGLQAAADEARGWFVKEAFGFEAMPDGSFKMKNWEGKPILLDEHGRLVVGGIEESGTPFTIETVQDGIAEAVAAAASAETAVVFVGNSPFINGKETIDRPDITLPPAQQALIQAVFEANPRTVVVIVGGYPFAVNWEQEHVPAILFTSHAGQELGHAVADVLYGDYNPGGRLNMTWYKSTEQLPDIMDYDIIKGKRTYQYFDGDVLYPFGHGLSYSRFKYSGLLLSQPKMTAEGSVTVTVAVRNESQRAGDEVVQLYVKADSSRVIRPLKTLKGFRRVHVAPDTSETVTFELKAEDLAFWDVTREHYCVESGTYTLMAGPSSGRLPVTAVLQVEGETIPRRMLREPVRAVNYDDYQGVFLDECREGGESIRLTGDSGWIAFHDADLGDSPVTFEARVSGHIKGGDIVITTGSPDGPKVGSCRVLPTGGRQAWTTVEADLKGLTGRADVFLIMKGEVQISWFRIA	PGPT0019110_549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
AK002_00421	750	fnr_1	COG0664	Anaerobic regulatory protein	ATGAAACAGAATCGAGCTGCAAGGTCCGATGCGAAGAATGGAGGGCTGTTTCCTGCGGCCACTTCCTTCGTCTTTTCGCCGCCGCATCTCGCTTTAATCCGGGAAATGGCCGAGCCAATCGGTTTGTTTGCCGGCGATTGTCTGTATCAGGAGAACGATCCTGCCGACCGGCTGTACTTCGTAAACCGGGGAAGCCTGAAGGTATCCAAGCTGCTGGAAGGCGGATTGTCGGCAACCTTGTCGCTCCACATCCCGGGCGATCTGTTCGGTGAGCCCGATCCGTTCGGACGAGCCGTGCATCATTTCGAAGCCAGGGCCATGGAGGATAGCGAGGTCGGCGTCGTGCCCCAGACCGAGCTGGATAAAATCATCCGCATCAACGGTGACTTTGCCGTGGAATATATGGGCTGGATGGCGCTCATGCAGCGTACCACGCAGAGCAAACTGCGCGATCTGCTGCTGCATGGCAAATCCGGCGCCCTATGCTCTCTGCTGCTGCGGCTGTACAATATGTACGGCACCGGCGGGACCGCCAAGGATCACAGGGCCATCATCGGCAAGCGGATCACGAATCTGGAGATGGCGGAGATGATCGGCTCTACTCGCGAAAGCGTCAACCGTATCTTGAACGAGCTTAAGGATCTTGGCGTGATTTCTACCGAGCGGGGGCGCATCGTTCTGAATGACCCCGCCTATTTGCGGAATATTTGCCACTGTGAGGACTGCCCCAAAGAGATTTGCCGAATGTAA	MKQNRAARSDAKNGGLFPAATSFVFSPPHLALIREMAEPIGLFAGDCLYQENDPADRLYFVNRGSLKVSKLLEGGLSATLSLHIPGDLFGEPDPFGRAVHHFEARAMEDSEVGVVPQTELDKIIRINGDFAVEYMGWMALMQRTTQSKLRDLLLHGKSGALCSLLLRLYNMYGTGGTAKDHRAIIGKRITNLEMAEMIGSTRESVNRILNELKDLGVISTERGRIVLNDPAYLRNICHCEDCPKEICRM	PGPT0015075_536	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
AK002_00422	1065	apbE	COG1477	FAD:protein FMN transferase	ATGTATAGGAAGTTTCTTTCCTGCAGCAGCCTGTTGATCATGCTCACCCTGTTGATGACGGGAGCGATCGGCTGCACAACCAAAGCGGATCAGAAGACAGCCGCCAGCAACGAACCGGCAGCCGAACGTTACTTTATATTCGATACCATTGTAAGTCTCCGCGTTTACGATGAACGGATGACACCCCGGCATTTCGACGAGGTTAGGGCTCTGCTGGAACGGATCGACCAGCGTATGAACCGGCAGCTGGCCGGCAGCGAGATCGATCAGGTCAATCAAGCGGCAGGCAAATCCGAGGTCAGCGTTTCGGAAGAGACCTTCAATGTGGTCCAGACCGCCATCGATTACGCAGCGGCTTCCGGCGGACATTTCGAACCGACCGTAGGCCCGCTTGTGGATCTCTGGGGCATCGGGGGCGAACACCCCGCAGTGCCGAAAGAAGATGAACTCGCCGCCGCCATGCAGCGAATGAACTACAAGGATGTGATTTTGAATCCGGCATCGAACGCCATCCGGCTGAAGAAGGAGGGAATGTCGCTGGATCTAGGCGCCATCGCCAAAGGATATGCCGCAGATGTCATCGCGGACTATTTGCAGCAGCAGGATTTCCGCTCCGCCATCATTGACCTCGGGGGCAACATCCTGGCCATGGGTTCAAAGCCGGACGGCTCACCGTGGAATATCGGCATCCAGGACCCTGAGAAGGATCGCGGGCAATCCCTGGGTACCCTTCAAGCCGTCAACAAGACCATCGTGACCTCCGGCGTGTATGAGCGTTTCTTCGAAGCAGAAGGAACAGTGTATCACCATATTCTGAGCCCCTTCACCGGTTATCCGGTCGATAATGACCTGCTCAGCGTGACGATCGTGACCGACACGTCCATGGACGCCGATGCCATGTCGACTTCCGTCTTTTCGCTTGGGCTTACGGAAGGTCGGCAGTTCGTCGAGAGCCGGGATGACGCCGATGCCATTTTCGTCACCACCGACCATCAAATCTATCTCACCTCAGGTCTGACCGATACATTCAAACTGACGAATGACCATTATCAGCTTGCCGAATAA	MYRKFLSCSSLLIMLTLLMTGAIGCTTKADQKTAASNEPAAERYFIFDTIVSLRVYDERMTPRHFDEVRALLERIDQRMNRQLAGSEIDQVNQAAGKSEVSVSEETFNVVQTAIDYAAASGGHFEPTVGPLVDLWGIGGEHPAVPKEDELAAAMQRMNYKDVILNPASNAIRLKKEGMSLDLGAIAKGYAADVIADYLQQQDFRSAIIDLGGNILAMGSKPDGSPWNIGIQDPEKDRGQSLGTLQAVNKTIVTSGVYERFFEAEGTVYHHILSPFTGYPVDNDLLSVTIVTDTSMDADAMSTSVFSLGLTEGRQFVESRDDADAIFVTTDHQIYLTSGLTDTFKLTNDHYQLAE	PGPT0000430_617	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
AK002_00423	381			hypothetical protein	ATGAAACGCGGAGATATTGGAATAGCGCTTGTGCTGATAGCGGCTGTCGCCTGGTTTGGAATATCCAAGTTTATGGGGGAAGACGGAACGGCAAAGGGAACCTATGCCATGATCGAGGTGAACGGAAAGCATTATGATACGGTGGCGCTGACGGAAGAGCCCCGAGACATAGAAATCCGGACGGAGCGGGGATACAACCTTTTGAGGATCTCGCGCGAAGGGATCGAGATGGTGGAGTCGGATTGTCCGGATCAGCTCTGCATCGGGTTCGGCCACGTTCACGACATCCATGGCACCATCGTATGTTTGCCTAATCGCGTGTTCGTTGAAGTGACCGGAGAACAAATTAAAGGAAGTGAGCCGGATGCCGTTGTCTCCTGA	MKRGDIGIALVLIAAVAWFGISKFMGEDGTAKGTYAMIEVNGKHYDTVALTEEPRDIEIRTERGYNLLRISREGIEMVESDCPDQLCIGFGHVHDIHGTIVCLPNRVFVEVTGEQIKGSEPDAVVS				NA	NA	NA	NA	NA
AK002_00424	546			hypothetical protein	ATGCCGTTGTCTCCTGATCCTTATGCGCTCCGCAAGCTGGTCGTGATCGCCATCTGCGCATCATTATCGGTGGTGCTGGGCATTGTGGAAGCCCTGATTCCGTTCGCGGTCACGATACCCGGCGCCAAGCTGGGGCTCGGCAATATTATGGTTCTGACCTGTCTGGTCTGCCTTGGGGGCAGGGATGCCTTGTGGCTCATTGTCTTAAAAACATTGTTGACCGCCTTTATACTCGGCAGCTTCTCGACCTTCCTGTTCAGCATGTTCGGCGCTCTGGCGAGTTATCTGGTGATGTATGTCATGCTGAGGCTCGGGGGGAGCAATTTCAGCTTAACCGGGGTGAGCATCGCGGGCGGCATCGCTCATAATATCGGACAATTGACGGCAGCCTCGCTGGTATTGGGGACGGCAAAAATCTATTATTACCTGCCCTTTCTGCTCGGGGCGGGCGTGGTGACCGGGATCTTCGTCGGATGGGCCGCAAAATATCTGATCGAATCCCTGCGGCGTATTGATCCGTTCGGCATGTTTCACACAGAAAGCTAA	MPLSPDPYALRKLVVIAICASLSVVLGIVEALIPFAVTIPGAKLGLGNIMVLTCLVCLGGRDALWLIVLKTLLTAFILGSFSTFLFSMFGALASYLVMYVMLRLGGSNFSLTGVSIAGGIAHNIGQLTAASLVLGTAKIYYYLPFLLGAGVVTGIFVGWAAKYLIESLRRIDPFGMFHTES	PGPT0004010_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004010-eetB-NA	NA	NA
AK002_00425	876	ecfA1_1	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA1	ATGGCGGGCATAACCGATAAGTCAGAGCATGCAGTAAAGCTCAAGCATGTATATTACGGACAAGGCTGCACGAACGTGCTCAAAGATGTCTCGCTGGCGATCCCCCATGGACAGTGGGTATGCATCGCCGGAAGAAACGGGGCAGGCAAGTCCACGCTCATTCGGCTGTTGAACGGCCTGCTCCTCATGAGCCGGGGACGCATTCTGATCGATGGGCTGGAGCTGAACGGCCGCACGCTGGGCGACATTCGCCGTCATATCGGCATGGTGTTTGCGAACCCGGACGATCAGTTTGTCGGCCTCACCGTAGAGGATGATATCGCGTTTGGCCTGGAAAATCTGTGCCTGAGCCGGGAAGAGATGCTGCAGCGGATTCGAACCTATGCGGAGCGGCTGGATATCGTCCATCTGCTCCAACGGCATCCGGCCACTCTGTCCGGCGGACAGAAGCAGCGGGCGGCCATCGCTGCCGTGCTGGCGATGGAGCCTTCCATCATTGTCATGGACGAGGCGGCCTCCATGCTGGATGAGAAGGCCAAGAATGAGCTGCTGGGCCTGATGCGGGCCATGCACGCCGAAGGCAGGTACACGCTCATCTCCATCACCCATGATGTGGAGGAGATGGCCGAAGCCGACCGGATGATCGTGCTGGACGGCGGCATGGTGACCGCGGACGGCAGTCCAAAGGAGCTGCTTCTGCAGGACGACTTGCTGCGGCGGTGCAGGCTGAAGGCGCCTTTTGCCCTCCAGCTGTGCAGGGAGCTGAAAGCGAGAGGAATCGATATCGGCGAGCTGGTCAGGGAGAAGGAGGTGCTGGAGGCATTATGGTCATATCATTCGAAGAGGTTTCTTACCGCTACCGGGACCGGGGGATGA	MAGITDKSEHAVKLKHVYYGQGCTNVLKDVSLAIPHGQWVCIAGRNGAGKSTLIRLLNGLLLMSRGRILIDGLELNGRTLGDIRRHIGMVFANPDDQFVGLTVEDDIAFGLENLCLSREEMLQRIRTYAERLDIVHLLQRHPATLSGGQKQRAAIAAVLAMEPSIIVMDEAASMLDEKAKNELLGLMRAMHAEGRYTLISITHDVEEMAEADRMIVLDGGMVTADGSPKELLLQDDLLRRCRLKAPFALQLCRELKARGIDIGELVREKEVLEALWSYHSKRFLTATGTGG	PGPT0004455_1103	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006	NA	NA
AK002_00426	858	ecfA2_1		Energy-coupling factor transporter ATP-binding protein EcfA2	ATGGTCATATCATTCGAAGAGGTTTCTTACCGCTACCGGGACCGGGGGATGAGTCCGGTTCTTGGGCTTGACGGCCTGAATCTGGAGCTGGAGGAAGGCCGAATGATTGCCGTCCTTGGTGCGCCGGGCTCGGGGAAATCAACGCTTCTCCAGCATATGAACGGTTTGATTCGGGCGGATGACGGCCTGATTCGCATTTTGGATTTCCGCCTTGAATCGGGTGACGGCAAGAAAATTCCCGCCGGGCTGCGGCAGCGGGTCGGCCTGGTGTTTCAATATCCGGAGCAGCAGCTGTTTGAAGAAACGGTGGAGAAGGATCTATTATTCGGACCCCTTAATTTCGGACGGAGTCCAGCTGAAGCCGCAGAGGCGGTCCGCAGAGCGGCATCCTTCGTCGGATTGGATGAGGAGCTGCTGGGGCAGAGTCCCTTCAAGCTAAGCTCGGGCCAAATGCGGAAAGCGGCGGTTGCGGCCGTATTGGCGGCCGATCCCGACATTTTGGCTTTGGATGAGCCTACGGCCTCCCTCGATCCTGCCAGCCGGGAGGATCTGATGCAGCGGCTGCATGGATTAACGAGGACGCAAGGCAAAACCGTCCTCGTCGTCACTCACCGATTGGAGGAAATCGTGGCCTTTGCCGACGAGCTCGTGGTAATTAAGGACGGCAAGGTCCTGTTTCAAGGAACGGCCGGGGAGCTCGTACACCGGCAGGAGGTGCTGGAGCAGGGAGGCCTGATGGCTCCTTCCTCCGTGCGGATGGCGGGTATGCTGGCCGCACAGCTTGGACTCGAACCTGCGGAAATGCTTCCGGATGCGGCAGCATTGGCGGAATGGTATGCGGAACTGCGGGGATCATAG	MVISFEEVSYRYRDRGMSPVLGLDGLNLELEEGRMIAVLGAPGSGKSTLLQHMNGLIRADDGLIRILDFRLESGDGKKIPAGLRQRVGLVFQYPEQQLFEETVEKDLLFGPLNFGRSPAEAAEAVRRAASFVGLDEELLGQSPFKLSSGQMRKAAVAAVLAADPDILALDEPTASLDPASREDLMQRLHGLTRTQGKTVLVVTHRLEEIVAFADELVVIKDGKVLFQGTAGELVHRQEVLEQGGLMAPSSVRMAGMLAAQLGLEPAEMLPDAAALAEWYAELRGS				NA	NA	NA	NA	NA
AK002_00427	792	ecfT_1	COG0619	Energy-coupling factor transporter transmembrane protein EcfT	ATGAAACGAAAAATCATCCTGGGCCGATATATGGAAGGCGATTCATGGGTTCACCGTCTGGATCCCCGCGCCAAGACGGCGGCTATGCCGCTCTTTATGGTGGCCGTGTTCCTGGTGGACGGATATATGGGGGTACTCGCGCTGCTGCTGTTCACTGCGGTGGTGATCCGGACCACGCGTATTCCGTACCGTTATTACATCAGAGCCATGAAACCGCTGATGTTCCTGCTGTTGTTCATCCTGGTATTTCACATCCTTTATGATGCGGGAGGCGGGAAACTGCTGGATGTGGGCGCGTTCAAGGTATATGCCGGCGGATTGGAAAAAGGGATCGTGTCCGCTTCGCGGATGGGACTCTTCATCATGCTGGCGGCGGTGCTGACCTTCACGACCCAGCCGGAGCAGCTGGCCCAGGGGCTCGGCAGCCTCCTGCGGCCGCTGACCTGCATCGGCGTGCCGACGGATCGGCTGGTGCTGATGCTCGGCATTGCCCTCCGGTTCATACCGACTATCTTCGAGGAAGCCGAGCGGCTGTGGAAGGCCCAGCAGTCCCGGGGACTGGACCTGTCATCCCGCCCGCTGAGGGAGAAGGCACGGCTGATCATTGCCCTGCTGGTCCCGGTAACGACAGGCGCGTTCCGGCGCGCGATCGGGTTGGCCGATTCCATGGAGGCCCGGGGCTATCGCCTGGGTGCGCGGCGAAGCAGGTTCAGGGCGTTTGTATGGAAGCGGGCGGACACGTTATTCGTGGCGGTATTTCTTCTGCCCGTGGCCGCAGCCGCGCTGCTGTAA	MKRKIILGRYMEGDSWVHRLDPRAKTAAMPLFMVAVFLVDGYMGVLALLLFTAVVIRTTRIPYRYYIRAMKPLMFLLLFILVFHILYDAGGGKLLDVGAFKVYAGGLEKGIVSASRMGLFIMLAAVLTFTTQPEQLAQGLGSLLRPLTCIGVPTDRLVLMLGIALRFIPTIFEEAERLWKAQQSRGLDLSSRPLREKARLIIALLVPVTTGAFRRAIGLADSMEARGYRLGARRSRFRAFVWKRADTLFVAVFLLPVAAAALL	PGPT0004015_2424	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
AK002_00428	936			hypothetical protein	GTGATCAGAAAACACCTAAGCTTTTTTACACTGGCATTGCTGTTTCTTATGTTTACCCTTGAAGAGACGGAAGCCTCCAGCCAAAAAGTTAGTTTAACCCTCCCAAACGGGGCCACCTACTATGGTGAAGCGAAGAACAACAAACCTCATGGAAAAGGTACGATGCGATGGGGATCTTCCAAAGTATACAGCGGCGAGTGGTACAATGGGCAAAGATCCGGTACAGGCAAATACATATCGGACAAGCTTCCCGAGGATATGAAAATCGTCTACGAGGGGGAATGGCGAAACGATCGTCCTAACGGAACGGGAATGCGGAGCGAAAGCAACCCTGATTTTGAATTTCATGTAATCTCGAAGGGCATTTTCAAGGATCATGACTTGCTGTCAGGTTATACCGTGATGCAATCCATGGACATCCTTGGGTTTGAATACCGGAATGAGACCACTCTATTGGAGTTTTCCGCATCGGATCGGGAGCAGGCAAATGAATTGATGCAATCCAAATTGGCCCGCGGCCGCATTCAACTGCTTAATTATTATAAAAGTGATAAGTCCAAGCCTGACTACAAAGGGTTCGCATATGCAAGCGAGATGGAGGACTACGGGAGTTCCATCAGCGAAGGCGTATATCGAACGGGTGACTATGGGGTGATGGAGCTTTATACTGGAATGAATCAACGCTTCGAGGACGAAGAGCACTATAGAGTAGAGAATTACAAGAACGGGAGACTCGTCTCTGCAAGAGAAGTACCGGAGAACGGACGGTTTGCCGGGATCGTTCAAGGGAAAATCAATAACAAGAAGCATGTCCTGCAGCCTTATCTAGGTGAATTCTCAAAGCTATTAAAAGACATTGAAAACGAATCAGAGCCAAAAGGCTGCAACAACTCGCCCACCAGCGTTTGCGGGACCTTTCCTATCAAATTCGAGTAA	MIRKHLSFFTLALLFLMFTLEETEASSQKVSLTLPNGATYYGEAKNNKPHGKGTMRWGSSKVYSGEWYNGQRSGTGKYISDKLPEDMKIVYEGEWRNDRPNGTGMRSESNPDFEFHVISKGIFKDHDLLSGYTVMQSMDILGFEYRNETTLLEFSASDREQANELMQSKLARGRIQLLNYYKSDKSKPDYKGFAYASEMEDYGSSISEGVYRTGDYGVMELYTGMNQRFEDEEHYRVENYKNGRLVSAREVPENGRFAGIVQGKINNKKHVLQPYLGEFSKLLKDIENESEPKGCNNSPTSVCGTFPIKFE				NA	NA	NA	NA	NA
AK002_00429	1224			hypothetical protein	ATGGATGCATCCCTGTTCGATATGAAAGGATGTTTAATCGACATGCATCGCACACGAATCTGGCGGTGGCGAATTGCGCTGACGGCCTTCCTGCTCCTGCTTGCTGCCGGGGGCTTCATGCTATTCAGGACATCTCCTCTTGCGGAACAGGAGACCGTTGACACGCAAGTGAGCTCCATCGCCATTTTTGCGCTCAAGGGCTGCGGCGGCTGTTCCAAGGCGCTGGGCGTCATGGAGCAGATGGAAGCAACCTCCCCGGACTACCGTTACCAGTATTTCAGCATTTCGGAGGATACGGAAGCCGTTAACCGGTACGGTATTACGGAGCACCCAACGATCCTGTTCCTGAACGCTCAGGAGGAAGAACTCGGAAGACTGACCGAAGATATATCAAGCGGCAGGATCCTGCGGGAGCTGGAAGATATCGCTGCGAACGGTGCACGCCCGCCCGAGGGAGCGACTCTCTCGGCCATCCCCGGCACGATGCCCAGCGTAACCCTCCATGCCTATGACCCGCATTCCGGTCTATTCACGCCGGTATCCCAGTACGTGCAGACGGATACCTCCGTCCGCTATCCGAAGGTCAGTGCCATGACGATGCTGACCCAGCTTTCGGATCTGCTGCCGCCCGAGCTGGAAAGCGCCATCCCGGCCGGCGTAAGCTTCGCCGAAATCCGAACCGAACACGGGGTAACCGTGGTGGAGCTGTCCCCATCGTTTCGTGCTTTTACCGGCTCTAAGGAGGGAGAACGGGCGGAAGAAGCCATCGCGCTTACGCTGCAGACCTTTGAAGGCGTGAACGGCGTTCAAGTTGTAAGCGGCGCGTATCGCAGCGACATCCTCTATGCGGAAGCCCTTGCTGGCCGTTCCGACGGCAAAACCGAATACCTGCTGCATCCCGATACGCCTCTTCCGCATATGTCCAGCGTGAAGGAATACAATGCAGCCATCCTCCATGCCGGCCACTTGGCCTTCATGCCCTGCTTCTGCGGATGCGGCGATGCCGGCCATAGCAGCAACCTCAATTGCTACTATGCTCAAGAGGAAGACGGCAGGCTCACGCCAACCACGCACGCGAAATTCTGCCAAACCTGCCTGGACGTCACGAATATGTACTTGGGGGGCAGGCAGCAGGGGCTGAGTCTGAAGGAAATCCGGCAATCCGTGGACCGGGCCTACCAGGGGATCAAGCCGACGGATACACCGATGCCGATGAATGAATAG	MDASLFDMKGCLIDMHRTRIWRWRIALTAFLLLLAAGGFMLFRTSPLAEQETVDTQVSSIAIFALKGCGGCSKALGVMEQMEATSPDYRYQYFSISEDTEAVNRYGITEHPTILFLNAQEEELGRLTEDISSGRILRELEDIAANGARPPEGATLSAIPGTMPSVTLHAYDPHSGLFTPVSQYVQTDTSVRYPKVSAMTMLTQLSDLLPPELESAIPAGVSFAEIRTEHGVTVVELSPSFRAFTGSKEGERAEEAIALTLQTFEGVNGVQVVSGAYRSDILYAEALAGRSDGKTEYLLHPDTPLPHMSSVKEYNAAILHAGHLAFMPCFCGCGDAGHSSNLNCYYAQEEDGRLTPTTHAKFCQTCLDVTNMYLGGRQQGLSLKEIRQSVDRAYQGIKPTDTPMPMNE				NA	NA	NA	NA	NA
AK002_00430	1005	hepT_1	COG0142	Heptaprenyl diphosphate synthase component 2	ATGAACCTTCATAACCAAATCGGAGTGGATCTCGCTTCCTTCGATCGCCTGCTCCGGGAGGTCGTCAGCTCAGACCGCGACCTCCCCCCTTCCTCCGTGGTGCTGAGCAGCGCCATGGATCTCATTAACGCCGGCGGCAAGCGGCTGCGCCCGCTTATGGTCGTGCTCGGCAGCCGTTTCGGGGAAAGCGGCCATGAGCCCGCCGTCATGAAAACCGCCGTACTGCTTGAATATCTGCACATGGCCTCGCTGGTGCACGATGACATTATCGATCAATCCGATATGCGGCGCGGCATGCCGACCCTGCACGAGACGACCGATGTCCAGACGGCGGTGCACATCGGCAACTACATGATTGCCCGTGCCATCGAATGGGCCGCCGGTCATCCAGGCGGCGACCCAGACGGGAACAGCGAAGACATCTCCGAAGACGAGGCCTACCGTTTAGCCGAGCTTGCGGCGCTGGTCACCGAGCTCTGCATGGGAGAATACGATCAGCTTCAACACCGCTTCGACTTCGGACTGACGATGGAGCAGTATTTGGAGAAAACGCGCTGCAAAACGGCCCTGTTGATGGCCCACTGCCTGAAAGCGGGCGCGGAAGCAGCCCATGCGGATGCCGGAACCGCTGAACGGCTCTTTCAATTCGGGGAGTCGCTCGGCATGGCCTTTCAAATCCGGGATGACCTGCTCGATTTCACGCAGCCCAAAGAGGCCATCGGCAAGCCGGCTGGCGCAGACCTGCGAAACGGCAACATTACGCTGCCGGTGCTTTACGCCCTAGACGATCCTGCCCTTGCCCCTAGAATCAGGCAGCTCGGCCCTCATTCCGCCGCGGCAGACATGGATGACGTCATCCACCGCATAGCCGCAAGCGGCGCGATCGGGCAGAGCGAAGAGCTTGCCCGTTCCTATGCGGAACATGCCCAGCGCATGATCGTCGACTTCGCGGATCACCCGGCTCAGCGTGATTTGCAGGCATTGCTCCATTATTTCCTGCCCTAA	MNLHNQIGVDLASFDRLLREVVSSDRDLPPSSVVLSSAMDLINAGGKRLRPLMVVLGSRFGESGHEPAVMKTAVLLEYLHMASLVHDDIIDQSDMRRGMPTLHETTDVQTAVHIGNYMIARAIEWAAGHPGGDPDGNSEDISEDEAYRLAELAALVTELCMGEYDQLQHRFDFGLTMEQYLEKTRCKTALLMAHCLKAGAEAAHADAGTAERLFQFGESLGMAFQIRDDLLDFTQPKEAIGKPAGADLRNGNITLPVLYALDDPALAPRIRQLGPHSAAADMDDVIHRIAASGAIGQSEELARSYAEHAQRMIVDFADHPAQRDLQALLHYFLP				NA	NA	NA	NA	NA
AK002_00431	438			hypothetical protein	ATGGATATGAAGCTATTACAGGATACGATCGACCTGCTTCGGTCGCATATCGATTCCGGAACGGATATCGATTGGATGGAGATGGATAACAGACCGGTGAGGGACATCGCCGATATGCTCAACGCTTATGAACTCGCCTATTCACGCAAAATGACGGTGCTGGCTTGCTGCATCCTGATTCATACTGCGCTAAACAAGCATGACAAGCTGCAAGCGAAGGATAACGAGAGACTGACGCGTTTGCTGCTGGACGGCGATTATTTGACCGGACTCATGTACCGGATTGCCGTCAAGCGAAGGGAATGGAAGCTGCTGTCCCGCCTTCTCCCCTTTCATAAGCGCATGCAGCTCAGCCTGCTCAAGAACGTTTCACCCGAAAGGATATTCAACGAGCTTAAGCGCGAAATCCGCAGCTATCTGGAGCAGCGGAGCGCGTAA	MDMKLLQDTIDLLRSHIDSGTDIDWMEMDNRPVRDIADMLNAYELAYSRKMTVLACCILIHTALNKHDKLQAKDNERLTRLLLDGDYLTGLMYRIAVKRREWKLLSRLLPFHKRMQLSLLKNVSPERIFNELKREIRSYLEQRSA				NA	NA	NA	NA	NA
AK002_00432	1875	norW		Nitric oxide reductase FlRd-NAD(+) reductase	ATGAAACAGATTATCGTGCTGGGCGGCGGATACGGCGGTATACTTACCGCCAAGAAGCTGGCTAAACGACTGCGCAAACAGAAGGATTTGCGGATAACACTCATCGACCGCAAGCCGTATCATACGCTGCTGACCGAGCTTCATGAAGTGGCCGCCAACCGGGTCGAGGAGGATTCCATCAAAATCGACCTAAAAAAAGTATTTTCCGGATTCCGGAACGTGGACGTGGTGCTGGATGAAATCGGCGGCATCGACTTTGACGGCCAAACGCTCCAGGGAGAGAAACAGACCTACAACTACGACTATTTAGTCATCGGTACAGGCAGCAAGCCAACCTTCTTCGGCATACCGGGTGCGGATCAACACGCCTTTACCCTGTGGTCTTACGATGATGCGGTCCGCCTGAAAGAACATACCCTGAATATGTTCCGCAAAGCGGTTCTTGAGCGCAACCCGCAGGTCCGCAAGGAAATGCTGACCTTCGTCGTTGTCGGCGGCGGATTCACCGGTGTGGAAATGATCGGCGAGCTGGCCGAATTCACCCAGCAATTATGCAAGGAATTCTACGTGGATCCAAGCGAGGTTACGCTTCACGTTGCCGACATGGTCGACAAGATCCTTCCGATCCTGCCAGAGCCGTTAATACGCAAAGCCGAGAAGCGGCTGCGTAAAATGAACGTCAACATCATCACGGGCTCCAAGATTACGGAGGTTAAGCCGGACGGCGTTACCGTCGGCGGCAGCGATATCAAATCCCGCACCGTTATCTGGACCGCGGGGGTGGAAGGTTCCGATGTGGTCGGCAGCATGGATGTCGAGCAAAAAGGCCGCAAGCGGATTTTGACCAACGACAAGCTTCAAATTCCTGCTCATCCGAACGTCTATGTCGTCGGGGACAATATTTTCTACATTCCTGAGGGCGCGGCTGCACCCGTACCTCAAATGGTGGAAAACGCCGAACTCGCGGCCCCGGTCATTGCGCATAACATCGTGGCTGAATTATCGAACAAACCGATGAAATCCTACAAGCCGACGTTCCACGGCACGATGGTCTGTATCGGCAGCCGCTACGGGGTAGCCAACGTGGGCGTGCCGGGCCATATGTTCAGGCTCAGCGGCTTCCCGGCCATGCTGGTCAAACATCTGATCAACATGCTCTATCTGTTCCAGGTTTGCGGCTTCAACAAGGTATACCATTATATGCTGCATGAGTTCTTCCATGTCCGGAACAACCGCAGCTTCGTGGGCGGGCATTTTGCCAAACGCTCGCCGAATTTCTGGCTCGTTCCGCTGCGGATTTTTGCCGGATGGATGTGGCTGTCCCAAGGGTGGGATAAGATTCACAAGATCATTGACGATCCGAACAAAATGTTCCTCATTCCTGCCAAAGCAGCCGACGGCGTAAGCGCAGCTTCCGCTGCAGGCGCCGATGCAGCCGGAGCCGGAGCGGCAGACGCGGTGTCCGCTGCCTCCGCTTATACCGCAGAAGCGGTCTCCGCCCTTCCGGTGCCGGATTTCTTGAAATCCATCGTCGACTGGTCGATGGACCTGATGTTCTATACCGGAGACGGCGGCTATACTTCGCTTGCCTATGTGTTTCAGACCTCGATGGTATTGGCTGAGCTGATCGTCGGCATCCTGCTGATCGTCGGATTGTTCACGGCACCTGCAGCCGTAGCCAGCGTCGCCATGGGCGCCATGGTTTGGGTATCGGGTATGGCACCTAACGAGATGCTGTGGTATCTGGCAGCAGGAATCGCCTTGATCGGCGGATCGGGCAGCACGTTCGGACTTGACTACTATGTGTACCCTTGGCTGAAAAAGGTATGGAGACGAATACCGATCGTAAGGCGCTGGTACGTGTATACGGACTAA	MKQIIVLGGGYGGILTAKKLAKRLRKQKDLRITLIDRKPYHTLLTELHEVAANRVEEDSIKIDLKKVFSGFRNVDVVLDEIGGIDFDGQTLQGEKQTYNYDYLVIGTGSKPTFFGIPGADQHAFTLWSYDDAVRLKEHTLNMFRKAVLERNPQVRKEMLTFVVVGGGFTGVEMIGELAEFTQQLCKEFYVDPSEVTLHVADMVDKILPILPEPLIRKAEKRLRKMNVNIITGSKITEVKPDGVTVGGSDIKSRTVIWTAGVEGSDVVGSMDVEQKGRKRILTNDKLQIPAHPNVYVVGDNIFYIPEGAAAPVPQMVENAELAAPVIAHNIVAELSNKPMKSYKPTFHGTMVCIGSRYGVANVGVPGHMFRLSGFPAMLVKHLINMLYLFQVCGFNKVYHYMLHEFFHVRNNRSFVGGHFAKRSPNFWLVPLRIFAGWMWLSQGWDKIHKIIDDPNKMFLIPAKAADGVSAASAAGADAAGAGAADAVSAASAYTAEAVSALPVPDFLKSIVDWSMDLMFYTGDGGYTSLAYVFQTSMVLAELIVGILLIVGLFTAPAAVASVAMGAMVWVSGMAPNEMLWYLAAGIALIGGSGSTFGLDYYVYPWLKKVWRRIPIVRRWYVYTD	PGPT0004020_205	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
AK002_00433	912			hypothetical protein	ATGAAAAGGACACTCTCTCTATCCCTCTCCGTCATGTTGATGTTTGCGCTTCTCGTAGGCTGCGGAGGCAACGGAGACAAAGAGCCTGTCACCACGGACAAACCGGCAGAGAGCCAAAACACGGATAATGCCGGAAACGGGGAGCAACCGGCACAAGAAGGAACGGCCCTGCAGGACGGCTTATATTACGCCGAAGGCGATTTTGCCGAGGATTCCGGCTGGAAGGAACTCGTCGCGATTAAAGTCGAAGGCGGTAAAATCGTCAGCGCCAACTGGAACGGTCTGCATAAGGACGGCGGCTTGGACAAAAAGACATTTTCCGAAAAAGGCTTCTACGGCATGAAGGAAAAAGGCGGCGCTCAAGCGGAATGGCATGAGCAGGCAGCCAAGATGGAGGAATACCTGGTGGCTCAGCAGTCCGTTGAAGGGCTCGCCTTGAACGACGAAGGCCGCACGGATGCCGTATCCGGGGTATCGATCCATGTCAACGGATTTACGGAACTGGCAGCCAAAGCGCTGGCCGCGGGACCTGTTGAAGCAGGACCATACAAAGACGGCAGCTACCACGCGGAAGCGGCTGACTTCGATGCCAAATCCGGCTGGAAGGAAACCGTCGACGTTACCGTAATTAACGGTAAAATCGCCGCAGTCAGCTGGAACGGCGTTCATAAAGACGGAGGCACCGACAAAGTCACCCGCTCCAAATCAGGCGAATACGGCATGAAGAACGGCGGGGCTCAGTCCGAATGGCACGAGCAGGCTTATCAAGCCGAGCAGTATTTGATCGAAAAGCAAGACCCGCAGGCCATCGTAACGGGTGAAGACGGCAAAACCGATGCCATCTCCGGTGTATCCATCCACGTCAACGGATTCGTAGAACTGGCAGCGAAAGCGCTCGAAGGCGCCAAATAA	MKRTLSLSLSVMLMFALLVGCGGNGDKEPVTTDKPAESQNTDNAGNGEQPAQEGTALQDGLYYAEGDFAEDSGWKELVAIKVEGGKIVSANWNGLHKDGGLDKKTFSEKGFYGMKEKGGAQAEWHEQAAKMEEYLVAQQSVEGLALNDEGRTDAVSGVSIHVNGFTELAAKALAAGPVEAGPYKDGSYHAEAADFDAKSGWKETVDVTVINGKIAAVSWNGVHKDGGTDKVTRSKSGEYGMKNGGAQSEWHEQAYQAEQYLIEKQDPQAIVTGEDGKTDAISGVSIHVNGFVELAAKALEGAK				NA	NA	NA	NA	NA
AK002_00434	933	pyrD_1	COG0167	Dihydroorotate dehydrogenase B (NAD(+)), catalytic subunit	ATGATCTCCATCGATTGTGAACTGGCGGGCGTGCCGCTGTCGAATCCGATATTGGCGGCCTCGGGCACGTTCGGTTTCGGCAAACCGTATGCGGATCTGTATCCGCTTCGCAAGCTCGGTGGCATTGTCTCCAAGGGATTGACCCTGACCCCGCGGCTAGGCAATACGGGTACGCGGATCTATGAAACGCCATCGGGCATCATGAACAGCATCGGCCTGGAGAATCCGGGAATCCGGGCTTTTCTGGAGCACGAATTATCCGACATGGCTTCGCACGGGACGGCGGTCATCGTCAATCTCGGCGGCGGCACTGTACGGGAATATGCGGAGGGCGCCGAGCTGCTTACCGAAGCCAGCCGCAAGCTGCGCTCAGCCGGCAAACGGGCCGTCGACATGATCGAGCTTAACATCTCCTGTCCCAACATCAAGGAAGGCGGGCTTGCCTTCGGCATCGAGAATGAGCAGGCTCGAGCGGTGGTTCGCGCAGTCCGCAACGCCACCACGCTGCCTCTGCTCGTCAAGCTCTCTCCCGGGGCGAAGGATTTGAAGGAAATGGCACGGATGTGTGAAGCCGAGGGGGCCGACGGCCTCTCGCTAATCAATACGATTCAGGCGATGGCGATTGATATTCGGGAACGCCGCAGCGTTTTTGACAGAGCCTACGCCGGATTATCCGGGCCGGCGATTAAACCGATCGCCCTGCGGATGGTCCATCAGGTGGCCCGGTCGGTGTCCATCCCGGTGGTGGGAATCGGCGGCATCTGCAGTGCCGAGGATGTCCTCGAATTCATCATGGCAGGCGCTGCAGCCGTACAGATCGGTACGTACAACTTCATCAACCTCCGTGCGGGAGATACCCTGGCTGAAGAACTGATTCAACTGATGGAGAACGAGGGCATTCAATCCCTGGATGACATTCGAGGCATTATTTGA	MISIDCELAGVPLSNPILAASGTFGFGKPYADLYPLRKLGGIVSKGLTLTPRLGNTGTRIYETPSGIMNSIGLENPGIRAFLEHELSDMASHGTAVIVNLGGGTVREYAEGAELLTEASRKLRSAGKRAVDMIELNISCPNIKEGGLAFGIENEQARAVVRAVRNATTLPLLVKLSPGAKDLKEMARMCEAEGADGLSLINTIQAMAIDIRERRSVFDRAYAGLSGPAIKPIALRMVHQVARSVSIPVVGIGGICSAEDVLEFIMAGAAAVQIGTYNFINLRAGDTLAEELIQLMENEGIQSLDDIRGII	PGPT0021175_596	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021175-pyrDI-K17828	NA	NA
AK002_00435	702	pyrK	COG0543	Dihydroorotate dehydrogenase B (NAD(+)), electron transfer subunit	GTGGCCCTTGTTATTCAAAATGTCAGACTGGCCCATCGCATCTATCGACTTACCGTTCAAGGCAGCTATTCGGCACGAATGGGACAGTTCTTCATGCTTCGCTGCTGGGATGCCTATCCCGTGCTGTCACGGCCGATCAGCGTTCATAACCTGACGGAGGATTCCGTTTCCTTCTTATATCGCGTGCAGGGAACCGGTACGTGGCTGCTGTCGGCGCTTCAAGCGGGTGACAAAATACAGCTGGAAGGGCCTTTCGGGCAAGGGTTTCCTGAACCCCAAGGACGGACGGCACTGGTGGGAGGCGGTATAGGAGTAGCTCCGCTGCTGCTTGCAGCTAAGGAAATTCCCGAAGCCAGCGTGTATCTGGGATACGCCGGCGTTCCTTTCGGAATCAACGGATTCCACGAAATCAGCCGGGATGTCACGGTGAAGTCCGGCGGCACCATCGTCGATGCCGTGGACCCGAGCCGCTATGACACGATATTTGCCTGCGGCCCGGTTGGGATGATGCACAGCTTGGCGCAAAAAGCCGAAGGTACCGACGCGAAGCTCCATGTCTCCATCGAGAAGCGAATGGGCTGCGGCATCGGGGCATGCAACAGCTGCACGTTAACTGCCGCGGGTTCGAACCGCAAGGCGTGCACCGACGGGCCCGTATTTCTGGCGAAGGAGGTGAACTGGAATGATCTCCATCGATTGTGA	MALVIQNVRLAHRIYRLTVQGSYSARMGQFFMLRCWDAYPVLSRPISVHNLTEDSVSFLYRVQGTGTWLLSALQAGDKIQLEGPFGQGFPEPQGRTALVGGGIGVAPLLLAAKEIPEASVYLGYAGVPFGINGFHEISRDVTVKSGGTIVDAVDPSRYDTIFACGPVGMMHSLAQKAEGTDAKLHVSIEKRMGCGIGACNSCTLTAAGSNRKACTDGPVFLAKEVNWNDLHRL	PGPT0021180_1362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021180-pyrDII-K02823	NA	NA
AK002_00436	537	ywrO_1	COG2249	General stress protein 14	ATGAAAACACTAGTGATCGTTGCACATCCGGGTCTGCATGAGGGATCACGGATCAATCGCGAGCTAACCGAAACGGTGAGGCATCATCCTGAGGTGAGGGTGCATGATCTGTATCAGCGGTATCCGGATGGCATCATCGACATCTCGGCCGAACAGCAATTGCTGCTTCAGCATGACCGCATCGTGTTTCAATTCCCTTTCTGGTGGTACAGCTCGCCGCCCCTTCTGAAGCATTGGTTCGACGAGGTGCTGACCTTCGGATGGGCTTATGGCCCGGGCGGCGACAAGCTCCAGGGGAAAGAGTGGGGCGTGGCCGTGACGACCGGCGGAGCTGCGGAAGCCTACGGCAGCGCAGGATATAACCGATACACGGTGGAAGAGCTGACCCGGCCCTATGAAGTGACGGCGAGCCTGGTAGGGGCGATCTACTTGCCGGTATTTACCGTGCATAATGCCATGCAGCTGACGGATGAAGAGTTGCAGCGTCATGCGGAGGATTTTGCGTTGCACGTGACAGGCGCGGTGAGGGCCGGATAA	MKTLVIVAHPGLHEGSRINRELTETVRHHPEVRVHDLYQRYPDGIIDISAEQQLLLQHDRIVFQFPFWWYSSPPLLKHWFDEVLTFGWAYGPGGDKLQGKEWGVAVTTGGAAEAYGSAGYNRYTVEELTRPYEVTASLVGAIYLPVFTVHNAMQLTDEELQRHAEDFALHVTGAVRAG	PGPT0013810_580	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013810-kefG-K11748	NA	NA
AK002_00437	330			hypothetical protein	ATGGGCATTAACAAAGAGCTGCTGAAAGGCAGCACCGTCATTTTATTGCTTACCGTGTTGAACAAGCGGGAAATGTACGGGTACGAGCTGATCAAGGAGATTGAGCAAAGCTCAGATGGCGTGTTCCTGATGAAGGAAGGCACGTTATACCCGATTCTGCACACGCTGGAGGCGGAAGGTTGGCTGGATTCCTCCTGGAGCCAGCATGATGGACGCAAACGGAAATATTACCGGATTACCGAGCGCGGCAGGGAGCAGCTCCATGAGAAGACCAAGGAGTGGGTTAAATTCCGGACGGCGGTGGATACGGTCATCGGGGAGGGAAGCTAG	MGINKELLKGSTVILLLTVLNKREMYGYELIKEIEQSSDGVFLMKEGTLYPILHTLEAEGWLDSSWSQHDGRKRKYYRITERGREQLHEKTKEWVKFRTAVDTVIGEGS				NA	NA	NA	NA	NA
AK002_00438	1323	mrdB_1		Peptidoglycan glycosyltransferase MrdB	GTGCGATCGGTTGAAGAATACAAGGTTGTCCAAGACTTCCTGACCCAGGTGTGCAAGCAGGTACGCGCAAGAGCCATGCATCCGGAAATCCGCGAAGAACTGCTCGGCCATATCGAGGAGCGGACGGAGCTTCTGATGCTGGAGGGCAATGCGGAGGAGCCTGCGGTGCAGGAAGCGGTGAAACAGATGGGCGATCCAGGGGATATCGGCAAAAGCCTGCATATGGCTCATCGGCCTCAGTTGGATTGGAAGCTGCTCGTCCTGCTGGCCTTGCTCTCGATGATTGGGTTGTTCGGGGCGGTGAGCGTGGATTATTCGGGTACGGAAAAGATCACAGATATGTTTGCGAGAAAAGTTGTGTTCTTCGGTATAGGCTTGATCCTTCTCATCGGCTTCTATTTCCTGGACTACAGAAAGCTTAAGAAATACTCCGGTTTTTTGTTTTTTATCACGCTTTGCCTGATGGCGATGACGGAATCTTTCGGGACGAATATAAATGGAGCCAACCTCTATCTTCACGTTGGGCCTATTGTGATTCCCATGCTTGGAACGGTTTCCGTCTTCCTTCTCCTCCTTTCCTTGGCAGGCATGAAGCCTGCGAGTCAGTGGGGGTTATGGGAAAGTGTATTCCACATCCTGTATCGGGGTGTGCTGCCAATCGCACTATACAGCTTGAGTGGTTCGATGGTGTATATGTTCATTTACTTGCTAGGATTCCTGATACTGACCTGGACGACGAAAAGGAATATTAAACAATTTGCGGTATTAACGCTGCTGCCGTTTATTGGATTAGCCTATATCTTGTTTATAAATAGGGTATACCTCATGTGGAGATTGGAGGGGCTCGCAGACCGCGAGGGGGATGGCGGTTATTTCATGCGGGTCATCGCGGATGCCGTTTCTTCCGCCGGTTGGTTCGGTCAAGGATTTGCCGCGCCGAATCCGGGGATCCCGTACGTTTATAGCGACTCCATATACCCCTATCTGATATATTGCTTCGGCTGGATGTTTGGCATCGTGGTTGGCATGGTCGTTCTTTTGTTCCTCGCCAGAATGTGGAGCATAGCCCATGTACTTCACGATACCTACGGGAAAAATATCGTGACCGGTGTCATCGTGGTCATGGGACTGCGCCTGCTCATGCCGATCCTGATGGGTCTGGGAGTGGTACCCATTGTGAGCCTGGACTTTCCTTTTATCTCGTATGGCGGCGTCAACAACATGCTGGATTTTGCCATAGTCGGCCTGCTCCTCTCCATTTACAGACGCAAAAACATGGTCCCAAGCGAGGCGGGAGAAGCGGCTCCTATGAAGGTGGCTTAG	MRSVEEYKVVQDFLTQVCKQVRARAMHPEIREELLGHIEERTELLMLEGNAEEPAVQEAVKQMGDPGDIGKSLHMAHRPQLDWKLLVLLALLSMIGLFGAVSVDYSGTEKITDMFARKVVFFGIGLILLIGFYFLDYRKLKKYSGFLFFITLCLMAMTESFGTNINGANLYLHVGPIVIPMLGTVSVFLLLLSLAGMKPASQWGLWESVFHILYRGVLPIALYSLSGSMVYMFIYLLGFLILTWTTKRNIKQFAVLTLLPFIGLAYILFINRVYLMWRLEGLADREGDGGYFMRVIADAVSSAGWFGQGFAAPNPGIPYVYSDSIYPYLIYCFGWMFGIVVGMVVLLFLARMWSIAHVLHDTYGKNIVTGVIVVMGLRLLMPILMGLGVVPIVSLDFPFISYGGVNNMLDFAIVGLLLSIYRRKNMVPSEAGEAAPMKVA				NA	NA	NA	NA	NA
AK002_00439	1005	oppF_1	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGCAAAGAGTTGTTAACCGTCAAAAACCTCAAGCAGTATTTTCCGATCAAAGGCGGCATCCTGGGCCGTACCGTCAACGTCGTCAAAGCCGTGGATGACATTTCATTCTCTGTGCACGAGGGGGAAACCGTCAGTATCGTGGGTGAATCCGGCTGCGGTAAATCAACCACGGGCCGGGCTATTCTGAGACTGGACGAACCGACCTCCGGCGAGGTGCTGTTCGAAGGAACCGATCTGCTCACCCTGAACAAAGCGCAGATGACCCGAAGGCGTAAAGACCTGCAGATGATTTTTCAGGACCCCTACGCCTCGCTTAATCCCAGAAAAACAGCCCTCCAAGTACTCGAAGAAGCGATGGACATCCAAAATGTCGTGCCAAAGAAGGACCGTCGGTCCCGTGCCATCGAGCTTTTGGAAACGGTCGGCCTGGCCGCCTATCAAGCCAATCGGTACCCGCATGAATTCAGCGGCGGACAACGGCAGCGAATCGGGATCGCCCGAGCTTTGTCCGTGAATCCCAAGCTGATCATCAGTGATGAAGCGGTCTCCGCGCTCGACGTGTCCATCCAGGCACAGGTACTCAATCTGATGAAATCGCTGCAAACCGAATTCAAGCTGACCTATCTGTTCATCTCTCATGATCTCGGGGTCGTCCGGCATATTTCGGACCGAATTATCGTGATGTATCTGGGGACGATCGTGGAAATCGCGGAAAAACACTCCCTCTTCCGGCGCCCGCAGCATCCCTACACCCGCGCTCTGCTCTCGGCCATCCCCACAATGGATCCCGAGCGCAAGAAGGAACGCATCATTCTCAAGGGAGATGTTCCGTCCCCGATCAACCCGCCTTCTGGCTGCCGGTTTCATACCCGCTGCATGTATGCCACGGATCGCTGCCGATCCGAGGCGCCGATGCTTCGGGAAGTCGAAGAGCACAGAGGCCATCAGGCGGCCTGCCACTATATTGAAGAGATCGCGGCCGGTGCGTTGGAGAAGGTGTAG	MSKELLTVKNLKQYFPIKGGILGRTVNVVKAVDDISFSVHEGETVSIVGESGCGKSTTGRAILRLDEPTSGEVLFEGTDLLTLNKAQMTRRRKDLQMIFQDPYASLNPRKTALQVLEEAMDIQNVVPKKDRRSRAIELLETVGLAAYQANRYPHEFSGGQRQRIGIARALSVNPKLIISDEAVSALDVSIQAQVLNLMKSLQTEFKLTYLFISHDLGVVRHISDRIIVMYLGTIVEIAEKHSLFRRPQHPYTRALLSAIPTMDPERKKERIILKGDVPSPINPPSGCRFHTRCMYATDRCRSEAPMLREVEEHRGHQAACHYIEEIAAGALEKV	PGPT0004440_7224	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
AK002_00440	1014	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGAAGAGCACGCAACAAACCTGCTGACGATCAAGAACCTGCGAACCTCTTTTTTTACCGAACTGGGCGAAGTGAAAGCCGTGGATGATATCAGCCTAACCGTACGCAAGGGGAGGACGCTCGGGATCGTGGGCGAATCAGGTTCAGGAAAAAGCATACTGTCCCTGTCCATCCTGCGGCTGATCTTTGATCCGGGGCGAATCGTTGGAGGCGAAATCCTGTATAACGGCGAGAATCTGCTCCAACAATCGGACCGGCAGATGCGGAAAATCCGGGGCAATCAAATCTCGATGATCTTCCAGGAGCCGATGACTTCGCTCAATCCGGTCTTCACCGTCGGCGACCAGATCGCGGAGGCTTATCAAATCCATGAAAATCTGAGCAAAAAACAAGCCATGGACAAAGCCGTCGAGATGTTGAGGCTGGTCGGCATCCCTTCCCCGGAAAAAAGAGTCCGTCAGTACCCTTTTCAGCTGTCCGGGGGTATGCGCCAACGTGTCATGATCGCCATGGCGCTGGCATGCAATCCGGATCTGCTCATTGCAGACGAGCCGACCACGGCGCTGGATGTGACCATCCAGGCTCAAATTTTGGAGCTGATGAAGGAGCTGCAGCGGAAGCTGCAGATGTCGATTATTTTTATCACCCATGACCTGGGCATCGTCGCGGAAACCTGCGATGACGTGGCGGTCATGTACTGCGGAAAGGTGGTGGAACATTCCGATGTGCGGACCCTGTTCAAGCATCCGAAGCACCCCTACACCATCGGCCTAATGAACTCGCTGCCGCGGCATGATATCGATAAGGAAACGCTGGAGCCGATTAAGGGCTCGGTTCCGAGCCCCTATGATCCGCAGGAAGGCTGCCGCTTCGCCCCCCGCTGCCCCCATGCAGCCAAGCTGTGTTACGACAAACTGCCGGAGCTTCAGGTGCTGGATGATAACCAGCAAGTCAGGTGCTGGAAATACACCGATCAGTGGGAACCGGAAAGCGAGGTGAACGTTCTGTCATGA	MEEHATNLLTIKNLRTSFFTELGEVKAVDDISLTVRKGRTLGIVGESGSGKSILSLSILRLIFDPGRIVGGEILYNGENLLQQSDRQMRKIRGNQISMIFQEPMTSLNPVFTVGDQIAEAYQIHENLSKKQAMDKAVEMLRLVGIPSPEKRVRQYPFQLSGGMRQRVMIAMALACNPDLLIADEPTTALDVTIQAQILELMKELQRKLQMSIIFITHDLGIVAETCDDVAVMYCGKVVEHSDVRTLFKHPKHPYTIGLMNSLPRHDIDKETLEPIKGSVPSPYDPQEGCRFAPRCPHAAKLCYDKLPELQVLDDNQQVRCWKYTDQWEPESEVNVLS	PGPT0004435_8859	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
AK002_00441	924	gsiC_2	COG0601	Glutathione transport system permease protein GsiC	ATGCTCATCTATTCCATTCGAAGGCTGATTCAAACGATACCTGTCGTCATTGGCGTGACCATCGTTGTCTTCCTGCTGATGCACCTCATTCCGGGAGATGCGGCGCAGGTCATTATCGGGGAAGGGGCGCCCAAGGAGCAGGTCGAGAAGATCCGCGAGAACCTGGGACTGAACGATCCGCTCCCGCTTCAGTATTGGAACTACGTCAGCGGCTTGCTTCAGGGGGATTTGGGAGATTCGATCCGCAGCAGCCGCCCCATCGCCGATGAAATATTCAAAAGCCGGTTCTGGATCACCGTTGAGCTTGCCGTGTACTCTACGATCCTGGCCGTATTCCTCGGCATTCTGGCCGGCATCATCTCCGCCGTCAAAAAAAGCTCCCCTGCCGATATAGGCGTCATGTTCATCGCCCTGTTCGGGCTGTCGATGCCAAATTTCTGGCTGGGGCTCATGCTGATCCAATATTTTGCCGTGGACCTAGGCTGGTTCCGTCCATCCGGCTGGGGCACGTGGTCGCAAACGATCCTGCCCGTGATCACGCTCGGGACCGGCGGCGCCGCAATTATTGCCCGAATGACCCGGTCCAGCATGCTGGAGGTCATCGGCCAGGACTACATCCGAACCGCCCAGGCGAAGGGCGTCCGGGAGCGTGTCATCATCTACCGGCATGCCTTGAAAAATGCCATGATTCCCGTCATTACCGTCATCGGCCTGGAATTTGGAGGCCTGCTGGGCGGGGCGGTGCTGACCGAGTCCGTTTTTGCCGTGAACGGCATGGGACGGTACGTCATCGACTCGATCCGGGCGCGGGATTTCCCGGTCGTACAGGCAACCGTGCTGGTGCTCTCGATCATGTTCGTGCTCGTGAACCTGCTCGTGGACATCTCCTACCGGTACTTCAACAAGCGTATTGATTTCGATTGA	MLIYSIRRLIQTIPVVIGVTIVVFLLMHLIPGDAAQVIIGEGAPKEQVEKIRENLGLNDPLPLQYWNYVSGLLQGDLGDSIRSSRPIADEIFKSRFWITVELAVYSTILAVFLGILAGIISAVKKSSPADIGVMFIALFGLSMPNFWLGLMLIQYFAVDLGWFRPSGWGTWSQTILPVITLGTGGAAIIARMTRSSMLEVIGQDYIRTAQAKGVRERVIIYRHALKNAMIPVITVIGLEFGGLLGGAVLTESVFAVNGMGRYVIDSIRARDFPVVQATVLVLSIMFVLVNLLVDISYRYFNKRIDFD	PGPT0004445_13994	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
AK002_00442	897	gsiD_2	COG1173	Glutathione transport system permease protein GsiD	GTGCCTAACATGACCGCTGATGCCAGAACACCAGAATCGCTCCCTAGTGGAACCCGCCTTGCACAATGGAAATCTTTCTACCACCGTCTGAAGAAGAACAAAGCGGCCTTATTCGGGGGCTATTTTCTCCTGCTGATGATCCTTGTCGCGATTTTCGGCCCCCTGCTCACCCAGTATGATCCGACCAAAGTGGATTATTCTACGAAACTGCTGAAGCCGTCCGCCGACCATTGGTTTGGTACGGACCACAACGGTCGGGATATTTTCACGCGGATTATTCATGGCATGCGTCTCACGCTCTCGGTCGGTTTTATCTCGGTGATCATCGGTGCAGCCTTTGGTGTCGTGCTCGGAATCATCTCGGGCTATTACGGAGGTAAATGGGATGCGCTCATTATGAGAATGACCGATGTCATGCTGGCGTTTCCCGGCATTCTGCTGGCATTGGCGGTTGTCAGCGTCCTTGGAAAAAACCTGTTCAACGTGATCATTGCCGTCAGTATTTTTTCGATCCCTACCTTTGCCAGAGTCGTTCGGGGCTCCACGCTGGCCGTCCGCAAGCTCGAATATATTGATGCCATGCGTTCGCTGGGCGCGAGCGACGGGCGAATCATCTTCGGACATATTTTGCCGAATATCACATCCCCTATCATCGTGCAGGCGACGCTGCGGATTGCGGTAGCGATCCTGACCGCCAGCGGCCTGTCCTTCCTCGGTCTTGGCGCGCAGCCGCCCACGCCGGAGTGGGGAGCCATGCTGAATGATGGGCGCAACTATATCATGGACCACCCCCATGTGGCCCTGTTTCCCGGCTTGTCGATCGTGTTCGTTGTCATCGCATTTAATCTGCTGGGTGACGGCTTGCGGGATGTCCTTGACCCGAAAATGAAAAAATAA	MPNMTADARTPESLPSGTRLAQWKSFYHRLKKNKAALFGGYFLLLMILVAIFGPLLTQYDPTKVDYSTKLLKPSADHWFGTDHNGRDIFTRIIHGMRLTLSVGFISVIIGAAFGVVLGIISGYYGGKWDALIMRMTDVMLAFPGILLALAVVSVLGKNLFNVIIAVSIFSIPTFARVVRGSTLAVRKLEYIDAMRSLGASDGRIIFGHILPNITSPIIVQATLRIAVAILTASGLSFLGLGAQPPTPEWGAMLNDGRNYIMDHPHVALFPGLSIVFVVIAFNLLGDGLRDVLDPKMKK	PGPT0004450_8128	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
AK002_00443	1650	gsiB_1	COG0747	Glutathione-binding protein GsiB	ATGACAGGTAATAGAAGATTCAAATGGCTTGTCTGCATTCTGGTCATGCTGACCGTACTGATGTCGGCGTGCGGCAGTCCAAGCAAGAGCAGTAACCCGGAAACGCCGCTAAGCGGCACCAATACGCCGACACCTGAACCGGGGGCTAAAGATCCTCCCGAAGGAACAACCGACACCGGTGCGAATGAGCTTGTGATTGCCTGGCTTTCTGATCCGCCATCCATGGACCCTCATATGTCGACGGACCAGCAAACGAGCGTAATGACAACGCATATTTATAACACGTTGGTGATTCATGATAAGGATCTGAACATTCAACCGGGGCTCGCCGAGAGCTGGAAGGCAATCGATGAATTGACCTGGGAGTTCAAGCTGAGACAAGGCGTGAAGTTTACGGACGGCTCTCCATTCAATGCAGAGGTGGTCAAAGCCAACATCGACCGTATGCAGGATCCGGAGGTTGCTTCTCCGCGCGCTTCGCTTGTGGGCATGATTAAAGAGGTTAAAGTCGTTGACGAATATACGGTGCAGCTCGTGACCGAGTATGCTTTCTCGCCGCTGCTTGCCCATCTGGCCCACTCTGCGGTCAGCATGGTTAGTGCGGAAGCCATCAAGCTGGATTACGAGAAGCTGAAGGCAGGCGAGAAGGCAGGTGCTTATCTGGCGCAGAACCCTGTTGGCACGGGTGTATTCAAACTAGAGAGCTGGAACCCGGGACAAGAAGTGAAGCTGGTGGCGAACGCCGATTATTGGGGAGATAAAGCGAAGGTTGAACGGGTCACGTTCAAGGTGGTGAGCGAAGAGGGAACGCGGATCGCGGAGCTGGAAACCGGTTATGCGCATATTATCGACCCGGTGTCGCCGAGCAGCATCAGCCGTATCGAGAGCACGGACGGCATGTCCCTGAACCGTCAGGCTTCGCTAAGCCTGTCTTATATCGGGTTTAATAACAACAAGGAGCCGTTTAACGATGTGCGGGTGCGACAAGCCCTGTCGATGGCCATCAATAAGGATGAAATCATTTCGGGCATCTACGAAGGCACGGGCATTCCTGCCGTCGGTCCACTGGCACCGGACGTGAACGGCTATGATGCTGCCGTTAAGCCGATCGAACATAACATCGACAAAGCGAAAGAGCTGTTGAAAGAGGCCGGATACGAGGGTGGCTTCTCGACGACCATCTGGACCAATGACAATCCGGAACGAATTAAGATCGCCGAGTACGTACAATCTAAGCTGAAGGAATTAAACGTCGAAGTCAAAATCGAAGTGGTCGAGTGGGGCGCATATTTGGCCCAAACGGCAGAAGGCAAGCATGACATGTTTGTTCTCGGCTGGTCCACGGTTACGGCCGATGCCGATTATGGCATGTATGAGTTGTTCCATTCCAAGAATGTAGGGGAGCCGGGCAACCGTACCTTCACGAAGGATCCGGAGCTGGATAAACTGCTGGATGCCGGGCGTAAAGAGAACGATCCGGAACAACGCAAGCTCATTTACAAGCAGGCGCAGGAGAAGCTGGTTGAGTTAGCGCCGATGCTGTATATCCATCATCAGGAGTATTTAAACGGAGTCAGCAGCAAGGTTGAAGGCTTCTGGCGGCATCCGAACGGCATCATGCAGCTGCATCAAGTGTCCATTCAGCCATAA	MTGNRRFKWLVCILVMLTVLMSACGSPSKSSNPETPLSGTNTPTPEPGAKDPPEGTTDTGANELVIAWLSDPPSMDPHMSTDQQTSVMTTHIYNTLVIHDKDLNIQPGLAESWKAIDELTWEFKLRQGVKFTDGSPFNAEVVKANIDRMQDPEVASPRASLVGMIKEVKVVDEYTVQLVTEYAFSPLLAHLAHSAVSMVSAEAIKLDYEKLKAGEKAGAYLAQNPVGTGVFKLESWNPGQEVKLVANADYWGDKAKVERVTFKVVSEEGTRIAELETGYAHIIDPVSPSSISRIESTDGMSLNRQASLSLSYIGFNNNKEPFNDVRVRQALSMAINKDEIISGIYEGTGIPAVGPLAPDVNGYDAAVKPIEHNIDKAKELLKEAGYEGGFSTTIWTNDNPERIKIAEYVQSKLKELNVEVKIEVVEWGAYLAQTAEGKHDMFVLGWSTVTADADYGMYELFHSKNVGEPGNRTFTKDPELDKLLDAGRKENDPEQRKLIYKQAQEKLVELAPMLYIHHQEYLNGVSSKVEGFWRHPNGIMQLHQVSIQP	PGPT0004430_6246	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
AK002_00444	411			hypothetical protein	TTGTTTTTTGATGTCAAAAGCATGTTGAAAATATTATATACGTTGACACGTATATATGCATTGGTGTATATTATAGCCATGAATACTTCAGCTATGCAATTAACCCTCTTCACGATCTCGGAGCCGAACCGCTTCAACATTGTTGAACTCTTAAAGCAAGGGTCGAGATCGGTCAGCGACATCGTAGAGACTTTGGGAATCGGCCAGCCTCAAGTATCCCGCCATCTGCGGATACTGAGCGAGGCCGGGCTCGTGAAAGTCCGCAAGAACGCACAGCAGCGCATTTATAGTCTCGAAGCCCAGCCGTTCCAGGAGCTGGACGTCTGGCTCGATTCGTTCAGCCGATTGTGGGAGGAGCGCCTCGACAAGTTCGAGGACTATATGAGCGACTTTAACGGAAAGGAGAGTTAA	MFFDVKSMLKILYTLTRIYALVYIIAMNTSAMQLTLFTISEPNRFNIVELLKQGSRSVSDIVETLGIGQPQVSRHLRILSEAGLVKVRKNAQQRIYSLEAQPFQELDVWLDSFSRLWEERLDKFEDYMSDFNGKES				NA	NA	NA	NA	NA
AK002_00445	510			hypothetical protein	ATGGGCAGGAAATCGACCATCATGAAAGACCGGGAGCAGCGGAGGCTGACCGTGGAGCGTGTCGTATCGATACCTCTGAAGCTGTCCTGGCAGGGATGGACGAAGCCGGAACACATCGAACGCTGGTGGGGACCAAAGAACTGGAATGCCACGGTATATGAGATGGATGTCAGACCGGGCGGCGTATGGCGCTACAGACTGGCTCCCGATGCGGCGGGCGAAGGGGAAGAAGCCTTCTGCAAGGCGACCTACTCCGAAGTGGCGGAGTTATCGAAGCTCGTTTATACGGATACATTTACCGATCAGGACTGGAACCCCGTTGCAGGCAGCGACATGTTGACCTCGGTTTCATTCGAAGCAGTCAAGGATGGGACCCGATTAAGCATCGTCACCCATTTTGCGAGCGTAGAGCAGCTGGAGGCTGCTGAAGGCATGGGAATGGTGGAAGGATATGCGGATACGCTGGAACGGTTTGAGAACGAAATAAGTTTTTACATAAAAGGACAATAA	MGRKSTIMKDREQRRLTVERVVSIPLKLSWQGWTKPEHIERWWGPKNWNATVYEMDVRPGGVWRYRLAPDAAGEGEEAFCKATYSEVAELSKLVYTDTFTDQDWNPVAGSDMLTSVSFEAVKDGTRLSIVTHFASVEQLEAAEGMGMVEGYADTLERFENEISFYIKGQ				NA	NA	NA	NA	NA
AK002_00446	825			hypothetical protein	ATGAATTACGTTATGTCTAATGACGGTACCCGTATTTTTTATGAAAAGAAAGGGACTGGTCCGGCTGTCATTCTTGTAGCTGCCGCAGCTTCCGATCACAACGATACAACGCGTCTTGGAGGGTTTCTGTCTGAACATTTCACCGTGTACAATTATGACCGGCGGGGACGGGGCAGCAGTACGGATACGGCTCCCTATGCCGTTGAACGTGAGATCGAAGATATCGATGCCCTTATTCAGGAGGCGGGCGGCAGCGCGTATTTATTCGGAAGTTCCTCGGGCGCTGTTCTGGCACTGGATGCGGCGAGCAGACTTGGCGGCAGTAAAGTTAGTAAACTGTTTCTATACGAGCCGCCGTTTATCATTGACGACAGCCGCGCACCCGTACCGGCGGAATACGTGCAGCATTTGAATGCGCTGATGGCCGGGAGCAGGCGCAGCGAAGCCGTAGAGTATTTCATGACAGCAGCGCTGGGCATCCCCGCGGAATATGTAGAATTCATGAAGGCAGATCCTTCTTGGCAGGTCATGGAGGGCATGGCGCATACATTGGCCTATGACGGCATGATTATGGGGAGCACGCAATCCGGCCAACCGCTGCCGACGGATCGCTGGGATGTCGATGTCCCGGTCATGGTGATGACGGGCGAGAACAGCGGAGCTATGTTCCATGGGGCCGCGAGCGCATTGGTCGACTTGCTCCCTCAGTGCGAGCACCGAATGCTGCCTGGTCAGGACCATTCTGCCGTCGTGATGGCGCCGGAAGTGCTAGGTCCCGAGGTGTCGGGTTTTCTGTTGCCTTCGGCAAATCAAATTCCGGGATAA	MNYVMSNDGTRIFYEKKGTGPAVILVAAAASDHNDTTRLGGFLSEHFTVYNYDRRGRGSSTDTAPYAVEREIEDIDALIQEAGGSAYLFGSSSGAVLALDAASRLGGSKVSKLFLYEPPFIIDDSRAPVPAEYVQHLNALMAGSRRSEAVEYFMTAALGIPAEYVEFMKADPSWQVMEGMAHTLAYDGMIMGSTQSGQPLPTDRWDVDVPVMVMTGENSGAMFHGAASALVDLLPQCEHRMLPGQDHSAVVMAPEVLGPEVSGFLLPSANQIPG				NA	NA	NA	NA	NA
AK002_00447	129			hypothetical protein	ATGATCGCCCTTGTGGAGCTGCTCGATATTCTCAAAGGTATTGCGACCATTCTGAGCATTGTGCTCAGTGTACGGAAGCTGTATCGCTGGATTCGTCGAAAGCTAAACAAGCGAAAACCCACCGTATAA	MIALVELLDILKGIATILSIVLSVRKLYRWIRRKLNKRKPTV				NA	NA	NA	NA	NA
AK002_00448	960	ccpA_2	COG1609	Catabolite control protein A	ATGAGTGGTTTGAAGGAAATTGCAAAGCTCGCGGAGGTCTCGGTGTCTACGGTGTCCAACGTGCTGAACGGGCGCAAGAACGTGGGGCGGGAGACGAGGGAGCGGGTGCTGAGGTTATGCTCGGAGCACGGCTATTTTCCGCAAAAGTCAACCAAATCCGATAAAAGCAACACGATTATATTCGTTTTCAGCGACTTTGATCGCGATTATTATTTAAAAATCATCAAGGGGATCAGCCATTGCCTCACGGAGAATGGATATGACCTCATCATCTGCACGAATAAATCCAGCACCAATTTTATGCGCAGCAAGTTTGCAAGCGGTACCATAAGCCTCGACCGGAACATGACAGACGAATATTTAGTCTCGGTAGCCACGCCGCAGTTCCCCGTCGTTCTCATGGATCGGATTATCGATAACGAGTATGCCAATACCAAAAGCGTGATCGTGGACAATTACCCCGTGATGTGCGAAATGGTTCAGGCGCTGGTGGATAAACAGTTCAGAACCTTTGGATATATTGGCGGACTGGAGTTTACCCTGGATCATAAGGAACGCTTCGCCGGATTTATGGATACGCTTTCGAAGAATGGCATCGCGTTTGACAGGCGGAATTACTTCCATGGCGATTACAGCGAGGAAAGCGGATATCAGGCGGCCAAGATCCTGATCCTGAGCAACGCATTGCCGGAAGTACTGGTCTGCGCTAACGACAATATGGCTCTGGGCGCGATCAAAGCTTTGGAAGAGAATGGCATACGGGTGCCGGAGGACATATCGATCACCGGCTTCGATAATTCGGACGCGGCGGCGATGGCCGGCTTGACGACCATTGCGATCCCGCGTTATGAAAGCGGTTATTTAGCGGCGAAGGAGCTGCTCGAGATGATCAAGGGCACGACGGGCAGGGAGCCCTTTAAACTGAATGCCACGATCCAGTGGAGAAAAACGGTGAGATAA	MSGLKEIAKLAEVSVSTVSNVLNGRKNVGRETRERVLRLCSEHGYFPQKSTKSDKSNTIIFVFSDFDRDYYLKIIKGISHCLTENGYDLIICTNKSSTNFMRSKFASGTISLDRNMTDEYLVSVATPQFPVVLMDRIIDNEYANTKSVIVDNYPVMCEMVQALVDKQFRTFGYIGGLEFTLDHKERFAGFMDTLSKNGIAFDRRNYFHGDYSEESGYQAAKILILSNALPEVLVCANDNMALGAIKALEENGIRVPEDISITGFDNSDAAAMAGLTTIAIPRYESGYLAAKELLEMIKGTTGREPFKLNATIQWRKTVR	PGPT0017992_15756	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
AK002_00449	1263			hypothetical protein	TTGAAAAAAGTAAAAAAGGTATTGAGCATACTTACGGCAACGGCTTTGGTTGCGACACTCGCGGCCTGCGGCGGTACATCTGACAAAGATTCTGGAGCAGCAGCCGGAGGAGATGGGGGAGATAAGCTGAAGAAGATTACCCTTTTCCAATCGAAAGTCGAAATTACGGAACCTCTTGAAGCCTTGGTTAAAACCTATAAAGAAGAAACCGGCAACGAGGTTGAAGTATGGGGTGCCGCGGGCGACGCATATTCGCAGCAGCTGGTGGCGAAGCTCAGCAGCAACCAGGGACCGACGATATTCAGCGTAGCTCCTGGACCCGAGTCCGAGAAGCTGAAATCCTATTTTTCCGATTTGAGCGGCGAGGAGTACGTGAAGAACATTGCGCCCGACATGGAATTGAAGGTAGAAGATAAGACCGTCGGCGTTCCGTACGGCGTAGAAGGCTTCGGTCTCGTATATAACAAGGATCTGGTGGATCCGGCTAACATGAAGGACCTGGATTCCTTCACCAAGACGCTGGAGCAGCTGAAGGCTGACGGCAAGAACGGTTTGAGCCTGTCCCAGGAGGCTTACTTCCTGATCGGGCACATCATCAACACGCCGTTTGCGCTTCAATCCGATCCGCTTGCCTTCATCGACCAGCTGAACAAGGGCGAAGTGAAGATGGCCGACACGAAGGAGTTCCAGGAATGGGCGAAATTCATGGATGTCATCAAGGCCAACACCAAGAATCCGCTGGAAGTGAAATACGATAGCCAGATGGGCGACTTTGCAACGGAAAAAACGGCTATGGTGCATCAGGGCAACTGGAGTTATTCCATGCTTGCGGACTTCGGCGATTTCGGCTCCAAAGTCGGCATGATGCCGTTCCCGCTCGCCGGCAACGATAAGATCGCCGTAGGCGTAGCCAGCTATTGGGTCGTCAACAATCAAGCGGACGCTGAGGAAGTCAAAGCCGCAAACGCTTTCCTGAACTGGCTCTTCACGAGCGAGACGGGCAAGAAGGCCATCGTGGACGATTTCAAATTCATTCCGGCTTTAACGAACATTGAAGCAGGCGATCTGGATCCGTTGTCTCAAGCGGTGCACGAAGCAACCACGAAGGGCGAGACGATCACTTGGGCGCTGAACTTCTTCCCATCGGGTATCATTACCAACGATTTGGCTCCGGCTACGCAGGAGTACTTCATGAACCCGGGCATGACAGGCGAGCAGTTCCTGCAGAAACTCGATGAAGTATGGGCGAAAGCATCGAAATAA	MKKVKKVLSILTATALVATLAACGGTSDKDSGAAAGGDGGDKLKKITLFQSKVEITEPLEALVKTYKEETGNEVEVWGAAGDAYSQQLVAKLSSNQGPTIFSVAPGPESEKLKSYFSDLSGEEYVKNIAPDMELKVEDKTVGVPYGVEGFGLVYNKDLVDPANMKDLDSFTKTLEQLKADGKNGLSLSQEAYFLIGHIINTPFALQSDPLAFIDQLNKGEVKMADTKEFQEWAKFMDVIKANTKNPLEVKYDSQMGDFATEKTAMVHQGNWSYSMLADFGDFGSKVGMMPFPLAGNDKIAVGVASYWVVNNQADAEEVKAANAFLNWLFTSETGKKAIVDDFKFIPALTNIEAGDLDPLSQAVHEATTKGETITWALNFFPSGIITNDLAPATQEYFMNPGMTGEQFLQKLDEVWAKASK				NA	NA	NA	NA	NA
AK002_00450	876	melD_2	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAGCAAAAGAAAGGATAAAGCCTGGTTTGCCCTGTTTACGGTGCCGCTTCTGTTTATTTTCACGACCGTGGTCATCATCCCGTTCATTATCGGGATCGTGTACTCTTTCGTCAATTGGGACGGCATTCCGGCGAATCCGAAAGTATTCGTAGGGTTCGACAATTACGTTCAGCTGTTCCAGGACGACCGATTCCTGTCATCGGCTTGGCATACGGTTCAATTCACGCTGCTCGCGCTGGTATGCGTCAATGTACTGGGACTGGGCTTCGCGCTGCTGGTGACGACAAAGCTCCGCTCGAGAAATGCAGCGCGGACGATGTTTTTCATGCCGAACCTGATCGGCGGCCTGATTCTGGGTTACATCTGGCAGTTTATTTTTACGGATGCCTTCAGCTTCCTGGGCGAGAAAACCGGGCTCGACAGCGTGTTCTTTAACTGGCTGCTGCATCCGCAGTTTGCCCTGTACGCCATCGTTGCCGTATTCACCTGGCAGCTGGCGGGTTATACGATGATCATCTACATCGCGGGCATCCAGGGGATTCCGGATGAGCTGATGGAAGCGGCGAAGGTCGATGGCGCCAACCTGTGGCAGCGACTGAAGAGCATCGTGTTCCCGCTGTTAATGCCATCGTTCACAATCTGTCTGTTCCTGACGCTGTCCGGAGCGTTCAAAATTTATGACGTGAACCTGTCGTTGACCAAGGGCGGTCCGAGCAATGCGACGGAGATGTTTGCGATGAATATTTTCAACGAAATTTTCGCTTACGGTAATTATGGATTAGGTCAGGCGAAAGCGATTATCTTCTTCCTGATTGTGGCCGGACTCACGTTGACGCAAGTCATCATCACGAAGAGAAGAGAGGTGCAGATGTAA	MSKRKDKAWFALFTVPLLFIFTTVVIIPFIIGIVYSFVNWDGIPANPKVFVGFDNYVQLFQDDRFLSSAWHTVQFTLLALVCVNVLGLGFALLVTTKLRSRNAARTMFFMPNLIGGLILGYIWQFIFTDAFSFLGEKTGLDSVFFNWLLHPQFALYAIVAVFTWQLAGYTMIIYIAGIQGIPDELMEAAKVDGANLWQRLKSIVFPLLMPSFTICLFLTLSGAFKIYDVNLSLTKGGPSNATEMFAMNIFNEIFAYGNYGLGQAKAIIFFLIVAGLTLTQVIITKRREVQM	PGPT0016335_1453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_00451	837	melC_2	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGAAGAAATCAGGCAAATGGCTGCTCGATATCCTGCTGTTCCTCGCCTCGCTGGTCTTCTTGTCTCCGGTCTTCATCATGCTGATCAACTCCTTTAAGGATCGTGCCGAGCTGTATGAGAATGCGCTTGCGCTACCTTCTTCCTTCAGCTTTGAGTATTATAAATCCGCGATGGAGAAGATGAATTTCTTCACGGCGCTAGGTAACTCGCTGTATGTCACCGTCATCTCGGTGATCATCGTCATCGTGCTCGCCTCCATGACGGCATGGATGCTGGTACGGACGGACAATAAGCTGAGCAAGGTCATTTTCTTCACGTTTGTGGCAACCATGCTGATTCCGTTCCAGACGCTGATGATGCCGCTGATGCAGGTGATGGACTGGATTCGCACCAATCTGCACATTCCGATGCTCAACACCCATGAGGGCTTGATCTATATGAACGTCGGCTTTACGTCCAGTATGGCGGTTTTCCTGTACCACGGGTTCATCAAATCCGTGCCCGTTGCGCTGGAGGAGGCGGCTACACTTGATGGCTGCTCCAAGCTGGGCGTGTTCTGGCGGATCGTGTTCCCGCTGCTGAAGAACATCAGCGTGACCATCGCGATCCTGAACGTCATCGCGCTGTGGAACGACTATCTGCTTCCATCGCTGACGCTGTCGGACAAAGGGCTGCGGACAATCCCGCTCTCGACCTTCTACTTCTTCGGAGAATTCACGATCGTGTGGAACCAGGCGATGGCCGGTCTGACGCTGACGATCATCCCGGTTGTCATTTTCTACGTTTTCGCGCAGAAATACATTATCAAAGGAATTGCCGCAGGTGCTGTGAAATGA	MKKSGKWLLDILLFLASLVFLSPVFIMLINSFKDRAELYENALALPSSFSFEYYKSAMEKMNFFTALGNSLYVTVISVIIVIVLASMTAWMLVRTDNKLSKVIFFTFVATMLIPFQTLMMPLMQVMDWIRTNLHIPMLNTHEGLIYMNVGFTSSMAVFLYHGFIKSVPVALEEAATLDGCSKLGVFWRIVFPLLKNISVTIAILNVIALWNDYLLPSLTLSDKGLRTIPLSTFYFFGEFTIVWNQAMAGLTLTIIPVVIFYVFAQKYIIKGIAAGAVK				NA	NA	NA	NA	NA
AK002_00452	765	chbG_1		Chitooligosaccharide deacetylase	ATGAGGCGGATCATTACGAGAGCCGATGATTATGCTTCCAGCCGTTCCGCCAATGCTGCGATTGCCAAGACCGTTGAGGCCGGATTCATCAAAAATGTGTCCATTATGGCGCCCGGTCCTTATCTTGCCGAGGCCGCGCAGCTGCTGGCGCATCGCAAGGACATCTGCTTCGGCTTCCATATGACGCTGAACGCCGAATGGGATAACGTACGCTGGGGACCTGTTGCCGCGAAGGAACAGGTTCCTTCGCTTGTCGATCGGGCCGGGTACTTCTATCAGGACCCGAGCTTGTTTCAACATCATCCGCCTTCGCTGCAGGAGATCCTTATGGAGTGCGAAGCGCAGCTGGATAAACTGACTGCGGCTGGCTTCAACATTTCTTACGCGGATTCCCATATGCTGCCCGAGCGCTTCATTCCCGGGCTGCAAGCGGAGTTGGACCGATGGATGGAAGCGAAGGGGCTTATAAACCACCACCGATATTACTACAACTTTTTCCCTGGCGGCGTTCCGGACGGGGCTGAGTCGTTTGAAAGGGTGCTCGGCGGCCTGACGGACGAACAGTACTTCTTCCTGTCCCATCCGGCGCTGTATTCGGAGGAAATGGTGCAGTGCGGCAATGCTCAAGTGGATGGGGAGGAGCTGGCACGAGGGCGTGATCAGGAGGCCGCTTTCCTTGCTCGGGAGGACTTGAACGAGATTAGCCAACGTTGGGGCTTCCGTGCCGTGCGATATGATGAAGCGGCGCCGATATCTGGTGTATAA	MRRIITRADDYASSRSANAAIAKTVEAGFIKNVSIMAPGPYLAEAAQLLAHRKDICFGFHMTLNAEWDNVRWGPVAAKEQVPSLVDRAGYFYQDPSLFQHHPPSLQEILMECEAQLDKLTAAGFNISYADSHMLPERFIPGLQAELDRWMEAKGLINHHRYYYNFFPGGVPDGAESFERVLGGLTDEQYFFLSHPALYSEEMVQCGNAQVDGEELARGRDQEAAFLAREDLNEISQRWGFRAVRYDEAAPISGV	PGPT0012160_861	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012160-chbG-K03478	NA	NA
AK002_00453	1434			hypothetical protein	ATGAACACGAACACGGTTCGATTATTGCCAAGAAGTACCCCCGAAAACCAAGGAATCTCATCTCAGTCCATCAAACGTTTTATCGGCTCGATTCAGGAGAAGGAGCTTGAGCTCCACAGCTTCATGCTGGTTCGGCACGGGCATTCCGTCGCGGAGGGCTGGTGGAAGCCGTACGACGCGGACAAACCGCATATGCTGTTCTCGCTAAGCAAGAGCTTTACCTCCACCGCGATTGGACTCCTGGTCCAGGAGGGCCGGATTACGCTGGAGGATCGGGTGATCGGCTTTTTCCCCGAAAATACGCCGAAGGATCCGTCCCCGAATCTGTCCGCGATGACGATACGCGATTTGCTGATTATGGGAACGGGACATGCCCAGGAGCCTCCCATCCAGTCCGATACTTGGGTGGATGATTTCTTCAAGCAAGCAGTCGAGCATGAACCTGGAACCCACTTTGTATATAACAGCGCAGCGACGTACATGCTCTCGGCCATTCTGCAGAAGGTCACCGGCATTACGCTGCTGGATTATTTGCAGCCCCGTCTGTTCGAACCGCTCGGCATTCAGGGGGCTGCATGGGAAAGCTGCCCGCAGGGAATCAACACCGGCGGCTGGGGTCTTAAGCTGAAGACCGAGGACATCGCCAAGTTTGGCCAGCTCTATCTTCAGAAGGGAGAATGGGATGGCCAGCGCTTGATTCCGGAGGCTTGGATTGAAGAAGCGACCTCCAAGCAGATATCCAACGGACCTGCGGATTCCACTTCGGACTGGACCGAAGGATACGGCTATCAATTCTGGATGTGCCGCCATGGAGCATACCGCGGCGACGGCGCGTTCGGACAATTCTGCATCGTGTTCCCGGAGCAGGATGCAGTCCTGGCGATTACTTCCGGCCTTGGAGATATGCAGGCCGTGCTGAATGAGGTATGGGAGCATCTGCTGCCGGCGATGGGAGCAGATCCGCTGCCGGCCGATGCCGATGCGGAAGCCTCCCTTGCCGGAACGCTGCAAGCGCTTAAGCTGGATCCGCCAAGCGAGGAGGCGTTATCTCCGATTGAGAAGGACGTATCCGGGATCGTCTATGATCTCGAAGAGAACGAGGAGAAGCTTCATTCGTTCTCCATCCGGTTTGAAGAGGATGGCGGGGTGATGGAGCTTACGGGGGAACATGGCGTCAACTCGATTGCCCTTGGCCGGAGCGAGTGGAAGTCGGGAACCACGAAGCTGATCATGATGGCGGATAACGAGTATGCTGCCTCCATGACCTGGAAGGATGACCGGACGCTGCAGCTGATCGTCAGGCTGACCGAGACGCCGTTCTACTTAACGACGGAATGCACCTTCAGCGAGGAAGGCATTCATCTTGCCTACTGGATGAACCAATCGTTTGAAGGCAAGGTAGTCCGGGAGATTAAGGGCAAAGCCAGGGCATAA	MNTNTVRLLPRSTPENQGISSQSIKRFIGSIQEKELELHSFMLVRHGHSVAEGWWKPYDADKPHMLFSLSKSFTSTAIGLLVQEGRITLEDRVIGFFPENTPKDPSPNLSAMTIRDLLIMGTGHAQEPPIQSDTWVDDFFKQAVEHEPGTHFVYNSAATYMLSAILQKVTGITLLDYLQPRLFEPLGIQGAAWESCPQGINTGGWGLKLKTEDIAKFGQLYLQKGEWDGQRLIPEAWIEEATSKQISNGPADSTSDWTEGYGYQFWMCRHGAYRGDGAFGQFCIVFPEQDAVLAITSGLGDMQAVLNEVWEHLLPAMGADPLPADADAEASLAGTLQALKLDPPSEEALSPIEKDVSGIVYDLEENEEKLHSFSIRFEEDGGVMELTGEHGVNSIALGRSEWKSGTTKLIMMADNEYAASMTWKDDRTLQLIVRLTETPFYLTTECTFSEEGIHLAYWMNQSFEGKVVREIKGKARA				NA	NA	NA	NA	NA
AK002_00454	1548	putC	COG1012	1-pyrroline-5-carboxylate dehydrogenase 2	ATGCGAGCACCTTTTCGGAACGAACCATTTATGGACTTCAACAACGAGTGGAACAACAGGTTATACGATGCGGCGTTATCCGGGGTCGAAGCCGAGCTTGGCCAATCGTACCCCTTGGTTATCGGCGGTGCCAAAATCCATACGGAACGTACCGCAAAATCGGTCAATCCGTCGCGCAAACGCCAGGTTATCGGCGTGGTGTCCCAAGCGGATACCGAGCTTGCCGAGCAAGCCATTCAGACGGCGGCGCGTACCTTCGAGACGTGGAAGCACACCGAGCCGAATGAGCGGGCACGCTACCTGTTCAAGGCCGCGGCGATCATGCGGCGGCGCAAGCTCGAGTTCTCCGCGCTGATGACCCTCGAAGCCGGCAAGACGCGTGCCGAAGCGGACGCGGATACGGCCGAAGCGATTGATTTCATGGAGTTCTATGCCCGCGAAATGCAGCGCCTGAGCGCGCCCCAGCCGCTGACGGTCCACGAGGAGGAAGAGAATCATCTCGATTACATCCCGCTTGGCGTCGGCATCGTCATTCCGCCGTGGAACTTCCCGCTCGCGATTATGGCCGGCATGACCACGGCGGCCATCGTCTCCGGCAACACCGTTGTGCTGAAGCCGGCGAGCACCACCCCGGTCATAGCCGCCAAATTCGTGCAGCTTCTGGAAGAAGTCAGCCTGCCTCCGGGTGTCGTTAACTTCCTGCCTGGTCCGGGTCAGGAAGTGGGCGATTATTTGGTGGATCACCCTTTGACCAGGTTTGTCAGCTTTACGGGATCCCGCGACGTTGGACTGCGAATTCAAGAGCGTGCGGCCAAAACGCAGCCGGGGCAGCGATGGATCAAGCGCGTCATCGCCGAAATGGGCGGGAAAGACGCCATCATCGTGGACAACGAAGCCGATTTGGACCTTGCTGCGGATGCGATTACCGCTTCGGCCTTCGGCTTCTCCGGCCAGAAATGCTCCGCCTGCTCCAGAGCCATCGTGCATGAGGACGTCTATGATACCGTGCTGCAGAAGGTCATCGAGCGCTCCAAGAAGCTGGTGATCGGAAGCCCCTCCCATGCCGAGGCTCAGGTGGGACCCGTCATCGACGATAAGGCGTACCGTAAAATTCTCGACTATATCGAAATCGGTAAAAGCGAGGGCAAGCTGGTACTCGGCGGATTTCCGGGCGATCCGGAGGGGTATTTCATTCAGCCTACGATTTTTGCGGACGTGGACAGCACTGCCCGTATTTCCCAGGAGGAAATCTTCGGCCCAGTGGTGGCCTTCACGAAGGCAGCCTCCTTCGACGAAGCGATTCAATTCGCCAATAATACCGATTATGGGCTGACCGGCGCGGTGATCTCGAACAACCGCGCGCATCTGGAGCAGGCACGGCGCGATTTCCATGTCGGCAACCTGTATTTGAACCGGAAATGCACCGGCGCCTTGGTGGGCACCCACCCGTTCGGCGGCTTCAATATGTCCGGCACGGATTCCAAAGCCGGCGGCCGCGACTACCTGCTCTTGTTCACGCAGCCGAAGGTGGTGTCGGAACGGTTCTGA	MRAPFRNEPFMDFNNEWNNRLYDAALSGVEAELGQSYPLVIGGAKIHTERTAKSVNPSRKRQVIGVVSQADTELAEQAIQTAARTFETWKHTEPNERARYLFKAAAIMRRRKLEFSALMTLEAGKTRAEADADTAEAIDFMEFYAREMQRLSAPQPLTVHEEEENHLDYIPLGVGIVIPPWNFPLAIMAGMTTAAIVSGNTVVLKPASTTPVIAAKFVQLLEEVSLPPGVVNFLPGPGQEVGDYLVDHPLTRFVSFTGSRDVGLRIQERAAKTQPGQRWIKRVIAEMGGKDAIIVDNEADLDLAADAITASAFGFSGQKCSACSRAIVHEDVYDTVLQKVIERSKKLVIGSPSHAEAQVGPVIDDKAYRKILDYIEIGKSEGKLVLGGFPGDPEGYFIQPTIFADVDSTARISQEEIFGPVVAFTKAASFDEAIQFANNTDYGLTGAVISNNRAHLEQARRDFHVGNLYLNRKCTGALVGTHPFGGFNMSGTDSKAGGRDYLLLFTQPKVVSERF	PGPT0020210_2520	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
AK002_00455	921	fadM_1		Proline dehydrogenase 1	ATGGACGGAACCGAGCTGTACCGTAAAGTGATCCTGACGGTGTCCGGCAATAAACTCGTGAAATGGCTGTCGATCAAGTACGGCCGGAAATTGGCTGGCCGATTCATTGCCGGCGATACCTTGGATGAGGCGCTGGACGAAATCGAGAGGCTGAACGCGAAGGGCATTCTCGTTACGCTGGATCATTTGGGGGAGGGCATTACGACGCTGGACGAAGCGGCCGGGTACCGAGAGGAATATTTGAAGCTGGTGGAAGGGATTGCGAAGCGCGAAGTGCAATCGAACGTATCCTTGAAACCGACACAGATGGGCATGGCCCTGGACCCCGAGAAGGCTTACGAAAACATCAGGTCAGTGGTAAGAAAGGCAAAAGAGTACCGGAACTTCGTTCGCCTGGACATGGAGGATTCGCCGTATACCCAGGCGACCATCGATATGACGCTCCGCCTCCATAAGGAGGGGCTGACGAATGTGGGGACCGTGATGCAGGCCTACTTGTTCCGTACGGAGGAGGACGTGAAGAACCTGCTCAGGGCCGGCGTTAATCTGCGGCTGGTGAAGGGGGCGTACAAAGAACCGGGGACCATCGCCTTTCAGCAGAAGCGGGAGGTCATTGACAACTACAAGAAATTGATTAAAATGCATTTCGACCAAGGTTCCTACGTCGCGATTGCCTCGCATGATGACAACATCATCGACTGGGTGAAGGTATTTGCCGAACAGAGTCGCATCGACAAACAGGACTATGAATTTCAGATGCTGTACGGACTGCGGATGAACGATCAAGCAGCGCTTGCGCAGGACGGCTACCGTATCCGGTGTTATATGCCCTACGGAACGATGTGGTATCCGTATTTCACCCGGCGGCTGGCGGAGAAGCCGGCCAACCTGATGATGGTGCTTAAGAATATGTTCAAGTGA	MDGTELYRKVILTVSGNKLVKWLSIKYGRKLAGRFIAGDTLDEALDEIERLNAKGILVTLDHLGEGITTLDEAAGYREEYLKLVEGIAKREVQSNVSLKPTQMGMALDPEKAYENIRSVVRKAKEYRNFVRLDMEDSPYTQATIDMTLRLHKEGLTNVGTVMQAYLFRTEEDVKNLLRAGVNLRLVKGAYKEPGTIAFQQKREVIDNYKKLIKMHFDQGSYVAIASHDDNIIDWVKVFAEQSRIDKQDYEFQMLYGLRMNDQAALAQDGYRIRCYMPYGTMWYPYFTRRLAEKPANLMMVLKNMFK				NA	NA	NA	NA	NA
AK002_00456	843	drrB_1		Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB	ATGATTCCCAATCCACAAGATATCGAACCTGCTGCAGTCTCCCACTCACTTGGAACGAGATTCCGTTATACGATCAGTGATGTATGGGTCCTTGCTCAACGCGAACTCTTGCACTGGCGGGGACAACCAGGCGTTATCATCATCAACTGGTTATTTCCCGTTTTGATGGTTCTCATGTTCGGTCTGCTCTTCGGTGGAGCGATCGTCGTCCCTGATGGGGGAGCATATTTTGAATTCCTGATGCCCGGCATGTATGCCATGACGATGCTCTTCGGGGTAGAAAGCACCGTAATGGCGGTCACCTCAGATGCTTCAAAAGGGGTAACAGACCGTTTTCGTTCGATGCCCATGAACGCTTCCGCCGTTGTAATCGGACGTTGTGCTGCTGATATGCTGAACTCTGTTATCGGGCTGGCGGTGCTCATCGCATCCGGTCTCCTGCTGGGCTGGCGTTGGCATGACGGCTTGGGCAATGCCTTATTAGCGGTATTGCTACTACTGCTTCTCCGGTTTGCGTTGCTTTGGGTCGGCATTTACATTGGCCTGATAGCCAAAAGCCCTCACATCGTATCCGCCGTACAATTGTTGGTCTGGCCAGTGGGATTTCTGTCGAACGTCTTCGTTGATCCTTCTACGATGCCGGCTTGGCTAGGGGCAATCGCCGAGTGGAATCCGTTATCGGCAACGTCTTCATCAGCCAGGGAACTGTTCTTAAATCCGGGTTGGCAAGGAAACTCGTGGATGTCAGAGCATTCGGTCATGCTGTCGATCGTATGGCCTATCGCGCTAATTGCGATATTCCTTCCAATGTCGGTTCGACGTTATCGACAGCTCAGCCGTTAA	MIPNPQDIEPAAVSHSLGTRFRYTISDVWVLAQRELLHWRGQPGVIIINWLFPVLMVLMFGLLFGGAIVVPDGGAYFEFLMPGMYAMTMLFGVESTVMAVTSDASKGVTDRFRSMPMNASAVVIGRCAADMLNSVIGLAVLIASGLLLGWRWHDGLGNALLAVLLLLLLRFALLWVGIYIGLIAKSPHIVSAVQLLVWPVGFLSNVFVDPSTMPAWLGAIAEWNPLSATSSSARELFLNPGWQGNSWMSEHSVMLSIVWPIALIAIFLPMSVRRYRQLSR	PGPT0006730_15801	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_00457	984	drrA_2		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGGTATCAGGTGAGCTTGCGATAGCAGCCCATCATTTAACCAAGCATTACGGAGGCTTGAAGGAAGGACCCGGACTGAACGGACTCACCCTAGGAGTTCCGAAGGGAACGATTTACGGACTACTCGGCCCTAACGGGGCCGGTAAAACGACAGCCGTCAAAGTCTTCACGACGCTGCTCCAGCCCGACAGCGGGAGTGCGGCCGTTGCCGGATTTGATGTAAAAACCCAGGGTCACAGGGTACGTGAAAAGATCGGCTTGGTTGGTCAGTATGCCGCCATCGATGAACTTCTTACGGGAAGGAGGAATCTAGAAATGTTCGGACGTTTAAGCCGATTAACCTCAAGGCAAGCTCGATCGCGCGCAGAAGAATTGTTGAACCAATTTGAGCTTACCGATGCCGGAAATATGCAGGTCGCTAAATACTCCGGCGGCATGCGGCGGCGCCTTGATCTGGCTGCAAGCTTAATCGTGTCGCCGGAGGTTCTTTTTGTCGACGAGCCGACGACTGGCCTCGATCCCCTAGCCAGGCAGGAGGTATGGAAATCCATTCGATCTTTGAGAGATGCGGGGTCCACCGTGCTGCTGACAACCCAATATCTAGAGGAGGCCGATCAACTCGCCGACAGCATATCCATACTTAAATCCGGACGCATCATCGCCGAGGGAACGTCGGATGAACTGAAATCCTCCTTCGGCGGGGATCGGCTGGAAGTCGTCCTATACAATAGCCATGACTTCAACAACGCCATCCCCATGCTCCAGCAGATAGCCGGGCCGTCCATTATGATTGACGAAACCGGGAACCGGTTAAGCGTGCCGGTGACGGACCGCACAGGATCGCTGGTTAGAGCTGCTGCCGCCTTTTCCGATGCCGGAATTGAACCTAAAGATATTGTCCTGCGGAGGCCGACGCTCGATGAAGTATTCATCCACTTTACGGGCAGGCCAGAAGTCTTGCAGACACAGGAGGTGGCAGAATGA	MVSGELAIAAHHLTKHYGGLKEGPGLNGLTLGVPKGTIYGLLGPNGAGKTTAVKVFTTLLQPDSGSAAVAGFDVKTQGHRVREKIGLVGQYAAIDELLTGRRNLEMFGRLSRLTSRQARSRAEELLNQFELTDAGNMQVAKYSGGMRRRLDLAASLIVSPEVLFVDEPTTGLDPLARQEVWKSIRSLRDAGSTVLLTTQYLEEADQLADSISILKSGRIIAEGTSDELKSSFGGDRLEVVLYNSHDFNNAIPMLQQIAGPSIMIDETGNRLSVPVTDRTGSLVRAAAAFSDAGIEPKDIVLRRPTLDEVFIHFTGRPEVLQTQEVAE	PGPT0006725_5841	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00458	801			HTH-type transcriptional repressor	ATGAGCGTTAACAAACGAGGAAATGATCCTGCTCGAGGCTTGAATCTTCTGTGGGGCCCTCAGTCGGTTCCGGGACGCACGGGGCTGACGATTCGGAAAATCGTGTTGGCAGGGATGGAAATCGCGGATGTTGACGGCATCGAGCAGTTGTCGATGCGCAAAGTGGCAGAGCGGCTAGGCGTAGGGGCTATGTCCTTGTATACCTATGTTCCCGGGAAATCCGAGCTGCTGGAGTTGATGCTGGATACGGCGAACGCTGACCTATACGCCTCAGAGAATATTTTATCGGACTGTAAGGGAGATTGGCGCGAAGCGGTCCGTTTTATCGCGAAGACGAATTGGGATCTTTGCATGAGACACCCGTGGATCGTGGATTTAACCGGCAGGAGACCGGTTCTAGGCCCTAACTTGATTCTGAAGTACGAGCTGGAGCTACGTGCTATGGAGGGTATCGGCTTGACCGATATCGAGATGGACTCTACCTTATCACTCATACTTATGCATGTGGAGAGCTGCGCCAGATTGAGAAACAGCATGGTCTCTACGCAAATCAACACGGGAATGGACGACGATGAATGGTGGCTTAGCTATTCGCCGGCTCTGGCAAGAATTGTGGAGTGGGAGAGGTTTCCGGTTGCATCCCGCGTTGGAGAAGCTGCCGGTCAGGCACACCAGAATGCATACAATCCGGAGCATGCTTATGCTTTTGGGTTGGAGCGGATCATCGAAGGAACCGGAGTATTAATTGAGAACGGGAAAACTGCCCAATCCAAGGGAAACGGGGACAGTAGCTCTCTGTAG	MSVNKRGNDPARGLNLLWGPQSVPGRTGLTIRKIVLAGMEIADVDGIEQLSMRKVAERLGVGAMSLYTYVPGKSELLELMLDTANADLYASENILSDCKGDWREAVRFIAKTNWDLCMRHPWIVDLTGRRPVLGPNLILKYELELRAMEGIGLTDIEMDSTLSLILMHVESCARLRNSMVSTQINTGMDDDEWWLSYSPALARIVEWERFPVASRVGEAAGQAHQNAYNPEHAYAFGLERIIEGTGVLIENGKTAQSKGNGDSSSL				NA	NA	NA	NA	NA
AK002_00459	462			hypothetical protein	ATGACGAAACTCATCGAGGCAGCACTTACACCCGTCATCGAAACCGCAGTGCCTGCATTAGGTGAAGAGACTATCCGCCATATGGAGATATTTCGTTTCGACCGGGGTTCGGCTGAACGTTTTATCCCCTGGAGCGATCACAGCAGGAACTGCGGCTTGTTCAAAATCAGCTGTAAAAACGCATCCGGGTATGCCGAATATGCGCTGCCCAGCACGAGAGAGTTTGCGGATCTGGTTCGCTGGGCATCCGTATTCTCAAGGCTGAGAGGCATGCACGTGATGGAAGCCATTCGCTATGTCCAAAAGCAGCAATGGGGATCCGTACGGATGCTGTTGGCGGTATCGGCCCTCGCCGATCTAGAGGCCAATCAGCATCAGCACATTAGCCGGAAGCGGTTAGGCAGTCTGCCGCTGGAGCGTTCCTTCCTGATGGATTGCTCGGAGGCGTATTATCATTTCTAG	MTKLIEAALTPVIETAVPALGEETIRHMEIFRFDRGSAERFIPWSDHSRNCGLFKISCKNASGYAEYALPSTREFADLVRWASVFSRLRGMHVMEAIRYVQKQQWGSVRMLLAVSALADLEANQHQHISRKRLGSLPLERSFLMDCSEAYYHF				NA	NA	NA	NA	NA
AK002_00462	411			hypothetical protein	ATGGAGAAACCACAGGAATACATCCTGGTATCCGCGCCGAACAAGGCCGGGGAGGAATTCGTCCGCCAGCTGATGCACAAACGTGTTCCGTTTGCGGCCATAGCCAACAACCGGGCTGAGCAGCTGAGGCTGCGAGAACTGGGCTGCAAACCCATCATTTTGATTGATACAAGAGACGAGCAGACCTGGATCATTCCCGAGTTTCCCGTCAGCAAGGTGTTTCTGTTCGAAAGCAGCTTGAATCTGTGCTGCCGCTATTTACGGATCTGCCGGACATGGACCGCGGAGTCGATTTATGTGATCACCCATTCCGGCAATCCGCGCTTGATATACAAAGGGCTGGGTGCCGATGTGGTGCTTCATACGAATCATCATCAGGTGTCCTTTCTGATGGCAGCCGTTATGAGCTAA	MEKPQEYILVSAPNKAGEEFVRQLMHKRVPFAAIANNRAEQLRLRELGCKPIILIDTRDEQTWIIPEFPVSKVFLFESSLNLCCRYLRICRTWTAESIYVITHSGNPRLIYKGLGADVVLHTNHHQVSFLMAAVMS				NA	NA	NA	NA	NA
AK002_00463	111			hypothetical protein	ATGCAGGATTTAGTTATGGTACTCATTTTGGGAGGAACCTACGGACTGCTCATGCTGTTTATGTCCTGGTGCGGGCGCGTGGTTTCGGAACCGGAGGCTGATCAGCCGTGA	MQDLVMVLILGGTYGLLMLFMSWCGRVVSEPEADQP				NA	NA	NA	NA	NA
AK002_00464	1680	kdpA	COG2060	Potassium-transporting ATPase potassium-binding subunit	ATGGGCATTTTACAAATTGCCATCGTTATACTCGTTCTGGTGCTGCTGGTCAAGCCGCTGGGAACTTATCTATATCAGGTGTTTCGCAATGAAAGCAATGGAACGGACAGATGGTTCTCCTGGGCGGAGAAACCGATCTTTGCTCTGATCGGCTTAAAAGAACGCAAGGGGATGACATGGAAAGGATATGCCGTCAGCTTTGTGTTGACGAATATCGTGCTGGTTGCGGCGGGCTACTTGATTCTGCGGCTGCAGAAGGTGCTGCCGCTGAACCCGAACGGCATCGGCCATATGGAACCGACCTTGTCGTTCAACACCATTATCAGCTTCATGACCAATACGAATCTTCAGCATTACAGCGGCGAGTCGGGATTGTCTTATCTGGCCCAGATGGCCGTCATTACGATGATGATGTTCACGTCCGCGGCGACCGGGCTGTGCGTGGCGATTGCTTTTATCCGGGCGGTGACCAGCAAGGGCATGACCGTCGGCAACTTTTTTGAGGACTTCGTTAAGGCGCATACCCGGGTATTCATTCCGGCTGCCTTCATCATTGCGATGGCGCTGGTGGCGCTGCAGGTGCCGCAGACACTGAAGCCTACGCTCAGCGTCACGACGCTGGAAGGTAGCGAGCAGCAAATAGCGGTGGGTCCGGTGGCCGCGCTCGAATCGATCAAGCATCTTGGCACCAATGGGGGCGGGTTTATGGGGGCCAACTCGTCGCATCCGTTCGAGAACCCGTCCCCGCTGACCAATGTGATCGAGATTCTATCCATGTGGTGCCTCGGGGCGGCGCTTCCTTACACATTTGGTTTGTTCGGGAAGAGCCGCAAGCAGGGCTGGATTATTTTCTCGGTAATGATGACCTTGTTTATCGGCTTCCTGTCCCTGAACTACGCTGCCGAAACCAACGGCAACCCGGCATTAAACCAGCTGGGCATCGACGCCTCGCAAGGCAGCATGGAGGGCAAAGAGTTCCGGTTCGGGATCGCCCAATCCTCCCTGTTTACGACGGTGACAACCGCAGCCACGACCGGGTCGGTCAACAACATGCATGATACGCTCACGCCGCTCGGCGGGATTACGCCGCTGTCCCTGATGATGCTGAATTCCGTTTTTGGCGGAAAAGGCGTCGGGCTGATGAATATGCTCATGTACGCGATCCTGGCGGTGTTCCTGGCCGGTCTTATGGTTGGCCGTACCCCCGAATTTCTCGGCAGAAAAATCGAGGCCCGGGAAATGAAGCTGGTTGCGGTTGTCATTCTGGTACACCCATTGATTATCCTTGCTCCTACGGCGCTCGCGCTCATGACGGATGCGGGACAGGCGGGCATTGCCCATTCGGGCTTTCACGGCATCTCGCAGGTGCTTTACGAATACACGTCATCCGCGGCCAATAACGGCTCCGGGTTTGAGGGCCTTGCGGATAACACGCCGTTCTGGAACATCAGCACTGGACTGGTCATGCTGATCGGGCGCTACATTTCGATGATCGCCCTGCTGGCGGTTGGCGGCTCGCTAATGCGGAAGCAGTGGGTTCCCGAGACGCTCGGGACGTTCCGGACAGATAATAAGCTCTTTGCCGGCATTCTCATCGCGGTGGTCCTGATCATCGGTGCCTTGACCTTCCTGCCTGTGCTGGTGCTGGGACCGATTGCCGAGCATCTGACGATTCGTTAA	MGILQIAIVILVLVLLVKPLGTYLYQVFRNESNGTDRWFSWAEKPIFALIGLKERKGMTWKGYAVSFVLTNIVLVAAGYLILRLQKVLPLNPNGIGHMEPTLSFNTIISFMTNTNLQHYSGESGLSYLAQMAVITMMMFTSAATGLCVAIAFIRAVTSKGMTVGNFFEDFVKAHTRVFIPAAFIIAMALVALQVPQTLKPTLSVTTLEGSEQQIAVGPVAALESIKHLGTNGGGFMGANSSHPFENPSPLTNVIEILSMWCLGAALPYTFGLFGKSRKQGWIIFSVMMTLFIGFLSLNYAAETNGNPALNQLGIDASQGSMEGKEFRFGIAQSSLFTTVTTAATTGSVNNMHDTLTPLGGITPLSLMMLNSVFGGKGVGLMNMLMYAILAVFLAGLMVGRTPEFLGRKIEAREMKLVAVVILVHPLIILAPTALALMTDAGQAGIAHSGFHGISQVLYEYTSSAANNGSGFEGLADNTPFWNISTGLVMLIGRYISMIALLAVGGSLMRKQWVPETLGTFRTDNKLFAGILIAVVLIIGALTFLPVLVLGPIAEHLTIR	PGPT0002740_1653	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002740-kdpA-K01546	NA	NA
AK002_00465	2034	kdpB	COG2216	Potassium-transporting ATPase ATP-binding subunit	ATGAATAATACGAGAAAAAGAGCGATGTCCCAAGAGATGGTCCGTCAGGCGCTGAAGGACAGCTTCACGAAGCTGAATCCCGTCCTGATGATGAGAAATCCGGTCATGTTTGTCGTGGAAGCCGGGACTCTGGTCGTGCTGCTTATGACGATATTTCCGTCCTATTTCGGTACCGAGGGCAGTAGCAGATTTAACCTGACCGTATTCGTCATCCTGCTGTTTACGCTGCTGTTCGCTAACTTCGCAGAGGCGCTTGCCGAAGGGCGCGGCAAGGCGCAGGCCGATTCCCTTAAGCAGTCGAAGCAGGAAATGACGGCCCGCAAAGTGATGGAGAACGGCGGGGTACAATCCGTGCCGTCCACGGATCTGCGCAAAGGGGATATCGTGATTGTCGCGCAGGGCGAGATGATTCCCGGGGACGGGGAAGTGATTGCGGGCCTTGCATCCGTTGACGAATCGGCGATTACCGGGGAGTCCGCCCCCGTCATTAAAGAAGCCGGAGGAGATTTCAGCTCAGTCACGGGGGGCACCCGGGTTGTCAGCGATACGATCCGCATCCGGATTACGAGCGATCCGGGGGAATCGTTTATCGACCGGATGATCTCGTTGGTCGAAGGGGCCTCCCGGCAGAAAACGCCAAACGAAATTGCGCTGAATACGCTGTTGATCGTCTTAACGCTGATCTTCCTGATCGTGGTTGTGACGCTGGCACCGATCGCGAAGTATCTTGGCATCGAGTTGACCGTTCCGGTGCTGATCTCGCTGCTGGTATGTCTGATCCCGACCACGATCGGGGGGCTGCTGTCGGCGATCGGGATTGCCGGCATGGATCGGGTAACGCAGTTCAACGTGCTGGCGATGTCCGGCAAAGCGGTTGAGGCCGCCGGTGACATCAACACGATGATTCTGGATAAGACGGGTACCATTACGTTTGGTAACCGGATGGCCAGCCGATTGATTCCCGTCGGCGGCGAGTCGCAGGCATCGGTGTCCCGGTGGGCCGCGGTGAGCTCGCTGCAGGATGAGACGCCGGAAGGACGGTCGGTGTTGGAGCTGCTGAGGAAGGAAGGTTTCGCAGTGGATGAGAGCATGGCGGATGGGGCGGAATTCATCGAATTTAAGGCGGAAACTCGGATGAGCGGCATGGACCTGAGGGATGGCCGGAAAGTCCGGAAGGGCGCGGTGGATGCCGTCAAGGCGTGGGTGCAGTCGCAAGGAGGCCCCCTCCCTTCGGATTTGACGCCAAATAGCGACGCCATCGCCACAGAGGGAGGAACCCCGCTTGCTGTCGCCGTGGATAACCGCATCTATGGTTTGATCTACCTGAAGGATACCGTGAAGCCGGGCATGAAGGAACGGTTTGACCAGCTGCGCCGGATGGGCATCAAGACGATCATGTGCACGGGCGACAACGCGCTCACCGCAGCGACGATTGCCCGTGAAGCGGGCGTCGATGATTTCATTGCGGAGAGCAAGCCCGAAGACAAGATTGCCGTCATCCGCCGAGAACAAGCCGAAGGCAAGCTGGTGGCGATGACCGGGGACGGGACGAACGATGCCCCGGCGCTGGCCCAGGCCGATGTGGGGCTGGCGATGAACAGCGGCACCACCGCAGCCAAGGAAGCGGCCAATATGGTGGATCTGGATTCGGATCCGTCGAAGATTATCGAGGTGGTCTCTATCGGCAAACAGCTGCTGATGACGCGCGGCGCGCTGACCACCTTCAGCGTCGCGAACGATGTCGCCAAATATTTTGCGATCATTCCGGCGATGTTCGCGGCTGCTATTCCAAGCATGAACGTTCTCAATGTCATGGGACTGGGTTCTCCCATGTCGGCGATTCTGTCGGCGCTGATCTTTAATGCCATCATCATTCCGCTGCTGATTCCGCTTGCGATGAAGGGTGTGGCCTATAAGCCGATGAGCTCGTCGAAGCTGCTGCAGCGCAATGTGTTGGTCTACGGATTAGGCGGCGTGATCGTGCCGTTCATCGGGATTAAGCTGATTGATATGATCGTGCATCTCTGGATTTAG	MNNTRKRAMSQEMVRQALKDSFTKLNPVLMMRNPVMFVVEAGTLVVLLMTIFPSYFGTEGSSRFNLTVFVILLFTLLFANFAEALAEGRGKAQADSLKQSKQEMTARKVMENGGVQSVPSTDLRKGDIVIVAQGEMIPGDGEVIAGLASVDESAITGESAPVIKEAGGDFSSVTGGTRVVSDTIRIRITSDPGESFIDRMISLVEGASRQKTPNEIALNTLLIVLTLIFLIVVVTLAPIAKYLGIELTVPVLISLLVCLIPTTIGGLLSAIGIAGMDRVTQFNVLAMSGKAVEAAGDINTMILDKTGTITFGNRMASRLIPVGGESQASVSRWAAVSSLQDETPEGRSVLELLRKEGFAVDESMADGAEFIEFKAETRMSGMDLRDGRKVRKGAVDAVKAWVQSQGGPLPSDLTPNSDAIATEGGTPLAVAVDNRIYGLIYLKDTVKPGMKERFDQLRRMGIKTIMCTGDNALTAATIAREAGVDDFIAESKPEDKIAVIRREQAEGKLVAMTGDGTNDAPALAQADVGLAMNSGTTAAKEAANMVDLDSDPSKIIEVVSIGKQLLMTRGALTTFSVANDVAKYFAIIPAMFAAAIPSMNVLNVMGLGSPMSAILSALIFNAIIIPLLIPLAMKGVAYKPMSSSKLLQRNVLVYGLGGVIVPFIGIKLIDMIVHLWI	PGPT0002745_1979	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002745-kdpB-K01547	NA	NA
AK002_00466	627	kdpC	COG2156	Potassium-transporting ATPase KdpC subunit	ATGAATAAGCCATTGCAGAAATCATCGCCGGCGCCTCGCGCCGGGGTGGGCGCGGCCCGTGTCTCGCTGGGCATGGCCCTGAGAACGAGTCTTGTATTTATCGTGTTATGCGGAATTCTTTATCCGCTGGTCACGACGGGAGCGGCGCAGCTGCTCATGCCGAAGCAAGCCGGCGGCAGTTTGGTCACGGATCGGGGCGGAAAGGTGGTCGGATCGGAATTGATCGGCCAGGACTTTGCGGAGCCGCAATATTTTCACGGCAGGGTGTCCAGCATTGAATACAACGGGGCCGGCTCAGGCAGCAATAACTATGCCCCTTCCAATCCGGATTTAGTTGAACGAACGAAGGCCTCGATTGAAGCATGGGCGAAGAACAACCCGGATGTTCCGGTGAGTGAGGTGCCGATCGATCTGGTAACGAATTCCGGCTCCGGATTGGATCCTCACATTTCGCCGCAGGCTGCGAGCATTCAGATTCCGCGGATCAGCAAGCTGACCGGAATTGCGGAAGCAGAGCTTGATCAGCTGGTAAAGGAATATACGGAGGGACGGGATTTGGGCGTATTCGGTGAACCTCGCGTGAATGTGTTGAAGCTGAATCTGGGTCTCCAAGAGCTTCTTAACTGA	MNKPLQKSSPAPRAGVGAARVSLGMALRTSLVFIVLCGILYPLVTTGAAQLLMPKQAGGSLVTDRGGKVVGSELIGQDFAEPQYFHGRVSSIEYNGAGSGSNNYAPSNPDLVERTKASIEAWAKNNPDVPVSEVPIDLVTNSGSGLDPHISPQAASIQIPRISKLTGIAEAELDQLVKEYTEGRDLGVFGEPRVNVLKLNLGLQELLN	PGPT0002750_410	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002750-kdpC-K01548	NA	NA
AK002_00467	2322			hypothetical protein	ATGGATCCCTTTCGGAGAAAATCGCCGGAGGAGCTCTTAAGGTCGATTTCCAAGCTCCATCAAGGACGGCTCAAGGTATATATCGGGGCCGTGAGCGGATCGGGAAAAACCTATCATATGCTTCGCGAAGGGCAGACCTTGAGGCTGCAAGGCATCGATGTCGTCATATGTGCGGTATCCACGATGCAGCGCCCGGAAACGGTGGAGCAGGTCCGGGATCTGGAGCGGGTGCCCAGCATTCATTGGATGGAGGACGGCGTGGAGAAGAAAGATCTTGATCTGGATCTGCTGATGCAGCGCAACCCGGAGGTGGTGCTTGTCGATGGGCTTGCCCATGGCAATCGGAAGGGAGCGCGGCATGCCACACGGCTGGGTGACATCCGATTCCTGTTAAGCCGGGGAATCAGCGTCATCACGACGGTTAATGTGTATGAGCTGGAGGACGTGCAGGGCATTGCCTCCAAGCTGACGGGCATTCAAACCAGCCATACCGTACCGGCTGATACGCTGGAGAGCGCCGACGAGGTGGTGCTTATTGACGTAACGCCCGAAACGATGCTGGAACGGGCACAAGGCGGCCTGCTTGGAGGCGGGAGCATATGGAAACAGGGCAATCTAGCCGTACTTCGGGAGTTGACGCTCCGCCTCGTTGCCGAAGGCGTCAGCCATTCACTGGAGCGGTACCGCAAGGAACAGGGGCTCATCGGCCCATCGGGAGCCGATGAGCGAATACTGGTGTCGACCCAATACCATTGGAATGGGTCCATCTATATGCGGCGCGGGCAGCAGATCGCGAAGCGATTAAACGGCGAGCTGTTGGCCGTCACGTTTGTGAAGCCGGGAGTAGAGCTTACCAAAGAACAGGCCGCCTTCAAGCGCTCCATGATGAAGCTCGCGGTGCGGATAGGCGCCAAAATGGAGGAGCTGCCCCTCCGTTCCCGGAGGAAGCTCGCTGACATGCTGGTTCAGTATGCGCTGGAGCACCACGTTACGCGCATTGTGCTCGGCCATTCGAAGCAGACGCGCGTGCAAGAGCTTTGGCAGGGGTCGATTATTCAGGATCTGCTCAAGAAAACGCGCGGAATTGATATTTTTATGGTTGCGGATCGGGCGGAACATGACGGGGAGCGGATCATCCCGGCCCGGCTCCATCCGCAGCGGCTCTCTTCCGAATCGTTTCACCGCTTGAATGAACAGGAGCTGGATCAGAAGATCGAGCAGGTCAAGCGGGGACGGTTCAAGGTATATATCGGCGCCGCCCCGGGCGTAGGGAAGACCTATGCGATGCTGCGGGAAGGCAACGATCTGCTGAAGAAGGGCTTGACGGTTCTCGTCGGTCTGCTGGAGACGCACGGCCGGAAGGATACGCTGTCCCAGGTGGGCAATCTGGAGACCCTCCCGCGAATAAGGGTGGATTACCGCGGATCGCGCCTTGAGGAGATGGATACCGATGAGATCATTCGCCGGAGGCCGGACGTGGTCCTCGTGGATGAGCTGGCGCATACGAACGTGCCCGGAAGCAAGCGCAAGAAACGGTATGAAGATGTGCTGGATATTCTGTCGGCCGGCATCTCCGTCATCACGACCGTGAACGTGCAGCATCTGGAGAGCTTGAATGATGCCGTCGAGCAGATTACAGGCGTTCGAGTCCGCGAGACGATACCGGATCATATCCTGCTATCGGCCGATGAGGTTCAGCTCGTCGACGTGACGCCGGAGTCGCTGCGGCAGCGGATGAAGGACGGGAACATTTATGCGAAAGAGAAGGTTCATCAGGCGCTCAGCCATTTTTTCAAGACGGGAAACCTGATCGCCCTAAGAGAGCTTGCCTTAAGGGAAATTGCGGATGATGTGGACGAGAGGCTGGAGTCCTGGCAGCGCAGCGGCTCGCTTCGGGGGCCGTGGCGGCGCGAGGAGGTTATCTACGTCGTGGTTGCCAGGGGGCCGCAAGCGGAGCGGCTCATTCGCCGCGGCTTCCGGATCGCCCATCGGCTGAAGGCGGCCTGGTATGTGGCATTCCCTCTGAAAGGTCATCACAGCCTGTCTCATGACGACGAGCAGCGCCTGACGGCGCTTCAGACGTTAACGGAGCGTCTTGGGGGCACCTTCACAATGCTGCCGGTAAGAAGGGGGCCGGCATGCGCCTGTCCTGGCCGATTGGTCGCGGCAGCAGACGAGGTTAAGGCGACCCAAATCATTATCGGCCAGCCGCAGATGGCCGGATGGAAGCTATTTTCCAGGCGGAAATGGATCAGGAGCCTGCTGCGATCCTCAAGGCATATGGACGTGCTCGTGGTTGCGGATTACGATCCGCACGTTTGA	MDPFRRKSPEELLRSISKLHQGRLKVYIGAVSGSGKTYHMLREGQTLRLQGIDVVICAVSTMQRPETVEQVRDLERVPSIHWMEDGVEKKDLDLDLLMQRNPEVVLVDGLAHGNRKGARHATRLGDIRFLLSRGISVITTVNVYELEDVQGIASKLTGIQTSHTVPADTLESADEVVLIDVTPETMLERAQGGLLGGGSIWKQGNLAVLRELTLRLVAEGVSHSLERYRKEQGLIGPSGADERILVSTQYHWNGSIYMRRGQQIAKRLNGELLAVTFVKPGVELTKEQAAFKRSMMKLAVRIGAKMEELPLRSRRKLADMLVQYALEHHVTRIVLGHSKQTRVQELWQGSIIQDLLKKTRGIDIFMVADRAEHDGERIIPARLHPQRLSSESFHRLNEQELDQKIEQVKRGRFKVYIGAAPGVGKTYAMLREGNDLLKKGLTVLVGLLETHGRKDTLSQVGNLETLPRIRVDYRGSRLEEMDTDEIIRRRPDVVLVDELAHTNVPGSKRKKRYEDVLDILSAGISVITTVNVQHLESLNDAVEQITGVRVRETIPDHILLSADEVQLVDVTPESLRQRMKDGNIYAKEKVHQALSHFFKTGNLIALRELALREIADDVDERLESWQRSGSLRGPWRREEVIYVVVARGPQAERLIRRGFRIAHRLKAAWYVAFPLKGHHSLSHDDEQRLTALQTLTERLGGTFTMLPVRRGPACACPGRLVAAADEVKATQIIIGQPQMAGWKLFSRRKWIRSLLRSSRHMDVLVVADYDPHV	PGPT0002755_1953	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULAR_POLYSACCHARIDE_REGULATION,PGPT0002755-kdpD-K07646	NA	NA
AK002_00468	483			hypothetical protein	TTGAGAGGACCGGTGACGCAGAGACTTGGAAATGCTGAAAGTGCAGGAAAAGCAGTGAACGCAGGAATCGCAGAAAACGCGGATAACGCAACAATCCGGAGAACAAAAACACCGGGAACGCTTATTCCAGAGAACAAGAACGCACAGACCGCAGCACGCTCGGAAGCGGAAGAGTGCAAGCATACGCGCAGGCTGGCTTACCAGCGCGTAAGCGAACGGACCACGTCAAGAAGCCCGCTGACCTGTCATTACAGATCCGCGGGCTTTTTTCATGCTGCCAACATGCCTAAAGGCCGACGTACAAGCTTGTCTTATGATTCGCCCGACAGCGTGCGGTCGCCGGTCAAATATTTCTCGGTCAAGATGGAAAGCAGGCGAATGCCGACTTCATTCTCTCCGCCTTCGGGAATGATCAGGTCGGCGTATTTCTTGGAGGGTTCGATGAACGCCTCATGCATCGGCTTGACGGTTGTCAGGTATTGA	MRGPVTQRLGNAESAGKAVNAGIAENADNATIRRTKTPGTLIPENKNAQTAARSEAEECKHTRRLAYQRVSERTTSRSPLTCHYRSAGFFHAANMPKGRRTSLSYDSPDSVRSPVKYFSVKMESRRMPTSFSPPSGMIRSAYFLEGSMNASCIGLTVVRY				NA	NA	NA	NA	NA
AK002_00469	639	udk_1		Uridine kinase	ATGCTCATAATTGGTATCGCCGGCGGCACCGGATCGGGCAAAACAACGGTTGCCCGCTCTGTCATTGACCGTCTTGGTTCAGATAAAGTCACGTTTATTTCGCAGGATAACTATTACAAGGATCATAAAGAGCTCAGCTTCGAGGAACGCGAAGCGATTAACTATGATCATCCGTTCGCTTTTGACAACGAGCTGCTCGTCGAGCATCTCGGGATTTTAAAAAGCGGACAACCCGCTTTCGCACCGGTATATGATTTTACCGCCCATGCCCGCTTCACGGATCAGACCATCGAGCTGAAGCCGAACAACATCGTCATCATCGAAGGTCTGCATGTGCTGTCCGATGAGAATCTGCGCAAGCTGCTACACATTAAAGTGTTTGTGGATACCGATCCCGATGTGCGCCTGCTTCGCCGGGTCGTACGCGATATTGAGGACCGCGGCCGGACCATCCAGTCGATCCATAATCAATACCTGACAACCGTCAAGCCGATGCATGAGGCGTTCATCGAACCCTCCAAGAAATACGCCGACCTGATCATTCCCGAAGGCGGAGAGAATGAAGTCGGCATTCGCCTGCTTTCCATCTTGACCGAGAAATATTTGACCGGCGACCGCACGCTGTCGGGCGAATCATAA	MLIIGIAGGTGSGKTTVARSVIDRLGSDKVTFISQDNYYKDHKELSFEEREAINYDHPFAFDNELLVEHLGILKSGQPAFAPVYDFTAHARFTDQTIELKPNNIVIIEGLHVLSDENLRKLLHIKVFVDTDPDVRLLRRVVRDIEDRGRTIQSIHNQYLTTVKPMHEAFIEPSKKYADLIIPEGGENEVGIRLLSILTEKYLTGDRTLSGES	PGPT0021230_2906	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
AK002_00470	636			hypothetical protein	ATGCGTTATACCGCTATTTACCCATGCAAGCCCGCCATATACCTTCAGCAGGGAGAGAATCGGGGAAGCGTCGATTGGAGCCGCTATGAAGCTGTGGCCCTGAGCGACACCGTGACCGGGCTTGCCGCGAAGGAAGCGACGGAGGTGCGCGCCTGCTGGAGCGCCGAATGCTTCTACGTGCAGTTTGTTTGCCGGGATTCCCATATCGTCTCGGAGTATCGGCATCGGGATGACCCGCTGTATGAGCAGGATGTCGTGGAGCTGTTTATGGATGAAGCAGGAGAGGGCTTGGAATATATCGAGCTTGAGGTGAGCCCGAACAATGTTGTATTTGATGCGCGGATCCGTAACGATGGGCAAAAGTCGATCACGGACAGCGATGTCGAGTGGGACCTTACCGGCCTTCTGACCACGGTAGAGAACGATGGGAAGGGACATTTGGTTTACGAGTTTCGCATTCCGGCGCAGAACTTTCAGAATCCGCCGGAAGCGGGACGAAGCTGGAACGTGAACTTTTACCGCATTGACGAAGACGACCAAGGAAACCGGGAATATCAGGCTTGGAGCCCCACCGGAGAGGTCAATTACCATATGCCCTCGCGTTTCGGAAGGCTGGAGTTTGTGGATGCCACATAG	MRYTAIYPCKPAIYLQQGENRGSVDWSRYEAVALSDTVTGLAAKEATEVRACWSAECFYVQFVCRDSHIVSEYRHRDDPLYEQDVVELFMDEAGEGLEYIELEVSPNNVVFDARIRNDGQKSITDSDVEWDLTGLLTTVENDGKGHLVYEFRIPAQNFQNPPEAGRSWNVNFYRIDEDDQGNREYQAWSPTGEVNYHMPSRFGRLEFVDAT				NA	NA	NA	NA	NA
AK002_00471	996	yajO_1	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGAATACGTCTACTTGGGAAGAACCGGACTTGAAGTATCCCGCTTCTGTCTGGGAACCATGACTTACGGAGATTGGGATTTGGATGAGAAGACCTCGCTCGGCATTATCGACAGGGTGCTGGATTCGGGGATTAATTTTATCGATACGGCAGATACCTATGGCAAGGGTACGAGCGAAGAAATTATAGGCAAAGCCCTTCAAGGACGAAGAGAACGGGTGATTGTCGCAACCAAATTCAAGGTACGGACCGCCGACGGACCGAACGGAGAAGGCGCCAGCCGTTACCGCATCATGAGACAGGTCGAGGACAGCCTGAAACGGTTGAATACGGATTACATCGACCTCTACCAAGTGCATAGACCGGATCCTCATACCCCGCTGGACGAGACGCTGCGCGCGCTCGATGATCTGGTTGCCCAAGGTAAGGTACGATATATCGGCTGCTCGAACTTTGAGGCTTGGCGTATCGTCGAATCCCTGTGGACCAGCGAAAAAATGAACCTGGAGCGCTTCGTTACCAATCAGCCTTCATACAGCATCTTCAACCGATATATCGAGCAGGAAATCCTGCCGGCTTCACAGCGCCACGGCCTGGCTACGCTGGCCTACTCCCCGCTGGACGGCGGCTGGCTGTCCGGCAAATACCGTGCCGGGCAGCCGCTGCCGGTTAATTCGCGGGGCGAGCGCATGGACATGGATGCTCCCGGCAACCGTGCCAAGCTGGACAAGGTTGAATGGCTCGCCCGGCGTGCAGCGGACAAAGGGATCACGCTGGGGCAGTTCGCGCTCGCATGGCTGCTGCAGCGCGGCATCATTCCCATCGTCGGCATCCGCAGCGAGCAGCAGCTAGCGGACAACCTGAATGCACTGAACGTGCAGCTGACCGAAGAAGACTTGAAGCTGGTGGACGAGGTGTCCCCAAGCCCATACCGGGACTTCTCCCAGGACGGCAGCTTCTGGTTCAATGAACCGCGTGCTTACCGGTTTAAGTGA	MEYVYLGRTGLEVSRFCLGTMTYGDWDLDEKTSLGIIDRVLDSGINFIDTADTYGKGTSEEIIGKALQGRRERVIVATKFKVRTADGPNGEGASRYRIMRQVEDSLKRLNTDYIDLYQVHRPDPHTPLDETLRALDDLVAQGKVRYIGCSNFEAWRIVESLWTSEKMNLERFVTNQPSYSIFNRYIEQEILPASQRHGLATLAYSPLDGGWLSGKYRAGQPLPVNSRGERMDMDAPGNRAKLDKVEWLARRAADKGITLGQFALAWLLQRGIIPIVGIRSEQQLADNLNALNVQLTEEDLKLVDEVSPSPYRDFSQDGSFWFNEPRAYRFK	PGPT0017540_1333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017540-yajO|iolS-K23107	NA	NA
AK002_00472	600			hypothetical protein	ATGAATGCTGTCATCGATGGTCTGATGACCGAGCTGGAGCAGCTGCTGGAGGAGAAGGTGGCTGAAGATCTTCGGGATCTGCTGGGCGAGTATAAACAATTGGAGGGAGCGCCCTCGGATCGCTTGAAGCAATTTGAAGAGGAGTTCGGGATCGCTTTGCCGGAGGATTTCCGTTCGTTCTACAGCAAGAAGGACGGCAGCGGATACGCATTTCACGTGCTCTATCCCGGTAACGAGGGAGATGGCGAATACACCCCGTTCTATCTGATGAGTCTGGATGAGATGAGGGAAGTCAAATCATATTTCTGCGAACGGGACGAACGGCTCGATGCGTACTACGGTCCAGAGGAGGTACAGCGGCTGGATCCGGAAATTAAACCGTACCTGTTCCACAAGGCATGGTATCCGTTTGCCACGATGGCGGGCGGCTCATTGTATCTGATGCTGGATTTTGATCCGGCTGAGCCGGGAACGTCCGGGCAGATCATCATGTACGTGCATGATCCTGATTTTGTGTACTATATCGCGCCTTCCTTCACGGAGCTGCTTCAGGCGTCCAACCGCAATCTGCGCACCGACATTGAAGAAGTGGACTACTAA	MNAVIDGLMTELEQLLEEKVAEDLRDLLGEYKQLEGAPSDRLKQFEEEFGIALPEDFRSFYSKKDGSGYAFHVLYPGNEGDGEYTPFYLMSLDEMREVKSYFCERDERLDAYYGPEEVQRLDPEIKPYLFHKAWYPFATMAGGSLYLMLDFDPAEPGTSGQIIMYVHDPDFVYYIAPSFTELLQASNRNLRTDIEEVDY				NA	NA	NA	NA	NA
AK002_00473	651			hypothetical protein	ATGAACAACAGACGGGTCCTCTGGGGAATCATCCTCCTGGTGGCGGCCGTGTTGTTGACACCCGGTTATTTTATTGCGCGCACGTATGGACTTTTTCAGAATGAAGTGGTCTTGACTAAATACCAGCTCGCCGTTGATGTGGATGGTGAACAGGTGGATGCTTGGCCGCTGCTGGCTGGCTTCGCCGCAACCGATAAGAAGGGGGAGCTGCGCCCGCTGTATTACAGACTGGAAGGGTCGGACCTCAACATGCTGTATCAATTGGCGTATGGGCAGTTCGAGGTGGAGGCTTCGGAGGACAATCCGTTCTTGGCGGGGAGGGTCCAGTATGACCATCTGGAGAACGACTATATCGAGACCCGGAAAGAATATGTGAACGCAAAGGAATATCGGCAGGACATCATCTTTTATAATGACCGTAAAGAGCCCCTATTTACATACGACCCGGCAGCCAAAGCGGACGGGGATATGGTGAAGGAGATTATCACCGCAGGCATGACGCGCTCCAACGGCCAAGGAGGGTCTGGTGTGGTGGAGGATAAGTATCTGAATGTCACCCGATTGTTCGAGGAGAAGCTGGGCATCAGCATGCGGGTTCAGGTGGATAAGGAGCGCAGGCTGGCCACGATCCATATAGAGCAGCTTAAATAG	MNNRRVLWGIILLVAAVLLTPGYFIARTYGLFQNEVVLTKYQLAVDVDGEQVDAWPLLAGFAATDKKGELRPLYYRLEGSDLNMLYQLAYGQFEVEASEDNPFLAGRVQYDHLENDYIETRKEYVNAKEYRQDIIFYNDRKEPLFTYDPAAKADGDMVKEIITAGMTRSNGQGGSGVVEDKYLNVTRLFEEKLGISMRVQVDKERRLATIHIEQLK				NA	NA	NA	NA	NA
AK002_00474	486			hypothetical protein	ATGCAGCATACAAAAATGACCCAAGAGGTGGATCTCACCATCTCGCACCATCAAATTCAAGTCCGCTCGCGGGATTTTGACGAGGAGCTGTGCCAGTGGGGGGAAATCAATATCAAGCAGGGCGCTGTCATTCATCCCGGGTATCTGACCTTTGATCCGATTCCGGACGATGCCTTCGGCGCTTGGGTGAAGCTGGCCTTGACAGAGTCGTTCACGGAAGACCCGAACGCGCAGCGCCGAATGGTCGTACCGTTTGACGTTCTGGATCCCGGCAAGCTGGAGCTGTTGTCCGTCATGTCGGACGCCGTCATTGAGCTTCCGCTGCAAGCAGGGCGGTATGCCTTGTATTTTGAGATTTGCGAGGATGAAGAGGTGTATTACCGTCTGACTTTCGTGCGTGAAGGAGAGTATGTCCAAGCCCGATTTTTGATGGACGATGAATGGGGCGGCAGGGCTGGAGAAGCCTTGGCGGAGGGGTATTGTTGA	MQHTKMTQEVDLTISHHQIQVRSRDFDEELCQWGEINIKQGAVIHPGYLTFDPIPDDAFGAWVKLALTESFTEDPNAQRRMVVPFDVLDPGKLELLSVMSDAVIELPLQAGRYALYFEICEDEEVYYRLTFVREGEYVQARFLMDDEWGGRAGEALAEGYC				NA	NA	NA	NA	NA
AK002_00475	1113			hypothetical protein	ATGAAAACAATCAAGCATACAAGCCCACTGGCCAAAACACTCGCGGCTGCCGGATTAGCGGGCGTCCTGATGATATCCGCTTCGGGGCTGCCGTCCGCTCATGTCCATGCCGAAACCAAAACTGCAGCGAGCACCGATCAGGTGAAGGCTCCGACCGCTGCCCCGCAACGGGTAACGTTCAAAACATTGCAATCTAATGAAAAATGGCTCGAAACGGATATCAAGATTCCTGTATTCCAGGGTCTGGCTGACACCAAGTACCAAGATCAGCTGAATGACATCATCGAATCCCATGCTTCCAAGGATATTGCCAAATGGGAGAAGGAGGCTTCCGAGGCTGCGGCAAATGCGGAACAGAACGGCTATACCATGCGCCCTTATCAGCTGACGATCACCTATGAGCTTACATCGGATGGCACGGACGACAGCCTGATCTCCCTCAAGGTCATCACGGAAGGCATGGGAATGAACAATGGCGATCCCCGCGTGGATACGTATAACTTCATGAACGAAGCCGAAGCCCGGCGCGTGACGCTGGAGGACCTGTTCGGGAAGAATTACAAATCGATCGTAGATACGGCGGTCAAAACCGCGATTGCCGCGGATCAGGACCATTACTTCGCGAACGAAGACGGATTCCAGGGCATTGATGCCGAACAATCCTTCTACGTCGCGGACGGAACAGCCTATATCGTATTCCAAAAATACAGCATCGCCCCAGGAGCCACGGGAACGCCGGAGTTTGCCGTGAAGCTGCCGGGTACAGCACCCGAAGAAAAGCCCGTTTTCGCTGTCTTGAAGCCAGGCGCTTACTACAAGGATAACAACGGCAAGATGATGGTTCCCGCGGCCCGCGTGCTGCGTCAGCTCCACTTCGATGTCAAGTGGAACGGCAAGAGCAAAACTGTGGAAATCTCCAAAGGTGCCATCTGGAGCGCGGTGAAGCTGAACAAGGATGCGTACGCTTTTGGCAAAATGGCTCCGCGCCCGCTAGGCGCGTCTCCTGCAATGAAAGACGGCCATGTTTATGTTCCGCTCGCTTTCCTCACGGACATTCTGCAGCTGCAGGCTCAAAGCCAACATGGCGAGATTACGGTGACAGCAGCACAATAG	MKTIKHTSPLAKTLAAAGLAGVLMISASGLPSAHVHAETKTAASTDQVKAPTAAPQRVTFKTLQSNEKWLETDIKIPVFQGLADTKYQDQLNDIIESHASKDIAKWEKEASEAAANAEQNGYTMRPYQLTITYELTSDGTDDSLISLKVITEGMGMNNGDPRVDTYNFMNEAEARRVTLEDLFGKNYKSIVDTAVKTAIAADQDHYFANEDGFQGIDAEQSFYVADGTAYIVFQKYSIAPGATGTPEFAVKLPGTAPEEKPVFAVLKPGAYYKDNNGKMMVPAARVLRQLHFDVKWNGKSKTVEISKGAIWSAVKLNKDAYAFGKMAPRPLGASPAMKDGHVYVPLAFLTDILQLQAQSQHGEITVTAAQ				NA	NA	NA	NA	NA
AK002_00476	882	rsiV		Anti-sigma-V factor RsiV	ATGCATGACAAGCTGAATAGGATGAAGGAGCAGTACGAGAGCACTCCTATTCCCGACGAACTAAGCTCGGTGGTTAACAAGACCATCGCAGCCAGACGAACAAAAAATAGAGCGCTGCCCTGGCTCGCCGGCGTGGCTGCTGCATGCGCATTGCTGTTTGCCGGCGTGAACGCAAGTCCCGCATTCGCCAAGGCCATGTCCGATGTGCCCGTTCTGGGCGAGATCGTCAAGGTGATGACCATTCGCGAATATGCCGAGCAGGACGGCAGCACGGAGGTGCATATCGAAACGCCCGGCATTGCCAACCTGGGCAATCCGGAGCTTGAGCAAACGCTGAATAACAAATACCTGGAGGAGAACAAGAAGCTGTATGAGGATTTCAAAGACGAAGTCGCCCAGCTAAATCACGAAGGCGGCGGGCATCTCAGCCTCGATAGCGGTTATGAAGTCGTCACCGACAATGAACAGCTGCTGACGCTTTCCCGCTACGTCGTAGAATCCGCCGGTGGCTCCGCCGAGTCCAGGCAATACGATACGATCGACAAGATCAACCATTTGGTGATCACGCTGCCAAGCCTGTTCAGGGATGATTCCTACATCCAAGTCATCAGCGACAATATCAAGGAGCAAATGCGCAGGCAGATGCAGGATAATCCCGAAATCACCTACTGGGTAGAGCAGCCTGGCGTCGAATCCGATGTGCCGGAGGATCAATTCCAATCGATCGCCAAGGATCACAATTTCTATATTGATAACAATGGCAAACTGGTCATCAGCTTCAACGAATACGACGTGGCTCCCGGCTATATGGGCGTCGTGGAATTTACGATCCCTACGGAGGCCATTGCGGATCAGCTCGTCAGCAACGAATACATTCGATAG	MHDKLNRMKEQYESTPIPDELSSVVNKTIAARRTKNRALPWLAGVAAACALLFAGVNASPAFAKAMSDVPVLGEIVKVMTIREYAEQDGSTEVHIETPGIANLGNPELEQTLNNKYLEENKKLYEDFKDEVAQLNHEGGGHLSLDSGYEVVTDNEQLLTLSRYVVESAGGSAESRQYDTIDKINHLVITLPSLFRDDSYIQVISDNIKEQMRRQMQDNPEITYWVEQPGVESDVPEDQFQSIAKDHNFYIDNNGKLVISFNEYDVAPGYMGVVEFTIPTEAIADQLVSNEYIR				NA	NA	NA	NA	NA
AK002_00477	513	sigV_2	COG1595	RNA polymerase sigma factor SigV	ATGAGAGGCGGCCGGAAGCTTGAGAAGCTTCTTATCCAATGCATAACCGAAAACCAGGACAGCGCCTACCGGCTGGCGTACAGTTACGTCAGAAATAAAGAGGATGCCCTCGATATCGTTCAGGACGCGATCCACAAAGCATTTTTATCCATGGAAAAGCTGAAGCAGACGGGTTCACTAAAAAGCTGGTTTTTCCGAATTATTGTCACAACCTCCCTGGATCTCATTCGAAAACAGAAAAAAGTCCGCGTCATGGACGACGAGAACCTGGAGTTCATATTACCCGGCAGTCATGACCACTATCCGAATCTGGATCTGGCCCAGTCCCTGGAGGATCTGCCTGACAAGTATCGGCTCGTCATTATTCTCCGGTTTTTCGAAGATATGAAGATTGACGAAATTGCCGAGGTGCTCCATGAGAATGTGAGCACGGTGAAAACGAGGCTATACCAAGGACTGCAGAGACTGCGGGTGAACCTAAGCGAGGAAGACCAAGAGGAGGCACAACGATAA	MRGGRKLEKLLIQCITENQDSAYRLAYSYVRNKEDALDIVQDAIHKAFLSMEKLKQTGSLKSWFFRIIVTTSLDLIRKQKKVRVMDDENLEFILPGSHDHYPNLDLAQSLEDLPDKYRLVIILRFFEDMKIDEIAEVLHENVSTVKTRLYQGLQRLRVNLSEEDQEEAQR	PGPT0014960_11396	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00478	1242	fabF_1	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGGAAAGAGTCGTTATCACCGGTATGGGCGTCATATCGCCGCTGGGCCATGATGTGGATACGTTCTGGTCCCGGCTTGTGCGGGGAGAGTCCGGTATTGCACATATAGAACATTTGGACACATCAAGACAAAAGGTACAAATAGCAGGCGCCGTGAAGGAGTTTGACGCAAACGCGCTGTTCGGCGCTAAGGAAGCCCGGCGGTTGGACCGTTTCTGCCAGTTTGCGCTGGCTGCGGCGGATCAAGCGATAAGCCAGTCGGGCCTTGATCTTGATCAGATCGATCATGAGCGCATGGGGGTCTACGTCGGCTCCGGCATCGGCGGCATCCAAACCCTGATGAATCAGAGCGGCACGCTGTCGTCGCGGGGTCCCGAGCGGGTCAGTCCTACCCTGGTTCCCATGATGATTCCCAATATGGCGGCCGCGCTCATCAGCATTAAATACAAGGCGCTGGGCTCCACGCTGGCACCGGTTACGGCATGTTCGATCGGCAATACGGCGATCGGCGAGGCTTTCTTTAACATCCAAGCCGGCCGGTCCGACATCATTATCGCGGGCGGATCCGAAGCCGCATTGACCGACATCTCGCTGGCCAGCTTTGCGAATGCTACCGCCCTGTCCTCCCGCAATGATGAACCGGGCCGCGCCAGCCGCCCATTCGATGCGGACCGCGATGGATTCGTCATGGCGGAAGGGGCCGGTATCCTCGTCCTGGAGTCGCTCTCCCATGCCCTAGGCAGAGGCGCCGTCATACTGGGCGAGGTTATCGGTTACGGTGCCAGCTCGGATGCCTATCATATGGTCGCCACGCCGGAAGACGGCAACGGCGCGGCACGTGCGATGAAGCTGGCGCTGGCCGAAGCGAACCTCTCCCCGGCCGACGTGGATGTCATCAGCGCCCATGCCACCAGCACGGTCATCGGTGACCGTTCGGAGACGGCGGCCATCAAGCAGGTATTTGGCGAGGAGGCGTACCGCATCCCGGTAACAGCCAACAAGTCGATGACCGGACACATGCTGGGCGCATCCGGCGGCGCGGAGGCCATTGCCCTCGTGAAATCCCTGCAAGAAGGCATCATACCGCCGACGATCAATCTCGATCATGCCGATCCAACCTGCGATTTGGACTATGTGCCCAACGAGGCGAGAAGCGCCAAGCTCCGCATCGGCATGTCGAATTCCTTCGGCTTCGGCGGACATAATTCGGCAATTATATTAAAGAGATATGAGAACGAATAA	MERVVITGMGVISPLGHDVDTFWSRLVRGESGIAHIEHLDTSRQKVQIAGAVKEFDANALFGAKEARRLDRFCQFALAAADQAISQSGLDLDQIDHERMGVYVGSGIGGIQTLMNQSGTLSSRGPERVSPTLVPMMIPNMAAALISIKYKALGSTLAPVTACSIGNTAIGEAFFNIQAGRSDIIIAGGSEAALTDISLASFANATALSSRNDEPGRASRPFDADRDGFVMAEGAGILVLESLSHALGRGAVILGEVIGYGASSDAYHMVATPEDGNGAARAMKLALAEANLSPADVDVISAHATSTVIGDRSETAAIKQVFGEEAYRIPVTANKSMTGHMLGASGGAEAIALVKSLQEGIIPPTINLDHADPTCDLDYVPNEARSAKLRIGMSNSFGFGGHNSAIILKRYENE	PGPT0008360_4956	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
AK002_00479	837			hypothetical protein	ATGAATTCCCAAGTTAGGCTGCAAGCGTTGTCCGCTTTTCTGAAAGGGCAGCGTGCCAAAATCTCTCCCGAGTCCGTCGGGCTGCCGCCCGGTACCCGGAGGAGAACACCGGGCTTGCGCAGGGAGGAGGTCGCCCAGCTGGCCGGCGTCAGTACCACTTGGTACACCTGGCTCGAGCAGGGGCGTGACATCCAGGTATCGTCATCCGTGCTGGACTGCGTCGCAAGTGCGCTGCAGTTGAACGCGGACGAGCGCAGATATCTGTACTCCCTTGCGCTGGAGAGCGGGGCGGAGCCGTATACGGTCAAACACGAAGCGGTGCAGATCAGCCCGTCCCTGCAAAAAATCATCACCGAGCTAAAATATTGTCCCGTCATGATATCCGATCGGAAGTGCAATATCGTGGGGTGGAACCGCGCGGCTGCGTACGTGTTTCTAGATTTTGACCGGATCCCGCCCGAGGAGCGGAACATGATCCGGCTGCTCTTTACCCGCAGGGAATTCCAGCGGCTGGCGGTGAACTGGGAGCAGTTTGCCAGCGGCTTCCTGTCGATGTTCCGAAGCTATTACGGTCAATATGTCGAGGATGAATGGTATGACCATTTTTTGGAGGAAATGAAGAACGGGCATCCGGATTTCAACCGCATGTGGGAGCAGAGCCAGGTTAGCTACGCCCCGGAGGTGCATCTGGAATTCCGGCATGCGAAGGCCGGGAAAATGGTATATGAGCTCACGTCGCTCAAAGTGTACGGAAATGATGACCTGCGATGCAGCATTTATACGCCAGCTCCCGACACGACTACGGAAGCGAAGCTGCGGCAGCTGATGGAGGAGTGA	MNSQVRLQALSAFLKGQRAKISPESVGLPPGTRRRTPGLRREEVAQLAGVSTTWYTWLEQGRDIQVSSSVLDCVASALQLNADERRYLYSLALESGAEPYTVKHEAVQISPSLQKIITELKYCPVMISDRKCNIVGWNRAAAYVFLDFDRIPPEERNMIRLLFTRREFQRLAVNWEQFASGFLSMFRSYYGQYVEDEWYDHFLEEMKNGHPDFNRMWEQSQVSYAPEVHLEFRHAKAGKMVYELTSLKVYGNDDLRCSIYTPAPDTTTEAKLRQLMEE				NA	NA	NA	NA	NA
AK002_00480	2961			hypothetical protein	ATGAGCAGATACACGGAAACCATCACGGTCCATATGGCATTAAGCGAATACGGAGATGCCGTGTTATACGGCTCTACCGTCATGCGGGGTTACGTATCCGGACAATACCTGAAGCACCGTTTATTCGCTTGGCATGAAGCCTCCTTCTACGGAACAGAGCTTACCGTCCAATCCGTTCAGGACATGGAAGTCATCATCTTGCCTTCCGAGCAAGTCATACCGTTCTTCGCGGACGGCCGGCTGCTCGAACACATCGAATGGGTTTGGGACGAGGATTGCCTTCCCTTCATTGAACTTGCGACTTCGCTGGCAGCCTGCATTCAGGATAAGCAGTACGCGCCCAGCTTGAGCGCCTTCAAGAATGGCAAGCTGCAATGGATCTGGGATACGGCGGCTTTCTCAGCCGAAGAGCAGGCCCGCCTCTCCGTCTTGATTGAAGACGAGATATGGAATGAAGGCTTGCGCGCCGCGTTCTCCGCCGCCGTTCAAGAACAGTGGTACGGCAGCGAAGAAGCCGCGGCTGACCTGCGCAGGGAGTATCCCCTGCTATTCTCGCCGAGCCGTACCGCGGCCGAAGGCATGGATGACAAGTCCTGGCTGATTGCCATCGGATGGCGGCCGGATACCGCTCCGTTCCGCCCCCTGCTGCAATTGCTGGAGCCGGACGAAGAAGAAGCCGAGTGGCGTCTTCGGCTCGTATTGCAGGACAAGCTGGACGCGGCGGCGCTTGCAGCCGTTCGTCTGGCCGAAGACGGGCAGGCATACGGATCGTGGCCGGAGACATGGACCGCCCATATCAAGGAGCGGGCCGCCGGCTGGCTCCAAGGTTTGCGGGCAGCCCTGCCGGCCCGGGTGCTTCACGCTCCGGCTGAAGACATGCTCGGCGCCCCGCTGTCCGACGAGGCCGCGTGGCAGTTCCTGACCGTCGACAGCCAGCGGCTGCTCCAGTCCGGCTGGCTGGTGCTGCTTCCGGCTTGGTGGGAAGCCGCCAGCAGGAAGAAGCCCAAGCTGCGGGCGAAGGTCCGCTCCGGCGAAGGCGAGAGCGCGGAACGAAGCAACGGCGGGTCCCTGTTCGGCTTGGATGCGCTGGTCAATTTCGATTGGCGCATCGCCATCGGCGAAGCTACCCTTTCCGAAGCGGAATTCGCCGAGCTTGTTGCCCGGAACGAACGACTGGTGCGGTTCCGGGGCCAGTGGATTCCGCTCGATCCCGCTCTGGTCGCCCAAATCCGCCAGATGATGGCGGGCGTAGACCGTGAGGAAGGCCTGTCGTTTCAGGATATTCTGCACTTGCATCTGCTCGGGAACAGCGATGAGACGGAGCAGGTTCATCAGGATGCGGAAGAAACGCGGGATCCGGAACGGATCAAACTGGAAGTGGAGCTGAACGAGCATCTCGTGAAGCTCATCGGCCAACTCGGCCGGCAAAGCGAATGGCCGAGCCTCCCTGTCCCCGCCGGTCTGAAAGCCGAGCTCCGGTCGTACCAGCATGACGGCTTTGCCTGGCTTGCTTTTTTGCGGCGTTACGGGCTCGGTGCATGCCTTGCCGACGACATGGGCCTTGGCAAAACGGTGCAATTTATCGCCTACCTGCTGCACGTGAAGGAGACGACGATGGAGCGGGAAGAGAGACGCCTCCCTTCCCTGCTGATCTGTCCGACCTCGGTGCTTGGGAATTGGCAGAAGGAGCTTGAACGGTTCGCCCCGTCGCTCCGGGTCATGCTGCACTACGGCGGGAAGCGCAGCAGCAGCGAGGATTTCTATCATGAGGCTTACCAAGCGGACATTATTCTTACTTCCTATGCGACGGCAACGCTCGATCAAGAGATGTTAAGAGACATGAGATGGGAAACGATCGGCATCGACGAGGCCCAGAACATCAAGAATGCCGACACCAAGCAATCCGCCGCCGTGCGAAGCTTCCCGGCAAGGCACCGCGTTGCGCTGACCGGTACACCGATTGAGAACCGGCTGTCCGAGCTGTGGTCCATCTATGACTTCATCAACCCCGGATATCTCGGCAGCCTGCGGGCATTCAATCTCCGGTTCATCCAGGCCATCGAAAAAGACAAGAACGAGCAGCGCACGGCCGATCTTCAGAAGCTGATCAAGCCCTTCATGCTCCGCCGCAAGAAAAAAGATCCGGCGATTCAGCTCGACCTGCCGGACAAGCACGAGATGAAGACCTATATCCATCTCACGGCCGAGCAAGGCGCGCTTTACGATCAGACCGTGAACAGCCTCCTGGAACGCATGCAAAAGCTCGAGGGCATCGAGCGCAAAGGCGCCATTCTGGCAGCTCTGACGCAGTTCAAGCAGCTCTGCGACCATCCGGCTCTGCTGACGAAGGAGCCGCTCCCGGAACTGCCGGGAGGCGGCGGCTTACTTGACACCGAGGCCGTGGTCAACCGGTCGGCCAAGCTGGAGCGGCTGCTGTCCATGGTGAAGGAGCTGCGGGACGAGGGCGAACGCTGCCTGATCTTCACCCAGTATATCGGCATGGGCGAGATGATGCGGCAGGTGCTGCATCAGGAGCTTGGTGAGCCGGTGCTGTACTTGAACGGCAGCACGCCGAAGGGGACGCGCGATCGCATGATCGAGCAGTTCCAATCCCGGACGCTCCCGCCCGAAGAGCAGCCGAACGTCATGATTCTCTCGATCAAGGCCGGCGGCGTCGGCCTGAATCTGACCGCGGCGAATCACGTGTTCCACTTCGACCGCTGGTGGAACCCCGCCGTGGAGAATCAGGCTACCGACCGGGCCTATCGGATGGGGCAGACCAAGGACGTCCAAGTGTACAAGTTCATCTCCATGGGAACGCTCGAAGAGCGGATCGATGAGATGCTGGAGAGCAAGCAGCAGCTGAGCGATCAGGTTATTGCAAGCAGCGAGGGCTGGATTACCGAGCTGTCTACCGATGAGCTGAAGGATCTGTTCACGCTGCGGCGCGATTGGGCATAA	MSRYTETITVHMALSEYGDAVLYGSTVMRGYVSGQYLKHRLFAWHEASFYGTELTVQSVQDMEVIILPSEQVIPFFADGRLLEHIEWVWDEDCLPFIELATSLAACIQDKQYAPSLSAFKNGKLQWIWDTAAFSAEEQARLSVLIEDEIWNEGLRAAFSAAVQEQWYGSEEAAADLRREYPLLFSPSRTAAEGMDDKSWLIAIGWRPDTAPFRPLLQLLEPDEEEAEWRLRLVLQDKLDAAALAAVRLAEDGQAYGSWPETWTAHIKERAAGWLQGLRAALPARVLHAPAEDMLGAPLSDEAAWQFLTVDSQRLLQSGWLVLLPAWWEAASRKKPKLRAKVRSGEGESAERSNGGSLFGLDALVNFDWRIAIGEATLSEAEFAELVARNERLVRFRGQWIPLDPALVAQIRQMMAGVDREEGLSFQDILHLHLLGNSDETEQVHQDAEETRDPERIKLEVELNEHLVKLIGQLGRQSEWPSLPVPAGLKAELRSYQHDGFAWLAFLRRYGLGACLADDMGLGKTVQFIAYLLHVKETTMEREERRLPSLLICPTSVLGNWQKELERFAPSLRVMLHYGGKRSSSEDFYHEAYQADIILTSYATATLDQEMLRDMRWETIGIDEAQNIKNADTKQSAAVRSFPARHRVALTGTPIENRLSELWSIYDFINPGYLGSLRAFNLRFIQAIEKDKNEQRTADLQKLIKPFMLRRKKKDPAIQLDLPDKHEMKTYIHLTAEQGALYDQTVNSLLERMQKLEGIERKGAILAALTQFKQLCDHPALLTKEPLPELPGGGGLLDTEAVVNRSAKLERLLSMVKELRDEGERCLIFTQYIGMGEMMRQVLHQELGEPVLYLNGSTPKGTRDRMIEQFQSRTLPPEEQPNVMILSIKAGGVGLNLTAANHVFHFDRWWNPAVENQATDRAYRMGQTKDVQVYKFISMGTLEERIDEMLESKQQLSDQVIASSEGWITELSTDELKDLFTLRRDWA				NA	NA	NA	NA	NA
AK002_00481	1650			hypothetical protein	ATGATGAACCCAAACTTAACTTTAGATGATCTGCAGTGGCAAACGCTCATTCAGCAAACTGCCGGTTATTTCAGCGATTTGACCATTAAACGGGGATTTCAATATTACAAGCAGGGCCGTGTCCACGCCAGCGAAAAGGCGGATGCGTCCGGTGTGATCGAGGCTTCCGTGGATGGAACGGAAACCTACCGCATCAGGCTTCAGCTGCATTCCCTGAGCGACAGCGAATGCAGCTGTCCCGTTAACGAGGGCTGCAAGCATATGGTGGCCGTTCTGCTTGACTATGCCCAGCTTCAGGGCCGATCCATCCATGCTTTGGTTAATGCGCATTCCACTACGTATGCCGCATCTTCTTCGTATGACCGAAGCGAGTCCGGTTTGAGCCAAGGCCATGAACGCCCGCCTGCCGGAGTTTCGAAATGGAGAGTCAAGGCCGACCATTTGCCCGAGCTGCCGATCTCCGCATGGCATGAGCTGTTCGAGGTTTGCACGGCTTCGCTGGGAGCTAATACGCAGAATTCGTTTTACGCCAAAAACGCGCTGGCTTCCCTCCATCACATTAAACCGCCGCTGCCGCTGGATATGGATCCGTTATACGAGCTCCATGCCCATCTCTTCATTCTCGAGAAGCTGGTCAAGCAGCCAGCCAGTGCCTGGAATGCCTCAGGCTCTTACATCGGCTATCATACGCAGGTAGCAGCGGATCATATCCTGGCCAGAATCGAGCGAATCCTTCATGAAGGGCTTGTGGACGGCGAACACGAAGAGGCATTCGGACAGCGGCTGACCGAGACGATCTCGTTTGTCCGGCGGAGCATGCTAAGCGAACCGCGGAACCGTAAATTTTACGCCCAGGTCTATATGCAGCTCTGGATGCACTGGATTCATCCGTTGGCAAAAAAAAACGACGGCTTGATCAAGGAGGAATTGGAGCAGCTGCAGGCAGCCGAATCGGAGCTCGGCAGCAGCCTTTCGCGCGCCTCATGGTATACGGCGCAGAGCTTAATGTCCTTCTATCTCGGGGAAGACGAATCGTCCTGGGACCTGATCAGGGCAGCGGACAAGGTCAGCAGCCTGCCCCCGGCTTCCGTCCTGGGCTTCTTCGACATGCTGCATTCGGGACGAGACTGGGGACGCTTGGCCCGCTGGCTCCCGGAGATCGGCCCGCTGCTTGGCAGTCACCGCAACGAGCATCTCAGCAGCTATCAATTCTACTGGGATGCCGTCATAGAGCACCTGCCCGGGGAAGCGGAACGGATGTGGAGCAGTCTTGCCGACATGCTCCCTTATTCGAAGGACATCTATCAGAATGCCTTGATCACGCACGGCAGATGGCGGGAATGGATCGACTATCAATTAAGCACAGGCCGGGAGCCGCTGGAGCTCCGGGTCAGCGAGCTCGCGCCCATCGAGAAGAATGCGCCCGAGCTGCTGCTGCCTTTTTACCATCAGGCCGTCGAACGATATATCCTTCACAAGAACCGAGCCGGCTACAAAGCAGCCGTCAAGCTGCTCAAACGGCTGGCTAAGTTATATAAAAAGCTCAAACAGCAGGAGCGCTGGGATTCGTTCATTATTTCCTTGTCCGTACGCAACAGCCGGCTTCGCGCATTCCAGGAAGAGCTTCGGAGAGGAAAGCTGATATCATGA	MMNPNLTLDDLQWQTLIQQTAGYFSDLTIKRGFQYYKQGRVHASEKADASGVIEASVDGTETYRIRLQLHSLSDSECSCPVNEGCKHMVAVLLDYAQLQGRSIHALVNAHSTTYAASSSYDRSESGLSQGHERPPAGVSKWRVKADHLPELPISAWHELFEVCTASLGANTQNSFYAKNALASLHHIKPPLPLDMDPLYELHAHLFILEKLVKQPASAWNASGSYIGYHTQVAADHILARIERILHEGLVDGEHEEAFGQRLTETISFVRRSMLSEPRNRKFYAQVYMQLWMHWIHPLAKKNDGLIKEELEQLQAAESELGSSLSRASWYTAQSLMSFYLGEDESSWDLIRAADKVSSLPPASVLGFFDMLHSGRDWGRLARWLPEIGPLLGSHRNEHLSSYQFYWDAVIEHLPGEAERMWSSLADMLPYSKDIYQNALITHGRWREWIDYQLSTGREPLELRVSELAPIEKNAPELLLPFYHQAVERYILHKNRAGYKAAVKLLKRLAKLYKKLKQQERWDSFIISLSVRNSRLRAFQEELRRGKLIS				NA	NA	NA	NA	NA
AK002_00482	900	vgb		Virginiamycin B lyase	ATGCAGATCACGGTACAGGAGTACAAGATAGCGAACCGGGAGTCGGGACCTTATGGTATTGCGGCAGGACGAGACGGGGCCATCTGGTTCACGGAGCAAAAAGGAAACCGGATCGGACGAATCACCAAGGGAGGGGATATGCGTACTTTCGATGTCCCGACGCCGGATGCGGGGGTCATGTCCATCCTCTCTGCCCCTAACGGGGACCTCTGGTTCACGGAGTACAAAGCGAACAATATTGGAAGGATGACAACGGAAGGGATATTCACGGAATATGAGCTGCCGGAAGCAGGCTCGTCTCCTTACGGCTTGACGGAAGGCCCGGATGGAGCCATATGGTTCACCCAGCTAATCGGCAATCGGATTGGCCGGATTACGCCGGCAGGCGTTATCACGGAATACGATTTGCCGTGCGCAGGCTCGTACCCTTCCTATATTACGGCCGGTCCGGACGGCGCGCTGTGGTTTACGGAAAACCAAAACAACTGCATCGGCCGGATTACGGTAGACGGGGAGATCACCGAGTACCGGATTCCAACCGAACAATCAGGGCCTGTCGGCATCACGGCAGGTGGCGATGGCGCCCTGTGGTTCGTTCAAATCAACGGCAATCAAATCGGACGGATCACGACGACCGGGGAGATTACGGAATTCAAGCTCCCGACCGGGAATGCCAGACCCCATGCCATCGCGGCGGGAGCTCGCGAAGATTTATGGTTTACGGAGTGGGGAGCCAACCGGATCGGACGAATAACATGTACCGGGGACATTACCGAGTACCCGATCCCCACCCCATCAGCCGAGCCTCACGGCATTGCCGTGGATTCCGGCGGTGAGGTATGGTTCGCCGAGGAATGCGACCAAGTCGGCCGTTTCATCGTTCAATATGAGGATTCCTGA	MQITVQEYKIANRESGPYGIAAGRDGAIWFTEQKGNRIGRITKGGDMRTFDVPTPDAGVMSILSAPNGDLWFTEYKANNIGRMTTEGIFTEYELPEAGSSPYGLTEGPDGAIWFTQLIGNRIGRITPAGVITEYDLPCAGSYPSYITAGPDGALWFTENQNNCIGRITVDGEITEYRIPTEQSGPVGITAGGDGALWFVQINGNQIGRITTTGEITEFKLPTGNARPHAIAAGAREDLWFTEWGANRIGRITCTGDITEYPIPTPSAEPHGIAVDSGGEVWFAEECDQVGRFIVQYEDS				NA	NA	NA	NA	NA
AK002_00483	171			hypothetical protein	TTGAACCAGGGGATATCCTTTTTCGGCATGTTTTCCATGCTTAGCATTATCGTATACGGGCTATTCGCACTTCTCGGTTTATATGCTTTGTATCTCCTCATCAAATTGATGATCCGGGCCATAACCGCGCTTGAACTCTACATCGACGAGAAACGCAACCGACGGCTGTAA	MNQGISFFGMFSMLSIIVYGLFALLGLYALYLLIKLMIRAITALELYIDEKRNRRL				NA	NA	NA	NA	NA
AK002_00484	1077			hypothetical protein	ATGATAACCCGGAAATGGACGAAAATGGCTGCAAGCGGCGCTATAGCGGCCGCGATGCTGTTAAGTACGGCGGTACAGGCCCAGGCCGCGCACAAGAAGGACTTGGAATTTTTAAACGTCAATCATTATGTAATGACGCCGGATGTCAAACCCGTCATCGTGAACGGCACAGTGCTGGTCCCCCTGAACACGGTCAAGGAATACTTGAAGCCTATGGGGCTCCGCTGGAATAACAAGAGTAAGACGCTAACCGTTAACACGGGCACCGACCAAGTCACCTTGAAAATGGGAAGCGACGTTGCCGAGGGAAAAGAGAAGACCTACGCCCTGTCCGTTCCCGTGCAGCTTATGGATGGTCGCGTCATGGTTCCCGCCCGATTCATGACGGAGCTGTACAATGCGGAAGTCCGCTTGGATACGAAGGATGGCATGGTTTACATTTATACGCCGGAGGTTGACCTGTTGACGGCGGAGGAGAACAGCAATGTGAAGCTGTATCCGGTCAGCGCATCGAAATATGGCAGATATGAGGGCATGGTGGTCGAGGTAGAAGGTAGGAAGCGGGTCTTTAAGGACTGGGATGGAGGAGAGGCTACGCGTAAACCCGTCATTCATTACCAGGATGTCACAGGCGATGGCAAGCCGGATGTTGTTGTGTTCTACGTGGACGGGACGGGCACCGGTCTATACGTGGGGGAGATGCATGTAGTGGACGCCGGGTCTCTGGAGGAAATCCCGATCGAATCGCTGGAGCAGGCCGTATCGAGCCATGTGCAGTCCAGCATCCAGAAGTATGCGGATTACTTTACGGTTAAGGTTACGGTTAACGGAAAAGAAAGCGTCCAAAAGTTCAAGGACGATTCCAAAGATAAAAGCTATCTATTTGATAAGCTTGGCTTCGGAGCCGTTGTCAGACATCGTTTGGCGGAAGGACGGCTTCTTACGGAAGCGGCAGGAAGCATGAGCCCGGCCGGTTTTGCCGGGGATCTCCGAATAACATACCGATTTAATGAAGAGTTGAACCGGTTTGAGGTGGATGAGATGGAATATCGTCGTTTGGAAGAGCGAGGGCAATAA	MITRKWTKMAASGAIAAAMLLSTAVQAQAAHKKDLEFLNVNHYVMTPDVKPVIVNGTVLVPLNTVKEYLKPMGLRWNNKSKTLTVNTGTDQVTLKMGSDVAEGKEKTYALSVPVQLMDGRVMVPARFMTELYNAEVRLDTKDGMVYIYTPEVDLLTAEENSNVKLYPVSASKYGRYEGMVVEVEGRKRVFKDWDGGEATRKPVIHYQDVTGDGKPDVVVFYVDGTGTGLYVGEMHVVDAGSLEEIPIESLEQAVSSHVQSSIQKYADYFTVKVTVNGKESVQKFKDDSKDKSYLFDKLGFGAVVRHRLAEGRLLTEAAGSMSPAGFAGDLRITYRFNEELNRFEVDEMEYRRLEERGQ				NA	NA	NA	NA	NA
AK002_00485	1875			hypothetical protein	ATGTTAAGTAATATAACAAGCCTATACCATAGGGACTTTGAACGGGGTGTATATATGCAGCAATGGCTTGGGAAATCGCTAAAGCATAAATTGTCGTTGCTTATCATTATCGCTACGCTGGTGCCGCTGCTGTTTCTGGGCATTTTCTCTTTTAACATAGCCAAAAGCCTGACCGAAGAGAAGGCCAAAATTACGGGGATGAATACGCTCCGACAGCTGGAAGCTTACCTGGATACGATGGTCAAGGACGTGGAGAATATCTCGCTGTTTCTCATCGGGCATACCGGTGTTCAAGCCTATCTGAAGACCGAGCAGAGCAACTACGTTCAGCAGACGACGGTTATTAATTTTTTGACGAACCTGGCCTTTTCCAAAGATTATATCGCCAACATCATCGTTGAACCGCTCGGCAGCAAAGATGCGATTTCGCATAAATCCTTGGTACGCTCCGAGTTCCGGAATATTACCGAAATGGTTCCCGATTATTACGAACACCATCCCAAATGGTGGTCCTTCGTTCACCGGCAGTGGACCTTTGAAGGCGTCAGGAAGGTCATCACGCTGGCCAGGCCGATTCGGAGCACGGATAAATACAAGCCGATCGGAAATCTGCAGATCAATCTGGATCAGGGCGTCATTGCCAATCAGTTCCGGCAGGCCGTCCTGGAGAAGACCGGATTCGTCCTTCTTCTTGACGAGAATAACCGGATTATCGCCGGTCCGCCGGATATGGAGACCAATTTGACGCTGGCGGATTATTATCCTGCGATTGGAGAGTTCGAGGGGCTCAGCGGCAATATTGACTATGGCGAGGGAAGCAGCAAGAAGACCATTCTCTATAAGAAAATGTCCAGCGTGAACTGGAAGCTCGTCGGCATCATTCCCTCGCAGGAATACCGCTCCCAGAACCAGTATTTCATCAAATTGACGGCGGTTGCGGTCACGGTGGCCATCCTGCTCGCCATTGTTCTGGTTCTTTTCCTGATCCAGAAGATTACGAATCCTCTGTCCGTCTTAACGAAATTCCTCAAGAGCTCAAGCCCGGAAGAGCCGCTGCCGGCGCTGCCGGTCAAGACGGTCGACGAGGTCGGGCAGCTTATTATCAGTTATAACCGGCTCAGCTCCCGGATCGTGAAGCTTACCGATGAAGTGAAGCTGAACGAGTCGCTGAAGAAGGAGGCGGATATGCATGCGCTGCAGGTGCAGATCAATCCGCATTTCCTCTACAATACGCTGTCATCGATCCATTGGCTGGCGCTGATGAACCAGGATGTGAAGATTGCCGAGATGGTGGGGTCGCTCAGCGATTTTCTGAGGTTCAGCCTGAACAACGGGCAGGAATACTGCACGATACAGCAGGAGATCATGCATGTCCGCCATTACGTGAATATTCAAACCATCCGCTATCCGGAAAAATTCGAGTTTAAGGATCATGTGGAAGAGGATCTGTATCAGCACGCCATGCTGAAGCTGCTGCTGCAGCCGTTGGTGGAGAATTCCATGCTGCATGGCATCCTGAGCCGTGACGGGATAGGGACGATTACGATTCGCGGACACCGCGAACCCGAAGGGATTCGCTTCGTGGTGGAGGATGACGGCATCGGGATGACGGCGGAGCGCCTGAAATGGCTTCAGGAGCAGCTGGTCGAAAATCCGCTGCAGTACGAGAAGGGACAAACCCCGCGCGGCAGCTACGGGCTGCGGAACGTCCATAAGCGGCTGCTCCTTCATTACGGGAAGGATGCGGGGCTGCGTGTGGAGAGCACCGAGGGTGCCGGGACACGGGTGATGTTTACGATACCTGATTTACCTGAAATTCAACAATCGGAAATATCCGGCAAAGGGGATGGCGACATTGAAGGTCATGATCGTTGA	MLSNITSLYHRDFERGVYMQQWLGKSLKHKLSLLIIIATLVPLLFLGIFSFNIAKSLTEEKAKITGMNTLRQLEAYLDTMVKDVENISLFLIGHTGVQAYLKTEQSNYVQQTTVINFLTNLAFSKDYIANIIVEPLGSKDAISHKSLVRSEFRNITEMVPDYYEHHPKWWSFVHRQWTFEGVRKVITLARPIRSTDKYKPIGNLQINLDQGVIANQFRQAVLEKTGFVLLLDENNRIIAGPPDMETNLTLADYYPAIGEFEGLSGNIDYGEGSSKKTILYKKMSSVNWKLVGIIPSQEYRSQNQYFIKLTAVAVTVAILLAIVLVLFLIQKITNPLSVLTKFLKSSSPEEPLPALPVKTVDEVGQLIISYNRLSSRIVKLTDEVKLNESLKKEADMHALQVQINPHFLYNTLSSIHWLALMNQDVKIAEMVGSLSDFLRFSLNNGQEYCTIQQEIMHVRHYVNIQTIRYPEKFEFKDHVEEDLYQHAMLKLLLQPLVENSMLHGILSRDGIGTITIRGHREPEGIRFVVEDDGIGMTAERLKWLQEQLVENPLQYEKGQTPRGSYGLRNVHKRLLLHYGKDAGLRVESTEGAGTRVMFTIPDLPEIQQSEISGKGDGDIEGHDR				NA	NA	NA	NA	NA
AK002_00486	1557	rhaR_4		HTH-type transcriptional activator RhaR	TTGAAGGTCATGATCGTTGATGATGAAGTGATCATTCGAAATGGTTTGAGTACCGTGATCAATTGGGCGGATAACGGCTTTACGGTGCTGACGCCCGCGGCCTCGGCGGAGGAAGCCCTTCAGCGGATTCCCGTAGAAATGCCCGAAATCATATTTACGGACATACGCATGACAGGCCTGAGCGGATTGGATATGGCGCATCAAGTCAAGCAGCAGCATCCCGAGATCGAGATCATCGTCATCTCGGGATACGATGAATTCGCGTATGCGCAGCAGGCGATGCGGGAAGGCGTGAGCGATTACCTGCTGAAGACGAGCAGGCCCGGGGAAATTATCGAGGCTGCTGTCCAAGCCAGGGAACGGCTGCTGCAGCGCAGGCTTACACAAGCGAAGGGGAAGGCCCAAGAAATGGTGGTCAACCGGGGCTTTCTGCGAAGGCTGCTTGCTTCCGGCACTCCGTTGGATGAGCATGCCGAGGCCGAATTGTGTGAGCGATACCCGGAGCTATGTTTGGAATCGAACGGCTCGGTGCTGCAGATCTGGATGCTGTCGGTATATCCGCTGCATCCAGAAGAGGCGGAACAATCGAACGTGAGCGAGCTGCATCGATTAATCGGCACGGAGCTGGCCGAAGTGCTGCAATGCGCGTGGCTGGAGTGGAACGGCTCCCTGCTTCTGTTGGTACGGGCAGAGCCGAATAATGGCTGGGGGCGGGTAGATTCCGCTCTGCATAAGATGGAATCCACGCATGCCTGCCGCATCACGGCTGCCAGCGGCCGCCGGGTCGCAAGCGTCAGGGAGCTGCACATTGCGCTGGCTACCGCGGTAGTGGCCAGCTCCTACGAGTGGCTGCTGCAATCGGAACGGCATATCCGTTATGAAGATATCGAAGGACGCACAGGCATCCGCACGGTATGTTCGATGGAAGAGGAAACCAAGCTGTCATCCCTGCTGCGTTCGGGAGAATCCGCCGACTTGCAGGCATGGGTGGCGGATCTGCTGCGGCGCATCCAAAGCCAGGTTCAGGCAACGCCCGGCTCGGTTCAGGCTTACCTGCATTCCCTGATCGTCTCGGCACAGCGCTGGCTCATACGGGCTGCGACGTCTATCGGCTATACCAGTCCGGTGAAAGTGGAAGAGACGTACGATATCCGCGAGTTGACCAAGAATCCGGAGAAGGTGCTGGTCGATTCGCTCGGGCTCATCATGAAGGAGTACCGTGATATGGTGTCGACGACAAGTCCCGTCCAGCGAGCGATCTCCTTCATTCATGAGCATCTGGGACAGAGCTTGTCTCTCCAACAAGTGGCCAAGCATGTTCATATGAATCCCAACTATTTCAGCGAAATGTTCAAGAAGGAGACCGGGCAGAATTACATCGAATTCGTAACCCAGGCGAAGCTTCGGAAAGCGATGCACCTGCTGCGGGAAACGCCGGCCAAAATCAGTGAAATCGCGAATGAAATCGGCTACGAGGATATCAAATATTTTAACCGCCTGTTCAAAAAGTGGACCGGATTGACCCCTTCGGAGTATCGGGCAAATCCCGAATCCTGA	MKVMIVDDEVIIRNGLSTVINWADNGFTVLTPAASAEEALQRIPVEMPEIIFTDIRMTGLSGLDMAHQVKQQHPEIEIIVISGYDEFAYAQQAMREGVSDYLLKTSRPGEIIEAAVQARERLLQRRLTQAKGKAQEMVVNRGFLRRLLASGTPLDEHAEAELCERYPELCLESNGSVLQIWMLSVYPLHPEEAEQSNVSELHRLIGTELAEVLQCAWLEWNGSLLLLVRAEPNNGWGRVDSALHKMESTHACRITAASGRRVASVRELHIALATAVVASSYEWLLQSERHIRYEDIEGRTGIRTVCSMEEETKLSSLLRSGESADLQAWVADLLRRIQSQVQATPGSVQAYLHSLIVSAQRWLIRAATSIGYTSPVKVEETYDIRELTKNPEKVLVDSLGLIMKEYRDMVSTTSPVQRAISFIHEHLGQSLSLQQVAKHVHMNPNYFSEMFKKETGQNYIEFVTQAKLRKAMHLLRETPAKISEIANEIGYEDIKYFNRLFKKWTGLTPSEYRANPES				NA	NA	NA	NA	NA
AK002_00487	1326			hypothetical protein	ATGAGACCAAAACGTAAAATAGGTCTTGTACTGCTGATGATGACACTGGTTCTTGCAGCATGCGGAGGCGGGCAAAGCAAAGAGCAGGCCGGAGGAAACGAAGGCGACCAAGAAAAGGTCAAGCTGACCATCTGGCATAACTTTGCCGGTGACGACCTGCGCGCGAAATCAGTCCGAAGTTTTATCGATCAATTTGCTCAGGACCATCCTGAAGTTACGCTCGACGCGCAAGCGATTCCACCGGACGGTTACCGTCAGCGTCTGAGCACCGTTGCGGCTGCGAATGAAATGCCGGACGTGTTCTTCGTTTATGCGGGAAGTCAGTCGGCCGAGCTTCATCAAGCGAAGCTGCTTCAACCGATCACGGAAGTGCTGGACGCCCATTCCGATTGGAAGGACAAATTCCTGCCGGGCGCATTTGATCCATACGAGTTCGAGGACGGTCAGATTTACTCCGCCCCGCTGGGCATGTCCGCAACTTCGATTCTCTACTACAACAAAGCGTTATTTGACAAACATAACGTAAAAGTTCCGACGACTTGGGAAGAAATGATGGCGGCGGTTAAAACGTTCAACGATAACGGCATAACGCCGATCGCCCTCGGAAACAAAGCGCCGTGGGTCGCGCAATCCACCATTATCGGATCGATTGCCGACCGCGTGACCGGCACCGAATGGTTCAAAAAAGCGGCTGCACAGGATGGCGCGAAATTCACCGATCCTGAGTTTATCGAAGCGCTCGGCTATTTCAAAGAGCTCGTCGACAACAAAGCATTCCAAGAAGGTGCCAACAGCATCGACAACACGCAAGCCGAGCAGTATTTCATCCAAGGCAATGCAGCGATGATGATCAGCGGCGCGTGGACGCTCACCAACTTGGCGGCTTCTTCCTCCGAAGAGCAGATGAAGGATATTGAAGTGACGACTCTGCCTGCGATCCCTGGAGGCAAAGGCGAAGCTAACACCATCTCCGGCGGAGCTGGCGGCGGTCTGGCCCTTAGCAGCAGAACGGAAGGGAAAGCGAAAGAATTGGCGCTCGAACTGATTTATGCCGTGAGTGGTCCGGAAGCGCAAAAAGCGATTGCCGAGAGCAACTCCATGGTCATGTACGATACCGAAATCGATGAGTCGAAAGTTACTTCCCTGTACTACAAAGCCTTTAACCTGGTGAAATCCACAGGCATTACGCCGGTATACGATGCTTATCTGTCTGCGGAAGCAGCTGAAGTCATCAACAACGGCCTGCAGGAAATCATGATGGGCGGTGCCGTCGAAGGCGTGGCCCAGAAGCTGCAGGATGCGCAAGCCCGATCCGCTACTCCATAA	MRPKRKIGLVLLMMTLVLAACGGGQSKEQAGGNEGDQEKVKLTIWHNFAGDDLRAKSVRSFIDQFAQDHPEVTLDAQAIPPDGYRQRLSTVAAANEMPDVFFVYAGSQSAELHQAKLLQPITEVLDAHSDWKDKFLPGAFDPYEFEDGQIYSAPLGMSATSILYYNKALFDKHNVKVPTTWEEMMAAVKTFNDNGITPIALGNKAPWVAQSTIIGSIADRVTGTEWFKKAAAQDGAKFTDPEFIEALGYFKELVDNKAFQEGANSIDNTQAEQYFIQGNAAMMISGAWTLTNLAASSSEEQMKDIEVTTLPAIPGGKGEANTISGGAGGGLALSSRTEGKAKELALELIYAVSGPEAQKAIAESNSMVMYDTEIDESKVTSLYYKAFNLVKSTGITPVYDAYLSAEAAEVINNGLQEIMMGGAVEGVAQKLQDAQARSATP	PGPT0016330_953	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_00488	876	ngcF_1	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGCCTACAGCGATGAGAAGCAAAGGATTTATAGCCATAGCTCTTCTTCCTGCGCTTCTGTTGTTTCTGATATTTGTCATCATTCCGGTTTTTTGGTCAGCATACTACGGATTTTTCAGTTGGAAAGGGTTCGGAGACGCCACGTTCATCGGCCTTGACAATTATAGAGAGATGTTCAAGGATCCGATCTTCTGGCGGGCGCTTCGAAACAACCTGATTCTGGTCGTATCGTCCATTATCGGCCAGGTTCCGATCGCGTTGATTCTGGCTATCGTATTGTTCAAGAATTCGTTCTTCTCCAGGTTCATCCGGTCCGCCGTCTTCATGCCGATGGTTCTCTCCACGGTGGTTGTCGGTCTCATCTGGGGTTACATTTACCACCCGCAGTTCGGGATTGCCAACTATGTGCTGGAGATGCTCGGCCTGGAGTCATGGACCCGTGCTTGGCTGTCCGATCCGAAGGTCAACATGCTGGCGATATCGATTCCGATTAACTGGGCGAACATCGGCCCTTATCTGGTCATCTTTATCGCGGCACTGCAAAATATTTCGCCAGAGATTCACGATGCGGCCAAAATCGATGGCTCCACCGGCTGGAACAAGCTGATGCAAATCACGCTGCCGATGGTCTGGAGCACGGTGGTCGTAACCATTGTGCTCTGTATCTCGGGAAGCCTGAAAGCTTTTGACCATGTCATCGTCATGACAGGCGGCGGACCGGCGCAATCGACCGAGCTGCTTGCTACCTATATGTACAACAGCACGTTCAGCGTGTACCGTTACGGTTACGGCTCCGCCGTTTCCACGATGATCATGATCGTCAGCGCCATTCTTATCGCGCTTAATTATTTCGCAACGCGCAGAAAGTCAAGTTAA	MPTAMRSKGFIAIALLPALLLFLIFVIIPVFWSAYYGFFSWKGFGDATFIGLDNYREMFKDPIFWRALRNNLILVVSSIIGQVPIALILAIVLFKNSFFSRFIRSAVFMPMVLSTVVVGLIWGYIYHPQFGIANYVLEMLGLESWTRAWLSDPKVNMLAISIPINWANIGPYLVIFIAALQNISPEIHDAAKIDGSTGWNKLMQITLPMVWSTVVVTIVLCISGSLKAFDHVIVMTGGGPAQSTELLATYMYNSTFSVYRYGYGSAVSTMIMIVSAILIALNYFATRRKSS	PGPT0016335_2070	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_00489	870	ngcG_2	COG0395	Diacetylchitobiose uptake system permease protein NgcG	GTGAATTTACAGACGACCGGGACCGGAAGTAACTCAGGGAAACGCGTCATCACGAAGGGGTTAACCGGATTCGTAAAATTGCTGCTGATTGTGTATGCGATTCTTACGCTCTATCCCTTGTACTGGCTTTTTACGAGCGCGTTTAAATCGAACCAGGATTTCTTCAACAACCCTTACGGCTTGCCGAAGGAATGGATGACCGAGAATTTATTCCGGGCATGGGAGCTCGGAAATATGGGCCGAGCGATGATCAATTCAACGGTTGTAACGATTACGGCCGTCGTGCTGACCATCCTGCTTAGTTTACTAGCGGCGTATGTGCTGTCCAGATTCCAGTTTCGGTTTAAAAAGCTGGTGGTCGTATTGTTCACGACCGGGCTGCTGATTCCGATCCACAGTACGCTGGTGCCCCTATTCATTATGATGAAAAATATCGGCCTGCTGGACACGTACGGCGCACTCATCCTGCCATATACGGCGTTTGAGCTGCCCATCGCGATCTTTCTGGCGATGGCGTACATGTCATCCATTCCAAGAGAGATTGAAGAAGCGGCCATGATCGACGGCAGCGGCTGGTGGGGAATCTTCGGCCGAATGATTCTGCCGCTCTGTACGCCGATTGTGGCAACGATATCGATTCTGGCATTCCTCCGATTCTGGAATGATTTCTCTTTCGCCCTCGTATTTATCAATACGCAGGCATTGAAGACGCTGCCGCTCAGCTTGTCCCTGTTCTCGGACGGCTTCGGCACGGATTACAGCCTGACGATGGGAGCGATGGCGATCGCGGTCATTCCGACGATCGTGGCCTACCTGATCCTGCAGGAGCAGATCATGAAGGGCATGGTGGCAGGATCCATCAAAGGTTAA	MNLQTTGTGSNSGKRVITKGLTGFVKLLLIVYAILTLYPLYWLFTSAFKSNQDFFNNPYGLPKEWMTENLFRAWELGNMGRAMINSTVVTITAVVLTILLSLLAAYVLSRFQFRFKKLVVVLFTTGLLIPIHSTLVPLFIMMKNIGLLDTYGALILPYTAFELPIAIFLAMAYMSSIPREIEEAAMIDGSGWWGIFGRMILPLCTPIVATISILAFLRFWNDFSFALVFINTQALKTLPLSLSLFSDGFGTDYSLTMGAMAIAVIPTIVAYLILQEQIMKGMVAGSIKG	PGPT0016340_654	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_00490	1065	ada	COG0350	Bifunctional transcriptional activator/DNA repair enzyme Ada	GTGATATCGGCTGCCAATCAGCAGGAGTATTACCAGGCGCTGCTGGAAAAGAAATCGGAGTACGAAGGCGTGTTTTATGTAGGCGTGAAGACTACAGGGGTGTTCTGCCGCCCGACATGCCCGGCCCGGAAACCGAAGATGGAAAACTGCGAATTTTACGAGACGGCTCAAGAAGCGCTGCTTGCATCCTTCAGGCCTTGCAAACGCTGCCGTCCGTTATCGCACCCCAATCAGGTATCGGACCTGGTCCGGCTGCTCGTAGAAGCCGTTGAGGAGAATCCGGAGAAAAGGTGGACCAACCAGGACTTCCAGAAGCTGTCCGTTGATGCTTCGACGGCAAGGCGCCAGTTCAAGAAGCGGTTCGGGATGACCTTCGTTGAATACGCACGGGCGCGGCGGATGGGACTTGCCTTGAAGCAAATCCGGGAGGGGCATGCCGTCATCGATGCCCAGCTGTCGACCGGCTACGAGTCGAGCAGCGGCTTTAGGGATGCTTTTTCCCGCATCATGGGCGCGGCGCCTAGCCGATCGGGGCATCATAACATCTTAAAAGCTTCATGGATCGACACGCGTCTCGGGCCGATGATGGCCATCGCGGACGAGGAGGCTTTGTATCTGCTCGAATTCGTGGACCGCCGAGGCCTGGAGCGTGAGGTTGAACGGCTCCGGCAGAGAACCAAGTCGGCGATTATTCCGGGTCATACGGCTCCGATCCGTTCGATCGAGCAGGAGCTCGCAGCGTATTTTGACGGGAGGTTAACGCAATTCAAGACGCCCTTGTTCTTGCTGGGATCGCCGTTTCAACAAGAAGTGTGGGACCGATTGCTGCGGATTCCCCCCGGCCAAACGACTTCGTATGGCGAAATCGCAGCGGCGATGGAAAGACCGACCGCGTATCGTGCCGTTGCCCAAGCGAATGGCGCCAACCAGCTTGCGATCGTCATTCCATGCCACCGCGTGATCAATACAAGCGGTGAACTCGGCGGATATGGCGGCGGCCTATCACGAAAGCAGTGGCTGCTGCATCATGAGCAGTCCATGAGTGCTGGAACCATACATGAATAG	MISAANQQEYYQALLEKKSEYEGVFYVGVKTTGVFCRPTCPARKPKMENCEFYETAQEALLASFRPCKRCRPLSHPNQVSDLVRLLVEAVEENPEKRWTNQDFQKLSVDASTARRQFKKRFGMTFVEYARARRMGLALKQIREGHAVIDAQLSTGYESSSGFRDAFSRIMGAAPSRSGHHNILKASWIDTRLGPMMAIADEEALYLLEFVDRRGLEREVERLRQRTKSAIIPGHTAPIRSIEQELAAYFDGRLTQFKTPLFLLGSPFQQEVWDRLLRIPPGQTTSYGEIAAAMERPTAYRAVAQANGANQLAIVIPCHRVINTSGELGGYGGGLSRKQWLLHHEQSMSAGTIHE				NA	NA	NA	NA	NA
AK002_00491	1251	entS_1		Enterobactin exporter EntS	ATGAATCTCACCAACAATAAGAGTTACGTATTTTTTTGGTTAGCCTCCACCATTTCATATTTTGGCACGTATATAACCACACTTGCTCTCCAAGTGCTGGTGGTGGTTAACCTGGAAGGCAGTACCGTTGATGTGGGCTGGATCCATTCCTCGAGGTGGCTGCCCTATGTGCTGCTGGGATTGGTGGCAGGAGTGATTATTGATCGCGTCAGTCGTCGGAACATCCTGGTACTGACCGATTTGGGACGGGGGATCTTGCTCGTAGCGATTTGCCTACTGGCATTGTTCGATGGAATCCATGTGGGCATTCTGATGATCATCATGATACTCTTCGGGACGATGTCGTTATTCAATGATGCCGCATCTCAATCTATTGTGCCCCAACTCGTGCCGAGAAGGTTGTTATTGCCCGCTTATGCACGGTTGGAGCAAAGCGCAGCCGTTGCGGAAACCAGCGGCCCCGCAGCTGCCGGTTTATTAGTCTCCGTCATTACCGCTCCGTTTGCCATCTTGGTTAACGCAGCTTCGTATCTGTTTTCAGGGCTGGTTATGGCTTTCATTAAACATCAGCCCATGCAGGAAAAGGCCTCGAATGAACGCATAGTTGAATTGATAAAGGAAGGATTGCGCTGGGTTTACCGGCATCCGTTTCTTAGCACGCTGGCATTCAATACCCATGTGTGGTTTCTATTTAACAGTATGCTGGGTACGGTGCTGGTAACTTACGCTCTCACCGAATTAGGGTTTAATGCGTCAACCCTGGGACTGGTCATGACATCAGCCGGGATTGGCGCTGTTATAGGCACGACGTTATCAACCCGGGTCAGCAAGCGATTTGGAATTGGACGCAGCATCACGTATGCCAGACTTTTGTATGCACCTGCGGTCCTGTTCATGGTTCTGGCACCATCCACTGACGACGGTAATCTGTCGATTCAGACCTTCCTCTTGATCGGATTTGGGCAACTGTTTTATGGATTTGCATTAGGCATTGAGGGTCCGATTGAGATGGGTTACCGGCAGACGATCACACCTGCACACTTGCATGGGCGTATGAATGCCACCATGAGGTCTATCAACCGCAGTATGATCGTTATTGGAGCACCTCTGGGTGGCTTAATCGCTGATGTATATGGATTTCGCACTGCATTAGGCGTTGTTATCACCGGACTGGCTGTAGTCGGAGTTTGGTTCGTGTTCTCACCGATGCGGGCTGCCCGGATGGATGATACGACGGATGTGAGTAATTAG	MNLTNNKSYVFFWLASTISYFGTYITTLALQVLVVVNLEGSTVDVGWIHSSRWLPYVLLGLVAGVIIDRVSRRNILVLTDLGRGILLVAICLLALFDGIHVGILMIIMILFGTMSLFNDAASQSIVPQLVPRRLLLPAYARLEQSAAVAETSGPAAAGLLVSVITAPFAILVNAASYLFSGLVMAFIKHQPMQEKASNERIVELIKEGLRWVYRHPFLSTLAFNTHVWFLFNSMLGTVLVTYALTELGFNASTLGLVMTSAGIGAVIGTTLSTRVSKRFGIGRSITYARLLYAPAVLFMVLAPSTDDGNLSIQTFLLIGFGQLFYGFALGIEGPIEMGYRQTITPAHLHGRMNATMRSINRSMIVIGAPLGGLIADVYGFRTALGVVITGLAVVGVWFVFSPMRAARMDDTTDVSN				NA	NA	NA	NA	NA
AK002_00492	453			hypothetical protein	ATGATGGTTTCGATTCTAGCCTTGGCAGCTGCCATTTCCGGAGGCATTGTCGCTTCAGGAGCAGGTGTGGCTATTTTGGTCGGATTTGTATTCTTTTTGATCGGCTTTTCCGGAAAAAAAGGGAGACGGCCGAATTTCCTGGCTCCGGACGGGCTCAAGGTTATCGGCACGCTTTTGATTGTGGCCGTGTTCATGGTGTTGGCTTATTCCTGTACCTTGACCAGCGGCTCGCTGATCCGTTTTAACGGGATGGACCCTGTCTTGCAATACGAGCAAGGAAAGAAACTGCTGCTTATCGGAATAGTCTCCGCTGCATGGTTTGTCGCCAGCTTCCTCTGGCTGCTCCCGTACGCGGTCGAGATCAAGCCGCGGGAGTGGAATCGCAATCATCTGGTATGGGTCTGCGTTTATTTCATGCTGGTCTTCGCTGCCGCCGGGGCCGCGATGCTATGA	MMVSILALAAAISGGIVASGAGVAILVGFVFFLIGFSGKKGRRPNFLAPDGLKVIGTLLIVAVFMVLAYSCTLTSGSLIRFNGMDPVLQYEQGKKLLLIGIVSAAWFVASFLWLLPYAVEIKPREWNRNHLVWVCVYFMLVFAAAGAAML				NA	NA	NA	NA	NA
AK002_00493	870	araC_1		Arabinose operon regulatory protein	ATGAACTATCTGCTTATATTTTTACTGGGGGTTGTTACCATTATGGAAGCAAGGCTGCTCATTTGCGACTATTCCTATCACTTTCAGCAATTCAGCAACAGCCATCGGGGCGGATTGACAACTTATCTGTTCCGCCTCCAAACCGAAGGCTCCTGCGAAATCTACTGCAACGGCATCGAGCACCACGTGCAGGCAGGCGACCTGCTGCTGCTGAAGCCCGGCGATGAATACGAGCTGCGTGTGAAGGAAGACGGCGAGGATGGCCGCGTGTCCAGCGGGGATTATTTTATATTCTGCGATGGCTCCTGGATTGATGATTGGTGGAATCGGATTTCCCGCCCTGTCGTCAGTCACGTCGGGCTCGACGATTATTTGCTGGGTCTGTGGAGACAGATGCTGCTGGAGAAGCGGCGCGGACTTGAAGGGGAAATCGGGGAGCTGACCGACTACCTGCTGCGCAGTCTCTGCCTCTGCCTGGACCGCGCCATTTCCGAGATCAAGCCGACCGATCGCCTTGCCTTCACCGCCCTGCGGCTGAAGCGATTCGTGGAGGAGCACGCCACCCTAACCTTCAAACTGGAGGAGGCTGCTTCCCATGTCGGGCTCAGCTTATCCCGGGCGGTTAAACTGTTCAAGGAGTATTACGGAAAAACCATGATTCAGTATGCCTTGGAGATCAGGCTGAACGCAGCCGTCGAGCGTATCAAATACAGCACGATGACGCTGGAGGAAATCGCGGAAACCTGCGGCTTCGCAAGCTACTCCTATTTTCACCGAGTATTCCGAGCCAACTATGGCATGTCCCCGGTCAAATTCAGGGAAACGGCAACGGTGCCGGCAAGGCCGGGCCAGGAGAAAAGCCCCCGATGA	MNYLLIFLLGVVTIMEARLLICDYSYHFQQFSNSHRGGLTTYLFRLQTEGSCEIYCNGIEHHVQAGDLLLLKPGDEYELRVKEDGEDGRVSSGDYFIFCDGSWIDDWWNRISRPVVSHVGLDDYLLGLWRQMLLEKRRGLEGEIGELTDYLLRSLCLCLDRAISEIKPTDRLAFTALRLKRFVEEHATLTFKLEEAASHVGLSLSRAVKLFKEYYGKTMIQYALEIRLNAAVERIKYSTMTLEEIAETCGFASYSYFHRVFRANYGMSPVKFRETATVPARPGQEKSPR	PGPT0017485_379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_00494	774	iolE_1		Inosose dehydratase	ATGAGAAGAATGAACATTGGTTTGCAAATGTATACGCTGCGCGATGAAACGGCACAGGATTTCCGCGGTACGCTCCGCAAAGTGGCTGAATTGGGTTATGAAGGCGTGGAATTCGCAGGGTATGGAGACATTCCAGCCGAGGAAATGAAAACGCTTCTTCAAGAGCTTGGCCTGAAAGCGATCGGCAGTCACGTAGGCCTGCATCTGCTTCGTGCAGATCTGCAGAAGGAAATTGATTACCTGAAAACCATTGGCGCTAAATATATGATGTGTCCATATGTAGCCGAAGAAGATCGTAAAGATGCCGAGGATTGGAAGAACCTCTTCTCCTTCCTGGAGGAAGTAGGGGCTGAAGCTCGCAAGCAGGGATTGATCTTTGGATATCATAACCATGCATTTGAATTCGAAGCCGAGGTCGATGGCCAGTTCGTCTTTGATGCGATGTATTCCGCAACGACGCCGGAAGCCGTGCAAGTGGAGATGGACGTATGCTGGGTACAATTCGCCGGACAAGATCCGCTTGCCTACATTCCGAAATACGCTGGACGTCTTCCGCTGCTTCACCTGAAAGACTTCAGCAAGGATGCGGAAGGCAACATGAAGACGCTGGAGCTGAGCCAAGGCTCGGTTAACCTGCCAGGTGTCATTCAGGCTGCATCCGACGCAGGCACGGAGTGGCTGATCGTCGAGCAGGACGTATGTCAGAATCCGCCGCTGGTAAGCGTGGGGAACAGCATGAACTGGCTGAAGCAGAACTACCTGAACCAATTTTAA	MRRMNIGLQMYTLRDETAQDFRGTLRKVAELGYEGVEFAGYGDIPAEEMKTLLQELGLKAIGSHVGLHLLRADLQKEIDYLKTIGAKYMMCPYVAEEDRKDAEDWKNLFSFLEEVGAEARKQGLIFGYHNHAFEFEAEVDGQFVFDAMYSATTPEAVQVEMDVCWVQFAGQDPLAYIPKYAGRLPLLHLKDFSKDAEGNMKTLELSQGSVNLPGVIQAASDAGTEWLIVEQDVCQNPPLVSVGNSMNWLKQNYLNQF				NA	NA	NA	NA	NA
AK002_00495	1020	gfo_1		Glucose--fructose oxidoreductase	ATGAGTAAAATTAAAGTGGCTGTGTTTGGCTGCGGCGCAATCGCCCAGCGCAGACATATTCCTGAATATGCGAACAATGCTAACGTGGAGCTGGTTGCTTTTGCCGATCCGGTAAAGGAACGCGCTGAAGAGATGGCAGCCCAGTATGGCGGTAAAGCCTATACAGACTATCAAGAACTGCTGAAGAACGAGAAGCTCGACGCCGTTAGCGTATGTACGCCGAACTATCTGCATGCTCCAATGAGCATCGCGGCTGCGAATGCCGGCCTTCATGTGCTGGTGGAGAAGCCGATGGCAACAACGGCTGAAGAGGGAGAGCAAATGATCGAGGCAGCCCGCAAGAACGGGGTGTACCTGATGGTCGGCCACAATCAGCGTCTCATGCCTCCGCACGTAAAAGCGAAGGAAATTCTGGATTCCGGCAAACTCGGAAAGGTGCTTACCTTCCGTACTTCCTTCGGCCACGGCGGTCCGGAGAGCTGGAGTCTGGACGGACGAGACAGCTGGTTCTTCCGCAAAGAAGAAGCGATTATGGGCGCGATGGGCGATCTCGGCGTGCATAAATCCGACTTTATCCGTTATTTACTGAACGATGAAATCGTGGAAGTGGCCGGTTTCATCGGTACGGTCCATAAAGAAGGAACTGATGTGGACGACAACGCGACTTGCATCGTTCGCATGAAGAGCGGGGCCGTGGGCACGCTGATGGCAAGCTGGACGCATTACAGATCCGGCGATAACGGAACGGTATTGTGGTGCGAGAAAGGTGCCATGAAGATCGGTACCGTTAACGGTGACGAGGTGGTTGTGGAGCTGACCGACGGTACGGTGGAAACTTACAAGGTCGGCGCCATGGCAACTAATGAGAAGCAGGTTCCGAGCGGCGTCATCGACGCTTTTGTCGAATCCATTCTCACCAACACGCCGCCTAGCATTTCCGGTGAGGAAGGACTTCGTTCCTTGAACGTGATCTTGGGTGCATTCGAATCCCAAGAGACCGGTAAAATCGTGAAGCTGTAA	MSKIKVAVFGCGAIAQRRHIPEYANNANVELVAFADPVKERAEEMAAQYGGKAYTDYQELLKNEKLDAVSVCTPNYLHAPMSIAAANAGLHVLVEKPMATTAEEGEQMIEAARKNGVYLMVGHNQRLMPPHVKAKEILDSGKLGKVLTFRTSFGHGGPESWSLDGRDSWFFRKEEAIMGAMGDLGVHKSDFIRYLLNDEIVEVAGFIGTVHKEGTDVDDNATCIVRMKSGAVGTLMASWTHYRSGDNGTVLWCEKGAMKIGTVNGDEVVVELTDGTVETYKVGAMATNEKQVPSGVIDAFVESILTNTPPSISGEEGLRSLNVILGAFESQETGKIVKL	PGPT0022715_483	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
AK002_00496	912			hypothetical protein	ATGAAAACTGGAGACATTCAGCTGCGGGACCCCTACGTACTGCCTGATCCGGAACAGCGAATATACTATATGTACGGCAGCACCGACAAAAATATATGGAGAGAAGGAACCGGCTTCGATGTCTATATAAGCCGGGATCTAAGCGATTGGGAAGGCCCTTATACGGTCTTTCGCAAACCGGACGATTTCTTCGCTGACGTGAACTTCTGGGCGCCGGAAGTCTACCCGTACCATGGGCGTTACATCATGTTTGCCACCTTCCGCCGAAAAGATAACGATCGGCTGGGCACCGCGGTCCTGTCGGCAGATGAGCCGACAGGACCTTTCTCCCTCCATAGCGAGGGGCCGGTGACCCCCGCCGACTGGAGTTCCCTGGACGGCACGCTGTATATGGACGAAGCGGATCAGCCGTGGATGGTGTTCTGCCACGAGTGGCAGCAGGTCGGCGACGGTGAGATCTGTGCCATGCGCCTGAGTCCCGATCTCACAGAGGCCGCCTCGGAGCCCGTGACCCTGTTTTGCGCCTCCGAGGCCGATTGGGCCACGCCGTTCCACTCGCCCCGCTTTCCCGGATCGGGCAACTATGTGACGGACGGCCCGTTTCTGTTCCGGACAACGTCGGGAAGTCTGCTCATGGTATGGGCCAGCTTTGTGGATGGCCGATACGCGCTCGGCGTTGCCAAGTCGCCAACCGGCAAGCTATGCGGGCCTTGGCTTCAAGAGCCCGAACCCTTATATTCCAGCGACGGCGGGCACGGCATGGTGTTCCGTACTTGGGAGGGGGAGCTGATGCTGACCGTGCATACCCCGAACCGGACGCCGGATGAACGGCCGATCTTTATCCCCGTCGTGGAGGATGGAGACAGCATCAAATTGGATGGGATGTATCGGGAAACACGAAGGGCCGAGTAA	MKTGDIQLRDPYVLPDPEQRIYYMYGSTDKNIWREGTGFDVYISRDLSDWEGPYTVFRKPDDFFADVNFWAPEVYPYHGRYIMFATFRRKDNDRLGTAVLSADEPTGPFSLHSEGPVTPADWSSLDGTLYMDEADQPWMVFCHEWQQVGDGEICAMRLSPDLTEAASEPVTLFCASEADWATPFHSPRFPGSGNYVTDGPFLFRTTSGSLLMVWASFVDGRYALGVAKSPTGKLCGPWLQEPEPLYSSDGGHGMVFRTWEGELMLTVHTPNRTPDERPIFIPVVEDGDSIKLDGMYRETRRAE	PGPT0019090_1050	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
AK002_00497	1647			hypothetical protein	ATGACAGAAGCTATGCTGGACCGGCTGCGCCGGATTTCGATAAGGGATCAGGTGCAGACGGGTAAACCGGAAGACCGGAAGCTGCTGCAGGAATGGCAGGCCACAGGCGTCCGATTCGCGGCAGCGGGCGGACAGCTGGAAGCAGCTTATTATACCGCACTGGAGAAGCTGCTGGCCTGCATCGTGCCGATGAACGGCAGCGATTCGATTCTGCAAGAAGGAGGAATCTACCTCGGTTGCTGGCTGGAGAGCACCGGCACCATCAACGCGGAACTGATATCGCGACTGATCCCCTCGGTATCGAAAACAACCTACCTGGCGTTTGCGGATCAGCAAAGAGAGGATGGGCTGCTCCCTTATAAACTGACGGAGAACGGACCGTCGTTCCGCCAGATCCAGCTCGTCACGCCGCTGGCACGCTGCGTCTGGAACCACTACGAGCTTCATGGAAGGGATCTCCCCTTCCTGAAGACCATGTACCAAGCCATGTCGCTTTACGACGACTGGATCGCGCGTTACCGCAACAGCCGGGGGACCGGCTGCGTGGAGGCTTTCAGCACCTTTGATACCGGGCATGATCTGTCGCCCAGGTTCTGGCATGTTCCGGATACGCCCTATAGGAATGATGCCGCTGCCTTCCACCCGGACTCCCCGGTGCTGCCCTTCCTGGCACCGGATTTGACCGCCAACATCTACTGCCAGCGCCTGTATTTGGCCCGCATGGCCGAAGAGCTCGGCGAATCCGGAGCCGATTGGAGGGCCAAAGCCGAAGCCAGCCTGGATAACCTCCTCCGCTACTGTTATGACGAGGAGGATCAATTCTTCTACGACCGGGATCGGAACGACGAGCTGGTCAGGGTTCAATCCGACGTGCTGCTGCGCGTGATGGCCTGCGAAGTGGGCGACCGCGGGCTGTTTGACGACATGCTGCGCCGGTATTTGCTGAATACGAGCAAATTCTTCGCCAAATATCCGTTTACGTCCCTGGCGATGGACGATCCGCGGTTCGATCCGTCCTCCTCTTATAACAGCTGGGGCGGTCCGTCCAATTTCTTGAGCTTGATCCGGGCGCCGCACGCCTTTGAACATCACCATCGCTATGTCGAGCTGACCTGGGTACTGCAGCCGATTCTGTCCGCCTTGTCCAAGGCGAAACGCTTCTCGCAAACCTTGAGCCCCTGGACCGGTGAAGAGGGCTTTACCGAGACGTATTCCCCTTCCATTCTGTGTCTGCTGGATTACGTGGAACGGCTCTGCGGCATCATGCCGATCGGATCGGATCGGCTGTGGTTTACGGGACTGCTCCCGGTCGATATGGACCATGGCGAAGAAGTTGCCGGAAACACGGCATATGGCCGAACCGTGAACGGGCTGCACTACGAACTGGTGAATACCCCGGACAACGTGACCGTATTCCGGGAAGGCCGCTTTCATATTCAAGGCCCAGCCGGGATTCGGCTGGTCACGGACCGCAGCGGACAATTGGAGGGCGTGATCGGCATGAGCGTGCGCACCATTGAAGGCGAGCTTCGCTATCAAGGCACGTCCATACCGATCCGGATCAAAGGCAATGAAATGCAGCTGTATTCAGACGGAGATTTGAAGACGGAGAGGGATATCGGCATCATCTATCCTTCCTATCGTTAA	MTEAMLDRLRRISIRDQVQTGKPEDRKLLQEWQATGVRFAAAGGQLEAAYYTALEKLLACIVPMNGSDSILQEGGIYLGCWLESTGTINAELISRLIPSVSKTTYLAFADQQREDGLLPYKLTENGPSFRQIQLVTPLARCVWNHYELHGRDLPFLKTMYQAMSLYDDWIARYRNSRGTGCVEAFSTFDTGHDLSPRFWHVPDTPYRNDAAAFHPDSPVLPFLAPDLTANIYCQRLYLARMAEELGESGADWRAKAEASLDNLLRYCYDEEDQFFYDRDRNDELVRVQSDVLLRVMACEVGDRGLFDDMLRRYLLNTSKFFAKYPFTSLAMDDPRFDPSSSYNSWGGPSNFLSLIRAPHAFEHHHRYVELTWVLQPILSALSKAKRFSQTLSPWTGEEGFTETYSPSILCLLDYVERLCGIMPIGSDRLWFTGLLPVDMDHGEEVAGNTAYGRTVNGLHYELVNTPDNVTVFREGRFHIQGPAGIRLVTDRSGQLEGVIGMSVRTIEGELRYQGTSIPIRIKGNEMQLYSDGDLKTERDIGIIYPSYR				NA	NA	NA	NA	NA
AK002_00498	1317	yesO_1	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGTTGAAGAAATGTTTCGTTGGAATGTTGGCTTCACTCCTGTTATTCGTCACCGCCTGTTCCGGAACGGATCACACGGGAGAAGCCGGGAGTACGAACGCAGGGGCTGAGCCGACCGGCCAGGTCGAGCTGCGTTTGATGTGGTGGGGCGACCAGAAACGGGCCGATATTACGAACGAAGCCCTGAAGGTGTTCCAGAACAAACACCCGAACATCAAAATCGTCGGCGAATTCTCGCCTTCCTCCGGATATTTCGATAAGCTGAACACCCAGCTCGCTTCCGGCACCGCCCCGGATATCTTCTTCCTGGGCGGAAACGTGGTGGACTATGCCAAAAAAGATGTGCTGCTGAACCTGGATCCGTATGTCGGCAGCGAACTGAAGCTGGACGGCATGGATGCCACCATGGTGGAATACGGCCGGCTGGACGGGAAGCTGCAGCATATTTCGGCCGGCGCAAACGCCCGGGGAATCGTCATCAACAAGGCGCTGTTTGAAAAGGCAGGCATTCCTCTGCCGGAGCAGGATTGGGATTGGGAGGAATTTGCCGCCATCAGCAAAGAACTGTCCGACAAGCTCGGCGACGGCGTATACGGCACCTATAATTTCACCGTCGACGGAATGGATATCTTCCTGAAGCAGCGCGGAAAACAGCTGTATGATATGGAGAACGGAAAGCTCGGCTTCGCGAAGGAAGACATTCAGGAATGGTTCGAGTATTGGGAGCAGGCCTCGAAGGCCGGCGGTGTCGTTACGCCTGAACTTCAGGTGTCCAATCCGCACGATGATACCAGCAAATCATTGTTGATTACGGGCAAAGCCGCCATGAGCCTCCTCCCTTCCAATCAGCTGGCTGCGTTCCAGAGCCTGACGGAAGATCCGCTCATTCTCCATCCGGTACCACGAGGTCCGAAGGGTACGGGCGTGGTATTCGAGTCCAGCCAAGGACTATCCGGATATGCCAACACCAAGCATCCGAAGGAAGTCGCTACGCTTATGGACTTCTGGATCAACGATCCCGAAGCGGCCAAAATCCTCGGCAACGACCGCGGCGTGCCGGTAACGGAAGCCAATCGCAACCTGCTCCAGGAGGAAGCGGGTCCTGTGGAGGAGATTGTGTACAATTATACGAGCCTCGTATCGGAAGCCACGAAGACCGAGCCTTTTGACGTGAGTTATAATCCGCCGGGATTCGCCGAGTTCTCCAAGCTGGCCCAGACGACGACCCAGGAGATCGGTTTCGGCCGGAAAAACGTCGAGCAGGCCGTTGCGGACTTCTACAACGGCACCGTGCGCATATTTGAATCGAATCAATAA	MLKKCFVGMLASLLLFVTACSGTDHTGEAGSTNAGAEPTGQVELRLMWWGDQKRADITNEALKVFQNKHPNIKIVGEFSPSSGYFDKLNTQLASGTAPDIFFLGGNVVDYAKKDVLLNLDPYVGSELKLDGMDATMVEYGRLDGKLQHISAGANARGIVINKALFEKAGIPLPEQDWDWEEFAAISKELSDKLGDGVYGTYNFTVDGMDIFLKQRGKQLYDMENGKLGFAKEDIQEWFEYWEQASKAGGVVTPELQVSNPHDDTSKSLLITGKAAMSLLPSNQLAAFQSLTEDPLILHPVPRGPKGTGVVFESSQGLSGYANTKHPKEVATLMDFWINDPEAAKILGNDRGVPVTEANRNLLQEEAGPVEEIVYNYTSLVSEATKTEPFDVSYNPPGFAEFSKLAQTTTQEIGFGRKNVEQAVADFYNGTVRIFESNQ	PGPT0016545_5142	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00499	840	araQ_5	COG0395	L-arabinose transport system permease protein AraQ	ATGCCGCTTAAGCGACAACTGGTTCAAGCCGGGAGGCATGCCGCCATTATCCTCCTCGGCCTGCTCATGCTGTATCCGGTGCTGTGGCTCGTCTTCAGCTCATTTAAACCGAATCATCTCATCTTTACCAACAGCAGCCTCATTCCGACTGCCTTCACGCTGGATCATTACGTGAACGGCTGGAGCGGACTTCAGGGCATTTCCTTCGGCCGATTCTTCGGCAACTCCGTGCTGATCTCGGTCATGAGCGTCTTCGGGAACATCGTCTCTTGTTCCCTTGCAGCCTATGCCTTCTCCAGATTGAAGTTTAAGTTCAAAGGCCTGTGGTTCAGCATCATGCTGGTGACGATTATGTTGCCTTACCACGTGACGCTCGTGCCCCAATACATTCTGTATAACGAACTTCATTGGATCAATACGTATTTTCCGCTCATTCTGCCCAAATGGCTGGCGCATGACTCCTTCTTCATTCTGCTGATGGTTCAGTTCATCCGCGGCATTCCACGGGAGCTGGACGAGAGCGCGACCATTGACGGCTGCGGACAATCGCAGATCTTCTTCCGCATCGTGGTGCCGCTTCTCGTTCCTGCACTGATTACGACGGCCATCTTCACCTTCATCTGGAGCTGGGACGACTTCTTCAGCCAGATGATCTATTTAAGCAAGATTGATTTATTCACCGTACAGCTGGGGATCCGATCCCTGTTCGATCCTTCGGGGCAATCGGATTGGGGGGCGCTGCTCGCCATGTCCACGCTGTCGCTGCTGCCTGTGACAATCATCTTTCTGGTGTTTCAACGGTATTTTCTCGAAGGCATTGCCACGACCGGCCTGAAATAG	MPLKRQLVQAGRHAAIILLGLLMLYPVLWLVFSSFKPNHLIFTNSSLIPTAFTLDHYVNGWSGLQGISFGRFFGNSVLISVMSVFGNIVSCSLAAYAFSRLKFKFKGLWFSIMLVTIMLPYHVTLVPQYILYNELHWINTYFPLILPKWLAHDSFFILLMVQFIRGIPRELDESATIDGCGQSQIFFRIVVPLLVPALITTAIFTFIWSWDDFFSQMIYLSKIDLFTVQLGIRSLFDPSGQSDWGALLAMSTLSLLPVTIIFLVFQRYFLEGIATTGLK	PGPT0016540_6101	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00500	915	araP_1	COG1175	L-arabinose transport system permease protein AraP	ATGAGAAAGCTGTCCAAGCCCTTATACGGCCAGCAGAATAAGACAGCCTACTTGTTTCTTCTGCCTTGGCTCATCGGCTTCTTCTGTCTGACGCTGGGGCCGATGATCGCATCGCTGTACTTGTCCATGACCAAATTCAACCTGCTGTCATCGCCGACTTGGACGGGACTCAGCAACTATGTCCAGATTTTTACCGAAGACGATACGTTTCAACGATCCTTGTGGCTAACGTTCTATTATGTGTTCTTGTCCGTGCCGCTGAGACTTGCGTTCGCGCTGCTGATCGCCATGGCCTTGAACAAGGGCATCCGCGGACTCGGGATTTACCGGACCGTGTATTACATCCCCTCTCTATTGGGAGGCAGCGTTGCCATTGCCATCGTCTGGCGCCAAATCTTTGACGGCAGCGGGCTGGTCAATCAGTTCCTCGGCTGGTTCGGCATTACGGGCCCCTCGTGGATCGCCCACCCCGACTATGTGGTGTATACGATTATCACGCTGTCCGTCTGGCAGTTCGGATCGGCCATGGTCATCTTCCTTGCCGGTCTGAAACAGATTCCGACTGATTTATATGAAGCATCCGGCGTAGACGGTGCCGGAAAGATCCGTCAATTCTTCGGCATCACGCTGCCGATGCTGTCACCCGTTATCTTTTTCAATCTGATCATGAGCATGATCAATTCGTTCCAAGCCTTCACGCCGGCCTACGTCATCGGAGACGGGCGGGGAGGACCGCTCGACGCCACGATGTTCTACACCTTGTACCTGTATCTGAAAGGCTTCTCGTTCTTCGATATGGGTTATGCCTCGGCCCTGGCATGGATCATGCTGGTCATCATCGGGGTGTTCACCGGAATTGTTTTTCTTACATCAAAATTCTGGGTCTTCTACGGGGATAACCAGGAAGGGAGGTAA	MRKLSKPLYGQQNKTAYLFLLPWLIGFFCLTLGPMIASLYLSMTKFNLLSSPTWTGLSNYVQIFTEDDTFQRSLWLTFYYVFLSVPLRLAFALLIAMALNKGIRGLGIYRTVYYIPSLLGGSVAIAIVWRQIFDGSGLVNQFLGWFGITGPSWIAHPDYVVYTIITLSVWQFGSAMVIFLAGLKQIPTDLYEASGVDGAGKIRQFFGITLPMLSPVIFFNLIMSMINSFQAFTPAYVIGDGRGGPLDATMFYTLYLYLKGFSFFDMGYASALAWIMLVIIGVFTGIVFLTSKFWVFYGDNQEGR	PGPT0016535_5481	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00501	1629	rssB_1		Regulator of RpoS	ATGTACAACGTATTGATCGCAGATGACGAGATCGAGGTTCGCGAAGGGCTGAAGCTGAAAGTCGACTGGGAAAGCATGGGCTTTGCCATTTCGGGGGAGGCCGGGAACGGCCTGGAAGCTGAAGAGCTCTTGAAATCCCATTCGTATGACCTGCTCATTACCGACATGAACATGCCTGTCATGGACGGCGTCCAGCTGCTGGACGTTTGCCGGAGCCACAATCCGACTATCCAGATCATCATCATTACAGGATACGAGGATTTTCAATACGCCAGAGCAGGCGTCCGCAGCCACGCCATGGACTACTTGCTGAAGCCCGTTGCCCGGGACGACCTGAAATCCGCCTTAAGCAAAATCAAACACGAATTGGATAAGAACCGCAAGGTACGGGACGATTCGGAAATGATGCAATGGCGGCTATCCCAATATTACAAAGAAATGAAGGAACGCTTCCTGCTGGATCTCGTGCGCGGCAATCGCCTGCCCCCCGCCTCCCTGCCGGAACGGATTCGACTGTTTCACCTGGAGGATTGGCAGGACGGCCGCGTATGCTTCATCACCGCGGGCATGAGGGAATCCGGCATGCAGAAAGCACCCGAAGGCCGCGCGCCCGAGCAGCTCCGCCTTCCGTTTCAAATGGTCTGCCATGAAATCGCCGAGTCTTATCCGGGCGGCGTTCAAGTGTTTCATGATGCAGCTCATCCCGGTATCATGCATTTCATTGCGCTTGACGGCATTCAGCATGCATTCGCGGATAAACTCGCCGCGCAGGCATCCTCGTATTTAACCGTGGAGGTGCAGGTAGGATTTGGGCTGCCCGTGTCGGGACTTGAGCGCTGGAAAGAGGGTTATATCCACTCCCTGCTGGCCTGGAATCTGGCAGGACGCCAGAACGGACCGGATCAGGCACCCGTAACCGACCAAAGTCCGTTGCTGCCGGACGAAACAAGCCGCGCGCTTCATCGCTGCCTGATCCGGGGCGAATTGGAATCCTTCCGCAGCATCATCCGGAGGGAGCTGGGCGAGGCATTCCGGCTATCGCCTTCCCGCTTGGTACGGAGCCTTTTTCAAATCACGCTGATTATGGAATCCGCCGCTTTCGACAACATACGGCATTCACGGGGAGGGGGGCCTTTATGGATTTCACCCGAATGGGTTTTATGGCTGGAGACCCCGGAGCAGGCGGAACGCCTGCTGATGCAGTGGGCACAGGATTTTGTTGACCACCACCTGGAATCCGGAGACGGAGACGCTACCCTGATTGAATCCGCCAAGCGGTATATCGAGGAAAATTATATGCAGGAATTATCGCTGACCTCGCTGGCCGAGCAGTATAATTACCACCCTACCTACTTCTCGGAAATGTTCAAGGAAGGGGCTGGAGTCTCGTTCATCCAGTACGTTACGGAGGTTCGGATGAAACACGCCGTACGCCTGCTGCAGGAGACCCGATTGACGGTATGGGACATAGCCGAGCTGACGGGTTTCTCTTCACCCGGCTATTTCAGCTCCAAATTCAAAAAGATGTTCAATCAAAGCCCTTCCGAGTTCCGACTGTCGCAATCCGAAAAAATCGAACACGATGATCCGAAGAAAGGAGATTCCGCCCTCTCTCCTCCCCCGGTATGA	MYNVLIADDEIEVREGLKLKVDWESMGFAISGEAGNGLEAEELLKSHSYDLLITDMNMPVMDGVQLLDVCRSHNPTIQIIIITGYEDFQYARAGVRSHAMDYLLKPVARDDLKSALSKIKHELDKNRKVRDDSEMMQWRLSQYYKEMKERFLLDLVRGNRLPPASLPERIRLFHLEDWQDGRVCFITAGMRESGMQKAPEGRAPEQLRLPFQMVCHEIAESYPGGVQVFHDAAHPGIMHFIALDGIQHAFADKLAAQASSYLTVEVQVGFGLPVSGLERWKEGYIHSLLAWNLAGRQNGPDQAPVTDQSPLLPDETSRALHRCLIRGELESFRSIIRRELGEAFRLSPSRLVRSLFQITLIMESAAFDNIRHSRGGGPLWISPEWVLWLETPEQAERLLMQWAQDFVDHHLESGDGDATLIESAKRYIEENYMQELSLTSLAEQYNYHPTYFSEMFKEGAGVSFIQYVTEVRMKHAVRLLQETRLTVWDIAELTGFSSPGYFSSKFKKMFNQSPSEFRLSQSEKIEHDDPKKGDSALSPPPV				NA	NA	NA	NA	NA
AK002_00502	1818			hypothetical protein	ATGTTCTTCTCATTAAAAAGCCGTTTGATCGCCTTTATCGTCGCACTCTTCGTCCTCTCTTTCGGCACGCTCTCCTTCCTGCTGTTTACGGAATCGCGCACCGTGATCCGCTCCTACATCGAATCATCGGCCCTTGAAAAGATGGAGGAATACGGTTCTTACGTGGATATGGTCCAGATGCAGATTTATGACGTCGCTTCCCTGGTCTTCAACAGTGACACAGCCAAGAACTGGGACAACGCCATCGGCGATCCGCTGCTGCCCGAGGGGGAGAAAATGCTTGCCAATCTTGCGATGAGCCGATTTCTGACCCAAGCGACCAACAGCTACACCAGTATCTCCGATGTATCCATCTACCGGCGCAGCGGGCTTCGGGTCGGCGGCGAGAACCAAGTCGAAAGCGACCCTGCCTTTTTGCGGGAATCGTGGTACAGGAACTTCTTCGCGTCCGGAGACCGCTGGCTGCCAGCGCATACGGACCAGCATGAACGCGTCCGGGATCACGGCAATCCCGTTGTCAGCCTGCTGATGCCCATCGGGACCTTCCATCATGCCACGGCGCAAAACGTGATGAAGGTTAACGTCAGCGAGTCTTATTTTCTGGAGCCGCTCACCCGGATCCACTTGGCCAAGAACAGCACGATTTTTCTGTTGAACGAGCAAGGAAGCCCGATTCTATCCCAGCAGGCGCATGAACTCGGCGCCGGAGCCCTATCGGAAATCGATCGCATTCGAAACGGCCCGCTGAAATCGGGCGTCGTTTATCTGACCAACGATGAGGGGCAGCGGGACATTCTGGTTTACAAGAAGCTGGGGCGCACCGGTTGGATGCTGGCCGGCCTGGCGCCGGAGAAGGAACTGTACTCCTCTCTTCACAAGCTTCAGAGTACCATTCTGGTGGTCACGGTCGTTCTGATCCTGGTCTCCCTGTTTGCAGCCGCATGGCTCTCCTATGGCGTCACCAAGCCTTTAACGCGTCTGGTGCTGGCGATGAGGCAGGTGCAGCGCGGAGCCTTCGACCAGGCCGAGTCCGTTCTGCCTCCTGACAAAAACGTAAAGAGCGAGATCAGTTACGTCATCTCCACCTTCCGCTATATGATCAGCCGCCTGCGGCAGCATATCCAGAACGAATTCGAGCTGAAGCTGCTCCGCCAGCAGGCGGAATATAAAGCGCTGCTCATGCAGATCAATCCCCACTTCATGTTTAACACCCTGGAGCTGGTGAGCAGTCTTGCCATGCAGCGCCGGACGGACGATACCGTGCAGGTGATCGAGGACCTCGGCAAAATGATGCGCTTCTCCATGAATACCAGCGACGACCGGGTCCCCCTAACCGAGGAACTGGCCTATGTCCGCCACTATATCTCCATTCTGCAAACCCGCTTCGGGCCTAAACTCGACATCTCCGTTCACGAGGAAGGCCGGCTGGATTCGCTGGTGATGATCAAGTTCATACTGCAGCCGCTGATCGAGAATGCGGTCAAATACAGCTTTCAGCATCAAACCACGGCACAGGTGGACATCCAAATCAGCAGGCAGGGCAACCGCCTGTTTCTCCGCGTCGCGGATAACGGTCCCGGCATGCCCTCCGAGATTATCCGCAAGCTCCAGGACCCCGCGGCGGCCTCCCAGTTGGAGCCGATCCTCCGAAGCGAGAGCTGGCACATTGGACTCGGCAACGTGATTGCACGCTGCCGCTTGCATTACGGCGACTTATTTGCCGTTCATATTCGGAATGGGAGCGAAGCCGGCACATACATCGAACTGATTCTACCGGTACAGGAGGAATATCATGTACAACGTATTGATCGCAGATGA	MFFSLKSRLIAFIVALFVLSFGTLSFLLFTESRTVIRSYIESSALEKMEEYGSYVDMVQMQIYDVASLVFNSDTAKNWDNAIGDPLLPEGEKMLANLAMSRFLTQATNSYTSISDVSIYRRSGLRVGGENQVESDPAFLRESWYRNFFASGDRWLPAHTDQHERVRDHGNPVVSLLMPIGTFHHATAQNVMKVNVSESYFLEPLTRIHLAKNSTIFLLNEQGSPILSQQAHELGAGALSEIDRIRNGPLKSGVVYLTNDEGQRDILVYKKLGRTGWMLAGLAPEKELYSSLHKLQSTILVVTVVLILVSLFAAAWLSYGVTKPLTRLVLAMRQVQRGAFDQAESVLPPDKNVKSEISYVISTFRYMISRLRQHIQNEFELKLLRQQAEYKALLMQINPHFMFNTLELVSSLAMQRRTDDTVQVIEDLGKMMRFSMNTSDDRVPLTEELAYVRHYISILQTRFGPKLDISVHEEGRLDSLVMIKFILQPLIENAVKYSFQHQTTAQVDIQISRQGNRLFLRVADNGPGMPSEIIRKLQDPAAASQLEPILRSESWHIGLGNVIARCRLHYGDLFAVHIRNGSEAGTYIELILPVQEEYHVQRIDRR				NA	NA	NA	NA	NA
AK002_00503	1290	yteT_2	COG0673	Putative oxidoreductase YteT	ATGAGTGACAAGAAACGTTATGTATTGGTCGGTACCGGCGGCCGCGCCGAATTTTTTTATGGCGCCCTGGCCCAAAACTTCCGCGACAAATCCGAGCTTGCTGCCTTTTGCGATATCAATCAAACCCGCATGAATTACGCGAATCAGCTGCTGCGGGAAAAATATAAATACGCCGAGGTGCCTACCTACCCGGCGGACCAATTCGACCGGATGATCGAGAACGAGAAGCCTGACTACGTGATCGTGACCAGCATCGACCGGACCCATCACAAGTATATTATCCGCGCGATGGAGCTTGGATGCGATGTCGTGACCGAGAAGCCGATGACGATCGACGAGGAAAAATGCCAGGCCATCCTGGATGCCGCCAAGCGGACCGGACAGAACATCAGGGTCACCTTCAACTACCGTTACGCCCCCCACCATACCAAGGTACGGGAATTGATCATGAACGATACCATCGGCCAGGTGACCTCGGTGCATTTCGAATGGCTGCTGAATACCCGCCACGGCGCGGACTACTTCCGGCGCTGGCACCGGGACAAGCGGAACAGCGGCGGATTGCTCGTTCATAAATCCACCCATCACTTCGACCTGGTCAACTTCTGGATCGGTTCCCATCCTGAAACCGTTTTCGCCTTCGGCGATCTCATGTATTATGGTAGAGAGAATGCCGAAGCGCGGGGCGTTACGCAATTCTATAATCGCGCGACCGGCAACAAGGTTGCGAAAGAGGACCCTTTTGCACTCCATCTGGATTCCGATGCGCATCTCAAAGCCATGTATCTGGATGCCGAACCGGAGGACGGCTACCAGCGGGACCAAAGCGTATTCGGAGACGGCATCAACATTGAAGATACGATGGGCGTCCTCGTGCGATATCAGAACAAGGCCATTTTAACGTATTCGCTGGTCGCCTATCAGCCGTGGGAAGGCTATCGCATCGCCATCAACGGCACCAAAGGCCGGATCGAGATGAACATCGTCGAACAATCCTACGTCAATTCACTGGGCGACAAGAGCCTGGAAGGCGCGTTAATCGGGAAAACGCTGCGGGTGCTTCCGATGTTCGATGCCCCGTACGAGGTTCACGTCGAGGAGCAGCAGGGCGGACATGGCGGAGGCGACCCGGTGCTGCTGAATGATCTGTTCGGGGAACCGGTGGAAGATCCTTATGCCCGCGCGGCCAACCATATCGATGGGGCGAGATCCATACTGACAGGAATTGCAGCCAACCGCGCCATCGCCACCGGCATGCCTGTGCGAATCGGTAATCTGGTTCGTTTCTAA	MSDKKRYVLVGTGGRAEFFYGALAQNFRDKSELAAFCDINQTRMNYANQLLREKYKYAEVPTYPADQFDRMIENEKPDYVIVTSIDRTHHKYIIRAMELGCDVVTEKPMTIDEEKCQAILDAAKRTGQNIRVTFNYRYAPHHTKVRELIMNDTIGQVTSVHFEWLLNTRHGADYFRRWHRDKRNSGGLLVHKSTHHFDLVNFWIGSHPETVFAFGDLMYYGRENAEARGVTQFYNRATGNKVAKEDPFALHLDSDAHLKAMYLDAEPEDGYQRDQSVFGDGINIEDTMGVLVRYQNKAILTYSLVAYQPWEGYRIAINGTKGRIEMNIVEQSYVNSLGDKSLEGALIGKTLRVLPMFDAPYEVHVEEQQGGHGGGDPVLLNDLFGEPVEDPYARAANHIDGARSILTGIAANRAIATGMPVRIGNLVRF				NA	NA	NA	NA	NA
AK002_00504	867	rhaS_1		HTH-type transcriptional activator RhaS	ATGACCAAGCCGTTTCGAGCAGATTACCACGATCCCGCCGGATATTTGAACATGGAGTATGATCGCCGCATTGGCTATTTCTCGATGACGGTCGACCATCTACACGATCATTATGAGCTGTACTACCTGTTATCGGGCGAGCGGATCTACTTCATCAAGGATCGCTCCTACAGGGTTCGGGCCGGTGATCTTGTCTTCGTGGACCGGAATGCCGTTCATAAGACGCTGGACAGCGGCCGGCCCGACCATGATCGCCTTGTCCTCTATTTAAGCCCGGAATTGTTCGCCGATTTGGCCGTACCGCTTGAACTGGCCGAGGGGCTGAAGGAGCCGTTCGGTTGGGATGTTCCGATTCTAAGACTTCCTTCGCCAGCGAGTGAAGCGGTGGAGCGAATGGTCGGCGACATGGTGAATGAGATGATCCATCCTCAAGCGGGAAGCAGCTGGCTGCTTCGGCACCGAACGGTCGAATTGCTGCTCTTTGCCTACCGCAGCCGGCATCTGGGCACGGTTCGTTCCGCCGATACGGAGCCGGTTCTTCATCCGAAGACCCAGGCGGTCGTCCGGTATCTTAACGACAACTACCGGCAGGCCTTAACGCTGCCCGAGGTAGCGGAGGCGTTCCGGATCAGCCCGCACTATCTCAGCCGGCTGTTCAAGCAGACGACGGGATTTACCTTCAGCGATTATCTCAACCTGCTTCGGGTCAAGGAAGCGCAGCGTCTCCTGCGGGAGAGCGATGATTCCATCACGGATATCGCCTGGCGATCGGGCTTCAGCAACTTCTCCCATTTCGGGAAGATGTTCAAGCGGACGGTTCAGCTGTCTCCGAGGGCATACCGGCAGCAGTATCGAATGCGAAGCTAG	MTKPFRADYHDPAGYLNMEYDRRIGYFSMTVDHLHDHYELYYLLSGERIYFIKDRSYRVRAGDLVFVDRNAVHKTLDSGRPDHDRLVLYLSPELFADLAVPLELAEGLKEPFGWDVPILRLPSPASEAVERMVGDMVNEMIHPQAGSSWLLRHRTVELLLFAYRSRHLGTVRSADTEPVLHPKTQAVVRYLNDNYRQALTLPEVAEAFRISPHYLSRLFKQTTGFTFSDYLNLLRVKEAQRLLRESDDSITDIAWRSGFSNFSHFGKMFKRTVQLSPRAYRQQYRMRS				NA	NA	NA	NA	NA
AK002_00505	729			hypothetical protein	ATGTCTTTGGTGAAAAAGTTTTTCATTAAGAGGGGAAGTGCTGTCTTAGCAACAATCTTAGCACTAGTTTTATTGGTATCCGCTCCCCTTAAAGTAGGAGCTAGTGGATCTGCCGGGTTATTCGCCCAATTTTACCCAGGTAATTATAAAATTGATGTTATTCAACTACACAATGGATGGGCAGGTCCATGGAATGAAACACAGAACATACTTCATACAAACATTCACGTATGGGAAAAAGATTCTCGTGGAAACTACTCAATACATAAAGCCAATCTTCATATCTCAGCGAGAACTAATCTAGCTGGAAGCATTTGTTGGTATGTTCATGACACTGTAAATAATACCTCTAAGACGAACTGCCACCCCCTACTTGCCATAACTGAAGCCAAAGAAGCTATGCAGGAAGAAGTTAAGGCGCAACTGAATAAAGCAACAAATTGGGAAGTTGCTGTAACTGTTGGTGTAGTTGTAGCAATAGTTGTAATCGCTTGGGCTACATGGCCTGCAAGTGCTATAGCTTTGGTTGCTGCTGCTAGATCAGCGGGAGATCAACCGGAAGGAAATAGTGAGCAACCACCTATCGATACTGGATCAGATGAACTTTCTGCTCCTCCTAATGAGAAGGCACAAGAACCAGACGAATCTAAAAAAGCTCCAGGAGTTCCGGTTGAATCTGAAACGGTTCCAGGGATACCACCAAACGAAGATATTCCTGAAAATGAATGA	MSLVKKFFIKRGSAVLATILALVLLVSAPLKVGASGSAGLFAQFYPGNYKIDVIQLHNGWAGPWNETQNILHTNIHVWEKDSRGNYSIHKANLHISARTNLAGSICWYVHDTVNNTSKTNCHPLLAITEAKEAMQEEVKAQLNKATNWEVAVTVGVVVAIVVIAWATWPASAIALVAAARSAGDQPEGNSEQPPIDTGSDELSAPPNEKAQEPDESKKAPGVPVESETVPGIPPNEDIPENE				NA	NA	NA	NA	NA
AK002_00506	1107	uvrC_1		UvrABC system protein C	ATGAAAACAAAAATACAAGAGCTGCCGCTGTCGCCGGGCGTATATCTCATGAGAGATTCGCGTGGAACGGTCATTTACGTTGGCAAATCCAAAAGTCTCAAGAAGAGAGTACAATCGTATTTTTACAACAATAAATCGCACTCCCCCAAAGTGAAGAGGCTGGTTCAGCATGTCAAAGACCTCGAGCATATCGTCACCGACACGGAGTTTGAGGCGTTCATGCTGGAATGCAGGCTCATTCAGGACATAAAGCCGATGTATAACCGCAAGATGAAAAATCCGCTAGGTTATAGTTATATCGTATTGCGGCAAAAGCGAGATTGGCGATGGCTGGAATTTACGGATACACTGGATGAAGGCGGCCCCGACCGGTCTCGTTGTTTCGGCCCCTATACAGCCAGCAGACATAGTCTTGAACATGCAGTGCAGAAGGTTAAGGAATGCTGTAAAATCGCCTGCAATCATACACCTGCCGCTTCTTCGGCAAATACCCCCTGCTTGAATTATTCGATTGGCCTCTGTCTCGGCAAGTGTCTTGGCGGCGAAACCGCTCGGCAATTTGATGAAATCATGGATCGATTCATTGCTCTGCTTCAAGGGGACGACCGACGTTTATATGATGAAATGGAGCGAACCATGCTGGGCGCAGCCGAGCGTTTCGATTTTGAGCAGGCTGCAAAATACAGGGACGGCATGGAGGCGGTGAACCTGCTCTTAAGTAAGCGGCATGTGATCGAGTTCGCCGAAGAGAATCACAGCATCGTTGTCTACGAGTATTTAAACGAAGATACGATCAAGTTATTCTTGATAAAGGGGAACGTAGTGCTGCACAGCGAGAGGTGCTCTGTGGCTGCAACAGCGGACATTGAATCGTTGAGGCGGAGGGTCAAAGCCTTGATTCTCAGCTATTTCACGAGGGATATGGAATGCGATGCTGCCGAGGTTACCCGGGAAGATATCGATGCTGCACAAATCATCTACAGCTATTTGCAGAGCAGCGCCTGCCGCTATCTTGTTCTTCAGGATTCATGGATGGAAGACGAGGGGGAGGCTGATATGGAAGCTGCGCTGCGGGATTTTTTGAATCATCATGTTGTGTCATTTTAA	MKTKIQELPLSPGVYLMRDSRGTVIYVGKSKSLKKRVQSYFYNNKSHSPKVKRLVQHVKDLEHIVTDTEFEAFMLECRLIQDIKPMYNRKMKNPLGYSYIVLRQKRDWRWLEFTDTLDEGGPDRSRCFGPYTASRHSLEHAVQKVKECCKIACNHTPAASSANTPCLNYSIGLCLGKCLGGETARQFDEIMDRFIALLQGDDRRLYDEMERTMLGAAERFDFEQAAKYRDGMEAVNLLLSKRHVIEFAEENHSIVVYEYLNEDTIKLFLIKGNVVLHSERCSVAATADIESLRRRVKALILSYFTRDMECDAAEVTREDIDAAQIIYSYLQSSACRYLVLQDSWMEDEGEADMEAALRDFLNHHVVSF	PGPT0014925_5271	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
AK002_00507	522			hypothetical protein	ATGAAACCTAAATCCAAACATCTCCGCCGGCTCGGGTATTTGGGCCTGGGGCTGCTCCTCTCGGCCATCCTTCTATACCTGCTGTTCCTTCGTCCCACGCCCATCAAGGTGGGTGGATTTACGTCCTCTGCGAATGAAAATACCATGATCTTCGAAGTCATAAATAAGGGATTCGCCGATGTGAAGCTGCTGGACGTGCGGGTGAACGATGGCATGAAGCCCGCCAAGGCCGAGCTGGGCGTCAGTTATTCCCTTCATCTGGTCGGAGGCGAAGGCCTTGATGAAGATCCCGATATCGAATTCGTCGATATTCGGGAGTTGCCGCTAAAGCCCGAGCTCATGCCGGACGAGAAGAGAGCCGCGCTTGATCAAGGTTCGCGGATTCCGCTTAATTACGGCATCCGTCTTTATAACAATCAGCCCATCACGCAGATTGAAGTGAAATATAAGTATGGATGGATCACTTTTACGAGAGAGATGCCGATGGGGCGATTTTTCCGGGATAACGTCTCCACAAAATAA	MKPKSKHLRRLGYLGLGLLLSAILLYLLFLRPTPIKVGGFTSSANENTMIFEVINKGFADVKLLDVRVNDGMKPAKAELGVSYSLHLVGGEGLDEDPDIEFVDIRELPLKPELMPDEKRAALDQGSRIPLNYGIRLYNNQPITQIEVKYKYGWITFTREMPMGRFFRDNVSTK				NA	NA	NA	NA	NA
AK002_00508	963	srkA_2		Stress response kinase A	ATGGAACAGGCTGTCTTGGATCAAGGGGCCGAACGATTCGGCCGAGGTTCTTATTCGCTGAAGTTACTTGGGGGATTCGATCAGAATGTATTTGAATACAACGGTGAAGACGGACGCCGCTTCATTATGAAATTCTTGGACGCGTCCAAATACCGCAAAGCCTCGATCATTCGCGAGCTGACGTGGATGGCCTATCTCGCCGAGCAGGGTCTGAACATGGCAGTGTCCATTCGATCCGCACAGGATCTTCTTATTGAAGAGGTAACCCACGATTCCAAGCGATACCATGTCATTGCCTTTACGAAGGCTCCCGGCAGCCCGTTAACGGATGTAACATCGGATTTTGCGATAATCAAGCAGTGGGGACGCGGGATGGGCCGTATGCATAAGCTCGGCAAAAAGGACGCCACCGCTTCGTCACTCGTGCACCGAATGGCGTTTCCCCAATGGAATGATCATGTGATTTTTACCGATGCGTTCCCGGAGGCTGCAGGTGAAAGAGTCCATACGCAGTGGAAGCTGTATCTTAAGGAATTGGAGTCCCTCCCGCAGAATGAGGAAGGCTACGGCATCGTCCACAATGACCTCCACCATCACAATTTTCACGTACATAACGGGGAGATTATCTTTTTCGATTTCGGGGATGTCTCGTACCATTGGTTCGCCTACGATATCGCCATCGCCATCTATCATGCGGTTCAGACGGTTTCGGAAAACCGGAAAGCCGAGTTTGTGGCCCGATTCTTCGACTCGTTCTTATCCGGCTATCTTCAAGAGAATACGCTGAGCGAGGAATGGATCCAGCGGATCCCGTTGTTCATCGACTTTCGTAATATCTACTCCTATGTCTACTTCGCCAAATTCGTAAATTGGAATGAGATGGATGAACGCACCCGGAAATATCTGTTAGCGATGAAAGCGGATATTGAGGCAGGCAAATCCGTTGTAAAGCTGTCTATTTAA	MEQAVLDQGAERFGRGSYSLKLLGGFDQNVFEYNGEDGRRFIMKFLDASKYRKASIIRELTWMAYLAEQGLNMAVSIRSAQDLLIEEVTHDSKRYHVIAFTKAPGSPLTDVTSDFAIIKQWGRGMGRMHKLGKKDATASSLVHRMAFPQWNDHVIFTDAFPEAAGERVHTQWKLYLKELESLPQNEEGYGIVHNDLHHHNFHVHNGEIIFFDFGDVSYHWFAYDIAIAIYHAVQTVSENRKAEFVARFFDSFLSGYLQENTLSEEWIQRIPLFIDFRNIYSYVYFAKFVNWNEMDERTRKYLLAMKADIEAGKSVVKLSI				NA	NA	NA	NA	NA
AK002_00509	675	yvdM	COG0637	Beta-phosphoglucomutase	ATGAAAGAAACACGCAAGCTGAAGGCTGTCATCTTTGACTTGGACGGCGTCATTACCGATACCGCGGAGTATCATTATCAGGCATGGAAAGCCACGGCAACCGAGCTGGGCATTCCCTTCACGAGAGAATTCAACGAGAATCTCAAAGGGGTATCCCGAATGGATTCCCTAAAGCTCCTGTTAAGCCAGGCGGAGACGCCTGTAAACTATTCCGATGAAGAGCTGGTACAGCTGGCTGACCGCAAAAACAAGCTGTACGTCGAGCTGATCGAAACGATCACGCCAGCCGACCTGCTGCCGGGAATTACGGAATTTGTAGCAGACATCCGGTCGGCCGGCCTGAAGACCGGCATCGCGTCAGCCAGCAAAAACGCCATCGCCGTGCTTACACGGCTTGGGGTCATGGACCAGTTCGACGTGATTGTCGACGTAACCAAGCTGAAGAACAACAAGCCGGACCCGGAGATCTTCCTCACCGCTGCCGCAGAGCTTGGCGTAGAGCCTGCCGACTGCATCGGCGTGGAGGATGCCGCCTCCGGCGTTGACGCCATCAAGGGCGCCGGCATGTTCGCCGTCGCGATCGGCAACCCCGCGCATTTCCCGCATGCGGATGTCGTGCTGTCCAGCACGTCGGAGCTGAATTTCCGTGAGCTGGCGCAGAAATTCGAAGGCTGA	MKETRKLKAVIFDLDGVITDTAEYHYQAWKATATELGIPFTREFNENLKGVSRMDSLKLLLSQAETPVNYSDEELVQLADRKNKLYVELIETITPADLLPGITEFVADIRSAGLKTGIASASKNAIAVLTRLGVMDQFDVIVDVTKLKNNKPDPEIFLTAAAELGVEPADCIGVEDAASGVDAIKGAGMFAVAIGNPAHFPHADVVLSSTSELNFRELAQKFEG	PGPT0017720_591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017720-pgmB-K01838	NA	NA
AK002_00510	2289	treP_1		Alpha,alpha-trehalose phosphorylase	ATGACCTGGAATATATCAAATCCTGATTTGTCGCAGCAAGCCCTGCTGAATATGGAAAGTATTTTTGCACTCGGAAACGGTTACCTGGGTGTGCGCGGCAACTTCGAAGAAGGCTACGGCGAGCGCCTGTCCACCATTCGCGGCACCTACCTGAACGCTTTCCACGACGTGATTGAAATCCCTTACGGCGAGAAGCTCTTCGCCTTTCCCGATACACAGCAAAAGCTCGTTAACAATATTGATGCCCAAACGGTCCTGATCTATTTAGGCGACGAGAAAGAACCCTTCCGCCTGGATCACGGAACGATCACTGCCCATGAACGCCGCTTGCATATGGACAAGGGGTACTCCGAACGAATCGTGCAGTGGAAATCGCCCGAGGGCAAAGAGATCAAGCTGACCTTCCGCCGTCTGGTGTCCTTTGCGCACCGGGAGCTGTTCGCCATCGACGTTCGGATGGAGCCGGTCAATTTCAACGGCCAGATTCGCATCGTTTCCACCGTGAACGGCAAAGTGAAGAACTACACCAATGCCAACGATCCCCGGGTAGGCGCAGGGCATGCGGAACGGATGACCGTCATCGATGCCGGCGTCAAGGGCAGCGATGCCTATGTCGTAGACGAGACGATGGCGTCCAAGCTGCGTGCCGCTTGCGTGACCCGTCATCGCTTGAATGCCGATGCGGACATTCAGCTCGAAGCCGGAACTGGAGAGGTTACCTTCACGGCTGTTCTTCCATTGACCGGACCGATCCACTTTACGAAATACAATCTGTATACCGACAGTCTTCGTCACGGGCAAGACATGCTCGAGCGCGGCATTCAGCTGCAGGAGGAGTTGAAGGATACTTCGTTCGAGGACTTGCTTGCCGAGCAGGGCGAGTATCTGAACGACTACTGGAAATCGGCAGACGTCGTGATTCAGAACGATGACCAGCTCCAGGAAGGCATCCGCTTCAATCTATTCCAGCTGCTGCAATCCGCCGGACGGGACAAGCACAGCAACATTTCCGCCAAAGGACTGAGCGGCGAAGGTTATGAAGGCCATTATTTCTGGGACACGGAGATTTACATGTTCCCGGTATTTCTGATGACGCAGCCGGACATTGCGCGCCAGCTGCTGCTGTATCGTTATTCCACGCTGGAGCAGGCGAGAGACAGAGCGCGGGAAATGGGACACCGGCAAGGGGCGCTGTTCCCGTGGCGCACGATCTCCGGAACGGAATGCTCCTCCTTCTTCCCTTCGGGAACGGCGCAATACCATATCAGCGCAGATATCGCCTACAGCTATATTCAGTATTATCTCGCCGAGCAGGACCGGGATTTCCTCTTGTCCTACGGGGCCGAGGTACTGATCGAAACCGCCCGCCTGTGGGCCGACATCGGCCACTATTATAACGGCGCTTTCCATATCGATGAGGTGACGGGGCCGGATGAGTATACCTGCTGCGTGAACAACAACTATTACACAAACGTCATGGCAAAGCATAACCTGAAATGGGCCGCCAAGAGCTGCGCCATTCTGGAATCCTACGATGCGCAAGGCTTCAAATCCCTGTGCGGCCGGCTTGGCGTAACCGCGGATGAAATTTCCGCTTGGGCGAAAGCGGCGGACGCCATGCTGCTCCCGTATGATGAAGCGCTCGGCATTAACCCGCAGGACGATACGTTCCTCCGCAAAGCGGTATGGGATTTCGAGAACACGCCGGAGGACAAATATCCGCTGCTGCTGAACTATCACCCGCTCACCATTTACCGTTATCAGGTATGCAAACAAGCGGATACGGTGCTCGCCCACTTCCTGCTGGAAGACGAGCAAAGCTTGGAAACGATCCAGCGTTCGTATGATTACTACGAAGGCATCACGACGCATGATTCGTCGCTGTCTTCCTGCATCTTCAGCATCATGGCCTCAAAGATCGGCAATATGGACAAAGCGTATGAGTACTTCATCGAGACGGCACGCCTCGATCTGGACAATACGCACGGCAACACGAAGGACGGCCTGCACATGGCCAACATGGGCGGTACCTGGATGTCGATCGTCTACGGCTTTGCCGGCATGCGCCTGAAGGAAAGCGGACTTTCCCTCTCCCCGGCCATTCCGAAGGACTGGGAGAAGTATGCGTTCCGCTTGAACTTCCGCGGCCGTCTCATCGGCGTAAACATCGAGAAGGACGGCGTGTCCTTGGAGATCGTCGAAGGCGAATCCATCGAGATCAAGCTGTACGACGAGGCCGTAACGCTTGAAGCCGGGAAACCTGTGAAACATGCGCTGCAGAGCAAATAA	MTWNISNPDLSQQALLNMESIFALGNGYLGVRGNFEEGYGERLSTIRGTYLNAFHDVIEIPYGEKLFAFPDTQQKLVNNIDAQTVLIYLGDEKEPFRLDHGTITAHERRLHMDKGYSERIVQWKSPEGKEIKLTFRRLVSFAHRELFAIDVRMEPVNFNGQIRIVSTVNGKVKNYTNANDPRVGAGHAERMTVIDAGVKGSDAYVVDETMASKLRAACVTRHRLNADADIQLEAGTGEVTFTAVLPLTGPIHFTKYNLYTDSLRHGQDMLERGIQLQEELKDTSFEDLLAEQGEYLNDYWKSADVVIQNDDQLQEGIRFNLFQLLQSAGRDKHSNISAKGLSGEGYEGHYFWDTEIYMFPVFLMTQPDIARQLLLYRYSTLEQARDRAREMGHRQGALFPWRTISGTECSSFFPSGTAQYHISADIAYSYIQYYLAEQDRDFLLSYGAEVLIETARLWADIGHYYNGAFHIDEVTGPDEYTCCVNNNYYTNVMAKHNLKWAAKSCAILESYDAQGFKSLCGRLGVTADEISAWAKAADAMLLPYDEALGINPQDDTFLRKAVWDFENTPEDKYPLLLNYHPLTIYRYQVCKQADTVLAHFLLEDEQSLETIQRSYDYYEGITTHDSSLSSCIFSIMASKIGNMDKAYEYFIETARLDLDNTHGNTKDGLHMANMGGTWMSIVYGFAGMRLKESGLSLSPAIPKDWEKYAFRLNFRGRLIGVNIEKDGVSLEIVEGESIEIKLYDEAVTLEAGKPVKHALQSK	PGPT0014080_542	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-TREHALOSE_METABOLISM,PGPT0014080-treP-K05342	NA	NA
AK002_00511	744	rhaS_2		HTH-type transcriptional activator RhaS	ATGAAAGAGCCTTCACGTTCTGGAAACCAACCCTTTTACCTTTCTTCCCGCATGTTTTATTTGCGCGAGAATTTTATCCATCCCCCGTTCGACTATGAACACGAGCTGCTGGAAGCGATCCGCTTCGGCGATGAGAATAGAGCCATGGACATGCTGCGCAAAATTAACGAGCTGGAAGCGGCCGTGCTGGCGACGTATCCGCTTCGATCGAAGAAGAATGCCTTGATTGCCTCCTGCACCTTATTTACCCGGGCCATCATCAAAGGCGGCGTGGATCCCGAGATCGCCTTTCATTTAAGCGACACGCTGATCCTCGAGATCGAGCGAATGAGCGATGTGGAGCGGCTGGTTCATTTTGAATATGAGATGCTGGTGCAGTTTGTGTCGATGATCCGCTCCGAGAAGGAAGACGTGTCGTTCTCTCACATTGTGAACCTGGCGATCTATTACATCCGGGAGCATATTTTCGAGGAGCTGACCCTGCAGAGGGTCGCGGAATATTTGAAGGTCCACCCGAGCTACCTGTCCGATCGTTTCAAGCGGGAGACGGGCGAAGCCATAACCACCTTTATTAATCGGCGGAAGATTGAGGAATCCAAGCATTTGCTGGCCAATACGAACCAGTCGATATCCGAAATCGCGTTTACGTTCAAGTTCTGCAGCCAGAGTTATTATACGCAATTATTCAAGAATTTTACGGGAATGACGCCGAGAAAATTCCGGATAAGCGGCACGGCGCGGTAA	MKEPSRSGNQPFYLSSRMFYLRENFIHPPFDYEHELLEAIRFGDENRAMDMLRKINELEAAVLATYPLRSKKNALIASCTLFTRAIIKGGVDPEIAFHLSDTLILEIERMSDVERLVHFEYEMLVQFVSMIRSEKEDVSFSHIVNLAIYYIREHIFEELTLQRVAEYLKVHPSYLSDRFKRETGEAITTFINRRKIEESKHLLANTNQSISEIAFTFKFCSQSYYTQLFKNFTGMTPRKFRISGTAR				NA	NA	NA	NA	NA
AK002_00512	1803			hypothetical protein	ATGAAGAAACTAAAGCAGAAAATGCTTCACTTAAGCCTGGAGAAGAAACTGATTGCGGCGTTCTCCGCCTTCATCATCGTTCCCCTTCTTCTGATCGGCGGGATCGTATCCTGGGTCTACGTGGAGAATAATCGGAGCACGATGATTGATGCCGCCGTGGAAAACAACAAACAAATCATTAAAAATATCGATACCTCCCTGCAGCCGCTGCTCCGGCTGTCCATGTTCCCGATCCAGGACTCCACGGTGTATCCCATTATGCGGAAGGATTACGGCAAGGTGACGTATCCATTGCTGGAGCGGGGGCAGGATTTCGATAAAGTGAACGGCTTGATCCAGAGCGGGATCATGCTGTATTCGGACTTGATTGACTCCGTGGTTATCTACCACGAGAACAGCCGGTCCATCATCGGCCGAAGCAACCGGGAATATATGAACTTCGCTTATTTCAAGGAGCAGTTTACCCGCGAGCCTTTTGTCCGGAAGATCAGGGAAGCGTATGGCGGCTTTGTCCCGATAGGGATTCATCAGGAGCGACTGCTGTCAACGAAGGGAATTCCGGTCGTGTCGGTGGGCAGGGCAATCTTGGACCCGTACACGAAGGAGGATCTCGGGTTTATCCTGTTTAACATTTCGGTGGATAAACTCAAGACGCTGTGGAGCGAGTCGGCATTTTCCGAGAATACGAATTTTTATTTGATCGACGAAACCGATCATATCGTGCACAGCGTTCACCCCGAGGAAATCGGACTGGCGGCGTCCGAGGTATTGGGAAGCGATTTTCAATATAACGCGGACGGCCAGGTCAACACGCAGATCAGCCGGGATACCTACATGATTTCTTCTTCCTCCTCCATGGCGAATTGGAAGGCGGTTACGGTCATTCCGAAGAAGGATCTGTTCTCGATCGTGTACCTGATGGTGGCTATTCTGATCGGTGCGTTGATCCTGTTACTCGTGCTGTGCATCCTGATCTCGGCCCGGATTGCCACCACGATCATGAAGCCGCTGGCGGTGCTGAACAGCAAAATGAAGCTTGTCTCCCAAGGTCAGCTTGACGTAAGCTTTGATACGAAGCAGCACGGCGAAATCGGCGTGATTAGTCATACCGTGGACCAGATGCTGCACGAAATTCGCGATTTAATCGAGCGGATTTACGTAGAGGAAGAGGAGAAGCGGAACCTGGAGATGAATGCGCTGCAATCGCAGATTCGTCCGCATTTTATCTACAACACGCTGAACGTGATCAAGTGGATGGCCAAGATTCAGGGGGCAACGGGCATTGAAGAAGCGCTGCAGGCTTTCTCTTCGGTTATCAAGTTTACGGTGAAGAAGGAAGGCGACTACGTGACCATTGCCGAGGAAGTCGAATTCATGGAGAACTATACGAAAATTCTCGATTTCCGCTATTTTAATAAATTTGATGTCACGTACGAGGTGGATCCGGCCGTAATGAATCATAGGACCCTGAAGTTTCTGCTTCAGCCCCTTGTGGAGAACGCGGTTTTCCATGGCTTTGAAGGCATCGATTACAAGGGCAGCCTTGTCATATCGATTTATGAGGAATCGGAGGCGCTGATCATGAAGGTATGCGATAACGGGCGCGGTTTTCCGGAGGGCGGACAGGCGAAGGTGGAGCAGGACGGTCCGCAGGATACCTTCAACTCGATCGGACTGAACAATATACGGAACCGGATATCCCTTCATTTCGGGCCCGAGTACGGCCTGTGGATCCAAAGGGGAGAACAGGGCGGAACGGTCGCATGGCTTCGGGTTCCGATCATCACAGAAGAAGCAGGGTGA	MKKLKQKMLHLSLEKKLIAAFSAFIIVPLLLIGGIVSWVYVENNRSTMIDAAVENNKQIIKNIDTSLQPLLRLSMFPIQDSTVYPIMRKDYGKVTYPLLERGQDFDKVNGLIQSGIMLYSDLIDSVVIYHENSRSIIGRSNREYMNFAYFKEQFTREPFVRKIREAYGGFVPIGIHQERLLSTKGIPVVSVGRAILDPYTKEDLGFILFNISVDKLKTLWSESAFSENTNFYLIDETDHIVHSVHPEEIGLAASEVLGSDFQYNADGQVNTQISRDTYMISSSSSMANWKAVTVIPKKDLFSIVYLMVAILIGALILLLVLCILISARIATTIMKPLAVLNSKMKLVSQGQLDVSFDTKQHGEIGVISHTVDQMLHEIRDLIERIYVEEEEKRNLEMNALQSQIRPHFIYNTLNVIKWMAKIQGATGIEEALQAFSSVIKFTVKKEGDYVTIAEEVEFMENYTKILDFRYFNKFDVTYEVDPAVMNHRTLKFLLQPLVENAVFHGFEGIDYKGSLVISIYEESEALIMKVCDNGRGFPEGGQAKVEQDGPQDTFNSIGLNNIRNRISLHFGPEYGLWIQRGEQGGTVAWLRVPIITEEAG				NA	NA	NA	NA	NA
AK002_00513	1557	cheB_1		Protein-glutamate methylesterase/protein-glutamine glutaminase	GTGCGAATACTTATAGTAGATGACGAGCCGCTCGTTCGGATCGGGATCAAATCGGCGATTGACTGGGAAGCTCAGGGCGTGGACATTGTCGGTGAAGCGGGGGACGGCGAAGAAGCGCTGCGTCTGATAACGGAAACCGTGCCGGACGTGGTGCTGCTGGATATCAAAATGCCGAAGATGGACGGGCTCGAGGTGCTCCGGACGATCAAGGACCGGCAGATCCCGGTTCAAACGGTCGTGTTGAGCAGCTTCGATGATATTGCCTACGTGAAGGAAGCGTTGAAGCTGGGGGCTTTTGATTATTTCCACAAACCCGACATGAATGAACGCGAGCTGACTGCGATGCTGAAGAGCGTCCGGGAGCAGTTCGGGAGCCGGGGGATTCCGGCCCAAGTCGGGCCGGGTACGGCGGGCAACCGGAAGGAGCAGATATTATATGACGCTCTCCGTGGCCATGTTCATGATCTGCATGACACGGAGCTCAAAGAGGGCAATATGTACGTCGTCCTTTTCAGAATCAAGGATTATCACACGGTTATCAAAAGGTACGCCAAGGAAACCGAGTCGATCCTGCCGAATACGGTGCAGAACGTCGTCAGCGAGATTCTGTCCACGGAGAAGGAAGTCGAATATCTTCAGCTGGATGAACAGTGCAGTGCCGTATTCATCAGCAACAGCGAGCTGAAAAGCCTGCTGGCCTCATTGACGCGCGTCAATAAAATGGTGCAAATGATCAGTTCGGCGCTCAAGCGGTTTGTCAATATCGACATCGTGCTGGGCATCAGCGACTGGTTTGCCGATTTCGAAGGCATTCGGACGGGCTACGAGCAGGCGGGCAAAGCGCTGTCCCATCAATTTTATCACCCGGATACGTCGATCTTTTATTATCAGCATCTGAAACAGAAGGGTGAGCACGTCTATAGACAGGCCGATGCCTATTTAAGCCAGATGAAGTCTGCCCTCAGGGAGGAGGCGAACGAGCGCTTCCTGGTGCTGCTGTCCCAGTGGGAGAAGTTTCTGGCGCAAGAAGAATGCATGGAAGAGAAGGATGTCCGCAAGGTATACGAAGGTCTGCTGTTTATGATCGGAGAGGGCACAGGCGTACCGGGCCGGGGAGACGTTCAAGAAGAAACATCGGCCTTTGAAGAGATCCATGAATTCGGGCAGCTATCGGCCGCATACCGTGCCTTGTTCGAGGAGCGGCTCAAGAATCGCAGCCATCTGGAGCTGAGAGGCTACAGCCAGCTCACGCGAAATATTATGGAATATACGGAGGAGCACTACCCGGAGAGCCTTTCCTTGAAATTGTTCGGGGATTTGTTCCACGTCAGTCCGAATTATGTCAGCCGATTGTTTAAGCAAGAGGTCGGTCAGGGCCTGTTCGATTATATTAACGAGCTTCGGATCGAGAAGGCGAAGGTGCTCCTCAAGGACTATCGCTACAAAATTTATGACGTTGCCGAGATGGTGGGATTCAATAATCAGGCCCATTTTGCCATTGTATTCCAGAAATACACAGGCTTTTCTCCTAAACAATATAGGAAAGATGAAGTGTGA	MRILIVDDEPLVRIGIKSAIDWEAQGVDIVGEAGDGEEALRLITETVPDVVLLDIKMPKMDGLEVLRTIKDRQIPVQTVVLSSFDDIAYVKEALKLGAFDYFHKPDMNERELTAMLKSVREQFGSRGIPAQVGPGTAGNRKEQILYDALRGHVHDLHDTELKEGNMYVVLFRIKDYHTVIKRYAKETESILPNTVQNVVSEILSTEKEVEYLQLDEQCSAVFISNSELKSLLASLTRVNKMVQMISSALKRFVNIDIVLGISDWFADFEGIRTGYEQAGKALSHQFYHPDTSIFYYQHLKQKGEHVYRQADAYLSQMKSALREEANERFLVLLSQWEKFLAQEECMEEKDVRKVYEGLLFMIGEGTGVPGRGDVQEETSAFEEIHEFGQLSAAYRALFEERLKNRSHLELRGYSQLTRNIMEYTEEHYPESLSLKLFGDLFHVSPNYVSRLFKQEVGQGLFDYINELRIEKAKVLLKDYRYKIYDVAEMVGFNNQAHFAIVFQKYTGFSPKQYRKDEV				NA	NA	NA	NA	NA
AK002_00514	1248			hypothetical protein	ATGGGTAAATGGAACAAGAAGTTTTCGGCCATGCTGGTTTTGTGCCTGGCTCTTGTTGTGGGTTTAACCGCTTGCGGCGGCAGTAAAAGCGCTGACAATACAGATAATGGAGCCGGAGACGCTGCTGAAAAAGTAACGGTGAATTTCGGATTCTGGGGTACGGCGCAGGATTTGGAGATTTATCAGAAAGCGGCTGACACCATCTCCGAGCAGTATCCGGAGATCGAACTGAAAATTAAGCAATATCCGAGCAGCGAGCAGTTCTGGAACACGCTTCCGGGTGAAATTGCTGCGGGCGTAGCGCCTGACTTCATTAAAATGTCCAACGAAGGTGCTTACGAGTACATCAATAAAGGATTGTTCTCGCCAATCGATGACCTGGTTCAAGCGACGGGCGTGGACATGAACCGTTTCCCGGATACATCGAAGAAGATTTGGAACGTGGACGGCAAGCAATACGGCGTACCGAACAGCGATATGCCGGCGATGTTCTTCATCAATGAGCAAATGTGGAAGGATGCCGGCCTCGGCGAGTATCCAACCACATGGGATGAAGTGATCGAAGCGGCCAAAGTGCTGAACAAAGGCGATGTGAAGGGCATTATCGTGAACCTGGATGCCTTCCATATCACGAACTACGTGAAGAGCTTCGGCGGAGGCTGGGGTAACGGTAAGACCATCAACTCCCCTGAGAACGTCAAGGCGCTGGAAATGATCATCGATATGTACGACCAAGGACTGGCGGTCACGCCGAAATCGCTCGGCTTCGGCTGGGACGGCGAAGTATTCAGCAATGAGCAGGGCGCTATGAGTACAGGCGGTTACTGGTACAAAGGGTATCTGAAGGATGCGAATCCGGACCTGAAAATGGTTGCCATTCCGGTTCCGAAAGGAACGACGAACGGCAGCACCATGAGCTCTGACGCTTACATGGTATTGAAAGACGCGAAGAACAAAGAAGCTGCGCTGAAGGCTGCTTATTACATGACCAACGACGATACGCAAACCGCATTCATGGAGCTCGGCTTCAATCCGGCCGTATCCTCGCTGTCCGAGCAGTATTTCGAGAAGAACCCTGAATTCAAGGCGCTGCAGCCTGCGCTGGAGTACAGCACGGACTATGGGTATCCAACGGATACCAAGCGCTTTACGGATGAGCTCGTGAAAGAATTGGAAGGCCTGATTCTGGGCGGCTCCGGTAAAACGGCTCAGCAAATTCTCGACGACATTCAAAGCCAGTTCAAATAA	MGKWNKKFSAMLVLCLALVVGLTACGGSKSADNTDNGAGDAAEKVTVNFGFWGTAQDLEIYQKAADTISEQYPEIELKIKQYPSSEQFWNTLPGEIAAGVAPDFIKMSNEGAYEYINKGLFSPIDDLVQATGVDMNRFPDTSKKIWNVDGKQYGVPNSDMPAMFFINEQMWKDAGLGEYPTTWDEVIEAAKVLNKGDVKGIIVNLDAFHITNYVKSFGGGWGNGKTINSPENVKALEMIIDMYDQGLAVTPKSLGFGWDGEVFSNEQGAMSTGGYWYKGYLKDANPDLKMVAIPVPKGTTNGSTMSSDAYMVLKDAKNKEAALKAAYYMTNDDTQTAFMELGFNPAVSSLSEQYFEKNPEFKALQPALEYSTDYGYPTDTKRFTDELVKELEGLILGGSGKTAQQILDDIQSQFK	PGPT0016545_9705	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00515	945	araP_2	COG1175	L-arabinose transport system permease protein AraP	ATGTCCGATTACAGCAGCAAGCACGCTGATATGAAGGGGAACAAGATCAGGCCATCCTGGTTCCGTTCGCTGGCAGACTCCGATAAGACGCTGGGCTGGTTGTTTACGCTGCCCTTTTTGATTTTGTGGGCATGGTGGTTTCTGTATCCATTCATCCAGTCTTTCGTAAGAAGTTTTCAGGATGCGAACTTCGCTGCCTTGGACCAGGCCAAATTCATCGGCCTCGAAAACTATGTCACCATTCTGCAAGATAAAGAATTCTTCCGGGCGCTGCTTCACTCCCTGGAAATCGTCGTCATCTCGATTCCGATTCAGACCCTGCTCGGTCTGCTTTTGGCGATCCTGGTGAACCAGAAGCTGAAGGGCAAGGGGATTTTCCGGACCGTGTTCTTCATTCCGTATATTACCTCGCAGATCGCGATCACGACCGTGTTCATGATGCTTTTCAAGCAGGGCACCTTCCTGACGAAATTTTTCGGAGCTTTGGGCTTCGGGAACGTGACTTGGTTTGCGGATACCAGCTATGCGCTCTTATTCGTATGTATTCTGTTTATCTTCCAGCAAGCCGGATTCACCATGATTGTGTACTTGTCGGGCCTGCAGGAAATTCCGAAGGATCTGTATGAAGCGGGCGAGATCGACGGGGCGTCCAAGTGGAACAAATTCCGCTACATTACGGTGCCGTTCCTGAAGCCGATCACGTTCTTCATCGTGTCGGTGTCGACGATCGCCGGCTTCCAGATCTACGACCAAATCGCCGCGATTTCCCGTTATGGCGCGCTCGGCTCGCCGGCCGGCGCTACCAGCACGGTGGTGACGTATTTCTACCAGCACGGGATCCGTTACATGAACATTGGATACGGAAGCGCGGCGGTGGTGCTGTTCTTCATGATCATCATGCTGATTACGTACCTGCAAAAAAAATTCCTGGATGAGAAGGAGTGA	MSDYSSKHADMKGNKIRPSWFRSLADSDKTLGWLFTLPFLILWAWWFLYPFIQSFVRSFQDANFAALDQAKFIGLENYVTILQDKEFFRALLHSLEIVVISIPIQTLLGLLLAILVNQKLKGKGIFRTVFFIPYITSQIAITTVFMMLFKQGTFLTKFFGALGFGNVTWFADTSYALLFVCILFIFQQAGFTMIVYLSGLQEIPKDLYEAGEIDGASKWNKFRYITVPFLKPITFFIVSVSTIAGFQIYDQIAAISRYGALGSPAGATSTVVTYFYQHGIRYMNIGYGSAAVVLFFMIIMLITYLQKKFLDEKE	PGPT0016535_3026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00516	825	araQ_6	COG0395	L-arabinose transport system permease protein AraQ	ATGTTGACCCGAACGAATAAAGGTCGGCCGTTTCTGTACATCGGCACGATCATCCTGGGGCTCTTATTCGCCCTTCCTTTTCTCTATACCATCTATACGTCCGTCATCCCGATGCGCCATGTCAATACGCTGACGTCGCCGGCCAACTGGACGTTCGAGAACTTCAAAATCTTCTTCACGAACGATGCGTACAACGTGCCGAGATGGTTCATGAACACCGTGATCATGACCGGCGTCGTTGTCATCGGGAACCTCATCATTAACCCGATGGCCGGCTTTGCGCTGGCCAAGCTGAATTTCAAGGGTAAAGGACTGATATATTGGATCGTTGTGGCCACCATGATGGTGCCGTACCATATGATCCTGATCCCGGTATACGTGAACGTGGCGCAGCTCGGATGGCTGAACACGTTCTGGGGATTGACGGTGCCCTTCCTCTATCAAGGCTTGTATATCTTCATGCTCCGCCAGTTCTTCATCTCGGTTCCGAACGAGTTCTTGGAGGCTGCGCGGATGGATGGCTTGACGAAGATGGGCGCTTTCTGGCGGATCGTATATCCCCTGGCCCGCTCATCGCTGATTACGATGTCGATTCTTGCATTTGCCGGAACCTGGAACAGTTACCTCGTTCCGAGCACGCTGGCGAATACGCCGGAAATGTACGTGCTGGTGGTCGGCCTGAACAGCGTGAAGGATATGTTCTTCGAGAATACGCCGATGATCATGGCAGGGGTCGTGCTGTCCACGCTGCCGATCATCCTGTTCTTCTTCCTGTTCCAGCGCCAATATATCGAGGGGATTTCGAACGCAGGCGTCAAAGGCTGA	MLTRTNKGRPFLYIGTIILGLLFALPFLYTIYTSVIPMRHVNTLTSPANWTFENFKIFFTNDAYNVPRWFMNTVIMTGVVVIGNLIINPMAGFALAKLNFKGKGLIYWIVVATMMVPYHMILIPVYVNVAQLGWLNTFWGLTVPFLYQGLYIFMLRQFFISVPNEFLEAARMDGLTKMGAFWRIVYPLARSSLITMSILAFAGTWNSYLVPSTLANTPEMYVLVVGLNSVKDMFFENTPMIMAGVVLSTLPIILFFFLFQRQYIEGISNAGVKG	PGPT0016540_8448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00517	2130			Putative beta-xylosidase	ATGGATAACGTGGAACAGCGTGCGAAGGACCTTCTCGCGCAGATGACCTTGGCCGAGAAGATCGGTCAAACGGTGCAGTACGGCCGGTGCGAGGAGCGGGAGCTGAAGCTGGTTGCCGAAGGCAAAATCGGGTCGCTGCTGAATGTGCATGGTCCGAAAAAAATCAACGAGCTCCAGCGGCTGGCCGTGGAGGAAACGCGGCTGGGGATTCCTCTTCTCATCGGGGATGACGTCATTCACGGTTTTCGCACCATCTTTCCGATTCCGCTCGGCGAAGCCGCCAGCTGGGATCTCGAAGGGATGGAGAAGAACGCCCGCATTGCGGCAGAAGAGGCGGCAGCGGAAGGCATCCGTTGGACTTTTGCCCCGATGGTGGACGTGACGCGCGACCCCCGGTGGGGCCGCATCGCGGAGAGTACGGGAGAGGATGCCTATCTGTCCTCTCTGGCCGCTGCCGCGAAGGTAAGAGGATTTCAAAGTCCGAACGGGGACGGGAACCCGACCGTAGCGGCATGCGTGAAGCATTTTGCCGGTTATGGCTGGATTGAAGGCGGCCGGGACTATGATACGACGGACATGTCGGAGCGGACGCTGCGGGAAACCGTGCTGCCGCCGTTCGAGCACGGGATTCGGGCAGGCGCTCTGTCGGTGATGAGTGCTTTCAGCGAACTCAATGGGGTTCCCGCTTCCGGAAGCCGCTATCTGCTGCGGGATATATTGAAGCAGGAGTGGGGCTTTGAGGGCATGGTGGTCAGCGACTGGGAGTCGATCGAAGAGCTGGTCTACCATGGCTATGCGGAGGACCGGAAGGATTCCGCGCGGAAGGGACTGAACGCCGGCGTCGACATGGACATGCATTCCGGCGTCTATCTCGATCATCTGGAGGCGCTGGTCCAGGATAACCCCGAGCTGCTTCAGCTGTTGGATGACGCGGTGCTTCGCATTTTGAGGGTGAAAATCCGCCTCGGGTTGTTCGAGAACCCGTATGTAAGCGAGGAAGGCGAAGAAGCCGGAGATCTGCTGAAAGGGCGAGCCATTCCAGCGGCGCATCTGGCCCAGGCCAGGGACAGCGCCCGGAAATCGATTGTGCTCCTGCAGAATCGCGGCGGGATGTTGCCGCTGGATACCGGCAAGCACAAGAAGCTGGCCCTGATCGGGCCGCTGGCCGATGATCGCCATAATTCAATGGGCTGCTGGGCTTGGAAAGGCCGGGATGAGGACGTTGTCACGGTGCGGGATGCTTTTCAATCGGAAATCGCGCCGAAGGCCGAGGTGTTCTATGAGCAGGGCAGCGGCATACTGGAGGAGCTGGACGGCGGAGTCGATCGTGCCGTTCAGCTTGCCAAGCAGTGTGATGTCGCCGTGGTCGTTGTCGGCGAATCCGAAGCGATGACCGGCGAGCACTACAATGTGACGTCCATTACGCTTCCACCCTGCCAGGAACGCCTGATACGGGAGCTGAAGCGGCAGACCGGCACGCCGGTCATTGCCGTGCTGATGAACGGCCGTCCGCTTGCGACTCCATGGCTGCATGAGCACGCCGATGCCGTGGTGGAAGCTTGGCATTTGGGAACCGCCGCAGGCCTAGCGCTTGTAGACGTGCTGACGGGCGCGTACAATCCGAGCGGTCGCCTGCCGGTTACCGTTCCGCGCGCGACGGGCCAAATTCCGATGTATTACAACCGGAAGAATACCGGGCGGCCCCACCTATACGAAGATTATATCGATTGCGATGATTCTCCGCTGTATCCGTTCGGGTACGGCCTTAGTTATACAACGTTCGAATATACGGATCTGCAGCTGGATCGGCATCAGATCGGCCGGGACGAATCCGTGCGTGTATCCGTGAGCATCACGAATACGGGATCCAGAGCCGGCGAGGAAACCGCGCAGCTCTACATCCGCGACTTGGTGGCAAGCTCGACCCGGCCGGTCAAAGAGCTAAAGGGGTTTTCCAAGGTGCGGCTGCAGCCTGGTGAAAGCCGTGAGGTGCATTTTATGCTGGGACGTGAAGAATTGGGGCTGCTGGATGAAAGGCTTGAATTTACGGTAGAGCCCGGAAAGTTCCATGTCTGGGTCGGACCGCATTCGGAGGAAGGACTGCAGGCTGAACTTGAGGTTGTTGAATAA	MDNVEQRAKDLLAQMTLAEKIGQTVQYGRCEERELKLVAEGKIGSLLNVHGPKKINELQRLAVEETRLGIPLLIGDDVIHGFRTIFPIPLGEAASWDLEGMEKNARIAAEEAAAEGIRWTFAPMVDVTRDPRWGRIAESTGEDAYLSSLAAAAKVRGFQSPNGDGNPTVAACVKHFAGYGWIEGGRDYDTTDMSERTLRETVLPPFEHGIRAGALSVMSAFSELNGVPASGSRYLLRDILKQEWGFEGMVVSDWESIEELVYHGYAEDRKDSARKGLNAGVDMDMHSGVYLDHLEALVQDNPELLQLLDDAVLRILRVKIRLGLFENPYVSEEGEEAGDLLKGRAIPAAHLAQARDSARKSIVLLQNRGGMLPLDTGKHKKLALIGPLADDRHNSMGCWAWKGRDEDVVTVRDAFQSEIAPKAEVFYEQGSGILEELDGGVDRAVQLAKQCDVAVVVVGESEAMTGEHYNVTSITLPPCQERLIRELKRQTGTPVIAVLMNGRPLATPWLHEHADAVVEAWHLGTAAGLALVDVLTGAYNPSGRLPVTVPRATGQIPMYYNRKNTGRPHLYEDYIDCDDSPLYPFGYGLSYTTFEYTDLQLDRHQIGRDESVRVSVSITNTGSRAGEETAQLYIRDLVASSTRPVKELKGFSKVRLQPGESREVHFMLGREELGLLDERLEFTVEPGKFHVWVGPHSEEGLQAELEVVE	PGPT0019110_5841	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
AK002_00518	2073			hypothetical protein	ATGGACTACCGCGTAATCAAAGAAGGAGACGTGTTTTTTCTGACCGGGCTTAACGGAGATATCGTCCAGGGGGACGATCAGGGCCATGGTTTGTATACGAAGGATACGCGTTTTCTGAGCCGCATGGAGCTGTTCATCGATGGCGAGAAGCCTTCGCTTCTGTCCTCCACGGGGGATAAAAGCTATGTGGCCTCCTTCCGCCTGATGAAGGATGCCAAGGATGAAGGGGCGATCGAAGTACTTCGGGAACGCTTCATCTATGATGGCGTCCTGTACGAGCGCTGTACGCTGACCAATTACTTTGTGACCGATTCGAATATCGAGTTCGGGGTTTCCTTTGATGCGGATTTTCAGGATATGTTCCTGGTCCGTAAATACCGTACGGGCGAAGTCGGCAAAATGGAAGGGATTCGGACAGGCGATCAAGAGATGACGCTGGCCTACGTCGGCGCCGACAAGCTGAGAAGGCAGACGCGCATTGCCTGGGATGCGGACGGCGGTAAAGCGGATGATACCGGCACGGTTTCATTCTCCTTGTCCCTGAAAGCCAAAGAGCAGAAGGTGATTACGTTCTTTGTCACGCCGATGACGGAGCGGCAACCCGCAGCAGAGACGCTGACTTATGAAGAGGGGCTGAAGAAACTCGAAGCCTCGTACGAAGCTTGGTACGGGAACAGCTCGCAGGTCCAGTCGGATTCCGCGCTGTTCAGCGGCTTGTACCAGAGAGGATTGCAGGATCTGCGCATGCTGACGACGGATGTAGGCTTCGGCGATACAACGGTAGCCGGACTGCCATGGTTCGCGGTTCCGTTCGGCAGAGACAGCTTGATCACGGCGTTGTTCATGCTTCCGGCGAACCCGCAGCTTGCCAAAGGAACCTTGAGAACGCTGGCGGCTTATCAAGGCGAGAAGACGGACCCTTGGCGGGATGAGCAGCCGGGCAAAATCATGCATGAGATCCGCTATGGAGAGCTGGTCACGACGAACCAGTCCCCGTTCTCGCCGTATTACGGCACCATCGATTCCACGCCGCTGTTCCTGGCGCTGATCGGCGAGTATTACCGCTGGACGGGCGATCTCTCCCTGGCGGAGGAGCTCAAACCGAACGTGCTGCGGGCACTGGATTATATCGATGCAGCGCTCGAAGCGGGCTCCGGCTTCATGGCCTACAAGCAGGAAGCCGAGAAAGGCTTCCCGAACCAGGGCTGGAAGGATTCCGCCAACTCGATCATCCATGAGAACGGCGAGTATGCGGAATCGCCGATCGCGCTGTCGGAGGTTCAGGGTTACGTGTATCAAGCGAAGCAATCGCTGGTACCCGTCTTCGCGGAGCTGGGCGAGCCGGAACTGGCCCGCAAGCTGGAAACGGAAGCCGAGGAGCTTCGCGTCCGTTTTGAAGCGGCCTTCTGGATGGAGGATGAGCAGTGTTACGCCATTGCGCTTGATAAGGATCAACGCCAGGTACGCAGCGTGACCTCGAACCCCGGGCATCTGCTCATGAGCGGATTGCCGGAAGAGAGCCGCTCGAAGGCGCAAGCCGAGCGGATGCTTAGAAGCGACATGTTCAACGGATACGGCATCCGCACGATGAGTACTGGCTCCACCGGCTACTATCCGGTGAGCTATCACAATGGAAGCGTATGGCCGCATGACAATGCCATGATCCTGCTGGGTCTCGGCAAGCAAGGATTCAAAGCTGAGGCGGGGAAGGTGATTTCCGGCCTGCTGCGGGCATCGGCGCATTTTGAATATCAGCGTTTGCCTGAGCTGTTCTGCGGTCATGATGCGAAGCTGGGCCATCCGGTTCCGTACCCGACAACCTGTTCGCCGCAGGCTTGGGCGGCGGGAACCTCGATCGTCTTCCTGCAGGCGATGCTCGGATTGTATCCGAACGCGGCGAAGAAGGAAATCGCGTTGTCCCCGTTCCTTCCGGAAGGGATGAACGAACTGAAGGCCGAACGGATTGCGATCGGAAGCGGGCACCTGTCGGTTAGCGTTGCGCGTAAGGCTGACGGCAGCGCGTTTCATGTGGAAGTGCTTGAGAATACAACCGGATTTGACCTGGTTAGCTGA	MDYRVIKEGDVFFLTGLNGDIVQGDDQGHGLYTKDTRFLSRMELFIDGEKPSLLSSTGDKSYVASFRLMKDAKDEGAIEVLRERFIYDGVLYERCTLTNYFVTDSNIEFGVSFDADFQDMFLVRKYRTGEVGKMEGIRTGDQEMTLAYVGADKLRRQTRIAWDADGGKADDTGTVSFSLSLKAKEQKVITFFVTPMTERQPAAETLTYEEGLKKLEASYEAWYGNSSQVQSDSALFSGLYQRGLQDLRMLTTDVGFGDTTVAGLPWFAVPFGRDSLITALFMLPANPQLAKGTLRTLAAYQGEKTDPWRDEQPGKIMHEIRYGELVTTNQSPFSPYYGTIDSTPLFLALIGEYYRWTGDLSLAEELKPNVLRALDYIDAALEAGSGFMAYKQEAEKGFPNQGWKDSANSIIHENGEYAESPIALSEVQGYVYQAKQSLVPVFAELGEPELARKLETEAEELRVRFEAAFWMEDEQCYAIALDKDQRQVRSVTSNPGHLLMSGLPEESRSKAQAERMLRSDMFNGYGIRTMSTGSTGYYPVSYHNGSVWPHDNAMILLGLGKQGFKAEAGKVISGLLRASAHFEYQRLPELFCGHDAKLGHPVPYPTTCSPQAWAAGTSIVFLQAMLGLYPNAAKKEIALSPFLPEGMNELKAERIAIGSGHLSVSVARKADGSAFHVEVLENTTGFDLVS				NA	NA	NA	NA	NA
AK002_00519	471			hypothetical protein	ATGAATTCCTATTGTACATATGCCCTACATCAGATCGAGGTGGGTGTCGTCTCAGTTGTCGCCATCATCGATAAGCTGGATGAAGGGGATTTGCTCGTAAAGCCGACGGAAGGCAAACATTCGGTCGGAGAGCTGCTCAAGCATATCGCCGTCATCTGCCGGGCCGATTTCCATATATCCGGAGGAGCCACCCAAGAGGAGATGAGCGCCTATTACGCAGGCGTGTCGTTAAATAACCTGAAGGACATACAGGCGGAGTTATTGAGCAACTATTCATATCTGGAGCAGGCGTTCCGAGAAATGACGGAAGAGGAGCTTCATCAGGAGATGACCTCTTATTGGGGCGTCACCTATTCCAGGTACGAATGGCTGCTCGAAATCGTGACGCATCTGTATCACCACAGGGGGCAGCTGCATGCGATGCTGGTTCACTGCAACGGGAAGGACCCGAAGGTTCCTTTGTTCGAATAG	MNSYCTYALHQIEVGVVSVVAIIDKLDEGDLLVKPTEGKHSVGELLKHIAVICRADFHISGGATQEEMSAYYAGVSLNNLKDIQAELLSNYSYLEQAFREMTEEELHQEMTSYWGVTYSRYEWLLEIVTHLYHHRGQLHAMLVHCNGKDPKVPLFE				NA	NA	NA	NA	NA
AK002_00520	555	glpP	COG1954	Glycerol uptake operon antiterminator regulatory protein	ATGACAGATCAAGGGAGACGCCGTCTTCCCGTTATTGCTTCGATTACCAAGCTGGAACAGATCGATGCGGCTGTGAACAGCGCGGTGGAACGGGTGAACCTGATGACAGGCGACATCATGAAACTAAGGGATATCGTAAACCGACTGCACTCCTCAGGCAAAAAAGTGTTTGTCCATCTGGAAATGGTAAGCGGCATCGGCCGGGATAATTCGGCAGTGCAGTATTTGGCGGATTCGTACAAGATCGACGGGATCATTACGACGAAGACGAATACGGTATTGGCTTCGCGCCAAGCAGGCATCAGCTCGATACAGCGCGTGTTTGCGATCGATACGACAGCTTTGGGAACCGCAGTGAAGATGATCGGACAAGCACGTCCGGATGAAGTGGAATTGATGCCGGGACTTATGCCTCGCGTCATCCGCGATCTGAAGAAGGAAATTCACTGTCCGCTCATAGTGGGAGGTTTTTTACGAAGCGAAGAAGAAATCGACGAGGCGCTGGCGAATGGCGCAGACCTCGTATCTACGGGAGACACGCGTTTTTGGACGTAA	MTDQGRRRLPVIASITKLEQIDAAVNSAVERVNLMTGDIMKLRDIVNRLHSSGKKVFVHLEMVSGIGRDNSAVQYLADSYKIDGIITTKTNTVLASRQAGISSIQRVFAIDTTALGTAVKMIGQARPDEVELMPGLMPRVIRDLKKEIHCPLIVGGFLRSEEEIDEALANGADLVSTGDTRFWT	PGPT0022030_476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443	NA	NA
AK002_00521	1338	ugpB_2	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGAAAAAGAAATCATGGTTGTTAATGTTACTGACCATATTTATGGTGATTACCACGGCTTGCGGAGGCGGCGGTGGAAGTGAAAGTGCCGGAGGAGAGGTTTCGCTGGATGACGTGGAAGCCGCTTCGATGGATATGAAGAACGACACGACACCCGTTAAAATCCAATACTGGCATGCCCACGCGGATGCACAGCTTGAAGGCTTGAACTACATGATTGCCGAATTCCAGAAGAAGTACCCTCATATTACGGTAGAGCCGGTGTTCCAAGGCGGTTATCCTGATCTTCACAAAAAATTATCGGCTGCAGTGGCTGCGAATGACGTGCCGGCTGTTACGAATGTCGAGGTTGCGTCCTTGCCAAACTTTGCGGACAGCGGAGTGTTCTCTGATTTGGGCCCATGGATTAAGCGCGATGAAGTGAAGATGGACGATTTCGCCAAAGGGATGCTGAATGCATATGCATTCAATGGCAAGCAATATGGATTCCCTCTGATCGTCAGTACCAGCGTGTTTGTATACAACAAAACGATGCTGGACGAGCTGGGTGTAGAACCGCCGCAGAAGTGGGATGAGATCGATGATTTTAATGCAAAGGTAACGAAAAAAGAAGGCGACAAAACGACCCGTTATGCCTTCTCCGTTCCAGGCTGGGATACGTGGTACTACGATCCGTGGAACATTAACGGCGGCGGACAAATCCTGACGGAGGACCTGAGTGCTTCCGCTGTCGAGACCGAGGATTCTCTCCGGTACCTCCAGAACTTCTACAAGTGGCAAAATGAAGGCAGCATGCATATGGGCTTCGGTAAAGGAGCTTCCGACAATATGCGCCAGATGTTCCTGAACGGCGAAATCGCCATGGTGCAGCATTCATCGGCTTTGCTCAAGATGTACCGCGAGAATGCGGACTTTGAGGTTGGCGTATCCTTTATCCCTGGCGATAAAGTGCGGACCTCCAATATTGGCGGCGCGGGGATCGTCATGATGGACGGCGCCGAGGATCTGGAGAAAGAGGCGGCTTGGAAATTCATCGAGTTCATGACTTCGGCGGAGCACAACATTAAGTGGGCTGAATCCGTTGGATACCTGCCGACAAGAAAATCCGCAATCGAGTCAGAAGAAGGCGATCAATATTTCGAAAGATGGCCGCAATACAGAGCGGTATACGAGCACTTCGACGAAGTAACGCCGCGTCTGCAGCATCCGGCTTATCCTGAATTCAGCGAAGTCTACAAAGAAGTCATCGGGGAGATGGTATTGAACAAAAAAGATCCTATACCACTTATGCAGGATGCAGCCAAGAAGATCAACGATATTCTGGCTGACTATGAGTGA	MKKKSWLLMLLTIFMVITTACGGGGGSESAGGEVSLDDVEAASMDMKNDTTPVKIQYWHAHADAQLEGLNYMIAEFQKKYPHITVEPVFQGGYPDLHKKLSAAVAANDVPAVTNVEVASLPNFADSGVFSDLGPWIKRDEVKMDDFAKGMLNAYAFNGKQYGFPLIVSTSVFVYNKTMLDELGVEPPQKWDEIDDFNAKVTKKEGDKTTRYAFSVPGWDTWYYDPWNINGGGQILTEDLSASAVETEDSLRYLQNFYKWQNEGSMHMGFGKGASDNMRQMFLNGEIAMVQHSSALLKMYRENADFEVGVSFIPGDKVRTSNIGGAGIVMMDGAEDLEKEAAWKFIEFMTSAEHNIKWAESVGYLPTRKSAIESEEGDQYFERWPQYRAVYEHFDEVTPRLQHPAYPEFSEVYKEVIGEMVLNKKDPIPLMQDAAKKINDILADYE	PGPT0016835_448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016835-ugpB-K05813	NA	NA
AK002_00522	957	melD_3	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGCCTATGGAGACCAATAAAGCAATGACAAAGGCGGCGTCCGATCGGGCGACCGCTTCGGTCTCTAAACGGATGTCTCATACGTTGATCGAGAAGTGGAAGGACTTCTCGTTCGCAGTTCCGGCCTTGCTGTTTATGGGCGTGTTCCTGTATTATCCGCTGGGTTATTCCATCTACATCAGCTTCACGAATTGGAACATGACCCGTCCCGTGAAGAAATTCGTGGGCGTCGATAACTATACGCGCTTGCTGTCGAACTCGGATTTCTATCACTCCTTAAAGGTCACGTTCTTGTATACCGTCATGGACGTTGTATTCACGCTGGTCATCGGGCTGCTGCTGGCCTTGCTGCTCAACGTGTCATCGTCACGGTTGTTCGGTTTCTTGCGCGGCGTCGTTTTTATGCCCTATTACATCTCAATGGTAGTCGCGGCCATGGTATTTACATGGATTTACAATGGACAATACGGGCTATTGAATTCCATTGTTTCCTGGTTCGGCATGGAGCCGGTCGAATGGCTGACCAACCCTTCGACGGCATTGCCGGCGCTGGTTGCCGTTTCGGTCTGGAAGGGCGTCGGGTTTGCGATGATCCTCTTTATTGCAGGCATGCGCGGAATTCCGGCCGAGTATTATGAGGCGGCCTCCATTGATGGAGCCAGCAAGTTCCGGCAGTTCCGCAACATTACGCTGCCGCTATTGTCGCCGATGACCTTGTTTCTGGTCATCACCAGCTTTATTTCCTCCATGCAGGTGTTCCAGTCGATCGACGTCATGACGGGCGGCGGTCCGCTCAAGGCAACGAATGCGATCGTGTACTGGATCTATACGATGGCCTTTGATGAATTCAAAACAGGAAGAGCCTCGGCGCTTGTCATGATTCTGTTCGTGATCATATTGCTGTTAACATTGGTACAATGGGTGGTCAGCAGGAAGAAGGTGCACTATGAAGGATAA	MPMETNKAMTKAASDRATASVSKRMSHTLIEKWKDFSFAVPALLFMGVFLYYPLGYSIYISFTNWNMTRPVKKFVGVDNYTRLLSNSDFYHSLKVTFLYTVMDVVFTLVIGLLLALLLNVSSSRLFGFLRGVVFMPYYISMVVAAMVFTWIYNGQYGLLNSIVSWFGMEPVEWLTNPSTALPALVAVSVWKGVGFAMILFIAGMRGIPAEYYEAASIDGASKFRQFRNITLPLLSPMTLFLVITSFISSMQVFQSIDVMTGGGPLKATNAIVYWIYTMAFDEFKTGRASALVMILFVIILLLTLVQWVVSRKKVHYEG	PGPT0016840_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016840-ugpA-K05814	NA	NA
AK002_00523	861	araQ_7	COG0395	L-arabinose transport system permease protein AraQ	ATGAAGGATAATTATATGGCTGGATCCGCCAAGAACCGAAAGACCATAATGACGCTCCGCGTAATCGGAGCCGTGATCGTGACCCTTGTCATGTTCTTTCCGGTGTACTGGCTGCTGATCAGCGCGCTCAAGACGCAGTCTGAGATGCGGATGGCCGTTCCTACATTTTGGCCGGAAACCTTTGCCTGGCAGAACTTTGCCGAAGCCTTCCGGGTTATCCCTTACGCGCGGTTCTTCGGCAATACCTTGCTCATGGCGGTCGGAACCATAATTCTGCAGCTGAACGTGGCGCTCATGGCCGCTTATGCATTCGCGAAGGGGAAGTTCTGGGGACGGGACGCGCTGTTTCTGTTGGTGCTTGCCGCGTTGATCGTGCCGGAACAGGTGATTTTCGTTCCCGTGTACGTCATGATGTCCAAGCTCGATTGGCTGAATACCTTCTGGGCGCTCATCGTGCCACACGGGGCGTCCGCCTATGCGATATTCCTGCTCCGGCAGGCGTTCAAATCGATTAACAACGACGTGCTGGAAGCGGCGCGCGTGGATGGAGCCGGACGATTCTCCATTCTGTACAAGCTGTTGTTCCCGATGGCGATGCCGACGATCGTCACCATGGGCGTGTTGATCTTCATTTCGTCCTGGAACTCGTATTTCTGGCCGCTGATCATGACCAACAACAACGACATGCGTGTGCTTACGGTGGGCATAGCAATGCTGCGTGATTCCATCGCCGGGAATGAAGCGATGTTCTTCAACGTCATAATGGCGTCCAGCGTCATGGCGATCATCCCGATCGTGCTGGTCTTTACGGTGATGCAAAAGCATATCGTGGCCGCGATGGCGAACTCGACGTTTAAATAA	MKDNYMAGSAKNRKTIMTLRVIGAVIVTLVMFFPVYWLLISALKTQSEMRMAVPTFWPETFAWQNFAEAFRVIPYARFFGNTLLMAVGTIILQLNVALMAAYAFAKGKFWGRDALFLLVLAALIVPEQVIFVPVYVMMSKLDWLNTFWALIVPHGASAYAIFLLRQAFKSINNDVLEAARVDGAGRFSILYKLLFPMAMPTIVTMGVLIFISSWNSYFWPLIMTNNNDMRVLTVGIAMLRDSIAGNEAMFFNVIMASSVMAIIPIVLVFTVMQKHIVAAMANSTFK	PGPT0016845_433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016845-ugpE-K05815	NA	NA
AK002_00524	720	glpQ_1	COG0584	Glycerophosphodiester phosphodiesterase	ATGGAAGTACGGGGATTGGCCCATCGAGGGTATCCGCTCAAATATCCGGAGAACACGATGCTGGGCTTTCGGAAAGCGCTGGAGCTTGGTTTCTCGCACCTGGAGCTGGATGTCCAGCTGACGAAGGACGGCGTGCCTGTCGTGATTCATGATCCTACGGTTAACCGGACGACCAACGGAACCGGAGCGATCAATGCCTTCACGCTGGAGGAAATACGCAAGCTGGATGCAGGCCGGGGGGAAGTCATCCCCACGCTGGAGGAAGCGCTGCTTTTTGCCAAGGATCGGATGATCGTTGACATCGAGCTGAAGCAGATGGGGGACACCTATCCCGGGCTGGAACAGAAGGTCATTGACGTGATCAAGGATACGGGCATGGATAAGCAGGTATTCCTGACCTCCTTCGATCATTATTCGATAGAACGTGCCCGTTCCCTTGATCCTAACATCGAGCTGGGGCTTGTGATTTATGGGGCGACGCCATCGGTCTTTCCTTATCTGGAACAGATCGGCGCTCGCTATGTGTCCGTCAAATATGTATACGTGACCCCTTCGTTTATGGAGGAAGCGCGCAAGCGGGGGATCCAGCTCATCGTCTGGACGCCGGATGACGAGGCGGTATTGGCATCCCTTGCCCAGTATCCTGAACTCTTGATCGTAACGAACAACTTGGAAGGCTGGGCCAAAGTGTACAAAGAAAAGATTGCACTGAATGCTTAG	MEVRGLAHRGYPLKYPENTMLGFRKALELGFSHLELDVQLTKDGVPVVIHDPTVNRTTNGTGAINAFTLEEIRKLDAGRGEVIPTLEEALLFAKDRMIVDIELKQMGDTYPGLEQKVIDVIKDTGMDKQVFLTSFDHYSIERARSLDPNIELGLVIYGATPSVFPYLEQIGARYVSVKYVYVTPSFMEEARKRGIQLIVWTPDDEAVLASLAQYPELLIVTNNLEGWAKVYKEKIALNA	PGPT0018470_8085	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_00525	1455	farB_1		Fatty acid resistance protein FarB	TTGGATATGGGAGTGGGGCCAAGTTCGGCCAAGATTAATTTAAGCAAAATAAAGAGAGGGCCGATCGTTGCCGCACTGATTATCGGCGCGTTCGTGTCCATCTTGAATGAGACATTGCTGAACATCGCTTTCCCAAGCTTGATGGAGCAGTTTGGCATTGGGGAGTCCACGGTGCAGTGGCTTTCCACATCTTACATGCTGGTTGTCGGTATTCTGGTGCCGGTCACGGCGCTGCTGCAGCTTTGGTTCACGACAAGACAGATGTTTATTGGCGCTATGTCGCTATTCCTGATAGGTACGATTATATGCGGCTTCTCGCCGGTATTCGGGGTGCTGCTGGTAGGCCGTATCCTGCAAGCCGTCGGAACGGGGCTTATGCTGCCGGTTCTGATGAACACCATACTTAGCATTTATCCGCCTCAGAATCGCGGAGCCGCAATGGGGATGATCGGTCTGGTCATCATGACGGCACCGGCGATCGGACCGACGCTTTCCGGTTTGATCGTGGATGCTCTGAACTGGCGCTGGTTGTTCTACCTGGTCATTCCGCTTGCTGCGTTCTCCATCGTGTTTGCCGCGGTGTTCCTGAAGAACGTATCGGAACTGACCAAGCCGAAGGTCGATTACATTTCGATTATTCTGTCTACCATCGGTTTCGGGGGAATCGTATATGGATTCAGCAGTGCCGGCGAAGGCACCTGGTCTGATCCGAAGGTCATATGGTGCATTACCGCCGGGGCTATCAGCTTGCTGCTCTTCGTATGGCGCCAGCTGAAGATGGAGGAACCGATGCTGGATCTGCGTACCTTCAAATTTCCGATGTTCTCCCTCGTGACCGTGCTGATGCTGGTACTTATGATGAGCATGTTCTCCACCATGATCATGCTGCCGCTGTTCCTGCAGAACGCGCTGGGCTTGACTGCGCTATCGGCGGGTCTGGTCATGATGCCGGGCGGGATCATCAACGGATTGATGGCGCCGATTACAGGGAAGCTGTTCGATAAATTGGGACCGCGCGTTCTGATTATTCCCGGCTTGGCGCTGCTGAGCATCGCCATCTTCCTGTTCTCGCGCATCGACGCTTCATGGACGGGTGGTTATGTCATCTTCCTTCATGTTATGATGATGATAGGGATTTCGATGGTTATGATGCCGGCCCAAACCACGGCTTTGAATCAGCTGCCGCGCTTGCTGTATCCGCATGGAACGGCGATCATGAATACTCTGCAGCAGGTGGCGGGAGCTGTCGGTATGGCGCTCTTTATCAGCATCATGACTGCAGGTGCTAAAAATTACGTTGAAACAACCGGGGATCTCAATCCGGTGCAAAGCATGGTTGCCGGTCTTCATAATGCTTTCGTAATCGGACTTGTTCTTGCAATCATCGCTTTCGTGCTGGGCTTATTTGTTAAACGTACGTCTTCACCCGTTGAAGAAAAACAGTCTGCCGCATAA	MDMGVGPSSAKINLSKIKRGPIVAALIIGAFVSILNETLLNIAFPSLMEQFGIGESTVQWLSTSYMLVVGILVPVTALLQLWFTTRQMFIGAMSLFLIGTIICGFSPVFGVLLVGRILQAVGTGLMLPVLMNTILSIYPPQNRGAAMGMIGLVIMTAPAIGPTLSGLIVDALNWRWLFYLVIPLAAFSIVFAAVFLKNVSELTKPKVDYISIILSTIGFGGIVYGFSSAGEGTWSDPKVIWCITAGAISLLLFVWRQLKMEEPMLDLRTFKFPMFSLVTVLMLVLMMSMFSTMIMLPLFLQNALGLTALSAGLVMMPGGIINGLMAPITGKLFDKLGPRVLIIPGLALLSIAIFLFSRIDASWTGGYVIFLHVMMMIGISMVMMPAQTTALNQLPRLLYPHGTAIMNTLQQVAGAVGMALFISIMTAGAKNYVETTGDLNPVQSMVAGLHNAFVIGLVLAIIAFVLGLFVKRTSSPVEEKQSAA	PGPT0028570_458	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028570-lmrB-K18926	NA	NA
AK002_00526	591			hypothetical protein	TTGCCGAAAGAGAATGACGAGTTGGGTCAAAAGATTTTGGATACGGCTCAGGCCTTATTTAACAAATACGGAGTCGAGGACGTCTCCATGCATCAAGTGGCCAAAACGGCGGGGATCGGTCAAGGCACCCTATACCGCCGGTATCCCAGCAAGAGCAAGATTTGCTTCACGCTGATGGAGGCCAAGATCGACCGGTTTATGGAAGGGCTGGACGTTTATCTTCGCAGTAGCGAAGGCGAAACGGTAGCACACCAGCTGCGGACCGTGATGACGAAGGTGATTCTGCATTTCAACGAGGATCTGGAGTGGCTCAGGGTGATGCTGACCTCTGACCGGTTGGAGGACACCAAGAACATTATGTGCGAGAACCCGCCCTTCACGTATTTGCGCTTACAGATCAAGCGTCTGCTGGAGCTTGCGGCTGAGCGGGGAGAGCTGATGCCCCTGGATCCTCTGTTCACCTCCGTGATGCTGGCATCCCTGCCGCGGGCCGATATTATTCTGTACATGCGCGATATGGGATACAGCGCGGAACAGATTGCGGAGGAATATTGCCGAAGCTTCGTGGACCCGCTATTTATACAACGCTAA	MPKENDELGQKILDTAQALFNKYGVEDVSMHQVAKTAGIGQGTLYRRYPSKSKICFTLMEAKIDRFMEGLDVYLRSSEGETVAHQLRTVMTKVILHFNEDLEWLRVMLTSDRLEDTKNIMCENPPFTYLRLQIKRLLELAAERGELMPLDPLFTSVMLASLPRADIILYMRDMGYSAEQIAEEYCRSFVDPLFIQR				NA	NA	NA	NA	NA
AK002_00527	1032			Protease inhibitor	ATGAACAAACAATGGAAGAAGCAAGCAGCGACGCTGATGGTTGCGGCCATGGCCGTTTCCGGCGGCGCAGCGGCTTATGCGGCACCCCAAGCCGGAGACAGCCAGGATCAGAAGCCGGTGGTGATCTCGGCGGTCATCGATTACGGAGTTCTGGTCAACGGCAAGGTAGTAACTGGAGCCGGATTTATGAATGCCGACGCGAAACAGGTCATGATCCCGCTGCGCAGCGTATCCGAGGCGCTCGGATTCGAACTGGAGTGGAATCTACAGGACCGCTCTGCGGAGCTGACCAAACCGGGATCGCCGATCTGGACCCTCGTGCAAACGGGCAAAGACCAGTATGCGGTTAACAAAATGTATAAGTCCCTCGGCGCTGCTCCGGTGAACGTAAAAGGCACGCTGTATGTTCCTGCGAGCTTCTTCAGCGAAGTGCTCCAGGTTAACGTCGCGGTTGATGGAACGAAGGTAAACATCACGTCCGAAGAAGAGGTTAAGAAGGAATCCGTGGTCGGAACCATCACGGAAGTTATCCATAACGAAGAACGCAAAGCCGTTCATATTAACGGTACGGGTACCGAAGGAATCGTGCTGAACGTGGATGAGAACACGGTCATCCGCGATGCGGGGGGCAAGAAGATCGAGCTTAAGGATCTTGCAAAAGGCATGAAGATCGAAGCGGTGCACAGCCTGGCGATGACGATGAGCCTGCCGCCTCAAACGTATGCTTACGAAATCAGCGTGAAGTCCGACAAGGAAGAGACGGAGCAGCTGGCTACGGCCGGCGCCATCACCGACATCAATGCGGATGGCGGCAACCTGCGCGTAACGATCAAGGGCAAAGGGTTGACGGAACAATCCCCCAATGAAGTCGTCCTAAATCTGACGCCCGAGACGGTTGTCGTGAATAAAGACGGCAAAGCCTTGAAAACGAGCGACTTGGCTGACGATGCGGAAATTATCGGCTACTACGGCCCGGTACTAACCAAGAGTCTGCCGCCAATCGGCAATGCCATCAAAATCGTTCTTCAATAA	MNKQWKKQAATLMVAAMAVSGGAAAYAAPQAGDSQDQKPVVISAVIDYGVLVNGKVVTGAGFMNADAKQVMIPLRSVSEALGFELEWNLQDRSAELTKPGSPIWTLVQTGKDQYAVNKMYKSLGAAPVNVKGTLYVPASFFSEVLQVNVAVDGTKVNITSEEEVKKESVVGTITEVIHNEERKAVHINGTGTEGIVLNVDENTVIRDAGGKKIELKDLAKGMKIEAVHSLAMTMSLPPQTYAYEISVKSDKEETEQLATAGAITDINADGGNLRVTIKGKGLTEQSPNEVVLNLTPETVVVNKDGKALKTSDLADDAEIIGYYGPVLTKSLPPIGNAIKIVLQ				NA	NA	NA	NA	NA
AK002_00528	717			hypothetical protein	ATGGAACTCCTAAAGGATCTTCTGCAAGTGCTTGGGAGAATTTATACCATTTACCCGCTGCTCTTGGGCGTTACTCTTTTCATGGGCCGCCGCTCCATCGCCGAGCTTCCCGTTTTCGACTACATCATTATCCTGTCCCTGGGCTCCGTGGTCGGAGCAGATATCGCGGATCCCAAAATCGAACATATCCATACCGCTTTTGCGATCATTGCCATCGGCTTGTTACAGAAGCTTGCCTCGATCCTGCTTGTGAAGAGCCGGCGCATCGGCAAGTGGATTACATTTGAACCGCTGATTGTCGTTAAAGACGGGCAGTTCGTTTATCCGAATATGAAAAAAGCACGTTACTCCATCGATAACATTTTGCAAATGCTGCGCAAGGAACAGATCTTCGATATGGCTGAAGTCGATATGGCCGTGCTGGAGCCGAGCGGTGCCTTATCCATCCTGAAAAAGATGGAGAAGACCGCCGTGACGCTGGAGGACCTGAAGTTAAAGCGGCAGAATGCCGGTCTGTCCTACGCCGTCGTCAAAGAAGGACGCATTCAAACGATTACCCTCCAAAAGTTAAACCTTACCGGAGAATGGCTGGAGACTCAGCTGGGTGAGCGGGGAATCCCCCTTGATCAAGTATTCTTCGCTTCACTCGATGAACAGAAGTATTTAAATATCACCATTTACGATAAGGAAATTCCGCTCCCCCCCTTGTATCATTAA	MELLKDLLQVLGRIYTIYPLLLGVTLFMGRRSIAELPVFDYIIILSLGSVVGADIADPKIEHIHTAFAIIAIGLLQKLASILLVKSRRIGKWITFEPLIVVKDGQFVYPNMKKARYSIDNILQMLRKEQIFDMAEVDMAVLEPSGALSILKKMEKTAVTLEDLKLKRQNAGLSYAVVKEGRIQTITLQKLNLTGEWLETQLGERGIPLDQVFFASLDEQKYLNITIYDKEIPLPPLYH				NA	NA	NA	NA	NA
AK002_00529	1323	yagG	COG2211	Putative glycoside/cation symporter YagG	ATGAAGCGCAGTTGGGTGAATTCGCCGTATTCATTTTCGCTGGGCATGTTTGCCATGATGGTTCCGAGTCAGGCGTTCAGCTCCTTTTACATCTTTTTCTACGTCGATACCTTGGGTCTTGGCATAGGGCTGGCATCTCTGGCAAGAACCGTATTTCTGATCTGGGATGCGGTAAACAATCCGCTTATGGGGTATTGGTCCGATCGCACCAGAACCAGGCTGGGACGACGCAGGCCGTGGGTATTCGGGGCGATTCCGCTCTTCATGCTGACCTTCGTGCTCGTGTTCTCGCCGCCGGAAGGACTGTCTGAGAACGGGCTGTTTATGTGGTTTTTGGTTGCGCTTATCCTGTATGAAGCCGTGGCAACCGTATTATGGGTCAATTATGGGGCGCTGTTCCCCGAACTTTTCCGCGGAGACCGCATCCGGGCGAAGGCCTCGGCCATCCAGCAGGGCTATCAAGTGGTGGCATTGTTGATCGGTACTGCGCTGACTCCGATCATCTATGACGCCATGGGATTTTCGAACATGGCGATCCTGTACGCGCTGCTGTTCGGCGTGTTCATGTTCCTGTGCATGATGAGCGTCCGCGAGGAAGAGTCGTACAGCGCAAGCGAGCCGCTCAAGCTTGTCCACGCATTTCGTGAAACGCTGCGCAACAAGAAGTTCTGGGTGTTCAACATCTCCAATTCCTTTGCCCAGACGGTGAATGGACTGATAAGCTCCACGATCCCTTTTTACGCAAAATACGTGCTTCGCATCCCGGACAATCAAGTGTCGATTCTGCTGGCAGCCGTGTTTGTATCCGTCATCCCCTTGGTGTTCGTGTGGTACTGGATGATCCGCCGGATGGACGGCGTGAAGGCATGGCGTTTGTCGCTGGGGATATATGCGTTATCCGTCATCCCTCTGTGGTTTGGCTATGATCTGATCAGCGGCATTTTGGCGGGGATCGGAGTAGGGTTCGGTCTGGCGGGATTTCTGGTTACGCCGGCCATGGTTAGCGGCAGCATCATCGATGAGGATGCGGAGCGGACAGGGCTTCGCAGAGAGGGGATTTATACGGCGGTCAGCGGATTTATTACGCGTTCCAGCGGATTGATCTCCGCGCTGGCGTTTTTTGTCGTAGGCATGATATTCGGATATGAAAGCGGTGACAACCCGGGAAGCGATCCGGAATCGACCTTTCGGTACTTAATCAGTGTCGTCCCCTTATGCCTGTTGGCCATTTCCTTCTTGCTATCGTATGCAACCAAAATCGAATTCTCAAAATCCATAGGAGGCGAGCATGACCATGGAGCGAAGACTGATCATCAACTGTGA	MKRSWVNSPYSFSLGMFAMMVPSQAFSSFYIFFYVDTLGLGIGLASLARTVFLIWDAVNNPLMGYWSDRTRTRLGRRRPWVFGAIPLFMLTFVLVFSPPEGLSENGLFMWFLVALILYEAVATVLWVNYGALFPELFRGDRIRAKASAIQQGYQVVALLIGTALTPIIYDAMGFSNMAILYALLFGVFMFLCMMSVREEESYSASEPLKLVHAFRETLRNKKFWVFNISNSFAQTVNGLISSTIPFYAKYVLRIPDNQVSILLAAVFVSVIPLVFVWYWMIRRMDGVKAWRLSLGIYALSVIPLWFGYDLISGILAGIGVGFGLAGFLVTPAMVSGSIIDEDAERTGLRREGIYTAVSGFITRSSGLISALAFFVVGMIFGYESGDNPGSDPESTFRYLISVVPLCLLAISFLLSYATKIEFSKSIGGEHDHGAKTDHQL	PGPT0014410_2818	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-CAPSULAR_COLANIC_ACID_BIOSYNTHESIS,PGPT0014410-TC_GPH|yihO|xynP-K03292	NA	NA
AK002_00530	921	chbG_2		Chitooligosaccharide deacetylase	ATGACCATGGAGCGAAGACTGATCATCAACTGTGACGATTTCGGACAGAGCAAGGCCATGAATGAGGCGATCCGGCATCTGCTGGAGGAGAATAAAGCATCGGCGACCATCATGACCGTGGCCCCCGGCTTTGAGGAGGCAGCCTCCTGGGCCGCACGCCGGCGCCAACCCAATGTAGGGCTGCATCTGACCTTGACGAGCGAATTCGAAGCTTTGCGGTGGAAGAGCTTGACCGGTCATTCTTCGTTGCATGACGCTAGCGGTCACCAATACCGGACGGTTCAGGAGTTTGAACGGGGAGCAGAGACGGGCGCCGTGCTAAAAGAGCTGGAGGCGCAATACCGGCTGGCGAAGAAGGCCGGCATCCGCATCAGCCATGTGGATAACCACATGGGCAGCCTTTACGGGATGGAAACGGGGCGGAGCCTTATTCCGCAGATGCTGTGGAAGACTTCCCGCTGGCGCCTCCCCGCGCGCTTGTTTCGCTATATTCACCCGGAGGATCCGCTGCTCAGCACGCTGCCGAATATCGAGCGGCCGGTGGCGCTTGCCTCCAGCTTGGCCGATACCTTCGGCGTGCCGATCCCGGATTATCTGCTCTCGCATCCGTTTCCCGTCGTCGAGGGAGAGACCTATGAGAGCTTCAAGCAGTCGCTGATCGATAAGCTGTACAGACTCCCCGAAGGGGTCAGCGAAACGTACGTTCACCCGGGAGCGGAGGATGAATGGATGCTGGCGAATATTCCGAATTGGGAGAAGCGGGTATGGGAGTACCGCCTGCTGTTTGATGATGATTTTGCTTACGGTTTGCGGGATGCCAAGGTGATCCTGACGGATTACCGCTACGTGGAGGAGCATCTGAAGCGTCCCCGCGTGCGCTCGGCCGTGAAGCTGATGAAGGCAATGGCCAAAAAAACGTAA	MTMERRLIINCDDFGQSKAMNEAIRHLLEENKASATIMTVAPGFEEAASWAARRRQPNVGLHLTLTSEFEALRWKSLTGHSSLHDASGHQYRTVQEFERGAETGAVLKELEAQYRLAKKAGIRISHVDNHMGSLYGMETGRSLIPQMLWKTSRWRLPARLFRYIHPEDPLLSTLPNIERPVALASSLADTFGVPIPDYLLSHPFPVVEGETYESFKQSLIDKLYRLPEGVSETYVHPGAEDEWMLANIPNWEKRVWEYRLLFDDDFAYGLRDAKVILTDYRYVEEHLKRPRVRSAVKLMKAMAKKT	PGPT0012160_117	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012160-chbG-K03478	NA	NA
AK002_00531	732			hypothetical protein	ATGAAACACAAACTATTTGGCAAGCTCGCCCTATCCGCTGCCCTTCTTGGAACAGCAGCTCTTCCCGTCCATGCCTCGGGTGCCGAAACCCCAGCCGATGCACCGAACCAAACAGGTAAAAGCGCGCCCGTTGCCACCACGGCAACCATTTCCGTTATGCCGAATCCGTTGGAGTTGGCTGAACAATACGCGCCGGAAACGGTTCAGGACTGGAAGGATACGCTGGCGAAATACGGCAAGCTTGCCGGAAGCGAGGGAACCTTCTTTTTCTCGGAGGCCGCGGCTGTCGTTGCAGACAACGGCGAGGTAAAGCCGGTCGCGGCAGAAGGCGAATTCGGAATATCCATTGCCGTGAAGGCTGTTCCGGCTGAAACCGTCAAGGGATTCGTGGACAGTGGCGATATCAAGGATATCAAGATTACCAAGATCAAGGAGCTTGCCCCTCTCGAAAGTACCGCCATCAAAGTAGCGGAAGCCGTGAAAACCGATGCAAGCGACGGGAAGCACGACGTGATCCGTTTCGAGACAGCCAGCGTGAAGGCAGTGAAAATCAGCGATGCAGAGAGTTTGGAAGTGAAGATCGACGATGAGGATCTGGCGTTCGTCCATGCAAGAATCGACCTCTTCAAAGCGGTGGATGCCAAGGACGCCGACTCTATTAAAAAAGCGCTGGCGAAACTGCTGGACCAATACAAGGCACAGATTGCCAAGCTGGAAGCTGAAGCGAAGTAA	MKHKLFGKLALSAALLGTAALPVHASGAETPADAPNQTGKSAPVATTATISVMPNPLELAEQYAPETVQDWKDTLAKYGKLAGSEGTFFFSEAAAVVADNGEVKPVAAEGEFGISIAVKAVPAETVKGFVDSGDIKDIKITKIKELAPLESTAIKVAEAVKTDASDGKHDVIRFETASVKAVKISDAESLEVKIDDEDLAFVHARIDLFKAVDAKDADSIKKALAKLLDQYKAQIAKLEAEAK				NA	NA	NA	NA	NA
AK002_00532	720	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGAACCAAACCTATCTCATCGCCGTTGTGGATGACGATTTGCATATACGAAATTTGGTGGAGGCTTATTTGCGCAAGGAGGGTTACCGGACGGTGGGCCTTGGCACGGCGGAGGAGGGCTGGGACATGTGGAGAACGAATCCGCCGGATATGTGGGTGCTCGATATTATGCTGCCCGGCATGGACGGTTTCGAATTGTGCCGGCGGATCCGCGCGGAAGCCGAGGTCCCGATCATCATGATCTCGGCCAAGGACAGCGAGGTGGATAAAATATTGGGGCTTGAGCTGGGAAGCGACGACTACATGGTCAAGCCGTTCAGCCCTCGCGAGCTGGTTGCCCGAATCAAACGTCAGCTGAGCCGATGGTACAAATTCAACCACGCGGAGCATGTCCCGCGGCTTGCCGCCGCTTCCCCGGAGCTTAGCAATGGGCGGCTTCAGTTACTGCTGGAGGAGAGGCGCGTATTCTGGAACGGGGAAGAAGTGGATATGACCAACAAAGAATTCGAGATGCTGAGAGTGTTTGCCGAGCATCCGAACCGTGCGTTTACCAGGGACGAACTGCTGACCTCCGTATGGGGTGACGATTATTTCGGAAGCGACCGGGCGGTTGACCATCTCATTAAACGGCTGCGCAAGAAAGTGGAGCAGCTGCCGATCGAGGCCATATGGGGACATGGATACCGAATGAGAACGGATGGGGAGGAATCATCGATATGA	MNQTYLIAVVDDDLHIRNLVEAYLRKEGYRTVGLGTAEEGWDMWRTNPPDMWVLDIMLPGMDGFELCRRIRAEAEVPIIMISAKDSEVDKILGLELGSDDYMVKPFSPRELVARIKRQLSRWYKFNHAEHVPRLAAASPELSNGRLQLLLEERRVFWNGEEVDMTNKEFEMLRVFAEHPNRAFTRDELLTSVWGDDYFGSDRAVDHLIKRLRKKVEQLPIEAIWGHGYRMRTDGEESSI	PGPT0015125_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015125-cssR-K07770	NA	NA
AK002_00533	1365	rcsC_3		Sensor histidine kinase RcsC	ATGAAGCTGGTCCATCAGATCAATCTTGCTTTCGCTTTGTCGCTTATACTCGTGCTGTCCGTGACGGCCGTCGTCATTCATTATGTGCTGCTGGACCATTTTATCGGCACGCAAAGAAAGGACATGCAGTCCATTGGGGCGGCGTTGACGGCAAAGCTGGAAACCGCGGCTGCACAGAGCATCCCTATCGAGAGCGAGCCTTTGACCGTTAGCGGGTTTGCCTCTGCACAGGTTGCCGAGGTCGGCGTTATTATTCAGGACAGCCAAGGGAATATAGTCCGCTCGACTCCTGTAGTTCCTACCGCCCAGTACATGGGCATAGCAGCAGTAAGACCCGATAGCATAGCTTCGTATAACTCCTCATCGGTGGACGGACAATTCCTAACCGAGGTCACGGCAGTTCCCCAAGGAACGATGACGCTGATTACGCCAGTGAGCAAAATCAAGGCGATTGAGCAGGCGCTGCTGGGGCGTTTGATGCTCGTATTCGGCGCAGGGGCCGTGGTCATGGTGATCTTAAGTCTATTCATCACCAAGCGGCTGATTAAGCCGCTCATGCATCTGCGGGAAGAATTGAAGAAGGTGAAGGAGCGTCAATTCTCCGAAGTCCGGCGCGTGTCGGCAAGCGGGGAGCTCGGCGCCGTGGCAGAGTCCGTCTACGAAATGGCCGGTGAGCTGGAGCGGTACAATCATGTGCAGAAGCAATTTTTCCAGAACGCTTCGCACGAGCTGAAGTCGCCGCTCATGTCCATATCCGGATATGCGGAGGGAATCCGGGACGGCATATTCGAAGGGGAGGATATTCGCAAAGGGCTCGATATCATTATGAGCGAGAGCGGCCGGATGAGAAATATCGTGACCGAGATGACGCTGCTGGCCAAGCTGGACAGTGAAGATGATATTTTCAAGGCCGCAGAAGTCAATATGAAAGAGCTTGTAGAGGAAACGATCGAGAGGATCAATCCGGTTCTGGTGAAAAAAGGGCTGTTCGTGCATCTTTCATATGGGGATAACGAATCGTTAACGGTGTATGCCGACCGGGATAAGCTGCTGCAGGCGCTGTTGAACATCGTTTCGAATGGAGCGAGGCATGCAAGCAAGCATATTTACATTCAAGCCGGTCTCCAAAAAGGTCGGGTGGTGCTCACCGTATCCGATGACGGCGAAGGGATCTCCGAGGAGCTGCTGCCTTATCTGTTCCACCGGTTTGTGAAGGGCAAGAACGGGGAGACGGGACTCGGTTTGGCGATTGCCCGGGCCATCGTGGAACGCTGCGGAGGCCTGATCACAGCGGGGAATCGCCAAGAGGGAGGCGCCGTGATTTCGTTAGGCTTCCCGGTGCACAGGAAGACCTCCATGGCTTAG	MKLVHQINLAFALSLILVLSVTAVVIHYVLLDHFIGTQRKDMQSIGAALTAKLETAAAQSIPIESEPLTVSGFASAQVAEVGVIIQDSQGNIVRSTPVVPTAQYMGIAAVRPDSIASYNSSSVDGQFLTEVTAVPQGTMTLITPVSKIKAIEQALLGRLMLVFGAGAVVMVILSLFITKRLIKPLMHLREELKKVKERQFSEVRRVSASGELGAVAESVYEMAGELERYNHVQKQFFQNASHELKSPLMSISGYAEGIRDGIFEGEDIRKGLDIIMSESGRMRNIVTEMTLLAKLDSEDDIFKAAEVNMKELVEETIERINPVLVKKGLFVHLSYGDNESLTVYADRDKLLQALLNIVSNGARHASKHIYIQAGLQKGRVVLTVSDDGEGISEELLPYLFHRFVKGKNGETGLGLAIARAIVERCGGLITAGNRQEGGAVISLGFPVHRKTSMA				NA	NA	NA	NA	NA
AK002_00534	1431	aspA	COG1027	Aspartate ammonia-lyase	ATGTTGTCCATGGATATGCAGTATCGAGTGGAGAAAGATTTTCTGGGGGAAAAACAGCTTCCTATAGATGCCTATTACGGCATCAATACGGTCCGGGCGGTAGAGAATTTTCCGATCAGCGGGGTGCCCATTCATGCCGAGCTCATTTCTGCTCTCGGAGAAGTAAAGAAAGCGGCCGCGCTGGCTAATATGGAACTTGGCCTGCTGCCGAAAAAGATAGGCAGCGCCATTATAGAGGCGGCAGACGAGATCATCGCAGGCAATCTCCGTTCCGAATTCATTGTCGATTCCATTCAGGGCGGGGCGGGCACTTCGATCAATATGAACATGAATGAGGTATTGGCGAACCGGGCGCTGGAGATTTTGGGAAAACAGAAGGCCGAGTATTTCTACTGCAATCCTAATAATCATGTCAATATGTCGCAATCCACGAACGATGCCATTCCGACGGCGATCCGCATTGCGTCGTACCGTCTGACCCAGGATCTCCTTGGGGTGTTCCGGACCTTGGTCGCCGGCATTCAGGACAAGGCCAAGGAATTCGACGATGTCATCAAGATGGGACGCACGCATCTGCAGGATGCGGTACCGATCCGGCTTGGGCAAGAGTTCGGGGCTTATGCCAACGTGCTGACAAGGGACATCCACCGCATCGAGCGGGCAGCGCAAGGGTTATTGGTTGTCAATATGGGCGCGACGGCTGTAGGCACGGGATTAAATGCAACGCCGGACTATATGCAGAGCGTCGTCCAGCATCTGATTGAGCAGACAGGCTTCTCCCTGAAGCAAGCCGAGGATTTGGTGGATGCCACCCAGAACACGGATGCTTATATGGAATTGTCTGCTGCGCTCAAAGTGTGTGCGGTGAACTTCTCGAAAATGTGCAACGATATCCGCCTGATGGCTTCCGGACCGAGAGCCGGCTTGAACGAGCTGAACGTGCCTCCGAGACAGCCGGGCTCGTCGATCATGCCGGGCAAGGTCAATCCCGTGATGGCGGAGGTCATGAACCAGGTGTCGTTCCAGGTCATCGGCAATGACCATACGATCAGTTTGGCTTGCGAAGCCGGTCAATTCGAGCTTAACGTCATGGTTCCGGTCGCCGCTAACAACCTGATGCACTCCCTGAAAATCCTGAAGAACGGCATGGACGTGTTCTACAAGAATTTGATGGTTGATCTTACAGCCAATAAGGAACGCTGCAAATACTTCGTAGATAACAGCTACGGCATCATTACGGCATTGAACCCGCATTTGGGCTATGACGTAGCCTCCAGGCTGGTAAAGGAAGCGCAGAAGACAGGCCAAAGCATCAAGGAGATCATCCTGGAGCAGGGACTTTTGACAGAGGAGCAGATTCTGGTCATTCTGGATCCTTACCACATGACTTCGCCGGGCATTGCGGGAGAAGAGTTCCTGTTGAACCAATAA	MLSMDMQYRVEKDFLGEKQLPIDAYYGINTVRAVENFPISGVPIHAELISALGEVKKAAALANMELGLLPKKIGSAIIEAADEIIAGNLRSEFIVDSIQGGAGTSINMNMNEVLANRALEILGKQKAEYFYCNPNNHVNMSQSTNDAIPTAIRIASYRLTQDLLGVFRTLVAGIQDKAKEFDDVIKMGRTHLQDAVPIRLGQEFGAYANVLTRDIHRIERAAQGLLVVNMGATAVGTGLNATPDYMQSVVQHLIEQTGFSLKQAEDLVDATQNTDAYMELSAALKVCAVNFSKMCNDIRLMASGPRAGLNELNVPPRQPGSSIMPGKVNPVMAEVMNQVSFQVIGNDHTISLACEAGQFELNVMVPVAANNLMHSLKILKNGMDVFYKNLMVDLTANKERCKYFVDNSYGIITALNPHLGYDVASRLVKEAQKTGQSIKEIILEQGLLTEEQILVILDPYHMTSPGIAGEEFLLNQ	PGPT0020125_876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020125-aspA-K01744	NA	NA
AK002_00535	618			hypothetical protein	ATGTTCAAACGTCATGCAACTTATTACGGCTTCGTCCTTGCTCTTCTGATTCTTGTAACAGCCTGTTCGAGCCCCCCGTCCAAAGCGCCGGCTTCGTCGCCCTCCGAACCTGCGAGGAGTGCAGTGACGGACCATGAAAGTCCGGAGGAGCGCGTATTATCATTGTACGAAGGAGAGCACATGAGTGCCGAGGATAAAGCCACGAACATGCTGGCTCACTTGGAGGGCATGGACTGGACGGAATATAACCGCCTGAGCAACGGCAAAGCGCTGGAAACGCTGGAGCTGCTGTATACCCACCGCTCCCTCATCCAACCCGAGCATTATACGAGCCTGTTCCTCGCAACAGCGAATCTCGATGGTGCCTCTGCCGAGCAATATGCCGCCATCGTCGGTGAATTGTTTACGAAAGACAGGGAGGGCGTGGTGCAGGCACTTGCTGATATGGGTGACGAAGCAAGTAGGCAAAGCGTCATCTCAAGCATAGCGTACCATCTCGGTTACCAGGATGTTGCACAAGTGAAACAAGAGGTCCAGCGGTGGCAAACGAACAAGGTGCTAAATGATGCCGAGAAGGACGTCATCGCCTCCCTCATAGCGGCAATCGACAATCCATAA	MFKRHATYYGFVLALLILVTACSSPPSKAPASSPSEPARSAVTDHESPEERVLSLYEGEHMSAEDKATNMLAHLEGMDWTEYNRLSNGKALETLELLYTHRSLIQPEHYTSLFLATANLDGASAEQYAAIVGELFTKDREGVVQALADMGDEASRQSVISSIAYHLGYQDVAQVKQEVQRWQTNKVLNDAEKDVIASLIAAIDNP				NA	NA	NA	NA	NA
AK002_00536	1632	sasA_3		Adaptive-response sensory-kinase SasA	GTGATTTTGAACAATCGATTTGGTGTGATAACCGATCAGGAGATCATTCAACAAGCAAAGCAGCAGTGTATAGACAAGGGGATGAACCCGGAGCTTCTTCCAACACATACTTATCGATTGAATGCTGAAGCATTGGCTGCAAGGCGTGCCAAATATAACGAATATATCGAAGTGATCCAAGTCTTCGTGAATAAATTCCTTTCCTCCGGTTCCGGGAACCCTGTCGTGATTACGATGACGGATAACGAGGGCTTCATTCTTGACATGGAAGGGGACCCGACCATCATAGAAACGGCCCGTTATTTGGGCATCATGGAGGGCAGCGGGTATTCCCAAGAAGACGGCCCCAGCTCGATTGATCTGTGCCTTCGGTACAAACGGCCGTTTACGTTGATAGGAGAAGATCATTTTCATCACATTCTTCACCGCATGGCGTGTTATTCGGCTCCCTTTCACGGCGAAGATGGGAAGGCGATCATAGGGACGATCTCCCTAATGACGAACGAGGAGTTTGTTCACCCGCATTTATATGCCTTGCTCTGCACGATGGCCGATTCCCTGGAGCGGGAGATGGTGACCCGCAAACAGAACACGCAGCTGCAAACCCTTAACCAAGTTCTGCTGGGAACGAAGCATTACGGCGTGATCATCACCGATGCGGAGGGCCAGATCCTGCAGATGAACGAAACCAGCTTAAGCCTGCTGTGCCCGGATGCCGGCGACCGTGACCGGACGAAATACGTGGGCCGCCCGGTGTTCGGCATCGAGCCGATTGGCGAGTATTATGAGCGGGTGATACACGGACAGGAGATTTGCATCGGAGAAGAGCTGTCCCTTGAGATATCCGGAAGCATGCACCACTATATCCTGGATGTTCAGCCGGTGTATGACCGGGAAAGGCAGCTTATGCGGGTCGTGGGCTCCCTGCGCGACATTACGGAGATGAAGCGTACGGAGGAAGTGCTGCGGAATACGGAGAAGCTGGTGTTTGCCGGCCAGGTTGCCGTCAGCATCGCCCATGAAGTCCGCAATCCCCTCACGACGGTAAAAGGAATGCTTCAGCTGGCCAATAAGGATGCCGCTCTCCGGCACTATGACCTGATCATGTCCGAGCTGGAACGGGCCAATCTGATGGTAGGGGAATTCATGATCCTGGGCAAACCCCAGGCGGCTGTGTTTAAGCTTGAGAATTGCGGCGAGATTTTGGAGGAAGTGCTTCATTTGTTCGCCATTCAGGCGAGCCTTGGCGGCATAAAGATGACTCAATGCTTCGGCCGGAATGCAACGATTCTGTGCGACCGGAACCAGATCAAGCAAGTTTTTCTCAATATCCTGAAAAATGCGATGGAGGCCCTGCCGTATGGCGGAAACATTCACATCCAGATGGATGTGGAGGATGGATATCAACGAGTGACCTTTACCGATAACGGCTCCGGCATGACGGAGGACGTGCTTCGGCGGATTGGGGAACCCTTCCATACCACCAAGCCGGACGGCAATGGGCTGGGCATCATGATCGTCCAGCGCATCATGGAGAGCCACAATGGCCGGATCGTCATCCGCAGCGAGGAAGAGCGCGGAACATCGGTCGAGATCCGTCTGCCGATCTCGGGCCAGAGCCTCTCTAATTAA	MILNNRFGVITDQEIIQQAKQQCIDKGMNPELLPTHTYRLNAEALAARRAKYNEYIEVIQVFVNKFLSSGSGNPVVITMTDNEGFILDMEGDPTIIETARYLGIMEGSGYSQEDGPSSIDLCLRYKRPFTLIGEDHFHHILHRMACYSAPFHGEDGKAIIGTISLMTNEEFVHPHLYALLCTMADSLEREMVTRKQNTQLQTLNQVLLGTKHYGVIITDAEGQILQMNETSLSLLCPDAGDRDRTKYVGRPVFGIEPIGEYYERVIHGQEICIGEELSLEISGSMHHYILDVQPVYDRERQLMRVVGSLRDITEMKRTEEVLRNTEKLVFAGQVAVSIAHEVRNPLTTVKGMLQLANKDAALRHYDLIMSELERANLMVGEFMILGKPQAAVFKLENCGEILEEVLHLFAIQASLGGIKMTQCFGRNATILCDRNQIKQVFLNILKNAMEALPYGGNIHIQMDVEDGYQRVTFTDNGSGMTEDVLRRIGEPFHTTKPDGNGLGIMIVQRIMESHNGRIVIRSEEERGTSVEIRLPISGQSLSN	PGPT0025290_315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025290-kinE-K13533	NA	NA
AK002_00537	459			hypothetical protein	ATGTATACGCTCCAGGCGATCGGAACGATCCATAACGAAAGAAAGGCGATTCAGGATGATTACTGGGGGGATGTCATCTCGGAGATCAAGCTTGGCGAAGAATGGAATGAAAGCTCCCTGGATGGGGTTGAAACGTTCAGCCACCTTGAAATCATCTATGTCTTCCATCTCGTCCAGGACGACAGCATCCAATATGCGGCGAGACATCCGCGGAATAATCCGAGCTTTCCCAAGGTCGGTATCTTCGCCCAGCGCGGCAAGAACCGTCCCAACAAGCTGGGAGCCACCATAGTGGAGTTGATAAGCAGAGAGGGCAGGTCCGTTTTCGTTAAAGGGCTGGATGCCGTAGACGGGACTCCCGTCGTTGATATCAAGCCTGTCATGGAAGAATTTTTGCCGAAGACAAAGATCAAGCAGCCCGAATGGGCTGCGGACATCATGTCCCGTTACTGGGAATAA	MYTLQAIGTIHNERKAIQDDYWGDVISEIKLGEEWNESSLDGVETFSHLEIIYVFHLVQDDSIQYAARHPRNNPSFPKVGIFAQRGKNRPNKLGATIVELISREGRSVFVKGLDAVDGTPVVDIKPVMEEFLPKTKIKQPEWAADIMSRYWE				NA	NA	NA	NA	NA
AK002_00538	819			hypothetical protein	ATGGGAGGTGTTTATATCCATGATTCAGCATTCTCATCAGCCCAGCCTCGGCATCTTGAACATGAAAAAAGCCGGAGAGAAATTCCAGCTCCTGCGCGTCCCCCGTCGGAGGACCTTTCCCATTTCATCAAGCATTATTGGATCATTCATTGGGATTTAACCGATCACGAATCTCATCTGCAGGATGTTGTTCCTAATCCTTGCGCCAATCTGGTCGTTCAACCCCGTCGGACCGCTTTTTACGGCGTAGCCAGCACGAGGCATTCGCACCATCTGGAGGGCAGGGGGCAAGTATTCGGCGTCAAGTTCAGACCCGGCGGATTCTATCCGTTCATGAACACGTCCATGGACCGCCTGACGGATTCCTCCATAGGAACCATGGAGATTCTCCAAGTTGAGCCCCATAAGCTGGAGCAGGAGCTATTGACCGCAGAGGAGCCGGAGCACAAGGTTAGGTACATGGAGGAGCTTATTCGCCGCATTCTTCCCGAAGAGGATGAACAGATCGAACGGATTCATGCCATGATCGACCAAATTCATCACAACCGGGACATCATTCGGGTCGAGCAGGTTAGCGAATGGTTCCAGATGAGCCCGAGATCACTTCAGCGCCTGTTCAAGCAATACGTTGGAGTAAGCCCTAAATGGGTGATTCGCTTGTACCGGCTGCAGAATGCCGCCGAAATGCTCGAAGGCCCCGATCATCAGGATGTGCTGGAGCTGGCCATGGATATGGGTTATTATGACCAGTCGCATTTTATCCGGGATTTTAAAGCGGTGATCGGTAGGACGCCCGAAGTTTATATGAAGGAACGATAA	MGGVYIHDSAFSSAQPRHLEHEKSRREIPAPARPPSEDLSHFIKHYWIIHWDLTDHESHLQDVVPNPCANLVVQPRRTAFYGVASTRHSHHLEGRGQVFGVKFRPGGFYPFMNTSMDRLTDSSIGTMEILQVEPHKLEQELLTAEEPEHKVRYMEELIRRILPEEDEQIERIHAMIDQIHHNRDIIRVEQVSEWFQMSPRSLQRLFKQYVGVSPKWVIRLYRLQNAAEMLEGPDHQDVLELAMDMGYYDQSHFIRDFKAVIGRTPEVYMKER				NA	NA	NA	NA	NA
AK002_00539	453			hypothetical protein	ATGGAGCCGTTACATTATGAGTTTTATATCGGAGCTTCGCAGGAGAAGGTATGGGATGTCTTAACTTCGCCGGAGGGAACGCGGGCCACCTTTTTCGGGAGTGAACTGAGATCTTCTTTTCAAGTTGGGGAGCCTTACGCTTATGTGGGACCGGGGAATGACGGGGAGGAGACGGTTCATGTCTATGGGAATGTTCTGGCTTATGAGCGGCAGAAGACACTGAGCCTGTCCGAGCACCCGGGCCCGTCGTATTACGCGAATCATGAGGAGCTGGAGTCCCGCATTACGTTCACCCTTGAGCCGATAGGCAATTGTACCAAGCTAACGCTCGTCAATGATCAATACACGCCGGATCATCCGTCCCGCGCCAAGGCAGCGGACAGCTGGTGGATGGTCATGAGCATTCTGAAGACCTATGCGGAGACGGGGGAGACCCTGGATTTGGGCTGGTAG	MEPLHYEFYIGASQEKVWDVLTSPEGTRATFFGSELRSSFQVGEPYAYVGPGNDGEETVHVYGNVLAYERQKTLSLSEHPGPSYYANHEELESRITFTLEPIGNCTKLTLVNDQYTPDHPSRAKAADSWWMVMSILKTYAETGETLDLGW				NA	NA	NA	NA	NA
AK002_00540	1332			hypothetical protein	ATGACGGAGCGGACCCGCCCCCCTGTCCAGCAAATCCGTATCGGTATTATCGGAACCCGGACGATCGTTGACAAGATCATGAAGGTTATTGAAACCTTTCCTTCCTTTGACCCTGCGCCGCTGGTTTTCCAGGATGAAGACGAAGCCCCTGCACTGGCGGAGCGGATCGGGAGCGAGGTCGAAGTGTTGTTCCTCTCGGATCCGTTGTCCCAGCGCAAGGTGAAGGAGCTCGGTCAGGTCAAGATCCCTGTACATTACGTTCCCGTCACAGACGCGGGTTTATATAAAGCGCTGTTCCATGCCGGGCAGCAGGAACGACTGGATGGAGGCATATCGGTGGACACCTTAACCGAGACAATGGTGGTTCGGACCATGAAGGATCTGGGCATCCCTGCCGTACAGGCTGTCGTCTACGATGGGCCGGCTTACGCCCCGAAGAGCAGCCTGATCGCGTTTCATCGCCATCAATACGAATCCGGCGGGTGCTCTGTTGCATTCACGGGCGTGGAATCCGTGGCCCAAGAACTGACGCGGCTCGGAATACCCAATGAATGGCTGCTTCCTTCCGATCAGGATATCGTGGTATCGCTGGAGCGAGCCCTGCTGTCCACGGCATCCCGCCGCAGCTGGGAAGGCCAGATTGTGGTCGGGATGATAAATATAGACGATTTCGGCACGCAGGCGCTGAGACGGAACAGTGAGCATGAGGTGCAGAAGCTGAAGCTGGATATTCACCGGATGGTGCTCGACTACGTGGAATCCCTGGATGGTTATCTGACCCATCTGGGCGGGGATGAGTATCTGTTTTTCACGACGCGCGGCATCTTCGAACGGGAAACCGGAGGTTACAAAACGATTCCCTTGGCCAAAGACGTGAACAAAACCTACGGCATTTCGCTCAGCATCGGCATGGGATTCGGCCGGTCGGCCAGCATGGCCGGAACCCATGCGCGCATCGCGATGCGGAAGTCCAAGGAGGTTGGCGGCAACGCCTGTTTTATCGTGCGTGAGGATGGTACGCTGATAGGGCCGCTGGAAATGGCCGATCCCGTGCTGGAGGTGCTATCCTTTACGGATGCAGGGCTGATCAAGCGAGCAGAGGATGCGGGCATGACGAGCGCCTATTTGAGCAAGCTGCTGAACCAGCGCGCCCGTTCGGGTAAATACGAATACAAGGTCCATGAGCTCGCCCACCTGCTGGACATTACCGTCCGCAGCGCGCATCGCCTGCTTCAGCTGTGGACCGACAACGGGTTGGTGGAGATTTCGGGGCTCGAGAAGGTGCCGAGGGGAAGGCCGCGGCAAATCTTCCGATTTGCATTTTTGGAATAA	MTERTRPPVQQIRIGIIGTRTIVDKIMKVIETFPSFDPAPLVFQDEDEAPALAERIGSEVEVLFLSDPLSQRKVKELGQVKIPVHYVPVTDAGLYKALFHAGQQERLDGGISVDTLTETMVVRTMKDLGIPAVQAVVYDGPAYAPKSSLIAFHRHQYESGGCSVAFTGVESVAQELTRLGIPNEWLLPSDQDIVVSLERALLSTASRRSWEGQIVVGMINIDDFGTQALRRNSEHEVQKLKLDIHRMVLDYVESLDGYLTHLGGDEYLFFTTRGIFERETGGYKTIPLAKDVNKTYGISLSIGMGFGRSASMAGTHARIAMRKSKEVGGNACFIVREDGTLIGPLEMADPVLEVLSFTDAGLIKRAEDAGMTSAYLSKLLNQRARSGKYEYKVHELAHLLDITVRSAHRLLQLWTDNGLVEISGLEKVPRGRPRQIFRFAFLE				NA	NA	NA	NA	NA
AK002_00541	141			hypothetical protein	ATGGACTTGAAGAGAACGAGTGCCCCGTTTTCCCGCTTTGAGAAAATCTTCATCTTTACGCTGCTCGGACTGGCTTCCCTTTTTATCGCTGCCTTCTTCATGCTTCGATATATCGTGCAGAACGTTTCGTTTGCTCCCTGA	MDLKRTSAPFSRFEKIFIFTLLGLASLFIAAFFMLRYIVQNVSFAP				NA	NA	NA	NA	NA
AK002_00542	1179			IS110 family transposase ISHaha5	ATGCAGCCAGTAGTAGGAATAGACGTGGCCAAAGGGGTTAGCGTTATCCAAGCCTTTATCGGTCGCGAAAAACCCTTCGGGAGGATGGAGAAGCTTCATCATGGGCCGGAAGGTTTTGAACAGCTAGGGGAACTGTTAGGAACACTCAAACATAAAAGTGGCGTCGAGCCCGTTGTTGTCCTTGAGGCGACCGGACATTACCATCGAAGTCTGGTAGGGTATCTTAAACGCAGTGGATGGACTCATTACATCGTCAACCCTCTGCAAGCCAAACGATCGAAAGGCACGCAACTTCGCAAGGTGAAAACAGATGCAGCAGATGCATGGCATTTGGCTGAGATGTACTACCGAGGGGACGTTAAAGCGCATCGAGAGTGGGAGGAAACCTACACCGAACTTCAACACTTAACGAGGCAACATGAGTTTGTAACCGCGATGTACGTACAAGCCAAGTTAAACAGCAGAGCTTTGCTTGAGCAAGTGTTTCCGGACTTCATCGGATTATTTCATAATTTGTATGCGACCACATCATTAAAAGTGCTAAAGCGATGTTTGGAGAATAAGGTCGAAGATGTGGGTGATCTCATCCTTGAATGTGTAGGTAAATCCCACTCCAAAGGATGGATTACGGAGAAAACAAAACGGTTGAAAGAACTCTTGTTGGGCTGGAAAACACAAGAGAGGAGTCAATCTCAGAGCATAGCGTTGACTAGCATGGTCTCCCTGCTGTTGGAATTCGATAAGCAGTTAAATTATTTGGAAAAGCAGATGGAAGAACTGGCTAAGGAGTTGCCTGAAGTGGAATTGATCAAAAGTATCCCGGGTGTAGGGAACAAACTTGCGGCAGCCATCGTGGCAGAGCTTGGCGATGCAAGTCAGTTCAAGGATGCGAAGCAACTTGTAGCCTACGCAGGATTAGATCCGGGGATCTACAGCTCAGGAAAATTCACGGCTACAAGCAACCGGATCACGAAACGAGGCTCAAAAAGACTACGGCGAGCACTCTATCTTGCCGTACAGTGCGGAATTCGCAGACATGCAAACCGCAGGATAAGTGATTACTACGACAAAAAAAGAAAAGAGGGCAAGCTCTACAAGGTGGTCGTGATCGCTTGCGCCAACAAGCTTCTCCATCACATTTATGCCATCCTAAGTAAAAGCGAACCCTACAAAGCCTAA	MQPVVGIDVAKGVSVIQAFIGREKPFGRMEKLHHGPEGFEQLGELLGTLKHKSGVEPVVVLEATGHYHRSLVGYLKRSGWTHYIVNPLQAKRSKGTQLRKVKTDAADAWHLAEMYYRGDVKAHREWEETYTELQHLTRQHEFVTAMYVQAKLNSRALLEQVFPDFIGLFHNLYATTSLKVLKRCLENKVEDVGDLILECVGKSHSKGWITEKTKRLKELLLGWKTQERSQSQSIALTSMVSLLLEFDKQLNYLEKQMEELAKELPEVELIKSIPGVGNKLAAAIVAELGDASQFKDAKQLVAYAGLDPGIYSSGKFTATSNRITKRGSKRLRRALYLAVQCGIRRHANRRISDYYDKKRKEGKLYKVVVIACANKLLHHIYAILSKSEPYKA	PGPT0030635_1260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
AK002_00543	1017			hypothetical protein	ATGTTAACCGTAGAAGCATTAGAAGCGAAGCTGGCGGAGCCTTCAGCACAGCTTGTTGCCGATTTGGCGTCTTTGGAAGGGGATATCCTGGTGCTTGGCGTCGGCGGAAAAATGGGTCCCAGCCTTGCAAGGCTGGCCGCTAACGCCGTGCGCGAAGGCGGTGGCGGCAAACGGATCATCGGCGTATCCCGGTTCTCGAACCAGGAGGCCAGGCGTGAGCTGGAAGAGGCGGGCATCCAGACGATATCGTGCGACCTGCTGAACGACGGGGAGCTGCAGCAGCTGCCCGAGGCTCCAAACGTGATCTATATGGCCGGCAACAAATTCGGCACGACCGGCCGCGAATATTTTACTTGGGCGATGAACTCGTATTTGCCGGGCCGGGTGGCCGAGAAATTCAAGCAATCCCGCATGGTGGTGTTCTCATCGGGGAATGTGTATCCGTTCTCTCCGGTGGGCAGCGGTGGAGTCAACGAATCCGTTGCGCCGGAGCCGGTCGGGGAATATGCGCAATCCTGTCTCGGCAGAGAGCGCGTCTTTGAATATTTCTCCCACCAGAACGGTACGCCGATGGCAATCTACCGTCTGAATTACGCCATCGATATGCGGTATGGCGTTCTGCATGAGCTCGCCAGATCGATCCATGAGGACCGGCCGATTCACCTGGCGATGGGGCATGCGAATATCATATGGCAAGGGGATGCCAACGAGATGGCGCTCCGTTCGCTCCTGCATTGCAGCTCGCCTCCCGAAATCATCAACATTACCGGACCGGAGACGATGTCGATCCGCTGGGCGGCACAGGAATTGGCGGCACGGATGGGCAAGGAAGTGACCTTTACAGGTACGGAATCCGAGACCGCACTCCTGAACAACGCCTCGAAATCCCACCAACTCTTCGGATATCCGAAGGTGTCTCTGCTGCAGATGCTGGATTGGACGGCAGCATGGGTGCAATCCGGCGGCGAGAGCTGGAACAAGCCGACGCACTTCCAAGAGAGAAGGGGGAAATTCTAA	MLTVEALEAKLAEPSAQLVADLASLEGDILVLGVGGKMGPSLARLAANAVREGGGGKRIIGVSRFSNQEARRELEEAGIQTISCDLLNDGELQQLPEAPNVIYMAGNKFGTTGREYFTWAMNSYLPGRVAEKFKQSRMVVFSSGNVYPFSPVGSGGVNESVAPEPVGEYAQSCLGRERVFEYFSHQNGTPMAIYRLNYAIDMRYGVLHELARSIHEDRPIHLAMGHANIIWQGDANEMALRSLLHCSSPPEIINITGPETMSIRWAAQELAARMGKEVTFTGTESETALLNNASKSHQLFGYPKVSLLQMLDWTAAWVQSGGESWNKPTHFQERRGKF				NA	NA	NA	NA	NA
AK002_00544	1083			hypothetical protein	ATGAGCGGACAGATTCCTGCAATGCAGAGGTTGGCCCCCGAGAAGCTGAAAGCTCTTCACGAAGGGCTCGTCATACCGGCGCATCCGCTGGCTTTGGACGAGAACCGGAAGCTGGACGAACGCCGCCAGCGGGCATTGACCCGCTATTACGCCGCATCCGGTGCGGGCGGTGTGGCGGTCGGCGTTCACTCTACCCAATTCGAGATCCGCGATAAAGGCATTGACTTGTACGAACCGGTGCTGCGGCTCGCGGTGGAAGAGGTCCGCAGGGCAGAGCTTGACCGGCCCTTCTTGATGGTGGCCGGCGTGTGCGGCCCCACGGAGCAAGCCGTGGAGGAAACGGAGATTGCCCGCAGGCTCGGCTATGATGCCGTCCTGCTCAGCATGGGCGGGTTAAGCGGCTGGAGTGAAGAGGATATTCTGAAGCGCACGGAAGAGATCGCGCAGAGAATGCCGGTGATCGGGTTCTATCTTCAGCCATCGGTTGGCGGCAACATCTTCTCCTTCGAATTCTGGCGTGCCTTCGCAGAAATTCCGAATATCGTAGCGATCAAGATGGCCCCCTTCAACCGCTACCAGACGATTGACGTCGTTCGTGCCGTCTGTTATTCGAGCCGTAGAGACGATATTGCGCTCTATACGGGGAATGACGATAACATCGTCAACGATTTGCTGACGACCTATCGATTCCAGGTGGACGGAACGCCGGTCGCCAAGCCTATCGTCGGCGGTCTGCTCGGTCACTGGGCGGTCTGGACCAGGAAAGCGGTGGAGCTGCTGGAGGAAATCAAAGAGGCGCGCAAGCAGGAGCAGTTCGCGAAGGAATGGCTGACGCGCAACGTCGAGATTACCGACTCCAACGCGGCCTTCTTCGATCCCGCGCATCAGTTTGCGGGCTGTATCCCGGGCATTCATGAGGTGCTCCGCAGACAGGGACTGCTGCAAGGCACATGGTGCCTGAATCCGCATGAAACGCTGTCTCCCGGACAATCGGAAGAGATTGATCGGGTCTACCGGGATTATCCCCATTTAAACGATGACGATTTTATTCGGGAGCACTTGGAAAGTTGGCTGGCAGACTGA	MSGQIPAMQRLAPEKLKALHEGLVIPAHPLALDENRKLDERRQRALTRYYAASGAGGVAVGVHSTQFEIRDKGIDLYEPVLRLAVEEVRRAELDRPFLMVAGVCGPTEQAVEETEIARRLGYDAVLLSMGGLSGWSEEDILKRTEEIAQRMPVIGFYLQPSVGGNIFSFEFWRAFAEIPNIVAIKMAPFNRYQTIDVVRAVCYSSRRDDIALYTGNDDNIVNDLLTTYRFQVDGTPVAKPIVGGLLGHWAVWTRKAVELLEEIKEARKQEQFAKEWLTRNVEITDSNAAFFDPAHQFAGCIPGIHEVLRRQGLLQGTWCLNPHETLSPGQSEEIDRVYRDYPHLNDDDFIREHLESWLAD				NA	NA	NA	NA	NA
AK002_00545	684	sdhB		L-serine dehydratase, beta chain	ATGCGGTTTAAAGATGTGTTTTCTATTATTGGGCCCAGCATGGTGGGGCCGTCAAGCTCCCATACCGCTGGGGCCGTGCGGATCGGAAGAGCCGCGCGGCGCATATTTGGAGCATTCCCCGATCAGGCGGAAATTGTGTTCTATGGATCTTTTGCCGAAACCTACCGCGGCCACGGCACCGATCTGGCTGTCGTAGGCGGGCTGCTTGATTTTGCCACGGACGATATGCGCATCCGGAATTCGATCGAGCTTGCCGAAGCGGCAGGCATTGAACTTACCTTCAAGACGGCACAGAATGTGGCCTTTCACCCGAATACCGTGGAGCTGAGGCTGATGGGCGGCGATCATACCGATGTCATTGCAGGCGCTTCCATTGGCGGAGGCAGCGTGGAAATGCTGCGCGTGAACGGTTTCGACGTCAAGTTTACGATGAATTATCCGGTGCTGCTGGTCTTTCATGACGATACGCCGGGCATGGTCGCGCATATCACCCGGCTCCTGGAGGCCGGCGGCGTCAACATTGCCTATATGGACGTGGACCGCAAGGGAAGGGGCGGCGATGCCATGACGGTGGTGGAGTCGGACGAAGCGGTTCCGGCCGAATTGATGAAGCATATCGAAGGACTGCCGAGCGTGCATCGCGTCGTCATCGCGGATTTGACAGTAGAGGAGGCGCAGTCATGA	MRFKDVFSIIGPSMVGPSSSHTAGAVRIGRAARRIFGAFPDQAEIVFYGSFAETYRGHGTDLAVVGGLLDFATDDMRIRNSIELAEAAGIELTFKTAQNVAFHPNTVELRLMGGDHTDVIAGASIGGGSVEMLRVNGFDVKFTMNYPVLLVFHDDTPGMVAHITRLLEAGGVNIAYMDVDRKGRGGDAMTVVESDEAVPAELMKHIEGLPSVHRVVIADLTVEEAQS	PGPT0001975_4319	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
AK002_00546	930	sdhA		L-serine dehydratase, alpha chain	ATGAAGTTTTCTACGCTGGAGCAGATCATTGCATGCTGTCGGGAGGATCAGGTGACGATCGGCCAGCTGATGCTGAATGAACAGATCAAGGAAACGGGGAAAAGCCGGGACGAGACGTTCAAGCAAATGGCCGATTACTACGGCATCATGAAGGAAGCGGTACACCGGGGAATCCATGAACCCGTCCCTTCCAAAAGCGGCCTGACCGGCGGCGATGCCGTGCGCGTTCATCAATATATGAGCAGCGGGGTGCCCGCGCTTGGTACCGACGCTTGCACGGCGCTGGCCTACGCCCTGTCCGTGTCCGAGGTAAATGCCTCCATGGGGCGCATCGTAGCGACGCCGACGGCGGGCTCATGCGGCATTATTCCCGGGGTGTTCGTCAGCACGCAGGAACGCTTCGGCTGGGAAGACGAGCATTTGGTGATGGGGCTGTTCAGCGCAGGCGCAATCGGCTACGTCATTGCCAATAACTCGTTTATTTCCGGTGCGGAGGGCGGCTGCCAAGCTGAAGTCGGCTCAGCTATCGGTATGGCGGCAGGCGCTTTGACGGAGCTGCGGGGCGGCACGCCGGAGCAGGCCGTTCACGCCGTCGGACTTGCGCTCAAGAATTCCTTGGGACTTATCTGCGACCCGGTGGGCGGGCTGGTCGAGATTCCTTGCATCGTGCGCAACGGCTTCGGCGCGGTGACGGCGCTGGCGGCATCGGATATGGCGCTTGCCGGCGTGCGCAGCGTCATTCCATCCGACGAAGTGATCGACGTGATGCTGGAGGTTGGCACGGCCATGCCGTCCAAGCACAGGGAAACAGCGAAGGGCGGACTTGCGCAGACGCCGACCGGCAAGAAAATCCTGAAGGATCTATACGGCAAGGAAGGCAAAAAATTGCGGGAGCAGGGTGCCAAAGCGAAGAAGGACGGAAACGAGTGA	MKFSTLEQIIACCREDQVTIGQLMLNEQIKETGKSRDETFKQMADYYGIMKEAVHRGIHEPVPSKSGLTGGDAVRVHQYMSSGVPALGTDACTALAYALSVSEVNASMGRIVATPTAGSCGIIPGVFVSTQERFGWEDEHLVMGLFSAGAIGYVIANNSFISGAEGGCQAEVGSAIGMAAGALTELRGGTPEQAVHAVGLALKNSLGLICDPVGGLVEIPCIVRNGFGAVTALAASDMALAGVRSVIPSDEVIDVMLEVGTAMPSKHRETAKGGLAQTPTGKKILKDLYGKEGKKLREQGAKAKKDGNE	PGPT0001975_3417	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
AK002_00547	102			hypothetical protein	ATGAAATCCCTCTATTTTTTTATCTATTTCTACCGCTTTAGCATTTTCCACATGCTCAAAAAGCCTGATGCTATGCGGGTTTTCGGCATTTCGCCCGCTTGA	MKSLYFFIYFYRFSIFHMLKKPDAMRVFGISPA				NA	NA	NA	NA	NA
AK002_00548	1608			hypothetical protein	ATGACAAAAAAATGGTTTCGTATGGCACTCGTGTTCACATTAATCATTTCGATCCTGGCCGCATGCAGCGGAGGAAATAAAGAGGCAGCTCCCGAAACGGACGGAGAAACAGCACCTCCAACGGCACCGGCAGATCCGGATCAATATGGGGATACTGGCGGTCTCGCGCTTCCGCTGGTCGATAAACCGACAACGATCAATTGGATGGTCGTCAGCGAGAAAACCAACCTGAATGATTCCTTGTTTGCCAAGGAGATCGAGAAGCGAACCGGAATCAAAGTGAATTTCCAAGCTTATTCTTCGGCTACGTTTCAAGACAAGCTGAAAGTAACCGTTGCATCCGGCAAGCTCCCGGACATCATCCACGGATTGACGCCACCGGAGCTGAAGAAGATCGGCAAACAGAAAGCGGTCGTTGCTATTAACGAATATCTCGACATGCTGCCGAACTTCAAAAAAATGTATGTGGACGAGAATCCTTGGGTCATTCCGTCCTACGGAGACGAATCCGGCAACATCTATACCTGGCCGGTTGCAAACATCAACCGTGACGTGAACCACGGCTTCCTGTACCGCAAAGACATCTTCGATGAGCTGGGCATCAAGGAATGGACGAATACCGACGAATTTTATCAGGCCCTCAAAAAGTTGAAGGAAGCCTATCCGGATTCCTATCCTTACGCCTCCAAAACGAAAGAGCACATTTTCCGCGATTGGGCCTTCGGCTGGGGAATCGGCGGAGCCAACTATCCGACGTATTACGACGAGACGGCCAAGGTATGGAAGTACGCTACCATACAGCCAGAGCACAAAGAAATGCTCGATTTCATGAAGAAGCTGTACAACGAGGGACTCCTCGATCCGGAATTCATGACGGACACCGACGATTCCTGGACGGCGAAAATGACGTCAGGCAATAAATCCTTTGTCACCTATGACTGGATCGGACGTTTGGACCTGTTCTACAACCAGGTCAAGGACCAAAATCCGAACTATGATCTGCGATACGGCAATCCGGTCGGGCCGACCGGAAACGGCAAGACGATTGAGAGCATTACGAACGGCTTCAGCATCGCGGTAGCCAACAATGACAACAAGGAAGCTTCCCTGAAGCTGCTCGATTACCTGACGAGCCCGTCCGGCGCCACGCTGGTGACGATGGGCGTGGAAGGCGAGACGTTCAAGATGGAAGGCGATAAAGCCGTCTATCCGGAGCTGACCGACGTGCCGCTGGTGGATATCAGCGTGCTGGAGGATCGCTATGGCCTGTGGCTGCAAGGAGTGTATGTCAATTCCGACAAGCGCAGCGTGTACTTCAACTATACGGAGAAGGAGCAGGAGGCTCAGGATAAGCTCCTGAACGGCAATAAATTCGAGCCGCTGGATCCGGTCGTGAACTTTACGGATGACGAAACCGCAACGATTGCGGAAATCCAAACCTCGCTGAAGAAATTGGCGGATGAATTTAACGCCAAATACATTCTCAACAAAAACTACGGCGATGCGCAGTGGCAGCAATGGCAGGCACAGGCTGAGAAGCAGGGAGCCAAGCAAATCGTCGATATTTTCAACGCAGCCCAGAAGAGATTGGATGAAGCCACGAAATAA	MTKKWFRMALVFTLIISILAACSGGNKEAAPETDGETAPPTAPADPDQYGDTGGLALPLVDKPTTINWMVVSEKTNLNDSLFAKEIEKRTGIKVNFQAYSSATFQDKLKVTVASGKLPDIIHGLTPPELKKIGKQKAVVAINEYLDMLPNFKKMYVDENPWVIPSYGDESGNIYTWPVANINRDVNHGFLYRKDIFDELGIKEWTNTDEFYQALKKLKEAYPDSYPYASKTKEHIFRDWAFGWGIGGANYPTYYDETAKVWKYATIQPEHKEMLDFMKKLYNEGLLDPEFMTDTDDSWTAKMTSGNKSFVTYDWIGRLDLFYNQVKDQNPNYDLRYGNPVGPTGNGKTIESITNGFSIAVANNDNKEASLKLLDYLTSPSGATLVTMGVEGETFKMEGDKAVYPELTDVPLVDISVLEDRYGLWLQGVYVNSDKRSVYFNYTEKEQEAQDKLLNGNKFEPLDPVVNFTDDETATIAEIQTSLKKLADEFNAKYILNKNYGDAQWQQWQAQAEKQGAKQIVDIFNAAQKRLDEATK	PGPT0017245_1981	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00549	966	yteP_5	COG4209	putative multiple-sugar transport system permease YteP	ATGTCAAGTGCAGGGACAGAGACAAATCTCGCCAAACCCCGCGGCGGGTTTGGGAGAAGAATGGTTTCGGCCTTTCAGCATATGAAGCGGGACAGACAGCTGTTGATTCTGTTTATCCCGTGCCTGTTGTTTTATGTTATTTTCCGATACGGGCCCCTGTACGGCTTGATCATTGCCTTCAAGGACTACAGCGTATTTACCGGCATCATGGAGAGCGAATGGGTAGGGCTCAAGCATTTCGAGAAATTTTTCGGCAGTCCGGATTTCTGGCTGTTGTTCAAGAATACGCTCCTTCTTGGCGTATACAATTTGATTTTCGGCTTTCCTTTTCCCATCATTCTGGCGATACTCCTTAACGAGGTCAGAGTGAAATGGTTCAAAAAGTCGGTTCAAACGCTCAGCTATCTGCCTTCGTTCCTGTCCGTGGTCATTATAAGCAGCATGATTATCGACTTCCTGTCGCCCAATCAGGGGATCATTAACCAGCTGATCGCGGCGTTAGGTTTCGAGAAGACGTATTTTCTCATTGAGCCGAGCTGGTTTAGAACCATCTATGTTTCATCGGATATCTGGGCAACCGTCGGTTATGAGGCTATCATCTATATGGCTGCGATTGCAGGGATCAGCCCGTCGCTTTACGAAGCGGCCAAGGTGGATGGTGCCAAAAGGCGCCACATGATTTTTAAAATCACGATTCCCGCCATTCTTCCAACGATTATTATCATGTTTGTCTTGAAGACCGGGTCGATGCTTCGGATCGGATACGAAAAGGTATTGCTGCTTTACAATCCGATGACTTACGAGGTGGCGGACGTATTCTCGACTTATGTCTACCGGAAAGGCCTTCTGGAGAGCAACTATAGCTATGGCGCGGCCGTGGGCTTGTTCGAAGCCGTTGTCGCCATGATATTGCTGCTGTCCTCCAACTACTTCAGCAAGCGACTGGGAGGTAGCGGACTATGGTAA	MSSAGTETNLAKPRGGFGRRMVSAFQHMKRDRQLLILFIPCLLFYVIFRYGPLYGLIIAFKDYSVFTGIMESEWVGLKHFEKFFGSPDFWLLFKNTLLLGVYNLIFGFPFPIILAILLNEVRVKWFKKSVQTLSYLPSFLSVVIISSMIIDFLSPNQGIINQLIAALGFEKTYFLIEPSWFRTIYVSSDIWATVGYEAIIYMAAIAGISPSLYEAAKVDGAKRRHMIFKITIPAILPTIIIMFVLKTGSMLRIGYEKVLLLYNPMTYEVADVFSTYVYRKGLLESNYSYGAAVGLFEAVVAMILLLSSNYFSKRLGGSGLW	PGPT0017250_921	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00550	882	araQ_8	COG0395	L-arabinose transport system permease protein AraQ	ATGGTAAACAACAAACGATTCAGCCTTCGAAACATCTCGTTATTCGGCATTATCAACACGCTGATTCTGACATGCCTTGCCATTATTACCGTGTACCCCGTCGTCTATATCACCGCCGTTTCCCTCAGCGCGACCTCCGAAGTGGTGCAAGGGAATATCACCTTGTTTCCCAAGGGTTTTAATCTCGACGCCTATGCCCAGGTGCTGAACGACGACCGGGTGCCGCGCGCCTATCTGAATACGATTTTTTATACAGCGCTCGGTACGGCCATTAACCTGCTGCTTACGGCGGTAGCGGCTTATCCGCTCGCTCGCAAAAATTTCTTCGGGCGCAAGTTTTTCCTGCTGGCAATCATCATGACCATGTTCCTGAATCCGGGGATCATTCCGAACTACCTGATCGTATCCGAGCTTGGCCTGCTGGACAGCGTATGGGCACTCGTGCTTCCGAATGCGATCTGGACCTTCGAGCTGTTAATCCTCAAAAGCTTCTACGAGAACATGTCGGAATCCCTGCGCGAGGCAGCCGTCGTCGACGGCGCTTCCGAGTACCGCATCCTGTTCCAGATTGTGCTTCCGCTGTCCAAACCGGCGCTGGCCTCGATCGGATTGTTTTATTTCATGGGCCATTGGAACAGCTTTTTTATCCCGCTGATTTACCTGAACGACGCGAATATGTACCCGCTTCAGGTCGTGCTTCGCGATATGCTGATTTTCAGCGAGAACGGAAGCAACCCGAGCCTGGTGGATGCGTCGGCGCTTGCTCCGCAGGCCATGAAGAACGCAACGATCGTGTTGTCGATGATTCCGGTGCTGCTGATCTATCCGTTTGCCCAGAAGTATTTTGCCAAAGGGGTCATGCTCGGTTCCGAAAAGGGGTGA	MVNNKRFSLRNISLFGIINTLILTCLAIITVYPVVYITAVSLSATSEVVQGNITLFPKGFNLDAYAQVLNDDRVPRAYLNTIFYTALGTAINLLLTAVAAYPLARKNFFGRKFFLLAIIMTMFLNPGIIPNYLIVSELGLLDSVWALVLPNAIWTFELLILKSFYENMSESLREAAVVDGASEYRILFQIVLPLSKPALASIGLFYFMGHWNSFFIPLIYLNDANMYPLQVVLRDMLIFSENGSNPSLVDASALAPQAMKNATIVLSMIPVLLIYPFAQKYFAKGVMLGSEKG	PGPT0017255_2031	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00551	2241	rhaR_5		HTH-type transcriptional activator RhaR	ATGAATCGATTGATCGCCAACAGAGGCTTGCTCCAGATTTTCTTCGCTCTGCAACTGGTCATCGGCATCATGTTCATATTCAATTACATCGTGTACAAGAATTCCATTACCGGAATTTACGACAAGGTGAGCGAGAACAACCGGATGGTGATCAGAAATATTATTCAGTCGTTTGATACCAGTTTCTCCTCCATTAACAATTTGATTTTTAACATTCATGCGCTTCCTTCGGACCGGATGCAGTTGGATAACGGCAAACTTGACATGGAGAAAGTCATCTCTCTGCAGGACAGCGTCACCAGCATCGTATCCAACGTGGATATCGTGGAAGATGTGGTCATTTCGTTCGACAATCACGATTTGGCCATTACGACACGCGGAACCAGCAATCTGGACGCATTGTTTGACAGGCGATACAAATCCCAGAAGTTCAACTCGATGTTCTGGAAGACGTTTACCCGATCGGAGCACGAGCTTACGGTTTTTCCAGCGGAGGTTTATGCGGATCAGAGCAGCGGGTACGGCCGGAACCTGATGATAGCCGTAGACGGCAACAAGGTCAGAATGTCGAACAAAAACCTGATGATTCTGATTAACGTGAACCGGCTGCTTAAGGGGATCGATTTGAATTCCATGATTCCCGGGGCCTCGCTCATCGTGCTGGATGCGAACCGGAACGTCATCTTGAGCACCGAGAAGGATCTCGATCTGGTAGGCATTCTGAACGACGTGTACTTTAATCCGTCGCAGGAAGCCTCCCTCACGCACGACGATTTTGAGTACAATTTTTACAAATCGGACTATAACGGTTTTATATATATCAATAAAATGCCGTACAAGTTTCAAAATATCGATTCCGTCACCGATGCCAATACGTGGATTATGTACGGCGCGATTGTGTTAAACGTCATTCTGTCGGTGCTGCTCAGCATTTACCTGTACCGGCCGGTGAAGAACATCGTCCAGCTGCTCGGGGGCAGTTCTCTTCGAGGGAACGATTTCGTAAAAATCCAGAGCGGCATCGTCAAGGTGCAGCGGGAGAACGAATCCCTCAAGAAGCAGATGGATCTGGTGGATGAGGATATCCGCCGAAGCGTGTTCCTGCAAACGCTGGACGGCCATCACCATTCGCGCGAGCAGGAAATGCAGATGCAGAAGCACTACACGCATTTCTTCCAGTGCCGGCATTTCATGATGGCCGCCGTGTATTTGCAGCCTGCCGGCAAGGGGGCGGCCAAGTCGGATTTTGTCCTGGAAGAGCTGACGTCTCAGATCCGGGGCGGCCTGGAGGAGCGCTATGGACATGTGGTGGTTTATCATGTCGAAGAGCTGAAATTCCTAGCGTTAATCGGTCTGGATCAGCCGTCCGAGCGCAAGCAGCTGGTCAGGAAATTCGAGGAGTATATTAGGCGGTGCAACGAGGATTATCATGATACGTTCACGGTGTGGGGCTGCGTTAGCCGCACGTACGAATCCAAAATCAGCAATTGCTCCGAAGCATACCGGAATATTAAGGATGGGCGGTTGTACCGGAATGTGAATGCGGACACGGACATGGTCGATGCGGAGCAGATTCGGTACGTCCCGGATATTTATTATCCGCTTCAGAAGATCGAGAAGCTGAGCAATTGCATGCTAAGCGGCAAGGTGGATGAGGGACTGCAGATCGTGAGCGATATTTTCCAGCAGAATGCGGATCTTCGCATCCATCACCATCAGATGGTGCATATTGCGAAGAGCATGTTCTTCCTCGTCATGAAGCAGGCGGATTCGCCGTCCGTTGACCGCAACGAGCTGTTCCGGCTGGAGAGTGATTTCATCCGCAAGGTCGATCAAGCCTTCACCTATGAAGAGATTCAGAAGGCGCTGATGGAAGTGATGCGCGTGGTGGCCAATACGCGGAACCACGATCCGCGAAGCAAGCTGAATCCCGCATTCATCTCCCAATACATCGAACTGCATTACATGGAGAACCTCTATTTGGACCATATGGCCGAAGTGCTGGACACCAGCTCGAAATACTTCTCCAATTATTTCAAGAAAACATTCGGCGTCAATTACGTGGAGTACTTGAACAAAGTCCGATTATCGCATGCGCGTGAATATCTGCGGAACACGGATCTCAGCATTGCCGAAATCGGAGAGAAAACAGGGTATTCGAACTCTTCCACATTTACGACGACCTTTAAGAAATACAGCGGCGTCTCGCCGAGCGAATATCGGAAAGCATCAGGAAAATAA	MNRLIANRGLLQIFFALQLVIGIMFIFNYIVYKNSITGIYDKVSENNRMVIRNIIQSFDTSFSSINNLIFNIHALPSDRMQLDNGKLDMEKVISLQDSVTSIVSNVDIVEDVVISFDNHDLAITTRGTSNLDALFDRRYKSQKFNSMFWKTFTRSEHELTVFPAEVYADQSSGYGRNLMIAVDGNKVRMSNKNLMILINVNRLLKGIDLNSMIPGASLIVLDANRNVILSTEKDLDLVGILNDVYFNPSQEASLTHDDFEYNFYKSDYNGFIYINKMPYKFQNIDSVTDANTWIMYGAIVLNVILSVLLSIYLYRPVKNIVQLLGGSSLRGNDFVKIQSGIVKVQRENESLKKQMDLVDEDIRRSVFLQTLDGHHHSREQEMQMQKHYTHFFQCRHFMMAAVYLQPAGKGAAKSDFVLEELTSQIRGGLEERYGHVVVYHVEELKFLALIGLDQPSERKQLVRKFEEYIRRCNEDYHDTFTVWGCVSRTYESKISNCSEAYRNIKDGRLYRNVNADTDMVDAEQIRYVPDIYYPLQKIEKLSNCMLSGKVDEGLQIVSDIFQQNADLRIHHHQMVHIAKSMFFLVMKQADSPSVDRNELFRLESDFIRKVDQAFTYEEIQKALMEVMRVVANTRNHDPRSKLNPAFISQYIELHYMENLYLDHMAEVLDTSSKYFSNYFKKTFGVNYVEYLNKVRLSHAREYLRNTDLSIAEIGEKTGYSNSSTFTTTFKKYSGVSPSEYRKASGK				NA	NA	NA	NA	NA
AK002_00552	1026	tdh_1		L-threonine 3-dehydrogenase	ATGAAGGCTGTTGCCACGATTCATGGAAACGTGATCGTTGATCATATCGAGAGGCCGGCGGAATTGCCGGCAGGTCATGTGCGGATTCGCACCGAATACTCGGCGGTCAGTCCGGGTACAGAAATGATCTTTATACGAAGGGCTTCGGATCAAAAAGTCATTATGGGTTACAGCGCGGTGGGGATCGTCGAAGACTTGGGTGAAGGCGTGAAGGGGCTTGCCGTCGGTCAACGGGTGGCCTGCTATGGAGCACCCTACGTGCGCCATGCCCAGTGGCTTACCGTGCCTTCGAACCTGACGGCGATCGTCCCGGACGGGGTGGATCCGCAGGAGGCCGCTTTTGCGGGGCTGGGAGCGATTGCGATCCATGCCCTGCGGGTTGCGGATCTGCGCTTCGGCGAATCGGCCGTGGTGGTCGGGCTTGGCATCCTGGGGCAGATCATTGCCCAGATCGCGCATGCGGCGGCTTGCCCCGTTGCAGGATTTGACCTGAACCCGGAGCGGGTGCAGGGGATGAAACGGCATATTGCCTATGCTTATGATAACCAGGAGCAGCTTGAGGAGCAGGTTGGGCGGATGACGGGCGGACATGGAGCCGACAGCGTCATCCTGTGCGCGAGCGGTCCCGGTGAAGAGCTCATCAACGCGTCGATGACGTGGATTCGGGATAAGGGCAAAATCGTCATTGTCGGCGATTTATCCATGACCTACGCCAGGGAGCGGATGTTTGGCAAGGAAGCGCAGGTGCTCATATCGCGGGCCGGCGGTCCGGGCCGGTACGACGCAAGTTATGAACTCAACAATACGGATTATCCGATCGGCTTTGTGCGATGGACGGAAGGCCGCAACATTGCGGAATATATTCGTTTGTTGGCCGAAGGGAGAATCTCGATCAAACCGCTGATCTCGCATGTGGTCCCCGTAGATGAGGCGGGCAAGGCTTATGAGCGTTACGGCCCCGGGTCAACGACGCTCGGAACGATATTTAAATACGATCATGAGACGGTTGGTGCCAAAGCCGACTAG	MKAVATIHGNVIVDHIERPAELPAGHVRIRTEYSAVSPGTEMIFIRRASDQKVIMGYSAVGIVEDLGEGVKGLAVGQRVACYGAPYVRHAQWLTVPSNLTAIVPDGVDPQEAAFAGLGAIAIHALRVADLRFGESAVVVGLGILGQIIAQIAHAAACPVAGFDLNPERVQGMKRHIAYAYDNQEQLEEQVGRMTGGHGADSVILCASGPGEELINASMTWIRDKGKIVIVGDLSMTYARERMFGKEAQVLISRAGGPGRYDASYELNNTDYPIGFVRWTEGRNIAEYIRLLAEGRISIKPLISHVVPVDEAGKAYERYGPGSTTLGTIFKYDHETVGAKAD	PGPT0013255_1027	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK002_00553	1575			hypothetical protein	ATGGGGAATCATATAGAGGCGGATATCGTCATTCTGGGCGGAGGACTCGGCGGCTGTGCCGCTGCGCATGCGGCGGCGAAGGCGGGAAAACGCGTGATTATGACCGAAGAGAGCGATTGGCTCGGCGGCCAGATTACAAGTCAGGGCGTACCGCCCGACGAGCATCCCTGGATCGAGCAGTTTGGCTGCACGGCCAGCTACCGTGAATTCCGGAATCGGGTCCGCGATTATTATAAGGAGTTATTTCCGCTCCGGGCCGAATCGCGGCAAGAGCGTTACCTGAATCCAGGCAGCGCCCTGGTCAGCGGCATTGCCCATGAACCCCGAGCGGCGCTGGCCGTGCTGCAGGGGATGCTGGCACCTTACGTGAACAGCGGAAGGTTAACGATCCTTACGGAGCAAACGCTGATGGAAGCGGAGTCCGGCGGGGATCAGGTAACTTCCGTCCGGCTGCGGGACAGCAGATCCGGCGACATCGTCAAGCTGACCGGCGCATTTTTCCTCGATGCTACCGAGGAGGGGGACTTGCTCCCGCTGGCCGGCATCGAATACGTGACGGGTTCCGAGTCGGCGGAAGAGACCGGTGAGCCGCATGCTTTATCCGGTCCGGCGGACCGGGCGGACATGCAGGCTTTCACTTGGTGCTTCGCGATGGATTACCGGGAGGGCGAGGATCATACCATCCCGAAGCCGGATCGGTACGATTTCTGGAAGAGCTACCGGGCGGATTTCTGGCCCGATGCCATGCTGAGCTGGACGGGGCTAGTACCGCATACGCTGGAGCCGGTCACCTACAGCTTATTTCCGGATGGCCGATCGTTTTCCCTGTGGAAATACCGGCAGATCCTGAATCGGGAGCATTTCGAAGGCGGGGTGTTTGACAGCAGCGTTACGGTCGTGAACTGGCCGCAGAACGATTATTGGCTCGGCTCCATTATTGATGTCGGCCCGGAAGAACGGGAACGGCATCTGGAGGAATCCAAGCAGCTGAGTTTGTCCCTGCTCTATTGGATGCAGACGGAAGCCCCGCGGCCTGATGGCGGAAAGGGATATCCCGGACTCCGGCTTCGGCCGGACGTGATGGGGACGAAGGATGGCTTGGCAAAAGCCCCTTATATCCGTGAATCCCGCCGGATCCGCGCCGAATTTACCGTGAAGGAGCAGCATATTGCCGCCGAATGCCGTCCGGACGGGCGGGCGGAGACGTTTCACGATTCCGTTGGCATCGGCTGCTACCGGATCGATCTGCATCCAAGCACGGGATTGCGGACGTATATCGATATTTCGAGCCTGCCCTTCCAAATTCCGATGGGGAGCCTGATTCCGGTACGGGTAGCTAACGTGCTGGCAGCCTGCAAGAATATCGGCACGACGCATATCACGAACGGGTGTTATCGATTGCATCCCGTGGAATGGAATATCGGCGAGGCAGCCGGCCATTTGGCCGCTTATTGCATAGAGCATGGACTGAAGCCGCGGGAAGTACGGAATACCCCTGACCACTTGGAGGCTTTTCAGCGGCGATTGACGGAACAGGGGATCGAACGGTCATGGCCGTCCATTCATGCCGTTTGA	MGNHIEADIVILGGGLGGCAAAHAAAKAGKRVIMTEESDWLGGQITSQGVPPDEHPWIEQFGCTASYREFRNRVRDYYKELFPLRAESRQERYLNPGSALVSGIAHEPRAALAVLQGMLAPYVNSGRLTILTEQTLMEAESGGDQVTSVRLRDSRSGDIVKLTGAFFLDATEEGDLLPLAGIEYVTGSESAEETGEPHALSGPADRADMQAFTWCFAMDYREGEDHTIPKPDRYDFWKSYRADFWPDAMLSWTGLVPHTLEPVTYSLFPDGRSFSLWKYRQILNREHFEGGVFDSSVTVVNWPQNDYWLGSIIDVGPEERERHLEESKQLSLSLLYWMQTEAPRPDGGKGYPGLRLRPDVMGTKDGLAKAPYIRESRRIRAEFTVKEQHIAAECRPDGRAETFHDSVGIGCYRIDLHPSTGLRTYIDISSLPFQIPMGSLIPVRVANVLAACKNIGTTHITNGCYRLHPVEWNIGEAAGHLAAYCIEHGLKPREVRNTPDHLEAFQRRLTEQGIERSWPSIHAV				NA	NA	NA	NA	NA
AK002_00554	1224			Endoglucanase	ATGAAAGTATTCCGAAATTCGATTATCCGTAAGTCGGCGGCGTTGGTCTGCGCAGTTCTGCTGATCTTGCCGGCGGGGTTGTCCCTGGCGGCCAACAAGCCTTTTCCCCAGCATACGTCCTATACGAGCGGTTCGATTAAACCGAACAACGTAACGCAGACCGCGATGGATAATGCGGTCAAGAGCAAATGGAACAGCTGGAAAGGGTCTTTTCTGAAGCCGGCTGCAACCGGGCAATATTACGTCAAATACAATTCCGCGGGCGAGACGGTATCCGAGGCTCATGGTTACGGGATGATTTTCACCGTTCTGATGGCGGGATACGACAGCAATGCGCAGTCGTATTTCGATGGGTTATATCGCTATTACAAGGCGCATCCGAGTGATAACAATCCGTATCTGATGGCGTGGAAACAGAACAGCAGCTTCCAGAATATAGAGGGGGCCAACTCGGCAACGGACGGCGATATGGATATTGCTTACGCACTCCTGCTTGCGGACAAGCAGTGGGGAAGCAGCGGATCGATCAATTACCTGCAGGCCGCGAAGGATATCATCAATGCCATCATGAGCAATGACGTCAATCAGTCGCAATGGACGCTGCGTTTGGGCGATTGGGCTACCAGCGGCAACTACAATACCGCCACGCGGCCATCGGATTTCATGCTGAACCATATGAAGGCGTTCCGTGCGGCTACCGGCGATGCCCGTTGGGATAACGTCATCAACAAAACCTATACGATCATCAACTCCATCTATAACGGTTATAGCTCCAATACCGGTTTGCTTCCGGATTTCGTTGTGATGTCGAGCGGCAATTATCAGCCAGCGGCAGCGGGATTCCTGGAGGGGGCGAACGACGGGAAATATTACTACAACTCGGCACGGACTCCATGGCGGATAACGACCGACTATCTGATGACCGGCGATACGCGCGCGCTGAATCAATTGAATAAAATGAACACGTTCATTAAGTCGGCTGCAAACAGCAATCCTGCCAATATCAAGGCAGGGTATAATCTGAACGGGACCGCGCTGGTGACTTATAACAGCGGAGCGTTCTATGCACCGTTCGGCGTAAGCGCGATGACTTCGTCCAGTCACCAGAGCTGGCTGAATTCGGTATGGAATTATACAGCGAACGCATCTGCAGAGGGATATTATGAGGAGAGCATCAAGCTGTTCTCGATGATTGTCATGTCGGGAAATTGGTGGACATATTAA	MKVFRNSIIRKSAALVCAVLLILPAGLSLAANKPFPQHTSYTSGSIKPNNVTQTAMDNAVKSKWNSWKGSFLKPAATGQYYVKYNSAGETVSEAHGYGMIFTVLMAGYDSNAQSYFDGLYRYYKAHPSDNNPYLMAWKQNSSFQNIEGANSATDGDMDIAYALLLADKQWGSSGSINYLQAAKDIINAIMSNDVNQSQWTLRLGDWATSGNYNTATRPSDFMLNHMKAFRAATGDARWDNVINKTYTIINSIYNGYSSNTGLLPDFVVMSSGNYQPAAAGFLEGANDGKYYYNSARTPWRITTDYLMTGDTRALNQLNKMNTFIKSAANSNPANIKAGYNLNGTALVTYNSGAFYAPFGVSAMTSSSHQSWLNSVWNYTANASAEGYYEESIKLFSMIVMSGNWWTY	PGPT0012170_160	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0012170-bcsZ|wssD|yhjM-K20542	NA	NA
AK002_00555	2415			hypothetical protein	ATGAAGAAAAACATGCTGCGTAAGACGGCTGCGGCAGGAATTGCCGTAATTTTAATGGCTGGAGGCTTAAGTACGGCAGGCCAAGGCCCTGCGGCCGGCGTTCCTGACGTATACGCGGAGGCGGCTCCGCTGAAGAAGGGTGAGAATGCACAGAAGGCACCGTTATTCCGGGAGGCATCCGTGCACGATCCGTCCGTGATCAAAACAGGGGATACCTACTATGTGTTCGGTTCCCATCTGGCCGCGGCCAAATCGAAGGACTTGATGAGCTGGGACATGGTCGCGTCCGGGGTTGCGACCGGCAATCCGCTGATTCCGAACGTAACGGAGGAGCTGAAGGAAACGCTGGAATGGGCGCAAAGCGATACGTTGTGGGCGGCCGACGTGATTCAGCTGGCAGACGGCAAATTCTATATGTACTATAACGCGTGCAAAGGAGATTCTCCGCGATCCGCCATGGGGATCGCCGTTGCCGATCAGATCGAAGGCCCGTATAAGGACACCGGCATCATTCTGAAATCCGGCATGTGGGACGAAATCAGTGAGGATGGTACCATCTATGATGCAACAAAGCACCCGAATGTCGTCGATCCGGATGTGTTCTTCGATAAGAACGGCAAGCTGTGGATGGTATACGGCTCCTATTCCGGCGGCATTTTCATTATGGAGATGGACCCCAAGACCGGAAAACCGCTGCCTGGGCAAGGATACGGGAAGAAGCTGCTGGGAGGCAATCACAGCCGGATCGAAGGCCCTTACATGGTTTATAACCCGGCCACGGATTATTACTACCTGTACCTGTCGTACGGGGGATTGGATGCGGTTGGCGGCTACAATATGCGGGTGGTCCGATCCAAAAATCCGGATGGTCCTTTCTACGATGCGGAGGGCAACGACATGAGAGAAGTGAAGGCCGATCCTTCCCTTCCGCTTTTTGACGACCGTTCGATTGAACCGTATGGCGTGAAGCTGATGGGGAACTACTTGTTCAAACGCCTGGTCGGCGATCCGGGAACGGGGATCGGCACCGGGGCCGTGTCCCCTGGCCATAACTCCGTCTACTACGATGAGCGGAGTGGACGAACATTCCTTATCTTTCACAGCCGCTTCCCGCAGCGGGGGGAAGAGCATGAGATCCGTGTGCATGAATTGTATATGAATCAGGACGGCTGGCCGGTATCGGCTCCATACCGTTACGCGGGCGAGGAGGCTAGGGAGCCTAAGAAAGTCACGCCGAAAGATGCGGCCGGAGACTATAAGCTGATTCAACACGGGAAAGATATTTCGTCCGTCATCAAAGAATCGATGCCGATCGAGCTTCATAAGAACGGCAAAGTAACGGGTGCAGCCGAGGGCGCGTGGAAGATCAGCGGAAAGCGGGATGTGACGCTTACGCTGGATGGAAAGCGTTATAAAGGCGTAATGACTCCGCAATGGGACCCCGAAGCGAAGCGGCAGATGATGACCTTTACGGCTCTTTCGGCGGACGGTACCGCGGTGTGGGGCGCGCGTCAGCTTGATCGCAGCGACCGGGAACTCGTGGAGGCCGTGAAAAGTGATCTGTCCCTCGGGGATGTGAGCGAAATTTTCTACGATCTGGCTTTGCCGTCCGAGGCTTCCGGCGGTGCAATCATTCGATGGACCTCCTCTCATCCCGAAGTCATATCGGCGGAGGGTAAGCTGAATCGTCCTGCAGCCGGAGCGGGGGATGCGCAGGTTACGCTGACCGCTCAGATTACGAGCGGTAAAGCGAAGGCTTCCAAAGCGTTTGACGTGACCGTACTGCAGCAGTCCGCAGGGCCGCTTATGCTGGGCTATCCGTTCAGCGAGAATAAAGAAGGCACGGCGTTCGACGTCTCGGATAACGGATTTCATGGAAAGATCCTTGGCGGAGTCCGGTGGAATGAGAAGAGCCGGCAGGGAGGCGGAATGGATTTTAATGGCTCGGACGGCTATATTGAACTGCCGAATCGGGTCACCGATACAGAGGACTTTACCTTTGCGGCCTGGGTGTATTGGAAGGGAGGAGCACCGTGGCAGCGGGTGCTGGATGCCGGCAGCGGGCTCGCCAGGCATATGTTCCTTACGCCATCCCAGCACGCCGGCGTCCTTCAGTTTACGATTCACGGCAACGGCGGAGACCAGAGCCTCCTTGGCAGCGCGCCGCTTCCGGTGAATGCGTGGACCCATGTCGCTGTAACCCTTCAGGGGGATACGGGCAAATTATACGTGAACGGACAAATGGTTTCCTCCGGCGATCACATGAAGCTGAACCCAAGCGGGCTGCTGACCACGGAGGCTTATTTAGGAAAAAGCCGGTTCGCGGCAGACCCTTACTTTAACGGAAGTTTGGATGAGGTGCGGATGTATAACAAGGCGCTGACCGAAAGTGAAATCAAGAAGCTGGCCGAGTAA	MKKNMLRKTAAAGIAVILMAGGLSTAGQGPAAGVPDVYAEAAPLKKGENAQKAPLFREASVHDPSVIKTGDTYYVFGSHLAAAKSKDLMSWDMVASGVATGNPLIPNVTEELKETLEWAQSDTLWAADVIQLADGKFYMYYNACKGDSPRSAMGIAVADQIEGPYKDTGIILKSGMWDEISEDGTIYDATKHPNVVDPDVFFDKNGKLWMVYGSYSGGIFIMEMDPKTGKPLPGQGYGKKLLGGNHSRIEGPYMVYNPATDYYYLYLSYGGLDAVGGYNMRVVRSKNPDGPFYDAEGNDMREVKADPSLPLFDDRSIEPYGVKLMGNYLFKRLVGDPGTGIGTGAVSPGHNSVYYDERSGRTFLIFHSRFPQRGEEHEIRVHELYMNQDGWPVSAPYRYAGEEAREPKKVTPKDAAGDYKLIQHGKDISSVIKESMPIELHKNGKVTGAAEGAWKISGKRDVTLTLDGKRYKGVMTPQWDPEAKRQMMTFTALSADGTAVWGARQLDRSDRELVEAVKSDLSLGDVSEIFYDLALPSEASGGAIIRWTSSHPEVISAEGKLNRPAAGAGDAQVTLTAQITSGKAKASKAFDVTVLQQSAGPLMLGYPFSENKEGTAFDVSDNGFHGKILGGVRWNEKSRQGGGMDFNGSDGYIELPNRVTDTEDFTFAAWVYWKGGAPWQRVLDAGSGLARHMFLTPSQHAGVLQFTIHGNGGDQSLLGSAPLPVNAWTHVAVTLQGDTGKLYVNGQMVSSGDHMKLNPSGLLTTEAYLGKSRFAADPYFNGSLDEVRMYNKALTESEIKKLAE	PGPT0019090_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINANASE,PGPT0019090-abnA-K06113	NA	NA
AK002_00556	405	mhqP	COG2259	Putative oxidoreductase MhqP	ATGGCTATAGATATTGGATTGTTGATACTTCGTTTGGTGGTCGGGTTATCGTTCATAGCGCACGGAGCGCAGAAGCTGTTTGGATGGTTTGGCGGTTACGGTCCGAAAGGGACCGGCGGCTGGATGGAATCGGTGGGTATAAAACCCGGCGTCGCGATCGCGGTGTTGTCAGGTCTAATGGAGCTGGTTGGCGGGCTGCTGCTGGCAGCCGGATTTCTCACGGTGCTCGGCGCAGCGCTGATCACGCTGACGATGCTGGGCGCCATCGTGAAGGTGCATGGCCAAAACGGGTATTGGTCCACAGCGAATGGATACGAGTATAATTTGCTGTTGATCGCAGTGGCCGTTGCATTGGCACTCACGAGTGCAGGCGCATATTCGCTGGATGCGGTAATCTTTAACTAA	MAIDIGLLILRLVVGLSFIAHGAQKLFGWFGGYGPKGTGGWMESVGIKPGVAIAVLSGLMELVGGLLLAAGFLTVLGAALITLTMLGAIVKVHGQNGYWSTANGYEYNLLLIAVAVALALTSAGAYSLDAVIFN	PGPT0028505_5563	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
AK002_00557	627	mhqN	COG0778	Putative NAD(P)H nitroreductase MhqN	ATGAGTGATCTGACAACATTAATTAAGAGCCGGAGATCGGCTAATCTGTTTATGGAAGGGATTGAAATCCCGGATCAGGATTTGAATGATATCTTTAATGAGGTTAAATATGCTCCTTCGGCTTTTAATTTACAGCACACGCACTATGTGGTGGTTAAGGATCCCGATATCAAGCACACAGTTTACGAAGCCGCCAACAAGCAGCACAAGATACTCACCGCGTCGGCCGTCCTCGTGGTGCTGGGGAATAAGCGGGCCTACGAGGATATCGGAAGAATGAACGAGGGTTTTCTGAATTTGGGCGTGATCGATAAGCTTGAATATGACATGACGGTTGAATCGGTCACGAACTTTTATGAAGCGGGCGGAGAAACCTTTATGAGGGATGAAGCCATTCGGAATGCCAGCCTATCCGCGATGTTATTGATGATGGTGGCCAAGGACAGGGGATGGGATACCTGCCCGATGATCGGATTTGATCCCGATGCCCTGCAGAAGGAACTGAATATTCCGGACGATTATGTGCCCGCCATGCTGATCGCGATCGGCAAGGAGGATGCGCGCAAACCGCGTCCCCGCGGCTACCGCAAGCCGGTATTGGAATTTGTAAGCTATAACCGATTTTAA	MSDLTTLIKSRRSANLFMEGIEIPDQDLNDIFNEVKYAPSAFNLQHTHYVVVKDPDIKHTVYEAANKQHKILTASAVLVVLGNKRAYEDIGRMNEGFLNLGVIDKLEYDMTVESVTNFYEAGGETFMRDEAIRNASLSAMLLMMVAKDRGWDTCPMIGFDPDALQKELNIPDDYVPAMLIAIGKEDARKPRPRGYRKPVLEFVSYNRF	PGPT0028520_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028520-mhqN-K15976	NA	NA
AK002_00558	1209			hypothetical protein	ATGTCCATGATAAACATTCCTCTCCATAATGACGATGATGAATATAAAGAGGTCGGTATCGGCGTTATACCGGTTTTTCGTTATATAACGGGGGTGAACGAAATGAAAAGGGGGAAGCGGCCATATCGGCGGAATGGACAGCTCATGGTTTTGGCCGTCATCATGATGATGCTGGCAGCTTGCGCGAAGGAGGCGCCGATAGCCGAACAGATAACTCCACCGACTGCTGCTGCACCGGGTGCAGAGGAAACCGCGAAACCAGCGGAAATGCCGTCGGCGGCTAAGGAGAGCTTGCGTACGGCATTCCCGCAGGAAGATCCGAGCCATCGCCAGGTCAAGCAAGAGGCTGAGCAGCCGGAGGGAGAATCTAATCGCGATCCCGTCGAAGCGGTTCTCGACATGTACGAAGCGCTCCAGGCTAACGATTCCGCTTCGTATTTCCGTCATGCCGACATTCCGAGCGTCCGAATGTCCCCAACCATGCTGAAGGTGCTGTTCGAAGAGGCGGGCAAACGTGAAGTGAGAGCGGAACGCTTCAAGCTGTTTGATAAAGAAGGGCTGGATGAGGTAAGCAGCCGGTTGTTATCCCTTACGTACGGGAGCCAGGCCGAGATCGTACTGGAGGAGCTGAGCCAGGGCGATCAGAATCTGTGGTTTGTGACGGCGTTCGCGGATGGGCTTAAAGTGGTGGAGCAATCCACGGTTTATCCGGGGGCTTACGAGCTTGGAAGGGAAGCGACGATGGAAGAGCTTATCGCGGTAGAAATCCAGCATACCGCTGAAGACAGGGCATTCTTTGCCGCGAAAGCGAAGCAGCCCGTATGGAACCCGATGCAGACCGTTTCCTTGCTGTATCAGGCAGCGCAGGCGGAGGATGCAGAAACCTTTCACACGATGTCGGGCGGGGGCGAGGGATATTTCTCAGGTCAGTATGACCGGGACATGGTGGAATTTACGGAATGGATGAAATCTTTTGAAAGCGTTCAGCATATGTCCATCGAATCGGTTTCGCGCGAGAATATCGCATACGGTTATAGCCAAGAATACGATGAACGCTTCGGCGACGGTTGGCAGTTCATTGTGGCCTGGGACCCTCGGGATGAAGCAGGCTACCAAGGGACATCCTGGATCATGGCCCCAAGCGAAGACGGGACGCGATATGTCGTAAAGCAGACGCTTACCGCCAATCTGGAATCCTTTTTTAAGTGA	MSMINIPLHNDDDEYKEVGIGVIPVFRYITGVNEMKRGKRPYRRNGQLMVLAVIMMMLAACAKEAPIAEQITPPTAAAPGAEETAKPAEMPSAAKESLRTAFPQEDPSHRQVKQEAEQPEGESNRDPVEAVLDMYEALQANDSASYFRHADIPSVRMSPTMLKVLFEEAGKREVRAERFKLFDKEGLDEVSSRLLSLTYGSQAEIVLEELSQGDQNLWFVTAFADGLKVVEQSTVYPGAYELGREATMEELIAVEIQHTAEDRAFFAAKAKQPVWNPMQTVSLLYQAAQAEDAETFHTMSGGGEGYFSGQYDRDMVEFTEWMKSFESVQHMSIESVSRENIAYGYSQEYDERFGDGWQFIVAWDPRDEAGYQGTSWIMAPSEDGTRYVVKQTLTANLESFFK				NA	NA	NA	NA	NA
AK002_00559	435			hypothetical protein	ATGATCAAACGATTATTGCTGATTTCACTTGTACTGGGAGTTCTCTCCGGATGTTCCTTGGTGGACAGCGTGAACAATTCCTTGGATTATACGAAGGAAGCAACGACCTTTATCAATGAAGCTTCCCAATTTGCCGAGTCCATCCCGGAGCTCGCCCAGCAGGCAGCCACCAATACGGATGCCAAGGAAACGCTGACCCAGCAGCTCGAAGCGATGAAAACCCGGATCTCGGAGTTTAACGGCATCGAAGCCCCTGCCTTTGCGCAGACGATCCATGAACAGCTGGTCGGATTAAACGACACGCTGCTGACCGACATCAACGGTTATATGGATCAAATCCAGAACGGAGTGACCGACTTCCAGAATTCCAACATCGTTCAAACCGTCAATAAAATCAACGAAACGATGGATATGCTCCAGAATCTCCAGCCATAA	MIKRLLLISLVLGVLSGCSLVDSVNNSLDYTKEATTFINEASQFAESIPELAQQAATNTDAKETLTQQLEAMKTRISEFNGIEAPAFAQTIHEQLVGLNDTLLTDINGYMDQIQNGVTDFQNSNIVQTVNKINETMDMLQNLQP				NA	NA	NA	NA	NA
AK002_00560	498			hypothetical protein	ATGAGAAAAGGCTTTCTCGCCATGATGGCTCTTTCCCTTACGGTTGGACTATGGCTTGGCGCTGATCACTCCACGGCATCCGCCTTGTCATGCGCGGAGCCTCGCAAGGTTACCGAGGAGTTAAAAACCTCGGATGCGGTATTCAGGGGTACGTTAGCCTCGTCCCACCCTAAAGCCGACATATCCAAAAGTAAATATACTTTCCAAGTTTCCGAGTGGTGGAAAGGAGAATCGGCTGCCCCTACCGTCACCCTATATTCCAATGGCTGGGAATCCTTTGAAACAGGCAAGGAATATATCGTGTTCGCCGACAATAGCGGGCAAAAGCTCAAACCCCACCTATGCGGGAATACGGGTCCTTCCTCATCCGTTGACGTAAATTCGCTTGGAGAAGGCATCCAGCCCGAGAAGCCCGCTCCATCAGCCGAAAGCCCAAGGCCGGGCGGCATCCTGGCAGGTTTGATTGAACTCATTCGTTTCCTGCAGGGCAAATATTAA	MRKGFLAMMALSLTVGLWLGADHSTASALSCAEPRKVTEELKTSDAVFRGTLASSHPKADISKSKYTFQVSEWWKGESAAPTVTLYSNGWESFETGKEYIVFADNSGQKLKPHLCGNTGPSSSVDVNSLGEGIQPEKPAPSAESPRPGGILAGLIELIRFLQGKY				NA	NA	NA	NA	NA
AK002_00561	651	glnP_1	COG0765	putative glutamine ABC transporter permease protein GlnP	ATGGATTTTATCGGTGCATACTCCTGGCCAAACCTGCGATATCTCCTTCAAGGCTTTTGGATCACGGTGCAGGTTGCCGGCTTATCCATTATATTCAGCTTCATCATCGGAACCGTGCTCGGGACCGTGAGGTATACGAAGACCCCCTTCCTGTCGAGGACCACGGCTTTTTTGGTGGATATTATCCGCAATCTGCCGCTGCTGCTGATCATATTCTTCATCGGCATGGTGCTGCCCCAGACCGGGATACGAATCCCGACCTTCTGGGCGGCTGTTGTCGGACTGAGCATTTTTGAAGGCGCCATGATCGCCGAGATCGTACGCAGCGGCCTCGTATCGGTGGATAAAGGGCAGATCGAAGCGGCCCGGGCCTCGGGCCTCTCTTATATGCAGACACTGCGGCACGTCATTCTTCCGCTGGCGCTGCGCCGGATGTCCCCGCCCATGGTGAGCCAGTTCATCTCGCTCATTAAAGACACATCGCTCGCCGTGATCATTTCGCTGCCTGAGCTGATGCGCAACGTGCAAATCCTTAGCGGTTCCAGCTATTCCTATGTCATCCCGGCCCTTGTCTTTGCATCCTTGCTGTACTTTACGCTGAATTATCTGCTGTCCATCATCGCCAAACGTCTGGAAGCAAGGCAGATATAG	MDFIGAYSWPNLRYLLQGFWITVQVAGLSIIFSFIIGTVLGTVRYTKTPFLSRTTAFLVDIIRNLPLLLIIFFIGMVLPQTGIRIPTFWAAVVGLSIFEGAMIAEIVRSGLVSVDKGQIEAARASGLSYMQTLRHVILPLALRRMSPPMVSQFISLIKDTSLAVIISLPELMRNVQILSGSSYSYVIPALVFASLLYFTLNYLLSIIAKRLEARQI	PGPT0000705_474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000705-peb1B|glnP|glnM-K10040	NA	NA
AK002_00562	660	glnM	COG0765	putative glutamine ABC transporter permease protein GlnM	GTGACCTTGTGGGATTTCAACATTCTGGTCGAGCATTGGGATCAATTCATGGCCGGCCTGGGCCAGACCATTCTCGCCAGCCTGCTGGGACTGATCGGCAGCTTGGTGCTGGGCACCTTCATCGCCATTATGCGGATTGCTCCATTCCGCGTCTTGAAGGCGATCGGCACCATTTATGTCGAGTTTATCCGCAACATCCCGCTGCTTGTGGTTGTCTTTTTCTTTTTCCTGGGCCTGCCCGCCCTCGGCATACCGGTCGATCCGTTCACCTCGGGCACGCTCGGGCTGATGGTGTATACGGCTGCCTTCATTGCCGAAGCCATTCGGGCAGGCATTCAGGCAGTACCGTCAGGGCAGTCGGAAGCGGCTCGCTCCTCCGGACTGAGTTATATCCAGAATATGCGCTACATCATTCTTCCGCAGGCGGTCAAAATCGTACTGCCGGCCATCGGCAACCAATTGATCAACCTGGTCAAAAACTCCTCGGTCCTGGGCGTTATCGCTGGACTCGACCTGATGTATTATGCCGATCTCATTAACCTGAGCACCTTCAAAGGCATACCCGTCTACACGTTTGTGGCCCTGTTCTACCTGCTCCTGACCGTTCCGCTCAGTCTCGCGGTCCACTATATGGAGCGCCGATTCGCGAGAAGCAATTGA	MTLWDFNILVEHWDQFMAGLGQTILASLLGLIGSLVLGTFIAIMRIAPFRVLKAIGTIYVEFIRNIPLLVVVFFFFLGLPALGIPVDPFTSGTLGLMVYTAAFIAEAIRAGIQAVPSGQSEAARSSGLSYIQNMRYIILPQAVKIVLPAIGNQLINLVKNSSVLGVIAGLDLMYYADLINLSTFKGIPVYTFVALFYLLLTVPLSLAVHYMERRFARSN	PGPT0000705_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000705-peb1B|glnP|glnM-K10040	NA	NA
AK002_00563	810	glnH_1	COG0834	ABC transporter glutamine-binding protein GlnH	ATGAAGAGAAGATTTACGGGGACCTTCAGGTGGAGCGCGGCCCTGCTGGCGCTAGTCATCATGCTGATCGCATCCGGATGCGGGGGGTCAGGCAGCACGGACACCCTGGAGGCGATCAAAAAACGGGGCAAGCTGGTGGCCGGCGTGAAATATGATACGAAGCTGTTCGGACTGCAGGACCCGGCCACTGGCAATGTGGAGGGTTTCGATATCGACATCGCCAAAGCGCTGGCCAAAAAAATTCTCGGCGACGAGACCAAGGTCGAGCTGAAGGAGGTCACCTCCAAGACCCGGATCGACATGCTGAAGAACGGGGACATCGACATCATTATTGCCACGATGACCATTACGGAGGAACGCAAGGAACAGGTGGATTTCAGCGATGTCTATTTTGAGGCCGGCCAATCCCTGCTCGTGAAGAAGGGCAGCCCGATCACGGGTCTGGAAAGCCTGAACAAGGATACGAAGGTGCTCACGGTAAAAGGCTCCACATCCGCGCAAAATATCCGCGAGAAAGCGCCTGACGCGGTCATTCTCGAATTCGAGAATTATCAGGATGCCTTCACCGCGCTCAAAGCCGGACAGGGGGATGCCCTGACCACCGACAATTCCATCCTGCTCGGCATGCAGCAGCAGGACCCGAGCTTTGAGCTGGTCGGCGGCAACTTTACCGATGAGCCGTACGGCATGGCGATCAAGAAAGGAAACCCGGAATTCGTGAAGACCGTCAACGAGCTGTTGAAGGAGCTGAAGGACAGCGGCGAATACGACAAACTATATGAGCAATGGATGGGCGTAAAGCCGGAATAA	MKRRFTGTFRWSAALLALVIMLIASGCGGSGSTDTLEAIKKRGKLVAGVKYDTKLFGLQDPATGNVEGFDIDIAKALAKKILGDETKVELKEVTSKTRIDMLKNGDIDIIIATMTITEERKEQVDFSDVYFEAGQSLLVKKGSPITGLESLNKDTKVLTVKGSTSAQNIREKAPDAVILEFENYQDAFTALKAGQGDALTTDNSILLGMQQQDPSFELVGGNFTDEPYGMAIKKGNPEFVKTVNELLKELKDSGEYDKLYEQWMGVKPE	PGPT0000670_364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000670-peb1A|glnH-K10039	NA	NA
AK002_00564	774	glnQ_1		Glutamine transport ATP-binding protein GlnQ	ATGCATGCAGGCGTCCAATTCGAAGTGAATAGGAGGGGATTTCTACTGATTGAATTTAGCCGCGTCAACAAATTTTTCGGAACCTTCCATGTTCTGAAAGAAATCGACCTGACCATTTCCCAGGGGGAAGTCGTTGTCATCGTTGGACCTTCCGGCTCCGGCAAAAGCACGCTCCTGCGCTGCATCAATCGGCTTGAAAGCATTACGGATGGCGAGCTCGTCGTGAATGGCGTGAAGCTGCATGACAGAAAGATCGACATCAATACATTCAGGCGGGATATCGGGATGGTCTTCCAGCACTTTAACCTGTATCCGCACAAAAAGGTGATCGACAACATCATTCTGGCGCCCATGAAGGTGCTGGGAATGTCGAAAGCGGAGGCGACGGAAAAAGCGATGACGTACCTGCAGCGGGTCGGGATCGCGGACAAAGCGGACAGCTATCCTTCCCAGCTCTCGGGCGGCCAGCAACAGCGGGTCGCGATTGCCCGCGGATTGACCATGAATCCGAAGATCATGCTGTTTGACGAACCGACGTCCGCGCTTGACCCGGAGATGATCGGCGAGGTGCTCGATGTCATGCGCTCGCTCGCCCACCAAGGCATGACCATGGCCGTCGTTACGCATGAGATGGGCTTCGCACGCGAAGCCGCGGACCGGATCGTCTTTATGGACGAAGGCCGGATCATCGAGGACGCTCCGGCTGCCGAGTTCTTCAATCAGCCGAAGGAAGAAAGAGCGCGGGCGTTTCTGAGCCGCCTGCTGCATCACTAG	MHAGVQFEVNRRGFLLIEFSRVNKFFGTFHVLKEIDLTISQGEVVVIVGPSGSGKSTLLRCINRLESITDGELVVNGVKLHDRKIDINTFRRDIGMVFQHFNLYPHKKVIDNIILAPMKVLGMSKAEATEKAMTYLQRVGIADKADSYPSQLSGGQQQRVAIARGLTMNPKIMLFDEPTSALDPEMIGEVLDVMRSLAHQGMTMAVVTHEMGFAREAADRIVFMDEGRIIEDAPAAEFFNQPKEERARAFLSRLLHH	PGPT0000710_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000710-peb1C|glnQ-K10041	NA	NA
AK002_00565	1182	icaC	COG3936	putative poly-beta-1,6-N-acetyl-D-glucosamine export protein	ATGGAGAAACGTGCAAAACTAACCGAAATCGACCTGGTTCGGGGCTTTGCGATGATGGGCGTGCTGATGGTGCATGCGACGTCGTTCGCCACAGTTCAGATGCGCGGGGACGATTTTTTTGGCTTGTATAACTTCCTGAACATATTTTCGAAGGTTGGAACGACGACCTTCATATTTCTGAGCAGCTTCGTGCTGTTCTATAACTATTATCACCGCCCGTTCAAGGGCCGTGACCTTGGGCGCTTCTTCAAAAACCGGCTGATGTATATCCTGGTGCCGTATGTGCTGTTCTCGGTTTTGTTCTTTACGGTGGCCTGGTATCATCGCGGGGGCGAGTCCGATCTGGCGGCGATGCTGGAGAGCTTCTGGCCCAAGCTGGCGACGGGAAAATCCTACACGCACTTGTATTTCATTTTCATTAACATTCAGTTCTACGTGCTGTTCCCGCTCGTATTGATGCTGCTCAAGCGATTCCGTGGCTTCGCGGCGGTCTGCGTGCTGGTCGGCATTGTGCTGCAGTGGTTGTTCTACATCGGCAATGATGCCTGGTGGGACGTAACGAACCGGAACAGCTGGTCGCTGTCGTTTCTGTCGTACTATTTTCTCGGGGCATGGATAGGGATCTATTATGACCGGGTTAAGAACTGGCTGACATCAGCGCAGCAGGCAGCAAGACCGGCGCTGCGCAAGCTGGGCTGGATCTTGCTCTGGGCGGTATGGCTGGGCGCCGCGCTGGTGCATATCGGCCTTCGATACAATCAGCGGCTGCTGGGGACGGAATATCACCCGCTGCTCTACGATGCCTTTTGGAATGTGCATACGTTAACCACCGCCCTGGTTATGCTCCAGGTCGCGCTGCTGTTCGGGAATAAGAGCGCTTGGTGGTTGGACGGGTTCAGACGGCTCGGGGTGTATTCCTTCGGCGTTTATCTGGTGCATCCGCTGGTGCTGCTCTTTTACCGGGACTTTCCTCCGCGGACGGAGAACTCCTGGCTGCTGCTCGCGTGGTATGCCGGCGGGCTTGTCAGCGCGGTGGCGGTTTCGTATATAGCGGTCTACGGCATTGGCCGCCTGGGAGGCTGGACCTGGATCTTCTTCGGTAAGCTGCCGGGCAGCTTGCCGAAGGGAAAAGCATCCATTCCTTCGGTTCCGGTGAAGCCAGCGACGGAGGTATCATCCTAA	MEKRAKLTEIDLVRGFAMMGVLMVHATSFATVQMRGDDFFGLYNFLNIFSKVGTTTFIFLSSFVLFYNYYHRPFKGRDLGRFFKNRLMYILVPYVLFSVLFFTVAWYHRGGESDLAAMLESFWPKLATGKSYTHLYFIFINIQFYVLFPLVLMLLKRFRGFAAVCVLVGIVLQWLFYIGNDAWWDVTNRNSWSLSFLSYYFLGAWIGIYYDRVKNWLTSAQQAARPALRKLGWILLWAVWLGAALVHIGLRYNQRLLGTEYHPLLYDAFWNVHTLTTALVMLQVALLFGNKSAWWLDGFRRLGVYSFGVYLVHPLVLLFYRDFPPRTENSWLLLAWYAGGLVSAVAVSYIAVYGIGRLGGWTWIFFGKLPGSLPKGKASIPSVPVKPATEVSS	PGPT0022170_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022170-yfiQ-NA	NA	NA
AK002_00566	1641			hypothetical protein	ATGAATGATAGCGGAAATCCTTTGGTAAGCGGTTTCGTTAAGGCGGACGGCAAACGCGTGGTGAACGGGGACGGGCAGGAAATTCTGCTGCAGGGGGTCGGGCTTGGCAGCTGGCTGCTGCCGGAAGGCTACATGTGGAAGATGCCGGAGCAGGGAGACCGCCCGCGGCGCATCGAAGGCATGATCAGGGAGCTGATCGGCGAGGAGAAGGCGGCCGCGTTCTGGGAGACCTATTATGATCGGTATATCGCAGAAGCCGATATCCGGCAGATCGCCGCGGAAGGCTTCAATTCCATCCGGGTGCCGATCAATGCCAGGTTTATCATGGAGGAAGGGCAGCATCCGCCGTTTGCCTATCATGAAGGCCATCTGAGGCTCATCGATCGGGTGATCGATTGGTGCAGGACGTATTCGCTGTATGTTATTCTGGATTTGCACGGCGCGCCCGGCGGACAAACCGGCGCCAATATCGACGATTCCGAGCGGGATTTGCCGGAGCTGTTCACGGATCGGCTGAACGCGGAGAGGACCGTGGCGCTGTGGCGTATGCTGGCGGAACGATATAAAGACGAGTGGATCGTTGCCGGTTACGACCTGCTTAACGAACCGCTGCCCGACTGGTTCAGCGAGTACAATGACCGGGTGATGCCGCTGTATAAGGAAATCACCGCGGCCATACGCGAAGTGGACAAGCGTCATATGATCATTCTGGAAGGTGTGCACTGGTCTACGGACTGGAGTGTTTTTGACGATAAATTCGATGATAACCTGATGCTGCAGTTCCATAAATATTGGAACAATCCCGACACGGAGAGCATTCAGAAGTATATCGATCTGCGTGAGGAGTGGAACGTGCCGATCTTCATGGGAGAAGGCGGGGAGAACAACCCGCAGTGGTATACGGGGGCCTTCCGGATGTTCGAGGACCATAACATATCCTGGAACTTCTGGACCTGGAAGAAGATGAACACCCGGAATTCGCCGTTCTCGATCCGCATGCCGGAAGGGTGGGATAAGCTGACGGGTTACCTGGAAGGCGGTGAGAAGCCGTCTCCAGCCGAAGCGGAAGCGATTCTTGGCGAATACCTGGACCGTCTTCCGCTGGAAGCCTGCGATGCCTATCCGAACGTAGCCCGGTCGCTGCTGCGCCGGCTGCCCATTCAGATTCCGGCGGAGTTTTACGGGTATCGGGGCGAGGGCGTTTCGTATCATGTCGAGAAGAAGGCCAGTCAGGATATCGGCTTCCGGATTTCTGACGGCGTTCCGATGCGGATGATGACGGGCAAGTCGGAGAAGCCGAGCTACGCTCCGGAGGGCGGCAAGCCGTGGGCGGAGGATAACCTGGTATGCGTGCAGCTCCGGGAGGGCGATTGGCTTGCTTATGATGCGCTTTGCGCTGGTGCAGGCATCTTTCATTTGGATGTTCGGGCCCTGATTCCGGAGGGTGCGGTGGATATCATGCTGCAGGTCGGGGATCGGGAGCCTGAAGCCATTTCCTTGTCGGGCGCGGGCGAAGGACAGTGGCACGTTCATAGGCTGGCTGGGGGGATGCCGATTGAGGAAGGCCCCGTGGATCTGGTGTTCATGGTGAATAAGGGACGCATCGAGCTGGATTGGCTGGAATTTACCGAAGCGCGTTAA	MNDSGNPLVSGFVKADGKRVVNGDGQEILLQGVGLGSWLLPEGYMWKMPEQGDRPRRIEGMIRELIGEEKAAAFWETYYDRYIAEADIRQIAAEGFNSIRVPINARFIMEEGQHPPFAYHEGHLRLIDRVIDWCRTYSLYVILDLHGAPGGQTGANIDDSERDLPELFTDRLNAERTVALWRMLAERYKDEWIVAGYDLLNEPLPDWFSEYNDRVMPLYKEITAAIREVDKRHMIILEGVHWSTDWSVFDDKFDDNLMLQFHKYWNNPDTESIQKYIDLREEWNVPIFMGEGGENNPQWYTGAFRMFEDHNISWNFWTWKKMNTRNSPFSIRMPEGWDKLTGYLEGGEKPSPAEAEAILGEYLDRLPLEACDAYPNVARSLLRRLPIQIPAEFYGYRGEGVSYHVEKKASQDIGFRISDGVPMRMMTGKSEKPSYAPEGGKPWAEDNLVCVQLREGDWLAYDALCAGAGIFHLDVRALIPEGAVDIMLQVGDREPEAISLSGAGEGQWHVHRLAGGMPIEEGPVDLVFMVNKGRIELDWLEFTEAR	PGPT0018620_2477	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
AK002_00567	465			hypothetical protein	GTGACGGAACAGGCGGCAATATCAGAAGGATTGTGCCAATGGCTGGACGGCTCCGATCTGGAGTCGAAACAATACGAAGCGATGCTGCTATTGAGCGTAACGGAAGATGGATGGCCGAATACGGCCATGCTCAGCGTAGGGGAGGTTCTGGCCTTGGACCGGAACCGGCTTCGGATTGCATTATGGCAGGGAACGGTTACGACAGGCAATCTCCTTCGGTCCGGACAGGCAACCTTGGTGGCCATACATGATGGTGCGGCTCATTATGTTCGGCTGCGACTTCAGGCGCTTCCTGATCTGCCCGATGCCCGGCATCCGCGGCAGCGTTTCGATGCCGAGGTCGTCGCCGTTCGCGAGGATATCGCGAAGTATGCGGATATTACGTCGGCTATCAGGTTTCGGCTGCACGAGCCGGATCAAGCATTGGAACGGTGGAAGGAAACGCTTGAGGAATTGCGGAAGTAA	MTEQAAISEGLCQWLDGSDLESKQYEAMLLLSVTEDGWPNTAMLSVGEVLALDRNRLRIALWQGTVTTGNLLRSGQATLVAIHDGAAHYVRLRLQALPDLPDARHPRQRFDAEVVAVREDIAKYADITSAIRFRLHEPDQALERWKETLEELRK	PGPT0005445_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0005445-bsdD-K21759	NA	NA
AK002_00568	201	cspD_2	COG1278	Cold shock-like protein CspD	ATGCAAACAGGAACTGTTAAATGGTTTAATGCTGAAAAGGGCTTTGGTTTCATCGAAGTTGAAGGCGGAAACGATGTATTCGTTCACTTCAGCGCGATCCAAGGCGACGGCTTCAAAACGCTTGACGAAGGCCAACGCGTTGAATTCAACATCGTTGAAGGAAACCGTGGACCACAAGCTGAGAACGTTGTTAAATTGTAA	MQTGTVKWFNAEKGFGFIEVEGGNDVFVHFSAIQGDGFKTLDEGQRVEFNIVEGNRGPQAENVVKL	PGPT0014675_9115	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK002_00569	237			hypothetical protein	ATGTATTCGCGTAAAAACTCGATGGAGAGTATTCCTGAGGAAATAACGGAAGTGTGGGCATGCACGAAGGAAGACTGCAAAGGGTGGATGCGGGACGATTTTGCGTTCGACACGGAACCGGTATGCCATTTGTGTCATTCCCCTATGGTCAAGGAAACGAGAAGCCTGCCGCAGCTAGTTAATACCAATAAACAACAGAAATCTCTTGCTAAGGGGATTCAGATCGAGCGCAAATAG	MYSRKNSMESIPEEITEVWACTKEDCKGWMRDDFAFDTEPVCHLCHSPMVKETRSLPQLVNTNKQQKSLAKGIQIERK				NA	NA	NA	NA	NA
AK002_00570	174			hypothetical protein	TTGAACACGCAAACCGAGGTACTGAAGCGAAACATTGACAACATGATCATTCAGGAGAACCAAGGCGGCTTGAACGATCAGGAAAAATTCATCATGCAGAAGCTAATGCGTGAGAAATACCAGCAGGAACACGAAAGCAAACAGGAACAGCGCGAGGAAGACAAAGAGGAATAA	MNTQTEVLKRNIDNMIIQENQGGLNDQEKFIMQKLMREKYQQEHESKQEQREEDKEE				NA	NA	NA	NA	NA
AK002_00571	996	yteP_6	COG4209	putative multiple-sugar transport system permease YteP	ATGCAAAATCAACTTCATGCCGACGCTTCCGAAACCGGTGTCGGTCCCTCGATGGAGCCTTCTGTGCAGGATAAGAGGAAGCTCGACAGAAAAAGATGGCTCAGAAAGCTCTACGGCCAACGACATCTTCAAATTATGGCGCTGCTCGGCGTTGTGTGGATGATCATCTTCAACTACATTCCCATGTACGGTGTCATCATTGCATTCAAAGAATTTAATATTGTCAAATCCATCGGCGAAGCTCCGTGGGTCGGGCTGGAACACTTCAAGGAGTTCTTCTCGGACGAAGACTTCACCAACGTTATGCGAAATACGCTCGGGATCAGCTTGCTGAAGCTGTTCATCGGATTTCCGCTGCCGATCATTTTTGCGCTCTTTCTGAACGAGATCCGGTCCGTTCGCTACAAGCGAACGATCCAGACGATCTCCTATCTGCCCCACTTCTTGTCATGGGTCATTCTGGGCGGCATTCTGATGACCTGGCTTGCGGATATCGGGATCATCAACAATATCCTGCTGGCCCTGCATATTATCGATGAGCCGATCACGTATCTGGCCGAACCGAAATATTTCTGGGGAATCATTATCACTTCGGATATTTGGAAGGAGCTCGGTTGGTCCGCGATCATCTATCTGGCGGCCATTGCCAGTATTTCGCCGGAAATGTACGAGGCCTCCACGATTGACGGCGCCGGCCGGTTTCAAAAAATGTGGTATATCACGCTGCCCAGCATCAAGTCGACCATATCCATCCTCTTCATTCTTGCGGTCGGTGGTGTGCTGAACTCCAACTTCGATCAGATTTTGGTGCTCCGGAACTCGCTGAACGAAAGCGCGAGCAACGTCATCGATATTTTCGTATACCACACCGGGATGCAGAACGGACGTTATTCCTACGCGCAAGCCGTTGCATTGTTCAAGTCCGTCATTGCGATCATCCTGCTGTTGATTGCGAACAGGGTGACCAAAAAACTGAACGACACCTCGCTGTTCTAA	MQNQLHADASETGVGPSMEPSVQDKRKLDRKRWLRKLYGQRHLQIMALLGVVWMIIFNYIPMYGVIIAFKEFNIVKSIGEAPWVGLEHFKEFFSDEDFTNVMRNTLGISLLKLFIGFPLPIIFALFLNEIRSVRYKRTIQTISYLPHFLSWVILGGILMTWLADIGIINNILLALHIIDEPITYLAEPKYFWGIIITSDIWKELGWSAIIYLAAIASISPEMYEASTIDGAGRFQKMWYITLPSIKSTISILFILAVGGVLNSNFDQILVLRNSLNESASNVIDIFVYHTGMQNGRYSYAQAVALFKSVIAIILLLIANRVTKKLNDTSLF	PGPT0017250_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00572	882	melC_3	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGCTTAAACGCAGAACCAAAGGCGAAGCCTTCTTTGATATATTCAATAATTTCGGCATGCTGATCGTATGTTTCCTGACGATCTACCCGATCTGGTATGTCCTGGTAAATGCCTTCAACGACGGGCAGGACGCCATGCGCGGAGGGATCTACTGGTGGCCGAGAATGTTCAGTTTCGAGAATTTCAGCGCGGTGTTTCAGAGCTCCGGCATCATGACGGCGATGGGCATCACTGTAGCCAAAACCGTGATCGGCGTGTTCATCCATGTCCTCTTCACCGCGATGGTCGCTTATGCATTTTCGCGGAAGGGTCTGATCGGCGGCAAATTCTATATTCTGCTCGGAACGATAACGATGTTTTTCGGCGGCGGACTGATTCCAACCTATCTGTTGATCAAGGATCTGAATATGCTAGACAGTTTCCTTGTGTACATCATACCGGCCATGTTCAGTTTCTTTGACCTCATCATCTTCATGACCTTCTTCCGGGAAATTCCGGACGGTCTGGAGGAGGCCGCGAAGATTGACGGGGCCAACGACTGGTCGATCTTCCTCCGGGTCGTGCTGCCGGTATCCATGCCGGTTATCGCAACGATCGCCTTGTTTCACGGAGTTTATCAGTGGAACGACTATTTCACCGGCGTCATCTATATCAACAATACGGATCTGCAGCCGATCCAGACGTATCTGTATAAGGTCGTCGCTCAATCGAGCTCCAATCAGATGATGGCCCAGGTGCCGGGCGGCGTGGCCAAGACGGTCACTTCCCAATCGATCAAAATGGCGACCATGGTCGTAACGACGGCACCGATCGTATTCGTTTATCCGTTCCTGCAGCGATACTTCGTCAAAGGGATGATGATCGGCTCCATTAAAGGTTGA	MLKRRTKGEAFFDIFNNFGMLIVCFLTIYPIWYVLVNAFNDGQDAMRGGIYWWPRMFSFENFSAVFQSSGIMTAMGITVAKTVIGVFIHVLFTAMVAYAFSRKGLIGGKFYILLGTITMFFGGGLIPTYLLIKDLNMLDSFLVYIIPAMFSFFDLIIFMTFFREIPDGLEEAAKIDGANDWSIFLRVVLPVSMPVIATIALFHGVYQWNDYFTGVIYINNTDLQPIQTYLYKVVAQSSSNQMMAQVPGGVAKTVTSQSIKMATMVVTTAPIVFVYPFLQRYFVKGMMIGSIKG	PGPT0017255_2153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00573	1668			hypothetical protein	ATGAGCAAGATGCTTAAGCCAAAGAGCCTTCTGTTGTTGATGTTCGCACTGGTCATGGCCTTTACAACAGCATGCTCGTCCGGCGGCGGTGACAATAACGCGTCGGAAAAAGAGGAAGACAAACCGGCAGAAGAAGTAAAACTGACTCAGGACCAGCCGGGATGGGAAGTCGATACCTCCCCGATTACGTTTGATTGGTACATCAACTTCGCCTGGTTCCCGAACAAATGGGGCGAGGACATTACGTCGCAATACGTAACGAAGAAGACGGGGGTTAACGTCAACTTCATCGTACCGGCCGGGAACGAAGCCGAGAAGATGAATACGATGATCGCTTCCGGCACACTGCCTGATTTTATTACGCTGGGATGGTATGAAGACGCTGTCAAAAAAATGATCGAAGGCGACCTCGTTCTGCCGCTGAACGAACTGGCGGACCAATACGATCCGTATTTCTATAAAGTAACCGACCCTGCGAAGGTGTCGTGGTACACCAAGGATGACGGCAACATTTACGGTTATCCGAATGCCTCCTCTTCACCGAAGGACTATGAGAAGTTTGGCGATAACATTACCTCCAACCAAACGTTCCTGGTCCGCAAAGACATGTATGAGGCGCTCGGAAGCCCGGATATGCGCACGCCGGAAGGTTTCCTGAAAGCGCTTGAGGACGCCAAGAAAATGTTCCCGGACGTGAACGGACAGCCGCTCATTCCGTTTGGATTGCATGATTTCCATGAGAAAGGCAACAGCTCCCTCGAGGGCTACCTGCAGAACTTCCTCGCCATTCCGCAGGATAAAGACGGAAAGCTGTATGACCGAAGCACCGATCCGGAATATGTAAGATGGTTGAAGACGTTCCGTACGGCGAATGAAAAAGGTCTGATGTCCAAGGATATTTTCGTGGATAAGCGTCCGCAGATGGAAGAAAAAATCGCACAGGGCCGCTATTTCGCGATGCTGTACCAACGCAGCGATATGGCGAACCAGCAGAACGCGCTGTATGCAAACGATCCGAACTCCGTGTACATCGCGGTGGACGGACCGGCTAACTCCAATCTGGATCAGCCGACCTTGTCGGGTCCTTCGATCTCCGGCTGGACGGTAACCTTGATCTCCAAGAACGTAAAAGACAAAGCACGTGCCATTCGCTTCCTGGATTACCTGATCTCCGAAGAAGGCCAGCGTGACACCTACTTGGGCGAAAAAGGCGTGACATGGGATACGATTGACGGTAAAGATCAATTCCTGCCTGAGGTTGCAGAGCTGCTGAACAGCGACCGCGGCGCATTCGACAAGAAGTACGGAGCATCCCATACCTTCTGGATGATGATGGATACCAACATCACGCCGGCTTGGGCGCCTCCGGCCGTAGAGCCATTCAAGCAGATGGAAGACTGGACTCGCGGCAAGACCCAGAGCTTCTCGCAATTCGATCAACTGGATCCGGATGCCAGCTCCGAGGAAGGTATCATTAACGACAAAGTATTGAACGAATGGGGCAAAATCCTGCCGAAGCTGATCTTTGCCAAAACGGATGCCGAATTCGATCAAATCTGGAGCGATTACCAAGCGAAACGCGAATCGCTCGGATTCGCGAAAGTTCAGGAATACAGACAGAAAGAATACGAAGAGAACGTCAAGAAGCTTGAGGAATTCCTGAAATAA	MSKMLKPKSLLLLMFALVMAFTTACSSGGGDNNASEKEEDKPAEEVKLTQDQPGWEVDTSPITFDWYINFAWFPNKWGEDITSQYVTKKTGVNVNFIVPAGNEAEKMNTMIASGTLPDFITLGWYEDAVKKMIEGDLVLPLNELADQYDPYFYKVTDPAKVSWYTKDDGNIYGYPNASSSPKDYEKFGDNITSNQTFLVRKDMYEALGSPDMRTPEGFLKALEDAKKMFPDVNGQPLIPFGLHDFHEKGNSSLEGYLQNFLAIPQDKDGKLYDRSTDPEYVRWLKTFRTANEKGLMSKDIFVDKRPQMEEKIAQGRYFAMLYQRSDMANQQNALYANDPNSVYIAVDGPANSNLDQPTLSGPSISGWTVTLISKNVKDKARAIRFLDYLISEEGQRDTYLGEKGVTWDTIDGKDQFLPEVAELLNSDRGAFDKKYGASHTFWMMMDTNITPAWAPPAVEPFKQMEDWTRGKTQSFSQFDQLDPDASSEEGIINDKVLNEWGKILPKLIFAKTDAEFDQIWSDYQAKRESLGFAKVQEYRQKEYEENVKKLEEFLK	PGPT0017245_1091	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00574	2004			hypothetical protein	ATGGTATCCGATCGGCTGATGCTGCCTTTCCATCCAGGACTCGGTTACGGTTATTTCATGAAACGGGATGTGACAGTCATGATGAAACGAATGGCATCGCTTATACAATCGTTTACCTATTGGATTGGCCGCAGGTCGATGCAGAGCCGTTTGGTTGCTGCCTATATTTTGATTTTGCTGATTCCGAGCATTATCGTGTCGAATTATTTTTTTAAGCAGATTCGGGATACCTATATCAGCGATGCGCTTAACCAGAACTCGTTCCTGCTGGAAATCGAGAAGATGAACATGCTGAACCAGATCGAGGCGATCGAAATGGCCGCACAGCTGGCGATTTCGGATGACAAAATCAAGGATTATCTTCGGATCAATGAAGAGCCCGAGCCGGCATGGCTGATCGATTTGGCATGGGGGCCTTTCAAGGATATACAACGGATCCAAACGAACAATCCGAATATTACGCATCTTCGGTTATACACCAACAACTCGAACGTGACGGAGATGTGGCCGATCATTTTCCATGAGAAACGGATCGCAAGCGAGCCGTGGTTTCCCAAGGTCAAGGAGTTGGACGGCGGGGAGATGTGGGTATTCAACCACCGCGATCCCGATATTCTGCAGCGCTACGCCGCCGACGTGTCCGAAGAGCAGCCGAAGGTGTCCTTGATCCGCCAAGTCCATAACGGGAATTACAGCGGCGTGATTCAGGTGGATATGCTGCTCAAGTATTTTGCTCCGAAGACCTTTGCCGGTATCGTGGATGACAGCTCGCAGATGGTCATCGTGGATCAGGAAGGGAAGTTGTTCATGGATCGAAGCCAATCGTTCATGACCAGTCACGAGGGACTCCGGGACGAGGTGGAGCTTCAATTCGCTAAGCTGAAGCTGCAGACGGGCGACTCCGAGGAGACCATGCATGCCAGGTTCAGCCTGGAGGGTTCCTCGTTCCTGCTGATTGCGACGCCGATGGAGCGGCTTCATGCCCACGTGCTGAATGTCGTTTCCCTGGAAGGGGCGCTGAATAACGTATCCAAGGCCCAGGGACAGATTATAGCCGCGAACGTCGTGCTGATCATTCTGCTGTCGATTATTACGTATTACTTGAATTCCATTATCCTGAAGAGCCTGCGTCGTTTAACGGAGACGATGAAGAGAGTCCGCAAGGGAGAGGTTACCGCGGCCATTGCGATCCGAGGCGGCGGCGAGGTGGGCGAACTGGCGCATCATTTTAACAAATTGATCCGCACCATCAATGAACTGATTGCCCAAGGGGTTCGCAAGCAGGCGGTGACCAAGGAGGCGGAGCTGCGCACGCTGCACAGCCAGATCGATTCCCATTTCCTGTACAACACGCTCGAAAATATTAAAATGCTGGCCGAAATCGAGGGACAGCGGACGATTTCGGACGCGCTGACCTCCCTAGGCGGAATGATGCGTTATAACTTCAAATGGTCGGGAGAGTACGTCAAGCTGAGGGATGAGATTCGCCATATCCGCAACTATATCGATGTAATGAATATCCGGTTCGACGAGCCGATCCGGCTTGAACTCAACATTCCGTCCGAATTCATGGAGCTCGAGGTATTGAAAATGTCGCTGCAGCCCATCGTGGAAAATGCCGTCAAGCATGCCTGGCCGGAGTTCCCGGATCAGGAGAAGCAGATCAAGATCGATGTCATCGCATGGGAAGAGGACCAGATTACGATTAACGTCACGGACAATGGAATCGGGATCGAGCCTTATCGGCTGGGCAGGCTGGGCGAGATTCTGCGAACGGCGGACGACGAGGAGCTCCCTTCGGGAGATTATGGGCGCGGCGGCGTGCAGGCCGGTGGAATCGGGCTTCGAAACGTGCACCAGCGAATCCGGTTGTTCTATGGGAATGAATATGGAATCGAAGTGAAGAGCGAAGAGGGGAAGTTTACGCAGGTGACCATGACATTCCCTAAAGTGCTGTTAACAGGAGGAGGCAGTGGACATGAGAAGTCTGATGATCGTGGATGA	MVSDRLMLPFHPGLGYGYFMKRDVTVMMKRMASLIQSFTYWIGRRSMQSRLVAAYILILLIPSIIVSNYFFKQIRDTYISDALNQNSFLLEIEKMNMLNQIEAIEMAAQLAISDDKIKDYLRINEEPEPAWLIDLAWGPFKDIQRIQTNNPNITHLRLYTNNSNVTEMWPIIFHEKRIASEPWFPKVKELDGGEMWVFNHRDPDILQRYAADVSEEQPKVSLIRQVHNGNYSGVIQVDMLLKYFAPKTFAGIVDDSSQMVIVDQEGKLFMDRSQSFMTSHEGLRDEVELQFAKLKLQTGDSEETMHARFSLEGSSFLLIATPMERLHAHVLNVVSLEGALNNVSKAQGQIIAANVVLIILLSIITYYLNSIILKSLRRLTETMKRVRKGEVTAAIAIRGGGEVGELAHHFNKLIRTINELIAQGVRKQAVTKEAELRTLHSQIDSHFLYNTLENIKMLAEIEGQRTISDALTSLGGMMRYNFKWSGEYVKLRDEIRHIRNYIDVMNIRFDEPIRLELNIPSEFMELEVLKMSLQPIVENAVKHAWPEFPDQEKQIKIDVIAWEEDQITINVTDNGIGIEPYRLGRLGEILRTADDEELPSGDYGRGGVQAGGIGLRNVHQRIRLFYGNEYGIEVKSEEGKFTQVTMTFPKVLLTGGGSGHEKSDDRG				NA	NA	NA	NA	NA
AK002_00575	1584	rssB_2		Regulator of RpoS	ATGAGAAGTCTGATGATCGTGGATGATGAGAAGAATATCCGGTATGGCCTGAAAACGATGATTGAACGGGAGTTCCCGGATCAATACGAGATCCGTTTGGCTGCCCAAGGGCAGGAAGCGCTGGAAGCCTACAACGAACAACCGGCCGATATCGTCATTACGGACATCCGGATGCCGGTCATGGACGGAATACGCCTGATCGAGGCGCTGGCCGAACGGGAGGGTCCGCTGGGAGTTAAACCCGTCTTTCTGATTCTTAGCGGGTATGACGATTTTGAATATGCGAAGGCGGCGATCCGGTACCAGGTGAAAGAGTACCTTCTTAAGCCGATTCGACGGGACGAACTGTTCGCTGCCCTCCGAAAGACAGAAGAAGTTTTGATCCGGCAAGCGGACGTGCATGACCGCATGGCGGCCAGTGACGCATATCTTCAACAGCTGCAGACCCATCGGCTGAAGGAACTCCTGGAGCGGCCCCAAAGTGTGGATGGGGAGCCGGAGGCTGCCGCGGCAAAAATCGGATTTGATTCCTTCGTAAAGCCATTTCGGGTAGCGGTGATGAAATACAAATACGAAGACGGCAACTCCATGAACAAGGATGAGCTGAAGCAGCTGATTGATAACATGACGGCTTCGGTGGAAGGGCGGATCAATGCGTGTTTCCTGGACGGTAAGGGGAGGGTCGTGCTCATCGGCAGTCCGGACGGACAATTCGAGAAGCTGGCACGGCAGTTTACCGAGCGGGAGATGGACGGGCTCTTCGTCGGAATTAGCCGGAAAGGCTTCCGGTTCGAGGATATTCGGAGCTGTTATAACCAGGCGCTGACCGCTTTGAGTTATACGTTCATTCACCCCAACGTCAAACTGATGAGCCATGATGACATTCAAGGGGAGCTGAACACGTATCCGGTGCCGGAAGAGAATATCCGCAAGCTCGGCAACATGCTCGGCACGGAACGGGAGCGGGAGATCAAGGCGCTGCTGCTGGACATTTTCCATATCGATGACATGCCCCATGTGGCCATCGATTATTTGGAGTTTGTCAGCAAACGGATTAATGAACGGGTGCTGGACGAAGTGTTCCGCGTGTACGGAGACTCCATGGTGGAAGTGTTGAAGCTGTACCGCAAGGTAGGGACGATGGACAATTACCGGCATTTCCATACGTATTTCAGGAATCTGGAGCATCTGCTGCTGCACGTGAATGAATACGTTAAAGGGATCCGTTCCGCCCACAGCGAGCATTCCGAGATCAAGGCAGCGGTCAGCTACATGGAGGAGAATTATCACAGGCCGCTGAACATGGCAATGGTCAGCAATTATGTATCGTTGAATTATTCGTATTTCAGCGAAGCGTTTAAGGCCCATACGGGCGAAAATTTCGTGGTTTATCTCAAAAAGCTGCGAATAACGAAAGCCAAGGACCTGCTCCAGGCCGGTGACATGAAGCTTGCCGATATCGGCAAAGCGGTCGGGTTTGAGAACACCAAGCAATTCTCGCGCGTCTTCAAAGAGCTGGAAGGCATCTCGCCACATGAATACCGGATCAAGGTGCAGACGGATGCAGGCTTGCAGCAGGAATGA	MRSLMIVDDEKNIRYGLKTMIEREFPDQYEIRLAAQGQEALEAYNEQPADIVITDIRMPVMDGIRLIEALAEREGPLGVKPVFLILSGYDDFEYAKAAIRYQVKEYLLKPIRRDELFAALRKTEEVLIRQADVHDRMAASDAYLQQLQTHRLKELLERPQSVDGEPEAAAAKIGFDSFVKPFRVAVMKYKYEDGNSMNKDELKQLIDNMTASVEGRINACFLDGKGRVVLIGSPDGQFEKLARQFTEREMDGLFVGISRKGFRFEDIRSCYNQALTALSYTFIHPNVKLMSHDDIQGELNTYPVPEENIRKLGNMLGTEREREIKALLLDIFHIDDMPHVAIDYLEFVSKRINERVLDEVFRVYGDSMVEVLKLYRKVGTMDNYRHFHTYFRNLEHLLLHVNEYVKGIRSAHSEHSEIKAAVSYMEENYHRPLNMAMVSNYVSLNYSYFSEAFKAHTGENFVVYLKKLRITKAKDLLQAGDMKLADIGKAVGFENTKQFSRVFKELEGISPHEYRIKVQTDAGLQQE				NA	NA	NA	NA	NA
AK002_00576	552			hypothetical protein	ATGACGAATTCAGCGAAGTGGATCTGGGTATGGATGGTAGCATTGGTGCTGGCCTGCACCGTGTTTCTGATTGAACATCAGAAGAAGATCGAACAGGGAACGAAAATGACCTTGCAAAGCATATTGGGCACATCTCTATTTCAAATATGGAGCCATTACACCGACATTTTGGAGTTGAAGTCCATGCCCCTTCATGAAGCGCGCCTTGCGGAAGTACGGCTGAAGCTGGCGGCCATCGAAGCGTATTCCAAGACGGCAGATGAAGCCGTCCGTTCGCAGCTGCTTAACCCCATCGCGGGAAAGCTCCTGGCTCTATCCGACAGTATACGGGAAAGCTATGCGGAGAACGGGGAGTTCTCGGAGGAGGACGCCCAGAAATATGCGATCATCATGAAGGATTCGGAAGCATTGATTTCCCTGATGTACAAGGTGTATTACGTTTCGGATTCGGTTGAGGGGGGAGAAGTCAAACTGGACATCTCCGATTACGACGAATTGGTAGCGCTTAACAACCGGTTGAAGCATGATTTGGACGGTTTTGCGAAGAAGTAA	MTNSAKWIWVWMVALVLACTVFLIEHQKKIEQGTKMTLQSILGTSLFQIWSHYTDILELKSMPLHEARLAEVRLKLAAIEAYSKTADEAVRSQLLNPIAGKLLALSDSIRESYAENGEFSEEDAQKYAIIMKDSEALISLMYKVYYVSDSVEGGEVKLDISDYDELVALNNRLKHDLDGFAKK				NA	NA	NA	NA	NA
AK002_00577	153			hypothetical protein	ATGAAAACGACTTCCCGCCGCTGTTCTCTGCAAATGGATGATTATTTGGACCTGCTGAACCTCGCGATCCAGCTTGGAGACGTGAAGTGGCAAAAAGAAATCACCCGCAAAATGGAAATGACGCTGTCCACATTAGAGACCGCTGCTCAATAA	MKTTSRRCSLQMDDYLDLLNLAIQLGDVKWQKEITRKMEMTLSTLETAAQ				NA	NA	NA	NA	NA
AK002_00578	870	araC_2		Arabinose operon regulatory protein	ATGACGATCCTGAATTTTACCGTTCCGCCACTGCCGGAATACATCAATAGCGGGCTTACCCGGGCTCCGATTCACAGTGGACACCCCAACCGCAAAAACATCGGCATCTTTGATTTGCTCGTCGTTAGGAAGGGGCAGCTGCATGTCACCGAGAACGGAAATCCTTATGAGATCAAACCCGGCATGTTCCTGATCCTGCGTCCCGATACGCATCATTTCGGTACGAAAGGATGCATCGAGGAGACCGATTATTACTGGCTCCATTTCCAGACCTCCGGGGATTGGCACCCGGATGAGGCCTGCCAAGCGCCTAGAAGAGAGGAAGTTTCGGAGCTGAAGGCGATGACGCCGAACTATTTTTCCGTCAACATTCCTCAGTTCGGCACCCTGCCTCAGCCGGAAAAGGCCTTGGAGCTCCTGGCTACCCTGTCTTCGCTGGTACAGTACGGTCACCAGGCCAAAATCCTGTGGCGGCAGCAGGTGGTGTTCCAAGAGCTCATCGAGCAGCTGGCCGCCGCACTGGATACGCCCCTCTCCTCGCCCTCCTCCGCTTGTGCCGAACGGGCCGCAGCTTATCTGCGGAAGCATTATCGCGAGGAGTTCAAGGTACAGGAGCTCGGCGACCGCATCAACTTCCACCCTGTCTATATCGCACGCTGCATGCAGAAGGAATTCGGCTGCTCGCCGGTTGAATATTTGCAGCGCTATCGGATCGAGCAGGCCAAGATGCTGCTGATGCAGACGGACTTCAGCATCAGCCGGGTCGCGGAGGAGGTCGGTTTCAATCATGCGGCCTACTTCACCTCCTGTTTCACGAAGCAGGAAGGGATCTCGCCGCGCAAATACAGGCAGCGGTTCTTCATGAATTAA	MTILNFTVPPLPEYINSGLTRAPIHSGHPNRKNIGIFDLLVVRKGQLHVTENGNPYEIKPGMFLILRPDTHHFGTKGCIEETDYYWLHFQTSGDWHPDEACQAPRREEVSELKAMTPNYFSVNIPQFGTLPQPEKALELLATLSSLVQYGHQAKILWRQQVVFQELIEQLAAALDTPLSSPSSACAERAAAYLRKHYREEFKVQELGDRINFHPVYIARCMQKEFGCSPVEYLQRYRIEQAKMLLMQTDFSISRVAEEVGFNHAAYFTSCFTKQEGISPRKYRQRFFMN				NA	NA	NA	NA	NA
AK002_00579	1392	yeeO_1	COG0534	putative FMN/FAD exporter YeeO	ATGTTGGATAAAAACACAAACAAATTTACATTATGGGTTCTCGCATGGCCCATATTTATCGAGCTGTTCCTGCAGTTTCTGCTGGGAGCGGTGGATACATTGATGGTCAGCCGGATTTCTGACGATGCGGTAGCCGTGGTCGGCTTCTCCAATCAGCTGTTTCAGGCGATGACGACGCTGTTCATGACGGTCGCCAGCGGTGCCGGCATTCTCATTGCCCAGAAGATCGGCTCGCATCGGACGGGGGATGCCCGAACGATCGGCATCATGGCGGTAAGCGCCACCACCATCATCGGCTTGGCGTGCAGCGTGATCTTGTTTGCAATGCCGGAGGCTATCGCCTCGGTGCTGCAGTTGCCGGAGCATCTGCTTCCGCTTGCGGGAACGTATATCTCCATTGTCGGCGGCGGAATGATCTTGATTGCCATGATGGCTACGATGAGCACGGTCATCCGCAATACCGGCAACACGCGCGGGCCGATGTACGTGGCCATCGGGATGAATATCATCCACGTCATTATGAACTATGGGTTTATATTCGGAGCTTTCGGCTTCCCGCAGTGGGGGCTTACCGGCGTTGCGATTTCGACGGTGGTCAGCCGGTTGCTTGCCGTTCTCTTGCTGCTGTACATGTTTCTGCGCTCCTTTGAATACCGAATCAAATGGAGGGAATTCCGGGTGTTCGACCGCCCGCTGTTCGGCGAAATCCTGAAGATCGGATGGCCGCTCGGCATCAATATGTCCTGCTGGGTTTTTACGCAGCTGATCATTTACTCCTTCATTGCAACGCTGGGTGCCGCCGAGCTGGCAGCCCGTACGTATATGAATACGCTGGAATCCTTCTGCTTCCTGCTAGGCTCGTCGATCGCGATGGCGGCCCAGATCCAGATCGCGCATCTGTTCGGCGCAGGCCGGATCCGGGAGGCCTACCGAAGCGCGTACCGCGCACTGGGTATCGGGGCTATTTACGTGGTCGTCAATGCATTCCTCCTGTATGTTTTCGGAAAACAGCTGCTGGGGCTGTTTACGGACGATAAAACGATCGTTGCGATCGGGGCATCGCTTCTTGGCATGAACCTGATTCTCCAGCCCGGCAAAATGCTTAACATGGCGCTCGGCAACTCGCTCAATGCCGTCGGAGATACCAGGTTCACCATGTACATTTCCCTTGGCTCGATGTGGCTTGTCGCCACCGCGCTCTCATATGTGCTCGGCATTCATATGGGGTGGGGGCTTATCGGCATCTACTCCTGCATGATCGCCGACGAGTATTTGCGCGGCGTTTTGTCTTTCTTCCGCTGGCGCGGACAGAAGCACCTCCGCAAGGCAGAGCAAGTCGAGCCGGTGAGCCATCAGGCACAACCAATGGAACCGATCCCGGCGCAAGCTTAA	MLDKNTNKFTLWVLAWPIFIELFLQFLLGAVDTLMVSRISDDAVAVVGFSNQLFQAMTTLFMTVASGAGILIAQKIGSHRTGDARTIGIMAVSATTIIGLACSVILFAMPEAIASVLQLPEHLLPLAGTYISIVGGGMILIAMMATMSTVIRNTGNTRGPMYVAIGMNIIHVIMNYGFIFGAFGFPQWGLTGVAISTVVSRLLAVLLLLYMFLRSFEYRIKWREFRVFDRPLFGEILKIGWPLGINMSCWVFTQLIIYSFIATLGAAELAARTYMNTLESFCFLLGSSIAMAAQIQIAHLFGAGRIREAYRSAYRALGIGAIYVVVNAFLLYVFGKQLLGLFTDDKTIVAIGASLLGMNLILQPGKMLNMALGNSLNAVGDTRFTMYISLGSMWLVATALSYVLGIHMGWGLIGIYSCMIADEYLRGVLSFFRWRGQKHLRKAEQVEPVSHQAQPMEPIPAQA				NA	NA	NA	NA	NA
AK002_00580	543	sigW_2	COG1595	ECF RNA polymerase sigma factor SigW	TTGGTACACGACCTTATACAACGATTAAAGACGGAGTACAGCGATGAACTGTTTGAACAGCTGTATCGGTTATATGCGGATCGGGCGATTCGAACGGCAGCCGCAGTCACCGGAAGTTCGGCAAGCGCCGCCGACGTGGTGCAGGAAACGTTTATCCGGGTTTACCGCAACCTGGGGTCCTATGATTTGAGCAGACCCTTTGAGCCGTGGTTCAACCGGATTCTCTATAACGAGTGCAACCGGTATTTGAAGAAACATGCGAGGATGGTGCCTTCGGAAATTTCCGAGGAGAGGGATCTTCCCTCCGAGAGCGACACCTATGAATTTGACCGGCACGGCGAGGTATATGAGCTGGTGCAGCGGCTGGATGATCCGCACCGGATTCCCGTTATTTTGAAATATTTGAATGATGTTGCCGAGAAGGATATCGCGGACATGATGGAGCTGAACGTCAACACGGTGAAGTCCAGGCTGTTCAAAGCGAGAAAGAAATTAAAGGAATGGATGCTGCAGAATAGGGGAGGGAATCAGCATGGGACGTGA	MVHDLIQRLKTEYSDELFEQLYRLYADRAIRTAAAVTGSSASAADVVQETFIRVYRNLGSYDLSRPFEPWFNRILYNECNRYLKKHARMVPSEISEERDLPSESDTYEFDRHGEVYELVQRLDDPHRIPVILKYLNDVAEKDIADMMELNVNTVKSRLFKARKKLKEWMLQNRGGNQHGT	PGPT0014960_10106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00581	816			hypothetical protein	ATGGGACGTGATCCATGGGATCAAGAGATTGCAGACGGCCTGAAAAAGGGAACGGATGACGCGATGCGACATAAAGACGAGATTTGGATGGCGATCAAGGAGCGGATTCATAACGAGCAAGCCCAGCAGCCGGCGGAGCCGGAGACCCGCTTCGCGCCAAGGGAATCGAAAGGGCGCCGCCGTTCGGGACGAAGAGCGGCCGGATGGATTGCGGGCACCGCCGCTGCGGCAGCCATCGTGCTGACCGTCAGCTTTCAGACGGCGCCTGTCCAAGCGTTCATTGATCAGGTGAAGGAATGGTTCGCTCCTCAGAAGACGGTTGAACAGGAGCTGGAGGGCATGCCGGAAACAAGCGTGGATCAGCTGCATGAGGGGGCGGATTACGTGATTTATATTGATGAGAGCCGGTTTATGATGGTTCATGAATCGGGCGTGGATCGCATTGAATTGAAGGAGAAGCCGACGGATGACCGCTATCCGGAGGTGTTCATGGAAATTTCGCAGGAGCGCATTGATCCAAAGAGCGCAGCGGAGCAGCTCCAGAAGGAGCTGCAAACCTATCCGAAGGTCGAGGCGAATCTCGTGGATGAACCGATTCAAGGCTGGGAGGTACGTGCGGTAGGCGGCACCGGCGGCAAAGAGTGGGATGATCCGGTCATACGGTATTATGTGTTCGATAACGGGCAGGGCGGCAGCTTTGTCGTGAAGCAGCAGTATTTCCTGGAGGCCTCCGAAGGCTTCGGTGCACGCTTCCATAACATGATGAAGGAATTCCATATTACCTCCAATCATAATGGAGAGGCAACGAAGGAGTAG	MGRDPWDQEIADGLKKGTDDAMRHKDEIWMAIKERIHNEQAQQPAEPETRFAPRESKGRRRSGRRAAGWIAGTAAAAAIVLTVSFQTAPVQAFIDQVKEWFAPQKTVEQELEGMPETSVDQLHEGADYVIYIDESRFMMVHESGVDRIELKEKPTDDRYPEVFMEISQERIDPKSAAEQLQKELQTYPKVEANLVDEPIQGWEVRAVGGTGGKEWDDPVIRYYVFDNGQGGSFVVKQQYFLEASEGFGARFHNMMKEFHITSNHNGEATKE				NA	NA	NA	NA	NA
AK002_00582	618			hypothetical protein	ATGAACAAGATTAGAATGATATGGATTGCAGTCGTGGCCGTGCTGGTGATCGCAGGCTGCAGCAACGAAATTCCCCTGGTGGAGAACGAGCCGGTGAACATATCCGTGCAAGGGCTTGAATTATCCAAGCAGCCGCAGCCGGAGGAGAAGAAAGAGGCAACTCCTGCCGGAGAGAGTGACGAGGCTTCAGAAGATCAATCGGTAGCGAAGGCAGCCGATCTGTCGCCGTCTGTTCCGGCCTCTTCCGCGGAAAAGCCAACCTCGAAAGAGCAGGGAGAAGATGTTGTTTCTTCCCTGAAAGAGCTGTCGCTGATAAGCAAGACGATGGAAGAAGTCCGGCAACAGCTAGGGGAGGCGAAGACGACGGCTAAAGGCGGGGGATTCACTTCGTGGCAGTATGATCATCCAGGCAAGGAAGGCTACCATTACCCCGAAACCGCCGTTTCGGTGGATGTTCAGGGCCTTGAGAGCAGAAGCATGAAGGCGCAGCTCATGATAAGCTTTAACGAGAACAGGGTGGTGGAATCTTACTCCATCTATCACGTGGTAGATGGTGAAATTATGGTGTACCGTGTCACCGGAGCAGGGGCTGTGGAGGAACCGGGACAGGCGGATTAA	MNKIRMIWIAVVAVLVIAGCSNEIPLVENEPVNISVQGLELSKQPQPEEKKEATPAGESDEASEDQSVAKAADLSPSVPASSAEKPTSKEQGEDVVSSLKELSLISKTMEEVRQQLGEAKTTAKGGGFTSWQYDHPGKEGYHYPETAVSVDVQGLESRSMKAQLMISFNENRVVESYSIYHVVDGEIMVYRVTGAGAVEEPGQAD				NA	NA	NA	NA	NA
AK002_00583	1221	ansZ	COG0252	L-asparaginase 2	ATGATGAAACCTAAGTTGAAACGCCCGTTAGCAGTATGGAGTACCGCTGCATTCACTGCTTTTGTGATTTCTTTATCGCCTGTTGGAACGTATGGGGCACATGCTGCGACGGTCACGGAAGTGAAAGGGACGGTAAGTGCGGTTTCACCCGTGCAAACCCCTGCGGCGCCAGGTAGGAATACGACGGTTCCTCCCCTGTCGGAGGCCTCTAAACAATCGGCGAAGCCGAACGTGCTGGTGGTTGCGACTGGCGGCACTTTGGCGGGCCAATCGACGGATGCAACCAGCTTTCAATCCTATCGGGCAGGTACGCTGAAGATTGAAGATATGGTAGGCGAGCTTCCGAATACGGACAAGGTTGCGGATATCAGCACGCTCCAGTTCGGCAACTCCGGGTCGAGCGCTTATACCATGGCCGATTTATACGATCTTTCCCGGACCGTCGACAAGGCGTTGGAAGTGTACGATAGCGTCGTTGTAACGACGGGGACGGATACGATGGAAGAGATTGCGTACTTCCTCGATCTGACGGTGCAAAGCGACAAACCCGTCGTTATCACGGGTTCCATGAGACCTTGGACGGTAATCGGTTCCGATGCCCAAGCGAATCTGTACAATGCCATCAAGCTTGCCGGAAGCGGCCGTACGGAATCCTTCGGCACGGTGCTGATGCTGAATGACACGATTCATCTGGCGCGCGGCGTAACCAAGACCAATGACTACCGCACCGACACGTTCGAAACGCCTATGCTGGGCGCGATCGGATATATCGATGACGAGAATATCCGTATCTACCGGGCTCCCCTCCGTGCAATGAAAGAGGAAGGTCAGGGCAAGCCGGTGTTTGATCTGAGCAAAATCACGAAAGAGGATCTGGCGAAGGTCGAAATTGCGGTTTCTTATCAAGAGGCCGGCGGCGGCTCGATCAAAGGCTTTGTGGCAGATGGAGCTAAAGGCATCGTCACCTCCGGTACCGGCGCAGGCGGCATCTCGAGAGAGATGAGCGCTGCCCGCAAAGAAGCCATTGAAAAGGGGGTGGTCTTCGTAACTACGACCCGTACAGGCTCCGGAAGCGTATACGGCGGCGGAGAGGGCATCATTTCAGGCGACAACTTGAGTCCTCAACAAGCCCGCGTACTGCTGCTGCTCTCCCTGTCCTTTACGGATGATTTCGATACGATCAAGGGTTGGTTCGCAACCTACGGAACGCCTGAGGTGTAA	MMKPKLKRPLAVWSTAAFTAFVISLSPVGTYGAHAATVTEVKGTVSAVSPVQTPAAPGRNTTVPPLSEASKQSAKPNVLVVATGGTLAGQSTDATSFQSYRAGTLKIEDMVGELPNTDKVADISTLQFGNSGSSAYTMADLYDLSRTVDKALEVYDSVVVTTGTDTMEEIAYFLDLTVQSDKPVVITGSMRPWTVIGSDAQANLYNAIKLAGSGRTESFGTVLMLNDTIHLARGVTKTNDYRTDTFETPMLGAIGYIDDENIRIYRAPLRAMKEEGQGKPVFDLSKITKEDLAKVEIAVSYQEAGGGSIKGFVADGAKGIVTSGTGAGGISREMSAARKEAIEKGVVFVTTTRTGSGSVYGGGEGIISGDNLSPQQARVLLLLSLSFTDDFDTIKGWFATYGTPEV	PGPT0020180_118	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
AK002_00584	1038	cytR_1	COG1609	HTH-type transcriptional repressor CytR	ATGAAGAAGCCGACCACGATACATGATATAGCGAAGATGGCAAACGTTTCTTCGGCAACGGTTTCGCGCGTGTTAAGCAACAGCAGTTATCCTGTCAGCAAAGAGCTTAAAGAACGTATCCAGCGAATCGCGAAGGAGTCCAATTATATTCCAAATATGTTTGGCAAACAGCTGAAGAAGAATAGCAGTAATACGATCGGAATCATCATTCCTTCTATTGTGAATCCATTCTATTCTTCCGTCATATTCGGGATCGAAGAGGTGGCGCGGCAGAATAATTTTACGGTTATCGTATGCAATTCCCTGCAAGATCCGGCGCTGGAGGACGAATATTTAAGGACGATCATGGAGAAGCAGGTCAAAGGCCTGATCATCTCTTCGATCTCCAAGGATAAGAGCCAGTTGACCCAGCTGATGAACCTTGGCCTGAACGTCATCGCCATCGATCAGAAGATCGATGAGGACAACATTAACCAGATCGAGTTCGATTACCACAAGGCCGGTTACATCGCTACCAAGCATCTGCAGGAGAAGGGGCATGCGCGCATCGGTTACGTCACTTCCAAGCTGGATCGCCCAAGCCGCCGAAGCATTCATCAGGGCTATATGTCGGCGATGAAGGACGCAGGTCTCAAACCGCTGGTGGTCGAGTCCCCGACCGAGGAAGTGTATAATGCGATAACCGAATTCGATACAGGCAAGCAGCTCACGCAGGGACTGCTGGAACATTCGCCGCAGCCGACGGCGATATTTGCGTGCAATGACATGATGGCCTTTGGGGTGATCAACGAATTGTCACAGCGCGACATCCAGGTGCCGGAGCAGATTTCGGTAATGGGCTTTGACGGCATTGACGTGGGGCAGATGATTCATCCGCCGCTCACAACGATTAAGCAGCCCGATTACGAGATGGGGAAGATGGCCTGCAAAATGCTGCTGGATATGATGAAGGGCGACGATAGCCCGATGTTTGATGTCATGCTGCAGCCTAAATTGCTGGAGCGAAAATCGGTCCGGGATATTCGGGAGAACAAGTGA	MKKPTTIHDIAKMANVSSATVSRVLSNSSYPVSKELKERIQRIAKESNYIPNMFGKQLKKNSSNTIGIIIPSIVNPFYSSVIFGIEEVARQNNFTVIVCNSLQDPALEDEYLRTIMEKQVKGLIISSISKDKSQLTQLMNLGLNVIAIDQKIDEDNINQIEFDYHKAGYIATKHLQEKGHARIGYVTSKLDRPSRRSIHQGYMSAMKDAGLKPLVVESPTEEVYNAITEFDTGKQLTQGLLEHSPQPTAIFACNDMMAFGVINELSQRDIQVPEQISVMGFDGIDVGQMIHPPLTTIKQPDYEMGKMACKMLLDMMKGDDSPMFDVMLQPKLLERKSVRDIRENK	PGPT0017992_5203	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
AK002_00585	1314	yesO_2	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGTCAAGAAAGGTAAAGGTAATCTCTTTGATGCTGGCGTTTATGATGATGTTCACCGCTTGCTCCTCATCCGGCGGGTCAACCGATGGGGAGGTCTCACCGGGGGAAGCGGAAGGCAGCAAAGAGAAGGTGACGCTCAAGATTGGGCTCCCTGGCAGCTATGAGGTGACAAGTAAAGAAATTATCGACGGTTTTATTGCGTCCCACCCCCACATCAACGTTGAAATCCAAGAAGCGCCCTGGGGGGACTTTACGTCCAAGATCGCCACGCAGATTGCAGGCAACACGATGCCGGACGTCTGGTTCCAAGAGAACGCCACCATACTTAGCTACGGGGAACGAGGCGTGGCAGAGGACTTGTCCTCCTACATTGAATCCGACCTGAAAGCGGACGAATACATCGACGGACTCTTCTCCGCCAAAACGCCGGATGGGAAGATCTGGGGCGTCCCCCACGGCATTAACCCGATTGCGCTAGCGTACAACCAGGATGTCTTCGAGAAGGCAGGCGTGCCGGTACCGACCGACGACTGGACCTTTGACGACCTCATTGAAGCCTCCAAGCAGCTGACGATCAAGGAAGGAGACCAAACCAGCCAATTCGGATTCATCGGTTCCTTTTCCATAACCAACGGCTGGTTTCCTTGGATCAAGCAGGCAGGCGGCTCGGCTTTGGACGACACCCTGACGAAATCTCGGTTTGACGATCCCAAAACCGCGGCCGGATTACAGCAGCTGTATGACGGTTTGGATCAAGGCTATTTTGCCGATATCGATTACTTGAAGGCGAACGGCGGCGAGCTCGAAGTATTCGCGAGCGGCAAGGCCGCGATGTATTTCCTTCAATACAGCCTGCAGGTGAATATGAACGAGAGCTTTGCCGATACGAACTGGGATGTCGTCAAAATTCCGAAAGGGGTTGACGGCAAGCGCTATGTTCCGATGGTAGCCAACACGTGGCTGGTCTCCTCCAGAGCGAAGCAGGAATCGAAGGATGCCGCCTGGGAGTTCCTGAAATATTACCTCGGCGATGAAGTGCAGGATATCATCGTCAAGACGGGATCCACGCTGCCCGTGAAGAAGTCGGCGCTGGATCAGTTGAAGGACAGCACAACCAAACCTCTGAACAAAGCGGCTTTCACGGACGGCATTAACGAAGGCGGCGTTACCCTGGATGAGAATGCTACCTGGAGCGAATGGCGGATTCTGGTGCAGCAGGTGGTCAATGAAATCATGGTGGGCAATGTTTCGGTGGAAGACGGCGTGAAGGATATTCATGCCAAGGTTCAGGATGTGCTGGACTCCGGTAAATAA	MSRKVKVISLMLAFMMMFTACSSSGGSTDGEVSPGEAEGSKEKVTLKIGLPGSYEVTSKEIIDGFIASHPHINVEIQEAPWGDFTSKIATQIAGNTMPDVWFQENATILSYGERGVAEDLSSYIESDLKADEYIDGLFSAKTPDGKIWGVPHGINPIALAYNQDVFEKAGVPVPTDDWTFDDLIEASKQLTIKEGDQTSQFGFIGSFSITNGWFPWIKQAGGSALDDTLTKSRFDDPKTAAGLQQLYDGLDQGYFADIDYLKANGGELEVFASGKAAMYFLQYSLQVNMNESFADTNWDVVKIPKGVDGKRYVPMVANTWLVSSRAKQESKDAAWEFLKYYLGDEVQDIIVKTGSTLPVKKSALDQLKDSTTKPLNKAAFTDGINEGGVTLDENATWSEWRILVQQVVNEIMVGNVSVEDGVKDIHAKVQDVLDSGK	PGPT0016545_5470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00586	936	lacF_4		Lactose transport system permease protein LacF	TTGGCGACGTGTCGGATTGCATCCTTTGCTCCGTTAACGAAAGGCAGGTGTGTCATGCAGAAACAAGGATACTGGGGTTATATCTTCACATTGCCGTTTGTCATCAATGTCGTGGTTTTTCTCTTATTTCCGATCTTATTCTCCACGTATATTTCCTTCACGGAGTGGGATTTGTTTAACCCGCCGCGGTGGATCGGGCTGGACAACTGGGTGCGGGTCCTGAACAAGCACGAGTTCTGGGTGTCCATTCGGAACGTGTTTGTCTTTGCGCTCATCTTCGTGCCGATTCAGACGTTAATGGCATTCGTGATCGCATTCATGCTGAATCAGGCCATCCGGGCCAAGGGCTTGTTCCGGTTGTTCTATTTCCTCCCCGTCGTGACTCCGTGGATCGCGGGCGGCGTGGTCTGGGTGTGGATGTTCAACTATCAATACGGCGTGATTAACTGGGTGCTGGAGTCTGTCGGCCTTGCCCCCGTTAAATGGATTGACAGCAGCCATTGGCTGATGGTCATCTCCAGCATCGCGATCGTTCAGGTATGGAAGGGCGTGGGCCAATCCATGATCATGATTCTGGCCGGCATGCAGAACGTTCCGAAAGAGGTGCTGGAAGCCTCGCAGATTGATGGCGCCAATGGCTGGAAGCAGCTGACGAAGGTGGTGTTCCCGATGGTGACGCCGATGGTGTATCTCGTCATGATTTTGTCTACCATCTCGGCATTCCAGGCATTCGACGTGTTCCTCGGTCTGTTCGGCTCCATCACCACGGGCATACCGGAGAGAAATATGGTGCCGAATCTGCTGGTGTACCGGGACGCGTTCCTGCTCTTCAAAATGGGACCGGCATCGGCAACGGCCTGGCTGCTGTTTGTCATCATCCTGGGCTTCACGTTGTTCCAGAAGTATTTCGAGAAAAAGTGGGTGCACTATGACTAA	MATCRIASFAPLTKGRCVMQKQGYWGYIFTLPFVINVVVFLLFPILFSTYISFTEWDLFNPPRWIGLDNWVRVLNKHEFWVSIRNVFVFALIFVPIQTLMAFVIAFMLNQAIRAKGLFRLFYFLPVVTPWIAGGVVWVWMFNYQYGVINWVLESVGLAPVKWIDSSHWLMVISSIAIVQVWKGVGQSMIMILAGMQNVPKEVLEASQIDGANGWKQLTKVVFPMVTPMVYLVMILSTISAFQAFDVFLGLFGSITTGIPERNMVPNLLVYRDAFLLFKMGPASATAWLLFVIILGFTLFQKYFEKKWVHYD	PGPT0016535_8059	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00587	831	araQ_9	COG0395	L-arabinose transport system permease protein AraQ	ATGACTAAGACGACTCACCCCTTGCTTAAGGTGCTGATGTACCTGCTGCTGATTGCCGGTGCGGTTTTCATGGTGTTCCCGTTCATATGGATGCTGTCCACGTCGTTGAAGACGGTTGGCGCCATCTCGCAGATGCCGCCGCAGCTCATCCCGAATCCGCTGAATTGGGATAACTATGTGACGATATGGAATAAAGTCGACTTCGGCCGATATACCTTGAACAGCTTTTTCATCGTTTCGATCGAGATGGTGGGATCCTTGGTCTCCAGCGCTTTCGTGGCCTTCGGGCTCGCGATGTTTACCTTTCGGCTGCGGGGGCTCATCTATATGATCATGCTGGCTACCCTGATGATTCCGTCGCAAGTGACCATGATCCCGACCTATTTCATCTGGAAGGAATTCGGGGCGTTGAATTCGTATTACCCTTTGATCGTGCCCAGCTTTCTGGGCGGGGCATTCGGTATTTTCCTGATGCATCAATTCATTAAATCCTTGCCCAAAGAGCTGTATGAATCGGCTACGATCGACGGCTGCAGCCCGCCGGGCATATTCTTCAAAATTTATCTGCCGCTGTGCAAGCCGGCGCTGGCCGCGCTGGGCGTATTCACCTTCATGGGCGCGTGGAACAACACGCTGGGCCCGCTGATTTACCTGCAAGACAAGGAGTTGTACACATTGCCGCTCGGCTTGCTCTACCTGAAATCGGAGAACGTCAATCAAGCGCTGCTGATGGCGGGGGCCGTTATTACGACGCTGCCGGTCGTCATCGTCTATCTGTTCGCGCAGAAGCAATTTGTTCAAGGCATCGCTTCGACAGGGATGAAAGGCTGA	MTKTTHPLLKVLMYLLLIAGAVFMVFPFIWMLSTSLKTVGAISQMPPQLIPNPLNWDNYVTIWNKVDFGRYTLNSFFIVSIEMVGSLVSSAFVAFGLAMFTFRLRGLIYMIMLATLMIPSQVTMIPTYFIWKEFGALNSYYPLIVPSFLGGAFGIFLMHQFIKSLPKELYESATIDGCSPPGIFFKIYLPLCKPALAALGVFTFMGAWNNTLGPLIYLQDKELYTLPLGLLYLKSENVNQALLMAGAVITTLPVVIVYLFAQKQFVQGIASTGMKG	PGPT0016540_7672	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00588	1242	yteT_3	COG0673	Putative oxidoreductase YteT	ATGAAGAAGTACGTGCTGGTCGGCGCTGGATCGAGAGCGCTGTATATGTTTGCTAAGCCGATGGTTACCGACTGGAGAGGCGTCCTTGCCTTTGAAGGCGTGTATGATGCCAATCCGTTGCGGGCGCGCTTTCTGAGCGAGGAGTGCGGGGGAATCCCCGTCTACGATGATTTTGACGGAATGATCGCCGCCGCGAAGCCGGATGTCGTGATCGTGGCGAGTACGGATTACACGCATCATACCTATATCGTGAAAGCCTTGAGGGCAGGCTGCGACGTCATTAGCGAGAAGCCGATGACGATTGACGAAGACAAGTGCCGAGAGATTCTGCAGGCGGAGTCGGAGAGCGGCAAGAAGGTGACGGTCACGTTCAACCTTCGGTTTGCGCCATATTTTGCGACCGTGAAGGAACTGCTGCTGCAAGGAGTCATCGGAGATGTTTACCATATTGATCTGGAGTGGTTTCTGGACCGCCGGCATGGCGCGGACTATTTCCGCAGATGGCATGCCGAGATGAAGAACAGCGGTGGGCTGCTGGTTCACAAGTCCACGCATCACTTCGACATCGTGAACTGGTGGATGAACAGCCGTCCCGCGGAAGTTCATGCGTTTGGGACGAGACGGGTGTACGGGGACGATCGGCAGGACCATGGAGAACGATGCCTGACTTGCCACCGGAAAGACGAGTGTGAGTTCTATATGGATATCGAAAAGGATCCGTTTCTTGAAAAATACTATCGCCAGGCGGAAGAAGCCGACGGCTATTTGCGGGACCGCTGCCTGTTTGACGGCCGGATCGACATTTATGACACGATGTCGGTCAATGTCCGGTACGACAATGATGCGATGCTGACCTATTCCCTCGTCGCCTATAGCCCGTATGAGGGTTGGCGCGCCGCGATCAACGGCAGCAAAGGCCGGATTGAGGTCTCGAATGTATACAGCAACGCGGATATGAAGCAAGGGGAAGCGAGCCGGATTCATATTTTTAGAGCCGATGGCACGGAGGAGCTGGTCGAGGTCAATACATCGGCCGCCGGTCACGGCGGTGGGGATGCGAAGCTGCGCAAGGCGCTGTTCGAAGGCGGGATCGAAGATCCGCTAGGCCAACAAGCCGACAGCTCGGTAGGTGCCGAATCCCTTCTGATTGGCGCCACGGCCAATCGCTCCATTGCCGAAGGCCGGGCGATGAAGCTTCCGGACGTTTCGCCGACGCTCGTCAACGGGAGTTCATCGAGATGA	MKKYVLVGAGSRALYMFAKPMVTDWRGVLAFEGVYDANPLRARFLSEECGGIPVYDDFDGMIAAAKPDVVIVASTDYTHHTYIVKALRAGCDVISEKPMTIDEDKCREILQAESESGKKVTVTFNLRFAPYFATVKELLLQGVIGDVYHIDLEWFLDRRHGADYFRRWHAEMKNSGGLLVHKSTHHFDIVNWWMNSRPAEVHAFGTRRVYGDDRQDHGERCLTCHRKDECEFYMDIEKDPFLEKYYRQAEEADGYLRDRCLFDGRIDIYDTMSVNVRYDNDAMLTYSLVAYSPYEGWRAAINGSKGRIEVSNVYSNADMKQGEASRIHIFRADGTEELVEVNTSAAGHGGGDAKLRKALFEGGIEDPLGQQADSSVGAESLLIGATANRSIAEGRAMKLPDVSPTLVNGSSSR				NA	NA	NA	NA	NA
AK002_00589	2121			hypothetical protein	ATGAACAGCGTTCAGGAACTGGAGCAGTATGTCTGCACGTTATACGACACGCGGGATCAGTTGAAAGCGCATGTGTTCGAGCGTTCCGATGCCGCATTTGCCGCCGGGGACGCTATCCGCGATTCCATCGTCACGGCCGAGGCGGCAAGAGAGCGGCAGGAGGACATAAAGGCAGCCTTCCTGAAGTCCATCGGCGGTCTTCCCGATGCATTCGCGAACCCGGAAAGGGAGGAAGGGGCGGCCTTCGGGGAGGAAACATCGCCTGACGGCTCTCCGCTTAAGGAACGTTCGCGCTGGTCCGCGGGGGGCGCCTGCAACATGTCAGGTGGCAGAACCGATTCCCTACTTAACGGACGCACAACGGGAAGCATTCGCGGAACCGGATTTCAAGTAGAGAAGGTTATGTTCGAGTCCCTCCCGGGGTATGATGTCACGTCGAATCTGTATCTGCCCGATCACCGGGAAGAACGCTCCGCGGCCGTCCTGTTTCTGAGCGGGCACGAGCTGGGGGCGAAGCATGATGCCTATTATCAGCGCGTCATCCAGCACTTCGTCCGGGCGGGCATCATCGTGCTGGCCATCGATCCGATCGGGCAGGGCGAGCGCCTTAGCCTTCATGATTTCGAGGATCGGGCAGGGAGCGTCATATGGGGAACGAAGGAGCATCAGCAGTACGGCGTTCAGTGCCATATGCTCGGCGACAGCGTAGCCCGATATTTCGTTCACGATGCCATGCGTGCCATCGACTACTTGTGCGAGCGGCCCGAGGTCGATCCGTCGCGGATCGGCGTAACGGGAAATTCCGGCGGCGGAACGCAGACGGCCATGATGATGGTCTGCGATGAACGCATTGCGGCGGCGGCTCCCGCCACCTTCATCATGAACCGGCAGCTGTACATGCATGCCGGCGGCGTGCAGGATGCCGAGCAGGTATGGCCGGGTCTGTCAGGGCTGGGTTACGACCATGAGGATCTGCTCATCGCTTTTGCACCGAAGCCGCTGATCGTGTTGGCGGCGGAATACGATTTTTTCCCGATTGAAGGCACGCGGCGCACCGTTGATCGTTGCAGGCGCTTCTGGGAGCTGCTCGGTCACACGGGCGACCTGCAGCTTGTGACCGACGCCTCGACGCACCGCTATACGGACCGGATGGCTGCGGCAGCGGCGGCATTTTTCGTCCGGCATCTCGAGGTAAAGGCTGTTCCCACCGATGCCATGAAGATAGAGGCGCTGCCTCCGGAACAATTGTGGTGCAGTCCCAGCGGTCAGGTGTACCGGGATAAGGCCGACGCAAGGACGATCCGGGACTTCAATACCGATCGCTGCAACCAGCTGGAAGCAGCCCGTTCGCTGCTGCCGAAGCAGCAAAGGCGGGATCAAGCAAGGCGGTGGCTGAAGGAGAAGATTTACGCCTCCCGGAAGCCTTGCGAATTGAACCCGCGCATCATTGGGCTGGGCGCAGTGGAGGGCCTTGAGGCCGATTATCGCTTGTGGTGGTCGCAGGAGGGCATCATGAACAGCGGTTATGTATTCCGACTGGCCGAGGATACAGCCGAACGAAGGCGGCCGCTGACCGTTGCCGTTTGGCGGGGAGGGACCCGCCAGCTGAAAGCGCATTGGGCCTGGATTCAGGAAACCTGCCGATCCGGCCGTGCGGTACTGGTGCTGAATACGTCCGGCGTCGGTCCCCATGAGCCTTATCCGATATACGGGAAACCAGCGCATTCCTACTTTGGTGTGCTGCATAAGCTTGCCGATGATTTGATCTGGCTCGGGGACAGTTTGGTTGCGCTGCGCACGCACGATGTCATCCGGTGCATGGAGGCCATCTCCCACTTTGATGAGTGGCAGGCAGGAGCGATCCCGTTCTATACGGTGGGTCGGGAAGGGTTGTATGTGCAGCTTGCCGCGGAGGTTGACCATAGAATCGGCACGATTACGGCCATTCATCCTGTGAGCAGCGCAGCCGATCTGGTCAGGGCGCGGCAGTTCGAGGAGGAGGAAGCGATGAGCGTCGTGTTTCCCGGCATTTTCAGGATGCTTGATCCCTCCGAGCTGAACGAACCACGGGTAGAATATCGCGGGCAACTAGAGGGAAAGGATGTGGAAGGACATGAGTAA	MNSVQELEQYVCTLYDTRDQLKAHVFERSDAAFAAGDAIRDSIVTAEAARERQEDIKAAFLKSIGGLPDAFANPEREEGAAFGEETSPDGSPLKERSRWSAGGACNMSGGRTDSLLNGRTTGSIRGTGFQVEKVMFESLPGYDVTSNLYLPDHREERSAAVLFLSGHELGAKHDAYYQRVIQHFVRAGIIVLAIDPIGQGERLSLHDFEDRAGSVIWGTKEHQQYGVQCHMLGDSVARYFVHDAMRAIDYLCERPEVDPSRIGVTGNSGGGTQTAMMMVCDERIAAAAPATFIMNRQLYMHAGGVQDAEQVWPGLSGLGYDHEDLLIAFAPKPLIVLAAEYDFFPIEGTRRTVDRCRRFWELLGHTGDLQLVTDASTHRYTDRMAAAAAAFFVRHLEVKAVPTDAMKIEALPPEQLWCSPSGQVYRDKADARTIRDFNTDRCNQLEAARSLLPKQQRRDQARRWLKEKIYASRKPCELNPRIIGLGAVEGLEADYRLWWSQEGIMNSGYVFRLAEDTAERRRPLTVAVWRGGTRQLKAHWAWIQETCRSGRAVLVLNTSGVGPHEPYPIYGKPAHSYFGVLHKLADDLIWLGDSLVALRTHDVIRCMEAISHFDEWQAGAIPFYTVGREGLYVQLAAEVDHRIGTITAIHPVSSAADLVRARQFEEEEAMSVVFPGIFRMLDPSELNEPRVEYRGQLEGKDVEGHE				NA	NA	NA	NA	NA
AK002_00590	1287	yteT_4	COG0673	Putative oxidoreductase YteT	ATGTGGAAGGACATGAGTAAACCAAAACCACTAACGGTCACGCTGGTCGGAGCCGGCCTTCGCGGCATGATTTACAGCGGTTATGCGCTCCAGCGACCGGAGGAGATGCAGATTGTTGCCGTTGCCGATCCGGATGAGGTGCGGCGAAGCCGCTGCCAAGCGAAGTTCGGGATAGCGGATGATCAATGCTTTGCAAGCTGGGATGACCTGTTTGCCGCCCCCCGTCAATCGGATGCGGTCTTCATCTGCACGAGGGACCGTGACCACTATGAGCCGACCATGAAGGCGCTGGCAGCCGGGTATCATGTACTGCTGGAAAAGCCGATGTCCCCGGAGTGGCAGGAATGCATCGATATGGGCCGACAGGCGGAAGCCTTCGACCGTACGTTAACGATTTGCCATGTTCTCCGGTATGCGCCTTTTTTCCAAGAGCTTAAACGACTGCTCGATGAAGGACGAATCGGCCGCCTGATGTCGATCCAGCACAACGAGAACGTCGGCTATTGGCACCAGGCCCACTCGTATGTGCGGGGATATTTCAATAACAGCGAGTCATCCAGCCCGATGATTTTGGCCAAATCGTGCCATGACTTGGACATCATGCAATGGCTGGCGGGAGGCCGATGCCTAAGCGTGGCCTCCTATGGCCACCTGTCGCATTTCCGTCCGGAGTCGGCTCCGCCCGGCGCGCCGAAGCGCTGCCTGGATGGATGCCCGGTATCGCACGAATGCCAGTACTATGCGCCGAATACGTATTTGATCGAGAATTCGGGCTGGAAAGGCGAGGCCGCGAGCAACGACCCGAGCTACGAAGCGCGTTACCAAGCGATGCTGGAGGGTCCTTTTGGCCGGTGCGTGTACCACTGCGATAACGACGTCGTCGATCATCAGGTCGTCAGCATGGAGTTCGAGCATGACATTACGGCGGTGTTCACGATGAGCGCGTTCACGGAGAAATGCAACCGTACCATCAAGCTAATGGGCACCGAAGGCGAAATACGGGCCACGATGGAGACTAATGAGATCGAGATCCGCCGTTTCGGCAGCGGCAAGCAGGAAGTGATCCAGCTCGTCGATCCGGAAGGCCATGTAGGCCATGGCGGCGGGGATATGCGTTTGATCGCCGATTTTGTGAAGTCGGTTCAATCTAAGGGACGGCATAACAGCACAACCTCTGCCCAAGCGTCGATCCAGAGTCATCTGATGGCGTTTGCAGCCGAGCGTTCCCGCGTAGAAAAACGCATGGTGAGGCTGGAGGAATTTATGAATAGCAGCGTTCTGGCCTAA	MWKDMSKPKPLTVTLVGAGLRGMIYSGYALQRPEEMQIVAVADPDEVRRSRCQAKFGIADDQCFASWDDLFAAPRQSDAVFICTRDRDHYEPTMKALAAGYHVLLEKPMSPEWQECIDMGRQAEAFDRTLTICHVLRYAPFFQELKRLLDEGRIGRLMSIQHNENVGYWHQAHSYVRGYFNNSESSSPMILAKSCHDLDIMQWLAGGRCLSVASYGHLSHFRPESAPPGAPKRCLDGCPVSHECQYYAPNTYLIENSGWKGEAASNDPSYEARYQAMLEGPFGRCVYHCDNDVVDHQVVSMEFEHDITAVFTMSAFTEKCNRTIKLMGTEGEIRATMETNEIEIRRFGSGKQEVIQLVDPEGHVGHGGGDMRLIADFVKSVQSKGRHNSTTSAQASIQSHLMAFAAERSRVEKRMVRLEEFMNSSVLA				NA	NA	NA	NA	NA
AK002_00591	738	nagB_1	COG0363	Glucosamine-6-phosphate deaminase 1	ATGCAGTTGAACATCTTGGAACATGCGGATCAGGCAGGCTTGGAGGCTGCCCGCGCTTGCGAGGTCATTCTCCGCGATACAATCGCGGAGAAAGGAAAAGCGCGAATCGTCCTGTCGACGGGCGCGTCGCAGTTTGAGTTTTTGTCGCACTTCGTGAAGCTGAATCTGGAATGGGAACGAATTGAAATGTTTCATTTGGACGAATATATCGCGCTGCCGGAATCCCATCCGGCGAGCTTTCGCAAGTACTTGAAGGAGCGCTTCCTGAAATATGCGAGCGTCGGCCAAGCTTGGCTCATCAACGGGGAGGGCGATCCCGAGGAAACGGTGAAGCGGCTGAACGAGGAAATCGTCAAAGCGCCCGTGGATTTGGCCCTGATCGGGATCGGGGAAAATGCGCATATTGCCTTTAATGATCCGCCGGCCGATTTTGATAACGATTCGCCTTATACGATCGTGAATCTCAGCGATACATGCAAGAGCCAGCAGGTAAGGGAAGGCTGGTTTGCATCGAATGAGGAAGTGCCCAAACAGGCGATTACGATGACGGTCAAGCAGATTTTGAAGAGCCGCCATATCGTATCGGTCGTGCCTCATCAGGCGAAAGCGGCAGCCATCCAGAATACGATTCAAGGCGGGGTCGATAATCGGGTGCCGGCTACCATCCTGAAGACGCATCCCAGCTGGATGCTGTATCTGGATAAAGCATCGGCAGCGCCGATATATCAATGGGCTTAG	MQLNILEHADQAGLEAARACEVILRDTIAEKGKARIVLSTGASQFEFLSHFVKLNLEWERIEMFHLDEYIALPESHPASFRKYLKERFLKYASVGQAWLINGEGDPEETVKRLNEEIVKAPVDLALIGIGENAHIAFNDPPADFDNDSPYTIVNLSDTCKSQQVREGWFASNEEVPKQAITMTVKQILKSRHIVSVVPHQAKAAAIQNTIQGGVDNRVPATILKTHPSWMLYLDKASAAPIYQWA	PGPT0018865_2496	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018865-nagB-K02564	NA	NA
AK002_00592	1161	nagA_1	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGATGTGGCGTGGAAAGCTCCCGCACACCGGCGAGCCGGTTGAGGTAGAGTCGTCAGACGGACGGATCGCGGCTATACGACGGTTAGGTCAAGGGGATAAGACGGCGTTGCTGCCCTGGATCAGCAGCGGCTGGATCGATGTACAGGTCAACGGCTTCGGCGGATACGATTTGAATGGAACCGTGACGTCGAAAAGCGACATTGAAGGCGTGACGAGGGCGCTGCATCGGTGCGGGGTCGCCGCATACTTGCCGACGGTCATCACGGGCAGCTACGACCGGATGCGTCAAGCATTTCAGGCATTGTTCAAGTATGCCGGGTCCAAGCAGTTCGGGGGCGCCTCGATTGTCGGCATTCATATGGAAGGCCCCTATCTTTCCGATGAAGACGGCAGTCGCGGGGCGCATCCGAGGGAGTATATCCGGAATCCGGATTGGGATGAGTTTCAACGGCTTCAGGATGCGGCTGGCGGGCTTATCCGGATGGTGACCCTCGCGCCGGAGCGCGAAGGCTCGGTTCCATTTATAGAGAAGGTAGTCAAGGCAGGTGTTATCGTCGCGATCGGGCATACGATGGCAACCGGCGAGCAGATCGATCGAGCGGTGCAGGCAGGGGCAACGGTTTCGACGCATCTGGGGAACGGCTCGCAGCCCGTTTTGCCGCGCCACCCCAACTATATTTGGGACCAGCTGGCGAACGACCGGTTATGGGCCACCTTTATACCGGACGGCCACCATCTGGCGCCCCCTGTGCTGAAAGCGATGCTGCGGGCGAAACGGGACAAAGCGGTGCTTGTCAGCGATGCCGTCATGTTCGGCGGCATGGCTCCCGGAAGGTACAGCAGCCTCATCGGAGGCGAAGTCGAGCTGACGGCGGACGGGCGTCTGCATACGGTAGCAAATCCGGCGATACTGGCCGGATCGGCTTCTTCGCTGGAGGTTGGCATTGCCAATGCGATCCGCTATACGGATATGACGCTGGCGGAAGCGGTAAGCGCGGTCACGGTCCGCCCGGCTATAGTGCTGGATATGCCGCAGTTGGGCGGGCTTGCGATCGGGAGCCCGGCGAACCTGACGCTGTTCGACTGCGATACGGACGGATCGGGCATGGTGGTCCGGGAGACTGTTGTAGCAGGAGAGACGATGTACGGTCCTGTTTGA	MMWRGKLPHTGEPVEVESSDGRIAAIRRLGQGDKTALLPWISSGWIDVQVNGFGGYDLNGTVTSKSDIEGVTRALHRCGVAAYLPTVITGSYDRMRQAFQALFKYAGSKQFGGASIVGIHMEGPYLSDEDGSRGAHPREYIRNPDWDEFQRLQDAAGGLIRMVTLAPEREGSVPFIEKVVKAGVIVAIGHTMATGEQIDRAVQAGATVSTHLGNGSQPVLPRHPNYIWDQLANDRLWATFIPDGHHLAPPVLKAMLRAKRDKAVLVSDAVMFGGMAPGRYSSLIGGEVELTADGRLHTVANPAILAGSASSLEVGIANAIRYTDMTLAEAVSAVTVRPAIVLDMPQLGGLAIGSPANLTLFDCDTDGSGMVVRETVVAGETMYGPV	PGPT0018860_1540	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018860-nagA-K01443	NA	NA
AK002_00593	2001	dpp5	COG1506	Dipeptidyl-peptidase 5	ATGACTGATAAGCGACTTATAACGCCCGAGGATTTGTACCGGATGCACTGGGTGAATGACCCTGTCGTATCCCCCGCAAGCGGGGCCATAGCCTATGTACATAAGTCCGTCAGCGAAAAGCACGACGGTTACCGTTCCCATATCCGCCTGCTTCCCGCAGGCGGCGATCAGGATATTCCCTTCACTTCCGGCGAAGCCGATGCAGCACCCGCTTGGTCCCCCGACGGGTCTGAGCTTGCCTTCTTGCGCAAAAAGGGCGATAAGCCACAGGTATGGATCATGCCTGCCAACGGAGGGGAAGCCCGCCCCGCTACCGACCTGAAGCACGGCGTCAGCGCATTTAAATGGTCGCCCGACAGCTCGCGTCTGCTGGTTCGGAGCGAAGCCGAAGCGGCTGAATCTACCGAAAGCGAAGAGAAAGACAAGGACGACAAGCACAAGCTGCCGGAAGAAAAAATCATTAACCGCATTAAATATAAAGCCGATGGCCCCGGATTATGGAATGAACGCCGACATCATCTATATATCGTGAATCCGGCTACGGAAGAATGCAAACCAATCACCGAAGGAGATTTTGACGTATATGCCTTTGCCTGGTCACCCGACGGCGGCAGCATCGCTTACAGCAGCACCCTCGCCACGGAGCATTTCACGAACCCGGATCTTCGCTTGACGAACGATGTGTTTGTCATGGACCTGTCCAGCGGATCGGTAACCGAAATCACGGACGGAACCCTCTCGATCGGCTCCATTGCGTTCACCCCGGACGGGCAGCATGTACTCATGCTTGCCAGCGATCTCAGCTGCGGGTTTGCCACGCTGACCAAAATCCACCTGGTTCCGCTCTCGGGCGGAGAAGCCCGCGTCCTCTTCACGGACATGGACGTTCAGCTCGGGCACGCCGCGGTCAGCGACATGAGAGCCGGAGCGGGAACGCCTCCCCTGTTCAGCAAGGACGGCCGATCGGTTTACGTCCAGCTCAGCCAGGATGGGGGCGTCCATATTGGACGTTTTGCCTTGGACGGCTCCTCCTTCGAGCTTGTGGTGGCAGGTGAACGCGAGGTGTACCAATTCGCACTGACACCGGAAGAGAACGTGATATTTGCCGCTGCCGACCCGCTGCAGCCTGGCGATCTGTTCAGCTTCACTACAGGCAGCAACAAGGAACGCCGTCTGACGAACTGCAATGAGGAGCTGTGGAACGAGCTTACGTTAAGCACGCCCGAGTCCTTTACATTCCGTACGTCGGACGGCTGGCCAATCCAGGGCTGGATCATGAAGCCTGCCGGCTTCGCGGAAGGCGCCAAGGTCCCGGCCGTGCTGGAGATTCATGGCGGTCCGCAAGCCATGTACGGACACACGTTTATGCATGAGTTCCAGCTGCTGGCAGCAGCCGGCTATGCCGTTTTCTATACCAACCCGCGGGGCGGCCATGGATACGGTCAAGTCCACGTCAATACCGTCAGAGGCGATTACGGCGGGCGGGATTACCAGGATCTGATGGAAGCCGTGGATTATGTTGTGAATACCTACACTTATATCGACGCTTCCCGTCTCGGCGTGACCGGCGGCAGTTACGGCGGCTTCATGACCAACTGGATCGTCGGTCATACCGACCGGTTCCAGGCTGCGGTAACCCAGCGCTCGATATCGAACTGGATTTCCTTCTACGGCGTCAGCGATATCGGGTATACCTTTACCCAGGATCAAATCTGGGGCAATCCTTGGGACGATCTCGACAAGCTGTGGAAGCACTCCCCGCTCGCTTACGTGAAGAATGTCAGCACACCGCTGCTCATCCTTCACGGCGAACAGGACCTCCGCTGCCCGATCGAGCAAGGGGAGCAGCTGTTTATCGCCTTGAAGCGACTGGGCCGTGAAACTCAGCTGATTCGCTTCCCCGGCGCGGATCATAACCTGTCCCGCAGCGGCCATCCGCATCTGCGGGTCAAACGCTTGAGTCATATCGTCCGCTGGTTCGTGAAGCATATCGAAAGATAA	MTDKRLITPEDLYRMHWVNDPVVSPASGAIAYVHKSVSEKHDGYRSHIRLLPAGGDQDIPFTSGEADAAPAWSPDGSELAFLRKKGDKPQVWIMPANGGEARPATDLKHGVSAFKWSPDSSRLLVRSEAEAAESTESEEKDKDDKHKLPEEKIINRIKYKADGPGLWNERRHHLYIVNPATEECKPITEGDFDVYAFAWSPDGGSIAYSSTLATEHFTNPDLRLTNDVFVMDLSSGSVTEITDGTLSIGSIAFTPDGQHVLMLASDLSCGFATLTKIHLVPLSGGEARVLFTDMDVQLGHAAVSDMRAGAGTPPLFSKDGRSVYVQLSQDGGVHIGRFALDGSSFELVVAGEREVYQFALTPEENVIFAAADPLQPGDLFSFTTGSNKERRLTNCNEELWNELTLSTPESFTFRTSDGWPIQGWIMKPAGFAEGAKVPAVLEIHGGPQAMYGHTFMHEFQLLAAAGYAVFYTNPRGGHGYGQVHVNTVRGDYGGRDYQDLMEAVDYVVNTYTYIDASRLGVTGGSYGGFMTNWIVGHTDRFQAAVTQRSISNWISFYGVSDIGYTFTQDQIWGNPWDDLDKLWKHSPLAYVKNVSTPLLILHGEQDLRCPIEQGEQLFIALKRLGRETQLIRFPGADHNLSRSGHPHLRVKRLSHIVRWFVKHIER				NA	NA	NA	NA	NA
AK002_00594	585	ydjA	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGAACGTAAGTGAAGCTATCCGCACGCGCCGCAGCCTTGGCAAGGTCAAGCCTGACGCCGTACCGCAGGAGTTGATCGAACAGATCGTCGAAGCAGGAACCTGGGCGCCGAACCACAAGCTGACGGAGCCGTGGAAATTCTTTGTCATGCAAGGGGAAGGCCGCGACGTGCTCGGCAATGCCCTGGGGGATATTCAGGTGGCCGGCGGCGACGATACGAGCGAAGAGGCCGTGAGCGCAGCGCGCGAATCGGGACGTACGAAGGCGTACCGCGCTCCGGTCGTCATCGGTGTGGCGGTTGAGCCGTCGACGGATCCGAAGGTGATTGAGCTGGAAGAGTACGGAGCGGTATTCGCCGGCATCCAGAACATGCTGCTGCAAATTCACGAGCTGGGTCTTGGCGCTGTGTGGAGAACCGGCGAGCCGTGTTTCCACGCGTTGATGAACCAAGCGTTCGGATTGAAGCCTGACGATAAAATGCTGGGTTTCCTGTACATCGGATATCCGGACATGGAGCCGAAGCAGGGGAAACGTCAACCGGCCGCGAACAAGACGGTATGGCTGAATAGTGCTGCAGACCTGTAG	MNVSEAIRTRRSLGKVKPDAVPQELIEQIVEAGTWAPNHKLTEPWKFFVMQGEGRDVLGNALGDIQVAGGDDTSEEAVSAARESGRTKAYRAPVVIGVAVEPSTDPKVIELEEYGAVFAGIQNMLLQIHELGLGAVWRTGEPCFHALMNQAFGLKPDDKMLGFLYIGYPDMEPKQGKRQPAANKTVWLNSAADL				NA	NA	NA	NA	NA
AK002_00595	372			hypothetical protein	ATGAAATTTCGGTTTAAACAGTGGGATCTGGGGAGCAAATTTATTTTTATCGCCACCTGTTTGGCGATAGCCTCTTTCTTTTTTAAATGGCTGGATATCGGCGTGGCTGCGGAGAACGGCTTTATGCAGGGCGGCGTGTTGTTCATCGTATGTTTCATCTATCCGTTTTTGAAAGTGGTTCGCGAGAAGAAGATGAACAAGCTGATTGCCTACGCTTTAGCGCTGGTCGCTATTTTCCTGACCATGATGTACGTGTCGTCCAAGACCATTGATTTTTTTGGAGAGACGATCAGAGGGGCGGCCGCTGGGCCGTATCTGTTTCTGGCGGCATGCGGGCTGCTGACCTTCGGTATTTTTAGACGCAAGGATTAA	MKFRFKQWDLGSKFIFIATCLAIASFFFKWLDIGVAAENGFMQGGVLFIVCFIYPFLKVVREKKMNKLIAYALALVAIFLTMMYVSSKTIDFFGETIRGAAAGPYLFLAACGLLTFGIFRRKD				NA	NA	NA	NA	NA
AK002_00596	192			hypothetical protein	ATGGAAAAAGCCATGCTTATCGTTGCCTTAATCGCACTTGCCATCACATTCGTTCTCTTCGTCGGAAATATCGTGAATAACGGACTGTCCGCCGCCTTCAAACTGAACAGCCGCGCCAAGAGGCTTGCCGTCGTACTGATCATCGTCTACGCCGTTTCGATCAGCAGATTCGCGCTTCTCCACCATAGCTGA	MEKAMLIVALIALAITFVLFVGNIVNNGLSAAFKLNSRAKRLAVVLIIVYAVSISRFALLHHS				NA	NA	NA	NA	NA
AK002_00597	831	yvgN_1	COG0656	Glyoxal reductase	ATGGCCAATCAAACTTTTACCGATGGACCTACTTTGAATGACGGCGTAAAAATGCCGTGGCTGGGCCTTGGCGTATGGAAGACCAAAGAAGGCGAAGAGGTTATTCAGTCCGTAAAATCAGCAATCGCTGCAGGGTACCGCAGCATCGATACCGCTGCCATCTACGGCAATGAAGAGGGCGTAGGGCAAGCCATTCGCGAATCCGGAGTTTCGCGGGACGAGCTGTTCATCACCACCAAGGTATGGAACGATGACCAGGGTTATGAGAAGACGCTGCAAGCTTTTGAGACGAGCCGCAAGAAGCTGGGGCTGGATATCGTTGATTTATATCTCGTGCACTGGCCGGGTAAAGATAAATACCTCGAGACGTGGAAGGCATTGATTCATCTGCAAAAAGAAGGCCTCGTTCGTTCCATCGGCGTCAGCAATTTCCAAATCCGCCACCTGCAGCATATCATTGAGGATACCGGCGTGGTACCTGTCGTCAACCAAGTGGAATTGCATCCGCTGCTTTCCCAGAAGGAGCTGCTGGGCTATGCACGCGAGAATCATATCGTTCTGGAAGCTTGGAGCCCGTTGATGCAGGGCAACCTCGATCAACCGGCGCTGGCGCAGATCGCGGAGAAATACGGAAAAACCACGGCGCAAGTCATTCTGCGGTGGGACATTCAGAACGGCGTCATCGTCATTCCGAAATCGATTAAAGATCATCGGATCCGTGAAAACGCCGGCATCTTCGATTTCGAGCTTTCCGCAGAAGATATGGCTGCTATTGACGGCTTGAACCAAAACAAACGTTTCGGCTCCAACCCGGATGAGTTCCTGTTCTAA	MANQTFTDGPTLNDGVKMPWLGLGVWKTKEGEEVIQSVKSAIAAGYRSIDTAAIYGNEEGVGQAIRESGVSRDELFITTKVWNDDQGYEKTLQAFETSRKKLGLDIVDLYLVHWPGKDKYLETWKALIHLQKEGLVRSIGVSNFQIRHLQHIIEDTGVVPVVNQVELHPLLSQKELLGYARENHIVLEAWSPLMQGNLDQPALAQIAEKYGKTTAQVILRWDIQNGVIVIPKSIKDHRIRENAGIFDFELSAEDMAAIDGLNQNKRFGSNPDEFLF	PGPT0014985_361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0014985-yvgN-K23257	NA	NA
AK002_00598	582			hypothetical protein	ATGTCCATGAAGCTGGCCATCCTAGGCTTGCTGCTGGAAGGAGACCATCATCCGTACGAGATCCGGACCAAGATGAAGGATCGGGGCATGGATCAATATACCAAGCTCCAGATGGGCTCCCTCTATTACGCGGTAGACCGGCTCGCCGAGAAAGGATTCATCGAGGCCGTGGAAACCATCCAAAGCGACAGCCGTCCGGATAAAACCATCTACAGGATCACGGAATCCGGACGCAAGCTTTTTGAACAGCTGCTGCTCAAGAAATTCAGGGACATCGAGCCCGTGCACCACCCGCTGTATATGGCGCTGCCCTTCTCTCGCCACGCAGACCCCGCCGTTCTGGCCCCGATCCTGCAGACCCGGATCCGGGAAGCCGAACACCGGGTGAACCAGGCGTACCAACTATACGTGGAGCACCAGCATATCGTCCCCCGCAGCACGCAGCACCTGATGATCGGGATGTATGAGCACGCCAAGACCGACCTGAACTGGTTAAGAAGGCTGCATGAGGACCTGGTGCAAGGGAAGCTCGGCACGATGGGCGAGCCGTTGTTTCCGGAGGACGACCAGGAAAGACGATAA	MSMKLAILGLLLEGDHHPYEIRTKMKDRGMDQYTKLQMGSLYYAVDRLAEKGFIEAVETIQSDSRPDKTIYRITESGRKLFEQLLLKKFRDIEPVHHPLYMALPFSRHADPAVLAPILQTRIREAEHRVNQAYQLYVEHQHIVPRSTQHLMIGMYEHAKTDLNWLRRLHEDLVQGKLGTMGEPLFPEDDQERR				NA	NA	NA	NA	NA
AK002_00599	1503	bmr3_1		Multidrug resistance protein 3	ATGAATGCACAACAAAGCAACATCAAATTGGTCGTGGCTGGTCTGCTGCTCGGCATCTTCATGGCCGCCATCGATAACACGATTGTAGCGACCGCGTTATCGACGATTATCCGCGATCTTCAGGGCTTCGACCAAGTCGTCTGGGTAACCTCGATCTACATGGTTGCCGTTATGGCCGGCACGCCGATATTCGGAAAGCTGTCCGATATGTACGGACGGAAGCGGTTCTTTATATTCGGACTGGTTGTCTTCCTGATTGGTTCCGCCCTCTGCGGGATGGCGAACAATATGACAGAGCTTATTATTTACCGGGCGATTCAAGGAATCGGCGGCGGTGCTCTTATGCCGATTGCGTTTACCATCGTGTTTGACCTGTTCCCGCCGGAGAAGCGCGGTAAAATGACAGGTCTGCTCGGCGCCGTATTCGGCACCTCCAGCATCATGGGACCGCTGCTGGGTGCTTTTATCACCGACAGCATCGGCTGGGAATGGATATTCTATGTCAACGTTCCGATCGGGATCATATCCTTTATCTTCATCATGACTTCCTACAAGGAGTCCCGTTCCCATGCCAAGCAAAAGATTGACTGGACGGGGGCTGCAACGCTTGTAGGCGCGATCATCTGTCTGATGTTCGGTCTGGAGCTGGGCGGGCAAACCTATGCTTGGGATTCTCCGCAAATTCTGGGCTTGTTCGGGGGATTCATTGCTTTGTTTATCGTGTTTCTGTTCGCAGAGACCCGAGCAGCCGAACCCATTATTTCATTCCAAATGTTCCGTAAACGCCTGTTTGCTTCAAGCAATATCGTTGCCTTGTTCTATGGAGCAACGTTTATCGTGGCAACCATCTACATCCCGATCTTTGTGAGCGGAGTGTACGGTGGTTCGGCAACCAATTCGGGCCTCATTCTGATGCCGATGATGCTCGGCAGCGTATTCGGGAGCCAAGGCGGCGGTATGCTGACGACCCGGACTTCGTTTAGAAACATCATGATCCTGTCCGTCTTGTGCTTTATCACAGGCATTTTCTGCCTGAGCACGATAAGCCCGGACACGCCGCGCTACCTGTTAACGCTCTTCATGGTCCTGACCGGCTTTGGCGTCGGGTTCTCGTTCTCCACGCTCAGCATGGCCTCCATCCATAACTTTGATGCCAGACAGCGCGGCGCGGCAACATCGACGAACTCCTTCCTTCGCTCCTTCGGCATGACGGTGGGGATTACAATCTTCGGGATCATCCAGCGCAACGGCCTGAACAACCGGCTCGCGGAAGCCGGAGGAAACGCGCCGGCCGGTGCCGAGTTAAATGCGGACGCCGTCCTTTCACCTGAAGTGATGGGGCAGCTCCCACCGAACGTGCGCGAACAGATCACGGCTTCATTGGCTGATTCCATCGCGAACACGTTCATGTGGGCGCTTGTGCCGGCGGTGCTGGCGCTTGTGTTCGTCCTTATGATGGGCAACGAACGGGTGACCGTTCCCGCCAAGGCTAAGGGAGCCTGA	MNAQQSNIKLVVAGLLLGIFMAAIDNTIVATALSTIIRDLQGFDQVVWVTSIYMVAVMAGTPIFGKLSDMYGRKRFFIFGLVVFLIGSALCGMANNMTELIIYRAIQGIGGGALMPIAFTIVFDLFPPEKRGKMTGLLGAVFGTSSIMGPLLGAFITDSIGWEWIFYVNVPIGIISFIFIMTSYKESRSHAKQKIDWTGAATLVGAIICLMFGLELGGQTYAWDSPQILGLFGGFIALFIVFLFAETRAAEPIISFQMFRKRLFASSNIVALFYGATFIVATIYIPIFVSGVYGGSATNSGLILMPMMLGSVFGSQGGGMLTTRTSFRNIMILSVLCFITGIFCLSTISPDTPRYLLTLFMVLTGFGVGFSFSTLSMASIHNFDARQRGAATSTNSFLRSFGMTVGITIFGIIQRNGLNNRLAEAGGNAPAGAELNADAVLSPEVMGQLPPNVREQITASLADSIANTFMWALVPAVLALVFVLMMGNERVTVPAKAKGA				NA	NA	NA	NA	NA
AK002_00600	408			hypothetical protein	ATGATTAAAGGAATTGCCCATCTGGCGTTCGATGTTGCCGATATGGAGAAATCCCTTCATTTTTACTGTAATGTGCTTGGTTTTACCCGTGCTTTTGATATTCCCAATGACCAGGGCGAACCGTGGATCGAGTATATTAAGGTACGTGATGGACAGTTTATCGAGCTGTTTTACGGCGGACAAAACAAACCGGCCCGTGTAGAGCGGCCCGTCGGATTCTCACATCTCTGCCTTGAGGTGGAAGACATCGAGCGCATCGCGGAGCATCTTCGCAAGCAGGGCGTGAAGCTGGACGTCCAGCCGGTTCAAGGAAAAGACTTCAACTGGCAGTGCTGGGCCAGGGACCCGGACGGCAACCGGATCGAATTCATGCAGTTGGATCCGAAATCGCCCCAGATGAACTGTTAG	MIKGIAHLAFDVADMEKSLHFYCNVLGFTRAFDIPNDQGEPWIEYIKVRDGQFIELFYGGQNKPARVERPVGFSHLCLEVEDIERIAEHLRKQGVKLDVQPVQGKDFNWQCWARDPDGNRIEFMQLDPKSPQMNC	PGPT0013300_3135	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
AK002_00601	2469	rep_1		ATP-dependent DNA helicase Rep	ATGACATCCATACCCTTTTATAAACGCCCGTACGGCGGTGAGCGTCAGGATATTCCGTTTGCGAAGCTGGCTTCCTTTGAGAACAGCCGGGACCTGATCCGCGATGACGCGCCGGATGCGGCTTTTTTTCGCGGCTTGGAATCCCAGGGACTGCTGCTGAACCGCGCCCAGATTCAGGCCGTACGACATACGCAAGGACCGCTGCTTACGCTTGCCGGCGCAGGCTCCGGCAAAACCTCCGTGCTGGTCAGCCGGACAGGCTACCTCATTGCCGCCAAGAGCGTCGACCCGTCTTCCATCCTGCTTGTCACCTTCTCCTCCAAGGCGGCGACCGAGATGAAGGAGCGCATCATGGCGCTTCCCGGCTTGAGATCCAGCGAAACCGCCAAAGTAACGGCCAGAACCTTCCATTCCTTCTTCCTGTACTTGCTGCGAACCCGCGGCTATAAGCAGGAAATCCTGAGCAACGCCAGGCATCAGCAATTTATCATGAAGCGCATCCTGCGGGACATGGGCTTGCAGGATAGCTACGAAGCCGAGACGCTGCTATCGCTGTGGTCCGCCCACCGGATGAGTATGACCGGACTTGACGAGATGCCTGTCAAAACGCCTGCCGAGGTTGAACAGCGGCAGATTTTTGCCCGGTATGAAGCATGGAAGGAAGAGCATGGCCAGATGGATTTCGACGACATTCTGGTCTTGTCCTATCGTCTGCTGTCCCATGATTCCGGACTGCTCGCCTCCCTTCAGAGGCGGTACCGTTATGTCATGGTCGACGAGTTCCAGGATACGGGACTGCTGCCTTATGAGCTGCTCAAAAAAATCGTCGCCCCGCACCGCAATTTAATGGTTGTGGGTGACGATGACCAGACCATATACGGCTTCAACGGGGCGCGCAACGAATTCATCCTGGAATTCGACCAGACGTTTCCCGGGGCCAAGGTCGTGACGCTCGATATCAATTACCGCTCCCTCTCCTCGATCGTCGGGCTGGGGAACGAAATTATCCGCGTCAATGAACGGCGGCGCCCCAAGCAGCTGCGGTCGACCCGCAAGAGCAGCAGCGTGCCGCTCTACCTTCGACCCGGCGATCCCGATCAAGAAGCGGAGCTGCTGCTGACCCATATCACCGAGCAGGTCCGGGAGCACGGGAAGCAGTACCGCGACCATGCTATTCTCTATCGCACCGCAAACAACAGCCGGGCGATCTTCGAGCAGCTCGTGATGCGGGAAATTCCGTTCATTCATTATGAGAACGGGGATCTGTTCTACGAGCAGTGGATCGTCAAGCCGCTCATGGATCATCTGCGGCTGTCGCTGGACCGGCGCAATTTTACGGCGATGGAGGGCATGCTTCATACGCTGTACATCAACCGCGACAAGGGCATGGCTTTCATCCGGCAACAGGATGCTCCGCGGCCCAAGAAAGGGCCTCTATCGCACCTCCTCTCCTTCCCCGGGCTGAAGGATTTTCAGATCGAGAATATAAGGGAACGCTCCAAGCTCATCAAGAGCCTGAAGGCGATGGAGCCCCTTCAGGCCGTGCAGGAAATGAGGCGGCAATTCTACGACAAATTCCTGGAGGCCGACGAGCGGCAGGAGATTACCCTCCATAAGGAATTCATTCAAGAGGGGCTGGATGAACTGGAGGCTTCCGCGAAGCGCTTTGGCGATATCGCTGAATTCGTCGGATTTGTCGACCGGCTGATCATCATCCATAAGGAAATGGCGGCCATGAAAAGGGACGAGCATGCCGATGCCGTCCGCTTAATGACCATCCATAAATCCAAGGGGCTGGAATTTCCCTCCGTGTGCCTGATCGGAGCGAGCGAAGGCATTCTGCCGCATACGTCCGCTCTGGACGCCGAGCGCAGGGACGATCAGCGCCCGCTGTCGGACAAAGAGGATAAGGCCTTGGATGCGCTGGAAGAGGAACGCAGATTGGCTTATGTTGCCATCACCCGAGCACGGGATGAACTGGTGATCAGTTCCCCGGGCTTTTATCGCGGACGGAAAGCGGAGGTTTCCCGCTTCTTCCGGGACGTGTTCCTCACGGATGAACAGAGCAAACAGGGCAACAGCATACCGAACAAAGGCGCAGGGTCAACGGCCCGCGCAGCCTTTACGGCGCAACGTACGATCCGCATAGAAACCTCGGCCAAGCCTTCATCGCCTTCCTCTTCTGCCGGGCGAAGGTTCGGGAGCGCCGCTAACCAGACGAGCCAACGTTTCGCTTCAGTTTCACGGACAGGGTCGAGTCCTACTCCCGAGCCGCAGTCTCCGTCTGCTCCCGCTGCGACGGAGATCGTCGACGTATGGCTGTGCACCAGCCCTAATTGCAAGGGCTGGCAGCGAGTCAACGCACGTATCCCTGCTAACAGGAGGGATCGGGAAAGCAAGGCTTGTCCATTATGCCAGGCACCTATGAAACAGGGTCGTAAAGAAGTTCCTGTGCATCACAGGCGCTAG	MTSIPFYKRPYGGERQDIPFAKLASFENSRDLIRDDAPDAAFFRGLESQGLLLNRAQIQAVRHTQGPLLTLAGAGSGKTSVLVSRTGYLIAAKSVDPSSILLVTFSSKAATEMKERIMALPGLRSSETAKVTARTFHSFFLYLLRTRGYKQEILSNARHQQFIMKRILRDMGLQDSYEAETLLSLWSAHRMSMTGLDEMPVKTPAEVEQRQIFARYEAWKEEHGQMDFDDILVLSYRLLSHDSGLLASLQRRYRYVMVDEFQDTGLLPYELLKKIVAPHRNLMVVGDDDQTIYGFNGARNEFILEFDQTFPGAKVVTLDINYRSLSSIVGLGNEIIRVNERRRPKQLRSTRKSSSVPLYLRPGDPDQEAELLLTHITEQVREHGKQYRDHAILYRTANNSRAIFEQLVMREIPFIHYENGDLFYEQWIVKPLMDHLRLSLDRRNFTAMEGMLHTLYINRDKGMAFIRQQDAPRPKKGPLSHLLSFPGLKDFQIENIRERSKLIKSLKAMEPLQAVQEMRRQFYDKFLEADERQEITLHKEFIQEGLDELEASAKRFGDIAEFVGFVDRLIIIHKEMAAMKRDEHADAVRLMTIHKSKGLEFPSVCLIGASEGILPHTSALDAERRDDQRPLSDKEDKALDALEEERRLAYVAITRARDELVISSPGFYRGRKAEVSRFFRDVFLTDEQSKQGNSIPNKGAGSTARAAFTAQRTIRIETSAKPSSPSSSAGRRFGSAANQTSQRFASVSRTGSSPTPEPQSPSAPAATEIVDVWLCTSPNCKGWQRVNARIPANRRDRESKACPLCQAPMKQGRKEVPVHHRR				NA	NA	NA	NA	NA
AK002_00602	216			hypothetical protein	ATGTTGGTTGTTATTGCTTTGTTGCAGCTCATCATGATCGGCATTTTGCTGAACATCAACAGCAAGCTGAAGCCGCGCGATTATATTGCTGATGCGATGGAGAGGGACCGCCGGATCCGGGAAGAGCGGGAGAAGAGCAGCAAATGGAGTTATGGTCACACGAGGCAAGCGCAGGCAGCAGGGATCATTCATGACCTGAATCTTTTATATGACTAA	MLVVIALLQLIMIGILLNINSKLKPRDYIADAMERDRRIREEREKSSKWSYGHTRQAQAAGIIHDLNLLYD				NA	NA	NA	NA	NA
AK002_00603	1248	yhdL_1		putative anti-sigma-M factor YhdL	ATGAGCGAAGAATTCAGGCAGCGGCTGAAGGACTATGCGGAGGGCAAGCTGAGTGACGAGGAAAAAAACGAAATCGAACGGGAAATGGAGAAGCTGGAGGAATACCAGGCTTACGTGAACGAGATCATGGATAACGAGCGTTCGAGCGATGCCGGCACCCCGCATGCCGCTGACGGCCAGACCGGCCTCTCGCCCAAGAAAGAAAAGCGAATCGTTCGCCGGGGCAAATGGCGGGCCCGAATCTCCAATACGTTGACGGTGATATCGGCGTTTCTGGCGATATTCGTCATCAGCTCGATCATTACGGCGCTGTTTTACGGGGTCGGCGATCCCAGCCGCAACGATAAATATCGGGATGCCATCGCTTCCGCCATCTCGATCTCGAAGCCTAATATCGACGTACGTTTAAATAGCCAGGTCAGAGCCTTCTTCCGGCAGGAAGTGTACGGAGATATAGACAAACAGGTAGGGAGCGAACGCGTGACCGTCGGCGAATACACCGTCAACTTCCTGTTCGGGCTGCCGTCCGTCGATGTGGATTGGAATAATGGCAGCTCGGGTTCATCGCAGATTTTCTACCGGCCGGATAGCTCTGCGGAGACTTCTTCCGCGAATCAAGAAGAACCCAACGAACAGTCAAATGAGCAGAACGCTGGCACCTCCTCTGCAAAGAGCGGCGATTGGTCCAGGCTTGAAAAGCTTCCCGAAGGCACCGTGGCCGAGGCTTATGTATCGTTTAACCGTTTCTTCACGACCGACGAGCTGCTGAAACAATTCGAAGACCGGAATGTGGAGGCCGTCTGGTTTGCCGTCGATACCGGGCCGGATGACCGATTTAGCGGCGGAGACGGCGTAATCTCCCATCCTGTCGGCTTTCCTTCTTATCCCGTCTGGCATCATGACGATTTGACAGTGACCTCTTATCAGGAGCAAAAAACGGGATGGTTTAGCAAGACCACCCTCAGCGGCGGACATTACCCTTCTGTAGACACCTACGGGGACGGGGAGCTGCGGAATGAGCACTTCATCAAATCGCTGCGGCTTCTGCAGGAGTATGACCTGATTGCCGAACGGGTGGCTCCCTTCATTGACGTGGACGCTTCTTTAGCTTACGTGGAACAGAACGGCGTTCGCCTCTATGGCGCCGTCATTACCGGCCCTGTCAAAGAGCTGCTGACCTTGCGCGAGGTATCCTGGGTCCACGATCTGCGGGTCGGGGAAGTGCGGCTGTGGAATTGGATCGAGTGA	MSEEFRQRLKDYAEGKLSDEEKNEIEREMEKLEEYQAYVNEIMDNERSSDAGTPHAADGQTGLSPKKEKRIVRRGKWRARISNTLTVISAFLAIFVISSIITALFYGVGDPSRNDKYRDAIASAISISKPNIDVRLNSQVRAFFRQEVYGDIDKQVGSERVTVGEYTVNFLFGLPSVDVDWNNGSSGSSQIFYRPDSSAETSSANQEEPNEQSNEQNAGTSSAKSGDWSRLEKLPEGTVAEAYVSFNRFFTTDELLKQFEDRNVEAVWFAVDTGPDDRFSGGDGVISHPVGFPSYPVWHHDDLTVTSYQEQKTGWFSKTTLSGGHYPSVDTYGDGELRNEHFIKSLRLLQEYDLIAERVAPFIDVDASLAYVEQNGVRLYGAVITGPVKELLTLREVSWVHDLRVGEVRLWNWIE				NA	NA	NA	NA	NA
AK002_00604	501	sigM_1	COG1595	ECF RNA polymerase sigma factor SigM	ATGAAACTGAACAGTCTGGAATCGATTTATCAATTTTACGTGAAAGACGTGTATCGTTACTTGTACTCCCTCTCTTACGATCACCATACGGCCGAAGACCTGGTGCAGGAAACCTTTTACCGGGCTTATTTGTATCTCGAGGATTGGAAGGAAGAACGAATCAAGCCATGGCTGTTTCGGGTTGCCCATAACGCTTACGTGGACTATCAGCGCAAGGCGAGCCGCAGCATCGTCCGGGACGCGGAATTTTTCGATCAGATGGTAGACCGGAATACGCCCGAGAACATCCTGCTCCAGCAAGAAGTCCACAGAGAACTCGGACGGATGCTGGCCGATATTCCGGAGAAGCAGCGGCAAGCGGTGCTCCTGGTCGATTTTCATCAATTCACCTACCAGGAGGCGGCGGATATTATGGGCATCACCTTATCCCATATCAAGATCACGTTATTTCGGGCCAGGCAGCGGCTGCGGGACATGAAACGAAAGGACGGGAATTTATGA	MKLNSLESIYQFYVKDVYRYLYSLSYDHHTAEDLVQETFYRAYLYLEDWKEERIKPWLFRVAHNAYVDYQRKASRSIVRDAEFFDQMVDRNTPENILLQQEVHRELGRMLADIPEKQRQAVLLVDFHQFTYQEAADIMGITLSHIKITLFRARQRLRDMKRKDGNL	PGPT0014960_11718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00605	756			hypothetical protein	ATGAAAAAACGCTTCTCTTCTGTTCCTGCTTTTGCACTCGGCGCGATCGTCGGCGTGGCGCTGACAGCCGGTACGGCCGTTGGTGCCGCCGTTTATCTGAAGGCATTTCCATCCCAATCCAAAATTGTGGTCAACGGATCGGAAGCCCGGCTGTCGGATTCTCCGGTAGTCATACAGAACAAGCTGTATGTCCCCGTGCGGGACTTCTCGGAAGCGCTTGGATATCGGGTCGGCTCTGTCGGTCCCGAGGGAATCGGAATTATTCCCCAATCCTCGAATGGAGAGGCGATCCCGGTCGGCCCGACTGCGCCTTCCGAGTCCGAAGGAGCGCCTGCTCACGAGCGTCATTTGGTGAAAAACCTCGGCAAGCTGATCGAAGTCAACGGCGAATTGAATATGCAAAAGATTTATATCGTTATCGCTGCCGGTGAAGCGAGGCTGTATTCGCAAGATGAAACCACCGGCAACGGGCTGCTGCATTATTTGATTCTAGACGGCGATTCTTCCCTTTACGACCCGTTTGTACAGATGGACGGACAAGCCGGAGAGCTGGATTACAACCTGCCGAATTTCGAAGGTCAGACTCCGCTTCATCTGGCGGTCATCCACAAGAATGACTTCTATATCGACAAGCTGCTGAACCAGCACAAGGCAGATGCCTCCCTTCAAGACGCTTCCGGAAAGACGGCGCTGGACTATGCCGAAAAAGACAGCAAGCAGTATAAATTGCTTACGGCCTACATCAACAATAAGTGA	MKKRFSSVPAFALGAIVGVALTAGTAVGAAVYLKAFPSQSKIVVNGSEARLSDSPVVIQNKLYVPVRDFSEALGYRVGSVGPEGIGIIPQSSNGEAIPVGPTAPSESEGAPAHERHLVKNLGKLIEVNGELNMQKIYIVIAAGEARLYSQDETTGNGLLHYLILDGDSSLYDPFVQMDGQAGELDYNLPNFEGQTPLHLAVIHKNDFYIDKLLNQHKADASLQDASGKTALDYAEKDSKQYKLLTAYINNK				NA	NA	NA	NA	NA
AK002_00606	627			hypothetical protein	ATGAAATTAAACCGTAAATTCATCGCCATCCTTAGCATCGCCATAGCAAGCGTCCTGACGATAAGCACCATCCTGTACTTTACCGATGCTTCCGATCGCTCAGGCGGGAAGCACCGCATGAACGACAGCCTGAACGGTCAGGCGCTGATTCAAGTCGGCGCCACCTACATCACGCGTACACATTTAACCGCCTACAAGGATAACCTCACAAAGAGTGACACCCCCCTACCTGATGACTCCGCGCTCCTTAAAGACATGGCAGCAAAGGAATTGATGCTTCAGCTGGCTGATGAAGAGGGCGTTGCGGCAAGCCTGGAGGATGGGGCTCAGAGGGCAAGGCAGCTTCGGGAAGCGCTCGAGAGCCAGCCGCGACAAGTGCAAGAGCAGCACATGCGCATGCTGGATGCGATGGGCATCAGCGAAGATCAGTACTGGGAAGACTACTCCCCGCCGGAATATCGGGACATGCTATCGATCGAACGATTCATGAATAAACTGACGACGGAAATGAAGACAAACCAGCCTGACGTCATAACCAGCACGAAGCAGCTGAAGGAAGATCTGCTGAAAAAGGCTGTCGATGAGCAGAGAATCGTCGTATTGGATCCGGATATTCAATGGAGATAA	MKLNRKFIAILSIAIASVLTISTILYFTDASDRSGGKHRMNDSLNGQALIQVGATYITRTHLTAYKDNLTKSDTPLPDDSALLKDMAAKELMLQLADEEGVAASLEDGAQRARQLREALESQPRQVQEQHMRMLDAMGISEDQYWEDYSPPEYRDMLSIERFMNKLTTEMKTNQPDVITSTKQLKEDLLKKAVDEQRIVVLDPDIQWR				NA	NA	NA	NA	NA
AK002_00607	1128			hypothetical protein	TTGTTTTCCATATGGACTTTAAACCGTGTGCAGCGAAGGATGCTGCTGGTACTGATAGCGACGGTTCTGGTGTTGTCATGTCTGCTGGTGCTGACCGGTCTTCATGAACGTTCACCCAGCATAAGCAGCGTGATCGAAGAACGGTATATCCAAAGTGCGGCCATGATCAGCCACCCCGGTGGAGACCTGGAAGAGCATGCCTCCAGCGTCATGCCCGGTGTGCCGCTTATGATTGCCGGACTTTCCGCCATATTCGGAAGCATGGAGGCTGCCCTGATCGGCTATCAGCTGCTCCAATGCTTGTTTCATGCATTTTCCGTCTACTTGGTGTTTGTGCTGTCCCGCTACATGTTCAATACGAGGATCGCTTTTCTCTCTTGCATGATCTATGCGCTATTCTGGCCGGCTTATGGCGCCGTCCGCCTGATCCTGCCGGATACGACCATGCAAACTTTGATGCTTCTTCTTGTCTGCGCCGTCATCGGAGCGCTTGAATTGAAGCAGGCGGGATGGTACGCGGCTGCCGGCGCGCTTACGGCGCTTATGGCCTGCTACAACCTTCAGGCGCTGCTGTATCCTGTATTGTTCATTGCCTTCTGGATCAAATACCGCAGTCCGGTCAAGATCGTAACCGGGGGGATCCTTCTCATTAGCGCGGGATACCTGCTCATCTTGTCTCCATGGTGGCTGAACATCCCTCTGTTCAATAAATTGAGGTATATGTCCGGTCCGTGGAATCTCGCCGCGCTGTGGCTGGAATCCAGATACATCGAGGGCAATCCATTGGTTCATCTGTTCCGAAGCATATTTGCGGGCCGCACCTCCAAATATGCGGCTGCCATCGGAAACGAGGAAGCAAGAAAAATCGTGCAATCCGCATTGGATGCAGTCCGTCTGGTCATGCTGTTTGCCGGGGTCGCCGGCATCATCTGGTCCGTCTGGAAATACCGTCTGAAGCGGCAGCTGCCGGTGCTGCTGACGCTGCTGTATTTCATTGCCGCTGAATGGCTCGTTCCGAGCCTGGACGGCACCGGATTTCCCTATGCGGTCTTCCTGCTGCTCTACGCGGCATTTCTCGCGGACAAAGCGATCATTTACGCGCATAAGACTCGCCTGCTTCGCAAATAA	MFSIWTLNRVQRRMLLVLIATVLVLSCLLVLTGLHERSPSISSVIEERYIQSAAMISHPGGDLEEHASSVMPGVPLMIAGLSAIFGSMEAALIGYQLLQCLFHAFSVYLVFVLSRYMFNTRIAFLSCMIYALFWPAYGAVRLILPDTTMQTLMLLLVCAVIGALELKQAGWYAAAGALTALMACYNLQALLYPVLFIAFWIKYRSPVKIVTGGILLISAGYLLILSPWWLNIPLFNKLRYMSGPWNLAALWLESRYIEGNPLVHLFRSIFAGRTSKYAAAIGNEEARKIVQSALDAVRLVMLFAGVAGIIWSVWKYRLKRQLPVLLTLLYFIAAEWLVPSLDGTGFPYAVFLLLYAAFLADKAIIYAHKTRLLRK				NA	NA	NA	NA	NA
AK002_00608	231			hypothetical protein	GTGGCTGATAAGAAAAAGGATCTTCCGCTTCACAATGGTCCCGGCAACATGGATCACCCTGAACAATATCCGACGGAACAAGAAAGCCTGTTCGACAAATTCGAGAGCGAGCAGCATGTGGACCCGATTCCGATGGAAGACGCCAGGCTGGAGCGCCAGGAAGAAAAGCAGCGGGATGGCACGTCGAAGAAGCGTTCATCCAGCGACGATAAGTATCACAGCGGCTTTTAA	MADKKKDLPLHNGPGNMDHPEQYPTEQESLFDKFESEQHVDPIPMEDARLERQEEKQRDGTSKKRSSSDDKYHSGF				NA	NA	NA	NA	NA
AK002_00609	1857			hypothetical protein	ATGTCCATATTTAAGCGTCCTAGGTTCTCTCAAGGCTTTGCGGGACAGCTGTATTTTGTTTTTCTTTCTCTTCTGGGCTGTTCCACCTTCCTGCTGGTGCATCAAGGGGAAATCTTTCATTATACTCCTTCCCAGTGGGTATGGGTCTATGCGATGTTAGGCGCCGCCCTCATCTTAAATTACTTCACCTTCCAGCTGCCGCCAGAGGGTAATTTACAGTCCATGGATTCCTCTGTTTACCTGGCGTGCATCTTTATCTATGGAGCACCGTTTGCGCTGTCCGTCATCCTGTTTGTCTCCCTTGCCATGGCGCTTTACGACAGAAAAATCCCCTTCTGGAAGCATTTTGTTAATTTCTCCGTGTATACCGTGATGATTGTCGGGTCCTCCTTCATTTTCAAAATGGCGGGCGGACAAGCAGGCCCTATTCACAATGATCAATTTGGTGCGTATGTTGCAGCGTTGGTTGTTTATTTTGTTATCAACGTATTCCTTGTCGGCTTCTACTATTACCTGTTATACAAGGGATCGTTATATGATATTTTGAAAACCTTCATGAAAGATACACTGCTTGTTTACCTCAGCACGCTCATTCTTTCGCTGGTTCTCTCCATACTCATCGTACATAACGGCGTTTTCGGGCTGACCCTGTTTATAGGTCTCAGCGTGATGCTGTCCTATTCCTTCAAGCAGCTCTTCACGATGTATAAACAGGTACAAGAGAAAGCCATCAAGGATCAACGAACCGGATTATACAACCACAGCTATTTCGAAAATTTGCTGGAAGACGAAATCAAGAAGGCCAAAACCAATGAAACGCCGTTGTCGCTGGCCATGATCGATATCGATGATTTCAAAAAATATAATGATCAATTCGGACACCTAAAAGGCGACATGCTGCTCGGATTTCTCGGCAATTACCTCAAGGTGGAATCCGAAACGGCCGAGGTGGTGGCCTCCCGCTTCGGCGGCGAGGAATTCACGATCCTGATGCCGGGTTATGATGACCATAAGGCACGTTCCTTCATTAACAGGCTCCGCAAAAAGCTGAACGATACCTATTTTGACGGCGTGGAGATTTTTCCGTCCGGCTGTCTCTCCTTCTCTGCCGGCGTTGCCTCGTACCGGATTGATATTCATGACAAGTCGCAGCTTGTCGAGCTTGCCGACCAAGCGCTGTATTATGCCAAGAAGCAGGGCAAAAACAACGTGCATGTATATGGAAGCGGCGCCGAAAAGGAATCCGAGATCGACTTTGCGGAGGACGTCCGAGACATCGAGCAGCAGCTGAAGCTGTTCCTGTATAAAGACGTGGATACGTTCAAGCACTCCAAACGGGTCTTCCGCTACGCCATGGACATCAGCGAAGTGCTTGGGCTTGACAGCGTGGAGCGGCGCAATTTTGTGCTCGGGGCACTCATTCACGATATCGGCAAGCTGGAGATTCCTTGGGGAATCTTGAACAAACGGGACAAGCTGACAGCCGGCGAATGGGAAACCGTCAAACGGCATGTCAGCTGGGGCAAGCGCATCGCGGAAACGAACGAGAAGTTCAAGGAACTGGTTCCTTACATCGAACTGCATCATGAACGGTATGACGGCGGCGGCTATCCTCACGGCTTCAAAGGCAGCCAAATCCCCAAGCTGTGCCGGATGCTGACCATTATCGATTCCTTCGACGCGATGACAACCGAACGCCCTTACCAGAAAACGAAAACCTTCGAGGAAGGGATTGAAGAGCTGCTCCGCTGCTCGGGCACGCAGTTCGATCCGGAGCTCGTTGAGCTGTTTATCCGTTATTTAAGGCTCAAAGCCGAAGCGCAGCAACAGCCTGCAGCCGGCCTGGAGACCTCTTAA	MSIFKRPRFSQGFAGQLYFVFLSLLGCSTFLLVHQGEIFHYTPSQWVWVYAMLGAALILNYFTFQLPPEGNLQSMDSSVYLACIFIYGAPFALSVILFVSLAMALYDRKIPFWKHFVNFSVYTVMIVGSSFIFKMAGGQAGPIHNDQFGAYVAALVVYFVINVFLVGFYYYLLYKGSLYDILKTFMKDTLLVYLSTLILSLVLSILIVHNGVFGLTLFIGLSVMLSYSFKQLFTMYKQVQEKAIKDQRTGLYNHSYFENLLEDEIKKAKTNETPLSLAMIDIDDFKKYNDQFGHLKGDMLLGFLGNYLKVESETAEVVASRFGGEEFTILMPGYDDHKARSFINRLRKKLNDTYFDGVEIFPSGCLSFSAGVASYRIDIHDKSQLVELADQALYYAKKQGKNNVHVYGSGAEKESEIDFAEDVRDIEQQLKLFLYKDVDTFKHSKRVFRYAMDISEVLGLDSVERRNFVLGALIHDIGKLEIPWGILNKRDKLTAGEWETVKRHVSWGKRIAETNEKFKELVPYIELHHERYDGGGYPHGFKGSQIPKLCRMLTIIDSFDAMTTERPYQKTKTFEEGIEELLRCSGTQFDPELVELFIRYLRLKAEAQQQPAAGLETS				NA	NA	NA	NA	NA
AK002_00610	621			hypothetical protein	ATGGTATTTGACGGCATTATACTAGGGTTAATTGTCGGACTGATACGCGGCGGTTTCCGTCACGGACTGCAGCAATTCAGCAAGATTCGCCTGAAGGGCGGCCTCATCTTCCCAATTCTCCTGATCGTACAGCTGCTCATATTCCGTTTTCAAGCGAATTCCGACTGGCTGGCATCCGCAAGCAGCTACGTGTTTATGTTCATCTACGTCGCCGGCATGATCTTCCTTTGGATGAACCGGGACCAGAAGGGCTTTGGCAGCATTTTGGCCGGCGTCTTTCTCAATTTCCTCGTCATGGCGGTTAACGGCGGCAGAATGCCCGTATCGATGAGCGCCGCTTCCGTTCTGGATCCTTATTACGTGGACATGCTGAGCAACAGCACCGTCATCACCAAGCATTATCTGATGGACGCCTCTACCCGCCTGCCGTTTCTGGGTGACATTATACCGTTATCCCCGCCGTACCCAAGAACACAGGTGATCAGTATCGGAGATATCATCATGAACGTCGGCATCTTTCTCTACATTTTCAACCTGATGACCGTGGGGAAGAATACCGCCAACGTGCAAGCATTGGGACCGAAATCCGATACCAATGAACGTGTGGAACCACAAAATTGA	MVFDGIILGLIVGLIRGGFRHGLQQFSKIRLKGGLIFPILLIVQLLIFRFQANSDWLASASSYVFMFIYVAGMIFLWMNRDQKGFGSILAGVFLNFLVMAVNGGRMPVSMSAASVLDPYYVDMLSNSTVITKHYLMDASTRLPFLGDIIPLSPPYPRTQVISIGDIIMNVGIFLYIFNLMTVGKNTANVQALGPKSDTNERVEPQN				NA	NA	NA	NA	NA
AK002_00611	204	copZ_1		Copper chaperone CopZ	ATGAAACAAGTGACATTGACGGTGGAAGGCATGTCCTGCAACCATTGCGTGAACTCGGTGGAAGGCGCGCTGAAGAGTGCGGGAGCTTCTGGCAAAGTCGATCTTGCATCCAATACGGTGGCCGTCGAATACGACGAAACCAAAGTCAGCCTTGACGCATTGAAGGAAGCGATTGAAGAGCAGGGCTACGATATCGTGTCTTAA	MKQVTLTVEGMSCNHCVNSVEGALKSAGASGKVDLASNTVAVEYDETKVSLDALKEAIEEQGYDIVS	PGPT0004125_2929	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
AK002_00612	741	nfrA1	COG0778	FMN reductase (NADPH)	ATGAATGACACGATTTCATTGCTGATGAACCATCGATCGATACGTAAATATTCGGATCGGCCCGTGTCCGAGGAACAGCTAAGGGCTGTCGTGGCAGCAGGCCAGATGGCATCAACCTCAAGCAACGTCCAGGCATACAGCGTGATTGCGGTTACCTCGCAAGAGAAGAAGCAGCGGTTGGCCGCTTTGGCGGGCAATCAGGCGTATATCGTGGAATGCCCGGTATTTCTGGTATGGTGCGCAGACCTGTATCGTTTGAAAAAAAGCGCAGAGGCGCATGTTGCGGATCAAGAGACGTACGAAGATTCGACCGAGAATTTCATCGTGGCCACGGTGGATGCCGCTTTGGCTGCGCAGAATGCCGCGATCGCGGCGGAATCGCTTGGTCTTGGCATTGTGTATATCGGCGGAGTCCGCAACTCCATTGCGGAGTTCTCCGAGGCATTGGAGCTCCCGGATTTGGTCTATCCGGTATTCGGCATGTGCCTCGGCTACCCGGATCAGGAGCCGGGGCTGCGTCCCCGGCTTCCGGTGGAGGCTGTCCTGCACCGTGACAGCTACGATCCGGCGGCCCTGGAAGAAGTAAAGAGCTACGACCGAATCTCTTCCGATTATTTGTCCAAACGCACCCATGGCAAGAACAGCGCTCCCTGGTCGGAGCTTATGGCCAAGCGACTGGCGGAGCCGGTCAGGCTGCACATGAAGGACTTCCTGAAGGGGAAGGGGTTTATGGGGCGTTAG	MNDTISLLMNHRSIRKYSDRPVSEEQLRAVVAAGQMASTSSNVQAYSVIAVTSQEKKQRLAALAGNQAYIVECPVFLVWCADLYRLKKSAEAHVADQETYEDSTENFIVATVDAALAAQNAAIAAESLGLGIVYIGGVRNSIAEFSEALELPDLVYPVFGMCLGYPDQEPGLRPRLPVEAVLHRDSYDPAALEEVKSYDRISSDYLSKRTHGKNSAPWSELMAKRLAEPVRLHMKDFLKGKGFMGR	PGPT0000290_444	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0000290-nfrA1|ywcG-K19285	NA	NA
AK002_00613	2319	yesS_2	COG2207	HTH-type transcriptional regulator YesS	ATGAGGCAACAGAATCCTGAATCCGGTTTCAAAGGTGTTATGTATTGGAGAAGCATCGCGCTCGCCGTGTTGATGACGTGCCTCCCCATCTCGGCCATTACGGCCGTTTACCTATATGTGGGGAACCAGCATATGATCAACCAATATCAGCAGCGGAACGAGGAAGCCCTGGTGGATGCGGCGAGGCAAGTGGACGAGCAGTTCACCCAGCTGGTCCACTACGCGCTCAATATGGTGGTGAAGCCCCATTTCAAGCCTTCCTTGTCCGATATGGACTTTGTGTCGAATATCGAGGAGACGAACGAGCTGTTTAATACGCTGAACCTGGTGGAAAATGCCGATCCCCTTGTGGATCAGGTCTATCTCTACATCAAAAAGCAAAATAAAATCATGGAGCCCGATCTCGGGCTGCGGACCTTGGATCAGGAACAGGATGCGTTAGGCTTCGGCCGGCTCATGGACGGAGATTCGGATATGTTCTGGGTACATGACCTGGAGCGGCCTTTCAATAAGGGGAGATCTTCCCATGCGCTCGTCATGCGGCTTCCCTTCAACGGTCATACGCCCTACGGGGCGATCGTCATCTACATCGATCCGTCGAAGCTGCACGTGATTCGCAACAGCGAGAATCTATCGTTCCTGCTCGACGATCAAGGCCATGTCATCGGGGAATCGGGCATGAGCCGCAGCATGCCGAAGGCGATGAGCGCGATCCAGGAACAGCTGAAGCTTCCGGAGAATGCCAATCGCACGAATCGTCTGCGGATGAAGGTTCCGGTCGATCAGGATGTGTGGCTGGTGAATACCGTTCAATTTGAAAAAATGCAGCGGAATTGGACCTATGTATCCGGCACGCCGCAGTCCACGATCATCGCTCCGACGAAGCCGTATACCCATATCATCCTGATCTGCTTTGCTTTTGCGCTCGCGGCATCCTTGGGCGCAAGCTGGTTTGCCTCCAAGAGGATGTATCGCCCTATTCGAAAAATGCTGCATATGATTGGCGGCGATCAGGCCAAACAGACATCGCGGTACAACGAGCTCGAATATATTGAACACGAGTGGAAGCAGTACCGGTTCTCGCATGACACGCTTCAAAATCAATGGAAGCGATCCTTGCCCGCGATCAGGGAGGCTTATATCAATCAATTCTTGAGCGGGCAAGCCGCCCACCTGACGGAGTCCGAGTACGTGCTTAAGCTGCAAGAGATGGAGCTTGACATCACGAATAAACAGTTCTCGGCGATCGTTCTCCAGCAGCATACCCACGGGGAGGATCGGACGCCGCTAACGGAGAACGATCAGCATCTTCTCACCTATGCCGCTTTAAACGTGATTCAAGAGCTGGCAGAGGACGTTAGCGCCTATATGCACCCCATCAATTTCTTCGACGGCTCCTTTGGCGTCATCCTGATCGTTCCGGCCTCTCCTAAAGCCGACGAACAGACACGCATGATGAGGCTTCTGTGCGATCAGATCCTGCGGGCCCTGCGCGATACGCTGCGGATGTCGGCAACCATCGTGCTGGGGGGGCCAAGCTCGACCTGGACCGATGTTCCCCATATTCTGGAACAGGCCAAGCGGGCGCTGCATTACCGATCCTTCGATGCCGGCAGCCAGCTGCTGGAAGCGGACACGGTGCTGTCCCAGAAAAACGACTGGATCGACTTTCCGCTGGAATTGGAGCAGGATTTCATACACACCCTGAACCTCGGGCTGCAGGGGGACGCGCTTCGATCCCTGAGCCGCTTCGTCACGGCGCTTCAAGCCGGGGGCGGCTCGGAGTGGCATGTCCACCATGGGCTCATGCGTTTAATCACGAGCGTTCACCGCTCCATGCTGCAGGCTGGCTTAAATCCGTACCAGGTGTACAATTTCTCCAACCTGCAGGAGCAGCTGTCCCTGCTTCGCGATCCGAAGGCCTGCGTGGACTGGTTCCAGAAAGAAATCATCGAGCCCTATCTCGATCAGCTGACGAAGAACTTCAACAGCTCCATGAAATCGCTTGTCGAAAACGTACTGGAGCAAATCGAGCAGAACGGGATGCAGGACTTGTCCCTGGATGCCATGGCCATGGAGGCCGGCGTCAGCGTATCCCAGCTGAGCAAAGCGTTTAAACAGATGACGGGCACGAATTATATGGACTACCTGACGACCGTGCGCATGAACCGCTGCAAAGAATTGCTGCTGACCACGGATCTGCGCATTCATGAAATCGCGGAGGCCGCAGGATATCAGCCTCCCTACTTCAATCGCATGTTCAAGAAGCTGGAAGGGATCACCCCAGGTCAATACCGGCAGCAGGGAATCGGCAAATGA	MRQQNPESGFKGVMYWRSIALAVLMTCLPISAITAVYLYVGNQHMINQYQQRNEEALVDAARQVDEQFTQLVHYALNMVVKPHFKPSLSDMDFVSNIEETNELFNTLNLVENADPLVDQVYLYIKKQNKIMEPDLGLRTLDQEQDALGFGRLMDGDSDMFWVHDLERPFNKGRSSHALVMRLPFNGHTPYGAIVIYIDPSKLHVIRNSENLSFLLDDQGHVIGESGMSRSMPKAMSAIQEQLKLPENANRTNRLRMKVPVDQDVWLVNTVQFEKMQRNWTYVSGTPQSTIIAPTKPYTHIILICFAFALAASLGASWFASKRMYRPIRKMLHMIGGDQAKQTSRYNELEYIEHEWKQYRFSHDTLQNQWKRSLPAIREAYINQFLSGQAAHLTESEYVLKLQEMELDITNKQFSAIVLQQHTHGEDRTPLTENDQHLLTYAALNVIQELAEDVSAYMHPINFFDGSFGVILIVPASPKADEQTRMMRLLCDQILRALRDTLRMSATIVLGGPSSTWTDVPHILEQAKRALHYRSFDAGSQLLEADTVLSQKNDWIDFPLELEQDFIHTLNLGLQGDALRSLSRFVTALQAGGGSEWHVHHGLMRLITSVHRSMLQAGLNPYQVYNFSNLQEQLSLLRDPKACVDWFQKEIIEPYLDQLTKNFNSSMKSLVENVLEQIEQNGMQDLSLDAMAMEAGVSVSQLSKAFKQMTGTNYMDYLTTVRMNRCKELLLTTDLRIHEIAEAAGYQPPYFNRMFKKLEGITPGQYRQQGIGK				NA	NA	NA	NA	NA
AK002_00614	981	yteP_7	COG4209	putative multiple-sugar transport system permease YteP	ATGAAAGCACAAGAAACCGTTCAGACGGCAAAAGGAAGCGGGAGCCCCCCTATTCCCGCGAAATCCAAAACGAAGTGGGGGCGGATCCGGTCGGATGTAGCTCGCGACAAGTATTTATACATGCTGGCCTTGCCGGGTCTTATCTTCTTTATCATTTTCAAATATATTCCGATTACGAATCTCGTCATTGCTTTCCAGGAGTACTCGCCGTACTTCGGAGTGTTCGGAAGCCCTTGGGTAGGCTTCGAGCATTTCGCCCGGTTTTTCTCCAACGACGACTTCTGGATGCTGCTGCGCAATACGCTGGCGATTAGCTTCCTGAGCTTGATTTTCTTTTTCCCGGCGCCGATCATTCTAGCCTTGATGCTGAATGAAGTACGAAGCTCCTTCTATAAGCGTACCATTCAATCGCTGGTGTATATTCCCCATTTTTTATCCTGGGTATTGATCTATGGGCTGACCTACCTCATGTTCTCGCAATCGGAGGGCTTGTTCAATAAGTGGCTCGTTACCATGGATTGGGGAACGGTCGATATTCTCTCCAATCCGAACTATTTCTGGGGCATGCTGACGGCACAATCCATCTGGAAGGAGGTCGGATGGGGGACCATCATCTTCCTCGCGGCCATCGCCGGAGTGGATCCGCAATTATACGAGGCAGCCGTCATGGATGGCGCAGGCCGTATGAGACGGATATGGCATATTACCCTGCCCGCGATGCGCAACGTGATCCTGATTCTGTTGATCCTCCGCCTGGGAACGATCATGGATACCGGATTCGAACAGATCTATCTGATGATGAATGCGCCCGTCACCAATGTAGCCGAAGTGTTCGATACCTATGTATACCGGGTGGGGATAAGGCAGGGAGAATTCAGCTACAGTACGGCCATCGGGTTGTTCAAATCGATCGTCGGCGTCATCCTGGTGGTCTCGGCCAACCGATTGGCGAGGCGATACGGTCAAGAAAGCCTGTACTAG	MKAQETVQTAKGSGSPPIPAKSKTKWGRIRSDVARDKYLYMLALPGLIFFIIFKYIPITNLVIAFQEYSPYFGVFGSPWVGFEHFARFFSNDDFWMLLRNTLAISFLSLIFFFPAPIILALMLNEVRSSFYKRTIQSLVYIPHFLSWVLIYGLTYLMFSQSEGLFNKWLVTMDWGTVDILSNPNYFWGMLTAQSIWKEVGWGTIIFLAAIAGVDPQLYEAAVMDGAGRMRRIWHITLPAMRNVILILLILRLGTIMDTGFEQIYLMMNAPVTNVAEVFDTYVYRVGIRQGEFSYSTAIGLFKSIVGVILVVSANRLARRYGQESLY	PGPT0017250_443	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00615	885	ycjP_1	COG0395	Inner membrane ABC transporter permease protein YcjP	ATGCATGAGAAAGGATGGAAAACCGGGCTCTTCGGCTTCGTAAACAACGGCCTGCTGCTGATCATCGGTTTGGCAACGATATTTCCGATTTACTATACCGTTATTCTGTCATTTACCGATCCGGTGGAGTATTATCAACGAAGCTTGATATTATGGCCGCGGGATTGGACGCTGGATGCTTACAAGCATTTACTGTCCAACGGGTTGTTTGTCACCTCGATCTCCATAAGCGTGTTCCTGGCCACGGTCGGCACGATGCTCAGTCTGCTCGTTACCGGGGGGATGGCTTACGCGGTGTCCCGAAAACGGCTTCGGTTTCGCAAGGCAATCATGATTATGGTGTTAATCACTTTTCTCTTTACGCCGGGGCTGGTTCCGCTGTATCTGGTCGTCCGAAATGTGGGACTCATCGACAGCGTCTGGTCGCTGATCCTGCCGAGCTTGACGAGCGCGTGGTATGTGCTGCTCATGAAGGGATTCTTCGACAGCATTCCGGACAGTCTGGAGGAAGCCGCGATGATCGACGGCTCCAATGATATCGGCGTGTTCTGGCGAATCATTCTGCCGTTGTCGCTGCCGGCCCTGGTGGCTTTCGGATTGTTCTTCGCGGTCGGCTATTGGAATACGTACTTCAACGCGCTGATGTTTATTAATGACCAGAAGATGTGGCCGCTGCAAGTGCTGCTCCAAAATATGCTGGTGGATCCCACGACAATGGGATCGGGAAGCGGCGGGGGATTTGCCTTCCAGGTGAACCGTCCCGTCCCGACGGAAACGTTGAAAATGGCAGCGGTCGTCATTGCTACCGTTCCAATCATGTTAGTGTATCCATTCCTGCAGAAGCACTTCGCCAAAGGGGCGATGGTGGGCTCCGTCAAGGAATGA	MHEKGWKTGLFGFVNNGLLLIIGLATIFPIYYTVILSFTDPVEYYQRSLILWPRDWTLDAYKHLLSNGLFVTSISISVFLATVGTMLSLLVTGGMAYAVSRKRLRFRKAIMIMVLITFLFTPGLVPLYLVVRNVGLIDSVWSLILPSLTSAWYVLLMKGFFDSIPDSLEEAAMIDGSNDIGVFWRIILPLSLPALVAFGLFFAVGYWNTYFNALMFINDQKMWPLQVLLQNMLVDPTTMGSGSGGGFAFQVNRPVPTETLKMAAVVIATVPIMLVYPFLQKHFAKGAMVGSVKE	PGPT0017255_1908	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00616	1551	lipO_2	COG1653	Lipoprotein LipO	ATGAAAAAAATGGATGCAAAGCCGAGCAAGTCGTTTTTGAAAATGTCGGGGGTGCTGCTCTTAGCAAGTTCGCTCTTGCTTAGCGCATGCGGCAGCCCCGGCGGGAGTCCCTCGAGCGGCAGCGAGGGCGGGACAGACAGCAGTGAACCTACAAGCATCACGATACAGACCTTGAATTATGCCACCGAATTCATAGACAACACCAATCCGCTTTGGAAAGAGCTGGAGAAACGCACCAATACCAAGCTGAATATTACGTGGCTGTCCCCATCCACGGCCGAAGAGAAAATCAATGTCATGCTTGCGTCCGGCGACCTTCCGGAGGTTACTTTCGTGGAAACGATGCAGAACCCGCAGCTGCAGAAGATGCTGAAGCAGGGAGTCTTCTGGGATCTGACCCCTTTTCTCAAAGACTACCCGAATTTAAATCGCGAAGAGTTGAAGGAAATGTGGGAAATCACCAAGGTGGATGGCAAGAACATCGTGATTCCGCGTTACTACCCAAGCTATGGGGGCGGGGTGTTCCCGATGATCCGCAAGGATTGGCTGGATGCCCTTCAGCTGGAAACGCCAAAAACGCTGGATGAGTTCCATAACGTGTTAAAAGCTTTCAAGGAACAGGATCCGAATGGTAACGGACAGGCGGATGAGATCCCGTATGCCGCTAATCCGAGCGCGCTCGCGTATATTTATAATATCTTTAATGAAACGCAAGGGGGCTGGAAGCTCCAGCCGGATAATACCCTGTCTCCGATTATTACGTCGGACGCGTCAAGGGAGGCCATGCTGTGGATCAAGCAGGCTTATGACGAGGGCTTGTTACCAAAAGACTTTGCCATCATGAAGTTCTCCCAGGTGATGGATACGATGCGAAGCGCCAAGGCAGGGGTTGGCGGCATGTCCATGAACCATGCCTGGGTAACCGGCAAGGCCGTGAAGGACGTTGATCCCAAGGCGGATTTGATGCCGCTTGCTTACTTGGAGAATGCTAACGGGGTGAAGTATACGCCTTCAGGCTCCCCGTACTATGGCGTGTACCTCATTCCGAAGAAAGTGCCGGAGGCCAAAGTCAAGAAGATCCTCGAGTTCTTCGACTATGGCTACAGCCAAGAAGGAAACGAGATGCTGACCTACGGAATCGAAGGCGTCCATTACAATCTGGAGAACGGAAAGAAGGTCGCAACGCCGCAGGCCGTCACCGATAAGACGGGAGATGGAAATCTGAACAATATGATTCACCTCGTCAGCGACGATATGGCCATCAATGCGGTTGGGATGCCGGACGAGGTGTATGAACGGAACGTAGAGATCGTTACGGAGCGCAAGACGGTTAAGGTGCCGAATCCTTCGGGCGAGCTATATTCGGAAGCCTATAACAAATATTATCCCGAGATTTCCAAGAAAGTAGAGGATATGCGGGTCATGGTCATCACCGGCAAGGAACCGGTTGAATCGTACGATAAATTGATCGAAACGATCAAGAGCGATCCGAAGATGAAGGAGATTACAGAGGAGATCTCGAAGGCGTATCAGGACAAATTTGTGAAATAA	MKKMDAKPSKSFLKMSGVLLLASSLLLSACGSPGGSPSSGSEGGTDSSEPTSITIQTLNYATEFIDNTNPLWKELEKRTNTKLNITWLSPSTAEEKINVMLASGDLPEVTFVETMQNPQLQKMLKQGVFWDLTPFLKDYPNLNREELKEMWEITKVDGKNIVIPRYYPSYGGGVFPMIRKDWLDALQLETPKTLDEFHNVLKAFKEQDPNGNGQADEIPYAANPSALAYIYNIFNETQGGWKLQPDNTLSPIITSDASREAMLWIKQAYDEGLLPKDFAIMKFSQVMDTMRSAKAGVGGMSMNHAWVTGKAVKDVDPKADLMPLAYLENANGVKYTPSGSPYYGVYLIPKKVPEAKVKKILEFFDYGYSQEGNEMLTYGIEGVHYNLENGKKVATPQAVTDKTGDGNLNNMIHLVSDDMAINAVGMPDEVYERNVEIVTERKTVKVPNPSGELYSEAYNKYYPEISKKVEDMRVMVITGKEPVESYDKLIETIKSDPKMKEITEEISKAYQDKFVK	PGPT0017245_2696	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00617	177			hypothetical protein	ATGAAAACGAAGGAAGGCATTAGGTTTGATATCGAGCAGGAAAGAAACAAGCTTCATAAAATGAAGCAGCGGTATCGTGATTTTAACCATCCTAAAGTCCTCAGGCAATCGATCGTGCTCGATGAACTGATTAACCAATATAACCGGTTCCTTAAAGAAAACAAACCGATTGCGTAA	MKTKEGIRFDIEQERNKLHKMKQRYRDFNHPKVLRQSIVLDELINQYNRFLKENKPIA				NA	NA	NA	NA	NA
AK002_00618	816	ycfH_2	COG0084	putative metal-dependent hydrolase YcfH	ATGAAATCATTCACGCAGACGGAAACAAATCTCCCTCTGCTGGACACCCATATTCATCTGGATCGTTATGCCTTCTCCGATCAGCAAACGATCCTTGCGGATATTCGCAAAAGCGAAGTTCAGTCCATCATCTCCGTCTCCATGAACCTGGCTTCCAGCAAGCGAAACCTGGAGCTGGCCAGGGAGTACGGACCGTTGGTGCGGCCGGCTTTTGGTTATCATCCGGAGCAGCCCGTCCCTTCCCCTGCAGAAACCGAAGAGCTGCTGGATTGGATGGTTAAGCATGTCGACGACATGCTTGCCGTCGGTGAGGTCGGCCTGCCCTATTATGCCAGGCTGGAAGCCGAAACGGAGGGCCGGCCGTGGGATAACCGCCCTTATGAATGCCTGCTTGAGCAATTCATAGCATTTGCTGGACGGCATCATAAACCGGTGATACTGCACGCTGTATATGAAGATGCGGATACCGCATGTGATTTGCTCGACAAATATGGCGTCACCCGCGCCCATTTCCATTGGTTCAAGGGCTCTCGTGACACCTTGCGGCGGATGGCGGATAAAGGCTGCTATATCTCCTTCACGCCCGACATTCTTTATGAGGATGAAATTCGCGATATTGCCCGCATGTATCCCGAGCATCTTGTCATGACCGAAACCGACGGCCCTTGGCCGTTCGAAGGCCCGTTCACCGGACAGATGACCCATCCCAAGATGACGGCTTCCGCAGCGGCGGCATGGGCCGAGCTTCGCGGGCTGACCGTTTCCGAGGCTCGCAGGATTTTTTACGAGAATGCGGTTAGACTTTACGATCTATAA	MKSFTQTETNLPLLDTHIHLDRYAFSDQQTILADIRKSEVQSIISVSMNLASSKRNLELAREYGPLVRPAFGYHPEQPVPSPAETEELLDWMVKHVDDMLAVGEVGLPYYARLEAETEGRPWDNRPYECLLEQFIAFAGRHHKPVILHAVYEDADTACDLLDKYGVTRAHFHWFKGSRDTLRRMADKGCYISFTPDILYEDEIRDIARMYPEHLVMTETDGPWPFEGPFTGQMTHPKMTASAAAAWAELRGLTVSEARRIFYENAVRLYDL				NA	NA	NA	NA	NA
AK002_00619	834	ssuB_1	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGACACATCAAGTATCCCTTCCGGATCATGACGGGCAGCGCCATTCATCTATCGCGGTCCCGCCAGCGCCTGCCCTTGAGGCTCGCAGCCTTCATATCACCTTCCGCGAACGGCGCAGCGAAGTGCACGTGCTGGATGGCCTTTCGCTTCAGGTGCAGCCCGGGGAATTCGTCTCCTTGATCGGTCCTTCAGGCAGCGGAAAGAGCACGCTCTTCCATATCATCGGGGGATTAACGGCTCCGGATGAAGGCTCCGTACTCATGGACGGTCAGAATGTGACCGGGGAGAAAGGCCGCATCGCCTATATGCCTCAACAGCCGGCCCTCTTCCCTTGGCGTACGGTGGAGGACAACGTGCTCCTTCCCGAGGAGCTGAGAGGCACCTCGAAAACCGCCGCCAGGGAAAATGCCCGCAGCTGGATGGAACGGGCCGGACTTGCCGGCTTCGAGAAGGCGTACCCGCATACCCTTTCAGGGGGGATGCAGCAGCGGGCCGCTTTTCTGCGCGCGCTGATGAGTCCGCAGGAAGTCATGTGCCTGGACGAACCGTTCAGTGCGCTCGACGCGCTGACACGCAGCGATATGCAGCGCTGGCTGCTCGATATCTGGGAGGATACGCGCCGTTCGGTGCTGATGATTACCCATCATATCGAGGAGGCGCTGCTGCTCTCGGACAGCATCTATATCCTGTCGGCGCGGCCCGGCACGATCCTGAAACGGGTGAAGGTCCCTTTTCCCCGTCCGCGCAGGGAAGACATCCTGAACGACCCGTCCTTTATCGCGCTAAAAACCGAAATCTCCGCCATCATGCGCGAAGAACAGCACAAGCGTTGA	MTHQVSLPDHDGQRHSSIAVPPAPALEARSLHITFRERRSEVHVLDGLSLQVQPGEFVSLIGPSGSGKSTLFHIIGGLTAPDEGSVLMDGQNVTGEKGRIAYMPQQPALFPWRTVEDNVLLPEELRGTSKTAARENARSWMERAGLAGFEKAYPHTLSGGMQQRAAFLRALMSPQEVMCLDEPFSALDALTRSDMQRWLLDIWEDTRRSVLMITHHIEEALLLSDSIYILSARPGTILKRVKVPFPRPRREDILNDPSFIALKTEISAIMREEQHKR	PGPT0001140_2225	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK002_00620	759	ribX_1		Riboflavin transport system permease protein RibX	ATGAGAAAAGGCTGGTGGAGCTCCGTTTGGCCGCCCGTTGCGGCGGTCCTTTTCTTTTTGACGGTATGGCAGGCCGCGGTATCGGTATTCGATATAGAGCCGTATATTTTGCCGGCGCCGACGGCCATCGGGCATGAAGCCGCCACCGGCGCCTCCGGCCTTTTTCAGCATACGCTAGCCACGCTGCAATTAACCCTGGTCGGATTTATGATCGGTACGGCGATCGGCCTTGTCATCTCGTTGGCCCTGCATCTGGTGCCTTTTCTCAAAACTGCCCTTTATCCGCTTCTTATTCTTAGCCAGAACGTGCCGACGATCGCTCTCGCCCCGCTCCTCATGATTTGGTTCGGCTTCGGCATGCTGCCCAAGGTTATCGTGATTACCCTGGTCTGCTTCTTCCCCGTAGCCGTTGCCGCCCTGGACGGACTGGCGCGTACCGACCGCACCATGATGAATTACATGCAGATGGCGGGAGCCACTTCATGGCAGATCTTCACCAAGCTGGAGCTGCCGCATGCGCTCCCCTCCATCTTCTCCGGGATCCGCATCGCGGCCACCTATTCGGTCATGGGTGCGGTGATCGGGGAATGGATCGGCTCAGACCGGGGCATCGGCTACTATATGATGCTGCAAAAATCCGGCTACCGCACGGACCGGGTGTTTGTTGCCATTCTGATCATCGTCCTGCTCAGCCTGCTGATGGTGCTGCTCATCACCCTGCTGGAGAAGCGCCTGATCCGCTGGAATCGAAAAAGTTAA	MRKGWWSSVWPPVAAVLFFLTVWQAAVSVFDIEPYILPAPTAIGHEAATGASGLFQHTLATLQLTLVGFMIGTAIGLVISLALHLVPFLKTALYPLLILSQNVPTIALAPLLMIWFGFGMLPKVIVITLVCFFPVAVAALDGLARTDRTMMNYMQMAGATSWQIFTKLELPHALPSIFSGIRIAATYSVMGAVIGEWIGSDRGIGYYMMLQKSGYRTDRVFVAILIIVLLSLLMVLLITLLEKRLIRWNRKS	PGPT0001145_8057	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK002_00621	294			hypothetical protein	ATGGCAAACACCCTCTTGAGCATACAAGTGATACCCAGAACGCCGGATGGAGGCGACAGCATTCCTTATGTGGATGAAGCGATCCGGGTCATACAGGAGTCGGGCGTGAAATACGAGGTCCATGCGCTCGAAACCACCTTGGAAGGAGAGCTTTCCGAGCTGTTGAAGATCGTTGAGCGCATGCATGAGGCGCTGGTGAAAGCGGGAAGTCCCAGCGTCATATCCCAGGTCAAAATCGCGCACCATCCGGGCGGCATCAGCATGGATAAGCTGACTGAGAAATACCGTCCATGA	MANTLLSIQVIPRTPDGGDSIPYVDEAIRVIQESGVKYEVHALETTLEGELSELLKIVERMHEALVKAGSPSVISQVKIAHHPGGISMDKLTEKYRP				NA	NA	NA	NA	NA
AK002_00622	1032	thiY	COG0715	Formylaminopyrimidine-binding protein	ATGAAGAAGGGAAAATGGATGGCACTGCTTCTCGCTTGCGCCCTGCTGATGGTTGCGGCGGGATGCGGTACAGGCGGAAAGAACGAAAATACAGGTACCGAAGGCGCAGACGGCCAGGCGGCCGAAAAGCTCCGCGACGTACAGCTGATGCTCGATTGGTCGGCCAACACAAACCACACCGGACTGTATGCGGCCAAGGAGCTCGGGTATTACGAGGAAGAAGGGCTTAACGTCCAGATCGTCCAGCCGGGGGCCGGCGGAACGGATACGCTGGTCGCATCCGGCAAGGTGCCGTTTGGCATCAGCTACCAGGAAGGCGTCACGCTTGCCAGAACCCAAGGCCTGCCGCTCGTCTCCATTGCGGCGATTATTCAGCATAATACATCCGGCTTTGCCGCCCCCAAGGACAAGGGGATCGTCAAGGCTGGCGATTTTGAAGGAAAATCCTACGGCGGCTGGGGCTCGCCTGTTGAGGAAGCCGTCATGAAATCCATCATGGAGATCGACGGTGCCGATGTCAGCAAAGTAAATATGGTTAACATGGGCGATGCCGATTATTTTACGGCCGTCAAACGCGATATTGATTTTGCCTGGATCTTCTATGCCTGGACCGGTATCGAAGCCGAGCTCCGGAACGAGCCGCTTGACATGATCTATGTGAAGGACTACTCCGAGCAGCTTGACTATTACACGCCGGTGATCGTAACGAACGAGAAGCTGATCCAGGAGGACCCGGAGCTTGTCAAAGCATTCATGCGGGCGACCTCAAAAGGATACGACTACGCGATTCAACATCCTGAGGATGCGGCTGCCCTGCTGACGAAGGCCGTTCCCGAGCTGGATGCCGAGCTGGTTCTTGCCAGCCAGAAATGGCTGAGTCCCCGCTATCAGGATGATGCTGCCCGCTGGGGCGAGCAGAAAGCCGAAGTATGGTCGGGGTATGCAGACTGGATGTTTGAACGCAAGCTGCTCGAGAAGGAGCTCGATGCGGACAGCGCCTTCACCAATGAATTTTTACCTGAGAAACCATAG	MKKGKWMALLLACALLMVAAGCGTGGKNENTGTEGADGQAAEKLRDVQLMLDWSANTNHTGLYAAKELGYYEEEGLNVQIVQPGAGGTDTLVASGKVPFGISYQEGVTLARTQGLPLVSIAAIIQHNTSGFAAPKDKGIVKAGDFEGKSYGGWGSPVEEAVMKSIMEIDGADVSKVNMVNMGDADYFTAVKRDIDFAWIFYAWTGIEAELRNEPLDMIYVKDYSEQLDYYTPVIVTNEKLIQEDPELVKAFMRATSKGYDYAIQHPEDAAALLTKAVPELDAELVLASQKWLSPRYQDDAARWGEQKAEVWSGYADWMFERKLLEKELDADSAFTNEFLPEKP	PGPT0001135_3348	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK002_00624	384			hypothetical protein	TTGTCACAGAAACGATTGGATCATGTCGGCATTGTCGTCCGGGACCTTGAAGCCACGATTGCTTTTTACACAAATGTCGTAGGACTTGAACTGAAGGATCGCCTTACCCATACCAATGGCGTCATCCAGCTGGCATTCCTCGGATTTAACGGCAGCGACGAAACGGAAGTCGAGCTTATTCAGGGTTACAGCGACACGCTTCCCGCAGAAGGCACCGTCCATCATTTTGCCGTCAGCACCGATAATATCGAAGCGGAATATGCGCGCGTTCAGGGACTGGACGTACCTCATCTTGACGAGGAAATCGTAACGCTTCCGAACGGGTACCGCTATTTCTTCGTGCACGGTCCCGAAGGAGAATGGATTGAGTTCTTCCAGCGCTAA	MSQKRLDHVGIVVRDLEATIAFYTNVVGLELKDRLTHTNGVIQLAFLGFNGSDETEVELIQGYSDTLPAEGTVHHFAVSTDNIEAEYARVQGLDVPHLDEEIVTLPNGYRYFFVHGPEGEWIEFFQR	PGPT0013300_3076	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
AK002_00625	1536			hypothetical protein	ATGAGTCCAACTCCAGCAGATCATCTGTGGATTCGACTCGCCATCATATATGCATTCATTCAGATAATGACCGTTCTGTGGATGCCTGATGCTTTATTGCCTCAGCGTGTTCTAGTCATTATGGCTTCCGCTGCCGCTTCCGTCTATTTACTACGGATCAGTCGGCATTACGAGCCGCATCTTCGAAGGTTTTGGCTTATCGCAAGTGCCGGGCTGATGGCGGATGCCTCGGCTCGAATCATCGATGCTTGTTATTTTTGGCTGGGGAAAGAGAGCGCTTCCCGGACAATATTGACTCAATTATTCTGGGGATTCGAAATCATCCTGTTTGCAGGTTCCCTCATTTATTTGTTCCGGCACGTGCAAGGTTCGTTTCGGGGAGTTCGGTTTATGCTGGACATCGTGATCGTTGGCATAACGGTCATGACGGTAGGCTGGGAATATTTCATCAAGCCCGAGCTTAACGGTTTGGCGAATGAAGCCTTGTGGGGAAAGCTGTGGGTGGACATGCTGTATCCGCTGTGCGCAACGGTGCTTATTTTCTTCACCCTGGTGTTGTATTTTAACACAGGGCAGTTAAGGAAACGGGCAGTCTTCCTGATATGCCTTGGCGGGAGCATGTACATTGCCGCCGATGTTCTGCATATGTATCTCGTCGATTATAAGGGTGTTGAAGTTCGTTCATACCTGTACCCACTTTATACGTTTTCGGTATTCATCATTGGTTTGGCAGGAGGGCGGTCAGCTCCCGATGCCCGAAATCAATCGTTGGATGAGAGGGAGCCCCGTTCGTTCGGAAATCTGATCGTAAGATACCTGCTTCCCTACAGCGTGCTTGGCGGGATGTTTGCCCTTATGGTGCAGCGGTTTGGAGGATGGAACGGGCTTTTTACCGGCTTATCCCTCTGCGTCATCCTGATTCTGATCAGGCAGATCCTGATCCAGTTCGAGAATGACCGCTTGTTTGACCGGCTGCATCAAAGCTTGATGCAGAGCGAGACCTTGGCGCATCGCGACGATCTTACGGGACTCTATAACCGCCGCTACTTTAACGCGAGGCTGTCGAGCTCGCTGCAGGAGGCGGACCGCGCAGGTTCCCGCGTAGGGCTGCTATATATGGATATGAACCGTTTTAAACGAGTGAATGACCGCTACGGCCATCGTGCCGGCGATTTGCTGATTCGCAAGGTCGCGACCCGTCTTCAAACCCTTGAATCCCAAGGCGTTCTGGTTTCCCGTTTAGGAGGGGACGAATTTACGGTAGTGATTCATCCGGCCGGCGAGGATCAGGAACTGATCTGGATGGCGGAAGAGATCTGGACGATGCTGAGCGAGCCGTATGAGCTGGAAGGGCATGAGGTCCGAACCACGCCGAGCATCGGCATCGCGGTCTATCCGGATCATGCCAGGAACGACCAGGAGCTGATCGGTCGCGCGGATGCAGCGATGTATGCGGCGAAAGAGCGAAACGCCCGCTGGCATTTCGATGTGGAACGAACGATGCTGCTGCAGCTGTTGGATCAAAAAGTCGAATAG	MSPTPADHLWIRLAIIYAFIQIMTVLWMPDALLPQRVLVIMASAAASVYLLRISRHYEPHLRRFWLIASAGLMADASARIIDACYFWLGKESASRTILTQLFWGFEIILFAGSLIYLFRHVQGSFRGVRFMLDIVIVGITVMTVGWEYFIKPELNGLANEALWGKLWVDMLYPLCATVLIFFTLVLYFNTGQLRKRAVFLICLGGSMYIAADVLHMYLVDYKGVEVRSYLYPLYTFSVFIIGLAGGRSAPDARNQSLDEREPRSFGNLIVRYLLPYSVLGGMFALMVQRFGGWNGLFTGLSLCVILILIRQILIQFENDRLFDRLHQSLMQSETLAHRDDLTGLYNRRYFNARLSSSLQEADRAGSRVGLLYMDMNRFKRVNDRYGHRAGDLLIRKVATRLQTLESQGVLVSRLGGDEFTVVIHPAGEDQELIWMAEEIWTMLSEPYELEGHEVRTTPSIGIAVYPDHARNDQELIGRADAAMYAAKERNARWHFDVERTMLLQLLDQKVE	PGPT0026000_68	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,PGPT0026000-tpbB-K21021	NA	NA
AK002_00626	1047	pdeC	COG4943	putative cyclic di-GMP phosphodiesterase PdeC	ATGATTTGCGACAATTGCAGCACCTTTGAACCGATTGAGGACCAGGGGACCATTCATATGAAGCCTGCAAGTGGTGAGCTTATTCAATTGCTGGCAGTGAACGGCTACGCGGTACAAGAGAACAATGAGGGTTGTGCTGTGAACTACAAGGTACGAGCGGACCTGATCTCCATCATCGAGTGTCTGCAACCCCTTCCGCTGAAGATTCGTCAAGAGCTGTCCTTCTGTGTTACCCGTGGAGGAGCTCCGCAAATCCGGCATTCGTGGATCCCTATGCAGAAGTTCGAACTGCAGATGGAGCATTATGATATGGTGAATGTCATTTTACATAAGCAGTTTACGAGCTACATGCAGCCTATCGTGGATCCATCCGAGCAGATCGTGGCCTATGAATTTCTCCTTCGACCGGTAGAGTGGGGACTCCGGTTCCAGCCGTACGAGCTGTTTGAGACAGCCCGAAAAACCGGTCTGCATTCATTCCTGGACCAGGCGGCACGAACCAGTGCGATTGAGACCAGTGCCGAGTGGCTTCCGATCGGCGTGAAGCGGTTCGTGAATTTCCTGCCGTCCTCGATATATGATGCGCAGATGTGTCTGAGCCACACCTTCAATACGATCGACAGGCTCCATCTGGATCCGAGGGATTTTGTATTCGAGGTGGTGGAAACAGAGAGAATCGACGATGTGAAGCATTTGCAGTCGATATTCGAGGTATATCGAAGCCACGGCATCTCGGTAGCCATGGATGACGTCGGCGCGGGTTATTCCACATTGGAGCAGATGATTAGGCTTAAGCCGGATTATGTGAAGATCGACCGGAGTCTTATCGACCATTGCGATCGAAATCCCGCCCAGCAGAAGCAGCTCGAAATGATCACGAACATGGCTCATGATTTTGGGGCCATGGTGCTTGCAGAAGGCATCGAGAGACGGGAGGAGTTTCATTTTTGCCGAGATATCGGGATCGAGCTTTCGCAGGGGTATTTGTTTGGGAAGCCAGCCGAACGCCCTCCGCGTGATCCTCATACTCAACTGATCTATTCATAA	MICDNCSTFEPIEDQGTIHMKPASGELIQLLAVNGYAVQENNEGCAVNYKVRADLISIIECLQPLPLKIRQELSFCVTRGGAPQIRHSWIPMQKFELQMEHYDMVNVILHKQFTSYMQPIVDPSEQIVAYEFLLRPVEWGLRFQPYELFETARKTGLHSFLDQAARTSAIETSAEWLPIGVKRFVNFLPSSIYDAQMCLSHTFNTIDRLHLDPRDFVFEVVETERIDDVKHLQSIFEVYRSHGISVAMDDVGAGYSTLEQMIRLKPDYVKIDRSLIDHCDRNPAQQKQLEMITNMAHDFGAMVLAEGIERREEFHFCRDIGIELSQGYLFGKPAERPPRDPHTQLIYS				NA	NA	NA	NA	NA
AK002_00627	2304	malP		Maltose phosphorylase	GTGAAACAATATTTAAAACTTGATGAATGGTCAATTATTGAAGAGGGCTTTGATCCTCACACGCATGAAATTTCGGAGAGTATCTTCAGTATCGGTAACGGATTCATGGGCCAACGCGCCAACTTCGAGGAGTCCTACAGCGGTTCCTCCCTGCAGGGCAGTTACATGGCCGGGGTGTATTATCCGGATAAAACCCGCGTAGGCTGGTGGAAGAACGGTTATCCTGAATATTTCGCCAAAGTGCTGAACAGCACCAACTGGATCGGCATCGGCATTGATATCGACGGCACGCCGCTGGATTTGGCCAAATGCACGGTGAAGGATTTTGTGCGCGAGCTGAATATGAAGGAAGGCTTCCTCTCCCGCCGCTTCACCGCTGTCATGGAAGACGGCAAGGAGCTCCAGGTCGAGGCCGTTCGCTTTGTCAGCATTGTACGCCACGAGATCGGTGCCATCCGATATGCCGTAACGCCGCTTAATTTTGCTGGAGAGCTTACGGTCACGCCTTATCTCGATGGCGATGTGAAGAACAAAGACTCCAACTATGACGAGAAGTTCTGGCTGGAGGTATTCAAGGAAGCCGCGCAAGGCTCGGCCGCATTGACCGTAAAAACCAAAAAACTCGATTTCCATGTTACCTCCGTCATGTCTTATCACATCCTTAAGAACGGCGAGAAGCTGGATCTTCAGGCCGAGCTGATCGAAAAAGAGAAATATGCCGCGAACCGCGTAAGCATACCCGTATCCGAAGGCGAAGCCGTCACCATCTATAAATACGTGGCCAACGTCACTTCCCGCAATCATGGATTCGGCGAACTGGTGGAAGCAGCGCGTGCCGTGCTGGAACCGGCGGTGGAGACCGGATTTGAGCAGTTGCTGAAGGAGCAGGCGGATGCCTGGGGCGACAAATGGAAGGAAAGCGATATCGTCATCGAAGGCGATGTGGCGGCCCAGCAAGCGATCCGCTTCAACATTTTCCAGCTGAACCAAACTTACAGCGGCGAAGACGACCGCCTGAACATCGGGCCAAAGGGCTTTACCGGGGAAAAATATGGCGGCAGCACCTACTGGGATACCGAGGCTTATTGCCTGCCGTTCTATCTGAGCACCGCGGATGCCAGCATCTCGCGCAACCTGCTGATCTATCGTTATAAGCACCTGGAAAAAGCGAAGGAAAATGCCAGAAAGCTCGGCTTCACCAAAGGGGCCCTCTATCCTATGGTGACGATGAACGGCGAGGAATGCCATAACGAGTGGGAGATTACGTTTGAAGAAATCCACCGTAACGGCGCGATTGCCTATGCCATCTATAACTATGTCAACTATACCGGCGACTTCTCTTACCTCGGCCAATACGGTCTGGAAGTGCTCGTGGAAATCTCCCGTTTCTGGGAAGAACGCGTGAATTACGTGCCGGCGAAGGACCAGTATATGATGCTCGGCGTTACCGGCCCGAACGAGTACGAGAACAACGTCAACAACAACTGGTATACGAACCGAATTGCCAGCTGGACGATGGAATACACGCTCGACGTGCTCGAGTATTTGAAAGAGAATGAGAATTCCCGCTATGCCGAGCTTACGGCGAAGCTTGCCCTGCAGGATGCAGAAACGGCCAAATGGCAGGATATCATCAGCAAAATGTACTACCCGGTAGACGAGGAACTCGGCGTCTTCCTGCAGCAGGACGGTTTCCTTAACAAGGAGCTGGTTCCGGTGAAGGAATTGGACCCTGCCCACCTGCCGCTGAACCAGAACTGGTCCTGGGACCGCATTCTGCGTTCGGTGTACATTAAGCAGGCCGACGTGCTGCAAGGATTGTTCTTCCTTGGCGACCGGTACGATCTGGCTACGAAAAAACGCAACTTCGACTTCTATGAACCGTTCACGGTACACGAGTCCTCCCTCTCGCCATGCGTACATTCCATTCTCGCTTGCGAGCTCGGGTACCAGGAAAAGGCGTACGAGATGTACCTTCGTACAGCCCGCCTGGACCTGGACAACTACAACAACGATACCGAGGACGGCTGTCATACGACCAGCATGGCGGGAACCTGGATGTCGGTTGTGCATGGCTTCGGCGGCCTGCGCGTGAAGGACGGCGTATTGCATCTGAACCCGTTCATTCCGGGTCATTGGTCCTCCTTCTCCTTCAAGGTGATGTTCCGCGGATCCCGCCTGAAGGTTAACGTCAAGGGCCATGAAACCCTCATCGTAAACGAAACGGATACGCCTGCTGTCCTGAACGTGAACGGCAAGGAATACGCCATCAGCGGATATGGAGAGGTAACGGCTGCAAGATAA	MKQYLKLDEWSIIEEGFDPHTHEISESIFSIGNGFMGQRANFEESYSGSSLQGSYMAGVYYPDKTRVGWWKNGYPEYFAKVLNSTNWIGIGIDIDGTPLDLAKCTVKDFVRELNMKEGFLSRRFTAVMEDGKELQVEAVRFVSIVRHEIGAIRYAVTPLNFAGELTVTPYLDGDVKNKDSNYDEKFWLEVFKEAAQGSAALTVKTKKLDFHVTSVMSYHILKNGEKLDLQAELIEKEKYAANRVSIPVSEGEAVTIYKYVANVTSRNHGFGELVEAARAVLEPAVETGFEQLLKEQADAWGDKWKESDIVIEGDVAAQQAIRFNIFQLNQTYSGEDDRLNIGPKGFTGEKYGGSTYWDTEAYCLPFYLSTADASISRNLLIYRYKHLEKAKENARKLGFTKGALYPMVTMNGEECHNEWEITFEEIHRNGAIAYAIYNYVNYTGDFSYLGQYGLEVLVEISRFWEERVNYVPAKDQYMMLGVTGPNEYENNVNNNWYTNRIASWTMEYTLDVLEYLKENENSRYAELTAKLALQDAETAKWQDIISKMYYPVDEELGVFLQQDGFLNKELVPVKELDPAHLPLNQNWSWDRILRSVYIKQADVLQGLFFLGDRYDLATKKRNFDFYEPFTVHESSLSPCVHSILACELGYQEKAYEMYLRTARLDLDNYNNDTEDGCHTTSMAGTWMSVVHGFGGLRVKDGVLHLNPFIPGHWSSFSFKVMFRGSRLKVNVKGHETLIVNETDTPAVLNVNGKEYAISGYGEVTAAR	PGPT0018605_174	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018605-mapA-K00691	NA	NA
AK002_00628	651	pgmB	COG0637	Beta-phosphoglucomutase	ATGTCAACCCTATCCGCTTGTTTATTCGATCTAGACGGCGTGCTGGTGGATACCGCCAAGTATCACTACATTGCCTGGAAGCGTCTTGCCGGAGAGCTTGGCTTTGAATTCACGGAGCAGGACAACGAACGCCTGAAGGGTGTTAGCCGCATGGCTTCCCTCGATATTCTGCTTGAGGTTGGCGGAGTATCGCTGGATGAAGACGCGAAGCTGGCGCTGGCTGAGAAGAAGAATGCTTGGTATGTCGAGTATATTTCCAACATGGACGAATCCGAGATTTTGCCTGGAGCCCTTGAATTTATCCAAGCTTTGAAGGACCGCGGCATCAAGGTTGCGCTGGGCTCCGCCAGCAAGAACGCGATGCTGATCCTGAACAATACCGGCCTGACGCCTTACTTCGACGCTATCATCGATGGAACGAAGACCAGCCAAGCGAAGCCGGATCCCGAGGTATTTACGCTGGGAGCTCGCGAGCTTGGCGCCCAGCCTGACGCCTGCGTCGTCTTCGAGGATGCCGAGGCCGGAATCGAAGCCGCCATCCGCGCGGGAATGCGCAGCGTCGGCATCGGTTCGCCCGAAACCTTGGGGCGCGCCAACCTCGTCCTTCCTTCCCTGGAAGAGTTAACGGTGGACCGACTGCTGGAGTTATAA	MSTLSACLFDLDGVLVDTAKYHYIAWKRLAGELGFEFTEQDNERLKGVSRMASLDILLEVGGVSLDEDAKLALAEKKNAWYVEYISNMDESEILPGALEFIQALKDRGIKVALGSASKNAMLILNNTGLTPYFDAIIDGTKTSQAKPDPEVFTLGARELGAQPDACVVFEDAEAGIEAAIRAGMRSVGIGSPETLGRANLVLPSLEELTVDRLLEL	PGPT0017720_1355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017720-pgmB-K01838	NA	NA
AK002_00629	1035	malR	COG1609	HTH-type transcriptional regulator MalR	ATGTCAGTAACGATAAAAGATGTCGCAAAACGAGCGGGCGTATCCCCCTCCACCGTCTCTCGGGTGCTTTCCAATCATCCAAGAATCAGCCGCGAAACCTCGCGCAAGGTGAAAGAGATCATGGAGGAAATGGGCTACCATCCCAATATTATGGCCAAGAGCCTTGTTTCCAAAACGACAGAAAGCATATGCGTCATTCTGCCGAAACCCGCGGAGGAATTGTTCCTCAACTTATTCTTCATGGAGCTGATCCGCGGTATCGTCACCCAAGCGAACCGTTCCGGATACGATGTCGTCCTCAGTTCGGGCGGCAACGAGAAAGAGGAAGTCGAAGCGGTATCCCGCCTTCTTAACGGCCGCCGCGTCGACGGCGCCATCTTGCTTTACTCCAGGCAGGACGACCAGGTCGTTGATTTTCTGAAATCGAACAATTACCCGTTCGTGCTGGTCGGCCGGAGCGAGAAATATCCTGACCTGTTATCGGTCGATACCGATAATGTGCAGGCGGCCTATGATGCAACCAAGCATTTGATCTCGCTTGGGCATCAGCGGATAGGATTTGTCAGCGGGCCGCCAAACCTGATCGTATCCCAGGACCGGATGAAGGGCTACGGAAAGGCACTTGCCGATGCAGGCCTTGAAATGAGAAAAGAATGGATTGTGGAAGGCGAGTTCCTGCAGGAGAGCGGCTATCGCGCCATGTCCTTTTTCATGAACCTGCCCGAGCGACCGACGGCCCTTGTCATTGTCGACGACATTGTCTCTTTCGGCGTGGTTCGCGGACTGCACGAGCTGGGGTATAAAGTTCCCCAGGACGTATCGATCATCAGTTTCAACAACATCTCATTGACCGAACTATCGACACCGCCGCTGAGCAGCGTTGACATCGGCATCTATAACCTGGGTTATACCGCTTCGCAGGCATTGATCCAGACCATTCGCAACGATGACAACACGATCCTGCCGCACCGCTATATCATTCCGCATCGATTGATGATCCGCGAATCCTCGATGTTTTCGCCGCCGAAATCTTGA	MSVTIKDVAKRAGVSPSTVSRVLSNHPRISRETSRKVKEIMEEMGYHPNIMAKSLVSKTTESICVILPKPAEELFLNLFFMELIRGIVTQANRSGYDVVLSSGGNEKEEVEAVSRLLNGRRVDGAILLYSRQDDQVVDFLKSNNYPFVLVGRSEKYPDLLSVDTDNVQAAYDATKHLISLGHQRIGFVSGPPNLIVSQDRMKGYGKALADAGLEMRKEWIVEGEFLQESGYRAMSFFMNLPERPTALVIVDDIVSFGVVRGLHELGYKVPQDVSIISFNNISLTELSTPPLSSVDIGIYNLGYTASQALIQTIRNDDNTILPHRYIIPHRLMIRESSMFSPPKS	PGPT0014791_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
AK002_00630	1698		COG0366	Alpha-amylase	GTGATACGGAATACATGGGGAAGACGCAGGGCTCTGCCGATATGGCTTATGGCTTTTGCGCTTACGGGAAGCCTGCTTGCAGGCTGCAGCGGCACCGCGGTTACGCCTGAAGAGGAAGCGAAGCCGCCGGCGGCTTCGGAATCGAAACAGCCGGATACGAAAGCGCCTGCGCCAGAAGGGAAAACGGAGGTGGATGAGCAGCCTTCCGACGTCTATTATGAAATTTTCGTGCGTTCATTCTATGATTCCGATGGGGATGGGATCGGTGACTTGCAAGGGGTCATTGAGAAGCTGGATTATTTGAATGACGGAAATCCGGAATCCTCGGAGGATCTTGGCGTGACGGGGATTTGGCTGATGCCGATCCATCCTTCGCCGAGCTATCACGGCTATGATGTGACCGACTACCGTTCCATTCACCCGGATTACGGGACGCTGGATGACTTTAAGACGCTGCTTGCCGAAGCGGATAAGCGCGGGATCAAGATCATTATGGATCTGGTGGTCAATCACACAAGCACGGAGCATGCTTGGTTTCAGCAGGCTGCGAAAGACAAGGCCTCGGGCACCCGGGATTGGTACATCTGGGCCGAGGATCAAGGGAAAACGCCTTCCGGATCCAGCGCGGCGGGAAGCGGCTCCCCTTGGCATGAGATGAACGGGGCGCATTACATGGGCACGTTCTGGGGCGGAATGCCGGATCTGAACTTCGATAATCCCAAGGTCCGCGAGGAGATGAAGGATATCGGGAAGTTCTGGCTGGAGCTGGGCGTCGACGGCTTCCGGATCGATGCAGCCAAGCATATTTACGAGGATCTGATGTCCGATAAGGGAGAGGCGACCACGGCCAAGAATACGGCTTGGTGGCAGGAATTCCGCGCCGGCATGAATGAAGTGAACCCGGAGGCTTATATCGTCGGGGAGATTTGGGATAATTCCGCTGCGGTCATCGCGCCGTATTTGGAGAATGCATTTGATTCCGGATTCAATTTCGGCTTGGGCGAGAGCATCCTCGGTGCCGCCATGAACGAGAAGGATAACAACCTGGCCTTCACCCTGGAGCGGACATATGGCTTGTTCAGCCAGGTATCGGACGGCAAGTTTACGGATGCTACCTTCCTGACGAATCATGACATGAACCGTGTCATGTCCCAGCTGAAGGATGACGTAAACCACGCCAAGATGGCTGCCGGCATTCTGCTGACGATGCCGGGCCATCCGTTTATCTATTACGGCGAAGAGATCGGGATGAAGGGAGCGAAGCCGGACGAGCAAATCCGGGAGCCGATGATCTGGTCCAATACGGGCAGAGATAAGGGACAGACGACCTGGGAGCCGCTTACGCATAACCGCGGCGATCAGGTGCAAGGCGTAGAGCAGCAGACCGGAGACGAGAATTCCCTGCTGTCCCGCTATCGCACGCTGATCCGGTGGCGGAATGAGATGCCTGCCCTGAACAGCGGCACGATTGAATCTTATGCGTCAGGGAACCAGCAAGTGATGGCTTATATCCGCCGGACAAACGAGAGCGGGGCCTTAGTGGTTCATAACCTGTCAGGCGCGGAGCAGATCGTGGACCTAGCATCGAAGAACGGATCTGCGGATTTCCGGTCATTGGCGAGAACCACCGACGACAGCGCGGCATTGGATGGCAGCAGTTTAACGCTGCCGCCGTATACGACCGTTATTTTGGAATAG	MIRNTWGRRRALPIWLMAFALTGSLLAGCSGTAVTPEEEAKPPAASESKQPDTKAPAPEGKTEVDEQPSDVYYEIFVRSFYDSDGDGIGDLQGVIEKLDYLNDGNPESSEDLGVTGIWLMPIHPSPSYHGYDVTDYRSIHPDYGTLDDFKTLLAEADKRGIKIIMDLVVNHTSTEHAWFQQAAKDKASGTRDWYIWAEDQGKTPSGSSAAGSGSPWHEMNGAHYMGTFWGGMPDLNFDNPKVREEMKDIGKFWLELGVDGFRIDAAKHIYEDLMSDKGEATTAKNTAWWQEFRAGMNEVNPEAYIVGEIWDNSAAVIAPYLENAFDSGFNFGLGESILGAAMNEKDNNLAFTLERTYGLFSQVSDGKFTDATFLTNHDMNRVMSQLKDDVNHAKMAAGILLTMPGHPFIYYGEEIGMKGAKPDEQIREPMIWSNTGRDKGQTTWEPLTHNRGDQVQGVEQQTGDENSLLSRYRTLIRWRNEMPALNSGTIESYASGNQQVMAYIRRTNESGALVVHNLSGAEQIVDLASKNGSADFRSLARTTDDSAALDGSSLTLPPYTTVILE	PGPT0018575_1126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
AK002_00631	2265	uvrA_1		UvrABC system protein A	ATGAACCAAAGCTTAGAACAGTCCATCAAGGTCACCGGCGCACGAAACAAAAACCTGCGCAACATAAGCCTGACCATTCCCAAAAAACAAATCACGGTGTTCACCGGCGTGTCCGGTTCCGGCAAATCCGCCATGGTCTTCGATACGATTGCGGCAGAATCCCAGCGCCAGCTGAACGAAACCTATTCGAGCTTTATCCGCCATCGGCTTCCTCATTACGGACAGCCTGAAGTCGATTCGGTTGAGAACCTGTCGGTCGCCATTGTGGTCAATCAGAAAAGAATCGGCGGCAACGCCCGTTCAACCGTGGGAACCATCACCGATATCCATTCCCTGCTGCGCTTGTTATTCTCCCGGATCGGCCGGCCCTTCGTCGGATATTCGGACGTGTTTTCCTTTAACAACCCGCAAGGCATGTGCCCTCATTGCGAAGGACTGGGCAAAGTGAACACCTTTCGGATCGAAAGCTTGATCGACAAGGAGAAATCGCTGAATGAGGGACCCATCCGGTTTCCGACATTCCACCCGGGGGAAGTGCGCTGGAAGCGTTATGTGGCCACGGGCCTGTTTGACAACGATAAGAAACTGAAGGATTACAGCGAGGAGGAATGGGACACGCTGCTGTACAAAACCGGCTTTAAACCGCCGAACCCGACCAAGGAATGGCCCCCTACCTCGTATTACGAAGGCATTATCCCGCGAATCGAGCGGACCTTTCTGAGCAAGGATTCGCGGGACTCGAGGGCGTATAGGGAAGCCATCGAGCAGGTGGTGACCGAAACGGCCTGCCCGTTATGCCATGGCGGAAGACTGAATCAGGAGGCGCTCTCCTGCAAAATCAACGGAACCTCCATCGCCGACTGCGCTCGGATGCAGGTCAATGAGCTGATCGTTTTTTTGGAAAGCATCGAGGATCCCGCGGCGGCAACCATCGTGGACACCTGCATAACCCGGCTGCAGCAGCTGCTTCTGGTCGGGATCGGTTACCTTACGATGGACCGGGAAACCGCAACCCTGTCCGGCGGCGAATCCCAGCGCATCAAAATGGTGCGCCAGCTGGGGAGCAGCTTGACGGATCTAACGTATATTTTTGACGAGCCCAGCATCGGCCTCCATCCTCACGATGTGCATAACATGAACCGCCTGCTGCTTCAGCTTCGGGACAAGGGAAATACGGTCATCATCGTGGAGCACGACCTGGACGTCATCCGGATTGCAGACCATATCATAGATATGGGACCGCGAGCCGGACTAGCCGGCGGCACCATCGTATATGAGGGGAATTGGGAGGGTTTGCGGCACGCCGATACCCTGACGGGAAAATGCCTCCGCCAGCGCGCCCGGTTAAAGTCCGAGGTCCGCGAGCCGACCGGATGGCTGCATATTAGGGACGCCACCCTTCACAACCTGAAGCAGGTGTCCGTGAGCATTCCGACCGGGGTGCTGACGGCGGTAACAGGCGTCGCGGGGTCAGGCAAAAGCACGCTCATCAACCAGGTGCTGCCTGGCGTTTATCCGGAGGCCGTCATTATCAATCAGGACATGATTCAGGCGTCCAACCGTTCCAATCTCGCGACGTTTACCGGCATATTTGACGATATCCGCAAGTTATTCGCCGGGGAGAATCGGGTGAGCCCTTCCCTTTTCAGCTTTAATGCCAAGGGAGCCTGTCCGGAATGTAACGGCTCCGGCACGATCACGATGGATTTAGCCTTCATGGACAGCCTGGTTAGCGTTTGCGAGGCTTGCCAGGGTCGCCGCTTTCATGATGACGTCCTGCAATATCACCTTCGAGGCAGCAGCATCAGCGACGTGCTCGCCATGACGGCCGATGAAGCGCTGGATTTTTTCACGGAGCCCGGCATCCTGGCCGCGCTTCTGCGCATTCAGCAGGTCGGACTGGGTTACTTGACGCTCGGTCAGCCCTTAAGCACGCTGTCGGGAGGAGAGCGGCAGCGGGTGAAACTGGCGGCCGAGCTCGATCATTCAGGTGAGATTTACGTGCTCGACGAGCCCTCGACCGGACTCCATCTGTCCGATTGCGAGCGGCTGATGTCCATCATCAACCGGCTTGTCGCACAGGACAGCACGGTCATTGTGATCGAGCATAACCTGGATATCATCAGCCAGGCGGATTGGATTATCGACATGGGACCCGGCGCGGGACAAGACGGCGGGAACATCCTGTTCTGCGGCAAACCGGCCGAGCTGCTGGAGAGCCCGCGTTCCGTGACGGCCAATTATTTGCGGCAGTTTCGTGCTTAG	MNQSLEQSIKVTGARNKNLRNISLTIPKKQITVFTGVSGSGKSAMVFDTIAAESQRQLNETYSSFIRHRLPHYGQPEVDSVENLSVAIVVNQKRIGGNARSTVGTITDIHSLLRLLFSRIGRPFVGYSDVFSFNNPQGMCPHCEGLGKVNTFRIESLIDKEKSLNEGPIRFPTFHPGEVRWKRYVATGLFDNDKKLKDYSEEEWDTLLYKTGFKPPNPTKEWPPTSYYEGIIPRIERTFLSKDSRDSRAYREAIEQVVTETACPLCHGGRLNQEALSCKINGTSIADCARMQVNELIVFLESIEDPAAATIVDTCITRLQQLLLVGIGYLTMDRETATLSGGESQRIKMVRQLGSSLTDLTYIFDEPSIGLHPHDVHNMNRLLLQLRDKGNTVIIVEHDLDVIRIADHIIDMGPRAGLAGGTIVYEGNWEGLRHADTLTGKCLRQRARLKSEVREPTGWLHIRDATLHNLKQVSVSIPTGVLTAVTGVAGSGKSTLINQVLPGVYPEAVIINQDMIQASNRSNLATFTGIFDDIRKLFAGENRVSPSLFSFNAKGACPECNGSGTITMDLAFMDSLVSVCEACQGRRFHDDVLQYHLRGSSISDVLAMTADEALDFFTEPGILAALLRIQQVGLGYLTLGQPLSTLSGGERQRVKLAAELDHSGEIYVLDEPSTGLHLSDCERLMSIINRLVAQDSTVIVIEHNLDIISQADWIIDMGPGAGQDGGNILFCGKPAELLESPRSVTANYLRQFRA				NA	NA	NA	NA	NA
AK002_00632	945			hypothetical protein	ATGTCAAAAGCCAAGCAGCTCATGGATGTCATGATGTATGTCAATGCCAAGAGGATCTTTACGGCTCAGGAAGTGGCCGATGAGTTCGGCGTTTCCGTTCGCACGGCTCACCGGTATCTGACCGAAATCAGCGATATGGGCGTACCCTTATATACCGAGCAGGGACGGCACGGGGGATACCGTACCTTGAAGACTCGCGTTCTCCCGCCGATCCTGTTCGATGAAGACGAGGTGTTTGCCATATTTTTTGCCTTTCAGGCCTTGAAGCGTTATACCTCGTTACCGTTCGAGCTCAATATCGACTCCGCCTCCCGTAAGCTGCTGGCCGGATTTCCGGAGGACACCAAGATGATGATCGACCGCCTGGAATCGGTGCTGACGTTCTGGAGCCCAAGCAGGACCGCGGGGTCCCCTTACCTGAAAGACGTCATTGAAGCCGCGCTTCACCGACGGGCTGTACGGATCAGATATCGATCCAAATCGGGTACCGGCGACCGGGAAGTGCTGCCTCTCGGCGTTTATGCCCAGGATGGTTTATGGTATATGCCTGCGCTGGAGAACGGGAAGGGAGAAGTGCGTGTATTCCGCATGGACCGGATGGAAACCCTGACTCTGACTGACAGCACCTATGAGCCGGACATTCGCATGCAGGAATGGCTCGACGCGTATCCCGTACGGGAGCCGGTTCGATTATATGCCGAGCTGACCAGGGAAGGGGCAAGGCAGTGCGAAAGCATTCCTTGGCTGGAGAACGAGGTGGTCATGCAGGATGAGCACCGCGGCATCGTGGATACGATCGTCGATCGGAATGATCTTGAATATGTGACCCAGGTTTTTCTGCGTCTGGGGCTGGAGGCGAAGGTGATCGAACCGCCGGAGATCGTTGACAGTCTGAGGGAGAAGGCAAGGCTGCTGAGCTTGCATTACGGAGAGTCGGAGGGATAG	MSKAKQLMDVMMYVNAKRIFTAQEVADEFGVSVRTAHRYLTEISDMGVPLYTEQGRHGGYRTLKTRVLPPILFDEDEVFAIFFAFQALKRYTSLPFELNIDSASRKLLAGFPEDTKMMIDRLESVLTFWSPSRTAGSPYLKDVIEAALHRRAVRIRYRSKSGTGDREVLPLGVYAQDGLWYMPALENGKGEVRVFRMDRMETLTLTDSTYEPDIRMQEWLDAYPVREPVRLYAELTREGARQCESIPWLENEVVMQDEHRGIVDTIVDRNDLEYVTQVFLRLGLEAKVIEPPEIVDSLREKARLLSLHYGESEG				NA	NA	NA	NA	NA
AK002_00633	675	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGAGCGCATGCATTCTATATATTGAGGATGATCGGGAGATCGGCGGATGGGTCAGCGAATTCCTCAGGGACAAGGGATACGAGGTACGGTGGCTGCTGAGCGGAGAACAGGCCGTACAGGAAGCAGCTCCGTGTGCGGTCGTTGTTCTGGACGTCATGCTTCCGGGGCTGGACGGCTTTACGGTCGGGCAGCGTCTCAAAAAGGCCTATCCCGGACTGCCCATCCTGATGCTGTCGGCTCGAACCTCTATTGACGATAAGCTGCAGGGGCTTGAGTTCGCCGACGATTACCTGACAAAGCCTTTTCATCCGGACGAGCTGGCTGCCCGTCTCGAGGTGCTTCTGCGGCGGTCTGTCGTGAAATCCGCGGAGCCCATCCGAGTGAAGCACTTATCGGTATATGAAGACGAGAATCGGATCGTGAACGAGGATACCGGCGAGGAGACGCTGCTGACCGGCAAACAGCATCAAATCTTTATGTATCTGCTCCAGCACCAGGGGCGTGTCATGACCAAGGAGCAAATATACGAGTCGGTCTGGGGAGAATCATATATCGAAGGGGACAAAACGCTGATGGTCCACATCCGGTATCTCCGGGAGAAGCTCGAGCGGGACCCCGCCAACCCGGAGATTATTGAGACCGTTCGCGGGCTTGGCTACCGGGTGAGCGCATGA	MSACILYIEDDREIGGWVSEFLRDKGYEVRWLLSGEQAVQEAAPCAVVVLDVMLPGLDGFTVGQRLKKAYPGLPILMLSARTSIDDKLQGLEFADDYLTKPFHPDELAARLEVLLRRSVVKSAEPIRVKHLSVYEDENRIVNEDTGEETLLTGKQHQIFMYLLQHQGRVMTKEQIYESVWGESYIEGDKTLMVHIRYLREKLERDPANPEIIETVRGLGYRVSA	PGPT0002665_1705	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_00634	1389	sasA_4		Adaptive-response sensory-kinase SasA	ATGAGATGGAAAAGGAAGAAGGGAAGGTTCCGCAATTCGCTGACCAATCGGTATTTGCTGCTGATTTTGATGGCTATGATCTTCATGCCGATCATGTTTCCGTTAGCGTCGATTTTTTACTGGTTCGTGAACGATACTTTCTCGGATCGGCCGCCGGCCCCTGCCGGGAAATATACCAGCGGTGCCGCGTTAGAGAGAATGTGGCACGAGGAAGCTGCCGGATTAAGCGGAGCTTCGCCGGAGGCCATTGAGCAGAAGCTGAATTCGATACGGCAGGAGTATCCGGAGATCTCCATGTTCTGGGTGGATGGCGGCAATAAGACCAGGCTGCAGCTGCCGGTGCAGCCTAACCTGCCCGAGGTATGGAGCGCGCCCTATACCGTGCAATTTATGAAAAACTCCCTGGATAGCGATCCGTTCACCTCCGTGGCTTTTATCGGAGGAGAGGGATCGGGAGAAGGCTTCATGGTCATGCAGCTGCCGAGAAAATATCTTAATGTCCAGCAGCCCATTGCGAGCGAAACGGCGCTGTACGGGCTGTTCACGGCTTCGATGTCCGGCCTGTTCATTCTGGTCTCCTGGCTGTTCTTCGTGCGCATCCGCAAGCGGCTGCTGCGGCTTCGTTCGGCCATGACGTCGTCCCATGCGTCGACGGGCATACCGCAGCCGGTTACGTTAACCAAGTATGACGAGATTGGACAGCTGGAAGAGGGTTATAACGATATGGTTATCCAGTTGGAAGAGGGACAGCGCCGCCAGCGCGAGGAAGAAGAGCTGCGCAAATCCCTGATCGCCAATCTGTCCCATGATCTCAGAACCCCGCTGACGGTGATTCGAAGCCATATTTTCTCCATGGAACGGGAGCCGCTGAGCCCGAAGGGAAAAGAATCGCTGTCGCTCATCGAATCGAAAATCGCGGATTTGGGCGGCCTGATCGACAACCTGCTGTCCTACAACTTGCTCACCAGCGGCAGAGTGCAGCTGAACATGGAATCTGCAGACGTGCTGCGAATCGTCAAGGAAAGCGCCGCTGCCTGGTATCCGGTATGGGAGAAGGCGGGAATCGAGCCTGACATCCAGGTGCGAGACGTGCCGCTCCACTGGAACGTAGACGTGCTGTGGTTCCGGAGGCTCCTCGATAATCTGTTCCAAAATGTCGCTCGCCACGCCCGATCCGGGCAGTACATCGGCATTCATACCGAGGAGAGGGAAGGACTTGAGGGCGTCCTTGTCATTTCGGACCATGGGCCGGGGATCGCAAGCGATTCCGGCAACAAAGGCACGGGCATCGGCCTGGCCATCGTGGACCACCTGACAAGGGAGATGGGGCTGGAAAGCCATGTGGAAAGCTCGGATGAGGGAACGAGGATCCGCATCTGGAAGCGTTGA	MRWKRKKGRFRNSLTNRYLLLILMAMIFMPIMFPLASIFYWFVNDTFSDRPPAPAGKYTSGAALERMWHEEAAGLSGASPEAIEQKLNSIRQEYPEISMFWVDGGNKTRLQLPVQPNLPEVWSAPYTVQFMKNSLDSDPFTSVAFIGGEGSGEGFMVMQLPRKYLNVQQPIASETALYGLFTASMSGLFILVSWLFFVRIRKRLLRLRSAMTSSHASTGIPQPVTLTKYDEIGQLEEGYNDMVIQLEEGQRRQREEEELRKSLIANLSHDLRTPLTVIRSHIFSMEREPLSPKGKESLSLIESKIADLGGLIDNLLSYNLLTSGRVQLNMESADVLRIVKESAAAWYPVWEKAGIEPDIQVRDVPLHWNVDVLWFRRLLDNLFQNVARHARSGQYIGIHTEEREGLEGVLVISDHGPGIASDSGNKGTGIGLAIVDHLTREMGLESHVESSDEGTRIRIWKR				NA	NA	NA	NA	NA
AK002_00636	915	bcrA_1		Bacitracin transport ATP-binding protein BcrA	GTGACGGAACTCGTCATTCAAACAAAAGGCTTATATAAAATATACAAAAAGCGCGCAGCGGTCGTGGATTTGAATCTGGAGATCGCCCGCGGCGACATTTACGGCTTCCTCGGCCCGAACGGTGCCGGGAAAACGACGACCATTCGCATGCTGCTCGGACTCATTCAACCGACGCGTGGCGCGATTCATTTGTTCGGCAAGGATTTAAAGAGCGAAAAAATGGACATTTTGCGCCGGACCGGATCGCTTGTGGAATACCCATCCTATTACGGCCACTTGACGGCCGTAGAGAATCTGGAAGCGATCCGCCGGATTACCGGCGGCCCGAAATCCCGCATCGCGGAAGTGCTGGAGATCGTCTCCTTGACGAAGGAGGCCAAGCGCCCGGTCAAGGGATACTCGCTAGGGATGAAGCAGCGTCTTGGCATCGCGGCCGCCCTGCTGAACAATCCGGAGCTGCTCATTCTGGATGAGCCGACCAACGGCCTGGATCCGTCCGGGATACATGAAATCCGGGAGCTGATCAAGAATATGCCGCGCCAATACGGCATTACCGTGCTGGTATCCAGTCACCTGCTGGGCGAGGTCGAGCAGATGGCGGACAAAGTCGGCATTATTCGCGAAGGAAGGATGGTGTTCCAGGATACGATCGACAATCTGGTATCCACGGCGTCCAGCGGTTTCCGCTTATCGGTATCCGAGCCTGAGGCAGCGCTTGGACTAGCCCTAGACTTAGGCTGCGAAGGCGTCCTGCGGAACCAGATGCTGGAGCTGGAGAGCATGCAGGATGCCAAAATCGCGCAACTCGTGAAGCGCCTGGTAGAGAACCAGCATGCGGTATACCGGGTGGAAGAGCAGCGGAGGTCGCTGGAGGATATCTTCATGCAGATCGTAGGGGAGGGAAGCCGGGTATGA	MTELVIQTKGLYKIYKKRAAVVDLNLEIARGDIYGFLGPNGAGKTTTIRMLLGLIQPTRGAIHLFGKDLKSEKMDILRRTGSLVEYPSYYGHLTAVENLEAIRRITGGPKSRIAEVLEIVSLTKEAKRPVKGYSLGMKQRLGIAAALLNNPELLILDEPTNGLDPSGIHEIRELIKNMPRQYGITVLVSSHLLGEVEQMADKVGIIREGRMVFQDTIDNLVSTASSGFRLSVSEPEAALGLALDLGCEGVLRNQMLELESMQDAKIAQLVKRLVENQHAVYRVEEQRRSLEDIFMQIVGEGSRV	PGPT0011725_170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-LANTIBIOITC_RESISTANCE,PGPT0011725-nukF|mcdF|sboF-K20459	NA	NA
AK002_00637	717			hypothetical protein	ATGATGTTCCGTGCGCTTTCCGCCGATTGGCTGAAAATCCGAGGCAAGGGCATCTGGTTTCTCGCTGCGCTCGGTCCCGTCGGGCTGGCAGCGATGCAAGGGCTGAACTTCGGACTTCGATACGATTACCTGATGAAATCCTACGCGGCGGATCCTTGGGGCGGACTGCTGGAGAACGTGCTCTTCTTTGTGCCGATTGCCCTGTTCCTCGGGATCACGCTGGTCTGCTCGCTGATGGCCAACGTGGAGCATCAGCTGAGCTCGTGGAAGCAGCTGCTGGCATTGCCTATCTCCAGAACGGCGGTATTCAGTGCCAAGTTCGTGCAGGCTTTCCTGATTCTCTGCGTATCCTGTCTCCTTCTGTCGATCAGTACCGCCGTCCTCGGCATCGTACTGGGGATGGGGGCAGATCAAATGCCGTATGTCGATCTGCTGCGCATTGGGTTTGTGCAGTTATTCGCGGCGCTTCCCATGCTGGCCTTTCAACTGTGGATGTCTTTGACGCTTAAGAACCAGGGGATCGCGGTCGGGATCGGGATTACCGCCTCGGTCGTGTCGATGTTCGCCCTGCAGTTTCCTGATTGGATGCCGCTAAAATGGCCGCTGCTGGCTTACATGGGGCCGGGAGAAGCACGCGTCATCGGAGCGGGTTTGCTGCTGGGCGCGGTGATCGCATGCGCTGGCCTGATTCATTTTAACCGAAAGGATGTGGACTAA	MMFRALSADWLKIRGKGIWFLAALGPVGLAAMQGLNFGLRYDYLMKSYAADPWGGLLENVLFFVPIALFLGITLVCSLMANVEHQLSSWKQLLALPISRTAVFSAKFVQAFLILCVSCLLLSISTAVLGIVLGMGADQMPYVDLLRIGFVQLFAALPMLAFQLWMSLTLKNQGIAVGIGITASVVSMFALQFPDWMPLKWPLLAYMGPGEARVIGAGLLLGAVIACAGLIHFNRKDVD	PGPT0011720_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-LANTIBIOITC_RESISTANCE,PGPT0011720-nukE|mcdE|sboE-K20460	NA	NA
AK002_00638	735			hypothetical protein	ATGGCATCCTATCTAAGAGCGGTATCCGCAGAGTGGCTTAAGCTGTCGAAATCGAAGCTGTGGCCGCAAATCTTCCTGTGCGCGGTCCTGGTCATGCTGCTCGGCATATTAAACGGAAAGCCTGAGGAGCTGGCGCCATGGGAATATCTGATCAGCATTATGATCATTCTGCATGCCATGCTGCTGCTTCCGATTCTGACGGGGATATTCAGTGCCATGGTATGCCGGTATGAGCATTCGGGCGGGGGATGGAAGCAGCTGCTCGTCCTGCCGGTTTCACGCGGCGCCGTCTATTTTGCGAAATTCTCGGTGGTCGCCATGCTGCTGGCCGTCGTGCAGTTACTGTTCATGGGCGCCGTGCTGGGAGCCGGGTTGATCCACAAGGTGGATGCTCCGATTCCGTGGGAAATGCTGCTGCGTTGCCTGCTTGGCGGTTGGGTTGCCTGCTTGCCGCTTGCCGCGCTGCAGCTTGGGGTTTCAACGGCCTGGAGCAGCTTTGCCGCTCCGCTGGCATTAAACGTCGTATTTACCATACCGAACATGCTGGTAGCCAACTCGCAGACGTATGCTCCTTACTATCCGTGGACGCAGCCGTTTCTTGCGATGATGCCGGCAGGTCAAGCCGATTTCGGCGCATTCAACCTGCCGTTCGAAAGCCTCATGACCGTCGTGGTGGGAGGGTTTCTACTGTTCTTTCTCGCGGGCTTCGTCTATTTTCAGCGGAAAGAAGTGTAA	MASYLRAVSAEWLKLSKSKLWPQIFLCAVLVMLLGILNGKPEELAPWEYLISIMIILHAMLLLPILTGIFSAMVCRYEHSGGGWKQLLVLPVSRGAVYFAKFSVVAMLLAVVQLLFMGAVLGAGLIHKVDAPIPWEMLLRCLLGGWVACLPLAALQLGVSTAWSSFAAPLALNVVFTIPNMLVANSQTYAPYYPWTQPFLAMMPAGQADFGAFNLPFESLMTVVVGGFLLFFLAGFVYFQRKEV	PGPT0011715_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-LANTIBIOITC_RESISTANCE,PGPT0011715-nukG|mcdG|sboG-K20461	NA	NA
AK002_00639	840			hypothetical protein	ATGAAAAAAATCGGATTCATCGACCTGCATTTGGACCAGTTCCACGCGAACAAATATCCCGGGTGGATTGAGCAGGCATCGGAACATGCCATGAAGGTCATGTACGCCTACGGCAAGAGAGACAAAGAGAACGGGCTCACGAACGCCGCCTGGAGCAAGGAGTTTGGAATTGAGCTGCTGCCCACGATCGAAGAGGTGGTGGAGCGCAGCGATTACCTGATCGTGCTGTCCCCGGACAATCCGGAATTCCATGAGGAGCTGTCCCAGCTGCCGCTGCAGTCCGGCAAGCCGACCTATATCGATAAAACGTTCGCGCCTGACCGCGAAACGGCCATCCGCCTGTTCGACCTGGCGGCAAAGCACGGAACGCCGATGTTTTCGACGTCCGCCCTGCGTTTTGCCAGCGAATACCACGAGCTGGACCGAAGCGATATACAAACGATCAGCAGCTGGGGACCGGGCGCCTTCGCCAATTATTCGATCCATCAAATCGAGCCGATCGTCAGCCTGATGGGGACCAGCCCGAAACGGGTGATGTATATCGGAACGCCTGACTCCCCTGCCCTGCTGATCGAATTCGGAGACGGGCGACAAGCCACCGTGAATCATCTTGGGGATAATTGTCCCTTTACCTTGGGGATAAAGAATGGCGACGGGGGCTTCAAGCAAGTCACCGCGAATTCGAATTTCTTTGCCTTGTTCATCGAGAATCTGGTGAATTTCTTCGAAACGGGCGAGCCTGCCGTCAACCCGGCAGAAACGGTCGCCGTCATCACGGTTATCGAGTATGGATTGAAGGCCGCTGACACCCCTTATGTGTGGGTGGATTTGCCTCAATAG	MKKIGFIDLHLDQFHANKYPGWIEQASEHAMKVMYAYGKRDKENGLTNAAWSKEFGIELLPTIEEVVERSDYLIVLSPDNPEFHEELSQLPLQSGKPTYIDKTFAPDRETAIRLFDLAAKHGTPMFSTSALRFASEYHELDRSDIQTISSWGPGAFANYSIHQIEPIVSLMGTSPKRVMYIGTPDSPALLIEFGDGRQATVNHLGDNCPFTLGIKNGDGGFKQVTANSNFFALFIENLVNFFETGEPAVNPAETVAVITVIEYGLKAADTPYVWVDLPQ				NA	NA	NA	NA	NA
AK002_00640	1083	iolG_1		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAACAAAATTACAATTGCCGTGATTGGCTGCGGCACGATTGCGAACAGTGCCCATATCCCCGCCTACATGGCCAACGAAGATGCCGAGATCAAATATTTCTGCGATATCTTGAAGGACCGGGCCGATGCCGCCGTCGCCAAATACGAATGCGGCCAAGCCATCGAAGATTACAACCAAATCCTGAACGACCCTGAGGTCGACGCGGTATCGATCTGTACGCCGAATGACGTCCATGCTTCCATCGCCATCGATTGCTTGCGGGCAGGTAAGCATGTATTATGCGAAAAACCGGCAGCCCGCACCTACGCGGAAGCGCTGGAGATGCAGAAGGTTCAGCACGAAACGGGCAAAACGCTCAATATCGGGGTGGTCAACCGATACAATGAAAGCGTAAACAGAATCAGAAAAATGATCCAAAACGGCGATCTTGGCGAGCTGTATCACGTATATGCCAGCTTCCGTTCCCACCGTTCGATCCCGGGTCTCGGCGGCGCCTTCACGACCAAAGCCATTGCCGGCGGCGGCGCGCTGATCGATTGGGGCGTTCACTTCCTCGATGTCGTGATGTACTGTACGGGCGATCCGAAGCCGAAGACCGTCTCCGGTCAGGCTTATTGCAAGCTGGGCAAAGACATGGAGAATTACACCTTCCTCAAAATGTGGGCAGGTCCGCCGAAATACGACGGCACGTATGACGTCGACGATTTTGTCACGGCCCTCGTCCGCACGGAAGGTCCGACCATTTCCCTGAACGGCGCATGGGCGCAAAATATCGGCGCCGAAGAAATGTTCATCGACTTCCTCGGCGATAAAGGCGGCATCCGGCTGAAATACGGCGCGGACTTCACCTTCTACACCACGGAGGACGGCGCATTGATCGAAACCACGCCGAAATTCAATCTCGGCAGCATGTTCCAGAATGAGATCGACGGGTTCATCCGCTGCATTCAAACCGGGGAGAAACAGCCTTCGCATATCGATACGGTCATCCTCTCCTCCCAGATCATCCAGGCGATTTACGACTCGTCCGACCAAGGCGCGGAGGTTTCGCTGCAGCCCGTTGCCCAGAACAGCCTATAA	MNKITIAVIGCGTIANSAHIPAYMANEDAEIKYFCDILKDRADAAVAKYECGQAIEDYNQILNDPEVDAVSICTPNDVHASIAIDCLRAGKHVLCEKPAARTYAEALEMQKVQHETGKTLNIGVVNRYNESVNRIRKMIQNGDLGELYHVYASFRSHRSIPGLGGAFTTKAIAGGGALIDWGVHFLDVVMYCTGDPKPKTVSGQAYCKLGKDMENYTFLKMWAGPPKYDGTYDVDDFVTALVRTEGPTISLNGAWAQNIGAEEMFIDFLGDKGGIRLKYGADFTFYTTEDGALIETTPKFNLGSMFQNEIDGFIRCIQTGEKQPSHIDTVILSSQIIQAIYDSSDQGAEVSLQPVAQNSL				NA	NA	NA	NA	NA
AK002_00641	948	araC_3		Arabinose operon regulatory protein	ATGGCTATTCACTGGCTGGAACCGGATATCGCCGAATGCACCCGAAGAGGAATCGCCTACTTTACGTCGGAGCTGGAGATGGCGAATGGCCTGCCCTGCAAAATGTACCGCATTACCGAAAAGTTCGGGAGTTTATCCGATCATATGCATGACTATCTTCAAATCTGGTATGTCAGCAAAGGCGAATTCATCCATACGCTCTATGGCCAAAAATACCGGATGGTCCAGGGCAATATATTCGTGCTCCCTCCTTATAGCGTCCATCGCGTGGAGATGATTCCCGGGAAAGAGCTCGAGGTGCTCGGGTGCGAATTCATGCCGGCCTTCATTAACGAACGATTGGAGGGAATGCCGGACGAGCCGCAGCTGTTCGACCTTTCCTTCATCAAGCCTTTTGTCACGACCGAAGACCGCGTCCCGCTCAAAATCACCTTGACCGGCGGCAGCGACCTCGCCGTAAAGGAACTCCTGACCGAAATGCTGAACGAGTTCGGAGGCCGGGGCCCATTCTTCGATATTCTGCTGAAGGCCAATCTGCTGAAGCTGCTGGCGATCGTGAACCGCGAGCATGCCGAGCAAGGCAAGCATATATCGGTAACCGCGGGCAGCGCCCCGTATCGGGAGCCCATATTGGAATCCGTTCAATATATCCACGACCACTTCGATCAGCCCCTGTGGCTGGAGGATCTCTGCGCGCGGACGATGATGTCGCGGACGAGCTTTTGCCGACGTTTCAAGGAAGTGACAGGCTGGACCTTCAGCCAGTACTTGGCCAACTACCGGATACGAATGGCGATGCGGCTGCTGACGGAGCCCGAGCTGACGGTAACCGACGTGTGCTTCAAGGTAGGGTTTAACGAGCTTCCCTACTTCTGCCGCATTTTCAAGAAATACACGGGCACGACCCCCGCTTACTATAAGAAGAACGCTTTTAAAACCGTGGACTAG	MAIHWLEPDIAECTRRGIAYFTSELEMANGLPCKMYRITEKFGSLSDHMHDYLQIWYVSKGEFIHTLYGQKYRMVQGNIFVLPPYSVHRVEMIPGKELEVLGCEFMPAFINERLEGMPDEPQLFDLSFIKPFVTTEDRVPLKITLTGGSDLAVKELLTEMLNEFGGRGPFFDILLKANLLKLLAIVNREHAEQGKHISVTAGSAPYREPILESVQYIHDHFDQPLWLEDLCARTMMSRTSFCRRFKEVTGWTFSQYLANYRIRMAMRLLTEPELTVTDVCFKVGFNELPYFCRIFKKYTGTTPAYYKKNAFKTVD				NA	NA	NA	NA	NA
AK002_00642	585	betI_1		HTH-type transcriptional regulator BetI	ATGCCACGCTCACCCAGCGAGAACGAACGCATACGCCAGATGGCAAAAGAGAAGATTTTGGAAACCGCCATGGATTTGTTTATCCATCAGGGGTACCATGCCACTTCCATTAGCGATGTAGCCAAGAAAGCCGGCACATCCAAAGGGCTGCTCTATAATTATTTTTCAGGCAAGGAAGGACTGCTTGCCGCTATGGTCGAGGAGCGAATCGCAAGCGTTGCCGAAGTCATGGAGAATTCCGCTTCACTCCAAGCACCTGCGGATCAGCTGAAATATATTTTGGAGCAAGCCATCGACAACGTCTATCAGCAGCCGGAAGTATTCCGTTTTTACTTGCATCTTCAAACACAGCCCGAAGCGGATCAAGAGCTGTTTCCCTACAGCAAGCGTCTTGTGGAAGAGGCTGCACGGCAATTTGAGATACAATGCCGCATATTCGAAAGTCTCGGAGTACCCGAGCCGCGCAAGCGCTCCTTGTACTTTTCTTCTACCCTTCAGGGCATCATGCTGATGATATCCACCTATCCCCTGCACTTCCCCATTGAAGAAGTGAAGGAGCAGATGCTGAAGGAGTTTTGCCCGTAA	MPRSPSENERIRQMAKEKILETAMDLFIHQGYHATSISDVAKKAGTSKGLLYNYFSGKEGLLAAMVEERIASVAEVMENSASLQAPADQLKYILEQAIDNVYQQPEVFRFYLHLQTQPEADQELFPYSKRLVEEAARQFEIQCRIFESLGVPEPRKRSLYFSSTLQGIMLMISTYPLHFPIEEVKEQMLKEFCP				NA	NA	NA	NA	NA
AK002_00643	750	menH_2		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	TTGGATCTGCACTATGAAGTTCATGGAAACGGTAAGCCCATCGTCCTTGTTCACAGCGGTGGAGCCGATCTGCGGGACTGGAGTTATCTTGTCCCTCTTTTAGCGGAGCATTTTTGCGTCATTGCCTTTGACGGTCGCGGAGCCGGACGCTCTCCCTCTCCCACGCAGCCGCCGAATTATGTTGAAGATTTGTTATCTCTTCTTGATCATCTGGATATTTCGCAAGCTGCGATTGTCGGTCATTCTATGGGCGGCCGGATTGCCACGGAGTTCGCGATCCATTATCCTGAAAGGGTATCGGAACTGATTGTCATAGCACCCGCCCTGTCCGGTTTTCCTTATTCTGAGGAAATGCAAACTTACATGCTCGGGGTAAGCGCCGCTGCCCCTGATATCGAGAAAATGATCGAGCTGTGCATTGAGCCGCCTTCTTATGAAATTACAAGGAACCGCGCCGAGCGGGAGCTGATGGTCCAAATGCTTCGCCATCATTTCGAGCGGTCATTTACCTGGTCCACCTTTGACTCGGTTTGGCCGGAGCCGCCGGCGATGGACCGATTACAGGATATCTCGGCCAGAACGCTGTTCATCATAGGAGATCATGAACTGACCGATAACCAGCAGGTAGGAGAACAATTTCGAAGGGTTCCGAGCATTCGATTTGCCACCATCGCCGGAGCGGATCACATGGTCACGCTAACGCATCCGGAGGAGTTATCCCTTCATATCACCCCATTCGTAAAGGAATGA	MDLHYEVHGNGKPIVLVHSGGADLRDWSYLVPLLAEHFCVIAFDGRGAGRSPSPTQPPNYVEDLLSLLDHLDISQAAIVGHSMGGRIATEFAIHYPERVSELIVIAPALSGFPYSEEMQTYMLGVSAAAPDIEKMIELCIEPPSYEITRNRAERELMVQMLRHHFERSFTWSTFDSVWPEPPAMDRLQDISARTLFIIGDHELTDNQQVGEQFRRVPSIRFATIAGADHMVTLTHPEELSLHITPFVKE				NA	NA	NA	NA	NA
AK002_00644	1980			hypothetical protein	GTGGCTCGTTATTTTAACGGTAAAGAAGTGGAACTGTTGGCTCCAGCCGGAACATTCGAGATATTCAAGACCGTCATTGGCGCAAACTGCGATGCCGTATATTTCGGGGGGCCATCGCTGAACATGCGCATGATGCGCAAGGGATACAACTTAAGTTATGAGGAGGTCCGCGAGGCCGTCCAATTGGCCCATGACCGCGGGAAGCGTGCCTACATTACAGTGAACAACCTGATGAATGAAGAGGACTTGGAGGAAGCGAAGCGCTACTTCGCCTTTCTGAACGAGATCGGCCCGGATGCCATTATCGCGCAGGACCTGGCCGTGTTTCCCCTGATCCAAGAGATGAATTACACGAATATTCCGGTTCACTCCTCGGTCATGATGAACGTGCACAACCTGGAAATGATCGAAGCGGTCAAAGCACTGGGCGTTTCCCGCATCGTGGCTTCCCGCGAAATGGATCTGAAAACGGCAGAGGTGCTGCAGGCCAAGAGCGGGATGGAGTTCGAGTATTTTGTGCACGGCGACATGTGCACGGTTCACGGGGCCAACTGCCTCTACAGCTCGATGCTGTTCGGCAACAGCTCTAACCGCGGGCGCTGCATGAAGCCTTGCCGCTGGGATTACCGGGTGAAGAAGGATGGTTATCTCTATCCGACCGAGTATCCGCTCGCGGCGAAGGATATGTACATGTACGAGAGCATTCCTGAGCTGATCAAGTCCGGCATCACCAGCTTCAAAATTGAAGGACGCATGAGAGACACCGAGTTTTTGCTGATGGTCGTGAATTCGTACGGAGACGCCATCGATCGTTATATTGCGGATCCGCTGGGCTACAATCGCGAGGCGGGGGCGGATACGCTGCATAAACATCGCAAGCGCGATTTTACGACGGCTTATGCCTTCGGCAAGCCGGGACTGGGCTTCATTAATCGCCGCTATGAGGGAACAGGCAAGTTTTACAGTACGGGGAAGGTGTTCAGTACGCCTACCGCCGAACGCGAGACGAAGGAGGAACGGGTGCTCCAGGTGAAGGAATCGCTTCGCCATGCGAAGCGGGAACGGCAGGGCACGTCGATTCCGCAAATTACGGTGCATGTCAACACGGTGGAGCAGGCCCGTGCGGCATTAGAAGAAGGAGCAGGCGTCATTTACCTGACGGGGGACGTATTCCAGCCGGATCGTCCGTTTGGCCGCGAAGACATCGAAGCCTTGACGGCGGATAAAGGGGACGCGGAGATTGTCCTTGGCATGCCCCGCATGATGAATGAGCTTCAGATGGAACAGTACCATCAGTTTCTCAGCGCAGGCAAGGAGTTTAACCATTATGGTCTGGACGGCCTGCTTGCGACCAACATCGGTGCCATGCACAAGTTTCAATCCATCGGGCTGCCGCTGATCGCCGATTTCAGCCTGAACATCTACAACCATATGGCGGCTTCGTTTTATCAGGACCATTTTGGCATATCCCGAATCAATCCGTCCCTTGAGCTTCAGCTCCATGATTTGACGAAACTGCTGCGCCATCCGGAGGTTCCCCTTGAGATCATCGTTCACGGATCGCCAATCGTCATGTATCTGGAGCATGATTTATACGCCAATGCCGCAGAGTTCGAGCCCATAGCGGAAGAGGACAACCGTTTCGTGGATAACCGCCATCTCGTGCTGCTTACGGATAAAGGGGAGAACCCCGTTTACCGGGACGCCGCAGGGCGCAACCACCTGGCGCTGGCGAAGGAGCTGTGCTACATGCCGATCCTGAAGGAGCTGTATGAAGCCGGCGTCCATCATTTCCGCATCGAAGGAAAAACGTATACGACCGAGCAGCTTCGCAGCCTGGTGCGGTTATATCGTCAAGCTGCGCTGAACCTGGATGCATGCGGCAGGCTGTATCAAAGCATGGCACCGGTATACGCCGGGTTCACGCTCGGTTCGCTCCAATTCGGCCATTCCCTGGAACTTGAGCTGACGGAAGCATGA	MARYFNGKEVELLAPAGTFEIFKTVIGANCDAVYFGGPSLNMRMMRKGYNLSYEEVREAVQLAHDRGKRAYITVNNLMNEEDLEEAKRYFAFLNEIGPDAIIAQDLAVFPLIQEMNYTNIPVHSSVMMNVHNLEMIEAVKALGVSRIVASREMDLKTAEVLQAKSGMEFEYFVHGDMCTVHGANCLYSSMLFGNSSNRGRCMKPCRWDYRVKKDGYLYPTEYPLAAKDMYMYESIPELIKSGITSFKIEGRMRDTEFLLMVVNSYGDAIDRYIADPLGYNREAGADTLHKHRKRDFTTAYAFGKPGLGFINRRYEGTGKFYSTGKVFSTPTAERETKEERVLQVKESLRHAKRERQGTSIPQITVHVNTVEQARAALEEGAGVIYLTGDVFQPDRPFGREDIEALTADKGDAEIVLGMPRMMNELQMEQYHQFLSAGKEFNHYGLDGLLATNIGAMHKFQSIGLPLIADFSLNIYNHMAASFYQDHFGISRINPSLELQLHDLTKLLRHPEVPLEIIVHGSPIVMYLEHDLYANAAEFEPIAEEDNRFVDNRHLVLLTDKGENPVYRDAAGRNHLALAKELCYMPILKELYEAGVHHFRIEGKTYTTEQLRSLVRLYRQAALNLDACGRLYQSMAPVYAGFTLGSLQFGHSLELELTEA	PGPT0021005_760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021005-PUTATIVE_PROTEASE-K08303	NA	NA
AK002_00645	1299	argD_1	COG4992	Acetylornithine aminotransferase	ATGAAACATGAAGGCCATACTCATATCGGTCCGGAAGCCGTCGCTGCCAAGCGCCGGCGGTACGGCTATCCTTGCACGGCGCATTTCTACAGCGAACCGCCCCAGATCGTCGGCGGCAAGATGCATACGCTTTACGGCCATGACGGCAAAGCTTATGTCGACTTTTTCACGGGCGTGTCGGTCGTTGCCTGCGGCCATTGCAATGAAGCCATTACGGCTAGAACGATCGAACAGCTGCAGACGCTGCAGCATACGTCAACCATTTACCTTACCCAGCCGATGGTGGACCTGGCGGAGCGGTTGGCGAACGGCGTTTTGCCCGGCAACTTAAAGCGAACGTTCTTTGTGAACAGCGGCTCCGAGGCGAATGAAGGCGCGCTGCTCGCCGCGCGTCTGCACACGAAACGCCGCAGCTTCCTGGCGCTGGAATACGGCCTTCATGGGCGCACCTTCCTGACCATGAACGTGACCGGCATCCCGATGTGGCGTGCCGACGATTTCCTGGATGAAGACGTGGCTGCGTTTATTCCGCGACCTTATGATCCTGGCATGGATCAGGATGCCGCTGCCCGCCGCTCCCTGGATGCCTTGGCGAGCGTGCTCGCTGCGAAGGGAGACAGCTTTGCTGCCATGATCGTAGAGCCGATCCAAGGCAACGGGGGAATGATCGCTCCGCCGGATTGGTATTTCCGCGAGCTGAAGGCGATGCTGGAGGAGCACGGAATTCTCCTGATTGCCGACGAAATCCAGACAGGCTGCGGCCGCACCGGACGCATGTTCGCAATCGAGCATTACGGCATCGTGCCCGATATTCTCACCATGGCGAAGGCCTTGGGCAATGGCGTGCCGATCGGCGCGTTCTGCACGACGGATGAGATCGCCGCCAGTCTGAATCGTCCCTCCGCCTCGACCTTTGGCGGCAATCCGGTATCATCCGCTACGGCGCTTGCCGTATTGGATTACATCGAGCAGGAAGGCTTGGTCGAACGTTCTCTGCGCATTGGCGGGCGGCTCATCGAAGGCTTGAGGGAGCTGCAGGGCCGGTACGAGCTTATCGCCGATGTCCGAGGCAAAGGGTTTATGGCCGGAGCCGAAATCCGGGGTGCGACCGACGAGGAGAGCGCAGCATGGACGGATATCATTCTGGAGCGCATGAAGGATGAAGGCTTTATTATCGGCAAAAATGGGGTGGGCCGAAACGTGCTGGCCTTTCAGCCGGCCATGATCATCCCGGAGGAAGAGATCGAGGCGATGCTCCGTGCCTTGGATAAGGTGCTGGCAGGGTTGTCCCAAACATAA	MKHEGHTHIGPEAVAAKRRRYGYPCTAHFYSEPPQIVGGKMHTLYGHDGKAYVDFFTGVSVVACGHCNEAITARTIEQLQTLQHTSTIYLTQPMVDLAERLANGVLPGNLKRTFFVNSGSEANEGALLAARLHTKRRSFLALEYGLHGRTFLTMNVTGIPMWRADDFLDEDVAAFIPRPYDPGMDQDAAARRSLDALASVLAAKGDSFAAMIVEPIQGNGGMIAPPDWYFRELKAMLEEHGILLIADEIQTGCGRTGRMFAIEHYGIVPDILTMAKALGNGVPIGAFCTTDEIAASLNRPSASTFGGNPVSSATALAVLDYIEQEGLVERSLRIGGRLIEGLRELQGRYELIADVRGKGFMAGAEIRGATDEESAAWTDIILERMKDEGFIIGKNGVGRNVLAFQPAMIIPEEEIEAMLRALDKVLAGLSQT	PGPT0001910_554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0001910-dgdA-K00827	NA	NA
AK002_00646	876	ubiA	COG0382	4-hydroxybenzoate octaprenyltransferase	ATGCAGATGATGTATAAAGTCGTTCATAAGACCAAAATGTTCGGAGAACTGGTGATGTTCTCCCACACGCTGTTCTCGCTGCCCTTTGCGATCATCTCCATGGTCTGGGCCGCCGGCGGCGTGCCGTCATGGCATGTCATGCTGTGGTCGTTGATTGCGCTGGTGGCCGCCCGCAACGGGGCCAATGCCTTCAATCGCGTAATCGATTTGAAGTTCGACGCGGCCAACCCGAGAACGGCGGACCGCCATATGCCAAGAAAGCTTCTGCTGCCTCGCGAGGTGTACGTATTTGTGGTCGTTAACTTTGCCATCTTTATTCTCGCGGCAGGCATGCTGAACCCGCTATGCTTGGGGCTATCACCGGCGGCGATCGTGCTGATCTGCACGTACTCGTACACCAAGCGCTTCACCTGGCTGTGCCATCTCTATCTGGGCTTCACGATCGCTTCGGCTCCGATCGGGGCATGGTTTGCCGTAACGGGGCAATTCGCTTTCATTCCGTTCATCATCGGTACCGTCGTCATGCTATGGATTGCAGGCTTTGATATCATCTACGCCACGCAGGATATCGAATTCGATCGCAGGACCGGCTTGTGGAGCATTCCCCGGGCGTTTGGATTAGAAGGCGGGCTGCTTATTTCCAGAGTGCTGCACGGGATTATGGTCATGCTGCTGCTTTCCCTTTACTTTATCCAAGGTTTGGGCTGGCTCTATTTGACGGGAATTGCCGTCTCGGTGCTGCTGCTGGCCGTGGAGCATCGCATGATCAAGCCTTCCAGCCGCAGGCGGATGCAGCTTGCCTCCTACAATCTGAATCAGGTGATTAGTCTGACGATTTTGCTGTTTACTTCGGCGGATCAGTTTTTGCTCGGATAA	MQMMYKVVHKTKMFGELVMFSHTLFSLPFAIISMVWAAGGVPSWHVMLWSLIALVAARNGANAFNRVIDLKFDAANPRTADRHMPRKLLLPREVYVFVVVNFAIFILAAGMLNPLCLGLSPAAIVLICTYSYTKRFTWLCHLYLGFTIASAPIGAWFAVTGQFAFIPFIIGTVVMLWIAGFDIIYATQDIEFDRRTGLWSIPRAFGLEGGLLISRVLHGIMVMLLLSLYFIQGLGWLYLTGIAVSVLLLAVEHRMIKPSSRRRMQLASYNLNQVISLTILLFTSADQFLLG	PGPT0009515_1733	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009515-ubiA-K03179	NA	NA
AK002_00647	1749			Cyclomaltodextrinase	ATGTTTCTGGAAGCCATCTATCACCGTCCGCGCAAAAACTGGTCCTACGCTTATAACGGCACGACCATCCATCTCAGAATCCGCACCAAAAAGAACGACATTACCGAAGTGTACGCCCTCGCAGGCGACAAGTACTTGTGGGATCAAACCATGGAATACATTCCGATGACCAAGCTGTCCTCGGATGAAATGTTCGACTATTGGGAGTGTGAGGCAACTCCTCCATACCGCCGCTTGAAATACGGCTTCCTGCTGCAGCAGGGCGACGAGAAGCGCTGGATGACCGAATATGATTTCCTGACGGAGCCGCCGGCCAATCCGGACCGCCTGTTCGAATACCCGTTCATCAATCCGGATGACGTTTTCCATCCGCCAGCGTGGGTCAAAGACGCGATTTTCTATCAAATCTTCCCGGAACGCTTCGCGAACGGGGATACGAGCAATGACCCGGAAGGCGCTTTGCCTTGGGGCAGTGCCGAACCGACGCCGAAGAACTTCTTCGGCGGTGACCTGCAAGGGGTTATCGACCATCTCGACCATTTAAGCGAGCTCGGCGTCAACGCGATTTATTTCACGCCGCTGTTCACGGCAACGACAAACCATAAATACGATACCGAAGACTATATGGAAATCGATCCGCAGTTCGGCGACAAGGACACGCTGAAGAAACTCGTCGATCTGTGCCATGCGCGCGGAATCCGCGTTCTGCTGGATGCGGTCTTCAATCATTCCGGCAGAACGTTTGCTCCGTTCGTCGACGTTCAGAAGAACGGTTTGAACTCCAAATACAAGGATTGGTTCTACGTTCGCTCCTTGCCGCTGGAAGTAGTGGACGGCATTCCGACTTACGATACGTTTGCGTTCGAGCCGCTGATGCCGAAGCTGAATACGGAGAATCCGGAAGTCCGGGCTTATCTGCTTAAGGCTGCGGAGTACTGGATCAAGGAAACGGGCATCGACGGCTGGCGCCTGGATGTGGCCAACGAGGTGGGACACAGCTTCTGGCGCGAATTCCGTCAAGTCGTAAAAAAAGCCAACCCGGATGCTTACATCCTTGGCGAAGTGTGGCATGAATCCTCCATCTGGCTGGAAGGCGACCAGTTCGACGCCGTCATGAACTACCCGTTCACCAATGCCGTACTGGATTTCTTCATCAACCGTACCGCCGATGCCGAGAAGTTCTCGTTCATGCTCGGCAAGCAGCTTGCCGGCTATCCAAGACAGGCCAGCGAAGTGATGTTCAACCTGCTGGACAGCCATGACACCGCAAGACTGTTAACGCAGGCGAACGGCGACAAACGCCTGATGAAGCTGGCCGCCATGTTCCAATTCACGTACTTCGGCACGCCTTGCATCTATTACGGCGACGAAATCGGCATGGACGGCGGGCACGATCCGGGCTGCCGCAAATGCATGGAATGGGACGAGTCGAAACACGACAAAGACCTCTTCCATTTCTACCAAACGCTCATTAAGCTCCGCAAAGAGCATTCCGCTCTTCGCACGGGAACCTTCAAATTTTTGAAGGCCGAGAAGAACGGGGGCAAAATCGCTTACCTGCGCGAGGACGACAATGAAACGATCCTTATTGCCGTCAACAACGACAAAGCGGGCAACACAATGACAATCCCTGTGCTGGACCGCCAGTGGACGAACCTGTGGAACGGCGAAGGCCTCAGCGCGAAGCAAGGCCAGCTGACCGTGAAGCTGCCTGCTTACGGCTTTGCGATCTTGAAAGCCGGGCAATAA	MFLEAIYHRPRKNWSYAYNGTTIHLRIRTKKNDITEVYALAGDKYLWDQTMEYIPMTKLSSDEMFDYWECEATPPYRRLKYGFLLQQGDEKRWMTEYDFLTEPPANPDRLFEYPFINPDDVFHPPAWVKDAIFYQIFPERFANGDTSNDPEGALPWGSAEPTPKNFFGGDLQGVIDHLDHLSELGVNAIYFTPLFTATTNHKYDTEDYMEIDPQFGDKDTLKKLVDLCHARGIRVLLDAVFNHSGRTFAPFVDVQKNGLNSKYKDWFYVRSLPLEVVDGIPTYDTFAFEPLMPKLNTENPEVRAYLLKAAEYWIKETGIDGWRLDVANEVGHSFWREFRQVVKKANPDAYILGEVWHESSIWLEGDQFDAVMNYPFTNAVLDFFINRTADAEKFSFMLGKQLAGYPRQASEVMFNLLDSHDTARLLTQANGDKRLMKLAAMFQFTYFGTPCIYYGDEIGMDGGHDPGCRKCMEWDESKHDKDLFHFYQTLIKLRKEHSALRTGTFKFLKAEKNGGKIAYLREDDNETILIAVNNDKAGNTMTIPVLDRQWTNLWNGEGLSAKQGQLTVKLPAYGFAILKAGQ	PGPT0012200_650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
AK002_00648	261			hypothetical protein	ATGCAATACGACGATCAGATGAAAAACCGGATCAAGCGGATTGAAGGACAGCTTCGCGGCATTTTGAAGATGATGGAGGAAAACAAGGACTGCAGGGAGGTCATCACGCAATTATCCGCTTCGCGTACGGCAATCGACCGGACCATTGGCGTTGTCGTAAGCTCCAATCTGGTGGACTGCGTGCGCAAGGCCGAAGCGAACGGCGAGGATACGGAGAAGCTTGTGCAGGAAGCCGTTAATTTGCTCGTAAAGAGCAGGTAG	MQYDDQMKNRIKRIEGQLRGILKMMEENKDCREVITQLSASRTAIDRTIGVVVSSNLVDCVRKAEANGEDTEKLVQEAVNLLVKSR	PGPT0004175_2138	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK002_00649	1014	yfmJ	COG2130	Putative NADP-dependent oxidoreductase YfmJ	ATGTCCGTGAATGAACGAATTATACTAGCCAAGCGGCCGCAAGGCATGCCGGAGGAATCGGATTTTACGTTTGAGGAGCAGCCTTTGCCCGTACCTCAAGCCGGAGAAGTCCTTGTACGGACCGTATACTTATCGGTGGACCCGTATATGAGGGGCAGAATGAGCGATGCCAAAAGTTATGCCAAGCCATATGAGGTAGGGCAGGTTATCGCCGGAGGCGCAGTAGGGCAGGTCATGGAATCGACGGATCCGACCTACCGGGAGGGCGATTTTGTTGCAGGCACCTGGGGCTGGCAGCGCTTTGCCGCCGTTCGCACCGGGACGCTGCGCAAGGTCAACCCGGATCTGGCACCCGTCTCGACCGCGCTGGGCGTGCTGGGGATGACCGGTTTGACGGCTTATTTCGGACTCCTGGATATCGGTCAGCCGAAGGAAGGGGAGACGGTGGTTGTATCGGGCGCCGCTGGCGCCGTTGGCATGATTGTCGGGCAGATTGCCAAGATCAAGGGAGCCCGGGTGGTCGGTATTGCCGGTTCTGACGAAAAGACCGGATACCTGACCGGGAAGCTCGGCTTTGACGTTGCGATCAATTACCGGACCGAAGATGTGGCTTCGGCTTTGGCGGAAGCTTGTCCGGGCGGGGTGGACGTCTATTTTGACAATGTCGGCGGCGAGGTGTCGGATGCGGTTCTGCGCCTGATCAACAAAAATGCGCGGATCCCGATTTGCGGCCAAATCGCGCTCTATAACCTGGAGAAGCCGGATACGGGCCCAAGAATCCAGAGCCTGCTGCTGACCAATACGGCACTGATGAAGGGCTTTCTGGTCGGCGATTACGCCAGCAGGTACAATGAGGCGCTGCAGGAGCTGGCCGAATGGCTAAGGGATGGCAAGATTCAGTACACCGAGAATATCGTCGACGGCTTCGACAAGACGATTGAGGCGTTTCTGGGGCTGTTCTCCGGAGAAAATCTCGGGAAACAGCTGGTGAAGGTAAGCGAAGAACAAAGCTGA	MSVNERIILAKRPQGMPEESDFTFEEQPLPVPQAGEVLVRTVYLSVDPYMRGRMSDAKSYAKPYEVGQVIAGGAVGQVMESTDPTYREGDFVAGTWGWQRFAAVRTGTLRKVNPDLAPVSTALGVLGMTGLTAYFGLLDIGQPKEGETVVVSGAAGAVGMIVGQIAKIKGARVVGIAGSDEKTGYLTGKLGFDVAINYRTEDVASALAEACPGGVDVYFDNVGGEVSDAVLRLINKNARIPICGQIALYNLEKPDTGPRIQSLLLTNTALMKGFLVGDYASRYNEALQELAEWLRDGKIQYTENIVDGFDKTIEAFLGLFSGENLGKQLVKVSEEQS	PGPT0023605_670	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_CURCUMIN_RESISTANCE	ADAPTION_TO_PIS-CURCUMIN_DEGRADATION,PGPT0023605-curA|yncB-K23256	NA	NA
AK002_00650	492			hypothetical protein	GTGGTTAATTTCGATTCCCCAATTCTTCAGATAGGCTCTACGATCGCGATGCTGGTTATGGCGCTGGCCGTTATTTTCATTCGAATGAAGGCGAGCAACCGTCCCGTAACCGTCAAGAAGATTATCATCCCTCCCGTAGCGATGAGCACCGGATTTCTGATGTTCGTTGAGCCGCAGGTACGCATCCCTTTATGGTGGGCAGGGATCGCCTTTTTGGTAGGCTGGTTCATCTTCTCGTACCCATTGATCCGCAGCACCAAATTCGAGAAGGTCGACGGCCAGATCTTCATGCAGAGATCGAAAAGCTTCGTGTACATTCTGCTTGGCCTGCTGGCCGTCAGGCTCCTGCTCCATGGATATATTGAACAGCATATTTCCATCCCGCAGACCGCGGCGCTGTTCTTCATGCTGGCTTACGGCATGATTGTCCATTGGCGCATTTCGATGTACCGCCAGTATCAGCAGTTCATGACGCCGGAGGCGGCGATGTAG	MVNFDSPILQIGSTIAMLVMALAVIFIRMKASNRPVTVKKIIIPPVAMSTGFLMFVEPQVRIPLWWAGIAFLVGWFIFSYPLIRSTKFEKVDGQIFMQRSKSFVYILLGLLAVRLLLHGYIEQHISIPQTAALFFMLAYGMIVHWRISMYRQYQQFMTPEAAM				NA	NA	NA	NA	NA
AK002_00651	576			hypothetical protein	ATGAGTCCAAGACCCGGCATCGATCGACTTCAACTGCTTCAAACCGCTGCCGAATTAGCGGATCGGGAGGGACTTCACGCGGTGACCCTGGCTGCGCTTGCAGCCAAGCTGGGCGTTCGCTCCCCTTCCCTGTATAACCACGTAGACGGGCTTTCCGGTCTGCATGCCGCCCTGATGCGGCATGGTCTCCAGACGCTCCATGACCAACTGCTTAAGGCTGTCGCCGGCCGGTCGGGCGAGGATGCCCTGCGCCTTGTGTGCCTTACTTATGTCGACTTTGCTCGAACACACCCCGGATTGTACGAAGCCGCATTGCAGCCGGTCCGTCCCGAAGAGCAGGAGACGCAGCAAGTAGGGAATCAGATTGTCGAGCTGCTGCTTCAAATCCTGGCCCCTTACCAGCTCAGCGAGGCGGAAGCGTTGCATGCCGTACGGACCCTTCGCAGCCTATGCCACGGCTTCTCTTCCCTGGAACGCGCGGGCCAATTCGCCATGGATCTGAGTGTTGACGACAGCCTGGATTTCATGATCCGGAGTTTCGTCACCGGGCTCCATCTTCAAGACGGACGGCGCTAG	MSPRPGIDRLQLLQTAAELADREGLHAVTLAALAAKLGVRSPSLYNHVDGLSGLHAALMRHGLQTLHDQLLKAVAGRSGEDALRLVCLTYVDFARTHPGLYEAALQPVRPEEQETQQVGNQIVELLLQILAPYQLSEAEALHAVRTLRSLCHGFSSLERAGQFAMDLSVDDSLDFMIRSFVTGLHLQDGRR				NA	NA	NA	NA	NA
AK002_00652	720	yflN_1	COG0491	putative metallo-hydrolase YflN	ATGTTAAGAACGACGATTGAACAGGTGACTCAAATTTCTTTTCTTCCTCGCCTTTTTCCGATCAATGTTTGCCTTGTAGAAGAAAGCGACGGGTTTACCCTCATCGATGCAGGGATGTCATTTTCCCAAAAGGGAATCCTGCAGGCTGCAGCCGATATCGGAAAACCCATTAAACGGATCGTGTTGACCCATGCTCACGGCGACCATGTCGGTGCGCTCGACGGGTTAAAGAAGGAGCTTCCGAATGCCTCGGTCTGCGTCTCGCGGCGCGATGCGCTGCTGCTGAAAGGGAATGCCGAGCTCCAGCCCGGAGAGCCGCAAACGCCGATACGCGGGGATATCCCGAAGAACATTACCACCGTTCCGGACGTTCTCCTGGAGGACGGGGACTCCATTGGTTCCCTCAAGGCCATCTCGACTCCAGGCCACACGCCCGGACATATGGCCTTCCTCGATGAGCGCAGCGGCATCCTGATTGCCGGCGATGCTTGGCAGACGCGGGGCGGATTGGCCGTATCGGGCGTCCTCAAACCATGGTTTCCGTTCCCTGCCATGGCCACCTGGAGCAAGGAGCAGGCCTTGGAAAGCGCCGGAATGCTTACCGCGCTCAAGCCCGCCGTTCTGGCTGTCGGCCATGGACGGATGCTGAGAAATCCGGCGGGTGCCATGCAGCAGGCCGTTGCGGAAGCCGAATCAACGTTCAGGAGGAATGCACGATGA	MLRTTIEQVTQISFLPRLFPINVCLVEESDGFTLIDAGMSFSQKGILQAAADIGKPIKRIVLTHAHGDHVGALDGLKKELPNASVCVSRRDALLLKGNAELQPGEPQTPIRGDIPKNITTVPDVLLEDGDSIGSLKAISTPGHTPGHMAFLDERSGILIAGDAWQTRGGLAVSGVLKPWFPFPAMATWSKEQALESAGMLTALKPAVLAVGHGRMLRNPAGAMQQAVAEAESTFRRNAR				NA	NA	NA	NA	NA
AK002_00653	192			hypothetical protein	ATGGATATGTTCAAACGCATCGTACTTCTGATGGTGATGTATGCCTTCTCCGCAGTGCTGCTATACGTAGCCAGCCAGCACACGCCATATCTGCTTCCGGTCATCTGGATCTCCGCTCTGATGCTGTTGCTATGCGGCATCGGTTATCTGGGATACCATTATTTCTTTAAAGGACGCAGAAGACGAAGTTAA	MDMFKRIVLLMVMYAFSAVLLYVASQHTPYLLPVIWISALMLLLCGIGYLGYHYFFKGRRRRS				NA	NA	NA	NA	NA
AK002_00654	531	sigV_3	COG1595	RNA polymerase sigma factor SigV	ATGTTGGAAACTAAAGAGCTGGCGGCTGCGGCATGCAGGGGAGACGAGGAAGCGTTCTATGCACTCGTCACCGAGCATCGGAGGCGTCTATACGGAATTGCGTACAGTTATCTGCATAACGAGAGCGACGCTTTGGAGGCACTGCAGGAGACGGTATGCCGGGCGTGGATGAAATGCCGGAAGCTGAAGCATCCGGAGGCGTTCGTCCCTTGGCTCATTCGGATATTGATTAACTGCTGCGTGGATGAACAGAAACGGAAAAAGCGCATGGTTCCCGTAGAAGAAGTGCGCAGCCGGGAGACGGCTGCGGAAATGGTCAGCGACAGCAAGCTGGATTTGGAGCGCGCGCTGAGCCGCATGAAGCCCAAATATCGCCATGTGCTGATCCTGAAATATTACCAGGACATGACGATCAGCGATATCGCGCATATTCTCGATGTACCGGAGGGAACGGTCAAAACCCGGCTGCATCAAGGACTAAAGCTGCTTCGGCAAAAAATCGAGCCAGGAGGTGCGGTATTCCATGTATGA	MLETKELAAAACRGDEEAFYALVTEHRRRLYGIAYSYLHNESDALEALQETVCRAWMKCRKLKHPEAFVPWLIRILINCCVDEQKRKKRMVPVEEVRSRETAAEMVSDSKLDLERALSRMKPKYRHVLILKYYQDMTISDIAHILDVPEGTVKTRLHQGLKLLRQKIEPGGAVFHV	PGPT0014960_9819	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00655	1398			hypothetical protein	ATGTATGAGAAGGAAGAGCGGATGCTGAACGAGATGAATAGGGATGCGGAGATCTACACGGCGGTTGTGTCCGATGAAGCATTGGATGCGGCTGTTCGAAGCGGAATGCGGAGAGGACGGCGCATGCAGCGGAGCCGGACGCGGATGGCTGCCTTTTCTGCCGTGATCGCAACCGTAGCTGCCGCACTGCTGTTCGTGGTATGGGGCGGGGATGGAGGCATCGTGGAGCCGAAGGAGCAAATGGCCGCGCAAGGGCCGTATCCGCCATTGACCGGGTTTGATCTCGGAGAAGATATTACGCTGAATACGGCTAACCAACACGGCATGATCCAGCCGGTGAATCAATCGGTGACCCGGGGGGATTATACGGTAACGCTGAACGGGATCCTTGTAGGCTCCCAGCAGATGGAGGTGTTTTATACGATCCAAAACGATGCGGGGTATCACGCAGACCTAAAGCGGGTCGAGATGAAGCGTAAGGGCTCCAGCCAGTCGCTGCCATACAGCATCGGGTCGTCGGGTGGAAGCCAGATTAAGCCCGGGCAAACGTTCCGTTCCCGATCGGACATTCATATGGGCGAGAACCAATCCGTGCCTGAAGAAATGACGTTATCTTTTAGCATCGCCCCCTATACAACGAATACGGTGCATCAATCCTCGGCAGAGGGCGAGCAGGTTCTGGATATCGACGTATCCGTTGATATGGAGACCGTCCAGAAGTTTACCCGCACGATTCCGCTCAACAAAATGCTGCAGATTGAGAGTCAAAGGTTCTATTTGAAGGAAGCCGTGTTATCCCCTGCCGGAATCGTCCTGAAAGCGAACATCCCTTCCAGCAATACGATGAAGGTATCCGGTTTATGGGACGTGTATTTGGAAACCGTGGTTAACGGCGAGCAGATCCGATTGAACAGCGATTCCGCATTTTTGCCCGGTGCGGGGGGAGGGGACATGACGTATTTCTTCGACAGCAATATACTGGAGAATCCGGAGTCGATCACGCTGAAAGCGAGCGGATTCCAAGCGGTGGACCCCTCCGAGATGTCACTTGTGATCGATACGGATAAGAAGGAGATTCTCCGTGCACCGGACGGCGATCTTCGATTCGGAGCATACACGGGACATACGCTGACAGTGGAATACGAGGAGCGGGCTGACCGGCATATGGGCAGCGTATCGATTGAGCCGGAGTTCGTGGACGGGGAAGGGAAGAAGCATACGATCAACGAGGACGCAGGGGGGCTCAGTTCCTCGTCCCGATCCTCTTCGGATACCGGGATAAGCCTCATCACGCAGTATATCCACCTTAAACCCGGGGATTACCCGCAGCCGCTCACGTTTACGTTAAGCAGCTACCCTGGCGTCATGGAGCAGACATTCGAGGTGCCGATTCGATGA	MYEKEERMLNEMNRDAEIYTAVVSDEALDAAVRSGMRRGRRMQRSRTRMAAFSAVIATVAAALLFVVWGGDGGIVEPKEQMAAQGPYPPLTGFDLGEDITLNTANQHGMIQPVNQSVTRGDYTVTLNGILVGSQQMEVFYTIQNDAGYHADLKRVEMKRKGSSQSLPYSIGSSGGSQIKPGQTFRSRSDIHMGENQSVPEEMTLSFSIAPYTTNTVHQSSAEGEQVLDIDVSVDMETVQKFTRTIPLNKMLQIESQRFYLKEAVLSPAGIVLKANIPSSNTMKVSGLWDVYLETVVNGEQIRLNSDSAFLPGAGGGDMTYFFDSNILENPESITLKASGFQAVDPSEMSLVIDTDKKEILRAPDGDLRFGAYTGHTLTVEYEERADRHMGSVSIEPEFVDGEGKKHTINEDAGGLSSSSRSSSDTGISLITQYIHLKPGDYPQPLTFTLSSYPGVMEQTFEVPIR				NA	NA	NA	NA	NA
AK002_00656	210			hypothetical protein	ATGCTCAATTTCATTTCTGTACTGCTCATGGGTCTTGCGCTCATGGGAATCGGCATACATGCCATCCGCAATCCGTACTCTTGGTGGTTCAGAAGAACGAGAGATGACACGGAACCCAGCGATCTGAGAATATGGTACTTAAAACTTATGGGTAGAGTAACCATGGCGTTCGGCGCATTGGTCATTCTGATGAGCTTTCAGCATCTCTAA	MLNFISVLLMGLALMGIGIHAIRNPYSWWFRRTRDDTEPSDLRIWYLKLMGRVTMAFGALVILMSFQHL				NA	NA	NA	NA	NA
AK002_00657	411			hypothetical protein	ATGGAAACGAACTCGGCAATTCAAGTCCAATTCCACTGCCGCCAGTGTCAAACGGAAATCGGGGTTACGTTCACATCCGAACAGTTCGCCACGGTTCACTGCCCGCAGTGCGATTACAGCTATTCACTCATGCGACCGACCATTGGGGAAGAGATATTGCTTGATTGGGAGAAAGAAGCCGTATTCCAAAAAGTCCGCGCAGACCAAACCGAGCATGACAAAATGGAGCTGATGCTCCTCGTCATTAAGGTCGTCGAGCTGCTGACCTGGCGGGATGAAGGCAACGGCCATATCCGTGCCATCGAAACGCTTCGCCAATGGCTGATCCTCAACGGAGTGCCCAAAGCTCTGATCGAGCTGCTGGATGCTAAAGGACCGGCAGGAAGCTCCCCCACCGAACGCAGGGAATAG	METNSAIQVQFHCRQCQTEIGVTFTSEQFATVHCPQCDYSYSLMRPTIGEEILLDWEKEAVFQKVRADQTEHDKMELMLLVIKVVELLTWRDEGNGHIRAIETLRQWLILNGVPKALIELLDAKGPAGSSPTERRE				NA	NA	NA	NA	NA
AK002_00658	387			hypothetical protein	ATGGGGATTAAATTAATCAAAATCGCTGCTGTTTACTTCGTGCTCGGTGTGCTGCTCGGCATGTACATGTCGATCACCCACAGCTACGATTACGCCTCGGTACACGCACACGTCAATCTTCTGGGCTGGGCGTCCCTGGCTCTTGCAGGCGTTATTTATGTTCTGTTCCCGGCTGCCGGGGAGTCCACTGCCGGCAAAGTGCATTTCTGGCTGCACAATATCGGTCTGCCCGTCATGATGATCGGTCTTGCCCTGCTAATGAGCGGCATCGAATCGGTAGAGCCGGTCGTTGCCGTGGGAGGCGTTCTTGTAACGCTGGGCGTTCTCGCTTTCCTCTATAATGTGTTCACCCATGTAAAGATCTCGCAGAGTAGAAGGAAACGCTGA	MGIKLIKIAAVYFVLGVLLGMYMSITHSYDYASVHAHVNLLGWASLALAGVIYVLFPAAGESTAGKVHFWLHNIGLPVMMIGLALLMSGIESVEPVVAVGGVLVTLGVLAFLYNVFTHVKISQSRRKR				NA	NA	NA	NA	NA
AK002_00659	1161			hypothetical protein	TTGAAGAAAAAACTCAGCCTACTGGCTATCGCTTTCCTGTTCTTGTTCGCAAGCGCGGCCCAAGCCGCTCCGGCTAAGGATCAAGGGAAAATCCGGGTCTATCTCGATAACCAGGAAATTCAATTTGCGGCGGCGCCGATCATGAAGAACGGAGTCACCTTCGTTCAATTCCGCCCTTTGTTCCAAGCCCTGGATTATAAGGTCCATTGGAACGGCGCGAACAAGCAGGTGACGGGTACATATCTCGATCAGAAGCTGCAGATGACGATCGGGCAGAAAACCGCCTATGTCAATGGCGCAAAAACCACGCTGCAGATCGCTCCTTTCACTCAAGGCGGCAACACGCTGGTTCCCCTTCGTTTTGTGGCTGAAGCCACCGGACTCCCGGTAAAGTGGGATTCCAAGGCGCGTACCGTCAAGATTGACCGCGAGGGTGCGACGGCCAAAGCCGAAGACGAGGTGAAGAAGCTTTACCACATCATTGAAGAGGCCGGAAGCGGCAAGAATCTGGACGAAGTTATGAGCGTATTCCACCCCGAATCTCCCGTTCTTGCGGAGGTTAAGCAAAACTATCAGGATCAATTCAAGAACGACAATCATGTATCCGCGGACGTATGGGATGTAGCGGTAGCCGGAACGTCGATCCATGCCTACACCAGTGTGAGCCTAGACCGCATCGGCGGGCCGTTTGCATGGGATGTTACGCTCCATTACGAGAATCTCCTGAAGAAGGATGCGTCGGGCGCATGGAAAATCTATGATTTGAACCTGTACGAGACAGAATATTTCCTCGGAGACAAACTGCTTGAAGCTCGTCCCGTAGTGCCGGAAGCAGAGCAGAAAGCCATCGTGGAGTCCATCGACATTCAGTACAAGGGCTTCAATGAGGAGAATGGCCCGCTGCTCATGTCCGTCATTCACCCGGACTCGGTCTTCCACGAGATGTTCCAAACCAGCATTGAGGAAGGTATCTTCGATGAGGTGAATTTCAATCTCAAATCAGAGGATCTCCGGACGGTCTTCTTCCAAGGAGATGACGCCGTCGTTTATGCCGAAGAAAGCGATGATGCGGACGGCGAAACGATCTATTCGACGTCGCTCTATTGGCTCAAGAAAACCGAAGGCAAATGGCTGATCTATGACGTGCTGGAGCTTGAATAG	MKKKLSLLAIAFLFLFASAAQAAPAKDQGKIRVYLDNQEIQFAAAPIMKNGVTFVQFRPLFQALDYKVHWNGANKQVTGTYLDQKLQMTIGQKTAYVNGAKTTLQIAPFTQGGNTLVPLRFVAEATGLPVKWDSKARTVKIDREGATAKAEDEVKKLYHIIEEAGSGKNLDEVMSVFHPESPVLAEVKQNYQDQFKNDNHVSADVWDVAVAGTSIHAYTSVSLDRIGGPFAWDVTLHYENLLKKDASGAWKIYDLNLYETEYFLGDKLLEARPVVPEAEQKAIVESIDIQYKGFNEENGPLLMSVIHPDSVFHEMFQTSIEEGIFDEVNFNLKSEDLRTVFFQGDDAVVYAEESDDADGETIYSTSLYWLKKTEGKWLIYDVLELE				NA	NA	NA	NA	NA
AK002_00660	1074	pgl_1	COG2706	6-phosphogluconolactonase	ATGACAGCAGGACAGGAACTGATATTTTACATAGGAACCTATGGTTCGGAAGAAGAGAATCGCATTCATTGGGGGGCGATGGATCGGGCTACCGGCGAGCTGCGCCTGTTAGGCGGTACGGCAGGCATCGAGAACCCGACCTATCTGGATTTCGATGACTCGATTTCCGTATTGTATGCAGCAAGCGAGAAGGGCGAAAGCGATGTGTCGGCTTATTCGGCCAATCTGGTCACCGGCGAATTGACGCTGCTGAATGTTCAGTCTACCGGCTCGTCCGGCGCTTGTCATGTATCCCGCACAACGGACGGGAAGCATCTGCTCACGACAGGGTACGGCGATGGACAGATTTCGGTGCTGGCATTGAATCAGGACGGACGGGTCGGCGAGCTGGCCTCCAAGATCAAGCACAGCGGACGCGGCCTTCGCGATGACCGTCAATCGGAGGCGCATCCCCATTCGATATTCCAAGACCCGGTCAACAAGTATATCCTGGTCAGTGACCTGGGTATGGATGACGTGATTGTGTACCGGCTGGAAGACGGGAAGCTGGTGACCCACCGCGAGATCAGCCTGCCGCCAGGCTCCGGCCCGAGGCATGTGGCTTTTCATCCGTCAGGCAAGTGGGTATACGGCACGAACGAGCTGAACAGCACGGTAACGGCATACGCGAACGACGCAACGTTCGGGGATCTGAAAATATTGCAGCATATCTCGACCTTGCCAGAGGACGTCGTGATGGATAGCAATACATCGGCCCATCTGTTGGTATCTCCTTGCGGCCGTTACCTGTATGCCTCAAATCGGGGACATGACAGCATCGTCCAATATGTAATCGACCAGGAAGCCGGTACGCTCCGTGCCGTCAACTGGGTGTCTTCCGGCGGCAAAACGCCGCGCCACTTCAATATACTGCCGGATGGCTTCCTGCTTACGGCGAATCAGGATAACGGATTGATCGCAAGCTTCCGGATCGACCCGGATACGGGAAATCTGGTCTCTACGGGCTATACGTTGGAAGTCACGCGCCCGGTGTGCATTTGTCCCGTGGAGAAGGCCAAAGCAAACAAACGTTAA	MTAGQELIFYIGTYGSEEENRIHWGAMDRATGELRLLGGTAGIENPTYLDFDDSISVLYAASEKGESDVSAYSANLVTGELTLLNVQSTGSSGACHVSRTTDGKHLLTTGYGDGQISVLALNQDGRVGELASKIKHSGRGLRDDRQSEAHPHSIFQDPVNKYILVSDLGMDDVIVYRLEDGKLVTHREISLPPGSGPRHVAFHPSGKWVYGTNELNSTVTAYANDATFGDLKILQHISTLPEDVVMDSNTSAHLLVSPCGRYLYASNRGHDSIVQYVIDQEAGTLRAVNWVSSGGKTPRHFNILPDGFLLTANQDNGLIASFRIDPDTGNLVSTGYTLEVTRPVCICPVEKAKANKR	PGPT0014975_1272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014975-ykgB|pgl-K07404	NA	NA
AK002_00661	660	sleB_1	COG3409	Spore cortex-lytic enzyme	TTGATCACGATAAGAAAGCCAATACGGAAAATCATATCTGCTTTTTTCCTTAGTGTTCTTCTGATCCTGCCGACATTCGCCCAAACGACGGAGGCCGCTCCGCTGTTAAAGCCCGGCAGTGAAAACGGGGATGTCTGGGACCTTCAATATCGCCTGAAAACGCTGGACTTCTATAACCAGCCGCTGGATGGCAAATATGGCGCAAACACGAAAGCAGCCGTTAGCCGTTTTCAAAAAGAATACGGCGTGCCAGCCGATGGAATTACCGGTGCGCAAACCTGGAGACAGCTGAAAAAATATACGTTGAATCAATCCGAAATGGACGTCATGGCCAAAGTCATTTACAGCGAAGCCCGCGGTGAGCCGTACAAAGGGCAGGTTGCGGTCGGGGCCGTTGTCATGAACCGCATTCAATCCAGCGAATTTCCGAATGACATTCGGGGCGTCGTCTTTCAAAAAGGGGCTTTTACGGCCGTGGATGACGGACAGTACTGGCTGACGCCGAACCGTTCCGCCTATCTTGCCGCATTGGATGCCGTTCGCGGCTGGGATCCGACTTACGAATCCCTGTATTATTTCAACCCTAAAACCGCAACCAGCGACTGGATCTGGTCCAGGCCGCAAGTGCTGCAGATCGGCAATCATATTTTTGCTCATTAA	MITIRKPIRKIISAFFLSVLLILPTFAQTTEAAPLLKPGSENGDVWDLQYRLKTLDFYNQPLDGKYGANTKAAVSRFQKEYGVPADGITGAQTWRQLKKYTLNQSEMDVMAKVIYSEARGEPYKGQVAVGAVVMNRIQSSEFPNDIRGVVFQKGAFTAVDDGQYWLTPNRSAYLAALDAVRGWDPTYESLYYFNPKTATSDWIWSRPQVLQIGNHIFAH	PGPT0024010_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0024010-lytF|cwlE-K19223	NA	NA
AK002_00662	1077	sbp	COG1613	Sulfate-binding protein	ATGAAAAAGGTGTTGAAGCAAGGGGTTCTCATCGGATTAACAGTCATGCTGACGGCGGCGCTGACGGCTTGCGGCTCACAGAAAACAGAAACGGCCGCAACCGCCGGGGATGCAACGCCTGCTTCGGGTTCAAGCAAGCCGAGCGTGGAACTGCTTAATGTTTCTTACGATCCGACCCGGGAGTTATACGATCAGTACAACAAGGCATTCGCGGCGCATTGGGAGAAGGAACAAGGCCAGAAGGTGACGTTTAAGCAATCGCACGGGGGTTCGGGCAAGCAAAGCCGTTCGGTTATCGACGGTTTGGAGGCGGATGTGGTGACACTGGCCCTCGGATACGATATCGATGCGATCCGTCAGGCCGGATTGATCAATGAAGGCTGGGAGAGCAAGTTTGAGCATAACAGCGCGCCTTACACCTCGACCATCGTTTTCCTCGTCCGCAAAGGGAACCCGAAAGGCATCCAGGATTGGCCGGATCTGGTCAAGGATGGCGTGGAGGTCATCACGCCGAACCCGCAAACCTCCGGCGGTGCACGATGGAACTACCTGGCGGCATGGGGTTATGCGCTCAAGGTTAACAACAACGACGAAGCGAAGGCGCAGGAATTCGTGAAAGAGCTGTTCACCCACGTGCCGGTGCTGGACAGCGGCGCACGGGGAGCGACAACCACCTTTGTGGAACGCGGAATCGGGGACGTGCTGCTGGCTTGGGAGAATGAAGCCTATCTCTCGATTAACGAGCTGGGACCGGATAAATTCGAAATCGTGAACCCGTCCGTCAGCATTCTGGCAGAACCGCCGGTTGCCGTCGTGGATAAGAACGTTGACAAGCGCGGCACCCGGGAGGTGGCCGAAGCCTATCTGGAATACCTATACAGCGAAGAGGGGCAGACGATTGCGGCGGAGAACTACTACCGTCCGACGCTTGCCAGCGTAGCCGACATATACAAGGAGAAATTCCCGGCCATCGAATTGTTTACGCTCAAGGACGTGTTTGGAACATGGGAAGAGACGCAAACCAAGCATTTTAATGACGGCGGCATCTTTAATCAGATTTACGTGCCAGGCAGCTGA	MKKVLKQGVLIGLTVMLTAALTACGSQKTETAATAGDATPASGSSKPSVELLNVSYDPTRELYDQYNKAFAAHWEKEQGQKVTFKQSHGGSGKQSRSVIDGLEADVVTLALGYDIDAIRQAGLINEGWESKFEHNSAPYTSTIVFLVRKGNPKGIQDWPDLVKDGVEVITPNPQTSGGARWNYLAAWGYALKVNNNDEAKAQEFVKELFTHVPVLDSGARGATTTFVERGIGDVLLAWENEAYLSINELGPDKFEIVNPSVSILAEPPVAVVDKNVDKRGTREVAEAYLEYLYSEEGQTIAAENYYRPTLASVADIYKEKFPAIELFTLKDVFGTWEETQTKHFNDGGIFNQIYVPGS	PGPT0003015_228	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
AK002_00663	849	cysT_1	COG0555	Sulfate transport system permease protein CysT	ATGACTGTACTCCCCGTACGGAAGCAAGGCAGAAATCATCGCAGGGTGCTCCCGGGTTTTGGGGTCGGCATGGGGCTGACTGTCCTTTATATGAGTTTGGTTGTGCTCGTGCCGCTGTCGGCACTGCTTCTTAACCAAACCGGATTGACCTGGGAGAAGTTCTGGTCGGTTGCAACCGATCCGAGGGTGCTGGCATCCTACCGGGTCAGTCTGACGACGGCGGCGCTGGCCGCATTGGCGGATACGATACTGGGGCTGCTGTTGGCCTGGGTGCTGGTGCGGTATGATTTTCCGGGCAAAAAATGGTGGGATGCCCTGATCGACCTGCCCTTCGCCCTGCCAACGGCCGTGGCGGGGGTGGCATTAACCGCGATCTATTCCGCGAATGGCTGGATCGGATCACTGCTGGAGCCGCTCGGCATCAAGGCGGCGTTCTCTTCCTTGGGCATCACGCTGGCCCTGATGTTCATCGGCATACCGTTCGTCGTGCGGACGGTACAGCCGGTGCTGGAGGACGCGGAGCGGGACACGGAAGAGGCGGCAGCCACGCTAGGAGCTGGCCGGTGGCGCACGTTTTGCACCATCATTCTGCCGACTCTGATTCCGCCGCTGCTGACCGGGTTTGCGCTCGCTTTTGCCCGGGGGATCGGAGAATACGGCTCCGTTGTCTTCATATCGGGAAATATGCCGATGAAGACGGAGATTGCGCCGCTGTTGATCATGACGAAGCTGGAGCAGTTTGATTATGCCGGCGCTACGGCGGTTGCCTTGATTCTGCTGCTCATCTCTTTCGCGCTGCTGCTCGGCATCAATCTATTACAACACTGGACGCGGAAAACCGCGCGCTAG	MTVLPVRKQGRNHRRVLPGFGVGMGLTVLYMSLVVLVPLSALLLNQTGLTWEKFWSVATDPRVLASYRVSLTTAALAALADTILGLLLAWVLVRYDFPGKKWWDALIDLPFALPTAVAGVALTAIYSANGWIGSLLEPLGIKAAFSSLGITLALMFIGIPFVVRTVQPVLEDAERDTEEAAATLGAGRWRTFCTIILPTLIPPLLTGFALAFARGIGEYGSVVFISGNMPMKTEIAPLLIMTKLEQFDYAGATAVALILLLISFALLLGINLLQHWTRKTAR	PGPT0003000_808	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
AK002_00664	867	cysW_1	COG4208	Sulfate transport system permease protein CysW	ATGGCTGGAACCGTACCCGCTGCCGTTCCGGCAGGGAAACGAGGCACATCGCCCTCTCCGGCTGCAACGGAGAAAACCTGGGTGAAATGGACCTTCATTAGTTTGGCTGGCCTTGTGCTTCTGTGGCTTATTGTGCTGCCGCTCGTTACGGTGCTGTCCGAAGCGCTTAAGAAGGGATGGGAGGTTTATATCGCAGCCTTGTCCGATCCCGATGCCTTGTCCGCGCTGCGGTTGACCTTACTGGTGGCGGCGATTGCGGTACCGCTGAATTCGATATTCGGCGTCATCGCGGCTTGGACCATAACGAAGTTCCGCTTTAAAGGCAAAAATCTGCTGATTACGCTGCTGGATTTACCGTTCGCGGTATCGCCGGTTATCGGAGGCCTCATCTTCGTGCTTATTTTCGGCCGTCAGGGTTGGTTTGGCCCTTGGCTCGAAAGCCATGATATCAAGATCATATTTGCCGTGCCCGGCATCGTTCTGGCTACGTTATTCGTCACGTTTCCTTTTGTGGCCAAGGAGCTGATTCCGCTGATGGAGGACCAAGGGACGAAGGAAGAGGAGGCGGCTGTAACGCTCGGCGCCAAGGGCTGGCAAATCTTCTGGCGGGTCACCCTGCCCAATATCAAATGGGGACTGCTGTACGGCATCATTCTGTGCAATGCCAGGGCCATGGGCGAGTTTGGGGCCGTGTCCGTCGTATCCGGCCATATCCGCGGAGAGACCAATACGCTTCCCCTTCATGTCGAGATTTTGTACAATGAGTATCAGTTTTCGGCATCGTTCGCGGTGGCCTCCTTATTGCTGTTGTTAGCCGTGATTACGCTGCTGCTTAAAAATTGGTTAACGCGAAAAAATGCCCATTGA	MAGTVPAAVPAGKRGTSPSPAATEKTWVKWTFISLAGLVLLWLIVLPLVTVLSEALKKGWEVYIAALSDPDALSALRLTLLVAAIAVPLNSIFGVIAAWTITKFRFKGKNLLITLLDLPFAVSPVIGGLIFVLIFGRQGWFGPWLESHDIKIIFAVPGIVLATLFVTFPFVAKELIPLMEDQGTKEEEAAVTLGAKGWQIFWRVTLPNIKWGLLYGIILCNARAMGEFGAVSVVSGHIRGETNTLPLHVEILYNEYQFSASFAVASLLLLLAVITLLLKNWLTRKNAH	PGPT0003005_1139	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
AK002_00665	222			hypothetical protein	ATGGCTAAACCATTAAAAGTGGATGAAATGTGGCTCGAGCGCATAGCAAGCCTGCTGAACGACATGGAATTCGGTTCGCTGCAAATCGTAGTGCATGAGGGTCAAATCGTTCAGATGGAACGAACGGAGCGCAAGCGTTTCGAGAATACGGCCTCCGGAGCGGTCAAGACGTCAGGATCGTCCCGGGCATCCGGCCAGCAGCGAAGAACGAATACAAGATGA	MAKPLKVDEMWLERIASLLNDMEFGSLQIVVHEGQIVQMERTERKRFENTASGAVKTSGSSRASGQQRRTNTR				NA	NA	NA	NA	NA
AK002_00666	912			hypothetical protein	TTGTCCCTTACGGAATGGATGGTTGATATCTTTGGCTCGCTGGACGGGCTCGTGGCCGCGCTTCTTGCCACTGCGGTATTTGCGGGCCTGTACATATACAGTGCGTCCCGGCTGCTCGGTGCACGAAAGGATTCGCTCGCCCGCATTCGTCAGACCTTGACGGTCTATGCCAGGCTGGCAGGGCTTCTTGGCACGCTTATCCATCGACCGACCCGGACGGCCGTCCCCGAGGATCTGCTGATCCGGCTTCTGCAGGAATGCAAATCCGCTGACCTGTTGACGCGTGAGCTCCACGAACAAATGGATATCTTTCTAAGCGATCGCGATGAATCCCGATTGACGACGCTTCACAAGCTGCTGGACCGCGAGATCAACAGACTCATGAAGGAGCGCGACGAGCTGGTTGGACGGCTGGAGAAGCCCGGCTGGGGGATGGGCTTGTGGCTGCTCCTAAAACCTGCCGTACCTGCCCTTTCACTGGGTGCCGCACTCCTATGGACGGCGGTCCTTGCGGAGGAACTCAGGCAAACCTCGGCCTGGGCAAGCCCCGAGGTTTGGTGTTTATGGCTCTCCAATATCATTGCCACGATCTCTTTCTACCGTTTATTGATGGATTCGAGAAGAAAAACGCATGGCATGATTTATACCGTGCTGCATCTGCTGATTGTGGCTTCGGCCTTATTTAATCTGATCGGCGGCGAAGCCTCGCCTTACGTTCTGGCTACCCAATGCTTGCTCTATCTGGCGGGTTTCCGGGTAACGGCCACCCGTAAGCGGCGTGAGCGGCCCTACGCCGGCCATCCGGAGCTGATGGAGCAGTTCCTTCATCCTGCTGGGGATCACGATCCTCTAAGCGAAACAACAGGCGCGGGCGAGCAGGAGATCGGCAGCAGCCCGCTCCGGTCGCGATAA	MSLTEWMVDIFGSLDGLVAALLATAVFAGLYIYSASRLLGARKDSLARIRQTLTVYARLAGLLGTLIHRPTRTAVPEDLLIRLLQECKSADLLTRELHEQMDIFLSDRDESRLTTLHKLLDREINRLMKERDELVGRLEKPGWGMGLWLLLKPAVPALSLGAALLWTAVLAEELRQTSAWASPEVWCLWLSNIIATISFYRLLMDSRRKTHGMIYTVLHLLIVASALFNLIGGEASPYVLATQCLLYLAGFRVTATRKRRERPYAGHPELMEQFLHPAGDHDPLSETTGAGEQEIGSSPLRSR				NA	NA	NA	NA	NA
AK002_00667	984	ybfK_1	COG0596	Carboxylesterase YbfK	GTGAAACGAAGAAAAGGATGGATTATCTTGGGTAGCATTCTCATTGCGATACTAGCTATACTGACGGTAGTAGGCTTTCTATTCAGAGATGACGGGTCGTTAAGCGGTTTTGTTACAGAGGATGGGCAGAAGGAATATGCGGCGGCTTATGAGGAGGCGATGAGTCACTTGCCAGAACCGGTTGAGTCGATCAAGGTTCATACCGATTTTGGCGTGGTTCAGCTTTACAAGTTCCAGGGGAGCGATACACCGCACAAAACGCCTTTGTTGCTGCTTCCCGGAAAGGGATCTGCTACACCCATGTGGGAGGCCAATCTTAACGGCTTTTTAGAACACCGGCCTGTATACACCGTTGATTTGATAGGAGAACCGGGTTTAAGCACGGAAACCAGACGGATTAAAACCGCTGCGGACCAAGCAGCATGGTTAGGGCAAGTATTGGATCAGCTGCCGGAATCAGAGATCCACCTATTAGGGCTGTCGTTCGGCGGGTGGAGTGCGGCGAATCTGGCGCTCAAGCATCCGGAGAAGATTCACTCGCTCATATTGCTGGACCCTGTCTATGTGTTTGGCCCCATTCCATTAAAAATGATACTGGCCTCCATTCCGGCGACGGTGCCCATGGTGCCCAAACCGATCCGGGAGAAAATGCTCAGCTATATATCCGGCGGGGCTGAAGTCGATGACAGCGATCCGACCGCCAAATTAATCGAAACCGGGATGCGGACATTCAAGAGCAAGCTGCCCATGCCGGAAGCCATCCAGCCGGAACAATTAGCTGAGCTAACGATACCGGTGCTCGGTATTTTAGCTGGACAATCGACGATGCACCATGCTGAAAAGTCGTATCAAACGGGGATGGATGCCTTGAAAGACCCTAATAGCGAGATGGTCTTATTTGAAGATGCCTCGCATGCGATTAACGGGGAATACCCTGAAGAGTTACTGGAAACGATAGAAGCTTTTTTAGCGAAAATCGAGTAA	MKRRKGWIILGSILIAILAILTVVGFLFRDDGSLSGFVTEDGQKEYAAAYEEAMSHLPEPVESIKVHTDFGVVQLYKFQGSDTPHKTPLLLLPGKGSATPMWEANLNGFLEHRPVYTVDLIGEPGLSTETRRIKTAADQAAWLGQVLDQLPESEIHLLGLSFGGWSAANLALKHPEKIHSLILLDPVYVFGPIPLKMILASIPATVPMVPKPIREKMLSYISGGAEVDDSDPTAKLIETGMRTFKSKLPMPEAIQPEQLAELTIPVLGILAGQSTMHHAEKSYQTGMDALKDPNSEMVLFEDASHAINGEYPEELLETIEAFLAKIE				NA	NA	NA	NA	NA
AK002_00668	753			hypothetical protein	ATGGGAAAAAAATATTCCGTAAAAGAAATCAGCCAATTGTCGGGAATAACTCCGCGAACCATTCAGTACTACGATAATGAAGGGATTCTTAAAGCGGAGCGAGATGAGCTGGGGCATAGAGTATATTATGATAAACAGCTGTATGTACTTGAACAGATTATGTTCTATAGAGCCATCGGTTTCTCTTTAAGCAAGATCAAAGAGCAATTGATCGTGGGCACGGAGGAGCAGGATATCGAGAATATTCTAGATTACCAGGCATCGGTCCTTTATTCACAGAAAGAGAGCATCCAAGCCAAGCTTGACGGATTGCATGTGGCAAAGGAAATGATGAAAGAAGGGTACAACGTACCCTGGGAGCTGTTAGCCCATCTTATGCGTTCGTTGAATGAGGTCGATATGTCGGCTTGGAAAGAATACGAATTTTCGGAGGAAGACGCCCGGCTATTTCAAAAAGTATTTGACTCTGAGCAGGCGGCCATGGATTTTTACAATACGTTCAGAAAAATATCGCTGCAAGCTGCAGCTTATAAGGCCTCAAACGTCCCCATCGAGTCCCGTTTAGCCAGGGCCCTAGCCCAAGAATGGCAACAGATGGTTCAACGCGTGACCCATGGCGACGAACGGATTCATGCTGCCTTTTTAGCGGTCGATAACAATCGGGATCAATGGAACGCTGGAGAGCGTCAGCTTGTAATGGAAGCAGAACAATATTTGCAGGACGTCATAGAGCACTATGCTGATCGTAAATGA	MGKKYSVKEISQLSGITPRTIQYYDNEGILKAERDELGHRVYYDKQLYVLEQIMFYRAIGFSLSKIKEQLIVGTEEQDIENILDYQASVLYSQKESIQAKLDGLHVAKEMMKEGYNVPWELLAHLMRSLNEVDMSAWKEYEFSEEDARLFQKVFDSEQAAMDFYNTFRKISLQAAAYKASNVPIESRLARALAQEWQQMVQRVTHGDERIHAAFLAVDNNRDQWNAGERQLVMEAEQYLQDVIEHYADRK				NA	NA	NA	NA	NA
AK002_00669	894			hypothetical protein	ATGAAAAAACAATATGTCCGCTTGCTGGCTCTCTGTCTCGCTGGCGGCCTGCTGCTGCTAAGCAGTTTGTCCCTTCATCCTGATGCCGCGGAAGCGAAACCCAGCCAGAAGGCAACCTGGTTCTGGGATACCCCGCAAATCAAAGACTCCGCCGATGACATTCTGAGCTTTGCCGGCAGCCAGGGAGTGAACGTGCTCTACCTGCAGATGAACCGCGACGTCCGTCCCGAGTATTACCGCAGCTTTATCCGCCAGGCAGGAGTGCAAGGGATCGAGGTTCACGTCCTCGGCGGGGCGCCGAACTGGGCGCTGGAATCGGAACGTCACCGGCTGGAGACGTTTATTCAATGGACCGCCGAATATCAAGCGTCCGCTGCCCCGAATGAGCGCTTCACCGGCATCCATGTCGATATCGAGCCGCATGTGCTGGCCGAATGGAAAACGAACCAGTCCTCGGTCGTTAAGCAGTGGCAAGCGAGCGTCCGTTATCTGGTCGATGAAGCGCACAAGCTGAATCTGCCGATCGGCTCCGACATGACCTTCTGGCTGCATACCTACCAGCTGCCGGATCAGTCGATGTCGATCAGCCGCTGGATGATCAAGCAGTTCGACCAGATCGTCATTATGGCCTATCGCGATCAAGCGGATAACATATACAACCTCGCCGCAACCGAGCTAAAGGAAGCCGACGAACTCGGCAAGGAGGCCCTGATTGCCGTGGAGACCAAGTCCAGCAATGAGGGAGCTTACATTACCTTTTTCGAGGAAGGCACGTCCTATATGGAGGAACAGCTGAGCAAGGTATGCACCAAGGCGGAAAAGCACCCTTCCTTCTCCGGGTTCGCCATTCACGACTACAGGTACTGGAAGGAACTTCATGACTCCGATCGATAA	MKKQYVRLLALCLAGGLLLLSSLSLHPDAAEAKPSQKATWFWDTPQIKDSADDILSFAGSQGVNVLYLQMNRDVRPEYYRSFIRQAGVQGIEVHVLGGAPNWALESERHRLETFIQWTAEYQASAAPNERFTGIHVDIEPHVLAEWKTNQSSVVKQWQASVRYLVDEAHKLNLPIGSDMTFWLHTYQLPDQSMSISRWMIKQFDQIVIMAYRDQADNIYNLAATELKEADELGKEALIAVETKSSNEGAYITFFEEGTSYMEEQLSKVCTKAEKHPSFSGFAIHDYRYWKELHDSDR				NA	NA	NA	NA	NA
AK002_00670	633			hypothetical protein	ATGAAGGTAGCATTGATTGGAGCAAGCGGGACGATCGGAAAACGCATTACGGAAGAAGCGCTGCGCCGGGGACGCGAGGTAACGGCGGTGCTGCGTAATCCGGATCGTCTTGAATTGGAGCATGAGCGATTACAGAAAGTCAAAGCGGATGTGATGGATCCTTCGTCATTGGAAGAGGCTGTTCAAGGACATGATGCCGTGATCAGCGCTTTCGGTCCGAAGTTCGGCCAAGAAGAGGAGCTTGTAGCAGCCGCACGGACCATTGTGGAGGGAACGAGACGCGGCGGCGTAACCCGCCTGTTGATCGTTGGCGGCGCAGGCAGCCTGATCGCCGACAGCGGCGTACCGCTTATGGAAACCCCGGAATTTCCGGAAGAGATCAGACCGCTTGCCCGTGCGCATGCGGATGCTTACGATCTTTATAAGGAAAGCGATCTGGAATGGACGTATATCAGTCCGGCGGCCATCATCGAGCCGGGGAAACGTACCGGACAATTCCGGATCGGCATGGACCGCCTGGTGACGGACGAGAGCGGAAGCAGCCGGATCTCGGTTGAAGATTTCGCGGTAGCCGTGATTGATGAGCTGGACGATCCGCAGTTCATTCAGTCCCGATTTACCGTTGCTTATTAA	MKVALIGASGTIGKRITEEALRRGREVTAVLRNPDRLELEHERLQKVKADVMDPSSLEEAVQGHDAVISAFGPKFGQEEELVAAARTIVEGTRRGGVTRLLIVGGAGSLIADSGVPLMETPEFPEEIRPLARAHADAYDLYKESDLEWTYISPAAIIEPGKRTGQFRIGMDRLVTDESGSSRISVEDFAVAVIDELDDPQFIQSRFTVAY	PGPT0020900_1174	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
AK002_00671	1749	CARKD		ATP-dependent (S)-NAD(P)H-hydrate dehydratase	ATGTATGTTGTGACGTCCGAACAGATGAGGGCACTCGATAACTACACGATTCGCCGAATCGGCATTCCGGCCATCGCGCTTATGGAAAACGCGGGTAAAGCGATTGCCGAGGAAGTCCTGAAATTATGCCTTGAGCGCCATGGCGGAAGCCAGTTACCGTCCACGGCGGTGGCTCGGACATACGGAAGCGATCAAGCCTACTTGCCGGAGGATGAGAGGTGTGACCGGCGGACTTCCTTATCGGGTTATTCGTCAGGGGCAGAGGGCCCTTCCACCGGAAATGACCGGGTTATCGAGATGAGCCGCCCTTCGCCGATTGTCGACGGGGACGCGCGATTGCCCACCGCGCTGGCGGAGCAGGAGCACTGGCTCATTCTGGTGGGCAAGGGCAATAACGGCGGCGACGGCGTGGTCGCCGCACGGCATTTGCGTGACGCCGGCATAAGCGTCACGCTGCTCTACGCCGCCGAGCCGTCCGCGCTTGCCGGCGAGGCGGCGGTGCAGCGGGATGCCGCGGCAGCGCTCGGCATCCCGGCACTGGTCCACGGCCGTGCCGCCGTGGACTACGGCGCGTACACCGGCATCGTGGACGCGCTGCTCGGGACGGGCGCGACGGGCGCGCCCCGCGGCGCTTACGCCGCGCTGATCCAGGCCGCGAACGACAGCGGCCTGCCGATTGTGTCCGCCGATATTCCGAGCGGACTGGACGCCGATACCGGCGGGCGGCACGAGCCGTGCATTTCGGCCGCGGTGACGGTATGCCTCGCCTTCCTGAAGCGAGGCTTGGTGCAGTACCCCGGCGCCGGGGCGGCGGGCCGGGTGGTGGTCCGCTCCATCGGCATCCCGGCATCGCTGTGCCGGGAGCTGGGCGTCAGCACGCATCTGCTTACCCCGCATGTCCTGCGGACGGAGCTGGGCGCCGACGTGTCGCGCCGCCGCGCGCCGGACGGGCATAAGGGCACCTACGGCCACGTGCTGACCGTAGGGGGCAGCCGCACGATGAGCGGCGCAGGCCTGCTCGCTTCCCGGGCGGCGCTCCGCGCGGGCTGCGGCCTGGTGACCTGGGCGCTCCCTGCCAGCCTGGTGCTGCCGCTGACCGGAGCCTCGCCCGAGGTGATGCTCGCCCCTGCGACAGAGGAGGAGAGCGGCGGCTGCTGGAATGAGGCCTCCGCGGAGCAGGTCCTGGCCCTCGCCAAGTCCCGCGATGTGCTGGCCGTAGGTCCGGGGCTCGGCCGCTTTGAAGGAGACGCCAGGTGGCTCCGCCGGCTGTGGGAAGAATGGGAAGGGCCGCTGGTGGTGGATGCCGACGCGCTGAATATGCTGTCTGCGGCTGGTAATTTCGGCGCCTGGAAGCCGCGTGCCGCGGCCACAGTGCTGACCCCGCATCCCGGGGAGATGTCCCGGCTGCTGGGCATCCCCACCGCCGAGCTGCAGCGGGACCGGATCGGTGCCGCCGCAGGGTTCGCGACCGGGCACGGGGTTACCCTCGTGCTCAAGGGGGCGCATACCGTCGTGGCTTCTCCGGACGGACAAACCTACATCAATACAACCGGCACCTCCGGCATGGCGACCGGAGGCACCGGAGACGTGCTGACCGGCATCATTGCCGGCCTGCTGGCGCAAGGGCATGCCGGTCCGTCTGCAGCCGCGTTTGGCGTGTGGCTGCACGGCCGTGCCGGCGAGCGGGCCGCGCGGCATCGGGGGCACCCCGCCTCGGTCATCGCCGGGGACGTCATCGAAGCGCTTTGA	MYVVTSEQMRALDNYTIRRIGIPAIALMENAGKAIAEEVLKLCLERHGGSQLPSTAVARTYGSDQAYLPEDERCDRRTSLSGYSSGAEGPSTGNDRVIEMSRPSPIVDGDARLPTALAEQEHWLILVGKGNNGGDGVVAARHLRDAGISVTLLYAAEPSALAGEAAVQRDAAAALGIPALVHGRAAVDYGAYTGIVDALLGTGATGAPRGAYAALIQAANDSGLPIVSADIPSGLDADTGGRHEPCISAAVTVCLAFLKRGLVQYPGAGAAGRVVVRSIGIPASLCRELGVSTHLLTPHVLRTELGADVSRRRAPDGHKGTYGHVLTVGGSRTMSGAGLLASRAALRAGCGLVTWALPASLVLPLTGASPEVMLAPATEEESGGCWNEASAEQVLALAKSRDVLAVGPGLGRFEGDARWLRRLWEEWEGPLVVDADALNMLSAAGNFGAWKPRAAATVLTPHPGEMSRLLGIPTAELQRDRIGAAAGFATGHGVTLVLKGAHTVVASPDGQTYINTTGTSGMATGGTGDVLTGIIAGLLAQGHAGPSAAAFGVWLHGRAGERAARHRGHPASVIAGDVIEAL				NA	NA	NA	NA	NA
AK002_00672	456			hypothetical protein	ATGAACACCGGAATTCCCAAAAGGTCCGCCCGGATGGACATGGGGTTTTATGCATTAAACAAGCTGGCCAGCGCCGGTATCGTCGTGCTGCTGCTGAGTTTGCTGGATTGGGCGTGGCCGTCCGGGGCGGATCAGGCCTCGGAGTGGCTAGGCCTTTACATGCCGCAAGAACACTGGGTGTACGGTTACGCGCTGACGGCCTCTCTCGCGGCCGATGCCATACTCACGTTCCTGCCTTCGCTGCATAAGGGGAAACAGGCAGCCGTGTATGGAGCGGTCGGTTTTCTGTTCTTCGCCCTATTCACAGGCGGTCAACCGGAGCAGCTCTGGCTCCGTGCCGCTGCCGGAACCCTGACGCTGCTTCTGTTCTTGTGGGGAAAGCATGCATTCTCCAGCAATTCTCTGGCCACCCCGTTCTTTGCCCTGGCCGTTCCCCTGCTGTGCTGGGTGATCTGA	MNTGIPKRSARMDMGFYALNKLASAGIVVLLLSLLDWAWPSGADQASEWLGLYMPQEHWVYGYALTASLAADAILTFLPSLHKGKQAAVYGAVGFLFFALFTGGQPEQLWLRAAAGTLTLLLFLWGKHAFSSNSLATPFFALAVPLLCWVI				NA	NA	NA	NA	NA
AK002_00673	909	ydaD_1		General stress protein 39	ATGAATCCCCAACAGCCCATTCCATACGTAGGCTCCAAAACCGAATGCAAGGAACAGCCCATCGCTTTCCCTCCCCAGCATCAAAACTGCCAGCCGGGCCTTGAAAGCCTGATGTCGCCGCGTCCGATCAGCGAAGATCCCGCCTACCGGGGCAGCGGTAAACTGGATGGCAAAATCGCCATTGTGACCGGGGGGGACAGCGGTATCGGCAAAGCGGCCGCCATTGCCTTCGCCAAAGAAGGTGCCGATCTGGTCATCCCATACTTATATGAGACTTCGGATGCGGAAGTGACGAAGCAGCGGATTGAATCCCTCGGCAGACGATGCCTCTTAATGAAGATCGATCTGCGCTACAAAAAAAACTGCGAAGCCGTGGTTAACGAGACGATCGCCTGCTTCGGCAGAGTGGATGTTCTCGTGAACAACCATGCCGTCCAGTACGTGCAGCGCAGCATTCTGGACATTACGGAAGAACAGCTGCATCACACCTACCAGACGAATATCTTTCCGTTCTTCTTCATGATTCAGGCCGCGCTGCCCCATATGAAAGCCGGAGCGTCGATCATCAACACGGCCTCCATTACGGCCTATGACGGTTTAAAGGAGCTCATCGACTATTCCTCAACCAAAGGCGCCATCGTTTCCCTTACCCGATCCCTGGCCCTTTCGCTGGTCGATCAGGGCATCCGCGTCAACTCCGTCGCGCCAGGCTCGGTCTGGACGCCGCTCATCCCTTCCAGCTTCTCCGCCGATGAGGTTGCCGTATTCGGAACGAATTCGCCGATGAAGCGAGCCGCGCAGCCTTATGAGCTGGCACCCGCTTATGTTTACCTGGCATCGTCCATCACTTCTTCTTTTGTCACGGGCCAGGCCATTCACGTCAACGGAGGGCAGATGGTAACCAGCTAG	MNPQQPIPYVGSKTECKEQPIAFPPQHQNCQPGLESLMSPRPISEDPAYRGSGKLDGKIAIVTGGDSGIGKAAAIAFAKEGADLVIPYLYETSDAEVTKQRIESLGRRCLLMKIDLRYKKNCEAVVNETIACFGRVDVLVNNHAVQYVQRSILDITEEQLHHTYQTNIFPFFFMIQAALPHMKAGASIINTASITAYDGLKELIDYSSTKGAIVSLTRSLALSLVDQGIRVNSVAPGSVWTPLIPSSFSADEVAVFGTNSPMKRAAQPYELAPAYVYLASSITSSFVTGQAIHVNGGQMVTS				NA	NA	NA	NA	NA
AK002_00674	816	vanW	COG2720	Vancomycin B-type resistance protein VanW	ATGAAACCCGTCAAGCGTTCAAAATTCCGCCTGTGGGCAGGCAAGCAGTATTTTACATACCGGCGTTATTGGGCATGGATGAAGAAGAGGGGCGGCATCGCCCGCACGCAAAGTCCTGAGCCGCTGCGATATTCGGTGTTCACACACCAAACCCCGCTGAAACGCCAGCTCAAGGATGTTGATATGTGGTATCAGCATAATAAGGTGATCAACTTGCGTCTGGCCGTGCGCCATCTGGATGGACTGCTGGTTCGTCCGGGAGAGACGCTGTCCTATTGGAGGAGCATTGGACGCCCGACTCGCAGGAAAGGGTATGTCGACGGCATGGTCCTGTTCTATGGAGGCTTTAAGGCGGGCATGGGCGGAGGGCTGTGCCAGCTGTCCAACCTCATATACTGGATGACGCTGCACACCCCTCTGGAAGTGAAAGAACGGCATCGGCACAGCTATGACGTCTTTCCGGATGCGAACCGGACCCAGCCGTTCGGAAGCGGCGCTACGTGCGCCTATAATTATTTGGACCTTCAGATTTATAATCCGACGAACGATACATACCAGCTGTCGGTATATGTATCAGAGGAGGATTTGATCGGGGAATGGCGATCCAGCGCCGCTCCGCTGCATCGCTATGAAGTATATGAGCGGGACCATCGCATTACCCAGGAAGTTTGGGGAGGATATGCGAGGCATAACGTCATTGGCCGCAAAGTGTTCAACAGGGAAGGCGAACGGATTCGGGATGAGTGGATTACCGAGAACCATGCGCTCATGATGTACTCGCCGCTGCTTGCCGAACAAGGAAGCGTGACGTCTTGA	MKPVKRSKFRLWAGKQYFTYRRYWAWMKKRGGIARTQSPEPLRYSVFTHQTPLKRQLKDVDMWYQHNKVINLRLAVRHLDGLLVRPGETLSYWRSIGRPTRRKGYVDGMVLFYGGFKAGMGGGLCQLSNLIYWMTLHTPLEVKERHRHSYDVFPDANRTQPFGSGATCAYNYLDLQIYNPTNDTYQLSVYVSEEDLIGEWRSSAAPLHRYEVYERDHRITQEVWGGYARHNVIGRKVFNREGERIRDEWITENHALMMYSPLLAEQGSVTS	PGPT0028445_181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028445-vanW-K18346	NA	NA
AK002_00675	552	ssuE	COG0431	FMN reductase (NADPH)	ATGATTATGGCGAAAGCTGTTATTATTAACGGGAGCCCTACAGCCGGATCCCGATTGAATGCGGTTATGGATTTTGCGGAGCAGGCACTAACCGCTGCCAATTTCGAGGTGAGCCGGATCGACGTGGCCGGGCTGCCGCCCGAGGATTTGATTCATACGAAGTTTGAGAGCGAGCATATCGTCAAAGCCAACGGGCTTGTGGCCGAGGCCGATGCCGTGATTGTGGCAAGTCCGGTTTATAAAGCTTCGTTTACCGGCGTGCTTAAGACATTTTTGGACCTGATTCCGCAAAAAGGCTTGGCTGGCAAAATCGTGCTTCCGATGTTCATTGGCGGCAGTCTCGCGCATTTGCTGGCGATTGATTATTCGCTCAAGCCCGTGCTTTCCTCGATCGGGGCCCGGCATATTCTGGGCGGCGTGTACGCCGTGGATGCCCAGGTGGCGCGTACCGAGGATGGCGGGTTTGACGTAGCGGAAGTGCTTCAGGAGCGTTTGGCCTCCGCGATGGAGGAATTAATTGAAGAAACCCGTTACCGGACAGAACGCGCATAG	MIMAKAVIINGSPTAGSRLNAVMDFAEQALTAANFEVSRIDVAGLPPEDLIHTKFESEHIVKANGLVAEADAVIVASPVYKASFTGVLKTFLDLIPQKGLAGKIVLPMFIGGSLAHLLAIDYSLKPVLSSIGARHILGGVYAVDAQVARTEDGGFDVAEVLQERLASAMEELIEETRYRTERA	PGPT0003045_1888	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0003045-ssuE-K00299	NA	NA
AK002_00676	591			hypothetical protein	TTGCAAAAGCTAGTGTTTTTTGTCGGCGTGGCCGGTACAGGCAAGACAACCGTAGCGAAGAAGCTTGCAGTCCGCATACCGGCTGCATTTCTCGACCGTGATACGGTGGGGGGACGGTTTGTCGAGAAGTTCCTGGAGAGCAACGGACTGGATCCGAACGACCGCGATTCTTCCTTCTATAAAGAGAATCTGCGCGATCTGGAATATGATACGACCAAGGATATTTGCATCGAGAACCTGGGTGCGAGGCAAAATGTCTTTATGATCTCGCCGTTCACGGCGGAGCTCAAGAACCGCGAATGGATTGAAGAGGTCATCGCATCCGCGGGATTAACGAAGAACGACGTTGATGTGAAGGTCATCGTGGTTGCGCTCAAGGACATGGATTTGCAGAAGGAGCGGATCATTGACAGACAGACCGAGCGGGATCAGTGGAAGCTGGATCATTGGGACGACTTCAAGAAGCGCGTTGATTTCGTTCCGGAAGTGAACTGGGATATTCCGCAAACGTCCATCAAGGTGTTTGATAACAGCGGCGATCTGACGGAAGAGAAGGTCGAGGAGCTCTATCAATTTATCGTAAGCGAATAG	MQKLVFFVGVAGTGKTTVAKKLAVRIPAAFLDRDTVGGRFVEKFLESNGLDPNDRDSSFYKENLRDLEYDTTKDICIENLGARQNVFMISPFTAELKNREWIEEVIASAGLTKNDVDVKVIVVALKDMDLQKERIIDRQTERDQWKLDHWDDFKKRVDFVPEVNWDIPQTSIKVFDNSGDLTEEKVEELYQFIVSE				NA	NA	NA	NA	NA
AK002_00677	744			hypothetical protein	TTGGATAACTCGGCTATGCTTGCCTATCTTCGAAGCGTTGTGTTAATGAGGGATCGCATCCCGTCATTTAACGAATACCCCTTTAATTTGCCTGCCGTAGCGGCTATGGACGGACTTCGCTTTCATCCGAAGGTCACTTATATCGTGGGCGAGAACGGAATGGGCAAATCCACGCTGCTGGAGGCCATTGCTGCGGCCCTCGGATTTAATCCGGAAGGAGGGACCATCAATTTCTCCTTTTCTACGGCCGAGACGCATTCTGTGCTGTATCAATATGTACGTACGGTTCGAGGAGTCCGGAAGCCGCGGGACGGCTTCTTTTTCAGGGCGGAAAGCTATTATAACGTGGCCTCCGAGGTCGATTCGCTAGGGCTTTGGCAGTCCTATGGAGGAAAGTCGCTGCATCATCAATCCCATGGGGAATCCTTCTTTGCGACGTTTCTACACCGCTTCGGCGGCAACGGACTGTACATCATGGACGAGCCGGAAGCGGCCTTGTCGCCGTTTCGCCAAATGGCGCTGCTGAGACGCATCCATGACCTGGTTCATGAAGACTCGCAGTTTATTATTTCCACGCATTCGCCGATTGTCATGGCTTATCCGGATTCGATCATCTACAAGCTGACATCCGAAGGCGTGGAAGAAACGAGCCTGGAGGAAACGGATCATTACATGATCACGAAGGAATTCGTGAATCGCCGGGAATCGATGCTGCATGAATTGTTTGCGGACGATGAGGAATAA	MDNSAMLAYLRSVVLMRDRIPSFNEYPFNLPAVAAMDGLRFHPKVTYIVGENGMGKSTLLEAIAAALGFNPEGGTINFSFSTAETHSVLYQYVRTVRGVRKPRDGFFFRAESYYNVASEVDSLGLWQSYGGKSLHHQSHGESFFATFLHRFGGNGLYIMDEPEAALSPFRQMALLRRIHDLVHEDSQFIISTHSPIVMAYPDSIIYKLTSEGVEETSLEETDHYMITKEFVNRRESMLHELFADDEE				NA	NA	NA	NA	NA
AK002_00678	420	mhqR_1	COG1846	HTH-type transcriptional regulator MhqR	ATGGACATGTATCGTGAGTTATCGGATAAAATGACGAGGCATCGGGTCGTGTCTTTCTTGAGTCATTTAAGAAAGAATGATTTGACGATGAATCAGTATAAAATCCTAAGTTTGATCGAGCAGCAGGGACCGTGGCTTCCCAACCGGTTGGCTGAGCACATGGAGCTTAAAGCTGCAACGATCACTTATTTGGTGGATGCACTGGAACAACGGGGATTGGTGATTCGAACGCCGAATCCGAGTGACGGACGCAGCCACTATGTCAATTTTACGGCAGAAGGCCGGCAGCTGGTGCTCGACGCGCGCAGCGAGGGGGACTATGCCGTCATGGAATCCTTCAAGCAGCTGGATGAGGACGAGGCGGATAACCTGTATATTTTGCTGCGATTGCTTGGCCGAAAGCTATTTCCAACAGAGTAA	MDMYRELSDKMTRHRVVSFLSHLRKNDLTMNQYKILSLIEQQGPWLPNRLAEHMELKAATITYLVDALEQRGLVIRTPNPSDGRSHYVNFTAEGRQLVLDARSEGDYAVMESFKQLDEDEADNLYILLRLLGRKLFPTE				NA	NA	NA	NA	NA
AK002_00679	1419	farB_2		Fatty acid resistance protein FarB	GTGAATACAGACGAAAAATCTTCATTTTGGTTAATTATGAGCGCCGTGTTTTTCGGCAATTTTCTCGCGGTGTTGAGCATTACCACCATCAACGTCGCTTTTCCGGTGGTGATGGAGCAGTTTCATACTACGCTGAGCACAACCCAATGGCTGATGGCCGGATACTTGCTGGCAACAGGTATCGTGGCCCCTATCGTCGGCTACATGGGGGATCAGCTAAGCTATAAGAGGCTGTTCGTACTGGCATTGACGGGTTTTACCCTCTCGTCGCTATTATGCGTCGTCGCCTGGAACATCGAAACATTAATCGCGTTCCGGATCACGCAAGGCGTCTTCGGCGGGATGATCATTCCGATTACGATGACGATCATCTACCAGGTATTCCCGCGCGAGCGGCAGGCCTATGCCATGGGTCTGTGGAGCCTGGCTTCCATGCTGGCACCGGTGATAGGGCCGACCCTGGGCGGATGGCTGGTGCAATACTTTGGCTGGAAATCGATATTCATTCTGAATGTCCCCATCGGCCTGATATCGATCGTCATCGTAAGCAAATTCATTCCTTTTTATCGACTGACCGGGAAGAAGACCTTCGATCTCCTCGGATTCTTGACGGTGGTGGCGGGCAGCTCCTGTTTGCTGCTCTCCTTCAGCCATGGCAACGATTGGGGCTGGGGATCCTGGAAGACGATCTCCTTGCTCGTCGCCGGTATTTTGCTGTTGCTGTTCTTTATTAAGTGGGAGCTTCGTATTCCGTCGCCGCTATTGCAGCTGAAGGTCTTCAAATTTCCCCGATTCCGGTACAGCTTAATCTTGAACTGTATCGTGACAATTTCTCTCTATACGGGAACCTTGCTGGTGCCGCTCTATTTGCAGACCGTGCTGAAGCTGTCCCCGATGGATACCGGACTGATCATGCTGCCGGGCGCAATCGTCATGGCGGCGGCATCGCCGATTATCGGCAAATTTTATGACCGGATCGGTCCGTTCCGGCTGGTGATCACGGGTGTCCTCATCATTGTGGCCGCCACGCTGGCTTTCAGCGGGATCGGCACGAATACGTCGGTTCTGTACATTTCCACGCTGCAGCTGGTTCGCTGCCTCGGCATCGCTTTGTGCAACATGCCGTTAACGAACGCCGCGATGAGCGCGGTGTCCAGCGAGTACTCGGGCCATGCATCGTCCATTACGAACTGGGCGCGTCAAGGGCTGGCTTCGTTATCCATCGGCATTTTCAGCGCGCTGGTGGTAACCAGAACATCCTATTACATGGGTGCCGGGGCTGTGACTTCGCGTACGGCAACGACCATGGGCATTGATGACGTGTTCATGATCGGTACGATGGTGGCGGTGGTAGCCATACCTCTTACATTTTTGTTACGGGTCAAAAAGGAAAAATCGACTCGCCATGTCGCGCTCTAA	MNTDEKSSFWLIMSAVFFGNFLAVLSITTINVAFPVVMEQFHTTLSTTQWLMAGYLLATGIVAPIVGYMGDQLSYKRLFVLALTGFTLSSLLCVVAWNIETLIAFRITQGVFGGMIIPITMTIIYQVFPRERQAYAMGLWSLASMLAPVIGPTLGGWLVQYFGWKSIFILNVPIGLISIVIVSKFIPFYRLTGKKTFDLLGFLTVVAGSSCLLLSFSHGNDWGWGSWKTISLLVAGILLLLFFIKWELRIPSPLLQLKVFKFPRFRYSLILNCIVTISLYTGTLLVPLYLQTVLKLSPMDTGLIMLPGAIVMAAASPIIGKFYDRIGPFRLVITGVLIIVAATLAFSGIGTNTSVLYISTLQLVRCLGIALCNMPLTNAAMSAVSSEYSGHASSITNWARQGLASLSIGIFSALVVTRTSYYMGAGAVTSRTATTMGIDDVFMIGTMVAVVAIPLTFLLRVKKEKSTRHVAL				NA	NA	NA	NA	NA
AK002_00680	798			hypothetical protein	ATGGAATTTATACGGAAGCTGTGGGTTTTCGGTTATCAGCAGGCCTTGTCCTGCCTATTTCCGGTGATTATCTTCGGCGCGTTGGGACTGACCAAGGTGGTTGAGATTCCGGGTTTGCCGCGGTATGATCTCATTCTTCTCATCTGCGTCTTGGCGCAAATCGGGATGCTGGTGAGCAAGCTGGAGACATGGGATGAACTGAAGGTTATCTGCGTCTTTCACGTTATCGGATTGATGCTGGAGCTGTATAAAGTGCATATGGGCTCATGGTCTTACCCGGAGGAGGGCTGGAGCAAAATCGGCGGCGTTCCGCTGTACAGCGGCTTCATGTATGCGAGCGTAGCCAGTTATATCTGCCAGGCTTGGCGGCGAATGAATTTGCGGATCACCGGCTGGCCGCTGCCTGTGCTGACGGTGCTGATCAGTGCGGCGATCTACGCCAATTTCTTTACCCATCACTACGTATGGGATGCGCGCTGGCTCCTCACCGTATTGTTGTTCGTGGTATTTGGCAGAACCATGGTGTATTTCGACGTTGACGGAAAAACCTTGCGCATGCCGTTGGTGCTGTCGTTCCTGCTGATTGGTTTTTTTATCTGGATCGCTGAGAATATCTCCACGTTTCTCGGGGCCTGGACCTATCCGGGACAGGAACGGACATGGAGTCTGGTGCATATCGGAAAAATCAGCTCTTGGTTCCTGCTGGTGGTCATCAGCGTCATTATTGTGGCTCAGCTGAAGCATCTGAAGCAGGGCAGAGGACCGTCCAAGGACAATCCAAAGGGAACGGTCATGTGA	MEFIRKLWVFGYQQALSCLFPVIIFGALGLTKVVEIPGLPRYDLILLICVLAQIGMLVSKLETWDELKVICVFHVIGLMLELYKVHMGSWSYPEEGWSKIGGVPLYSGFMYASVASYICQAWRRMNLRITGWPLPVLTVLISAAIYANFFTHHYVWDARWLLTVLLFVVFGRTMVYFDVDGKTLRMPLVLSFLLIGFFIWIAENISTFLGAWTYPGQERTWSLVHIGKISSWFLLVVISVIIVAQLKHLKQGRGPSKDNPKGTVM	PGPT0008090_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
AK002_00681	135			hypothetical protein	ATGAAAAAAAGATCATTGGCGTCGCTGTCCAAAGGCATGGGATACTCCACCGCTGTTTTCTTTGATCGGTCCGATGACGGGAGAAGTCTGTCCAAAATCGGATATTCGGCGATCAAGGATCCTTCATTCTATTGA	MKKRSLASLSKGMGYSTAVFFDRSDDGRSLSKIGYSAIKDPSFY				NA	NA	NA	NA	NA
AK002_00682	948			hypothetical protein	ATGTTCATGCAAGGAAGACAGATCTATGTCAAGTCGGTTGAGGAATCGGATGCGGAGGCGCTATGGAAGCTCGAGGTGGATAACCGGGATTTTTTCCAACGGTTCACGGGCTTAAGGGACGACGAATTCTATACCCTTGAGGGACAACTCGAACGGATTCGAAAGGCCCGGGAATCCAGCAAGGCGGATCAGGCGTATCTCTATATGATTGGACTGCGGGATACCGAAACGATCATCGGCGAGATCATGCTGACGGAAGTGGTACGGGGGAATTTGCAGAGCTGCTGGATCGGTTATTTTCTGGACCGGGACCATAACGGAAAGGGGTATATGACCGAGGCCGTTCAAATGGTGGTGAGGTTTGCCTTTCAGGAATTGAAATTTCACCGGATTGAGGCGGGCGTCATGCCGCACAACCTGGGCTCGATCCGAGTGCTCCTGAAGGCGGGCTTCCACAAAGAAGGCATCGCCAGGAAAAACGTGAAGATTAACGGGAAGTGGGAGGACCATCAGACACTGGCTATGTTGAATGAAGCCGATGAGGAGGCATCGTCCCCGATTCAGCGGTACAATCCGTCTGTCATCGCCCCGCCGATCGGTCCGTATACCCATGTAACCAAGGTTGCGAGAGGGGCTGAGCTGCTGGTTTTCTCCGGCCAGGTGGGGACCGACAGGGAGGGGAACCTGCCGGCCGATATGAAGGAGCAAGTAGAGAACACCTTGGCGAATATTCAGCGGGTATTGGCTTCGGAAGCCATGTCGGCGGATCATATCGTCAAAATCAACATTTGGGCGGTTCAGGAGGTCGACTGGGATCATTTCCACCGGGTATGGGAGAAATTCCACGGGGGAAAGGCGCCGTCCATGACAATGGCCTACGTGCCGGCGCTGGCGATGCCGTCCCTACAGGTGGAGATCGAGGTATGGGCAGCGAGGGGTAACGCTTAA	MFMQGRQIYVKSVEESDAEALWKLEVDNRDFFQRFTGLRDDEFYTLEGQLERIRKARESSKADQAYLYMIGLRDTETIIGEIMLTEVVRGNLQSCWIGYFLDRDHNGKGYMTEAVQMVVRFAFQELKFHRIEAGVMPHNLGSIRVLLKAGFHKEGIARKNVKINGKWEDHQTLAMLNEADEEASSPIQRYNPSVIAPPIGPYTHVTKVARGAELLVFSGQVGTDREGNLPADMKEQVENTLANIQRVLASEAMSADHIVKINIWAVQEVDWDHFHRVWEKFHGGKAPSMTMAYVPALAMPSLQVEIEVWAARGNA				NA	NA	NA	NA	NA
AK002_00683	1032	nrdB	COG0208	Ribonucleoside-diphosphate reductase subunit beta	ATGCAAATGCAAAAGATATTTAACACCGAAGCACCCAACCGCTCCACTCGCGTCATTGAAGGTGAATGCTCCGGGATCCTGAACTGGAACGACATTCGGATGCCTCATATGTATAAATTGTATAAGGTTCTGCTGCTGAACCACTGGATCGCGGATGAAATCCCGATGTCCAAGGATGCGCAGCAGTTCCCGCGCCTGGACCCTGAAGAGCAGCGCACCTTCAAAATCAACATCTCCCTGTTGGCTGTGCTCGATTCCATGCAGACGATGTTTGTCGGCGACGTCAAGCGTTACTTCACCGACTCGTCGCTCGAAGCCATCTCGGCCATCATCGGTCAGCAAGAGGTGGTTCACAACCAATCCTATTCCTACGTGCTTTCCTCCATCGTATCGGAGCAGGAGCAGAAGGAAATCTTCGAATACTGGAAGCATGATCCGGTTCTTCTGGAGCGCAACCAGTTCATTTCGAACATTTACCAGAATTTCCGCGACAATCCGTCGCCGCAATCCTTCTTCGAAGCCATGGTCGCCGACCTGATCCTGGAAGGGATTTTCTTCTACAGCACGTTTGCCTTCTTCTACAACCTGGCCCGTGACCAGAAGATGATGGCAACCAGCCAGATGATCTCCTATATTCAGCGTGACGAGAACCAGCACTGCTACTTCTTCGCCGAAGTGTTCAAGCAGCTGCTCAAGGATTTCCCTGAGCTGAACACCAAAGAGAACATCGACTACCTGTACCGCACCATTGACCGTGCCGTTGAGCTCGAAACCAACTGGGCCCACTACACGCTCAGCAATGTGCGCGGCATCGATCTGAACGAGTTGAGCGATTACATCAAGTACATCGCGAACCGTCGCATCACCATGATGGGTCTGGAAAAAGCTTACGAAGGCGTGGACGTCAACTGCATGCCATGGATCAAGCCTTTCTCCGACGAAGCCCTCAACGCAACGAAAACCGACTTCTTCGAAGCCAAATCCCGTAACTACGGCAAAGTTGGCGACGACAACGGCTTTGACGATCTATAA	MQMQKIFNTEAPNRSTRVIEGECSGILNWNDIRMPHMYKLYKVLLLNHWIADEIPMSKDAQQFPRLDPEEQRTFKINISLLAVLDSMQTMFVGDVKRYFTDSSLEAISAIIGQQEVVHNQSYSYVLSSIVSEQEQKEIFEYWKHDPVLLERNQFISNIYQNFRDNPSPQSFFEAMVADLILEGIFFYSTFAFFYNLARDQKMMATSQMISYIQRDENQHCYFFAEVFKQLLKDFPELNTKENIDYLYRTIDRAVELETNWAHYTLSNVRGIDLNELSDYIKYIANRRITMMGLEKAYEGVDVNCMPWIKPFSDEALNATKTDFFEAKSRNYGKVGDDNGFDDL	PGPT0021345_1982	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
AK002_00684	2334	nrdE	COG0209	Ribonucleoside-diphosphate reductase subunit alpha	ATGCCCCAGCTCGTAGTTAAACCGAACAACCGTCAGCTTGCCTTTGATGAAATTCGCCTCTCCGTCTATGCCGACCGGACTCTGAAAGGATTGGACATGCTCGATAAGGAGCGTCTGCTTCGCGGCGTCAATGCCAAATTGCGCGGTGAGCAAGTTACCGGCGAAGAAATCAGCAGCGCCTTCACGATGTCCGCCCTTGAGCTTGTAACCAAAGAGGAGCCGAATTGGAAGTTTGCAGCTGCGCGTTCGTTTCTGACCTCTTTATATAAAAAAGCGGCTACCAACCGCCGATACAAAGCATACCCGGAAGAACCATACGGTGCCTTCTACCCGCTCATTACGGAGCTTGTACAGAAAGGCATCTATCGCGAGGACCTTCTGACCAGCTACACCAAAGAACAAATCGAAGAACTCGGCGAATGCATCGATCCAAGCCGCGATCTGCTGTTTGACTACATCGGTCTGCTGACGCTGGCTGAGCGTTACCTCGCAAACGACTTTGACGGTCGCGTCATGGAACTTCCGCAAGAACGCTACATGGTCATCGCGATGTTCCTCATGCATAACGAGCCTGCCGACAAGCGTCTTGACCTTGTCAAGGAAGCCTACTGGGCCATGAGCAACCTGTACATGACGGCGGCTACGCCGACCATGTCCAATGCAGGTAAAAAAGTAGCCGGCCAGCTGTCCAGCTGCTTCATCGATACCGTGGACGACTCCCTGGAAGGGATCTTCGACTCCAATACGGATATCGCCCGTCTCAGCAAAATGGGCGGCGGCATCGGCGTATACCTCGGTAAAGTTCGTGCACGCGGCTCCGATATCCGCGGACACAAGAACACCAGCTCCGGCGTTATCCCTTGGATTCGCCAGCTGAACAACACCGCTGTTAGCGTGGACCAATTGGGAACCCGTAAAGGCGCCATCGCGGTGTACTTGGACGTGTTCCACAAAGACATCCTGTCCTTCCTTGATCTGAAGCTGAACAACGGCGACGAGCGCATGAGAGCGCATGACGTGTTCCACGGCGTATGCCTGCCTGACCTGTTCATGGAGGCTGTCGAAGCTCGTGAAGAGTGGAGCCTGTTCTGTCCGCATGAAGTGAAGAAAATCATGGGCTGGAAAGACGAGAACGGCCGTCCGCTAGGTCTGGAAGACTTCTATGACCATACTCAAGGCGAAGGCGAATTCCGCCAAAAATACGCGGAAGCCGTAGCGAACCCGCTGCTGCCGCGCATTACCGTACAAGCCATCGACATTATGAAGCGCATCATGAAGTCCCAGCTTGAAACGGGGACGCCGTACATGTTCTATCGGGACACCGTCAACCGTGCGAACCCGAACTCGGCTCATGGCATGATCTACTCTTCCAACCTGTGCACGGAGATCATGCAGAACCAATCTCCGACGGTCGTTGAGCAAGAGGAGCTGGTTACGAAAGACGGCCAAACCCGGATCGTGATTTCCAAAATCCCTGGCGATTTCGTTGTCTGCAACCTGAACTCCATCCACTTGGCTCGTGCCGTACCGGCCGGTGTGCTGGAGCGTCTCGTTCCGATCCAGGTTCGCATGCTGGATAACGTCATCGACATTAACAATATTGAAGTTCTGCAAGCTCAATACACCAACAGCCAATATCGCGCGGTCGGTCTCGGCACCTTCGGTCTGCACCACTTGCTGGCGCTGGAAGGCATCCGCTGGGAATCCGACGAAGCCGTTGCCTATAATGACAATCTGTACGAACACATCAACTACCTGCTCGTCAAATCCAGCATGGAGCTGGCCAAGGAAAAAGGCCACTATCCGAAATTCAAAGGCTCCGACTGGGAGAGCGGCGAGTACTTCACGTTCCGCGGTTATACCGACGGCGAGCATGAAGGCAAGTTCGTGACCACCGAGCAGTGGCGTGAATTGCAGCAGGAAGTGCAAGCGAACGGCGTCCGTAACGCATGGCTGTTTGCCATCGCGCCGAACGGCTCCACCTCGATCATCGCGGGTTCCACGGCGAGCATCGATCCATTGTACGAACTTCTGTCTTATGAAGAAAAAACCACTTATAAAGTGGCGAACCCTGCTCCGGATCTGTCCGAGAAAACGATCTGGTACTATAAAACGGCTTTCTTGATCGACCAGCATTGGTCCATCAAGATGGCTGCCGCCCGTCAGCGTCACGTTGACCAAGCGCAAAGCTTTAACCTGTACGTCCGCCCTGATATCCGAGCTTCGGAATTCCTGGAGCTGCATCTGCATGCCTGGAAAGCCGGCATCAAATCCACGTACTATGTACGCAGCCGCGCGCTGACGATTGAAGAGTGTGAGTCGTGCGCAAGCTAA	MPQLVVKPNNRQLAFDEIRLSVYADRTLKGLDMLDKERLLRGVNAKLRGEQVTGEEISSAFTMSALELVTKEEPNWKFAAARSFLTSLYKKAATNRRYKAYPEEPYGAFYPLITELVQKGIYREDLLTSYTKEQIEELGECIDPSRDLLFDYIGLLTLAERYLANDFDGRVMELPQERYMVIAMFLMHNEPADKRLDLVKEAYWAMSNLYMTAATPTMSNAGKKVAGQLSSCFIDTVDDSLEGIFDSNTDIARLSKMGGGIGVYLGKVRARGSDIRGHKNTSSGVIPWIRQLNNTAVSVDQLGTRKGAIAVYLDVFHKDILSFLDLKLNNGDERMRAHDVFHGVCLPDLFMEAVEAREEWSLFCPHEVKKIMGWKDENGRPLGLEDFYDHTQGEGEFRQKYAEAVANPLLPRITVQAIDIMKRIMKSQLETGTPYMFYRDTVNRANPNSAHGMIYSSNLCTEIMQNQSPTVVEQEELVTKDGQTRIVISKIPGDFVVCNLNSIHLARAVPAGVLERLVPIQVRMLDNVIDINNIEVLQAQYTNSQYRAVGLGTFGLHHLLALEGIRWESDEAVAYNDNLYEHINYLLVKSSMELAKEKGHYPKFKGSDWESGEYFTFRGYTDGEHEGKFVTTEQWRELQQEVQANGVRNAWLFAIAPNGSTSIIAGSTASIDPLYELLSYEEKTTYKVANPAPDLSEKTIWYYKTAFLIDQHWSIKMAAARQRHVDQAQSFNLYVRPDIRASEFLELHLHAWKAGIKSTYYVRSRALTIEECESCAS	PGPT0021340_3272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
AK002_00686	306			hypothetical protein	ATGGCAATAGCAGAGGTAACGGTGATTCCGATCGGAACCGCAACCACGAGTTTAAGCGCTTATGTCGCCGAGATGCAGCGAATATTGAAACAGCAGGACGGGATTTCCTATGAGCTGACATCGATGAGCACGATCATCGAGGGAGAGCTTAACATGATCTGGCGGGCGATTGAGGCTTTGCATGAAGCGCCTTTTCTGTCCGGGGCAAAGCGCGTATCGACTTCCGTTAAAATTGACGACCGCAGGGACCAGGTCTCCTCGAGCAAACAGAAGATCCAATCCGTGCAGGAGAAGTTAGGCGGGTAA	MAIAEVTVIPIGTATTSLSAYVAEMQRILKQQDGISYELTSMSTIIEGELNMIWRAIEALHEAPFLSGAKRVSTSVKIDDRRDQVSSSKQKIQSVQEKLGG				NA	NA	NA	NA	NA
AK002_00688	558	yyaP_1	COG0262	putative protein YyaP	ATGACACGAAGAATAATTTTAGATTTAGCGGTTACTTTGGATGGTTTTATTGAAGGGAAACATGGTGAAGTTGATTGGTGCATTATGGACCCTGAGATGGGGTTTAATCATTTTTTAAATCAAATCGATACCATTCTATATGGAAGAAAAAGCTATGATTTATGGGGACATTTCACTCCGGAAATTGGACATACGGATTCTGAAAAAGAGTTTTGGGAATTGGTTCATAGTAAAGAAAAGTATGTGTTTTCCAGGACGCAAAAGGGGACTGATCATAAAGCAATATTCATAAATGATAGCATTCTTGAAGAAGTAAATAAATTAAAGAATAAGCCTGGTAAAGACATCTGGCTGTACGGCGGAGCAAGTCTTATTACGACTTTTATCAATTTGGGACTTGTTGATGAATATAGATTATCCGTTCACCCTGTTGTTTTGGGAGAAGGAAAACCGCTGTTTGTGGATTTAAAACAGAGGTTGAATTTAAAAATGGTGAATACAAGAACGTTCTCCTCAGGCGTTGTACAACTAATTTATCATTTTGATGGGAACGAATAA	MTRRIILDLAVTLDGFIEGKHGEVDWCIMDPEMGFNHFLNQIDTILYGRKSYDLWGHFTPEIGHTDSEKEFWELVHSKEKYVFSRTQKGTDHKAIFINDSILEEVNKLKNKPGKDIWLYGGASLITTFINLGLVDEYRLSVHPVVLGEGKPLFVDLKQRLNLKMVNTRTFSSGVVQLIYHFDGNE				NA	NA	NA	NA	NA
AK002_00689	546			hypothetical protein	ATGTACCGCGATCCATGCTACCCTTATCAAGCGCTTGATCCAAGATATCAATACTGGAACGATTACAACCGGCTTCATAACTTGAATCCTTATTATTTCAGTTGGTATGATGCCAGTTGGAATCGTGATCATGAAGATATTCAAATAACGGATTATGGACGAGGACCACTTGTACTGAATATTGATCAAGCTGCGAAACAAAACAATACGTACCGAACCGCTTTATGGACAGGGAAGCACTTACAAGTGACCCTAATGAGCATTCATGTTGGAGATGACATTGGACTAGAGGTTCACCCCACAACCGACCAATTTATACGCATTGAACAAGGTCAAGGGCTTGTTCAAATGGGCGATAGCAAAAACAATTTAGATTTTCAACAAATGGCCTATGATGGCTATGCCATTATGATACCTGCTGGAAAATGGCACAATGTAACCAATATGGGCAGCGTACCGCTAAAAATATACGTGATATATGCCCCTCCTGAGCATCCATTTGGCACGGTCCATGAAACAAAAGCAGAGGCCATGTCTGCTGATTAG	MYRDPCYPYQALDPRYQYWNDYNRLHNLNPYYFSWYDASWNRDHEDIQITDYGRGPLVLNIDQAAKQNNTYRTALWTGKHLQVTLMSIHVGDDIGLEVHPTTDQFIRIEQGQGLVQMGDSKNNLDFQQMAYDGYAIMIPAGKWHNVTNMGSVPLKIYVIYAPPEHPFGTVHETKAEAMSAD				NA	NA	NA	NA	NA
AK002_00690	963			hypothetical protein	ATGCTTAGACTGGAGAGTGTAGAGAAGAATCAAATAGGCGTTTATGCAGCAGCCTTGATATTAGGTGCAGTAATTGGCTTATTAAGTCCCGCCATAGGCATGTTTGTTGAGCCTGCCATATCATTCCTGATTGCCATTCTTCTTTTCAGCATGTTTTGTCAAATTCCATTCCTTAAGCTGAGGGAGGCTTTATCCAACGGGCGTTTTATAGGAGCTCTATTGCTTGTGAATTTTGTTCTAACACCGGTTCTCGTCTATATTCTAACCTTGGTATTTCCTCAACCGGCTCCCGTTTTACTTGGTGTTTGCCTTGTGCTTCTGACGCCATGCATTGATTATGTTATTGTTTTTACACAGTTAGGGAAAGGGAATGAGCGATTGATTCTTGCATCCACACCGATCCTTTTTGTAGTACAAATCATTATGCTTCCGTTTTACTTGTGGCTTTTCCTTGGCTCGGAAGCAGCAGAAGTGGTCAAGGTCGGCCCATTTGTCGAGGCGTTTATCTTCTTGATCATCGTCCCGTTGCTTCTTGCTGTAGCTGCACAGTTCTGGGCTAAGAAAAGTGCCAAGGGTTCAGAATCGTTGCAATTAACCGCATGGCTCCCAGTACCCTTTATGGCACTCGTTCTTTTTGTAGTCATTGCTTCACAAATCGGGAGGGTGTATGAAGATCTCAACGTTATCATAGCGGTTATTCCCATTTATGTTCTATTCCATATCATGACGCCATTTATTTCACGAGCGACTTCGGCGTTTTTTCGAATCGGACCCAAGGATGGGAGAGCTCTTATATTTAGTGCAGGGACACGGAATTCATTAGTCGTTCTTCCTTTAGCATTTACTCTGCCCGAGGAAATGGCTACGATTGCAGCTGCGGTAATCGTCACGCAAACCGTGATAGAGCTAATTGCCGAGCTTGTCTATATACGTATCGTGCCAAATTTGATTTACCGGGATTGA	MLRLESVEKNQIGVYAAALILGAVIGLLSPAIGMFVEPAISFLIAILLFSMFCQIPFLKLREALSNGRFIGALLLVNFVLTPVLVYILTLVFPQPAPVLLGVCLVLLTPCIDYVIVFTQLGKGNERLILASTPILFVVQIIMLPFYLWLFLGSEAAEVVKVGPFVEAFIFLIIVPLLLAVAAQFWAKKSAKGSESLQLTAWLPVPFMALVLFVVIASQIGRVYEDLNVIIAVIPIYVLFHIMTPFISRATSAFFRIGPKDGRALIFSAGTRNSLVVLPLAFTLPEEMATIAAAVIVTQTVIELIAELVYIRIVPNLIYRD	PGPT0004705_3048	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004705-arsB|arsenite_transporter-K03325	NA	NA
AK002_00691	174			hypothetical protein	ATGAGCAGTACATGCGCCCTGACACTTCATGAAATTTTGAATACGTTATATCGTATCGTAAGCAAAGGAGGGAATCTCATGGGCGAAGTTGGATACGGCGGCTATAACTCTGTCGGAGCGATTCTTGTTCTCTTCATCTTGTTGGTCATCATTACTGCTTCTTTCTGGGTATAA	MSSTCALTLHEILNTLYRIVSKGGNLMGEVGYGGYNSVGAILVLFILLVIITASFWV				NA	NA	NA	NA	NA
AK002_00692	222			hypothetical protein	ATGTCTGGATTCGTACTTATCGTGTTCGCTGCAGCTCTTATCATTCGTGGTGTCATGAGGATACGCAAACCCACATGGGGGTCCTTATATAAAATGTGGAACATAAAGTATGGGTCGGAGCCTGATTCCGACTACATTCACTATATAAAATCCAGCGGAACTCTTCTGGTGGTTCTGGGATCGATCGTACTCGTATCCGGGGTTCTGATGGTTATATTTTGA	MSGFVLIVFAAALIIRGVMRIRKPTWGSLYKMWNIKYGSEPDSDYIHYIKSSGTLLVVLGSIVLVSGVLMVIF				NA	NA	NA	NA	NA
AK002_00693	729			hypothetical protein	GTGAAAAAGGTTTGGATTGACGCAGGACATGGCGGAAAGGATGCCGGAGCCACCGGAAACGGGCTGCAGGAAAAGGATATCGTATTAGCGCTGTCCCTGGCCGTGAAGAAACGATTGGAAGCCGATTACGACGGCGTTCAGGTATACCTCTCCCGATCTTCCGACGTGTTTCTGGAATTGGCGGAACGGACCCATAAGGCAAACGCCGCCGGTACCGATATCCTGGTAAGCATCCACTGTAACGCAGGCGGCGGTGCAGGGGGCTTCGAGTCATATCGATATACCTCCGCAAGCCCTGGTTCGGTAAAACTCCAGAATGTTATTCATTCGGAGGTCATGAGCGCGATTACATCCTACGGGGCAAGCGATCGAGGACAGAAGGCGGCTAACCTGCATATGGTCCGTGAATCTAAAATGCCTGCGGTGTTGACCGAGAACCTGTTTATCGATGTGGCAGCGGATGCAGCCAAGCTGAAACGGCAGGACGTGATGGACGCTCTGGCGAGAGGCCATGTAAACGGCATTGCCAAATACCTGGGACTTCAGAAGAAAGAGGGGGGTACTGAGGTGAGCGATAAGGTCAATGTCATTGTAAACGGTAAGCAGATCGAAGATGGCAGGCTGGAGAATGGCGTGACCTATGTACCGCTCCGGGCCATCGGTGAGGCATTAGGCGCCAAGGTGGGATGGGATAACAAGACCAAAACGGCTACGGTGACGACCGAATAG	MKKVWIDAGHGGKDAGATGNGLQEKDIVLALSLAVKKRLEADYDGVQVYLSRSSDVFLELAERTHKANAAGTDILVSIHCNAGGGAGGFESYRYTSASPGSVKLQNVIHSEVMSAITSYGASDRGQKAANLHMVRESKMPAVLTENLFIDVAADAAKLKRQDVMDALARGHVNGIAKYLGLQKKEGGTEVSDKVNVIVNGKQIEDGRLENGVTYVPLRAIGEALGAKVGWDNKTKTATVTTE	PGPT0024160_6674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK002_00694	333			hypothetical protein	ATGAATACTGGGATCAGTGGATTAGACGGACTGGATGAAGAGAAGCTATCAGAAATTCGCGAAAATGCCGCAAGGCTCTCGGACATGAAACAAGAGGTGCCCGTGGAAGAACTGTTCTCGGAATCATTTATTCAAAGACATACGAAGTTTTCTTCCATCGATCACTTGCTGAAGGCCGCTGGATACGAGGGAAGCACCGATGAAGATTTTGACGAATTCATACAAGGTCGCACGATTAACCCGTTTATCGTTGAGCATACCCCATTTCGCAGCTGGCAGGATTTTCAGGAATTAGCCGTATCCGCTTATATTACGAAATGGCTGGGATTGTAA	MNTGISGLDGLDEEKLSEIRENAARLSDMKQEVPVEELFSESFIQRHTKFSSIDHLLKAAGYEGSTDEDFDEFIQGRTINPFIVEHTPFRSWQDFQELAVSAYITKWLGL				NA	NA	NA	NA	NA
AK002_00695	1746		COG1132	putative ABC transporter ATP-binding protein	GTGCCCAAAAAAGAAAAGGTATCCATGTCATGGCTGCTTCGGTATTTGAAGCCGGTAAAAGGACGGCTGATCCTGCTGCTCGCCATGCTGCTGACGTCGACCGGCTTGCAGCTGCTGAATCCGCAGATTGTCAAACGCTTTATCGACACGGCAGCCGGCGGAGGCGTGATAGCCACGCTGATCCAGCTTGCGGGATTATTCCTGGTAGTGGCTGTGTTTAACCAGCTGATTACCGTAGCTGTCAGTTATCTGGGGAACGATATTTCATGGCGCGCGACGAACCGTCTCCGCGGTGATCTTCTGAAGCATTGCTTGCGGCTGGATATGCGGTTTCATAATGTGAAAACGCCCGGCGAGATGATTGAGCGGATTGACGGAGACGTGACGAATATCTCGAATTTCTTTGCGATGTTCATCGTGCAGGTGATCGGCAGCTTCGTACTGCTTGCCGGCATATTGGGATTCATGTTTACGGTCAATTTGCCCATCGCGATCGTTATGACGGTGTTCACGCTGCTGTCCATTCTGTTCATGGTGTTCATCCGGAATATGGGCGTCAATTCCTCCAAGAACGAACGGGAAGCCAGCGCTTCGCTGTTCGGATTGATTGAGGAACGCATCGCCGGCATCGAGGATGTTCAGGCGAACGGCAACGTGCCGTACGTCATGAACCGGTTTCACCGCTTGATGCGCAGCGTGTTCCTGAAGGGGAGAAAAGCCTGGATGCTCCGCGTCGTACCCTGGAACACCACGGTGATCCTGTTTGCCCTGGCGGTTACCGCAGTCCTGTTACTGGGGGTACGCTATTATTTGATCGATGAAATTACGCTGGGAACCCTGTTCCTGATCTATCAATATACGCAGATGTTAAACGATCCGATCGAGATGCTGGGCGACCAAGTGCAGGAGTTTCAGAAAGCGAAATCCGGCATGCTGCGCTCCAGAGAGCTGCTGTCCCACAAGAGCGAGATCGTGGACGGGGAGCAGGAAGAGCTGCCCGAAGGCGCGCTCGGTTTGGAGTTTGAGGGCGTCAACTTCAGTTACAACGCGGATAAACCGGTATTAAAGGACATTAACTTTGAAGTAAAGCCGGGTGAACGCCTGGGGATCATCGGACGTACCGGCAGCGGGAAGTCGAGTCTCAGCCGCATTCTGCTTCGGCTGTATAACATCGACAGCGGGGTCATCCGCGTCGGAGGCACGGATATCACGAAGCTGAAGCTGCCCGCGCTTTACCGCCGGGTGGGGATGGTTACGCAGGATGTGCAGCTGTTCGACGGCTCGCTGCGCGACAACCTGACGCTGTTCGATTACGGCGTGTCGGACGAATTCATCCTGGAAACGACGGAGCGTCTCGGGCTTCGGCAGTGGATCGATGCGCAGCCGGAAGGTCTGGATACGCATCTGACCACAGGCGGGGCCTCGTTGTCCGCCGGGGAAGCACAGCTGTTTGCGTTAACCCGGGTATTTTTGACGCAGCCGAGCCTCGTGATTCTGGATGAACCCTCTTCACGCTTGGACGCCGCAACGGAGACCATGCTGCAGGCAGCCGTCGATCAGCTGATGAGCAGCAGTACGGGCATCGTCATCGCGCATCGGCTGGCTACCCTGGAGCAGGTGGATAAAATCATGGTGCTGGGTGACGGGCGAATTCTGGAATTCGGCGCACGGGAAGCACTTGCGTTAGATCCGGCATCGCATTATGCGAGACTGCTGAGTACAGGCAGAGAGGAGGAGCTGGCGTGA	MPKKEKVSMSWLLRYLKPVKGRLILLLAMLLTSTGLQLLNPQIVKRFIDTAAGGGVIATLIQLAGLFLVVAVFNQLITVAVSYLGNDISWRATNRLRGDLLKHCLRLDMRFHNVKTPGEMIERIDGDVTNISNFFAMFIVQVIGSFVLLAGILGFMFTVNLPIAIVMTVFTLLSILFMVFIRNMGVNSSKNEREASASLFGLIEERIAGIEDVQANGNVPYVMNRFHRLMRSVFLKGRKAWMLRVVPWNTTVILFALAVTAVLLLGVRYYLIDEITLGTLFLIYQYTQMLNDPIEMLGDQVQEFQKAKSGMLRSRELLSHKSEIVDGEQEELPEGALGLEFEGVNFSYNADKPVLKDINFEVKPGERLGIIGRTGSGKSSLSRILLRLYNIDSGVIRVGGTDITKLKLPALYRRVGMVTQDVQLFDGSLRDNLTLFDYGVSDEFILETTERLGLRQWIDAQPEGLDTHLTTGGASLSAGEAQLFALTRVFLTQPSLVILDEPSSRLDAATETMLQAAVDQLMSSSTGIVIAHRLATLEQVDKIMVLGDGRILEFGAREALALDPASHYARLLSTGREEELA				NA	NA	NA	NA	NA
AK002_00696	1803	yheI_1	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	GTGACCATCACGGGTTTTATAGGGCGGCTGTTTCGATTCAAGCCCTCATTATTTTTAATCAATGGTTTGTTGTGGTGCATCTTTCATTCGCTGCCGTTATTGATCGGGCTCGGAATGCAGTGGTTTTTCGACCGGGCCACATCGAATTCCACGGATTATGTATGGCTGGCCGTTCCTTTGATTTTTATTGCCGTTGTAAGGGTTACGCGGGTGGGGACGTTCTTTGCGGCTTTCTATCAATGGGTAACGTATATTTATCATATCCAGGCTATCTTGCGCACCAACATGCTGGCGGGGATCATGCGCTGGCCGGGACGGAATTTGCCGGCTTCTCCAGGGGAGGCGATGAGCCGCTTCCGCGATGACGTGGATGAAGTTGTGGAATACGTGGAGTCCTGGGTGGATTTTTGGGGACGCCTTGTTTTTGCGCTCGTATCCGTTGTCATCATGGCAAGCATTAACTGGAAAATCATGCTGGTGGCCGTGCTGCCGCTCGTAGTGGTCACGCTGCTGAACAATTTATCCGGCAACCGCGCGCGGCGTTACGGCCTGAAGAACCGGGAAGCTACGGGGCGAATCACCAGCTTCATTGCCGAAACCTTCGGCGCGGTCCAAGCCTTGAAGCTCGGGCAGGCCGAGGATCATGTCCATGAACGCTTCACGAAGCTGAATGAGGACCGCCGGCAGGCGGCGCTGAAGGATAATCTGTTCAAACAATGGATGCGGTCCCTGAACCAGCATGTGCTGAGCATTTGTACGGGGCTGATCCTGTTGATGTGCGCAACCGAGATGCAAGCCGGGCATTTCACCGTCGGGGATTTTGCGTTGTTTACGACGTACCTGGCCAATATCGGGTTCAGCATTTCCTTGTTCGGATATATGGTGTTCCAGCACAAACGGCTGAAGGTTTCCTTTGACCGTATGCGCTCGCTGTTCCGCCCCGGCGAGGAGGACCGGATTATTGAAGCGAGGGAAACGTATCTGAACGAAGATCCTCCGGAACTGCCTCTCATTCGAAGGGAGCCGGGGGAGAAGCTCAAGGAGCTGGAGGTAAAGAATTTATCCTATCATTATCCGAATTCGGAGAATGGGATATCGAATATCAAACTCCGCCTGGAGCGCGGCAAGTTTCTGGTGGTGACCGGCCGAATCGGGGCCGGGAAATCGACGCTTGTCCGGACCCTGCTGGGGCTGCTGCCCAAGCAGGCGGGCACGATTCGCTGGAACGGGGAAGAAGTCGATCCGGCTACCTTCCTGATGCCCCCTCGGGCGGCTTATACCCCGCAGGTTCCAAGGCTGTTCAGCGATCCTTTGAGAGAGAACATCGTGCAAGGGAAGAAAGAGCGGGCCGAGGAAGCGCTGGAACGGGCCGTTCGGCTGGCCGTCATGGAGAAGGACATCGAGAATCTGGATCAAGGGCTGGAGACGTTTGTCGGCCCGAGAGGCGTCATGCTGTCGGGGGGACAGATCCAGCGCGCGGCCACGGCGCGCATGCTGATGACCGGCGCGGATCTGTACATCTTCGACGATCTGTCCAGCGCGCTGGACGTGGAGACGGAGCAGCTGGTATGGGAGGGAATGTTCAAGGAGCGTGACGTCACCTGCATTGCGGTATCGCACCGCAGGGCGGCTCTGTCCAAGGCCGATCATATCATCGTCATGAAGGATGGACGGATCGAAGCGGAGGGGAGCTTGGCCGAGCTGCTCGCCACGAGCGAAGAGATGCAGCTGTTATGGCAGGGTCAGTCCACGACCGAGACCGAGGCCGCGGTAGCGGATGAAGCCGAGGTTAGCAAGGTATAA	MTITGFIGRLFRFKPSLFLINGLLWCIFHSLPLLIGLGMQWFFDRATSNSTDYVWLAVPLIFIAVVRVTRVGTFFAAFYQWVTYIYHIQAILRTNMLAGIMRWPGRNLPASPGEAMSRFRDDVDEVVEYVESWVDFWGRLVFALVSVVIMASINWKIMLVAVLPLVVVTLLNNLSGNRARRYGLKNREATGRITSFIAETFGAVQALKLGQAEDHVHERFTKLNEDRRQAALKDNLFKQWMRSLNQHVLSICTGLILLMCATEMQAGHFTVGDFALFTTYLANIGFSISLFGYMVFQHKRLKVSFDRMRSLFRPGEEDRIIEARETYLNEDPPELPLIRREPGEKLKELEVKNLSYHYPNSENGISNIKLRLERGKFLVVTGRIGAGKSTLVRTLLGLLPKQAGTIRWNGEEVDPATFLMPPRAAYTPQVPRLFSDPLRENIVQGKKERAEEALERAVRLAVMEKDIENLDQGLETFVGPRGVMLSGGQIQRAATARMLMTGADLYIFDDLSSALDVETEQLVWEGMFKERDVTCIAVSHRRAALSKADHIIVMKDGRIEAEGSLAELLATSEEMQLLWQGQSTTETEAAVADEAEVSKV				NA	NA	NA	NA	NA
AK002_00697	618			hypothetical protein	TTGTATAATAATGGGTGGAATATACTGGCACTTTATCGGTCATATAAGGGAGAGTTCTGCATGAAGAATCGCAAGTTCTTGATCACTTTCGGTCATAACCTGGACCATAGCAACATGGATGATCTGGTGTCTGATCGTCTTTCCCGTCATAAGGGCCGGATTCAGAAGGATTACTTCGATCCGGTGCTGCGCAAAGGGGCTGCGTTTATTCTAAACTATCAGATCATCGACACGAATGCGGACAGAGTCTCGCAGCGGTATTACTTGGATGACTACCACTTAACAGAGGCCCAGCTGCAAGGCTTTCTATACTCACTGAACAAGCTGAAGGGCACGCATGTGTTGTGCAATCCCAGGAAGCAGGGACATCACTGGACCGTCATCGACGAAATCGAGTACAGCTGTTATGCCTATCAGACATTGGACGGAAGGGATCTTCGTTTTATAGAATACCAAAACGATACCAGGGCGGATGCCGTCATGAAGAAGGGGATACCCCGGATTCCCGAGCATCAGCACTACCTTGCCTTTCCAACGGACTGCAGTCAGGAAGAGAAGGATCGGCGGTTGACCGACTGGATCTGCGGGATCATTGAAGCGGCAGGCAATGACCTTTAG	MYNNGWNILALYRSYKGEFCMKNRKFLITFGHNLDHSNMDDLVSDRLSRHKGRIQKDYFDPVLRKGAAFILNYQIIDTNADRVSQRYYLDDYHLTEAQLQGFLYSLNKLKGTHVLCNPRKQGHHWTVIDEIEYSCYAYQTLDGRDLRFIEYQNDTRADAVMKKGIPRIPEHQHYLAFPTDCSQEEKDRRLTDWICGIIEAAGNDL				NA	NA	NA	NA	NA
AK002_00698	276			hypothetical protein	ATGGAATGGAGCGTCATTTTTCAACTGATCGATCCGCGGCTGTTCATGGTCGTTGCCGCTTGTTGGGTGATCGGATACGTGCTGAAGCAAACGCCAAAGGTTCCGAATTGGAGCATCGTATATGTGGTTATGGTCGTATCCATCCTGTTGACAACCGGCTTGATCGGCTGGAGCGTGGAGAATATCATCCAAGGCATCCTTGCGGGGGCGTTCGCCGTATTCGGGCATCAGGCCGTTAAACAAACGGCAGAGGCGATTGCGACCAGAAAGAAGTAA	MEWSVIFQLIDPRLFMVVAACWVIGYVLKQTPKVPNWSIVYVVMVVSILLTTGLIGWSVENIIQGILAGAFAVFGHQAVKQTAEAIATRKK				NA	NA	NA	NA	NA
AK002_00699	519			hypothetical protein	TTGCAAAGGAAAACGTTGACCGTTGAGGCGCTGCCTGGGTTTGAGCCGGAGATCGGCCGCTGGATATGGGGACTCGAGGAGGTGCGGCGGACGATATTGAAACGGCTGGCCGGGATCCGATATGAGCATTTGAATCATAAGGCGGCCGGCCGGCAATCCATCGGTTCACTGCTATACCATATTGCCTTAATCGAAGCGGACTGGCTGTACGCCGAGGTGCTTGAATCCGATTGGGACCCGAAAATAAAGGCATGTTTCCCCTGGGATCACCGTACGGAGGATAACCGTCTTTCCGAAGTGCCGGATCAGCCGCTCGCTGAGCATCTCCACCGTATGGACATGGTTCGTCAGGAACTGGTTGCCCATTTCCGAGGCATGGACCTTTCGGACTGGAGAAGGCCCAGACAACTGGAGCCGTACGATGTGACGCCCGAATGGGTCATCTATCATCTGATTGAGCATGAGTCCCATCACAGGGGACAGATATTTCAGCTGTTAAGGGAATTGGAGCAAGCGTGA	MQRKTLTVEALPGFEPEIGRWIWGLEEVRRTILKRLAGIRYEHLNHKAAGRQSIGSLLYHIALIEADWLYAEVLESDWDPKIKACFPWDHRTEDNRLSEVPDQPLAEHLHRMDMVRQELVAHFRGMDLSDWRRPRQLEPYDVTPEWVIYHLIEHESHHRGQIFQLLRELEQA				NA	NA	NA	NA	NA
AK002_00700	156			hypothetical protein	ATGAATAACGAATTTTACGTGGGATGGGGAACGCTGGCACTGATCAATGCCGGGCTGGCCCAAGGAAAGAACAGAACGGGCTTAAACTGGTTTCTGCTGTCGCTGTTGTTAGGCCCGCTCGCAACCTTGTTTCTTGTCTTGTCAGCTAAAAGGTGA	MNNEFYVGWGTLALINAGLAQGKNRTGLNWFLLSLLLGPLATLFLVLSAKR				NA	NA	NA	NA	NA
AK002_00701	231			hypothetical protein	ATGAATATAGACCGCAATAGCCGGTACCTATCGCAAGACATCCATTTTTTCGCTGCCGCGCTGTCGGAAACGCTGGTTTCCGTGTGGGAGGAAGACCCCGCAAGCGTATACGTGGAGATCGAGCGAGGTTACATTGAATGCTACACGCCGGATGTCGTCCGCATCCGCAACGAAGAAACAGGTTATTTGACGCACTACAGCCGTGATACCGCGATGTTTCAGCGGATGTAA	MNIDRNSRYLSQDIHFFAAALSETLVSVWEEDPASVYVEIERGYIECYTPDVVRIRNEETGYLTHYSRDTAMFQRM				NA	NA	NA	NA	NA
AK002_00702	576			hypothetical protein	ATGAGCAAAAAAATAGTCGCCATCGATATGGATGATACGATCTGCCATCTGATTCCCAAAGCCATCCATTATCACAATTTGCAGTACAAGGATCCCCAGCTTACGCTCGATCAGATTACCGATTACAACCTGCACCAAATCTGGCATCCTGAATGCTCGGAAGAATTTTTCTTCGGAAAGCCCGGCTTGTATGAAGAGCTCGAGCTATTTGACGAATATACGATTGACGAGGTTCACAGAATGACACATGATTATGATGTCATTGTCGTTACCGCAGCCCGCCCATCCTCGGTGCCCGAGAAATGGAGATGGCTGCAGAGGCATATGCCTTTTATTCCGTTCGAGAATTTTTTCGTGGCCAAGCGCAAGGATTTGGTGGAGTTTGACCTTCTGATTGACGATGGTCCCCATAATGCGATTGCTGCGAGAAAAGCCGGAAAACAGACCATCCTGATTCCGCGCCCATGGAATGCGCATATTCAGCATGAATTTATTCTGAAGGACTCCTGGAAGGGAATGAACGAGTTAGTAGACCGCATTTTATCCGATTCTAATCATCAAGGGGAAATGAAATGA	MSKKIVAIDMDDTICHLIPKAIHYHNLQYKDPQLTLDQITDYNLHQIWHPECSEEFFFGKPGLYEELELFDEYTIDEVHRMTHDYDVIVVTAARPSSVPEKWRWLQRHMPFIPFENFFVAKRKDLVEFDLLIDDGPHNAIAARKAGKQTILIPRPWNAHIQHEFILKDSWKGMNELVDRILSDSNHQGEMK				NA	NA	NA	NA	NA
AK002_00703	2253	uvrA_2	COG0178	UvrABC system protein A	ATGCCGCAAGAATATATCCGCATTCGCGGTGCCAGGGAGAATAATCTAAAGAATGTTTCGCTCCAAATTCCAAAACGAAAAATCACCGTCTTTACCGGCGTATCCGGCTCGGGCAAATCGTCCATCGTGTTTGATACCATCAGTTCCGAGGCCCAGCGATTGCTGAACGAGACGTTCACCGCTTTTGTCCGGAATCGGCTTCCCCGGCATAGCCGCCCGGACGTGGACTCGCTCGAGAATTTGTCGACCGCCATCGTCATCGACCAGAAGCGGCTGGGAGGGAACTCGCGTTCTACGCTCGGCACGATCACCGATCTGTACGCCGTTCTTCGACTGCTGTTTTCGAGGGTGGGGCAGCCATTCGTGGGTTACTCCAATGCGTTTTCTTTTAACGATCCGCAGGGCATGTGCCCCGAATGCCAGGGAATCGGGAAGAAGGTGGAGCTGGATCTGACAAAGCTGCTGGATACGACCAAATCCTTGAATGAGGGAGCGGTCCGGTTTCCGATTTTCTCGGTGGACAGCTGGTATATGAAGAACTACACCATGTCCGGTTTCTTTGATAACGACAAGAAGCTGGCCGATTATTCCGAAGCGGAATGGGATCTCTTCCTGTACGGCAAGGAGGGAAAAGTGACGTTCCCGTCCAAAGGCGGACCGGTGCAGTCCGACTTCGAAGGCCTCGTGCTGAAGTTCAACCGGCTGTATATTCAGCGAGACAGCAGCGAATTGTCCGAACGAACCTTCAATCACGTGAAAAATTTCATTACGCACGGCACATGCCCGTTATGCGAGGGGACACGGCTCAGCCAAGCTGCGTTAAGCTGCAGGATCAACAGATTCAACATCGCCGAGTGTGCGGCCATGGAGATCGGGGATCTAAGAGCGTTCATCCTGAATATCAAGGAGCCGATCGCTGCCGGCATGGTAGCCAGCTTAGCGGAGCGGCTGCAGCATTTGATGGATATGGGACTGGATTACCTGACGCTGAACCGGGAGACGACCACGCTCTCCGGAGGCGAGTCGCAGCGGGTCAAGATGGTCCGGCATCTGGGCAGCAGCCTGACGGACATGATGTATGTTTTTGATGAGCCGAGCGTGGGCTTGCATCCGCGGGATGTTCACCGTCTGAACGGCATGCTGAGGAAGCTTCGCGACAAGGGCAACACCGTGCTGGTCGTGGAGCATGACCGTGACGTGATTGAAATTGCCGACCATGTGGTGGATGTGGGGCCCAATGCCGGTACCCGGGGAGGGGAAATTGTCTTCGAAGGGACGGTCGAGCAGCTGTGCGACCAAGCTTCCACCTTAACAGGGCAGTATATGAAGCGGTGGATGCCGATGAAGGAACAGTTTCGCGTACCTACAGGGCATATGCGCATTGCCAATGCGAATCATCATAACCTGAACCATGTGACGGTGGATATCCCGGTAGGCGTATTGACCGTGGTCACGGGCGTAGCGGGATCAGGAAAGAGCTCGCTCATTCACCATGCCTTTCTGTCCCAGCATCCCGAGGCTGTTGTCATCGATCAATCCGCCGTCAGCGTCTCGATCCGTTCCAATCCTGCCACCTACACAGGGATCATGGATGACATCCGGAGTATGTTCGCCAAGGCGAACGATCAGAGTCCATCCCTGTTCAGCTTCAATTCCAAAGGGGCCTGCCCCGACTGCCACGGGCTCGGTTTCATCTATACGGACCTGGCTTTCATGGAAGGCATCAAGTCGCCGTGCGATACCTGTGACGGCAGACGTTTTAAGGATGATGTGCTTCAGTACAAGCTCCAGGGAAAAATGATCACCGAGGTGCTGGACATGACGGTGCTGCAGGCGCTGGGTTTTTTCGAGAAAAAAGAAATCAGGCGGCGGCTGGAAGCATTGCATGACGTGGGCCTGCACTATCTGACCCTCGGACAGCCGCTGAGCACCCTGTCCGGGGGGGAAAGCCAGCGCATCAAGCTGGCCAGCGAGCTGCACAAGCAGGGGCAGATTTACGTCATGGATGAGCCGACGACGGGGCTGCATATGTCGGATGTCGGGCATCTGCTGGACATGATGAATCGGCTCGTCGATAACGGCAGCTCGGTGATCGTGATCGAGCACAATCTGGACGTGATTCGTCAGGCGGACTGGATCATCGATCTTGGGCCCGAAGGCGGCAGCAGGGGAGGGAGGGTCATGTTCGAAGGAACGCCCGCCGAACTGATCGCGGCGGAACACTCCCTGACCGGTAAATACGTGAGAGGATAG	MPQEYIRIRGARENNLKNVSLQIPKRKITVFTGVSGSGKSSIVFDTISSEAQRLLNETFTAFVRNRLPRHSRPDVDSLENLSTAIVIDQKRLGGNSRSTLGTITDLYAVLRLLFSRVGQPFVGYSNAFSFNDPQGMCPECQGIGKKVELDLTKLLDTTKSLNEGAVRFPIFSVDSWYMKNYTMSGFFDNDKKLADYSEAEWDLFLYGKEGKVTFPSKGGPVQSDFEGLVLKFNRLYIQRDSSELSERTFNHVKNFITHGTCPLCEGTRLSQAALSCRINRFNIAECAAMEIGDLRAFILNIKEPIAAGMVASLAERLQHLMDMGLDYLTLNRETTTLSGGESQRVKMVRHLGSSLTDMMYVFDEPSVGLHPRDVHRLNGMLRKLRDKGNTVLVVEHDRDVIEIADHVVDVGPNAGTRGGEIVFEGTVEQLCDQASTLTGQYMKRWMPMKEQFRVPTGHMRIANANHHNLNHVTVDIPVGVLTVVTGVAGSGKSSLIHHAFLSQHPEAVVIDQSAVSVSIRSNPATYTGIMDDIRSMFAKANDQSPSLFSFNSKGACPDCHGLGFIYTDLAFMEGIKSPCDTCDGRRFKDDVLQYKLQGKMITEVLDMTVLQALGFFEKKEIRRRLEALHDVGLHYLTLGQPLSTLSGGESQRIKLASELHKQGQIYVMDEPTTGLHMSDVGHLLDMMNRLVDNGSSVIVIEHNLDVIRQADWIIDLGPEGGSRGGRVMFEGTPAELIAAEHSLTGKYVRG				NA	NA	NA	NA	NA
AK002_00704	1677	malL	COG0366	Oligo-1,6-glucosidase	ATGCGGAAAGCATGGTGGAAAGAAGCCGTTGCGTATGAGATCTATCCGCGCAGTTTCATGGATTCGAATGAAGACGGCATCGGGGATCTGCAAGGAGTGATATCCCGTCTGGATTATTTGAAGGATCTCGGGATTGACGTCATATGGGTATGCCCTATCTATCGATCCTCCAATAACGACAACGGCTATGATATCAGCGATTATCAGGATATTATGACGGAATTCGGCTCGATGGCCGACTTCGACCGGCTGCTGGCCGAAATTCATAAGCGCGGCATGCGCCTTATCATGGATCTGGTGCTTAATCATACCTCGGATGAACACCCGTGGTTTATGGAAGCCCGCTCCTCCCGAACGAATCCGAAGCGGGATTATTACATCTGGCGGGACCCGAGGGATGGGGCCGAGCCGAACAATTGGGAATCGGTGTTCACCGGTTCCGCTTGGGAGTACGACGAGTTAACGGGTCAATATTATCTCCATCTCTATTCAAAAAAGCAGCCTGATCTAAATATGGAGAATCCGGCGGTCCGGGAAGAGCTGGTGCGGATGATCCGCTGGTGGCTGGATAAAGGGATCGACGGCTTTCGCGTGGACGCGATCACCCATATTAAGAAGCTGCCGGGTTTGCCCGACATGCCGAATCCAAACAACCTTCGATATGTCGATTCAAATCCCGGTCACCGGAATATCGCGGGAATCCATGAATTTCTTCAGCAATTCAAACGCGAAGCGTTCGCCGATTATGACATTATGACGGTGGGCGAAGCCAGCGGCATTCCGATCGCCGAAGCAGACCGCTGGATCGGGGAGGAGAACGGGGCGCTGAACATGATTTTTCAATTTGAGCACGTCAATCTCGACTTCGGACTCGAAGGGCGCTGGGATTACGCCGTCTGGGACTTGGCCGAATTGAAGCAGATCATGCATAAATGGCAGACGGGCCTGGAAGGGACAGGCTGGAACGCTCTCTATATGGAGAACCATGATCAGCCGCGCTCCGTATCCCGTTTTGGCGATCCGGTCCACTATCATAAGGAATCGGCCAAGATGCTGGCTACTTTTTTTATGCTGATGCAAGGGACCCCGTTCATTTACCAGGGGCAGGAAATCGGGATGACGAATGTCGAGTTTCCGGAGCTGAGCGATTATCGGGACGTGGAGATCTACAATTATTATCGCGAGCGGCTGTTGGACGGAAAAGAGGTGTCCGAGACGATGCGCAGAATCGCGTACCGGGCCAGGGACAATGCAAGAACGCCGATGCAGTGGGATGACACGCTTTATGGCGGTTTCTCATCCGTCGTGCCGTGGATTCGGTCCAATCCGAATTATCATGAGATCAACGTGGAGCATCAGCTGGCCGATCCGGATTCCATTCTGAATTACTATAAGGCCTTGATCCGTCTGCGCAAGTCCACCGAGGTGCTGATCTACGGAAAATACGAAGCCGTGCTGGAGGAGCATCCGGAGATCTTCGCTTATTCCAGATCATTAGGGAACGAGGTATATCTGATTGTATTGAACTTTTACGGCAGGACGCCGGATTTTCAGTTTCCCGCGGAATGGAGCGGCCGTCATCCGGAAGTGGTGCTTTCCAATTACGAGCGGTCGGACCGGAGTTTCGGCCCATTCACCTTAAACCCTTATGAAGCGATAGTTTATCGTGTGAACTAA	MRKAWWKEAVAYEIYPRSFMDSNEDGIGDLQGVISRLDYLKDLGIDVIWVCPIYRSSNNDNGYDISDYQDIMTEFGSMADFDRLLAEIHKRGMRLIMDLVLNHTSDEHPWFMEARSSRTNPKRDYYIWRDPRDGAEPNNWESVFTGSAWEYDELTGQYYLHLYSKKQPDLNMENPAVREELVRMIRWWLDKGIDGFRVDAITHIKKLPGLPDMPNPNNLRYVDSNPGHRNIAGIHEFLQQFKREAFADYDIMTVGEASGIPIAEADRWIGEENGALNMIFQFEHVNLDFGLEGRWDYAVWDLAELKQIMHKWQTGLEGTGWNALYMENHDQPRSVSRFGDPVHYHKESAKMLATFFMLMQGTPFIYQGQEIGMTNVEFPELSDYRDVEIYNYYRERLLDGKEVSETMRRIAYRARDNARTPMQWDDTLYGGFSSVVPWIRSNPNYHEINVEHQLADPDSILNYYKALIRLRKSTEVLIYGKYEAVLEEHPEIFAYSRSLGNEVYLIVLNFYGRTPDFQFPAEWSGRHPEVVLSNYERSDRSFGPFTLNPYEAIVYRVN	PGPT0018560_3678	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
AK002_00705	849			hypothetical protein	ATGACTGGAAAAGAACGCTACGAACACATTGAAATTCCCGCTCAGTTAACAAGCGTTATAGATGCTGCGCAGAAAAAGGCGGCCACCCGTAAACGATCTAAACGCATGATGAGGTATTCTTCCGTTGTTGCAGCGGCCGCTGCCCTGCTCTTCGTGGTCAATATCCCAACGGTAGCCAATGCCTTATCCAAAGTACCCGTGGTGGGCAGCATCGTTCAGGTGCTGCAATTCGGGAGCGGCGGCGAGCGGACCGACGGCGTTACCGTAGGAACGGAAGCTTCCGAGGATGTATTCAAGATTCATTTTGATCAGGAGGGCGAGTCCGTTTCCAGCGTGCCTGCCTATACCGTCTACCATAGAGATGCCCCGAACCGCCTTATTTTCACGTTTAACGGGGTTCGAAATTTTGACTACGATACCATCAAGAAAGACATGCTTGCGCTTCCGCTGGTGAAGGATGTTTATGAAAATGTGATTCTGGACGATTCGGCCATGCGTTTTGTCGTTGAGCTGAAGGACGGCGTGAAGCATTCCGTATCGGAATATAAAGATCCCGGCTATTTGGAGCTGAAGCTTACTTCGACCGGCGAGCCGGTAACGCCGCGCGAAGTCTTCTATATCCGCAGTGAGACGATGCCGCAAGGGGAATCCCTTGCCATTCTTGAAGAGATTTACTTGGAAGACGACGTGACCTTCATTAAGGCGGCCGGAGGGGACTTCATCGCGGTCATCGGCGGATTCGATACCCGCGAGGCTGCCGAGCAGAAGCTCAGTGAGATTTCGTCGCGCGAGAACTACGGCGATGACCTTCGCATCGACAGCTGGATGAGCAATGAGCGCCCGGACTAA	MTGKERYEHIEIPAQLTSVIDAAQKKAATRKRSKRMMRYSSVVAAAAALLFVVNIPTVANALSKVPVVGSIVQVLQFGSGGERTDGVTVGTEASEDVFKIHFDQEGESVSSVPAYTVYHRDAPNRLIFTFNGVRNFDYDTIKKDMLALPLVKDVYENVILDDSAMRFVVELKDGVKHSVSEYKDPGYLELKLTSTGEPVTPREVFYIRSETMPQGESLAILEEIYLEDDVTFIKAAGGDFIAVIGGFDTREAAEQKLSEISSRENYGDDLRIDSWMSNERPD				NA	NA	NA	NA	NA
AK002_00706	519	sigV_4	COG1595	RNA polymerase sigma factor SigV	GTGAGTGAACTGAGAGCGAAAGAATCGAAGCAACAACAGTTCAGCGAACATATCGAGAAATGCAAGAACAAGTTATACCGGGTGGCCTATTGCTATGTCAAAAACGAGCAGGAGGCACTCGACATCGTCTCGGAAGCGACCTATAAGGGATACCTCGCTTATGAACGGATGAACGAGCCGCAGTATTTTGATTCTTGGATGACCCGGATCGTCATTAACGCTGCCATCGACCATCTCGGTCGCAAGAAGCGGTTTACCTATATGGAAGACCAGGCTCAGGACTACGCGGCTGCAGAGCATGCGGTCCCGCTGGAGGAGAAAATGGATCTGTACGATGCGCTCGACAAACTGCCGCCGGAGGAGAAAACCTACATCATTTTGAAGTTTTTTGAGGACCTGCGCTTTAGGGAAATGGCGGATGTGCTGTCATTATCCGAGAACACCGTCAAGACCAGGTTTTATCGCATTATCGGAAAATTGAAATCTTATTTAATCGAGGGAGAGGTCGATAGCCTATGA	MSELRAKESKQQQFSEHIEKCKNKLYRVAYCYVKNEQEALDIVSEATYKGYLAYERMNEPQYFDSWMTRIVINAAIDHLGRKKRFTYMEDQAQDYAAAEHAVPLEEKMDLYDALDKLPPEEKTYIILKFFEDLRFREMADVLSLSENTVKTRFYRIIGKLKSYLIEGEVDSL	PGPT0014960_11131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00707	1251			hypothetical protein	ATGAAACGGAAATCCTTTCGATATCTCTGGATAGGCCAGGCGCTCGCCAATAGCGGCGATTTATTTTACATTGTCGGCCTGATGGCTATGATCCATGGGATTACGGGATCCGCCATGTTGATGGCCATGATCCCTTTCGTTACGACGACGGCCCGGTTTATAAGCGGGAGCTTTGCACCCGTTTTAATGGACAAGTACAGCCTCAAGACGCTGCTTGTTTCGTCTCAGATCGGAAAAACGGCCGTGTTGTTCCTGTTGATGGTAACCTGCTATGCACTGGGAGCGCAGGAGGCGACGGTTTATGCGATTCTCGGATTCGTATTTCTCATCTCCTTGCTCGATGGCTGGGCTGCACCTGCCAGCCATGCCATGCTGCCTCGTCTGGTGGATGCCGCCGAGTTAACGAAAGCGAACAGCTTTGTTGCCATCGTGGATCAGATGATCCAACTGGGAGGCTGGGCCGTCGGGGGACTGCTGGTCGCAGTCCTGGGCGGAAGCAGCGTGATAGGACTGACCTTTGCGCTGTCCCTGGCAGCGGCAGTCTTCATGAAACTTATAGAGGATCGGCATGAAGCCGCCTCGGAACCGAAAGAGAAGACGCGCGTTTCGAAAGGGCGCTCCATTCAAGAAGGCTGGACACTCATTTGGAAGCAGCCTTCCCTGCGGGCGATTCATGTGATTTATGTATTGGAGACGATGGCAGGCGTGATCTGGATTGCAGCGATCATCTACGTGTACGTGGCTGATGCGCTGCACAGGGAGGAGGCGTGGTGGGGATATATCAACGCAAGCTTTTTCCTGGGACTCATGCTGGGCGGACTGTTCGGAATGAGAGGCGGGGGGCTGATCGACCGCAATATTCGCAAGTTCGTCATCTGCTCTTCCTTCGGCATCAGTCTGATGACGCTCGGTTTTGGATTGACCTCGGTGCCTTGGCTGGCCCTTATGTTCTCGGCAGGCTTTGGCGTTTTTGAACAGCTGAAATCCGTCTCGCTGCAGACCACTCTGCAGCGAAGCGTATCCGTTCAACTGTTGCCCAAAGTGTACGCGGCTCAAAGCGCGATGGTTTCGCTGGTATTTGGCCTGTCCACGCTGCTGTTCGGGTTCATCACCGACGAATACGGCGTCCGGGCTACGTATATCATTGCAGCTGCGTTGTTGTTTATCTCGGGCTGTTACGCTGCAATCGTACGAACGAGATGGCCGGAGGCAGGGGAGAGCGCAGCACAGGGGGAAGGACGCGCGGTTTAA	MKRKSFRYLWIGQALANSGDLFYIVGLMAMIHGITGSAMLMAMIPFVTTTARFISGSFAPVLMDKYSLKTLLVSSQIGKTAVLFLLMVTCYALGAQEATVYAILGFVFLISLLDGWAAPASHAMLPRLVDAAELTKANSFVAIVDQMIQLGGWAVGGLLVAVLGGSSVIGLTFALSLAAAVFMKLIEDRHEAASEPKEKTRVSKGRSIQEGWTLIWKQPSLRAIHVIYVLETMAGVIWIAAIIYVYVADALHREEAWWGYINASFFLGLMLGGLFGMRGGGLIDRNIRKFVICSSFGISLMTLGFGLTSVPWLALMFSAGFGVFEQLKSVSLQTTLQRSVSVQLLPKVYAAQSAMVSLVFGLSTLLFGFITDEYGVRATYIIAAALLFISGCYAAIVRTRWPEAGESAAQGEGRAV	PGPT0027965_1243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK002_00708	6549			hypothetical protein	TTGAAGAAAAAGAAAAAAAACTCGTCAACATCTTCTAACCAACCCTTCAGAGTTGACCCTAGTACCAGGGAACTCGACCTGTTGGGGCGGGGTAATGGACGCAGTCCTGAAAAAGAAAAAGAAACCGAAACAGAACAAGATAAAGAAGCCCGCATTCTTTCAACATTACCCCTCGCGGATCCGGAAGAGGATCTCATCGGCATTTTCGAGTTAAGGCAGCAAGAAAGAGAAGAAGTCATCAAGCCCGTAATATCAGACGAAGCTATTTCTTTATCGACAGAGGTTACTGCATTTTCTGATACCGTGACAGTAAATTCCGACTCCGCCGCGGCAGCATCTGACTCCACAGCATCATCTTCTACAGATTCCGTGACACTGTCTTCTGCAGATTCTTCCATAACACTGTCCTCTGACGATTTGACGCTATCTTCCGATCCTCTGCCGAACACGGAAATCGAGCCGGAGCAGTTGATTCTTGAAAAGGAAATGCCAGAAATTAAGGGAGCCTTTATATTTACAGAGGACATAGGTGAATATGCCATAACCGAGAACCGGATCGCCTCCAAGTCGGTTACGGCTTCCAAGCTTGCTCGTGGAGCGGTCGGTCCAGAAGCGCTGCAAGACTATAGCGTTTCCAGCCTTCATCTTGCAGACGAAGCCGTGACCTCAAGCAAAATTGCTCCATTGTCAGTCACGGGCGAGCATCTCATGGATGGAATCTTATCGACGCGCAAATTCAGGGACGGCTCGGTCAACGCAAGCAAAATCAAGGATGGCAGCATAACCACCCAAAAGCTGGCGGACCATGCCGTTGAAGGGAAGAAAATAGCCGACGGAGCTATTACAGCAAGGCATCTCGAGCAGCTGCTCGTATCGACGGAGCTGCTGGACGACCAATCTGTCATTGGAGAAAAAATCGCATCAAGCGCCGTAGAAACCCGGCATATATCCAATGAGGCGATTCACACTTCCAAGCTTGCCGACAATGCCGTCACGTCATCCAAAATTCGCGATGGCGCCATCACCGGAAACAAAATAGCGGATAGCGCCGTAGACGGCTCCCATATACAGCAGAAATCCATTAACAGCGACCATCTCGTCAGCAGGGCCGTGACATCGGAGCATATTGCCAAGGGAAGCATCGGCCCAGACCAAATTGCTGTTAGAGGCATTGGCGCCGACCATATTCAGAATGGATCGCTGGGCGCCCGCCATCTGGAAGACGGTGCAATAGGGCCTGATCAGATTCAGCCTGGTTCCATCGGTCCCGAACAGATCGACATCAGCGCCGTGTCCACCCGTCACTTGAGCGATTCCAGTATAACGAGCTCCAAACTTGCCGATCAGTCAGTCCATACAGCCAAACTGGTCGAGCAGGCAGTTACGGCCTCAAAAATTGCTGATCAGAGTGTTCTCCCGAGTAAGATTGCCAATGAAGCTGTACAAACCCGTCATTTGGCTAAAGGGGCCGTAGAATCATCCCAAATCGCTTCGGAGGCTGTTCAAGCCCGGCATCTCTCTCAAGATGCAGTGAAAGCAAAACATATCGCAATCGGCAGCATCTTGCCACAGCACTTTGCTCCTGAAAGCGTGCTCGGTGCGGCAATCCATTCCAGAACGATTGGAGAGCAGCACATGGCCGACCGTTCCATCGCGAGACAGCATCTTCAGCGAGAATCGGTTGGGGAAGAACAGCTTGCACCCGAAAGTGTAACGGGCAGCAAGCTGGCGTTGGGCTCGGTTGGCGGCAGCATCATTAGGCAGAGTGGCGTGACTTCCAGCAATATCGCAAGCCAATCCATTCTGCAGCAGCATCTGGCAGCAGACAGCGTCGGAGCACATGCCATACAAGACGGGGCGATTCAGTCATCGCATTTGACCAACGGCTCGGTTGCCAGCTGCCATTTACAGACCGAGAGCGTAGGAACAGAAGCGCTTGGACGCGGAGCGGTAACGAGCGACAAAATTGCCGAAGGCAGCGTAATCGAATCTTCTATCGGCGAAGGGGTTATTGCACCTCGGCATCTGGCAGACCATGCTGTAACGTCCCTGAAACTGTCACCGGAAAGCGTGTCGACCGACAAGCTGGTGGATCTTTCCGTTACGTCATCCAAACTTGCCGAAGGCAGCATCACTGGTGACAAAATAGCATCCCAATCCATCCGTTCCACCCACCTGTCAACCCATTCCGTCGCCAAGGACGCCATTCAGAATGGAGCCGTTACCTCAGACAAAATTGCCCAGCAGGCGGTTGAGGGAGTGCATCTTGGACTGGAATCCATCTTAGGCAAACATATCACCCAGGAAGCAATTCACGGCTACCATTTGAAAAAGAAGTCCATCACGCTAAACCATTTGGCTGACGAGAGCCGATCGCCCAATATGCTGTTTGCCGACGGAAGCATTCCAGGAGCGAAGCTTGAATCGCAATCGATTACGGAGGACCACCTCACCCCTTCATCTGTGTCGGGGACCGTATTGAAAACAAACGCCGTTAGCGGAGAAAAAATCAAACCGCTCTCCATCTCGGCAGTGCATCTGCAAGAAGCGAGCGTCCTTTCGGACCATCTTGGTTTGGAAGTGGTCAAATCACAGCATATTGAGGATATCGCTGTAACCGATCGGCATATTGCGTCAGGCTCGATCAGCGCAAAGCATATCCAGAACGAAAGCATTGAATCGTCGCACATCGAGAACGGTGCCGTTCTTTCCGAGCATATTGCCGGAGAATCGATCCATGGAAACCATCTCAGTGAAGGGGCTGTGGCATCCAAGCATATAGAATTATTCTCTATTCAAAGTCACCATCTCGCCCCTTACTCCGTCAACATGGCCCATCTGGCGGATCAGTCTGTCGGCCATGTCCACTTGCAACCGGATAGTGTGGGAGTCGATCAATTGCAGCCCGGGTCTGTCAAATCAAGACAATTGGCAGAAGGTGCCGTTCTTCCTCATCACTTGCAGACGCAGAGTATCAACACGAAGCATATTGAAGCCGGTGCGATTACAACGGAGCTTATTCAGGATCACGGGGTTACGGGAGCAAAAATTGCCCATGGAACGATCACCGGCTCAAACATTGCGGCAGGTTCTCTGAACGGCTCCAAAATAGCCGAGGGCTCTATTGAAAGCCGACATCTCGGGCCGGACGCCTTTGATAACTTCAACCTGGCTAACGGCTCCGTTACGGGGAGCCAAATCGCCAAGGAAACCATCACAGGCGCGAACATTGCGGCTGGTGCTTTGAACGGGTCCCAGATTGCCAAGGGCTCTATCGAAAGCAAGCACCTTGCACCGGACGCTTTTGATAACTTCACTCTAGCCGAAAGCTCTGTAACAGGAAGTCAAATTGCTGAGGGAACCATCACCGGCGCGAACATCGCCGACGGCTCCTTAAACGGATCGCAGATTGCCGAAGGCTCCATCGAGAGCAAGCACCTCGCACCGGATGCTTTCGACAACTTCACCTTAGGTAAAGGTTCTGTTACGGGAAGTCAAATTGCTGAAGGCACCATCACCGGCGCGAACGTAGCCGATGGGTCCCTGAAAGGTTCGCAGATCGCCGAAGGCTCCATTGAAAGCCGCCACCTCGGTCCGGACGCTTTTGATAACTTCACCCTGGCCGGCGGATCTGTATCCGGAAGGCAAATCGCTAAGGGGACCATCACGGGCGCGAACGTCGCCGACGGCTCCTTGAACGGGGCGCAGATTGCCGACGGCTCCATCGAGAGCCGACACCTTGCACCGAATGCTTTTGACAACTTCACCTTAGGCGAGGGCTCTGTTACGGGAAATCAAATCGCTGAGGGAACCATCACCGGCGCGAACGTCGCCGACGGCTCCATCGAAAGCAAGCACCTTGGACCAGACGCTTTTGATAACTTCACCCTGGCCGGCGGATCTGTATCCGGAAGACAAATCGCTAAGGGAACCATCACGGGCGCGAACGTCGCCGACGGCTCACTGAACGGGGAGCAGATTGCCGACGGCTCCATCGAGAGCCGACACCTTGCACCGAATGCTTTTGACAACTTCACCTTAGGCGAGGGCTCTGTTACGGGAAATCAAATCGCTGAGGGAACCATCACCGGCACGAACGTGGCCGAGGGATCCTTGAACGGTTCCCTGATCGCCGAGGGATCCATTGAGAGCAAACACCTCGCATCGGATGCCTTTGATAACTTCACCCTGGCAGAGGGTTCAGTAACAGGAAGCCAAATCGCTGAAGGTACTATCACTGGCACGAATGTCGCCGACGGCTCCTTAAACGGGGCGCAGATTGCAGAGGGCTCTATCGAGAGCAAACACCTCGCACCGGATGCTTTTGATAACTTCACCCTGGCTGACGGCTCTGTTACAGGGAGCCAGATCGCTGAAGGTACTATCACTGGCGCGAACGTGGCCGAGGGGTCCTTGAACGGGGCGCAGATTGCAGAGGGCTCTATCGAGAGCAAACACCTCGCACCGGATGCTTTTGATAACTTCACCCTGGCTGACGGCTCTGTTACAGGGAGCCAGATCGCTGAAGGTACTATCACTGGCGCGAACGTGGCCGAGGGGTCCTTGAACGGCTCCCTGATCGCCGAAGGTTCCATCGAGAGTAAACACCTTGCGCCAGATGCCTTTGATAACTTCACTTTGGCCGATGGTTCAGTAACAGGAAGCCAAATCGCTGAAGGGACCATCACTGGCGCGAACGTAGCTGAGGGGTCCTTGAACGGTTCCCTGATCGCCGAAGGTTCCATCGAGAGTAAACACCTTGCGCCAGATGCCTTTGATAACTTCACCCTGGCTGACGGCTCTGTTACCGGAAGCCAGATCGCTGAAGGGACCATCACTGGCGCGAACGTAGCTGAGGGGTCCTTGAACGGTTCCCTGATCGCCGAAGGTTCCATCGAGAGTAAACACCTTGCGCCAGATGCCTTTGATAACTTCACCCTGGCTGACGGCTCTGTTACCGGAAGCCAGATCGCTGAAGGTACTATCACCGGCGCGAACGTGGCCGAGGGATCCTTGAACGGTTCCCTGATCGCCGAAAGTTCCATCGAGTGTAAACACCTTGGCCCGGATGCTTTTGATAACTTCACCTTGGCTGATGGTTCAGTAACAGGAAGCCAAATCGCTGAAGGGACCATCACTGGCGCGAACGTAGCTGAGGGGTCCTTGAACGGTTCCCTGATCGCCGAAGGTTCCATCGAGTGTAAACACCTTGGCCCGGATGCTTTTGATAACTTCACCTTGGCTGACGGCTCTGTTACCGGAAGCCAGATCGCTAAAGGTACTATCACCGGCGCGAACGTCGCCGACGGGTCCTTGAACGGCTCACAAATCGCCGACGGCTCCATCGAGAGTAAGCACCTCGGACCGGATGCTTTTGATAACTTCACCTTGGCCGAGGGGTCCATTGAGAGTAAACATCTAGCACCTGATGCCTTTGATAACTTCACCCTTGCTGACGGCTCTATTACAGGAAGCCAGATCGCTGAAGGTACTATCACTGGCGCGAACGTGGCCGACGGATCCATCGAGAGTAAGCACCTTGGACCGGATGCTTTTGATAACTTCATCTTGGCCGAGGGGTCCATTGAGAGTAAACATCTAGCACCTGATGCCTTTGATAACTTCACCCTGGCTGACGGCTCTATTACAGGAAGCCATATCGCTGAAGGTACCATCACTGGCGCGAACGTGGCCGAGGGATCCTTGAACGGCTCCCAGATTGCAGAGGGATCCATCGAGAGTAAACACCTTGGACCGGATGCTTTTGATAACTTCATCTTGGCCGAGGGATCCATTGAGAGCAAACACCTTGCGCCAGATGTCTTTGATAACTTCACCTTGGCCGAGGGGTCCATTGAGAGTAAACACCTCGCACCGGATGCCTTTGATAACTTCACCCTGGCTGACGGCTCTGTTACCGGAAGCCAGATCGCTGAAGGTACTATCACTGGCGCGAACGTGGCCGAGGGATCTTTGAACGGCTCCCAGATTGCAGAAGGATCCATCGAGAGCCGGCACCTTGGACCGGATGCCTTTGATAACTTCACCTTGACCGAGGGTTCTGTCACCGGAAGCCAAATCGCTGAGGGGACCATCGAGAGAAGACATCTTAGACCGGACGCTTTTGATACCTTTACACTTGCTGACGGCAGCATTGACGGCGACAAATTAGGCAAATCGGCTGTCACTAGCGTTCATATTTCCGACGGGGCTGTTACCGGCCAGCAATTGGCTGAATCAGCAGTCACTGCACAGCATCTGGCCTTCACGCCGGTGCGCAGCTCAAGCGGGAAGCCGAAACTTCAGCAATTCGGAATGACTCCCTTTGTATTGACAGGGGCCGACACTCAGACCGAGGTGACCGTCCAATTCGACGAACCTTATGCCGGTATTAACTATGTTATCGTGGGGATGAGCAACAACCCCGGCTTCCAGATTTCACTGAAATCCCAGCGCGAGGATGCAGCAGTTCTGGAAGTGATCCGCCAGCCGAATTGCAGTATTTCCTACGGCTTCGTGTCCTGGATTGCCCTTGGCCCTTCACTGTAA	MKKKKKNSSTSSNQPFRVDPSTRELDLLGRGNGRSPEKEKETETEQDKEARILSTLPLADPEEDLIGIFELRQQEREEVIKPVISDEAISLSTEVTAFSDTVTVNSDSAAAASDSTASSSTDSVTLSSADSSITLSSDDLTLSSDPLPNTEIEPEQLILEKEMPEIKGAFIFTEDIGEYAITENRIASKSVTASKLARGAVGPEALQDYSVSSLHLADEAVTSSKIAPLSVTGEHLMDGILSTRKFRDGSVNASKIKDGSITTQKLADHAVEGKKIADGAITARHLEQLLVSTELLDDQSVIGEKIASSAVETRHISNEAIHTSKLADNAVTSSKIRDGAITGNKIADSAVDGSHIQQKSINSDHLVSRAVTSEHIAKGSIGPDQIAVRGIGADHIQNGSLGARHLEDGAIGPDQIQPGSIGPEQIDISAVSTRHLSDSSITSSKLADQSVHTAKLVEQAVTASKIADQSVLPSKIANEAVQTRHLAKGAVESSQIASEAVQARHLSQDAVKAKHIAIGSILPQHFAPESVLGAAIHSRTIGEQHMADRSIARQHLQRESVGEEQLAPESVTGSKLALGSVGGSIIRQSGVTSSNIASQSILQQHLAADSVGAHAIQDGAIQSSHLTNGSVASCHLQTESVGTEALGRGAVTSDKIAEGSVIESSIGEGVIAPRHLADHAVTSLKLSPESVSTDKLVDLSVTSSKLAEGSITGDKIASQSIRSTHLSTHSVAKDAIQNGAVTSDKIAQQAVEGVHLGLESILGKHITQEAIHGYHLKKKSITLNHLADESRSPNMLFADGSIPGAKLESQSITEDHLTPSSVSGTVLKTNAVSGEKIKPLSISAVHLQEASVLSDHLGLEVVKSQHIEDIAVTDRHIASGSISAKHIQNESIESSHIENGAVLSEHIAGESIHGNHLSEGAVASKHIELFSIQSHHLAPYSVNMAHLADQSVGHVHLQPDSVGVDQLQPGSVKSRQLAEGAVLPHHLQTQSINTKHIEAGAITTELIQDHGVTGAKIAHGTITGSNIAAGSLNGSKIAEGSIESRHLGPDAFDNFNLANGSVTGSQIAKETITGANIAAGALNGSQIAKGSIESKHLAPDAFDNFTLAESSVTGSQIAEGTITGANIADGSLNGSQIAEGSIESKHLAPDAFDNFTLGKGSVTGSQIAEGTITGANVADGSLKGSQIAEGSIESRHLGPDAFDNFTLAGGSVSGRQIAKGTITGANVADGSLNGAQIADGSIESRHLAPNAFDNFTLGEGSVTGNQIAEGTITGANVADGSIESKHLGPDAFDNFTLAGGSVSGRQIAKGTITGANVADGSLNGEQIADGSIESRHLAPNAFDNFTLGEGSVTGNQIAEGTITGTNVAEGSLNGSLIAEGSIESKHLASDAFDNFTLAEGSVTGSQIAEGTITGTNVADGSLNGAQIAEGSIESKHLAPDAFDNFTLADGSVTGSQIAEGTITGANVAEGSLNGAQIAEGSIESKHLAPDAFDNFTLADGSVTGSQIAEGTITGANVAEGSLNGSLIAEGSIESKHLAPDAFDNFTLADGSVTGSQIAEGTITGANVAEGSLNGSLIAEGSIESKHLAPDAFDNFTLADGSVTGSQIAEGTITGANVAEGSLNGSLIAEGSIESKHLAPDAFDNFTLADGSVTGSQIAEGTITGANVAEGSLNGSLIAESSIECKHLGPDAFDNFTLADGSVTGSQIAEGTITGANVAEGSLNGSLIAEGSIECKHLGPDAFDNFTLADGSVTGSQIAKGTITGANVADGSLNGSQIADGSIESKHLGPDAFDNFTLAEGSIESKHLAPDAFDNFTLADGSITGSQIAEGTITGANVADGSIESKHLGPDAFDNFILAEGSIESKHLAPDAFDNFTLADGSITGSHIAEGTITGANVAEGSLNGSQIAEGSIESKHLGPDAFDNFILAEGSIESKHLAPDVFDNFTLAEGSIESKHLAPDAFDNFTLADGSVTGSQIAEGTITGANVAEGSLNGSQIAEGSIESRHLGPDAFDNFTLTEGSVTGSQIAEGTIERRHLRPDAFDTFTLADGSIDGDKLGKSAVTSVHISDGAVTGQQLAESAVTAQHLAFTPVRSSSGKPKLQQFGMTPFVLTGADTQTEVTVQFDEPYAGINYVIVGMSNNPGFQISLKSQREDAAVLEVIRQPNCSISYGFVSWIALGPSL				NA	NA	NA	NA	NA
AK002_00710	1506			hypothetical protein	ATGCAACTGTATAAGTCTTTTCTTAAACAGCTAATCCGGAACTATATGATCGGGTCCATTGCAGCTGTGCTTGTTGTGGGTGGCGTATTAATGGTAACGACCCTGGAGATTCCCACCCGGGAAGGCGTGCGTCTAGTGCTCATATTGGCCGTTTCGTTCATGGTGATGGTCGCCTCGGAGCTGACGGTCTTTCTTCGCCATTTACGGCCGATTCACGCGGGATTTGATGAGGGCCATACGGATTTGGAAACGTTGGAAAAAGCGTATTTGAGCATTCACCGCATGCCGCGTTTGGCGGTATATCGCATATTCGGACCGCATCTGCTCGGTTTGTCGCTTCCGGCCATTCTGCTTACCGTTTGGATGATGGAGCAGGGGAAGCTGAATTTCCCGCCGTTCTATATCTGGCTGGCTTGTCTGGGGGCGGTCCTGCTGGCCAGCTGTCACGCCATGATCGAATTCTTCCTGACCATAGCCGCCGTTCGCCCTTTGATCAAGGAAGTTCGGCGGCAGGCGCTGTCGCGTTATGGCGTGGATTTCTCTCTTGAGGGCCATGTGTTCATGGCGATTCGGACGAAATTTCTGCTAAGCACGATGCTGATCGGCACCTTTCCGCTATTTCTGTTCAGTTTGGCCGTGCAGATCCGGTTGGAGGGGCTTAGTCAGATTGTAGCCCAGCAGTATTGGGGCTGGGCCGGATTTATACTGCTGCTTGGGGTCGGATTTGCTTATATCGGCGCCTGGCTCTTGACCCAGGATTTGCAGCGTCCCATTCGTCAGCTGTACCGGGCGATGAATGAGATCAAGGAGGGGCGTCTGATTCAGACTTCCAATCTCTATTCCGATGAATTTTCCAATTTGATCGCGGGTTTTAATATGATGGTCCGCGGGCTGCAGGTGCGCGAGGAACGGAATCGCAAGCTGCTGGACAGTTATTTTGCCGCTTTGGCAGCGGCGCTGGATGCCAGAGATCCTTACACGGCCGGCCATTCGCTTCGGGTAGCGGAATATTCGGTGTTGATCGGCCGTCTGGCCGGACTAAGCGAAGAACAGGTTGATCTTTTGCATAAGACGGCATTGCTGCATGATATCGGCAAGATCGGGGTCAGGGACAACATTTTGCTGAAGGAAGGGAAACTGACGGCAGAGGAGTTCGATCAGGTAAAGGCTCATCCGGCGCAAGGGGAGAACATTCTGCTGCAAATCGAGCCTGCCGATGCGATGGCTCCTTACCTGGAGGGGGTGCGCTCCCACCATGAGCGCTATGACGGAGGCGGATATCCTGACGGGCTGAAGGGAAAGGAAATTCCGCTGTTCGGCAGGATTATTGCGGTGGCCGATGCCTATGATGCCATGACGTCGGATCGGCCGTACCGCAGCGGCATGAAATCTTCGGATGCATTGAGCATATTGGAAGCCGGTAGGGGAACCCAGTGGGATCCCGATTATGCGGGCATGTTCGTGAAATACATGAAAGCGGAGAAGAAGGTCATTACGATCCGTTAG	MQLYKSFLKQLIRNYMIGSIAAVLVVGGVLMVTTLEIPTREGVRLVLILAVSFMVMVASELTVFLRHLRPIHAGFDEGHTDLETLEKAYLSIHRMPRLAVYRIFGPHLLGLSLPAILLTVWMMEQGKLNFPPFYIWLACLGAVLLASCHAMIEFFLTIAAVRPLIKEVRRQALSRYGVDFSLEGHVFMAIRTKFLLSTMLIGTFPLFLFSLAVQIRLEGLSQIVAQQYWGWAGFILLLGVGFAYIGAWLLTQDLQRPIRQLYRAMNEIKEGRLIQTSNLYSDEFSNLIAGFNMMVRGLQVREERNRKLLDSYFAALAAALDARDPYTAGHSLRVAEYSVLIGRLAGLSEEQVDLLHKTALLHDIGKIGVRDNILLKEGKLTAEEFDQVKAHPAQGENILLQIEPADAMAPYLEGVRSHHERYDGGGYPDGLKGKEIPLFGRIIAVADAYDAMTSDRPYRSGMKSSDALSILEAGRGTQWDPDYAGMFVKYMKAEKKVITIR				NA	NA	NA	NA	NA
AK002_00711	771	tatC2_1	COG0805	Sec-independent protein translocase protein TatCy	ATGGAGTTCAAGAATACCATGACGCTGCTCGAGCACATCGCCGAACTTAGAAAGCGAATCCTTCTTGTAGCCGCCGTCTTTCTCCTAAGCATGGCGGCAGGCCTATTCGCCGCACCCTATGTGTTATCCATGTTAAAGCATCATTCGCCGGCCTTTCAGGTAACCTGGAACGTATTCTCGCCCTGGGACGGACTCCGCATCTACATGAGCATCAGCATCGTATTGTCTCTGCTTCCTACCTTGCCGTTCGCCCTGCACCAAATCTGGCTGTTTGTCAATCAGGGACTGAACGGCCGCGAGCAGAAAGCGGCCCTTCGGTTGGTCCCCTTCTCCGCGTTATGTTTTCTCATAGGGGTCGCGTTTGCGTACTTTGTCGTTTTTCCGATGAGCCTCGCTTTTACGACGGGAATCAACAGTCAGATGGACCTCGTCGAGACGTACGGCGTCGCCCAGTACTTCGGTTTCATGTTCAATATCATCATCCCGCTGTCTCTTGCCTTCGAGCTGCCTGTCATCGTCCTGTTTCTGACGCGAATAGGAATATTAAGCCCGGCTCTCCTGCATACCATGAGGCGCTACGCCTACGTCGTTCTGGTTATCGTTGCGGCGCTGATCTCGCCGCCTGACCTCGTATCCCACCTCATGGTTGCCGTCCCGCTCATCGGTCTGTATGAAATCAGCACATGGCTGGCAGGCTGGATGCATCGCAAGAGAGAGCATGCAGAGCATGAAGAAGGTACGGAAATCGATACGGCTCACCAGATGATCTGA	MEFKNTMTLLEHIAELRKRILLVAAVFLLSMAAGLFAAPYVLSMLKHHSPAFQVTWNVFSPWDGLRIYMSISIVLSLLPTLPFALHQIWLFVNQGLNGREQKAALRLVPFSALCFLIGVAFAYFVVFPMSLAFTTGINSQMDLVETYGVAQYFGFMFNIIIPLSLAFELPVIVLFLTRIGILSPALLHTMRRYAYVVLVIVAALISPPDLVSHLMVAVPLIGLYEISTWLAGWMHRKREHAEHEEGTEIDTAHQMI	PGPT0029295_3040	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
AK002_00712	252	tnrA		HTH-type transcriptional regulator TnrA	ATGGAGAGTAAGGTGATGAGTATTGGGGTTGTTTGCGAACTGACCGGATTGACGGAAAGGCAAATCCGGTATTACGAGGAACGCAAGCTCATATTTCCGGAGCGTACGAAGGGAGGGAACCGAAGATATTCTTTTGAGGATGTGAAGAGCATTCAGGAAATCCATCAAAAAATGCAGGAGGGATTTAATACGTTTGAACTGAAGGAATTGAATAAGTCGAAAAAGCAGCGCTGCACGCCTATCTTCCGATGA	MESKVMSIGVVCELTGLTERQIRYYEERKLIFPERTKGGNRRYSFEDVKSIQEIHQKMQEGFNTFELKELNKSKKQRCTPIFR	PGPT0001085_119	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001085-tnrA-K23776	NA	NA
AK002_00713	1605		COG1231	L-amino acid oxidase	GTGGCTACAAAAGAACAACCAAAAGAGATGACCCGGAGACAATTTCTGACGACCGTTGGCAAGGTGGGCGGATCTGTCGCCGTCTTCAGCTTGATGGGTACGATGGGGCTCCTTACGCCGGAAACGTTGAAAGCCGCGGAATATACTCCACCCGGAAAGAATGATCTGCATCTCAGCGGCCGGGGCGGCAAGAAGATCGTTATTCTCGGCGCAGGGATCGCGGGCCTGACGGCAGCGTATGAGCTTGGTCTGGCAGGTTACGACTGCACGATATTGGAGGCAAAAAGCTTTGCCGGCGGGCGTAACTGGACGATACGCAAAGGAACCTCCGTGTCGGAGATCGGATCCGGCCGTCAGACTTCCCGTTTTGATAACGGACTGTATTTCAATGCAGGCCCGATGCGGATTCCCCAGTTTCACGTCACGCTGGATTATTGCAAGAAGTTTGGCGTAGCCATCGAGCCCTTCAACAACGTGAACGAGAGCGGCTATTACTATAACGAGAATGTGGGGGCTTTGTCCGGACAGCGCGTCCCCAAGCGTGCAGCCAAAGCCGACGTACGCGGTTACGTGGCCGAGATGCTGGCCAAGGCCGTGAATCAAAATGCGCTGGATCTGCCGCTGACGGCGGAAGAGAAGCTGAAGCTGGTGGATTATTTGAAGGCCGAAGGCGATCTGAATCCGGACCTGTTCTACAAGGGATCGGAGCGCGGCGGGTATAAGGATGAACCGGGAAGCCGCCTGGATGCCGGCGTGCTCCGCGATCCGTTCGATTTAAAGGCCATCATCAATTCCGGCTTCGGCAAATATTTCAGCAACGAATACGGTTACGACCAGCAGATGATGATGTTTCACCCCGTAGGCGGCATGGACGCCATCATCAAGGCATTCGAGAAACGGGTAGGCAGCCGAATCAAGTACCGGGCCGAGGTGAAGGAAATTCGCCAGTCCTCCTCCGGCGTGCGGATTGTGTATGTGGACGGCCATTCCGGCAGAGAGCAGGAACTCCGCGGCGATTACTGCATCTGCACCATACCGCTGACGGTACTGAAGAAGATCCCCGCCGACTTCTCGCCGGAGATGTCCAAAGCCATCGGCAGCGTGGGCTACGCCTCCGCAGGTAAAATCGGTTTGCAGTTCAAGCGCCGTTTCTGGGAAGAGGACGAGTATCTGTACGGCGGCAGCAGCTTGACGAATATGGACATTACGCAAATCTACTATCCGCCGACAGACTATTTCGGGAAGAAGGGGATCCTGCTCGGCTATTATGCGTACGGGGGCATCGCCGATAAACTCGGCAGCATGTCGTATGCCGAGCGCGAGAAACTGGCATTGACGCAGGGGGCCAAGATCCATCCGCAGTATCCGAAGGAGTTTGAGGCCTCCTTCTCGATCGACTGGAAGAAGACCAAATACCAGGAGGGAGGCTGGGTATCCTATTCCGCCAATGATAGGAAAACCTACTACCCGACCCTCTGCAAGCCGGATAACCGCATTTACCTGGCAGGGGAGCATATCAGCTACATTACGGCCTGGCAGGCAGGTGCCATCGAATCCGCCCGCGAGGTCGTAACCGATATCCATCAACGCGTCATGAAATCATAA	MATKEQPKEMTRRQFLTTVGKVGGSVAVFSLMGTMGLLTPETLKAAEYTPPGKNDLHLSGRGGKKIVILGAGIAGLTAAYELGLAGYDCTILEAKSFAGGRNWTIRKGTSVSEIGSGRQTSRFDNGLYFNAGPMRIPQFHVTLDYCKKFGVAIEPFNNVNESGYYYNENVGALSGQRVPKRAAKADVRGYVAEMLAKAVNQNALDLPLTAEEKLKLVDYLKAEGDLNPDLFYKGSERGGYKDEPGSRLDAGVLRDPFDLKAIINSGFGKYFSNEYGYDQQMMMFHPVGGMDAIIKAFEKRVGSRIKYRAEVKEIRQSSSGVRIVYVDGHSGREQELRGDYCICTIPLTVLKKIPADFSPEMSKAIGSVGYASAGKIGLQFKRRFWEEDEYLYGGSSLTNMDITQIYYPPTDYFGKKGILLGYYAYGGIADKLGSMSYAEREKLALTQGAKIHPQYPKEFEASFSIDWKKTKYQEGGWVSYSANDRKTYYPTLCKPDNRIYLAGEHISYITAWQAGAIESAREVVTDIHQRVMKS	PGPT0007641_393	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
AK002_00714	552	rutC		Putative aminoacrylate peracid reductase RutC	ATGAAAAATAAACTGAAGACGTTCCTGGCACTCGCCATGCTGTTCAGTGCCGTAAGCGTAACCGCATATGCCGACGGTGCTTCTGCCCATAAGAAGCCGGCCAAAGCTTTGCCGGCCCCCAAATTTTACGGCAGTCCTACATCCTCGATCTCCAGCGGGGTAGTCGTGCCGGAGGGTTCCTCTTATCTCTATACGAGCGGAACGGTTCCGCCATTGTTGAACAAGGACGGCAAAACGGTGTATGAACGCTATGGGGATACGAAAACCCAGGGGATCGGCATCCTGAAGGAAATCGAGAAGCAGCTGAAGGAGCAGGGATTGACGATGAAGGATGTCGTCTATTTGAGAGTGTACCTGACCCCGGATGCAGCGAAGAACGGGACCTTTGATTATACCGGCTGGTTTGACGCATACGCCCAATTCTTTAATACGAAGGAGAATCCGGTTAAGCCTGCGCGTTCCACCGTGGGAGTTGCCGGTCTTGTGAATGCCGATTGGTTGATTGAGATTGAGGCCGTAGCCGTATACCCGAATAAGGAAAAGAAAAAGTAA	MKNKLKTFLALAMLFSAVSVTAYADGASAHKKPAKALPAPKFYGSPTSSISSGVVVPEGSSYLYTSGTVPPLLNKDGKTVYERYGDTKTQGIGILKEIEKQLKEQGLTMKDVVYLRVYLTPDAAKNGTFDYTGWFDAYAQFFNTKENPVKPARSTVGVAGLVNADWLIEIEAVAVYPNKEKKK				NA	NA	NA	NA	NA
AK002_00715	222	tatAd_1		Sec-independent protein translocase protein TatAd	ATGTTCCAAAATGTCGGTTTTGTCGGATTGATGATGATCTTGATTGTCGTGCTCATTCTGTTCGGACCTTCCAAGCTGCCCGAGCTCGGCCGGGCGGTGGGCCGCACATTGTCCGAATTCAAAGCCTCCGCCAGAGAGCTGGTTGGCGAGGATAAAGAGGAGGAGAAGGATAAGGAGAGGGAGAGGGAAAGGGAGGGAGCCGTCATCAAACTGAAAGGCTGA	MFQNVGFVGLMMILIVVLILFGPSKLPELGRAVGRTLSEFKASARELVGEDKEEEKDKEREREREGAVIKLKG	PGPT0029290_3771	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
AK002_00716	204			hypothetical protein	ATGGATAGCAACGTATTTAAAGGGAAATGGAAGCAGATGAAGGGTGAAGCGAAGAAGCAATGGGGCAAATTGACGGATGACGATCTTGATGTGATCGACGGCGAGAAAGATAAATTGGTTGGCAAGCTGCAGGAACGCTACGGGCATACGAAGGATGCGGCAGAGCGCGAATATACGGATTGGAGTGCAAGATACCGCGACTAG	MDSNVFKGKWKQMKGEAKKQWGKLTDDDLDVIDGEKDKLVGKLQERYGHTKDAAEREYTDWSARYRD				NA	NA	NA	NA	NA
AK002_00717	276			hypothetical protein	ATGTTGGAATCCCGTGTTGTGACCGGCAAGGTGATCGATATTCGTGACGGCAAGGTGTTTACCTTACACGGAGATATGGTCAGCACCTATCATTTGGGATACTACGAGATGACGAACGAGGAGATTCTCCCTGTCACGGACAGTCAGCAGGCGGCAGCGCCCGCTGCGGGCCTCATGGCGGAGGAATCTTCCGAGTCCTCCGGCTGGCTCGGCAGGGAATGGAAACCGCTGGCCAGTTTCATAACCGCATGGAGAAAGAGTGCAAATCGAGCCTGA	MLESRVVTGKVIDIRDGKVFTLHGDMVSTYHLGYYEMTNEEILPVTDSQQAAAPAAGLMAEESSESSGWLGREWKPLASFITAWRKSANRA				NA	NA	NA	NA	NA
AK002_00718	1287			hypothetical protein	TTGAAGACATCGAAGGAGTGTATCAACATCAAGGCTGTCCAGGTTATTCACAAGCCGCGCAAACAGGTTTCGCATCAACGCAAACATTTGATGACGGCCACATGGGAAGGGGTTCCGGCGATCATTTTGCAGACGCTGCTGGGCGGTCCCTTCTTGACAGGGTACTTATTGTACTTAGGCGCGGAATCCAGTGAGGTTGGTTTTGTTCTGGCCGTCACCACGCTGTTCAACGTGCTTCAGATTCTGGTTGCGTACCTAATCCAGCGCTTGCAGTACCGCAAGAAAGCAATGATTGTGTTTACCTTTATGCACCGCATATTGTGGGGGGCTACGGGCCTGATCCCGTTTATTTTCCCGGAACGATGGTGGGTTCCGGTGTTTATGATCCTTTATATGGGCGCCTTTATTGCCAATACCGTATCCGGCATGCTGTGGACCTCGCTGATAAGCGACATGGTGCCGGCCAAAGTGCGGGGACGTTATTTCGGCATACGCAATACCATCCTGAATGCGCTCGGAGCCCTGACCCTGTTTGTTGGCGGGATCATCCTGGACCGTTACCCCGGCGGCGGGGGCTTCCTGATTCTGTTTATGATTTCTTGGATTGCCATCGCTGCGAACTTATCCATGTTCTTCTTGTATCCTGATCCTCCCTTCGAGCATTCGAGCGAGCGTCAGTTTAGGGCGATGATCCGCAAGCCGCTGTCGGATACCACGTTTATCAAATCTACGCTGTTTCTGGCTGGCTGGCTCTTTCTGCAGACGTTGATTGTTCCGCTCTACTCGTACGCCATGCTGGACGTTCTGCATATTTCGTATTCGATCGTATCCATCATGACCGTTGCGCAGACCGTGATCATGATGATCGGCTTCTACGTATGGGGGAATTTGAATGCGCGTTTCAGCAACAGAACCTTGCTCTATTGGACATTGCCGCTGATTGCGGGGTCGTGCTTGACATGGGGCTTGCTGTCCGTCCTGCCCGTGATCCCGGTGCTGCTGTTATCGCATATGCTGCTTGGTGCCGGCGTAGGCGGCTTTAACCAGCTTGCCTTTAACTTCATGATCGGAGATACGCCGAAAAGCGAACGGCCGATGTTCATTGCCGTATACTCCTCCATCACGGGGTTTGCTTCTTTTCTCGGACCCATGCTGGGCGGTCTCATATTCAAAGGGATTGCACATGCGCCCGACTGGATCTCCCGATATGGTTTTCAAACAGCGGTGGGCGTGCTGATGGTGTTGATTGCTTTGACGGTGGGGCGGAGAGTGCTTCGTACCGCATAG	MKTSKECINIKAVQVIHKPRKQVSHQRKHLMTATWEGVPAIILQTLLGGPFLTGYLLYLGAESSEVGFVLAVTTLFNVLQILVAYLIQRLQYRKKAMIVFTFMHRILWGATGLIPFIFPERWWVPVFMILYMGAFIANTVSGMLWTSLISDMVPAKVRGRYFGIRNTILNALGALTLFVGGIILDRYPGGGGFLILFMISWIAIAANLSMFFLYPDPPFEHSSERQFRAMIRKPLSDTTFIKSTLFLAGWLFLQTLIVPLYSYAMLDVLHISYSIVSIMTVAQTVIMMIGFYVWGNLNARFSNRTLLYWTLPLIAGSCLTWGLLSVLPVIPVLLLSHMLLGAGVGGFNQLAFNFMIGDTPKSERPMFIAVYSSITGFASFLGPMLGGLIFKGIAHAPDWISRYGFQTAVGVLMVLIALTVGRRVLRTA				NA	NA	NA	NA	NA
AK002_00719	639			hypothetical protein	TTGGGAATGGTTGCACTCGTAGTCGGGGCCACGGGGCTTGTGGGGCGTTCGGTGACCGACGAGCTGCTGGGCCGCGGGGAGCTTGACGAGGTTCGCGTGCTGGTGCGAAGACTCCCGGATGTCACACATCCCAAGCTGCTGCCCATCCTGGTGGAGTGGGATCAGCTGGAACGATACGGCGACGCTTTTTCCGGCGTCCATAGCGTGTACTGCTGTCTGGGGACCACGATCAGGAAAGCGGGGTCCCAGCAGCAGTTCCGTAAGGTGGATGTGGACTATGTCATCAAGACGGCAGAGCTGGCCAAGCAGAACGGGGTGAGGCAATTTATGGCGGTCAGCTCCGTAGGTGCCAATCCGAAGGTGCGCAATTTCTATCTTCGCACCAAGGGAGAGGTTGAAGAGCGATTGGCCGGAATCGGTTTCCGGGGACTGCATCTGTTCAGGCCGTCATTATTGCTGGGGGATAGAACCGAACGGCGGCTTGGGGAGCGGGCGGCTTCGCTTCTGATGACTTCCCTCGACTTTGCCTTCAGGGGTCCGAAGCTTGCCCCATACCGGGCCATTCCGGCGCAGAAGGTCGCCAGGTCGATGGTGAACATCGGTCTAACGGATATAAAAGGCCATCATGTATACCAATGA	MGMVALVVGATGLVGRSVTDELLGRGELDEVRVLVRRLPDVTHPKLLPILVEWDQLERYGDAFSGVHSVYCCLGTTIRKAGSQQQFRKVDVDYVIKTAELAKQNGVRQFMAVSSVGANPKVRNFYLRTKGEVEERLAGIGFRGLHLFRPSLLLGDRTERRLGERAASLLMTSLDFAFRGPKLAPYRAIPAQKVARSMVNIGLTDIKGHHVYQ				NA	NA	NA	NA	NA
AK002_00720	381	tdcF	COG0251	Putative reactive intermediate deaminase TdcF	ATGAGTAAACATATCATATCGACCGACAAAGCCCCGGGAGCCATCGGACCATACAGCCAAGCTGTAGAAATCAACGGATTCGTATATACTTCAGGCCAGCTGGGATTGAATCCGGAAACAGGAGAATTCGGTGAAGGGGTTCAGGAACAAGCGAAGCTTTCGCTCAGCAATGTCAAGGCAATTCTCGAAGCTGCCGGGACAAGCCTGGATCAAGTGGTTAAAACCACGGTATTCCTGAAGGATATGAACGATTTCGCGGCGGTGAACGAAGTGTACGGCAGTTTCTTCTCCGAGCCGTATCCTGCGCGCAGTGCCGTGGAGGTTGCTCGTCTGCCGAAGGACGGATTGGTAGAGATCGAGGTTATAGCCGTTAAGAATTAA	MSKHIISTDKAPGAIGPYSQAVEINGFVYTSGQLGLNPETGEFGEGVQEQAKLSLSNVKAILEAAGTSLDQVVKTTVFLKDMNDFAAVNEVYGSFFSEPYPARSAVEVARLPKDGLVEIEVIAVKN	PGPT0020030_3678	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
AK002_00721	765			hypothetical protein	ATGTACCGTACGAACCCGTACCGCTGGTGGAATCTGCTGTTCTTCCTCGGGGTTATCACCGTGAACGTGTTATCGGGCATGCTGCCGCTGGGCGGCAGAACGACCGGGGAGATATCGGATATGTATTATACGGCGATCACTCCCGCTGGGTATGCCTTTTCCATATGGTCCGTCATCTATGTGCTGCTGCTCTTTTTTGTCATCTACCAGCTGCGCCGCGATTCCGGAAACCGGGATTCCGTCAAATCCATCGGTCCATGGTTTATTCTCAGCTGCGTATTCAATATGGCATGGCTTGTACTATGGCACTATTTGTATATTGAATGGTCTGTCGTTGTGATGTTATTGCTGCTGCTGACCCTATGGGTTCTATATGTGCGCACGCATGCGATAGACTATCCGACGAACGGCGAGAGATTCTGCCTGAAGCTGCCGTTCAGCCTATATATCGGCTGGGTGTGCCCTGCCTTTATCGTCAATGTCGGGATCGTGTTCCAGAAGAATGGCTGGAGCCTCTTCGGGCTGCGCGAGTCCGCTTTGGGTATCGCCCTGCTCTGCGTAGGCGCTTTGCTCGCCATCCTGATCGGACTGCGATACCGGGACGGCATCGTACCGCTGGTCTTCACCTGGGCTTACATCGCCATCGCCGCCGAGCATCGGGAGACCGACAGTATTTTAATGACCGCCTTCGTGCTCTCGATCGTCTTGTTTGTATTTGCCATATGGCTCTTCTTCACGCGCAACCGGAGACGATCCCGGTATTAA	MYRTNPYRWWNLLFFLGVITVNVLSGMLPLGGRTTGEISDMYYTAITPAGYAFSIWSVIYVLLLFFVIYQLRRDSGNRDSVKSIGPWFILSCVFNMAWLVLWHYLYIEWSVVVMLLLLLTLWVLYVRTHAIDYPTNGERFCLKLPFSLYIGWVCPAFIVNVGIVFQKNGWSLFGLRESALGIALLCVGALLAILIGLRYRDGIVPLVFTWAYIAIAAEHRETDSILMTAFVLSIVLFVFAIWLFFTRNRRRSRY	PGPT0014330_40	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770	NA	NA
AK002_00722	1617	rssB_3		Regulator of RpoS	ATGAGAGTATTGATCGTAGATGACGAGCAGCACGTTCGGGAAGCTATAGGGCTTCTGGCAGACTGGGAACGGCATGGCATAACGGAGATCGACCAGGCCGCCGACGGCGAGGAAGCGGTACGGCTTATCGAGGAGAAGAAGCCGCAGATTGTCATGACCGACATGCGGATGCCCCGCAAAAACGGACTTGAGCTGCTGACCTGGCTGCATGCCACGAAACCGGATATTAAAGTGCTTGTCATCAGCGGATACGATGATTTTGAATATGTGCGCCATACCATCCGTTCGGGAGGCATCGATTATATTCTCAAGCCCGTGGATCCGGACAGCTTGAACGAGGCGCTGGCCAAAGCGGTTGAAACCTGGCGGCTTGAGGAAGAGAAACGGCGGCATATGACCAATCAAAATATTGAAATGAATCAGATGACCCCATTCTATATGGACCGCCTGCTCTCGGATCTTGTGAACGGTTACGGCAGCAGGGAAAGCGTCGTCTCTCAATTGCGGAAACGGATGACGCTGCCCGAAACCGGCATGGCTTGCAACGTTGCCGTGCTCCGCGATGATCAATTTGACGAAGCTTTGCTGTCCAAATTCCGCAATAGGCGGCATCTGCTGAGCTTCACCCTCATCAACATTTGCAATGAGCTGTTGAAGGATCGCGGAGTAGCCTTCCGACATATCGACAAGCCCGGAGAAATCATCCTGCTCTGTTGGAATCCACGTCTTCCCTTTAACGACCTGCTGGATCGAATCAATGACGGGTTCTTCTCCACCCTTCGCAGGCGGGGCCATTTCGGCGCCGCCGAAGCGGGCGCTTTTCCCCATGATTTGCCCAAGGCATATTCGACTGCAGTCCAAGCCCTGTGCAGCCGTAATTTATTGACCGGCAAGTCCCACATCCATCGTGAGCGCGCCGTCGAAAGCGAGGGCTCGCGCACCCTGCGCCTCTCCTCCTACGAGGAGGAATTCAAGCTGGCTGCACTCAGCGGGAGCAAGGAGCGCATCGAGGCGGCCACGGAAGAGTGGCTGCAGGAGGTTCGCGAGAGGGATCTTGTGTCGCCGGAGCATCTGATGAGGTGGAATTCGGAATGGGACTGGATTCAGTATCATTGGACGGAAAATGAAGTGAAGAGCACGCAGGAGCCCGTCGAGGACGCTGAAATTTCGCAGGACCTTCCCTCTGCGCTCCCTTACAGCGAGGATGGCATGATTTGCTGGGACCGCTGGCGCGAACAGATCAGTGGTAGACTCTACGCGGCATCCCGGGTCCTTACCCAGATCCATTCGAAGGACAATCACATCATTCATGACATAGCCCAATATTTGGAACAGCACTATCATGATGAGATTTCGCTGCAGCAGATCGCAGGCAAGTTCTTTCTTAGCAGGGAGTACATTTCCCGTAAATTCAAGCAGGAATTCGGCGTGACGTTATCGGATTTCCTCGGGCGGATTCGAATCGAGAAAGCCAAAACGCTGCTGCTCAATCCCCAAATTCGGATTGCCCAGATCGCGGAGATGGTCGGTTACCAGGACGAGAAATATTTTAGCAAAGTGTTCAAGAAGATGGAGGGTTTCACGCCGAACGAATATCGCAAGAAGCATATGAATTAA	MRVLIVDDEQHVREAIGLLADWERHGITEIDQAADGEEAVRLIEEKKPQIVMTDMRMPRKNGLELLTWLHATKPDIKVLVISGYDDFEYVRHTIRSGGIDYILKPVDPDSLNEALAKAVETWRLEEEKRRHMTNQNIEMNQMTPFYMDRLLSDLVNGYGSRESVVSQLRKRMTLPETGMACNVAVLRDDQFDEALLSKFRNRRHLLSFTLINICNELLKDRGVAFRHIDKPGEIILLCWNPRLPFNDLLDRINDGFFSTLRRRGHFGAAEAGAFPHDLPKAYSTAVQALCSRNLLTGKSHIHRERAVESEGSRTLRLSSYEEEFKLAALSGSKERIEAATEEWLQEVRERDLVSPEHLMRWNSEWDWIQYHWTENEVKSTQEPVEDAEISQDLPSALPYSEDGMICWDRWREQISGRLYAASRVLTQIHSKDNHIIHDIAQYLEQHYHDEISLQQIAGKFFLSREYISRKFKQEFGVTLSDFLGRIRIEKAKTLLLNPQIRIAQIAEMVGYQDEKYFSKVFKKMEGFTPNEYRKKHMN				NA	NA	NA	NA	NA
AK002_00723	1785			hypothetical protein	ATGAAATATCGCAGCATCCAGACCCGGCTGATCACGTTTATGCTCGCCGTCACGACCATTCCGCTCCTGCTCTCGTTAATCATCACGTTTACGCATACCCGCGAGTCCGTGAAGGAGCAGACGGTGAACGAAAATGTACGGCTGATCTATCAAGGAGCGACCAATCTGATGAACTATCTGCGCGGCATCGACCGCGCGTCGCTGTCCGTTTATTCGGATCCCCATTTTTTGCGCAACCTTGCCCTGGATCCCGATAACCACCGGGTCGTAGCCGAGCTGTATGCCACCTTGCAGGCCATCCAAACGGGCACGCAGGACGTTCACCAGATTTATCTGCACAATCAATTGACGGGACAATCCACCCAGATATCCAGCAATCTGCCAAGAAGGGAATTCCGGCAGGCTCCGTACCGCAAAATAGAAGAGTTCGGCGAAGGCAATACAGCCATCGAGCCCGTCCATCAGGTGCATAGTTACGGGTTCCCTCCGCGGCCCGCGGACATCCTGGATTTTGAGGTGATCACCTTCTACCGATCCATCACAAACGTGCCTGCGCCGGACCAATATGCCCTCATGGCCATTGACGTGAAACTCGACAGTATCTTGGCCATATGCGATCAGCTTTATGCTAAAGGGGAAGAGGCGCTATACTTGATTGATAGCAGCGGCAGCATCATATACGGTCCGGATCCGCAGCAGAGAGGTCAAGCACTGGACGATCCTGAGCTTATGGACGTCATCGCTCAAGCGGAAAGAGGATATTATGACGGCGAGGATGCGATGATTGTCTATGAGAAGCTCGATTTGCCTTACGCACCCTGGACGCTCGTAAAACAAATTCCGCACCAAACGCTGTACAAACATTCGACGGAATTAACGAGCATTAACGCGATTATTGCGATATTGGCGCTATTCATTGTCATATTCGGCACATTATGGATATCGATTCGAATCACAAAACCCATTAAACAGCTCACAACCTATATGAATCAGGTGAAAACCGGGCGGCTCGACGTGAATATCGACGTGACAAGCCCGGATGAGATCGGCATTCTGTCCCGACGCTTCCGAACGATGATGGATACCATCAACAACCTGATCCTGCGCGAGTATCGGCTGGAAATCGCCAATAAAACCAACCAACTGAAGGCGCTCCAGGCCCAGATCGATCCGCATTTTCTGTACAATACGCTCCAGTCCATCGGCACCTTGGCCCTGCAGCACAACGTGCCGAGGATTTATTCCTTGCTCTCTTCGCTGGCGAATATGATGCGCTACAATATGCGTAACAGCGAGGGCAAAGTGACGCTTCAGGATGAGATCAACCATGTGCGGCTGTACCTTGAACTGCAGAAACAGCGGTTCCGCGATCAGCTGGAAATCATCTGGGATGTGGATCCGGAGAGCCTCACGGCCCCGGTTCCGAAGATGATCCTGCAGCCGATCGTTGAGAATTATTTCAAGCATGGCATGAACACGCACGCCGGCGTCGGCCGCATCTCCATCTCCACCCGCATCGCGGAGGATGGCCGCTTAATCGTTGTCATTGAGAATAACGGGGCTTCCATCGAGGAGGCAGAGCTTGCCTCGATCCGCGGCAAACTTGAGACGGCCTTTCATCATCCTGACCGAAACGATGCCGGCGAAGATTCCATCGGGCTGTTGAACGTATTCATGAGGTTGAACCTGTACTCCAACAATCATGCTGAATTAACCATAGAGAATGCAGAGCCCCACGGCGTCAAGGTTACGCTCGATATCAAACCACGGGAGAGTGAACACTAG	MKYRSIQTRLITFMLAVTTIPLLLSLIITFTHTRESVKEQTVNENVRLIYQGATNLMNYLRGIDRASLSVYSDPHFLRNLALDPDNHRVVAELYATLQAIQTGTQDVHQIYLHNQLTGQSTQISSNLPRREFRQAPYRKIEEFGEGNTAIEPVHQVHSYGFPPRPADILDFEVITFYRSITNVPAPDQYALMAIDVKLDSILAICDQLYAKGEEALYLIDSSGSIIYGPDPQQRGQALDDPELMDVIAQAERGYYDGEDAMIVYEKLDLPYAPWTLVKQIPHQTLYKHSTELTSINAIIAILALFIVIFGTLWISIRITKPIKQLTTYMNQVKTGRLDVNIDVTSPDEIGILSRRFRTMMDTINNLILREYRLEIANKTNQLKALQAQIDPHFLYNTLQSIGTLALQHNVPRIYSLLSSLANMMRYNMRNSEGKVTLQDEINHVRLYLELQKQRFRDQLEIIWDVDPESLTAPVPKMILQPIVENYFKHGMNTHAGVGRISISTRIAEDGRLIVVIENNGASIEEAELASIRGKLETAFHHPDRNDAGEDSIGLLNVFMRLNLYSNNHAELTIENAEPHGVKVTLDIKPRESEH				NA	NA	NA	NA	NA
AK002_00724	882	melD_4	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAATCGAAAAAAATCTTCGGCGCTGCTGCAGCAGTTTCTTTTCGTGGGGCCGTCCACCATATTTTTCATCCTCATCATGATCATTCCGTTCCTCCTGGGTCTTTATTATTCCTTCACGAACTGGAATGGCGTGTCAAGCAAAATCGACTTTGTCGGCTTTGATAATTTTGTTACCATCTTTACCAACGATGATAAATTCCGGGATGCTTTCTGGTTTACGACCCGGTTTACGGTGCTTGGCGTCATCCTTACGAATCTTCTAGGATTTATTCTGGCGTACTTTTTGACAAAGCCTTTGAAGACACGCAACGTGCTGCGGACGATCTTCTTCATGCCAAACGTCATCGGCGGCCTGCTGCTCGGTTTCATCTGGCAGTTTATCTTTGTCAAAGGGTTTGCGGCGATCGGCAATGCCACGAACCTTGGATTCTTTAACCTGCCTTGGCTCGGCACAAAGGGAACTGCCTTTTGGGCAATTGTAATCGTTTTCGTATGGCAGACGGCGGGGTACCTGATGGTCATCTATATCTCCTCGCTTAACAATGTGCCAAAGGATATTCTGGAGGCTGCCGAAATCGACGGGGCAAGCAGAGGGCAGGTACTGCGGTCCATTATCATCCCGCTTGTCATGCCGGCGGTTACGGTATGTTTGTTCCTGGCGATTTCCTGGTCATTCAAAATGTTTGACTTGAACCTATCCCTGACCAAAGGCGGCCCGTTCGGCTCGACCGAGTCGGTGGCCATGAATATTTACAACGAGGCCTATACGAATAACCGTCTCGGACTCGGAACGGCGAAGGCGGTCATATTCTTCATCGTGGTTGCCATCATCACAAGCCTGCAAGTCCGATTCACGAAGAGCAAGGAGGTTGAAGCCTAA	MNRKKSSALLQQFLFVGPSTIFFILIMIIPFLLGLYYSFTNWNGVSSKIDFVGFDNFVTIFTNDDKFRDAFWFTTRFTVLGVILTNLLGFILAYFLTKPLKTRNVLRTIFFMPNVIGGLLLGFIWQFIFVKGFAAIGNATNLGFFNLPWLGTKGTAFWAIVIVFVWQTAGYLMVIYISSLNNVPKDILEAAEIDGASRGQVLRSIIIPLVMPAVTVCLFLAISWSFKMFDLNLSLTKGGPFGSTESVAMNIYNEAYTNNRLGLGTAKAVIFFIVVAIITSLQVRFTKSKEVEA	PGPT0016335_1689	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_00725	837	melC_4	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGGAGACTACAAGAAAATACCGGCTGAACACCATGGCCACCGAGATCATCATGGTCATCTTGGCATTGCTCTTCCTGGTTCCGTTCTACTTCCTGTTCGTGAACTCCGTCAAAACCTTCGGCGAGCTGTTAACCGATTCGGCGGGGCTTCCGACCACGTTCGAATGGAGCAACTATTCACGGGCGTGGGACATTACCAACTTCCCGAAGGCGTTCTGGAATTCGCTGGTCGTTACGGTGGCGAGCAACCTGCTGCTGGCGATGTTAAGCGCCATGACCGCTTACCAGATGGTTCGCCGCAACACGCGTTTTAACCAAATCATGTTTGCGCTGTTTGTGGCGGCGATGGTCATTCCGTTCCAATCGATCATGATTCCGCTCGTGAAAGTAACGGCAACGCTCGGCATTAACAACAGCTTGTACGGACTGATTATCTGTTACCTGGGCTTCGGGGTTCCGCTGAGCGTATTCCTGTTCCATGGCTTCGTGAAATCGATCCCGATGGAGATCGAGGAAGCCGCAACCGTGGATGGCTCCAGCGGGTACGGCGTATTCTTCCGGGTGGTTTTCCCGCTGATGAAGCCGATGTTCGTGACGGTGATCATCCTGAACACCTTGTGGATATGGAATGACTACCTGCTGCCATCCCTGATTCTGCAGTCTGCCGAGCTTCGGACGATTCCAATTGCTACTTTTGCCTTTTTTGGGCAGTATACCAAGCAGTGGGACTTGGCCCTCCCGGCGCTGGTGCTGGGGATCATGCCAGTCATTCTGTTCTTCCTGGCCATGCAGAAGTACATCATTGAGGGAATTACGCAAGGAGCGGTGAAGGGATAA	METTRKYRLNTMATEIIMVILALLFLVPFYFLFVNSVKTFGELLTDSAGLPTTFEWSNYSRAWDITNFPKAFWNSLVVTVASNLLLAMLSAMTAYQMVRRNTRFNQIMFALFVAAMVIPFQSIMIPLVKVTATLGINNSLYGLIICYLGFGVPLSVFLFHGFVKSIPMEIEEAATVDGSSGYGVFFRVVFPLMKPMFVTVIILNTLWIWNDYLLPSLILQSAELRTIPIATFAFFGQYTKQWDLALPALVLGIMPVILFFLAMQKYIIEGITQGAVKG	PGPT0016340_1337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_00726	1290	msmE_1	COG1653	Multiple sugar-binding protein	ATGAAGAAATACGGTAAGCTGCTCCTGGTCATGGTATTGGCTTTCTCCACGCTGCTTGCAGCCTGCGGCGGCAACAATGAGGACGGCCAAGGCGCTGAAGGCGGTGCCGAGGGCGGAACGAAAACGATTAAGATTTTTCAATTTAAAGTCGAAATCGCCGAGGCTTTGAACAAACTGAAGGCCGAGTATGAAAAAGAGCATCCGGGCATCAAACTGGATATTCAAACGGTTGGCGGCGGCTCCGATTATGGTGCGGCGCTGAAGGCGAAGTTCGCTTCCGGCGATGAGCCCGACATTTTCAACGTCGGCGGGTACCGCGATCTGGAGACATGGTTTGAGAATGTCGAGGATCTCTCGGACCAGCCATGGGTGAAGGACGTTGTTGACGTTGCCAAAGAACCGATGACAAAAGACGGTAAACTGTATGGACAACCGATGACCATCGAGGGCTACGGATTCATTTATAACAAAGATTTGTTTGAGCAAGCGGGAATCACCGAACTTCCTAAGACGATCACGGAGCTTGAGGAAGCTGCCAAAAAGCTGCAAGCGGCTGGGATTACGCCTTTCGTGAACGGATATCAGGAAACCTGGATTTTGGCCAACCACTTGCTGAACATTCCGTTCGCCCATCAGGAAGACCCCGATGCATTCGTCAAAGGAATGAATGAAGGCACGGAGAAGCTGGTAGGCAACGCGAAGTTCGATGAATGGATGCGACTGTTCGACCTCACCGTCCAATACGGCCAGAAGAACCCGCTGACGACCGATTACAACACGGAAATCACGACCTTTGCCAGCGGTGAAGCAGCCATGACCCAGAACGGGAACTGGACGCAAGTGCAAATCGACGGCATCAATCCGGATCTGAACATTGGCCTTCTGCCAATGCCGATCAATGACAACGCCGAAGAGAACGACAAGCTTCCGATCGGTGTGCCAAACAACTGGGTCGTGAACAACAAATCCAAGGTGAAGGATGAAGCCAAGGAATTCCTGAACTGGCTCGTTACTTCGGAGACCGGTAAACGTTATATTACAGAAGAGTTCAAGTTCATCCCGGCGCTGACCAGCATCGAGGCGAATAGCGAGACGCTTGGCGATTTGGGTAACGATGTCGTGAAATACAGTAAAGAAAACAAAGCGCTCAGCTGGGAGTTCAACAAATTCCCTGATGGCGGCATGAATGAATTCGGCAGCCAGATGCAGGGTTATGTTGCTGGCAATGTGGACAAGAACCAATTGTTCGAAGGCATTCAGAAATCATGGGAGAGCTTGAAGGCGAAGTAA	MKKYGKLLLVMVLAFSTLLAACGGNNEDGQGAEGGAEGGTKTIKIFQFKVEIAEALNKLKAEYEKEHPGIKLDIQTVGGGSDYGAALKAKFASGDEPDIFNVGGYRDLETWFENVEDLSDQPWVKDVVDVAKEPMTKDGKLYGQPMTIEGYGFIYNKDLFEQAGITELPKTITELEEAAKKLQAAGITPFVNGYQETWILANHLLNIPFAHQEDPDAFVKGMNEGTEKLVGNAKFDEWMRLFDLTVQYGQKNPLTTDYNTEITTFASGEAAMTQNGNWTQVQIDGINPDLNIGLLPMPINDNAEENDKLPIGVPNNWVVNNKSKVKDEAKEFLNWLVTSETGKRYITEEFKFIPALTSIEANSETLGDLGNDVVKYSKENKALSWEFNKFPDGGMNEFGSQMQGYVAGNVDKNQLFEGIQKSWESLKAK	PGPT0016330_1970	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_00727	213			hypothetical protein	ATGAGTTTTGTTGGCTTTGGTATTTTCGGGATTGCGACTTTATTGCTGGTATTGTTCTTCTTTCTTCTTCACATTGCCGTCTGCGTATGGGGTTATAACGATGCCCGGCGGAAAGGGCGCAGTCCCGAGTTCGCGATTCTTGTTGTGCTGGGTTTATTGTTCTTCCCTGTCGTGGGTCTTATTATTTACCTGCTGATCCGCAATAATTATTAG	MSFVGFGIFGIATLLLVLFFFLLHIAVCVWGYNDARRKGRSPEFAILVVLGLLFFPVVGLIIYLLIRNNY				NA	NA	NA	NA	NA
AK002_00728	3102	rapA_1		RNA polymerase-associated protein RapA	ATGAATCAACCGCTCTATGGCGTATGGTTAGGTGACGTATTCTTTTGTTTTTCCGGTGAGGTTTCGGAGCCCCGAGTGGATGCATGGAGCAGAGTGGTCCGAACCTTTCGCAAACCGGATGGAACCCGTCCCTTCGCTAACGCTTCCCTCCGGCTTGCCGAGCTCAGATATCCGGCCAAAGTCCTCGGATCGAAAAGCGCGCGGCGCCCGGAACGGAAGACGCTTGGCGGACGGACGATGGAAGGGCTTGCGCTGACACCGGGAGACGCATTCTCCATGCTGGTTTCGCTGGATCCCGAGCATACCCAAGCTCAGGGTTTGGCCGTCGGCGAAGAAATGGAATATTGGGTGCAAGCGAGCAGATTCGCATTGGAGCTGTTATTGCAGGGGAAGATTGCACCAGGGACGGCGGAGGATCCTTCCGCCGGAAGGCGCAAAACGTCGATGCACACGATAAAAGCGGTATGGAAACCGCAGTTGAATACCGAGGATACGGCCCGTTTTCTGCAGCTGGCGGCGAATATTCCTCCTATTGCCATCGGGACGCCTGCAGCGCTTGCCGGAACCGATCCTTCCACGCGGGAGGAAGCGGGGGCGATTGTGCTGTATTCTTTCCTGTGCGGCGTGATCGACAGTCAAGCCAGGGCTGCCGTCCGCGAATCGGAGGACAAGCTGAGGGCCTATCTGGCGAACTACCGGCGGGGACAATCCCCGCTTACCGAGCTGTGGTGGAACAGTCTGTTGACGGTCAGTCGGGATATTCCCATTCAAGGAACGGTGGAGGAAGTGGGCGAGCTGGAGGAAGCCGTAGAACGGGTCGGGGGGACCGTGTTCCCTTACGCCGGCGGGGAGGATCAGCCTCCTGAGAACGGAACCCTTGCCCTTGGGCTGCGGCTCGAACCGCCGCTGGAAGAGAGCCGGAAGGACTGGAAGGTAACCTTCTGGGCGCGAAGCCAGGAGGATGAAGGCTTATTGATGCCGGTCCGCAGCGTATGGGGAAGTCCGGAATCCGATCAGCTGCTGCGCGGACGGATGTATGCTGGGGCCCAGCTGCAGCTGCTCATGAGGCTGGGAGAAGCCGCAGCGCTGGCTCCCGAGCTGGCGGCAGGCTTGTATGGGCGCGCTCCGGAGAGCGTTACCCTTCTGCTTGAGCGGTTGTCGACGTTCATGAAGGAATCGGTTCCGAGATTAACGGCGAGCGGCGTTACGGTTCAAATGCCGTCCCGCTGGAGCAGGGAAGGACGCCGCCGCGTCGGCTTATCCCTCAAAATGATGCCGGATGCAAGATCGTCAGGCGAAGCACAGTCGACGCCGGTGCTCGGAATGGAGCATCTGGTCAGCTTCCAAATATCCGCAGCGATGGGCGGCCATACCCTGACGCGAGAGGAATTGAAATTTTTGGCCGAGCAGAATCTGCCTTACGTCCAGTTCCGCGGGGAATGGGTCGAGGTGGATTTGAAGGAGATCAATCAGGTGCTGCGCTTCATGAAACGCCATGAGAAGGGCGAGATGGAGCTGGCCGAATGGATGCACCTGAGCGCCGAAATGGATGGAGAGCGCTTGTGGAAGGGGCTCTTCATTGAAGAAGTTGAGACAACGGGCCTGCTGTCCTCCCTGCTGGACGGGGAAACGGTGCGCAAGCTGCCGTCCCGCCCGATCCCTTCCTCGCTTCACGGAGAGTTGAGGCCGTATCAGGAGCGGGGATATCAGTGGCTAAGCGTGATGCGCGATTTGGGCTTTGGCGTTTGCCTTGCCGACGATATGGGGCTTGGAAAAACGGTGCAGGTCATCACTTGCCTGCTGGAGCGCCTCAATACCGAAGCTGCGGGAGACCCGGTGCTGATCATTTGCCCGACCTCGCTACTGGGCAACTGGCAGCGGGAGATTCAGCGATTTGCGCCGGATCTGACCTTGCATGTGCACCACGGCGTTCGCCGTCTGCGCGGAGACGATTTCCTGCAGGAGGCGGCCGATCATGATATCGTGCTGACGACGTATCACTTGGCCGGAAGAGACGGCGGGGACTTATCCGCGATCCAGTGGTCGAGCGTGGTGCTCGATGAAGCCCAGTATATTAAAAATTATCGTACGAAGCAGGCGCAGAGCGTCATGAAATTATCCGCGCCGCACCGCATTGCGATGACGGGGACGCCGGTGGAGAACCGTCTGGCGGAGCTGTGGTCGATCTTCCATTTTCTCAATCCGGGATATCTCGGATCGTTTAACAGCTTCCGTCAGCGCTATGCGCCGGGGGAAGGGCAGCAGGAGAGATTCCGGGAGCTTCACAAACTGGTTTCTCCATTCATGCTGCGCAGACTCAAGAGCGATCCGGACATCCGCAAGGATCTGCCGGAGAAGCTGGAACTGAAATCGTATTGTCCGCTGACCGAGGTTCAAGGCGCGATGTATCAAGCCGTCGTCGACGAGATGATGGGACAGATCGAGAGCCGGACGGGCATGGCCCGCAAGGGGTTTGTGCTTTCATCCCTCACCAAGCTGAAGCAGATATGCGATCATCCGCAGCTGCTTCGACGCGACGATGGACGCGCTGTGCGTCCCGAGTCCTCCGGCAAGATGGAGCGCATGCTCGAAATTCTGGACAGCATCGCGGATGTGGGAGAATCGGCGCTGATCTTTACCCAGTATGTGGGCATGGGCGAGCTGTTGGTGAGCATGCTTGGACGCAAATACGGAAAACAGCCGTATTTCCTTCATGGAGGGGTGCAAAAACGCGAACGGGATGAGATGGTACGGGCGTTCCAGGCAGGCGAGGGGACGGAGTTCTTTGTGTTGTCGTTGAAAGCCGGGGGCGTTGGCCTGAATTTGACCCGTGCGAACCATGTGCTCCATTATGACCGATGGTGGAACCCGGCGGTCGAGAACCAGGCAACGGACCGCGTATTCAGGATCGGGCAGAACCGCAACGTGCAGGTGCACAAGCTGATTTCCCAGGGAACGCTGGAGGAGAGGATCGACGAGCTGATCGAACAGAAGAAGGCGTTGTCCGAGCAGGTGGTCGGGTCGGGCGAAACCTGGCTGACGGAGATGTCGGACGGCGAGCTCCGCCAGCTGATCGAGCTTCAGGAGCAGGATTGGATGTAA	MNQPLYGVWLGDVFFCFSGEVSEPRVDAWSRVVRTFRKPDGTRPFANASLRLAELRYPAKVLGSKSARRPERKTLGGRTMEGLALTPGDAFSMLVSLDPEHTQAQGLAVGEEMEYWVQASRFALELLLQGKIAPGTAEDPSAGRRKTSMHTIKAVWKPQLNTEDTARFLQLAANIPPIAIGTPAALAGTDPSTREEAGAIVLYSFLCGVIDSQARAAVRESEDKLRAYLANYRRGQSPLTELWWNSLLTVSRDIPIQGTVEEVGELEEAVERVGGTVFPYAGGEDQPPENGTLALGLRLEPPLEESRKDWKVTFWARSQEDEGLLMPVRSVWGSPESDQLLRGRMYAGAQLQLLMRLGEAAALAPELAAGLYGRAPESVTLLLERLSTFMKESVPRLTASGVTVQMPSRWSREGRRRVGLSLKMMPDARSSGEAQSTPVLGMEHLVSFQISAAMGGHTLTREELKFLAEQNLPYVQFRGEWVEVDLKEINQVLRFMKRHEKGEMELAEWMHLSAEMDGERLWKGLFIEEVETTGLLSSLLDGETVRKLPSRPIPSSLHGELRPYQERGYQWLSVMRDLGFGVCLADDMGLGKTVQVITCLLERLNTEAAGDPVLIICPTSLLGNWQREIQRFAPDLTLHVHHGVRRLRGDDFLQEAADHDIVLTTYHLAGRDGGDLSAIQWSSVVLDEAQYIKNYRTKQAQSVMKLSAPHRIAMTGTPVENRLAELWSIFHFLNPGYLGSFNSFRQRYAPGEGQQERFRELHKLVSPFMLRRLKSDPDIRKDLPEKLELKSYCPLTEVQGAMYQAVVDEMMGQIESRTGMARKGFVLSSLTKLKQICDHPQLLRRDDGRAVRPESSGKMERMLEILDSIADVGESALIFTQYVGMGELLVSMLGRKYGKQPYFLHGGVQKRERDEMVRAFQAGEGTEFFVLSLKAGGVGLNLTRANHVLHYDRWWNPAVENQATDRVFRIGQNRNVQVHKLISQGTLEERIDELIEQKKALSEQVVGSGETWLTEMSDGELRQLIELQEQDWM				NA	NA	NA	NA	NA
AK002_00729	744			hypothetical protein	ATGGAAACTGCGGGATTAGCCGAAGGGCTCAGACTCGAGATCGAACCGGGATGGTTGAAGGGAATAGCGGATGGAGACATCGAATCGCCGGAGACTTATGAGGTCAGCGTTCAGGTGGAGAAACTGGATCCTGCCGCCCGCGAGGCGGTTCTGGCTTATCTGGAGGAAGACCCGCAGGCGTTGTACCGCCTGCTTGCAGGTCAGTGCGCCCCTTGGCTGGATGAACTGGCGCCATCCCCCCTGCGGGGCGGAGAGCTTGCCGCCGAAGCGCGCTGCACATGCGGCCGAGCGGCTTGCGCGCATGCCGCAGCCTTGCTGGCTGCCGCATCCCGGCGCCTAGCGGCAGAGCCGCTCCAGCAGCTGACGCTGCTGGGGCTGCCGCGGGAAGCGCTGCTGGCTGGCGTCTTCCACGCCTGGGCCAAAGCAGCCCCGCCGCCGGCAGGCAGCTCTGCCGCGGAGTCGGCCGCCCGCGCGAAGGAGAAGGGACCGTCCGGTCCTTCTCCGGGCGAATGGGTGGCCGAAGCGGCGGCCGAGGGCCGCTTGCACCGGCCCGGCCCGCAGCTTAGCGAGCTGGCGGTGCAGCTGTCGCCGCCGCCTCCGGCGGATCAGCTCGGCCCGGCCGGCGACTGGACAGGCTTGCTGCCGGGCGTTCGCGGCGCGTCCAAAGCGCTTGCCCTGATCGCTCGCGGGGCGGCCAAGCAAGCGGACCAGAAGCGCCGCAGCTTGGAGCCGCCTTCGCCATAG	METAGLAEGLRLEIEPGWLKGIADGDIESPETYEVSVQVEKLDPAAREAVLAYLEEDPQALYRLLAGQCAPWLDELAPSPLRGGELAAEARCTCGRAACAHAAALLAAASRRLAAEPLQQLTLLGLPREALLAGVFHAWAKAAPPPAGSSAAESAARAKEKGPSGPSPGEWVAEAAAEGRLHRPGPQLSELAVQLSPPPPADQLGPAGDWTGLLPGVRGASKALALIARGAAKQADQKRRSLEPPSP				NA	NA	NA	NA	NA
AK002_00730	900	yodJ	COG1876	Putative carboxypeptidase YodJ	GTGGGAAAGGAAGTAGCAGAGATGAATGCATTTTCGGGAAGAGGAATCCGGTTTACAAGCGTAATGCTGTCATCCCTGCTGTTAGCAGGAGCCATTCTGGCGGGATGCCAATCCGACGATGCCGGCTCCGGCAAGGAACAGGGGCAGGAATTGCAGTCGCCGGCCGAGGGTCAGGAAGGCAGCACGCTTCCTGAAGGCGGATCGGAGAATGGGGAGACGGGGGCTGAGAATCAGCCGGCGGATCCGGTCATGGCAAAGCGCAGCGAGAATGCACTCCAGGCCACCATCCAGGAGAGCGGCGGCAAGCAGGTCGTGACCAATGCGGAGGCCATGACGGTAGTCGTGAACAAGCAGCGCAGCTTGCCGGATGGCTATGAGCCGAGTGATCTTGTGGAGCCGGACGTTCCGTTTTCTTTTGACGAGCCGCACGAGAAACGGCACCTGAGACAAGAAGCGGCGGATGCGCTCGAGGAATTGTTCGATGCGGCCAAAGCGGACGGCATCGAGCTTCGGGCCGTATCGGGATACCGTTCTTATGCCCGTCAAAAAACCATATATGAGAACAATGTTCGTACCAAGGGGGAAGCCGAGGCTAACCGCGTAAGCGCTGTGCCGGGTACGAGCGAGCATCAAACCGGCCTGACCATCGACGTATCCAGCCCAAGCGCGGGCAATGCGCTGGAGGAAACGTTCGGCCATACGGAGGAAGGACAGTGGCTGGCGAGCCGCGCGCCGGAATTCGGCTTTATCATTCGTTATCCGGAAGGGGCCGAGGATATTACCGGCTATGTATACGAGCCTTGGCATATCCGTTACGTAGGAAAGGATTTGGCACCGGATATCGCCGACAGCGGCCTGACGCTGGAGGAGTATTTCGACGAAGCGAACATTAAACTGTAA	MGKEVAEMNAFSGRGIRFTSVMLSSLLLAGAILAGCQSDDAGSGKEQGQELQSPAEGQEGSTLPEGGSENGETGAENQPADPVMAKRSENALQATIQESGGKQVVTNAEAMTVVVNKQRSLPDGYEPSDLVEPDVPFSFDEPHEKRHLRQEAADALEELFDAAKADGIELRAVSGYRSYARQKTIYENNVRTKGEAEANRVSAVPGTSEHQTGLTIDVSSPSAGNALEETFGHTEEGQWLASRAPEFGFIIRYPEGAEDITGYVYEPWHIRYVGKDLAPDIADSGLTLEEYFDEANIKL	PGPT0024055_332	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024055-vanY|yodJ-K07260	NA	NA
AK002_00731	369			hypothetical protein	ATGACAAACGATAAAAAGACGTATTATGTTTCAGTCAATCACAACCTGATCCAGGATGTACCGAACGATACGAACGAATATGTCGTATATATGGATGATGAAGAGGTCTCGAAGCTGAGAGGGCTGCTCCATGAGGTCAGCAGCAGCGACCGGTATGCATTTAAACGGACGTTCGTCCCATATAAATCGGCAGATCATGACGATGCCGCCGAGGAATACGATGAACGGACGATTAATCTTTATATCTTTCTCCACGAACATGGGGATGAACGCACCCGCAAAACCATCGAGGATATGAACATCATCGGCAAGCTGAACGATACCGGCTACGATGATCCCGGTTATGAAGACTCGCCGCTGAATAAGTAA	MTNDKKTYYVSVNHNLIQDVPNDTNEYVVYMDDEEVSKLRGLLHEVSSSDRYAFKRTFVPYKSADHDDAAEEYDERTINLYIFLHEHGDERTRKTIEDMNIIGKLNDTGYDDPGYEDSPLNK				NA	NA	NA	NA	NA
AK002_00732	831			hypothetical protein	ATGAAGATTTTACAGAAGCTCAAGGATGGAGCTAACCGTGCAACGGAAAAGGCGCAGCACGTGGTCGAAGTGAATAAGCTCAACAGCCAAATTTCCGAAATCGAACAGCAGAAGAACTCGTATTACCTGCAGATGGGTAAAGTATTCTATGAGGGCTACCGTCAGCAGGATATGACGATTGCGGAAAAGGAGATGGTCGAGCTCGCGCAAACCTGCGATGGATTGCAAGAGCAAATCGAAGCGATACGGAACCGCATCGCGGTGCTCAAGAATGAACGGGTCTGCGAATGCGGACGCGTGGTCGCGCTGGACGCGAATTTCTGCCCGTATTGCGGAAACAAGCTTGCCAATTTGATGGACCCTGAGGAGTCGGCGCCGGATGAGCCGCGGGAGCCCGAGCGCAAGAGCATGTTCGATAAACGCGAATATGCGGCGGCTGAAGAAATCCAGGAGGAACAGGACGATGTCCAGACCTATGATTATCGTCCGAATCCGGATCCGTACGAGCCCGACCTGTATGATCCTGAACCGGAACGCCAGCGCGAGGAGATCATCGAGCGGTCGTCTGAACCGGAGGTTGATCCGGAACGGCTGCGCCTCGAGCAGGAGGAGCAGGAGAGGGAACGCCGTCACTGGGAAGAGCTCGAGCGCGAGCGGGAGAGACAGCTGGAGCTGGACCGCCGCATTCGTTTCTGGCAGGAAAATAATCAAAGCCAGGACTACGTCGGAGACGATGAAGCGACCCGCGACATGGTGAAGTGCCAAATTTGCAGCGTCGACCTGCCGAAAGGCTCGAAATGGTGTCCGCGCTGCGGAGCTGAACAGATTTAA	MKILQKLKDGANRATEKAQHVVEVNKLNSQISEIEQQKNSYYLQMGKVFYEGYRQQDMTIAEKEMVELAQTCDGLQEQIEAIRNRIAVLKNERVCECGRVVALDANFCPYCGNKLANLMDPEESAPDEPREPERKSMFDKREYAAAEEIQEEQDDVQTYDYRPNPDPYEPDLYDPEPERQREEIIERSSEPEVDPERLRLEQEEQERERRHWEELERERERQLELDRRIRFWQENNQSQDYVGDDEATRDMVKCQICSVDLPKGSKWCPRCGAEQI				NA	NA	NA	NA	NA
AK002_00733	915			hypothetical protein	ATGGAACAATTGCTGCATCATTTGCGCAATTTGGGATTTACTGAAATTGAGTCGAAGATTATGGTGGACCTTGCCGAGCATGGGCCTGCAGGCGGGTATGAGGTAGCTAAACGTTTGGGCGCTTCGCGTTCCAACGTCTATGCGGCCATGCAGCGTCTGGAACGGCAGGGAGCGCTTGAGCGAATGGACGGGGAACCTGTCCGTTACCGTTCGCTGAAGCCGGAGGAATTGACGCGGATGATATCCGGGCGCGTGGAGGCATCCCTCGCTTTTGTTGAGAAGAGCCTGCCGCGGAGCAGCGGCACGGCCGCTCCCTTCCTTAGCATGGAGGGCGATCAGGCGGTGCTTGATGTGCTTGTACGGGAACTGAAGCGGGCGAAACGGGAGATCGTCGTTGACGTCTGGCGCGAGGAAGCGTCGCTGCTCCGTGAGCCGCTGGCTGAAGCGGAGGCCAGAGGGGTAAAGGTGCTGTGGGCTTGCGACGGTCCGGATCAGGGACTCTCAAGAACTTTGGCGTGGCCCGGGTGGAGCGACCTTGCGGAGCGCAGGGCCGGCGGCCGGAAGTTCTCGTTTGTCGTCGATCGGCAATGGTGCATCTTAGGGATGCGCGGCGGGGACTATGATACGGGAGCGGTCATCACGGAGCATCCGGTCATGGCAGAGCTGCTCTTGCATCATTTTACCCAAGAGATGGTATTGTTCCAGTTGGAACAGGACATGGGCGAGCAGCTGGAAGCGCGTTACGGAGAACACTTTGGCCTGATTCAAAGCGAGTATCTTAATGCGGAGCCGGAGGCTGAAGCGCAGGAAGACCAGAAAGACCAGGCTGCGTCATCGATAACCCGCCCGCTGGCGGGGCATGAAGGCGATCCCGAAGAAGAGGTGAACGGGGACTCCAATCGCAATACGGCCTAG	MEQLLHHLRNLGFTEIESKIMVDLAEHGPAGGYEVAKRLGASRSNVYAAMQRLERQGALERMDGEPVRYRSLKPEELTRMISGRVEASLAFVEKSLPRSSGTAAPFLSMEGDQAVLDVLVRELKRAKREIVVDVWREEASLLREPLAEAEARGVKVLWACDGPDQGLSRTLAWPGWSDLAERRAGGRKFSFVVDRQWCILGMRGGDYDTGAVITEHPVMAELLLHHFTQEMVLFQLEQDMGEQLEARYGEHFGLIQSEYLNAEPEAEAQEDQKDQAASSITRPLAGHEGDPEEEVNGDSNRNTA				NA	NA	NA	NA	NA
AK002_00734	312			hypothetical protein	ATGAGCATGGAATGCATCGTTCATTTTACAGTCGGACATAAAGAAGGCCCCAAGAAGCTGCGGGGATTGATTTTTGTTGATAAGGGAGAGACTCCTACAGGTGAGCAGCTGCTCGATATGTTTCATGAAATGGAGTACCGGGTGGTGCCTGACCCGCATGATGAACTTCTCTTTAAACCGGAGAACGGCGCGGAAAGCTATACGTATATACGCGTGAATGAATTGGATATGGGGCAGGAGCGATATACGGAAGACCGTAATTTGAAGGCGCTGCTGAACGAGCTGCTGCCGAAACAACGCACGGGTTTGTAA	MSMECIVHFTVGHKEGPKKLRGLIFVDKGETPTGEQLLDMFHEMEYRVVPDPHDELLFKPENGAESYTYIRVNELDMGQERYTEDRNLKALLNELLPKQRTGL				NA	NA	NA	NA	NA
AK002_00735	1104			hypothetical protein	ATGGCGATGTTTATTATTGCAGGAATCGTGGCGCTGTTGATTTACGGCTTGCTGGTTTATTATATTGGCCGAAGCGTATGGAGCTGGTTGAGGCCGGGGCCGTCCATGGCGCTCAAATGGGTATACATAGTCGTGCTGACCGTGGTATCGACATCGTTTATATCAGGACGGTTTTTCGGTAATCAAACCGTTCTCAATATCATAGGATCGTATTGGATGGCTGTTTTTTATGTGCTGATTATCCTTCTCCCGTTGATGCACATCGTGTTATGGCTGCTGAGGATGACGGCATTGCGAAGAGATGGGCTGGAGAAGGCGGCGGTATCCGTCGTGCTGGTGCTGATGGTGATCGCGATCGGTTTCGGCTCTTTTAACGCTTATAGTCCAACCGTACGTGCTTACGATATTCAGGTGGACAAGGATGCGGGAACCATGGAGAAGCTGAATATCGTCATGGCGTCCGATATGCATTTCGGCGTCTTGTCAGGCAAGGCACACGCTGAGCGCATGGTGAAGGAGATCAATGGCTTGAAGCCGGATCTGGTTCTGTTTCCGGGCGATATTATTGATGATGATCTGGATGCGTATTTAAGCCAGGGGATAGATCGGGTTTTGACCGGTATCCAGGCAACCTATGGCGTATATGCTTCGCTTGGCAATCATGACCGATTCGAAGGGGAGATCACGGAGCTGATATCGGCTCTTGAGGACAGCGGCATGACCGTGCTGTATGACGAGAAACTGACGGTGGAGGGTTTGACGCTGGTAGGCAGGCGGGATAAGCAGGATCAGGACCGCGCAGGTTTGTCCATGATCATGGAAGGGGCGGATTTATCCAAGCCGGTTTTTCTGCTCGATCATCAGCCGAATGCGCTGGACGAAGCACAGCAGCAGGGCGTTGATCTGATCGTGTCGGGGCATACGCACCGCGGTCAGGTATTCCCGGCGCATTTGATTACGAGGGCCCTGTTCGAGAACGATTGGGGATATCTGCAAAAAGGCCGGATGCATTCCATCGTGTCCTCGGGCTACGGCTTCTGGGGACCGCCGATTCGGCTGGGCTCCCGTTCCGAGATCGTGCAGATCCACGTTACGTTTCAATAG	MAMFIIAGIVALLIYGLLVYYIGRSVWSWLRPGPSMALKWVYIVVLTVVSTSFISGRFFGNQTVLNIIGSYWMAVFYVLIILLPLMHIVLWLLRMTALRRDGLEKAAVSVVLVLMVIAIGFGSFNAYSPTVRAYDIQVDKDAGTMEKLNIVMASDMHFGVLSGKAHAERMVKEINGLKPDLVLFPGDIIDDDLDAYLSQGIDRVLTGIQATYGVYASLGNHDRFEGEITELISALEDSGMTVLYDEKLTVEGLTLVGRRDKQDQDRAGLSMIMEGADLSKPVFLLDHQPNALDEAQQQGVDLIVSGHTHRGQVFPAHLITRALFENDWGYLQKGRMHSIVSSGYGFWGPPIRLGSRSEIVQIHVTFQ	PGPT0022365_1643	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK002_00736	3843			hypothetical protein	TTGGGTTTGATTAGGTTTAGAAAGATGGGCATGATGGCACTAGCCGCTGTCCTTGCGGGGAGTGTATTTGGGGGAGCAAGCGACGCCATGGCAGCATCAACTGCGCCTCTGCCAAGCAAAGAGAGGCTCGTTGCCGGCAACGGATTACCTTTAGGTCAATCGACTACGATTGCAGGTGGGCCGGGGCATGCAGCCGGGCTATCCTCGTCACTGGCTTCCGAAGGATTACGACAACCGGGCAGTGTGGCTTGGCTGCCTGACGGCTCCGTTATCGTATCCGATACGGAGAACCATGTGATTCGCAAAATAAAGGACGGGAAGAGCAGCATTCTCGCAGGCGCCTCCTTGTCCTACAAGCGGGACGGCGGGGGACTTCCGATCGGCGGGCTCCTGGATGGCCAGGGCGAGCTTGCGTTTTTGAATCGGCCGTCCGGGATTGCCGTTGACGGAAAAGGTCAAGTGTACATAGCCGATTCAGGCAACCATGCCATTCGTAAAATCGATCAAGCGGGCAGAGTAAACACCATAGCGGGCAACGGACGGATTGGGCTGAAGGACGGGAAGGCTCAAGATGCCTTGTTCCACGAGCCGCAGGACGTTGCGGTTACCGAGGACGGCATTCTGTATGTGGCGGATACGCTGAACCACGTCATTAGGCGGATCTCTCCGGATGGGGAAGTAACGACGATTGGCAGCCCGTCGACGCGTGCTGTCCAGGTTCGCGCCGGAGTCATCGCATTGGCAGGGGACTACAAGAACGGATCGCTTGCTGAAGCGCAATTTAACGAGCCGGCAGGTCTTGCGCTTGACGGTAAAGGCAATTTGTATGTCAGCGATTCGGGCAATCACGCGATCCGCTATATCGATTTCGGGAAAGGGACCGTTTCGACGGCCGCCGGCAGCGTTCCGTCATCCGATGGCTACGCCAAGGACGCGTTATACGCTGATCCTGGCTATCTGGACGGAGCTGCGGATGCAGCCCGCTTCAACTCGCCTCGGGGATTGGCATGGAGCGTGGAGGATGGACTTCTCATTGCAGATTCCCATAATCATGCCGTGCGTCAACTGAAAGACGAACGCGTGACCACCATGGTCGGCGGAACGAGAGGTTACGCGGACGGAATTGAAAGCGAGGTCCGATTCAACGCGCCGGCGGATATTGGGGTCGCTTCGGATAGTGGGGAGCTGTTCATCGCGGACCAACGCAATGGGGCCGTCCGGGCATGGTCCAGCTATAAGACGCCTGATGCTTGGCAACCAGGCCAAGGGATCACCGCAGCTTACGGAGATCAGGTGGCCCAACTGGGCGACTTGGCCGTTATGAAACAGGGCCAGACCGTGGTGCCTGTCAGAACGTTAGGCACGCTGCTCGGAACCCGTTTGAGTTATGATGCCAAGAATAAGGAAATGACATTAACCCTTGGCGAGGATGTCATCACGCTGCAAGCCGGAGATCCCTATATGACCCGGGATCAGGCGGGCAAAGAAGTTTCCCGAGCGGCGAAGGAAGTTGAGCCGTATATCGCCAACGGCCAGATGATGGCTCCGCTGCGAGCGGTGGCCGAACTGATGGGCAAGGATGTCCAATGGAACGCCAGCACAAAGCTGGTTATCATCCGGGATTTGGCTGAACGGGAAACGAAGCCGGGGAATGTTAGCTTCAGCACTTCGAACTTTACGCCGAGACGCATGCAGGTCGTGGAAATCACCGGTTCGGCCAAGCTCCGTTACGGCGGGTATGCGCAGGTGGACGCCTACAAGGGGATGATGCTGGGCGAAGACGATGAAATTGTTACCGGCTCCGGCACGGGAGGCGCCAAGCTTCGGATCCTGGATACGGAAGATGTCATTACGTTAGGCAACGACACGACGTTGGTGGTCGAGCAGCTTCGCAAGATTGGCATCTCCAACGTAACTCGGCTGAATCTGGAGGCTGGGCAGGCTTATTATGATGTTACCGACCTTGCCCGGTCGACGGATCGTTTCGACGTGCGGACCGGTTATGCGGACAATAGCGTACAAGGCACGCATTTTATAATCACCGTCAACCCCTTAACAGGGATGACAAACGTAGTGACCGCTAGCGGGAAAGTAAGCTCTTCGCTGGTGCCGACAGGCACAGAAGGTTCCTTGCTGCCATCCGGCCCGGTCATGATTAGTCCCACGCAACAAATATCGCTAGGCGGTTCACAGGAGGGACGCCCTCCTGTACAATTCATCGATATTGAGGATTTGATGGGGAACGCTTCGCCGGGAATCATTGCTCAGATAATTAAGAATAAGAACGACATCGACCGGGAGAACGAGGAGTTTCTCGAGAAGAAGCGGCAAGAACTACAGTCCGGACAAAGCGGAACCGGCGCTCAAGACTTGATTATGAAATCGCCGGACGATTTGGCAAAAGTCGCGGATAATTTGAATAACCTCATCGGAAATATCGCGAAAGAGGCGCTTGATAAGAAAAAAGCCAGCCAAGAAGAAGTAGATAAACTGATGAAAGAAGCAAGCCCGGATTCGGGGAAGATATTTGATCCGGGCCAAGTGAAAGATTTGGATAAACAAGCCGGCCTCGACCCTGCTCTGGAGCAGGCGCGCTTGGAAGCTTTGAAGCGCAAGCAGGAAGAGATACAGAAGAAGCAAGATCAACAGCAGAATCAGCTGGATCAGCTGCAGGAGAAACTCGGCGACATGCTGGCTAAGATCGAGCAGCAGAAGAAGCAGCAGGATGAAGCGAACCGAAAAGCACAGGAGGAAATGAAGAAGAAGGCTGAAGAGCGGCTTCTTCAATCCTTAAGCGCAGAGGAGCAGGCACGCTTTCTCCAGGGCAGGAAAGAAGCGGAGCAGGAGAAAGGCGCTCGGCAGCCGACGCCGGTTAGCCCGGGCGGCGGCTCGGGATCAGGAGGCAGCGTGTCGCCGCCTGTAACCGGTCCGCCTGTGACCGAGCCCCCAGTGACTGAGCCTCCGGTAACGGAACCTCCTACGACGGAGCCGCCGGGGACCGATCCTTTCGTGAAGGTTATATATAGCGATGATATGAGCAGTGAACTGTCGGCCCGCCCAGACAATTATTTTGGATCCATTCATTTCGAGACGAAAGGCTTAGCCGATGACATGGAAGTTCAAGTCAGGGTGACGCTGACAAGGGATGGAATCCCGGTCGTGGGTCTGCCTGTCCGTCATGGCGAGCAGACGGTGGAATCCAACGCAGAGGGAAGCTTTACGCTGCAGTCTGTTGATGGTACCGGCTTTAAGTTAAGCGAGGTCGCTTCGCCGGATATTCCGCTGGAGTTCTATGCCGATCTGCTGGAGCCGGGCAGCTATACGGAGAAGATTGAGCTGCTTGAGATCAAGGAAGGCCAATGGACTGTGCTTGGAGAAGGCGTCCGTTCCATCCAGGTCAGTCCCTTCTCGCAGTTCGAATTCATTGGCGAAGGGCCGTTTCCGGCAGCCCTTGATATGTATTGGGGGTTTTATTCCAAAGCGTACGGACTGAGCGAGGATACCCGGGTTGGCTATGAATTGACGATTCTCGATGACCATGGTCAGCCGGTAAGTCTGGGCGTACTCGGATTCCGAATGAAGCCGCATGGGCCGGGAACGGTTCCGACGGAGGGGTATGAGATCGCAACTCCAGATCGTGAAGGGGTATACCGGGTGAATGCAGGTTTAACGGCTGGGGATATGGATCTGGGAGGGAATGGGAGCGATATCCTGTTCCGCTGGCAGCAAGCTCATGTCGGGACTTATACGCTCCGTATCCAGCTGGTTGATATAAACAGCGATATATCGGTGCCCATCGGTGATCCCCTGGAATGGATAATCGAAGTGATACCTACAAGTTGA	MGLIRFRKMGMMALAAVLAGSVFGGASDAMAASTAPLPSKERLVAGNGLPLGQSTTIAGGPGHAAGLSSSLASEGLRQPGSVAWLPDGSVIVSDTENHVIRKIKDGKSSILAGASLSYKRDGGGLPIGGLLDGQGELAFLNRPSGIAVDGKGQVYIADSGNHAIRKIDQAGRVNTIAGNGRIGLKDGKAQDALFHEPQDVAVTEDGILYVADTLNHVIRRISPDGEVTTIGSPSTRAVQVRAGVIALAGDYKNGSLAEAQFNEPAGLALDGKGNLYVSDSGNHAIRYIDFGKGTVSTAAGSVPSSDGYAKDALYADPGYLDGAADAARFNSPRGLAWSVEDGLLIADSHNHAVRQLKDERVTTMVGGTRGYADGIESEVRFNAPADIGVASDSGELFIADQRNGAVRAWSSYKTPDAWQPGQGITAAYGDQVAQLGDLAVMKQGQTVVPVRTLGTLLGTRLSYDAKNKEMTLTLGEDVITLQAGDPYMTRDQAGKEVSRAAKEVEPYIANGQMMAPLRAVAELMGKDVQWNASTKLVIIRDLAERETKPGNVSFSTSNFTPRRMQVVEITGSAKLRYGGYAQVDAYKGMMLGEDDEIVTGSGTGGAKLRILDTEDVITLGNDTTLVVEQLRKIGISNVTRLNLEAGQAYYDVTDLARSTDRFDVRTGYADNSVQGTHFIITVNPLTGMTNVVTASGKVSSSLVPTGTEGSLLPSGPVMISPTQQISLGGSQEGRPPVQFIDIEDLMGNASPGIIAQIIKNKNDIDRENEEFLEKKRQELQSGQSGTGAQDLIMKSPDDLAKVADNLNNLIGNIAKEALDKKKASQEEVDKLMKEASPDSGKIFDPGQVKDLDKQAGLDPALEQARLEALKRKQEEIQKKQDQQQNQLDQLQEKLGDMLAKIEQQKKQQDEANRKAQEEMKKKAEERLLQSLSAEEQARFLQGRKEAEQEKGARQPTPVSPGGGSGSGGSVSPPVTGPPVTEPPVTEPPVTEPPTTEPPGTDPFVKVIYSDDMSSELSARPDNYFGSIHFETKGLADDMEVQVRVTLTRDGIPVVGLPVRHGEQTVESNAEGSFTLQSVDGTGFKLSEVASPDIPLEFYADLLEPGSYTEKIELLEIKEGQWTVLGEGVRSIQVSPFSQFEFIGEGPFPAALDMYWGFYSKAYGLSEDTRVGYELTILDDHGQPVSLGVLGFRMKPHGPGTVPTEGYEIATPDREGVYRVNAGLTAGDMDLGGNGSDILFRWQQAHVGTYTLRIQLVDINSDISVPIGDPLEWIIEVIPTS				NA	NA	NA	NA	NA
AK002_00738	570	xpt_1	COG0503	Xanthine phosphoribosyltransferase	ATGCAATTACTGCAGAACAAAGTGAAAGAGGAAGGCATTGTATTAAGCGGACAGGTACTGAAGGTGGATTCGTTCCTGAATCACCAGATGGATCCGGTATTGATGAAAGAGGTGGGAAAGGAATTTACGCGATTGTTCAAGGAAGCGAACGTGACTCGCGTATTGACCATCGAATCCTCCGGCATCGCGCCGGGCATCATGACCGCGCTTGAGATGGAAGTGCCTCTCATCTTTGCACGGAAGCAGAAATCGCTGACGCTCCGTGAGGATATTTTCGTGGAGAAGGTGTACTCCTTCACGAAGCAGGAGACCAACGAAATTACGGTCGCTAAGAAATTCATCAAGCCGGGCGACAAAGTGCTGATCGTGGACGACTTCCTTGCCAACGGCGAGGCGGCATTCGGGCTTGCCCGAATCGTCGAGCAGGCGGGTGCCGAAGTGGTAGGCATCGGGATCGTCATTGAAAAGGCGTTTCAACCGGGAGGACGCCTGCTGGCCGAAGCGGGCTACCGGGTCGAATCGCTCGTACGGATTGCATCACTTGAAGACGGCGTTGTGACATTCGCATAG	MQLLQNKVKEEGIVLSGQVLKVDSFLNHQMDPVLMKEVGKEFTRLFKEANVTRVLTIESSGIAPGIMTALEMEVPLIFARKQKSLTLREDIFVEKVYSFTKQETNEITVAKKFIKPGDKVLIVDDFLANGEAAFGLARIVEQAGAEVVGIGIVIEKAFQPGGRLLAEAGYRVESLVRIASLEDGVVTFA	PGPT0007305_964	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816	NA	NA
AK002_00739	1362			Nucleobase transporter PlUacP	ATGGAACAACAGAAACAAGCGGTGCAAGAACCGATTTTTGATAAAAATCGGAGTCCGGGCAAAACCTTTTCGCTGGGTTTGCAGCATGTATTGGCAATGTACGCAGGGGCAATCATCGTACCGCTTATCGTTGGCGGGCAGCTCGGTTTAACGACGGAGCAGCTGACGTATCTCATCGCCATCGACCTGCTGGCATGCGGGGTCGCTACTTTGCTGCAGGTATTCGGGAACAAGTACTTCGGTATCGGCCTTCCGGTCATGCTCGGCTGCGCGTTCCAGGCCGTAGGTCCAATGATCATTATCGGACAGCAGCATGGCATGTCGGCTATTTATGGAGCGATTATCGCTTCCGGTTTATTTGTCATTCTGTTCTCCGGTTTATTCGGTAAGCTGATTAAGGTATTCCCGCCTGTCGTTACAGGGAGCGTTGTTACGATTATTGGTCTGACGCTGATCCCCGTAGCTTTGAACGACCTTGGGGGCGGCCAAGGCAGCGAGGATTTTGGCAGCGCACTGAACATTTCCCTTGGCTTCGGCGTTCTTGCCTTCATTATTATCATGAATCGTTTTGCCAAAGGCTTCTTGCGTTCGATCTCCGTTCTTTTGGGTCTAGTTCTCGGCACCCTGGTTGCCGCGTTATACGGCGGGGTGGATCTCACTCCATTGCGCGAAGCCGGCTGGTTCCGCGCGCCGCAGCCTTTCTTTTTTGGCACGCCGGAGTTTAAAATCGTTCCGATCATGACGATGATTCTGGTAGCGATCGTCAGCGTTGCCGAATCGACGGGCGTATTTATGGCGCTTGGCAAAATCGTGGATCGCGACATCACCTCCAAGGACTTGTCCCGCGGTTACCGCGCGGAGGGTCTTGCGATTGTGGTAGGCGGTATTTTCAACTCGTTCCCTTATACCACGTACTCCCAAAACGTTGGCTTGATTCAGATGAGCCGCGTGAAGACGCGCGACGTCATCGTAGTGGCAGGCGGTTTGCTTGTATTGATCGGATTCGTGCCGAAGATTGCCGCCATGACGCAGCTTGTGCCGACATCGGTTCTGGGCGGGGCGATGGTTGCCTTGTTCGGCATGGTGGTGTCTTCCGGCATTCGGATGTTAGGGGATCAAGTAGACCTTAACCGTCATGAGAATCTGTTCATTATCGCGTGTTCCGTCGGCATGGGTCTTGGCGTCACAACCGTGCCGGGCCTGTTCGCCAGCCTGCCCGACAACCTGCGCATTCTTGCCGATAACGGCATCGTGGCCGGCAGCTTGACCGCGATTGTGCTGAATCTGATCTTTAACGGCTTGAAATATACGAAGCCGACCCGCACTGAGCGAGGTGAGACGACAGAAGGGCACGCAGCTTAA	MEQQKQAVQEPIFDKNRSPGKTFSLGLQHVLAMYAGAIIVPLIVGGQLGLTTEQLTYLIAIDLLACGVATLLQVFGNKYFGIGLPVMLGCAFQAVGPMIIIGQQHGMSAIYGAIIASGLFVILFSGLFGKLIKVFPPVVTGSVVTIIGLTLIPVALNDLGGGQGSEDFGSALNISLGFGVLAFIIIMNRFAKGFLRSISVLLGLVLGTLVAALYGGVDLTPLREAGWFRAPQPFFFGTPEFKIVPIMTMILVAIVSVAESTGVFMALGKIVDRDITSKDLSRGYRAEGLAIVVGGIFNSFPYTTYSQNVGLIQMSRVKTRDVIVVAGGLLVLIGFVPKIAAMTQLVPTSVLGGAMVALFGMVVSSGIRMLGDQVDLNRHENLFIIACSVGMGLGVTTVPGLFASLPDNLRILADNGIVAGSLTAIVLNLIFNGLKYTKPTRTERGETTEGHAA	PGPT0007330_19	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
AK002_00740	339			hypothetical protein	ATGTCCCCTTTCAAATCGTCCACAGGACTTCCCGAGAATTTGGCCGCGACGCTGTGCTATCTTCTTCCCATGGTCGGAGGAATTCTGTTTCTTTCATTAGAAAAGAGAAGCCGATATGTCATATTCCATGCGCTGCAGTCCTTGCTGGCCTTCGGCCTTCTGGCCGTCGCCCACCTGCTGTCGAGCGCGGTGCCCATCATCGGCCTTCTTGCCTCCGCCCTCCTGGCGCTGGTCGGCGTGCTGATGTGGCTGGTGCTTATGTTTAATGCCATTCAGGGAAAATGGTTCAAGCTGCCGTGGATCGGCAATTTTGCGGAGAAACAAATGCAGCGCATCTAA	MSPFKSSTGLPENLAATLCYLLPMVGGILFLSLEKRSRYVIFHALQSLLAFGLLAVAHLLSSAVPIIGLLASALLALVGVLMWLVLMFNAIQGKWFKLPWIGNFAEKQMQRI				NA	NA	NA	NA	NA
AK002_00741	1965			hypothetical protein	ATGCGAAAATCGAAGCGGCTTCTGCTGTGGCTGATCCCGATCGCCATCGCGGCAGCCTTATGGCTCATAGCTAATGTCGTGGAACCGGAGTATGCCTATGTACCGCCTGCGCATAAATTGGAAAATTCCAATTCCGCCCAAATCCAAACCCGGCAAACCGATGTCATTCGCCAGTATGACCTGTGGGGCAAGACGCTTACGGTCCCGGGAACCGCTTTGCAGGATCAGCACCCCCGTTTGACAGCGGCCAATGGCGCAGTTGAGGTAAACAAAGAGATGCTTGCCCTGGGGCGCCGCACGATGTATGAGGAATCCTTTGGCAATGAGGTGTTCTTGACCGATATTTTGGGAATCGTCGACGGTCCGATGAAGCTCAAAAACGTTGCTAAAGCCCTTGCCGAGCTGAAAGGACGGGGAACCACCAATTTGCGCGTCGAGCTTGATCAGGATGTGACCATCGGCGGCAAAACCTTCCGCAAGGGGGATAAAATCGATACCGGCTTTGACGTAGCCAAAGGAGCTTATTCCCCCATTGGCGTAACGTTCAAGTATGCCGAAGGCAAAACCCGCATCGGCGTTAGCTGCATGGCCTGCCATGCCACCGTGAACCGTGATACGGGAATGGTCGTGGAGGGCGCGCCCAATTCCGATCTGAACCTCGGTTTAATGCTGGCGTTGGCCCCGAATAGCGCAGCGTATTTCACCCACACAGACGTTGCGAACCTCGTGGATTATGTCAAGAACGGGCAGCGTACCGTCATAAATTCCAAAGGGCAAACCGAAGCCCTCCCGGATCCCGCCCTGCTGGAAAAAGCCGTTGACGACAATCTGATCAAATGGGCGCCCGGCAATTTCGATACCACCGTCGATAAGGTCAGCGACGTGACCCAAATTCCCGATATGTTTACAAAGGGCGACCATCCGTACAGCTGGAGCGGCTTCGCCATCGCGGGTCCCTTCAAAGGACTCAGCACCTTCAGCAACAATGTTCACGCCCAAAATACGGATACATTGAGCCAAACCGAGGTCAGCGAGCCGCTAATGGGGATCGACAAAGAGATTTATGTGGGCACAATCCTGCAAAATGCGGCCCATCGCAAGTTTCGCTATGATCCAAGCAGCGGGCTGAAGCCGACCGAATTCTTCGACCGCCTGGACCCGAATCCCGGAACCCCCGGCGTTAATGAGGTTATCAAGATTCCGAACTTCCCCAAGGTTTCGGCCATAGCGCCGAACGGGCTGTATATCAGCTCGCCGGGTTTTAAGGCCGGGGAGCAGGTTAATGCCATGTCCGCTTATCAGAATACCGTCCGTCCGCCTGAAACCGATAAGGCTGAAGCCTCCGATGCCAAGACCCTCAGCCTCGGGGCGGAAGTTTTCAAAAAAGCGCAGTGCATCACTTGCCACGCAGGCGACTATTTTACCAACAACCGCATTATGCGTGCGGCAGAAATCGGCACCGAGCCTGCAAGGGCGAAGGCCTTCCATTTTACGCAGAACGCTTTTGGCGAGGCGGAGTTCTACCCGCCCGATACGCCTGTCCCGATTCCTCCGGACGCCAAGGCGACTAAAGTCCCGCTGGATGGTATAGACCCGGAGCAGATCAAGCTGGGCTTCGGCCATAAATCGGGCGGCGGTTATAAGGTCAAAGGATTGATCGGCCTCCGCTGGTCGGCACCGTATTTGCACGACGGGGGCGTCGCGGTCGGGCCGGAGCTGTCGCAAGCCGGAGTGCCGGCAACGCTTATGAAGGGCATTCACCCGGATCCCTACAACAGCCTGAAAGCCCTGATCGACCGCAAGCTGAGGCTGCGGGTCGTTGAGGCGAACCGCAAGGATTCGAGACTCAGGGATACCCACGTCACCGGTCAGGGACATGAGTATTGGGTCGACGAAAGCAGCGGGTTCACGCAGGAGCAGCAGGATGCGCTCGTGAAATATCTGCTCCAATTGAAAATGAAATAA	MRKSKRLLLWLIPIAIAAALWLIANVVEPEYAYVPPAHKLENSNSAQIQTRQTDVIRQYDLWGKTLTVPGTALQDQHPRLTAANGAVEVNKEMLALGRRTMYEESFGNEVFLTDILGIVDGPMKLKNVAKALAELKGRGTTNLRVELDQDVTIGGKTFRKGDKIDTGFDVAKGAYSPIGVTFKYAEGKTRIGVSCMACHATVNRDTGMVVEGAPNSDLNLGLMLALAPNSAAYFTHTDVANLVDYVKNGQRTVINSKGQTEALPDPALLEKAVDDNLIKWAPGNFDTTVDKVSDVTQIPDMFTKGDHPYSWSGFAIAGPFKGLSTFSNNVHAQNTDTLSQTEVSEPLMGIDKEIYVGTILQNAAHRKFRYDPSSGLKPTEFFDRLDPNPGTPGVNEVIKIPNFPKVSAIAPNGLYISSPGFKAGEQVNAMSAYQNTVRPPETDKAEASDAKTLSLGAEVFKKAQCITCHAGDYFTNNRIMRAAEIGTEPARAKAFHFTQNAFGEAEFYPPDTPVPIPPDAKATKVPLDGIDPEQIKLGFGHKSGGGYKVKGLIGLRWSAPYLHDGGVAVGPELSQAGVPATLMKGIHPDPYNSLKALIDRKLRLRVVEANRKDSRLRDTHVTGQGHEYWVDESSGFTQEQQDALVKYLLQLKMK				NA	NA	NA	NA	NA
AK002_00742	279			hypothetical protein	ATGTCCGGTAAAGACAAGAATCTTCACCCGATTTCGAGAGAAGGGGTGGACGTGGACGGAACGTACACGAATGAATGGGGACGGGAGGAATACCTGAAGCGAGGAGAGGAATTCCCGTTCGATCCGCAGATGGGCTCCACGGAGTGGCGGCTGGCGGAGTATGATTTCGACAACCACCATCAAGGCAGAACAGACGAGCGTCTGGTTCCGAAAGAAAAAGGTCCGGATAAACAGGTGAATGCCGAATCTCCGCTCCGCCATGACGTGGAAGTAGATTAA	MSGKDKNLHPISREGVDVDGTYTNEWGREEYLKRGEEFPFDPQMGSTEWRLAEYDFDNHHQGRTDERLVPKEKGPDKQVNAESPLRHDVEVD				NA	NA	NA	NA	NA
AK002_00743	1038	nylB'		6-aminohexanoate-dimer hydrolase	ATGGTGAAGTCACAGACTATCCTGCATTCCCCCGTTGCCTCAAGCCCGCCTATTCCCGTTGCGGAGCCTGAAGACGCAGGCCTTCGGCGCGACGTGCTCGATCGGGTAGACCTGATCATACAGAAGCAATATCCGAAAATGCGGAGCTTTCTCCTCCTTCATGCCGGCAAACTTATCTACGAACGCTATTACGGCGGCCACGGCATATCCTCGCTGAATGATTTAAGGTCAGCCACCAAGAGCTTTACGTCTGCGCTTTGCGGCATCGCCCTCTCACGCGGCGAGCTGCCTGACCTGAAAGCCTCCGTGACCGATATCTTTCAGCGTTACGTTCCCCAGCGAGCTCATCCGTTATTGCGCAACGTGTCCCTTCATCATCTGCTGACGATGACCTCGGGCTTTGCGTGGCAAACCGGTAAAAAGCTCGGGGAACCGCTCATCCACCGTTTCCATCGCAACCGGAAATGGACGAGCTTCGCCCTATCCCTCCCTGTCGTCGAACAGGAAATGGGCCGATTCCAATACCGGAGCACCGATTCCCACCTGCTCTCCGTTGCGGTTAGCGAGGCCACGGGAATGGACGCCTACACCTATGCCCGGCAATATCTGTTCGAGCCGCTCGGCATTCGCCATGCCGCCTGGTCCCCGAGCCCCGAGGGCCACAGCATGGGTCATATCGGCCTGTATCTTACCTCCCGCGACATGGCCAAATTCGGTCAATGCTGCCTGGACGGGGGACAGTGGCAAGGCAAGCCCGTTATTCCTGAAACCTGGCTTAAGCAAGCGCTCGCTCCGCAGGTGAAAGGCTATCCCGCTTTCGGCGATTACGGGTTCCAATGGTGGACCGGCATTCAGAACGGATCGGTTTATGCGCTCGCCCACGGCCATGGAGGACAGCAAATCTACCTTTTTCCCCAGTTGGATGCGGTCGTCGTATTTACGGCCGACAGCAAGGTCAGCCGCTGGAAGAATCCGCGGGTACTGCTGGAACGCCACATCCTTGATACCCTGAAATCCGCAGCGGCTTCCGCCGAATAG	MVKSQTILHSPVASSPPIPVAEPEDAGLRRDVLDRVDLIIQKQYPKMRSFLLLHAGKLIYERYYGGHGISSLNDLRSATKSFTSALCGIALSRGELPDLKASVTDIFQRYVPQRAHPLLRNVSLHHLLTMTSGFAWQTGKKLGEPLIHRFHRNRKWTSFALSLPVVEQEMGRFQYRSTDSHLLSVAVSEATGMDAYTYARQYLFEPLGIRHAAWSPSPEGHSMGHIGLYLTSRDMAKFGQCCLDGGQWQGKPVIPETWLKQALAPQVKGYPAFGDYGFQWWTGIQNGSVYALAHGHGGQQIYLFPQLDAVVVFTADSKVSRWKNPRVLLERHILDTLKSAAASAE				NA	NA	NA	NA	NA
AK002_00744	189			hypothetical protein	ATGGCAACGAAAGGTCACAATGAGGTTAAGGAAAGTCTGCGGGAAATGACACGAATTTTCCGGCCTAAAGATCCGAAAAAATTTGTAAAGGAGTATGTCCGGAAGTACCATATTATGGGGGGCTACGAAGAAGAGCTTACTCTTGTTGTTGAGCATGAACTTGGCAAGCTGAATTCCTCCGTTTCGTAA	MATKGHNEVKESLREMTRIFRPKDPKKFVKEYVRKYHIMGGYEEELTLVVEHELGKLNSSVS				NA	NA	NA	NA	NA
AK002_00745	750	map_1	COG0024	Methionine aminopeptidase 1	GTGAGGATACAGCTTAGACGGAAGGAAGAGATCGGACATATCCGCGAGGCGGGGCGCATATTGGCCGCCTGTCACCGTGAAATAGCGAAAGTCATCGAACCGGGGATCACGACCAGCGAGATCGATGCCAGGGTCGAGAAGTTTCTGGAGAGGAACGGGGCCTTCCCCGAGCAAAAAGGATACAAAGGTTTTCCTTACGCGACTTGCGCATCGGTCAACGAGGTGGTGTGCCATGGATTTCCCGACCAGCGGCCGCTGCAATCCGGGGATGTCGTCACCATTGATATGGTGGTGAACAAGAACGGCTGGCTGGCCGACTCCGGCTGGACTTACGCGGTGGATCAGGTTTCCCCGGAAGTAAGGCAGCTTATGAAGCATACGCACGAAGCGCTGTTTAAAGGGATCGAGGCCGCGCGGCATGGCGCAACCTTGGGTGACGTCGGCCATGCGATCGAAAGGGTCGCCGAGAGAGAAGGCTATGGGATCGTCAAACCGCTTGTCGGTCATGGCATCGGCCGCGCCATCCACGAGCCGCCCGATGTGCCGAACTATGGAAATCCCGGAAGGGGCCTCAAACTCAAAGCAGGCATGGTCATTACCATCGAACCGGTATTCACCCTGGGCCCTTCAGGGGCGGTGTTCTGGGGGGATGACGGCTGGACCATCTCCAGCGCGGATGGATCGGTGGGCGTCCAGTATGAGCATACGATTGCCATTACGCGTGGAGATGCTGTTGTTCTGACGGATTAA	MRIQLRRKEEIGHIREAGRILAACHREIAKVIEPGITTSEIDARVEKFLERNGAFPEQKGYKGFPYATCASVNEVVCHGFPDQRPLQSGDVVTIDMVVNKNGWLADSGWTYAVDQVSPEVRQLMKHTHEALFKGIEAARHGATLGDVGHAIERVAEREGYGIVKPLVGHGIGRAIHEPPDVPNYGNPGRGLKLKAGMVITIEPVFTLGPSGAVFWGDDGWTISSADGSVGVQYEHTIAITRGDAVVLTD	PGPT0020010_8795	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
AK002_00746	1050	ctaC	COG1622	Cytochrome c oxidase subunit 2	ATGATGAAACGGTGGCAGGCTGTAAAGCGTCTTCTTCCTTTGATGGCCATGTTTGCTTTGGTGTTATCCGGCTGCGGCCGAGAGGATTTGTCGGTCTTAAGACCACAAGGTCCGGTAGCACAAGGTCAACTGGATTTAATTAAGCTCTCCATTTCGATTATGATCGTCGTAATGGTTGTGGTATTTGGAATTGCCGCATACGTGCTTGTTAAATTCCGTAGAAAAAAGGGACAAGATGAAATTCCTGAGCAAGTGGAAGGTAACCATAAGCTTGAGATCATTTGGACGGCGATTCCGCTGCTCTTGGTGCTCGTGCTTGCAGTTCCTACTATTCAAAAGGTATTTGCTTACGGAGAGAACGACTGGAACAATCCAGATGCAGTTAAGGTGGAAGTTACTTCTCACCAGTTCTGGTGGGAGTTCAATTATCCAGACTACGGCGTAAGAACGGCTCAAGAGCTGGTTGTTCCCGTAGGCAAGAAAATTGCATTCCAATTAAAAACGAATGATGTGCTTCACTCCTTCTGGGTACCATCGCTCGGCGGCAAGATGGATACAAACACGGAAGGCAGCGTTAACTACATGACTCTGGTTGCTGACAAAGCGGATACATACATTGGTAAATGCGCGGAGTTGTGCGGTCCTTCTCACGGTTTCATGGAATTCCGGGTGAAAGCGGTTGACGATGCGGCATTTGACAAATGGGTGGCGGCATTCAAAGAGCCAGCCGTGCTTCCTGCGGATGCGGCGCTCGCCGAGAAATTCAAGACCAACTGTCTTTCCTGCCACGCTGTGGGCGACCAAGGCGGAGCGATGGGTCCTAACCTGACCGGCATTGGATCCCGTGAGACGATTGCGAGTATCTTGCTGAACGACATAAGCGGCAAACCAGGCACTAAGCCGACGAAAGACAACCTGGTGGAATGGCTGATGGAGCCTCAGGCTGTAAAACCTGGCAACACGATGCCTAATCCGAAGGATCTCGGCTTCAGTGACGAAGAAATCGAGCAGATTGCCGATTACTTGGCCAATTATAAGTTGGATTATTAA	MMKRWQAVKRLLPLMAMFALVLSGCGREDLSVLRPQGPVAQGQLDLIKLSISIMIVVMVVVFGIAAYVLVKFRRKKGQDEIPEQVEGNHKLEIIWTAIPLLLVLVLAVPTIQKVFAYGENDWNNPDAVKVEVTSHQFWWEFNYPDYGVRTAQELVVPVGKKIAFQLKTNDVLHSFWVPSLGGKMDTNTEGSVNYMTLVADKADTYIGKCAELCGPSHGFMEFRVKAVDDAAFDKWVAAFKEPAVLPADAALAEKFKTNCLSCHAVGDQGGAMGPNLTGIGSRETIASILLNDISGKPGTKPTKDNLVEWLMEPQAVKPGNTMPNPKDLGFSDEEIEQIADYLANYKLDY	PGPT0004030_1528	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
AK002_00747	1899	ctaD		Cytochrome c oxidase subunit 1	TTGGCTCACGCTCATGCTTCTAGCCATAGCGTCAAACGCTACACGGGGATCATGGATTGGCTGACAACCGTCGACCACAAGAAAATCGGTATATTATACCTGATCGCGGGTGGTTTCTTCTTCGGGATAGGCGGTATCGAAGCGATTCTGATTCGCTTGCAGCTGATCAAGCCGATGAACGATCTGGTATCGGCTCAAGTATTTAACGAATTGATTACAATGCACGGAACGACGATGATCTTCCTTGGCGTTATGCCAGTTATCTTCGCCTTGATGAACGCGGTCATCCCGCTTCAGATCGGCGCGCGCGACGTCGCGTTTCCGTTTCTGAACTCGCTCGGATTTTGGACGTTCTTGTTCGGTGGACTTTTGCTTAACCTGAGCTGGATTATGGGCGGCGCGCCTGATGCGGGCTGGACGTCCTATACGCCGCTCTCCACCAACGACTATTCGTCCACGCACGGCGTAGACTTTTACACGATAGGACTTCAGATTGCAGGTCTCGGTACGTTGATCGGTGGTATCAACTTCCTGGCTACCATCATTACGATGCGTGCGCCTGGCATGTCCTTCATGAGAATGCCGATGTTTACATGGACGGCGTTCATCACTTCGGCCATGATTCTGTTCGCATTCCCTGCCATTACGGTAGGTCTCGTATTGCTCAGCTTTGACCGTTTGCTCGGTGCCAATTTCTTTGATGTTGCGGCAGGCGGAAGCCCTGTATTGTGGCAGCATATTTTCTGGATTTTCGGTCACCCTGAAGTTTACATTCTGATTTTGCCGGCGTTCGGTATTATCTCAGAAGTTATCCCTACATTCTCCCGTAAACGTTTGTTCGGATACAGCTCCATGGTATTTGCAACCATCCTGATCGCCTTCTTGGGCTTCATGGTTTGGGCTCACCATATGTTTACGACAGGTCTTGGACCTGTAGCGAATGCGCTCTTCTCCATCGCAACGATGCTGATCGCCGTTCCTACCGGTATCAAAATCTTTAACTGGCTCTTCACGATGTGGGGCGGCCAAATCCGCTTCACCAGCGCAAACCTGTTTGCGATCGGTTTCGTACCGACGTTCGTAATGGGTGGGGTTACCGGTGTTATGCTGGCTTCTGCTCCTGCAGACTTCCAGTTCCATGACACATACTTTGTTGTAGCTCACTTCCACTACGTTATCGTTGGCGGTCTGGTATTCGGTCTGTTCGCCGGCCTTCACTACTGGTGGCCAAAAATGTTCGGCCGTATGCTGAACGAAACGCTGGGCAAATGGACGTTCTGGTTGTTCGCAATCGGCTTCCACATGACATTCTTCGTACAGCATTTCCTTGGATTGCTAGGTATGCAGCGGCGGATTGTCTCCTACTTGCCGAACCAGAACTTCGACGAGCTTAACTTCATCAGTACCATCGGTGCAATCTTGATGGGGATCGGCGTATTGCTCTTCTTGGCTAACATTGCCGTCACTACAAGAAAACCGGTTGGCGTTGCAGCGGATCCATGGGAAGATGGACGCACGCTCGAGTGGAGCATTCCGTCTCCACCGCCAGAGTACAACTTTAAGCAAATTCCGCTCGTTCGCGGCATTGACGCTTACTGGAAAGAGAAGATGGCAGGCAATAAAGAGATGACACCATCCGAGCCGGTTGGTCCGATCCACATGCCTTCGCCAAGCATCCTTCCGTTTGTGATGTCACTGGGTCTGTTTATCGCGGGTCTTGGTTTCATGTTTAGCACGGAAGACTTCTCGAATTCGTTCATGAGCTTAATCTTCAATAAATATATCGTTCTGATTGTTGGTCTTCTGATTACGTTCGCGGCAATGATCGCTCGTTCCCTGTACGATGATCATGGATATCACATCGAAGTTGAAGAACTGGAAGGGGAGGGTAAAGCATGA	MAHAHASSHSVKRYTGIMDWLTTVDHKKIGILYLIAGGFFFGIGGIEAILIRLQLIKPMNDLVSAQVFNELITMHGTTMIFLGVMPVIFALMNAVIPLQIGARDVAFPFLNSLGFWTFLFGGLLLNLSWIMGGAPDAGWTSYTPLSTNDYSSTHGVDFYTIGLQIAGLGTLIGGINFLATIITMRAPGMSFMRMPMFTWTAFITSAMILFAFPAITVGLVLLSFDRLLGANFFDVAAGGSPVLWQHIFWIFGHPEVYILILPAFGIISEVIPTFSRKRLFGYSSMVFATILIAFLGFMVWAHHMFTTGLGPVANALFSIATMLIAVPTGIKIFNWLFTMWGGQIRFTSANLFAIGFVPTFVMGGVTGVMLASAPADFQFHDTYFVVAHFHYVIVGGLVFGLFAGLHYWWPKMFGRMLNETLGKWTFWLFAIGFHMTFFVQHFLGLLGMQRRIVSYLPNQNFDELNFISTIGAILMGIGVLLFLANIAVTTRKPVGVAADPWEDGRTLEWSIPSPPPEYNFKQIPLVRGIDAYWKEKMAGNKEMTPSEPVGPIHMPSPSILPFVMSLGLFIAGLGFMFSTEDFSNSFMSLIFNKYIVLIVGLLITFAAMIARSLYDDHGYHIEVEELEGEGKA	PGPT0004025_126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
AK002_00748	621	ctaE		Cytochrome c oxidase subunit 3	ATGAGTCACGCTGAACATGTAAACGGCGAACTTCCTCACGAGCCCGAGAAGGCAACACTCGAAGGCCGTAATAAGGTTCTTGGTTTCTGGCTCTTCCTCGGTGGAGAGGCCGTGCTCTTCGGTACGTTGTTTGCAACGTTCCTGGCGCTTCGCGGCCAGAACAACGAAGGTCCAACTGCTGCTGAGCTGTTTTCGCTTCCGATCACGGCAGCAGCAACGCTGATATTGCTTGTCAGTTCCTTGACCAGCGTGTTCGCCATTCAGGCGCTGCACCGTCATAATATCGAGAAGCTGAAGCTGTGGCTGATCGTGACCGTTGTCCTGGGTCTTGGATTCCTTGGCCTTGAGATTTATGAATTCTATGAATATGTTGTGCATGAATCGTTTAACATGAAGACGAGTGCATTCTCGTCTGCATTCTATACGCTGGTTGGCTTCCACGGCGCCCACGTTGCTTTCGGGGTCGTGTGGATCAGCCTGTTGATTGCTCAGCTGTACAGAAAAGGGTTAACCGTGGTTACAGCACCTAAGGTTTATGTGTCTGCTATGTACTGGCACTTTATCGACGTTGTATGGGTGTTCATCTTCTCGGTCGTATACCTTCTTGGAAAGGTGGGCTAA	MSHAEHVNGELPHEPEKATLEGRNKVLGFWLFLGGEAVLFGTLFATFLALRGQNNEGPTAAELFSLPITAAATLILLVSSLTSVFAIQALHRHNIEKLKLWLIVTVVLGLGFLGLEIYEFYEYVVHESFNMKTSAFSSAFYTLVGFHGAHVAFGVVWISLLIAQLYRKGLTVVTAPKVYVSAMYWHFIDVVWVFIFSVVYLLGKVG	PGPT0004035_2653	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
AK002_00749	324	caaD		Cytochrome c oxidase subunit 4B	ATGACTGCGAATCAACAATCCAATGAGGGGCCTACAGTGAAACACCGCCATCGTGTGGAAGGTCCTGAGAAACACATTGTCGTCTTTATTTTCTCCATCGTCTTGACTGCGATTGCTTTTGCGGCTGTCGCAGCCGGTGGCATCAACACAGCATTTACGATCATCCTTTTGCTGGTTATGGCTGTGTTGCAGGTGTTCGTGCAAATGGGTTACTGGATGCACTTGAAGGACAAAGGGCATCTGATGCCAATCCTGTTCATGATTGGCGGCTTCTTCGTAGCTAGTACCTGTATTGTCATGGCACTGTTCTGGGTTTGGTGGTAA	MTANQQSNEGPTVKHRHRVEGPEKHIVVFIFSIVLTAIAFAAVAAGGINTAFTIILLLVMAVLQVFVQMGYWMHLKDKGHLMPILFMIGGFFVASTCIVMALFWVWW	PGPT0004040_658	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277	NA	NA
AK002_00750	909			hypothetical protein	ATGCTGGGCTTAGAATATTTTAGTTTTGCAGATAAATGGAGTCCCTTGTTCCTGGCATTTATGCTGCTCGTTACGGCAGGCTACTTCCTGTTGACCGGGCCGCTAAGCAGTCGCTTTGAAGGGAGTGCTCCGGTTTCCGCAGGAAGGAAAACACTGTTTGTAGGCGGTATGCTAACGTTCTATCTCGCACAGGGTGGACCTATTGAACTGCTCGGGCATACAATGTTCTCGTTTCATATGGTCAGTATGGCCATGTCCTATCTAATGGCAGTGCCGCTCTTGATTCTGGGTATTCCTGTTTGGATGTGGCGCGCCTTCGACAAGGTCAATCCGTTTAAGAAGCTCGGTTTCCTTGCGCGTCCGATTGTTGCCGCGGTTCTGTTTAACGGCTTGTTTTCGTTTTACCACATCCCGGTCATCCATGACTTTGTCATGTTAAACTTCTGGGTGCACCGTCTGTATTACCTGATCCTGTTTATCGCCTCGCTGCTGATGTGGTGGGCCATCATTAAACCGATTCCGGAGAAGGACAATTCGTCAGGGCTTATGAAGATGGGATACATCTTTCTCAACATGGTCTTGCTGACACCGGCATGCGGGCTCATTATTTTCTCAAGCGAACCGATGTACGCAACTTATAGCGATCCAGTGGTATGGGCGAAGGCGATGGGCTATTGCGTTGCCGGCGATACCACCGCGTTGCTCAGCCAGTTCGGCGGGCCGGAGTTCTTCGGCTACCTGGAGCCAGCGATTGACCAGCGAGTGGGCGGGATCATCATGAAGTTTTTCCAGGAAATCATTTTTGCTTCGATGCTGGCCTATGTGTTCTTTCACTGGTACAAACGAGAAAATCAGGAAGACGATCCTTTGCCTGGCGAGATTCCTCCAGGCAAACTCAATCAGGCGTAA	MLGLEYFSFADKWSPLFLAFMLLVTAGYFLLTGPLSSRFEGSAPVSAGRKTLFVGGMLTFYLAQGGPIELLGHTMFSFHMVSMAMSYLMAVPLLILGIPVWMWRAFDKVNPFKKLGFLARPIVAAVLFNGLFSFYHIPVIHDFVMLNFWVHRLYYLILFIASLLMWWAIIKPIPEKDNSSGLMKMGYIFLNMVLLTPACGLIIFSSEPMYATYSDPVVWAKAMGYCVAGDTTALLSQFGGPEFFGYLEPAIDQRVGGIIMKFFQEIIFASMLAYVFFHWYKRENQEDDPLPGEIPPGKLNQA				NA	NA	NA	NA	NA
AK002_00751	465			hypothetical protein	ATGGATTGGTTTTTTATATTTCCCACGGTCAGTACAACGTTCATCGTCATCAGCGCCGTTCTGGTGGCGATTGGCTGGGGACTTATCATTAAAGGGAAGCGCGAGGCCCACAAGAAAGTGATGATCTGGGCGGCCATCGCAGCCGTCATCTTCTTTATCATCTATTCTTCGCGCACCGTATTCATCGGTAACACGTCATGGGGCGGACCTGATGACCTGAAGCCGTATTACCAGGTATTCCTGATCTTCCACATTGTACTGGCTACCGTAGCCGCTGTGTTCGGGATCACGACGCTGGTCCTCGGCTTCAAGGAGAAATTCTCCACGCACCGCAAGTGGGGCAAGGTTACGTCAATCATCTGGTTCTTTACGGCCATCACCGGCGTAGCCGTGTATACCTTGCTGTACCTGTTGTACCCGGGCGGACATACCCAGCCTGTATGGAAAGTCATATTTGGAATGTAA	MDWFFIFPTVSTTFIVISAVLVAIGWGLIIKGKREAHKKVMIWAAIAAVIFFIIYSSRTVFIGNTSWGGPDDLKPYYQVFLIFHIVLATVAAVFGITTLVLGFKEKFSTHRKWGKVTSIIWFFTAITGVAVYTLLYLLYPGGHTQPVWKVIFGM	PGPT0024520_594	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024520-yozB_-K08976	NA	NA
AK002_00752	726			hypothetical protein	TTGCAACAGGTTTTCCATAATGCGATGAAGATCGTGAAGAAAGACTTCGCAAGCGATAAGCTCCAAATCATATGGACGATACTGTTCATGCTGTACATGGGGTTTGCCACGAGCGTCGTCATAAACGTTCAGTTCGAGCATCTAGACGAATACAATAACCCGTTTGTCGATTTTATCATGGTGCTTTTTGCTCCTTTTGTAGGATTTTTATTTAACAGAAAGTCCTTCAAATATTTGAACGAGGATTCATACACCCGAATGCTGTACTTCTACCGGAGCATACCGGTGCCGGCTTCCGCTATTTTTGTTAGCCGGATCATTAATTCCCTGATCGCTTTTGCCATCAACAGCATCGTGTTTTACGGAATCATCTACGCTATAGGCAATCACCTAAGAAGCGTGATGGATATTCCAAGCTATATCGCCTTTATGCTGACATGGGTCGGGGTTGGATTTTTATTAACGGGACCTTATATTTACTGGGAAAGTATGAGCAGCGGCAAGGTGTATCTAAGGAATACCGTTATTTTGAATTTTTTCATTGCGGGATCGGTCGCTGTACTGAGCCTTCTGGGTTACAGCATATTCGAATTCTCAGCAAACGCCGCCATGCAATGGGGCCTGTTATCTCCGGTGATGTGGGGTGCGCTGATTGCGGGATTGGCGTCCATGCTGCTCATGAGCAAGTTAACCTACACGCGGCAGCAGACCAGGGATTTATCATGA	MQQVFHNAMKIVKKDFASDKLQIIWTILFMLYMGFATSVVINVQFEHLDEYNNPFVDFIMVLFAPFVGFLFNRKSFKYLNEDSYTRMLYFYRSIPVPASAIFVSRIINSLIAFAINSIVFYGIIYAIGNHLRSVMDIPSYIAFMLTWVGVGFLLTGPYIYWESMSSGKVYLRNTVILNFFIAGSVAVLSLLGYSIFEFSANAAMQWGLLSPVMWGALIAGLASMLLMSKLTYTRQQTRDLS				NA	NA	NA	NA	NA
AK002_00753	402	ytrA_1	COG1725	HTH-type transcriptional repressor YtrA	GTGCGACTTCTGATACAGATCAATGAAAATAGCGCAGAGCCTTTATATCACCAGATTGAAACACAGCTGCGCTCGCTCATTATTAGCGGTCAAATCGAGGAGGGAACGTTATTGCCATCCATTAGGGAATTTGCCGGAGATCTGAAGTGTAGCGTCATTACGGTGCGCAGGGTGTATCAGGATCTTGAGAATGAAGGGCTGCTGCGAACGAGGCAAGGTACCGGAACTTTCGTTGCAGGCGTCGGCGACCAGGCCCGAGAACAATATAAACGCGATGCGGTCATTGAGGCATTAAGGGATGCTGTAGATAAAGGGCTTGCCGTTCAATTCAATGAAGAAGAGATGAAAGAGATGTTCATGGAAGTTGTCCGGGAAAAATATGATGCCAAAGGAGGTCGCTAA	MRLLIQINENSAEPLYHQIETQLRSLIISGQIEEGTLLPSIREFAGDLKCSVITVRRVYQDLENEGLLRTRQGTGTFVAGVGDQAREQYKRDAVIEALRDAVDKGLAVQFNEEEMKEMFMEVVREKYDAKGGR				NA	NA	NA	NA	NA
AK002_00754	903	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGGAACCGCATGTTATTGAATTTCGTAATGTCATTAAACGGCGAAGAACGAAAACCATCGGCCCGATACAATTATCGATTCCCCAAGGATATATCGTTGCCCTGGTGGGGCCTAACGGCTCGGGAAAAAGCACGCTGCTGAATATGATGATGCAGACCGTGTTTCCGGACGAAGGCGAAATCACCTGGTTCGGCGAGTCTTACCGAGGAGAGCTTCCGGTCTCGATCCGTAAACAGATGGGATTCGTTCCTGAACAGCTAAGCATAGAAGAACAGCATATGACGGTGGATGAAGCGGCCAGCTTTCGCGCATCCTGGTATGACGATTGGGACGGTTATTTTTTCGATGAGCTTCTATCCCGGTTCGATGTCCCGCGGGGCGTCAAACTGCGCAAGATGTCCAAGGGGGAACGCCGCAAGTTCGAGATTGCCGCTGCTCTGGCGCCAAGGCCCAAGTTCCTGCTGCTGGATGAACCTTCCTCGGGCCTGGATCCCTTCGCCTGGAAGCTGATGATCGATCAGCTGCACAAAGTGATGAAGTCCATGGATACAACCATCGTGCTCTCCACCCATGTGGTGGATGAAATCCGGCGCCTGGCCGATTATGTTATTCTCATCCATCATGGGAAGATGCTCGGCATGGTGGAGAAGGATTCGCTGCTGGACAACTGGAGGGAATGCTGGATTCAGGGAGATGCCTCCATTGTAGAGGAGCTGCCGGGTATTCTGAGCTTTAAGCAAGAGACAGCGAGCACGATTTCTTTTATAACGACGGAATGCTTGGAAGTGGAGAGGATCTTGCAGTCTGCAGGCATCCCGTTTATTCAGACCCGTTCCCTGGAGCTGGATGAAGTGCTTCGATTATGGATTGACGGAAACATGCCTGCCAATGTGCAGAACTAG	MEPHVIEFRNVIKRRRTKTIGPIQLSIPQGYIVALVGPNGSGKSTLLNMMMQTVFPDEGEITWFGESYRGELPVSIRKQMGFVPEQLSIEEQHMTVDEAASFRASWYDDWDGYFFDELLSRFDVPRGVKLRKMSKGERRKFEIAAALAPRPKFLLLDEPSSGLDPFAWKLMIDQLHKVMKSMDTTIVLSTHVVDEIRRLADYVILIHHGKMLGMVEKDSLLDNWRECWIQGDASIVEELPGILSFKQETASTISFITTECLEVERILQSAGIPFIQTRSLELDEVLRLWIDGNMPANVQN	PGPT0006725_15211	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00755	903	lnrL_1	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGCAACGATTGCAATTAGACAATGTAGTTAAGATTTATGCAGACAAAACGGCAGTAAACCGGATTTCGCTTCAGGTTGAGGAAGGTGAAATCTACGGGCTGCTCGGGGCGAACGGCGCCGGCAAAACCACCACCATGCGGATGGTGCTTGGACTGATCTACCCGGATGACGGTACGATCCTGTACAACGGAAAGCCTTACAACAAGGAACTTCGCCACATTATGGGGTACTTGCCGGAAGAACGCGGGTTATACCCGAAAGTGAAGGTCAGCGAGCAAATTTCCTACTTGGCTCAGCTGCGGGGCATGTCTGCAAAAGACGCCGACAAGAGTTTGAAGTACTGGCTGGAACGGTTTGAAGTTCCCGACTATTACGACAAGAAGATCGAAGAGCTGTCCAAGGGTAATCAGCAAAAAATGGGCTTTATCGCAGCGGTTGTCCATGACCCGCAAATTCTCATTCTCGACGAAGCCTTCAGCGGACTGGATCCGGTTAACGTCGAGCTTCTGAAATCAACGGTAAAAGAACTCCGAGACAAAGGAACGAGCATTCTGTTCTCCACTCACCGGATGGAACACGTTGAGGAACTGTGCAAAAACATTACGATTCTCCATCGCTCCAATACGGTGGTAAAAGGGAATTTGAAGGATATCAAATCCAAGTATCCTCGTGAAGAGGTGGTGCTCGGTACGTCCGGTGAAGTTCGGGGGCTTGAAGCCCTGCCTGGCGTAACGGCGGTGGAGCGCAAAGAGGACGGCTACTCCATCCGGATCAGTCAGGTTGATGCAGCGCAGAACATTTTGAATACGGCCATGTCGCAAAGCACGATCCATCGGTTTGAAGTGAAGGAGCCGACACTCAATCAAATCTTCATAAAGGCGGTAGGTGAATCCAATGAATAA	MQRLQLDNVVKIYADKTAVNRISLQVEEGEIYGLLGANGAGKTTTMRMVLGLIYPDDGTILYNGKPYNKELRHIMGYLPEERGLYPKVKVSEQISYLAQLRGMSAKDADKSLKYWLERFEVPDYYDKKIEELSKGNQQKMGFIAAVVHDPQILILDEAFSGLDPVNVELLKSTVKELRDKGTSILFSTHRMEHVEELCKNITILHRSNTVVKGNLKDIKSKYPREEVVLGTSGEVRGLEALPGVTAVERKEDGYSIRISQVDAAQNILNTAMSQSTIHRFEVKEPTLNQIFIKAVGESNE	PGPT0006725_15011	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00756	1305	yhaP	COG1668	putative protein YhaP	ATGAATAATATGTGGACCGTTATCCGATTTACGTTCATGAATAAAGTAAGAACGAAGTCGTTTCTCGTTTCAACCTTGATATTTGCACTCATTATTACGATCGGGATCAATCTTCCTTTTCTGATCCAAATGTTTACGGGGGATAAGGCTGGATCCGACGAGACCACCCGCATCGGGCTGGTATATGGACAAGAACAAACGCTTGCCGAACAATTGGAGACCACTTGGAGCAGCTTACCGGCCAATTCCTACGAATTCGTCAAATACGAAACGACAGATGAAGCTGCCCTGAATCAAGACATTAAAGACGGCGTAATCGAAGGTTATTTGAAATTTGAAGCGCAGGAAGGCAATACGTTCCCAACCGTGGTCTACAGCTCCGAAGACGAGGCCATGAGCCCGGAACTGCAATCCAATCTGCAAGCAGCGCTGCAGGTGGCGAAGACGCGCAGCATCGTAGAAGGACTCAATTTGTCCGATGCCCAGATCAATGAACTGAACACGCCGGTTCAGATTGACGCCCGCAGCATTAGCACGAATCCATCAGGCGATGCAGACGGGGCTTCGGATGAGAAGGAAGGGGCTTCCGAGGTTATCAACTACATTGTGGTTTACGCTCTGATTATTCTGTTCTTCTTCACCTTGATGGGTACGGGCAACATGATCGCATCCGAAGTGACGACAGAGAAGAGCTCCCGCATTATGGAGATCTTGATTACAAGCGTATCTCCGCTGAGCCAAATGTTTGGCAAGGTCATCGGCATGTTCCTGCTGGGACTGTCGCAGATCGCCGCATTCGGCATCGTGGCCGCCGTGAACCTGATGCTTCCGCACAACCTGGATACATTGAAGGAGATGAATCTCGACCTGAGCGCGATCGATCCGATGCTGCTGGTGTTCGGTTTAATCTTCTACATCCTTGGCTATTTCTTGTATGCGATGCTTTATGCGGCCATTGGTTCGATCGTCAGCCGTACCGAGGATTTAGGGCAGGCGGTCATGCCGATTACGATGCTGTCGCTGGTGGCGTTCTATATCGCGATCTTTAGCCTGAGCGCTCCAAACTCGATGCTGATGAAGGTGTCCTCGTACATTCCGTTCATCTCGCCGACCACGATTCTGGTACGGATCGGACTAGGCGACATTACCGTATGGGAGATTCTGCTCTCGCTGGCGATCCTGATCGTGGCCATTCTCGTCTTCGGCTGGCTGGCTGCGAAAATCTATCGCACCGGCGTCCTGATGTACGGTAAACGCCCTACGTTCAAGGAGCTTCGAAAAGCAATGAAAGCATACAAGATGTAA	MNNMWTVIRFTFMNKVRTKSFLVSTLIFALIITIGINLPFLIQMFTGDKAGSDETTRIGLVYGQEQTLAEQLETTWSSLPANSYEFVKYETTDEAALNQDIKDGVIEGYLKFEAQEGNTFPTVVYSSEDEAMSPELQSNLQAALQVAKTRSIVEGLNLSDAQINELNTPVQIDARSISTNPSGDADGASDEKEGASEVINYIVVYALIILFFFTLMGTGNMIASEVTTEKSSRIMEILITSVSPLSQMFGKVIGMFLLGLSQIAAFGIVAAVNLMLPHNLDTLKEMNLDLSAIDPMLLVFGLIFYILGYFLYAMLYAAIGSIVSRTEDLGQAVMPITMLSLVAFYIAIFSLSAPNSMLMKVSSYIPFISPTTILVRIGLGDITVWEILLSLAILIVAILVFGWLAAKIYRTGVLMYGKRPTFKELRKAMKAYKM	PGPT0006730_2622	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_00757	1215			hypothetical protein	ATGAAAAATTGGAAACGCATGCTCTTGTCTCTCACGATTTCGGCGGGATTGCTTGCCACGTCAGTGCCTGCCATGGCAGCGCCGCAGCAGCCGGCTGTGAAAGTGAATAACCAAGTTGTCGAATATTCGCTTGGCACACCGGTTATAGAAAAAGGCACGACGCTTGTTCCGCTTAGAAGCACGCTCCAGGCTCTGGACGTGAAGCTGACGGGGGCTGCAGATGATACCATTACTGCGGTGGTGGACGGTAAGACCATTACCTTAAAAGGCAAACTGAAACGAATCAATGGCGTAACTTATGCGCCCATTCGGGTTGTCGGGGACGCAGCCGGCTATGAGGTCAAATGGAATGCAGCAAGCCGTACCGTTCTGCTAGTTTCCAAGGCGACGGAAACCGCGCAGACCGGCGGCCGCGGGTTTATGTGGGAAGTAGAGAGCAACGGGAATACTGTGTACCTGGTGGGCTCTATGCATATCGCGGATGACAGCTTCTACCCGCTGCGTCCAGAATTTGAGGAAGCCTTTGCCGAAGCAGACTATCTCGGTGTCGAGGTTGATGTCAGCAAAGCAGCTGACGAAGCGCAGCAGCAGTTGATCATGGATATGGGCATGTATAAGGATGGAACAACGCTCAAGGATCATGTGTCCAGCGAGACGTACGCCAAGCTAGGCAAAATCCTGACGGAGAGCGGTATGAAGCCGAATGCCTTGGATGTATTCAAGCCTTGGGTAGTGGAAACCACGATCAGCAGCTTGAAAGCGGTGAAGGCTGGATACGAAGCCGCTGCTGGAATCGATCTGTATTTCGTCCAGAAAGCGATCGAGCGCAAGATTCCGGTAATCGAGCTAGAATCCTATGAATTGCAGCTCGGCATGTTTAATGGCTTCTCCAAAGAGCTGCAAGAAAAGAATCTCAACATCGCCTTGGATAATTTCGACGTCCTGGATGACGGTGTGGAGCAATTGGCTGAAATGTGGAAGACGGGTAATGATGAGGCGCTGCTGGAGTTCACCAACAGCATGGCCGCTGATGAGGAATACAACAAAGCGATGCTGATTGACCGAAACATCGGCATGGCCGAGAAAATCGACGGATACCTGAAGAACGGCAAAAAAGAAGAGTACTTCATCGTGGTTGGCGCAGCCCACTATCTGGGTGAGCATGGCATCGTGAAGCTGCTTGAGGATAAAGGCTATACCGTTGTTCGTAAATAG	MKNWKRMLLSLTISAGLLATSVPAMAAPQQPAVKVNNQVVEYSLGTPVIEKGTTLVPLRSTLQALDVKLTGAADDTITAVVDGKTITLKGKLKRINGVTYAPIRVVGDAAGYEVKWNAASRTVLLVSKATETAQTGGRGFMWEVESNGNTVYLVGSMHIADDSFYPLRPEFEEAFAEADYLGVEVDVSKAADEAQQQLIMDMGMYKDGTTLKDHVSSETYAKLGKILTESGMKPNALDVFKPWVVETTISSLKAVKAGYEAAAGIDLYFVQKAIERKIPVIELESYELQLGMFNGFSKELQEKNLNIALDNFDVLDDGVEQLAEMWKTGNDEALLEFTNSMAADEEYNKAMLIDRNIGMAEKIDGYLKNGKKEEYFIVVGAAHYLGEHGIVKLLEDKGYTVVRK				NA	NA	NA	NA	NA
AK002_00758	768			hypothetical protein	ATGTTGTTGATCCAAATCGCCCTCGTTATGGTGCTGCTCGGACTACTCCTCGGTTTCGTGGGCGCAGGCGGATCGGGTTTTATTATTTCCATCCTGACGGTCGTATTCGGTTATCCCATCCATACCGCGCTGGGTACCGCACTGGCAGCGATGTTCTTCTCGTCGCTTTCCGGTTCGGTCAGTCATTATCGTGAAGGGAATATGGTGCTGAGAACGGGTGCCGTCGTCGGCTTAGCCGGTGCGGCAGGGGCGTGGGTCAGCTCAGGCTGGTCCTCGCTGATTCCCGAGTATCAACTGGGCTTTATGACATCCGGGATGCTCTTCGCCTCCGGACTGGCCTTATGGTTCAGGATGTTGTACGTCTCTCGGCGGTCCCAGGCTTCCGAGGTCTCGGCTCCACCGATTGTCCAGGGTTTCCGGTACTGGCTGCAGGCGCTGCTCATCGGACTGATCACCGGTGCCTTATCGGGTTTGTTCGGAATCGGCTCCACCCCGTTCATCCAGATCGGGCTCATGCTTGTCCTCGGCATGTCGCTGCGCTTTGCTGCCGGTACGACCATGCTGGTCATTATGCCGATTGCGCTGGCCGGAGGCGCCGGATACTTCTCCATCGGATACCTGGATGTTCAACTGCTCGCCGCCGTTGTGGTCGGGACGATGTCCGGGTCGTACGTCGGAGCAAAATTTACGAAGCGCGTACCCGTTGTCTGGCTGAAAACCTGCATGGTCCTTACCCCGATGATCGGCGCTGCCATATTGCTGCTGTAG	MLLIQIALVMVLLGLLLGFVGAGGSGFIISILTVVFGYPIHTALGTALAAMFFSSLSGSVSHYREGNMVLRTGAVVGLAGAAGAWVSSGWSSLIPEYQLGFMTSGMLFASGLALWFRMLYVSRRSQASEVSAPPIVQGFRYWLQALLIGLITGALSGLFGIGSTPFIQIGLMLVLGMSLRFAAGTTMLVIMPIALAGGAGYFSIGYLDVQLLAAVVVGTMSGSYVGAKFTKRVPVVWLKTCMVLTPMIGAAILLL				NA	NA	NA	NA	NA
AK002_00759	1479	pnbA_1	COG2272	Para-nitrobenzyl esterase	TTGATCGTGCAAACATTATCAGGCACAGTGGAAGGCGCCGATTTAAACGGCGTGCATGTATTCCGGGGCATCCCCTATGCTGCCGCACCTGTAGGCAATCGCAGATTCAAGCCTCCGGCCCCTCCGCTCGCTTGGACGGGCGTAAGGCCGTGCAAGCAATTCGGGCCGATCGCCCCCCAGCAGCATCAGCCGAACGGGAACGTGCCCGGGCTTGTTCAGTCCGAGGATTGCCTAAACTTAAATGTGTGGACAACGGGCGTCAGCGAGAAATTAAAACCGGTCATGGTTTATATCCATGGCGGCGGGTTCGTGTCGGGAAACGGAGCGGATTGCGATGGATCCCGCTACGCAGCAGAGGATGGGATCGTCTACGTATCGATCAATTACCGGATTGGTGCGTTAGGTTTTTTGTATTTGGGAGACCTGCTCGGCAACGAGTATGAAACCTCCGGAAACCATGGCATGCTTGATATCATAGCTGCCCTCCGATGGGTTCGGTTGAATATTGCCGCTTTTGGCGGCGACCCGTCGCGGGTAACCGTCATCGGCAATTCTGCCGGGGCCAAATGTACCGCCACCCTCTACGTGATGGAAGCGGCACAGGGCTTATTTCACCGGGCCATTGCCCAAAGCGGCGCAACGCAGTCGATACGGGATTGCCAAACCGCCAATGTCACGACTCTTAGGCTGCTTGAAGAGCTGGGGTTACCGCAAGCACAGGCGCATCAGCTGCTTGAACTTCCTGCGGAGAGAATCATCGAAGCGCAGTCGGCAATCGGCTCCGACACCTCGCGCAGCCTGCATATGTTCGGCCCGGTTGCCGACGGCCATGTCATTCCGTTGGATCCACTGGCGAGTCTAGCCGGGAACGCCGGCCTTCCGCCGCTGCTGATCGGCACGAATGAGAATGAAGCGGCTATTTTTATCCATAACGATCCGGCGCTTCAGTCCCCGGCTTTCGAGACGCTCGAACGATTCTTCGGAGAGAATGCCGCTGTGGCGTGGAATGCTTATGCTTGTTATGAGCAATCGATGGCATCGGGTGAAGCGTGGAGCAAAGCATTGACCGAACATCTCTATACGATCGGAGCGATGCAGTTTGCAGAAGCCGTGGCATCGTCAGGAACTCCTGTATGGATGTATCGGCTCCAATGCGGCGGCTCGCTCGGCGCGATACACGGGTATGAAGGCAGTCTCATCGGCGCGGCATTCAACCGAAATGCGATGCCCGCTGAATGGCACTCCAATGAGGATCCCTATTCCGTAGCCGCCGAGAGCTATGCGCTGGCACGCGCCATGCGGGAAGCATGGGTCGCATTCGTACAAAGCGGAGAGCCGAATATTCGTGCGCTGCCGGCTTGGCCCGTCTATGGGAGCGGGCACCCCACCATGGTACTGGACCAAAACAGCTGCGTTCGAGAGGACCTGCCGGTTCCGGCCGGAATCGGCGTGCCCCATCAGGTTTGGAGGATGGCCTGA	MIVQTLSGTVEGADLNGVHVFRGIPYAAAPVGNRRFKPPAPPLAWTGVRPCKQFGPIAPQQHQPNGNVPGLVQSEDCLNLNVWTTGVSEKLKPVMVYIHGGGFVSGNGADCDGSRYAAEDGIVYVSINYRIGALGFLYLGDLLGNEYETSGNHGMLDIIAALRWVRLNIAAFGGDPSRVTVIGNSAGAKCTATLYVMEAAQGLFHRAIAQSGATQSIRDCQTANVTTLRLLEELGLPQAQAHQLLELPAERIIEAQSAIGSDTSRSLHMFGPVADGHVIPLDPLASLAGNAGLPPLLIGTNENEAAIFIHNDPALQSPAFETLERFFGENAAVAWNAYACYEQSMASGEAWSKALTEHLYTIGAMQFAEAVASSGTPVWMYRLQCGGSLGAIHGYEGSLIGAAFNRNAMPAEWHSNEDPYSVAAESYALARAMREAWVAFVQSGEPNIRALPAWPVYGSGHPTMVLDQNSCVREDLPVPAGIGVPHQVWRMA	PGPT0030515_2181	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
AK002_00760	909	gltC_1		HTH-type transcriptional regulator GltC	ATGGAACTGTTGCAATTAAAGTATTTTCAGACTGCTGCCCGGATGCAGCACATGACGAAAGCAGCCCATAGCCTTCATATATCGCAGCCGGCATTAAGCAAAATGATCGCATCGCTAGAAACCGAGCTGGGAACCAAGCTGTTCGAGCGGGAACGCAAATCCATACGTCTGAACGAGCATGGCAAGCTGTTTCTCCATCAAGTGGATATGGCGCTGCAGGCGCTGGAGGACGGAAAGCTGCAGCTGCAGGATGCCAGCAGCAGCACCTCCGCCGCCATCACGCTCGATGTGCGCGTCTCCTCGCATTTGCTGCCGGATCTATTGGCTGATTTTCGCAAAGAATGCCCGAATGCCGAGTTCCAATTGCAGCAGCATGTTTTGTCATCCGTAGGGATGCCGAGCTTCGATTTATGCCTGTCCGATGGCGCAGAGCCGCCGAAGGGAACGACCTCGGTGTGCTTGCTCGAAGAGGAGATCGTGGTTGCGGTACCCGCTGACCATCCGCTTGCGGATCGAGATCGGGTCAGCTTGCGGGAGCTTAAGGAAGAGAGCTTCATTACGCTGCCTCCGGGCAAATCGCTGCGTGAAACGACCGATGCGTTCTGCCGCCTTGCCGGCTTTACCCCCCGCATCCGATTCGAGAGCGACGACCCCGCCACCGTCCGCGGTCTCATTCGAGCGGGTCAGGGCGTCGCCTTCCTGCCGGTCGTGACATGGGGCGGATCAACCGGACCCGATGTCGTCCAGCTGAGGCTCGAAGAAAGCTGGTGCAAGCGCTCGATTTCCTTGTCTTGGCCCAAGGACCGATACCTTATGCAGACGGCGGTGCTGTTCCGGGATTTTGCCATTCGGTACTTTGCTCGGCTGGCCGAATCGCACCGGCAGAACATGGCTCGGAGAGAGCTCTAG	MELLQLKYFQTAARMQHMTKAAHSLHISQPALSKMIASLETELGTKLFERERKSIRLNEHGKLFLHQVDMALQALEDGKLQLQDASSSTSAAITLDVRVSSHLLPDLLADFRKECPNAEFQLQQHVLSSVGMPSFDLCLSDGAEPPKGTTSVCLLEEEIVVAVPADHPLADRDRVSLRELKEESFITLPPGKSLRETTDAFCRLAGFTPRIRFESDDPATVRGLIRAGQGVAFLPVVTWGGSTGPDVVQLRLEESWCKRSISLSWPKDRYLMQTAVLFRDFAIRYFARLAESHRQNMARREL				NA	NA	NA	NA	NA
AK002_00761	879	rhaR_6		HTH-type transcriptional activator RhaR	GTGGAAACCAAACAGCCTCCCAGGCTAACCAATGAGGATTACCGATTGCAGCCTCGCGCGCCTGTTCAAGTATTTCACGGCATTCATCCGGGGACGATTCCGCTGCATTGGCATGAATTTTACGAGCTGAGTTATGTAGTTGGGGGAGAAGGGGAGCATAGGCTCAACGGCTCCGCGTATCCGCTGTCTTCCGGAACCCTCTTCCTGCTGACGCCGGCCGACTTCCATGAGCTGGTGTCCAAGGAAGAAAAGCCTCTCGAAATATACAATGTCATTTTTACCGAGGCCATGATGGACGATAACCTGTATCACTGGTTGTTCGGAGGCAAGCTGGTGCTGCATGCACAGCTCGAGGAGATGCAGCACCGGCAGATATTCGCCGATTATGAACGGATGAGGGAAGAAACCGGAGCTTCGCGCGAAGGCAGCGAGATCGCGATTCGGGCTACGCTTCAGCGGCTGTTGGTGGATCTGAATCGGGGCAGTACCGCAAACTGCGCTTTGCCCACGAACGGGACCGGGAATCGGCAGCTCAACGTAAACCTGCAAAGGGCCTTGATCTACATTCACCACCACTTCCGGGAAGATTTGAGATTGGAAGATGCGGCCGCACAGGCCCAATACTCGGCTACGTATTTCAGCGAGTGTTTCTCGAAGTCCGTGGGACAGTCTTTTCAGCGTTACCTGCAAAATGTCAGAATGCAATTTGCCGAATCGCTGCTTCGGGCTTCCTCGCTGCCCGTCACCGAAATTTGTTACGCCTCCGGCTTCAATACGTTAGGGCATTTCGAGAGGGTGTTTCGTCAGCGAAAAGGGATGTCCCCCAGGCAGTACCGCCATCATGCAGGGATAGCCGAAGATATGCAGTATTTTTCCTAA	METKQPPRLTNEDYRLQPRAPVQVFHGIHPGTIPLHWHEFYELSYVVGGEGEHRLNGSAYPLSSGTLFLLTPADFHELVSKEEKPLEIYNVIFTEAMMDDNLYHWLFGGKLVLHAQLEEMQHRQIFADYERMREETGASREGSEIAIRATLQRLLVDLNRGSTANCALPTNGTGNRQLNVNLQRALIYIHHHFREDLRLEDAAAQAQYSATYFSECFSKSVGQSFQRYLQNVRMQFAESLLRASSLPVTEICYASGFNTLGHFERVFRQRKGMSPRQYRHHAGIAEDMQYFS				NA	NA	NA	NA	NA
AK002_00762	747			hypothetical protein	ATGATGACAACGCAAGCGCTTTCGAAGCAGGAAGTTGAGTTTTATAAGGAGAACGGGTATTACCTATACCGGAAACCGCTCTTTAGCGCCGAAAAAATGCAGGTACTGACCTCCATCTTTGAAGAACAGCTCGAGGAGAAGGGCAGCAAGCTATCGGACGAACTGGATACCCCGCATTTCCGTGACGAAAGGCTGCTGGATTTCCTATTGGCCGATGAAGTGCTTGATCTGGTTGAACCGATCATCGGACCGAATATCGGGCTGTGGTCGAGCCATTTTATCTGCAAAGATCCGCATATCGGACGCGCTACGCCTTGGCATGAGGATTCGGCCTACTGGAACGGAAGATTAAGCAGCTTCGACAAGATTATCACCGTATGGCTGGCAATCGACCGCAGCTGGAAGGAAAATGGATGCATGCGCGTCATTCCGGGCACGCATCATAGCGGGTTCTCGGACTATGAGGAGGTGGACGGGACAAAGAATTTGTTCGACACCCAAATCAAGACCGGCTCGGTTGACGAGTCTAGGGCGGTTTATTTCGAACTGGAGCCAGGGGAATGCTCGCTTCACGATTCGCGCATCATTCATGGCGCGGCGCCGAATACAAGCCCGTACCGGCGCTGCGGGTACACCATGCGGTATTTCTCGACGGACGCGCTGGTTTATCCGGATAAGAATCCCGGTTTTAAGGTGTGGCTGGCCCGTGGAAAGAACATCGCCGGAACGAAATTCGTCAACGAATAA	MMTTQALSKQEVEFYKENGYYLYRKPLFSAEKMQVLTSIFEEQLEEKGSKLSDELDTPHFRDERLLDFLLADEVLDLVEPIIGPNIGLWSSHFICKDPHIGRATPWHEDSAYWNGRLSSFDKIITVWLAIDRSWKENGCMRVIPGTHHSGFSDYEEVDGTKNLFDTQIKTGSVDESRAVYFELEPGECSLHDSRIIHGAAPNTSPYRRCGYTMRYFSTDALVYPDKNPGFKVWLARGKNIAGTKFVNE				NA	NA	NA	NA	NA
AK002_00763	795			hypothetical protein	TTGAACATTCAGCTGTATAAGGCCCTGTGGGGCATGGAGGGAAGCTGCAGGGACCAATTGACGAGGGCTGCACAGGCCGGTTACGCGGGAATTGAAGCTCCGCTGCCGCCGGCGAATCTGGAAGCCGAATTTAAGGATTTGCTGGAGGAATTTCAGCTTCATTACATTGCCCAGGTGACTACATCCGTGCCCCATCAAGACACCTTTGCCGAGCAGGCGCGCCGGGCCGCAGCCTTCGGCCCGAAGCTGATCGTGTCCCATAGCGCCCGGGATGGCATGAAGATCGAGGAGCAGCTGCGTTTTTTCGAGGCTGCGCTGAAAATAGAGCAGGAGGTCGGCATCACCATCGGGCACGAAACCCACCGGTCGCGGGCGATGTTCACGCCGTGGACGACGCGCACCTTGCTGGAGGAGTTCCCGGAGCTGAGCATTACGGCCGATTTCAGCCACTGGTGCTGCGTGACCGAGTCCTTGCTGGAGGACTATGCGGAAGACATGGAAACCGCCATACGCCGGACCGTCCATATTCACGCGCGCGTAGGCTACGCTCAGGGCCCGCAGGTTCCCCATCCCGGGGCGCCTGAATACGGCCGGGAGCTGACAGTCTTTGAAGCCTGGTGGTCACGCATTGTCCAATACCGAAGAGAGCAAGGGTTCAGTCACACCAGCATAACGCCTGAATTTGGTCCGGCCGGGTACATGCACACCCTCCCTTTCACAGGGGCTCCCGTCGCGGATCTCTGGGACGTAAACGAGTGGATGGCCAAACGTATTTCGGAACGGTTGGCGCCATAA	MNIQLYKALWGMEGSCRDQLTRAAQAGYAGIEAPLPPANLEAEFKDLLEEFQLHYIAQVTTSVPHQDTFAEQARRAAAFGPKLIVSHSARDGMKIEEQLRFFEAALKIEQEVGITIGHETHRSRAMFTPWTTRTLLEEFPELSITADFSHWCCVTESLLEDYAEDMETAIRRTVHIHARVGYAQGPQVPHPGAPEYGRELTVFEAWWSRIVQYRREQGFSHTSITPEFGPAGYMHTLPFTGAPVADLWDVNEWMAKRISERLAP				NA	NA	NA	NA	NA
AK002_00764	519	chrA1		Chromate transport protein	TTGTTCATGATATTTATTGGCGTAGGCCTTGTGTCTTTTGGCGGCGGTTATGCGGTTATCCCGGTCATTCAGAAGGAGATCACGGAAAAAGGGCTGCTGACCGCAGCGGAATTCCAGCAGACCGTGGCGCTGGCCGGCATGGCACCCGGGTCGATCGCCACCAATGCCGCCACGCTGATCGGCTATCAGACCGCCGGCTATGCCGGGGCCGTCGTCTCGACCGCCGGCATCATCCTGCCGTCGCTGGTCGTCATCGTGATGCTCTCCGCCTTCTTCTACCGCATGCGGGGGAATCCATGGGTGAAATCTTCGTTATACGGCTTGCGTCCGGTCACGACCGGACTCATCGTCTATGCGGCCATTCATTTTGGTTATCCCGATGAGGGCGACGGGGTATTAAGCGGACTCATTCCCACGCTGCTGATTTGCGGAGCTTGTTTATTTCTCCTGCTCAAATACAAACTCCACCCGTTGTTGATTCTCCTTATGGCCGGCGCTGCCGGCATCGTTTTATTTTAA	MFMIFIGVGLVSFGGGYAVIPVIQKEITEKGLLTAAEFQQTVALAGMAPGSIATNAATLIGYQTAGYAGAVVSTAGIILPSLVVIVMLSAFFYRMRGNPWVKSSLYGLRPVTTGLIVYAAIHFGYPDEGDGVLSGLIPTLLICGACLFLLLKYKLHPLLILLMAGAAGIVLF				NA	NA	NA	NA	NA
AK002_00765	648			hypothetical protein	ATGCAGAAGTTAAACGCGTACATGAACCGGGCGAAAGAACAAATAACGCTTCTGGCCCGGCTATTCTGGACCTTCTTTCGCATCGGCCCTTCCACCTTCGGAGGCGGATACGCGATGCTGCCCATGATTGAGCGCGAAGTGGTGAGCAAGAAAAAATGGGTGAACGAGGAGGAAATCGGCGAGCTGATCTCGCTTGCCGGTTCCGCTCCCGGCGGCGTCGGCGTGAATGCCGCCGCCATGATCGGGCACCGCCAAGCCGGCTTGGCCGGGGCCGTTTCGGCCGTGCTGGGCGTGACATGCCCCACATTTATCATCGTGCTCCTGATCAGCACGGCTGCGGTATTTTTCCGGGATCAGCCCAAGGTTGAAGCGGCTTTAAAGGGGATGCACGGCGCCATCATCGCGCTGATCGCGGTGGCTGCTTACCGGATGGCCAAATATGCCGTCTTTGATGCCACCACAACGATCACCGCCCTTGCCACCGTATCCGTGATGCTGTTCACCGGCCTCCATCCCCTCTATCTGATTGCGCTTAGCCTGCTCGGCGGCATGGCCGTCATCCAGATCAAAATACGGCTGGGGCTTCGAGCGGATACCGAGAAGAAGGCTGCGGCCGACAGCTGCCCGGAATTGGAATATTACATTTGA	MQKLNAYMNRAKEQITLLARLFWTFFRIGPSTFGGGYAMLPMIEREVVSKKKWVNEEEIGELISLAGSAPGGVGVNAAAMIGHRQAGLAGAVSAVLGVTCPTFIIVLLISTAAVFFRDQPKVEAALKGMHGAIIALIAVAAYRMAKYAVFDATTTITALATVSVMLFTGLHPLYLIALSLLGGMAVIQIKIRLGLRADTEKKAAADSCPELEYYI				NA	NA	NA	NA	NA
AK002_00766	1539		COG3119	Arylsulfatase	TTGTCGAGAAGACCTAACATTTTGCTAATCACTAGCGATCAGCAGCATTGGAATACGATCGGCGCGTTTCAGCCTGAAATCTCTACGCCGAACCTGGACCGCCTCGCGCGTCAAGGTACGACGTTCGAACGGGCGTACTGTCCCAATCCGACCTGCACGCCGAGCCGGGCTTCCATCATTACGGGGCAGTACCCGAGTCAGCATGGAGCCTGGACCTTGGGAACAAAGCTGCTGGAAGACCGCCATACCGTGGGCGAAAGCTTCCAAGACGCAGGCTACCGGACCGCACTGGTGGGAAAAGCGCATTTTCAGCCGTTGAAATCAACCGAAGATTACCCATCCGTGGAGGCCTACCCGATCCTTCAGGATTTGGCGTATTGGCGAGATTTTCACGGTCCTTTTTACGGATTCGATCACGTCGAGCTGGCCCGCAACCATACGAACGAGGCCCATGTCGGACAACATTATGCCCTATGGCTCGAGGAGCAAGGATGCGCCAATTGGCGGGATTACTTCCTGCCGCCTACGGGAACCATGGATCCTACCCAAACATACACATGGCCCATCCCGGAAAAATACCACTACAATACCTGGATCGCCGAGCGGACCCACACGCTTTTGGACCAGTACAAGAAGGCGGAAGAGCCATTCTTTTTGTGGGCAAGCTTCTTCGACCCGCACCCGGAATATTTGGTGCCGGAGCCTTGGGATTCGATGTATGATCCGGAGAAACTCACGATCCCGTCCCTGACGCCCGGAGAGCATGACCGGAATCCGCCGCATTTCGGATTGACTCAGGAAGAGGAGCCCGATTTTTCGCATCTCGCTGAGACCGGGTTCGGCATTCACGGTTACCGTTCCCATCACTATTACGAATACGGCTCGAAATCCAGGTTAACGGAATACGACAAGAAAAAGCTGGTCGCCGTGTATTACGGCATGATCAGCATGATGGATAAATATATCGGCAAAATACTCGATAGACTGGACGAACTGGGACTGTCGGAGAATACGATCGTTGTCTTCACCACCGATCACGGACATTTCTTCGGCCAGCACGGCCTTCAAGCCAAGGGCGGGTTCCATTACGAGGATTTGATCAAGCTTCCGTTCATTGTGCGTTATCCGGGGCAGGTGCCCGCCGGGAAAAGGTCGAATGCAATACAGTCTCTGGTCGATCTGGCCCCGACCTTCCTATCCTTCTGCGGCATACCGGTCCCGCACGCGATGACGGGCATCGACCAAAAGGACGTGTGGCTCGGAGCCGTCGATACCGCAAGGCAGCACGCCCTCTGCGAATTCCGGCATGAGCCTTCAACGATTCATCAAAAAACGTACATCGAGCAGCGTTATAAAATCACCGTTTATTACAATCAAACCTACGGCGAGCTGTTTGACCTTGAGGCAGATCCCGGAGAACTGCACAATTTGTGGGACGAACCGGGATATGAGCAGCTGAAGGCGGAGCTGCTGCTTAAATATATCTGGGCCGAGCTTGGCAAGGAGCCGATGCCGATGCCGAGAATCCATCACGCCTAA	MSRRPNILLITSDQQHWNTIGAFQPEISTPNLDRLARQGTTFERAYCPNPTCTPSRASIITGQYPSQHGAWTLGTKLLEDRHTVGESFQDAGYRTALVGKAHFQPLKSTEDYPSVEAYPILQDLAYWRDFHGPFYGFDHVELARNHTNEAHVGQHYALWLEEQGCANWRDYFLPPTGTMDPTQTYTWPIPEKYHYNTWIAERTHTLLDQYKKAEEPFFLWASFFDPHPEYLVPEPWDSMYDPEKLTIPSLTPGEHDRNPPHFGLTQEEEPDFSHLAETGFGIHGYRSHHYYEYGSKSRLTEYDKKKLVAVYYGMISMMDKYIGKILDRLDELGLSENTIVVFTTDHGHFFGQHGLQAKGGFHYEDLIKLPFIVRYPGQVPAGKRSNAIQSLVDLAPTFLSFCGIPVPHAMTGIDQKDVWLGAVDTARQHALCEFRHEPSTIHQKTYIEQRYKITVYYNQTYGELFDLEADPGELHNLWDEPGYEQLKAELLLKYIWAELGKEPMPMPRIHHA				NA	NA	NA	NA	NA
AK002_00767	855	rhaS_3		HTH-type transcriptional activator RhaS	TTGCAGGAGTACGAATACGAGTATGCCGAGTTTATCTACTATACGCCGGGATATTTGGATAAAGAAGCACAGATCTGGCCCGTCCGGGCGGGGCGAAGTTTAGCCAAGCCCAATTACAGGGTCGGGCCGAAACGGATCGAGTGTTACAGTCTGCACTTCGTGCATGAGGGAACGGTGCGGCTGGAGTTCGACGGCAAACGAGTGGATCTGCAGAAGAATGATCTGTTCTGCCTGTTTCCGGGCCGGACCTATTACTATCACCTGCTTCCCTCGGATGCACCGCTCCGGATGAGCTGGCTGGCCTTGGACGGAAACAGGGTCGGGCCGCTGCTCGAGCTGGCCGGCTTGGTGCCGGAAAGCCCGTTCGGCAGACAAATGATATCCTCCCGGGTCGAAGAGTCCGCCGAACGCGTGATTGATGCATTGGCCGGCGTCGAGCGCTGGAAGCCGTCGGTATCGCTGGAACTGCACGGCTTGGTTTATGGTCTGCTCGCGGGCATGGTTCCCGATGCGGCTTCCGCAGAGCCGACGGAGCTTGCGGGATGGATTCACGAGTGTTTGGATTACATGGAATTGCATGCTACCGAGGGAATTTCCGTACAGCAGGTTGCCGAATTCGCGGGGGTGCACCGCTCGTACTTCTCCAATATGTTCGCGAGTCAGGTCGGAATGCCCCCCCTGAAGTACCTTCAGCGCATCCGAATGGAAAAGGCCAAACGGTTACTAGCGGAAACGGACGCCACGATCACCGAGATTGCCCTGTCCCTGGGCTATCCCAATTTGTATTCATTCACCCGGGCGTTCAAGATTTACTTCAAGGTGCCGCCCATAACGATGCGTGAAAATCCATGCTGA	MQEYEYEYAEFIYYTPGYLDKEAQIWPVRAGRSLAKPNYRVGPKRIECYSLHFVHEGTVRLEFDGKRVDLQKNDLFCLFPGRTYYYHLLPSDAPLRMSWLALDGNRVGPLLELAGLVPESPFGRQMISSRVEESAERVIDALAGVERWKPSVSLELHGLVYGLLAGMVPDAASAEPTELAGWIHECLDYMELHATEGISVQQVAEFAGVHRSYFSNMFASQVGMPPLKYLQRIRMEKAKRLLAETDATITEIALSLGYPNLYSFTRAFKIYFKVPPITMRENPC				NA	NA	NA	NA	NA
AK002_00768	1800			hypothetical protein	ATGAAGCTCTCTACGATTCAAAGATGGCTATCGCCCAGACGTAGCATTCAAGGGAAAATCTTCATTGCGTTCAGTGCGGTTACGCTCGTGTCCATCGTCTCCATTACGGTCATCGTGTATATGAGCATGCGCGAGACGATCATGCAAAATGCCGTCACCTCGGTTTCGGACAGCATCCGGCAGGCGGATGAATCGCTGAATATGATGCTGGAGGAAATCGACCGGCTGAACACCGTCGTGGTGACCAACAAAAACACGGTGATCGACACGCTGCTGAGCCCCCATGAAGAGATTAGTTATGAATGGTTTCAGGAACAGAAGCGGATCGACGAGTTTCTCTCCGTTCTGATCGATTACAAGCCCTATATTTCGCGAATTGCGGTGGTCGGTTTGAACGGGAAGGTGTATTTCTCGGGCGGTCCTTGGCTGGACAAGACGGTTTTGGGCAGCCCCATGATGGATTACATGCTCCACAACGGATCGCGCCATGCCTATTTCAAGCAGTCGGGCGTATCGGATGCCATCACGATCGGCCGGGAGATTCGATATAACCGCGAAACGATCGGAGTGGTCATGGTGGATTTGAATTATGATTTTATCCAAAAAACATACGGCGTGAAGCCGACCACCGACAGCATGATTTATGTGCTGGACAAGCAGGGCGGTTTCGTCTATGAAGCCGAATCGGCGCCAGCCTTCGCCCCGTCGTTCGATAAGATTCTCCGCATTCATCCGGACCTTGCAGGGAATGGGGATGCCATCAAGCAAAGCATAGACGGCCGAGATTACATCGTTGTGAGCCGTCAATCCGGGTATACGGGATGGAGCACCCTGGCCCTGATACCAATGGACTCGCTGCTGAGCGAATCGGCAAGGCTCCGCAAACTGTTGGCGGAGGTATCCATCATCGTGTTTATCGTTGTCCTGATCGCTTCGCTGCAGGTATCTTCCCGAATCACCCTCAACATAAGGCGATTGAAATCCCTGATGATGTTCGTGAAGGAAGGGAATCTGACGTTTCCGAAAAAGGAAATCAAAAGCGAGGACGAGACCGGACAGCTGTACCGCGTCTTCATCAGCATGGTGGAGGATTTGAAGCGGCTGCTGGAAGGGATCCGGGTCAGCGAGAAAGAGAAGCGGGAGGCCGAATTAACGGCGCTACAGGCGCAGATTCATCCTCATTTTTTATACAATTCGCTGAATACCATCAAGTATTTGGCCAAGATGAACGGCGTGCCGAATATCGAAGAGGTGTCCGGATCGTTGATTGAGCTCATGCGCGGCGTTTTGGGCAATTCGAGCGAATTTTTAACGGTTCAAGAGGAGCTGGATTATGTAGAACGCTATATCTCCATCGTGAAGTACAGGTATATGGAGCCGATCCGGATGGTCACCCAGGTGGAGGACGATGCTTTGCTGGAATGCCGGGTCCTGAAGCTGATGCTGCAGCCCCTCGTGGAAAATGCCATCATTCATGGCATCGGACCGCTGGAGCAGGAGGGACTCGTGCTGATACGCGTATGTGAAGAGGGAAGCGACCTCAAGATTGAAGTGATCGACAATGGCAAGGGGATGACGGCGGGGCAGCAGGAACAACTGTTGGGGGAGACGGGCAAGAACGGGAACACGTCCCGTTTCAGCGGCATGGGGGTACGCAATGTGCATGAGCGGATCGTTCACATGTACGGCGATGGCTACGGCGTCAAATTGTACAGTGAGCCGGGTTTATATACGAAGGCCGAGATTCGGCTTCCGAACATAGTGGAGAATAAGGATAAATCCCGACAAGAGGTGATATAA	MKLSTIQRWLSPRRSIQGKIFIAFSAVTLVSIVSITVIVYMSMRETIMQNAVTSVSDSIRQADESLNMMLEEIDRLNTVVVTNKNTVIDTLLSPHEEISYEWFQEQKRIDEFLSVLIDYKPYISRIAVVGLNGKVYFSGGPWLDKTVLGSPMMDYMLHNGSRHAYFKQSGVSDAITIGREIRYNRETIGVVMVDLNYDFIQKTYGVKPTTDSMIYVLDKQGGFVYEAESAPAFAPSFDKILRIHPDLAGNGDAIKQSIDGRDYIVVSRQSGYTGWSTLALIPMDSLLSESARLRKLLAEVSIIVFIVVLIASLQVSSRITLNIRRLKSLMMFVKEGNLTFPKKEIKSEDETGQLYRVFISMVEDLKRLLEGIRVSEKEKREAELTALQAQIHPHFLYNSLNTIKYLAKMNGVPNIEEVSGSLIELMRGVLGNSSEFLTVQEELDYVERYISIVKYRYMEPIRMVTQVEDDALLECRVLKLMLQPLVENAIIHGIGPLEQEGLVLIRVCEEGSDLKIEVIDNGKGMTAGQQEQLLGETGKNGNTSRFSGMGVRNVHERIVHMYGDGYGVKLYSEPGLYTKAEIRLPNIVENKDKSRQEVI				NA	NA	NA	NA	NA
AK002_00769	1644	cheB_2		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGTTTCAAGTGCTGCTTGTTGACGACGAACCGCTGGTGCGGCATGATCTGCGAACGCTGTTGGACTGGAATGAGCATGGATTCGAATTATGCGGCCAAGCGCATAACGGCATCATGGCGCTCGCGATGATCGAGCAGTCTCCTCCGCATATCGCGATTATAGACGTGAATATGCCGGAAATGAACGGCGTGGAGCTCAATCGGGCGATTAAGGCACGGTTTCCGTCCATTCAGACGATCATGCTCAGCAGCTTTGATGATTATGACTACGTGCGGGAGTGCCTGAAGAACGGCTCCATCGATTATTTATTGAAGCATCGGCTGGACGGTGCGACGCTTGCTGCCCTGCTTAACAAAGCGGTCCTTGAATTGCGCCAGGCGGATCGGCTGCCGGAAGAGAGCGAGGCCCGCAAGGTTAAGACCGAGCGGATAAATCCCGTGCACATCCGCGACTATATCGTGCATCTGGTCAGGGGACGGAAGGAGGCCACCCTGGAGGTTGAGGCGTTTTCGCGAGAAAACGGCCTGTACACCGGTGCGTCAAGCTATGCGGCCGCGGCCCTGCAGATTGTTCCGTTCCTGCTGCTGACGGAGTCGTACAGCGACGTGCAGACGAATCGGCTGGTTCAGCAGGTGGTCGATATGATGCAGCAGAGCCTTGGCGATATCCGGGAGCGGACGGCAGCTTATGTGGAGGATGGACGCTTCATGATCGTGTTTGCGTTTAAGGAACGGAGCGAACATGCCATAAAGAGCGAAATCGACGGACAGATGAGGAAGCTTCAGCATGCGCTTGAGATGTTCCTCAATTTAAAATGCGTAAGCGCCGTCGGACATGTGTGCACCAGCCTGACCCAACTCGGCACAAGCTACGGCTCCGCCGAACGGCTACTCGACGCTTCCCGCTCGGAGCCGTCCGGCAACAGCGCGGCCCTCAGGATGCCCGGCCGGGCCGGCGGGCTTGCCGATGAATACCACCAGCGGGTGTCTCTAACGATCGAGGAGCACAAACAGCTGCTGCTTTCGATTGAACGACTGGACATCGAAGGCGTGCACGGTTTAATCGATTCTGTTTTTGCTTCCATCCACCATCTGCCGATCCATTCGCATACGGTCCAGATGATGGTCAGCGAGCTCATGCAAACCGGGGACAAGGCTTTGAAAACCTGGATGCCAGGGACGGAAGACGCCAAGGTAAAGCTCCCGTCCCGAAGCGAGCTCGGAAGGATCGGCAGCGTCGGGGAGCTGGTGCAGTGGCTGCAATCCTTCTATGCAGGCTTGCTCGGACTGCTGAAGCAGCATCGGGCGGGAGGGCCTTATTCCCGGCATGTCACGCAGGCCATACACTTTATTCTGGAGCGGTACCCGGGTTATGTGACGCTGGAGCTTGCCGCGGGCGCCATCGGCCTGAACTCTTCCTATTTGAGCCGAATATTCAAGGAAGAGACGCAGCGGACGTTCTCGGAGTACCTGAATCGGGTTCGGATCGATGCGGGGCGCAAGCTGCTGGAAAGCGGCAAATATTCGATCAAGGAAATCAGCGGGCAGGTGGGGTTTACGACCCATAATTATTTTTTCAAGGTATTCAAGGAAATGACGGGCCTGACCCCGCAGGAGTATTTGAACCGCCTGGGAAGAGGATAA	MFQVLLVDDEPLVRHDLRTLLDWNEHGFELCGQAHNGIMALAMIEQSPPHIAIIDVNMPEMNGVELNRAIKARFPSIQTIMLSSFDDYDYVRECLKNGSIDYLLKHRLDGATLAALLNKAVLELRQADRLPEESEARKVKTERINPVHIRDYIVHLVRGRKEATLEVEAFSRENGLYTGASSYAAAALQIVPFLLLTESYSDVQTNRLVQQVVDMMQQSLGDIRERTAAYVEDGRFMIVFAFKERSEHAIKSEIDGQMRKLQHALEMFLNLKCVSAVGHVCTSLTQLGTSYGSAERLLDASRSEPSGNSAALRMPGRAGGLADEYHQRVSLTIEEHKQLLLSIERLDIEGVHGLIDSVFASIHHLPIHSHTVQMMVSELMQTGDKALKTWMPGTEDAKVKLPSRSELGRIGSVGELVQWLQSFYAGLLGLLKQHRAGGPYSRHVTQAIHFILERYPGYVTLELAAGAIGLNSSYLSRIFKEETQRTFSEYLNRVRIDAGRKLLESGKYSIKEISGQVGFTTHNYFFKVFKEMTGLTPQEYLNRLGRG				NA	NA	NA	NA	NA
AK002_00770	1572	lipO_3	COG1653	Lipoprotein LipO	ATGCTTAAACGATGGGGAAGAAACGCGGTCATCTCCATGATCGTTTCCAGCTTGATGCTGGCCGGATGCAGTTCCGATGGAGGATCGAAGAAGGAAGCCGCACCCGAAGCTGCGGAGAATGTCGTACATACCACGGGGTTTCCGATCGTCGATCAAGCGGTGGAACTGAAAATGTTCACCCGGATTGCGCCCGTGAACGGTCCGTTCAAGGAAATGCCGGTGTTCCAGGATTACGAGAAATTGAGCAACGTCAAGGTGGAATTCATCGAAGCGCCGACGGACGGCTTCCAGGAGAAGAAAAACCTGCTGTTTGCTTCCAACGAGCTGCCTGATGCCTTGTTCCGCTCCGGTCTGTCGCCGCTCGAGGCCGTTCGCTACGGATCGGCAGGCCAATTGATCCCTCTGGAAGGCCTCATCGACGAATACGCGCCGAACCTGAAGAAATTGATGGAGGAATATCCTGAAATCCGCGCGGGCATCACGACGCCGGAGGGACATATCTATGCGGTTCCGGGCATTGTGACGCTGGGCGCGGCGCGGACGGATAAGAAATGGATCAACCAGATGTGGCTGGAGAAGCTGAATCTGGAGGTACCGGAGACGACGGACGAACTGTATGAGGTGCTGCTTGCCTTCCGCGACAGTGACCCGAACGGCAACGGGAAGCAGGATGAAATTCCGATGACGGCCCGTGTCGGATTGGCGATCGTTGCCGCGATGAGCGGCTCATTCGGTCTCGATACGCAGCTCGGATATAACATCAATATCGACAACGACAAAGTGAGCATCTGGATGGGCAGCGACAAGAATAAAGAGATGCTCATGTACTTAAACAAGCTTTATAAGGAAAAGCTGCTGGACCCCGAGATCTTCTCGCACACCGAAGCGCAGTATTTGGCCAAGCAAGGGTCGGGCAATGCGGGATTCTTCTTTGACCAAACCAACAATAACTTCTTGTCGATTCAGGATCAATATACCGGAATCGCGCCGCCCGCAGGTCCGAACGGAGACCGGATGCAAAGCCAGGCCTTGCCGATTGCGCGAGACTTCGGTGCCTTTGCCATCACGTCCATCAACAAGTATCCGGAAGTCACGATGCGCTGGATCGATTATTTTTACAGCGACGAAGGATCGACGCTTCTGAGATTCGGCAGGGAAGGGGAGCACTACGAGCTCAAGGACGGGATTCCATACTATACGGAGGATTTCCTGAAGGATATTACCAATCAGGCCAAAATCACGCCTTATGCGGGAGGAGGGGCCCCTCACATCATCAGCGAACAGGTCGCTTCGTTCATCAACCCGCCGCAGGTGCAGGAGGCGCAGCAGCAGCTGGATCCGTTCATGCCGAAGGTTCGTTACGCCGCCCCGATGTTTGATGAGCAAACCGCGCAGCAGGTCAACATTCTGCGCAACGACATCGACAAATACTACGAGGAGCAAAGCACGAAGTTCATTGTGGGCGCGCTTAGCTTCGACAAGTGGGGAGAATTCCAATCCACGCTCCAAAAGATGAAAATCGGCGAACTGGAGAAATTGTATCAGGATGCTTATGACAAGATGGAGAAATAA	MLKRWGRNAVISMIVSSLMLAGCSSDGGSKKEAAPEAAENVVHTTGFPIVDQAVELKMFTRIAPVNGPFKEMPVFQDYEKLSNVKVEFIEAPTDGFQEKKNLLFASNELPDALFRSGLSPLEAVRYGSAGQLIPLEGLIDEYAPNLKKLMEEYPEIRAGITTPEGHIYAVPGIVTLGAARTDKKWINQMWLEKLNLEVPETTDELYEVLLAFRDSDPNGNGKQDEIPMTARVGLAIVAAMSGSFGLDTQLGYNINIDNDKVSIWMGSDKNKEMLMYLNKLYKEKLLDPEIFSHTEAQYLAKQGSGNAGFFFDQTNNNFLSIQDQYTGIAPPAGPNGDRMQSQALPIARDFGAFAITSINKYPEVTMRWIDYFYSDEGSTLLRFGREGEHYELKDGIPYYTEDFLKDITNQAKITPYAGGGAPHIISEQVASFINPPQVQEAQQQLDPFMPKVRYAAPMFDEQTAQQVNILRNDIDKYYEEQSTKFIVGALSFDKWGEFQSTLQKMKIGELEKLYQDAYDKMEK	PGPT0017245_2474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00771	963	yteP_8	COG4209	putative multiple-sugar transport system permease YteP	ATGAAGAGCGCCAACGCCGATAAAGCGATGGCTCTGCCTCGAAGCGATTCGAGGCGGGGCCCCCGCCTCTTAAAGCAAATGGCCAAGCGGTATGATCTGTATCTCATGCTGCTACTGCCCATCGTCTGGTATTTGGTGTTTCACTACGGTCCGTTGTACGGGCTTCAGATTGCCTTTAAAAATTTCAATCCGGCCAAAGGCATTCTCGGCAGCAGCTGGGAGGGCTTCGGACACTTTGAACGCTTCTTCGACTCGTATTATTTCTGGCGGCTGCTGTGGAATACGCTATCCATCAATTTGTTCTCGCTCTTGATTGCCTTTCCGATTCCGATCCTGCTGGCCCTAATCATCAGCGAAATTCGCAGCAAGACCTTCAGCAAATGGCTGCAGAACATTACGTATATCCCGCATTTTATTTCGGTGGTCGTCATCGTCGGCATCTTGAACGTGTTCCTGTCTCCGACCAGCGGTCCCGTCAACCTGTTGATCGAGGCCTTCGGAGGCACGCCGATCCGCTTTCTGGAGGAAGCGGGGTGGTTCAAGACGATCTTTATCGGTTCTAACATATGGCAGAACATGGGATGGCAGTCCATTATCTACATTGCGGCGCTGAGCGGCGTGAACCCGCAGCTGTACGAGGCGGCGAAGATGGACGGGGCTTCAAGGCTGCGGCGCATTTGGCATATTTCCTTGCCGGGCATTGCGCCTGTCATCATCATTTTGCTTATTTTGGATATCGGCCATTTCATGAACGTGGGCTTCGAGAAAATATTATTGATGCAGAACAACTTGAATCTGGAATCAAGCGACGTTATTTCCACGTTTGTCTACACGACGGGCATTTTAAAAGGGGAGTACAGCTACACGGCTGCAATCGGCCTGTTTAATTCCGCCATCAATCTGGTGCTGCTCCTGCTTGTGAACCGGATTGCGCGCAAGACGTCGGAGACGAGCTTATGGTAA	MKSANADKAMALPRSDSRRGPRLLKQMAKRYDLYLMLLLPIVWYLVFHYGPLYGLQIAFKNFNPAKGILGSSWEGFGHFERFFDSYYFWRLLWNTLSINLFSLLIAFPIPILLALIISEIRSKTFSKWLQNITYIPHFISVVVIVGILNVFLSPTSGPVNLLIEAFGGTPIRFLEEAGWFKTIFIGSNIWQNMGWQSIIYIAALSGVNPQLYEAAKMDGASRLRRIWHISLPGIAPVIIILLILDIGHFMNVGFEKILLMQNNLNLESSDVISTFVYTTGILKGEYSYTAAIGLFNSAINLVLLLLVNRIARKTSETSLW	PGPT0017250_1021	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00772	894	lacG_2		Lactose transport system permease protein LacG	ATGTCCAAGCCATCAACAGTAAAAGGTGCCTCGAGTGAACGGCTATTCGACATTATGATCTACGCGATCGCAGCGATCATTATCGTCATCGTGCTGTACCCGCTGTTGTTTATCGTCAGCGCTTCGTTCAGCGACCCGGCACGGGTATTGAACGGCGAAGTTTGGCTGCTGCCGAAGGGCGTGACGCTGGATGCCTATGAGAATATTTTGCACAACGACAAGATTTGGACGGGATATCGCAATACCATCCTCTACACGACCGTCGGCACGGCGATCAATATCATCATGACGATATTGGCGGCCTATCCGCTGTCGAGACCCGACCTTCCCGGACGCAACGGGATCATGGTGCTGATCACGCTGACCATGTTCTTCAACGGCGGGCTGATTCCGACGTATCTGTTGGTCAAAGATTTGGGAATGGTCAACACGATGTGGGCGCTGATCATACCCGGGGCGATCGCAACGTACAACCTGATCGTGATGAGGACGTATTTCCAATCGAGCATTCCTTGGGAGCTGCAGGAGGCGGCCCATATCGACGGTTGCTCCAATTGGAGGCTGCTGTGTAGCATCATTCTCCCCCTATCGAAGCCGATCCTGGCGGTCATGGTGTTGTTCTATGCGGTCGGCCACTGGAATTCGTTCTTTAATGCACTCATATACATCCGAAACGAAGACCTGCACCCGCTTCAGCTGGTGCTGCGCGAAATTTTGCTGATCAGCCAATCGGATGCCGTGGACGGCAGCGTGGGACTGGAAGAAAGCATCCTGCTGGCCGAAAGCATCAAATACGCGGTCATTATCGTATCCAGTTTGCCTGTACTGCTGATGTATCCTTTGGTGCAGCGGCATTTCGTGAAAGGCGTCATGATCGGCTCGATCAAAGGGTAA	MSKPSTVKGASSERLFDIMIYAIAAIIIVIVLYPLLFIVSASFSDPARVLNGEVWLLPKGVTLDAYENILHNDKIWTGYRNTILYTTVGTAINIIMTILAAYPLSRPDLPGRNGIMVLITLTMFFNGGLIPTYLLVKDLGMVNTMWALIIPGAIATYNLIVMRTYFQSSIPWELQEAAHIDGCSNWRLLCSIILPLSKPILAVMVLFYAVGHWNSFFNALIYIRNEDLHPLQLVLREILLISQSDAVDGSVGLEESILLAESIKYAVIIVSSLPVLLMYPLVQRHFVKGVMIGSIKG	PGPT0017255_1332	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00773	2016			hypothetical protein	TTGAATACGAACGCAACGATTACCATTGATTGCAGCCGCAAGAGCGAGCATGAGATTAATCCGTATCTGTTCGGTCATTTTGTGGAGGATATCCGGGACCATATGGAGGCGATGCTCGCGTTTCCGCTGAAGGACATGGATTTTGAGAGCGATGCAGAAACGAAGACGCCGGTATCGGGAAGCTGGCGCGCGTATACGAACGGACGCAACACCCAGTATGCGATGGAAGCACCGGCGCCCCGGCATTCGGGGAGAACCCAGCGCATCCGCATCCTGAGCGATGATGAAGCTTATGCCGGCATAACGCAGAAAGCGGCATTAAAGGGGCCGATGAACTATACGGTTCGTCTTGTCGCCCGGGCCTCCGTCGAGCTTCAATACGTGACGGTGGAAGCCGTGGACCGGCGCACGGAAGAGACGCTTGGGCGGCTTCGCATGGAGCTTGGCAGCCATAACTGGCAGCACTGCGAGGCGCAGCTGTCCATATCGCGCGCTTGCAGAAATGCCGAAATCCGGGTATATGTTCCGGCTGAGCATCCAAGGTGGATCGATCACGTGTCCACCGGCATGCTCTGGATCGATCACGTCTCTTTGCTGCCCGTCGACAGCATCGCCATGGTCAAACGCGAAGTGGTCGAGATGACTAAAGATTTGAATGCGGGCATGATGAGACTCGCAGGCAATTACATCAGCGCTTACCATTGGGAGCATGGCGTCGGTCCGGTCCTGGAAAGGCCGGTCATGTACAATGAGGCCTGGGGAGGGTGGACCAGCAAATATTTCGGAACGGACGAATTCATCCGCTTTTGCCGAGAGCTGCAGGTGGAGCCCCTGATTTGCGTGAACGACGGATCGGGCACCCCTGAAGAAGCCGCGCAGTGGATCGAATACTGCAACGGGGGCGCGGATACGCCGATGGGGGCTTTACGTGCCCGGAACGGCTTCCCTGAGCCGTATAACGTCAAGTACTGGGAGATCGGCAACGAAGTGTGGGGCCAATGGCAGGTCGGAACTTGCACGGCCGAGCAGTTTGCGGAGCGGACGATATCGTTTGCCAAGGCCATGAAGGAGGCGGACCCTTCCATCGTGCTGCTGGCCTGCGGTCATTACGAGCAGAACTGGAATAAGGCCGTGCTGGACCTGGCCGGCGAGAGCATCGATTATTTGACGCTGCATTTGTATCACGGCTACGGCCCTTTCGGCATGAACCGGGATACGCCGGCGGAGGATCGCTATAAGGCGATTGCCTCTTATCCCGAGTGGACCCGGCACCATGTCCGGCAGACGACGGAGCTGATCCGGTCCCGCCCGGAGCACAGCCACGTCAAGCTGGCGATCACTGAATACAACACGATGTATTATCCGAATACGGTACGGAAAGGGCTGCCGAATGAGCACACGCTGGGAGCCGCGGTGGCCAATGCTGCCAACCTGAATGAAATGATGCGCTGCAGCGACATGGTGCACATCGGCAGCTTCTCTGACCTGGTAAATGGTTGGCTGGGCGGCTGCATACGCGTCGGGGACTATTATGCGGACCAATACTGCGGCAAGCAGCCCGGGTGGAGCAGGCATCCCCTTACGATCTACGGGACGCCGACCTATGAAGTGCTGAAGCTTTACGCCAATCGGGACGTTCGGCGCGTCCTTCCCGTCCAAGCGGAATGCGGAACCTTCTCCGTGGCTTCGAGGAAGGAGACGCCTATGGCGCTTGACGCGCTTCCGGACCTGGACATCGTGGCGGGGACGAATGACGACGGCAGCATCGTCACCGTGTTGATCGTAAATCGAAGCCTGGAGGCGGTTAGGGCCGTGCTGGATTTGAAAGCCTTCGAGGCTTCCGGGGAAACGACCCTTTACGAAATCACCGGCGATTCTTACGATGACATCAACTCCGTTTTTCAGCCGGAACATATTATGTGCAAGGAAAGCAGGGTTCCTGCAGAGGCATGGCGCCAAGGTTACGACTTGCGGCCTTCATCCGTTTACGCGCTGGAATTCAGAGCTCAGGTGTGA	MNTNATITIDCSRKSEHEINPYLFGHFVEDIRDHMEAMLAFPLKDMDFESDAETKTPVSGSWRAYTNGRNTQYAMEAPAPRHSGRTQRIRILSDDEAYAGITQKAALKGPMNYTVRLVARASVELQYVTVEAVDRRTEETLGRLRMELGSHNWQHCEAQLSISRACRNAEIRVYVPAEHPRWIDHVSTGMLWIDHVSLLPVDSIAMVKREVVEMTKDLNAGMMRLAGNYISAYHWEHGVGPVLERPVMYNEAWGGWTSKYFGTDEFIRFCRELQVEPLICVNDGSGTPEEAAQWIEYCNGGADTPMGALRARNGFPEPYNVKYWEIGNEVWGQWQVGTCTAEQFAERTISFAKAMKEADPSIVLLACGHYEQNWNKAVLDLAGESIDYLTLHLYHGYGPFGMNRDTPAEDRYKAIASYPEWTRHHVRQTTELIRSRPEHSHVKLAITEYNTMYYPNTVRKGLPNEHTLGAAVANAANLNEMMRCSDMVHIGSFSDLVNGWLGGCIRVGDYYADQYCGKQPGWSRHPLTIYGTPTYEVLKLYANRDVRRVLPVQAECGTFSVASRKETPMALDALPDLDIVAGTNDDGSIVTVLIVNRSLEAVRAVLDLKAFEASGETTLYEITGDSYDDINSVFQPEHIMCKESRVPAEAWRQGYDLRPSSVYALEFRAQV	PGPT0018655_256	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
AK002_00774	687			hypothetical protein	ATGAATGTTTCGTGCGATAAAGTCGGACTGCGCCTGCAGTTCCGGCTTTTTCTGCGCAGGGAACGGTTCCGTTCCGGCCTGAATCCACGCAGGAAGACCGTTACGAATGGACACGAAATGTTACATGATTCATCGTTTAACTTATTTATGGGAAGTGTAATTAGAGATAAATACAAGGATGGGGTGATTGAGATGGCAAACGGAACCGTTGTAAACCAGGAAGCGGTCGAAACCGTGAAGGAGATTATCAAGGATATCGAAACGGCCATGTTCTCCACGATATCGGAGGGCGGGATCAATGCCAGGCCGATGCAGACGCAGGATATCGAATTCGACGGCGACTTGTGGTTCTTAACGAAGCGGGATACCAGCAAATACGAAGAAATCCTGGCGAATCCCAACGTGAATGTCGCTTATGTGGGGAAATCCTACGTATCGATCCGAGGCAAAGCCGAAGTCGTGAATGATCTGGAGAAGAAAAAGGCGCTCTGGAATGCGGCGTACGAAAAATTTCTGCAGACGTCCTATGACGATCCCAACATTATTCTGATCAAGGTGGACACGGACACCGCGGAGTATTGGGAAACCGGAAACAAAACGAAAACGGTGAAAGCCTTCTTCAAGAAAATGGTGGGCCAAGAGCCAAAGGGCGACTCGGATATAAACAAAACCGTAGATCTCCATTGA	MNVSCDKVGLRLQFRLFLRRERFRSGLNPRRKTVTNGHEMLHDSSFNLFMGSVIRDKYKDGVIEMANGTVVNQEAVETVKEIIKDIETAMFSTISEGGINARPMQTQDIEFDGDLWFLTKRDTSKYEEILANPNVNVAYVGKSYVSIRGKAEVVNDLEKKKALWNAAYEKFLQTSYDDPNIILIKVDTDTAEYWETGNKTKTVKAFFKKMVGQEPKGDSDINKTVDLH				NA	NA	NA	NA	NA
AK002_00775	1299			hypothetical protein	TTGGACATTATTACCATCACTAATTTAATCATACTTGCCATACTGATTGCGTTGACCGCTTTTTTCGTGGCGTCCGAGTTTGCCGTCGTTAAAATCCGCATGTCGCGGATCGATCAATTGATAACGGAAGGAAACAAAAAGGCGGTTGTTGCCAAAAAGGTAGCCGGCGATCTCGATTACTATCTCTCGGCCTGCCAGCTCGGCATTACGGTGACGGCGCTGGGGCTCGGGGCCATCGGCAAGCCGGCCGTTGAGCGCATTATGTACCCGGTATTCGATTGGTTTGACGTATCGGCTTCTACGGCCTCGATTGCCTCTTACGCCATTGCGTTCATTCTCGTAACCTTTTTGCATGTCGTGGTGGGAGAGATGGCGCCCAAGACCTTGGCTATTCAATTCTCGGAAAAGACGACGCTGCTCCTTGCAGCCCCGCTGTATTGGTTCGGCAAGCTGATGTATCCGTTCATTTGGGCGTTGAATGGAGCCTCGCGCGTGCTGCTTCGTGCATTCGGCGTGAAACCTGCGCCGCATGAGCAGGCCTATACGGAGGAGGAACTGCGCATCGTCATGGCGCAGAGCTTTCAGGGCGGCGAGATCAATGGGACCAAGCTGGCTTACATGGAAAACGTGTTTTCGTTTGATGAGCGCGTGGCCAAAGACATTATGGTACCGAGAACGGATCTGATCACCCTGGATAAAAGCATGGAATACCCGGACATCGTCCGTATCCTGGATGAGCACAACTATACGCGGTACCCTGTCATCGAGGACGGCAGCAAGGATCGGGTGGTTGGCGTCGTCAACGTCAAGAAGATGCTGCCCCACATCGTGGCAGGACGAGACCGCAAGCTGGAAGAATTCGTTCGGGACCTCCCGGTCGTGCTTGAAATTACGCCGATCCAGGATGCCATGCTGAAGATGCAGCAGGAGCAGATGCATATGGCTTTGGTGATTGATGAATACGGCGGTACGGCGGGGATCCTGACCCTGGAGGATATTTTGGAAGAGATCGTAGGGGAAATTCGCGACGAATTCGATGAAGATGAAGTAGCGGATATCCGGAAGATCGGGGAACGCGAATACCTGATAAGCGGACGGGTTCTCTTGGAGGAGCTTGAGAAGCGCTTCGGTTTGGTATTCGAGGATAACGAGGAGATGGATACGATCGGCGGCTGGATTCAGTACCAGAAAGGCACGACGGCTCAGGACGGCGATGAGATCCAGCATGGCGAGCATATATGGGCCGTAGCGGAAACGGATAATTTTCAGATCAAACACGTCATTCTCAGACACGGATGA	MDIITITNLIILAILIALTAFFVASEFAVVKIRMSRIDQLITEGNKKAVVAKKVAGDLDYYLSACQLGITVTALGLGAIGKPAVERIMYPVFDWFDVSASTASIASYAIAFILVTFLHVVVGEMAPKTLAIQFSEKTTLLLAAPLYWFGKLMYPFIWALNGASRVLLRAFGVKPAPHEQAYTEEELRIVMAQSFQGGEINGTKLAYMENVFSFDERVAKDIMVPRTDLITLDKSMEYPDIVRILDEHNYTRYPVIEDGSKDRVVGVVNVKKMLPHIVAGRDRKLEEFVRDLPVVLEITPIQDAMLKMQQEQMHMALVIDEYGGTAGILTLEDILEEIVGEIRDEFDEDEVADIRKIGEREYLISGRVLLEELEKRFGLVFEDNEEMDTIGGWIQYQKGTTAQDGDEIQHGEHIWAVAETDNFQIKHVILRHG	PGPT0014011_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014011-mpfA|yhdP-NA	NA	NA
AK002_00776	1068		COG1253	putative protein	TTGGACGGAATAATCGCGTTGAATTTATTTTTGGTAGCCGTGTTCATAGGACTGACTGCATTTTTCGTAGGGGCCGAATTCGCCATCTTGAAGGTGCGGCTGTCGCGGATCGATCAATTGATCGCCGAGGGGAATAAACGGGCGGTCACGGCCAGGAAGGTAGCCCATGAGCTGGATTACTATTTGTCCGCCTGCCAGCTTGGAATTACCATTACGGCTCTCGTGCTGGGCGCGTTGGGCGAACCGACCGTCGAAAGGATGCTGCATCCGTTGTTTGAACGATTCGACGTGCCGGCGGCGGTGGCAACGGTGCTCTCTTATGCCATTGCCCTCGGGATCATCACGTTCCTGCATGTCGTCATCGGGGAACTGGCGCCTAAAACATTGGCGATCCAATTTGCCGAGAAAATGACGCTGCTGCTGGCATCTCCCTTGTATTGGTTCGGGAAGATCATGTATCCGTTCATTTATGCATTGAATGGAGCTTCGCGTCTCCTGCTTCGAGTATTCGGCGTAAAGCCGGCAGGGCATGAAACGGTCCATTCCGAGGAGGAATTGAAGTGGATCGTGGACCAGAGCTACGAGAGCGGCGAAATTAACCAGACCGAGATGGGGTATTTGACCAATATATTTGCTTTTGAGGAGCGCACCTTGCGCGAAATCATGGTACCGAGAGATCGCATCGTTACGGTAGAACGAGGGTGGCCGCTTGCCAATATCCTGGAGGTTCTCGGCGAGTACGACTATACCCGTTACCCGGTGACGGAATCGGGACGCGCGGAGGATTTCATCGGGTTTATCCATACGAAGGAGATGCTGACGGGCATAGCGGCTGGAAGAAACTGCAGCGTGAATGACTTTATTCACGACATGCCGCGTTTTCCGGAGTCGTCTTCGATCAAGGACGTCCTGATCAAAATGCAGCAAATCCGCGTGCATATGGCTGTCGTGACGGACGAATCCGGCACGGCGATCGGGCTGGTGACGATGGAGGATATTCTGGAGGAGATCGTGGGCGACATTCGGGACGAATCGGATCGCCGCGAGCTGCAGGGGGCACACGCCTAA	MDGIIALNLFLVAVFIGLTAFFVGAEFAILKVRLSRIDQLIAEGNKRAVTARKVAHELDYYLSACQLGITITALVLGALGEPTVERMLHPLFERFDVPAAVATVLSYAIALGIITFLHVVIGELAPKTLAIQFAEKMTLLLASPLYWFGKIMYPFIYALNGASRLLLRVFGVKPAGHETVHSEEELKWIVDQSYESGEINQTEMGYLTNIFAFEERTLREIMVPRDRIVTVERGWPLANILEVLGEYDYTRYPVTESGRAEDFIGFIHTKEMLTGIAAGRNCSVNDFIHDMPRFPESSSIKDVLIKMQQIRVHMAVVTDESGTAIGLVTMEDILEEIVGDIRDESDRRELQGAHA	PGPT0014011_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014011-mpfA|yhdP-NA	NA	NA
AK002_00777	3117	cbgA_1		Beta-galactosidase	TTGCGTACCAAATTCATTTACCAGGCACCTGCAAACGGTTATCCCGAATGGAATAATAATCCGAATATTTTTCAGTTGAACCGGCACAAGGCCCATGCTTACATGATGAATTTCCCGACGGAGTCCGAGGCGCTGAGCCTTAACTACGCCATGTCCCCCTGGTATCAGTCCTTGAACGGGACCTGGAAATTCGCTTTCGCCAAAACGCCTGAAGAGCGCATTCAAAATTTCTACGAGGCCGATTACGATTCCGGGAGCTGGGCCGATCTTCCCGTCCCTTCCCATTGGCAGCTTCAAGGCTATGACTATCCGCAATATACGAATGTAAGATACCCCTGGGCCGAATCGGAACCCGAATTGAAAGCTCCCTTCGCACCGACCCGATACAATCCCGTGGGCTCCTACATCCGTGAATTCACGGTACCTGACGTTTGGAAGGAACAGCCCGTTTATATTAGCTTCCAAGGCGTTGAATCCGCTTTCTATGTATGGGTGAACGGCGAGATGGTCGGGTATAGCGAGGATACGTTTACGCCGGCCGAGTTCGACATTACCCCCTATCTGGTTGAAGGCAAGAACAAATTGGCCGTTGAAGTATACCGATGGTGCGACGCGAGCTGGCTTGAGGATCAGGATTTTTGGAGGCTTAGCGGAATCTTCCGCGAGGTCTACCTGTATTCGGTCCCTGCCGTGCATATCTCCGATTTCTTCGTGCGCCCGGTTCTTGACGACGAGTACCGGCATGCCGAGCTGCAGATCGATGCAGCTGTCACCAATTATTATAACGAGACCATCGACAAGGACACGCTCATGCTGGAGGCGCTTCTCTACGATCAGGACCGGCAGTTGGTCCAAAAACAAACACTCACCATTGCGGATTACATCATTGACGAGGGCAGCTTTACCCTGAGCATGAACGTCCCCGAACCCGAGAAATGGAGCGCGGAATCGCCTTATTTATACACCGTTGTCCTGGCATTGAAGAATACGGACGGAGCTTGCCGCGGAGCCGTAAGCTGCCGCACGGGATTCCGCCGCTTCGAGCTGAAGGACGGGCTGATGCGAATCAACGGTCAGCGCATTCTGTTCAAAGGCGTAAACCGGCATGAATTCTCCCCGGATACCGGACGGGCTCTCAGCCGTGAAGACATGATCACCGATATTGAGCTGATGAAGACGCATAACATTAATGCGGTACGGACTTCCCATTACCCGAATCAATCCGTATGGTATGACCTCTGCGATGAATATGGGTTATACGTTATTGATGAAACGAATTTGGAGACGCACGGGACCTGGAGGTATGGGCAGCAGGAGCTGGAAGAAACGGTGCCCGGCAGCAAGCTGGAGTGGCGCGACAACGTATTGGACCGCTGCAATTCGATGTTCCAACGCGACAAGAATCACCCCTCCGTCATCATCTGGTCGCTTGGCAACGAATCGTTCGGGGGCGACAACTTCATTGCGATGCACGATTTTCTGAAGGAGGCCGACCCGTCGCGGCTGGTTCATTACGAGGGAATCTTCCATTACAGGGCGTCCGAAGCGGCCAGCGACATGGAATCCACCATGTATGCAAGGCCGCAGGATGTGGAGAAGTATGCCAACAGCAATCCGGACAAGCCTTATATCATTTGCGAGTACAGTCACGCGATGGGCAATTCCTGCGGCGGGCTTCACCTGTATTGGGAGCTGTTTGAGAAGTACGACATTTTGCAGGGGGCTTTTATATGGGATTGGATCGACCAGGCGATCCGCACCCAAACGGCGGACGGTATACCCTATTTGGCGTACGGCGGGGACTTCAACGAAACGCCGCATGACGGCAACTTCAGCGGGAACGGCCTGATCTTCGCGGACCGAACCAAAACCCCTAAGCTGGACGAAGTGAAAAAATGCTACCAGAACGTCAAGTTCGAAAGCCTGGATCCTGCCGCAAGCCGGATTCGGGTCAGCAACCGCTTCTTGTTTACCAGCCTCGATCCGTATCTTGTACAATGGGACGTAACGCTAAGCGGCAAAGTCAGCCAATCCGGCACGCTCGAGCTCTCGCTTCAGCCTGGTGATCAAACGGAAATCCATGTTCCGTACTCCCCTCTGGATGACGAAGGAAAAGAAGCGATTCTCACCGTCTCCCTCGTTCGGAAGGAGAGCACCAAGTGGGCGCCTGCGGGACATGAGGAGGCTTGGGAGCAGTTTGTGCTTACGCCGCATATTGCCGAGCAGCCCGAAACGGACGCTCTTGCAAACGTGCAAGCACTGGAAGCTGCCGAGTCGGATGAAGAGCTTATCATCAGGGGTTCTGCCGTCTCGTTGCGTTTCCGCCTTGGCACCGGGGATCTAACATCCTACGCACTGTCCGGCAGGGAATGCCTGCTGGCGCCGGCAAGACCGAATTTCTGGCGGGCCGTCACCGACAACGATCTGGGCAACCGGCTCCCTGAACGCAGCGGCGTGTGGAGAACGGCCCATGATCGGCGAAAGCTGCTGTCTTTGCGCTGGCATGCGGAAGGCCCTGCCGTCGTGGTCTCCAGCCACTATCGGATCGAGACCCATCCCGTATCCAGCCTGACGCTGGAATATCGAATCTATCCGGACGGTACCGTCCGCGTGCTTGAAACCTTGATCCCTGGCGCCGGTCTGCCCGACATTCCGGAAGTCGGCATGCTGTTCTTGCTGGATGAAGGACTCGATACGATCAGCTGGTATGGGCGGGGACCACATGATAATTATTGGGACCGGAAAACAGGAGCCAAAATCGGCCGATACGAGGGCAAGGTCGCTGAACAGTTCGTCCCTTATCTAAGGCCTCAAGAGTGCGGGAATAAAACGGATGTGCGCTTCGCACTGCTAACCGGGGAGAATGGCGGGGACGGACTGAAATTCGAGAGTTCCTCCCTCATGGAGGTATGCGCACTGCCGTGGACGCCGGAGGAACTGGAGGGCAGCGACCATGCGTACAAGCTGCCGCCAAGCGATAAAACCGTCCTGCGCATCAACTACAAGCAAATGGGCGTCGGCGGCGACGACAGCTGGGGAGCGCCGATCCATGAAGAATTCACGCTGCCTTCCAACCGCACGTACAGCTTCGGCTTTACGATGGGGGCAGCACGGTAG	MRTKFIYQAPANGYPEWNNNPNIFQLNRHKAHAYMMNFPTESEALSLNYAMSPWYQSLNGTWKFAFAKTPEERIQNFYEADYDSGSWADLPVPSHWQLQGYDYPQYTNVRYPWAESEPELKAPFAPTRYNPVGSYIREFTVPDVWKEQPVYISFQGVESAFYVWVNGEMVGYSEDTFTPAEFDITPYLVEGKNKLAVEVYRWCDASWLEDQDFWRLSGIFREVYLYSVPAVHISDFFVRPVLDDEYRHAELQIDAAVTNYYNETIDKDTLMLEALLYDQDRQLVQKQTLTIADYIIDEGSFTLSMNVPEPEKWSAESPYLYTVVLALKNTDGACRGAVSCRTGFRRFELKDGLMRINGQRILFKGVNRHEFSPDTGRALSREDMITDIELMKTHNINAVRTSHYPNQSVWYDLCDEYGLYVIDETNLETHGTWRYGQQELEETVPGSKLEWRDNVLDRCNSMFQRDKNHPSVIIWSLGNESFGGDNFIAMHDFLKEADPSRLVHYEGIFHYRASEAASDMESTMYARPQDVEKYANSNPDKPYIICEYSHAMGNSCGGLHLYWELFEKYDILQGAFIWDWIDQAIRTQTADGIPYLAYGGDFNETPHDGNFSGNGLIFADRTKTPKLDEVKKCYQNVKFESLDPAASRIRVSNRFLFTSLDPYLVQWDVTLSGKVSQSGTLELSLQPGDQTEIHVPYSPLDDEGKEAILTVSLVRKESTKWAPAGHEEAWEQFVLTPHIAEQPETDALANVQALEAAESDEELIIRGSAVSLRFRLGTGDLTSYALSGRECLLAPARPNFWRAVTDNDLGNRLPERSGVWRTAHDRRKLLSLRWHAEGPAVVVSSHYRIETHPVSSLTLEYRIYPDGTVRVLETLIPGAGLPDIPEVGMLFLLDEGLDTISWYGRGPHDNYWDRKTGAKIGRYEGKVAEQFVPYLRPQECGNKTDVRFALLTGENGGDGLKFESSSLMEVCALPWTPEELEGSDHAYKLPPSDKTVLRINYKQMGVGGDDSWGAPIHEEFTLPSNRTYSFGFTMGAAR	PGPT0017810_1064	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
AK002_00778	594			hypothetical protein	ATGGTAAGACCTCGCGAATTTCAAGACGAGGTGATCTTCCACGGTGTCTACCGGGCACTATGCAAAAAAGGGTACGGCCAGTTAGCCTTAACCGACATCACGCATGAAATGAACATCTCGCCGGCAGCCTTAATGAAGCGATTCGGCTCGAAGAAGAATCTGCTCCTGGCCTACAGCGATTATGTCATTCAATTAACCAAGCAAGCTTTCCATGATGCGAGTTTGTCCGGCCAATCCCAAATCGAGGCGCTTAAGACGGTGTTCAGGGACGCCGTCTCGCATATGAAGGATCCTGTGGAATTGGCCAACCACACCTCCTTCTATCTAGAAGGGACGAATGATCCGGATTTGTTGGAGAAGACCCGGTACCGGCTGCAGCTCATCGATGAGTTTACCCGAAAGATGCTGGATCAGGCGATCACGAACAACGAGATCGTACCATGTGACGTGGCACGGGTCAGCCGGGTGCTGCAAGCCGCGATCAGCGGCGCCATGCTGATCTGGATCAAAGAGTCTGACCGAAGCTTGGACGAACTGTTTGACGAGTGCTTTCAGGTCATATTCGCCTCGCTCGTTCAAGGCGGTACCGAATAA	MVRPREFQDEVIFHGVYRALCKKGYGQLALTDITHEMNISPAALMKRFGSKKNLLLAYSDYVIQLTKQAFHDASLSGQSQIEALKTVFRDAVSHMKDPVELANHTSFYLEGTNDPDLLEKTRYRLQLIDEFTRKMLDQAITNNEIVPCDVARVSRVLQAAISGAMLIWIKESDRSLDELFDECFQVIFASLVQGGTE				NA	NA	NA	NA	NA
AK002_00779	780	catD_2	COG0596	3-oxoadipate enol-lactonase 2	ATGCCGGTTTACAAAGGAAGGGAAGTCGATTTGTATTATGAAGTGAAGGGAGAAGGGAAGCCGTTGGTGTTTACGCACGGAGCTTCCTGGAACCATAAACAGTGGCGGCCTCAAGTCGATGCCTTCTCCCGTCGGTATCAAACCGTGGTGTGGGATATCCGGGGGCATGGCTCCTCTTCCTTGCCGCACGGCAAGGTGGATTCGGAGGATTTCAGCAGGGATTTGGCGGATTTGCTAGGCGAACTCGGCATTGAACAAGCGACGCTTTGCGGGCTGTCCCTGGGCGGTCATATTTCGCTGCAGACTGCCGTTCGCTATCCGGAGAAGGTTGCGGCCCTGGTACTGATCGGCACGCCGTTCACGAATGCGTTTAATTGGTTCGAGCGCATGTTCGTGCCGGTAAACCGCTTAACAAGTTATCTGATGCCGATGTCCTTATCCGGAAAAATACAAGGCAGGATGCTATCCAAATTTAATAAGAGCAATCAAGCCTATATTGAGCAGGCTTTTGGCTCCATTGCTCATTCCGATTGGATTCGGATATGGGATGCGGTTACCCGAATGGACAGCACGCATGATCTGCACAAAATCCAGTGCCCGGTATTGCTGCTTCAAGGCGAAAGCGACACGATGATCGGAAGGCAGCAGGCATATATGCAGGAACACATCGCGACCGCTCAATTGAAAATGATCCGGAACGCTCATCACGCAACGAATTTGGATAACCCCGACGATGTGAACGAGGCGATCGCTTCATTTCTGTCAGAACAAGGAATCTAA	MPVYKGREVDLYYEVKGEGKPLVFTHGASWNHKQWRPQVDAFSRRYQTVVWDIRGHGSSSLPHGKVDSEDFSRDLADLLGELGIEQATLCGLSLGGHISLQTAVRYPEKVAALVLIGTPFTNAFNWFERMFVPVNRLTSYLMPMSLSGKIQGRMLSKFNKSNQAYIEQAFGSIAHSDWIRIWDAVTRMDSTHDLHKIQCPVLLLQGESDTMIGRQQAYMQEHIATAQLKMIRNAHHATNLDNPDDVNEAIASFLSEQGI	PGPT0004995_1620	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
AK002_00780	1203	ydbM		Putative acyl-CoA dehydrogenase YdbM	TTGAATCGATTCGGTTCCACAGATCCATTCATACGTAATGAACGCGAAGCGATGATCGCAACCCGGGCCGACAAGCTTGGAGCGATATTCGCGGAAAGAGCACCTCAGCACGATCTGGAGGGATCGTTTCCGTTCGAGAATTTTGATGATTTGAAGGAGTCCGGTTATCTAAAGCTGACCGTTCCGGCAGCCTTTGGAGGAGAAGAAGCCTCCGTATACGAAATGGTGCTTGCCCAGGAACGGCTCGCCCGAGGAGACGGGTCTACGGCGCTGGCCGTAGGCTGGCATATCGGGCAGATACTGCAGCTGCGCCTTTCCGGGGCTTGGCCGGAGCCGTTATTTGAGAGATTGTGCAGAGACGTTGTAGCAGAAGGCACGGTCATTAATGAACTGGCGAGCGAGCCTGCGACGGGGAGCCCCAGCCGGGGCGGAAGGCCGGAGACGACGGCACGGCGGGTGTCGGGCGGCTGGCACATCACCGGACGCAAAACCTTCAGCACGTTAAGCCCGATCTTGAAGCAATTCGTGGTTACGGCCGGAATCGAGCATAGCGAGAAGGTCGGCGCGTTCCTCGTTCGCAGCGGGCCAGGGGTCAAGGTTGAAGAGACCTGGAATACGATGGGCATGCGGGCAACGGGAAGCCATGACGTGATTCTGGAGGACGTATTCGTGCCGGACACGGAAGTCATTCGGGGACCCGATTATGAGAAGCCTGAGTTTCAAGTGCCTACGGAAGGCATTCTGCTTCATATCCCGGCATGTTATATGGGGATTGCTTATGCCGCGCGGAATTTTGCCATCGATTTTGCCCGTCATCATCAACCGAACTCCTTGACGGTGCCCATTGCCGAATTGCCGAACGTCCAAAGGCAGATCGCCCAAATCGAAGCGGACCTGCTGACGGCCCGCAGCTATCTGTACCAAACCGCCGACCGCTGGGACAAGGAAGCGGAGAACCGCGCCGCGCTCAAACCCGAGCTTGGGCTTGCCAAGTATGTCGTGACCAATGCGGCGGTCCGGATTGTCGATCAGGCCATGCGGATCGTAGGGGGATTGAGTCTCTCCCGGAAGCTCCCGTTGGAGCGTATGTACCGGGATGTCCGGGCAGGTCTTCATAATCCGCCGATGGATGATGTCGTGCTGACGAATTTGGCCAAACGGGCCCTTTCGGAAGCGGAGGTGAAGGAAAATCAGGAGCCTTGA	MNRFGSTDPFIRNEREAMIATRADKLGAIFAERAPQHDLEGSFPFENFDDLKESGYLKLTVPAAFGGEEASVYEMVLAQERLARGDGSTALAVGWHIGQILQLRLSGAWPEPLFERLCRDVVAEGTVINELASEPATGSPSRGGRPETTARRVSGGWHITGRKTFSTLSPILKQFVVTAGIEHSEKVGAFLVRSGPGVKVEETWNTMGMRATGSHDVILEDVFVPDTEVIRGPDYEKPEFQVPTEGILLHIPACYMGIAYAARNFAIDFARHHQPNSLTVPIAELPNVQRQIAQIEADLLTARSYLYQTADRWDKEAENRAALKPELGLAKYVVTNAAVRIVDQAMRIVGGLSLSRKLPLERMYRDVRAGLHNPPMDDVVLTNLAKRALSEAEVKENQEP				NA	NA	NA	NA	NA
AK002_00781	669			hypothetical protein	ATGGATTCTGTGCTGTATTTGGGCTTGGCCGCTATATATGCCGTGCTGTTTCTGTATGGGTGCGTGCTGTTGAGGCGGGATGCGTCACCGGGGCTTCGGTACTTGCTGCTGATCGTAACGGCCGGATTGGTCTGGGATAACGGGGTGATCGGCATCGGGAAATACATGGGGGAAGGTGATCTGCTGGAGGGGCTTAACGTTGCGCGTTTCTGGGTGCATGCGTTGGCCACGCCGCTGCTTGTACTCGTGTCGTTCGACCTGATACGCAAGGCCGGAAGCCCTTGGGCCAGCAGACCGGCCGCCGCATGGGGGGCCTGGCTTTTCACCGCAGCGTTGATCGTGCTCGAGGTGGTGACGGAGACGCTGCCGCTCAAGCTCCAGTCATCCATGGAGTATGGAGCGCTGCGTTATGTTTCGTCCGAATCCGGGGGGCCGCCGCTGATGGTGATTCTGATCCTGATCCCGCTGCTGACGGCAGGCATTATCGTATGGCGGAGAAAAAAGACGCCGCTGCTGTTCATCGGCACGGTGCTGATGGCTGCCGGGAGCGCCATACCGATCCCGATCGAAAGCTCGGCTGCCACGAACGTATTCGAGCTGCTGCTCCTCTTGTCCCTGTGGCTAACGGTACGCAAGCTGGCCTCCGCCCGCACGTTGTCTTTTCGCTAG	MDSVLYLGLAAIYAVLFLYGCVLLRRDASPGLRYLLLIVTAGLVWDNGVIGIGKYMGEGDLLEGLNVARFWVHALATPLLVLVSFDLIRKAGSPWASRPAAAWGAWLFTAALIVLEVVTETLPLKLQSSMEYGALRYVSSESGGPPLMVILILIPLLTAGIIVWRRKKTPLLFIGTVLMAAGSAIPIPIESSAATNVFELLLLLSLWLTVRKLASARTLSFR				NA	NA	NA	NA	NA
AK002_00782	774			hypothetical protein	ATGAATCCGATAAGCAAAAAAGTATTAGTAAGCAGCATGGCGGCAGCGATCGTGCTGGGGGGAGCCGGGTATCTTCAGAACAAAACCTTTGCCGCAGCGAGCACGGATACGGCAGCCTCGGCAGCTCAGGACGGTCAGACGGGAACGGACACAACGGCTTCGGATGCAGTGAAGAACCGGGAAGGGAAGTGGATGGGTCATAAGGCGGGCGGACCTCGGGGCGGCAGCATCGTGAAGGAAACGGCCGAAATCCTTGGGCTGACGGAGGCCGAAATCCGAAAGGCGCTTGAAGCGGGCAGCACGTTTGCCGAAATTGCCGAAGGCAAAGGAATGGCCAAATCCGCGTTCGTTCAGAAGCTGATTGAGCTGGAAACCGCCAACATCGATGAGCGTCTGAGTGAGGGCGGCATTACGGAAACCGAAGCAGCCGAGTGGAAAGAGGGTCTGAGCGACCGTCTTACCCAAATCGTAGAGAGCAGCGACGCCGGTTTTGGAAAAGGTCATGGCAAAGGAGGACGAGGGTTCGGCAAATTCGGTAATCCGGAAGAAATCGCGGCATTGCTCGGAGTGTCGGAGGACGAGCTGAAGGCTGGAATGGAAGAAGGACAATCGTTGGCCGAGATCGCAGCGGCGAAGGGAATGACGGAGGATCAACTGATTCAGAAGCTGAAAGATCAAATGACCGAGCCCTTGAAGCAATGGGTGAACGAGAAGCATACCGACGCTGATAAGTCGGCTGCGGCTGCGGGAGAAACGGATGAGGATACGGAATAA	MNPISKKVLVSSMAAAIVLGGAGYLQNKTFAAASTDTAASAAQDGQTGTDTTASDAVKNREGKWMGHKAGGPRGGSIVKETAEILGLTEAEIRKALEAGSTFAEIAEGKGMAKSAFVQKLIELETANIDERLSEGGITETEAAEWKEGLSDRLTQIVESSDAGFGKGHGKGGRGFGKFGNPEEIAALLGVSEDELKAGMEEGQSLAEIAAAKGMTEDQLIQKLKDQMTEPLKQWVNEKHTDADKSAAAAGETDEDTE				NA	NA	NA	NA	NA
AK002_00783	774	mta	COG0789	HTH-type transcriptional activator mta	ATGGAATACACGGTGCAGAAGCTTGGGAAGTTGGCGGGAATAAGCACGCGAACCCTCCGTTATTACGATGAGATCGGGATTCTGAAGCCGGCCAGAATCAACTCGTCGGGATATCGGATTTACGGGCAGGAGGAGGTTGACCAATTGCAGCAGATCTTGTTTTACCGGGAGCTTGGGCTGCAATTGGACGGTATCAAAGAGATTATGACCTCACCATCCTTCAATCGGACCAAGGCGCTCCAGGATCACCATGCGCAGCTCCTAGACAAGAGAAGGCAGCTGGATTTGCTGATTACCAATGTGGAGAACACGATAGCCTCCGCCGAAGGGAGAAAAACGATGAGTGACCAAGAGAAATTCGAAGGATTCAAGCAGAAGCTGATTGATGATAATGAGAAGAAATACGGCAAGGAAATTCGCGAGAAGTATGGCGACGAAACTGTAAATAAATCCAATGCCAAGCTGAAAAATATGACGCAAGCGCAGCATGATGAAGTAACGCGTCTGGCGGAGGAGCTGTACGAAACGCTGGCCGAAGCGTTTAAGCAGGGCGATCCTGCCGGCGAGCTCGCCCAGAAGGCGGCCGATCTTCACAAGCGTTGGCTCACCTATTATTGGAATGATTACAGCAAAGAAGCCCATGCCGGCCTTGCCCAGATGTATGTTGACGATGAGCGGTTTACCGCCCATTATGACGAGAAGCAGCCTGGAACCGCCAAGTTCCTCCGCGATGCGATTCTGATTTACACGGGCACGAATCCTGCATCATTGTAG	MEYTVQKLGKLAGISTRTLRYYDEIGILKPARINSSGYRIYGQEEVDQLQQILFYRELGLQLDGIKEIMTSPSFNRTKALQDHHAQLLDKRRQLDLLITNVENTIASAEGRKTMSDQEKFEGFKQKLIDDNEKKYGKEIREKYGDETVNKSNAKLKNMTQAQHDEVTRLAEELYETLAEAFKQGDPAGELAQKAADLHKRWLTYYWNDYSKEAHAGLAQMYVDDERFTAHYDEKQPGTAKFLRDAILIYTGTNPASL				NA	NA	NA	NA	NA
AK002_00784	1434	alsT	COG1115	Amino-acid carrier protein AlsT	ATGGATCAGATTGTACAGCAGGTAGTTACTATCTTTAACGATTTTCTATGGTCTAAACTGCTTATCGTATTGCTGATAGCGTTTGGCCTGTATTTTACGGTGGGCACCAAGTTCCTGCAGTTTCGCCTGATCGGGGAGATGTTCCGGGTCATCCGCGAACCCAAGAGCAAAACGAAGGGCAGCATTTCTCCGTTTCAGGCGTTTGCCATCAGCATGGCGGCCCGCGTCGGGACGGGGAACATCACCGGCGTTGCCCTGGCTATCTCGCTTGGGGGGCCGGGGGCCGTATTTTGGATGTGGATCATCGCGATCATCGGATCGGCCTCCAGCTTTATCGAGAGCACGTTGGCGCAGATTTATAAGGTAAAGGATGGAGCGGGCGGATTCCGCGGAGGTCCCGCCTATTACATGCAGCAAGGATTAAAAAAGCGGTGGATGGGCGTGCTGTTTGCGATCCTGATCACTTTGTCCTTCGGCCTTGTGTTTAACGCGGTTCAATCCAACACGATTACGATAGCTTTCCAGAATTCCTTCGGCACGGATCGTTTAACCCTCGGAATCATCATGGCGGTTGTTTTTGCGGCCATCATCTTTGGGGGAGTGAAGCGAATTGCCAAAATGTCGGAGCTGATCGTCGTGATTCTGGCTGTGCTGTATGTCGGTGCCGCGCTGTTTATCGTATTGGCGAACATCACCAAGCTGCCGGATGTTTTTGCGCTAATCGTCAAAAGCGCGTTCGGGTATGAGCAGGTGGTCGGCGGATCGATCGGTGCCGCGCTCATGAACGGGATCAAAAGAGGCCTGTTCTCCAACGAAGCCGGCATGGGGAGCGCACCGAACGCAGCGGCGACCGCAACGACAAGCCATCCGGCGAAGCAGGGTCTGGTTCAGGCGCTGGGCGTCCTGATCGATACGCTGGTCATATGTACAAGCACGGCATTCATTATTCTGTTTACCGGCGCATACCAGCAGACCGGACTTGATGGAATCGCCCTGACGCAGGCTGCGCTGGCCATGGAGATGGGCGCGTGGGCATCCGACTTCCTGGCGGTCATGATTTTCCTGTTTGCGTTCAGTACCTTGATCGGTAACTATTACTACGGGGAAACCAACATCGAGTTTTTGAAGTCGAATCGGGTTTGGGTATGGATCTATCGGGTTTCCGTGCTGGCCATGGTCATCTTCGGCTCCGTAACCAGCGTAAAGCTGGTGTGGGATTTGGCCGACCTCTTCATGGGTTTGATGGTAATCGTGAATCTCATCGCCATCGCGCTGCTATCCCGAACGGCCTTCGCCGCGCTGAATGACTACTTGAAGCAGAAGCGGGCAGGCCTCGATCCGGTCTTCGCTAAAGACAGCATCAAGGGGCTTCAGGATGTGGAGTGCTGGGATGGACATGACAGCCCAACCACGAAAAGCGCCATAATCGAATAA	MDQIVQQVVTIFNDFLWSKLLIVLLIAFGLYFTVGTKFLQFRLIGEMFRVIREPKSKTKGSISPFQAFAISMAARVGTGNITGVALAISLGGPGAVFWMWIIAIIGSASSFIESTLAQIYKVKDGAGGFRGGPAYYMQQGLKKRWMGVLFAILITLSFGLVFNAVQSNTITIAFQNSFGTDRLTLGIIMAVVFAAIIFGGVKRIAKMSELIVVILAVLYVGAALFIVLANITKLPDVFALIVKSAFGYEQVVGGSIGAALMNGIKRGLFSNEAGMGSAPNAAATATTSHPAKQGLVQALGVLIDTLVICTSTAFIILFTGAYQQTGLDGIALTQAALAMEMGAWASDFLAVMIFLFAFSTLIGNYYYGETNIEFLKSNRVWVWIYRVSVLAMVIFGSVTSVKLVWDLADLFMGLMVIVNLIAIALLSRTAFAALNDYLKQKRAGLDPVFAKDSIKGLQDVECWDGHDSPTTKSAIIE	PGPT0000745_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMINE_TRANSPORT,PGPT0000745-glnT-K11626	NA	NA
AK002_00785	975	yhdL_2		putative anti-sigma-M factor YhdL	ATGCTGCATGTTCATCGGATGACCTGGCGGACAAGGGCAACGCTGCTCTTTAATGCTTTATTAGCTGCGTTGGCCGTATTCCTTACTTATGTCATGTATTATATAGCCGTCCAAATTTATTATGAAAAAAATGGCCTGAACGATAAATTTATAAGGTCTGTCATGACGACGGTTGAATTGCATGAGAGTGGACTGATGGTAGATAAACGCGGCTTGTCTTCGGTAGAAGTGACGCCCTTCCTCACCCAGAAGAAAGCGCTGAAAGTGTATAAGGATGTGGGGGAATGGCAGTTGATTGTCGGAGAGCTTCACGCGAAGAAGAGGTTATGGGGAGAACTGACCTATTCCGTTGAAGAACAGGGGCCTTACCTGAACCGCGAAGAAAGGGACCCTTATGTTCTGCATTCTGCGCTTCTGGATGGTGGGAAGATTACAGACTCCTCTCATCCGAATGGTGCAATGAACCAGTTAGAGAAACTGGAGGACGGCAACGTAGCGGAATTATTCTTCTCGCTTCGAACGTTGAAGTCACCGGAGCAGGTTTTGGAGCACCTGTCGGACTATGATGTTCGAGCGACCAATATGGCTGTTTTTTCAGGTGAAATGAAGGCGTTTAAACTGGGTACTTATAGCTCTAGCGGCGCTGGTCACACGATTCCCCATCTTACATTGAGGCCCAGGATTATGTTTGACGACAACCATTTCCTTTCTGCATGGCATACTATTTTCTCGTTGGAGGCAGGAATATCGGACGACGTGTTGCAGCTGATCGCCGACGTTGACTGGATGACCAACAATATCAAATATAACGGCGTGGATGATGACAAACAACGGCTGGCCTACTTGAAGAAAAATGGAGTTCGAGTTTACGGAGCAGCCGTCACGGGACCTGTGCGGGAACTGGAGAAGCTGAAGGAGGAGTCGGAATTCTGGGGATTCCGTCTGGGCCGCATCGAGGTATGGAATTGGAGCTAA	MLHVHRMTWRTRATLLFNALLAALAVFLTYVMYYIAVQIYYEKNGLNDKFIRSVMTTVELHESGLMVDKRGLSSVEVTPFLTQKKALKVYKDVGEWQLIVGELHAKKRLWGELTYSVEEQGPYLNREERDPYVLHSALLDGGKITDSSHPNGAMNQLEKLEDGNVAELFFSLRTLKSPEQVLEHLSDYDVRATNMAVFSGEMKAFKLGTYSSSGAGHTIPHLTLRPRIMFDDNHFLSAWHTIFSLEAGISDDVLQLIADVDWMTNNIKYNGVDDDKQRLAYLKKNGVRVYGAAVTGPVRELEKLKEESEFWGFRLGRIEVWNWS				NA	NA	NA	NA	NA
AK002_00786	516			hypothetical protein	ATGAACACAAGGCCTAATGCTAACGAATATTTGCCCCTCGGCGAAAAATACGTATCGCTTGTCCCTGAAGGCCATATTGCCGAGATCTTGCAGCGGCAGCATGACGAGACGTTAAGATCGCTGAGCGATCTGACGGAAGAACAAGCTAATTTCCGCTATGCGGAAGGAAAATGGAGTCTCAAGCAGGTGGTCGGCCATATCGCCGATGTAGAGCGTTTATGGAGCTACCGCATTCTCTACATTGCGCGCGGGGATGCCCGTGAATTTTCAGGGTACGACCGGGAGATTTTTGTTCAGAATTCCCCGTTCGGCCAGCTTCCTCTGCGGGAGGCTCTTAAAGATTACGCTGCCGTCAGGCAGTCCACCATTACGCTGGTCGGAAGCTTGACGGAGGAAGCGCTGCTGCGACAGGGCACGTTCAACAATTACCCGCTCTCCGCCCGGGCGGCCGCCTATGTCATTGCAGGGCATGAGCTTCATCATATGAATATTTTGCGGGATAAATATTTAACGTAA	MNTRPNANEYLPLGEKYVSLVPEGHIAEILQRQHDETLRSLSDLTEEQANFRYAEGKWSLKQVVGHIADVERLWSYRILYIARGDAREFSGYDREIFVQNSPFGQLPLREALKDYAAVRQSTITLVGSLTEEALLRQGTFNNYPLSARAAAYVIAGHELHHMNILRDKYLT				NA	NA	NA	NA	NA
AK002_00787	606	COQ5_1		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	GTGAATAAGAATTCCCTCATCCGAAAGTTCAATAGACAAGCTCCTATATATGAAAGGAACACCAGGCAGCGCAAACTCGGAGAATGGAGACAGCGACTGCTTCAGGGGGTTGAGGGCAAAGTGCTCGAGGTAGCTGTCGGCGCCGGCGCCAACTTCCCCTTCTATCATCCTGATACGGTGGACGTAACGGCCGTCGATTTTAGTCCCGAGATGTTAACCCGGGCGCGCCAAATGGCATCCGAGCTTGGCATTCGGGCCACTTTCCTGGAACGGGACATCGAGACCCTGGAGCTGCCGGAACGTTCCTACGACTGCGTGGTTTCCACCCTGTCGCTATGCGGCTATGAAGACCCCGTAAAGGCATTGAACAACATCAACCGCTGGGCGAAACCCGGCGGCCGCATTTATTTGCTGGAGCACGGCATGAGCACGAACCGGCTGCTCGGCGCCGTGCAGCATCTCGTCAACCCCGCGGCACGGCGGATATCCGGGTGTCATTATAACCGGGACATGATCGATATCGTGAATGCCTCGGAACTGAACATCGTCAAGACGGAACGCTATTGGAACGGCATCATCCATCTGATCTGGGCCCAAGCAACCTGA	MNKNSLIRKFNRQAPIYERNTRQRKLGEWRQRLLQGVEGKVLEVAVGAGANFPFYHPDTVDVTAVDFSPEMLTRARQMASELGIRATFLERDIETLELPERSYDCVVSTLSLCGYEDPVKALNNINRWAKPGGRIYLLEHGMSTNRLLGAVQHLVNPAARRISGCHYNRDMIDIVNASELNIVKTERYWNGIIHLIWAQAT				NA	NA	NA	NA	NA
AK002_00788	1416			NAD-dependent malic enzyme	ATGGAAAACAACGGACTCGGAGGAAAGAGCATTATCCTCAGACTAGAAATGAATACTCAAGAGATCAAATTCGGTGAAGTTGCATCCGCCATATTTGAAGCCGGGGGAGACATGGTTGCCATCGACGTCATTCAAGCCAGCGGCCACATTACCGTGCGCGATATTACCATTACGGTCACCGACAGCGTCGATATCGAAAAAATTACAAATACAGTAAAACATTTAAAAGGCGTTCGGCTCGTCAATGTTTCCGACCGCACCTTCCTGCTGCATCTCGGTGGCAAGATCGAAACCCAGCCCAAAATCCCTATCCAAAACCGCGATGACCTGTCTCGCGTCTATACGCCTGATGTCGCCCGCGTATGCTCGGCCATTCAGGAGGATCCGAAAAAAGCCTACACGCTCACGATTAAAAGAAATACGGTGGCCGTTATTTCAGACGGAAGCGCCGTGCTCGGTTTGGGCAATATCGGCCCTTATGCGGCCATGCCGGTCATGGAAGGGAAGTCGATGCTCTTCAAACAGCTGGCCGGCGTAGACTCCTTCCCGATTTGCCTTGACACCCAGGACACCGAAGAGATTATAGCCTGCATCAAAGCGATGGCGCCGGCATTTGGCGGCATTAACCTGGAGGACATTTCCTCTCCGCGCTGCTTCGAGATTGAACAGAGACTGCGCGACGAGCTGGATATCCCCGTATTCCACGATGATCAGCACGGTACGGCGGTCGTTCTGTACGCGGCGCTGATCAACGCCCTGAAAATCGTCGGAAAATCCATCGATAACGTTCGGGTCGTTGTGTGCGGAATCGGGGCTGCCGGGGTGGCATGCAGTAAAATCCTCCTGTCGGCCGGCGTTAAGGACATCATCGGCGTCGACCGCGAAGGTGCGCTGGTTGCTGGAAGAGAATACAGTAATAGTATGTGGCAATGGTATGCTGAGCATACGAACCCGAACAAAGTCGAAGGTTCCCTGCGCCAAGTGATCCAAGGTGCCGACGTGTTCATCGGCCTTTCCGCAGGCGGCCTGCTTCGCCGCGAAGACGTACAAGCCATGGCTGATCAACCGATCGTATTCGCGATGGCCAACCCTACGCCGGAGATCAGACCCGAAGAGGTCGAAGATATTGTGGGCGTCATTGCGACCGGACGTTCGGATTATCCGAACCAAATCAATAACGTCCTCTGCTTCCCGGGTATTTTCCGCGCAGCCCTGGACTGCAGAGCAACTACGATTAATGAGGAAATGAAGCTGGCCGCAGCCGAAGCCATTGCATCCGCCGTATCGGACGAGGAACGCAACCCGTCGTATATCATTCCGAGCGTGTTCAACCAGAACGTCGTAAAGGCCATTCGTGAGCTTGTCGTGAAAGCAGCGGTCAAGACAGGGGTTGCCCGGAGAATTCCGCGTGAATAA	MENNGLGGKSIILRLEMNTQEIKFGEVASAIFEAGGDMVAIDVIQASGHITVRDITITVTDSVDIEKITNTVKHLKGVRLVNVSDRTFLLHLGGKIETQPKIPIQNRDDLSRVYTPDVARVCSAIQEDPKKAYTLTIKRNTVAVISDGSAVLGLGNIGPYAAMPVMEGKSMLFKQLAGVDSFPICLDTQDTEEIIACIKAMAPAFGGINLEDISSPRCFEIEQRLRDELDIPVFHDDQHGTAVVLYAALINALKIVGKSIDNVRVVVCGIGAAGVACSKILLSAGVKDIIGVDREGALVAGREYSNSMWQWYAEHTNPNKVEGSLRQVIQGADVFIGLSAGGLLRREDVQAMADQPIVFAMANPTPEIRPEEVEDIVGVIATGRSDYPNQINNVLCFPGIFRAALDCRATTINEEMKLAAAEAIASAVSDEERNPSYIIPSVFNQNVVKAIRELVVKAAVKTGVARRIPRE	PGPT0001350_1699	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001350-maeA|sfcA|ywkA-K00027	NA	NA
AK002_00789	300			hypothetical protein	ATGAATGCCAGAATCGAGGAGCTTGAAAAACGTTTGACCACCCAGCATCATAAGGATCTGTTCCTTCAGATGAAACATACGCTGAAGGCCGTCGACGATTTGGCCGAACAGCACCGGGTTTACCAGGCCGTTCAGGCGCTTAGTGGCACACGCATCGTTGGAGCGGAGGAGAACGTGTATTTTGACACGTTGAATCAGGTCAAGGAACAGATTATCCATACCTTGGAGCTTACGATCGAGGATTTGGAGCACAAAGGGGATAAACATTACCGGAAGCATTTTAAGGACGGCGTAGAATAG	MNARIEELEKRLTTQHHKDLFLQMKHTLKAVDDLAEQHRVYQAVQALSGTRIVGAEENVYFDTLNQVKEQIIHTLELTIEDLEHKGDKHYRKHFKDGVE				NA	NA	NA	NA	NA
AK002_00790	1038	gbpA_1		GlcNAc-binding protein A	ATGACTTTAAGTTTGCCGAACAAAGCTTGGCTCAAGAATTTGATCATTGCTGGTTCCACGATGCTGTTGATGACCTTGTTCATGGTTTTATTTGCGGATAAAGCTTCTGCCCACGGATATGTCGATTCTCCAGGAAGCCGCGCCATTCTGTGTAAGCAGGGGCAAAACACCGATTGCGGCGCCATCGTGTATGAGCCGCAAAGCTTGGAAGCTCCTAAAGGTTGGCCGAACGCAGGTCCCGCTGATGGCAAAATCGCGAGTGCAGGCGGCGCGTTCCCTAAACTCGATGAGCAGTCCGCAACTCGCTGGAGCAAAGTAAGCATTTCCCCGGGAACCACGACGTTCCAATGGCATTTGACGGCCAACCATGCGACGGCAAGCTGGAAATACTACATTACGAAAGACGGCTGGGATCAAAACGCTCCGCTGAGCAGAGCTTCGTTCGATCTGACGCCTTTCTGCTCCATTAACTACGGCGGCGTAAAACCTCCGACAAACTATGCATCCACATGTAACGTTCCTGCCAAGTCCGGTTACCATGTCATTCTGGCTGTATGGGAAGTAGCTGACACGGCTAACGCTTTCTATAACGTCATCGATGTAGACTTCGGCGGTGGCGGCGGAACTCCGAACCCAGGCGTTCCGGCACCGACGGGACTTACTTCCCCATCCCAAACAAGCAGCAGCGTATCCTTGGCATGGGCAGCTTCCACCGGGGCTTCCAGTTATGAAATCTACCGTAACGGATCCCTTGTGGGTACATCGACTTCAACCTCTTATACCAACACGGGGTTAACCGCAGGAACGTCCTATACGTACACTGTGGTGGCCGTCAGCAGCTCAGGCAGTAAATCATCGGCATCGGCTCCGCTTACGGTTTCAACATCCGGAAGCTCCACGACCTATCCGGCATGGAGCGCAACAGCCGTTTATTTAGGCGGCAGCAAAGTCAGCCACAATGGCGTGAACTATGAAGCAAAATGGTGGACTCAAGGCGAAACACCTGGATCTGCCGAAGTTTGGAAGGTTATCCCTTAA	MTLSLPNKAWLKNLIIAGSTMLLMTLFMVLFADKASAHGYVDSPGSRAILCKQGQNTDCGAIVYEPQSLEAPKGWPNAGPADGKIASAGGAFPKLDEQSATRWSKVSISPGTTTFQWHLTANHATASWKYYITKDGWDQNAPLSRASFDLTPFCSINYGGVKPPTNYASTCNVPAKSGYHVILAVWEVADTANAFYNVIDVDFGGGGGTPNPGVPAPTGLTSPSQTSSSVSLAWAASTGASSYEIYRNGSLVGTSTSTSYTNTGLTAGTSYTYTVVAVSSSGSKSSASAPLTVSTSGSSTTYPAWSATAVYLGGSKVSHNGVNYEAKWWTQGETPGSAEVWKVIP				NA	NA	NA	NA	NA
AK002_00791	522			hypothetical protein	TTGAGACTAGCAAACTTTGCCTACCTTTGCATACCTTTGCATACCTTTGCATACCTTTGCATACCTTTGCATACCTTTGCGGACCTTTGTGGACCTTGGCATGCCTTTGCATACCTTCGTATCTTCGCGGACCTTTGCATGCCTTCGTATTTGCGGACATTTGCATATCTTCGTACCTTTGCATGCCTTCGTACCTTTGCGCACCTGGCATGCCTGAACATACTTCTTGCAGAAAGCACAAAAGGCACCCCGGGGGGTGCCTTTTTCAAGCTGCTGATCGCCAGCGGCTTGCTTATTTATATTCCACTGCTATGTTACCCATCCATACTCGCTTTTTTTCGCGATTCCCCGCTTAGACCAATAGAGCAAACAGCAGAGATTCACGGAACGTCTATAAACACAATCGACATGTCATTCAATATGTCCAAAATTCAATGGTCGACAGCCAATCCAAGCATGCCCCGGACTACGCACCGTGCGCACAGGGAGCAGTGCGCACGATGTACTTGTTCTTTGGTATAA	MRLANFAYLCIPLHTFAYLCIPLHTFADLCGPWHAFAYLRIFADLCMPSYLRTFAYLRTFACLRTFAHLACLNILLAESTKGTPGGAFFKLLIASGLLIYIPLLCYPSILAFFRDSPLRPIEQTAEIHGTSINTIDMSFNMSKIQWSTANPSMPRTTHRAHREQCARCTCSLV				NA	NA	NA	NA	NA
AK002_00792	762	glcR_1	COG1349	HTH-type transcriptional repressor GlcR	TTGCTGGCACATGAACGAAAGAAAAGGATCATTGATTACGTAAGGCAGTACCGTACGGCAACGGTTGCCGCCCTGGCATCCGAATTCGGCGTCCACACGGCCACCATTCGCCGCGATCTGGCGGAGATTGAGCAGGAAGGCGCTTTGAAGCGCACGCATGGCGGGGTCATCATGGAGCAATGGACGCATAACGAGCCATCCTTTAATGAACGGACCAACTTTCATCGGGACGAAAAAATACGCATCGGCCAGCTCGCGGCTTCACTCGTGGAAGACGGAGAAAATATCATCATCGATTCGGGGACAACCACCCTTCATATTGCTACGCATCTTGTGCACCGCTCGGATATTACCGTCATAACCAACGATATGAACGTTGCCGTCGAGCTTCGCGATGCTCCGGGCATTAAAGTCATCCTGACCGGCGGGGAGCTGTACCCCTCGAGCTACATGCTAAACGGCATGTTTACCGACCATGTGCTGAAATCCCTGCATGTCGAGAAAGCGTTCATCGGCACCCCTGCCCTGCATCCCCAGCATGGCCTCATGCACCCGGAGGCGCTGCTCGTCCCGGCCAAGCAGAACATGATTCAGGCCGCCGGCGAGATTGTCGTAGTCACCGACCACAGCAAGATCGGCAAGCTGTCCCTGCATACGGTCGCTCCCAACAGCGCTATTCATACTCTCGTTACCGGCAGCGAGGCTTCCGACTCGGATGTCAAGCCTTTTCAGGAACGGGGCATCACCGTTTACAGGGTTTGA	MLAHERKKRIIDYVRQYRTATVAALASEFGVHTATIRRDLAEIEQEGALKRTHGGVIMEQWTHNEPSFNERTNFHRDEKIRIGQLAASLVEDGENIIIDSGTTTLHIATHLVHRSDITVITNDMNVAVELRDAPGIKVILTGGELYPSSYMLNGMFTDHVLKSLHVEKAFIGTPALHPQHGLMHPEALLVPAKQNMIQAAGEIVVVTDHSKIGKLSLHTVAPNSAIHTLVTGSEASDSDVKPFQERGITVYRV	PGPT0017590_975	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK002_00793	1056	ugpC	COG3839	sn-glycerol-3-phosphate import ATP-binding protein UgpC	TTGGCATCCATTGAATTTGTGAAAGTGAGCAAGTCGTTTGATCGTCAAACCGTCATACAGGACTTGGATCTTACCATCGAGGACGGAAAATTCACCGTGCTGGTCGGCCCGTCAGGTTGCGGGAAAACAACGCTCCTAAGGATGATCGCGGGCATAGACCCTCAAACCTCCGGTTCCGTTCTGATCGACGGCAAGGATGTCACGCGCATTGCACCGGGGAAGCGCGGCGTGGCCATGGTGTTTCAGAACTACGCCATTTACCCGACGATGTCGGTCCGCGAGAATATCGAATTCGGCCTCGTGAACAATAAGGTTCCCAAAGCCGAGCGTAAGCGACTGGTGGAAACCATAGGGGCAACCGTGGGACTGAACGATTATTTAGACCGCAAGCCCTCCACCTTGTCCGGCGGGCAACGGCAGCGGGTGGCTTTAGCCCGGGCCATGGTTAAGGATCCGTCCGTCTTCCTGATGGATGAACCGTTGTCCAATCTGGACGCCAAGCTGAGGGTTCAGATGCGGATCGAGCTGATCGAGCTGCACAAGAAGCTCGGGACGACCTTTGTTTACGTGACCCATGACCAAATCGAGGCCATGTCGATGGCGGATACCATCGTGCTGATGAACAATGGGGTCATTCAGCAGGAGGCGCCGCCCGAGGTGGTGTACCGCAAGCCCAGCAATCTGTTTGCGGCCCAGTTCATCGGGGTTCCTCCCATGAACATTGCGCCGCTGGGGGACGATCGCGCGACGTTCGGGTTCCGTCCGGAAAGCGTTGTGATCGGCACGGAACCGGAATCGTTTCACTACACGGCCAAGGGCGAGGTCATCACGCGAGAAATGCTGGGCTCCGAGACGATTTATCAGGTGAAGACGACCGATGGTCATGCATTCATGGTGAAATGTCCGGATGACAGATACCATGTCGATCAGCAAGTCTGTCTCGGCGTGCCGGCCGACCAATTGTTTTTCTTCGGTCCGGATGAGAACCGGGTGGACGAGAAGGACAACCGCCACAGGGAGTTCATGGAGCGGCTGAGAGGGCTGGCCCATGGATAA	MASIEFVKVSKSFDRQTVIQDLDLTIEDGKFTVLVGPSGCGKTTLLRMIAGIDPQTSGSVLIDGKDVTRIAPGKRGVAMVFQNYAIYPTMSVRENIEFGLVNNKVPKAERKRLVETIGATVGLNDYLDRKPSTLSGGQRQRVALARAMVKDPSVFLMDEPLSNLDAKLRVQMRIELIELHKKLGTTFVYVTHDQIEAMSMADTIVLMNNGVIQQEAPPEVVYRKPSNLFAAQFIGVPPMNIAPLGDDRATFGFRPESVVIGTEPESFHYTAKGEVITREMLGSETIYQVKTTDGHAFMVKCPDDRYHVDQQVCLGVPADQLFFFGPDENRVDEKDNRHREFMERLRGLAHG	PGPT0016850_1257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016850-ugpC-K05816	NA	NA
AK002_00794	879	ugpA_1	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGGATAAGAGGAGGATCTGGGAAGGGATCAGGCCCTATGTGCTGATCGCGCCAGCCATGGCGGGTATCCTGCTGTTCGTGATGTATCCGGTAGGTTATTTGATTTACTTAAGCTTGTTCAAATACAACCTGATGAACAAAGACAAGAGCAAATTTGTCGGATTGGACAATTTCACGCAGATTCTCGGGCGCGGGGATTTCTACAAAGCACTCTGGAACACCTCCGTCTATACGGCCGGGGTCGTCATTTTGACCATGCTGCTGTCCCTGCTGATCGCCGTATGGCTGAACAAGAAAGGCCGTTTCAATTCGATCGTCCAGGCCGGGATTTTCACGCCGCACGTCGTATCCATCGTATCGATCTCGCTGGTCTGGCTGTGGCTGATGGAGCCGAATCAAGGACTGCTCAACTATCTGCTCAAGCTGGTTGGACTCCCGCCGTCGGCATGGCTTCAAAGCTCCAAGACCGCGTTGATATCGGTCATTATCGTGTCGGTCTGGCAGGCCATCGGCTATTACACCCTGATTATCGTGGCAGCCTTGCAGAGCATATCGCCGAGCATTTATGAAGCGGCCGCGCTGGATAATGCGAGCAGGTTCAAGGTGTTTTATAAAATCACACTGCCGATGATTTCGCCGCAGCTGTTTTTTATTCTCATCATCATGACGATCGGCTCCTTCAAGGTATTCGACACTGTTCAGGTGATGACAGGCGGAGGACCGAACAATGCAACGACAACGCTTGTGTATTACATATACGGATTCCGAACGACCAATATCGGTTATTCGGCCGCGACAGGCGTTGTGCTCATGGCCATTATCGGATTGCTCACGTTCATCTATTTCCGGCTGTTATCCAAGAAGGTCCACTATCAATAA	MDKRRIWEGIRPYVLIAPAMAGILLFVMYPVGYLIYLSLFKYNLMNKDKSKFVGLDNFTQILGRGDFYKALWNTSVYTAGVVILTMLLSLLIAVWLNKKGRFNSIVQAGIFTPHVVSIVSISLVWLWLMEPNQGLLNYLLKLVGLPPSAWLQSSKTALISVIIVSVWQAIGYYTLIIVAALQSISPSIYEAAALDNASRFKVFYKITLPMISPQLFFILIIMTIGSFKVFDTVQVMTGGGPNNATTTLVYYIYGFRTTNIGYSAATGVVLMAIIGLLTFIYFRLLSKKVHYQ	PGPT0016840_1462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016840-ugpA-K05814	NA	NA
AK002_00795	834	araQ_10	COG0395	L-arabinose transport system permease protein AraQ	TTGAAGACCTTTGACTTAAAAATCGTATGGACGGCGCTGGGCTATTTGCTGAAGGCTGCAGTGCTCATGATTTTCATCTTTCCGTTCCTGTGGATGATCTCCACATCGCTCCAGACATTCCGGGAGACGATGACGTTTCCGCCGACGTGGATTCCGGCTTCGCCGCAGTGGGGGAATTTCGCGGAAGCGATGAATGCGGGGCCTTTCCTGACCTATTTCAGGAACTCGGTTGTCGTCACCGGCTCCATCATCGTACTGCAGTTCCTGATCATGATTCCGGCCGCGTATGCTTTTGCCAAGTATAAATTCCCGGGAAAAACGCTGCTGTTCGGGATGATCCTACTGGCCTTCATGATCCCGGGGCAGGTTACGTTCATCCCGGTTTATCTGATGATGGCGGATTGGGGATTGGTCAAAACCTTGCTCCCGCAGATTATTCCGTTCATTTCGAATGCCTTCGGCATCTTCCTGCTGCGGCAATACTTCATGCAGATTCCGGAGGAAATCATCGAAGCGGCCCGTCTGGATAACGCCAGCGAGTTCAAAATCATCCGGAAGATCATGATTCCCATGTCGAAGCCGGCACTTGCCACCATTGCGCTGTTCAGCTTCGTCAGTCACTGGAACGACTATTTCTGGCCGCTTGTCATGACCGATTCGGCAGCCGTCCGGCCGCTGACCTTGGGGATCGCCATGCTGCGGGAGACCGAGGGCATCAGCAACTGGCATATCATCATGGCTGGCAACGTGATTCTGGTAGTGCCCATCCTGCTTGTCTATTTGTTCTGTTCGAAGCACATCGTGAAGGCATTTGTTTATTCAGGCATTAAATAA	MKTFDLKIVWTALGYLLKAAVLMIFIFPFLWMISTSLQTFRETMTFPPTWIPASPQWGNFAEAMNAGPFLTYFRNSVVVTGSIIVLQFLIMIPAAYAFAKYKFPGKTLLFGMILLAFMIPGQVTFIPVYLMMADWGLVKTLLPQIIPFISNAFGIFLLRQYFMQIPEEIIEAARLDNASEFKIIRKIMIPMSKPALATIALFSFVSHWNDYFWPLVMTDSAAVRPLTLGIAMLRETEGISNWHIIMAGNVILVVPILLVYLFCSKHIVKAFVYSGIK	PGPT0016845_1291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016845-ugpE-K05815	NA	NA
AK002_00796	1314			hypothetical protein	ATGAAATCCAAATGGTATACACGCCTATCCGTCATCCTGCTGTTCAGTTTGCTTGCCGCATGCGGTGGAGGAGGTTCGGCTGAGCCCGGCGAAGCGCCGGGAAGCGGGGGAACCGAAGCCCCGTCCGGAGACAAGGGGAAAACCACGGTACAGTTCTGGCACTCGCTGGGAGGCAAGAACGGGGAATACATGGACGCGCTCATTCAGCGCTTTAATGCATCCCATGAGGATATCGAAGTCGTAGGCACCTTCCAGGGCAGCTACGACGAAACGGTAACCAAGCTGCAGCAGGCCATTGCATCCGGCACCGGCCCGGATGTCAGCATGCTCGAGCGAGCCTACATCCAGATGTTCGCGGATTCGGAGGTCCTTGAGGATCTGACGCCTTTTCTTGAAGGCTCCGGCATCAGCGCAGACGACTTCACTGCCGGTTTAATGGGACACTCCACCTTCAATGATCAATTGGTGTCGCTGCCGCTGAACCGTTCCACCCCGATCCTGCACGTGAACAAAACCCTGCTGGATGAGCTCGGGCTTCAAATCCCGACGACATGGGAGGAAATGAAGGAGGTCGCGAACGCGCTGGTGGTCAAGGAAGGCAGCGAGTATAAGCGATACGGCGTCACGATGCCTTACGACACTTGGTATCCGATTGCCATGATTTCGCAAGCCGGCGGCACGTTCTTCAATGACGACAATACGTCGATCGGCTTTTCGGATAACGGTGCCGGTGTCAAAATGTTCACTTACCTGAAAGACCTGCAAAGCACGGGCGCTTTGTATTATCCGCCCGCTCAGGATTCCGGAAACATCGTAAACAGCATGTTTGTGGAAGGCAAAGTCGGGATGATGTACCAATCCACGGGATCGATCGGCGGATTGTCCAGCGCGGTGGATTTCGATTACGTGACGGCATTCCTGCCTAAGGACGAAGTGTATGCGAATCCGACCGGAGGCGCGAACGTGACGATGCTGTCTTCTTCCAAAAACAAGGAAGCGGCATGGGAGTTCATCCGGTGGATGGAGATGGAAGAGGAAGGCGCTCTTGAATTTATTTTGCAATCCGGTTACCTGCCTTTCACGAAGAAGATGGTGGAGTCGGAGAAGATCCAAGAACTGTGGGCCAAAGAACCGAACCGCAAAGTCGCCTATGATCAGCTGGAATTCGCTACAGATACCAATAAGGATGTGGCATGGCCTGAGATTATGCATGAGTTCTTCTCGGCCATGGAAGCGATCATGTATGACAGCAAGGATATCCCGGCAACACTGGATACCTTCAAGAAAGAGACGGAGCGGATTCTGGGCCAATAA	MKSKWYTRLSVILLFSLLAACGGGGSAEPGEAPGSGGTEAPSGDKGKTTVQFWHSLGGKNGEYMDALIQRFNASHEDIEVVGTFQGSYDETVTKLQQAIASGTGPDVSMLERAYIQMFADSEVLEDLTPFLEGSGISADDFTAGLMGHSTFNDQLVSLPLNRSTPILHVNKTLLDELGLQIPTTWEEMKEVANALVVKEGSEYKRYGVTMPYDTWYPIAMISQAGGTFFNDDNTSIGFSDNGAGVKMFTYLKDLQSTGALYYPPAQDSGNIVNSMFVEGKVGMMYQSTGSIGGLSSAVDFDYVTAFLPKDEVYANPTGGANVTMLSSSKNKEAAWEFIRWMEMEEEGALEFILQSGYLPFTKKMVESEKIQELWAKEPNRKVAYDQLEFATDTNKDVAWPEIMHEFFSAMEAIMYDSKDIPATLDTFKKETERILGQ	PGPT0016835_1227	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016835-ugpB-K05813	NA	NA
AK002_00797	768	glpQ_2	COG0584	Glycerophosphodiester phosphodiesterase	ATGATCGAACGACTACGGGAACCATCCTCTATGATGGTGGCTGCACATCGCGGGTATAAATCGGCTTATCCGGAAAATACGCTGCTGGCCTTTCGCAAGGCACTGGAGTTAGGCGTTGACATGCTGGAGTTTGATCTTCGGCTGACGAAGGATAAGGAGGTGGTGGTTATCCATGATGCAACGGTTCAGCGTACGACCAATGGTGCCGGCGAGGTAAGGGATTATACGCTTGCGGAGCTGAAGGCTTTGGATGCGGGCAGCTGGTTTGCCCGGGAATTCGAAGGCTTGAAGATCCCGACGCTTACGGAGCTTTGCGAACTGCTTCGGGAATACCCCGAGGTTCTATGCAACGTGGAGATTAAGCCCAGTCCCGATGCCCAAGAGGCCGCCGACCTGGCGATGGACATACTGAACCGGTACGGGTACCTGCCGCGCTGCGTATTCACCTGCTTCGATGCTCAGGTTCTGACCTATATCCATGAAACGCATGGCCAAAAGACTCAGGGGTTTCCGGGCGAGAAAATGTCCGGCTTTGACTTCGGAGAGGAGGGCACCTACGCCAAAATGTGGGGGATCGGCGTGGAGATGTCACTGCTTACGCCGGAAATCGTTGCCGGGTTCCAGGCACAGGGTCTGCTGGTCTGGAGCTATTGCCCGGACGATGAGCAGGGCGTCCGGTATTCGCTGGAGTGCGGGGTTACCGGCATGACCTGCAATGACCCGCTGCCGGCGATGGCGGTAACCGGAAAGAAGGGTGCGCGGATATGA	MIERLREPSSMMVAAHRGYKSAYPENTLLAFRKALELGVDMLEFDLRLTKDKEVVVIHDATVQRTTNGAGEVRDYTLAELKALDAGSWFAREFEGLKIPTLTELCELLREYPEVLCNVEIKPSPDAQEAADLAMDILNRYGYLPRCVFTCFDAQVLTYIHETHGQKTQGFPGEKMSGFDFGEEGTYAKMWGIGVEMSLLTPEIVAGFQAQGLLVWSYCPDDEQGVRYSLECGVTGMTCNDPLPAMAVTGKKGARI	PGPT0018470_5833	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_00798	1221	egsA_1	COG0371	Glycerol-1-phosphate dehydrogenase [NAD(P)+]	ATGACCTCCATTTTATCGAATGTCCGGAGTCTAGCAGCGGATTTACCGGCCCATCAGCTTGCGAATCTGGACGAAGTAGAGCTGGTTCAGATCCAGCACGGAGCATTAGACGAGGTGGCGGGCTACCTTGAGACGAAAAGGTGGACCTCGGTGGTCATGGTCGTGGACGGCAATACCTATGACCAAGCGGGCCAGAGGCTTTTGAATCTGCTCGCGAAATCCTCGATTGGGGTCCAGGTCACCCGGCTGCTTCCGGACCGGAAGGGAGATGTCATCGCGGATGAAGTATCCCTGATCCAGGTCATATTGGATATCCAGCATAGCGGAGCGAAGGCGGTGCTGGCGGTAGGCGGAGGGACGATTCACGATATTAGCCGTTACGCCGCCTATACCGCGGGCGTTCCGTTCATCTCCATACCTACGGCCGCATCGGTGGATGGATTTAATTCCAAGGGAGCGCCAGTCATTGTACGGGGCGAGAAGATAACGATTCCGGCCATCGGACCAAGCGCGATATTCGCGGACGTCGATATTCTCATGGCTGCTCCCTCCCGGTTAACCGCCGCCGGATTCGGGGATATGCTGGGCAAGTACACATCGCTGTTCGACTGGAAGTTCGGCAGTTTGGTGGCCGACGAGCCATATTTGAAAATTTCGGCGGATATGACGAAATCCGCGCTCAGCCAGTGCGTGAACGCGGTGGAACAGATTGCGAAGCGGAGCGAGGATGGCGTACGCATCTTGATGGGGGCGCTCGTCGAATCCGGCCTGGCGATGCTGCTGTTCGGCCAATCCCATCCGGCTTCGGGTTCGGAGCATCACCTGTCCCATTATTGGGAGATGGAGTTTATCCGTTTAGGGAAGAAACAGCTGCTGCACGGTGCCAAAGTAGGAGCCGCTTGCGTGGAAATCTCGAAGCTGTATCATCGTATCGGAGAGCAGGGGATTGAGCTGAATGGAGGCTCCTCCCCGGGCGCGGAAGATATAAAACGGCGAATGGCGCTGCAGTGGAACGACATCCGGTCGCATATTACGCAGCTCCCGGAGCCGGAAGTGCTGGGCGACCTGATGCGCATGGTAGGCGGCCCGGCCGGGGTGTCGGAGCTTCCGATCGGCGATGAGCTGCTGGAACGAAGCCTGGCTGAAGCCCACAAGGTTCGATACAGCCGCTATACGCTGCTCCATGTTTACAACGAACAAAGATCCTTATTTGTCCATTAA	MTSILSNVRSLAADLPAHQLANLDEVELVQIQHGALDEVAGYLETKRWTSVVMVVDGNTYDQAGQRLLNLLAKSSIGVQVTRLLPDRKGDVIADEVSLIQVILDIQHSGAKAVLAVGGGTIHDISRYAAYTAGVPFISIPTAASVDGFNSKGAPVIVRGEKITIPAIGPSAIFADVDILMAAPSRLTAAGFGDMLGKYTSLFDWKFGSLVADEPYLKISADMTKSALSQCVNAVEQIAKRSEDGVRILMGALVESGLAMLLFGQSHPASGSEHHLSHYWEMEFIRLGKKQLLHGAKVGAACVEISKLYHRIGEQGIELNGGSSPGAEDIKRRMALQWNDIRSHITQLPEPEVLGDLMRMVGGPAGVSELPIGDELLERSLAEAHKVRYSRYTLLHVYNEQRSLFVH	PGPT0024335_203	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024335-araM|egsA-K00096	NA	NA
AK002_00799	1968	mcpB	COG0840	Methyl-accepting chemotaxis protein McpB	ATGCTAAAGAGTCTTAAGCAAAAGATGATTACAATGATTTGTTTGCTCTTGCTAGTCAGTCTTGGATCCGTTTTTGCCGTAACTTACAGTCGGTCATCTGACTTGCTGCAGGAGAGCCTGGACAAGGAAGCGCAGCTTAGCGCGGAGAAGCTGGCGCTTCAGATCGACCAGTTTCTTGATGTAGAGATTGCCAAGGTGGAAAGCATCGGGAAATTCATTACGGGTAACAAAGAGCAAGATCTGCAGTTGATTCAGGCTGCGCAGGAAGTGAACAAGGAATTTGAGACCTTCTTCTTCTCGTACGATTTGACGGGGAAGAACGTCATTAACTTTCTGGGCGAGGTGACCGACGTGTCCGACCGCGTCCATTATCAGGAAGCCGGGAAGGGCGAAGGCAAGCTGGTCGTGTCGGAGCCGGTGCTATCCAAGCGGACGGGCAACAACATCGTTACGATGATCATTCCGCTGATGAAGGATGGAAAACAGTACGGCTACATGGGCTCCACCCTTCCAATTAACGAAGTACAAAAAACGGTATCCTCCCAAACGTTCGGAGACACCGGATATGCTTTTCTTCTGAGCAAATCGGGGACGTTCATGTGGTATCCGCAAGAGGAGCTTGTCCTTCAATCAAACGTGAAGGACGTTGACAGCGCCGAATTGACGAAGGCCTACGAAGAGGTCAGCCAGGGCAGACCAGGCGAGTTCGATTATGTATTGGAAGGTACCGAGTATTCGGCGGCTTATGCACCGTCCAACTTGAACTGGGGGGTCTTCGTGACGGCACCGACCCATGAGCTGAATGCTCCGATCAAGGAGATGTCGTTTACGTTAGTCATTATCTCGGTTGCCGCCCTGGTCGTATCCGCCGCTGCAGCAATTTGGTTCACGGCCCAGATCGTCCGGCCGATCCGCAGGCTCAATACGGCTGTGAAGGAAGTCGCGGCAGGCGATTTGACCAAGACCATTCAGGTTAGCGGCAAGGATGAGGTGGCCGTACTTTCGAGTGATTTTAATCAGACGGTATCGCATCTGAAGCATTTGGTCCTCGGCGTGAACGATTCCTCCCGCCAGGTCATGTCGGTTACGGAAACCGTCTCGAGCGGGGTGGATACGGCCATGGACAGCGTGGACCGAATCGGGTCCTCCATTCGCCAGATTGCCAGCGGTGCGCAAGCCCACGCCTCAAGCTCCAACGAAATCGCGACGTCCATGAGCGACATGGCCAGCGGGATCGTCAAAATCGCCGAGACGTCCTCGATGGTGTCCGAAGCCGCGCAGGAAGCTGCCAGCCAAGCGGAGACCGGATCGGTTGTCGTTGAGCAAGCCGTGAAACAGATCGGCAACATCGGCGCAGGTACGTCCAAGGTGGGCACGGCCATTGAGCGTTTGAATGAGCGTTCCTCGGAAATCGAACAAATTCTGAGCTTTATCACGGAAGTCACCTCCCGGATCCGTCTGCTGTCCCTGAACGCTTCCATCGAGGCTGCCAGAGCGGGCGAGCACGGACGCGGCTTTGCGGTCGTGGCTGAAGAAGTCAAGAAGCTGGCTGGACAGTCCGAGGTTTCGACCGATCAGATCGCGAAGCTGATTACGGAAATACGCGAGGACACGATCAACGCGGTACAGGTCATGGACGTCAGCCGTAAGGATGTACAGGACGGCATTGCGTTGATTGAAGATGTGCGCGAGAAATTCGATAACATTCTGAATGCGACCCGCAACGTGGCGGATCACATTCTGGAAGTATCGGCGGCATCCGAAGAAATGTCCGCTGGATCGGAACAGGTCAGCGCTTCGGTTGAAGAGCTGAAATCCATTGCGGATCTGACTTCCAATGACGCACAGAACGTGACGGCTGCGATGGAAGATCAGATTGCAACCATCAAGGAGATTTCAAACTCCGTTAAACAACTGGAGACGGTTGCTCAAGAGCTCAGCAAAGAGCTTGGCAAATTCAGTCTCTAG	MLKSLKQKMITMICLLLLVSLGSVFAVTYSRSSDLLQESLDKEAQLSAEKLALQIDQFLDVEIAKVESIGKFITGNKEQDLQLIQAAQEVNKEFETFFFSYDLTGKNVINFLGEVTDVSDRVHYQEAGKGEGKLVVSEPVLSKRTGNNIVTMIIPLMKDGKQYGYMGSTLPINEVQKTVSSQTFGDTGYAFLLSKSGTFMWYPQEELVLQSNVKDVDSAELTKAYEEVSQGRPGEFDYVLEGTEYSAAYAPSNLNWGVFVTAPTHELNAPIKEMSFTLVIISVAALVVSAAAAIWFTAQIVRPIRRLNTAVKEVAAGDLTKTIQVSGKDEVAVLSSDFNQTVSHLKHLVLGVNDSSRQVMSVTETVSSGVDTAMDSVDRIGSSIRQIASGAQAHASSSNEIATSMSDMASGIVKIAETSSMVSEAAQEAASQAETGSVVVEQAVKQIGNIGAGTSKVGTAIERLNERSSEIEQILSFITEVTSRIRLLSLNASIEAARAGEHGRGFAVVAEEVKKLAGQSEVSTDQIAKLITEIREDTINAVQVMDVSRKDVQDGIALIEDVREKFDNILNATRNVADHILEVSAASEEMSAGSEQVSASVEELKSIADLTSNDAQNVTAAMEDQIATIKEISNSVKQLETVAQELSKELGKFSL	PGPT0015710_8453	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_00800	861	pheC		Cyclohexadienyl dehydratase	ATGGCTAAGAATTGGAAAAAGGTATTAATAGCAGGGGTAGTCAGCTTATCATTGGTAGCAACGGGCTTTGCGGCAAACGAGGTCCTTACATCGCCGGAAGTATCGGCTAAATCCGCTTCGACCAATGCACCTGGTCAACTGAAGAAGCAAGCGGCTTCCCAGCTTGACGAAATTATCGAAAGAGGCTACATCCGGGTTGGTATGACAGGGGATTACAAACCGTTTACATATTTGAATCCTGCTACAAAAGAGTATGAAGGTTATGATGTTGACGCCATGGAAGAGCTCGGTAAAGACCTTGGCGTGGAAGTACGCTACGTCAACACGACTTGGTCCAACATGATGAAGGACTTGCAGGCTGATAAGTTCGACATCGCAGTGGGCGGCGTTACCCGCAACACGGCTAGACAAAAAACGGCTTATGTATCCCAAGGGTACATTTCCTTCGGTAAAGCTCCATTGATCCGTGCAGAAGACAAAGACAAATACCTGACGGTTGAAGATATCAATAAACCCTCGGTTCGCATCGGCGTGAATCCGGGCGGAACGAACGAAGTATTCGTGCGCGAGCACTTGACCAAAGCGAATGTGACGGTTGTTCCGAACAACCTGGATATCCCGCATTTGGTAGCAGACGGTACGTATGACGTGATGATCACCGATACAATCGAAGCGATTACGTATGCGAAGGCGGATTCCAGACTGTATGCCGCTTTGACGGACAAGCCGTTCACGAACAGCGAAAAAGGCTACATGATTCCTCGCGGCGACTTTGAATATGCAAGCTATCTGGAAATGTGGATCGACGAAATGAAGCTGCAAGGCAAGTTTGCGGACATTCATAAAAAATGGCTGGAGTAG	MAKNWKKVLIAGVVSLSLVATGFAANEVLTSPEVSAKSASTNAPGQLKKQAASQLDEIIERGYIRVGMTGDYKPFTYLNPATKEYEGYDVDAMEELGKDLGVEVRYVNTTWSNMMKDLQADKFDIAVGGVTRNTARQKTAYVSQGYISFGKAPLIRAEDKDKYLTVEDINKPSVRIGVNPGGTNEVFVREHLTKANVTVVPNNLDIPHLVADGTYDVMITDTIEAITYAKADSRLYAALTDKPFTNSEKGYMIPRGDFEYASYLEMWIDEMKLQGKFADIHKKWLE				NA	NA	NA	NA	NA
AK002_00801	1221	msmE_2	COG1653	Multiple sugar-binding protein	ATGAAGCTAGCTAAATGGATTGCGGCGTGTTTGATGACCGTAGGGATGCTGACCGCTTGCGGCGCTCAAGAGGACTCAGGACGCGTGCAGATTGAGTTTTTTCAGAACAAGCCTGAAGCGAAAGGCTCCTTTGATGCACTCATCGAGAAATTTAACGAGTCCCAATCCGAGATCAAGGTGGTTCAGGTAAATCCGCCGGATGCGGAGACGGTGCTCAAGACAAGAGTCGTCAAGAATGACATTCCCGACATTATCGGCATGGGGGCAACCGATACGTATTCATTGCTGGCCCAAAGCGGCATATTTATGGATTTGACGGATAACCCGCTGCTGAGCCGGGTGGATGAGACTTATGTCCAGATGCTGAAGGACGTAGCTGGCATGGACGAGGTTACGGGCATTCCCTATTCCACTAACGCTAACGGCGTCATGTACAATAAGGAAATTTTCAAGGAGCTGGGGCTCAGCGTTCCCAAGACCTGGGACGAGCTGCTGGCTACGGCGCAGAAGGCCAAGGATGCGGGGAAAATCCCGTTTTATTTCACATATAAAGACGATTGGCAGACAGTGCTGCCGTTTAACGCACTGGCTTCCAACCTGGAAGGCATTGAATTTTACATGCATCGGCGGGAAGGCACCGTAACGTTTGCCGAAAAATACCGGGAGATTGCGGAGAAGCAGCTCGCACTGATGGATTATGGCCATGGGGACAACTTCGGCAAAAACTACGCGGACGGGAACCGGGATTTCGCGAGGGGGGAATCCGCCATGTATATCCAGGGAACCTGGGCCATACCGGAAATCCGGAAGGCGAATCCGGATGCGCCGATCGGCTTCTTTCCGCTGCCGACCGGCGATCGTCCGGAGGAGAACAAACTGATTTCGGGCGTGGATACCTTACTGGCTATTTCCGAGGATTCGAAGCATAAAGAGGAGGCTCAGCGTTTCATTCAATTTCTGCTGGAGCCTGAGAATAGCAAGCAATATATAACGGAGCAAACGCTGTTCTCCACCGTGGAGGGCGTGAAGCAGGAGGATCCCGCCGTCGCAGAGCTGCTGCCATATCTGGAGCGGGGCCAGGTCATCGATTTTGCCGACCACTACATTCCCGCGGCGGTGCAGCTGAACTCGGTGATCCAATCCTTCCTCCAGAACCGGGATATCGACGGGTATCTGAAGAAGCTGGACACCGAATGGGACAAGGTAGCTGACAGGCGTTAA	MKLAKWIAACLMTVGMLTACGAQEDSGRVQIEFFQNKPEAKGSFDALIEKFNESQSEIKVVQVNPPDAETVLKTRVVKNDIPDIIGMGATDTYSLLAQSGIFMDLTDNPLLSRVDETYVQMLKDVAGMDEVTGIPYSTNANGVMYNKEIFKELGLSVPKTWDELLATAQKAKDAGKIPFYFTYKDDWQTVLPFNALASNLEGIEFYMHRREGTVTFAEKYREIAEKQLALMDYGHGDNFGKNYADGNRDFARGESAMYIQGTWAIPEIRKANPDAPIGFFPLPTGDRPEENKLISGVDTLLAISEDSKHKEEAQRFIQFLLEPENSKQYITEQTLFSTVEGVKQEDPAVAELLPYLERGQVIDFADHYIPAAVQLNSVIQSFLQNRDIDGYLKKLDTEWDKVADRR	PGPT0016330_2844	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_00802	867	melD_5	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAACAAGCGGCTTATGCCTTATTACTTGATGACCGTGCCGGCGGTCGTGCTGTTCTTCGTATTTCTGACGCTGCCGGCTTTGCAGGGGGTGTATTACTCCTTCACGAACTGGAACGGATTCGGCGATAACTTCGACTTCATCGGTTTCAAGAATTACGTCAATCTGTTCAAGGATGGCAACGTGGGCAATGCGTATTGGTTCACATTCAAATTCGCGGTCGTGGTCACCATCCTCATCAACATCTTCAGTCTGCTGATTGCCATGGGCCTGAACGCCAGAATCAAGGCGAGGAATTTCTTTCGGGGCATCTATTTTCTTCCGAATATTCTGAGCGTGCTGATTGTAGGTTACATATTCAACTATCTGTTCTCGAATGTGTTCACCATTTGGGGACAGAACCTGGGGATCGGGTGGTTGTCGACCAATATCCTGGGCAGTGAACAGCATGCTTGGATCGGCATCGTGGTGGTCGCGGTATGGCAGGGCATTGCCTACAACACGATTCTGTATCTTGCCGGGCTCCAGACCATTCCCGGTACGCTTTATGAGGCTTCCAATCTTGACGGAGCGAACCGGTGGCAGGAGTTCTGGAAAATAACGTTCCCGCTGATCGCGCCGTTCTTTACGATCAACATGGTGCTGGCGATGAAGAATTCACTGATGGTCTTCGATCAGATCGTAGCCCTCACCAACGGCGGCCCGGGGCGGGCAACGCAGTCCATCTCTCACCTGATATATACCGGCGGCTTCGAGGGAGGCGAGTTTGCTTACCAATCGGCTAACTCCGTGATCTACTTCATCCTGATTGCCACGATATCCATTGTGCAGATTCGGTTCCTGCAGAGAAGAGAGGGGGACATGTAA	MNKRLMPYYLMTVPAVVLFFVFLTLPALQGVYYSFTNWNGFGDNFDFIGFKNYVNLFKDGNVGNAYWFTFKFAVVVTILINIFSLLIAMGLNARIKARNFFRGIYFLPNILSVLIVGYIFNYLFSNVFTIWGQNLGIGWLSTNILGSEQHAWIGIVVVAVWQGIAYNTILYLAGLQTIPGTLYEASNLDGANRWQEFWKITFPLIAPFFTINMVLAMKNSLMVFDQIVALTNGGPGRATQSISHLIYTGGFEGGEFAYQSANSVIYFILIATISIVQIRFLQRREGDM	PGPT0016335_2311	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_00803	819	melC_5	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGCGGACGAAAACCAACTGGACGGTGATGATTCTCATCACATTGGGAACGATATTGATCCTGTTCCCGTTGTATATGACGATTACGATTGCGCTCAAAACGCCGGAGGACATGCTGGCATCGGTGTTCGGCCTGCCGAAAGACCTGCATTTCGAGAATTTCGCGAACGCCATAAAAATGACGAATTTCTTCAATGCGCTGGGCAACAGCGCCATGGTGACAACGGCCACGGTGGTGCTGACCCTGCTGACGAATTCGCTCGTCGCGTATGCCATTGCCCGCAATATGAACCGGAAGTTCTTCAAAGGCTTGTACTTCTATTTCATCAGCGCGATGTTCATTCCGTTCCCGATCATTATGCTGCCGCTGGTCAAGCTGACGGCCGGGTTCCATATGACGAATCTGGTCGGGCTCACCATCCTGCATACCGTTTATGCCTTGGCGTTTAACGTATTTGTGTACGTAGGTTATATTAAATCCATCCCGGTTGCGTTGGAGGAAGCGGCCCGAGTGGACGGCACGTCGACTTGGGGAACATTCTGGAGAATCATATTCCCGATCATGGCCCCGATCAATGCGACGGTGGGCATTCTGATCTGCCTCTCGACCTACAATGACTTCCTGCTGCCGCTCATCATTATCAGCGATACGAATTCCTACACGCTGCCATTGGTGCAGTATATATTCCAAGGGCAGTTCAACACGGACTTCAATCTGGCCTTTGCCTCCTATCTGATGGCGATGCTGCCGATGATCATCATCTATCTGTTCGCGCAAAAGTGGATCATCAACGGCATTACGCAGGGGGCTGTAAAATAA	MRTKTNWTVMILITLGTILILFPLYMTITIALKTPEDMLASVFGLPKDLHFENFANAIKMTNFFNALGNSAMVTTATVVLTLLTNSLVAYAIARNMNRKFFKGLYFYFISAMFIPFPIIMLPLVKLTAGFHMTNLVGLTILHTVYALAFNVFVYVGYIKSIPVALEEAARVDGTSTWGTFWRIIFPIMAPINATVGILICLSTYNDFLLPLIIISDTNSYTLPLVQYIFQGQFNTDFNLAFASYLMAMLPMIIIYLFAQKWIINGITQGAVK	PGPT0016340_2261	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_00804	1464	pnbA_2	COG2272	Para-nitrobenzyl esterase	ATGTCAGAACTTGTCGTACAAACGAAAGACGGGCGCATTCAAGGCCTTACGGAAAACGGAGTGCGCGTATGGAAGGGAATTCCTTATGCGAAGCCACCGGTTGGCCCGCTGCGGTTCCGTTCTCCTGTGCCCCCCGATTCATGGGACGGGATTAGAGAAACTACCGCTTTCAGTCCCATGTGCCTTCAGCCGCTTGAATCCACATCCAGCATGCTTGGCGGCGGCGTGACCAAGACGGTATCCGAGGATTGCCTATATCTCAATGTGTGGGCACCCCGGAACATGCCGGCGGAGCCGCTGCCCGTCATGGTATGGATTCACGGGGGCGCTTTTGTCACAGGCTCGGGCAGCTTGCCAAGCTATAACGGCGCGCCCTTCGTTCTCCGCGGAGACGTGATCGTGGTTACGCTCAATTACCGGCTGGGTCCCCTCGGCTTTCTCCATCTCTCTCCATACGGCGAAGCCTATTCCTCCAATACCGGTTTATTGGACCAGGTCGCTGCCCTGGAATGGGTGCGGGACAATATCGCGGCCTTCGGCGGCGATCCGGAGCGGGTTACGGTATTCGGGGAATCAGCGGGCAGCATGAGCATTGCAGCGTTACTGGCGATGCCTGCAGCCAAGGGACTGTTCCACCGGGCGATCATGGAGAGCGGCGCTGCCCAGGTCATGGTTCCGGAACAGGCACGGATGATAACGGCCGGCTTGCTTAAAGAGCTGGGCATTACGCCTGACAAAATCCATCAGCTGGATTCCCTGACAGGCGAGTCGATATTCGAAGCCGGGGAAAGGCTGAAGAAGCAGATCGGACCCGGCGTCAACATGATCTTTCAGCCGGTTCTGGATCCGGACACTTTGCCGCATGATCCGCTGCAGGCCATTCAATCGGGATGGGCCAAGGACGTGCCGATCCTGATCGGGACGAATCTCGATGAAGGGGCTTTGTTCTTCCGGCCGGACATGCCGCTTGTGAAGGAAGACGTCCTTGTCCGCACCGTGGAGATGATGACCGGCATTGAGGATGCCGCCCCCATCACCAAGGAATACCCGTACAGCATCGACGGACATGCCCAGATTATGACCGATCTGTACTTCTGGCGCTCGGCCCTGCAATTCGCTTCCGCACAGTGCAAACACGCGCCGGTATGGATGTATCGGTTCGATTGGACCTTGCCGGACCATCCGGTGCTCGGCAAAGCGATGCATGCCCTGGAAATCCCGTTTGTATTCAACACGCTGGCGCTGTTTGAGAACATCGGCGTTCAAGTCGATGCGGCCACGCAAGCCCTGTCGGACCGGATCCAGGATGCCTGGATTGCCTTTGCGCGGAACGGCTCGCCGGATACGGAGGCGCTGCCGTGGCCAGCTTATGATCCGGCTTTGCGTTCAACGATGATATTCAACAACGACAGCAGGATCATCGAGGACCCGGATGCGGAGAAGCGGAACATGCTGCAATTATAA	MSELVVQTKDGRIQGLTENGVRVWKGIPYAKPPVGPLRFRSPVPPDSWDGIRETTAFSPMCLQPLESTSSMLGGGVTKTVSEDCLYLNVWAPRNMPAEPLPVMVWIHGGAFVTGSGSLPSYNGAPFVLRGDVIVVTLNYRLGPLGFLHLSPYGEAYSSNTGLLDQVAALEWVRDNIAAFGGDPERVTVFGESAGSMSIAALLAMPAAKGLFHRAIMESGAAQVMVPEQARMITAGLLKELGITPDKIHQLDSLTGESIFEAGERLKKQIGPGVNMIFQPVLDPDTLPHDPLQAIQSGWAKDVPILIGTNLDEGALFFRPDMPLVKEDVLVRTVEMMTGIEDAAPITKEYPYSIDGHAQIMTDLYFWRSALQFASAQCKHAPVWMYRFDWTLPDHPVLGKAMHALEIPFVFNTLALFENIGVQVDAATQALSDRIQDAWIAFARNGSPDTEALPWPAYDPALRSTMIFNNDSRIIEDPDAEKRNMLQL	PGPT0030515_2305	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TANNIN_DEGRADATION	PUTATIVE-TANNIN_DEGRADATION-1,PGPT0030515-pnbA-K03929
AK002_00805	999	iolG_2	COG0673	Myo-inositol 2-dehydrogenase	ATGAACATAGCGATATTGGGCTGCGGCACGATGGGGACGGCCTATGCGCACAATTTGGCGAAAATGCCGGGAGTAACGGTGACGGGCGTGGTTGATATAAACGCCGAACGAGCGGAGCGCGTTGCCGCTTTGACCGGGGCGAAGGCATACACGGATGTAGAGTCGCTGTTTGAACAAAAAGATTTGGAAACGGTTGCGGTGTGTCTGCCCACCTATCTCCACAAACCGTTTGTGCTGAAACTGGCTGAAAAAGGGCTGCATGTCATCTGCGAAAAGCCGGCAGCATTAACGCTGGAGGATGCGCAGGAGATGAAGGCGGCCTGCGAGAAGCACGGAGTCCGGTTGTTTATCGGACATGTCGTCCGGTTCTTCCCGAACTATCACGATGCCTATCGGCAGGCCCGCTCGGGCAATATCGGAACGCCGAAGATGGCTCACTTTAAGCGGTACGGTTCCTACCCGCAGGGAATGGATGGATGGTACAACGACCCTGGCAAGAGCGGCGGCGTCATCATGGATCTGATGATTCATGACATCGATTTTGCCTGCTGGCTGTTCGGGGAAGTGGAGTCGGTTTATGCTTCGACCGTGAAGCAGGCCGAGCCGCAGATGGAGTACGCCCAGCTTACGCTTCATTTTAAAAATAGCGCCATCGCGAGTCTAACCGGATATTGGGGGTATCCCGGTCCATTTACGACGCAGTTCGAGATCTCGGGAGACCAAGGCATCGTACGATTCGACAGCAATCAGGTACAGTCCCTGGACTTGAAATTGGCTAGCGCCGAGGCCGGGGAGGGAGCTGCTGTGCAGGTTCCTTCCAGTCCGAGCCTCCATGACCCTTATTATAACGAGGTGCAGCATTTTATCGAGTGCATCCGAAACGGCAGCGAGCCGCTCGTCAGCATCAAGGATGCTTGCTACGCCGTTGAAATCGCTCAGGCAGCGGAGCAATCGGCACAAACTGGACAGCCCGTGATGATCGGAGGGACGGTTTCATGA	MNIAILGCGTMGTAYAHNLAKMPGVTVTGVVDINAERAERVAALTGAKAYTDVESLFEQKDLETVAVCLPTYLHKPFVLKLAEKGLHVICEKPAALTLEDAQEMKAACEKHGVRLFIGHVVRFFPNYHDAYRQARSGNIGTPKMAHFKRYGSYPQGMDGWYNDPGKSGGVIMDLMIHDIDFACWLFGEVESVYASTVKQAEPQMEYAQLTLHFKNSAIASLTGYWGYPGPFTTQFEISGDQGIVRFDSNQVQSLDLKLASAEAGEGAAVQVPSSPSLHDPYYNEVQHFIECIRNGSEPLVSIKDACYAVEIAQAAEQSAQTGQPVMIGGTVS				NA	NA	NA	NA	NA
AK002_00806	996	iolG_3	COG0673	Myo-inositol 2-dehydrogenase	ATGAAAAAGGTGAAAGTAGGGTTTATCAGCTTTGCCCATATGCATGCGGCAAGCTATCTCTTTGGCATGCTGAAGCGGGATGACGTCGAGGTGATCGGAATCGCGGATGAAGACGCGGAGCGCGTTCGTCCTTACTCCGTGGACCGGGGGATTCCGTATTATGCCGACTATAATGAATTGCTGGCACAAGAACTGGATGCCGTAGTCATCTGTTCGGAGAACGCGCGTCATGCGGAAATTACCAAACGCGCCGCAGCGGCGGGCAAGCACGTGCTTTGCGAGAAGCCGCTGGGCCTATCGGAAGCCGAGATGCTGGAGATGATTCAGGTATGCAAGGATAACGGCGTTCAGCTCATGACCGCTTTTCCTTGCCGATATATTTCGTCCGTGCGCCAGGCGAAGGAAGCGATTGACGCAGGGCAGATCGGCGACATTTTGGCTATGAAGGGAACCAACCGGGGAACCATGCCGGGCGGCTGGTTCATTGAACGGGAGAAATCGGGCGGCGGCGCCGTATTGGATCATACCGTCCATGTGATGGATCTGATGCACTGGTTTACCGGCAGCAAGGCCGAGGAAGTGTACGCCCATGCGGAAACGCTGTTCAACGATACCGAGATTGACGACGCCGGCATGGTCCACGTCAAATTCGCGAACGGCGTCGTGGCCGTGCTGGACCCAAGCTGGTCCCGCAACCGCACCTTCCCGACATGGGGGGACGTAACGCTTGAGATCATCGGCACCAAAGGCGTGCTGAACATTGATTCTTTTGCCCAGAAAAACGATGTATACAGCGATGTGACCGGTAAAGCGTCGTGGAGCTTCTGGGGCGATGATATGGACGAAGGCCTCGTCAACAGCTTTGTCGAAAGCATCCGCGACGGCAAGCCGGTCGAAATTACCGGGGAAGACGGCTATCTCTCCGCCCGGGTTGCCATTGCAGCGTACGAGTCCGCAAGCACCAAGCGCACCGTTCGGCTGAAGCCGCAGGGATAG	MKKVKVGFISFAHMHAASYLFGMLKRDDVEVIGIADEDAERVRPYSVDRGIPYYADYNELLAQELDAVVICSENARHAEITKRAAAAGKHVLCEKPLGLSEAEMLEMIQVCKDNGVQLMTAFPCRYISSVRQAKEAIDAGQIGDILAMKGTNRGTMPGGWFIEREKSGGGAVLDHTVHVMDLMHWFTGSKAEEVYAHAETLFNDTEIDDAGMVHVKFANGVVAVLDPSWSRNRTFPTWGDVTLEIIGTKGVLNIDSFAQKNDVYSDVTGKASWSFWGDDMDEGLVNSFVESIRDGKPVEITGEDGYLSARVAIAAYESASTKRTVRLKPQG	PGPT0018525_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018525-iolX-K16043	NA	NA
AK002_00807	111			hypothetical protein	ATGAGAACAATGGGGCTTCAAAGGATGAGCGTACCTGAATCGCAAGCAGAGGGTCTCCGCTATCTCGCTACCTCCGCTATTTCCGGCAAGACCTCCGAGAACATGCGCTGA	MRTMGLQRMSVPESQAEGLRYLATSAISGKTSENMR				NA	NA	NA	NA	NA
AK002_00808	900	rhaR_7		HTH-type transcriptional activator RhaR	TTGAGTACCCAGCGTATTATCCAAAAGAGCATCGCGTACATGGAGCAGCATCTGGAGGAGCAGCTGACCCTCGCGGATATTGCATCCTATGCCGGTTTTTCGCCGTATCATTTCCACCGCTTGTTTCGGAGGGAGGTCGGCATGAACATCGCGGATTACCTTAGAAAACGAAGGCTCTGTTATGCGGCGCAGTTCCTGCTGCACACTGAGGCTGCGATTATCGACATTTCCCTGCACTGCCACTTCGAGAGTCAGGAGTCGTTTACGAGAGCATTCAAAAAATTATACGGCATGCCGCCGGGGCGTTACCGCAAAATCTTTGCGGTTCACGCTCAACACTCAAGCTACCAAAAAGGAGAGGATCATATGCAGCAGCAAACGCAATCCGCATTAAAAGGCTGGTTCCTAAGCGGAAGCCACCCTCAAGATTATGAGATCGGCGTCGATCGGACCACCGTCCACCAAGGAAGCACCTCGGGTTACTTAAGAGCCCTTACGCCGATGGAGGATGGCGCTTTTGCAACCATGATGCAGCAGTTCAAAGCCGGCAAGTATGCGGGCAAGCGGATGCGGTTCTCCGGATTTGTCAAAACCGAAAACGTGAAGGACTATTGCGGGCTGTGGATGCGCGTCGACAATCGCGCCGAAGACGTGCTCCAGTTCGATAATATGAATGACCGGCGCATCGTAGGCAGCACGCACTGGAATCACTATACGATCGTGCTCGACGTACCCGAGGACAGCGCGACGATCTCGATCGGTGTTCTGCTGATGGGGGCAGGGAAGGTGTGGGTAGACAGCTTCCGCTTTGAAGAGGTGGATCTCAGCGTACCTACGACGAACCTCGATTTTCACTATGAGCTGCTTGAGGAGCCCGCCAATTTATCGTTTGAAGAGTGA	MSTQRIIQKSIAYMEQHLEEQLTLADIASYAGFSPYHFHRLFRREVGMNIADYLRKRRLCYAAQFLLHTEAAIIDISLHCHFESQESFTRAFKKLYGMPPGRYRKIFAVHAQHSSYQKGEDHMQQQTQSALKGWFLSGSHPQDYEIGVDRTTVHQGSTSGYLRALTPMEDGAFATMMQQFKAGKYAGKRMRFSGFVKTENVKDYCGLWMRVDNRAEDVLQFDNMNDRRIVGSTHWNHYTIVLDVPEDSATISIGVLLMGAGKVWVDSFRFEEVDLSVPTTNLDFHYELLEEPANLSFEE				NA	NA	NA	NA	NA
AK002_00809	348			hypothetical protein	ATGCAGGTGATTACACTATGCGGCTCCACCAAGTTTAAAGCGCAATTTCGAGAAGCCGAAGCTTCGCTTACGCTTAGCGGACATATCGTCCTAAGCGTTGGATTTTTTGAGCAAAGCGACGGAATCGAGATCACGGAGCAGCAGGAGCGCAGGCTCAAAGAGCTGCACTTCCGCAAAATCGATATGTCGGACGAAATCTTTGTAATCGATGTGAATGGCTATATTGGAGACAGCACTCGGACCGAGATTGAATACGCCAGCTGTCATGGTAAGAAGGTACGGTATTATTCAAAGGACCAACTGCAGCAGCCTGCTCCCCGAAGTCCCCGCATCTATGATATTCGTTGA	MQVITLCGSTKFKAQFREAEASLTLSGHIVLSVGFFEQSDGIEITEQQERRLKELHFRKIDMSDEIFVIDVNGYIGDSTRTEIEYASCHGKKVRYYSKDQLQQPAPRSPRIYDIR				NA	NA	NA	NA	NA
AK002_00810	900	murR		HTH-type transcriptional regulator MurR	ATGGGCACTAGCATTCACGGCCATAGCAATAATATTGAATCCATATGCTTTTTTTGTTATAATTCCCAAATGGCGGTGGTGGATTCAATGGATATTTATATGGTTATTCAGCAGTTATATCCGAGTTTCTCGAAGAAAGAACAGTTGGTAGCGAATTATATTCTTCAAGAAGGTCAATCAATTAATAACATGAATATATCTGTGCTGGCGAACCATGTTGGTGTCTCGAATGGGACAATCACGCATTTTTGCAAGAAGATTGGTTGCCATAATTTTGCCGAATTGAAGGTTCAGTTGGGCAGGCTTCGTACTGCGACGGCTCCTTCGGCGGAGGACAATATTCTTATACAAGTATCTAAATTCTATCAGACGGTCATTGAGCGTTCGAATCAATTACTGGACATAACATATTTGCATCGACTTGCTGAAGCGATTAAGAGCGCAGCACGAATTTACATATACGGAATCGGGAGCTCGGGACTTTCAGCGAAGGAAATGATGCTTCGCTTGCTGCGTATGGGCTTCAATGTGCAGAGTATTACGGATTCTCATTTAATGCTGATCAATAGTTCGATAGTGAATGAGAATGATTTCGTTATTGCGATTTCCAGTTCAGGGGAAACGTCTGTCATTGTCGACGCAACCAGAATTGCAAAGAATAATGGGTGCAAAGTCATCTGTCTGACCAGCTTCTCCGAAAGTACGCTGGCGCAACAAGTGGACTCTTTTATTTTGGTCTCCAATACATTGTTTGTTGATAAAGAAAGGTTTGTAAATAGTCAATTTTCCGTCATGTATGCGATCGATATTTTATGTATGATCTTACTCGAGGATGCGGATTTAAATAGTCGGATGCAAATTACAGTGAATACGATTCTTGAACACAATCGAATGGATTAA	MGTSIHGHSNNIESICFFCYNSQMAVVDSMDIYMVIQQLYPSFSKKEQLVANYILQEGQSINNMNISVLANHVGVSNGTITHFCKKIGCHNFAELKVQLGRLRTATAPSAEDNILIQVSKFYQTVIERSNQLLDITYLHRLAEAIKSAARIYIYGIGSSGLSAKEMMLRLLRMGFNVQSITDSHLMLINSSIVNENDFVIAISSSGETSVIVDATRIAKNNGCKVICLTSFSESTLAQQVDSFILVSNTLFVDKERFVNSQFSVMYAIDILCMILLEDADLNSRMQITVNTILEHNRMD				NA	NA	NA	NA	NA
AK002_00811	1491	ptsG_1	COG1263	PTS system glucose-specific EIICBA component	ATGTTTAAACAGTTGCAAAAGCTTGGTAAGTCATTTATGTTACCGATTGCAATCCTACCTGCTGCGGGTTTGCTGCTTGGGATTGGGGGAGCCTTATCGAATGCGAATACGATTGCTGCATATCCGATTCTGAATACGCGGTTTTTACAAGCTGTTTTTCAAATTATGTCGGCAGCCGGCAACGTTGTGTTTGCCAACTTAGCGCTAATCATGTGTATTGGCCTTGCCGTGGGGCTAGCGAAAAAGGATAAAGGTACTGCTGCGCTGGCGGCAGCCGTCTCGTTCCTGGTTATGAATGCATCGATTGGTGCAATGATCACGGTATTTAATCCAAGCGTTGAATCCATTGACACCGGAGTTGTAGGGGCTATTGTCATTGGTATCCTGGTTACTTATTTGAACAATCGATACCGTGGGATTCAATTACCTTCCTTTCTAGGATTTTTTGGAGGCTCACGGTTTATTCCGATCGTCTCATCTTTTAGTGCTATTTTTGTAGGCGGGATCTTCTTCTTAATCTGGCCTACGTTTCAAGGCTGGCTGGTAGCGGCAGGGACTGCTGTAGCCGGAATGGGATATTTCGGTACCTATTTATACGGATTCTTGCTTCGTCTTACAGGTGCTGTCGGTCTACACCATATGATTTATCCGATGTTCTGGTTCACAGAGCTGGGCGGTGTCGCCACGGTTGCAGGTCAGCAAGTGGTGGGTGCGCAGAAAATCTTTTTTGCCGAACTGGCTGATCCGAATCATGTTGGAATGTTCTCCGAAGGAACCCGTTTTTTTGCAGGACGTTTTGCTACGATGATGTTTGGTCTTCCTGCGGCATGTCTTGCGATGTATCATTGCGTTCCGAAGCACCGTCGCAAGCTTGTGTTTGGTTTGTTCTTTAGTGCAGCGCTGACATCGTTCCTGACAGGGATCACGGAGCCGATTGAGTTTATGTTCTTATTCGTCGCTCCCTGGTTATATGTGATTCATGCGGCTCTAGATGGTCTATCCTTTATGATCGCGGATATGTTATCCGTTCGTATCGGGAATACCTTCTCTGGCGGGGCCATCGACTTCATGCTCTTTGGGGTTCTGCAGGGGAATGCCAAAACGAATTGGATCTATGTCATTATTGTGGGGCTCTTCTGGGCTGTCATCTATTACATTGTGTTCCGCTTCTTAATTACGAAATTCAACGTGGCGACACCGGGACGTGAAAGTGATGGGGAGAGCGTATCGGTTGAAACCAAGGACAGTATTGGAGAGACCGCGATGAAAGTACTGAATGCGCTTGGTGGCAAGGAGAACCTGGAAGATGTCGATGCATGTATTACGAGACTTCGTGTTGCAGTCAAAGATGTATCGAAAGTAGATAAGGATACAATTAAAGAACTGGGTGCTACTGCAGTATTAGAAGTAAAAGGCGGGGTTCAGGCTGTATTTGGCGCAAAAGCCGACTTAATTAAACAAAAGATAAATGAGGCTATTGGAGAAGAATAA	MFKQLQKLGKSFMLPIAILPAAGLLLGIGGALSNANTIAAYPILNTRFLQAVFQIMSAAGNVVFANLALIMCIGLAVGLAKKDKGTAALAAAVSFLVMNASIGAMITVFNPSVESIDTGVVGAIVIGILVTYLNNRYRGIQLPSFLGFFGGSRFIPIVSSFSAIFVGGIFFLIWPTFQGWLVAAGTAVAGMGYFGTYLYGFLLRLTGAVGLHHMIYPMFWFTELGGVATVAGQQVVGAQKIFFAELADPNHVGMFSEGTRFFAGRFATMMFGLPAACLAMYHCVPKHRRKLVFGLFFSAALTSFLTGITEPIEFMFLFVAPWLYVIHAALDGLSFMIADMLSVRIGNTFSGGAIDFMLFGVLQGNAKTNWIYVIIVGLFWAVIYYIVFRFLITKFNVATPGRESDGESVSVETKDSIGETAMKVLNALGGKENLEDVDACITRLRVAVKDVSKVDKDTIKELGATAVLEVKGGVQAVFGAKADLIKQKINEAIGEE	PGPT0015080_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|CRP_SIGNALLING_PATHWAY,PGPT0015080-ptsG-K02779	NA	NA
AK002_00812	645	nanE		Putative N-acetylmannosamine-6-phosphate 2-epimerase	GTGAAACGAGGATTAATTGTATCATGTCAGGCTTTGCCAGGCGAACCGTTGCATAGTTCATTTATTATGGGACGTATGGCCATTGCGGCAGCCGAATCCGGTGCGGTGGGGATTCGTGCTAATAGCGTTGAAGACATCGAAGAGATTAAGAAGCAAGTTGAGCTGCCCATTATTGGCATTATCAAAAAAGAATACCCGGGTATGCAATCGTTCATTACAGCGACCATGACCGAAGTGGATGCGCTTGTTGGTACAGGGGTTGAGATTATTGCTGTGCAAGCAACGATGGATCAGGATGAGGCATTCCTGCAATCGATCTTTACAAAATATCCTTCGCAGAAGTTCATGGCGGATATCTCCACAACGGAAGAGGGGTTGCGAGCAGATCGATTGGGGTTCCACTACATTGGAACGACACTTATTGGTTATACACCGCAGTCTCAGCATGTGGAGAAGTTCACCGTGCTGGAAGAACTGATTAAGCAGTGTAAGAAACCAGTCATTGCAGAAGGCAACTTCAACACACCGGAACAGGCTGCAAAAGCGATCAAAATGGGAGCTCATTGTGTGGTTGTAGGCAGCGCCATAACAAGACCGCAAATCATCGCGAAATGGTTCTCTGATGAGGTAAACGAAGTTCTATAA	MKRGLIVSCQALPGEPLHSSFIMGRMAIAAAESGAVGIRANSVEDIEEIKKQVELPIIGIIKKEYPGMQSFITATMTEVDALVGTGVEIIAVQATMDQDEAFLQSIFTKYPSQKFMADISTTEEGLRADRLGFHYIGTTLIGYTPQSQHVEKFTVLEELIKQCKKPVIAEGNFNTPEQAAKAIKMGAHCVVVGSAITRPQIIAKWFSDEVNEVL	PGPT0018900_1071	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018900-nanE-K01788	NA	NA
AK002_00814	612			hypothetical protein	TTGGAAAACTGGATTACGGACATTATGGAGAAGTTCGGCTATGTCGGCATCCTGCTAATGATTGCCCTGGAAAACGTGTTCCCGCCGATTCCCTCCGAGGTCATTCTGACCTTCGGCGGATTCATGACAACCTACACGAAACTGACGGTGCCCGGCGTCATTATCGCAGCTACCATCGGCTCCGTGGTCGGTGCCGTCATCCTGTACGGGATCGGACGCCTGCTCGATGTCGAACGGCTTGAGAAAATCGTGGATCGTTGGGGGCATATCCTCCGCGTCAAAAAAGAAGACATCCGCAAAGCGGATGCCTGGTTCGATAAATACGGCTACTGGACCGTGCTGTTCTGCCGCATGATTCCGCTGATCCGGAGCCTGATCTCCATCCCGGCGGGGATGTCCAACATGAAGTTCGGCATGTTCCTGCTCTTTACGACCATCGGTACCTTGATCTGGAACGTCATTCTGGTATCCGTGGGGGCCGCCGTCGGCGATTCATGGGAGAATATCGTCGCCTTCATGGACGTCTATTCCAATATCGCTTATGCTGTAATAGCCGTGGCCGTGATCGCATTCCTGTTCTTCTTCTTCCGCAAGCGTAGAAAATCGGCTTAA	MENWITDIMEKFGYVGILLMIALENVFPPIPSEVILTFGGFMTTYTKLTVPGVIIAATIGSVVGAVILYGIGRLLDVERLEKIVDRWGHILRVKKEDIRKADAWFDKYGYWTVLFCRMIPLIRSLISIPAGMSNMKFGMFLLFTTIGTLIWNVILVSVGAAVGDSWENIVAFMDVYSNIAYAVIAVAVIAFLFFFFRKRRKSA	PGPT0002570_3590	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
AK002_00815	1950	yxdM_1		ABC transporter permease protein YxdM	ATGACCTTTCGACAATTCGCTTTTAGGAATGTCCTGAGGAATAAGCGGACCTACGCGGCCTATTTCTTAAGCAGCGCATTCTCCGTCATGATTTTCTTTGTGTGCGCGCTGTTCCTGTTTCACCCTTCCATCACGGACGAGATGTTCTATCCGGTCGTGACCCAGGCGATGGTTGGCGCAGAGCTGATTATGTACGTATTCTCGTTTTTCTTCGTGCTGTATTCCGTCGGGGCTTTCTTGAAGACCCGCAAGCGCGAGTTCGGCATTCTGTTCATGCACGGCATGACGGACCGCCAGTTTAACAAAATGGTGTTTCTTGAAAATATGATCATCGGCGTAAGCGCGATCGCCACGGGCATTCTGTTCGGCATCATTACAGGCAAGCTGTTCCTGATGGCAGGCTCGGCCTTTCTCGGAGTCCCGCCCCTGCCGTTTCGGCTGAGTCTGCGCGCGCTGGGTCTGACGATCGCGAGTTACGCGCTGCTGTTCCTCATCATCTCGCTGTGCACGTCCTGGCTGCTGCGGCCCAAAGCGCTCATCGACTTGTTCCAGTCCGGACAGCGGCCAAAAACCGCACCCAGAACATCGCCGTGGTTATCCATATTGGCGGCTGTCCTGCTGCTTGTCAGCTACGGTCTGGCAGCCACGACAAGCGCATCGACCCTCGCGCTGCGCATGTTCCCGGTTACCTTGATGACGATGATCGGCACGTATCTGATTTATTCGCAGTTAGGGGTTGCTCTCGTCCGCAGGCTGAAAGAAAGCCGCCGGTTCACCTGGAGAAGAACCAAGCTGATCTCGCTATCCAGCCTGCAGTACCGGTTGAAGGATCATGCCCAGATGTTCTCGATGGTAACGATCGTGCTGGCCGTGTCTTTTTGCTCGGTAGGCGTATTCGCCTCCATTCCGGTGCTCACGAAGCAGTTCAACGAGGACTTCCCGGCCGCCATCGGTTATCTCGCCAAAACGGGAGACACCTCCGAAGAGCAGCATTTGAACGAAATCCGGCAGGAGCTGGAGTCGAGGAAAATACCGTTTGAAACGCTATCGTTTCGCGTTAAATATACGGATGCCGAACCGGCATCCACACAGGCCGGTCCATCGGAGATTCCGTTGACGCTGATCGCGTTCTCCGACTATAAGGCGGCTGTCGTGATGGCGGGACTGCCGTTTGACGAACAGCCGCCGAGCGGCGAGGAGGCCCTTGTCCTCATTGCTTCGCAAAACGACAGAGCTTATACCCGCAACCGGGATTACGCTTCTTACCGGCTCCGGGATTCCGGCATCCGGCTGCGTGAAATCGGTTATTCCGATCATGTCGGCGTGCCGGAATACTTGCTGCCGGAGATGGATGACGATTCCCGTTTCGGCGGTCTTGTCGTCAGCGACGACATCTTTGCCGCAGTCACGGATCCGGTCCGGCAGGAACGGTACACCGGCTTCTACGTGGACGATTTTACGGAGACGGAGGGGATCGTTCCCCATTTGGCTCCGGGCGGCGCCGTGCGCTATGAGATGGACCGGACCTTTGCGCTGGCGGTCAGCGGTACGCTGTTTGCCCTTCGGGACAGCCTGTACAACATGCTGCTCTTCGCGGCATTGCTTGTGGGCACGGTGTTCTTTATCGCGGCAGGAAGTTTCCTGTACTTCCGCCTCTATGCCGATCTGGATTTTGACCGCAGGCATTATGCCACGATATCCCGGCTGGGCATGACGGACAGGGAGTTCAGGCGGATCGTTACCGGACAGCTGGCGCTGCTGTTTTTTGTACCGATCGGACTTGCGATCGTGCACAGCATCTTTGCTTTCATCGCGCTGCAAAGCTATTTCTATTTATCCATTGCGGCTGAAATGGGCATCGTGCTGATCAGCTTCCTGATGATGCAGGTCCTGTACTTTTTCTTCATCCGCAGCCAATACCTGCGCAAGCTGAAGCAGACCCTTATATAA	MTFRQFAFRNVLRNKRTYAAYFLSSAFSVMIFFVCALFLFHPSITDEMFYPVVTQAMVGAELIMYVFSFFFVLYSVGAFLKTRKREFGILFMHGMTDRQFNKMVFLENMIIGVSAIATGILFGIITGKLFLMAGSAFLGVPPLPFRLSLRALGLTIASYALLFLIISLCTSWLLRPKALIDLFQSGQRPKTAPRTSPWLSILAAVLLLVSYGLAATTSASTLALRMFPVTLMTMIGTYLIYSQLGVALVRRLKESRRFTWRRTKLISLSSLQYRLKDHAQMFSMVTIVLAVSFCSVGVFASIPVLTKQFNEDFPAAIGYLAKTGDTSEEQHLNEIRQELESRKIPFETLSFRVKYTDAEPASTQAGPSEIPLTLIAFSDYKAAVVMAGLPFDEQPPSGEEALVLIASQNDRAYTRNRDYASYRLRDSGIRLREIGYSDHVGVPEYLLPEMDDDSRFGGLVVSDDIFAAVTDPVRQERYTGFYVDDFTETEGIVPHLAPGGAVRYEMDRTFALAVSGTLFALRDSLYNMLLFAALLVGTVFFIAAGSFLYFRLYADLDFDRRHYATISRLGMTDREFRRIVTGQLALLFFVPIGLAIVHSIFAFIALQSYFYLSIAAEMGIVLISFLMMQVLYFFFIRSQYLRKLKQTLI	PGPT0027860_131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027860-yxdL-K11636	NA	NA
AK002_00816	771	yxdL_1	COG1136	ABC transporter ATP-binding protein YxdL	ATGCCCATCCTGAGCGTCAAGCATCTATCCAAAATCTATGAGGGCAAAGTGGCGTTCCAAGCGCTGAACAATATTCACTTCAACGTCGCCAAAGGCGAATTCGTCGGTATTATGGGACCTTCCGGCAGCGGAAAAACGACGCTCCTCAATCTGATTGCGACCATTGATCAGCCCACGGCCGGGGAAGTGATCATAGGCGGACGCAATCCCCATCTGCTCGGCAGGAGCGATACCGCTCTGTTTCGGCGCAGGGAGCTGGGCTTCGTCTTCCAGCATTTCAATCTGCTGGATACGCTGACCGTTGAGGAAAACATCGTCCTGCCGCTGACGCTGGAGGGCATGCCGCTGGACGAAATGGGCATCCGGCTGAACCGGATCGCAGACCGGCTAGGGATCGGGTCCATTCTGCACAAGCACACCTATGAGATTTCCGGCGGGCAGATGCAGCGCACCGCCATCGCGAGGGCGCTCATTCAGGAGCCCTCCCTGATTTTGGCTGACGAGCCGACGGGGAACCTGGACTCCAGAGCCTCCAAAGAAGTGATGCAGACCCTTTCGGCTTCAAGCAAAGAAGCTTCCGCAACGATTCTCATGGTCACTCACGATCCGGTGGCAGCCAGCTACTGTGACCGCGTCTTGTTCATCAAGGACGGTCAACTATATAATGAAATGTATTGCGGTGACAACCGCCAAGCCTTTTTCCAGAAAATCATCGACATGCTGGCGCTGCTGGGAGGAGGAAGTCATGACCTTTCGACAATTCGCTTTTAG	MPILSVKHLSKIYEGKVAFQALNNIHFNVAKGEFVGIMGPSGSGKTTLLNLIATIDQPTAGEVIIGGRNPHLLGRSDTALFRRRELGFVFQHFNLLDTLTVEENIVLPLTLEGMPLDEMGIRLNRIADRLGIGSILHKHTYEISGGQMQRTAIARALIQEPSLILADEPTGNLDSRASKEVMQTLSASSKEASATILMVTHDPVAASYCDRVLFIKDGQLYNEMYCGDNRQAFFQKIIDMLALLGGGSHDLSTIRF	PGPT0013345_2533	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_00817	1008	graS_1		Sensor histidine kinase GraS	ATGAAACTATTTCTGCAAGAACAGCGTCCCTTAATGATTGTCTACATCGCCCAGCTTCTTGTCGTTACCCTGATCTATAGGCTGGACGGTTATCGCAATTTGACGGTCAGCCTGTACGCGGGCATCATCAGCTTGCTGCTGCTCGTCGGCTATCTCGCCTTCCGTTTCATTGCCAACCGTTCCTTCTATAAACGGTTGGAGCAGCCGCTCCCGGGAGAATCCCTCACAGGCGAATCCTCGGCAGAATCCTCCCACACCCCGCTCGCCGAAGCGCTTCATCAGCTGCTGAAAACCCAGTTCCGGCATTACACCACGGATCTGCATAACTATAAGCATAAAATTGAAGGCCATCTGCAGTTCATCAACCAATGGGCCCACCAGATGAAAACGCCGATTTCGGTCATTCACCTGATTCTTCAGGATGATGACGACCCCCGGTTTGCCGCGATCGGCGACGAGCTGGACCGGCTCAAAAAAGGGCTCGATCTCGTGCTGTATACCGCCAGGCTCGATACGTTCGAGCGCGATTTCCATGTGGAAAACCTGCCGCTTCAGCGAATCGTCCGAAATGTCACGTCCGAGCAAAAGCGGCTGTTTATCCGGCGGAGATTGTACCCGTCCATCCGGATCGATTCCGGATTAACGGTGGCCACGGACGAGAAATGGCTCTCTTTTGTATTGACGCAGCTGCTGACCAACGCGGTTCGATATACGCTGAAGGAACAAGGCACCCTCTTTTTCAACGGCTACACCCGGGAGAATCAAGTCGTGCTTGAGATAAGGGACGAAGGCATCGGCATTCCCCAAAGCGACCTCCCGCGGGTGTTCGATCCCTATTTCACCGGAGAGAACGGGCGCCGATTCCAGGAATCGACAGGCATGGGCCTGTTTCTGGTCAAACAAATATGCGATAAGCTTGGACATGCCTTCGAAATCGAATCCAAGGTCGAGGAAGGGACGACGGTCCGCATCATTTTTGCGGATGCTGCGGGCCATATCGCACAATGA	MKLFLQEQRPLMIVYIAQLLVVTLIYRLDGYRNLTVSLYAGIISLLLLVGYLAFRFIANRSFYKRLEQPLPGESLTGESSAESSHTPLAEALHQLLKTQFRHYTTDLHNYKHKIEGHLQFINQWAHQMKTPISVIHLILQDDDDPRFAAIGDELDRLKKGLDLVLYTARLDTFERDFHVENLPLQRIVRNVTSEQKRLFIRRRLYPSIRIDSGLTVATDEKWLSFVLTQLLTNAVRYTLKEQGTLFFNGYTRENQVVLEIRDEGIGIPQSDLPRVFDPYFTGENGRRFQESTGMGLFLVKQICDKLGHAFEIESKVEEGTTVRIIFADAAGHIAQ	PGPT0027855_80	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027855-yxdK-K11633	NA	NA
AK002_00818	702	graR_1	COG0745	Response regulator protein GraR	ATGTTCAAAATTTTCATTGTCGAAGACGATGCCGGGCTGGTCGGCCTGCTGAAAGAATATCTTCATAAATTCGGTTATGCGACGCAGTCCGTTCATGATTTCGAGACGGTGCGCGATCAATTTGAATCGTATGACCCTCATCTTGTGCTTCTGGATATCAATCTGCCTAAATTCGACGGCTATTATTGGTGCCGGCAGTTCCGCAGCCTCTCCACCTGCCCGATCATCTTCATCTCCGCCCGCGACGGGAAAATGGATCAGGTGATGGCGCTGGAGAACGGTGCCGACGATTATATAACCAAACCCTTTGACTACGAGATCGTCATGGCCAAAATCAAGAGCCAGCTCCGGCGGGCCTACGGGTCCTATGCTGCCGGTCAGAATGAGCGGGTCCTCAGCATCGCCGGACTCACGCTTGACGTTGAGCGTCTCTCCGTTTCGCTCGGACCGACCCAAGCGGAGCTCAGCCATACCGAAGCCAAAATATTGGACGAATTAATGAAGAAGCCCGAGCAGATCGTCAGCAGGGACCGGCTCCTGGAGAAAATATGGGATGATCAGGCCTTTGTGGACGATAATACGCTGAATGTGTACATCACCCGCGTCCGCAAGAAACTCGCCGCCCTCGGAATCGAGGATGGCCTTCAAACCGTGCGCGGGCGCGGCTACCGACTGGTACCGAGCTGGAGGGACGAACCATGA	MFKIFIVEDDAGLVGLLKEYLHKFGYATQSVHDFETVRDQFESYDPHLVLLDINLPKFDGYYWCRQFRSLSTCPIIFISARDGKMDQVMALENGADDYITKPFDYEIVMAKIKSQLRRAYGSYAAGQNERVLSIAGLTLDVERLSVSLGPTQAELSHTEAKILDELMKKPEQIVSRDRLLEKIWDDQAFVDDNTLNVYITRVRKKLAALGIEDGLQTVRGRGYRLVPSWRDEP	PGPT0027850_111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027850-yxdJ-K11634	NA	NA
AK002_00819	1917			hypothetical protein	ATGTCTCGCTTTGTTAAGCGATCCCTCCGAAAATTAATCTTGACGCTTGTGCCATCAGCTGATAATATACTTGATAATTCCAATCGAATAACTATGATAAATGAATTTGAATCGACCAGTCTGCTGGAGATCATGAGCATCCTTCATGATCTCCTTTTTGTCGTATGGACCTCAATTTTACTATCAACCAAGGAGCGGGGGGATCAACGATTGCGTGCACAGGATGAATTGAAACTGACGGCGGATGTCCTCGTCATTGGCGGCGGTCCTGCAGGGGCTTGGGCAGCCTGGAGCGCGGCGTCCCAAGGTGCCAAGGTCGTACTGGCCGACAAAGGGTTTCTGGGCTCCAGCGGGGCAACGGCACCCGGAGGAACCAATCTGCTATATTTGCCTCCTGACGATAAGCTGCGCGATGAAGCCGTGGCCCAGCGGATGAAGGAGGGCGGTTATTTATCGGAACCGGATTGGATCCATCGCGTGCTGGATCAGGTATACATCAATCTGGAACGCGTGGAGGCATGGGGATACCCGTTTCGCCGCGATGAGAACGGGGTCCCCATGCGAGACCATTTGCAGGGCCCGGAATATATGAAGCTGATGCGAAGCGCGGTCAGCCGTGCGGGCGTACGGATCATGGATCAGTCCCCGGCGCTCGAGCTGCTTGCCGACGAGCATGGGGTCGGAGGAGCACGAGGCATATGCAGGCAGAAGAACAAGGATTGGGAGGTACGGGCAAAGTCGATTGTCATAGCTACCGGCGGCTGCGCCTTTCTGAGCAAGGGCCTTGGCTGCAACGTGCTTACAGGCGAAGGACTGCTCATGGCGGCGGAGCTTGGCGCCGAGCTATCCGGCATGGAATTCAGCCGCCAATATGCGCCGAGCGCGGCGTTTGGCACGGTGACCCGGGGGCGGCTTCTCAACTGGGCGACGTATTATGACGAAGACGGGAATACGCTGTACAGCCCCGGAGGGCCCAGGCCGCATGATTTTCTGCCGACGATGCTCCGCAAAGGACCGGTATACGCCATGCTGAATCATGCCGACACGGAAGAGAAACGGCGCATATTAAGGCAATCGCACGCCATCTTCTTTGTTCCGTATGATCGGGCGGGAATCGATCCGTTCAAGGAGCGTTTTCCCTTGACCCTCCGCTATGAAGGGACGGTCCGCGGAACCGGAGGCATCCGGATCACCGGCGAAGATTGCGCGACGACGGTACCGGGTCTGTACGCCGCCGGCGATGCTGCAACCCGGGAGCGGGTGACCGGTGCCAAGTCGGGCGGAGGGGCTTTTAATGCCTCTTGGGCGATTTGCTCGGGAACGTGGGCTGGCGAATCGGCGGCGAAGCATGCGCTGAGTACGCGTTCTTCCGCGGATAGCCGTCGCCTGCAAGGTGCGGGGCGGGCCGGAATGTCCCATCCATCCGCAGCACATGGGCAGGGAATGGATGCATCCAACCTGATTCAATCGGTACAGCGGGAGGTGTTTCCGCTGGATATCAATTATTTTCGCAGCGAACCGGTCCTGCAGCAATCGCTCGAACGGCTGAACGGGCTATGGCCGGAAGTGTACGCGAAGATAACCGGGGGTTCGCGCGAGCGGATCAAGGCAAGGGAAGCGGCGGCCATGGCGGCAACGGCAAGATGGATGTATGCGGCTGCGCTGACCCGGCGGGAAACCAGAGGGATGCATACCCTTCTGGAATACCCGGATCCGAATCCGGACCAGCAGCATCGTCTGACCGTGAGCGGGATCGATCATATCCAGGTATATCCTGAGGGGCGGCCGCCCCGGCAGGCAGGCCGAGGTACCATGGACGCTTGCCGACACTATGGCGGTTCAGGCAATAGGAGCAGTGAAGCCGTGGAGGCTGCTGCCTGGATCGCGGCAGCGGCCGGGGAGGTGGAAGGCTCATGA	MSRFVKRSLRKLILTLVPSADNILDNSNRITMINEFESTSLLEIMSILHDLLFVVWTSILLSTKERGDQRLRAQDELKLTADVLVIGGGPAGAWAAWSAASQGAKVVLADKGFLGSSGATAPGGTNLLYLPPDDKLRDEAVAQRMKEGGYLSEPDWIHRVLDQVYINLERVEAWGYPFRRDENGVPMRDHLQGPEYMKLMRSAVSRAGVRIMDQSPALELLADEHGVGGARGICRQKNKDWEVRAKSIVIATGGCAFLSKGLGCNVLTGEGLLMAAELGAELSGMEFSRQYAPSAAFGTVTRGRLLNWATYYDEDGNTLYSPGGPRPHDFLPTMLRKGPVYAMLNHADTEEKRRILRQSHAIFFVPYDRAGIDPFKERFPLTLRYEGTVRGTGGIRITGEDCATTVPGLYAAGDAATRERVTGAKSGGGAFNASWAICSGTWAGESAAKHALSTRSSADSRRLQGAGRAGMSHPSAAHGQGMDASNLIQSVQREVFPLDINYFRSEPVLQQSLERLNGLWPEVYAKITGGSRERIKAREAAAMAATARWMYAAALTRRETRGMHTLLEYPDPNPDQQHRLTVSGIDHIQVYPEGRPPRQAGRGTMDACRHYGGSGNRSSEAVEAAAWIAAAAGEVEGS	PGPT0013355_900	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
AK002_00820	339	cutD_1		Choline trimethylamine-lyase activating enzyme	ATGATCGAGGTTGTCAGTCAGCAGCGGTGCATCGAGTGCGGCCTGTGCGTCAAGGTCTGTCCGACCAATGTATTCGACCGGACGGAGACGGGGCTTCCGGTCATTGCCCGTCAGGAGGATTGCCAGACCTGCTTTATATGCGAGGCTTATTGTCCTGCCGATGCTCTGTATGTTTCTCCCTTTGCGGATATGGAGCAGAAGGTGACGGAAGAAGAGCTGATCGCGGTAGGGATCATGGGAAGCTGGAGGGAGACGGTCGGCTGGGGACGCGGGCGGACCCGGCTTGCAGAGATCGACGAGACCCCGTTTATCGATCGGATTCTCCCCCGGCGAGGTTAA	MIEVVSQQRCIECGLCVKVCPTNVFDRTETGLPVIARQEDCQTCFICEAYCPADALYVSPFADMEQKVTEEELIAVGIMGSWRETVGWGRGRTRLAEIDETPFIDRILPRRG	PGPT0030810_682	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
AK002_00821	897	ssuC_1	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGTGACCATGCAGGATTGTACCGGCAGGACCCTCCGGCTCCGGTCCACGGCAGCGAGTCGCTGGTACTGGAGCCCGCCGCCAAGCAGCGGCAGAGGGTCTCCCCCGGCGAATCAGGTGCCGGGATATGGAGGAAGTCGCTGGGCACCTTGGCTGCAGGCGCGGTTCTTCCCGTATCGCTGCTGGTTTTATGGCAGGTGCTCGGCGACCTTGGTTACATCTCGGAGCTGCTCTTCCCGACGCCGCTTCGCATTGCGGAGGCTTTTGCCCACTTGGCGGGCTCGGGTGACCTTGGCGGTCATGTCCGGATCAGTTTGGTTCGTGCCGCAGCGGGTTTCGCCCTTGGAGGGGCTCTCGGCCTAGCCTTCGGTATTCTGGTCGGGGTATTCCGCATATCCGAGCGTGTGCTCGATCCATCCATCCAGATGGTCCGCATGATCCCGCATTTAGCGGTTGCGCCGCTGTTCGTGCTTTGGTTCGGAATCGGGGAGTCGTCCAAAATACTGCTGATCGCCAAAGGGGCTTTCTTTCCGCTCTATATCCAAACCTATCTGGGCATCCGCGGCGTGGATAACAAATGGTTCGAAGTAACAAGGGTTCTGGGTTTCACGCGTATCCAGCAAATCTTCAGGCTGGTCATTCCGTCCTCCCTGCCGCATATCTTCCTCGGGATCCGGCTGTCCCTCGGGCTGGCCTGGCTCGGGCTGGTCGTTGCCGAGATCATGGGCTCCACGTCCGGCATCGGCTATTTGATGACGGATGCCAGACAGTTCAGCAAAACCGCAACCGTGTTCGTGTGCATCGTCCTGTTTGCCGTCATCGGCAAAGCAGCAGACGCCGCGGTTAGGCTGGTGGAGCGCAGGCTGCTGAAATGGAACGACAGCTATGAGGGCTAA	MSDHAGLYRQDPPAPVHGSESLVLEPAAKQRQRVSPGESGAGIWRKSLGTLAAGAVLPVSLLVLWQVLGDLGYISELLFPTPLRIAEAFAHLAGSGDLGGHVRISLVRAAAGFALGGALGLAFGILVGVFRISERVLDPSIQMVRMIPHLAVAPLFVLWFGIGESSKILLIAKGAFFPLYIQTYLGIRGVDNKWFEVTRVLGFTRIQQIFRLVIPSSLPHIFLGIRLSLGLAWLGLVVAEIMGSTSGIGYLMTDARQFSKTATVFVCIVLFAVIGKAADAAVRLVERRLLKWNDSYEG	PGPT0003030_200	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
AK002_00822	864	ssuC_2	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAAAAACGTGAACGAACTTGCGCTGCCTGCGGCGGGGCAGTCACCCGCTGTATCGCAGCCGCCCAATCCTGCTGCCGCGCGCTCCAATCGCCGGCGTGCAGCCTTCCTACGGGCCATTGCGCTCGGATCGGCCCTTCCGGTTCTGGTGCTGGCCATATGGCAGCTGGCAGGCAATCTTGGCTGGATCGATGCATTCTTCCTGCCGACGCCGGCGGCGATTTTCGAATCCCTCTGGAATCTGATTGCCTCAGGCAAGATGGCGACCCATCTGGGCATAAGCATCGGCCGCGCCGCTGCGGGCTTCGCTCTGGGAGGCAGCCTGGGCTTGATATTCGGCTTGCTGACGGGCTTCTCGCGCAAGTCGGAAATATTCCTGGATCCGACGGTGCAGATGCTGCGGATGATCCCGCATTTGGCGATCGCCCCGCTTATTATTTTGTGGTTCGGATTCGGAGAAACGTCGAAGGTGCTGATCATTGCGAAGGGAGCTTTTTTTCCGCTGTACGTCAATACGTTTCTCGGCATCCGGAGCGTCGACAAAAAGCTGTTCGAGGTATCCAGGGTGCTGCAGTACAGCCGGGTTCAGCAGATGATCAAGCTGATCATCCCGTCTTCGCTGCCTAACCTGTTAATGGGACTCCGCTTATCGCTGGCGGTATCCTGGCTCGGGCTCGTCGTTGCGGAGCTGATCGGTTCGCAGTCGGGGGTCGGGTTTCTCATCAATCTTGCCAAGCAATCCTCGTTAACGGAGCAAATTTTTGTGGGTGTATTGGTTTTTGCCGTCGTCGGCATGATGGTGGATCTGTTCGTCCGCTCTCTGGAGCGCCGCTTGCTGAAGTGGCGGGATAGCTACAAGGGATGA	MKNVNELALPAAGQSPAVSQPPNPAAARSNRRRAAFLRAIALGSALPVLVLAIWQLAGNLGWIDAFFLPTPAAIFESLWNLIASGKMATHLGISIGRAAAGFALGGSLGLIFGLLTGFSRKSEIFLDPTVQMLRMIPHLAIAPLIILWFGFGETSKVLIIAKGAFFPLYVNTFLGIRSVDKKLFEVSRVLQYSRVQQMIKLIIPSSLPNLLMGLRLSLAVSWLGLVVAELIGSQSGVGFLINLAKQSSLTEQIFVGVLVFAVVGMMVDLFVRSLERRLLKWRDSYKG	PGPT0003030_454	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
AK002_00823	1620			hypothetical protein	ATGAGTTCACGTATTCAAGGCAGCACGCTTCGGTTGGAAGCGGATGTGCTGGTCATTGGCGGTGGCCCGGCCGGAGCCTGGGCGGCTTTAACGGCTGCGGCGAAAGGCAGCAAAGTCGTGCTGGCGGATAAAGGGTTCTGCGGATCAAGCGGGGCAACGGCGCCGTCGGGCACAGGCGTATGGTACGTGGAGCCTGAAGGGCGGCAGCGCCAGGAAGCGAAGATGAGCCGGTATTTTATGGGCGGACGCTTAGCCGAGAATGAGTGGATGGATCGGGTCCTGGATCAAACCTACGAGAATATGAACCGCCTGGGCGGCTGGGGGTATTCGTTCCCGGTCGACCCGGATGGCGGCATATTCCGGCGCGGCTTGCAGGGACCGGAGTATATGCGTCTCATGCGCAAGCTGGTGAAAAGAGCCGGCGTCAAAATACTCGACCACAGCCCTGCGCTGGAACTTCTGGCGGATAAACACGGAGTGGGGGGCGCCGCTGGCGTAAGCACGCAGGGCGGCGATCCCTGGAGAGTCACGGCGGGTGCCGTTGTTATCGCAACCGGCGGCTGCGCCTTCCTGAGCAAAGCGCTGGGATGCAATGTGTTGACCGGTGACGGCTATCTGATGGCAGCCGAGGCCGGGGCCGAAATGTCGGGCATGGAGTTCTCCAACGCCTACGCCATATCGCCAACGTTCTCCTCGGTGACCAAAACGGCGTATTACCGTTATGCAAGCTTTTACTACGAGGACGGCACGGTGGTAGAGGGGGCGGGCTCGACCAAGGGACGTTCCGTCATTGCCAAAAAACTGCTGGAGAACCGTCAGGTATATGCCCGATTGGATCAGGCACCCGCCGATCTGCAGCCGCTGCTCCGGGTGGGGCAGACGAATTTTTTCCTGCCGTTTGACCGCATGGGCATCGACCCGTTCAAGGATATGTTCCCGGTCACGCTTCGGCTCGAAGGGACGGTGCGCGGGACCGGGGGCATTCATATCGTGAACGAAACGTGCGCCACGAAGGTCCCCGGCTTGTATGCCGCGGGAGACGCCGCAACGCGGGAGCTGATCTGCGGGGGATTTACCGGAGGCGGCAGCCACAATGCCGCCTGGGCGATGTCTTCCGGCAGCTTTGCGGGCGAAGGCGCGGCGGACTATGCCCAATCGCTGGGACGGCATGCCGCTAGACGCGAGGTGCACGGATTGTCTTCGGCTCCGATCGTATCTTCCGGTACCTTCGGCTCGCTGCAGGAAAAGCCGCCCATTGCCGCGGAGGAATACATTCGGGCGGTGCAGGAAGAGGTCATGCCTTATGACCGGAACCTGTTCCGTACGGATGAGGGACTTCGGAATTCGTTGCAACGGCTCGACGGCGTATGGAAATCGATCCGGCAGGAACCCATCCATCTTGATTATCAGGCGGTGAAGAAACGCGAGGCAGCGGCCATGGCTGCAACGGCCCGCTGGATGTACCGCTCGGCGCAGGCCAGGACGGAAACGCGGGGAATGCATAAGCGGGTTGATTATCCGGAGTTGGACGAGACGCAGCATTACCGCCTGATTACATCCGGGTTGGATGAAATCAGCGTCCGGGGGCAGAGCGTGAGCGAGGAGGCGGTTTCCCTTTGA	MSSRIQGSTLRLEADVLVIGGGPAGAWAALTAAAKGSKVVLADKGFCGSSGATAPSGTGVWYVEPEGRQRQEAKMSRYFMGGRLAENEWMDRVLDQTYENMNRLGGWGYSFPVDPDGGIFRRGLQGPEYMRLMRKLVKRAGVKILDHSPALELLADKHGVGGAAGVSTQGGDPWRVTAGAVVIATGGCAFLSKALGCNVLTGDGYLMAAEAGAEMSGMEFSNAYAISPTFSSVTKTAYYRYASFYYEDGTVVEGAGSTKGRSVIAKKLLENRQVYARLDQAPADLQPLLRVGQTNFFLPFDRMGIDPFKDMFPVTLRLEGTVRGTGGIHIVNETCATKVPGLYAAGDAATRELICGGFTGGGSHNAAWAMSSGSFAGEGAADYAQSLGRHAARREVHGLSSAPIVSSGTFGSLQEKPPIAAEEYIRAVQEEVMPYDRNLFRTDEGLRNSLQRLDGVWKSIRQEPIHLDYQAVKKREAAAMAATARWMYRSAQARTETRGMHKRVDYPELDETQHYRLITSGLDEISVRGQSVSEEAVSL	PGPT0013355_2784	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
AK002_00824	333	cutD_2		Choline trimethylamine-lyase activating enzyme	TTGATTGAGCTGATCAGCGATGCCAGATGCGTGCAGTGCAATCTGTGCGTCTCCGTATGTCCTACCAACGTATTTGATAAAGTCGATAACGATGTGCCTGTCATTGCGCGCCAGAACGATTGCCAAACCTGTTTCATGTGTGAGCTCTATTGTCCGGCGGACGCGATGTACGTCGCTCCTCATCCCGACCGGCTCAGCGGGCTAAGCGAGGCGGAGCTGGAGCAGGCCGAGCTGTTGGGGGGCTACCGCGAGAAGGTGGGATGGGGACCCGGCCGAACGTCCATATCCAGCCATGCGTTTCTGGCTCAGCTCGCGAAGCGTTCGGTCCCTTAA	MIELISDARCVQCNLCVSVCPTNVFDKVDNDVPVIARQNDCQTCFMCELYCPADAMYVAPHPDRLSGLSEAELEQAELLGGYREKVGWGPGRTSISSHAFLAQLAKRSVP	PGPT0030810_682	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
AK002_00825	1014	ssuA_1	COG0715	Putative aliphatic sulfonates-binding protein	ATGGAGAATCGAAACGTTAAAAAACACAAGCGAAAGCGATACGCGATTTTATTGACGCTGGTGGCGGCGGCGCTTGCTTTTTCGCAGGGCTGCGGGACCAAAGATCAAATAACGGAGGCATCAAGCTCCGGCGTGCCGAAGACGCTCAATTACGGATATATAGGAACCAATGCCCTGAATGTGCCTGGAGGCGCCGAGGGCTGGGGGTTCCATAAGGGCATTATTCAGGAAGAGCTCAAGAAGCACGGGATTGAAACGGTAAACCTGACCGCCTTTCCGAACGGTCCGGATTTGAGCGAATCGCTGATCAGCGGCCGCCTGGACTTTGGCAGCTTGGGCGATACGCCGGCCATCCTGTCACGCTCAACGGGAGCGAAGACCAAGGTGATTACCCAAGGCTCGACCGACAGCATCGGGTACCTCGTGGCGAAGAAGGGAGGCCCGGCTTCCCTGGAAGAGTTAAAGGGAAAAACGGTAGCCACTCAAAAAGGCTCCTTCCACCACCGATACTTGGCCGGTCTTTTGAAGAAAGAGGGGCTGGCTGAGGATGTGAAGGTCATCCACCTGCTTCGCGTGGATGCGGAGGCTGCCCTGGCCCGCGGGGAAATCGACGCGATGACCAATACCGGCGTCTATACGCTCAAACAAATCGATGAAGGCTATACGCTGCTGGACGATGCCACCAAGCATCCCGAGCTGTATGGAACCAGCATAACCGTGGTGTCGGAGGATTATCTGGCGAAATATCCGGATTTCGCCAAGGCGTGGAATGAAGCCCGTTCCAAGGCGCTAGAGGATTTAAAGCAGCATGAGGAGGAGTACTATGCGTTTCTGGCCGAATTGCAGAGCACGAAGGTGGAGTACGTGAAGAAGGTTAGTCCGATCGAGCTGATCAAAGAGGTTCCTTTTACCGAACAAGGGCTGCAGCTGCTGGAAGGAACGAAGGCCTTTCTGATCGAAGAGAAGCTGGCGGAAACCGATTTTGTTTTGGACGATTGGCTGATCAAGCCTTAA	MENRNVKKHKRKRYAILLTLVAAALAFSQGCGTKDQITEASSSGVPKTLNYGYIGTNALNVPGGAEGWGFHKGIIQEELKKHGIETVNLTAFPNGPDLSESLISGRLDFGSLGDTPAILSRSTGAKTKVITQGSTDSIGYLVAKKGGPASLEELKGKTVATQKGSFHHRYLAGLLKKEGLAEDVKVIHLLRVDAEAALARGEIDAMTNTGVYTLKQIDEGYTLLDDATKHPELYGTSITVVSEDYLAKYPDFAKAWNEARSKALEDLKQHEEEYYAFLAELQSTKVEYVKKVSPIELIKEVPFTEQGLQLLEGTKAFLIEEKLAETDFVLDDWLIKP	PGPT0003025_1080	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
AK002_00826	633	rutE		malonic semialdehyde reductase RutE	ATGACCAGACCTGATCCAACCGTAATCGTATCAGCCCTGTCGAAGCGGACGGTGGCGGAACAAACGCGCCGTCCCGAATATCCGGTGCATGCCCATTTTGTGAATCGATGGTCTTCGAGGGCCTTTGACCCCCGTCTGGTCGAAGAGGACGTGCTGTATACCGTCTTGGAGGCGGCCCGGTGGGCACCCTCCTCGGGCAACGGGCAGCCGTGGCGGTTTATCGTTGCCCGAACAGAGGAGGAGCGGGAGCGATTCCGGTCTTTTATCCGTCCCGGAAACCGCGTGTGGAGCGATCGAGCGCCGGCACTTGTCCTCCTCGTTTCCTACACGCTGAATGCCAATGGGGAACCGAGCGGAAGCCACGCGTTTGATGCGGGGGCTGCTTGGGGAACAATCGCTTCGCAGGCTGCTTTGCTTGGGCTGAATACCCGCGCGATTGGCGGCTTCGACCATGAGCTTGCCCGCGAAGCCCTGCATATCCCGGAAGAATATGATTTGCACGCGGTCATAACGCTTGGATACCGCGGGGATAAATCGGCGCTTCCGGAGACGCTGCAGGAACGGGAGGTCCCTACGGACCGACGATCCTTGAATGAACTGGTTCATGAAGGAGTATTTCAGGCTAAGGAATGA	MTRPDPTVIVSALSKRTVAEQTRRPEYPVHAHFVNRWSSRAFDPRLVEEDVLYTVLEAARWAPSSGNGQPWRFIVARTEEERERFRSFIRPGNRVWSDRAPALVLLVSYTLNANGEPSGSHAFDAGAAWGTIASQAALLGLNTRAIGGFDHELAREALHIPEEYDLHAVITLGYRGDKSALPETLQEREVPTDRRSLNELVHEGVFQAKE				NA	NA	NA	NA	NA
AK002_00827	1494	sasA_5		Adaptive-response sensory-kinase SasA	ATGAGTTTTCGAAACCGTATACGCGCATCTCGGCCAACGTCTCTGCGCACGCAGCTCCTGTCGCGTTCCCTTCTCGTCTTGGCGCTTCTGCTCGTGCTGATCGGAGCGCTGCAATATGTACTGATGAAAAACGCCCTGTTCCGCAATCAGGCCGAGGCGCTTTCGCTTCAGGTCCGCTCTATCCCCGTGGAGATGTGGGAGCCTGATCGCGTGCCGCATAACCGGCCTTCTGTTCCGAATAACGACGCCCATGCGGGCATGCCCCGCCAGGAGAATAGACCTTTGCTCTTTCTGCCGAATATGTCGCTTGCCAAGATCGCAACGAACGGAAGCTACACCGACCTGGCCAGTGACAACGGTCTGTCCGCGCCGCAGCTGGCAGCAGAGGCTTATACCTCGATTCTGGAGCAATTCAAAGAGCGTCGGCCCGTTCCGTACGAAGTGATTGACGATGCCCAAGGCACCGAGCAGATCGTTGTCTTTCGCCCTTACGGCAGCCCTAACAGCCCTTCCGGTATACTGCAGCTTGGAATGGATACGCAGCCGCTCCATGCCGTTCTGCTGCGGCAGCTGCTGATATTTGCCGTGCTGGCTTTGCTTGCCATGGCTGGCGGGATCGCATTGTACCTGCCTTTGCTGCGCAGGACGCTTAACCCGCTAAGCCGAATGGTCGAAACAGTGGAACGAACGGATGCCGGAAACTTGGCGGAGCGATTTCCGGCCATGCAGGGTCAGCAGGAGATTGACCGCTTGGCCCAATCGTTTAACGGCATGCTGAAAAGGCTTGAGGGAGCGTTTGAAGCGGAACGCGAGGCGAAAGAGCAGATGCGGAGGTTTATTGCCGATGCTTCCCATGAGCTGCGCACGCCGCTTACTTCGATTCACGGCTTTCTGGAGGTGCTTGGCCGCGGCGCCGCCGACAACAAGGAGCAGCTCCATGCAGCACTGTCCAGCATGCACGGCGAATCGAAGCGCATGAAGAAATTGGTCGAGGATTTGCTTCTGTTGGCCAAACTTGACCGTAAGCCGGAGCTTCATCTGCAGGATACCCGGCTGGATCGGCTGCTGCTTGAGATGGAGCCCCATCTTAGGATGCTGGCTCAAGGCAGAAACGTAACGATTCAAGCGGCAGACGTGCTGTGCCGGTGTGACTCCGACAAGATCAAGCAGGTCATCTATAACCTGTTTCATAATGCGGTACAGCATACCGATTCCGACACAGGGCGGATTACCGTTACGGTGGATAAAACCAAGGACCATGCCGTACTGCTGGTCAGCGACAATGGAGCCGGGATTTCGAAGGAGCATCTGCCCCATCTGTTCGAGCGGTTCTACCGCATCGATGAATCCCGGACCCGGCAGCACGGCGGTGCAGGTCTTGGACTGTCCATCACCCAGTCCATCATGAACGCGCATGGAGGCCAAATGAGCGTGGACAGCACGGTTAACCAAGGAACGGTTTTTCGTGCGGAGTGGCCGGGCATCATTCCTTAG	MSFRNRIRASRPTSLRTQLLSRSLLVLALLLVLIGALQYVLMKNALFRNQAEALSLQVRSIPVEMWEPDRVPHNRPSVPNNDAHAGMPRQENRPLLFLPNMSLAKIATNGSYTDLASDNGLSAPQLAAEAYTSILEQFKERRPVPYEVIDDAQGTEQIVVFRPYGSPNSPSGILQLGMDTQPLHAVLLRQLLIFAVLALLAMAGGIALYLPLLRRTLNPLSRMVETVERTDAGNLAERFPAMQGQQEIDRLAQSFNGMLKRLEGAFEAEREAKEQMRRFIADASHELRTPLTSIHGFLEVLGRGAADNKEQLHAALSSMHGESKRMKKLVEDLLLLAKLDRKPELHLQDTRLDRLLLEMEPHLRMLAQGRNVTIQAADVLCRCDSDKIKQVIYNLFHNAVQHTDSDTGRITVTVDKTKDHAVLLVSDNGAGISKEHLPHLFERFYRIDESRTRQHGGAGLGLSITQSIMNAHGGQMSVDSTVNQGTVFRAEWPGIIP	PGPT0004100_1247	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
AK002_00828	687	tcrX	COG0745	putative transcriptional regulatory protein TcrX	ATGGGATCCATGCATCGTATTCGCGTTTTGCTTGTGGATGACGAGCCGCATATACTGCAATTTCTGGAGCTTGGTCTCCATAATGAAGGGTTTGAGGTGCGCACGGCCTCCGATGGGGAATGTGCGTTAAGGGAAGCAGCCAGCTTCGAGCCGCATGTCATCGTTCTGGATGTGATGATGCCGGGAATGGACGGTCTTGCGGTGTGCAGACGTTTGAAGGAGGAAGGCAGGGATATTGCGGTCATTATGCTTACCGCGAAGGATGAGATCGATGACCGTGTAACAGGCCTTATGACCGGAGCGGACGACTACATGGCCAAACCCTTCAGTTTCGAAGAGCTGCTGGCCCGCATTCAAGCTCGGCTCCGCAATCAGTTCCCGAGCCTGCTGGGCGAAATCCGGCTTGGGCCATTCACCATCGATGACCGCAAGAAAGAAATTTCATACCTGGGGGAAGCCTTGGAGCTTTCCCCTACGGAATATAAACTGCTCAAACTGCTTGTGACCAAACACGGCAGCGTTCTGAGCAAATCGAACATATTGAATATTGTGTGGGACTATGACTTTGGGGGAGAGGATAACATCGTGGAGGTCTATATCCGATCCCTGCGAGAGAAGCTCGGAGACAAGGAGCATCGGGTCATTCGCACGCTTCGCGGAGCCGGCTACCGGGTGGATTTGCCATGA	MGSMHRIRVLLVDDEPHILQFLELGLHNEGFEVRTASDGECALREAASFEPHVIVLDVMMPGMDGLAVCRRLKEEGRDIAVIMLTAKDEIDDRVTGLMTGADDYMAKPFSFEELLARIQARLRNQFPSLLGEIRLGPFTIDDRKKEISYLGEALELSPTEYKLLKLLVTKHGSVLSKSNILNIVWDYDFGGEDNIVEVYIRSLREKLGDKEHRVIRTLRGAGYRVDLP	PGPT0002665_479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_00829	765			hypothetical protein	ATGATAGGAAATGTATATCCACCCGAGAATCAGGGCAAGGGCTCACTCGATGGAGGAAGGATAACGGAGTTGAAGCCGATCGGTTTCTCCGGCGAAGGGTCAGCCGTGACCCGGGTAGGGCCGCTTTTCTATTGGTCCTGGTTTCGTTCGCCCGTCGAAGGTTATATCGCGTCTCATCCCCATCAGGGTTTTGAAATCGTGACTTATATGATTCAGGGAAAGTGCGACCATGAGGATTCGCATGGTACGCACAGCATAATAGGGCCAGGAGGCCTGCAATTGATGAGGGCCGGTTCCGGACTTACGCATGAGGAACTTCTGACCGGGCCGGATGCAGAAGGATTCCAGATTTGGTTTGAGCCGTATCTTCGCGATTCATTGAAGCAAAACCCTGCCTGTCGTCAGTATCGTCCGGACTCCTATCCGGTAACCCGTATCCAGGGGGGATTGGTCAAAACGATGATCGGCGGTTCCGCGCCAACCGATCTGTCCGTGGACGTGAGGATGCTGGATATTCAAATTCTGGCCGGGCACGAAGCACGATATGAACTGAAAATCGGCAGGCGTGCGGCTGCGCTTGCCGTAAGGGGAGCCGGCAGCTTTAGCACGGAAGAGGAGAGCCTCCTGTTTCATCATCGGGACTTTATGGTAATCGATACGGTGCTCGGTGAGACGATAAGCCTTAAGGCGCAAGAGAATGTCAGGGTCATCCTGATTGACGTACCGGAAAACCCTGGATATCCGCTCTATTCCAAGCGGCCATAG	MIGNVYPPENQGKGSLDGGRITELKPIGFSGEGSAVTRVGPLFYWSWFRSPVEGYIASHPHQGFEIVTYMIQGKCDHEDSHGTHSIIGPGGLQLMRAGSGLTHEELLTGPDAEGFQIWFEPYLRDSLKQNPACRQYRPDSYPVTRIQGGLVKTMIGGSAPTDLSVDVRMLDIQILAGHEARYELKIGRRAAALAVRGAGSFSTEEESLLFHHRDFMVIDTVLGETISLKAQENVRVILIDVPENPGYPLYSKRP	PGPT0019980_3983	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
AK002_00830	807			hypothetical protein	ATGGGGGAGATCGTTATTTTCTCGAAAAAAAGATTCAAACAATTGATGGCCGGAGCGCTGTTATCAGCAGCGGTTCTTGGTTCTTACGGATATGGGTCTGTGAATGAAGTGTCTGCTGCCAGCGTGCAGTCTGCAACCAAAGGTGTAGCAAGCTCGAATGTGTACATGCGCAATAAGCCTTCGACTTCGGGTAAAGTCGTTGACCGCGTGCATAAGGGTGAGCGCGTTCAAATTCTGGCTAAAAGCTCAAGCTGGTATAAGATCAAAACTTCGGACGGCAAGCAAGGATATGCTTCGTCTAAATATATTAACCAAAGCAGCGGATCTTCTAACACTTCCGGCAATTCGGGAAGCACGGCGCCTTCTGCGAGCGCAAGCGTTGAAAAAGTAATCAGTGCAGGCATGAAGTATCTGGGCACGCCGTACGAATTCGGTTCTAACCGCAATTCAACGAGCACCTTTGACTGCTCGGCATTTGTCCGCCGCGCATTCATGGACGGCGCTAACATTACGCTGCCAAGCGATTCCCGGAAGCAAGGGCAGTACGTCAAAGATAAAGGAACGGCTGTTTACAACGTCAATCAATTAAAGCGCGGGGATCTGGTATTCTTCATGAGTTACCGAGGTTCATCGGCATCCGCTTATGCCGGATTGGACAAGTCCAAACAGCGGATTACGCACGTAGCGATCTATCTGGGGGACAACAAGCTGCTGCATACGTACTCGAAACAATCGGGCGGCGTCCTCGTAGGTAACTTCGGCGATTCTTGGAAACACCGCTTCGTGCACGGCGGAAGCGTACTATAA	MGEIVIFSKKRFKQLMAGALLSAAVLGSYGYGSVNEVSAASVQSATKGVASSNVYMRNKPSTSGKVVDRVHKGERVQILAKSSSWYKIKTSDGKQGYASSKYINQSSGSSNTSGNSGSTAPSASASVEKVISAGMKYLGTPYEFGSNRNSTSTFDCSAFVRRAFMDGANITLPSDSRKQGQYVKDKGTAVYNVNQLKRGDLVFFMSYRGSSASAYAGLDKSKQRITHVAIYLGDNKLLHTYSKQSGGVLVGNFGDSWKHRFVHGGSVL	PGPT0023995_3377	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
AK002_00831	198			hypothetical protein	ATGAACGGTGGGCAGCGTTCCAATATCAAACCGGGGCTTGAGGTTGATATCGTACTGAAGCAGGACCAGAGAACGGGCAAATTAACCCGCGGCGTGGTCAAAGATATTTTGACCAATTCGCCTAACCATCCGCACGGCATTAAAGTACGTCTTCAGGACGGCCAAGTGGGACGGGTAAAGAACATTTACGAGACATAA	MNGGQRSNIKPGLEVDIVLKQDQRTGKLTRGVVKDILTNSPNHPHGIKVRLQDGQVGRVKNIYET				NA	NA	NA	NA	NA
AK002_00832	177			hypothetical protein	ATGCGGCTTTTTTGCATTTCTATGCAACATTGCTCACAATCCATCCGTCTGGAGGTTGAGGTGAACAAAAAAGATGAGAAGATACCTTTATATGGGGTTTATCTTGATGTTGATGTTAACGGGCTGCGCGAAGCAGGAAATGCAGGGGGCAGATCCGACTGGAACTTCATTGAATAA	MRLFCISMQHCSQSIRLEVEVNKKDEKIPLYGVYLDVDVNGLREAGNAGGRSDWNFIE				NA	NA	NA	NA	NA
AK002_00833	477			hypothetical protein	ATGACCGACGGGGACTTCGTGTATCGACTCGTTAGCGAGAAAGAAGAGTATGAACAGGGAGATCAAGTTCAAGTATACGGGGAGCTGGAGTATATCGGCGAAGAGGATGAGATTACGATCGGCCATGCGGCCTCCGCTTTTTATTTCCCGATGAAAGAGCTCACAAGAGACTACAACATCAGTTATGCCATGAACGAGCCCTATATTACAACCAAGCTGAAAAAGGGCGAGCCGCTGCGCGAATATTACAAAATCGGCGGTGGATACGACAGTAGGGACGACAAGAAATTCAAAGATTTCATCCATTCGCTGAAGGATGGTTTTCCGGGCGGGCGCTACGTCGTCTACGGATCCGCGGATTTCGTGATTGATACCATGTCGCAGGACGCGAGTCATAGCGGCTCGAACGGGGAAGAGCCAAAGCGCTATAAGATACAAGCCGAGATCGAATTCGGCGTAAGCGAAGAGAAGAAATAA	MTDGDFVYRLVSEKEEYEQGDQVQVYGELEYIGEEDEITIGHAASAFYFPMKELTRDYNISYAMNEPYITTKLKKGEPLREYYKIGGGYDSRDDKKFKDFIHSLKDGFPGGRYVVYGSADFVIDTMSQDASHSGSNGEEPKRYKIQAEIEFGVSEEKK				NA	NA	NA	NA	NA
AK002_00834	363			hypothetical protein	ATGTATCCAATGAATAACAACAACTCGCAAATTTCGCAGCAAATTCGTCAGTGCGAGCAAATTCTTCAGCAGCTGACCCAACAAACGCAGCAGGGTTCGGCTATGTACCAGCAGCTGATGCAGCAAGAGCAGCAAAATGCGGCCCGACTCGAGGAAATCGCTCAGCGTGAGCGTCAAGCGGCGCAGATGATCCAAACTGCCCTTCAAGGACATCAACAGGCGATGCAGCAGTATCAGCAAATCTCCCAGATCGTTAAACAAGTGGAGTATTCCGTACAAGCCCACAATCAAACACAGCATATTCAGCCTTCTTACGGCCAACAAGGTTTTCCTAACACACATCAAGGCCAAGGCTTCCAATAA	MYPMNNNNSQISQQIRQCEQILQQLTQQTQQGSAMYQQLMQQEQQNAARLEEIAQRERQAAQMIQTALQGHQQAMQQYQQISQIVKQVEYSVQAHNQTQHIQPSYGQQGFPNTHQGQGFQ				NA	NA	NA	NA	NA
AK002_00835	486	msrC	COG1956	Free methionine-R-sulfoxide reductase	ATGTTTCAAAACACACCCTATGAAGGCACTAGGAGCGAGCAGTACGCCCAGGTCCTGAATCAGTTGAAAGCACTTATCCACGATGAGCCGAATGCCATTGCCAACTTGTCCAATGCATCTGCGCTGCTCAAGCAGTTCCTGTCCGATACGAATTGGGTCGGCTTCTATCTTTATGATGGCAAAGAGCTGGTGCTCGGGCCATTCCAAGGACTGCCCGCCTGCATCCGGATTCCGATGAATCGCGGAGTTTGCGGAACCGCTGCGGCTAAACAGCAGACACTGCTTGTAGCCGACGTACATGAGTTCCCGGGGCACATTGCCTGCGATGCGGCTTCGAACAGCGAAATTGTGGTGCCCATGATGGTGGATGGCGCATTGTATGGCGTTCTGGATATCGACAGTCCGCTCAAGAACCGTTTCGACCAAGAGGATCAAGCCTTTTTGGAGGAATTTGTCCATATATTGGAAGGCCAACTCACATTATAA	MFQNTPYEGTRSEQYAQVLNQLKALIHDEPNAIANLSNASALLKQFLSDTNWVGFYLYDGKELVLGPFQGLPACIRIPMNRGVCGTAAAKQQTLLVADVHEFPGHIACDAASNSEIVVPMMVDGALYGVLDIDSPLKNRFDQEDQAFLEEFVHILEGQLTL				NA	NA	NA	NA	NA
AK002_00836	306			hypothetical protein	ATGCGCGCAGACGTTCAGAATTTGTTTATCGGTATTCATATGCTCTATCACGCCCATGAGCGGGACCTTACGATCAGCGAGATGCAGCCCGAGCTGGAGCGTCATGGATATAAGGTCGGCGACCGGGAGGTTAAGCATGAACTCGAACGCTTGACCGAGGAGAACTTCCTGACGGCGCACGGTGAGGGGTACAGCCTCACGGGAGCCGGGATCGAGGAGTTCAAGGAAATCCAGATCAGGCTTAAGGAGCTTTGCGATGAAGTGCTTAAACCGGTGAACCCGAAAAAGGCCGATTCCATGGCGTAG	MRADVQNLFIGIHMLYHAHERDLTISEMQPELERHGYKVGDREVKHELERLTEENFLTAHGEGYSLTGAGIEEFKEIQIRLKELCDEVLKPVNPKKADSMA				NA	NA	NA	NA	NA
AK002_00837	1071	menH_3		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCTTGTCACGGCTCCCTTGTACAGTGCGGAAGAAGGAGGAAGTCATCTGAGTATGTATATCGCGATTGTCTTGCTGTTCACCGTCGTTGTCATTGCCGCTGCCATTACGCAAATCGGATATCTGCAGATTACGCGGATGCGCGTAAAGAATGACCTCAAGCTGTTCACGGTGCTGGAAAAAGCCGGACTATACAGCAGAGAGAAATATGAATCGCTTCAAAAGAACGAGGTGGCGATCAACAGCTTTGACGGGTTGAAGCTGTGCGGCGCAGCCATTCTAAACAATCCCGGCTCCAAGCACTGGATGCTTCTTGCCCACGGCTATACCGGTTCGCGAGCCGTATCCACCCAATTCATTGATTTGTTTACGGAAGAGGGCTACAACGTGCTCCTGATCGATCAGCGCCGGCATGGACGAAGCGAAGGTCGCTATACCACCTACGGTTATTATGAGAAACACGACGTGCAGGCGTGGGTGCGCTGGATTACCCGCAAATACGGCGAGGACGTGGCGATCGGGCTTCATGGACAATCGCTGGGAGGCGGAACCGTGCTGGAGTATTTATCCATTGCCGATCCGCAGGTCAAGCTTGTCATCGCGGATTGCCCGTATTCCGATTTGACGGATTTAATGCGGCATCAGCTCACGCGCATCAACAAAATCCCTTCCGTGCCGTTCCTGTCCTGGGTGAACGCCAGAATTCGGCGTAAAGCCGGGTTCAGCCTCGATCAGGTCAGCCCGATCCGTGCTGTTCGGAACAGCATGCTTCCGGTTATGTTCATCCATGGCACCAAGGATAATTACGTGCCTACCCGAATGAGCATCGAGATGTTCGAAGCCAAACCGGACCCGAAAAAACTTCTTCTTATCGAAGGCGCAATCCATGCGAACGCTTATCATGTGGATCCCGAGCAATATCGGGAAGGCGTGCACTCTTTCCTTCGTGAACATATAGATCAACCCGTCCAGGCACCGCTGCCGGAAGCTGCCCGCGCAGCGCAGCCGGAAGCAGCGCCAGCCCAAAACACCTTCCAATTGGAGCTGGACGGATCCCTTGAGACAGTATAG	MLVTAPLYSAEEGGSHLSMYIAIVLLFTVVVIAAAITQIGYLQITRMRVKNDLKLFTVLEKAGLYSREKYESLQKNEVAINSFDGLKLCGAAILNNPGSKHWMLLAHGYTGSRAVSTQFIDLFTEEGYNVLLIDQRRHGRSEGRYTTYGYYEKHDVQAWVRWITRKYGEDVAIGLHGQSLGGGTVLEYLSIADPQVKLVIADCPYSDLTDLMRHQLTRINKIPSVPFLSWVNARIRRKAGFSLDQVSPIRAVRNSMLPVMFIHGTKDNYVPTRMSIEMFEAKPDPKKLLLIEGAIHANAYHVDPEQYREGVHSFLREHIDQPVQAPLPEAARAAQPEAAPAQNTFQLELDGSLETV				NA	NA	NA	NA	NA
AK002_00838	564			IS1595 family transposase ISSpgl1	ATGTACAGATGCGAAGGAATCGTTCCGGAAATGAAGGGGCGGCGGATCCGGCTGCGAAGGATGGAGACGGAGGATGCGGAAGCAATGCTGGGCTGTTGGTCCGATCCCGCCGTAACCGCCTTTCTGGATATGCCCGTCATGGATTCAGCCGAGGACGCAAAGGCACTGATTGAGTGGCTGCAACGGCTTGCCGAGCAGGACGAGGCCATTCGCTGGGGCATCGAGATCACCGAAACAGGCCAATTGATCGGCAGCTGCGGATTTAATATTTGGCAGCTGGAGGGCGCGTTCAAGGGCGAGTTTGGGTGTGAGCTGGCAAGCCGTTATTGGGGGAAGGGCTATATGACCGAGGCAGCCGAGCTGGTTGCGGCTTTCGGGTACGCGTCCATGGGACTAAACCGAATCGAGGCTTTCGTCGATTCGAGAAATGAGCGTGCATGCCGATGGTTTGCGATAAACGGTTATATGCGCGAAGGAGTGCTTCGCGATTATCGCCTTACGTCCGGCGGTTATGTCGATGCCGTCGTTTTTTCGCGATTGAGAAGAGATTGGAACACGCTATAA	MYRCEGIVPEMKGRRIRLRRMETEDAEAMLGCWSDPAVTAFLDMPVMDSAEDAKALIEWLQRLAEQDEAIRWGIEITETGQLIGSCGFNIWQLEGAFKGEFGCELASRYWGKGYMTEAAELVAAFGYASMGLNRIEAFVDSRNERACRWFAINGYMREGVLRDYRLTSGGYVDAVVFSRLRRDWNTL				NA	NA	NA	NA	NA
AK002_00839	759	ykoC_1		Putative HMP/thiamine permease protein YkoC	ATGCTGATTCAATATGAGAAGGGCGGCACGCTTCTTCATCGATATGATCCTTTAAGCAAGCTGGTGATTCTGTTCTGTACAGCGGTAATCGCCATGCTGCTCGACCAAGCCTGGCAGCAGGCATTGTTTCTCCTGTTATGCATCGGCCAAGCCCGATTCGCCGGCCGGGTGTCTTGCAAGCGTCTGCTGAGAGGGATCCGGCTCATTGCAATCGTTGCGGTACCCTACTTCATTCTGACCAGCTTAACGGTCCAAGGGAACACCGTATGGCTGCAGTGGGGGCCCATCACCCTGACGGTTGAGGCTCTGAACGCCGCGGGTGCCATGTCGCTCCGGATGTTTACGTTGTTTCTGACCTCGATGGCGTATATCTTGACGACGGATCCGAGAGAATTGGTTGCCGAGCTGACCAGACGTCTTCGAATCCCTTACCGGTTCGCGTTTGGCGTATCCGCTGCGCTGACCTTCATTCCGCTGTTGGAGGAGGAGGGTGCCCATATTCTGGCTGCCCAGCAGGTAAGGGGCCATCGACCGCCCAAGGGACTCGGAAGCCGCATCGGCTACGGATTGAAGTTTGTTTCGGCTGTCCTGCTTAATGCGCTGCGTCGTGTTCAGCAAACGGCGGGCGCAATGGAATCCAAAGGTTTTGGCGCATACCCGGACCGAACCTATCGCACGGAGGTTAACATTCCTTCATGGGCGGTCGCATCGGCAGTTATGTATGTACTGGCAACGGTTTTCGTGTGGTGGATTGCCTAA	MLIQYEKGGTLLHRYDPLSKLVILFCTAVIAMLLDQAWQQALFLLLCIGQARFAGRVSCKRLLRGIRLIAIVAVPYFILTSLTVQGNTVWLQWGPITLTVEALNAAGAMSLRMFTLFLTSMAYILTTDPRELVAELTRRLRIPYRFAFGVSAALTFIPLLEEEGAHILAAQQVRGHRPPKGLGSRIGYGLKFVSAVLLNALRRVQQTAGAMESKGFGAYPDRTYRTEVNIPSWAVASAVMYVLATVFVWWIA	PGPT0004015_2935	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
AK002_00840	588	ykoE_1	COG4721	Putative HMP/thiamine permease protein YkoE	TTGAATTCATCTTCACAGAAAAAATGGTTTGCTTTTACGACGCAGGAGATTATCCTGATGGCAATGCTTGCTGCCGTTAATGCCGTTCTCACCGTATACATAGGGCCGGTTAACAAGCTGTTGAACAGTCTGGGCGGACCCATCGCCACTTCGACGACGACAGGAATCTACATGGTTTATGGACTCTTGGCTTACTACATCATTCGTAAACCGGGAACGGCGGTTGTCACGTTTGCCATCGGCGGCACGATTCAGGCTCTGACCGGTACGGTATACGGCATTGCTTCGTGTTTCGTGGCCGCAGGCTGCTACATGATCGTGGCGGAGACGATTTTCGCGATCTACCGATACAAAAAGTGGAGCGCCGGCGCTCTAATGCTGGTTGGCGGGGCGATGGTACCGCTCTGGTTCCTGTTCGCGGCCAACATGTTCGGGTATACGTCCTGGCCGATCGAAGTGCTTGGCATTGCGGTGGTGGTGCGTATTCTGAGCGGCGTTCTCCTCTGCGGCCTGTTAACCAAGGTTTTAGGAGAGGCGTTAGTGAAGACGGGCCTGCTTCGCCGTTTCGCCGTCGCCGTTAAGGGATAG	MNSSSQKKWFAFTTQEIILMAMLAAVNAVLTVYIGPVNKLLNSLGGPIATSTTTGIYMVYGLLAYYIIRKPGTAVVTFAIGGTIQALTGTVYGIASCFVAAGCYMIVAETIFAIYRYKKWSAGALMLVGGAMVPLWFLFAANMFGYTSWPIEVLGIAVVVRILSGVLLCGLLTKVLGEALVKTGLLRRFAVAVKG				NA	NA	NA	NA	NA
AK002_00841	1635	ykoD_1	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGTCGGGAACAAGGGTGTCATGCCGGGGACTGGGATTTTTATATGACGGAGAGGAACGTCCGGTTATCCACGATATGAATCTGGACATAGCGGAGAACGATTGGGTCGCGATTCTTGGTGCCAGCGGCAGCGGGAAGTCGACGCTGTGCCAGCTGCTATGCGGCCTTCTTCCGCGGAGCGGCGGAGGCGCAAGAACGGGGGAAGTGCTGCTGGACGGCATGGATCCTGCAGCGGCGCCGATAGCCGACGTAGCCGATGCGGTCGGGGTGCTGTTTCAGGATCCGGATGCCCAGCTCGTTCAAGGGATCGTCGAGGACGAAGCGGCCTTCGGTCCTGAAAATATGCGGGTTCCGCCCGCGGAAATCGAGGAGCGGGTGGTGCAGTCCCTTGCGGCGGTCGGGCTGCTTCACCGCCGGACCGATCCGGTGCGCAGCCTGTCCGGCGGACAGCGGCAGCGCACGGCCTTGGCCGCGGTGCTGGCGCTGCGCCCGCGGCTCTTCGTCTTCGACGACGCCTGCGCCAGCCTGGATGCCGCGGCGCAGGCGAACTTCCTGCAGCTGTGCCATAAGCTGCAGGCGGAGGGCCGGACGCTGATCACCGCGTCCGGCCGCTTTGACGATGTCGCGCGCGCCGCGGGGCGCGTCATCGTCCTGGACGGCGGGACCGTCGTGATCGACGGGCCGCCGGAGGAGCTGCTGCACCGCTGCGGGGAGCAGCTGGTGCAGCTGGGCTTGCTGCCTCGGCCCGCAGGCGAGGCAGCGGGTGCCGCCGCCGGGGACAAGCCTGTCCCGGCAACAATGCCTCCGCATCCGGCAGCGCGCCATGCGGAATTGCCGGTCCCCGCGGGTTCCGCGCCTGCGGCGGTATCCCATCATGCGGGCAAGCCGGTCCCTGCAGGTTCCGCGCCTGTGGCGGTCGCCCCTGCGGAAGGCGCCAGGCTGTCTGCCGTCCCCCCGCTGCTCCGGATCGATTCGCTGACGTTTGCGTACCCCGGCGGCCGGGAGGCGCTGCGCGATATCGATGCGAAGATTGATCCCGGCGACTGGGTGCTCCTGACCGGCGAGAACGGGTCGGGCAAAACAACGCTCAGCCGCCTGATCATGGGCCTGCTGCCGGCTCCGGCAGGCAGCATACGCTGGCAAGGGGAGGATACGAAGGGAATGGCCGTCTACCGCAGGGCCGAGTTGATCGGCTACGTGTTCCAGCAGCCGGAATATATGTTTACGGCCCCGAATGTATGGGAGGAGCTGATCTACAGCCTCCATGGCGGGATGTCCGTGAAGAAGCGACCGGAGCTGACGGCCGGCCAGCAGCAGCGGGCGAGGTTTCTGTTAGAGATGGCGGGACTTACGGATCGGCTTCAAATGTCTCCTTATTTGCTTAGTCAGGGCGAGAAGCGTCTCTTAAGCATCATCAGCCAATTGATGCTGGAAAGACCGCTGTATATCCTGGACGAGCCGACCTCGGGAATGGACTATGCCGCCATCGATAAAGTAACCGAGCTGTGCCATTATGTCATCGGGGGAGGCTCGGCCGTCCTGATGATCACGCACGATCCCGAACTCATGAAGCGGCATGCCACTTCCCGTATTCATCTACGGAGCGGGAAAATGTCTGTGCAACCAACGCGGTAA	MSGTRVSCRGLGFLYDGEERPVIHDMNLDIAENDWVAILGASGSGKSTLCQLLCGLLPRSGGGARTGEVLLDGMDPAAAPIADVADAVGVLFQDPDAQLVQGIVEDEAAFGPENMRVPPAEIEERVVQSLAAVGLLHRRTDPVRSLSGGQRQRTALAAVLALRPRLFVFDDACASLDAAAQANFLQLCHKLQAEGRTLITASGRFDDVARAAGRVIVLDGGTVVIDGPPEELLHRCGEQLVQLGLLPRPAGEAAGAAAGDKPVPATMPPHPAARHAELPVPAGSAPAAVSHHAGKPVPAGSAPVAVAPAEGARLSAVPPLLRIDSLTFAYPGGREALRDIDAKIDPGDWVLLTGENGSGKTTLSRLIMGLLPAPAGSIRWQGEDTKGMAVYRRAELIGYVFQQPEYMFTAPNVWEELIYSLHGGMSVKKRPELTAGQQQRARFLLEMAGLTDRLQMSPYLLSQGEKRLLSIISQLMLERPLYILDEPTSGMDYAAIDKVTELCHYVIGGGSAVLMITHDPELMKRHATSRIHLRSGKMSVQPTR				NA	NA	NA	NA	NA
AK002_00842	1515	bmr3_2		Multidrug resistance protein 3	GTGGGTGTATTAAGACAAGACAAACGCAGTTATATCCTGGTCGGTATTCTGTTATCCACCTTTATGGCTGCGATCGAGGGAACGGTTGTCGGCCCGGCAGGTCCGGCCATTATCAGCAGCTTCGGCAGCGTAAGCCTGATGAGCTGGATTTTTACGGCCTATCTGCTGACGATGGCCGTTACGACGCCGATATTCGGTAAAATAAGCGATTTATATGGACGCAAGCCCGTATTTTTATACGGCTCGCTGATCTTTCTCGTAGGCTCATTGCTGTGCGGGCTGTCGCAGAACATGACGCAGCTGATCATTTTCAGGGCAATCCAAGGGATCGGGGCCGGCGCGGTGATTCCGGTGACCTTCACGATTGTCGGAGACATTTACAATCTGGAGGAACGAGGGAAGATTCAGGGGATGATCAGCTCCGTTTGGGGAATTTCCTCGCTGATCGGACCGCTGCTTGGCGGGTATTTCGTGGATTACTTGTCCTGGCACTGGATCTTTGTTTTTAATGTTCCGTTCGGGCTGTTATCGATATGGCTGATATTCCGTTATTTCAAAGAGGAGCGCACCGCCCGCGAAGTATCGATCGATTACGGGGGAGCGACCCTGTTTACCGTGGGGATGACGGCGCTGCTGTTTGCGCTCGCGGTAGGCGGGGGTGAGAGCTACTCCTGGACTTCTCCGTTCATGCTCGGTCTGATGATTGGTTCCGTGGTGCTGCTCGCTGCGTTCCTGGTGGTGGAGAGCAGGGTAAGGGAGCCGATGCTGCCGCTCCATCTGTTCAAGATCCGGGATATTACGGTATCGACGGTAGCCAATATTCTGGTAAGTGCGCTTATCATCGGGTTGACCACGTATTTGCCGCTGTGGATTCAAGGGGTTCGTGGCGGCAACGCCACCTTGTCGGGTCTGACGCTGGCCCCGATGTCGATCGGATGGCTGATCGGCTCGATTATCAGCGGTCGCCTGATCGTTAAATCCGGTTCCCGGAAAACGGCGATGATCGGCGTCGTGCTCCTCATAATCGGAGCGGTGGGATTGGCGTTCATGCATAAGGATACGGCGCTGGGCGTGCTGCTGGTCTTTACGTTCATTTATGGCGTCGGCTTCGGTTACATCTCCACCTTGTTTCAGATCATTGCGCAATCCTCGGTCGGCTATGAGGTTCGCGGAGCTTCCACGGCGCTGAACTCCTTCATCCGGACGTTTGGTCAAACCGTGGGCGTAGCGGTGTTCGGATTATGGGTCAATGCGGGAATCGCGGGCAGACTTGCCGCTGAGCCGGATGCGGCCGGCATTACCAGCGACGACATTAACAAATTGCTCTCCCCGCATGGAATGGCCGAATTGCCGGAAGGGTCAGGCAGCCTGCTGAGCGGAATACTGGAGGGAAGCCTCAATTCCCTGTTCGTGGTGATGGCGGTGATGGCGGTGATCTGTATGTTGATCGTGGCCGCCTTCCGCAATGCGCCCCCTGAACCGGAGGCGGGAGAGGAAAAACCTTCAGGCCATTGA	MGVLRQDKRSYILVGILLSTFMAAIEGTVVGPAGPAIISSFGSVSLMSWIFTAYLLTMAVTTPIFGKISDLYGRKPVFLYGSLIFLVGSLLCGLSQNMTQLIIFRAIQGIGAGAVIPVTFTIVGDIYNLEERGKIQGMISSVWGISSLIGPLLGGYFVDYLSWHWIFVFNVPFGLLSIWLIFRYFKEERTAREVSIDYGGATLFTVGMTALLFALAVGGGESYSWTSPFMLGLMIGSVVLLAAFLVVESRVREPMLPLHLFKIRDITVSTVANILVSALIIGLTTYLPLWIQGVRGGNATLSGLTLAPMSIGWLIGSIISGRLIVKSGSRKTAMIGVVLLIIGAVGLAFMHKDTALGVLLVFTFIYGVGFGYISTLFQIIAQSSVGYEVRGASTALNSFIRTFGQTVGVAVFGLWVNAGIAGRLAAEPDAAGITSDDINKLLSPHGMAELPEGSGSLLSGILEGSLNSLFVVMAVMAVICMLIVAAFRNAPPEPEAGEEKPSGH				NA	NA	NA	NA	NA
AK002_00843	1791			hypothetical protein	ATGTCCAAATTTAATCTGTTCCGAAAAATCGTCCTGTTCATTTTTCTGATGTTGATTCCGATTGTCGGCCTCTATTTCTATTCGAACCAAACCACGACGAACGTGCTCAGCAAGGAGCTCAGCCAATCGAATACGAACCAGCTTGTCTTTTTTCAGAATCAGGTGAATACCAATATCGATATTTTGGCATCGTGGCCGAATTTGCTCCTGCATGACCCGGACATCTCAAGCTTTCGGGATATCTATTTGCAGGATAAGTATCTGAACCTGGACGCGATTAACCTGGTAAAGCAAATTCAGACAAAGCTGAGCATTCAGGAGAGCTCTTCGAACTGGCGCAGCCATTTGGCCATTTATTCTCCGTCCCTCGGGCGGGTGGTCACCGAAAGCGATGCCGGTTTTTATTCGCCCGAGGAGCTTGCGGAGGACGTGAAGCCGGGCTGGCAGGTCACTCCTTATTACGAGGGGAGCGACCGGCGCTTCCTGTTTGTCTGGTATTCGGTGGCCCCGTATTCCACCCAGCATCATACGCGCAAGTCGAATACCGTGATCAAGGTTGAATTCGACAGCACCAACATCCAGGATATGCTGGACCGCTTTAAGAGCGACGGAAGGAGCGATCCGTTCTACTATAAACCGGATTCGGGCGTGATCTACAACCGTACCGCGGACCGGGAACTGATTAACCATATGATGGCGGAGCTGGATCGGGAGCCGCTCGAAGACGTGGGGAATCGCGTGAAGGAAGTGGACGGCAAAACCTATTCGGTCAGCATCGCGTTATCGGAAACGACCGGATGGTATTTGATCGACTATATTCCGCTATCGGACATTATGAAGCCGATCCATACGTCGAACAGGCTCTTTTATATTTCGATCGCCGCATTGCTCCTGATGAGCTGCCTCGCCGCATACCTGCTGTATTCCCAGGTTCAGGTTCCGATCAAGCAGCTGGTTTATGTGTTCCGAAGGCTGCAAGCCGGAGATTACGGAGTGAGGATGAAGGTAGCGGGCCGTAACGAGTTCAGTTTTCTGGCCACGAGATTCAATTCGATGGTGGAGCAGATTCAGGAGCTGTTCGAGCATGTATACATGGAGAAGATCCATGTCAGGGAAGCGAAGCTGAAGCAGCTGCAGTCCCAGATCAATCCCCATTTCTTCTACAATTGCTTCTCGTTTATTACCAGCATGGCGAAGCTTCGGAAATACGAAGCCGTTGTGGCGATGTCGCACAGCTTGTCCCGGTATTTCCGCTATACCACGCGTCAGGAAAGGGAACTGGTTCCCTTATCGGACGAGATGGAGTTCGTTACGCATTATCTGGAAATCCAGCAGATGCGGATGAGGCGTCTCCAATATCATCTCGATTTGACGGAGGAAGCGGAAGGCATGGAGATCCCACCGCTGGTTATTCAGCCCTTGGTGGAGAATGCCGTGCTCCATGGCATTGAACCTCACTCGGGCGACGGTGAAATCAGGGTAACCTTCCGGATTGTGAACGGTCTGGCCTGCATTCAAGTGGATGATAACGGGATCGGCATGAACGGGCAGAAGCTGGCCGAGCTGGAGGCCCGGCTGAACAGGCCGATGGATCAGGAGATGGGCTGCGGCGTCTGGAATGTTCACGAGCGCATGCGGCTGCGTTATGGCGAAGAAGCCGGCCTGCGGTTTGCGGCATCTCCGCAAGGCGGCGTACGGGCTGTACTTTACTGGCCATTGCCGGAACGCTTGGGAAGAATCAATCCAAGTCAGCGAAGGGGGCACAGAGTCGATGAATATCTTATTGGTTGA	MSKFNLFRKIVLFIFLMLIPIVGLYFYSNQTTTNVLSKELSQSNTNQLVFFQNQVNTNIDILASWPNLLLHDPDISSFRDIYLQDKYLNLDAINLVKQIQTKLSIQESSSNWRSHLAIYSPSLGRVVTESDAGFYSPEELAEDVKPGWQVTPYYEGSDRRFLFVWYSVAPYSTQHHTRKSNTVIKVEFDSTNIQDMLDRFKSDGRSDPFYYKPDSGVIYNRTADRELINHMMAELDREPLEDVGNRVKEVDGKTYSVSIALSETTGWYLIDYIPLSDIMKPIHTSNRLFYISIAALLLMSCLAAYLLYSQVQVPIKQLVYVFRRLQAGDYGVRMKVAGRNEFSFLATRFNSMVEQIQELFEHVYMEKIHVREAKLKQLQSQINPHFFYNCFSFITSMAKLRKYEAVVAMSHSLSRYFRYTTRQERELVPLSDEMEFVTHYLEIQQMRMRRLQYHLDLTEEAEGMEIPPLVIQPLVENAVLHGIEPHSGDGEIRVTFRIVNGLACIQVDDNGIGMNGQKLAELEARLNRPMDQEMGCGVWNVHERMRLRYGEEAGLRFAASPQGGVRAVLYWPLPERLGRINPSQRRGHRVDEYLIG				NA	NA	NA	NA	NA
AK002_00844	1638	rssB_4		Regulator of RpoS	ATGAATATCTTATTGGTTGATGACGAGAGTTATGTAACGGAAAGTTTATATCAGACCATACCATGGCGAGAGCTGGATATTGAAGAAGTGTATCAGGCTTCGTCCGCCCTGGAGGCGATCGACCTGCTGGAGGAGCAGGACATCGATGTGGTGGTTACGGATGTTCGGATGCCAGTGATGACCGGTCTGGAGCTGATGGAGACCATAACCGAGCGTTGGACGCATATCCGCTGCATTTTACTTACGGGTTATTCGGATTTTGAATATGCCAAGCAGGCGGTTCGGCTGCAGGCATCCGATTACATTTTGAAGCCGGTGGACGATGGTGAATTCATGCGGAGCGTGAGCTCCGCCTTGGCGTCGATCAAGGAGGAGCGGAAGGAGCTCGGGCACTACCATCAGCTGATGTACAGCCGCAAATCGGATCTCGGCATTCTGCGAAACAGCCTCATGCATGATCTATTGCTCGGACGCGAGATGCCGCGACATTCGCTTGATCATAAGCTTCATGAATATGAAATTCCGCTCCGAACAGACCAGCGGACGATCATGCTGCTGATCCAGCTAGGGCAGAGGTTTACGGGAATGGACGACTATTCGATGGGACTGATGGAATATGCCATCGGCAACATTGCTGAGGAGGTATTTGCCGAGCTGCTTCATGTGTGGTCCTGCAAAACGCCGCATCATTGTTTGATTCTATTGGCTCAGTCCAAGAGAGTGCCGAACGCTGGAGATATGGAAACATTCGCGGATTCCCACGAATTGAAACGGTACATAACCCAGTTTCAACAGGATGTGGGCAGTTATTTGAAGGGAAGCATTTCAGTTTTCGTGTCGGGCTCGTTTGATTTTCCGGGGGAACTGGGATCCGTTTACCGGTCGGGATTAAGCTCGCTTTACCTCTGGGGAAACGGAGATCATGAAGCTGTCCGGTTCGCCGAGGACCATGATGACCGGCTGCATGAGCCTGTATGGGACGTTACCCAGGCGTTTGCAAAGCCGCCCAGCCTGCTGCATCTGCTGGAAACAAGGCAGTGGGATGCCGCCCGGGACAAAATAGAACAAGTCTTTACAGAAGTTGAAACCGCATTCATTGGGCAGACGGCTTTTTATGAAATATTTTTATCGGTTGCGAATGCCTATATGTACGTTGCTCACAAGCAGGGGCATTACATTCATCAGCTGGACCAGGCCGGCTGGGACCCCTTATATATTCAGAAGGTGGTTCAGTCGGCTGCCAAGCTGCGCTCCTGGTCGCTTGATATGCTGAATAAACTTCAGAATATCTCGTCCGAACAGGAGAAAACGAGCAAGAGCCATATCATCAAACAGGTCCAAGAGATGGTGACTGCCGATTCGGGTCACGACCTATCCGTCAAGACGATTGCGGACCGGGTATTCCTGCATCCGGTATATTTATCCAAGATTTATAAGAGCGAAACCGGAGAGGGACTCGGCGATTATATCATCCGCAAGCGAATGGAGCGGGCTTTATATCTGCTGAAGCATACGAACAAGAAGATTTATGAAATTACCGCTGAGCTCGGATACCAGAATCCGCAGTATTTCAGCAAGATGTTCCGGAAGCACTACGGAATGACCCCGAACGAATACAGAGACCAAGGATGTTGCTAA	MNILLVDDESYVTESLYQTIPWRELDIEEVYQASSALEAIDLLEEQDIDVVVTDVRMPVMTGLELMETITERWTHIRCILLTGYSDFEYAKQAVRLQASDYILKPVDDGEFMRSVSSALASIKEERKELGHYHQLMYSRKSDLGILRNSLMHDLLLGREMPRHSLDHKLHEYEIPLRTDQRTIMLLIQLGQRFTGMDDYSMGLMEYAIGNIAEEVFAELLHVWSCKTPHHCLILLAQSKRVPNAGDMETFADSHELKRYITQFQQDVGSYLKGSISVFVSGSFDFPGELGSVYRSGLSSLYLWGNGDHEAVRFAEDHDDRLHEPVWDVTQAFAKPPSLLHLLETRQWDAARDKIEQVFTEVETAFIGQTAFYEIFLSVANAYMYVAHKQGHYIHQLDQAGWDPLYIQKVVQSAAKLRSWSLDMLNKLQNISSEQEKTSKSHIIKQVQEMVTADSGHDLSVKTIADRVFLHPVYLSKIYKSETGEGLGDYIIRKRMERALYLLKHTNKKIYEITAELGYQNPQYFSKMFRKHYGMTPNEYRDQGCC				NA	NA	NA	NA	NA
AK002_00845	1686	lipO_4	COG1653	Lipoprotein LipO	ATGACCGCTAGAAGAAAGAAATGGTTTCCGATCCTGGCCGCGTCCTTGCTCCTGGCCGGATCCTTGGCCGGATGCTCCGGCGGCGAGCCGAAACCGGAAGCGGCGCAGCAGCCGGCCGAATCCAAAACTGAAAACGTCTACAAACAGAAATACGATCCGGAAGTTACGATAACGACGGTGTGGGGCGTCGATCCGACGCTGCAATTCAAGAATGGAGAAACGATCGAGAACAACGTGGCTACGAAGTGGGCCAAGGAGAAGTTTGGCATCAACATCAAATCGCTGTGGTCCATTACGGATACCAACGGCGCCTTTGCAACCAAGCTGCGGCTGGCCATGTCCTCCGGTCAGGAGATGCCGGATATCGTCACGCTCGGCACCGAAAATCAGCAGCTGGCCCAGGATTTGATCGATTCCGGCATGTTTGCCGAGGTCGGCACGCTGTTTGACCAGTATGCATCGGAAACGTGGAAGAACGCGATGAATCTGGATCCCAATGTGTGGAATCAGTACAGCCGGGACGGTAAGCGAATGGGGCTTCCGGTACTGGATTTTGCCTACAATCACGACTATGTATTATGGATCCGGCAGGATTGGCTGGACAAGCTGGGGATGAACGCGCCGAAGACGATGGATGAGCTTGAGCAGGTGATGGATGCTTTCAAGAACCAGAACCCGTCCGGTCTTGCTCCAGATAAAGTCACGCCCCTGAGCATCGGCTTCAAAACGTCCATGAGCACCTGGATGGGCGATCCGTCGTGGATATTCGGCGCTTATGGAACGCTGCCGCAGCAGTGGAACGTCGCTGAGGACGGGAGCCTGGAATACGGCTCGGTCCATGCGGGCATGAAGCAGGGCTTGGTGAAGCTGAACGAGTGGATGAATAAAGGATACATTCCGAAGGAAGCCGCACTGTGGGATGAGAACAAAACGGCGGAGCCGGCTGTAGCCGGAACGGCCGGCATCATTCCGGGGCCTTACTGGATGAGCGGCTGGCCGCTGATCGATACCGTGAAGAATGCGCCGGAAGCCGTCTGGAAGCCTGTGCAGATTCCCTCTGGCCCTGACGGCATTGCGATGCGCCATGGAACGCAGTATACGAACGGCGTTACCCTGATCCATAAAGATATGGAGCATCCTGAAGCCTTCTTCACGTATCAAAACTACCTGTTCGATAACTTTGCCGTATCCAAGGAAGGCGGCGAATTTGCCAACGGGCTGTTCGAGGGCTACGACTTCGAGCTCGATGCCAATGGCGAAATGGTGCCCAACGATCAGATCCAAGGCGGTTACGTCAATGTCGTCCGTTACTTGCTGGTCCGCGACGGTGCCCGCATTCCGGACGAGCAGATGAAAGCGCTGCTGAAGCTGGCGAAAGGCGGGAAGCCGGAGAGCCGCCTCGAAAAGGACGTGGCGGTCAACTATGGCAAGGATACCCCTGCCGCTGCGGAAGTGCTGCTCTCCCAAGAGGAGATCTCCAAGAAGAACATGTTTACGGGACCTGTAACCGCCACCATGAAATCGAAGTGGGATTATCTCCTGAAGATCGAGAACCAAACCCTGAACGAGATCATTTACGGCAAACAGCCCGTTGAATCGTTTGATTCGTTTGTGGAAACTTGGAAAGCCGGAGGCGGGGAACAGATCACCAAAGAGGTTAACGAATGGTATCAAAGCGTGAAGTAG	MTARRKKWFPILAASLLLAGSLAGCSGGEPKPEAAQQPAESKTENVYKQKYDPEVTITTVWGVDPTLQFKNGETIENNVATKWAKEKFGINIKSLWSITDTNGAFATKLRLAMSSGQEMPDIVTLGTENQQLAQDLIDSGMFAEVGTLFDQYASETWKNAMNLDPNVWNQYSRDGKRMGLPVLDFAYNHDYVLWIRQDWLDKLGMNAPKTMDELEQVMDAFKNQNPSGLAPDKVTPLSIGFKTSMSTWMGDPSWIFGAYGTLPQQWNVAEDGSLEYGSVHAGMKQGLVKLNEWMNKGYIPKEAALWDENKTAEPAVAGTAGIIPGPYWMSGWPLIDTVKNAPEAVWKPVQIPSGPDGIAMRHGTQYTNGVTLIHKDMEHPEAFFTYQNYLFDNFAVSKEGGEFANGLFEGYDFELDANGEMVPNDQIQGGYVNVVRYLLVRDGARIPDEQMKALLKLAKGGKPESRLEKDVAVNYGKDTPAAAEVLLSQEEISKKNMFTGPVTATMKSKWDYLLKIENQTLNEIIYGKQPVESFDSFVETWKAGGGEQITKEVNEWYQSVK	PGPT0017245_739	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00846	891	yteP_9	COG4209	putative multiple-sugar transport system permease YteP	ATGAAGAGGATGAAAAAAACATGGCCTTTCCACGTCATGCTGCTGCCGGCCCTTATCTGTCTGTTCTTGTTCAGTTATTTGCCGATGGGCGGCATCATTATGGCTTTTCAGGACTATAAGCCGTGGGAGGGCGTTGGCGGCTCCGCATGGGTGGGCTTGGACAATTTCCGATACTTGTTTGAAAGGCAGGACAGCATGCAGGTCATATGGAACACCTTTGTCATCGCGGTGATGAAAATCGTGTTCAATCTGCTGATTCCGTTCGTGTTTGCCATTCTGCTGAATGAAATCCGAAAAACGGCGCTTCAGCGGAGCATCCAAACGATGGTGTATTTGCCGCACTTTTTGTCCTGGGTCATCCTGGGCGGAATTCTGATCGAAATGCTTGCCGTGGACGGCTTTGTCAACCGAATTCTGGGGGCTGTCGGCATCGATCCGATCTTTTTTCTCGGTGACAATAACTGGTTCCGGTTCACGGTGATCGTATCCGACGTTTGGAAGGAGTTTGGATACAATACGATTGTATTCCTGGCTGCACTGGCCGGCGTTAGCCCGACCCTGTACGAAGCCGCGGAAATCGATGGAGCGGGACGCCTGAAACAAACGCTTCATATCACGATCCCTTCCATGATTCCCATCACGATCGTTGTCGGGACATTGGCGCTCGGCAACATCCTGAATGCCGGGTTTGACCAAATCTTCAACCTGTACAATCCGCTGGTATACGAGAAAGGCGATATCATCGATACCTTTGTATACCGAACAGCGATCCTGAATGGCGAGATGGGGTTAGGAACGGCCATCGGCTTGTTCAAATCCGTGATCAGCATGGTCCTTATTCTCGTATCCTATCGGCTGGCCTACAAGTGGGCGGGCTACCGTATATTCTAG	MKRMKKTWPFHVMLLPALICLFLFSYLPMGGIIMAFQDYKPWEGVGGSAWVGLDNFRYLFERQDSMQVIWNTFVIAVMKIVFNLLIPFVFAILLNEIRKTALQRSIQTMVYLPHFLSWVILGGILIEMLAVDGFVNRILGAVGIDPIFFLGDNNWFRFTVIVSDVWKEFGYNTIVFLAALAGVSPTLYEAAEIDGAGRLKQTLHITIPSMIPITIVVGTLALGNILNAGFDQIFNLYNPLVYEKGDIIDTFVYRTAILNGEMGLGTAIGLFKSVISMVLILVSYRLAYKWAGYRIF	PGPT0017250_2676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00847	879	melC_6	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGTACCATAAAACGATGGAATACCGCATATTTAACGTGTTTAATACCTGCTTGCTTGTCGCGCTGGCCATTCTCTGCATCATTCCGCTGCTTCATGTGCTGGCGATTTCGTTCAGCTCCAAAGCCGCTGCCGACGCCAGTCTGGTGGGATTATGGCCGGTCGATTTTTCGCTGGAAGCTTACAAGAAAACGATCAATAACCCGGCATTTCTACACTCGATCTGGATTTCGATTGCACGTACCGTACTGGGAACGGCTTTGACGCTTGCCGTGACGTTTCTGGCCGCATATCCGCTGTCCAAAGAGAACCGCGTCTTCCGCAGCCGCAGTGTTTATTCCTGGCTGTTTGTGTTCAGCATGGTGTTCAATGGAGGCCTGGTGCCGTTCTATATCGTGATTCAGAAGCTGGGTCTGATTAACTCCTTCTGGGTGCTGGTGATTCCCGGCACGGTGAATACCTTTTTGGTGATCCTGATGCTGAACTTCTTCAGAGGAATTCCGAAAGAACTGGAGGAAGCGGCTTTCATCGATGGAGCCGGCCATTTCAAAACGCTGTTTAAGATTTATTTGCCGATCTCGCTGCCCTCGATTGCCACGATTGCGCTGTTCAGCATGGTATTCCACTGGAACTCATGGTTTGACGGGCTGCTGTATCTGAACAATGCCAAGGATTTCCCGCTGGCTACCTTTCTGCAGACGGTCATTATCCAGCGGGACATGAGCTCGATGAGCATGAGCCCGAAGGAGATGGAGCTGTTGTCCCAGACGACGGTGAATGCCGCACAGATCTTTATCGGCGCGGCGCCCATCCTGCTGGTTTATCCTTTTTTGCAGCGTTTTTTCGTTAAAGGGATGACGCTGGGTTCTGTCAAAGAATAA	MYHKTMEYRIFNVFNTCLLVALAILCIIPLLHVLAISFSSKAAADASLVGLWPVDFSLEAYKKTINNPAFLHSIWISIARTVLGTALTLAVTFLAAYPLSKENRVFRSRSVYSWLFVFSMVFNGGLVPFYIVIQKLGLINSFWVLVIPGTVNTFLVILMLNFFRGIPKELEEAAFIDGAGHFKTLFKIYLPISLPSIATIALFSMVFHWNSWFDGLLYLNNAKDFPLATFLQTVIIQRDMSSMSMSPKEMELLSQTTVNAAQIFIGAAPILLVYPFLQRFFVKGMTLGSVKE	PGPT0017255_2374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00848	2073	bglY	COG1874	Beta-galactosidase BglY	ATGAAACGAACGTTTAATCCGATTAGCTCGCGCGTTCCGCACATGCTGCATGGCGCCGATTATAATCCGGAGCAATGGCTCCGTTATCCCGAAGTGCTCGAAGAGGATATCCGGCTGATGAAGCTGGCGAATTGCAACGTGATGTCCGTCGGCATATTTTCATGGGTTTCATTGGAGCCCGAGGAAGGGGTATTCACCTTCGATTGGCTTGACGGCGTATTGGACCGCTTTGCCGCCAATGGCATTTATGCTTTTCTGGCTACGCCAAGCGGCGCAAGACCGGCCTGGATGTCGGAGAAGTATCCCGAGGTGCTGCGCGTAAGCGAGAGGCGCGTCCGTAACCTGCACGGCTTCCGTCATAATCACTGTTATACTTCGCCGGTCTATCGGGAGAAGGTCCATACGATCAACAGGAAGCTTGCGGAGCGGTACGGCAACCATCCGGCCGTGATCGGCTGGCATATCTCGAACGAGTTTGGCGGCGATTGCCACTGCGACTACTGTCAGGACGCATTCCGGTCTTGGCTGCAGGCGAAGTACGCCACGCTGGATGACCTCAACCATGCCTGGTGGACCGCATTCTGGAGCCATACGATTACGAATTGGAGCCAGGTTGAATCTCCGTCGCCACACGGGGAGACGCAGGTACATGGAATGAACCTGGATTGGAGACGGTTCGTAACCGATCAGACGGCGGATTTCATCCGGCATGAAATAGAACCTCTCCGCAGGGTCAATCCATCCCTTCCGGTTACGACCAACCTGATGGAATATTTTGAAGGACTGAATTATTGGAAATTTGCCGATCTGCTGGACGTGGTGTCGTGGGACAGCTATCCGACCTGGCATGACCAGGGCGGGGATGAGGCCGTGCAGGCAGCCCGCGTTGCCATGATGCACGATATCATCCGTTCGATCAAAGGCGGACAGCCTTGGATGCTGATGGAGAGCACGCCAAGTCTGACGAACTGGCAGCCGGTAAGCAAGCTGAAGCGTCCGGGTATGCATTTGCTGTCTTCCATGCAAGCCGTTGCCCATGGTTCGGATACGGTGCAGTATTTTCAATGGCGCAAGAGCAGGGGATCGAGCGAGAAGCTGCACGGCGCCGTCGTTGATCATGTCGGTCATGAACGCACCCGGGTGTTCGGCGATGTGGCTGAGGTCGGGGACTATCTCAAGAGGATGGATGCCGTTGTAGGCACGGGCATTCCGGCGGAAGCGGCCGTCATTTTTGATTGGGAGAACCGCTGGGCCATCAACGATGCGCAAGGTCCGCGGAACAAGGGAGTCAAGTATGAGGAGACCGTGCAGGAGCATTACCGTGCTTTATGGAAGCAGGGAGTCCCGATCGATGTCATCGATATGGAGCAGGACTTCTCCGGATATAAACTTTTGGTCGCACCCATGCTGTATATGGTGCGCCCAGGCGTGGGCGAACGGATTCAACAATTTGTGGAAGCGGGCGGTACGTTTGTTGCAACGTATTGGTCGGGAATCGCCGACGAGTTTGACCTTTGCTTCCTTGGCGGATTTCCGGGTCCACTGCGTAAGACGCTCGGCATATGGTCGGAGGAAATCGATGCTCTCCATGATCACGATGTCAATGGGATCGTAACGAATGACACAGGGGGGCTTGGCTTGGCGAAAGCCTATGAAGCCGTTGAGCTGTGCGACCTTATTCATCTGGAGACGGCGGAGGCGCTGGCCGTTTACCGGTCCGATTTCTATGCGGGACGGCCAGCATTGACGGTCAATCAGCTTGGGAAGGGCCGAGCCTATTATATCGCCTCCCGGAACAAGGAGCCTTTTCATTCCGATTTTTACAGGAAGCTCGTTGAACAGACAGGCGTCCGCCGGGCGCTGCCGGTGGAGCTGCCTTCGGGCGTAAGCTCATCCCTTCGTACGGATGGAGAGTCAGATTACATTTTTGTGATGAACTTCTCTGGCGAAGCGAAGCGGGTCACGCTGGACGGAGCCGAGTACCGTGATTTAATCTCGGGCGAAGCCCTAGGGGCAGAGCTAGGGTTGGCGCCTTACGGAGTGAAGGTGATCAAAAAAGGGGCGAGTGCGTAA	MKRTFNPISSRVPHMLHGADYNPEQWLRYPEVLEEDIRLMKLANCNVMSVGIFSWVSLEPEEGVFTFDWLDGVLDRFAANGIYAFLATPSGARPAWMSEKYPEVLRVSERRVRNLHGFRHNHCYTSPVYREKVHTINRKLAERYGNHPAVIGWHISNEFGGDCHCDYCQDAFRSWLQAKYATLDDLNHAWWTAFWSHTITNWSQVESPSPHGETQVHGMNLDWRRFVTDQTADFIRHEIEPLRRVNPSLPVTTNLMEYFEGLNYWKFADLLDVVSWDSYPTWHDQGGDEAVQAARVAMMHDIIRSIKGGQPWMLMESTPSLTNWQPVSKLKRPGMHLLSSMQAVAHGSDTVQYFQWRKSRGSSEKLHGAVVDHVGHERTRVFGDVAEVGDYLKRMDAVVGTGIPAEAAVIFDWENRWAINDAQGPRNKGVKYEETVQEHYRALWKQGVPIDVIDMEQDFSGYKLLVAPMLYMVRPGVGERIQQFVEAGGTFVATYWSGIADEFDLCFLGGFPGPLRKTLGIWSEEIDALHDHDVNGIVTNDTGGLGLAKAYEAVELCDLIHLETAEALAVYRSDFYAGRPALTVNQLGKGRAYYIASRNKEPFHSDFYRKLVEQTGVRRALPVELPSGVSSSLRTDGESDYIFVMNFSGEAKRVTLDGAEYRDLISGEALGAELGLAPYGVKVIKKGASA	PGPT0017815_624	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
AK002_00849	1053	ganB	COG3867	Arabinogalactan endo-beta-1,4-galactanase	ATGACTGGAGTCGCGAAAGGAGTTTGGTGCAGGTTGTTTCTTTGCGTGTCAATGCTTGCGTTAACGTTTGGCTTTTCGGGTAACGGCGCCGCCGAGGCGGCGCCTGCCTTTGCAAAAGGAGCGGACATCAGCTGGGTTCCCGGTATGGAAGCTCAAGGGTATAAGTGGAAGGACAAGACAGGGGTTCAGCGCGATATTCTGGACATTCTGAAGAACGATTACCAGATCAATTCGGCAAGGATCCGTGTCTGGGTCAATCCCAACATGAATGATTACATGAACGGTTATCTGAATGCGGAAAAAGCCGCCGATCTGGCCCAGCGTGCCAAGAATAAAGGCATGAGCATTATGCTTACGCTCCATTACAGCGATTCTTGGGCGGACCCGGGACAGCAGAACAAGCCCTATGCTTGGCGTAATTTTTCTTTTCAGCAGCTGATGGATGCGGTCTATTCCCATACCGTCTATGTGATGAACACCATGAAGAACAAAGGCGTGACTCCGGATTGGGTACAGGTCGGCAACGAAACCAACAACGGAATGCTGTGGGAGGACGGCAAGGCCTCAGTGAACATGAAGAATTACGCATGGCTCGTCAATACGGGGCATAACGCGGTGAAGTCCGTCAACAGCCAGGCCAAGACGATCGTTCATTTATCGAATGGCTACGACAATGAATTGTTCAAGTGGAATATTGGCGGCTTGATCAGCAACGGCGCGAACTTCGATATTATCGGCATGTCGCTGTACCCGGAGGCGGGCGATTGGTCATCGAAGGTCGATCAGACGATAGCCAATGCCAAAGACATGACCGCCAGATATGGAAAAAGCATCATGATCAGCGAAATCGGCATGGATTACAATCAGCCGGCGGCAGCCAAGAGCTTTATCCAGAGCATCAAGACCAAGGTGAGAGGCTTAGCGGGAGGTACCGGGCTGGGTGTGTTCTACTGGGAGCCCGAAGCAACGCCGGGATACAATGCGGGATACAACAAGGGAGCCTGGCAAGCGGACGGGAAGCCGACCATTGCCCTGGAAGGCTTTAAAGACTGA	MTGVAKGVWCRLFLCVSMLALTFGFSGNGAAEAAPAFAKGADISWVPGMEAQGYKWKDKTGVQRDILDILKNDYQINSARIRVWVNPNMNDYMNGYLNAEKAADLAQRAKNKGMSIMLTLHYSDSWADPGQQNKPYAWRNFSFQQLMDAVYSHTVYVMNTMKNKGVTPDWVQVGNETNNGMLWEDGKASVNMKNYAWLVNTGHNAVKSVNSQAKTIVHLSNGYDNELFKWNIGGLISNGANFDIIGMSLYPEAGDWSSKVDQTIANAKDMTARYGKSIMISEIGMDYNQPAAAKSFIQSIKTKVRGLAGGTGLGVFYWEPEATPGYNAGYNKGAWQADGKPTIALEGFKD	PGPT0023570_607	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTANASE,PGPT0023570-EC_3_2_1_89|ganA-K01224	NA	NA
AK002_00850	471	mhqR_2	COG1846	HTH-type transcriptional regulator MhqR	ATGAAGGTGTCACATGAACGCGATACACAGCTTGCGATGCACCTGTATCGGGTGTTTGCCAAGTCATTCAAGAGCGTCAACGAACATGTCGTGAATGGCAGTAAAATCGAAGGCTTTAATCCAACCTCTTTTGCCGTAATGGAAGTACTGTTCTATAAAGGCCGCCAGCCCATCCAGCAGATCGGGGCACAACTGCTCCTGCAGAGCGGAAACGTAACTTACGTGGTCGATAAGCTGGTTGAAAAAGGCTACGTGCGCCGCAGACCCTGTCCCGAGGACAGACGAGTGATCTATGCCGAGCTGACTCCGTCCGGAGAGCAATTGATGCAGAAGCTGTACCCGCTGCATGAACAACACATCCAGCATGCCTTGGGGGGATTGGACGAGGAAGAGAAGCGCCAGCTGATCGGACTGCTGGGCAAAATGGGAAAACATGCGGAACTGGTGCAGATCGTACGCCAGCAGGGCTGA	MKVSHERDTQLAMHLYRVFAKSFKSVNEHVVNGSKIEGFNPTSFAVMEVLFYKGRQPIQQIGAQLLLQSGNVTYVVDKLVEKGYVRRRPCPEDRRVIYAELTPSGEQLMQKLYPLHEQHIQHALGGLDEEEKRQLIGLLGKMGKHAELVQIVRQQG				NA	NA	NA	NA	NA
AK002_00851	732	ecsA_1	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGCATAAGATTCAAGAGAATGGACTTGGGCTTGAACCGGTGCTGAAGGTGGATATTCAGGAGGCAGGATACGAGCCAAGCCGCCCGCGCATACGGGATATATCGTTTCAAGTGGTGCCCGGCGAGCTTCTGGGTTTGATCGGACCGAACGGAGCGGGGAAGAGCACGACCATTAAGACGGTGCTGGGGCTTCTAAAAGATAGCAAAGCCGATGTCTATATTGCGGGCAACCCTCCGCGATATGCTTACGTTCCCGAGCAGCCCGTGTTTTACGAGGACTTGACGCTGTGGGAGCATTTGGATCTGGCAGCTGCTGCTTTTGGAATGGACGATCAGCAATTTGAGGAGCAGGCCGCCCAGTTGCTTCGGCAGTTCGGCATGGAGTCGGTACGCCATGAACTGCCGGGAGGCTTCTCCAAAGGAATGAAGCAGAAGATGATGCTGATGATCGGCTTTCTCTCCAAACCCGACGTTTATATCGTGGACGAGCCGTTTATCGGTTTGGATCCCCGGGCAACGCGCGACTTCCTGAATTTGCTGCTCGAGGAGAGGCGCCGTGGCGCAGGTGTATTGATGTCTACCCATGTGCTGGACACCGCGGAAAAAATTTGCGATCGATTTGTACTCATATCCGGAGGGCGGATTGCCTCGGAGGGCACGCTGGACCAAATCCGGCAGTCCGCTGAACTTCCCGGCGCATCGTTGTTTGACTGCTTCGATGCGCTGACATAG	MHKIQENGLGLEPVLKVDIQEAGYEPSRPRIRDISFQVVPGELLGLIGPNGAGKSTTIKTVLGLLKDSKADVYIAGNPPRYAYVPEQPVFYEDLTLWEHLDLAAAAFGMDDQQFEEQAAQLLRQFGMESVRHELPGGFSKGMKQKMMLMIGFLSKPDVYIVDEPFIGLDPRATRDFLNLLLEERRRGAGVLMSTHVLDTAEKICDRFVLISGGRIASEGTLDQIRQSAELPGASLFDCFDALT	PGPT0006725_24859	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_00852	1266			hypothetical protein	ATGGAACGATCACATCACTTCAGACATCCGGCCGCCCTCTTATGGCGAAGGGTGACCGCTCATTGGAAGAATCAGCGCGACAATCTGGCGACCGTGGTCGACTGGGTCGTAATGCTCTACATTATTGTCCCGGGCCTTCTCTTGGGAGGCGGGTTATACCGCGAGTTATGGACGAGCCCGTTTCCCGGATGGGTACAATTCCTGCCGCTGCAAGCGGTGGTAGGGATCCTGCTCTTCATGTTTTCCGGCAGAGTGCTGCTATTCTTTGAAGAGGCCGACACGTTGTTTCTTCGCCAGAAGCGGGAATGGATGAAGGGATTAATGATCGGAGGCATGGCGTACAGTCATGCGGTTTCAACGATCAAGGGATTGATCATCTCGGTGCTTGCGCTGCCGATTCTCGTCAGGGAACATGAAATTACCGGAACTGCCCTGATGACATTACTGGCAGTTACAGTCGTTTGCGCCTGGTGCGCCAATCTATGGACGGCCATGATCCGTTCCCGTTATAAAGGATGGCGGAAGCATCTGATGACGTATGTTGTACGCTGGCTATCATTCGGACTGCTGACGCTGCTTGTTACGTTTTGGCTTCATTCCTATGTTGTTATATGGGCGGCGGTCTTGCTTCTGCTCATGCTGCTTTTTTTTCTCAGCCGAAAGCGTCTGGCCATGCAGGGGACCTTCCTGGCCGATGCGCGCGAGGATGCAAAGACTCGGGTGCAGCTGACGGAGAAGCTGCTGGTTCAAGCCGTCGGGAAACCGCCCAGCATACGAAGCAAAACCTGGTTTATGCGGAAGTCCGGCCGATTGTTCAAAGGCACGGCAGAGAAAAGGCTCGCCGATGCGGGGCTTAAAGCGATTTTGCGCCAACCTGAGAGCTTGTTATTGTACGTTCAGATTACGCTGGTCGGCATCCCGGCCGTCTGGCTGCCGCCGCTGATCATCAAAATCATCGTTTATGCTGCCCTTGTCTTGATGATGTCGTATTGGCTGAACACAAGATGGGCGTTGTTTGCCAAAGCCGAATTCATGCATGTGCTTCCGTTTACGAATCAACAGCATCGAGCCGCCGGCATTGTTGCGGTACGAGCTTTGCTCGCCGTTCCCGCATTTCTTTATTCGCTCGTGGCAGGATTAACGCTTTTTCAGGGCGTAACGGGATGGCTCGCCGTGCTTGCATTGACCGTGCTTGCTCTCATGGTCGCGCCCTCGCTCATGTCTTGGCCGGTATACAAGGAGGAGAAACGCCAACCTCAGGAATAA	MERSHHFRHPAALLWRRVTAHWKNQRDNLATVVDWVVMLYIIVPGLLLGGGLYRELWTSPFPGWVQFLPLQAVVGILLFMFSGRVLLFFEEADTLFLRQKREWMKGLMIGGMAYSHAVSTIKGLIISVLALPILVREHEITGTALMTLLAVTVVCAWCANLWTAMIRSRYKGWRKHLMTYVVRWLSFGLLTLLVTFWLHSYVVIWAAVLLLLMLLFFLSRKRLAMQGTFLADAREDAKTRVQLTEKLLVQAVGKPPSIRSKTWFMRKSGRLFKGTAEKRLADAGLKAILRQPESLLLYVQITLVGIPAVWLPPLIIKIIVYAALVLMMSYWLNTRWALFAKAEFMHVLPFTNQQHRAAGIVAVRALLAVPAFLYSLVAGLTLFQGVTGWLAVLALTVLALMVAPSLMSWPVYKEEKRQPQE	PGPT0006730_3047	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_00853	1278		COG2081	putative protein	ATGCTTGATTATGATATTATCGTCGTCGGCGGCGGACCTTCCGGATTGATGTCCTGCGTGGCTGCAGGGGAAAGAGGAGCTTCCGTTCTCTTGATCGACAAAGGGGACAAGCTGGGCCGTAAGCTTGGCATCTCGGGCGGCGGAAGATGCAATGTCACGAATGCCAAAGAACAGGATGAATTGATTGCCAACATCCCGGGGAACGGACGCTTTTTATACAGCGCTTTTCAGCATTGGAACAACAGGGATATCATGACCTTCTTCGAGGGGCTTGGCATCCGGTTGAAAGAGGAAGACAACGGGCGTATGTTCCCTGTTACGGACAAAGCCTCCAGCGTGGTGAATGCCCTGATTGGCAAAGTGAAGGAGCTCGGTACCGATATACGGACGAATAGCCCGGTGAACCGCGTTCTCTATGAGAACGGCCGGACGTCCGGGGTCGAGCTGAAATCCGGGGAAGTGATCCAATCTTCCTGCGTGATCATTGCCACCGGCGGGCAATCCGTGCCCCAAACCGGTTCGACGGGAGACGGTTACCCATGGGCTGAAGCCGCAGGCCATACGATAACGGAGCTGTATCCGACCGAAGTGCCTATCGTGTCTACCGAGCCTTTTATTGCCTCTAAAGAGCTGCAGGGCTTGTCACTGCGGGAGGTGGAGCTGTCCGTCTGGAATCCGAAAGGAAAAAAAGTGATTGCCCACCGGGGAGATATGCTGTTTACCCATTTCGGGGTGTCCGGACCGATCGCGCTTCGCTGCAGTCAGTTCATCCGCCAGGTGCAGCGGAAATTCGATGTCGTCAACGTGGACATGGCCATCGACATGTTCCCCGAGCGCTCTCAAACGGAGCTTGCGGCCGAGCTCAAAGGGCGATTGGAGGATGAGCCGCGAAAGAGCATCAAGAACGTGCTTAAGGGCATGCTGCCGGAACGGATGATCCCGCTGCTGTTATCCAAATCGTCCATCGATAGCGACATGATCTGCAGCGGCATATCCAAAGCCGCGCAGGAAAACCTGGCCTCCGTTCTTAAAAAGTTCACGTTCCGCGCTTCAGGCACCCGTTCGCTGAAGGAGGCCTTCGTGACGGGCGGCGGCGTCAGCCTCAAGGAAATCCAGCCCAAAAGCATGGAATCGAAGCTGATGCCCGGCCTCTTCTTCTGCGGGGAGGTTATGGATATACATGGATACACCGGCGGCTACAACATCACGGCCGCCTTTGCGACCGGATATACGGCAGGCAAGCATGCCGCCGAGTCCGTATCGCACATAGCCGATTAA	MLDYDIIVVGGGPSGLMSCVAAGERGASVLLIDKGDKLGRKLGISGGGRCNVTNAKEQDELIANIPGNGRFLYSAFQHWNNRDIMTFFEGLGIRLKEEDNGRMFPVTDKASSVVNALIGKVKELGTDIRTNSPVNRVLYENGRTSGVELKSGEVIQSSCVIIATGGQSVPQTGSTGDGYPWAEAAGHTITELYPTEVPIVSTEPFIASKELQGLSLREVELSVWNPKGKKVIAHRGDMLFTHFGVSGPIALRCSQFIRQVQRKFDVVNVDMAIDMFPERSQTELAAELKGRLEDEPRKSIKNVLKGMLPERMIPLLLSKSSIDSDMICSGISKAAQENLASVLKKFTFRASGTRSLKEAFVTGGGVSLKEIQPKSMESKLMPGLFFCGEVMDIHGYTGGYNITAAFATGYTAGKHAAESVSHIAD				NA	NA	NA	NA	NA
AK002_00854	1725	sasA_6		Adaptive-response sensory-kinase SasA	GTGCTGAGCCTATGGAAAGATATTTTGCTGCAAGTTTTGCTGTCTGGTACACTCATCTTTCATCTGCCGCTTCTCCTCGACAGACATCTAAAGTGCCTGAACAAGAAGAATCCGGATGATCTGCTTCGATTTCGCAAGCATATTGTCATTGCCAGCGGAATCAGCACTGTATTGTGCGTCTTGATTTCTGCAATGAGCGATTATTACGTTCCGATCCATCTTGGCGTGATCCCGTTATTTTTAGGCATATTATATGGAAGCAGGAGTTCAGGGCTATGTCTTGCAGTAATTTATGTCATAAGCCATGGGCTGATTAACGGCTGGTCAACGACCGGCCTCGTTCTGAATTTGCTTGTCTTGGGATACTCGCTATTACCTAGGGTATCCTCCAATTTCAAGAAAGGCTCCATGACCGAAAAGATTTATTGGCTCTGGAGCGCGCTCGTTCCGGCTATGCTGATTATTGTAGCCTGCCACGCGATGGAAGGAAAGGCTAGGAATGACGATCTGAATCCGGACACGATTCTGGTGACCATTCTGTATATGCTGATCGGCATTTTTTATTCGGGACTGATCGTGTATTGGATCGAATTAACCTCTGGGCGTCTGGCTTCGGGCCAGTACGACGTGAAGGACGGAGAGATTGCTTCATTAACGAAAATGATGGAGATGATTCCTTTAGGGATGGTTGCGGTGGATCGCAGCGGCAATATCATCGCCTTTAATCAACCGCTTATCCGCAGCTTTCGAAACGTGTTTCCCAATCTGACCACCAAGGATGTCATCGGCAGGCCGTTGTTCGACTTGTTGGAGGGCATGATTCAAAAGGAACATCTGCGCAGCCGATTTCAGAGAGCCATAAACGGTGTCGAAAGCACCGGAGAAGTTATGCGCAGCGCTACTAGAGTGTACTCTACCGGCATTTATCCGCTTATACATAATGGGAACGGCGACATCATGGGTGCGGTAGGCATTATGGAAGACATTACGGAGCTTGAGAAGCTCCGCACGGAATTTATTAATGTAGAACGGTTAAGCTTGGTCGGCCAAATGGCGGCAAGCATCACCCACGAGATTCGCAACCCGATGGCTGTCGTGCGCGGATTCCTGCAGCTTATGAAAGAGAAGAGTCCGGATACGCTGGATCATTATTACCGGATCGTCATGGAAGAGCTCGATCGGGCCAATGGCATCATCAGCGACTTTTTGTCCCTGGCCCAGAACCGGGCAGCCGAGAAAGAAGAATGCCACCTTCATGACATTATCCATGAGCTCAGCCCGCTCTTGTGGGCGGACGCTAATTTGCGCGGACAGAACATCGAGCTGAAACTGGGAACCGGCATTCCCGAACTGTATCTGAATGCCAAGGAGATGAAGCAGCTCATTCTGAACTTGTGCCGCAATGGGATGGAGGCCATGGATGACAAGGGGACGTTGACGATCGAAACCCGGCTGGAAGGGGACCTCGCCCAGCTGTATGTGGCAGATACCGGAATCGGCATACCGGAGAATGAGCTGGAGCGCTTGTTTGAACCTTTCTTTACCACGAAGAGCAAGGGGACGGGGCTTGGACTCGCCCTGTGCATGAGCATTATACAGCGTCATCATGGAACGATAGACGTAAAATCCCACCTAGGCAAGGGTACGGTGTTCATCATTTCTTTTCCTGTCCGCTCGTACCCGCACGGCCTGTCGGAATCCCAGAGCGCTGCCGCTTCCGAATAA	MLSLWKDILLQVLLSGTLIFHLPLLLDRHLKCLNKKNPDDLLRFRKHIVIASGISTVLCVLISAMSDYYVPIHLGVIPLFLGILYGSRSSGLCLAVIYVISHGLINGWSTTGLVLNLLVLGYSLLPRVSSNFKKGSMTEKIYWLWSALVPAMLIIVACHAMEGKARNDDLNPDTILVTILYMLIGIFYSGLIVYWIELTSGRLASGQYDVKDGEIASLTKMMEMIPLGMVAVDRSGNIIAFNQPLIRSFRNVFPNLTTKDVIGRPLFDLLEGMIQKEHLRSRFQRAINGVESTGEVMRSATRVYSTGIYPLIHNGNGDIMGAVGIMEDITELEKLRTEFINVERLSLVGQMAASITHEIRNPMAVVRGFLQLMKEKSPDTLDHYYRIVMEELDRANGIISDFLSLAQNRAAEKEECHLHDIIHELSPLLWADANLRGQNIELKLGTGIPELYLNAKEMKQLILNLCRNGMEAMDDKGTLTIETRLEGDLAQLYVADTGIGIPENELERLFEPFFTTKSKGTGLGLALCMSIIQRHHGTIDVKSHLGKGTVFIISFPVRSYPHGLSESQSAAASE	PGPT0025290_292	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025290-kinE-K13533	NA	NA
AK002_00855	114			hypothetical protein	ATGAGTAAGAACGATTCCAAGCAACAGGAGCGGCAGGAGCGTGAAAACAAAGATCGCCGTGGCGAGCCCATCGTTGACAAGAAAAAGGACGGGGTAAACTATCCTGCTACCTAG	MSKNDSKQQERQERENKDRRGEPIVDKKKDGVNYPAT				NA	NA	NA	NA	NA
AK002_00856	435			hypothetical protein	ATGGGTATGTCTTTTGACCGATATATGCGCGATATGGTTCAACCGATGCGGGATGAACTGACCAGTTTGGGAATCAAGGAGCTCACAACACCTGAAGAGGTGGAAGAAGTGCTTCCGGAGGCGAAAGGCACAACGCTGGTCGTTGTAAACTCCGTATGCGGATGCGCAGCAGGGCAAGCACGTCCTGGTGTAGCCATTGCGCTTGAGAACCAGGTGAAGCCGGATCATTTGTATACCGTGTTCGCCGGACAGGATAAGGAAGCAACGGCGAAAGCCCGTGAGTATTTTGCTCCGTATCCTCCATCCTCCCCATCGATTGCGCTGCTGAAGGACGGGGAATTGGTGCACTTTATTGAGCGTCATCAAGTGGAGAACCGTTCCGCCGAGGAAATCGCCGCAGATTTGACCGACGCATTCAATCGCTACTGCCAGTAA	MGMSFDRYMRDMVQPMRDELTSLGIKELTTPEEVEEVLPEAKGTTLVVVNSVCGCAAGQARPGVAIALENQVKPDHLYTVFAGQDKEATAKAREYFAPYPPSSPSIALLKDGELVHFIERHQVENRSAEEIAADLTDAFNRYCQ	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
AK002_00857	810	nadE	COG0171	NH(3)-dependent NAD(+) synthetase	ATGAGCCTGCAAGAACAAATTATCGCTGAACTGGGTGTCAAACCTACGATTAACGTGGAGGAAGAGGTACGCAAACGCGTGGATTTCCTGAAAAACTACGTGAAGAACTCCGGCACTTCCGGACTGCTGATCGCCATTAGCGGCGGGATCGATTCGGCCGTGGCCGCCGGCCTGTGCAAGCGGGCTACAGACGAGCTCACGGAGGAGAACGGCAAGGAATACAAGACGCTCGGGGTGTTCCAGCCATACGGCGAACAGGCCGATATTTCCGACAGCTACGCAACGGCGAAGGCCTTCGATTTGAAATATACCGTCGAGACCAATATCGAGGAGGCGGTGAACGAGGTTGCTTTGGAAGTGGAGCATGGCCTGAAGAATATCGGCGTCCATCAACATATGAGTATCCCCGGCAAAGGCAACGTGAAGGCCAGAGTGCGTATGGTGGTACAATATGCGTTGGCATTCGAGCAGAATTTGATTGTTGTCGGCACGGACCATGCATCCGAGGCGATTACCGGCTTCTATACCAAGTGGGGGGACGGCGCAGTGGACATTACGCCGCTGAGTTCCCTGAACAAGCGTCAGGTTCGCATGCTTGCATCCTATTTGGGGGTACCGCAATCGATTCTGGACAAAGCACCTTCTGCCGGACTTTGGGAAGGACAGACGGACGAGAAAGAGCTCGGAATCAGCTATGATGATAACAGTGACTATCTGGAAGGCAAAACGATCAATCCCGAGGTTCAGCAGAAGCTTGAGAGCTATTACGTCAAAACGGCGCACAAGCGCAATACGATTCCAGGCATCTAA	MSLQEQIIAELGVKPTINVEEEVRKRVDFLKNYVKNSGTSGLLIAISGGIDSAVAAGLCKRATDELTEENGKEYKTLGVFQPYGEQADISDSYATAKAFDLKYTVETNIEEAVNEVALEVEHGLKNIGVHQHMSIPGKGNVKARVRMVVQYALAFEQNLIVVGTDHASEAITGFYTKWGDGAVDITPLSSLNKRQVRMLASYLGVPQSILDKAPSAGLWEGQTDEKELGISYDDNSDYLEGKTINPEVQQKLESYYVKTAHKRNTIPGI	PGPT0013445_2363	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
AK002_00858	552	yyaP_2	COG0262	putative protein YyaP	TTGGGTACATTAATTTATCACGTTGCCGTTTCGCTTGACTATTTTATCGCAGATCAGGCCATGATGGAGGGAAGAATCGATCAGACCCTTTTTTTATTCGATGGGGAACATGTTCCGGACTTTCTAGCGGAAATCCAGGACTATGAGGCGGTCCTCATGGGCGGAAAAACGTATGCGTTTGGTTTTAAGATGGGGGCTAAGCCGGGGGAGCCAGGTTACAAAGGTCTTAAGCATTATATATTCTCACGTTCGTTAGAATTCGAATCCAACGATGAGGTTGAATTGATCAAGGAGGACGCCACCCCCTTCATCCGTCATCTCAAAGAGCAGGCAGACGGCAAGCTGTGGCTGTGCGGCGGCGGAGAATTGGCAGGAAGCCTGCTCCAGCATAAACTAATCGATCAGCTGGTTTTAAAAATTAATCCAGTGATGGTTGGTGACGGTGTTCCGTTATTCGGGAGTGTAAAACCCAGGTTGAAGTTCGATTTGATCAATATGAAGCAATATGCCAACGGCGTTCTCAAACCGACCTACAACATAATATATACCTAG	MGTLIYHVAVSLDYFIADQAMMEGRIDQTLFLFDGEHVPDFLAEIQDYEAVLMGGKTYAFGFKMGAKPGEPGYKGLKHYIFSRSLEFESNDEVELIKEDATPFIRHLKEQADGKLWLCGGGELAGSLLQHKLIDQLVLKINPVMVGDGVPLFGSVKPRLKFDLINMKQYANGVLKPTYNIIYT				NA	NA	NA	NA	NA
AK002_00859	438	acpS	COG0736	Holo-[acyl-carrier-protein] synthase	TTGGAACAGGAAGACTGGATCAACGAAGGGGAGCAGACGATTGTGATCTACGGAATCGGGCATGATGTGCTGGACATGAAGCGAATGGAGACGTTGATGACAGGCCCGCATGGAGAGAAGTTCATGCAGCGCGTGCTTACGCAGCAAGAGCAGGCCGTTGCCGCTAAGAAGGGGGCAAGACGGACGGAGTTTGTTGCCGGGCGTTTTGCTGCCAAGGAGGCGATATCCAAGGCATTTGGCTGCGGAATCGGCCGCCTGATCGGATTCCATGACATGGAAGTAATGCCGGGTGCTCTCGGCAGGCCGGAAGCCAGTCTGTCCAAGGAAGCCTGGGACCGTCTGGGCTTGGGGGGCTCCGCCCATTATGCGATTCATTTGACGATTTCCCATCAGGCCACGCTGGCTTCCGCTTTCGCCGTGGTGGAGAAGATCAAGTAA	MEQEDWINEGEQTIVIYGIGHDVLDMKRMETLMTGPHGEKFMQRVLTQQEQAVAAKKGARRTEFVAGRFAAKEAISKAFGCGIGRLIGFHDMEVMPGALGRPEASLSKEAWDRLGLGGSAHYAIHLTISHQATLASAFAVVEKIK	PGPT0008840_378	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
AK002_00860	1149	mutY		Adenine DNA glycosylase	ATGCATAACACGGAACACAAACGATACTTCAGCCTAGAGCTGCTGGATTGGTATGAAATCAATAAACGGGATCTGCCATGGCGCAGGCATCGCGATCCTTATTATATATGGGTATCTGAAATTATGCTGCAGCAGACCCGGGTAGACACGGTGATCCCGTATTTCCATCGGTTTATCGAGCGGTTTCCGACAATCCAATCGCTTGCGGACGCGCCGGAGGACGATGTATTGAAATGCTGGGAGGGTCTGGGCTATTATTCCCGCGCACGCAACCTACAGGCTGCCGCTAGACAAGTGACCGAGCAGTACGATGGCGTGATGCCCAGCGGCAAAGACGAAGTATCGGGTCTGAAAGGGATAGGTCCCTATACCTCGGGCGCCATTCGCAGCATCGCGTTCAACATTCCGGCCGCGGCCGTGGACGGCAACGTGATGCGCGTGCTTTCCCGTTATTTTTTGATCGAGGAAGATATCATGAAAGTGAAAACCCGTACCAAGATGGAGGAGCTTGTGCTGACGCTGGTTCCGGATGGACGGGCCTCGGATTTCACCCAGGCGCTGATGGAGCTGGGGGCCTTGATCTGTACGCCGAAGTCTCCCAAATGCCTGGTATGTCCGGTCATGGAGCATTGTTCGGCCCGGCTGGAGGGCAAAGAGGAATCGCTTCCTATTAAAACGAAGGCCAAGCCGCCGCGTCCTGAATACCGTCTTACCGCGATAGTAGAGGGTACCGGCGTGCACGAAGGAAAGATCCTGATCCGCAAGCGTCCAGCCGCCGGTTTATTGGCCGGGATGTGGGAACTGCCGCATGTGATCGTACCGGCCGATGGGAGCAGCGTACCGGCCGCAATGCCCGAGGAGACGGCGATGGTCCGCTTGCGCGATGCCTTGCTGGAAGAAGGGGTCCCGGTCCAGCCGATCGGCCATGTGATGGACGCGGAGCATACCTTTAGCCATATTCAATGGAATATGGGCGTATACCGCTGTAAGTGGCAGGATGTGCCGCCGGCAGTCCTGCAAGCAGCGGAAAGCGCGGCTGCATATGAGACGGGCGAAGAGAATTTCCGGTGGATTCACGTTCAGGATATGGAGCGCTACGCATTTCCCAATGTATTCATCCGGATTCTGAATGCCTATTTCTCATCTTGA	MHNTEHKRYFSLELLDWYEINKRDLPWRRHRDPYYIWVSEIMLQQTRVDTVIPYFHRFIERFPTIQSLADAPEDDVLKCWEGLGYYSRARNLQAAARQVTEQYDGVMPSGKDEVSGLKGIGPYTSGAIRSIAFNIPAAAVDGNVMRVLSRYFLIEEDIMKVKTRTKMEELVLTLVPDGRASDFTQALMELGALICTPKSPKCLVCPVMEHCSARLEGKEESLPIKTKAKPPRPEYRLTAIVEGTGVHEGKILIRKRPAAGLLAGMWELPHVIVPADGSSVPAAMPEETAMVRLRDALLEEGVPVQPIGHVMDAEHTFSHIQWNMGVYRCKWQDVPPAVLQAAESAAAYETGEENFRWIHVQDMERYAFPNVFIRILNAYFSS				NA	NA	NA	NA	NA
AK002_00861	1236			hypothetical protein	TTGCATAGTTGGAAGAATGCGTTGTTGTACATTGTTGGCATCGGGATCTCCAATCTTGGGAACTGGATCTATCTGGTTGCCATCAATTTGCTCGTGCTCCACATGACGGGGTCTCCCGCGGCAGTGGCCGGATTGTTCATCATCCGGCCGCTCGCTACCCTGTTGACCAATTCCTGGGCGGGCAGCATCATCGACAGGGCGAACAAGCGCAGGCTTATGATGACCACCGATGTGATCCGGGGGGCTTTGATCGCCCTGATTCCCTTCATGTCCTCGGTGTGGGGCATCTATGGCATCATGTTTCTGATTAACGTGGCGGGCTCTTTCTTCGGGCCTACGTCCATGACGTACGTAACGAAGCTGATTCCGGCTGAGGAACGAAAGCGGTTCAACGCATGGTCCAGCTTTACGACTTCCGGCGCTGTGCTGCTTGGACCCGCCGTATCCGGCCTATTGATCGCTTACACGGATATTCGGGTCAGCATCGTCATCAATGCGGTATCCTTCCTGATCTGTGCGCTTGTCATCTACTTCCTTCCCGATGTGGATGGAGAGGAGGCGGCAGGCAGCAAGCGGGAGGCCATGACGATGAGGATGCTGCTGCGGGACTGGGCCGCGGTGATCGATTTCGGAAAGGCCGCGAAGTATTTTATGCTCGTATACGTGCTGTTTCAATCCGCCACGCTGCTCGGGTTTGCGCTCGATTCCCAGGAGGCCACGTTCATTAAGCAGGTGCTGCTCCTCGGCGACGAGGATTACGGATTGCTTGTCAGCGTAGCGGGTGCAGGGTATCTGGCAGGCTCGATGGCTGCGTCTTTATCCGTTAAACGGCTGTCGCTGCGAATGTTTATCGGTGCAGGGATGCTCCTGTCGAGCATCGGCTATATGATCTTCTATGCCGCATCGGGTCTCATGACGGCCGTAATCGGTTTTATCGTGTTTGGTTTCTTCTCTTCGTATGCCAACGCGGGCTATACCACCTTTTTTCAAAACCAGGTACCCGTTGACCTCATGGGACGCTTTACGAGCGTGACCCGACTGCTGGAAGGGATGCTGCAGATTCTCTTCACGCTCCTGCTCGGTTTTGCCGCCGATGCCTCGTCGCTGCAGGCCGTATGCCTGATCGGGGCAGGCGCAGCGGTACTGTCCTCGGTCATGCTGCTGGCGGTCATCTACTCGCCGTCTAAAGCGCGCTACTATGAATCCGGCCCTGCGGCAGCGGCAAACGATGCTTAG	MHSWKNALLYIVGIGISNLGNWIYLVAINLLVLHMTGSPAAVAGLFIIRPLATLLTNSWAGSIIDRANKRRLMMTTDVIRGALIALIPFMSSVWGIYGIMFLINVAGSFFGPTSMTYVTKLIPAEERKRFNAWSSFTTSGAVLLGPAVSGLLIAYTDIRVSIVINAVSFLICALVIYFLPDVDGEEAAGSKREAMTMRMLLRDWAAVIDFGKAAKYFMLVYVLFQSATLLGFALDSQEATFIKQVLLLGDEDYGLLVSVAGAGYLAGSMAASLSVKRLSLRMFIGAGMLLSSIGYMIFYAASGLMTAVIGFIVFGFFSSYANAGYTTFFQNQVPVDLMGRFTSVTRLLEGMLQILFTLLLGFAADASSLQAVCLIGAGAAVLSSVMLLAVIYSPSKARYYESGPAAAANDA	PGPT0027965_1040	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK002_00862	609	sodA		Superoxide dismutase [Mn]	ATGGCATTTCAATTACCAGCACTTCCTTACGCAAACGACGCGCTCGAGCCTCACATCGACGCACAAACGATGGAGATCCACCATGATCGCCACCATAATACCTACGTAACCAACCTGAACGCTGCTCTTGAGAACGCTCCTGAGCTTCAAGGCAAATCCCTTGAGGATCTGATCGGCAACCTTGATGCTGTACCGGAAAGCATCCGCACAGCGGTTCGCAACAACGGCGGCGGCCATGCTAACCACTCCCTGTTCTGGGAAGTAATCGGACCAAACGGCGGCGGACAACCAACCGGCGCTTTGGCTGATGCCATCAACAGCGAGCTCGGCGGCTTCGATAAATTCAAGGAAGATTTCGCCAAAGCGGCTACAACTCGTTTCGGCAGCGGCTGGGCTTGGCTCGTTGTTAAAGACGGCAAACTGGCAGTAACCAGCACTCCTAACCAAGACAGCCCGATCATGGAAGGTCAAACTCCTCTCCTCGGCCTGGACGTTTGGGAGCATGCTTACTACCTGAAATATCAAAACAAACGCCCGGACTACATCTCCGCATTCTGGAATGTAGTCAACTGGGAAGAAGTCGGCAAGCGTTACGACAACGCGAAGTAA	MAFQLPALPYANDALEPHIDAQTMEIHHDRHHNTYVTNLNAALENAPELQGKSLEDLIGNLDAVPESIRTAVRNNGGGHANHSLFWEVIGPNGGGQPTGALADAINSELGGFDKFKEDFAKAATTRFGSGWAWLVVKDGKLAVTSTPNQDSPIMEGQTPLLGLDVWEHAYYLKYQNKRPDYISAFWNVVNWEEVGKRYDNAK	PGPT0004190_4022	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
AK002_00863	2568			hypothetical protein	ATGAATAGTACAAAGTTCAGAGTGACGGCCATTTTGATGGCTGCGATTCTGGCTGCGGCACCGCAAGTGGAAGCTGCTGCATCTAAGACGGAGACATCGCAGATCGCGAAGTCGGCCGCGCAAAAAAATGCAAATTTGGCCTGGAGCGTGAAGCTGGGCAGCAACGTCACGGCGAAGCTCGACCATGCCGACGTATGGCAGCAAAACGGGTCGCATGCGGCGGTATTTACCCTGACTTATAAAAATGGGGGCAAGAGCGCAGCGCGCCTGGTATCTTATTTTCCCAAGGTGGTCCTTCCCGGCGGTTCCGTGAGCGCGGCCAATCCCATTTCCAAGGACCTGGCCAAGAAGAAGGTAGAGCCCGGGCAAAGCGTGAGCGTCACCTACTATGCAAAGACCGACAGCAGCTCTTTGGCCGGCATGAAGCTGGTCATGGACGTATGGAATCCGCAGGTCAAAGGCTACCTGCAGCGCGTCGGAACGTACAGAATGCCCGCCAATTATTCCGCTGCCGTCCCAACGGGCTCAAGCACCAAGCTGAAGCTGGGCGGAACGCCGGTTACCGTACAGGCGGAATCGCTGGAGATCATCAAGTACGACGGCAAAGTCATCGCCAAAGTCGGGATGTATATGACCAATCATGGCGGCAAGGTATGGAACGATCGGGGATTCGAGCCGCATTTGGTAACGGCAAGCGGCAACTCGTTCCCTCTGCGTCATGAGGCGGGGGCGGAGGGGGTGCCAGTCCAGCCGAAAGAAAAGAAACTGGTTTACTACATAACGGAAGTTCCCTCTTACCTGAAGACGGCCGGCCTGCGTTTCTTATGGACCGAAAACGATGACACGCTGAAGCTGTCACTGCCTGTCGCCTCATTCAAGCTGCCGGCTGCAACTGCTCCGAAGTGGGACGTCAAGGCGGGCGAAGCCAAGAAGTTGACCATCCGGGGGATTCCGGTCGATGTCAGAATCCGCCAGTCTTCGCTGCGTGCCTCCGGCGGACAGGGCATATGGACCATCGAGATGGCCTTCAAGAACAAAGGAAAAAAATCGGTGGAGGTTCCGGCCTACGAGTTCGCGATTAAAGCGTCCGAAGGCTCCTTCCATCCTTATACGCCGGACGGCAAAACGGGCTTGACGCTCCGCCCCGGGGAAGAGAAAACGATGGTGATGGAAATCACGCTTCCGCTTGATCTCAAGCAGGACCGGCTGAAGCTGCAAATGATCGGGGCATCAGGCACGGCCGGCGCATCCAAACCGCCCGCGAATCCGGGTGAGTCGGGCAGCGAGCCGACCTCCGAGGTTCAGGAGCCGTTGACCCTGCCGATTGCATACTTTGCCATCCCGTACCAAACGGAACGCAAGTCATCCATCGGCGTGGAATACGGCGCGCAGTCGGCCAAAGGCTTTGCGTACACGCTGGAATCCATCCAGCGCCTGCCGTGGCAGGACCAGGACCTGATCGTGGCGAAGCTGCGGCTGCGGAATACCCAGGAATCCAAATCGCTGCCGCTGCCTGAGCTTAAAGCGAACGTCACGGCGGATGAAAAAACAGGCTTGGCCGGCCCGGAGGTCATCGCCGAGGAGCAGGGCTCCCTGATAGCGCCGGGGGCATCAACCGAGGTGTACGTCATGGCGCGGATCCCGTATACGAAGGATATCCGTTCGCTCCGTTTCGAGCTGTTTACGCAGCAGGAAGCGGCCAAAACGTCGTTCCTGACCATGACCACGTCCGGGATGATGCAGTCGATCGGCGTTCTGGAGAAAGGGAAGCCCTATACGGTCACGGCTGCGGGTAAACGTGCGGAGGCACAAGAACGGCGGACGGTCATCTATGAAGGAGCAGACTCCGATATCGTCTATTCGGAGTTCGTGCTGACCAGCAATGAACAGCGCCGCGTTCAAGCCGCAGTGCTGAAGGGGTACTTCCAAAGCACGGACGGCAGGATTTATGAAGCGGAGACCATTCAGCCGGAAGCGGCCCTTCAGCCGGGATCCAGGCAGTCGATCGTCTTTTGGGCCCGAGTGCCGAAAGGGGCTGCCAGCGAATTGGGCCTGGCCCTCGGCACGGCGATGTCCGGAGGCAAGCTTGCGGAAACGGGCAAGGACGCTACGGGTGTGCTGGGCGTGAAAAAATTAATGCTGAATCCGGCCAGACCTGCGGCAAGCTCCGGCCTGACGCAGCTCGATTGGTATCCTTACAGCGTTTCGGTTACGAAAGCGGCTGGACATTTACAGGAGGGCAGTTCCACCATATCGCTTAATGCCACGTTGGATGTGAAACGCAGCGAGAGCATTGCGGCCGCGGATTCCGGCCGCAAGCTGATACTAATCATCAAGGACAGCCTCGGACAAACACAGGAGCGGACGCTTACGCCAGGCACCGATATCCAAGTGCCGGGCACCCGGTCGATATCGATGGAGCTGACGGACGAGCAGTACAAAAAGCTCCGCGGCGGCTGGTTTAACTTGACCCTTGTGGACGAATTCCAGAACGAGCGGATCACGCTGGGCAGCCAAAGCTACAACCTGACGTTCCAGCCCCTTCTGGACCCGAACGAGGAGAGATAG	MNSTKFRVTAILMAAILAAAPQVEAAASKTETSQIAKSAAQKNANLAWSVKLGSNVTAKLDHADVWQQNGSHAAVFTLTYKNGGKSAARLVSYFPKVVLPGGSVSAANPISKDLAKKKVEPGQSVSVTYYAKTDSSSLAGMKLVMDVWNPQVKGYLQRVGTYRMPANYSAAVPTGSSTKLKLGGTPVTVQAESLEIIKYDGKVIAKVGMYMTNHGGKVWNDRGFEPHLVTASGNSFPLRHEAGAEGVPVQPKEKKLVYYITEVPSYLKTAGLRFLWTENDDTLKLSLPVASFKLPAATAPKWDVKAGEAKKLTIRGIPVDVRIRQSSLRASGGQGIWTIEMAFKNKGKKSVEVPAYEFAIKASEGSFHPYTPDGKTGLTLRPGEEKTMVMEITLPLDLKQDRLKLQMIGASGTAGASKPPANPGESGSEPTSEVQEPLTLPIAYFAIPYQTERKSSIGVEYGAQSAKGFAYTLESIQRLPWQDQDLIVAKLRLRNTQESKSLPLPELKANVTADEKTGLAGPEVIAEEQGSLIAPGASTEVYVMARIPYTKDIRSLRFELFTQQEAAKTSFLTMTTSGMMQSIGVLEKGKPYTVTAAGKRAEAQERRTVIYEGADSDIVYSEFVLTSNEQRRVQAAVLKGYFQSTDGRIYEAETIQPEAALQPGSRQSIVFWARVPKGAASELGLALGTAMSGGKLAETGKDATGVLGVKKLMLNPARPAASSGLTQLDWYPYSVSVTKAAGHLQEGSSTISLNATLDVKRSESIAAADSGRKLILIIKDSLGQTQERTLTPGTDIQVPGTRSISMELTDEQYKKLRGGWFNLTLVDEFQNERITLGSQSYNLTFQPLLDPNEER				NA	NA	NA	NA	NA
AK002_00864	768	ytrE	COG1136	ABC transporter ATP-binding protein YtrE	ATGCTGCGTTTGGAAAATGTATCGCACAGCTTTAAGAACGGCAACGAAGTGTTAAAGGTGCTTCATAACATCCAGTTCGAAGTCCAGAAGGGCGAGATGATTGCGCTGCTCGGCAGCTCCGGATCGGGCAAGTCCACGCTGCTCAACCTGATGGCCGGGCTGATGAAACCGACCGAAGGCCATATTTATATTGCGGATCAGGATATAGTCAAATACGGGGAAAACAAGCTTGCCGTTTTTCGGCGCAAGCATATCGGATTTATTTTTCAGGCTTACGAATTGATTCCGACACTCACGGTTCGGGAGAACGTGGAGCTTCCGCTTGTTTTTCAATCCGTCTCTCCGTCCAAGCGCCGCAAGAAAGCGATGGAGCTTCTGGAGATGACGGGGATCGGCGATAAGGCTTCGCTGTACCCGTCCCAGCTGTCCGGCGGACAGCAGCAGCGCGTCAGTATTGCCCGCTCGTTGATTACCGAGCCTTCCGTCATTTTTGCGGACGAGCCGACGGGCAACCTGGACACCAAAACGGAAGAGGAAATTATCCGAATCATGATGTCGCTGAACGAGTCCATGAAAACGACGTTTGTCATCGTTACCCATGAGATGGAAGTCGCCGCCCAAATGAAAAAAACGATTATGCTCCGCGACGGTTATTTGGTTCAGCCGGAGAACTACGCGACTTCCACGGGAGGGCAGCGGGGGCCGAGCGCCCCTTCGCCCCTGTCCGGGGTTCTGGTTCATTCGGAGGAGGCAGGTGAGGTCAGCTGA	MLRLENVSHSFKNGNEVLKVLHNIQFEVQKGEMIALLGSSGSGKSTLLNLMAGLMKPTEGHIYIADQDIVKYGENKLAVFRRKHIGFIFQAYELIPTLTVRENVELPLVFQSVSPSKRRKKAMELLEMTGIGDKASLYPSQLSGGQQQRVSIARSLITEPSVIFADEPTGNLDTKTEEEIIRIMMSLNESMKTTFVIVTHEMEVAAQMKKTIMLRDGYLVQPENYATSTGGQRGPSAPSPLSGVLVHSEEAGEVS	PGPT0013345_11478	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_00865	1278	ytrF	COG0577	ABC transporter permease YtrF	ATGACCGGCATCTCGATCGGATGTGCGGCTATTATCGTAGCGATCAGCATTGGCAACGGAGCCCAGAGTTATTTGGAGACGGAAATCATAGGCGGCATGAAACTTGACGAGATTACGGTGACTCCCCAGAGCACAGGCGGGCCAGGGGAAGGCGGCGGCCAATCGGCGGGAGGAGAACGGGGATTGCTTACGGATGATAAGGTTCAGGTCATTCAGGGCTTCAATCACGTCAAATCCGTTGTAGCCACCAAGCAGCTCGGTTATTTCCGGACCATTTCGTCCGACAACCTGATCCATGAAGGCATCAACATCGTGGCCGTGGACCTGTCCAAGCTTCAAGAGCAGGGGAACCGGTTCAAGGAAGGCGGCCCGCTGGAGCAGATCGGTGCCGTGGTGCTGAATTACGGAGCGACAACCGGATGGAAGGACGCGGAGACGAGCGAAAGATTGAACAATATGATGAATTCCGATCCCAACAATCCGCAGCTATGGGAAGAGTTCCAGAAGTATGAGAGCACCGTTTCGGAAATGATCGGAAAGAACGTACAGCTGGAGCAGATGGACAACGACAAGAAATTGCTCAGCCCGCAGCTCTACGTCGGGGGCGTGCTGGATGTGCCCAAGGGGCGGGATGCCCAGTTTGCATTCTATGACCGTCAGGCCTACATATCCTTTGACACGGCAGATTGGCTGACGGACAGCTTGAATCTGCAAAAAGGGCCAACTTCGAAACAGCGGGTTTACGATAATCTAACGGTCAAAGTGGAGGATCTGCAATATATTAAACCGCTCGAGGACCTGATCTCCAAGCTTGCGCTGAATGCGAGCGACAATCTGGCCATGCGGGATCAGGTTGCTTCCCAATTGGACACCTTCAAGGCGATCGCTCTCGGCATTGGCGTATTTATTCTGTTGCTGGCCTCGATTTCGATCATCGTCGCCATGACGATGTCGACGCATCAGCGCCGCCGGCAAATCGGCATCATGAAGGTTCTGGGAGCGAATATGCCGCAAATCCGGAACATGTTCATCGTAGAGGCCAGCCTGCTCGGTTTGCTTGGCGGGTTGCTTGGCATCGTATTCGCGTATTTGATCATCAAAGGGCTGAATTCATTCATCATGGCTTCGGCAGGCATGTCGGGACTGCAGATCGCCGTTACACCGGAGACGCTGCCGATCGGCATTGCTTTCGCCGTCATGACGGGCATATTCTCGGGGATTTACCCGGCGATCAGCGCAGCAAGAACGAATGCGCTGCTGGCCATCAAGCGGGATTAG	MTGISIGCAAIIVAISIGNGAQSYLETEIIGGMKLDEITVTPQSTGGPGEGGGQSAGGERGLLTDDKVQVIQGFNHVKSVVATKQLGYFRTISSDNLIHEGINIVAVDLSKLQEQGNRFKEGGPLEQIGAVVLNYGATTGWKDAETSERLNNMMNSDPNNPQLWEEFQKYESTVSEMIGKNVQLEQMDNDKKLLSPQLYVGGVLDVPKGRDAQFAFYDRQAYISFDTADWLTDSLNLQKGPTSKQRVYDNLTVKVEDLQYIKPLEDLISKLALNASDNLAMRDQVASQLDTFKAIALGIGVFILLLASISIIVAMTMSTHQRRRQIGIMKVLGANMPQIRNMFIVEASLLGLLGGLLGIVFAYLIIKGLNSFIMASAGMSGLQIAVTPETLPIGIAFAVMTGIFSGIYPAISAARTNALLAIKRD				NA	NA	NA	NA	NA
AK002_00866	1089			hypothetical protein	ATGATAAAAAAAATCATAAAATGGACGGTTATCGCTGCTGTGCTGGGTCTGGTGGGATATTGGGGATATGGGCAGGTGAAACCCAAGGAGCCTGAGATTCCCATGATGGAAGAGCCGCAGGTCATCTCATTCCCCGTAACTGAGGAAACGATTCTATCGACCGTGCAGGTCAAGGGAACGTCCGAATACGGAAAGGAAACGAACGTATACGCCCCTTTTGAAGCGAAGGTGGAGTCCTGGAACGTCGAGAACGGCCAGCAGATCAAAAAAGGCGACGCCCTTTTCAAATTGGAGCAAAAGGCGATTCGCCAGCAGCTCCAGCAGAAGGAGGCGGAGCTGCAGAAGCGGAAGCTGGAGCAGGAGCTGAAGGAGTTTACGCTGAATCAGGATCTCGACAACGCGCCTGTAGGCGCAACGGAGGCGGAGCGCCTGAAAATGCTGGCAGACCAGGAAAATGCGCGGCTGAGCAGTCAGCTGGACGAGGTGAACAACGATATCGAACGCCAAACGCTTGCCGATTTGAATGACAGGCTGAGGCAATCGACATACGTATCTCCGGCAGCAGGCCTGTTCCTGTTCGACCCGACCCAGCAGCGGCCGCAATCGGTGACGGCTAACCAGTATATCGGCAAAATCGTCGACCTGGATTCCCTGCGGTTAGTGGCATACGTCGGGGAAAACGACATCTTCAGCATTCAGCCGGACATGGCGGTAGAGGTCAAGCTGCCGTCCATCAAGGATTTGAAGCTAAAGGGCAAGGTGTTGGAAGTGGCCAAATTCGCCGAGGCGACGGCTCAGGAGAAGCAGACGTCCCAGACGCCGCAGTTCAAGGTCATCATCTCGCTGCCGAAGAACGATCGCTTGATCGGCGGATTGACGCTGAACGGAGAGATCGTGACCAAACGGAAGAACAAGGCGGTTGTCGTTCCCAAGCTGGCCGTCATGACGGAGGGAGATAGCTCTTATGTCATGGTGGACAAGGGAGGCGGCCAGATCGAGCGGCAGGATATTGAGACGGGGATGCAGACGCTTGATAAAATCGAGGTTTTGTCAGGGCTGAAAGCGGGAGATACCGTCGTTCTTCAGTAA	MIKKIIKWTVIAAVLGLVGYWGYGQVKPKEPEIPMMEEPQVISFPVTEETILSTVQVKGTSEYGKETNVYAPFEAKVESWNVENGQQIKKGDALFKLEQKAIRQQLQQKEAELQKRKLEQELKEFTLNQDLDNAPVGATEAERLKMLADQENARLSSQLDEVNNDIERQTLADLNDRLRQSTYVSPAAGLFLFDPTQQRPQSVTANQYIGKIVDLDSLRLVAYVGENDIFSIQPDMAVEVKLPSIKDLKLKGKVLEVAKFAEATAQEKQTSQTPQFKVIISLPKNDRLIGGLTLNGEIVTKRKNKAVVVPKLAVMTEGDSSYVMVDKGGGQIERQDIETGMQTLDKIEVLSGLKAGDTVVLQ				NA	NA	NA	NA	NA
AK002_00867	423	ypeA	COG0456	Acetyltransferase YpeA	ATGCATGTTCGTTCCTTTCAGTTGAGTGACTGTAACCCCGTAACCGAGCTATTACAGATTGCTTTATCGGAAGAATGCTACGAAAACACGATGGAGCCTTTCTCCAGGCAGCTCGCTTGGGACTCCGATCTGATTATGGTGGCAGAAGAAAACGGTGAAATCGTTGGTGCCTTAATCGGTACGATCGAGCGCAATCATGGCTGTTATTACCGCATCGCCATTCATCCCGACTATCGCAGGAAAGGGATTGGCAAAGCCTTGATATCAGCGATGGAACAGCGTTTTCAATCACGGAAAGTCAGTCGGATCATGGTAGCCGGAGATGAGCACAACGCCGCAGCCATGCCATTTTATGAAGCCATGGGATACGGTGCCAGCCAAATCCTGCGGTCGTTCCAGAAGCTCAGTATCCTTGGTCAATAG	MHVRSFQLSDCNPVTELLQIALSEECYENTMEPFSRQLAWDSDLIMVAEENGEIVGALIGTIERNHGCYYRIAIHPDYRRKGIGKALISAMEQRFQSRKVSRIMVAGDEHNAAAMPFYEAMGYGASQILRSFQKLSILGQ				NA	NA	NA	NA	NA
AK002_00868	603	spsB		Signal peptidase IB	ATGGGACAAGTGATTCCTCCGGATTCAACTGAGCATGGCGAGAACAACGGGCCTCAGAATCAACCGGCCAAGAAGAACGGCTGGGCCGCCGAGCTGTGGGATTGGGTAAAGACGATTGCGATTGCATTTGTTATTATGGTGCTTCTAAATATGTTTGTGTTTAACCTGTCTATGGTTAAGGGCGAATCCATGCAGCCGACGCTGGTGGCATCGGAGCGGCTCTTTATTAATAAAGTGGTCTATCGCTTTTCGGAACCGAGCCACGGCGACGTCATTGTGCTTAAGGATCCGAGCGACGGCCCGGACAAGAAGGAGTTTCTTGTTAAGCGTGTCGTCGGCGTACCCGGGGATACCATTGAGGTAAAGGATCAGAAGCTCTACGTGAATGGCGTGGCCCAAGAGGAAGGGTATACCGATGTCCCGATCGAGGATCCTGGCTTTGAGCCCGTTACCCTGGAAGCGGGAAGGTATTTTGTTATGGGGGATAACCGCCACCTCGGAAAGAGCAAGGACAGCCGCATGTTCGGCAGCGTGAAGGAAAGCGACATCGTGGGCAGGGCCGAATTTATTTTCTGGCCGTTGTCCGAGATCAGAAAGCTGTAG	MGQVIPPDSTEHGENNGPQNQPAKKNGWAAELWDWVKTIAIAFVIMVLLNMFVFNLSMVKGESMQPTLVASERLFINKVVYRFSEPSHGDVIVLKDPSDGPDKKEFLVKRVVGVPGDTIEVKDQKLYVNGVAQEEGYTDVPIEDPGFEPVTLEAGRYFVMGDNRHLGKSKDSRMFGSVKESDIVGRAEFIFWPLSEIRKL				NA	NA	NA	NA	NA
AK002_00869	1845	queG		Epoxyqueuosine reductase	ATGACCTACACACTCGGCTCGTACGCTCCTCCGCCTTCGGTATGGGAGGAGCTCAAGCAGGAGCTAAAAGCCGTTGCACCTGAGCTCGGCATTGATGATATCGGCTTCGCCTCGGCGGAGCCGTTCCAATCCCTGAAGGGGATTTTGCAATCCCATCGGGATAAGGGATATGAGTCTGGGTTCGAGGAGCCGGACCTGGATAAGCGGGTGACTCCCGCACTCCCCGGCACCGAGCCGAAGTCCCTGATCGCCATCGCGATAACGTACCACTCCAAGATGGAGAACCCGCCGAAATCGGAGCCTGGCAAGTACAGGGGCATCATGGCGCGATCCGCTTGGGGAAGGGATTATCACCATGTGCTCCGGGAGGCGATGAGCCGCCTGGAGGCGTACATCAAGGAACGCGTGCCGGATGCAAAGCTTGAAAGCATGGTGGACACCGGCGCGCTTGTCGACCGGGCCGTCTCGCAGCGGGCCGGCATCGGTTTCAGTGCCAAGAACTGCTCCATCATTTCTCCGAAGTTCGGTTCCTGGATATTCCTTGGCGAAATGGTAACCAATATCCCGTTTCCGCCGGATTCGCCGGTAACCGAGGATTGCGGGGACTGCACCAAATGCATCGATGCATGCCCAACCGGCGCCCTTGTCGGTCCCGGGCAGCTGAATGCCCAGCGCTGCGTTTCTTTTCTGACCCAGACCAAAGGATTTCTGGACGAAGAAGCCATGCGCAAGATCGGCAACCGGCTATATGGATGCGATACCTGCCAAATTGTTTGTCCGAAGAACCGGGGCAAGAGCTGGACTCATCAAGAGGACTTCAAGCCCGATCCTGAAAAAGCCAAGCCGCTGCTCCTGCCCATTCTGGATATGAGCAACCGGGAATTCAAGGAGACCTTCGGAGATACGTCCGCCGCTTGGCGCGGCCGTAAGCCGATTCAGCGCAATGCCGTCATCGCGCTCGGCAACTTTAAAGATATTTCAGCCGTACCGAAGCTGAGCGAAGTACTGCTGAAGGACCCGCGCCCGGAGCTGCGGGGAACCGCTGCATGGGCTCTGGGCCGTATTGGAGGCGAAGAAGCGTTGAACAACTTAGAGAAAAGCATGAAATCAGAAGGGGATTCCCGAGTACGAGATATGCTGCAGCAAGCCTTGAATAAACTAAAGCCTGAACCGGCTGGAAATGAAGCACCTGCCGAAGCGCAAGCCGCGGCCGAAGTTTCATCCGCCGGGGTTCCGGGTTCCTCGAATGGGGGCAATCCGGAGCAGGAGGGTTCTGTCATTCAGGGGGTCGAGCCGATGGCCATCCCTGAAGGAGGACCGGAAATGCTGTATTATGATGAAGTTCAATCTCCGATCGGACCGCTGACGGTCTGCGCCACGGAGAAGGGGCTTTGTCTCATTGAATTCGGCAGCTTCTATGTGAAGGAAGCGGTCATCCAGCAGTGGTCGCGGACCTGGGCTGGCAACGGCGGCTACCAACGGGACGAGGCTAGACTAGCCCCCGTGATCACGCAGTTGAAGCAGTACTTTGCCGGGGAACTGAAGGCTTTCGACGTACAGCTGGACATGCGCGGAACCTCATTCCAACTGCAGGTATGGGAAGCGCTGAAATCCATTCCCTATGGAACGGTTTGCTCCTATAAGGATGTAGCCGAATCCATCGGACGTCCGAAAGCGGTTCGAGCCGTAGGCGGAGCGAACAATAAGAACCCCGTTCCGATCATCGTGCCGTGCCACCGGGTGGTAGGAGCCGACGGAGCGTTGATCGGCTATGCCGGCGGCCCGGAAATCAAACGCACCTTGTTGACGATCGAAGGAGCCATGCCGGATCGCAAAGGATCGTAG	MTYTLGSYAPPPSVWEELKQELKAVAPELGIDDIGFASAEPFQSLKGILQSHRDKGYESGFEEPDLDKRVTPALPGTEPKSLIAIAITYHSKMENPPKSEPGKYRGIMARSAWGRDYHHVLREAMSRLEAYIKERVPDAKLESMVDTGALVDRAVSQRAGIGFSAKNCSIISPKFGSWIFLGEMVTNIPFPPDSPVTEDCGDCTKCIDACPTGALVGPGQLNAQRCVSFLTQTKGFLDEEAMRKIGNRLYGCDTCQIVCPKNRGKSWTHQEDFKPDPEKAKPLLLPILDMSNREFKETFGDTSAAWRGRKPIQRNAVIALGNFKDISAVPKLSEVLLKDPRPELRGTAAWALGRIGGEEALNNLEKSMKSEGDSRVRDMLQQALNKLKPEPAGNEAPAEAQAAAEVSSAGVPGSSNGGNPEQEGSVIQGVEPMAIPEGGPEMLYYDEVQSPIGPLTVCATEKGLCLIEFGSFYVKEAVIQQWSRTWAGNGGYQRDEARLAPVITQLKQYFAGELKAFDVQLDMRGTSFQLQVWEALKSIPYGTVCSYKDVAESIGRPKAVRAVGGANNKNPVPIIVPCHRVVGADGALIGYAGGPEIKRTLLTIEGAMPDRKGS				NA	NA	NA	NA	NA
AK002_00870	237			hypothetical protein	ATGGATATTGTCATTCCGATTATTACATTGATCGTGGGTCTGGTCGGCGGATTCTTCATCGGCGTATTCTATCTGCGCAAGCAATTGGAGAAGATGCAGAACGATCCGCAAATGCTGCAGAAGATGGCAAAACAAATGGGGTATAACATGAACAGCAAGCAGATGCAGCGTGCACAGCAAATGATGAAAAATCAGCCTATGCCGGGTAAAGGGCAAGGCCGCAAACGCAAATCATAA	MDIVIPIITLIVGLVGGFFIGVFYLRKQLEKMQNDPQMLQKMAKQMGYNMNSKQMQRAQQMMKNQPMPGKGQGRKRKS				NA	NA	NA	NA	NA
AK002_00871	594	folE	COG0302	GTP cyclohydrolase 1	GTGGCGGGCGTAAAGGACTATGTAAACCATAAAGTAGGCCAAAACCGAGAGCAGATCGAGTACCATGTAGAGCAAATATTGAAGCTGATCGGTGAAGATCCCAAGCGTGAGGGTCTGCTTGAGACACCGGCCCGCGTGACGCGGATGTACGAAGAGATCTTTGCGGGATACGAAGTCGATCCCAAGGACGTTCTCGGGGTTACCTTCGACGAGAATCACGAGGAACTGGTCATCGTGAAAGATATCGTGTATTACAGCCAGTGTGAGCACCATATGGCGCCGTTCTTCGGCAAAGTCCATATCGGTTATGTCCCGAGCGGCAAAATCGCCGGCTTGAGCAAGCTGGCACGCTTGGTAGAGGCGGTAACTCGCCGTCTTCAGGTGCAGGAGCGCATCACTTCGCAAATCGCCGATATCATGGTGGAGGCGCTGCAGCCTAACGGCGTTATGGTCGTTGTAGAAGGCGAGCATCTGTGCATGTGCGCACGCGGCGTGAAGAAGCCGGGCAGCAAGACGGTAACGTCGGCTGTACGCGGTACGTTCCAGAGCGATTCCGCGCAGCGCTCGGAGTTTTTGTCCTTGATTAAAGACTAA	MAGVKDYVNHKVGQNREQIEYHVEQILKLIGEDPKREGLLETPARVTRMYEEIFAGYEVDPKDVLGVTFDENHEELVIVKDIVYYSQCEHHMAPFFGKVHIGYVPSGKIAGLSKLARLVEAVTRRLQVQERITSQIADIMVEALQPNGVMVVVEGEHLCMCARGVKKPGSKTVTSAVRGTFQSDSAQRSEFLSLIKD	PGPT0007875_3360	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007875-folE-K01495	NA	NA
AK002_00872	903	rhaR_8		HTH-type transcriptional activator RhaR	ATGCAAATTATCCAAGAACCGATTGAATACCAGGACCCTCTCCTATGTATCAAAATATGGAAATTAGTCAACGATGGCCTGGAGTATCCCATCGAGTGGATATGGCATTATCACAAGGAGGTTGAATTTCTTACGGTTGAGCAAGGAATACTCGATGTACATACACCGGATAAAGTTTACAGGCTGAAAGCGGGAGACAGCTGTGTAATCGGCTCATCCCAGCTTCATTTTGGACGCAAGATCGGCACCGAAAGATTGGTATACATGGTGCTTCATATCGATTTGCACGCCTATTTCAATCCGGCCATTCAAATGTATTACCGTCAATTTACGGAGATTGACCAGCCGTTGGACCGACTAAACTATATCCTCGAAGAGAATACAGATGCCAAAAGGGAAATCGCAGGCATTATGGGAGAAATGCACGATGAGATGCAGGAGAAGAGGAGCGGCTTTGAGATTGCGACCAGCATGCTGGTCATCAAACTTCTGCTGACACTGTTTCGAAATGATGACCGTGGAACACTGAATCAAGAAGGTTCCAGGGATATCCCACTGCTGAAAGAGGTAATTTCTTATATCAACGCTCATATTGGGGAGAAAATCGAGCTGAAGCAGGTGTGCAAGCTGGCGAACATGAGTTACTCCTACTTCTCTAAGTATTTTAAAAAAATGTTGGGAATTTCCTTTACCGATTACGTAAATCGCAGAAAGATCCAGAAGGCGGAGCGCCTCCTGCTTACTCAAAACATGAAGGTGACAGAAATTGCTGAGGCAGTCGGAATCGAAAATATGGCGCATTTTTACGAACTATTCAAAAGATATACCGGCTGCAAACCTAAGGAGTATACCGCCAAGCTGCGCCCAGACCCGTACCTACCGTTGGTTAAGGCCCAAGAGTAA	MQIIQEPIEYQDPLLCIKIWKLVNDGLEYPIEWIWHYHKEVEFLTVEQGILDVHTPDKVYRLKAGDSCVIGSSQLHFGRKIGTERLVYMVLHIDLHAYFNPAIQMYYRQFTEIDQPLDRLNYILEENTDAKREIAGIMGEMHDEMQEKRSGFEIATSMLVIKLLLTLFRNDDRGTLNQEGSRDIPLLKEVISYINAHIGEKIELKQVCKLANMSYSYFSKYFKKMLGISFTDYVNRRKIQKAERLLLTQNMKVTEIAEAVGIENMAHFYELFKRYTGCKPKEYTAKLRPDPYLPLVKAQE				NA	NA	NA	NA	NA
AK002_00873	1263	dasA	COG1653	Diacetylchitobiose binding protein DasA	TTGAAAAGATCTAAAAGAATGGTCGCTTTACTGCTTACATGCATGATGTTTATGGTGGCAGCCTGCTCCAGTGGAGGGGGCGATACCGCTGGTAAGTCCGAAGGTTCTTCAGAAATCAAGTTTTGGACAATCTCGCTGAGCCCGACTTTCGATGATTACATCAATGGCATGATTGATACGTTTGAACAAGCCAATCCAGGGGTGACCGTGAAGTGGGAAGATATCCCGATCGACGCGGTTGAGCAGAAGACGTTGACAGGCAGCGCTTCAGGCAATATGGCGGATGTCGTTAACCTGAACACCGAATTCTTGAAGAAGCTTGCTGCACTCGGGGCACTGGCTAATATGGACGAGCTTGCCGCAGATGTCAAAGATGACTTCTACGAAGGTGTATGGAGAGCGGGCGAATATAAAGGATCAACCTATGCGCTTCCTTGGTACTTGGCAAACGATATTGTGCTCTACAACAAGGAATTGCTGCAAGAAGCAGGTTATGATGCCCCTCCAACAACGGTGGATGAAGCCTGGGAGATGACAAAAGCCATTAAGGAAAAGACAGGCGCTTATGGGCATTCCCTGACATCGATCCGAGACGAGCTGCTGTACAGCGGAATCCCAATTCTGAATGAAGATTATACAAAGGCTGCATTTAATGTACCACAAACAGTTGAAATTTTCGCTAAGTATAAGCAGCGTAACCAAGAAGGGCTGATTCCGGAAGAAATTTTGCTGGAAATGGCAAAGCCGCAAGAATGGTATGCACAGGAAAAGCTTGCTTGGTGGCAAACAGGGCCGAACCTGTTCCGTCAAGTCAACGATTTGTCCCCGGCGGTTTACGAAAAATCGGATGCAGCCAGTGCATTTGCTTTCAGCAGCGGTAATATTCCGGTTAATACAATGAACATCGCTGTATCGGAGAAGAGTAAGAACAAAGACGCAGCGGTTAAATTTGCGAAGTTTGTGACGAATGCAGAGAACCAGCTTGAGTTGAGCAAGTTATCCTCCGTGCTGCCTTCCGTGAAGAAAGCTGCAGAGGATGAATTCTTCGCAGCAGGCAAGGACGCAACGGATCCTGTAGATAAAGGCCGTTACCTGGCTGTACAACAGCTTGAGAAATCATTGGATTTACTGCCTCCGGTTGAGAATCTGGCGGATATCAACAGAGCCCTTAACGAAGAATTCAGACGTATGCTGGCAGATGATTTAGAGCCTGCGGATGCCGTAGCAGCTGCGGAAGCTGCCGTTAATGAATTGCTTCAATAA	MKRSKRMVALLLTCMMFMVAACSSGGGDTAGKSEGSSEIKFWTISLSPTFDDYINGMIDTFEQANPGVTVKWEDIPIDAVEQKTLTGSASGNMADVVNLNTEFLKKLAALGALANMDELAADVKDDFYEGVWRAGEYKGSTYALPWYLANDIVLYNKELLQEAGYDAPPTTVDEAWEMTKAIKEKTGAYGHSLTSIRDELLYSGIPILNEDYTKAAFNVPQTVEIFAKYKQRNQEGLIPEEILLEMAKPQEWYAQEKLAWWQTGPNLFRQVNDLSPAVYEKSDAASAFAFSSGNIPVNTMNIAVSEKSKNKDAAVKFAKFVTNAENQLELSKLSSVLPSVKKAAEDEFFAAGKDATDPVDKGRYLAVQQLEKSLDLLPPVENLADINRALNEEFRRMLADDLEPADAVAAAEAAVNELLQ	PGPT0016460_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CHITOBIOSE_TRANSPORT_II,PGPT0016460-chiE-K17244	NA	NA
AK002_00874	849	melD_6	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGTATAAAAAGTCACATGCCTGGCTGTTTCTCGCCCCGGCTGGTTTGCTGCTGCTGGTTTTTAGCGTAATCCCTGCCTTTGCTGCCTTGTTCCTGAGTTTTACGAAATATGATGTGATCAACCCCGCCGAATGGGTCGGTCTGGCTAATTACAAGGATCTAATGGGTAATAACCTATTCTGGAAAGCAATGCGCAACACGGCTTATTACTGGATTTTAGTTACACCTGCTTTGGTGGTTCTGCCGGTGTTTTTGGCTGTGCTTGTGAATCGGGGATTAGCTGGGGTTAAGGCATTCCGGCTTATTTATTATTTTCCGACACTTGTGTCCGTTGTTGTTACAGCCTTTTTGTGGAGCTGGATGTTCCAGAGCGATGGGGTGCTTAACTACATCTTGAGTCTGTTCGGAGCAGAGCCGTTAAAGTGGCTCACAAGTAAACATATGGTTCTTCCGAGTCTTGCGCTTGTAACCGTATGGCAGGGCCTTGGTTATTACATGCTGTTCTATTTATCAGGACTTCAATCCGTGCCGGAGGATTTGTATGAAGCAGCTGATTTGGACGGTGCCGGATTCTGGCGCAAGCAGATGGTCATCACATTCCCGATGCTGCGTCCGGTTATATTCTTTGTGGCCGTTGTATCCACAATGGGGGCGTTTAAAGAGTTTACCCTCATGATGACCATGACCCAGGGCGGGCCGCTGAAATCATCCACGACGGTCGTATATTTGGTCTTCGACGAGGCGTTCACCAAGCTGCACATGGGTGGTGCAAGCGCAATGTCCTTTGTGCTGTTCCTGGCGATCTTGCTGCTGACGGTCATTAATAAACGATACTTGGACAGAGAGTGA	MYKKSHAWLFLAPAGLLLLVFSVIPAFAALFLSFTKYDVINPAEWVGLANYKDLMGNNLFWKAMRNTAYYWILVTPALVVLPVFLAVLVNRGLAGVKAFRLIYYFPTLVSVVVTAFLWSWMFQSDGVLNYILSLFGAEPLKWLTSKHMVLPSLALVTVWQGLGYYMLFYLSGLQSVPEDLYEAADLDGAGFWRKQMVITFPMLRPVIFFVAVVSTMGAFKEFTLMMTMTQGGPLKSSTTVVYLVFDEAFTKLHMGGASAMSFVLFLAILLLTVINKRYLDRE	PGPT0016465_319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CHITOBIOSE_TRANSPORT_II,PGPT0016465-chiF-K17245	NA	NA
AK002_00875	888	araQ_11	COG0395	L-arabinose transport system permease protein AraQ	ATGATGGCAGATCAAGCTACAGGCGCTCAAGTAAAACATTCGTCCGGAATGAAACGGTGGAACAAACGGAAAGTCATCAACAATACGCTCTCCTACGTATTGATGATACTCATCGCTTTTGCCATGATTATGCCTTTTCTGTGGACGCTTTCAACGTCACTTAAGGGACAGAACGAGGCCATTTACACCATGCCTCCGAGCTTTATTCCGGAGCAGTGGACGCTTGAAAATTATGTAACCGTATGGAATTCGCTTCCGATACCGGTTTACTTCTGGAACAGCATTATTTTATCTTTCTTTGGCGTGGCACTGCCATTGATATTCGCGTCCTTGGCTGCATTTCCGCTAGCAAGAATGCAGTTCAAAGGAAGACAGGCCATTTTTCTCTTGATTATGGCTACGATGATGATCCCGGCAGAAGTGACGATGATTCCGATTTATTTGATTCTAAACGAAATGAATCTTCTGGGCACCTTGACGGGGGTTATTGTACCCGGCGCCGTTTCCGCGTATGGCATTTTTCTGATGCGGCAAGGGATGATTTCCGTTCCGAAGGAGATTGAAGAGTCGGCAGTCATTGATGGTGCGGGCGTATGGCGCATATGGCAGAACATTATGATGCCGATGGTGAAGCCTACACTGGCCACACTCGGAATTTTGAGCTTTATCGGAGCATGGAACAACTTTCTGTGGCCATTCCTCGTACTCGATGACAGCTCAAAATACCCGTTAACTGTGGGTCTTTACAAGCTGAAAGGAACCTTTGTATCCAACACACGCCTGGTCGCAGCCGGATCCATGATTTCGCTCATTCCGATTGCGATTGTATTCATTTCATTTCAGAAATACTTCATCAAGGGTGTAAACGCTGGCGCTGTGAAAGGATAA	MMADQATGAQVKHSSGMKRWNKRKVINNTLSYVLMILIAFAMIMPFLWTLSTSLKGQNEAIYTMPPSFIPEQWTLENYVTVWNSLPIPVYFWNSIILSFFGVALPLIFASLAAFPLARMQFKGRQAIFLLIMATMMIPAEVTMIPIYLILNEMNLLGTLTGVIVPGAVSAYGIFLMRQGMISVPKEIEESAVIDGAGVWRIWQNIMMPMVKPTLATLGILSFIGAWNNFLWPFLVLDDSSKYPLTVGLYKLKGTFVSNTRLVAAGSMISLIPIAIVFISFQKYFIKGVNAGAVKG	PGPT0016470_217	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CHITOBIOSE_TRANSPORT_II,PGPT0016470-chiG-K17246	NA	NA
AK002_00876	1620			hypothetical protein	ATGAACGGAACATTTTCTAACGAGAAAATTATATACCTGCCGCTCGACGAGCGGCCTTGCAACTATCATTACCCTGTGCAGCTTGCTTCCATGACTGACCTGGTGCTTATTGTGCCGCCACTGTCCCTGCTGGGGATGAAGAAGCAGCCAGCTCAGTACGAGTCGCTGAGGCAGTGGCTGGAGAAGGAAGTCGTAGATGCGACGAGGTTGATTGTTTCGCTCGATTTGCTTTTGTACGGGGGAATCGTCCCTTCCAGACTTCATCATCTAACGAATAAGGAATGTGAGGACCGACTAGAATTGCTGAAGCATCTCAAGGCCATCAATCCATCCCTGAAAATTTACGCCAATAACCTGATTTTGCGGGTTCCGTTTGATGACAATGATGATGAAGAACCGTCTTATTGTGCCCAGCATGGCAGAAAGCTATATGAATATAAACGGATGCTGGATAAGGGCGAGCGGGAGAATCTTTCTGAATTCGAAATGAATTCGCTTACGAAGCTGACGATGAAAATTCCTTCTAACGTGTTGACTGACTTCACAGACCGTAGGGCTACCAATGCTTACGTCAACCGGATGGCTATACGTTATGCGGACGAGGGAATCATCGATAAATTGGTCATTCCACTGGATGGCAATGGGAGGGATGGATACTCGGCTAAAGAGCATCATGAGCTGTTGTTTATGGTGGACAAAAGCAATCTGGTAGATCGCGTGATGCTCTATCCGGGGGCAGACGAGATAGGCTGTACGCTTTTGGCCGGCGTATTTTGTGAGATTAAAAATTACTTTCCTGAAGCCTATGTCCGTTATTCGTCAACACAAGGTCCGTTTTTGATTCCGAGGTATGAGGATCGGAGTTTGAATGAAAGCATTAAATCGCACATGACGGCTGCAGGTGTATTCATGGCTGATTCCTCTACGGAATCGGATTTTGTGCTCATGGTAAATGCTCCGCCGTTAAGTCAATCAGAGACGAATGAATCCTACCAAAACTCCCAGAAGTGTAGCTGCTCTTATCATTCCGAGATTCATTTGAATGAGTTCAGACAGGCACTTCGGGCATATTCCAAAAAAGGATTGTTTATCGCTCTTGCTGACGTGGCGGTCTGTAGTGGCGCAGACCATAAACTGATGAAGCTGCTCAGCAAAGGCAATGAACTGAATTTGCTGGGTGCTTATGCCGCACGGAATACTTCTGGCAATACGCTGGGGACCGTGATCGCTCATGCCGTGATCGCTTCTTATTACAGTAAGGAGACCCCGCAGGAAACCATTGCAGTCTGGAGGGAGAGAAGCAAGTCCTTCATGCTGCGCAGGCTGATTGAGGATTGGGGCTATCAAACAGTTGTCCGCAGTGAAGTCATAGCGGAGGTTCTACCGGAGTTAGACGTGACGCCTATGGATCTCGGATCAAGGGGAGACGAGCTTCGTGGGGTGATCAAGGAAGGGCTGAATGAGTTTTGCAGCACCTATTTAATGGGGATGACCGGTGGGAAGCCGCAGGTTGCGGATGTTAAACTCCCTTGGCATCGGATGTTTGAGGTGGACTTTACACTGGTTGGCGATGAATCAGTACAAGCAGGAACAAATGATCTTGATGGCGCCCTAGCATAG	MNGTFSNEKIIYLPLDERPCNYHYPVQLASMTDLVLIVPPLSLLGMKKQPAQYESLRQWLEKEVVDATRLIVSLDLLLYGGIVPSRLHHLTNKECEDRLELLKHLKAINPSLKIYANNLILRVPFDDNDDEEPSYCAQHGRKLYEYKRMLDKGERENLSEFEMNSLTKLTMKIPSNVLTDFTDRRATNAYVNRMAIRYADEGIIDKLVIPLDGNGRDGYSAKEHHELLFMVDKSNLVDRVMLYPGADEIGCTLLAGVFCEIKNYFPEAYVRYSSTQGPFLIPRYEDRSLNESIKSHMTAAGVFMADSSTESDFVLMVNAPPLSQSETNESYQNSQKCSCSYHSEIHLNEFRQALRAYSKKGLFIALADVAVCSGADHKLMKLLSKGNELNLLGAYAARNTSGNTLGTVIAHAVIASYYSKETPQETIAVWRERSKSFMLRRLIEDWGYQTVVRSEVIAEVLPELDVTPMDLGSRGDELRGVIKEGLNEFCSTYLMGMTGGKPQVADVKLPWHRMFEVDFTLVGDESVQAGTNDLDGALA				NA	NA	NA	NA	NA
AK002_00877	2712			hypothetical protein	ATGAACTTTAGAAAATGGTTTTCAGTGCTTATGTGTTGTGCCCTCATTTTTTCGCTCATGTCGATCTCTCCTGAGAAAGCCAGGGCCCAGGAAGGGGGAATGGGAGCAAGCCCATCCATTACGCTGCCTGACGGCACCAAACTTGTGGTTGACGCGGTGAATGCCGAACGCAGCGAAAACGGGATTACCGTGTATACCAGAGATTATAGCGCTCCATTTACAGCACCGTTTGAGAACGATGCCGTCGTTGAATATATTGTTTCAGGAGGAATCGTACTTGAGAAAAATACGAACGGCTCCAAAGGGACCTATATCCCCCTGCACAATGTGGTGATATCGGCTTCCGGCACAGCCAAGGAAGAAATGAAAGCGATTGCCATCGGAGATGCGCTGATACTGAATGGGGTTGCGGTTCCGAAACAGATGAACCGTTTTGCCGTCGTGAAGGGTGCCGAAATAGCGATTAACAAAATAAATGCATATCGCGACGAGAATGATGTCGTGCTGTATGATGCCGGTTATGGAGCAACGACCAATACGAATCAATGGGGACTTGAGCTTATCATTGAGAATGGCATCATTACGGGCATGGCTAAGCCGGATGGCAAAACGTATAACAATTCCCGTATTCCAAGCCAAGGCCATGTATTATCTGTACAAGCCGGGTCTTCATATTACAATGATCTGAATGCAAAGATAGCGAGCGGCGAGATCAAAACGGGTGACCCTGTGGAGATCATCGTACATGAAGAGACGCATCTAGCGAGTCGGATTGCTTATGATGCTGTGGATCCGAAGTCGAAGGAAGATAATCCGGGAGGCTGGGATTCAGCTAACGACAAGCCTTTCGACGGATTCCGCGGGGGTGACCAGCTCATTGTGTACACCAGTGATTATGGAAAAGAAACAACAGGCACCAATGCCTGGGGTTATGAGGTCATCGTTGATGAGAATCATAGAGTCATATCCGTTGGTGGCAACAACTCTCTGATTCCGGACAAAGGCTTTGTTCTGTCTGGCCACGGCGTGAAGGCAGAATGGCTTAAGAACTACGCTAAGCTAAGTGCGACCGTAACTATGAATCGTACGGCTAAAGAGCTGGTGGTTATGCTGACACCGCAATCCTCCCTGGATCGAGCCGATTACCGTATCGGGACTTCGACAGCGCTGCTGCAGAAGTCGAAGGATATGTACATGGATGTTCCTTATTCAAAGATCGAGCAGAAAATGGCGGAGGCCAAAGCCATCCGCGGAGAGATCGTCAAGCTGATTGAGCAGCAGGCATACGACGAGATGACTTTGAAATCAGCAGCGCTCGACAGCCTGATGGATGAGGTCATTAACTTGAACATGGAATCCCGCAAGGTCGACCATCGTGCGATCTGGATGCGTCCATTAGAGACGAATATGGATGAAGTGCGCCAGCATCTGAAGCTCATTGCGGATGCAAATTTGAATCAGGTGTATGTGGAAACTTGGTGGGATGGCTACACGATTTACCCTTCGGACAATCCGCTTGCGCCTCACAATCCGATGTACAAAGGGTTTGACGTCCTTCAGGCGTATATGGATGTGGGCGATGAACTCGGTCTCGAGATCCATGCATGGGTGGAAAACGCATTTCTTGAGGGAAACAAGATGGAGCAAAAACCGGAATGGTCGATGATCCGGCGGGATGGAGCCGACTATTGGGAAGTAGACGGCCATACTTTTTACTGGCTGAATCCTGCACTGCCGGAAGTCCGGAATTTCATTACCGACCTCTATGTCGACCTGGTGACCAGATACCCGGTTGCCGGACTGCATCTGGATTACATCCGTTACCCCGATAACTACGGGACGGAAATCGATTATGGTTATGACGCTTATACCCGTGAGCAGTTTATGAAGACATTTAAAACAGACGTAGATCCGGTGAATTTGTATCCGGGCGATAAGCTGTGGCCGGAATGGCAGCAGTTCCGCATGGATATCATTACGGGATTTGTTAAAGAGCTTGTACCGGCATTAAAAAAGATTTCACCGAAACTTTCGATCAGTGCAGCGGTTTATTCCGATTTCTACACCAATCCGTATTACAAGCTGCAGGAGGCAGGGCTGTGGTTGCAAAATGGTTATCTGGACAACGTATTCCCAATGTCCTATAAGTTGGATGCCCAAGCGGTTGTGCATGATGCGGAAGAGACATTAAAGCTTGCCGGTGGCCTCTCTTACGTGACGATGGGGCTCGGGCCACAGGCCAAAGTATCTCGGCCGGTGCTCGTCGAGCAGGCCTATGAGACGCAGAAAAAAGGAACATCAGGCAGCGCGTACTTCGAATTCCTGTCTTACTTCGGCGATCAATATAACGTGCCGCTTAAACAGGGGATGTACCGGAATAAGGCCATCGTTCCATTCAGTAACCCAGGGTTGTCCGTGAAGACCATCCTGATGGATATGGACCGGAAGATCGATGAGATTTATGTGCCGAATAAAGGAATGGCTGATGCGAAGAGTTATAAAAGGGACTTGAAGGTGCTTGTCAACCAATTGAACGAAAATAAAACAATCGACAAGAGAGCAGCCAAGCTCGGTAGAGATTTGGGGCAGCTTATGAACAAACTGAGCAAGGATTCCTCCGTACATGCTCAGGTGAAGGAGCGAATGATATTCGATTTGAAGTATGCGGATCATATCATTAAAATCTACAACAACAAAAACTACAACGATTAA	MNFRKWFSVLMCCALIFSLMSISPEKARAQEGGMGASPSITLPDGTKLVVDAVNAERSENGITVYTRDYSAPFTAPFENDAVVEYIVSGGIVLEKNTNGSKGTYIPLHNVVISASGTAKEEMKAIAIGDALILNGVAVPKQMNRFAVVKGAEIAINKINAYRDENDVVLYDAGYGATTNTNQWGLELIIENGIITGMAKPDGKTYNNSRIPSQGHVLSVQAGSSYYNDLNAKIASGEIKTGDPVEIIVHEETHLASRIAYDAVDPKSKEDNPGGWDSANDKPFDGFRGGDQLIVYTSDYGKETTGTNAWGYEVIVDENHRVISVGGNNSLIPDKGFVLSGHGVKAEWLKNYAKLSATVTMNRTAKELVVMLTPQSSLDRADYRIGTSTALLQKSKDMYMDVPYSKIEQKMAEAKAIRGEIVKLIEQQAYDEMTLKSAALDSLMDEVINLNMESRKVDHRAIWMRPLETNMDEVRQHLKLIADANLNQVYVETWWDGYTIYPSDNPLAPHNPMYKGFDVLQAYMDVGDELGLEIHAWVENAFLEGNKMEQKPEWSMIRRDGADYWEVDGHTFYWLNPALPEVRNFITDLYVDLVTRYPVAGLHLDYIRYPDNYGTEIDYGYDAYTREQFMKTFKTDVDPVNLYPGDKLWPEWQQFRMDIITGFVKELVPALKKISPKLSISAAVYSDFYTNPYYKLQEAGLWLQNGYLDNVFPMSYKLDAQAVVHDAEETLKLAGGLSYVTMGLGPQAKVSRPVLVEQAYETQKKGTSGSAYFEFLSYFGDQYNVPLKQGMYRNKAIVPFSNPGLSVKTILMDMDRKIDEIYVPNKGMADAKSYKRDLKVLVNQLNENKTIDKRAAKLGRDLGQLMNKLSKDSSVHAQVKERMIFDLKYADHIIKIYNNKNYND				NA	NA	NA	NA	NA
AK002_00878	273			hypothetical protein	ATGAGTCGAGAGATTCTGCTGGAGCTTGATGATTTGCTTCAAGCCGAACGCGAGCTGACGGGGCTGCTTGCAGCCCTTCGGGCCGACGAACAAGAGGCGCGGGGCATGTATGCCCGCCTTCAGGATTGGAAGGGACAATCGGCCAATGTGCTGAGAGACCAGATCGAAGTCTTTTTCATGGAGATGTCTCGTCGAATCCGGGAGATCGAGGAGCAAAAAAGCGCCCTCGTCCAGTATGTGCAATATATGAAACAAGTCGATGGCGCATCTTGA	MSREILLELDDLLQAERELTGLLAALRADEQEARGMYARLQDWKGQSANVLRDQIEVFFMEMSRRIREIEEQKSALVQYVQYMKQVDGAS				NA	NA	NA	NA	NA
AK002_00879	1281			hypothetical protein	TTGAGTTCACCGCAAGTGGATGACGAGACATACCGACTCATGTCGGAAGCGGCTTACCTCGATCTGAAAAAAGAAGATACCGTTGAGGACCTGCCGGGATGGGAGGTTCTTGAGGACTATAAGAGCAACAGCATATCCGGTTTTGACGCGGTAACTTTCTACAACAAGGAAACGAACCAGGCTGTTATCGCATACCGCGGCACCGAAGCAGGCAGAGATTTATCCCATGCTCTCCCCGATTATCTGGCCGACGCGGATATTGGCATTGAAGAGATCAAACGAAAAATCCCGGAGTTTCGGGCTCCTTGGGCCGACCATGTAGACAAGGTCAAAGAAGTTACGGGCATTAACGATGTCACGGATTGGTTCGGCGAACAATCGAGGAAAATCGATAAGAAAACGGATATCTTGGGCACCAATCAGTTGTATCAAGCCGAGGATTACGCGCTGGAAATGAAGGAGAAGTACAAGGGCGTTGATTTTTCCCTTACCGGTCATTCGCTGGGCGGAGCCAACGCGCAATATGCTGCAGCTTATACGGGCATGTCGGCAGTCACCTTCAGCGCCCCGTCCGTCATCGGGAGCCTCTCCCCTGAAGCCAGAAGAAAAGCCGAGAATGGGGAATTCGACTCCCAGATCATTAATTTCGCCCATCCCGGCGACATTATTGCCAGCGGCGCGCTCGGAGGTTACGACGGTCACGTCGGCTCTACCTATTACATAGACTCCAGTTACAAGGATGCCAATGACGGGCTCAGCATCAAAGAAAAAATCGATAATACGCTGGGAGGCCCCAATTATCACCAGCTGGACCGCTATCAATTCGAGAATGGTTACATTTCGAACCGTCTGTATGACGGTGCTACCGGTAAATCCGTGGATTCGCCCAGAATTCCTTCCCATAGCGGTCTCTTGTTTGGTCTTGGCGGGCCGTTGAGCAACTTGGGCTTAGGTCTAGGTTTGGGCGGCTCAATGGGAGCCCTGGCCGGCTCCGCAGGAGGCTCCTCCGGCACCATCCAGGTCACCCCAGCCGAGCTGCGAAGCGTAGCTGAGAAATGGCGAGCTCACGCCCATCAGAGCGATGCCGAAATGCAGGGAATCCGGCAGCGTCTCTCCAAATACATGTTCTCCAGCCACAGCCGGCGTCTGCAGCCGATCGTCCAGCAGTTGGATACATCCATCATGTCGATGAGTCAGTGGCATCTGCAGCATACCACCGACATCGTGCAGTACATTAAATTTAAGGCGGATCTGTTTGAACGTACAGATAACAGCGGGTAA	MSSPQVDDETYRLMSEAAYLDLKKEDTVEDLPGWEVLEDYKSNSISGFDAVTFYNKETNQAVIAYRGTEAGRDLSHALPDYLADADIGIEEIKRKIPEFRAPWADHVDKVKEVTGINDVTDWFGEQSRKIDKKTDILGTNQLYQAEDYALEMKEKYKGVDFSLTGHSLGGANAQYAAAYTGMSAVTFSAPSVIGSLSPEARRKAENGEFDSQIINFAHPGDIIASGALGGYDGHVGSTYYIDSSYKDANDGLSIKEKIDNTLGGPNYHQLDRYQFENGYISNRLYDGATGKSVDSPRIPSHSGLLFGLGGPLSNLGLGLGLGGSMGALAGSAGGSSGTIQVTPAELRSVAEKWRAHAHQSDAEMQGIRQRLSKYMFSSHSRRLQPIVQQLDTSIMSMSQWHLQHTTDIVQYIKFKADLFERTDNSG				NA	NA	NA	NA	NA
AK002_00880	285			hypothetical protein	GTGAACCATAATCAAAACGAAGCCACTGCAAACGGCAGCTCGGACGAGGTTATAACAAAGGCGAAAACCACGGCCGTTCAGTATTTTAAGGAAAAATACAATTTGGATGTGGAGATTACCAAAGAAGAGATGATGCCTTCGATCGTAGCGGACAAGGTCAACCTCGAAGGGTTTGTCGTGGATCATCCTGAACAAACCTTTAAGATATCCGTAGATTTCAACACAGGCGAAACGTCCAATTTCGTGATGAACCCGGAGCTTAGAAAAGCTATTAAGGGCGAGTGA	MNHNQNEATANGSSDEVITKAKTTAVQYFKEKYNLDVEITKEEMMPSIVADKVNLEGFVVDHPEQTFKISVDFNTGETSNFVMNPELRKAIKGE				NA	NA	NA	NA	NA
AK002_00881	1179			hypothetical protein	ATGTTATTTCATTATGGAGCGAAGCTCCCGGTACGATTACTGGAGGAAATTCGCTTTTGGAAGCATCAGGAAAGAAAACACCTCGCGCTGATCAAAGCCGTGGTGCCCGATCTGGAGCCGGTCTACGTGAAGATGCTGGATCAATGGGCCATCGTGTTCTCCGACACGGAGAAGGCGGCAGACGAACTTCTGCGCCATATTCTAAGTTATAATGCTTCTCCCACGCCTCAAATGCTGGCCCAGGTCGAGCAGCTCTTGCGCGCTTCCTGCGAGCAGTCCAGGGAGTTCATTCGCCAGCTGCACAGCTTAAAAGAGAACAGTGAGGCCGTTCAGAAAGTACCGCTTGCCGGTACGGTCCTGCACCATGTGATTCGGGAGTCCGAATATTTCCTGAATGCACTCGAAACACTGAACGCCGCCGGAGCGCTGGAGAGATTCATGGATGTGGATATGCCGCTGCAGTCGATGACGCTGCACGAGACCACGTCTCCTCCGCCGTCTACTCCCGAAGCCGAGCTGTCCATTCAAGGCATGGGAGACAACGGCGGCAAGGCTGTGCCGATTGGCGGACACCGCCTCCCTCCACTGCCTTACGCTTATAATGCGCTCGAGCCTTATATCGACGAGAAAACCATGCGGATTCACCACGACATCCATCACCAAAGCTATGTCGACGGCTTGAACAAGGCGGAGAAGAAATTGGAGGAGGCCCGAAAAAGCGGCGATTTCGAGCTCGTGAAGCATTGGGAACGCGAGCTTGCGTTCCACGGTGCCGGGCACTATCTGCATACGATCTTCTGGAACATCATGAACCCGCGGGGCGGCGGCGAACCGGGCGGAGAGCTTGCACAGCAGATCAAGAAGGATTTTGGAAGCTTCGATCGATTCAAGAAGCATTTTACCGAAGCAGCAGACAAAGTGGAAGGCGGCGGCTGGGCGATCCTCGTCTGGAGTCCGCGCAGCCATCGGCTTGAGATTTTGCAGGCCGAGAAACATCAAAATCTCTCCCAGTGGGACGTCGTCCCTCTCCTCGCCCTGGATGTATGGGAGCATGCATATTACCTTAAACATCAAAATAAACGCAAGGATTACATCAACGATTGGTGGAACGTGGTCTACTGGCCGGAAGTCGCAGAGCGTTTCAAGCATGCCAGCAAGCTGAAATGGAAACCGTTTTAA	MLFHYGAKLPVRLLEEIRFWKHQERKHLALIKAVVPDLEPVYVKMLDQWAIVFSDTEKAADELLRHILSYNASPTPQMLAQVEQLLRASCEQSREFIRQLHSLKENSEAVQKVPLAGTVLHHVIRESEYFLNALETLNAAGALERFMDVDMPLQSMTLHETTSPPPSTPEAELSIQGMGDNGGKAVPIGGHRLPPLPYAYNALEPYIDEKTMRIHHDIHHQSYVDGLNKAEKKLEEARKSGDFELVKHWERELAFHGAGHYLHTIFWNIMNPRGGGEPGGELAQQIKKDFGSFDRFKKHFTEAADKVEGGGWAILVWSPRSHRLEILQAEKHQNLSQWDVVPLLALDVWEHAYYLKHQNKRKDYINDWWNVVYWPEVAERFKHASKLKWKPF	PGPT0004190_56	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
AK002_00882	993	menH_4		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAGCACTACGACTGGTAGTAATGCCCCACTCTCCCAATTGAATGACGCGCCGGCCGAGCTGTCCACGGGCTTGGTCCGTCTAAAGCATATTATATTAGCGCTGCTATTATCTGTCGTTTTTTTCCTCGTTTTCTGTTTTATTGCGCTTCATGCCTATATCGCTTGGGTTTTGTCGAATCCGACGGTGGCTCCGCTCTATTCCAATCCCAAGCTTGCGAAAGATATGAATTACGAGAACGTCACGTTCCACTCGATTGACGGGAAACGAAATATCAATGGATGGTATATCCCGGCCGAGAATTCCTCGAAAACCATCGTGCTCAGCCATGGTTACGGCGCCAACCGAGAGGAAACCTGGGTACCGATGTACGATATCGCCCACTACGCGCACAATATGAATTTCAATGTGCTCATGTTTGATTACGGTTTTGCCTCCCAGACCAGCAAGGAAGTGGCGACCGGCGGCAAGGAGGAGAAACGCCAGCTTCTTGGAGCCATTGAGCATGTGAAGCAGCGCGGGGCGAAGCAAATTGTCGTCTGGGGATTCTCCATGGGGGCCGGCACCGCGCTGCAGGCAGGGCTTGAGACCAAGGACGTGGATGCCATGATTCTGGACAGCGCCTTTTTATTAGAGCCGGACACGCTTTACCACAATATCCACAACCAGATTGATCTCCCCCGTCATCCATCGCTGGAGATTCTGGAGCTGCTCTTCCCTGTGCTTAACGGCACAAGTCTGGACCAGATCCCGTACAATGAAGTGAAGAAGCACGATTACCCGTTCCCGACCTTGTTTATCCACGGAACGAAAGACGATAAGGCTCCTTACCCGATCGCCGAGAAAATCGCTTCCAACCAGACGCATGCGGATTCCGATTCCTGGATTGTAGAGGATGCCCATCATGAGCTTATCTTCCGCGAGCACCCTAAGGAATATCTGCGCAAAGTGTCGACCTTCCTCGGCAAACTCGAAACGCCGGACGAATCCTGA	MSTTTGSNAPLSQLNDAPAELSTGLVRLKHIILALLLSVVFFLVFCFIALHAYIAWVLSNPTVAPLYSNPKLAKDMNYENVTFHSIDGKRNINGWYIPAENSSKTIVLSHGYGANREETWVPMYDIAHYAHNMNFNVLMFDYGFASQTSKEVATGGKEEKRQLLGAIEHVKQRGAKQIVVWGFSMGAGTALQAGLETKDVDAMILDSAFLLEPDTLYHNIHNQIDLPRHPSLEILELLFPVLNGTSLDQIPYNEVKKHDYPFPTLFIHGTKDDKAPYPIAEKIASNQTHADSDSWIVEDAHHELIFREHPKEYLRKVSTFLGKLETPDES				NA	NA	NA	NA	NA
AK002_00883	741	xynR	COG1414	HTH-type transcriptional regulator XynR	ATGGAAGACCGCAAATTGACGGTACGCGCCGTAGAGCGGGCCCTTGATATCTTGATGTGTTTTACGAAGGATGGCGAACTTGCTCTCACGGAAATTTCTTCCCTTATCGGATTACATAAAAGCACCGTCCATCGGCTGCTAACAACGCTGGAAGACAAAGGATTCGTCGTGCGGAACAAAGAGACGGAGAAATACCGGCTCGGCTTGAAAATATGGGAGCTGTCGATGCATCTGTCCCAAAGCGACGACCCTGCCATTCGCCTTCAGCCGGCGATGGAGGCTTTGCGGGATCGGCTTGGGGAAACGGTAAGTCTGTATTTAAGGGACGGTTCGGATCGCCTTCGGATTCAAGCGGTTCAGAGCAACCAGGGGATCCGCCGGGTCGCCCAGGTCGGCGTGCGGCTGCCGCTCTCGGTGGGCGCGTCCAGCAAGGTTCTTGTGGCCTTTGCGCCTGAGGCGGACCAGGAGGAGCTGCTGAATGCGCCGGATTGGCCGGAGGCGGTCGATAAGAACGCGTACCGGCAGCAGCTGGCGGAAATACTGGAGAACGGTTACGCAATCAGCATCGAAGAGCGCGAGCCTGGAGCGGCTGCCGTATCAGTGCCGATCTTCGACCGCAGTGGCCGCGTCGCTGCCGCGTTGTCGATGTCAGGGCCTGTAACCCGCCTGTCAGCCGAAACGCTTCGCGAGCATGCGCCAATCCTGATGGAAGCGGCACGGGAAATGGGAATGATGATTTAA	MEDRKLTVRAVERALDILMCFTKDGELALTEISSLIGLHKSTVHRLLTTLEDKGFVVRNKETEKYRLGLKIWELSMHLSQSDDPAIRLQPAMEALRDRLGETVSLYLRDGSDRLRIQAVQSNQGIRRVAQVGVRLPLSVGASSKVLVAFAPEADQEELLNAPDWPEAVDKNAYRQQLAEILENGYAISIEEREPGAAAVSVPIFDRSGRVAAALSMSGPVTRLSAETLREHAPILMEAAREMGMMI	PGPT0018213_1482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_HEXONATE|HEXURONATE|HEXURONIDE_UTILIZATION,PGPT0018213-kdgR-K19333	NA	NA
AK002_00884	156			hypothetical protein	ATGATCAAAATACATACGATGTCATCGTTCCATTATCAATACCAACGGCCGCAGCCGGTGGCAGCGCCTAAGAAAGAGGAAGCGACGGACAAACCCCTGACCTTTCAAGAAATCCTTAATCAGAAAATGAAGGAAAAGAACGTGAAGCTGACCTAA	MIKIHTMSSFHYQYQRPQPVAAPKKEEATDKPLTFQEILNQKMKEKNVKLT				NA	NA	NA	NA	NA
AK002_00885	2718	citB	COG1048	Aconitate/2-methylaconitate hydratase	ATGCCAGCAAAGGATCAATTCTCCATCTCTCGCAACCTAGAGGTGGGCGGTAAAAGTTACCGCTACTTCAGCCTGCAGGCGCTCGAAGAGCAAGGATACGGCAGCGTGTCCAAGCTTCCTTTCTCCATTCGGGTGCTGCTTGAAGCTGCCGTTCGTCAGTTTGACGGACGCGCGATTACCGAAGATCACGTAAAACTCTTGTCCAAGTGGAACGAAGGACGCGACAACAACAAGGAAATTCCGTTTATCCCTGCCCGTATCGTACTGCAGGACTTCACCGGCGTACCCGTTGTCGTAGACCTTGCAGCCATGCGCGACACTGTAAAAAAATCCGGCGGCGATCCTAAACAGATCAATCCGCTCGTTCCGGTCGACCTCGTTATCGACCACTCCGTCATGGTCGACGCTTTTGGTACCGACCAAGCGCTTGAAACGAACATGAAGCTTGAATTTGAGCGCAACGAGGAGCGTTACCGTTTCCTCCGCTGGGCTCAAACGGCATTCAACAACTTCCGCGCGGTTCCTCCGGGAACAGGTATCGTTCACCAGGTTAACCTGGAGTACCTGGCTTCCGTTGCGGCTACGAAGACCGTTGACGGCGAAACGCTGGTCTTCCCTGATTCCCTCGTAGGCACGGACTCCCATACAACCATGATCAATGGTCTTGGCGTTGTGGGCTGGGGCGTCGGCGGCATCGAGGCGGAAGCCGGCATGCTCGGCCAGCCGCTGTACTTTGTCACCCCTGAAGTTATCGGCTTCAAGCTGACAGGCAGCCTGGCAGAAGGCGCTACCGCGACTGACCTTGCCCTCACGGTAACCGAGCTTCTCCGGAAGAAAGGCGTCGTAGGCAAATTCGTAGAATTCTACGGTCCAGGCCTCGCCAACATCAGCTTGGCTGACCGCGCAACGGTTGCCAACATGGCTCCGGAATACGGCGCTACGATCGGCTTCTTCCCGGTTGACGACGAAACGCTGGCTTATCTTCGCAACACGGGCCGCTCCGATGAGCAGGTTGAGCTTGTGGAGAACTACTATAAAGCGCAAAACATGTTCCGTACGGCCGATACGCCGGACCCTGAGTTCTCCGACGTAATCGAACTGGACCTGGCTTCGGTTGTGCCGAGCTTGGCCGGACCGAAACGTCCGCAGGACCGTATCGAGCTTACCAGCATGAAACAAAACTTTAACGACATCATCCGTACGCCGATCGATAAGGGCGGATACGGCCTCAGCGATGAGAAAATTGCAGAAACCGTTAAAGTCAATCATAAAGACGGCTCTACCAGTGAAATGGGAACGGGTGCCGTTGTTATCGCAGCCATCACCAGCTGTACAAACACGTCCAACCCAAGCGTTATGCTTGGCGCAGGTCTCCTGGCGAAGAAAGCCGTTGAACGCGGCCTGACAAAGCCCGGCTATGTGAAGAGCAGCTTGACTCCAGGTTCCCTTGTCGTTACCGACTACCTCGAGAAGTCCGGTCTCTTGCACTACCTTGAAGCTCTCGGCTTCTATGTTGCAGGCTATGGCTGCGCAACTTGTATCGGTAACTCCGGTCCATTGCCGGATGAAGTGAGCGAAGCGATTGCCGACAACGACATGACGGTAGCCGCCGTATTGTCGGGTAACCGTAACTTCGAAGGTCGCGTGCATGCTCAAGTCAAAGCCAACTACCTGGCTTCGCCGCCGCTGGTTGTTGCATACGCTCTGGCAGGCACGGTGAACATCGATCTTCAGAACGATCCGATCGGGTACGATCCGAACAATGAGCCTGTGTATCTGAAGGACATCTGGCCAACGAGCGCGGAAATCCGCGAAGCGATCGGCCTGTCCGTCAGCCCTGAAGCATTCCGCGCCAAGTACGAGAACGTGTTCACCGCCAATGAGCGTTGGAACAAGATTCCTGTGCCTGAAGGCGAGCTGTACGAGTGGGACGATCAATCCACTTACATTCAGAACCCGCCGTTCTTCGAAAGCCTGGGCAACGGCCTGAACGACATCCAGGACATCAAGGAAGCGCGCGTGCTGGCTCTCTTGGGCGATTCCGTTACGACGGACCACATCTCTCCAGCGGGCAACATCGCAACGAACAGCCCAGCCGGCAAATATCTGAGCGACCGCAACGTGGAACGCAAAGACTTCAACTCCTACGGCTCCCGCCGCGGTAACCACGAAGTCATGATGCGCGGTACGTTCGCTAACATCCGGATCCGTAACCAGGTCGCTCCAGGTACGGAAGGCGGCGTTACGACTTACCTGCCAACGGAAGAAGTGATGTCCATCTATGATGCTTCGATGAATTATCAAGCAGGCGGACAAAACCTCATCGTTATCGCAGGTAAAGAATACGGTACGGGAAGCTCCCGCGACTGGGCGGCAAAAGGTACGTATCTCCTCGGCGTCAAAGCTGTACTGGCTGAAAGCTTCGAGCGTATTCACCGCTCCAACCTGGTGGGTATGGGCGTTCTTCCGCTTCAGTTCCAGGAAGGTCATGGCTGGAAGAGCCTTGGTCTGAACGGCCGCGAGACATTCGATATCCTGGGCCTCAGCAACGATGTGAAGCCAGGCCAGGAATTGACGGTTGTCGCTACGCGCGAAGACGGAACGCAATTCGAGTTCCAAGCTATCGCTCGTCTGGACAGCATGGTCGACGTGGATTACTACCATAACGGAGGTATCCTCCAAACGGTACTGCGTCAAATGATCGCATCGAACCAATAA	MPAKDQFSISRNLEVGGKSYRYFSLQALEEQGYGSVSKLPFSIRVLLEAAVRQFDGRAITEDHVKLLSKWNEGRDNNKEIPFIPARIVLQDFTGVPVVVDLAAMRDTVKKSGGDPKQINPLVPVDLVIDHSVMVDAFGTDQALETNMKLEFERNEERYRFLRWAQTAFNNFRAVPPGTGIVHQVNLEYLASVAATKTVDGETLVFPDSLVGTDSHTTMINGLGVVGWGVGGIEAEAGMLGQPLYFVTPEVIGFKLTGSLAEGATATDLALTVTELLRKKGVVGKFVEFYGPGLANISLADRATVANMAPEYGATIGFFPVDDETLAYLRNTGRSDEQVELVENYYKAQNMFRTADTPDPEFSDVIELDLASVVPSLAGPKRPQDRIELTSMKQNFNDIIRTPIDKGGYGLSDEKIAETVKVNHKDGSTSEMGTGAVVIAAITSCTNTSNPSVMLGAGLLAKKAVERGLTKPGYVKSSLTPGSLVVTDYLEKSGLLHYLEALGFYVAGYGCATCIGNSGPLPDEVSEAIADNDMTVAAVLSGNRNFEGRVHAQVKANYLASPPLVVAYALAGTVNIDLQNDPIGYDPNNEPVYLKDIWPTSAEIREAIGLSVSPEAFRAKYENVFTANERWNKIPVPEGELYEWDDQSTYIQNPPFFESLGNGLNDIQDIKEARVLALLGDSVTTDHISPAGNIATNSPAGKYLSDRNVERKDFNSYGSRRGNHEVMMRGTFANIRIRNQVAPGTEGGVTTYLPTEEVMSIYDASMNYQAGGQNLIVIAGKEYGTGSSRDWAAKGTYLLGVKAVLAESFERIHRSNLVGMGVLPLQFQEGHGWKSLGLNGRETFDILGLSNDVKPGQELTVVATREDGTQFEFQAIARLDSMVDVDYYHNGGILQTVLRQMIASNQ	PGPT0001465_1819	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
AK002_00886	1023			hypothetical protein	ATGAACAGTTTGAAGCAAGCCGAGAAGCCTTGGAAGCAAGCTCTATATATTTACGTCAATCAATATAACCAAAATCGCGTGGACTATTCCTCAGGCCTGAAAGAGCAGATTGTGGCGGACCTGAACTACCTGGTAGAGAGAGGAGAGAGGCAGTTTCGCCTGCAATCGTGGTATGCGGAGCGGGAGGCAACGCCGCTTAAGAGCGAGACCCGCGCCCGTCTTCAGCGCATACTGAGGGAAACGGAGGATGATGTGGTGGCCGATGTGCGGCTCCACAGCGTTTTTTATTATGAAAAAAGAGGGATGACGCATCGGGAAGACACGGTTGTCGGGGAACGGCTGACGCTGATTCGGGACGGGGATGCCTGGCTGATCGTCGGCATTGAACGTCTGCAGGATGAACGCCATCCTTTGCAGAGGGCCGATATTCCGGGAGCAGGGTCGGACGCGGCCGGAAGGGAGCCGTCCACTCCCTTCATGAACGGACGCGTATACGCCGCTGGCAGCAGTCCGCGATCGGGACGTTACGAACGCGAAGCCGCGGCTGCCTATGCCGACCGTTGGTGGGATTCGGGGAATCCGGAGTTTGAGGAATTCGACGTGGATTGCACGAACTATATCTCCCAGTGCCTCTTTGCAGGCAAAGCCCCAATCCACTATACTGGTAAAAGAGAAACGGGATGGTGGTACAAGGGATACGTCAACAAACGGGAGTGGTGGAGCTACAGCTGGGCGGTGTCGAACAGCTTCGCGCATTATCTGAATGCCAGTACCACGGGGCTCCGGGCCGAGCGGGTGGAGCGTCCCGAACAGCTGATGCTGGGGGACGTTATCGTGTACGACTGGGACGGCGACGGCGCGTTTCAGCACAGCACCATCGTGACGGCGTTTGACGCGGGCGGGATGCCGCTGGTTAATGCGCATACGGTGTCAAGCCGCCACCGCTATTGGGACTACCGGGATTCCTATGCTTGGAACGATAACACCGAATACCGGTTTTACCATATTCCCGATTATTTTTAA	MNSLKQAEKPWKQALYIYVNQYNQNRVDYSSGLKEQIVADLNYLVERGERQFRLQSWYAEREATPLKSETRARLQRILRETEDDVVADVRLHSVFYYEKRGMTHREDTVVGERLTLIRDGDAWLIVGIERLQDERHPLQRADIPGAGSDAAGREPSTPFMNGRVYAAGSSPRSGRYEREAAAAYADRWWDSGNPEFEEFDVDCTNYISQCLFAGKAPIHYTGKRETGWWYKGYVNKREWWSYSWAVSNSFAHYLNASTTGLRAERVERPEQLMLGDVIVYDWDGDGAFQHSTIVTAFDAGGMPLVNAHTVSSRHRYWDYRDSYAWNDNTEYRFYHIPDYF				NA	NA	NA	NA	NA
AK002_00887	1095	ddl_1		D-alanine--D-alanine ligase	ATGGGACAGGATAAATTGACGGTTGGTTTAGTATACGGGGGGAAATCCGGCGAGCATGAGGTGTCGCTATCCACGGCATTCGCGGTCATGAACGCTTTTGATTTTGATAAATACGAGATGGTCCCGTTTTATATTTCAAAGCAGGGAACCTGGAGAATCGGCAGCAAGATGCCGGCTCCTTTCGCCCGGCAGGAGGAATTGAAGCTGGCTGAAGGGGAAGGCACGCAAACGGCGCTGAACGCCGTGTTCAGCAGACTGTACGGGGAAGAGAATCAGGCGGTCGATATTATGTTCCCGCTGCTTCACGGGACGTTCGGCGAGGACGGGACGATCCAGGGGCTTTTCGAAATGGCGGACATCCCTTACGTGGGAACCGGCGTGCTTGCATCCGCTGCCGGGATGGACAAAGTCGTCATGAAGAAGCTCTTTGCCCAGGCAGGATTGCCGCAATGCGAGTACTGCTATTTCAACCGCACCCAGTGGGAGCGGGGCCAGCATGAAGTGCTCAAGAACATCGAGGACAAACTCGGATTCCCGAGCTTCGTCAAGCCGGCTAACCTCGGCTCGAGCGTCGGGATTTCCAAGGCCAAGAACCGGGAGCAGCTGAAGGCAGCGATTGAATCCGCGCTCCGCTTCGATGACAAGATCATCGTTGAAGAGTTCGTCGATGCGCGCGAAGTGGAGGTCAGCGTGCTCGGCAATGACGAGCCGATGGCGTCCGTTCCGGGTGAAATCGTCTCTTCCAGTGAATACTATGACTACGCGGCCAAATATACGGATGGACAGTCGCAGATGCAAATCCCGGCCGAGATCGACCCGGATACGGCGGATCGGCTGCGCGACCTGGCCATTGCCGCCTTCAAAGCGATTGAGGGTGGGGGCATTACCCGCGCCGACTTCTTTGTCCGCCGTTCGGACGGCGCGATACTGATCAACGAAGTGAACACGATGCCGGGCTTCACGCCGTTCAGTATGTACCCGCTCTTGTGGCGGGAGACGGGCGTATCCTATCGCGAGCTGCTTGACCGGATGATCGAGCTGGGCCTTGAGCGGTACCATCGCAAGCAATCCCTGATTTATGAGAACCAGGCGTAA	MGQDKLTVGLVYGGKSGEHEVSLSTAFAVMNAFDFDKYEMVPFYISKQGTWRIGSKMPAPFARQEELKLAEGEGTQTALNAVFSRLYGEENQAVDIMFPLLHGTFGEDGTIQGLFEMADIPYVGTGVLASAAGMDKVVMKKLFAQAGLPQCEYCYFNRTQWERGQHEVLKNIEDKLGFPSFVKPANLGSSVGISKAKNREQLKAAIESALRFDDKIIVEEFVDAREVEVSVLGNDEPMASVPGEIVSSSEYYDYAAKYTDGQSQMQIPAEIDPDTADRLRDLAIAAFKAIEGGGITRADFFVRRSDGAILINEVNTMPGFTPFSMYPLLWRETGVSYRELLDRMIELGLERYHRKQSLIYENQA	PGPT0020050_1447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK002_00888	318			hypothetical protein	ATGGGATTTCAAACCGAGTTCAATTCCGTTTGTAAGTTTAAAAGCGAGCAGGAGCTCTACGAGCTGCTGGAATACGGCCGCGGCAAAATGCTGAAGGATGGGCTCCGGGTGTTTCCGACGGGACAGAAGGTCATTGCCTATACGCCGGATAACCGGGCGGTGGCCATCGTCCTGATCACCGCATGCGTATCGGAGATCAACTTCCAGGGGCGGGAGGTCACTTCGGTCGAACTGCAGCTCATCCGCAAATTGACGGATGAGGAAGCGCGCGTACAGACCGCGCTCGCGCACGAGATGTTCTTCGGAGACCATGCATGA	MGFQTEFNSVCKFKSEQELYELLEYGRGKMLKDGLRVFPTGQKVIAYTPDNRAVAIVLITACVSEINFQGREVTSVELQLIRKLTDEEARVQTALAHEMFFGDHA				NA	NA	NA	NA	NA
AK002_00889	1002	uvsE		UV DNA damage endonuclease	ATGATTGTCCGTTTCGGTTATGTGGCCATGTCCACGGTCGTGCAGAATGCTTCTCCTTCCAAGACGATGACGATGAAGAGTTTCATGAAGCTGAATGACCGTGAGGCCGGCCTACACAAACTGGAGCGGATCGCGAATGAGAACCTACATAATACCCTTCGGCTTCTGAAGCATAATGCGGCTCACGATATCAAGGTATACCGCTTCTCGTCCAAGCTGATTCCGCTGGCCACGCATAACGACATGCGGGACTGGGATCCGTTCCCGGCTTTGCGGGAAGGCTTTCAGGCCATTGGGGAATTCGTGAAAAAACACGGGATGCGGGTTTCCTTCCATCCGGATCATTTCACGGTGCTGAGCACGCCGCGTCCTGAGGTGTTGGTCAATTCGATCCGTGATCTGGAGTCGCACGTCCATATGCTGCAGGCGATGGAACTGCCTGCTTCCATGAAGAATAACATTCACATCGGGGGAGCTTATGGGGACAAGCCTTCGGCAGCCGCCCGATTCGTTGAACATTTCCGTGAGCTTAACCCCCACATCAAGGAACGGCTGACCCTTGAAAATGACGATAAAACCTTTACCGCCCAGGAAACGCTGGCCGTATGCCAGCAAACGGGGCTGCCGATGGTGCTGGATATCCATCACCAGTGGGTCAATAACGATGGCGAGGCGCCCTGGGAGCTGTGGCCGGATATCCTTCGCACCTGGGAGACGCCGCTTGCGCAGGCCGATTCGGACCGGGCGCAGCCGCTGCCGCCTAAGATTCATGTCTCCAGCCCCAAGAGCAAGACCGATATCCGCAGCCATGCGGACGGGGTGGATGTCGTGCCGCTGCTGGCTTTTTTAAGGAATATTGCCGGGGCTACGCCGAAAGTGGACGTCATGATTGAAGCGAAGATGAAGGACGGCGCCTTGTTTGACCTGATGAGGGATCTGGGAAATTATACGGAAGAGGGCATTACCATACTCGACGGTGCTTCCATCGAAGTGAACCCTTAA	MIVRFGYVAMSTVVQNASPSKTMTMKSFMKLNDREAGLHKLERIANENLHNTLRLLKHNAAHDIKVYRFSSKLIPLATHNDMRDWDPFPALREGFQAIGEFVKKHGMRVSFHPDHFTVLSTPRPEVLVNSIRDLESHVHMLQAMELPASMKNNIHIGGAYGDKPSAAARFVEHFRELNPHIKERLTLENDDKTFTAQETLAVCQQTGLPMVLDIHHQWVNNDGEAPWELWPDILRTWETPLAQADSDRAQPLPPKIHVSSPKSKTDIRSHADGVDVVPLLAFLRNIAGATPKVDVMIEAKMKDGALFDLMRDLGNYTEEGITILDGASIEVNP				NA	NA	NA	NA	NA
AK002_00890	864	suhB	COG0483	Inositol-1-monophosphatase	TTGAACGAGAATGAAAAGATTCCTTATGTTGTCAGCAGTAAGAGCTATACCGCCGTTGCGATTAATTGCGCCGCGAAAGCGGGAGAATGGATTAAGAGCAAACTGGGCACCGTCAAGCAGCTGAGCACCAAGTCTTCGGCACAGGATATCGTAACCGAGGTCGACAAAGGCGCGGAGCAGATGATCCGCAAGCTGATCCTGACGCACTTCCCGGATCATGCGATCCTGGGAGAAGAAGGGGTTGCCCCTGGTACGGATGCCTATGCGAAGGCGCTTGAGGAAGCCAAAGACGAAGAGTATCTTTGGATTATCGATCCTGTGGACGGCACGACGAACTATGTTCACGGATTTCCGTTTTACTCCGTATCCATCGCGCTGGCTCATCATGGAGAAGTGATTGTCGGCGTTATCTACGACCCTTCCCGGGACGAGTTGTTCGTGGCGGAAAAAGGCAAGGGGGCTTACGTTCACGGCAATCCAACCTATGTCTCCACGGAGGAGCAATTGTCGGACAGCTTGCTGGCCACGGGCTTCCCGCTGGACAGCAAGGTCAACCTGCCGCTCAACATGGCGGAGCTTCAGGCGCTGCTGCCGATGGTACGCAATGTAAGGGCGGGCGGTTCCGCCGCGCTTCATCTTGCTTATGTGGCGGCCGGCCGGCTGAGCGGATACTGGGAGCACGGCTTGAGTGCCTGGGACGTTGCCGCAGGCGCGCTGCTGGTTCAGGAGTCCGGCGGCAAAGTAACCGATACGGAAGGACGGCCCTACGATCTGTCGGTGCGTCATTTGGCTGCAACCAACGGGTTGATTCATCAGCGTTTTTTGGATACGCTAAAAGATGCGGGCGAGGCTTTGGTCCGCTAA	MNENEKIPYVVSSKSYTAVAINCAAKAGEWIKSKLGTVKQLSTKSSAQDIVTEVDKGAEQMIRKLILTHFPDHAILGEEGVAPGTDAYAKALEEAKDEEYLWIIDPVDGTTNYVHGFPFYSVSIALAHHGEVIVGVIYDPSRDELFVAEKGKGAYVHGNPTYVSTEEQLSDSLLATGFPLDSKVNLPLNMAELQALLPMVRNVRAGGSAALHLAYVAAGRLSGYWEHGLSAWDVAAGALLVQESGGKVTDTEGRPYDLSVRHLAATNGLIHQRFLDTLKDAGEALVR	PGPT0018535_1172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018535-suhB-K01092	NA	NA
AK002_00891	267			hypothetical protein	ATGAATGAGAAGTCGGATCAGGATTTGGAGCGCCAGCTCAGCGAGATGTTAACGGACGGTGAAATGGAGAAGAAGGATCGGGAGAAGGAGGAGCGCAGGCTGCTCTCTCCGAAATATGAGATCCGGATTCAGACGCAGCTCGATCCCATCGTGGAGGAGACGCTCAAATACCGCAGCATGGCAAAGGAATTGGATGACCGCTATGACAAGTACATCGATAAGGCGGTTAAGAAGGATAAGCCTGAGGATTCAGGCGAAGACGTGTGA	MNEKSDQDLERQLSEMLTDGEMEKKDREKEERRLLSPKYEIRIQTQLDPIVEETLKYRSMAKELDDRYDKYIDKAVKKDKPEDSGEDV				NA	NA	NA	NA	NA
AK002_00892	372			hypothetical protein	ATGTGCGACCTTGTCCATATAGGGGGGAGGAGAAACAATGCGGGTTCAGCTGAAGGCTTCCTATTTTTGGCAGGATTATCAGGTGTGGGTTCCATCCTGTTGTGGTGCATACTTATCATCTTTAATCCGTATACGGACGTTATGAACTGGAGTCCGGCCCTGAATACGTTCATTATGCTCTTTCTGCCAGGCTGCTTGGCGTTGATTGCGATGGTGTATTCGTACAGATTGCTGCTGCTGATTGCTTTTGGATGGTCGATACTGCCAAGCCTGTATATGGCAGGCACGCCAGGGATATTTGCTTGGTTTGGAGTTACCTCCATAGGTTATCTATTCGCTTATCTTCTCATGAAGCCGTCTCGCCCGGCTTGA	MCDLVHIGGRRNNAGSAEGFLFLAGLSGVGSILLWCILIIFNPYTDVMNWSPALNTFIMLFLPGCLALIAMVYSYRLLLLIAFGWSILPSLYMAGTPGIFAWFGVTSIGYLFAYLLMKPSRPA				NA	NA	NA	NA	NA
AK002_00893	1263			hypothetical protein	ATGTTCAAACAATGGAAGAAGGGGCTGGCGGCAGTAACCGGCAGCTTGACGCTCGCGGTGGCGCTAGTCGGACCGGGCGTTGCGCCGGCTTATGCCGATGAGGCTGCGGCTAAGAATACATATCGTATCGTAACGCTGGGGGATTCGCTGACCGTCGGGTATGAGCCGGGAATGGATCTGAACAGCAAACCGTACGGTTTTGTTGACCGGCTGTATGAGCAAGGGCTGTTCCATGGCCGGACCGAAGTCACGAATCTGGGGATCGGCGGGTTGAAGACCGACGGGCTGAACAACTACGTCAAGGCCGTCCTGGACGAACGGGCGATCACGCCGGAGGAGCTGCAGCCGGGACTCAGCAGCATCGATCCGCGGACCAAGCAGATCGGCGCCGATGCAGCGAAAGCCAAGCCGATTATCGCCGAAGCCGATCTGATCACCATTACCATCGGCGGCAATGACATGATGAGTCTTGTCAGCACCGTGGAAACGTTAAGCGATGAGCAGCTGCAAGCCAAGATGCAGGAACTGTTCCAGATCTATAAGGACAACGTGTCATCCGTCATTACAGGCCTGCATTCCTTGAATCCGGATGCCGCGATCGTCGTGGCCGACCAGTATAATCCGGTTCCCAAAATCGCCGATGAAGTTGCATACGCAAAACTGCTTGCGGCATCCGGTGAGTTCACGAAGCTGGTGGACGGGGTGGCCGGCGGTTTTGCAACCCAGGGCGTAGACATCAAGGTAGCGCATGTCGCGAAGAAATTCGTGGGCTCCGAGCTGACGATGACCCATATCCTGAAGGATGACATCCATCCGAACCAATACGGATACGAAACGATGGCCGGCGTGTTTGCCGAGACGATCTGGGGCAGCTATCAGAAACCTCCTGTTCAAAATGAGGGGCAGCCGATGCGCATCGTCGTGAAAGGGCAGGAGCTGAATACGCCTTACAAGCCGATCCTCCGCGACAACCTGAATTACGTAGCCATACAAGATATCGTGAACGCGGTGGGGGCGACTACCAAGTGGGAGAATAAAACATCCAGCGCAACGATTACCTTCGGAGACCAGACGGTCGTGGTGAAGATCGGCGCCAAAACCGTTCAAGTCAACGGAACGACCGTACCGATCGATACGCCGGCTTTCCTGCACAAGGTAGGAAAAGAGGATAAAACCTACGTGCCGCTCGCCGTGATTGCATCCGGCCTGGGCTTTGACGTTCAGTACAGTTCCAAATTGCGTACCGCATTCATCAATTTGTAA	MFKQWKKGLAAVTGSLTLAVALVGPGVAPAYADEAAAKNTYRIVTLGDSLTVGYEPGMDLNSKPYGFVDRLYEQGLFHGRTEVTNLGIGGLKTDGLNNYVKAVLDERAITPEELQPGLSSIDPRTKQIGADAAKAKPIIAEADLITITIGGNDMMSLVSTVETLSDEQLQAKMQELFQIYKDNVSSVITGLHSLNPDAAIVVADQYNPVPKIADEVAYAKLLAASGEFTKLVDGVAGGFATQGVDIKVAHVAKKFVGSELTMTHILKDDIHPNQYGYETMAGVFAETIWGSYQKPPVQNEGQPMRIVVKGQELNTPYKPILRDNLNYVAIQDIVNAVGATTKWENKTSSATITFGDQTVVVKIGAKTVQVNGTTVPIDTPAFLHKVGKEDKTYVPLAVIASGLGFDVQYSSKLRTAFINL				NA	NA	NA	NA	NA
AK002_00894	1866			hypothetical protein	ATGAATGGACCGATGATCATTACGTTGTCTGTTTTGGCCGTGGCATCCGTATTGTTCATGTCGGGAAAAGTGCGGTCGGATTTGGTCGCGATCGGCGTGTTGATGGTACTTATGCTAACGGACATTTTAAGTCCGGCTGAAGCCCTGTCGGGCTTTTCCAATTCGGTTGTCATCATGATGATCGGTTTGTTTGTTGTGGGGGGCGGCATTTTCCAGACCGGGCTGGCCAAGATGGCCAGCGGGAAGCTGCTGAAGCTTGGCGGGGGAAGCGAGACCCGGCTCTTGATCATGATCATCCTGGTGACGTCGCTCATCGGCGGATTCGTCAGCAATACGGGCACGGTAGCGGTGATGCTGCCCATCGTTGTCAGCCTGGCATACAGCGCGGAGATCAATCCGGGGCGGCTGCTGATGCCCCTTGCGTTTGCAAGCAGCTTGGGCGGCATGCTCACCTTGATCGGAACGCCGCCGAACCTTGTGATTCAGGAGACGCTGATTAACGCAGGGTACGAACGGTTGTCGTTTTTTGCTTTTCTGCCGATCGGCCTGGTGTGTCTGGCAACCGGGATTCTCGCGATATTGTTCCTTCGCCGTTATCTTCCCAGCAATGAAGAAGGAAGAACGGGGAACCAGGGCGGACGCTCGCTCAGGGAGCTGGCCAAGCAGTATCGGCTGACCCAGAACCTGTATCGGATTCAGGTTGGAGCCGCTTCCTCCATTCGCTCCAAGACGCTGCGGGAGCTGGATATTCCGGCACAGTTCGAAATCAACATCATTGAAATCCGCCGTAAAATGTCGGCCAAGAATCAATTCTTCAAAACGATCAATCAGGAGATCGCGGGGCCCGGGACCGTGATAGAGGAAGAGGATATTCTGTACGTGAATGGTCCATTCGAGCGGGCCTCGGAGTTTGCGGAGACATACGGGCTTGTCATGCTGGACCAGGGTGTGCCCGAGCACCGTAAACATGCCGAAGAGTCGCAATACGCCACAAGCGACGTCGGCATTGCAGAGGTGATGCTGACGCCGTCCTCGCGTCTGATCGGCCGGCTCGTCAAGCATTCGGGATTCCGCGAGAAGTATCGGGTGAACATTCTGGGCATCCAGCGTAAAGAACAGTATTTGCTGCATCATCTGAAGGAAGAGAAAATGCGCTTTGGCGACGCGCTGCTCGTGCAGGGCGCGTGGAAGGACATTGCCCTGCTGGCAGCCGAGCAGACGGATGTCGTGGTGGTGGGGCAGCCGGCAGAGGAGTCGCGCAAATTGACGATGGATCACAAAGCGCCGATCGCGGCAGGAATTATGCTGCTGATGGTGATCCTGCTCGTGACGGAATGGATTCCGGCGGTGGCCTCCGTGATGATTGCCGCGGTGTTGATGGTGGTGTTCGGCTGCGTCCGAAATATGGAGGAAGCCTATAAGACGGTCAACTGGGAGAGCATCGTCCTTATTGGAGGGATGATCCCGATGTCCATTGCCATCGAGAAGACGGGAGCCGCCACGCTGATCTCGGATATGCTGGTTCATTCCCTGGGCAGCTATGGATCGCTTGCCCTGCTGGCAGGGGTGTATTTCACCACTTCGCTGCTAACGCTGTTTATCAGCAATACCGCCTGCGCGGTATTATTCGCGCCGATTGCGTTGTCGGCTGCGATCCAGATGGGAGCGAGTCCGTATCCGTTTCTGTTCGCCGTTTCGATTGGAGCGAGCATGTGTTTTGCGTCCCCGTTCTCCACGCCGCCGAACGCGCTCGTCATGTCGGCAGGACGTTATAAATTCAGTCATTACGTGAAGGTCGGCCTGCCGCTTCAACTGACGATCGGGCTCGTCATGATGGCGGTACTGCCGCTGTTCTTTCCGTTTTAA	MNGPMIITLSVLAVASVLFMSGKVRSDLVAIGVLMVLMLTDILSPAEALSGFSNSVVIMMIGLFVVGGGIFQTGLAKMASGKLLKLGGGSETRLLIMIILVTSLIGGFVSNTGTVAVMLPIVVSLAYSAEINPGRLLMPLAFASSLGGMLTLIGTPPNLVIQETLINAGYERLSFFAFLPIGLVCLATGILAILFLRRYLPSNEEGRTGNQGGRSLRELAKQYRLTQNLYRIQVGAASSIRSKTLRELDIPAQFEINIIEIRRKMSAKNQFFKTINQEIAGPGTVIEEEDILYVNGPFERASEFAETYGLVMLDQGVPEHRKHAEESQYATSDVGIAEVMLTPSSRLIGRLVKHSGFREKYRVNILGIQRKEQYLLHHLKEEKMRFGDALLVQGAWKDIALLAAEQTDVVVVGQPAEESRKLTMDHKAPIAAGIMLLMVILLVTEWIPAVASVMIAAVLMVVFGCVRNMEEAYKTVNWESIVLIGGMIPMSIAIEKTGAATLISDMLVHSLGSYGSLALLAGVYFTTSLLTLFISNTACAVLFAPIALSAAIQMGASPYPFLFAVSIGASMCFASPFSTPPNALVMSAGRYKFSHYVKVGLPLQLTIGLVMMAVLPLFFPF				NA	NA	NA	NA	NA
AK002_00895	1833			hypothetical protein	ATGAAGAACCGCTTCAAAAATCCGCTGGGCCGCATGAACATCAAACAGCAGATGATTCTGCTGTTCCTGGTGCTGGTCATTCCGTTATTCGGGCTGAACGCCTACGGGAATTCCATGGCTGGTCAAATCCTGAAGCGCCATGTGACCAATGCTTATATCGAACTGAACAAACAAAATTTCAAGCTGATTAACCGGGACATTGAAACCGTTAACAAAGTAACCTCCACGGTCATCCAGAACTCGCAGATCCAGCAGCTGGATCCCTTTGCCGAGGTTACCGTACTGGAACGCGTCAAAAATTACGAGCGGCTCGAAAAGATGCTGATTTCCTTCTCCCAAGAGACGGACGAGCGTGAACCGGTCTATTACTCGCTTTATGTGTACGACCCGGACAACAGCTACTTCTTTGCCCCGTATTACCCTGACCGCAGAAAAGCAGGGGTATATTTTTTCTCCGACGAGAAGGAGAAGCCCGCTTGGTTCGATGAAGCCGTGGCGATGAAGGGGAACGGATACCTGAGGCGCATGGCCAATCTGTCGCCGCCGGTGCAAGGGCGCCAGGATCAAGAGACTTTAAGCTATGTGCGGGCCGTTAACAATATCTATCGGGGCGGTACCATCGGCGTACTGCTGGTCACCAATTTGGACGCGCGGATCGGCGAGTCGTTATCGACGGTCTCGATTCCCGATGGGGAGCTGTATTTTACGGATTGGGACGATAATATCCTGACCTCGTCGGTACAGGGCATGGCGGGCAAGCTGGAATTGCCGCCCGAAGCGGATCCGGGCCATTCCACGATCGGCGTCATGGACGTGATTACGTCGGATTTCATCTATGTCATCGATTACAATTACGTGCTCCAGCAGAAGCTGGTCTACAAGGTGCCCGTCAAAACGCTGCTTGCCCAGCAAAGCGAGATGAAGCGCGTCATACAGGTCATTTCCGTCGCTTATTTTGCCGTGGGCCTCATTATCGTCTTTTACTTCTGGCAGTCGCTGATGACGCCGCTCCAGAAGCTGGCGCATTTCGTGAGGAGGTACGAACCTGGAAACGTCGTGCCGGAAACCCCTTATCGGCGCAGAAAAGACGAAGTCAGCGTCCTGATCTCCACGATCTACGACATGGCCCGCCGACTGAATGACCTGATCCATTACAAATACAATATGGATTTGAAGCAGAAGGAAGCGCAGCTGCAGCTGCTCTATCAGCAGATCAATCCCCACTTGCTGTACAACACCCTGGAGAGCATTTACTGGAAGAGCACGATGGAGGGCAATACCGAGTCCGCCGAAATGATCAAGGATTTATCCAAATTGATGAAGATCAGTCTTAGCCGGGGCCGGGATCTTATCACGCTTGGGGAAGAGCTTGAGCATGCGGGGGCTTATATGAATCTCCAGTTGAATCGTTACGATTATCAGTTTACGATCCGATGGGACGTTCCCGAGGCATTGCTGGCGAATCATGTGCCGAAGATCACGCTGCAGCCGCTGCTGGAGAACGCGATCATTCATGGCATTAAAAATATGGGCGAGGACGGAATGATCCGCGTATCGGGTCATCTGGAGGGTGATCGATGCCGGATCGTCATTGAAGATAACGGCTTCCGCCCCGTGAACTACGAATCCATCCGCCGGCTGCTCCATGATGATGCACCCGATCATTCGCTGGGCTACGGCATCCGCAATATCCAGGAGCGGATCCGGCTGCATTTCGGCAGCCGCTACGGGCTGCAGTATGAACCCGGGGAAGAAGGGGGAACCCGCGTGACGATCACGATACCGCGAACAGAAGCAGCAACCATTACATCAACCGGACAGGAGGTTTCCTGA	MKNRFKNPLGRMNIKQQMILLFLVLVIPLFGLNAYGNSMAGQILKRHVTNAYIELNKQNFKLINRDIETVNKVTSTVIQNSQIQQLDPFAEVTVLERVKNYERLEKMLISFSQETDEREPVYYSLYVYDPDNSYFFAPYYPDRRKAGVYFFSDEKEKPAWFDEAVAMKGNGYLRRMANLSPPVQGRQDQETLSYVRAVNNIYRGGTIGVLLVTNLDARIGESLSTVSIPDGELYFTDWDDNILTSSVQGMAGKLELPPEADPGHSTIGVMDVITSDFIYVIDYNYVLQQKLVYKVPVKTLLAQQSEMKRVIQVISVAYFAVGLIIVFYFWQSLMTPLQKLAHFVRRYEPGNVVPETPYRRRKDEVSVLISTIYDMARRLNDLIHYKYNMDLKQKEAQLQLLYQQINPHLLYNTLESIYWKSTMEGNTESAEMIKDLSKLMKISLSRGRDLITLGEELEHAGAYMNLQLNRYDYQFTIRWDVPEALLANHVPKITLQPLLENAIIHGIKNMGEDGMIRVSGHLEGDRCRIVIEDNGFRPVNYESIRRLLHDDAPDHSLGYGIRNIQERIRLHFGSRYGLQYEPGEEGGTRVTITIPRTEAATITSTGQEVS				NA	NA	NA	NA	NA
AK002_00896	1320	rssB_5		Regulator of RpoS	ATGTACAACATTTTGGTGGTAGATGACGAACCTTTGATATGCAAGGGCTTGTCAGGGCTGTTAACGTCCTCGGGCCTTGCCATCGATGGCATAACCACGGCCTACAGCGGGCAGGAAGCGCTGGACTACATACGGATGGGAGATATCGACCTGCTGGTCACCGATATCCAGATGGGCGAGATGAACGGCATTGAGCTGATGCAGCAGGCGAAGATCGTGAAGCCTTGGGTACAGACGATCATAATTTCAGCCCATGAAACATTTCAATATGCGCAGCGGGCGCTTCAGCTCGGAGCCAAGGATTATTTGATCAAACCGCTGAACAGCGAGCAGTTTCTGGATTCGGTCCGCAGCGTGCTGCTTAAGATGGACCGGCCGGCGCCCCAGGTCGAGCCGCTTCTCATGGCCGATAATGAGCATTTCCGGATGGAGGAGCCGCCGTCCGAAAGAATAGAGCGGCTGAACGAGCGGCTCTCCATGGAGCCGGATCCATCGGCCACTGCCGGTCCCGACGAGTCGGAGCTGGGCCTGGTCGGCCCCTATTTTGCCGTCATCAAAATGAAACTGGGCCTGGCGGAAGAGCGCAGCGCTTCTTTTTCCAGTCATGATATACACCTGATTCAATATGCCGCGCTGAATATCGCCAAGGAGCTGCTGGAACAGGAGCCGCACACCTTGGTGTTCTATTCGCCGGAACGGGACGTCAACATCATCCTTCAATGGAGCGAACAGGAAATGGAGGAGAACGCCAGCGGGAAAATCCACCATCTGGAGATGATCGGCCGGAGTCTGCACCACCATGTGGAGCTGCACCTGAAACGGAGCTGTACCGTGGGCATCAGCCAAATATTGAGGGGACGGGAATTCTTGAGCGTGCTCAGCCGACAGGCGGACAAAGCGATGCTGTGGAGCGAGCAGCTGCATGATTTCCATGTCTTTTATTACGGGGATTTCAATTGGCACAATTATGCCCAGGAGACGTCGCAGGAGGTGCTGTCGAGCCAGAGCAACCGGATCGTGGAGAATACGAGGCAATATATCGATGAGCATTACCGCCAGAAGGGATTGACCATTCATGATGTAGCGAAGAACAATCACGTGAGCCCCAACTATTTGAGTTACCTGTTCAAAAAATATACCGGCAGCAGCCTGTGGGAGTATGTGGTGAAGCTGCGAATGGAGGAGAGCAGGGCATTGATCCTGCACACGGATCTCCGCCGGTACGAGATAGCCGAGCGGGTGGGTTATGAATCCCCGGAGCATTTCAGCAAAATCTTCAAAAAATACTACGGCGTAAGCCCAAGCGAGCTAAAGAAGTAA	MYNILVVDDEPLICKGLSGLLTSSGLAIDGITTAYSGQEALDYIRMGDIDLLVTDIQMGEMNGIELMQQAKIVKPWVQTIIISAHETFQYAQRALQLGAKDYLIKPLNSEQFLDSVRSVLLKMDRPAPQVEPLLMADNEHFRMEEPPSERIERLNERLSMEPDPSATAGPDESELGLVGPYFAVIKMKLGLAEERSASFSSHDIHLIQYAALNIAKELLEQEPHTLVFYSPERDVNIILQWSEQEMEENASGKIHHLEMIGRSLHHHVELHLKRSCTVGISQILRGREFLSVLSRQADKAMLWSEQLHDFHVFYYGDFNWHNYAQETSQEVLSSQSNRIVENTRQYIDEHYRQKGLTIHDVAKNNHVSPNYLSYLFKKYTGSSLWEYVVKLRMEESRALILHTDLRRYEIAERVGYESPEHFSKIFKKYYGVSPSELKK				NA	NA	NA	NA	NA
AK002_00897	936	melD_7	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGGAAGAAACGATCATGTCACAAGGCCAGGCTCTGATCGAGCCCGGCCGCCCCGCCCGGAAGGAGCATAAGCGCAAGCCGCTGTGGAGGAAGTATCTATGGGGGTATTTGTTCCTTGTCCCGGCCATTGCGATTTTTATCGTCTTTTTATGGGTGCCGATCTTCAAAGGGATCTTTTACAGCTTTTTTCATATCGATTTCGTAAAAGGCAACACCTTCGTCGGGTTCGATAATTATGCCAAGGTTCTAAGCAATCCCGACCTGCTGCTATCGGTCAGGAATACCTTGTATTTCATGCTGTTAACGCTTGTCATCGGCTTTTGGGTGCCCATCGCCGCATCCATTGCCATCTCGGAGTTGAAGCTGTTCCAGGGGTTCGCCCGGATTGCCGCGTATCTCCCGTTTGTCGTGCCCGGGGTCGTGCTCTACGGCATGTGGCGATGGATGTACGATCCGGTGGGTCCGATCAATGCGTTGTTCGGCTTCTTCGGGGCAGATCCGGTGTCGTTCATATCGGATAGCCGCTTCTCGATGGTATCGCTGGTTGTTATGGAGACATGGCAGCAATTCGGCTCGGCGATGCTGATCTATCTGGCCGGGGTGCTGAGCATCCCGAAGGATTGGTATGAAGCCGCCGAAATCGACGGTGCCGGCGTGTGGGCCCGGATTAAATACATCACGCTTCCCTCGATGCGCAATCTGATTGTGCTCATGCTGATTCTGCAGCTGATCGGCACGTCACAGGCGTATCAATCGCAGCTGGCGATGCTGGACGGCGGACCGAACAAGGCCACGCTCACCTATGCGCTCCTGACCGTAAAATATGCGTTTAACCAGCTGGATTACGGGGCCGGAACCGCGATGGGCATCTTGATGTTCCTTGTGCTGAGTTTGCTGGGCATCCTGCAATTCAAGATGAACAGGGAGGAGTACTAG	MEETIMSQGQALIEPGRPARKEHKRKPLWRKYLWGYLFLVPAIAIFIVFLWVPIFKGIFYSFFHIDFVKGNTFVGFDNYAKVLSNPDLLLSVRNTLYFMLLTLVIGFWVPIAASIAISELKLFQGFARIAAYLPFVVPGVVLYGMWRWMYDPVGPINALFGFFGADPVSFISDSRFSMVSLVVMETWQQFGSAMLIYLAGVLSIPKDWYEAAEIDGAGVWARIKYITLPSMRNLIVLMLILQLIGTSQAYQSQLAMLDGGPNKATLTYALLTVKYAFNQLDYGAGTAMGILMFLVLSLLGILQFKMNREEY	PGPT0016535_4026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00898	867	ngcG_3	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGAAAGAGAGAGGCATTCTGTCCGCTTCGGATTTGAGAAAACCGTGGAATAAGGCGGTTTACGGGTTTATGGTGCTGTGCATTGCCGTGATGACCTTCACGATGCTGTACCCGATCGGCATGACGATGTTCAACGGATTGAAGAGCAATCAGGAAATCAACACGTTTCCGCCGCGCTTTTTTCCTTCGGAATGGCATTGGGAGAACTTTCCGAAGGGGTGGGCATACATCGATCTGCCGATGTTTCTGAAGAATACGCTGCTGATTTTCGGCGGTAATCTGCTGGTCACGATTCTGGTGCTGGGCATGGCGGCCTTCAGCATTTCCCGCATCCGGGTTCCGTATCACCGGGCCATCTATTTCTTCATTCTGATGACCTTGTTCATCCCGGCGTCGAGTTACATGATTCCGAATTTCGTCAATTTAAAGGAGCTCGGCCTGCTGAATTCCTACTGGGCCTTCTGGCTGCCGGCCGGAGCGAACGCGTACTTCTTCCTGCTGATCAAAAACTTCTTCGACGGCATTCACCCGGAGATCTTTGAGGCGGCGCGCATCGACGGCGCTTCGGAGATGAGCAGCTTCCTGCGGATCGCCATACCGTTATCCGTTCCGATCTTCGCGACGCTGGCGATTTTTACATTCTCCACGGCATGGAACGACTGGTTCTGGCCGTCGCTCGTCATGCAGACCCAGGACAAATATACGCTGGCTACGGCCATTTATAAGTATGTCATCAACGCAAGGAGCCTGGACAGCAGCGTTAAATTTTCGATCCTGTTCATGGTGATGGTGCCGCCGATCTTCGTATTTCTGGCGTTCCAGAAATTCATCATGCGCAGCGTCAGCCTCTCGGCCGTCAAAGGGTAG	MKERGILSASDLRKPWNKAVYGFMVLCIAVMTFTMLYPIGMTMFNGLKSNQEINTFPPRFFPSEWHWENFPKGWAYIDLPMFLKNTLLIFGGNLLVTILVLGMAAFSISRIRVPYHRAIYFFILMTLFIPASSYMIPNFVNLKELGLLNSYWAFWLPAGANAYFFLLIKNFFDGIHPEIFEAARIDGASEMSSFLRIAIPLSVPIFATLAIFTFSTAWNDWFWPSLVMQTQDKYTLATAIYKYVINARSLDSSVKFSILFMVMVPPIFVFLAFQKFIMRSVSLSAVKG	PGPT0016540_3923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00899	1449			hypothetical protein	ATGCGCAAGTTCTCAGCATTACTGATCTGCTTTATGCTGTTCAGCTCCTTGCTCGCCGCATGCGGCGGCGGCAAAGCGGCGCCGGAGGTCACGAATAAAGAGGGAGGCACCGCCAATTCGGGCGGGACGGCCACGACCCAGACGGAGGAGCCGAAGGAGGATATCGCGGATCAAAAGATCACGATCAAGATTCACTATCCGCTGCCGGATGATACAACGCTGCGTCAGCAGGAGGATGATAAAATCGCCCGCTTCCAGGCGAAATATCCGAACGTGACCATCGTGAAGGACGACTGGCAGTACAGCGTCAACGAAATTGGGGTGAAGATGGCTTCGAACGAAGCGCCGACATTTTATAACACTTGGGCCACGGAGGCACAGCTGCTCGTGGAGCGGGGCTGGGTGGCCGACATTACGGAGTTCTGGAACGAATGGGAGTACAAGGACGACATGAATCCCGTGCTGCAGGATCAATTCATCGTGGACGGCAAGGTGTACGGCGTTACGCAGAACGGTTATATCACGTCTACGATCGTGAACAAGAAGCTGCTGGACGCGAAGGGCGTGCCCGTACCGCCGATGGATTGGACATGGGACGACATGTACAATACGGCGAAAGGCGCAGCAGACCCCAAGGCCGGCATCTCCGGAATCGCGCCGATGGGCAAGGGCAATGAAGCAGGCTGGAACTGGACCAACTTCCTGTTCGAAGCCGGCGGGGATATCGAAGTGAACGAGGACGGCAAAGTGAAAGCGGTGTTTAACTCGGAAGCCGGCGTGAAGGCGCTGGATTTCTACAAGAAGCTGAGATGGGAAGCAAACGCCATTCCGCAGGACTGGGCCCTCGGATGGGGCGATGCCGTCAGCTCGTTCCAGCAAGGACGGACGGCGATGGTCATTGCAGGCGCATTTGACGTGATCCAGCCGGCATTGAACGAGGGCGGCATGAAGCCTGAGGACGTGCTTGCGTATCCGATGCCTGCGATGGAGAAAGGCGGAGCGCACCACGGCATTTTGGGCGGCAACTATTTGGTCATCAATCCGAATGCCACGAAGGAAGAACAGGAAATGGCATTCCGCTATATCACGTTTGATTATTTTACGGATGATGCGCTGAAATCGGTGGAAGATACGATCAATGCCCGCAAGGCCGAGGGCAAATATTTTGTGCCGACGCCGCTGGAATATTTCAGCGACGATTCGGAGTATGCGGCGAAGGTGAAGGCGATCTACGATAAGTACGACAACGTCTATGAATACGATCCGCAGCTCTTCAGCCTGTTGGAAGGAAAGCCTGAAGCGCAATTCGGCACGCAGGATTACTATGCGGCAATGTCCAACGTGGTGCAGGAATCGTTCTCGAAGGAAGGCACGGACTCCAAGAAGCAGCTGGACGAAACGGCCAAGCTGGTTCAGGAGAATTTCTTTGATAAGATCGAGCAGAAGTAG	MRKFSALLICFMLFSSLLAACGGGKAAPEVTNKEGGTANSGGTATTQTEEPKEDIADQKITIKIHYPLPDDTTLRQQEDDKIARFQAKYPNVTIVKDDWQYSVNEIGVKMASNEAPTFYNTWATEAQLLVERGWVADITEFWNEWEYKDDMNPVLQDQFIVDGKVYGVTQNGYITSTIVNKKLLDAKGVPVPPMDWTWDDMYNTAKGAADPKAGISGIAPMGKGNEAGWNWTNFLFEAGGDIEVNEDGKVKAVFNSEAGVKALDFYKKLRWEANAIPQDWALGWGDAVSSFQQGRTAMVIAGAFDVIQPALNEGGMKPEDVLAYPMPAMEKGGAHHGILGGNYLVINPNATKEEQEMAFRYITFDYFTDDALKSVEDTINARKAEGKYFVPTPLEYFSDDSEYAAKVKAIYDKYDNVYEYDPQLFSLLEGKPEAQFGTQDYYAAMSNVVQESFSKEGTDSKKQLDETAKLVQENFFDKIEQK	PGPT0016545_766	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00900	987			hypothetical protein	ATGAGCATGGACAACGACCGGGACCTGAAACCACTCTTTCAAAGGGTTGAACCGTCCGGGACAGCCCTCCAGGAACGTGTCATGAACCGAATTCGGGAAAAACAACTTAAAGAGGAGCGATTTTTCGTGAAATACAAAGTAAGCATTCTCATGATGGTCGGTATGCTGCTTACCGCTTCGACCGGATTTGCCGCAGTACAGTACCATTCCTTAACCAACAGCAAGGGAGAAGTTCTATATGAGGAGAAATCGAACGCTCAGGCGCCTTCGCCGAAAAGCTATTCGAAAACGGAACTAAACCGCATACATCTCATGAACACCATTTGGGACGAACAGATCGAGCCGGGCGAAGCCGCCATCATTTATGTCGTACCGGACAATCCCGAGCATGTCATCGATATCAAATCCACTCCGCATGCCGTAAAGGATTTCGCCAAGTTGCAAAACATGGTTAATGTGCCCGGCTTGCCGCTAGCCAAGGAGTTGTCCGGTTCGGGCACGTATACGTTCACAAACGCCAACGTGCACATGGAACGCGAGACCGACGTGAACCCGCTGACCGAGCAGGAAAAAGCCGACATCGCCAAAAAGCTGCTTGAGAAAGCCAAAGCTTCCGGGAAGGACTACGCCCTGATGCCGGTGAAGTTCTCCGATCAATTCTGGCTTTCGACGGTATATTATGCCAGCGGCAACAAAAAACTCTCCCTTACCATTCTGAATAACGGGGACAACGGAAGCGTGACCTCCTACTGGGATAAGAGCATGGGCATGACCAGCCGGAAAATCGGGATCAACGGGCAGGACGTGCTGCAAAAAACGTGGAACGGCGGAAACTCGGCGCAGCTGGCGCAGCTGGACTGGGTCTATGAAGAGCCAACCACCGGACATCACTACATGTTTTCGCTCAACGCTACCACGGGTGACATCGCTGCCGAAGAGCTGATCCGCATCGCCAAGACGATCATTCCAAAGGCGGATTCCAAGTAA	MSMDNDRDLKPLFQRVEPSGTALQERVMNRIREKQLKEERFFVKYKVSILMMVGMLLTASTGFAAVQYHSLTNSKGEVLYEEKSNAQAPSPKSYSKTELNRIHLMNTIWDEQIEPGEAAIIYVVPDNPEHVIDIKSTPHAVKDFAKLQNMVNVPGLPLAKELSGSGTYTFTNANVHMERETDVNPLTEQEKADIAKKLLEKAKASGKDYALMPVKFSDQFWLSTVYYASGNKKLSLTILNNGDNGSVTSYWDKSMGMTSRKIGINGQDVLQKTWNGGNSAQLAQLDWVYEEPTTGHHYMFSLNATTGDIAAEELIRIAKTIIPKADSK				NA	NA	NA	NA	NA
AK002_00901	600	sigW_3	COG1595	ECF RNA polymerase sigma factor SigW	TTGGATGTACCAGCATTCCATCAGATCGTTGCTGATGTTTTGAAGGGAGAGATCGACAAATATGAGCTGATCATGAACCGATTCCATAAAACCATCTTCAACTATTGCTATCACATGCTCGGCGACTATGCCGAAGCAGAAGATTGCACCCAGGAAGCTTTTCTGAAAGCTTACCGCAATCTATCTAAATTCGAACCGGACAAGCCCTTCGAAGCCTGGCTTTACCGCATCGCCTGCAACCAGTGCATCGACTTGCTCCGCAAGCGAAAGCTATCCCGATACCTCCCCTTTCTATATCAGAAGGATCAGGATAACAGGCATGTCGATCAGGTCATCGAGCACAAATACTATAATCCGTCTGTGCTACGGGCGCTGGCCAAGCTAACCGCCGAGGAACGGAGCCTGCTTATCCTGCGCTGCGTCGAGGACAAGAGCTATCATGAGATCAGCCTTATTTTGCAACAAAGCACGACCTATCTTAGGAAAAAATTTGAGCGGGCCGCTGCCAAGTTCCGCAAACATTACGCCATGGCCGAGGGGGAAGAAACGAATGAGCATGGACAACGACCGGGACCTGAAACCACTCTTTCAAAGGGTTGA	MDVPAFHQIVADVLKGEIDKYELIMNRFHKTIFNYCYHMLGDYAEAEDCTQEAFLKAYRNLSKFEPDKPFEAWLYRIACNQCIDLLRKRKLSRYLPFLYQKDQDNRHVDQVIEHKYYNPSVLRALAKLTAEERSLLILRCVEDKSYHEISLILQQSTTYLRKKFERAAAKFRKHYAMAEGEETNEHGQRPGPETTLSKG	PGPT0014960_4637	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00902	873	aadK		Aminoglycoside 6-adenylyltransferase	ATGAGAAGCGAGCAAGAAATGATGGATTTGGTATTGGGCTATGCAGCCCGCGATGAGCGGGTTCGGGCCGTGACCCTGGAAGGCTCCCGAACGAACCCTAACGTCCCGAAGGATATTTTTCAAGATTACGACATCAGCTTTCATGTTACGGATATGGAGAGCTTTATCCAGGATCCGAACTGGATCGACGTCTTCGGGGAACGGTTGATTCTGCAGACGCCCGAAGATATGGCCATGTTCCCTCCGGATCTTGGAGGCTGGTTCTCGTACCTGATGTTATTTACCGACGGGAACCGGATTGACATGACCCTGATTCCCATCGAGGAGAAGGAGAAGTACTGCAAGGAAGACAAACTGATCCAGATCTTAATGGATAAAGATCAAACCTTCCCCAAAATTCCTGCTCCGTCCGACGAGGATTTCTGGGTACAGCGTCCGTCCGCAGCCTTTTTCGAGGATTGCTGCAACGAGTTCTGGTGGGTATCCACGTATGTCGCCAAAGGCTTGTGGCGGGAAGAAATCCTCTATGCCCAGGACCATCTAAACAACATCATGCGGCCGATGCTGATGAAAATGCTGGAGTGGCAGGTGGGCACACAGACCGATTTCTCGCTCAGCGTAGGCAAAAACGGCAAATACTTGAAAAACCACCTGTCTGCGGACAGCTGGAATCAGTTGATGTCCACCTATCCCCGCGGAACCTACGAAGATGTATGGGACGCGCTGTTTACGATGGGAGCCCTGTTCCGCAAAACGGCGCTGGATGTTGCTGAACAGCTGGGCTTTGAATACGATATGGGGCAGGATCAGCGCGTAACGGGCTTCCTGCAGCATGTCCGGCAGCTGCCGGCGGATGCGAGCGAGATCTATTAG	MRSEQEMMDLVLGYAARDERVRAVTLEGSRTNPNVPKDIFQDYDISFHVTDMESFIQDPNWIDVFGERLILQTPEDMAMFPPDLGGWFSYLMLFTDGNRIDMTLIPIEEKEKYCKEDKLIQILMDKDQTFPKIPAPSDEDFWVQRPSAAFFEDCCNEFWWVSTYVAKGLWREEILYAQDHLNNIMRPMLMKMLEWQVGTQTDFSLSVGKNGKYLKNHLSADSWNQLMSTYPRGTYEDVWDALFTMGALFRKTALDVAEQLGFEYDMGQDQRVTGFLQHVRQLPADASEIY	PGPT0028695_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028695-aadK-K05593	NA	NA
AK002_00903	1317	hemL1	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase 1	ATGCCAACCTCAAGAAACCGTTCCGAAGCCCTGTACCAAGAAGCGCTGCAGCATATCGTAGGCGGCGTAAACAGCCCCTCCCGTTCGTTTAAAGCCGTAGGCGGCGGTGCCCCCGTCTTCATGAAACGCGCAAGCGGAGCCCACTTCTGGGACGAGGACGGCAACCGTTATATCGATTACTTGGCGGCTTACGGCCCGATCATTACCGGACACGCCCATCCGCATATTACGGCGGCGATCACGGCGGCTGCCCAAAACGGCACCCTATACGGAACGCCGACGGAGCTTGAAATTACCTTGGCCAAAATGCTGAAGGAAGCCATCCCGTCCATGGACAAGGTACGTTTCGTCAATTCCGGCACCGAGGCCGTCATGACCACGATTCGGGTCGCCCGCGCTTACACCAAGCGCAACAAAATCATCAAGTTCGCCGGCTGCTACCATGGCCATTCCGATCTGGTCCTCGTGGCTGCGGGCTCCGGGCCTTCCACGCTCGGCATTCCGGACAGCGCCGGCATCCCGGCCAGCATTGCCACGGAAGTCATTACCGTTCCTTTCAACGATCTGGAAGGCCTGCGCGCTGCCCTCGACGCATGGGGCGAAGATGTGGCCGCCGTGATGGTCGAGCCGATCGTCGGCAACTTCGGAATGGTCATGCCGAAGCCGGGATTCCTCGAAGGCCTGTGCCAGATGACGCACGACAACGGGTCGCTGGTCATCTATGACGAAGTTATCAGCGCCTTCCGCTTCCATTACGGATCCACCCAAACCTATGCGGGTCTGGCCAATCACGAGGCGATTCAGCCGGATCTTACGGCTCTGGGCAAAATCATCGGCGGCGGACTGCCGATCGGCGCTTACGGCGGCCGGAAACACGTGATGGAGCAGGTTGCTCCGCTCGGCCCGGCTTATCAGGCGGGAACCATGGCTGGCAATCCGGCCTCTATCGCGGCCGGAATCGCCTGCTTGGAGGTATTGCAGGGCGAAGGCGTGTATGAGGAGATGGAGCGCTTGACCATCAAATTGACGGAAGGCCTGCAAGCGTCCGCAGACCGCCATGGCGTTCCGCTCACGATCAACCGCATCCGAGGCTCCTTCTCCACGCACTTCTGCGATCATCCGGTAACGAACTATGACGAAGCGCAGGATACCGACGGCGAAGCCTTTGCGGCCTTCTTCCGCCACATGCTGGACCGCGGCGTGAACCTGGCCCCTTCCAAATACGAAGCCTGGTTCATGACCACGGCCCATACGGATGCGGACATCGAGGCAACGCTTGAGGCCGCGGAGGAATCTTTTAAGGCCATGAAGAATTAA	MPTSRNRSEALYQEALQHIVGGVNSPSRSFKAVGGGAPVFMKRASGAHFWDEDGNRYIDYLAAYGPIITGHAHPHITAAITAAAQNGTLYGTPTELEITLAKMLKEAIPSMDKVRFVNSGTEAVMTTIRVARAYTKRNKIIKFAGCYHGHSDLVLVAAGSGPSTLGIPDSAGIPASIATEVITVPFNDLEGLRAALDAWGEDVAAVMVEPIVGNFGMVMPKPGFLEGLCQMTHDNGSLVIYDEVISAFRFHYGSTQTYAGLANHEAIQPDLTALGKIIGGGLPIGAYGGRKHVMEQVAPLGPAYQAGTMAGNPASIAAGIACLEVLQGEGVYEEMERLTIKLTEGLQASADRHGVPLTINRIRGSFSTHFCDHPVTNYDEAQDTDGEAFAAFFRHMLDRGVNLAPSKYEAWFMTTAHTDADIEATLEAAEESFKAMKN	PGPT0003680_1833	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
AK002_00904	1089	tagU_1		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGACCAAAAAAACAAAGAAGACGATTATATGGAGTGTCAGCATCATACTGGCCGCCGTCATCGGTTACGGCATCTATTATGCGGCCTCGTTTTATGACGGCTTGCAAAGTCTTCAGAAAACAGGCGAAGCCTCCCCTTTTCGGGAAATCGAGAAGGTGGATGCCAAAGTCCCTGCCCCGCCGGAGTGGGAAGGCAAGGAGACGGTTAACATTCTGCTGATGGGCGTCGATGCGCGCGGTTTCGAGGAAGGGGAAATTCCTCGTTCCGACAGTATGCTTGTTGCCTCGATTGATCCCGTAAAAAAGAAAATGCACTTATTCTCTATTCTGCGCGATACTTACGTAGAAATACCCGGGTATGACCGAAACCGTATCAATACGGCCATCACGCACGGCCCGAACACGGCCATGAAGGCGGTAGGCGATCTGCTGGGCATACCGATTCAATACTACGTCTATACGGATTTCCAGGGCTTCATGAAGCTGGTTGATTCCGTCGGCGGGGTTGATTTCTACGTGGAGAAGGACATGAGTTATTCAAGTAAAGCCGACAAGAACGAGTACGACATCGATTTGAAGCAAGGCATGCAGCATCTGGACGGCAACGCGGCACTGCAATACGTCCGGTTCCGCTATGATGCGATGGGCGACTTCACCCGCACCGAGCGGCAGCGCGAGCTCCTGAAGGCCGTGGCCAAGAAAATGCAGACCACCACTTCCATCATGAAGCTTCCGGACATCCTGAAGTCCGTCAGCCCTTATATTGATACGAATCTCGATGTCGAGGATATGTGGAAGCTTGCGAACGTCGCCTACAAGAGCAAAATGAGCGGCAGCGAGCAGGTGCCACCGATGAAACTCCTGAAGGAAGAACATATCGGCGGCGCCGCCGTCTTAACGGTCGGAAATCCGGATACGCTGAAGCAGTATATCCAAGACATCATGAACCCGCCGACGCCAGAGCCTGAGACCGAAGGCGGCGAAGGCACGGAAGGTGATTCCGGGAACGCCGATACCGGGAATACCGACTCCGAGAACAGCGACTCTGAAAGCTCCGCAACACCATCTGCGACAACGGATCGCAACTAA	MTKKTKKTIIWSVSIILAAVIGYGIYYAASFYDGLQSLQKTGEASPFREIEKVDAKVPAPPEWEGKETVNILLMGVDARGFEEGEIPRSDSMLVASIDPVKKKMHLFSILRDTYVEIPGYDRNRINTAITHGPNTAMKAVGDLLGIPIQYYVYTDFQGFMKLVDSVGGVDFYVEKDMSYSSKADKNEYDIDLKQGMQHLDGNAALQYVRFRYDAMGDFTRTERQRELLKAVAKKMQTTTSIMKLPDILKSVSPYIDTNLDVEDMWKLANVAYKSKMSGSEQVPPMKLLKEEHIGGAAVLTVGNPDTLKQYIQDIMNPPTPEPETEGGEGTEGDSGNADTGNTDSENSDSESSATPSATTDRN	PGPT0023440_1871	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK002_00905	438	bcp	COG1225	Putative peroxiredoxin bcp	GTGCCGGATTTTTCACTCCCGGCTTCGAACGGGGAGAAGGTAGCATTAAGCGATTATCGTGGGCGTAAAGTCGTGCTGTTCTTCTATCCGAAAAATATGACCCCAACCTGCACCGAGGAGGCTTGCAGCTTCCGGGACAACTATGGTGCGTTGGAGCAAGCCGGCGCAGTCGTGATCGGAATCAGCCCCGATCCGCTGAAATCCCACGCCAAATTCATCGATAAGCATAGCCTGCCCTATTTGCTCTTGTCTGATGAGGAGCATAACGTAAGCGAAATGTTCGGCGTATGGCAGATGAAGAAGATGTTCGGCCGTGAATATATGGGTATTGTACGCTCAACCTTCTTGATTGATGAGAAGGGGAAGCTGGCCGGCGAGTGGCGGAAGGTGAAAGTGAAGGGCCATGTCGAAGCGGTTCTCGCAGCCGTGCTGTCATAG	MPDFSLPASNGEKVALSDYRGRKVVLFFYPKNMTPTCTEEACSFRDNYGALEQAGAVVIGISPDPLKSHAKFIDKHSLPYLLLSDEEHNVSEMFGVWQMKKMFGREYMGIVRSTFLIDEKGKLAGEWRKVKVKGHVEAVLAAVLS	PGPT0013120_1690	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
AK002_00906	849			hypothetical protein	ATGAACCACCTAGCGGTCATTCAGCGTGATATTACGGAAGTCCGGGATGTCGTTCTTCGGCGCCACAGCTCCATCCATGCCTCAGGACCCGTCATCGAATTCGGAAACTGGAGCAAAGCCGATCCGTTTCTCGGGATGATGGAGGACAAGTTCCAGGCCGGTTCATTCGACGACCATCCCCATCGGGGAATCGAAACCGTTACTTTTGTCATCGATGGAACCGTTGAACACTATGACAGCCTCTCCAAGGGCGGCGTGCTGGGGCCTGGAGACGTGCAGTGGATGACGGCGGGAAGCGGCGTCATCCACAACGAAGTGCCGTTAGAAGGCGTAACGGCCCACGTCCTCCAGCTCTGGATCAATCTGCCCCGCGAGCAGAAGATGGCGACTCCCCGCTACCAGAACCTGAAAGGCGCGGATATGCCGATCCGACAAGAGGATGGCGCGGTTGTGCGAGTCTTCTCCGGTTCTTCCGGCGATGTCGTATCTGCCACCGAAAATCATGTTCCGGTCACGATGGTCGAGGTGCTGCTGGAGCCCGGCGCTTCCATCGCGCAGGACCTGCCCGGCAGTTATAACGGCTTCATCTACATCCTTGAGGGCAGCGGAACCTTCGGAGGCAATGGCGTAAACGCGGCTAAAAGCCAGGTGTTGTGGCTGGGCGCTGGAGTCGACGGAAAACCTAGCGAAATACGGGCAGCGGCTGCGGAGCCTCTTCGCTTCGTTCTGTACGCAGGCGAGCCGCTGCGGGAGCCCGTGGCAGCCCGCGGTCCCTTCGTCATGAACACGGAGGAAGAAGTGAACGAGGCCTTCCGCGAATATCGGACGGGTACGTTCTTGAAGTTCTGA	MNHLAVIQRDITEVRDVVLRRHSSIHASGPVIEFGNWSKADPFLGMMEDKFQAGSFDDHPHRGIETVTFVIDGTVEHYDSLSKGGVLGPGDVQWMTAGSGVIHNEVPLEGVTAHVLQLWINLPREQKMATPRYQNLKGADMPIRQEDGAVVRVFSGSSGDVVSATENHVPVTMVEVLLEPGASIAQDLPGSYNGFIYILEGSGTFGGNGVNAAKSQVLWLGAGVDGKPSEIRAAAAEPLRFVLYAGEPLREPVAARGPFVMNTEEEVNEAFREYRTGTFLKF	PGPT0019980_3460	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
AK002_00907	1314			hypothetical protein	ATGAAAAATATGGTGCGGGTTACATCGATAGCGGTATTCTTCGGCGTTGTGGCAGTGCTGATCATGATCGGCATGGGACTTGAGGTTCAGGCGCCGATGGCAGAATATGCGGAGCAGGCCCCTTTAGCAGCGGCATCCCTGACAGCAGTGCCGGAGCAGAATGTTCAAGCAAAGACCCGGGAGGCAAGCAAGCCGGTCGCTATCAATGCATTCAAGAAACCATCGGCCGTGAACGCCGCACCTGTTCAATATAAGAAGAAGCCTAGCGACAAAACGGTATACCTGACATTTGATGATGGACCATCGGATTTAACGCTCGAGGTGCTGGATATTTTGAAGCGGGAAGGAATCAAGGGCACGTTTTTTGTATTGGGCAAGGAGGCGGAGACCCGTCCCGAAATTATCAACCGCATCTATGAGGAAGGCCATGTGATCGGGAATCATACATATGATCATCGTTATGACGAGCTCTACGGGCATTTTCAGGATTTCTGGGGACAGATCAAGAAAACCGAGGAAATCATCCGTTTGATTACAGGGGAACGGCCGCAGCTGGTCAGAGCTCCCGGGGGGACGGCAGGACATTTTGACGAGGCCTATTTTCAATACATGAAGCAGGGGGGATATCATGTATTCGATTGGAACGTCGACAGCGGCGATTCCAGGTATAGGGGCGTCCCGGCTAAAGACATCGTAAAGGGGGCTACCACGAAAGTGAACGGCAAGGAGGCGATCGTGCTTCTCCATGACGGTAAAGGCCATGCCGAAAGCGTTAAGGCTCTCCCGGACATTATTTCTTATTATAAAAAGCAAGGCTATGCCTTTGACGTACTGTCTCCGGAAACCGAGCCCGTTCAATTTCGTGCTCAGCAGACCGCCCGCAAGGCTTCACAGCCTTCACAGCAGTGGATTCGCGAGCACGTCGCCGTCAACGCCGCGCTATTCGGGACAGGGCGAACGCTGGCCGTGGAATTCGGAGGGCTTGAAACCGCGTTTGCGGCAGGCGAATACAAGCTGGTCGACGGCCGGTTGATGGTTCCTCTGCGCGCTTTGGTGGAGCGGCTTGGCGGAAGCGTATCCTGGAAGTCTCACAACAAGACCGTGCAGGTGACGCTGGCAGGGAATCGCTGGGAAGCCGACCCGGTGGGAGGCTTGCTGTTCCCCATGCAAACCGGCGGCAAGCCGGTGTCCTCCGATGTTCATTTAATCGGCGGCACCGCTTGGATTCCGCTTCGGGAAGCGCTTGACTTTTCCGGTCGACCTGTTACAAGAGTGACATATGAAGAAGGCGAGTATCGCGTTCTAACTTTGTAG	MKNMVRVTSIAVFFGVVAVLIMIGMGLEVQAPMAEYAEQAPLAAASLTAVPEQNVQAKTREASKPVAINAFKKPSAVNAAPVQYKKKPSDKTVYLTFDDGPSDLTLEVLDILKREGIKGTFFVLGKEAETRPEIINRIYEEGHVIGNHTYDHRYDELYGHFQDFWGQIKKTEEIIRLITGERPQLVRAPGGTAGHFDEAYFQYMKQGGYHVFDWNVDSGDSRYRGVPAKDIVKGATTKVNGKEAIVLLHDGKGHAESVKALPDIISYYKKQGYAFDVLSPETEPVQFRAQQTARKASQPSQQWIREHVAVNAALFGTGRTLAVEFGGLETAFAAGEYKLVDGRLMVPLRALVERLGGSVSWKSHNKTVQVTLAGNRWEADPVGGLLFPMQTGGKPVSSDVHLIGGTAWIPLREALDFSGRPVTRVTYEEGEYRVLTL	PGPT0018645_686	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_00908	471	yjlC	COG2427	putative protein YjlC	ATGACAGAAACATCTTCCCCACAGCCGTCCGAAACTCCGGAAAATGTTGTAGGAAACCAAGAAGCTGCGGCGTCCAGCCGTCCTGATGTGCTGCTCGAACAACTGCTCAAGCCCGAGGTTCAGGAATCCCTCACAACTCTCGTGGACAATCTTCCAAAACTTACGGAAATGCTGACCGTCATGACTAAGGCGTATGACTTCGGTAAATCCGTAGCTACGGATCCCGTGCTAGCGGAAGACACCATGGCTTCCCTGAGCGGATTCGCGAAGCCGATCACGACAACAGCAAAAAGCGTTGCATCTGCAGCCATCGAAGCCGGAGACCGCGTACATGCTCAAGGCGACCAAGCTCAGATCGGCGTATTTGGTCTGATGAAAATGCTGAAAGATCCTCAGGTTCAAAAGGGTCTTCGCTATGCTCAGGCTTTTTTGGACGTTCTTAACGAGCGCGACCAACAAAACAAGCGTTAA	MTETSSPQPSETPENVVGNQEAAASSRPDVLLEQLLKPEVQESLTTLVDNLPKLTEMLTVMTKAYDFGKSVATDPVLAEDTMASLSGFAKPITTTAKSVASAAIEAGDRVHAQGDQAQIGVFGLMKMLKDPQVQKGLRYAQAFLDVLNERDQQNKR				NA	NA	NA	NA	NA
AK002_00909	1176	yjlD_1	COG1252	NADH dehydrogenase-like protein YjlD	ATGTCTAAACATATTTTAATTTTGGGCGGAGGCTATGGCGGCTTGCTTAGTGCGCTTTCTGCACGCGAGCATTTTGGTGCTGCCGCAAAAATCACGCTGATCAACCGTTTCCCAACCCATCAGATCATTACGGAATTGCACCGTCTGGCAGCAGGCAACATCGCAGAGAAGGCAGTAGCTTTGCCGCTCGACAAGCTTCTGCGCGGCGCGAACGTTGACCTGCGCATCGGCAACGTTAAGGAAATCAAGCCGGATGAGCGTTCGGTTTCCCTCGACGACGGCGGAAACTTCACTTATGATGCCCTGGTTATCGCACTGGGCAGCGAAACGGCATTCTTCGGCATTCCGGGACTGCAAGAGAACAGCTTCATTCTGAAGTCCGTGAACGATGCTAACCGTCTGCGTGCTCATGTGGAGTCCCGCATTGCGGAATACAGCAAAACCAAAAACAAAGCGGACGCTACCATCGTGGTTGGCGGCGGCGGCTTGACAGGCGTTGAGCTTGTTGGCGAATATGCCGATATGAGAAGCGAGCTGGCTCGCAAATACGGTATCGACCCACAAGAAATCACGCTTTATTGTGTTGAAGCAGCTCCTTCCATTCTGCCGGGCTTCCCAGCTGAATTGGTTGACCGCGCGACAACAAGCCTGCAAAAACGCGGCGTGAACTTCCTGACCGGATTGCCGATTACCAAAATGGACGGCACAACCGTTGAACTGAAAGACGGCAGCACGATTGAAACCAGCACCTTGGTATGGACTGGCGGCGTACAGGGCAACTCCGTTGTGGCTAACTGCGGCATCGAAGTCAACCGCGGACGTGCGGTTGTCAACGAATTCCTACAATCCGCTTCCCATCCTGACGTATACGTTGCCGGCGACAGCGCGGTTGTTATGGGACCGGAAGGCCGTCCATACCCGCCAACGGCACAGCTGGCATGGCAAATGGGCGAGCTGATCGGCTACAACATCTTCGCTCAATTGAACGGCGGCGCACCGGCTTCCTTCAATCCGGTATTCTCCGGTACGCTTGGCAGCTTAGGACGTAAAGACGCCATCGGCACCATCGGCGCCAACAAAACCCAATTGAAAGGTCTGCCTGCAACCTTGATGAAGGAAGCAAGTAACATGCGTTACCTGTCTCACATCAACGGTTTGTTCACGCTGGCTTACTAA	MSKHILILGGGYGGLLSALSAREHFGAAAKITLINRFPTHQIITELHRLAAGNIAEKAVALPLDKLLRGANVDLRIGNVKEIKPDERSVSLDDGGNFTYDALVIALGSETAFFGIPGLQENSFILKSVNDANRLRAHVESRIAEYSKTKNKADATIVVGGGGLTGVELVGEYADMRSELARKYGIDPQEITLYCVEAAPSILPGFPAELVDRATTSLQKRGVNFLTGLPITKMDGTTVELKDGSTIETSTLVWTGGVQGNSVVANCGIEVNRGRAVVNEFLQSASHPDVYVAGDSAVVMGPEGRPYPPTAQLAWQMGELIGYNIFAQLNGGAPASFNPVFSGTLGSLGRKDAIGTIGANKTQLKGLPATLMKEASNMRYLSHINGLFTLAY	PGPT0004020_5389	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
AK002_00910	1779			hypothetical protein	ATGCGGGGATACCGTCGTCTTCATTCGATCGTGATTCAACTGTTTTTGTTTTTTTTCATCGGCACAACTCTCCCGGTTCTCATCATGGGTTTCCTGTCGTATCACAAATCGGCATCGATCGTGGAGGAGCAGGTCAGTAAAGTGGCTTCCCTCACGATCACCCAAGTCAGCGACAAGCTGAATATGTTCTTCAAGAAACTGGACGACTCCTCGATGATGGTGCTGAACAGCAAAGTGGTTCACGGCATACTGGAGGATCAGGATATCAGTAAATACGACCTGACGTTGAAGGTGAAGGAGGGGAAGGACCTGCTGACGTCCATCATGATTAATTCGCCGGAGATCTTGGACGTATACGTGTTTGACGTGCAGCGGAACAATTCGGTCCTGAGCGCGGATTCCTTGATGTCCATCCCGGACCAGTGGGATTCTCCCTGGTATCGGGCGATACTGGAGGCGAACGGGCAGGCGGTATGGTTCGGCTTGTCGGATACCTCCTACCTGAAGCAAACGGGAATGGGATTTCCTGTGTTCGGGCTGGGCCGGGCCATCCGGAGCTGGGATACGGGGGAGATCGTCGGGGTGATGTTCATCGAAATTATGGGGGATGTCCTGATCGATGAATTAAACCATGTCCAATTCGGCGACACGGGGTATATGTACGTGGCGAATGACGAGAATCGTTACTTTTACCATCCCGATCCATCGATGTACGGGAAGCAGTCCAGGATCAAGCTGCCCTCGGGTTTGACGGAATACAACCTGAATAACAACAAAACGCTGATGATCCCCTCGCGCCTGAACAACGGCTGGCATGTGGTCGGCATGGTGCCGCTTAAGGAACTGACGGCCGATTCCGCCAGTATTAGGAGTTTCACGGTCTGGATCGTATTCGGATCGATTCTGGCCGCGATCGGCATCGGATATTTCATGACGAGGAGAATCGGCAATCCACTCGTTCAGTTGAGCCGCTTGATGCGCAGAAGCGAGGCGGGCGATTTATCGGTCCGCAGCAAGAACGTAGGCCCCAGCGAGATCGGTCAGCTGGGCCGAAGCTTCAACAAAATGATAGAGCAGATCGACCTGCTCATCAGGCGGATCGCCGCGGAGGAGTCCGAGAAGAAAAAAGCCGAAATCCGCGCGCTGCGGTATCAGATCAATCCCCATTTTCTCTACAATACGCTGAACTCGATCCGCTGGATGGCCAAGCTGAATCGGACGAATGACGTGGACCGATCGGTTACGGCCCTGGTTCATCTGCTGGAGGGGAGCCTGGAGCGCAACGGAGTGTTTATAAGGCTTGGAGATGAATTGGAGCTGCTTCGGAAATATATGATCATCCAGAATTACCGTTATGACCACCAAATCGAGCTGTGGATCGATTGCCCCGAGGAAATGGAGGACCTCCACGTTCCTCGGATGCTGCTGCAGCCGATCGTGGAGAATGCGATCTTTCACGGGATTGCCCCGCTTGATGAAGGGGGCGTTATTCAGATCCGGATAACACTGCAGCAGCAGGATGTCATGGTGCGGATCGAGGACAACGGAATCGGCATTAAGCCTGAACGGATCAAGGGACTGCTGTCGTATGAGCAGGATCACTCCAAGCAAGGCATGACCCATATCGGCCTGCGTCATGTTCACCAAACGGTCCAGCTGTATTATGGCAGCAGGTACGGGGTATGGGTGGAAAGCACGGAAGGCGGAGGAACGAGGGTCACGGTCACGTTTGCAAGACAAAGGGGGGACGATTATGTACAGAGTGCTGCTCGTGGATGA	MRGYRRLHSIVIQLFLFFFIGTTLPVLIMGFLSYHKSASIVEEQVSKVASLTITQVSDKLNMFFKKLDDSSMMVLNSKVVHGILEDQDISKYDLTLKVKEGKDLLTSIMINSPEILDVYVFDVQRNNSVLSADSLMSIPDQWDSPWYRAILEANGQAVWFGLSDTSYLKQTGMGFPVFGLGRAIRSWDTGEIVGVMFIEIMGDVLIDELNHVQFGDTGYMYVANDENRYFYHPDPSMYGKQSRIKLPSGLTEYNLNNNKTLMIPSRLNNGWHVVGMVPLKELTADSASIRSFTVWIVFGSILAAIGIGYFMTRRIGNPLVQLSRLMRRSEAGDLSVRSKNVGPSEIGQLGRSFNKMIEQIDLLIRRIAAEESEKKKAEIRALRYQINPHFLYNTLNSIRWMAKLNRTNDVDRSVTALVHLLEGSLERNGVFIRLGDELELLRKYMIIQNYRYDHQIELWIDCPEEMEDLHVPRMLLQPIVENAIFHGIAPLDEGGVIQIRITLQQQDVMVRIEDNGIGIKPERIKGLLSYEQDHSKQGMTHIGLRHVHQTVQLYYGSRYGVWVESTEGGGTRVTVTFARQRGDDYVQSAARG				NA	NA	NA	NA	NA
AK002_00911	1554	rssB_6		Regulator of RpoS	ATGTACAGAGTGCTGCTCGTGGATGACGAAGCGATCGCGCGTACGGGACTGCGCTCGACCTTCGATTGGGAGAAATACGGTTACCGGCTTGTCGGGGAAGCCTCCAATGGACAACGGGCCATGAAGTGGATCATTAACGGGGATTTGGACATTCTGATCACGGATATCGCGATGCCTGTCATGGACGGTTTAGAATTAACTCGCCGGACAAGGGAGCTTTGTCCTTGGGTGAAGGTACTGCTGCTCAGCTGTCACAGCGACTTCGAGTTCGTGCGGGAAGGCATCAGGCTTGGCGCATCGGATTATATCCTCAAGCCGACGCTGGACGCGGACTCCCTGGGCACCGTGCTTGATCACATGCGATTGAAGCTGGAAGAGGAGAAGCAGATGCAGCGGATTCTGACCGAGCATGAGCAGCAGCAGCGGCTGAATAAGAAGAAGGCCGCCGGAAAAATGCTCTTTCAGGCGCTGTCCGGTGAGCCGGATGCACTCGCGAAGCTGGAAGCATGGAACCATAACGGCTCGTATCTGCTGGCTGTGCTCCAGCTAGATTCGGATCTGGGCGCTGCTGCGGCCGGCATACAGCCAAAGGATTGGCAGGAGGAGATCGAACGGTTCATGGGGCAGTTATATGACCAGGCGCCGGAGGCGCTGGCAGCTCGGCTGGAAACGGACCGGATCGCGGTCTGCTTACCGTTAAGGGATGAAGCAAACGGGCAGGCTTCAGGGGACGAAGGAGCTATCCGCCTGCCGATCCGGAGCACGATGGGGCTTAGCAGGAGATATAACAGCATGGATAAGCTGCAAGAAGCGTTTAGAGAAGCCGCTGAAAGCCTGGAGGGCCTCTTCTTTCATCCAGATCAACAGATATTGCGGGCAGAGGAGCTTCCCCTGACCGATGCCGATTCGACTCAGGAGCGGCCGGCTGCCGAGCTGCATGCCCTAAGGGCCGCGCTGACCGTCGGGAACATGGACATTAGCGAGGAACGTCTGCAGTCCATTATGCAGCGCTGGCGTCCCGGACGGATGAAGAAGCCGGCGGTCCTCCGGGAAGCAGAGGAGCTTCTGAGCTTGCTTGCTATGTTACATCTTCCCGGCGGTCCGCCGCTTCCGCAGATCGGGGAGGTGGGCAAGCTTCGCTCGGTGGAGGAAGTGAAGAAGCTGGTTCTCCAAGGCTTTCATGCGCTTCGGGAGGAAGCCATGCGCCACCCTGTACCGGAATCCACGCTGCATGAGCGGATCGTGCTGCAGGCCGTCCAATATATTAAGGCGCGCTTTACCGAGCCGATCTCCCTGCAGGAGGTGGCGGACGAAGTGGCTGTCAGCCGCAACTATTTTAGCGAATTGTTTAAGCGCGTCACGGGACACAACTTCATTGACTATGTCATTGATCTCCGCTTGAAACGGGCCAAGGAGCTGCTCTCCACAACATCGCTGCGTGTGTATGAAGTGGCGGATCGTTCCGGATTCAATGACGTGAAATACTTCAGCAAGCTGTTCAAGAAAATGGTAGGCATGACGCCAGCTGAGTACAAGGGACAGCATCGAAAATAA	MYRVLLVDDEAIARTGLRSTFDWEKYGYRLVGEASNGQRAMKWIINGDLDILITDIAMPVMDGLELTRRTRELCPWVKVLLLSCHSDFEFVREGIRLGASDYILKPTLDADSLGTVLDHMRLKLEEEKQMQRILTEHEQQQRLNKKKAAGKMLFQALSGEPDALAKLEAWNHNGSYLLAVLQLDSDLGAAAAGIQPKDWQEEIERFMGQLYDQAPEALAARLETDRIAVCLPLRDEANGQASGDEGAIRLPIRSTMGLSRRYNSMDKLQEAFREAAESLEGLFFHPDQQILRAEELPLTDADSTQERPAAELHALRAALTVGNMDISEERLQSIMQRWRPGRMKKPAVLREAEELLSLLAMLHLPGGPPLPQIGEVGKLRSVEEVKKLVLQGFHALREEAMRHPVPESTLHERIVLQAVQYIKARFTEPISLQEVADEVAVSRNYFSELFKRVTGHNFIDYVIDLRLKRAKELLSTTSLRVYEVADRSGFNDVKYFSKLFKKMVGMTPAEYKGQHRK				NA	NA	NA	NA	NA
AK002_00912	1323			hypothetical protein	ATGACAAGAAAACAGGTGAGAGGGTCATTGCTTGCAATCATTCTTCTACTATCATCCATACTCCAAGCGTGTGGAGGCGGCGGAACATCAGAGGGCGGGGAGTCCGGAAGCGGCGAGAAGGTCAAGATCAAATGGGCGACCTGGGGAAATCCGGGCGAGCTTAGCCGCTTTCAGGAGCTGACGAAGGAATTTAATAAGAATCACTCGGACATTGAGGTCGAATTTATTCCGATTCCGGGCGAGTATGATCAGAAAATATTAACCCAATTAACAGGCGGGACGGCTCCGGATATCTTCTATGCAGGCGACGCCCTGGTCGTGAAACTGATCGAGAATCAGAGCATTGAGAATTTGACGACGTATATGGAAGCTCCGGAAAGCGTGATCAAGAAAGAGGATTATTTCGAAGGCTTGTGGGGCGCAGCCGTTCGGGATGACCAGATCTTCGGGGTGCCTGTGGATTGCAACCCGATGGTGCTGTGGTACAACAAGAAGGTGTTGAAGGAAGCAGGGATAACCGAGATGCCGGCCGATCTTCAGGCGAACGGACAGTGGACCTGGGACAAATTCAAGGAGATGGCGGACAAGATCAGGGACAGCAAAAAGTACGGCTACGTGCTGGATAACTCCTGGAACAGCTACCACAGCTGGGTTACTTCCAACGGCGGCCGGGTGTACGACGACGAAGGGAATTTCGTAGCGGCTTCGGATCCGAAGGCGATGGAGGCTTTCCGCTTCCTGTACGACAACGTGAAATCCAAAAACATCACCTTCTCCGGCACGCTTCCGAAAGGGCAAGGCGGGGATGCCATGTTTATGTCCAACCAGGTCGGATTCGTTGCTGCAGGCCGTTGGTACCTGCCGCTGTTCAAGAAGAATCAAGGACTTGAATATGACGTGGTTACATGGCCAACCAATACCGGCAATAAAATCGAGCCGGCCGGTATCCCGACTGCATACATGGTGATGAACAAGGCATCGAAGAATAAGGAAGCGGCATACACCTTCTTCTCCGAGTACGTTAGCAAAGAAGGCCAACGCTTCCGCCTGCAGGGCGGCGGCAATGCCGTCCCGTCGGTACAGGGAACGGATGAGGTGGTCCTGGAAGGGAATCTGCCGGAGCACGCCCAGTTATTCCTGGACGCGCGCGAGATCGGGTATTCCCTGACTCCGTTCGAGGCGGGCATTCCCGGGCTAAGCCAGGATATAACGTCCAAGTTCGAGGCGCTGTGGCTGAAAGATCAGGAGCTTGAAAGCTCCTTGAAGGATATTCAGGATATGGCCAACAAGAAAATTCAGGATTACAAGAGCGGCAATAATTGA	MTRKQVRGSLLAIILLLSSILQACGGGGTSEGGESGSGEKVKIKWATWGNPGELSRFQELTKEFNKNHSDIEVEFIPIPGEYDQKILTQLTGGTAPDIFYAGDALVVKLIENQSIENLTTYMEAPESVIKKEDYFEGLWGAAVRDDQIFGVPVDCNPMVLWYNKKVLKEAGITEMPADLQANGQWTWDKFKEMADKIRDSKKYGYVLDNSWNSYHSWVTSNGGRVYDDEGNFVAASDPKAMEAFRFLYDNVKSKNITFSGTLPKGQGGDAMFMSNQVGFVAAGRWYLPLFKKNQGLEYDVVTWPTNTGNKIEPAGIPTAYMVMNKASKNKEAAYTFFSEYVSKEGQRFRLQGGGNAVPSVQGTDEVVLEGNLPEHAQLFLDAREIGYSLTPFEAGIPGLSQDITSKFEALWLKDQELESSLKDIQDMANKKIQDYKSGNN	PGPT0016545_4723	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00913	951	lacF_5		Lactose transport system permease protein LacF	ATGAACATGCAGCCTGCAGGAAGCTCCGGAGCCGCTCCTTCTCCGGAGCGGTTTCCGGAGAGGAGAACAACCTTAAAGAGCAAGACGTCCGACGGTTTATGGGGGTACTTTTTTATCTTTCCCCAGATGATCGGTTTGATCGCTTTTTCATTGGTTCCGCTCATCTCGGCTTTTGTCATCAGCATGATGAACTGGGACGGCATGGGGGCGAAGAAGTTTATCGGACTCCAAAATTTCGTGTCTCAGCTTCAGGATGAGGAGTTCCACATCGCTTTGGTGAACACGGTGTATTACACGATTCTGTCGGTGCCGACCGGCATCGTTCTCGCCATGCTGGTGGCGGTGGGCTTAAACCGGGTTCGCGGAAAGATTCTGTACCGGCTGATCTACTTCATGCCGAACATTACGATGTCCGTCGCCGTGGCCGTCGTGTTTATGTGGCTGTTCAACGCCGACTTCGGCCTCATTAACATGTACCTGCAGCAGTGGTTCGGGATAACGGGCCCCTCCTGGCTGACGGATTCCAGGTACGTGATGCCTTCGATTGCCCTGCTGAGCGTCTGGATGGGGCTGGGAGGCAACATGGTGCTGTTCCTTGCCGGACTTCAGGGCATATCGAGAAGCTATTACGAGGCGGCCGAGATTGACGGCGCCGGCAAATGGCAGCAGCTGATCCATATTACGATTCCGCTGCTGTCCCCGACGACCTTTTTCGTAACGATCATGTCCATCATCGGTTCCTTTCAGGTGTTCGACCAGTCGTTTGTCATGACCTCCGGCGGACCGGCGAAGGCCAGCTATACGCTTGTCTATCACATCTACGAGACGGCCTTTGCGGACTTTACCTTTGGCAAGAGCACGGCGTCGGCGGTCATCCTGTTCGTGATGATCCTGTCGCTCACCTTGTTCCAGATGAAGATGTCCAAGCGGTGGGTGCATTACGAAGACTGA	MNMQPAGSSGAAPSPERFPERRTTLKSKTSDGLWGYFFIFPQMIGLIAFSLVPLISAFVISMMNWDGMGAKKFIGLQNFVSQLQDEEFHIALVNTVYYTILSVPTGIVLAMLVAVGLNRVRGKILYRLIYFMPNITMSVAVAVVFMWLFNADFGLINMYLQQWFGITGPSWLTDSRYVMPSIALLSVWMGLGGNMVLFLAGLQGISRSYYEAAEIDGAGKWQQLIHITIPLLSPTTFFVTIMSIIGSFQVFDQSFVMTSGGPAKASYTLVYHIYETAFADFTFGKSTASAVILFVMILSLTLFQMKMSKRWVHYED	PGPT0016535_2602	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00914	834	araQ_12	COG0395	L-arabinose transport system permease protein AraQ	ATGATACATCGGGGATTGAGGATGTCCACCGTGGTGCTGCATATCGTGCTGATTTTAGGCGCCTGCATGATGGCCCTGCCGTTTGTGTGGATGGTGCTCAGCTCGCTCAAGGATTTGTCGCAAGTATTCGTCGTGCCGCCCAAATGGATTCCGGATCCGTTCATCTGGTCCAATTATAAGGATTCGCTGACGGCCCTGCCGTTCGGGCGCGCGTATTTCAACAGCTTCTACATCAATATCATCGTGGTGGTTTCACAGCTGGTTACCTGCTCCATGGCGGCTTATGCTTTTGCCAAAATCACGTTCCCGTTCCGGGAGCCGCTGTTCGTCCTGTTTCTGGCAACGATGATGGTGCCGGGACAAGTAACCATTATTCCGCTCTATCTGATCATGAAAAATATCGGATGGCTGGATACGCATCTGGCAATTATCGTCCCTTCTGCGCTGCTAAACGCATTCGGGGTATTTCTGCTCCGGCAATTCTTCAGGGGCATTCCGAAGGAAATGGAAGAGGCGGCCATCGTGGACGGCGCGAATCGCTGGACGATCTACGCCCGGATCATGATTCCTCTAATCAAGCCGGCTTTATCGGCACTCGGGATATTTACCTTTCTCGGGATGTGGAACAACTTCTTTAACCCGTTGATTTTTCTCAGCAGCACGGATAAGTTTACCGTGCCGATGATGCTGAATTTGTACCGCGGCATGTACGCGACAGATTGGACGCTGATGATGGCGGGGGCTTCCATTGCGCTCGTCCCGGTGCTCATCGTGTATATCATCGGGCAGAAATATATTATTGAAGGCGTTACTTTATCCGGGATTAAGGGATAG	MIHRGLRMSTVVLHIVLILGACMMALPFVWMVLSSLKDLSQVFVVPPKWIPDPFIWSNYKDSLTALPFGRAYFNSFYINIIVVVSQLVTCSMAAYAFAKITFPFREPLFVLFLATMMVPGQVTIIPLYLIMKNIGWLDTHLAIIVPSALLNAFGVFLLRQFFRGIPKEMEEAAIVDGANRWTIYARIMIPLIKPALSALGIFTFLGMWNNFFNPLIFLSSTDKFTVPMMLNLYRGMYATDWTLMMAGASIALVPVLIVYIIGQKYIIEGVTLSGIKG	PGPT0016540_7004	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00915	1551	rhaR_9		HTH-type transcriptional activator RhaR	GTGTTGTTCAATGTACTTCTGGTGGACGATGAACCATGGGTTCTGGAAGGACTTCGAACCATGATCGATTGGAACCGGTTTGGATTTCAAATATGCGGAGAAGCCCTGAGCGCTCCGGAAGCGCTAAAGTTAATGGAACAGTTGAAGCCCGAGCTGGTGATGACGGATATCCACATGCCAGTCCTGAACGGCCTGGAATTGATTGAGCACAGCAAACGGATACTGCCTCTTCCTCCGAAATTCGTTATTTTGAGCGGATATGATGATTTTGGATACGCGCATCAAGCCATGCGCCAACGGGTCGCCGAGTATTTGCTGAAACCGATTGATGACGAGGAGATTGAGGCAGTGCTTGCCAAGCTCAGCCATGAGATCCAGGACGAACGAGACGCTGAACGCAGCTACCGGAAGAAAGCCGGCCTTGCCGTCCATTATTTGTTGAACCGGCTCATTCGGGAAGAGTTGAGCCCTGATTTGGCCGAGCAAGCCAGCAATGCGATGCAAATCCAGGGCGAGCCGCTGCTGCAGTGCCTATTGATTGAAACAGGGATTACTGAAACGGGAGTGGATTGGATCGAATGGATGACCGATTACGGGCCCCCGAGCTTACTGGGATGCTTCCAGGACAATAGCGGGAGCATCGGAGTGGTGCTGCATGTCGAGCATTCGACTCCGGATGAGGTCATGGAGACTGCGCTGCAGTTGCAGTCTGCTCTGGCCCGGGAGCTTGAAGGGCCGGTTATCGTGGCGTTAAGCGGCACAGGGGAGGGAATCCAGGCGATCGGAAAGCTTTACAGGCAAAGCGCGGAGGTGCGCGACGATAAGCGAAGCCAAGGCCGAAGCGGCGTGTTTTGTTGCCAAGAACCGAGAGGAGCCGAGCGGCTCCGGGGACTTCCCTGCGGATGGATGGACGAATTGCTTTCCATGATTATGGCGGGGGAGCATGCGTCCATCGAGTCATGCTTGGCGCGGATTTTTACGGCCATGCCCGATCATCTCCTCCACCTGAGGGCTTTTCAAGCCGATGTGGCCGATCTGGAATTGAAGCTGTGTCGAAGAATCGCGGAAATGAATGGAGATCCGGATCTATTCATGAACCGGCTGCAAAGGAAGCTTGGTCATCTGAGTGATGCTTGCCATAAAGCGCCATTGAAGAATTATATGCGGTTGCTCGCGTTTGAGGCCGCTTCGCAGCTGGAAGAGTTAAGCAAGCTTAACGAGCACAACACCATTTTTCAAGTGATTCAGTATGTCGACCGGGAGTACCGGAGCAGGCTTCAGCTTCAGGATTTGGCACGACATTTCCATATGAACGCCACCTATTTGGGGCAGCTGTTCAAGAAGCATGCTGGCAAGCCGTTCAAGGAATACCTGAATGACAAGCGGATCGAGGAGGCCAAGCTGCTGCTGAAACGGAGCGGAATGAAGGTTTCCGAGATTGCGCTCCATGTCGGGTTCCCGAACGCGGACTATTTTATCCATAAGTTTAAGTTGACAACCGGGATTCTGCCCTCGAATTACAAGAATCATGTTGAAAGCAAGCAGCGCTAA	MLFNVLLVDDEPWVLEGLRTMIDWNRFGFQICGEALSAPEALKLMEQLKPELVMTDIHMPVLNGLELIEHSKRILPLPPKFVILSGYDDFGYAHQAMRQRVAEYLLKPIDDEEIEAVLAKLSHEIQDERDAERSYRKKAGLAVHYLLNRLIREELSPDLAEQASNAMQIQGEPLLQCLLIETGITETGVDWIEWMTDYGPPSLLGCFQDNSGSIGVVLHVEHSTPDEVMETALQLQSALARELEGPVIVALSGTGEGIQAIGKLYRQSAEVRDDKRSQGRSGVFCCQEPRGAERLRGLPCGWMDELLSMIMAGEHASIESCLARIFTAMPDHLLHLRAFQADVADLELKLCRRIAEMNGDPDLFMNRLQRKLGHLSDACHKAPLKNYMRLLAFEAASQLEELSKLNEHNTIFQVIQYVDREYRSRLQLQDLARHFHMNATYLGQLFKKHAGKPFKEYLNDKRIEEAKLLLKRSGMKVSEIALHVGFPNADYFIHKFKLTTGILPSNYKNHVESKQR				NA	NA	NA	NA	NA
AK002_00916	1845			hypothetical protein	ATGAAGAGAGTGTTCAGGCTGGGGAATTTCGTGAACGATATTCCGTTGAAAACTAAATTTTTTCTTATTTTTGTCATTGGTGTACTGCTGCCTATTCTGGTGGTCAACCTCATCTTTATGGATCGGATGTCGGAGCTGATCCGGGAGAGAGAGGAGCAGAACCTCGATATCTCGATGGAGCGGGCTAGGAAGGATATTCATAATTTCATCGACGGCGGGGTGGCTGTAAGTCATGCGCTGAGTACAGATAAGACCCTTTACGAAATGCTCGATCGCGAGTATGAGTCCCAGCTGGACTTCTACGAAACCTTTGATGAGCAGCTCCGGAATCGGGTAACGAGCTACATACCGGTTAACAACCAGATTCAGCGGATTAGCATCTTCACCGAAAATTCCACCATTGTGTCCGGCGGCAATTATCATGTGATCAACGATAATGTGCTCGAGAGCGATTGGTATGCGTTGTGGAAGAGCTCGGCCCATCCGGTGCTGGTGGCGGCATACAGGGCTACGGAGGCAAGCAATTCGGCTTCGACGGTTCCGTATTTAAGCGTCATTGAGAAGATGGATTATTTTGATAGCTATTCCACTTATGAGAAGCTGCTTCGCATCGACATCGACCTGAGCAAGATCTATGACGTTATTGTACGGGAACGCGATTATCTGGATATGTATTTGGTGAACGAGAACAATGAGATTATTATGTCGGCCAGCAGCGGTTATGAAAGAGGGAAGTACAGCGCATATTCGAAGCTTGACCTGGAGCAATACGATGAAGAGGATCGGCATGTGTTCTCAATCGGAACGGCCAGGTACGTGAAGGGGTGGAAGCTGATCGGCATCAACCGGGGGAGCCGGATTACGAGCGCCATGCTGGATATGCAGCTGTTTACCGTTGTATTGGCAGCGGTTGTTACGCTGGTTGCGGCGGTCTTTATTACCGTTATGCTCCGGTCCTACAATTACCGGGTGAAGCGTTTGTCCCGTCATATGCAGAAGGTGAGCAACGAGAAATTCGACTTGATTGAACTGGACGAAGGCCGGGACGAAATCGGCGGACTCATCCGGAATTTCAATCAGATGACAGCGAAGATGAACTCCCTGATCAACAATGTGTACAAGCTGGAGATTCAGAAGAAAAGCCTGGAGATGGAGCGGGTTCGGGCTGAATTGAACTTTTTGCAGAGCCAGATGAATCCCCATTTCCTGTTCAATACCCTGAATGCGATATTGGTGGTCTGCACGAAGAATCGATACACGGATGTGACGGATATTATCAAAAGCTTGTCCAAGCTGCTTCGCAGACTGCTGAGCTGGAGAGAGGATTTGGTCTCCGTGGAGGAGGAAATCAGATTTATCGAAATGTATCTCAAAATCGAAAAATTCCGCTTTCGGGATAAATTCGAATATCAATTCAACATCGATATGGAAGCGCTTCATTATAAAATTCCGAAAATGAGCATTCAGCCGCTCGTTGAGAATGCATGCAAATATGGCCTGCAGGCGATGGATGGAGCGGGTCTGGTGACCATAAGCGCTTCGGTTGCCCGTGATTATCTTCGCATCGTCATTACGGATAGCGGTAAGGGCATTGAGCAAAGCAAGCTACGGGACATTATTCTCTCGGTTCGCAACGAGCAGTTCTCGGGCAACAGCTTCGGCATTCGAAACGTATATCGGCGGCTGGAGCTGTACTACGACGATCATGTCATTTTCAACATTGCCAGCACCCCGAATCAAGGGACAACCGTTTCATTCGAGATTCCGATCCGGCTGTTGGAGTCTCGGGAGCATAAAGGCGGAGAGGGGGAGAACCATGCCTTTCAAAGTGCTGTTGATCGATGA	MKRVFRLGNFVNDIPLKTKFFLIFVIGVLLPILVVNLIFMDRMSELIREREEQNLDISMERARKDIHNFIDGGVAVSHALSTDKTLYEMLDREYESQLDFYETFDEQLRNRVTSYIPVNNQIQRISIFTENSTIVSGGNYHVINDNVLESDWYALWKSSAHPVLVAAYRATEASNSASTVPYLSVIEKMDYFDSYSTYEKLLRIDIDLSKIYDVIVRERDYLDMYLVNENNEIIMSASSGYERGKYSAYSKLDLEQYDEEDRHVFSIGTARYVKGWKLIGINRGSRITSAMLDMQLFTVVLAAVVTLVAAVFITVMLRSYNYRVKRLSRHMQKVSNEKFDLIELDEGRDEIGGLIRNFNQMTAKMNSLINNVYKLEIQKKSLEMERVRAELNFLQSQMNPHFLFNTLNAILVVCTKNRYTDVTDIIKSLSKLLRRLLSWREDLVSVEEEIRFIEMYLKIEKFRFRDKFEYQFNIDMEALHYKIPKMSIQPLVENACKYGLQAMDGAGLVTISASVARDYLRIVITDSGKGIEQSKLRDIILSVRNEQFSGNSFGIRNVYRRLELYYDDHVIFNIASTPNQGTTVSFEIPIRLLESREHKGGEGENHAFQSAVDR				NA	NA	NA	NA	NA
AK002_00917	1533	rssB_7		Regulator of RpoS	ATGCCTTTCAAAGTGCTGTTGATCGATGACGAACCGGTTGCGCTGGAAGGGCTGGCGCTGTGGATCGATTGGGAACGCTTGGGGTTTAGCGTCTGCGGAACCGCGGGCAACGGAGTGGAAGGCTTGAAGATGATTCATGGGCTTGCGCCGGATTTGGTCATTACCGATGTAAACATGCCGCTAATGGACGGGCTTCATATGATTGAAACCTGGCAGCAGCATCACCGGGATAGCGGTGTGAAATTTGCCATCATGAGCGGCTACAGTGAATTTGAATATGCAAGGAAGGCATTGCGGCACGGCATCCATCACTACATGCTGAAGCCTATTATTGCAGAGGAAGCCGAAGAGGAGCTCGGCAAGATTCATGCTGAGCTGATGCAGGAGCATCGCAGATTAAGCCTGAGCGCGATTGCTAAGAGGGAAGAGGATGTTTCGTTGATCATGCAAACGCTCTTGGAGATGCCGCTTAGGGCTAGCGGCCTGTCGAGGCTTCAGGTTATATCCTCCGCCCATCAAGAGTGGAACGTATGTCTGATCCAAGCAGAGCCTGACTTGTTTCCTGACGTCAAGGAAACCGTCGCCCGCTTGTCAGCCCACGCGAATTCGGAGTATGTCATCGATCTGGAATCGAACCGGCTTGGTTTGGTGAACGGTTATTCCCCTGACAACGGGAGCGTACCCTCAGGCACGATCCGCGAGCTGGTCCGCCATTATGCAGGACAGCGGCTGTTTATGGCTGTAGGAGAAGGCCAGCAGTCTCTGGTGCATATCCGTCGCTGCTACGAAACTGCCAAGGAAGCCATCGAGCATCAATTTTACGATCCGGCGTACGGCGGGATGATTTCATATGAAGAGGTACGGGATCGGCCGTTTCATTATCGTTATCCCACGAACCTGATGGATGATGTCATCAGGTCCGTGGAGCTCCTCGACAAGAAGGGATACCGAGAGGCTGCCGGATTGGCTGCGTCCAGGTTTGCGGAGCAGCGAATCGCGCCGGGGATCGTGAAGAAAATGGTGATCCATGTTTTGTATAAAATCATGGATTTGGTGAGGGAGGCGGAAGGTGCGGAAGCTCGAATCCTGGCAGCCAAATCCAATGCAGCTGGATTAACGGACGGAACCTTCCATTTGAACGACTTGATGGGAGAGCTGCTGCGCTTCGGGGAAGAGTGCATCGAGCTTCTTCTCAAGGAACAGGCCCGGCATTCGCAAGGCGTAATCCAGGAGATTAACGATTATATTCGGCAGCAATACCGCGAGAATCTGACCATTAAGCGATTGGCGGAGCTTTTTTATCTGCATCCCGTCTATCTCGGCCAGCTGCTGATGCGTAAGAATGGGATTGGCTTCAACGAACTCATACATAATTTGCGGATTGAGGAAGCGGCCACGCTGTTGAAGCAGAACAAGCTGAAGAACAGCGAAATCGCCGAAAGGGTCGGCTACACCCACTACAACCAATTCCTTAAGCATTTCGAAAAAAGATGGGGCATGGCACCGAATGAGTTCAAGAAGAGGATGTTCTAA	MPFKVLLIDDEPVALEGLALWIDWERLGFSVCGTAGNGVEGLKMIHGLAPDLVITDVNMPLMDGLHMIETWQQHHRDSGVKFAIMSGYSEFEYARKALRHGIHHYMLKPIIAEEAEEELGKIHAELMQEHRRLSLSAIAKREEDVSLIMQTLLEMPLRASGLSRLQVISSAHQEWNVCLIQAEPDLFPDVKETVARLSAHANSEYVIDLESNRLGLVNGYSPDNGSVPSGTIRELVRHYAGQRLFMAVGEGQQSLVHIRRCYETAKEAIEHQFYDPAYGGMISYEEVRDRPFHYRYPTNLMDDVIRSVELLDKKGYREAAGLAASRFAEQRIAPGIVKKMVIHVLYKIMDLVREAEGAEARILAAKSNAAGLTDGTFHLNDLMGELLRFGEECIELLLKEQARHSQGVIQEINDYIRQQYRENLTIKRLAELFYLHPVYLGQLLMRKNGIGFNELIHNLRIEEAATLLKQNKLKNSEIAERVGYTHYNQFLKHFEKRWGMAPNEFKKRMF				NA	NA	NA	NA	NA
AK002_00918	1704			hypothetical protein	ATGGGGGGTAAGACAAAATCATGGCTTCGGCTCAGCACGGTGTTGCTGTTGTCGCTTTGCATCGTCCTTACGGGCTGCGGGGGCGGAAACGGGAATAGCGGGGCCCAGCCGGAAGCAAAGGACTCCGCAGAACAAACAACACCCGGGACGGACGGGGATAAGATCGAACCATTTGAGGTGAGTGTTTTTATCGGTCAGCCCGACCAGCAACCAACACCTGACAACAAGATTTATAAATTAATCAGGGAAAAGACAGGAGCATCCTTCAAATTCGAGTTCCTGGCAGGCGATATTGACCAGAAGCTCGGCGTTATGATTGCAGGCGGCGATTATCCGGACATGATGACAGCGAATCAAAAGCTGACAGCTGCCGGTGCCTTTATCCCGCTCGAGGATTTGATTGAAGAACATGCGCCAAACTTGAAGAAGCATTATGAGAAGTACTGGAACATGATGAAAGACCCGAATGACGGTCATATTTACAATCTTCCAAACTACGGTGTAACGAATGCGGACGTTAGCTCGTCTTGGTATTCGGGCCCGGCTTTCTGGATTCAGAAGGACGTGTTGGCAGAGGCGGGATATCCAGAGGTTAAAACCTTGGATCAATATTTTGACTTGATTAAACAATACAAGGAAAAGCATCCGACCATCGACGGTACGCCGACGATCGGCTTTGAAATTCTGAACTATGACTGGAAAAACTGGGGGCTGTTCAATGCTCCTCAGCATTTGATCGGTCATCCGAACGATGGCGGTGTGGTCGTTAAAGATGGCAAGGCGGAAATTTTTGCCGATAAGGACTATGCCAAACGCTATTATAAAAAGCTGAACGAGATGAATACCCTGGGCATCATCGACAAAGAAACGTTCACTCAAAACTTCGACCAGTATATGGCGAAAATCTCCAGCGGCGCAGTTCTTGGTATGTTTGACCAGCACTGGAACTTCCAAAGCGCAGAAAACGCGCTGATTACCCAGAAGAAAGATGAAAGAACATATGTTGGTCTTCCGCTTGTATTTGATGAAAGCATCCGGGATCATTACAAAGATCGTCCGGCTCTAAACCTCAATAACGGATTCGGGATTACGGTCAATGCATCCGAAGAGCAGGCTATCAGAATTATTAAACTATTGGATACGCTGATTCAAGAAGATTGGCAAAAAATCTTGGCCTGGGGGATCGAAGGGGAAGATTACATCGTCAAAGATGGCCGATTCATGAAAACGCAAGAGCAGCGCGATCAGTTTACCGATGCAACCTGGAAGCTCGCGAATAAAGCCGATTCCTTCTACGGCCAAGCCCCAAAAATGGAAGGTTTATTCTCGGATGGCAACGCTACAGATGCGGCTGCCCAGCCTGAAGAAATTCTGGCAGGCATGAAAGAGTATGACAAGAACTTCCTCGCCCAATATGGATTCAACAGCTATGTCGACTTCTTCAGTCCGGCTCCCGAGAACGACATCGCTTACCCCGCATGGTCTGTCGACCTGGTAGACGGATCTGAAGCGAAAATCGTGAATACGAAGCAAAATGAGTTGTCCACGAAGTACTTACCCAAAGCCATTCTTGCTAAACCGGAAGAATTCGACAGCGTCTGGGATGAGTACGTCACTGATATCCGCAAGCTCAACATCAAGGCTTATGAAGATCGGATTAATGAAGTGCTGCAATGGAGAAGAGACACTTGGTCTGTTAAGTAA	MGGKTKSWLRLSTVLLLSLCIVLTGCGGGNGNSGAQPEAKDSAEQTTPGTDGDKIEPFEVSVFIGQPDQQPTPDNKIYKLIREKTGASFKFEFLAGDIDQKLGVMIAGGDYPDMMTANQKLTAAGAFIPLEDLIEEHAPNLKKHYEKYWNMMKDPNDGHIYNLPNYGVTNADVSSSWYSGPAFWIQKDVLAEAGYPEVKTLDQYFDLIKQYKEKHPTIDGTPTIGFEILNYDWKNWGLFNAPQHLIGHPNDGGVVVKDGKAEIFADKDYAKRYYKKLNEMNTLGIIDKETFTQNFDQYMAKISSGAVLGMFDQHWNFQSAENALITQKKDERTYVGLPLVFDESIRDHYKDRPALNLNNGFGITVNASEEQAIRIIKLLDTLIQEDWQKILAWGIEGEDYIVKDGRFMKTQEQRDQFTDATWKLANKADSFYGQAPKMEGLFSDGNATDAAAQPEEILAGMKEYDKNFLAQYGFNSYVDFFSPAPENDIAYPAWSVDLVDGSEAKIVNTKQNELSTKYLPKAILAKPEEFDSVWDEYVTDIRKLNIKAYEDRINEVLQWRRDTWSVK	PGPT0017245_504	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_00919	960	yteP_10	COG4209	putative multiple-sugar transport system permease YteP	ATGGAAGAGACCTTTGTCAAAGACTCTGCCGTCCGGAAGCCTAAGACAAACAAGAAAATCACCTGGGCCGTACTCAAAGAACAGAGACAGTTGATCTATATGTCGGTGCCTCTGATGGCTTACATCATCTTGTTTGCCTATGTTCCTATTTGGGGATGGACCATGGCTTTCCAGGACTACAAGCCGGCTAGAGACTTTAGTGAACAGAAGTGGGTAGGCTTTAAACATTTTGAATTTCTTTTTAAGGACGATAGTTTCCTGCAAGTGCTTCGCAATACGCTCGCAATGAGTGTTATCAATATGATTCTCGGCTTTACGACTGCAATTATCCTTGCATTGTTACTGAATGAAATCCGGAAAGTATTTTGGAAAAGAACCGTACAGACGATCTCCTATCTTCCGCACTTTCTATCCTGGATCATCGTAACCGGGATTGTGGCGACGAGCTTGGCTTCGGACGGAATCATCAATGATGTCCTTATGAAGCTGCATCTCATCAAGGAGCCGATCCAATGGCTCAGTGAGGGCAAATACTTCTGGGGAATCGTCGGAGCGTCGCATGTTTGGAAAGAAGTCGGCTGGAATACGATTATATATTTGGCTGCGATGGCATCCATCGACCCGGCGCTTTATGAGGCTGCCGATATGGACGGGGCAAGCCGCTATCGGAAAATGTTCCATGTTACTTTGCCGGGCATTAAGCCAACGATCATTATTCTGTTGATCATGCAGGTCGGTCACATTCTGGAAGCAGGCTTCGAGGTTCAATACTTGCTGGGCAACGGTCTTGTTGTCGACTGGTCGCAAACGATTGACATTTTCGTGCTGAAGTACGGGCTTGCCCAAGGCAATTACTCATTAGCAACGGCTGCCGGTATATTTAAAACGGTCGTTAGTGTGACGCTGTTATTGATTGCAAACGGAGTCGCGAAACGGCTAGGGGAAGAGAGGCTGCTATAA	MEETFVKDSAVRKPKTNKKITWAVLKEQRQLIYMSVPLMAYIILFAYVPIWGWTMAFQDYKPARDFSEQKWVGFKHFEFLFKDDSFLQVLRNTLAMSVINMILGFTTAIILALLLNEIRKVFWKRTVQTISYLPHFLSWIIVTGIVATSLASDGIINDVLMKLHLIKEPIQWLSEGKYFWGIVGASHVWKEVGWNTIIYLAAMASIDPALYEAADMDGASRYRKMFHVTLPGIKPTIIILLIMQVGHILEAGFEVQYLLGNGLVVDWSQTIDIFVLKYGLAQGNYSLATAAGIFKTVVSVTLLLIANGVAKRLGEERLL	PGPT0017250_1118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_00920	960	araQ_13	COG0395	L-arabinose transport system permease protein AraQ	ATGGCAAATCAAACAATCAGCCCTGGGCCAGCAACTGCTGCCGCAGCGCCTAAATCCGTCAGAAAAAAAAGAGTAGAGCCGATCCTTTTTAATACATTCAATACCTTGTTTATGATTGGTCTTGTCGTTGTCACATTATATCCGTTTCTGAACACGATCGTCGTTTCCCTGAATGCGGGGAATGATACGATCCGGGGCGGAATCTATCTCTGGCCGAGGGAATTTACCTGGCAGAACTACAAGGCGGTATTCGCTTCGGGAACGATATATGACGCGTTCTGGATTTCCGTGGCAAGAACAGTGCTTTCAACGCTGCTGAATCTGGTCTTGACCACGATGCTGGCGTATACGCTGAGCCGTCGGGAATATGTATTCCGCAAGCCGATTACATTGATCTTTATTCTGACGATGTACTTTAACGCAGGCTTGATTCCTGGATATTTCTTGATGAAGGACTTGCACCTGCTGAATTCGTTCTGGGTATATGTGATCCCGTCGATGATCAGCGCATTCAATATGATCGTTATCCGGACGTATATCGGAACGATTCCGGAAAGCTTGGTCGAATCGGCAAGAATTGACGGAGCCGGAGATTTTAAAATCTTCATCCGGATCATCTTCCCGCTGTGTAAGCCGGTGCTGGCAACCATTGCGCTGTTCGTGGCCGTGGGGGCTTGGAACTCCTGGTTCGATGCATTCATCTATACCTCCTCCCGCCAAGAGCTGAGCACTTTGCAGTATGAGCTGATGAAGCTGCTGTCATCCAGTATGAACGCGAACAGCAACCCGGCAGTGGCTGCCGGCGCAGGGATGACGCAGGACGCTGCGGTGAACATGGTAACGCCGATTTCGATTCGCGCTGCCGTAACGGTCGTGGCATCGGTTCCGATTCTGCTGGTTTATCCGTTCATGCAGAAATATTTCGTAGTCGGATTGAACGTGGGCAGCGTCAAGGAATAA	MANQTISPGPATAAAAPKSVRKKRVEPILFNTFNTLFMIGLVVVTLYPFLNTIVVSLNAGNDTIRGGIYLWPREFTWQNYKAVFASGTIYDAFWISVARTVLSTLLNLVLTTMLAYTLSRREYVFRKPITLIFILTMYFNAGLIPGYFLMKDLHLLNSFWVYVIPSMISAFNMIVIRTYIGTIPESLVESARIDGAGDFKIFIRIIFPLCKPVLATIALFVAVGAWNSWFDAFIYTSSRQELSTLQYELMKLLSSSMNANSNPAVAAGAGMTQDAAVNMVTPISIRAAVTVVASVPILLVYPFMQKYFVVGLNVGSVKE	PGPT0017255_107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_00921	4449			hypothetical protein	GTGTCTAAGAGAACACTCATTAGGAGGATCAGCCTGATGCTGATCGCGTTCATTCTGCTCATTCCGCCTGGCTGGAGCGCGGCGGCAGTTGAACCGGCCCAGCCGCCCGCTGATCAGGATATTGTGATTCACCATCATTTCGATGGCGGGACGGAGGGGTGGTTCAAACGGGGGACGGAGACGGTGACTTCCGCTACCTATGCTTATGAAGGGACGGGGAGCCTGCTGACGGAGGGAAGGACGGCGAACTGGAACGGCCCGGGGTTTAATCTATCCGCCACGAATCGGCTGGACAAGGGGGCTACCTATGAAATTTCCGCATATGTCCATCTGAAGGAAGGCACCCAAGGGTCTCAGAAGCTTCAGCTTGCGATGCAGCAATCCGGAGCCGAGCCGGAATACGTGAACTTCAGCAGCCCGGTCGACGTAACCGCCGACGGGTGGGTGGAGGTAAAAGGCCGTTATAAATACGATGCTAATGCTTCGGCCCTGCAGGTTTATTTGCAGAGTCCGAGCAGTCCGGACGCCGCTTATTATATGGACGAATTCAAAGTCCGGCTGATTGAGCCGGCAACGGACCCGGGCGGTGGGACGCCGGGAGAGCATACGGTCGTATGGGATTTTGAAGACGGAACGACGATGGATTGGGGACCACGCGATTCGGAGACCGTAGAAGCTGTGCCAGAAGCAGCCCATAGCGGCGGCTACGGCTTAAAGGTCCATGATCGGACGAACAGCTGGAACGGGCCCAGCCAGGATGTCAAAGACATCATGGCGAGCCAAAAAACGTATACGATCTCAGTCTATGCCAGGCTTGAGCAGGCTCCTGCCGCGGCGGTCAAACTATCGCTTTCGATGGAGAATAAAGCGGCGGGCGCGGCAGAGACGTCCTATACGACCCTCGCCTCAGCCTCCGCGAGCGGCACGGAGTGGGTGGAACTGAAAGGAACGTTCGGCTTCAGCTCGGATATGGAAACATTGAAGCTCTACGTGGAGACCTCGGATCTTTCCAATTTCTATGTCGATGACATTAAGCTCGCTCTGCCGGGCTCCATTCAGAATGATATTCCCGCACTGAAGGATGTGTATCGGGAGTATTTCGAGATCGGGGCAGCCGTGGAGCCTAAGCATCTGTCGGGCGTCCACAAGGAGCTTCTGGATTATCATTATAACTCGCTTGTTGCCGAGAACGTAATGAAACCGGAATCTCTCAATCCGAGAGAGGGAACCTATAACTTTGCCAACGCGGATCTGATCAGGGATTATGCCAGGGATCATGGCATGAACCTCCGGGTCCATACGCTGCTGTGGCATCAGCAAGGCGCCGAATGGATGCTGAAGGACGACAAGGGCCAATATCTTGAAGCCACGCCGGAGAACAAAGCGCTCGTCCTTCAGAGGCTGGAAGCTTATATCCATGAGGTGGCCGGCCGCTACAAGGGAGATGCCCGCGATTGGGACGTCGTGAATGAGGTCATTGACGAAGGGCGTCCGGACGGCATGCGTGACAGCCAGTGGTACCGGATAACGGGGCTCGACTATATCCGGACCGCCTTTCATGCGGCGCGAGATGCAGCCGGACCCGAAGCCAAGCTGTACATCAACGATTACAGCACGCACAACCCGAAGAAACGCGATTATTTGCTGAATCTCGTAAAACAGCTGAAGGCGGAAGGCGTTCCGATCGATGGCGTTGGCCATCAAACGCACATCAATATCAGCGGGCCGTCCATCCAGCAAATCTCGGATTCCATCCGGATGTTCGGCGAGGCAGGATTTGATAATCAGCTTACCGAGCTGGACGTCTCGGTGTACACGAACAATACCGACGCCTTCCAGACCGTTCCTCAGGAATTGCTCGACAAGCAGGGCTATCGGTACAAAGAGCTGTTCGAAGAATTGAAGCGGCTGGACCAAATGGGCGTTGATGCAGGCGTGGAGGGCGGCTGGATCAGCAATGTCACCCTTTGGGGGATTGCAGACGACCATACCTGGCTGCATGACCGTCCCGCGGGGACGGGCCGCCAGGATGCCCCGTTTCCTTTTGACAAGCAATATCAGGCCAAGCCAGCTTATTGGGGAATGGTCGATCCCTCCAGGCTAACGATTGTGAGAAAAACCGGGACGGCTGTGGAGGGTAAGGCCGTCATCGACGGACAACCGGATGTTGCCTGGAATCTGGTTCCTGCACTTAAGACGGAGAAGCTAGGAGCGTTGTCTGCCGAATTTAAGACGCTATGGGACAAGGACCATATCTATGTCAGCGTTGACGTGAAAGACGGATCGATAGCCCCGGGGGATCAGGTTGATATCTTCGCGGTGGTGAACGGTACCCTGCAAGAAGCCCGGATTCAGCGTGGAGCCGCCAACACGGCAGAGACCGCGGGAGGTTACGCGGGGGAGGCCCTTCTCCAGCTACACGGAACAGGGGCATTGGGCAGCGACATTTATTTCGATGTCAGGGTAACGGATTCCGGTTCGGATGACGGTTCCGAGCATGGCAAGAACGGAGCGGTGGTGTCCTGGAGCGATCCAAGGCATGCCCAGGAGAGCGATCAAGACGGACTCGGCATTCTTACGCTCGCAGCTGCGCCGAAATCGGCCCAGGCCTTCTACGGCACCCCGAAGGTGGACGGCGAGCTGGACGGCATCTGGAGGGGAGCCGCGGAACTGGCAACCGATGTGTGGGTCGAGGGTAACAGCGGCGCGACCGCAACATTCCGGACGCTATGGGATGAGAATTACCTGTATGTTTACGCCATGGTTAGCGACAGCTTGTTGTCGGATGCAAGTCCCAACGTATGGGAGCAGGATTCGGTAGAGATTTTTGTGGACCAGAATAATGGAAAGACGGATGCTTACCAAGAAGATGATGGACAGTACCGGATGAGCTTCAACAATCTGCGTTCCTTTGGCGGTTATGCGGGCGAGGATAACTTCACTTCGGCAGCGAAGGTGATCGACGGGGGATATGTCGTTGAAGCAGCGATCCGCCTGGATAAGATCAAGCCTGAGAAAGGGACGGTCATCGGATTCGATTTGCAGGTGAACAACGATGAAGACGGCCAGGGTACAAGAGACAGCGTGGCCATCTGGTCGGATCCGTCGGGCCAGTCCTATCAGAACACGTCCAGGTTCGGCGTGCTGGAATTCACGAAGAGCTCCGCTCCAGGCGGAGGAGACGGAAACGGCGGAGAACATAACGGCGGCGGTGACGGAGGAAGCGGAGCAAACGCGGGCGGCGGGGGAAGCAGCACAAGTCCAGCTCCAAACACGCCTTCACTCGAAATCCGGAACAACGACGGGCGGATTCTCGCTGTTCTCTCGAGCCAAGTCCTTCAGCAGGCATTGGATAGGGCGGCAGCCGGTGTGGAAGGGCCGAAGCGAGCAATCGTGGATATCCCGGCTCAAACAGAGGCCCAGTCCTACGAAATTCAATTGCCGGGCAAGTGGCTGCTGGGGAACTCGGAGGTTGTGTTGATCCTCCAAACGGAGTTCGGCGCACTGGAGCTGCCAAGCGCATGGGTTCGGGGAGCCGGAGTAAAGGATACGGAAACCGTCACGCTGCGTCTGGCGAAAGCTTCGGGCAGCAATTGTGCTGCAGCCCTTCGCGAGGAGATCGGTGATCGTCCGGTGTTCCGGGTAGAGGTTCTTGCCGGCGACCGGGCCCTGTCGTGGAAATCGGGGAAAGCTCGCCTGATCTGGTCGGTGCCTTACACACCAACCAAGGAAGAGCTGGCACAACCGGATCATATCTTTGTCAGGGAGATCGATGCCAACGGGCAAGGCGGGCCTCTTGCTGACAGCCGTTATGATGCGAAACAGGGGATCGTTCGCGCAGCGCTGCCCCATGGCGGCACGTTTGCAGTCGCTTCCGCATTTAAAGCGTTTCATGACCTGAAGCATGTGCCGTGGGCGATCGATGCGATCGAAACGATGGCCTCCCGCGGATTTATCCAAGGGGTAAGCGAAACGCTGTTCGATCCGCAGAACGAAATCACCCGGGCCGAATTCCTCGTTATGCTCGTACGCGTGCTGGAGCTGGAAGGCCCGAGCGAAGGCCGGGCAGCATTCGGAGATGTTACGTCTTCGGCCTATTATTACAAACACGTGCAAATCGCCGCAGAGCTTGGGCTCGTTCAAGGCGTCGGCGGAAATCGTTTCTCGCCGGACACGCCGATGACGCGCCAGGACATGATGCTGGTAACGCATCGTGCCCTGGAGGCGGCAGGCAAGAAGCTGGAAGGCGAAGGGGCGCTGGATGCTTTTGCCGATGGGGATGAGGTTGCCGAATATGCCAAATCGAGTGCAGCTGTGCTTGCAGGGTCGGGCATCGTGTACGGCATGAACGGCAAAATCTCCCCGAAGGCTTACTTTACGCGTGCCCAGGCAGCCGTGATTCTGGAACGGATTTGGAATTGGGAACGGATTAAGACCGTGAATCGTTAA	MSKRTLIRRISLMLIAFILLIPPGWSAAAVEPAQPPADQDIVIHHHFDGGTEGWFKRGTETVTSATYAYEGTGSLLTEGRTANWNGPGFNLSATNRLDKGATYEISAYVHLKEGTQGSQKLQLAMQQSGAEPEYVNFSSPVDVTADGWVEVKGRYKYDANASALQVYLQSPSSPDAAYYMDEFKVRLIEPATDPGGGTPGEHTVVWDFEDGTTMDWGPRDSETVEAVPEAAHSGGYGLKVHDRTNSWNGPSQDVKDIMASQKTYTISVYARLEQAPAAAVKLSLSMENKAAGAAETSYTTLASASASGTEWVELKGTFGFSSDMETLKLYVETSDLSNFYVDDIKLALPGSIQNDIPALKDVYREYFEIGAAVEPKHLSGVHKELLDYHYNSLVAENVMKPESLNPREGTYNFANADLIRDYARDHGMNLRVHTLLWHQQGAEWMLKDDKGQYLEATPENKALVLQRLEAYIHEVAGRYKGDARDWDVVNEVIDEGRPDGMRDSQWYRITGLDYIRTAFHAARDAAGPEAKLYINDYSTHNPKKRDYLLNLVKQLKAEGVPIDGVGHQTHINISGPSIQQISDSIRMFGEAGFDNQLTELDVSVYTNNTDAFQTVPQELLDKQGYRYKELFEELKRLDQMGVDAGVEGGWISNVTLWGIADDHTWLHDRPAGTGRQDAPFPFDKQYQAKPAYWGMVDPSRLTIVRKTGTAVEGKAVIDGQPDVAWNLVPALKTEKLGALSAEFKTLWDKDHIYVSVDVKDGSIAPGDQVDIFAVVNGTLQEARIQRGAANTAETAGGYAGEALLQLHGTGALGSDIYFDVRVTDSGSDDGSEHGKNGAVVSWSDPRHAQESDQDGLGILTLAAAPKSAQAFYGTPKVDGELDGIWRGAAELATDVWVEGNSGATATFRTLWDENYLYVYAMVSDSLLSDASPNVWEQDSVEIFVDQNNGKTDAYQEDDGQYRMSFNNLRSFGGYAGEDNFTSAAKVIDGGYVVEAAIRLDKIKPEKGTVIGFDLQVNNDEDGQGTRDSVAIWSDPSGQSYQNTSRFGVLEFTKSSAPGGGDGNGGEHNGGGDGGSGANAGGGGSSTSPAPNTPSLEIRNNDGRILAVLSSQVLQQALDRAAAGVEGPKRAIVDIPAQTEAQSYEIQLPGKWLLGNSEVVLILQTEFGALELPSAWVRGAGVKDTETVTLRLAKASGSNCAAALREEIGDRPVFRVEVLAGDRALSWKSGKARLIWSVPYTPTKEELAQPDHIFVREIDANGQGGPLADSRYDAKQGIVRAALPHGGTFAVASAFKAFHDLKHVPWAIDAIETMASRGFIQGVSETLFDPQNEITRAEFLVMLVRVLELEGPSEGRAAFGDVTSSAYYYKHVQIAAELGLVQGVGGNRFSPDTPMTRQDMMLVTHRALEAAGKKLEGEGALDAFADGDEVAEYAKSSAAVLAGSGIVYGMNGKISPKAYFTRAQAAVILERIWNWERIKTVNR	PGPT0018625_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCANASE,PGPT0018625-xynY|xynZ|xynD|xynA-K01181	NA	NA
AK002_00922	1002			hypothetical protein	TTGTATCGTTCATCTGTTCATGCTGAAGAAGCCGATCATCCGGAGTGGGCGCCAGATCTTCTGGGGAGGGTTACCAAACGGATTGGCAGCGTCATCGTCGGACATGAGGAGCAAATCTCGTTAACGATGATTGCCTTGCTGGCAGGGGGCCATGTGCTGCTGGAGGACGTGCCGGGAGTCGGGAAGACCATGCTGGTGAAGTCGGTGGCTGCGTTAATCGGCTGTGATTTCAGCCGCATTCAGTTTACTTATGATCTGATGCCAGGGGACATCACGGGCGCATCGGTCTATTATCCGCACACGGGAGAATTTGTATTTAGGCCCGGACCGGTGATGTCCAATATCGTGTTGGCCGATGAGATTAATCGGGCATCGCCGCGGGCGCAATCCGCGCTGCTGGAGGCGATGGAAGAGGGGCGCGTCACCGTGGACGGCCATACGTATCCGCTGCCTGCCCCGTTCTTCCTGCTGGCAACGCAAAATCCTTACGAATATGAAGGCACAAGCCGCCTTCCGGAGGCGCAGCTTGATCGTTTTTTGATGAGATTATCGCTGGGCTATCCCAACATGGAAGGCGAATTGGAGCTGCTGGAGCGGGGAATGGGCAGTTCCAGACTGGATGATCTGAAGCCGATCATGATGGGCTCCGAGCTCATCCGGATGCAGCAGAGCGTTGCCCGCGTCTTCGTGGATGACACCATCAAACGCTACATGGTCAGTGTGGCCGATGCTTCCCGAAGGCAGCAGGGCGTATCCCTGGGCATCAGTCCGAGAGGGACATTAGCGTGGCTCCGTGCTTCGCAGGCAGCTGCATTTTTGACAGGACGAATGTATGTCATCCCGGATGACTGCCTGCGCGTTGCCGTACCGGTGCTGACCCACCGGATTCAGCTCGGTCATGATGCACGCGCAGCCGGCGTGAGTCCTTACGAAATGGTAGAGTCCATCATTACGAGGTTTGATCTGCCGCGCCAGCGCAGCCGGAAGGGAAGCACCTCATGA	MYRSSVHAEEADHPEWAPDLLGRVTKRIGSVIVGHEEQISLTMIALLAGGHVLLEDVPGVGKTMLVKSVAALIGCDFSRIQFTYDLMPGDITGASVYYPHTGEFVFRPGPVMSNIVLADEINRASPRAQSALLEAMEEGRVTVDGHTYPLPAPFFLLATQNPYEYEGTSRLPEAQLDRFLMRLSLGYPNMEGELELLERGMGSSRLDDLKPIMMGSELIRMQQSVARVFVDDTIKRYMVSVADASRRQQGVSLGISPRGTLAWLRASQAAAFLTGRMYVIPDDCLRVAVPVLTHRIQLGHDARAAGVSPYEMVESIITRFDLPRQRSRKGSTS				NA	NA	NA	NA	NA
AK002_00923	1299			hypothetical protein	ATGAGACGGCGTCTGCTGGAATGGTTGAGAGGCATAGCCATCTGGTCGGTGTCTTTGGGGCTTTATCTTTGGTTAGGCGGGGAATCGCTGCGGCTTGTTTGGTGGGCATCCACGATTTTATTGCTGGGAGGGGTTATGACGAGCTTGCTCGGTCCGACCCGAATCACCATCTCGCACACAAGCTCCCCTTCAAGCATACAGGCTGGAGACTCCGTCCAGATGACGGTTCATGTTGCCTATCGTTGCATTCTTCCCCTGCCATGGCTTATCATCACCGACCGTATCGGCAGCAGGACATATCGCAAACTGCTGTTCCCGGGCATGCGGCGAAGGCTTGCGTATACCTACCGGCTGAACCAGGTTCCCCGCGGAGTCTGGTCTTCGATCTACAGCGAGGTGGAATGGGGCGATCTGTTCGGCTGGTTCAGGACAAACCGAAGTCTGCTCAGCGATTCGGGCGGCCTGATTGTGCTGCCTAAGCCGGCGGAGTGGCCTGTGGCCGAGATGCCTGTGCATGGAAGCGATATGGATACGGAAGATGAACGCGTACGCTTCAACGTTTGGAATGAAATGATAGGATCGGGCGTGCGCGATTATGTTCCAGGGGATCCCATGAATCGGATTCATTGGAAGAATTCCGCGAAGCTTGGCCGCTTGCAATCTTTTATGCCTCATGAGGGCTTTGGAGCAAGGCAGGGCGTTGTGCTGGATACATCGCTCCAAGGGTATGAGGGCCATGAAGCCCGGAAACCGCAGGAAGAATTTGAAGAAGCGGTATCGGCCGCAGCTGGAATGGTATCCCGGCTTATACGCTATAGAATCCCCTATCAATTATGCATGGATGGGACGGATTTAGAGGGTCCATCGATTGAACGCAAAGGCGGGTCCGAAGGGCAGCCGGATTCGTTGGTGCCTCTGGCCTCTGTTCAGCTAACCGGGAATGATCCGATGCGGAACCGAAGATTCCAGCAATCCTTCAATCCCTCGCAAAAGAATACGGATTGGGCTATCATCACCGGGTACTTCCATCAGGGCGCCGCTGACGCCGGGATAAGCCTCCTGAATGCGGGCTGCAGAAAGGTGACCATTTATTGCACGCAAAGCGTAAGCCGGTTGAAATCGGCTGAAAGCACATCGGCGGCTCCGCCGGAGAATCAGGCGCATCCGCCGTGGGCGCGGGAATTTTTCGGCAAAGGCGGGAAGCTGATGTATGTACATGAAAAACTAGCAGTAGAGGTAGAGCACCCTATCCGGATCGGAGGTGCCGTCCATGACAGGACCGGGCAGCTCGCCCGTTAG	MRRRLLEWLRGIAIWSVSLGLYLWLGGESLRLVWWASTILLLGGVMTSLLGPTRITISHTSSPSSIQAGDSVQMTVHVAYRCILPLPWLIITDRIGSRTYRKLLFPGMRRRLAYTYRLNQVPRGVWSSIYSEVEWGDLFGWFRTNRSLLSDSGGLIVLPKPAEWPVAEMPVHGSDMDTEDERVRFNVWNEMIGSGVRDYVPGDPMNRIHWKNSAKLGRLQSFMPHEGFGARQGVVLDTSLQGYEGHEARKPQEEFEEAVSAAAGMVSRLIRYRIPYQLCMDGTDLEGPSIERKGGSEGQPDSLVPLASVQLTGNDPMRNRRFQQSFNPSQKNTDWAIITGYFHQGAADAGISLLNAGCRKVTIYCTQSVSRLKSAESTSAAPPENQAHPPWAREFFGKGGKLMYVHEKLAVEVEHPIRIGGAVHDRTGQLAR				NA	NA	NA	NA	NA
AK002_00924	2325			hypothetical protein	ATGACAGGACCGGGCAGCTCGCCCGTTAGGGCTGGCGGCAATCGGGAAGCCGGGTCATTCGGATCACGGAGTATGCCTTCGGTATTCGTTTCCAGATGGTCGCACGGAACGCTGCTTCATCGCATATTAATCACGCTGCCGGTGGCGGGACTTCTGTCAGAGTGGCTCTTGCCCCTTCGGAATGCGGGCGAAACAGGCGGCCGGTTTGTGCTGGAAACCTTATTCCTATGGGCTTTATTTCTGCTGCTTCAAGGGTTGTTTACATGGAGGGGCTGGGTGTGGCTGCCGCTGAACGCCGGGCTGGTGGTTTGGCTTTGTTCCCGGTTGTTTGAATATAGCGATCCGCTCGCATGGCTGTCCGATTACGCTTCGCTGATACTTCCAGGCGACGCTTCGGCTTTAAGAAATGCGTGGGAGTTTACGATCTTAAGCCAGGAAACGAGGACGATCATCCTGCTTGTCGGCTGGGGCATCATGGTATCCGCAGTGCATATGCTGGCTCTGTATCGCCGGACCGTTTGGCTGTTTGGCGGTTCGACGCTGGTTTATTTGGCGGTGCTGGAGTCTGCCATGGAAGAAAGCGTCTATGGGGATATGCTGCGCGCGGTGCTGTACATGTTGCTGGCCCAGGGCATGATGCTGATCCTTAAGCTGAAGCAGGAAACCGTGGAGGGAACCTCTTCGGAAATGGACCTCCCCGAACCCATGCGAACCGCCCGCTTGTCCGGGCTGCCTGTGCTGCGCTGGAGCCTGTTTGTGCTGCTGGCCTCCGTTCTGATCGCGGGGATTACCCGAGTAGGAGGGGGATTGGGCGAGCCTTCGCCAGGCATGGGATTGAGTGTGGCGGAAATGGCGGAACGACTGGCGGGATGGGGGGATCGGCTCCGCGGAAATGCGGAACCGTCGATTCCTGCCTCCCAGGTTGCCGGATATGCTTCCCAAGGAGAAGATTTGGGAGGCCCTCTGACGCTCAGCGATGCATTGTATTTTACGGCGCAATCGCCTGTACCGACGTATTGGCGCGGAGACACGTATAATCGATATGACGGCCGAAAATGGGATGCCGATCCCTCCATCCGCAAGCCGGTCAAGCTATCGGAGGACCTGAGCGGTTTCCTGCCGTATTGGGAGCGTCCTTCTGGAGAGACGATCGAGCAGTCGCTGACTTTTGTACAGGAGACCTCCGTCCCATCTTTGCTGTCGGGAGGTATTATTACCCGCGTGAAGGAGATGCATTCTTCCAAAGAGCGAGGTGCGCCAAGGTTGGCCGTCGACAGGCTGTCCGAAACGATTTCCTTGCAAGGCGGGAGGTCGGTGTCCGGTTATACCGTAGAAACTTTATACGCGCAGCCGGAGGAGCAAGCGCTCCGCAGGGCGAACGGGGATGATCCCGAATATATGGAAGAAATGTATCTGGAGCTTCCCGAGGAACTGCCCTCCAGGGTGAAGGATTTAGCGCAGAAGATTACATCGGACGCCGCGGGCAGGTATGAAACGGCGCAAGCTATCGAATCCTATTTGGAGCAAAACTATACGTATACGCTGCAAACCTCCGTGCCACCGGAGGGCCGGGATTTTACGGATCATTTTTTGTTCGATGCGAAGGAAGGGTACTGCGTTCATTTTGCCACGGCGATGACCGTCATGCTCCGATCCGAAGGCATCCCCGCACGCTATGTGACGGGATTCGCGCCTGGCGATCGGGTGGCCGGGACGACGGATCGTTACGAGGTCGCCCAAAAGAACGCGCATGCGTGGGTGGAGGTGTTGTTCCCGGGACAGGGGTGGGTCCTGTTTGATCCGACTCCGGGCTTTGGGATCGAGGGGATGTCCATGCCTCCGGCTGCCGGCGATTCCGGCTCCGCCGGAATGATGTCATGGCATACCTTGTGGAGTACCATGATCTACGCTGCCGTTAAAGTGCTCCTTGTGATATCCGCCATCGGTCCCGTGATGTTTGGGGTCGTGCTTTTGTTGATCCTCCCTCTTATTGTGGCCGTCATTTGCCGAATTCCGGCCGTACGCCAGAGTTGGGCCTTCATGAGGATGGCCCGGACGATAGCGGTCAGCGGGCGGGAGGGACTCGTATCGGCGGCGGTATGGGTCTGGGACAAGCTGCAGCACAGGTATGGGGATTTGGAAAGAGGGCAGACCATGCGTCAATACGTCAGCGCCCTGTCGATTGCCGATGCCGAATTCAGGGCGGAGCTGGAGGCGTTCGCGTCGCGCTGGGAGCGGGCGGCGTACCAGGATGAACCGTGGTCCCGTACGGAAAAAGTACTCTTTTTGCGCCAATGCATTCGAATTGTCAAAAAACTGGCATGA	MTGPGSSPVRAGGNREAGSFGSRSMPSVFVSRWSHGTLLHRILITLPVAGLLSEWLLPLRNAGETGGRFVLETLFLWALFLLLQGLFTWRGWVWLPLNAGLVVWLCSRLFEYSDPLAWLSDYASLILPGDASALRNAWEFTILSQETRTIILLVGWGIMVSAVHMLALYRRTVWLFGGSTLVYLAVLESAMEESVYGDMLRAVLYMLLAQGMMLILKLKQETVEGTSSEMDLPEPMRTARLSGLPVLRWSLFVLLASVLIAGITRVGGGLGEPSPGMGLSVAEMAERLAGWGDRLRGNAEPSIPASQVAGYASQGEDLGGPLTLSDALYFTAQSPVPTYWRGDTYNRYDGRKWDADPSIRKPVKLSEDLSGFLPYWERPSGETIEQSLTFVQETSVPSLLSGGIITRVKEMHSSKERGAPRLAVDRLSETISLQGGRSVSGYTVETLYAQPEEQALRRANGDDPEYMEEMYLELPEELPSRVKDLAQKITSDAAGRYETAQAIESYLEQNYTYTLQTSVPPEGRDFTDHFLFDAKEGYCVHFATAMTVMLRSEGIPARYVTGFAPGDRVAGTTDRYEVAQKNAHAWVEVLFPGQGWVLFDPTPGFGIEGMSMPPAAGDSGSAGMMSWHTLWSTMIYAAVKVLLVISAIGPVMFGVVLLLILPLIVAVICRIPAVRQSWAFMRMARTIAVSGREGLVSAAVWVWDKLQHRYGDLERGQTMRQYVSALSIADAEFRAELEAFASRWERAAYQDEPWSRTEKVLFLRQCIRIVKKLA				NA	NA	NA	NA	NA
AK002_00925	1539	guaA		GMP synthase [glutamine-hydrolyzing]	ATGAATAAGCCTAATGAAATCATCGTCGTTTTGGACTTCGGTGGACAGTACAACCAACTTATAGCACGACGCATTCGCGATCTTGGCGTTTATAGTGAGCTTCTGCCATACAATACGCCCGTCGAGAAGATTAGAGATCTCTCCCCGCGCGGCATTGTTTTCTCAGGAGGTCCTTCCAGCGTGTATTCCGAGAATGCACCGCATGTGGATCCTGCCATTTACGATCTGGGACTGCCGATCTTCGGCATTTGCTACGGCATGCAGCTGATGGCTCAGCAGCTGGACGGAAAAGTAGAGCGTGCTTCGAAGCGCGAATACGGTAAAGCCGAATTGGAATTCGCCCCGAACTCGACGCTTGTCAAAGGAATTGAGCAAAAACAAACCGTATGGATGAGTCATGGCGATCACGTGGTATCGCTGCCTTCCGGCTTCAAGCTGGATGCAGGAACGGAATCCGCTCCGATCGCCGCGATGAGTAACGAAGACAAGAAGCTGTACGCCGTGCAATTCCATCCGGAGGTTCGCCACTCCGTCCATGGTAACGAAATGATCAAGAATTTCCTGTACGAAGTATGCGGCTGCGAAGGCAACTGGAGCATGGAGACTTTCATCGAGGATCAAGTTCGCGAAATCCGTGAAGTGGTCGGCGAGAAAAAAGTGCTGTGCGCACTGAGCGGCGGCGTTGATTCCTCCGTTGTGGCCATGCTGATTCACAAAGCCATCGGCGATCAGCTGACATGCATGTTCATCGATCATGGACTGCTGCGCAAGGGCGAGGCCGAGAGCGTGATGGAGACCTTTGTCGGCAAGTTCGACATGAAGGTCGTCAAGATTGACGCGCAGGAGCGTTTCATGTCCAAGCTGAAGGGCGTGGACGATCCGGAGAAAAAACGAAAAATCATCGGCAACGAGTTCATCTACGTATTCGATGAGGAATCCAGCAAGTTCGATGATTTCGCATTCCTGGCTCAAGGCACGCTGTATACCGACATCGTGGAGAGCGGAACGGACACGGCACATACGATCAAGTCCCACCACAATGTCGGCGGGCTGCCTGAAGACATGAAATTCGAGCTCATCGAGCCGCTCAAAGCCCTCTTTAAGGACGAAGTTCGCAAAGTCGGCGAAGAGCTTGGCTTGCCGGACGAGATCGTTCACCGTCAGCCTTTCCCTGGACCGGGTCTTGCGATTCGCGTACTGGGCGAAGTAACGGAGGACAAGCTGCAAATCGTTCGCGACTCCGACTACATCCTGCGCGAGGAAATCGCGAAGGCCGGTCTGGATCGCGAAATCTGGCAGTATTTCACGGCGCTTCCGAACATGAAGAGCGTCGGCGTCATGGGTGATGCGCGCACGTATTCCTACACCGTAGGCATCCGCGCCGTAACCTCCATCGACGGCATGACAGCGGACTGGGCGCGCATCCCATGGGATGTGCTTGAGAAAATCTCCGTCCGCATCGTGAACGAAGTCGAGAACGTCAACCGCATCGTGTACGACGTGACTTCCAAGCCGCCAGCAACGATCGAGTGGGAGTAA	MNKPNEIIVVLDFGGQYNQLIARRIRDLGVYSELLPYNTPVEKIRDLSPRGIVFSGGPSSVYSENAPHVDPAIYDLGLPIFGICYGMQLMAQQLDGKVERASKREYGKAELEFAPNSTLVKGIEQKQTVWMSHGDHVVSLPSGFKLDAGTESAPIAAMSNEDKKLYAVQFHPEVRHSVHGNEMIKNFLYEVCGCEGNWSMETFIEDQVREIREVVGEKKVLCALSGGVDSSVVAMLIHKAIGDQLTCMFIDHGLLRKGEAESVMETFVGKFDMKVVKIDAQERFMSKLKGVDDPEKKRKIIGNEFIYVFDEESSKFDDFAFLAQGTLYTDIVESGTDTAHTIKSHHNVGGLPEDMKFELIEPLKALFKDEVRKVGEELGLPDEIVHRQPFPGPGLAIRVLGEVTEDKLQIVRDSDYILREEIAKAGLDREIWQYFTALPNMKSVGVMGDARTYSYTVGIRAVTSIDGMTADWARIPWDVLEKISVRIVNEVENVNRIVYDVTSKPPATIEWE	PGPT0021580_4423	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
AK002_00926	939			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCTATCGTCATTGACCGTTATGGTGGCAAGGAAGAGCTTCAGGAAAGAGAAGTACCTACTCCTGCACCGCAAGCGCACCAGGTCTTAGTCAAAGTGGCCGCTACCTCAATCAATCCAATTGACTGGAAGCTTCGAGAAGGCTATTTAAAACAAATGATGGATTGGGAGTTTCCCATTATTTTAGGATGGGATGTTGCCGGGACCATTTCGGAAATCGGAAGCGAGGTAACGGATTGGAAAGTGGGGGACGAAGTGTTTGCCCGCCCGGAAACGACCCGTTTTGGCACATATGCCGAATTTACTTTGGTGGATGATCACCTGTTGGCACGCAAGCCTGCTGCTATCTCATGGGAGGAAGCGGCATCCGTTCCGCTCGCGGGACTGACTGCTTGGCAGGCGCTGTTTACGCATGGTGAACTGACCAAAGGAGAGAAGGTATTGATTCATGCAGGCGCCGGCGGCGTCGGCATGTTCGCTATCCAGTTTGCCAAACAAGCGGGTGCTTACGTCATAACGACCGCCAGCGAACGCAATCATGAACTGCTGGCCTCGCTCGGTGCTGATCGGATGATCGACTATCGGACGACCCGATTTGAAGATGAATTATCGGATGTGGACGTTGTGTTCGATACGATGGGCGGTGACGTGCAGAAGAACAGCTTTAAAGTACTGAAACAGCATACCGGGCGAATTATATCGATTGTCAGCGATTTTGATGAAGAACTGGTAAGAAAATACGACGTGACCGCCAAAAATATTTGGCTGGATCCCAATGGCCAGCAGCTTCAGGAAATAGCCGACCTGTTAGAGCAAAAAAAGGTAAGATCCGTCGTGGGAGCTACGTTTCCTTTTTCTCGAAAAGGGCTCTACGATGCCCACGCATTAAGTGAGACCCACCATGCTGTCGGTAAAATAGCCATAAGTTTCTCCTAA	MKAIVIDRYGGKEELQEREVPTPAPQAHQVLVKVAATSINPIDWKLREGYLKQMMDWEFPIILGWDVAGTISEIGSEVTDWKVGDEVFARPETTRFGTYAEFTLVDDHLLARKPAAISWEEAASVPLAGLTAWQALFTHGELTKGEKVLIHAGAGGVGMFAIQFAKQAGAYVITTASERNHELLASLGADRMIDYRTTRFEDELSDVDVVFDTMGGDVQKNSFKVLKQHTGRIISIVSDFDEELVRKYDVTAKNIWLDPNGQQLQEIADLLEQKKVRSVVGATFPFSRKGLYDAHALSETHHAVGKIAISFS	PGPT0006375_1275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
AK002_00928	1371	adeQ	COG2252	Adenine permease AdeQ	ATGGAGCGTTTCTTTAAACTAAAGGAACACGGAACGAATGTAAGAACCGAGATCATCGCAGGCTTGACGACCTTTATGACCATGGCTTACATCCTGCTGGTCAACAATCTGTTCCTGGGTCCTGACGGCGCGGGCATTCCACAGGAAGGCGTATTCTTCGCTACCGCTGTTGGTGCCGGTCTCGTGACCATGGCCATGGGCTTTTTCGTTAACATTCCGGTTGCGCTGGCACCAGGCATGGGTTTGAATGCGTATTTCATGACAGTTGTTTTAAGCTCGAACGGTGCGATTACTTGGCAGGCGGCGCTCGGTGCCGTATTCATCTCCGGTATCGTCTTCATCATTCTTACGGTAACCAAAGTCCGCCAAATGCTGTTGACGGCGGTTCCGAACAACTTGAAGATCGCCATTACCGTTGGTATCGGATTGTTCATCACGATCGTTGGCCTGAAGCTGGGCAATATCGTTACGGCTTCCATCAACCCGGGAACGGATATCTCTCATCCGGTACCAGGCGGTGCCTTCAATCTTGGTCTTGGAAATTTCGTTGAAAACAAGGATACGCTGCTTGCGATCATCGGGCTGTTCCTGATTGCCATCCTGATGGTCCTGAAGCTGAAAGGCGCACTGCTTATCGGTATCGTGCTGACGACGCTGATCGGTATTCCGATGGGCGTTACCGATCTGTCGGGTCTGAGCACCGCGAGCTGGATTCCTTCGTTCGATAATCTGGCTGTCGGTCAGATGGACTTGAAGGGTGCGCTCGGGATTGGTCTTATCGAAGTTATTTTCATCTTCACATTCGTCGAGCTGTTCGATACGTTCGGAACGCTGGTTGGTACGGCAGGCCGTGCCGGACTTCTGAAGAACAAAGAAGAGGGCGAGAAAAAGCTCGGCAAAGCGATGCTCGTGGATGCAGGCGGCGTAAGCGCAGGCGCATTCCTCGGAACTAGTACGATCACGGCCTTCGTAGAAAGTACTTCCGGTGTTGCTGAAGGCGGACGTACAGGCTTGACTGCAGTTACCACAGGCGTACTCTTCATTCTGGCATTGTTCCTGGCTCCGATTGCGCTGGTAGTTCCTTCGGCAGCTACGGCACCCGCACTTGTCATCGTCGGCGTCCTGATGATGAGCCAGGTACGCGATATCGAGTGGGATGATTTCATGCAAGCTTTCCCGGCATTCTTGACGATCATCCTGATGCCATTCACAGGCGGTATCGCGAACGGGATCTCCGCTGGTATCATTGCTTATGTGGTTCTTGCGGTATTCGGCAAATTGATTGGCCGCACGGATACCAAGGTGCATTGGCTGATGTGGATCTTGTTTGTGATCATCTTGATCCGATATGCGTTCCTCGGTGCAGAATAG	MERFFKLKEHGTNVRTEIIAGLTTFMTMAYILLVNNLFLGPDGAGIPQEGVFFATAVGAGLVTMAMGFFVNIPVALAPGMGLNAYFMTVVLSSNGAITWQAALGAVFISGIVFIILTVTKVRQMLLTAVPNNLKIAITVGIGLFITIVGLKLGNIVTASINPGTDISHPVPGGAFNLGLGNFVENKDTLLAIIGLFLIAILMVLKLKGALLIGIVLTTLIGIPMGVTDLSGLSTASWIPSFDNLAVGQMDLKGALGIGLIEVIFIFTFVELFDTFGTLVGTAGRAGLLKNKEEGEKKLGKAMLVDAGGVSAGAFLGTSTITAFVESTSGVAEGGRTGLTAVTTGVLFILALFLAPIALVVPSAATAPALVIVGVLMMSQVRDIEWDDFMQAFPAFLTIILMPFTGGIANGISAGIIAYVVLAVFGKLIGRTDTKVHWLMWILFVIILIRYAFLGAE	PGPT0007325_2335	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007325-pbuG|azgA|ghxP|ghxQ|adeQ-K06901	NA	NA
AK002_00932	981	fabHB	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3 protein 2	ATGAGCCAATCGAAGTCGAGAATAACGGCAATCGGGACGTACGTTCCTGAACGGATTTTAACGAATGCGGATTTGGAGAAGATGGTGGAAACGAGCGATGAGTGGATCGTCCAGCGGACAGGCATGCGGGAACGCCGGATTGCCGCTCCCGATCAGTACGTGTCCGATCTTGCCATTAAGGCTGTGGAGGATATGGTTGAACGGTATGGCGTTACCGTGCAGGATGCGGATATGATTCTTGTGGCCACGAGCACGCCGGAGTACTCTTTTCCCAGTACCGCTTCCCGAGTGCAATCGAAGCTGGGCATCGCAAGCACGGGTGCGCTGGATCTGAATGCCGCCTGTGCGGGATTCGTATATGCGCTGCAGATGGCTGACGGATTGATATCCGGGGGAGCCTACCGTAAAATTTTGGTTATCGGCGCGGAAACGTTATCGAAGATTACGGATTACACCGACCGAACGACATGCGTATTGTTTGGGGATGGCGCAGGTGCCGTATTGTTGGAGAGAGACGAGTCTTCGGCTGGGATCATCGCTTCCGTCTCGGGCACTTTTGGCGAAGGCGGCATTCATCTGTATAAAACCGCGCTCTCCGAGCAAATGGACGGTACGGAATTAAAGAGTGGATGCCTTGTCCAAAATGGCCGCGAGATTTATAAGTGGGCCATTCGGAACATTCCGGACGGCGTCCGGGCACTTTTGTCCAAAGGGGGCATGACCGCGGACGAAGTCGATTGGTTTGTTCCGCATAGCGCCAATCTCCGCATGATCGAGGCAATTAACGAGCGGGGGCCGTTTACCATGGACCGCACCTTGACCAGCGTCGAGTACCGGGGGAATACGTCGGCAGCTTCCATTCCGCTTGCGCTTCAGCTGGCCGTCGACGAAGGGCGCCTGAAAGCGGGAGACCACGCACTGCTCTACGGATTCGGCGGAGGCATGACCTACGCGGGTTCCATCGTCAAATGGACGATATGA	MSQSKSRITAIGTYVPERILTNADLEKMVETSDEWIVQRTGMRERRIAAPDQYVSDLAIKAVEDMVERYGVTVQDADMILVATSTPEYSFPSTASRVQSKLGIASTGALDLNAACAGFVYALQMADGLISGGAYRKILVIGAETLSKITDYTDRTTCVLFGDGAGAVLLERDESSAGIIASVSGTFGEGGIHLYKTALSEQMDGTELKSGCLVQNGREIYKWAIRNIPDGVRALLSKGGMTADEVDWFVPHSANLRMIEAINERGPFTMDRTLTSVEYRGNTSAASIPLALQLAVDEGRLKAGDHALLYGFGGGMTYAGSIVKWTI	PGPT0008355_4464	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
AK002_00933	1353	lacE_1		Lactose-binding protein	ATGAAAAGGTTTAAATCATGGAGCTTGCTGCTCCTGAGTGTCATCATGGTGTTCACGCTGGCCGCATGTGGAGGCGGTGGCGGAAACGGAAGCAGTACGGCTGAATCTCCGGGGGGAGGCAGCAGCAATGAAGGGACGGACAATACGAAAGAAGGAACCGAGTCCACAGAGAAAATCGAGCTCTCCTTCTGGTCGCTCGGAACGACCAACTATGAAGATCTGGCGAAGGAATATACGAAAGAGCATCCAAACATCACGTTCAAATTCCAGAATACGTCGGACCAAACCGCGCACCACAACAATCTGACGACGGCGTTGTCAGCGGGCTCTGGCGCACCCGACATTTTCCAGCTGGAAATTGCCTTCATGGAGCGCTTCATCAATAACCAGGATAAATTCTATAACCTGTACGACCTCGGCGCCAAAGACTTAGAGGGCAACTACCTGGAGTGGAAATGGAAGCAGGCCACATCGGTTGACGGCACCTTCCAACTCGGTCTGCCAACAGACATCGGCCCTACGGTCGTCTATTACCGTACGGATCTGGCTGAGCAAGCAGGACTGCCAACCGATCCGGACGGCTTCAGCGCCGCGATCGATTCATGGGGCAAATTCGCCAGCGTGGCCAAGGATTTCACCAGCAAAACAGGAAAACCGTTCGCCGATTTGACAGACCTGGTCTACAACGGGGTGCGCGACCAATCCCCGGATCAAATCTACTTCAACAAAGAGGACGGCTCTTTTATCGGAGATACGAACCCGCAAGTGAGAAAAGCTTACGACTTTACGGTAAAAGGAATTCAGGAAGGCTGGATCGGCAACTGGATTCTATGGTCTCCTGAATGGCAAAAAGCGATCAATGACGGCGACTTCGGCGTCATGCTCGGCCCGGCTTGGATTGCCGGTACCATCCGCAATGCGAAGGACACCGCAGGCAAATGGCAGATTGCCCAGCTTCCTGAAGGAGCAGGCAACTGGGGCGGTTCGTTCCTGACCCTGCCGAAGGAAGGCAAGTATTCGAAGGAAGCTTACGAATTCATCTCGTGGGTGCTGAACAAGGAGAATCAGCTGAAATCGTTTAAGGACAGCGGTTTGTTCCCGTCCATCCCGGCGGTGTACAGCGAGCCTTCGTTCACGGAAGAGAAGGACGAATTCTTCGGCGGCCAGGTCATTTCCGAAGCGTATGCCAAATCGGCGGAACGCATCAAGCCGGTTTACTACGGACCGCTTCATGACCAGACCGACACGATCATCAAAAACGCGCTCAAAAACGTGCTGGAGAAAAAGGCCGACCCGCAAAAAGAATGGGAAAGCGCAATGAAGCAAATCAAGACGCTGGTCGATCGCAGCTAG	MKRFKSWSLLLLSVIMVFTLAACGGGGGNGSSTAESPGGGSSNEGTDNTKEGTESTEKIELSFWSLGTTNYEDLAKEYTKEHPNITFKFQNTSDQTAHHNNLTTALSAGSGAPDIFQLEIAFMERFINNQDKFYNLYDLGAKDLEGNYLEWKWKQATSVDGTFQLGLPTDIGPTVVYYRTDLAEQAGLPTDPDGFSAAIDSWGKFASVAKDFTSKTGKPFADLTDLVYNGVRDQSPDQIYFNKEDGSFIGDTNPQVRKAYDFTVKGIQEGWIGNWILWSPEWQKAINDGDFGVMLGPAWIAGTIRNAKDTAGKWQIAQLPEGAGNWGGSFLTLPKEGKYSKEAYEFISWVLNKENQLKSFKDSGLFPSIPAVYSEPSFTEEKDEFFGGQVISEAYAKSAERIKPVYYGPLHDQTDTIIKNALKNVLEKKADPQKEWESAMKQIKTLVDRS	PGPT0016430_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016430-cebE-K10240	NA	NA
AK002_00934	957	lacF_6		Lactose transport system permease protein LacF	ATGGCTGACACAGCAACGGCAGAATCGCCGCAGCCGGTGCCGCAAAGGCGGCGCTTGTTGACGGAGACCGTGCGAAGCCGGTTTACGGCTTATACGTTTATATCGCCATTCTTTATATTGTTCGCAATCTTCGGTCTGTATCCGATCCTGTTTACCATCTATTTGTCTTTCTTCAAATGGGATGCGCTCGGACCGATGAAATACGTCGGCTTCAAGAATTACGAGCTTATTACAAGCGACCCGACCTTCTGGATCGCGTTTAGCAACACCCTCATTATGGCTTTGATGGGAACCGTGCCGCAGCTGATTGTGGCATTATTTGTTGCGGTTATGCTCAACTCGGCCTTGAACAGATTCAAGAACACGTTCCGCATCCTGTATTTCATGCCGAACATCACCTCCATCGTTGCGGTGACGCTGGTGTTCAGTACGATGTTCGGAAACAACGGGATGGTCAACTGGCTGCTGAACACCTTCGGTGCGGAAAGCGTGCCGTTCAACTCCGGCTGGTGGGGAGTCAAAATCGCAATATCATCCATGGTCATGTGGCGGTGGATGGGCTATAACGCCATTATTTTTCTGTCGGGGCTGCAGAGCATTCCGACCGATATTTATGAAGCGGCCAAAATCGACGGGGCCACCCGCGGCCAGCAGCTGCTCTATATCACGCTGCCGCTTCTTCGCCCATTCATTCTGTTCGTCACCTTGGTATCGACGATCGGCGCGCTCCAATTGTTTACGGAGCCTTATGTATTCCTCGGTCAGTCCGGCACGGGTTCTACGCGTCAGGAAGGGGTCACGATGGTCACCTATTTGTATAACGAAGCATTTAAGAACGGATTCTTCGGTACGGCTGCGGCAACGGCGGTTCTCTTGTTCATCGCCACCATTCTGTTCTCGGTATTAAATATGATATTGGGCCGCGAAGGCAAAGATTCGGGAGGTAAAAAAGCATGA	MADTATAESPQPVPQRRRLLTETVRSRFTAYTFISPFFILFAIFGLYPILFTIYLSFFKWDALGPMKYVGFKNYELITSDPTFWIAFSNTLIMALMGTVPQLIVALFVAVMLNSALNRFKNTFRILYFMPNITSIVAVTLVFSTMFGNNGMVNWLLNTFGAESVPFNSGWWGVKIAISSMVMWRWMGYNAIIFLSGLQSIPTDIYEAAKIDGATRGQQLLYITLPLLRPFILFVTLVSTIGALQLFTEPYVFLGQSGTGSTRQEGVTMVTYLYNEAFKNGFFGTAAATAVLLFIATILFSVLNMILGREGKDSGGKKA	PGPT0016435_457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016435-cebF-K10241	NA	NA
AK002_00935	864	araQ_14	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCACAGTCGCCATAAGCCGAAAAAAGCCGGATGAACCCGGTGTTGTCGCGAAATTCTTTTTCTATCTTTTCATGGTCCTTGGCGCGCTGGTCTCAGTCTTCCCGTTCTACTGGATGTTTGTCGTGGCTACCAATGACAAGGATGCGGCATTTCACATTCCGCCGCTGCTTACGCCCGGCACGCAGTTTTTCGATAACTTCGCGCGCGTGCTGGAGCGGACGGATTTTTTCAGGGCCTTATTGAACTCGGTGGTGGTGTCAACGGCCGTGACCTTGTCCGTGGTATTCCTCTGCACGCTGGCGGGTTATGCTTTTGCCAAGTATGAGTTTCCACTGAAAAAGACGCTGTTTGTTTTTGTCATTGCCACGATGCTGGTGCCTGCCCAGCTGGGCGTGCTTCCACAATACGTCATCATGGCCAAGCTGCACTGGATCGACAGCTACAAAGCGCTCATCGTGCCGGCCATGGTCAATGCCTTCGGCATCTTCTGGATGCGGCAGTATATCGCTTCTGCCGTTCATACCGAGCTGATCGAAGCGGGGCGGATCGACGGCGGCGGACATTTCCGGATCTTCTGGAACATTGCCATTCCCGTTGTTACCCCGGCGATGGCCACGCTCGGGATTCTGAACTTCATGAACGTGTGGAACGATTTCTTCTGGCCGCTCGTCGTATTGAAAAACAGGGAGAATTACACCATTCAAATTGCGCTGCAGCAATTGTTCACCAATAAGGACGGTCTTGATTTCGGCATGATCATGTCGGCCACCTTCACGGCGACGCTGCCGCTTCTCATCGTATTTCTGTTGTTCAGCCGATGGGTCATCGCCGGATTGACATCAGGCGCCATAAAAAGTTAA	MSTVAISRKKPDEPGVVAKFFFYLFMVLGALVSVFPFYWMFVVATNDKDAAFHIPPLLTPGTQFFDNFARVLERTDFFRALLNSVVVSTAVTLSVVFLCTLAGYAFAKYEFPLKKTLFVFVIATMLVPAQLGVLPQYVIMAKLHWIDSYKALIVPAMVNAFGIFWMRQYIASAVHTELIEAGRIDGGGHFRIFWNIAIPVVTPAMATLGILNFMNVWNDFFWPLVVLKNRENYTIQIALQQLFTNKDGLDFGMIMSATFTATLPLLIVFLLFSRWVIAGLTSGAIKS	PGPT0016440_373	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016440-cebG-K10242	NA	NA
AK002_00936	1725			hypothetical protein	ATGAAACTCCGCCGAAAGATATTGCTGGCTATTATTCTTCTGGTCTTCATTCCGGTCATCGCGCTGGGCGGGGTATCCTATTACAGCTTTTCGGAAGCGATGGAGAAGAAGTCGAATGATTTCTATTGGATTTCGCTCCTGGAAACGGATCGGAAACTGAAGTTCGCCTTGAACGAAATCACGACGATTTCGAACTCGGCGATTACCCAGCAATCGGTTCAGCAGATGCTGAAACAGCCGGAATACGCGGTTACCTATGAACGGCGGCAGGAGATCAACAATCTGATTAATCATCCGATGATTGCGTCGTTTGCTTTTTATTCGAATGACAGGTTGATGTATAACACGAATGGCGGAATGGAGCTTCAGGAACTGAGGCAGCAGGCATGGTATGAAGCGGTGGAGAAGGCGGAGGGGCGTCCCGTATGGGTCGGACCCGGCGAGAACGGCTCTGCGGCTGACGGCGCTCCCGTTTTGATTCAATCCAGGGTCATCAAGGACTATTACTCGCTGGAGGATATCGGAACCGTGGTGATCTACGTGAAGCCGGATCTCCTGGATCAGGTGTTCTGGGAGGCGGCAACGCTGAAGCAGGGAGATATTTTGCTGGTCAACCAGCAGGGGCACATCGTGTTCAGCAAGTCAGGCGGGCATATCGGGGAGCGGACGGAATTCCCGTTTCTCTCGGATAATTATAAGACGAATGGAAAAGGGTATTATGTCGATCAATACGCAGGCGAAAAATCGCTGATCACCTATTCACCTTCTCATAATAAAGATTGGTTTCTGGTCGCCATCACGCCAAGCAAACTGATTTCGGCCGAATCGGTCCCGATTCGCAACCTGGCCTTGATCCTGGGATTGATCTCGCTCGTGTCGGCGTTCCTGTTCGACCGTTTTTTTGTGCGCAGAATGGTGCGCAGCATCATTAGCGCGGTGAACGGGATGAAGCGCGTCAAGCAGGGCATCTTCGTTCCGATCCCGTCGCATAACGTGGCGGAGGACGAGACGGATTTGTTGATCGACGGCTTTAACCGGATGAGCACCCAGATCCAGGAGCTGATTGGGCAGGTCGAGACGGAACAAGCACGAAAAAAGGAAGCGGAGCTGCAGGCGCTGGTCGCTCAGATCAATCCGCACTTCATCTATAATTCACTGGAATCGATCAATTCGATGGCCGTGCTTCAGGGCAATAAGGATATCAGCAAGATGGTGGTTTCGCTTGGAAAGCTGCTGCGTATCAGCATCAGCGAGCATCATGAGCTTATCCCCCTCAGCATGGAGCTGGAGCATGTCCAGCATTACATGCGGATACAGAAATTCAGGTTCGAGGAAAAATTCGATTACGGCATTGAGCTTCCGAATGAACTGAGGCACTACGTTACGCAAAAGCTGATCGTTCAGCCGATTGTTGAGAACGCTTTATATCACGGGATCGAGCCGATGGAGGAGAGCGGATTCATCTCCATCAGTGTGTCCGAGAACGGCGAGGATATCGTGATTGACGTGGAGGACAACGGTCCGGGCTTCGATCCGGAAACGCTGATGAAGCTGTGGAATTCGGATCCGGGACAGCTCAAAAAGTACCGCGAGAACGGGGTCGGATTGAAGAATGTCCATGAAAGGCTGCGGATCCGGTTTGGCAGCCGTTACGGCCTGATGATCTGTTCCTCCCCGGGTTACGGCTCCTTGATACGAATTCGAATACCGAAAATACTGACATGA	MKLRRKILLAIILLVFIPVIALGGVSYYSFSEAMEKKSNDFYWISLLETDRKLKFALNEITTISNSAITQQSVQQMLKQPEYAVTYERRQEINNLINHPMIASFAFYSNDRLMYNTNGGMELQELRQQAWYEAVEKAEGRPVWVGPGENGSAADGAPVLIQSRVIKDYYSLEDIGTVVIYVKPDLLDQVFWEAATLKQGDILLVNQQGHIVFSKSGGHIGERTEFPFLSDNYKTNGKGYYVDQYAGEKSLITYSPSHNKDWFLVAITPSKLISAESVPIRNLALILGLISLVSAFLFDRFFVRRMVRSIISAVNGMKRVKQGIFVPIPSHNVAEDETDLLIDGFNRMSTQIQELIGQVETEQARKKEAELQALVAQINPHFIYNSLESINSMAVLQGNKDISKMVVSLGKLLRISISEHHELIPLSMELEHVQHYMRIQKFRFEEKFDYGIELPNELRHYVTQKLIVQPIVENALYHGIEPMEESGFISISVSENGEDIVIDVEDNGPGFDPETLMKLWNSDPGQLKKYRENGVGLKNVHERLRIRFGSRYGLMICSSPGYGSLIRIRIPKILT				NA	NA	NA	NA	NA
AK002_00937	1344			hypothetical protein	GTGAGATGGTTTTGGAATTGGGGCTGGATCGTCGGATATGCCGCTCTGTTGGCGCTGTCTGTCGTGTGGGTGACGGTACAGAATCAGGGACCAGCCCAGGAGGAACAGCCGGAGAAAATCACGCTGACGTTCCGGCATTTCTGGAACAAAGAGCATGACAAGCCGGTGCTGGCCGTATTTGAGAGCATCGTCCGCACTTACGAGAAAGCGCATCCAAACGTAAAGGTGAATTTCGAGAGCATCGATCAGACGATTCACCGGGAACAAAAGCTGAAGAGCGAGATGGTGACCGGCACGCCGCCGGATATGTTTGTTTTGTTCGGAGGCGCCGAGATCGTGCCTTATGCCAGATCCAACCGGTTGATGGATTTAACGGATTTTTTGCAAGATACCGGATTGAAGGAGCAGTTCAAGGATCTGCACCATTGGACCTTCGAGGACCGGATCTATGGCCTGCCCTTCGAGGGACACGCAGAGCCGATCTATTATAACCGGGCTTTATTCCGGCAGCTGAAGCTGGAGCCTCCGAAGACGCTGGAGGAGATGGACGAAGCTATTCGCGTTCTTCGGGAGAACGATATCATTCCCTTTGCGGTCGGCAACGAAGACAGGTGGCCGGCGGGAATTTTTGCCCACTATTTCATGGATCGCTACGCCGGGCCGGAACTGATTGACCGGCTGGTCGAAGGAGATGATCAGGCCAGCTTTGTGCAAGAGTCGTATTTGGAGGCGTTTGAGCACTTGGAGCTGTGGATCAACGAAGGGGCGTTCAGTCCGAACGCGAACGATCTTTCCACAGAAGAAGCGATTGCCCAGTTCACGGAAGGAAAAGCGGCGATGTATATGAACGGCAGCTGGGATATCACGCTGCTGCAGAATGAGGATTACCCGGATTTTCAGAACGAGATCGGCGTCATTCCCTTTCCGTCGCTCCTTCCCGGCGAAGAACGCTCCTTGGCAGGGGGATATACGATCGGCATCGGGCTGTCATCGGACTTGGATGAAACGAAAAAGCAATCGGCTCTGGAGCTGCTGGGCATGTTCTATACCCCGGAGGTGCAGACTCGGCTGGTGTATGAAGGGCTGCGCGTCCCTTCGATGAAGATTGACTATGATTCCAAGAAAACCGGGCCGGTTTTTGCCCAAGTCACGGAATTGATGGAGGAATCCACGAGCACCTTTCTGCCTTACGACAACACGTTATCACCCGAGGTGAACAGTTCGTTCCTTAAGGTGATCGAGGATATGATTGGAGGACGGATCGATGCTGCTGGCGCATTGGAGCAAATTCAGAAGTCCTCGGTGCGGTATTGGAAGCTTAGGCGGAATACGGCAGCAGAGTAA	MRWFWNWGWIVGYAALLALSVVWVTVQNQGPAQEEQPEKITLTFRHFWNKEHDKPVLAVFESIVRTYEKAHPNVKVNFESIDQTIHREQKLKSEMVTGTPPDMFVLFGGAEIVPYARSNRLMDLTDFLQDTGLKEQFKDLHHWTFEDRIYGLPFEGHAEPIYYNRALFRQLKLEPPKTLEEMDEAIRVLRENDIIPFAVGNEDRWPAGIFAHYFMDRYAGPELIDRLVEGDDQASFVQESYLEAFEHLELWINEGAFSPNANDLSTEEAIAQFTEGKAAMYMNGSWDITLLQNEDYPDFQNEIGVIPFPSLLPGEERSLAGGYTIGIGLSSDLDETKKQSALELLGMFYTPEVQTRLVYEGLRVPSMKIDYDSKKTGPVFAQVTELMEESTSTFLPYDNTLSPEVNSSFLKVIEDMIGGRIDAAGALEQIQKSSVRYWKLRRNTAAE	PGPT0016330_632	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_00938	1599	cheB_3		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGGGCGGATCGGAAGGCAAATTCAGAGTCATGCTGGTCGATGATGAGCCGATCATTCTGCGCAGCCTGAAGGCGGCTATTCCATGGGATGAGCTCGATCTGGAGGTCGTTGGGGAGGCCAAGAGCGGAGACGGCGCATTGAAGCTGGCGCGCGAAGTGTCGCCGCATATCATTATCAGCGATATTCGGATGCCGGGGATGGACGGCATTACGCTCATGAAGGAACTGAAGGCGGATCAGGCAAGGCGAATCATTATTTTCATCAGCGGGTACGGCGAATTCGAATACGCGAGGGAAGCGCTGCGCGAAGGGGCTTTCGATTATTTGCTGAAGCCGATCGACCACGATGAACTGACCGAAACGATTGCCAGGGCGGCCAGAACCCTGGAGAAGCAGATTGCGGATGACCAGATGCTTCACTCGATCAAGGTTCTGTCGCTGCTGGCCCGGGAGCGGATGCTGACCGAATTCATCGAAGGGAACCGTAGTCCCCTGCAGCATATGCAGTGGCTGGAGGACAGCGAGCTGGAGCATGGATACACGATGGCCGTCATTCAATTGGATCAATACTTGCGGCTTAACGAGCTGTGGAGCATGGACGAGAAGCGCCTGTGGCTGTTTGCCGTACGGAATGTCCTCGAGGAGTGGTCCTTGCAGCATGGCGGGCTGACGGTATTTCCTTTCCGCAGCGGGGAATGGGTGCTGCTGTTTCCGAACCTGACGAAGGAGCGGCAGGAGGATATCGGCCGGGATCTGGTGCAATTGATCAAGCGGAACACGAAGCTGTCCTGCTCGGTCGGCTTCAGTCCCAGCATGGCCGGGATCGACCGTCTGGGAACGGCTTACGAGACGGCCGTGCGCGCATTGTACCAGCGGTTTTATTCAGGGGAAGAGGGCGTGTTTCTCGGGACGCCCGATTCGGTGCTGGAAACGGCCAGCGAAGCGAAGTATCCGAAGCATCTCGAGTCGCTCATGGTGGAAAGCATCCGTACGCTTCATAAGGAGCGGCTCCTGGAGCTTTTTGACGAAACCAAGGCTTATATCGAGGAGCATGCGTTCAGCAGGGAGATGACCGAGCGGGTGCTGCTGGAGATGAGCGTCGTGCTGTATCGGCAGTTTGAGCATATGAAGGTGCTGTTTGAGTGGTCGCTGGAGGAACTGCTGCAGGAGCTTCATGCATCCGGCACGCTTCAGCAGCTAATGGACGTCATCAAGAGCCACTTCAGCAAGTGGATTGCCGAGAGCCGGTCCGGGCAGGCCAAAGACAATGTTCAAGCCGTGATGGGCAAAGCCAAGGAGTATATCGCGGAGAATTACCAGAAGGATCTGACCATCGAGGAGGTTTCGGAGCTGGCGGATCTGAGCATTAGCCATTTCTGCACGCTGTTTAAGGGAACGACGGGTTATACGTTTCTGGAGTACCTGACGGAGTGCCGGATCGAGAAGGCCAAGAGCATTCTGCTGAATACGGACGTGAAGGTGTACCAGGTAGCGCCGCTGGTAGGGTATCAGGATCCGCGATATTTCACCCAGGTATTTAAGAAAATCACGGGGAAAACGCCATCCGAGTATCGGGAAGAGGCGGTCTCCAAGACATAG	MGGSEGKFRVMLVDDEPIILRSLKAAIPWDELDLEVVGEAKSGDGALKLAREVSPHIIISDIRMPGMDGITLMKELKADQARRIIIFISGYGEFEYAREALREGAFDYLLKPIDHDELTETIARAARTLEKQIADDQMLHSIKVLSLLARERMLTEFIEGNRSPLQHMQWLEDSELEHGYTMAVIQLDQYLRLNELWSMDEKRLWLFAVRNVLEEWSLQHGGLTVFPFRSGEWVLLFPNLTKERQEDIGRDLVQLIKRNTKLSCSVGFSPSMAGIDRLGTAYETAVRALYQRFYSGEEGVFLGTPDSVLETASEAKYPKHLESLMVESIRTLHKERLLELFDETKAYIEEHAFSREMTERVLLEMSVVLYRQFEHMKVLFEWSLEELLQELHASGTLQQLMDVIKSHFSKWIAESRSGQAKDNVQAVMGKAKEYIAENYQKDLTIEEVSELADLSISHFCTLFKGTTGYTFLEYLTECRIEKAKSILLNTDVKVYQVAPLVGYQDPRYFTQVFKKITGKTPSEYREEAVSKT				NA	NA	NA	NA	NA
AK002_00939	972	mhqA_1	COG0346	Putative ring-cleaving dioxygenase MhqA	ATGAAGTTTAAAGGAATTCATCACGTATCCGCGTTAACGGCTGCGGCTTCGCGGAACTTCGAATTTTATACAAAAGTTCTGGGCATGCGATTGGTCAAGAAAACGGTGAACCAGGACGATGTGTCGGTGTACCATCTGTTTTACGGCGATGAAAAAGGAAATCCCGGCACGGAGCTTACCTTCTTCGAAATTCCGATGGCCGGCCGGACCCGTGAGGGAAACAACAGCATTTCGGCGACATCCCTGCGCGTGCCCAACGACCGCGCCTTGGAATATTGGACCCGGCGGCTGGACGAGCACGGCGTAGAACGCGAGGAGATCAAGGAACGTGCGGGCCGATTGACCCTTCTCTTCAGGGATTTCGAGGGCCAGCGCATCATTCTCGTTTCGGATGAACATAACGAGGGAGTTCCAGGCGGCGTTCCATGGGAAAAGGGGCCGGTTCCGGCGGAATACGCCATCATCGGATTAGGCCCGGTGCAGCTGACCGTGCCTAATCCAGTGTTGACCGTGAAGGTATTGACGGAGCTGATGGGCTTCCGCTACAAAGGGCACTATGCTTCGCCAGTAGACGGGCAGCCGGATATCCTGGTATTTGAGACGGGAGAAGGCGGTACGGGAGCGGAAGTGCATGTAGAGGAACGAACGGATCTTCCGCAGGAGCGTCTTGGCCGCGGCGGCGTTCATCACGTTGCATTCCGCGTCGAGGACGAGGAAGAGCTTCGGTCCTGGATTGACCGGATCGGCGATGTGGGCTTTTCGAATTCGGGATTTGTCGATCGCTTCTACTTCCGTTCCTTGTATTTCCGGGAGCCTAACGGTATTTTGTTCGAGGTAGCTACCGACGGTCCGGGCTTTGACACGGATGAGCATATCGACCATCTCGGCGAGTCCCTTGCGCTGCCGCCGTTTCTGGAGCCGAAGCGAGAACAGATCGAAGCCAGCCTGAAGCCTCTCCATACGATTCAATGA	MKFKGIHHVSALTAAASRNFEFYTKVLGMRLVKKTVNQDDVSVYHLFYGDEKGNPGTELTFFEIPMAGRTREGNNSISATSLRVPNDRALEYWTRRLDEHGVEREEIKERAGRLTLLFRDFEGQRIILVSDEHNEGVPGGVPWEKGPVPAEYAIIGLGPVQLTVPNPVLTVKVLTELMGFRYKGHYASPVDGQPDILVFETGEGGTGAEVHVEERTDLPQERLGRGGVHHVAFRVEDEEELRSWIDRIGDVGFSNSGFVDRFYFRSLYFREPNGILFEVATDGPGFDTDEHIDHLGESLALPPFLEPKREQIEASLKPLHTIQ	PGPT0028510_407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
AK002_00940	954			hypothetical protein	TTGAGGGCGGATCGTCTATTATCCATTATGCTGATGCTTCAGAACGGGGGGAAGAAGAACACCCGTTATCTGGCGGAGCAGCTTGAGGTATCGGAGCGCACGATTATACGCGATATGGAAAGCTTGAGCTCGGCGGGCATCCCCGTATATGCGGAAAGAGGATCCCAGGGCGGCTGGGTGCTGGAGGAGAGCTATCGAACGAACCTGACCGGCATGACGCCGGACGAGCTCATCTCCCTGCTGGTTTCCAGCCACAGCCCGTTGATCGGGGATTTGGGGATCCGCAAACAGTTTGATGCTGCCTATCAAAAACTGTTGGCTTCTTCCCCACGCTCCATTCGGCAGGATGCCGAAATCATTCGGGAGAAGATCCATATCGATGGCGCAGGCTGGCACTCCTACCGCGAATCGCATCCGTATCTTACGGTTCTGCAGGAGGCGCTGTGGTTGGATCGCACCATCGATATCCAATACATGAAGGGAGAGGAACGAGTCGAAAGAAGGATTCATCCGCTCGGGCTGGTTGCCAAAAGGAGTACCTGGTATGTGGTGGCCGAATCTCAAGGCGAGCTGCGAACCTATCGCGTATCGAGAATCGTGGATGCCGTCATGTCCGAGGAAACGTTCGAGCGCCCGGGCGATTTTAATCTAGCCGAATACTGGGAGGAGTCGCTGGCACGGTTCATGCAAAATCTCCCCCAGTATCCCGCACAGATTCGCATGACCGTCGATCTGATCAAACGCTTTGAGCGGGAGCGGTACGTAAAAATACTCCGATGCGATATGGATAGCCAGCACGACGGGTGGATAACGGCCGATTTGGAGTTCAACACCCTGGAATCGGCTTCGGCATTTCTTCTAAGCTGCGGGGCGGAAATCGAGGTGATGGCCCCCCAAGAGCTTAGGGAGCATGTCAGCATGGCGGCAAATGCCATATCGCGGCTATATGAATAG	MRADRLLSIMLMLQNGGKKNTRYLAEQLEVSERTIIRDMESLSSAGIPVYAERGSQGGWVLEESYRTNLTGMTPDELISLLVSSHSPLIGDLGIRKQFDAAYQKLLASSPRSIRQDAEIIREKIHIDGAGWHSYRESHPYLTVLQEALWLDRTIDIQYMKGEERVERRIHPLGLVAKRSTWYVVAESQGELRTYRVSRIVDAVMSEETFERPGDFNLAEYWEESLARFMQNLPQYPAQIRMTVDLIKRFERERYVKILRCDMDSQHDGWITADLEFNTLESASAFLLSCGAEIEVMAPQELREHVSMAANAISRLYE				NA	NA	NA	NA	NA
AK002_00941	894			hypothetical protein	ATGAGTAAGAATGATCCAAAGCCATTGCAAGGAAAAATCGCCGTCGTGGCCGGAGCGACCCGGGGAGCAGGCCGCGCCATTGCGGTGATGCTGGGTGCCGCGGGGGCAACGGTGTATTGCACGGGACGGAGCGTACGCGGCCAAGCGTCGGATATCAAGCGGACGGAGACCATTGACGACACGGCGGAGATGGTGACGGACCGGGGAGGCAACGGCATTCCCGTGCAATGCGACCATACCGTGGAAGAGCAAGTGAAAACGTTGTTTGATCGCATTCGCGAGGAGCAGCAAGGCCGGCTGGACATCCTCGTCAATGATATATGGGGCGGCGAGAACTTGACGCACTGGAATATTCCGTTCTGGGAGCAATTTCTGTCCGATGGACTGCTGATGCAGGAGCGGGCAGTGACAACGCATATGATCACGAGTTATTACGGCGTTCCGCTGATGGTGGAGAACGGCAGCGGATTGGTCATTGAGGTCACGGACGGCTCGACGTACCGGTATCGCGGGAATTTGTATTACAGCCTGGCAAAAATTTCGGCGATTCATCTGGCGGCAGCCATGGCGGAAGAGCTGCGTCCCTATCAGGTAACCGCACTATCCGTGACGCCGGGATTTCTGCGCTCGGAGCAAATGCTGGATCACTTCGGCGTTACGGAAGAAAATTGGCGGGATGCCACGGCACAAGAACCGCATTTCATCGAATCGGAGACTCCATATTTTCTTGGGCAGGCGGTTGCGGCGCTGGCAGCCGATCCGAATGTTGCCGACAAGAGCGGGAAGGCGCTGACCAGCTGGGACCTATCGGATGAATACGGGTTTAGCGACATTGACGGGCGTAAGCCGCATTGGGGCAATTACGCCAAGAAGCAGGGACTTCCCATTACTTAA	MSKNDPKPLQGKIAVVAGATRGAGRAIAVMLGAAGATVYCTGRSVRGQASDIKRTETIDDTAEMVTDRGGNGIPVQCDHTVEEQVKTLFDRIREEQQGRLDILVNDIWGGENLTHWNIPFWEQFLSDGLLMQERAVTTHMITSYYGVPLMVENGSGLVIEVTDGSTYRYRGNLYYSLAKISAIHLAAAMAEELRPYQVTALSVTPGFLRSEQMLDHFGVTEENWRDATAQEPHFIESETPYFLGQAVAALAADPNVADKSGKALTSWDLSDEYGFSDIDGRKPHWGNYAKKQGLPIT				NA	NA	NA	NA	NA
AK002_00942	258			hypothetical protein	ATGAGTTTTCTTTGGTCATTAATCGTTGGCGGTATCATTGGATGGATTGCTGGTTTGATTATGGGCAGAGACATCCCCGGCGGTATCATCGGTAACATCATTGCTGGTTTCGTCGGTGCTTGGCTGGGCGGACTTCTGCTCGGATCCTGGGGACCTGAAATGGGTGGATTCTACATCCTGCCTGCGTTGATCGGTGCCGTCATTCTGGTCTTTATCGTCAGCCTGATCATGGGTTCGATGAGACGCGGCCGCTCATAA	MSFLWSLIVGGIIGWIAGLIMGRDIPGGIIGNIIAGFVGAWLGGLLLGSWGPEMGGFYILPALIGAVILVFIVSLIMGSMRRGRS				NA	NA	NA	NA	NA
AK002_00943	744			hypothetical protein	ATGGGACTCATGATAGAAAAATGGACAGAAGACTATACAATTCAATCCGTTGACGCAGACTTTAAGGGAGACTGCCGATGGTCTTCGCTGCTCAGTATTTTGCAGAGAGCGGCTGACCGGCATATTGAGGCGCTGGGGATCAGCCGCGAGGAAATGATCGAGCGTGGCATGGGCTGGATGCTGATTACGCTGGAGCTTGAGATGCGGCGGATGCCAAGGGATATGGAAACCGTATATGTGGACACCTGGAGCCGCGGGTCCAAAGGGGCGCTGTGGCATCGGGATTATCGGATCAAGAACGGCGATGGGGAATTTCTTGGCGAGGGCCGCTCGGTATGGGCGCTGGTGGACATTCATAAACGGAAAATTCTGCGTCCGTCCATGTTTCCGTACGAGGTGCCGATCGGTCAGGAAACGGTTGGAGAGCTGCCAAGCAAAGCCGTATTGCCGGAAGGGGTACAGCTTGATGATGCGTATACGTATACGGTCCGGTATAGCGGAATCGATACGAACGGCCATCTGAATAACGCCCGGTATGCGGATTTGTGCTTTGACGTGCTGGATGAGCAGGAACTTCGGGAAGGGCAAGTGACCGGCTTCAAGATTACATACCATAACGAGGCCAGACTGAAGGATACGATGCTGATCAAGCGTTCGGCCGAGGAGAACAATCGGGTGTACGTGCAGGGCACATCGCCGGACGGAACCAACTTTTTTGAAGCGGCTATCGTTAGGGAATCATAA	MGLMIEKWTEDYTIQSVDADFKGDCRWSSLLSILQRAADRHIEALGISREEMIERGMGWMLITLELEMRRMPRDMETVYVDTWSRGSKGALWHRDYRIKNGDGEFLGEGRSVWALVDIHKRKILRPSMFPYEVPIGQETVGELPSKAVLPEGVQLDDAYTYTVRYSGIDTNGHLNNARYADLCFDVLDEQELREGQVTGFKITYHNEARLKDTMLIKRSAEENNRVYVQGTSPDGTNFFEAAIVRES				NA	NA	NA	NA	NA
AK002_00944	693	graR_2	COG0745	Response regulator protein GraR	ATGTACAAAATCATGATCGTTGAGGATGACCCCAAGCTGGCGGGGCTGCTGCAATCGCATATTGAACGGTACGGAAATGAAGGGAACATCGTCGAGGATTTCGATCATGTGCTGGAACAGTTCCATGAGATGAAACCGCATCTCGTTCTGCTCGACGTGAACCTGCCAAGCTTTGACGGATATTATTGGTGCCGCCAGATCCGGTCGGTATCGACCTGCCCGATTATTTTCATCTCGGCCCGTAACGGGACGCCGGATCAGCTCCGGGCCTTGGAGAACGGCGCGGATGATTATATCACCAAGCCGTTTGCTTACGATATCGTCATCGCCAAAATCCACAGCCAGCTGCGTCGCGTATACGGCGACTATGCGGCAGCATCCGCTGAGCGTACGGTGGAGAGGGACGGGCTTGTCCTCTACCCAGAACGGATGGAGCTGACTCTTCACGATCAGACATCCGTGCTCACGAAAAAAGAAACGATCCTTCTGGAAACGCTGCTGAGCCGGAGCCCCCGGCTTGTGACGCGCGAGACGATTCTGGAGAAGCTTTGGGACGATACGTTCGTGGACGATAATACGCTTAGCGTGAATATTAACCGGGTGCGGAAACGACTGGGGGAGTTAGGGATTGAGAATGCGCTGGAAACGATTCGCGGTTCGGGGTACAGGCTGCATACGTCATGGAAGAGGTAG	MYKIMIVEDDPKLAGLLQSHIERYGNEGNIVEDFDHVLEQFHEMKPHLVLLDVNLPSFDGYYWCRQIRSVSTCPIIFISARNGTPDQLRALENGADDYITKPFAYDIVIAKIHSQLRRVYGDYAAASAERTVERDGLVLYPERMELTLHDQTSVLTKKETILLETLLSRSPRLVTRETILEKLWDDTFVDDNTLSVNINRVRKRLGELGIENALETIRGSGYRLHTSWKR	PGPT0027850_177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027850-yxdJ-K11634	NA	NA
AK002_00945	987	graS_2		Sensor histidine kinase GraS	ATGAAAAAGCTGTTTTGGCGTGAGCATCTGCCCCTCATTCTGTTTGTAACCGCGGCCTTGTTCGTTGTGCTGCTCGTATTCTGGTATGACGGCTATGATCATCCGGTGACAGCGGCTTATGCTGTTTTCCTCGGTCTGACCATTCTGGGCGGGTACCTGGCATTCCGGTATTTCACGCACCGGGATTTCTATGAGCGGCTGTCGCAGCCCATCAGGTCGTTGGAGGAATCGATCAAGCATAACGAGTCTGCCCCGCTGCCTACGGCCCTTAGCGAGCTTATGGAGGAGCAGTACCGTCAATACCGCACGGTCATGGAAGAGTGGGAGCGCCGGCGGAAAGAGCATATGATCTTCATGAATCAGTGGGTGCACCAGATGAAAACGCCGCTGTCCGTCATTGAGATGATCACGCAGGAGGATGACAACGACGCCTTCAAGAGTTTATCCGAGGAGTCCGACCGGATTCGGCGCGGGCTGGAGATGGTGCTCTACATGTCCAGGCTCGAAACCTTCGAGCAGGATTTCAGCGTGGAGCCCGTGAAGCTTCATAAGGCGGCAGTCGAGGCGGTGCACGAGAACAAGCGTTATTTCATTCACAGTCATGTGTATCCGGAGGTGCGGATCGATTCGGATCTCACCGTTCAGACGGATGCCAAATGGCTCCGGTTCATCATGCTGCAGATGCTGTCCAACGCCATTAAATATTCTGCGGGAACCGGGCTTAAGGTGACGATGCAGGCCCGCCGGACGGAGGACCACCGCCATGTGGTGCTGGAGATCACGGACCGGGGGATGGGCATACCGCCATCCGACTTGAAGCGGGTGTTCGACCCGTTCTACACCGGGGAAAACGGCCGCAAGCTGAAGGAATCCACCGGCATGGGCTTGTATCTCGTCAAAGAAGTGGTCCATAAAATGAACCACCAAATCGAGCTGGAATCCGAGCCGGGAAGAGGAACGACGGTGAGGCTGATTTTCTCGGGGTGA	MKKLFWREHLPLILFVTAALFVVLLVFWYDGYDHPVTAAYAVFLGLTILGGYLAFRYFTHRDFYERLSQPIRSLEESIKHNESAPLPTALSELMEEQYRQYRTVMEEWERRRKEHMIFMNQWVHQMKTPLSVIEMITQEDDNDAFKSLSEESDRIRRGLEMVLYMSRLETFEQDFSVEPVKLHKAAVEAVHENKRYFIHSHVYPEVRIDSDLTVQTDAKWLRFIMLQMLSNAIKYSAGTGLKVTMQARRTEDHRHVVLEITDRGMGIPPSDLKRVFDPFYTGENGRKLKESTGMGLYLVKEVVHKMNHQIELESEPGRGTTVRLIFSG	PGPT0027855_164	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027855-yxdK-K11633	NA	NA
AK002_00946	771	yxdL_2	COG1136	ABC transporter ATP-binding protein YxdL	ATGGAAATACTAAACGTGCGCAATCTGGGCAAAGTCTATAAGGCCGCGGTGTCCCACGAGGCGCTTTCCAATATCAATCTGAGCATCAACCAAGGGGAATTCGTCGGCATCATGGGCCCCTCCGGCAGCGGAAAAACGACGCTGCTCAACATGATCTCCACCATCGACCGACCTACGTCCGGAGAGATCACCATCGGCGGGGAGGATCCGTTCCGATTATCCCAGGATAAACTCGCCATGTTCCGCCGGCGTGAGCTGGGGTTTGTCTTTCAGTCCTTCAACCTGCTGAATACATTGACGGTGAAGGAGAACATCCTGCTCCCCTTGGCGCTGGACGGCGTGGATCTGGATGAGATGAACCGCCGGGTCGGCATTTTGGCCGATAAACTGGGCATCACGTCGATACTGGATAAGCGGACTTATGAAATATCGGGGGGACAGGCGCAGCGGACGGCGATAGCACGGGCCATGATCCACGTACCGAAGCTGGTTCTGGCCGATGAGCCGACAGGCAACCTGGACTCCAAGTCGGCCCGCGACGTCATGGAAATGATGGACCGGAGAAACAAGGAAGACCAAGTGACGATGCTGCTGGTCACCCATGACCCGGTGGCAGCAAGCTATTGCAATCGGGTGGTGTTTATCAAGGACGGACAGTTGTACAACGAAATCACGTACGGCGAGAGCCAGTCGGCCTTCTACCAAAAAATCATCAACGTGTTATCGCTGCTGGGAGGTTCGGGACATGAATTTTCGCCAGTTCGCCATTAA	MEILNVRNLGKVYKAAVSHEALSNINLSINQGEFVGIMGPSGSGKTTLLNMISTIDRPTSGEITIGGEDPFRLSQDKLAMFRRRELGFVFQSFNLLNTLTVKENILLPLALDGVDLDEMNRRVGILADKLGITSILDKRTYEISGGQAQRTAIARAMIHVPKLVLADEPTGNLDSKSARDVMEMMDRRNKEDQVTMLLVTHDPVAASYCNRVVFIKDGQLYNEITYGESQSAFYQKIINVLSLLGGSGHEFSPVRH	PGPT0013345_2533	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_00947	1929	yxdM_2		ABC transporter permease protein YxdM	ATGAATTTTCGCCAGTTCGCCATTAACAACGTCCTGCGCAGCAAGCGCACGTATATTGCCCATTTCCTGAGCAGTGCCTTCTCCGTCATGATTTTCTTTACTTACGGGCTGCTGTCGTTTCACCCGCAGCTGAAGGACGGCCTGGTCTCCTCAAGCGGTACCATGTCCATGCTGGGCACGATGGGCATGACGGTATCCCAGTATATCGTGTTCGTGTTTTCATTTTTCTTCCTGCTGTATTCGGTGGGGGCCTTCATCAAGGTCCGGAAAAAGGAGTTCGGCATTCTGCTGATCCTCGGCATGTCCCGCAAGCAATTGAACCGGATGCTGTTCATCGAGAATATCCTGATTGGCGCTGCGGCGATCGTTGTCGGCATCGGCACGGGCCTGCTGTTCTCCAAGCTGATTCTGCTAATCAGCGCCAAGCTGCTGGCCGTGGATACCGGACTTCCGTTTTATTTTCCGCTCCAATCGCTGATCATTACGGCTGCGGCTTATGCCGTATTGTTCCTGCTGATTGCGCTGTTCTCCTCGTTTATGCTGCGTAAGGGCACGCTGCTCGCCCTTGTGAAAGCAGAGGAAAGCCCCAAGCCGCAGCCGAAAGCATCGGCTTGGCTGGCCGTGCTGGCAGTCCTGCTGATCGGAACCGGATACGGCATGGTCATGGCTTTTGCCATTCTCCAAATCTTCAATTTATTCCTGCTGCTTGGCGGCGTTATTTTCGTCATTATCGGCACGTATTTTCTCTTCACCCAGTTCAGCGTGTTTTTCATGCGGTATCTGCAGAAGAAAGAGCGGTTCTTCTTCCGCCGAACCAATCTGCTGACGATCTCGGAGCTGCTGTACAGAATCAAGGACAATGCGGTGATGTTCTTCCTCGTATCGGTCATTTCGGCATCTGCCTTTACCGGGATCGGTACCACGCTCGCGATCGGGGATCCGGGACTGTCGGCCATGGAGAACCCTTATGCCTTTACGTATTCCATGTATGAAGAGGATGCGGACAGAGGGAATCGACATCTGGATATCATCAGGGAGGAGCTCAGAAAGAGCGGATTCGATTACAAGGAAGCGGAGGTTACCCCGATTTTCTCGGATAACGGGGTGAAGCTGATTAAGCTGAGCGAATATAACAGTCTCATTCAGTCGCTGGGTTACCCGGCAGAAACATTGAGCGATCTTGAAGGGATCTTGACTCCGGGAACGGTAACGGAGAAGAACAGCTACCGAATTGATGGTCCCTTGAATGATCAGTTCGAAGTATTAATCGGCAAGAAATCGGAAACCGTAAAAGTGCTCAAAGCTGAAACGTTCATTGCTGTACCGGCAACCTACGGCGAGACGCTGGTCGTATCCGACCGTTTGTACGAGGATGCGTTCCAGGCACAACAGGATCAGGAGTACGGTTATGCGGCATACCATACGTATTACGTACAGGATTGGAAGAATACAGGGGATGTGTCTAGATCGATTTTGGATCGTCTCAAAAAGAATGAAGACTACAGCTATTATCTAAAATCATTGTATTTGGATTGGAAAAGCGCCCAGCAGCAGAACGGGATCCTGCTTATGGTGAGCGGCTTGGTCGGCATCGTGTTTTTCACCTTCGCGGCAAGCTTTGTTTATTTCCGGCTATACGCGGATCTTGCCCGGGATGAACAGCAGTATCGCATGATAGCCAAGGTCGGTCTCAGCAAAAAAGAGCTTGGCACCATCATTACCAAGCAGCTTGTCATTATGTTCTTTCTGCCGATGCTGATTGCACTTATTCACAGCGGCGTTGCCTTCGTAGCCCTGCAGCAGCTGGTAGACTTCTCGATCGTAGGGCACAGTTTGAAGATTTTCATCTTCTTCCTGAGCATACAGATCATTTATTTCTTTATTACTCGCTGGCGTTATCTGGAGCGTCTCAACAAAATGATTCAGTAA	MNFRQFAINNVLRSKRTYIAHFLSSAFSVMIFFTYGLLSFHPQLKDGLVSSSGTMSMLGTMGMTVSQYIVFVFSFFFLLYSVGAFIKVRKKEFGILLILGMSRKQLNRMLFIENILIGAAAIVVGIGTGLLFSKLILLISAKLLAVDTGLPFYFPLQSLIITAAAYAVLFLLIALFSSFMLRKGTLLALVKAEESPKPQPKASAWLAVLAVLLIGTGYGMVMAFAILQIFNLFLLLGGVIFVIIGTYFLFTQFSVFFMRYLQKKERFFFRRTNLLTISELLYRIKDNAVMFFLVSVISASAFTGIGTTLAIGDPGLSAMENPYAFTYSMYEEDADRGNRHLDIIREELRKSGFDYKEAEVTPIFSDNGVKLIKLSEYNSLIQSLGYPAETLSDLEGILTPGTVTEKNSYRIDGPLNDQFEVLIGKKSETVKVLKAETFIAVPATYGETLVVSDRLYEDAFQAQQDQEYGYAAYHTYYVQDWKNTGDVSRSILDRLKKNEDYSYYLKSLYLDWKSAQQQNGILLMVSGLVGIVFFTFAASFVYFRLYADLARDEQQYRMIAKVGLSKKELGTIITKQLVIMFFLPMLIALIHSGVAFVALQQLVDFSIVGHSLKIFIFFLSIQIIYFFITRWRYLERLNKMIQ	PGPT0027860_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027860-yxdL-K11636	NA	NA
AK002_00948	822	yflN_2	COG0491	putative metallo-hydrolase YflN	ATGAATGACCACAGCATGTTAAAGACGGGGGTAGTAGAGCCCGAGGAGATTACGCCGGATATTCTATCCTTGCGTACCGTCATGGTGAACATCCAGATGGTCGGTACGCCGGGAACCGGTGACTGGGTACTGATTGATACGGGACTCGGAAATTTCGAAGGCTCCATAGTAGAAGAAGCTGAGAAAAGATTCGGAAAGCCGCCGGTTTGCATCGTGCTTTCGCACGGCCATTTCGACCATGTGGGCAATGTAAAGGAGTTGGCCGATCGCTGGAACGTCCCCGTCTATGCTCATCGGGATGAGCTGCCGTACCTCACGGGAAAGGAAGACTATCCACCGGGAGATCCAAGCGTAGGCGGCGGATTGATGGCCCGCGTAGCTCCCATGTATCCGAATAAAGCCATCGATCTGGGATCGAGGATACGACCGCTGCCGGAGGACGGAAGCGTCCCCGGTCTTCCCGAATTCAAATGGATCCCGACACCGGGTCATAGCCCAGGCCATATCTCCCTTTTTCGTGAACGGGATCGAGTCCTCGTGGCCGGAGACGCGGTCATTACGGTGAAGCAAGAGTCAGCGCTTGCCGTCATCGGGCAGGAGAAGGAGCTGCACGGGCCGCCGATGTATTTTACCCCGGACTGGGATCTGGCGCGTGAATCGGTTCGCCGCCTGGCAAGCCTGAATCCTGGAATTCTGGTCACGGGGCACGGGGTCTCCATGCGCGGCGAAGAGCTAACAGCTTCGCTTGCGCGGTTGGCCCGGGACTTTGACCGTTTGGCCGTTCCCGAGCAAGGACGATATGTGGATAAGGGTACGAATTGA	MNDHSMLKTGVVEPEEITPDILSLRTVMVNIQMVGTPGTGDWVLIDTGLGNFEGSIVEEAEKRFGKPPVCIVLSHGHFDHVGNVKELADRWNVPVYAHRDELPYLTGKEDYPPGDPSVGGGLMARVAPMYPNKAIDLGSRIRPLPEDGSVPGLPEFKWIPTPGHSPGHISLFRERDRVLVAGDAVITVKQESALAVIGQEKELHGPPMYFTPDWDLARESVRRLASLNPGILVTGHGVSMRGEELTASLARLARDFDRLAVPEQGRYVDKGTN				NA	NA	NA	NA	NA
AK002_00949	654			hypothetical protein	TTGAACAAGAAATCCAATATAGAGCGCGATGTTCAGCTTGCCAAGCGTGGGGATCGGGAAGCCTTTAGCCGGCTGATCCACGCTTGCGAGCGTAATTTGTATGGACTAGCCCGCTTGTATCTGAAGCGGGAAGAGGATTGCGCGGATGCGGTACAGGAAGCGATGTATAAATCCTTCATCGCTATCCCTACCTTGAAAGAGCCTGCTTATTTCAAAACATGGCTGTCCCGTATTCTCATTCATGAATGCCTGCAACTGCTGCGCTCCCAGCAGCGGCTGCGCAAGGTTGATCCTACGGATGGGGGTGCCGATGCACTGCCGTATGAAGCGATCGAACTTAACGAGGCCGTGACTTATCTGGAAGAGGATTTACGCAGGGTTATTCAGCTTCACTATTACCGGGATATGCCGATTAGCCATATCGTCAAGATCGTAGGGATACCGGAAGGAACGGTGAAATCCCGGCTGTACCGGGCGCGCGCTATTTTGGCGGAAAGATTGGATCCCTCCACGGAAAGGAACGTGAGCCATGACCCGATAGTAGGTAAGGAGTCGAGTCGGAATGACTTTGCTCCTATCATAATAATGATCCGGACGGCTAGGTTTGTCGGGGATTACGATATCATTTACAGATCATGGGGTGTTGCGGCTTAA	MNKKSNIERDVQLAKRGDREAFSRLIHACERNLYGLARLYLKREEDCADAVQEAMYKSFIAIPTLKEPAYFKTWLSRILIHECLQLLRSQQRLRKVDPTDGGADALPYEAIELNEAVTYLEEDLRRVIQLHYYRDMPISHIVKIVGIPEGTVKSRLYRARAILAERLDPSTERNVSHDPIVGKESSRNDFAPIIIMIRTARFVGDYDIIYRSWGVAA	PGPT0014960_10339	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_00950	453			hypothetical protein	ATGGGAACGAATGCGAATGTCAGATGGATGGACGAATCCGATCTTGAAGCATGCTCGGAGCTGATGCTCAAGGTATTTAACGGCGAACCCTGGTTCGACCAGTGGGACTCCGTGTCGCATGTGCAGCAATACCTCAAGGAATTTATGGACAATCCGGTGTTCCTGGGTTTTGTTATCGAACAGGAGGGCAGCATCCTGGGAGCCTCCTTTGGCCATACAAAGAGCTGGTACAGCGGCAAAGAGTACCATATCCAGGAATATTTCATCGATACCGGTTTGCAGCGCAGCGGTCTAGGCTCGGCGCTCATGAATGGAATGAAGGCATACTTACATTCAATGAACATTCATTGCATGGTACTGCTGACGGGAAAGGGGCTTCCGGCCGAAGATTTTTATCGGAAGCATGGTTTTGAAGTGAAGCAGGACATTATTTTTATGTCCAACAGGTTTTGA	MGTNANVRWMDESDLEACSELMLKVFNGEPWFDQWDSVSHVQQYLKEFMDNPVFLGFVIEQEGSILGASFGHTKSWYSGKEYHIQEYFIDTGLQRSGLGSALMNGMKAYLHSMNIHCMVLLTGKGLPAEDFYRKHGFEVKQDIIFMSNRF	PGPT0028630_76	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028630-aac6_I-K18815	NA	NA
AK002_00951	1167	bpsA		N(4)-bis(aminopropyl)spermidine synthase	ATGATCCATTATATAGAAGAAGTAAAAAAGAAGGTTTCCCTGCAGGAAGGTACCCAGGTGATCGAACAGCTGCTGGCAGCAAGTTATATGCGCCCGGGCATATCCACCAAAGATCTGGCACGCCATACCTGTCTGCCGCTTCCGGTCGCTGCCGCGATCAAGAAGGAGCTCATCAAAGCCGGAGCACTCGTTCAAGAGCGGGGAGTGCGATGCACCTCTGCCGGAAAGCTTTATGTCGAACAAAAGCTGGGATACGGAGGCATCGATATCGATTTGTATCAAAAGCTGCTGGCCGGCGAAGCCGATTGGCGGACGGAGCTTTCCGATGTGCTGGCGAGGCTCACGGAGATTCTGGACCGGCGCCCGCAGGTCGATGTTCAAATCGACCAATCCCAATGCACGGTCGAGACGAGTCTCCGGAGGGCGATTCTGTGCCTGAGGGAGCACAGCCTGATCGGGAAAAACATCCTGTGCGTGGGCGACGACGATCTCGTGAGCATTTCGCTTGGCCTGCTGCTGAAACGGCTCTTCCCGAACGCGAAGGAGCAGAGAGCGGGCCTTACCGTGATGGATATCGATGAACGCTTCCTGCAGTTTATCGGTGACATGGCTGCAAGGGAAGATGTATCGGTTACCTGCAGGCATGTTGACCTCAGGCAGCCTCTGCCAGAGGGCTGGAAAGGGCAACACGATTGCTTTTTTACGGATCCGCCGTACACGCTTCAAGGCTTGACCTTGTTCTTGTCCCGTGGCATCAACGCGTTGAAGCCCGAGAAGGGCTGCCCCATCTTCCTATCCTTCGCACATAAATCACCCGACTTCACATGGTCCATGCAGCGCGAATTCGTCCGCATGGGGTTGTCGGTCAGACAGGTGCAACTTCATTTCAATCAATATATCGGAGCGCAGATGATCGGCAATAGCAGCCAAATGATCGTGCTGACAACGACGGAATATACGGAGCCGCCGATTAAGGGCTCTTTTGAGGATGAGCTTTATACAGGCGAGGTTCGGCGGACGATCCGAACCTACCGATGCACCCAATGCCAGAGCGAGCTGCAGGTGGGCGTGCAGGGCGATTTTGCCACGATCGAGGATTTGAAGAAGCAGGGCTGTCCGGCATGTGCCCATCATGCGTTCACCCGGCTGGCGAAGAAAATGATCTGA	MIHYIEEVKKKVSLQEGTQVIEQLLAASYMRPGISTKDLARHTCLPLPVAAAIKKELIKAGALVQERGVRCTSAGKLYVEQKLGYGGIDIDLYQKLLAGEADWRTELSDVLARLTEILDRRPQVDVQIDQSQCTVETSLRRAILCLREHSLIGKNILCVGDDDLVSISLGLLLKRLFPNAKEQRAGLTVMDIDERFLQFIGDMAAREDVSVTCRHVDLRQPLPEGWKGQHDCFFTDPPYTLQGLTLFLSRGINALKPEKGCPIFLSFAHKSPDFTWSMQREFVRMGLSVRQVQLHFNQYIGAQMIGNSSQMIVLTTTEYTEPPIKGSFEDELYTGEVRRTIRTYRCTQCQSELQVGVQGDFATIEDLKKQGCPACAHHAFTRLAKKMI				NA	NA	NA	NA	NA
AK002_00952	2247	topB_1		DNA topoisomerase 3	ATGTGCCCATCATGCGTTCACCCGGCTGGCGAAGAAAATGATCTGATTCGTTTTTGTGGAAACAATCGCTGGGAGGTTATAATAGGGGAACAGAGGAAGGGGAGGGCTATGAAAGTATTAGTATTGGCTGAGAAGCCGTCCGTTGCGAAGGAAATTGCGAGAGTGATGGGCAGCCGCGAGAAGCAGAAGAATTATTTTGAAGGACCGAAATATATTGTGACCTGGGCGCTTGGACATTTGGTGGGGCTTGCCGAACCCGAGGACTATGATAAGAAGTACCAGACCTGGGCGCTGGAGGATCTGCCGATCCTGCCGGACAACACGAGGCTTAAGGTGCTGAAGGAAACAAGCCACCAGTTCAAGACGGTGCAGCATCTGATGAAGCGTTCGGATGTCGGCGAGATGATCATTGCCACCGATGCCGCCCGCGAAGGGGAACTGCTTGCGCGCTGGATCCTGAAAATGGCGAAGTGGAACAAGCCGTTCAAACGGTTATGGATTTCTTCCCAGACGGATAAGGCAATCAAGGAAGGTTTCGCTTCCCTCAAGCCGGGGCAGCAGTTCGACCGGCTGTACGAGTCCGCGCGCTGCCGGGCGGAAGCGGATTGGATGGTTGGACTGAACGTGACGCGCGCGCTGACGACCAAATTCAATGCGCAGCTGTCCGCAGGCCGGGTCCAGACGCCGACGCTCGGGATGATCATGGACCGCGAGAAGGAGATCGTGAATTTCCGCTCCCAGGAATACGAGACGCTGCAGGCCGATCTCGGAAGCTTTGAGGTTTCGTGGCGTCCGGCCGGCGGGGACGGCCGTTTATTCGAGAAGGACAAGGCCGCCAAGCTGAAGCAGAAGCTGGAGGGCAGCACCGGAAAAATCGTGAGCGTGAAAAAGAGCGAGAAAACCGAACCGCATCCGCTGGCATACGATTTGACCGAGCTGCAGCGGGAAGCCAACCGCCGATTCGGGTTCTCGGCCAAGCAGACCTCGAATGTGCTGCAGCGCCTGTATGAGCAGCATAAGCTGGTCACCTATCCGCGCACGGACAGCCGTTACCTGACGTCCGATATGGTCGGGACGTTGAAGGAAAGGCTGTCGAGCATTGCGATCGGACCGTATGCGTCCATTGCGCGCCCGCTGCTGCGCAAAAATTTGTCGCCAGGCAAACGGGTCGTGGACGACAGCAAGGTTACGGATCACCATGCCATCATTCCTACCGAACAGACCGTGCTGCTGAATCAGCTGTCGGTCGATGAACGCAAGCTGTACGATCTCATCGTGCGCCGGTTCATCAGCTTATTCTATCCGCCTGCCCGTTACGATAACGTATCGGTAACCGTGCAGATTGAAGGCGAGCAGCTCTATGCGAAAGGGACCACGATCAAGGACAGCGGATGGCGCGAGGTGTACGGCGGCGACTATGAGGATGACACGGATGACGAGAGCGACGAGGATCAGGGCCCATCTTCTTCGGGCAAGCTCCTGCCGGAGCTGAAAGAAGGAGAAGCGGTGAAGGTGGTCCGCTGCGTGCTGAAGCCGGGACGGACTCAGCCGCCGAAGCGTTATAACGAGGCGGCGCTGCTCTCCCAGATGGAGAAGCACGGCCTCGGAACCCCGGCAACCCGCGCCGACATCATCGAGAAGCTGGTCAGCTCCGACACGATCGAACGGCAGGGGCAAACCCTCCATCCGACGGGCAAAGGCAAGCAGCTGATCGAGCTGGTCGCTCCGGAGCTGCGGACGCCGGAGCTTACGGCGCGGTGGGAAGCCGAGCTCGAGCGGATCGCGAAGGGGCAGGGCAAGCCGGAACCGTTCCTGCGCGGCATACGGGATATGACCAAGAAGCTGGTCACGGACGTGAAGGGAAGCGAAGCGGAATACAAGCCTCATAACGTTTCTAACAGCCACTGTCCGGATTGCGGCACAAGGCTGCTCGAGAAGAAGACCAAGCGCGGCAAGCTGCTTGTCTGCCCGAGTGACGATTGCGGGTACAAGCGCTCAGGCGAGAAACGCCTGTCCAACCGCCGTTGTCCGCAGTGCCATAAGAAGATGGAGATGAAGGAAGGCAAGGCAGGGCTGTTCGTGCAGTGCCTTGGCTGCGGCATTACGGAAACGCTGAAGAAGGACGCCAAGCACGTGAACAAACGTGAGGAGCGGAAGCTCGTGCAGCAGTACAGCAAGCAGGAGTCGATCGGTTCCAACCTGGGCGACCTGTTGAAGGCAGCGTTTGAGCAGAAGGGGAAGGAATAG	MCPSCVHPAGEENDLIRFCGNNRWEVIIGEQRKGRAMKVLVLAEKPSVAKEIARVMGSREKQKNYFEGPKYIVTWALGHLVGLAEPEDYDKKYQTWALEDLPILPDNTRLKVLKETSHQFKTVQHLMKRSDVGEMIIATDAAREGELLARWILKMAKWNKPFKRLWISSQTDKAIKEGFASLKPGQQFDRLYESARCRAEADWMVGLNVTRALTTKFNAQLSAGRVQTPTLGMIMDREKEIVNFRSQEYETLQADLGSFEVSWRPAGGDGRLFEKDKAAKLKQKLEGSTGKIVSVKKSEKTEPHPLAYDLTELQREANRRFGFSAKQTSNVLQRLYEQHKLVTYPRTDSRYLTSDMVGTLKERLSSIAIGPYASIARPLLRKNLSPGKRVVDDSKVTDHHAIIPTEQTVLLNQLSVDERKLYDLIVRRFISLFYPPARYDNVSVTVQIEGEQLYAKGTTIKDSGWREVYGGDYEDDTDDESDEDQGPSSSGKLLPELKEGEAVKVVRCVLKPGRTQPPKRYNEAALLSQMEKHGLGTPATRADIIEKLVSSDTIERQGQTLHPTGKGKQLIELVAPELRTPELTARWEAELERIAKGQGKPEPFLRGIRDMTKKLVTDVKGSEAEYKPHNVSNSHCPDCGTRLLEKKTKRGKLLVCPSDDCGYKRSGEKRLSNRRCPQCHKKMEMKEGKAGLFVQCLGCGITETLKKDAKHVNKREERKLVQQYSKQESIGSNLGDLLKAAFEQKGKE				NA	NA	NA	NA	NA
AK002_00953	138			hypothetical protein	ATGCCGAACCATAAAGCGAGAAAGACCGAAAACCAGCAGAACAAATCAAGCATTCTGGAGGAGAGCAAAACCCTCAAGCCGAAAAAGGCTGCAGACTATGTTCCGAGCCTGAACGAAATACCCAAGAACGAATCTTGA	MPNHKARKTENQQNKSSILEESKTLKPKKAADYVPSLNEIPKNES				NA	NA	NA	NA	NA
AK002_00954	264			hypothetical protein	GTGAGACCTGCACTGATCGTTTGGTTTATTTTTATCAATGCGGTAGCCTATCTGGTCATGTCCGAGGATAAGCGGCGTGCCCGGCTGGGACGGGATCGCGTTCCGGAGAGGACGCTTTTTCTGTTGGCCGCCATAGGCGGGGCTTTGGGCGTATGGATCGCGATGTACCGCAAGCGTCATAAGACGAGGCATTTATCATTTAAAGCCGGAGTACCGCTGCTGCTAGTCGTAAACGTTGCATTGTATACGTATTTCTGGGGTTAG	MRPALIVWFIFINAVAYLVMSEDKRRARLGRDRVPERTLFLLAAIGGALGVWIAMYRKRHKTRHLSFKAGVPLLLVVNVALYTYFWG				NA	NA	NA	NA	NA
AK002_00955	435	nhaX_1	COG0589	Stress response protein NhaX	ATGCTTTTTACTAAAATTCTTCTAGCTTACGACGGCTCCAAAGCAGCGAATAAAGCGCTCGGACGTGCGGTGGAACTTGCCAAGGTAACGCCGGGAGCAACGCTGGATGTCATTCATGCTTACGATTTTCCTCGTTTCTTCGTTGGGGAAGGGCTTGCCCCGATTCCAGCTTCACTCAATAAAGATGTTTACGATCTGGCCGTGCAGACGACGGAGGAAATCCGCGAGCGGATCGAGAATTCGGGCGTTAACGGTCAAGTGGAGATGATCCAGGGTCCTCCGGCCGAAGTCATCCTGGAGTATGCGGATCAGAACGGCAGTGACCTGATTGTCATCGGCATCCGCGGCCTTGGCGGCATCCGCGAGTTCGTGCTGGGCAGTGTCAGCCATAACGTGGTGCAGCATGCAACGATTCCGGTACTTGTCGTAAAATAA	MLFTKILLAYDGSKAANKALGRAVELAKVTPGATLDVIHAYDFPRFFVGEGLAPIPASLNKDVYDLAVQTTEEIRERIENSGVNGQVEMIQGPPAEVILEYADQNGSDLIVIGIRGLGGIREFVLGSVSHNVVQHATIPVLVVK				NA	NA	NA	NA	NA
AK002_00956	279			hypothetical protein	ATGGAAATTATACTTCTTATCATCTTGGTCGTTCTGGTCGGTCTTGTGGCTTCCAGCCGAATGACGGCCATAGAGAAGCGAATGAAACGGCAGCAGGCCACATTGAACCAAATCGCAAGCCATTTAGGAATACCCGAGCCGCCGGTGCCTGCGGAAGTCAAACGGCTGCTGCAGGATGGGCAGGATATTAAAGCGATTAAAGCCGTAAGAGAAGAATTGGGATTGTCTTTGGTTGAAGCCAAACAATATGTAGATGCCATCAAGCATGGGGAGCGGTAA	MEIILLIILVVLVGLVASSRMTAIEKRMKRQQATLNQIASHLGIPEPPVPAEVKRLLQDGQDIKAIKAVREELGLSLVEAKQYVDAIKHGER				NA	NA	NA	NA	NA
AK002_00957	612	gpmA_1		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGGCTATCTATTTCGTAAGGCATGGTCAGGACGAAGAAGGGTATCGCGGAGGATGGAGCCAGCGAGGGCTCATCGATGAAGGGATCAGGCAAGCGGAGAAGCTGGGGCAGTACTTGGATGAACACAAGCATGATTTTAATATTCAGCGCATCATTTGCAGCGATCTGCAAAGGGCTTGTCAGACAGCCGCAATCATTGCTGATAAACTTAGCCTGCCCTTGAGCGGCTCCGAGGATTGGCGGGAGACCAATAACGGTCTGCTCGCCGGAATGCCCCACGCATTAGCGGAAAAGAAATTTCCGGGGCTCTATTTTTCCAGCTTACGGATGGACGAGAGATACCCTGGAGGTGAAAGCCCGCAGGAAAATTTCCAGCGGATCAAAGATACCTTCACCAAACTATGCCAGGATCAGGAATCGGCGAATCATCATGAAAATGTATTGGTGGTTACTCACGGGGGAGTGATCAACATCATTTATCATCTAATCAAGGATATGGCATGGACCAATAAGAATCCGTTCTTCCCGGCGGCGAACACCGGGCTGCACCGAATCGAGTCTCGCGACGGGCGATGGGAGCTTACCATGGAGAATGCAACCCCTCATTTGTAA	MAIYFVRHGQDEEGYRGGWSQRGLIDEGIRQAEKLGQYLDEHKHDFNIQRIICSDLQRACQTAAIIADKLSLPLSGSEDWRETNNGLLAGMPHALAEKKFPGLYFSSLRMDERYPGGESPQENFQRIKDTFTKLCQDQESANHHENVLVVTHGGVINIIYHLIKDMAWTNKNPFFPAANTGLHRIESRDGRWELTMENATPHL	PGPT0018035_893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018035-gpmB-K15634	NA	NA
AK002_00958	135			hypothetical protein	ATGCTGCAGCAAAAACTTCCAGGAGACTGCGGCATTAAAAAACGTAGACAACTACTGAACATTAAAGGGCATGAGCTGTTCATGTGGAGCATAGTCGGCGCTGCGCTGACGCTTCGTGATTCCGATCGCTGTTAA	MLQQKLPGDCGIKKRRQLLNIKGHELFMWSIVGAALTLRDSDRC				NA	NA	NA	NA	NA
AK002_00960	462	purE	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGGGAAGCCAATCAGATTGGGATACGATGTCCCATGCATGCCAGGTGCTAGACGAGCTTGAAATTCCTTATGAGAAAAAAGTCGTATCCGCTCACCGGACGCCGGACCTGATGTTCCGTTATGCCGAGGAGGCGGAGGGCCGGGGGCTTCGCGTCATCATCGCCGGAGCCGGCGGAGCCGCTCACCTGCCCGGGATGGTCGCTTCGAAGACGGTACTGCCGGTCATCGGCGTTCCGGTTAAATCCAAAGCGCTGAAGGGTCTGGATTCATTGTTGTCGATCGTGCAGATGCCAGGCGGCATTCCGGTAGCAACCGTAGCGATCGGCAAAGCGGGAGCCACGAACGCGGGGTTGCTCGCAGCGCAAATTCTCGGCACCTCGGATGCAGGAATTCGCGAAAGAGTGCAGGCGCGCCGTGACCGGATCCGGGACGAAGTGCTGGAAAGCAGCGATAACCTATGA	MGSQSDWDTMSHACQVLDELEIPYEKKVVSAHRTPDLMFRYAEEAEGRGLRVIIAGAGGAAHLPGMVASKTVLPVIGVPVKSKALKGLDSLLSIVQMPGGIPVATVAIGKAGATNAGLLAAQILGTSDAGIRERVQARRDRIRDEVLESSDNL	PGPT0021545_3643	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
AK002_00961	1188	purK		N5-carboxyaminoimidazole ribonucleotide synthase	ATGATGGAGAACGGAGCACAGCAGACGCGAGCAACCGGCAGAAAGCTTTTGCCGGGTTCGGTCATTGGCGTACTCGGCGGCGGGCAGCTCGGACGAATGATCGCGCTGGACGGAATCCGGATGGGATATTCGTTCGTCACCCTTGATCCGACGCCGAACTCTCCGCTCGGCCAGATGGCCGAGCAGGTTACGGCCCGTTACGACGACGTCGAGGCTGCCCGGCAGCTCGCGGCGAAAGCCGATGTCATTACCTACGAATTCGAAAATGTCGATGCGGGCGTGGCCCGGCTTCTGGAGGAGCAGTCTTATGTTCCTCAGGGAAGCAAGCTGCTGTACACTACGCAGCACCGCTTGCGCGAGAAGGCCGCGATCGAAGCGGCCGGCGTGCCGGTTGCACCGTATCGTGAAATAACAAGCTTGGAAGATTTGTTGTCCGCCGCCTCCGAACTTGGACTTCCGTGCGTGCTAAAGACCGCCACGGGAGGTTATGATGGTAAAGGGCAAGCGGTTCTCCGCAGCGAAGATGAACTCGAATCGGCTTACAAGGAGCTGGCTGCCAGCGGGACTGAGCTGGTATTGGAGAAGTTCGTCAAGTTCGCATGCGAGATCTCCGTCATTGCGGCGCGTACGCCCAGCGGCATCGTGAAGAGCTTCCCGCCGGCAGAGAACGTGCACGTCAACAATATTTTGCATTTGTCGATTGTGCCCGCGCGCGTGCCGAGCGAAGTCAAGCGCAAAGCATGCAAGCTCGCGGAACGCGTGGCAGAAGGCTTGGGAGCTGTTGGCCTGCTGGCCGTCGAGATGTTTGTGACCGAGGAGGGGGAGCTGTTCGTGAATGAGCTTGCGCCTCGTCCGCATAACTCGGGGCACTACACGATGGAGGCATGCTCCACCTCTCAATTCGAGCAGCATGTGAGAGCGATTTGCGATCTGCCGCTCGGGGACACGACGCTGCTGAGCCCGGTCGTCATGGTGAACCTCCTGGGGCAGCATCTGGAGGAAGCCGTACGGCGTTTTGGAGAGCACGACGCGCTTGCAGAGTCTCTCGGCGTTGTGCCTAAGCTTCATCTTTACGGCAAGAGCGAGGCGAAGGCTAACCGCAAAATGGGACATATCAACCTCTTGTGCGGGGACGTCGATGACGCGCTCGAATGGGTAGAGAAAACTAATATTTGGAGGCAGGATTAA	MMENGAQQTRATGRKLLPGSVIGVLGGGQLGRMIALDGIRMGYSFVTLDPTPNSPLGQMAEQVTARYDDVEAARQLAAKADVITYEFENVDAGVARLLEEQSYVPQGSKLLYTTQHRLREKAAIEAAGVPVAPYREITSLEDLLSAASELGLPCVLKTATGGYDGKGQAVLRSEDELESAYKELAASGTELVLEKFVKFACEISVIAARTPSGIVKSFPPAENVHVNNILHLSIVPARVPSEVKRKACKLAERVAEGLGAVGLLAVEMFVTEEGELFVNELAPRPHNSGHYTMEACSTSQFEQHVRAICDLPLGDTTLLSPVVMVNLLGQHLEEAVRRFGEHDALAESLGVVPKLHLYGKSEAKANRKMGHINLLCGDVDDALEWVEKTNIWRQD	PGPT0021550_639	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
AK002_00962	1296	purB	COG0015	Adenylosuccinate lyase	ATGATTGAACGTTATAGCAGACCGGAAATGCGGGCGATTTGGACCGAGGAGAACAAGTTCAGAGCATGGCTGGAAGTGGAATTGTGCGCATGCGAGGCATGGGCCGACCTTGGCGTCATTCCGAAGGAGGACACCGTTAAGCTTCGCCAGAATGCGACCTTCAATTTAGATCGGATTTATGAAATCGAGCAGGAAACCCGCCATGATGTCATCGCTTTTACCCGTGCGGTGTCGGAAAGCCTTGGCGAGGAGCGCAAATGGGTCCACTACGGCTTGACTTCGACGGATGTGGTGGATACCGCGATGGGATATCTGCTCAAGCAAGCCAACGATATTCTGGAGCAGGACATCCTGCGTTTTATCGGTATTTTGAAAGAGAAGGCACTGGCTTACAAGCATACCCCGATGATGGGCAGAACGCATGGCGTTCATGCAGAGCCGACGACCTTCGGCTTGAAAATGGCGCTGTGGCATGAAGAAATGATCCGCAACCTGGAGCGTTTCCGCCATGCGGCTGACGGCGTGCAGTACGGCAAAATTTCGGGTGCCGTCGGCACGTATGCCAATATCGATCCTTCGGTCGAAGAATTCGTTTGCCGCAAGCTCGGCACGAAAGCGGCGCCGATCTCGACCCAGACGCTGCAGCGTGACCGTCACGCGGAATACATGGCGACGCTTGCCCTTATCGCGACTTCGCTCGAGAAATTCGCTACCGAAGTCCGCGCGCTCCAGAAGAGTGAGGTTCGCGAAGTAGAAGAGGCATTCGCCAAAGGACAAAAGGGTTCCTCCGCGATGCCGCATAAACGGAATCCGATCGGTTCGGAGAACATCTCGGGCCTTGCCCGCGTCATTCGCGGCCACATGGTTTCCGCTTACGAGAACGTATCGCTCTGGCATGAGCGGGACATTTCCCACTCCTCGGTAGAGCGTATCATCCTGCCGGACGCTACGATGCTGCTGAACTACATGCTGAACCGCTTCGGCAACATCGTGAAGAACCTGACGGTCTTCCCGGAGAACATGAAGCGCAACATGGCCCGCACATATGGCGTTCCTTTCTCCGGCCGGATCCTGACGAAGCTGATCGACAAGGGCTTCAGCCGCGAGCAAGCGTACGACACCGTTCAGCCACGCGCCATGCAGGCATGGGAAGAGCAGCGTCAATTCCGCGAGATCGTGGAATCCACGCCTGAGATCACCGAGGTGCTGAGCGCCGAGGAGATCGAAGATGCCTTCAATCCAAGCTGGCACCTGAAGCATGTGGATACGATTTTTGCCAAGCTGGGGCTGGAGTAG	MIERYSRPEMRAIWTEENKFRAWLEVELCACEAWADLGVIPKEDTVKLRQNATFNLDRIYEIEQETRHDVIAFTRAVSESLGEERKWVHYGLTSTDVVDTAMGYLLKQANDILEQDILRFIGILKEKALAYKHTPMMGRTHGVHAEPTTFGLKMALWHEEMIRNLERFRHAADGVQYGKISGAVGTYANIDPSVEEFVCRKLGTKAAPISTQTLQRDRHAEYMATLALIATSLEKFATEVRALQKSEVREVEEAFAKGQKGSSAMPHKRNPIGSENISGLARVIRGHMVSAYENVSLWHERDISHSSVERIILPDATMLLNYMLNRFGNIVKNLTVFPENMKRNMARTYGVPFSGRILTKLIDKGFSREQAYDTVQPRAMQAWEEQRQFREIVESTPEITEVLSAEEIEDAFNPSWHLKHVDTIFAKLGLE	PGPT0021555_5447	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
AK002_00963	891	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGACATTACCGGCATTATCGACCGCCACTCATCTGGTCAACGTACCGCTGCTGTACAAGGGCAAGGTTCGTGAACTGTACGACCTGGGCGAGCACGTACTCATTGTAGTAACCGACCGCATTTCCGCTTTTGACTATGTGCTGGAGCCGCCCGTGCCGGCTAAAGGAACCGTGCTGAACAAGCTGAGCGCCTTCTGGTTCGAACAAACGGAGCAGCTCATCCGCAATCATGTCGTGCATACCGACGTGAACCTGCTGGGCGATGCCGTCAAGGACAAGGACCTGCTGGACGGACGCATCATGGTGTGCCGGAGGGCCGAGCGCATCGATATCGAATGCGTCGTGCGCGGGTACATCACCGGCGGAGGCTGGAGGCAGTATCAGTCCTCGGGCGAGGTCAACGGCATTCAGCTGCCGGAGGGCTTGCGCAAGAACGAGGCTTTTCCGGAGCCGATCTTCACGCCGGCGGCCAAGAACGATGTCGGCCATGACGAGGACATTTCGCTTTCCCGCATGAAGGAGCTTGTCGGCGAAGAGCTGGCATTGCAGCTGCAGGAGAAAAGCCTGATGCTGTACAAGTTTGCCCGCGATTACTGCCGCAAGCACGGCATTATTTTGGCCGATTGCAAGTTTGAGTTTGGATTGATCGACGGAGAGATCGTCCTGATCGACGAGATCTTCACGCCGGATTCCTCCCGTTTCTGGGATGAGAACAATTATGCGCTCGACATTGAGATCGACAGTATGGATAAGGAGCCGGTACGCACGTATCTTGCTTCGTCCGATTGGGATAAGAACAGTGAGCCGGATCCGCTGCCGAAAGCCGTGGTAGAGGAGACAACGCGCCGCTACAGCGATATTTACAGCCGAATCACGGGTGTTAGCCTGTAA	MTLPALSTATHLVNVPLLYKGKVRELYDLGEHVLIVVTDRISAFDYVLEPPVPAKGTVLNKLSAFWFEQTEQLIRNHVVHTDVNLLGDAVKDKDLLDGRIMVCRRAERIDIECVVRGYITGGGWRQYQSSGEVNGIQLPEGLRKNEAFPEPIFTPAAKNDVGHDEDISLSRMKELVGEELALQLQEKSLMLYKFARDYCRKHGIILADCKFEFGLIDGEIVLIDEIFTPDSSRFWDENNYALDIEIDSMDKEPVRTYLASSDWDKNSEPDPLPKAVVEETTRRYSDIYSRITGVSL	PGPT0021565_2026	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
AK002_00964	246	purS	COG1828	Phosphoribosylformylglycinamidine synthase subunit PurS	ATGTTGAAAGCAAAGGTCTACGTCACGATTAAGCAGAGCGTATTGGACCCTCAAGGGGTAGCGGTGCAAGGTGCGCTTCATTCGATAGGGTACAAGGAAGTGGAAAGCCTGCGGATCGGTAAATATATGGAGCTTGAGCTGGGCACGGACAACCGTGAGGAAGCCGAGCAACGAGTGAAAGAAATGTGCGAGAAGCTTCTGGCCAATACGGTGGTAGAGAACTACCGTTATGAATTGGAGGGCTAA	MLKAKVYVTIKQSVLDPQGVAVQGALHSIGYKEVESLRIGKYMELELGTDNREEAEQRVKEMCEKLLANTVVENYRYELEG	PGPT0021725_1379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264	NA	NA
AK002_00965	690	purQ	COG0047	Phosphoribosylformylglycinamidine synthase subunit PurQ	ATGAGATTTGCAGTGCTGGTCTTTCCTGGCTCCAACTGTGACATTGACTGCTATAAGGCGGTAGAAGAGACGATCGGTCAGCCGGTGGATTATGTTTGGCATACGGCAACGGACCTTTCCCCATACGATTGTATTTTGGTGCCGGGCGGATTCTCCTATGGAGATTATCTGCGGTGTGGTGCGATTTCCCGGTTCGCCCCGGTCATGAACGAAGTGGCGAAAGCGGCGGAAGAGGGCAAGTATATTCTGGGCATCTGTAACGGATTTCAGATTTTGACGGAGGCCGGACTCCTTCCGGGAGCCCTGCGGCGCAACGATTCGATGAAATTCCGCTGCCATGACACGGTGCTTAAAGTGAACAATAATACAACGCCGTTTACCCGCGATTACGCGGAGGGACAAGAGATTGTCATTCCGATCGCGCATGGCGAAGGCAACTATTACTGTGATGAAGAAACGCTTCAAAAGCTCCGGGACAACCGGCAAATCGTATTTACGTATCAAGACAATCCGAACGGCTCGATCGAGGATATCGCGGGCATCTGCAACGAGCGCGGCAACGTAATCGGCATGATGCCGCATCCGGAGCGCGCGGTCAGCAGCCTGCTCGGCTCGGATGACGGTAAAGCAATGTTTACATCCATATTACAGGCATGGAGGGATACTCATGGCGCAGCAAACGTCCGTTAA	MRFAVLVFPGSNCDIDCYKAVEETIGQPVDYVWHTATDLSPYDCILVPGGFSYGDYLRCGAISRFAPVMNEVAKAAEEGKYILGICNGFQILTEAGLLPGALRRNDSMKFRCHDTVLKVNNNTTPFTRDYAEGQEIVIPIAHGEGNYYCDEETLQKLRDNRQIVFTYQDNPNGSIEDIAGICNERGNVIGMMPHPERAVSSLLGSDDGKAMFTSILQAWRDTHGAANVR	PGPT0020220_900	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265	NA	NA
AK002_00966	2244	purL	COG0046	Phosphoribosylformylglycinamidine synthase subunit PurL	ATGGCGCAGCAAACGTCCGTTAAGGAACCGACGGCAGAACAGATCGCAGAGCATCAGATTTACAAGCAGATGGGAGTTTCGGACAGCGAGTATGAGCTGATCTGTTCCTTCATGGGACGCAAGCCGAATTACACGGAAATCGGCGTATTCAGCGTCATGTGGTCCGAGCACTGCGCCTACAAAAACTCCAAGCCGCTGCTTCGCCGCTTCCCGACAAGCGGCCCGCGCGTCCTGATGGGACCGGGCGAAGGCGCAGGGATCGTCGATATCGGCGACAACCAAGCGGTCGTATTCAAAATCGAAAGCCATAACCACCCTTCCGCTGTAGAGCCTTACCAAGGCGCAGCTACGGGCGTAGGCGGCATAATCCGCGATATTTTCTCCATGGGGGCTAGACCGGTAGCGATTCTGAACTCGCTTCGTTTCGGCAAGCTGGAGAGCGATCGCGTTAAATATTTGTTCGAACACGTGGTATCCGGCATAGCCGGCTACGGAAACTGCATCGGAATCCCGACGGTAGGCGGCGAGGTGGTATTCGACGAGAGCTACGAAGGCAATCCGCTGGTCAATGCGATGTGCGTAGGCGTTATCGACCATGACAAGATTCAGCGCGGCGTTGCAAAAGGGGTAGGCAATCCGGTCTTCTATGTCGGGCCACCAACTGGCCGCGACGGCATCCATGGCGCGACCTTCGCTTCCGTAGAACTGACGGAGGAATCCGAAGCGAACCGTACGGCCGTTCAGGTCGGCGATCCGTTCATGGAGAAACTCGTGATGGAATCTTGCCTTGAGCTGATCGATTCCGGCATCGTGCTGGGCATTCAGGATATGGGCGCGGCTGGATTGACTTGCTCCAGTGCAGAAATGGCAAGTAAAGCAGGCAATGGTCTGGAGCTGTACCTGGATCAGGTGCCTCAGCGCGAAGAGGGCATGACGCCTTATGAAATGATGCTGTCGGAATCCCAGGAGCGCATGCTGTTCGTCGTTGAGCCGAAGCATGAAGCACAAGCGCGCGAAATCTTCGAGCGTTGGGGCGTTATCTGCGCCAAAGTCGGCAAGGTAACGGACGATGGTCGCCTGAAGCTGATCCACCACGGCGAGGTGGTTGGCGACATGCCGGTTAAAGCGCTCGTCGACGAGTGCCCGATCTATAACAAACCATCCCAAGAACCGGCTTATTATCAAGAGCAGGCTGCGGTGGATACGCTCCGTTATGAAGAAGTGAAGGACTTGGGCGGCGCCCTCAAGAAGGTGCTCGGTTCGCCAAGCCTTGCAAGCAAAGCATGGGTATACAACCAATATGATTATATGGTTCGCACCAGCACGGCCGTTCGTCCGGGCTCGGATGCAGCCGTCGTAACGGTGCACGGAACGCGCAAAGCCCTGGCGATGACAACGGACTGCAACGGACGTTACGTCTACCTCGATCCTGAGCTCGGCGGCAGAATCGCCGTTAGCGAAGCAGCTCGTAATATCGTGTGCTCCGGTGCCGAGCCGCTGGCGATTACGGATAACCTGAACTTCGGAAGCCCGGAGAAGCCGGAAATTTTCTGGCAGATGGAAAAAGCCGTGGACGGCATGGCGGAAGCTTGCCGCGAGCTTGAAACGCCGGTCATCGGCGGGAACGTCAGCCTCTATAACGAGAATGCCAAGGGCGCGATTTATCCGACGCCGGTTGTCGGCATGGTCGGCCTGATCCATGATACGGATCATATTACGACGCAAGCCTTCAAGGCGGAGGGCGATGCCATCTACGTTCTGGGCGATACCCGTGCCGAACTGGGAGGCAGCGAGTTCCAAGCGATCCTGCACGGGGTGTCGGAAGGCAGACCGCCGGAGCTGAACCTGGATACCGAGAAGAAATTGCTCGGCGGCGTACTGAAGGCCATCCAATCGGGTCTGGTCCAATCGGCGCATGACGTGTCGGAGGGCGGACTTGCAGCAGCGCTTGCGGAAAGCTGCATCAGCGGCGGCATCGGCGCGAGCGTGAAATGGGCAACCGATCTGCGCAACGACGTGGCGCTGTTCAGCGAGAGCCAATCCCGGATCGTGCTGTCCGCGTCTCCTGATCACAAGAATGCGCTGGAGAAGCTCCTGCAAGAAGCGGGCGTTCCATTTACCGCGCTTGGCGTAGTCGGCGGAAACAAGCTTAGCATTAACATTAACGGTGCTTCTGCGCTGGAAGAATCCGTGGAGGCTTTGAAATCCGTCTGGGAGGATGCCATTCCATGTCTCATGAACTGA	MAQQTSVKEPTAEQIAEHQIYKQMGVSDSEYELICSFMGRKPNYTEIGVFSVMWSEHCAYKNSKPLLRRFPTSGPRVLMGPGEGAGIVDIGDNQAVVFKIESHNHPSAVEPYQGAATGVGGIIRDIFSMGARPVAILNSLRFGKLESDRVKYLFEHVVSGIAGYGNCIGIPTVGGEVVFDESYEGNPLVNAMCVGVIDHDKIQRGVAKGVGNPVFYVGPPTGRDGIHGATFASVELTEESEANRTAVQVGDPFMEKLVMESCLELIDSGIVLGIQDMGAAGLTCSSAEMASKAGNGLELYLDQVPQREEGMTPYEMMLSESQERMLFVVEPKHEAQAREIFERWGVICAKVGKVTDDGRLKLIHHGEVVGDMPVKALVDECPIYNKPSQEPAYYQEQAAVDTLRYEEVKDLGGALKKVLGSPSLASKAWVYNQYDYMVRTSTAVRPGSDAAVVTVHGTRKALAMTTDCNGRYVYLDPELGGRIAVSEAARNIVCSGAEPLAITDNLNFGSPEKPEIFWQMEKAVDGMAEACRELETPVIGGNVSLYNENAKGAIYPTPVVGMVGLIHDTDHITTQAFKAEGDAIYVLGDTRAELGGSEFQAILHGVSEGRPPELNLDTEKKLLGGVLKAIQSGLVQSAHDVSEGGLAAALAESCISGGIGASVKWATDLRNDVALFSESQSRIVLSASPDHKNALEKLLQEAGVPFTALGVVGGNKLSININGASALEESVEALKSVWEDAIPCLMN	PGPT0021730_979	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
AK002_00967	1479	purF	COG0034	Amidophosphoribosyltransferase	ATGTCTCATGAACTGATACCCGAAGGACTGTGGACAGGGGATTACTACAATGAGGGAACAGGTCAGAGCGATATTTTCGATACCTTAAAAGAAGAGTGCGGCGTATTCGGGGTGTTTGGGCATCCCGATGCCGCCTCCCTTTCCTATTACGGGCTTCACGCCCTCCAGCACCGCGGCGAGGAGAGCGCGGGAATCTGCGTGGCCGACGGCGAGAATTTCAATTATCACCGCGGTATGGGGCTGGTCAAAGAAGTGTTCGATAAAGACAAGCTGGAATCGCTGCAGGGCAGCATGTCGATCGGGCATGTCCGGTATTCGACCAGCGGGGACAGCAGGCTGACGAATGCGCAGCCGCTCGTCTTTAAATATCGTGAGGGCAATCTGGCGATTGCTACGAACGGCAACATCGTGAACGAGCCGAAGCTTCGGCGCGAGCTGGAGATGGAAGGCTCCATTTTCCAGACGACAAGCGATACGGAGGTCATTGCGCATCTGATCGCGCGTTCGCCGAAGGATTTTGTCGAGGCTGCCAAGGATGCCTTGCAGCGCCTGGTGGGTGGTTTTGCGTTTCTGCTCATGACCAATGACAAGCTGCTCGTCGCCTCGGACCCGAACGGACTCCGTCCGCTCACGATGGGTCGTCTGGGCGATGCATACATCTTCACCTCCGAGACCTGTGCGCTTGAAGTTATCGGAGCTGAGGCGATTCGCGACGTCGCTCCCGGGGAGCTGCTGATCCTCGATCGGAACGGACTTCGGGAAGAGCGTTACACGGAAGCGGGACGCAAAGCGTTGTGCGCGATGGAATATATTTATTTTTCCCGTCCGGACAGCGATCTGAACGGCTCCAACCTGCATTCGGCCCGCAAACGGATGGGCAGCAAAATGGCCCTGGAATCGTTCGTGGATGCGGATGTAGTTACGGGCGTACCGGACTCCAGCATCTCGGCCGCCATCGGTTATGCCGAACAGACGGGCATTCCTTACGAGCTGGGATTGATCAAGAATAAATACACGGGCCGGACGTTCATTCAGCCGAGCCAGGAGCTGCGCGAGCAGGGCGTGAAGATGAAGCTGAGCGCGGTACGGCGCGTGGTCGAAGGCAAACGGGTGGTCATGATCGATGATTCCATCGTACGGGGAACCACGTCCCGCCGGATCGTCAACCTGCTTCGCGAAGCGGGCGCGACCGAAGTGCATGTGCGGATTACGTCGCCGCCGTTCAAGAATCCATGCTTCTACGGCATCGATACGCCGGACCGCAGGGAATTAATCGCCTCCGAGAAAAGCGTCGAGGAAATCTGCCGGGAGATCAATGCGGATTCCCTGTCGTTCCTGAGTCCGGAGGGACTGATATCCGCCATTGGCGGTTATGATGAGCACAGCCCTAAAGGCGGCTTGTGCATGGCATGCTTTGATAATGAGTACCCGACGCAGATTGATTTCAACGGGGAAGAGAAGATGGGCTGCAGCTGCTGA	MSHELIPEGLWTGDYYNEGTGQSDIFDTLKEECGVFGVFGHPDAASLSYYGLHALQHRGEESAGICVADGENFNYHRGMGLVKEVFDKDKLESLQGSMSIGHVRYSTSGDSRLTNAQPLVFKYREGNLAIATNGNIVNEPKLRRELEMEGSIFQTTSDTEVIAHLIARSPKDFVEAAKDALQRLVGGFAFLLMTNDKLLVASDPNGLRPLTMGRLGDAYIFTSETCALEVIGAEAIRDVAPGELLILDRNGLREERYTEAGRKALCAMEYIYFSRPDSDLNGSNLHSARKRMGSKMALESFVDADVVTGVPDSSISAAIGYAEQTGIPYELGLIKNKYTGRTFIQPSQELREQGVKMKLSAVRRVVEGKRVVMIDDSIVRGTTSRRIVNLLREAGATEVHVRITSPPFKNPCFYGIDTPDRRELIASEKSVEEICREINADSLSFLSPEGLISAIGGYDEHSPKGGLCMACFDNEYPTQIDFNGEEKMGCSC	PGPT0020225_3335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
AK002_00968	1041	purM	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	GTGTCTGATACTTACAAACAAGCAGGCGTGGATATCGCTGCAGGCAACGAAGCGGTAGAGCGGATGAAAAAGCATGTCAAAACGACTTTCAGGCCGGAAGTCATGACGGACCTCGGTGGTTTTGGCGCACTGTTCAAGCTGAATAAAGACCAATATGAAGAGCCGGTACTCGTCTCAGGCACGGATGGCGTCGGCACAAAGCTGAAGCTTGCATTCGCGATGGACCAACATGATACCATCGGCATCGATGCGGTAGCGATGTGCGTGAACGATATTGTGGTGCAGGGTGCAGAACCGCTCTTTTTTCTCGACTATTTAGCGTGTGACAAGGTCATTCCGTCCAAAATCGAGTCCATTGTCAAAGGGATCGCCGACGGATGCAACCAGGCGGGCTGCTCGCTGATCGGCGGGGAAACGGCGGAGATGCCGGGCATGTACAGCGAAGGCGAGTATGACATCGCGGGCTTCACCGTGGGGATTGTCGACAAAAGCAAAATGATCAACGGGTCGAATATCGCGGCAGGCGACACGGTAATCGGACTGGCCTCCAGCGGCGTGCACAGCAACGGCTTCTCGCTCGTCCGCAAGCTGCTGCTAGAGGATGCCGGCTACTCGCTGCAGCAGGAGCTTCCGGAACTGGGCGGACGTCTTGGCGACGTACTGCTCGCACCAACCAAGATTTATGTGAAGCCGCTGCTCGGGCTGTTGAAAGAGATCGAAGTGAAGGGCATGGCGCATATCACGGGCGGCGGATTCATCGAAAATATTCCGCGCATGCTGCCGGAGGGCGTCAACGTCGACATCGAATACGGCGCTTGGCCGATTCTGCCGATTTTTAAGCTGATGCAGGATAAAGGCAGCATTTCGAACAAGGACATGTTTACGACATTCAATATGGGAATCGGCATGGTGCTTGTCGTCAAGGAGCAGGATGCTGACGGGGCACTTCAATATCTCCGCTCCGCAGGCGAAGAGGCTTATGTGATCGGCCGCGTGACCGAAGGCGAGCGCATCGTAACCTTCACGGGAGCTGAGGTGTAA	MSDTYKQAGVDIAAGNEAVERMKKHVKTTFRPEVMTDLGGFGALFKLNKDQYEEPVLVSGTDGVGTKLKLAFAMDQHDTIGIDAVAMCVNDIVVQGAEPLFFLDYLACDKVIPSKIESIVKGIADGCNQAGCSLIGGETAEMPGMYSEGEYDIAGFTVGIVDKSKMINGSNIAAGDTVIGLASSGVHSNGFSLVRKLLLEDAGYSLQQELPELGGRLGDVLLAPTKIYVKPLLGLLKEIEVKGMAHITGGGFIENIPRMLPEGVNVDIEYGAWPILPIFKLMQDKGSISNKDMFTTFNMGIGMVLVVKEQDADGALQYLRSAGEEAYVIGRVTEGERIVTFTGAEV	PGPT0021570_3201	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
AK002_00969	609	purN		Phosphoribosylglycinamide formyltransferase	ATGAGAGCGTTTCGGATGGCGGTGTTCGCTTCCGGAAGAGGCAGCAACTTTCAGGCTTTGGTCGATGCGCAGCAAAGCGGAGCCCTGGGCGGCGAGATCAGCATTCTGGTATGCGACAAGCCTCAGGCTCCCGTCGTGGAGCTGGCTAAAGCGGCGAATGTGGATGTATTCGCCTTTCAGCCGAAGGAATATGCCTCTAAGGAAGATTACGAACGGGAAATTGCGGCAGAGCTTCAGCAGCGCGGTGTCGAATTGATTGTCCTTGCAGGATATATGCGGCTATTGAGCCCTTCCTTTGTCGAGTTCTATAACGGGCGGATTATCAATATTCATCCTTCGCTCCTGCCTGCTTTTCCAGGCAAAGACGCGATCGGCCAAGCGCTTGCGTATGGCGTCAAGATGACCGGCGTCACGGTGCATTTCGTGGATGGCGGCATGGATACCGGGCCGGTTATCGCTCAGAAGGCCGTTGAAATCAAGGACGGCGATACGGCGGAAACGCTGGCAGAACGCATTCACGCCGTGGAGCAGAAGTTATACTCTGAAGTCGTTTCCTGGTTTGCCGAGGGGCGGATTTCGCTGAACGGGCGGAATGTGACGATTGCCTAA	MRAFRMAVFASGRGSNFQALVDAQQSGALGGEISILVCDKPQAPVVELAKAANVDVFAFQPKEYASKEDYEREIAAELQQRGVELIVLAGYMRLLSPSFVEFYNGRIINIHPSLLPAFPGKDAIGQALAYGVKMTGVTVHFVDGGMDTGPVIAQKAVEIKDGDTAETLAERIHAVEQKLYSEVVSWFAEGRISLNGRNVTIA	PGPT0008095_2798	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
AK002_00970	1548	purH		Bifunctional purine biosynthesis protein PurH	GTGGGTATCAAAAGAGCTTTGGTCAGCGTGTCGGACAAAACCGGCGTCGTGGAATTTTGCCGCGAGTTGTCTTCATTGGGTGTAGAGATCATTTCGACAGGAGGGACGAAGAACCTCCTAGCAAAAGAAGGCGTTCCTGTCATCGGCATTTCCGATGTGACCGGATTCCCGGAAATTCTGGACGGACGCGTCAAAACCCTTCATCCAGCGGTGCACAGCGGCTTGCTTGCCATTCGCGACAGCGAGGAGCATCAGCGTCAAATGCAGGAGCTGGGCCTCGATTACATCGATCTGGTCGTGGTGAACCTGTACCCGTTCCAGGAAACGATCGCGAAGCCGGATGTCGAGTATGAAGATGCGATCGAAAATATCGACATCGGCGGTCCGACGATGCTGCGTTCGGCTGCGAAAAACCATGCTTTTGTGAGCGTGGTTGTCGATGCGGCGGATTACGGCAGCGTGATCGAGGAAATCCGCGGCGGCGGCGATACGACGCTGGAAACCCGTAAACGCCTTGCAGCCAAGGTATTCCGTCATACGGCTGCCTACGATACGCTCATTTCCGACTATTTGTCGAATGTGACAGGGGATCCGCTTCCTGAGCGCTTCAGCGTCACCTACGAGAAGATCCAGGACCTTCGCTACGGCGAAAATCCACATCAAAAGGCGGCATTTTACCGGAAGCCGCTGGCTCCCGCCGGAACGTTGACGACCGCCGAGCAGCTGCACGGCAAAGAGCTCTCCTACAACAATATCAATGACGCAAACGCGGCCCTGCAGATCGTGAAGGAATTCGACGAGCCGACCGTGGTGGCCGTGAAGCATATGAATCCTTGCGGCGTCGGTATCGGGACGAATGTATTGGAAGCTTATCAAAAGGCTTACAATGCGGATCCGACGTCCATCTTCGGCGGCATCGTGGCCGCAAACCGGACGATTGACGCTCCGACGGCCGATCTGCTGAAGGATATTTTCCTTGAAATTATCCTGGCACCGGACTTCACGCCGGAGGCGCTGGAGATTCTGACGAAAAAGAAAAACATCCGTCTGCTGAAGATGGGCGAGTTCGGCTCGGCCAAGGAGCGCCAAAGCACGCTTGCCGTAACAACCATCGAAGGCGGCATGATCGTGCAGGAAAGCGATGTGCATTCCCTCGATGCGGCTGACCTGAAGGTCGTGACGGACCGTGAGCCGACCGAAGCCGAGCTGAAGCAGCTGCTCTTCGGCTGGAAGGTGGTCAAGCACGTCAAGTCGAACGCAATCGTATTGGCGGCTGACGACATGACCGTCGGCGTAGGCGCAGGTCAAATGAACCGAGTCGGTTCCGCGCGTATTGCGGTGGAGCAGGCGGGAGAGAAAGCCAAAGGCGCGGTTCTCGCTTCCGATGCGTTCTTCCCAATGGGCGATACGGTGGAGCTTGCGGCGAAAGCCGGCATTACCGCCATCATTCAGCCGGGCGGCTCCATCAAGGATGAGGAATCGATCAAGGCTGCCAATGAATACGGGATCGCCATGGTCTTTACCGGCGTGAGGCATTTCAAGCACTAA	MGIKRALVSVSDKTGVVEFCRELSSLGVEIISTGGTKNLLAKEGVPVIGISDVTGFPEILDGRVKTLHPAVHSGLLAIRDSEEHQRQMQELGLDYIDLVVVNLYPFQETIAKPDVEYEDAIENIDIGGPTMLRSAAKNHAFVSVVVDAADYGSVIEEIRGGGDTTLETRKRLAAKVFRHTAAYDTLISDYLSNVTGDPLPERFSVTYEKIQDLRYGENPHQKAAFYRKPLAPAGTLTTAEQLHGKELSYNNINDANAALQIVKEFDEPTVVAVKHMNPCGVGIGTNVLEAYQKAYNADPTSIFGGIVAANRTIDAPTADLLKDIFLEIILAPDFTPEALEILTKKKNIRLLKMGEFGSAKERQSTLAVTTIEGGMIVQESDVHSLDAADLKVVTDREPTEAELKQLLFGWKVVKHVKSNAIVLAADDMTVGVGAGQMNRVGSARIAVEQAGEKAKGAVLASDAFFPMGDTVELAAKAGITAIIQPGGSIKDEESIKAANEYGIAMVFTGVRHFKH	PGPT0008110_3661	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
AK002_00971	1269	purD_1	COG0151	Phosphoribosylamine--glycine ligase	ATGGATATTTTGGTTATCGGAGGCGGCGGAAGAGAGCATGCCATCGTATGGGCACTGGCAAAGAGCCCGAAAGCAGGCACCATTTACTGTGCGCCGGGCAATGCCGGAATCGGGCAGCTGGCAAAATGCGTGCCGATTGCGGTATCGGAATTTGATAAGCTGGCGGCTTTCGCCGTAGAGAAGCAGGTGGGACTCATAGTTGTCGGTCCGGATGATCCGCTGGCGGAAGGCATCGTGGATGCGTTTGACGCTACGGGCATCCCGGTATTCGGTCCGCGCAAAAACGCGGCCGAAATCGAGGGCAGCAAAACCTTCATGAAGGATCTGCTTCATAAATACAGCATACCGACAGCGGCTTACGCGAAGTTCGACAATTACGAGGAGGCGCTTGCTTACTTGCGCCAGCAAGGCGCGCCGATCGTCGTGAAAGCGGACGGGCTCGCAGCAGGCAAGGGCGTTACCGTTGCGCGGACCATCGAGGAGGCCGAGCAGGCACTCAGCGACATCATGCAATCGAAGGTGTTTGGCGATGCCGGAAGCCGCGTAGTTATCGAGGAGTTCCTGGAAGGCCAGGAAATGTCGATCCTCGCCTTTGTGGACGGAGAAACCGTGAAGCCGATGTCAGCCGCGCAGGATCACAAGCCGGCGTATGACGGGGACCAGGGGCCGAATACCGGAGGAATGGGAACGTATTCGCCATTGCCTCATATTCAGCCGTCCATCATCGAAGAGGCCATTGAGACGATCATCAAGCCTACGGCAAAAGCGATGGTTGACGAAGGACGTCCGTTCCGTGGCGTTCTGTTTGCCGGATTGATGATCACGCCGGACGGCAGACCGAAGACCATTGAATTCAATGCCAGATTCGGCGATCCGGAAGCGCAGGTCGTATTGCCGCGCCTGAAGACCGATCTGCTTGACGTTTTCCTTGCTGCCGTGAACGGGACCCTGGCCGATCTTGAGCTGGAGTGGAGTGACGAGGCAGCCGTATGCGTCATCCTGGCTTCCGGCGGTTATCCTGCATCGTATCCAAAAGGAATTGCGATTACTGGTCTGGACAACGAGAAGGACGGGACGATCGTATTTCATGCGGGCACTTCTCGCGATGCCGATGGCACCTGGAGAACGAACGGGGGACGTGTCCTGGGCGTTGTCGGTTTAGGCACGGATATCGCTGCGGCACGCGCGAAAGCCTATGAACGGGCAGAAGCGATTGCGTTTGAAGGCAAGTTTAACCGGACGGACATTGCGCTGAAAGCACTGCAATAA	MDILVIGGGGREHAIVWALAKSPKAGTIYCAPGNAGIGQLAKCVPIAVSEFDKLAAFAVEKQVGLIVVGPDDPLAEGIVDAFDATGIPVFGPRKNAAEIEGSKTFMKDLLHKYSIPTAAYAKFDNYEEALAYLRQQGAPIVVKADGLAAGKGVTVARTIEEAEQALSDIMQSKVFGDAGSRVVIEEFLEGQEMSILAFVDGETVKPMSAAQDHKPAYDGDQGPNTGGMGTYSPLPHIQPSIIEEAIETIIKPTAKAMVDEGRPFRGVLFAGLMITPDGRPKTIEFNARFGDPEAQVVLPRLKTDLLDVFLAAVNGTLADLELEWSDEAAVCVILASGGYPASYPKGIAITGLDNEKDGTIVFHAGTSRDADGTWRTNGGRVLGVVGLGTDIAAARAKAYERAEAIAFEGKFNRTDIALKALQ	PGPT0021575_3560	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
AK002_00972	1311	cycB	COG2182	Cyclodextrin-binding protein	ATGAAGATGAAGAAGTTACTTACGCTAGCTGCAACCTTCACGTTGGCGTTCTCCATTACAGCGTGCGGAGGAAATACGGCCGCACCAGCTACGGAGGCACCTGCTGAGACTCCGCCAGCACAGGAAACGCCGGCCGAAAATACAGAGACACAGGAACTTAAGCCAGAAGAAGGCGCGAAATTGGTCGTATGGGAAAGCCGGGACGAAAGAGCTTACACCGATGCGGTCGCCAAAGAATTTACCGAGAAATACGGCGTTGAAGTGACCATTGAAGAATTGTCCCCAACTGATCAAGTAACCAAGCTTGCGCAAGACGGACCATCCGGCTTGGCAGCCGACGTCGTACTGTTCCCTCACGATAACCTGGGCAAAGCCGTAGCGACAAACCTGGTTCTGCCAAACGATTTTTATGAAGAAAAAACGAAAAGCAACAACACGGAAGCAGCCATCCAAGGCGTAAGCTATGACGGCGTTCTGTACGGATACCCTCGCGCTGCGGAAACTTACCTGATGTACTACAACAAGGACTTGGTTAAAGAAGTTCCGACAACGATGGAAGAGGTTATCGAATTCAGCAAAACCTTCACCGACAAATCCAAGAACAAGTATGGATTCATGTTCGAAACAGGCAACCTGTACTTCGCATATCCGTTCCTTGCTTCCAACGGCGGATACATCTTCGGTAACGGCGGTGCCGACGTCAACGATATCGGCCTGAACAACGAAGGCGCAGTGAAGAGCATGGAAGTATATGCAAGCCTTAAGGAAATCCTTCCGGTTAAATCCGGCGATATTACGCCGGATATCAAGCGTGGCTTGTTCACGGCCGGCGATCTGGCGATGGACATTAACGGACCATGGGAGCTTGGCGGATACAAAGAAGCGCTTGGCGACAAGCTCGGCGTTGCTCCAATCCCGACGATCGGCGGTCAGCCTGCAGTATCGTTCTCCGGTATCAAAGCTTGGTACGTAAGCTCGTTCACGAAGTATCCGCAAGCAGCTCGTCTGTTCGCAGACTTCGCAACGTCCAAAGAAGCACAATTGCAATTGAGCGCATTGGTTGGTTCGGTTCCGACCAACAACGAAGCTCAAGAAGACGATCAAATCAAGAACGACGAGTATGTATCGGCATTCACGGAGCAGTTCAAATCTTCCCAGCCGATGCCGTCCGTACCGGAAATGGCTAACGTATGGTCTCCAGTAGGCGCTGCGCTGGCTGAGATCTGGGACAACAACAAAGACGTGAAAGAAACGCTGGATAAAGCCGTAACTCAAGTGAAAGACCTCAACAGTGGTGGAGCTGGCGAGTAA	MKMKKLLTLAATFTLAFSITACGGNTAAPATEAPAETPPAQETPAENTETQELKPEEGAKLVVWESRDERAYTDAVAKEFTEKYGVEVTIEELSPTDQVTKLAQDGPSGLAADVVLFPHDNLGKAVATNLVLPNDFYEEKTKSNNTEAAIQGVSYDGVLYGYPRAAETYLMYYNKDLVKEVPTTMEEVIEFSKTFTDKSKNKYGFMFETGNLYFAYPFLASNGGYIFGNGGADVNDIGLNNEGAVKSMEVYASLKEILPVKSGDITPDIKRGLFTAGDLAMDINGPWELGGYKEALGDKLGVAPIPTIGGQPAVSFSGIKAWYVSSFTKYPQAARLFADFATSKEAQLQLSALVGSVPTNNEAQEDDQIKNDEYVSAFTEQFKSSQPMPSVPEMANVWSPVGAALAEIWDNNKDVKETLDKAVTQVKDLNSGGAGE	PGPT0016315_218	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016315-cycB|ganO-K15770	NA	NA
AK002_00973	1314			hypothetical protein	ATGCGTCAACATCGTATCACAGCGGCCGTATTATCAGCCATCTGCATGGGTCTGGGTCAGCTTTACAATCGGCAATGGATCAAAGGCGTTATTTTACTTATCGTAGGCGTATTCAGTCTGTATTACTTCATTAACAACCTGGGTGATGCCATCTGGGGAATGGTAACATTGGGAGAACAGGGGAGCCATTTAGAAAAAGTCAACGGCTTGACCCAAATGGTAGCGGGTGACCATTCCATCAATCTCCTGATTGAAGGACTTATCACCTTAATTATGTTTGCGCTCTTTCTTATTGGCTACTATGCCAATATCAAAAACGCATATAACGCTGGAAAACTAAGGGAAAAGGGTTTAACGCCCAACAATTTCAGACAGACCCTTTACTATATTTTCGAATGGAAATTTGCGCAATCTTTCCTGACACTGCCGGCAATCGGTATTTTGTTTTTCACGGTCATGCCGATCATCTTCATGGTCCTGCTGGCGTTTACGAACTATTCCGCTCCAAACAATCTGCCGCCTGCTAGCCTGGTGGATTGGGTTGGCTTCAAAACCTTTACCAATCTCGTTGCACTGAAATCGTGGAGCCACACCTTTTTCGGGGTTCTGACCTGGACGATCATCTGGGCGGTGCTCGCAACGGTTACCACGTATTTCGGCGGCGTGCTCGTGGCACTGCTTATTCAACAAAAAGGAATTCGATTCAAAGGCGTATGGCGCGTCATCCTGATCATTCCATATGCGATCCCGCAGCTGATCTCGCTGCTTGTCATGCGTAATATGTTTAACGGGCAATTCGGCCCGATCAACCAGTATTTAAGGTACTTCGGTTTGGAAGGACTGCCTTGGCTGACCGATCCGGTCTGGGCTAAAGTGACCGTTATCGTTGTTAATATGTGGGTCGGTATCCCTGTATCCATGCTCCTCGTGATGAGCGTTCTGACCACGATTCCGAAGGATCTCTATGAAGCTGCGGACGTGGATGGAGCGACCGGCTTCCAGAAGTTCAAGATCATTACCCTGCCGATGATTTTGTTCTCGACGGCACCGGTGCTGATTACGCAATTTGCCGGTAACATCAACAACTTTAACTTGATTTTCCTCCTGACGAACGGTAACCCGGTGGTGGGCGACTATCAATACGCGGGAGCGACGGACCTGCTCGTCACCTGGCTCTATAAACTGACGCTGGATCAGCAGCGTTACAGCATGGCATCGGCCATCGGTATTATCATCTTCATGATTATTGCGACCTTCTCGATTTACAATTATCGTCGTACCAGATCATTCAAAGAGGAGGATATGATCCAATAA	MRQHRITAAVLSAICMGLGQLYNRQWIKGVILLIVGVFSLYYFINNLGDAIWGMVTLGEQGSHLEKVNGLTQMVAGDHSINLLIEGLITLIMFALFLIGYYANIKNAYNAGKLREKGLTPNNFRQTLYYIFEWKFAQSFLTLPAIGILFFTVMPIIFMVLLAFTNYSAPNNLPPASLVDWVGFKTFTNLVALKSWSHTFFGVLTWTIIWAVLATVTTYFGGVLVALLIQQKGIRFKGVWRVILIIPYAIPQLISLLVMRNMFNGQFGPINQYLRYFGLEGLPWLTDPVWAKVTVIVVNMWVGIPVSMLLVMSVLTTIPKDLYEAADVDGATGFQKFKIITLPMILFSTAPVLITQFAGNINNFNLIFLLTNGNPVVGDYQYAGATDLLVTWLYKLTLDQQRYSMASAIGIIIFMIIATFSIYNYRRTRSFKEEDMIQ	PGPT0016320_580	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016320-ganP-K15771	NA	NA
AK002_00974	843	malG	COG3833	Maltose/maltodextrin transport system permease protein MalG	ATGGGAATTAAAATGAGAAACGCGATCCGCCTGACGGCAAGCTACATCACGCTTGTCATCATCGCGATCGGCTGTATTTACCCGGCGCTCTGGATTGTTCTGGCCTCTTTCCGTCCCGGAAAGTCGTTGTACAGCAAATCCTTGATTCCAGAATCCTTCACGCTCAGTCATTATAAAGAGCTGTTTACGTCCCAAAGCTTCCTGTTTGGCACATGGTACATGAACACGTTGAAAATCGCGGTGTTCTCCATGATTATCGGGACCATTCTTGTCCTGCTTACTAGTTATGCGGTATCCCGCTTCCGGTTCAAGGGCCGTCAGAATGCGCTATCGGTCATTCTCGTGCTGGGGATGTTCCCGGGCTTCATGAGCATGATCGCCCTGTATATCCTGTTGAACTCCCTGGACCTGCTGAATACGCATGCCGCGATGATCATCGTGTATGCGGCCGGGGCACCGCTTGGCGGAACCCTCATCATGAAGGGCTTCCTGGATACGATACCGCGAAGCTTGGATGAAGCGGCGAAGATTGACGGAGCCACCAACTTCCAGATCTTCCGCAAAATCATTCTGCCGTTGTCGAAGCCGATGATTACGTATATGGGCTTGACGCTGTTCGTCGGCCCATGGGTAGACTTTATCTTTGCCCGGCTCGTGCTCCGGACCAAGGAAAACTGGACGCTTGCCGTCGGCCTGTGGGATCTCGTCAACTCTACCCAGGATAGCAACTTTACTTTGTTCGCGGCGGCATCGGTGCTGATCGCACTGCCGATCACCCTGCTGTTTGTGTTCCTGCAGCGTTTGCTGGTCGATGGCATGACGGCTGGCGCAAGCAAAGGGTAA	MGIKMRNAIRLTASYITLVIIAIGCIYPALWIVLASFRPGKSLYSKSLIPESFTLSHYKELFTSQSFLFGTWYMNTLKIAVFSMIIGTILVLLTSYAVSRFRFKGRQNALSVILVLGMFPGFMSMIALYILLNSLDLLNTHAAMIIVYAAGAPLGGTLIMKGFLDTIPRSLDEAAKIDGATNFQIFRKIILPLSKPMITYMGLTLFVGPWVDFIFARLVLRTKENWTLAVGLWDLVNSTQDSNFTLFAAASVLIALPITLLFVFLQRLLVDGMTAGASKG	PGPT0016325_939	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOGALACTAN|GALACTOSE_OLIGOMER|MALTOOLIGOSACCHARIDE_TRANSPORT,PGPT0016325-ganQ-K15772	NA	NA
AK002_00975	2037			hypothetical protein	ATGAACATGACAAAGCGTTTTCAATTCAAGGCGGTCGGCATGAAGCTGTTTGTTATCTTTTTTACAACGATCGTGCTGTTATCTTCGGCGCTGGGGTTATTGTCGTATTCCATCTCCAAGGACACGGTAATGGATCAGGTATCCGAAGCGACCTCGGGGCAGATGATGCAGGCGGCGGACAAGCTGGATTTTCTGTTAGGCCAGTATGAAGCCGCCTCTCGCCAGTGGGCGCTGGACACGGTGCTTCGCGAAGATCTGGTGACGGTCAGCACGGCGGATATCGGCATTCGGGACAAAACGCAGGCCGAGAACCGGATCCGTGAGAAGCTGAACGGGATGGCATCTTCGGATAAACGTCTGCAGGGCATGCGTCTGGTCGCGCCCAATCTTCAGGCTCAAAGCTCCTATAACTCCACGGGCTATTCGGGAATGTCTTCTTCGGACGGGGTGAAGGCGAAGATCGACCGGATTATTCAGGCCGATGGCGAACCGGTATGGTTCCCGACAGAGATCAAGGGTTTTATGGAGAATGAGAGTACCGCCACCATGACGATGGGGAGATTGCTGAAAAACCTGAAAAATCCGAATGCGCAGTACGTCCTGCTGATGGATGTCAAGGATGAGGCGGTCGGGGAGGTTCTGGCGAATCTAAAAATAGGGAATAACGGACAGATGCGGATCGTGGCCGAAGATAACCGGATCGTGCACGACATGGACCCGGCCCAGCTGATGCAGCCTTCCGCCATTACGGTTCCTTCAGATGCCGAGGAAGGGGGGATCTACTATACCGCCGACGAGCAGATGGTGGTATATACGCCTCTAAAGACCGCGCCATGGCATATGGTCGGCTTTGCTCCCGTTAGCGATTTCGTGCAGGCCACTGACAAATTGCTTGCCGTGACGCTTGCGGTCATTGTGGCAGCGGTTCTGGTTGCTGTTCTGATCGGCTACTATATGATGCGTACCGTCGGCCGACCGCTGAACCAGATGTGCAGCCTGATGGAAGAGGGAGAGCAGGGGAACTTAAGGGTGCGGACGGAATTCCGCCGTGCCGATGAGATTGGCCGTCTGGGTCAGAGCTTCAACCGGATGATGGGGCAAATCTCGGCTTTGGTCGATCAGACGAATGCGTCGGCGAAGGAAGTGCTGGTTACGGCCGAGGAATTGGCCGAAGCCTCAAGAGGAACCTCGCTTACGGCCGGCGAAATCGCGGCCGCCATGGAACAGATTGCACAGGGAAGCGGAAGCCTGGCCATGGAGGCCGAACGCGAGAACCAGCTGGCCGAGAACATCGGCGTGCGGATGAGCAAGGTGTCCGATACGAATCAGGTGATCGCGGCCGCGGCGGATCGCGTGCTCCGGGTAACGGGAGAAGGCGCACAGCATATGGACAGCCTGGTGGAGAAATCGACGCGGATTAATCAGGTAAACCGGGCGATCGTCCAGAACGCGGAGAAGCTGAAGGATAATACCGCATCGATTCACAAAATATTGGAGCTGATGTCGGAGATTACGCATCAGACCAACGTGCTGTCCATTAACGCGACGATTGAAGCGGCCCGCGCCGGGGCGGCAGGCAGCGGCTTCATGGTGGTTGCCAATGAAGTGCGGAGCCTCGCGGATCGTTCCAAGGAGTCGATCCAGACCGTAGGCGCCATGATTCTGGACATTCGGCGCGAGGTGCAGGGCTCCGTGGATGCTTTGACGTCGGCATCGCCGCTCTTTGACGAGCAGCTGCATTCGGTGCAGGAAGCACAGGGTGTCTTTGATAACGTGCGTCACGAGATGGATGCGCTCTTAACCGAGATCAGCGAGTCTACGCATGCGGTGGAGGTTCTGATCGATTCCCAGCTGGCGCTGACCGACTCCATCTCGGAGGCGAGCTCGATTGTCCAGGAAACCAGCGCCGCCACGGAGGAGGTCGCTTCGATGTCGTCCGAGCAGTTCAAGGTGAGCGAGAAGCTGGTCGGCTTGTCGTCGCGATTGGAGGAGCTGTCGGAGGGCTTGCGCAAATCTTTGGTGATGTTTAGGACGTAA	MNMTKRFQFKAVGMKLFVIFFTTIVLLSSALGLLSYSISKDTVMDQVSEATSGQMMQAADKLDFLLGQYEAASRQWALDTVLREDLVTVSTADIGIRDKTQAENRIREKLNGMASSDKRLQGMRLVAPNLQAQSSYNSTGYSGMSSSDGVKAKIDRIIQADGEPVWFPTEIKGFMENESTATMTMGRLLKNLKNPNAQYVLLMDVKDEAVGEVLANLKIGNNGQMRIVAEDNRIVHDMDPAQLMQPSAITVPSDAEEGGIYYTADEQMVVYTPLKTAPWHMVGFAPVSDFVQATDKLLAVTLAVIVAAVLVAVLIGYYMMRTVGRPLNQMCSLMEEGEQGNLRVRTEFRRADEIGRLGQSFNRMMGQISALVDQTNASAKEVLVTAEELAEASRGTSLTAGEIAAAMEQIAQGSGSLAMEAERENQLAENIGVRMSKVSDTNQVIAAAADRVLRVTGEGAQHMDSLVEKSTRINQVNRAIVQNAEKLKDNTASIHKILELMSEITHQTNVLSINATIEAARAGAAGSGFMVVANEVRSLADRSKESIQTVGAMILDIRREVQGSVDALTSASPLFDEQLHSVQEAQGVFDNVRHEMDALLTEISESTHAVEVLIDSQLALTDSISEASSIVQETSAATEEVASMSSEQFKVSEKLVGLSSRLEELSEGLRKSLVMFRT	PGPT0015710_4721	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_00976	2142	cgt		Cyclomaltodextrin glucanotransferase	ATGAAAAAATTCTACAAACTGACAACCGCCCTTGCCCTTAGCTTGTCCCTGGCGCTGAGCTTGCTCGGACCAGCCCATGCAGCCCCGGATACCTCGGTATCCAACAAGCAAAATTTCAGCACGGATGTCATTTATCAAATCTTTACGGACCGTTTCTCCGACGGCAATCCTGCCAACAACCCGACCGGCCCGGCCTTTGATGGGACCTGCACCAACCTGAGGCTTTACTGCGGCGGCGACTGGCAAGGGATCATCAACAAAATCAACGACGGCTACCTGACCGGCATGGGCGTTACCGCCATCTGGATCTCCCAGCCGGTCGAGAACATCTACAGCGTCATCAACTATTCCGGCGTGAACAACACCGCATACCACGGCTATTGGGCTAGAGACTTCAAGAAAACGAACCCGGCTTACGGCACGATCGCCGATTTCCAGAATCTCATCGCTGCCGCCCATGCCAAGAACATCAAAGTCATCATCGACTTCGCACCGAACCACACGTCCCCCGCTTCCTCGGACCAGCCTTCGTTCGCGGAGAACGGTAAGCTGTACAACAACGGCACCCTGCTCGGCGGATATACAAACGATACGCAGAATTTGTTCCACCATAACGGAGGCACCGATTTCTCGACGACCGAGAACGGGATTTACAAAAACCTGTACGACCTTGCTGACCTGAACCATAACAACAGCACCGTGGATACCTACCTGAAGGATGCCATTAAAATGTGGCTCGATCTGGGCATTGACGGCATTCGAATGGACGCGGTAAAACATATGCCGTTTGGCTGGCAGAAGAGCTTCATGGCCACCGTCAACAATTACAAGCCGGTCTTCACCTTCGGCGAATGGTTCCTCGGGGTAAACGAAGTGAGTGCCGAGAATCATAAGTTCGCCAACGAATCCGGCATGAGCCTGCTGGACTTCCGCTTCGCGCAGAAGGTTCGCCAGGTATTCAGGGACAACACCGACAATATGTACGGACTGAAATCCATGCTGGAGGGCTCTGCAGCCGATTACGCGCAGGTGGAGGATCAGGTCACGTTCATCGATAACCACGACATGGAACGTTTCCATAATAACAGCGCCAACCGCCGGAAGCTGGAGCAAGCGCTCGCCTTCACGTTAACTTCCCGCGGCGTGCCAGCCATCTATTATGGAACCGAGCAATACATGTCCGGCGGGAACGATCCCGACAACCGGGCTCGAATTCCTTCTTTCTCTACCACGACTACGGCTTATCAGGTCATTAAAAAGCTGGCGCCTCTGCGCAAATCCAACCCGGCCATCGCTTATGGGACGACGCAGGAGCGCTGGATCAACAACGATGTGCTGATCTATGAGCGCAAGTTCGGCAACAACGTGGCCGTCATCGCCGTCAACCGCAACGTGAACACGCCGGCCTCCATTACGGGATTGGTAACCTCACTGCCGGCCGGCAGCTACACCGACGTGCTGGGCGGCCTCCTGAACGGTAACAGCCTGACCGTCGGCTCCGGCGGATCCGCTTCCAACTTCACGCTGGCAGCGGGCGGTACGGCCGTGTGGCAGTACACCACGGCCGTGACTGCGCCAACCATCGGGCACGTAGGACCGATGATGGCCAAACCGGGCGCAACCGTCACCATTGACGGCCGCGGTTTCGGTGCAACCAAAGGCACGGTATACTTCGGCACGACGGCAGTTACCGGCGCTAACATTACGGCTTGGGAAGACACGCAGATCAAGGTGAAAATCCCTGCCGTTGCCGGAGGCGTATACAATATCAAAATCGCCAACAGTGCCGGAACCTCAAGCAATGTGCATGACAACTTCGAAGTGCTGAGCGGGGATCAGGTCAGCGTGCGCTTTGTGGTGAACAACGCCACCACCGCGCTCGGCCAGAACGTGTATCTGGCAGGCAGCGTAAGCGAGCTTGGCAACTGGGACCCGGCCAAAGCCATCGGTCCGTTGTACAACCAGGTCATCTACCAATACCCAACCTGGTACTATGACGTCAGCGTGCCCGCCGGCAAAACGATCGAATTCAAATTCCTGAAAAAACAGGGCTCGACGGTAACATGGGAAGGCGGCTCGAACCATACCTTCACCGCACCAACGAGCGGCACGGCCACCATTAACGTGAACTGGCAGCCGTAA	MKKFYKLTTALALSLSLALSLLGPAHAAPDTSVSNKQNFSTDVIYQIFTDRFSDGNPANNPTGPAFDGTCTNLRLYCGGDWQGIINKINDGYLTGMGVTAIWISQPVENIYSVINYSGVNNTAYHGYWARDFKKTNPAYGTIADFQNLIAAAHAKNIKVIIDFAPNHTSPASSDQPSFAENGKLYNNGTLLGGYTNDTQNLFHHNGGTDFSTTENGIYKNLYDLADLNHNNSTVDTYLKDAIKMWLDLGIDGIRMDAVKHMPFGWQKSFMATVNNYKPVFTFGEWFLGVNEVSAENHKFANESGMSLLDFRFAQKVRQVFRDNTDNMYGLKSMLEGSAADYAQVEDQVTFIDNHDMERFHNNSANRRKLEQALAFTLTSRGVPAIYYGTEQYMSGGNDPDNRARIPSFSTTTTAYQVIKKLAPLRKSNPAIAYGTTQERWINNDVLIYERKFGNNVAVIAVNRNVNTPASITGLVTSLPAGSYTDVLGGLLNGNSLTVGSGGSASNFTLAAGGTAVWQYTTAVTAPTIGHVGPMMAKPGATVTIDGRGFGATKGTVYFGTTAVTGANITAWEDTQIKVKIPAVAGGVYNIKIANSAGTSSNVHDNFEVLSGDQVSVRFVVNNATTALGQNVYLAGSVSELGNWDPAKAIGPLYNQVIYQYPTWYYDVSVPAGKTIEFKFLKKQGSTVTWEGGSNHTFTAPTSGTATINVNWQP	PGPT0018540_50	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_STARCH|GLYCOGEN_DEGRADATION,PGPT0018540-cgt-K00701	NA	NA
AK002_00977	1146	amiE		N-acetylmuramyl-L-alanine amidase	GTGGAGACTCATGTGAAGGCCGGTGCAGAGCAGCTGGGCTTGGGAGTCAAGGGAGTGAAGGCGGCGTGCGCCGCCATTGAACGCGAAATAGCCGCGGGTACGACGCCGGGTGCCGTACTGGGCGTTCTGCATGAAGGCAGGACATGGTTCTACACAACCGGTTATGCCAATCCCCAGTCGGCGCAGGGTCAGCCTGTGCCTGTTAGCGAGGACACATTATACGACTGTGCATCCTTGACCAAGGTGGCGGTCACGCTCCCGTTGATTCTGCAATTGATCGATGATGGGGTTCTGACCTTGAGCACAAAAGCGAGCGATATGCTGCCTTCATTCGGAACGGCAGGCAAAGAAGAGATCACGGTAGGCCAGCTGCTGACGCATACTTCCGGGCTCCAGGCGGATATGAACCTGCATTCCCATGGCTGGGACAGGGAGCAGATGTGGGATGCCGTTTTTTCAGCGCCGCTTGCAGCGAAGCCGAATACCGAAGTGATTTACAGCGACTTGGGGTATCTGACGCTTGGTCGCATCATAGAACGGTCGCTCAAACTGCCTTTGGACCAAGCGTTTAAGCGATGGGTGTCGGATCCGCTGGGCATGCGACATGCCACGTTAACTCCTTCGCCGGAACAGCCCAGCCGCTATGCCGCAACGGAGTATGAGGATACCATCCAGGATCATCTGTGCGGGATCGTCCATGATGAGAAGGCAAGGGCCTTAGGTGGTGTATGCGGCCATGCAGGCTTGTTTGCCACAGCAGGAGATCTGCTGCAGTATGCCCGAGTTTGGCTTTCACTGGGCGCAATTCCGACGGTTACGGCTGCGGAGACCGGAACTGACGAATCGAGGCTCCTATCTCGGGCTGCGGCGGCTACGGCCACTCGTTCCCATACGAGCCATATTCAGGGCTCGAGCCGTGGTCTGGGGTGGGTGCTGAAAGGGGATAAGATGGACGCCTCCGGAGATTGGATGAGCCCGGGCTGTTACGGACATACCGGCTTTACCGGAACCAGCCTGTGGATCGATCCCCAGTCTGATCTTGCGGTCGTATTGCTGACCAACCGCGTATATGGGGGGCGGAGCAGCAGCGTGGCTCAGCTGCGAGCACAGGTCCACAACGCTTTGAAGGGAGCCGTGGCATGGTAA	METHVKAGAEQLGLGVKGVKAACAAIEREIAAGTTPGAVLGVLHEGRTWFYTTGYANPQSAQGQPVPVSEDTLYDCASLTKVAVTLPLILQLIDDGVLTLSTKASDMLPSFGTAGKEEITVGQLLTHTSGLQADMNLHSHGWDREQMWDAVFSAPLAAKPNTEVIYSDLGYLTLGRIIERSLKLPLDQAFKRWVSDPLGMRHATLTPSPEQPSRYAATEYEDTIQDHLCGIVHDEKARALGGVCGHAGLFATAGDLLQYARVWLSLGAIPTVTAAETGTDESRLLSRAAAATATRSHTSHIQGSSRGLGWVLKGDKMDASGDWMSPGCYGHTGFTGTSLWIDPQSDLAVVLLTNRVYGGRSSSVAQLRAQVHNALKGAVAW	PGPT0024045_343	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024045-pbp4b-K21469	NA	NA
AK002_00978	957	mshD_1		Mycothiol acetyltransferase	ATGACGAGTTTAACCTACAGGTCTTACCGGTCTGGGGACGAGGAACGGATTACGACTCTGTGGAATGCCTGCCTGCCGGGAGATCCCATCACCCGGCTTCGTTTTCGAAATCTGGTGCTGCTCGACCCGAACTTTGATCCGCAGGGACTGCGGATCGCGGAGCAGGAGGGCCGCATAGTGGGCGTCCTGTATGCTGTGCGCCGGAGATTGCCGATGATCGGCACCGAGCTGGACCCGGATCACGGCTGGATCACCTTCTTCTATACCGATCCATCGGTTCGAAGATTGGGGGTGGCGTCGCGGCTGCTGCAGGAAGGAGAAGATTATCTTCGTCATCATGGGCGCAGCAAAGTCTTTTTCTCCTCGTATGCCCCGAATTATATCGTTCCGGGCATTGATGGGGAGCGCTATCCGGAGGGCTTGGCATGGCTTGCGGCCAGTGGTTTTACCCGCAATTACACGGCGGTTGCGATGGATCGCTCCCTGGTTGGCTTCCATATGCCGCCGGAGGTTGCGGAGCTGAAGCGGCAGCGGGAGCATGAAGGCTTTACTTTCAAGCCGGCTAAGGACAGCGATCTGGTGGAGCTGATTGAGTTTGCGACGGACGTGTTTAACCCGGATTGGGGCCGGGCGATTCGTGAGGGGCTGCTCCAGCGATTAACAACGGATCAGATTCTGATCGCACGCGATCAAGGGAAGCTGGTGGGCTTCTGCCTGCATGGCGGATATGAGGGCGTGGCGGAACGATTCGGTCCCTTTGGCGTGGATCCGTCGATGCAAGGGAAGGGACTCGGAAAAATCCTCTTGTATGACTGCCTTGCCCTTATGCGTGCTCAAGGACTGCACGGTGCCTGGTTCCTCTGGACGGGCGAGCAGAGTCCCGCAGGCCATCTGTACCGCAAAGCCGGCTTCGACGTGACACGCCGGTTCGATATTATGAGCAAGCCGCTGCAATAG	MTSLTYRSYRSGDEERITTLWNACLPGDPITRLRFRNLVLLDPNFDPQGLRIAEQEGRIVGVLYAVRRRLPMIGTELDPDHGWITFFYTDPSVRRLGVASRLLQEGEDYLRHHGRSKVFFSSYAPNYIVPGIDGERYPEGLAWLAASGFTRNYTAVAMDRSLVGFHMPPEVAELKRQREHEGFTFKPAKDSDLVELIEFATDVFNPDWGRAIREGLLQRLTTDQILIARDQGKLVGFCLHGGYEGVAERFGPFGVDPSMQGKGLGKILLYDCLALMRAQGLHGAWFLWTGEQSPAGHLYRKAGFDVTRRFDIMSKPLQ				NA	NA	NA	NA	NA
AK002_00979	708			hypothetical protein	TTGACGGAAGCAAAGCAGCATCACATTTTGGCGATTGGCGGGCATGCGGGCGATATGGATCTTACCGCAGGTGCAGTGATCGCTAAATATACGCAGGCTGGCCACAAAGCGACGTTTCTTCATCTAACGCCGGGAGAGAAGGGACACCCCCGTCTGACGCCGGAGGAGTACGCAAAGCAAAAGATTGACGAAGCTCACCAATTTGCCGATATCGTCGGCGCGGATGTGCGGTTCCTTGCCTACAAGGATGCCGAGCTTCCGCTGGACGAGGAAGTAAAGTATCAGGTCGCCGACGTCATACGGGAAGTGAAACCGGATATCATCATCACGCATTGGAAGGAGAGCATTCATAAGGATCATTCCAATACGCATTATATCGTGGAGGACGCCCGCTTCTATGCGGGCCTGAAGACGATTGAACGCGAGCTTCCGTCCCACTATGCCCAGCATTTATACTATGCGGACAATTGGGAGGACCCGTACGATTTCCATCCCGAGGTCTTCATCGACATTCCGGACGAAGCCTATGAAACCTGGGTGAGAGCCATGAACGTATACGCTTATGCGCGCGGGGAAACCTACGGCTTCCCGTTCATCGAATACTACAAGGCACTGACGATCGTGCGGGGAGCGCCGATGAACTTCAAGCGCGCGCAGGCCTTCGCTGTACCGAGAGGTGCGTTGACCAAACGGTTACAATTTTTCTAA	MTEAKQHHILAIGGHAGDMDLTAGAVIAKYTQAGHKATFLHLTPGEKGHPRLTPEEYAKQKIDEAHQFADIVGADVRFLAYKDAELPLDEEVKYQVADVIREVKPDIIITHWKESIHKDHSNTHYIVEDARFYAGLKTIERELPSHYAQHLYYADNWEDPYDFHPEVFIDIPDEAYETWVRAMNVYAYARGETYGFPFIEYYKALTIVRGAPMNFKRAQAFAVPRGALTKRLQFF	PGPT0019570_732	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
AK002_00980	615	mhqD	COG0400	Putative hydrolase MhqD	ATGGAACATACGCATATTTACCGCCAGGGGACTTCCCCGGAGGCACCAACCTTACTATTGCTGCACGGTACCGGAGGGAACGAGGAGGATTTGCTGCCGCTGGCCGAGATGATCTCGCCAACGTCGAATGTGCTCGGCGTCCGCGGGAACGTGCTGGAGAACGGCATGCCGAGATTTTTCCGGCGCCTGGCCGAAGGCGTGTTTGATCTAGAGGATCTCGTGAAACGCACGCACGAGCTGGATGAATTCCTGAACTGGGCAGCCGCCGAGTACGATTTTGACCGCAGCCGCATCGTGGCCGTCGGGTATTCAAATGGCGCCAACATTGCCGCAAGCCTGCTGTTCCACGAAGGGGACGCGCTGCAGGGGGCCATTCTCCACCATCCGATGGTTCCGCTGCGGGATAAAACCTTGCCGGATTTGACCGGCGTTCCGGTCTTTATCGCTGCAGGCCGACGCGATCCGATGTGCACGCCGCAGGAGAGCGAGGATCTGAACGAGCTATTGAGCGGGGCAGGCGCGGACGTGAAGCTGCATTGGGAGAACGGGGGGCATCAGCTCAGCCGTGCAGAGGTCGGGATGGCCGCTGCCTGGTTTAAGGAGAAATTCCTGTAA	MEHTHIYRQGTSPEAPTLLLLHGTGGNEEDLLPLAEMISPTSNVLGVRGNVLENGMPRFFRRLAEGVFDLEDLVKRTHELDEFLNWAAAEYDFDRSRIVAVGYSNGANIAASLLFHEGDALQGAILHHPMVPLRDKTLPDLTGVPVFIAAGRRDPMCTPQESEDLNELLSGAGADVKLHWENGGHQLSRAEVGMAAAWFKEKFL	PGPT0028515_3272	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
AK002_00981	948	lacF_7		Lactose transport system permease protein LacF	ATGGCACAAACAATGGAGACGATGAAAAAGCCTGGCGCCCAGCCGACGCGGGGGGACAAGTCCAGGGGATCCTTGCAGCGGGGAGAGAACCTATGGGGGATCGCATTCGTAAGCCCGATGCTGATCGGCGTTATCATTTTGGTGCTGTTTCCGATATTGGCTACACTCGTGCTGGGGTTTGCCGATTGGAATTTCGTGCAGGGCTGGGACGGCATCCAGTGGGTCGGGTTTCAGAATTTCCGCCAGCTGCTGGAGGATGACATGTTTATCAAGTCGGTACGCAACAACATCTTGTTTCTTCTGACGGTTCCGGTCTATATGATGATTTCGATGACGCTGGCCATCTTGATCGACCGGTTTGTCTATATGAAGGGCTATTTTAAAGTGGCTTACTTCATGCCCTACATATCCAACATCGTGGCGGTGGCCGTCGTATGGCAGGTGCTGTTCCAGCCGTCCTACGGGCCGATCAACGAAATCCTCCGGACGCTCGGGATGTCCAATCCGCCCAAGTGGATCGCGGATCCGAATTTCGCGCTGATTTCCATTATGCTGATATCGATCTGGATTTCGATCGGCTTCAATCTGATTATCTATATCGCCGGCCTGCAATCCATCCCGAAGGATCTGTACGAAGCGGCCGATATCGATGGAGCGAACGGCTGGACCAAGTTCAGGCGCATTACGCTGCCCCTGCTGTCGCCGACGTCCTTTTTCCTGCTGGTAACGGGGATCATCTCCACGTTCAAGGTCTTTGATATCATTGCCGTCATGACGCAAGGGGGACCGATCGGCTCAACGACCATGATGGTGTGGTACTTGTACGATACGGCATTCGTCAACCTGAAGGTCGGTTACGCATCGTCCATTGCCGCGGTTCTGTTCGGCTTTGTCATGCTGATTACGCTGGGGCAGTGGGCCGCTCAGAAGAAGTGGGTCAACTACTAA	MAQTMETMKKPGAQPTRGDKSRGSLQRGENLWGIAFVSPMLIGVIILVLFPILATLVLGFADWNFVQGWDGIQWVGFQNFRQLLEDDMFIKSVRNNILFLLTVPVYMMISMTLAILIDRFVYMKGYFKVAYFMPYISNIVAVAVVWQVLFQPSYGPINEILRTLGMSNPPKWIADPNFALISIMLISIWISIGFNLIIYIAGLQSIPKDLYEAADIDGANGWTKFRRITLPLLSPTSFFLLVTGIISTFKVFDIIAVMTQGGPIGSTTMMVWYLYDTAFVNLKVGYASSIAAVLFGFVMLITLGQWAAQKKWVNY	PGPT0016535_2825	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_00982	840	araQ_15	COG0395	L-arabinose transport system permease protein AraQ	ATGGGGACAAGAGTCGGCGTCGACTGGCGCAAGCTTATCGTCACGATCGCGATGTTCGCGGTGAGCATTCTGTTTCTCCTTCCTTTTATCTGGATGCTGGTGACATCCTTTAAGATGGAGCGAGACGTATTCGTATATCCGATTCAATGGATTCCGCGGGAGTGGAACGCGATTCAGAATTACAAGGAGGTATGGTTCGGCGATTATCCCTTCTATCTCTATTATTGGAACTCGATCAAGGTCAGCATACTGACCACAATCATCTCGGCCATGGTATCCGCCCTGGCAGCCTACGGCTTCTCCAAAATCCGGTTTGCCGCCGGCAATTGGCTGTTCATCATCGTGCTGGTGACCTACATGATTCCGGGCCAGGCCATCCTGATCCCGCAGTTTATTCTATACCGCAATATCGGGCTGTTCGATAACCATTTCGGGCTCATTATGCTGGGAAGCTTCAGTGTGCTCGGAACGTTCATGCTCAGGCAATTCTTCATGGGGGTGCATCAGGAATTCATCGAATCCGCCAAAATCGACGGCGCGAACCATCCGCGAATCTTCTGGTCCATTGCCCTGCCGCTGGTAAAACCCGCTGTTGCCACGTATGCGATCCTGCGGTTCATCTGGACGTGGAACGATTATCAGAATCCGCTCATCTTCCTGCGGACGGACCGGCTGTTCACGATTCCGCTGGCGATGCAGAAATTCACGTCCTTGAGCGGAGAATTCTACTCCCTGATCATGGCGGCTGCCGTGTCGGCGATATTCCCGCTGCTGATCGTTTTTATCATCGGCCAGAAGAGCGTCATCGAAGGTATTGCGCTGGGTGGGGTCAAGGGCTAA	MGTRVGVDWRKLIVTIAMFAVSILFLLPFIWMLVTSFKMERDVFVYPIQWIPREWNAIQNYKEVWFGDYPFYLYYWNSIKVSILTTIISAMVSALAAYGFSKIRFAAGNWLFIIVLVTYMIPGQAILIPQFILYRNIGLFDNHFGLIMLGSFSVLGTFMLRQFFMGVHQEFIESAKIDGANHPRIFWSIALPLVKPAVATYAILRFIWTWNDYQNPLIFLRTDRLFTIPLAMQKFTSLSGEFYSLIMAAAVSAIFPLLIVFIIGQKSVIEGIALGGVKG	PGPT0016540_6182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_00983	1371	yesO_3	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGATGAACAAGAAATGGTGGTCAGGCGTTCTCACGGCCGCGATGGTGATCGGCTTGCTGTCCGGCTGCGGGGGAGCGAAAGAGGATGGGGCGCAAGGTGATTCCGCGCAAGGCGGAGGCAAGACCAATCTGAGGCTGTACACGTATGGCACGGAGGAAGCCTACAATTGGAAGAAAACGATCCAAGCCTATGAAGAGGCAACCCCGGGCGTGACCATTGAGCTGGTCCAGCTCAGCGAGAAGGGGGATACGCAGGAGGCGTTCAAGAAGCTTGACCTGGAGGCGGCATCCTCGGCCCAGATGGACATTCTGATGTTCAGCGATCCGGCGGGTTATGCGCAGCGGGTGGCGCTCGGCATGGCCGAGCAGCTGGACGACTATATCGCGAAGGACGGCTACAGCGTGGAAACCGATTATAAAGTGGATACCCGCCTCGACGGCAAGGTCTACGCGCTGCCAGGCAAGTTCAACCCTTGGTATGTGCTGCTGAACAAGGATCACCTGGAGGAAGCGGGACTTCCTGTACCGACGGACTGGACCTGGGACGAATATGCGGATTATGCCAAAAAATTGACCCAGGGCGAAGGAGCGTCGAAGCGCTACGGGACGTACTTCCATGGCCCGCAAGGGGGCGGATGGCTGGAATTTCTGAAGCTGATGATGGCCAATCAGCCTCAAGATACCGACTATTTGAAGGCCGACGGCTCTTCCAATCTGGATAACCCGACCTTCAGGCAGACGCTGGAGCTGCGCGTGCGGATGGAGAAGGAGGACCAATCCTCGGTGCCTTATACGGACATGATCTCCCAGAAGCTGAATTACCGGACGCAATTCTTCAATCAATCCGCAAGCATGATCACGATCGGCAGCTGGATGAACACGGAGATCGGCGGAACGGATAAAGTACCGCTGGACTTCAATGTCGCCGTAGCTCCATTCCCGAAAAACGAGGAAGGCGATCCGACGGGACTTACGCCGGTCACCACGGATTACGTGGCGGTGGCGGCCAAGTCCAAGCATAAGGAAGAGGCCTATAAATTCGTCCGCTGGTATACAACGGAAGGGCAAATCGTGCAGGGCAAGAACATTCCGGCCTGGCAGCAGGTGAAGACCGAGCAGGTGGAGGAGATCATCGACACCATCCTGTCGGGCACGAAGAGTCCGGATAAGGTAGACAAAAAATCGCTCGTGGACACCTTGGTTGCCTCGAAGGCCTCGGCCATCGTCCCTCCGGCGCCTTATCAGGCGGAAGTGTACGAGGCGGTGAACGAGGAATACGAGAAGCTGATACTGGGCAATCAGGATATTGACCAGACCATCGCGAATTCGCAGGAGCGAGTGAACAAAATTATAGAATCCAACAAAAAATGA	MMNKKWWSGVLTAAMVIGLLSGCGGAKEDGAQGDSAQGGGKTNLRLYTYGTEEAYNWKKTIQAYEEATPGVTIELVQLSEKGDTQEAFKKLDLEAASSAQMDILMFSDPAGYAQRVALGMAEQLDDYIAKDGYSVETDYKVDTRLDGKVYALPGKFNPWYVLLNKDHLEEAGLPVPTDWTWDEYADYAKKLTQGEGASKRYGTYFHGPQGGGWLEFLKLMMANQPQDTDYLKADGSSNLDNPTFRQTLELRVRMEKEDQSSVPYTDMISQKLNYRTQFFNQSASMITIGSWMNTEIGGTDKVPLDFNVAVAPFPKNEEGDPTGLTPVTTDYVAVAAKSKHKEEAYKFVRWYTTEGQIVQGKNIPAWQQVKTEQVEEIIDTILSGTKSPDKVDKKSLVDTLVASKASAIVPPAPYQAEVYEAVNEEYEKLILGNQDIDQTIANSQERVNKIIESNKK	PGPT0016545_2106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_00984	1812			hypothetical protein	ATGCCCGCACGATTGAAGAGCCTGATCCCCAGCTCCATCAGGCATAAGCTGATTTTGGCTGCCGTTACCTGCATCGTGGTTCCCGCTATCGTCAGCCTGATTCTGTATAATTCGTTAACGAAAGAAGCCTTGAGGCAGCAGGCGGTATCCAATGCAAGCGATGCCCTTCAGCTGGTCCGCGGATCGGTGACGAATCTGCTCTTAAGCAAAATCAATATCGCCAACTATATCCAGATGAATTCCGGTTTGAATTCCTATTTCAAGCAGGTGGTCTCCGGCAACGAGGACCCGGATCCTTATCGCAGGTTCATGGAATCCAACCGGGTGCTGGAGCATCTGGACAGCTTGACGGTTGTCGGCGAGAAAAGCTATGTCACCGTCATTCTGGAGAACGGCTCCTATTACATGAATTATTCCGTAAGCGATTACAATCCGCCCGATTACAGGCTGCGCCCCTGGTTTGGCCAAATTTCGGAGCTGCAAGGCTTGGAGTCCCTATGGACGGAGCCGGAGGCCACGATGTTCCGCTCCGACCAGATTGATCATCCGACGCAATTATCGGTGGTGCGCACGCTCCGGCTGCCGGATTCCGAAATTTACGGTTACGTGATCGTGACGTTCATGGAGGATCAGATCAGCGGGATCTTCAACTCCCTTTCGGAAGGCAACGAGCTGGTGCTGCTGGATGCTGAGGGAACCATCGTTTCCGGCAGCCATCAGAGCCAGATCGGAACGACCTTTGCTTATCTCGAAAATTTGGATCAAGAGAAGCCGTATTCAATCGTGCCGATGAAGGGGGAGAAGCAGCTGATGGTACACCAGGACATCCCGTATGCCGGGTGGCGTCTGGTGCTGATGCAGCCGTACAAGGATGCGATCGTCAATATCAACTCGATTTTCAACCGGGTGTTCTGGTTTCAGATGTGCTTCTTCCTGATCTTTCTGCTGCTGCTCATTGCGCTTGTCCGCGCGTTTACCAAGCCGTTAGTCAAGCTCGGCAAAGTGGCGACCTCCGTGCAGCGCGGAAACCTGGAAGTGAGGTCGAATGTTCATGGCAATGATGAGGTTGGACGGCTGGGGCATTTATTCGACGACATGCTGGACCGGTTCAAAGCCATGATCTCGGAAATATCCGAGAATCAGGCGAGAAAACGCAAAGCGGAGCTCCGAATGCTTCAAGCCCAGATCCATCCCCATTTTCTGTTCAATGTCCTGAATTCGATCCGGATGAAGGTCATGAAACGGGGCGATCCCGAAAGCGCCAAGATGATCGGCTCCCTGTCCGTGCTGCTCCGCATGACGATCAGCCGCGAAGAGGACGAGATTGCGCTACATGAAGAAATCGACCTGATCTCGCATTACGTCGCCCTGATGAACCTTCGGCAGAAGGAGGAGGTCAGGCTGGAGCTGGATATCGCGCCGGAGGCTTTCCTCTTCAAGGTGCCGCGCTTTTTTCTGCAGCCGATCGTGGAGAATGCGTTGATCCATGGGCTCAACCAGCAGGCAGGGACGATTCGGATTGCAGCCGCCATGAAGGGCAGGCATCTCGTGCTGGCGGTGAAGGACGACGGCATCGGCATGGATGCCGCCATCCGGGAGTCGATTGCCCGGAGAATCCAGGGCGGCTCCGCCGGGTCCTCGACGCAGGAGGAGGCAAGCGGGGGCAGCTTCTCCCATATCGGTCTGCAAAATGTGATGGAACGGATGAGCATGGTGTTCGGCGAGGCTTTTCAATGTCGCGTCTACAGCGAGCCTGGCCAAGGAACGGTGATCGAGATGTTTATACCGGAAAGAGGGAAAACGGATGTATAA	MPARLKSLIPSSIRHKLILAAVTCIVVPAIVSLILYNSLTKEALRQQAVSNASDALQLVRGSVTNLLLSKINIANYIQMNSGLNSYFKQVVSGNEDPDPYRRFMESNRVLEHLDSLTVVGEKSYVTVILENGSYYMNYSVSDYNPPDYRLRPWFGQISELQGLESLWTEPEATMFRSDQIDHPTQLSVVRTLRLPDSEIYGYVIVTFMEDQISGIFNSLSEGNELVLLDAEGTIVSGSHQSQIGTTFAYLENLDQEKPYSIVPMKGEKQLMVHQDIPYAGWRLVLMQPYKDAIVNINSIFNRVFWFQMCFFLIFLLLLIALVRAFTKPLVKLGKVATSVQRGNLEVRSNVHGNDEVGRLGHLFDDMLDRFKAMISEISENQARKRKAELRMLQAQIHPHFLFNVLNSIRMKVMKRGDPESAKMIGSLSVLLRMTISREEDEIALHEEIDLISHYVALMNLRQKEEVRLELDIAPEAFLFKVPRFFLQPIVENALIHGLNQQAGTIRIAAAMKGRHLVLAVKDDGIGMDAAIRESIARRIQGGSAGSSTQEEASGGSFSHIGLQNVMERMSMVFGEAFQCRVYSEPGQGTVIEMFIPERGKTDV				NA	NA	NA	NA	NA
AK002_00985	1623	rssB_8		Regulator of RpoS	ATGTATAACGTGATGCTGGTGGACGATGATTATCCGGTCATTGAGCTGTTGTCGGAGGCCATCTCGTGGAATGAGCTGGGCTTGAATCTGATGGGAAGTTATGAGAACGGGATGAGTGCTTGGGAGGATGCGAGATCTTCGCCCCCGGACATTCTGATTACGGATATCGGCATGCCCAAAATGAACGGGCTTGAGCTGTCCGCACGCATCAAAGAAGTGAAGGCCGATGTGCGGATCGCCATTCTGTCCTGCCACAACGAATTCCAATATGCCCAGCAGGCCATGCGCCTGAACGTGCAGGATTATTTGTTGAAGGATACGCTCGACCCCGAGGAGCTGGCGCAGCTGCTGAGGCGGTTTAAGCAGGCGATGGACGAGGAAGCCCAGAAGGGCTGGGAGCGGTCGCGGATGATCCATCTGGTGGACGAATCCAAGGAGCTGCGGAAGGAGCAGAGCCTCAAAAATTTCATCCATCAGCCCCTGCTGTCCCCCGAAACATGGCGGCAGGAGCTGTCGGAGTACGGAGTGCTGAAGCCTGGTTATCACTGCCTTCCCGCGGTCGGACATCTGGAGGATGTCCGGGTGATCAGGCACCGCTTCGCCTCCAACCAGACGCTGCATTTTGCCCTGGGCAACGTGCTGCGGGAGGTGCTGGACCAACTGAATCCGGATGCGGTGCATGTCCTATACGATGCAAAGTCTTCGCTGCTCCTGTTCTCGTATCGACCCGGCTTGGGCAGCAACATATACGATGAGGCCGCAGCCTGCCTGAAGGAGGTGCAGCGGACGCTTCAGCGCGTGCTGCGAATCCGCATGTCGTTCCTGATCGGCCGGGGGTGCGCGGATCCCGAAGGCCTAAAGGCAGCGCTTAATGAACTGCTGGCGTGCCAGCACCAACGATTTTATCTGGAGCCGCAAGAGATATCCAAACTGAACGGAGCTCTGGAGAAAAGAAGCCAGCATGGGGATTCCGATCTCTTCGCTTATTATGAACGGGCCAGCTCGGAGCTGCGGGAATCGCTGCTTGGAAAAGACGGCTTATGCGGGGTGCGCGACACGGTCGATCGGTGGATCTCATGGATACAGGAGAAGCGGTACGCACCGGAATCGGTCAAGGACTGGGTATTGAAGCTCCTGCTGGATCTGAAGCTGAGGCTTCACCTCCTGCACTCGCTGTCACCCGCGTATACGGCCGATGCGCTGCACAAAGAGATCATGGACATGGATTCCCTGAACGAGCTGAAATCTTGGCTTCACGATTATTTGGAATCCACCATGCAGGCTATGGACCGGGGATTCGGGGGCAGCAGACGATCGGAAGTGGCGGAGGCCTGCAAATACGTGTCCCTTCGGCTTGACCAGAGGATCACGCTGGATGACGTTGCGGGCTGCCTGCACCTGAATCCGAGCTATTTCAGCCGCATGTTCAAGAAAGAAACCGGCGTGACCTTCATCGAATACGTCACCCGCATGAAGATGGAGCGCGCCAAGGAGCTGCTGCGGCAGACGGACCGCACGGTCGGGGAAATCTGCGAAAGTCTGGCTTACGACAATGTGAGTTATTTCAGCAAGACATTCAAGGCGTATGCGGGGGTAACCCCCGTAGAGTTCCGGAATGGTTGA	MYNVMLVDDDYPVIELLSEAISWNELGLNLMGSYENGMSAWEDARSSPPDILITDIGMPKMNGLELSARIKEVKADVRIAILSCHNEFQYAQQAMRLNVQDYLLKDTLDPEELAQLLRRFKQAMDEEAQKGWERSRMIHLVDESKELRKEQSLKNFIHQPLLSPETWRQELSEYGVLKPGYHCLPAVGHLEDVRVIRHRFASNQTLHFALGNVLREVLDQLNPDAVHVLYDAKSSLLLFSYRPGLGSNIYDEAAACLKEVQRTLQRVLRIRMSFLIGRGCADPEGLKAALNELLACQHQRFYLEPQEISKLNGALEKRSQHGDSDLFAYYERASSELRESLLGKDGLCGVRDTVDRWISWIQEKRYAPESVKDWVLKLLLDLKLRLHLLHSLSPAYTADALHKEIMDMDSLNELKSWLHDYLESTMQAMDRGFGGSRRSEVAEACKYVSLRLDQRITLDDVAGCLHLNPSYFSRMFKKETGVTFIEYVTRMKMERAKELLRQTDRTVGEICESLAYDNVSYFSKTFKAYAGVTPVEFRNG				NA	NA	NA	NA	NA
AK002_00986	2031			hypothetical protein	ATGAACAGGATACAGGAGCTGACAACGATCGTGAACGGGATGGCTCCCGCCGATCTGCGGATGTATTACCAAGGCGGGGACCAGAGTTCCTTCTGGGAAGGCATTCAGCGAAGCGGGGATTACAAGCAGGACATATCCGAGATTCGCGAGGAAGGGGAGAGGCTGCTGTCTGCCCCGAACCCGCCGCTGACGTATGACTTATTCACCCGGTTTGCCCGGCAGGGAACGAGGCTGGATTATGAGAAGGCGTATTTCGAGCGAAGGCGCCGGCTGAATACCTTTGCCCTGCTGACCCTTCTTGAGCCGGATAAAGAAGCTTACCGGACGGCTCTCCAGGAGATGATCTGGTCCATCTGCGATGAGTATACCTGGTGTTTGCCGGCGCATGTGAACGTCGAATCGCCGGGCGGCATCAAAGGGACGATTGATCTGTTCAGCGCCGAGACCGGATTTACCCTCAGCGAAATCCGCGTGCTGCTGCGGGACCATCTGCCTTCGCTGCTAATCTCGAGAATCGGGGAGGAGGTTGAAGCGCGGTTGTTCATTCCTTTCCTAAGTCACGAGCACGGCTGGGAGACCGCCACGCATAATTGGTCTGCGGTCTGTGCCGGTTCCATCGGCTCCGCCGCGCTGCTGCTTAAAGAAAGCGGGGAATCGCTTGCGAAGGTTCTGCTGAAGACGGAGCGGTGCATGGACTATTATCTGCAGGGCTTTGGCCCCGATGGAGCCTGTCTGGAAGGGCTGGGATATTGGAATTACGGGTTCGGGTATTTCGTATACTATGCCGATTTGCTGCGCAAGCGCACCCGAGGCGAGATGGACTGGTTCCGTGCGGAGAAGGTCGGCCGCATCGCCTTGTTTCAGCAAAAGGGCTTTTTGGGAGGAAAGGCCGTCGTCAACTTCTCCGATTCGCAGCCGGAAAGCACGGTACATATCGGCTTGTCTCATTATCTGGCCGGATTGTACGGGGACTTCGAGTCTCCGCCGCAGTCTCTCCGATCGGGTTACCGCGACGACCATTGCAGCCGCTGGGCTCCGGCTTTGCGCAACCTGATCTGGCGGGATCCTTTGATAGCGGGAAGCGATTGGGGGGAGGCAAGTTATTATTTGCCCGATGCCCAGTGGCTGATCTCCCGCAGCTTCCATGGAGGCGAAGTGTACGCGTTTGCCGCCAAGGGCGGCAGCAACGGCGAGCCGCACAACCATAATGATCTTGGGCATTTTATCCTGTACGGCGCCGGGGAAGTTTGGTGCTCGGACCTCGGCTGCGGCGAGTACACGGCGGAGTATTTCGGCGAAGGCCGGTATGGTTATGATTGCAACGGCTCCCAAGGCCACTCCGTGCCGATCATCGACGGCCATTACCAGCAAGAGGGCCCGGATAGCGCCGCGGTTGTATTGGAAGCGGTGACGGGTGAAGCCGTGGATCGGCTTGCGCTTGAGCTGACCTCGGCCTACCGCGTTCCTGCGCTTCAGTCATTCACGAGAACGCTGGAGTGGAACAAGCAGGGGAATCGGCCGGAACTGACGCTGAGCGACCGGTTTACGTTCGTTTCGCCCCCAGAGAGTCTGGTGGAGCGGATCGTCACCAGGATACAGCCCGAGCTTGTGCTGATGGATGGGCGGGAGGTCGTTAGGTTGCGGGCACCGGGTTTTTACGAGCAAGCAGAGGCAGAAGGTCCAGAAGTCGTTCAAGCCTTAGAGAAGAAGGGGGAGCCGATTGCGGCTGAAGAAAGAACCGGGGAGCAGCCGGCTCAGGGCCAAGGTGGAAACCGGGAGGGACCGGCTCAACACCGAGGAGGTAATCGGGAGAAGTCTAAGGTACAGGACACTATCTCGGGTCCTGCTTTTTCCATATACGACAGGCCCGGCCTGCTGATCCACTATGACAGCAAGCTGGTGGAGCCTGAGCTGACAAGTCATGTCTTCCGTGACCACTTCGGCAACGAAGCGGCTTGGTATGCCGTGGATTTTAACGTGAAGGCCCCCGGCTTGCATGCGAATATCGATTTCAAATTTCAATTCATATGA	MNRIQELTTIVNGMAPADLRMYYQGGDQSSFWEGIQRSGDYKQDISEIREEGERLLSAPNPPLTYDLFTRFARQGTRLDYEKAYFERRRRLNTFALLTLLEPDKEAYRTALQEMIWSICDEYTWCLPAHVNVESPGGIKGTIDLFSAETGFTLSEIRVLLRDHLPSLLISRIGEEVEARLFIPFLSHEHGWETATHNWSAVCAGSIGSAALLLKESGESLAKVLLKTERCMDYYLQGFGPDGACLEGLGYWNYGFGYFVYYADLLRKRTRGEMDWFRAEKVGRIALFQQKGFLGGKAVVNFSDSQPESTVHIGLSHYLAGLYGDFESPPQSLRSGYRDDHCSRWAPALRNLIWRDPLIAGSDWGEASYYLPDAQWLISRSFHGGEVYAFAAKGGSNGEPHNHNDLGHFILYGAGEVWCSDLGCGEYTAEYFGEGRYGYDCNGSQGHSVPIIDGHYQQEGPDSAAVVLEAVTGEAVDRLALELTSAYRVPALQSFTRTLEWNKQGNRPELTLSDRFTFVSPPESLVERIVTRIQPELVLMDGREVVRLRAPGFYEQAEAEGPEVVQALEKKGEPIAAEERTGEQPAQGQGGNREGPAQHRGGNREKSKVQDTISGPAFSIYDRPGLLIHYDSKLVEPELTSHVFRDHFGNEAAWYAVDFNVKAPGLHANIDFKFQFI	PGPT0019417_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
AK002_00987	1137	ugl_1		Unsaturated chondroitin disaccharide hydrolase	ATGAACACGGAGATTGCTTTGGATTGGCTGACGGAAGCCTGGGAGAAATCGCTTGCGAAGACGCAGCGGAACGTAGTACGGATCGGGGCGAGGTTTCCGCATGCCAGCCAGAATGGCGTCTACCAGCTGGAACCGCCGCATTGGTGGACGGCCGGCTTCTGGCCGGGCATGCTATGGCTTCTATACAACGACAGCGGGGTGGCGGAGCTTAGAACCACCGCCGAGCAGTGCGAGCTCATTCTGGATGACGTGCTGAACCAATATGTGCGTCTGGACCATGATCTCGGCTTCATGTGGACGCTGACCAGCATGGCGTCCTATAAGCTGACCGGCAGCGAAGAGTCCAAGGTGCGCGCGCTCAAGGCTGCCAACTACCTGGCTGCACGCTTCAACCTGAAGGGCCAATATATTCGAGCCTGGAATCCGTGGTCGGAAGGGGAGGATAACGCGGGTCTCGCCATTATCGATTGCGCCATGAATACGCCCCTGTTGTTCCTGGCGTCGCAGATTAGCGGCGATCCCCGCTACCGGCATATGGCCGAAGCGCATATGGATACGGTGGTCCGCGACTTCGTCCGGCCGGACGGTTCCGTCTATCACATCGTACGATACGATCCGGTTACCGGCGAACGTCTGGAAGGGATCGGCGGGCAGGGCTTTGCGCCGGAATCCGCCTGGTCCAGGGGAACGGCGTGGGCGATTTACGGCTTGACGCTTGCCTACCATCATACGGGCAAGTCGATCTACCTCGATACGGCCAAAACGGTGGCGCATTTCTTCCTGGCGAACCTGCCGGAAGACCATGTGCCGTTCTGGGACTTCCGCGCCCCGGACGAGGCCCGCATCTACCGGGATTCGTCCGCCGGTGCCTGCGCCGCCAGCGGGCTGCTGCTTCTGGCTGACCAGGTGGGGCCTGGACAGGCGGCCGTATACCGGACATCCGCGGTCCGGATTTTGGAATCGCTGTACCGGAATTACGGCACATGGGACAACGATGGCGAGGAAGGCTTGATTCTCCATGGGACCAGCCATTATCCGGAGGGCAAGAATATCGATGTGCCCCTGATTTACGGCGACTTTTTCTTTGTGGAGGGACTCGCGCGGCTGAGAGGGAAGGGGCCGTTTTACTGGGAATAA	MNTEIALDWLTEAWEKSLAKTQRNVVRIGARFPHASQNGVYQLEPPHWWTAGFWPGMLWLLYNDSGVAELRTTAEQCELILDDVLNQYVRLDHDLGFMWTLTSMASYKLTGSEESKVRALKAANYLAARFNLKGQYIRAWNPWSEGEDNAGLAIIDCAMNTPLLFLASQISGDPRYRHMAEAHMDTVVRDFVRPDGSVYHIVRYDPVTGERLEGIGGQGFAPESAWSRGTAWAIYGLTLAYHHTGKSIYLDTAKTVAHFFLANLPEDHVPFWDFRAPDEARIYRDSSAGACAASGLLLLADQVGPGQAAVYRTSAVRILESLYRNYGTWDNDGEEGLILHGTSHYPEGKNIDVPLIYGDFFFVEGLARLRGKGPFYWE	PGPT0019355_815	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
AK002_00988	1851			hypothetical protein	TTGATCCATCCGGTTGCCCGGAATCCGCTGAGAACAAGACGGGACGTGCAGGAGGCGCTCTCGCAGCTGCTGGAGCCTTTAAGCAAATGCTACAGCGAGGGGCGCGCACGCTTAATCCTTGAGCGTTCGGGCGCCGATGCCTATGCCGATATTGCGGAGATGGAGGGTTTCTCTCGCGTCTTGTGGGGGCTCGTTCCCGCCGTTGCCCGCGGCTCCCATGACGAGCTGTGGGAGCTGTGCCTGCAAGGGATACGCGCAGGTACGGATCCGGCGCATGCGGAGTACTGGGGTAAGGTGAACGACTATGATCAGCGTCTCGTAGAGATGGCGGTATTCGGATTGGCCTTTGCCCTGATTCCGGACCGCATCTGGCAGCCGCTGAGCGAGAAGGAGAAGGCCAACCTCTATCAGTGGCTCGATCAAATCAACCATCATCCTTGCTATGATTGCAATTGGCTGTTCTTCCATGTTTTTGTCAACGTTGGTTTCCGCAAAGCAGGCCTACCATACGATGCCGGGCAGCTGGAGAGCAATCTCCAGCGCATTGAGGAATTCTATCTGGATGCAGGCTGGTATAGCGACGGGATCGGGGGGCACTGCGATTATTACGTGCCGTATGCTTTTCATTTCTATGGCTTGCTCTATGCGCAGCTGATGGGAGACGAAGATCCGGACCGCGCCGGGCGCTACAGGGAGCGGGCCGCGTCGTTTGCACGCGATTTCATCCACTGGTTTGCTCCCGACGGGGCGGCCGTTCCTTACGGACGCAGCTTGACGTACCGCTTTGCGCAGCCGGCCTTCTGGTCGGCTGCGGCTTATGCCGGGCTGGACGGGTTTAGTCCGGGCCAGCTGAAGGGACTGGTCCTTAGAAATCTCAGATGGTGGTTTCAGCAGCCTATATTCGACCGGGACGGCGTGTTGACGGTGGGTTACGCTTACCCGAACCGAATCATGTCGGAGAACTATAACGCGGCCGGTTCGGTGTACTGGTCGCTGAAGACGTTCCTGATCCTGGCTTTGCCGGATAGCCATCCGTTCTGGGCGGTAGAGGAGCAGGAGCAGGCGGAGCTAGAACGTATCTCGGTGCAGGAGCCTGCACATCTGGTGCTTTGCAGGGACCCGCAGACCGGCCATGTGGCTGCGTTCAATACGGGCCACCCGTCTACCAACGAGCATACGCATACTTCCGCCAAGTACGAGAAGTTTGTTTACTCTACCGCCTTTGCGTTCAGCGTGCCGAGGGCGGAATGGGGACTGGCCCAGGGGGCTTTCGATTCCATGCTTGCCCTTAGCGAGGGAGATCGGCTGTTCCGTGTCAAGCGCTTATGCGAGGAGACGCGGATTCAGGAGCATGTGCTGTATGCGAAATGGAAGCCGTGGAGAGACGTCGAGGTAAGGACCTGGATAGCGGCAGGGCTGCCATGGCATATTCGCATCCATCGGATCAGCACGGAACGAAACCTCGATGCTGCCGAAGGCGGGTTTGCTTTAGGCTTGGGATCTCTGGACAGCTCCCGTGCGGGAGATGGGGCAGCATCAGCTTCCGGCACCTTCGGCACGAGTGCCATCCACGGCATGCTCGGTTACGATACGGCAGAGCTCATCTATCCCCATGCCAATACCAATCTGCTGCGTCCCCGCACGGTGATTCCTACGCTGAGGACTGCACTCGAACCCGGAACCCATTGGCTCATAGCGGCCGTGCATGGCACCCCCAGCGCTCCCGACACTCCCGCCATTGAGGAGCCTTCCATGGAAGACGTGAAAGAAAGGCTGGGCGTCGAGATTTTGCAGTATCAAATTACAATCACCACGCAGACGGGGAAAGTCATCGTGATTCCGATGGACTAA	MIHPVARNPLRTRRDVQEALSQLLEPLSKCYSEGRARLILERSGADAYADIAEMEGFSRVLWGLVPAVARGSHDELWELCLQGIRAGTDPAHAEYWGKVNDYDQRLVEMAVFGLAFALIPDRIWQPLSEKEKANLYQWLDQINHHPCYDCNWLFFHVFVNVGFRKAGLPYDAGQLESNLQRIEEFYLDAGWYSDGIGGHCDYYVPYAFHFYGLLYAQLMGDEDPDRAGRYRERAASFARDFIHWFAPDGAAVPYGRSLTYRFAQPAFWSAAAYAGLDGFSPGQLKGLVLRNLRWWFQQPIFDRDGVLTVGYAYPNRIMSENYNAAGSVYWSLKTFLILALPDSHPFWAVEEQEQAELERISVQEPAHLVLCRDPQTGHVAAFNTGHPSTNEHTHTSAKYEKFVYSTAFAFSVPRAEWGLAQGAFDSMLALSEGDRLFRVKRLCEETRIQEHVLYAKWKPWRDVEVRTWIAAGLPWHIRIHRISTERNLDAAEGGFALGLGSLDSSRAGDGAASASGTFGTSAIHGMLGYDTAELIYPHANTNLLRPRTVIPTLRTALEPGTHWLIAAVHGTPSAPDTPAIEEPSMEDVKERLGVEILQYQITITTQTGKVIVIPMD				NA	NA	NA	NA	NA
AK002_00989	708			hypothetical protein	ATGAAGAAGAAAGTATTGTATGGGTTATTGGCGGGTACACTCACGCTGGGGATCGGTACAGGCGCTATGGCGTCGGCAGCTTTGGAACCAATCAAAGCCTATTTGAACAGCAAGATTTCCCTGAAGTTAAACGGTACCGTGGTAACGCCGAAAGACGCAAACGGCAAAACCGTGCTGCCGATCACTTACAACGGCACGACGTACTTGCCTGTGCGAGCTGTAGGCGAGCTGATGGATATCGACATTCGTTATGACAGCGCAACTTCTTCAGTACTGATTGGCGGCAATCAGGGCTCCCCATCCGAAACCTCCAGTCCGTTATCATTAAGCTCGCTCGGAGCCTCCGTATTGGGGACATCGGCCTGGCACACCAAAGATTCCAGCGATACGGTTTACAAAGGCAAGGATTACAAAGACGTTTATTTACATACCGATTCGGCTAAACAAGGCAACAGCTTCCAGATCATGACGGGTAAAAAATATGCCAAACTGCATCTTGAGCTAGCCGTGACAGGCGGTGCGCAAGAAATCGTAATTATGGACCACAACAACTCAACGCTCAAAAAGGTGTCCCTGGCTACAGAAGATGGCCTGGTCGGCGTAGACGTCGATGTATCGGCTGCCGATTTTATTTTTGTGGAGATCGTTGATGAAGGTCCGGGCACTTCCCTGTTTGTTCCTCTGACCAGTTCCTATTTGACAAAATAA	MKKKVLYGLLAGTLTLGIGTGAMASAALEPIKAYLNSKISLKLNGTVVTPKDANGKTVLPITYNGTTYLPVRAVGELMDIDIRYDSATSSVLIGGNQGSPSETSSPLSLSSLGASVLGTSAWHTKDSSDTVYKGKDYKDVYLHTDSAKQGNSFQIMTGKKYAKLHLELAVTGGAQEIVIMDHNNSTLKKVSLATEDGLVGVDVDVSAADFIFVEIVDEGPGTSLFVPLTSSYLTK				NA	NA	NA	NA	NA
AK002_00990	1269	ilvA	COG1171	L-threonine dehydratase biosynthetic IlvA	ATGGAAGAGACGTATACGGCAAAACGGGCAGTCAGCATGGAGGACATCGTGCGCGCACACCACGTGCTTCGCGAAGTGATCGTACGCACGCCGCTGCAGCGGGATGCAGTACTGTCAGCCAAGTATGACTGCGAAGTGTATCTGAAGCGCGAGGACCTGCAGGTGGTTCGCTCCTTCAAGATCCGCGGCGCTTACAATATGATTCGCAGCTTGTCGGAGGAAGAACGCAGCAACGGCATTGTGTGCGCAAGCGCGGGCAACCACGCGCAAGGGGTGGCTTTCTCCTGCAACGCGTTGAATATCAAAGGCAAGATTTACATGCCGAGCACGACCCCGAACCAGAAGGTGAAGCAGGTGAAGCGTTTTGGCGGGGGCAGCGTCGAGGTCATTCTGACAGGGGATACCTTCGATGATGCATATGCCGAAGCGATTAAGGCATGCGACGAGTACGGCATGACCTTTATCCACCCGTTCGATGAAGCGAAGATCATCGCGGGCAACGGCACGATCGGGATGGAGGTTATGGAGGAGCTGGACGCGCCTGCCGACTATATGTTTGTCACCATCGGCGGCGGCGGTCTTGCGGCCGGTGTGGCAACCTACGTCAAAACCGTCAGCCCAACGACGCAAGTCATTGGCGTCGAACCGCTTGGGGCAGCGTCCATGATCGAGTCCAAGAAGCAGGGCGAAGTCGTCACCATGCATGAGATCGACAAATTCGTGGATGGCGCCGCCGTGAAACGCGTCGGGCAGCTGACGTATGATATCTGCTGCGAGTTGGTGGACGACATCGTGACGGTACCGGAAGGTAAGGCGTGCACCACCATCCTGGAGCTGTATAACGAGAATGCGATCGTTGTGGAGCCGGCGGGGTCGCTGGCCGTCGCGGCGCTGGATATGAACCGGGACCGGATTCGCGGGAAAACGGTCGTCTGCATCATCAGCGGCGGCAATAACGATATCGACCGGATGCAGGAAATCAAGGAGCGCTCCTTGATTTACGAAGGGTTGAAGCATTACTTCATGATCAACTTCCCGCAGCGCGCGGGGGCGCTCCGCGAATTTCTGGAAGAAGTGCTCGGTCCCGACGACGACATCGCGCGCTTCGAGTATACGAAGAAGCATAACAAGGAAGACGGACCTGCCCTGGTAGGCATCGAGCTCTTGAGGCCGGAGGATTACGGCCCGCTGGTGGAGCGGATGCAGCGCAAGGGACTGGATTACACGGAGCTGAATAAGAACATGAACCTGTTCAATCTGCTGATTTAA	MEETYTAKRAVSMEDIVRAHHVLREVIVRTPLQRDAVLSAKYDCEVYLKREDLQVVRSFKIRGAYNMIRSLSEEERSNGIVCASAGNHAQGVAFSCNALNIKGKIYMPSTTPNQKVKQVKRFGGGSVEVILTGDTFDDAYAEAIKACDEYGMTFIHPFDEAKIIAGNGTIGMEVMEELDAPADYMFVTIGGGGLAAGVATYVKTVSPTTQVIGVEPLGAASMIESKKQGEVVTMHEIDKFVDGAAVKRVGQLTYDICCELVDDIVTVPEGKACTTILELYNENAIVVEPAGSLAVAALDMNRDRIRGKTVVCIISGGNNDIDRMQEIKERSLIYEGLKHYFMINFPQRAGALREFLEEVLGPDDDIARFEYTKKHNKEDGPALVGIELLRPEDYGPLVERMQRKGLDYTELNKNMNLFNLLI	PGPT0001960_2747	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
AK002_00991	933			hypothetical protein	ATGTTAAAGTCGAAAAAATCCGCGATTGCTGCCATCCTTGCACTTATTCTATCGATCCAGACCGGCGTTATCGCTAGCGCAGCACCCGCATCCCAAACTGGCTCAAATGCAGTTTCAAGCAAAGCTGCCGCCTTCGGCAATGCCGTGTACAACAAAGCCAATAAACTGCTGAAGGAATCCGACGTGGCTTATGCCAAGTCTTACATCACCAAGCATATCCGCAGCGTGACCGCGTATCAGGCGACCATGCTGGTGCTTAAGCTGGAGAATGCGATGAATGATGCGCTCCCGGCAAAAACCGACAAGGTGTACGAAATCGGCATTCAGGATAAACTGATGAACTTGTACAAATACGGGGAGCCGATTAACATCACCATTAACAAAACCAAGGATGAAACGCTCCGAAAGGTGCTCATCAACCTGCGCGACAGCGGCTACAGGCTGTATACGACCGAGGGCGTGATCTTCCCGATTATCGACTATACCACGCTGAAGCCTTACAAGCCTTATATCAACAAGGATATTCAAGCCTATATCGACATCATGGTCGTTGAATCCGAGAAGCCTGCCGTCAGTGATGCCGCTTTGGTGATCCCATGGAGCGAGGCCATTGATCGGGGACTAACGCAAGAGGCCTTTATCAGCGCGTATCCCAAATCCAATCGGACTGCGGACGTGAAGCTGAAGCTTCGATTCACCGAGCTTAGTTTATACTACGGATACAACAACACGCCGCTGTTCAAATACGAGGACAATCTGCTGGACCCGGAAGTACGGCAAGCATTCGATAAAGTACTGAAAGACAGTGACGCTGTCTCCAAAAGCGCCCTTCTCAAAAAGCTCAAGTCCTGGTCCGACGTGCTGGAGAGCAACAAAGACAAGCTGAACCAGGAAGTGGAGCGGTACCGTGCCAAGGCGGTTCCGATTGACTGA	MLKSKKSAIAAILALILSIQTGVIASAAPASQTGSNAVSSKAAAFGNAVYNKANKLLKESDVAYAKSYITKHIRSVTAYQATMLVLKLENAMNDALPAKTDKVYEIGIQDKLMNLYKYGEPINITINKTKDETLRKVLINLRDSGYRLYTTEGVIFPIIDYTTLKPYKPYINKDIQAYIDIMVVESEKPAVSDAALVIPWSEAIDRGLTQEAFISAYPKSNRTADVKLKLRFTELSLYYGYNNTPLFKYEDNLLDPEVRQAFDKVLKDSDAVSKSALLKKLKSWSDVLESNKDKLNQEVERYRAKAVPID				NA	NA	NA	NA	NA
AK002_00992	663			hypothetical protein	ATGAATACCAAACAGATGATCAAAGAGAACAACCGACTCCAGGATGCCATGAATTCGAACAACCTAAGCTATTACCAAGACATGGTGGTCTATATCCGCAGCAGCTCCGTGCAGGAGCAAAAAGGCGAGGAGCTGCTGCTCGAAATCGCCCAGCACCTGCTGGACGCGCAAGCCAAAGGCAAAAGCGCCGAGGAGGTATTCGGCAGCGATCCCGAATCCTATTGCAAGGAGCTGGTCGAGCAGCTGCCAAAAATGAAAGGCCTCAGCAGCCTCCAATTCCATCTCATGATCCCGTGGGTGGCCTTAACCTGGTTTTTCTTCGTTCAGGCTCTGGTCGGGTTCATCACGATGTGGGCCGGGGGTCCGGTCGAGCGCATGACGCAGGTACGTTTATCGACCCTGATTCTGATCGCAGGCGGTTCCTATGTGCTGATCCACGCATTGCTGAGATGGATGAAGAACGACACCTTCAAGCCGGACGCAGACAAACGCAAGGTGAATGCTCGCAATATCGGGATTTATGTCGCCATCACGGTATTGATATTGGTAGCGGGGGTGTGGCTGGGAAGGCTGCTGCCGGTACTGACGGTTGCGCCATGGATCAGCCTCGTCATATTCCTGATCGGAATCGCAGGGACCAAGCTTCTTTTTTCGAGCAAATAA	MNTKQMIKENNRLQDAMNSNNLSYYQDMVVYIRSSSVQEQKGEELLLEIAQHLLDAQAKGKSAEEVFGSDPESYCKELVEQLPKMKGLSSLQFHLMIPWVALTWFFFVQALVGFITMWAGGPVERMTQVRLSTLILIAGGSYVLIHALLRWMKNDTFKPDADKRKVNARNIGIYVAITVLILVAGVWLGRLLPVLTVAPWISLVIFLIGIAGTKLLFSSK				NA	NA	NA	NA	NA
AK002_00993	336			hypothetical protein	ATGACCACCCAAAGTCAAATGCTAAAAGGCATTCTCGAAGGCTGCATCCTCTCGCTCATGGAGCATCGGGAGGTTTACGGTTATGAGCTCAGCACGCTGCTGGAAGACAGCGGGCTGACGTTTGTGAGCGAAGGCAGCATCTATCCCCTGCTGCTGCGCATGCAGAAAGAGCAGCTCATCGAAGGCACCCTAAGGCCCGCCCCCGGTGCCGGGGGACCGCCACGCAAATATTACAATTTGACCGATAAAGGCCGGCAGGTTCTTCAACAATTCAAGGAACATTGGGGAACGCTTAAAGATAGTGTGGACCACATTTTAACCCGCGGAGGACAGTAA	MTTQSQMLKGILEGCILSLMEHREVYGYELSTLLEDSGLTFVSEGSIYPLLLRMQKEQLIEGTLRPAPGAGGPPRKYYNLTDKGRQVLQQFKEHWGTLKDSVDHILTRGGQ				NA	NA	NA	NA	NA
AK002_00994	255			hypothetical protein	ATGAGCGCTAGCTTTTTTGACGATGAATTGCACGGAGGAGACGCTGTGCCGGCACAAGGGCAGGAGGTAATCGCAAGCAGCGGTGCTCCGGATGGTTCACCGGCCCAGCCTGAAGGAGGATTCGTCTCCGAGCGTGAGGACCATGATCGCTCCGCCGCATCCTTATGGGAGAACGATCCCGTCGGGAAGACCTGGATGAACGATTGGAGCGGGCGCGAAGAAACCCATGCGATGTTTCGCCAGAGCTACGAGTAA	MSASFFDDELHGGDAVPAQGQEVIASSGAPDGSPAQPEGGFVSEREDHDRSAASLWENDPVGKTWMNDWSGREETHAMFRQSYE				NA	NA	NA	NA	NA
AK002_00995	828	menH_5		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGGAGCGGCAAATTACAATCCGGCATAATCAAGAGGAACTTACGGCAACCATCCATTACCCATTGAAGGAATCGGCTCACGGAAGCCGATGCAATCGGGTCCCGCTGGTCATCATCTGCCATGGCTTTGTGGGAAGCCGGATCGGGGTGGATCGGTTGTTTGTCAAAACGGCGCGCGAGTTTGCCGAGGACGGGTACATGGTGATCCGGTTCGACTATATCGGATGCGGGGAAAGCTCGGGCAATTACGGCAGCGAAGGTCTCGACTCGATGATTGCCCAGACGCGTTCCGTTCTTGATTACGGACTCAGCTGCGCGGATGTCGATCCAACGCGGATCACGCTCCTCGGACATAGCTTGGGCGGCGCCGTCGCCCTGCAGACGGCCGTTCGAGATCGCCGGGTAAAGAATTTGATTCTGTGGTCCGCGGTAGGATACCCGTTCAACGATATCGTCAAAATCACCGGTCGCGACGTGTACGACACCTCGGTTAAGTCGGGATCCGCCGATTATTTGGGATACTCGTTTACCCCGGTCTTTTTCGATTCGCTGGCTCAGGGGCAGCCATTCCAGGAAGCCATCAAGTTTACGGGCAATGTGCTGGTCGTCCATGGTACCTCGGATGAGGTGATTCCGGTGGACTACGCTTTCCTGTTTCAAAAGGTGTTCTGGATGCGTCAGGAAGGCCGCTGCGATAAGGAGATTATCTTCCAGGCCGATCACACGTACTCAGCCGGACCCCAGCGCCAGCTGCTCCTTGAGCGGACGCGGGATTGGTTGAACGGGCAGGAGAACATTCAGCAGGAATGGCAGCACTGGATGATTTAA	MERQITIRHNQEELTATIHYPLKESAHGSRCNRVPLVIICHGFVGSRIGVDRLFVKTAREFAEDGYMVIRFDYIGCGESSGNYGSEGLDSMIAQTRSVLDYGLSCADVDPTRITLLGHSLGGAVALQTAVRDRRVKNLILWSAVGYPFNDIVKITGRDVYDTSVKSGSADYLGYSFTPVFFDSLAQGQPFQEAIKFTGNVLVVHGTSDEVIPVDYAFLFQKVFWMRQEGRCDKEIIFQADHTYSAGPQRQLLLERTRDWLNGQENIQQEWQHWMI				NA	NA	NA	NA	NA
AK002_00996	777	ygiD	COG3384	4,5-DOPA dioxygenase extradiol	ATGACGTTACCTGCTTTATTTATTGCCCATGGTTCGCCGATGATGGCCCTGGAGGACAACGAGTACACCCGCTTCCTTGAGCAGTTGGGGCGGGAGCTGCCTGCACCTAGAGGCATTGCGGTATTTTCAGCCCATTGGGACGATCCGGATCAACGGTTGACCGAGGACGCCGAGCATGGAACCATGCATGATTTTTACGGATTTCCGGAAGAGATGTACAAGATTACGTACCCTGCCCGAGGCAGTGCGGAGCTGGCAGCTCAGATCCGTCAGCGTTTTGAGGCAAAAAATCTGCACGCCAAAGCCATAACCGGCCGCGGACTGGACCATGGGGTATGGGTCATTCTGCGCAAAATGTACCCCGATGCGAATATCCCCGTGGTGGCCTTGTCCGTGGACTCCAAGCGCTCGCCAAGCGAACAATATTCCATCGGTGCGATGCTGTCCGATTTGCGTGATGAAGGCATTCTGATTATCGGCAGCGGCGGCTTGGTGCACAATCTGCGGATGGTGCATCAGAGTAATGAGCCCGATGCTTGGGCGGCTGAATTCGACGAATGGGTCGCGGAGCAGCTGTCGAATTGGGACCTGCACAATCTGTTTGCGTATGACAAAAAAGCGCCTCATGCCAGCGACGCCGTACCTTCCTACGGACGGGAGCATTTTGTTCCCTTGTTCTATGCGATGGGAGCTGCGGACAACGGCCGCAAGGCGAAGCGATTGTTTCAATCTTACCAATATGGCAGTTTGAGCCTGAACTGCTGGTCATTCGAATAA	MTLPALFIAHGSPMMALEDNEYTRFLEQLGRELPAPRGIAVFSAHWDDPDQRLTEDAEHGTMHDFYGFPEEMYKITYPARGSAELAAQIRQRFEAKNLHAKAITGRGLDHGVWVILRKMYPDANIPVVALSVDSKRSPSEQYSIGAMLSDLRDEGILIIGSGGLVHNLRMVHQSNEPDAWAAEFDEWVAEQLSNWDLHNLFAYDKKAPHASDAVPSYGREHFVPLFYAMGAADNGRKAKRLFQSYQYGSLSLNCWSFE				NA	NA	NA	NA	NA
AK002_00997	231			hypothetical protein	ATGAGAAGCCGAGCTTGGATCACAAGCTCGGCTTTTGTTGTGTTTGGGTGGTTTGAGCGCGTGAAACGCGCGAAACAAAAAAACACCCGCTATGCGGGTGCCGGAGAACAAGAACGCAGCGCCATAGGTCTTATATACAAGCCCATGCAGTCTGAAATAAGATTGCATGGTTTTTTTCTGCACAAACTCGAGTTGACATTATTGAACTACAGTTGTAGTATTGATTTGTAA	MRSRAWITSSAFVVFGWFERVKRAKQKNTRYAGAGEQERSAIGLIYKPMQSEIRLHGFFLHKLELTLLNYSCSIDL				NA	NA	NA	NA	NA
AK002_00998	741			hypothetical protein	ATGAAAGCAGCAACGAAAGTAGCAATCGCTACCCTAAGCAGCATTCTATTACTGGGTTCTTCCGCAAGCCATGCGGCGGAGGCACAATCCGTCAAGAAAGCCCAAGAATCCGCTGTTAAAAAAACAGCCAAAGCAGACAAGTCTATATCTGCAGAGGAAAAAAAGTTTATCGAAAAAGAGATCCAGAGAGTAAAGGAGTTAACCCAAGAGTCGGGGGATATGTATGTTGTGTATCATAAATACCCAAAGTTAAATAGCGGATTTGATATTAGCTATTGGGGAGGGGTGCATGAATTCACTACATACGAGGACTACTTGAAAAAAGCTTCAACCCTGAAAGGATCCATTCTGCAGCAGCCTGCGAACCTGCCAAAGGGATATAAGTTCTTAACAGCGGTCATTGAAGCTCCGATCGAAGGAAAGTTCGTTGATGAAGTAAGAGCTGAAGGCAAGAAGAGCGGAAAGCCCATCTACATGAAAAAGATAGATTGGAAAGAAGCGGCAACCATCCGTCTTAAATATACGAACGGAGAAGACACGCTGGGCTTTTCCAAGTATACGGCAGATTCGGCGGGAAGCAAGAAAAAAGGTTTCTTTAACGATAAGCTGCCGGCTCATGTTTTTCCAAAATACGTTTTTTGGAATGATGGCGGCAAATTTGAATACAGTATTTCACTAACCTCATTGGATATGTCCAGGAAACAGAAGATCGAGATTCTGAAAGCAGCGGTGCAAAAATAA	MKAATKVAIATLSSILLLGSSASHAAEAQSVKKAQESAVKKTAKADKSISAEEKKFIEKEIQRVKELTQESGDMYVVYHKYPKLNSGFDISYWGGVHEFTTYEDYLKKASTLKGSILQQPANLPKGYKFLTAVIEAPIEGKFVDEVRAEGKKSGKPIYMKKIDWKEAATIRLKYTNGEDTLGFSKYTADSAGSKKKGFFNDKLPAHVFPKYVFWNDGGKFEYSISLTSLDMSRKQKIEILKAAVQK	PGPT0028100_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028100-blaR1-K02172	NA	NA
AK002_00999	414	blaI_1	COG3682	Penicillinase repressor	ATGAATCATCAAATACCACCGATTACGGATGCAGAACTGGAAATTATGCGCGTATTGTGGGCAAATCCGGACTGCCCTTCCAGCGAGGTCGTAAAGAAAATGACGGATCTGATGGGGTGGAACCCCAATACAACCCGGACGCTCCTCAGTCGTCTGGTGCAGAAGGAAGCAGCGGGTGCGAAACTGGAAAAGGGTTCAAAGCGCAACCAACTATTTTATCCGATCATCAGCGAGCAGGAGTATCTGCAGTCTGAAACCAAATCCTTCATGAAAAAACTTTATGGGGGGGCCTTAAAGCCAATGCTGGCCAACTTTTTGCAGGATAAAAAACTGAATGCGCAAGAAATCGAGGATCTGAAAGCTTTGTTTGACGAGAACAGCAGCGACGGGGAAGCAGAAAAGAGAGAGCCCTGA	MNHQIPPITDAELEIMRVLWANPDCPSSEVVKKMTDLMGWNPNTTRTLLSRLVQKEAAGAKLEKGSKRNQLFYPIISEQEYLQSETKSFMKKLYGGALKPMLANFLQDKKLNAQEIEDLKALFDENSSDGEAEKREP	PGPT0028105_76	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
AK002_01000	1878			hypothetical protein	ATGAGTCATACATTGCATGAAAATTTATTGTTGTTTTTCGGCTGGGTCATTCGCGGATCGTTCATGGCCGGCATCATGATCGTCCTCGTCCTGATCCTGCAATTTCTACTAAAAAACAAGATTGAAGCCAGATGGAGATACTGGCTTTGGTTTCCTGTGGCCATTCGCTTGCTGCTCCCTTGGGCCCCGGAATCTTCGCTTAGCCTATACAATGTTTTGTCTCTGGAGGCTCTAGTGCCCGGCATTCATCAACAAACTCAAGCTCCACCGCTTTGGAATGAAACGGGGAGAATAAGCGAAGCGGTGGTTCGCGCTGAGGGTTCTTTAAATCTGGAAGCAGGCGGAACTTCGGAAGTACCTGCTCCATCCCTTGATTCAGGACCCGTGAAGGAGAGCCGTTTTTGGTGGAATGGGTTCAAGCAAATAGGTTTCACCAATATATTGATGTCGGTTTGGCTTGCGGGCGTGCTGATTCTTGCCGCGAAAACGGTCTACGACCAGCTTCGATTGAAACAAGCCCTGCGCGCGGGCCGAAAAATGGATACGCCTTTTTTATCGGCAGTGTTTCACGAGACGAAACAGCAATTAGGCGTGAAGCGAAACGTGCAGTTTGTCGCCAGCGAGCGAATTCCAGGACCTGCCGTCGTCGGTTATAGTAAGCCGGCGATCGTCATTTCGCCAAGCCTGCTCATCACATTGAAACAGGAGCAGCTTCAATATATTCTTGCGCATGAGTTCGCGCATATTCAGCGGCGGGATGTGGCAGTGAACTGGTTGGTGCATATCATCCTGATCATCCACTGGTTTAATCCGTTATTATGGCTAGCCGTACATAAAGCTAGGCAAGACCAGGAGATGGCTTGCGATGCATGCGTCTTGGATCGGATGAGCCCGCAGCAAAGCAATGCATACGGACAAACGATCCTCCATGTGTTGGAGCATTTTTCAGGATACCAACGCCAGCCGGGGCTTGCCGGCCTGTCCGCCACGCATAAACAAATGAAAAGGAGACTGAAAATGATTAAACATTTCAACAAAAAATCCTACCGCCTGTCCATTTTGGGACTGGGAATGATTCTCGCGCTTGGCAGCGTGACGTTGGTTAATGCAAAGGAAAGCAATGCGGGGAACGTACCGCAAAAAGCTCCAGTTCAATCGGAACAGGATTCGAAAGCTGCAGTGAATCATGATCAGGATATGATTTATCCCGATGGGGATATAGACCGCGAGCTTTACAAGAAAGAACTGGAACAGGCCCAGAAAAAAGCAGCAGCCGCAGCCAAGGCTCTAACTCCAGAGGAAAAGAAGTATATCGAAGATGAGACCAATCGAGTGAAGAAACTAAGTAAAGAGACAGGTGATATGTACGTTCTGTATCATAAATATAAGGATCTTAACAGCGGATTCGACCTGAGTTATTGGGGAGGGATAGAAAAATTCTCTGCTTACGAGGACTACCTGAAAAGAGCTTCCACGCTGGAAGGTTCCATCCTGGAGCAGCCTGCCAACCTGCCGGAAGGATATAAGTTTGCCAAAGCGAGAATTGAAGGTCCAACCGAAGGAAAGTTCCTTGATGATGTAAGGGCCGAAGGCAAGAAGAGCGGAAAACCCGTCTACGCGAAAAAGATAGACTGGAAAGAGGCGGCAACCATCCGTCTTGAATATACGAACGGAAAAGACACGTTGGCTATTTCTAAATATATGTTGGACTCAGAAGGAATTAAGAAAAAAGGTTTCTTTGAGGATGACTTACCGGCGGATATCTATCCAAAATATGTTTTTTGGCATGAAGGGGGCTTCGAATACAGCATTTCAACCACATGGGATATGTCCAAGGAACAGAAGGTCGAAATTCTGAAAGCAGCGGTGCAAAAATAA	MSHTLHENLLLFFGWVIRGSFMAGIMIVLVLILQFLLKNKIEARWRYWLWFPVAIRLLLPWAPESSLSLYNVLSLEALVPGIHQQTQAPPLWNETGRISEAVVRAEGSLNLEAGGTSEVPAPSLDSGPVKESRFWWNGFKQIGFTNILMSVWLAGVLILAAKTVYDQLRLKQALRAGRKMDTPFLSAVFHETKQQLGVKRNVQFVASERIPGPAVVGYSKPAIVISPSLLITLKQEQLQYILAHEFAHIQRRDVAVNWLVHIILIIHWFNPLLWLAVHKARQDQEMACDACVLDRMSPQQSNAYGQTILHVLEHFSGYQRQPGLAGLSATHKQMKRRLKMIKHFNKKSYRLSILGLGMILALGSVTLVNAKESNAGNVPQKAPVQSEQDSKAAVNHDQDMIYPDGDIDRELYKKELEQAQKKAAAAAKALTPEEKKYIEDETNRVKKLSKETGDMYVLYHKYKDLNSGFDLSYWGGIEKFSAYEDYLKRASTLEGSILEQPANLPEGYKFAKARIEGPTEGKFLDDVRAEGKKSGKPVYAKKIDWKEAATIRLEYTNGKDTLAISKYMLDSEGIKKKGFFEDDLPADIYPKYVFWHEGGFEYSISTTWDMSKEQKVEILKAAVQK	PGPT0028100_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028100-blaR1-K02172	NA	NA
AK002_01001	540			hypothetical protein	ATGTTTAACAATTGGCTGAGAACAAACAAAGTGGCAATGTGGTTACTAACATTCATCCGGGTCTACATCGGGTATGAATGGATGACGGCTGGCTGGGGCAAATTGACGGGCGGATTCGAAGCAGGCGGCTTCCTGCAAGGCGCGATTGCCAAAGCAGCCGGCGATCACCCCGCCGTCCAAGGCTGGTGGGCAGCGTTCCTGGAGCACGCCGCACTGCCGGGCGTGAAGCTCTTCAACTTCATCATCCCGCTCGGTGAGTTCCTCGTCGGTGTCGGACTGATCCTCGGTACCTTCACCACCTTCGCTGCTCTGATGGGTCTTGTGATGAACGCCGCGTTCCTCTTCTCGGGCACCGTGAGCACCAACGCCCAAATGTTACTGCTTGAAGTGCTGATCATCGTCGCTGCTGCTAACGCCGGTAAAATCGGTCTCGACCATTGGGTTCTCCCTTACCTCCGCGGCCTGTGGAACAAAATGACGCACAGAACCACCAAAGGCGACGGCACCACCCACACACCTTTCAAAAAACAAACCGCATAA	MFNNWLRTNKVAMWLLTFIRVYIGYEWMTAGWGKLTGGFEAGGFLQGAIAKAAGDHPAVQGWWAAFLEHAALPGVKLFNFIIPLGEFLVGVGLILGTFTTFAALMGLVMNAAFLFSGTVSTNAQMLLLEVLIIVAAANAGKIGLDHWVLPYLRGLWNKMTHRTTKGDGTTHTPFKKQTA				NA	NA	NA	NA	NA
AK002_01002	525			hypothetical protein	ATGTTTATTCAATGGTTGCAATCCAGCAAAATCGCGATGTGGCTGCTGACGGTCATTCGGGTGTACGTCGGGTATAAGTGGTTATCGGCTGGCTGGGGCAAGTTAACGGGAGGCTTCGATGCGAGCGGATTTATGCAGGGAGCCATCGCCAAGTCCACCGGCGAGAATCCCGCGGTTCAAGATTGGTGGGCCGTATTCCTCAAGCATGCCGCGCTCCCCGGGGTCAAATGGTTCAACGTCATCATTCCGCTGGGCGAATTCCTCGTCGGGCTCGGCCTGATCCTCGGCTCGTTCACCGTGTTCGCTGCGCTAATGGGGCTGGTGATGAACTCGGCGTTCCTCTTTTCCGGTTCGATCAGCATCAATGGTCAGCTCCTGCTGCTCGAATTCCTGATCATCCTCTCAGCGGCCAACAGCGGTAAGATCGGCATCGACCGTTGGCTCATGCCTTATCTTCAGAATAAATTCACGCGCAAGGCGAAAGTCAGCAACGACTCCTCCCCTCTGCAGAATCAGGCAGTCTGA	MFIQWLQSSKIAMWLLTVIRVYVGYKWLSAGWGKLTGGFDASGFMQGAIAKSTGENPAVQDWWAVFLKHAALPGVKWFNVIIPLGEFLVGLGLILGSFTVFAALMGLVMNSAFLFSGSISINGQLLLLEFLIILSAANSGKIGIDRWLMPYLQNKFTRKAKVSNDSSPLQNQAV				NA	NA	NA	NA	NA
AK002_01003	537			hypothetical protein	ATGTTTAACAATTGGCTGAGAACAAACAAAGTGGCAATGTGGTTACTGACATTCATCCGGGTCTACATCGGGTATGAATGGATGACGGCAGGTTGGGGCAAATTGACGGGCGGATTCGAAGCAGGCGGATTCCTGCAAGGCGCGATTGCCAAAGCAGCCGGCGATCACCCCGCCGTCCAAGGCTGGTGGGCAGCGTTCCTGGAGCACGCAGCACTGCCGGGCGTGAAGCTCTTCAACTTCATCATCCCGCTTGGTGAGTTCCTCGTCGGTGTCGGACTGATCCTCGGTACTTTCACCACCTTCGCTGCTCTGATGGGACTTGTGATGAACGCCGCGTTCCTCTTCTCGGGCACCGTGAGCACCAACGCCCAAATGCTGCTGCTTGAAGTGCTGATCATCGTCGCTGCTGCCAACGCCGGTAAAATCGGTCTCGACCATTGGGTTCTCCCTTACCTCCGCGGCCTGTGGAACAAAATGACGCACCGCGATCATGAGCCTAAAGCGCCGACGACTCATCTGAAAAAACGAACAGCTTAA	MFNNWLRTNKVAMWLLTFIRVYIGYEWMTAGWGKLTGGFEAGGFLQGAIAKAAGDHPAVQGWWAAFLEHAALPGVKLFNFIIPLGEFLVGVGLILGTFTTFAALMGLVMNAAFLFSGTVSTNAQMLLLEVLIIVAAANAGKIGLDHWVLPYLRGLWNKMTHRDHEPKAPTTHLKKRTA				NA	NA	NA	NA	NA
AK002_01004	855	yofA	COG0583	HTH-type transcriptional regulator YofA	ATGGAAAGCGGAGATTTACGGATATTCCGCGCAGTAGCGGAGGAAGGCAGCATTACGCGGGCGGCCCAACGCCTGCAGTATGTTCCCTCCAACGTCACGGGCCGGATCCGCCAGCTGGAGGACAGGCTCCAGACGGCCCTGTTTATCCGAAGCAATCGAGGGATGGATCTGACCCCTGCCGGCGAGCGCCTGCTTGGATACACGCGTCAAATTTTAAATTTGCTGGATGAAGCGGAGAAATCCGTACAGGCTGAGGATACGCCGCGGGGACCGCTACGAATCGGTGCGATTGAATCCACCGCCGCTGCATATCTGCCAGGACGCCTGGCCGACTATTATGCCCGTCACCCCGAGGTCAGCCTGTCCCTCACCACGGGCAACTCCAGCGTGCTGATGCAGCAAGTGCTGGACCGCGAACTGGACGGCGCTTTCGTGTACGGACCTTTGACGCACCCTATGCTGAAACAGATTCCTTCGTATAATGAGGAACTGGTACTCATCTCCGAAGCCGGAGCGGCAAGCCAGCAGGAGCAGTTGCAGAAGCCGATGCTTATTTTGTCGACAGGCTGCACTCACCGATCCAGAGTGGAGCGCCTGCTGGCCGAAGCTGGCGTTCAACATCCGCAAATCATAGAGTTCGGTTCGCTCGAAGCCGTGTTAGGCGGGGTTGCTTCGGGTCTCGGCGTAGCGCTTCTCCCAAGGTCCAATGCCGTTTCGCTTTCCAACGAGAAAAACATTGCAGCCATGACACTGCCGGAGTCCTACCGCGAGGTCGTGGTGTATTTTATCTATCACCGCGACGTGCCACTGAGCAGCGCCCTTCGAGCTTTTCTTGAGCCGGAGAATCAAAAATGA	MESGDLRIFRAVAEEGSITRAAQRLQYVPSNVTGRIRQLEDRLQTALFIRSNRGMDLTPAGERLLGYTRQILNLLDEAEKSVQAEDTPRGPLRIGAIESTAAAYLPGRLADYYARHPEVSLSLTTGNSSVLMQQVLDRELDGAFVYGPLTHPMLKQIPSYNEELVLISEAGAASQQEQLQKPMLILSTGCTHRSRVERLLAEAGVQHPQIIEFGSLEAVLGGVASGLGVALLPRSNAVSLSNEKNIAAMTLPESYREVVVYFIYHRDVPLSSALRAFLEPENQK				NA	NA	NA	NA	NA
AK002_01005	990	adhT		Alcohol dehydrogenase	GTGAAAGCAGCCATTCATCGCGGCCGGAGCGGACTGGACGGACTTCGGGTCGGCAATATGGAATCGAAACAACCGGGTCCTGGTGAGATCCGGGTCCGTCTAAAGACGGCCGGACTCAATCACCGCGATCTGTTTCTGATGAAGGGACGTCATGCGGCGGATGCACCGCTCATTCTGGGCTCAGACGGCGCAGGCATCATTGATGACGTAGGTGAAGGAGTGGGGGGTCTGACGGTCGGCACGGAAGTCATCATCCATCCGACGATCGGTTGGGATAACACTGAAGAGGTCCCGGTGGTGCCGCAGATCCTGGGCGGACCCACGGACGGTACGTTTGCTGAAACGGTCGTCATCCCAGCGGACAATGCCTTCAGAAAGCCGACATACCTGACATGGGAGGAAGCGGGAGTACTGCCTTTATCCGCGCTAACGGCCTACCGTGCGCTGTTTACAAGGGCGCATATCAAGCCTGGCGAGCATGTGCTTATACCAGGTATAGGAGGCGGGGTTGCAACCTACGCCATGCTCATGGCCCAGAATGCGGGGGCTGTCGTCAGCGTCACTTCCCGAAGCCAAGCCAAGCTCGAAGAAGCGCGGCGCTATTCTGTGCATAGGGCTTTTTCGAGCGGCGGGGATTGGAACGAAGAGCTGCAAGGGGAGAAGGTGGACGTGATTCTGGATAGTATCGGTCCGGCAACCTTTCCCCAATACCTGGAAGTGATCAAGCCGAATGGGCGGATCGTCAGCTTTGGGGCCAGCTCCGGCGACGCGGTCGAGGTTCCGCTGAGGGCTTTATTTTTTCCGCAGCTGTCCTGGATCGGTACGTCGATGGGGAGCCGCGAGGAGTTCGGAGAGATGCTTCGGTTCATGGAGGAGCACACCATTGCGCCCCTGATCGACCGGATGTACCCGCTGGATGAGATTCTGGATGCGTTCCGGCGGATGACGGCGGGCGAGCAGTTTGGCAATATTGGTTTGCGGATCGGATGA	MKAAIHRGRSGLDGLRVGNMESKQPGPGEIRVRLKTAGLNHRDLFLMKGRHAADAPLILGSDGAGIIDDVGEGVGGLTVGTEVIIHPTIGWDNTEEVPVVPQILGGPTDGTFAETVVIPADNAFRKPTYLTWEEAGVLPLSALTAYRALFTRAHIKPGEHVLIPGIGGGVATYAMLMAQNAGAVVSVTSRSQAKLEEARRYSVHRAFSSGGDWNEELQGEKVDVILDSIGPATFPQYLEVIKPNGRIVSFGASSGDAVEVPLRALFFPQLSWIGTSMGSREEFGEMLRFMEEHTIAPLIDRMYPLDEILDAFRRMTAGEQFGNIGLRIG				NA	NA	NA	NA	NA
AK002_01006	1134	yerB		Putative lipoprotein YerB	ATGTTTAGCAAAGGGTCTTTGTCTTTCCGAAAATATGCGTGGAGGACAAGCTTATTGTCCATGGCGGCAGTATTGCTGCTGTCCGGTTGCAGCGGCGGTAAGCAGCAGGCTGAGCCAACGCCGGCACCAGTGGTGGAGGCTCCGGTCGAGCAGCCGGTCGAAGTGCCCCAGGAGGAAACCTCTTCTCCGTATAAGGCACCTCTGACGGGATTGCCGTTAGAAGCGTCACTGACGCAGCGTCCGCTGGCCGTTATGATCAATAACGCACCGGCTGCTAGGCCGCAGTCGGGTCTGAGTCAAGCGGACATGGTGTACGAAGTGCTGGCGGAGGGAGGTATCACGCGGCTGATCGGCATCTTCCAAAGCCAGAGCGACATTAAGAAAATCGGGCCGATTCGGAGCATTCGACCGTATCTGATCAATCTTGGCGAGAGCTACGGCGGCGTTCTGGTGCATGCGGGAGGAAGCCCGGAAGCCTACAGCATCATTCAAAAGCAAGGCAAGCAGGACATGGACGAGATCGGGAATGCAGGCGCCTACTTCTGGAGGGCCAAGGACCGCAAAGCGCCGCATAATCTGTATTCCAGCGACGAGAAGCTCCGTGAAGGAGCGGCCAAGCTGGATTACGGCAACGACGTGAAGGTGCCAGAGTATTCGTTCTATCCGGAGGCGATCGCTGCAAGCGCCGATGGCGAAGAGGGCACTGAACCGGTTGAGGTTGTTTCCGGGGAGGCTGCAGAGAAGGTGGAAATCAAATTTTTATTGGACAGCTATGTCGTGGATTATCAGTATGACGGTTCCTCCAACACGTACAAACGGTCGATCAACGGATCGCCGCATGTGGATCTCAACGATAACGTTCAGCTGGAGGCCGCGAATGTGATCGTGCTGGGGGCGGACCATAAGGTGCTGGATGACGTGGGCCGGCTAGCCGTGAACGTGGAAGCGGGCGGGGAAGCGATGCTGTTCCAGCGCGGGGAAGTCATCAAGGGGCAGTGGGTACGCGCTGCGGGTGATGCGATCCGTTTCGTCAAGGACGGCAAGGAAGTGCCGCTGGTTCCGGGAACGACATATTTCAACATTGTGCCCAACACGCCTTCTTTTGAAAGCCACGTCACGATCTCGAATCCCTAG	MFSKGSLSFRKYAWRTSLLSMAAVLLLSGCSGGKQQAEPTPAPVVEAPVEQPVEVPQEETSSPYKAPLTGLPLEASLTQRPLAVMINNAPAARPQSGLSQADMVYEVLAEGGITRLIGIFQSQSDIKKIGPIRSIRPYLINLGESYGGVLVHAGGSPEAYSIIQKQGKQDMDEIGNAGAYFWRAKDRKAPHNLYSSDEKLREGAAKLDYGNDVKVPEYSFYPEAIAASADGEEGTEPVEVVSGEAAEKVEIKFLLDSYVVDYQYDGSSNTYKRSINGSPHVDLNDNVQLEAANVIVLGADHKVLDDVGRLAVNVEAGGEAMLFQRGEVIKGQWVRAAGDAIRFVKDGKEVPLVPGTTYFNIVPNTPSFESHVTISNP				NA	NA	NA	NA	NA
AK002_01007	615			hypothetical protein	ATGAAAATGAAGAAAAAGGATATATTCTTCCAAACGCTGGAGAATATGGCCGATACGGTGGTACAAGCCGCAGACTATTTTTCGCAGCACGTTTCCAATCTTGAAGATGTGCTTGAATTTGCCAACGAAATGAAGAAATACGAGTCGCAGTGTGATACCTACACGCATACCATCATTACTGAACTCAACAAAACATTTATTACGCCAATCGAACGCGACGACATCATGGACCTGACAACCAGCATGGACGATGTGATGGACGGATTGGAAGCAACCGCATCCCGTTTCTATATGTATAATCTGGGGAAACCTGACGAGTACATGGTGCAGTTTGCAGAGATTCTGCGTCAATCGGCTTATGAAATCCAGAAAGCCATTCATTTGCTCTCCCAGAAGAAACTTCTGGCGATCCGTGAATACACGATCCGCTTGAACGATCTGGAGAACCAAGGCGACGAGCTGCTGCGGATCTGCATCAAGGATCTGTTTGCCACCGTCTCTGACCCGATTCTGCTGATCAAGAAGAAAGAGATTTACGAACGTCTTGAGACGACCACGGACACCTGCGAAGACGTGGCAAATATGCTGGAATCCATCATTATGCGCAACTCGTAA	MKMKKKDIFFQTLENMADTVVQAADYFSQHVSNLEDVLEFANEMKKYESQCDTYTHTIITELNKTFITPIERDDIMDLTTSMDDVMDGLEATASRFYMYNLGKPDEYMVQFAEILRQSAYEIQKAIHLLSQKKLLAIREYTIRLNDLENQGDELLRICIKDLFATVSDPILLIKKKEIYERLETTTDTCEDVANMLESIIMRNS				NA	NA	NA	NA	NA
AK002_01008	990			hypothetical protein	ATGGATACAACGATGTTAGTATTAGTAATAGTTGTTTTTTTGGCGCTTGCATTTGACTTCATCAACGGGTTCCATGATACGGCGAATGCCATCGCAACGTCGGTATCGACCCGGGCCCTGAAGCCGCGGGTAGCCATACTGCTCGCAGCGAGCATGAACTTCGTCGGCGCGATGATGTTCACGGGCGTTGCCAAAACCATCGGCGGCAGCGTCGCGGATCCGACCAAGCTGGATAACGGGATCGAGGTTGTTATTGCAACATTGCTTGCAGCCATCATCTGGAACCTGGTTACCTGGTGGTTCGGATTGCCTTCGTCCTCTTCCCATGCCCTGATCGGGGCACTGGCGGGTGCGGTATTCGTCGGCGCGGGAAGCGACATGCTGAATTACGGCGGGTTTAAGGACATCGTGCTTGCGTTGATCCTGTCGCCGATTATCGCGTTCGTGATCGGTTATCTGGTCATGCAGCTGCTCAAGGTCATCTTCGCCAAGCGCAGTCCGCATACGGTGAACAAGGGCTTTCGTACGATGCAGATCTTCACGGCAGCGCTGCAATCCTTCACGCACGGTACCAACGACGCGCAGAAGGCAATGGGTATCATTACCTTTGCTCTCGTGACGTCCGGTCAATTGCAGGAGATGGAAGTGCCCTTCTGGGTTAAAGTCTCTGCGGCAACAGCCATGGCGCTCGGTACGTCGGTGGGCGGCTGGAAGATCATCAAGACCATGGGTACGAAAATATTCAAAATCGAGCCGATCAACGGGTTCGCCGCTGACTTCTCGGCCGCTTCCGTTATCTTCTCGGCGACATTGCTTCACTTGCCGATCAGTACAACGCATGCGATTACGTCGGCAATTCTCGGCGTAGGCTCGGCGAAACGCTTCTCCGCCGTAAAATGGTCCTTGGCAGGACGCATCGTGGTAACCTGGTTTATTACGATTCCGATTACGGCCGTACTGGCAGGAGTCATCTTTAAAATTCTTTTCTAG	MDTTMLVLVIVVFLALAFDFINGFHDTANAIATSVSTRALKPRVAILLAASMNFVGAMMFTGVAKTIGGSVADPTKLDNGIEVVIATLLAAIIWNLVTWWFGLPSSSSHALIGALAGAVFVGAGSDMLNYGGFKDIVLALILSPIIAFVIGYLVMQLLKVIFAKRSPHTVNKGFRTMQIFTAALQSFTHGTNDAQKAMGIITFALVTSGQLQEMEVPFWVKVSAATAMALGTSVGGWKIIKTMGTKIFKIEPINGFAADFSAASVIFSATLLHLPISTTHAITSAILGVGSAKRFSAVKWSLAGRIVVTWFITIPITAVLAGVIFKILF	PGPT0002655_3968	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPHATE_TRANSPORT,PGPT0002655-TC_PIT-K03306	NA	NA
AK002_01009	957	corA_1	COG0598	Cobalt/magnesium transport protein CorA	ATGATACGCGTTCTGGCGATTACGCCAAGCTATGAACCGGTGACCGGGCTTACGCTGGAAGAGATCCGGATGGAGGACTATGCCTGGATCTGGGCCGATTTCAGCAATCCGACGCCGGAGGAGGCGCGGAAGCTGGAGAGCTATTTTCACTTCCACCCACTGGCAGTGGAGGATTGCCTGCATGTCCTACAGCGGCCGAAGCTGGATTATTACGACAACATGCAGTTCTTTGTCCTGCATGCGCTTCAGCCGGATACGCTGCAGGCGGTCGAGGTGGATGTATTCCTGGCCCCTTCGTTCGTGGTCTCCTTCCACCAGCAGGCGCTGCCGGAAATGGACGAGGCTTGGGAACGCGTGCTCGCGGTTGCCGGCAAGGGGCCGCTGGGGCAGGACGGTCCGAGCTTCACGGCGTATACGATTATGGATAAGCTGGTGGACCAGTATTTTCCCAGCCTGTTCGCCATCGAGGATGAACTGGCCGAGCTGGAAAGCCAAGGGGAGAAGGATTCGGTCGAAGACCTGATGAATCAGGTGTTCGCGCTGCGTTCAAGGCTGCTCCGCCTGCGGCGCACGGTGGTGCCGATGAGGGATCTGCTGTACCGGATCGTTAACTCGCAGCATATGGAGCATCATGCGCACCATGCTTATTTTTCCGACATTTATGACCACCTGCTGAAGCTCGCGGACATGATCGAGGCCGATCGCGAGATGACGGCGGATCTACGGGACAGCTACATATCGGTGAATTCGAACCGGATGAACACAATCATGAAGACGTTGACCGTTATTACGACGATCTTCATGCCGCTCACCCTGATCGCCGGGATTTACGGGATGAATTTCGAGAACATGCCGGAGCTGGGGTGGCATTACGGTTACTTCTTCGTGCTCCTTCTCATGTTTGTGCTGGGCGGCGGCATGGTGTTGTGGTTTATGCGCAGAGGCTGGTTTAAATAA	MIRVLAITPSYEPVTGLTLEEIRMEDYAWIWADFSNPTPEEARKLESYFHFHPLAVEDCLHVLQRPKLDYYDNMQFFVLHALQPDTLQAVEVDVFLAPSFVVSFHQQALPEMDEAWERVLAVAGKGPLGQDGPSFTAYTIMDKLVDQYFPSLFAIEDELAELESQGEKDSVEDLMNQVFALRSRLLRLRRTVVPMRDLLYRIVNSQHMEHHAHHAYFSDIYDHLLKLADMIEADREMTADLRDSYISVNSNRMNTIMKTLTVITTIFMPLTLIAGIYGMNFENMPELGWHYGYFFVLLLMFVLGGGMVLWFMRRGWFK	PGPT0014010_3783	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
AK002_01010	366			hypothetical protein	ATGAAACTCGGGCTCAAACGACATCCCAAGAAGCGTTCATCGCGTCAACCAGACGAGCCTTTGCGTTCCCGGCTGCTGCGCCGGATGCTTCGCTTGGCTAGGAGACGAAAACGGAAGCTCGCCGTCACGAACCGTTACGAGGTGGGCATGGTCATCAGCGAGATCGCCACGGGCCTGCTGTTCATCGCAGGCAGCATCATGATGTTCTATCCCCAGATGAAGCGAATCCCGACGGTGCTGTACCTGCTCGGCAGTATTACGATGCTGCTGCGTTCCGGTTTGCGCGGATCGTATTGGTTCCGGTTAAAATCGCTGGAAAGCGTCGAGAATAAAGAAGCCGGCCCCGAAGGGGACTGGACGCGCTGA	MKLGLKRHPKKRSSRQPDEPLRSRLLRRMLRLARRRKRKLAVTNRYEVGMVISEIATGLLFIAGSIMMFYPQMKRIPTVLYLLGSITMLLRSGLRGSYWFRLKSLESVENKEAGPEGDWTR				NA	NA	NA	NA	NA
AK002_01011	591			hypothetical protein	ATGACGCGTCATTCTCACTATTATCATCGCCGACCCACGAATAACCATCGCTCACTCAATTCATATGAATCACTGCCGCAGGATCCAACACCGTACCCTGGCATCACGCCATACGGCGATTATCCGGAAGTCGGTGAAACGGCGTTATATCCATATACCGACGGCGTAACGGATTTGGAGGCTTCGGCTTCGGCTCTCGCTCCCTCCACGAATTCCGGCGGCGGCGGGCTGGCAGGTCTCCTCGGCGGAGGAGGCGGCAGCGGCGGGGGATTAAGCAAGCTCCTCGGCGGGCTCGGGGTCAACAATATGAGCGACATCAAGGGACTCATCGACCGGATGGGCGGCATCGACGGCATCGTCAACAACATCGGCAAGGTACAAAAGGTCATGCAGGGCTTCCAGCAGCTTGCGCCTATGTTCTCCGTGCTGGCAGGCGCGCTTAAGAAGAAGGGCAGCGGATCGTCTTCGACTGCCTATACGGATCAGAATGAAGACGGCTACGAATACAGACCGAGAAGACGGCGGTCCTCGGGAAGCAGACGCCGCTCCGGCTCGCGCAAATCGTCTTCCGGCAAAAGACGGCGCCGTTAA	MTRHSHYYHRRPTNNHRSLNSYESLPQDPTPYPGITPYGDYPEVGETALYPYTDGVTDLEASASALAPSTNSGGGGLAGLLGGGGGSGGGLSKLLGGLGVNNMSDIKGLIDRMGGIDGIVNNIGKVQKVMQGFQQLAPMFSVLAGALKKKGSGSSSTAYTDQNEDGYEYRPRRRRSSGSRRRSGSRKSSSGKRRRR				NA	NA	NA	NA	NA
AK002_01012	291			hypothetical protein	GTGCAATTAAAGAAGCTAAATGATAAAAGCATCGATCAATTATTCGAAGCGATATTAACCCTGGACAGCGTGGAGGAATGTTATGTATTCTTCGACGATCTCTGTACCGTGAACGAAATCCAATCCTTGTCGCAGCGGCTGGAAGTGGCGCGCATGCTGGGCAAGGGATGCACATACAACCAGATTGAAGCAGAAACGGGAGCCAGTACCGCCACGATCTCGCGCGTGAAGCGTTGCCTGAACTACGGCAATGACGGTTACAAAATGACGCTGGAGCGTCTGGGACGTTAA	MQLKKLNDKSIDQLFEAILTLDSVEECYVFFDDLCTVNEIQSLSQRLEVARMLGKGCTYNQIEAETGASTATISRVKRCLNYGNDGYKMTLERLGR				NA	NA	NA	NA	NA
AK002_01013	765			hypothetical protein	ATGACGAAGCCGGGTGTGCTGGTCATCAGTCATGGCTCACGTGAACGGAAATGGGTGTCGCTTGTGGACGAGGCCGTCCACGAACTGGCATCCCGCATGGATATACCGGTCGTATCTTCGTACCTGGAATTGGTAGAGGGCCGTCTGATTCAGGACGGCATCACGGCCTTGGAAGACCAGGGTGTCACCGACATTGTGGTCATTCCTCTATTTGTCTCGTCCGGCAGCACACATGTCGACGAAATAGCTTATGCTATAGGAGCGAAGGCCGTTCCGGACATGGAGACGGACCTGGCGCCGTTTCGGGTTCGTTCCCGGGTTCATTTCGGTACGCCGATGGACGACGATCCCGAGATTGCGGCCATGGTATGGGATAAGGTGAAAGAGCTGTCCGTGAACCCGGCGAAGGAGGTCATTCTCCTCGTCGGGCACGGCAGCAGGCATGATCTGTTTCGCAGCCGCTGGGAAAAGGGTATTAACTCTTTGGCACAGCGAGTTAGCGAGGTAAGCGGAACCGGCGCGGATTATGCCTTACTCAGTCCTGGCGATGTGCGGGACAAGGTGACAGCATGGATGGAGCGCGGCTGCGATGTGATCGTAGCTCCGCTTTTTTTGAGTGAGGGGTATTTTACGGAGAAGGTAATACCCGATCGGCTCCAGGGGCTGGAATGCCGGTATTCCGGCAGAACCTTGCTTCCGCATCCGCTGCTGCCGCAGTGGATGGAGTCGCAGGCCAAACGTCTTCTTCAATCCTTGAAATCATAA	MTKPGVLVISHGSRERKWVSLVDEAVHELASRMDIPVVSSYLELVEGRLIQDGITALEDQGVTDIVVIPLFVSSGSTHVDEIAYAIGAKAVPDMETDLAPFRVRSRVHFGTPMDDDPEIAAMVWDKVKELSVNPAKEVILLVGHGSRHDLFRSRWEKGINSLAQRVSEVSGTGADYALLSPGDVRDKVTAWMERGCDVIVAPLFLSEGYFTEKVIPDRLQGLECRYSGRTLLPHPLLPQWMESQAKRLLQSLKS	PGPT0009235_663	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009235-cbiX-K03795	NA	NA
AK002_01014	882	dagK	COG1597	Diacylglycerol kinase	ATGAGAAATGCAAGGTTAATCTATAACCCAACCTCCGGCCGGGAGGAAATGAAGCGTCGGCTTGCTGATATATTGCACCGTCTGGACAGTGCTGGCATCGAAACCTCCTGTCATGCAACGACCGGAGAGGGGGATGCGACTCGCGAAGCGGCGGATGCCGTGGAACGCGGGTACGATCTTGTGATCGCGGCCGGCGGAGACGGCACGCTCAATGAGGTCATCAACGGGATGGCCGGCAGGGATAACCTCCCGCCGCTGGGCATTTTCCCGCTGGGGACCACGAACGATTTTGCGCGGGCGCTCGGCATCTCGAAGAACTGGGAGGAGTATTGCGATCTGGTGATTCGGGGCGAGACGCGTCCGATTGACGTGGGCAAAGCGAATGATCGCTACTTCATCAACATCGCTGGCGGCGGTACGCTGACCGAGCTCACCTACGAGGTGCCCAGCAAGCTGAAAACGATGATCGGGCAGCTGGCGTATTATTTGAAGGGGATCGAGAAAATGGTCAGCCTCGCGCCGCAGGAGCTCATCATCAACGCCAGCGGTCATCCGGCGATCCATGACGAATTCATGGTGTTCCTCATTGCGAACAGCAACTCGGTCGGCGGCTTCGACAAAATCGCGCCGGGCGCGAGCATCGACGACGGCTTGTTCGACGTCATTGCCCTGCGCAAGTGCAATCTGGCGGAGTTCGTGCGCGTGGCTACGCTCGCTCTGCGCGGCGAGCATATCAACGACAAGAGAGTCGTGCATTTCCGCACCGACTATATGGAGGTTGTCTCTCCGGGACCGGTTCAGCTGAACCTGGACGGCGAGTTCGGCGGCGTCCTGCCGGGCACGTTCCGTGTCCTGCCGCAGCATTTGCGGATTTTTGGCTGA	MRNARLIYNPTSGREEMKRRLADILHRLDSAGIETSCHATTGEGDATREAADAVERGYDLVIAAGGDGTLNEVINGMAGRDNLPPLGIFPLGTTNDFARALGISKNWEEYCDLVIRGETRPIDVGKANDRYFINIAGGGTLTELTYEVPSKLKTMIGQLAYYLKGIEKMVSLAPQELIINASGHPAIHDEFMVFLIANSNSVGGFDKIAPGASIDDGLFDVIALRKCNLAEFVRVATLALRGEHINDKRVVHFRTDYMEVVSPGPVQLNLDGEFGGVLPGTFRVLPQHLRIFG	PGPT0024345_1010	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
AK002_01015	1590	rlmCD_1	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	ATGAAGAAGAACCGCAAGGGAAGCGACACGCGCCGCAGCGGCAAGCCGGCGGCTTCGGCGGCCCTCCTGGACCTGCCGGTGGCGAAGAACGACGAGGTCGTGATCGATATTATAGGAATGAACCATGACGGAGAAGGGGTCGGCCGTGCCGACGGCTACACCCTGTTCGTTCAGGGCGCCCTGCCGGGCGAGAAGGCCCGGGTGAAGGTGCTCAAGACCAAGAAGCAGTATGGCTACGCCAAGCTGCTGGAGCTGGTCGAGCAGAGCCCCAATCGCATTGCAGCCCCATGCCCGATCTACGACCAATGCGGCGGCTGCCAGCTGCAGCATATGAGTTACACCGGGCAGCTGGAGTGGAAGCGCCAGCTGGTGGTGGACAACCTGGAGCGGATCGGAAAGCTGCGGGTGGTGCATGAGGCGAAAGATGCTGGAGCGACGCGTGTGGGCAAGGAGCGGAATGGCACAGATGGTGGAGGGGACATTGAGAATTCTGAAACCAATGGGACCAATCCTGCCGTTTCCGGCGTTGATTCAGATCAAGAGGGGATCCTCGTGCGGCCGACACTCGGTATGAGCGAGCCTTGGCGCTACCGCAACAAGTCCCAGGTGCCGATCGGCGTAACGGAAGGCGGCCTGGTCGGCGGCTTCTACGCCCGGGGCAGCCACCGGATCGTGGACATGGAGACGTGCCTCATCCAGCATGAGCAGAACGACGAGGTTGTCAGCCGCGTCAAAGCCATCGGGCGGAAGCTAGGCATCACCGCCTACAATGAAGAGACAGGCCAAGGCCTGCTTCGCCATGTCGTGGTGAAGATCGGTTTTGCTACCCGAGAGATGATGATTGTGCTCGTCACGAACGGCGAGCGGATTCCACGTGTCAACGAGTGGATCTCTGCTATTCGTGAGGAGCTCCCGGCGGTTGTGAGTGTTTGCCAAAATGTGAACACACGTAAAACAAACGTGATTTTTGGGGATGTAACCCGCGTCCTGTGGGGGCGTGAGGTCATCCATGACTATATAGGCGATGTGAAGTTCGCGATTTCTGCGCGTTCCTTCTATCAGGTGAACCCGGCTCAGACCGAAGTGCTGTACGGGAAGACAGTGGAGTATGCCGGATTAACCGGGGAAGAGATCGTGATCGATGCGTATTGCGGCATCGGGACGATATCCCTGTTCTTGGCACAGCATGCCAAGAAGGTATATGGGGTCGAGATCGTGAAGGAAGCGATCGAGGATGCGCGTGCGAATGCCGAGCTCAATGGTATGAAGCATGTAGAGTTTGAAGTCGGCGCGTCAGAGGATGTGATTCCACGCTGGAAAGAGCAGGGCATCGAGGCGGATGTGATCGTGGTCGATCCACCGCGTAAAGGGTGCGATCCACGCTTGCTGGAGACGATTCTTGAGATGAAGCCGGAGCGCGTAGTTTACGTGAGCTGTAATCCATCCACGCTGGCTCGGGATTTGCGAGTGTTGGAGGATGGCGGGTATCGGACGGTGGAGGTTACGCCGGTGGATATGTTTCCGCATACGGTGCATGTGGAATGCTCAGTGTTACTAAAATGGAGAGGGGCTAGTAAATATTCCCTTTGA	MKKNRKGSDTRRSGKPAASAALLDLPVAKNDEVVIDIIGMNHDGEGVGRADGYTLFVQGALPGEKARVKVLKTKKQYGYAKLLELVEQSPNRIAAPCPIYDQCGGCQLQHMSYTGQLEWKRQLVVDNLERIGKLRVVHEAKDAGATRVGKERNGTDGGGDIENSETNGTNPAVSGVDSDQEGILVRPTLGMSEPWRYRNKSQVPIGVTEGGLVGGFYARGSHRIVDMETCLIQHEQNDEVVSRVKAIGRKLGITAYNEETGQGLLRHVVVKIGFATREMMIVLVTNGERIPRVNEWISAIREELPAVVSVCQNVNTRKTNVIFGDVTRVLWGREVIHDYIGDVKFAISARSFYQVNPAQTEVLYGKTVEYAGLTGEEIVIDAYCGIGTISLFLAQHAKKVYGVEIVKEAIEDARANAELNGMKHVEFEVGASEDVIPRWKEQGIEADVIVVDPPRKGCDPRLLETILEMKPERVVYVSCNPSTLARDLRVLEDGGYRTVEVTPVDMFPHTVHVECSVLLKWRGASKYSL				NA	NA	NA	NA	NA
AK002_01016	555			hypothetical protein	GTGTGCGGGGGATACATCAAGCATACAAAATCTTTTTGTTCCACTTACCTCGTTAAAGAGCCGACGACACTGTTACAAATGGTCAAAGACGATATAAGGGAACTAATCGATAGTAGTGTCAAGCTAGACAGGCTTTATAGCGTGATAAATGGAGAAGCAAGCCTTTATCAAAGCAACAGCAAGAAAGAGCTGCAGAAGGTCACCAACCGCCTTAATCAACTAACTGATGAGTTTCAGGGGTTGCTTCAACTTTACGCCCAAAAAGATGTCAGTATCGAACAGTTTGCCGTTCAGAATGAGCGCATTCAAGCAGAGCAAGGGAGACTTGCCAAGCAGAAAGCAGAAATAGAGTCTCAGCAAGAAGCAAAGAAAAATACAGACGATCATCTTCGTGCCTTTAAACGTCAAATTGATAAGTTTGCAAGGTTATACAAAGAAGATGATCGAGTAATGAAACAACTGCTTCAAACGCTTATTCAAAAGATTGAAGTCCATGAAGATGGATCAATCAAAATTCACTACAACATTACCCGCCCTATCTTAATCGGGGCGTAA	MCGGYIKHTKSFCSTYLVKEPTTLLQMVKDDIRELIDSSVKLDRLYSVINGEASLYQSNSKKELQKVTNRLNQLTDEFQGLLQLYAQKDVSIEQFAVQNERIQAEQGRLAKQKAEIESQQEAKKNTDDHLRAFKRQIDKFARLYKEDDRVMKQLLQTLIQKIEVHEDGSIKIHYNITRPILIGA				NA	NA	NA	NA	NA
AK002_01017	1452			hypothetical protein	GTGAAGATTAGTACACGATTTAATTTAGGAGCAACTCAACAGGAGTTAGATTTTATAGATATAGATACTACAGAAGATATACCTCTCTTTCTAGATCCCTTTTTTCTGTCAATAAGACATGATCAATGGTCATTAAACGCTTCACGTACTATTAGAGGGTTCTTTCAATACTTAATTGAACTTCTCAATGTTAATCGTATTGAGGAAGCGAGGGATTTATTTAATTATCTAGGTGAGCCAAACGAAACCTGCCTTGGGATATCCCAAGGGCTCCCTCGTGGGAGGGGAGTTGGTGAAGAGGATGCAACTGAAATATTTGAAAGTTTACTAGAGAGTCGGGCTGTAGAGTCTGGTCTTGTCGAGGATTTGGAGGATTGTGTAATTTTTGTAGATAACTTTGGAAAAGACAAATTGTCAGATATGACAACTAACATTATTAGAAGACATTTGATAGAGTATACGCATGATCAGTGTAAATTGTGGGGGATACCATTAACGGATAATGTACCTTCCGGATATTATTGGAGTAGAGAGAATGTTAGATGGGAATTTGGTCTAACTGAGATGTTAGTCGTCGATGGCAAGGTCATTCTGCTGGTACCTAAGGCTATTGTTTCATATAGCAAAAATTACTCTTACGAAAAGTATCATCAACATTTTGTGCTGAATTTTCTACAAAGAGAGCACCTTACTCTCAACTCAGTATTAGTTAAGAGAAAAGTATTAAAGAACGGTACGGAAAAAGTATGGGTTTCAAAGAAAGATATAAAGGAACATGAAGCACCATGTACTAAGGAGTTTATCAGGGGGTTTACCCAAAGACACCCGTCCGTTTATGAAGACTTTACTAATTACGTTAAAAAAATTCATGGACCGCTAATGCACGAGGAACTTAATGCCGGTTACGATGTAAACACATTCGTTGAATATTTAATAAATAAATTAGAACAAATACCACCAGGTAGAGCTAATGCCAATGAATATCATAAACATATAGTCGGGATATTAGCTTATATATTTTATCCTAATCTTTCATCACCACAACTCGAAAGAGAAATACATGAGGGTAGGAAACGAATAGATATAGTCTTCGACAATTCTGCTGACAAAGGTTTTTTTTACCGATTCCCTACTAGATTTGAATTACCTGCTCAATTCATTTATGTAGAGTGTAAAAATTATTCCTCTGACCCTGAAAATCCTGAACTTGATCAACTGTCTGGACGCTTCTCTTGGCAAAGGGGTAAGTTAGGTTTTCTGCTTTGTCGCTCGATTAACAACATGAATTTATTTATAAATCGGTGTAGAGATACGTATAATGATGGACGTGGGGTCATTATACCAATTGTAGATAATGATTTAATTTTTTTATTGAATGGTATCAAGGAAGGAAGCCTTGATTCTGTAGATGTTTTTTTAGATGAACGTATTAGAGATATTGTATTGAGATAA	MKISTRFNLGATQQELDFIDIDTTEDIPLFLDPFFLSIRHDQWSLNASRTIRGFFQYLIELLNVNRIEEARDLFNYLGEPNETCLGISQGLPRGRGVGEEDATEIFESLLESRAVESGLVEDLEDCVIFVDNFGKDKLSDMTTNIIRRHLIEYTHDQCKLWGIPLTDNVPSGYYWSRENVRWEFGLTEMLVVDGKVILLVPKAIVSYSKNYSYEKYHQHFVLNFLQREHLTLNSVLVKRKVLKNGTEKVWVSKKDIKEHEAPCTKEFIRGFTQRHPSVYEDFTNYVKKIHGPLMHEELNAGYDVNTFVEYLINKLEQIPPGRANANEYHKHIVGILAYIFYPNLSSPQLEREIHEGRKRIDIVFDNSADKGFFYRFPTRFELPAQFIYVECKNYSSDPENPELDQLSGRFSWQRGKLGFLLCRSINNMNLFINRCRDTYNDGRGVIIPIVDNDLIFLLNGIKEGSLDSVDVFLDERIRDIVLR				NA	NA	NA	NA	NA
AK002_01018	855			hypothetical protein	ATGGAGAGAAGAGGAATAAGTGATCAGAATGCTGCAAAACTATTGAATTTTGAAAGTAATTATAAAAATAAGTCTATCACTTACTATATAGTTAATAACAAAGAATTAATTACGATGAAGTTTTCACATCTTTATTCAGACGGAGTTGGATATTGGTATGGTATTACTCCAAGTGCATTAAAAAAGTATCAAATAGAGGGCATATCTTATTTGTGCTTAATATTGGGCTATGAAGGTGTATTAAAATTACCATTTGAATTGATCCTCAAGTATATCGAGAATGCTGATGTTTCCAAGAACGGTAAGGATGGTATAAAACATTATCATCTGAGAATTAAATACGACGAAGATATAGAACTTTACAATTCGATAGAAAGATTCAATGTAAATCAATATTTGATTTTTGACGAAGAACTAATTTTAAACGATATAAATTCTAAATCAATAGATCAAATTAGAGAAGAAGCAATTAAATTTACCGACTATGCCCAACAGTACATTAGTAGTGAGAAACAAAGTAAAATAAGAAAAGAAAGTAAAGCACAAAAAGAAAGAATTGCAAAATTAGAGCAACACACATGCCAGGTATGCGGATTTAAGCAAGAATATTTGAATAAAAATGGTATGATGTCTTGGATCATTCATGTTGACCATATTCTAGATAAAGCTAAAGGCGGTGGGGAGACGATTGATAATCTCTGGGTACTTTGTCCTAACTGCCATACAAAGAAGACATATGGCGTAATTACTATAGATAAGGATGAGAAAAAAGTGAAGGAAAATGGAAAAGAAATTGAAATTAGGGACAATCATCTCGGTTGGAATAGGGTGGTACAGCTTCCCGCTATTGCTTAA	MERRGISDQNAAKLLNFESNYKNKSITYYIVNNKELITMKFSHLYSDGVGYWYGITPSALKKYQIEGISYLCLILGYEGVLKLPFELILKYIENADVSKNGKDGIKHYHLRIKYDEDIELYNSIERFNVNQYLIFDEELILNDINSKSIDQIREEAIKFTDYAQQYISSEKQSKIRKESKAQKERIAKLEQHTCQVCGFKQEYLNKNGMMSWIIHVDHILDKAKGGGETIDNLWVLCPNCHTKKTYGVITIDKDEKKVKENGKEIEIRDNHLGWNRVVQLPAIA	PGPT0027235_338	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_IV_R-M_SYSTEM,PGPT0027235-mcrA-K07451	NA	NA
AK002_01019	1065			hypothetical protein	ATGAGCATTATTAATATAGGTTATTTTAATATTCAAAAAGATACTATTCCATTAATCATTGAGGATTTATCTAACACCTTTTCCGAAAAAAGAAAACGGCAAATAGAAAAACAATTTAAAAGCGTGTATGACTTCGTTGCAATAATCTATTATTTTCGATTTATTGAAAAGTTGCAGATAAGTGAAATAGCACACAAATTAGAGATGCAGGTACAGCCGTTGTACATTCATCTATATAATTTAGGGTGGCAGTATTCTAACGATTTCGAAGAAAACTCGAAGCAATTTGAAATAGAAAGAAAAAAATTGAATGATGAGTACATAGAAGCAAAGATAAATTCGTCAAATATAAGTTTAAACGAGCATGAAAAATTAAAATACGCAATTAATCATAAGAGCAATATGAGAAAAGAAGTATATATAAATTTAGGATTTGCATCAGCTGTTGAGTATGTTAGAACAGTATATTATTTAGTTTATATATCTCGTCTAACAACTGTCCAACTAGTTATCTTATTCAACTTACCCTATCCTACTGTACAGTTACGCTTAAGAAACCTAGGATTTAATCTTACACTAGATGAAGCTATGAAAAAGAAAAAAGAAAAAAGCAGACAAAATTATGAAAGAACATTTAGAGCTGGTAAAATTACGAGACTAAAAGATCGAATGAATAATTTATCAGACGGTAGTAAAAATGAAAACTATGCAAGAGAACTAATTGATAAATTAGTTTATGAGTACTTTGATAGTAATATATATGACATTGTAGTTGGAGTAAATAATGTAGGGCTACTATCAAGTAAAGAAATTGATATTCCAGTGATTATACACAATAGATTACTGGACCGTTTTTTTAAATTTGCCGTAGAATACAATGGCGAGATTTACCATGATGATGACAGTGACAAAATTTCCATTGCTCAGAACAGAGGGTGGCTCTATCTTGCAATAAAGGAAGGATTGAACGGGAGGGAAAGCAATAACCCTAAAATTATTGAAACCAAGGTTAGACAGTTGTGTGTTGAAATGAGGGATATTATCAAAAATTTGGAGAGGGAATAA	MSIINIGYFNIQKDTIPLIIEDLSNTFSEKRKRQIEKQFKSVYDFVAIIYYFRFIEKLQISEIAHKLEMQVQPLYIHLYNLGWQYSNDFEENSKQFEIERKKLNDEYIEAKINSSNISLNEHEKLKYAINHKSNMRKEVYINLGFASAVEYVRTVYYLVYISRLTTVQLVILFNLPYPTVQLRLRNLGFNLTLDEAMKKKKEKSRQNYERTFRAGKITRLKDRMNNLSDGSKNENYARELIDKLVYEYFDSNIYDIVVGVNNVGLLSSKEIDIPVIIHNRLLDRFFKFAVEYNGEIYHDDDSDKISIAQNRGWLYLAIKEGLNGRESNNPKIIETKVRQLCVEMRDIIKNLERE				NA	NA	NA	NA	NA
AK002_01020	948			hypothetical protein	ATGCCACAATGGCCACATATTTATTCTCAAGTCATTAAGACCCCTTATGATGAAGGCAGAATGAACTTTCGTGCTCTAACAGGATATGGATCCTCTGCCTTTGTTCATCATCTTTTATATACATATGAAAGAATGTCTATCGACTTGATCTTGGGTATGGTAAAACAACAACCAATTACTATTTGGGATCACAACGAATATGTAAATCTAGTTCATAGTACTGGAAGATTACGAGTACGCTATTATAATGGTACCCCGCCAATACATACAAAAGCTGTATTGTGGAGAGGTGAGAATGGCGACTTTGATATAGCATATGCAGGTTCTTCCAATTTAACGTGGCATGGATTCAGAGATTATCAGGAACTTATGGTATCGGCAAATCCAGTAGAAATATTGCAGGTGTTTCCTGATGAACACTTACTGAAAGATTGTACTGACGCCGATATATTTGAGCACTTCCAGATGCTGTATCAAAGGGAGCCTGAAGTTTCTGACATTGATATTTCGGCGATAGGCGTTGCGGTTAGCGGATGTCCAAGTGTTGTGCTTAGACTAACGCAAAAAAAGGATGGTCAGGTGCATGGAAGAAGTGCGCTGAATTGGGGGCAACGAGAGGGGAGGGAACCTAATCAAGCGTACATTCCTATCTCAAGTGATATACATAGGGACAATCCTGATTTTTTTCCTGATTTAGCTGTCGAGTTTACAATTATTACTGATGACGGTGAAAGTTTTGTATGTACTGTTGCCCAGCAAGGAAGAAAGGCAATCCACACAAATCATGATAATAGCATACTTGGTAAGTATTTTAGAAGACGCCTTGGGGTACCGCTTGGTGAGAAAGTGGAAAAAGCGCACCTCGATCAATATGGAAGAGATTCGATAACTATATATAAGATGAACGATGACACATACTATATGGACTTTAGTCAGAGAAGGAGATAG	MPQWPHIYSQVIKTPYDEGRMNFRALTGYGSSAFVHHLLYTYERMSIDLILGMVKQQPITIWDHNEYVNLVHSTGRLRVRYYNGTPPIHTKAVLWRGENGDFDIAYAGSSNLTWHGFRDYQELMVSANPVEILQVFPDEHLLKDCTDADIFEHFQMLYQREPEVSDIDISAIGVAVSGCPSVVLRLTQKKDGQVHGRSALNWGQREGREPNQAYIPISSDIHRDNPDFFPDLAVEFTIITDDGESFVCTVAQQGRKAIHTNHDNSILGKYFRRRLGVPLGEKVEKAHLDQYGRDSITIYKMNDDTYYMDFSQRRR				NA	NA	NA	NA	NA
AK002_01021	1968			hypothetical protein	ATGATCCTAGACGGTTCGAAAGTTACTAGATTATTGAGAATTTTACGACACGACGGATTGAATCAAATAGAAGTCGATAAAATTAAAAGTAATGCTGTAAGGCTCATTGAGAAGGTCGGAGCTCTTAATGATCCAACCCGTCACGGGTTACTATTTGGGCAGATTCAAAGCGGAAAAACAAACAATATGCTTATGTCCGCTGCATTAGCGTCAGATAATGGTTTCCGACTGTTTATAATACTTACTTCTGATAACGTGTGGTTATATGATCAAACACTTGACAGGATTAATCAATCTTTGCCTGGGATGCAGACCTTAGGTAAGGACCAATGGATGATGGCACATCCAGAAAGAATACAAACAGCACTGCAAACGGGCGGTTTAGTATTGATGGCCACCAAGAATACTCATATACTCCAATCACTCATTGAATTTCTTGAGACGCACTGTTCTGATGAAATTCGCCCCATTATCTTTGATGATGAAGCAGATCAAGCTAGTCTTAACACTTTACTAAATAACGACACAGATGACTTAAGTGGTGTTAATGAGGCTATTGTAAATATTAGGGGCTATTTCGAGAAGCATGTTTATGTTCAAGTAACTGCGACTCCACAATCTCTATTTCTGCAACATTCGGAGAGCGATTTTGCCCCCCAATTTACAGTGACTTTCGAGCCTGGAGAGGGATACGTAGGCGGCGAGGCCTTCTTTGAAACTGAGCAACATCTATCACCAATGAGACTCTTTCCAGATAATGAGGTCGATAACATTCTCTCATCTGACATATTAGATGTAGAGGAGACTTGGGAAGCGGTCCCAACAGGGTTAAGAAAGGCGTTATGTTCATTCTTCGTTGCCGCCGCATCTAAATTGATAAATGGAGAAGGCACCGCATTCTCATGTGTCTGTCATGTCAGTCAACGACAAGATCCTCACAGGAGGATAGAACGTATTGTAAACAGCTTTGTGACTAGGCTTACTCGTGCTATGTCGAATCCTACATCCCAAGATAGTGCTCTTGTGATCGAGTATTTACGAGAAGCGTATGATGATATGAGGTTGACCAACCCCAATCCACAGTCTTACCAGGACATCATTCAAGAGATTGCAGAGTGCATAAATAGTACAAGCATTCAGTTGCTTATTTCAGGTTCAAGATCAGCAACATATAGTTCACCGTTTAATATACTGATTGGCGGTAATCGACTGGGCCGTGGTGTAACTATTAAAAGACTGTTAGTAACATACTACGGAAGAACAAGTAAATCACCACAGGTTGATACTATCTTGCAACACTCAAGAATGTATGGGTACCGCAAGAAAGATATGGATGTTATGAGGTTTTACATTTCAAGTTCATTATTGGAGATCTTCAGGGGTGTACATGATTCACATAAGCAACTTTGGACAATGGCACGACAAATAAATCCAACTGAAATGCAAGCCATTGTATTGTCTAGAACAACACATTCGTTATTACGAGCGACTCGTACGAGCGTGGTATATGTTGATGCCCTGGCTTTCTACATGCCTGGAAAGAGATATTTCCCGTACTCGCCACTGGTTAAAAATGTAGAAGTTTTGGATCAAATGCTATTACCCTTTATGGGCACGGGACAAGTAATGCAAGTTCCAATTGATATGCTTGTTGATGTCTTAAACCTAACAGTTTCTGATGAAACCGGGGGAGGTTCTTGGGATGATGAAGCAATAAGGACGTGCATGAGAAATATGAAGGGAATGTTCCATAACCGAGGCTTTATTGAGGTAAGGAGTACTAACATAAGCAAAGGTTATCGGGCATTGCTCTCTGGCGGCTCGGACCGTTTTGACCCGTCTGGTCCAACATTAACCATGTACAGATTTAATGGTGGAGTTGAGGAAGGCTGGGATGGACAACCGTTCTGGGTTCCTAACTTAAGATTTCCTGATGGCAAGAAATTTTTTATGTTCACTGTACTCTAG	MILDGSKVTRLLRILRHDGLNQIEVDKIKSNAVRLIEKVGALNDPTRHGLLFGQIQSGKTNNMLMSAALASDNGFRLFIILTSDNVWLYDQTLDRINQSLPGMQTLGKDQWMMAHPERIQTALQTGGLVLMATKNTHILQSLIEFLETHCSDEIRPIIFDDEADQASLNTLLNNDTDDLSGVNEAIVNIRGYFEKHVYVQVTATPQSLFLQHSESDFAPQFTVTFEPGEGYVGGEAFFETEQHLSPMRLFPDNEVDNILSSDILDVEETWEAVPTGLRKALCSFFVAAASKLINGEGTAFSCVCHVSQRQDPHRRIERIVNSFVTRLTRAMSNPTSQDSALVIEYLREAYDDMRLTNPNPQSYQDIIQEIAECINSTSIQLLISGSRSATYSSPFNILIGGNRLGRGVTIKRLLVTYYGRTSKSPQVDTILQHSRMYGYRKKDMDVMRFYISSSLLEIFRGVHDSHKQLWTMARQINPTEMQAIVLSRTTHSLLRATRTSVVYVDALAFYMPGKRYFPYSPLVKNVEVLDQMLLPFMGTGQVMQVPIDMLVDVLNLTVSDETGGGSWDDEAIRTCMRNMKGMFHNRGFIEVRSTNISKGYRALLSGGSDRFDPSGPTLTMYRFNGGVEEGWDGQPFWVPNLRFPDGKKFFMFTVL				NA	NA	NA	NA	NA
AK002_01022	738			hypothetical protein	ATGAACTTAAATCCTGAAAACCCGTTGATTGCCAAAATTGAAAAACACATCGATCAAGCAATACGGAGATACAAGAAAAACTTCAAGTCATTCGCAACTAAAGAAGAACACGGTTCAGGCGCGGTTGCTGATTGGTTTGGGTTGTTCAATGATCTATATATAATTGGTCCAATTGAAGAAGAAGATACTAGGATTGATTTTGAATTTAATCATAGACTGTTAAGCCCGCGAACAGAAGAATCTACAATAGGTGCGGATCTAATAATAACTCTAAAGATGGAATTGCAAGGTCTTAAAGTGGAGAAGGGTATACTATTGCAGCACAAACTTGATTCAAGTATGCGGTCAAACAACAAAAGTGATGTTAGAGTTGATACAACTCTTTTAAAGAAGCAAGTAACTGACATGCTTACCTTTTCCCAAAGTTCTTACATAATGGTATCCTCTATTCACGGATTTGATATTATTCCCGCAATAGAAGTGAGTGGTGCTGAGAAAATAAAGACGGACATCTTAGCCAGCTATTCCAATATGACATTTAGTCATTTCATATCTAGAGTATTTGTACCATGTTTTACTGGTGACAGCAAAATTACTAGTGCTGTTGCTGAGGCAAATAGTCTATCGGAGTTGCTAATAAGCATCAGTGCTAGAAAGAGTACGCAGGATACTGGCAAAAGCAATCCGCCACCCAAACCTAAAAATCCTCGCACACCCAGGAAGAAATCGAAAAAGTAA	MNLNPENPLIAKIEKHIDQAIRRYKKNFKSFATKEEHGSGAVADWFGLFNDLYIIGPIEEEDTRIDFEFNHRLLSPRTEESTIGADLIITLKMELQGLKVEKGILLQHKLDSSMRSNNKSDVRVDTTLLKKQVTDMLTFSQSSYIMVSSIHGFDIIPAIEVSGAEKIKTDILASYSNMTFSHFISRVFVPCFTGDSKITSAVAEANSLSELLISISARKSTQDTGKSNPPPKPKNPRTPRKKSKK				NA	NA	NA	NA	NA
AK002_01023	1125	haeIIIM		Modification methylase HaeIII	ATGATATTTAATAAAGGAGAATTGTTTAGCGGTCCAGGTGGCCTGTCCCTAGGAGCACAACTAGCTGAAGTAGTCAGTCCAACAGGTGAAGTATTTAAAGTACAGCACACGTGGGCGAATGATTACGACCCTGCAGCATGCGAGACGTTCAGACACAATATTTGTCCTGACAACCCTGAATCTGTTATCGAAGGTGACGTAAGGACATTAGATATCGAAGCCCTTCCAAGAATCAATGCATTTTCGTTTGGATTTCCTTGTAATGATTATAGTAATGTTGGCGAGAAGAAAGGGTTTAATGGCGATTTCGGACCGTTGTACTCTTATGGAGTTAAGGTGTTGAATATTCATAGACCTCTCTGGTTTATTGCCGAGAATGTCGGAGGCCTTGAAAGCGCTAATGAGGGTGAGGCATTTGTTAAAATACTATCTGACTTAGAGCAGGCGGGTTACAACTTAACACCTCATCTGTATAAGTTTCATGAATATGGCGTTCCACAAGCAAGGCAGAGAATTATCATTGTTGGAATTAGAAAAGATTTAGGGTTGAGATTTAGAGTACCAGAACCAACTCATAGGTCTAATAATTTTAGAACTGCTAAACAAGCACTTGAAGAACCCCCAATCCCTGGAAACGCAACAAATCATGAATACACGAATCATCAAGGTAAAGTGATTGAGATGCTGTCGCATATTCCACCAGGTGAAAATGCTTGGTATGAAGGCTTGCCAGAACATCTGAGATTGAACGTTAAAAAGACCAAAATCAGCCAAATATACAAACGACTTCATCCTGATAAGCCTGCATACACAGTAACAGGTAGCGGGGGCGGTGGGACACATATGTATCATTATGCAATTCCTAGAGCACTGACAAATCGTGAACGAGCTAGACTTCAGACTTTCCCTGATAACTATGAGTTCTTAGGTGGAAAAGAAGCGGTAAGGAAACAGATTGGGATGGCTGTTCCGCCTATGGGTGCAAAAGTAATAGTGGAAGCTATTCTTAAGACGTTTGCGGGAGTGCCGTACAATTCAATTGAAGCTCATTGGACATTCGATAATTCAGAAGAAGAAGTAACTTTTGTTAAGAATAAAGTAAGAGACGAATATATTGTAAGGTGA	MIFNKGELFSGPGGLSLGAQLAEVVSPTGEVFKVQHTWANDYDPAACETFRHNICPDNPESVIEGDVRTLDIEALPRINAFSFGFPCNDYSNVGEKKGFNGDFGPLYSYGVKVLNIHRPLWFIAENVGGLESANEGEAFVKILSDLEQAGYNLTPHLYKFHEYGVPQARQRIIIVGIRKDLGLRFRVPEPTHRSNNFRTAKQALEEPPIPGNATNHEYTNHQGKVIEMLSHIPPGENAWYEGLPEHLRLNVKKTKISQIYKRLHPDKPAYTVTGSGGGGTHMYHYAIPRALTNRERARLQTFPDNYEFLGGKEAVRKQIGMAVPPMGAKVIVEAILKTFAGVPYNSIEAHWTFDNSEEEVTFVKNKVRDEYIVR	PGPT0020015_3737	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558	NA	NA
AK002_01024	426	vsr	COG3727	Very short patch repair protein	ATGACTGATAACCTTACGCCTTCAGATAGGAAGAAAAACATGCAAGCGATACGTTCAACTGGCACTAAATTAGAGGACAGAGTCTGCAATGAACTGTGGAGAAGAGGTTATCGATTTCGCAGGAATGTCAGCGGACTCTTTGGTAAGCCTGACATAGCGATTAAAAAGTATAAATTAGTCATATTTATTGATTCATGCTTTTGGCATAGTTGCGACATTCACGGTAATATGCCGAAAAATAACCAGGAATACTGGCTTAAAAAGCTTAATCGTAACAAAGAAAGAGATTATGAAGTAACCAAATACTATCAAAGTATGGGATGGTCGATACTGAGAATCTGGGAACATCAGCTAAAGAAGGATTCATTTGATCGGACAATCAGCGAGCTCAGCTCCTTTATTGATAAAGTGAAAGGGCAGGGTTAG	MTDNLTPSDRKKNMQAIRSTGTKLEDRVCNELWRRGYRFRRNVSGLFGKPDIAIKKYKLVIFIDSCFWHSCDIHGNMPKNNQEYWLKKLNRNKERDYEVTKYYQSMGWSILRIWEHQLKKDSFDRTISELSSFIDKVKGQG	PGPT0020015_1637	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0020015-dcm-K00558	NA	NA
AK002_01025	345			hypothetical protein	ATGCCTGATGTCCTAAAATTAGTCGGAGCACGTATAAAGGATCTTCGTAAATTAAGAGGATTATCTCAAGAAGCATTGGCAGAAAAGGCTGGCTTCAATATAAGTTATATAGGATTTATTGAACGAGCCGAACGTAATGTTTCCATGAAGAATCTGGCGAAGATTGCCAGTGCATTAGATGTTGGAGTGTATGAACTTTTTACATATTTGAAAGAACAAGAAGAACTGCCAGAGGAATCGGGTATGAAAGATATTATTTCTTTACTAAGAGAACGAGACCCGAAAGATATTGAGATGGTCCGTAATATACTAATTGAAATTTTTCGGCGGATTGATGAGAAATAG	MPDVLKLVGARIKDLRKLRGLSQEALAEKAGFNISYIGFIERAERNVSMKNLAKIASALDVGVYELFTYLKEQEELPEESGMKDIISLLRERDPKDIEMVRNILIEIFRRIDEK				NA	NA	NA	NA	NA
AK002_01026	486			hypothetical protein	GTGAATCATTCAACCTCCATCGATGAATGCAGAGATAGCAAAGATAGGCTGTTAAAAATTCAGGAATCCTCTATTCATTCCAAATTAATGATTAAGATGCAGCATTACGTACAGATCTATATGAACTCAGCAGCCCAGTTGATGCATCCGACCTCTGCTCATGTATGTATCTTGTTTAGTGATCGCGCTTTAGGATGCATGCTCAAGGCATTGTATATGAAGGAGAATAATTGCATGTTTGCTCCATCTTACTTTTCGCTTCAGGATGTCATCCAGCTTACGGGACAGAATTCCATCCCGGATTTGGATAAGGTGATGTTTATTCATACTCTTAATTTTGTGGTCGGATGTAATGATGCTTCAATTTTTCAACACATGGACGCCTCACAGCTTCAGAAGCTTCTGAACCGCGTGGACGATGTGCTGATTCACCTATCGGGTAGAGTGGCATCCAATCCTTCCGAGTTGTATCGCTCGATTTTTTAA	MNHSTSIDECRDSKDRLLKIQESSIHSKLMIKMQHYVQIYMNSAAQLMHPTSAHVCILFSDRALGCMLKALYMKENNCMFAPSYFSLQDVIQLTGQNSIPDLDKVMFIHTLNFVVGCNDASIFQHMDASQLQKLLNRVDDVLIHLSGRVASNPSELYRSIF				NA	NA	NA	NA	NA
AK002_01027	1374			hypothetical protein	TTGGTACCTACAGACAGAACAATCAGTACGGAGCTATTACGTTACTTGGAGAAGGAAAAACTCAGCATTTCCTCTTTTGCAATTAAATCGGGAATCAATTCTGGTACCCTCAGCCGCTTTATCAATGGGAACCAGCCGCTCTCCGTTTCAAGTCTTGATTTAATTACGAAAGCCATGAATCTGGAAGAAGGCTATTTTTACTCTCTATATGTAAATGAGTCAACTCCGAACTGGAGGCGACTTGGCCCTTTTATCATGCGATGTGCCGAGCTAGGGAAACTCTACTGCATCGATCAGGCTGTTGATTTGATCATCGATAACCCAGCTTATTCATCCCTACTCTTTGATAGCGCTGAAGCACTATTTCACAAGGGTAATCGGGAGGCTACTCTGATCATATACAAAAAAGTTGCCGAAAATGAAAAACACCAGCATAACGAGAGATTAGGTTTGTGTCAATACAGGATATTTACTTGCTCCCTAAACTCGGATCAGGAACAAAATCTGAACTGTACCATACAATTTGAAGCTTATGTCAAGCGACTTCCTGAAGGAGTACAATTAGATGCTTTAAAAGATTTAACTAACACGTTGTTGTCCTTAAATAAAAGGAATAAAGCAAAGTACTATGCTCAGGAAATGGGACGCATCTCCAGAATGCTGTACGCACAAAAAAATAATAAAAACAGACCTCATAGGAAACCTATAGAGCCAGCCAAACCGTTGTTTGGATATATTTTATACTCCGATCTGCTGTTAGGCTCCATAGCCGCAGATAACGATGATTATGATCAAGCACTTTATTATTTATCCTGTTATGAGGATCAATGCTGGATTAAAGAATCAGATGAAGCTGCCGAACGTACCAAAGAGCAGTTCCAGGAATGGGCTAGAGGCAACCGTTATCTATATGATCTAATGAAAGGCAACATAGAAGTACTAGAATCATACATCGAGTATATCTCTTCCAGGGAGAACGAAATACTAAGAGCTTTATTTAAAATCATCCAAGCAGCTAACATGTATCATTTTGAAATGGACGAATATCTCGATAAATTTGAGAAACTAATCAGGGATCATCTCAAGCGACGAGAATCAGTTGGCAGTTATACCGAACATATAATGGATGACCGCTTTGCCAATTTCCTTACCGATGTTGGTATGTATTATATACGGAAGGATAACATTCAAAAAGGCTCAAGATATATACTGGATAGTTTGGAGTTCTCTTACATCAACAATAATGCAATCAACATCGTAAGATGCTGCACAACCATTGAGCATATACAATCTAAGCTGGATCATGACGGTCTACAAAGGTATGCTAAAATACGAGATAGGTTAAAAGTTAGCGGTTCTCTTATCCATCCTTAG	MVPTDRTISTELLRYLEKEKLSISSFAIKSGINSGTLSRFINGNQPLSVSSLDLITKAMNLEEGYFYSLYVNESTPNWRRLGPFIMRCAELGKLYCIDQAVDLIIDNPAYSSLLFDSAEALFHKGNREATLIIYKKVAENEKHQHNERLGLCQYRIFTCSLNSDQEQNLNCTIQFEAYVKRLPEGVQLDALKDLTNTLLSLNKRNKAKYYAQEMGRISRMLYAQKNNKNRPHRKPIEPAKPLFGYILYSDLLLGSIAADNDDYDQALYYLSCYEDQCWIKESDEAAERTKEQFQEWARGNRYLYDLMKGNIEVLESYIEYISSRENEILRALFKIIQAANMYHFEMDEYLDKFEKLIRDHLKRRESVGSYTEHIMDDRFANFLTDVGMYYIRKDNIQKGSRYILDSLEFSYINNNAINIVRCCTTIEHIQSKLDHDGLQRYAKIRDRLKVSGSLIHP				NA	NA	NA	NA	NA
AK002_01028	699			hypothetical protein	ATGTTTGAAAAATTAAAATCCTTGTTCAAATCCTCTGATAAGCCAAAAGAAAAGCCGGCTCAACATACGAATAAAGCCAAAACATCAGGAAACAACGCCAAACCCAAGGTTCAATCTACCCGTATTGGTGAACTGGGTGAGCATAAGATTAATATTCAACTTGATCAACTCCCCAAGGGATGTAAGTATGTAAATGATTTAATGGTGACGAATTCGAAGTCCCGTACGGGCTACTCGCAGATTGACCATGTAGTGATCACGCCACAAGGATTGTTTGTCATCGAGACGAAGAACTACACAGGAGAGATTAAGGGAACAAGAGAGAATAAGTCATGGACGGTAAGTAACCGGTTTAAAATGTATAATCCCTTTATGCAAAATTACGGCCATATTCAAGCGATTAAAAGCTTGCTCCCTGACTACCAAAAGAGCCGGTTCATCTCATTGGTTTCTTTTACAATGCGTTGTAGATTCAGCGTGGATCCGGAACTGAGAAAAATCCAATCGGACGAACTGATTGTGTACGATGTTGAGCTTTCCGAATATATTCAGCGCAAAATAAATCGGATTCAAGCGGAGAAGATAGACACCGTTTTATCGGAATCTGATATTCAGAAGATCTATCAATCATTAATTGAGGCGAACATCACTGATCCGAGGATACGGGCTGAGCATGTGGATAAGGCAAAATTACGTTAA	MFEKLKSLFKSSDKPKEKPAQHTNKAKTSGNNAKPKVQSTRIGELGEHKINIQLDQLPKGCKYVNDLMVTNSKSRTGYSQIDHVVITPQGLFVIETKNYTGEIKGTRENKSWTVSNRFKMYNPFMQNYGHIQAIKSLLPDYQKSRFISLVSFTMRCRFSVDPELRKIQSDELIVYDVELSEYIQRKINRIQAEKIDTVLSESDIQKIYQSLIEANITDPRIRAEHVDKAKLR				NA	NA	NA	NA	NA
AK002_01029	573			hypothetical protein	ATGAAAGGCAAATTCTCAACAATGGCATTATTGCTTAGCTTTGCAATTTTCTTTTCGTTTACGGGTAGTGTCTCTGCTGCAGCAAAGAAACCTAAGGATATCCTTGCTGAAAAGTACCCTAATGAAGTGGTTAAGATCGTCAAAACCGACGACATTAACAATGACAAGAAAAAAGAATCGTTTATTCTCACTGAATCAGGTAATTTTTATCTGATTAACGCAAAGGGACATGTTGTTTTAATTAACACAGGGATTGTAAGTGATGAAAGCTTTGAACCACCGACGTTCCAAGTGTTTACCGTATCGAAGAATGAGAAACATGTGGCTGTTACATTCTCTTATTTCCCATCGAATACCCAGTTATATGTATATCGACTTCAGTATGGGACCTTGAGTAAAGCTCTTCAATTAATGGGGGATCAGGGAGTTTACATTGATTCCAAGGGTAAAGTGCATCAGTACTGGAAGAACCATAGAATCGAAGGCGGCTGGGATCTGGCAGAGGGAATATTCACCTGGAATACAAAGACCAATAAGTACAAAGGTTCAGGAAAATACGTGCGACAGAGTTAA	MKGKFSTMALLLSFAIFFSFTGSVSAAAKKPKDILAEKYPNEVVKIVKTDDINNDKKKESFILTESGNFYLINAKGHVVLINTGIVSDESFEPPTFQVFTVSKNEKHVAVTFSYFPSNTQLYVYRLQYGTLSKALQLMGDQGVYIDSKGKVHQYWKNHRIEGGWDLAEGIFTWNTKTNKYKGSGKYVRQS				NA	NA	NA	NA	NA
AK002_01030	1017			hypothetical protein	ATGACTAATAAAAGGTTTTCTTTTAAGCCCTTATCACTTTTGGTGGTTCTAGCAATATTTCTATCCACATTTTGCGCAGCCTTACCGTCAGTAAACGCAGCCGCTAGAGGAGCATGGGCTCCAAATACCGCATATGCAGTAAATGACACAGTAACCTATAGTGGAAGCACTTATACCTGCCTTCAGGCACATACTTCTCAAGTAGGTTGGGAACCGTCCAATGTCCCTGCTTTATGGCAGAAAGACGGTAGCGGCGGAACTACGCCACCAACGACACCACCGACAACGAACGGAGTAACATTCTATGCAGATATAAACTATGGAGGAAAAGCAGTGACACTTGGGATAGGGAATTATACACTGTCTCAGTTGAACGCAAACGGAATTCCGAATGACTGGATGTCGTCTCTTAAGGTTCCAAGCGGTTGGACGGTTGAAGTATATGAGAATGATAATTTTGGAGGAACCAAGTGGACCTTTACTTCAGATACTTCCTGGGTTGGCAACACGATCAATGACAAAATGTCATCGGTCAAGATTTATACGGGTTCACCACCTCCTACAGTAACAAAGCCTGCCGAGGTTCCAAGCCATATATGGACATATGTCATGAATGCGGACAATGCCTATGGGAAAGGCGGAGATTTTGCTTTATTGCTAAGTGCCGTTATCAAAAAGGAAAGCAACTTTGGAGCGGGTTTACCAGGTAGTCCATCGGCCGGCGACGGATTGATGCAGGTAGAACCAAACACACGCAATGCGTACTTATCTCAATTCAGCTCAAAATTTGGCCGTGCGTATAATCATAGTAGTGAACAAGATCAGGTATATCTGGGGGCATTAATTTTAAATGAGAAGATTACGAAGTTTGGAAATATCTACAACGGATTATTACACTACAACGGTGGAGATAACTGGTATCCGGGAGCTACGGATTCTTATGGCCGTCCGATTCTGGCAGATCAATATGCAGATGCAGTTTACGCTACATACAAGGGCTATGGTGGTAAGAATTAA	MTNKRFSFKPLSLLVVLAIFLSTFCAALPSVNAAARGAWAPNTAYAVNDTVTYSGSTYTCLQAHTSQVGWEPSNVPALWQKDGSGGTTPPTTPPTTNGVTFYADINYGGKAVTLGIGNYTLSQLNANGIPNDWMSSLKVPSGWTVEVYENDNFGGTKWTFTSDTSWVGNTINDKMSSVKIYTGSPPPTVTKPAEVPSHIWTYVMNADNAYGKGGDFALLLSAVIKKESNFGAGLPGSPSAGDGLMQVEPNTRNAYLSQFSSKFGRAYNHSSEQDQVYLGALILNEKITKFGNIYNGLLHYNGGDNWYPGATDSYGRPILADQYADAVYATYKGYGGKN				NA	NA	NA	NA	NA
AK002_01031	1686	hcp	COG1151	Hydroxylamine reductase	ATGAATAACAACGCCCAAGAGACCTTACAGCATCAGCCGTCCATGTTCTGCTTTCAATGTCAGGAAGCATCCAAAGGAACAGGCTGCACCATTGTCGGCGTATGCGGCAAACCGCATGATGTGGCAAACCTGCAGGATTTGCTGATTTATCTGCTGAAAGGCATCTCTTTTCTCAGTCTGGATGTCCGGCTGCCGGAGGTGCTTGAACAGCGCGTATCGCTGTTTATGATGGACTCCTTGTTTGCAACGATAACGAACGCCAACTTTGACCGCGAGGTTTTTGTGGAAAGAATCCGGGAAGCGATCGAGCTCCGCGGCGAGGTGCGCACCTATTATAACGAACAATATCCGGAAGGAACCGCCAATCTCCCTGATGCTGCCGTCTGGCAAGCGGATAACGAAGTTGCTTTTGATGAAAAAGCACGTACGGTGGGTGTCCTCTCGACCCGCAATGAAGACATCCGCTCGCTGCGCGAATTGATTACGTACGGCTTGAAGGGGATGGCAGCTTATACGTACCACGCGCTTCATCTTGAGAAGGATGATCACGAATTAAACCGTTTTATGCGCCGTGCACTTGCCGCTACGCTTGACGACAGCCTTGAAGTACAGGATCTGGTAGCTTTGACGATGGAAACCGGTAAATACGGCGTAAACGCCATGGCGATGCTGGATGAAGCGAACACCTCGGTTTACGGAAATCCGGAAATCACGAAGGTCAATATCGGGGTAAGCAACCGGCCCGGCATTCTCATCAGCGGCCATGATCTGAAGGATTTGGAGGAGCTGCTGAAGCAGACGGAAGGAACCGGCGTGGACGTGTACACGCACAGTGAAATGCTGCCTGCCCACTATTATCCGGCATTCAAGAAATATGAGCATTTTGTAGGCAATTACGGGAATGCCTGGTGGAAGCAGAATAGCGAATTCGCAGCCTTTAACGGACCGATATTAATGACGACCAACTGTATCGTTCCGCCGAAAGACAGTTATAAGGACCGTATCTATACAACAGGCAACACCGGGTTTCCGGGTGTCCGCCATATTCCAGAAGGAACAGACGGTGCTCCCAAAGACTTCTCCACGCTAATCGAGCAAGCGAAAGGATGCCCCGCTCCAACGGAGCTTGAAACGGGTGAGATCATCGGCGGTTTCGCTCATGCCGCTGTGATGAACGTGGCCGATCAAGTCGTCGATGCCGTGAAATCCGGCGCGATTCGCCGCTTCTTCGTCATGGCCGGCTGCGATGGACGGATGAAATCCCGTAACTATTACACCGATTTTGCGGCTGAACTTCCAACAGACACGGTCATTCTAACGGCAGGCTGTGCCAAATACAAATACAATAAACTGGATCTAGGCGAAATCGGCGGTATTCCGCGGGTACTGGACGCTGGTCAATGCAATGATTCTTACTCCCTCGTCGTGATTGCATTGAAGCTGAAGGAAGTATTCGGCCTTGAGGATATTAATGATTTGCCGATTTCCTACAACATTGCCTGGTATGAGCAAAAAGCGGTGATCGTGCTGCTGGCCCTGCTATATCTTGGCGTTAAAAATATTCATCTGGGCCCTACGCTCCCTGCATTCCTGTCGCCTAACGTCGCCAAAGTCCTCGTGGAAAACTTCGGTATCGGCGGCATTACCAATGTGGAAGATGACATGAACATGTTCCTTGGTGCCTAA	MNNNAQETLQHQPSMFCFQCQEASKGTGCTIVGVCGKPHDVANLQDLLIYLLKGISFLSLDVRLPEVLEQRVSLFMMDSLFATITNANFDREVFVERIREAIELRGEVRTYYNEQYPEGTANLPDAAVWQADNEVAFDEKARTVGVLSTRNEDIRSLRELITYGLKGMAAYTYHALHLEKDDHELNRFMRRALAATLDDSLEVQDLVALTMETGKYGVNAMAMLDEANTSVYGNPEITKVNIGVSNRPGILISGHDLKDLEELLKQTEGTGVDVYTHSEMLPAHYYPAFKKYEHFVGNYGNAWWKQNSEFAAFNGPILMTTNCIVPPKDSYKDRIYTTGNTGFPGVRHIPEGTDGAPKDFSTLIEQAKGCPAPTELETGEIIGGFAHAAVMNVADQVVDAVKSGAIRRFFVMAGCDGRMKSRNYYTDFAAELPTDTVILTAGCAKYKYNKLDLGEIGGIPRVLDAGQCNDSYSLVVIALKLKEVFGLEDINDLPISYNIAWYEQKAVIVLLALLYLGVKNIHLGPTLPAFLSPNVAKVLVENFGIGGITNVEDDMNMFLGA	PGPT0000630_759	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-HYDROXYLAMINE_REDUCTION,PGPT0000630-hcp-K05601	NA	NA
AK002_01032	1023	ndhI		NAD(P)H-quinone oxidoreductase subunit I, chloroplastic	ATGTCGATTTTGCCTCAAAAGAATGAACTGGGATTTTTCGAGATCCGTCTCGAATCCATCGGCGGGCTTGGCGCCAATCTGGCCGGAAAAATGCTGGCCGAAGCCGGGGTCACCGGCTCCGGACTTAACGGTTCGAATTTTTCCAGCTATGGTTCGGAGAAAAAAGGGTCGCCCGTGAAGAGTTTCGTCAGGTTCTGCGATTCCGAGGTGGAAATCCGCGATCACAGTCCCATTGAGCAGCCGCATGTCGTCGGCGTATTTCATGAAGCATTGTATAAGACGATCGATGTCATAAGCGGATTACAGCCTGATGGAACGGTGCTTGTAAATACGGCGCGAGCCCTTTCCGAAGTGGCCGTGGATCTGAACATGAAGCAGGGAACGCTGGCCGTAGTGGATGCGCTGAAAATTTCCGTTGAGGAAAAAACCAAAGTAAATACGGCCATGCTGGGGGCTTTGTTCCGGATTTGCAGCTTCCTGAATCCGGACGATATGCGGCAGGTGATCCGCACGACATTTGAGAAAAAGCTGCCCCACCTCGTGGAAGCGAATGTGCGGACCTTTGACAGAGGATATAACGAAGTCCAGTTCCTTTCCTTGGGAAATGGCTCAGCGCTTATAGACCCAATCGCTTTCGCAAGACCGGAGCCGATTCTTGGATATGAAACGCAGGAGCTGGGCGGAATTCTGAACGTTACCGCGAACAGTGTTCTGAAGGATCTTAGCGCCTCCCGGCAGGGATATTTGCCAGAGTACAAGATCGAGGACTGCATTCACTGTGCCGCCTGCGATACGGTATGTCCGGATTTCTGCATCGTGTGGGAGACGAAGCCGGATAAACGCGGGAATATGCAGATGTTTATGAAAGGTATTGATTATCAATATTGCAAAGGCTGCTTGAAGTGTATCGAAGCTTGTCCGACCACCGCTTTGGCTGCCATGTTAGAAGAGCCGCATTATGCGGAGCAGCACCGTGTGCCGCAATCATTTCCCTATTTAAAAGCGGAGGGAGTCCGATCATGA	MSILPQKNELGFFEIRLESIGGLGANLAGKMLAEAGVTGSGLNGSNFSSYGSEKKGSPVKSFVRFCDSEVEIRDHSPIEQPHVVGVFHEALYKTIDVISGLQPDGTVLVNTARALSEVAVDLNMKQGTLAVVDALKISVEEKTKVNTAMLGALFRICSFLNPDDMRQVIRTTFEKKLPHLVEANVRTFDRGYNEVQFLSLGNGSALIDPIAFARPEPILGYETQELGGILNVTANSVLKDLSASRQGYLPEYKIEDCIHCAACDTVCPDFCIVWETKPDKRGNMQMFMKGIDYQYCKGCLKCIEACPTTALAAMLEEPHYAEQHRVPQSFPYLKAEGVRS	PGPT0001205_18	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001205-porC|porG-K00172	NA	NA
AK002_01033	2298			hypothetical protein	ATGAATATGCAAATTCAAGAAACAACGGAGAACAAGCTGGCGGCCACTCAAACGGAAGTCTTCGAATCGGGCAACGAAATGGCTGCCATGGCGGCTGCCCAGATTAACTATCACATTATGGGTTATTTTCCGATTACGCCTTCTACGGAAATTGCCCAATATCTTGATATGATGCGTACACGCGGCGAACATGACATCAAGCTGATTCCCGCTGACGGCGAACATGGATCGGCGGGGATTTGCTACGGTGCGGCCGCAGCCGGAGCACGGGTATTCAATGCTACCAGCGCGAATGGTTTCCTGTATATGATCGAACAGCTTCCTGTGCAGGCGGGCACACGTTTCCCGATGGTTATGAACCTGGTGACGCGTGCGGTCAGCGGACCGCTCGATATTCGCGGTGACCATTCGGACCTTTACTACGGCCTGAACACCGGCTGGGTGATTTTGACCGCCCGTTCACCGCAGGCCGTGTATGACATGAATATCATGGCGCTGCGAATCGCGGAACATGAAGACGTACGCCTGCCGGTCATTGTAGCTTATGACGGATTTTTTACATCGCACCAGAAACGCCGGGTACATATATTTACGAACCGGGAAACCGTTCAAGAGTTTGTAGGGGAACAGGCGCCTGAATATCCACATGTGTTGGACGAGAACAACCCGATCGTTGTTGGGGCTTATATGAACGGCGACGATTTGATGAACAACCACTTTCAACAGTCAAACGCCATGTACCGTGCGGGCGAGGTGTTCAAGGAAGTGGCAGAGGAATACGCGGCTTTATCCGGAAGATCCTATTCGCCGCTTGATCTGTACCGCATGGAAGACGCAGAGGTGGCTTTATTCCTGCTCAATTCGGCGGCCGAATCCTCCAAAGACGTCGTGGACCGACTGCGGGCGAAAGGAATTAAAGCGGGCATAATCAGCCCGAATATTCTCCGGCCGTTCCCGGCAAGAGAAATCCGCGAGGCGTTGACAGGTGTCAAAGCGCTGCTGGTTGGCGAACGTGCCGATTCTTACGGTGCGCATGGGGCCAATCTTACCCATGAGGTCAAAGCGGCCCTGCAGGAAATCCGTGGTCCGCAGCCGATTGTGCTGTCCCGCATATTTGGACTTGGCGGGAAAGACTATTACGCGGATGACGCGGAAGCTTTTTTTGCCTTGACGATCGAGGCCATGGAGCTCGGTTATGCCAAAGTGCCGTTTGATTATTACGGCCAAACACCGGGAGCTGAGGAGCAGAGGCTGCAGCCGGTCATTGCACCGATGAATGGAGACAGCTTTAAATCTGGCCTGATTACCGTAAAGGTGGATGAAGAGACAAGTAAACTATCCGTTAAAGTGCCGCCGATGCGGGCGCTTGCCGCGAAACCGAAACGGTTTGCTTCCGGTCACGGAGCTTGCCCGGGCTGCGGTATTTTCCCGGCGCTGGAGCTCTTTTTCAAAGGGATTGAAGGCCATGTCGTTACTTTATTCCATACCGGCTGCGCTTATATCACAACAACGGGGTATCCGTATAACTCGCATAAGCAGAGCTTTATTCATAATTTGTTCCAGAACGGCCCGGCTACTTTATCCGGCACGGTAGAGGCGTTCCTTGAGAAGAAACGCCGCGGGGAAATCGAAGTTCCTGAGGATTTCACTTTTGTGATGGTGACCGGCGACGGCGGCATGGACATCGGGATGGGCTCGGCCATCGGGACGGCGCTGCGGGGCCATAACCTGATCATTCTGGAATATGATAATGAAGGCTATATGAACACCGGTGCACAGCTTTCGTACTCTACGCCATTAGGGCATATGACCAGTACGTCCGGCGTCGGCAAACAGCAGCAGGGCAAAGCGTTCCATCATAAAGATACGGTGCAAATGATGGCGGCGGCGCATATTCCGTATGTATTCACGGGGACGGAAGCATTTCCGCAGGACCTTGTGAAAAAGGCGGCAAAAGCGCAGTGGTACGCCCAGAATGTAGGTACCGTCTACGGCAAGCTGCTGATCACATGCCCGCTGAACTGGAAATCGAGCGACAAGGATGGGGAGAACATCGTCCGCGCGGCCGTGAATTCAAACTTCTTCCCACTGTATGAAGTAGAGCAGGGAGAAACGAATATTACGTACGATCCTGAAGCGAAGAAGAAACGGGTGCCGCTCAGCGACTGGCTGAAATATATGGGCAAATCAAGACATCTGCTCAAGGAAGAAAACAAAGAAATGCTCGGCGAATTTGAAAAAGAAGTGGAGCGGCGCTGGTCGATTCTGAAAGCGAAACACGAGAACCCGCTGCTATAA	MNMQIQETTENKLAATQTEVFESGNEMAAMAAAQINYHIMGYFPITPSTEIAQYLDMMRTRGEHDIKLIPADGEHGSAGICYGAAAAGARVFNATSANGFLYMIEQLPVQAGTRFPMVMNLVTRAVSGPLDIRGDHSDLYYGLNTGWVILTARSPQAVYDMNIMALRIAEHEDVRLPVIVAYDGFFTSHQKRRVHIFTNRETVQEFVGEQAPEYPHVLDENNPIVVGAYMNGDDLMNNHFQQSNAMYRAGEVFKEVAEEYAALSGRSYSPLDLYRMEDAEVALFLLNSAAESSKDVVDRLRAKGIKAGIISPNILRPFPAREIREALTGVKALLVGERADSYGAHGANLTHEVKAALQEIRGPQPIVLSRIFGLGGKDYYADDAEAFFALTIEAMELGYAKVPFDYYGQTPGAEEQRLQPVIAPMNGDSFKSGLITVKVDEETSKLSVKVPPMRALAAKPKRFASGHGACPGCGIFPALELFFKGIEGHVVTLFHTGCAYITTTGYPYNSHKQSFIHNLFQNGPATLSGTVEAFLEKKRRGEIEVPEDFTFVMVTGDGGMDIGMGSAIGTALRGHNLIILEYDNEGYMNTGAQLSYSTPLGHMTSTSGVGKQQQGKAFHHKDTVQMMAAAHIPYVFTGTEAFPQDLVKKAAKAQWYAQNVGTVYGKLLITCPLNWKSSDKDGENIVRAAVNSNFFPLYEVEQGETNITYDPEAKKKRVPLSDWLKYMGKSRHLLKEENKEMLGEFEKEVERRWSILKAKHENPLL	PGPT0001195_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001195-porA-K00169	NA	NA
AK002_01034	2265	rhaR_10		HTH-type transcriptional activator RhaR	ATGCAGAGATCCTGGTACAAGCGTCTATTGCTCTCCTATATGCCCATTTTTGTTATTGTGATTACCTTTATATTTTTTGTTTTCTTTCAGCTGTTCAGCGAACAGAGCCGGCGGGAGGCGCTTAACGCCAATAAATCGCTTTCCTTGCAAGCGATGCGCATGGTGGACACGTCCCTGAAGGTGATCGACAATATGATCGTCCTCGAAAGCATCAACAGCAAGGCTTTGAATGATTTCTTCAAATCATCTGCCGTTGGCGATCCTTATATTAATATTCAAGCTGTTCAGAAGCTCAAGGAGATTATTAATTATTATCCCTTGATCGATTCGATTTATCTGGTGAGGCATTCGGACGGCTATGTTCTCAGCAATGCCACGAATGGATACATAAGTACATATCCGGACCATGAATTTATTGAACAATATCAAGTATCGAAAACGCCGAAATGGACAGGCGCGAGAAATTTCGAACAATTTAAAATGAAGGGCGGCAAGCAGGTGGTCAGCCTGGTCAGAGGATCGCCTTACATGAAAAACGACTTAGGCATGATCGTTGTCAATGTGAGCACGGAATCCTTGAACAAGCTTACCGAAGAGATGCTGGATTCCAACATGAGCTTCATTCAGGTTCAGGATACCTCCGGAAACCATTTGTTCGGCACCAAAGCGGATCGTCCGCCATCCCAAGTCAATTCCCAGTATGTATCAAGCTATACGAATTGGAACTATGGAAGCGGTTTGTTGAACAACGGTTTTGTAAGCGCTGTCTCTTATCTCTATAATCTTTGGTTTATCATAGGTCTTGGCATGATTGCCATCGGCTTCCTATGGATGATTTATGTTTCCAGGCGAAATTCCAAGCCCATTGAGGAGATCGCTGCCCGTTTCAGCAGCTATTCGCTACCGGTGGTGAGCAGTGGCCGACGTAAGGGGAAGCTGGATGAATTCGCATTTATCGAATCCGCCTTTGACAACATACTGGAACAATCCAAGGAATATCAGGAGAAATACCGGGAGGATCTCCATGTCAGGACCCGGTTTATGTTCCGCCAGCTGATCGAAGGGGACTCGCCTCTATCTGTATCCGAATGGAGGTCTGAAGCGGCTCGACTGAATTTGCCGCTGCCACTGGACCGATATCGTATGCTCATCCTGGAGATTGATAAGTACGGGGATTTCTGTCGGGATTATTCCAAGACCGATCAAGATCTGCTTAAATTCACTCTGCGGACGGTCGTGGATGAGATCGCTTCGAAATGGGACTGCCGGCTGTGGTCGGAATGGACATCACCTTCCAACCTGTCCATTATTCTGTTTGAAGAACGGGATCAGGACAAGTTTGAGGAGGCCGTACTGGTTCCAATTGCGGAACAAATCCTTGCATGGACGCACCAAAACTTGAAATTTACAATTACGATGGGAATGGGTCGGTCGACAGATCAGATTGGCGATATTCCGCAATCCTATAAAGATGCGATGCAAGCCTTAAAGTATAAAATCGTGCTCGGTGAGAATCGTTTGATCCGCAGCGAGGATATTTCGAGCCATGGCATTGTCGAGGTTTATACGCATTTAGGTGAGATTCGTGCAATTATCCAGTCCTTCAGAATGCAGAAGGAGCAGTGGAGCGAGGATTACGATCAATGGTTTGAACAGCTGAAGAACAGCTTCTTGACCAATGATGAAATATTCAGCCTGATGAATTATCTGGTTTATTACATCGGCCGCGAAATGTCGGGACTCGGCAAGGAAATTTACAACAAGTGGATACAGGAGGGATTGCCGAAGCTGACGGTTAAGGTAGACAATTCCTATTCCCTGGAACAGCTGAGACAGGAAATTAAACAAGTGCTGACGGAGCATTATGAACAGATGAAGCAGATTCATCATGACAACCAATACTCCAGCATCATTAGAAACATATGCGATTTAATTGAGCGTGACTATGCGAATCCGGAGCTGTCCCTTGAAATGCTGGGCGATCGGTATCAGTTGAACGCCAAATATGTGAGCAAATTGTTTAAGGAAAATACCGGACAAAGGTTCGTTGATTTCCTTATTGATATCCGTATGAAGGAAGCGAAGCGGCTGCTGACGGAAACGGACTATTCCGTGCAGGAGATCGCAGAGCGGGTCGGATATGCCCATGCTATTTCGTTTACCCGCGTTTTCAAGAGGACGGCTGGAGTTACCCCGGGCGAATACCGGAATGGCCGGAAGGCCAAGGAACGGGGAGAAAATGATTCAGCAGTAGAAAACGGTTAA	MQRSWYKRLLLSYMPIFVIVITFIFFVFFQLFSEQSRREALNANKSLSLQAMRMVDTSLKVIDNMIVLESINSKALNDFFKSSAVGDPYINIQAVQKLKEIINYYPLIDSIYLVRHSDGYVLSNATNGYISTYPDHEFIEQYQVSKTPKWTGARNFEQFKMKGGKQVVSLVRGSPYMKNDLGMIVVNVSTESLNKLTEEMLDSNMSFIQVQDTSGNHLFGTKADRPPSQVNSQYVSSYTNWNYGSGLLNNGFVSAVSYLYNLWFIIGLGMIAIGFLWMIYVSRRNSKPIEEIAARFSSYSLPVVSSGRRKGKLDEFAFIESAFDNILEQSKEYQEKYREDLHVRTRFMFRQLIEGDSPLSVSEWRSEAARLNLPLPLDRYRMLILEIDKYGDFCRDYSKTDQDLLKFTLRTVVDEIASKWDCRLWSEWTSPSNLSIILFEERDQDKFEEAVLVPIAEQILAWTHQNLKFTITMGMGRSTDQIGDIPQSYKDAMQALKYKIVLGENRLIRSEDISSHGIVEVYTHLGEIRAIIQSFRMQKEQWSEDYDQWFEQLKNSFLTNDEIFSLMNYLVYYIGREMSGLGKEIYNKWIQEGLPKLTVKVDNSYSLEQLRQEIKQVLTEHYEQMKQIHHDNQYSSIIRNICDLIERDYANPELSLEMLGDRYQLNAKYVSKLFKENTGQRFVDFLIDIRMKEAKRLLTETDYSVQEIAERVGYAHAISFTRVFKRTAGVTPGEYRNGRKAKERGENDSAVENG				NA	NA	NA	NA	NA
AK002_01035	996	yteP_11	COG4209	putative multiple-sugar transport system permease YteP	ATGCCGAGACTAACCTCTAGGCTTCAAACCGAACCAAGCCTGGACCGGAAACATCCCCTACAATTGAAAACGCTACCAGAAGGGAGAAGAGGAAGGTCAAGAAGAAAACAAATTAAGCGTCATTGGCAGCTGTATCTCGTTCTCTTGTTACCCGTTCTTTATTTGATTATTTTCAAATACATACCGATGGCCGGTATTGTAATCGCATTCAAGAATTATAACGTCATCCAGGGAATCTGGGGCAGCGACTGGGTCGGGCTGAAATATTTTCGCCAGTTCTTCGATTCGCCGAACTTCTGGCTCTACATTAAGAATACGCTTGGCATTAGCTTCTACGGATTGATTGTAGGCTTTCCCGCACCGATCCTGCTGGCACTCGCGCTGAATGAAATCCGCAACGGCCTATTCAAGAAGACGGTACAGATGGTTTCATATGCCCCTTATTTCATATCTACGGTGATTATGGTTTCGATCATTATCGTCAACTTGACGCCAAATGTGGGGATGATCAGTAAATTTTTCGAGATGTTAGGTATGAGTAATACGAATTTTATGGGTATACCGGGCCTGTTTAAGTCCATTTACGTCTGGTCCGATGTTTGGCAATTTACAGGTTACGGAGCGATTATATACATCGCGGCATTGTCCGGCGTTAACCCGGAGCTTTACGAATCAGCCAAAGTAGATGGCGCGTCCCGCATCCAGAAGATTCTGAACATCGATATACCAAGCCTTATTCCCGTATCGGTCATTCTGCTCATTCTCAATCTGGGCAACATCATGAAACTAGGATTTGAAAAAATATACCTGATGCAAAATCCGCTTAATTTAAGCACGTCGGAAGTCATATCCACTTATGTGTACAAGGTTGGCTTGCTGGGCTCCAGCTTCAGCTTCTCGACGGCGATCGGTCTCTTCAACTCGGTCATCAATCTTATTCTGCTGGTGTCCGTCAATTACATCGCCAGAAAGCTGTCGAACAGCAGCTTGTGGTAG	MPRLTSRLQTEPSLDRKHPLQLKTLPEGRRGRSRRKQIKRHWQLYLVLLLPVLYLIIFKYIPMAGIVIAFKNYNVIQGIWGSDWVGLKYFRQFFDSPNFWLYIKNTLGISFYGLIVGFPAPILLALALNEIRNGLFKKTVQMVSYAPYFISTVIMVSIIIVNLTPNVGMISKFFEMLGMSNTNFMGIPGLFKSIYVWSDVWQFTGYGAIIYIAALSGVNPELYESAKVDGASRIQKILNIDIPSLIPVSVILLILNLGNIMKLGFEKIYLMQNPLNLSTSEVISTYVYKVGLLGSSFSFSTAIGLFNSVINLILLVSVNYIARKLSNSSLW	PGPT0017250_258	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01036	900	araQ_16	COG0395	L-arabinose transport system permease protein AraQ	ATGTTCAAAAAAGCCGCTATACGTGAATCGAAAGGCGACCGCCTCTTCATGTTCTTGATCTATCTGTTCTTGACCCTGGTTCTTATTGCCGTAGCCGTACCATTAATCTACATCGTAAGCTCGTCCTTCAGCTCGCCTCAGGCGGTTACATCGGGCAAGGTTTGGCTGTTTCCCGTAGATTTTACGCTGGACGGCTACAAGGCGGTATTCAATAATCCGCAGATCGGCGTCGGCTATCTGAATTCCCTCTTTTATACCGTTGTCGGCACCCTCATCAATGTAACGCTCACGATTATGCTGGCTTATCCGCTGGCGAAGAAGTCGCTTTACGGCCGCAATTTCTTCATGGTTCTGCTGGTGATCACGATGATGTTCGAAGGAGGACTGATTCCTTATTACCTCGTCGTTAAGAATCTCCATCTGCTGGATACGCGCTGGGCCATGATTTTACCGGGGGCACTGGGGGTATTCCAGGTTATCGTCGCAAGGACGTTTTTCCAAACCACGATTCCCGATGAATTGGCGGAAGCCGCGGAGCTGGACGGATGCAGTGACATCCGGTTCATATTCAGCATTGTCCTGCCGCTGTCCAAACCCATTATTGCGGTCATGACATTGATGTATGCAGTCGGGCATTGGAATGCTTATTTTGATGCACTGATCTTCTTAAGGAATCCTGACTTGTTCCCGCTTCAAATCATTCTCAGAAACATTCTAATTCTGAATTCAGTCGATGCTTCCATGATGGCGGATGTGAGCCAGATGCAGGCGCAGCAGGGGCTCAAGGATTTGCTGAAATATTCCTTGATCGTTGTTGCCAGCTTGCCTGTGCTTATCATATATCCTTTCGTCCAGAAACATTTTGTCAAAGGCGTCATGATCGGCTCGCTAAAGGGCTGA	MFKKAAIRESKGDRLFMFLIYLFLTLVLIAVAVPLIYIVSSSFSSPQAVTSGKVWLFPVDFTLDGYKAVFNNPQIGVGYLNSLFYTVVGTLINVTLTIMLAYPLAKKSLYGRNFFMVLLVITMMFEGGLIPYYLVVKNLHLLDTRWAMILPGALGVFQVIVARTFFQTTIPDELAEAAELDGCSDIRFIFSIVLPLSKPIIAVMTLMYAVGHWNAYFDALIFLRNPDLFPLQIILRNILILNSVDASMMADVSQMQAQQGLKDLLKYSLIVVASLPVLIIYPFVQKHFVKGVMIGSLKG	PGPT0017255_1109	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01037	1707			hypothetical protein	ATGGAAAAGAGCATGAAGAAGAAAAACTGGCTAGGTATCATTAGCTGCCTAATGGCTTGCATGCTGCTGCTTAGTGCCTGCGGAGGAACCAATTCCGGCAATCAGTCAACTGGCAAGACGGACGACAACGGTGCTGCCAATGAAGATTTATTTAATGCTGTTGGTTCCTATCCGATCGTGAAGGAGCCGATGACCATTAAAATGTTCGCGCCTCAGTTTGCGTCAATCGAAAACATGGATACCAACCTATTTACCAAACATCTTGAAGAGAAGACAAACATCAATATCGCTTGGGACCTTGTACCGGAAAATGCTTTGAACGACCGCAAGCAGCTCATGCTCGCCGGCGGCGATTATCCTGAAGTCATTCTCCAAGGGAATTTGACCAAGGAAGAGCAAATGAAGTATGGGTCGCAGGGCGTGTTTATCCCTCTGAATGATTTGATAGACCAATATGCACCCAATATCAAGAAAGCGATGGAGGATATCCCTTACATGAAAGCCTCCATCACGACTCCGGATGGCAACATCTATGCATTGCCGCAGGTCAATGAATGCTACCATTGTGACAATGCGCTCAAAATGTGGATCAATAAAAAATGGCTCGATCAAGTGGGACTGCCTGTTCCAACGACAACTGACGAATTTTATACGGTGCTGAAGGCATTCAAAGAGAAGGATCCGAACGGCAACGGCAAACAAGATGAACTCCCGCTGACAGGCTCGGATGAAATGTGGGCAGGCAACGTCTCCGCCTTCCTGATGAACTCGTTTATCCTTGATGATTACGTCGACAAGGGTTCGGGTACGTTCCTCCGCGTCATGGATGGCAAAGTTGATTTTACGGCAAACAAAGAAGAGTGGAAGCAGGGCCTCCTTTATCTGAATCAATTGTACAAAGAGGGATTAATTGATCCCGCAGCCTTTACCCAGAATGCCGATGCTGTTCAGCAAATGGCCAACCGGGAACCGGACAATATTATGGGTGCGCTTTCAACTGCATTAATCAGTTATGCTTACAGCATGGATGATAAGGCGCCGCGTCATAAAGATTATGTTGCCCTGCCTCCGCTAAAAGGCCCGAATGGTGTGCAGCAGACGCTGAATTTTGCGGGAATCGCTGTCTCGCAATTTGCGATTACGAATAAAGCGACGAAAGAGCAGCAGATTGCCGCCATCCGGTTAGCGGATTATCTGTATACGGAAGAAGCGATCGTGTTGCAGGAACATGGCCCTGAAGGCAAAGGGTGGCGGAAAGCTGAATCCGGAGAAAAGGGTATGGATGGAAAGCAGGCTAAATATACGGCTATTCCTATCCCCGACAAAAAGCCGACGCATAATGACGGTTGGGAGCAGATCGGTCCATCACTGAGAACCTACGCTTATCGCGCGTCCTGGACAGCTCCTCAGGATCCGCTCGCTCCCGATGGATACGGTACCCGTCTGAATCAAGTCTCCGAGGAATATGAACCGTATCAATCCAAGGAGCAATATCCATCGGGATTGTTCATAGCGCTTGAAGATGCCGAGCTCGTAGCTCAGATCAAGACAACGCTTGTCGACTACGTGAAATCCAATATGGCCCAGTTTATTACAGGCTCCAAAGATATTAACAAAGAATGGGATGCATATGTGAAAGGGCTGGATGGCATGCAGCTGAACCAGTACCTGGAAATCTATCAAAAGGCATTGGATGCCGGAAAATAA	MEKSMKKKNWLGIISCLMACMLLLSACGGTNSGNQSTGKTDDNGAANEDLFNAVGSYPIVKEPMTIKMFAPQFASIENMDTNLFTKHLEEKTNINIAWDLVPENALNDRKQLMLAGGDYPEVILQGNLTKEEQMKYGSQGVFIPLNDLIDQYAPNIKKAMEDIPYMKASITTPDGNIYALPQVNECYHCDNALKMWINKKWLDQVGLPVPTTTDEFYTVLKAFKEKDPNGNGKQDELPLTGSDEMWAGNVSAFLMNSFILDDYVDKGSGTFLRVMDGKVDFTANKEEWKQGLLYLNQLYKEGLIDPAAFTQNADAVQQMANREPDNIMGALSTALISYAYSMDDKAPRHKDYVALPPLKGPNGVQQTLNFAGIAVSQFAITNKATKEQQIAAIRLADYLYTEEAIVLQEHGPEGKGWRKAESGEKGMDGKQAKYTAIPIPDKKPTHNDGWEQIGPSLRTYAYRASWTAPQDPLAPDGYGTRLNQVSEEYEPYQSKEQYPSGLFIALEDAELVAQIKTTLVDYVKSNMAQFITGSKDINKEWDAYVKGLDGMQLNQYLEIYQKALDAGK	PGPT0017245_448	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01038	1230			hypothetical protein	ATGAATGAACTTGCAAAGCCATCTCCGCAGCAGCTGGCATGGCAGGATATGGAGCTGGGTATGTTCTGCCATTTCGGAATGAATACGTTTTGCGATCAGGAGTGGGGAGACGGAACGGATTCAGCGGAGATCTTCAATCCGGAGCAGTTGGATGCCCGGCAGTGGGCCAGGACCGCAAAACGCGCTGGCTTCAAATATCTGGTATTGACCGCAAAGCATCATGACGGATTCTGTCTGTGGCCGACAAAAACGACCGATTACTCCGTGAAGTCCAGCCCATGGAAAGGCGGCAAAGGGGATGTCGTCCGGGAAGTTGCCAATGCTTGCAGAGAGGAAGGGCTCCAGTTCGGATTATATCTGTCCCCCTGGGATCGGCATGAACCTTGTTATCCCGATAAAGAGGCTTATGACGATTTTTATGCGGAGCAATTAACGGAGCTTCTGACCGGGTATGGACCGCTGGTCGAAGTGTGGTTCGACGGAGCCGGTTCCCAAGGCAGGGAATACGATTGGAACAGAATCATCGGTCTGATTGATAAATACCAGCCGGATGCAATGGTCTTTAATATGGGGCGCCCGACGATTCGCTGGGTAGGGAATGAAGACGGCGTTGCGCCTTATCCGTGCTGGAATACGGCCACCACGGCGAAGGAGAGCATGTTCACCAGCGATATGATGACCTGGATGGAAGGGACTCCGTCTTGGGTACCGGCCGAATGCGATGTTCCGATCCGCAAGCTTCACTGGTTCTGGCATCCTGACGATGAAGCAAGCTTAAGAAGCCTGGAGGAAGTATTGGATATTTATTACCGCTCGGTCGGCCATGGCGCTACGCTGCTCTTGAATATATCCCCGGACAACCGCGGGCTGCTGCCTGAAGCGGATGTGGAGCGTGTCATCGAATTCGGAGATGAAATCCGCCGCAGATTCGGGCAGCCGGTTGGCCAAACGAGTGGAGAAGGAACCGAGCTGCTTCTGAAGCTGGAGCATATTCAGCCAGTCAATCACGTCATCATCATGGAAGACATTGCTCATGGGGAGCGTGTGCGTGAATATGTGCTCGAAGCATTCAGCCATGGCGAATGGAAGGAGCTTGTACGCGGAAGTGCGATCGGGCATAAAAAAATCGACCGATTCGACACCGTCGAAGCCGATCAATTGCGGGTTCGTATTCTTTCCAGCGTGGAGCAGCCTTTGATCCGCAATTTGGCTGCATATCGCGTAGAATGA	MNELAKPSPQQLAWQDMELGMFCHFGMNTFCDQEWGDGTDSAEIFNPEQLDARQWARTAKRAGFKYLVLTAKHHDGFCLWPTKTTDYSVKSSPWKGGKGDVVREVANACREEGLQFGLYLSPWDRHEPCYPDKEAYDDFYAEQLTELLTGYGPLVEVWFDGAGSQGREYDWNRIIGLIDKYQPDAMVFNMGRPTIRWVGNEDGVAPYPCWNTATTAKESMFTSDMMTWMEGTPSWVPAECDVPIRKLHWFWHPDDEASLRSLEEVLDIYYRSVGHGATLLLNISPDNRGLLPEADVERVIEFGDEIRRRFGQPVGQTSGEGTELLLKLEHIQPVNHVIIMEDIAHGERVREYVLEAFSHGEWKELVRGSAIGHKKIDRFDTVEADQLRVRILSSVEQPLIRNLAAYRVE	PGPT0018775_2924	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_01039	567			hypothetical protein	ATGTCCTGGAGCAAATTGAAACAACAGCTGGAGAGCTTTCTCAGTCCTGCATTAGCTGGAAGAGTTGAATATCGCGCAACCGGTTATCGTTATTTACCTGATAAAGCAGGGCTTTGTTATATATCGGTAGATAAAAAGAACGTACTCCTTATGAGTGATAAAACCAGCTCCATAAGGTGGTATCAGACGGAGCTGGAAATTAAGAATGATCCCCATATCCAAATTCCGATCAGCGACGATGAATTGGAGGCCGTCAGAAAGGAAACCAAAGGGACCGTTCCAGAGGATCGTCTCAACGTCATTGCAAGAAATAGAAAAGTATCCGTACTCGCAAAGGAGCTTTTGTCAGCACAGGCTGCATTAAGTAAATCCAATTTTGTCGCTACAGCGAATAAGTTCTTATCTACTTCTATAGAAGAAAGCATAGAGAGCGATGATATCTTATTGAATATTCTAGCTTTGGTAGACAGACGAGTCGGCAAAAAGCGGATTGTAAACATGGCAGATAGGATGAAGCTAAAGCATCCGATTGTGCAATATTTTTATGAACTGCGGCGCAGTGCGTGA	MSWSKLKQQLESFLSPALAGRVEYRATGYRYLPDKAGLCYISVDKKNVLLMSDKTSSIRWYQTELEIKNDPHIQIPISDDELEAVRKETKGTVPEDRLNVIARNRKVSVLAKELLSAQAALSKSNFVATANKFLSTSIEESIESDDILLNILALVDRRVGKKRIVNMADRMKLKHPIVQYFYELRRSA				NA	NA	NA	NA	NA
AK002_01040	186			hypothetical protein	ATGGAATTACAGCCCCATAGCACCACATCGGCCGAAACGAAAGCCCGCGGCCTCACTCATCATGTCGTAAGGGCACTGATCATGGTGGGAGTGGCACTTGGCGGAGCCATCGTCCTGATCGCCATCGTACTTGGTATTTTATTCTTTTCCGGAGAAACGCAGGAATTTATTTATATGAACTTCTAA	MELQPHSTTSAETKARGLTHHVVRALIMVGVALGGAIVLIAIVLGILFFSGETQEFIYMNF				NA	NA	NA	NA	NA
AK002_01041	1161			hypothetical protein	TTGCGTAAATTAGTTTTGAATAAAACCGTGTTCGTCATGCTGATCTCCTTTGCCTTGATCGGATTGCTTGGATTGAGCATTGAAGCCGATCAAGTGGTCGATCAAATGAGACAAGAAGTCGTGACGCATGCGGAAAAAGAGCTTCGCGTTCCGACATACGATGCCATTGTCTTTACGCCGTTATGGGTCGAATACTTGAAGGGGCATCCGGATGACGGCACAAAGGCGATCGGCATGTTTGGGCCCTCCACGGTCTTCGGCACGACCGTACAAAAGGGGGAGAATACCTCGGCCGGCGTCCTTCAAGCTCATTTGAAAGACAGCCGCGTGATCAACCTGGGGATTTCCGGCGGAAGATTTACGGAGACTTACGCCCTGCTCGCCTCGATGATTGACGAGATTGATTTTGTCGTCTATGAGATCAATTATGGGATCGTCGTCGTCTCGGATAATGAGCCGAACGTTGTCGTCTATCCGTCGCTGGTGGAGAAGCTGGGTCAACCTATCCCGCGCAGCTGGCTGGTTGATTTCCCAGACAAAAACCGCGAATCGCTCCCAAGCAACGCCCACAATTGGGTGACGTCCCATTTCCTGAATAAGTGGACCCTCTATCATGATCGCGACGCGATCAGTTACCGTCTGTTCATGACTCGTACGCCGATGGAGAAAATCCGCCAGGAAGTCCACAAGAACGAAAATGAAAGAAAAGGGATAGAAGAAAGCTATACGCCGATGTATACCGCTTATGACAAAATGAATGACGCTCAACAGGAAGGCATCGACAAGCACTATGCAGAGCTTTATCGGTGGAGTAAGCCTTTTGATCAAGATCGCAGCTTCGGGTTGTTCATGATTGAAAAAACGCTTGAACTGCTGCAGGAGCATCATAAGAAAGCCGTGTTCTATTCGGCTCCGCTGGATAAAGAGCATATTGCCAACAAGAAGCTTTTCCATTGGAGCGAATATACCGAAGCGATGGGCGCTTATCAGAAGTTGGTAGAGTCGAGAGGATACCCCTATATCGAATTTAATCAAGAGGAGAACAATACAATCCCGCATGAATATTATCGCGACTCGGCCCATCTTATCGACAAAGGGAATAACATGTTTGGCGAAATCTTGTATATGAGGATGAAAGATTATGGAATTACAGCCCCATAG	MRKLVLNKTVFVMLISFALIGLLGLSIEADQVVDQMRQEVVTHAEKELRVPTYDAIVFTPLWVEYLKGHPDDGTKAIGMFGPSTVFGTTVQKGENTSAGVLQAHLKDSRVINLGISGGRFTETYALLASMIDEIDFVVYEINYGIVVVSDNEPNVVVYPSLVEKLGQPIPRSWLVDFPDKNRESLPSNAHNWVTSHFLNKWTLYHDRDAISYRLFMTRTPMEKIRQEVHKNENERKGIEESYTPMYTAYDKMNDAQQEGIDKHYAELYRWSKPFDQDRSFGLFMIEKTLELLQEHHKKAVFYSAPLDKEHIANKKLFHWSEYTEAMGAYQKLVESRGYPYIEFNQEENNTIPHEYYRDSAHLIDKGNNMFGEILYMRMKDYGITAP				NA	NA	NA	NA	NA
AK002_01042	849	patA	COG1696	Peptidoglycan O-acetyltransferase	GTGCTCCCGCTCGGCATTTCCTACTTTACGTTCGAGCTGATTCATTACTTGGTTGAACGCAAACGCGGAACGCTGCCGGAGCATCGGCCGGAAGGTCTGTTGTCGTTCATTTTCTTCTTCCCGTCGATGGTGGCGGGCCCAATTAAGCAATTTCAGATGTTTAATCCGCAGCTAACATCGAGATTTCACTTGGAACACATGCTGATCGGAGTCGCCCGAATCGGGTGCGGCCTTTTCAAAAAGCTCGTCCTCGCCGGATCCATTGATATGCTGGCGCAGCCCGTCTACTCAGCATCCGGCATAGCTGAGGCAGATACCGCCAGACTCTGGATTTCGCTTGTCGCCTATACGTTCGTCATCTATTTTGATTTTTCTGGCTATTCAGACATTGCCATCGGGACAGCTCGCTTGTTCGGCATTGTCATCCCGGAGAACTTCCGCTTCCCTTATTTGGCCCGCAGCATAGCCGAGTTCTGGAACCGTTGGCACATTTCGCTCGGTTCATGGCTGACCCGCTATGTGTATTTTCCCCTCGGGGGAAGCCGTGTTCCTGCTCCCCGGGTCTATTTCAATCTGATGGCGACGATGACTGTCTCCGGCCTCTGGCACGGAGCCGCCTGGAATTTCGTCATTTGGGGCATGTTCCATGGCGTGATGCTGTGCATTCATCGCTATTATGTGAAGCAGCTAAAGCCTGCATTAAAGCCTGTTCCGAAATGGCTGAAGCCGGTAACGGTCACTGTCGCGATGTTGATCACATTCTTCGGTGTAACGATCAGCCGCGTATTTTTCATATTGCCGATCGCAGACGGATGGGATTTAATGCTCCGGCTGCTTGGTATGCGATAA	MLPLGISYFTFELIHYLVERKRGTLPEHRPEGLLSFIFFFPSMVAGPIKQFQMFNPQLTSRFHLEHMLIGVARIGCGLFKKLVLAGSIDMLAQPVYSASGIAEADTARLWISLVAYTFVIYFDFSGYSDIAIGTARLFGIVIPENFRFPYLARSIAEFWNRWHISLGSWLTRYVYFPLGGSRVPAPRVYFNLMATMTVSGLWHGAAWNFVIWGMFHGVMLCIHRYYVKQLKPALKPVPKWLKPVTVTVAMLITFFGVTISRVFFILPIADGWDLMLRLLGMR	PGPT0026125_1977	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026125-algI-K19294	NA	NA
AK002_01043	384			hypothetical protein	ATGATGTATACGGATTGGTTTTATTGGCTGTTCGTGTTCGTGGCTGTCGTCACGTATCACCTTATGCCGCATCGTCTCAGACCCTGGGTGCTCTTTGCCTCAGGCGTCGCATTTTACTACAATTATGCAGGTGATTACCTGTTCCTGTTGCTTGCGGAAGTTGTCATTGCCATTGTTGTCGCGAAAGCCGCGGCGAAATGGAGAAAGCGATGGATTTACCCCGCTGGTATCCTTACCGCCATTCTCGTGCTTGGTTATTTCAAGTATACCAACATGATGCTGGATACGTTAAATGAGTTATTTGCTTTTGTTATCAGCCCTTCTTGCCTAAGGCAGAGCAGATTGTGCTCCCGCTCGGCATTTCCTACTTTACGTTCGAGCTGA	MMYTDWFYWLFVFVAVVTYHLMPHRLRPWVLFASGVAFYYNYAGDYLFLLLAEVVIAIVVAKAAAKWRKRWIYPAGILTAILVLGYFKYTNMMLDTLNELFAFVISPSCLRQSRLCSRSAFPTLRSS	PGPT0026125_1977	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0026125-algI-K19294	NA	NA
AK002_01044	990	dus		putative tRNA-dihydrouridine synthase	ATGAAAGACAATTTTTGGCGTGATTTACCACGGCCTTTCTTTATACTGGCGCCCATGGAAGATGTGACGGATGTTGTGTTTCGCCATGTCGTAAGCGAAGCAGCCAGACCGGATGTGTTTTTTACGGAGTTTGCGAATACCGAGAGCTACTGTCACCCGGATGGGAACCACAGTGTGCGCGGACGTTTGACTTTTACGGAGGATGAACAGCCGATGGTAGCCCATATCTGGGGAGATAAGCCGGAATTCTTTCGTCAGATGAGTATCGGCATGGCGAAAGAAGGGTTTAAAGGCATCGATATTAATATGGGTTGTCCTGTAGCGAATGTAGCCGAGAATGGGAAGGGAAGCGGACTGATCTGCCGTCCCGACATTGCAGCGGACATTATCCAGGCAGCCAAAGCCGGGGGATTGCCCGTCAGTGTAAAAACAAGGCTCGGTTTTAGTGCCGTAGACGAATGGCGCGACTGGCTAACCCATATTTTGAAGCAAGACATTGTCAATCTGTCCATTCATCTGCGGACAAGAGAGGAAATGAGCAAAGTCGACGCGCATTGGGAACTGATTCCGGAGATTAAGAAGCTTCGCGATGAGGTGGCACCCGATACACTGCTGACCATTAACGGGGATATTCCTGACCGTCAGACCGGCCTGAAGCTCGCTGAACAATACGGTGTGGATGGCATTATGATTGGGCGCGGGATTTTTCATAATCCATTTGCTTTCGAGAAGGAGCCGAAGGATCATAGCAGTGAGGAATTGCTTGATCTGCTGCGGCTGCATCTGGATCTACATGATCAATATTCGGCACAGATGCGGCGCTCCTTCAGCGCACTTGTCCGCTTCTTCAAAATCTATGTCCGTGGATTCCGAGGGGCAAGTGAACTCCGAAATCAATTAATGAACGCAAAGTCAACAAGTGAAGTACGTGCGCTCCTCGATGAGTTTGGAAGCAAGCATTCTGATGAGGCAGATGAACGAGGAAATTAA	MKDNFWRDLPRPFFILAPMEDVTDVVFRHVVSEAARPDVFFTEFANTESYCHPDGNHSVRGRLTFTEDEQPMVAHIWGDKPEFFRQMSIGMAKEGFKGIDINMGCPVANVAENGKGSGLICRPDIAADIIQAAKAGGLPVSVKTRLGFSAVDEWRDWLTHILKQDIVNLSIHLRTREEMSKVDAHWELIPEIKKLRDEVAPDTLLTINGDIPDRQTGLKLAEQYGVDGIMIGRGIFHNPFAFEKEPKDHSSEELLDLLRLHLDLHDQYSAQMRRSFSALVRFFKIYVRGFRGASELRNQLMNAKSTSEVRALLDEFGSKHSDEADERGN				NA	NA	NA	NA	NA
AK002_01045	1161			hypothetical protein	ATGACTGATAAGTTCCAGATCGTAGGAAGTTTGTTGCGGCCCGAAGAGCTGCTGAAATATAAAACGCAAATTGAACATCGTGATGATATCCGGTATCCGTTCTATGAAAATTTCGAAGGGTATGCCGAGTGCGAGACCGAGGCGATCAAACAGGTCGTGAAAAAGGAAATCGAGCATAACCTGTCGGTTGTTACGGACGGCGAATTCTCCAAATCGATGTGGCATCTGGATTTTGTATGGGGCTTTGACGGAGCCCAGCGTTATATCGCGGACCATGGCTACTTTTTCCGGGATGTGGACGGAACCTCGAAATATGAAACACGCAAAGATATTGGCCTGCGCATTACAGGCAAACTGAGCGGAAAGAATCATCACTTCATTAAGTTGTTCAAACAGCTGCAAGAAACGGCTGGCGATCAGCAAACGAAGCTTTGCGTACCATCTCCTTCTCATATCTACGGTGAACTCTCCTGGTCGGATAACATTGGCGGCACGGATGCGGTTTATCAGAACAAACAGGAGCTCAAAGCGGGCCTTGTGAGCGCGTATAAGGAATTCGTGGCGGAATTCGCTGCGGCTGGCGGTAAGATTCTACAATTTGACGACTGCCTGTGGGAGTTGTTTGCAGACGACAACCCGAACTCTCCGTTTACAGGGGAGCATATTAATCAAGCGGAAGTACAGGGTCTCGCCACCGAATTTATTGAGATTAACAATACGGTGATTGACTTCGGCCATAGCCTCGGCTTGAAAATGTGGACGCATAACTGCCGCGGCAACTATGATTCCCGCAATATGGGCGGTGGATCTTATGCGAAAATCGCCAACCTGTTCCTGAAGCAGTTGAAATATGATCGTTTCTTCCTGGAATGGGATGACGATCGTGCGGGTTCGATTGAAGCACTGGAGGTATTCAAGGACAGACCGGAAACGGAGATTGTTCTGGGCTTGCTGTCTTCCAAAACCAATACGCTGGATGATGAAGCACGCGTCGTCCGTCTGCTTGACGAAGCATCCAAAATCATTGATAAGGATCGTCTGCTGCTCTCGCATCAATGCGGCTTTGCATCCTGCGATGGCGGTAACGAGCTAAGCGAGGCCGAGCAATGGGCGAAAATCGATCAGGGTCAACAGATTGCCAAGCAATACTGGGGTAGCTAG	MTDKFQIVGSLLRPEELLKYKTQIEHRDDIRYPFYENFEGYAECETEAIKQVVKKEIEHNLSVVTDGEFSKSMWHLDFVWGFDGAQRYIADHGYFFRDVDGTSKYETRKDIGLRITGKLSGKNHHFIKLFKQLQETAGDQQTKLCVPSPSHIYGELSWSDNIGGTDAVYQNKQELKAGLVSAYKEFVAEFAAAGGKILQFDDCLWELFADDNPNSPFTGEHINQAEVQGLATEFIEINNTVIDFGHSLGLKMWTHNCRGNYDSRNMGGGSYAKIANLFLKQLKYDRFFLEWDDDRAGSIEALEVFKDRPETEIVLGLLSSKTNTLDDEARVVRLLDEASKIIDKDRLLLSHQCGFASCDGGNELSEAEQWAKIDQGQQIAKQYWGS				NA	NA	NA	NA	NA
AK002_01046	1173	pbuE_1	COG2814	Purine efflux pump PbuE	ATGAAGAGCACATGGAAAGTTTACGTTCTAGCCTTGGTCAGCTTTTTAGTTGGAACATCCAATTACATCATTTCCGGGATATTGGACCGGATCGCAGAGACGATGGGAACAAGCGTTGCGGCAGCAGGCCAGCTCATTACGGTTTATTCCCTGGCCTATGCGGTCGGCACGCCTATTTTAATGGCGCTGACGGCCAAAATGGACCGGCGTAAGCTCCTACTTTATTCGCTGGGCCTCTTTATTATCGCAAATCTGCTGACATTTATATTGTCCGGCTTCGGTCTCTTCATTGCCGCTAGAATCATTACGGCGTTAGGCGCCGGGGTAGTCACCGTTAACGCGCTCAGTATCGCCGCCAAAATCGCTCCGCCAGGCAAGCAAGCCAGCGCCATCGCCAACGTCACCATGGGCATTACCGCATCGCTCATCATCGGCGTCCCACTCGGCAGAATGGTAGCCTCGGCTTTTGGCTGGAAAGCGGTATTTCTGGCCATCGCAATTGTCGGGGGCATCGCCATGCTTGTCATTGCTGCGGTTTTTCCACGTATGCGGGGCGACAAGCCTGTCCCTTTGATCAAACAATTTGCTTTGTTAAAAAAACCTCAGGTCTTTGTTGCTTTAGCGATTACTTTTTTCTGGTTGGGCGGATATTCCCTTGCCTATACTTACATCTCCCCTTTTCTGCTAGAGGTGACTCATTTAAATGAATCATTGATTAGCGCAGCTCTGTTCGTGTTCGGCATTGCCAGTTTGATTGGCTCGAAAGTCGGCGGCTACAGCGCGGATAAACGGGGCATTATATTCACGCTCGTTTCAGGGATGGCGCTTCACGTCATTTCGTTGATTTTGCTATCCTTAGTCGGACAGTCGGTCATTGCCGTATTCGCCATTTTGATCCTCTGGTCTTTTGCCGCCTGGTCATCCGCTCCAGCGCAGCAATTTAACCTGGTCAAGCTTGTTCCTGAATCCTCGGGCGTCATGCTGAGCTTGAACAGTTCCATGATGCAGTTTGCCATGGCTGTCGGCGCAGGAATCGGCGGGCTGATCGTTAACCGTGTTTCTTTGGCATCCATTACCTGGTTCGGGGTATTCGGCGTTCTCATCGCCATCATTGCCGTGTTTGTATTGTCCAGCATGGCATCACGGCATTCGGCGGTGCAGACAGCGGATTAA	MKSTWKVYVLALVSFLVGTSNYIISGILDRIAETMGTSVAAAGQLITVYSLAYAVGTPILMALTAKMDRRKLLLYSLGLFIIANLLTFILSGFGLFIAARIITALGAGVVTVNALSIAAKIAPPGKQASAIANVTMGITASLIIGVPLGRMVASAFGWKAVFLAIAIVGGIAMLVIAAVFPRMRGDKPVPLIKQFALLKKPQVFVALAITFFWLGGYSLAYTYISPFLLEVTHLNESLISAALFVFGIASLIGSKVGGYSADKRGIIFTLVSGMALHVISLILLSLVGQSVIAVFAILILWSFAAWSSAPAQQFNLVKLVPESSGVMLSLNSSMMQFAMAVGAGIGGLIVNRVSLASITWFGVFGVLIAIIAVFVLSSMASRHSAVQTAD				NA	NA	NA	NA	NA
AK002_01047	327			hypothetical protein	ATGCAGAATACCGCTTTTCCAAAAGGAGGAGAGAACCATGTCGGTTTCACAACCGTCACTTACGATGGAGCACCAACTTTTTTTGATGTTATTCGAGAACGTCGGTCGGTTCGTAGCTATGATCCCGAGATCAAGATTTCGCGGGAGGAATTGACCGAAATATTGCGGCAAGCCACGCTGGCCCCTTCAGCCGCTAACCTGCAGCCGTGGCGGTTTCACGTTATCGACTCGCCGGAGCTGAAGCAGACGCTGCTTCTGATCGCATCCAATCAACAGCAAGTGGTCGAGGCTTCGGCTGTCATTGCGGTACTCGGAGATTTGGAGTGA	MQNTAFPKGGENHVGFTTVTYDGAPTFFDVIRERRSVRSYDPEIKISREELTEILRQATLAPSAANLQPWRFHVIDSPELKQTLLLIASNQQQVVEASAVIAVLGDLE	PGPT0028511_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
AK002_01048	591			hypothetical protein	ATGGCAATTAAAAAGAATGAAGCTGATCCTCGTGTGATACGTACACGGCGACTCCTTCAAGACGCTTTTGCTTCGTTAATTCAAGAAAAAGACTTTGAATCGATAACCGTTAGGGATATTGCAGAGCGGGCTACTGTTAACAGAGCGACTTTTTATGCGCACTTTGTAGATAAATTCGAAATTCTAGAGGCCAGACTAATGGATTCCTTTATGACAATCATAAATCGTAGAATAAGCGGTCACGAAGTATTAAATGAAGAAACCATTCAGAGTATTTTTCTGGGGGTATGCGATTTTCACAAGAGTCTAAGCACTATGTGCAAAAGAAGGTATACATCGCTTGGAGCTGTATTCGAAATTCAAATAAAGGAAAAAATTCAGACGATACTTCTTTCCTTTATAGACAAAGACAAGATGCTGTCAAGTTCAAACGCGCAATTCTTAATGAATACAGCTACTAACATGTTAAGTTGGGGGATGTATGGGGCGGCTTACGCTTGGAATAATGAGGGGCGTCTAATAAGTGCGGAATCATTCGTTAAACAGACTATGCCCTTAGTGATGAACGGAGCTAAAGAATTGCTGGGATAG	MAIKKNEADPRVIRTRRLLQDAFASLIQEKDFESITVRDIAERATVNRATFYAHFVDKFEILEARLMDSFMTIINRRISGHEVLNEETIQSIFLGVCDFHKSLSTMCKRRYTSLGAVFEIQIKEKIQTILLSFIDKDKMLSSSNAQFLMNTATNMLSWGMYGAAYAWNNEGRLISAESFVKQTMPLVMNGAKELLG				NA	NA	NA	NA	NA
AK002_01049	810			hypothetical protein	ATGCTATATTTAAGTAACTTCAAACTCTCTTCTACCATTTCGAGCAACCCGAATATCTATCCCGATCATGTGTTCAGGCACATGGCAGGGGAGGTTCTGCTGTTTGATCGAATCACGGTATTATACGGCAGTAACGGCTCCGGCAAGTCCACCTTGCTGAATCTGATCGCCAATAAATTGGGAATCGCGGGCGCTGAGCGAATGACAAGCTATGGTCACAACGCGTACGCGCAGCGGTTTATCGAGGAAAGCAGCTATCAACTCGGGCATGATGATCAGGAGCGTCCCCTATATAAGCTTCCCGACGGGAGCCGTTACATCAAGTCGGAGGATCTGTTGTATGAAATCAAGAAAATACAGCAGGAAAGCGTGCTTCGCGAAGGGCTGCTGCATGAGCAGCTCGTTCAAGGAAAGAGTAAGGCCGAGGTAGAAGAGCTGGAGCAGTCGTATGAATTCAAGAAGAAGATGGACATCATTCAATTCGCTCAAGAGAAGTATTCGAACGGGGAAAGCTCGATGCAGTTTTTTGAGGAATATTTGCTTCCCGGTCAACTGTATTTACTGGATGAACCGGAAACGTCGCTTTCTCCGGCGAATCAAATCAAGCTGGCCGAGCAAATGAACGATTTGGCGCGTTATTTCGACAGTCAGTTTATTATTGCTACGCATTCTCCCTTTGTTCTGGGTACGCTTCATGCGAAAATCTACAACCTCGATGCCAAGATGTTGCAAACGGCAGAATGGTTTGAGCTGGACAATGTCCAATTCTTTTACCGGTTTTTTCATAAACATCAAAGATTGTTTGAATGA	MLYLSNFKLSSTISSNPNIYPDHVFRHMAGEVLLFDRITVLYGSNGSGKSTLLNLIANKLGIAGAERMTSYGHNAYAQRFIEESSYQLGHDDQERPLYKLPDGSRYIKSEDLLYEIKKIQQESVLREGLLHEQLVQGKSKAEVEELEQSYEFKKKMDIIQFAQEKYSNGESSMQFFEEYLLPGQLYLLDEPETSLSPANQIKLAEQMNDLARYFDSQFIIATHSPFVLGTLHAKIYNLDAKMLQTAEWFELDNVQFFYRFFHKHQRLFE				NA	NA	NA	NA	NA
AK002_01050	582	slmA_1		Nucleoid occlusion factor SlmA	ATGACCAGATCGAAGCTGAAAGAGGCTGCGCTGAGGTTATTCGGACAGAAGGGCTACGATGGAACGGCATTATCGGAAATCGCGAAGGAGGTTGGCGTCAAAACTCCGGCAATCTACGCCTTTTTCGAAAGCAAGGAAGATCTGTTCATGACGGTCTTCGAAGAATCGATGAGCGCCTATAACGAATATATCCAAGCGATGGCAGAAACCAGCAAAGGAATGAGCACGAAGAAAAAATTGCATGCGCTGCTGCTTCGCCAATACGATTTCCACCGGGACAAGCAGGAGCTTGCCGTATTTGCCTTCCGGTACTTGGTTTTCCCGCCGGATTTCCTAATGGATCGGATGCAGGAGGCGTTTGGGCGTTTCGATACGCTTTTGAGCAGCATTATCAGTGAGATCATGCAGGAAGGTCTGGAAAGCGGCGAACTGGCCATCGTCCCGATGGAGACGCTGGTGGATTCGTACCTCACCTTGATGGACGGACTGGGCATGCAATATTACTACTATAAATCGCCGGAGCTGTTCGAACGGAAACTGAAACATGCCTTTGAGATGTTCTGGAGATCCGTCGAAGCTTAG	MTRSKLKEAALRLFGQKGYDGTALSEIAKEVGVKTPAIYAFFESKEDLFMTVFEESMSAYNEYIQAMAETSKGMSTKKKLHALLLRQYDFHRDKQELAVFAFRYLVFPPDFLMDRMQEAFGRFDTLLSSIISEIMQEGLESGELAIVPMETLVDSYLTLMDGLGMQYYYYKSPELFERKLKHAFEMFWRSVEA				NA	NA	NA	NA	NA
AK002_01051	1290	codB_1	COG1457	Cytosine permease	ATGAGCAACGATACGAAAATAGAAGATTACGAACGGGAGCCCGTACCCCAGCATTTGCGGAAATCATGGCTCTCGATGGCATTCGTCTGGATTGCAATCGGCATTGACCTGTCCGCGATGTTCCTGGGTGCGCAGCTCGGCGCGGGTATGAGCATCGGCGACTCGCTGACGGCGGTCATCGTCGGTTCAGCCATATTGGGCATGATCGGGGCTGTCTGCGCATATGTGGGAGCCAAAACAGGACTGTCGACGGCCATGATCAGCCGGTTTCTGTTTGGGAACCAAGGGGCGCTCATCGTCTCGGTCATTCTCGGCATTTCATCGCTGGGCTGGTTCGGCGTTCAGGTCGGCTTCTTCGCTTCCAACTTCCAGACGGCGTTAAGCGAGCTATGGGGCTGGCATTGGTCGCTCTGGGTACTGTCGATCATTGGCGGACTTCTGATGATGTCCACGGCGATCTGGGGCTACAGGGCGATTGAAAAATTAAGCGTCTGGTCGGTACCGCTGCTCGTCGTGTTTATCATTATCGCGCTGGTGATGGCGCTTAACGGGGAAGGCGGAAGCACCGTCTGGGCACCGTTCGAGGGGGAGGCTCTGCCGATGGGGACGGCGATTTCGCTGGTCATCGGTATCTTTATCCTTGGAACGGCGCTGTCCCCTGACATCGCGCGCTGGGCCAAAACGCCAAAGCATGCCGTTACCGCAGCGTTTATCGGTTTCTTTGTCGGTAACAGCTTCATGACCATCATTGCGATTTTCCTGTCGCGTACGATGGATTCCGACGATCTGACGGGCATTCTGCTGACGCTCGGACTCGGTATTCCGGCAATCATCGTGCTGACGCTGGCACAATGGACGACCAATACGAACAATTTATATTCCGCGGGACTGGGCTTCTCGGTTGTCTTCAAGCGGGTACCTAAATCCGTGATCACGATTATCGCAGGTCTCATTGCCACGGCACTTGCTTGCTTTGGCATTTATGACCGGTTCATGACGTTCCTGACGTACATTACGATGCTTGTCGCACCGCTGGGCGGCATTTATACGGCTGAGTATTTGTTGGTGAACAAAAATAGATTCTCGTTTGACGGACTGGACAGCAATCGGAGCTGGATTCCCCGCTCCATCGTCGTCTGGGTCATCGCCACGTTCTTCGGGTTCATGACAACGATGGCCCCGGATGGGCTCGGATGGTTCCAGGTAACCCAGGTTCCGGCGCTGGACAGCTTCTTGATGGCATTTATCGTGCAAGCAATCATAGGCAAATGGGTAGTAAAGAAGGGATGA	MSNDTKIEDYEREPVPQHLRKSWLSMAFVWIAIGIDLSAMFLGAQLGAGMSIGDSLTAVIVGSAILGMIGAVCAYVGAKTGLSTAMISRFLFGNQGALIVSVILGISSLGWFGVQVGFFASNFQTALSELWGWHWSLWVLSIIGGLLMMSTAIWGYRAIEKLSVWSVPLLVVFIIIALVMALNGEGGSTVWAPFEGEALPMGTAISLVIGIFILGTALSPDIARWAKTPKHAVTAAFIGFFVGNSFMTIIAIFLSRTMDSDDLTGILLTLGLGIPAIIVLTLAQWTTNTNNLYSAGLGFSVVFKRVPKSVITIIAGLIATALACFGIYDRFMTFLTYITMLVAPLGGIYTAEYLLVNKNRFSFDGLDSNRSWIPRSIVVWVIATFFGFMTTMAPDGLGWFQVTQVPALDSFLMAFIVQAIIGKWVVKKG				NA	NA	NA	NA	NA
AK002_01052	1116			hypothetical protein	ATGAACAAAGCAACCAGATTAACTACATTGGATGAACAAGCCATTGAATATATCGCGATCGGAGCTGCGGTGCTTGGCACGGGCGGCGGTGGAGATCCGCATGTCGGAAAATTGATGGCCATGGAGGCGATCCGCAAGTTTGGCCCGGTCCGAATTGCCCAGCTCGAAGAGCTGGACGATGAAGGGCTTATCGTGCCGGTATCGATGATCGGAGCACCGACGGTGATGCTGGAGAAAATCCCTTCGGCTGAACAGCTGACCAAACCGCTTGACCTGATGGAAAAAGAGCTCGGCCGCAAGGTGGATGCCGTTATGCCGATCGAGGTCGGCGGCGGCAACTCGCTCGTTCCCGTCATTGCGGCGGCACAGCGGGGAATTCCGCTCGTCGATGCCGATGCGATGGGGCGTGCGTTTCCCGAATCGCAGATGGTGACGTTCCATCTGGAAGGCATCCCGTGCAGCCCGGTGGCGATGGCGGACGAGCGCGGAAACAGCGCGCTGATGCATACGATTGACGGCGTGTGGGAAGAACGGATGGCACGTGCGCTGACGGTGGAGATGGGTGGTTCTGCCTCCATCTGCGATTATCCGGTATCCGGCGCGCAGGTGAAGCAGAGCGCGATCGGCGGCACGCTGACGCTCGCCTATGAGATCGGGCGGACGCTGTTCGAAGCAAAGCAGCAGAAGCTGAACCCTGTGCGCGAATTGCTCGCGAAGCTGAACGGCCATGCCTTGTTCCATGGCAAGGCCGTGGATATCCGACGCCGCATGGATGGCGGTTTTACGCGCGGCGAAGCCGTATTCGAAGGTACCGGCGAGAACAAGGGAACAACGATGCGGCTGTTTTTCCAGAATGAGTTCCTGCTCGCCACCGTTGACGATCAACCGCTCGCGATTACGCCTGATCTGATTACGCTGTTGGATCAGGATACGGGCATGCCGGTGACGACGGAGAACTTGAAGTATGGTGCCCGGGTGACGGCAGCAGGGTTGCCATGCGACGACAAATGGCGCACGCCAAAAGGCATTGAGACGGCCGGGCCGAGATATTTCGGTTATGACTTTGATTATGTGCCGATCGAGACGTTGGCTTCGAAAGGAGGTGCGGCGAAATGA	MNKATRLTTLDEQAIEYIAIGAAVLGTGGGGDPHVGKLMAMEAIRKFGPVRIAQLEELDDEGLIVPVSMIGAPTVMLEKIPSAEQLTKPLDLMEKELGRKVDAVMPIEVGGGNSLVPVIAAAQRGIPLVDADAMGRAFPESQMVTFHLEGIPCSPVAMADERGNSALMHTIDGVWEERMARALTVEMGGSASICDYPVSGAQVKQSAIGGTLTLAYEIGRTLFEAKQQKLNPVRELLAKLNGHALFHGKAVDIRRRMDGGFTRGEAVFEGTGENKGTTMRLFFQNEFLLATVDDQPLAITPDLITLLDQDTGMPVTTENLKYGARVTAAGLPCDDKWRTPKGIETAGPRYFGYDFDYVPIETLASKGGAAK				NA	NA	NA	NA	NA
AK002_01053	1578			hypothetical protein	ATGACCAAGACTACAACTTCTAATGCAAACCGGAATTACCGCATTGGCATTGATGTGGGAGGGACGAATACGGACGCCGCCCTGCTGGATTCCGACTTGCGCTGCGTGCACAAGGTGAAGGTCCATACGACTGCCGACGTGAACGAAGGCATTGTGGAAGCCGTTCGCCGGCTGCTGCACGAAAGCGGCGTGAATGGAGCAGACATTCGCTATGCGATGCTCGGCACCACGCATTGCACCAATGCCATCGTGGAGCGCAAGCATCTCGGCCGGATCGGCCTGATTCGCATCGGCGCACCGGCCACGACGGCGGTTCCGCCGCTGGCCGGCTGGGACGAATCGCTGCGCGCGGCAGTTGGGCCGCATAGCTATGTCGCCTCAGGCGGCTATGAGTATGACGGCCGCAAGATCGCCAATCTGGATGAAGAGGAGATCGCCGAACTGTGCCGCCGGATGAGCGGCGAAGTCGATGCGGTGGCGGTATGCGGCGTATTTGCTCCTGTGAATCGTGAGCAGGAGAAGCGCGTTGGAGAGATCGTGCGCGAGGTGTTGGGTTCGGACATGCCGGTTACCTACTCCAGCGAGATCGGCAGCATCGGATTGCTGGAGCGGGAGAATGCCTCCGTGCTGAACGCGGCGCTGCTGCAAGTTATTGCAGGCGTAGTGCGCGGATTTGAGGAAGCGCTGAACGGCTTCGGCATCCATGCCCAGCTGTACATTTGCCAGAATGACGGCACGTTGATGAAGAGCGAATATGCGCTCCGTTACCCGATTCTGACGATTGCGTGCGGACCGACGAATTCGATTCGGGGCGCTGCACACTTGTCCGGGCTGAGCGACGCGCTGGTCGTTGACATCGGCGGCACGACGACGGATATCGGCGTGCTCGTGCAAGGCTTTCCGCGCCAGTCGTCGGCAGCGGTGGATATCGGCGGCATTCGCACGAATTTCCGGATGCCGGACATTTTGTCCATTGGCCTCGGCGGCGGCACGATCGTCCGGCTGGACGACGCAGGCGGCGTAACGGTTGGCCCGGACAGCGTGGGCTACAAGCTGACGACACGGGCCCTCATCTTTGGCGGAGATACGCTGACGACAACGGACGTAGCCGTGAAGATGGGCCGGGCCGCATGGCCGGGCACAAACGCGGATGCAGTGGACGAAGCTGTATGCGGTAAGGTGGATGCCGTCATGCAGCAGATTCTGGAGGATGCCATTGACCGGATGAAAACGAGTGCCGACCCGGTCGATGTCATTCTGGTTGGCGGCGGCAGTCTGTTGGTACCGGATACGCTGGCAGGGGCAAGCCGAATCATCCGGCCGGACAATTATGATGCGGCGAACGCAATCGGCGCGGCGCTGGGAGAGGTTAGCGGCGAGTCGGAGCGGATCTATTCGCTGGACGACTGGAGCTATGACGACGTCATCCGCGATGCGAAGGAAAGCGCCATGAACGAGGCAACGGCAGCTGGCGCGAATCCGGAGACCGTACAGATCGTGTCCGTCGAGGACATTCCGATTGCGTATTTGCCGGGCAATGCGCTGCTCGTGAAAGTGAAAGCTGCGGGCAAGCTGTAA	MTKTTTSNANRNYRIGIDVGGTNTDAALLDSDLRCVHKVKVHTTADVNEGIVEAVRRLLHESGVNGADIRYAMLGTTHCTNAIVERKHLGRIGLIRIGAPATTAVPPLAGWDESLRAAVGPHSYVASGGYEYDGRKIANLDEEEIAELCRRMSGEVDAVAVCGVFAPVNREQEKRVGEIVREVLGSDMPVTYSSEIGSIGLLERENASVLNAALLQVIAGVVRGFEEALNGFGIHAQLYICQNDGTLMKSEYALRYPILTIACGPTNSIRGAAHLSGLSDALVVDIGGTTTDIGVLVQGFPRQSSAAVDIGGIRTNFRMPDILSIGLGGGTIVRLDDAGGVTVGPDSVGYKLTTRALIFGGDTLTTTDVAVKMGRAAWPGTNADAVDEAVCGKVDAVMQQILEDAIDRMKTSADPVDVILVGGGSLLVPDTLAGASRIIRPDNYDAANAIGAALGEVSGESERIYSLDDWSYDDVIRDAKESAMNEATAAGANPETVQIVSVEDIPIAYLPGNALLVKVKAAGKL				NA	NA	NA	NA	NA
AK002_01054	1179			hypothetical protein	ATGAACAAAAAAGAAGTCGCCAATATACGCAAGCAATTTAAGCTGGATCACGATTTAATGAATATTTACGATATTCTCAATGTCTATATTACAAAGGAAACGAATGAAATCTATCATTGGGAGCGCCTGCCGTTCGAGCTGGTGGATCGGGAGAAGCAAGAGTTATACATGGGGAATTTCAAAAAACTGCTGACCGGCGAGCTGGATCAAAAATTGTTCGAATTGAGGTTCCAGGAAGCAGCGGAGGAACCGGCGCAGGTCATGCTTCACCAAGCGCTCGTGTCGGGTGATCCGGAAGAATGGCAGGACTTGATGCTGATGCTGGTGGATCGAATGCTGAAGGATGCCCAATATGAGCGGGACATGGTGGTCACGTTCGTTCGGGGACAGTATTATTTGCCGACCAAGGCGAGAAACGATGAAGCGGAAGAGAGCGAGAAGAACGAGGTGTTCGCCCATCCGTTCATTTTATGCAGCGTGAATTCTACGGAGAAACAACGGAAGACGCTCTTGTTCGATTATGTGGAGCGGGAGTTCAAGTATAATGTCATTGTAGATCCGATTATCAAGTTAAGTGCGCCAGAGCAAGGATTCCTGTATCCTAGCGTGACGGACAATTATTCCGATGTGAATCGTATTTTGTATTGTACGGGAAAATCGAATTTTCCGGATCCGCATTTTGTCGAGCAGGTCTTGAACGGAGAAAGATCCGTGACGGCACTTGAAGAGCGAGCGATCTTCGAGGATATCGTCAAGGAAGTGGCCGGCGAACAGCTCGATTCAGCCACCATTGCCCAGGTGTACGAGGAAATCAACCGGGTGATCGAAATGAACGAAGAGACGAAGGAGGAAGAACCTCCGAAGCTGGATTATAAAGATCTGGAGCGCGTGCTGAACGCAAGCGGCGTAGAGGACGTGACAACCGAGAAGGTGGAGCGGGCATTCGAAACCATCGTGGACAACAAGAACTATGAGATGAAAGCAACCAGCGTCATGCCGAAGTATACTACCAAATCCATTAAGATTGAAACCAAGGTAGCTACGATTTCGGTGAGCCCGCAGGATTTAAGGTATGTCAAACAGGTGAATTTCCAAGGTAAACGCAACATCATGATTGAAGTCGACGAAGATGTCGCGATTGAAGGGTTTACGCTGGCTTCAGAGACGCTTTTAAGTTAA	MNKKEVANIRKQFKLDHDLMNIYDILNVYITKETNEIYHWERLPFELVDREKQELYMGNFKKLLTGELDQKLFELRFQEAAEEPAQVMLHQALVSGDPEEWQDLMLMLVDRMLKDAQYERDMVVTFVRGQYYLPTKARNDEAEESEKNEVFAHPFILCSVNSTEKQRKTLLFDYVEREFKYNVIVDPIIKLSAPEQGFLYPSVTDNYSDVNRILYCTGKSNFPDPHFVEQVLNGERSVTALEERAIFEDIVKEVAGEQLDSATIAQVYEEINRVIEMNEETKEEEPPKLDYKDLERVLNASGVEDVTTEKVERAFETIVDNKNYEMKATSVMPKYTTKSIKIETKVATISVSPQDLRYVKQVNFQGKRNIMIEVDEDVAIEGFTLASETLLS				NA	NA	NA	NA	NA
AK002_01055	705		COG1136	putative ABC transporter ATP-binding protein	GTGACAACGTTAATCGAATTCAAAAAGGTAACCAAGGCCTATCCAATCGGCGAAGTGACGATTCAAGCCCTGGCGGGTGTTGACTTCTCCATATTAGAGGGGGAATTCGTCGTGATTCTAGGGGCCAGCGGGGCAGGGAAAAGCACGATTTTGAACATCCTCGGCGGGATGGATACGGCTACTTCGGGACAAGTGTTTGTTGGAGATCAAGAGATTACGGGATGGAGCGAGAAGAGATTAACCGAATACCGCGGCGAGCAGGTTGGCTTCGTATTTCAATTCTATAACCTGATTCCGAATTTGAATGCGCTGGAGAACGTGGAATTTGCGACAGAGGTATGTAAGGACCATCTGGATGCACGAGATATTTTACATAAGGTTGGACTAACGGATCGTTTGAAGAACTTCCCTTCCCAGCTCTCTGGCGGCGAACAGCAAAGAGTTGCGATCGCAAGAGCGGTTGCCAAGAATCCCGCGCTTCTCCTCTGCGACGAACCCACCGGTGCTCTGGATTATGTAACAGGAAAGTCCGTCTTAAAGCTTCTTCAAGATTTGAACCAGGAAACGAAGACATGCGTCGTGCTGGTCACCCATAACTCGGCCATCGCGCCGATGGCGGATAAAGTGATCCGCGTCAAGAGCGGGAAGATCGAGAGCATCACGATCAATGAGCACAAACAAAGCGTTGAAGGGATCGAGTGGTGA	MTTLIEFKKVTKAYPIGEVTIQALAGVDFSILEGEFVVILGASGAGKSTILNILGGMDTATSGQVFVGDQEITGWSEKRLTEYRGEQVGFVFQFYNLIPNLNALENVEFATEVCKDHLDARDILHKVGLTDRLKNFPSQLSGGEQQRVAIARAVAKNPALLLCDEPTGALDYVTGKSVLKLLQDLNQETKTCVVLVTHNSAIAPMADKVIRVKSGKIESITINEHKQSVEGIEW	PGPT0013345_9188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_01056	2328			hypothetical protein	ATGAAGATTTTAGCGTTGAAATTGTTAAGGGACATGAAACAGTCGGTAGGACAATTCATAGCCATTGTTTTGGTCATCGCGGTGGGAGCTTTTTTCTACACGGGGCTGGTCACCTTGAGCGACAATCTTAGCGGCTATACGAAGGGGTATTTTCAAGAACATAATCTAAGCGACTTCAACGTCTATTACAGTCAAATTTCCGCAGGAGATGTCGAGGATTTAGGGAGTATTGATGGCATTCAACATATCGAAGGGCGTTATACCGTCCAGGCCGAACAGGCTTTTGAAAATCATAAAGCTACTTTAACGGTGCATTCGATCCCCGTACCGAATGCAATCAACACGTCCAGGATGATGGAGGGCAGGATGCCAGAAGGGCCGAATGAGATCCTGTTGGACTCCCACTATGCCGAGGCGCATCATTACCGTGTCGGTGATTCCATCAGTCTCCGTGTGAATGACAAGGACATGACGTTCACGATCAGCGGCTTGAATGAGAATGTGGAGCATGCCAAGAAGAACGAAACCCAGGACCACCAAGCTTATGGAATCGCTTATATCCCCGAAGAGACCATTCCTGAAATCGCAGGCGGCATGTACTACAATGAGATCCTGATTGATGCCAAGGACGGTTACGACATGGACCAGTTAGGCCAGGCCATTGAAGCACATTCCCAGTCACTCCCTTATGTAAGCCAGGTTAGCAAAGAACGGACCTTCAACTATTCCCAGACCCAGCAAACGATTCATAATAATAAGCTGATGAGCAGAGTGATCCCGATCGTTCTCTTTTTGATTGAAGCGGTGATTCTGTTTCTGATCATGTCGAGGATTATCGATTCCCAGCGAAATCAAGTGGGCATTATGAAGGCATTAGGGGTGAAAAAAAGAAGCATCATGCTGCATTACATGGGCTACCCCGTGCTGGCAGGTGTCATCGGCTCCATCCTGGGCTATGCCATCGCTGCCGCCCTGTTCATTCCACTCATAACAACGTCGATTGGAAGATCTTACTCCCTACCTGACCTGACGTTCTCCCTTTCGTTCTTTACGCTCCTACCTCCGATGATCTGCTCCAGTGCGTTTGGCATGCTGTCCTGCTATTTCAGCGGCAGAGCGATTTTGCAAGAACGTGCTGCGCAGGCAATGCGTCCGAAGCCACCCAAGAAGATGAAGAGGCTGTTCATCGAGAACATTCCAGGGATGTGGAGTCGGCTCCCTTACAGTTACAAGATCATTCTAAGAAATATCTTCTTAAATAAACAAAAAGCACTCGCAAGCTCCGTTGGCGTTGTGGTCAGTACGGTTTTGTTGATCACGGCTTTCGGCACGCAGACGGCCCTGCTCAAGGTAGCCGGCCAGATTGAAGAGGTAAATACGTATGATTTACGAGTCGATTATGCAATGGGATCGTTTCCGGATCCGGCAGCACTGCCCTCCGGCATTGCAGACCATTATAGGTTGTCCACCTACCCTGTGGAACTCATCCAAGGGGAAAACAAAGAAAATGCTACGCTTGTGGTTACGGAGCAGGATAATGAGCTGATTCGCTTTTATGATGAACAAGGCAATCGGCTATCGTTAGAAGACCATGGCGTGCTGGTACCGAAATCTTACGCGGATCAGTATCATATAGCCGAAGGGGATACGATCCAGCTTCAATTCACCGCACCGGAGCTTAACCAAACCATCGTTGATATGAAGGTTCTGGATATTTCCACACAATACTCGAATCCGTCGTTCTACAGCACACCGAATTATATGAAGAGTTTGGGTATCGACTACGATCCCGCCTCGCTGTTAGTGAGCGTCCATAGCGCTGCCGATCTGGCAGGCGTTCGCAGCTTCTTCGAACAAGACCCGCAGGTGGAGGCCATTGCGGACAAGGATGATCTGAAGAAATCAGCGCAGTATATGCTAAAGCAAAACAGCTTTATTTTCATCATGTTTATCATCTGTGCCGTCATTCTGTCCTTCGGCGCCATCTACACGATCTCTTCCATCAACATTTATGAAAGGAACCGTGAGCTTGCCACCCTGAAGGTCTTAGGCTATCCCAAACGTAAAATCAACCGGCTGATCTTCTCTGAGAACATGCTGTTAACCGCTTTTGCGGTCATTGTTGCTCTGCCGATCAGCGGTTATGTTTATTCGATTATCATCCAGGCGCTCTCGAGTACGCATCAGCAAATTCCGGATCAATTAAACCTTGTGATTATGCTGGCATCGGTTGTGCTGGCATTCTTCCTGACCCTCCTCTCCAACCTCATGCTTCGGAAAAAAGTGACGCGGATTCACATGATTGAGTCGTTGAAGGGTGTGGAGTGA	MKILALKLLRDMKQSVGQFIAIVLVIAVGAFFYTGLVTLSDNLSGYTKGYFQEHNLSDFNVYYSQISAGDVEDLGSIDGIQHIEGRYTVQAEQAFENHKATLTVHSIPVPNAINTSRMMEGRMPEGPNEILLDSHYAEAHHYRVGDSISLRVNDKDMTFTISGLNENVEHAKKNETQDHQAYGIAYIPEETIPEIAGGMYYNEILIDAKDGYDMDQLGQAIEAHSQSLPYVSQVSKERTFNYSQTQQTIHNNKLMSRVIPIVLFLIEAVILFLIMSRIIDSQRNQVGIMKALGVKKRSIMLHYMGYPVLAGVIGSILGYAIAAALFIPLITTSIGRSYSLPDLTFSLSFFTLLPPMICSSAFGMLSCYFSGRAILQERAAQAMRPKPPKKMKRLFIENIPGMWSRLPYSYKIILRNIFLNKQKALASSVGVVVSTVLLITAFGTQTALLKVAGQIEEVNTYDLRVDYAMGSFPDPAALPSGIADHYRLSTYPVELIQGENKENATLVVTEQDNELIRFYDEQGNRLSLEDHGVLVPKSYADQYHIAEGDTIQLQFTAPELNQTIVDMKVLDISTQYSNPSFYSTPNYMKSLGIDYDPASLLVSVHSAADLAGVRSFFEQDPQVEAIADKDDLKKSAQYMLKQNSFIFIMFIICAVILSFGAIYTISSINIYERNRELATLKVLGYPKRKINRLIFSENMLLTAFAVIVALPISGYVYSIIIQALSSTHQQIPDQLNLVIMLASVVLAFFLTLLSNLMLRKKVTRIHMIESLKGVE	PGPT0013350_9321	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK002_01057	141			hypothetical protein	ATGAAGGAGTATCTGCTCGCGATGCGGATGCTGACGGTGCCACTCAGGGAGAAATCTGGTGAACATGCAGGACATCAAGAGATGATCGCTAACCTGCTGTTCGAGTTGGGACAGGAGTGGGGATCAACCCGCGTTGGATGA	MKEYLLAMRMLTVPLREKSGEHAGHQEMIANLLFELGQEWGSTRVG				NA	NA	NA	NA	NA
AK002_01058	162			hypothetical protein	ATGATGAAACAAAAAAATGGCCGTCATCGGCCTGAAAGTGGATTTAATCGACTATACAGTATGCTTGCTAAGATGCCGTTATTGGATTATCTTCAAGACGGCTTAGACATGTTACGTATACGACATGTCATTGAGAAGAGGGATGTAAAAACAGTAAAGTGA	MMKQKNGRHRPESGFNRLYSMLAKMPLLDYLQDGLDMLRIRHVIEKRDVKTVK				NA	NA	NA	NA	NA
AK002_01059	1122			hypothetical protein	ATGAAGAAAGCACTAATTTTTCCTATTATTCTATTAGCATCATTTTTTTCAATTTTAATTCCCAAAACAGAAGCTAATGCCGCTTCAAACGTTGTGCCAAACAATGCTTATATATCTGATGAAATTGCAGTTTTTTTAGATGGTGAAATTCTTGTAACACGCGAAAAATCCTATACTATCGATGGAATTAAAAATCATGGAACGTATGTTCCTGTAAAGATAATTTCTAAGTTTAAAGACATAACGATAAACTACGCCAAGCCAATAACAGTTAAATCAAAAAAAGGAACATATAAAATAAATAATAGTAACTCAGTTTTATTAGATGGGGTCACTTATATAAAACTAGATTACCTTTATAAGATAACAGGGTACTCTGGTAAACATGAATATGAGCCTAATACAATTTTCCTATGGAGCAATAATGAGGGTAAAGCTAAATCAGATAAATTAATCTCTCAGATAAAACAAGTAAAGAATGACAATCTAAAAACTTTCATGGGCAAAAAAGTGTACATATATGAGGGGGAACAAGTTGGGCGTGTAATCGAGATTCTTCCGTACAGTGGAAATAGTGTAGCGTTTAAGATATTGTTGAATAATGGAAAAGTGATTGAAGAAATAGTAATTGGCTCAGAGCCTGATTCCTTCTGTAGTTATTTCTTGTATGAAACAATCAACTACATCTACTCAGGAAAATATTATTGGGCAGATAAAAACTATCTACCCTCGTCTAATCCATTATTAAATATAGAGAAGGTTTATTTCAAATCTGTAAAGATGAAAGGAAAAACCCTTCTCGTTGAAGCGAAAAGATCAAGTGGAGCAGCTGTCACTTTTAAGCTACCCTTTTATGATGATCCTGGTATAGTGATTAGAAATGGGTTTTATACTGTTAACCCAAAAAGCATTTATCCTAAATGGAGCGATGCCACTTGGAATAGAATAGTACAGCAAAAAATTGCTATTGGTATGAATCAAGATCAGGTATTGTTATCATGGGGAAGACCAAATGATACATCTTCTTATTCAAGTAATACATTAACAATGGATCAATGGATATATGGTGATACTTATCTCCACTTCTATAACGGAATACTCGAATCATGGTCAGATTACTAA	MKKALIFPIILLASFFSILIPKTEANAASNVVPNNAYISDEIAVFLDGEILVTREKSYTIDGIKNHGTYVPVKIISKFKDITINYAKPITVKSKKGTYKINNSNSVLLDGVTYIKLDYLYKITGYSGKHEYEPNTIFLWSNNEGKAKSDKLISQIKQVKNDNLKTFMGKKVYIYEGEQVGRVIEILPYSGNSVAFKILLNNGKVIEEIVIGSEPDSFCSYFLYETINYIYSGKYYWADKNYLPSSNPLLNIEKVYFKSVKMKGKTLLVEAKRSSGAAVTFKLPFYDDPGIVIRNGFYTVNPKSIYPKWSDATWNRIVQQKIAIGMNQDQVLLSWGRPNDTSSYSSNTLTMDQWIYGDTYLHFYNGILESWSDY				NA	NA	NA	NA	NA
AK002_01060	537			hypothetical protein	ATGAAGAAGACTTTAGCCCTTTTGTTGATGTTCGCTATCTTAATTCTCCCGTCACAGGCTTATGCTGCCCCACCCTCCATCAAAATGTCGATCTCCGAGGTTAATAAGATCTACTTTGAGGATTACAACAAGAGGTTAAAGGAGGTTAAGTCTGCTATTCGGACATATAAAGCTCCTGTGTGCTCCAATGTAACCACCCTCACGAATCAATCCAAGCAGCTGACATCCAAGTACAACAACCTTAAGAAGTCCAAAGCCAGCAAGACGGAACTGAGTCAAATGAAGGCAACACTTGATAAGGCTAAGAAAAGTCTTAGTGAAGCAAAGAAAGTCTGCAATAAGGAAACAGCTGAAACGAAAAAAGAACTCAATGGACAAGTTAAAGAAATTTCTTTAGCCAAAACTTCCGGAGTCAAGCTGAACGTCGACTCTTATAATAAAGGAACAATCACCAGCTCAACGTTCGATAAGGAAATACGCAGTATCGTGAAGCTTGTGGACGATGTTTTCACATACATTCTAGAGGATCTGGAGTAG	MKKTLALLLMFAILILPSQAYAAPPSIKMSISEVNKIYFEDYNKRLKEVKSAIRTYKAPVCSNVTTLTNQSKQLTSKYNNLKKSKASKTELSQMKATLDKAKKSLSEAKKVCNKETAETKKELNGQVKEISLAKTSGVKLNVDSYNKGTITSSTFDKEIRSIVKLVDDVFTYILEDLE				NA	NA	NA	NA	NA
AK002_01061	852			hypothetical protein	ATGAAGACGAAATTAATCATGGTTGAGGGCCTGCCGGGGTTCGGCAAGTCAACGACGTCCCGTATGATTCATGCCATTCTTTCCGAGCACAACATCGAGTCCCGGCTGGTGATGGAGGGGGATACCAACCACCCGGCGGATTATGAGGGAATCGCATGTCTGACGGAAGAGGAATTCGGGCAGTTGCTGGAAGTCGCAGGCCCTTTTAAAGAAATAATGCTCGAACGGGCTGTCAAAAAAGGCAGCTGGAACCTCTTGCCCTACCAGAAGCTGAAGAACGAATATGGCGCTTCTTTTCCGGATGATCTATATCATTCGTTGGCTAAGAAGGATATTTACGAGCTCCCGCTGGACCTCAACCGGTGGCTCATCACCGATCGGTGGGAGGCATTTGCGGAGCAGGCGCTGCATGAGCCTACCGTCACGATTTTTGAGTGCTGTTTCATTCAGAATCCGGTGACCGTCGGCATGGTGAAGCATGATGCGCCGGAAGATCAAGTGACGGACTACGTGCTGGGGCTGGAAAAAGCGGTTCTTCCGCTAAATCCCCTCCTGTTCTACATTGAGCAGAACGACCTGGAATACGCATTCCGCAAGGCCATTCGGGAACGCCCGGAGGATTGGTCCACAGGGTTCGTTCATTACTACACTGGACAGGGCTATGGCAAACATCACGGTCTGGAAGGCGTCGAAGGGACTCTGCAAGTATTGGAAGCCCGGCGCGAGTTGGAGCACAGGATCTTGGACAAGCTCGGACTGAACAAGGAGTTAATCAATAACTCCCTTTACGACCAAGAGAACTATAGAGCCATGCTAATAGACAAGCTGAAGTTGCATGGGATCATCCCATAA	MKTKLIMVEGLPGFGKSTTSRMIHAILSEHNIESRLVMEGDTNHPADYEGIACLTEEEFGQLLEVAGPFKEIMLERAVKKGSWNLLPYQKLKNEYGASFPDDLYHSLAKKDIYELPLDLNRWLITDRWEAFAEQALHEPTVTIFECCFIQNPVTVGMVKHDAPEDQVTDYVLGLEKAVLPLNPLLFYIEQNDLEYAFRKAIRERPEDWSTGFVHYYTGQGYGKHHGLEGVEGTLQVLEARRELEHRILDKLGLNKELINNSLYDQENYRAMLIDKLKLHGIIP				NA	NA	NA	NA	NA
AK002_01062	441			hypothetical protein	ATGAAGCGATTATTCATGATCATGATGCTTTACATGACGGCTCTATTGGTAGGCTGCGAGAAGGAACCCGGTTGGGAGACGATGCAGCTTCTGGACGAACAGGTTGCCGAAATCCGGATTTCGGATTTCGAGACATGGGACGAGATGAATGGGGATACACTGTTGTCCTTTAAGGATGCGAAAGATGTAAGAGCGTTTGAGGAAGCGATCCGTACCGCTCGCAAGCAGCCGGATGATGCCAAACGTACGGACCCGGATTACGATGTGATGGTCGTCTATGCCCAGCAATCTCCGATTCATGCCATCAAGCTGTGGTTGGGGGAAGAGGGTCAGGAAAGTGTGTTCAGCTATGGGTTCAAAGAATGGGGAGAAGATGTATATGTGGTTTCCGCCAAACATACGGATCGGATGAGAGAACTCATTTTGCCAGAGGGGCGTTAA	MKRLFMIMMLYMTALLVGCEKEPGWETMQLLDEQVAEIRISDFETWDEMNGDTLLSFKDAKDVRAFEEAIRTARKQPDDAKRTDPDYDVMVVYAQQSPIHAIKLWLGEEGQESVFSYGFKEWGEDVYVVSAKHTDRMRELILPEGR				NA	NA	NA	NA	NA
AK002_01063	750			hypothetical protein	GTGAAAAAGTTGACCAACAAGTTAAAATATATGGCTGGGGCGTTTCTGGCCGGAGCCCTGCTAATTATAGGGATTATGTTCGCTGCTGCGAATCCAGAAGGAACCTTAGGTACGATTCAACACACGATGTCTAAAATAAGCCACTTCGTTAATGGCAAGGACAACGCCACCGCCGATGGCCCTTTTGCGGAACAAGAGACGGCGACCTCGGATCCTAACATTCCTACCGGCAGCGATGCGCCAGCTCGCATGGTTTCAGATCCGGTTAACCAACCCGTGTACTGGGGCGAGGCTTCCAGGAAGGAATCCCTGGGGCAGCCTGTAGTCAAGCTGTACAATGCGGCGGGCGAGCCGGTTGGTTCCGCTACCTTGGAGCAGATCCATGACGGGGTTAAGGTTAAGATTACCGCATCCGGCCTCACTCCAGGCAAGCATGGGTTCCATGTGCATGAGAATGCGATAAAGGGAACGGATTTTAAATCTGCCGGGGGGCATTTTAATCCGACCCACAAGCATCATGGCCTGGAGAATCCGCAAGGAAGCCATGTCGGCGACATGCCGAACCTGGTCGTGGGCGCAGACGGCACCGTGGAAGCGGAGACAATCATTCAGCATGGCACGCTGGAAAAGAACCAGCCGAACTCGGTGCTGGGACGTTCGCTGATCATACATGCCGGCGAGGATGACAATGTCACCGACCCGGCGGGCAATTCCGGGGACCGTGTGGCTGGCGGGAATATCCCGGAATAA	MKKLTNKLKYMAGAFLAGALLIIGIMFAAANPEGTLGTIQHTMSKISHFVNGKDNATADGPFAEQETATSDPNIPTGSDAPARMVSDPVNQPVYWGEASRKESLGQPVVKLYNAAGEPVGSATLEQIHDGVKVKITASGLTPGKHGFHVHENAIKGTDFKSAGGHFNPTHKHHGLENPQGSHVGDMPNLVVGADGTVEAETIIQHGTLEKNQPNSVLGRSLIIHAGEDDNVTDPAGNSGDRVAGGNIPE	PGPT0013181_102	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
AK002_01064	120			hypothetical protein	ATGGTTGCACACCGGAAGATGATAGAAGGAACTGGTGGAGTTTTCTGGTGGAGTTTTTATGTAAGGTGTAATCTGGAGGCTGAATCGTTAAAAGTTCAAGGACTGTTGAAGGATCATTGA	MVAHRKMIEGTGGVFWWSFYVRCNLEAESLKVQGLLKDH				NA	NA	NA	NA	NA
AK002_01065	1587	gerBA_1		Spore germination protein B1	GTGTTGTTTCGCAGAAAGTTCAAGTCCAGAAAAAACAACAATAAAGCGTCCAAAACGCATAAAGCACAACAGACGGATGCACAGGACCCACAACCGCTTCACCCTGATTTGAACCAAAACCTGGACGTGCTGCAATTGCTGTATAAAGACTGCTCTGATGTGGTTTTTCGCTCTTTCTCAATTGCTGGTCATATACAGGCCCAATTAATTTACATAAAAGGTCTATCCAATGTTGAAGAGATGGATAGCCACGTGTTAACACCGCTTATGAAAAAAGCGGAACGGAAATCGGTTCATCCACAAACGTTGATTGAGCAGAGGCTGTCCGTGGCGGAGGTTACAAAGATTGCGACTTTTAATGCCTGTATCGAACAGTTATCGGTCGGGAATCCAATTTTGTTATTGGAGGGTCATGGGCAGGGGTTTGCCCTGGGATTGGCTAAATGGGAGAAGCGATCCATCGAAGAGCCTACAGGTGAACTGGTTGTCAGAGGGCCGCGTGAAGGGTTTACGGAAGCCATGGAGGTCAATACCTCTATGCTGCGAAGAAAGATTAGAAGCCCTCAATTAAAGATGAAATCGTTGAAGTTGGGCCGTTATACGCAAACCGCGATTACCCTCGCTTATATTGAAGATCTGTCCGATGGAACGTTGGTTGAAGAAGTGACTAACCGCCTTAAACGAATAGATGTCGACGGGATTCTGGAATCCGGTTATATAGAAGAACTGATTCAAGACTACTCTTACTCCCCTTTTCCGGAAGTGCTTATTACGGAACGGCCTGATACGGCGGTTTCCAGTCTGCTTGAGGGACGAGTGGTTATCCTTGTAGATGGTACGCCTTTTGTGTTGGTTGCTCCGACAACATTCTTTTCTTTGTTTCAATCGGCAGAGGATTATTACCATCATTTTATGATAGCTACGGCAACCCGTTGGCTGCGCTATCTATTTCTTTTTATTTCTCTTTTGTTCCCGTCGCTATATGTTGCCATTATTACATACCATCAAGAGATGGTGCCTACGACATTGCTGCTTACGATGGTTGATTCCCGAGAAGTCGTTCCTTTCCCGGCGCTGGTGGAGGCTCTGCTTATGGAGATCACGTTTGAAGGGTTGCGGGAAGCAGGACTTAGACTTCCAAAACAGGTAGGGGCTGCCGTCAGCATTGTGGGAGCATTGGTGATCGGCCAAGCAGCTGTGGACGCCGGTTTAGTATCAGATCATATGGTTATGGTCGTTGCGATTACCGGTATCGCTTCCTTCACCATTCCGCGTTACAATCTTGCAATACCTATCAGGCTGCTGCGTTTTCCGGTCATGCTGCTGGCTGGGACGTTTGGGCTTGTAGGGATCGTGACAGGTATCCTGGCCATCATGACACATCTGAGCATGCTGCGTTCCTTCGGCGTTCCTTATCTTTCTCCGGCCGCTCCCATGAAAGGAAGGGATATGAAAGATGCGCTCATGCGCGCCCCTTTATGGAAATTAAATACGCGTCCCCATCTTACAGGGGAATATAATAAATATCGGCAAAGTTCTAATCAGAAACCGACTTCCGATCGGGGAGGCGATGGAGAGCAAGGGTGA	MLFRRKFKSRKNNNKASKTHKAQQTDAQDPQPLHPDLNQNLDVLQLLYKDCSDVVFRSFSIAGHIQAQLIYIKGLSNVEEMDSHVLTPLMKKAERKSVHPQTLIEQRLSVAEVTKIATFNACIEQLSVGNPILLLEGHGQGFALGLAKWEKRSIEEPTGELVVRGPREGFTEAMEVNTSMLRRKIRSPQLKMKSLKLGRYTQTAITLAYIEDLSDGTLVEEVTNRLKRIDVDGILESGYIEELIQDYSYSPFPEVLITERPDTAVSSLLEGRVVILVDGTPFVLVAPTTFFSLFQSAEDYYHHFMIATATRWLRYLFLFISLLFPSLYVAIITYHQEMVPTTLLLTMVDSREVVPFPALVEALLMEITFEGLREAGLRLPKQVGAAVSIVGALVIGQAAVDAGLVSDHMVMVVAITGIASFTIPRYNLAIPIRLLRFPVMLLAGTFGLVGIVTGILAIMTHLSMLRSFGVPYLSPAAPMKGRDMKDALMRAPLWKLNTRPHLTGEYNKYRQSSNQKPTSDRGGDGEQG	PGPT0014780_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK002_01066	1116			hypothetical protein	ATGATAGAAAAGGGAAAAATATCTGCCTTGCAAATGGGAATATTGATGTACCACGCTATTTTGGCAACGGGAATTCTTTTTATTCCGGCTTCCGTCTTTGAAGCGGCTAAGCAGGATTTATGGATCTCGCCGATTTTGGCTTCCCCGCTGGGGGTTTTAAGTATATATATCGCATACAGGTTGAACAAGCTTTATCCGGAAGCGACCATTATGCAATACAGCGAACATATTCTTGGAACCTTTCTCGGCAAAGTACTGGGGCTGGTTCTGCTAATATTGCTGGTGACTTCGTTAAGTGTGATGTTCTGGCAGTACGGAGAATTCGTGGTTAGTGAATTTCTGCCGCATACCCCGAAAGTGGTCATCATCGGCATGATGCTACTGTTATGCGCATTTGCATTACATGGGGGACTTGAAGTTATTAGCAGGCTTTCCGGAATGGTTTTTCCGGTTTTTTTCTTTCTTTTTCTAGTGATTATTATTCTGTTGCTGCCGGATGTCGATATGAAACGGATGCTCCCCGTGATGGAAAATGGATGGATGCCCGCATTAAAGGGGTCATGGGTGTTATACACATGGTTCGCCCAATTCGGCATCGTTTATTTTTTTCTCCCCTTCCTAACCGATCGTCAAAAAGGGATGAAATTTGGGATGCTCTCCGTATTCGTTGTTACGCTAACGCTGGTGGTGACCAATCTGATCGTGATTTGGGTTTTCGGGGATGTGACAGCGAATTTTAATGCTCCACTCATGAGCGCTTCCAGGTATATTAGCATTGCTGAATTTTTGTCTCATCTCGAATCACTCGTTATGGCGCTTTGGATTGCGGGAACCTTCATCAAGCTCTGTGCTTTTTATTATATCGTGGTACTGGGAACTGCCCAGTGGCTTAACCTTTCCAGCTATCGATTGCTTATATTGCCAATGGGGTTTTTGGTTGGGGTATTTGCCATGCAGGCATTTCTTAATTCAGCGGAGGCGGCGGAGCATTTTGAAGTCGTCTCACGCGGGGTGATGGATACTTTAGTATATGGGGTAGCGATTCCCGTATTTCTTTTGTGTGCAGCATACCTACGTACTACGTTTTTCAAGCGTAAAGGAGCGTCAAAGAAATGA	MIEKGKISALQMGILMYHAILATGILFIPASVFEAAKQDLWISPILASPLGVLSIYIAYRLNKLYPEATIMQYSEHILGTFLGKVLGLVLLILLVTSLSVMFWQYGEFVVSEFLPHTPKVVIIGMMLLLCAFALHGGLEVISRLSGMVFPVFFFLFLVIIILLLPDVDMKRMLPVMENGWMPALKGSWVLYTWFAQFGIVYFFLPFLTDRQKGMKFGMLSVFVVTLTLVVTNLIVIWVFGDVTANFNAPLMSASRYISIAEFLSHLESLVMALWIAGTFIKLCAFYYIVVLGTAQWLNLSSYRLLILPMGFLVGVFAMQAFLNSAEAAEHFEVVSRGVMDTLVYGVAIPVFLLCAAYLRTTFFKRKGASKK	PGPT0025055_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
AK002_01067	1149	gerBC_1		Spore germination protein B3	ATGAGACGGGTCATCACCCTTTGTTTCGTTTGTGTAATTTTGTTGTTGCTTACGGGCTGTTGGGATCGACGGGAAACCAATGATCTTGCGATTGTTACCGGAGTGGCTCTGGATAAAACGGAAGAGGGAAATATCGAAATCACCGTTGAAGTACATTCCCCTGGCGGCAATAAAAGCGGCGGACAGGACGGGAGTCAGGGAGGAGGCAGCAGCACCATTCTTCGGACGGGATCAGGTGTATCAATACCTGATGCGATCGAGGATCTTGATGAGAAGATGTCCCGTGAAATTCTTTGGAGCCATGCGGAGGCGATCGTGATCAGCAAGGCGTTTGCCGAGACAGGAATTGTTAGCGAATTGGATTTCTTTGTCCGCCATCCTGAGCCGCGCTTGAGAAGCTATGTGTTCATTAGTAAAGGAAGTGCCAAAGAGATCGTTGCTTTAAGCCCTCCGTTGGAAAGAAGCTCATCTGAGGCACTGATCAAACTGGCTGAATCCGACGTGCTAATGAGAGCGACACTGTTAGACTTAATGGAGATGTTAAAGGGTGAGTCCGGGGATGCCATTCTTCCTATGATTGATATCTTGCCTCCGGAAGAAGGGCAGTCACCGAGGGAAACGATCGCGTATATCAATCGCTCCGCTATTTTAAGGCAAGGGAAAATGATCGGATCCATCGATGACAAGCTGACCAGAGGAGTAATGTGGTATAGAAATCAGATTAAAGAGACGATTGTCACAGTGAAGCCTGAGGGAGCAGATGGGTATGTATCGATGAATTTAATTAAGGGAAACGCCGATTTAATTCCGGAAATCGATGGACAACAATTAACAATGACAATAAGGATCGAGACCGTGGACGATATCATTCAGAATCAAACGGACTTGGACCTAAACGAAGTGGAAAGCATTAGAAAGCTGGAAGATGCATTGGCTCAAAAGATTGAAGGGCGTCTGTCGGCCACGCTTGAAATCGTGCAAAAAGAGATGAAAGCGGACGTGATCGGTTTTGCAGATGAATTCAGGCGCAAATACCCGGACGAGTGGCGGGAGCTAAAAGGTGAATGGGATGATAGATATCCTACAGTTGATGTGATTTTTGATATTAAGGCACATGTTTTAAGAACAGGAAAAGGCGGGACGTCTTGA	MRRVITLCFVCVILLLLTGCWDRRETNDLAIVTGVALDKTEEGNIEITVEVHSPGGNKSGGQDGSQGGGSSTILRTGSGVSIPDAIEDLDEKMSREILWSHAEAIVISKAFAETGIVSELDFFVRHPEPRLRSYVFISKGSAKEIVALSPPLERSSSEALIKLAESDVLMRATLLDLMEMLKGESGDAILPMIDILPPEEGQSPRETIAYINRSAILRQGKMIGSIDDKLTRGVMWYRNQIKETIVTVKPEGADGYVSMNLIKGNADLIPEIDGQQLTMTIRIETVDDIIQNQTDLDLNEVESIRKLEDALAQKIEGRLSATLEIVQKEMKADVIGFADEFRRKYPDEWRELKGEWDDRYPTVDVIFDIKAHVLRTGKGGTS	PGPT0025060_542	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK002_01068	264			hypothetical protein	TTGAGCCTTCTCAAGCAAAGAGGTGAAAGCATGAAAGTGGTTTATATCGTCGGTATAACAGTCCTCGTCCTGTTGATGCTCTCCTATCAATTGCCTAGAATAAAATCAGCCGAGAGGAAAGAAAAAGCCGCCTTTGCAACCCTGACGGGCATGGGGTGGGTGATCGCATCCATGTACATTATTTTCCCGACAATGACCTCTCCGGCCAAAATCATTGATTTTCTATTGGTTCAGTTAAGAAATATCATTATGAGTCCTTTTTAG	MSLLKQRGESMKVVYIVGITVLVLLMLSYQLPRIKSAERKEKAAFATLTGMGWVIASMYIIFPTMTSPAKIIDFLLVQLRNIIMSPF				NA	NA	NA	NA	NA
AK002_01069	381			hypothetical protein	TTGGATATGATAAATATTTATATGTACCGTAATGATTCCAGTCGCGTTCAACCCGAACTGATCAATGTTCAAAGTGACCCTGATTTGCTGAGGAATGCCGCACAATGGGCACAGAGTGGGGAACCCGAACAACTGCCTAAAATTCAAGAAATTAAACAAATGTATGTCTTTCAATTTCAATTTCGCAACGGAGATACGATCCAAGATGTCTATTATATGTATGTTACCGACACGAGTAATGAGCAGTACATGAAGGAATTTGAAGGGAGTCTTAAAAAAGATACGGACAAATTTGATGCTTCAGAAAAAGAACGGATACTGCATTTAATCGGACTTGAAGGCTGGAAAAAGGTTTCAGTTTCAGACTTATTCAATTCATGA	MDMINIYMYRNDSSRVQPELINVQSDPDLLRNAAQWAQSGEPEQLPKIQEIKQMYVFQFQFRNGDTIQDVYYMYVTDTSNEQYMKEFEGSLKKDTDKFDASEKERILHLIGLEGWKKVSVSDLFNS				NA	NA	NA	NA	NA
AK002_01070	738			hypothetical protein	ATGAAAGCGACAATCGAAGGACTTCTCCATGTATTAGGAGAGCATCATAAGGGGTCCCACGGCATTCCGGAGGCGGACATACAAGCAAAGGAACAGAGCCTGGGTTTTTCATTGCCGACGGTGCTGCGGGAATATTATAAGATTTTGGGGCATTCCCCATACATCACCCAAGGGTGCAACAACCAATATGAACCGCTCCCTCTGCAGGATGTGTTCATTCCGGATGATACTTTTTTTACGACAGATAAGGCGTTTCTGGTCTTCTATCAAGTAGAGGAGTCCGTGATATATTGCGGGATCAGACTTCAGGATTTGGAGCAGGAAGATCCGCCGGTCTATTTGTGCGCGTGGAACTCTCCAGACTGGCAGCTGGAAAATCGATCGCTTCAACGTTTTCTCGCTGGCAAGGGATTCGTTCAGTTGGGCGTTGAGGATCGGCTGCCGTATTGGGCTATATTCGATGAGAGCATGTGGAGCTTGCCCGACTATCGCGGATGTATGCGTCTGGAGGAAGCGGAGCATGAGATGGAGGAAGGATCGGAGCTGAATGCATGGAAAATCTATCTGAAGGACGATGTGCTGATCGTGTTTGAACTTGACGTATCCGAAGAGGAGACGGATGAACTGTTGGCTGTATACCTGGCGTCCTTTCAGAGAGCGAGCATGGAGAATTTGCTGAGCGAGATGGGTAAGGCAACTGACTTGCCTTCATTTCGAACGAATCTGTCAGCACAGTGA	MKATIEGLLHVLGEHHKGSHGIPEADIQAKEQSLGFSLPTVLREYYKILGHSPYITQGCNNQYEPLPLQDVFIPDDTFFTTDKAFLVFYQVEESVIYCGIRLQDLEQEDPPVYLCAWNSPDWQLENRSLQRFLAGKGFVQLGVEDRLPYWAIFDESMWSLPDYRGCMRLEEAEHEMEEGSELNAWKIYLKDDVLIVFELDVSEEETDELLAVYLASFQRASMENLLSEMGKATDLPSFRTNLSAQ				NA	NA	NA	NA	NA
AK002_01071	660			hypothetical protein	GTGAATATAGAGCACAATAAAGAGGGAAGTAAAACAATAATAACACCACATGTTCTCAAACGGTGGTCAGGATTTATGGCAGTAATAGCAGGGATTCTATATATCGTCATTCAGTTTATCCACCCGACAGATGATATCTCTTCTGTGCACACAAACTCTTGGGTAGTGGTTGCATGCTTGACTATGGCTATGTCGCTCTTTAACCTGATCGGAATTACGGGATTCTATATAAGCCAAGCGAAAGAAGCGGGGTGGCTTGGCTTGGTCGGTTTCCTTTTGTTCAATCTGTTCTGGTTAATCTCAATCATTTTTAGTTTCATCGAAGCATTCGTTTTGCCGTTGTTGACAAGTGATGCTGAGAAGTTTGTGGAAGGTATGGCTGGACTCTTTGGAGGAACGGTTAGCGAGGCTAATCTGGGGATCTTCCCAATATTAGCACCGCTCGCGGGAGTATTGTATATGCTAGGAGGTCTGTTGCTAGGCATCGCCACATTACGTGCCAGAGTCTTCCCTCGCCTAGCAGCAATTCTGCTGGCCTTCGCTTCTGTAGTGACCATTGCTGCTGCAATCCTCCCCCATCCGTTTGATCGGGCATTGGCGATACCGATGGGAGTTGCTCTTATATGGATCGGATATATTATTTGGTCGGAACGTAAGTAA	MNIEHNKEGSKTIITPHVLKRWSGFMAVIAGILYIVIQFIHPTDDISSVHTNSWVVVACLTMAMSLFNLIGITGFYISQAKEAGWLGLVGFLLFNLFWLISIIFSFIEAFVLPLLTSDAEKFVEGMAGLFGGTVSEANLGIFPILAPLAGVLYMLGGLLLGIATLRARVFPRLAAILLAFASVVTIAAAILPHPFDRALAIPMGVALIWIGYIIWSERK				NA	NA	NA	NA	NA
AK002_01072	870	rhaS_4		HTH-type transcriptional activator RhaS	ATGAACCATCATAGGATAATAGAACAAGCATTGATTCATATTGAGGAGAATTTAGAACAGCCTTTATCCGTGTCATCCGTTGCTCTTACTTTCAATATGTCTAAATATTATTTTCATAGGCTTTTCTCTGCCATGATGGGCTGTTCTTTAAATCAGTACATCCTATCTAGAAGATTGAATGCTGCTTTATCACTCATTCATAACAACAACTTGTCGCTTACCGATATTGCTTATCAGTTAGCCTTTGGTACGCAAGCCTCATTCACCCGGGCATTCAAACAACATTACGGCGTAGCTCCAAGCTCGCTAAGAGCAGGGTTCAAACAAATCTCTCCAACTCCAATACCTACTGTGGTTAAAAGACCATTTAAAAATATGAATGGTGATGTCGTCACGGATTTCACGCTGACAGAGTTCAAAGAGACCCGAATAAGCGGGATTGCCTTTGAAGTAGACCTAGCCACTGATGATTACAAGAAGAAGATTCACTCCCATTCCAAAATGCTGTTGAATCATATTGATGACAACATAAATGGTTCTTGTTTTGTCATTTATTCAAACTGTCAACCCAATTCAACCCGGTTCAAAGTTATGTTCGGAATCCCAAGTGACATTCAAATTCATGAACCCTTTTATTTCACGGTTGATGTACCGACTATTTTTTGTGCGAGGTTCAACTATTTTGGCGACCTGCTTGATATTGGAGAAGTGCTCAAAACAGACTATGCAAGATTCTTAAAGATTTCCAGGCAAGAGTCTGATCAATCGGATATTGAGCTTATCCAGGTTTTTAATGACGTCCACAATCTGGATTCAACCTACCATATCTATGCACCAATCAAGAAAGTCCCTGACGATCTGGAAATTTAA	MNHHRIIEQALIHIEENLEQPLSVSSVALTFNMSKYYFHRLFSAMMGCSLNQYILSRRLNAALSLIHNNNLSLTDIAYQLAFGTQASFTRAFKQHYGVAPSSLRAGFKQISPTPIPTVVKRPFKNMNGDVVTDFTLTEFKETRISGIAFEVDLATDDYKKKIHSHSKMLLNHIDDNINGSCFVIYSNCQPNSTRFKVMFGIPSDIQIHEPFYFTVDVPTIFCARFNYFGDLLDIGEVLKTDYARFLKISRQESDQSDIELIQVFNDVHNLDSTYHIYAPIKKVPDDLEI				NA	NA	NA	NA	NA
AK002_01073	426			hypothetical protein	ATGGATTGGAATTACTATGATACGTTTATTACCGTTGCCGCAGATTGCCCTGTTGAGACTGGAACGCAGCCGCCGGACAAGAAAGACGGAAAAACCAAGCCGGGCATCGAGTTTGAGTTAATCACGAATCATCCGTATGGCTATACCCAGGAGGAGCTTTTGTACGAAGTGCATATCCGGCACAAAAACATTCCGGAGGCAGAGTTAGCCGAGAGAGGGGACCAGATTCGAGACGAGTTTTATATGAAGCCGCAACCATGCTTGAGAGCATCGATGCTCCCGAAGAAGTACGGGTGGGGTATTCATTTCAATGCAAAGGGGCAAATCGCGATCGTTCCGGTGGAATCCCCTGATTATCGCCGCTTCGTGGAAGGAGCCTATGGGAATGTGAAGCTGCTAGCCGCGATGAGAAACAAGAGGAGGTGA	MDWNYYDTFITVAADCPVETGTQPPDKKDGKTKPGIEFELITNHPYGYTQEELLYEVHIRHKNIPEAELAERGDQIRDEFYMKPQPCLRASMLPKKYGWGIHFNAKGQIAIVPVESPDYRRFVEGAYGNVKLLAAMRNKRR				NA	NA	NA	NA	NA
AK002_01074	1353			Nucleobase transporter PlUacP	GTGAAAACACAAGCAGAAGAGCTAAATGGCACGCAAACAAAATCACAGCATTTAACGGTTCCGCCCGACGGCAAAATATCATTCGGGAAATCCGCCATTCTCGGTTTACAGCATGTCGTCGCGATGGACGTCTATGTCGTCCCTTTCCTGATTGCCATGTTAATCGGCTTAGCGCCGAATCAGTCCAGCGCATTGATTCAATCCACGTTTATTGCGGCCGGGCTTGCCACGATCGTGCAAACGTATTTCTGTATGAAGCTGCCGATGGCGCAGGGGCCTTCCTATGTTCCACTCGGCGCGATTGTCGCGATCTATGCCGCGAGCGGCGGAGGGGAGATGGGTTGGAGTTCCGTGCTGGGCGCGAGCTTGATTGGCGCGATCCTCGTGATTATTTTGGGATATACGGGAGTTTTCAATAAAATCGTTAAATCCTTCATCCCGCCCATTGTCGGGGGCACGATCATCTTCATTGTCGGTCTGTCGTTATTGCCTGTTGCGATTCGAGACAATATCTACGGCGCCACGGACGCCACCATCAATCAGAACGTACTGCTGGCCCTGATCTCAGCGGCTGCACTCATCCTGTTCGTCATCCTGGGTTCTGTGTTCCGAACAAGAGGCGCGATATTCCGCGTTACGTCCGTGATGGTCGCATTAATTATCGGATGTATCTCCGCCAACTTTATGGGTGTGCTGGATTTCAGCGCTGTCGCAAACGCCAAGTGGTTCAGCATGCCGCAGATTCCGTTTAAGGATTTTGGGTTCTCCTTCGACTTCTCGGCGATTATCACCATGGTCATCATTTACCTCGTACTGCTGGCAGAAACAACGGGTACGTGGTTTGCCATCAGCAACGTCATCGATAAACCGTTAACAGATAAGAACATTAATCGTGGGGTGATTGGCGAAGGGATCAGCTGCCTGATTGCTTCGGGACTCGGCTCGACGCCGGTTACCGGCTATTCCACCAATGCAGGCATCATCTCCATCACGGGTGTGGCCAGTCGTCGGGTCTTCCTGGCGGTAGGCGGATGGTTTGTCCTCTTCGGCTGCTCCGGCAAATTGGCTGCGCTGATCTCCTCGATCCCAACCGCCGTCATCGGCGGCGTATTCGCCATCGTCTGCGGCATCATCTCGATTAACGGGATCCAGGTGATGAAGAACGTAAAAATCGGGGAGAAAGAAATGTACATTATCGCCATCCCGATGATTTTGACGTTAGCGTTAGTGCTCATTCCTAAAGATTTCTTGTACACGCTGCCTACGTTCGTGCAGTATTTGCTGGGCTCACCGATTCTGGCTGCTTCGCTTGCAGCGATCTTGTTGAATAAATTGCTGCCTAGTACGAAGTAA	MKTQAEELNGTQTKSQHLTVPPDGKISFGKSAILGLQHVVAMDVYVVPFLIAMLIGLAPNQSSALIQSTFIAAGLATIVQTYFCMKLPMAQGPSYVPLGAIVAIYAASGGGEMGWSSVLGASLIGAILVIILGYTGVFNKIVKSFIPPIVGGTIIFIVGLSLLPVAIRDNIYGATDATINQNVLLALISAAALILFVILGSVFRTRGAIFRVTSVMVALIIGCISANFMGVLDFSAVANAKWFSMPQIPFKDFGFSFDFSAIITMVIIYLVLLAETTGTWFAISNVIDKPLTDKNINRGVIGEGISCLIASGLGSTPVTGYSTNAGIISITGVASRRVFLAVGGWFVLFGCSGKLAALISSIPTAVIGGVFAIVCGIISINGIQVMKNVKIGEKEMYIIAIPMILTLALVLIPKDFLYTLPTFVQYLLGSPILAASLAAILLNKLLPSTK				NA	NA	NA	NA	NA
AK002_01075	1365	guaD_1	COG0402	Guanine deaminase	ATGAGTAAATATATGTTATTATTTCAAGGGACTTCTTTTTCAAGCAAATCTCCCAAAGAAATTCAAGTATTGAGAGACTATCTTTACTGCGTCAACACGGACGGCATGATTGAGCGAGTCGTGGCACCGGAAGATGCCGACTATCAATCCTTGCTGGATACGTATCAAGGCACGGACAGCTTTCACCGACTAGAGGAAGGACAGTATTTCCTGCCTGGCTTTGTCGATTTGCATGTTCACGCCCCGCAATGGGCTCAGTCCGGAACCGCATTGGACATTCCGCTCTACGATTGGCTGAATACCCATACGTTCCCGCTGGAATCCAAATTCTCCGATCTGGAGTTTGCGCAAAAGGTTTACGACGATGTGGTAAGCACCCTGCTGGCCAACGGAACAACGACAGCCCTTTATTTTGCCACGGTGCATAAAGAAGCCAGCTTGTTGTTAGCCCAAATCTGTGCGAGCAAAGGCCAGCGCGGACTTGTCGGAAAGGTTGTCATGGACGACCCCGAGCAGAATCCGGATTACTACCGCGATGCGGATACATCCACGGCACTGGCGGATACGGAGGAATTTATTATCGCTGTACAGGAACTCGCCAAAACCACAAAACAAGGCGTGTATCCCGTCGTCACCCCACGCTTCATCCCAAGCTGTACGGATGAGGGCCTGAAGGGGCTAGGCGAGCTGGCAGCCAAATACGATACGTATGTGCAGTCCCATTGCAGCGAAAGCGATTGGGCGCACGGGTATGTGAAAGAGCGATTCCAGAAAAACGATGCGTTTGCCCTGCATGATTTTGGCCTGCTGCGCGATAAATCGGTCATGGCTCATTGTAATTTCCTTGATGACCAGGATGCCGAATTGTTCGCTGACACCGGCACCGCGATCGCGCACTGCCCGATATCCAACGCGTATTTCGCTAACAGCGTCATCCCGGTTGCCCGCTTCCATGCCAAAAATGTCGAGATCGGTTTAGGCTCGGATCTATCCGGCGGCTTCTCACCGAGTCTCTTCGATAATATAAGACAAGCCGTAATGTCCTCGAGAATGCTGGAAGATGGCGTGAACACCTCCCTTCCTGCGGAAGCTCGCGGCGTACCCGAGTCGAGGATTACGGTCCATGAGGCATTCTATCTGGCTACGGCCGGGGGCGGTGAAAGTCTGAGCCTGCCGATCGGTCGCATTCAAGAAAACTACGCATGGGATGTGCAGGTGATCGATACGAGACTTCCATCCGCGAAGCTGCCGATTTTTGACGAGTTTGAAGACATACAAGATATTTTTCAGAAAATCATGTATCTGGCACGGCCTGAGCATATCCGCGAGGTGTGGGTGCAAGGGGAAAAGGTTCATACGCGTTAA	MSKYMLLFQGTSFSSKSPKEIQVLRDYLYCVNTDGMIERVVAPEDADYQSLLDTYQGTDSFHRLEEGQYFLPGFVDLHVHAPQWAQSGTALDIPLYDWLNTHTFPLESKFSDLEFAQKVYDDVVSTLLANGTTTALYFATVHKEASLLLAQICASKGQRGLVGKVVMDDPEQNPDYYRDADTSTALADTEEFIIAVQELAKTTKQGVYPVVTPRFIPSCTDEGLKGLGELAAKYDTYVQSHCSESDWAHGYVKERFQKNDAFALHDFGLLRDKSVMAHCNFLDDQDAELFADTGTAIAHCPISNAYFANSVIPVARFHAKNVEIGLGSDLSGGFSPSLFDNIRQAVMSSRMLEDGVNTSLPAEARGVPESRITVHEAFYLATAGGGESLSLPIGRIQENYAWDVQVIDTRLPSAKLPIFDEFEDIQDIFQKIMYLARPEHIREVWVQGEKVHTR	PGPT0021515_419	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
AK002_01076	519			hypothetical protein	TTGAACATTCAACTGGGCCATTTTGAAGTGAATTCCGGACAATTGGTTGTGGCCGATCCTTGTTATGAATTGGATACGAACATTATTATCATGGGCGTGTTGGAAGCCGTATTGAATGGAACGTGGGTAGGGGAAGTGGAGAAGGTGGAGATCCCGGACTGGGGCGAAGCCAACGCCAAGCTGACGGCTTACCATCACTCGGTAGCAGAACAGGGGGCATTCCTGGAGTGGATCAAGTGTCCTTTTGTGGCTGGAGTGGATAGCGGACAGGCGGGAATTTTTGATATTCAAAAGTACCGAATTCCGGATGCGAATTCAGCATCGGATAGCTCCGACACCACGGATACGGAATGGTATTATGCCTGCTGCGACATCACCGAGAGCGGGGAAGAAGCGGGTGTCCTGGATGGGGGCGTCGTATCTCGTACCGGCATAGGTGATGGTGCATACGGCGTGTATAAGGCCGTGAATGAGCAGGATCAGGTGGTTGGCGTGAAAATTGTGTTTATTAAGAAGTAG	MNIQLGHFEVNSGQLVVADPCYELDTNIIIMGVLEAVLNGTWVGEVEKVEIPDWGEANAKLTAYHHSVAEQGAFLEWIKCPFVAGVDSGQAGIFDIQKYRIPDANSASDSSDTTDTEWYYACCDITESGEEAGVLDGGVVSRTGIGDGAYGVYKAVNEQDQVVGVKIVFIKK				NA	NA	NA	NA	NA
AK002_01077	1107			hypothetical protein	ATGCCTAGAATACTTGTCCCGCCCGAGGTATTGATTCGGGTGTCGGAGGAAGCCGCCAGGGCTGCGGAAGAACTGGAAACGACCAAGAATCGGCTGGACCAGCAGATTACATATATGATGTCTTCGTGGGAAGGAACGACACGTTCGCGGTTTTTCGAAGATTTTCAGCGTGCTCATGGCGAAATGAATAAAACGATTGAGCATCTACGGATCATCGGCCAGGAATTGAAGACCATTGCTTTCCGGTTCATCTCAGCTGATATGCGTGAATATATCATGATTGCGGCATCGGCAGCGGGCGCTGCTAATGAACCCAAAACGTTCTGGGACCATGCTGGGGACTTCTGGCAGGGGCTGCAGACCGGGGCGAAATCCGTGGCAAATTCGGTGAAGGATACGGCTACGTCCTTGGTGGAAGACCCGCTTGGCACTGCCAAGGACATGGCCTATAATGCAACTATCGGGACGGCGGAAGAGATCATCGACACGGCGGTTTGGGGAGGCAAAATGATTTTTGATGCCGATACCCAGGAGAAATTCGCGGCAGACGTCGAGGCGTCAGGCGGCGCGTCCCATTATATGGGACAGCAGGCTGCCATGATCATGGCCGGTTTAGCCACACGCCGGATCGGCGTGAAGACCCACCCGCACCTGAAGCATGATTCGGGTGGGGATGGGGGGAAGGTTGTTGAGGGGACGCCTAAGGCTCCGGATATAGACCTAAATAAAATGGGTACTGGAGCGGTTGGTGATTTACAGAACATCAAAGACATAAATGATCTTATATCTAGAATACCTACGGATGCTAAGCAAATTCCCTGGAGGGAAGTACCTGGAGGGGCTACAGAAGGAGTGAAATTCAGATGGGTTGATGAATCAGGAAAAACATGGGATGTACGGGCACACAGTGTCGATCCTAATGCTCCATCGGGTAGCAATGCTGCGAATGGTTGGATTTATAGAGTAGAAGTTAAGCAAGTTAACCCAAAATGGAAATGGACAATGGATTCTGAAGGGAACTTTCATAAAGAGAATGTCCTAAGAGAAAACAGTCCTCATTATGATGAGTCAATTGCTAATGATACGCATATTCCTTTCACACCATAA	MPRILVPPEVLIRVSEEAARAAEELETTKNRLDQQITYMMSSWEGTTRSRFFEDFQRAHGEMNKTIEHLRIIGQELKTIAFRFISADMREYIMIAASAAGAANEPKTFWDHAGDFWQGLQTGAKSVANSVKDTATSLVEDPLGTAKDMAYNATIGTAEEIIDTAVWGGKMIFDADTQEKFAADVEASGGASHYMGQQAAMIMAGLATRRIGVKTHPHLKHDSGGDGGKVVEGTPKAPDIDLNKMGTGAVGDLQNIKDINDLISRIPTDAKQIPWREVPGGATEGVKFRWVDESGKTWDVRAHSVDPNAPSGSNAANGWIYRVEVKQVNPKWKWTMDSEGNFHKENVLRENSPHYDESIANDTHIPFTP				NA	NA	NA	NA	NA
AK002_01078	438			hypothetical protein	TTGAATATAGAAGAACTAAAGGCAACACTCTCTGGATCGAATACTGAGGAAAAAACAGAGATGTTAAGCCACCTTTGTGATATTTTCGAATCCTATAACAATTCGATTGATAATTTCAATGATATTGTTACAGTACTACTCCATTTCGGTATTAAAGAAGAGAGTTTAGATATGAAGGAAGAAATATTTACTACTGTACTATCCGCAGCAACTTATAAAAACATTGAGGGGATAAACTTCGATATTTTAGCTGACAATCTTGAACTTCTGCCTGAGGAGTGTCTCCATTCCGCATTGACGATACTAAGCTTTACTTTTAAAAAGGAGTATTTACCCTATCTAACCAAGTATTTAGCACACAAAAACAGCAGCATCAGAGCGGATGCAATAAATGCGATCAATGAAATCGAAGGTTACTGGTCTAAAAGGCAAAATTAA	MNIEELKATLSGSNTEEKTEMLSHLCDIFESYNNSIDNFNDIVTVLLHFGIKEESLDMKEEIFTTVLSAATYKNIEGINFDILADNLELLPEECLHSALTILSFTFKKEYLPYLTKYLAHKNSSIRADAINAINEIEGYWSKRQN				NA	NA	NA	NA	NA
AK002_01079	540	kptA	COG1859	putative RNA 2'-phosphotransferase	GTGGATATTACAAAATTAAGTAAAGAAGTTTCATATGCCTTAAGACATACACCATGGGAGTATGAATTAGAATTAGATGATGAAGGATGGGTAAGCATTGAACAGATTCTAATTGCATTGCGCCGTGACAAACAATGGGAATCTATAACCGAACAGGATTTAATTGAAATGATTGATAAATCAGATAAAGCACGGCATGAAATTTTGAATGGAAAAATCCGAGCCTTGTATGGTCACTCTGCACCCAAAAAAATATTGAAAGTGATTGGAACTCCGCCAACATTACTTTATCATGGGACAGCTAGGCACTTAGTTGAACAGATTTTGCACGAGGGACTTCGACCAATGGGTAGACAGTATGTTCATCTATCCGTTGATAGAGAAACAGCATATTTGGTCGGAAAGCGTAAAGATCCTAGTCCCGTCCTGCTAGTAATTCGAGCTGAGCAGGCTTCAAATGAAGGATGTAACTTTTATCAAGGCAATGATGCTGTATGGTTAGCTGACAGTGTTCCTGCGAGGTTTATTTCTGAAGAATAG	MDITKLSKEVSYALRHTPWEYELELDDEGWVSIEQILIALRRDKQWESITEQDLIEMIDKSDKARHEILNGKIRALYGHSAPKKILKVIGTPPTLLYHGTARHLVEQILHEGLRPMGRQYVHLSVDRETAYLVGKRKDPSPVLLVIRAEQASNEGCNFYQGNDAVWLADSVPARFISEE				NA	NA	NA	NA	NA
AK002_01080	375			hypothetical protein	ATGAAAAGAGTTTCTTTGTTATTGACTTTGACGGTTTTTGTGACGTTTGTGTTTTCTGGATTTGCTGGCAGTTCTTACGCATCTTCTCAAGTCGACGATACATTAAAAGAACTCTCGTATTCTTTTACAGAGAATCATGGTGAAAAAAATATTCAGGGAGTCTATCAAGATGAGTTGACTGATGAGACATCACGTCTTGAGCTCAGTGAGTCAGATGGTATGAGGACAGTAAAGCATTACATTAACGATAACTTGGTAGCGGAAGCTACTTTTAATACAAGCACAGGCGATGTTGTAACAAAAAACATTCAAACTGGAGAGGAAATTGCCCAAAATGTTGATGAATTAGTTACAGAGTTAGAGCGTCCAGTTTGA	MKRVSLLLTLTVFVTFVFSGFAGSSYASSQVDDTLKELSYSFTENHGEKNIQGVYQDELTDETSRLELSESDGMRTVKHYINDNLVAEATFNTSTGDVVTKNIQTGEEIAQNVDELVTELERPV				NA	NA	NA	NA	NA
AK002_01081	432			hypothetical protein	ATGGACTCTCCTTCACCAGGTTATAATTTTGTGAAGACAAAATATAATTCTACATGGAACCAATACGGTTCATTGTATAAAAAAACTACTACATTGATGTACAATTTTCTGCGGGTACGGCAGTTGCAAACTATTTTGTCAGTTATCGATATTATTTGGACAAAAGGTGGACTGACCACCCTATTAAAAGCATTTGCAATTACAATAACAGGATCTGTTATTGATACAGCATGGTATGGAATTCTTGATGCTACTAAGTACTTGACGCAAATCGAAGTGTTTTCACAAGGCAAACTCGGATTAAGAAGTGAACAATATATTTTAGAGGCGAAAGTAAACGGAGTGCCAAAACAAGTGCATGATGGTGGAGATGGTCGTACGTATGATCAAATGATAGATGATGCCATTTATAATGTAATTATTCTAGGTTAA	MDSPSPGYNFVKTKYNSTWNQYGSLYKKTTTLMYNFLRVRQLQTILSVIDIIWTKGGLTTLLKAFAITITGSVIDTAWYGILDATKYLTQIEVFSQGKLGLRSEQYILEAKVNGVPKQVHDGGDGRTYDQMIDDAIYNVIILG				NA	NA	NA	NA	NA
AK002_01082	207			hypothetical protein	ATGAAAAACTCATCCAGAACTACATATTTGAGAAGACGGCTTATATCGGACGTTGTTTATTTGGTGCTTTGTATTTTAGGGATAATTCTTGTTGCGAATACTAGACATTACTGGCTTACATTAGTCCCTATATTAGCATTAGTTCTTGGAATATTCATAATAAGATATCATCTAAAAGAATACAAAGATAAATCTGATAATGGATGA	MKNSSRTTYLRRRLISDVVYLVLCILGIILVANTRHYWLTLVPILALVLGIFIIRYHLKEYKDKSDNG				NA	NA	NA	NA	NA
AK002_01083	3351			hypothetical protein	ATGAAAAAAATGTCCATCATGCTGGCAGTAACGCTCATTTTTTCGATGGTGCTTGCTCCCTTGGCTTCCGCTCAGCCCGTGGTCCGGGCTGGTAACAACTCGGTTCCGGTTGAAGCGGACGGTTGGGTGTGGGTCGGGACCACTGAAGAACTGGCCTATATCAATCGGAATCAAGCGTCCTACCTGGATCGGAATATCCGATTGACCGGCGACATCGATATGACCGGATACGATTGGGTGCCCATAGGTGATGAAGCGACCGTCTTCAGCGGTGTTTTCGACGGAAGGGGACACCGGATCGAAGGTCTTACCATCGATGGAGGAGCTCTGCAATATGTCGGCTTCTTCGGCCGCGTATCGGGGACCGTTCGTAATCTAAGCATTTCCGCACAAGTCAGCGGCGGCAGTTATGCCGGAGTATTGGTGGGACACCTGATAGGCGGCAGCATCATCGGCTCGCATTCGCAGGGCACCGTTACGAGCGGCAATACCGGTTATACAGGCGTGAGCGTAGCAGGCGGGTTGGTCGGCACGGCATACGATCATTCGAGCATTATTCGTTCTTCTTCATTCGCTGCCGTAAAGAGCGGTGATGCCTCCAACCAATTTGCAGGAGGGCTTATCGGATCCCAAGGCGCAGGCTCCATTAGCGACTCTTATGCCACAGGGACGGTGACCAATTCGGGTGGCGATCACTTTTTCTTTGGGGGCGGATTGGCGGGACAGCTAGTATATGGGGATATTACTAATAGTTATTCGTCGACAGCTGTCACCCAATCCGGAAGATTCAGCTATGGCGGGATGGGCGGCTTTGTCGGTTCCATTTTCGACGCGACGAATCCCTCGATCCATGCCTCGTATTTCGATTCCGTTGCTACCATGCAAACCAGCGGCGTAGGAGATGGTAGTGGTACTGGCTCGATTCACATTACGGGCCTTACGACCAACGAAATGAGGGAAGCATCCAATTACCAAGGCTGGGATTTCACCGATATCTGGGCCGTCGATGCCGGTATTAATGGAGGATATCCTTATTTTCGTCCGGACATTTTGACAACGGATCTGCTGCGGGCGGACAAGGACGCTCCTTATTCCTTGGTCCTTGAAGCTTTCGACGGCGCAAGGGGGGGCTTGTCCTGGAACGCCTCCGGACTTCCTGACGGCCTGGCGTTGACGGATCATGGCATGCTCAAAGGCAGACCCACGGTGAGCGGCGCGTTCCCGGTAACGGTCTCGGCGACCGATGCGGGCCAGAACACCGTCAGCGCGGTATTGACTCTGTACGTGGATGAAACGGCACCGGACATCGACGGGCTTGCTATCAGCCCAGGCAGAGCGAACGGTGCGACGAGCGCGACGGCAGTTCCGGGCGATTCTGGGCATACGTTTGCTTATTTGCTCGGACCAGATGCCGGTGAGCGTCCTCTAGTGGGGGATGCGTTGCCTGGCGAAGCGGTCTCCTACTCGTTAGGAGCAGACATTCTGGATCCGATCCCGGGTCAATATCTCGAGGTATTTGAGTTGGATGCACAGCAGCGCATCCAAGCGTGGAGCGTTATCCAAGTGGAAGCGAGCCATATTCGTAACACCATCCCCGTTACGGGGGTGAGTTTGGATCAGACGACTTTGACCCTTACGGCAGGAGGTGCTTCACAGAAGCTGATATCCGTACTTATGCCCGTGAATGCGACGAACCAGGCGGTATCCTGGAAGTCCAGCGATTCGGCCGTCGCCGAGGTGGATCAGAGCGGCGTGGTGACGCCGGTCGCTGAAGGTACGGCGGTCGTTATGGTGACGACCGTCGACGGCGGGTTCACGGCCACCGCAGCAGTGACGGTACATTCGGCTCCAGCGGATACGGGGACGGTGACCGGCGCAGTCTACGGTACAGGGAATACACCGCTGGCCGGTGCAGCGGTATCGGTGGGCGGAATGAAGGATATGACCGACGCTGAGGGGAGATTTGCGCTGAATAACGTAGCAGCGGGCCGTCATGAACTCACGGTGACGGCAGCGACGTATAACGATTATGCGACAACCGTAAATGTCCTAGCTGGGGAGACGGTCGATGTAGGGCGCATCGATATGAGAGCCGCCTATACCCCAGAACCGGAATCCCCGTCCTATAGCTGGGTTCCGGTTCCTGCCCCTTCCCCTGCGCCGGACCCAAGAATGATCGTAACGATCAACGGCAAACAAGTTCGGGTCGCCGCCAAAAAAGAGCAGGAGCATGATGGGCGCACCGTTCTGAGACTGATACCGGACTCCGATCTGGTTCGGTCATGGGCCGTTGGCGGGGAGGATATCGTCATCGACATCGATAACGAGGATCCGGTGGTGAAGGTCGATTTTCCGGCTGAAGCGCTGCAGGTTCTCCTTGCGGCGAATCCGAATGCAGCCATTCGGATTGGAGTGAACGGGGCAAGCTACAGCGTTCAGCTGCACGTGCTGAGCGACCTCCCGAACCGAACGACCGTAACGGTTGTCATCGCGAGAATGACGGATTCTGCAAGCCGTGAGCTGGATGAGGAATTGACCCGTCAAGGCTATGACATGCTGGCTAGGCCGACGAGCTTTGAGCTATACAGCGACGGCAATGTAAAAATCGAAGCGGAAGGCACGTATTTGGAGCGCACATTCTCGTTGAACGGTGCGGCAGAACCCGACCATTCCACCGTCGTGTGGGTGGATGACGCAGGGAAGCCGCGCTTTGTCCCTTCCGTTTTTGAAGGGGAGACAGCGACTTTTTATGGCGCATATAACGGCGTGTTCACCGCGGTTCGCTCCAACCGAACCTTCGGGGATATCCAGGGACATTGGGCGCAAAGCGACATCGAGCGGATGGCGAACAAGCTGATCGTGAACGGATCGGCTGACGGCACGTTTGATCCTAACCGTACGGTGACCCGCGCCGAGTTCGTCGCGATGGTCGTGCGTGCGCTCGGACTAGCCGAGAAGCCTCAGCTTTCTTCCTATTCGGACGTGGGGCCGAACGAAGTCTGGTATGCCGGTGCGATAGGGGCCGCATCCGCGGCTGGCTTGATTGAAGGCTATGCCGACGGTTCGTTCCGACCGGACGCTGTGGTCACGAGAGAGCAGGTGGCGGTGATGCTGGCCAGAGCCGTCCGATATGCCGGCGAGCTTCCGCGGCAGGACACATCTGCGTTGGAACGCTTCTCGGACCATGCCCAGGTATCCGATTGGGCCAAGGGATCGGCTTCCGAGCTGCTGGCTGCGGGCATGATCGAAGGCGTTGGGAACGCGGCGTTCGCTCCGCAGGCGTATGCTACGCGTGCTCAAAGCACGGTTCTCTTAAACCGAATGCTGCTCTACTTGAATTTCATGAACTGA	MKKMSIMLAVTLIFSMVLAPLASAQPVVRAGNNSVPVEADGWVWVGTTEELAYINRNQASYLDRNIRLTGDIDMTGYDWVPIGDEATVFSGVFDGRGHRIEGLTIDGGALQYVGFFGRVSGTVRNLSISAQVSGGSYAGVLVGHLIGGSIIGSHSQGTVTSGNTGYTGVSVAGGLVGTAYDHSSIIRSSSFAAVKSGDASNQFAGGLIGSQGAGSISDSYATGTVTNSGGDHFFFGGGLAGQLVYGDITNSYSSTAVTQSGRFSYGGMGGFVGSIFDATNPSIHASYFDSVATMQTSGVGDGSGTGSIHITGLTTNEMREASNYQGWDFTDIWAVDAGINGGYPYFRPDILTTDLLRADKDAPYSLVLEAFDGARGGLSWNASGLPDGLALTDHGMLKGRPTVSGAFPVTVSATDAGQNTVSAVLTLYVDETAPDIDGLAISPGRANGATSATAVPGDSGHTFAYLLGPDAGERPLVGDALPGEAVSYSLGADILDPIPGQYLEVFELDAQQRIQAWSVIQVEASHIRNTIPVTGVSLDQTTLTLTAGGASQKLISVLMPVNATNQAVSWKSSDSAVAEVDQSGVVTPVAEGTAVVMVTTVDGGFTATAAVTVHSAPADTGTVTGAVYGTGNTPLAGAAVSVGGMKDMTDAEGRFALNNVAAGRHELTVTAATYNDYATTVNVLAGETVDVGRIDMRAAYTPEPESPSYSWVPVPAPSPAPDPRMIVTINGKQVRVAAKKEQEHDGRTVLRLIPDSDLVRSWAVGGEDIVIDIDNEDPVVKVDFPAEALQVLLAANPNAAIRIGVNGASYSVQLHVLSDLPNRTTVTVVIARMTDSASRELDEELTRQGYDMLARPTSFELYSDGNVKIEAEGTYLERTFSLNGAAEPDHSTVVWVDDAGKPRFVPSVFEGETATFYGAYNGVFTAVRSNRTFGDIQGHWAQSDIERMANKLIVNGSADGTFDPNRTVTRAEFVAMVVRALGLAEKPQLSSYSDVGPNEVWYAGAIGAASAAGLIEGYADGSFRPDAVVTREQVAVMLARAVRYAGELPRQDTSALERFSDHAQVSDWAKGSASELLAAGMIEGVGNAAFAPQAYATRAQSTVLLNRMLLYLNFMN				NA	NA	NA	NA	NA
AK002_01084	2079			hypothetical protein	ATGGAGAAGATTGCAAAACATCGCATCATCGGTTTGGGTCGGGAAATGATGAGTTTCACGGATTGGCTGGCGGATCCCCGGGCGCAGACATCCATTTTTTCAATATCAGGAATTGGCGGCATTGGCAAAACAACGCTGCTGCTGCAAATGGTCCGGACGGCAAGGCAGTCCACGGTGCGTTCCCTTTGGCTGGACGGGCAAGGAGGCTTAACGACGTCGGGCGCTTTTTTGGCGAGTCTGGAGATGAGTCTTGCAACTGAATACGGCAGAACCAGGGCTCCGGAATCCGCGCTGCTGCCATACATCATTAACGAGCTTCAGCTGCAGCGTACCGTGTTGTTCATAGACAATGGCGAGGAAATCGACAAGCTGGAAGGGTGGCTGTTCTCCAGCTTTCTTCCTGAGTTGAAATCCGCCCGCGTGTTGATCGTATGTGCCTCGCGCAATGGACTGCCGCTCAAGTGGCAGACGAATCCGGAATGGAAGTCCCAAATCCAAAGGTTCCCTTTGCGGCTGTTTACGCGAGAAGAGGTCTACGATTATTTAGACGGCAGCGGCTTCTCTGCGGAATGGCAAAGAGCTATTGCTGAGAAGACGGAAGGCCATCCGTTGTCGCTTGCCTTGACCGTGGATATGCTGCTTTCCGAGTCTGTGGCGCAGTGGGATGTATGGCGAGAGGTTCCGGCTGTATTGAGCGCCGAATTTTTACGGGAAGCGGCTTCTCCTGGCGTGTACCGCGCGCTGACGGTTTTGTCGCTTCTGCCTGCAGCCGACGAGAACATGCTGAACCGGTTGTTGGATACGCCCTTGGAAGGGGCGGACTATTACCATCTGAGGGCACTTTCGTTCGTACGGGATACGGCGGATGGGATAACGCTGCACCAGGTCGTTGCTCGAATGTTACGGAATGACTTCGCGCGCAGAAACTCCGCACAATTCGAAGCGGTTCGCCATCAGGCGTTCGTTCTGCTGGCGGAACGATTTCATTCGGTCGATCAACGGATGCAGATGCGCCTGAGCACCCACATCTTGGAGCTGTACCGCGAATTTTTGCCCTCGGCCCATGCATATGCCAATTTCTCGTCAAGCCTGAAACCAGGCGAACAGAAGCCGTTCCGGCAGGAGGATATGCCGTATTTGCAGCGTTTTTTGAAGGCGTCTATTCGGGGTTCGGACTGGCAGTCCGAGCTGGTCGACTCAGCCGATTACCCGGTTTTGCTGGAGGAGATTGCAGCTCATTTTCCAGAAGGAATCTTTATCGTGCGGGATGAAAAAGGGACGCCCCTGGCGTTTTGCGCAGGCGTATGGCTGCATGCCTTAAGTATGCCCTTGTTGGAACGATATGCGCCTGGGTGCAGGGGGATGCTGGGCGAAGAGGCTTCTTCGCTGCATCAGCTTCCTCCGGAGGCGGCCGATACGATATTTGTGCTGTTATCCGCGGTAAATGCCGAACAGTCCCTGTATCGTCCCGAAGAGCTGGGAGCTTTGCTGATGCAGCAATGGCTGGTTCGCATGACTGGTGGTCTGCGGGGGATTTTGGCGGCGGGAGATCCACAGTTGAATTCCTTATTGTCGATCCTGGGATTCAAAACATGCGGGAAAGTTACGGGATATGCGGGCATCGAATTGACGACATGGGAGCTGGATTTTAGGCAAACGAGCTTTGATCAGTGGATTCAGCGGATCATCCGGCAAACGGAGACAGCAGCAGGACAACAGGCACATCAACGGGAGGATGGGTATCCCTCGGCCATTGATAGAAGCGTAATGAAGCAAATGCTGGAACGGCTGTTCGATCCGGATAAGCTGGAGGAACTCCCTGTCGTTCGGCGATTGGGTTGGGATGGGATGCAGGTGAGGGATATCATTCAAGGGATTCTGGCCGACGAACGTCCGATGGAACCTTTGACGCTGTTGGAGAAGGAAATTCTCATCGCCAGTTATCTGCGCAAGGACCGGAACAAAAGCCAGCTCGCAGCCTCCTTCCATATGAGCAGAGCCACCTTTTACCGTCATATGCGTTTGGCCGAAAAACATCTGGCTTTTGTGCTAAGCGATTTGATGAGGTCCGGATTCTGA	MEKIAKHRIIGLGREMMSFTDWLADPRAQTSIFSISGIGGIGKTTLLLQMVRTARQSTVRSLWLDGQGGLTTSGAFLASLEMSLATEYGRTRAPESALLPYIINELQLQRTVLFIDNGEEIDKLEGWLFSSFLPELKSARVLIVCASRNGLPLKWQTNPEWKSQIQRFPLRLFTREEVYDYLDGSGFSAEWQRAIAEKTEGHPLSLALTVDMLLSESVAQWDVWREVPAVLSAEFLREAASPGVYRALTVLSLLPAADENMLNRLLDTPLEGADYYHLRALSFVRDTADGITLHQVVARMLRNDFARRNSAQFEAVRHQAFVLLAERFHSVDQRMQMRLSTHILELYREFLPSAHAYANFSSSLKPGEQKPFRQEDMPYLQRFLKASIRGSDWQSELVDSADYPVLLEEIAAHFPEGIFIVRDEKGTPLAFCAGVWLHALSMPLLERYAPGCRGMLGEEASSLHQLPPEAADTIFVLLSAVNAEQSLYRPEELGALLMQQWLVRMTGGLRGILAAGDPQLNSLLSILGFKTCGKVTGYAGIELTTWELDFRQTSFDQWIQRIIRQTETAAGQQAHQREDGYPSAIDRSVMKQMLERLFDPDKLEELPVVRRLGWDGMQVRDIIQGILADERPMEPLTLLEKEILIASYLRKDRNKSQLAASFHMSRATFYRHMRLAEKHLAFVLSDLMRSGF				NA	NA	NA	NA	NA
AK002_01085	1071			hypothetical protein	ATGCCTAGAATACTTGTCCCGCCCGAGGTATTGATTCGGGTATCGGAGGAAGCCGCCAGGGCAGTTGAAGAACTGGAAACGACCAAGAATCGGCTGGACCAGCAGATTACGTATATGATGTCTTCGTGGGAAGGAACGACACGTTCGCGGTTTTTCGAAGATTTTCAGCGTGCCCATGGCGAAATGAATAAAACGATCGAACATCTTCGGATCATCGGCCAGGAATTGAAGACCATTGCTTTCCGGTTCATCTCAGCTGATATGCGTGAATATATCATGATTGCGGCATCGGCAGCGGGCGCTGCTAATGAACCCAAAACGTTCTGGGACCATGCTGGGGACTTCTGGCAGGGGCTGCAGACCGGGGCGAAATCCGTGGCAAATTCGGTGAAGGATACGGCTACGTCCTTGGTGGAAGACCCGCTTGGCACTGCCAAGGACATGGCCTATAATGCAACTATCGGGACGGCGGAAGAGATCATCGACACGGCGGTTTGGGGAGGCAAAATGATTTTTGATGCCGATACCCAGGAGAAATTCGCCGCAGACGTTGAGGCGTCGGGCGGTGCGTCTAATTATATGGGGCAGGCTGCCATGATCCTGGCCGGTTTGGCCACACGCCGGATCGGCGTGAAGACTCACCCGCACCTGAAGCATGATTCGGGTGGGGATGGGGGGACAGGGACACGGACAGGGACCGGGCAGGAGGGAACGGAACAATCTCCAGTCCCAACAAAGCCGGGTGGAGGAAGTAATCCCAATGATTTTGTTAACCCGCACTCTGAAAAGCACATGTTTGATCCAAGCAAGCCCTCAACCCCTAATCGTACACAATATGGTCAAAATGTTGATGTAGAGGGATTAAGGCAAGAAACCATGACTAGTCCTGATAAAGCATATTCAAACTGGCCGAATCCTAATAACCCAAACACTCAAAGAATAACTAAGTATTATAAAGAGTTTGACGGTAACATTAGTACACCTGACACGGTAACAGGAAGCCATAGAGTATTTGAAAACTTGGATGACCCTACGAGAAGTTCCCATTTTCCTTACTTTCCAAGAAAATAA	MPRILVPPEVLIRVSEEAARAVEELETTKNRLDQQITYMMSSWEGTTRSRFFEDFQRAHGEMNKTIEHLRIIGQELKTIAFRFISADMREYIMIAASAAGAANEPKTFWDHAGDFWQGLQTGAKSVANSVKDTATSLVEDPLGTAKDMAYNATIGTAEEIIDTAVWGGKMIFDADTQEKFAADVEASGGASNYMGQAAMILAGLATRRIGVKTHPHLKHDSGGDGGTGTRTGTGQEGTEQSPVPTKPGGGSNPNDFVNPHSEKHMFDPSKPSTPNRTQYGQNVDVEGLRQETMTSPDKAYSNWPNPNNPNTQRITKYYKEFDGNISTPDTVTGSHRVFENLDDPTRSSHFPYFPRK				NA	NA	NA	NA	NA
AK002_01086	414			hypothetical protein	ATGACAAAATCAAACAACCGATATAGCAACGGTGGTAGGGTGAAACTTGAGATTACAGAACGGTTCAGACCTTTCAATACACCAGATTGGGTTAACTTCAGAGAAGCAGTCGGAGTAGATCTGGTTAATCGTTTTACTAAATCTTTTTGTTTCCCGGTGTTTACGGATAGGATCCTAGTCTTTGATGGAGATATTTCTCTTTCTATATACGATCAAGCATTTTATGAGGATTTGAAGGATACCGATGAAGAAGCACTGAATTTTGATACAGGTGAAAGTATTGAACATTGGATAAATTTGTATTGGGGGAGTCTGATGACACTTGAAGAATACAATGAGACAAAACCATATTCCAAGCCGGAAGTATTAGTCTTTGACTCCATTCCTAAAGAGATTATTCAAGTATGTGAATAA	MTKSNNRYSNGGRVKLEITERFRPFNTPDWVNFREAVGVDLVNRFTKSFCFPVFTDRILVFDGDISLSIYDQAFYEDLKDTDEEALNFDTGESIEHWINLYWGSLMTLEEYNETKPYSKPEVLVFDSIPKEIIQVCE				NA	NA	NA	NA	NA
AK002_01087	555	arcC2		Carbamate kinase 2	GTGGGTTCCTTCTTCACCCTGGAGCAAGCCGAGGAATTGAAGCGCGAGCATCCCGAATGGGTGATGATCGAGGATTCGGGGCGCGGATACCGCAGGGTTGTTCCTTCGCCTGCGCCCATTGATATCGTGGAGAAGGATGCCATCCGGTCACTGATCGAGTCCGGCTGTATCGTGATTGCCGTCGGCGGAGGAGGCATTCCCGTCATCAAGACGAAGGACAATACCTACGAAGGCATCGATGCGGTGATCGATAAGGATTTTGCCACAAGTTTATTGGCGGAACAGGTGGATGCGGAAACGCTGATTATCACAACGGGCGTGCCCCAAGTATTCGTGAATTTCGGTACGCCGGATCAGAAGGCGCTGGAAGAGGTCACCGTTGACGAGATTAAACAGTATGTGAAGGAGGGGCATTTTCCGAAAGGCAGCATGCTCCCCAAAATTGAGGCGAGCCTCAATTTTCTTAAGAAGCCGGGGCGCAGAGTTATCATTACGAACCCGGAAAGCTTAAGCGATGCCATCAGGAAACAGGCCGGCACACATATTGTGAGTTAA	MGSFFTLEQAEELKREHPEWVMIEDSGRGYRRVVPSPAPIDIVEKDAIRSLIESGCIVIAVGGGGIPVIKTKDNTYEGIDAVIDKDFATSLLAEQVDAETLIITTGVPQVFVNFGTPDQKALEEVTVDEIKQYVKEGHFPKGSMLPKIEASLNFLKKPGRRVIITNPESLSDAIRKQAGTHIVS	PGPT0020085_280	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020085-arcC-K00926	NA	NA
AK002_01088	858			hypothetical protein	ATGAATATGCAGACGCTAGCCGAGAAAACGAGTGCTGGCTTGTTTAACGATATCCTACAACGTGACTTTTCGCAGGACATGATTTCGGAATTGGAACAGATGAACGCAGTCCAATTGGAAAACAAATTGAAAGACATATTAGCAGTACCAATAGATATATCCAAGGAGAGAGTATTCGAATATCTTCAACTGTATTATTCAGCATCCTGGCAGAATCTCTTCACGGAGCTGAATGTGCCCCGTGCTTTAAGTCTTTTGGAAGTTGGTGCAGGCGATGTCATTTACATTCCCAAGGCTGTAGACGCCTATTCCCATGAAGCGGGGTCCTATGTGACGGCCAACCTCAACAGGGACCTGACACGAAATTTCCAGGAGAAAACGAACGGAATGGACGTGAGCATACGGGTTGTAGAGGACGATGCCGCCAATATCGGTTTATATTATCCGGAGTCCTCTTTTGACGTTGTCGCTTATCATCACGCTATTAACGATATCATCCAGACCATTATTGCTGATCGTGAGGGCATGGATACAGTAAATCAAGATTGGTGGACGATCGAACCTCTAATGCTGCAAGCGGTGATGGATTATCACCGCAAGGGTACGCTAAAAGATGCAGCGTATCAGGCGTTTATCCAAATCATAGACACAAGCTGTAAGCAGTTAAAAAGCGGAGGATATATGATATTCGATAACATTACTTATGCCGGATATGATGAAATGGGTTATTCCTCCGAATTTCACAACGACTATATACAACTGGCTAGAAGCTGGATCAGCGAAGCGAATCTAGGTCTGGAAGAGATCGAAGTCGGTTCGTATGATAAACAATGGTGGATGATATGGAGAAAAGTATGA	MNMQTLAEKTSAGLFNDILQRDFSQDMISELEQMNAVQLENKLKDILAVPIDISKERVFEYLQLYYSASWQNLFTELNVPRALSLLEVGAGDVIYIPKAVDAYSHEAGSYVTANLNRDLTRNFQEKTNGMDVSIRVVEDDAANIGLYYPESSFDVVAYHHAINDIIQTIIADREGMDTVNQDWWTIEPLMLQAVMDYHRKGTLKDAAYQAFIQIIDTSCKQLKSGGYMIFDNITYAGYDEMGYSSEFHNDYIQLARSWISEANLGLEEIEVGSYDKQWWMIWRKV				NA	NA	NA	NA	NA
AK002_01089	561			hypothetical protein	GTGAGTAAGCCGGCTATGCAGGTCGCTCTGGTCGTCGGGCCGGATTGCGATATGGAGAGCCAAGCCGTAAGGGCGGCTCTGGAGTATTTCGGGGTGCGCGTCTTTACATACTGGATCGGGAGGCCGAATGATCTGATCTCCGTATTGCCAGGCGATGATCTGTATGAAGGCACCGATATGATGTTGTTGAACTTTCACGGGGACGAGGGCAGCTTGATCATGCCGGAGCTCGGCGAAGAGGTATACGAGGAGGATGAGCCGAGGGGCGGCTTCGGGCCAGGCGAGATTATGCGATATGCGAAGCTGGACGGGAAGGCAGTCATCGCGAACGGCTGCTCGCTGGGGGATCCAGCACTGGCCGACGCTTTCCTGGAGCGGGGCTGCCGGATGTATATCGGGCCGGATGACTATCCGGACGGCAACGATGCGCTGATGTTCGTTCTCCGGCTGATCTATGAGATCGTTCAGCAGGGACGGGACGTGAAGGAAGCCTTTGCGCAAGCGGTGGCGATGAGTGGCGAGCTATCCATGTACCGGCTGTATGAACGACAGGAATCATAG	MSKPAMQVALVVGPDCDMESQAVRAALEYFGVRVFTYWIGRPNDLISVLPGDDLYEGTDMMLLNFHGDEGSLIMPELGEEVYEEDEPRGGFGPGEIMRYAKLDGKAVIANGCSLGDPALADAFLERGCRMYIGPDDYPDGNDALMFVLRLIYEIVQQGRDVKEAFAQAVAMSGELSMYRLYERQES				NA	NA	NA	NA	NA
AK002_01090	789		COG4753	putative response regulatory protein	ATGTTTAAAGTACTGCTGGTCGAAGATGAGGATATGATTCGCCGGGGCATCCGGTTCAGCATCGATTGGGTTCAATACGATTGCATCGTTATTGAAGAAGGACTGAACGGACAGGACGGCTACGAGAAGATCTGCGAGCTGAAGCCGGATATCGTCATAACCGACATCACCATGCCGATCATGGACGGCATCTCGATGATTCGGGAAGGACTCCGGCAGCATACCTTCAGCAGCATCATTATCTCCGGCTATAATGAATTCCACCTGGCGCAGCAGGCACTCCAGTTAGGCGTCACCGAATTTCTGGTGAAGCCCTTAGAGGATGAACAGCTGGTAACGGCACTCGAATCAGCCAAAGCCAAAGTGGATTTAATCCGCAAATATGAAGTGATTTCGAATCATCCGCAGGAAAAAGAAGAGATTTTGAACAGCAAATTTCTGGAGAAGGAAACCAAAACCTCGAAATACGTGTCCAAAATGATCGCCTATGTACAGGAGAACTATGCCAAGAAGATCAGCATTCATGACCTCGTGGAAGAGCTCGGCTTAAGCGCCTATTACCTGAACCAGAAATTCAAGGCAGAGACAAGCTATACCTTCAATGAATTTCTTAACCGTTACCGCATCCAGAAATCGATCGAGTTACTGAAGTCAGGCGACAACAAGGTCTATACCATCGCGCAGGATATCGGATTCAGTGATTACAAGTATTTTATCAGCATCTTCAAGAAGTATGCCCACGTCACGCCGAGCCAGTATCAGGAATATTTCGAGGAGAAGAATGGATAG	MFKVLLVEDEDMIRRGIRFSIDWVQYDCIVIEEGLNGQDGYEKICELKPDIVITDITMPIMDGISMIREGLRQHTFSSIIISGYNEFHLAQQALQLGVTEFLVKPLEDEQLVTALESAKAKVDLIRKYEVISNHPQEKEEILNSKFLEKETKTSKYVSKMIAYVQENYAKKISIHDLVEELGLSAYYLNQKFKAETSYTFNEFLNRYRIQKSIELLKSGDNKVYTIAQDIGFSDYKYFISIFKKYAHVTPSQYQEYFEEKNG				NA	NA	NA	NA	NA
AK002_01091	1776			hypothetical protein	ATGTATTTGGATTATCTGCGGTTAACCGCGAGTCAGTATAATAGGATCGAGGTCCTATCGCAGATGGAGGGCAGCATGAAACCAACACCTTATCGTAATTTCAAGGAATCCACCCGTCATTTGTTTCGCGTCTATACGATGATCCCCTTCTCCATCTTAATCGTATTGTTCTTGGCGTTCACGATTATGAACGGCCGTTTGAACTTAACCCAAAAAACGACCGAAGCCGCCCAGTCCATCAGCCAGTCCATATCCGGCGTATATCGGCAGTATGACGAGGAGATTCATCGGATGGCCGAATCTCCCACCGTGATCAACTATGTAAGCTCCCATCTGGGCAGCGAACAAGTATATTCCGAGTTCTATGATTTCAACAATCGGCAGAAGATCAAGAGTATTTTTCATATAGTCAATACGGATGGCGTCTTCCTGGCCAGTTCAGCCCCGGCGGATGCGCTGTACTCCAATTTTGCCTTCGGCAACCTCATTCACCGGATTGAACAGCGGCCCGGCGACACGCTAACCGAAATGAACAGCTTCCGCTATTCGCATGACCGCGATACGAGCTACACGTTCGGCAAAGCCATCGTGAAGGACCAGCAGACGATAGGCTATATCATCTATCAGCTGTACGAATCGGACATCCAGAAGGTGATTTTCGAGCAAAACAATGAAATCGCCCTGATCACCGATGAACACAACACCATTATTGCCACGACAAGCAATGTGACCAAAGGCGTGCTCAACAAATTCAACCCCAAGGTCGATAACAAGGGACATGTTCTGCTGAACGGGGGCAAGTACTACAAATATTCCAAACGAATTCCTGGCACGCCGATTCAAGTCATTACGCTGAATTCCTACAAATCGGAGCAGTACACCTATTATACGGTTTCTTTCTTTGTCCTTGCGGCCAGCCTGCTGCTGTGGGTCTTGATCCAGTTCCTGGCGAACAAAATGTCGGCGCGCAATTCCGAATCGATCGATAAACTCATACACGCTTTGGCCCAGCTGCGCGAAGGGAACTTCAACGGCTATGTCGACATTCAGACGAATGACGAGTTTCAAATACTCGGCAATGAGTACAACGTGATGCTGGATCGGCTGAAGGAATTGATCGAGAAAAATAAAGAGCTGTCGGAGCTCCGCACGATTATTGAGGTGAAGCAGCTGCAATCGCAGTTTCATCCGCATTTTATTTTTAATGTGCTCGAAACACTGCGCTATGCCATAAAGATTGACGCGAATCAAGCCCAGGAGATCGTGCTGATTCTATCCCGTTTGCTTCGTTACAGCATCGGACATGATCGCAGCGTCCAGCTGAAGAATGACATGAATTATGTCCGGGATTACCTGAAGCTGCAGCAAATCCGGTTCAATGACCGGCTGGACTATCGGATTACCGTAGCGGAGGAAACGCTGGATGTATACGTTCCCAAGCTTCTGCTGCAGCCGATTATCGAAAACGCTATCAAATATGGGTATGAGAATCAAAGTAATGTGCTGATCGAGATTAACATCTACACCTCCGCCGGCAAGCTCATTCTCGAGGTTCGCGATAACGGGCAAGGTATGAGTAAAGAGAGACTGCAGGAAGTGAACCAGATTCTGCAAAGCCAGACAAACACGACGCAGCATATCGGGCTGTACAACGTTCATCGCCGTTTGGTGCTTCTATATGGCGAAGCGTCCGGCATCCATATTGACAGCACGCAAGGAACAGGCACCTGTGTCGTCCTTACGATTCCTTACGAATGGAGTGAATATCATGTTTAA	MYLDYLRLTASQYNRIEVLSQMEGSMKPTPYRNFKESTRHLFRVYTMIPFSILIVLFLAFTIMNGRLNLTQKTTEAAQSISQSISGVYRQYDEEIHRMAESPTVINYVSSHLGSEQVYSEFYDFNNRQKIKSIFHIVNTDGVFLASSAPADALYSNFAFGNLIHRIEQRPGDTLTEMNSFRYSHDRDTSYTFGKAIVKDQQTIGYIIYQLYESDIQKVIFEQNNEIALITDEHNTIIATTSNVTKGVLNKFNPKVDNKGHVLLNGGKYYKYSKRIPGTPIQVITLNSYKSEQYTYYTVSFFVLAASLLLWVLIQFLANKMSARNSESIDKLIHALAQLREGNFNGYVDIQTNDEFQILGNEYNVMLDRLKELIEKNKELSELRTIIEVKQLQSQFHPHFIFNVLETLRYAIKIDANQAQEIVLILSRLLRYSIGHDRSVQLKNDMNYVRDYLKLQQIRFNDRLDYRITVAEETLDVYVPKLLLQPIIENAIKYGYENQSNVLIEINIYTSAGKLILEVRDNGQGMSKERLQEVNQILQSQTNTTQHIGLYNVHRRLVLLYGEASGIHIDSTQGTGTCVVLTIPYEWSEYHV				NA	NA	NA	NA	NA
AK002_01092	1656			hypothetical protein	ATGAGAGAGACGCGCAAACGATTCGATGTCTGGACCAACATTTCGTTACTGATCTTTGTGTTCTATATTCTGTTTCTGGCCCTGCCATTGTTTACGATGCTGTTCAAAAGTGTGTACAATGGCACGACAGGCGATTTTTCCCTTGCCTATTTCACGAAATTTTTCAGTAAGCCCTACTATTTGAATGCCCTGTTCAACAGCGTTAAGGTGACCGTCAGCGTAACCTTGCTTGCCGCGATTATCGCAACGCCGCTGGCTTATATCATGGCTACGGTGAAGATCAAAGGCAGCTCGGCCATTCGCGTACTGATTCTGATCTCGTCGATGTCGGCTCCGTTCATTGGCGCTTACTCCTGGATCCTGCTGCTCGGAAGAAGCGGCGTCATTACGAAATTCGTCAGCAGCACATTCGGCATTACGATGCCGGATATCTACGGATTTACGGGGATCTTAGTGGTCTTAACCTTGCAGATGGTCCCTCTGATCTTCATGTATGTATCAGGCGCACTCAAGAATATGGACCAATCGCTGATGGAAGCTGCCGAGAGCATGGGCTATACAGGCTTAGCCAAAATGCGCAAAGTGCTCCTCCCGCTCATTACGCCAACCTTGCTGGCAGGCGGCCTGCTCGTCTTCATGCGCGCGCTCGCCGATTTTGGTACGCCGATGCTGATCGGCGAGGGATACAAGACCGTGCCCGTGCTGATCTTTAACGAGTTCATCAGTGAGGTCGGCGGCGATGACGGCTTTGCGGCGGCGATCAGCGTCATTGTCGTTCTGTTCGCCACCACGATATTCCTGCTGCAAAAATTCGTAGCCAATCGCAAATCCTTTACGATGAGCGCACTGCATCCGATCGAAGCCAAGAAGAAGAAGGGCATCGGCAATATCGCGGCTCATGCGGTTATCTATCTGTATACGTTAATCGCGCTGCTGCCGCAGCTTTATGTCATCTATACTTCGTTCCTGAAATCCAACGGCAGAATTTTCGTTGAAGGGTTCTCGCTCCAAAGCTACCGGGATGCCTTCAGTAATATTGGCGGCGTCATTCTGAACACGTTCTTCCTGGCTATCGTTTCCCTGGTCGTCATTATCCTGTTGGCGATACTGATTGCTTACGTAACCGTTCGAAGAAAGAATGCATTGACGAATACGCTGGATATCTTCACGATGTTCCCGTATATCGTTCCCGGCTCCATACTGGGGATCGCCCTATTGATCACGTTCAACAATAAACCGCTGGCGTTAAGCGGAACGGCCGTCATCATGATCATCTCGTTTGTCATCCGGCGTCTGCCCTATACGATACGCTCCAGCGCAGCCATTCTGCACCAGATTAACGACGGGATCGAAGAAGCGGCGATCAGCCTGGGCGCTTCCCAGATGAAGACGTTCTTCAGGATTACGCTTCCGATGATGCTGGCAGGCGTCGTCTCCGGCGCGATCCTGAGCTGGATTACCATCATTACCGAATTAAGCACTTCGATCATTCTGTATACAGGCAAAACCAAGACCGTCACGGTTGCTATATACACGGAGGTCATTCGAGGAAACTACGGCGTGGCTGCGGCACTGTCCACGATTCTTACCGTCATTACGGTCGTGTCGCTGCTCGTTTTCCTGAAGCTCTCCGGACAAAAGGAAGTTTCCATGTAG	MRETRKRFDVWTNISLLIFVFYILFLALPLFTMLFKSVYNGTTGDFSLAYFTKFFSKPYYLNALFNSVKVTVSVTLLAAIIATPLAYIMATVKIKGSSAIRVLILISSMSAPFIGAYSWILLLGRSGVITKFVSSTFGITMPDIYGFTGILVVLTLQMVPLIFMYVSGALKNMDQSLMEAAESMGYTGLAKMRKVLLPLITPTLLAGGLLVFMRALADFGTPMLIGEGYKTVPVLIFNEFISEVGGDDGFAAAISVIVVLFATTIFLLQKFVANRKSFTMSALHPIEAKKKKGIGNIAAHAVIYLYTLIALLPQLYVIYTSFLKSNGRIFVEGFSLQSYRDAFSNIGGVILNTFFLAIVSLVVIILLAILIAYVTVRRKNALTNTLDIFTMFPYIVPGSILGIALLITFNNKPLALSGTAVIMIISFVIRRLPYTIRSSAAILHQINDGIEEAAISLGASQMKTFFRITLPMMLAGVVSGAILSWITIITELSTSIILYTGKTKTVTVAIYTEVIRGNYGVAAALSTILTVITVVSLLVFLKLSGQKEVSM	PGPT0003730_2897	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK002_01093	1110	msiK	COG3839	Diacetylchitobiose uptake system ATP-binding protein MsiK	ATGAGCGTAACCATAACCATTCAAGACTTAATCAAAAAATACGGCGACACAACCGTCATTCCCGAGCTGTCCCTGGAGATCAAGAAGGGTGAATTCTTCACCCTTCTCGGGCCTTCCGGGTGCGGCAAGACGACACTGCTGCGCATGATTGCCGGCTTCAACAGCATTGAAGGCGGAACCATACATTTTAACGAGCGCGTCATTAACCAGGTGGAACCGGGCAAACGGAATATCGGGATGGTTTTTCAGAGCTATGCGATCTTCCCTCACCTAACCGTCAAAGGAAACATCGCGTTCGGGCTGGAGAATCGGAAATTATCCAAGGCCGAGATTAACGCCAAGGTTGATGACATCCTAAAGGTCGTTCAGATCGAGCCCTATAAAGACCGCATGCCGAAGAACCTGTCCGGCGGCCAGCAGCAGCGCGTTGCGCTAGCCAGAGCCATCGTCATCCGGCCGGACGTCCTGCTGATGGATGAGCCTCTATCCAACCTGGATGCCAAGCTTCGGGTCGACATGCGTAACGCGATTAAAGACATTCAGCGGGAAGTCGGAATTACCACCGTCTACGTCACGCATGATCAGGAGGAGGCCATGGCGGTTTCCGACCGCATCGCGGTCATGAAATCCGGCGTGATTCAGCATCTGGGAACGCCGCAGGAAATTTACCAGCGTCCTGCAAACGTATTCGTTGCAACCTTTATCGGTCGGACCAACATTCTTGAGGGCAATATAACGAAATCCGCAGGCAGCTATGCCCTGCAATTCGGCTCCGGCTATATGGAGGAGCTGTCTAACATCGAGGTTCCGAAATCCGATGCCAAGGCAGATACGCTAAACGTTCAAATCTCGGTTCGGCCGGAAGAGTTCATACTGACCGAGGACCAGACCGGCATGAAAGCAACAATCGTACACAGCGTATTTTTGGGGCAGAACACCCATTATTTTGTAGACTTGGCTTCCGGTCAACGCGTGGAGATCACGCAGGAATCGAAAACGTCCCATATCCTCGAGCCTGGCCAAGTCATCTATCTCAAGGTGAAACAAGATAAAATTAATGTCTATGATGCGACCGGCGAACTGAACTATACAAGGGGCGCCCGGCTATGA	MSVTITIQDLIKKYGDTTVIPELSLEIKKGEFFTLLGPSGCGKTTLLRMIAGFNSIEGGTIHFNERVINQVEPGKRNIGMVFQSYAIFPHLTVKGNIAFGLENRKLSKAEINAKVDDILKVVQIEPYKDRMPKNLSGGQQQRVALARAIVIRPDVLLMDEPLSNLDAKLRVDMRNAIKDIQREVGITTVYVTHDQEEAMAVSDRIAVMKSGVIQHLGTPQEIYQRPANVFVATFIGRTNILEGNITKSAGSYALQFGSGYMEELSNIEVPKSDAKADTLNVQISVRPEEFILTEDQTGMKATIVHSVFLGQNTHYFVDLASGQRVEITQESKTSHILEPGQVIYLKVKQDKINVYDATGELNYTRGARL	PGPT0003735_747	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
AK002_01094	1023		COG1840	putative protein	ATGAAAAAGCTGTCGATTTTACTGTTAACCTGCGTGCTCATTATAGGGGCGCTGAGCGGTTGCGCAAGCAGCGAGTCCGATTCGGGTTCGTCGAATAAACTCGTGATCTACAGTCCAAACAGCGAGGAGATCATCAAGACCATCATTCCGATGTTCGAGAAGCAGACCGGGATAACGGTTGAGCTGGTAACGGCTGGCACCGGCGAAATTATTAAGCGCTTACAGTCTGAGAAGCAGAACCCATACGCTGACGTGATGTTCGGCGGTTCGATGGCCGGTTTCCGCGAAAACGAAGCTTTATACGAGCCTTACGTATCGCCTGAAGACAAGAATTTAATGGAAGGACACCGCAATACATCGGGCTTCGCTACCCCTTATATCTCGGATGGCAGCGTGCTGCTCGTGAACAAAAACCTGATCGGCGATATCAAAATCGAAGGTTATGCGGATTTGCTGAACCCGCAGCTTAAAGGGAAGATTGCTTCCGCCGACCCGGCTAGCTCCAGCTCCGCTTTCGCACAGTTAACGAACATGCTGAAAGCCATGGGCGGCGATTATGAGAGTGAGCAGGGCTGGAATTATGTCGGTCAACTGATCGAGAACCTGGACGGCAAAATCGCCAGCGGTTCCGGCGCCGTCCACAAAAGCGTGGCGGACGGCGAATACGTAGTCGGCCTTACTTACGAAGACCCTTCCAGCACCTATGTAAAGAACGGCGCACCGGTCGAAATCGTGTATCCGAAAGAAGGCGCCGTATTCCTGGATGCGGGATCCGCCATCATCAAAGATGCGCCGCACATGGACAACGCCAAGAAATTCATCGACTTCATCCTGTCCCAGGAAGCCCAGGATGCGTTCGGCACGCAATTAACGAACCGCCCGCTTCGCCAGGGTACCAAGCTTGGCGACCACATGAAGCCTTATGAAGAGATCCACATGATCGATGAAGACACGGACTATGTCAGCGCGCATAAATCCGAGATCGTTGAGCGTTATGTCGATTTGTTCACTAGCGTTAAATAA	MKKLSILLLTCVLIIGALSGCASSESDSGSSNKLVIYSPNSEEIIKTIIPMFEKQTGITVELVTAGTGEIIKRLQSEKQNPYADVMFGGSMAGFRENEALYEPYVSPEDKNLMEGHRNTSGFATPYISDGSVLLVNKNLIGDIKIEGYADLLNPQLKGKIASADPASSSSAFAQLTNMLKAMGGDYESEQGWNYVGQLIENLDGKIASGSGAVHKSVADGEYVVGLTYEDPSSTYVKNGAPVEIVYPKEGAVFLDAGSAIIKDAPHMDNAKKFIDFILSQEAQDAFGTQLTNRPLRQGTKLGDHMKPYEEIHMIDEDTDYVSAHKSEIVERYVDLFTSVK	PGPT0003725_3289	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK002_01095	228			hypothetical protein	ATGGCTAATAAAAACGATCGTAATCATAAGGCTGATTCTGACCGCGACACGACCAACATGGGCGTTGACGCTGGAGAAGCAATCGGAACAGCGGGCGGCGGCGTCGTGGGTGCTGCTGTAGGTTCCATACTGGGTCCGATCGGCACGATTGCCGGTGGTATCGCAGGCGCAGCATTGGGTAACAAAGCTGGCGAGGCTGCAGAAAATGACGACAACGATTCAAAATAA	MANKNDRNHKADSDRDTTNMGVDAGEAIGTAGGGVVGAAVGSILGPIGTIAGGIAGAALGNKAGEAAENDDNDSK	PGPT0024490_1241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	CE-REMODELLING_LIPOPROTEIN_METABOLSIM,PGPT0024490-slyB-K06077	NA	NA
AK002_01096	375	blaI_2	COG3682	Penicillinase repressor	GTGAACCAGGTTCAAAAATTATCGGATACTGAAATGGAACTAATGGAGGTGATTTGGGAGAGCACTCCGCCTGTCACATCCACCGAATTGCTCGCACTGTTTGCCCAGAGAGGAAGAGAATGGAAGGCACAGACCATGTCCACCTTCCTGTCGCGTTTGGTGGACAAAGGGGCACTTACGGCTACGAGGGATGGACGGACCAATAAATATACGCCGCGAATTTCGCCTGAAGATTATAAGCTGATGGAAGCGCAGCACGTCCTGGACGGATTATATCAAGGCTCGGTTAAAAACCTAATTTCGGCTTTGTATGACGGCGAAAAGCTTTCAGATGAAGATATTGCAGAGCTGAAGCAATGGTTCTCGCAAAAGTAG	MNQVQKLSDTEMELMEVIWESTPPVTSTELLALFAQRGREWKAQTMSTFLSRLVDKGALTATRDGRTNKYTPRISPEDYKLMEAQHVLDGLYQGSVKNLISALYDGEKLSDEDIAELKQWFSQK	PGPT0028105_597	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
AK002_01097	1491			hypothetical protein	ATGAATACTATTCTTGAATTGCTGTTTACCCTTACCGTTGCCGGAAGTGCCGTTGTAGCCTGCATTCTTGTACTGCGTATCGTATTCATCAATACCTTTCCTACAAAGTGGCGCTATGGAATTGGCAAAATGGCAGTGGTCTTTTATCTTTTACCTGTCGTCCTTGGTATTCAGTGGATCTCACCGCTTTTTACATTTAGTGCAGTTCCCGTTGTGAACGAGTTGCCTTCAACTGTGCAACATGCGCTGCCCGGTCCATATTCAGGGACTGGTTTGGAGCCGCTTATTCCGGCAAAGACCATCTCAGTAAACGTAGCCCTGCCCCTTATTGTCTTATGGGCACTCGGCGCTATAGCTTTTGCTGCATGGCAGATGTATTGTTATCGCAGATTTTTAAAGAAACTTGAACATTCGCGTGTCACCGTTCCGATAAGCAGCGAAGCAGCGAAACTGCTTTCCTTCATCAAGGAAGCCATTGGTGTGAAAAGCAGCGTCGGACTTGCCTACAGCTCCATCATTCGGAGCCCTGTTCTTGTCGGCCTGTGGAAACCTACCATTTATCTCCCTATAGAGAATACCGTTAACATGGACATGGTAATCCGTCATGAATTGATCCATCTGAAACGGAAAGATTTATGGGTCAAAGCGTTCACGCTCGGAGCAAGCGCCCTACATTGGTTTAACCCTTTGGTGCACATTCTTCGCAAGGACCTTCATATATGGAGCGAGCTGTCTTGCGATGAAGAAGTCGTGAAAGAGATGTCCTATGCCGAGCGGAAACGCTATGGGGAGACGATTTTAAGCGTCATGGCAGGGTCAAGGAATTTACCCGTGCAATTTATTGTCTCCTTATCCGGTGACGGCAAACAATTGAAAAGGAGATTAATGATGATGCTGAATGTAAAGAAACAAAAAAAGAAAACAATGTATCTCACGTTAACAGGGGTGTTTTTGGTTGCTGTAATTAGCACATCAGCAGCGGCATGGGCTTCTAGCAATACGCCTAAAGTCATTGAAAATGAGGCTGGTCATGCAGAAGCTCAACCAACAGAAGCGGCCCCTAGAGCGGTACCTTCTGAAGTCGTAGTTGAGAATAAAGGAAGCCATGTCATGGATTATCCCAAAGAAGCTCGTCCTGAAGCTGCTGCTGAGAATGGAGGAGAGGATGTTGTGGCTTATCCGGAAGAGGCTCGTCTTGTGGCTGTCGCTGAAGGAAGCCATGTCGTGGATTATCCCAATGAAACTCGTCCTTCAGCTGTAGTTGAGCAAGAAGGAAGCGATGTTGTGGATTATCCAACAGAGGCTCGCCCTGCAGCTGTAGTTGAGAGCGAGGGAAGCAATGTTGTGGATTATCCAACAGAAGCTCGTCCTGCAGCAGTTGTTGAGAATGAAGGAGACGATGTTGTAGATTATCCGCAAGAAACTCGTCCTGTAGACCAGGGTTATAAGTCTCATCCAAACGAGACCCCACGAATACTTCCATTACGATAA	MNTILELLFTLTVAGSAVVACILVLRIVFINTFPTKWRYGIGKMAVVFYLLPVVLGIQWISPLFTFSAVPVVNELPSTVQHALPGPYSGTGLEPLIPAKTISVNVALPLIVLWALGAIAFAAWQMYCYRRFLKKLEHSRVTVPISSEAAKLLSFIKEAIGVKSSVGLAYSSIIRSPVLVGLWKPTIYLPIENTVNMDMVIRHELIHLKRKDLWVKAFTLGASALHWFNPLVHILRKDLHIWSELSCDEEVVKEMSYAERKRYGETILSVMAGSRNLPVQFIVSLSGDGKQLKRRLMMMLNVKKQKKKTMYLTLTGVFLVAVISTSAAAWASSNTPKVIENEAGHAEAQPTEAAPRAVPSEVVVENKGSHVMDYPKEARPEAAAENGGEDVVAYPEEARLVAVAEGSHVVDYPNETRPSAVVEQEGSDVVDYPTEARPAAVVESEGSNVVDYPTEARPAAVVENEGDDVVDYPQETRPVDQGYKSHPNETPRILPLR	PGPT0028100_605	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0028100-blaR1-K02172	NA	NA
AK002_01098	876	moaA_1		GTP 3',8-cyclase	TTGAGGACGTTTAAGAAAGTTTACATAGAAATTACGAGCATTTGTAATTTGGCCTGCACGTTCTGCCCGCCGACGGAGCGCAAGGCCAACTTCATTAAAGTGGAGGACTTTGCGAGAAGATTGGATGAGATCAAGCCGCATACGAGTTACATTTATCTGCATGTGAAGGGAGAGCCGCTGCTTCATCCGAAGATCGACGAGCTGCTGGATATCAGCCATGAGAAGGGGTTCAAGGTCAACATCACGACCAACGGCACGTTGATCGCGAAGAACCGGCATAAGCTGCTGGGCAAGCCGGCGTTGAGACAGATGAACTTCTCGCTCCACAGCTTTGACGGACATGTCGGCTCCACGGACCGTGAGGGATATTTGCGGGACATCCTCTCTTTTGTGCGGGATGCGGAGGAGCATAAGGTCATCTTCTCCTTCCGTTTGTGGAATTTGACGCAGGACAACCAAACGAACCTGGAGAAGAGCCGAAACCGCCAGACGCTTGAAATTTTGGAGCAGGAATTCAATTTGGACTACCGCATCGAGGAAAAGGTTGAACCCGGCGGTGGCGTAAGGGTAGCCGAACACGTCTACCTGAACCAGGATTATGAGTTCCAGTGGCCGAGCTTGTCGGCCCCGGAGGATGACGGCAAGGGCTTCTGCCATGCGCTGCGCAGTCAGGCGGCGATTCTTGTAGACGGGACGGTCGTGCCTTGCTGTCTGGACGGGGAAGGGGTCATTAACTTGGGCAACCTTCATCAGAAGTCCTTCTCGGACATCGTGGATGGGGAGCGGGCGAACAACCTCGTGGACGGATTTTCGCGCCGGGAAGCGGTTGAGGAATTATGCAGAAAATGCGGATATCGACAGCGGTTTGGGGCTTGA	MRTFKKVYIEITSICNLACTFCPPTERKANFIKVEDFARRLDEIKPHTSYIYLHVKGEPLLHPKIDELLDISHEKGFKVNITTNGTLIAKNRHKLLGKPALRQMNFSLHSFDGHVGSTDREGYLRDILSFVRDAEEHKVIFSFRLWNLTQDNQTNLEKSRNRQTLEILEQEFNLDYRIEEKVEPGGGVRVAEHVYLNQDYEFQWPSLSAPEDDGKGFCHALRSQAAILVDGTVVPCCLDGEGVINLGNLHQKSFSDIVDGERANNLVDGFSRREAVEELCRKCGYRQRFGA				NA	NA	NA	NA	NA
AK002_01099	1473	rhlE		ATP-dependent RNA helicase RhlE	ATGACATTTGAAGATTTAAATATATCCCCTGTCATTCTCAAGGCTTTGGCCAAGGAGAATTACAAAGCGCCGACGCCTATTCAGGCTCAGGCGATCCCGGCTGTGCTGGCCGGCAGAGATTTGCTGGGCTGCGCCCAGACCGGAACGGGGAAGACCGCCGCTTTTTCGGTGCCGATGATCCAGCTGTTGAATCAGCAACCCCCTAAACCGGGCATGGGACGCCGCATTCGCGCATTGGTGTTGTCGCCGACCCGGGAGCTTGCCCTGCAAATTTCGGATAACGTCAAAGCCTACAGCCAGTTCACCAAACTGCGTTCGACGGCCATTGTTGGCGGCGTTTCGCAGAAGACGCAGGAACGTGCGCTTCAGCAAGGGGCGGACATTCTGATTGCGACCCCAGGCAGGCTGCTGGATCTCATGAATCAGAAGCACGTCGATTTACAGCATGTGGAGATTTTGGTGCTGGATGAGGCCGACCGGATGCTGGATATGGGCTTCATCCATGACGTGAAGCGAATCATCGCCAAAATGCCGAGCAAAAAACAAACGCTGTTCTTCTCGGCCACGATGCCTGCGGAAATCACCCAGCTTGTCCAAACCTTGCTGCACAATCCCGTAAAAGTCGAGATCACGCCGGTCTCCTCTACGGCCGAACGGATCGAGCAATCGGTGTACCTGCTGGAAACCGGGAATAAGCAGCAGCAATTGAATGAGCTGATGAAGGACCCGTCCATCGTGTCGGCATTGGTCTTTACCCGTACGAAGCGGGGAGCTGACCGGGTTGCGCGCGGACTGAACAAGGTGAATATTACGGCTCAGGCCATTCACGGCGACAAATCGCAAACCAGCCGCCAGACGGCGCTCAACAATTTCAAAAGCGGGGCGACCCGCGTCCTGGTGGCAACGGATATCGCCGCGCGCGGGATTGACATCGACGAGCTGTCGCATGTCATTAACTTCAACCTCCCGAACATTCCGGAAACGTATGTGCACCGGATTGGGCGCACGGGGCGCGCGGGACTGAGCGGGACGGCGATATCGTTCTGCGAAGTGGACGAGGTTCCTTTTCTTCGGGATATCGAGAAGCTAATCGGAAAGTCCATTCCGGAAGTGAAGGACCATGACTTCCCGATGTCCGGGGCGTTAAGAGCCGCCAAGGTGGACCCGACGCCAAAATCCGGCTCGTCCAAGCCCGGCAAAGGCAAGTCAGCTGCATCGAGACCTGCTAAACCGAAGGCGGATGCGGCCCGCAAACCAAAGGCCGACGCGGCACGCAACCCGAAGACGGGTGCACCCCGCCAATCCAAGACGAACTCGGCGCGTAAGCCCATGACGGAAGCCATCACGAATCCATATTCAGAAATGGCACGCAAGCTGAGTTCGGAAGCAGCTTCGAATCCTAACAACGGCCAGGCTCGGAAACGCAAGTCCGGCGGATTCAACAAGGGAAGCAGAGCCGGCAGACCCTCATAA	MTFEDLNISPVILKALAKENYKAPTPIQAQAIPAVLAGRDLLGCAQTGTGKTAAFSVPMIQLLNQQPPKPGMGRRIRALVLSPTRELALQISDNVKAYSQFTKLRSTAIVGGVSQKTQERALQQGADILIATPGRLLDLMNQKHVDLQHVEILVLDEADRMLDMGFIHDVKRIIAKMPSKKQTLFFSATMPAEITQLVQTLLHNPVKVEITPVSSTAERIEQSVYLLETGNKQQQLNELMKDPSIVSALVFTRTKRGADRVARGLNKVNITAQAIHGDKSQTSRQTALNNFKSGATRVLVATDIAARGIDIDELSHVINFNLPNIPETYVHRIGRTGRAGLSGTAISFCEVDEVPFLRDIEKLIGKSIPEVKDHDFPMSGALRAAKVDPTPKSGSSKPGKGKSAASRPAKPKADAARKPKADAARNPKTGAPRQSKTNSARKPMTEAITNPYSEMARKLSSEAASNPNNGQARKRKSGGFNKGSRAGRPS	PGPT0013740_630	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
AK002_01100	732			hypothetical protein	ATGAGCTATCACGGATCCGATTTTTACGACAACGACAAGAATTTCGAGAAATACATGGAACGGCGGCAGTGGCAGGAGAATGCCAACGATACGTTGGAGAAGCCCGTCATCCAGCAGCTGGTGGGGGATATCGCGGGCCTTCATGTATTGGACCTGGGATGCGGGGATGCCGGCTTCGGCGTGGAACTGCTTCAACAAGGGTGTGCCTCCTATACCGGAATCGAGGGCTCCCGCAACATGGCGGAAGCCGCTTCGAGCAGCCTGGCCGATTACAAGAGCGGAACCGTTCTGCACATGCAGATGGAGGACTATGCTTATCCGAGCGATACCTATGATGCGGTAATCTCCAGGCTCGCTCTTCATTATCTGCAGGATATCGGGGATATCTTTCGAAGCGTTCACCAGAGCTTGAAGCCAGGCGGAAGGTTCGTCTTCTCCGTCGAGCATCCCGTCATTACCTCCACGCTGCAGCCGTCCGGCACCAGAACGAATTGGGTGGTGGACAACTACTTCATCCAAGGCTACCGGGAGCAGCAATGGCTCGGCGGCACCGTTCATAAGTACCATCGAACCGTCGAGGATTACTTCCGGGCGATGCAGGAAGCCGGCTTTATCGTGGAGCACTTAAGGGAGTCCCATCCTGTGCGAGCGTATTTTGCAAACGAGGAAACCTATGAGCGCCGGCGCAGAATTCCGTTGTTTCTGTTTCTTGCGGGGAGAAAGAGCGAATAG	MSYHGSDFYDNDKNFEKYMERRQWQENANDTLEKPVIQQLVGDIAGLHVLDLGCGDAGFGVELLQQGCASYTGIEGSRNMAEAASSSLADYKSGTVLHMQMEDYAYPSDTYDAVISRLALHYLQDIGDIFRSVHQSLKPGGRFVFSVEHPVITSTLQPSGTRTNWVVDNYFIQGYREQQWLGGTVHKYHRTVEDYFRAMQEAGFIVEHLRESHPVRAYFANEETYERRRRIPLFLFLAGRKSE				NA	NA	NA	NA	NA
AK002_01101	474			hypothetical protein	ATGAATTCATATGGTTCCAGCAATTCTTGGACATCGCGGAATTGGGGTCCGCATTCTTATTCCTACTGGTTGGTCGCTTCACTGTCGCTGTTTGTGCTGTTTCTAGGAACCAATGCGTTTATTCAGCCGGAGGCTGCCATTCAAGGCTTTGGTTTGACTCTTTTCCACCCATCGGATACAGCCATCATCTACATCAAGGCCAATCGCGATTTATATATCGGCCTGATCATTGGGGCACTATTGTTACTGCGCATGCGTAGAGTGCTCATCGTCCTGTCCATCCTCAGCATCGAGATGCCTATTGTAGATGCCATGTTAGTTCTGCGTAGTGACGGGGCAGCTCCGGCCAGCGCGTGGATTCATATCGGCACTGTAGGTTATATTCTCGTGGTGACATGGATCCTGTTCCGTGAGGAACGATCCGCTCAACGAACGCAAAAGAACTCGGCAAATATCAATACCTTGATGAAATAA	MNSYGSSNSWTSRNWGPHSYSYWLVASLSLFVLFLGTNAFIQPEAAIQGFGLTLFHPSDTAIIYIKANRDLYIGLIIGALLLLRMRRVLIVLSILSIEMPIVDAMLVLRSDGAAPASAWIHIGTVGYILVVTWILFREERSAQRTQKNSANINTLMK				NA	NA	NA	NA	NA
AK002_01102	360	ytcD_2	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAAAACATCTGCCAGGTCTGTCGTTAGCGAGTGTCCCATTGAAACGGTCATGCATGTACTAGGCGGGAAGTGGAAGCCTCTGATCCTATGGCATCTGATGGAATCCGCCAAACGCTTCAGCGATTTGGAAAAGGACATACCCGAGGTAACGCAGAAGATGCTGGCCCAGCATCTGCGCGAATTGGAGAGTGACGGGCTCGTCGTTCGGACCATACATCCCTCGGTTCCGCCAAAAGTCGAATATGCTCTGAGCGAATATGGAATCACGCTGCTGCCCGTGCTGGAATCGATGTGCAACTGGGGGACGATTCATAATCGAATAGCCGCAGGAAGTTTCTGTGATGCAAAAATGAAATAA	MKTSARSVVSECPIETVMHVLGGKWKPLILWHLMESAKRFSDLEKDIPEVTQKMLAQHLRELESDGLVVRTIHPSVPPKVEYALSEYGITLLPVLESMCNWGTIHNRIAAGSFCDAKMK	PGPT0028512_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028512-yodB-NA	NA	NA
AK002_01103	432			hypothetical protein	ATGTTTATCGTCAACGTGGAAGGAGCCGTGCATAAGGACGGGCAGTGGCTGATGATAACGCGCAGCTTGAAGGAAGAGAACGCCGGCGGAACGCTTTCGTTCGTGGGAGGCAAGGTCGACAAGGAAGGCAGCACGCTGGATATTCTGGAGCGCACGGTAAAGCGGGAGCTTTACGAAGAAGTCGGGGTCGAGGTGAAGGAAAGCGTTACGTATGTCTACAGCTCTTCATTTGTCACGGGCGATGGACGTCCCGTCATCAATATAGTGTTCTTGTGCGAGTATGATCAAGGAACGCCGTATTGCAAAAGCCCGGACGAGGTCGATTCGGTGCAGTGGATGACGCTGTCGGAAATTAGGGATCATCCCCAGACACCGCCGTGGACGATGGAGAGCGTGCAGCGGGCGGAGGAGGCGCGAAGGAAGCTCAAATAA	MFIVNVEGAVHKDGQWLMITRSLKEENAGGTLSFVGGKVDKEGSTLDILERTVKRELYEEVGVEVKESVTYVYSSSFVTGDGRPVINIVFLCEYDQGTPYCKSPDEVDSVQWMTLSEIRDHPQTPPWTMESVQRAEEARRKLK	PGPT0013440_3100	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
AK002_01104	447	nudC_1		NADH pyrophosphatase	ATGAGCAGCCTATTGCAGGTTCGAGTTACCGGAATTTTGATCGAAGACGAACGGATTCTGCTGGTCAAACAGAGCGTTTCGTCAGAACGCGGCTGGTCTCTTCCGGGAGGAAGGGTAGAGCAAGGGGAAACGCTGGAGGAAGCCATGATTCGGGAAATGGAAGAGGAGACCGGGCTTGTTACAAAAGTGACGAAGCTTCTGTATTTATGCGATAAGCCGGATTCATCGCCATCCCTCTTGCATATTACGTTTTTGCTGGAACGCTTGGAGGGGGAAATCCGCCTCCCGACGAATGAGTTCGATCTCAATCCTATCGGCGATGTGGTCATGGTCCCGATCGCAGATTTAGCAAACCACGGGTTTTCCGAGAAGTTTATGACGATCGCTCAGCGCGGATTTCCGGAGTCAGGAAGCTATCAAGGGCTCAAGCGCAATATTGGATTATAG	MSSLLQVRVTGILIEDERILLVKQSVSSERGWSLPGGRVEQGETLEEAMIREMEEETGLVTKVTKLLYLCDKPDSSPSLLHITFLLERLEGEIRLPTNEFDLNPIGDVVMVPIADLANHGFSEKFMTIAQRGFPESGSYQGLKRNIGL				NA	NA	NA	NA	NA
AK002_01105	537	gpmB_1		phosphoglycerate mutase GpmB	ATGAAAAAAATATACATCGTACGCCATTGCCAAGCGGAGGGACAAGCGGCGGATGCTCCGTTAACCGAGCAGGGGGTTCAGCAATCGCTTGAACTTGCTGAATTTCTGCACGACAAAGGGATTGACCGTATTGTTTCAAGTTCTTATCGCAGAGCTCACGACACCATTACACCTTTGGCTGATCGCATAGGCGTGGCCGTTGTGCTGGATGAGAGGTTGACCGAGCGAATACTGTCGGGCCAAAATGCTCCTGAATGGCGGGAGATGCTGCGCAGAACCTATCTGGACTTGTGCTTTGAAGGCGGAGAATCAAGCCGTACAGCCATGCATCGTGCGGTAAGCGTAGTTCATGATGTCCTGCAGAGTTCAAGCCGGAATGCCGTTATCGTATCCCATGGCAATCTGATCTCGCTTCTGCTGAAGCATTACGATAATCAGATCGGCTTCAACGAGTGGGAGGCTTTCTCCAATCCCGACGTGTATAAGCTCAGCTTCCGTTCAGATGTACCGGAGATTCAGCGGATATGGAATTCGTAG	MKKIYIVRHCQAEGQAADAPLTEQGVQQSLELAEFLHDKGIDRIVSSSYRRAHDTITPLADRIGVAVVLDERLTERILSGQNAPEWREMLRRTYLDLCFEGGESSRTAMHRAVSVVHDVLQSSSRNAVIVSHGNLISLLLKHYDNQIGFNEWEAFSNPDVYKLSFRSDVPEIQRIWNS	PGPT0018030_4184	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
AK002_01106	189			hypothetical protein	ATGGCCAAAACAAAACGGGGCCGCGCACTATGGAACATGCCATCGCGCGGCCGCGGCACATGCCCGGTATGCAGCACGTCGCGCATCAAACTTCTCTACGTCGCCAACAAATCGGACGGCACGGCACTGAAGGTATGCAAACGATGCCAGAATGCCGATCAGTCCAGAGTGGACGCAGCGGTAGTGTAA	MAKTKRGRALWNMPSRGRGTCPVCSTSRIKLLYVANKSDGTALKVCKRCQNADQSRVDAAVV				NA	NA	NA	NA	NA
AK002_01107	606			hypothetical protein	GTGCAATTGGATAAGGTGGTCAGTTATCACAAGGCGCTCGCAGACCCGACCCGAATCAAGATGCTCATCCTGCTTGCGGAAGGCGAAATGAACGGCCAGCTTCTGGCCGAGAAGATTGGCGTCACGCCGGCTACGATTACGCACCACGCGGCGAAGCTGCGGGAAGCGAGTCTCATCAACGAACGCAGGGACAAGAACACGATCTTTTTTTCGCTGAACGATTACTTTATTAAGAACAGTGCGACAGCGACGGAGAATCTGATTTACCAAAGAGTCCGGCCCGGGGGCGTAACGGAAAGCTTGCAGGAAGAGGAGCAGCGGATGAGGGATTCCGTAATCAAGAACTTCTTCACCTCCGACGGGAAGCTGAAGAGCATCCCTGCCCAGCTGAAGAAGAAACTCATCGTGCTTACGCATATGGTATCCCGGTTGGAGAAGGGACGGAAGTACAGCGAGAAGGAAATGAACGAGTTTATCAAGGAATATCATGAAGACTTTGCGACGATCCGGAGGGAGTTTATCATGCATCACTTCATGTTCCGGGACAATGGGGTGTATGAGCTCAATCCGCAGAAGATGTGGGCACAGTGGGAGGATCTGTCCTAA	MQLDKVVSYHKALADPTRIKMLILLAEGEMNGQLLAEKIGVTPATITHHAAKLREASLINERRDKNTIFFSLNDYFIKNSATATENLIYQRVRPGGVTESLQEEEQRMRDSVIKNFFTSDGKLKSIPAQLKKKLIVLTHMVSRLEKGRKYSEKEMNEFIKEYHEDFATIRREFIMHHFMFRDNGVYELNPQKMWAQWEDLS				NA	NA	NA	NA	NA
AK002_01108	927			hypothetical protein	ATGAAAGAACATTTGCCGCTATCCCATCAACGGATCGAGGATGCCAAAGCGGGGGATTTTGATGCCTACCGGATGATCGTCAACGAGTATTCCAATGCCCTGTTATCCGTTGCGTACAGCGTGCTGGGGGATTTCCACGAGGCACAGGATGCGGTGCAGGAAGCATTTCTGAAGTGCTATCGCAACCTGCATACGCTGAACGACCCAGCGAAGCTGGGCAGCTGGCTGTATGCGATAACGCGCCGGACCAGCCTCGATTTTGCCAAACGAAGCAAGCAGGCTCTCCCCCTGCACGAAACGACTCCAGCAGCGGACAATATCACGCCATGGCTGGAACAATATGTGATCCATGATTCCGTCTGGGGAGCCTTGCAGGGATTGGAGGAGAAGAGTAAATCCGTTGTCGTGCTGCACTACTTAAGCGAGTGGTCCATGAAAGAGATTGGACAGTTCCTTAACATGTCGGTATCTGCGGTTGAAAGCCGAATACGACGTGCCAGAGAAGTTTTGAAACAGCATCTTGCCCGTGACTTCGAGCATTATTTCCTTACTCACCGTTTGGGGAGGGATTTCGAGCAGCAGGTCTCGGAACATGTCCTTAAGCGAGCCGGTCATTTCTATATTCCAGTCACGGATAAGGGGCAGGCCACCGCCTGGTTTATCCTGCATTTTCATCTGGGAACCAGCAGGCACGGCAATCCGGTGCTGGAATCCGGACAGGAATTGTATTTGCTCGAGTGTCAGCGCCACGCCCCGGCGAGCATGCCTGTACTCACGTTCGAAGTAGCGAGCGTTGGGGAGTTAGTGCAGCGGCTGCATCAACAGGGGATTGGAATGGAGCCGATCCGGGAAGATGCTTTATTCGGCAAATTGCTGGTATTCTATGATCCCGACGGCAATAAGTATCATGCAATTGGACCGAATTGA	MKEHLPLSHQRIEDAKAGDFDAYRMIVNEYSNALLSVAYSVLGDFHEAQDAVQEAFLKCYRNLHTLNDPAKLGSWLYAITRRTSLDFAKRSKQALPLHETTPAADNITPWLEQYVIHDSVWGALQGLEEKSKSVVVLHYLSEWSMKEIGQFLNMSVSAVESRIRRAREVLKQHLARDFEHYFLTHRLGRDFEQQVSEHVLKRAGHFYIPVTDKGQATAWFILHFHLGTSRHGNPVLESGQELYLLECQRHAPASMPVLTFEVASVGELVQRLHQQGIGMEPIREDALFGKLLVFYDPDGNKYHAIGPN	PGPT0014960_1402	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_01109	447			hypothetical protein	ATGACGATAGACAACCCATTAAACGAAGCACCCAAGCTCCAATCCTTGAACAAGCCGTTGCTAAAGAAGGTTCATTGCAATTATCTCCCGGTAAGGAATCTTCCGCTGTCGGTAAAATGGTACTCGGAGCTATTTGGCCTTACTGTGAGAAAATGCGACGATACAGGCGCCATCTTGATCTTAGGGGACGGACAGTGGTTATTCCTGCTGGAAACACTGGATAACCGAACAGCCAACTTCATAACCAACCAATGGGAAGGGGAGAATTATGAAATGTTCTCGTTAACCTTTGAAGTCGAGAATATCACGGAGCTGCATAAGCGGCTGCGGGAAAATGGAGCACAGGTCGAGCCGCTGGTAGATCACGGCTCCTGCGGATTGCAGTTCAAATTCAAGGATCCCGACGGCAACAAGTTTAATGTTTGGCAGGATGCACCCACGAGCTGA	MTIDNPLNEAPKLQSLNKPLLKKVHCNYLPVRNLPLSVKWYSELFGLTVRKCDDTGAILILGDGQWLFLLETLDNRTANFITNQWEGENYEMFSLTFEVENITELHKRLRENGAQVEPLVDHGSCGLQFKFKDPDGNKFNVWQDAPTS				NA	NA	NA	NA	NA
AK002_01110	264			hypothetical protein	ATGGAATTTTACCGCTGCATGAACCATCCCGAAAGGGCAGCCGCCGCGCAGTGCACGCGCTGCGGGAAGCCGGTGTGCGACGAATGCCATAATCCGGAGACGGGCCGCTGCCGCTACCGCTGCGGCGAAATGCCCCCTGCTCCCGGCATGCCCGGACGGTCCAGGAACATATGGGTGACCGTGATCGTCTCCATACTAGCCATTTTGGGCGGGCTTACGCTGCTGCTGCTCGCGATTTGCGGAACGATCCTGTTTTCCTATTAA	MEFYRCMNHPERAAAAQCTRCGKPVCDECHNPETGRCRYRCGEMPPAPGMPGRSRNIWVTVIVSILAILGGLTLLLLAICGTILFSY				NA	NA	NA	NA	NA
AK002_01111	789	lgt_2	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGGAATTTCCTGTTTATTTGTACCTGGGCTCCTGGCGGATTCATCCGCATGTGTTATTTGAATCGCTGGCCTACTTTATCGGCTTTCGGGTGTATTTATGGACCCGCCGGCCGAGCGGCATGACAAAGCTGATGAGCCTGCAGCTGCTGGCCGGCATCATCGCCGGGGCTGCCATTGGGGCCAAGCTGCTGTACTGGTTTGAAGATCCGGCGGCCACTTGGGAACAGCTGCGCCAATTCCATCTCCTCTGGGGTGGCAAGACGATTGTCGGCGGTCTTCTCGGCGGATTGATCGGCGTCGAGCTGACAAAACGCTGGGTGGGCTGGAAGCATTCCACGGGCGATGATTTTGTGTACCCGCTGATGCTGGGCCTGGGCCTTGGGCGAATCGGCTGTTTTCTGACCGGCCTCGACGACCACACCTACGGCACGCCGACAACCTGGTTCACGGGCGTGGATTTCGGCGACGGGATCTATCGCCACCCGACTCAGCTGTATGAGATCCTCTTCCTGATCGTGCTGGCCCTGCTGCTGATGCCGCTATACCGCCAAAGCCGCGGCAGATCGACTCGCGAGGGCTATGTGTCCGGGCGGATGTTCCAATGGTTCATGGCCGGGTATCTGCTGTTCCGCCTGGCGATCGAATGGATCAAGCCGACGCCGCATCCTTACCTGGGATTGAACAATATCCAGCTGGCCTGCATCGCGGGCCTCATCTATTACGCATGGCTGATCGGCGGCAGAAACCGGATTCGCCGCTTCACGCCGGGTTCCCGTCTTCCAAGCTGA	MEFPVYLYLGSWRIHPHVLFESLAYFIGFRVYLWTRRPSGMTKLMSLQLLAGIIAGAAIGAKLLYWFEDPAATWEQLRQFHLLWGGKTIVGGLLGGLIGVELTKRWVGWKHSTGDDFVYPLMLGLGLGRIGCFLTGLDDHTYGTPTTWFTGVDFGDGIYRHPTQLYEILFLIVLALLLMPLYRQSRGRSTREGYVSGRMFQWFMAGYLLFRLAIEWIKPTPHPYLGLNNIQLACIAGLIYYAWLIGGRNRIRRFTPGSRLPS				NA	NA	NA	NA	NA
AK002_01112	1416	moaA_2		GTP 3',8-cyclase	ATGCCAAAAAACCGGCCTTATCTGTATCATGAACTGACGAACAGCATATGCACCACCTGTTATCGCAAAGTGGAAGCCAAGATCATCGAGGAGAACGGCATGGTGTATATGCTCAAAAGATGCCTCGTGCACGGTCCGGAAAAAGTGCTGATCGCAACCGAGGCCGAGTATTATCATCAGACGCGAAAGTTCATCAAGCCGTCCGAAATGCCGCTCGTCTGGAATACGCCGATCCGTTACGGCTGCCCTTACGACTGCGGACTGTGTCCGGACCATGAGCAGCACAGCTGCCTCACGCTGCTGGAGATTACGGATCACTGCAATCTGCAGTGCCCGATCTGCTTCGCCGAATCGTCGCCGCACCGCACCTCCTACCGGTCGCTGGCACAGATCGAATTCATGCTCGACCGGATCGTGGAGAACGAGGGGGAGCCCGACATCGTGCAGATCAGCGGCGGCGAGCCGACGACGCACCCGGATTTCTTCGACATCCTGGATATGTGCAAAAGCCGTCCCATCAAGCATATCATGGTGAACACGAACGGCATCCGCATCGCCCAGGACCGCGATTTTGCGCGGAGGCTGGCCGAGTATATGCCCGGCTTCGAGATTTACCTGCAGTTCGACAGCTTTGAGGAACATGTGCTGAAGGAGCTGAGAGGGGCGGACCTGCGGCGCATCCGCCGGCAGGCCATCGAGCACCTGAATGAATTCAACATCTCCACGACGCTGGTCGTCACGCTGAAGAAAGGGCTCAATGACGGCGAAATCGGCGACATCATTCAGTATGGGCTTCAGCAAAAGGCGGTCCGCGGCGTCACCATTCAGCCGATTCAGGCGGCGGGACGGCTGGAGGGGTATGATCCGGCAACCGATCGGCTGACCGTAAGCGAAGTCCGGCGGATGATCATCGACCAGTCCGAAGTGTTTACGGACGCGGACATTCTGCCGGTGCCCTGCCACCCGGATTGCCTCGCCATGGGTTATGCGTTGAAGCTGGGCGGGGAAGTGCTCCCGCTGACGCGGATGATCGACCCGGAAATCCTGCTTGAAGGCGACAGCAACACGATTGTATTCGAACAGGACCCGGTCATCCGGGGAAAAATGTTTGAGCTGCTGTCGACGGGCCACTCGCCGCAATCCTCGGCGATTTCCCTGAAGAGCCTGCTCTGCTGCCTGCCGCTGGCCGCCGTGCCGGAGCAGATTACGTACGACAACGTCTTCCGGGTCATTATCATGCAGTTCCTGGATGCCCATAACTTCGATGTCCGGTCCGTCAAGAAATCCTGCGTGCATATCGTGCATCCCGACGGGCGGATGATCCCGTTCGACACCTATAACATGTTTTACCGGGATGACAAGGAAGAGCTGCTGAAGGAACTGAAGGAAGAGGTTGCCACCGCATGGGACAGATAA	MPKNRPYLYHELTNSICTTCYRKVEAKIIEENGMVYMLKRCLVHGPEKVLIATEAEYYHQTRKFIKPSEMPLVWNTPIRYGCPYDCGLCPDHEQHSCLTLLEITDHCNLQCPICFAESSPHRTSYRSLAQIEFMLDRIVENEGEPDIVQISGGEPTTHPDFFDILDMCKSRPIKHIMVNTNGIRIAQDRDFARRLAEYMPGFEIYLQFDSFEEHVLKELRGADLRRIRRQAIEHLNEFNISTTLVVTLKKGLNDGEIGDIIQYGLQQKAVRGVTIQPIQAAGRLEGYDPATDRLTVSEVRRMIIDQSEVFTDADILPVPCHPDCLAMGYALKLGGEVLPLTRMIDPEILLEGDSNTIVFEQDPVIRGKMFELLSTGHSPQSSAISLKSLLCCLPLAAVPEQITYDNVFRVIIMQFLDAHNFDVRSVKKSCVHIVHPDGRMIPFDTYNMFYRDDKEELLKELKEEVATAWDR				NA	NA	NA	NA	NA
AK002_01113	1134			hypothetical protein	GTGCAGAACAATAGCCCTGAACCTGAGAAGGTGTCTCCATTTCTATTGGATCAGAACATGAAGATCGATCACGCCGAAGCGGACGAATTGTTATGGTATTCCCCATTGGAAGAGCCATTCCGAGTATCCGGCTTTGCCTGGTTCGACACCGAACGTATCTATCGCAGGCTGCCAGCCGTACCTGAGGTCCCCGTCCGACCGGAGGTGGATACGCTTGCGAACTGCACATCGGGCGGTCAAATCCGCTTCCGAACGGATTCGCGGAACGTATCCGTCCGCGTGCGGTTGACGGCAGGCTCCGGCATGTACCATATGCCCCCCACCGGGGAGTGCGGAGTGGATGCGTATATCGGCGGCCCGGGCGAGTGGAAACATGCAGGAACCGCCCGTTTCCAGCCAGGTCAGGCAGAGTATGAGAGCAGCCTTTTCACTGTCGAGGACCGCAAAGCACGCTCGTTCCTGCTCAACATGCCTTTATACCAGGGCGTTGAGGAGATATGGATCGGAATGGAGCCGGGAGCCGAGGTCCTTGCGCCGGAGCCCTATGATTCCAGCGCGAGAGTGGTGATATACGGAACCTCCATCACGCAAGGCGGATGCGCGTCGCGGCCCGGCATGTCGTACACGAATATCTTAAGCCGCAGGCTCCATCTGGAGTTTGTCAACCTGGGCTTCTCGGGGAACGGCAAGGGAGAGCCGGAGCTTGCCGAACTGGCCGCCCAAATCTCGGAGCCGGCCTGTCTCGTGATTGATTATGAGGCGAATTGCGGAGGGACCGAAGCTTATCGTCAGACCTTGCCGCGGTATATCGAGACCTACCGGAGGTTCCATCCCGAGGTTCCCATCATCCTGGTATCCCGCATCCCTCATGGAGCCGAGTCGTTCATGCCGGAGTTTCGCGAAGGACGGCTTGAACGGAAAAAGTTTCAGATGGAGCTCGTTCGGGAACTGACTGAGGCTGGAGACCATAACCTAACGTTTGTGGACGGATCGGATTGGTTAGGCGACGATCCCGGGGAAACGACCGTTGACGGGGTTCATCCGACGGACCTCGGCTTCAAGCTGATGGCGGACCGGCTTGAGCCTGTACTAAGGCAAGTGATTGGCGAAACCGCTGCAGCAGCAAGGGGATAG	MQNNSPEPEKVSPFLLDQNMKIDHAEADELLWYSPLEEPFRVSGFAWFDTERIYRRLPAVPEVPVRPEVDTLANCTSGGQIRFRTDSRNVSVRVRLTAGSGMYHMPPTGECGVDAYIGGPGEWKHAGTARFQPGQAEYESSLFTVEDRKARSFLLNMPLYQGVEEIWIGMEPGAEVLAPEPYDSSARVVIYGTSITQGGCASRPGMSYTNILSRRLHLEFVNLGFSGNGKGEPELAELAAQISEPACLVIDYEANCGGTEAYRQTLPRYIETYRRFHPEVPIILVSRIPHGAESFMPEFREGRLERKKFQMELVRELTEAGDHNLTFVDGSDWLGDDPGETTVDGVHPTDLGFKLMADRLEPVLRQVIGETAAAARG				NA	NA	NA	NA	NA
AK002_01114	1059	exuR_2	COG1609	putative HTH-type transcriptional repressor ExuR	ATGGCAGGGAAAGTCACGATGCAGCAAATTGCCGATCATCTCGGCCTTTCGAAGTTCGCTGTTTCTAAAGCGCTTTCAGGTAAATCCGGCGTCAGTCTCGAGACCCGGGAGAAAATTGTGAACGTCGCGACCCAGCTCGGTTATTTTGCCAACAAGTCGCCGAAGGCCGGAGGCAAGAAGAACGAAGCCAACGCCGACGGCAGCCAAGCCGCCAAGGAGACTGTCATCGTGCTCGTGCCGAATGTCCGCTACCAAACGCGGGATTCCCTGTATTGGGGACGGATTATCGACGGCATCACGAATGAGCTTGAGGCAAGGGACACGGGGATGGTCATCGTGACCGATCAGTTCAAGGACAGCTTCGCGAATTTGATTAACCCGAGCGGGGTGAGAGGCATCATCGGCGTCGGATTTATCTCCTCGCAGCTGCTGCTCGAAATCCGCAGCCTGGATATTCCCTTCGTCTTGATCGATCATGAGGATCCGCTGATACCGTCGGATGCCCTGTTCATGAACAATGTGGAGTGCATGAGACGGGTGACCAATTATTTGATCGGGTGCGGGCATCGAAGGCTTCAGTTCGTGGGGAACGTCCGGTTCTCGCGCAGCTTCGCCGATCGTTATCAAGGCTATCGTTCCGTCCTCGGCGAGCAGGGGATCCTGCTGGATCAGAACGAGGAGCTCCTCAGCTTCGAAGGAGATAACCGCTCCGAGATGACGGAGTCGCTCGAGACGATACTAAGCCGGATGGAGGAACTGCCAACCGCCTTTGTGTGCGCGAACGACTCCATTGCCATCTGTATCATGACGGTGCTCGGCAAGCTGGGCGCCAAGGTGCCGGCAGACTGCTCGGTTACCGGCTTTGACAATATTGAGGATGCCGCTTATGCGGCTCCGTCACTGAGCACCATCCACGTCAACAAGGAGGCGTTCGGACGCAGGGCGGTGGAGATGCTGGCGAGACGGGTGGAGCAGCCGGACAGCCCGCTGGAAAAAATACTGCTGGCCGGCGACTTCATCCTCCGCGAATCCACCGCTTATGCCAAGAAGGTCGACTGA	MAGKVTMQQIADHLGLSKFAVSKALSGKSGVSLETREKIVNVATQLGYFANKSPKAGGKKNEANADGSQAAKETVIVLVPNVRYQTRDSLYWGRIIDGITNELEARDTGMVIVTDQFKDSFANLINPSGVRGIIGVGFISSQLLLEIRSLDIPFVLIDHEDPLIPSDALFMNNVECMRRVTNYLIGCGHRRLQFVGNVRFSRSFADRYQGYRSVLGEQGILLDQNEELLSFEGDNRSEMTESLETILSRMEELPTAFVCANDSIAICIMTVLGKLGAKVPADCSVTGFDNIEDAAYAAPSLSTIHVNKEAFGRRAVEMLARRVEQPDSPLEKILLAGDFILRESTAYAKKVD	PGPT0017992_1513	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
AK002_01115	1878			hypothetical protein	GTGAACCTGCGCGGCTACATTACCCGTCTATGGAAGGAGCGGCCGGCCGGACGCTTGGACCGCAAGCTGTTTGTGGTCTTTCTGTTTCTGATCATCCTGCCGATCGGACTCATCACGTATTTTGCGGCAGAGCGTTATACGGCCACCATCGAGAACAATACGGTCGCCTACGTGTCCCAGCTGTCGAGCAAAATGATGGGCAAGCTGGATGATTACGTGACCGATATGATGAAAATATCGATCATTCCTTCGTACCTTAATGAAATTCAGTCAGGACTCGAGATGTCCAATCGGCATTACCAGGCGGAAGGGCAGCCGAAGGAATCGGCAAGCCAGAACGAGAGTGAGCTGAAGCTCCAGATTACGCGCAAGGTCGAGCGGAGCATCTATTTCATGAACAACATCAAAGAAGGCACAAGCAACGTGTACCTGTTCGACCTTTTCGGCAACCCCTATTACGTGGTCAAAAGCGGCGGCAACCGCTCGAATCTGCAGCAGTACTATGACAACTGGCGCAAGCTGGCCACGGAGGCCGGCGGCCGGCCCGTACTGGTCAGCACGCAGGAGATCGCCGTGTCCGCCGGCAGCAAGCAGTACATGTTCACGGTCGTTCGCGACATCATCGATAAATCGTACCATTCCATCGGCACCATTGTGGTGGATGCCAACATCGGCGTGATCGAGAACATCGTCACCGACCTGGAGGAGACGACGCACGGCACCACCTTCATCCTGGATGACAACGGGACCGTGATCTATGACAGCGAGAAGAAATATTTGTCCCGCAGCATGACCGACAATGCGGCGCTTGCCCAGGCCACCGGCAACGAAGGAAGCTTTCGCCATAAGGTCGACGGGGAGGAGCAACTTGTCGTTTACCGGAAATCCGAGCAGACCGGCTGGCTGATCCTGATTACGGTGCCGGAGCGGCAGCTGATGCAGGATGCGCTGAAGACCCGGAAGATTACGATCGCGGCGGCTGTCGGCGTTACCAGCTTTGCCCTCATCATTTCATTGATTCTGATCTATGCGCTGACAAGGCCGCTGCGGTCCATCGTTCATTTGATGAAGCAGGTGCAGACCGGCAAGCTGGATGTGGTGTTCCCGGTCCGAAGGCGGGACGAAGCCTCGCTGATCGGGGTCTCGTTCAACCGGATGATGGCACGCATCAAACAGCTCATCGACGATATCTACACCGCCGAGAAGCGGAAAAAGGAGGCGGAGCTGGAGCGGCTTCAACACCAGATCAATCCGCATTTTATTTACAATACGCTGGAAACGATCCGGATGACGGCCGTTCTTCATAACGACCAAGAGGTGGGAGATATGGTGCAGCTGCTGGGACAGCAGCTGCGCTACAGCATTCATGCCGGCAGCGAGGTCGTGGAGGTGAAGCACGAGTGGGAGCATGTCAAAGCCTACATCGAGCTGCTGAATTACCGGTACGGCGAGCGGTTCGTGCTGACGCTGCCGGATGATCCGGGGGCTGATTCCATTCGGGTAATGAAGCTGCTGTTTCAGCCGATCATCGAGAACGCCGTCAATCACGGCTTCGACGAGAACAAATCCTTGCTGCATCTGACCATTACCTATGCCATGGATGGCATGAATCATGTGTTTACCGTTACGGATGACGGGCTGGGCATGTCGGCAGAAGCGCTTGCGAGGCTGCGCAGCATGCTGGATCAGGCGCAGCCCCAAGGACCGGACGGCCGGGGAGTCGGGCTGCGAAACGTGCACGAGCGGCTGCAGCTCCGATATGGAAGACCCTACGGCCTTGCCGTAGAAAGCGAGGAAGGGCGAGGAACTGCCGTTCGGATTACCTTTCCCGCGGAACATATAGAAGAACCGAGAACAGGAGGACTTGCAAATGCTTAA	MNLRGYITRLWKERPAGRLDRKLFVVFLFLIILPIGLITYFAAERYTATIENNTVAYVSQLSSKMMGKLDDYVTDMMKISIIPSYLNEIQSGLEMSNRHYQAEGQPKESASQNESELKLQITRKVERSIYFMNNIKEGTSNVYLFDLFGNPYYVVKSGGNRSNLQQYYDNWRKLATEAGGRPVLVSTQEIAVSAGSKQYMFTVVRDIIDKSYHSIGTIVVDANIGVIENIVTDLEETTHGTTFILDDNGTVIYDSEKKYLSRSMTDNAALAQATGNEGSFRHKVDGEEQLVVYRKSEQTGWLILITVPERQLMQDALKTRKITIAAAVGVTSFALIISLILIYALTRPLRSIVHLMKQVQTGKLDVVFPVRRRDEASLIGVSFNRMMARIKQLIDDIYTAEKRKKEAELERLQHQINPHFIYNTLETIRMTAVLHNDQEVGDMVQLLGQQLRYSIHAGSEVVEVKHEWEHVKAYIELLNYRYGERFVLTLPDDPGADSIRVMKLLFQPIIENAVNHGFDENKSLLHLTITYAMDGMNHVFTVTDDGLGMSAEALARLRSMLDQAQPQGPDGRGVGLRNVHERLQLRYGRPYGLAVESEEGRGTAVRITFPAEHIEEPRTGGLANA				NA	NA	NA	NA	NA
AK002_01116	1506	rssB_9		Regulator of RpoS	ATGCTTAACATCGCCGTGGTGGACGATGAGGAACGGATCAGGCTGGGGCTTGGCAAGCTGATACGGGACGCAGGCGAGCAATATCGGGTCGTGGGGACGTTTGCAAGCGGCCAGGAGCTGCTGGATCAATGGCATGAGCTCCAGCCCGACCTGGTCATTACCGATATCAAAATGCCGCAAATGAACGGGCTCCAGCTGATGGCGAATATCAAGCAGATGGCCTCCCGTACCAAATTCGCCGTGCTCAGCGGTTACAACGATTTCGAGTACGCCCGCACCGCCATGCGTCAGGGAGCGCTGGAATATTTGCTTAAGCCGGTCAACATGAAAGAGCTGCTTCGCATGCTGGAGAACGTCGACGAGCTGGTGAAGGGCGAGCAGAACGAGCGCAAGCTGGAGTCGGACGATCTGGTCAGCTTCCTGTTAGGCACGGATCAGCGAACCATGCCAGAGCATCTGTTCGAAGAAGTCTGCGACCGGCTGGATCAGCAGGCGCTGTTCCACGGACATTACGCGGTGCTCCTGCTTCGCACGTTCCCGGAGATCGCGGAAGAGAAGCTGCTGGCGTGGACGTTGGTCTGGGGGACGGAGCGGAGAATCATCGGCTGCGAAGGAGGAAGGCAGGCGATCTTGGCGTCCATCGCGGAGTCGGGCCATGCGGATATGGCGAGAGAATGGGCGGCCATGCTGCTGCAGCAGCTTCCCGCGGGCACTTCGGCGAAGCTGGGCATCAGCGGCGTATTCAGCGGGAGCCGCTGGCTCCCGCAAGCCTATAGGGAAGCCGCGAGCGTCCTGGAGCAGGCTTGGTACAGCGATGAACGGCGCAACTGCGGAGGCGAAGGCATACCGGCGGTTCACCGGGAAGAACGCTACCGGCTTGTCCGTTCCTTGGATAAACAGCTGCTTCCGGCGCTGCGTGCAGGCGAGTATGCACGTTTGCCGGCGGCGATGGGCACTTGGCTGGAAGAGACGGCTTCCCTGCGGCCCGGCTGGGCCGAATTAAGGGAGGCTTGCCTGACCCTGGAGTCGCATATGGCGGAAGAGATGAAGCAGCGCGGCATTGACGCAGGGGATGCAGATTGGAACCTGGAGCCGGGGGACAGCGAGAATTGGCGTTCGTTCGCGGCCCGGCTGAGGCGCGCTGTGGAGGCTGCCGCCGGTCTCCTGGATCAAGGGAAGAACGAGCATAGGGCTGTCGAGACGATCAAAGCCTATATTCAGCAGCATTACACCGAGGAGCTGGAGCTTCAGCACCTCGCCGACCTGGTCTATTTGACTCCGAGCTACTTGAGCAAGCTGTTCAAGACCGAAACGGGCGAGACGATTACGGACTATTGCATCGCCGTGCGAATCGAGCATGCCAAGCGGCTGCTGAAGGAGGATCACGGGCTCAAGACGTATATGGTCGGCGAACGCGTGGGCTACCCGGACCCGGCTTATTTTAATAAAGTATTCAAAAAAATGACCGGAAAAACGCCAAAGGAGTACCGCGATTTTGTTAGGTGA	MLNIAVVDDEERIRLGLGKLIRDAGEQYRVVGTFASGQELLDQWHELQPDLVITDIKMPQMNGLQLMANIKQMASRTKFAVLSGYNDFEYARTAMRQGALEYLLKPVNMKELLRMLENVDELVKGEQNERKLESDDLVSFLLGTDQRTMPEHLFEEVCDRLDQQALFHGHYAVLLLRTFPEIAEEKLLAWTLVWGTERRIIGCEGGRQAILASIAESGHADMAREWAAMLLQQLPAGTSAKLGISGVFSGSRWLPQAYREAASVLEQAWYSDERRNCGGEGIPAVHREERYRLVRSLDKQLLPALRAGEYARLPAAMGTWLEETASLRPGWAELREACLTLESHMAEEMKQRGIDAGDADWNLEPGDSENWRSFAARLRRAVEAAAGLLDQGKNEHRAVETIKAYIQQHYTEELELQHLADLVYLTPSYLSKLFKTETGETITDYCIAVRIEHAKRLLKEDHGLKTYMVGERVGYPDPAYFNKVFKKMTGKTPKEYRDFVR				NA	NA	NA	NA	NA
AK002_01117	885	ngcF_2	COG1175	Diacetylchitobiose uptake system permease protein NgcF	GTGTTCAATTTCAGTTATAAAACGCAGCGCTATCTTATTCTGTTCGGTTTCCTTGCCATTCCCGTGCTCCTGTCACTGACCTTCTCTTATTATCCGGCGCTCTCGCTGTTGTATTACAGCTTGACGGACTGGTCGGGTCTCGGCTGGGATATGAACTTTATCGGCTTTGACAATTACGTCGAGATTTTTACGAAGCCCGAAGTGTTCAGCTCACTCAAGAACAATCTGTATTATCTGATCGGGGGTCTCATCCAGGTCGTCTTTGCCCTCTATTTTGCCGTTATTCTGACGGGCAAGCTAAAGGGGAGAAACGGCTTCCGGGTCGCTTTGTTCCTGCCGTACGTGCTGCACAGCGTGGCTACGGTCATCATGTTCAAGAACGTGTACCACATGGAATACGGCTCGCTGAATACGCTGCTCGGCGCGCTTGGACTCGAATCCTGGCAGCAGAGCTGGCTGGGCGACAAAGGGATCGTGAATTTTGCGCTGGCCTTCATCTCGATGTGGAAGTACATGGGGCTGAACATGGTCATCTTTATCGGGGCCCTGCAGTCGATACCGGGCGACCTGTACGAAGCGGCATCCATCGACGGGGCATCGGGCTGGCAGAAGTTCCGTTACATCACCTTGCCTAGCATCCGGGGCGTGCTGGAGCTGATGCTGATCCTCACCTTGACGGGCGCGCTCGAAGCGTTCGATATTCCGTTTGTGATGCTGCTCGGGGCGAACGATACGTCGACCTTCGTCATCAAAACGGTGGATACGGCATTCAAGTATCAGAACTTCGGGCTGGCCTCGGCGATGGCGGTCGTGCTGCTGATCATCGTGCTGCTGTTCATCGTCATCCAACGGAAGCTGCTGTTCAGGGAGGAGAAGCAATCATGA	MFNFSYKTQRYLILFGFLAIPVLLSLTFSYYPALSLLYYSLTDWSGLGWDMNFIGFDNYVEIFTKPEVFSSLKNNLYYLIGGLIQVVFALYFAVILTGKLKGRNGFRVALFLPYVLHSVATVIMFKNVYHMEYGSLNTLLGALGLESWQQSWLGDKGIVNFALAFISMWKYMGLNMVIFIGALQSIPGDLYEAASIDGASGWQKFRYITLPSIRGVLELMLILTLTGALEAFDIPFVMLLGANDTSTFVIKTVDTAFKYQNFGLASAMAVVLLIIVLLFIVIQRKLLFREEKQS	PGPT0016335_1616	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_01118	831	melC_7	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGAAAAGGGAAGGCTCGATCGGCTTTAGGATTTTCAATTATTTCACGTTGGTTGTCGCTTTGTTCGTGGTGTTCTTCCCGATTTACTCGATCTTCGTGGGGGCGTTCAAGACCCAGGTGGAGTATTATCAATCCGGCCTCAGCTTGCCTGACAATTTCTTTAACTTCGAGAACTTCAAGCGGGTGATCGACATCGGGGATTTGGGGCTCGGATTTCGCAATATCCTGATCATATTGGTCATTTCGGTAGTCGGCAACATCCTGTTCGGTACCATGGTCGCTTATGCCGTCGGAAGGTTCGAATTCAAGATGAAAAAAGCGATCATGGGCATGTACCTGGTCGCTCAGGTCATTCCGATGGTCACGACGCAGGTGGCTACCTTCAGCGTCATCCAGAGCCTGGGGGCCTACAACACGATGCTTGCGCCGATTCTGCTGTACTTGGGAGCCGACGTGCTCCAGATCGTCATCTATCTGCAATTCGTGAACAGCATCCCGCGGGATCTGGATGAGAGCGCCATGCTGGAAGGGGCGTCCCTGTTCAAAATCTACCGTTCCATCATCTTCCCGCTGCTTGCGCCGGCTACGGCGACCCTGGTCATTCTGAAAAGCATTTCGATTTACAACGATTTTTACACGCCGTACCTGTATATGCCGAGCCAAGACCTGAAGGTGGTATCCACCGCGATTTATTCCTTCATCGGTCCGAATGCGGCGCAGCTGAACGTGATTTCGGCAGGCATTCTCATTATTTTCATTCCGACGGTCGTGTTGTTCTTGTTCATGCAGCGGTACATTTTTGCGGGGGTTACGAACGGAGCGGTTAAATAA	MKREGSIGFRIFNYFTLVVALFVVFFPIYSIFVGAFKTQVEYYQSGLSLPDNFFNFENFKRVIDIGDLGLGFRNILIILVISVVGNILFGTMVAYAVGRFEFKMKKAIMGMYLVAQVIPMVTTQVATFSVIQSLGAYNTMLAPILLYLGADVLQIVIYLQFVNSIPRDLDESAMLEGASLFKIYRSIIFPLLAPATATLVILKSISIYNDFYTPYLYMPSQDLKVVSTAIYSFIGPNAAQLNVISAGILIIFIPTVVLFLFMQRYIFAGVTNGAVK	PGPT0016340_1572	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_01119	957			hypothetical protein	ATGAACTCGACAAACAAGTGGACGGAAAAAGTATGCGGCATGACCTGGGGGTGGACCGGCGTACGGGGCTCCTGGACGGGACCCGAGGCGGAATTCTCCATGGAACGCATGGCGGACATGGACGTGAATTGGGTGGCCATCGCGCTGTCGGCCGTGCAGGCAACGCCGCAGTCGACGGAAATCCCGTTCCGGGAAGAACCGACGGTGACGGACGATGAGGTGCGATGGGCTATCCGCAAGGCGAAGAGCCTGGGCCTCAAGGTGTGCTTGAAGCCGGTCGTGAACGTCGCGAACGGAACGTGGCGGGCCCATATTAACTTCTTCGACGAAGAGGTTCCAGGTGAGCCGAGCTGGGCGGAATGGTTCCGCTCCTATGGGGAGTTCATTCGCCATTATGCCGAAATCGCGGAGGAAGAGCGATGCGAGATGCTGTGCGTGGGCTGCGAGATGGTGCAGGCCGATAAGCGGGACGCGGAGTGGCGGGCCCTGATTGCGGATGTACGAAACGTCTACGGCGGGCTGGTGACGTATAATTGCGATAAATATCAGGAGGAGCGCGTGGGCTGGTGGGATGAGGTAGATATCATCTCCTCCAGCGGCTATTATCCGATCGACCAGTGGGAGGAGCAATTGGATCGGATCGAAGGCACGGTCCGCCGATGGAACAAGCCGTTCTTCTTCATGGAAGCCGGCTGTCCGAGCCGCGAGGGCTCCGCGGTCCGCCCGAACGATTGGTCGCTGCCCGGCGGCCCGTCGGAGGAGGAGCAGCGGCAGTATTATGAAGCGATGTTCGCTGCTTGCGCCAAGCGGGAGTGGATGCAGGGGTACATGCTGTGGGATTGGCCGGCGCGGCTGTATGGCGTGGAGGAAGCGTCCCTGAACGATGATTATTGCATGTACGGCAAGTTGGCCGAGGAGACGGTGAAGACATTTTATGCGGCCGGCATCCGGGTTTAA	MNSTNKWTEKVCGMTWGWTGVRGSWTGPEAEFSMERMADMDVNWVAIALSAVQATPQSTEIPFREEPTVTDDEVRWAIRKAKSLGLKVCLKPVVNVANGTWRAHINFFDEEVPGEPSWAEWFRSYGEFIRHYAEIAEEERCEMLCVGCEMVQADKRDAEWRALIADVRNVYGGLVTYNCDKYQEERVGWWDEVDIISSSGYYPIDQWEEQLDRIEGTVRRWNKPFFFMEAGCPSREGSAVRPNDWSLPGGPSEEEQRQYYEAMFAACAKREWMQGYMLWDWPARLYGVEEASLNDDYCMYGKLAEETVKTFYAAGIRV				NA	NA	NA	NA	NA
AK002_01120	1317			hypothetical protein	ATGAAAAAAAGATTTACGATGGCATTGCTTCTGCTCTTAACCGTATCATCCATTTTGGCCGCCTGCGGAGGAAATAAAACGAATAACGCAGGCACCGAGGCACCGCCGAGCGGCAACGCCGGCAGCGAGCCGACCGAGGCATCCGGCGAAGCGGAGCTGGGCGGCAAGCTGAAGGTGCTGACGCACCGCACCGACCTGGTAAACGACGGCACGCTGGACAAATACGTGGAAGCCTTCAAAGCAAAATATCCGAAGGCGGAGATTGAATTTGAAGGCTTGACCAACTATGCGACGGACATTCAGGTCCGTCTGACCACGGGCGAGGCCGGCGACGTGCTGATGATTCCGACTGGCCTTGCCACCTCGGAGTACGGCAAGTACTTTGAGCCATTGCCGGATACGATGTTCGAGGACGTTTATTTTGCGGACAATACCCTCTTCGAAGGGAAACGCTATGGAATCTCCACCGGCGTCAATACGCAAGGCATTGTATACAACAAGAAGGCGTTCCAGGCTGCAGGCGTCGACAAAGTGCCGACCACGCTGGATGAGCTGTACGCAGCCGCAGAGAAGCTGAAAGCGGCGGACATCATTCCGCTGTACATGAACTTCGGAGCCCAATGGACGATGGGCAACTGGGCGGATAACTCCGCATGGTACGTGAACGGGGATCCGCAGTTCGCCTCGAAGCAGGTCGCCGAGGAAGCGCCGTTCCAGGTGGATAATGCATGGGGCATCCTTGCGAATATCGGACGCACCTTCGTGCAAAAGGAATGGGTAGAGAAAGACTTGTACACAAACAACTGGGAGATTTCGAAAGGCGAAATGGCTTCCGGCAAAGCCGCGATGTACTTCCTGGGCAACTGGGTGATTCCGCAGGTGATCGGCGCCGGCGCGGCTTCGGAGGACATCGGCTTCTTCCCGCTCCCGTACGATAATAGCGGCAAGTACAACGCGCCGCTCGGTTCGGATTACTTCATCGCCGTCAGCAAAGACAGCAAGAACAAAGAGCTTGCTACCGCGTGGGTTGATTTCTTCGTGAAGGAATCCGGATACGTGGAAGATTCCGGCTTCATGCCGATCATCAAATCGGCGGAGTCCTCCATCTCGCAGCTCGCCGAATTCCAATCGTTCAATCCGACGCTGATCGAGAGCGAAGCGACCGATCCGAAGTTTAACGAGATCGCGAATAAGGCGCAGATTGGCATCGGTACCGGCGATTACGTCCAGGAATATATCGTGGCCGACGATCTGCAGGCTGCGTTCGACAAGCTGAACGCGAAGTGGAAGGAAGCCAAAACCGCACTGGGCTATTAA	MKKRFTMALLLLLTVSSILAACGGNKTNNAGTEAPPSGNAGSEPTEASGEAELGGKLKVLTHRTDLVNDGTLDKYVEAFKAKYPKAEIEFEGLTNYATDIQVRLTTGEAGDVLMIPTGLATSEYGKYFEPLPDTMFEDVYFADNTLFEGKRYGISTGVNTQGIVYNKKAFQAAGVDKVPTTLDELYAAAEKLKAADIIPLYMNFGAQWTMGNWADNSAWYVNGDPQFASKQVAEEAPFQVDNAWGILANIGRTFVQKEWVEKDLYTNNWEISKGEMASGKAAMYFLGNWVIPQVIGAGAASEDIGFFPLPYDNSGKYNAPLGSDYFIAVSKDSKNKELATAWVDFFVKESGYVEDSGFMPIIKSAESSISQLAEFQSFNPTLIESEATDPKFNEIANKAQIGIGTGDYVQEYIVADDLQAAFDKLNAKWKEAKTALGY	PGPT0016330_1239	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_01121	2598	malT_1		HTH-type transcriptional regulator MalT	ATGGGAGAAGGGACTGTTATTCTAAGAACTAAATTGCAGCCGCCAGCATTACGGGATTCATGGATCAGCCGTTCTGTATGGGATGAGAGGGAGAATCAGGGCAGCGGGTATCGGATCATCACGATTGTAGCCCCTGCCGGCAGCGGAAAGACCACCGCATTGGTCCAGTATATGCACCATGAAGGGCAGCACGGACCGGCATCTTGGTTAACTTTGGATGAGCAGGATAACGATTTGCGGAGATTTTGGCGCTATATGATCCATTCGCTCTTGCCCTACTTACCTTCCGGGATCGAAAATCGCCTGCTGCCCCTGCTGGTTCCTTATTCAGGTCTAGTGATTTATTCTTTCTTGGATCAATTTATTATGGAGATGCATGGCATCTCTCTGTCTATAAACGTGGTATTGGACGATTATCATTCGATTACCCATCAGGAAATTCATGAAAGTCTGAATTATTGGATCGAGCATTTGCCCGATTCTGTCAGGGTGTTCATCGCTTCGCGCGCGGAGCTGCCCCTCAAGGGGATGGGGAGATGGCTGTTAAGCGGAAGATTGCAGCGGATAGGAGCGCAGGAGCTAGCATTCAACGAGGAGGATGCGGGCTCTCTGTGCCAACAGACACTGGGGCGTTCCCTCGCCCCTGAGAAGCTGAATAGCTTGGTTCGACGTACAGAAGGATGGGCAGCCGGACTCCAATTAGCACTTATTGCGCAGCGGCAGAACGAAGCTGCTGGCATACCGGGCTCTGATGCTTTTATCCAAAGTAACAGGCAGTTGAGTGATTACTTGAGTCATGAAGTCATGCGCGGGCTGGACAAGCCTTTACGGCAGTTTTTGCTGGAAACCTCGGTTATGAGGCGATTTCACGCGGACATATGCGCTGCCGTCACCGAGCTGCCCCAATGTGATGGCATGCTGGAGGTGCTAAAAGCCAAAGGGCTATTTCTGATTCCCTTGGATCACCAAGAACGGTGGCATCGTTATCATCATGTGTTTGGCGATTTCCTGAGCAGCTTATTAAAGCAGCAGAACCCCGAGCGATGGATTGAGCTTAACCGGAGAGCAAGCCAGGTATATGCGCGCGAAGGATGGCATGAGGAAGCGATCGATTACGCCTTGTTGGCGGAGGAATACGAGATGGCAGCCGCTCTGGTGGATCAGCATATGATGGAGCTGATCAAGAAGGGAGAATTCGACCTTCTTCAGCTGTGGCTTAACAGGTTTCCCGAAGGAATCCGTTTGCCGGACAGATTGCTGTTTGTGAAGATCTTTGTATATTCTCTTCTAGGGAAGCGTGACCAAGCACGGGATTTGCTTGAACGATTGGAAGCAGGTTTGTATGGACTGCCAATCATGGAGCGGCAGCTAGAATGGCTGAGCGGGCTTTTTTTTGTAAAAGCCAATCTTGCTTTTAATTCCAGACAATTTGATGAATGGTTCCAGTTTGCTCAGACGATTGAACATCGACTGCCGGAGGATCCCATATTCTTTAATTTCAATTACAATAACCGGGAACCTTTTGTGCGCAATACACCGTTCGGGCTTCAAGGCGTTCTTACGAATACCACGGCACAGGTAGGCACACAAATTGTCTCGATTCTGGAACGCCATGGCTGGGAGGATTCCTTGATGTGTCAATATGTCATGCAAGCCATGGCAGAAGGCTTTTATGAGAAGAATGAGCTGGATGCATGCGTATTCTGGCTGGATCGGCTTTTAGAAGGCAGACGATACAAAGACGTTCCAGGCTTGTTCATTCCGATCCGACTGACTATGGCTAGGCTCAAACGGAAGGAAGGAAACCACCATTCGGCAAGGGCGATCGTGCAGGATGCGTTGAATATCATGGAAGCAAGAGAAGATATATTATGGTGCAGTGCCTTGCGGGCTTTTTTGGTGGAGATCGATCTTAGAGACGGAGAGTTGTCCCTGGCAGAGGCTGGCTTTCAGGAGCTAAACCTTTCGTCGATGCAGCGGATAAGCCTTGAGTATTCATTGGAAATCATGACCTGGGCGCGACTGCTCATTCATCAGCAGAGAGCCAGTCAAGCGCAAACTATGCTTGCGGCCCTCCGGATTCAAGCCGAAGAAGCTGGAAGCATTAATATTACCGCATCTGTCATCGTCCTGCAGGCCTACGCGGAATACACTCGCGGAAACGTAAAGGCAGCTACGTTGTTTCTTCAAGAGGCGCTCTCGCTTGTCATGCCGTATCGATATAAACGCACATTTATGGATGAAGGGAATTGGGTGTATCAACTACTGCAGGAGCTGAATACTAACGGTGATGCTATGAAGACAGCTCCATTGAAAGATTATATGGCTGAACTGATGGAAGAGATGAGACAGGAGAAACTGGCAAGCCTAGATCTTCTGGACCATTTCGGTACATATGGGCTAACTCCCCAAGAAACACAAGTGCTGGCCCTGCTTCGCCGGGGGGATACCAACCAGTCCATTGCCGATGAACTAGGACTCACGGTGGGGACCGTGAAGGTGTACTTGAACCGGATTTACAGTAAGTTAGGTGTCAGCTCAAGAGTACAGGCGGTACTGAAAACCTTCTCGGGATCTGAAATGGAACGTTCGAAATAG	MGEGTVILRTKLQPPALRDSWISRSVWDERENQGSGYRIITIVAPAGSGKTTALVQYMHHEGQHGPASWLTLDEQDNDLRRFWRYMIHSLLPYLPSGIENRLLPLLVPYSGLVIYSFLDQFIMEMHGISLSINVVLDDYHSITHQEIHESLNYWIEHLPDSVRVFIASRAELPLKGMGRWLLSGRLQRIGAQELAFNEEDAGSLCQQTLGRSLAPEKLNSLVRRTEGWAAGLQLALIAQRQNEAAGIPGSDAFIQSNRQLSDYLSHEVMRGLDKPLRQFLLETSVMRRFHADICAAVTELPQCDGMLEVLKAKGLFLIPLDHQERWHRYHHVFGDFLSSLLKQQNPERWIELNRRASQVYAREGWHEEAIDYALLAEEYEMAAALVDQHMMELIKKGEFDLLQLWLNRFPEGIRLPDRLLFVKIFVYSLLGKRDQARDLLERLEAGLYGLPIMERQLEWLSGLFFVKANLAFNSRQFDEWFQFAQTIEHRLPEDPIFFNFNYNNREPFVRNTPFGLQGVLTNTTAQVGTQIVSILERHGWEDSLMCQYVMQAMAEGFYEKNELDACVFWLDRLLEGRRYKDVPGLFIPIRLTMARLKRKEGNHHSARAIVQDALNIMEAREDILWCSALRAFLVEIDLRDGELSLAEAGFQELNLSSMQRISLEYSLEIMTWARLLIHQQRASQAQTMLAALRIQAEEAGSINITASVIVLQAYAEYTRGNVKAATLFLQEALSLVMPYRYKRTFMDEGNWVYQLLQELNTNGDAMKTAPLKDYMAELMEEMRQEKLASLDLLDHFGTYGLTPQETQVLALLRRGDTNQSIADELGLTVGTVKVYLNRIYSKLGVSSRVQAVLKTFSGSEMERSK	PGPT0018616_1446	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
AK002_01122	3231			hypothetical protein	TTGCAACGTAAAATATGGCACATATGTCTCATCGTACTCTTGCTGGCGAGCCAGATGGGTACCACAGGGCATGCGGATACGGGAAAGGCAGGCTTACCCGGAGAGACTAACATCGTTTCGATATCCTCAAAAGGGTACCATACGTTAGCCTTGCTGGATAATGGAACGGTTTTGTCCTGGGGATCGAATATGGTGGGACAGCTGGGGAATGGGAAACAAGGTTCGAATTTCAGCACCAGCTTTGCGCAGCCAGTTTATGAGAATGTGAACGGTGAACTTAAAGTTCTCGCGAACATTGTAGCAGTCGAGGCATCACAACAATACTCGCTTGCTTTATCCGCTGACGGAACTGTATACGGCTGGGGCTTAAATGCAAGTAATGAATTGGGGCGGCCGTTCGAGGGAACCTATTATTATCCAACGGCAATCCCGATTGCAGGCCTGCCTCCGATTGAACAGATTTCTGCCGGAGTTACGCATGCCGCCGCATTGGCGAAAGACGGAACCGTGTGGGCTTGGGGAGATAATCAATCAGGTGCAGTAGGGAACGGTCGCCAAATGGAGTATGTCGAGAGACCGGTCCAGGTGAAGAAGAACGCTTCCGAATTCCTGACAGGAATTAAGCAAATTCATGCAGGAAATTGGTTTACCATGGCGGTAACGGAGAACGGGGAGCTGCTGGGCTGGGGGTATAACGGGGCCTATCAGCTGGGGGACCTCACATTAGTTAGTCACTCGTATCCCGTCCATGCGCTGGATAAGAACAAGAATCCTCTGAATGGAATCAAGAAGGTATCTACCGGTAATGATTATACCTTGGCCTTAAAAGAGGACGGAACCTTATTAAGCTGGGGGGTCAACGGTTATGGGCAGCTAGGCTCTGACACACTCCAGGGGACTTATTCAAATTATCCCAAGCCTGTATTGGACAAGGCATCTGGAGATGCTTTCGGCCATGTTGTTGATATATCGGCAGGGATTGCACACGTCGCAGCGATTCGCGAAGACGGCAGTGTGTGGACCTGGGGCGGCAATACCATTTGGGGTTCAGCGGACATTACAGGACAGCTTGGCCGTGGAGATGATCGGTTGGAGGAGCGGCCAGGGCGAGTCACCAGGCTGCCGGGTAATGCTAAAGTATTGCAAGCCGAGACCGGCGGTCATCATACGGTAATCATGCTGGATAACGGCACACTCTGGAGCATGGGGAGTAATAGAGAAAAACAGCTCGGAGGCGGCTATAAAATGGACAGCGCCATAGAGCCTACCCAACTGTCACTCAGCCATTATGACAAAGCTTACTGGCCTAAACAAGGCATCGGACCGGTTATGGGGCAGCCATACCGGTTGACTCTTCAGCTGGCCGGCCATGAAGGACAGCCGGTCAGCTTCGGTACGGACATCGTGGATATGCAAGCTGTAGGGGCGATGATAGTAGGGCCTGTAAGTTACATAGGAGAAGGGCGTTATGCGGCTGATATGCTGGCAGATTCTCCAGGGCCTGTTCAGGTAACAGCCAGGATCAATGGCCTGGAGGTTCCGGCAGCGCAAATTGTCGTACTGTCCGGAGAGCCTCACCCTGCCCATTCAGAGTTGACAGCAACGCCTTCCATGTCAGCCGTTGGCAGTGCTGATCCGATCGTATTGAGATTGCAGTTAAGGGATTCTGACGGAAATGAGCTGAACCGAAGCGGCGGTAAGGCGGCATTCACCAGCTCGCTTGGAACGGTCAGTGAACCGGTAGAAACCTCTTATGGCGTTTATGAAGCCGAGCTTCGATCCGATACAGCAGGTATAGCTAATATTGGTGTGACTTTGGATGGCAAGCCTTTTGAAGTGTCGGCCAAAGTATCGTTTAGAGCCGGGACTCCCAACAGAGCTTATTCCACATTAACGGCGAACCCGAAAATTGTGGTGGCAGATGGTAAGCAATCCACAGAGATCAAGCTTCACATCAAGGATGTCCATGGCAACGATCTGGACGATTATCTTGGCCCTATTGAGTTAACTTCTTCTTTGGGGCAGATGACCACGGTGACAGAGTCGGCCTATGGCGTCTATGAGAGCACCTTGGTATCTAATCAGCCGGGGATCGCCACAATCAGTGCATCGTCACTTGAAGGTCTGCTGCTCGCGGATCCCATTACGGTTGAGTTCGAGCTATTCATCCAAGGCATATCCTTCAACAAACAGCAATACGAACTGGAGATAGGCAGCTCGCTGCAAGCCAGTCTTATCGCAGCGGATGAACATGGCAATTCGAGAAACATTACATCGAATAGCAAGTTAACGATAGAGGACGAGACGATTGCGACAATCAGTACTGAGGGGCTGATTACAGGAAAAGGGAAAGGACAGACCGTTCTAAACGCCGTTTATGGCACGCATTCCACTAGTGCCGTAATCAAGGTTACGGATAAGGATGTTGACCCGGGTCCTGATCCGAATCCCGAACCTAATCCAAATCCAAATCCACAGCCGAATCCGGGTACGGTCACTGAACCCGGGTCAAATTCGGGCTCTGGTTCCAATCCCATTCCGACTCCTGGAACCGATAAGAAACCGGACTCTGAGTCAGGGAAAGGGGACAAACCAGCGGTGCCTCCGGCAATCGAAGATCAGGATCCGGTGCCTGGGAGAGGGGATGACGGAGAAAGAATAGAGACTTTAGAGTTCTCTGACGTGAAAGGACATTGGGCTGAGGATGCTATCATGAAGGCAGTTAAATCAGCTAAGATTAGCGGGTACCCAGATAAAACCTTCCGGCCCAATGCCTATATTACGCGTGCCGAGTTTGTCGTTCTGCTGAATCGTTGGTTTGGGCCGTTCGCTTCTGTCGAGGCCGACAGATCCGACACAAGTGAATATTGGCCTGATTGGTCTAAGGATGCCATTTCGGATGCTATGCAAGCAGGCATCTTGAAGGGCTATAAGGATGGCACTATTCGTCCGATTCAATCGGTTACCAGAGGAGAGCTTGCCGTGATGCTGCAGCGTGCCATGAAGCTTGCAGGAGCCCCGCTCCCTGTGGAAGGAAACAGCAGCCTGTCTGCTTACAACGACCATGCCCTGGTGCAAGCCTGGTCAAGGGAAGCCATGATGGAGCTGTCTGCCCGTGGATTGATCCAAGGCGACAGCCAGTCTAATCTGAGGCCAGGGAATCCGGCAACTCGGGCCGAGACAGTGGTCCTGCTCACTCGCCTGGAAGCGATATTAGAGCAAGGAAATTAA	MQRKIWHICLIVLLLASQMGTTGHADTGKAGLPGETNIVSISSKGYHTLALLDNGTVLSWGSNMVGQLGNGKQGSNFSTSFAQPVYENVNGELKVLANIVAVEASQQYSLALSADGTVYGWGLNASNELGRPFEGTYYYPTAIPIAGLPPIEQISAGVTHAAALAKDGTVWAWGDNQSGAVGNGRQMEYVERPVQVKKNASEFLTGIKQIHAGNWFTMAVTENGELLGWGYNGAYQLGDLTLVSHSYPVHALDKNKNPLNGIKKVSTGNDYTLALKEDGTLLSWGVNGYGQLGSDTLQGTYSNYPKPVLDKASGDAFGHVVDISAGIAHVAAIREDGSVWTWGGNTIWGSADITGQLGRGDDRLEERPGRVTRLPGNAKVLQAETGGHHTVIMLDNGTLWSMGSNREKQLGGGYKMDSAIEPTQLSLSHYDKAYWPKQGIGPVMGQPYRLTLQLAGHEGQPVSFGTDIVDMQAVGAMIVGPVSYIGEGRYAADMLADSPGPVQVTARINGLEVPAAQIVVLSGEPHPAHSELTATPSMSAVGSADPIVLRLQLRDSDGNELNRSGGKAAFTSSLGTVSEPVETSYGVYEAELRSDTAGIANIGVTLDGKPFEVSAKVSFRAGTPNRAYSTLTANPKIVVADGKQSTEIKLHIKDVHGNDLDDYLGPIELTSSLGQMTTVTESAYGVYESTLVSNQPGIATISASSLEGLLLADPITVEFELFIQGISFNKQQYELEIGSSLQASLIAADEHGNSRNITSNSKLTIEDETIATISTEGLITGKGKGQTVLNAVYGTHSTSAVIKVTDKDVDPGPDPNPEPNPNPNPQPNPGTVTEPGSNSGSGSNPIPTPGTDKKPDSESGKGDKPAVPPAIEDQDPVPGRGDDGERIETLEFSDVKGHWAEDAIMKAVKSAKISGYPDKTFRPNAYITRAEFVVLLNRWFGPFASVEADRSDTSEYWPDWSKDAISDAMQAGILKGYKDGTIRPIQSVTRGELAVMLQRAMKLAGAPLPVEGNSSLSAYNDHALVQAWSREAMMELSARGLIQGDSQSNLRPGNPATRAETVVLLTRLEAILEQGN				NA	NA	NA	NA	NA
AK002_01123	579			hypothetical protein	ATGAAAAAGCTAGGAAGAAACGATCTATGTCACTGCGGAAGCGGGAAAAAGTACAAAAGATGTTGTCTTGAAAGAGATGAACGCACGGTATACGGTAAAGTCATCCAGTTCCCTGGTGCGAAAGCAGCAGAGCCTAAGCTACAGGTCGATCAGTTGCGACAGATGATCAACGACAAGCTGGGGTGGATGGATTGGATCGCCGATGAGCATCGCGAGCTTGCAGAGTCTGTGTTTCCTCAGATCTGCCGGGATTACGAACTGCAGGATGAGCAGCAGCTGTTTCAAGTGTTCAGCCTCCTGATGGTCTGGAACAGCTTCTCCAGAGAAGCCAATCCGAAGTACCGCAAACAGGGTGGATATGCAAGTGCGATCGAATATATAGTAACTTCATCGCTTAACATTCCAACAACGAAGTCCGATATCGCGAAGAAACACGAGGTTTCGGTAGCCACGCTGACTCGCAACAGCGGCCAAATTCAAGATTTCATGGATGGCGTAGCGGCATCCGCAGACGACTCGTTCGCCGAGGATGAGGAACCCGCTGGCGAAGAGGATAAGGACTTGTCCTTGGGACGTTAA	MKKLGRNDLCHCGSGKKYKRCCLERDERTVYGKVIQFPGAKAAEPKLQVDQLRQMINDKLGWMDWIADEHRELAESVFPQICRDYELQDEQQLFQVFSLLMVWNSFSREANPKYRKQGGYASAIEYIVTSSLNIPTTKSDIAKKHEVSVATLTRNSGQIQDFMDGVAASADDSFAEDEEPAGEEDKDLSLGR				NA	NA	NA	NA	NA
AK002_01124	447			hypothetical protein	ATGCGGAGTACATGGAAGCTGAACGGGCCGGTCTGGGCAGGCATCGCGGCGGGCATTCTTCTCGGGCTGTTCCTCAAGATCATCGAGCACGTCACCTCGCTGGAGGTCTACACGCTGCTCCTGAACGTCGATTACGTGCCTCTCTTGAAGGAACTCAAGCTCTCCGAACTTGTCGAGTTTGCGCTGCATCTCGTCATCTCTGTCCTGCTGAGCATCGCTCTAGCCATCTTTTTGAAGCAGAAGAATTGGTCCCGCGGGCGAAGCTTGTCCTGGGTTTCATTGGCCTGTTTGGCCGTAGGACTTCTCCTATATCCGACCACCGTCTTGTCTGACCGTACCCCGGAATTATCCGACCCTGCTGCCCTTCTATTCTGGCTGGCCGGTCATCTGCTGTACGGCATCGCTTTGGGCTGGCTGCTGACGAAGTCACGCGGAGCCTCTGCCTAG	MRSTWKLNGPVWAGIAAGILLGLFLKIIEHVTSLEVYTLLLNVDYVPLLKELKLSELVEFALHLVISVLLSIALAIFLKQKNWSRGRSLSWVSLACLAVGLLLYPTTVLSDRTPELSDPAALLFWLAGHLLYGIALGWLLTKSRGASA				NA	NA	NA	NA	NA
AK002_01125	183			hypothetical protein	ATGACAGACGAGTACTTTGACGAAATGCGCAAGTTCGGTCACGAGGATGAGATGAGGTATCGCATGTTGATGCGAGGGGTAAAGAAACTGCTGGAACAACGGAAGCGTGAAAAGTCCAAGCTGTTCGGAGGACTTCCGCTTCGACAGAAGCATAAAGCCCCGCGTGCAGGCAAATGGTCATAA	MTDEYFDEMRKFGHEDEMRYRMLMRGVKKLLEQRKREKSKLFGGLPLRQKHKAPRAGKWS				NA	NA	NA	NA	NA
AK002_01126	873	yusV_1	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGAATACGCTGGAAGCAAAGGGATTGGGTCTGTCCTACGGGGGAGACTTTATATTCGAAAATCTGGATTTAACCGTGCCTATAGGTAAAATCACCGTGTTTATCGGCAGCAACGGCTGCGGCAAATCCACTTTGCTGCGCTCCATGGCCAGGCTGCTGAAGCCGCAGCGCGGCTCGGTTGTACTAAACGGGGCCGACATCGCAAGCTTGTCCACCAAGGACGTGGCCCGGAAGCTGGCCATTTTGCCTCAAGGGCCAACGGCTCCGGAAGGGCTGACGGTCATGCAGCTGGTGAAGCAAGGGCGTTATCCTTACCAGAGCTGGCTGCGCCAATGGTCGCGGGAAGATGAAGAAGCGGTCACAGCGGCTCTTGAATCCACGGGACTGACCGAGCTGGCCGATCGTACAGTTGACTCGCTGTCAGGCGGTCAGCGGCAGCGGGCCTGGATTGCGATGACGCTGGCGCAGGAAACGCCGCTCATTCTGCTGGACGAACCGACAACCTATCTGGATTTGACGCACCAGATCGAAGTGTTGGATTTGCTGTACGACTTAAACGCCAAAGAACAGCGGACCATCGTCATGGTGCTGCATGATATCAATCTGGCCTGCCGTTATGCCGACCATATCGTGGCCATCCGCGACGGGAGCATTAAGGCTGAAGGCAAACCGGGAGATATCATCAATTCCGACTTGATGCAGACCGTGTTCCAGCTCCCATGCGAAATTATTCCGGACCCGCTGTACGGGACTCCGATGTGCGTTCCGCGCGGGAAGGGCAAACGCCGACCTTCGGCTGTCCAGCCGAATGCGGCAGAACCGAATCAACCAACAACAACTCCGGTGCCCGCCCCTGAACTGGCAACGGTCTAG	MNTLEAKGLGLSYGGDFIFENLDLTVPIGKITVFIGSNGCGKSTLLRSMARLLKPQRGSVVLNGADIASLSTKDVARKLAILPQGPTAPEGLTVMQLVKQGRYPYQSWLRQWSREDEEAVTAALESTGLTELADRTVDSLSGGQRQRAWIAMTLAQETPLILLDEPTTYLDLTHQIEVLDLLYDLNAKEQRTIVMVLHDINLACRYADHIVAIRDGSIKAEGKPGDIINSDLMQTVFQLPCEIIPDPLYGTPMCVPRGKGKRRPSAVQPNAAEPNQPTTTPVPAPELATV	PGPT0003760_3126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK002_01127	1047	yfhA_1	COG0609	putative siderophore transport system permease protein YfhA	ATGAGTAAACACCGCATATTCCGTTCCCGGAACGCCAAAGTCTCGTTTATGCTGGAGCGAAGAACCCTATGGGTGTGCCTGATCCTATTCGTGCTTTGCATTGCCACCATGATTATCAGCACGGGAACCGGCAGCCAGTTTGTTTCGCCGCTGCATGTCGTCAAAGCGTTACTCGGTGACGCTCCCCCGATGGAGCAGGTCATCGTCATGCAGCTAAGGCTGCCCCGTATTATCATTGCTGTGCTGATCGGCGCGGCTCTCGCGGTGGCGGGGGCGATTCTGCAAGGCGTCATCCGCAACCCGCTTGCTTCTCCGGATGTCATCGGCATTACGGAGGGAGCATCGCTGGGGGCGGTTCTCTTCATTTTCATATTTACGGGAGCCGTATCCATCCATTGGATGCCGCTCTTCGCCATTCTCGGCGCTTTTTTCATTACCGGACTGCTGTATGTGCTTGCCTGGAAAAATGGCGTATCGCCGCTGCGACTCGTCTTGATCGGAATCGGGGTATCGGCCGCGATCAAATCGATCTCCTATATGCTGATCATCTCCGGACCGCTGCAGTTGGCGGACCGTTCGCTTACCTTCATGGCGGGCAGCATTTACGGCATGTCCTGGGATAAGGACGTAATGACCTTGCTTCCTTGGGTCGCCGTTCTTCTTCCGCTAACCTGGCTGCAAGCCAGAAATGTGAATATCCAGGCCCTGGGAGACGACGTGGCCAGCAGCACGGGCGCGCAGGTTCAGAAGCAGAGGCTGATTCTGATCGGACTCAGCGTTGCTCTGGCCGGAGCGGCCATCTCGATCGGCGGCGCCATTGCTTTTATCGGATTAATGGCACCGCATATGGCCCGCAGGCTCGTGGGGCCCAACTTCGGAAGCGTGCTTCCGGTCAGCGCGCTGATCGGTGCGATTCTGCTGCTTGTCGCGGACCTGGTGGCACGGACGGCCTTTCTGCCGCGCGACGTACCGGCAGGCGTATTCACCGCCGCGATCGGCGCGCCGTTCTTCCTCTACTTGCTTTATCGTAACCGCAATCGATTCTAG	MSKHRIFRSRNAKVSFMLERRTLWVCLILFVLCIATMIISTGTGSQFVSPLHVVKALLGDAPPMEQVIVMQLRLPRIIIAVLIGAALAVAGAILQGVIRNPLASPDVIGITEGASLGAVLFIFIFTGAVSIHWMPLFAILGAFFITGLLYVLAWKNGVSPLRLVLIGIGVSAAIKSISYMLIISGPLQLADRSLTFMAGSIYGMSWDKDVMTLLPWVAVLLPLTWLQARNVNIQALGDDVASSTGAQVQKQRLILIGLSVALAGAAISIGGAIAFIGLMAPHMARRLVGPNFGSVLPVSALIGAILLLVADLVARTAFLPRDVPAGVFTAAIGAPFFLYLLYRNRNRF	PGPT0003770_8016	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
AK002_01128	984	yfiZ_1	COG0609	putative siderophore transport system permease protein YfiZ	ATGCGCGTATTCGGACTATTGATATCGCTATTGGCGCTGGCCGCTGCAGTCATGTGCAGCATCGCATTCGGAGTAACGAACATACCTCTTCATCAGGTATGGGAATCGTTCACTCACTTTAACGGAAGCAACGAACATCTGATTATTCTCACGGCAAGGCTTCCACGAGCGCTCATTGCCGTCGCCGTGGGGGCATGCCTTGCCGTTGCGGGTGCGCTTATGCAGGTTATCACGCGCAATCCGATTGCGTCGCCGAGCACGCTTGGCGTGAACTCCGGCGCGGCTTTCTTCATTATTCTGGCATCGGGCTGGCTGGGCATTGGCGGACTCCAGTCCCTTACCTGGGTCGCGTTGATCGGAGCTGCCGTCAGCGGCGGTATCGTATTCTTCCTCGGCAGCATCGGCAGGGACGGCATGACGCCGGTCAAAATCACCTTGGCGGGGGCTTCCATGGCCGCTTTCTTCCACTCCCTGACCCAAGGACTAATGCTCTCCGACGGCAAAATGTTTGATCAGGTGCTGGTATGGCTGGTCGGTTCGGTAGCCGGACGTGATATGAACCAGCTAACCGCCGTATGGCCGTACATGGCTGTTGGCATGCTGGCTGCGCTGCTGCTGGGACGGCATCTGAACGCCCTCTCCATGGGAGACGACATCGCCCAGAGCCTCGGGCAAAAAACCGCACTCATCAAGCTGTTAGCTGCTGCAGCCGTCATCCTGCTGGCCGGCGGCTCCGTAGCGGCGGCGGGACCCATCGCATTCGTAGGGATCATCATCCCTCATATCGTTCGGTATTTAATAGGAAATGATTATCGGTGGATACTACCTTACAGTGCGGTGTTTGGCGCACTCCTGCTGGTGACGGCCGATCTCGGCTCCAGATACATTGCCATGCCGAAGGAAGTCCCTGTCGGCGTGATGACTGCAATCATCGGGGTGCCGTTCTTCGTGTACATAGCCAGGAAAGGAAGGCGAGCACAATGA	MRVFGLLISLLALAAAVMCSIAFGVTNIPLHQVWESFTHFNGSNEHLIILTARLPRALIAVAVGACLAVAGALMQVITRNPIASPSTLGVNSGAAFFIILASGWLGIGGLQSLTWVALIGAAVSGGIVFFLGSIGRDGMTPVKITLAGASMAAFFHSLTQGLMLSDGKMFDQVLVWLVGSVAGRDMNQLTAVWPYMAVGMLAALLLGRHLNALSMGDDIAQSLGQKTALIKLLAAAAVILLAGGSVAAAGPIAFVGIIIPHIVRYLIGNDYRWILPYSAVFGALLLVTADLGSRYIAMPKEVPVGVMTAIIGVPFFVYIARKGRRAQ	PGPT0003770_5288	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
AK002_01129	1026	yfiY_1	COG0614	putative siderophore-binding lipoprotein YfiY	ATGGGAACAGGAATGGCAAAGAAACGGGCAAGAGGCCTCAAGTTTAGCTTGCTGGCTCTGATCATGATCGTGATTCTTGCGGGGTGCGGAGCAAGCCCGGCGCAAGAAGGTACAAGCAACGCGGGCGGCGACACGACGAATACCGCAGAGGGCAACAGCGGCGCAGCTGCTGGCAGCGAATCGTATGAAGTTACGCATGCCATGGGGACGGAAACGATCAAAGGAACGCCTCAAAAGGTCGTCGTCCTCACGAACGAAGGAACCGAGGCGCTTCTGGCCTTGGGCGTGAAGCCGGTAGGTGCCGTTAGATCCTGGACGGGCGATCCTTGGTATCCGCATATTAAAGACCAGATGGAAGGCGTTACCGTTGTCGGGGAAGAGAGCCAGCCGAACATCGAGCTGATCGCTGGTCTGCAGCCTGACCTGATCATCGGCAACAAGATGCGTCAGGAGAAAGTATACGAGCAATTGAAGGCGATCGCGCCGACCGTTTTTGCCGAGGATCTTCGCGGCGAGTGGCAGAACAATTTTGAGCTGTATGCCAAAGCGCTGAACAAAGTGTCGGAAGGCGAAGAACTTTTGGCTGCCTACGACAAGCGGATCCAGGAGTTTAAAGAGAAGGCTGGCAGCAAGCTTGACGAAACTGTCTCCGTTGTTCGTTTCATGGCAGGCAAGACGCGGGTGTACCACACCAATACGTTCTCGGGCGTTATTTTCGATAAAATCGGCATCGCCCGCAACGACATGACTAAGAACGCAAAGGACGATTTCGTGGACGAGATCACGAAGGAACGTCTGCCTGAGGTGGAAGCCGACAGACTGTTCTACTTCACTTATGAAACAGGGGATGGCGGCGCCAACCAAACCGAGCAGGAATGGATCAACGATCCGCTGTGGAAGAACCTGAACGTTGTGAAGAACGGTCAAGCCCACAAAGTGGATGACGCGATCTGGAATACGGCGGGCGGCATCCTGGCGGCCAACCTGTTGATCGACCAGCTGCAGGAGTTTTACGGCATTCAGTAA	MGTGMAKKRARGLKFSLLALIMIVILAGCGASPAQEGTSNAGGDTTNTAEGNSGAAAGSESYEVTHAMGTETIKGTPQKVVVLTNEGTEALLALGVKPVGAVRSWTGDPWYPHIKDQMEGVTVVGEESQPNIELIAGLQPDLIIGNKMRQEKVYEQLKAIAPTVFAEDLRGEWQNNFELYAKALNKVSEGEELLAAYDKRIQEFKEKAGSKLDETVSVVRFMAGKTRVYHTNTFSGVIFDKIGIARNDMTKNAKDDFVDEITKERLPEVEADRLFYFTYETGDGGANQTEQEWINDPLWKNLNVVKNGQAHKVDDAIWNTAGGILAANLLIDQLQEFYGIQ	PGPT0003765_32	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
AK002_01130	501			hypothetical protein	ATGACAAACCAACCGAAAGCGGTTAAACCCATTCCGGATGGCTACACCTCCGTGACGCCGTGGATCATCTCAAGAAACTCCGCAGCGCTGATCGAATTCCTCAAGCAGGCTTTTCGGGCCGAAGAGTTAGCCCGCGTCTATGTTGGCGATGATGTCATCGGCCATGCCGAGGTGCGAATCGGAGATGCCGTCGTCATGATGTTTGACGCGAAACCGGAATGGCCGGATAGTCCGGCATACCTCCGTTTGTATGTTGAGGATTGCGATGATGTGTATCGGCAAGCGCTGGCCGCAGGAGCGGTCTCTGTGACGGAGCCAACGAGCTTGTTCTTCGGCGACCGGGTGGGACGGGTACGGGACCCGTTCGGCAACTTATGGTGGGTACAGACACGAATGGAGGACCTCACTCCGGTCGAAATGGAACAGCGTGCCCAAGACCCGAAATACATCAAAGCGATGACCTATGTTGCAGGGGCGGAGATCGTGGTGAAGATGCCGTAA	MTNQPKAVKPIPDGYTSVTPWIISRNSAALIEFLKQAFRAEELARVYVGDDVIGHAEVRIGDAVVMMFDAKPEWPDSPAYLRLYVEDCDDVYRQALAAGAVSVTEPTSLFFGDRVGRVRDPFGNLWWVQTRMEDLTPVEMEQRAQDPKYIKAMTYVAGAEIVVKMP	PGPT0030505_218	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_01132	687	tenA	COG0819	Aminopyrimidine aminohydrolase	ATGAGTTTCACGCAAGCGCTCCGTCAGCAGGCGGGAGGCATTTTTCAAGCAATCTTCGATCATCCCTTCGTAAAAGGCATTGCCGAGGGGAATCTGGAGCGGGAACAGCTGATTCACTATGTGAAGCAGGATTTTGAGTATTTGAATGCCTACATGCGGATTTACGGAATAGCCATATCCAAATCGACCAGCCGGGAAGAGATCGCGGCCTTTAACGAACAGATTTCATTCATCCTGCACAGCGAGGTGCACCCGCATCAGAATTTTTGCGCAGCTGCCGGTGTGACCTATGAGGAGCTTCAAGGATATCCGCTGGCTCCGTCCGCGCATCATTACATCCGTCATATGCTGACGGTGGCGCATGAGGGTAGTTTGGGCGAGATTATGGCCGTGCTGCTGCCGTGCCCATGGACGTACCTGGAGATTGGCCGCAAGCTGCTGAATGAGGTGAAGCCGGATGCCGCCCATCCGTTTTACGACTGGATTTCTTTCTACGGAAACCGGGGGGAAGACGCGACAGCCAAATTCCGCGACCGTGTCGATGCATGGGCGGAGCGTGCGACGGCAGCCGAGCGGGAACGGATGAGGGAGCATTTCATGCTGAGCTGCCAGCTGGAGTATCTGTTCTGGGACATGGCTTATAAGCAGGAGGAGTGGCCGGTGCAGCTGGAGGCTGCCGTGCTGTAA	MSFTQALRQQAGGIFQAIFDHPFVKGIAEGNLEREQLIHYVKQDFEYLNAYMRIYGIAISKSTSREEIAAFNEQISFILHSEVHPHQNFCAAAGVTYEELQGYPLAPSAHHYIRHMLTVAHEGSLGEIMAVLLPCPWTYLEIGRKLLNEVKPDAAHPFYDWISFYGNRGEDATAKFRDRVDAWAERATAAERERMREHFMLSCQLEYLFWDMAYKQEEWPVQLEAAVL	PGPT0009055_594	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009055-tenA-K03707	NA	NA
AK002_01133	843	thiM	COG2145	Hydroxyethylthiazole kinase	ATGCGTTCATGGGAAAAAGAGGTTTCGGCGCTTTTAATGAAGGTACAGCAGACGAGCCCCCTCGTTCACAATATGACGAACGTGGTGGTTACGAATTTTACGGCTAACGGCTTGTACGCGCTGGGCGCGTTGCCGGTGATGGCTTACGCGCCGGAGGAAGTGGCGGATATGGCCGCCATCGCGGGCGCGCTCGTATTGAACATCGGCACGCTGAACCGCGAGCTGGTGGATGCGATGATGATCGCGGGACAATCGGCGAATGCCCATGGCGTGCCGGTGCTGCTGGACCCGGTCGGCGCGGGAGCGACCCGTTTTCGGACGGAGTCGGCGCTGCGGATCCTAAGCGAGGTGAAGGTTTCGCTCGTGCGCGGAAATGCGGCTGAAGTCGCTCACCTTATCGGGGAGGTCCGCGAGATCAAGGGCGTAGACGCAGGCAATAGCGCAGGCAGCAATCATGCCGAGCTGGCCGTGCGGGCTGCGCGCGAGTTAGGCACGATCGTGGCCATTACCGGTGAAGAGGACGTGATTACCGATGGAACGGAAGTGCGCATCATTGCCGGAGGGGATGCGCTGCTTACGAAGGTGACCGGCGCAGGCTGCCTGCTGACCTCGGTGCTGGGTGCCTTTGCCGCGGTAGAAGCGAACCTGCTGCTTGCAGGTACGGCGGGTCTGGCCTTCTATGGGGCCGCGGCGGCGAAAGCTGCTGAGCGAACGGCAGATCTGGGACCGGGAAGCTTCCAGATCGCTTTCCTGGACGAGCTGGCGAAGCTTCATCCAGAATCGCTGGAAGGGTATGCCGCTGTACTGGAAGCGGGAGCGGCGGCTGCCGGAGGCACACGATGA	MRSWEKEVSALLMKVQQTSPLVHNMTNVVVTNFTANGLYALGALPVMAYAPEEVADMAAIAGALVLNIGTLNRELVDAMMIAGQSANAHGVPVLLDPVGAGATRFRTESALRILSEVKVSLVRGNAAEVAHLIGEVREIKGVDAGNSAGSNHAELAVRAARELGTIVAITGEEDVITDGTEVRIIAGGDALLTKVTGAGCLLTSVLGAFAAVEANLLLAGTAGLAFYGAAAAKAAERTADLGPGSFQIAFLDELAKLHPESLEGYAAVLEAGAAAAGGTR	PGPT0008990_268	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008990-thiM-K00878	NA	NA
AK002_01134	1008	thiD	COG0351	Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGAGCGAGGTTCGCATGCCCCGTGCCCTGACGATTGCCGGGTCTGACAGCGGCGGCGGCGCCGGCATTCAGGCCGATCTGAAAACCTTCCAGGAGCTCGGCGTGTACGGCATGTCGGCGATTACCGCGATCACGGTGCAGAATACCTTGGGGGTTCACGGCGTATATCCGCTGCCGCCAGAAGCAACTGCGGAGCAGATTGAAGCGGTTGGCTCGGATCTCGGAGTAGATGCATTGAAGACGGGCATGCTGTTCAACGCCGAGATCATTCGGCTGGTTGCTGACCGGATTCGGGCATTCGGCTGGGGGAAGGTCGTTGTCGATCCCGTAATGATCGCCAAGGGCGGAGCGGAACTGCTGCAAAGCGAAGCGGTGCAGGCTTTAAGAGAAGATTTGCTGCCGCTGGCGTTGATCGTCACCCCCAATATACCGGAGGCCGAAGTATTGGCGGGGATGCGTATCCGCACGATGAACGATCGCAACGAAGCGGCGAGGCGTATTCATGATCTGGGGCCCAGGATCGTAGTGATCAAAGGCGGTCATGACGAGGGAATGCTTGGTAACGGTGAAGGCACAGATCACGAAAGAGGCAGGGAACCAGCTATAGCGGCGGGTATGCAGCAGGAAGAGCTGCCTCAGTTCGAAAGGACGCACGGTCAAACGAGCACTGCCATGCCTGCTGGGGAGTATAGGGGGGGCCGTCCGCTCTTTTCCAACGATGACGGTAATCCCGAAAGTCCTCCGGTCATCGACCTCGCATACGATGGTACGGCCTTCACAGAATTATATGGCAGACGAATCCATACCGTTCATACGCACGGTACCGGCTGTACTTTCTCTGCGGCCATTACCGCAGGCCTGGCCCAAGGCTTGAGCGCATTCGATGCGATTCAGAGCGGGCGCTTATTCATTCAAGCGGCCATTGAGGACGGATTGAACCTGGGGCAGGGACAGGGCCCGACCAATCATTGGGCATACAATCGCCGCCGTCAGGAGGTGCTGCGATGA	MSEVRMPRALTIAGSDSGGGAGIQADLKTFQELGVYGMSAITAITVQNTLGVHGVYPLPPEATAEQIEAVGSDLGVDALKTGMLFNAEIIRLVADRIRAFGWGKVVVDPVMIAKGGAELLQSEAVQALREDLLPLALIVTPNIPEAEVLAGMRIRTMNDRNEAARRIHDLGPRIVVIKGGHDEGMLGNGEGTDHERGREPAIAAGMQQEELPQFERTHGQTSTAMPAGEYRGGRPLFSNDDGNPESPPVIDLAYDGTAFTELYGRRIHTVHTHGTGCTFSAAITAGLAQGLSAFDAIQSGRLFIQAAIEDGLNLGQGQGPTNHWAYNRRRQEVLR	PGPT0008915_166	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
AK002_01135	675	thiE	COG0352	Thiamine-phosphate synthase	ATGACGGGCAGAGTGGCACCCGAGATCATGAGGCGGCATCTGCGGATGTACCTCGTGCTCGGCAGCGTGAACTGCAGCGTCGAGCCAAGCTTGGTCGTGCAGGAAGCACTGGCTGGAGGCGCAACGATGGTCCAGTTCCGTGAGAAGGGGCAAGCAGCACTCGCCGGGGAGCCGATGATTCAGCTGGCCCGCCGTATCCAGGCCGAGTGCCGCCTAGCAGGCGTGCCCTTCATCGTCAATGACGATGTGGAGCTGGCATTGAAGCTGGACGCCGACGGCGTGCACGTCGGCCAGGACGACGAATCCGCGGCTTCCGTCCGCGAGCGGATCGGCAACCGGATTCTCGGTGTTTCCGCTCACACGGTGGAGGAAGCGCGGCGCGCGATTCTTCACGGCGCCGATTATCTTGGGATCGGGCCGATCTATCCGACCCGCTCGAAGGATGATGCCAGAACTGCGCAAGGCCCAGCAATTCTCCGTGAGCTTCGCGAAGCTGGAATCCATCTGCCAATCGTTGGGATTGGCGGGATTACCGTGGAGCGAGTGGAGGAAGTGAGTGGAGCGGGTGCGGATGGCGTCGCGGTAATATCCGCCGTGACGGGAGCGCAGTCGGCGCGGGAAGTTGTAGAGGCTATTGTAGATAAGATACGCCGTGCAACCGAAGAGATTTCTTAA	MTGRVAPEIMRRHLRMYLVLGSVNCSVEPSLVVQEALAGGATMVQFREKGQAALAGEPMIQLARRIQAECRLAGVPFIVNDDVELALKLDADGVHVGQDDESAASVRERIGNRILGVSAHTVEEARRAILHGADYLGIGPIYPTRSKDDARTAQGPAILRELREAGIHLPIVGIGGITVERVEEVSGAGADGVAVISAVTGAQSAREVVEAIVDKIRRATEEIS	PGPT0008995_988	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
AK002_01136	1953	manR_1	COG1762	Transcriptional regulator ManR	ATGAATAATAGGCAAAAAGAGATTTTTCGCAATTTGTTAATGGAACCGAACCGGCTGTGGCTCGTTCAGGATCTGGCGGATCAGACCGAGTGCTCGGAGAAGACGATCCGAAACGATCTGAAGGTGATTGAAGAATATATGGCTAAGCACTCCAGTGGCCATCTGGTGAAAAGGCCGGGACTTGGCGTCTATCTGGAGATCGGGGAAGCGGATCAGGCTGATTTATTCCACCGCTTGTATTCCAACGAGAGTACCGCCGAGGATGAATCCGATGAGGAACGGGTGCTGCATCTGGCATATCGGCTCTTGATGAACGCAAAGCCCGTAACCCTGCAGAACCTGGCTTCACCGTTTTACGTGAACAAGGCGATTATCCGTCGGGATATGGAAAAGATTGAGGGCTGGCTGCGGAGCTTTGATCTGAGCTTAATGACGAAGCAGCGAGTAGGCTTCATGATTGAGGGCTCGGAGAAGAACAAACGGATGGCGCTGGCGCGGTTGAACCAATTGATCAACCGTCCGGAGTTGACGGGGCAGATGATGCGTAACCAGTATGAACCGCACGAGATCGCCACCGTATACAATGAGTTAAAGGCGTTGCAGAGGCGGCATCAGCTCCGCTTCACCGATGAAGCCTTTGAAAGCCTGATGCTGCATATACTGCTTATGGTCAAACGGACCAAGCTGGGACAGCCGATTTCACTCTCTGCGCAGGACATAGCCTTTTTGGAGAACAAAGCGGAATTTGCCTGGGCGATAGACTTTTTGAAGCAGCTGCAAAAACTGTTCGCCGTCCCTTTTTCCAAGGAAGAAACCGCTTATCTAACCCTGCACCTGCTTGGCGGGAAGTTCCGATACACGCAGAAGGATGGAAGTGCCCGGCGGGGCGATCTGGCAGATAGCCACCCTCTGCTGCCACAGTTGGTTGAGCAACTGATTCGGCGGATGTCGGAGCTGAATATGATCCCTTTTTCCAAAGACCAGGAATTATTGAACGGGTTGAAAGTGCATTTGTACACAACCATGAACCGTCTTCATTATGGTCTGGCTGTGTCCAATCCGATGCTGGCCGAGATCAAAAAGATGTACCCCTATATGTTCGATCGCGTCATCATGGCACTGGAAGAGGTAGGGGGAGCGCTCCAACTATACTTTCCCGAAGAGGAGGCCGCGTATTTGACTTTGCATTTTCAGGCGTCTGTAGAACGGCTTCATCAGAACGACAGCCACCCTCAGAAGGTCATAATCGTGTGTCATATGGGCGTCGGGATGTCCCAATTGCTTCTCGCGAAGGTGGAACGGAGATTCCCGTCCGTGCATGTAGAGACAACGATGTCCAAAGCGGAAGTTGAGGATTATCTGGCAGCTCATGAGGTGGATCTTGTCATTACGACCGTTGATCTGCCCGAGTTAAAAACACCTCATATCCTCGTTTCCCCTCTGCTTGAGGCCAGTGACGAGCGGAAGCTGGAGCAAGCGATTCGGGGGCTCGATGAGCCGGACGGCAGGGCGGCTGAAGAATCGGTCTTTTTGAAATATACGACGCCTTTTCTCATCTTTCCTCAGCAGGAGGTCGAGCGTCCAGAACAGTTAATCTCCAAGTTTGCGCAGATGCTGGTGGACAAAGGGTATGTCCAGGCAGGATATACGGAAAGTGTGCTGGATCGTGAGAATATGTCTGCTACGACGATTGGAGGAGGCATTGCCATCCCTCATGGCAGCTCGGAGCGGGTTAAACAGTCCTGCATCGTTGTGGTTACTTTGAAGCAGCCGATTACCTGGGGAACCGAGAAGGTAGAGCTTGTGTTCTTACTTGCTATCAAGCATGATGAGCGGAAAGAGATGCGGCAGCTGTTCAGGGAATTGTCACGGATCAGTGAGCAGCCGGCATTGGTCAGTGCGTTGTCTAAGGAGACGGACGCGATGCGGTTGCTGAATACGTTAAAAGGGTAA	MNNRQKEIFRNLLMEPNRLWLVQDLADQTECSEKTIRNDLKVIEEYMAKHSSGHLVKRPGLGVYLEIGEADQADLFHRLYSNESTAEDESDEERVLHLAYRLLMNAKPVTLQNLASPFYVNKAIIRRDMEKIEGWLRSFDLSLMTKQRVGFMIEGSEKNKRMALARLNQLINRPELTGQMMRNQYEPHEIATVYNELKALQRRHQLRFTDEAFESLMLHILLMVKRTKLGQPISLSAQDIAFLENKAEFAWAIDFLKQLQKLFAVPFSKEETAYLTLHLLGGKFRYTQKDGSARRGDLADSHPLLPQLVEQLIRRMSELNMIPFSKDQELLNGLKVHLYTTMNRLHYGLAVSNPMLAEIKKMYPYMFDRVIMALEEVGGALQLYFPEEEAAYLTLHFQASVERLHQNDSHPQKVIIVCHMGVGMSQLLLAKVERRFPSVHVETTMSKAEVEDYLAAHEVDLVITTVDLPELKTPHILVSPLLEASDERKLEQAIRGLDEPDGRAAEESVFLKYTTPFLIFPQQEVERPEQLISKFAQMLVDKGYVQAGYTESVLDRENMSATTIGGGIAIPHGSSERVKQSCIVVVTLKQPITWGTEKVELVFLLAIKHDERKEMRQLFRELSRISEQPALVSALSKETDAMRLLNTLKG				NA	NA	NA	NA	NA
AK002_01137	261			hypothetical protein	ATGAAGCTAGGGACGTCAGGAGCGGAGCGTACGTTTTGGGTACGTGAGCACCGGAAGGCCCGGCTGAATTCAAGATTCGATGCCGAGCTGCTTCCTGATTCGCTTCGTGTTAGATATAGAATTTATGAGTTATCAGTGGAACTGATGAAATTCTATATCGCAAGAAAACCTACCTATGCATCGCGGTCGCTCATCCTTGAAGTGGCCTCGATAGAGGTTTTCTTATCAAAAGCGGACTTTTTGAACAACCTCTACTACTAA	MKLGTSGAERTFWVREHRKARLNSRFDAELLPDSLRVRYRIYELSVELMKFYIARKPTYASRSLILEVASIEVFLSKADFLNNLYY				NA	NA	NA	NA	NA
AK002_01138	2019	manP	COG1299	PTS system mannose-specific EIIBCA component	ATGAAAATATTAGCGATTACTTCATGTCCTAACGGAATTGCACATACGTATATGGCCGCTGAGAATCTGCAGAAGGCAGGCGCGAAGCTTGGCGTTGAGATGAAAGTTGAGACCCAAGGCTCCATTGGCGTGGAGAATCAATTCACGGAGCAGGATATCCGCGAAGCGGATGGCATTATTATCGCAGCGGATAAGACGGTGGTGAAGGACCGGTTTGTGGGTAAAAAACTGCTTGTCGTTGGGGTGCAGGATGGTATCCGTCGTCCGGAAGAACTGATTCAACGGGTGATGAAAGGGGATGTGCCCGTCTACCAGGCACAGTCCAAGTCGGCTGAAGCTATGACAGGAGAGAACAAACCCAAACAAAATCCGATCTATCGCCACTTGATGAACGGTGTATCCTATATGGTGCCGTTTATCGTGATCGGCGGGCTGCTCATCGCAATCGCCCTGACGATGGGCGGCGTGAAAACACCGGGTGGTCTGGTGATACCGGAAGATTCCATCTGGAAAACGATTGAGAGTATCGGCGCGGCTGCGTTTACCTTCATGGTTCCGATCCTTGCCGGATTTATCGCCATGAGTATTGCGGACAGGCCGGGTCTTGCACCAGGTATGGTCGGCGGGTTCATTGCTGCGAACGGCAGCTTTTATGGAAGTGAAGCAGGAGCTGGATTCATCGGGGGGATTATTGCCGGTTTCCTGGCGGGTTATGTTGCACTTGCTATTAAAAGGATCAAGGTTCCTCGGTCGCTGCAGCCGATTATGCCCATTATCGTTATCCCGGTACTGGCTTCGCTGGTTGTAGGGTTAATCTTCGTCTTTGTGATTGGTGCTCCGGTTGCGGATCTGTTTGAAGCGTTAACCGTCTGGCTCGCAGGAATGCAGGGTACTAGTTCGATTCTGCTCGCGCTTATTCTGGGCGCGATGATTTCTTTTGACATGGGCGGTCCCGTGAATAAGGTTGCGTTCCTGTTCGGCTCGGCCATGATCGGTGAAGGCAACTATGAAATTATGGGCCAAATTGCCGTTGCCATCTGTGTTCCTCCGATTGCCATGGGACTGGCGGCCATGATGAACAAAAGGAAGTTTACACCTGCGGAACGTGAAGCTGGAAAAGCAACATTTACGATGGGATTGTTCGGTATTACCGAAGGAGCGATTCCATTCGCGGCACAAGATCCTCTGCGCGTCATTCCGAGTATCATGGTCGGTTCCATGACGGGTTCGGTGATTGCCATGTTGGGCAGTGTCGGTGACAGCGTAGCCCATGGCGGTCCGATTGTAGCCGTACTCGGTGCCGTTGATAATGTTTTGATGTTCTTCCTCGCTGTCATAGGCGGCGCAGCCGTATCGATTATCATGGTGAGCTTGCTCAAGAAAGATGTTGCAGGTGTGACTCCGGCAGTTGTTGGGGAAGGACCAGAAGCGATAGAGGATCCTGCCGGAGCAGGTGAATCGTCGACAGCAGACGCGGATGCACCCTTGGCTGCGGACTCAGCTGAAGTGGATTCAACCGTGATCAATAATGGTACAGCAACGGAGGTTTCTGCTATCCGCGTTGAAAAATTGACGGATATTGTGACACCGGATCTCATTAACCTGAATCTGGTCGGAGCAACACAGGATGCTGTCATCGACGAAATGATCGGTGTATTGGAGCGGAATGGGGCGATCAGAGCTGACGGAGATTTTAAACAGGCCATATTAGCCCGGGAACAAGAAAGCTCCACCGGCATCGGCATGAATATTGCGATTCCTCACGGTAAATCGGATGCTGTCCTGAAACCAAGCGTGGTTTTTGGTATCCAGCAGGATGGCGTCGACTGGAAGAGTCTGGACGGGAGCGAAGCCAAACTGATCTTTATGATTGCCGTGCCGCGTAATAGTAAACAGAATGCGCACTTGAAAGTGCTGCAAATGTTGTCCCGCAAGCTGATGGACGATGATTTCAGGGAAGCGCTCTTGGCGGTGACAACGAAGGAAGAGGCCTATCGATTGCTCGATCAGGTGCATTAA	MKILAITSCPNGIAHTYMAAENLQKAGAKLGVEMKVETQGSIGVENQFTEQDIREADGIIIAADKTVVKDRFVGKKLLVVGVQDGIRRPEELIQRVMKGDVPVYQAQSKSAEAMTGENKPKQNPIYRHLMNGVSYMVPFIVIGGLLIAIALTMGGVKTPGGLVIPEDSIWKTIESIGAAAFTFMVPILAGFIAMSIADRPGLAPGMVGGFIAANGSFYGSEAGAGFIGGIIAGFLAGYVALAIKRIKVPRSLQPIMPIIVIPVLASLVVGLIFVFVIGAPVADLFEALTVWLAGMQGTSSILLALILGAMISFDMGGPVNKVAFLFGSAMIGEGNYEIMGQIAVAICVPPIAMGLAAMMNKRKFTPAEREAGKATFTMGLFGITEGAIPFAAQDPLRVIPSIMVGSMTGSVIAMLGSVGDSVAHGGPIVAVLGAVDNVLMFFLAVIGGAAVSIIMVSLLKKDVAGVTPAVVGEGPEAIEDPAGAGESSTADADAPLAADSAEVDSTVINNGTATEVSAIRVEKLTDIVTPDLINLNLVGATQDAVIDEMIGVLERNGAIRADGDFKQAILAREQESSTGIGMNIAIPHGKSDAVLKPSVVFGIQQDGVDWKSLDGSEAKLIFMIAVPRNSKQNAHLKVLQMLSRKLMDDDFREALLAVTTKEEAYRLLDQVH	PGPT0017120_433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017120-fruA-K02770	NA	NA
AK002_01139	981			hypothetical protein	ATGACCACATTCATTGAAGGTTTCGTTCCTTACCAAGGCGAACATTGCGAAACGACCACCATGGGCAATTTAATGCAATATACAGGAGTCCAACTATCGGAGCCGATGCTGTTCGGACTCGGACAAGGGCTCGGATTCATTTATTGGGACTCGAAGGGAATGGATTTTCCGTTCATCGGAGGAAGGGTGAAAGTGGATAAGTTGACGGCCAACCTCGCCGACAGGCTGGGTTTGACCGTGAATGTCCAAGAAACGTCGTCCGTCGACAAAGCGTGGCGGAACGTACGGAGCTGCATCGAACGCGGAATGCCGGTTGGGCTGAAATTGGATTCCTATTACCTGGACTATTTCACGAACAAAGTGCACTTTGCCGGTCACTATGCGGTCCTATACGGCGTGGATGACGAATATGCCTACATGGCAGATACCAGGCAGCAGGGCGGACTGGTGAAGACGCGTCTGACAAGCTTGGCCGCAGCCAGAAACGCAAAGGGAGCCATGAGTTCCCGAAATCGTTCTTATACGCTCGAGCCAATCGACGCCTTACCGCCGCTCGTACCCGCTTTGCGCGAATCCTTGACCAAGAATGCCCAGGACTATCTGAACCCGCCCATTCGCAATATCGGGAATAAAGGCATTGCAAAAATGAGCAAAGAGATCCTGAAGTGGCCTTCCCGCAGCAACCAGTTCGAACATGATTTATGCCTGACCGCATTGCTGATGGAGCGTGCGGGAACCGGTGGTGCTTTGTTTCGGAATCTGTATCGGGATTACTTGAAGGAATGCGCCGATCGGTTGGAAGACCCGAGAATCGAACAAGCCTACCTTTTGTTTACGGAGATCGCGCCAATGTGGGCCAGTGTCTCCGCATCAATCGACCTTGCGGGAAGATCAGGTAACACCCAGGAGCTACAGCAGGCGTCCAACCTTTTGCTCGAGATTGCGGATAAAGAACGCGCAGCCATGGAGTTATTGTTGTAA	MTTFIEGFVPYQGEHCETTTMGNLMQYTGVQLSEPMLFGLGQGLGFIYWDSKGMDFPFIGGRVKVDKLTANLADRLGLTVNVQETSSVDKAWRNVRSCIERGMPVGLKLDSYYLDYFTNKVHFAGHYAVLYGVDDEYAYMADTRQQGGLVKTRLTSLAAARNAKGAMSSRNRSYTLEPIDALPPLVPALRESLTKNAQDYLNPPIRNIGNKGIAKMSKEILKWPSRSNQFEHDLCLTALLMERAGTGGALFRNLYRDYLKECADRLEDPRIEQAYLLFTEIAPMWASVSASIDLAGRSGNTQELQQASNLLLEIADKERAAMELLL				NA	NA	NA	NA	NA
AK002_01140	573			hypothetical protein	ATGCACCCTATTTCAAATGTGGAATTTATGCTGCTGCAAATGATCGCAGAATGTCGTCAAGCTTCGGGGTACGATATCAAGAAGTTAGTCGATCAACGAGGCTATCGGGAATGGGCGAGCATCGGCACGACTTCAATTTACGTAGGGCTTAGGAAACTGAGCGATAAAGGATGGATTGCATCCGAGGAATCCGACGAAAAATCCGGCAAGGGCCCCATGCCGACCCGGTTTGTCCTCACCGAAGCCGGTATGACCAGGCTGAAAGATGAAATCCTTGACAGTCTTTCGTCAGCACGGGAGCGCGACAACCGCTTCGATCTCGGTTTGGCCGCTATGCCACTTATCGGGAACGACATGGCCATGGCTGCATTGCGGAAACGGTTGGATTTTCTTCGGAAGGCTTCAGAAGGCATAAAGCAAAAATTCGAATCCCAGGGCGGTGTTCGATTGCCGCTGAACGTAAGGGCGCTGTTCTTGCATCCGATCAGCCTAATAGAGAGTGAGCAAGCGTTCGTTGCCAGTCTAATTAACGAATTGTCGAAGGAGACCAGGGAAGATGACCACATTCATTGA	MHPISNVEFMLLQMIAECRQASGYDIKKLVDQRGYREWASIGTTSIYVGLRKLSDKGWIASEESDEKSGKGPMPTRFVLTEAGMTRLKDEILDSLSSARERDNRFDLGLAAMPLIGNDMAMAALRKRLDFLRKASEGIKQKFESQGGVRLPLNVRALFLHPISLIESEQAFVASLINELSKETREDDHIH				NA	NA	NA	NA	NA
AK002_01141	1815			hypothetical protein	ATGAAGCGGGATGAATACATGGACGGGGCCGGATTGGCGCAGGAGCACTCGAATGTTATCGCAGACGGTCAACGGGGGAATGACCGAGATCGCAACCGTCGGATAGCCTGGTGGAGGGAAGCGCGCTTTGGGCTGTTTGTGCACTGGGGGCCTTATTCGATGCTGGGCGGAATGTGGAAGGGCGAGCGAGTGGATGCGAATTATGCGGAGCATATCCAGCTCAGGGGGAAGATACCTGTAGCTGAGTATGCGGAAGCTGCAGCCAGGATGAACCCGGAGGGGTTCGATGCGCATGAATGGGTAGCGCTGGCCAAGCGGTCGGGGGCCAAATACCTCATCGTGACGACGAAGCATCATGACGGGTTTGCCATGTACGATTCCAAGGTTTGCGATTATTCGATTACCCGGCATGCGAATTTCCCGAGAGATCCGATCAAGGAGCTGGCAGAGGCATGCAAGGCCGAGGGGATTCGGCTCGGGATTTACTATTCTCACGCCATGGACTGGCATCACCCGGATTCGCAGGGGAACACGCTGGATTACCCGGGGAATATCGGCGCATGGGATCTGCTGGAGGACTGGATCGACGATCAGGATAAGCGGGGACGCTTTGAGCGTTACCTTCATGATAAGGCTCTTCCCCAGGTCGAGGAGCTTCTGACCGATTACGGCCCGATCGGGTTGATGTGGTTTGATTGCGGCCATAAGATCAGCGACGAACACGCCGTGTGGTTCCATGATCGGGTACGCCGGCTGCAGCCGGATTGCCTGATTAACAAGCGGCTCCGGGATGACCGCTTTGCGGATTACGGGAATCCGCATGATAACCAGCTGCGATTCCATCCGGTGCAGCAGGACTGGGAGTCGATTCATACGCTGAATGATTCTTGGGGATTCCGGTATGGCGATGACCATTGGAAGAGTCCGGAGGAATTGATCGACCAACTGCTGCGCGTGGCAGCGGCGAACGGCAATCTGGTGCTGAATGTCGGCCCGCTCGGCAACGGGGCGATTGACGAGACGTCGAGAAGCCTGCTGGAGACGGTGGGCAGCTTCCTGGAGCGGAACGGCGAGGCCATATACGGTACGAGCGGCAGTCCGATCGGAACGCCGCAGTGGGGCTACTGCACATGGAAGCCGGAAGAGAACAGCTTGTACCTGCTGGTCAGACATTGGCCGCAGGACGGTTATTTGATCCTGCCCGGTCTCGCAAATGGAGTTCAATATGCGAAGCCTATCGGAGCGAAGGCGAAGGAGGACCGCCTGCCGATCCGGCAGCTTGGGCCGTGGGACTGGCAGATTGATGTGCGTTCGGTACCTCAGGACGCCTATGCGACCGTGATTGAGCTGAAGCTGGATGGAGAGCAGTTGGAGAGCAACGGGACTCCTAGATTCATATCTTCAATGCCGAATACGTTCTGGGCATATGATGGTGTTATCCAGGGCGACGGCCTGCGCTGCGACAACGGAAAAAGAGGGCATGACGGCGTTACCGGGTGGACCGCTCCCAATGCGGCTGTTCAATGGGCGTTTCGTTCGGAAGAAGAAGCGCCGGTCCACTGCCGAATCGTCGTCACCTTGTCCGCCTCAGCGGCTCAGGCGGGGGGACGCTTTGAATTGTCCCTGGATGAACAGAAGCTGGCTTGTACCGTTTACGATACGGGCGGGGACGGGTGCTGGGGAGAATTTGAGATCGGTCGACTGACGATTCGCCGGGCAGGCATACACCGTCTTGAAGTCCGCGGAATATCGCTGGCATCGGATGCTTTGATGAATTTGCGCAAGGTTACGCTGCTGCCAATGGAGAGGGAGTGA	MKRDEYMDGAGLAQEHSNVIADGQRGNDRDRNRRIAWWREARFGLFVHWGPYSMLGGMWKGERVDANYAEHIQLRGKIPVAEYAEAAARMNPEGFDAHEWVALAKRSGAKYLIVTTKHHDGFAMYDSKVCDYSITRHANFPRDPIKELAEACKAEGIRLGIYYSHAMDWHHPDSQGNTLDYPGNIGAWDLLEDWIDDQDKRGRFERYLHDKALPQVEELLTDYGPIGLMWFDCGHKISDEHAVWFHDRVRRLQPDCLINKRLRDDRFADYGNPHDNQLRFHPVQQDWESIHTLNDSWGFRYGDDHWKSPEELIDQLLRVAAANGNLVLNVGPLGNGAIDETSRSLLETVGSFLERNGEAIYGTSGSPIGTPQWGYCTWKPEENSLYLLVRHWPQDGYLILPGLANGVQYAKPIGAKAKEDRLPIRQLGPWDWQIDVRSVPQDAYATVIELKLDGEQLESNGTPRFISSMPNTFWAYDGVIQGDGLRCDNGKRGHDGVTGWTAPNAAVQWAFRSEEEAPVHCRIVVTLSASAAQAGGRFELSLDEQKLACTVYDTGGDGCWGEFEIGRLTIRRAGIHRLEVRGISLASDALMNLRKVTLLPMERE	PGPT0018775_470	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_01142	990			hypothetical protein	ATGCCGGGATATTGGGTCTGGTGCGGCAGCGTCATCCGGGGCGAAGATGGCCGCTACCATATGTTTGCTTCGCGTTGGCCGAAGTCATTGCCCATGCATCCCGGATGGCTTGCGGCCTCGGAGATCGTCCGTGCGGCCGCCGACCATCCGGCCGGACCGTACGTGTACGAGGAGACGGTGCTTGGGACCCGGTCTCCGGCCTATTGGGACGGCTGCAGCGTGCACAATCCGCATATCGTGAAGGTGGACGGCACGTATGTGCTCTATTATATGGGCACGACGTTTCCGTTTCCGCTGCCTGAGGAAGGGGAGGTGCTGCTGCCGAATGATCCGCTCGCCGTGGTGGCCAGGGCCAACAAACGGATCGGCGTAGCGACCGCCCCTTCCGTAACCGGCCCATGGACACGAAGGGATCTTCCGGTTCTGCTGCCCCGTCCGAATCAGTTTGACAGCTTTTTCGTGTCCAATCCGGCACCCTGTGTTCATGCCGACGGCTCGGTGCAGCTGATCTATAAATCCCGGCCCTATCAAGGGCATACCTATGGCAACATGCAGCTGGGCTTGGCCAGCGCGGAATCGGTATACGGTCCGTACGCCCGTAAGCCTGAGCCGCTGTTTCCGCCTGCCATTCATATTGAAGATCCCTTCATTTGGCGTACGGCACGCGGGTACGAGATGATTGCCAAGGACATGGACGGCTCCATCTGCGGAGAGCGCTATAGCGGGGTCCATGCGTGGTCGGCGAACGGAGAGCAGTGGGAGATGACAACCCGGCCAGGGGAGCCGGCGTATTCCCGCAGGGTGCTGTGGGATGATGGCGCGGAGCGGCTGATGGGCAACCTGGAACGGCCGTTTTTGCTCATGGAGGACGGTCGTCCGGCCTGGATGTTCGCAGCGACCTCGGATGGAACCAACGGATTTCACGACTGCACGGAAACCTGGAACATGGCGATTCCGATTCGGGAGATTGCGGAGAAGGAGCAAGAATAG	MPGYWVWCGSVIRGEDGRYHMFASRWPKSLPMHPGWLAASEIVRAAADHPAGPYVYEETVLGTRSPAYWDGCSVHNPHIVKVDGTYVLYYMGTTFPFPLPEEGEVLLPNDPLAVVARANKRIGVATAPSVTGPWTRRDLPVLLPRPNQFDSFFVSNPAPCVHADGSVQLIYKSRPYQGHTYGNMQLGLASAESVYGPYARKPEPLFPPAIHIEDPFIWRTARGYEMIAKDMDGSICGERYSGVHAWSANGEQWEMTTRPGEPAYSRRVLWDDGAERLMGNLERPFLLMEDGRPAWMFAATSDGTNGFHDCTETWNMAIPIREIAEKEQE				NA	NA	NA	NA	NA
AK002_01143	951	yteP_12	COG4209	putative multiple-sugar transport system permease YteP	ATGGCGAACATCAACCCAAGCACGCGGCTAACACCGTCAGCGCGGAGCCGGGAATGGTTATCCAGCTTTCGCAAGTACAAGGCGATATACCTCATCTCGATTCCGGGCATCCTCTATTTTCTCGTATTTAAATACGTCCCTTTATTCGGCAGTGCCATGGCTTTTCAGGAGTACAACTTATTCAAAGGCATATGGGAGAGTCCTTGGGTCGGACTGGACCAATTCTACCGGATGTTTCAGTACGAGGAGTTTCTGCGGATATTCTGGAACACCCTCCTGATCGGGATGTACAGCATCGTCTTTGCGTTTCCGGTACCGATCATCCTGGCCCTGCTATTGAACGAGATTCGTCTTGTCCTGTACAAGCGGGTGCTCCAGACGGTCATCTACATGCCCCATTTCCTGTCCTGGGTCATTATCGGGGGGATTGCGGTGGGCATTCTGTCTCCGACCACGGGAATCATCAATCAGATCCTGATGTGGGTGGGGCTCGAACCGATTTACTTCCTTGGCGAGGAAAGCTACATTCGCAGCATTCTGATCGGCTCGGGCATCTGGAAGGAAGCGGGCTGGGGAACGATTATTTACCTGGCGGCGTTGGCCGGGATCAATCCGGACCTGTACGAAGCTGCACGGGTTGACGGCGCGAACCGCTGGCGCCAGACCTTGGCGATTACGATTCCGTCGATTCTGCCCACGATCATGATTCTGTTCCTGCTGAACATCGGCAACTTCCTCGATTTCGGGTTTGAACGGGTGTTTGTGTTCCTGAACGCCTTGAACGAGAACAAGGGCGATATTCTGGATACGTACATCTATCGCGTCGGTCTGCTTGGACAGCAGTACAGCTACACCACGGCCATCGGGCTGTTCAAATCTCTCATCGGGCTGCTGCTCATTGTGGGCGGTAACGCCATAAGCCGCAAAACGACCGGAAATTCCTTATACTAG	MANINPSTRLTPSARSREWLSSFRKYKAIYLISIPGILYFLVFKYVPLFGSAMAFQEYNLFKGIWESPWVGLDQFYRMFQYEEFLRIFWNTLLIGMYSIVFAFPVPIILALLLNEIRLVLYKRVLQTVIYMPHFLSWVIIGGIAVGILSPTTGIINQILMWVGLEPIYFLGEESYIRSILIGSGIWKEAGWGTIIYLAALAGINPDLYEAARVDGANRWRQTLAITIPSILPTIMILFLLNIGNFLDFGFERVFVFLNALNENKGDILDTYIYRVGLLGQQYSYTTAIGLFKSLIGLLLIVGGNAISRKTTGNSLY	PGPT0017250_1506	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01144	873	araQ_17	COG0395	L-arabinose transport system permease protein AraQ	ATGATAAAACGATCAACAGGCGAATTCGTATTTGAAATGTTCAACTATATCTTCCTGGCCGTCGTGTCGGCCGCCATGATCTTTCCGATCCTGCACGTAGCGGCGCAATCGCTCAGCAGCGATCTGGCCATCTCCAGGGGGGACGTCGGCCTGTGGCCGGTTGAGTTTACGCTCTCCAACTACGCCATCGTATTGAACGATACCTCGGTATGGCGTTCCTTTATGATCAGCGTATTCGTGACCGTCGTAGGGACCGGAATCAACTTAATCGCAACGGCTTCGCTGGCTTACCCGCTGTCGCGCAACGAATATCGGGGACGGAAAGTCATTCTCATGCTCGTGCTGATCACCTTTATTTTCAGTGCGCCGCTCATTCCCAACTATCTGCTCATTAAATCGCTGAACATGCTGGATACGGTCTGGGCCCTCATTATTCCGGGCGCCATCAGCGCGTACAACCTGTTCATCATGCGCTCGTTCTTCATGAATCTGCCTAATGAGATCATCGACTCGGCAAGGATCGACGGGTGCGGAGAGCTGCGGATCATATCAAGCATCGTGCTTCCGCTATCCAAGCCGTTGATGGCGACGATGGGACTGTTCTACGCCGTGGCGCATTGGAATTCGTACTCGTCCGCTCTATACTATATCAATAGCCGAAAGCTGTTTCCGCTGCAGGTTCGCCTGAGGGAGATCGTGATTACCGATCAGATGGGAGAGATGGACACCACGTTCGAGAACTTGGCCAACATGTCCCCGGAGGGCATCAAGATGGCCACGATCGTCATCGCTACGCTGCCGATCATCCTGGTATACCCGTTCCTGCAGAAATATTTTATCAAGGGCATGCTTATCGGTTCGATCAAATCCTGA	MIKRSTGEFVFEMFNYIFLAVVSAAMIFPILHVAAQSLSSDLAISRGDVGLWPVEFTLSNYAIVLNDTSVWRSFMISVFVTVVGTGINLIATASLAYPLSRNEYRGRKVILMLVLITFIFSAPLIPNYLLIKSLNMLDTVWALIIPGAISAYNLFIMRSFFMNLPNEIIDSARIDGCGELRIISSIVLPLSKPLMATMGLFYAVAHWNSYSSALYYINSRKLFPLQVRLREIVITDQMGEMDTTFENLANMSPEGIKMATIVIATLPIILVYPFLQKYFIKGMLIGSIKS	PGPT0017255_2530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01145	1581	lipO_5	COG1653	Lipoprotein LipO	ATGAAAAAAAGTTGGACGGTCTTACTGATCGGCGTCATGATGATGACACTGCTTGCGGGGTGCGGGGGGAAAGCGGAAGAAGGAGCAGGGAATACCCAGCCGGAAGGGAACGAGCAGGGCACGGCTTCCAGCAAGCTGGCATTCTCGATTTCATTCTCCACGGGCGGCAACACCTACATCGAATCGTCGCCCGACATCAACAAGGACAAATGGGTGCTGAAGCTGGAGGAGATGACGAACACCGATCTCGATATTCGCTTGATGTCCCATAAGGAATTTGATCAGAAGATGAGTCTGATGTTTGCAGGCAACGAAATTCCGGACGTGGTCGGCAATATGCGCGGGGGGCCGACAACGGGCTCCATGTCAGGCTCGGTGGAAGCGGGCGTGTTCATGCCGCTGGATGACCTCCTTAAGGAGTATGCGCCGAATCTGATGAAAATGGTCACCCCGGCGGCATGGGAGGAAGTATCGTACGACGGCAAAATCTACGGCATTCCGGCCTGGCTGGAGAACCCGTCGCGCCGCGCCACGTTTATCCGTACGGATCTGATGGAGAAGGCAGGCATCCAGGAAGCGCCGAAGACGGTGGAAGAGTATCTGGATATGCTGCGCGCCTTCAAAAAACTGGGTATAGAGCATCCGTTCCAATACCGGGAGGGCTTTAAATACGCGGATACCTTCCTAGGGGCATACGACGTGCTGCCGTTCCAGTTCATGGAGCTGAACGGGGAAGTCGTGCCGAAGTTCTTCGATGTCGAGAACATGACCAAGGCACTGGAGACGTATAAGACGATGTACGACGAAGGCTTGATCCCTAAGGATTTCGCTTCCCTGTCCCAGGAGGATTACGGCCGGAACATCAATTCCGGCAAAGCCGGCATGTGGGCGTCCAACGGCGAGGGGCTGATCGGTTTCCGCGCCAAGCTGAAGGAAGTGGATCCTTCGATGAAGGTGGATATCTATCCTTCGCCGACGGGCTCGGACGGCAAGGGCGGCCTCGGCTTGTACAGCTCGATCTCGACCACGTATTACATCAACAACAAGGTCGGTCAGGAAAAAGCGATCGAAATCATTAAATTCCTCGACTGGATGCTGACGGAGGAAGCCGATATGTTCTTCTCCTTCGGGATCGAGGGCGAGAACTACACGATGGAGGACGGCAAGGTCAACTATACATGGCCCGTGAAAAAGGAGGAAGTTGACGAAGCGGGGTTCCGGGCCAACCAGCTGTGGTTCGTGCATGAGCTGACCTACAACAAGAAGCAGACGGCCCTGACCGAGGACGGCCAGGACGTCATTACGGCGTTCAGCGACGTGCTCAGCAATGAAGGCCGCGGCGGCATTACCTTTACGGCGAATCTGAACAGCTTCTCCAAGTTCCCGGATTTGGCCTCGACCGGGGATACGGGACCGAAATTCATTCTGGACAGCATGGTGAAGATGATCTACGGCAAGCAGCCGATATCCGAGTGGCCGAAGGTGCTCGAGGAATATCGCGCCAAGGGCGGGGACGAGATCATCAAGGAAGCGACGGAACGCTGGAAGAACAAGGAGAACGTCGTGGATCGTACAAGATAA	MKKSWTVLLIGVMMMTLLAGCGGKAEEGAGNTQPEGNEQGTASSKLAFSISFSTGGNTYIESSPDINKDKWVLKLEEMTNTDLDIRLMSHKEFDQKMSLMFAGNEIPDVVGNMRGGPTTGSMSGSVEAGVFMPLDDLLKEYAPNLMKMVTPAAWEEVSYDGKIYGIPAWLENPSRRATFIRTDLMEKAGIQEAPKTVEEYLDMLRAFKKLGIEHPFQYREGFKYADTFLGAYDVLPFQFMELNGEVVPKFFDVENMTKALETYKTMYDEGLIPKDFASLSQEDYGRNINSGKAGMWASNGEGLIGFRAKLKEVDPSMKVDIYPSPTGSDGKGGLGLYSSISTTYYINNKVGQEKAIEIIKFLDWMLTEEADMFFSFGIEGENYTMEDGKVNYTWPVKKEEVDEAGFRANQLWFVHELTYNKKQTALTEDGQDVITAFSDVLSNEGRGGITFTANLNSFSKFPDLASTGDTGPKFILDSMVKMIYGKQPISEWPKVLEEYRAKGGDEIIKEATERWKNKENVVDRTR	PGPT0017245_2374	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01146	1026	rssB_10		Regulator of RpoS	ATGCGGTTGTTGATTGCTGACGACGAACCTGTCATCCGAAGAGGGCTGGTCAAGATGGCGGAAACCTATCGCCTGCAGTTTGACGCCATCGATACGGCCGTAAACGGCGAGCATGCGCTCTCGATGATCAAGGAGACCGAGCCGGATGTGCTGCTGACCGATATCCGCATGCCCCGAATGGGCGGGCTGGAGCTGTGCCAGGAGCTGCATGAGTTGTATGGGCATATTCAGATCATCGTCATCTCGGGTTACGGCGAATTCCAATATGCGCAGCAGTGCCTGGCTTACGGGGTGAAGCATTATCTGCTGAAGCCGGTGACGGGCGTGGTGCTGCACCAGACCTTTGACGCGATCGTAAAACATCGCAATAAAGGCATTGTCTCCCTGGCTTCCTACGTCGATTGGATTGAAAACATCGGGCAGGAAATTTGGATGCTGCAGACGGAACGGCTGGATGAGCTGTTGGTCGATTGGAGGGCGCATCTGCAGGCAGCGGGGCTTAGCGTCCCGCAGCTTCAGCAGCTGCTGGATGATGCAGTGGGGATGATTTTCCGGCGACTGGTATCGAAGGGGTATATGGAGGTTTCCGTGATCGAACCCATCGGCCATCATGCGGCCCAGGAACAGCTGCTGAATGAATTCGAGCTGAGGGTTAAGCGGATGACGGCCGATCTGGTGACCCAGCGCTGGGGGAATTTCAAGAATCCGCTGGATGAAGTGAAAGCGTACATCGACACGCATCTGTCCGAGGAAATCACGCTGGAGGAAGTGGCGGAGATGGCGGGGTATACGCCGACCTATTTTAGCGCGATGTTTAAAAAAATGACCAATGAAACCTTTGTCCGGTACCGCATTCACCGGCGGATGGAACGGGCGAAGGAGCTGCTTGCGCTGCCGCATATGCGGATCATCGACGTGGCGGCAAACGTCGGTTACGAGGACTATCCCCATTTTACGAAGATGTTCAAGAAGGTAACGGGACACACGCCGACGGAATATCGGACGATGCTGGGATTTAACGGATGA	MRLLIADDEPVIRRGLVKMAETYRLQFDAIDTAVNGEHALSMIKETEPDVLLTDIRMPRMGGLELCQELHELYGHIQIIVISGYGEFQYAQQCLAYGVKHYLLKPVTGVVLHQTFDAIVKHRNKGIVSLASYVDWIENIGQEIWMLQTERLDELLVDWRAHLQAAGLSVPQLQQLLDDAVGMIFRRLVSKGYMEVSVIEPIGHHAAQEQLLNEFELRVKRMTADLVTQRWGNFKNPLDEVKAYIDTHLSEEITLEEVAEMAGYTPTYFSAMFKKMTNETFVRYRIHRRMERAKELLALPHMRIIDVAANVGYEDYPHFTKMFKKVTGHTPTEYRTMLGFNG				NA	NA	NA	NA	NA
AK002_01147	1845			hypothetical protein	ATGAAGAATAAACTGTATCGCAAGCTTTTCCTGTACTGCGTATCGATCATAGCGCTGTCCTCGTTATTGATCGGCATCGTCACGTACGCTCGTTCTTCCGCGGAGCTGGATCGGCAGCTGGATCGGCATCTGTCGCAAATCGTGCAGAATGCCTTGAATCACACGGACCTGTACATCAAATCCTATGACCGGACGATGATCTCCCTGCTGACCAACCGGGAATTGAAGAAATTCGTGGATCTGCCGAACCCGGCGGACCATTACGAATACTATCACATCAGCTCCACGATCAAGGATACGGTGTTCCGTCCCCTGATGGACCGGGGGCCCGAGCTGCTGACGATGTATCTCTTGTCTTACAACGGAAACGCGTCGTACAGCTTCGGCTCGGACTTTACGGCGCCGGTGTTCAGCGAAGAGGACAAGTCGAAGCAGCTGACGGAGCTCCGCCATGCCACAAAAGACGAAAGCGGCCTCATGATTCATACGGAGAGCATTATTCCGGGACGCAGCGGCAGCGTGATACGCATGACTAGACAGATGAAGGGTTTATCTTCCACGGCGGAAAAAGGCGTGCTCGCCATGGAGGTGCGCTCCCAGGAGCTGTCCTCCCTGTGGAAAGGCATCGATCTGGGTGAACGGGGATACTTCTATATTGCCGATGCCAGCGGTCACGTGGTTTACCAGCCCGAAGGGCTGGAGGACAACGCTTCGTCTCCCGCCCGGGATTCGAAGCTGACCGCCGCCATTATGGGCGCGGACGAGGAATCCTTTAAATATACGACGGTCGATGGAGAGCAGCGGGTATTCATGACCCGGATGTCTCCTTATTCCGGATGGCGCTTGGTAGCCTCGATTCCGCTGGAAGAGTGGCGCCAGCCGATTGCCAATATCCGCACGACGGCCTGGACGATCGGCTTGATCAGTCTCGTCGCCGCTTGTTTGCTTGCTTACCGTTTCACCCGTTCCATTACCCAGCCGATCCAGACGATTATCCGCGGGATGCGGCAGACGGAGCAGGGCCGATGGATTCCCCTGGACCTTCCTGAACGGCGGCAGGATGAGCTGACGGAAATGATGCAGCGGTACAATCTGATGGTGAGCCGGCTGTCGGAACTGATCGAGCGGGTATACGAGACCGAGCTGCAGCAGCAGAAGACGATCATCGAACGGCAGAAGGCCGAGTTTCAGGCGCTTCAGCTGCAGATCAATCCGCATTTCATGTACAACACGCTGGAGACCATCGTCTGTTATGCCGAGGTTGAAGGCTCGTCCGAGATTACCGAGATGGTGTCTTCGCTGGGCTTTATGATGCGATACTCCTTACTGACCTCGCTAGAGGAGATTACGGTTGCGAACGAACTGAACCATGTGCTGAATTATATGACCATCATGAAGCACCGGCACGACATGGAATTCGATCTTCGGGTCGAGGTTCCCCACGAGCTTCTCCTGTACAAAATGGTGCGCTTGACGCTTCAGCCTTTAATCGAAAATGCATTCCAGCATGCGTTTCCGGACGGCATCGAAGCCTCGCAGCACATCATCATCTCTGCCGGATGCAGCGACGATGCTTTCTGGGTCAGCGTGACGGACAACGGCATCGGCATGACCGATGAACAGCTGCACGAGGTTGCGGCACGGCTGTCCTACGAGCACGACCACACGAATCATTCGCCGGAATCCTCCCTGAACCTTAGCGGTACCGGAGGCATCGGACTGCTTAACGTGCATCGCCGGATTCAGCTGGTATTCGGCGAGAGTTACGGACTGCGCCTAACCTCCGCGGGCGTGGGGACGGGAACCACCATCCGCATGGTCATGCCGAGTCCGCCGCGTGTTTAG	MKNKLYRKLFLYCVSIIALSSLLIGIVTYARSSAELDRQLDRHLSQIVQNALNHTDLYIKSYDRTMISLLTNRELKKFVDLPNPADHYEYYHISSTIKDTVFRPLMDRGPELLTMYLLSYNGNASYSFGSDFTAPVFSEEDKSKQLTELRHATKDESGLMIHTESIIPGRSGSVIRMTRQMKGLSSTAEKGVLAMEVRSQELSSLWKGIDLGERGYFYIADASGHVVYQPEGLEDNASSPARDSKLTAAIMGADEESFKYTTVDGEQRVFMTRMSPYSGWRLVASIPLEEWRQPIANIRTTAWTIGLISLVAACLLAYRFTRSITQPIQTIIRGMRQTEQGRWIPLDLPERRQDELTEMMQRYNLMVSRLSELIERVYETELQQQKTIIERQKAEFQALQLQINPHFMYNTLETIVCYAEVEGSSEITEMVSSLGFMMRYSLLTSLEEITVANELNHVLNYMTIMKHRHDMEFDLRVEVPHELLLYKMVRLTLQPLIENAFQHAFPDGIEASQHIIISAGCSDDAFWVSVTDNGIGMTDEQLHEVAARLSYEHDHTNHSPESSLNLSGTGGIGLLNVHRRIQLVFGESYGLRLTSAGVGTGTTIRMVMPSPPRV				NA	NA	NA	NA	NA
AK002_01148	1821			Retaining alpha-galactosidase	ATGGATCATGAGCTGTCCCCATCTCTGTCGGCGCCGTTTTATGCTCAGCTTCATTCCCCTGACGGGAATTTGCAGATCACCCTGGAGCAGGCGCATAACGGTCCCCTCTTGTATACGGTTATGAACAAGGGATTCCGGGTTCTTGACAGATCCCCGCTCGGACTCATCACGGACAGATACCAATTTCAGCAAAATATCCGCATCCAGGGGGTTGAGCACAACACGATCACGGAGCGTTACGAGCTAATGACCGGCAAGCAAAAATCGCAGTCTTACGAAGCAAGCGAGCTGGTGCTCCTAACTTCCGTCGAGCATCATCAGGTGAGGATTCGATTCCGCGCTTTTCGAGACGGCGCTGCTTACCGTTATGAGCTGCAAGGAGAAGGTGATATTCGCATCGAGAACGAGATCTCCGGATTCCATCTGCCGGGGGATCGGATGCTTAACGTCTGGGCGCAGCCGTTCATGCGGTGTTATGAACGAACCTATGACCACGCCATGCCGGACGATCTTCGGGGAGGGCATTTCGGCTTCCCGCTCTTGGTTCAATCGACAGAAGAGCAATGGCTGCTGCTGACAGAAGCTGCCGTGGACGGCGGTTATGGCGCCAGTCACCTTGCAGCCGATGAGCAAGACGGCCGGAAGCTTCGCATCTCGTACGCTCCGGATCAGGAAACGCCGATTGCCGCGCAGCTTCCGCTCTCGACGCCCTGGCGCGTCATGATCATCGGATCGCTCGGGGATCTGGTGACTTCATCGGTAACGACTCATCTATGTCCCCCGCCCGTGCTGAAAGACACCTCTTGGATCGCTCCGGGGAGAGCAGCCTGGTCCTGGTACGCGGAGGGCGATTCTTGCGGCGATATGGATGCTCAGCGGCAGCATGTCGATTTTGCCGCCGGAATGGGATGGGAATACGTCGTCGTTGACGGCGGCTGGGAGGGTGTGCTGGATGCGCCTCAGCTGATCGATTACGCGAAGGAGCGCGGCGTCGGCATCTGGCTGTGGACGCATTATCAAGGGCTGAACACGGAGGAACTCCGTGAAGAGAAATTACGCCTGTGGGCCTCCTGGGGTGCTGTTGGGATCAAGGTCGATTTCTTCGACAGCGACAATCAAGAGACGCTCCAGGTCTACGACGCCATCGCCGAATCCGCCGCCATGCACCGGCTAATGGTTAATTTCCACGGATCCACCAAGCCGAGCGGGGAGCACCGGACATGGCCTCATGTGATGACTAGAGAAGGCGTTTACGGCGCGGAATACTACCGGGCGCAGAGTGAAGGCCCGAATGCGGTTCATCTCTGTACCTTGCCGTTTACGCGAAATGTGATCGGATCCATGGACTTTACGCCGGTCACGTTCAGCAGGAGGACCAACACGACCCAAGGGCTTCAGCTCGCACTGGCCATCCTCTTCGAGTCCGGCATCCAGCACTATGCGGACGCGATCTCCGTGTTCGCGGACCATCCAGGCAAGCCGCTGCTGGCCGCGGTTCCGGCCGTCTGGGATGAGACGCGGCTGCTGGAAGGTTATCCGGGCCGGTACGTTACGATCGCCAGACGATCCGGCGCGGAATGGTTCGTCGCCTCCATCTGTGCCGCAGGAGGACGAGATGCCCGAATCCCGCTGGATTTCCTTGAAGAACATACGACATATCAAGCGGTGATCTATCAGGAGCAGGCAGAGCCGGACGAATATCGTTATCGCTCCGTTCTTCCTCCCATTGAGATTCGCACGGAAACCTGCTGCAGCACAGATACGATCACGAAGCGCCTGAAGATATATGGAGGTCTTTCCATCCATCTCACGCCGCTTTGA	MDHELSPSLSAPFYAQLHSPDGNLQITLEQAHNGPLLYTVMNKGFRVLDRSPLGLITDRYQFQQNIRIQGVEHNTITERYELMTGKQKSQSYEASELVLLTSVEHHQVRIRFRAFRDGAAYRYELQGEGDIRIENEISGFHLPGDRMLNVWAQPFMRCYERTYDHAMPDDLRGGHFGFPLLVQSTEEQWLLLTEAAVDGGYGASHLAADEQDGRKLRISYAPDQETPIAAQLPLSTPWRVMIIGSLGDLVTSSVTTHLCPPPVLKDTSWIAPGRAAWSWYAEGDSCGDMDAQRQHVDFAAGMGWEYVVVDGGWEGVLDAPQLIDYAKERGVGIWLWTHYQGLNTEELREEKLRLWASWGAVGIKVDFFDSDNQETLQVYDAIAESAAMHRLMVNFHGSTKPSGEHRTWPHVMTREGVYGAEYYRAQSEGPNAVHLCTLPFTRNVIGSMDFTPVTFSRRTNTTQGLQLALAILFESGIQHYADAISVFADHPGKPLLAAVPAVWDETRLLEGYPGRYVTIARRSGAEWFVASICAAGGRDARIPLDFLEEHTTYQAVIYQEQAEPDEYRYRSVLPPIEIRTETCCSTDTITKRLKIYGGLSIHLTPL	PGPT0018560_2408	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
AK002_01149	2784			hypothetical protein	TTGATGAGACAGGTGCGCAAGCGTAACGGACAGATAAGAAGGGGAAGTATCATACTGCTGCTGGGTATTCTGCTGTTTTCGTTCGGAAATCCGCCAATACAGGGGGAAACGGTGGCAGCCGATGGGGTGGAGCGGGTCAACCAGGCAATGAATAGGCCGGCAACGGCCAGTTCGGAGATCAGCGGGCGTGAAGCCGGGAAAGCCGTGGATGGCAGCAAGGATACCTATTGGCAGCCGGCCAGCACGGACCGTGAGGACATGAGTGTACATGTTCAGGTGGATCTGGGGAGCGAGCAGTCTCTCAACCAGGTCGTCCTGGACTTAAACCGGGGAGATAATTTGGGCAGCATCGAGATTGATTATTCCCTTGACGGCGAGTCTTGGACCAGAGCCTATGCGAAAAATGGGGGCATTCGAGCGGACGGTCAGGAAGTCATGGCGTTTAATTCCGTAAGCGCTTCCCAAGTACGGGTGACTCTGCAGCTCAGCCGAAATCTCAATGTTCAGCTTAAGGAGTTGGAGATTTATATGCAGGATGGAGATCAAGGGATTCCGTCGGACGTAACGGAGCTGGCTTTCGTGAAGCCGGATGGCACTCCTTATAACAACAATGATGAACGGACCTTGGACATTGGAGAAACGTCGGCCTTGGAGGTGCGCGGCAAACGAGCCAACGGAGAGTGGGTTGCGCTGCCTCAAGGCCAGGTTCAATACCATGCTGCGGGGAGCAGCATGGCCGTGGATACAGCCGGTTCCGTAACCGGAGTCAAGGTCGGCGCCACCCGGATGTATGCGGAAATCAGCGTTAATGGCCAAACGGTTGGGACGCCGGATTTCTGGTTTGTCGTGAAGGATGATCAGGAATTCCGGGATGCGAAATATATTGCTTTCAGCTCGTTCACGCATCCGACGTTAGTCCAGAAGATCGGCGAGGCGGCGATCCTGGATGACGGCAAGCCATTGCCTGTCGTCACGATTGCTCCGAATACGGATGGGACCGTTAGCGCCAGATGGTTCAAGGACGGCCAATCCAGAGGTTTGCTGGACACAAAGCCGCTGCAAACGGGGATAAGTCAATCGATCACTCTTCCGGGCGGGATGAAGGTACCGGGCACGCACGAAGTGAGGATGACGTTCCAAGCCGCGGACGGGGGAACTTACTACGACAGCTTGTTTTACACCGTCATGCCCAAGAAAGGAATACCTGACGGTCAGAGTCATATCGCATATACCGGAAAAGACGGAAGAATGGTGTATGTTCCCGATTATAAAGGAAATCGGATCATCGATTTCTCGAATGTCGGTTATATGGGCGGCGGGGTGAAGCTTCCCGACGTGCAGGCGAGGATTGCCGTGCAGCCGACCGGGGGGGATGATACGGCGATGCTGCAAGCGGCGATCGATGAGGTGTCGCAGCTGCCGCGCGACGCGGACGGCTTCCGGGGGGCCGTTCTTCTAAAGAAGGGCACGTATCTGGTCGGCGGATCGCTGAACATCCAGGCGAGCGGCGTCGTGCTGAGGGGCGAGGGGAAGAGTGAGGACGGAACCATCATCCGGGGCACGGGAACAACGGCCAGAAATTTGATCGTCGTGGGCGGAACGAATGGTGCAACGATTGTGGATGGCACGGAGACCGATATCCAGGATCTGCACGTTCCGGCAGGCTCGCGTTCCTTCCATGTCCAGGATGCCTCTGACTATCAGGTGGGCGATTCCGTCATCGTCCGGAGGATCGGCAACGACCGCTGGATTCATGAAATCGGCATGGATCATATCTACATGCGGCCAGGAACCGGAGGAACGCAGCAGTGGTCCCCGTTCAATCTGGATTTTGACCGCGTGATTACGGCGATCGACGGCAACCGGATTACGGTGGACGCTCCGTTAGCGAATGCCGTTGAGCGTCAATGGGGCGGGGGCAAGCTATTCAAGGCGACGGACGAATCGCGAATCGAGCAGGTAGGGATCGAGAACATGCGCGCCATATCCGATTTTGATCCGAGCAAAACCGACACGAAGATGGATAACGATGTTCTGGACACCCCGTATTACTCCGATGAGGACCATGCAGAACGTTTCATCATGATGAACAGCGTGAAGAATGCCTGGGTGCGAGAGGTGGCCGGCTACCATTTTTCCTATGCCTTGGTGCAGGTCGGGCGGCAGGCCAAGTGGGTCACGGTGCAGGACAGCGAAATGCACGACATGGTCAGCATTATTACCGGCGGGCGGCGTTACAGTTTTTTCATCCAGGGGCAGTTAAATCTGGTGCAGCGCAATTATACGGAGACTTCCCGTCATGCTTACGTCATTGAAAGCCGCGTGCAAGGGCCGAACGTGATGTACGACAATAAGGCCACTCGCGAATACAATACAAGCGAGCCGCACCATCGCTGGTCGACAGGCGGTTTATACGACAACGTCAGCGCGCGCATCAGCGTCCGCGACCGGGGATGGCTGGGCAGCGGACACGGGTGGGCCGGCGCGAATTACGTCATGTGGAATACCGAAGGCGGGCTTGTCGCCCAGAAGCCCCCCACTGCCCAAAACTATGTCATCGGGCATATCCCTACCGAAGACGGCCTGAACGTGAAGCCGCTCGTTCCGAGTGCCTACGATCCAAGACCTCGCGAGGACGGTTATTGGGAATATGCCGATCGGCATGTGGCACTCCAGAGTTTATTCATTCAGCAGCTGAAGGATCGCCTGGGGCAGCAAGCGGTAGATCATCTGGCCCGAGCCCCGGTGGGCGGCGGTGCTTTGGATATACCGGAACAGCCTTAA	MMRQVRKRNGQIRRGSIILLLGILLFSFGNPPIQGETVAADGVERVNQAMNRPATASSEISGREAGKAVDGSKDTYWQPASTDREDMSVHVQVDLGSEQSLNQVVLDLNRGDNLGSIEIDYSLDGESWTRAYAKNGGIRADGQEVMAFNSVSASQVRVTLQLSRNLNVQLKELEIYMQDGDQGIPSDVTELAFVKPDGTPYNNNDERTLDIGETSALEVRGKRANGEWVALPQGQVQYHAAGSSMAVDTAGSVTGVKVGATRMYAEISVNGQTVGTPDFWFVVKDDQEFRDAKYIAFSSFTHPTLVQKIGEAAILDDGKPLPVVTIAPNTDGTVSARWFKDGQSRGLLDTKPLQTGISQSITLPGGMKVPGTHEVRMTFQAADGGTYYDSLFYTVMPKKGIPDGQSHIAYTGKDGRMVYVPDYKGNRIIDFSNVGYMGGGVKLPDVQARIAVQPTGGDDTAMLQAAIDEVSQLPRDADGFRGAVLLKKGTYLVGGSLNIQASGVVLRGEGKSEDGTIIRGTGTTARNLIVVGGTNGATIVDGTETDIQDLHVPAGSRSFHVQDASDYQVGDSVIVRRIGNDRWIHEIGMDHIYMRPGTGGTQQWSPFNLDFDRVITAIDGNRITVDAPLANAVERQWGGGKLFKATDESRIEQVGIENMRAISDFDPSKTDTKMDNDVLDTPYYSDEDHAERFIMMNSVKNAWVREVAGYHFSYALVQVGRQAKWVTVQDSEMHDMVSIITGGRRYSFFIQGQLNLVQRNYTETSRHAYVIESRVQGPNVMYDNKATREYNTSEPHHRWSTGGLYDNVSARISVRDRGWLGSGHGWAGANYVMWNTEGGLVAQKPPTAQNYVIGHIPTEDGLNVKPLVPSAYDPRPREDGYWEYADRHVALQSLFIQQLKDRLGQQAVDHLARAPVGGGALDIPEQP				NA	NA	NA	NA	NA
AK002_01150	2598			hypothetical protein	ATGGAGAGGGAGACAACAGGAAGTAATGCCGAGAATTCTCTTGAAGGGCATCAGGCAGGTCGTGAGTTTGCGGGGCAGCCCGGGGTGGGGGGGACAGATGGAACCGCTGCGCGGCGGTCTGACATCTCCGCAAATCGGGGCTTGCGGTTGTGGTACGATTCCCCGGCAGCCGAGTGGAATGAAGCTTTGCCGATCGGGAACGGTCGCCTGGGAGGCATGGTCTTTGGCAAGCCTTCGCTTGAACGCGTGCAGCTAAATGAAGATTCTCTCTGGTATGGAGGTCCGGGGAGAGGAGGCAATCCTAACGCCTCTCGGTATTTGAGCGAGATCAGGCAGATGCTCTTCGATGGGCGACAAGCCGAGGCCGAGCATTTAGCCCGAATGGCGATGACGTCCTCCCCGAAATACGAGCAGCCGTACCAGCCGCTGGGCGATCTGCTGCTCAAATTCCTGGATGGGGAGGAAACGGTGGAGCATTATGAACGAGAGCTGGATCTGGAGCGGTCGATGGTGACCGTATTCTATTCGTCCCGGGGCATCCGGTATCGCAGGCAGTATTTTGCCAGTGCGCCGGATGGCGTGCTGGTCATTCGCCTGTCTGCCGACAGGCCGGGGGCGCTGACGTTTGCGGCGAACCTGATGCGCCGTCCGTTTGATGGGGGGACGGCATCATTGCGTCATGACACCCTGCTGATGGAGGGAGAGTGCGGTGCGGACGGCATTTCCTTTGGCATGGCGCTGCGCGCTGCCGCTGTGGGAGGAGCCGTTCGAGCCATCGGTGATTTTCTCTCGGTAGAAGGAGCGGATTCCGTTACGCTGCTGCTGTCAGCCCAAACTTCCTTTCGATGCCGGCAGCCGGTCCAGGTCTGTCTGGAACAGCTGGATCGTGCGGCAGGCATGTCGTACGAGCAGCTGGTAAACCGTCATCAGGCGGAGTATCGGGAGAAGTTTGAACGGTTCTCCCTAACGCTCGGCACAGGCAAGAACGGGGCGGGCAGGACGGAATGTGTCGATAGTGGAACTTCCTTTTCGAATGGGACAGAGGTAATCCGCGCTTCGGATCGAGTCGAATATCCTAATGGAATAGAAGACGACCAGCCGTCCCTGCCCACCGATCGGCGGCTGAATTTGCTGAAGGATAGAGTGAAGACGGAAGGTGCTTCCGCGGAAAATAGCGACCCCGAATTGATCGCGTTATACGTGCAGTACGGGCGATACCTGCTCATCTCCTGTTCCAGGCCCGAATCTCTTGCTGCGAACCTGCAAGGCATATGGAATGACAGCTTCACCCCGCCTTGGGAGTCCAAGTATACGATCAATGTGAACATTCAGATGAACTATTGGCCGGCAGAGCTGTTGGGCTTGGCGGAGTGCCACGAGCCGTTGTTCGACCTGATTGACCGGATGCTCCCTAATGGCCGCGATACGGCTCGGGAGATGTATGGCTGCCGCGGTTTCGCGGCGCATCATAATACGAATCTTTGGGGAGAAACCCGGCCCGAAGGGATATTGATGACCTGTACCGTATGGCCGATGGGAGCCGCGTGGCTGTGCCTTCATCTGTGGGAGCATTACCGGTTTGGCGGCGATGCGGATTTCCTGCGGGAGCGGGCGTATCCGGTCATGAAGGAAGCGGCAGAATTCCTGCTGGATTATATGACCGTGGATGAGGTAGGGAGACGGATGACCGGCCCTTCCGTTTCGCCGGAAAACCGATTCGTGCTTTCGAACGGAGCCGTCGGCAGCCTCTGCATGGGGCCGGCCATGGACGGGCAGATTGCGACGGCTTTATTCCGTGCCTGCCTGGAGGCCGGCCATCTCGTCGGAGATGAGCCTGCCTTCTTAGGGGAGCTTCAAACGGCGCTGGAGGAAATTCCGGCACCGCAGATTGGACGCCATGGAGGGATCATGGAATGGCTGAACGATTACGAGGAGGCTGACCCAGGGCACCGGCATATCTCGCAGTTGTTCGCCCTGTATCCGGGAGAGCAGATTGATCCTGCCCGGACGCCGGAGCTTGCCGAGGCGGCTTGCAAGACCTTGGAGCGGCGGCTTGCGCATGGCGGCGGCCACACGGGCTGGAGCCGCGCCTGGATCATCAATTATTACGCCAGGCTGCAGCGCGGAGCGGAAGCGCATGAGCATCTCGTGAATTTGCTGTCTTCCTCGACTTATCCGAATCTGCTGGATTGCCACCCGCCTTTTCAAATCGATGGCAATTTCGGCGGGATTGCCGGCGTTGCCGAAATGCTGCTGCAGTCGCATATGGGAGAGTTAAGGCTGCTCCCCGCCCTGCCCCCGCAGTGGAATAGCGGCGAGGTGAAGGGGCTGCGGGCCCGCGGCGGCTATGTTGTCGACATGCGCTGGGAGGAAGGCGAATTGAGCGAGGTGAAGATTCGGGCAGATAGGGCTGGCGAGTGCAGGGTCTGGTCCCGTGCGGCACTTGTCCTCATAGAGGAAAAACAGTTGGGAGAGGTAACTCTGACGAGTACCACGATATCCCCCAGAGGCCATGGCTACTCCATCCGTATGCAGCAGGGTGCCAGCTGCAGCTTGGAGCGGCCTGTGGAGGACGCCTATGGAACGGTTGAAGAATAA	MERETTGSNAENSLEGHQAGREFAGQPGVGGTDGTAARRSDISANRGLRLWYDSPAAEWNEALPIGNGRLGGMVFGKPSLERVQLNEDSLWYGGPGRGGNPNASRYLSEIRQMLFDGRQAEAEHLARMAMTSSPKYEQPYQPLGDLLLKFLDGEETVEHYERELDLERSMVTVFYSSRGIRYRRQYFASAPDGVLVIRLSADRPGALTFAANLMRRPFDGGTASLRHDTLLMEGECGADGISFGMALRAAAVGGAVRAIGDFLSVEGADSVTLLLSAQTSFRCRQPVQVCLEQLDRAAGMSYEQLVNRHQAEYREKFERFSLTLGTGKNGAGRTECVDSGTSFSNGTEVIRASDRVEYPNGIEDDQPSLPTDRRLNLLKDRVKTEGASAENSDPELIALYVQYGRYLLISCSRPESLAANLQGIWNDSFTPPWESKYTINVNIQMNYWPAELLGLAECHEPLFDLIDRMLPNGRDTAREMYGCRGFAAHHNTNLWGETRPEGILMTCTVWPMGAAWLCLHLWEHYRFGGDADFLRERAYPVMKEAAEFLLDYMTVDEVGRRMTGPSVSPENRFVLSNGAVGSLCMGPAMDGQIATALFRACLEAGHLVGDEPAFLGELQTALEEIPAPQIGRHGGIMEWLNDYEEADPGHRHISQLFALYPGEQIDPARTPELAEAACKTLERRLAHGGGHTGWSRAWIINYYARLQRGAEAHEHLVNLLSSSTYPNLLDCHPPFQIDGNFGGIAGVAEMLLQSHMGELRLLPALPPQWNSGEVKGLRARGGYVVDMRWEEGELSEVKIRADRAGECRVWSRAALVLIEEKQLGEVTLTSTTISPRGHGYSIRMQQGASCSLERPVEDAYGTVEE	PGPT0018650_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_01151	966	msrA_1		Peptide methionine sulfoxide reductase MsrA	TTGAAGCATGGAAGCGGCAAGACCTCATTGGCGACATTTGCCGGCGGTTGTTTTTGGTGCATGGTGAAGCCGTTTGACGAGCTGCCCGGCATCCTTTCCCTGGTTTCCGGCTACACGGGCGGCCATACGGAGAATCCGACCTACGAAGAAGTAGGAACGGAAACGACGGGGCATTACGAAGCCGTGCAAATCCGGTTTAATCCGGATGTGTTTCCATACTCACGGCTGCTGGACATCTATTGGCGCTTGATTGATCCAACGGATGCGGAAGGCCAGTTCATGGACCGCGGGGCATCTTACCGGTCGGCGATTTTCGTGCATGGCGAAGAGCAGCGCGAGCATGCGGAAGCCTCCAAGCGCAGCCTGCAGCTTAGCGGCCGGTTCAAGGGGAAGATCGTGACGCCGCTCCTGCCGGCGGGTCCCTTTTATCCCGCGGAGGATGTCCATCAGAACTACTATAATACCCACCGGTACGACTATAACCGATATTATGAGGGTTCCGGCCGGGATTCTTTTGCGAAGCGGCATTGGAGGCGGAAAGAGGACCAGGATGAGCTGCGCAGGCGTCTTACCGCAATCCAATACGCGGTGACGCAAGAAGGCTTGGACGAGCCAGCCTACGATAATCCGTATTGGAATCACGCAAGCCGGGGGATTTACGCGGACGTGGTGAACGGCGACCCTCTATTCAGCTCGACCGATCAATATGATGCTGGTACGGGATTGCCGGCTTTTAGGAAGCCGCTGAACGAAGGATTTATCAGCAAAAAGGGGGATCTCCGCGGCGGCAAGGTACGCACCGCGCTCTACGGCAGATTGTCCGGCTCTTACCTGGGACATCTGTATCATGACGGGCCCCAGCCGGGCGGCCTGCATTATCAGGTGAACTCCGGGGCGCTGCGTTTTATACCGGAGGAAGCGCTGGTCCGGGAAGGCTATGGTGAATTCGCCGGGCTGTTTGAGTAG	MKHGSGKTSLATFAGGCFWCMVKPFDELPGILSLVSGYTGGHTENPTYEEVGTETTGHYEAVQIRFNPDVFPYSRLLDIYWRLIDPTDAEGQFMDRGASYRSAIFVHGEEQREHAEASKRSLQLSGRFKGKIVTPLLPAGPFYPAEDVHQNYYNTHRYDYNRYYEGSGRDSFAKRHWRRKEDQDELRRRLTAIQYAVTQEGLDEPAYDNPYWNHASRGIYADVVNGDPLFSSTDQYDAGTGLPAFRKPLNEGFISKKGDLRGGKVRTALYGRLSGSYLGHLYHDGPQPGGLHYQVNSGALRFIPEEALVREGYGEFAGLFE				NA	NA	NA	NA	NA
AK002_01152	345			hypothetical protein	ATGATAATCAAACTGCTGTACCTTGTAGTGAATTTGTTTTTTCTGGCAGGGATACTGCTCTCCCCGTATAGCCCAGCTTCCAAAGTGTTGATGTATATCGTCATGAGCCTGATTCTGGCGTTCGCATTCAAAAGATTATCTAAGGAAGAAGGCGGGGGAGAAGGATCGTGCCGTAAACTTCATCTATACCCGTTCTCTCCCACCCGCATGGCTGGCAGCTCCGTTAGAATAGGATTGGGCAAGACCCAATACTTGCGTCCATGTGCGGAAAGGAGTGACGTTGTTGAATACGATTCATATTCACAATGGGATACAGATGATGAGAGGGCTTGTTGCTTAGGATAA	MIIKLLYLVVNLFFLAGILLSPYSPASKVLMYIVMSLILAFAFKRLSKEEGGGEGSCRKLHLYPFSPTRMAGSSVRIGLGKTQYLRPCAERSDVVEYDSYSQWDTDDERACCLG				NA	NA	NA	NA	NA
AK002_01153	963	thrB_1		Homoserine kinase	ATGATGAAGTTAACGACGATGGTTCGCGGACTTGCTGGCGACAAGGCCGCCCGCGAGCTGATCCGCAACTGGGAGTTTGATGAGGGAACGCTGAAATTTTGGCGGGCCAGCTCCAACTTCGTGTATGTGTTTAACCACGATGGAGAGCGTTATTTCCTCCGGTTTAATTTCGAGCAAGAACATGCGGCCCAGCAGCTGACGGCCGAGGTGGAATTCATGCAGTATTTGCTTAAGCACGAATACCCTTGCGTCGCGCCGATTTCTTCCGTGAACGGGAAATGGATCGAGACGATTCAGGAACCGGAGGGGCAGTATCACGGCGTCGTGTTTCGCGCCGCAGGAGGGATTGCTCTGCATGACAATCTCACCGTGTCCCAATGCAGGGACTGGGGGAAATCGCTCGCAAGGCTGCATACGCTGTCCAGCCGATATGAACCTGGAGCCGTAAGGCGAAGAAGCGCGGAGGACATCCTGCGTTTGATCGATCAGGTGCTGCGGCGGCATCCCGGGGAGCAGGATGCTATGGATGAGCTTCATCGGGTCAGTCTATGGCTGCAGTTCCTGCCGGCGTCGAGACAGACGTACGGCTTGATCCACTATGACTTCCAGCTGGATAACATCTTTTATGAAGCGAAGGAAGGTTCATTCCGCGTGATCGATTTCGACGATGCCATGTACCATTGGTATGCGGCGGATATCGTCACGGCTCTTGCCGATGCCGAGTCGGAGCATGCCAAGCAGGCATTCCTGAAAGGGTATCGCTCGATCCGAAGCCTGGATCACGAGCTGGAGGCAGAGTTTTCAAGATTTCAAAGATTCAGCCGTCTGTACGGTTTTGCCAGAGTGCTGCGATCCCTGGAGGACAGCGAGTTGGCCGATGTCCCCTCTTGGTATGAGGGGCTTCGCACGAAGCTGCTGCGCGATTGCGAGCAGGATAGGCAGGGGTTCAAGGAACCGTGGTAA	MMKLTTMVRGLAGDKAARELIRNWEFDEGTLKFWRASSNFVYVFNHDGERYFLRFNFEQEHAAQQLTAEVEFMQYLLKHEYPCVAPISSVNGKWIETIQEPEGQYHGVVFRAAGGIALHDNLTVSQCRDWGKSLARLHTLSSRYEPGAVRRRSAEDILRLIDQVLRRHPGEQDAMDELHRVSLWLQFLPASRQTYGLIHYDFQLDNIFYEAKEGSFRVIDFDDAMYHWYAADIVTALADAESEHAKQAFLKGYRSIRSLDHELEAEFSRFQRFSRLYGFARVLRSLEDSELADVPSWYEGLRTKLLRDCEQDRQGFKEPW				NA	NA	NA	NA	NA
AK002_01154	615			hypothetical protein	ATGAATCGAAAAATGATTTTATCCACGGCCGCGTCTCTTCTGGTCGGGGTAGTGGCCGGCACGGGCATCATGATGAACGACCAGGCTTACCAGTCGGTCAAGCAGGCCGTAGGAGGAAGCGCAACGAACAATTCCATTGGCGGGATCGGCAACGTCGCACAGATCGATCTGTCCAGCATGGATATTGAGAGCGCACTGATGGTCGTGCAGCAGCAGCGGACACAGATGCTGGATGCGCAGCTTAACAACCAGATTCAGGACGTGCAGAAGCGGAACGAGGAAATCGCCAAGAAGAACGACGCCATGGCAGGCATTAACAGCGCTTTGACCGGAGAAGCAGTGGACGGCAAATATTCGATACCGGACGATCTTGCCGGCAAGCTGGCAGCGGAAGGCATCGCAGATGCATCCAAGAAGGAATATACGGCAGAAGAGCTCAATCAAGCAACAGAGAAGCTGAAGGGATCGATCGACAGCTTATCGAACTCCCAGCAAATGGACATGCTCCGTCTGCAGTCGATGACCAACAAGCGCAATGAAGCCTTTGACGTCATGACGAATTTTATTAAGAAAATGGAAGAATCACGCAGCAGCATCATCGGAAATATGCGATAA	MNRKMILSTAASLLVGVVAGTGIMMNDQAYQSVKQAVGGSATNNSIGGIGNVAQIDLSSMDIESALMVVQQQRTQMLDAQLNNQIQDVQKRNEEIAKKNDAMAGINSALTGEAVDGKYSIPDDLAGKLAAEGIADASKKEYTAEELNQATEKLKGSIDSLSNSQQMDMLRLQSMTNKRNEAFDVMTNFIKKMEESRSSIIGNMR				NA	NA	NA	NA	NA
AK002_01155	1881			hypothetical protein	ATGACGACGAAGGCCATGGAGTTTTTGCGTAATCATACGCTGTTTCGCGGGGTGCCGCTGCATGAATTGGAAGGTGCCGTCCAGTCCATGCATGAGGAGCTGTTTCATGACGGGGACCCGCTGATCGTAGAGGGAAGCTACGGCAATTCCTGTTATTTCATCATGAGCGGGCAGGTTCAGATCGTTTCGAGGAATCTGATCGGCCACACGGTGACGCTGGACGTTCTGGGCGAAGGCGCATTGATCGGTGAGGTCTCCCTGTTTCTTGAGGAAAAAAGGACTTCGGGTGCCCAGGCGATCGGCGAAGTAACGGCATTGCGGCTGGAGCAGAACGCGTTCAGCCGGCTTGCCGCGGCAAGCCCGATGTTTCACGAGAGCCTGTCGTTCTCGGCCCGAATCCGCACGATGCATGCGATGCTGAGCAAGGCGACGATCTGGGCCGCGATTCCGAACGCGGAGCTGCGCGGTCTTGCCGAAGTCACGGTCAGGCGGAAAGTATACAAAGGGGACGTCATTGTCGCGGAAGGCACCATGGCGGACCGTTTCTATATGATTGCCGAAGGACGGTTCGAGGTGCGCAGCGGGCGCCGGAAGAAGGCGGTCTATAAGCCCGGGGATTATTTCGGCGAGATGGACCTGCTCAGCGGCGAAGCCCATACGGGCACGGTGACGGCGCTTGAGAACGGCGAGCTGATGGTGATGGGCAGGGATGAGTTTCATTTCGTCCTGCAGCAGTACGAACCGGTCAGGCGGCAATTTCATGAGGTGCTGCGGATTCGAAAGCCCGAACTTCTCAATGAAGAGGTATCGGCGAAGCTGCAATTCACGGAGACTGAGCAGGCGCCGGAAGCTGAAGTCGAGGCTGCCGCGACCCTAGAAGCCGTCATTCCGGCCCCTCCCAAAAAAGATCGCTGGATGGATGTGCTGCTGGCGCTTGGCGGCATTTTCGTTGCGTTCACAGGGCTAGCCATTTGGCTGAAACAGCCGGTATGGATATATGCCGCTTTGATATCCGGCGGATTCGTTGGACCGGTTTCGTTTGTTGCTTATATGCGCAGCTCCCAGCTGCTCGGATTCAAGCCCATTCGGCTGGCAGCCGTATTCGCGGCTTCCGGCATCATCGCCGTGCCGGTTGCGTGGGTGCTGGAACGCTTCTGGTCCGTCGGCAGCGGTCTGGAGACAACGACCATCGAGCATGTGCAGGCAGCGCTTCTGATCGGCGTTATCGAAGAAATTGCCAAGCTGCTCGTATGCTTTTTCTTTCTCCGCGGGCGCAAGCAGCGTTTCCTGATGGATGCCGTAGTATTCGGAGCTGCGGCAGGCATGGGCTTTGCCGCGGTTGAGAGCATTCTGTACGGCTTCATGTATCTGCAGCAGCATGCGACTTCGGGGATGCTGGCTGTGCTGTGGGTCCGGGCGCTGCTGTCCCCGTTCGGGCACGGCACCTGGACGGCCATTGCCGCAGCCGGACTGTGGTATGGCCTGGGGAAATCCGCCAAACGGGGCTCGACCGCGCATCGGCTCCTGAGGATGGCTGCCCTACTGCTGATCAGCATCCTGCTGCATGCGGCTTGGGACTATCCATATGCGGCGGGCTTGTGGAAAATGGTCGGCATGGTCATGGTCGGGGGCATCGGCATCGCGCTGCTCTTTTCGCTCATTCGTCAAGGCACGAAGGAGGAAAGGGCGATGCATCGGGCCGTCAATCCCGCCCAGCAGGTAGAGGAACGGCTCCGGCAAGCGGTCGGCTCCGATTCGAAGCGCAGCGGTTCCGAAGGACCGGGCACCGCCCCGCCGTCTTTAACCTGCGAGGGTTGCGGCACCGTGTCGCCTGCAGGGACGCGGTACTGCGGCCGCTGCGGCCAGGCATTGCAGTTATGA	MTTKAMEFLRNHTLFRGVPLHELEGAVQSMHEELFHDGDPLIVEGSYGNSCYFIMSGQVQIVSRNLIGHTVTLDVLGEGALIGEVSLFLEEKRTSGAQAIGEVTALRLEQNAFSRLAAASPMFHESLSFSARIRTMHAMLSKATIWAAIPNAELRGLAEVTVRRKVYKGDVIVAEGTMADRFYMIAEGRFEVRSGRRKKAVYKPGDYFGEMDLLSGEAHTGTVTALENGELMVMGRDEFHFVLQQYEPVRRQFHEVLRIRKPELLNEEVSAKLQFTETEQAPEAEVEAAATLEAVIPAPPKKDRWMDVLLALGGIFVAFTGLAIWLKQPVWIYAALISGGFVGPVSFVAYMRSSQLLGFKPIRLAAVFAASGIIAVPVAWVLERFWSVGSGLETTTIEHVQAALLIGVIEEIAKLLVCFFFLRGRKQRFLMDAVVFGAAAGMGFAAVESILYGFMYLQQHATSGMLAVLWVRALLSPFGHGTWTAIAAAGLWYGLGKSAKRGSTAHRLLRMAALLLISILLHAAWDYPYAAGLWKMVGMVMVGGIGIALLFSLIRQGTKEERAMHRAVNPAQQVEERLRQAVGSDSKRSGSEGPGTAPPSLTCEGCGTVSPAGTRYCGRCGQALQL				NA	NA	NA	NA	NA
AK002_01156	1215			hypothetical protein	ATGTATATACCTTATCATCCTATGGGGATGCAGCAGCAGGCTGCCCTTCCCCATGCGAGGAAAGCTCATCACCCAACAAGTCCTTACCAAATGCTGTTCCACTGGAACCGCTTGGACTGGAACTTTCCGAATGCTGCGATGAAGCAGCGGTTCGAGCTGCATCAATACTGGAAGCACTGCATGCCTGCAGGCGTCAAAGTGGACCGACAGGGGCGTTTCTATGTCTCGGTTCCGCGCTGGGCGGAAGGCGTTCCCGCCACGCTCAACACCATCGTGATGGTGAACGGCAAGCCGGTGCTGAATGCTTTTCCAAGCTGGGAGTGGAATACGCCGGGAGATGTGCGAGCGCTGCAATCCGTCCTGGGTTACGAGATCGATGAACATAACCGGATGTGGATTCTGGATCAAGGAAAAATCGCGTATAATACCTCGCCCGAAGGCTCGCAAAAGCTGGTTATCTGGGACCTGAGCGCAAATCGCCTGATCGACTCCATCGTCATCCCGGATGATATTGCACCGCCCCGGACATCGTTCCTGAACGATATCGTGGTGGATAACCGAAACGGTTACGCTTATATCACCGATTCGGGCTCCGGCTGGCCGGATCACGAGGTATACGGCGGCATCATCGTCTACAATATGAGAGCGAAGAGATTCCGCCGGGTCCTGGACAGCCATTACAGCACGCAGGACGTGCCAAGGTTCCGGTTCGAGATCGATACGGAGCCGGTCTACCGCAACAAGCCGGTCCGGATCGGCGCGGACGGCATCGCCCTGTCGGCGGATCGCGAAACGCTCTTCTACTGCCAGGTAACCGGACGCAATCTGTATGCGATCGATACGGGGCTGCTGCGTAATTTCGATACCCCCGATCCGCTCATTCGGAATTCCGTTCAAGCTCTGGGCAGCAAAGGGACGACGACCGACGGCATGCATGCCGATAATCGAGGCCATGTCTTCTACACCATGCTGGAAGGCAAAGGCATCGGTTATTATTCACCCTGCACGCGCTCATTTCACAAGCTGCTGTCCGATGACCGAATGCTGTGGGTGGACGGGGTGGCTTTCGATCAGCGCGGCTCGATCATCTTCAACAACAACCGCCTGCACCGCATGTTCGAGGAGCCGCAGAACATCGACTGGGACGATCCTTACAATCTGATTATATGGAGAGCCTACATCGGCCGGGATGTGAAGTCGTATTTATATGGTTGA	MYIPYHPMGMQQQAALPHARKAHHPTSPYQMLFHWNRLDWNFPNAAMKQRFELHQYWKHCMPAGVKVDRQGRFYVSVPRWAEGVPATLNTIVMVNGKPVLNAFPSWEWNTPGDVRALQSVLGYEIDEHNRMWILDQGKIAYNTSPEGSQKLVIWDLSANRLIDSIVIPDDIAPPRTSFLNDIVVDNRNGYAYITDSGSGWPDHEVYGGIIVYNMRAKRFRRVLDSHYSTQDVPRFRFEIDTEPVYRNKPVRIGADGIALSADRETLFYCQVTGRNLYAIDTGLLRNFDTPDPLIRNSVQALGSKGTTTDGMHADNRGHVFYTMLEGKGIGYYSPCTRSFHKLLSDDRMLWVDGVAFDQRGSIIFNNNRLHRMFEEPQNIDWDDPYNLIIWRAYIGRDVKSYLYG				NA	NA	NA	NA	NA
AK002_01157	1416	pyk_1	COG0469	Pyruvate kinase	ATGCTTAAGACAAAAATCATCTGTACGATGGGGCCTGCATGCGATTCCATCGAGCTGTTAAAAAATATGATTCAGGAGGGGATGACGGTCGCCCGATTGAATATGGCACATGGCGAGCCGGAGGATCACGTGGCCCGGATTCGGAATGTTCGCCAGGCCGCATCCGAATTAAACACGTATGTCCCGATCATGATGGACATTAAAGGTCCCGAAGTCCGGATCGGCAAGCTGAAAGAGGCTTCCTGCCTTCTGAAACCCGGTGAGGAACTGATCCTGACGACCGAAGAAATTCTGGGAGACGCCCAGCGCATCTCGGTCAATTATGCCGAGCTGAATCTAGTCGTGAAACCGGGAGACCGCATCTTGATCGATGATGGCCTCGTAGACCTGAACGTCATTCGCGTCGACGGACCGGACATTCTTTGCAAAATCGTCAGCGGCGGCGTGCTCAAGCCGCGCAAAGGCGTCAACCTGCCCGGCATCAAAACGACGCTTCCCGGCGTCACCGAGCGTGACGTCATGCATATCGGCTTCGGACTGGACAACGACATTGAGATCATTGCCGCATCTTTTGTGCGCCATGGCGACAACATCCGCGAAATCCGCAGCATCCTGAAGGAACGCGGCGCGGAGCATGTGCAGATCATCTCCAAGATCGAAAACGGAGAGGGCATGGAGAACCTGGACGACATCATTGAAGCCTCCGACGGGATCATGGTTGCCCGCGGCGACCTTGGCGTCGAAGTGCCAATCGAAGAAGTGCCGATGATGCAGAAAGAAATGATCGATAAATGCAATCTGGCGGGCAAGCCGGTTATCGTGGCAACGCATATGCTGGAATCGATGCAGGTCAATCCCCGCCCTACCCGCTCCGAGGTGAGCGACGTGGCTAACGCCGTTATCCAGGGCGCAGACGTGGTCATGCTGTCAGGGGAATCCGCCGCTGGCAAATATCCGGTGGAATCCGTGCGTACGATGGCGGCAGTCGCCCGCCGCGCCGAGACGATGATCGATTATAAGGACCAGTTCGCTTTCAAATCACGACAACAAGTAGCCGATATTACCGAGGTCATCAGCCAAGGCGCGGTCAGCTCTTCCCTCGTGCTGAATGCCAAAGCCATCATTACGTCAACGGAGAGCGGATTTACGGCGCGGATGATTTCGAAATATCGTCCGGAAGCACCGATCATCGCCGTCACGCAGCATGAAGAAGTGCTGGCTAAAATCTGCCTGCTCTCCGGCGTCATCCCGGTAAAAGGCGACAAGGTCACCACAACGGACGAAATGTTCGAGTCCGCGACCCGCAACGCCATCAAGACAGGCTACATCGAAAAAGGCGACATTATCGTATTGTCTGCCGGCGTTCCGATCGGTCAATCCGGCAACACGAATCTGATTAAGGTTCTGCAAGTATAA	MLKTKIICTMGPACDSIELLKNMIQEGMTVARLNMAHGEPEDHVARIRNVRQAASELNTYVPIMMDIKGPEVRIGKLKEASCLLKPGEELILTTEEILGDAQRISVNYAELNLVVKPGDRILIDDGLVDLNVIRVDGPDILCKIVSGGVLKPRKGVNLPGIKTTLPGVTERDVMHIGFGLDNDIEIIAASFVRHGDNIREIRSILKERGAEHVQIISKIENGEGMENLDDIIEASDGIMVARGDLGVEVPIEEVPMMQKEMIDKCNLAGKPVIVATHMLESMQVNPRPTRSEVSDVANAVIQGADVVMLSGESAAGKYPVESVRTMAAVARRAETMIDYKDQFAFKSRQQVADITEVISQGAVSSSLVLNAKAIITSTESGFTARMISKYRPEAPIIAVTQHEEVLAKICLLSGVIPVKGDKVTTTDEMFESATRNAIKTGYIEKGDIIVLSAGVPIGQSGNTNLIKVLQV	PGPT0002020_6976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
AK002_01158	780	rhaR_11		HTH-type transcriptional activator RhaR	ATGGTCACTCCGGTTGAAGTTCGGCAAATTAGCGGCGTCGATTGGTATGAGGAAGCAGACCATGGAAAGAGCGCATGGCGTCTAACCGTGGCGACCTATGGAAAATGCGTATATTGGGTGAATGGAGATAAGCAGATTATGGAGAAGGGGGAACTGCTGCTTATTCCGGCCGGCGTTCCGTATTACGGCAAAAGCATCCCTACCGTGACGCACACGCAAATGGTCGTTCAATGGACGGGAGAGCCGTCCACGGCTTTGTCCGCGCTTGAACGGGAAGAAGCGTTGAAGCATAAACCGGGCTGTTACGAATTGATCCACGAACGTTTGAAGGCGATCCACCAGCAGTGGCGGGAGCGCCCGTCTTATTATGCAATGATGATAGAAGCATTATTGACAGAAGTGTTGATTTATATCAGCCGAGAGCTGGATCGGGGCGTTATCACGCCCGAGAAGCACTTGCATGCGGAACGGATGAAATCTTACATTGAGCGGCATTACCGGGAGAGAATAACGAAAGAGGAGCTCGGCGATGCCATCGGCAAAACGCCCAATTACGCTGCGGCGCTCTTCAAGAGCGTCACGGGACAGACGATTAGCCAGTACGTGCACGCCCAGCGGATGAAACGCGCAGCGTATTTGCTGACGGAATCGCAGCTGACGGTACAGGAAATTGCAGTATTTCTCGGCTATCAGGACCTCTCCTATTTTTACAGAATCTATAAGCGGTTCACAGGCAGCGCTCCGTCGGAGCTGCTGCACGAGCGTCCGCGGACGGTCTAG	MVTPVEVRQISGVDWYEEADHGKSAWRLTVATYGKCVYWVNGDKQIMEKGELLLIPAGVPYYGKSIPTVTHTQMVVQWTGEPSTALSALEREEALKHKPGCYELIHERLKAIHQQWRERPSYYAMMIEALLTEVLIYISRELDRGVITPEKHLHAERMKSYIERHYRERITKEELGDAIGKTPNYAAALFKSVTGQTISQYVHAQRMKRAAYLLTESQLTVQEIAVFLGYQDLSYFYRIYKRFTGSAPSELLHERPRTV	PGPT0017485_877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_01159	957	tagU_2		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAAAAGGAAATGGTTCAAATACGCCATGCTCTTATTATCCGTTGGAATCTTGGGGATTATCTCGTACTATACCTACGCTATCATACAATTCTCAAACCAAATCTCGACCGCTTCGAATCCGGTGAAGCCAACGGGCAGCACGGGGGCCGCACAGGAAGAGGTCATTGAAATCCCGAAGTGGGAGGGCAAAGAACGCGTCAATATTCTTCTAATCGGAGGAGACTCCCGGGGAGACGATGCCGGAAGATCCGATACCATGCTGGTGGCCTCCATCGATCCCGTTACGAAAAGCGCCCATTTGTTCTCGATTTTGCGGGACACCTACGTGGACATCCCCGGTCATGGCAAAGGAAGGCTGAATTCGGCTTTTGCTTACGGTGGCATCGAGCTGACCAGACAGACCATCAGCGATTTGTTGGACCTGCCCATACATAAATATGTTTACACCGATTTTGTCGGATTCATCGCCCTGGTCGACGCCATCGGCGGGGTCGACATTGAAGTAGAGAAAGACATGTACTACACAAGCAAAGCCGACAAGCACATGTACGACATCGATTTAAAACAAGGGCTGCAGCATCTCGACGGCAAAATGGCGCTGCAGTACGTCCGATTCCGGCACGATGCGAGGTCCGACTTTGCCCGTACCGAAAGACAACGGATTCTCATGACGGAAGTCGCCAAGAAAATGCAGACCACGAGCTCGCTCATCAAGCTGCCCGGCATTCTGGATTCGATCGCGCCTTATATCGAGACGGACTTAAGCCCGAAGGAAATGCTGAAGCTGATGGCGCTCGGGTTTGACGTGAACCTGGACAAAGTCGATCAGCAGCAGATCCCGCCGTTCTCGCTGTTGACCAACGAGAAGGTCGGACGGGCCCAGGTGCTCGGCGTGGATAAAAACAAATTGCAGCAGTACGTGAAGGAATTGTTCGAAAGCGATGCCGCTGAATAA	MKRKWFKYAMLLLSVGILGIISYYTYAIIQFSNQISTASNPVKPTGSTGAAQEEVIEIPKWEGKERVNILLIGGDSRGDDAGRSDTMLVASIDPVTKSAHLFSILRDTYVDIPGHGKGRLNSAFAYGGIELTRQTISDLLDLPIHKYVYTDFVGFIALVDAIGGVDIEVEKDMYYTSKADKHMYDIDLKQGLQHLDGKMALQYVRFRHDARSDFARTERQRILMTEVAKKMQTTSSLIKLPGILDSIAPYIETDLSPKEMLKLMALGFDVNLDKVDQQQIPPFSLLTNEKVGRAQVLGVDKNKLQQYVKELFESDAAE	PGPT0023440_2905	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK002_01160	750			hypothetical protein	ATGCTGTACACGGTAAAAGAGGTTTCGGAAATGTCAGGGGTAACCATCAAGACACTGCATCATTATCACAAAATCGGACTGCTGCAGCCTGCCGAGATCAGCGATGCGGGGTATCGCTTGTACGGGGCAGCGGAACTGGAGCGCTTGCAGCAAATCCGGTTCTACAGAGAGATGGATTTTCCGCTGGAGCAAATTAAAGAGCTGATGGAGGAAACGCCGGATCGGCTCTCCATTCTCACGGAGCAGGAGAAGCTGCTCCTGGGCCGGTGGAATCGGCTGGAGCTCATTCTGCAGACGTTGAGGCAGTCCATAGAATATGTTGGGGAGGGAAAAAGCATGAAACCGGAAGAATTGTTCAATGGGTTTGATAGCGAAGAAGAGTGGAAGGATGCCTTGGCTGAGCAGAATCAACATTTGAAGGAGCAGTACGAGGTGGATTTGCTTGACGGAGCACCGATGGATGTTCCCAATATGAACGAGCAAGCGAAGGAAGCGGCAGGCTTTATGGCCGGCATGGCTAATGCGCTGATAACGGGAATCAGGCACGATGATGAGTGGGTTCGGGATTCGATTCGGAAGCATCTTCAATATTTGAACGAGCAGGGCCACGCCTTTACCGCCGCCGATTTTGCGGGGCAAACGAAGTTTTTCCTGAACGATGAATTCCATCTTCGGATGCTCGAAGAACAGCAGACGGGGCTGGCTTATTACCTGCATGCGGCTGCAGAGGCGTATGCGAATCTGACGTAA	MLYTVKEVSEMSGVTIKTLHHYHKIGLLQPAEISDAGYRLYGAAELERLQQIRFYREMDFPLEQIKELMEETPDRLSILTEQEKLLLGRWNRLELILQTLRQSIEYVGEGKSMKPEELFNGFDSEEEWKDALAEQNQHLKEQYEVDLLDGAPMDVPNMNEQAKEAAGFMAGMANALITGIRHDDEWVRDSIRKHLQYLNEQGHAFTAADFAGQTKFFLNDEFHLRMLEEQQTGLAYYLHAAAEAYANLT				NA	NA	NA	NA	NA
AK002_01161	852	ydbD_1	COG3546	putative manganese catalase	ATGTTTATTCACATGAAAGAGCTTCAGTTCCGGGCGAAACCCGAGAAGCCGGATCCGGTATATGCGAGAAAGCTTCAAGAGGTGCTGGGCGGTCAATATGGTGAGATGTCCGTCATGATGCAGTATCTCTTCCAAGGTTTTAACTGCCGCGCAGATCGGAAGTATCGAGATATGCTGCTGGATATCGGAACCGAGGAGATTGGCCATGTCGAAATGTTGAGCACGATGATCGCCCAGCTTCTGGATGGCGCTCCCGCAGATCAGGTCGACGAAGCGGCGAAGGATCCGTTGATTGCCGCTGCGCTCGGCGGCATGAATCCTCAGCATGCGATCGTATCGGGACTAGGCGCGACCCCGACGGACAGCAACGGGTATCCGTGGAACAGCAAGTACATCATCGCGAGCGGAAATCTGCTGGCTGACTTCCGCGCGAATCTGAACGCGGAGTCCCAAGGGCTGGTCCAGGTCGTACGCTTGTATGAGCAGACGACGGATCCGGGTGTCCGAGACATGCTGTCCTTTATGATAGCCCGCGATATCATGCATCAAAATCAGTGGCTGGCCGCGATCGAGGAGATCGAGGCGATGGAAGGCCCGATTGCTCCTGCTTCGTTCCCGCGCGAGCGCAGCGTAGAAGAAGCGACCCGCCAATTCATGAATTTCTCGGTCGGCGAGGAGAGCCGCGAAGGACGCTGGGCGAACGGCCCGCTGCCGGACGGTACCGGCAATTTCGAATACGTGGCGAATCCGGCGGCTTACGGCGACGTTCCCGTATTAAATCCTCCCGCCAAACACCAGCACTCCACGCTTGGAACGGGCCCATATGTGGTGAACGAGGGAATCGAAAAGTAA	MFIHMKELQFRAKPEKPDPVYARKLQEVLGGQYGEMSVMMQYLFQGFNCRADRKYRDMLLDIGTEEIGHVEMLSTMIAQLLDGAPADQVDEAAKDPLIAAALGGMNPQHAIVSGLGATPTDSNGYPWNSKYIIASGNLLADFRANLNAESQGLVQVVRLYEQTTDPGVRDMLSFMIARDIMHQNQWLAAIEEIEAMEGPIAPASFPRERSVEEATRQFMNFSVGEESREGRWANGPLPDGTGNFEYVANPAAYGDVPVLNPPAKHQHSTLGTGPYVVNEGIEK	PGPT0013240_787	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
AK002_01162	210	gsiB_2	COG3729	Glucose starvation-inducible protein B	ATGGCTAACAACAACGGTAACAAAATGAGCAGAGAAGAAGCGGGACGCAAAGGCGGCGAAGCAACGGCCAAGAATCACGACAAGGAGTTTTACCAAGAAATCGGCCGTAAGGGCGGAGAGGCCACATCGGAGTCCCATGATAAGGACTTCTACGAGGAAATCGGCCGCAAAGGCGGAGAATCCCGCGGCAATCAAAACAATAACGATTAA	MANNNGNKMSREEAGRKGGEATAKNHDKEFYQEIGRKGGEATSESHDKDFYEEIGRKGGESRGNQNNND	PGPT0002680_562	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0002680-yciG|ymdF|gsiB-K06884	NA	NA
AK002_01163	339	hxlR_1	COG1733	HTH-type transcriptional activator HxlR	ATGGGAAATAAAGCGAGCAGTTACATACCGAAAACTCCCGAACATATCGAATGCAATATCGAAAAAACGCTGCTGGTCCTGGGGGGGAAATGGGCATTTCTCGTCATTCGGGAGCTCTTTGGAGGCACGAAACGATTCGGCGAGCTGCAGCGGCAAATCCCGAATGTCAGTCCGCGGGCCCTGACCACGACGCTCCGCCACTTGGAAGAACAGGGCGTGCTGGAGCGCGAAGTATTCCCTACCGTTCCGGTTACGGTGGAATACACTCTGACGCCGAAGGGCATGGACCTGCATGTCATCTGCAAGGAAATGAAGCTGTGGGCGGCACGGTGGACTTAA	MGNKASSYIPKTPEHIECNIEKTLLVLGGKWAFLVIRELFGGTKRFGELQRQIPNVSPRALTTTLRHLEEQGVLEREVFPTVPVTVEYTLTPKGMDLHVICKEMKLWAARWT				NA	NA	NA	NA	NA
AK002_01164	939	gpr_1	COG0667	L-glyceraldehyde 3-phosphate reductase	ATGAAATACAGAAGATTAGGACGCACAGGTCTCAAGGTCAGTGAGGTCAGCTTGGGAAGCTGGCTTACATACGGAGGTTACGTTGAACGCGAGAATGCGGTTAACGCGATTAAAACGGCTTATGATCTGGGCATTAACTTCTTTGATACGGCGAATGTTTACGAGAAGGGCGCAGCCGAAGTATTGGTAGGCGAGACCTTGAAAGCGTATCCGCGCGAATCGTACGTGCTGGCGACAAAGGCCTTCTGGCCGATGGGCGACGGCCCGAACGACCGGGGCTTGTCACGCAAGCACATTATGGAGCAGGCACATGCCAGTTTGAAGCGACTTGGCCACGATTACGTGGATATTTTCTACTGCCACCGCCATGATCCGGAAACGCCGCTGGACGAGACGCTTCGCGCGATCGACGACCTTGTTCGGCAGGGCAAGGTGCTCTATGTCGGCGTCAGCGAGTGGCAGGCTTCGCAAATTGCGGAGGCATTGACGGTAGCGGATCGTTACCTCCTCGACCGCATCGTGGTCAATCAACCCATCTACAATATGTTTGAACGTTATATTGAAAAGGAAATCATTCCGCTCAGCGAGCGTTCCGGCATTGGGCAGGTCGTATTCTCCCCGCTGGCACAAGGCCTGCTGACGGGGAAATATACCTCTGCCTCCGATATTCCGGCTGACAGCCGAGCAGCGAAGCTGGAATGGATGCGCAAAGGCATTACCGAAGAGAAAATCGCGAAGGTTCGCGAGCTGGAGAAGATTGCGGCTGAGCTTGACGTGTCCGTGGGCAATCTGGCGCTTGCGTGGATTCTGCGTCAGCCGAACGTAGCCAGCGCACTGGTCGGCGCAAGCCGTCCGGAGCAGGTAACCGAGAATGCGAAGGCATCCGGTATCGATCTTAGCGAAGATGTTCAGACTCGCATCGAGGAGATATTGAAATAG	MKYRRLGRTGLKVSEVSLGSWLTYGGYVERENAVNAIKTAYDLGINFFDTANVYEKGAAEVLVGETLKAYPRESYVLATKAFWPMGDGPNDRGLSRKHIMEQAHASLKRLGHDYVDIFYCHRHDPETPLDETLRAIDDLVRQGKVLYVGVSEWQASQIAEALTVADRYLLDRIVVNQPIYNMFERYIEKEIIPLSERSGIGQVVFSPLAQGLLTGKYTSASDIPADSRAAKLEWMRKGITEEKIAKVRELEKIAAELDVSVGNLALAWILRQPNVASALVGASRPEQVTENAKASGIDLSEDVQTRIEEILK	PGPT0008285_1827	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
AK002_01165	4056			hypothetical protein	ATGCAAAAACGAAGGCAAATGGCATCTGCGAAATGGTTGAAGGTCATGTTGTCCATTCTAATAGGTTTCGAGGTAGCACTGGGCGTGCTCGCGTCTCCGAAGAGGGCTGAGGCGAATCCTCCAAACTCTCACTATCTGGGGGAAATCCGGCTATTTCCTTACCGGGATGGTCCGGAAGGGTGGATATACTGTGCAGGGCAGGAGCTGCCGTTAGGTCTCGAATATGCGGGTTTGTATTCATTCTTGGGGGACCAATTCGGAGGGGATGGAAAAAAGACGTTTGCAGTGCCTGATTTACGGGGGGAAGAACCCGTGCCGGGTATGGGGTACTATATAGCGGTTGAGGGATTAAACCCAAGGAACAATGGCTTGACCACCAATACGATGCTGGGAGAGCTTCGGCTCTTTCCCTATAACATAGAGTTCAATGATAACTGGGTCGCGGCCGATGGGGGTGCTTTAAGTGGTTCTGAAGCTCTGTACGGCGTTTACGGCACTACATTCGGCCAAGACTGGCAGGGGAGCTTTAAATTGCCGGAGATTAAACCGGTGCAGCCCCTAATCCGGTATTTCGCCGCTAAGTCGGGGATCCAACCCAGTACGGCCGGTGCCGTATACACAGGCGAGACGCGTCTGTTTCCTCTGGATATCCCTGCCCTCGCTTCCTTTAAGGCGGACGGTAAACTGCTGAATGTTGCCTCGAACATGGCGCTGTACGGCTTAATCGGCAACGCTTTCGGGGGATCGCCGGATCAAACGTTTGCGATTCCCGATCTTGGAGGCGATCCGCTGACAACGTATTATGTATTCCATACGGGAATCGTTCCTGTCTTGCAGCGGGTTCAGCCCGTTAGCGTGCCGGATCAATACACGACGGCGGAGTTCACCGTATTAAGCGTTTCTGCACCGGGTGTTCTGAAAAATGATTCCGATGTCATGATCGCCAACATCGTGGATTTGCCGGTTCATGGACAGATCGTGTTTCATCGAAACGGCTCCTTTACTTATACACCGGATGTCGATTTTGTTGGCACAGATTCTTTTACATATATCGCTAGCAACAATAACAAGAGCGGCAGCGTAACCAGCGTTACCATCCACGTGGCGGAGCCTGAACCCCGGATAAGCGGAATAACCGATGGAGGACTTTATAATCACGAAGTAACGCCTGTTTATACCCATGGCACGGGATCGCTGGACGGGCAGCCAATTGCCAGCGGTACGACTATCCGCAAGGATGGCCAGTATAGACTGGTCGTCGAGTCGCCTCGCGGCAAAACGGTCAAGGCCGATTTTGAGATCGACCAAACCGCACCTGTGGTCTCAGGCGTGACGGATGGAGGCCAGTATGATCGGGAGCTGCATATCTTCTTCAATGAAGGGAGGGCAACGCTCAATCAGCAAGCGTTCCAGAGCGGAGACAGGGTTAACACGGAAGGGGGATTCAATCTCGTCGTAACCGACCGTGCAGGGAATAAGACTGAGGTCCGTTTCTCGATCTATTTCCCTAAAACCGTGACGTTCGACAGCAACGGAGGGTCGCCCGTGGCAGACGAGGTCGTCCCTCATCATACGGCGGCAACGAAGCCCGTCGATCCGGTGAAATCCGGTTATGCATTCGGAGGGTGGTATACGGATCAAGCCCTCCAGTTTCCATTCGATTTCGCGACGCCGATTCAGGCTGACCTGACGCTGTTTGCTAAATGGATCGATTCGGATGCGCCTGTCGTGGTGGATCGGGCTCCTCTGCATCTGGCGGATGACGTGCCGATCGGGACGAAGCTTGAATTCACGTTCGATGAACCCGTTACCGCAGGCAGCGGCAAATACATATCGATTATGAGAGCGGCGGACGGTCAAAAGATCGAGTCGATCGAAGTAACCGATAGCGCCCGCGTCAGCGTGATCGACGAGAAGGTTGCGGTAAGTCTGTCGCGACAGCTATCGTACCTTACGCGTTATTACGTCGAAATAGAGGAGGGCGCATTTCAGGATACAGCAGGCAACCTCTATGCAGGCATGAAGGGCACTGGGGATTGGAGCTTTACAACGGAGGCTGAGCCTGTCGCAGCACCGTTAGCGCCTGCCAATCTGACGGCCACAGCGGGGGATGGTGAGGTGACCTTACGGTGGTCCACCGTAACGGGTGCGACTTATTACGATATTTATTCCGGGACGGGGTCCGGCGTATATGGGAGCGCACCAATCGCAACGGTTACGGGTTCGACGTATTCAGCAGGGGATTTGCTGATCGGAACGACCTATTATTTTGCGGTGAAAGCCGGAAATGACGGGGGCTCCAGTGCATTTTCGGAAGAGGTGAGCGCAACACCGGCCGGTGCCGAGATACCCGTTTCTGGCGATGCGGATTTAAGCGGATTAGCATTATCGCATGGAACGCTTGCCCCGGCATTCAACCCTGCTGTCACCAGATATATTAGCCATGTTGGAAACCGTATAACGGAGATTAGCATAACGCCGAGCGTTTCCGATCCTCAGGCAACGGTGACGATAAACGGTAAGGCTGTCTCCGCCGGACAGGCATCAGATCCGATCAGCCTAGCGGTAGGAAGCAACAGCATTCATCTCGTGGTTACCGCTCAGAATGGAGCTGCGAAGACTTACACGTTGGATGTGACCAGAGAGGCAGCCGTTTCCCCTGAACCTGAACCGGAACCCGGAAATCCATCCAATCCGGGGACGCCGGGGGGCGGATCAGGATCTTCGGAAGGTCAAGGACCTGGGGCAGGCGGGAGTTCTCAAGCAGGTCAAGGGGCAGGCTCAGGGCAGAGCCCGGCAGGCAGCAGCGACGTCAAGTCGTATGTAAACGACGTTTTACAGATCGGCTTGATATCAACGGAGGTTACGAAAGAGAATGGACAGACCGTGCTGACCGTCAAGGTGAACGGAGACAGGCTCCAATCGCTGCTGGCACTGGAGAAGAACAGCCGACCGATCGTCCGGCTGCGCGCCACGGAGGAGCTCGATCAAGCCGTGGTGGTTCTGGACGGGAAATCCGCCAAAGCGCTTGAAGCAAGCGGCGCGATGATTGCATTCGAGACCTTGGCCAGCAGCGTCCGTATTCCGGTTCAAGCCATTTCCGAACAGATCGGCAGTCTTGCCGAAACGAAGGAAGGCGCGATCCATCTCGTCCTTGCCGATGGCAACGCCTCGATCAGCGCTAAGCTGAAGCAGGTCGGGAACGGGAAGTATTTTGGTGAACATTACGGCTCCATAGACTTTAGCGTCGCAGCCTACGATCAAGGAAAACGGCTGAGCGGAAATAGCTATTCCTCTTATGTGGAGCTGGAAGTTCCCGTGGCAGAGGGGTCAGCTGCCATCGTGACAACGGCGGTTCTGCTGGATGATCAAGGGAAGGTCCATCACGCACCGACCCGGCTGGTTGCGCGGGAAGGCCGTACTTACGCCATAATAAAAGGTTTATACAGCGGGACGTATGCTTTACTCAGCCACGAAGAAGAACTATCGGATATGAAAGGCCATTGGGCCGAGGCGGCGGTGAACGAGATGGCGTCACGCCTTATCGTTGGCGGCAGCGCCGCCGGATTCCATCCGAATGAACCGGTAACCCGTGCGGAATTCGTCACCATGCTGGTACGCTCGCTCGGTTTAACGGAGCAAGGCAATACAAGCTCGTTTCAAGATGTAACTTCCCGGGACTGGTATGTGGGAGCCGTATCGGCGGCGAGCGGGAACGGACTCATACACGGGTATGCCGACGGGACCTTTTTGCCGAATGGCTTGATTTCCAGACAGGAGGCGATGGTTATTTTCGCAAGAGCGTTAAAGTTCGCTGAGGTTTCCCCAATGGTAGAGGCCATGGATTCGGAGGCTGTGCTGGCTGCTTTCCAAGACCGTGCCGAATTGGCAAACTGGGCGAAGGGGGCTGCAGCCGAAACGGTTCACAGCGGACTCATGAGCGGTTACGATGCCAAGCTGAGACCTCGGAGTGATATGACCAGGGCGGAAACGGCAACGATTCTTCTACGGATGCTTTCGGCATCGGGGATGATCGGAGATATGCCGTCTAAATAG	MQKRRQMASAKWLKVMLSILIGFEVALGVLASPKRAEANPPNSHYLGEIRLFPYRDGPEGWIYCAGQELPLGLEYAGLYSFLGDQFGGDGKKTFAVPDLRGEEPVPGMGYYIAVEGLNPRNNGLTTNTMLGELRLFPYNIEFNDNWVAADGGALSGSEALYGVYGTTFGQDWQGSFKLPEIKPVQPLIRYFAAKSGIQPSTAGAVYTGETRLFPLDIPALASFKADGKLLNVASNMALYGLIGNAFGGSPDQTFAIPDLGGDPLTTYYVFHTGIVPVLQRVQPVSVPDQYTTAEFTVLSVSAPGVLKNDSDVMIANIVDLPVHGQIVFHRNGSFTYTPDVDFVGTDSFTYIASNNNKSGSVTSVTIHVAEPEPRISGITDGGLYNHEVTPVYTHGTGSLDGQPIASGTTIRKDGQYRLVVESPRGKTVKADFEIDQTAPVVSGVTDGGQYDRELHIFFNEGRATLNQQAFQSGDRVNTEGGFNLVVTDRAGNKTEVRFSIYFPKTVTFDSNGGSPVADEVVPHHTAATKPVDPVKSGYAFGGWYTDQALQFPFDFATPIQADLTLFAKWIDSDAPVVVDRAPLHLADDVPIGTKLEFTFDEPVTAGSGKYISIMRAADGQKIESIEVTDSARVSVIDEKVAVSLSRQLSYLTRYYVEIEEGAFQDTAGNLYAGMKGTGDWSFTTEAEPVAAPLAPANLTATAGDGEVTLRWSTVTGATYYDIYSGTGSGVYGSAPIATVTGSTYSAGDLLIGTTYYFAVKAGNDGGSSAFSEEVSATPAGAEIPVSGDADLSGLALSHGTLAPAFNPAVTRYISHVGNRITEISITPSVSDPQATVTINGKAVSAGQASDPISLAVGSNSIHLVVTAQNGAAKTYTLDVTREAAVSPEPEPEPGNPSNPGTPGGGSGSSEGQGPGAGGSSQAGQGAGSGQSPAGSSDVKSYVNDVLQIGLISTEVTKENGQTVLTVKVNGDRLQSLLALEKNSRPIVRLRATEELDQAVVVLDGKSAKALEASGAMIAFETLASSVRIPVQAISEQIGSLAETKEGAIHLVLADGNASISAKLKQVGNGKYFGEHYGSIDFSVAAYDQGKRLSGNSYSSYVELEVPVAEGSAAIVTTAVLLDDQGKVHHAPTRLVAREGRTYAIIKGLYSGTYALLSHEEELSDMKGHWAEAAVNEMASRLIVGGSAAGFHPNEPVTRAEFVTMLVRSLGLTEQGNTSSFQDVTSRDWYVGAVSAASGNGLIHGYADGTFLPNGLISRQEAMVIFARALKFAEVSPMVEAMDSEAVLAAFQDRAELANWAKGAAAETVHSGLMSGYDAKLRPRSDMTRAETATILLRMLSASGMIGDMPSK				NA	NA	NA	NA	NA
AK002_01166	975	yajO_2	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAATTACCGCCGTCTTGGCAGCAGCGGCCTGAAGGTTTCGGAGCTGGGGCTCGGCACGAACGCTTTTGGCAAAAGAGCCGATCAAGAAACATCCACCCGGATCCTGGATCACGCGCTGGACCGTGGCATCAATTTCATCGATACCGCCAATATTTACGCCGGGTCGGAATCCGAGCGCATCATCGGTGAGGCGCTGGCGGGCAAACGCCATAACGTCGTATTAGCCACGAAAGCCGGACTCGTGAACGGCCAAGGACCGAACGAACGGGGCTCCTCCCGCTATCATCTGCAGCAAGAGCTGGAGAACAGCTTGAAGCGGCTGAAAACCGACTACGTAGACCTGTATCAGATCCATACGTTTGATCCGGAAACTCCCCTTGAGGAGACCTTGCGCACGCTGGACGACATGGTAACATCGGGCAAGGTCAGATATATCGGCGCCTCCAACTATGCCGCCTGGGAAATCATGAAGGCGCTCGGAATCAGCGAATTGCGCGGATATGCCCGTTATGTATCGACCCAAACGAGTTATTCCCTGGCAGACCGTACGCCAGAGCTGGAGCTTGTCCCCCTCTGTCTTGATCAGGGCGTTGGCATCATTCCGTATTTCCCGCTGGCCGGCGGCATTCTCACCGGCAAATACGGTCAGGGGGCAAGCAAGCCTGCCGGCTCCCGCGCGGAAACGGACCCGAACTTCAATCGCTTCCTCGAAGAGCGCAATCTGAAGCTCGGTCAACAAGTCAGCCAGCTCGCAGCAGAGCACGGCCATTCTCCCAGCGCACTGTCCATTGCCTGGCTGATGGACCGACCTGCCGTCTCGACCGTCATTGTCGGGGCTACGAAGACCGAACAGCTGGACGATAATCTGAAAAGCCTTGAGATTAAGCTGGACAAGTCCCTGCGTTCGAGCCTGGATGAAATCAGCGACGGCTTTGTTCATGCCAAGCCGTTTGCAACGTATCGGTTGGGGTAA	MNYRRLGSSGLKVSELGLGTNAFGKRADQETSTRILDHALDRGINFIDTANIYAGSESERIIGEALAGKRHNVVLATKAGLVNGQGPNERGSSRYHLQQELENSLKRLKTDYVDLYQIHTFDPETPLEETLRTLDDMVTSGKVRYIGASNYAAWEIMKALGISELRGYARYVSTQTSYSLADRTPELELVPLCLDQGVGIIPYFPLAGGILTGKYGQGASKPAGSRAETDPNFNRFLEERNLKLGQQVSQLAAEHGHSPSALSIAWLMDRPAVSTVIVGATKTEQLDDNLKSLEIKLDKSLRSSLDEISDGFVHAKPFATYRLG	PGPT0017540_1169	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
AK002_01167	315			hypothetical protein	ATGAAGATTTATCTGAAAAATGATGCTGGGGTAACGAAACAAGTGAAGGTAGGTTTTAGCTGGACGACGTTATTCTTTGCATTCTTCCCGGCATTGTTCCGAGGCGATCTGAAGTGGGCAGTCATCATGTTTATTATCTCTGCCGCAGTCGGTCCTTTTACGTTGGGAATCGGGGCCTGGATCAGCGGAATCATATTCTCGTTCGTGTATAACAAGATTTATATTAAGGAGCTGTTGGAGAAAGGCTATCGTCCTGCCACGGAGGAAGCTAGAGCCGTTCTTGAGAACAACCGCATCATCGCTAGAGCGGCATAA	MKIYLKNDAGVTKQVKVGFSWTTLFFAFFPALFRGDLKWAVIMFIISAAVGPFTLGIGAWISGIIFSFVYNKIYIKELLEKGYRPATEEARAVLENNRIIARAA				NA	NA	NA	NA	NA
AK002_01168	465			hypothetical protein	ATGAATGAAGCGATTTTCAACCAATTGGATTTTGCCAGAGGAGCAACCTTGAAATCAGTGGAACATGTAACGGAACAGGAAGCGGATATCATCCCGGAAGGATTTACGAATAGCATTCGCTGGAATCTCGGGCATATCTACACCGTAACCGAGCAGTTCGCTTTTGCGACCGCGGGCGAGCAGCCGCGTCTTCCGGAAGGATTCGAGGCATGGTTTGCAACCGGAACCAAGCCGGCCGATTGGACATCGAAGCCGCCTGCGCTGTCTGAGCTGGCAGAGCTTTTGCAGGAGCAAACCGCCCGGATCCGCGAAACCTTCTCGAATCGCCTGGACCAGGCCTCGGCACACCCGCTGACGATCGGTCCCGTGACGTTCCAAACCGTCGGCGAGTTTCTTACATTCAGCATGTACCACGAAGGCATGCACACGCAGACGATCAAGGCTTATAGAAAATTGATAAAGTAA	MNEAIFNQLDFARGATLKSVEHVTEQEADIIPEGFTNSIRWNLGHIYTVTEQFAFATAGEQPRLPEGFEAWFATGTKPADWTSKPPALSELAELLQEQTARIRETFSNRLDQASAHPLTIGPVTFQTVGEFLTFSMYHEGMHTQTIKAYRKLIK				NA	NA	NA	NA	NA
AK002_01169	510		COG2954	Inorganic triphosphatase	ATGGCGATTGAAATCGAACGCAAATACCTTCTGGAGGCTTATCCCGATGAGTTGATTCAGGAAGGAATCATCGTGGTCGAGAAGGAGCAGTTCATCGAGCAGACGTATTTGGCATTGGATGGGGACCAGGAGCTGCGGGTCCGAAAAATAACGGATCTGACATCGGGTCGGCTCGAATTCACCCATACGTTCAAAAAAGGGTGGGGAATTGCCCGGGAAGAAGTTGAATATGCGATTTCCGAAGGTCTCTACGATCAGGTAGTCAAGGCGCATGGGGCGATTCCGTTGACCAAGAGACGGGTAACCGCCCGTTGGGGCAGCACGATCATCGAAATCGACGATTATGCGCAGATAAGCTTGCTTGTGCTGGAAGTCGAATTTCCTTCCCTGGAAGCCGCTGACGGCTTTGTGCCGCCGGCATGGTTCGGACAAGATATCAGCACGGACAAACAATACAGCAACAAGAAGGTATGGCGGGATCTGCAGCTTCAAGCAGGCAGGGAAACCTAA	MAIEIERKYLLEAYPDELIQEGIIVVEKEQFIEQTYLALDGDQELRVRKITDLTSGRLEFTHTFKKGWGIAREEVEYAISEGLYDQVVKAHGAIPLTKRRVTARWGSTIIEIDDYAQISLLVLEVEFPSLEAADGFVPPAWFGQDISTDKQYSNKKVWRDLQLQAGRET	PGPT0021560_7280	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
AK002_01170	756	yheD_2		Endospore coat-associated protein YheD	ATGAGCTATAAAAGCAGTACCATCAAAAGCAAGTGGAAGAAAACGAAATGGTTGAACGAAGATGCTTACTTCAGGCAGTACGTACCCCATACGCTGCCGTTCAGCAAAAAAAACCTGAATGCTATGCTGGCGGACTACACCACGGTTTTCTTCAAACCTACGGATGGCTCTGGCGGCAATAACATCATCCGGATCCGCAAAACCGGCGGAGGCTACCAAAGCCAGCTGAACACGACGAAAACGTCGTACTCGAGCTCATCTCAGCTGTACCGCGACCTGAATCGCTTTGCAGGGAGCAGACCTTATCTGCTGCAAAAAGGAATTCGCTTGGCCAAAAGCAATGGCAAGCCGTTCGATATCCGGGTGATGGTCCAGAAAACCCGAGAGGGCGCCTGGGTCGGCACCGCCCTCTTCACGAAGGTCGGCAATCCGAACAAAGTTGCCACCAATTATAATCAAGGCGGCTCCATCGGCACGTTCAAGAAAACGATGAGCGGCGCCAATTTCGACTCGGCCTTCACCCAGCAGCTCGAGTCTGAACTCAAGGGACTCGGCGTTGCCGTAGGCAAAAACTTTGACCGCCATTATAAAGGATTCAAGGAACTTGGCCTGGACGTGGCTATCGATTCCAAAGGGAGACCGTGGATTCTCGAGGTCAACACCAGACCGCAAATTTATCCGCTCAAAAATCTAAAGGACCGCAGCCTCTACCATAAAGTGCTGTCTTACGGTAAGCATTATGGGCGTACGAAATAA	MSYKSSTIKSKWKKTKWLNEDAYFRQYVPHTLPFSKKNLNAMLADYTTVFFKPTDGSGGNNIIRIRKTGGGYQSQLNTTKTSYSSSSQLYRDLNRFAGSRPYLLQKGIRLAKSNGKPFDIRVMVQKTREGAWVGTALFTKVGNPNKVATNYNQGGSIGTFKKTMSGANFDSAFTQQLESELKGLGVAVGKNFDRHYKGFKELGLDVAIDSKGRPWILEVNTRPQIYPLKNLKDRSLYHKVLSYGKHYGRTK				NA	NA	NA	NA	NA
AK002_01171	393			hypothetical protein	ATGTTGAAGTACAGCAAATGGCTGATGCGCATTGCGGCCATTTATATGCTCATCGGCGCATTGATCGGAGCGGACATGGCAGGCAGAAGCAGCTACAGCATGGTTGCAGGCCACGCCCATATCCTGGTGGTAGGCTGGCTGACCTTGTTTGCCTATGGCATGTTCTACTACGTCTTTCGGGACAAGCTCAGCATGAAAAGAACCGCCGCGATGCACTTCTGGACGAGTTTGCTCGGGGGCGGGATCATGCCGCTGGGCATGCTGATGTATTACCAAATGCAGAATACGGCAACCCTGCTGGCCTTTATCATTCCAGCATCGATTTTGCTTGTCGCAGCAGTTTTATTTATCACCTTATTGTTTTTCGATAAAAAATTGTTTTCGAACACATAG	MLKYSKWLMRIAAIYMLIGALIGADMAGRSSYSMVAGHAHILVVGWLTLFAYGMFYYVFRDKLSMKRTAAMHFWTSLLGGGIMPLGMLMYYQMQNTATLLAFIIPASILLVAAVLFITLLFFDKKLFSNT				NA	NA	NA	NA	NA
AK002_01172	366	yjbR	COG2315	putative protein YjbR	GTGCGAAGCCCACTCATTGCTTATTGTCTTTCGAAGAAAGCCGCAGCCGAGGATTATCCGTTCGGACCGCTTCCGATCGTCATGAAGGTCGGCGGCAAAATGTTTGCCCTGATTACCACAACGGCAGGGGAGAAGGTCAGCCATATTTCCCTGAAATGCGATCCGGTCATCGCGGAGAATTTGCGCGAGCAGCATGACGCCGTGCAGCCCGGATACCATCTCAATAAGAAGCACTGGAACACGGTGACCGTCGATGGCTCCTTAACGGAAGCGGACCTGCGCGATATGATCGACCATTCCTACGATTTGGTGCTGAAGAGTTTGCCGAAAGCGCAGCGCGCAGCCATATCCCAGCGGCTGGTATGA	MRSPLIAYCLSKKAAAEDYPFGPLPIVMKVGGKMFALITTTAGEKVSHISLKCDPVIAENLREQHDAVQPGYHLNKKHWNTVTVDGSLTEADLRDMIDHSYDLVLKSLPKAQRAAISQRLV				NA	NA	NA	NA	NA
AK002_01173	1275			hypothetical protein	ATGACCGTGTGGAAATATCCGTTATCCCGCAACATGGTTCAGCGCAGCATGATTGCAGCCCTCAGCGCTGCCCTCCTTATGACCCCGCTTCATGCCCTTGCTGCCGATGAGGCGCTCCAAGCCAAGGCATCACCAATGAAAACGCCGTCCAGCACCCCGTCCGACACCACGGCTTTCGCACAATTCACGGGGAATCCAGCCGATTCCCTGGCGATTGGGGAACATCGTTTGATCAGCCGCAAGGAGATCGATCGGCACTGGGACGGCCTTGATCCGGATTACACGCCGGAGAAGTCGATCGAAGCGGTTAAAGCGCTGCTGTCGGAGGAAGACTTCGAGGCTCTATTTCCTTACAGGCTAGGTTCGGCCGCATGGTTTAACGTCGCCAAGGGCAAAGAATACTATAAAGCCGATCAGACGGACTATTTCTCCTACGACAACCTGATCCACGCGGTGGCCGAGGTGTCCAATCTGAAGATCAAGATCCGCACGCGGCAAGGAGCTCCTTCCGCCCAAGAGATTTACCGATTGGACAAAGATGCCCGGGTCGAAACACTCGTCGTGCGTTCGGCGGATTTCCATTCGGCCGAGAACCTTAACCAAGCGATTGAAACCGTTATCATTGACGGCGGCACCTTTCTCAAGGAAGGGTTCAAGAAGGACCGCAAGCGCGAACTGGCCGCCTTCCTGGCCAATCTCTCCCACGAAACCGGCGGGGGCTGGGCTGCCGCTCCCGGCGGTCCGCTTCGCTGGGGATTGTTCTGGAACGAAAACATCGCGGGCCGGACAGGGATCAACATGGATGCCTTCGTTGATCCGGCAAGCGCAGAGCTGTATCCCGGATCGCCGGACAAGCGCTACTATGGGCGGGGACCGATCATGCTCAGCTGGAATTTCAACTACGGACTCTTCAGCTCCATTATCTATGGGGATAAACGCGTGCTGCTGGACCATCCCGAGATCGTTGCCGCCGACGGCAAGATCGGCTACATGACCGCCATCCTCTTCTGGATGACGCCGCAGGACCCGAAACCTTCCGCCCATGACGTGATGGTCGGCAGATGGAAGCCTTCGCCGCTCGAGAAGTTCAGGGGACTGGGCAGTCCCGGCTTCGGCACTACGGTGATGGTCTTGAACGGCCTGGAAGCGAACCTCGGGGAAACCGAGGGCAGTCCCGTGCAGCGGCGCGCCGGGCATTACCGCGATATCACGGGCCGCATGGGCGTCGATATTACCGGAGAGAAGGTCGATACGTTAGGGATGAGACCGTTCTGA	MTVWKYPLSRNMVQRSMIAALSAALLMTPLHALAADEALQAKASPMKTPSSTPSDTTAFAQFTGNPADSLAIGEHRLISRKEIDRHWDGLDPDYTPEKSIEAVKALLSEEDFEALFPYRLGSAAWFNVAKGKEYYKADQTDYFSYDNLIHAVAEVSNLKIKIRTRQGAPSAQEIYRLDKDARVETLVVRSADFHSAENLNQAIETVIIDGGTFLKEGFKKDRKRELAAFLANLSHETGGGWAAAPGGPLRWGLFWNENIAGRTGINMDAFVDPASAELYPGSPDKRYYGRGPIMLSWNFNYGLFSSIIYGDKRVLLDHPEIVAADGKIGYMTAILFWMTPQDPKPSAHDVMVGRWKPSPLEKFRGLGSPGFGTTVMVLNGLEANLGETEGSPVQRRAGHYRDITGRMGVDITGEKVDTLGMRPF	PGPT0012135_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012135-chiB-K20547	NA	NA
AK002_01174	1353	mdtK_1	COG0534	Multidrug resistance protein MdtK	ATGAGTTTATTTGTTCGGGAAAAAGGATTCTACAAAAGTTTTTTCTGGCTGACGCTTGTGATCGGGATGCAGAACCTGATATCGGTCGGCGTGAATTTGTCGGACAACGTCATGCTGGGAGGATACAGCGAGTCGGCGCTGTCGGGCGTCGCGCTGGCGAACCAGATCCAATTCCTGCTGCACATGCTGGTTCTGGGCGTATGCGAAGGCTTGGTCATCATGTCGTCCAGATTCTGGGGAGCCAAGGATTTAGGCTTGATCAAAAAAGCGGCAAGCATCGGCATGCGCATGGCCATCCTTCTCAGCATCGTGTTATGGGTCATCGTGTTCTTTTTCCCGCACGAGGTATTGTCCTTGTTTACCAAGGAAGAGAACGTCATAGCTGCCGGTGTGGAATATTTGCGCATCATCTGCTTCTCTTATATCTTCTTTGCCGTCACCAGCTCCTTGCTGGCTTCCTTAAGAAGCGTGGAAACGGTAAAAATCGGCTTCGTGGTATCGCTGTCCACCTTGGTTATCAACATCTGCTTGAACTACATCCTGATCTACGGGTATATGGGCTTCCCGGAGCTGGGCGTGTCCGGATCGGCTATCGCTACCTTGACGGCGAGGATTATTGAATGCGTGATCGTCATCGTGTATGTTAAGCGTTTCGATCGCAAGATTCTGTTAAAGTTGCAGGATTTCCTGAAGTTCGATATGGAGCTCTTCAAGCAGTACATTCGCGTAGGCTCCCCGATTCTGATGTCCAATACGATATGGGGGCTTGCCATGGCGGCACAAACCGCCATCCTGGGGCATATGGGGGAATCCGCGATCGCCGCCAACAGCATTGCAACAACGATTTTCCAGATGGTGACGGTCATCGTGTACGCTTCCGCCAGCGCAACGGCCGTACTGATCGGGAAGACCATCGGCGAGGGCATGATGGATAAAATCATATCGTATGCCAAAACGCTGCAGATTCTGTATATCCTGCTCGGTTTATTGACGGGGGCCGTGCTGTTTGTGATCAAGGATTTCGTGCTGGGCTTCTATTCGATATCCGATGAGGCCAAAACGCTTGCCCTGCATTTCATGACGGTGCTGTCGATCACCGTGGTCGGAACGGCCTACCAGATGCCGGCTTTGACGGGCATCGTGCGGAGCGGCGGAGACACCCGCTTTGTGCTGTACAACGATTTGATATTTATGTGGCTGATCGTGCTGCCCTCATCCGCCTTATGCGCTTTTGTGTTCCATTTATCGCCGCTTGCCGTATTCATCTGCCTGAAATCGGATCAAATCCTGAAGTGTTTTGTGGCGATCGTGAAGGTAAACCGGTTCAAATGGATTCGATCCTTCAGCTCATGA	MSLFVREKGFYKSFFWLTLVIGMQNLISVGVNLSDNVMLGGYSESALSGVALANQIQFLLHMLVLGVCEGLVIMSSRFWGAKDLGLIKKAASIGMRMAILLSIVLWVIVFFFPHEVLSLFTKEENVIAAGVEYLRIICFSYIFFAVTSSLLASLRSVETVKIGFVVSLSTLVINICLNYILIYGYMGFPELGVSGSAIATLTARIIECVIVIVYVKRFDRKILLKLQDFLKFDMELFKQYIRVGSPILMSNTIWGLAMAAQTAILGHMGESAIAANSIATTIFQMVTVIVYASASATAVLIGKTIGEGMMDKIISYAKTLQILYILLGLLTGAVLFVIKDFVLGFYSISDEAKTLALHFMTVLSITVVGTAYQMPALTGIVRSGGDTRFVLYNDLIFMWLIVLPSSALCAFVFHLSPLAVFICLKSDQILKCFVAIVKVNRFKWIRSFSS				NA	NA	NA	NA	NA
AK002_01175	2622	malT_2		HTH-type transcriptional regulator MalT	ATGAAACTACTGACCGACTCACCCATTCTGAAAATAAAAATAAGCCTTCCCGGTCTGAAGGAGCATCTGATTCGCCGGGACCGGCTGCTGCAGGATATGGCAGCAGGCCATAAGGGTCAGCTGACAACCGTCATCGCGCCTGCCGGTTACGGCAAGTCGACGCTGCTGGCCCAATGGGCTCATGAAACCGACGAACGAAGCGCCTGGGTTTCGCTGGATGAACGGGATAACGATCCCGTTCGCTTTTGGAGATACGTGACGGCCTCGCTGGCCTCGATTCTTCCCAAGCCCCAAGGAGCTCGTCTCATGCACCATACGCAGCTGCTGCCAAGCGCCTCGATTGAAAGCTTTCTGGATACGCTGATCAGTGAATTATACGAGGATTCCGAGCCCCTCAATCTCATTCTTGAGGACCTGCACAGTATTCACTCTTCAACCATCCATGGAGGAATTTCCTACTTGATCGACTACCTCCCCGAACATATTCATCTTCTCATCTCGTCCCGGACCGAGCTTCCATTCCCCACGATCAAGGGCGTGGTAAACCATGAGGTCCATCTTATCGGCATGAAGCAGCTGGAATTTACCTACGAGGAGACGGAGCGTTTGTTCCGCCATGCGTCAAACGGCGGCCATCCCATTCTGACCCCGATGGAGCTTGATACGTTACGGAACCAAACGGAAGGCTGGGTTACCGGGCTCCAGCTTGCCGTAATTACCATGCGAACCGGCAGCGCTTTGGAAGGATTCGTGGATGATATGAAGGGGAATCCGCTTCTCGTATCCAAATATCTGTTTCAGGAAGTCGTAAGCAAGCTGTCACCCGACGTGTTCTCCTTTTTGCTCCAGACCGCGGTCCTTTCAGAGCTGCATCCGCAGGTTTGCGATGCCGTAACCGATCTCAGCGACAGCCGTCCGATGCTGGAGGAGCTGCAAAAGCTGAATCTGTTTCTGGTTCCGCTGGACGAACATCATGCCTTCTTTCGTTATCATCATTTATTCTCGCAGTTTCTGCTCGACCTGCTTCAGCGCGAGTTTCGCGTTGAATATACCAAGCGCCACCGGCTCGCCGGGCAGTATTATGCCTCCGTCGGCTCCATGGATGAAGCGATTGACCATACGTTGTCAGCGCAGGACTTCGGGCATGCCCTGAACTTGCTCGAGCAGCATATGCAATCCGTGCTCGAACTTGGAGAGATTGCCACCTTGCTGAAATGGTTTGACCGCATCCCCTCCAGCTATCCGATGACACCCGAAATGTCGCTGGCGCATGCTTTTGTCTTGGTACTGACAGGAGATCTCGAACGTTCCGAGCGCATGCTGTCCCTTATTGAGGAAGCCTGCGCTGCGCTAGAATCATCTGACCGAAGGGAGCAGCTTATGAGTTCCATCCTGTTCGTGCGGTCCAATCTTGTTTTCCTGAACGGTGACTTCGGCAAATGGTTCGCCTTCAGCGAAGGCATCCTCGACAACCTGATGCCCGACAATCCGATGTACTACCAGTTCGATTACAATCGGCGGGAGCTTTACGTCAGGCGTACCTCGCTCGGCATGAAGGGAGCTCTCTCCGCCGATACGGAAAGAATCGCGCATCTGTTTACCGGCGTGCTGGAATCCCACGGGTGGGCGCATTCGCTCATGAACTTATATGTTAAACAATCCTTGTGCGAGGGATATTATGAATGGAACCGGCTGGCGGAATGCCGGCAGCTGCTGGTGCAGATTCGTAACGCGCCGCCCGCCAAAGAAACGATGGGGCTGTTCGTGCCGCTGCATATCACCGAAGCCAGGCTGTTCGCTGCCGAGGGCAAATTCCATCTAGCCCATTATGCTTTGGATGAAGCGTGCTCCGCTGCACATGCCAGAAAATCGAGCCTCTGGCTCGCCCCGTTAAAGGCTGTCAGAAGCTTGATCTATATCCGGGAAGGGCGCATAGCCGAAGCACGGAAGGAAGTAGCCGAGCTCCCCGTTGCCGTCAAGGACAAGCCCGCCTATAGCCGGGAAACCGAATACCTGGCGTTAGTCCGCATGTTAGGCAGACAGCGCAGGGAAACCGAGGCGCTGCGCCTCCTGGAGCTGTTAAAACCTCAGGCCGAGCGCGAACAGCAGCGATCCAGCATCATTGAAATCACAAGCCTGCAAGCGCTGCTGGAACATCAGCGCGGCCAGCGGCAGCAGTCGCTTCAACTACTAGGCGAAGCCTTGCGTGTCGGGGCACAGAACGGTTATGTCCGCACCTTCCTCGATGAAGGGGAGGACATGCGCCAGCTGCTGCAGCTGTATTCGAGCCGCCTCGGACAGGAAGACGGCTTGAGCCTGGAGGAGCTTCAGACGATTGAATATGCACGCACGCTCATGAAGTTTTTCCCGGGTTATTCCGAAGCGGATATTTCATCCGCCGGGACATCCCAGCAAACTCTTCCCGAACAGCTGAATCGGAATGAAATGAATTTGCTGCATCTGATTCGCCAGGGCGCCGCGAATAAACAGATGGCCGCAGCACTCGGCCTGTCCGAAGGAACGATCCGGGTGTATTTGTCCAGATTGTACGGCAAGCTCGGCGTGACGACACGCACGCAGGCTCTGGTTAAAGCCCAGTCGCTGAACCTGCTGGAGGATTAA	MKLLTDSPILKIKISLPGLKEHLIRRDRLLQDMAAGHKGQLTTVIAPAGYGKSTLLAQWAHETDERSAWVSLDERDNDPVRFWRYVTASLASILPKPQGARLMHHTQLLPSASIESFLDTLISELYEDSEPLNLILEDLHSIHSSTIHGGISYLIDYLPEHIHLLISSRTELPFPTIKGVVNHEVHLIGMKQLEFTYEETERLFRHASNGGHPILTPMELDTLRNQTEGWVTGLQLAVITMRTGSALEGFVDDMKGNPLLVSKYLFQEVVSKLSPDVFSFLLQTAVLSELHPQVCDAVTDLSDSRPMLEELQKLNLFLVPLDEHHAFFRYHHLFSQFLLDLLQREFRVEYTKRHRLAGQYYASVGSMDEAIDHTLSAQDFGHALNLLEQHMQSVLELGEIATLLKWFDRIPSSYPMTPEMSLAHAFVLVLTGDLERSERMLSLIEEACAALESSDRREQLMSSILFVRSNLVFLNGDFGKWFAFSEGILDNLMPDNPMYYQFDYNRRELYVRRTSLGMKGALSADTERIAHLFTGVLESHGWAHSLMNLYVKQSLCEGYYEWNRLAECRQLLVQIRNAPPAKETMGLFVPLHITEARLFAAEGKFHLAHYALDEACSAAHARKSSLWLAPLKAVRSLIYIREGRIAEARKEVAELPVAVKDKPAYSRETEYLALVRMLGRQRRETEALRLLELLKPQAEREQQRSSIIEITSLQALLEHQRGQRQQSLQLLGEALRVGAQNGYVRTFLDEGEDMRQLLQLYSSRLGQEDGLSLEELQTIEYARTLMKFFPGYSEADISSAGTSQQTLPEQLNRNEMNLLHLIRQGAANKQMAAALGLSEGTIRVYLSRLYGKLGVTTRTQALVKAQSLNLLED	PGPT0018616_1377	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
AK002_01176	3852			hypothetical protein	ATGCTAAGGCGTTCAGGAAAAATCCTGCTGTGTGCGGCTTTGCTGCTGCTGCAGCTGGATGGGTTATTGGGATATCGCCAAGCCTTTGCGGCTGCGGCCGTTGCACCGAAGCTTGTAGCCGGGTACTATCATACCGCTTCGCTCGTAAGCAGCGGTGAAGTTTACTCATGGGGATACGGAGACAGGGGGCAGCTGGGTGACGGCACCTGGAATACCCGGACAACTCCGGTCATGGCGAAGAATTTGAACCATGTCATTGACATTCACTCCGGCGTCCGCAGTTCGATGGCGCTAAGGCAGGATGGAACGGTATGGACCTGGGGGGCAAACGAGAACGGACAGTTAGGGATAGGAACGATAACGAATGTGAACGCTCCCGCGCAAGTTCCGGGTCTGAGCGGGATCAAGGCGATATCGGGCGGATTGGCCTATCACGGCATGGCGCTTTCAGAGAACGGCACCGTTTGGACTTGGGGGAAAAATGACAACGGCGAGCTGGGAAATGGAACGACGACACAACAAAACTCCCCGGTTCTGGTGGCCGGTCTAAGCGATGTGACGGCGATTGCGGCTGGAGGATACTACAGTCTTGCCTTAAAATCGGACGGCACCGTATGGGCCTGGGGCGTGAACGAAAGCGGGGAGCTTGGAGATGGGACGACGACGGAGCGGCACGTTCCGGTACAGGTTGCCGGGCTGACGGACGTCATGGCGATCGCCGCCGGCGGTTCCCATAGTTTGGCCATTAGACAAGACGGCACCGTGTGGGCATGGGGAAACAACACGTACGGTACGCTTGGCGACGGTACGAGAACGCACCGGACGAGACCGGTGCAGGTTCGAAACCTGCAGCATATCGTTGCCGTTGCGGGTGGAGGTTATCACAGCCTTGCAGTGGACCAGGCAGGAAACGTATGGAGCTGGGGAGATAACAGTCAACAGCAGCTGGGCCTAAGCTCGAATGCTTCCAGCCTCATTCCGGTCCCTGTGACGGGTATCGAGCATGTACGCGAAATTTCCGCCGGCGGCTTTCATAGCGTAGCTATGAAAAAGGATGGAACCGTCTGGGGTTGGGGCTATAACTCTGGAGGACAGCTCGGAGACGGGACGTACAACAATACGAGGGGAATACCTACCCTGACCAAAGCCGTGCTGGATACCACGTCTCCGGATACGGGCAGCGGGAGCCTGAATCCGCATAGCATCACGTCAGACTCCGTTGCATTGGAATGGCCGAAAGCCTCGGACAATATGACGGAGCAGCACAAATTGCAGTATTTGTTATATTCGTCCGGCAGCCCGAATATCGGGGACGTCAGCCAAATGGAGAGGAACGGAAAGCCCGTCGGAAGCTACGCGGCGGATCAAACCGGGATGGTGGTGAACGGGCTTGCCGCAGGCACGGATCATTATTTTAACGTCATGGTCAAAGATGCCGTCGGCAGGAAAAGTGCATACCGCATGCTGAAGGTGACAACCCTATGGCCGCAAATCTACTCGTTAACCTATGACGGCAACGGACACACCGAAGGGAATGTTCCGGTAAGCAGCGGTTTGTTTGCCAGAGGCGACGAAGCGGTCGTGGCGGGCAATACGGGGCAGCTGGGCAAGGGTGGACATGTCTTCGACGGCTGGAATACGGAGGTCGACGGAAGCGGAATCGATTATCCTGCCGGTGGCAAGCTTATATTCGGTACGGAGGACGTTACGCTGTATGCCCAATGGAAGGCGATCCAGGCACCGATCGAGCTAAAGGCCGTATCTTACACGCCGTCCCCCCAGTCTGTCGGCGTGGAAAAAGATGTAACCTTGCAGGTTGTCTTTAATGAAGAAGTGACGTCGGTATCCGGTAAATCGATTACGATTAGGCTTGCCTCGGATCATCGCGTCGTCGAGAGCGTCGATGCTGCCGATGCAGGGAGCGTCACGATTCTCGGGAACGCGGCGAGCATAGATCCGCTGAACGATTTCGATGCAGGGGCAGCCTATTACGTCGAGATCGAGCCGGGTGCTTTTACCGGTAACCATTCGGGTACCGGTTTTACCGGCATTCAGGGGGCGGATGCTTGGAGCTTTACGGTCAGGGAACATGAGGATCCGGCGTACGACGCTGATTTGCAAGCATTGGCGCTGCGTTCGTCGAGCGGAGAAGTAGCGCTGAGCCCTGAGTTCGCCAGAAATCACAATGATTACAAAGCGCAGGTCGCCGGCGATACGGACCGCCTCACGGTAACGGCACAGGTATATGATGCGAGGGCGACGGTAACGGCCAGCGTGTACGGCGAGGCCGGAAATTTGATATGGGGGCCAATGGATCTCCTCTCCGGCCAGGAGAGCCCGTCCTTCCCCGTCGCCGTAGGCAGCCAGGTCATCGAGGTTGTGGTGACGGCGCCTGACGGCCAGCATATGAAATACAGAACGACGGTAACTAGAGCTTCATCCGGAGGCAGTGGCGGGACGCCTGAAGAGCCGGAAGGCTCGTCGCCAGGAGGTTCCGGCCAAGGATCGGCTATACCGGGCTTATCGGGCAATGCCGTACCTTCGAATAGCGTGGACGTCAACGTTACGATAAACGATGAATCTCAGGAAGGGATGGTTACAGGTTTGTTCCATGAGGCCAATGGACATACCATCGTATCGATGAAATTGGATACGGCTAAGCTGGAAGCCCGTTTAGAGACAGTGGACTACAATCCGGTAATCGTCATCGCGCTGGCACGGCCCGCGGATCAGGTCTCCCTGGAAACCAGCGGAGCTGCCCTTGATCTGCTTAACGCCAAGCAGGGCGCCATTGAAATCCGATCAGCGCTTGGTCATTTCCACGTTCCTGCGGCCGTGATGGCATCATCGCGCTGGCACGCGCCGGGAAGCATGGACTTGCCGGCCGCGGATCAAATTACGGTAACCCTGACGATGGCTGCCAGCGACGCTGCCAAGGTAGAGACCGTTAAGAAGGCCGCACTGCAATCCGGCATTACGCTTATCGGTTTGCCTATCGAGTTTGAAATCACGGCTAAAGCTCAGAATACGGCACTGCAGTTAGATCCGTTTCCGCAATATATGAAGCAGCGGATCATTTGGCCGAAGGGAATGCCGGGCCGGATGACAACGGCAGTCTTGCTGGATCGAAACGGCAGCTTCCACCCGATCCCGACGCGCTTCGAGCTGAAGGAGGACGGAAGGAGCGAGGCGATTCTGCATCGCTTATCAGCAGGTACGGTTGCTTTCATCTCTCATCAAGTGCGAGTTGCTGATGTATCGTTCCACTGGTCCAAGGATGCGGTGAGCGATCTTGCTTCGCGAATGATCCTGAACGGAACCGGACTTGTCGAGGGTGGAACAGACACAAACGCGAATCAGACGGCGGCGATTCATTTCACGCCGAAAGCCCAAGTGAGCCGTGCCGAGTTTGCCGCCATGATCGTGAGGGCGCTCGGTTTGGATGAGGTGAAGGACGGAGTTCCTGCTTTCCGGGATGTCGACGCAGAGGACTGGCATAACGGCGTCATAACGCAAGCTGTGCAGTATGGGCTGCTTCAGGGGTATGAGGACGGACAATTCAGGCCGGCCCAAGGCATCACGCGTCAAGAGGCCATAGCGGTTATGGCGAGAGTGATGGAGCTGGCGGGAATAACGAGCGCAGTGAATGAGATGGAGGCGGCAGCCATCCTCTCCCCTTACCAGGACCGTGAAGACCTGTCCGACTGGGCCACACCGGCTGCGGCCGCCCTTGTGAAGCAAGGAATTGTCCTGGGATCGGGCGCAGGGCTTAAGCCACTCCAGAAGTTATCCCGCGGCGAAGCAGCGGTCATGCTGCAGCGGTTATTGAAAGGTTCGGAGCTGATCGATTGA	MLRRSGKILLCAALLLLQLDGLLGYRQAFAAAAVAPKLVAGYYHTASLVSSGEVYSWGYGDRGQLGDGTWNTRTTPVMAKNLNHVIDIHSGVRSSMALRQDGTVWTWGANENGQLGIGTITNVNAPAQVPGLSGIKAISGGLAYHGMALSENGTVWTWGKNDNGELGNGTTTQQNSPVLVAGLSDVTAIAAGGYYSLALKSDGTVWAWGVNESGELGDGTTTERHVPVQVAGLTDVMAIAAGGSHSLAIRQDGTVWAWGNNTYGTLGDGTRTHRTRPVQVRNLQHIVAVAGGGYHSLAVDQAGNVWSWGDNSQQQLGLSSNASSLIPVPVTGIEHVREISAGGFHSVAMKKDGTVWGWGYNSGGQLGDGTYNNTRGIPTLTKAVLDTTSPDTGSGSLNPHSITSDSVALEWPKASDNMTEQHKLQYLLYSSGSPNIGDVSQMERNGKPVGSYAADQTGMVVNGLAAGTDHYFNVMVKDAVGRKSAYRMLKVTTLWPQIYSLTYDGNGHTEGNVPVSSGLFARGDEAVVAGNTGQLGKGGHVFDGWNTEVDGSGIDYPAGGKLIFGTEDVTLYAQWKAIQAPIELKAVSYTPSPQSVGVEKDVTLQVVFNEEVTSVSGKSITIRLASDHRVVESVDAADAGSVTILGNAASIDPLNDFDAGAAYYVEIEPGAFTGNHSGTGFTGIQGADAWSFTVREHEDPAYDADLQALALRSSSGEVALSPEFARNHNDYKAQVAGDTDRLTVTAQVYDARATVTASVYGEAGNLIWGPMDLLSGQESPSFPVAVGSQVIEVVVTAPDGQHMKYRTTVTRASSGGSGGTPEEPEGSSPGGSGQGSAIPGLSGNAVPSNSVDVNVTINDESQEGMVTGLFHEANGHTIVSMKLDTAKLEARLETVDYNPVIVIALARPADQVSLETSGAALDLLNAKQGAIEIRSALGHFHVPAAVMASSRWHAPGSMDLPAADQITVTLTMAASDAAKVETVKKAALQSGITLIGLPIEFEITAKAQNTALQLDPFPQYMKQRIIWPKGMPGRMTTAVLLDRNGSFHPIPTRFELKEDGRSEAILHRLSAGTVAFISHQVRVADVSFHWSKDAVSDLASRMILNGTGLVEGGTDTNANQTAAIHFTPKAQVSRAEFAAMIVRALGLDEVKDGVPAFRDVDAEDWHNGVITQAVQYGLLQGYEDGQFRPAQGITRQEAIAVMARVMELAGITSAVNEMEAAAILSPYQDREDLSDWATPAAAALVKQGIVLGSGAGLKPLQKLSRGEAAVMLQRLLKGSELID				NA	NA	NA	NA	NA
AK002_01177	1038			hypothetical protein	ATGAAAAAGACATGGTCAATTCTATTAACACTCGTATTATCCGTTGGATTGCTTGCAGGTTGCGGCAACGATGATAAGTCTACTGACAGTGGTGCAGCTAATGGCGGTTCCGAAGGATCTCAAGATAAGAAACGCATTGCACTAGTTCTTCCTGAGAAGATCGGCGTGAATCCATTCTTTGCCCTGATGGACGAAGGATTGCAAAAGGCCGCTGCCGATTTCAACGTTGAAGTCAAAACGATTGAATCGACAGACCCTGCTTCGATCGAGCAGAACCTCCGTACGGCGGTTGCCGAGAAGTATGATCTGATTATCACATCCACCTTCCAGATGGAGGATGCATTAAAGAAGGTTGCACCGGAGAATCCGGACGTGCCGTTTGCGATCATTGACACGGTCGTGGATTTGCCGAACGTCCGCAGCGTCGGATTCCGCGAGCATGAGGCTGCTTATCTTCTGGGGGCGGCTGCAGGATTGGCAACGAAAACGAATAAGGTCGGCAACGTTGTGGCCAACGACATTCCGATTATGCATAAATATATGACCGGCTTTGAGGAAGGCGCGAAATCGGTCAATCCGAACATCGAAATTTTCGTTAACTTCGTAGGCGGATTCGACGATCCGGCAAAAGCGAAGGAGCTTGCGCTCCTGCAGAACTCCAAAGGCGCGGATTTCGTAGCCGGCATGTCCGCCGTTGGCGATCTGGGCGTGTTCGAAGCAGCGAAAGAGAAGGGCTTCTACACTTCCGGACAAGATACGGACAACACCGAGCCTGAGCATGTGGTGCTTGCGCAATTGAAAGGTACCGACGCTGTCGTATACGAAACGGTGAAGGATTTTGCAGAGGGCAACTATACTTTCGATATTCGTGACTACGGCCTGAAAGAAGGCGCTGTAGGTCTCACTTACGTTACGCATGAGAGCAAAACGCCGCTTAACCCATTCATTGGACAAGACATCGTGGATCAGCTTAAGGTGATTTCCGACGATATCATCGCCGGAAAGATTAAAGTAACGAACGCATTGGAACAAAATTAG	MKKTWSILLTLVLSVGLLAGCGNDDKSTDSGAANGGSEGSQDKKRIALVLPEKIGVNPFFALMDEGLQKAAADFNVEVKTIESTDPASIEQNLRTAVAEKYDLIITSTFQMEDALKKVAPENPDVPFAIIDTVVDLPNVRSVGFREHEAAYLLGAAAGLATKTNKVGNVVANDIPIMHKYMTGFEEGAKSVNPNIEIFVNFVGGFDDPAKAKELALLQNSKGADFVAGMSAVGDLGVFEAAKEKGFYTSGQDTDNTEPEHVVLAQLKGTDAVVYETVKDFAEGNYTFDIRDYGLKEGAVGLTYVTHESKTPLNPFIGQDIVDQLKVISDDIIAGKIKVTNALEQN	PGPT0021055_3186	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
AK002_01178	1494	rbsA_1	COG1129	Ribose import ATP-binding protein RbsA	ATGCTACTCCAGATGGACAATATTACGAAAAAGTATGGCGAGTTCAGCGCAAACCGCGGTATTGATTTTTCGCTGCGCGCGGGTGAGGTTCATGCGATAGTCGGGGAAAACGGTGCAGGCAAAACGACGCTGATGCGGATATTGTACGGGATGGAGCAGCCAACCTCGGGTACGATTCGGCTGAATGGCAAGGAAGTTTCGTTTGCAAGCCCGCTTGACGCGATTCAAGGCGGTATCGGCATGGTGCATCAGCACTTCATGCTGTTTCCTACGTTTACGATCGCCGAGAATATCGTGATCGGCAATGAGCCGGGCTCAGGTGCCGGGTTTGACCGCAAGCAAGCCGTGAAGATCGTGGAAGGACTCTGCGAAAAATACGGCATGAAGGTGGACCCGCGCGCCACCGTAAGCAGCAGTGCCCCCGGCGTGCAGCAGCGGGTTGAAATATTGAAGGTGCTGTATCAGGGAGCCGAAATCATCATTCTGGATGAGCCGACGGGCGTGCTGACGCCGCTCGAGGTGCAGGAGCTGCTGGATGCCATTAAACAGCTCTCCAAACAGGGAAAAAGCTTTATCCTGATTAGTCATAAGCTGAACGAGGTTCTTGACGTGGCCGATCGCATTACGGTGCTCCGTGACGGTGCCGTCACGGGCGTGGTGGAGAAGGGGAACACCGACGCCCACCAGCTCTCCCGTCTCATGGTCGGCCGCGAGCTGATGGAACTGGACCGCAAGCCGATCACGCCGGGCGAGAAGGTGCTGGAAGTATCGGACGTCTCGATCCGCGGAACGAAAGGCAAGCCGGTTCTGGACGGCGTAAACCTGGAGGTACGGGCCGGCGAGGTTGTCGGGATTGCGGGTATTTCAGGCAACGGGCAATCCGAGCTGCTTCAAGTGATCTCGGGCCTGGCTCAGCCGGACAGCGGGCGGATTGCCGTGTCGGGCAAGGACGTTACCGGCATGTCGACAAGAGAAATACGGGAGCACGGGTTAGCCCATATTCCGGAGGATCGCTACGTATGGGGTGCCAACCGAACGGCTACCGTGATGGATACCGGGCTTATGGGGCACCAACGCCGCTTGCAGCAGGGCGGCTTCCTCAAACTCAAGGACATTCGTTCGCTTGTATCCGGATGGGTTCAGAAATTCTCCATCAAGACCGGATCCCTGGAGACCAGCACGCAGTATTTGTCCGGCGGCAATCTGCAGAAGCTGATTGTGGCACGGGAACTGGAGCAGGGAACTCCGTTCCTGATCGCGGCGGAACCGACGCGAGGCGTCGATATCGGCGCCATGGAGACGATTCATGGCGAACTGCTCAAGCGGCGCGAAGAGGGCACGGGAATTTTGCTGGTATCGTCGGAATTAACGGAAATCTTGAAGCTGTCCGACCGTGTTCTGGTCATGTATGAAGGCCGGATCGCGGGCGAGCTGTCGGCGAAGGATGCGACAGAAGAGAAATTGGGACTGCTGATGGCGGGAGGAACTCTGTAA	MLLQMDNITKKYGEFSANRGIDFSLRAGEVHAIVGENGAGKTTLMRILYGMEQPTSGTIRLNGKEVSFASPLDAIQGGIGMVHQHFMLFPTFTIAENIVIGNEPGSGAGFDRKQAVKIVEGLCEKYGMKVDPRATVSSSAPGVQQRVEILKVLYQGAEIIILDEPTGVLTPLEVQELLDAIKQLSKQGKSFILISHKLNEVLDVADRITVLRDGAVTGVVEKGNTDAHQLSRLMVGRELMELDRKPITPGEKVLEVSDVSIRGTKGKPVLDGVNLEVRAGEVVGIAGISGNGQSELLQVISGLAQPDSGRIAVSGKDVTGMSTREIREHGLAHIPEDRYVWGANRTATVMDTGLMGHQRRLQQGGFLKLKDIRSLVSGWVQKFSIKTGSLETSTQYLSGGNLQKLIVARELEQGTPFLIAAEPTRGVDIGAMETIHGELLKRREEGTGILLVSSELTEILKLSDRVLVMYEGRIAGELSAKDATEEKLGLLMAGGTL	PGPT0021040_3398	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
AK002_01179	1068			hypothetical protein	ATGAACAAATGGACTAAACTTACGCTTCCGCTGCTCCAGCCGATTGCCGCCATCCTTGTGGGGCTGCTTGCCGGAGCCATCGCGATCATGATTGCCGGCGGCGATATCCTGCAGACCTACGCGGAGATGTGGAAGGGTGCCTTCGGCGGGATGTATTTCTTCACGAATACGCTGTCCCGCGCGACCCCGATCATTCTGATCGGTCTGGGCGCGGCGTTTGCCTTCCGTGCAGGCTTCTTTAACCTTGGCGCGGAAGGACAAATGGTGTTTGGCGCGCTTTCCGCCGCGTTGGTCGGATTGTATATGCCGGGTCCCGGCTGGCTGGTGTGTATCGCTGCCATCCTTGCGGGTGTGATCGCGGGCGGATTATGGTCGGTGATGGCCGGATATTTTGATGCCCGGTTCAGGGTGAACCTGCTGATCTCCACGCTGCTTCTGAACTATGTGGCCGTATTGTTTGCGGGTTATCTGGTCGCTTATCCGCTGAAGGACCGCTCGGGTTCGGCCGCGATGGCGCAATCCGAAATGCTCGATAACAGCGTCTGGCTGCCGAAGCTGATCTCCGGCATGCCGCTGCATGTCGGCTTTGTGCTCGCGGTGCTGGCCGCGTTGATTATATTCGTGCTGTTGAAGCGCTCCGTGATCGGCTACGAAGTACGGATGCTAGGCGGAAATCCGCTGTTTGCCCTGTTTGGCGGGGTTAAGCGCGGGCCGATGATGCTTGGCGCGATGTTCTTCAGCGGCGGCTTGGCCGGACTTGGCGGCGCCGTTGAAATTTTGGGCTCCCAGTATCGTTATATCGATGGTGCGTTATCTACGGCCGACTATGCCTGGACGGGCATCATGGCAGCATTGCTGGCAGGGTCGCATCCGATCGGTACGCTGATTGCATCGATTTTCTTGGCCGCGCTGCAGACGGGCGGCATGGGCGTGGAACGGAATACGGAAGTGCCGCTTGAGGTAGGAGCAATCATCCAAGCCGTGCTGATTCTGTTTATCTCCGCCCGATTCACATACAGCTTCCTGAAGCGCAGAAAGGGGAACAAATCCGATGGAACAGCTGTTTGA	MNKWTKLTLPLLQPIAAILVGLLAGAIAIMIAGGDILQTYAEMWKGAFGGMYFFTNTLSRATPIILIGLGAAFAFRAGFFNLGAEGQMVFGALSAALVGLYMPGPGWLVCIAAILAGVIAGGLWSVMAGYFDARFRVNLLISTLLLNYVAVLFAGYLVAYPLKDRSGSAAMAQSEMLDNSVWLPKLISGMPLHVGFVLAVLAALIIFVLLKRSVIGYEVRMLGGNPLFALFGGVKRGPMMLGAMFFSGGLAGLGGAVEILGSQYRYIDGALSTADYAWTGIMAALLAGSHPIGTLIASIFLAALQTGGMGVERNTEVPLEVGAIIQAVLILFISARFTYSFLKRRKGNKSDGTAV	PGPT0021045_2537	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
AK002_01180	924	rfuD	COG1079	putative riboflavin import permease protein RfuD	ATGGAACAGCTGTTTGACCTTGCTTTAATCAACTCGGCCCTCCGCGTGCTCACTCCGATCCTGCTTGCGGCTCTCGGCGGTGCCCTGTGTTCGCGCGTCGGATTGTTCAACGTCGGTTTGGAAGGCTTTATGCTGCTGGGAGCATTCGCAGCCGTGGTGGGGAACCACTTTTTCGGCAACGTGTTTTACGCGATTTTGTTTGCGATTGCGATCGTGTCGATCTTCTCCTTTATCTTTGCTTACCTCAGCATTAATCTGCAGGCCAACGTCATCGTGGTCGGTATCGCGATGAATGCGTTGGCGGCGGGGTTGACCACATTCAGCTTGCGGGCTATTTTTGATGTGAAAGGTGCATTTTATGATAATACGATGGTCGGGCTGCCAAAATGGAACATTCCGATTATCGAGGATATTCCGGTGATCGGTCCTATTCTGGCGGGCCTTACGCCGCTCGTGTATCTGTCGTTTTTGATTGCGGGCCTCATGTGGTATTATTTCTATCGCACGAAGAACGGCTTCCGTTTTCTGGCTGCCGGCGAGAATCCGCTCGCTGCCAAAAGCGTGGGCATCCGTGTAAGACGGTATCAGTATGGAGCCGTGCTCGCGAGCGGCGTGTTATGTGCGCTGGCAGGCGCGCAGCTGTCGCTTGGACAGGTGACGATGTTTACGGAAGGCATGACGGCCGGCCGTGGCTTTATCGCGCTCGTCGCCACGATGCTGGGCCAATCGGGTCCGCTTGGGGTGACGGCGGCAAGCCTGCTGTTCGGCTTTATGGATGCACTCAGCATCCGGTTCCAGGGCCTGGCGCTGCCTACGCATTTTACGCAGATGCTGCCTTATGTCGTAACGATTCTGGCGATGTTCTTCTTTAAGGATAAAAGCTTCCAGCAGGACGCGCTGAAGCAGGGATCCAGCTCCAGATAA	MEQLFDLALINSALRVLTPILLAALGGALCSRVGLFNVGLEGFMLLGAFAAVVGNHFFGNVFYAILFAIAIVSIFSFIFAYLSINLQANVIVVGIAMNALAAGLTTFSLRAIFDVKGAFYDNTMVGLPKWNIPIIEDIPVIGPILAGLTPLVYLSFLIAGLMWYYFYRTKNGFRFLAAGENPLAAKSVGIRVRRYQYGAVLASGVLCALAGAQLSLGQVTMFTEGMTAGRGFIALVATMLGQSGPLGVTAASLLFGFMDALSIRFQGLALPTHFTQMLPYVVTILAMFFFKDKSFQQDALKQGSSSR	PGPT0021050_2414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
AK002_01181	675	msrP		Protein-methionine-sulfoxide reductase catalytic subunit MsrP	GTGCATAAAAAAGCAGAACGTTTGAAAAAAATGAAGCCGGTGGCGGTGGGCAACCTGACCGAAGAGCAGCGGGCCAAGCTGCCGCCGGGGCAGACGCTGACCGAGAAGTTCCCGATATTGCATGAAGGGGAGGTTCCCCATTACGACATGTCCGCATGGACCCTCAGGGTTTTCGGCGAAGTCGAAGAGGAACAAACCTTTACGTATGAAGATATTCTGGCGATGCCAACGGTAACCGTGAACACCGACATTCACTGCGTCACGCGCTGGTCCAAGTTCGATACGGTATGGGAGGGCATCCTGTTCCGGGATTTCATGGCGGGCTTGAAGATCAAGCCGGATGCCAAATACGTCATGTTTCATGCCGATCCCGATTATGACACGAATGTGCCGATCGAGGATTTGCTCCGTGACGATGTGCTGCTGGCCTATCGTTTCAACGGCGAGCCGCTGACGGACAAGCACGGCTGGCCGCTGCGCACGGTCGTGCCGCACCGCTATTTCTGGAAGAGCGCCAAGTGGCTGCGCGGCATCGAGTTTATGAAGGAAGACCGCCCGGGCTTCTGGGAACGCAACGGCTTCCATAATGAAGCGGACCCGTTCAAGGAAGAGCGGTTTAGCGGCGAGGCGCTGGATATACCCGAAGACGAATGGACACGTAAGGAGTTTGACTAA	MHKKAERLKKMKPVAVGNLTEEQRAKLPPGQTLTEKFPILHEGEVPHYDMSAWTLRVFGEVEEEQTFTYEDILAMPTVTVNTDIHCVTRWSKFDTVWEGILFRDFMAGLKIKPDAKYVMFHADPDYDTNVPIEDLLRDDVLLAYRFNGEPLTDKHGWPLRTVVPHRYFWKSAKWLRGIEFMKEDRPGFWERNGFHNEADPFKEERFSGEALDIPEDEWTRKEFD				NA	NA	NA	NA	NA
AK002_01182	732	deoD_1		Purine nucleoside phosphorylase DeoD-type	ATGTTGATGCCTATTTTGCAAGTGAACTCAGAGGATATACCTGAATTTGTGATCGTCTGCGGCGACCCGAAACGCGCGGAGACGATATCCCGTAAGCTCGAAAATGCGCGCGAGCTGGCATTCAGCCGCGAGTACCGCACTTTCGTGGGAACGTATGAAAGCGTTGAGCTGGCGGTAACCAGCCATGGCGTCGGCTGCCCGGGAGCGGCCGTTTGCTTCGAGGAGCTGATTCGCGCGGGCGCGAAGACCTTGATTCGCGTGGGCACCGCCGGGTCTTATCGGGCGGACACTCCTGCGGGGAGCCTTGTGGTTAGCACCGCGGCGATCCGTACGGACGGTCTGACGAAGCAGCTGGTACCGGACGGTTTTCCGGCGGTTGCGGACAGCCAGGTGGCTGAGGCGTTGTACGAATCCGCGCTCGCGATCGGCGAAGGCGTCGTGCGCAAGGGCATAACCGTCACGCTGGACGTGTTCTTTAACGGAGTCGAGGAAGTGCCGCATCAGAAATATAAAGCGGCCGGCGCGCTCGGCGTCGAGATGGAAATTGCGGCGCTGTACGTCGTTGCGGCGATCCGCGGCGTTCGCGCCGGCGCGATTGTGGCCATGGACGGCTTTGCCGACGCCGACCTTGCGGCCGAGTACGATCCGAACACAAACGTGGTTGCCGACGCGGTGGAGCGCGAGATTAACACCGCTTTGCAGGCTGTGGTGAAGCTGGCGAAGCAAGGCTAA	MLMPILQVNSEDIPEFVIVCGDPKRAETISRKLENARELAFSREYRTFVGTYESVELAVTSHGVGCPGAAVCFEELIRAGAKTLIRVGTAGSYRADTPAGSLVVSTAAIRTDGLTKQLVPDGFPAVADSQVAEALYESALAIGEGVVRKGITVTLDVFFNGVEEVPHQKYKAAGALGVEMEIAALYVVAAIRGVRAGAIVAMDGFADADLAAEYDPNTNVVADAVEREINTALQAVVKLAKQG	PGPT0021235_1818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021235-udp-K00757	NA	NA
AK002_01183	471	yjoA	COG2318	putative protein YjoA	ATGAGTCATGAAGGTCAACAGCAATTCGAACGATGGCATAGACACCGTACGGTCTTGCTTCAGCTGCTGCAGGACGTACAGAGCGAGCATTTGGATTATAAACCGTGGGATCATGCCTATACCTTGGGCGGATTGGCTGTTCATATTGCGGCGTCCTCGGACATGTTCTTGCGCTCCATTGTAAAAGGTTCCTTCTCTCCACCCTCTATTTCCACCGAATTCGAAACCATCGATGACATAAGAAATATCGTGCAGGCTTCGACCGAATCGTCTACGGCTGTTTTTAATGAATTGTCTGACTTCCTAATGGAGCAGCCGCTGGACTTTAACGGGTTCGTTTCCCCAGGAAAAGTGTGGCTGAGCAACATGGTCGACCATGAAATCCACCACAAAGGGCAATTGTTCACTTACGTGCGTGCAGTCGGCATCGAAAAGGTTCCCTTCTTCACCGTTCAGCCGCCAAAACCGTAA	MSHEGQQQFERWHRHRTVLLQLLQDVQSEHLDYKPWDHAYTLGGLAVHIAASSDMFLRSIVKGSFSPPSISTEFETIDDIRNIVQASTESSTAVFNELSDFLMEQPLDFNGFVSPGKVWLSNMVDHEIHHKGQLFTYVRAVGIEKVPFFTVQPPKP				NA	NA	NA	NA	NA
AK002_01184	519			hypothetical protein	ATGGCTAGAGCTTCAACCTCTGCGAATCGGCGAAATGAAATCGTAGCGGCAGCAATCGAAGTGTTTGCAGAGATCGGATACTATCGCGCGACCACGGCTCAGGTTGCGGAACGGGCAGCGATATCCCAGCCTTACGTCTATCGGTTCTTTACCAAGGAATCGCTGCTCGTGGAATCGCTGACTGTCTCCTGGAAGCGCATCGTGCAGGCATTTCAGGGGGTCATCGAGTCCGCTGCTCCGAAGGAACTGGAGACGGGCCTGATCCGGGCGTACGAAGGGATCGTGCAATCCCATCGCAGCGAAATCCTGCTGCAGATGCAGGCGCAGACGATCCAGGAAGCGCCCATCCGCGAAGCGATGCAGCAGGGAATGAACGAGGTGAAGGACCTGGTTCAGCATGCTTTCGTGAAAGCGGGATTCGAGGATGCCGATAAGAAAACCTCCGATTTTCTGGCCCGGGGGATGCTGTGCAATGTAGCCATGGCGATGGATATGCCGAATATGATGCCCAAAAGATAA	MARASTSANRRNEIVAAAIEVFAEIGYYRATTAQVAERAAISQPYVYRFFTKESLLVESLTVSWKRIVQAFQGVIESAAPKELETGLIRAYEGIVQSHRSEILLQMQAQTIQEAPIREAMQQGMNEVKDLVQHAFVKAGFEDADKKTSDFLARGMLCNVAMAMDMPNMMPKR				NA	NA	NA	NA	NA
AK002_01185	960			hypothetical protein	ATGATGAAAAAAGCGATTGTTTTGGGTGCGACAGGCGGCGTAGGCGCCCCGCTGACGGCGGAACTGGTGAAGCGTGGAATTCAAACGGTAGCCTTCGGCCGTTCCGCGAAGAAGCTGAATGAGCTGGCTGAGCAGCTGGACCGTTCGCCTCTGCTTACGCTGGAAACGGGAGATGCATTTAAACCTGAGGATATCCGAAGAGCCGCGGAAGGGGCCGATGTTATTTTTCAAAGTGCGAACATCCCTTACCACGAGATGGAATCCAGGCTGCTGCCGCTGGGTGAATCGGTCATGACGGCTGCAGAGAAGCTGGGGACCAAGGTTGTGGTGGTTGATGGAATCTATCCTTATGGCAGACGCTTAATGGAAAAGGCAACAGAGGAGCATCCCAAAAAACCGCATACCCGTAAGGGCAAAGTAAGATTAGCCTACGAGCAGCTGATATTCTCATCGCGCTGGCATAAAGCAAACCCTCTTATCGTAAGGTTGCCCGACTACTATGGTCCTTCTGCGCAGGCGTCCTATTTATCCGTCACGATGGAAGCCATTGCGGCAGGGAAGCCAACCGCCTTCATCGGCAACATGAGCGTTCCCCGAGAATACATCTATTTGCCGGATGCCGCCCGAATGATCGTAGAGATTGCCGAGAGAGAGGAGTCCTATGGGCAGAACTGGCATATCCCCGGACCGGGCGTGATTTCAGGCCATGAGCTGGTGCGGATTGCGCAGCAGGCTGCCGGAAAGCGCAAGGCGGTAATGCCGCTTGGACGAATCGGACTCTCCCTGATCGGGTTATTCAATCCGGTGATGAAAGAGGTGGTTGAGATGCTGTATTTGACCGAGGAGCCTTTGGTGCTGAGCGGCGAGAAATACGAGCGCCTGATCGGTCCGATTCAATGGACGCCTCATGAGCAGGCGATAGCTGCGACCATGAGGAGTTTAATGAATAAACGGGCATGA	MMKKAIVLGATGGVGAPLTAELVKRGIQTVAFGRSAKKLNELAEQLDRSPLLTLETGDAFKPEDIRRAAEGADVIFQSANIPYHEMESRLLPLGESVMTAAEKLGTKVVVVDGIYPYGRRLMEKATEEHPKKPHTRKGKVRLAYEQLIFSSRWHKANPLIVRLPDYYGPSAQASYLSVTMEAIAAGKPTAFIGNMSVPREYIYLPDAARMIVEIAEREESYGQNWHIPGPGVISGHELVRIAQQAAGKRKAVMPLGRIGLSLIGLFNPVMKEVVEMLYLTEEPLVLSGEKYERLIGPIQWTPHEQAIAATMRSLMNKRA				NA	NA	NA	NA	NA
AK002_01186	96			hypothetical protein	ATGAAGGAAGAGATACGTTCGGTTTGGTTTTCCAGGCACTCGATCTTGCTCGGCATCACAGCCACTCTGCTGGTGCTGTTCTCCATGTGGGATTAA	MKEEIRSVWFSRHSILLGITATLLVLFSMWD				NA	NA	NA	NA	NA
AK002_01187	468	sigL	COG1595	ECF RNA polymerase sigma factor SigL	ATGCAAGTATGTGATCTTTATGAAAACCTGAAGGACGATGTCCAGCGTTATGCCAGATCCATCGCCAAGCATGCTTACGAAGCGGATGATCTGGTCCAGGATGCCTTTATGAAAGCCATCAAGGAGCCGAACCTGGCAGCGCTGCCCCTTCACAAGCAAAAGGCCTGGTTCTTCAGAGTCGTCAAAAATCGCATGATCGATATTAGCCGCCGGGAGAAGCGGCTCGTATCGTGGGAGGATGATCTGGACATCGCGGAGCTCCCCGTGTCAAGCCGCAATATCGAAATGACGGAATGGCTCGCCCGTTTGCCGCAATCGCAGAGCAATATCGTGTTTAAGCGCTTTTGGCTCGGGATGTCCAGCCAAGAAATCGGTGAGCAGCTGGGTATGCCGGCAGCCACGGTTCGTTACAAATTGCAAACCGCCATCAAAAAATTGAGAAAACTATGGGAGGAAGATATGAAATGA	MQVCDLYENLKDDVQRYARSIAKHAYEADDLVQDAFMKAIKEPNLAALPLHKQKAWFFRVVKNRMIDISRREKRLVSWEDDLDIAELPVSSRNIEMTEWLARLPQSQSNIVFKRFWLGMSSQEIGEQLGMPAATVRYKLQTAIKKLRKLWEEDMK	PGPT0014960_12171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_01188	1209			hypothetical protein	ATGAGCAGAATCATCGAGAATGTAGGGATGTTGGATCTTACGCAGGCCACGGAGGAAACCGTAACAAGCATCGAGCGGATCGGAAACGTGGGCCTTGTGATATACCGGGCAGAGACGGCACACCTCCTCACGCTGTTGAAAAACACTGGCAATATCGGCAAGACGATTGAAATCCCCGAGGGACACCGTTATTACAGCGGCACGCTGCGGCTGAACGAGGAATATTTTCAGCTCTTGGAGCAGCCGGACCGCGTATTCGTTAACGGCACGGTCATCATCGATAAAGGAGTATCCCTTGAAGCATTCCAGAGCGGCACGCTGCACCTGGTGGTTAACGGCGAGGTCTATGCTCCCCGGCATCTGGCCGCTGCCGTTACCTCTGCACTCCTCAAAGTGGGAGGCGCCAGCGCGGAGATTCACGCTTACGAATACGAACCCCGGTTCGAGTCCGGGAAAGTGCAGTTGAACAATGCGTATCTGGCCTCCAGCAGCGAGCCTATGGAGCTGGTCTTGAACGGCATGGTTCATCTGGATAAGGAGCTGGATATGGAGCAGTTCTCGGCCCGGATTGAAAAGATCCAAGTCAACGGCAAGGCGATTATCCATGAACATCAATCCCCTTATTTCTACGATAAATTGAAAAAGATCAACGGCTTGGTCGAGGTGATCCCGGCAGGATTCGAGTATGTAACCAAACCGCTACGGCTAAACGCAAGAAGCGTACGGAGATTTAAAGGCCATAAGCTCTACACGAATAAGCCGCTCATTCTCGAGGCGGACGTGAACCGGGACGCCTTCAGCCAGGCCGTGTCGGAGATACAGTCCACTTCGTTCATCATTTGCGGCGAAGAGATCGAAGATCTGGTCTGGGAGCGCTGCCCCAACCTGAATACAGAAATCGTAAGTTATGAGCGGCTGTTTGTGTTCATCAGCGGCGAGGAGACCTGGTCGAGGGATCAGCTGGCGGCTTTGGGCCAGCCGGCGAGCTTCATTGTTGACGGGACGCTGACCTTAGACGATGACGTCACCGAGGAAGATATTAAGGCTTCGATGTCCTCCCTGGATCTTTTCGGCGAAGTCGTTGTAGGGGAAAAAAGAATTAAAGGCATTTTGTACCCTTACCTTCGGGCAAACAATGGAAGTATTATAGTGAAGGGGACGGAAGAGGAGCTTGCAGGTATTGGTAATGTCGGAATGTTGTCGCTATAA	MSRIIENVGMLDLTQATEETVTSIERIGNVGLVIYRAETAHLLTLLKNTGNIGKTIEIPEGHRYYSGTLRLNEEYFQLLEQPDRVFVNGTVIIDKGVSLEAFQSGTLHLVVNGEVYAPRHLAAAVTSALLKVGGASAEIHAYEYEPRFESGKVQLNNAYLASSSEPMELVLNGMVHLDKELDMEQFSARIEKIQVNGKAIIHEHQSPYFYDKLKKINGLVEVIPAGFEYVTKPLRLNARSVRRFKGHKLYTNKPLILEADVNRDAFSQAVSEIQSTSFIICGEEIEDLVWERCPNLNTEIVSYERLFVFISGEETWSRDQLAALGQPASFIVDGTLTLDDDVTEEDIKASMSSLDLFGEVVVGEKRIKGILYPYLRANNGSIIVKGTEEELAGIGNVGMLSL				NA	NA	NA	NA	NA
AK002_01189	198			hypothetical protein	ATGAATATCAATAATGAAGATATTGCCAAACAGCATGTTCACGATCTCCGTCAGGAACTGGAACGATGCCGGATGGCAACGAAATTGCGCTCGAAACGCAATGAAGCGGCCCACGCCGCAAAGACCGCACGCACGGTCGAAGGAAAGTGGAAGGCGCTGCTTGAAACCATCATCATGATGGGAAGAAGAATGCTTTAA	MNINNEDIAKQHVHDLRQELERCRMATKLRSKRNEAAHAAKTARTVEGKWKALLETIIMMGRRML				NA	NA	NA	NA	NA
AK002_01190	600			hypothetical protein	GTGAAAAAGAAGGATTTAACCTCGCGGCAAATCGTCGAGGCTGCCATCGGATTGTTTGCGGCACATGGCATCGAGAAGACCAGCCTGGCGATGATTGCCGGCGAAGTGGGCATTACGAAACCGTCGATTTACTATCACTTTGCGTCCAAGGATGAACTGGTGGAGCGGGTCTTTGAATACATGTTCAGCGATTATCATTTCGATCATTATTTCTCCCTGACCGGGCTAAATGAGTTTAACTTCGCGGAGCAGCTGTACCAGGGCGGGCTGCGCATGTTTCCCGAGGAGGAAGAAGCCTTCGTGCCGGTGATGCGCCTATTGAGCGAGTTCATGCTGACCGCAAACCGGAATGCCAATTACGGCCAGCGGGTAGCTGCCATGCAGCAATCGTTCCTGGACGGCTTTCGGGAATTCATGAAGCTGGGGGTCGACTTCGGGGTCGTCGATCGTCAGCATGCGGATTCCAAGGCCTATGTTCTGGCCCTGGTCATCGATAATATCACGAGTTATATCATGATGGAGATTCCGCTGGACTATCAAGCGGTCTGGAAAGAAGCGGTGAACAGCGTTCTCAGGAAAGGAGCGGATGCCATTGAATAA	MKKKDLTSRQIVEAAIGLFAAHGIEKTSLAMIAGEVGITKPSIYYHFASKDELVERVFEYMFSDYHFDHYFSLTGLNEFNFAEQLYQGGLRMFPEEEEAFVPVMRLLSEFMLTANRNANYGQRVAAMQQSFLDGFREFMKLGVDFGVVDRQHADSKAYVLALVIDNITSYIMMEIPLDYQAVWKEAVNSVLRKGADAIE				NA	NA	NA	NA	NA
AK002_01191	693			hypothetical protein	TTGAATAACGAGAGGGAATACAGTGATCTTGGATTATCATGGGCAGACCGTATGCTGGTATGGGCGGTGCCTCCTTTATTAGGCGCGGTGGTCGGCTGGTTTCTGCCTGTCATTGCGGATTGGGCAACGGGCCTGGCTTGGGTGCCATTTCAAGGACCCTTGGAGTTGATCGCATCCATCCAGGGCCCATGGGTTGTTATCGTAACCGCTGTTGTAGGGCTGCTTGCCGGGACGGTGCTCTCTCACTTAGCCATTAAAGAAAGCCTTGCGGTTCGCCTGTCGGACAAGGAGATTACACTCCGCATTCATGAGGCTGAACAAACCTTTAGGAGAGAAGAAGTTTCCGCTGCCTTTATGGACGGCAAGCAGCTGGTCCTGCTGGGCAACGAAGGGGAGGAGCTCTATCGCGAGAAACCCGAAGCCAAGCGGGAAACGGTGGCCGAAGCCTTCAAGCGGCACGGTTACTCCTGGAGAGACCGCAATCCGTTCGCCGATGATTACGTCAGATGGATTGCCGATTCGCCGGAACTGACGCCTAGCATGAACGCGCTCTTCCTGGCACGGGAGAAGGCCATCAAGAACGAGGATCGAGAGGACGCGGCTGATCTGCGCCGGGAACTATCGAAGCTGGGCATCACCGTGCGCGATGACGGAAAAAGACAATATTGGCGTCAGCACGGACAGAAGCCATAA	MNNEREYSDLGLSWADRMLVWAVPPLLGAVVGWFLPVIADWATGLAWVPFQGPLELIASIQGPWVVIVTAVVGLLAGTVLSHLAIKESLAVRLSDKEITLRIHEAEQTFRREEVSAAFMDGKQLVLLGNEGEELYREKPEAKRETVAEAFKRHGYSWRDRNPFADDYVRWIADSPELTPSMNALFLAREKAIKNEDREDAADLRRELSKLGITVRDDGKRQYWRQHGQKP				NA	NA	NA	NA	NA
AK002_01192	1707			hypothetical protein	ATGAATTTTGATCTGAATATCGTACCTTTCAGCCGAAGAGAGTCCTTCTTGGCGATATCCCTCCTGCCAGCGGCGGAGAACCGGAGACAGGGTTTGTACCTGCGAACCGTCCGCGGAGGGGATGACAAGTTTGGCGAGGCGTTTCTGATAGAGCTGTTAAACCGGCAGAACGAGCCGATATCATTTGAACCGGTGGCATCACCCGACAACATCAGGCTAACGGCCTCCGATTCGTTAGGCCATGCGGATATTTGCATATCGGACTCCCGGACCGTGCGATTCCGCTCGGAAGGCTGCGGCATCCGGCTTACCTTTTTCCCCGCAGCGTATGATTACGCCTATGAGACCCATCCGGACAGCTGGGAGGTGAACAGCTTTACGCATGGCTGCCGCTTCATGCTGACCCGGCTTGCGGGCCAGATGGGCATGGAGGTCGAATGGAACGAGATCAAGAGCTCGCGGGTTACCGCCGACTTTTCTGTGGATCCTGCATCCAATGCGGCCGAATTTGCGGTCGAAGAGTTCATGACCGTCTTGAAGCCGCGCGACGAATGGGAGTCCTTCGACGATGCGGTTGGAAGTGTTCGCGAGGATTACGCCGGATGGCTGAACAGCACCCTTGCCGTCTCTGAGCAGTGGCAGGAAGCAAGGGAGCTCGCCGCCTATATTACCTGGTCCTGCGTGGTTCCTGCCGAAGGCTGCCTGACTCGCCCGGCCATGTATATGTCCAAGAATTGGATGACCAACATCTGGAGCTGGGACAACTGCTTTAACGCGATGGCTCTTGTGCGGCATCAGCCGGAGCTGGCTTGGGACCAGTTCATGATCTTTTTTGACCGGCAGGATGAGAGCGGCCTGATCCCGGACTTCGTGAACGATAAATACGAGCTATGGAATTGCAACAAACCGCCGATTCACGGCTGGACGCTGGCCTGGATGATGCGTCGGACCGATTACATCAAGGAGGCCCAGCTGCGCGAGGTCTATGGCCCTCTAGCGAAATGGACGCAGTGGTGGTTCACGCACCGGGATCATGACGGCGACGGCATTCCCCAGTATAACCACGGCAACGACTCGGGCTGGGACAACAGCACGGCGTTCAATAACGGCATTCCCGTCGAGAGTCCCGACCTTGCCGCTTATCTGATTATCCAGATGGAGACGCTGGCCGAAATCGCGGGCTTGCTGGGCCTGTCGGAGGAGTCGGCCGGATGGAGACGAAGGGCGGACGATACGCTGGAGCGTTTGATTCGGCACTTCTGGAAGGACGGCCGGTTTACGGCCTGCCGTTCGGGAACGCATGAGCCGTCCGAAGGGGACAGCCTGCTGCTGTTCGTTCCTATCCTGCTGGGTAAACGCCTTCCCGAGCATATCCGCACGGCTCTGCTGGAAGGGCTTCGGGATGAAAGCCGATTTCTGACGAGCAACGGCTGGGCGACCGAAAGCGTAAGCAGCCCATACTATAAGCCGGACGGATATTGGCGCGGCCCGATCTGGGCTCCTTCCACGATGCTGCTGGTCGAAGGGGTGGCGGCGGCCGGCGATAAGGAGCTGGCCATGGAGATTGCGCAGCGGTACTGCCGAATGGTCAGTCTCAGCGGCATGGCCGAGAATTTTGATGCCCTGACCGGAGCCGGGCTGCGCGATCGGGCGTTCACCTGGACCTCCAGCGTATTTTTGATTTTGGGACATGAATACACGTTATAA	MNFDLNIVPFSRRESFLAISLLPAAENRRQGLYLRTVRGGDDKFGEAFLIELLNRQNEPISFEPVASPDNIRLTASDSLGHADICISDSRTVRFRSEGCGIRLTFFPAAYDYAYETHPDSWEVNSFTHGCRFMLTRLAGQMGMEVEWNEIKSSRVTADFSVDPASNAAEFAVEEFMTVLKPRDEWESFDDAVGSVREDYAGWLNSTLAVSEQWQEARELAAYITWSCVVPAEGCLTRPAMYMSKNWMTNIWSWDNCFNAMALVRHQPELAWDQFMIFFDRQDESGLIPDFVNDKYELWNCNKPPIHGWTLAWMMRRTDYIKEAQLREVYGPLAKWTQWWFTHRDHDGDGIPQYNHGNDSGWDNSTAFNNGIPVESPDLAAYLIIQMETLAEIAGLLGLSEESAGWRRRADDTLERLIRHFWKDGRFTACRSGTHEPSEGDSLLLFVPILLGKRLPEHIRTALLEGLRDESRFLTSNGWATESVSSPYYKPDGYWRGPIWAPSTMLLVEGVAAAGDKELAMEIAQRYCRMVSLSGMAENFDALTGAGLRDRAFTWTSSVFLILGHEYTL				NA	NA	NA	NA	NA
AK002_01193	1746			hypothetical protein	ATGAATCTTCAGGGAATCAAAGACCGAGCCGGACGGATGTTCACCGGCACCTATCAGAGCATAAGAACCAAGCTGCTTACCTGTTTTTTAGTCGTCACCCTGATTCCGCTGTTCTCGCTTGGCGGACTTTCCTATGTTCAATCCGCTAAAGTGATTAACTCCCAGTTCGGCAAATACGGCGATAATGCCGTGGCGCAGCTGGAGCAGCAGACCAGTTCGGCTTTGGGGCGGATGAAGCAGACGGCGGAGACGATTTATTCCTACCTGCTGGATCCGAGCCATTCGGGAATCGGGAACGGGACGCCGTCCACCTATGGCGACATCATGGAGAAGAACGATTTCGAATCGTTGTTGAAGTCCCTGCGGACGCAGCTGACAGCCGGGATCTACATCATAACGAGCTCCGGTTATTACTATGGGGAGAACAACCTGGACGTGAACAAACTCGGCAATATCCCGGCGTGGAACGCCAGGCCGAAAGCCTATGCCGGCACTTATTGGCTGGGCTTCTATCCGCAGGATCATTCCATAAATAACAGCGATAGCGACAACGTGCCTGTCCTAGGATTGGCGGTGCCGATCCATCACCCGGACAAGGCTCAGGACGGCAGCGTCATCCTGATCGAGGAGAACGCCGAGGAGCTGCTGCGAAGTTATGCCAAGTTCGAGGCCGACACGCATGCCCATCTGCTTATTACATCGCCGGACGGCACGGTCGTGTATGAGACGGACGCTCCGTATACGCCCCATGACAGCGATGTGGCCTGGACCCGGACGATTGACGCCAACCAATGGACCATGGAAGCCAGAATTCCCGCCAAGGCGTTCTATCAATCCTCGGACGTGATCCGGGCGAACACGATGGTTGTTGCCACCGTATCCTGCCTGCTCGCTTTTGGCATCGCTTATCTGTTCTCTTCCCGGTTCACTTCGCGGATCCGGACCTTGAAGGACTCGATGCAGAAGGTGAGCTTCGGCAAGCTGGATACCCGTACGCCCATCGAGGGCAGGGATGAGCTGGGCAGCCTCGATATGAGCTTTAACCGGATGGTAACGGGCGTGCAGACCCTGATTGGCGAGGTGGAGCAGAGCGAGCGGCTGAAAAAAGAGGCCGAGCTGCGCGCATTCCATTATCAGATCAACCCCCATCTGCTGTTCAACACCCTGAATTCCATCCAGTGGAAGGCCCGGCTGCAAGGCGCGGAGGACATTCGCCAGATGCTGTACCATCTGACGCTGGTGCTGGAGGGAAATCTGGATATTTCCCAGGAACTCGTTACCCTAAACAGGGAGCTGCGCATGATCGGCCACTTCCTCAAGATCCAGGAAATCCGGTACGGCGAAGTATTTCGTTATCGCCTGGATTGCGATGATTCGCTTCTGCCGTATTTGATTCCGCGGATGACGCTTCAGCCGTTGTTCGAGAATATATTTTTCCATGCCTTTACGGACGGGCAGGGAGAGATCCATGTCAACGTCGAGGAGGATCATGACGAGCTTGTGCTCACGCTCCGCGATAACGGAGCCGGCATCAGGGAGGACAAACTGGCGCGGTTGTTTTCGCCGGAGACGAAGCGGAAGGGCCGCGGCGGGCTTGGCGTGCGGAACGCCGACCAGAAATTCAAGCTGCATTTCGGTCCGCTCTACGGACTGAAGGTGCATTCGGTTAAGGGAGAAGGAACAACGATCATCATACGCTGGCCGAAAAGGGAGGAGTCTTTCGATGATGAATACAGAGAACATTAA	MNLQGIKDRAGRMFTGTYQSIRTKLLTCFLVVTLIPLFSLGGLSYVQSAKVINSQFGKYGDNAVAQLEQQTSSALGRMKQTAETIYSYLLDPSHSGIGNGTPSTYGDIMEKNDFESLLKSLRTQLTAGIYIITSSGYYYGENNLDVNKLGNIPAWNARPKAYAGTYWLGFYPQDHSINNSDSDNVPVLGLAVPIHHPDKAQDGSVILIEENAEELLRSYAKFEADTHAHLLITSPDGTVVYETDAPYTPHDSDVAWTRTIDANQWTMEARIPAKAFYQSSDVIRANTMVVATVSCLLAFGIAYLFSSRFTSRIRTLKDSMQKVSFGKLDTRTPIEGRDELGSLDMSFNRMVTGVQTLIGEVEQSERLKKEAELRAFHYQINPHLLFNTLNSIQWKARLQGAEDIRQMLYHLTLVLEGNLDISQELVTLNRELRMIGHFLKIQEIRYGEVFRYRLDCDDSLLPYLIPRMTLQPLFENIFFHAFTDGQGEIHVNVEEDHDELVLTLRDNGAGIREDKLARLFSPETKRKGRGGLGVRNADQKFKLHFGPLYGLKVHSVKGEGTTIIIRWPKREESFDDEYREH				NA	NA	NA	NA	NA
AK002_01194	1173	cheB_4		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAATACAGAGAACATTAAAGTGATGATTGCCGACGACGAAAGCATAGTGCGCAAGGGACTCCGCTCCACGGTGCCCTGGGAACGGTTCGGGATGGAGGTGGTGGCGGACAGTCCCAACGGCCAGGCGGCCTGGGAGGCTTTTCTGGAGTATCGGCCGCAGGTCGTCATTACGGATATCGTCATGCCGGAGATGGATGGGATCGAGCTCTCCCGGAAGGTGAAGGAGGCTGCGCCGGAAACCCGGATCATTCTGCTCAGCTGCCATCGGGATTTCGAATATGCCCAGGAAGGGATGCGGCTTGGCGCGTCCGGATATCTGCTGAAAACCGCCTTCGAAGACGAAGAGCTCGAAGCGATGCTGGGTAAATTTCAACGCGATCTGTCTGATGCGCCGGCCAACGGGTACGGGTTGGAAGAACAGGTTTCCGCCCATTTGTTTGCTTGGCTTAACGGGCACAGCGACCGTTTCCCCGGAGAACTCCGGGAGCTTTGCAGCCGCGCCGGGCTGGGAGAGGGCAAGCCCATCTCGCTGTATCTGATCAAAACGGCGGGCTGCAGCGGCAGTTGGGAGCACCTGCTGAAGGAGCAGGGCTCCGAGGAGCCGGGATTGCGCACCAGCAAGCGGGTCCCATACGGCGCGGACAGCTGCTATTGGGCCGTACCTGAGGAATATAAGGAAGCGGCGGACGGGCTGCTGGTGGAGATCAAGAGCCGATGCGGGAAGCTTGCCTGGAATTGGCGGGGAGGTCTTCAGGACTCGGAGGATGTGCAGAAAGCCTTTCAATCCTTGCACAAGGAAGTCGAGCTGGAGCGGGTGTACGGTCTGAGCGGAGAGCAGTGGCCGGAGCCGATCCTGCAGGCGGTTCATCTGCTGCACGAACATCCCGCGGACGAGTGGTCGGCAGCGGAGCTGGCCCAGCAGGTGGGGCTGAGCCGCAGCCATTTTTCGATCCTGTTCAAGAAAACGGTCGGCGACAGCTTCATCGCGTTCCAATATAAGCGCAAGCTCCGCCTTGCATACGGCCTGCTGCGCGAAACCTCCTTAACGATGCAGGAGATCGCCGAGAAGACGGGACTCGGAGACAGCAAATATTTCAGCAAATGGTTCAAGCGCTGCACGGGTCAGACGCCAAGCCAATACCGTGCCGAACAAAAAGGGGAATCATCGTAA	MNTENIKVMIADDESIVRKGLRSTVPWERFGMEVVADSPNGQAAWEAFLEYRPQVVITDIVMPEMDGIELSRKVKEAAPETRIILLSCHRDFEYAQEGMRLGASGYLLKTAFEDEELEAMLGKFQRDLSDAPANGYGLEEQVSAHLFAWLNGHSDRFPGELRELCSRAGLGEGKPISLYLIKTAGCSGSWEHLLKEQGSEEPGLRTSKRVPYGADSCYWAVPEEYKEAADGLLVEIKSRCGKLAWNWRGGLQDSEDVQKAFQSLHKEVELERVYGLSGEQWPEPILQAVHLLHEHPADEWSAAELAQQVGLSRSHFSILFKKTVGDSFIAFQYKRKLRLAYGLLRETSLTMQEIAEKTGLGDSKYFSKWFKRCTGQTPSQYRAEQKGESS				NA	NA	NA	NA	NA
AK002_01195	1278			hypothetical protein	ATGAAAAAGAGAATGTCATGGATCGCGATGGTTTCGGTAATGACGTTAATGGCATCGCTGCTGGCCGCATGCGGCGGCAGCGGCGGGACCGGCAGCGCGAAGCAGCCGGACGGAAGCTCATCAGAGGCGGCAACGACGCTTCGTTTCGCGACATGGGATACGGGAGATGCGCTGAAGATCGAGCAGGAGATCGCCAAGAAGTTCGAAGAGTCGCATCCCGGCACGAAGGTGCAGGTCGAGGCCTATGCCGACGGATTCGATCAGAAGCTGGCCGCCGGATTCGGCGCAGCCAATCCGCCGGACGTGATGTACATGTGGGATTTTCCGACGTATCACCAATCCTTGGAGCCGCTGGACGGTTACGCGTCCAAGGACGAGGATTTGAACATCGATGATTTTTACCAAGGATTGTTCAACTACGGCAAGATCGACAATCAGCTGTACGGAATCCCGGCGGGCTTTACGACCCGGGTCGTGTACTACAACAAGAAGATGTTCGACGATGCGGGCATTGCTTACCCGAGCGATGGATGGACATGGGCGGAGTTCCAGGAAATCGCCGAGAAGCTGACGGATAAATCCAAGAAGCAGTACGGCTTCGGCGTACGGGCCGAGAACGATACGTATGACCTTCAAGGGTTCGTATGGAGCAACGGCGGATCCTTCATCTCGGAGGACGGCACAACGATCGAAGGCTACATGAACAGTAAGGAAACGGCGGAAGCCATTCAGATGTTTGGCGATATGCTCAAGAACGGCTCGGCGGTCCTGACCGGAGGCAAAGGGCAGCAGAGCGGGGAGGATATTTTCAAAGCGGGCAAGATTGCCATGTGGGAGAGCGGCATCTGGCCGCTGGAATCCTTCAGGGAAGCCGGAATCGATGTGGGTACGGTGGAAATGCCGGCCTTCGAGGGCAAGCCAGTGAAGGGCGTATTGGCCGAATCCGCATTATCCATAGCGAAGGATTCCAAGAACAAGGATCTGGCGTGGGAGTTCATTAAATTCTACGTATCGGATGAAGCGATCAAAATGCGCGTGGCCGACTTGCCGGTCCGGGTCAGCGTGGTCAACGAGCTGAAGAAGGACCAGGATCCGCTCTACAAGCCGTATTACACGATGCTGGAGCGTTCGGACAATACGCCGGCTTTTCTGCTGAACCCAAAATGGAACGAAGTGAACCGCCAGCTGTCGGCAGCCGTGGAATCCGTCATGTTCGGCAGCGATGCGCAGGAGGTTCTGAACCAGGCGGTGAAGGATAGCGAACGCTATTTGAAATAA	MKKRMSWIAMVSVMTLMASLLAACGGSGGTGSAKQPDGSSSEAATTLRFATWDTGDALKIEQEIAKKFEESHPGTKVQVEAYADGFDQKLAAGFGAANPPDVMYMWDFPTYHQSLEPLDGYASKDEDLNIDDFYQGLFNYGKIDNQLYGIPAGFTTRVVYYNKKMFDDAGIAYPSDGWTWAEFQEIAEKLTDKSKKQYGFGVRAENDTYDLQGFVWSNGGSFISEDGTTIEGYMNSKETAEAIQMFGDMLKNGSAVLTGGKGQQSGEDIFKAGKIAMWESGIWPLESFREAGIDVGTVEMPAFEGKPVKGVLAESALSIAKDSKNKDLAWEFIKFYVSDEAIKMRVADLPVRVSVVNELKKDQDPLYKPYYTMLERSDNTPAFLLNPKWNEVNRQLSAAVESVMFGSDAQEVLNQAVKDSERYLK	PGPT0016545_8017	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_01196	1026	lacF_8		Lactose transport system permease protein LacF	ATGGCCCAAACGCAAGTGCCTTACTCACAACAGCAGACAGCGGCCCCGAAGCGACTTGGACCAAAACGTTGGGGTGGGGCCGTGCCCTACCTCTTCATTTTTCCATGGATATTCGGATTCCTGATTTTCACGCTCGGCCCGCTGCTGTTTTCCCTCGTCATTTCGTTTTTTGATTGGCCGATCGTAGGCCAAGTGACCTTTGTTGGCATCGACAACTATGTGGAGATGTTCTCGAACGATCCGCTGTTCTGGAAATCGCTGCTGGTTACGCTGAAATTCGCGGCTTTGTTCGTGCCGCTGAACATCGTCGTGGCTCTGGGACTCGCTATGCTGTTGAATCAGAAGGTAAAAGGGAGCGCATTCTTCCGCACCGCCTTCTACCTGCCGTCGGTCATTTCCGGCGTCGCCCTCGCCATGATCTGGTCCTGGGTGTACAGCGGGGATTACGGGATCCTGAACTATTTCTTATCGCTGGTCGGCATCGAAGGGCCGGACTGGCTGAACGATACGAAGTGGTCCCTGGTCGCCATGGTCATTGCAAGCCTATGGGGACAGGGCTCGATGATGCTTATTTTTCTGGCGGGTCTCAAGGGAATTCCGAAGGACCTGTATGAGTCGGCCTCGATGGACGGGGCGGGCAAGATTCGGCAGTTCTTCAATGTGACCATTCCGATGATCACGCCGACGCTGCTGTTCAACCTGATTACGTCCATCATTGCCGCGTTCCAGCAGCTGACGCTGGCGCTTCTGCTCACGGGCGGGGGCCCGCTGAAGTCGACGTTTTTCTATGCGATGTACATGTACGAGAATGCGTTCAAATATTTCAAGATGGGGTATTCCGCAGCCAACGCCTGGTTCATGTTCCTGATCGTGCTGACGCTGACGTTCCTTGTGTTCAAGTCTTCGGAGGCCTGGGTGTTCTATGAGGGCGAGATGAAGACGAAGAAGGAGAAGGCGAAGCCGAAGCCGAAGCCGAAGCGTGCCAAGCAAGGGGTTCAAGCCAGCAGGGAGGGAGGTTCCATATGA	MAQTQVPYSQQQTAAPKRLGPKRWGGAVPYLFIFPWIFGFLIFTLGPLLFSLVISFFDWPIVGQVTFVGIDNYVEMFSNDPLFWKSLLVTLKFAALFVPLNIVVALGLAMLLNQKVKGSAFFRTAFYLPSVISGVALAMIWSWVYSGDYGILNYFLSLVGIEGPDWLNDTKWSLVAMVIASLWGQGSMMLIFLAGLKGIPKDLYESASMDGAGKIRQFFNVTIPMITPTLLFNLITSIIAAFQQLTLALLLTGGGPLKSTFFYAMYMYENAFKYFKMGYSAANAWFMFLIVLTLTFLVFKSSEAWVFYEGEMKTKKEKAKPKPKPKRAKQGVQASREGGSI	PGPT0016535_575	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_01197	813	dasC_2	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAAAAGGGTGATCACGTACGCACTGCTTATTCTGTGCTCGCTGCTGTTCATTGCTCCGCTCTTCTGGGCCGTCACGACGGCGCTGAAGTCGCAGCAGGAGCTGTATCTGTTTCCTCCGAAATGGTTTCCTTCCGTGTGGAGGTTCAGCAATTTCGCGGAGGCCTGGAGCATTCAGCCGTTTAACCTGTTTTTGAAAAATACGCTGATCGTGACGCTGCTGTCGACGCTCGGGCAGCTCGTCTCGTGCACGCTGGTGGCTTACGGGTTTGCCCGGTTTCAATTCAAGGGGCGGGACGCGCTGTTCCTGATCGTGCTTGCCACCATGATGATTCCCTGGGAAGTGACCATGATTCCGCAATATATGGAGTTCAACTACCTGGGCTGGATCAATACGCTCAAACCGCTCATCGTTCCGTCCTGGTTCGGCTCCGCTTATTTCATTTTCCTGCTGCGCCAGTTCATCATGACCTTGCCGAAGGAGCTGGATGAAGCGGCAACGATTGACGGGGCGGGCAAAATGACGGTTCTGCTGCGGATTATCGTGCCGCTGATGGGTCCGTCGCTCATCCTGGTGGCCGTGTTCCATATGATGAGCTGCTGGAACGATTACCTGGGCCCGCTCATCTTCCTGAACGACCAGACGAAATATACGCTGACGCTGGGGTTATCCCAATTCAAGGGCATGCACGGCGTCGACATGCAATCCATTATGGCCATCACCTGCCTGATCTCGATTCCGCCGCTGGCCGTCTTTTTCTTCGCGCAGCGTTATATCGTTGGCGGCATTGCCACAACGGGAATCAAGGGGTAA	MKRVITYALLILCSLLFIAPLFWAVTTALKSQQELYLFPPKWFPSVWRFSNFAEAWSIQPFNLFLKNTLIVTLLSTLGQLVSCTLVAYGFARFQFKGRDALFLIVLATMMIPWEVTMIPQYMEFNYLGWINTLKPLIVPSWFGSAYFIFLLRQFIMTLPKELDEAATIDGAGKMTVLLRIIVPLMGPSLILVAVFHMMSCWNDYLGPLIFLNDQTKYTLTLGLSQFKGMHGVDMQSIMAITCLISIPPLAVFFFAQRYIVGGIATTGIKG	PGPT0016540_9207	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_01198	3099	ebgA	COG3250	Evolved beta-galactosidase subunit alpha	ATGAAAGACCATCGTATTGGCCGCGACTGGGATGACCTGAGCGTGCTGGAACGAAATCGGGCAAAGAGCCGGGCCTATTTCATTCCGTTCGCGGATGCGGACGGAGCGCTCAGTTATGACAGAGGCAGCTCGGCCTGGTACCAATCGCTGAACGGGGTGTGGAAATTCCACTATGCCGAGGAGCCGGAGAGCGCTCCGGAAGCATTTTATGAGGAGGATTACGATGTATCGGCATGGGATGACCTCCCGGTTCCGGGACACTGGCAGCTGCAGGGCTACGGGCATCCGCATTACACGGACCTGTACTATCCGTTCCCCGTGGACCCGCCGCATGTGCCAAATGCGAATCCGACCGGCAGCTATGTCCGCGAGTTCGAGCTTCCGCAGCATTGGGACGGCAGAAAGATCGGCGTCAAATTCGATGGGGTGGACAGCGCGTTCCATGTGTGGCTGAACGGGTCGTTTATCGGCTACAGCCAGGGGAGCCGGCTGACTTCGGAGTTCGATCTGACGCCTTATTTGAAGCCCGGCGTTAACAAGATGTCCGTCCGGGTATACCAATGGTCCGATGGAAGCTATCTGGAAGACCAGGACATGTGGTGGATGAGCGGCATTTTCCGGGACGTGTACCTGATCGCCGAGCCATCGGCGCTTCGCATCAACGACTTCCGCGTAACGACCGAGCTGGATGCGGAGTATCGGAACGCGAAGCTGCAGGTCCAATTGGAGCTGGAAGGTACGGAGCGCGGCTCCGTCCAGTTGCGGCTGTTGAATGGCGCTGGAGCGGAGATGGGGTCAACCGGCAAAGACGTCGGGCACTCTTCCGTGGAGGATTTTGAGATCGAGGTGGCGGGCCCGGATTTATGGAGTGCCGAGTCACCGGCACTGTACCACCTGGTGATCACCCTGCGGGATAATCAGGGGGAGACGCTGGAGACGGTGGCGCAGCGCGTCGGCTTCCGCTCCATCGAAGTAAAGGACGGACGGCTTCTCGTTAATGGCAGGGCAATCCTGCTGAAAGGCGTCAACCGCCATGACCATCATCCGGATACGGGCCGAACCGTCACCCTGTCCACGATGCTGGAGGACATCCGGTTGATGAAGCAGCACAACATCAATGCCGTGCGGACGGCGCATTATCCGAATGACCCCCGATTCTACGAGCTGTGCGACGTGTACGGGCTGTACGTCATGGAAGAGACGGATTTGGAGACCCACGGCTTCGAGCCGCTCGGCAACATTTCCTGCCTGAGCGACGATCCGGATTGGAAGGAAGCGTACGTGGACCGTGTCCGCCGGATGGTGGAACGGGATAAGAACCATCCGTCCGTGCTGTTCTGGTCCCTCGGCAACGAATCCGGCTTCGGCTGCAATTTCCGCGCGATGGCGGAGTGGTGCCGGGAGCATGATCCGACGAGGCTGATCCATTACGAGGAGGACCGCGAAGCCGAGGTGTGCGACGTGGTGAGCACCATGTATTCCTCCGTCGAGAAGATGGAGGGCTTCGGCAAAATGACCGATCATCCCAAGCCGCATATCCTGTGCGAATTCGCGCACGCGATGGGCAACGGGCCCGGAGGACTGCGTCCTTACTTCGATGCCTTTGAAGCGCATCCCCGCCTGGCGGGCGGTTTTGTCTGGGAATGGATCGATCACGGGCTGAGCAGAAGGACGCCGGACGGCAGCATGGATTATGCGTACGGCGGCGATTATGGCGATGTGCCGAACAACAGCAATTTTGTCATCGATGGTTTGGTCCGTCCGGACCGGACGCCTTCACCCGGACTTCTGGAATACAAAAAGGTCATTGAACCTGTCCGCATGTCGATGCGAAGACACGGTGTGCTTCATATCATGAACCGCTATGATTTCATTTCGCTGGATCATTTGCAGGCCCATTACCGGGTACTGTCCGATGGACAGCTTGTCCGCAGCGGAGCGCTGGACCTTCCCCGCATCGAAGCAGGCACAAGCTCGGAGCTAAATCTCCTGAAGGTCTTGGAGCAAGCGACAATAGGCGTGAATCCTTATGCCGAGCTGTGGCTGGAGGTATCCCTCTCGCTGGCCGCGGACTGCCGCTGGGCGGAACGGGGACATGAAGTGGCATGGTCCCAGTTTCTGCTGTGCGAAGCGTCGAAGCCTGAATTCGAACCGACCGCTGCTTTGCGGCGGGGACCTCTGCAGATTAGCGAAGAAAAGCATGGTCTTCACGTTGGGAATGGAAGCTTTCAGCTGTCCCTCAGCGCCCTTCATTCCGGCTTCGAAACCTTGTCCATGGAGGGCAAAAGAATCGCGTTCGGCGGACCGGCGCTGAATTTCTGGCGTCCGCCGATCGATAACGACATGTACGTGCTGCCGGATTGGCGCAAGGCCCATCTGGACCGACTCTCCGAGCGGATCGATCATTTCGAATGGAAGCGACTGGACCAAGACAGCGTGGAGGTGCGGCGGATTTCCCGGATTGCGCCGCCGGTATATGATTGGGGCTTCCGCTGCGAAACGACCTATACGATCACTTCCAGCGGCCTGATCATCATGGATGTGAAGGGTGAGCCGATCGGCACGCCGCCCGCCATGCTGCCGAAAATCGGATTGCAAATGCAAGTCGCCGGCGACATGGAACATGTCCGGTGGTACGGCAGAGGACCTGGGGAAAGCTATCCGGACAGCCTGGAAGCGGGACGGTTTGGGGAATACCGCAGCACTGTGGACGGCTTGTTCACGCCGTATATTTATCCGCAGGAGAATGGGAACCGATCGGATGTCCGCTGGATCTCGCTCGCGGATGGTGCTGGATTGGGGCTCCTCGCCGTTGGCGAGCCTGTCCTGAATTTCAGTGCAAGCCGGTACACTGAGCAGGATGTGGAGTCCGCGGCGCATGCCAGCGACCTTGTTCCACGCAGCTTCATTACGCTGAATCTGGATTACCGGCAGAACGGACTTGGCAGCAACAGCTGCGGTCCGGCACAGTCTCCGGAGCATTCGATCAAGCCGGAGCCGTTTTCGTTCCGCATTCTCCTGAAGGCTTACGCTGCCGAGGATACCGATCCGGTAAGACTGAGCCGGCGGATGCGCTCGGAAGCGGAATTATACAAGTAA	MKDHRIGRDWDDLSVLERNRAKSRAYFIPFADADGALSYDRGSSAWYQSLNGVWKFHYAEEPESAPEAFYEEDYDVSAWDDLPVPGHWQLQGYGHPHYTDLYYPFPVDPPHVPNANPTGSYVREFELPQHWDGRKIGVKFDGVDSAFHVWLNGSFIGYSQGSRLTSEFDLTPYLKPGVNKMSVRVYQWSDGSYLEDQDMWWMSGIFRDVYLIAEPSALRINDFRVTTELDAEYRNAKLQVQLELEGTERGSVQLRLLNGAGAEMGSTGKDVGHSSVEDFEIEVAGPDLWSAESPALYHLVITLRDNQGETLETVAQRVGFRSIEVKDGRLLVNGRAILLKGVNRHDHHPDTGRTVTLSTMLEDIRLMKQHNINAVRTAHYPNDPRFYELCDVYGLYVMEETDLETHGFEPLGNISCLSDDPDWKEAYVDRVRRMVERDKNHPSVLFWSLGNESGFGCNFRAMAEWCREHDPTRLIHYEEDREAEVCDVVSTMYSSVEKMEGFGKMTDHPKPHILCEFAHAMGNGPGGLRPYFDAFEAHPRLAGGFVWEWIDHGLSRRTPDGSMDYAYGGDYGDVPNNSNFVIDGLVRPDRTPSPGLLEYKKVIEPVRMSMRRHGVLHIMNRYDFISLDHLQAHYRVLSDGQLVRSGALDLPRIEAGTSSELNLLKVLEQATIGVNPYAELWLEVSLSLAADCRWAERGHEVAWSQFLLCEASKPEFEPTAALRRGPLQISEEKHGLHVGNGSFQLSLSALHSGFETLSMEGKRIAFGGPALNFWRPPIDNDMYVLPDWRKAHLDRLSERIDHFEWKRLDQDSVEVRRISRIAPPVYDWGFRCETTYTITSSGLIIMDVKGEPIGTPPAMLPKIGLQMQVAGDMEHVRWYGRGPGESYPDSLEAGRFGEYRSTVDGLFTPYIYPQENGNRSDVRWISLADGAGLGLLAVGEPVLNFSASRYTEQDVESAAHASDLVPRSFITLNLDYRQNGLGSNSCGPAQSPEHSIKPEPFSFRILLKAYAAEDTDPVRLSRRMRSEAELYK	PGPT0018785_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018785-ebgA-K12111	NA	NA
AK002_01199	1242			hypothetical protein	ATGTCCTTTTACATCAAAGACCTGCTGCAGCTGTCTACGGGGGTGCGCCGCTTCCTTATAAGCGAGGCCTTCTATGGCATTGGAATCGGCCTCTATACACTCGTCCTGAATCTGCATCTGCTTTTTCGGGGGCTAAGGGAGGACGAAATCGGCGCGTTGGTGTCGATGGGCATTCTGATTATGGGCGTGCTCGCCATTCCGGTATCCCTGCTCGCCAACCGGACCGGAAGGAAAAAACTGCTGGTTACCGGCGTATTCTTTATCGCCGCAGGCAATGTGCTGTTTGCTGTCAGCGATGATTTGCTGTGGTTCTATGTCGCTCAAATATTGGTGTCTACCGGCTTGACGCTTGTGGAAACAACGGAGATTCAGCTTCTCTTCCATTATTGCCGTTCCCGTAAGGAGGAGGCCCGTGCATTTTCCTTGATGTTTGCCGTCTTTACGGCTTTCACGGGTCTCGGAACGCTGGCTGCCGGATATATCTCGAAGGGATTTGAAGGAAGCAGGGGTTATGAAGTGTCGCTTCTGCTGACCGGGCTGGTGCTTGTGCTTCATGGCGTCATCCGGGCGTTCTGGCTGCCTTCTGAGCGCAGGGACTTGGATGAGGAAGCGCCGACGGTTTCATCTTCTAAGGGAATATCCAGGTTAACGGGGCCTCTGTCTTCCGGGACCTTATGGCTGTTCGCCGTGTTTACGGCGCTGCTCGGCGGCTGTATAGCCATGACTGGCTCATTCTTGAACGTCATCGTGAAGTTCCGCCTGGATTGGATGGATGACCAGGTATCTGTAATTCTTGCCATCGGCGCGATCCTTCTGTTTATATGCTCATTGATGACACCGTACGTCATGGAGCGGTTCGGTTATAACACGGCCATTATCTCGGTATTTATCGTTAATATGTTGCTGTTTGCCGCTCTATACATGATTCTCCCCGTATGGCTGTTTGTCGGGCTGTTTCTGCTGCGGGGCGGCGGCGTGACCATGCTGTCCAATCTGCTGGACAGTCTGCTGATGTCGGCCTTTAATGAAAAGGAGCGAAATTTGTATGCCGGCATGCGGTCGGTTTTCCGGAGCTTAGGCTCGTCCGGGGCAACCTTTGTCGCCGGACTGATCCTGGCCCGGCAGGATTATCGGCTCCCCTTCCTGGCCACGGCCGGCGTGCTGCTCCTATGCGGCCTGTATTACGTATGGTGGATTCGTCCGGTCTTATCCAAGAGATTAAACAGCGGTATCGAGCCATGA	MSFYIKDLLQLSTGVRRFLISEAFYGIGIGLYTLVLNLHLLFRGLREDEIGALVSMGILIMGVLAIPVSLLANRTGRKKLLVTGVFFIAAGNVLFAVSDDLLWFYVAQILVSTGLTLVETTEIQLLFHYCRSRKEEARAFSLMFAVFTAFTGLGTLAAGYISKGFEGSRGYEVSLLLTGLVLVLHGVIRAFWLPSERRDLDEEAPTVSSSKGISRLTGPLSSGTLWLFAVFTALLGGCIAMTGSFLNVIVKFRLDWMDDQVSVILAIGAILLFICSLMTPYVMERFGYNTAIISVFIVNMLLFAALYMILPVWLFVGLFLLRGGGVTMLSNLLDSLLMSAFNEKERNLYAGMRSVFRSLGSSGATFVAGLILARQDYRLPFLATAGVLLLCGLYYVWWIRPVLSKRLNSGIEP	PGPT0003185_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003185-blt-K08153	NA	NA
AK002_01200	1878	htpG	COG0326	Chaperone protein HtpG	ATGGCGAAAAAACAGTTTAAAGCTGAATCCAAACGGCTGCTCGAGATGATGATCAACTCCATCTATACGCAGCGCGAGATATTCCTGCGCGAGCTGATTTCGAATGCCAGCGACGCAATCGACAAGATTTATTATAAAGCGCTGACCGACGACAGCCTGACCTTTAATAAAGAGGATTACTACGTTAAGATTACCGCGGATAAAGCCAGCCGCACGCTGACCATTGCCGATACGGGGATCGGGATGACCAAGGAAGACCTTGAGAATAACCTCGGCGTCATCGCGAAGAGCGGTTCCCTTGCATTCAAGAGCGAGAATGAAGCTAAGGACGGACACAATATCATCGGTCAATTCGGCGTGGGTTTCTACTCCGCCTTCATGGTGGCCGACGTCGTTACCGTGACGAGCCGTGCCCTGGGCAGCGACGAGGCATATAAATGGGAATCCGAAGGCGCGGACGGGTATACCATTACGCCTGCCGAGAAAGATTCCGTCGGAACCGAGATCGTGCTGAAGATCAAGGAGAACACGGAAGACGATCAGTATGACGAGTATTTGGAAGAATACCGCCTAAGAGCGATCATTAAGAAGTACTCCGATTTTATCCGTTATCCGATCAAAATGGACGTGAAAACGCAGCGTCCGAAGGCAGACGCCGAGAACGAGTTCGAGGAAGTTCAGGAAGAGCAGACCATCAACAGCATGGTGCCGATCTGGCGCAAGAACAAAGGCGAGCTGACGGACGAAGATTACGTCAACTTCTATAACGAGAAGCGTTACGGCTTCGATAAACCGCTCAAACATATTCACGTCAAAGCGGATGGTGCCGTGGTATATAACGCGATTCTGTTCATTCCCGAGAATACGCCGTTCGATTATTACACCAAGGAATACGAAAAAGGGCTTGAGCTCTATTCCAACGGCGTTCTGATCATGGATAAATGCGGAGACCTCCTGCCGGACTATTTCAGCTTCGTGAAAGGGATGGTCGATTCGGAGGATCTGTCGCTGAACATTTCCCGCGAGATGCTGCAGCATGACCGCCAGCTGACGCTGATCGCGAAGAACATCAAGAACAAAGTGAAAAGCGCGCTGCAGGGCATGATGAAGGACGAGCGGGAGAATTACGAGAAATTCTTCGCATCCTTCGGCCGAGGCCTGAAATTCGGCGTTTACAACGATTACGGCATGAACAAGGAAGATCTTCAGGATCTGTTGCTGTTCACGTCCTCCAAGGAGAAGAAGCTGGTCTCCCTGGATGAGTACGTGTCAAGAATGCCGGAGGATCAGAAGTATATCTATTATGCTTCCGGCGACTCCATCGACCGGATCGAGAAGCTCCCGCAGACCGAAATGGTGCTGGACAAAGGCTATGAAATCCTGTACTTTACCGACGATGTCGACGAGTTTGCGATCAAGATGCTCATGAAATACAAGGAGAAGGAATTCAAATCGGTATCCAGCGGGGATCTCGGTATCGATTCCGAGGCCGACAAACAGGAGAATGAAGCCGAAGAGAGCGACAACAAGGAGCTCTTTGAAGCCATGGGCAGCCTCTTGGCCGGCAAGGTGAAGTCCGTCAAAGCCTCCAAACGACTGAAATCCCATCCGGTGTGCCTGTCCACGGAGGGCGAAGTCTCGATCGAGATGGAGAAAATCCTGAAGGCAATGCCGAACGGGCAGGATATCCAAGCCGACAAGGTGCTGGAGATCAACACGAACCATGAGGTGTTCCAATCCCTGAAGGCGCTGCAAGCGGATCAGGATAAGCTGAAGCTCTACACGAATCTGCTGTACAATCAGGCGCTGCTGATCGAGGGCTTGCCGATTGCCGATCCGGTGGAATTCACCAACGATATTTGCAAAATCATGGTGTAA	MAKKQFKAESKRLLEMMINSIYTQREIFLRELISNASDAIDKIYYKALTDDSLTFNKEDYYVKITADKASRTLTIADTGIGMTKEDLENNLGVIAKSGSLAFKSENEAKDGHNIIGQFGVGFYSAFMVADVVTVTSRALGSDEAYKWESEGADGYTITPAEKDSVGTEIVLKIKENTEDDQYDEYLEEYRLRAIIKKYSDFIRYPIKMDVKTQRPKADAENEFEEVQEEQTINSMVPIWRKNKGELTDEDYVNFYNEKRYGFDKPLKHIHVKADGAVVYNAILFIPENTPFDYYTKEYEKGLELYSNGVLIMDKCGDLLPDYFSFVKGMVDSEDLSLNISREMLQHDRQLTLIAKNIKNKVKSALQGMMKDERENYEKFFASFGRGLKFGVYNDYGMNKEDLQDLLLFTSSKEKKLVSLDEYVSRMPEDQKYIYYASGDSIDRIEKLPQTEMVLDKGYEILYFTDDVDEFAIKMLMKYKEKEFKSVSSGDLGIDSEADKQENEAEESDNKELFEAMGSLLAGKVKSVKASKRLKSHPVCLSTEGEVSIEMEKILKAMPNGQDIQADKVLEINTNHEVFQSLKALQADQDKLKLYTNLLYNQALLIEGLPIADPVEFTNDICKIMV	PGPT0014640_3459	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-PR1_LIKE_PROTEINS,PGPT0014640-hptG-K04079	NA	NA
AK002_01201	627			hypothetical protein	ATGGCGCAATATGTACCGCCGGTGAACATTCATACTCTCACGCATACGGCACGCGGGCTCGTGATTCATTATCCGCAGGTATACGGCCTCATGAATCCTGGAGCAGAAGAAGCCATCAACCGGGCCATTATTCTTCAAATCCAAGATATGCAGCGTGAACAGCAGCAGGTTCAGACCGGCACCAACCCGCAAACGACGGGCACCTTTGAGATTAAAACGAACGAGCGCGGCATTCTTAGCCTCGTGCTGACCAACTACACCTACTCCGAGCATATGGCGCACGGGTATACGGTGACCAAAGGACTGACCTTCTCCACGGCCACCGGACAATCCTATGCCTTATCCGATCTGTTCCGCCCGGGCTCCGGCTATCAAGCTGTCTTGGCCGCCGAAGTGAACCGTCAGATCAAGGAACGCGGCATTCCCGTGCTGGAGAACGTTCCGGTTACCGTTTCGCCGAATCAAGACTTCTATCTGGCCGATAAGTCGCTGGTCATCTTCTATCCGCTGTATGCCATCACGCCATACTATGTCGGCTTTCCGATGTTCCCCATATCGGTATACGACCTCTTGGACCTGGCGCCCGAGAACGGATTGTTATCGGATCTTGCCGCGGATGTGGCGTAG	MAQYVPPVNIHTLTHTARGLVIHYPQVYGLMNPGAEEAINRAIILQIQDMQREQQQVQTGTNPQTTGTFEIKTNERGILSLVLTNYTYSEHMAHGYTVTKGLTFSTATGQSYALSDLFRPGSGYQAVLAAEVNRQIKERGIPVLENVPVTVSPNQDFYLADKSLVIFYPLYAITPYYVGFPMFPISVYDLLDLAPENGLLSDLAADVA				NA	NA	NA	NA	NA
AK002_01202	1152	cntE_1		Staphylopine export protein	ATGGAACGTTTATGGACGAAGCCGTTTATTCAGATGACGGTCGGAATGCTGTTTCTGTTTACGGGCTTCTATCTGCTGCTGCCCACGCTTCCGCTGTATATCAAGCACCTGGGCGGCTCCGAGACCCAGGTGGGCTTGGCGGCCGGCGCATTTACGCTGACGGCGGTGGTCTTTCGCCCGATGGTCGGGGGATTGGTGGACCGGTACGGCAGAAGAGCTTTTTACGTTTGGGGTCTTATCTTCTTTGTTCTTTCGATGTACCTCTACGATTGGGTCGGCAGCATTCTGCTTCTGCTTGCGCTGCGGATCCTGCACGGCGCGAGCTGGGCTTTCTCGACAACCTCCATCGGGACGGTCATCACGGATTTAATCCCGATCTCCCGCCGCGGGGAAGGCATGGGCTGGTACGGTATGGCGATGACGGTGGCAATGGCCATCGGCCCGATGCTGGGTACTTATATCGTGAGCGGGTATTCATTTCGGACGTTGTTTCTAGTCGCTACCGGGCTCTCCCTGATTGCCTTCATACTGGCCTACATGACCAGAGCGCCTTATCAAGCCAAGCCTTCGGCTGGGCGAATTCAGCTGGTCGAGAAATCCGTTCTGCCTGTCACGGCTGCCATCTTTTTCCTGGCCGTCGCCTATGGGGGAATTACGACCTTTCTCCCGCTGTTTGCCGAGTCCATCCGGGTCAATCCGGGAACCTTTTTCCTGGTGTACGCCGTCGCTCTTACCTTGATCAGGCCCTTTGCCGGGAAGCTGTCGGACCGTTTCGGCGAAGCGGCCGTCATCATTCCGTCCCTTGTCGTCACGGCCGGTGCCCTGATCGTCTTAAGCCAATCGAGCGGATTGCCCGGATTGATTACCGCCGCCATTCTGTACGGCATCGGTTTCGGTTCGGCCCAGCCCGCCCTTCAAGCAGCCACCCTGCGCATTGCGCCCGAGAACCGGAGAGGCGCAGCCAATGCCTCGTTCATGACGGCATTCGATCTCGGCATCGGACTTGGCGCCATCGTGTTGGGCCTGATCTCCGAGCGTATCGGCTATGCCTATCTGTTTACGGTTACGGCCGTGTCTGTTGTCGTATCCTTGGTCATATTCGCGGTCTTTGTAAGAAGACTGCTTACGGCTGGCGTTGCAGAGAAGGAATGA	MERLWTKPFIQMTVGMLFLFTGFYLLLPTLPLYIKHLGGSETQVGLAAGAFTLTAVVFRPMVGGLVDRYGRRAFYVWGLIFFVLSMYLYDWVGSILLLLALRILHGASWAFSTTSIGTVITDLIPISRRGEGMGWYGMAMTVAMAIGPMLGTYIVSGYSFRTLFLVATGLSLIAFILAYMTRAPYQAKPSAGRIQLVEKSVLPVTAAIFFLAVAYGGITTFLPLFAESIRVNPGTFFLVYAVALTLIRPFAGKLSDRFGEAAVIIPSLVVTAGALIVLSQSSGLPGLITAAILYGIGFGSAQPALQAATLRIAPENRRGAANASFMTAFDLGIGLGAIVLGLISERIGYAYLFTVTAVSVVVSLVIFAVFVRRLLTAGVAEKE				NA	NA	NA	NA	NA
AK002_01203	546			hypothetical protein	ATGTATGAAATCTTTGTTCTGGGCGAATTAATGACCGGAGACAAACACGGTTACATGCTTCAAGAGATCCTAAAAAATACAGGCGGGCCTTACCGCCAGATCAGTTCAGGAACGTTGTATCCCCTGCTGTCCCGGATGGTGGATCACGAGTGGATCCATCTCAGTCTGGACGGGTCCGGCGGAGGCAAACGGCCCCGAAAAATCTACGGGATTACCGATTCCGGCCGTCGGAAGTTTCTCGAGCTCATGGAGAAACCACTGGAATACAACATGGATACGGAGCAGACGTTCCACTTCAAAATGGTCTATTTCCGGTATGTTCCGAAAAGGGTTCGACTCGACTGCCTGCAGCAGTATTTGATTTATCTGGAGACCAACCTGAAGCATGTGACGGACTTTGAAGCAGAGATCGCGTTCTATAAACCCGAACCTGAGAAACAGCGGCTTCAATTGCTAAGGGTGCTGGATCACCGAAAGCAAATGGGAGAGACGAATATCGAGTGGATCAAGAAAGAAATAGCGGCTGTTAAGTCCGAAGAGGACTAG	MYEIFVLGELMTGDKHGYMLQEILKNTGGPYRQISSGTLYPLLSRMVDHEWIHLSLDGSGGGKRPRKIYGITDSGRRKFLELMEKPLEYNMDTEQTFHFKMVYFRYVPKRVRLDCLQQYLIYLETNLKHVTDFEAEIAFYKPEPEKQRLQLLRVLDHRKQMGETNIEWIKKEIAAVKSEED				NA	NA	NA	NA	NA
AK002_01204	387	ytcD_3	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAGAATAACCGATCATGAACGGCCTAACACCGACGGTATCCTGACCACGCTGCAATTAATCGGAGGTAAGTGGAAACCGCTGATTCTATTTATTCTGCTGCAGGACGGAACCAAACGGTTCGGGGAGCTTCGGCGTCTGCTTCCGGGCGTGACCCAAGGCATGCTCACAAATCAGCTCCGTGAACTGGAGCAGGATGGGCTGGTCATACGCAAGGTATATCAGGAGATCCCGCCCAAGGTGGAGTATTCCGTCTCGGAGCACGGGAAGAGCTTGGACAGCGTACTCTCCGACATGTGCACCTGGGGATTTCAGCATCAGGAATATGTCAACAAGGTCAACGGACAGTCTGATGAGGGCTCAGGGAAAAACGCAGGCGGACTGTAA	MRITDHERPNTDGILTTLQLIGGKWKPLILFILLQDGTKRFGELRRLLPGVTQGMLTNQLRELEQDGLVIRKVYQEIPPKVEYSVSEHGKSLDSVLSDMCTWGFQHQEYVNKVNGQSDEGSGKNAGGL				NA	NA	NA	NA	NA
AK002_01205	549	ywrO_2	COG2249	General stress protein 14	ATGAAAACCATGGTGATTGTGGCTCATCCGAATTTAGACAACTCGCGTGCGAATCGAATGCTGATGGAGCACGACGGGCTGTATGCGAATGGAAATGTAGATGTCCGGGATCTTTACAAGGAGTACCCGGATTGGACTATCGATATCGAGCGCGAGCAGCAGCTTCTTCTTCAATACGAGCGGGTGGTGTTCCAATTCCCGTTTTACTGGTACAGCTGCCCGCCCCTGCTGAAGAAATGGATGGATGACGTGCTCACCTTCGGTTGGGCGTTCGGACCGGAGGGCAACAAGCTGAAGGGCAAAGAATTCATGCTGGCCACGACGGCGGCAGGATTGGAACAAGGGTATCAGGCAGGCGGGGACAATTGGTACACCGCGAGTGAGCTGCTGCGGCCTATTCAAGCCACGTTGAACCGGTGCAAGGTCCATTATCTGCCTGCCTTCGTGACCTATAACGTAGAACGGGTAAGCGATGAAACACTTCGGGCGGAGGCCGACAGGTATGTACAGCAGGTTCTTGCACCTGCCGTTGTGGAAAGTCGATATTAA	MKTMVIVAHPNLDNSRANRMLMEHDGLYANGNVDVRDLYKEYPDWTIDIEREQQLLLQYERVVFQFPFYWYSCPPLLKKWMDDVLTFGWAFGPEGNKLKGKEFMLATTAAGLEQGYQAGGDNWYTASELLRPIQATLNRCKVHYLPAFVTYNVERVSDETLRAEADRYVQQVLAPAVVESRY	PGPT0013810_555	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013810-kefG-K11748	NA	NA
AK002_01206	528			hypothetical protein	ATGACGATTGACGAAGCCATTCACTTGGAGCCCTATGACAAGCAGTGGGCGGATCGGTTTAACGACGAACATCGGCTCTTGATCGGGGAGATCGGTCCTTATACGGCTGCGATCGAACATTTCGGAAGCACGTCCGTACCGGGGATGACGGCCAAACCCATCGTCGATATGCTGGTGGGCGTGGAGAACGCTCGGCATACGGATGAAATCCTCCCCAAACTGGCCGCTGCGGGCTACGAGAACTTGGGCGAATCCGGGATCACCGGCCGCATTTACCTTCGCAAAAGAGGGAGGTTCGCCTATAACGTTCATATCGTGCCGTACCGTGGCGACATCTGGAACCATAACATCATCATCCGGGATTACCTCCGGGCCCATGCCGTGGAAGCCGAGCGTTACAGCGAGATCAAGCGGCGGATCGTTTCGCAAGGAGCCCGGACACTGCTCCGATACTCCGATGAGAAGAATGCGTTCGTTGAGCAGCTTCTCGCCAGAGCGAAGGAGTGGAAGAACGGGAGAACAAGCTAA	MTIDEAIHLEPYDKQWADRFNDEHRLLIGEIGPYTAAIEHFGSTSVPGMTAKPIVDMLVGVENARHTDEILPKLAAAGYENLGESGITGRIYLRKRGRFAYNVHIVPYRGDIWNHNIIIRDYLRAHAVEAERYSEIKRRIVSQGARTLLRYSDEKNAFVEQLLARAKEWKNGRTS				NA	NA	NA	NA	NA
AK002_01207	1062	rssB_11		Regulator of RpoS	ATGTACCGGATCATGATGATTGATGACGAATACGCCATTCATTTGAGTTTGCGAAAGCTTGTCGAGAGGTCGGGTCTTCGGATCGAGGTTGCCGGCGAAGCCGAAGACGGGGTTGAAGCCTTGGAAATGCTGGAGAACAGCCGGCCGGACATCATCGTGACCGATATTTGCATGCCTGAAATGGATGGGCTGGAATTTATCCGCCGTGTCCGGGAATCCCATGCACAGATGCATTTCATTATCCTGTCGGGCCACGACAACTTCGAATTCGCGCGTCAGGCCATGCGTTATGGCGTATCGGATTTCCTGCTGAAGCCCATCGACCCGGCCCAGTTCCATGCAACGCTGGAACGTGCCTGCAGGGAGCTGGATGAGCGGAAAGCGCGATTCTCCCGGCAGACGAAATGGACGCTTGCGCACCAGAGCCATAAAGCCAGGCTAGCCGAGCTGCTGTGGTCTGCCGAGGAGCGGGAGGCCTTGGAACAAACCCATGAGATCATGACCCTTTTTGAGACGATGGGACCGAAAGAGGTCAGCCTGTCACGGTACGCCCATATGCTGGTATCGGAACTGCTGTCTGCGCTTGAAGAACGCGGGTTGATGCTGAACATGGACACCGGCGAGGAGCAGTGGGCGCAGGATGATCCTCTTGCCTGCCGCCGCCAAACAGAGGATAAGGTCAAGGAAATGCTGGCATTGATTAAAGGCTCCAGAAATCTGGGATCCCGCCATAATATCCAAAAAGCCAAACGATACATTGAAGATAACTATGCGATGGAGGATTTGTCCTTGCAGGAGGTGGCTGATTCGGTGGGGATGTCGGTGACGTATTTAAGCCGTACCTTCAAAAGCGAAACCAATATGAACTTCGTGAAATACCTGGTGCAGGTCCGTATGGAAAAAGCGAGGGAATTGCTTGCGGAGTCTGAGCTTTCCGCTCAGGAAGCGGCCTACCGCGTCGGTTTCTCGGACTATGTCCATTTCAGCAAGACGTTCAAAAAATTTCATGGCCTCACACCTTCGGCGTACCGAAAACAGTGCAAGGCCATGAATGGAGGATGA	MYRIMMIDDEYAIHLSLRKLVERSGLRIEVAGEAEDGVEALEMLENSRPDIIVTDICMPEMDGLEFIRRVRESHAQMHFIILSGHDNFEFARQAMRYGVSDFLLKPIDPAQFHATLERACRELDERKARFSRQTKWTLAHQSHKARLAELLWSAEEREALEQTHEIMTLFETMGPKEVSLSRYAHMLVSELLSALEERGLMLNMDTGEEQWAQDDPLACRRQTEDKVKEMLALIKGSRNLGSRHNIQKAKRYIEDNYAMEDLSLQEVADSVGMSVTYLSRTFKSETNMNFVKYLVQVRMEKARELLAESELSAQEAAYRVGFSDYVHFSKTFKKFHGLTPSAYRKQCKAMNGG				NA	NA	NA	NA	NA
AK002_01208	1869			hypothetical protein	ATGAACATCCAAGGCGTTTCCATCGGTAACCTGACCATTAACCAACGATTGTTCGTGCTGATCATCCTATTCATTGGCCTCCCCTTCTTTCTGCTCGGCAGCTTCTGGTACCAGTCGTCTACCGAAGCGATTGAACAGTTTGCCGCAGGCGCCAACAAGCGTATCATTGAGCAAACCAACGTCTCGCTGGATTCTTACATATCCAATCTGGAGAATTCCACCTATCCCTTTATCCATAACCCGCAGATCCAGCAATTTCTCTCGACCACGGAGCTCACTCCCTATGCCTATTTTCAGCTTGCCAAAAAAGTCGAGGACGACTTGTTCGCCCAAATGATCTACGGGAGATCGGATATCATCGGGATCTCGCTCGTCGCCGAAAACAAGCGGCAAATTACCGATTACGAAAGCGCGCCGGGACTGCTCGACATGAGCGAAATCCGCAAACGCAACCGCTCCTTTCAAGAGCAGCTGGACCAATACAACGATTTTCAAATCATCGGCCTAAGCCGGGTAGGAAACACGCCCGCCCTCACCGTCGCCCGGAAGCTCTATGACAATTCATCCTTTCTCTATAAAGGCTTATTGATCGTCGACCTCAATCTGAAGCAGATCGGAGCCATCTGCTCCAACGATTCGCTGGGCGGCTTTGACGTCTGGATAATGGGCGGCGACGGGCATATGATCTACCATCCGGATCCGAGACAGATCGGGGCCGAAGTCGAGTCCGGGCTGTTATCGCGTATTCAAAACCGGGACTCCTCCTTCTTCCGGCATCAAGACCCGGTATCGGGCACCGAGAAGATGGTCCTCCATGAACGTTCGCAGAGCACCGGCTGGACGGTTGTCGCCGATCTGCCGCTGAGCAATCTCATCGGCGGTTTAATCACCCAGCGGAACTACTCGCTTGCGGCCGCGTCGATGCTCTTGATCATCGCATTGGCGCTTGTTGGCGGGTTTTCCTTGTCCTTGACAAGGCCGCTCTCCATGCTGCAGAAGTTGATGGCCCGCGTCGAGCGGGGCGATTTCGTTCTTCCCACCCATATGAACCGGTTCCGCAACAATGAAATGACGGCCGTGTTTCAAAGCTTCTACAGCATGACGGGAGAGCTGAAGCGGTTGATCCGGGAGGTCCAGGATTCCCAGTTCAAGGAACGGGAGCTCATGATCAAGCAGAAGGAATCCGAGCTCCGCTCCATGCAGTCCCATATCAACCCGCATTTTTTGTACAATTCGCTGGAGATTATTAATTCATATGCCATCGCGGACGATCATATGGAAATCAGTCGCATGACGCGGGCGCTGGCCCATATGTTCCGCTACAATATCGGCCATGCCGGATCCGTTGTGCCGCTCCGGGAGGAAATGACGCATGTCCAGTATTATCTGGATCTTCAAAGCGCCCGGTTCCGCAAGCTCCGGATCGATATGGACGTGAACGAACGGGATCTGGATCGCGTGAACGCCGTCAGGCTGACGCTGCAGCCGATCGTGGAGAATGTGTTCATCCACGGGTACAGGGGCAAGAAGCCTTCCTACCTCGGGATAAGCTCACGCGCGGAAGCGGGTTATTATGCGATCGTGATCCGGGACAAAGGGGTGGGCATGACGGCGCAAACACTGCGGCAGATCAGGCGAATTCTGAATTCCGGCAAGAAGCCGGAAGGCGGCATCCTGCGAAACGACGGGGACGAAACCACCAGCGGCATCGGCCTCTTGAACGTCCATCAAAGGCTCCAGCTTACCTTCGGGGACGAGTATGGACTGTACCTTGTGGAATCCGTGCCCTCGGAAGGCACGATATTTGAAATCAGACTGCCATATAGGACTAGCGAGGAGGGACTTCATGTACCGGATCATGATGATTGA	MNIQGVSIGNLTINQRLFVLIILFIGLPFFLLGSFWYQSSTEAIEQFAAGANKRIIEQTNVSLDSYISNLENSTYPFIHNPQIQQFLSTTELTPYAYFQLAKKVEDDLFAQMIYGRSDIIGISLVAENKRQITDYESAPGLLDMSEIRKRNRSFQEQLDQYNDFQIIGLSRVGNTPALTVARKLYDNSSFLYKGLLIVDLNLKQIGAICSNDSLGGFDVWIMGGDGHMIYHPDPRQIGAEVESGLLSRIQNRDSSFFRHQDPVSGTEKMVLHERSQSTGWTVVADLPLSNLIGGLITQRNYSLAAASMLLIIALALVGGFSLSLTRPLSMLQKLMARVERGDFVLPTHMNRFRNNEMTAVFQSFYSMTGELKRLIREVQDSQFKERELMIKQKESELRSMQSHINPHFLYNSLEIINSYAIADDHMEISRMTRALAHMFRYNIGHAGSVVPLREEMTHVQYYLDLQSARFRKLRIDMDVNERDLDRVNAVRLTLQPIVENVFIHGYRGKKPSYLGISSRAEAGYYAIVIRDKGVGMTAQTLRQIRRILNSGKKPEGGILRNDGDETTSGIGLLNVHQRLQLTFGDEYGLYLVESVPSEGTIFEIRLPYRTSEEGLHVPDHDD				NA	NA	NA	NA	NA
AK002_01209	1365			hypothetical protein	ATGAAAAAGAGAAAAGGGTTCTACAGCTGGGTAACGGCCTTATTGCTGATATCCATCATTGTAAGCGGATGCGGCAATGCCAGCGATGGTAAGACCGGCACCGCATCTCCCGGCACCGGAGGCGGCGGGGAAGATAAGAAGGTAGAAATCCTGCTCGGATATTATTCGAGCGACAGCTCCGATGCAAAGATGAAGGAGCTGATCGAGCAGTTCGAGGAAAAGCATCCGAACATTACGGTGAAGACGCAAAGCGCCCCTTACGGGCAGTTCTATCAGAAGCTGGATACGCAGATCGCGGCCGGCCAGGCGCCGGACGTATGGCTGTCCGACGGCGTCTACGTCATGAAATATGCCCAGCGCGGTGCCGCCAAGGATCTGACCGATTGGATTGCCAAGGATCTGAAAGCCGACGAGTACTACGGCCTCGATTTCAACAAGGACGCGGAGGGACGCTATTGGGGCGTGCCGCAGGGCATTCAGGTCGGCGTGCTGTTTTACAACAAGGATTTGTTCGATAAAGCAGGCGTAGCGTATCCTACGGACGAATGGACCTGGGAAGACCTGAAAGCGTCGGCAGCCAAGCTGACGGTGGACGCCGGCGGAAAAACGGCCGAGGACAGCGGGTTTGACGCAGCCAGCGTGAATCAGTTCGGGCTTACGTTCTTCAGCATTACCGAGGGCTGGTTCTCCGTGATGAAATCCTACGGCGGCGGTGCCCTTGACGAGAAGGCGGAGAACTCGATCATCAATTCCCCGGAGAACAAGCAGGCGTTCGAATGGATGGTCGACGGCATGCAGCGCGGCATTATTACCGATCCGGTCGACCTGAAGAGCTTCCAGAGCAATACCGCCGTGTTCCCAAGCGGATCGGCCGCCATGCGGATCGGCATTTATGCCCGGGTGCAGGCAGCGAATGAAGCCGGCCTGAATTACGACGTGACGCTGCTGCCGAAGGGACCTGACGGTAAGCGGGTGTCCCCGGTCATCGCCAACTCGTGGGTGATTAACCAGAAGTCGAGCGACGAGAAGGCGCAAGCTGCCTGGGAGTGGATTAAATACTGGGCTACGGAAGACGATGTGCAGAAGCAGTGGACCGAGCTTGGCGAAGCCGTGCCCGTGAAAAAATCCGTAGCGGAATCCGAAGTGTTCCTCAAGGCGGGAGAGCAACCGGCTAACCGCCAGGCCTTCCTGGACAGTCTGGAGTTCGCCCAAACGCTCGACAATAACGCAGTATGGGAAGAATGGGTGGGCAAATTCAACGAAAATGCGGAGCGAGCCTTCCTGGGAGATGCAACCGTCGATCAGGCGTTAAGCGAAGCGGACGCAGCCGTTCAGGCGGTCCTCGATGATTTTTATAAAAAATAA	MKKRKGFYSWVTALLLISIIVSGCGNASDGKTGTASPGTGGGGEDKKVEILLGYYSSDSSDAKMKELIEQFEEKHPNITVKTQSAPYGQFYQKLDTQIAAGQAPDVWLSDGVYVMKYAQRGAAKDLTDWIAKDLKADEYYGLDFNKDAEGRYWGVPQGIQVGVLFYNKDLFDKAGVAYPTDEWTWEDLKASAAKLTVDAGGKTAEDSGFDAASVNQFGLTFFSITEGWFSVMKSYGGGALDEKAENSIINSPENKQAFEWMVDGMQRGIITDPVDLKSFQSNTAVFPSGSAAMRIGIYARVQAANEAGLNYDVTLLPKGPDGKRVSPVIANSWVINQKSSDEKAQAAWEWIKYWATEDDVQKQWTELGEAVPVKKSVAESEVFLKAGEQPANRQAFLDSLEFAQTLDNNAVWEEWVGKFNENAERAFLGDATVDQALSEADAAVQAVLDDFYKK	PGPT0016545_2301	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_01210	966	lacF_9		Lactose transport system permease protein LacF	ATGGACAATACGCTAAACGACAATGCAGCACTCAAAGCCGATCCGATGCCGCATGGAAAGCCCGCCCGAAAACGGAAATGGGATCATGAGGGGAGATGGGGGCTGCTTATGGCCTCCCCTTATCTTCTCCACTTTATCATTTTTGTGGCGGGTCCCCTCGCCGCATCCCTGTACTTCAGCTTTTCCGATTACGATATGCTGAATCCGCCCGAGTGGAGCGGATTGGATAATTTCCGGCGCATGGCCGAGGATTCGATGTTCTGGCGTTCCCTGTGGAATACCCTGTATTTTGCGGTTCTGTTCGTACCGCTCCAGACCTTTCTCGCGCTCGTGCTGGCCGTCGCGCTAAACCAGCGTTTGAAAGGGCTTAAATGGTTTCGGATGGCTCATTTCATCCCGGTGATCTCCTCCTGGACCGTCATCCTGTATGTCGCCGACGCCATATTCAATCCTCGCTTCGGCCTGGCCAATACGCTGCTTGCCAAGCTGGGGCTGGAAGGGCAAGGCTGGCTGCAGGACCCGAAGCTGGCCATTCCGCTGCTCGTCTTCATCGCGGTCTGGAAAGGGATCGGTTATATCATGGTCATCTATCTGGCGGGACTTCAGAGCGTTCCCGGGGATTTGTACGAAGCCGCGGAGATCGACGGCGCAGGAGCCCTGCGCAAATTCCGGTACATTACGGTTCCATTGATCTCGCCGACGACCTTCCTGGTTGTCATCATGAGCACGATCTCTACCTTCCAGGCATTCGAACAGATCTACGTGCTGACCGGCAGGGGCGACATCAGCTCGGCGGGAGGCCCGAATAACTCGAGCCTGGTCATGATGCTGTATTTATATCGCGAAGGGTTCACGTTTATGAGGATGGGCTATGCTTCCGCCATTGCCTGGGTGCTGTTCATGATCCTGTTCCTGCTGACGCTGGTACAGCTTCGCGCTCAAAAGAAATGGGTGCATTATGACTGA	MDNTLNDNAALKADPMPHGKPARKRKWDHEGRWGLLMASPYLLHFIIFVAGPLAASLYFSFSDYDMLNPPEWSGLDNFRRMAEDSMFWRSLWNTLYFAVLFVPLQTFLALVLAVALNQRLKGLKWFRMAHFIPVISSWTVILYVADAIFNPRFGLANTLLAKLGLEGQGWLQDPKLAIPLLVFIAVWKGIGYIMVIYLAGLQSVPGDLYEAAEIDGAGALRKFRYITVPLISPTTFLVVIMSTISTFQAFEQIYVLTGRGDISSAGGPNNSSLVMMLYLYREGFTFMRMGYASAIAWVLFMILFLLTLVQLRAQKKWVHYD	PGPT0016535_1581	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_01211	825	araQ_18	COG0395	L-arabinose transport system permease protein AraQ	ATGAGAAGAAGGCTGCTGGGAAAAAGCATCGGATACGTGCTGATCGGGATCAGCTCGCTCATCATGATCGTGCCGTTTCTGTCGGCGCTCATGAATTCATTGAAAACCTACAGGGAATATACAACGGTTCCGCCCCGCTGGATTCCCGAAGTATTCCAATGGTCCAATTACGCCCAGGTGTTCCAGCTTGGGAATATTGGCGGCTACACGCTAAACAGCATCTTCGTGGCCGCATTGTCCGTCATCGGCGCGCTAATCTCTTGCTCGATGGTCGGCTATGCGTTCGCCAGGCTGCGCTTTCCGCTGAAAGGCGCGCTGTTCGTGATGGTGCTGGGGACGATGATGATTCCGGCGGTGGTCATCATCATCCCGCACTTCATCATTTTTAACAAACTGAACATGCTGGATACGCTCACGCCGCTGTGGATCATCGAATGGCTGGCCCAACCGTTTGGCATTTTCCTCATGAGGCAGGCATTCATGAATATACCTAAAGAGTATGAGGAAGCGGCCAAGATGGAGGGCTGCAATCCGTTCCAGATATATCTGCGGATCTTCATTCCGATGGCCAGGCCCACGCTGGCAACGCTGGCGATCTTTACGTTCATGGGCAAGTGGAACGAGATTCTGACGCCTGTCATTTATTTGACCTCGAACGAGAAGTATACGCTGCCCATCGGCATTCTCTCCTTGTCGGGACAGTGGACCGGCAATGAACAGCTCATGATTGCGGCGGCCTTGGTCAGTCTCGTTCCGATCCTGCTGGTATTCCTGTTTGCCGAGAAATATTTTGTGCAGAACCATAATATGGCCGGGATTAAATAA	MRRRLLGKSIGYVLIGISSLIMIVPFLSALMNSLKTYREYTTVPPRWIPEVFQWSNYAQVFQLGNIGGYTLNSIFVAALSVIGALISCSMVGYAFARLRFPLKGALFVMVLGTMMIPAVVIIIPHFIIFNKLNMLDTLTPLWIIEWLAQPFGIFLMRQAFMNIPKEYEEAAKMEGCNPFQIYLRIFIPMARPTLATLAIFTFMGKWNEILTPVIYLTSNEKYTLPIGILSLSGQWTGNEQLMIAAALVSLVPILLVFLFAEKYFVQNHNMAGIK	PGPT0016540_8446	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_01212	867	iolE_2		Inosose dehydratase	ATGAAAATAGCGGCATTCAGCGGATCACTCATCGATTACAGCATCCATGAAGCGATGTCGATCGCGGCCGAACTCGGTTTTGACGGCATTGAAATCGCCTGCCGCGAACCGCATTTGAGCCCGGAGACATCGCTTCCGCGGGTTCGCGAAATGAAGGCACTTGCGGATGGGCGCGGTTTGGAGATTCCGGCATTGGCGGGTTACATGGGGAATTTCTCGACAAGCGGGGATGCCGAATGTACCGGAGCCTATGATCAGTTCATGGGCCTGCTTGAACGCGCGGTGATGTTGGAGGCGGGCATGATCCGGATCTTTCAGGGAGGGCCGAATGCCTTCCTGGCGGAGGATTATCATTATGCCAAGGCGGCTTTCTGGATTCGGAAATGCGCGGAGGAAGCCCGCGCTGCAGGAAAACGGATCGTCCTGGAGATCCACAACCAGAGCCTGGTGGAGACAACGGACAGTGCACTGCGGTTGCTGGATTTGATCGGCGATGATCAGGTTGGCCTGATTCATGATGCAGGAAATATGTACATCACGGACACGGAATTTGGGGAAGAGTCGGTCCGGCAGCTTGGAAGCCGGTTGTTCCATGTGCACATCAAGGATGAACGGCGGATCGGGCAAGGGGGCGCCCCGGGAACGTTCAAGAATTTGACCCGTCACGGGGAAGAGTTCTTCCTGCAGTGCCGCCTTGGCGAAGGAGAAGTGGATCACGGGGGGCTGCTCAACGGATTACGGGAACAGCGGTATGCGGGTTGGCTTACGCTGGAATGCGCAGCTCCCTATCCGCCGAAGGAACGGCTCGCTTACGATTTGCTCGTCATTAAGGAGTGGCTGCAGGCTGTGGAGGTGTCGACCGGATGA	MKIAAFSGSLIDYSIHEAMSIAAELGFDGIEIACREPHLSPETSLPRVREMKALADGRGLEIPALAGYMGNFSTSGDAECTGAYDQFMGLLERAVMLEAGMIRIFQGGPNAFLAEDYHYAKAAFWIRKCAEEARAAGKRIVLEIHNQSLVETTDSALRLLDLIGDDQVGLIHDAGNMYITDTEFGEESVRQLGSRLFHVHIKDERRIGQGGAPGTFKNLTRHGEEFFLQCRLGEGEVDHGGLLNGLREQRYAGWLTLECAAPYPPKERLAYDLLVIKEWLQAVEVSTG	PGPT0017530_462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017530-ulaE|sgaU|sgbU-K03079	NA	NA
AK002_01213	1011	iolG_4		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACGGGGAACGCACGGAAATTTGGAATCATCGGCTGCCAGCATGCCCACATCGGCATGTTTATCGAGGAGATGCTGGCACTGGGCTACGAATGTGCAGGAGTATACGAACCGGACAATCAGCCGTTAGCCCGCACCCTCGCCGACCGGTACGGCCTGGAGCTGACGGGGGATCGCGAGTCGCTGCTTGGCGATGAAGGGGTAAGTCTCATCGGCTGCGCGGCCATCAACGATGAGAAGATGGACGTCATAGAGCTGTGCGAGCTGCGCGGCAAGCCTGTCATGATCGACAAGCCTGCCGTGACGAACCGGGCGGGGCTAACCCGGCTGCGTGGCGTTCTGGAGCGTGGAAGAATCGAGGTAGGCATGATGCTGACCGAGCGCTTCCGTCCATCCCTGCATACCGTACATCGGATGATTCGGGCAGGAGAATTGGGGGACATCGTCCATATCTCGATGCGTAAGCCGCATCGGCTGAATCCGGAATCCCGGCCGGCCTGGCATTTTGACAGAGAGCAGTCCGGCGGCATCATCAACGATCTCTTCGTGCATGACTTCGACCTGTTAAGGTGGCTGACGGGCCGGGAAGTGGAGACGTCATCCGGTTATCTGGCGAAGCATATTCTGCCTGAATACCCGACCTTCTACGATGCGGCCGGCGTGCAGGTATTCATGGCTGGCGGGATCACGGCACAGCTATACGCGGATTGGCACACGCCTGCCGGCAGCTGGACTTGGGGAGACGGCCGGTTATTCATTACGGGGACGCGCGGCATTGCCGAAATTCGGCTGGAAGGCGATCCCTTGCTGTCCAGCGATGAGGTAACGCTTGTGGTCACCGATCAGGAGCTGCGCTCTTTGCCTTTGACGGCTCCGGCGTTCTCCCTTTCGCAGGATTTTCTGAATCGGGTGGCGGGAGAAGCCGGCCTGATCACGCATGACGATATTTACAAAGCCTCGGAGGCTACGGTGATGGCAGATGAGGGAGCACGGATCCTGATCAGGGAATAG	MTGNARKFGIIGCQHAHIGMFIEEMLALGYECAGVYEPDNQPLARTLADRYGLELTGDRESLLGDEGVSLIGCAAINDEKMDVIELCELRGKPVMIDKPAVTNRAGLTRLRGVLERGRIEVGMMLTERFRPSLHTVHRMIRAGELGDIVHISMRKPHRLNPESRPAWHFDREQSGGIINDLFVHDFDLLRWLTGREVETSSGYLAKHILPEYPTFYDAAGVQVFMAGGITAQLYADWHTPAGSWTWGDGRLFITGTRGIAEIRLEGDPLLSSDEVTLVVTDQELRSLPLTAPAFSLSQDFLNRVAGEAGLITHDDIYKASEATVMADEGARILIRE				NA	NA	NA	NA	NA
AK002_01214	1020	iolG_5	COG0673	Myo-inositol 2-dehydrogenase	ATGACGAAGGAAGTTCGATTCGGGATCATCGGCTGCGGAATTATTGCGGATATCCATGCCAAGGGCATCATGAACACGGAGGAAGCCGTGCTTGCCGCCGTGTTCGATACGAAACGGGAATCGGCGGTCAAGCTGACTGAAACGTATGGAGGAGATGTCTGCGACACATTGGAGGAGCTGCTGGCGCGCGAGGATGTGGAAGTGGTCTGCATTTGCACGCCAAGCGGCATGCATGCAGAGCAAACGGCGATGGTTGCCCGGGCGGGCAAGCATGTGCTGGTGGAAAAGCCGATGGCGATCAAGCTTGACGATATCGAGCGCATGATCGAGGTATGTGCGGAGAGCGGGGTGCTGCTCGCCACCGTCTTTCCGAGGCGCATGTCCCCGCAGGCCGGGTATGCCCGCAGGGTCATTCAAGAAGGACGCCTCGGGAAGCTTAGTTTATGCTCGGCGTATGTCATGCTCTACCGCGATCAAGCCTATTATGACAGTGCGGGCTGGCGCGGGACCTGGGCGATGGACGGCGGCGGGGCGATGATGAATCAGGGAATACACACGGTGGATATGCTCCAATGGCTCGTTGGGCCCGTAGCATCCTTGTCGGCGAAGGCCAAAGCCGTGCTGCGAAATATCGAAGTGGAAGATACCGTTATCGCCGCCCTTGAATTTACGAACGGCGCGCTCGGGGTCATGGAGATCACGACGACGGCCTGCGACGGCAAAGGCCAGCGGCTGGTCATTCATGGAGAGAAGGGCGTGCTTGTCATGGAAGAAGATGCGATCGTATCGCTTGAAATCGATGGCGAACAAGTTCAGCTTCCTGAATTCGATGCGTTCAAAGTTATTCCTGACGGCCACCGCCTGCAAATTCAAGATATGGCGCTTGCCGTTCGCGAAGGCCGCGAGCCTATCGTCACTGGGGAGGACGGCCGGCATTCTCTGGAAATCATTCTCGGTACCTACGAGGCTTCCAGGCAGCGCAAGGAAATTCAATTGCTGACCGGTACGCCGGCGTTGTAA	MTKEVRFGIIGCGIIADIHAKGIMNTEEAVLAAVFDTKRESAVKLTETYGGDVCDTLEELLAREDVEVVCICTPSGMHAEQTAMVARAGKHVLVEKPMAIKLDDIERMIEVCAESGVLLATVFPRRMSPQAGYARRVIQEGRLGKLSLCSAYVMLYRDQAYYDSAGWRGTWAMDGGGAMMNQGIHTVDMLQWLVGPVASLSAKAKAVLRNIEVEDTVIAALEFTNGALGVMEITTTACDGKGQRLVIHGEKGVLVMEEDAIVSLEIDGEQVQLPEFDAFKVIPDGHRLQIQDMALAVREGREPIVTGEDGRHSLEIILGTYEASRQRKEIQLLTGTPAL	PGPT0022715_587	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
AK002_01215	792	nagB_2		Glucosamine-6-phosphate deaminase	ATGAGGACTGAGCGAAACATCAAGCCTGTTCTTGAAAACGTTCAAGATCAACTGAAGGTCCGCGTTTATGACCAGCGCGAAGCGATGGGGACAGCGGCGGCCGCCGATATCCTCGAGACCATGCAGCGCCTGCTGGCCGAGAAAGAGCGCATTCGCATCGTCTTTGCGGCCGCCCCGTCACAGAATGAATGCCTGGCCGCGCTGGTTCAAGCGGAAGGACTGGACTGGAGCCGGGTAACCGCATTTCATATGGATGAATACATCGGCCTCCCCCCGTCGGCCCCGCAGCGGTTCGGGAACTTTTTATCCCGGCGGCTGTTTGATCGGGTATCTCCGGGAGAGGTGCATCTGATCGACGGTTTGAATGATCCTGAAGCAGAGTGCGATAGATACAGCCGACTGGTCGCCGCCGCCCCGATCGATATGGTGGTCCTGGGCATTGGCGAGAACGGGCATATCGCCTTCAACGATCCGCCTGTTGCCGATTTTGCCGACCCTTTATGGGTGAAACGGGTCAAGCTGGACGAGGCTTGCCGCCTTCAGCAGGTGAATGACGGCTGTTTTGCGAGCTTGGAGGTGGTTCCGGCATACGCGCTTACGCTCACCGTTCCGGCGTTAATGTCGGGTGCCCATCTGTTCTGCGTCGTGCCGGGCGCAAGCAAGCGGGCAGCGGTGCAGCGGACGCTGCAAGGGGAGATAAGCGAGGCTTGTCCTGCCAGCATTCTTCGGCGGCATCCGGATTGCACGCTGTACGTCGATCTGGAGTCGTATGGGGAAATACGGAATGGATAG	MRTERNIKPVLENVQDQLKVRVYDQREAMGTAAAADILETMQRLLAEKERIRIVFAAAPSQNECLAALVQAEGLDWSRVTAFHMDEYIGLPPSAPQRFGNFLSRRLFDRVSPGEVHLIDGLNDPEAECDRYSRLVAAAPIDMVVLGIGENGHIAFNDPPVADFADPLWVKRVKLDEACRLQQVNDGCFASLEVVPAYALTLTVPALMSGAHLFCVVPGASKRAAVQRTLQGEISEACPASILRRHPDCTLYVDLESYGEIRNG	PGPT0018865_1462	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018865-nagB-K02564	NA	NA
AK002_01216	1164	nagA_2	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGGATAGCCACGAACGGGTTCGGGCAGGCCGCCATTATGCAACAGGCGAGCCGATGGAGCTGGCATGGAATCCGGACGGCCGGATCGAGCGAGTCCTTCCACGCGGCGCGGACGAGGAGATATGGGTTGCTCCCGGATTGATCGATCTTCAGATTAACGGCGGTTACGGATGTGACTTCAATTCGCTGCCGCTTACAACGGATACGGTCATCCAGGCAACCCGGCGGTTATGGAAGAAGGGTCTTACCCTGTTCTACCCCACCGTCATTACCAACGGAGACGAAGAAATCGAACAGCTGCTGCGGGTTATCGACGCGGCTTGCCTGGAGGATGAAGCGGTCGGTTCGTCCATAGGCGGGATTCATTTGGAAGGCCCCTTTCTTTCTCCGGAGGAGGGGCCAAGGGGAGCCCATGATTCCCGGTACATCAAGGCGCCGGACTGGGCATTGTTTACGAGATGGCAGGCGGCGTCGGGGAACCGGATCCGGATCGTCACTCTATCGCCTGAGTGGCCGGAAGCCGCGGGTTTTATCCGGGCGTGCGCCGAATCGGGAGTCGTTGTATCGATCGGGCACACCGCTGCCACACCTGAGCAAATTCGGGAAGCCGTGGATGCTGGAGCGACGATGTCCACCCATCTGGGCAATGGCGCGCATCTAACGCTGCCGCGGCATCCGAATTATATATGGGAACAGCTTGCCCAAGATCAGCTGTGGGCAGGCATGATCGCGGACGGGTACCATCTGCCGGATTCGGTCATCAAGGTGATGCTCCGCGCCAAGCAATCCAAAGTGGTGCTGGTCAGCGATGCCGTCTATTTAAGCGGAATGCCGCCAGGCGAATACGAGACCCACATCGGCGGTCATGTCGTCTTGACTCCCGAAGGCCGACTGCATCTCGCCCGCAAGCCCGAGCTGCTGGCCGGCTCGGCCATGATGCTTGCCGATGCGGTTTGGCGGCTGGCTCGGTCGGGAATGTGCGCGTTTTCGGAAGCATGGGACATGGCTTCGGTGCTGCCCGCCCAGGCCATGGGGCAAGGGGAACGCCATGGGCTGAAGAGAGGAGCCCAGGCCGACTTCGTGCTTCTGGAGAAGCGCGAGGAGGTCTTTCGCATCCTGGAGACCGTCAAGGGAGGGCGTTCGGTTTACCGGGCGGATCAATAG	MDSHERVRAGRHYATGEPMELAWNPDGRIERVLPRGADEEIWVAPGLIDLQINGGYGCDFNSLPLTTDTVIQATRRLWKKGLTLFYPTVITNGDEEIEQLLRVIDAACLEDEAVGSSIGGIHLEGPFLSPEEGPRGAHDSRYIKAPDWALFTRWQAASGNRIRIVTLSPEWPEAAGFIRACAESGVVVSIGHTAATPEQIREAVDAGATMSTHLGNGAHLTLPRHPNYIWEQLAQDQLWAGMIADGYHLPDSVIKVMLRAKQSKVVLVSDAVYLSGMPPGEYETHIGGHVVLTPEGRLHLARKPELLAGSAMMLADAVWRLARSGMCAFSEAWDMASVLPAQAMGQGERHGLKRGAQADFVLLEKREEVFRILETVKGGRSVYRADQ	PGPT0018860_1431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018860-nagA-K01443	NA	NA
AK002_01217	663	cat_1	COG0110	Chloramphenicol acetyltransferase	ATGAAACAACATCGATTTGAACACTGGTCCGAAATCAAGTATTTGAAGGATATCGTCACAAACCCGATGATAAGCGTAGGAGAATACTCATACTATTCCGGTTATTACGATCATCATGATTTTGAAGATGGCTGCGTTAGATACCTCTGGGGGGATGCAAAATCCAGAAGGTTGTTTAATCCCATTGAAGACTATGGCTGGCATATCGATAAGTTGATTATCGGAAATTACGTATGCATCGCAAGCGGCGTCATTATTTTAATGGGTGGAAATCACAACCATCATCCGGAATGGATAACCGTGTACCCGTTTGTCGATCAGATTGAAGCTTCTTACGCGCCAAAAGGCGATACCGTCATCGAAAGCGATGCTTGGATTGGAATGAATGCCATGATTATGCCAGGTGTGACCATAGGCGAAGGCGCCATTGTTGCGGCTGGTTCGGTTGTTACTAAAGATGTCCCGCCCTACCGTATCGTAGGCGGTAACCCTGCCAAAGAGATAAAGAAACGCTTTGCGGACGAAGACATCGAAAAGTTAATGGAAATGCGTTGGTACGATTGGGAACGCGAGCAAATTGAACGAGCCGCTCATATCTTCTCCAGTTCTTCCGTCCATCGATTATATGACTATTATCAAAAAGAAATAAAACCCTGCATTTAA	MKQHRFEHWSEIKYLKDIVTNPMISVGEYSYYSGYYDHHDFEDGCVRYLWGDAKSRRLFNPIEDYGWHIDKLIIGNYVCIASGVIILMGGNHNHHPEWITVYPFVDQIEASYAPKGDTVIESDAWIGMNAMIMPGVTIGEGAIVAAGSVVTKDVPPYRIVGGNPAKEIKKRFADEDIEKLMEMRWYDWEREQIERAAHIFSSSSVHRLYDYYQKEIKPCI	PGPT0028035_72	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
AK002_01218	948			hypothetical protein	ATGTCCAAATCCAAACGTCTCATCGAGCTGATGATGACCGTTAACCGAATGCGAAAATTCACCGTACGAGAACTGGCCGATCAATTCGGCGTATCGTCTCGCACGATCTTGAGGGACCTGCAGGAGCTCAGCGAACTGGGGGTTCCCCTCTATTCCGAGGTAGGACCGCACGGCGGCTACCAGGTGCTGAAAGAACGGGTTCTTCCGCCGATCGCCTTCAGCGAGGAAGAAGCCGTCGCGATGTTTTTTGCCAGCCACGCCCTGCGTCACTATCTATTTCTTCCCTTTGAAGCCGAGTCCTCTACCGCACTTCAGAAATTTTATTATTACATGCCCGGGGATGTGCGCGACCGGATTGACCAAATGAAGAACCGTGTGGATTTTCTGACGCATACCAGACAGCAGAAGGCTGAATCTCTCGGGGCTCTGCTGGATGCCGCCGTCGACCAGCGGGTCGTTACGGTGTTATACGAGAGCAGGGACGGCTATGCCGCGCGAAGCATCCAGCCCGTGGGCATCTATGCAAGCAACGGCTTCTGGTATTGTCCCGCTTATTGTTTTCTGCGCGATGATTTCCGCCTGTTCCGCTGCGACCGCATGCAGTCCGTGGCTGAGGATGCAACCGGCATCGAGCCGCGGGATCACCGGCACATTCATCTGGGGAACTGGAGGGAATACGGGACCGAGAAATCGGTCTATGTCCGGATGGTCGTGGATTTGAGCCGGGAAGGCGCTCAGCGCTGCGAATCTGAGTTATGTCCTGTCCCCCATATTGCTAAGCGGACGGATGGAAGCGGACGGCTTGATCAGAACGTTCCTGCCAGCGAGCTTTTGTATTTTGCTAAATTTTTTATCGGATTAGGAAATGAAGCCACCGTGAAGGAGCCGCAGGAGCTGGTGGACCTTACGAAGGGCATTCTGACGGAGATGATGGCGAAGTATGGTTAG	MSKSKRLIELMMTVNRMRKFTVRELADQFGVSSRTILRDLQELSELGVPLYSEVGPHGGYQVLKERVLPPIAFSEEEAVAMFFASHALRHYLFLPFEAESSTALQKFYYYMPGDVRDRIDQMKNRVDFLTHTRQQKAESLGALLDAAVDQRVVTVLYESRDGYAARSIQPVGIYASNGFWYCPAYCFLRDDFRLFRCDRMQSVAEDATGIEPRDHRHIHLGNWREYGTEKSVYVRMVVDLSREGAQRCESELCPVPHIAKRTDGSGRLDQNVPASELLYFAKFFIGLGNEATVKEPQELVDLTKGILTEMMAKYG				NA	NA	NA	NA	NA
AK002_01219	489			hypothetical protein	GTGAATCAATTGCATGAAATGAAGCAGCTGTTGTTCGAAGAGCTGGAGCTTATCGTTCGTACCAGTTCGAATCTGATCGGCAAAATTACAGAAGCGCATTGGGATTACAGGCCTGCCCACAATATGAGATCGCTGCAGGAACTCGTGCATCATCTGGTTTCGGTGCCTGCGACGGACCTGTTGATTCTGCAAGAGAAGAGCGAAGCGGAGATCCGGGAACTGGAGGCAAGCATCGCCGCTGACGGCACGGACAAGGACAAGCTGATCTCTTGGATGACAAAGGGACTTGCCGATGTAAAATCCTACATGAATGGGCTGACGGATGAAGAATTTATGCAGAAGACAACGAGACCCTTCTATTTGGAGCACGGTTCAACCCAAGCCAAGTGGCTGATTGAAATCGTCACGCATGCCCAGCATCATCGGGCGCAAATGTTCAATTACCTGAAAGCCCAAGGCTATGAAGTAAATATGTTCGATCTATATTAA	MNQLHEMKQLLFEELELIVRTSSNLIGKITEAHWDYRPAHNMRSLQELVHHLVSVPATDLLILQEKSEAEIRELEASIAADGTDKDKLISWMTKGLADVKSYMNGLTDEEFMQKTTRPFYLEHGSTQAKWLIEIVTHAQHHRAQMFNYLKAQGYEVNMFDLY				NA	NA	NA	NA	NA
AK002_01220	489			hypothetical protein	ATGCAGCGGCATGTACCGAGAAAATCGCCGAAGCTGACGTTAACTGGCGAGGAGTTGGCGAAGCTGCGGTCAAACAAAATGAAGCTCTTCGATATTGCGCAAATGGATATCGAGTTATTGTCCGGCGTGCTTGGTGTTTCGGATAGCCGCGCCCAATATATCCGGGGACTGGCACAGTTTCAGACGGTTCCTTCGATCGGACCGAAAGTGGCTGAACGCGTAGTCCAGTTGGGGTATTTCGCATTGGAAGATATCAAGGATGAAGACGCTGCCTCTTTAACGGACCGGATGGAAGCAAGCAGCGGTTTCTGGGTGGATCCTTGCGTGGAGGATGCGTTTCGCTGCATCGTACATCATGCCAATCATCCGGGGAGCGGGAAGAGCTGGCATGACTTTACCGAAGTGCGTAAGCAGTTTAGGGAGCAGCACGGATACCCTCCAACCCGTCCAACTTTATCGTGGTACGACCAAAAAGATGGACAACCATAG	MQRHVPRKSPKLTLTGEELAKLRSNKMKLFDIAQMDIELLSGVLGVSDSRAQYIRGLAQFQTVPSIGPKVAERVVQLGYFALEDIKDEDAASLTDRMEASSGFWVDPCVEDAFRCIVHHANHPGSGKSWHDFTEVRKQFREQHGYPPTRPTLSWYDQKDGQP				NA	NA	NA	NA	NA
AK002_01221	342			hypothetical protein	ATGGCGGTGTCTTTTTTCCTGTTGTTTACCAAACTTGAAAAATCGCTTGAAAGTGACGCGGCGTCATCCTGTACAATGACTTCAATGTTGAAAAAGGGTGGAGGTAAAGCAATGAAACGATATGCACCAGCTGTTATCCTATGGATCCTCGGCATGTTCTTGCTCAGTGCATGCGGTTCGAGGGATGAAGAAGAGGAGCTCCAACGCGTAACGCTTGAGGAGGCCGAAGTGCTGGAGATCGACCATGGCAGCACGACCTTGTTCGTGGAGACAGCGGATGTGGAAGCATTGGAGGTTTCGCTGCTCCGAAGCGGCAGTTCCGCAGGAGCCGTTGTCGATTAA	MAVSFFLLFTKLEKSLESDAASSCTMTSMLKKGGGKAMKRYAPAVILWILGMFLLSACGSRDEEEELQRVTLEEAEVLEIDHGSTTLFVETADVEALEVSLLRSGSSAGAVVD				NA	NA	NA	NA	NA
AK002_01222	396			hypothetical protein	ATGTTGAATATCGGCCGGATGCCGCAGCTTCGCGTGAAAATTCCTGCGGATTATGCAGGGAAGGTCGAAATTGACGGTTCTTCCGGCAAGGTAACGGGAACCGGCTTGCAAAATCACAGCCTTCAGGTGAAGGGTAAAAGCGGGAATATCTCCCTTTCGTTCGCCCGTTTGAACAACGATGTGGATGTATCGGCGACAAGCGGAAACGTGAACATACAGCTCGATGAAGAGGCGCCTGATGCGACATGGGTGCTGCATTCCGGGAGCGGACGGAGGTCCATTGCCGTTCCGATACAGGACAGGAACGAGAGCAACCGTAAGACGGAAGGGCGCACCGGTGACGGGGAGCATGAGGTGAAGCTCAAAACCTCCTCGGGGAACATCTCGATAAAATAA	MLNIGRMPQLRVKIPADYAGKVEIDGSSGKVTGTGLQNHSLQVKGKSGNISLSFARLNNDVDVSATSGNVNIQLDEEAPDATWVLHSGSGRRSIAVPIQDRNESNRKTEGRTGDGEHEVKLKTSSGNISIK	PGPT0028810_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028810-liaG-K11621	NA	NA
AK002_01223	1452			hypothetical protein	ATGCCATTACATAAAGCTAGAAAAGCATTCACCGTGTTTCTGCTCACCGCTTCCCTATTGGGGACGACCTTCATCTCTGAAGGAAAAACATATGCTTCTGCCGCCGATCCCATTCAAGGGCAGGTTACGGAGATTAAGACTGCACGAACGTCGGATGAAAAAATTGCCGAGTGGGAGAATTGGGCCAAAGACCATGTATATCGACTGGATACGATTCACCCGGCCAACACAGCCAACGGCACTAACCAGTATAAGGATCTGGCTATGCTGAAGCCCTTGCTGCATGACAAACGTTTTGTGTTCCTAGGGGAGAGCTCCCACGGGGTTGGCGAGTTCAATCTGGCGAAGACCCGTTTAATCCAGTTCCTGCATCAGGAGATGGGGTACAACGTTCTGGCCTTTGAGAGCGGTCTTGGCAACAGCTCTTTGGCTTACGGCAGGGTCAGGCAGCAGAGCGCGGAACAAACGATGAAGGATTCCATCTTCGGCGTCTGGTGGTCCAAGGAGATTATGCCGTTGTTCGACTACATTAAAACAGCACAACAGAGCAAGCAGCCGCTCGTGCTGACCGGTTTTGACATGCAGCTGCAGCATCCGCTGTTGGACGGACAATGGCTGAAGGACCAAGCCATGGCTAAGCGTCTATCGGAAGCTGAGAAGAAACTGTCCGACTACTCTCTTGGTACGGATCTGGACGCTTACCGCAAAGAGAAACATCAGCTGATTCAAGTATACATGGATGCTCTGGAATCCTTAAAGACGGAGACAAACGAAGCTCATCTGAAACAGCTGTACCCGGATAACCCCAAACTGTCCATGCTGCTCAAGCGGAGCCTGAACGACCGGATTCGGGTAGCCCGGGAATACGTGGAGCTCTCCATTCAATCAACGCTTGGCATGGAAAGCGGTGATTATGCTCCGTTCCTGGAATCGATGGAATGGCGGGACCAGGCGATGCATGACAATCTCATGTGGCTGGCAACCGAAGTATACCCGACGGAAAAATTCATCGTGTGGGGACATAACGACCACATCCGTAAAGCCCAAACCGAGGTGATGGGTACGCCATATCCGGTGACTTTAATGGGAGAGAAACTCTCGGATGAAATGAAAAAATACAGTTACGTGCTTGGCCTGTATCCGGCCAGCGGCCAAACCGCGGATAATATGGGAAATGTGCATGACGTTCTGCCGGCTGAGCCGGGCTCCATTGAATCGATCCTCTCGGCCTCAGGCTCGCCGTATACCTTCGTTGACCTGCGTTACCAAAAACGCGAGGCAGGCAGCTCGTGGATGTTCGAGCCGCGTTTTGCCTATAGCTGGGGGATGATTCCGGAAAGCTTAATCGCCCGGGACCAGTACGACGGTATTCTGCTGATCGATGACGTAAACCCGCCCCAATATATGAGATCCTCGGCTTCATCCAAGGCTTCTGTGCCTGCTGAAGAATAA	MPLHKARKAFTVFLLTASLLGTTFISEGKTYASAADPIQGQVTEIKTARTSDEKIAEWENWAKDHVYRLDTIHPANTANGTNQYKDLAMLKPLLHDKRFVFLGESSHGVGEFNLAKTRLIQFLHQEMGYNVLAFESGLGNSSLAYGRVRQQSAEQTMKDSIFGVWWSKEIMPLFDYIKTAQQSKQPLVLTGFDMQLQHPLLDGQWLKDQAMAKRLSEAEKKLSDYSLGTDLDAYRKEKHQLIQVYMDALESLKTETNEAHLKQLYPDNPKLSMLLKRSLNDRIRVAREYVELSIQSTLGMESGDYAPFLESMEWRDQAMHDNLMWLATEVYPTEKFIVWGHNDHIRKAQTEVMGTPYPVTLMGEKLSDEMKKYSYVLGLYPASGQTADNMGNVHDVLPAEPGSIESILSASGSPYTFVDLRYQKREAGSSWMFEPRFAYSWGMIPESLIARDQYDGILLIDDVNPPQYMRSSASSKASVPAEE	PGPT0027980_44	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027980-ereA_B-K06880	NA	NA
AK002_01224	198			hypothetical protein	ATGAAAAACATCAAATTGAAGATGGCCCGCGTCGAGAAGGATTTATCGCAGGAAGAGCTGGCCCAGATCGTCGGTGTCTCCAGGCAGACCATCGGCCTGATCGAGCTGGGGAAATATAATCCGTCCCTCAGCCTGTGCGTTGCCATATGCAAGGCATTATCGCGTACGCTGAACGATCTGTTCTGGGAAGAGGACTAG	MKNIKLKMARVEKDLSQEELAQIVGVSRQTIGLIELGKYNPSLSLCVAICKALSRTLNDLFWEED	PGPT0008430_6409	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK002_01225	516			hypothetical protein	ATGAGCTTGAATTGGTTTAAGAAAAACCCGGTTGAGGATGAGCGTATCGTCAATTTGAAGAACAAGTTATATAAAGAGGTGTATACCTTGATCATGATCATTTGCAGCATTTCCGTCATCATCAAATCTTTTGCGCTGCCGAGAACGGAATCCGTCTGGCTGGAAATGCTGATCATGCTGGGAGGAAGCTTATATTTCGGGATACGCAGCGTGGCGCTGGGGATTTACTCGGATGAAGTGGAGGTCCATGACCAGCGGAGCAAAATTTCGTTCAGCACACGTACGGTGATATGGGGGCTCGTTATCGGTGTCGCACTTGCTCTTTTTTTCGGTATCCGCAGCGCGGTTCTGTTTGGCAATGACAACAGCGCGACCGAGCTCAAATATTTCTTTAGCGTTTTCCTCGTCTCACTGATCATCTACATCCCGCTCTTTGTTGGGGTGAATTGGTTGATCCACTACGGCGCCAACAAGGTAAGCCAGAAAATGTCGCAGAACGATCCATTCGACTCGTAG	MSLNWFKKNPVEDERIVNLKNKLYKEVYTLIMIICSISVIIKSFALPRTESVWLEMLIMLGGSLYFGIRSVALGIYSDEVEVHDQRSKISFSTRTVIWGLVIGVALALFFGIRSAVLFGNDNSATELKYFFSVFLVSLIIYIPLFVGVNWLIHYGANKVSQKMSQNDPFDS				NA	NA	NA	NA	NA
AK002_01226	897	rlmA	COG0500	23S rRNA (guanine(745)-N(1))-methyltransferase	GTGTCCAACAACGAAAAATTGTTAAAAAAAGCACAAAAACTTTCGATACACGAGAAGATGTTTCAATGCCCGATCTGCGGCGGTGCCATGAAGGTAGAACGAATGGCCAGCCTGGAATGCGAGAACAGGCATTGCTATGATATATCCAGACAGGGATACGTAAACCTGCTGAACCATTCATCCAAAACCAAATATGATAAGGCTTTGTTTGAGGCCCGAAACACGATCAGCGGCAGCGGCTTCTTCGGCCCCATGGTAGAAGCGGTAACGAATCGCCTGATCCAGGAGCTGAAGACCCGGGAATCCGTGAAGCCTGTAAAGCTGCTTGATGCAGGCTGCGGGGAGGGCTCCCATCTATCCGCCATCGGACATAAGCTTCGGGAGCACCCTTTGGTGCCGGATGTTCTCGGCGTGGGCGTGGATATTGCCAAAGAGGGCATCGTTATGGCCGCCAAGACATCCCCGGACTCTATATGGTGCGTGGCCGATTTGTCCCGGAGCCCGTTTGCCGACCAACAGTTCGATTACATCCTGAACATCCTGTCCCCGTCCAATTATTCGGAGTTCAGGCGGCTGCTTGCGAGTGGCGGGACCTTGGTGAAGGTAATCCCGGACCGCCTGTATTTGCAGGAGCTTAGAACCTTGTTCTATACGGGGACAGGCAAGGAGAATTACTCCAATGACAGCACAATAGAGCTATTCAGCCGCCACTTTGAGCAAATCGATGCCGAGCGGGTGCAGTATCGAGTCGTCCTGGATAACGATCAGATGAAACAACTGATTCGCATGACGCCGTTATCCTGGAGCGCTTCGCCCGAGGCCATCGGACAAATGCTGGATGAAGCGATGGAGGTCACGGCAGACTTCAAGATCCTGTATGGATGGAATGAGGAATAA	MSNNEKLLKKAQKLSIHEKMFQCPICGGAMKVERMASLECENRHCYDISRQGYVNLLNHSSKTKYDKALFEARNTISGSGFFGPMVEAVTNRLIQELKTRESVKPVKLLDAGCGEGSHLSAIGHKLREHPLVPDVLGVGVDIAKEGIVMAAKTSPDSIWCVADLSRSPFADQQFDYILNILSPSNYSEFRRLLASGGTLVKVIPDRLYLQELRTLFYTGTGKENYSNDSTIELFSRHFEQIDAERVQYRVVLDNDQMKQLIRMTPLSWSASPEAIGQMLDEAMEVTADFKILYGWNEE				NA	NA	NA	NA	NA
AK002_01227	426		COG2764	putative protein	ATGGCACTTCGAATGAATCCATATCTCGTGATGGACGGGAATGCTAAGGAAGCTATTCAGTTCTATGAGAAGGCGCTGGACGCCCAGGTCATCATGGTTCAGACCTTCGGCGAGATGCCGGCGAACCCTGATTTTCCGCTGCCGGAAAGCGCGAGGGATCGCATTTCCCACGCTTTGCTGAAGGTAGGAGAGACGGATTTGATGTTCTCCGATACGTTTCCCGGTCAACCGGTTCAATCCAGCAATCAGGTTCAGATCTGTATCATGACCGATCAGGCCGAACAGGCCAAGCGGATATATGAAGCGCTGCGGGAGGGCGGTCAAGTGGTTATGCCGCTTCAGGAGACGTTCTGGAGCCCGGCATACGGCATCGTGGCTGACAAATACGGCGTGAACTGGAATATCTCCACGGAAGCGAAAGCGTAG	MALRMNPYLVMDGNAKEAIQFYEKALDAQVIMVQTFGEMPANPDFPLPESARDRISHALLKVGETDLMFSDTFPGQPVQSSNQVQICIMTDQAEQAKRIYEALREGGQVVMPLQETFWSPAYGIVADKYGVNWNISTEAKA	PGPT0030505_2012	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_01228	1050			hypothetical protein	ATGTTGAAGTTCAGGACACTATGTGCGCCTATACTCCTGGCTGTCTCTTTGTTCGTAGGAGCTGGCAGCGCTTTCGCCGGGGTTACTTTTCGGGATATTGATAACCATTGGGCAAAAACGACCATCGAATGGGGCGTCGACAAGGGGATTGTCAACGGCTATGCCAACGGAATGTTCATGCCTAATCAGAATGTGACCGAGGCCGAATTCATCCGCATGCTGGTTGTCGGCATTACGGGCAAGGACCTGCAGGAGAACTATTTGACCGAACTATGGTCGGATAAATATTATCATTTTCTGCATTTCAAGAACTACCCTGTACACGGATTCGCTGACAAAACCAAGCGCAGCCAATACATAACGCGGGCCCATGTGGCCGAGCTGATATCCAGCGCCGACGGCGTGAACTACGGCGGGAATCAGGCCATTCAATACGTTCTGGGCAAGAAGTACGCGCAGGGCCGAATCAAAGGTGAAAATACGATTGAAGGCTATGTAGGCAGCGGCACCATCACGCGCGCCGAAGTGCTGCAGCTGATCAAAAACCTGACCGATCGCGGAATGTCGAACCTGTACGACCGCCCTACCGCGCCAAGCGCGGAGGCCATGCTGCCGAAGCTGCCAACGCCTTGGGACGTTTACCGGGACGAGATGTACCTCGTGATCCGCCAGAAGGTATTTCCGAAGTACAGCGGCTACCGCATCTATGACGACGGATCGAATAAAATCGTCATGACCAGCACGAAGCAAACCGGCGAGACGGATTACGCCGTGTCCGTTCAATTCGAGCCGCAGATTATGCAATTCAGCGGAATCGCGCTTTCCAATGCCGCCGATAAAACGCAGCGCGGCATGCTGATCGAACTCCTCCAGCTGTATGGCTTCCAGGTCGATTCCGCCTTCCTCGCGAAGATAGACTCCGCGGAGAAGAACAAGAAGGTGATCGAGCTGAAGGTCAGCGGCAAAACACTCGTTATCGATCCGCTCGTGGCAAGCCCCGCCGGGCATGTCCATATCTACTATAAGTGGTGGGACGGATCTCGGGCCTAA	MLKFRTLCAPILLAVSLFVGAGSAFAGVTFRDIDNHWAKTTIEWGVDKGIVNGYANGMFMPNQNVTEAEFIRMLVVGITGKDLQENYLTELWSDKYYHFLHFKNYPVHGFADKTKRSQYITRAHVAELISSADGVNYGGNQAIQYVLGKKYAQGRIKGENTIEGYVGSGTITRAEVLQLIKNLTDRGMSNLYDRPTAPSAEAMLPKLPTPWDVYRDEMYLVIRQKVFPKYSGYRIYDDGSNKIVMTSTKQTGETDYAVSVQFEPQIMQFSGIALSNAADKTQRGMLIELLQLYGFQVDSAFLAKIDSAEKNKKVIELKVSGKTLVIDPLVASPAGHVHIYYKWWDGSRA				NA	NA	NA	NA	NA
AK002_01229	915			hypothetical protein	ATGAGATTGATGCGAAAATCGTTATTAACCTTATGCAGCCTTTTGCTTGCAGTCTCGGTTTTGGTGCCGCTAACAACGGTTCATGCAGCGGATCAGAAATGGATCAATCAAGTATGGAGCGAGTATAAATCCTATAACAAGAAGACGGTAAATGCGTATAACAATTATCAGAAACAAGTAGATAAGAAATATAAGGCGTTTTATAATGCCAGCCATGCCTCCCTGGACCAGCTGGAGAAAAAAGTGCTGGAGGATCAAAAGCAGTGGGACGAGAAGCTTCGAGCCGATTTGGAGCAGCTGAAGCTGAAGTATGAGGGAAACCGCGATGTAAAGGATAAGCTGACACAATATGAACGGCTCATCAATCCAAGTTATTTAAACGGTCCGATGTGGAAGTATGCGAAAGCCGCAGACCGGGGTTATTTGAACAGTACCCTATGGAGGCTAAGCAAGGAAATGAACGAGGATTATTTGAACAGCTGGATGTGGACATACAAGAAGACGATCACCCCGAGCTATTTGAACAGTTCCGCATGGAAATTCAGCAAAACGGTCAGTGAAAGCTATTTGAACAGCCCGATGTGGAAGCTCCGTAACGGATCCAGTAGTTCGTACCTGAACAGTCCGATGTGGAAGTACAAACAAGGGAAAATCAGCAAAGCAACAGCTAAGAGCCAATACAGCAAGCTGTTAAAGGAACAGACAACCGCGATATCCAAAGGCAATGCTGCAAGAAAATCCGAAATAACGAAAATGGCAAGCGGTACGCAAAAGAAGATAGACGAGCTATATAAGGAAACGGTGGTTATACTTGAGGCACGTCGTGAGGAGGCGTTGAAGAGCATCTCCGACCTGCGGATCGAAATCGCCGGAGAAGGCTTGCAATGGGAAGCGCTGCTCGTGGAGAAACCGTAA	MRLMRKSLLTLCSLLLAVSVLVPLTTVHAADQKWINQVWSEYKSYNKKTVNAYNNYQKQVDKKYKAFYNASHASLDQLEKKVLEDQKQWDEKLRADLEQLKLKYEGNRDVKDKLTQYERLINPSYLNGPMWKYAKAADRGYLNSTLWRLSKEMNEDYLNSWMWTYKKTITPSYLNSSAWKFSKTVSESYLNSPMWKLRNGSSSSYLNSPMWKYKQGKISKATAKSQYSKLLKEQTTAISKGNAARKSEITKMASGTQKKIDELYKETVVILEARREEALKSISDLRIEIAGEGLQWEALLVEKP				NA	NA	NA	NA	NA
AK002_01230	1044	exuR_3	COG1609	putative HTH-type transcriptional repressor ExuR	ATGAAAACGAAAGTGACGATTCAGGAAATCGCCGATTTCACAGGCGTGTCTAAATTCGCGGTATCCCGGGCCTTGTCGGGGAAATCCGGTGTCAGCCCGCAGACCAGGGACATGATCCTGAAGGCCGCCGGACAGCTTGGGTATTTCAAGGATCAGCCAGGCCAAGCGGCAGGAAGAAACCAGCAGCTCCAGGAGCCGGAGAACCGAAAATGGGCGGGGGCGGTACTGGTCCTGTTCCCGAATGTCCGATATCAGAATCGCGAATCGCTCTATTGGGGGCCGGTTTTTGACGGAATATCGACCCGTCTTAATCAGAAAGGGCTCGACATCCTGACGCTGACGGAGCCTTCGAATGACCACATGTTCTCCCTCCTGAATCCCCAGGGCATTCTCGGGATCGTAACGGTGGGAGCCGTGTCCACGCAAAATTTAATGGATATCAAGAAGCTGAACATACCCGTGGTCATGGTAGACCACATGGACCCCGCGTTCCAATCGGACACGGTGTTCACCGACAATATGCACAGCATGAAACAAATCATGACCAAACTGATCAGCAAAGGATATAAAAAATATCAGTTCATCGGCAACATTGAAGATGCCCAGAGCTTTTACGAGCGCTGGATCGGTTTCTCGTCCGCGCTGGCCGATTACAAAATCGAGCATCGGCAGCTGCCTTCTCTGATCAGCCCAGAGATTGAGAACATACACGAAACGTTAGGAAAGGCTCTTGCCGGAAACGAGCTTCCGGAAGTGTTCGTTTGCGCCAATGATATCACCGCCATGTTTGCCATGGAGGCGCTCGGGAATCAGGGCATCGACGTACCGGGTCACGTACAGGTGACCGGATTCGATAATACGTACGACAGCCTGCCGATTATGGCAACGGTGAACATCGATAAGGAATTGCTGGGGATGCGTGCCGTCGATCAATTGCTCTGGCGGATCGTGAACCCGGATTCCAATTATGAGCGTCTCCTTATTCAAGCCGATGTCATTGTTAGGGAATCGAATAACGCTGCGCGGGATACGGACGAACCATAA	MKTKVTIQEIADFTGVSKFAVSRALSGKSGVSPQTRDMILKAAGQLGYFKDQPGQAAGRNQQLQEPENRKWAGAVLVLFPNVRYQNRESLYWGPVFDGISTRLNQKGLDILTLTEPSNDHMFSLLNPQGILGIVTVGAVSTQNLMDIKKLNIPVVMVDHMDPAFQSDTVFTDNMHSMKQIMTKLISKGYKKYQFIGNIEDAQSFYERWIGFSSALADYKIEHRQLPSLISPEIENIHETLGKALAGNELPEVFVCANDITAMFAMEALGNQGIDVPGHVQVTGFDNTYDSLPIMATVNIDKELLGMRAVDQLLWRIVNPDSNYERLLIQADVIVRESNNAARDTDEP	PGPT0017992_4332	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
AK002_01231	1368			hypothetical protein	GTGAGAAAAATGAAAGGGCTTTCTTTATTGCTTATCTGTTTGTTATTTTTGATTACCGCCTGCAGCGGCGGAGGGGCGAAGCAGGCGGAGACGCCGCCGGCGACCCCGGCTCCCAGCACGGAAACCGCGGCAGAGACTCCTAAAGAAGAACCCGCCGAACCTGAAGCAGAACCTGTTGATCTGGGCGGCCGCGTGATTAAGGTAGCCGCTTGGTGGGACCTGAAGCCGGCAGGCACGACGGCCGGAGAGAAGGCACGCCTGGAGAAGATCGCCGAAATCGAGAAGAAATACAATTGCAAAATCGAATTCGTCAACGTCCCCTTTGAGGAGTACATGAATAAATTCACGACAAGCGTGCTGGCAGGCGAGCCCTTCGCCGATATCGTGCAGCTGGAGTACAAGTCGGCATTGCCGGCGATTATGAAGGGACAGATCCTGCCGATCAGCGAATTTACCACGGACAAAAACAACATCAATAACGAAGCGGATCTGCAGACGAAATATCCATCCATTGGCGGAGGGGAATACGGCTTCGATAATCCGACCTCCATCGGGCTCGGACTTCATTACAACCGCGATCTGTTTAAGAAGAACGGTCTTCCGGATCTTCAGGAGCTGTATGCCAAGGGAGAATGGAACTGGGATAAATTCATGGAGCTTGCCAAACAGGCAACCAAAGATACGAATAACGACGGGAAAACGGACGTATGGGGCTTCTCCGGCTGGGCCATTGATGCCGTAAAGCATTTCACCGCCGCTAACGGGGGCAAAATCGTAGACGATTCCAACGGCAAAGAAGGCTTGTCCGATCCGAAGACATTGGAAGCAGCCGAGTTCGTGAACCGCCTCTACAACGTGGAGAAGGTAGTGAAAGTCAAGAGCGGCAACAAAACGAATTGGGAAGAAACCAACACCTTTAAAGACGGCGACGTAGCCATGTTTACGGCGGCGGAATGGATGCTGGGCGACATTACGTTCGAGGTTGGCGTGGTTCCGATTCCTGCCGGCCCGCAGGGATCGGCAGAAACAACGTATGCCAATACCGCCGCGTCCGCGAAGTTCATTGCCAAAGGCGTGAAAGATCCGGCCATCGTCTACCAAATTTACGAAGAGACGTTCGATATACCGCCGACCGAGGAATACCCGGGACAGGATTACCTGGAGAGCATCTATACCAATCAGGAAGACATCGACATGATTCGCGAGCATATTGCCGGGACCGGCGTCATCACGGTCGACGAAGCCTACACGGATTACCCTACGGGCGCTTTCATTGAGGACATTATCGTGAACAATCAATCGGTAACCGCTACGGCCGAGAAATATAAACAACAGGCACAGGCTGCTGTCGATAAAATGGGCAAATAA	MRKMKGLSLLLICLLFLITACSGGGAKQAETPPATPAPSTETAAETPKEEPAEPEAEPVDLGGRVIKVAAWWDLKPAGTTAGEKARLEKIAEIEKKYNCKIEFVNVPFEEYMNKFTTSVLAGEPFADIVQLEYKSALPAIMKGQILPISEFTTDKNNINNEADLQTKYPSIGGGEYGFDNPTSIGLGLHYNRDLFKKNGLPDLQELYAKGEWNWDKFMELAKQATKDTNNDGKTDVWGFSGWAIDAVKHFTAANGGKIVDDSNGKEGLSDPKTLEAAEFVNRLYNVEKVVKVKSGNKTNWEETNTFKDGDVAMFTAAEWMLGDITFEVGVVPIPAGPQGSAETTYANTAASAKFIAKGVKDPAIVYQIYEETFDIPPTEEYPGQDYLESIYTNQEDIDMIREHIAGTGVITVDEAYTDYPTGAFIEDIIVNNQSVTATAEKYKQQAQAAVDKMGK	PGPT0016545_2233	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_01232	2958			hypothetical protein	TTGACACTTCAAACGCAGCTAAAAAAATGGATGACCCGGTTATTGGTTCTTGCGGCAATCTTGGCCGCTTTGACGTTGTTCTTTAATAGAGGGGGAAATGAGTCCGGAGCCGGGGGGGGGCCGGAACACGGCGGGACAGAGCTTACATTGGAACGTCCCGCAACGCTGGTCAATCTCAGCACGCAGCCGGGGAAAAGCATTTCCTATGTCCAATATTTGTCGGATCATGACGGAAAAGGTCGGCCTGATCATGAGATCACGATTCCCGCTGCGGATTACAGCCGTGCCGAGGGCGGGGAATTCCGCAGGCTGGAAGCCTATGAGGGTCATCCCGGAACCTCGTTGTTCACGGGGGAGAAGGGTGAGGTGGAATGGAAGGTTCATGTAGAGGAGGAGGGATTGTACAATCTGTCCCTGCTCTATTATCCGGTGGAAGGAAAGAGTTCCTCCATTGAGCGTTCCATCCGCATCGACGGGGAGGTCCCATTTCAGGAGGCCGCTTATTTGCAATTCGACCGCATATGGGATAACGCCAAGGACGGCATCGATCAGGATAACCAGGGCAATGACCTGAGGCCGAAGCAAATCGAACGTCCCGCTTGGACCACGACGGTGCTGAAGGATGCGGATGGTTACATCACGGAGCCGCTTCTTTTTTACTTTGAGGAGGGGGAGCATACCGTATCTTTAACGGCCGCACGGGAACCGATGGTTATCGGGGAACTCAAGCTGTTCCAGCAGGAGATTCCGCCGACGTATGCCGAGCTGTACCGGCAGTATGAGGCTGAAGGGATTCGAAGAATTGAAGGCACCTTGCTGGCGATTCAAGGAGAAGACGCAGTCGCCAAATCCTCGCCGACCCTGTATCCGCTAAGCGAGCGTTCGAGTCCGAGCGTCAGCCCTTACAGTGCGTCGAAAGTCCGAATCAACACCATCGGCGGCTTTAACTGGCGGCTGCCCGGACAGTGGATCGAATGGGAACTGGACGTCCCGGAGAGCGGACTCTATAAGATAGCGTTCAAATCGCAGCAAAATTTTGTGAGGGGCATATACTCGACGCGAAAGCTGACGATCGACGGGAAGGTTCCGTTTGAAGAAATGAACCACGTCGCTTTCCGCTTCAAGAACGGATATCGCATGGACGTGCTTGGGGGCGATGAACCTTATCTGTTCCGGTTGGAGCAAGGTAAGCATGTGTTACGCCTCGAGGCGAGTCTGGGTGAATTCGCTCCCCTCATTCATGAGGTGGAGGACAGTCTGCTTAACCTGAATGCCATGTACCGCAAAATATTGATGATCACCGGCACGAATCCGGATGAATTCAGGGATTACCGCGTAGAGCAGCGGATACCGGAACTGCTGGAAGCCTTCCGGTACGAAAGCGGCAGACTGAAAGCGGTCGCGGCCAGATTGGTTGAGCTGTCGGGTCAATCCGGCGACCAGGAGGCGCTGCTGAAGACCATGGCGCTTCAGCTGGATGAGATGATCGAGAAGCCGGATACGATTCCGCGCAGGCTGGAGGCCTACAAGACGAATACCGGCGGACTCGGAACATGGCTGCAGCAGGCAAGGGAGCAGCCGCTGGAGATCGATGCCCTCTATGTTGCATCAGCCGATGCCAAGCTGCCGAAGAGCGGAATGGGGGCGGCCGATAAGGTGAAGCATGAGGCGTCGACGTTCTTCAGCTCCTTCTTTATCGATTACAACAATATCGGTAACGTCACGGATGAGAAGAACCAGCGTTCGATCACCGTATGGATCGGCAGCGGCCGTGATCAGGCCAATACCATCAAGGCGATGATCGACGAGACCTTTACGCCGGAAACCGGCATCAACGTGAATCTGAAGCTGGTGAACATGGGGACGCTGCTCCCCGCCACTTTGTCGGGACAGGGACCGGAGGTGGCGATGCAGATCGGCAATGACCTCCCGGTGAACTTTGCCATGCGAAATGCCGCAGCGGACTTGACGCAATTCCCTGACTTCGAATCGGTGGCGGCCAGATTCCGGGACAGCGCCTTGGTGCCATACCGATACCGCAGCGGCGTATATGCGCTGCCGGAGACGCAAACCTTTAACATGATGTTCTACCGGAAGGACGTGCTGGAAGAGCTGGGTCTTGAAGTTCCGAAGACTTGGGACGATGTGGCCAGCCTGCTTGCCGTATTGAACAAAAATCATATGCAATTCAGTCTTCCCGTCGTGGCGCAAGCACCGGATCAGTGGACCACGCTGCCGCCGAATTCAATGTATGCGGCGCTCCTGATGCAATCCGGCGGACAATTCTACCGCAACAACGACCGGGAGTCGGATCTGGATTCCAAGATTGGGCTGGAAGCATTTAAACAGTGGACGGAGTATTACACCGACTACAAGCTGGAGCGGGAATACGATTTTGCGAACCGGTTCCGTACCGGACAGATGCCGATCGGCATTTCCGATTACACCACCTATAACCAGCTGTCGGTATTCGCGCCGGAAATCCGCGGCGTATGGGGGTTCGCCCCCGTTCCGGGAACCGTTCAGGCGGACGGTACGATTAACCGCACCGTACCGAGCGGCGGCAGCGCCGTGCTGATGCTGGACGATGCGAAGGACAAGGATGCGGCCTGGGAATTCTTGAAATGGTGGACCAGCGATGCGACGCAGACGAATTTCGGCCGCGAAATGGAAGGGCTGATGGGCGCGGCGGCCCGCTATCCGACCGCCAACATCAAGGCGCTGGACAGTCTGCCGTGGCCGGTAGCCGACTACGAGAATTTGAAATCCCAATTTGAATGGGTTCAGGGAATACCCGAGGTTCCGGGCGGTTATTCGACGGGCAGGCATTTGTTCAATGCCTTCTATCGTGCGGTCATCAGCGGCATCGAGCCGCGGGAGGCCTTGATGGATTCGGTGCAGTATATTCACGACGAAATCCGAACCAAGCAAGCAGAATTCGGCGAGCTGCAGGAATAG	MTLQTQLKKWMTRLLVLAAILAALTLFFNRGGNESGAGGGPEHGGTELTLERPATLVNLSTQPGKSISYVQYLSDHDGKGRPDHEITIPAADYSRAEGGEFRRLEAYEGHPGTSLFTGEKGEVEWKVHVEEEGLYNLSLLYYPVEGKSSSIERSIRIDGEVPFQEAAYLQFDRIWDNAKDGIDQDNQGNDLRPKQIERPAWTTTVLKDADGYITEPLLFYFEEGEHTVSLTAAREPMVIGELKLFQQEIPPTYAELYRQYEAEGIRRIEGTLLAIQGEDAVAKSSPTLYPLSERSSPSVSPYSASKVRINTIGGFNWRLPGQWIEWELDVPESGLYKIAFKSQQNFVRGIYSTRKLTIDGKVPFEEMNHVAFRFKNGYRMDVLGGDEPYLFRLEQGKHVLRLEASLGEFAPLIHEVEDSLLNLNAMYRKILMITGTNPDEFRDYRVEQRIPELLEAFRYESGRLKAVAARLVELSGQSGDQEALLKTMALQLDEMIEKPDTIPRRLEAYKTNTGGLGTWLQQAREQPLEIDALYVASADAKLPKSGMGAADKVKHEASTFFSSFFIDYNNIGNVTDEKNQRSITVWIGSGRDQANTIKAMIDETFTPETGINVNLKLVNMGTLLPATLSGQGPEVAMQIGNDLPVNFAMRNAAADLTQFPDFESVAARFRDSALVPYRYRSGVYALPETQTFNMMFYRKDVLEELGLEVPKTWDDVASLLAVLNKNHMQFSLPVVAQAPDQWTTLPPNSMYAALLMQSGGQFYRNNDRESDLDSKIGLEAFKQWTEYYTDYKLEREYDFANRFRTGQMPIGISDYTTYNQLSVFAPEIRGVWGFAPVPGTVQADGTINRTVPSGGSAVLMLDDAKDKDAAWEFLKWWTSDATQTNFGREMEGLMGAAARYPTANIKALDSLPWPVADYENLKSQFEWVQGIPEVPGGYSTGRHLFNAFYRAVISGIEPREALMDSVQYIHDEIRTKQAEFGELQE				NA	NA	NA	NA	NA
AK002_01233	969	araP_3	COG1175	L-arabinose transport system permease protein AraP	TTGCATAATGCCAGCCTTCAGGATCCTGAGGTTACGATGTCAGCCGCAATCCGCCCCGTCAAGCCGCAATCCTGGTGGAGGCGGAAGCTGGCGGAGATGAAGGCCAGCAAGCATTCCTATATTTTGCTTGCGCCTTATATGATCCTGTTCACGCTGTTTACCGTGTTTCCGGTCGTCATTTCGATGATTCTCAGCTTTACGTACTTCAATATGCTGGAGTTTCCGCGGTTTGTCGGCTGGGATAATTATACGCGCCTGTTCCTGGAGGACGATATCTTTCTGGTCGCGCTGAAGAACACGCTGCTCTTTGCAGCCATAACAGGACCCATCAGTTATTTGGCCTGCTTCCTGTTTGCCTGGGTCATCAATGAGCTGGGTCCGCGGCTGCGGGCGTTCATGACCCTGATCTTCTATGCGCCTTCGATCTCGGGAAACATTTACTTCATCTGGCTGATGATCTTCTCGGGTGACCGCTACGGCATAGCGAACGGCATGCTGATTAAGCTGGGCATCATATTGGAGCCGATCCAATGGCTGAAAACCGAAGCGTTCATCATGCCGATTATCATTTTGGTCCAGCTGTGGCTCAGCCTTGGAACCGGCTTCCTGGCCTTCATCGCCGGACTTCAAACCGTGGATAAAACGCTCTACGAAGCGGGTGCCGTGGACGGAGTCCGCAACCGCTGGCAGGAGCTGTGGTTCATAACGCTGCCTTCGATGCGGCCGCAGCTTATGTTCGGCGCGGTCATCCAGCTTACGACATCGTTTGCCGTGGCTGACGTATCGATTGCGCTGGCCGGTTTCCCGAGCGTGAACTATGCGGCGGAAACCATCGTCACGCATCTCATCGATTTCGGCACGACGCGCTTCGAGATGGGGTTTGCGTCGGCGATTGCGACCGTACTGTTCATCCTGATGGTGGGAACCAACCTGATCGTCCAAAAATTGCTGCGCAAGGTAGGTGAGTAG	MHNASLQDPEVTMSAAIRPVKPQSWWRRKLAEMKASKHSYILLAPYMILFTLFTVFPVVISMILSFTYFNMLEFPRFVGWDNYTRLFLEDDIFLVALKNTLLFAAITGPISYLACFLFAWVINELGPRLRAFMTLIFYAPSISGNIYFIWLMIFSGDRYGIANGMLIKLGIILEPIQWLKTEAFIMPIIILVQLWLSLGTGFLAFIAGLQTVDKTLYEAGAVDGVRNRWQELWFITLPSMRPQLMFGAVIQLTTSFAVADVSIALAGFPSVNYAAETIVTHLIDFGTTRFEMGFASAIATVLFILMVGTNLIVQKLLRKVGE	PGPT0016535_1427	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_01234	912			hypothetical protein	GTGAGGGTTACATACGAACTTCCGAAAAAACGGGACGGACGCCTGCTGAACGTCAGGCTTAAAGCTCGCAGCAAACGGGTAAACCGCTCGTTTATGGGCACCTTCTCCCTGTTTGCGCTGCTGGCGGTGTTCGGCGCTTTCATGGCGCTGCCCCTGGTGTACGCCATCAACAACGCGTTCAAGCCGCTGGACGAAATTTTTCTGTTCCCGCCGACGCTGTTTGTCCGCAATCCCACATGGAATAACTTTTCCGATTTGATCAATCTGCTCGGCCAGTCCTGGGTACCGTTCTCGCGGTATATCTTCAATACGGTTTTCATAACCGGGGTCGGCATTGTCGGTCATGTGATCTTTGCATCCGCCGCGGCTTATCCGCTGGCCAAACACAAGTTTCCGGGCAAGGTATTCCTGTTCCAGGTCGTCGTGCTCTCGCTGATGTTCACGCCGGTCGTTACGGCAACGCCGAATTATATGATCCTGTCTTGGCTGGGGCTCATTGACACCTACTGGGCCGTCATTATACCGGCTTTCGGCTATTCGCTAGGGTTATATCTGATGAAGCAGTTCATGGAACAGATACCGGATGCCCTGCTGGAGGCGGCCAAAATCGACGGAGCGAGCGAATACCGGATCTTCTGGTCCATCGTGATGCCGAACGTGAAGCCGGCGTGGCTCACGCTGATCATATTGCTGTTCCAGATCCTGTGGGGAACCGACGGCAACGGCTTTATTTACAGCGAACAGCTTAAGACCCTGCATTATGCATCCAATCAGATCATTCTGGGCGGTATTTCCCGGGCCGGCGCAGGCGCGGCCGTGGCAGTCATCCTGATGAGCGTGCCGATTGTGCTCTTTCTGTTCTCGCAGAGCCGGATCATCGAGACGATGGCGACCTCCGGGATGAAGGATTAG	MRVTYELPKKRDGRLLNVRLKARSKRVNRSFMGTFSLFALLAVFGAFMALPLVYAINNAFKPLDEIFLFPPTLFVRNPTWNNFSDLINLLGQSWVPFSRYIFNTVFITGVGIVGHVIFASAAAYPLAKHKFPGKVFLFQVVVLSLMFTPVVTATPNYMILSWLGLIDTYWAVIIPAFGYSLGLYLMKQFMEQIPDALLEAAKIDGASEYRIFWSIVMPNVKPAWLTLIILLFQILWGTDGNGFIYSEQLKTLHYASNQIILGGISRAGAGAAVAVILMSVPIVLFLFSQSRIIETMATSGMKD	PGPT0016540_1669	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_01235	1464			hypothetical protein	ATGTCAGCGAAAAAATGGTTGCTTACTCTCGCGGCGGCCTCCCTGCTGCTTACCGGCCTGATGCCGGGGAGCGTCTCCGCCAGTGCTCCGTACGAGAGCTATATCTACAATTATTGGGAGGAAACGGTTGCCGTGCCTGCCGCTTATTTGCCGGAACGCGCCGTTACGGGGAAGGAGCTGGGCATTGGGGATTTTTTGGATCCGAGCGATATGCATGTGTCGGAAGCCGGAAACATCTACGTGCTGGACAGCGGCAACAAACGGATCGTCGTCCTGGACGACACGTGGAACGTGATCCGGGTGATTGATTCTTTCATGAACGAAGGGAAAGAGGACGGTTTTGCAAATCCTGCCGGCATCTTCATTGACGGGGATGAGCAAATCTATGTTGCGGATACGGACCATCAACGGGTTGTCGTGTTGACGGCGGAAGGGGCGCTTGTCCGTATCATGGAGCAGCCGGAGTCGGATGTGCTGCCTCAAGGCTTTCAATTCATTCCCCTGAAAGTAGCGGTGGATGAAGCCAAACGGGTATTCGTTGTCGCCCGCGGCGTTTACGAAGGCATTATGCAGTTCGAGGAGGACGGTACCTTTCTCGGCTACGTCGGAACGATTAAGGTAAAGCGCGATTATGGCGATTATTTCTGGAGATTGGTATCGACGAGCGCGCAGAAAGCCCAGATGAAACTGTTCATCCCGACCGAGTTCTCCAATCTGGATATGGACGGCAAGGGGTTCGTTTATGCCACGAATATTGACGTGGGATCCAGGGAACCGATGAAACGCCTCAATCCGTCGGGAGAGGATGTGCTAAAGCGCTTCGGCTACTTTCCGGTTGCGGGAGATATTTATTATCGAAGAACGGTGGGGCCATCCAAGTTCGTTGATATTAAGGTGCTCGGCGACGGGATGTACAGCGCGCTGGACTCTACCCAAGGTCGCGTCTTCACATACGACGAGACCGGCAATCTGCTGTTCGTATACGGCGGCATCGGGAATCAGCTGGGCCTGTTTAAGACGCCGGCGGCGATTGAACGGCTCGGAGACCGTCAGCTTGTGCTGGACCGGGGAAAGGCAAGCATCGTCATGTTCGAGCCGACCGAGTTCGGGGAGCAGGTTAACCTTGCCGTCCGCCATCATTACCGGGGAGAAGACGCGGAGGCGGAGAGGTATTGGGAACGGGTTCTTCAGCTCAATGCGAACTATGACATCGCTTATATCGGCATCGGGAAAGCGAAGCTCATGAAGGGGGAGAACAAGGAAGCCCTTAAGTATTTTGAGCTGGGCATGGACCGCAAGAATTATTCCGTGGCGTATAAACGATATCGCAGGGAGGTCATGAAGGAGCATTTCGGCACCTTTTTATCGGCAGGGACCGGGGGCCTGCTGCTCTACGCGGTCTATCGAACGGTAAGATACCGAAAGCAGAGGAGGGCAGGAAAGCATGAAGCAGGACTATCTTAA	MSAKKWLLTLAAASLLLTGLMPGSVSASAPYESYIYNYWEETVAVPAAYLPERAVTGKELGIGDFLDPSDMHVSEAGNIYVLDSGNKRIVVLDDTWNVIRVIDSFMNEGKEDGFANPAGIFIDGDEQIYVADTDHQRVVVLTAEGALVRIMEQPESDVLPQGFQFIPLKVAVDEAKRVFVVARGVYEGIMQFEEDGTFLGYVGTIKVKRDYGDYFWRLVSTSAQKAQMKLFIPTEFSNLDMDGKGFVYATNIDVGSREPMKRLNPSGEDVLKRFGYFPVAGDIYYRRTVGPSKFVDIKVLGDGMYSALDSTQGRVFTYDETGNLLFVYGGIGNQLGLFKTPAAIERLGDRQLVLDRGKASIVMFEPTEFGEQVNLAVRHHYRGEDAEAERYWERVLQLNANYDIAYIGIGKAKLMKGENKEALKYFELGMDRKNYSVAYKRYRREVMKEHFGTFLSAGTGGLLLYAVYRTVRYRKQRRAGKHEAGLS				NA	NA	NA	NA	NA
AK002_01236	621			hypothetical protein	ATGAAGCAGGACTATCTTAAATTCCCCCTTCATTTGATCGTTCACCCCTTCGACGGATATTGGGACCTGAAGTACGAAAACCGGGGACGGCTCGGGGTCGCTTATCTCGTATTGGCGCTCGTGGTCATTGCTATGATTCTGCAGCGGCAGTATGCGGGATTTCTGGTCAACTACAATGATCCGCGGACGCTGAGCAGCATCGACGAACTGATATTTATCGTCCTCCCGTTCTTCCTGTGGTGCGTCTCTAACTGGTCGGTCACCACGCTCATGGGCGGTGAAGGGAAGTTTAAGGAGATCGTGATGGCCAGCGCATATGCCCTCATTCCGATGGTTCTGATCTATCCGCCCATGACGCTGGCGAGCCGGTTCATGGTCCAGGAAGAGACCGTGTTCTATTATCTGCTAACGACGGTAGCAGCGATCTGGTTTATCGGGCTGCTCTTTGTCGGCACGATGACGGTCCACCAATACTCGGCCGGCAAAACGGTCGTCACGATGTTTCTGAGCCTGATCGTCATGGGCATTATCGTATTTCTGGGCACGCTCGTCCTGAGCATGCTGCAGCAGATTTACACGTTCGTTGTCAACGTTTACCGAGAGATCATTTTCAGGCAATAA	MKQDYLKFPLHLIVHPFDGYWDLKYENRGRLGVAYLVLALVVIAMILQRQYAGFLVNYNDPRTLSSIDELIFIVLPFFLWCVSNWSVTTLMGGEGKFKEIVMASAYALIPMVLIYPPMTLASRFMVQEETVFYYLLTTVAAIWFIGLLFVGTMTVHQYSAGKTVVTMFLSLIVMGIIVFLGTLVLSMLQQIYTFVVNVYREIIFRQ				NA	NA	NA	NA	NA
AK002_01237	2577			hypothetical protein	GTGAAAAAAAGAAAATGGCTGTACACGGTGCTTGCATGTACCGTTATAACGTGCATGGCTGCGGGCTTTCTGATCTACGTGAACCGGGGAGCGCCGGCGGTCGACGTCGCTGCGTACAGTAATGCGGCGGCCGAGACGGCGCAAGGCAGGGAGCTCTCCGCCCTGAACGATTTGACAGGCGGCGTGCCCGGCATGGATCTGGTAGCGGAAACGGAGGCGCTTGCGCTGTACTATCATCCGGACACGACCGAGGTCGCGGTGCGGGATAAGCGGAGCGATACGGTATGGTACAGCAATCCGCCAGACCGGATGGAGGACGGAATTGCTTCGCCTTTCGAGAAAGAAGTGCTGTCTTCGCAATTGACGCTGACGTTCCGCGATGGGATCGGCACGCTTGAGACTTATCCGAATTATACGTGGAGCGTTTTGAACGGGAACTATACGGCGGAAGCCTTGGACAACGGCGTTCGCGTCACGTATACGCTGGGAGATGTCTCGCTTGGAATCGACGCCTTGCCGAAATACATCTCGCAGGACCGGCTGCAGGAGAAGGTGGTCAGCAAGCTGGATGCGTCATTGGCCAGATACGTGCAGGCCCGGTATTACCCCATGAAGGATAACCCTGCGATGCTGGAGCGCCTGGACGACCAGATCAAGAAAGAGCTGGTTCTGAAAAAAATGCTGGGCGCTTTCGAGCAGGCGGGCTACACCGCGGAGGATCTTGCCTATGATAACGAAGCGGGCGGAGGGGCCGCCGCAAGCGCCTCTTCGAAGCCGCAGTTCAAGATTCCGCTCGAATACCGGCTGGAAGAGGATTCGCTTGTCGTTACGATACCGCTTGACCAGGTAACGGAAAGCGAGAGTCACCGCCTGCGCAGCGTGGAGCTGCTTCGCTATTTCGGCGCGGCGGGAACGAAGGCCGAGGGTTATATGCTGGTGCCGGACGGCAGCGGCAGCCTGATCCACCTGAATAACGGCAAAGTGAAGGAAGAACAGTACGTGCAGCGCATATACGGCACCGATCCGAATCATAACAGCAGCAGCCGCGGACAGGTGGCCGAGCAGGCGCGAATGCCCGTGTTCGGCATGAAGAACGGGGACGGAGGCTGGTTTGCCGTGATTGAAGAAGGCGACGCCATCGCGAGCGTGTCCGCGGACATCGGCGGGAAGCAGAATTCGTACAATCATGTATTCAGCAGCTTTGCCGTGCGCGGCGAGGATATGCTGGAGCTTTACACCGGAAGTACGGTGCAGGAAATCCAGCTGTTGAATGACAAGCTGTACAACGGGAAGCTGTCCGTCAAATACCGTTTCCTGTCTGGTGAAGAGGCCAGCTACTCCGGCATGGCCCGCTTGTATCAGGAAACGCTTGCGAAGGAAAGCAAGCTGGTTCCCCTGGAAGAAGCGGAGGGCATTCCGTTCTATCTCGATATGCTGGGAAGCGTGGATAAACGGAGATCTTTTCTGGGCGTACCGTATGATGCCGTCGTCTCGATGACCACCTTCGAGCAGGCAGGCGAGATCGCCGCTCTTCTGCATGGCGAGGGCATCGCCAATCTCCGGATGCGTTACCTCGGCTGGTTTGGCCAAGGCGTCCATCACAAAACCCCGGTGAAGGTAAAGACGGACAGCGTTGTCGGAAACGCCGCCGACCTGAAGGCACTGTCCAAGCAATTGCAGGACGCCGGCGGCGGGCTGTATCCGGATGTTGCGTTCCAGCATGTCTACCATGACGATGGTGCGTTTACGCCGTCATCCGATGCCTCCCGTTTCGTGACCAGGGAAACGGCAGCGCTGCATCCGTTTGACCGGAACACGAACCGGATGAACTCGTATTACGGCACGTACAACCTGATGTCGCCGGCGAAGCTTCCCTATTACGTGGAGCGATTCACAGGGCAATATGAACGGTTTGGCACGGGGGCCGTGTCATTGCGGGACCTGGGCGATGTCCTGAGCTCCGATTACCGGGTGCAGCGGGTGGTTTTCCGGGAAACCGCGAAGTTTATCGTGACCGATCAGCTGAAGGCGCTGCACGAGGCATACCCGGATACGATGGTTTCCGGTGCTAATGCTTACAGCTGGCCATATGCGGGCCACTTGCTCGATGTCCCGACGTCGAGCAGCGGATTCGGGCTGACGGATGAAGCCGTGCCGTTTTATCAAATGGTCATTCACGGCTACCTGGATTATGCGGGAGCAGCAGTCAATAACCTGAATGAACAACATTTGCGCAAAGCGCTCCTGCAGTCGCTGGAATTGGGAACGGCTCCGCATTTCCTGTGGTCTTATGAACAAAGCTCGAAGCTGAAGTATACGCGTTTCGATGACATGTACTCCACCCATTACAAGGATTGGTTCGAAGAAGCGGTGTCCTTGTACCAAGAGCTGAACGAGGTGCTGGCGCCGATCCGGACGCAGCGAATGGTGGAGCATAAGCGGCATGAAGACGGCGTGGTGGAAGTAAGGTACGAGAACGGCGCCTCGATTCTGATCAATTATACCGATCAAGCGGTTAATGTTAACGGGATCCTGGTGGAACCTCAAAATTACGCTGTAGGTGGTGACCGGGCATGA	MKKRKWLYTVLACTVITCMAAGFLIYVNRGAPAVDVAAYSNAAAETAQGRELSALNDLTGGVPGMDLVAETEALALYYHPDTTEVAVRDKRSDTVWYSNPPDRMEDGIASPFEKEVLSSQLTLTFRDGIGTLETYPNYTWSVLNGNYTAEALDNGVRVTYTLGDVSLGIDALPKYISQDRLQEKVVSKLDASLARYVQARYYPMKDNPAMLERLDDQIKKELVLKKMLGAFEQAGYTAEDLAYDNEAGGGAAASASSKPQFKIPLEYRLEEDSLVVTIPLDQVTESESHRLRSVELLRYFGAAGTKAEGYMLVPDGSGSLIHLNNGKVKEEQYVQRIYGTDPNHNSSSRGQVAEQARMPVFGMKNGDGGWFAVIEEGDAIASVSADIGGKQNSYNHVFSSFAVRGEDMLELYTGSTVQEIQLLNDKLYNGKLSVKYRFLSGEEASYSGMARLYQETLAKESKLVPLEEAEGIPFYLDMLGSVDKRRSFLGVPYDAVVSMTTFEQAGEIAALLHGEGIANLRMRYLGWFGQGVHHKTPVKVKTDSVVGNAADLKALSKQLQDAGGGLYPDVAFQHVYHDDGAFTPSSDASRFVTRETAALHPFDRNTNRMNSYYGTYNLMSPAKLPYYVERFTGQYERFGTGAVSLRDLGDVLSSDYRVQRVVFRETAKFIVTDQLKALHEAYPDTMVSGANAYSWPYAGHLLDVPTSSSGFGLTDEAVPFYQMVIHGYLDYAGAAVNNLNEQHLRKALLQSLELGTAPHFLWSYEQSSKLKYTRFDDMYSTHYKDWFEEAVSLYQELNEVLAPIRTQRMVEHKRHEDGVVEVRYENGASILINYTDQAVNVNGILVEPQNYAVGGDRA				NA	NA	NA	NA	NA
AK002_01238	900	lacF_10		Lactose transport system permease protein LacF	ATGAAAATGAGATTGTCCCTGACTCAGAAAAGATCCATGCTCGGCCTCCTCTTCATCGCGCCATGGCTGATCGGCTTTATCTTTTTGTTCGCCGGGCCTCTGTTTCAGTCCATTTTGTTCAGCTTCAGTAAATTGAACATCTCTCCCACGGGCTATGAGCTGGAGCCGGTAGGTTGGAGCAATTTCAACACCGCGCTGTTCGTGGACGCGAACTTCAACCGGATCTTGACGGAGTCGATACTGGGTATGGTGGTGGACGTTCCGCTGATCCTGTTTTTCAGTCTGTTTTCGGCCGTTCTGCTGAATCAGAAATTCCGGGGGAGAGCCCTTGCGAGAGCGATCTTCTTCCTGCCGGTCATCCTGGCGTCAGGCGCGATTTCGGCAGCGGAAACCTCGGGTCTGATCAATCTGGTCGGAAATGCGACGGTGGCGGAGGAGCTTGGGCAAGCCTCCGGGCAGTTCAATGTGCTATCGATGGTGCGCATCTTATCCGAAGCCGGATTTCCCATTACCGTAACCGAGTATATTATCGGGGCGGTCATGAGGATCTACGATATTATCAGCAGCTCGGGCGTGCAGATTCTGATCTTCCTTGCCGCCCTGCAGGCCGTCCCGGGCTCGATGTACGAGGTCGCGAAGATTGAAGGGGCTACCGCTTATGAATCGTTCTGGAAAATCACCTTTCCGATGGTGAGCCCGCTCATCCTGACGAACATGATTTATACCATCATCGATTCGTTCGCGGACAGCACCGTGACCCGAACGATTTATGAGACGGCCTTCAAAACGCAGAATTTCGGGCTCAGTGCCGCGATGGCGTGGCTGTATACCATCGTTATCAGCTTGCTGCTGGTATTGATGGGAATCATCGTCTCAAGGAAAACCTTTTATCAAAACTAA	MKMRLSLTQKRSMLGLLFIAPWLIGFIFLFAGPLFQSILFSFSKLNISPTGYELEPVGWSNFNTALFVDANFNRILTESILGMVVDVPLILFFSLFSAVLLNQKFRGRALARAIFFLPVILASGAISAAETSGLINLVGNATVAEELGQASGQFNVLSMVRILSEAGFPITVTEYIIGAVMRIYDIISSSGVQILIFLAALQAVPGSMYEVAKIEGATAYESFWKITFPMVSPLILTNMIYTIIDSFADSTVTRTIYETAFKTQNFGLSAAMAWLYTIVISLLLVLMGIIVSRKTFYQN				NA	NA	NA	NA	NA
AK002_01239	996	ngcG_4	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGGCATCGATTCGGGATCGCTCGGACGAAACGGCTCAGGAACGACTGAACCGGTTCAAGAACAAGGCGCTGCCGATTCTGTGGGCGGCGTTCCGCTATCTGCTGATCATCGGCATCACATTCATCATCATCTATCCGATCATCACCAAGTTCTCCGTCGCGTTCAAAGACAAACAGGATATTTATAACCCGACGATTTACATGATTCCGGTGCATTTCACATTGGATAATTTCAAGATCGTGCTCGACCTGCTGGATTATTGGCCGCTGCTGCTGAACACGATGATTTACGTATTCATCACGATGCTGCTGACCACGATGTCGACGGCTCTTGCCGGGTATGGTTTTGCCAGGTTCACCTTTCCGGGAAGCAATCTGCTGTTCGGCCTGGTGGTGCTGACGATCCTGATCCCGATGAGCACGCTGATGGTGCCGATGTATTTGCATTTCCGCAGCTTTGACATTCTGGGGCTGGTACACTTGTTTACCGGAAAAGAGGGCATCAACCTGCTGAACAGCTACTGGCCATCGATCATCACTTCGGCCACGGCCACCGGGCTTAAGGCCGGACTGTTCATTTATATCTTCCGCCAATTTTTCCGGGGGCTGCCGAAGGAGATTGAGGAGGCGGCGCTGATTGACGGGGCAGGCGGGATTAAGACGTTTTTTGCAATCATGCTTCCCAATGCGATTCCGCCGCTCATTACGGTGACGCTGTTCTCATTCGTCTGGCAGTATAACGACACCTTCTATACCTCGCTCTTTATGAGCGAACAATCCCTCATGCCGCTGAAGATCGCTTCGCTGCCGGCGGACGCCAACCAGTTTCTCCCGGCTCTGATGGGGCTCGGTTCATCGGCCAAGGCCGATCCGAACTACGTGGCGCTTGTAGTGGATACGGGGATATTGCTGGCCATTCTGCCGCTAATCGGATTGTATCTGTTCGTGCAGCGCCATTTTGTGGAGAGCGTGGAGCGTACAGGGGTTGTCGGGTAG	MASIRDRSDETAQERLNRFKNKALPILWAAFRYLLIIGITFIIIYPIITKFSVAFKDKQDIYNPTIYMIPVHFTLDNFKIVLDLLDYWPLLLNTMIYVFITMLLTTMSTALAGYGFARFTFPGSNLLFGLVVLTILIPMSTLMVPMYLHFRSFDILGLVHLFTGKEGINLLNSYWPSIITSATATGLKAGLFIYIFRQFFRGLPKEIEEAALIDGAGGIKTFFAIMLPNAIPPLITVTLFSFVWQYNDTFYTSLFMSEQSLMPLKIASLPADANQFLPALMGLGSSAKADPNYVALVVDTGILLAILPLIGLYLFVQRHFVESVERTGVVG	PGPT0016540_412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_01240	1032	manA_1	COG4124	Mannan endo-1,4-beta-mannosidase	ATGACAAAAGCAAGCAGCACCCGCTATGAGGTCCAGCCGGACTTGATCAACCCGGCCGCTTCCGATGAAGCAAAACGGTTAATGGGTTATCTGTGCAGCATTTACGGCAAACGGATGCTGACCGGGCAGCAGATTGGCGTTGTGTCAACGCCGGAGTTCGAGATGATCCACGAGGTCACGGGCAAATACCCGGCCGTGGGCGGGTTCGATTTCATGAATTACTCCCCATCCCGGGTGGAGCGCGGGGCCGAGCGTCAAGATACGGATCTGGCGATGAAGTGGTGGGACCGCGGCGGGATCGTGACCTTCTGCTGGCATTGGAATGCCCCGAAGGATCTGATCGATTTGCCGCCGGACCGGACCTGGGGCCGAGGCTTTTACACCAATGCGACAACCTTTGATATCGCACGAGCGATGTCGGAGCCTTCGTCGGAAGAGTATGGCCTTATCATCCGGGATATCGATGCGATCGCTGCCGAGCTCAAGCGTCTGCAGGATGCCGGCATTCCGGTGCTGTGGAGACCGCTTCACGAGGCCTCCGGCGGATGGTTCTGGTGGGGAGCCAAAGGCCCCGAGCCTTGCATTGCGCTCTGGAAGCTGATGTACGAGCGCATGACGCATCACCACGAATTGAACAACCTGATCTGGGTATGGAACGGGCAACACAAGGATTGGTATCCGGGCGATTCCTACGTCGATATCATCGGGGAAGACATTTATCCGCCTGCCCGGGATTACGGCTCTCAATCCGAGCGGTTCCGCACGGCTTTATCGTATACGGATACGGCAAAAATCATTGCCCTGACCGAGAACGGCGTCATACCCGACCCCGATCTCATGCAGGAGGACGGATGCCCGTGGGCATGGAATTGCACATGGTATGGAAACTTTGTGTTCATAGGGGAAGGAAATAACCGGAGGTATTCCGAAGAGTATACGGATGAGTTGCAGCTGATCCGCACCTATCATCATCCGTTTACGGTCACGCTGGATGAACTTCCGGATCTGAAAGGCCGACGGCCTGATCTGTAA	MTKASSTRYEVQPDLINPAASDEAKRLMGYLCSIYGKRMLTGQQIGVVSTPEFEMIHEVTGKYPAVGGFDFMNYSPSRVERGAERQDTDLAMKWWDRGGIVTFCWHWNAPKDLIDLPPDRTWGRGFYTNATTFDIARAMSEPSSEEYGLIIRDIDAIAAELKRLQDAGIPVLWRPLHEASGGWFWWGAKGPEPCIALWKLMYERMTHHHELNNLIWVWNGQHKDWYPGDSYVDIIGEDIYPPARDYGSQSERFRTALSYTDTAKIIALTENGVIPDPDLMQEDGCPWAWNCTWYGNFVFIGEGNNRRYSEEYTDELQLIRTYHHPFTVTLDELPDLKGRRPDL	PGPT0018725_824	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018725-manA-K01218	NA	NA
AK002_01241	2559	csxA		Exo-beta-D-glucosaminidase	ATGAATTTTAACGTTATGACTTTAAATCAATGGAAATTCAAAGCGTGCGACGAATCCAAGTGGCTTCCGGCCCAGGTGCCGGGCTGCGTTCATACCGACCTGCTGAAGAATGGCATCATCCCCGATCCCTTCTACGGGACGAATGAGCATGACCTGCAGTGGATCGATAAGAAGGATTGGGAATATGAGACGTCGTTTGATTTGGATTCGAATCTGAGCGCCCAATCCCGCATCGAGCTCGTATTCGACGGATTGGATACTTACGCCGATGTGTTCGTGAACGGGGCCAAGGTGCTTTCCGCCGATAATATGTTTCGTTCATGGCGGATCGATGTGAAATCGCAGCTCAAGGATTCGGGAAATGTGATTAAGATCCGCTTCCGTTCCCCTATCCAGGAGGATCTGCCGAAGCTTGAGAAGCTCGGATATCCGCTGCCTGCTTCGAATGACCAGTCCGAGGTTGGCGGTATGGGCGACCAGAAAGTGAGTATTTTTGCCCGGAAAGCGCCTTATCATTACGGCTGGGATTGGGGACCGCGCTTCGTGACCAGCGGGATCTGGCGGGAGGCCAGGCTCGAGGCTTGGTCCGAAGTCAGGCTGGATGATTTGTTTATTCGCCAGGATGAGGTTACGGCAGAAATGGCCAGGGTTACGGCCGTTGCCACCATTGCAGCGGAGCAAGCTTGGCAAGGCGTGCTTCGGGTAAGTGCAGGCGGCCAGACATGGGAACAGAATGTTCGGCTGGAGGAAGGCCGTCATTCGGTTGAATTGAGCCTTGAACTTGCCGAGCCGAAGCTGTGGTGGTGCCGCGGCCTGGGCGAGGCCCATCTGTATTCGTTCCATGCCGAGCTGGCGGAAGCAGAACGGACCGTTGCGGAGACAAAGGTTCGAACCGGCCTGCGCAGCGTCAAGCTGGTACGGGAACAGGATAGCCGCGGCACGTCCTTTTACATCGAGCTCAACGGCACGCCTGTGTTTGCCAAGGGAGCGAACCATATCCCGAACGACAGCTTCATAACGGAAGTGACGGCGGAACGCTATCGCCATGAAATCGCGTCCGCAGCGGAATCGAACATGAACATGCTGCGCGTATGGGGCGGCGGTATTTATGAAGAAGACGTCTTTTACGATCTGTGTGATAAATACGGGCTCATGGTATGGCAGGATTTCATGTTTGCTTGCAGCATGTATCCAGGCGACGAGGCATTTCTGGAGAACGTGCGGCTGGAAGCGGAGGAGAACCTCGTCCGTCTGCGGAATCATCCGAGCATCGTGCTCTGGTGCGGCAACAACGAGATTGATTCCGCTTGGGCGCACTATGAAGAGAAGGGCGGCTGGGGCTGGAAGCAGGACTATACCGAGGAGCTCCGCGAAAAGATCTGGAGCGACTACGAAAAGGTATTCCACGAAATTCTTCCTGAGGCCGTAACCGGTTATGCTCCGGGAGCGGAGTATTGGCCTTCCTCCCCGCTGGTATCGCTCAGCCATGACAAGGAGCAGCATGCCAATCCTTCCACGACGAGCGGGGATATTCATTACTGGGGCGTGTGGCATAACACGGAGCCGTTTGACAATTACAACGTTTACGTCGGCCGATTTATGAGCGAATACGGGTTCCAGTCATTCCCGGAACCGAAGACGGTGCGGACATATGCGGAAGATCGCGATATGGAGCTGGAGTCGAAGGTCATGCTGGCTCATCAGAAGAACGGTGCCGGCAACCGCTTGATCAAGAGTTACATGGATCAATATTATAACGAGCCGAAGGATTTCGAGGCTTTCCTGTACATGAGCCAGATCCAGCAGGGCGAAGCGATGAAGACGGCGATTGAAGCCCACCGCCGCAACAAGCCGTATTGCATGGGCACGCTGTATTGGCAGATGAACGACTGCTGGCCGGTCGCTTCGTGGGCAGGCATGGATTATCTCGGCAGATGGAAGGCGCTGCAGTACGTGGCCAAGCGCTGCTTCCGGGATGTCAGTCTCTCGGTCGAATCCAAGGAACAAGAGATTCGGGTTCATCTCGTATCCGATATTTCAGAAGCGGTTCAGGGCACGCTGAAGGTTCAGTTATTCGATTTTAACGGAAAAGAGCTCTACGGATCCGAGCAGCCGATCCGTGCGGAAGAGCAAGCATCGCTCGTTGTATTCCGGGCTGCGGCCGATGAGCTGCTCCGCGGACATGATCCATCCGAGGTCGTGCTGCTGGCGCAATGGCTTCAGGATGGAGTCGTGGTTGACAGCAAAACATTCTATTTCGTGAATGACAAGCATCTTCGTCTGCACAGTCCGGCCATCAGCGTAAAAGAAGTCGAAGGAAGCGATGGTACGGCGTTTGTGCTGGAGAGCAACGTGCTTGCCCGCCACGTATGGCTGTCCGCCGAAGCGGAAGGCTTCTACAGCGATAACTTCTTTGACCTGATTCCGGGCATCCCGGTGACCGTATCCTTCAGCCGCCGAGATAACGGAGAGCAGGCATTTATACCAGGCAAGCCGGGCCGGGCCGAGGTTCGGTCCATGGCCGATTGCATCGATCCGTCAATGGTGCTGACGGTTTAA	MNFNVMTLNQWKFKACDESKWLPAQVPGCVHTDLLKNGIIPDPFYGTNEHDLQWIDKKDWEYETSFDLDSNLSAQSRIELVFDGLDTYADVFVNGAKVLSADNMFRSWRIDVKSQLKDSGNVIKIRFRSPIQEDLPKLEKLGYPLPASNDQSEVGGMGDQKVSIFARKAPYHYGWDWGPRFVTSGIWREARLEAWSEVRLDDLFIRQDEVTAEMARVTAVATIAAEQAWQGVLRVSAGGQTWEQNVRLEEGRHSVELSLELAEPKLWWCRGLGEAHLYSFHAELAEAERTVAETKVRTGLRSVKLVREQDSRGTSFYIELNGTPVFAKGANHIPNDSFITEVTAERYRHEIASAAESNMNMLRVWGGGIYEEDVFYDLCDKYGLMVWQDFMFACSMYPGDEAFLENVRLEAEENLVRLRNHPSIVLWCGNNEIDSAWAHYEEKGGWGWKQDYTEELREKIWSDYEKVFHEILPEAVTGYAPGAEYWPSSPLVSLSHDKEQHANPSTTSGDIHYWGVWHNTEPFDNYNVYVGRFMSEYGFQSFPEPKTVRTYAEDRDMELESKVMLAHQKNGAGNRLIKSYMDQYYNEPKDFEAFLYMSQIQQGEAMKTAIEAHRRNKPYCMGTLYWQMNDCWPVASWAGMDYLGRWKALQYVAKRCFRDVSLSVESKEQEIRVHLVSDISEAVQGTLKVQLFDFNGKELYGSEQPIRAEEQASLVVFRAAADELLRGHDPSEVVLLAQWLQDGVVVDSKTFYFVNDKHLRLHSPAISVKEVEGSDGTAFVLESNVLARHVWLSAEAEGFYSDNFFDLIPGIPVTVSFSRRDNGEQAFIPGKPGRAEVRSMADCIDPSMVLTV	PGPT0018765_662	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018765-manB-K01192	NA	NA
AK002_01242	543			hypothetical protein	ATGAAAAAACAAGTTTTGTTCATTCATAGTGCCGGCCCGCAAGGCAACGGCCAAGGAAGCAGTGGCTTGATCGCCCATTTACAAGAACGGCTCGGTGAAGCTTATCATGTCTTATCTCCCGGCATGCCGGATCCGGATTACGCTCTATGGAAAGCGCGGATTGCCAATGAAATCAAGGCATTGAATGGAGAGGTGCTGCTGGTAGGTCATTCCCTCGGCGGCTCCGTGCTACTGAAATATCTTTCGGAAGAAGACTGCCAGCTAACCGTCTCTGGACTGTTTTTGATCGCCGCCCCCTATTGGGGCAAAGACGATGATTGGCGGAGTGAAGATTTTAGATTGCCTGATTCTTTCGCCACCATGCTGCCTCGCATATCCAGTCTGTACCTGTACCACAGCCGCCACGATCCCGTGGTGCCTTTCGCGCACGCTCAGCACTACGCGAAGCAACTCCCCCAAGCTGTCACCCGAGAATACGAGGGCGACGATCACTATTTCTGCGAGGGCTTGCCCGAGCTTGTAGATGATATCAAGCGCCTGTAA	MKKQVLFIHSAGPQGNGQGSSGLIAHLQERLGEAYHVLSPGMPDPDYALWKARIANEIKALNGEVLLVGHSLGGSVLLKYLSEEDCQLTVSGLFLIAAPYWGKDDDWRSEDFRLPDSFATMLPRISSLYLYHSRHDPVVPFAHAQHYAKQLPQAVTREYEGDDHYFCEGLPELVDDIKRL				NA	NA	NA	NA	NA
AK002_01243	1821			hypothetical protein	ATGAAAAAGAGTTCCTTGCTGTTATTGTTCCTCTCGCTGGTCATCGTACTGGCCGGATGCAACGTAACAACCAAAGATGATGCACAGCAAAATCAGCAAGAACCAGCGGATACAGCTACAGACACATCCGCTGTTAATATCGAACTGCTTGGCATGAGCTCTAACGAATCCGATGTCAACATCATTCGCGACCAGCTCACCAAGAACGGCTTCAACGTGAAGCTGAATCTGCAGCCGGACTACGGCAGCTTCAAGGCACAGCAGGATGCCGGCAATTACGACATCGCGCTGTCCAGCTGGACAACCGTAACGGGTAACCCTGACTATGCCGTTCGTTCCCTGTTCAAAACCGGCGGCGACTACAGCATTATGTCTGACGAGGAAGTGGACAAGCTGATCGACCAAGCGGCCACGCAAACGCCGGAAGACGCCGTTGAGACTTACAAGCAGCTCGAACAACGTCTGGTAACGGACAAAGCTTACATCGCTCCATTGTACATCTCCCTGAAGAGCCAAGCGTTCAACAAGGATGTGCTGGACGAGAATTCCGTTCGTCTTTCGAAATCCCGTTCCCTGCCTTGGGAAGCCGTTGATTTCAAAGACCAATCCAAGCGTGCGACGCAGCCGCTGATTCTGTCCCAATCGATCTCTGAACTGACTTCGCTTGACCCGATCAAGGGCAACGACGGTTCCATTAACATCATCAACACCAACATGAACGTACGTCTGATCAACCTGACCGATGATGACAAGATCACGTCCGAAGGCTCGCTGTCTTATAACCATGCCATCGGCGAAGGCAACTCGGAGTACTACTTCATTCTTAGAGACGACATTAACTTTGCAAAAATCACGAACAAAAAAGCGGAAGATTCCGGCGAGCGCGTAGGCGCGGACGATGTCATCTTCTCCATGAACAGAGCGAAAGACAAAAATTCGGTGCCTGATCATCGTACCTACACGCTTCACGAGCACATCAATACCGTTGAAGCCGTAACCGACCTGAGCGTGCTGGAAAACACCAAGGTTTCCGGCGGCAGCGAAAGCGTCAAGGAAGCGCTGGAAGCCGACTTGGATACCAAGATCGCTTCCCTTGTCGACGACAAGAATCAAGCAAGCACGAAAGACGGCAAATACCAAGTCATCAAATTGACGACAACCGAGCCGTTCCCGCAAGTATTGAACTACCTGGCTCACCAATCGGCCGGTATCGTATCGAAGAAGCAAGTTGAATCCATCAATACGTATGACGTTGAGAAATTCGACGTGAACAAAGACATTCCTTACGGCGACCAGAACACGGTAACCGAAGGCGATAAATACAACAACACGCTGTATGCAAGCGGTCCGTATATCCTGTCTTCCAAGAATGACTATGAAGCCACCTTCTTCAAAAACCCTGGCTACATGAAGGGCACGGAGCACGAACCGAAAATCGAGCAAGTGAAAGTACGCTTTATCAAAGATGCGGACAGCACGCTTTCCGCACTGCGCAGCGGCGAAATCCACCTGTACTACGGCGTGCCTGAAACGAAATACGACGTAGTGAAAGGCGACAGCAAGCTGAAGCTGCAAACGATCGAAAGCAACGCCGTATCCTACCTGCTGTTCAACACGAAGAACCGTGATGTGGCAACAAGCGACGATCTGAGAAGAGCGGTGCTCTACTCGATCAACCAGGATGAGATCCTGGCCTACTACAACAACAACAAAATCAAAGCCTACTCCACCGTCAGCCCAATCGTCAAAACCGGCAACGAGCTGGTAGCCGATCCGGCGAAGGTGAAGGAATTCTTGAGCGCATATAAAGCGAGCAAGTAA	MKKSSLLLLFLSLVIVLAGCNVTTKDDAQQNQQEPADTATDTSAVNIELLGMSSNESDVNIIRDQLTKNGFNVKLNLQPDYGSFKAQQDAGNYDIALSSWTTVTGNPDYAVRSLFKTGGDYSIMSDEEVDKLIDQAATQTPEDAVETYKQLEQRLVTDKAYIAPLYISLKSQAFNKDVLDENSVRLSKSRSLPWEAVDFKDQSKRATQPLILSQSISELTSLDPIKGNDGSINIINTNMNVRLINLTDDDKITSEGSLSYNHAIGEGNSEYYFILRDDINFAKITNKKAEDSGERVGADDVIFSMNRAKDKNSVPDHRTYTLHEHINTVEAVTDLSVLENTKVSGGSESVKEALEADLDTKIASLVDDKNQASTKDGKYQVIKLTTTEPFPQVLNYLAHQSAGIVSKKQVESINTYDVEKFDVNKDIPYGDQNTVTEGDKYNNTLYASGPYILSSKNDYEATFFKNPGYMKGTEHEPKIEQVKVRFIKDADSTLSALRSGEIHLYYGVPETKYDVVKGDSKLKLQTIESNAVSYLLFNTKNRDVATSDDLRRAVLYSINQDEILAYYNNNKIKAYSTVSPIVKTGNELVADPAKVKEFLSAYKASK	PGPT0004430_1831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
AK002_01244	1509			hypothetical protein	ATGATTAAGAAGCTTCTTTCCAAACAAGAAACCAAACACCAGCTGAAATCCTCACACGAGTACAGTCAAGCCAGCTTCACATGGGTTATCTCTCTGACCTTAACGGTGATCCTGCTTCTGAACAGCTTTGATTTCACTGGGGGAACCATTAAACCGTGGGTGTTCACCGCCTTTGCGGCATATGCACTGTTTACGATCATACAGATCATCATTACGCTGCTGATCCGAAGGGATCTTCAAAGGGACGGAGAAATCCGGCGCTCGACCAGGATCCTGGGTTACGTTCAGCTGCTGAGCATCGTTACGGGGAATCTGTTTACCGTCACGTTCGGTTTCAATCTGATCAAAAAACAGAAGCCTCCCGAATATACGATCGCCGTTTACATGCTGTTAACCCAGCTGTTTGCCATCGCGATATCGGCGCTGAATCTGTTCAAGCCTTACGTCTCGAATACGTTCCTGCCGGCCATGGCCGTGCTTTTGGTTATAGCCGTCATTCAGCTGATTGCGCTTATCCTCGTTGCCAGGTACGTAAAATCGAATTATGCGCATCCGGCATTGACCTGGCTTGCTTTTCCGATCATTCTGACTGCGGCAACGGGCAATATTTTTGCTCTGGTGCTCGGCATCAACCTTCTTGCGAAGATCCGCAAGAACGGCAATCCCGCGATGACCCGCTGGGGCGACGTATGGGTAAAGCTTACTGCCAATTCGACGGCCATGTCCGGACTGTTCTTCGTGATCTTCCTGTTCTGCCTGTCGGTGACCAGTCTGTTTACCTTCGATTACAGCATTGCGATCGATAACAACTACAGCGCCATCCTGCAGCCGCCAAGCCTGGCGTACCCCTTCGGTACGGACAACTTCGGCCGGGATTTGTTCTCCCGGATCGTATTCGGGGCCCGCATCTCGCTGATCGTCGGATTCGCTTCTACGGCGATTCCGGTTGTCATCGGCGGCATTCTCGGTGCCGTCTCCGGCTACTATGGCCGCCATACCGACAACGTCATCATGCGATTGCTGGACGTGCTGTACGCCATTCCGGGCATCCTGCTCGCCATTGCGATCATTGCCGCATTCGGAGCCAATACCGTCAACCTCATTCTGGCGCTCAGCGTAGGGGCTATACCGACTTATGCAAGAACCATGAGGGCGAATGTGCTCCTGGTCTCCACCTTTGAGTACGTCGATGCGGCCAGAGCTTTCGGCTCGAGCAATTTTTCGATTATTTTCAAGCATATCGTTCCCAACTCACTCGCGCCCATGATCGTCAAGTCGACGTTAACCATTGGTGCAGCCGTCATCTCGACGAGCAGCTTGAGTTATCTGGGTCTCGGCGTCGAGCCGCATATCCCGGAATGGGGGAATATCCTGAAGATCGGAAGCACGTACCTTGAGACGCATTCGTACCTGGCGATTTATCCGGGTCTGGCCATCATCGCGCTTGTCCTGTCCTTCAACTTTCTGGGCGACGGACTGCGGGATGCGCTCGATCCGAAGCTGGATTAA	MIKKLLSKQETKHQLKSSHEYSQASFTWVISLTLTVILLLNSFDFTGGTIKPWVFTAFAAYALFTIIQIIITLLIRRDLQRDGEIRRSTRILGYVQLLSIVTGNLFTVTFGFNLIKKQKPPEYTIAVYMLLTQLFAIAISALNLFKPYVSNTFLPAMAVLLVIAVIQLIALILVARYVKSNYAHPALTWLAFPIILTAATGNIFALVLGINLLAKIRKNGNPAMTRWGDVWVKLTANSTAMSGLFFVIFLFCLSVTSLFTFDYSIAIDNNYSAILQPPSLAYPFGTDNFGRDLFSRIVFGARISLIVGFASTAIPVVIGGILGAVSGYYGRHTDNVIMRLLDVLYAIPGILLAIAIIAAFGANTVNLILALSVGAIPTYARTMRANVLLVSTFEYVDAARAFGSSNFSIIFKHIVPNSLAPMIVKSTLTIGAAVISTSSLSYLGLGVEPHIPEWGNILKIGSTYLETHSYLAIYPGLAIIALVLSFNFLGDGLRDALDPKLD	PGPT0004450_922	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
AK002_01245	1443			hypothetical protein	ATGGGGGGGACAGAAGCAGCAAGACCAAACAGACTCATAAGTTCGATAAGCAGCACATACAGTAAGATCCTTCTGAATCCTTCTTATAGATACTTACTATTATTACTGGGAGCGCCCGTGAATCTCGTGGTCTTCCTATTTTATTTGGTTCAGCGGAAGAAGGATGACTACGCGGCCGCTGAGAACCGCATACGCAGCGAGATGCTGGCCGCCGGATATCTGGAGGCCCTTCGCTCCGAGATGATGGAGCAGCAGAAACGCAAGCATGAGTTTTTCAAGCAAAAAATCAGCGAGGCTCAGCTCCGGCAGGAAGTCGACAAGATCGCAGAGGCAAGGTTCCGTGAAGTCCTCAAGGATCGGACCGCCAAGGACCTGAAGCTGAACAATCGCAAACGGCTGACTCTGGCCGATACGTTCGGTTCTCTCATCGAGAACCCGTTGTTCTTCATTATATCACTTATTCCGGGCTTGCTGATGTACATCCTTATTTTTTTGTACAGCAATCCCTATCTGAAATATATTTTGGAGAGACTCGTGATGACGGTATTCGTTATCTTTGGCGTAGCGGTCCTCGTCTTTACGATTCTTCACTTGTCGCCGTTTAACCCCGCGGCCAACATATTGGGCGAGACGGCAACGCCGGAACAGATCGCGGCTTTCAACAAAATGCACGGACTCGATCAGGGCTATCTGACGCAGCTGTGGAACAACATTAAAGGCATCGCATATTTCGATCTCGGCAAATCCTTCTCGGGCAACGAAGAGATTACCTCCAGCATCGCCAGAAAGTTTCCGATCACGCTGACCCTTACGGTCATTTCGTTGATCCTCGCGATTGCGATCGCATTGCCGATCGGGATTATCTCGGCCACGAGACCGAATTCGTTCTTTGACTATACGTTTATGTTCATCGCGCTGATCGGGCTGTCCATTCCGAACTTCTGGCAGGGACTGATCTTCATTCTGAATTTCTCGATCAAGCTGCAGTGGCTGCCCGCCACCTTCAATCCGGAGAACTGGCTGTCCATGATCATGCCGGTGATCGTGCTCGGGACGGGACTTACCGCTTCGGTGGCCCGAATGACGCGCTCCTCCACGCTGGAGGTCATTAATGAAGATTATATGATCACAGCCAGAGCGAAGGGGCTCGGCAAGCGCACCATTCTGATGAAGCATGCTGTCCGCAATGCCATCATTCCGATCATTACCGTCATCGGACTTCAGTTCGGCGGGATGCTCGGCGGTTCCGCCGTTACGGAGAAGGTGTTCAACATCAGCGGTATCGGCAGCTACATCGTGGATAAACAATTTATCCCTGACATCCCGGCCATCATGGGCGGCGTGGTTTACACCGCTATCACCATATCGCTGGTGAACGTCATCATCGATATCTTGTACGCATTCTTCGATCCACGGATCAGATCCAAGATGAAACAATACTAA	MGGTEAARPNRLISSISSTYSKILLNPSYRYLLLLLGAPVNLVVFLFYLVQRKKDDYAAAENRIRSEMLAAGYLEALRSEMMEQQKRKHEFFKQKISEAQLRQEVDKIAEARFREVLKDRTAKDLKLNNRKRLTLADTFGSLIENPLFFIISLIPGLLMYILIFLYSNPYLKYILERLVMTVFVIFGVAVLVFTILHLSPFNPAANILGETATPEQIAAFNKMHGLDQGYLTQLWNNIKGIAYFDLGKSFSGNEEITSSIARKFPITLTLTVISLILAIAIALPIGIISATRPNSFFDYTFMFIALIGLSIPNFWQGLIFILNFSIKLQWLPATFNPENWLSMIMPVIVLGTGLTASVARMTRSSTLEVINEDYMITARAKGLGKRTILMKHAVRNAIIPIITVIGLQFGGMLGGSAVTEKVFNISGIGSYIVDKQFIPDIPAIMGGVVYTAITISLVNVIIDILYAFFDPRIRSKMKQY	PGPT0004445_326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
AK002_01246	1743	gsiA	COG1123	Glutathione import ATP-binding protein GsiA	TTGGAACCGATATTGCAGGTTAAAAATTTGAGCGTGGCCTTTCAATCCCGTGATTCAGAATTTCACGCGGTACGTGGGGTCAGCTTTGAAGTGAAGAAAGGGGAGACTCTCGGAATCGTCGGAGAATCCGGGAGCGGCAAAAGCGTCACGGCACGCTCGATCATGCGGCTGCTGCCTTCCCCGCCTTCTTATATGAAGGATGGAGAGATCCTGTTCCTTGGCCAGAACCTGGCCGAGAAAAGCGAGAAGGAGATGGAAAGCATCCGGGGACGCGATATCGGGATGATTTTCCAGGATCCGATGACCTCGCTGAATCCGACCATCCGCATCGGGGAACAAATATCGGAAAGTCTGGTCAAACACCAGAAGCTGTCCAAGCAGGAAGCGAAGCAGCAGGCGCTTGAAATGCTCAAGCTGGTCGGCATCCCGAACAGCGAAGCGCGGTATAATCAATACCCGCACGAGTTCTCGGGCGGCATGCGGCAGCGGGTGATGATCGCCATCGCCCTGGCGTGCCGACCTGCGCTGCTGATCGCGGACGAGCCGACGACGGCGCTTGACGTAACGATTCAGGCCCAAATCCTCAATCTGATGAAAAATATGCAGGAGCGCTTCGGTTCCTCCATTATATTGATCACGCACGATCTCGGCGTCGTGGCAGGCATGTGCGACCGCGTGGCCGTGATGAAGGACGGCGTGATCGTGGAGACGGGAACGACGGAGGAAATCTTCGAGAATCCACAGCATCCCTATACCTTGAAGCTGTTAAACGCGCTTCCGCGCCTCGACGAGAAGAAGAAAGCGAAGCCGGCGCCGATCATCGTGCCAAGCACGGACTATAAAGGACCGCTGTTAGAGGTGAAATCCCTGAAGCAGTATTTTGATATGGGCAAAGGGAACGTGCTTAAAGCGGTGAATGATATCAGTTTTCATATTCAGGCGGGGGAGACCCTCGGGGTCGTCGGCGAATCCGGCAGCGGAAAATCAACGACGGGACGAGCCATCCTTCGACTTCATCAGCCGACGGGCGGAGAAGTGCTGTATCAGGGGATGTCCGTGAATCGCCTCTCCCCTTCGGAAATGAAGGCCATGCGGCGCCACATGCAGATGATCTTCCAGGATCCGTATGCTTCGCTGAATCCCAGATTGAAGGTCGTGGACATTATCGGCGAAGCGCTGGATGTCCATAAGTTAACCGGAAGCAAGCAGGAGCGGAAGAAGCGGGTCGAGGAGCTGCTGGATATGGTCGGACTGGATCCGGCTTATGCGACGCGTTACCCGCACGAGTTCTCCGGCGGCCAGCGACAGCGGATCGGGATTGCGCGGGCGCTGGCGGTAGAGCCGAAATTCATCGTGTGCGATGAGCCGCTCTCCGCGCTCGACGTGTCGATCCAATCGCAGATCGTGAAGCTGCTGGAGGAGCTGCAGCACCGTCTGGGCTTGACCTATCTGTTCATTGCGCACGACCTGTCGATGGTGAAGCATATCAGCGACCGCGTTGCCGTTATGTATATGGGCAAGATCGTCGAGCTCGCGGAAAGCGAGGAGCTCTACTCCAATCCGCAGCATGATTATACGAAGTCCTTGCTCGCGGCGATTCCGGTGCCCGATCCGAAGATCGAATCCAAGAAGAAACGGGTCCTGCTGGAAGAACGCACCGGAGAGGATAAATATAATCTGGAGCATTCCGAGCTTGTGGAAGTATCGGAGGGCCACTGGGTGGCCATGCCGACCGGAGCCTAA	MEPILQVKNLSVAFQSRDSEFHAVRGVSFEVKKGETLGIVGESGSGKSVTARSIMRLLPSPPSYMKDGEILFLGQNLAEKSEKEMESIRGRDIGMIFQDPMTSLNPTIRIGEQISESLVKHQKLSKQEAKQQALEMLKLVGIPNSEARYNQYPHEFSGGMRQRVMIAIALACRPALLIADEPTTALDVTIQAQILNLMKNMQERFGSSIILITHDLGVVAGMCDRVAVMKDGVIVETGTTEEIFENPQHPYTLKLLNALPRLDEKKKAKPAPIIVPSTDYKGPLLEVKSLKQYFDMGKGNVLKAVNDISFHIQAGETLGVVGESGSGKSTTGRAILRLHQPTGGEVLYQGMSVNRLSPSEMKAMRRHMQMIFQDPYASLNPRLKVVDIIGEALDVHKLTGSKQERKKRVEELLDMVGLDPAYATRYPHEFSGGQRQRIGIARALAVEPKFIVCDEPLSALDVSIQSQIVKLLEELQHRLGLTYLFIAHDLSMVKHISDRVAVMYMGKIVELAESEELYSNPQHDYTKSLLAAIPVPDPKIESKKKRVLLEERTGEDKYNLEHSELVEVSEGHWVAMPTGA	PGPT0004435_2537	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
AK002_01247	636	axe2_1		Acetylxylan esterase	ATGAATCGTTTGCAGCAAGGGGATGTCGTATTATTTCAAGGGGACAGCATTACGGATTGCGGTCGCGACCGCAACTTTTCCGGCAGCTTGGGGAACGGCTACCCGCTATTGATCGACTCGTTGTTCGGCATGAAATTTCCTGAGTTGAACGTTACCTTTTTGAATCGAGGGATCAGCGGAAACCGGGTCGTCGACTTGAATAACAGATGGCAGGAGGATTGCCTGGACCTGAAGCCGGACTGGGTATCCATCTATATCGGAATCAACGACACTTGGCGCCGATATGATAGCGGGGACCCGACAAGCACCGAGGATTATAAAGCCGGGTACCGCAAATTGATCGAACGGACGAAAGAAGCGCTGGACGCCAAGCTGATTCTGGTTGAACCGTTCGTGCTGCCTCATCCGGAGGATCGGAGAGCTTGGCGCGAGGATCTGGATCCGAAAATTACGGCGGTCCGCGAATTGGCGGTGGAATACGGAGCCCTGCTGGTGCCGCTGGACGGATTGTTCGCTGCGGCGTCGGTACGGCGCGAAGCTGCCTTCTGGGCGCCGGACGGCGTGCATCCGTCACCGGCCGGACACGGCTTGATCGCGAAGGCCTGGCTTGAAACGATGGGCGTTTCTTTGGGCTAA	MNRLQQGDVVLFQGDSITDCGRDRNFSGSLGNGYPLLIDSLFGMKFPELNVTFLNRGISGNRVVDLNNRWQEDCLDLKPDWVSIYIGINDTWRRYDSGDPTSTEDYKAGYRKLIERTKEALDAKLILVEPFVLPHPEDRRAWREDLDPKITAVRELAVEYGALLVPLDGLFAAASVRREAAFWAPDGVHPSPAGHGLIAKAWLETMGVSLG	PGPT0001840_1668	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
AK002_01248	1122			hypothetical protein	ATGAAAGCCATGAAACATGTAAGGAAATTATCGGCGCTGGCGCTGGCGTTTGTGATCGTATTGACCGGATGCGCCGAATCGGGCAGCGGCGGCGGCAGCGGGTCGGGCAATCTGGCGGACAAGGTCGAGAACCTGCCGGCAGGCATTGCCGAGAAGGATCCGGTGAAACTGATGGTCGTTCGGAAAATCGGGGGCGATGACCATACGGCTCAATTTTTGGCTGGGGCGAAGCAGGAAGGCGAGGCACTCGGGTTTAAGGTGGATACCTTCTCGGCGAACGGAGACTCCGCCAAATTCCATGATGCGATCGCCCAAGCCATTGACAGCGACTACGATGGATTTATCATATCGCATGGCGACGATCCTGCATCGGTTCAGGACGTGAAGAAGATTACCGAAAAGGGAATTCCGGTCGTCACCTTCGACTCCTTGCCGGAGATCGGTGACATTGCAGGGGTGACCCAGACATCGCAGGATGACGAGCAGCTCGCGAAGCTGGCGTTGGACAAGCTGATTGAAGAGCAAGGGCCGGAGGCCAACATCGTTTACCTCTGGGTAGACGGCTTCCCGCCGATGGTGCGTCGTAATGCAGTATACCAGGAAACGCTGAAGAACAACCCGGGCATTAAGGAAGTGGAGCGTTTCGGCGTAGCGAGTGACCAGACTTCCTTGGAAACGCAAAACGCGGTATCCGCTATCCTGACGAAATATCCGAAGGGCGAAATCGATGCAATCTTCGCAACCTGGGATGCATTCGCCATCGGCGCGGCCAGAGCACTGGAGGAAGCGGGACGCAGCGAGGTTAAGATTTACGGCATCGACGTATCCAACGCGGACCTGGAGCTGATCCAGAAACCGGACAGCCCTTGGGTGGCTACCGCAGCCGTCGATCCGAAGATGATCGGCGCCATCAACGTTCGTTTGCTGGCGAAGAAGATTGCAGGCGAGGAAACACCTGCTACGTATAATCTGGAGCCTGTATTGATCGAGCGCTCCGGCCTTGAGGGTGCTACCGAAGCGGTCAACATGGTGAACCTGGCGGATATTATCCCGAGCTGGGGAACAAGCACGGAATTCGAAGAGGACTGGATGAAGGCATTGAAAGAAGCAGGCGGCAAATAA	MKAMKHVRKLSALALAFVIVLTGCAESGSGGGSGSGNLADKVENLPAGIAEKDPVKLMVVRKIGGDDHTAQFLAGAKQEGEALGFKVDTFSANGDSAKFHDAIAQAIDSDYDGFIISHGDDPASVQDVKKITEKGIPVVTFDSLPEIGDIAGVTQTSQDDEQLAKLALDKLIEEQGPEANIVYLWVDGFPPMVRRNAVYQETLKNNPGIKEVERFGVASDQTSLETQNAVSAILTKYPKGEIDAIFATWDAFAIGAARALEEAGRSEVKIYGIDVSNADLELIQKPDSPWVATAAVDPKMIGAINVRLLAKKIAGEETPATYNLEPVLIERSGLEGATEAVNMVNLADIIPSWGTSTEFEEDWMKALKEAGGK	PGPT0017165_62	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017165-ABC_SS_S-K02058	NA	NA
AK002_01249	1611	rbsA_2	COG1129	Ribose import ATP-binding protein RbsA	TTGTCGGTCATCGATAGGGGCGCCCTATCCTATTTGAAGGGAAGAATACACTTGCGAAGCGTGATGGAGCCAACAACTGCCAGCTCGACCGACAATTCGGGAGCGGCACCCTTACTTCAAATGAAGCACATATCGATCTCTTTTCCAGGCGTTAAGGCGTTGACCGATGTTGATTTTCAGACGACCGCGGGGACGGCTCATGCGTTGATCGGAGCGAATGGCGCGGGAAAGTCTACCTTAATGAAGATCCTATCGGGAGCGTATACCCATTACGAGGGCGAAATCTGGATCAATGGGAGCAAGGCAGACATCCGTTCACCGAAGGAAGCAAAGGACCTGGGCATTCAGATCGTCTACCAAGAGGTGGATACGGCGCTCATTCCGAACCTGACGGTCGGCGAGAACATCATGCTCGACCGGACCGTTCACGATATGGGCAAACGGCACTTGATCCGCTGGAAGGAGCTCCATCGGGAAGCCGAATCGATTCTTGCGCGGATGAATATCCGGGTCCCGGTCAAAAAGCTGATTTCGGAGCTGACGCTGGCGGAGAAACAGATGGTGCTGATCGCCAGAGCCGTCTCCAAGCAGTGCCGCATTCTGGTGCTGGACGAGCCGACCGCGCCGCTCAGCCATAGCGAGACGGAGCAGCTGTTCAAGCTGGTGCGCAAGCTGAAGCAGGACGGAGTCGGCATTATTTTCATATCGCACCGGCTGCCGGAGCTGTACGAAATCTGCGACGACATCACGATCATGCGGGATGGTCTGCTGGTGAAGAGCGACCGCATCGCGAATATCGATCAGCCAAAAGTGGTGGAATACATGCTGGGCTCCAAGATGGATCAGCAGTTTCCCCATATCGAGCGAGACATCGGTCCTGCGCGGTTAGAGGTAAAGGGCATGTACGACCCGGGCAAAATCAACGGCGTTGATCTGTGCCTCCGCCAAGGGGAGATCGTCGGTTTGGCAGGCCTTGTCGGGGCCGGGAAAACCGAGCTGTGCCGGGCGATATTCGGGGCTTCCGGCACGTCAACCGGCGAGATGATACTGGATGGAAAAAAGCTGCGCATCCGCTCGCCGCATGATGCCGTGCGGAACGGCATTGCGCTCGTACCCGAGGAGCGCCGCCGGGAAGGCGTGTTCGTGGAAGAGCCGGTGTCCGTCAATTTAACGGCCGCGGTGCTGTCCCAATTTTCCAAATGGGGTTCCTGGCTAAGCTTTGGCAGGGAGAAACAGGCGGCGAGAGAGATGATCGAATCGCTCGGGATCAAAACTCCGAGCGAGAGAGCGCGGGTGAGAAACCTGTCCGGGGGCAACCAGCAGAAGGTGGCGATCGGCAAATGGCTGCTGGCCGACGCGGACGTGTATATTTTCGATGAACCGACCAAGGGCGTTGACGTTGGCGCGAAGCGGGATATTTTTAAGCTGGTGGCCGAGCTGGCCAAGCGGGGGAAATGCGTGCTGTACGCTACGAGCGAGCTGCCCGAGATCGTGGGCATCACCGACCGGGTGTATGTGATGTATGACGGCCGCATCACGAAGGAGCTGACAACGCGGTCAACGAATGAAGAGGAATTATTGCTTTACTGCACAGGAGGCGGGTTGACATGA	MSVIDRGALSYLKGRIHLRSVMEPTTASSTDNSGAAPLLQMKHISISFPGVKALTDVDFQTTAGTAHALIGANGAGKSTLMKILSGAYTHYEGEIWINGSKADIRSPKEAKDLGIQIVYQEVDTALIPNLTVGENIMLDRTVHDMGKRHLIRWKELHREAESILARMNIRVPVKKLISELTLAEKQMVLIARAVSKQCRILVLDEPTAPLSHSETEQLFKLVRKLKQDGVGIIFISHRLPELYEICDDITIMRDGLLVKSDRIANIDQPKVVEYMLGSKMDQQFPHIERDIGPARLEVKGMYDPGKINGVDLCLRQGEIVGLAGLVGAGKTELCRAIFGASGTSTGEMILDGKKLRIRSPHDAVRNGIALVPEERRREGVFVEEPVSVNLTAAVLSQFSKWGSWLSFGREKQAAREMIESLGIKTPSERARVRNLSGGNQQKVAIGKWLLADADVYIFDEPTKGVDVGAKRDIFKLVAELAKRGKCVLYATSELPEIVGITDRVYVMYDGRITKELTTRSTNEEELLLYCTGGGLT	PGPT0017155_40	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017155-ABC_SS_A-K02056	NA	NA
AK002_01250	996	rbsC_1	COG1172	Ribose import permease protein RbsC	ATGAATACAGCAAGACCTGTTAAGGAGAAGCCGGCGGCTAGCTTCGCATTCGATTTTCTATATAAATACGGCACGTTGATTACGGTATTCGTACTTATTCTCGTCTTCGGGACCGTTGCCGACAACTTTTTGAATACAAGCAACATTATTAACATTCTCCGTTCGATCTCGATCGTGACGATCATTGCCGTAGGTTTGACCGTATCGCTCGCCGTTGGCGGCTTTGACCTATCCGTCGGCTCGACGGCCTCCCTGGCAAACGCGCTGGTCATATCCATGTTCGTTTGGCACGGGCAAAACATCGGCATCGGCATCGGCCTCACGCTGCTGTTCTGCCTGGCCGTCGGGCTGATCAACGCGTTTCTGGTCATCAATTTCAAGATCGACGACATGCTGATGACCCTGGCGACGATGTTTATCTTCCAGGGCGTTGCCCTGACGTATACCCGGGGCGCTACCATCTCCCAGAATATGATCATGCCGAGCGGGGACTTTGCCACCGGTAAAATCCCGGCGCTGTTCGAGAAGATCGGGCAGGTGCCATGGATCATTATCATTATGGTTCTCGTGGTCCTCGTGGTCCATCTGTTCCTGACCTATACGAAACACGGACGGTACATGTACATGATCGGGGGCAACCGCGAAGCGGCGGCTCTATCCGGGATCCCGGTGAGTAAATACCGTCTGATCGCTTATCTGGTCTCCGCATTGTTTGCCGCTGTCGGCGGCATCATCCTCGGGGCTCGCGTCATGACGGCCGAGGTCAACTCCGGCGGACCCTATCTCATGGATGCCGTTGCCGCGACTTTCATCGGATATTCCGTCTTCGGAGCCGGCAAGCCGAACGCGCTCGGGACCTTTGTCGGCGCGGTGTTGATCGGTATTTTGCAAAACGGTCTGATCATGCTGTCGGTGCCGTATTATGCGATGGATATCGTCAAGGGCTCGGTGCTGGCGCTTGCGCTGGCCTTAACCTACTATAAGAAGAGACATTGA	MNTARPVKEKPAASFAFDFLYKYGTLITVFVLILVFGTVADNFLNTSNIINILRSISIVTIIAVGLTVSLAVGGFDLSVGSTASLANALVISMFVWHGQNIGIGIGLTLLFCLAVGLINAFLVINFKIDDMLMTLATMFIFQGVALTYTRGATISQNMIMPSGDFATGKIPALFEKIGQVPWIIIIMVLVVLVVHLFLTYTKHGRYMYMIGGNREAAALSGIPVSKYRLIAYLVSALFAAVGGIILGARVMTAEVNSGGPYLMDAVAATFIGYSVFGAGKPNALGTFVGAVLIGILQNGLIMLSVPYYAMDIVKGSVLALALALTYYKKRH	PGPT0017160_1656	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SIMPLE_SUGAR_TRANSPORT,PGPT0017160-ABC_SS_P-K02057	NA	NA
AK002_01251	456			hypothetical protein	ATGAAAAAAACAACCTTCATACAACCGGATCCCAAGTCCTGGCTGGACACGTTTCACTTTGACATTCCGATAAAGATTAGGTACTGCGAAACGGATATGCTGGGTCATGTCAATAACGTCAGTTATTTCATGTATTTTGAGCAGGGACGCATTGAATATTTCGAGAATCTGGGATTGACCGACGAGCTGTTCGGCGATCAAAAGGTGTCGGTTGTTGCGGATCTCGAATGCCAGTATTTGGCGCAAATGTACCTGAAGGACCCGCTTAGGCTTCATGTGCGGGTGGCTGAGATCGGACGATCTTCCATGGACATTCAATATGCGATCGTAGTGGACGGCGCCTTGAAGGCAGCCGGTCGCGGAACCATCGTGCTCATCGAGACCGCTTCAGGCAAGAGTACGCCGATTCCGGATTCGGCACGCGAACGAATTTCGGCTTTTGAAGGATGGATGTAA	MKKTTFIQPDPKSWLDTFHFDIPIKIRYCETDMLGHVNNVSYFMYFEQGRIEYFENLGLTDELFGDQKVSVVADLECQYLAQMYLKDPLRLHVRVAEIGRSSMDIQYAIVVDGALKAAGRGTIVLIETASGKSTPIPDSARERISAFEGWM	PGPT0001850_2529	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK002_01252	999	iolU_1	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGAACATCCGTTTTGCCATTATCGGCACAAACTGGATCACCGAGAGGTTTCTCCAGTCGGCACTGGAGACGGAAGAATTTATTCTGGCTGCCGTATACTCCCGTACGGAAGAGAAGGGCAGGGCTTTTGCGGCCAAGTACGCGGATCCCAAGGTCTACACGGATCTTGAGGCGATGGTGCAGGATGACGAAATTGATGCGGTATACATTGCGAGTCCGAACTCCTATCACGTGGACCAGGCGATATTATGCATGAACCACGGGAAGCACGTCCTCTGCGAGAAGCCGATGGCTTCCAACGCGGTCGAAGTGGCCGCCATGATCGAAGCCGCGAAGAACAATGGCGTTCTGTTGATGGAGGCATTGAAGTCGACGCTGATGCCGAACTTCAAGACCGTCCGGGACAACCTGTACAAGCTGGGCCCGATACGGCGTTATTTTGCGAGCTATTGCCAATATTCCTCCCGTTATGACGCGTTCAAGCAGGGGACGGTGCTGAATGCGTTCAACCCTGAATATTCCAACGGTTCTTTGATGGATTTGGGGATCTATTGCCTGTACCCGATGGTGACCCTGTTCGGAAAACCGGACACGGTGAAGGCTTCCGGCTACATGCTGTCTTCCGGGGTTGACGGCGAAGGCAGTCTTCTGTTGTCCTATCCCGAGATGGATGCGGTCATCATGCATTCCAAAATCAGCGATTCCTCCGCTCCAACCGAAATTCAGGGCGAGAACGGCACGATGATCATCGACAAAATCAATCAGCCGTACGATGTGAAGATCCGCTACAGAGACGGCACCGTCGAGAACGTGACCCAGCTGCAAACGCATGAATCGATGTATTACGAGGCCCGGGAATTTATCGATTTGATCCGGTGCGGCGAACGGGAAAGTTCAATCAACACCCATGCCAACTCGCTCATCACGGCCGAAATTATGCAGGAAGCCAGAAGCCAGATCGGACTGCGGTTCCCGGCGGATTCCCGCACCGATATATGA	MNIRFAIIGTNWITERFLQSALETEEFILAAVYSRTEEKGRAFAAKYADPKVYTDLEAMVQDDEIDAVYIASPNSYHVDQAILCMNHGKHVLCEKPMASNAVEVAAMIEAAKNNGVLLMEALKSTLMPNFKTVRDNLYKLGPIRRYFASYCQYSSRYDAFKQGTVLNAFNPEYSNGSLMDLGIYCLYPMVTLFGKPDTVKASGYMLSSGVDGEGSLLLSYPEMDAVIMHSKISDSSAPTEIQGENGTMIIDKINQPYDVKIRYRDGTVENVTQLQTHESMYYEAREFIDLIRCGERESSINTHANSLITAEIMQEARSQIGLRFPADSRTDI				NA	NA	NA	NA	NA
AK002_01253	1077	des	COG3239	Fatty acid desaturase	ATGGCTAAGCCCGATAACAAATTGTCCAGCTTGAAAAAGAACGTTGCCCCTTATGAAGAAATTGACACGAAGGCGAGTATAGGTCAGCTTTTCAATACACTGGTTCCCTTGATACTGCTATGGTATGCAGCCTATTTAAGCTTATCCGTATCGTACTGGCTAACCATTCCCATAGCCGTGATTGCTTCGGGGTTTGTTGTCCGGACGTTTATCATATTCCATGACTGCTGTCACGGATCTTTCTTCAAGAGCCGCAAGGCTAACAAAATTCTCGGCACGATTACGGGCGTGCTTACGCTGTGCCCTTACGAGCAATGGAAGAACACTCACGCGATTCATCACGCGACGAGCAGCAATCTCGATAAGCGGGGAATCGGCGATATGTGGGTATTAACCGTTGAAGAATATGGGGCAGCTTCCTTTTGGCAGCGTCTGTACTACCGCGTCTACCGCAACCCGATCGTGATGTTCGGTTTGGGTCCCATCGCCATATTTCTGATCTCCTATCGTTTCAACCGCAAAGGCGCGAGACGCAAGGAGAAGATCAGTAACTATACAACGAATATTTTGATTGTCGCTTTGTATGCATTGCTGTGCTGGGCGATCGGATGGCAGGCATTTCTGCTCGTTCAAGCTCCGATCTTCATGGTTTCCGGGATGCTTGGCATTTGGTTGTTCTACGTGCAGCATCAATTCGAGGAAACGTATTATGAGCATGATGAAGAGTGGAGTTATATCAATGCAGCCGTAGAAGGCAGCTCTTATTACAAACTTCCGAAGGTTCTGCAATGGATCACGGGCAACATTGGCTTCCATCATGTCCACCATTTGAGCCCGAAGGTGCCTAACTATAACTTGGAGAAGGCGCATGAAGCCGCTCCCCCGCTGCAGAAGGCAACCACGATTACGCTGAAGACCAGTTTGAAGTCCATTCGTTTCCGTCTGTGGGACGAAGAGAAAAAGGTGTTTGTCACCTTTAAGGAAGCGCGTAAGTCGCTTCTTAAACCGCATGAATCCGCATTGACGAAGGCGGAGAAGAACCTGTCTAGCCCAAGACCCAGAGTGCAGGGCGAATAG	MAKPDNKLSSLKKNVAPYEEIDTKASIGQLFNTLVPLILLWYAAYLSLSVSYWLTIPIAVIASGFVVRTFIIFHDCCHGSFFKSRKANKILGTITGVLTLCPYEQWKNTHAIHHATSSNLDKRGIGDMWVLTVEEYGAASFWQRLYYRVYRNPIVMFGLGPIAIFLISYRFNRKGARRKEKISNYTTNILIVALYALLCWAIGWQAFLLVQAPIFMVSGMLGIWLFYVQHQFEETYYEHDEEWSYINAAVEGSSYYKLPKVLQWITGNIGFHHVHHLSPKVPNYNLEKAHEAAPPLQKATTITLKTSLKSIRFRLWDEEKKVFVTFKEARKSLLKPHESALTKAEKNLSSPRPRVQGE	PGPT0008400_319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DESATURASE_ACTIVITY,PGPT0008400-desA-K10255	NA	NA
AK002_01254	1134	desK_3	COG4585	Sensor histidine kinase DesK	ATGCAGAAATGGTATCAGATCTTTCATAAAAGCACGGGACTGAGCCCTTACGTATGGGTTGTCTTCTACATCCTTCCGTTCTATTTCATCTTTCGCTCGACCTCGACCTATCAGATCGTGATCGGCGTTCTGATGATCGTCATGTTCTTCGCTTTCTATGTGTTGTCATTTCTGTCCAAAGGCTGGCTCGTCTATTTCTGGACGAGTCTGCAAATTTTAATATCGGTTACGATGTCCGTGGTATTCGGATATATCTATTTCTCGCTGTTCCTCGCCTTCTTCATCGGGAACATCAAGAATAAGGCCGGGTTTATCACGCTGTACTCCATCCACTTGGTTACGACCATCATTACGGTCAATTATGGATTGTTAACGCGGAATCCGTTCTTTATCACGCAGCTGCCGTTCGTGCTTGTGAGCGTGGTAGGCGTTATTCTGCTCCCTGTGACAAACTATAACCGAAATAAGAACGATCAGCTGCAGGGCCAGCTGGAGGATGCCAACAAACGGATTTCGGAATTGGTGAAGCTGGAGGAACGCCAGCGCATTGCGAGGGATTTGCATGATACGCTGGGACAAAAGCTGTCTCTTATTGGCCTCAAAAGCGATTTGGCCGGCAAACTGATGAAACAGGATATGGAGAGGGCCCAAGCCGAGATCAACGATGTCCGTCAGACAGCCCGAACCGCACTGAAGGAAGTGCGGGAGATGGTGACGCGGATGCGGGGGACCCGGCTTGCGGATGAAATCTTCCGTATTCGGCAAATCTTGAAGGCGGCTCAGATTGAGTTGACCTTTGAGGGGACGGTGGAGCCGGAGAATCTGTCGTTAATGAACGAAAACGTGATCAGCATGTGCCTGAAAGAGGCAGTGAATAACATCGTGAAGCATAGCAATGCCACGACCTGCTCCATTGTGATCGAATCCACGGAAACGGATCTGATTGCCAGGGTGAAGGACAATGGAACCGGGTTCGTCACGGACGCGAAAAACCGCGGCAACGGGCTGCGGGGAATGAGAGAACGGCTAGAATTCGTGAACGGAAGCATGGAGTTTACTTCAGGCGAGGGGACTACGCTTGTCCTTCGAGTCCCTAATGTGCTCAGAATGCCGGATAAGGAGGCGGGAATATGA	MQKWYQIFHKSTGLSPYVWVVFYILPFYFIFRSTSTYQIVIGVLMIVMFFAFYVLSFLSKGWLVYFWTSLQILISVTMSVVFGYIYFSLFLAFFIGNIKNKAGFITLYSIHLVTTIITVNYGLLTRNPFFITQLPFVLVSVVGVILLPVTNYNRNKNDQLQGQLEDANKRISELVKLEERQRIARDLHDTLGQKLSLIGLKSDLAGKLMKQDMERAQAEINDVRQTARTALKEVREMVTRMRGTRLADEIFRIRQILKAAQIELTFEGTVEPENLSLMNENVISMCLKEAVNNIVKHSNATTCSIVIESTETDLIARVKDNGTGFVTDAKNRGNGLRGMRERLEFVNGSMEFTSGEGTTLVLRVPNVLRMPDKEAGI				NA	NA	NA	NA	NA
AK002_01255	603	desR_3	COG2197	Transcriptional regulatory protein DesR	ATGATCCGAATCGTCATTGCCGAAGATCAGCGGCTGCTGCTTGGAGCCCTGGCCTCACTGCTGGATCTGGAAGAGGATATGCAGGTGGTCGGGACGGCGGGCAACGGCAAGGATGCCGTACAGCTTGTCAAACTTCATAAGCCGGATATCTGCATCATGGATATTGAGATGCCGATCATGAACGGTCTTGAAGCCGCCGAGGAGATCAAGGGTTATGGCTGCAAGGTGATGATCTTGACGACCTTTGCCCGGCCCGGGTATTTCGAGCGTGCCGTGAAAGCGGGGGCCAACGCTTACCTGCTGAAGGACAGCCCAAGCGAGGAGCTGGCCGCGTCCATTCGCAGCATTATGGCAGGCAGGCGCATATACGCCTCCGAGCTGGTGGATGAAGCGTATTCCGGTGAAGAGAATCCGCTGACGGAGCGGGAAAAGGAAGTGCTGGGCCTCATCGCGGACGGCAAGAATACGAAGGAAATTGCCAATCAGCTGTTTATAACCACGGGAACCGTGCGTAATTACATTTCCGTTATTCTCGATAAGCTTGGCGTCAGCAACCGGATCGAAGCGATCACGCGTTTTAAGGAAAAAGGCTGGTTTAAATAA	MIRIVIAEDQRLLLGALASLLDLEEDMQVVGTAGNGKDAVQLVKLHKPDICIMDIEMPIMNGLEAAEEIKGYGCKVMILTTFARPGYFERAVKAGANAYLLKDSPSEELAASIRSIMAGRRIYASELVDEAYSGEENPLTEREKEVLGLIADGKNTKEIANQLFITTGTVRNYISVILDKLGVSNRIEAITRFKEKGWFK				NA	NA	NA	NA	NA
AK002_01256	1221	khtU_1	COG0475	K(+)/H(+) antiporter subunit KhtU	ATGGACCATATGATGTTTGAGGTTGGAACTGCTCTGATTCTGGTTGCTATAGCCTCCGTAATTGCTGGAAAGCTCAAGTTCTCGATCATACCGTTCTTGATTGTGCTTGGGATGCTTGTCGGTCCGCATGCACCAACGATAGGGATTCTTGACTTTAAGTTCATCGAGAGCCAGGGGATCATCGATTTTCTGGGACAGATCGGTATTCTATTCCTGCTCTTTTACCTTGGTCTTGAATTTTCGGTTCAAAAATTGATCAAGTCCGGACGAAACATTGTGGTAGGCGGAACCGTATATGTAGTATTAAACTTCGTGCTGGGTGTGGCTTACGGTTTCGTGATCAACATGCCTCTGTACGAGACGCTGATCATTGCAGGGATGCTGTCGGTTTCCTCCAGCGCCATCGTCGCTAAGGTGCTTGTGGATCTGCGGCGCACGGGGAATGCGGAGACGGAACTCATACTCGGCATGATTTTGTTCGATGATATTTTCCTTGCCGTGTTCTTATCGATTATGTCGGGACTGCTGTTAGGCGGGGCAACATCGATAGGAGCAACGATCCTCTCGGTTTGCATTTCCATAGGTTACATGCTGTTGTTCTTTGTTATTGCGAGAAAAGGTCCGCCCATACTTAACAAATTGCTGAATATTACGTCCAGCGAGATTTTCATTATCGTAGTGTTCTCGTCCATGTTCTTTATTGCCGGGTTTTCGGAGACGCTGCACGTAGCTGAAGCGATCGGCGCGCTGCTGTTCGGACTGGCTTTATCGGAGACGGATCATAGCGAACGGATCGAGCAGCTGGTCATACCTTTCCGTGATTTCTTTGGAGCGATCTTCTTCTTCAGCTTCGGTCTCGGCATCGATCCGACCACGCTGGGGAATGCGTTATGGCTGGCTCTTGGCGCTGTGGTACTGACCATAATCGGCAACCTAGTCGCAGGCATGATAGCGGGACGCAAGGCCGGACTATCGCATAAATCGTCGCTTAACATCGGATTGACTATTATGGCGCGCGGGGAGTTTACGATTATCGTTGCGAATCTGGGACTCGCCGGCGGACTGTCCGCTATGCTGAAACCATTCTCGGCCCTCTATGTTCTGATTCTCGCGATTCTTGGGCCACTCCTGGCGAAAGAGTCGAAGCGCGTGTACCGTGGAATGAATAAAATATTCAAATGGAGCGATCCAGTGGAGAAAGTGAAAAAAAGGAATGCATAG	MDHMMFEVGTALILVAIASVIAGKLKFSIIPFLIVLGMLVGPHAPTIGILDFKFIESQGIIDFLGQIGILFLLFYLGLEFSVQKLIKSGRNIVVGGTVYVVLNFVLGVAYGFVINMPLYETLIIAGMLSVSSSAIVAKVLVDLRRTGNAETELILGMILFDDIFLAVFLSIMSGLLLGGATSIGATILSVCISIGYMLLFFVIARKGPPILNKLLNITSSEIFIIVVFSSMFFIAGFSETLHVAEAIGALLFGLALSETDHSERIEQLVIPFRDFFGAIFFFSFGLGIDPTTLGNALWLALGAVVLTIIGNLVAGMIAGRKAGLSHKSSLNIGLTIMARGEFTIIVANLGLAGGLSAMLKPFSALYVLILAILGPLLAKESKRVYRGMNKIFKWSDPVEKVKKRNA	PGPT0014395_3693	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
AK002_01257	489	khtT_1	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGAGTATTATTCGCGAATCTGATCTGCCGGGTATCGGGAAGAAGTTCCTTATTCAGGCGAGATCAGGGGATAAGCTGGTTGTTGTTATTCATGACGATGGCCGCAGAGAACTGTACCACTTTGAAGATGACGATCCTGAGGAGACCATCTCCCAGATTACCTTAGAGGATGACGAGGCAAGACAAATCGCAGGCATTATCGGCGGCATGACGTATAAACCGAAAGCGCTGGAGACCATCGAAGTGACGCTCGAAGATTTGATTATCGAATGGGCGCGAATCGAGCCGCATTACAAATGCGTGGGACAATCTATTGCAGGGCTTCAGGTTCGTCAACGTACTGGCGCTAATGTATTAGCGATTGTGAACAAGAAAGAGCAGAAAATCAATCCCGGTCCGGACGACATCCTGACAGCGGGATCGACGCTGGTGCTTGCGGGCGAACGCAAGCAGATCAAGCAGCTGAAAGAACTGCTGGTTAACGGCTAA	MSIIRESDLPGIGKKFLIQARSGDKLVVVIHDDGRRELYHFEDDDPEETISQITLEDDEARQIAGIIGGMTYKPKALETIEVTLEDLIIEWARIEPHYKCVGQSIAGLQVRQRTGANVLAIVNKKEQKINPGPDDILTAGSTLVLAGERKQIKQLKELLVNG				NA	NA	NA	NA	NA
AK002_01258	750	kduD_1		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGAAATTGAAAGACAAAGTAGCTATAATTACGGGCGGTGCCGGCGGAATCGGCAGCGGCATGGCTCTGGCCATGGCCAAGGAAGGCGCCAAGGTCGTCATCGTGGACGTGAATGAGGATAAGGGTCGCGAAACGGAGAAAGCGCTGAGGGCATATAGCGAATCGATGTTTATTAACGGCGATATTACGAATAAAGCCTCGATTAAAGGTATCGTGGATGACGTTGTGAGCACCTATGGAAGACTGGATATTCTCGTCAACAACGCGCATGTGTCCAAGCAGGTACCCATTGTGGAAACAACCGATGAAGTGTTGGCATTGTCGTTCAATACCGGATTCTATCCGACGTTTTTTTTCATGCAGGAATGTTATCCTCATCTGAAAGCAGCCAAGGGCAAGGTGATCAACTTTGCATCCGGTGCGGGACTGTCCGGCATGGTGAACCAGGCCTCCTATGCCGCAGCGAAAGAAGCGATCCGGGGACTGTCACGCGTGGCTGCCAACGAGTGGGGAGCGGACGGCATCAATGTCAATCTGATCAGTCCGATCGCGCTGACGCCTGGCGTAGAGCAGTGGAAGCAGGCCTTTCCGGAAGCGTATCAAGAAATGGTCGATAAGATTCCGCTCAAAAAAATGGGCGATCCCGAGCAGGATATCGGTCGCGTGGCCGTGTTCTTGGCCAGCTCCGATTCCGATTACATGACCGGCCAAACGCTGATGGTGGACGGCGGTTCCATCATGCTGAGATAA	MKLKDKVAIITGGAGGIGSGMALAMAKEGAKVVIVDVNEDKGRETEKALRAYSESMFINGDITNKASIKGIVDDVVSTYGRLDILVNNAHVSKQVPIVETTDEVLALSFNTGFYPTFFFMQECYPHLKAAKGKVINFASGAGLSGMVNQASYAAAKEAIRGLSRVAANEWGADGINVNLISPIALTPGVEQWKQAFPEAYQEMVDKIPLKKMGDPEQDIGRVAVFLASSDSDYMTGQTLMVDGGSIMLR	PGPT0005315_163	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CYCLOHEXANECARBOXYLIC_ACID_DEGRADATION,PGPT0005315-badH-K07535	NA	NA
AK002_01259	747	COQ5_2		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAAATCACAGGAATACAAGTCATTTTATGATATCGTAGGAGCCTTAAACGGCTGGGATTTCGGCAAGGTCAGATGTATCTCGGAAGGCGTGGAGTGGAATTTTTACGATGAGGTTAGCAAGCGGTGCACATCATCGGGCGTTCTGCTGGATATCGGCACGGGAGGCGGAGAGAACTTGTTGTCCATCGCCTCGAAGGCGGCATTGCTGGTTGGAATCGATCTTTCCCATGCGATGATAGAGACTGCCCGGAATAACAAACGGAAAGCTGCGGCTTCCAACGTACGCTTTGTCCAGATGGATGCAGGGATGCTTCAATTCCCGGAGGCGTTTTTCGATTTGATTTCATGCCGGCACTCCCCTTTCCGTGCTTCGGAGGTTGCCAGGGTATTAACCGATGATGGCGTGTTTCTAACGCAGCAGGTTCGCGAATGCGATAAAGCTAATCTTGCCCAAGCCTTCGGCAGAGGACAATCCTCCCGGGAAGACGGCGCTTTAATGGAGGAATACAAGAGGGAACTTCAGCTAGCAGGGTTTCGCGATATCCAATGCGCCGAATACGATGCCGTCGAGTACTATGAGCGTGAAGAGGATCTTATCTTCCTGCTCAAGCACACGCCCATCATTCCCGGATTCGGACAGGAGGAATCGGATTTCCGCATCCTGCAGCAATTCATCGAAGAGCATCGCACAGATCTCGGAATCCAGACGAATTCCGCACGGTTTATGATCGTGGCACGGAAATAG	MKSQEYKSFYDIVGALNGWDFGKVRCISEGVEWNFYDEVSKRCTSSGVLLDIGTGGGENLLSIASKAALLVGIDLSHAMIETARNNKRKAAASNVRFVQMDAGMLQFPEAFFDLISCRHSPFRASEVARVLTDDGVFLTQQVRECDKANLAQAFGRGQSSREDGALMEEYKRELQLAGFRDIQCAEYDAVEYYEREEDLIFLLKHTPIIPGFGQEESDFRILQQFIEEHRTDLGIQTNSARFMIVARK				NA	NA	NA	NA	NA
AK002_01260	1185			hypothetical protein	ATGAACAAAATGAATTCTTTGCCAAGGGAGCGTCTTCCCGAGCTGCAATTGGTCCGCGCATTCGCCATTATCGGCGTGCTGTCCGTTCACTCGACCTCGTATGCCGTATCGGCCATGACGGACTCCAAATACTTTATCATCTACAATTTTATGAACATCTTCATGAAATACGGAACGCCGACGTTTATATTCCTAAGCAGCCTGGTACTCTTCTACAATTATTATGACCGTCCTACGACCAAGAAGCTGATCGGCGGATTCTACAAGAAAAGATTGCTGTACATCATCATCCCGTATACACTCTTTTCCGTGTTTTACTTCGGGCTGCTGCACTATCTGCATTATCAAGGCAGGCCGTTTGGCGAGACGATGGAGAGTTTTATTCAAAAGCTGTTGACGGGCAAAGCGTATACGCATCTGTACTTCGTGTTTATCAGCATTCAGTTTTATGTGCTGTTTCCGCTGGTGCTGTGGTTGTTCAAGAAGATGCCGCAGCTTGCAAAATGGGCGATACCGATTGGACTGGTGATCCAGTGGACGTTTATACTGATGAATAAGTATTATTGGCAGGTGCCGAATAAGGGAAGCTGGGCCTTGTCCTATATCGCTTACTTCATGCTGGGCGCTTTTATCGGCATCTATTATCCGAAACTGAAGGCCTGGCTTGTGATTAGTCGTGCCAACGCACAGCCTTACCGGATCGCGGCTTGGACGATGCTGTGGATCGCATGGGCAGCAGCCGGTCTCGGCCATGTGTACATTTATTACAACAACCGTCTTCACGGAACCGGATATAACTCAACGCTGTATGAGCTGCTGTGGAATATGCATACTTACTTTGGGGCGCTTGTCCTGCTCCAGTTCGCCATTCTGTTCTACCGGGCCGGGGTACGCGGATGGACGCCCGCGCTGGAGAGACTGGGGGCCGTATCCTTCGGGATTTATCTCATTCATCCGTTCTTTCTGCTCGTCTACCGTCAATTCCCGCTAACCACGGGGAACTCGATCCTGACCCATCTGTGGTATGCAGGCGGTTTTGCGGCAGCCTTAGGCTGTTCATGGATCGTCGTGGAATTGACGGTTCGATATATACCGGGCTCATGGGTGATTTTCGGTAATATTCCGAAGGCGAAGAGATCGGGTAAACCAACCGATACGCCGGCTGTGCCGCTTTCCGGTTCCTAG	MNKMNSLPRERLPELQLVRAFAIIGVLSVHSTSYAVSAMTDSKYFIIYNFMNIFMKYGTPTFIFLSSLVLFYNYYDRPTTKKLIGGFYKKRLLYIIIPYTLFSVFYFGLLHYLHYQGRPFGETMESFIQKLLTGKAYTHLYFVFISIQFYVLFPLVLWLFKKMPQLAKWAIPIGLVIQWTFILMNKYYWQVPNKGSWALSYIAYFMLGAFIGIYYPKLKAWLVISRANAQPYRIAAWTMLWIAWAAAGLGHVYIYYNNRLHGTGYNSTLYELLWNMHTYFGALVLLQFAILFYRAGVRGWTPALERLGAVSFGIYLIHPFFLLVYRQFPLTTGNSILTHLWYAGGFAAALGCSWIVVELTVRYIPGSWVIFGNIPKAKRSGKPTDTPAVPLSGS	PGPT0022170_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-SURFACE_ATTACHMENT	SURFACE_ADHESION	OTHER_SURFACE_ADHESION_PROTEINS,PGPT0022170-yfiQ-NA	NA	NA
AK002_01261	693	walR_3	COG0745	Transcriptional regulatory protein WalR	ATGTCTGGAGTTACGATATTGATGGTTGACGATGAAACCGAAATTTTGAAATTGATGGAGATTTACGTCAGGAATGAGGGCTATACGCTGCTCACCGCATCTCATGGCCTGGAAGCGCTGGAGATTCTAAAAACGCATAAAGTGGATTTGATCATTCTCGATGTCATGATGCCGCAGATGGATGGCATCCAGGCATGCATGAAGATCCGGGAGGAGAACAACACGCCCATTATCATGCTGTCCGCCAAGAGCCAGGAGATTGACAAGATCGCCGGACTCAGCATCGGCGCGGATGATTACGTGACCAAACCGTTCAGTCCGCTGGAGCTGGTCGCAAGGATCAAGTCGCAGCTCCGCCGGTACAAACAGCTGAACAATCAATCGGTACGGGACGAGAACGAAATCCAGATCGATGAGCTGATCCTCAATGTCGCGTCCCACCGGGTAACGGTGGCCGGCAGGGAGATTAAGCTGACGCCGCGCGAATTCTCCCTGCTGCATACGCTGGCCATCAACCGCGGACTCGTGCTGAGCATGGACAAGATTTATACCGAGGTATGGAACGAGCCGTTCATGGAATCGAAGAATACGGTCATGGTCCATATTCGCAAGCTGCGCGAGAAGATCGAGAAGGATCCGCAGCAGCCGGAATACATTAAGACGGTATGGGGGATCGGTTACAAAATAGAGTAA	MSGVTILMVDDETEILKLMEIYVRNEGYTLLTASHGLEALEILKTHKVDLIILDVMMPQMDGIQACMKIREENNTPIIMLSAKSQEIDKIAGLSIGADDYVTKPFSPLELVARIKSQLRRYKQLNNQSVRDENEIQIDELILNVASHRVTVAGREIKLTPREFSLLHTLAINRGLVLSMDKIYTEVWNEPFMESKNTVMVHIRKLREKIEKDPQQPEYIKTVWGIGYKIE	PGPT0028485_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028485-vanRC|vanRE|vanRG-K18349	NA	NA
AK002_01262	1218	resE_1		Sensor histidine kinase ResE	TTGAAAGGAATGAAGCTTCATAGCATCCGCCTGAAGATGCTGCTTATGCTGCTGGCCAGCATCGGCATCGCGGCCGCCCTGCTTATCATACTTTATGCGTTAAGCACGCTGGTCCTCTCCATTCCGGCCATCAACCCGCCGCTTGCCTGGATCGTCAATAACCTCGGCTCGAAGCCGGTTATGTTGGTCACGGGTATCATTCTTTTTTTGGCAAGCTATTATATGAGCACGAGGTGGTTTGCCCTGGATCTGCGGAAGGTAGAGACCGGTCTTCAGGACATCACGGCCGGACGATTCGATTCCAGAATCGAGCTCGACACCCGGGACGAAGTAGGCGCCGTCGCTGCCGGCATTAACCGCATGACCGAGCAGCTGAACGTTTACCTGGAGGAGATTACGCATGGCCTCCGCGAGATTGCCAAGGGGAATTTCGATACCGAGATTCCTGTTCGCTCAGGCAGCCAGCTGGGCGAGGTCGCCGAGAGCATCAACCAGATGAGCAGGCAGCTTCACCAATCCATTCTGGAAGAGCGCCATGCGGAGAAAACCAAGAATGATCTGATCACGGGGGTATCCCATGATCTGCGGACGCCGCTGACATCGATACTGGGGTTTCTGGAGGTTATCGAGGAAGACCGGTACCAGGATGAAGTAGAGCTGCGGTATTACGTGAATATCGCTTATGAGAAAGCGCAAAATCTGAAGAAGCTGATCGATGACCTGTTCGAATACACGAGGATCAATAACGGACTTCCGCTGGATATCCGGGAGATCGATATGGCTCAGTTCATGAGACAGCTGATCGAGGAATTCGTTCCGTCCTTGGAGAAAGCCGGGATGGAATGCAAGCTTGCGGCGGAGGAAGGCCTCGTTATTCGGGCAGACGGCGCCCAGCTTGTCCGGGCTTACGAGAATCTGATATCCAATGCGATCCGGTACGGAGAGTCCGGGCACAGAATCGACATCGCCGTCCGCAGCGTTGGCGGTCAGGTGAGCATCAGCTTCACCAACTACGGCGATCCGATTCCGGAGCGGGATTTGCCTTTCATCTTCGATCGCTTTTACCGCGTGGAGGCTTCCCGTTCGAAGCAGACCGGGGGTACCGGTCTGGGACTGGCGATCACGAAGAGCATCGTGGAGGTCCAGGGCGGCGAAATCCGGGTTCGGAGCGACCGGCAGCGGACGACCTTTGAAACCCGATTTCCCAAAGTCGTATAG	MKGMKLHSIRLKMLLMLLASIGIAAALLIILYALSTLVLSIPAINPPLAWIVNNLGSKPVMLVTGIILFLASYYMSTRWFALDLRKVETGLQDITAGRFDSRIELDTRDEVGAVAAGINRMTEQLNVYLEEITHGLREIAKGNFDTEIPVRSGSQLGEVAESINQMSRQLHQSILEERHAEKTKNDLITGVSHDLRTPLTSILGFLEVIEEDRYQDEVELRYYVNIAYEKAQNLKKLIDDLFEYTRINNGLPLDIREIDMAQFMRQLIEEFVPSLEKAGMECKLAAEEGLVIRADGAQLVRAYENLISNAIRYGESGHRIDIAVRSVGGQVSISFTNYGDPIPERDLPFIFDRFYRVEASRSKQTGGTGLGLAITKSIVEVQGGEIRVRSDRQRTTFETRFPKVV	PGPT0028480_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028480-vanSC|vanSE|vanSG-K18350	NA	NA
AK002_01263	321			hypothetical protein	ATGGAATCCTTGGATTACTCGAAACGGAACGCCAGGCTCGTGGTGGCATGGCAGATTATGATTGTGATGGTTGGTGTCATTTTATTATCGGGCTGCGCAGAGTTCAGTGCATTCCGTGCTAATATGCAGATTGAGGAGCGATCCATCAGCGGGGCGGCATCAGGAAGCGATCGAGACTCGTCCATTGCCCCTGCATCCTTTATCGGGCAAGTATGGGAGGAGCTATCGGACGGCGTGTCCAATCGCGCCAGAATCATGACAGGGGGGCAAACGCAGAGCCGCAGCGTACCTGATTCAGCCTGGCGAATGAATATCCGCTGA	MESLDYSKRNARLVVAWQIMIVMVGVILLSGCAEFSAFRANMQIEERSISGAASGSDRDSSIAPASFIGQVWEELSDGVSNRARIMTGGQTQSRSVPDSAWRMNIR				NA	NA	NA	NA	NA
AK002_01264	2259	bamB		Outer membrane protein assembly factor BamB	GTGAGTACACGCGTTTCGATCCGTAAGCGACTATTCATCAGAATAACGGCAGCCGCCTGCATTTCACTCATCGGACTTCCGGCTCAGCAGACGCAGGAGGGCGCTCGTTCCGTATTCGCCGATGCTGCCGGAGCCGGGAGCTTTATATCCGGTCAACGCGTCACGCTTCAGCAGAGGGCTGCTTTTTTCCCTAATGCGCTTGGCAAGAACAGCCATCTGAGGAATCTCAAGGCCAGCTATTACGGGGCCAAGGGAGAATCGCTCCGGCTTCACTCCGTGAAGGGGGAAATGGCATTCATCAAGTCCGATTCCCGTGGGGACCTGTGGCTCCCGACATGGTATGTTTCCAAGGAAGCTGCCAAAGTGAACGATATTTCCCCGCTCTCGCTTCAACTGCGCAGCAGCGGCAGCATATACCTGGCTCCCGGAAGCGCGGTGAAATGGCCGGTATCCCAGACGGGAACGTCCCTCATCGCCGTAGCCCAGTGGAAGGACTGGTACGGCGTTATGGTCGCTCCCTCCAAGTGGAAGGAAGATTACCGGATCTACCGCCCGGCGATGATGTGGGTACAAGGAAAGGACACGACAGCCAAGAAGGCGATGCCTGGAGCGCTTCTTGGTGGCAATTCGGAAGTAGCGACGGATGTGGTGCGCAACTTGACGGAGTTTCTTTTTAAGAAAGGGACCCCTTCTTCGTACGTGAAAAAGCTGCTCGGCGAACCGCAGGCGAGGGAGACATCGCGGAATCAGGAATCGAGCTCCAATAAACCGATGATTCTCGGCGAGACCTGGAGATATGAGCAGCGGGATGCCCATTATACGGTGACGTTCTCCCCATCCGGAAAGCTGAGTTCCAGCGAATGGATAATCCCTTCGGCGGGATCCTTCGAGCGGAGTTACAATCCTGGCGATGATTACGAGTTTACCTATCGTCTGGACGTCCTGCCGCTGCGGAAGACCATAACAGCCGAGCCCGATTGGCGAAATCAGGGCAATCTGAACTTCACCTTCCTGCTTGAGGCCAATGAGGATGTCCTGCTCGTCAAGGGAGATGACGGCGGCTTCAGCGGGATGCATGATAACTCTTCCCTGTATGCGATTGACCGGGGCACCGGCAAGAAGCTGTGGCAGGAAGATGCGGGATTCGGCTGGTATACGGCCATTACCGATCGGGAGCGGAAGCATGTCACGATGTACTCGGCATATAACCCGGAGGTTAAGGATTACGTGGCTCGCGTGCGGCATATCCGGTTGTCGGATGGCAACGTGTTATGGGAGGTTAAGCCCAAGAACGAATTCGGCTTGACGATGACGGCTGCGGCCGATGCGATCATACTGGATGAAGCTTTGAACATGAACGAAACCAAAAGCGTGCTGCGCGTCCTGGATCAGGATACCGGTAAGCTGCGTTGGAAAAAGACCTTGTCCGGCGAACACCGCTTGCTGAATGCAGGAACGGGCGATCCGTACGTGCTCATCGAGCAGAACGGACAGCTTACCGCTTATGATCCGGTCACCGGCAAAGCGGCATGGAATGTGAAGGTCGGCAAGAGGGTGATGGACGATCCGTCCCGAGATCCGTATTTTACCGGAGGTTATCGTTACGATCCGACTGCGCCAGCGGATATGACAACACGATGGATGCTGCTCGGCAAGGAATGGGTTCTGTTCAATACGGAAACCGGCGAGCGCGAAGACACATATCCGGCACTTGAGATGGAAAGGTTCGAGGTGCTGAGTGAGCGGTATCTGCTGGTGCAGCGTGCGCTTGGCGGGGAGTATTTCAGCGGGGCCGCCGCTTACGAAAGCGTATTGTATGACCGCCTTGAAGATAAGGAACGGTGGACAATTAAAGGGAAGGCCACCCGTGGCATCATCGAGGGAGCGCGAGTCTATCTTGCTTTGAACGGCATTCCGGCTTCCGTTGATATAGAGAGCGGCAGCATCCTATGGAAGATGGAGACCACTTCCAAAGCGGGTGACGATCTGTCCCATCTGGTTGGCAGCAGCTACGGAATTCTGGATTCGTACCTGCTGATAAGTTTGGGAAGCGATCTTGTGGTGTTGAACAAGGAAGACGGCAGAAGCTTGGGCAGATTGCATAACGTGATCACCGGCAACGTCGATTTGCGAGAGGTATATGCCAAAAACGGAGCGCTGAACGTAACGGATCAGGAAGTGCTCGTCGGCACGGTCAACGGAGCTTTTATTCGTTATGATGCCCGAGCGTTAAAAGAACGCTTGGATGAGCTGTTATAG	MSTRVSIRKRLFIRITAAACISLIGLPAQQTQEGARSVFADAAGAGSFISGQRVTLQQRAAFFPNALGKNSHLRNLKASYYGAKGESLRLHSVKGEMAFIKSDSRGDLWLPTWYVSKEAAKVNDISPLSLQLRSSGSIYLAPGSAVKWPVSQTGTSLIAVAQWKDWYGVMVAPSKWKEDYRIYRPAMMWVQGKDTTAKKAMPGALLGGNSEVATDVVRNLTEFLFKKGTPSSYVKKLLGEPQARETSRNQESSSNKPMILGETWRYEQRDAHYTVTFSPSGKLSSSEWIIPSAGSFERSYNPGDDYEFTYRLDVLPLRKTITAEPDWRNQGNLNFTFLLEANEDVLLVKGDDGGFSGMHDNSSLYAIDRGTGKKLWQEDAGFGWYTAITDRERKHVTMYSAYNPEVKDYVARVRHIRLSDGNVLWEVKPKNEFGLTMTAAADAIILDEALNMNETKSVLRVLDQDTGKLRWKKTLSGEHRLLNAGTGDPYVLIEQNGQLTAYDPVTGKAAWNVKVGKRVMDDPSRDPYFTGGYRYDPTAPADMTTRWMLLGKEWVLFNTETGEREDTYPALEMERFEVLSERYLLVQRALGGEYFSGAAAYESVLYDRLEDKERWTIKGKATRGIIEGARVYLALNGIPASVDIESGSILWKMETTSKAGDDLSHLVGSSYGILDSYLLISLGSDLVVLNKEDGRSLGRLHNVITGNVDLREVYAKNGALNVTDQEVLVGTVNGAFIRYDARALKERLDELL				NA	NA	NA	NA	NA
AK002_01265	342			hypothetical protein	ATGGGCAAGAGGCTTAAATTAGCAGGGCTTCCGGTCATCAGCCTATTGTTGATCCTATGTTTGGGCTGCGGCAGCAAGCAGTCGGCCAGTTATGCGTCTCTGGTAAAATACGACGACCAAGAGTATATCGGAAAAGGCACTGAGGGTGCCGAGGCTTTTGCGGAGGCGGATTTGACCTTGGCGGGCACGATCCAGAAGCGGCTCGAGCCTGATCAATATCCGGATACGCATTTATCGTCGAACGAGCTGCCCGAAGGCACGGAAATCTATGTCGTCGATGAACATACGTTGGTGGCTTTGCAGGAAGGCCGAAGATTCAAGGTGTTTGAGCGCATGGAATAA	MGKRLKLAGLPVISLLLILCLGCGSKQSASYASLVKYDDQEYIGKGTEGAEAFAEADLTLAGTIQKRLEPDQYPDTHLSSNELPEGTEIYVVDEHTLVALQEGRRFKVFERME				NA	NA	NA	NA	NA
AK002_01266	3729			hypothetical protein	GTGAGGTCTAAGAAAAACCGAATGATTCCATGGCTGTTGGTATTTGCTTTATGTCTGAATGGATGGAATCCATTCATGGCATCAGCTGAGGGAGTTCAGCAGCAACCTAACGAACAAGAAATGGTACCGGAAGTAGTGGCGCCGCCCAGCGTTACGGATGCTGTATATCATAATTCAAATGTAGAATTGCTTGCAGATAAAAGAGAGGTAACTTTATATCCAGGCGAAACCTACAGATTTCATAATACATCTACTTCAACAAGGCTGATTTCGAGTAATGGATCTTCTTCAAATGGTGTTGTATATGACTATGTAACCTTTAATGCCGATGGAAGAATTACAGGCGAGGAACTAAATCACGGCGGGAATGTTTCTCAGTCAAAGGGGGCGTCCACCATCATTACGGTTTCGGGCATGTTCCCGGTTACATTCTCCATTTTTCCTGAGGTGACATATTCCGTGTCCTCGACACCGGCGCTCCATCGTATAACACTTCAACAGGGAGAAAGCTATATTTTTACGAATGAAGGGAACCAGTCCCTGAATCTGCTAAGCGATGCTTCGAGCAGCCAGGAAAGGCGATACGATTATGCTGAATATGCCACCGACGGCACATTAGATAGCTCGGACTTTAACAGTGTCTCAACTCCAGCGGTCGGCCAAGGGAATGAAATTATTATAACCGGGGCTACGCTCAACCCGGTTACCGTAGGCTTTCCATACGATATGTTTAACGGCGAGCACAGCGCGGAACCGGCATATGCGAGGGTTACATTGAACCAAGGACAAAGCTATCAGTTTACGAATGTCAGCATGAAAACGGATACGCTTGAAAGCGATGGAAAGTCCAGCGACCGTTTCGATTATGTCGTCTATTTACCGGATGGGACCGAATATTCAAGAGGAACGAATACGTCTAGTGAACCTAGCGTTGCAGCAGGTCGTACAGCAGTACTGACGATGGTTACGGCGACCCCGGTTACATTTGGCGTTCCATACCGAACGTTTGATGTACGGCCCACAGGAGGCAGTGCCATTAGCCGTATAACCGTTTATCCGGGGGATACGTATGTTTTTTATAATAATGGATCGCTGACAAACCCCATCCGGAATGATGCAAGCAACGTTGGCGGTTTATTTGACTACGTCATTTACAGACCCGACGATACCATATACAGAAGCGGATTTAATCAAAAGGGGAGCCCAAGCATTCCTTCATTGGGATATGCCATTGTCACGAACATAGGAAATATGCCCATCGTGTTTGACTATACCGATGATTTTGCAGTAGAAGGCAGTGCGGAGCCTGCATTTGAGAGGGTGACTTTATATCGAGGGGAAAGTTACGAGTTTACGAATATTAGTAGCAGTCTCGAATATTTGGACAGCGACGCTTCCTCTTCGTCCGGTCGGTTGTTTGATTATGTTACTTATTACGAAGATGGGACTGAACGTTCGAGGGGACAAGCGACAAGTGTTGAACCTAAAGTCTATCCGAATAACAAGGCGGTCGTAACTGCAGTGTCGGATAACCCGGTGACTTTTGGGGCCATTTATACCGTGTTCCAAGGCGGGGGAAGACCCAATGAAGCGATCAGTCAAATTACCCTTAATCCCGGCGAGTCCTATATATTCCGTAACCATGGGACCTTGTCGAATCCCATCATGAATAATGCCAGCAAAGTAAACGGAATATTTGACTACGTTATGTATAAAGCGGATGGTAGTCGATCTTCGGACGCCTTTAACCGAAGCTCCAGTCCGCAGGTACCGAAACAAGGCTATGCGAACGTCACGGTTGCCGGTACCCAACCTATCGTGTTTGATTATACGGACGATTTTACGGTGGAACCAAGTACAGAGCCTGCTTATCTGCGCGTAACCTTGTCCAAGGGAGAAAGCTTCTCGTTCACCAATGTCAGCACAGAAAGCGAGTATTTGGATAGTACAGCTTCCTTAGCGGGTGGTCGTAACTTTGATTACATCATCTATGATGCAACGGGAGCAGAACATTCACGAAGAACGGGAGCTACGGTGGAGCCTAAGGTGCCTCCAGGCTATAAAGCAGTCGTAACGACGGCTTCAGACGAACCTGTCAGTTTCGGTGGTCTATACCGTGTATTCCGCGGACAAGATGATCCGGGCGAGGTAGTTGAGCATCTCACAATAAATCCAAATGAATCCTATGTTCTTTATAATAATGGACCTGACGTTGAGCTTCGCCACAATTCGGATCAGGTCGGTGGAGTCATGGATTATGCGATATATCGTTCGAGTGGGGAGCTTTTCTCGGATGGGTTTAATGCATCCTCAAGACTAGAAGTTCCATCCCAGTCCCATATCGTAATCACAAATCCTTCCTCTGTTCCGATCCTTTATGAGTACTCAGGAGATATTACCGTCGAAGCAAGCACAGAACCCGCATTCCACAGAGCTACACTGAATCAGGGACAGAGCTATCAATTTACGAATATCAGTACGATTGACAAGGCAATCGTAAGTGAGGCTGTACATGGTGGCCGTACGTTCGATTATGTTCTCTATGATGGATCCGGCGTGGAAATCGATCGTCGAACAGGTACCAGTATGGAGCCTGTCGTTGCGCCTGGAAATAAGGTGATCGTGACGGTTTCTTCGGACAGACAAGTTTTGTTTGGAGCCGTATATCGACTCTTTCAGGCAGAACCTGCTAAGGAGCCGGTGGGAGAAAAAATAACCGTAAGACAGCATGAGAGTGTGATCTTTACCAATCCGGGAACCACAAGTCAAATGATGAAATCGAACGCTCTTGAAGGAAAGAGCTTCTACGATTATGCAGTATACAGCCCAGGGGATAAACCGGAACAAGCTCAAATCAATTCAATAGATCAGGAGATTGTCATTCCTGGAGGCGGTGCCGTCGTAGTAACGGTAAACTCAGCGGAATCCATTACCTATGAGTATTCGATACCCGTTACTGCAGAGGCTAGCGATGAGAAGGCGTTACTTAAGAAGGAACTGGCTGCTGGAGAGATGGGAAGGTTTACGAATACGGGGCAATTTGAAGCCAAGCTGCTGACGGATGCATCTGTTGTCTCTGACCGGTATTATGATTATCGGCTGCTGGACGCGACCGGAAACGTTTTGAAAGAGGCAACCGGAACGGATGAGGAACAAATCGTGCCAAACGGTGCACGACTGGAAGTGACCGTATCATCATCAGAGAACGTACTTTTTGCGGGACCATCCAGAAGTTTTACATTTACTGAAATGACGGATCCGTTTATCGACCTCGTGGAGCGGAGAGCAGAAGACATATACTTAAAAGAGAAGCAGGAGAACTACTATCGATTTAAACCGGAGGCGGATGGATTATACCGATTTGTTGTCAAGGAAAGCAAGAACTTCGAGAAGGAGCCTCAAGTGATATTGTACGCTGATGCTGGATTGACCGATGAACTGGCTACGACTGTTGGCCAAGAGAGAGAGCACGGTTGGGATTACACCGTCTTGGAATGGGAGCTGAAAGCGGGCCAGGTTTACTATTTAAAATTAGTAGAGAAAGATGGGGTTGCTCTTGAAGGGGTGATCAATTCTGCTCTTATGCTTCTTGCCGCGGAAAACAAGTATCACTATGGCTCAAATAACCGGCTTTCTAAAGTGATTCTCCGTACAGGAGATGAGATTCTATATGAATACGACAACAATGGCAATGTAACGAAGCGAAGCAAAAAGGTATTTCCATTCTAA	MRSKKNRMIPWLLVFALCLNGWNPFMASAEGVQQQPNEQEMVPEVVAPPSVTDAVYHNSNVELLADKREVTLYPGETYRFHNTSTSTRLISSNGSSSNGVVYDYVTFNADGRITGEELNHGGNVSQSKGASTIITVSGMFPVTFSIFPEVTYSVSSTPALHRITLQQGESYIFTNEGNQSLNLLSDASSSQERRYDYAEYATDGTLDSSDFNSVSTPAVGQGNEIIITGATLNPVTVGFPYDMFNGEHSAEPAYARVTLNQGQSYQFTNVSMKTDTLESDGKSSDRFDYVVYLPDGTEYSRGTNTSSEPSVAAGRTAVLTMVTATPVTFGVPYRTFDVRPTGGSAISRITVYPGDTYVFYNNGSLTNPIRNDASNVGGLFDYVIYRPDDTIYRSGFNQKGSPSIPSLGYAIVTNIGNMPIVFDYTDDFAVEGSAEPAFERVTLYRGESYEFTNISSSLEYLDSDASSSSGRLFDYVTYYEDGTERSRGQATSVEPKVYPNNKAVVTAVSDNPVTFGAIYTVFQGGGRPNEAISQITLNPGESYIFRNHGTLSNPIMNNASKVNGIFDYVMYKADGSRSSDAFNRSSSPQVPKQGYANVTVAGTQPIVFDYTDDFTVEPSTEPAYLRVTLSKGESFSFTNVSTESEYLDSTASLAGGRNFDYIIYDATGAEHSRRTGATVEPKVPPGYKAVVTTASDEPVSFGGLYRVFRGQDDPGEVVEHLTINPNESYVLYNNGPDVELRHNSDQVGGVMDYAIYRSSGELFSDGFNASSRLEVPSQSHIVITNPSSVPILYEYSGDITVEASTEPAFHRATLNQGQSYQFTNISTIDKAIVSEAVHGGRTFDYVLYDGSGVEIDRRTGTSMEPVVAPGNKVIVTVSSDRQVLFGAVYRLFQAEPAKEPVGEKITVRQHESVIFTNPGTTSQMMKSNALEGKSFYDYAVYSPGDKPEQAQINSIDQEIVIPGGGAVVVTVNSAESITYEYSIPVTAEASDEKALLKKELAAGEMGRFTNTGQFEAKLLTDASVVSDRYYDYRLLDATGNVLKEATGTDEEQIVPNGARLEVTVSSSENVLFAGPSRSFTFTEMTDPFIDLVERRAEDIYLKEKQENYYRFKPEADGLYRFVVKESKNFEKEPQVILYADAGLTDELATTVGQEREHGWDYTVLEWELKAGQVYYLKLVEKDGVALEGVINSALMLLAAENKYHYGSNNRLSKVILRTGDEILYEYDNNGNVTKRSKKVFPF				NA	NA	NA	NA	NA
AK002_01267	5091			hypothetical protein	GTGTTCAAAAGAGGATGTATAGTTGTTTTATGTATAAGCTTATTATTGGGAAATATGGGCTCTTTGGTATATGGAGACAGCGGCAAGGTTACAGCCAAGTCAAGAGAGATTTCTTCACCTGCGATTACGATTCCGATGTTGGCCCAGCAGTATGGCGTAGACACCGCTTGGGTTCAAGAAAAGATCGCGGATGGATATACCTTGTATCAGATATACTCATCTCTTAGTGGTAAGAAGAGCTCAAAAGCAGCCGATACCGTTCTGGCCAATATACAGGTACCGGATGTTGTGCAATATGATGAGAAGGCTGTGGTGTCATCATTAAAAAGCTTGGCTGAAGATTCAAACGGCGTGGACGAGGCGGCTCTTGAGCAGGTACGAATCCATGACGACTCGTCGGCCTACTTCAACAGCTATGATCAAGATTCGGTCTCCATGGCTACCGGTGATTTGAATTATGCGAGCGTGGACTTGGAGCTTCCCGGTATGATCCCGTTCTCATTAACACGGGTATACGACAGCTCGAAGGCGAACGAAGAGATCGGGATCCGTCAGGATGAGGTAACTGGACAGGCTGTGAACGATGCTCGCATGCGAAGAGAGGAGACCTCTTCAGCCTTAGGTCGAGGTTGGAGATGGGACCTTCCCCATATTCAAGAGAATAGCGGTAAACGCTATTTGTATTTTCCTGGTGCGGGCTCCTTCGCCCTGTCCGATTCATTAGACATTGTAGGGTATAGTTGGAATGACATGGATCTGGTAACGGATCAAAGCGTAACCGTGAATGGACAACCAAGTGAATATAAACTGACGGTTCTCAATGATTATGTTTACTACTTTGATGCTCAAGGTTATCTGCTACAAATTAAGGACAACTATAACAATACGGTGAGCTTTTTATATGATCAGATGCCCGAGGGTGTTGTATTAAAGCAGATTTCGAATAGCGAAGGAAATACTCTCCAATTCAGACATACTACATTGAGTCTTTCTGTGATTTTGGAGGGAACGGACCAAAGCGTGGAATATCGCAAGGTTCAGAAGGAAGGCTATACGCTTCTGGCAGAGGTTGTCGACTCACTGTCTCGAAGTACTTCTTATGTGTACAACCATCCGGTGTCGAAGTTTAACTTCCTATCCGGGCTGGTGAGCGTGCCTGAACAGCATGAAGCTGACGGAACGGTTTTATTGACTCGTATCGTGTACCCGACATCCCGGATCACCGATATTCAATATGAAGCTTCATTGAAACAGATTGGGGATTATGCAACCAGGCATGTTTTTAAGGTCAGCTCCCGCAAGGATACATTCAGTTCGACATCGGGAGAAAAAATACTCGGTTCCCGCAGCTTTGAGTATACGGGTGAAGACTTGAATCGTTATGGTCGAGATGTGAACTGGACCACGACCGTAAGCAGCAGTAAATGGGACGAAACGTACAAGCTGAGCAGTACCTTTGAGGGAAACTCAAGCCCAGCGCTTCATTACTTGCAGGAATATCGCCAATCGGGAGATTCGGTTAGTTATATCGAAGAGTATGTCTATGATGAGACAAACAAACGAAATGCACCGCAGCAGATCCAAGAACGATATGTTCAAAATGGTGCGGCTTCCGCGCCTGTTTCCACGTCGTATACCTATGATGAATATGGTCTCATCACATCGGAGAGAACAAGCACCGGCCAGGAAACAAGCTATGAATACCAGCATATGACGGGTACAGCAGAGTGGAAGGAACCTTCCAAGGTAACCGTCAAAATGAACGATACACAGTCTCAGGTTACACAGTTTGAATATGACGGGCAGGGCAGTGTAACGAAAGAGGTCGTGTCCCAAGGAACGGGCGGAACACCGCTTGCTCAATCTGAGTATGAGTATGACACGTACGGCAACCGGACAAAAACCAAAGTCAGGGATGATTCACGATTTATTGAACAGACGTACAAGTACGAGTCCCCGTATGGACGTCATCTGCTGACAAACCAAAGCATGGTCGTGAAGGACGCTGCCTCACGGTCCTCCGTCATTACGACGGACTATTCATATTGGCCGACAGGACAGCTCAAGAGCCAGAGAGATAGCGACGGAAACGTGCAAGCGTACACTTATGATAAATGGGGTAGAATCACCCAGCTTCAATATAGTGACGGCACGCTTTCGAGCATACGTTACGATGATGCATTGAATCGCGTCACTCAGACAGCTGCTGATGGCGTGATTACGACGGAGCAGTATGATCCGTTTGGGCTGCTGGTACAGGAGAAGACGCATGATGCGTTATACGAGTATGAATATGATGATGAAGGCAACATGACGGAAGTGACCGATGCCGAAGGCAACACGACGAGCCTAACGTATGATGCTTTTGGAAGAAACACGAAAACGGTATACGCTGATGGAACCAGCAGTAGCACAGATTATAAGGTCGTGGAACGGACAACCACGTATAGCGACGCTGCTGGAACCAAACAGCGCGAAACCTATGATGTACTGGGAAGAACAACATCAACGCAAGAGTGGAAAAATGGAGGATTTGCGCCGCTTCAGCATCTGGAATACGATCTGCTCGGTCAGGTGACGGCATCCATGGATGGCAATCAGCAGCGCACCGAGTATACGTACGACGTGCTGGGCCGCTTGACCTCGGTGAAGGATCCGAAGGGAGAGGTTACTCGCTATACTTATAGTATGGCTGGTGATTTGGTTCAGATCGTAATGCCTGATAAACAGACGGTAACGAAGTCGTATGATGAGATGGGCCGCCTGATCAGCCAGACCGATATGGCCAATCAAACCACGGTCTACCATTATGATAATCGTAGTAATGTCACGCAAGTGGTGGACCGTAAGAACCAAATCTATAACTACGGTTATGACTCCGAGAATCAGCTGATTTCAAAGAGCGGACCGGATTTCTCGGTGAATTACACCTATGATGACGCAGGCCGCCGGACTAGTATGACCGATCCTACGGGTAAGACAACGTATTCTTACAATCCTGAGGATGGAACGCTGAAGGAACTGGAGTTTCCGGACGGAACCAGGGTGTCCTATGAATATAATACGCAGTCGAAAACTGGATATATCCTGACGGACGCTGCCGGAGCATCTATTCGTATATCGTCAGAGCTCGATGAAATGAACCGGGTCTCGGCGATGGATATCAGCACCGGAAGCAGTGGACCTTCCTTGATGTCTGCTTCTCCGCTTGATCGAATGACCTTTAAATATAAGGCTAACAGTTTGCTGGAGCGCAGAAGCCTTGATAGTGGACTCAGTACCGGTTTTAACTATGACGGATATGACTTGTCAGGCGTAACCGTTCAGCAGGGAAGTACATCCGTACACGAATTCGGATATAGCTATGACCTGAACAAAAATATCATCTCCCGCACCGAGAATGGAACGTCAGGACAATTCACTTATGACCCGCTGAACCGGATTCAGACGGAAACGTCAGGTGATAAGAATTTAAGTTATACGTATGACGCTAACGGGAACCGGCTGGAGCAGGGAAGCGGCAAGATTTTCGGCCTTAAGGAAGCAGATTATACGTTCGACAGCCAGAACCGGTTAACCCAGGTGGCAGGGGAAGGCAAGGAAGTCAGCTACACCTATAACGGAGACGGATTGCTCTATGAACGTAAGGAAGGCACGGATACCACACGTTATTACTATGATGAGGAAGCCAAACTGATTGCGGAAGCGGAAGTCACCGGAAGCAATGTTACCCTTACCTATGCCTATGTCTATGACCTGTACGGTCAGTTAACCGCAAGGCAGGACCGAGCCTCCGGGAAGCTGCAGTATTACCAAATCAACGGTCACGGCGATGTCGTCGGTCTGGTGGATGAGCAGGGTACGCCGCTAAACAGTTATTCTTACGACATATGGGGTGGCCCAGCGGAAACCGAAGAAACTGTCCCGAACGTGATGCGCTACGCCGGCGAGTATTGGGATGATACGACGGGACTGCAGTACTTGCGTGCCCGCTGGTACGATCCGGGAACGGCTCGGTTTATGGGGGAGGATACGTATGAAGGGGAAATGGATAACCCGTTAAGTTTAAACGGGTACACCTATGTCGAGAATAACCCGCTGATCTACGTCGATCCTACCGGAAACAGCAAAGCATCAGCCAAGTCTTGCTTGCTCCTATGTTTTGCTGCGGGAACGATCATAGAAACGCAAGACGGACCGAAAGCGATCGAAGAGATTAAAGTCGGAGATTATGTGCTGGCCCAGAGTGAAGAGACCGGTGAACTAGATTATAAGCCGGTAGAAGAGACTTATCATCGGGTAACGGAAGAAACCTATCATATCCAGGTGGAGGATACCGTCATCGTCACGACGGCAGAGCATCCATTTTGGGTGATAGGGAGAGGCTGGGTCGAATCCAGAGATTTAAAAGCAGGAGATCGGCTTGTCAACGATGAAGGAATAGAGTATGTCATTGAAAAGATCGAGATCAAGCAAGAAACGATCCGAGTATACAACTTCAGCGTTGGGGACTACCATACGTATTTCGTAACGGGACTCAAGCTATGGACCCATAACTGCGGTGGAAGTGGAGGCCGAGGCGCTGGCGGGGGAGCCGGAGGCAGCGGAGGGTTTGTGGCAAGACCTGGCGGTGGCGGAGGAACATCCCTACCTAAAAAGGTAACGAGCCCGAAACAGAAACAGAAGCCAGTCGTTAATTTGACGCAACTGAACAAGCAACTTCAAAAGGCCATTGCACAATTCCAAAAGAATCGGAGTAAGGGGCCAGGAATTTCTCTAGTTAAGGATACTGGTAGCATTTCCAAAAACACTGCCAACTTAAGGTCTTGGGCAGAACGAAATGGTTGGGTGAGACAAGATACTGCTGGTGGTGTTGAACAATGGGGAGTAAGGGACGCCACTGGGAAATTTAGCTGGAGATTGAAGTTGAAACCTGAAGTAAGTACAAGGGAAGGGCTAGGAACAGGAAGTAACCAACCCCGTTTCGATGCTAGGCTAGACGATAAAGGAACACCAACATCATACATTAACCCGTTTACAGGAGAACGCGGCGGTAAGAGTATTGGTACCCATATTCCATTAGGGAAGTGA	MFKRGCIVVLCISLLLGNMGSLVYGDSGKVTAKSREISSPAITIPMLAQQYGVDTAWVQEKIADGYTLYQIYSSLSGKKSSKAADTVLANIQVPDVVQYDEKAVVSSLKSLAEDSNGVDEAALEQVRIHDDSSAYFNSYDQDSVSMATGDLNYASVDLELPGMIPFSLTRVYDSSKANEEIGIRQDEVTGQAVNDARMRREETSSALGRGWRWDLPHIQENSGKRYLYFPGAGSFALSDSLDIVGYSWNDMDLVTDQSVTVNGQPSEYKLTVLNDYVYYFDAQGYLLQIKDNYNNTVSFLYDQMPEGVVLKQISNSEGNTLQFRHTTLSLSVILEGTDQSVEYRKVQKEGYTLLAEVVDSLSRSTSYVYNHPVSKFNFLSGLVSVPEQHEADGTVLLTRIVYPTSRITDIQYEASLKQIGDYATRHVFKVSSRKDTFSSTSGEKILGSRSFEYTGEDLNRYGRDVNWTTTVSSSKWDETYKLSSTFEGNSSPALHYLQEYRQSGDSVSYIEEYVYDETNKRNAPQQIQERYVQNGAASAPVSTSYTYDEYGLITSERTSTGQETSYEYQHMTGTAEWKEPSKVTVKMNDTQSQVTQFEYDGQGSVTKEVVSQGTGGTPLAQSEYEYDTYGNRTKTKVRDDSRFIEQTYKYESPYGRHLLTNQSMVVKDAASRSSVITTDYSYWPTGQLKSQRDSDGNVQAYTYDKWGRITQLQYSDGTLSSIRYDDALNRVTQTAADGVITTEQYDPFGLLVQEKTHDALYEYEYDDEGNMTEVTDAEGNTTSLTYDAFGRNTKTVYADGTSSSTDYKVVERTTTYSDAAGTKQRETYDVLGRTTSTQEWKNGGFAPLQHLEYDLLGQVTASMDGNQQRTEYTYDVLGRLTSVKDPKGEVTRYTYSMAGDLVQIVMPDKQTVTKSYDEMGRLISQTDMANQTTVYHYDNRSNVTQVVDRKNQIYNYGYDSENQLISKSGPDFSVNYTYDDAGRRTSMTDPTGKTTYSYNPEDGTLKELEFPDGTRVSYEYNTQSKTGYILTDAAGASIRISSELDEMNRVSAMDISTGSSGPSLMSASPLDRMTFKYKANSLLERRSLDSGLSTGFNYDGYDLSGVTVQQGSTSVHEFGYSYDLNKNIISRTENGTSGQFTYDPLNRIQTETSGDKNLSYTYDANGNRLEQGSGKIFGLKEADYTFDSQNRLTQVAGEGKEVSYTYNGDGLLYERKEGTDTTRYYYDEEAKLIAEAEVTGSNVTLTYAYVYDLYGQLTARQDRASGKLQYYQINGHGDVVGLVDEQGTPLNSYSYDIWGGPAETEETVPNVMRYAGEYWDDTTGLQYLRARWYDPGTARFMGEDTYEGEMDNPLSLNGYTYVENNPLIYVDPTGNSKASAKSCLLLCFAAGTIIETQDGPKAIEEIKVGDYVLAQSEETGELDYKPVEETYHRVTEETYHIQVEDTVIVTTAEHPFWVIGRGWVESRDLKAGDRLVNDEGIEYVIEKIEIKQETIRVYNFSVGDYHTYFVTGLKLWTHNCGGSGGRGAGGGAGGSGGFVARPGGGGGTSLPKKVTSPKQKQKPVVNLTQLNKQLQKAIAQFQKNRSKGPGISLVKDTGSISKNTANLRSWAERNGWVRQDTAGGVEQWGVRDATGKFSWRLKLKPEVSTREGLGTGSNQPRFDARLDDKGTPTSYINPFTGERGGKSIGTHIPLGK				NA	NA	NA	NA	NA
AK002_01268	333			hypothetical protein	ATGAAGAAGGAAAAACTATTGGAAATATTGAAAGACCCAACTGCATCAGATGCAGAAAAAGATGACGCAGTAATTGAATTAGGAATCAATTTTCAAGATGCTGAGACAGTGGACATTTTAATACAATTGTCCAATGACAGTAATTATGATGAGATGATTGCAGCTAGCTGCGGTGAGTATTTAGGTTATATTTGGCTAACTACACAGCAAATAAATTATGAAAAGTTATCTCATCTAAAAGGCATTGCCTTGACAGAGGCTCTTTCCCAAATAAAAGCGCAACGCCCTGATTGGTACGAAACATATATGGAATTGTATCCTCAATCAAGGTAG	MKKEKLLEILKDPTASDAEKDDAVIELGINFQDAETVDILIQLSNDSNYDEMIAASCGEYLGYIWLTTQQINYEKLSHLKGIALTEALSQIKAQRPDWYETYMELYPQSR				NA	NA	NA	NA	NA
AK002_01269	129			hypothetical protein	ATGCAAAATAACGAGGAACGTGATTGTGTTAAATTTTTTAAGTATAGTCAAGATGATATTTTAGAAATTTTGACGGAGTACATCGCAAAAGAGCATGGCTATGGAACATTTTTTCTAAAGCTGAATTAA	MQNNEERDCVKFFKYSQDDILEILTEYIAKEHGYGTFFLKLN				NA	NA	NA	NA	NA
AK002_01270	336			hypothetical protein	ATGATTAAACCAGTATTAGTTTCATTTACTGTTATCAGCGAAGAATGGGGAGATGATATCGAAAATTTTGCTGTTGAAATACAATTAGATATCGGCCCTTATAATTCAGAAGGTGCTGATACTTTTTCTTTTCGTGTAGTAAGTCCTAAGAAATTGGAGCAATATCTTGACGGAAACAGTGTAGAATTTGGACGGGGAATATTTATTATGAAAGATTACAACATTAAAAATATTCAATCTGAGGTTAAAAGGCTAATTGAAAATTGCCAAGGAAATTCATGGAGAGAGGTTGCTCTTTTATTATCGAGATATTTTCATTGGGAGTATGAAGAGTAG	MIKPVLVSFTVISEEWGDDIENFAVEIQLDIGPYNSEGADTFSFRVVSPKKLEQYLDGNSVEFGRGIFIMKDYNIKNIQSEVKRLIENCQGNSWREVALLLSRYFHWEYEE				NA	NA	NA	NA	NA
AK002_01271	2310	yesS_3	COG2207	HTH-type transcriptional regulator YesS	ATGAAGCGAAGGACACCGCCTGACCGCTTGGCTGAGCCGGGGGCCGCCGATACTCCGCCTCCCAGAAGGCACACCCTGTTTTGGAGAATGTTCGCGAACTATTTTCTCCTTATTCTCATCCCCGTCATTGTTGCTTCGGTTCTTGCTCAGGTGCTTGTCGTTCGCATCATCGAAAAGGATGCCGAGCGTTTCAACCAAGTGGTGATGAACCGGTTCTCCGAGCAGACGGATGCCGAGCTTCAATCGCTAAAGACAAGCATGATTAATATCCTGAGCACATCCAGATTACGGAGCGTGCTGCTCGCTCCCATGTCTTCGTCGCCGGAAAGCCAGCTCCTTCCGGAGCTGCTTCATTCCCTGCGGGAGCAGCTGCAGCAGCTGGAATCGGACGAATTGGTTGAGAAGGCTTATTATTATTTTGTCCATCAGGATTTAATGATCGATGCCGAAACCTATACGAATAAAGCGTATTATTTCCGTTCCCGCTATCCCTTGGATCTGAACCGCCGCCACCAGCTGGAAGCCGAATTATCCGGCAAGAAAATGATGGATTTCATGGATTCCCCGGCTTCCGTAACGGCTTCCATGAGTTACCCGTTCAATACCGCCGCCCCTGAAGTTTATCTCCTGGTCGAAGTGAAGCGAGACAAGCTTGAGGAGCGGATTCATATTCCGGAGAGCTGGGTCACGGGCACGGCCATTGTGGATGATACTGCCCAAGTGATCGCACGGACCGGTCTGACCGAGCAGGACCAGTACGCCCTGCAGCAGCGAATACGCACGGATGGTTTCGCTTCGCAATTTACGATATCGGACAAGGTGGGGCTGTCCTTCATGGCGTCCGGCTTCAACGAGTCTTGGCATTATATCAGCATGGTTGATCTAGGCACATTGATGAAGCCGGTCCATATTACCCGTTTAATCTGCTGGTTGTTCCTCCTGTTCTTCCTCGTTGTCGGCGCGTTCGCCTCGTATTATTTAAGCCGGCGCTTGTACCGGCCGATTCGGGAGATCAAGGATGGCTTGAAGCTGCACCATGCTCCGAATGAAGAGGGCCGTTACGAAGGCAACGAGTTTGACGTCATCAAACGCTACTCCCAGTTCATCATGACCGAGAATAAAGAGCTGTACCAGATGGTGAACGGGATGCTGCCGATCGTGCAGGAGCAGTTTTTCACGAAAATCCTGCTGGGGCAATACCGGGATGCCTTATCGATTGAGTACTACGCCAAGGAGATTGAGTTTGCTTACAGCCATAAGGCGGCAAGAACCGTCCTGTGTATCTCTTTCCACTATGACCGGTCGTTTTATGATGCGACTTCGGAATCCGCCAAGATCTTTTTGCTGTCCGAGCTGAAGGACAAGATCCACCGGCTGGCGCCCGGCATGGTCTGGATCTGCCAGACAAGGCCGGATTTGATGGCTTGCGTCGTCCAGCATGATCACATCACGGAGGGGTATCCGGAGCGAATAGCGGAGCAGATCAGGCACATTTTTCTGGATTACGGTGTCTATTATAAAGCGACGATCGGGATCGGCAGAACCGTTCATGCCATCGAAGAGCTGCATCAGTCCTATGAGCATGCCCTGGCCATGCTGAATTACCGGGGGCTGCATTCCACGGTGGAGATTTGCGGCAGTCTTCCTTCAAGGGAGCTGCAGCAATGGGACTCTTTCCTGTCCGTGCAGGAGGTCCAGCGGATCCACAACCAGTGCAAAACCCGGGAGTATGACAAGCTGCTCCAATCCGTGCTGGATATTCTGGAGGAAGGGAAACGCAAGGATGCGGCAGCCGTGCAGATGAAATATCTGCTCGCCGATGTGCTCAACACCTGGATTCGGGCGGTGGAGTCGGAGCGCAATGAATTGAACGTTCCCTATTATTCCGGTCTGTTCGAGCGAATGAATCGCTGCATGACATGGGACGAGCTGACGCAATGCTTCCAGGACATTCATGGCTTTCTGTTCCGGAAGCCGGCCTCCAGCAGCCGCAGCCAACAATTTATGGAGATATTGGAGTACATTCACGAGCACTACGATCAAGAGCTGTCGATCGAGCATTTTGCCGGCATGATGAATATGTCCATCGGGCATTTCAGTCGAACCTTCAAGGAAGAGGTCGGCGAGAAGTACGTGGAATATATTGCGAAGTACCGGCTGATGAAGGCAAAGCAATTTTTGCTTGAAACGGATTTGAAAATAGACGAAATCGCCGAAAAGGTGGGGTATTGGGGGAGGAATTCCTTGATTCGGGCTTTCCGCCGATATGAAGGCATAACGCCTGCCAAATACCGGAGTTCCCATCAGTAG	MKRRTPPDRLAEPGAADTPPPRRHTLFWRMFANYFLLILIPVIVASVLAQVLVVRIIEKDAERFNQVVMNRFSEQTDAELQSLKTSMINILSTSRLRSVLLAPMSSSPESQLLPELLHSLREQLQQLESDELVEKAYYYFVHQDLMIDAETYTNKAYYFRSRYPLDLNRRHQLEAELSGKKMMDFMDSPASVTASMSYPFNTAAPEVYLLVEVKRDKLEERIHIPESWVTGTAIVDDTAQVIARTGLTEQDQYALQQRIRTDGFASQFTISDKVGLSFMASGFNESWHYISMVDLGTLMKPVHITRLICWLFLLFFLVVGAFASYYLSRRLYRPIREIKDGLKLHHAPNEEGRYEGNEFDVIKRYSQFIMTENKELYQMVNGMLPIVQEQFFTKILLGQYRDALSIEYYAKEIEFAYSHKAARTVLCISFHYDRSFYDATSESAKIFLLSELKDKIHRLAPGMVWICQTRPDLMACVVQHDHITEGYPERIAEQIRHIFLDYGVYYKATIGIGRTVHAIEELHQSYEHALAMLNYRGLHSTVEICGSLPSRELQQWDSFLSVQEVQRIHNQCKTREYDKLLQSVLDILEEGKRKDAAAVQMKYLLADVLNTWIRAVESERNELNVPYYSGLFERMNRCMTWDELTQCFQDIHGFLFRKPASSSRSQQFMEILEYIHEHYDQELSIEHFAGMMNMSIGHFSRTFKEEVGEKYVEYIAKYRLMKAKQFLLETDLKIDEIAEKVGYWGRNSLIRAFRRYEGITPAKYRSSHQ				NA	NA	NA	NA	NA
AK002_01272	921	yteP_13	COG4209	putative multiple-sugar transport system permease YteP	TTGGCGCAGCTATCACGAATCGGCTACGTTCTGAAAAAGCATAAAGCGTTGTACTTGCTGATGCTGCCCGGCATCTTGTACTACTTGATATTCAAGTACGCGCCGATGTACGGCATCATCATTGCCTTCCAGGACTATTCGATCGGCCGGGGCATTTTGGGAAGCAAATTTGTGGGACTGAAGCATTTCATTGAATTTTTCTATGTCACCCCCGATGCATGGAAGCTGATTCGCAACACGATCATGCTGAATGTGTACGATCTTCTGTTTCATTTTCCGGCGCCAGTCATTCTGGCGATCCTGTTCCATGAGCTGAAGAGCAAATGGTTCAAACGGTTCGTGCAAAACATCAGCTACATGCCGCATTTCCTGTCGACCGTCGTGATCGCGGGCATTCTCGTCACCTTCCTGTCTCCGACAACGGGCGTGGTGAACCATCTGCTCGTTAAGCTGTTCGGGCTCGAGCCGATCATGTTTCTCGGCATGCCCGAGTGGTTCCGGACGGTGTACGTGGGCTCCGAAATATGGCAGAAGGTCGGGTGGGGGACCATTCTCTACCTGGCTGCGATTGCCGGCATCGATCCGACGCTGTACGAGGCGGCCAAAATGGATGGGGCCAACCGGTGGCAGCAGGTCCGGCATATTACGTTCATCGGCATGGTGCCTGTCATGATTATTCTGTTCGTGCTGTCGCTCGGTAATTTCATGGAGGCCAGCTTCGAGAAAATCCTCTTGATTTACAACACGATGAATTACGAAACCGCGGATGTCATTAATACCTTTGTGTACCGGCGGGGCATCCTGGACGCCGATTTCAGCTTCGCGACCGCGGTAGGCCTGTTCCAGTCGGCGATTGGCTTCATTCTGGTCGTTGCGGCCAATCGGGTCGTACGCAAATATTCGGAGACCAGCCTGTGGTGA	MAQLSRIGYVLKKHKALYLLMLPGILYYLIFKYAPMYGIIIAFQDYSIGRGILGSKFVGLKHFIEFFYVTPDAWKLIRNTIMLNVYDLLFHFPAPVILAILFHELKSKWFKRFVQNISYMPHFLSTVVIAGILVTFLSPTTGVVNHLLVKLFGLEPIMFLGMPEWFRTVYVGSEIWQKVGWGTILYLAAIAGIDPTLYEAAKMDGANRWQQVRHITFIGMVPVMIILFVLSLGNFMEASFEKILLIYNTMNYETADVINTFVYRRGILDADFSFATAVGLFQSAIGFILVVAANRVVRKYSETSLW	PGPT0017250_2242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01273	861	araQ_19	COG0395	L-arabinose transport system permease protein AraQ	ATGAAAAAGCAGGAAAGCTTCGCTTCGAAGCTGTTTGACGTATGCAATGTATTGTTCATGATTGTGCTGATCATGGTAATGGCTTACCCGATGGTGTACGTATTCTCGGCTTCCATCAGCAACAATGCCATGGTCGCGAGCGGTGCGGTGCTGCTATGGCCGAAGAAGATTACGCTGATCGCTTACGAACAGCTCATCTATAACCCCGATCTCTGGGTGAGTTACTGGAATACGATCCGGTACACGTTCCTGCATACTTTGCTGACGTTGATTGCGACCTCGGCGATGGCGTATCCGCTTGCGAAGCGGTGGCTGCCCGGCCGAAGAGTGATTCTGCTCATGGCAGCGTTCACGCTTCTCTTCAGCGGGGGCATGATTCCGACCTTCCTGATCGTTCAGAAGCTGGGGATGCTGGACACGATCTGGGCGATCGTTCTTCCGTCGCTGATCAGCACATGGTACCTGTTCATTATGCGGACATTCTTCGAGGCGCTGCCGGAGGAGCTTGAGGACGCGGCTGCCATCGACGGGTGCGGGTCCATGCAGATTCTGGTACGGATCGTGCTGCCGCTATCCGTGCCGGTGATGGTCACGATCGGCCTGTTCACGGCGGTGAATCAATGGAATTCCTTCTTCAGCGCTTTGATCTATTTGAATGACCGGGAGATGTATCCGCTGCAAATCATGATGCGCAACATCCTGATCGCCGGTACGAACGTGCAGGGCGAAGGGGACTTGACGCATCTGGAAACGCTGAAATACGCCATGATCATGATCGGGACGCTGCCGATCCTGTGCGTTTATCCGTTTATCCAAAAATATTTTGTACAGGGCACGATGATTGGCGGCATTAAGGGGTAG	MKKQESFASKLFDVCNVLFMIVLIMVMAYPMVYVFSASISNNAMVASGAVLLWPKKITLIAYEQLIYNPDLWVSYWNTIRYTFLHTLLTLIATSAMAYPLAKRWLPGRRVILLMAAFTLLFSGGMIPTFLIVQKLGMLDTIWAIVLPSLISTWYLFIMRTFFEALPEELEDAAAIDGCGSMQILVRIVLPLSVPVMVTIGLFTAVNQWNSFFSALIYLNDREMYPLQIMMRNILIAGTNVQGEGDLTHLETLKYAMIMIGTLPILCVYPFIQKYFVQGTMIGGIKG	PGPT0017255_2858	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01274	1551	lipO_6	COG1653	Lipoprotein LipO	ATGCGGCAAAAGGGGTTCAGAACTGCGCTTGCCATGATCCTGCTCTGCGCGATGCTGGTTACGGGCTGCACCGGCGGAGGCAAGGACGACTCGGGGACGTTAAGCCCTGACAAACCGGTTACTTTTTCATGGCTCGTATACGACCGGGTGGAGGGCAAGGTTCGGGATGACTGGGAGATTTTTAAAGAGATCGAGGCCAAGACGGGCGTCAAAGTGAAGTTCCAGATCGTAAGCCAGGAAGGGCTTGAGGAGAAGAGGCAGATCATGATTGCCACGAATACCGCCACGGATTTTATCCAGGTGCCGACGCAGGACGGCAGGGAGCATGGGCCGGAGAAGGTGTTCCTGAATCTCAATGATTATTTGGATCGGGCACCGAATCTGAAGGCCTTCTACGAGAAATATCCGGAAGCCAAGGCGCTGGCAACGGGCACGGACGGAGGCTTGTATACCGTACCTGTCCTGGAAGGGGATGCGGAAGGCAAGGGCTTCAACTTTATCTGGTATGCCCGCAAGGACATCATGGATCAGCACGGGATACAGGCCCCGACCACCGTGGATGAATTTTATCAATATCTGAAAACGTTGAAAGAAAAGATGCCGGACTCCTATCCGCTCATATCGAACGCGATCGTAGGCGATACGGGGCTGTACACGACCTTCGGGCGTATCTTTACCGGCATCAGCGGTTTCTACAACCTGGATCCAACCACGGATCAATATGCATTCGCGCCGTATCATGAGAATTATCAGGATATGCTGGTGTACCTGAATAAGCTGTATGCGGAAAAATTGCTGGATCCGGAATTCTCGCTGCTGACGCAAGCGCAGTGGGAGGAGCGCATCCTGACGGGCAAATCCTTGGTGACGTTTTTCTGGAAGGCGGATCTGGAATCCTTGGTCGCCAAGGCGAGGGGGGCCGGTACGGCGGAGTATGAGCTGGACGCGATTCCTTCCTTTGCCGCCGAAGGGATCAAGAACTATCAGTTCTCCCGTCCGGTCGTCGGCACCGTCGGCCGAGCGATATCGGCCAAAGTGAAGGATAAGGAGCGCGCCGTCCAATTCCTCGATTATCTGGTCAGCGAAGAGGGAACCAATTATCTGTCCTTAGGAATCGAAGGCAAAACGTATACGATGGAGGACGGCAAAGCGGTATATAACAAGGAGTTCGGCGAATCTCCGTTTAATGCGCTGCGCAAGGACTGGGGCGTATGGTACGACCTGATCACGCTGAATAACGCCAAGTCGCGGGAAGTGTGGGAGCGCGGGTTAAGCGAGAAGAGCAAGGATATCAATGCAAGGTATGAGCAGTATATCGTCCCTGCACCGAAGCAGATCGTCAAGACGGAAGAGGAGCTGGAGCTCGAGAAATCGAAGCTGAACAATCTGAACAAATTCCTCGAACAGAAGGTAACGGAGTTCGTAACCGGCAAAACGCCGATCAACGATTCCACTTATCAGCAATTCATCGATCAAGCGAAGAAACTCGGTTCCGACGAACTCCTTGCCATGTATAACACCGCGTATACGCGCACATACGGCGGCAAGTAA	MRQKGFRTALAMILLCAMLVTGCTGGGKDDSGTLSPDKPVTFSWLVYDRVEGKVRDDWEIFKEIEAKTGVKVKFQIVSQEGLEEKRQIMIATNTATDFIQVPTQDGREHGPEKVFLNLNDYLDRAPNLKAFYEKYPEAKALATGTDGGLYTVPVLEGDAEGKGFNFIWYARKDIMDQHGIQAPTTVDEFYQYLKTLKEKMPDSYPLISNAIVGDTGLYTTFGRIFTGISGFYNLDPTTDQYAFAPYHENYQDMLVYLNKLYAEKLLDPEFSLLTQAQWEERILTGKSLVTFFWKADLESLVAKARGAGTAEYELDAIPSFAAEGIKNYQFSRPVVGTVGRAISAKVKDKERAVQFLDYLVSEEGTNYLSLGIEGKTYTMEDGKAVYNKEFGESPFNALRKDWGVWYDLITLNNAKSREVWERGLSEKSKDINARYEQYIVPAPKQIVKTEEELELEKSKLNNLNKFLEQKVTEFVTGKTPINDSTYQQFIDQAKKLGSDELLAMYNTAYTRTYGGK	PGPT0017245_2683	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01275	1056			hypothetical protein	ATGGACGATACCAAAATCATCGATGTCGACGTTCATAACGAGCAGGACGACAGGGCGCTGCTGCCATATCTGCAGGAGCCTTGGCGCTCCCGGGTAGCAGCATCCGGCATCGGGTATGCAGGCTCAGGGTATTACTCGCCGATCGGCGTGATGAAAAAAGACTCGATCCCTCCGGGTGGAGGCAAAGCCGGCTCCGATCCCGATTATATGATCAAGCAGTTGATCGAAGGCTATAATCTGGACTATGCCGTGTTGACGGGAGTCGTCTACAACATCTCCTCCACGCATGATCCGGATTATGCGGCGGCGATATGCTCGGCTTATAACGATTATCTGATCGCCGAATGGCTTGGCAAGCATAAAGCTTTTAAGGGAGCCATGGCGGTAGCCACCCAGGACCCGCTGCTGGCGGCACGCGAGATCGATAGGATCGGCGGCCATCCGGATATCGTGGAGGTGATGATCTCCAGTGCGGCGAGGTCGCCGCTGGGACAGCGCCACTATCACCCGATCTACGAAGCGGCGGCGCGTAACGGCCTACCGGTCGCGATCCACCCGGGAGCGGAAGGCGGCGGGAGCTCGACGGCTCCCACCGCGGCCGGCTACCCGACCCGGTATATCGAGTGGCACACCTGTCTCTCCCAGATGTTCATGGCGCATCTGGTGAGTATGGTCTGCGAGGGCGTGTTCGTGAAGTATCCGAACCTCAAGGTCGTTCTGGTTGAAGGCGGAGTAGCCTGGCTGCCGGGCCTGATGTGGCGGCTGGACAAAAACTACAAGGCACTGCGCGCAACCGTGCCCTGGCTGACGAGAATGCCGAGCGAGTACATCCGGGATCACTGCTACTTATCGACGCAGCCGATCGAGGAGCCGGATAATCCGCAGCATCTCATCGATCTCTTCAATATGATCGATGCCGAGAACATGCTGCTCTATTCCAGCGATTATCCGCATTGGGATTTCGACTCGCCGGGCCATGTCCTGCGGGGCCTGAAACCGGAAGCTCGGCGGAAGATCTTTTACGAGAATGCGAAGCAGCTGTATCGGCTGGATTGA	MDDTKIIDVDVHNEQDDRALLPYLQEPWRSRVAASGIGYAGSGYYSPIGVMKKDSIPPGGGKAGSDPDYMIKQLIEGYNLDYAVLTGVVYNISSTHDPDYAAAICSAYNDYLIAEWLGKHKAFKGAMAVATQDPLLAAREIDRIGGHPDIVEVMISSAARSPLGQRHYHPIYEAAARNGLPVAIHPGAEGGGSSTAPTAAGYPTRYIEWHTCLSQMFMAHLVSMVCEGVFVKYPNLKVVLVEGGVAWLPGLMWRLDKNYKALRATVPWLTRMPSEYIRDHCYLSTQPIEEPDNPQHLIDLFNMIDAENMLLYSSDYPHWDFDSPGHVLRGLKPEARRKIFYENAKQLYRLD				NA	NA	NA	NA	NA
AK002_01276	357	nagAb		Naphthalene 1,2-dioxygenase/salicylate 5-hydroxylase systems, ferredoxin component	ATGGCGGTACATTACGTGCTGGCGGAGGAGGACGTTCCAGAGGGTGAGCACAAAGTCGTCAACATCGAGGGACGCGAAATCGGCATCTATCGGGTCAACGGAGAGTACCATGCGATACTCAACTACTGCCCGCATCAAGGAGCGCCGATCTGCGCAGGACTGGTCTCCGGTACGACGCTGCCCTCGGAGGTATACGATTACGAATACGGCCGGGCAGGCGAGATCGTCCGATGTCCCTGGCACGGCTGGGAATTCGACCTGCAGACCGGCAAGTCGCTGTTCAGCGACCGGATCCGGGTGAAGAAATACAAGGTGGAGATTCATGAGGGCAAGATCGGTGTGGTAATGGGAAGGTAG	MAVHYVLAEEDVPEGEHKVVNIEGREIGIYRVNGEYHAILNYCPHQGAPICAGLVSGTTLPSEVYDYEYGRAGEIVRCPWHGWEFDLQTGKSLFSDRIRVKKYKVEIHEGKIGVVMGR	PGPT0000455_710	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
AK002_01277	543			hypothetical protein	ATGGAAGAATGGCTTCAGCTGCTGATCAGCTTTTTTGTCTCCAACGTGCTCGGCTATGGCGGCGGCCCCGCTTCGATCCCGCTCATGTATAAGGAAATCGTCACGAATCACGGCTGGCTGACCGACACGGAATTCTCCAACATGCTTGCACTTGGCAACGCGCTTCCCGGGCCGATTGCCACCAAAATCGCCGCTTTTGTCGGGTACGGCGTATCCGGCTGGATGGGCATGACCCTCGCCCTCGCGGCGACGGTCATCCCTTCCGCGGTAGCGCTCATCTGGCTGCTGAATCTGCTGCAAAAATACCGCACGTCGCCCGTGGTCAAAGGCATGACCCTGCTGGTTCAGCCGGTCATCGCGATCATGATGCTGACCCTGACCTGGCAGATCGGCAAAAGCTCCGTCATCTCCATCGGCCTCCTGCAATCCCTCGGCATTGCCGCCGTCGCCTTCTGGGCGATGAACATCCGCAAAATCCACCCGGCGTTGGTGATCCTGGCCGCGTTCGCTTACGGGGGCTTGGTGCTGTCGCAGGTGGTATGA	MEEWLQLLISFFVSNVLGYGGGPASIPLMYKEIVTNHGWLTDTEFSNMLALGNALPGPIATKIAAFVGYGVSGWMGMTLALAATVIPSAVALIWLLNLLQKYRTSPVVKGMTLLVQPVIAIMMLTLTWQIGKSSVISIGLLQSLGIAAVAFWAMNIRKIHPALVILAAFAYGGLVLSQVV				NA	NA	NA	NA	NA
AK002_01278	597			hypothetical protein	TTGGATGATAAAAATAGCAATCCATACATGGAATTAACGTTCGGCATGTTCCGAACCGGCATACTTGGTTATGGCGGCGGTCCCTCCGTCATTCCGCTGCTCCGGCATGAGGCCGTCGTTCGTTACGGCTGGCTCAGCGACGATGAATTCGGAGAGGTGCTGGCTCTGGCCAATGCGCTTCCGGGTCCGATCGCCACGAAGATGGCCGCCTATCTCGGTTACCGGGAAAAAGGGGCGCTTGGCGCGGTGGTCGCGGTTCTTGCGCATATCCTCCCGACCTGCATCGCGATGATCGCGCTGTTGTCGGCGGTGACGTTCCTCAGCAGCTCCAAAATCGTGGCGGGCATGATTGCCGGCGTTACGCCGGTCATTGCGGTCATGCTGGGCACGATGGCTTACGAATTCGGCGAGAAGGCCGTGAAGGGACTTGGCATTTACGCCGGGATCGGATTTTTTGTAGTGTCGTTTCTCCTGCTGGAAAGCATCCAGATCCATCCGGCCCTCGTCATTATGCTGTTCCTTGCCTATGGCACCGTGCATTTTAGAACCGTAGCCAAACTCAAAAAACAAAGACGGGATAAGGAGGGGTCCGCCTGA	MDDKNSNPYMELTFGMFRTGILGYGGGPSVIPLLRHEAVVRYGWLSDDEFGEVLALANALPGPIATKMAAYLGYREKGALGAVVAVLAHILPTCIAMIALLSAVTFLSSSKIVAGMIAGVTPVIAVMLGTMAYEFGEKAVKGLGIYAGIGFFVVSFLLLESIQIHPALVIMLFLAYGTVHFRTVAKLKKQRRDKEGSA				NA	NA	NA	NA	NA
AK002_01279	483	decR	COG1522	DNA-binding transcriptional activator DecR	ATGAATATTCACGCTGCGGGCGAGAACTCAACCCCCATGATTGATGATACGGACCGCAAAATCATTGCAATTCTCGGAAAAAACGGGCGAATCTCGTACACGGATTTGGCCAAGGAGATCGGTTTGTCCCGCGTGGCCGCGCAGGCCAGGGTCAATGCCCTGATTGATGACGGCGTCATTGAGCGCTTCGCGGCCGTCATTAATCCGGAGAAAGTGGGGATTTCGGTGTCCGCTTTTTTCAATGTGGAGGTTGAGCCCAAATATTTGCAGCAGGTGGCGGACACACTGGAGAACGAGCCATATGTCACCAGCCTGTATCATATGACCGGTCCCAGCAAACTGCATATGCACGGCTTGTTTGCCGATCATAAGGAAATGGAAATGTTTTTAAACGAGAAGCTTTACCCGCTTCCGGGCATAACCAGCGTGGACACACAGATTCTAATCAAGCGCTATAAAAGCCGAATGGGCATCAGACTCTGA	MNIHAAGENSTPMIDDTDRKIIAILGKNGRISYTDLAKEIGLSRVAAQARVNALIDDGVIERFAAVINPEKVGISVSAFFNVEVEPKYLQQVADTLENEPYVTSLYHMTGPSKLHMHGLFADHKEMEMFLNEKLYPLPGITSVDTQILIKRYKSRMGIRL	PGPT0004196_3	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_CHROMATE_RESISTANCE	CHROMATE_RESISTANCE-CHR_TRANSPORT_SYSTEM,PGPT0004196-chrS-NA	NA	NA
AK002_01280	1044	capA		Capsule biosynthesis protein CapA	ATGAAAAGATTATTTTGCCTCATTCTGGTTATCGTTATGCTGATCCCGGCCAGCATCGTTTCGGCAGCAGGGACAACCGCTCAAGCCAACAAGTCGAAGGATAAACCGATAAATCTCGTGTTTGCAGGTGACATTTTGTTAGACGGATATGTGGGAAGCCAGATCGATAGATTCGGTAACCTATATCCTTTTAAGAAGGTAGCCCCCATCTTGAAAAAGGCGGATATGGCGTTTGCCAATCTGGAGACGCCGGTCTCCATTCGTGGCAAGGCTGCGGATAAAACCTTTGCTTTTCGTTCGAAGCCGGACACGCTCAAGGGCCTGGTATACGCGGGAATCGACGGCGTCACGCTGGCGAACAACCACATCCTGGACTATGGCCAGCAGGCCATGCTGGACACGATCACGCATCTGAAACGCCAGAAGATCGGGTATACGGGTGCCGGGCGAAATATAGACGAGGCCTTCGAGCCTTACGTGCAGAACATTAACGGGAAGAAAGTCGCGGTGCTGGGCGTCAGCCGGGTGCTGTCGGGCAATTCCTGGATTGCGGGCAAGAACCACCCGGGTGCTGCCTCCGCCTACACGATGGAGCCTATGCTGACCCATATTAAGAAGTCGGCCAAAACCAACGATTATACGATCGTATACATCCATTGGAACCAGGAATTCGCCGACTATCCGGAAGAATATGCGCGCACGATGGCCAAGAAGATGATTGACGCCGGGGCCGACATCATTATCGGATCGCACAGCCATACGTTGATGGGCATCGAATATTACAAGAACAAGCCGATTTATTATTCGCTTGGCAACTTTGTGTTCAACCGCTCCACCCGGGGCGGAGACAAAACCTTGCTGTCGATGATGGTGCATGTCGAGATTCAGGGCTCCAAGATCACGAGCCGAATTACGCCTGTGAAGATTCTTCAAGGTCAGCCGAATCTGATGGACAAGAAGTATAATAAAGAGATCATCGCGAAACTGAACAAACTCTCCTTCAATGCAAAAATTGATGCCAACGGCAACGTCAGCAAAAAATAA	MKRLFCLILVIVMLIPASIVSAAGTTAQANKSKDKPINLVFAGDILLDGYVGSQIDRFGNLYPFKKVAPILKKADMAFANLETPVSIRGKAADKTFAFRSKPDTLKGLVYAGIDGVTLANNHILDYGQQAMLDTITHLKRQKIGYTGAGRNIDEAFEPYVQNINGKKVAVLGVSRVLSGNSWIAGKNHPGAASAYTMEPMLTHIKKSAKTNDYTIVYIHWNQEFADYPEEYARTMAKKMIDAGADIIIGSHSHTLMGIEYYKNKPIYYSLGNFVFNRSTRGGDKTLLSMMVHVEIQGSKITSRITPVKILQGQPNLMDKKYNKEIIAKLNKLSFNAKIDANGNVSKK				NA	NA	NA	NA	NA
AK002_01281	6129			hypothetical protein	ATGAGCGGACTTACAACCGAGAGGAACCAGAGTCCAAGCATAGAGAAGGAGGAATTCATGTACATGTTAAGGAGCAAAAAGAGAATATCATCGCTGCTCAGCGGTGTGATGTTTCTATCGCTGCTGTTTCCCGCAGGACAAGCTGCTGCTGCCGACCCAGCGGCTGCCGCTGCATCGGTCATTGATATGCGGCAGATGGAGATCGGGCCGGGGGCTACATACACGTGGGCGAATATGCAAAAAGGCAGCGGCGAGCAGAAGGTCCATATGGTGGAATTTGATCCATCGCAAGGAAATCTGGAGCTTCAGCCGGGTCTCACCGATGGCAAGGTATACGGCATGCAGGGAGTCAGCAAAATGGCGTCGGATGCCGACAAGACAGGCAATCGCGTCATCGCGGCGGTGAACGGAGATTTCTACGATATGTCCACCGGCATTCCGCTCGGATTGTTCATGGGGGACGGAGAGCTGTTGACGGATCCGCCCAGCGGCAGGAACGCCTTTGGCATTAAACAGGACGGAACGAGCCTGTACGGCAGTCCGAAATTAACGAAAAACGTGACGATAGGCGGAAACACCAGCAGCCTGTCCTCCATCAACCGTCTAAGAGGGACGGACGCACTTGTTCTTTATACCGAAAAATTCAATGCCACCACGATGACCAATAATCTGGGAGACGAAGTGATTCTGGATATCGTGAGCGGCAGGGTCGCCAGCGGGGAGACCTTGACGATGAAGGTGGTCTCTGTTGTTAAGGATCAGGGGAATTCGCCGATCGCCCAAGGTCAAGTGGTATTGTCCGCTTCGGGCTCGCAGCGGAGCAAGCTTGCCGGGCTGAAGGCAGGGGATGAAGTGACGGCGGGTTTTCAGCTGGATAACGAGTGGCAGGACGTCAAGATGGCTATTGGCGGTACCGTAATGCTGGTCAAGGATGGCGTCGTACAGCAGCATACCGATCCGGCTGTACACCCGAGAACGGTGGTGGGCACCAAAGCGGACGGCTCCGTTGTGCTGTTCGAGGTTGATGGCCGCCAGCCGGGGTTCAGTGAAGGGCTTAACTACATCGAGCTTGGCGAAATGCTGCAGGAGCTTGGTGTAGTGAACGCACTAAATCTGGACGGAGGCGGTTCGGCCACCTTCGTTGCCCGCCTGTCGGGAGAAACGGAGCGCAAGGTGCTCAACTCGCCGTCGGACGGCGGGGAACGCAAAACGGCCAACGGCATTTTGCTGGTGAACAAGGCGCCTGAAGGAGCAGCGAATAAACTTGTTGTGGCGCCCACGCTGGAAAGAGTGCTGACCGGTTCATCCGCTACCTTCAAAACGGCGGCCGTGGATCAGAATCTGCATCCGGCGAAAATGACGGAGGCCGCGGTTTGGGGCGTTGACCCAGCCTATGGGACGATCGACGCCAGCGGTACGTTTACGGCAGGCAACCAATCTGGATTGACCGAGGTATCCGTACAATCCGGTAATCTGACGGGTAAAGCCGCATTGGAAGTCGTCGATGAGCTGACTGAGCTCAAGTTCTCCGACGCCGTGAAGACCTTCTCCTCCGGCTCGACCGAGATGCTCAAGGTCACGGCGCTTCGCAATGGTCAAGTGGTACAGGCCGACAATAGCCGTTTGGAGTGGCGTACCGAAGGCGATATCGGGACGATTGACGGCAATGGAACGTTTGCCGCTACGGATAAGCAGGACGTCAGCGGCAAAATCTTCGTGAAGTACGGTCAAATCGAGACCTCAATCGAAGTGAACGTCGGGCTTCCACCGGTGATGCTCGAGGATTTCGAGAATGGCCTCAGCCGCTATAAACCAAGCGCAGGTGCGCGGTTCAAGTCGACCAAGGTATCCATTGAAACCGATGAGACCTATATTCGTTCCGGGAATGGTGCCTTGAAACTGGAGTATGATTTTACCGGAACGACAGGCACCTCCGGCGCTTATCTGGAGACGACAGGCACCGCGGACTATATCGAAATCCCTGGCTATCCCGAGAAGATCAGCATGTGGGTGTACGGGGATGGCAACACGCACTGGCTTCGTGCCCAAATTCGTGACAGTAAAGGTGCAATCGGGCTCGATTTTACCGATCAGACGGTCGGCGTCGATTTCAAGGGATGGAAGTATCTCGAAGCGACCGTGCCCAAAGGAAGAACCCTACCGCTGGTGATGGACGCACCTGTACGATATATGGAAACAAATAACGAGAAAAAAGACGCCGGAGCCATCTACGTGGACGAAATTCGCGCATTGTACGGTCCGGCCAACGACGATATCGATCCGCCGGTACTGAAGAAATTCTCGCCGGCCGACGGTGCGGAGATTACAGAGAACACGCCGACCATTACCGTGTATGCCGAGGATGCAGGCTATGATCCTGTCGCACACCCGGGAACGACGATGATCGATCCGGACAAAATCCGATTCTATCTGGATGGAAGTCCGGTGCAGCATACCCTGTATCCGCCGGAAGGAAGAATCCATTACACGCCGAGCGTTCCGCTCGCCGATGGCGTTCATCAAGCAAAAGTCACCGTCCGTGATCTGTCGGGCAACCAAACGACCAAGGAATGGAACTTCACCGTAAATACCGGCTCAGCCAAGGTGGTGTACGATACGCCGGGAACGATCTATGTTGGCGGCAGTTACACGCTGGATATCGGCGGTGTGAAGACATCCCAAATTCGCAGCGGTCATGTCGATTTCCAATTCGATCCCACCAAAGTGGAGAATCTGGAGCTCATACCGGGGGGCAAGCTGAGCCTATCCCAGGTTAGCGCGAGCATTGACGCTACGACAGGAAAGGTGAGGGTCACCTGGAAGGACATCCATACCGCATCCCTGCAGGATACGGATTGGATCGGCCAAATCCGGTACGACGTGAAAAAGAACGCAGCCGGCAGCAGCATCATAGCGCTCACGTCCGGGGCGGTATCCTTCACCGATACGGGCAATACCGAATTCTCGTTCTACGGTCTTCCGATCGAATCGCAGATCGCAACGCATTATGCGCTGAGCTGGAATGAGGAAGGAATTGTAGAGGGATACGAAACGGTGTTCGAAGTTGCCGATGCCCAAGGGCAGCCTGTTGAAGGCGTACAGATCTTGGCAGACTCGGCAGCGGTGGGAATAACGGATGCGGCGGGAATCCTGAAGACCGGGGCGCTGACGTCCCAGGTCAAGACGTATACCGTGCAGGCAGTGAAAGGAAATCAATACAGTCCGGCCTTGGAGTTTAAGGTATCGCCGCTGGCTGGAAGTCCTACTCCGTTCAACATCAGCGTGGGCATGGGCGAAGATCCAACCACGTCGCGGATGCTGAACTGGCACACGGACCCGGCGACGGAAGGGACTGTCGTGGAATTGGCCAAGCGGTCCGAATTTACGGATTTCGATGCGCCGAACGTCCAGAAGTTCAATGGTGACAGCGAACTGTACCATACATTGGATCTCGGCACGGTCCGCGTCCATAAAGCGACGGCGGTCGGCCTTGAGCCAGGCACAGAGTATGTGTATCGTGTCGGTGACGGCCAAGGCCATTACAGTGACCAAGGCTCGTTTAAAACGACAGAGCTTGCGGGAGATACAACGAAATTCTTGTACTTTGCGGATTCCCAGGCCTCCACTGCGAAGGAGTTCGAGCTGTGGGGGAATACGATCGACAAGGCGGCAGCCGAGCATCCGGACGCCGAATTCATGGTCCATGCCGGGGATATGGTGGACAAGGGCTTCCTGGAGGAGCAGTGGAACTATTGGTTCGATGAAGCCCAGAAGCATTTCCTGAATACGACGTTAGTGTCGGCCATCGGCAACCATGAAGTGATGGGGACCAAGGAAAACGGAGACTTCCTGGCTCACTTTAACCAGCCGGGCAATGGCTTGGACAGCCTGAAAGGAACCAACTTCTCTTTTGATTACAAGGACGTTCATTTCATTATGCTGAACAGCGAGTATCAGCTGGAGGAGCAGAAGAAGTGGCTTCAGCAGGATCTGGCTAATAATGATAAGAAATGGACCGTCGCGATGTTCCATCGCGGTCCATACGGCAGCATCTACGATTCCGCCGAGGTACGGAGCCTATGGGCGCCGGTGCTGGAGGAATCCGGCGTTGATCTCGTGTTAAACGGACATGATCATATTTATATTCGTTCCTACCCGATGATGAACAACCAGATTGCCGCGGACGGGAAGGGCACGACCTACGTCGTGGCGGGATCGTCAGGTCCTAAATTCTACTCCCACACGGAGCGGGGCTGGCATGAGGTGGTCGACGAAGAGAAGACTCAAATGTATGCCTCCGTGGAAGTGAAGGGAGACGAGCTTCATTTTGTAACCCAAACGGTTGGCGGACGCGTCGTGGACGAGTTTACACTGACGAAATCGGATACGAAGCCGGAGCCGCAGCGGATTAAAGTAACTCCAAACCAGCTGACGCTAGCTGTAGGCGAGAGCCAAAAGTTACTGGCTGATGTGAAGCCGAGCGGTGCGGAACGAACCGTTGTGTGGTCCGTCTACCATTCCGAACCGTCGAATGACGTCGTCAGCGTATCCGCAGACGGCATCGTGACGGCTCAAGGTCTGGGGAGCGCGGTGGTAAGAGCGACCAGCACGGCGGCACCGGATGTCTATACAGATGTGAGTATTACGGTAGACCGAATTCCAAACGGCAGCATCGAATCGATACGCCTAAGCGGCAAATCCGAGCTGAAGGTCGGGGACGCCGACCAGACGGTAACGGAGGCGGTATATACCGACGGCAGCCGTATGCGTATAATCGAAGGCATCACCTATGCGAGCAGTAAGCCGGACGTAGCTTCCATTGATGAACGGGGCTCGGTACGGGCTTTGGTAGAAGGGGCGACCGTCATTTCGGCAACCTACGAAGGGTTCAAGTCGGAATATGATTTGAAGGTAATTACCCGGGGTGGGGGTAATCCCGATCCGGGACCGGAGTCGCCGGTAACACCACCGGTAACGCCTCCGGTAACGCCGCCCGTGACACCGCCGTCATCAGGCAGCATCACCTTATCCGCCAACGAGCTTGCAGCTAAACTGTCGAACGGGCAAGTGAGCTTGTCGGTGGACGGAAACTTTACGGATATCACGCTGCCAGGGAATGCAGCAGACATACTCATGGATGGTTCAATCCATCTTGAAGCGAAGAATTTGTCCCTAACGATCCCGGCCGAAGTGCTTCGCCAACTTGGCGGCCTTGCAGATGCCGGCCAGCTTGAGAAAGGCACGATAAAACTGAGTGCCGCCACATTAACGGAGGCCGAGATGAAGCAGCGGATCGCGCAAGCTTCCCGCGTCTCCGGCGCTAAGCTGACAGCAGCCGGAGCCATGCTGGAGTTCGAGCTTAAACTGACGACTGCGGATGGCAAAGTCCACCGCTTAACCGAATTCGATCATCCGATCATGCTAGAACTGCCGTTATCTTCAGATGCTAATGGCAAAAGAATTTCCATGTACTATGTATCCGACAGCGGAGAGCTGGAGTATATCGGCGGTGTAAACAAAGACGGCCGCATGGCCGCAGGAATCCGCCATTTCAGTGCTTACGGTTTGCTGGATTACGAGAAAACCTTTGCAGATGTTCCATCCTCGTTCTGGGCTGCGGAGGTCATCGGCGATTTGGCCGCGAAGCAGCTCATCGAAGGCGTCAGCGCGGACCGCTTCGCACCGGCGCAGCAAGTGACCCGGGCAGAGTTTGCCGCGATGCTGGTTCGTCTGCTGGATCTTAAGGCAGAAGAACCTGCGCCGTTCGCCGATGTAGCTTCAGGCAAATGGTACGCCGATTCCGTGTCGGCAGCAGCCCAGTTCGGCATCGTGAACGGAACCGCCAAAGACCGTTTTGCACCGGACGCCCCGATCAAACGCCAGGAAATGGCGGCGATGCTGGTGCGCGCTTATGCCCACGCGATGAAACAGCAGCAGGAGAACATCAGCGCGGGAAGCGGTTTTGCCGATCTCGCCGAGTCCCCGGACTGGGTTCGGGAAGCGGTAGAAACCGCGCATGCCCTCGGATTTGTTCAGGGCCATACGCCTAGCCGTTTTGCACCGGAAGGTTTGACCACGCGTGCGGAAAGCGCGCAGGTCATCCATAATCTGTTGAATAAGCTGAAGTAA	MSGLTTERNQSPSIEKEEFMYMLRSKKRISSLLSGVMFLSLLFPAGQAAAADPAAAAASVIDMRQMEIGPGATYTWANMQKGSGEQKVHMVEFDPSQGNLELQPGLTDGKVYGMQGVSKMASDADKTGNRVIAAVNGDFYDMSTGIPLGLFMGDGELLTDPPSGRNAFGIKQDGTSLYGSPKLTKNVTIGGNTSSLSSINRLRGTDALVLYTEKFNATTMTNNLGDEVILDIVSGRVASGETLTMKVVSVVKDQGNSPIAQGQVVLSASGSQRSKLAGLKAGDEVTAGFQLDNEWQDVKMAIGGTVMLVKDGVVQQHTDPAVHPRTVVGTKADGSVVLFEVDGRQPGFSEGLNYIELGEMLQELGVVNALNLDGGGSATFVARLSGETERKVLNSPSDGGERKTANGILLVNKAPEGAANKLVVAPTLERVLTGSSATFKTAAVDQNLHPAKMTEAAVWGVDPAYGTIDASGTFTAGNQSGLTEVSVQSGNLTGKAALEVVDELTELKFSDAVKTFSSGSTEMLKVTALRNGQVVQADNSRLEWRTEGDIGTIDGNGTFAATDKQDVSGKIFVKYGQIETSIEVNVGLPPVMLEDFENGLSRYKPSAGARFKSTKVSIETDETYIRSGNGALKLEYDFTGTTGTSGAYLETTGTADYIEIPGYPEKISMWVYGDGNTHWLRAQIRDSKGAIGLDFTDQTVGVDFKGWKYLEATVPKGRTLPLVMDAPVRYMETNNEKKDAGAIYVDEIRALYGPANDDIDPPVLKKFSPADGAEITENTPTITVYAEDAGYDPVAHPGTTMIDPDKIRFYLDGSPVQHTLYPPEGRIHYTPSVPLADGVHQAKVTVRDLSGNQTTKEWNFTVNTGSAKVVYDTPGTIYVGGSYTLDIGGVKTSQIRSGHVDFQFDPTKVENLELIPGGKLSLSQVSASIDATTGKVRVTWKDIHTASLQDTDWIGQIRYDVKKNAAGSSIIALTSGAVSFTDTGNTEFSFYGLPIESQIATHYALSWNEEGIVEGYETVFEVADAQGQPVEGVQILADSAAVGITDAAGILKTGALTSQVKTYTVQAVKGNQYSPALEFKVSPLAGSPTPFNISVGMGEDPTTSRMLNWHTDPATEGTVVELAKRSEFTDFDAPNVQKFNGDSELYHTLDLGTVRVHKATAVGLEPGTEYVYRVGDGQGHYSDQGSFKTTELAGDTTKFLYFADSQASTAKEFELWGNTIDKAAAEHPDAEFMVHAGDMVDKGFLEEQWNYWFDEAQKHFLNTTLVSAIGNHEVMGTKENGDFLAHFNQPGNGLDSLKGTNFSFDYKDVHFIMLNSEYQLEEQKKWLQQDLANNDKKWTVAMFHRGPYGSIYDSAEVRSLWAPVLEESGVDLVLNGHDHIYIRSYPMMNNQIAADGKGTTYVVAGSSGPKFYSHTERGWHEVVDEEKTQMYASVEVKGDELHFVTQTVGGRVVDEFTLTKSDTKPEPQRIKVTPNQLTLAVGESQKLLADVKPSGAERTVVWSVYHSEPSNDVVSVSADGIVTAQGLGSAVVRATSTAAPDVYTDVSITVDRIPNGSIESIRLSGKSELKVGDADQTVTEAVYTDGSRMRIIEGITYASSKPDVASIDERGSVRALVEGATVISATYEGFKSEYDLKVITRGGGNPDPGPESPVTPPVTPPVTPPVTPPSSGSITLSANELAAKLSNGQVSLSVDGNFTDITLPGNAADILMDGSIHLEAKNLSLTIPAEVLRQLGGLADAGQLEKGTIKLSAATLTEAEMKQRIAQASRVSGAKLTAAGAMLEFELKLTTADGKVHRLTEFDHPIMLELPLSSDANGKRISMYYVSDSGELEYIGGVNKDGRMAAGIRHFSAYGLLDYEKTFADVPSSFWAAEVIGDLAAKQLIEGVSADRFAPAQQVTRAEFAAMLVRLLDLKAEEPAPFADVASGKWYADSVSAAAQFGIVNGTAKDRFAPDAPIKRQEMAAMLVRAYAHAMKQQQENISAGSGFADLAESPDWVREAVETAHALGFVQGHTPSRFAPEGLTTRAESAQVIHNLLNKLK				NA	NA	NA	NA	NA
AK002_01282	327	yqjZ	COG2329	putative protein YqjZ	ATGACGGAATACGCGAATACGCCGAAGCCGCCTTATTATGCCTGCATTTTTGTGTCCAAACGAACGGAGGGCGACCGGGGTTACGGAGCGATGTCCGCTAAAATGGCGGAGCTCGCTGCGCAGCAGCCCGGCTATCTGGGGGTGGAATCCGCTCGGGACGAGGGTCTCGGGATCACGGTTTCGTATTGGGACTCCCTGGAGTCCATACGTTTATGGAAGGAGAACGCGGCTCATCAGGTAGCCCAGGAACGGGGCAAGAACGAGTGGTATGAAAGCTTTGGCTTGCGAATTTGCAAGGTGGAGCGGGACAGCTTCTATAAGCTTTAG	MTEYANTPKPPYYACIFVSKRTEGDRGYGAMSAKMAELAAQQPGYLGVESARDEGLGITVSYWDSLESIRLWKENAAHQVAQERGKNEWYESFGLRICKVERDSFYKL	PGPT0013170_364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013170-gst-K00799	NA	NA
AK002_01283	996	iolU_2	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGGTGCAGAATCCGGGCAAGGTCAAATGGGGAATTATGGGGACGGGATGGATTGCGGAGCAGTTTGCAGCCGATTTGGCATATGTGGACAACGCTCAGTTTCTGGCGGTCGGTTCCCGTACGGCCAGCAGTGCAGGCGAGTTTGCGTCGAAATACGATATACCGCGGGCGTATGGCAGTTACGAGGAGCTCGTATCGGATCCTGATGTCGACGTTGTGTACATAGCGACTCCGCATCCGATGCACAGGGACCATGCGCTGATGTGTCTCCAAGCAGGCAAATCCGTTCTGTGCGAAAAGCCCTTTACGATCAACGGGGATGAGCTGGAGGAGTTAGTCGCAGCAGCACGCGAGCATAAGCTGTTCCTGATGGAGGCCATGTGGACGCGTTTCCTTCCGCCGATCCGGCAGGTGCGCGAATGGCTGAAGGACGGTCTTATCGGCGACGTCCGGCTGGTGAAGGCCGATTTCGGTTTCCGGAGCGGCTGGAATCCGCAGGGCCGTTTGCTGAATTTGGAGCTCGGCGGGGGCGCGCTGCTGGATGCGGGCATTTATCCGGTGTCGTTTGCGGCCATGATCTTTGGAGCCGAGCCCGAGAAGATTTGGAGTACGGCGCATATCGGCGAGACGGGCGTAGATGAGCAGTTCTCCGTTATTCTATCCTATGAATCAGGCAAGACGGCATCGTTAAACGGGGCGATCCGGCTGGGATTGACGAATGAAGCTTATATTTATGGCACCGACGGGCATATTCACATTCCATCCTTTTTAAATGCAACAACCGCTTCGCTGCATGTTGACGGCGAGGAGCCGGTGGTTGTGACGGATGAGCGTCAAGAGAAGGGCTATAGCTTTGAGGCTTACGAAGTGGGACGATGCCTGCTGGAAGGGCGGCTGGAGAGCGATGTGATGCCGCTGGACGAGTCGCTTGCGATTATGAGGCTGCTGGATCAGATCCGGGCACAGTGGGGATTGAGGTATCCATCGGAAGGTTAA	MVQNPGKVKWGIMGTGWIAEQFAADLAYVDNAQFLAVGSRTASSAGEFASKYDIPRAYGSYEELVSDPDVDVVYIATPHPMHRDHALMCLQAGKSVLCEKPFTINGDELEELVAAAREHKLFLMEAMWTRFLPPIRQVREWLKDGLIGDVRLVKADFGFRSGWNPQGRLLNLELGGGALLDAGIYPVSFAAMIFGAEPEKIWSTAHIGETGVDEQFSVILSYESGKTASLNGAIRLGLTNEAYIYGTDGHIHIPSFLNATTASLHVDGEEPVVVTDERQEKGYSFEAYEVGRCLLEGRLESDVMPLDESLAIMRLLDQIRAQWGLRYPSEG				NA	NA	NA	NA	NA
AK002_01284	4056	cpdA_1		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGATTAATCACATGTACAAAAAGCTATTATCCATTCTGTTATCGACGGCACTGGTGTTTGGATTCTTTGCAGGCACCGGTTTCCAGACGACGGCGGATGCCGCAGCGCAGGATCAACCCGATATCCTTCTGCAGCGTAACGCCGAGTGGAAGTATTTTGATCAGGGACAAGATTTAACAACCGTTTGGCGTGCCACCTACGATGATTCATCATGGGCTTCGGGATTAGCTCCATTCGGATATAAAGATAACGGAAGCGGCATTGCAACCGCGGAGTTTGGTCCGCTCAACACAGTAGTCGATTACGGTGCGGATAAAAAGCTCAAACACCGCACGACTTACTTCCGCACGAATCTTCAGGTCAACAAGGATCAAATCGACGCTTATGGACAGATTCTCGGAACGTTTGGCATTGATGACGGTGCCGTGCTCTACGTCAATGGTCATGAAATCAGACGTATGGGCATGCCTGAGGGTGAGATCACGTACCACGCGAAAGCCACTTCCAGCAAGGACCTTCCGGTTGTGTATGGGGATATGGATCTGACGGCGCCGCTCAAAACGTACTTGCAGGACGGCAACAACGAAATTGCGGTCGAGGTTCACCAGCAGAGCGACAGCAGTTCGGATCTGTACTTTGATATGGAGCTTACCGCGTTAGCACAGGCTCCGGTGCTGGACATCTCTAAAATTACGGTAACCTTCCATGGAGATGCAACAAGCGCGAAGGGCTTTACATGGTATACGCCGCTGGGTTCCTCCCGCAGCGATGTACAAGTAGTAGAGAATCGCGGCAGTGCGCCTGATTTCAGTCAAGCGCAGGTGTATAGCGGACGGACTTCCGTCTCTTCGAACTCTCCAGGTGAACATGTTCATAAAGCGGAAGCGACAGGCTTGGCAGCAGATACCTCCTACTATTTCAGAGTTGGGGACGAGAGTCTGAATCTGTGGAGCGAGATAGGCACCTTCGAAACGGCACCTGTCAGTGGCGCCTTCTCATTCATCGACCTGACGGATACGCAAGCAAAGGAAGAAGACGAGGCGATACTGTCCGCGGCCACCTTGTCGAAGGCGCTGGCCACCATCCCCGATGCCAAATTCGTTGTCCATAACGGAGATGTCGTGGAGAACGGTACATCGGAGCAGGAATGGAACTGGCTGCTGGGCCATTCACAGTCCAGTCTTTTACATACCACGATCGCTCCTTCCGCGGGCAATCACGAGAATAAGAATAATGCTTTTTATGAGCACTTTAATGTGAAGCAGCCGGATAACGCTGCAACGGTGACAGGCGCATATTACTCTTACGACTATAGCAATGCTCACTTCATCGTGCTCAACTCCAACGAGAATTCGACCGAATATGCGAACTTCTCCACGGAGCAGGTAGCTTGGATGAAGCAGGATGTGGAGCAAGCGAAAGCTGCAGGGGCAGAATGGATTATCGTTAATATCCACAAAGGCCCTTACACCACTTCGAATCATGCTACCGACAGCGATATCATTGGCGCCAATGGCGTGCGTAAACAAATCGCGCCCCTGATGAATGAGCTTGGAATCGATATGGTGCTTCAGGGACATGACCACATCTATGCGCGCACAAAGCCGATCAAGCGTGACGGAACCGCGGAAGATGTCGCTAAAATCACCGAGACGCTGAATGGTCAGAGCATCGAATATGCGGTCAAGCCGGATGGAACGATCTACATGATTCCTGCCACCGCAGGCGCCAAGGTTTATTTCAAGAACCAGAAGCCGGAGCTGGGTGACGCGTATTTCAATTTGTTCGAGCTTGCGGAAGAGAACCACGCCCGTAAGTATGGGGACACAACCAGTTTAGCCAGAGGACATGTACAAAATTTTGTGGGCATTACAATCGACGGCGGCAAGCTGACGGCTGTCACGTACGAGATCGACCAAAATCAATACAACGCGCAGCCGTTCATTGTGGATCAATTCGGAATTATAAAGGAGACGAAACCGGATCCAGTTCAGGAAAAAGTGAGCAAAGTGACGGTTACGTTCCACGGCGATGCTACATCTTCCAAGGGTTTCACCTGGTATACGTCCCAGCAGGTGACAGGCAGCGACCTACAGGTGGTGGAGAAGTCTGCGGACGCGCCTGACTTTACGAATGGGTTATCGTTCCAAGGGCGTTCGGCTCCTTCTACTAATTCGGCGGTGGAGCTTGTGCATAAAGCGGAAGCGACAAAGCTGAAGTCCAATACGTCCTACTATTTTCGGGTAGGGGATGCGTCTCTTAACGTATGGAGCGACATCGGATCGTTCCAGACGGCGCCTGAGAGCGGAGCGTTCACGTTTATTGATCTAGCCGATACGCAAGCGAAGGAAGAAGATGAGGCCGTGCTTTCCTCCGAAACGCTTGCCAAGGCGCTCGCTACCGTTCCGGAAGCGCAATTTGTCGTCCACAATGGAGATCTCGTGGACAAGGGCGTCAAGGAAGAGCAATGGGATTGGCTGTTAGGACACTCGCAGGAAAGCTTGCTCCATACGACGCTGGCGCCTTCCGCGGGAAATCATGAGGACGAGAACTATGCTTTCATAGAGCATTTCAACGTACAGCAGCCGGAGCATTCAGCAACCGAGACCGGAGCTTATTATTCTTACGATTACAGCAACGCGCATTTTGTTGTCCTGAATTCCAATGAGGATTCGGCTGAGTTTGATAATTTCTCGCCCGAGCAAGTAGAGTGGCTTAAAAAGGACGTTCAGAAGGCGAAAAAAGCCGGGGCGGAGTGGGTGATCGTCAACATTCATAAAGGTCCTTACACCACTTCGAACCATGCAACGGACTCCGATATTATGGGAGCTAACGGCGTCCGTACCAAAATTGCTCCGTTAATGGCGGAGCTCGGCATTGATTTTGTATTGCAGGGTCATGATCACATCTATGCCCGTACCAAACCGATCAAGTCGGATGGCAGCGAGTCGGAGCCCGCGAAAATTACGGAGATGTTAAACGGCCAGAAGCTGGAATACTCCGTAAATCCGGACGGTACGATCTATTTGATTCCGGCAACCGCAGGTCCGAAGGTTTATTATAAGAACCCTAGCCCAAGTCTCGGAGAAGCTTACTACAATCTGTTCGAACTTGCAGAAGAAAATCATGCGGCCAAATACGGCCCGGATCCGAGCGATAGCCGGCGTCCGAAACGCAGCCAGGTGCAAAATTTCGTCGGCATTACGATAGATGGCGGCAAGCTGACAGCTGTTACGTATGAAATCGATCAAAACCTGAATGGAGCGCGGCCATTTATTATTGATCAATTCGGGATCGTGAAGAAGGATGCGCAAACGCCGAATCCTGATCCGGGAACTCCAGGACCGGGTACAGGGGCTCCGGATCCAGGTCCTGGGACATCCAACCCGGGATCGGGGAGCAGCCCCGGTTCAGGCATCAATCCAGGTTCCGGTAATGAAACCGATCCGGGAACCGGATCGGGCACAGGCTCACAGCCTGGCGGCAACCCAGGCAACGGTTCAGGTAACGGGAATCCGCCAGCGTTGAAAGATATTGCAGGGCACTGGGCCAAATCAGCGATCGACAAAGCTGTTGCAGCGGGCTTCGTGAACGGCTATGGCGATGGAACCTTCCGGCCGAATCAACAAGTGACGCGTGCAGAATTCATCACCATGTTGGGCCGTGCATTAGGACTGAACGCGAGCGGTGCTCAGCTTACATTCACAGATGCGATGAAGATCCCTTCCTGGGCTAAGGATGCTGCAGCACAGGCGGCCCTGACCGGCATTATTAGCGGCTACAAGGATGGATCCTTCGGTCCGCATAAACCGTTATCCCGGGCAGAGCTCGTTGCTATGATTGTTCGTGCCAGCGGAATCAGCACCGATTCTGCAGCGAAGCTGAACTTTACGGATACGAAGGATATCCCGGCTTGGGCGCTCCCATATATAGCGGCGGCAGTCGATGCAGGACTTGTGGGCGGTGTGGGCAATAACCGTTTCGCTCCACAGCAAGTCGCGACTCGGGCAGAAGCCGTGACGCTGATTATCGGGCTTCTTGATTATACGAAATAA	MINHMYKKLLSILLSTALVFGFFAGTGFQTTADAAAQDQPDILLQRNAEWKYFDQGQDLTTVWRATYDDSSWASGLAPFGYKDNGSGIATAEFGPLNTVVDYGADKKLKHRTTYFRTNLQVNKDQIDAYGQILGTFGIDDGAVLYVNGHEIRRMGMPEGEITYHAKATSSKDLPVVYGDMDLTAPLKTYLQDGNNEIAVEVHQQSDSSSDLYFDMELTALAQAPVLDISKITVTFHGDATSAKGFTWYTPLGSSRSDVQVVENRGSAPDFSQAQVYSGRTSVSSNSPGEHVHKAEATGLAADTSYYFRVGDESLNLWSEIGTFETAPVSGAFSFIDLTDTQAKEEDEAILSAATLSKALATIPDAKFVVHNGDVVENGTSEQEWNWLLGHSQSSLLHTTIAPSAGNHENKNNAFYEHFNVKQPDNAATVTGAYYSYDYSNAHFIVLNSNENSTEYANFSTEQVAWMKQDVEQAKAAGAEWIIVNIHKGPYTTSNHATDSDIIGANGVRKQIAPLMNELGIDMVLQGHDHIYARTKPIKRDGTAEDVAKITETLNGQSIEYAVKPDGTIYMIPATAGAKVYFKNQKPELGDAYFNLFELAEENHARKYGDTTSLARGHVQNFVGITIDGGKLTAVTYEIDQNQYNAQPFIVDQFGIIKETKPDPVQEKVSKVTVTFHGDATSSKGFTWYTSQQVTGSDLQVVEKSADAPDFTNGLSFQGRSAPSTNSAVELVHKAEATKLKSNTSYYFRVGDASLNVWSDIGSFQTAPESGAFTFIDLADTQAKEEDEAVLSSETLAKALATVPEAQFVVHNGDLVDKGVKEEQWDWLLGHSQESLLHTTLAPSAGNHEDENYAFIEHFNVQQPEHSATETGAYYSYDYSNAHFVVLNSNEDSAEFDNFSPEQVEWLKKDVQKAKKAGAEWVIVNIHKGPYTTSNHATDSDIMGANGVRTKIAPLMAELGIDFVLQGHDHIYARTKPIKSDGSESEPAKITEMLNGQKLEYSVNPDGTIYLIPATAGPKVYYKNPSPSLGEAYYNLFELAEENHAAKYGPDPSDSRRPKRSQVQNFVGITIDGGKLTAVTYEIDQNLNGARPFIIDQFGIVKKDAQTPNPDPGTPGPGTGAPDPGPGTSNPGSGSSPGSGINPGSGNETDPGTGSGTGSQPGGNPGNGSGNGNPPALKDIAGHWAKSAIDKAVAAGFVNGYGDGTFRPNQQVTRAEFITMLGRALGLNASGAQLTFTDAMKIPSWAKDAAAQAALTGIISGYKDGSFGPHKPLSRAELVAMIVRASGISTDSAAKLNFTDTKDIPAWALPYIAAAVDAGLVGGVGNNRFAPQQVATRAEAVTLIIGLLDYTK				NA	NA	NA	NA	NA
AK002_01285	3579			hypothetical protein	ATGATAACCAAAAGGCGTGTCTATCGAAGCAGTAAGTCCATTCTGTCCATGACGTTGGCATTCGCCGTGATGCTCAGCTCGGCCGTGTCTGTTTGTGGCGGTTCCGTTGAAACGAACGCAAGCGCAGGACAGCCGGAAGCTGTGGTGCTGGAGGATTTCGAATCGGTAACGAATTTATTTGCGTCTTCCGCAAGGGGGAAGGCCCAGCTGGATTTGGCGGGGAGGCCGGAGCCGATTTATTACGGACATCATGCTGCAGCCTTAAGCTATGATTTTGTGGGCAGCGAATCCGGCACCTCGGCGGCTTATCTCAATTTCAGAGACCCGGATGGATCAACAGGCAGGAGCGTTCCCGGATCACCGAAGGCACTCGGCTTGTGGGTTTACGGCGACGGCGGCAACCACTGGCTCCGTGCACAGCTCCAGGATTCTTCCGGCGGCAAGCATACCGTTGATTTTACAGCCACCTCCGGTCTTAACTGGAAGGGCTGGAAATACGTCAAATTAAACATTCCTTCTACCATTCAGGCTCCTCTCAAAGTGAATCAAATCTACGTAGCCGAATTAAAAGACACGAATAAAAACAAAGGTGCCTTATACTTCGACAGGCTCTCCGCCTTCTATACGGCTTCTCCGGTCTATGGGCTCGACATCGGCGGACTGACGCCTATGGGCGTCGGTGAAACGGTCAAACCGCAAGTTTATGCAACCTATGAAGGACAGTCGGAACCAACGTTACTGACATCCGGCGTGAAACTGACCAGCAGCGACGAATCCGTTGCCACCGTGACGGGCGCTACATACGACACCATTGAAGCATTGGCACCGGGAACGGTGACCATTACGGCCGAGTACGGCGATGCGCCAAAAGCCCAGCTGGAGCTGCATGTGGCGGCGGATGCTCCGGCTCCCCATGAATTGCTGTTGTCCGGACCGCTTCATATGGAGACGAGCGTCACCGGTACAATGAGAAGCAGCGTGGTTTACTCCGTCTACGGAAACCAGACGGATCCGGTGTGGATGACCGAAGGCATTAGCTATACAAGCGATCAGCCTGGCGTTGTATCGGTCGATCAAGCGGGTCGACTGACCGCGGTTTCCGAAGGGACGGCTGACATTACGGCCTCGTACCGGGGAGCATCCGCCCATCATACCATTACCGTGACGGATCCGGTTCCTGTTTTGCAAAGCATTAAACTTCAGGGGCTTACGTCCGTGACGGTTGGAGATTCTTTTGAAACGGTGGTATCCGCCACGTACTCATGGATGGCTGAACCGCAAACCATAGAGGAAGGCGTTACGTTTACCAGCAGCAACCCGGACGTCGCTTCGGTTTCTGATAAAGGGGTGGTGAGCGGTTTGAAGGTAGGCTCCGCTAGAATAACAGCCGCGTTCCAAGGAAAGACCGATTCGCTCTATATCACCGTGAATGAAGCTTCCCGTCATCCGAAAAGCGAGATGCGGGCGGCATGGATCGCCACCGTCGATAATATCGACTGGCCGGCTAAAGGGGTTACCGATCCGGAGCAGCAGAAGCAGCAATTCATTCAGCTGCTCGATCAACTGGAGGATGCCGGAATGAACGCGGTGATCATGCAGATCAAACCGACGGCGGATGCTTTTTACCCGTCCCAATACGGGCCTTGGTCCGAGTGGCTGACAGGTGAACAAGGCAAGGATCCGGGTTACGATCCGCTGGCATTCCTGCTTGAGGAAGTGCATAAGCGAAACATGGAGTTCCACGCCTGGTTCAATCCGTATCGCATCAGCCTGCAGGGAGACATCAACAAGCTGGTAGCGGATCACCCGGCCAGACAGCATCCCGACTGGGTCGAGGAATACGGCGGCAAGCTGTATTTCAATCCAGGGGTGCCGGAGGCGCAGCAGTTCATCATTGACGGCATCATGGAGGTCGTTCGGAATTACGATATCGACGCCGTGCATTTTGACGATTATTTCTACCCGTATCCCGTAACGGGCGTGGATTTCCCGGATACGGATACATTTAATCAGTACAAGGGCGCCTTTACGAACAAGAGCGATTGGAGAAGAAATAACGTCAATACCTTCATTCAAAACGTGAAGGAAGCCATCAAGGCGGAGAAGAGCTACGTGAAATTCGGCATCAGCCCGTTTGGTATTTGGAAAAATAAATCCAGCGATCCGGCCGGCTCCGAAACGACGGGACTTGAGAGTTATCATGCGATTTACGCGGATTCGAAGAAATGGGTCGAAGAAGAGTGGATCGACTATATCACGCCGCAGATTTATTGGAACATCGGGTACTCCGCAGCGGCTTACGATAAGCTGATCGATTGGTGGAGCGGGATCGTGTCCGGCAAGAACGTTCATCTATACAGCGGACAAGCCGTATATAAAATCGGGTCGAATGCCGATTGGTCCAATCCCGACGAAATGCCGAACCAGATCCGGTACAATCGAAACTTCGAGGAAGTTCGGGGCAGCATGTATTTCAGCTCCAAATGGTTTAAGGACAACGCGCTCGGATTTACGGACAAACTGAAAGACGATCTGTACCGATACCCGGCGCTCATCCCGGCCATGCCTTGGATCGAATCGGAGGCACCGGCTGCGACCAAGAAGCCAAAGGCCGACCATGTACAGGAAGGTGTGAAGCTCAGCTGGTCTTCGTCGGACGACGAGACGTATTATGCGGTTTATCGCTTTAACGGTCGGGAAACCGGCAGCGTTCAGGAACCGGCGAATTTAATAGGGACTTTCAGGAAAAACGCCGGAATGACGCAGTTCTTTGTTGATCGTACCGTTGTGAAGGGACAAACCTATACGTATGTGGTGACGGCTGTCGATCGTTTGCATAACGAGAGTGCCCCAAGCCCTTCCGTAACGATTAAAGCGGGGGACCACGGCCAGCCGCCGGTTGACCCGCCAGGAAATCCGAACCCCCCGGTGACACCGCCAGTCACTCCGCCCGGGAAACCGAATCCACCGGTAACACCGCCAGTAACGCCTCCGGTGACACCGCCGGTCAACCCGCCGACGCCGCCGAAACCTCCGGTGTTCGGCGATGTGGACAGCGTTGGCTGGGCAAAAGCGGCGATTGAGGAACTGGCGGCGCTTGGCATCGTAGAGGGAGTGGGTCGGGATTCGTTCCGACCGATGAAATCGGTGACAAGAGCCGAATTCCTGGCCATGCTTGTCCGGGCTTTCCAGCTGACGGGGGCGGCCGACCTGGAATTTTCCGACGTGAAGCCGACCGACTGGCACTACTCCGTCATCGCATCTGCGATAGATGCCGGGCTCGCTCAAGGAATCGGAGGCGGCAAATTCGATCCGAACCGGCCGATCACCCGCCAGGAAATGGCGATCATGAGCGCCAATGCGCTGACATTATTCACCGATATGAAGGCAGAGGATGAGGAGGGTACCTTGGCGAAGTTTAAAGACGGCAGCAGCATTGCAGGCTATGCAAGGAACGCGGTTGCCCTCTTGGCTGAGAAAGGCGTGATTCAAGGCACCGGCAATGACCGGTTTATGCCGAAAGGAATCGCCAATCGCGCTCAGGCAGCGGTCATCATCTACAACCTGTTGAATTTGTAG	MITKRRVYRSSKSILSMTLAFAVMLSSAVSVCGGSVETNASAGQPEAVVLEDFESVTNLFASSARGKAQLDLAGRPEPIYYGHHAAALSYDFVGSESGTSAAYLNFRDPDGSTGRSVPGSPKALGLWVYGDGGNHWLRAQLQDSSGGKHTVDFTATSGLNWKGWKYVKLNIPSTIQAPLKVNQIYVAELKDTNKNKGALYFDRLSAFYTASPVYGLDIGGLTPMGVGETVKPQVYATYEGQSEPTLLTSGVKLTSSDESVATVTGATYDTIEALAPGTVTITAEYGDAPKAQLELHVAADAPAPHELLLSGPLHMETSVTGTMRSSVVYSVYGNQTDPVWMTEGISYTSDQPGVVSVDQAGRLTAVSEGTADITASYRGASAHHTITVTDPVPVLQSIKLQGLTSVTVGDSFETVVSATYSWMAEPQTIEEGVTFTSSNPDVASVSDKGVVSGLKVGSARITAAFQGKTDSLYITVNEASRHPKSEMRAAWIATVDNIDWPAKGVTDPEQQKQQFIQLLDQLEDAGMNAVIMQIKPTADAFYPSQYGPWSEWLTGEQGKDPGYDPLAFLLEEVHKRNMEFHAWFNPYRISLQGDINKLVADHPARQHPDWVEEYGGKLYFNPGVPEAQQFIIDGIMEVVRNYDIDAVHFDDYFYPYPVTGVDFPDTDTFNQYKGAFTNKSDWRRNNVNTFIQNVKEAIKAEKSYVKFGISPFGIWKNKSSDPAGSETTGLESYHAIYADSKKWVEEEWIDYITPQIYWNIGYSAAAYDKLIDWWSGIVSGKNVHLYSGQAVYKIGSNADWSNPDEMPNQIRYNRNFEEVRGSMYFSSKWFKDNALGFTDKLKDDLYRYPALIPAMPWIESEAPAATKKPKADHVQEGVKLSWSSSDDETYYAVYRFNGRETGSVQEPANLIGTFRKNAGMTQFFVDRTVVKGQTYTYVVTAVDRLHNESAPSPSVTIKAGDHGQPPVDPPGNPNPPVTPPVTPPGKPNPPVTPPVTPPVTPPVNPPTPPKPPVFGDVDSVGWAKAAIEELAALGIVEGVGRDSFRPMKSVTRAEFLAMLVRAFQLTGAADLEFSDVKPTDWHYSVIASAIDAGLAQGIGGGKFDPNRPITRQEMAIMSANALTLFTDMKAEDEEGTLAKFKDGSSIAGYARNAVALLAEKGVIQGTGNDRFMPKGIANRAQAAVIIYNLLNL				NA	NA	NA	NA	NA
AK002_01286	639			hypothetical protein	ATGGTCAAAAAATTAGGAATGGCACTTGTCTACATTGCCGTGGGTGGTCTTATTTACTATAAAGGCGAGTTCATATTGGCATGGATTCGATCGACAGACAGCATCATGCTGATCATGCTCGTCGCTGTCGCCATGGCCTTGTTCCCTGTGATCCCTTATCCCGTTGTCGGCGGCGTAATCGGGGCGGCCCTGGGTCCGGTTATCGGCGGGATGGTTACTTGGGTCGGCTCCACAGCTGCTTCGATCCTGATGTTCATATTCATCCGCTACGGGTACCAGGAATGGGGTAACCGGGCGCTTCATCGTTACAACAGCCTTGGAAAAGTGACCACGATGTTTGAACGGAACGCCTTTTTGACCATCCTGTTTACCCGATTGATCCCGTTTATTCCTTCCATTGTCATCAACGTGTACGCAGCGCTCAGCAAGGTAACGCTCGTATCGTACAGCTTGGCGTCCGCATTGGGCAAAATTCCCGCCATGCTGCTGTTCTCGATGGTAGGAGACAATCTGATCTCCAATCCATCCCATATTCTAATCACCATAGGCGTATATGGCGTATTTCTTGCCATAACCCTTCTGGTTTACCGCTTGACGGGCTTTGGCCGTTCGGGTAGAACGGAGGCCAAACGCTTATAG	MVKKLGMALVYIAVGGLIYYKGEFILAWIRSTDSIMLIMLVAVAMALFPVIPYPVVGGVIGAALGPVIGGMVTWVGSTAASILMFIFIRYGYQEWGNRALHRYNSLGKVTTMFERNAFLTILFTRLIPFIPSIVINVYAALSKVTLVSYSLASALGKIPAMLLFSMVGDNLISNPSHILITIGVYGVFLAITLLVYRLTGFGRSGRTEAKRL				NA	NA	NA	NA	NA
AK002_01287	1683			hypothetical protein	ATGAATGAACCGACAAGGCTGCACCGGCTGTTCATCCTGTTCCCGCTCGCGGACAGCGTAAAATCGCTCATTCCGATCGCAGCCCTGGTATCCATCAAATTCCTTAACGGAAAATCGCTGCGCGACATCCCCTGGTATTGGCTGTCCGCCGCCATCGTCATCCTGGTCTCGCTTCTGCTCCTGTACGGGTATCTAAAGTGGAAACGCTTCGTCTATACGCTGGAAGAAGACAAAATCATCATCCGCCGCGGCGTGCTGTTCCGGGAGGAATTGTCCATCTATACGGGTCGCATCCATTCCATGAATATGGAGCAGCCCTTGCTGCAGCGCTTATTGGGGCTTACCCAGGTCCGGATCGAAACGCCCGGCAAAAAGGAAGGCGGAGGCGGCATCCTGCCGGCCGTCACCAATAGCGAAGGCGAACGGCTGCAGCGCTGGCTGCGCGAGCAAACCCAAACCAGGCAGGCGGATATCGAGGTTCACCCAACTGCGGAAAGCTCCGGCCCATCCGGCCAGAGCCTTTCCGCCGAGACGGAGGGACCGCCTTTTCCTTCTCCGGGGACCCCGGAGGTTTATGAATCTATTCACAACCCGTTGGATCATAACCGGGACTACGCGAGCGTTCCGTTGAAGGATTCCGAATCCGACGACGCCGTTGGCAGAGAGAAGGCAAGCCATCCCACCCCGGCCGAGGAAGAACGCAGCACGCTGCTCCAGCTATCCTCGGGCCGTCTGCTCATTGCCGCTCTATCCTCGCCCAACCTGTCATTGGCTTTAGCCTTTGTGGGCGGTATCGTGTCTTTTGCCGATGATCTGCTGCCGGATCGGATGTACCAATCGCTGTTTCAATCGGCTGGGAAACTGCTGCCCGGCAGCTGGATCAGCATCGCGGCATTGGCGCTCATCGTGTCCTGGCTGCTCTCGGCCGTGCTCTACACGATCAAATATGCCGGATTTACCGTCGAGCGTTTCGGGAAACAAATCTCGGTCAGCTGCGGTCTGCTGGAGAGAAAAAGACTGCTCTTCTCCCCGGAACGCGTATTGGCTATAACCGTAAAGGAAGGCATATTCCGGCGATGGTTCGGTTACGCCGAAGTGAAGGTTCATGTGCTCACGTCAGAGTCCGAGAAGCATTTCATGCTGCATCCTCTGCTGAAGACCGGGGATATCCCGGCACTGCTGAAGCGGGTTACGCCTCAATTCAGCGCTCAGGCCGTTTCGGCTTCGCCGCCGCCCCGCGCCAGATGGATGTACGTCCGCTGGAAGCTGGCTTTTGCCGCAGCGGTCAGCGCCGCATGCATTTGGTATTTTGACAGGCTCGGTTTATTATCGCTCCTGCTGCTTCCGCTCTCGTTCGCCTGGGGACTTCTGTCGCACCGGGATTCCGGACTGAACGTCACGGGTAAACAGCTTACGATCCGCAGCCGGTTCATTGCCATGTCCACCAGGTACATACGCCGTCCGCAGATCATTGCCATGGAGGTCAACGGTACCCGCAGACAGCGAAGAAAGGGGCTTCTCTCTCTTCAAGTGAAGATGATATTCAGCGAAATCAACGAAAGTTTAAGCGGAATGGAACAGCAAGAGATCGAGGCCGTTCGGGCATGGTTCCAACAGAAAAAAGGCGAGACCTTAAACTCTGCAGGGCAGGGAGGTCACACCTCGTCGAGCGAGCGCCTATAA	MNEPTRLHRLFILFPLADSVKSLIPIAALVSIKFLNGKSLRDIPWYWLSAAIVILVSLLLLYGYLKWKRFVYTLEEDKIIIRRGVLFREELSIYTGRIHSMNMEQPLLQRLLGLTQVRIETPGKKEGGGGILPAVTNSEGERLQRWLREQTQTRQADIEVHPTAESSGPSGQSLSAETEGPPFPSPGTPEVYESIHNPLDHNRDYASVPLKDSESDDAVGREKASHPTPAEEERSTLLQLSSGRLLIAALSSPNLSLALAFVGGIVSFADDLLPDRMYQSLFQSAGKLLPGSWISIAALALIVSWLLSAVLYTIKYAGFTVERFGKQISVSCGLLERKRLLFSPERVLAITVKEGIFRRWFGYAEVKVHVLTSESEKHFMLHPLLKTGDIPALLKRVTPQFSAQAVSASPPPRARWMYVRWKLAFAAAVSAACIWYFDRLGLLSLLLLPLSFAWGLLSHRDSGLNVTGKQLTIRSRFIAMSTRYIRRPQIIAMEVNGTRRQRRKGLLSLQVKMIFSEINESLSGMEQQEIEAVRAWFQQKKGETLNSAGQGGHTSSSERL				NA	NA	NA	NA	NA
AK002_01288	483			hypothetical protein	ATGGACCATCGGCTTGACGCCATGCGCAAGTGCCACCCGGACTCCGTCACGATCTCCCGCATAACGGGCTTCATCACGGACGGAATTATTATGCTGGCTGCAGCAGCTTATCTGATCATCGCGGCTATACTCGGATGGACCCTCATTCCCGGGTGGATCACCATCGGACTCTTGGTTCTCGGAGCATGGTTTACTTGGGCTGTGCCCTCTTTCACTTACAAACAATTCGGCTTTAAAGTCAGCGAGGAGGAATTGGAGCTTCGCTCCGGCTGGATCTGGCTCAGCGACACCCTTGTTCCCATGACGCGGGTGCAGCATGTCGAGCTGGAACGGGGGCCGCTTCTTCGCAAATACGGCTTAGCCAAGGTCAAGGTGGTCACGGCCGCAACGACCCATGTCATTCAAGCGCTCAAGCTGGAAGAAGCAGAGGAACTAAAGAAACAGATCGGCGAGCTTGCCAGAGTGGTGGATCATGATGAATGA	MDHRLDAMRKCHPDSVTISRITGFITDGIIMLAAAAYLIIAAILGWTLIPGWITIGLLVLGAWFTWAVPSFTYKQFGFKVSEEELELRSGWIWLSDTLVPMTRVQHVELERGPLLRKYGLAKVKVVTAATTHVIQALKLEEAEELKKQIGELARVVDHDE				NA	NA	NA	NA	NA
AK002_01289	951			hypothetical protein	ATGAAAATAGACCGGCTGTTAGCCATAACCGTCCTGCTTCTTAACCGTGGGAGACTGAGCGCCAAAGAGCTGGCGGATCGGTTCGAGGTATCCAGCAAGACGATATACCGAGATATGGATACGCTGTGCCAAGCCGGGATTCCGATTGTCGCCCACCAGGGGATCACCGGCGGATTTGAGATCATGGAGCATTATATGATCGATAAGTACTGGCTGTCCGCCGAGGAGATGAGCACCTTGGTGACAGCCGTTAAGGGGCTGAGCAGCGCACTGGAGGATCCGCAGATGGGCGTGCTGCTGGAGAAGGTCAAAGCGCTGCTGCGCAGGGTAGAGCAGGGACTTGGCGACGAATATCGGAAGGAGCCCGTAGTCATGGACTTTCAGCCTTGGGGACAGCGTCAGGGACTGAAATCCGCCGTGGGCTTGCTCAAACAAGCCATTCATGACAAGCGCAGGGTACAGATGGAGTATATTGATCATCAGGGCCACGCGGAGCGAAGAACCATTGAGCCGGCATCCCTGATTCTGAAGGGAAACATATGGTATGTACAAGCCTTTTGCCTGGAGCGGCACGACCATCGAATCTTTCGGTTATCGCGCATGCAGCATATCGAGATCCTGGACCAGACTTCGGAGACAAGAATGATACCGAGCATGGAACGACTGGAATGGGATTCCTCATGGTCGGGCGCGCTGGAGAGGGAGACTGTGCTGCTATTCGAAGCTGCCGCGCGCCAGCGGGTGGCGGATATGTTTCCGCCGGAACAACTGATCGTCAACCCGGACGGCTCCTTACGCGTTCAAGCGTTATACAAATTGGACGAATGGTTCTACGGCATGATTCTAAGCTTTGGTAATCAGGTGCTGGTTGAGCAGCCGGGCGAAGCGGCAGAGGAAGTGAAACGAAGAGCGCGATTGATTATGCAGCGCTACGATAACCAGGACAGATAG	MKIDRLLAITVLLLNRGRLSAKELADRFEVSSKTIYRDMDTLCQAGIPIVAHQGITGGFEIMEHYMIDKYWLSAEEMSTLVTAVKGLSSALEDPQMGVLLEKVKALLRRVEQGLGDEYRKEPVVMDFQPWGQRQGLKSAVGLLKQAIHDKRRVQMEYIDHQGHAERRTIEPASLILKGNIWYVQAFCLERHDHRIFRLSRMQHIEILDQTSETRMIPSMERLEWDSSWSGALERETVLLFEAAARQRVADMFPPEQLIVNPDGSLRVQALYKLDEWFYGMILSFGNQVLVEQPGEAAEEVKRRARLIMQRYDNQDR				NA	NA	NA	NA	NA
AK002_01290	507			hypothetical protein	ATGAACAACAGCAATCAGAATCAGAGTGAACGATGGATAGAGGTTAGGCCAGCCATGTCCATTCAGGGCGTCGGCGTCCGAACGACAAACGAAGCGGAGGCAGGACCGCAAGGCAAAATACCGCAGTTATGGGATCGGTATTTCCAAAGCGGCTTGCAGTCCCAAATATCCGGGGACGATCAAGCTATGTATGCCTTATATACCGAATACGAATGCGATGCGTCCGGGGCGTACACATTGATCATCGGCAATCAGGCGGATGAGGTCGCGGCTGCGGAAACCTCCGGCGAGCTGCAGCAAGCGTACGTCCCGGCATCCAGGTACTTGGTATTCCGGACAAGACGCGGGCCACTTATGGAGATCGTCCCGCAGGTATGGCATGAAATTTGGAGCTACTTCCAGCAAGCAGCGGAAAAAAGAACGTTTACTGGCGATTACGAACGCTATGATATGCGGCAGTTTGATTCTGCCCATACCGTGGTGGATGTTTACATCGCCATTGAGTAG	MNNSNQNQSERWIEVRPAMSIQGVGVRTTNEAEAGPQGKIPQLWDRYFQSGLQSQISGDDQAMYALYTEYECDASGAYTLIIGNQADEVAAAETSGELQQAYVPASRYLVFRTRRGPLMEIVPQVWHEIWSYFQQAAEKRTFTGDYERYDMRQFDSAHTVVDVYIAIE				NA	NA	NA	NA	NA
AK002_01291	480			hypothetical protein	ATGCCTTATCACATCACAGCCATGACGGAGGCGATTGCCGATCAAATCATGTCATGGAACTATGAGCCTCCCTATGACTTCTACGACAGCGGACAGGATGAGGAGTTTCGAAAAGAGCTTCTGGAATGTTCGTATTACGCCATTCTGGACGCTGAGGAGCAATTGATCGGTTTTTGCTGCACCGGCCCATCTGCCCAAATACCGATGGCGATCCCGTTAGGGGCATACGATGAGGATCTGCTCGATATCGGACTCGGCATGAAACCGGAGCTGACGGGAAAAGGCTTGGGACACAAGTTCCTCTCCTGCGTGCTGGCATCCATGGGAGAACTTCACCAACGCGAATCGTTTCGGCTGACCGTGGCCCGATTCAACGAACGAGCCATTCGCCTGTATGCCAAGCTTGGCTTCTCGGAGGCTGCATCGTTCGATAAGGGCGGCACCTCCTTCATGACGATGGTCAAAAAGCGGCAGGCCTAA	MPYHITAMTEAIADQIMSWNYEPPYDFYDSGQDEEFRKELLECSYYAILDAEEQLIGFCCTGPSAQIPMAIPLGAYDEDLLDIGLGMKPELTGKGLGHKFLSCVLASMGELHQRESFRLTVARFNERAIRLYAKLGFSEAASFDKGGTSFMTMVKKRQA				NA	NA	NA	NA	NA
AK002_01292	825	araQ_20	COG0395	L-arabinose transport system permease protein AraQ	ATGGCTGTCAGGTTGCGGGTGATCTTGCCGCATGCGGTCCTTCTTCTATTCGCTGTGATCTTCCTGTTTCCATTTGTATGGCTGGTGATGACCTCGCTGAAAACGCCGGAGGAGATACTCGAGTTCCCGCCGAGCATTTTCCCGGAGACGTTCCAGTGGTCCAATTATAAAGAGGCGCTCCAAGCCATTCCGTTTACCCGCTACATGATGAACACGTTTGTGATTTGTATGGTGAATATCATCGGCCAGCTATTCTCTGCACCGCTGGTGGCCTACTCGATATCCCGCATTCCCTGGAGGGGCCGGAACATCATCTTTACCATCGTCGTGGCAACCATGATTCTGCCGGCGCAAGTGCAGATGATTCCGCAGTACATCATCTTCACCAAGCTCGGCTGGGTCAATACGATCATGCCGCTTACCATCGGCGCATTCTTCGGGGCACCGTTCTTCATCTTTTTGCTTCGGCAGTTTCTGCTTGGCGTGCCGACCGAATTGTCCGAGGCAGCAAAGATCGATGGGGCTTCGGAGCTGCGGATCTATATTAAGATCATTATGCCGATCCTGAAGCCAGCACTGGCCACCGTTGCTTTATTCTCTTTTGTGTGGTCGTACGTGGATTTCATGGGACCGCTCATCTATCTGAACGATTCGGCCAAATGGACCATCACCGTCGGCCTGCAAAGCTTTCAGCAGGACCACGGGGCGCAGTGGGAGAAACTGATGGCGGCATCCACCATCATGGCGATTCCCATGATCCTGATCTATTTCTTCGGACAGAAGTATTTCATGAAGTCGGGATCGGCGTTGACCGGGTTTAAATAA	MAVRLRVILPHAVLLLFAVIFLFPFVWLVMTSLKTPEEILEFPPSIFPETFQWSNYKEALQAIPFTRYMMNTFVICMVNIIGQLFSAPLVAYSISRIPWRGRNIIFTIVVATMILPAQVQMIPQYIIFTKLGWVNTIMPLTIGAFFGAPFFIFLLRQFLLGVPTELSEAAKIDGASELRIYIKIIMPILKPALATVALFSFVWSYVDFMGPLIYLNDSAKWTITVGLQSFQQDHGAQWEKLMAASTIMAIPMILIYFFGQKYFMKSGSALTGFK	PGPT0016540_8387	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_01293	951	lacF_11		Lactose transport system permease protein LacF	ATGAGAGTCTCCACAGCAAATCAACGAAAGCCCGTGTCAGGCTGGTCCAGGAAGGAGCGTCATTATGTGTATCTTGGCCTGGCGTTCGCCTCTCCTTGGATCATCGGGTTTCTGGCTTTTACCGTCTATCCGTTCTTCGGTTCGCTCTATCTGAGTCTGACCGAATACGATTTATTCAGCCCTCCCCAGTGGGTGGGGCTACAGAATTACGAGCAAATCCTCGCGGATGACCGCTTCTATAAGTCGCTCGGCAACACCTTTTTCATGGCGTTCATATCCGTGCCGATCACGCTGGCTGTCTCACTGTTGATAGCCGTGATGCTCAATTTCAAAGTGAAGGGGATCAATTATTACCGCACCATCTTCTACCTTCCGTCCGTCATACCGATCGTTGCAAGCGCTCTATTGTGGACATGGATGCTGAACCCCGACTTCGGGCTGGTTAACATGGCACTTCGCACCCTGGGTTTAACAGACCCGGCGTGGCTGCTGGATCCCCGTTATACGAAGCCGTCCCTTATCCTGATGAGCCTGTGGGGCTCGGGTGCGGGCGCTTTAATCTTCCTGGCTGCCCTCCAGGGCGTGCCAAGGCAATATTATGAAGCGGCTCAGGTGGACGGAGCAAACTGGTGGTACCGCTTCTGGAAGATCACGGTCCCTGCCCTGTCCCCCATCATTCTTTTTCAGCTCATCATGGGGTTGATCGGCGCCTTTCAAATCTTTACGGAATCGTATATTTTGGCTGGCGGCAAGGTGGATGGAAGCGGCTCATTGGGGGGGCCGGAGCAATCGCTGCTGTTCTATGCGGTCAATTTGTACCAGGAAGCCTTTGTCTTTCTGAAGATGGGTTATGCCTCGGCGCTCGCCTGGATTCTGTTCATCATTGTGCTGCTGATTACGTTCATCCTGTTAAAAACGTCGGGCCGCTGGGTCTATTACGGAGGTGAGTAA	MRVSTANQRKPVSGWSRKERHYVYLGLAFASPWIIGFLAFTVYPFFGSLYLSLTEYDLFSPPQWVGLQNYEQILADDRFYKSLGNTFFMAFISVPITLAVSLLIAVMLNFKVKGINYYRTIFYLPSVIPIVASALLWTWMLNPDFGLVNMALRTLGLTDPAWLLDPRYTKPSLILMSLWGSGAGALIFLAALQGVPRQYYEAAQVDGANWWYRFWKITVPALSPIILFQLIMGLIGAFQIFTESYILAGGKVDGSGSLGGPEQSLLFYAVNLYQEAFVFLKMGYASALAWILFIIVLLITFILLKTSGRWVYYGGE	PGPT0016535_2594	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_01294	1308			hypothetical protein	ATGAAGAAGAAATCTTGGATCTGGAGCCTTATTCTATTGTTCTCTATCGTAACAGGATGCTCGGGCGGTAATGCGCCCCAAGCGGGCAGTGATGCTGGTGACAAGCCATCCGATAATCCGCCTGCCCAGGATGCCGTAACACTCGACTTCTGGTACGGATGGACCGGACCGGAAGCGGAAGCGTTGGAAGCGTTGATTGCCAAGTGGAACAGCGCCAATCCCGACATTCAAGTGAAGGGGTTATCCCAAAGCGATTACCAGAAACAGCTTACCGCGATCACCGGGGGCAATCCTCCGGACATCGCATCCCAATTCGGACAAAATGTCGTGCCGTGGGGACTCCGTGGCGCCATGATGCCGCTGGATGATTATATAGCGAAGGACGGCGTCGATCTTAAGGATTTCGTGCCGGCTGCCCTAAGCACTTCCCAGCATGAAGGCAAGACGTATGCAATCCCGACGGCCATGCACGTGTCCATGCTGTTCTACAACAAGGATATTTTGCAGGAAGCCGGTTATGACGGTCCGCCGGAAACGATAAGCGATTTGAAAGAGTATATCAAGAAGCTGAGCGTCGTCGAGGATGGAGGCCGCCTCCAGCGGCTCGGATTGTGGCCGGGCATGGATGCGTATACGTTCAGTTATGCCTTTAACGGATCGTTTTATGATGAAGCAGCGCAGCAGGTGACGCCTGATCATCCGGGGATCCAATCGGCCATCAAGCTCTCGAAGGAGATCTGGGATCAATACGGTTCCGATAATCTGGACCGATTCTCCTCCGGGCTCGGCCAATACATGTCGGCACAGAATCCGTTCTTCTCGGGCAAATATGCGATGACGATTGACGGAGAATGGCTGCCCACCTTCATCAAGCAATACTCGCCTGATCTGAACTACGGCATAGCTCCCATTCCTTATGATGAGAACAACCCGGAACTTAAAAACTCCGGAAATGTAACTACCAGCGTATTCTATATTCCAAAAGGCGTCAAAAACCCGGACGCTTCCTGGAAATTCATCAAATGGATGACCGAGCCGGAGCAAATGGCTGAGTTTACGGCTGCCCTCGGGAATCTCCCGACGCGAAATTCGGCCTTCTCCAACCCACTCTATGAGGATGTGCCAGGGTTTAAGGAATTCCTCGACTATTCGGGGAGCGAAAACCTGAAGTCCTTCCCGGCTTCTTCCTACGCGAACGAGTACATGACGGAGTTCAGCGCGCAATATGACGCTATTCTCCGAGGCACCGTCAGCATGCAGGAAGGCTTGGACAAGGTGAAGGCCAAGATTCAGCCGCTGGTGAAATGA	MKKKSWIWSLILLFSIVTGCSGGNAPQAGSDAGDKPSDNPPAQDAVTLDFWYGWTGPEAEALEALIAKWNSANPDIQVKGLSQSDYQKQLTAITGGNPPDIASQFGQNVVPWGLRGAMMPLDDYIAKDGVDLKDFVPAALSTSQHEGKTYAIPTAMHVSMLFYNKDILQEAGYDGPPETISDLKEYIKKLSVVEDGGRLQRLGLWPGMDAYTFSYAFNGSFYDEAAQQVTPDHPGIQSAIKLSKEIWDQYGSDNLDRFSSGLGQYMSAQNPFFSGKYAMTIDGEWLPTFIKQYSPDLNYGIAPIPYDENNPELKNSGNVTTSVFYIPKGVKNPDASWKFIKWMTEPEQMAEFTAALGNLPTRNSAFSNPLYEDVPGFKEFLDYSGSENLKSFPASSYANEYMTEFSAQYDAILRGTVSMQEGLDKVKAKIQPLVK	PGPT0016545_5780	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_01295	933	rhaR_12		HTH-type transcriptional activator RhaR	TTGAGTATTTATTGGAGTCAGGTCGATATTGAAGAACTAACGGGATCAGGTGTCGTTTATTTTAACTCAAAGATGGAGATGTTGGAAGGTCTTCCATGCAAAATGTATAAATTGACCTATCAGCAGAGCCTATGGACGCATTGCCATGATTATTTTCAGATATGGTATGTGGCAAAAGGCGCTTTCCTGCACACCGTCCAACAACAGGTATACGAGATACGCAAAGGCGATATTTTTGTTATTCCTCCATTTACCCTGCACAGCGTGAGCATTTCACCCGATGAGGACATCGAAATTTACGGATGCGAATTCATGCCCTCCTTCGTGAACGAGAGATTTCAGGAACAGCCGACAGAACATGCCTTTTTCGATGTGGCCTTTCTGGAATACTTTCTGCGCAAGGAAATGAACGCCCAATCCCAAATCACGCTGGACAGCGTGACCGACGTAACGGTCCGAAATGTCCTGAAGGATATGCTGATCGAATACGAGAGACGCACCCCTTTTTTTCAAATCTCGCTCAAAGCCAAGCTGCTTGTGCTTCTCTCGATTCTGGCACGGCAGGTCAACGGCGAGCTGCTGCGTGAAGGATTCGAGAAATCGGAGAAATACCGGGAAATCATGACGAGAGTCGTTGATCACATCCATAACCACTACCAGGAAGATATGAATTTGAATGATCTATGCAGCCTATCGAATTTATCAAGGTCCACGTTCTGCATCCTCTTCAAAGAATGGACAGGCAAAACATTCAACCGTTATCTCACCGACCTGCGGATTCTGCAGGCCATGATGATGCTGAAGCAGCCGGAGTTATCCGTAACGGATGTTTGCTACTCCACCGGATTTAATGAACTCTCCTATTTCTGCAGAATCTTCAAAAAGTATACGGGCATCTCTCCCACCGACTTTCGTAAACAAGCGATGAAATAG	MSIYWSQVDIEELTGSGVVYFNSKMEMLEGLPCKMYKLTYQQSLWTHCHDYFQIWYVAKGAFLHTVQQQVYEIRKGDIFVIPPFTLHSVSISPDEDIEIYGCEFMPSFVNERFQEQPTEHAFFDVAFLEYFLRKEMNAQSQITLDSVTDVTVRNVLKDMLIEYERRTPFFQISLKAKLLVLLSILARQVNGELLREGFEKSEKYREIMTRVVDHIHNHYQEDMNLNDLCSLSNLSRSTFCILFKEWTGKTFNRYLTDLRILQAMMMLKQPELSVTDVCYSTGFNELSYFCRIFKKYTGISPTDFRKQAMK				NA	NA	NA	NA	NA
AK002_01296	1194			hypothetical protein	ATGAAAATCGTATATTTGGACGGCTTGAGAGGGCTTGCCGCCTTGATCGTGGTGGTATCTCATTTTTTTCAAGTGTTTGCACCGTCGGTTTTTGAGGGGAGGGAGGAGATCGAGCATTTCGCTTTTGAGGGGATTGCCGCGCGAACGCCGTTCAATCTGCTGTTTAACGGCAACTTCTCCGTCTGTCTGTTTTTTGTGCTCAGCGGATATGTGCTCAGCTATCGTTTTTTTGGAACAGGGGACAGGTTCATCGTTTATTCTTCCGCCATCCGCCGCTATTTTCGCCTGGCCTTGCCGGCCTTGGCATCCGTTTTCCTTGCTTATCTGATCCTCGTATTGGATCTCGGAGCTTATGACAATATACGCGGGATGACGTTATCTTCGATGCCCGATCCGTTTGCCGCCGACGCCAATCTGCTGGTCATGCTGAAGGAAAGCTTGTTGCATACCTTTTTCACCTATGGCTCGCAGTACAATCCCGTGCTGTGGACGATGACGTACGAGCTGTTCGGTTCGTTCATGATCTTCGTTTTTCTGATTGTTTGCGGCCGCCATCGGATTCGTTATGCCGTGTATGCAATCCTCATCTGTTTATTCATCGATTCCTACTATTTGGGATTCGTCCTGGGCATGCTGTTAAGCGATGTAAAGAACAACGGGAGGGAGCGGCCGGCACTTATCCATCGGTCCTGGATCCAGCTTCTGCTGCTCTGCGCCGGTATTTACTTAGGCTCCTATCCTTACATTGCACCGCAAGGAACGGTATATTCGGTCCTCCAATGGGGGGCTCCCAATTTCGATTTCTTTGTGTTTTATCATGTAATCGGATCATTCCTGATCCTAACGGTGCTGCTGCATTCAAGCCGTATGCAGTCGATATTCAGCCATCGGTTTTTTGCTTATTTGGGTAAAATCTCGTTCTCGCTGTACCTCGTACACTTTACGGTGATTTGCTCGTTCGGGAGCTATGTCTTTCTGCAACTCAGCCCGTTTCTGAGTTATGGTCCCTGCGTGCTGCTTACCACGATTCTCACGTTTGCGGTTATCGCCGCGGTGACCCATTGGTTTTACCGGCTCGTAGATGCCCGGGTTCTGCTCGGGTTGTCCAGGTGGAACAAAGCGTTATTCGCGTCTGGGAAGCTGAGAGGACGCAAGAGCCAAATACAGACGGAACAGACCATAAAGGCCGACTAG	MKIVYLDGLRGLAALIVVVSHFFQVFAPSVFEGREEIEHFAFEGIAARTPFNLLFNGNFSVCLFFVLSGYVLSYRFFGTGDRFIVYSSAIRRYFRLALPALASVFLAYLILVLDLGAYDNIRGMTLSSMPDPFAADANLLVMLKESLLHTFFTYGSQYNPVLWTMTYELFGSFMIFVFLIVCGRHRIRYAVYAILICLFIDSYYLGFVLGMLLSDVKNNGRERPALIHRSWIQLLLLCAGIYLGSYPYIAPQGTVYSVLQWGAPNFDFFVFYHVIGSFLILTVLLHSSRMQSIFSHRFFAYLGKISFSLYLVHFTVICSFGSYVFLQLSPFLSYGPCVLLTTILTFAVIAAVTHWFYRLVDARVLLGLSRWNKALFASGKLRGRKSQIQTEQTIKAD				NA	NA	NA	NA	NA
AK002_01297	2268	rhaR_13		HTH-type transcriptional activator RhaR	GTGAATTGGATCCGGCATAAAAGCCACAGTGTATTCTTTAAAATTTTTCTGAGCTTTCTGGCCATCATCGTGTTATTCGGATTGTTCTATGCGGTTATCTTCCAGCTCTTCAAGACCAGCCTGCAAAAAGAAATCATCGATAACAGCCAACGGTCGGTTCACGATACGGCAGAACGGTTCAACAACCAATTCAGCAGGCTGCAGGTATTAATGTTCGATATATATAACCAGTCCGAATTAATCGGCTTCAATAATCAGCTTCGCCACCAGACCGGAAACGAAGTCAATTACTTGAAGGCCCGAGATGTGATGATGCAGATGCGGAGCGATATCTATAACCCGCTGTTCTTTCTGGAGGACACCCTGATTTATCTTCGCGAGTTTGATTTTGTGCTCAGCAAATCCGGGAGCGGCGATGCTGCCTATATGTTCAATCGTTCCTATACGAGTCCGATGTACCCTTATTCGTTCTGGAACGGTTATACGGGCGATCCGGAATCCTTCAAGCTCCTCCCTGCTTCAACCTATCGAATCAACAACGATTTGTCCGAGAAAACGCTGATGCCTTTTGTTTACAAGCAGCCGGACAGTCCATATGAGGTCATTGCCCTCATCGATATCGATAAGGCCGCCCAATCCTTCTTCGGCGAGTCGAACGATCGCGCGCTTGCCATTCTGAATGCCGAAGGGCAAGTGCTGTATACGCTGGGCTCCATGGACCAGGATCAGCTGCCGCCGTTCGAGGCCGGTCAAAAAGCCGTGCTGAAGGATGGAACCTACTATTTTGCGGAAGCCGGATCCGACGGATTGACCTATGTTTCGGCCGTGCCTTACAGCCATGTCTCTTCCCAGCTGAGCCGGTTAACCGGCGGTTTGCTGCTTATATTCTGCCTATCGCTCGGGGTAGCGCTTGCTGCATCCTATTTCCTCAGCCGACGGCTGCATAAGCCGGTGAAGCAGATCCTGACGACCGTGCTGAACAGAGCCAGCAGCTCGGCGATGCCGGAAACCGGCAGCGTCACGGAATACGACCTGATCCAGAACCGCATTCAGGAGCTGTTCCGGGAGAAGGAAGAGATTCGGGACCGCATGAACAAACACAAGTCCGTCCTGACCAGTTACTCTTATATCAGTCAGCTGAAGAGCATTAATACCGATATCAGCGAATGGGAGGATTTCCTGTCGGATGACGGAAGCTTCATCGTGGTTCTGTACCATATCCGGTTCCGGATGAATCCGGTCTATGAGCTTCCCCTCCAAACCGATCAGGCCGTCCGCCATATGCTGGAGCATATTCATCTGATCACGGCCGAGCGCTATCCGGGCTCCCATACGTTCCAGATCGAGAAGAACGAGATCGTCTCCATCTTCAAACGGGAGGAAGCGGCCCGCCTGGAGGAATTGCTGCTGGAGATCAAGGGCATGTTGAATGAGGAGAAGGAATTGTTCCTGGTCACGATTGCGGTCAGCTCCCAGGTAAGCGATTCGTCCGAATTCAATCAAGCCTACCATCAGGTCAAAGGATTGGCTGCGCAGGCTCCGCTGCTCGAGGAATCGCAGATCGTGACCACGCAGCGGGTACTCCCTACCACCGTGAGCCTAAGCCCGCCGCAGGAAAAAGGGCTGCTCGACGCACTGCAATCCGGCAGCGACGGCCGCTCCCTGCAGATCATCGACCAGGCGCTTGAAGCCATGCAGCGCAAGGAGGCCGGCATCGCGCAATTTCGTTTCTTCGCCGATTCCGTCGCTTCCAAAATTCTAAGTTTTATGGAGATGGCCCAGATTGACAAAACCTCCGTCCAATCTTTGAAGCAGTGGAGTGCAAGATTGGCGGAATGCCATTGTTTATCTGATTACCAAGGCGTATTCCGTCAGCTCGTCGAAGCCTCCTGTGCCCTCATCCGCAAGAAAAAGGATACCGGGGAAGAGCCGCTCATCGCCATGTTCATGAACATTGTCCATAACCAGTATGCCGATGATCTGTCTCTCGACTATCTGTCAGCCAAGCTGAACCTGTCGAGCGCCTACCTCTCCGTTTATATCAAGGAGAAGACCGGTCTCAACTTCAGCGATCACCTCCTCGGCATCCGCATGAACAAAGCGAGGGAGCTGCTGGCGTGCACCGACCTGACCGTCAATGAGATCAGCCAGCGCGTAGGCTATCTCAACATTACCTCCTTCAACCGGACATTCAAGAAGGCCGTCGGCATGACGCCGGGCGCATACCGCAGGCAGCATGTGGTGCAGACCCATGCGAGCGGATCCTGA	MNWIRHKSHSVFFKIFLSFLAIIVLFGLFYAVIFQLFKTSLQKEIIDNSQRSVHDTAERFNNQFSRLQVLMFDIYNQSELIGFNNQLRHQTGNEVNYLKARDVMMQMRSDIYNPLFFLEDTLIYLREFDFVLSKSGSGDAAYMFNRSYTSPMYPYSFWNGYTGDPESFKLLPASTYRINNDLSEKTLMPFVYKQPDSPYEVIALIDIDKAAQSFFGESNDRALAILNAEGQVLYTLGSMDQDQLPPFEAGQKAVLKDGTYYFAEAGSDGLTYVSAVPYSHVSSQLSRLTGGLLLIFCLSLGVALAASYFLSRRLHKPVKQILTTVLNRASSSAMPETGSVTEYDLIQNRIQELFREKEEIRDRMNKHKSVLTSYSYISQLKSINTDISEWEDFLSDDGSFIVVLYHIRFRMNPVYELPLQTDQAVRHMLEHIHLITAERYPGSHTFQIEKNEIVSIFKREEAARLEELLLEIKGMLNEEKELFLVTIAVSSQVSDSSEFNQAYHQVKGLAAQAPLLEESQIVTTQRVLPTTVSLSPPQEKGLLDALQSGSDGRSLQIIDQALEAMQRKEAGIAQFRFFADSVASKILSFMEMAQIDKTSVQSLKQWSARLAECHCLSDYQGVFRQLVEASCALIRKKKDTGEEPLIAMFMNIVHNQYADDLSLDYLSAKLNLSSAYLSVYIKEKTGLNFSDHLLGIRMNKARELLACTDLTVNEISQRVGYLNITSFNRTFKKAVGMTPGAYRRQHVVQTHASGS				NA	NA	NA	NA	NA
AK002_01298	894	yteP_14	COG4209	putative multiple-sugar transport system permease YteP	ATGATGCAGATGCGCAGAAACTGGCAGCTATACGCTTTATTTGCACCGGTTCTGTTGTACTTCATTGTATTTCATTATGTACCCATGTATGGCGTCCAGATTGCATTCAAGGATTTTATGGCTAACAAAGGGATCATGGATAGCCCATGGGTGGGCTTCAAACATTTTGAACGCTTTTTTGACAGCTTTTATTTCTGGCGCATTATTAAAAATACGATGGGTATCGGGTTATATGAGCTGGCGGTCGGATTTCCGATTCCGATCATTCTGGCCCTAATGATTAATGAAGCCAGATCGGGCCGGTTCCGCCGATTCGTACAAACGGTAACTTATGCACCTCATTTCTTGTCCACGGTCGTTGTTGTCGGAATGATCATGATGTTCCTGTCGCCGGTAAGCGGCCTTGTCAATTTGATTATCACCTCCTTCGGCGGAGAGCCGATTGCATTCATGACGGAGCCCTCCTGGTTCAAGAGCATCTATGTGTGGTCCGGCGTGTGGCAGGGCATGGGCTGGAGCTCCATCATCTATTTGGCGGCACTCGCCGGGATCGACCCGCAGCTGCATGAGGCGGCCAAGGTGGATGGTGCGGGCTGGCTCCGGCGAATCTGGCATATCAATCTGCCGGGGATCGCGCCCACGATGACGATTCTGCTCATTCTGAACATCGGCTCCGTTCTTGGCGTCGGCTTCGAGAAGATCTTCCTGATGCAAAATTCGCTTAATATGGAAGCGTCCGATGTCATCGCCACGAACGTATACCGGAGCGGCATACTGGGCGCCCAGTATAGCTTTTCGGCTGCGGTCGGCCTGTTTAACTCCATCGTCAACTTTATCATGCTGATTACCGTAAACCGGATTGCCCGAAAAGTCAGCGAGAACAGCCTATGGTAA	MMQMRRNWQLYALFAPVLLYFIVFHYVPMYGVQIAFKDFMANKGIMDSPWVGFKHFERFFDSFYFWRIIKNTMGIGLYELAVGFPIPIILALMINEARSGRFRRFVQTVTYAPHFLSTVVVVGMIMMFLSPVSGLVNLIITSFGGEPIAFMTEPSWFKSIYVWSGVWQGMGWSSIIYLAALAGIDPQLHEAAKVDGAGWLRRIWHINLPGIAPTMTILLILNIGSVLGVGFEKIFLMQNSLNMEASDVIATNVYRSGILGAQYSFSAAVGLFNSIVNFIMLITVNRIARKVSENSLW	PGPT0017250_652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01299	882	melC_8	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGCCGCAAAGCCGCAGTGAACGAATAGCCGGAGTATTTATTTACATTATATTATCATTTATTACGCTCCTTGTGCTCTATCCTTTATTTTTTGTTCTGATTGCTTCCATCAGCGCCCCGGAAACGGTGATGCGGGGGGAAGTATGGTTATGGCCGAAGGAATTGTCGTTTGTCGGTTACGAACGATTATTTGCCAACTCGGATCTCATGCGGGGATTCATGAACACGCTGCTGTATACGACGACGGGAACGGCCTTGAATGTACTGATGACGATAGCAGCTGCTTATCCGTTGTCCAGAGCCGATTTTAACGGCCGCGGCATTTTTACGGCGATCATCGTATTCACCATGTTCTTCAGCGGGGGAATGATCCCGAATTACTTGCTGGTGAAGGAACTAGGGATGCTGGATACGATTTGGGCCATTATTATCCCTTCGGCCGTATCCGTGTGGAACATCATTATTATGCGGACCTTCTTCCAGAGCTCCATTCCGAAGGAGATGCAGGAGGCGGCGTTTATTGACGGAGCTTCCAACATGCGGGTGCTATGGCGCATCGTCCTGCCGTTATCCGGTCCGATTCTGGCCGTGATGGTGCTGTTCTATGCCGTGGGCCACTGGAATTCGTATTTCAGCGCACTGATCTACTTGTCAGACCGTGCGAATTATCCGATGCAGCTGTTCCTGCGTGAAATTCTGGTTCAGGGGCAAATGCAGGAGATGGTGGATATCAGCGATGATTCACTGGCACGCAGCCTGATGGATGCGGAAGCGATCAAATATGCGGCGGTCATCGTGACGAATCTGCCGATGCTGCTGCTGTATCCGTTCCTGCAAAAGTATTTTGTGAAGGGTGTTATGATTGGTGCAATTAAAGGTTGA	MPQSRSERIAGVFIYIILSFITLLVLYPLFFVLIASISAPETVMRGEVWLWPKELSFVGYERLFANSDLMRGFMNTLLYTTTGTALNVLMTIAAAYPLSRADFNGRGIFTAIIVFTMFFSGGMIPNYLLVKELGMLDTIWAIIIPSAVSVWNIIIMRTFFQSSIPKEMQEAAFIDGASNMRVLWRIVLPLSGPILAVMVLFYAVGHWNSYFSALIYLSDRANYPMQLFLREILVQGQMQEMVDISDDSLARSLMDAEAIKYAAVIVTNLPMLLLYPFLQKYFVKGVMIGAIKG	PGPT0017255_2077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01300	1629	lipO_7	COG1653	Lipoprotein LipO	ATGAAACTTATGGTGATGAAAAAATGGACTTCGCTTACATTGGCTGCCGTGCTGGCCGCCGGATTGCTGGCTGGTTGTGGGAGCAAGAGCGGGGAGGGCGCAGCCGATAAGGGCGAAACGCCGCAGGCAAATTTTAACGAGACCGGAATGCCGATTGTGAACGAGCCCCTCGACCTTACGTTTTTCACAGGGAAGTCGCCAACGAACGGAAGCAAATTCGAGGAAACCCTTGTATGGAAAACCTACCAAGAAATGTCGAATGTAAATGTGACCTGGAACCTCATTCCATTCGATACGCTGACCGAGAAGCGGAACTTGGCGCTTGCAGGCGGGGATTATCCGGATGTGTTCTATTCCGCAAGGGTCAGCTCCGCCGAATTGACCCGCTATGGGGAGCAAGGAGTATTTATACCGCTGAACGATCTGATCGATCAATATGCTCCGAATTTCAAAAAGCTGATGGATCAGTACCCGGATATTCGAAAAGGATTGACGATGCCGGACGGCAATATCTATTCCCTGCCTTCTTTTTATGATCCAGAACTGCTCTCCATGTTGATTGGCACCCCGATATGGATTAATCAGGAATGGCTCGATCAGCTCGGGATGAAAGAACCGCAGACGACCGAAGAATTCTATGCCTATTTGAAGGCGGTCAAGGAAACCGATCTGAACGGCAACGGACAGCATGACGAGATTCCTTTCTCCTCCACAGGCATTACCGGGATCATCGATCATTTGAAAGGCTCTTGGGGACTTGGCACGAGCGGACTTGGCCATAAATTGGTGGATGTCGATCCGGACACTGGGAAATTGCGCTTTACCAAGGCCTTGCCGGAGTACAAGGAAATGCTTCAATTCGTCAACAAGCTGCACCAGGAAGGGCTGCTCGATAAAGAGATCTTCACGATTGAAGGCGGCGCGTTGAATGCGAAAGGGCAGGAGGGCCTGCTCGGTGCCACGATCGTGCCGAATCCGGAGATGGTCATGGGACGCAAAGAATACATCGGGCTCGGGGCGCTTAAGGGACCGCACGGAGACCAGCTCTATTCCCACGTCAAAGTGCCGATGGTTCACGTGGGTGCATTTGCGATTACCGATAAGAACCCGAATCCGGAAGCCACGATCCGTTGGATGGATTATTTCTACGGGGATGAGGGAGCCCAATTCTATTTCATGGGTAAAGAAGGAGAGACTTACACGAAGAACACGGACGGTCAGTTGGAATATGTGAAAGAGATTACGGAGAATCCAAACGGATTAACGCAGGATCAGGCATTGGCCAAGAATTTCACTTGGCTCGGGGGCAGCTATCCGGGCTTTGTGCGGGAGAAATGGTTCAAAGCTTCGGAGACGCGCCCTAACGCCATGGCTGCTGCCGAAAAGGCAGAGCCGTATGCCGTGAAGGAGATCCTGTACAACTTTAACTTTACATTGGAGGAAACGGACGTCATGACCTCGATCGGTAAAGATATCGAGGATTACGTGAAGGAAATGGAAGCGAAATTCGTGAACGGCTCGGCCTCGTTCAGCCAATGGGAAGAGTATGTGAACACGCTCAACAAAATGGGTCTGGACCGGTACATGGAAGTTTACCAGGCCGCATATGAGCGCTATCAGGCGGAGTAA	MKLMVMKKWTSLTLAAVLAAGLLAGCGSKSGEGAADKGETPQANFNETGMPIVNEPLDLTFFTGKSPTNGSKFEETLVWKTYQEMSNVNVTWNLIPFDTLTEKRNLALAGGDYPDVFYSARVSSAELTRYGEQGVFIPLNDLIDQYAPNFKKLMDQYPDIRKGLTMPDGNIYSLPSFYDPELLSMLIGTPIWINQEWLDQLGMKEPQTTEEFYAYLKAVKETDLNGNGQHDEIPFSSTGITGIIDHLKGSWGLGTSGLGHKLVDVDPDTGKLRFTKALPEYKEMLQFVNKLHQEGLLDKEIFTIEGGALNAKGQEGLLGATIVPNPEMVMGRKEYIGLGALKGPHGDQLYSHVKVPMVHVGAFAITDKNPNPEATIRWMDYFYGDEGAQFYFMGKEGETYTKNTDGQLEYVKEITENPNGLTQDQALAKNFTWLGGSYPGFVREKWFKASETRPNAMAAAEKAEPYAVKEILYNFNFTLEETDVMTSIGKDIEDYVKEMEAKFVNGSASFSQWEEYVNTLNKMGLDRYMEVYQAAYERYQAE	PGPT0017245_1653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01301	987	galM_1	COG2017	Aldose 1-epimerase	ATGGAGGCATGCCCAGCGGTTGAATCATGCACTTTTCTTGACATGCCTGCAGTGAGGGCCGAGAACGATCGCTTATCCATGACGGTGGTTCCGGGCTGGGGGAGCAGAGTCATCTCGCTGCGCTGGAAACCATCAGGCACCGAATTGCTGCGTACGCCGTCCTCCATGACGGAATATGAGCAGACACCCTTTTTATACGGCATGCCTGTCTTATTTCCGCCCAATCGGATCGAGAACGGCAGCTTTACCTTTGAAGGACGCCCCTATCAATTCCGCATCAACGAGCCGCAGCATCACAATCATGCGCACGGACTTGTTCATGACGAAGCATGGGAAGTCGGACGGTGCTGGACCAAGGGGAATCGGGCCGTGATCGAAACCGTGTTTTCTTCAAGAGGCCGCCCTGCTGTCATGTCGCAATTTCCGCATGAGTTCACGATCCTTCTGCGCATGAGCATTGACGGCGCTTCGTTCAGGCAGACGGCGGAAATCCGCAACAAAAGCAAACACTCTTTTCCATGGGGACTGGGGTATCATACCACCTTCCGCTTTCCCTTCGGGGATGCGGAAGATCAGGAGCGCTGCACGCTGAGGGCGCCTGTCGGGAAACGATGGGTCCTTAACGACCGGGTGCTGCCGACTGGGGAGCTCGCTCATGACTTCCGCAGCAGAGGCCTGCGGGACGGCATTTCCGTCAGTCAGTTCCCGCTCGATGACTTGTTCCTTGCCATGCCGGAAGACCGTAACGAAGCCGTATTGACGGATCCGGCGGCTGGCCTTCGGGTTACCTACCGCGCGGATGACGCCTTCAAGCAGTGGGTGCTGCACAATGGCGATGGGGCGAGCGGTTATCTATGTCCGGAGCCTTATACTTGCGCTACCAATGCCTTCAACCTGGGGATGGATCCGGAAATCACCGGCATGCAGGTGCTGGGGCCCGGCAGGAGCGCCCTGCTGTTCTGTACCATCCATGTGGAAGAAATCTGA	MEACPAVESCTFLDMPAVRAENDRLSMTVVPGWGSRVISLRWKPSGTELLRTPSSMTEYEQTPFLYGMPVLFPPNRIENGSFTFEGRPYQFRINEPQHHNHAHGLVHDEAWEVGRCWTKGNRAVIETVFSSRGRPAVMSQFPHEFTILLRMSIDGASFRQTAEIRNKSKHSFPWGLGYHTTFRFPFGDAEDQERCTLRAPVGKRWVLNDRVLPTGELAHDFRSRGLRDGISVSQFPLDDLFLAMPEDRNEAVLTDPAAGLRVTYRADDAFKQWVLHNGDGASGYLCPEPYTCATNAFNLGMDPEITGMQVLGPGRSALLFCTIHVEEI	PGPT0017825_4000	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
AK002_01302	1005	iolG_6		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGATCAAATTCGGAATCGTAGGCATGGGGATTCGCGGCAGCATGTTTGCCGATACCCTCAACCAAAATCCTTATGCGGAGCTGGCCGCGGTCAGCGACGCTTATGAAACAACCTTAAATGCCAGCATGGAGAAATACGGGGTTCCCGGGTATTTGCAGGTTGAGGATATGCTCGAAAGCGAGGCTTTGGATGCCATCGTGATTGCCACGCCGGATTTCCTGCATAAAAAGCCCGTTATGCTCGCGGCACGGCAAGGCATTCATATCATGGTTGAAAAACCCTTCTCCACCTCCGTCGAGGAGGCCGAGGAAATGTACGCCGCGGTAGAGAAAGCGGGCATCAAATGCCTCGTCGCATTTGAGAATCGCTGGAATTCTCCTTTTGTTGCGGTTAAGGAAGCCGTCCGAAATGGGGACATCGGCCATATTCTGACCATCAACACCCGCTTGAATGACACCATCTACGTGCCTACCAAAATGCTGAAATGGGCCGGGGAATCCACGCCGGGCTGGTTTCTATTCCCGCATGCTACGGATATTGCCTTATGGCTGAAGAGCGGGGTTCTGCCGGTCAGCGCCTATGCGGTAGGGACGAAGAAGAAATTGGCCGGGATGGGGATCGACACCTACGATTCCATGCAAACGATCGTCTCCTTCGACGATGGCACGCATGCAGCATTCACGACCAGCTGGGTGCTGCCCGAATCGATGCCGCTGATCTACGACTTCAAGGTCGAGATCATCGGCGAGGACGGGGCATTGTATGTCGACTTATCCGACCAGATGGTCCGTAAGGGCGGCAGCGTCTACAGTCATCTTCATACGCTCGGTACGCCGATCAACGGCCAATATACCGCGGCGCCCCATTATATGCTCCATTCCTTTGTCGACCATATCCGACTGGATACGATGCCGGAATCCGGCGCAGCTGCCGGCCTGCTGAATACCAAGCTGGTGCATGCCATCCATCGCTCCGTCTTAAGCGGACAGGTTGAGCAGGTGTGA	MIKFGIVGMGIRGSMFADTLNQNPYAELAAVSDAYETTLNASMEKYGVPGYLQVEDMLESEALDAIVIATPDFLHKKPVMLAARQGIHIMVEKPFSTSVEEAEEMYAAVEKAGIKCLVAFENRWNSPFVAVKEAVRNGDIGHILTINTRLNDTIYVPTKMLKWAGESTPGWFLFPHATDIALWLKSGVLPVSAYAVGTKKKLAGMGIDTYDSMQTIVSFDDGTHAAFTTSWVLPESMPLIYDFKVEIIGEDGALYVDLSDQMVRKGGSVYSHLHTLGTPINGQYTAAPHYMLHSFVDHIRLDTMPESGAAAGLLNTKLVHAIHRSVLSGQVEQV				NA	NA	NA	NA	NA
AK002_01303	840	dasC_3	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCAAAGGGATCAGCAAAATCGCCGTTTATGCATGCGCCGTTCTCATTTCGTTGTTTGCCGTATCCCCTTTTCTATGGATGATCCTGACTTCGTTGAAGCCTCAGGCCGAAATCTACAGCACGCCGCTGACATATCTTCCTCAAGAGCTTCATTGGGAGGGCTACAAGGGCATGCTGAATCCCCATGCGGACGACAGCGCCAACTTTATGAAATGGTTCGGCAATACGGCGTTTGTCTCGCTGCTAACGACGGTATTCTCTCTTATCATCTCCGCCTTTGGCGGCTATGCGATGTCCCGGTTCGGCTTCCGGGGACGGATGTCGCTCGGATATATCATCTTGTTGACGCAGATGCTCCCCGGCTCGCTGCTCATTATCCCGCTGTACCTGATCATGAAGGATTACAATCTGCTGAACTCCCATCTGGGCCTCGTCATTGCCTATACCACCTTTGCGGTACCGTTCTGTACCTGGATGCTGAAGGGCTACTTCGACAGCGTATCCCAGTCCATCGATGAAGCTGCGAGCGTTGACGGGGCTAACCGCTTCACAACCTTTATCCGGATTTTGCTCCCGCTCACGCTTCCCGGGCTCGTGGTAACCGGCATCTTCTCCTTCTTAACCAGCTGGAACGAGTTTATGTTCGCCCAGACGTTCATCAGCGATTACGACAAATGGACGCTGTCGGTCGGCATCGCCAGCTTTCAAGGACAGTATGTCGTCAACTGGGATTACCTCATGGCGGGCTCCGTCATAACCACGCTTCCGATCGTGATTGCGTTCTGGCTGCTGCAAAAGCATCTGGTCAGCGGAATGACCGCCGGAGCCGTTAAATAA	MSKGISKIAVYACAVLISLFAVSPFLWMILTSLKPQAEIYSTPLTYLPQELHWEGYKGMLNPHADDSANFMKWFGNTAFVSLLTTVFSLIISAFGGYAMSRFGFRGRMSLGYIILLTQMLPGSLLIIPLYLIMKDYNLLNSHLGLVIAYTTFAVPFCTWMLKGYFDSVSQSIDEAASVDGANRFTTFIRILLPLTLPGLVVTGIFSFLTSWNEFMFAQTFISDYDKWTLSVGIASFQGQYVVNWDYLMAGSVITTLPIVIAFWLLQKHLVSGMTAGAVK	PGPT0016540_6287	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_01304	978			hypothetical protein	ATGAATCCAATGCGAACGGATGTGACAAGCAGGCAAACTCCCTTGCCGTTGAAGAGAGCTTCGAAGGCCAAGCGATTATGGCTGGAGGAAAAACGGCATTTCAAAAAAAATACAGCCGCCTATTTATTTATTGCGCCGCTGGCCATTACCGTTGCTATTGTACTCCTCTATCCGATTTTGAAATCGGCGCTCATGAGTGTGCAGTACTGGAAGGTTGCGAAGCCGATTGCCGAAGGCAATCCCTTCGTAGGCTTGGACAACTATGCTGCCGCCATCCAGTCGGGGCATTTCCTGAAATCGTTGGGCATTACCTTTCTATACATTATCGTGACGGTGGTTCTGCGTTTCCTGCTGGGAATCGGTACGGCCGTCCTGCTGAACATTCCCTTTAAGGGCCGTGGGCTTGTAAGAGCGCTTGTGATCATCCCATGGGCCGTCCCTGAAGTCGTTGCTTGTCTCGTATTTATTCTGATGTATGATTACCAATTCGGCGTGATCAACGATCTCCTGCTGAAACTCAACCTGTTGTCCAATCCGGTCGCTTTCCTCGGCGAAGCCGAAACCGCGCTCTGGGCAGCCATGTTCGTCAATGTATGGAAGGGCTTCCCGTTCGCCGCCATCATGCTGCTCGCCGGTCTGCAGAGCATATCCAAAAGCTTGTACGAAGCGGCGGAAATCGACGGTGCCTCGAAATGGCGCCAGTTTCTCAGCATTACCTTCCCGATGTTGAAGCCCGTATCCGTCATCGTCTTCCTGCTGCTGATCATTTGGACCATTAAGGATTTCGGCATCGTCTACGTCCTCACCGGGGGCGGACCAAGCCGGGTAACCGAAATACTGACCATTTTTATCTACAGGGCAGGGTTCAAATCGTTTGACTTCGGTTTGGCTTCCGCTGCTGGGATGATCCTGCTGGCGATCTCCATCGTATTCACTGTGATGTACATGAAAGCAACGAAGGCAGGTGAAATGTCATGA	MNPMRTDVTSRQTPLPLKRASKAKRLWLEEKRHFKKNTAAYLFIAPLAITVAIVLLYPILKSALMSVQYWKVAKPIAEGNPFVGLDNYAAAIQSGHFLKSLGITFLYIIVTVVLRFLLGIGTAVLLNIPFKGRGLVRALVIIPWAVPEVVACLVFILMYDYQFGVINDLLLKLNLLSNPVAFLGEAETALWAAMFVNVWKGFPFAAIMLLAGLQSISKSLYEAAEIDGASKWRQFLSITFPMLKPVSVIVFLLLIIWTIKDFGIVYVLTGGGPSRVTEILTIFIYRAGFKSFDFGLASAAGMILLAISIVFTVMYMKATKAGEMS	PGPT0016535_1132	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_01305	1368			hypothetical protein	ATGGTAGACAGAAACAGAAAGAAAAAGGGATGGACGGCGCTGATCACTGCAGCCGTTACGTTATCAACCGTATTAAGCGCCTGCTCGGGTGGCAAGGAACCGGCCTCCGCAAGCAACGCCCCGTCCGACGGCGATCCAATTACGATCTCGTTCGAGACGTCGGTATACGCCGAAGAACCTCATAAGAAGGCAATCGATGCACTCATTGCCAAATACAATGAAACCCACCCTAACGTCACCATCAAAGTTCATGGAACAGACTACGAGAATTACTGGGATAAACTGACCACCGAGATTCTGGCAGGTACGCAGGGCGACATCGTTCAGGTATACCCGGAGAATATCGCCACCTATAATGCGCTGCAGAGCGGGGGCACCTTCGTGAATCTCGATGAGAAGATTCAAGCGAGCGGACTTGAGGACAAGCTTGTCGGACAGGAACTAAGCAAGGTGGACGGCTCTTATTATGCCTTATCCAATTACGCATGGGGATCAACCGGCATTTTCTACAGCAAATCGATGTTCGAAGCCGCCGGAATCGATCCGGCCTCCATTCAAACGATGGATGATTTCAAAGAAGCCGCCATACAGCTTGGCGGTGTTCAAGACGGACAATACGGGTTCTCCAGCGTCATCGGCACCCATCCCTTTATCGCCTCGGAATGGTACCGGCTGCTCGCTCGTCCCGTATCGGGAGGCATTTACTTCCCGGACGGCGAAGCTGGACCTTACGAGGCCGACCGGATTAACGTTAATTCCGCACCAAACGTTTGGGCAGCGGAGTGGTGGCAGGATCTGATCAAGAACCCGCAGGCAACGCCTCCGGGAACCCGCGACAAGAAGGTCAGCCGCGAGATGTTCTGGAACGGTCAGGCCGGCATGATGATGGATGGTCCCTGGTTTATCGGCATGACCAAAGAACGCGATGAAGCTTTAATGGACGACCTGGGGCTCATGCCGCAGCCTTCCGTCGAATACGAGGGTCAAACCTATAAACCGAACCCGCACAATTATCCGATCGTGTCGATGATTTCCAAAGACAGCAAGCATCCTGAGGAAGCTTGGGAGTTCCTTGAATGGATGACCTCCCGGGAAGCGCAGCAAATTATTGCCGGTTCCGGCATGATCCCGAGCAGTAAGGAATACGCCGAATCCGAAGAATACAAAACGGAGAATCCGCTGGCTGCCCAATTCTTCGATTTCCAGGAGAATGTATACGCCCCGGCCGTGATGGACCCGCCCATCCCTGAGCTTGGCTCCCTGTCCCAAATCCTCATCAATGCCGCGCAGGAGATGTTCGTTGGCATGAAAGACGCCAAGACGGCGCTGGATAGCGCGGCTGAGCAGATGAAAGACACGATGCATTAA	MVDRNRKKKGWTALITAAVTLSTVLSACSGGKEPASASNAPSDGDPITISFETSVYAEEPHKKAIDALIAKYNETHPNVTIKVHGTDYENYWDKLTTEILAGTQGDIVQVYPENIATYNALQSGGTFVNLDEKIQASGLEDKLVGQELSKVDGSYYALSNYAWGSTGIFYSKSMFEAAGIDPASIQTMDDFKEAAIQLGGVQDGQYGFSSVIGTHPFIASEWYRLLARPVSGGIYFPDGEAGPYEADRINVNSAPNVWAAEWWQDLIKNPQATPPGTRDKKVSREMFWNGQAGMMMDGPWFIGMTKERDEALMDDLGLMPQPSVEYEGQTYKPNPHNYPIVSMISKDSKHPEEAWEFLEWMTSREAQQIIAGSGMIPSSKEYAESEEYKTENPLAAQFFDFQENVYAPAVMDPPIPELGSLSQILINAAQEMFVGMKDAKTALDSAAEQMKDTMH	PGPT0016545_2220	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_01306	2232	yesS_4	COG2207	HTH-type transcriptional regulator YesS	ATGAATCGTAACTGGTTTACGCGGATGCTTATGCTGTATATCCCTGCTTTTCTGATCGTCCCCGCCTTTTTATTTTTCGTCTTTTTCCAATCATTGAGCGAAAGCAACCGAAAGGATGCCGAGCGTTCCAATGCTTTCGTAACCCAGCAAGCGATGCTGATGATCGATACGTCGTTGTCTTCTCTGGATCAGAAAATTTCACTTGAGATGCTGCGCAATCGAAAGGTCATCTCCTTTTTCTCCAGAAGCACGGAAAAGGATCTGCCCCTTCAGGTGGACGTGATGAATCTATTGCGCGATTTAAAAATGACCAATCCACTGATTCATTCCATTTACATGGTTCAAGCGGATCATAATCAAGTCCTCAATGAAAGCACAAGCTATTCCTTGGATCAATATGCCGATAACGCCTTCATCCGCTCCAAGCTGGAAGCACCCAACAGCCATTGGTCGGATACCAGGCTGTACAAGGAGCTTCCGTCCGACAAAGGGGTCCCTGTCGTCTCATTGACGCGCAGCGTTTCCATCTTCTCCAAGCATCATGGGTTAATCGTCGTTAATGTAAGCGCTGACGCCCTGCAGGGAATGCTTCTTCAAATGCACGATCCGTCTTCCCGCATACTAAGCCTATATGATACGCAAGGGAACAGCGTGTTCGATATGGCAAAATCGGAGACTTCAGTCAGCAGGGGCGGAACCAGCAACGGCGCCCTTCAGTCGGAAGCGAATTCCGACTATACGGGCTGGCGCATCGTTAGCAGCGTTCAGGGAGCGGATACCTTCAATTTCATCATCAGCCTATCGAATATATGGTTTATTGCCGGTTTGCTTCTCTGTGCCGTTTCGGTCGCCTGGATCGTCTACGTGACGCTGCAAAATTACAGGCCCATTCAGCGCCTGGTCAACCAGCTGCAGCAGCTATCCTCCAAGGAGGACGCCCCGGAGGAAATCCATAAAAACGAATTTACGTTCATCAATTCCAAATTGCAAAACATGATTGATCAGAACACAAGGTTCCAGCTTCAGTTCGAAGAGGATTTGAAGGCTCAGCAAAATTTTTTCGTGTACGAGCTGCTGGAAGGGACGCGCTCCTTCGATTTGAAGGAATGGGAGAAGGAATCGGCCAAGCATGGCCTGCCCGTGCTGTTTGGCAAGCAGCTGGTTTTTGTCCTGGAAGTGGATCACCGTTCCGAGTGGAGCGCAAATTACGGTCAGATGCAGCATGGCACTCAGCAAAAAGCCATCGAAACCATCATCCTGGAAGCGGCGTCGGATCATGCCTGCGAGGTGAAGCTGCTCTGGGTATCCTTGCACCAGCTTGCTTGCATTCTGGTCATATCGCCTGAAGCGGAGAAGCTGGCATTCGAGGCAGTCTCCTTCGCGGAAGAATGCCAGCGCCGATTTGCCGATGCCTTATCGTTCACCTTATCCGTCGGCCTCGGGGAGCCGGTCGAGCATCCGGACAATCTGCATGATTCATACCATGAGGCATTGGATGCGCTGCAAACGAAGCCCGTCAATCGAAGTGCCATGATCATTCCTTATTCGTCCGATCCCTTGTCGAAGGATCATAGCTTTCATTATTTTCAAAAGGTTGACCGGATCGTTGACGCCTTCCGACTCCAAGAAGCCAAGTGGAAGACGGAAATGCAGGCGCTCTTTCAGAACATGCTGGGAGAAGGCATATCGCGCCGGGGCGCAAGCAGTGTGCTGCATTACCTGACCTACCATCTGAACAAAACGGCTTCCGGAATGAACGACGAATACTACCTGCTCTGGAAAACAGAAACGATGCCGGCACTCGACCGGGTTCAAAAAGAAATCGACCTGCCGGAGGATTGGACGCAGATGGTGCTTCAGCTTCTGGAGCAATTTGCCGAACGGCTGGATACGCAGCGGAATCTGCGAAGCCAGGGAAACCTCGTCCAAGAGGTTAAGGCTTATATTGAAAAGCATTATACAAAGGCGGAACTATCCCTTGATTACCTGCAGGACAAGTTCGGGATCAGCGGCAAATATTTGAGCAGATTGTTCAAGGAAGAGTACGGCTTGAAATTCGTAGACTTTTTGATTGATTTACGAATTCAGGAAGCGAAACGGCTCCTCACGGAAAGCGCATTGTCTGTACAGGAAATTACGGAGAGGGTAGGTTACAGCAGCCCGATTTCATTTGCAAGGACCTTCAAAAAAATAACCGGCGTCCCCCCGATGGATTACCGCAAAGGCAAATAA	MNRNWFTRMLMLYIPAFLIVPAFLFFVFFQSLSESNRKDAERSNAFVTQQAMLMIDTSLSSLDQKISLEMLRNRKVISFFSRSTEKDLPLQVDVMNLLRDLKMTNPLIHSIYMVQADHNQVLNESTSYSLDQYADNAFIRSKLEAPNSHWSDTRLYKELPSDKGVPVVSLTRSVSIFSKHHGLIVVNVSADALQGMLLQMHDPSSRILSLYDTQGNSVFDMAKSETSVSRGGTSNGALQSEANSDYTGWRIVSSVQGADTFNFIISLSNIWFIAGLLLCAVSVAWIVYVTLQNYRPIQRLVNQLQQLSSKEDAPEEIHKNEFTFINSKLQNMIDQNTRFQLQFEEDLKAQQNFFVYELLEGTRSFDLKEWEKESAKHGLPVLFGKQLVFVLEVDHRSEWSANYGQMQHGTQQKAIETIILEAASDHACEVKLLWVSLHQLACILVISPEAEKLAFEAVSFAEECQRRFADALSFTLSVGLGEPVEHPDNLHDSYHEALDALQTKPVNRSAMIIPYSSDPLSKDHSFHYFQKVDRIVDAFRLQEAKWKTEMQALFQNMLGEGISRRGASSVLHYLTYHLNKTASGMNDEYYLLWKTETMPALDRVQKEIDLPEDWTQMVLQLLEQFAERLDTQRNLRSQGNLVQEVKAYIEKHYTKAELSLDYLQDKFGISGKYLSRLFKEEYGLKFVDFLIDLRIQEAKRLLTESALSVQEITERVGYSSPISFARTFKKITGVPPMDYRKGK				NA	NA	NA	NA	NA
AK002_01307	210			hypothetical protein	ATGGAGCCAAAGACAACTTTCAGCGATATTCCCAAAGGGTTCGCGGCGTGGTTTTTTAAGCAGAGGCGCAGATATACGTCAAACAAGAAGATCGAATGGATGGTTGAGCGGCTGTTCCAAGGTCTTCTTATCGTTTGGGGGATCATTCTCATTCGGTGGTTCATCCTGATCACGGTTGCAACGATGCGGCATTTCGGGGTTTTTGATTGA	MEPKTTFSDIPKGFAAWFFKQRRRYTSNKKIEWMVERLFQGLLIVWGIILIRWFILITVATMRHFGVFD				NA	NA	NA	NA	NA
AK002_01308	225			hypothetical protein	ATGCTCAATATCAGTCGCGGTTTATGTAAAATGGCTGCCAAGCAACAAAAAAAAGCCTCGACCTCCAAGTCGGGCTTCCCAGAGCAGCAGCTGCATTCGAGCTGGTGGCTTGCTTATTCTTTTCTTTCATATGTATTCTGGAATCCTGCTTATAACATGCGCCAGCCTCGGATCATCTCACACTTCAATCAAAAACCCCGAAATGCCGCATCGTTGCAACCGTGA	MLNISRGLCKMAAKQQKKASTSKSGFPEQQLHSSWWLAYSFLSYVFWNPAYNMRQPRIISHFNQKPRNAASLQP				NA	NA	NA	NA	NA
AK002_01309	5106			hypothetical protein	TTGAAGCATAAAAGCATGAAAGTAGTCTCGCTGTTGATGGCAGCGGAAATCACGATGGCCTCTCTGTTTTCGGGGGGCAGCGTGTATGCTGGCGAGGGGCAGGAATTGCTCCAGACCGCCAGTATGGAGACGACATCACAAGATGCAGCTATAGCTGCCGTGGATTTGGGCATTACCGATATGATCTTTCCGGATGCATATGCGGATGAGCCGTATGCGGTCACCGTAGATGTATATGGCGGACAAGCGCCGTATACGTTCTCGGCGACAGGTTTACCGGCAGGCTTGACCCTCGCTTCTGATACGGGAGCCATTTCAGGTACGCCTGCGGCTGGGCAAGAGGGCGAGCATACGGTTGAGGTAACGGTGCAGGATAGTGCAGCCTTACCTGCTACGGCCCAATCGGTTGTGAAATTGCAAATTTTGGGCAAGCGTCCAACACCTGTGGCCGACAAGCTGGCCATGAAGATGATCGGACATTATTCCGTAGGTACTTCCAACAAGGATGGCGGCGTAGCGGAGATTGTAAAATACAACAAAGATAACGGGAAGCTCTATTTGGTTAACGGATCGACCCAGCCGGCCAGCCTCGAAATCGTGTCTCTAGGCGCCGATGGCAGCTTGGTTAAGGACAAGCAGATCCATGTAGAAGATATGGCGAACACGGGCGGTTTCCTGTATGGAGACTTGACCAGCGTGGATATCAACACCAAGACGAAGCAGGTCGCGGTTGCCGTTCAGGAGCGGGATCATACGAAAGCCGGCAAGGTCCTGGTGCTCGACTATGACGGCGGCTTGATCGGATCTTATGAAACCGGCGTTCAGCCGGATATGGTCAAGTACACGTCCGATGGCCGTTATATCCTGACGGCGGATGAAGGCGAGCCCCGCACGGAGACCGCCCCGGATCCGGAAGGAAGCATCACGATTATCGATGCTTTGGCTGGCGAAGTAAGCCATTTGAAGTTCGATGACCCGTCGATCATTGACGATCGGGTGCATATTCGCGGGAATGTGGAAGCAGACGGTCAAATTCGCAGCGCCGGAACGAAAAACGATGCCGTCCATGATCTGGAGCCCGAATACATCGCATTGTCGGAGGACGAGCTGACAGCGTACGTGGCCCTGCAGGAAAACAATGCGATAGCCGTGGTCGATATCGCCTCGAAGCGAATTCAATCGGTCCGGGGACTCGGATATAAGGATTTCAATCAATCGGAGAATCAGCTCGATTTGCTGAAGGATGGGCAAATCAAGTTTGAGAATGTTCCTTTTTACGGCATGTACATGCCGGACGGAATTGCGACCTACAGCGTGAACGGGCAGCAGTTTATCCTGTCCGCGAACGAAGGGGACGCTACCGGCTGGGATGACCGAAGCAACGAAAGCGACATCGGCAAAATGAAATCCAATCTGGATCCATCGTCGCCGGCAGCCCAATTCCTGGCTGGCAAAGGGACAACCTATGACAAGGTTGAAGTTGCGAGCGATATGGGCAATGAAGGGCTGTATCTGTACGGGGGGCGTTCCTTCTCCATCTGGAATGCGGCGGATTTGTCCCAGGCATACGACAGCGGCAGTGATTTCGAGAAGATTACGGCCGAGCGCTTGCCGAATCATTTCAATGCAAGCAATGACAAAACCGATCTGGACAGCCGCAGCGCCAAGAAAGGCCCGGAGCCGGAATATGTTGCCGTGGGCAAGGTCGGACAGAAGACGCTGGCTTTTGTCGGACTGGAGCGCATTGGCGGCGTCATGACCTATGACGTAACGGATCCAGCCGCTCCGGCGTTCCTGAACTACTTCAACTCGCGGGATTTCAACGGAGGCATCCAATCGGATTCCGGACCGGAGGGACTGGACTTTATTCCGGCTTCGGACAGCCCAACAGGACGTCCGCTGCTGCTGGTTGCGAATGAAGTTAGCGGAACGGTGGTGCTGCTGGAGCTTCAAGTGACCAAAATTACGGTGGATAAGCCTTCGCTCACGTTGAAAACGGGCGGGTCCCCGGAACCATTGCAAGCAAACGTTGAGCCGGTTCAAGGCGGATCGGCCGAGCTGGCCTGGAGTTCCACCGACGAAACGGTAGCCGCCGTGGACCAGAACGGCCTGGTTACGCCGGTATCCGCAGGTCAAGCCGTGATTACCGTCCTGAGCAAGGATGGCTACGGTTCGGCGGAAGTGTCGGTTAACGTAACGGACGGTTCGCCGGATGGAGAACCGTGGAAGTTAACAGTGATGCATACCAACGATACCCATGCGCATCTGGCGGAAGTGGCCAGACGGGCTACGCTGGTTCATGAGATCCGCAGCGAAGGCGGAAACAGCCTGCTGCTGGATGCTGGGGACGTCTTTTCCGGCGATCTGTATTTCACCAAATGGTTTGGGCTGGCTGATCTGGCCTTCATGAACTATATGGGTTATGACGCGATGACGTTCGGTAATCATGAATTCGATCAAGGCACCAAGACGCTTGCTGATTTCGTGAGCAAGGCACATTTCCCGCTCGTCAGCGCGAACGTGGATCTTAGCCGCGACGCTAACATTTCACATCTGATTAACAAGCCGGCGGTTATCGATACCGATCAGCCCAAGACAACCGCAAATAGCGGGGTATACCCATACGTGACACTGCAGGTTGACGGCCAGAAGGTCGGGGTGTTCGGCTTAACGACCGAAGATACCGCGGAAACCTCCAGCCCTGGTAAAGACGTGGTCTTCCGCGATGCGGTGACCTCGGCTCAGGCTACCGTTGAGGCGATGGAGAAGGAGGGGCTAGACAAGATCATCGCCCTCTCCCACCTGGGGTACGCTAAAGATCTGGCGCTGGCCGAAGCCGTCGAAGGCATCGACCTCATCGTCGGAGGTCATACCCATACGACGCTAAACGCGCCGGAAGTGGTGACGGACAGTCAGCATCATACCCCTACCGTCATCGTTCAAGCGAATGAATGGGGCAAGTTCCTCGGCCGGGTAGATCTGCAGTTTGATAAAAACGGCGTTGTTCTCGTGGGAGACGGCGAACTTGGCGGGAAGCTGATTCCGGTAGACAACACGGTCCAGGAAGACACGCAAGCGAAGGACATGCTGGCTCCTTACAAAGCGGAATTGGAAGAACTGATGAAGCAGGTTATCGGCATTGCCGGAGTCGAGCTTGACGGCAAACGCGAGAATGTCCGCTCCAAGGAGACGAACCTGGGCAATCTGATTGCCGACGGCATGCTGGCTAAAGCCAAAGAGCTGAAAAACGCCGATATTGCCCTCACGAATGGCGGAGGCATCCGCGCCGCGATTGATGAAGGTGATATTACGATGGGCGAGCTGCGTACGGTGATGCCTTTCGGAAATACGCTGTTTGTTATGGACGTCACCGGACAGCAGCTGAAAGACGGGCTGGAAAACGGAATAAGCGGTGCCAAACTGGCGGATCTGCCAGGGAAGTTCCCGCAAATCGCCGGGGTGAAATTCAAGTGGGATCCTAGCGCACCGGCAGGAGATAAAGTGTTCGACGTACAGATCATGAAGGACGGAAGCTACAAACCTCTGGTATTGACCGAAACGTACCGAATGGCAACGAACAGCTTTGTCGCCAAGGGCGGAGATGGTTATAAATCTTTTGCCGATGCGATTGCCGAAGGGAAATACAACGAGGATCTGGGTTACCCGGATTATGAAATTTTCATGGAATATGTGAACAAGCTGGGCGGTAAGGTATCGCCGAAGGTCGAGGGCCGAATTACGGAGCAGAAGAAGCCGGCGAATCCTGGCGACGGCTCTTCTCCTGGATCAGGATCAGGCGGGTCGGGGGGCGGTTCCGTAATGCCGCCGACAACGCAGCCTAATCCTCCTGCTACTGGCGGAAATGCATCCGAGCCAAACGTGATGACAGGCAGCAATTTGAATATTAGTGCTGCTGCAAGCGGAACGATGGACCGCATTACGGTAAAGGAAGAGGCGTGGAAAAAGGCCGTGACCGGCTTGTCCGCGAACGGGCAGCAGGAACTGATTATTCGGGCTCCTGAATTGAACCGTGCCGCGGAGCTGTCGCTTCCGGCAGCAGGCTTGAAGCAGGCCATGGAACGGAATCCGAATGCAACCCTGGTGCTGGAGACCGCACTCGGAGCCATCCGTCTTCCGATAACGGCACTGCCTCTGGATGAAGCTCTGGAGCCTGCACAGGGGTCCGGCGGCATCCAGGTGAAGGTGTCGGTGGCTCCGGCAGCAGGCAAGGTAGCGGATGCTATGACAAGCAAGGCCTCTTCCATGGGCGCCTCGTTGGCAGCGAATGGAGGACTGCGGTTCGGCGCAGCGGTTGGAGCGCCTGGCGCAGAGCAGGAACTGAAGGATTTCGGGAAGCGCGTCATCAGCCGTATCATGCCGCTGCCGGCTGGGATGAACCCGGATTCGGTTGCTGCCGTCATTTATGACGAAGCTGCGGGTACTTTCCGGTTTGTACCGGCCGTAAGGACGACATGGAACGGTAAAGCAGCGATTGAAGTCAAGCATGCTGGAAACGGCGTTTATGCGCTGCTGCAGTACAAGAAGACGTTTGCGGATCTTGACGGCCACTGGGCGCAATCGGAAATCGAATCCATGGCTTCCAAGCTGCTCGTGAACGGAGTCAACGCGGACTCCTATGCACCGGGCAAGGCGATCACGCGAGCTGAATTTACGGCCATGCTCGTCCGTGCGATGGGGCTCAGCCCGGTCATCGAGAGCGGTGCATTCAAGGATGTTCAGGATCATTCCGCGTATGCCGGCGAGATCGGCGCAGCCTCGCGCTACGGCTTAATCGAAGGCGGAAACGGCGGTGCCTTCTCGCCGAATGCCAGCATGACCCGAGCGGAAATGGCTGTAATGATCACCCGGGCCATGGAGGCGGTGAATCCGGCAGACCTATCCAACCAGGGCGCGAATGCCGCTGCCGGATTCAAGGATCAGGCATCCATTCCGGTTTGGGCGGCCGCCCATGTGGCCAGTCTTACTAAGCAAGGCATCGTGCAGGGTGACAACCAAGGCAATTTCGGAGCACTCGATTCGGTCACACGAGCGCAAGCAGCACTTGTGCTGAAGCGTACTTTGGCAGCGTTGAAGTTTATGAACTGA	MKHKSMKVVSLLMAAEITMASLFSGGSVYAGEGQELLQTASMETTSQDAAIAAVDLGITDMIFPDAYADEPYAVTVDVYGGQAPYTFSATGLPAGLTLASDTGAISGTPAAGQEGEHTVEVTVQDSAALPATAQSVVKLQILGKRPTPVADKLAMKMIGHYSVGTSNKDGGVAEIVKYNKDNGKLYLVNGSTQPASLEIVSLGADGSLVKDKQIHVEDMANTGGFLYGDLTSVDINTKTKQVAVAVQERDHTKAGKVLVLDYDGGLIGSYETGVQPDMVKYTSDGRYILTADEGEPRTETAPDPEGSITIIDALAGEVSHLKFDDPSIIDDRVHIRGNVEADGQIRSAGTKNDAVHDLEPEYIALSEDELTAYVALQENNAIAVVDIASKRIQSVRGLGYKDFNQSENQLDLLKDGQIKFENVPFYGMYMPDGIATYSVNGQQFILSANEGDATGWDDRSNESDIGKMKSNLDPSSPAAQFLAGKGTTYDKVEVASDMGNEGLYLYGGRSFSIWNAADLSQAYDSGSDFEKITAERLPNHFNASNDKTDLDSRSAKKGPEPEYVAVGKVGQKTLAFVGLERIGGVMTYDVTDPAAPAFLNYFNSRDFNGGIQSDSGPEGLDFIPASDSPTGRPLLLVANEVSGTVVLLELQVTKITVDKPSLTLKTGGSPEPLQANVEPVQGGSAELAWSSTDETVAAVDQNGLVTPVSAGQAVITVLSKDGYGSAEVSVNVTDGSPDGEPWKLTVMHTNDTHAHLAEVARRATLVHEIRSEGGNSLLLDAGDVFSGDLYFTKWFGLADLAFMNYMGYDAMTFGNHEFDQGTKTLADFVSKAHFPLVSANVDLSRDANISHLINKPAVIDTDQPKTTANSGVYPYVTLQVDGQKVGVFGLTTEDTAETSSPGKDVVFRDAVTSAQATVEAMEKEGLDKIIALSHLGYAKDLALAEAVEGIDLIVGGHTHTTLNAPEVVTDSQHHTPTVIVQANEWGKFLGRVDLQFDKNGVVLVGDGELGGKLIPVDNTVQEDTQAKDMLAPYKAELEELMKQVIGIAGVELDGKRENVRSKETNLGNLIADGMLAKAKELKNADIALTNGGGIRAAIDEGDITMGELRTVMPFGNTLFVMDVTGQQLKDGLENGISGAKLADLPGKFPQIAGVKFKWDPSAPAGDKVFDVQIMKDGSYKPLVLTETYRMATNSFVAKGGDGYKSFADAIAEGKYNEDLGYPDYEIFMEYVNKLGGKVSPKVEGRITEQKKPANPGDGSSPGSGSGGSGGGSVMPPTTQPNPPATGGNASEPNVMTGSNLNISAAASGTMDRITVKEEAWKKAVTGLSANGQQELIIRAPELNRAAELSLPAAGLKQAMERNPNATLVLETALGAIRLPITALPLDEALEPAQGSGGIQVKVSVAPAAGKVADAMTSKASSMGASLAANGGLRFGAAVGAPGAEQELKDFGKRVISRIMPLPAGMNPDSVAAVIYDEAAGTFRFVPAVRTTWNGKAAIEVKHAGNGVYALLQYKKTFADLDGHWAQSEIESMASKLLVNGVNADSYAPGKAITRAEFTAMLVRAMGLSPVIESGAFKDVQDHSAYAGEIGAASRYGLIEGGNGGAFSPNASMTRAEMAVMITRAMEAVNPADLSNQGANAAAGFKDQASIPVWAAAHVASLTKQGIVQGDNQGNFGALDSVTRAQAALVLKRTLAALKFMN	PGPT0013420_26	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013420-yfkN-K08693	NA	NA
AK002_01311	981	impX		Riboflavin transporter ImpX	ATGAGTAATATGAATACCGGGATCAAGGTGAAACCTTATGGTTCCGACGCACAGGCAAGTCGACGTTTTAAAGGAGGGTTCTGGCTCGTTGTTTTGGGGGCCGCCCTGTGGGGCGTTGACCCGTTATTTCGGGTTATTCTGCTCAAGAATCTGACTTCGGCTCAGATCGTTTTGCTTGAACATATCATTATTTCCTTGATTGCAATTCCTGTATTGTGGAAGAACCGGGAGGAACTAAAGAGCCTTGGCTGGAATCATGTCGGCGCGCTGCTGTTTATATCCTGGGGCGGTTCGGCACTGGCTACCGTATTGTTCACGATGGGGCTGTCGAGCGGCAATCTGAATGCCGTCCTGCTGCTGCAGAAGCTGCAGCCGCTGTTTGCCATCATTCTGGCCAGCCTGCTTCTGAAAGAGAAGCTTCCGCGCCATTTCGGGATCCTGCTTATCATCGCCTTAGCAGGCACGTATTTGCTCACCTTCGGCTTAACCCTGCCGATCGGCCATTGGAACGAGTTTGTTCAAGTCGGGAGCCTCCTGTCCTTAGGCGCTGCAGCCTTATGGGGCGGCTCAACGGTCATGGGTCGCTTGATGGTAGGCAAACTGAAGTACGAGACGGTAACCTCGCTGCGGTTTGTGCTTGCGCTGCCGCTCCTGACCGTCATTACTTGGAGCGAAGGGGCAGCTTGGAATATGCCGGCATGGGGCACAGGCGCCTTTGCCTTGGTGTCGCTCAACCTGATCGGGCAGGCACTGCTGCCGGGTCTCCTGAGCCTGCTGGTTTATTATAAAGGGTTAACCACGACCAAAGCCTCTGTGGCTACACTCGCGGAACTGAGTTTTCCCATGGTGGGCGTGCTGATCAACTGGATTGTATTCCAGCAAATCGTGACAGGGCCTCAGCTCCTTGGATTCCTGCTGATCTGGATCGTGCTGTTCATCATATCGAGACAGCAATCCGAGGCTTCTCCGCAATTGCAATAA	MSNMNTGIKVKPYGSDAQASRRFKGGFWLVVLGAALWGVDPLFRVILLKNLTSAQIVLLEHIIISLIAIPVLWKNREELKSLGWNHVGALLFISWGGSALATVLFTMGLSSGNLNAVLLLQKLQPLFAIILASLLLKEKLPRHFGILLIIALAGTYLLTFGLTLPIGHWNEFVQVGSLLSLGAAALWGGSTVMGRLMVGKLKYETVTSLRFVLALPLLTVITWSEGAAWNMPAWGTGAFALVSLNLIGQALLPGLLSLLVYYKGLTTTKASVATLAELSFPMVGVLINWIVFQQIVTGPQLLGFLLIWIVLFIISRQQSEASPQLQ				NA	NA	NA	NA	NA
AK002_01312	543			hypothetical protein	ATGGAGGATCAGACATTGCTGGATGGGCTTGCGAGGAAAGATCCGCGATGTTTTGAAACATTGGTTGACCGCTATTCACGCTACATAGCCGCGGTGGTCGCTAAGGTGGCAGGTGGGCGGTTTAATTCCTTCGATGTGGAGGAAATCACCGGGGACGTGCTGGTCAAGCTGTGGACAGACGGGCCCAAAATCATGCTGCGCGGAGATAGTCTCAAGCCTTATCTGGCCATAGCCGCGCGTAATCATACCTTGAATGCATTGCGAAAAAGGCAGCGGGTCATTGAATCCGAATTGGAAGATGACGCCGTTTCTTGTCCCTCTGCGGAGGCACTGGCTATTCTACGGCAGGAGAAGGAAACGATAAGCGGCATGGTACAGGGGATGGGCGAACCGGATCGCGAAATATTCATCCGCAGGTACTTCTATTTAGAGAAAGTCCGCGATATTGCAAGCCGGCTGAATATGCAGGAGAAAGCCGTCACCGCCCGGATCCGCCGGGCAAGGGACAAACTGCGCATCCATTATGAAACCGAGAATCCGTAG	MEDQTLLDGLARKDPRCFETLVDRYSRYIAAVVAKVAGGRFNSFDVEEITGDVLVKLWTDGPKIMLRGDSLKPYLAIAARNHTLNALRKRQRVIESELEDDAVSCPSAEALAILRQEKETISGMVQGMGEPDREIFIRRYFYLEKVRDIASRLNMQEKAVTARIRRARDKLRIHYETENP				NA	NA	NA	NA	NA
AK002_01313	1002			hypothetical protein	ATGCAAGTGAAGCGGCGAATTGTAGATATCATGGCCAATATCGACAATCAGGAGCTGGAGGACCTCCTCCTTACGGAGGAAGAGGAACGCGAGTTGACGCAGCAGATCAGTATGGAACGGATCAAGAACCGAGCGATGAACCGTATTCAAGAGGAGGAAACGATGGTGTTTAAAAACAGGAAAGTGAAAAAATATAAAGCCAGTATCGTTATCGCTGCCGCGATGATTATGATACTTAGCACGACCGCTTTTGCGAGCCAATACATGGATAGCTTGAAGCAATTTTTCGGTCAGTCCGCGTCCATTGCGGAAGACGAACGGTCACCCATACAAGGGACGGATACAGCGTCCGGGGTAATCATGAATGTTGAAGAAGGAGTTTATGTCGGCAACAGCGGTTATTTGGTGGTCAGTTTCATGAAAGAGGATGGCATGCCATTCCCCGAGGGTGTTTCGATCCCCCTACTTGAACTGAAAACGGAGCAGAATGTGAATTATATGGTGGGGCAGCAGCTTCTTGACGATAACAAAAAGCTTGTCGCCGTGTTTGAGATGGATGCGATGAATGACCTCGAGGGGCTGAAGGCACGGATCACAGCCGATCGAATCACGTCAGGCGACAACACCCAAGCCGTTGAGGGCCCTTGGAATGTGCAATTCACCATTTCTCCGGGCAAACAAAGAGAACAAAGTCTGAATCTGGCGCTTGATGAGGGTAAGGAAGCACTGTCTCTCCACACCATTAGTGTTTCATCCATCGGTGTAGCCATCGAAGGCAAGCGTACCGACGGTGAGCTGGATAAACTGCCGGAATATACGCCGGAGGTTAAGGTCATCGCCGCGGACGGATCGGAACTGAAGCTTCATGCCAGCTCGACAAGCACCACAAAGAGCGGGTTTCAGTGGCTGTATAATCTGGACAGCAAGAATAACCTCGTATTTCTGGGGGATATGGACATCAAAAGCGTCAGCATTGACGGCAACGTGACGGAGCTGAAATAA	MQVKRRIVDIMANIDNQELEDLLLTEEEERELTQQISMERIKNRAMNRIQEEETMVFKNRKVKKYKASIVIAAAMIMILSTTAFASQYMDSLKQFFGQSASIAEDERSPIQGTDTASGVIMNVEEGVYVGNSGYLVVSFMKEDGMPFPEGVSIPLLELKTEQNVNYMVGQQLLDDNKKLVAVFEMDAMNDLEGLKARITADRITSGDNTQAVEGPWNVQFTISPGKQREQSLNLALDEGKEALSLHTISVSSIGVAIEGKRTDGELDKLPEYTPEVKVIAADGSELKLHASSTSTTKSGFQWLYNLDSKNNLVFLGDMDIKSVSIDGNVTELK				NA	NA	NA	NA	NA
AK002_01314	966	yteP_15	COG4209	putative multiple-sugar transport system permease YteP	ATGGAGCCCAAAGTTGCAAATCATTCCTTGCCTGCCGCGAAAGCGGCTAAGAAGCCAGCCAAGCTTAAAACCATCGCTGCGTTGATCCGGAAGGATTGGCAGCTGTATTCTTTATTGGTTCTACCGATTATGTATCTGCTCATTTTTAAATACGGACCGATGATCGGCAACGTGATTGCCTTCAGGCGGTTTATGCCGGGGGGCAGCATCTACGGGGAAAAGTGGGTAGGACTGCACTATTTCAACATGTTTATCCATGACCCGGCGTTCTGGAACGTGTTCAAGAACACCCTGCTGCTCGGTGCGCTGTCCCTGCTCTTTACGTTCCCGGTCCCCATCATCTTCGCGCTGCTGCTGAATGAGGTGAAGAGCAAGCGGTTCAAGAAATTCGTCCAGACGGCTTCGTATCTCCCGCATTTTCTGTCCATCGTCATCGTTGCCGGGATGATTCTGCAATTGACGTCGGTCAACGGCTCCATTAACTCGCTCATGGAGTTCTTTAATGGGGAACGAATCAATTTCATGCAGCGGGCCGAGTGGTTTCGGGCGATCTATATCTCGTCTGAAATCTGGCAGGGCATGGGCTGGGGCGCGATCCTGTATCTGGCCGCCTTAACGACAATAGACGAATCCCTGTACGAGGCGGCGAGGATCGACGGGGCCAACCGCTGGAAGCAAACGCTGTTTGTTACGATTCCGGGCATCCTGCCAACGATTGTGACGCTGCTGATCCTGAACATGGGGGCATTCTTAGCGGTAGGGTTCGAGAAAATATTGCTGCTCTACAATCCGGTCATTTATGAAACGGCGGACGTGATATCGACATACCTGTACCGGGTCGGTCTCGTATCGAACAACTTCAGTTACGCGACGGCGATCGGGCTGTTCGAGTCCGTGATCGGGCTTATATTGGTCTTCTCCGTGAATGCGATCTCGCGAAGACTGACGGATCGAAGCTTATGGTGA	MEPKVANHSLPAAKAAKKPAKLKTIAALIRKDWQLYSLLVLPIMYLLIFKYGPMIGNVIAFRRFMPGGSIYGEKWVGLHYFNMFIHDPAFWNVFKNTLLLGALSLLFTFPVPIIFALLLNEVKSKRFKKFVQTASYLPHFLSIVIVAGMILQLTSVNGSINSLMEFFNGERINFMQRAEWFRAIYISSEIWQGMGWGAILYLAALTTIDESLYEAARIDGANRWKQTLFVTIPGILPTIVTLLILNMGAFLAVGFEKILLLYNPVIYETADVISTYLYRVGLVSNNFSYATAIGLFESVIGLILVFSVNAISRRLTDRSLW	PGPT0017250_948	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01315	873	araQ_21	COG0395	L-arabinose transport system permease protein AraQ	ATGAAGGAGTCAAGATCCTATAAGGTGTTCAAAGTGTGCAATGCCATCATTCTGCTGTTCGTTGTCTTCATCACGCTGTACCCCTTCCTGAACGTGGTCGCTCAATCCTTCAGCGGCGAGTCGTACATCAACTCGGGGAAGGTGAATCTGATTCCGAGGGGCTTCAATCTCGATACCTACAAAACCGTGACCAAAGACGCCATGTTCTGGACGAATTACAAAAACACGGTCGTTTACAGCGTGGTCGGCACCGCCATATCCATGTTTTTAACAACGATTTTTGCTTACGCCCTGTCCAAAAAAAGGCTGGTCGGCCGTAAGTTCCTGACGATGTTTGCCGTGTTCACGATGTTCTTCAACGGGGGGCTGATCCCGAACTATGTGCTCATTAACAGCCTGGGCTTCAGCAACTCCATCTGGGCCATCGTGATCCCGGGAGCCATCAGCATCTATAACATGCTCATCATGAAGTCCTTTTTTGAAAATATGCCGGAGGAACTGGAGGAAGCCGCGGCCATTGACGGACTGAACACGTACGGCATGCTGTTCCGAATCGTGCTCCCCTTAAGCAAAGCGGTCATCGCGACCATGGTTCTCTTCTATGCCGTCGGGCACTGGAACTCCTGGTTTCCGGCCTTCCTGTATCTGGACCAGAAGGAGCTCTTCCCGGTCACGATCTATCTGCGGAACATGATTGCGGGCGCGACGGGCGTTACTTCCGCTGGCGCCACCTCGGCCGATAACCTGACTCAGATCTCCGCCAACATCAAATCGGTGACCATGGTGCTGACCATTTTGCCGATATTGACGATTTACCCGTTTGTTCAGCGATATTTCGTGACCGGCATCATGCTGGGCTCCGTCAAGCAATAG	MKESRSYKVFKVCNAIILLFVVFITLYPFLNVVAQSFSGESYINSGKVNLIPRGFNLDTYKTVTKDAMFWTNYKNTVVYSVVGTAISMFLTTIFAYALSKKRLVGRKFLTMFAVFTMFFNGGLIPNYVLINSLGFSNSIWAIVIPGAISIYNMLIMKSFFENMPEELEEAAAIDGLNTYGMLFRIVLPLSKAVIATMVLFYAVGHWNSWFPAFLYLDQKELFPVTIYLRNMIAGATGVTSAGATSADNLTQISANIKSVTMVLTILPILTIYPFVQRYFVTGIMLGSVKQ	PGPT0017255_2651	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01316	1626	lipO_8	COG1653	Lipoprotein LipO	ATGAAAAAGAGTCGTCGATCGTTTGCAGGCAAAGCTTTATTGCTGTCATTAATCGTTGTGATATTGGCGGCGTGTACCGACAAAACAGGCGGCAAAGAGGCTGAAATTCAGGATAAGGGTGCCATGGAAACCTACGCCGTAGGCGAAACGTTCAAGGCGACGGAGCCGTTTGAGCTGTCCATCCTCTACAGCGACCAGCCGGCGTATCCTTATAAGCAGGACTGGATGCTTTTTGCTAAACTAAAAGAAATGACAAACGTGACCTTGAAGCCGACAATCGTGCCGATGAGCGATTACAGCCAAAAGCGCAGTCTGCTGATCAGCTCCGGCGACGCGCCGCTGGTCATTCCGAAGACATACCCGGGGGAGGAATCCGCGTTCGTGGCTTCCGGCGCGATTCTGCCGATCAGCGATTATATTGACCTGATGCCGAACTTTAAGGACAAGATCGAGAAGTGGGACATGGACAGCGAGCTGGAAGGGCTTCGCCAGGAGGACAAAAAGTATTATGTGCTTCCTGGCCTCCATGAAGCGGTGTGGCCGGACTACACCCTGATCGTGCGCACGGATATTTTCGAGAAGCATAACATCGCGATTCCTGCCACCTGGGATGAGCTGTATACGGCCATGAAGCAGCTGAAGGAGGAATATCCGGACGTTACGCCATTCTCCGACCGCTTTAAATTCAACAGTACGTTGAATATCGCCGCTACCGGCTTCGGCACCAAAGGCGGATGGGGCTACGGCAGCGGGCTGACATATAGGGAAGAGCAGGATGAGTTTGTATACACGGCGGCTACGGACGAATACAAGGAAATGCTGACCTACTTCCACAAGCTGGTGGACGAAGGACTGCTGGACAAAGAGAGCTTTACCCAGGATGACGATCAGGCCGTGCAAAAATTCGTGACCGGCAAATCCTTCATCATCAACGGCAACTCCCAGACCGTGGTCCAGCACCGCAACGATATGGACAAAACGCTGGGCGAAGGCAAGTATGCCATCAGCAAAATCACGGTTCCCGGCGGACCGGCCGGCCAGCTGATGTCCGGCAGCCGGCTCGAGAACGGGGTCATGATCTCATCCAAAGTGAAGGAGAGCGAGCATTTCAAAGCCATTCTGCAGTTTATCGACTGGCTCTATTACAGCGACGAAGGACAGGAATTCGCGAAGTGGGGCGTCGAAGGCGTAACGTATACGAAGGAAGGCGGCGTACGCAAGCTGATGGACGACATCAACTACAACGGACTGAATCCAAAGGGCACGAAGGATCTGCGGATCGAGCACGGCTTCTCGGGCGGCGTGTTTGCATACGGAGGCACGACCGAGCTGCTGCAATCCATGTTCAGCGAGGAAGAGCAGCAGTTCCAGAAGAGCATGAGCGAAACAAAAACGGTGGTGAAGCCGGAGCCTCCGATTCCATACTCGGTAGAAGAGCGCGAGCGAGTGACGCTCTTGAGCACGCCGCTGAAGGACTACACGGATCAGAACACGCTGAAGTTCATTCTGGGCGACCGCGATCTCGCCGAGTACGACAAGTTCGTGCAAGAGCTGGATAGCCAGGGCGTGGGGCAATACCTGGAGATTGCGAATAAAACGTATAAAAAATATAAAGAGCAACAATAA	MKKSRRSFAGKALLLSLIVVILAACTDKTGGKEAEIQDKGAMETYAVGETFKATEPFELSILYSDQPAYPYKQDWMLFAKLKEMTNVTLKPTIVPMSDYSQKRSLLISSGDAPLVIPKTYPGEESAFVASGAILPISDYIDLMPNFKDKIEKWDMDSELEGLRQEDKKYYVLPGLHEAVWPDYTLIVRTDIFEKHNIAIPATWDELYTAMKQLKEEYPDVTPFSDRFKFNSTLNIAATGFGTKGGWGYGSGLTYREEQDEFVYTAATDEYKEMLTYFHKLVDEGLLDKESFTQDDDQAVQKFVTGKSFIINGNSQTVVQHRNDMDKTLGEGKYAISKITVPGGPAGQLMSGSRLENGVMISSKVKESEHFKAILQFIDWLYYSDEGQEFAKWGVEGVTYTKEGGVRKLMDDINYNGLNPKGTKDLRIEHGFSGGVFAYGGTTELLQSMFSEEEQQFQKSMSETKTVVKPEPPIPYSVEERERVTLLSTPLKDYTDQNTLKFILGDRDLAEYDKFVQELDSQGVGQYLEIANKTYKKYKEQQ	PGPT0017245_1722	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01317	801			hypothetical protein	TTGCGAGTCACCGTTCAAGACATCGTCAACCGCTTAACAGAGCCCGCAGGATTTCTTGAATCCAAGGTGGACAGGGTTACGGCGGGAAGCGCCGAAGCGGTGGTCCACGGCATTGCCGTCACGTTTGCGGCATCGTATTCGGTTCTGCAGAGAGCGGTCGAAGTTGGGGCCAACCTTGTCATTACCCATGAAGGGGCGTTTTACAGCCATCAGGAGGAGGGATATGAGGGGGTGGAGGCGAGTCCTGTCTTTCAGGATAAACTCCGCTTGATGGAATCCGGGGAGTTGACGATTTACCGGTTCCATGATGCGCCTCACCGATACGTTCCCGATATCATGATGCAAGGACTGGTTCAGGCGCTGGATTGGGAGGCTTATGTCGATAAGCATCTTAAGGCAGCGGCCATTGTCACGCTGCCGGAAGAGATGAGCCTGCCGGATATTGCGGAGTTTGTAAAAAGAAAGCTGAATCTTCCTTACCTTCGTTATGTCGGTAATCGAAGCAGCACATGCTTCAGAATCGGCATAACCGTGGGCTATCGCGGCGGCGGCGCGCATGCCATTCCCCTCTGCCTGAAGGAGTCGCTGGATCTTCTCATCGTAGGGGAAGGCCCTGAATGGGAGACGCCTGAATACATGGGCGATGCGGCTGCGCAGGGCAGGGGCCCGTCCCTGCTTCTGCTTGGCCATGCTGCTAGCGAGGAGCCCGGCATGGCCTGCGTGGCCGATAGGCTGCGGGAGTTTTTTCCGGCGATTCCTATACATTATATACCGTCCGGGCCTTTGATTCGGGTAATATAG	MRVTVQDIVNRLTEPAGFLESKVDRVTAGSAEAVVHGIAVTFAASYSVLQRAVEVGANLVITHEGAFYSHQEEGYEGVEASPVFQDKLRLMESGELTIYRFHDAPHRYVPDIMMQGLVQALDWEAYVDKHLKAAAIVTLPEEMSLPDIAEFVKRKLNLPYLRYVGNRSSTCFRIGITVGYRGGGAHAIPLCLKESLDLLIVGEGPEWETPEYMGDAAAQGRGPSLLLLGHAASEEPGMACVADRLREFFPAIPIHYIPSGPLIRVI				NA	NA	NA	NA	NA
AK002_01318	675	rspR_1	COG1802	HTH-type transcriptional repressor RspR	ATGTCAACAGAGCAAAAGATTAAAGGCTCTACCAGAGAGTATTCTTATCAGCTATTGAAGGATCGGATATTTCATCTGGAGCTGGAGCCGGGTACGAAAATCTCGGAAAAAGAAATTGCGGATGAATTGAACGTCAGCCGGACACCGGTCCGGGAAGCGTTCATGAAGCTTGCGGAGGAAGAGCTGCTGGACATCATTCCGCAAAGCGGGACGATCGTATCCCGTATTAATCTTCGGCATGTTGAGGAAGGCCGATTTATCAGGGAGAAGATCGAGAAGGAAATCGTGGCGCTCGCCTGCGGTTCTTTTCCCGAAGAGTTCCGCTTTCGCCTGGAAACCAATATTGCGCTGCAGGACGTGTGCGCGGGCAACCATAACTTCTATAAGCTGTTTGAGCTGGACGAGGAATTCCACCAAATTCTGTTTGAGGGGACGGGCAAAGAACGGACCTGGAAGATGCTGCAGCAATTGAACATCCATTTCAATCGTCTGCGGCTGCTTCGCCTGTCCAAGGACTTCAACTGGGAGAATATCATCTCGCAGCATAAAGAAATGTATCAGCTGATCGTCAATCGGCAGGCGGAGCAAGCCATGAACGTGATGGAGCGTCATCTGCGCCTCGTCGTTGTGGAGCAGGATATTTTGCGAGAGAAGTATCCGCATTATTTCATCTAA	MSTEQKIKGSTREYSYQLLKDRIFHLELEPGTKISEKEIADELNVSRTPVREAFMKLAEEELLDIIPQSGTIVSRINLRHVEEGRFIREKIEKEIVALACGSFPEEFRFRLETNIALQDVCAGNHNFYKLFELDEEFHQILFEGTGKERTWKMLQQLNIHFNRLRLLRLSKDFNWENIISQHKEMYQLIVNRQAEQAMNVMERHLRLVVVEQDILREKYPHYFI				NA	NA	NA	NA	NA
AK002_01319	774	spo0M	COG4326	Sporulation-control protein spo0M	ATGTCGTTTTTTAACAAAATGCTAGCCAGTGTAGGAATTGGAGCCGCCCAGATCGATACGCACCTCGAAAAATCCTCCTATTATCCGGGTGAGGAAGTACGCGGAATCATTCACATTAAGGGAGGCAATGTAGAGCAGACGGTCGACCGCATCTATTTGAAACTGATGACGGAATATACCAGGGAAAGCGACGACAAGAAATACATAGAATCCTATACCATTGCAAAAGTCAACGTCTCAAGCCGCCTCACGTTGAAGCCTGGCGATCAGCAGGAAATTCCGTTCGCCTTTCCTTTGCCGCTGGAAACGCCGCTCACCATTTCGCGGCAGCCGGTATGGATCCACACCGGACTCGATATCGATAATGCCATCGATCCGAAGGACCGCGATTTCATCGACGTCGAACCGAACGAGGACGCATCCATTGTCTTCGACGCCGTCGAAGCGCTTGGCTTCAGCTTCAAAATAGCAACATGCGAATATCATCCGCGGCTCGGCCAGGGTGTTCCATTCGTGCAGGAAATTGAATTTTATCCCGGCTCCTCCTATGCCGGTCATATCAAAGAGCTTGAATTGATTCTCTATCCGGAGCAGGAGGGGATTTCCATCCTGGTCGAAGTCGACCGTAGAGGCAGAGGCGTTTCAGGCTGGCTCCAGCGTTCGCTCGATATGGATGAACAGCACTCCTGGGTAACCCTCGACAAGCAGGATCTGGCCCAGGGACCATCCCACGTGGCCCAAATTCTGGACCGTGTCATCCGCAGATCGATCTAA	MSFFNKMLASVGIGAAQIDTHLEKSSYYPGEEVRGIIHIKGGNVEQTVDRIYLKLMTEYTRESDDKKYIESYTIAKVNVSSRLTLKPGDQQEIPFAFPLPLETPLTISRQPVWIHTGLDIDNAIDPKDRDFIDVEPNEDASIVFDAVEALGFSFKIATCEYHPRLGQGVPFVQEIEFYPGSSYAGHIKELELILYPEQEGISILVEVDRRGRGVSGWLQRSLDMDEQHSWVTLDKQDLAQGPSHVAQILDRVIRRSI	PGPT0024630_461	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024630-spo0M-K06377	NA	NA
AK002_01320	1599	rlmCD_2	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	ATGAGTGAACAACGGCGTTCCGGAAAAGGAACCAACAACAGCAAATCAGCGGCATACGGGAAGAAGCAGGGCGAGCGGACTGCAGCGAACCAAGCAGGGGCAAAGCCGACCTTTCAACGTGACCGTATGAAGAACAGCAATTCGTCGTCGGCATCCCCGCATGCGAAGGGGAGACGAGCGGATCAATATAAGCAAGAGGTACGCGGACCGAAGCTGTCATCCGGACGCGAGCATGCGGATGAGCTGCAGGCCGGGGACGTGATAGTCGTTACGATCAAACGCCTCGGCATTAACGGCGAGGGAGTGGGTTACTACCGCCGCAAGGCGGTGTTTATCGATGGAGCGATCACGAATGAAGTGGTCAAAGCCGAGGTGAGGGAGGTTCAGCCTAAATTTATCAAGGCCCAGCTGCTGGAAGTGGAGAAGCGGTCGCCTCACCGGATAGAGCCTCCTTGCCCGGTATTCGGCATCTGCGGCGGATGCCAAATTCAGCATATTTCCTATGAGGGACAGCTGCAGGCGAAGACGGATATCGTGCGCGAGGCGTTCAGCCGGTACGCGGGATTGGACGATGTCAAGTTTAAGCCGATTCTCGGGATGGAGCATCCATGGGACTACCGGAACAAAGCGCAGCTGCAGCTGAAACGGAGGGGCCATGAAGTGATAGCAGGGCTCTATGAAGCGGACAGCCATACGATTGTGGATATCAGCGGCTGCCCGATTCAGCATCCGAAGGTCAATGAAACGGTGGAGAAGGTCAAATCCGTACTCGAGGAATTGCGGATTCCGCTTTATAAGGAGAATGGTGCCAAGGATGGCGTGCGGACGATCGTAGTCCGTCACGGCTTCCAATCCGGGGAAGTGCAGGTGACGCTGATCACGGCTGGAAGCAAGCTGCCAAGGCAGGACGATCTCGTTCGTATGCTGCGCCTTACCATTCCGGAGGTAAGCGGAATTTCACTCAATATCAATCCGAAGAAAACCTCGCTCATCTTCGGAGACCGGACAATCTCGCTATGGGGCGCCGAGAGCATGCAGGAATCGCTGAGCGACCTGCAATTCTCGCTGTCGCCGAGAGCGTTCTTCCAGCTGAATCCGCAGCAGACGGTCAAGCTGTACGAGTCGGTCCGGGCGGCAGCGGGGCTGACCGGGAAGGAAACCGTCATCGACGCCTACTGCGGCACTGGCACGATCGGTCTGTGGCTTGCGCCGTATGCCAAGGAGGTGCGCGGAATCGAGACGATTCCCGAAGCCGTCGAGGACGCCAAGGCGAATGCGCAGCGGAACGGAAGGGTTAACGCCAGCTTCCACGTCGGCCAAGCCGAAGAGCTGCTGCCACGCTGGGTCAAGGAGGGCATGAAGCCGGACGTCATCATTGCGGACCCGCCGCGCACTGGCCTGGACCCACGCTTCCTGGAAACGGTGCTCCGCACCAAGCCGAAGCGGTTTGTATACGTATCCTGCAACCCTTCGACCTTAGCCAAAGACTGCAAGGTGCTTCTGGACGGCGGCTACGAGCTTGAATGGGCGCAGCCGGTCGATATGTTCCCGCAAACCAGCCATGTGGAGGCAGTCTTATTGATGAAGCTGAAATCATAG	MSEQRRSGKGTNNSKSAAYGKKQGERTAANQAGAKPTFQRDRMKNSNSSSASPHAKGRRADQYKQEVRGPKLSSGREHADELQAGDVIVVTIKRLGINGEGVGYYRRKAVFIDGAITNEVVKAEVREVQPKFIKAQLLEVEKRSPHRIEPPCPVFGICGGCQIQHISYEGQLQAKTDIVREAFSRYAGLDDVKFKPILGMEHPWDYRNKAQLQLKRRGHEVIAGLYEADSHTIVDISGCPIQHPKVNETVEKVKSVLEELRIPLYKENGAKDGVRTIVVRHGFQSGEVQVTLITAGSKLPRQDDLVRMLRLTIPEVSGISLNINPKKTSLIFGDRTISLWGAESMQESLSDLQFSLSPRAFFQLNPQQTVKLYESVRAAAGLTGKETVIDAYCGTGTIGLWLAPYAKEVRGIETIPEAVEDAKANAQRNGRVNASFHVGQAEELLPRWVKEGMKPDVIIADPPRTGLDPRFLETVLRTKPKRFVYVSCNPSTLAKDCKVLLDGGYELEWAQPVDMFPQTSHVEAVLLMKLKS				NA	NA	NA	NA	NA
AK002_01321	576	rplY		50S ribosomal protein L25	ATGAGAGTAAATTTACGAGCAGAAACGCGCGCTGCGATGAACAAAACCGGACTGAAGCAGCTTCGTCTTTCGGGACGAATTCCGGCGGTTGTATTTGGCACAGGGGAAAACAATATGATGATTCAACTGTCCGCCAAAGAGTTCGGCAAATGGGCACGGAACGGCAAAGGAGGAATCCTTGAGCTTCATTTTGAAGATCGGGAGCCGATTCCGGTTTTGCTGGAGTCCGTTCAGCGTGATCCGGTAACTCGTGAATACATTCATGTCGACTTTTTACGTATCAATATAAATGAAGTTGTGCGGACGAGAGTGAATCTCGATTACATCGGCACCGCAAAAGGAGCCAAATCGGGAGGGGTCGTCCAAATCCAAAGCACGTTCATTGAGATCGAGTCCTTCCCGGACCAAATTCCTGCCACGATTCCCGTTGAAATCAGCAGACTAGAGATCGGGAATTCGCTGCATGTCGGGGATCTCAAGCTGCCCGATGGTGTCGTGCCGATTTCTTCGGCCAACGAGCTGCTTGTATCGGTGGTAACGCCGAAAGTCCAGTCGGAACAACCGGAGGCTATCTAG	MRVNLRAETRAAMNKTGLKQLRLSGRIPAVVFGTGENNMMIQLSAKEFGKWARNGKGGILELHFEDREPIPVLLESVQRDPVTREYIHVDFLRININEVVRTRVNLDYIGTAKGAKSGGVVQIQSTFIEIESFPDQIPATIPVEISRLEIGNSLHVGDLKLPDGVVPISSANELLVSVVTPKVQSEQPEAI				NA	NA	NA	NA	NA
AK002_01322	1098			hypothetical protein	ATGGATATAACTCAGGATTTCATAGATGAACGATTCAAAGCTTATGTGCTCGAAACCTATTGCGGGAACCGTGAACGGATTCAGGCGGGCGATGTAGAACATATTATATCGCTGCAGCTTTCAAATCATGGATACTCAAGTCTAAAGGGGATCGAGCATTTCACGTCGCTTGAAGAACTGGATTGTTCGTCCAATAGCCTGACGGAGCTAGATCTCAGCAAGAATAGCAACTTGAAAACGCTGAATTGCGGGTTTAACCGAATTCGAAATTTGGATGTCAGTCACAACGCCATGCTGACGAAGCTGGTCTGTTACTGGAATATTCTATCCGAGCTGCGGCTCGAGCAGAACGCGGATTTAACGGAGCTGGATTGCAGCTACAACTCCCTGTTTGCTTTGGAGCTGCATCAGAACCCCCGGCTAACCTATCTCCACTGCGCAAACAATTATTTAATGAGCTTACACCTGGAGGAATGTCCGGACTTGATCGAAATCCGCTGCAACCACAATCATCTGACGAAGCTGGACGTAACCGGAAATCCTTCGCTGCAAAGCTTGAGATGCTTCAATAATCACATCACCGAATTGGATCTCACTCGCAATGTGCTATTAACGGAGCTCTATTGCTCGGAGAACAAAATCTCCAAACTGGATACGCATCGTAATCCCAAGCTGGAGCGGCTGAACCATTCCAACAATCTCATCATGGAGCCGGACCATACCGTTAAGGGCGTTGGGACCTTCGAATACGATGTCTCGCTGTCTTTTTACGGGGCCAGGCTTCAATGGAAGGAGACGGAGCTCTCCGTCAGCACGGAGGCCTCTGCCGAAGCGGATATGAACCGGCTGTCCCCGGTCATCCGGAATGCCTGGGCGAATTTTGGGGAGCTGAATGATCGAGCGCTGGATCTGATTGCCGGGATGCATCCCGACGAAGACGTGAACGAGTTGGTTCTATCCGAGCTTGCCTTCGACAAGGACGGCACGTTTCGGCTAGGGTATGATGCAGGCGATACGCCGGCGGGACAACTATACATATACGTCCTGTTTAATGACAAGCTTGAAATGAACGGGGATCTCGTTTATGAAACGTATTAA	MDITQDFIDERFKAYVLETYCGNRERIQAGDVEHIISLQLSNHGYSSLKGIEHFTSLEELDCSSNSLTELDLSKNSNLKTLNCGFNRIRNLDVSHNAMLTKLVCYWNILSELRLEQNADLTELDCSYNSLFALELHQNPRLTYLHCANNYLMSLHLEECPDLIEIRCNHNHLTKLDVTGNPSLQSLRCFNNHITELDLTRNVLLTELYCSENKISKLDTHRNPKLERLNHSNNLIMEPDHTVKGVGTFEYDVSLSFYGARLQWKETELSVSTEASAEADMNRLSPVIRNAWANFGELNDRALDLIAGMHPDEDVNELVLSELAFDKDGTFRLGYDAGDTPAGQLYIYVLFNDKLEMNGDLVYETY				NA	NA	NA	NA	NA
AK002_01323	387			hypothetical protein	ATGAATGACAAAATCGTATACGGGTCGATCGACGAATACATTTCGAGCTGTGCACCGGAGGTCCAGGGAATTCTGCAGACATTAAGGCGTGTGATACAGGAATCAGCCCCGCATGCCAAGGAAAAAATCAGCTACCAGATGCCAACCTTCGACCTCCACGGGAACCTCGTGCATTTTGCGGCATTCAAGAAACATATCGGCTTTTACCCCGCGCCCAGCGGGATCGAGGCGTTCCAGGATGAGCTGAAGGAATATCATACGTCCAAGGGAACCTTGCAATTTCCGATCGATCAGCCGCTGCCTTATGAGCTGATACGCCGAATCGTCCAATATCGGGTTCAGCAAAACCTGGAGAAGGCAGAAAGCAAAGCGAAGAAGAAGAGGTAG	MNDKIVYGSIDEYISSCAPEVQGILQTLRRVIQESAPHAKEKISYQMPTFDLHGNLVHFAAFKKHIGFYPAPSGIEAFQDELKEYHTSKGTLQFPIDQPLPYELIRRIVQYRVQQNLEKAESKAKKKR				NA	NA	NA	NA	NA
AK002_01324	429			Acetyltransferase	ATGAATATCTATTTCACGAATGAATCGAATGAAACCAATAGCGTGGACAAACATTACGTAAGAAACCAAATGATTGCATATAATCTGAAGCATTTCCCTGACGAATTAAAAGGCCGTTACCAGGAAATCAACTTGTTGTTAAGGAAGGAGGACGGTCAGATTTTGGGCGGGGTCGTTGGGGAAATATGCTGGAACTGGCTGGAGATCCACTATTTGTTCGTGGATGAACCCTTCCGTCAATCGGGGTACGGTGCCAAACTGTTAAACAAGGCCGAAAACATCGCAAAGGAAAAGCAATGCGACTTCGTTAAACTGGATACGCTGAGCTTTCAAGCCTTGGATTTTTACCTCAGGCAGGGTTACGAAGTGTATGGCAAAATCGAGAACGCCGGGCGGCATACCCACTACTATATGAAGAAAAATCTATAA	MNIYFTNESNETNSVDKHYVRNQMIAYNLKHFPDELKGRYQEINLLLRKEDGQILGGVVGEICWNWLEIHYLFVDEPFRQSGYGAKLLNKAENIAKEKQCDFVKLDTLSFQALDFYLRQGYEVYGKIENAGRHTHYYMKKNL				NA	NA	NA	NA	NA
AK002_01325	867	ermD		rRNA adenine N-6-methyltransferase	GTGTCCAAATATCATAAAAAACATCGTGAAAAGCGGAAGAAACCGTCCAACTTTTCCGCGCAGCATCTGTTAATCAGCAAAAGGCTGATTCATGATATGATCGACTTGGCCCGGATTCGCTCCACCGATACCGTTCTTGATATCGGCGCGGGTACAGGGGCGTTAACCCTTCCTCTTGCAGAGAAAGCAGGACACGTGCTTGCGATCGAGACGGATCCGGCATTTGTGGATAAACTGCTGGGCAAGATGAAGGATAGCAGCAACATTCGCGTCAAGCAGTCGGATTTTCTGGAAATCCCGCTCCCGAGAAATCCATTTGCCGTCGTGGCCAATATTCCGTATTCGATCACCACGCCGATCATGGGGAAGCTTTTGGAGTGCCCCGGCCTCCCTCTGCAGCGGGCCGTACTGCTTGTGGAGATGGGGGCAGCCAAACGTTTTACGGCCGTTCCCATTCAAGATCCACGAATTCTCAGCTGGAGGATGCAATACGACATTCGGCTCGTGCGGACCGTTTCGCCCCATCATTTTGCGCCGCCTCCCCAAGTGGATTCAGCCATTCTGACCATTCACCGGAGGAAGAAGCCGCTCATTGCCGCATCGAGTCAGCCCAAGTTTACGGCGCTGGCCGCCTATGGTCTGCAGGATGCCCGGCTGCCGTTATTTGCGGCTCTATCGGGCGTGTTTACGCCTCCCCAGATGGCGAAGCTCGTTAAAGTGCTGAGAGTGGACCGAGAGCTCCCCATCGGTCGGCTGAACGAAGAGCAGTGGGGGACCGTCTTTCATACGATGCTCCAGCATGTGCCGGCGAATCGCTGGCCGAAGCTTCGCAAGGGCGCCGGAAGCAAGTCCAAGAAAAGAAAGTGA	MSKYHKKHREKRKKPSNFSAQHLLISKRLIHDMIDLARIRSTDTVLDIGAGTGALTLPLAEKAGHVLAIETDPAFVDKLLGKMKDSSNIRVKQSDFLEIPLPRNPFAVVANIPYSITTPIMGKLLECPGLPLQRAVLLVEMGAAKRFTAVPIQDPRILSWRMQYDIRLVRTVSPHHFAPPPQVDSAILTIHRRKKPLIAASSQPKFTALAAYGLQDARLPLFAALSGVFTPPQMAKLVKVLRVDRELPIGRLNEEQWGTVFHTMLQHVPANRWPKLRKGAGSKSKKRK	PGPT0027915_38	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027915-ermC|ermA-K00561	NA	NA
AK002_01326	378	merR1		Mercuric resistance operon regulatory protein	ATGAAAATCGGAGAACTCGCGGCCCGTACCGGCGTCAGCATTCGTTCGCTACGGTACTACGAGCAGCAAGGATTGCTGACGCCGGTCCGAAACGAGAACGGTTATCGGGAATATTCGATGCTTGCGGAAGAGCAGGTGCGTACCATCCAGTTATATCTAAACCTTGGATTGACCACCGAGCAGATCGCCGGTTTCCTGCATTGCGTCCTGAAAAACAAAGAGGCGTTTTGCGCGGAGGTGTTCCCGATTTTTCGTCAAAAAATCGCAGAGATCGAAGCGCAGATTCACCAGCTGAATCATATCAAGATGAATCTGGAGGAACGCATGCAATCGATTCTGGATGAACGGAAATCGGAGGAAGCGGAGGAATGCAAATGA	MKIGELAARTGVSIRSLRYYEQQGLLTPVRNENGYREYSMLAEEQVRTIQLYLNLGLTTEQIAGFLHCVLKNKEAFCAEVFPIFRQKIAEIEAQIHQLNHIKMNLEERMQSILDERKSEEAEECK				NA	NA	NA	NA	NA
AK002_01327	321	trxA_1	COG0526	Thioredoxin	ATGAGTTTACCACGTTTAGACGCAGGGAGCTTTCAAAGCTCGATCAACCAGAACGGGGTCACGCTTGTCGAATTCGGAGCCGCATGGTGTCCGCCCTGCAAAGTGCTGCTTCCCATTCTGGAAGAGCTGAGCCGGGAGGAGGCGGGTCGCCTGGACATCTATCAGGTGGATTGTGACGAATCCCCCGAGCTTGCTGCCCAATTCGGCATCATGTCCATGCCGACGGTGATTGTGTTTCATAACGGAGAACCGGCAGATAAACTGATAGGGCTCCGGCCGAAGAGTGTATACCAGGCGGCGCTGGGCCGTCATGTATCATAA	MSLPRLDAGSFQSSINQNGVTLVEFGAAWCPPCKVLLPILEELSREEAGRLDIYQVDCDESPELAAQFGIMSMPTVIVFHNGEPADKLIGLRPKSVYQAALGRHVS	PGPT0013055_8601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK002_01328	678			hypothetical protein	ATGAGATCAAGAAAGAAAATCGTTTCTCTTATGGCCATCATCGTATTTAGCTGCCTAGCCATGAGCTTGGTCGACGCGGTGATCCGTCCGGATTACGCCGTCAAATCCGCCATCAAAATCATTCTCTTTCTGACACTGCCGATTGGCTACGCCATCATCGCCGGCGGGGTTCCGTTTCGCAGGCTGTTCGCTTTCGAGAGAAGGGGTCTCCTAACCTCCCTGCTGCTGGGACTCGGCGTATTCGCCTTCATACTCGGCGCCTATTTTGGGCTGGGGCCTTTATTCGACTTTACCAAGGTGACAGGGGCACTGGAGGATAATATGGGTGTCAATGCAGGCAATTTCGTATTGGTCTCCCTTTACATATCCATCGTGAATTCATTGCTGGAAGAGTTCTTTTTCCGGGGATTTGCTTTTTTCACGCTGAAGGAGCAGGTCGGGCGCAGGTTTGCATATGTATTCAGTGCCGGGGCTTTTGCCGTGTATCATGTTGCGATGATGTCCAGCTGGTTCTCGGTAGGACTGTTCCTCTTGTTAATCGCGGGACTGGTTGTGGCGGGACTGTTGTTTAACTGGCTGAATGAGCGAAACGGCAATATTTATGCGTCCTGGATGGTGCATATGTTTGCCAATTTTGCGATCAATGCGATCGGTTTGATGCTGTTCGGGATGATTTGA	MRSRKKIVSLMAIIVFSCLAMSLVDAVIRPDYAVKSAIKIILFLTLPIGYAIIAGGVPFRRLFAFERRGLLTSLLLGLGVFAFILGAYFGLGPLFDFTKVTGALEDNMGVNAGNFVLVSLYISIVNSLLEEFFFRGFAFFTLKEQVGRRFAYVFSAGAFAVYHVAMMSSWFSVGLFLLLIAGLVVAGLLFNWLNERNGNIYASWMVHMFANFAINAIGLMLFGMI				NA	NA	NA	NA	NA
AK002_01329	387			hypothetical protein	GTGCATATTAGTGAATTGTCACGAAAAACGGGCGTAAGTCTGCGTTCCTTGCGCTATTACGAGGAGAAGGAGCTGCTGTGCCCGGAGCGTCTGGATAATGGCTATCGCGAATACAGGGCAACGGATATCGAGCGGGTCCGTTTGATCCAGATGTATTTTAGCCTGGGATTGACGGTGAAGGAAATTATGAGTTTTTTTCAATGCGCGTTCGATGAGCATATCAAAATCGAATGTCTTCCTAATGCCATTGAGGTGGGAAGGCGGAAGCTGGATGACATCCAGCTGCAGATGGAGATGCTGAAACAGGCGGAACTCCATTTGGAGAAGAGCATTGCGGCATGGGAAGCTATTTTGCATAAGGGGGACGGGCGTCGTGAACAAGGCTAG	MHISELSRKTGVSLRSLRYYEEKELLCPERLDNGYREYRATDIERVRLIQMYFSLGLTVKEIMSFFQCAFDEHIKIECLPNAIEVGRRKLDDIQLQMEMLKQAELHLEKSIAAWEAILHKGDGRREQG	PGPT0004215_485	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004215-zntR-K13638	NA	NA
AK002_01330	741			hypothetical protein	GTGAACAAGGCTAGGGGGGAAGAGGTACAGCGAATGGCCGTTGTGACGGGAGGCAACCGCGGGATTGGAAAAGAGATAGCCAGACAGCTCGCTGCTAAAGGGCTCCAGGTGCTGATTACATCCCGTGACGAAGAGAATGGAAGGCTGGCAGTCCAGGAACTGCTTGCCGAGGGGCTCCGTGTGAAACTGCATGTAGCGGATGTCCATGAGGTCCGCGATGTGGCAGGAATGATGAATCGAATACAGTCTGACTATGGGCGCCTTGACGTGCTGGTGAACAATGCCGGGGTGATTTTGGATCGAGGCGTTTCTGTGATCGATGTAGAGGAGTCGGTCGTGCGCGCAACGCTGGAGACGAATTTTTTCGGGGCTCTGCGAATGACGCAGGCTGCAATACCTTTGATGAAGCAGCATCAATACGGGCGTATCGTAAACATCTCTTCGGGTCTTGGAGCCTTCGAAATCATGCAGGGCGGTTATGGTTTACAAGGCTCATCCGCGGCATACCGCATCTCCAAAACGATGCTGAACGCGTTAACCTGCCTCGTCTCGCAGGATGTAGCCAATACCGGAATAAAGGTGAATGCGGTGTGCCCGGGCCGGGTTCAGACCGATATGGGAGGAGCAGACGCTCCGTTAACCGTTGCCGAAGGGGCCGATACGGCGGTATGGCTGGCGATGATGGAGGATGATGGACCCAGCGGGAATTTTTTTCGTGAACGGCAAGGAATCGCTTGGTAA	MNKARGEEVQRMAVVTGGNRGIGKEIARQLAAKGLQVLITSRDEENGRLAVQELLAEGLRVKLHVADVHEVRDVAGMMNRIQSDYGRLDVLVNNAGVILDRGVSVIDVEESVVRATLETNFFGALRMTQAAIPLMKQHQYGRIVNISSGLGAFEIMQGGYGLQGSSAAYRISKTMLNALTCLVSQDVANTGIKVNAVCPGRVQTDMGGADAPLTVAEGADTAVWLAMMEDDGPSGNFFRERQGIAW				NA	NA	NA	NA	NA
AK002_01331	1929	arcB	COG0642	Aerobic respiration control sensor protein ArcB	ATGAGTGATATCAACATTTTCGGCCATCAGGCTCTGTTTGAACATGTCTATAAAAGTGCTCCAATTGGCATTGCCCTGGTTACGATAGAAGGAAGCTGGATCAGCGTAAATCCTGCGGCGTGCAAAATGTTTGGCTACACGGACGAAGAATTGATGGCACAGCCGGCAACCGATTATATTTACTCTGAATGCATTAACAATAAAGACAAGCTGTTACAATCTCTGGATGAAGCGTCCTCAACCATTTCGGTGGAGAAACAATTCGTACATAGGGATGGCAATGTCATCTGGGCGTCGATACATGTTTCTCTCGTTCGCGACGATCAGGATCAAACTCCCTTGTTCTTCATTTCGCAAATTGTTGATATTACCGACAGCAAGGTAGCCGAGCAGAAGCTCCAGGAGAGTATTGAGCGATACACCTCGCTGAAGAAGTATAACCATGATGCGATTATTTCCTTCAATCTGGAAGGCAGGATTATTAACGGGAACCAGATGGCGGAGCAGCTGACGGGTTTTAAGATTCCGGAGTTAATCGGAACCAAAATCTCGAATTTGATCGGCGAACGCAATCTCGCCCGAGTGCTTTCTTCTGCGGCCGATTATGTTGCCGCCGAGAAGGGGATTAACTGCATCCATCACAAGGACGGGCATCAGGTTGAAGTGCTCGCGACGCTTGCTCCCATTGTCATTCATGGCAAAAATGTGGGCTTCTACATTATAGCCAAGGATATGACGGAGCAGAAAAGGCTTATCATCGAGAAGGAAGCAGCCGAGAAGACGAATAAAGCCAAAAGCGAGTTTCTGGCGATGATGAGCCATGAGATCCGTACGCCGATGAACGGCGTAATCGGAATGACGGATTTGATACTGGAAACCGAGCTGGATGAGGAGCAGCAGGAGTACGTGCAGATCATCAAGAAGAGCGGGACAACCCTGCTGAACATCATAAATGATATTTTGGATTTCTCGAAGATCGAATCGGGCAGAACGGAGCTGGTGGAGGAAACATTCAGCTTAAGAACGGCCCTGTCCGAGACATTGAATATGATTCTTCCGAAGGCGCTGGACAAAAATATTGAGGTGACCACCTCTGTAGCGTCCGACGTGCCGAATCAAGTCTATGGGGATGTGACGAAGCTGCGGCAGGTATTAATGAACCTGCTCAGCAATGCCATTAAATTTACGCCGAACGGTGCGGTTTCGATCTCCGTTCAGTGTGTCAGGGACCAAGCTAACTCGGAGCTCATACAATTCTCCGTTACGGATACGGGCATAGGGGTGCCAAGCGAGAAGATTGCGCAGCTGTTCGAACCCTTCTATCAGGTGGATCATTATATGACACGGCAGGTGGAAGGGACGGGACTCGGACTGGCCATATGCAAAAAACTCGTTCAGTTGATGGGCGGGGATATCTGGTATGAGCGAAATCCGAATCAGCAGGGGTCCGTCTTTACGTTTACGGTCGATTTTTCGTTTAGTGCAAACGCGGGCAACATGCCGGAGGCCGGGACGGTTCACGAGAATCACTCCGACGGCAGCGATCTGAAAATTTTGATTGCTGAGGATAATGAGGTCAACCAATTAGTCCTCAAGAAGATGATTGAGAAGCTGGGGTACAATTCGACTACCGTTCTTAATGGGCTCGAGGCGGTAGAGGCCTTTAAGCGTTATCCGTATGATATGGTGTTCATGGATATACAGATGCCTTTCATGGATGGCATGGAAGCGGTCCAGCTCATTAAGGAATCGGCCCCGCCCGATCATCAACCTTATATCGTGGCCGTGACGGCCCATGCGATCAAGGGGGATCGGGAGAAATATTTAGGAATGGGCATGGATGAGTATGTCAGCAAGCCTGTCAGCTTGAATGTCATCTCGGCCATTATCGATCAGTTTCTGGCTGAACGAAATATTGCGCAGGCCTAA	MSDINIFGHQALFEHVYKSAPIGIALVTIEGSWISVNPAACKMFGYTDEELMAQPATDYIYSECINNKDKLLQSLDEASSTISVEKQFVHRDGNVIWASIHVSLVRDDQDQTPLFFISQIVDITDSKVAEQKLQESIERYTSLKKYNHDAIISFNLEGRIINGNQMAEQLTGFKIPELIGTKISNLIGERNLARVLSSAADYVAAEKGINCIHHKDGHQVEVLATLAPIVIHGKNVGFYIIAKDMTEQKRLIIEKEAAEKTNKAKSEFLAMMSHEIRTPMNGVIGMTDLILETELDEEQQEYVQIIKKSGTTLLNIINDILDFSKIESGRTELVEETFSLRTALSETLNMILPKALDKNIEVTTSVASDVPNQVYGDVTKLRQVLMNLLSNAIKFTPNGAVSISVQCVRDQANSELIQFSVTDTGIGVPSEKIAQLFEPFYQVDHYMTRQVEGTGLGLAICKKLVQLMGGDIWYERNPNQQGSVFTFTVDFSFSANAGNMPEAGTVHENHSDGSDLKILIAEDNEVNQLVLKKMIEKLGYNSTTVLNGLEAVEAFKRYPYDMVFMDIQMPFMDGMEAVQLIKESAPPDHQPYIVAVTAHAIKGDREKYLGMGMDEYVSKPVSLNVISAIIDQFLAERNIAQA	PGPT0004750_913	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
AK002_01332	1713			hypothetical protein	ATGATAAACCTCAATAAGAAATCCATCTGTTCCTTGGCTCTCATCGTTTCTCTGGTCATCTCATTGTTCCCTGCTTACGCATCCGCAGCGAAACACGAACATCCAAGGCATCCAAAGAAAAATCTCCAAGCCTACGTCAATGATATGCAGCCCGGCTGGAACCTGGGCAATTCGCTGGATGCCGTGGGAGCTGACGAAACGGCATGGGGAAATCCGCGCATCACCAAAGCGCTGATCGACCAAATCGCGGCACAGGGATATAAGAGCATCCGCATTCCGGTAACCTGGAGCCATCACATCGGCAGTGCACCGAGTTATGCCATCGACGCCTCTTACATGGACCGGGTCGAGGAGGTTGTCGATTGGGCGCTGGACGCCGATCTGTACGTCATGATCAATGTCCATCACGATTCGTGGCTGTGGATCAGCCATATGGAGAACAACCGCAACGAGGTCGTTGCCAAGTACAACGCCGTATGGACTCAAGTTGCCCAACGCTTCCGTACCCATTCGAACAAGCTGATGTTTGAAAGCGTCAATGAACCCCGCTTCTCGGATGGCGGGACCACCGACGAGTCCAAAGCCTTTCAGATGCTGGATGAGCTTCAAACGTCGTTCCATCGGATCGTCCGCGGATCTGGAGCACGCAATGCAACCCGGCCGCTTGTGCTCTCTACCCTTGAGGCATCCCCGACTCAAGCTAGAATGAACGAGCTGTACAACACCATGACCAAGCTGAATGATGCCAATCTCATCGCCACCGTCCATTATTATGGGTTTTGGCCGTTCAGCGTGAACATCGCGGGGTATACCCGTTTTGAGACGGATACCCGAAACGATATCGATCAGACGTTCAACCATGTATATGACACTTTTATCGCCAGAGGGATTCCCGTTATCCTTGGCGAATACGGGCTGCTTGGCTTCGATCAAAGCACAGGGGTCATTGAGCAGGGCGAGAAACTGAAGTTCTTCGAATACCTAACCTATTATCTCAAACAGAAGAACATTACCCATATGTTATGGGACAACGGCCAGCACTTTAAGCGAACCGCCTTTACCTGGTCCGATCCGGAGCTGTACAACATCATGAAGGCAGGTTGGAGCGTACGTTCTTCCACGGCTGATACCGATCTGATTTTTGTGAAAAAAGGAGCGGCTGTCCAGGATCAAAGCATCCCATTGAACTTGAACGGCAACGCACTGACCGAAATCCGCTCAAACGGACAACGGTTAGTCGCCGGGCAGGATTATACGCTGAACGGAAATACGATTACGTTTACATCCAGCCTGCTGTCCAGGCTGACCTCATCCGGGCAATTCGGAGTGAATGCCGTACTGACGGCCAAGTTCAATCGAGGCGCGGACTGGAACTTCAGGGTTGTCTATCATGATACGCCTGTGCTGCGCAGCACGCAGGGAACCACCGACTCGTTCAGCATTCCCGCGACGTTCAATGGGGATCAGCTGGCCACGATGGAGGCTGTTTACGCATCGGGAGGCAATGCAGGGCCGCAGGACTGGACCTCCTTTAAGGAATTTGAATACACGTTTTCCCCATCCTACGCGAGCCATGAAATCAAGCTTAAACCTGTCTTTTTTAACGAGGTCAGAGACGGAGAAGTCATCCTCAAGTTTCATTTCTGGAGCGGCGAGGTCATTACCTACAACCTAACGAAGAACGGCAGCAGCGTGACCGGCAGCACCTCCTAG	MINLNKKSICSLALIVSLVISLFPAYASAAKHEHPRHPKKNLQAYVNDMQPGWNLGNSLDAVGADETAWGNPRITKALIDQIAAQGYKSIRIPVTWSHHIGSAPSYAIDASYMDRVEEVVDWALDADLYVMINVHHDSWLWISHMENNRNEVVAKYNAVWTQVAQRFRTHSNKLMFESVNEPRFSDGGTTDESKAFQMLDELQTSFHRIVRGSGARNATRPLVLSTLEASPTQARMNELYNTMTKLNDANLIATVHYYGFWPFSVNIAGYTRFETDTRNDIDQTFNHVYDTFIARGIPVILGEYGLLGFDQSTGVIEQGEKLKFFEYLTYYLKQKNITHMLWDNGQHFKRTAFTWSDPELYNIMKAGWSVRSSTADTDLIFVKKGAAVQDQSIPLNLNGNALTEIRSNGQRLVAGQDYTLNGNTITFTSSLLSRLTSSGQFGVNAVLTAKFNRGADWNFRVVYHDTPVLRSTQGTTDSFSIPATFNGDQLATMEAVYASGGNAGPQDWTSFKEFEYTFSPSYASHEIKLKPVFFNEVRDGEVILKFHFWSGEVITYNLTKNGSSVTGSTS	PGPT0018620_2276	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
AK002_01333	3474			hypothetical protein	GTGAAAAGAATATGGACTGCCTTGCTAGCAGCTATACTGTTAATCCCCATGACATTCCAATCGCAGGCCCAGGCGGCAGTGAACATCAGCGTCTTGATTGACGGCGTCAAGCTGTATACGCCTCAAGCGCCTGTCATGATCCAGGGGCGCGTCATGCTTCCGATGCGATCCATCTTCGAAGCCTTGGACGCATCGGTCAAATGGAATCAAAAAACGAAAACCGTCACGGCGGTCAAGGATGGCACGACCGTCATCCTAAAAATCAACTCCAAGACGGCCACCATCAATAGCAAGACGGTGGCGCTGGATGTACCGGCGAAGAACTTAAAAGGCAACACCATGGTGCCGGTCCGCTTCGTAAGCGAAGCCCTCGGCCAAAAAATCGGCTGGAATTCCAAAACGAAAACCGTAACCGTCACCACGACGAACAATTCCGGCGGAAACAATACCGGGATCGCACCGGTGAATTACGTAACCCTTCGGGATATCGGCAATGCCGGAGACGGCCGCGATTTGCAGGTCAGCTTCTCCAAATCGTCGACCGAACCTTTAATCTCGCATTACCGCGTCATGATTGTGAAGCAGTCCAAGACGTTAAACCAAACCGAGGCACAGCGCGTATCCTCCGCTGCTTACACATCGGTATATCCGACCGGCTCGGATCCGATGCTGACCCTTACATCCGGTTCAAAGGATGTGGACGGTGACCTTATCCGCGATAATCAAGCTTATAAGGCTTATGTATTGGCAGTCAGCAAAACAGGCGGCGCATATGCCCTTTCCTCGGCTTCCCCGTCGTTGACGCTGACCAACACCAATTCGGTGAACGGCGCAACCAACGTGAAAGCGAGCGATGTGAGCGACTACGGCGATGGCCGTGATCTTCAGGTCAGCTTCACGCGCGCCCAAAACGAGAGCAATGTAAGCAACTACCGAGTATTTGTCGTAAAAACGAAGGATGCAGCTAACTTCAATCTGGCGGCAGCCAAGTCTGTATCCAGCCAAAATTACTCAACGGCAAGCAAAACTAGCACGACGAACACAACACTGTCCACGACGCTGAGCTCTTCCGCCCGCGATACTTCAGGCGAGCTCATTCGCAGCGGAGTCGCTTACACCGTATTCATTCAGTCTGTCAGCAGCAACGAGAGCGTGCTTGCAAGCAACCTCTCGTCCGGTTCGGCCAGCATCACCCTCAGCACGGGGAATACAACGGTTCCTTTCATCACGCAGGTAACGGATATCGGCGATGCCGGTGATGGCCGCGATCTTCGCGTAAGCTTCAACAAGGTATCCAACGAATCCAGCATTCATTCTTATCGCGTGTTTGTCGTAAAGGACAGCAATTATAGCAGCTTTAACCTAAGCAGAGCCAACACGGCTTCCAGCTACAACTACTATACCCATGTCAACAAAACCGGCAATAACATCACGAACCTGACGCTGTCATCGGGCGCCAGAGACGTGGATGGAGCAACGATTCGCAACGGCGTGCACTATCGCGTATTCGTCATGGCGGTGGACAACAATAACGCCAATAACAACGTGCTGTCCGCTCCATCAAGCTCCATCATCTTGAGTTCCAGCTACAATGTGGGCGCGGTTACCAGCCTGTCCGTCACCGACGTGAACAACTACAATGACGGTCGCGACCTGCAGGTGTCATTCTATCGCCCGTCCGACCAATCGAATATTAGCCATTACCAGGTCTTCGTTGTCAAATCATCGAATAGTTATTTTGATCTGTACAGGGCAAACAATCTAAGCAGCTATTATTATACGCAAATCAGCAAGAACAACAGCAGCAGCAACTACATGTCGCAAGTGCTGAATTCAGGCAGCCGCGATATTGACGGAGAACTGATTCGCAATGGCGTCAGCTATCGCGTTTATGTCCTGTCCGTAGGATATTCGACCAGTAACAATGCATTATCTGACTATGCTTCCATTACGCTTGGGAACGCCAATCAGAACGTTAACCCTGTTTCCACGCCGTCCCTGACGCTAAACGGCAACAACGGAAACGGAAGCGACCTGAGAGTCACCTTCAGTCCTGCTTATGGCGAAAGCTACATCGACCATTACCGGGTTATTGTCGTAAAGTCAAACCAAAGCCTGAACGTGTCGCAAGCTTACAGCAACGGGTATTACACGTTGGTTAACAAAACCGGCGGTACCATCACTCGGGATTTGGTTAACACGACCAAGGATAGCGATGGAGATCTCATTCAAAGAGGTTCAAGCTACCGCGTGTACGTCTTATCTAGAGGCAACAGCTATTCGAATTACAGCAACGCGCTTTCGGCGGTCTCTAATGCGGTTACGATTCAAGGCGTGACCCAGGTAGCGGCAGCAACGAACGTTACAGCAGCGGATGTGAGCGACTTTAATAACGCAAGCGACTTGAAAGTATCATTCACCAATCCAGCAAATGAAGCCAATATCAAAGAATACCGAATCATGGTCGTAAAGCAAGCCAACGCCGGCAGCTTTACTGTAGCTCAAGCTAACAAAGTAGGTAATGACAACTATGATAGTGTAACGGTTGGCACCAATTTCAATAAGGTTCTGCGAGCTGAAACAAGAGACGTCGAAGGTCAGCCGATTCGCAATTCGGTGGATTACCAAGTGTTCGTACTGTCCGTAAGCAACAATGGTTCCATAAGCAATGCCCTGTCGGCACCATCGGCGACAATCAAGCTTACGGGTACGGCCGTCACGGTTCCTTCGGACGTATATGCCGGGATTGTAAGCACCAACGGGAACAGCAGTGATATTATGGTTAAATTCAATCCTTCTTCCGGTACTGTGGGAGAATACCGAATTCTGATCGTACCATCGAGCAAAAGTTTCGGATTGGATGATGCGAACAAAATCACCAATGGACAATTATATACGACGGTTGCTCCATCTACCGTCAGAATTGAACAGAAGCTTTCTGCAGGATTATCGGATGTAACCGGCGCAGCTGTCGTGGCTGGAGTCAAGTACAGAGTTTATATTCTTGCCGTTGCTGATGGCACCGTGTCAACTAAGAACAGCATCTCTGACATGTCGGAAGAATTCGAAATCCCGAACCTGATCCAAACCACGGCCGTTACAGCCAAACTGGATGCAAACGGGAAGCTTCAAGTCGATTTCAAGAAGGCGATCGATGAGCGAGGCATTACGGCTTACCGCCTGTTGTTTGTAGAGGAAGACAACATCAAGACCTTCAATCTTAAAGCAGCAACGGACGCCGCTGCCAAAGAAGATAAGAATGCAACAATAAAACCGGATGGCAAAGATGTATCGACCCTCATCGATATCCCTGCCAAGGATGCCCTGGGTAAAGACATTAAAGACAATGCGAAGTACGCCGTTTATGTCCTGTCCGTGCAATCCCAGGATAAGAAACTTGCTTCGAGCGCACAATCCGCAACGCCTTTATCCGAAGCGTCCAAAACGCTTGTTGTATTAAAGAAAACGCCTTAA	MKRIWTALLAAILLIPMTFQSQAQAAVNISVLIDGVKLYTPQAPVMIQGRVMLPMRSIFEALDASVKWNQKTKTVTAVKDGTTVILKINSKTATINSKTVALDVPAKNLKGNTMVPVRFVSEALGQKIGWNSKTKTVTVTTTNNSGGNNTGIAPVNYVTLRDIGNAGDGRDLQVSFSKSSTEPLISHYRVMIVKQSKTLNQTEAQRVSSAAYTSVYPTGSDPMLTLTSGSKDVDGDLIRDNQAYKAYVLAVSKTGGAYALSSASPSLTLTNTNSVNGATNVKASDVSDYGDGRDLQVSFTRAQNESNVSNYRVFVVKTKDAANFNLAAAKSVSSQNYSTASKTSTTNTTLSTTLSSSARDTSGELIRSGVAYTVFIQSVSSNESVLASNLSSGSASITLSTGNTTVPFITQVTDIGDAGDGRDLRVSFNKVSNESSIHSYRVFVVKDSNYSSFNLSRANTASSYNYYTHVNKTGNNITNLTLSSGARDVDGATIRNGVHYRVFVMAVDNNNANNNVLSAPSSSIILSSSYNVGAVTSLSVTDVNNYNDGRDLQVSFYRPSDQSNISHYQVFVVKSSNSYFDLYRANNLSSYYYTQISKNNSSSNYMSQVLNSGSRDIDGELIRNGVSYRVYVLSVGYSTSNNALSDYASITLGNANQNVNPVSTPSLTLNGNNGNGSDLRVTFSPAYGESYIDHYRVIVVKSNQSLNVSQAYSNGYYTLVNKTGGTITRDLVNTTKDSDGDLIQRGSSYRVYVLSRGNSYSNYSNALSAVSNAVTIQGVTQVAAATNVTAADVSDFNNASDLKVSFTNPANEANIKEYRIMVVKQANAGSFTVAQANKVGNDNYDSVTVGTNFNKVLRAETRDVEGQPIRNSVDYQVFVLSVSNNGSISNALSAPSATIKLTGTAVTVPSDVYAGIVSTNGNSSDIMVKFNPSSGTVGEYRILIVPSSKSFGLDDANKITNGQLYTTVAPSTVRIEQKLSAGLSDVTGAAVVAGVKYRVYILAVADGTVSTKNSISDMSEEFEIPNLIQTTAVTAKLDANGKLQVDFKKAIDERGITAYRLLFVEEDNIKTFNLKAATDAAAKEDKNATIKPDGKDVSTLIDIPAKDALGKDIKDNAKYAVYVLSVQSQDKKLASSAQSATPLSEASKTLVVLKKTP	PGPT0022155_3230	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
AK002_01334	966	fadM_2	COG0506	Proline dehydrogenase 1	TTGAACGATTCTTTATCTGAACGGGCTTTTGCCGACGCTCTGAAGTCAGTTGCCCGTAACCTTCAGCTCAAACAATACGTCCGGCAATCCGCCGAATGGTATCCGATCCTGCTGCGTGCAGCGGAGCGTTTTGTCGCGGGAGACGTGCTGGAACGAGGTTTGTTCTGCCGGGATGCACTGGATGCCCGAGGTTATCGGGCTTCGCTGGAATATATCGGTGAGAATACCCTGAACGAAGCCGAATGCACACAGGCTTTCCAGGAGTTCTCCCGGTTAATCGAAGCCTGTTCGAAAGGCCGGCCGGGCACCCGTATTTCGCTCGACCTGTCCCATATCGGATTATCGGTAGACGAGGATTTGGCTTACCGGCATCTTGAAGGGCTTGCCAGCCAAGCGGAGGTGGCCGATTTGGAGCTGGTCATCAGTATGGAGGAGTCCGCCAAAACGGATGCCATCCTTGCGCTGCATCGCAAAATATCGGCCCGGTTCGCGAATGTCGGCATCACGCTGCAAGCCCAGCTGCCCCGAACCCTGGAAGATCTCGAACAAGTTCTTACCTACGGTTCCGGCACGATCCGCATCGTAAAGGGCGCCTATCAGGAACAAGAGGGACACTATATTCCTCGTTCCGAGACGCTTACCTCTAGGTACATTCAAATGGTGGATTTATGCGTTCAGGCAGGCTGGCCGGTATCGGTCGCCACTCATGATGAACCTATCCTGCGGCATATGACCCGCAACGAAGTGTATCGCGGCTGCGCCGTCGAAATTGAAATGCTGTATGGCATACGAACGGACCTTGCCAAGCAACTGAAGGACGACGGCTTCCCCGTCCGAGTCTACCTGACATACGGCGAGGAGTGGTTCCTGTACTTGTGCCACCGAATCGCCGAGCACCCGCCGAATATCTATGATGCGGTGACCCGGTCGATCGCAGGCGGCACCGAGCCCATCACCCAATATTGA	MNDSLSERAFADALKSVARNLQLKQYVRQSAEWYPILLRAAERFVAGDVLERGLFCRDALDARGYRASLEYIGENTLNEAECTQAFQEFSRLIEACSKGRPGTRISLDLSHIGLSVDEDLAYRHLEGLASQAEVADLELVISMEESAKTDAILALHRKISARFANVGITLQAQLPRTLEDLEQVLTYGSGTIRIVKGAYQEQEGHYIPRSETLTSRYIQMVDLCVQAGWPVSVATHDEPILRHMTRNEVYRGCAVEIEMLYGIRTDLAKQLKDDGFPVRVYLTYGEEWFLYLCHRIAEHPPNIYDAVTRSIAGGTEPITQY				NA	NA	NA	NA	NA
AK002_01335	819			hypothetical protein	ATGCCCAATATTATATTTTTGCGCGACCCTGATCTTCCGTTTTTGGAAATCAAACAATGTGATGCTTTGGATCACCTGGCCTACAAAAAGCATTTTCACGAAGAAATCTCCATTGGTCTCATTGAGCAAGGGGCTACCCGCATATGGTCTGCCGGGAAACGGTATGAGGCTGCTCAGGGACATATTGTGCATTTTCCGCCGCTGCTCCCTCATGCTTGCCACCCCGAGAATTCCGCCGACTGGAAATATACGATGGTCTTTATCCATCCCCGGTGGCTCGACCCTGCGCCCGCCCACTATCATCCCTCCCAATCCGATATGCCCATCCTGCTGCCGAAATATCAAAACGATCGCTGCCGAAATCTGGTTCATTCCTGTAGAATAGGGCTTCAGCAAAAAGCCACTCCATTGGAGATTGAATCCATGCTGATGGCATTAATGCGGGAAACGGGCCTGCTTCGGGAGGAAAGCGCCTCGGTGCCTGGCGGCAATGTGCCTGAATCCCCGGCTATGCTGCGAGCGAAGCAGTATTTGGATCAGCATTACAAAGACCGCATTACACTCGATGCCCTTCAGGACATATCCGGGATCAGCAAATTCCATCTCATTCGGATGTTTACGGAGACCTATCATCTTGCTCCCCATGCCTACCAGAATTTATTGCGCATCAATTACGCGAAAGAGCAGCTGTTACAGGGGAAGGCCATCGCTGACGTTGCTACCGAGTCCGGTTTTTACGATCAGAGCCATTTCACGAGAGCTTTTGCCGGGTGCGTGGGGACAACGCCTCTTCGGTATGCAAAAGCGGCATCATCTTAA	MPNIIFLRDPDLPFLEIKQCDALDHLAYKKHFHEEISIGLIEQGATRIWSAGKRYEAAQGHIVHFPPLLPHACHPENSADWKYTMVFIHPRWLDPAPAHYHPSQSDMPILLPKYQNDRCRNLVHSCRIGLQQKATPLEIESMLMALMRETGLLREESASVPGGNVPESPAMLRAKQYLDQHYKDRITLDALQDISGISKFHLIRMFTETYHLAPHAYQNLLRINYAKEQLLQGKAIADVATESGFYDQSHFTRAFAGCVGTTPLRYAKAASS				NA	NA	NA	NA	NA
AK002_01336	318			hypothetical protein	ATGTTGAACGACAACCTTTTTGAAGTATTGGCAGAGCCGAACCGCAGGACGATATTGGACTACCTGCGCGTGAAAGAATGTACGGTGGGGGAGATTGTAGAGCTCATGCAGCTCAGCCAACCCGGCGTGTCCAAACATCTGCGCATTTTGCGGGACGCAGGCCTTGTCTCGCTGCGGAAAGAAGCACAGAAGCATGTGTACAGCCTGAATGCCAAGCCTCTGGAGGAGATCCACGACTGGCTGGAGCCCTATCGGCAGTTCTGGACGAACAAGCTGGATGATCTGGAGAGGCTCCTGGATGAGGATGAAGCTCCGTAA	MLNDNLFEVLAEPNRRTILDYLRVKECTVGEIVELMQLSQPGVSKHLRILRDAGLVSLRKEAQKHVYSLNAKPLEEIHDWLEPYRQFWTNKLDDLERLLDEDEAP	PGPT0004735_147	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_01337	483			hypothetical protein	ATGCTGGCTGTTGTACAGCAAGACGAGTTCGGAACGACCGTCCGATTTGAACGCCGCCTGAAGCATTCGGTTGAGAAGGTGTGGTCCTATCTAACGGATAATGACAAGCTGAAGCAGTGGTTCTCGGAGCTGAAGGTGGAGGATTTGCGCCAAGGCGGAAGAATTACCTTTGACATGCAGGACGGAACGTTCGAAGAGTTTGAGATTACGGACTATCGGGAGTTATCGGTACTGGAGTATACGTGGGGAGAGGACCGGGTGCGTTTTGAGCTGCATCCCGAGGCCGAAGGCTGCCGTCTGGTGCTGATCGAGACGATAACGAACATCACGGATCATACGCCGAAGGATATAGCCGGTTGGGACGTATGCCTGGACGTCATCGAAGCACTGCTGGATGGCAGGATGCTTGAATCGCGCAAAGACGCCTGGTCCGAAAAATACGAGCAATACGTTCACGTATTTGAACAATTGCCCCGAGCATAA	MLAVVQQDEFGTTVRFERRLKHSVEKVWSYLTDNDKLKQWFSELKVEDLRQGGRITFDMQDGTFEEFEITDYRELSVLEYTWGEDRVRFELHPEAEGCRLVLIETITNITDHTPKDIAGWDVCLDVIEALLDGRMLESRKDAWSEKYEQYVHVFEQLPRA				NA	NA	NA	NA	NA
AK002_01338	1008			hypothetical protein	ATGCCGGATTACAAGGTAAACATCTTGCAGCTTAGAGAAGATAACTATCATAACGGGCTGAAGCTGGGCCGCAGCCTGCGAAATCAGCCCATATTGAAAGCTTTCGAAGCGGCCACCAAACCGGAGATCGACACGGAACAGCTGAAGAGCATCTATAACGAGTTTGCCCCGCAGCTGCTATCGGAGCTTGAGGGACTGGCGGAAGGCTTGGAAATGTCCTTTCCCAAAGCCGCGGCGCTTCTGGGCGGATACGACGTCCCGAAAATCGCGGCCATGGGCTGCTCGGCGATGATCACGGCTTCGTATTACGTAAGAAATTACGATTTTACGCCTGCGTTTTACGATGGTTATTTTACTGTGGCTCAAGCCGATCAAGGCCTGGCAACCGCGGGCTATAATTTGCAGGCCATAGGCAGGCATGACGGGGTGAATGAGCAAGGGCTTGCCGCCGGGCTGCATTTTGTCAGCTTTGACGGATACCAGACGGGACTGTCGCCTTGGGTCGGCGTTCGGATGATACTGGAATCGTGCGGCACGACAGAAGAAGCGTCTTATATGCTGCGCCATATTCCCCATGCGGCTTGTTATAACTTTTCAATAGGAGATGCACAGGGCAACATGGCCGTTGTCGAGGCAAGCCCGGACCAAGTGATTCCCCGTGCGGGCGGGGAGGCGGCAATTGCCTGCGTTAACCATTATGAGGAGTTGACGGGCAAAAACAGGCCTGCCATCGAGCATTCCCTGCGGCGTAAACGTTACCTCGACAGTCTGGATTCAGAACGGTTAACCCAAACCGAGGTCTTCGGTTTGTTTAAGGATCCCAAATCCCCGTTGTTTTTTACGGATTACGACGATTTGTTCGGAACGCTGCATACCTTTTCGTACGCCTTCGAAGATGGAAGGGTCATGACTTCGCTTGCTCAGGGCGGCGTGCTTGATTTTTCGTTCAGGGATTGGACCCGGGGCCAAAATATCCCCGAAGCGGCGTTGACGGGACATATCGAATGA	MPDYKVNILQLREDNYHNGLKLGRSLRNQPILKAFEAATKPEIDTEQLKSIYNEFAPQLLSELEGLAEGLEMSFPKAAALLGGYDVPKIAAMGCSAMITASYYVRNYDFTPAFYDGYFTVAQADQGLATAGYNLQAIGRHDGVNEQGLAAGLHFVSFDGYQTGLSPWVGVRMILESCGTTEEASYMLRHIPHAACYNFSIGDAQGNMAVVEASPDQVIPRAGGEAAIACVNHYEELTGKNRPAIEHSLRRKRYLDSLDSERLTQTEVFGLFKDPKSPLFFTDYDDLFGTLHTFSYAFEDGRVMTSLAQGGVLDFSFRDWTRGQNIPEAALTGHIE				NA	NA	NA	NA	NA
AK002_01339	561			hypothetical protein	TTGGGTGCAATCGCGGTGTTGTTAGTCCTCCTGCTGCTTTGTATCGGAAAAGCCGATGAGGATATTACGCTTCATAACGAGATCAACATTCCTTTTGTATATCGATTGCTAATGTCGTATGCCCCGGATTCATATACGGTTGAAAGCCAATACGGCAAACCGGATATCGTAAGAAAGGAACGGGACTATACGTATGAAATTCACGAAATGGCGGATGGCAGCAAGCTGGTTTCGTTCTTTTATCCCCGAGGCGGACATCTCACGGATCAATGGCGGCTTAGCCGCCTCCCGGAGCGGAGCGAGTTTGAAGTTTTGGTTCCAGGAGAAGCCCTTGCTCAAGAAGTCAAACGGATCGATCCCTATTTTAAGCTTATGACCGACGCGACCCACGAGACGGGAACCAGCGAGCATCGTCTCCGGGATACCGGATTGGCCACGATTCAATACAAGCACGCGGGGGGCAGATGGATCGTGGATTCGATCGGGTACACGGCTCAGGACCCTTCCGGTTTCGTAATGAAGCTTCGTGCGGAGGACCGGGCGATCTTCTGGAAATCATAG	MGAIAVLLVLLLLCIGKADEDITLHNEINIPFVYRLLMSYAPDSYTVESQYGKPDIVRKERDYTYEIHEMADGSKLVSFFYPRGGHLTDQWRLSRLPERSEFEVLVPGEALAQEVKRIDPYFKLMTDATHETGTSEHRLRDTGLATIQYKHAGGRWIVDSIGYTAQDPSGFVMKLRAEDRAIFWKS				NA	NA	NA	NA	NA
AK002_01340	702		COG1136	putative ABC transporter ATP-binding protein	ATGGCTTTTGTGAGCATTAAGGATGGATATAAGCGCTATCGGATGGGCGAGACCACCATTGTAGCCAACGACGGAATCAACCTGGAGATCGAAAAGGGCGAGTTTGCGATTATCGTCGGTCCCAGCGGGGCAGGAAAATCCACGGTGCTGAACATATTGGGCGGCATGGACACCGCCGATGAGGGGCAAGTGCTGGTGGATGGAACGGACATTGCCAAGTTTAACAGCAAGGAGCTGACGGGATATCGGCGCAATGACGTCGGATTTGTGTTCCAATTTTACAACCTGGTTCCCAATCTGACGACAAAAGAAAACGTGGAGTTAGCCTCGCAGATTTCGCCCCGAGCTCTGGATGCCGAACAAGTGCTGCGGGATGTCGGCTTGGAGCAGCGCCTGAACAATTTTCCGGCGCAGCTGTCCGGCGGCGAACAGCAGCGGGTGGCGATTGCCAGGGCGCTTGCCAAGCAGCCGAAGCTGCTTCTCTGCGATGAACCCACGGGTGCCCTTGATTACCATACCGGGAAGCAGGTGCTTAAGCTGCTCCAGGATACCTGCCGCCACACGGGAACGACCGTTATCGTCATTACGCATAATTCTGCCCTGGCACCGATGGCCGATCGCATCATTGAGATCAACAATGCCAAGGTTCGGAAGACGGTGGTGAATCCGAATCCCGTTTCCGTAGACAGCATTGAGTGGTAG	MAFVSIKDGYKRYRMGETTIVANDGINLEIEKGEFAIIVGPSGAGKSTVLNILGGMDTADEGQVLVDGTDIAKFNSKELTGYRRNDVGFVFQFYNLVPNLTTKENVELASQISPRALDAEQVLRDVGLEQRLNNFPAQLSGGEQQRVAIARALAKQPKLLLCDEPTGALDYHTGKQVLKLLQDTCRHTGTTVIVITHNSALAPMADRIIEINNAKVRKTVVNPNPVSVDSIEW	PGPT0013345_9638	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_01341	3315			hypothetical protein	ATGATGAAGAAGAAAGCGTTATGGACTGATATTTTCCGGGAAATATCGCGGACAAAGGCACGGTTTCTGTCCATTTTTGCGATTATTATGCTCGGCGTTGGCTTTTTCGCGGGGATCAAGGCCACCGGGCCGGATATGCTGGATACGGCGGATCACTACTATAAGGATTTAAAACTGATGGACCTTAAGGTTCAATCGACCTTGGGTCTAGAACCAAGCGATATTGAAAAGCTGAAACGGGTTGCCGGCGTGGATGAGGTTCAACCGGGCTACGGCGCGGACGTATTTCTTGGCGACAGCGGGCGGATCGCGAAGGTGCTCTCCTATGACCCAGGAAATAATCTGAATCAATATGTGCTTACAGAGGGGCGAATGCCAGAGGCAGCAGGCGAAATCGTCATCGATGCAGGAGAGAGAGGAAACGAATTTAAAATAGGGGATCAGGTCACCTTTACCAATCCGGATCAGGAAGCGGATTTGGGGGAAACGTTTGATCATCTGACGTATACGGTCGTTGGAAGAGCGAAAAGCCCGCTGTTCATAAGCAGCATGAGCCGGGGAACGAGCGGTATCGGCAAAGGGACGGCGGATGTATTTGCCGTTATTCCGGAGAAGGATTTTAAACTGCCTGTTTATACGGAAGTCTATATGACCTTTCAAGACACGGCGGAACCTGCTCCTTATACAGCAGAGTACGACGAGAAAATCAGCCGCCACAAAGAAGCGGTTGAACTGGCGCTGGAGGCCATGCCGCAGGAGCGGCTGGCGGAGATCCGTGCAGAAGGGCAGAAGAAGCTGGACGAGGCGATGGGCAAGATCGAGGATGCCAAGAGGCAGCTTGCCGATGCGGAGCAGGAGTTAACGGATGCCAGGCTCAAGCTGAATGAAGGCGAGCAAGCGTACCGCGATGGGGTGAACAAGCTTCAGGCCGAGCTGGCCCAAGGGCAGGCTAAACTCGATGCGGCGGAAAAAGAACTTTCGCAAGGCAAAGCGGAGCTGAAACGCAATCAGCAGAAGCTGGAACAGGGCCGGAATCAGCTCAAGACGGGTCAGAGCCAACTGGATCAACAATGGGCGTTGCTTGCGCCGAAGCTGGCACAAGGACAGCAATTGGCCAAGGCGCTGCAGCAAATCTCCGGCTTGGACCCGGAGGCCATCCCGGACGAGCAGAGGCAAGAGCTGCTCTCGGCAGCTCAGTCAGCCGATCCGAAGCTAGGGGCGGCCGCCGCCGGTTTCATGGACGGCGCATCGGACGGCGCTGCTTTGCGACAGGCGGCTTCCGAGTTCCAGCGTGGCCTGGACGAGGCTTCGCTGCAGCTGGATCAGGCTCAGCAGAAGCTGGATGCAAGCGAAGCAGAGCTGAAGGACGGGCAGACTAAGCTTTGGGAAGCCGAGCGTCAGCTCGCGCAGGGAGAGGCAACGTTCAAGCAAGGAACGGAAGAGCTTGCAGCCGCCAGACGGGAGGGAGAAGCCAAGCTCGCGAATGCGAAAGCGGAACTTGCCCAAGGACAGGCGGACTACCGGGAAGGTCAGGAGAAATTCAAAGAGGAAAAAGCAAAGGCTATGCGGGAGATCGCAGACGGCGAAAAGGAAGTGGCTGAGGGCCAGAAGGAGCTTGATCAGCTTGAGCTTCCCAAGGTCTATGTCATGGACCGCAGCGTTAACCCGGGATATACCGAGTACAGCGATAACGCGGACCGTTTATCTTCCATTGCCACCGCGTTCCCGGTATTCTTTTTCCTGATTGCGGCCCTCGTCAGCCTGACGACAATGACCCGGATGGTTGAGGAACAGCGGCTCCAGATCGGAACCCTGAAAGCCCTCGGATACAGCAACCGGGACGTGATGAAAAAGTTTCTGGTCTACTCGACGCTGGCGAGCGTTTCCGCATCGGCTGCCGGACTGGCCGTCGGCTTTACCCTGTTTCCCGCCATCATCTATGATGCTTACGGCGCTTTATATAATCTGCCCGATGTAAGAACCAGCTTCTATCTCAGCTACAGCGTCGTCTCGGTTGTCGTGGCTGTGCTCTGTACCACCATGACGGCTTATGTGGCCGTGCGGGTGGAGCTTCGAAGCAACGCCTCGGTCCTGATGCGTCCAAGGGCGCCCAAGAACGGATCCCGCATATGGCTGGAGCGAGTGCCATGGGTGTGGAATCGGCTCGGCTTTATTGGAAAGGTAACCGCGCGAAATCTCTTCCGCTACAAGCAGCGGATGTTCATGACGGTCTGCGGCGTGGCCGGGTGCACGGCCCTGATTCTGACCGGTTTCGGTCTTAAGGACTCCATCGGGGATATCGCGCCGATGCAATACGGCAAAATCATGCAGCACCAGGCGACCGTGGTATTCCAAGAAGATAACGGCGAGAGCGGCGGGCTGGAGGACTATAACAAGCGCCTAGCGGGAGTTCCGGAGATTACGGGAATCCTGAACGTGACCCAGGAGGCGATGACCGCGGCGGCCCCCGGCGTGAACGGCCAGGATGTGAATTTGTTCGTGCCGCAATCGCCGGAGAAGATCGATTCGTTTATCGTGCTGAAGCCCCGCGAACAGGGGCAGACGCTGTCGCTGACGGATGACGGCGCGATCATTACCGAGAAGCTGGCCAAGCTGTTCGGTCTCGGCATTGGCAGCACTTTCACGGTTCAGAACAGCGACAATGAACCCTTTGAAATACGCGTGGCGGGGATCACGGAGAACTATGCCCTGCACTACGTGTACATGACGCCGAAGTACTACGAAGATATTTTTGAAGCAGCGCCCGAAGTAAACAGCCAGCTGCTGACTTATGACCGTAACGATCCGGAGTGGGAGGATCGGCTCGGGGAATCGTTAACCGCAAGCGAACGGGTCGCCATGGTGAGTTTCACGAGCGGCGTAAGCGACGCCTTCAGCGATACGATGGACAGCATGAACGTCGTGGTGGTCGTCCTGATTGTGTCCGCTGCGGCCCTCGCATTTGTCGTGCTGTACAATCTGACGAATATCAACGTATCCGAACGGATACGCGAGCTGTCTACGATCAAGGTGCTTGGCTTCTATGACAAGGAAGTAACCATGTACATTTATCGCGAAAACATGATCCTGACCGTGCTCGGGATCATAGCGGGCAATCTGGCAGGCATTTTCCTGCATCGGTTCGTGCTCCTGACCGCAGAAGTGGATGCGATGATGTTCAGTCCCACCATCCATGAAATCAGTTATGGCTACGCGGCGCTGCTGACGCTGCTGTTCTCGGCCATCGTCATGGCTTCCATGCATTACAAGCTGAAACGGATCGACATGATCGAAGCGCTGAAGTCCGTGGAATAG	MMKKKALWTDIFREISRTKARFLSIFAIIMLGVGFFAGIKATGPDMLDTADHYYKDLKLMDLKVQSTLGLEPSDIEKLKRVAGVDEVQPGYGADVFLGDSGRIAKVLSYDPGNNLNQYVLTEGRMPEAAGEIVIDAGERGNEFKIGDQVTFTNPDQEADLGETFDHLTYTVVGRAKSPLFISSMSRGTSGIGKGTADVFAVIPEKDFKLPVYTEVYMTFQDTAEPAPYTAEYDEKISRHKEAVELALEAMPQERLAEIRAEGQKKLDEAMGKIEDAKRQLADAEQELTDARLKLNEGEQAYRDGVNKLQAELAQGQAKLDAAEKELSQGKAELKRNQQKLEQGRNQLKTGQSQLDQQWALLAPKLAQGQQLAKALQQISGLDPEAIPDEQRQELLSAAQSADPKLGAAAAGFMDGASDGAALRQAASEFQRGLDEASLQLDQAQQKLDASEAELKDGQTKLWEAERQLAQGEATFKQGTEELAAARREGEAKLANAKAELAQGQADYREGQEKFKEEKAKAMREIADGEKEVAEGQKELDQLELPKVYVMDRSVNPGYTEYSDNADRLSSIATAFPVFFFLIAALVSLTTMTRMVEEQRLQIGTLKALGYSNRDVMKKFLVYSTLASVSASAAGLAVGFTLFPAIIYDAYGALYNLPDVRTSFYLSYSVVSVVVAVLCTTMTAYVAVRVELRSNASVLMRPRAPKNGSRIWLERVPWVWNRLGFIGKVTARNLFRYKQRMFMTVCGVAGCTALILTGFGLKDSIGDIAPMQYGKIMQHQATVVFQEDNGESGGLEDYNKRLAGVPEITGILNVTQEAMTAAAPGVNGQDVNLFVPQSPEKIDSFIVLKPREQGQTLSLTDDGAIITEKLAKLFGLGIGSTFTVQNSDNEPFEIRVAGITENYALHYVYMTPKYYEDIFEAAPEVNSQLLTYDRNDPEWEDRLGESLTASERVAMVSFTSGVSDAFSDTMDSMNVVVVVLIVSAAALAFVVLYNLTNINVSERIRELSTIKVLGFYDKEVTMYIYRENMILTVLGIIAGNLAGIFLHRFVLLTAEVDAMMFSPTIHEISYGYAALLTLLFSAIVMASMHYKLKRIDMIEALKSVE	PGPT0013350_470	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK002_01342	1743		COG1132	putative ABC transporter ATP-binding protein	ATGGGAATCGTCTTCTCGATCTTGAAAAAGTACCGCGTTGCAGCGATTGCGGCACTTGCCATGATGCTGATCGAGCTCACCGTCGAGCTGATTCAGCCGCTGCTTATCTCCAAAATCATCGACGACGGCATACAGAAGCAGGACATGTCCGTCGTATGGATGTGGGGAGCCGTTTTGACTGGAAGCGCTATTATAGCCTTCATCGCCGGGATATCCAGCTCTTTTTTTGCGGCGCATACGAGTCAGGGGCTCGGTTATGATCTTCGCGATCAATTGTATGACAAGGTGCAGTCTTTCTCTTATTCGATATTTAACCGGTTCGCCACCTCATCGTTGATTACCAGGCTTACGGGTGACGTCACCCAGATCCAGGACACGGTGTTCATGGGCCTGCGGTTCATGACGCGCGTCCCGCTGGTGGTGCTCGGCAGCATTATCATGGCACTCGTAGTGAATGTGAAGCTGGGCTTGCTGCTTGTGCTGACCGTGCCCGTATTGTTCATTTTCATCGCTTGGATCATGAAGCGGGCTGCCGATGCGTTCCGCAGCGTCCAGCAGCGGCTCGACGCGGTGAACGGCGTCATTCAGGAGAATCTGACCGGGATTCGCTTGATCCGCGTATTCGTGCGCATGGGCCATGAAATCGAGCGCTTTGCCCGTACCTCCGGCAAGCTGATGAGCACCACCGTCTCGACCTTGCGATTAACGGAGACCACGATGCCGTTTATTCTCCTCGTTATGAACGCCGGGATCATGGCGGTCCTGTGGTTCGGCCGCAAAGATATTGCGTCCGGGAGTGCCAGCGTCGGCGAGGTGGTCGCCGTCGTCAACTATTCCCTGCGCTGCATCGGCGCCATGTCCGCCCTGTCTTGGGTCGTCGTTGCCTTTTCCCGCGGACGTGCTTCCGCCCAGCGTGCGCAGGAGGTGCTGGGCACGGAGGATACGGCGGCAGGCTCAAACAAGGACCAAGCCGGAAAAGTGGATATTCAGGGGGGCGTCAAATTCGAGCAAGTGAGCTTCAGTTATCCGGGCAGCGACATCGACGTCCTGACGGATATTTCCTTTGAAGCGAAGCCCGGTGAGCGCATCGCCATCATGGGAGCCACAGGTTCCGGCAAATCCTCGCTGGTCCAGCTGATTCCGCGGCTTTACGAGGAAGAGAAGGGGACCGTGTTCGTGGACGGCGTGGACGCCGCGACGATCAATGAGGTGAACCTGCGCAGCGGCATCGGCTATGTGCCGCAGGAAGTGCTGCTCTTCTCCGGGACGGTGCGGGAGAATATTGCTTGGGGACGCGAGGATGCAACGATGGAAGAAATTCAGGAGGCTGCTCGCCGAGCTCAGATTCATGAGACCATTGAGCATCTGCCTAACGGGTATGACACGATGCTGGGCCAGCGCGGGGTCAATTTGTCCGGCGGACAGAAGCAGCGCCTGTCGATTGCGAGGGCGCTCGTGCGAAAGCCCGCCATCCTCATCCTGGACGACAGCACCAGCGCGCTTGACGTCCGAACGGAAGGCGCTCTGCTGGATGCCCTCAAGGATTTATCCTGCACGACGTTTTTGATTACGCAGAAGATCAGCTCGACCACTTCGGCGGATTTAATATTGCTGCTGGATGACGGGCGTTTGATCGGAAAAGGGAATCATGACGCTTTGATGAAAAGCTCCGCTCTGTATCGACGCATTTATGAATCCCAATATGGAGAGGAGGCGCAGCATCATGCTCAAGGCATTCACTGA	MGIVFSILKKYRVAAIAALAMMLIELTVELIQPLLISKIIDDGIQKQDMSVVWMWGAVLTGSAIIAFIAGISSSFFAAHTSQGLGYDLRDQLYDKVQSFSYSIFNRFATSSLITRLTGDVTQIQDTVFMGLRFMTRVPLVVLGSIIMALVVNVKLGLLLVLTVPVLFIFIAWIMKRAADAFRSVQQRLDAVNGVIQENLTGIRLIRVFVRMGHEIERFARTSGKLMSTTVSTLRLTETTMPFILLVMNAGIMAVLWFGRKDIASGSASVGEVVAVVNYSLRCIGAMSALSWVVVAFSRGRASAQRAQEVLGTEDTAAGSNKDQAGKVDIQGGVKFEQVSFSYPGSDIDVLTDISFEAKPGERIAIMGATGSGKSSLVQLIPRLYEEEKGTVFVDGVDAATINEVNLRSGIGYVPQEVLLFSGTVRENIAWGREDATMEEIQEAARRAQIHETIEHLPNGYDTMLGQRGVNLSGGQKQRLSIARALVRKPAILILDDSTSALDVRTEGALLDALKDLSCTTFLITQKISSTTSADLILLLDDGRLIGKGNHDALMKSSALYRRIYESQYGEEAQHHAQGIH	PGPT0029025_1027	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029025-efrA-K18887	NA	NA
AK002_01343	1863		COG1132	putative ABC transporter ATP-binding protein	ATGCTCAAGGCATTCACTGAACCGTTTCGTCACCCGAAACCGAAGCTCGATCTTGACAAGAACAAGGATGGCGGCAGCCGTGGCGGCAAGCCGAAAGCCAAGGCCAAAAACTGGTCGGGCACCCTCTCCAGGATATGGACCTATCTTGCCCGGCGCAAAGGGAAACTCGCGCTCGTGCTGCTGATGGTGATGTTCAGCTCGGGCCTGGCGCTGCTGGGTCCCTATCTGCTCGGCGTCGGGGTGGACAAATTTCTGGATGATGTACGAAATCCCGAGAGCACCATCGATTCCGCCTGGCTGTACTTTCTGGTTGGCCTGGCCGTCGTATATGTCCTTCAGGCCTTAACCACCTGGCTGCACAACGTCTGGATGATCGGCATCGCCCAAGAAACCGTGTACCGGATGCGGATGGATCTGTTCACGCACCTGCACCGGCTGCCGATTCCGTTCTACGGGAAGCGTCAACAGGGCGAAATCATGAGCCGTCTGACGAATGACATCGAGAACGTGAGCTCGACGCTCAACAGCTCGGCCATTCAAATCTTCTCGAGCGTGCTGACTTTAATCGGCACGTTAACCGTCATGTTATGGCTTAGCCCGCTGCTTACGCTTCTGACGTTCCTGGTCGTGCCCCTGATGATGATGGGGATGCGCTGGATTACCCGCCGGACCGGCCCGCTGTTTAAAGAGCGTCAGCGCAATCTGGGGGATCTGAACGGTTACATTGAAGAAACGCTGTCCGGGCAGCGAATCATCAAGGCTTTTTCCCAGGAGGAACGGGTGGTCCGCGAATTCGATGATCGCAATCAACGGATTCGTCTATCGGGCTTCTGGGCGCAGAGCATATCGGGCTTCATTCCGAAGCTGATGAACGGGCTCAACAACTTGAGCTTTGCGATCGTGGCGGGCATTGGCGGCATCCTGGCGATCCAGGGGCATATTACGATCGGCGTCATCATTATATTCGAAAGTTACGCGCGGCAGTTTACGAGACCGCTGAACGATCTGGCGAACCAATGGAATACGCTGCTGTCCGCCATTGCGGGTGCGGAACGCGTATTCGAAGTGCTGGACGAAGAGGTTGAAGCGAAGGATGAAGGAGCGGCCGTCACGCTGAAGAGCGTAGAGGGGGCGGTCAAGTTCGACAACGTCTCGTTCTCTTACGATAAAGACGGGGACACCCTGGAAGGCATCAGCTTTGAAGCGAAGCCCGGCGAGATGATTGCGCTGGTCGGTCCGACCGGTGCGGGAAAAACCACCTTGATTCAGCTTCTCTCCAGGTTTTACGATCCGGACAGCGGAAGCATTACCCTGGACGGCCGGGACATTTCTTCGATCCGCAGGGAAAGCCTGCGTTCGCAGATGGCTTTCGTGCTTCAGGACTCGTTCCTGTTTCAGGGCACCATCCGTGAGAATATTCGTTTCGGCCGGCTGGATGCGACCGACGAAGAAGTGGAGGAAGCCGCAAAATTGGCTAACGCCCACTCGTTCATCGTGCGCATGAAGGACGGTTACGACAAAATGCTCAAGCCTGACGGCAGCGGCATCAGCCAAGGGCAGAAGCAGCTGCTTGCGATCGCAAGGGCGATTCTGGCCAACCCCTCCATGCTGGTGCTGGATGAAGCGACAAGCAGCATCGATACCGTAACGGAGATCAAGATCCAGGAAGGGCTGCAGCGATTGATGAAGGGCAGGACGAGCTTCGTGATAGCCCATCGTCTGAATACCATCCGTTCCGCCGACCGCATCCTGGTGCTGAAAGACGGACGCCTGCTGGAGCAGGGCTCCCATGATGAGCTGCTGAAGCAGGGAGGGTTCTACAGCGACTTATATCATGGACAGCTGAAGCGCGCCGCCATGTAA	MLKAFTEPFRHPKPKLDLDKNKDGGSRGGKPKAKAKNWSGTLSRIWTYLARRKGKLALVLLMVMFSSGLALLGPYLLGVGVDKFLDDVRNPESTIDSAWLYFLVGLAVVYVLQALTTWLHNVWMIGIAQETVYRMRMDLFTHLHRLPIPFYGKRQQGEIMSRLTNDIENVSSTLNSSAIQIFSSVLTLIGTLTVMLWLSPLLTLLTFLVVPLMMMGMRWITRRTGPLFKERQRNLGDLNGYIEETLSGQRIIKAFSQEERVVREFDDRNQRIRLSGFWAQSISGFIPKLMNGLNNLSFAIVAGIGGILAIQGHITIGVIIIFESYARQFTRPLNDLANQWNTLLSAIAGAERVFEVLDEEVEAKDEGAAVTLKSVEGAVKFDNVSFSYDKDGDTLEGISFEAKPGEMIALVGPTGAGKTTLIQLLSRFYDPDSGSITLDGRDISSIRRESLRSQMAFVLQDSFLFQGTIRENIRFGRLDATDEEVEEAAKLANAHSFIVRMKDGYDKMLKPDGSGISQGQKQLLAIARAILANPSMLVLDEATSSIDTVTEIKIQEGLQRLMKGRTSFVIAHRLNTIRSADRILVLKDGRLLEQGSHDELLKQGGFYSDLYHGQLKRAAM	PGPT0029030_1125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
AK002_01344	1395	ribZ_1		Riboflavin transporter RibZ	ATGAACGAACATCAACAACCGCAACAGCCGTCGGCTGAAAAATTAATACGCATTCTGGCGTTTACGATGATTCTCTCGTCGATGAGCGCAACCATGTTTAATATCGTGCTTCCTGAAATCAGCCAGGAATTCCAGCTTTCCTTCGCCCAGGTCAGCTGGGTATCGTCGATTTACATGCTCATCTATGCCATAGGCTCCGTCCTGTACGGAAAATTGGCCGACACCTATAAACTCAAAAATCTGGTCACCTTCGGATTGCTTCTCTTCTTTGTCGGTTCCATCACGGGCTTGGCCGCACAGGCCTACTGGATGGTGCTGCTGGGACGAATCCTTCAGGCAGCGGGGGCAGCCGTCATTCCGGCAATCGCCATGATCATTCCCGTCCGTTACTTCCCTGCGGAAAACCGGGGCCGCGCACTCGGCATAACGGCGACCGGGCTCGCCATCGGCAACGCGATCGGGCCGGTGGTTTCCGCATTGGTCGTTAGCACGTTCCATTGGAGATGGCTCTTTTTCATTCCGCTGCTCATCCTGGCCACCCTCCCTCTCTATCGCAAATATCTGGACAATGAACAGGGCCAGGGCGCACGGATCGATTGGCTCGGCGGCGGCCTTCTGGCCGGAACGGTTGCGCTGCTGCTCCTCTCGGTGACCCAAGGCGGCTGGATATTCGGTTTAGGCAGCCTGATCCTGTTCCTTGCGTTCCTTCTGCGCATTCGTTCGGCTAAAGCGCCTTTCGTCCAGCCCCGTTTATTCCGCAACCGAAGCTACACGGTCGGACTTGTCCTCGGCATGTTCATCATGAGCGTCGGTTATGCGCTGCCTTTTCTTACTCCGCAGCTGCTGTCGGATTTGAACGGTCTGGCTCCGGGATGGATCGGATTTGTCATGGTGCCCGGAGCCGTGGTCACGGCCATGCTGGGCGGAAGAGGCGGCAAGCTCGCGGATACCAAGGGAACCCGCTATTTATTCTATGCGGCTTCCACCCTGCTGCTGCTGTGCTTTGCCCTGTTGTCCACCTTCGCTGGCGTATCGCCGCTCCTGATCGCACTGTTCCTGATCTTCGGCAATGTCGGTATCATGTTTATGCAAATCTCGCTCTCCAAGACGATTTCCTTATCGCTGCCCAAAGAGCAAACCGGCGTCGGCATGGGACTGTTCTCCCTGCTTAACTTCCTGTCCGGCGCGATTGCCACCGGGGTTTACGGCAAAGCCGTCGACCTTGGCGCCGGCACCCGCTGGAACCCGCTGAGCATGGTACAGGGAGCTTCAACCTACAGCAACATCTATATCGTCTTGGTGGCGTTGCAAGCAGGAATCCTTCTGCTGTTTATGCTGCAATTTGGCAGAACGGCACAGCATAAGCTGCAGGTTCAAACTACCGGATCCAAATAA	MNEHQQPQQPSAEKLIRILAFTMILSSMSATMFNIVLPEISQEFQLSFAQVSWVSSIYMLIYAIGSVLYGKLADTYKLKNLVTFGLLLFFVGSITGLAAQAYWMVLLGRILQAAGAAVIPAIAMIIPVRYFPAENRGRALGITATGLAIGNAIGPVVSALVVSTFHWRWLFFIPLLILATLPLYRKYLDNEQGQGARIDWLGGGLLAGTVALLLLSVTQGGWIFGLGSLILFLAFLLRIRSAKAPFVQPRLFRNRSYTVGLVLGMFIMSVGYALPFLTPQLLSDLNGLAPGWIGFVMVPGAVVTAMLGGRGGKLADTKGTRYLFYAASTLLLLCFALLSTFAGVSPLLIALFLIFGNVGIMFMQISLSKTISLSLPKEQTGVGMGLFSLLNFLSGAIATGVYGKAVDLGAGTRWNPLSMVQGASTYSNIYIVLVALQAGILLLFMLQFGRTAQHKLQVQTTGSK	PGPT0027880_102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027880-tetB-K08168	NA	NA
AK002_01345	912	gltC_2		HTH-type transcriptional regulator GltC	ATGGAACTGCTTCAGCTGCATTATTTTCAGACGGTGGCCCGAATGGAGCACATGACCAAGGCCGCGAAGGAACTTCGCATTGCCCAGCCTGCGCTCAGCAAGACGATTGCCCGCTTAGAGGAAAATTTGGGGGTGCCTCTGTTTGATCGGCAGAGCCGGCAAATCAAGCTCAATTCATTCGGGAAAGCTTTTCTGAAAAGCGTCGATACGGCGTTATCGGCCCTAGAGGAAGGCAGGAGGGAAGTGTCCGATTTGGCAGGCATGGAGCGGGGGAGCATCCGCATAGCAACGACGGCATTGCCTCGGCTGTCCAAAGCCCTGGGCGCTTTCCGCGCGCGATATCCTGATGTGAATTTTCGCATCATTCAGATTCCGCCCAACTCCACGATGGAGATGGTGCAGATGCTGGAAAACGGAGAAGTCGATCTATGCTTTACCGCGGCGGCCCTGGACGAAGACCACATTCGGGAGATTCCGGTCCTACATGCGGAGGTGTTCCTGGCGGTGCCTCACGGCCATCGATTGGCGGGACGGTCCCGCATTGCCCTTCAGGAGGTGGCGGGGGAGGCCTTCATCGAGTACAAGGCAGGCCATCCGTTTCGTAAAATGAACGAAGAGTTTTGCCGATTGGCCGGGATCAGCCGGGAAGTCGTATGTGAAGTCGATGAGCCGGCAGCATTGTCCAGCCTCGTATCGGCCGGGCTTGGAGCCGCATTTGTACCCGGATGCAAAGGGGACGACATGCCCCCGTACGCGATGGTGCGCATTGAGAAGCCTTCCTGCTACCGCACCTTTACCGTAGCCTGGCTGGAGCGGCGCTACTTGTCCAAGGCCGCGACGGAGTTCCAGTCATTCCTGGTAGACTATTTCCGCGAGTTTCAGGAGCCGATGAAGCATAAAGACGTGATCTGA	MELLQLHYFQTVARMEHMTKAAKELRIAQPALSKTIARLEENLGVPLFDRQSRQIKLNSFGKAFLKSVDTALSALEEGRREVSDLAGMERGSIRIATTALPRLSKALGAFRARYPDVNFRIIQIPPNSTMEMVQMLENGEVDLCFTAAALDEDHIREIPVLHAEVFLAVPHGHRLAGRSRIALQEVAGEAFIEYKAGHPFRKMNEEFCRLAGISREVVCEVDEPAALSSLVSAGLGAAFVPGCKGDDMPPYAMVRIEKPSCYRTFTVAWLERRYLSKAATEFQSFLVDYFREFQEPMKHKDVI				NA	NA	NA	NA	NA
AK002_01346	777			hypothetical protein	ATGCTTTATTTCACATTGGCTTCCAAAGCCTATGCCCGCAATTTGCAGTACCGCGGCGCCCACATGGTGCACAATGTCGCCAGTGCGATGTTCGGCTTCATGTATGCCTGTATCTGGCTCGGTCTCGGTGCCGATTGCGCGCTCGGAGATTACGGAACGCAGGGAATGGTCGGCTACATCGCCTTTACGCAAGCCGCGCTCTGGGTTTCCAGTTTCGTCACGAATGGCCTCGGCATCCCCCAAGCCGTGCGAACCGGCCATATTTCCCTGGATTTGATGCGTCCCGTTCATTTGTTCAGTCATTTGATGGCCAAGGAATGGGGGCAAATCGCCTACCAATTCGTTTACAAATCAATCCCGATCTACCTGGTGTATTATTTTGCCTTCTCGCTGCAGCTGCCCGGAAAAGCAGTCACCTTCCTCTACGTTGCCATTGCGCTCGCAGGCGCCGCCTACTTATCGATTTGCATCAACTATCTCATCGGCGCATCGGCATTATGGACAACGGAATCGTCTTGGTTGTATTGGGGCAACCACGCGATGATTAATCTCCTGGCCGGTTTCTTCATTCCCATCGAATGGCTGCCGGGCTGGCTTCAGGCGATTGCCTGGTGGTCGCCGTATCCGTATCTGCTCTATGTGCCGACCCGGATCTATCTGGGCTTCGATGACGTTTCCCATCTGTGGGGCACGTTGTCATGGTGCGTGCTGCTGACGCTGGCAAGCCTGCTGGCTACCCGCTTCCTAAGGCGGAAAGTGGAGGTGCAGGGAGGATGA	MLYFTLASKAYARNLQYRGAHMVHNVASAMFGFMYACIWLGLGADCALGDYGTQGMVGYIAFTQAALWVSSFVTNGLGIPQAVRTGHISLDLMRPVHLFSHLMAKEWGQIAYQFVYKSIPIYLVYYFAFSLQLPGKAVTFLYVAIALAGAAYLSICINYLIGASALWTTESSWLYWGNHAMINLLAGFFIPIEWLPGWLQAIAWWSPYPYLLYVPTRIYLGFDDVSHLWGTLSWCVLLTLASLLATRFLRRKVEVQGG				NA	NA	NA	NA	NA
AK002_01347	801			hypothetical protein	ATGACCGCGAGATCCTGGCTATCCCTGTATGCGCTGCTGATCCGGACGAGCATCAAAAGCCGCATGCAGTACAAATTCAATTTCATCCTGGCTTCGTTTCTTGCCGCATTGATCCAAATTTCCGAGTTTCTCATGGTCGCCATCGTCCTCTACAAGTTCGGAGCCATTCAGGGCTGGTCCATGCATGAAATCGGGTATTTGTTTGCCGTCATGACGCTGTCGAAGACGCTCTACCGGACGCTTGCGGATGAAGTGCATCATCTTGAGAGATATTTGGTCAACGGGGAGCTTGACCAACTGCTGACCCGTCCCATGCCAGTGCTGCTGGCGCTCATGCCGCAGAAATTCCGGATCATGCTGGGCGAAGTGCTGCAGGGCGGATTTCTGCTCTGGTGGTCGCTGCATGGCATGATGGCGGCAGGTCAGGTGGGCTGGAGCGCGGTGCCGCAATCGCTGTACATTATCGTCACGGGTGCCGTCATCCTGTTCTCGATCGGCCTTGCGACCGCAACCTTCGGTTTTTGGACGACCCGGATCACCGAGCTTCAGAACTTGACGGAGGATGCGGCCCGGACCGCGGCCCAGTATCCGCTCACGCTGTATCCCAAATGGATGTCGTCGATCCTGCTGATCGTGGTCCCGGTCGGTTTGGTCAATTATGTCCCGTCGCTATACATACTGCGGGGCGAGCTCGGAGCCTGGGTGCTGCCTGCGTTGGCTGGAGCGGCCCTGTTATGTCTCATCTTAAGTCTGAAATTCTGGCAGTTTGGTTTGACGAAATATCAAAGTACAGGGAGCTAA	MTARSWLSLYALLIRTSIKSRMQYKFNFILASFLAALIQISEFLMVAIVLYKFGAIQGWSMHEIGYLFAVMTLSKTLYRTLADEVHHLERYLVNGELDQLLTRPMPVLLALMPQKFRIMLGEVLQGGFLLWWSLHGMMAAGQVGWSAVPQSLYIIVTGAVILFSIGLATATFGFWTTRITELQNLTEDAARTAAQYPLTLYPKWMSSILLIVVPVGLVNYVPSLYILRGELGAWVLPALAGAALLCLILSLKFWQFGLTKYQSTGS				NA	NA	NA	NA	NA
AK002_01348	987	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGATTGAAGTGAGCAACATACGCAAGGAGTTCAAAACGCCGGTCGTGAAGGAGGGGCGCTTCTCCGGTCTGCGAACCCTGTTTACGAGAGAATACCGGACGAAGGAAGCCGTAAAGGGGATCAGCTTTCAAGTGGAGCCGGGGGAATTCGTCGGTTACATCGGTCCGAACGGCGCCGGCAAATCCACAACGATCAAAATGCTGACCGGCATTCTCCACCCGACCTCGGGCCGCGTTTCGATCGGAGGCATGAATCCGCACAAGGAACGGCGCAGCGTCGTGAACAATCTAGGCGTCGTATTCGGTCAGCGCAGCCAGCTGTGGTGGGACTTGCCGGTGAAGGATTCCTACGATATTTTGGCGAAAATGTACAGCGTGGATCAGGCGGACAAGGAGCGCAGACTCGGACAGTTTGCCGAACTTCTGGATTTACGGGCGTTCTGGGAAACGCCTGTGCGCAAGCTGTCGCTAGGGCAGCGCATGCGCGCCGACCTCGCGGCCGCGATGCTGCATGATCCGGACGTGCTGTTCCTGGATGAGCCGACGATCGGCCTGGACGTGAACGCCAAGCGGAACATCCGCCACTTTCTCAAGCTGGTCAACGAGCAATTCGGCAAGACCATCCTGCTTACGACGCATGACATGGATGATATCGAACAGCTCTGCAATCGCGTGATGGTCATTAACAACGGCGAGCTTTCCTATGATGGAACGGTGAAGTCCCTGCGGGAGACGATCGGGCTGCCTACGGTCATCACCGTGACCTTCCGCGGACCTTTTGCCATTCCTGAGCAGTTTCAGGGGGAAGGCAATCTTTCCGTCCCGATCCGCGTGACAGGTTCTCTGGATAACACCGTCACGATTGAGGTGAACCGCCGCGAGATGAACACGCTTGATATTTTTAAAGAGCTGGGCCGCTGGGGCGAGCTGGATGATATCGATATGGAAGATCCCGATTTTGAAGACGTGATTCATAAGGTTTACTGA	MIEVSNIRKEFKTPVVKEGRFSGLRTLFTREYRTKEAVKGISFQVEPGEFVGYIGPNGAGKSTTIKMLTGILHPTSGRVSIGGMNPHKERRSVVNNLGVVFGQRSQLWWDLPVKDSYDILAKMYSVDQADKERRLGQFAELLDLRAFWETPVRKLSLGQRMRADLAAAMLHDPDVLFLDEPTIGLDVNAKRNIRHFLKLVNEQFGKTILLTTHDMDDIEQLCNRVMVINNGELSYDGTVKSLRETIGLPTVITVTFRGPFAIPEQFQGEGNLSVPIRVTGSLDNTVTIEVNRREMNTLDIFKELGRWGELDDIDMEDPDFEDVIHKVY				NA	NA	NA	NA	NA
AK002_01349	675	phoP_1	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGAGTTTTACTATTCTATACATAGAAGACGATAAGGAGATCGGCGCTTGGTCCAAAGATTTTTTAATCGAACTTGGCTATAAAGTGATCTGGAGGACTTCAGGTCATGATGCTATGGAATATTTTGAACATTGCAGCCTGGTCATACTGGACATCATGATCCCAGGATTGGATGGCTATACGATCGGCCAGCGGTTCAAGCAGCGCCGTCCGGATGTACCGATCTTAATGCTGACTGCCAGAACGTCAATGGAGGATAAACTGCAAGGACTATCCTTTGCCGATGATTACATGACCAAGCCGTTTCATCCCGACGAACTGGCTGCGCGCATTCAGGTGCTGTTAAGACGTTCTGGTTCTATGGCTTCGGATAACCTCCAGGTGAAGCATTTAAATATTGACCGGAGAACGAACCGTATATTAAATACGGAAACGATGGATGAAATCGTTCTTACGGGCAAGCAATTTCACATTTTCATGTATTTAATCGATCATTTGAATCAAATATTGACCCAAAAGCAAATCTACGAGGCCGTATGGAGGGAACCGTATATTCATGGCGACAAATCGCTTATGGTGCATATTCGCCATTTACGGGAGAAGATCGAGATCGATTCAAGCTCTCCTCAAATAATAGAAACGATCCGGGGGGTCGGATACCGGGTGTGCTCATGA	MSFTILYIEDDKEIGAWSKDFLIELGYKVIWRTSGHDAMEYFEHCSLVILDIMIPGLDGYTIGQRFKQRRPDVPILMLTARTSMEDKLQGLSFADDYMTKPFHPDELAARIQVLLRRSGSMASDNLQVKHLNIDRRTNRILNTETMDEIVLTGKQFHIFMYLIDHLNQILTQKQIYEAVWREPYIHGDKSLMVHIRHLREKIEIDSSSPQIIETIRGVGYRVCS	PGPT0002665_1705	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_01350	501			hypothetical protein	ATGAATGATTCAAGAATGAAAAAAGCGGGGGTTGTTGCTTGCATTGCTGCTGTGCTGTATGCCCTCCCCCATTATTGGTGGGGGCTCGGCTTCGGGTTTGCATTCCCCGGGGATTTCCAGGAGACGCCGGATGATTTTTGGTCACATGCGATCGGCTACTGGGGAATGGGAACCATCGCTATGTTGGCTGCCGTTTTCGCGCTTGCTTTCATCAGGCCTTGGGGGAGACGACTGCCGAAATGGATGTTAATTGTACCTGCAACAGCCGGTTCGGTGTTGTTGTCATTATGGGGATTTATCTATTTCGCCCTGCAGTATCTGTTAGCGGTTGGACGCGTTCAGTCGGCCCCGATGCACGCTGCTCAAGATGCAAGCCCCATGGCGGTGTGGGGATACTTCTGGTATGCGCTTTTTCTGGTCTGGGGAATTTCGCTAGGCATTGCCGCATACCATGCCGGAAAAACCCGATGGCGGAGAATGGAAGAGCATTTCACTAAATAA	MNDSRMKKAGVVACIAAVLYALPHYWWGLGFGFAFPGDFQETPDDFWSHAIGYWGMGTIAMLAAVFALAFIRPWGRRLPKWMLIVPATAGSVLLSLWGFIYFALQYLLAVGRVQSAPMHAAQDASPMAVWGYFWYALFLVWGISLGIAAYHAGKTRWRRMEEHFTK				NA	NA	NA	NA	NA
AK002_01351	1971	bepA_2		Beta-barrel assembly-enhancing protease	ATGAAGTTGATGAAGCGGATCTGGTTCCGTATCGGTAACCATTACAGGAAGAAGCGGGATTTTGAGCAAGCCCTTAAATATATGAGAAAAGGCGAGAGCGCCATTACAAGTTTTAATGACAAGCTGCACTATGCGGAACTGCTGCACAACAGCGGCTATTCGGATGAGGCCGTGGCTTATCTGGGACGCGTGATCGAAACGAGCGGCAGCCATCGCGCGTACGAGCGGCGCGCCCATATTCTGCGCGAGCTGAACCGGGAGCGCGAGGCCATCGAGGATTTGGATGAAGCGATTCGATTGAATGCGGACAATTATATGAACTGGTATACCCGAGGCATTGCGCACAAGGATTTGAACCAGTACGACGAGGCGATCCGGGATCTGAAGGAAAGCATCAAGCGTGAGGACGACAGCACGGTAATTTCGACCTACTATGAACTGGGCATGGCCTATTACGAGAACCGGAACCCGGCGGAAGCGGCGCACTATTTTCGTTTAAGCATCCAGAAGCCGGAGCGCGCCATTCCGATGTATTACTACATGCTGTCGGTGTCGCTGGATCTGATGGATCATGTGCAGGAAGCCGTGGGCGTCCTGCAGGAGGGAATCCAGCTGGCTGACCGGTATGAAGCGGAAGCGGATGGCGGATATGCGATGTTCGCGGGAAGCACCAATTACAGCTATGGTGCCTTCCAGACGTTTCAGCGGCAAGCGCGCGAGGCGTATTCCTTCCGGAAGCCCATGGCGGATCTGTACGTGCAGCTGGGGGATTTGGGGCAGGCCGAGCACTATCTGTCGGAGGCCATTGAACGGTATCCGGATACGTACGAACTTTACTTAAAGAGGGCGGAGGTCTTGAATCGGTCCGGCAGCAAAGCTGCGGCCAAAGCCGATTTGGAGTGGGCGATCGAGGCGGAACCGGACGATTACCGCGCTTATTTCGATTTGGCCCGTATCTACCGCGAGGATGCCCGGGAAGAGGAAGCCTTCGAGCTGATTTCGAAGCTGTATGCGAGACAGCCGGGTTCCCCGCTGGCTTGCTACTGGATGGCCGACTGCTACTACCGGCTGGGTCGCCAGGAGGAGGCGTTGGCGACCAATGACAAGCTGCTTAAGCTTGAGCATGATGACGCGCCCAATTATGTGCAGCGTGCCGATATTTATATGGAGATGAACGATCTGCCGTCTGCGGAGCAGGCTTTGAAGGAAGCGGCCGCGCTCCAGGACGGGACCGAGATCCGCAACAAGCTCAGCTACGTGCTCTATCTTCAAGGACGCAACGAGGAAGCGCTGCTGGAGCTGCAGGAAGCGGTCAAGCAGGAAGAAGCCTTTTCCGAGCACCCGACATACCTGGCGGCCAGCGGTCATATTTACAAGGAGATGGGCATGTGGGATCTTGCCATCGATGCGTATTCCCAGGCGATTCAAGCGCATCCGTCCAATCCGCGATTCTATGAATTCCGCGCCGTTTGCTTCGTGGAGACCGGCCAGCTCGAGCGGGGACTGGCGGACTGCGCTCAGGGGCTCAGCTTGAACCCGGGGCAGGGAAGCCTGTACAGCCTGCGAAGCGGAATTTATTATTCGATGGGAGACTACGCGCGCGCGAAGGAGGATACGCTGCAAGTGCTGGAGCTTTCGCCGGGTCATCCCGGGGCATATTTCAGGCTGGGGCAGATTTATTACAAGGATCAGGACGAAGATGCGGCATTGGCTGCATTTGACGAGGTGCTGAAGGTGGTGCCCGAGCATGCCGAGAGCTATCTGTACAAAGCGCATATCTATTACGGCCAGTTTGAGCATGAAGATGCGGTGCAGGCGATCGTGAACTGGAGTTTGCATCTTCAGAAGGAGATGCCGGCTGCGGAGAAAATTCAAGCCATCGAAGGCCTGGAGGGTTTTGAGGAAGGTTTGCTGGATAAGGCGGTTGAACGCTTAACGGGCATGTATGGACATCAGCTTTATTTATCTTAA	MKLMKRIWFRIGNHYRKKRDFEQALKYMRKGESAITSFNDKLHYAELLHNSGYSDEAVAYLGRVIETSGSHRAYERRAHILRELNREREAIEDLDEAIRLNADNYMNWYTRGIAHKDLNQYDEAIRDLKESIKREDDSTVISTYYELGMAYYENRNPAEAAHYFRLSIQKPERAIPMYYYMLSVSLDLMDHVQEAVGVLQEGIQLADRYEAEADGGYAMFAGSTNYSYGAFQTFQRQAREAYSFRKPMADLYVQLGDLGQAEHYLSEAIERYPDTYELYLKRAEVLNRSGSKAAAKADLEWAIEAEPDDYRAYFDLARIYREDAREEEAFELISKLYARQPGSPLACYWMADCYYRLGRQEEALATNDKLLKLEHDDAPNYVQRADIYMEMNDLPSAEQALKEAAALQDGTEIRNKLSYVLYLQGRNEEALLELQEAVKQEEAFSEHPTYLAASGHIYKEMGMWDLAIDAYSQAIQAHPSNPRFYEFRAVCFVETGQLERGLADCAQGLSLNPGQGSLYSLRSGIYYSMGDYARAKEDTLQVLELSPGHPGAYFRLGQIYYKDQDEDAALAAFDEVLKVVPEHAESYLYKAHIYYGQFEHEDAVQAIVNWSLHLQKEMPAAEKIQAIEGLEGFEEGLLDKAVERLTGMYGHQLYLS				NA	NA	NA	NA	NA
AK002_01352	762	metN_1	COG1135	Methionine import ATP-binding protein MetN	ATGATCTCGCTGCAAGAGGTCAGTAAAAGCTATGGCAACGGCACGGACCGTTACCTGGCAATCGATGCCGTCTCTCTCGATATTGAAGAGGGCAGCATACACGGCATCATCGGCGCCAGCGGCGCCGGTAAATCGACGCTGCTGCGCATCATGAACGTACTGGAGAGACCGGACGCCGGGAAAGTCTCGGTGAATGGACGGGAGCTGACTGCCCTTGGCGGCAGGGAGCTTCGGGAGGCAAGAAGGTCCATCGGCATGATCTTTCAGCTGTTCCAACTGGTCAGCAACCGGACGGTATGGGGCAACGTTTCCCTGCCGCTTGAACTGGCAAAGGTACCCAAGGCCGTCCGTGCGGAGCGCGTTCAGGAGGTCCTGCGCTTTGTCGGGCTGGAGGATAAAGCGAAGTCATATCCTGCTCAGCTTAGCGGCGGCCAGAAGCAGCGGGTAGCGATTGCCAGAGCTTTGGCCAATTCGCCGACCGTCTTGCTGTGCGATGAGCCGACGTCTTCCCTGGATCCGCGGACGACGGCGGATATTCTGGAAGTGTTAAGACATATTAACCGGACGCTCGGAGTTACGATCGTCATCGTCTCGCACGAAATGGACGTGGTGAACGGCATCTGCGACCATGTGTCCGTGATGGAGGACGGCCGCTTGATCCGAACGTACCGTAATCGCCAACAGGATGAAGAGGTGCCTCGAGATACCGGAACTCCAATTAACGGTGCTGGAGAAACGGGGGGATTGGGCTTCTATGAATGA	MISLQEVSKSYGNGTDRYLAIDAVSLDIEEGSIHGIIGASGAGKSTLLRIMNVLERPDAGKVSVNGRELTALGGRELREARRSIGMIFQLFQLVSNRTVWGNVSLPLELAKVPKAVRAERVQEVLRFVGLEDKAKSYPAQLSGGQKQRVAIARALANSPTVLLCDEPTSSLDPRTTADILEVLRHINRTLGVTIVIVSHEMDVVNGICDHVSVMEDGRLIRTYRNRQQDEEVPRDTGTPINGAGETGGLGFYE	PGPT0020520_4165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK002_01353	699	metP_1	COG2011	Methionine import system permease protein MetP	ATGAATGACATCATTCAATACGTGAACGATTATTTGGCCTATGTCCTCCAGTATCAGCATGAAATATGGCGGGCGATTGGCGAGACGTTCATTATGGTGGGCATATCGATTGCTGCCGCTATAATACTGGGTCTTCCGGTCGGAACACTGCTATTTCTGTGCCGAAAAGGACAGCAGTATGAGAACCGGCTATTGTTCTCCATTCTGAATGCTCTGGTCAACGTTATACGGTCATTTCCGTTTCTGCTGCTTGTCGTTGCCATGATTCCGGTCACAAGGTGGATTGTCGGTACATCGCTCGGCACGGTGGCCGCTGCCGTGCCGCTATCCGTCGTAGCAGTAGCCTACTACTCCAGATTGGTTGAGCAATCCCTGCTGGAGGTGCCGAAGGAAGTGATGGAGGCCGCCGCTTCCATGGGGGCCTCCACGATCCAGATGATATTCAAGTTCCTGTATGTGGAGGCCAGGTCGGGCCTTGCGCTCGGACTGACAACCTCCACGATCAGTTTTATTTCGTACTCCACGGTCATGGGGATCGTGGGCGGGGGCGGCGTCGGGGATTTCGCGATCCGCTACGGGTACCAGCGATTCGAGGAAGAGATCATGACGTTTACGATCATCATCATGATCATTCTGGTACAATCGATCCAGTTCGGCGGGAACCTGGCTTCCAGGCTGCTGGACAAAAGAAAAGTATAA	MNDIIQYVNDYLAYVLQYQHEIWRAIGETFIMVGISIAAAIILGLPVGTLLFLCRKGQQYENRLLFSILNALVNVIRSFPFLLLVVAMIPVTRWIVGTSLGTVAAAVPLSVVAVAYYSRLVEQSLLEVPKEVMEAAASMGASTIQMIFKFLYVEARSGLALGLTTSTISFISYSTVMGIVGGGGVGDFAIRYGYQRFEEEIMTFTIIIMIILVQSIQFGGNLASRLLDKRKV	PGPT0020515_364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
AK002_01354	837	metQ_1	COG1464	D-methionine-binding lipoprotein MetQ	ATGAATAAGAAATTATCGCTGCTTCTGTTGACCCTCATGCTTGCGCTTGCGGGCTGCGGGCAGCAGCCAGCCAAGGACGAAGCCCCGGAGAGCGCGGCGCCCGAAGCGAAAGAAGAAGTGACGCTGAAGGTCGCAACGCTCATTCCGCCGATGACGGAGGTGCTTGAGCTGGTGAAGCCGATGCTGAAGGAAGAAGGCATCAATCTGGACATCCGGATTCTGTCCGATAATGTGCAGCCGAACAATGCGCTTGCCCATAAAGAGGTGGACGCGAATTTCTTCCAGCATGTACCGTACATGGAAGAGTACAATGCGAACAACGGGTCGGAACTGGTTCCGGTCACGCCGATCTATAATGCCGTTTTCGGCGCGTACTCCAAAAAATACAAAACCATCGAAGAGCTTCCGGATGGCGCAACGATAGCGATTCCTAACGATCCTTCCAACATCGGCCGATCCCTGGTGATGTTTGAGAAGAACGGTCTGATCAAGCTGAAGGAAGGCGTCGGCATCCAAGCGACGCAGGCCGACATCGTGGAGAACCCGCATCAATACAAGTTCACCGAGGTGGATCTGCTGATGTTGGCCCGCACCCTCGACGACGTCGATATGGTGGCCATGACGCCGGCTTATGCCAAACCGCTGGGATTGACGCCTAAGAAGGATGCCCTGGTAACCGAGGGCAACGACTCCGATTTCACCATTACGCTGGTGGCCCGCAAGGATAACGTCGATTCCGAGCCGATTCAGAAGCTTGCGAAGGCGATGACCAGCCCCGAAGTGAAGAAGTTCTTCGAGGAGAACTATTCCGAGATTGCGCTGCCGGCTTTTGAATAA	MNKKLSLLLLTLMLALAGCGQQPAKDEAPESAAPEAKEEVTLKVATLIPPMTEVLELVKPMLKEEGINLDIRILSDNVQPNNALAHKEVDANFFQHVPYMEEYNANNGSELVPVTPIYNAVFGAYSKKYKTIEELPDGATIAIPNDPSNIGRSLVMFEKNGLIKLKEGVGIQATQADIVENPHQYKFTEVDLLMLARTLDDVDMVAMTPAYAKPLGLTPKKDALVTEGNDSDFTITLVARKDNVDSEPIQKLAKAMTSPEVKKFFEENYSEIALPAFE	PGPT0020510_1860	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK002_01355	1233	pepT_1	COG2195	Peptidase T	ATGAAAAAAGAAGTAATCGACAGACTCATTACCTATGCGCAGATGGATACGCAATCCGACGAGAACAGCCACACTTGCCCTTCTACCCCGGGGCAGCTGACGCTGGGCCGGCTGCTGGTGGACGAGCTGAAGGGCATCGGCATGCAGGAAGTCACCATGGATGAGAACGGCTATGTGATGGCTACGCTTCCGGCTAACACGGATAAACCCGTCCCGACCATCGGCTTTTTGGCACATATCGATACGGCGACCGATTTTACGGGTGCCGGCGTCAAACCGCGGATCGTCGAACAATATGACGGACAAGACATCGTTTTGAATCAAGCGCAGAACGTGATCCTCTCCCCGCAAGATTTTCCGGAGCTGAGCGGTTACAAAGGACATACGCTCGTGACAACGGACGGCACAACGCTGCTGGGCGCCGACGATAAAGCGGGCATTGCAGAGATCATGACGGCGATGAATTACCTGATCCAGCATCCGGAGCTGAAGCACGGGAAAATCCGCGTGGCCTTCACGCCCGACGAAGAGATCGGCAGAGGACCGCACAAATTCGACGTGGAGGGCTTTGGTGCCAAATACGCGTATACGATGGACGGGGGGCCGCTGGGAGAGCTGCAATACGAAAGCTTTAATGCGGCGGCCGCGCTCGTGACTTGCAAAGGCAAGAATGTCCATCCCGGAACGGCCAAGGGCAAAATGGTCAACGCGGCGAAAATCGCCATGGAGCTGAACGGCATGCTCCCTGCGGAAGAAGCGCCTGAACATACCGAGGGGTATGAAGGCTTCTTTCATCTCACTTCCATCGAAGGCGATGTAGAGGTGACCGAGCTTCGTTATATTATCCGCGACCATGACCGGGAGCTGTTCGAAGGCAGGAAGGCCAAGCTGGCTTCCATCGTCGAAGAGCTTCAGGACAAGTATGGAGCCGAGCGGATCGTGCTTCAGATGAAAGACCAATATTACAATATGCGGGAGAAAATCGAGCCGGTCAAAGAAGTGGTCGACATCGCGCAGACCGCGATGGAGAAGCTGGGAATCAAGCCGATCATCGAACCGATCCGCGGGGGGACCGACGGTTCCCAACTGTCGTACATGGGCCTGCCGACACCGAACATTTTTACGGGCGGGGAGAATTATCACGGACGATATGAATACGTGTCCGCCGACAATATGGTACTGGCCGTCAAGACGATTATCGAGATTGTCCAGCTGTATGAGGCGCAGGCATAA	MKKEVIDRLITYAQMDTQSDENSHTCPSTPGQLTLGRLLVDELKGIGMQEVTMDENGYVMATLPANTDKPVPTIGFLAHIDTATDFTGAGVKPRIVEQYDGQDIVLNQAQNVILSPQDFPELSGYKGHTLVTTDGTTLLGADDKAGIAEIMTAMNYLIQHPELKHGKIRVAFTPDEEIGRGPHKFDVEGFGAKYAYTMDGGPLGELQYESFNAAAALVTCKGKNVHPGTAKGKMVNAAKIAMELNGMLPAEEAPEHTEGYEGFFHLTSIEGDVEVTELRYIIRDHDRELFEGRKAKLASIVEELQDKYGAERIVLQMKDQYYNMREKIEPVKEVVDIAQTAMEKLGIKPIIEPIRGGTDGSQLSYMGLPTPNIFTGGENYHGRYEYVSADNMVLAVKTIIEIVQLYEAQA	PGPT0020915_1069	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
AK002_01356	885	araC_4		Arabinose operon regulatory protein	ATGTCCATTTTGCCGGACCATACCCTTTACACGATTGGCATGAACCCTTCGCCCGGCGGCCATGACCTAAACATTCTGTTCAGCGGCGAAGGCACGCCCGTACCCCGCCACAAAATCGGGCCCATCATCCATGATTACTGCCTTATTCACACCGTCCTGACAGGCCAAGGCGTGTTCGAGTGCGCTGGCACGGTGCATCACTGCCGGGCAGGCGATACCTTCGTGATCCTTCCCGGCGTTCTGTTCAGCTATGAAGCGGACGACCGGAACCCCTGGCACTACAACTGGGTGGCTCTGCAGGAGAAAGGCACCAACCTGCTGCTGGCTGATATGGGCGTTACACCCGTCAGGCCGATTATCCGCTGCACGGAAGAAACCGAACTGAACGCCCTGGCCGAGATGTACCGTCATCTGCGTCTCGGGTTTAACCAATCGGATCACCCTTGGCTGGAGGATCTTCAGGCATCCGGGTGGCTCCGATTGCTGCTCCATAAGCTGGCGATGTTAAACCGCGAGCATCTACCGTCGAGCTCCAATGACGTGCCGGATATTGAGCGGGGCGTGAGACAGACGGAGCGCTGGATTTCGACCCAATATCACCAGCAGCTGTCCATAGATCAGATGGCGAAGGCACTCGGCTATCACCGGGCCCACCTGTCCAAGATGTTTAAACAGCATACGGGCCTTTCGCCCATGCAGTACCTCATGAAGGTACGCATCGAGAAGGCCAAAGCACTCATGAGATCGTCATTCTCCATCCATGAAATTGCCTCCTCCGTCGGTTTCAACGACGCTCTCTATTTCTCCAAGCAGTTCCGCAAATGGACAGGCATGACCCCCAGCGAATATAAGTACAGCCTGGAAAAAAGCTCGAATAAAACATGA	MSILPDHTLYTIGMNPSPGGHDLNILFSGEGTPVPRHKIGPIIHDYCLIHTVLTGQGVFECAGTVHHCRAGDTFVILPGVLFSYEADDRNPWHYNWVALQEKGTNLLLADMGVTPVRPIIRCTEETELNALAEMYRHLRLGFNQSDHPWLEDLQASGWLRLLLHKLAMLNREHLPSSSNDVPDIERGVRQTERWISTQYHQQLSIDQMAKALGYHRAHLSKMFKQHTGLSPMQYLMKVRIEKAKALMRSSFSIHEIASSVGFNDALYFSKQFRKWTGMTPSEYKYSLEKSSNKT				NA	NA	NA	NA	NA
AK002_01357	1299	melA_1	COG1486	Alpha-galactosidase	ATGTCTAAGATTACATTCATCGGAGCAGGAAGTACCGTATTTGCCAAAAACGTCCTGGGTGATTGCATGCAGACGCCGGCTTTGCAGGGATTTGAACTTGCTTTGTTTGATATTGACCCCGTTCGTTTGAAAGACTCGGAGAACATGCTGAATAACATAAAGAAAACCAGCGGCAGCACCTGTGTCGTAAAATCATACGGCGACCGCAAGGAAGCGCTTCGCGGAGCAAAATACGTCATTAACGCGATTCAGGTTGGAGGCTATGACCCGTGCACGATCACGGACTTCGAGGTTCCGAAGAAATACGGGCTAAGACAGACGATAGCGGACACCGTGGGAATCGGCGGGATATTCCGAAACCTCCGTACCATCCCGGTCATGCTGGATTTCGCGGCTGATATGCGGGAGGTTTGTCCGAACGCCTTGTTCCTCAACTATACGAATCCAATGGCAGTGCTGACCAATGCCATGAACACGCTGGGCGGCGTGCAAACCGTAGGATTGTGCCACAGCGTTCAGGCATGCATCCCGCATCTGTTCGATAATTTGGGAATAGACAAGGAAGGCGTGCAGGCCAAAATCGCCGGCATCAACCATATGGCATGGCTGCTTGAGGTAACGAAGGACGGCGTGGACCTGTATCCGGAAATCAAGAAGCGCGCGGCGGAGAAGCAGAAGGAGAAGCACCATGATATGGTCCGTCTCGAGATGATGCTGAACTTCGGTTACTACATTACCGAATCGTCCGAGCATAACGCCGAATATCATCCGTATTTCATCAAGCGCAACTATCCGGAGCTGATCGAACGCTTTAACATCCCGCTGGATGAATACCCGCGGCGCTGCGTGAACCAAATCGAGGGATGGAAGGCGATGCGCGAGGATTTGGTCAACAACCAGGATCTGAAGCACAACCGTTCCCATGAATATGCCTCCTACATTTTGGAAGCAATCGAGACCAATAAACCGTTCAAAATCGGCGGCAATGTGATGAATACGGGACTGATCACGAACCTTCCGAAGGAAGCCTGCGTCGAGGTTCCGTGTCTGGTCGATGCCAGCGGCGTGACGCCGACCTATGTTGGCGATCTGCCTCCGCAGTGTGCCGCGCTGAACCGCACCAATATCAACACCCAGCTGCTGACGCTGGAAGCCGCGGCAACCGGCAAGAAGGAGCATATCTATCATGCGGCGATGCTGGATCCGCATACGGCCGCCGAATTGTCCATGGATGACATCAAGAGCCTGTGCGACGACTTGATCGAAGCGCACGGAGACTGGCTTCCTAAATACCAGTAA	MSKITFIGAGSTVFAKNVLGDCMQTPALQGFELALFDIDPVRLKDSENMLNNIKKTSGSTCVVKSYGDRKEALRGAKYVINAIQVGGYDPCTITDFEVPKKYGLRQTIADTVGIGGIFRNLRTIPVMLDFAADMREVCPNALFLNYTNPMAVLTNAMNTLGGVQTVGLCHSVQACIPHLFDNLGIDKEGVQAKIAGINHMAWLLEVTKDGVDLYPEIKKRAAEKQKEKHHDMVRLEMMLNFGYYITESSEHNAEYHPYFIKRNYPELIERFNIPLDEYPRRCVNQIEGWKAMREDLVNNQDLKHNRSHEYASYILEAIETNKPFKIGGNVMNTGLITNLPKEACVEVPCLVDASGVTPTYVGDLPPQCAALNRTNINTQLLTLEAAATGKKEHIYHAAMLDPHTAAELSMDDIKSLCDDLIEAHGDWLPKYQ	PGPT0017850_771	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017850-melA-K07406	NA	NA
AK002_01358	345			hypothetical protein	ATGAAGCTGAGGCTATTTATGTGCCTGCTATTCCTGTTAACGGCAGGATGTGCCCGTAATGTAACGGTGTTCGAGTCCGCGGTTTATTCGCTGGAAGACGACAGGATTGCCGTGGACTGCTCCGACGAAGTGAATCGTAACCGGAAGAATCACACGGATGAGGGGTACCACTGTGAGGTGCTGGTCACCGAAGCGACTTCCCTGAAGGCAAGTGGAGGAGGAGCTATCACGCTGGATGAGCTAAAGGAAGGCGATCTTATCCGCATCACGTTAAAAAAGCCGTTGAACATAAGCAAAAACAACAGAAGTTTTGAGGCTAAAGAAATTATGCTGCAAGCCCAATAA	MKLRLFMCLLFLLTAGCARNVTVFESAVYSLEDDRIAVDCSDEVNRNRKNHTDEGYHCEVLVTEATSLKASGGGAITLDELKEGDLIRITLKKPLNISKNNRSFEAKEIMLQAQ				NA	NA	NA	NA	NA
AK002_01359	1329	sasA_7		Adaptive-response sensory-kinase SasA	TTGACGTCGAACTTGAATGGACATGGTAATCTAGCGGACGATCCGATACTCTTCAAAGGGGTGGGCCTACTGCCTGTGATCAAAGATGTTTTGCTGCAGTTGTTGTTTGCATTGATGCCTTTTGTTGCATACAACATCTATTACAGAAAACTGACAGTCAACTATTCCCGTAATTTCATCATTGTCATTTGTTCGCTGTGCATGCTGCTGTCCATGACCTTTGCTTCGTCTGTCCAAAGCGGGCTGATCTTTGACGTGCGGTATGTCATTATGTTCTTCGGCATGCTGTTCGGAGGGTTCCTGACAGGGGCAATTCTGCTCGTGGAATTTCTAATCTACCGGTTGTACATTGGCGGATCCGGCATGATCGACGCCATTATAATCTTGATCTTTACGTTCCCGCTGTCCGTTCTGCTGTCATTCCTGTATCACCGAAGCAAACACAAATTATGGATCATTTTTATAGCCGGCATCAGCTTCTCGGTCCTTCCGCTCCTGGTGCTCTATATAACCAAACCCGACTACATCATGAATTACTTTGTTTTTAATATTTTTGCCATGCCGGTTCATAACTCGCTCGGGATATGGCTTCTCGTGACCCTGTTTAACAAATCCGTATCCGACAAGGAGCTATATCTGCGGTATATCCAGAATGAAAAAGCCGAAGCCGTGAATCATGTCGCCGCCTCCCTTGCCCATGAGGTCCGCAATCCGCTGACCACCGTGCTGGGGTTCCTGCAATTGATCAAAAGCGGTACGTTCCCTCCGGAAAAGACCGAACGATTCCTAGAAATCAGCATGGAGGAAATTCGCCGAACCGAACAGATCTTGTCCGAGTACCTCTCGATCAGCAAGCCTCACTTGCCGTTTCAGCAGCGAATCGAGCTTGCCGCCCAAATCAAGTCCGTTGTTGAGCTTATGACTTCATATGCCAATATGAGCAACGTCACCCTCAGCACGGACTCTCCCCAGTCTAACCTCTACATTTCGGGGAGTCCCGCAGAGCTCAAGCAGCTGCTGGTCAACTTTATTAAGAATGCGATCGAGGCGTGCAAAGACGTCGACAACGGCATGGTCAACATTACCGTCTATGAAGAAACGGAGCAGGTGGCCGTGGAAATCAAGGACAACGGGATCGGCATGACACCCGAGCAGCTAAGCCGTCTCGGTTCGATCTACTATTCCACCAAAATGAGCGGCACCGGACTTGGGCTCACCTTCTCCTATCAAGCCATCCGCGCCATGAACGGAAGCGTCTCGGTACGAAGCTCGCCAAGATCGGGAACCGTGTTTCTCATCACGCTCCCGCGCGCGAAACTGAACCCGTAA	MTSNLNGHGNLADDPILFKGVGLLPVIKDVLLQLLFALMPFVAYNIYYRKLTVNYSRNFIIVICSLCMLLSMTFASSVQSGLIFDVRYVIMFFGMLFGGFLTGAILLVEFLIYRLYIGGSGMIDAIIILIFTFPLSVLLSFLYHRSKHKLWIIFIAGISFSVLPLLVLYITKPDYIMNYFVFNIFAMPVHNSLGIWLLVTLFNKSVSDKELYLRYIQNEKAEAVNHVAASLAHEVRNPLTTVLGFLQLIKSGTFPPEKTERFLEISMEEIRRTEQILSEYLSISKPHLPFQQRIELAAQIKSVVELMTSYANMSNVTLSTDSPQSNLYISGSPAELKQLLVNFIKNAIEACKDVDNGMVNITVYEETEQVAVEIKDNGIGMTPEQLSRLGSIYYSTKMSGTGLGLTFSYQAIRAMNGSVSVRSSPRSGTVFLITLPRAKLNP	PGPT0025285_268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK002_01360	1824	appA_2		Oligopeptide-binding protein AppA	GTGAAGCTGAAAATCGTTCTGAGACCCATGTTCATTCTATTGTTGGCCGCGTCTTTTTTTGTCGCCGGATGCCAAAGCGTGACGCCGCCGCCGACAGCATCAGAAACACCTCCGCCTAATGAAGAAGTTAAGACGCCCGGAGGAAGCGAAGAACCGGCACCGCAGGGCGATGCGAAAGCAACGCCGAGAAACGAAACGCTTTACGTGAACGGCTTGCAATGGGGAGCGCCCACGAATTTCAACCTGCTTAGCGGAAACCCGGCGTTTCCGATCAACTACGGAAATTCGAGGGAACTGGTGTATGAAACGTTGTTTATGGTCAACCAGCTCACAGGCGAGTTAGAGCCGCTGCTTGGGACCAAGTACGAATGGACCGACGATCTTAATTTGCGGATCGAGCTGAACCAGGATGCCAAATGGAGCGACGGCAAGCCGTTCACATCCGACGATGTCGTCTATACCTACCAGCTTGGCAAAAAGTATGACATCAACTGGAGCAGCTTCTGGACGTACATCGAGGACGTAACGGCAGACGGACCGCAAACGGTAAACATTACACTCAATAAAGACAATCCGAACAAGTTGACGGTGCTCGACAGCATTGAGATCATGCCGATGCTGCCCAAACATGTCTGGGAAGAGGTCGAGAAGAAAGCCAATAACGATCTTGCCACCATTCGGAAGGAAGTCAACGAGGACCCGATCGGAACGGGGCCATATAAAATGTATTTTTACAATGACCAGAAAATCACGATTATACGGGACGATAACTACTGGGGCCAGGCGCTCTTCGGCAAGCTGCCGGCTCCAAAGTACATCACCCATGTCATCTATAAAGATAATGCCGCGGGCGATCTGGCATTCAAGAGCGGCCAGGTCGACGTATCGCAGCAGTTTATTCCGCAGGTATGGAAAATGTGGGAAGGCGGGGCTCCGGTCAAAACCTATATCAAAGAGGCGCCTTATTATGTGCCCGGCTCCATGCCGTCGATTTTCTTCAACATGACGAAGGAAGGACTCGACAATGCGGATGTCCGCAGAGCGATTGCCATGGCAATTGACTACGGCAAAATCTCGGAGCTGGCCATCAGCGGCTACTCCGCCCCGATGGAGCCGTCGTTGACGCTCAATACGGAGGCCGAAGCAAAATATGTGGACCAGGCGGCCATCAAACCGCTCCAGTGGACAACGGACGTGGAGGCGGCCAATGCGCTGCTTGATTCCATCGGCGCCGCGAAAGGGAAAGACGGCATCCGCGTTCTGAACGGTACCCGACTGGGTCCGTTTGAGATTGAGTGTCCGTACGGCTGGTCGGATTGGAATGCGGCGCTTGAGATCGTCGCCCAGAACGCGAAAGCGATCGGCATCGAGATTCGGACCAAATTCCCGGAAGCGCCGGTATGGACCAATGATCTTCAGACCGGCAAGTTCGACATTATCATGAACACGCCTGCGGGCGGAGTCAGCCCGAGCCAGCCGTGGAACCGCGCCATGACCATCATGTACTCCAAAGGCGTTGCGCCAATGGGCGAAATGGCATTCTACAACTGGGGCCGATACAAGAACGATCAGGCGGATGCCATCATCGAGAAGATTCCTACCATTTCGGACGAAGCCGAATTGAAAGCGCTCTACACCGAATTGACCCAAATCTGGTTGAAGGATATTCCGTCGATTCCGCTCATGTATCGTCCATGGGTATTCGATACGGTTAATGAATCGGTCTGGAAGGGCTTCCCGACCGAAGGGGACGGCAGCAACATCCCTCCTCAAATTTCAATGGATGGGGCCGGCATCAAGTCGCTGTATCAGATTCATAACTGA	MKLKIVLRPMFILLLAASFFVAGCQSVTPPPTASETPPPNEEVKTPGGSEEPAPQGDAKATPRNETLYVNGLQWGAPTNFNLLSGNPAFPINYGNSRELVYETLFMVNQLTGELEPLLGTKYEWTDDLNLRIELNQDAKWSDGKPFTSDDVVYTYQLGKKYDINWSSFWTYIEDVTADGPQTVNITLNKDNPNKLTVLDSIEIMPMLPKHVWEEVEKKANNDLATIRKEVNEDPIGTGPYKMYFYNDQKITIIRDDNYWGQALFGKLPAPKYITHVIYKDNAAGDLAFKSGQVDVSQQFIPQVWKMWEGGAPVKTYIKEAPYYVPGSMPSIFFNMTKEGLDNADVRRAIAMAIDYGKISELAISGYSAPMEPSLTLNTEAEAKYVDQAAIKPLQWTTDVEAANALLDSIGAAKGKDGIRVLNGTRLGPFEIECPYGWSDWNAALEIVAQNAKAIGIEIRTKFPEAPVWTNDLQTGKFDIIMNTPAGGVSPSQPWNRAMTIMYSKGVAPMGEMAFYNWGRYKNDQADAIIEKIPTISDEAELKALYTELTQIWLKDIPSIPLMYRPWVFDTVNESVWKGFPTEGDGSNIPPQISMDGAGIKSLYQIHN	PGPT0004430_1748	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
AK002_01361	1026	gsiC_3	COG0601	Glutathione transport system permease protein GsiC	ATGGGGGTGAGCTGCTTGAGTGTTTACGGAAAATATATCGTCAAGAAGTTCTTCTGGTATTTTCTGACGCTGGTAATCGCCGTTACGCTAAACTTTCTGTTGCCCCGGATGATTGAGGGGAATCCGGTCAGCATGATCGTGTCCGAGATGACGCAGGGGATGACCGACAGCGATACGATCAAGCGGGTCTATGAGACCTTTCTCGTGGAGTTCGGCATCGATAAGCCTTTATGGGAACAATTCTTCATCTATCTGAAAAATTTGGCGACCGGCAACCTGGGCACTTCGTTCGGGCTGTATCCGAAACCGGTCACGGAGATTTTGGCCTCGGCAGTGCCGTGGACGATCGGTCTCCAGCTTCCGGCCATCCTGGTTGGCTGGATCATCGGCAACGTGCTTGGCGCCGTTGCGGCATACCGCAAGGGCGTGTTCGATAAAGTGATTTTTCCGGTGGCTTTATTCGTGAATTCCATTCCGTTCTTCACGCTGGCCATCATCATGCTGTACGTGTTCGCGCTGTCCCTGAACTGGTTTCCGCTGCATGGCGGCTACGACTATCAGATGGTGCCGACGCTCAGCTTTGAATTCTTCGCTTCGGTGCTTCGGCATCACACGCTTCCGTTCCTGTCGATCGTGCTGGTGACCATCGGCGGTCAAGCCATCGGCATGCGCGAGATGTCCATCTATGAGCTGAATTCGGATTATGTGCTGTACAGCAAGCTGCTCGGGATACGGGATTCCAAGATCGCGAAATATGTATTCCGGAATGCCATGCTGCCCCAGATAACGGGACTGGCGTTATCCATCGGCACGATGGTGGGCGGCTCTCTGATCTGCGAGATCGTGTTCAGTTATCCTGGAATCGGAACCTGGATGTTCACGGCGATCCGCCAGCTCGATTATCCGTTAATTTCGGGCTGCACCCTCTTGATCGCCCTGGCTGTGCTGTTGGCCAACTTTACGATTGACTTAATCTACGGCTGGATCGATCCGAGAATCAAGGCAGCTCAGATGGAGGATCAATAA	MGVSCLSVYGKYIVKKFFWYFLTLVIAVTLNFLLPRMIEGNPVSMIVSEMTQGMTDSDTIKRVYETFLVEFGIDKPLWEQFFIYLKNLATGNLGTSFGLYPKPVTEILASAVPWTIGLQLPAILVGWIIGNVLGAVAAYRKGVFDKVIFPVALFVNSIPFFTLAIIMLYVFALSLNWFPLHGGYDYQMVPTLSFEFFASVLRHHTLPFLSIVLVTIGGQAIGMREMSIYELNSDYVLYSKLLGIRDSKIAKYVFRNAMLPQITGLALSIGTMVGGSLICEIVFSYPGIGTWMFTAIRQLDYPLISGCTLLIALAVLLANFTIDLIYGWIDPRIKAAQMEDQ	PGPT0004445_2367	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
AK002_01362	837	oppC_1	COG1173	Oligopeptide transport system permease protein OppC	ATGAACAGTTCCTTTCGCATATTGATCAAATCGCCAAAGTTTATGTTCGGAGCCTGCATGCTGCTGGCCATGATCGGCATGGTGCTGATCTACCCGCTCTTTAACCGCAATGACCCGCTGGAAATGATCGCGCTGGCATATCAACCGCCGGACTCGAAGCTGCTGCTCGGGTCGGATAACTTCGGCAGGGACTTATTTCTTGAATTGATCTACGGCATTCGGACTTCCCTGCAGGTGGGGCTGATAGCCGGCGTATTTGCTACCGTGATCGGCCTTGTGATCGGGTTAGCCTCAGGTTATATCGGAGGCATGATCGATAATCTGCTGACCGCGATCACCAACATTTTCATCGTGATTCCTTCCTTTGTCATCCTGATATTGATCTCGGTCAGCATCGATTCGCGCAGCTCGTTTGTCACGGCGGTCATCATCGGCATCACCAGTTGGCCCTGGACGGCCAGGGCCGTCAGGGCGCAAACCTCCTCTTTGCGAAACCGGGATCACGTGAACATCGCGAAAATATCCGGGTACAGCACGCCGCGCATCATTGTCTCGGAGATTTTGCCGTACATCGCCTCCTATGTCGTGATGGCTTTCGTGCTGCAGACGGCATCGGGCATTCTCTCCGAGGCTTCCATTTCGATGCTGGGACTCGGCCCTTACAACACGATTTCCCTCGGCATCATCATGAATTGGGCGCTCGTCTTCGAAGCGCCGGTTGCCGGGGCCTGGTGGGCCTTTATCCCGGCGGCGATTTCCATCGCCATCATCACCTTCTCCTTGTACATGATGAACACCGGCATGGATGAAATATTCAATCCGAAGATTAGGAGCTGA	MNSSFRILIKSPKFMFGACMLLAMIGMVLIYPLFNRNDPLEMIALAYQPPDSKLLLGSDNFGRDLFLELIYGIRTSLQVGLIAGVFATVIGLVIGLASGYIGGMIDNLLTAITNIFIVIPSFVILILISVSIDSRSSFVTAVIIGITSWPWTARAVRAQTSSLRNRDHVNIAKISGYSTPRIIVSEILPYIASYVVMAFVLQTASGILSEASISMLGLGPYNTISLGIIMNWALVFEAPVAGAWWAFIPAAISIAIITFSLYMMNTGMDEIFNPKIRS	PGPT0004450_12879	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
AK002_01363	1011	oppD_3	COG0444	Oligopeptide transport ATP-binding protein OppD	TTGAGCACAAATATATTGGAAGTTAACGAATTGAAAACCTTTTACCGTACCCGGCTGAAGGAGCATGTATATGCCGTAGACGGCGTGAGCTTCTCGCTCGAGAAGGGGAAGACGCTTGGCATTGCCGGCGAATCCGGCTGCGGCAAATCGACCCTTGCCCTCAGCCTGATGGGATTCTATTTTCCGCCGCTGCATTTCGGCAGCGGCTCGATTGTCATCAACGGCACGGACATTATGAAGCTTGGCAAGGAACAGCTTCGTTCCCGGGTGTCGGGAAGAGAGATATCGTATATTCCGCAAGCGGCCATGAATGCCCTGAATCCTACGCTCAAAATCATTCGATTCATCGAGGATATCATGAAGGAGCACCGCCCCGAGCTGAACAAGAAGCAGGTGTGGGATATGGCGGCGGAGCGGTTCGAGACCTTGAATTTGTCGACCAAGGTGCTGAACTCCTATCCGAACGAGCTGTCGGGGGGCATGAAGCAGAGAACGGTCATCGCGATTTCCACCATTCTGAATCCGAAAGTGCTGATTGCGGACGAACCGACCTCGGCTCTGGACGTAACCTCGCAGAAAGCGGTAATCAAGCTGCTGAAGAGCCTGCTGGACCGCGGCTTTATCCAATCCCTTGTCTTCATCACGCACGAGCTGCCGCTGCTCTATCATGTAACGGATGACATCATCGTCATGTATGCGGGGGAAATTGTGGAGCGGGGAACCGCAGAGCAAATGATATTTGACCCGATCCATCCTTATACGAAAAAGCTGATGGGCTCCATCATCGTGCCCGAGGAGGGCATGAAGGGCCATAAGCTTGCCGCCATTCCGGGGACCCCGCCCAATCTGAAGAACGTGCCGGAGGGCTGCCGGTTCGCCGACCGCTGCTCCTATGTGCAGGATGCCTGCCGGAAGGGCAAGATAACGTCCCGGACCGTGGGGGATCGAATCTATCGGTGCATCGTGGAGCCTGATGTGCTTAAGGAGTGGTATGCGAATGAAGGGGAATGA	MSTNILEVNELKTFYRTRLKEHVYAVDGVSFSLEKGKTLGIAGESGCGKSTLALSLMGFYFPPLHFGSGSIVINGTDIMKLGKEQLRSRVSGREISYIPQAAMNALNPTLKIIRFIEDIMKEHRPELNKKQVWDMAAERFETLNLSTKVLNSYPNELSGGMKQRTVIAISTILNPKVLIADEPTSALDVTSQKAVIKLLKSLLDRGFIQSLVFITHELPLLYHVTDDIIVMYAGEIVERGTAEQMIFDPIHPYTKKLMGSIIVPEEGMKGHKLAAIPGTPPNLKNVPEGCRFADRCSYVQDACRKGKITSRTVGDRIYRCIVEPDVLKEWYANEGE	PGPT0004435_8954	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
AK002_01364	801	oppF_2	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAAGGGGAATGACGTACTGATTCGGGGAGAGCACCTCACGAAGGTGTTCGGATATGGGAAGCAGAAGACAACCGCCGTGGAGGATGTCAGCTTTACCTTTCATGAAGGCGAAATCATATCGATTGTCGGCGAGAGCGGAAGCGGCAAAACGACGCTGGCAAAAATGATCATGGGCTTGCTGAAAGAGAGCAGCGGGACGATTGAATATATGGGCAAGCCGAGACGGCTGAAGCGGCATGGAGACCGCAAACGCTATTGGAAGAACATTCAGGCGATTTTCCAGGATCCGTTCTCTTCGTTCAACCTGTTCTACAAAGTCGAGAAGCTGCTGCTCGACTGCATTAAGCTGCAGGGAGATAAACTGACGAAGGAGGAGCAATTCCGCAAGATGAAGGAAGCGTGTTCCTTCGTCAATCTAAAATTCGAAGAGCTGCACAATAAATATCCGTTCGAATTGTCCGGCGGGCAGATGCAGCGCTTGATGATCGCCCGGATTTTCATGCTTCATCCGAAGCTGCTTATTGCGGATGAACCGACCTCCATGGTCGATGCGTGCTCGCGGTCCACGATCCTTGATATGCTCTTGAAGCTGCGGGATGAGAACAACATGACAATTATATTTATTACCCATGACGTAGGGCTTGCTTATTATGTAAGCGATACGCTGTATATTATGGAACAGGGGAAAGTCGTGGAGCGCGGACCTGCGGAAGAGGTTATCCTGAATCCGCAGCATCCGTATACGCAGCAGCTGATATCGGATGTGCCCAAGATCCATTCCGAGTGGGATTTGGCATAA	MKGNDVLIRGEHLTKVFGYGKQKTTAVEDVSFTFHEGEIISIVGESGSGKTTLAKMIMGLLKESSGTIEYMGKPRRLKRHGDRKRYWKNIQAIFQDPFSSFNLFYKVEKLLLDCIKLQGDKLTKEEQFRKMKEACSFVNLKFEELHNKYPFELSGGQMQRLMIARIFMLHPKLLIADEPTSMVDACSRSTILDMLLKLRDENNMTIIFITHDVGLAYYVSDTLYIMEQGKVVERGPAEEVILNPQHPYTQQLISDVPKIHSEWDLA	PGPT0004440_9064	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
AK002_01365	2433			hypothetical protein	ATGCACAGCTACTTCTTGGGGGCAACCGTTTTGGTGTTGACCGCCATGACAATTCTTTTTTTGATTATCTTATACAGATGTGGCTATCAACGGAAGTTAAGCCATCGGGCCTTGGACATGGCCGAGAGCAGGTTCCGCATGCTTGACGATATGCTGCTTACGCTGGATGTCGGGATTTGGTCGTACGATGTCGGCACCAGGATCATACAAAATACATCCTTGGCTTTTCATAAAATCACGGGTTATTCGCATCGCGATTTCTCGGACGGGCTCTCCTGGGAAACGATGATCCATCCCGAGGATATGGCGCTGTTCCGATCCTTGGTTGACAAGCTTCGGCAAGGCGAGGCCGTTCATACCGAATACCGCATCCTCCATGCGGAGGGCGACGTACGCTGGGTTCAGGTGAAAATGATTCCGACGATGAATGAGTCCGGGCAAATCGTCCGGACCGATGGCATTGCCATTGACATCACCACCCGATTCCGCATGGAAGAGGCGCTGTATGATATGGCGGAATGCAAGAAGATGGAGCAGGCGCTCAAGGAAAGCATGAACCGGTATCGCCGCCTCGTGGAATTATCGCCTATTGCCATCGCAGTGTGCAAAGAACGCAAGCTGATGTACGTGAATCCCGCCGGACTTCGGATCCTTGGTGCCGCTGAACCCGACAATATCCTTGGCACCGATCCTTGGGACTGGGTGTTTGATCCCTATGAGGAGTGGGCACGCAAACGGCTCACGCAGCTGATTCGCAGCAGGCGGGTCGTTCCCGAGGAGTTATCCATAAAGCGGGTGGACGGAGAGCGGGTCGATGTCGTGGCGACGGCCCTGTATGACGAGGAATCGGACGCCATTGAAATTTTCTTCGAGGATATTACCGCCCGCAAATCAGCGGAACGGGCTCTGATGGAGAGCGACCGTATCAACCGCCACATTCTGGATATCGCACCGGTCGCGATGTTCCTGCACTCCGATTTTTCTTACATTTATGCGAATCCCGCCGGCTTATCCTTATTGGGAATTACGGACATCGCGCAATTGGACGGCACCTCCTTCCAGGACGTGATTCCTTCCGACCAGCTCGAGTTCGTGGCGTCTGAGGTTGAACATGTGTACAAAAGCGGTACTACCTCCGAGCTCGCGGAAAATAAGCTGGTCCGGCTGGATGGAACGATCATCGATATCGAGGCCATCACGACGCCGATCCCTTATATAGGCGATAATACGGCACTTACCATTATTCGGGATGTAACGGAACAGAAGCAGGCCGAACGGGAGCGGATTGCGGCAGAGCGGCTTGTCCGGGAGAGCGAGGACCGGTATTTCAGGCTTCAGATGAGCCTGGATCAATTCTCCTCCGATCTGTTCGGGATGGTGAAGATCAGCGAATTGAACGCCCGGATCGTGCAGGAGATCAGGAAAGTGCTGGGAACGGACCGGGTGAGCCTGATCCGGATCAACCACCACAGCCTGCATATCAAGATTCAAGGCGGCAGCAAGGAACTGCCGCAAAGGGTGCTTCATTCGATCCATAAATGCGGTCCCGAGCATGTTCCGCTTTGCAAGCTGTTTGAGACGTGCGACGGATATTTCGTCAAGATCGGGGAGATGAACGGGGACAGCAGCATCGTCTGCATCGGCGGCGAGGCTCCGCTGCTCCTGATTCAGGCCAAGAAAATATGGCTGGAGACGATTACCCGCTATGCAAGCGTCCTGTACGATAATTTTCGCGTGATTGAGGACTTGACGAGGGAGCTGGAGAAGCTGGGATCCTCACAGCAGATCATGCCCCTGTGGCTGCTGCGGCTGATGCTGCATCTCTCCGAGAATGAGCGGAAGCGACTGTCCCAGGATCTTCACGATGCCGCGCTCCAGGAACAGATTATCTGGTACAGGAAATTGAATCAGATTACATCGGATCTTGATCTGCCGGAACATCTGCGTCCACAGCTGGAGGAGATTGAGCAGGGGCTTCTGGATGTCATTTATCAGATCCGAATTACGTGCAATGAGCTTCGCCCACCGCTGCTGAAGGAAGAGGGGCTGGAACGTTCGCTTGAGGCATTGTTTGAATTCACCCAGCTCCGCACCAATTACTCCATACAGTTCGACTGCTCGAACTTCGTTGATGATATCAGTGACGACCATTTGATCGGGTTGTACAGGATCGTTCAGGAGCTGCTGGCGAATGCCACGAAGCATTCCAATGCGACGGAGGTAAAGCTTCGTTTGTCCACCCAGTCGGATGAGGTCAATCTGAGTTATGAAGATAACGGAGTCGGAATTGATCCCAGCCAGAAGCCGGATCAATTCAACAGTATGGGAATCGGCGGCATGAAGGAAAGGGTGAGAAGCATGAACGGCAAAATCCAGTTCGACTCATCGGAGAGCGGGGGGCTGGCTGTCTATATATCGATAACGGCAAAGTAA	MHSYFLGATVLVLTAMTILFLIILYRCGYQRKLSHRALDMAESRFRMLDDMLLTLDVGIWSYDVGTRIIQNTSLAFHKITGYSHRDFSDGLSWETMIHPEDMALFRSLVDKLRQGEAVHTEYRILHAEGDVRWVQVKMIPTMNESGQIVRTDGIAIDITTRFRMEEALYDMAECKKMEQALKESMNRYRRLVELSPIAIAVCKERKLMYVNPAGLRILGAAEPDNILGTDPWDWVFDPYEEWARKRLTQLIRSRRVVPEELSIKRVDGERVDVVATALYDEESDAIEIFFEDITARKSAERALMESDRINRHILDIAPVAMFLHSDFSYIYANPAGLSLLGITDIAQLDGTSFQDVIPSDQLEFVASEVEHVYKSGTTSELAENKLVRLDGTIIDIEAITTPIPYIGDNTALTIIRDVTEQKQAERERIAAERLVRESEDRYFRLQMSLDQFSSDLFGMVKISELNARIVQEIRKVLGTDRVSLIRINHHSLHIKIQGGSKELPQRVLHSIHKCGPEHVPLCKLFETCDGYFVKIGEMNGDSSIVCIGGEAPLLLIQAKKIWLETITRYASVLYDNFRVIEDLTRELEKLGSSQQIMPLWLLRLMLHLSENERKRLSQDLHDAALQEQIIWYRKLNQITSDLDLPEHLRPQLEEIEQGLLDVIYQIRITCNELRPPLLKEEGLERSLEALFEFTQLRTNYSIQFDCSNFVDDISDDHLIGLYRIVQELLANATKHSNATEVKLRLSTQSDEVNLSYEDNGVGIDPSQKPDQFNSMGIGGMKERVRSMNGKIQFDSSESGGLAVYISITAK	PGPT0025805_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025805-comP-K07680	NA	NA
AK002_01366	669	comA	COG2197	Transcriptional regulatory protein ComA	ATGAAGATCGATATTTTATTGGTGGATGACCATCCCTCGGTGATGGAGGGAACCAAGGTGCTGCTCGAACAGGAAAAGGATATGTTCGTCAAGCTTGCGAATACGCCGGAGCGCGCGCTGGAACTGGTCAATACGGAGCGCTTTGACGTGATGCTGATCGATATGCATATGCCGGGGATGAACGGAATCGACTTGGCCAAGCAGATCCTCCGGATCGCCCCGAACGCGGTGATGCTGATCTATACGGGCTTTGAAGTCAGTAATCATTTTAACCTGATCATGGAGGCGGGACTGGCTGGTTTTGTCTCGAAAACGTCAGGCAAAGAGCAGCTGGTGACGGCCGTTCGGTGTGCGCTGCGAGGCGAAGTGGTTCTTCCGTTGACACTTGTGAAGCAGCTCCGCCGCGTGACCGCGAATGGCCCGGAACGGACGGCGGGTGCGCCGGCAGCCCAGTCTATAACCGATAAAGAATACAGCATTCTCAAGGAAATCGCTCGGGGAAAGAGCAATAAGGAAATTGCGGGGACGGTTATTATGAGCCAGCGTTCGCTGGAGTACTGCTTAACCAACCTGTTTCAAAAGTTGAATGTGAAGTCACGCATAGAGGCTGCGCTGAAAGCGAAGCAAATGGGGATTCTGTCGGATTCCGATTTTGTCCAGATGAGCTGA	MKIDILLVDDHPSVMEGTKVLLEQEKDMFVKLANTPERALELVNTERFDVMLIDMHMPGMNGIDLAKQILRIAPNAVMLIYTGFEVSNHFNLIMEAGLAGFVSKTSGKEQLVTAVRCALRGEVVLPLTLVKQLRRVTANGPERTAGAPAAQSITDKEYSILKEIARGKSNKEIAGTVIMSQRSLEYCLTNLFQKLNVKSRIEAALKAKQMGILSDSDFVQMS	PGPT0025790_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025790-comA-K07691	NA	NA
AK002_01367	1989	mcpU	COG0840	Methyl-accepting chemotaxis protein McpU	ATGAAACGATGGAAATCTTTGTTTGCGATGAAACTTCAAAGTCGCATGCTGCTTATTATTTTGGGAGCAATCACAATATTTTTAGGCAGCATGATGACCTATATCAGCATGACGACAACGGAAGAAGCTCTCGATTCGGCCAAGACGCTTGCAGTGACAACGAGTGAGAAGATCGGCGCGCTGGTTCAGGCCGAGCTTGACGATGTCATGAACTCTGCACGTACTTTGGCCGTAAGCTTCGTTGGCATGAAAGAGACCGACACAACGAATCGTCAAGCCGTTAATGAAATATTGAGAAGAAACCTGGAGGATAATCCGTCCTGGAAAGGAATCTGGACGTTATGGGAGCCGGATGCTTTTGACGGCCGGGATAACGATTACCGAAACAAACTCGGCAGCGATCATTCGGGACGCATGATGTCCTACTGGGCAAGGACGGAAGCAGGTCTGGAGCGTTCGATTATAGAGGATTACGAGCAGGAAGGGGAAGGCGACTTCTATCTTCTGGCGAAGAACAGCGGCAAAGAGATCATTATGGATCCGTACGAGTTCAAAGTAGGCAACGAGGATGTCATGATGACGTCGCTCGTCGTGCCGATTATCGATAACGGCAAGACCGTCGGCGTAGTGGGCGTCGATATATCCCTCGCACATCTGCAAAGCGTCATGGAGCAATTCCGATTATTTGATACGGGGTATGCGCATATTTATTCGAATACCGGCGTGATCGTAACGTCGCCGGAGGACGGATTGATGGGACAGAAGCTGGAAGAAGCCTATCCTGGCAAGACGGTTCCTCTCATACTGGATGCCATTCGGGAAGGGGATGTCTATACCGAGGAAGACACCGCTCTGTACAAGCTGTATACGCCGATTAAGACCGGATTGACCGAAACGCCATGGTCGGCTGCCATCATTATCCCGATGGACGAGATTACGGCGAATTCGGATGCCTTGATCATCTCCATCATAGCGGCAGGCGTGATCACCTTGGCAGCCTTGGCGGCCATCGTAATCCTGTTAACGAGATCCATCGTGAAACCGCTGGGCGTTTCTGTAGCGATCGGCGAATCCATGTCCAAGGGAGATTTCACGAAGGAGGTTCCCGCGGATTATCTTCGCAGGGCGGATGAAATCGGAACGCTGTCCCGGGTATTCGCTCAACTGCTGGAGAGTATGAGGGAAATGATAGGCAAAGTGAATATGAATGCATCCTCGGTTGCCGCCGCTTCGCAGCAGCTGTCGGCCGGTGCCGAGGAGCTTGCGGTGGGCAGCAGCAGCCAAGCTGAATCCGTGCAAACGGTCAGCGAATTGTTTCAGGAATGGTCCAATGCCATCAATTCCGTTGCAAGCGATGCATCGGCAGCGTCCGAGCTCGTGAACCAGACTTCCGGGATTGCAGCGGAAGGCAGCGGAATCGTCCAGCAGTCGGTGGAAGGCATGAATCGGATACGCGAGCATGTTGCCAAGCTAGAGACAGACTCCCAGCGGATCGGCGAAATCATCGAGGTAATCGACGATATCGCCAAGCAGACCAATCTGCTTGCGCTCAACGCCACGATCGAGGCTGCACGCGCAGGGGATCAAGGGAGAGGGTTCGCCGTGGTGGCGGATGAGGTGCGCAAACTTGCCGAACGAAGCGGAGGAGCCACGAAGCAGATTGCCGACATTATCAAAGGCATGCAGAAGAATACGGCCGATAGCGTGGAGGCGGTGCATCAGGGCGTCATCCATACGGAAAAAGCCGGCGAAGCCTTTTCTCATATTACAAACATGGTGAATGAGTCGGCAGGCAAAGTCATGGATATTGCCGCCGCCAGCGAGGAGCAGGCGGCCCAGGCTGTAGAGGTGGCGACGGCGATTGAGACGATCTCTTCTTCCACGGAGGAAACGGCGGCTACAAGCGAGGAATCGGCTGCAACGGCACAATCGCTTGCCGAGCTTGCCGAAGAGTTGAACCATACCGTCTCCGCTTTCAAAATCTCGTAG	MKRWKSLFAMKLQSRMLLIILGAITIFLGSMMTYISMTTTEEALDSAKTLAVTTSEKIGALVQAELDDVMNSARTLAVSFVGMKETDTTNRQAVNEILRRNLEDNPSWKGIWTLWEPDAFDGRDNDYRNKLGSDHSGRMMSYWARTEAGLERSIIEDYEQEGEGDFYLLAKNSGKEIIMDPYEFKVGNEDVMMTSLVVPIIDNGKTVGVVGVDISLAHLQSVMEQFRLFDTGYAHIYSNTGVIVTSPEDGLMGQKLEEAYPGKTVPLILDAIREGDVYTEEDTALYKLYTPIKTGLTETPWSAAIIIPMDEITANSDALIISIIAAGVITLAALAAIVILLTRSIVKPLGVSVAIGESMSKGDFTKEVPADYLRRADEIGTLSRVFAQLLESMREMIGKVNMNASSVAAASQQLSAGAEELAVGSSSQAESVQTVSELFQEWSNAINSVASDASAASELVNQTSGIAAEGSGIVQQSVEGMNRIREHVAKLETDSQRIGEIIEVIDDIAKQTNLLALNATIEAARAGDQGRGFAVVADEVRKLAERSGGATKQIADIIKGMQKNTADSVEAVHQGVIHTEKAGEAFSHITNMVNESAGKVMDIAAASEEQAAQAVEVATAIETISSSTEETAATSEESAATAQSLAELAEELNHTVSAFKIS	PGPT0015710_7397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_01368	918	rhaR_14		HTH-type transcriptional activator RhaR	GTGAACGGCAGCTTGTTTCAGCAAATGCTGGAAGAGGGGGATTATGTCCCGCGCTTTTATGCCTATTATTATAAACAGTGGATGAATTATGAAATGCCCTACCATCAGCATGATTCAACCGAAATCATGTATATGATTTCCGGAGTATGCCGGATTGACGTGAAGGCAGGCGATACGGAGAAGAGCGTCATTTTGAAGAAAGGAGAATTCATGGTGCTGGATGCCGGTGTTCCGCATCGGTTAATCGTGGATCAGGCCGCCTCATGCCGAATGCTGAACGTGGAATTCGGTTTTATGGAAAGTGAAGGGAAGGCGCCATCTTTAAGGCATATCGTCGGAGAAGAAGAAGAGGTATCTTTTCTCTTAAAGCGGCCGTTCCGCTATTTGGTGCTGGCTGATCAGGAGGAGGTATATCCGGTGCTGAAAAGCCTTGTGCTTGAGCTCGATCAGAGAGGTACCGACGGCAGGATGATGACGCATGCGCTGTTTATACAGCTGCTGGTATGCATCGCCCGTTTGTATGAAGAAAGAGAACGCAGCGACATGCAGCAGAGCGACTTCTATATTAAACGCAGCGTCGATTATTTGCATCAGAACTATGACCGCCAGATTCAGGTGAAGGACGTAGCTGCGGAAGTGAATCTGCATCCCGGCTATTTGCACCGGGTATTCCGTAGAGGGACAGGCAGGACGATAACCGAGTACCTGACAACGATCCGAATGGAAAAGGCCAAGATGCTGCTGGAGCAGACGGATATCCCCATCCATGAAATATCGGATTATGTGGGTGTGGGCAGCAGGCAATATTTTCATATGTTATTCAAGAAGTATACAGGCAGCACGCCGGTGGAATATCGTCTTCGGAAAGACCGGAATGCCTGGAACTACGGTGAAGACGATGTCGAAGATAAGAAGTGA	MNGSLFQQMLEEGDYVPRFYAYYYKQWMNYEMPYHQHDSTEIMYMISGVCRIDVKAGDTEKSVILKKGEFMVLDAGVPHRLIVDQAASCRMLNVEFGFMESEGKAPSLRHIVGEEEEVSFLLKRPFRYLVLADQEEVYPVLKSLVLELDQRGTDGRMMTHALFIQLLVCIARLYEERERSDMQQSDFYIKRSVDYLHQNYDRQIQVKDVAAEVNLHPGYLHRVFRRGTGRTITEYLTTIRMEKAKMLLEQTDIPIHEISDYVGVGSRQYFHMLFKKYTGSTPVEYRLRKDRNAWNYGEDDVEDKK	PGPT0017485_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_01369	1500	melA_2	COG1486	Alpha-galactosidase	ATGTCATTTAAGGTTGCTTTTATCGGAGCGGGAAGCATCGGCTTTACCCGGGGGATTCTGCGCGATTTGCTGACCGTACCGGAGTTCCGTGATATCGAGGTCGCTTTCACCGACATCAGCCGGCATAACCTGGAGATGGTCTCGGAATTATGTCAGCGGGACATTAATGAGAACGGGCTGTCGATTGCGATCCAGTCCACCACGGATCGAAGGCAGGCACTGCAGGATGCCAAATACGTCATTTGCACCATCCGCGTGGGCGGTCTGGAGGCATTCCGCACGGATGTGGACATTCCGCTAAAATACGGCATCGATCAGTGCGTGGGCGACACGCTCTGCGCAGGAGGCATCATGTACGGCCAGCGGGGAATCCCCGAGATGCTGAACATCTGCCGGGATATTCGCGAGGTGTGCGCGCCCGATGTCCTGCTGCTGAATTACTCGAATCCGATGGCCATGCTGACATGGGCATGCAATCAGTATGGAGGCGTACGGACGGTGGGTTTATGCCATGGCGTGCAGCATGGGCACCACCAGATTGCCGAGGTTTACGGTTTAAAGAAACAGGACGTCGATATTGTCTGTGCCGGAATCAATCATCAGACTTGGTATATTCAAGCTTCGCATCAAGGCAAGGACTTGACGGCCGGGCTGCTGGAGGCGTTCGAGCGCCATCCAGAATACAGCAGGACGGAGAAGGTCCGCATCGATATGCTCCGTCGTTTCGGATATTACAGCACCGAATCCAACGGCCATCTAAGCGAATACGTGCCTTGGTACCGCAAACGGCCGGAGGAAATTACGGAGTGGATTGATCTCAGCAGCTGGATCAACGGAGAGACGGGCGGGTATTTGCGAGTCTGCACCGAGGGGCGCAACTGGTTCGAGACCGATTTCCCGAACTGGATGAAGGATCCGGCAATGGAATTCAAGCCGGAGCACCGGGGAGAGGAGCACGGCTCCTACATCATTGAAGGCTTGGAGACCGGCAGGGTATACCGGGGACACTTTAATGTTGTGAATGAAGGCATTATCGCTAACCTGCCGGAGGATGCCGTCATCGAGGCACCGGGATACGTTGACCGCAACGGCATTTCCATGCCGCTTGTCGGGAATTTGCCTCTTGGCCCGGCTGCCGTATGCAGCGTAAGCATATCCGTTCAACGGCTGGCGGTTGAAGCGGCGGTTCATGGAGATGACAAGCTGCTTCGGCAGGCGTTTATGATGGATCCGCTGATCGGGGCGGTATGCAATCCGAAGGAAATCTGGCAGCTGGTCGATGAAATGCTGGTAGCCGGTGAAGCATGGCTTCCTCAGTATTCGGCTTCGATCGCCGAGGCGAAGGAACGCCTGGCGGCCGGCAATCTGATCCCGACCCGCTCGTATGAAGGAGCAGCCAGACTCAAGGTGAAAACGGTGGAGGAGATGCAGCTCGATCGGGAGAAAGCGAATAAAAACGCAGGTGAATCCGATAAAGGGAAAGATCGCGAAAAAGTGTAA	MSFKVAFIGAGSIGFTRGILRDLLTVPEFRDIEVAFTDISRHNLEMVSELCQRDINENGLSIAIQSTTDRRQALQDAKYVICTIRVGGLEAFRTDVDIPLKYGIDQCVGDTLCAGGIMYGQRGIPEMLNICRDIREVCAPDVLLLNYSNPMAMLTWACNQYGGVRTVGLCHGVQHGHHQIAEVYGLKKQDVDIVCAGINHQTWYIQASHQGKDLTAGLLEAFERHPEYSRTEKVRIDMLRRFGYYSTESNGHLSEYVPWYRKRPEEITEWIDLSSWINGETGGYLRVCTEGRNWFETDFPNWMKDPAMEFKPEHRGEEHGSYIIEGLETGRVYRGHFNVVNEGIIANLPEDAVIEAPGYVDRNGISMPLVGNLPLGPAAVCSVSISVQRLAVEAAVHGDDKLLRQAFMMDPLIGAVCNPKEIWQLVDEMLVAGEAWLPQYSASIAEAKERLAAGNLIPTRSYEGAARLKVKTVEEMQLDREKANKNAGESDKGKDREKV	PGPT0017850_48	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017850-melA-K07406	NA	NA
AK002_01370	1119	ald		Alanine dehydrogenase	ATGATTATTGGGGTTCCCAAAGAAATCAAAAATAACGAAAACCGCGTAGGCATGACGCCGGGTACCGTTATCAGTTTCAGGAATGCCGGGCATGAAGTGCTTGTACAATCCGGAGCCGGTCTGGGGATCGGTTTTACCGATGAAGATTATGAGGCGGCCGGAGCCAAAGTGGTTGCAACGGCTGCGGAGGCTTGGAAAGCCGAGATGGTGGTGAAGGTAAAGGAACCCCTGCAGGAGGAATATGACTACTTCCAGGAGGAAATGATTCTATACACTTACCTGCACCTGGCCCCCGAACCGGAGCTGACCAAAGCGCTGGTGGACCGTAAGGTGAGCGCCGTTGCTTATGAAACGATACAGCTGGCGGATGGCAGCTTGCCGCTGCTGACCCCGATGAGCGAAGTGGCGGGAAGAATGTCCATTCAGATCGGGGCGCATTTCCTGGAGAAGGCGCATGGCGGCAAAGGCGTGCTGCTAAGCGGCGTCCCGGGGGTTGCACCTGGTAAGGTCGCCGTCATCGGAGGCGGCATCGTCGGCACCAATGCGGCACGAATTGCGCTGGGACTCGGTGCGGACGTCAGCATTCTTGATATTAATCCCGTCCGGCTTCGTCAGCTGGATGATCTCTTTCAAGGGCGGGTCAAAACGATCATGTCCGATCCGTATCATATTGCGGAAACGGTTAAGGCTGCCGATCTCGTCGTGGGTGCGGTGTTGATTCCCGGCGCCCGGGCTCCGCGCCTCGTCACGGAAGAGATGGTGAAAGAGATGAGCCCGGGATCGGTCATCGTGGACGTGGCGATAGATCAAGGAGGCTCGATCGAGACGATCGACCGGATCACCACCCATGATCATCCGACCTATGAAAAGTTTGGCGTCATCCACTATGCCGTTGCCAATATGCCGGGCGCCGTAGCCCGTACCTCCACCATGGCATTGACCAATGTAACGGCACCCTACGGGTTGAAAATAGCAAGCAAAGGAATCCGCTCTGCCGCCCGCCATGACAAGGCGCTGGCCAAGGGCATCAATGTCATCGGAGGCAAAGTGACCTATGGAGCCGTGGCGGCAGCTCATGGTTATGCGCATACCAGCATTGACGACTATCTGCTGGCATAG	MIIGVPKEIKNNENRVGMTPGTVISFRNAGHEVLVQSGAGLGIGFTDEDYEAAGAKVVATAAEAWKAEMVVKVKEPLQEEYDYFQEEMILYTYLHLAPEPELTKALVDRKVSAVAYETIQLADGSLPLLTPMSEVAGRMSIQIGAHFLEKAHGGKGVLLSGVPGVAPGKVAVIGGGIVGTNAARIALGLGADVSILDINPVRLRQLDDLFQGRVKTIMSDPYHIAETVKAADLVVGAVLIPGARAPRLVTEEMVKEMSPGSVIVDVAIDQGGSIETIDRITTHDHPTYEKFGVIHYAVANMPGAVARTSTMALTNVTAPYGLKIASKGIRSAARHDKALAKGINVIGGKVTYGAVAAAHGYAHTSIDDYLLA	PGPT0020070_1360	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
AK002_01371	2607			hypothetical protein	ATGAAACGTATGCGATGGTTGATTGTCATGCTGGTTCTGATCATAGGGACCGGCACATCGGTATGGGCCGCGGGTATTCCGTCCAAACAAGGGCTGGTGCGAGATACGGCCGGCTTGTTTGATTCGTCGCAGCGGCAGTATTTGAGTAAAATCGCCAAAGGGGAGCAGATCCATGTCTTTGTATTGACGGTTCCGGGTTTGGATGGTCAAAGTCCGACGGATTACGCCAATGCAGCGTACGATGCCTGGAATTTGGACACGGCGGATGTTTTGCTGCTGATTTCTTCGGGAGACCGGAGCGTGGAATTCAATTTTAACAATCCGCGGCTGCAGCAAGCCATCGACGAATGGAGCAGGAATAAGGGGAAGGGTACCGGCAGTTCCGCCATAACCGCCATGCTGGACGCTTATTTCATACCGCATGCGAAGGAGGGAAGTTTCTCGAAGGCCAGCGCGAGCATGATCCACCAGGTCCATCGCCTGGCAGCTCTGCCTGCCGGTGAAGTTCCCGTTCAGGGAGATGATCGTAAGGCCGAAGCGGTATCACCGACACCCGAGAACAAGGGGAATGTCAAAACCACGGATGAAACAACCCGGTCAACGTCCACGGCAGATACTGCCGCTCCTCTGAAGATCGAGCTTCCGAAGCTCCCATGGATTGAAATGGTTGCTGGGGGATTGGGAATCACGCTGATCTTTATGTTGATCAGGGGTTATCTTAAAAAGCGCAAACTGTCCATGATTTCGGAGCAGTTCGCTGAATTGCTGGTCAAATGCAACGCAAGTCTCGAGAAGGTAGGCGCCTATCAGGGGATTGCTCAAGGCAGGACAGGCAGAGCGGTGCAGGAAATCGCAGATCGTTTGTCCGAGTTTATGGTGGCTGCCGCAGAGAGTAAAACCGAGCTGCAGGAGACCCGGATTTTCATCCTGCGTTATGCTTCCATGGATGAAGCCATCCAGCGGTTTTCGAAAATCGCCGATCGGCTGGAGCATGGGATCAAGGCCGAAGATAACCGGATTACCGTCATCGAGCATGCCGATAAAACGGCGAAAGGGAGAACCACGGAGCTGCACGCGGATTACACGGTGCTTAAGCAAACCCTTGACCGGACAGCAGCCGATACGGGATATCCCTTCCCGATCTTGTACCAGGAGCTTGAAGGGCTGGAACAAGATATTCAGCGCGCCGTCGAGCTCCAGCTGTTTGACCCGCTGGAGGCGCAGGAGGTTCTAAAGGCAGCCGAGCAGAAGCACTCCATGAGCAAGAGCAACATCGAAGACGTGGCTGTTTATGTTAAGGAAGCTCATGAATTTTCGGATCAGTCGGCGGCGATTCGCGCCGAGATTGTTAAGATCATAGAGACCCACCAGTTGTATCGGATCAAGGTCCGGCCTTTCGAGCGGCTGGATGATGCAAGGGAGCAGATGAACCAACTGGAAAATTATCTCCGACAAGGGAATATGGGTGAAGTTCGCAAGTCTTCGGAACGTGCGCACGCTATGCTGAAAGAGGCGCTGGGCATGACCAGACGGCAGGCGGAGCTGAGAAGGCAGAATCGAAACGATCTGGATCGGTTGTATGGGCAAATACAACAATTTCATAACGAAAGCTCCGTGCTGCAATCGATGCTGAATCATTGCAGAAGCCAGTATGTGCCGAGGCATTGGCAAAGCTGGGAGCAGGCCTTGGCGAAGGAATCGCAGGAGGTCCGCATGGCGGACGGTAAACTTCCGGAGGCCGAACGCTTGACGCACGACGAGGTGCAGGAGTTCGAAGAGGCGAGCGAGATCATCGAGGACGAATCGATGACGATGGCCCGCGTGCTGCAATGGGTACGGGAAATGAAGGAAACGCTTGAAGGCCTGGATGATCGGCTCCAGGCTGTACGCCATGAATTGGCGGCGGCTCAAGAAGTGTTTGTCAGTCAGCAGAAGACCCTGCAGATTCATAACGTAGTCACGAGCAACCACTCGCTTCTGTTAGGGCTGCCTGATTCATTTTGGAGAAATGTACAGACCGTGGGCGATGCGCTCTCATCCCCGTTGTATGACCTGGATTATCTGGAGAGCGCAGCGAGGAGCTGTACCCAGGAGGCCGAGCATTTTGCCTATGGGGTTCAAGACATTGTACGTCAGAAGGAGGAAGCCGAACGATTATCCGTGCAGGTCGAGCAGCGTTTCAAACAAGTTTCGCGGAGGGCCAGCAGGGGATTCAAGAAAAATTACAAGTCTTATCGGCTCCGGGTCGAGCAGTTGTTTGAGCAGGGGATGTATGCGGAAGCCTCGCATGAACTGTTGAATATCGCGGAATATATCGATCGGGTAGAGAGGGAGATTCGCCATCAGGAAATGCTGGAGCAGCAGCGCAGGGCGGCCCAGCAGCTCCAAAGAGCAGCCGATCAAGCGAGAAGAGCCGCGGCGGACGCCCGCAAAGCGGCAGCGCAGAGCAGCAGCCGGTCATCGGGCTCCAACTGGGGAAGCTCCTCCGGTTCCTCGCATTCCTCGCATTCCTCGGGCGGTTCCGGCTGGGGGGATTCGCCATCCGGAAATTCGTCCGGCGGATCAAGCTGGGACAATAACAATTCCTCCGGCGGATCGAAATGGTAA	MKRMRWLIVMLVLIIGTGTSVWAAGIPSKQGLVRDTAGLFDSSQRQYLSKIAKGEQIHVFVLTVPGLDGQSPTDYANAAYDAWNLDTADVLLLISSGDRSVEFNFNNPRLQQAIDEWSRNKGKGTGSSAITAMLDAYFIPHAKEGSFSKASASMIHQVHRLAALPAGEVPVQGDDRKAEAVSPTPENKGNVKTTDETTRSTSTADTAAPLKIELPKLPWIEMVAGGLGITLIFMLIRGYLKKRKLSMISEQFAELLVKCNASLEKVGAYQGIAQGRTGRAVQEIADRLSEFMVAAAESKTELQETRIFILRYASMDEAIQRFSKIADRLEHGIKAEDNRITVIEHADKTAKGRTTELHADYTVLKQTLDRTAADTGYPFPILYQELEGLEQDIQRAVELQLFDPLEAQEVLKAAEQKHSMSKSNIEDVAVYVKEAHEFSDQSAAIRAEIVKIIETHQLYRIKVRPFERLDDAREQMNQLENYLRQGNMGEVRKSSERAHAMLKEALGMTRRQAELRRQNRNDLDRLYGQIQQFHNESSVLQSMLNHCRSQYVPRHWQSWEQALAKESQEVRMADGKLPEAERLTHDEVQEFEEASEIIEDESMTMARVLQWVREMKETLEGLDDRLQAVRHELAAAQEVFVSQQKTLQIHNVVTSNHSLLLGLPDSFWRNVQTVGDALSSPLYDLDYLESAARSCTQEAEHFAYGVQDIVRQKEEAERLSVQVEQRFKQVSRRASRGFKKNYKSYRLRVEQLFEQGMYAEASHELLNIAEYIDRVEREIRHQEMLEQQRRAAQQLQRAADQARRAAADARKAAAQSSSRSSGSNWGSSSGSSHSSHSSGGSGWGDSPSGNSSGGSSWDNNNSSGGSKW				NA	NA	NA	NA	NA
AK002_01372	561			hypothetical protein	TTGGAAAACATTCTGATTACCGGATATCGAGCCCATGAGCTCGGTATTTACAATAACAAACATCAAGGCATTCCTTATATACGCAAAGCGATCGCCAATCGTCTGGTTCCGCTTCTGGAGGAAGGCCTCCAGTGGGTAATCACCCCCGGCCAATACGGCGTGGACCTGTGGGCCATTGAGGCGGCAATAGAACTAAAGTCCCATTACCCTCACCTGAAATGCTCCATTTTGACGGCGTACCAGAATCCCGAAGAACAATGGAACGATGATAAAAAAGCTTATTTTCAGGAAGTCATGAAGGGGGTAGACTTCTATGCGCCGGTCAGCAAGAGTCCCTACCAGGGGCCATGGCAGTTCACGGCCAGAGACGATTTGCTCCTCCGCAAAACCGATGGCATTCTGCTCGTGTATGACGAAGACGGCGGCGAAGCCAGCCCCAGGTTCATCAAAGAACGCGCGCTGAAGAAGCAGGCCGCGGACGGCTACCGCTTCATCAGCATCGGTTCCGAGGAAATCCAGGCGGTTGCCGACGAAGAGAGCATGTCGCAGGATGATTACTAG	MENILITGYRAHELGIYNNKHQGIPYIRKAIANRLVPLLEEGLQWVITPGQYGVDLWAIEAAIELKSHYPHLKCSILTAYQNPEEQWNDDKKAYFQEVMKGVDFYAPVSKSPYQGPWQFTARDDLLLRKTDGILLVYDEDGGEASPRFIKERALKKQAADGYRFISIGSEEIQAVADEESMSQDDY				NA	NA	NA	NA	NA
AK002_01373	879			hypothetical protein	TTGAAGAAGTGGACGGCAATATTACTAGGGGCAATTTTGGTTATGAGCATGACGGCATGCGGCAAAGACAACAAAGCAGCAGATGATGCCGCAACACCGCCTGCAGCGGAACAAGGGACGACGACTCCGGCAGAGACGCCGCCGGCTAAAGAAGAGCCGAAGGAGGAGGCTTTGCCGACCGCTGACGAGCTTCTTCAAAAATCGGCCGAAGCTTCGAAAAACTTGAAGAGCTTTGCCATGAAAGCCGATGTCAAGCAGCACATCGTTGTTGAAGGCGCAGAGAAACAGGAGCAAAACGTTGATATGTCGCTCGATTCGGAGCTTACGCTAGAGCCGGTGGAGATGATGCAGAACGTCGTGATGGATTCGCCGGAAGGCAAGGTCGAGATGAAGCAGTATATAACGGAAGACGGCATCTACATGCTCATGGATGGTCAATGGATGCAGGTTCCGAAGGAATCGGAGCAAGAGATCCGCGACAGCCTGGATCCGAGCAGTGCGAGTCCTGAGCAGCAGGTAGAGCAATTCAAGACCCTCGCTAAGGACTTCAAAGTAACGGAGGACGGAGACGCATACGTCCTGACGGCGGATGTCTCCGGCGACAATCTGAAGGAGCTTGCCAAGTCTATGATGAGCCAAGCGGGCAACGATCCGCAGATGGAAGCCATGATGGACCAAATGGATATCAAGAGCATTCATATTACTTATGGCGTGCAGAAGGAATCTTACCTGCCTGTAACAACGGATTTGGACATGGTGATGGCAATGGAAGCCGAGGGTCAGAAGGTATCCTTGGATATGAAAATGAAGAGCGCCTACTCCAAGCATAACGAAATCAGCAAGATCGAAGTGCCGAAGGAAGCATTGGAAGCGAAATAA	MKKWTAILLGAILVMSMTACGKDNKAADDAATPPAAEQGTTTPAETPPAKEEPKEEALPTADELLQKSAEASKNLKSFAMKADVKQHIVVEGAEKQEQNVDMSLDSELTLEPVEMMQNVVMDSPEGKVEMKQYITEDGIYMLMDGQWMQVPKESEQEIRDSLDPSSASPEQQVEQFKTLAKDFKVTEDGDAYVLTADVSGDNLKELAKSMMSQAGNDPQMEAMMDQMDIKSIHITYGVQKESYLPVTTDLDMVMAMEAEGQKVSLDMKMKSAYSKHNEISKIEVPKEALEAK				NA	NA	NA	NA	NA
AK002_01374	969			hypothetical protein	ATGAAAACCGAACAAGAGCCGCAGCCGGATTGGATGCAGGAGCTTGCTTCCCCTCCGTTCAACGAGCCGATGTTCACCGCGAAGATGAAATCCGATGTATCGCAGAGCGCCGCAAACGGCTCCTTAAGCCTTAAACGACGAAGAGCTCCAGCGCGTCTTATCAGCATGACCGCGGGCGTATTGGCGCTGCTTCTCATAGCGGCGGCGTGGGGATGGCGCGAGTCCCCTGCGCTTCAACGGATGATCCCCATCCAGGGCTGGGGATACGCTGCCAAGTGGACTCCCCGCAGCGTATACACGGTGGATGGCGTGGATAAGCTTCAGGTTTTTCCGGGCGGGGAAACTGCAGCGGGCTCTCCGGCCGGAGCCTGGTGGAATTTATTAACCCCGATCCAAGAGCTTGAAGGGAAAACGATCAGCATATCCGCCGTTCACCGGGATACGGGAACTACCATCGAGGAGCTTGCCGAGACAGAGATTACCTCCGATATGGCTTACAATGACTTGACGCGAGTTTCTTCCCGCTTCGCTCTGCCGCTTTCCGGTTTATGGCGTTTCGACGTGATGGTGGACAACGAAAAATATGGCGATATCGTTATCGATGTTCCGGATGGCAGCTGGGAGCCGAGCCCGAGCTTCGTGTCCGGCAGTTATGCCATGACCGGCGTCGAAGGACGATTGGGCTTTATACACTCAGGCCTTATCGCTGGCAAGCCGAACAAATACATGTGGCATTTCTGGGGGCTTGACGAAGAATTAACGGGGGAGCTGGTCATCACCGCCGTGAAACAAAATTCGTCCGAAATCATCGATGTATTTAAATCTCGCGTCGCTCCTTATCCTCATAATGGTGCCGATGCCTCATTGCCGACAACGATGTTACTTCCTTCGCCTGGACTTTGGCGCATTACGGTCTCGATCGACGGTCAATTGTTCGGCAGCGTCATTGTCGAAGTTGCTAAACCTTGA	MKTEQEPQPDWMQELASPPFNEPMFTAKMKSDVSQSAANGSLSLKRRRAPARLISMTAGVLALLLIAAAWGWRESPALQRMIPIQGWGYAAKWTPRSVYTVDGVDKLQVFPGGETAAGSPAGAWWNLLTPIQELEGKTISISAVHRDTGTTIEELAETEITSDMAYNDLTRVSSRFALPLSGLWRFDVMVDNEKYGDIVIDVPDGSWEPSPSFVSGSYAMTGVEGRLGFIHSGLIAGKPNKYMWHFWGLDEELTGELVITAVKQNSSEIIDVFKSRVAPYPHNGADASLPTTMLLPSPGLWRITVSIDGQLFGSVIVEVAKP				NA	NA	NA	NA	NA
AK002_01375	519	sigM_2	COG1595	ECF RNA polymerase sigma factor SigM	ATGGTAGCCGTGAATGATCCAAGCACGCTGCTGAGCGGCTGGATGGAGTCCTTCGGCCAGGACGTGTGGAACTATGCGTTCTTCTTAACGAAACGCAAAGATGCGGCGGACGATATCAGTCAGGACGTGTTCCTTAGGGCTTATAAGCACTGGAATGATTTTGAGGGCCGAAGCTCGGTCAGAACGTGGCTGTTAACCATCACCCGCAATCTTTCCCTGAACTATCTCAAATCCTCCTTCATGACAAGGGTGTCTTTAACCGGCTGGATCACCTCCAAGCAGACCGAGCCTTCCGCGGAAAAAGAGTTCATGGATGCCGCGGCCGTTTCGCAGATCTGGAAATGCGTGATGGAGTTGCCGCCCAAATACCGGGAAGTGCTGATTCTGGAATTCCACTATCAGCTGCCGCGAAAAGATATGGCCCAGCTGCTCGGCCTATCCGAAGGAACGATCAAGTCCAGACTGCACCGGGCGCGCGCCCGGATGGAAACGATGTTGAAAGGAGCGGATATCCCATGA	MVAVNDPSTLLSGWMESFGQDVWNYAFFLTKRKDAADDISQDVFLRAYKHWNDFEGRSSVRTWLLTITRNLSLNYLKSSFMTRVSLTGWITSKQTEPSAEKEFMDAAAVSQIWKCVMELPPKYREVLILEFHYQLPRKDMAQLLGLSEGTIKSRLHRARARMETMLKGADIP	PGPT0014960_11076	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_01376	504			hypothetical protein	ATGCATTTGTATTTTAAGGATAACTTTTTTAGCTCGGGGATGACAGATATTATGGATAGGGAAGGCCGTGTAATAGGAAGCTTGGACTTGAAGAGTGTTTTCGGCTCCTCGCTGGACGTGTATAACGCCGGGGGAGAGACCGTATGCAGCGGCTCGTTCCGATTCTTCTCGAACAAATGGAATATCACGGGCGGCAATGGGGAAGAACTGGGTCTGCTGCGCATGCGGATGAGTTTCTTTACGAAAAAATTCGAATACGATGCGGGGGCGCGTGGCGTGTATGAGATCACTTCGCCTGCCTTTTCCAATGAATATGAAATAACGGATGAGGCCGGAAGGGGCATCGCCCAATTTTCCCGCATTAGCGGCTGGCTCCAAGCCGGAGCCTATCAGCTGCAGAATGAGAGCGATGTTCTCGATGACTGGGAGCTCGTTGCCGTCGTGATGGGGATTCACCAAATACGCAAACGCAACAATAGCGCTGCCGCATCGAGCTCTCATTAA	MHLYFKDNFFSSGMTDIMDREGRVIGSLDLKSVFGSSLDVYNAGGETVCSGSFRFFSNKWNITGGNGEELGLLRMRMSFFTKKFEYDAGARGVYEITSPAFSNEYEITDEAGRGIAQFSRISGWLQAGAYQLQNESDVLDDWELVAVVMGIHQIRKRNNSAAASSSH				NA	NA	NA	NA	NA
AK002_01377	516	mug	COG3663	G/U mismatch-specific DNA glycosylase	ATGGACGAAGTCAGCGATCATCTGGATTATGGATTAACCCTTGTATTTATCGGCTTTAACCCGAGTCTGCGATCGGGCGAAGTGGGGCACCATTACGCAAACCCGCGCAACAATTTTTGGAGGATACTGCATAAGTCCGGTTTGACTCCACGCTTATATGAAGCCGCAGAGGACGGGGAACTGCTTAAACTGGGTTATGGATTCACCAATATTGTAGCCAGGCCCACCCGAGGCGCGGAAGACATTACCCGCGAAGAGTATAGGCTCGGAAGAGAGACGCTGCGGAAGAAGCTGGAGGAATACAGACCGGAGGTTGCCTGTTTTGTCGGCAAGGGCGTGTATACTGAATACAGCGGCAAGGCCAAGGCGGACTGGGGAATCCAGCCGGACTCCGTCGTAGACGGCGTCCATGAGTTTGTAGCTCCATCGTCCAGCGGGCTGGTGAGGATGCCCATGGATGAAATTATCGGAATTTACAGGCAGCTGCATGATTGGATATCGAGGAACAAGTTCTGA	MDEVSDHLDYGLTLVFIGFNPSLRSGEVGHHYANPRNNFWRILHKSGLTPRLYEAAEDGELLKLGYGFTNIVARPTRGAEDITREEYRLGRETLRKKLEEYRPEVACFVGKGVYTEYSGKAKADWGIQPDSVVDGVHEFVAPSSSGLVRMPMDEIIGIYRQLHDWISRNKF				NA	NA	NA	NA	NA
AK002_01378	858	mqnD	COG2107	1,4-dihydroxy-6-naphtoate synthase	ATGAAAATCGCTTTTTCCCCTTGCCCCAACGACACATTTGTCTTTCATGCCTGGGTTCACGGTCTTATTCCCGGTGCTCCCGAGCTTGATGTATCCTATGCGGATATCGATATCACCAATCATTGGGCGGCCGAGGATCGGGAACATGACATCTTGAAAATATCCTATGCCGCGCTGCCCTGGGTGCTGGATGAATACGCCCTGCTGCCCTGCGGGGGAGCGCTCGGCCGCGGTTGCGGGCCTCTCGTTCTGACGGCGGACAAGCTGACGGACGGAAAGACCCCGGACAGTCCGGCTGCGTTGTCCGGCCGGCGGGTAGCCGTTCCGAGCGAGCGCTCCACGGCTTATCTGTTGTTTCGCCTGTGGGCCGCCCAAAACGTACCCGGAGGACTCGGCGAAATCGTGGTGATGCCGTTTGACCAGATCATGCCGGCTGTCCGCGACGGTGCCATCGATGCCGGGCTGGTCATTCACGAAGCGCGATTCACTTACCCGTCCTACGGATTGAAGCTGATGACCGATCTCGGCAGCTGGTGGGAATCCGATACGAATCTGCCGATCCCGCTGGGAGCCATCGTGGCCCGCAGGTCGCTGGATCTGGCCAGCATCTCGAGCTGGATCCGCTCCTCGGTCGAATACGCCTGGGAACATCCCGGGGAATCCCGGGATTATGTCCTCCGGCACGCACAGGAAATGGACCCGGACGTCGCCGATGCCCACATTGACTTATATGTCAATCCATTTACCGCGGAGCTGGGCGAAGACGGCTATGCAGCAATTTCCGCCCTGCTGAACCGCGCAGCCGATGAAGGGCTCGTGCCGCGGATCGATCCCGCGCTGCTGAAACGTCCGGAATAG	MKIAFSPCPNDTFVFHAWVHGLIPGAPELDVSYADIDITNHWAAEDREHDILKISYAALPWVLDEYALLPCGGALGRGCGPLVLTADKLTDGKTPDSPAALSGRRVAVPSERSTAYLLFRLWAAQNVPGGLGEIVVMPFDQIMPAVRDGAIDAGLVIHEARFTYPSYGLKLMTDLGSWWESDTNLPIPLGAIVARRSLDLASISSWIRSSVEYAWEHPGESRDYVLRHAQEMDPDVADAHIDLYVNPFTAELGEDGYAAISALLNRAADEGLVPRIDPALLKRPE	PGPT0009450_329	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009450-mqnD-K11785	NA	NA
AK002_01379	711	mqnB	COG0775	Futalosine hydrolase	ATGCAGGAACATACCCAATCCAACTCGGTAGATACAATCGAGTCATATAGCTCGGCCCCGCATTCCTCCAAACGCGTGCTTATCATCACGGCGGTTGATGCCGAAAAAGATGCCGTGTTGCGCGGGCTAAAGAATGCGTCCGGATTCGAGGTTATCGCGGGCGGAGTCGGTCCGGCGGCCACGGCTGCCGCCACTGCCCGCCGGCTGATGCAAGCCTCCTACGATTTCGTTGTCAGCGCAGGCATCGCCGGAGGTTTTGCCGGTCAGGCTGAGGTTGGCTCCATCGTCATTGCGGACCTCATCCTTGCGGCGGATCTTGGATCCGAAACCGAAGACGGCTTCACCAGCGTTCAGGAGCTCGGCTTCGGAACGGATCGGATTCCGGTCGATGCTGCCGCTGCCGGCAAGCTTGTCGAGGCCTTGGAGGATGCCGGCGCCGCCGTGACCCTTGGTCCCGTGCTGACCGTATCCACCGCGACGGGAACGGCAGTGACGGCCGCCAGCCTTCTCCGCCGAGTGCCGAACGCCTGCGCCGAAGCGATGGAAGGGTTCGGCGTAGCCACCGCTGCCGCTGCAGCCGGGGTACCCGTGCTTGAGATCCGTACCATATCCAATCAGGTCGGTCCGCGGGACCGCGGCGCATGGAAGATCAAGGAGGCGCTGCAGGCGCTTGAGACAGCAAGTTCATTACTACCGGAGGTGCTACGATGA	MQEHTQSNSVDTIESYSSAPHSSKRVLIITAVDAEKDAVLRGLKNASGFEVIAGGVGPAATAAATARRLMQASYDFVVSAGIAGGFAGQAEVGSIVIADLILAADLGSETEDGFTSVQELGFGTDRIPVDAAAAGKLVEALEDAGAAVTLGPVLTVSTATGTAVTAASLLRRVPNACAEAMEGFGVATAAAAAGVPVLEIRTISNQVGPRDRGAWKIKEALQALETASSLLPEVLR	PGPT0009435_151	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009435-mqnB-K11783	NA	NA
AK002_01380	591			hypothetical protein	TTGCGGAAGAAGGGTGCGAACGGACAAGAAAGCCGGGCAAGACTACTGATTGTTGCCGCCAATGAATTTGCGAAGTCAGGATACCATCAGACCAAGATCAGCACCATCGTTTCCCGGGCAGGATTGACGCAGCCGTCATTCTATTTGTATTTTGAGAGCAAAGAGGCGATTTTCAGGGAACTGATGGAGAAATTTCGTTCGGAGCTTAAAGGCCTGATCGAGGGAAGCCGGTTGGAGAGCGGAATCGATGAGGCTCATGTGACCGGGCGTTTGCTTGGCGTGCTTACGGGATTGTTCACGTTTCTTGGCAAGGACCCGGATTTGACGCAAATCGGTTTTTTCATCGGGGATGATTCCGCCATCGTAAAGGCTGAAATGGCAGCCATGATCGAGCAAAATCTGAAGGGAGAGCAGCAGGACGGGTACTTTGATCGTGATTCCGACATGCACATCGTTGCGGAGTGCCTGGTCGGCGTCATCGAAAGGCTGACCTCCCAGCAGCTGCTGACAGGCAAGCGGACTCCTGAGGATCTTGCGCGTCACGTGGTGAGTTTATTTATGCACGGCATTAGCATCTATCCGGCTAAGTGA	MRKKGANGQESRARLLIVAANEFAKSGYHQTKISTIVSRAGLTQPSFYLYFESKEAIFRELMEKFRSELKGLIEGSRLESGIDEAHVTGRLLGVLTGLFTFLGKDPDLTQIGFFIGDDSAIVKAEMAAMIEQNLKGEQQDGYFDRDSDMHIVAECLVGVIERLTSQQLLTGKRTPEDLARHVVSLFMHGISIYPAK	PGPT0023505_171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_LIPID_DEGRADATION	PLANT_PHOPSHO-|LIPID_DEGRADATION,PGPT0023505-ysiA|fadR-K13770	NA	NA
AK002_01381	1008			hypothetical protein	ATGAAGAAGATGATGCTGGTGTACGGCGCCCTTATATTGGCTTTTCTCACCTATGTGTTCATGTACAGGCTGGAAGACAAGCGCTCCTCGGCCTGGGAGGAAGGCGGGCTGCACGGCAGCATGGGCGAGAATTACGTCATGGTCACATTTCAATCCGGGATGGAATATTGGAAAAATATATTGAAGGGCTTCGAGGATGGAGGGGATGCGCTCGGCGTAACCGTCGATTATCGCGGGTCCACGCAATATGACGTGGAGGAACAGATTACCGTTCTGGAGCAGGTCATCGCGAAGCGTCCGGCCGGCATCGCCTTGTCGGCCATCGATTCGAAGGCGCTGACGTCTACGATCAACAAGGCCGTGGATGCCGGGATTCCGGTCGTCCTGTTCGATGCGGATGCACCTGACAGCAAGGCGTATTCTTTTCTTGCAACCAATAATTACAACGCAGGGGTTGCGGCCGCGGACAAGATGGCGCAGCTTCTCGGCAGGGAAGGGGAAATCGGAATTGTGACCCAGCCCGGGCAGCAGAACCATGACGACCGCTCGGAAGGCTTCCGGGACACGTTGGCGCAGAGATATCCTTCCATGTCCGTGGTGGAGGTCAGGGAAGGGAAAGGGGACACTCTAGTAGCCAAAGAGGCTGCCGCGGATATGCTGGGCAAGCACCCGGATCTCAAGGGGATTTTCGTGACGGAGGCCAGCGGCGGAATGGGCGTGGCGGATGCCGTTATCGGCGCGGGTAAGGCGGGCCGGGTGACCATCATTGGATTCGATACGAACAAAGGGACGCTGGACCGGATTTCCGACGGAACCATCGCGGCAACGATCGCTCAGGGGACGTGGAATATGGGCTACTGGTCCCTGCAGTATTTATTTCACCTGCATCACGGACTTACCGTACCGGCCCCGACGCTCGGCAATGATGTATCCCCGCTTCCCGTGAGGGTGGACACCGGGATCTCGATTGTGACCCGAGAGAATGTGAATGATTATTATGCGAAATAG	MKKMMLVYGALILAFLTYVFMYRLEDKRSSAWEEGGLHGSMGENYVMVTFQSGMEYWKNILKGFEDGGDALGVTVDYRGSTQYDVEEQITVLEQVIAKRPAGIALSAIDSKALTSTINKAVDAGIPVVLFDADAPDSKAYSFLATNNYNAGVAAADKMAQLLGREGEIGIVTQPGQQNHDDRSEGFRDTLAQRYPSMSVVEVREGKGDTLVAKEAAADMLGKHPDLKGIFVTEASGGMGVADAVIGAGKAGRVTIIGFDTNKGTLDRISDGTIAATIAQGTWNMGYWSLQYLFHLHHGLTVPAPTLGNDVSPLPVRVDTGISIVTRENVNDYYAK	PGPT0015740_2590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
AK002_01382	1944			hypothetical protein	ATGATTATTATGCGAAATAGCAGAGTGGAATCCTGGCGCGAGGGCTTTTCGCATTGGCTGCGGTTCGGGGATTTGCCGCTGAGGTACAAGCTGGTCATCCTGTTCCTCATGGTTGGAATCCTTCCCTCCATCGCCCTTGGCGTTCTTGTCAATTGGACGGTAAACCGCATTGTGGACCAGCAGGTAACCTCGAATACCATTCAACTGATCGGAAAGGTCAACCAAACCTTGGACAGTGATATGGAGAATCTTCAGAACATTACGTATTTGATCGGCTTCGATCCTCGCACGGAACGGTTTCTGCAAGGGGACATTCAAGGCGATAAGCCTGCGGCAGGAGCCGATATTCCTGCGGGAACCTACATCCCGCAAACGTCCTTGGTCAAGCAGGATAATGAGGAGAATTACGAGATTAAGCGGTACCTTCAAGGCTTCACGACGCTGTATCCGGAAATCGCCTCCATTCTTCTGGTCAATCGCGAAGGAGCCTATATCAGTAACGAAATGTATGCACGAAGTCCGGCGAGTTTGACGGAGGAAGAATGGTACCGCGAGGCTGCTTTAAACGAAGGGATCTTTACCGTACTCGGCCATCCGGCAGACCGTAACGTCACCACCCATGTTCATTACGGCAACGAGGAGCTGGTGTCGGTCGTACGCTCGTTTGTGGATCCGGATACGAGGGAAGTGACCGGCGCGGTATTGATCGATTTGAAGCTGCGGGCGGTCGCTAGGACGGTCCGGGATGTGACGCTCGGAAAAAGCGGTTATTTGATGGTGGCAGAGGCTGGCGGCTCCAGCATTTATACCCCGGAGGATTCCATCATTCCGTCCATTCCGCCTTCGTGGTTTCCCGAAGAGGACAGCGGCGCTTTGATTCGCGAGGTGAACGGGGAACGGCTGCAACTGATATACGGCACCTCCTCCTTTACCGGCTGGCGGACGATCGGCGTATTTCCAACCAGCGAATCGGTCTATGAGGTGCGGGAGATTCGTTTTTATATGATCTGTTTCTTGTTTGTGGTGTGCTTGTTTGGGGTAACGGCGTCTTACACGCTTTCGCAGTCCATATCCAGGCCGATCTGGCAGCTTATGTCCTTCATGCAAAAAGCCGAATCCGGGGATTTGACGATCCGCTACTGGGGAAACCGGCAGGATGAGGTGGGCATGCTTGGCCGCAGCTTTAACCGCATGCTCCAGCAGATCCGCAAGCTGATGAAGCTGAGCGAGCTGCGGGAGAGGCAGAAGCGCGAGGCGGAGCTGCGCAGCCTGCAGGCGCATATTAAGCCGCATTTTCTGTACAACACGCTGGATACGATTCATTGGATGGCTCGCAAGAAAGGGGCGGACGATGTATCGGATCTGGTAGAGTCCTTATCGCGGCTGTTTCGGGTCGGGCTCAGCAAAGGCGATGATATCATTCCCATGTCCGACGAATGGACGCATATCAGCAGTTACCTGCAAATCCAGAAGACGCGTTACCGCGACAGGCTGCAGGTTGAGATGGAGATTTCGCCTGAAGCCGAGAGACTGTACGTCCTGAAGCTGATTCTCCAGCCGATGGTAGAGAACGCGATATATCACGGAATTAAGGCCCGAAGAGGCCCGGGGCGAATCTGGATCCAAGCGGATGTTGAGGAAAATGTGCTGGTGCTTGCCGTACGGGACGACGGAGCAGGAATGCCGAAGGAACGGCTGGAGGCGCTTCGCAGGCAGCTTGCCGATCCGGTAACGGCCATGGAGGCGACCCCGGTAGAAGGGCCGGGAGGAAGCCGCAGCTACGGTATGCTGAATGTGCAGGCCCGTATCAAGCTAACGTTCGGGGAGACGTACGGAATCACGATTGACAGTATAGAGAACGAGGGAACCACGGTACGGATTACGCATCCGCTGCTGCATGCCGTTCCTTCGTCCTCCGATCATGATGGGAGAGACTCACGATGA	MIIMRNSRVESWREGFSHWLRFGDLPLRYKLVILFLMVGILPSIALGVLVNWTVNRIVDQQVTSNTIQLIGKVNQTLDSDMENLQNITYLIGFDPRTERFLQGDIQGDKPAAGADIPAGTYIPQTSLVKQDNEENYEIKRYLQGFTTLYPEIASILLVNREGAYISNEMYARSPASLTEEEWYREAALNEGIFTVLGHPADRNVTTHVHYGNEELVSVVRSFVDPDTREVTGAVLIDLKLRAVARTVRDVTLGKSGYLMVAEAGGSSIYTPEDSIIPSIPPSWFPEEDSGALIREVNGERLQLIYGTSSFTGWRTIGVFPTSESVYEVREIRFYMICFLFVVCLFGVTASYTLSQSISRPIWQLMSFMQKAESGDLTIRYWGNRQDEVGMLGRSFNRMLQQIRKLMKLSELRERQKREAELRSLQAHIKPHFLYNTLDTIHWMARKKGADDVSDLVESLSRLFRVGLSKGDDIIPMSDEWTHISSYLQIQKTRYRDRLQVEMEISPEAERLYVLKLILQPMVENAIYHGIKARRGPGRIWIQADVEENVLVLAVRDDGAGMPKERLEALRRQLADPVTAMEATPVEGPGGSRSYGMLNVQARIKLTFGETYGITIDSIENEGTTVRITHPLLHAVPSSSDHDGRDSR				NA	NA	NA	NA	NA
AK002_01383	1221	rssB_12		Regulator of RpoS	ATGAAGAAAGCGTATCAAGTCTTGATTGCCGACGATGAGCCGATTATCCGCGAAGGGATTCGGGATGCGGTCGACTGGGGGGCACTCGGCATGGAAGTGGCTGCCGAAGCGGAGGATGGCGAGGAAGCGCTGGAGCTTGCGCTCAGCCAGCCGATTGACATTATGCTGGTCGATATGAATATGCCGTTCCTGGACGGCATCGGGCTCATGAAGCGAATGAAGGAAGAACGCCCCGCATGCCGGTTCGTCATTATTACCGGCCATGACGAATTTGCTTATGCGCAGGAAGCGATCCGGCTTGGCGTTAAGGATTATATATTGAAACCGGTAAATGCGGAGCACCTGATCCAGGTGCTCGGGAGCGTTCGGGATGAGCTGAACGACCATCAAATCCAGGAAAGCTACCTGAAGAAGGCGTCGGAGCAAATCGAGAAGAACATTCCGCTGCTGCGGGAACGGTTCTGCCTCGAATGGATGCATGGCCTGCTGGATGAGGAGGAGGCGATCGAGCAGCTGGAGTTCCTGGGACTGCCGCCTTGCCGTCCCACCCGGATCGGCATTGCCAGATGGCCGGAGATGACGGCTCCGCAGCCGTTGATGAAGGAAAGCGACCGCCAGCTGTATCTGTTCGCGATGGAAAATATAATCGCCGAGCTGTTTCATCCCGCACCCTGCGTTTTGTTCCGGGACCATACCGGCTGGATCGGCATTTGCTGCTGGGGAGAAGCGGATATAGAGATTGCGGCCGATGCCGAGCAGTTGATCCAGAAGTACTTGAAGCTGGCCGTGAATGTACATCTGGAGCCGGTTTCGGAAGGGGCGGACGGCGGCGCGGTTGCGGCCGCCTACGAGGCTTGCCGGGAAGGGGTATTCAAGGAGGCGCAGCTGTCTCCGCTGGTACGGCGTGCCCGGCAGCTCATCCAGGAACAGTATGCCGTTCGGGAGCTGACGCTGGAATCTTTCGCCCAGGCCCTGCAGGTATCGCCGGTCTATCTGAGCCGGACGCTAAAGAAAGAGCTGGGCACGTCCTTTATCACGCTCATGACCCAGACGAGGATTCAGAAAGCGATCCAGCTGCTCAACGCCACCGAGCTGAGCATCCTGGACATCGCGGAGAGGGTGGGGTATGACAGCCAGCATTATTTCAGCACGGCCTTTAAGAAGGTGATGGGGGTGTCGCCGAACCGGTACCGCAAAGGGGCGGCGGTTCTGGAAGAATAG	MKKAYQVLIADDEPIIREGIRDAVDWGALGMEVAAEAEDGEEALELALSQPIDIMLVDMNMPFLDGIGLMKRMKEERPACRFVIITGHDEFAYAQEAIRLGVKDYILKPVNAEHLIQVLGSVRDELNDHQIQESYLKKASEQIEKNIPLLRERFCLEWMHGLLDEEEAIEQLEFLGLPPCRPTRIGIARWPEMTAPQPLMKESDRQLYLFAMENIIAELFHPAPCVLFRDHTGWIGICCWGEADIEIAADAEQLIQKYLKLAVNVHLEPVSEGADGGAVAAAYEACREGVFKEAQLSPLVRRARQLIQEQYAVRELTLESFAQALQVSPVYLSRTLKKELGTSFITLMTQTRIQKAIQLLNATELSILDIAERVGYDSQHYFSTAFKKVMGVSPNRYRKGAAVLEE				NA	NA	NA	NA	NA
AK002_01384	6840			hypothetical protein	TTGCGCAGATTGAAAAAAATCGCGATGCTTCTGCTCGCATTCCTGATGATCGTGCCTAATCTGCCGCAGCCGGCACATGCCGCATCCGCGGCGCCCGCCGGCATCAAAGGAATCGGAGCGGGATACCTTCATTCCTTGCTGATTGCCGGAGACGGCACGGTTTGGACGATGGGGGACAACAGTGCGGGAGCACTGGGCAACGGCACAACGGCAAAGTCGTTTCGGCCCGTTCCGGTGACCAAATTCGACGGTACGCCCCTGGGAAACGCGAAGTTCGTCACGGGCGGAGGCTATTTCTCGGTCGCGCTGCTGAACGACGGTACGGTATGGGCCTGGGGCAGGGGAACCTATGGACAGCTGGGGAACGGTGCATCGGATGACCGGCATCGTGCCGTCCAGGTGACGGAGTCCGGCGGGGGGCCGCTAACGAGTGTACGCAGCATCGCCGCGGCTTACGACCATGTTCTGGCCATCAAGGAAGACGGATCGGCTTGGGGATGGGGTTCCAATTCAAGCGACATGCTTACCGATTATTATGACATCAGCAACCCCCGAGCCGTACGCATCAAGGCGTCAAGCGGATCCTATCTCAACGATGTGAAGGCCGTAGGGGCAGGCGATTACCATTCCGCAGCGCTGCTGAACGACGGCACGGTATGGGCCTGGGGCTTCGGAGGCTTTGGAGGGTTGGGCAGCGGGTCAACGGCCGACTCCGTGTATCCGGTACAGGTGATCGATTCCTCCGGACAGCCGTTAACCGGCATAGCCGATATCCAAGGCAGTCGATTTGGCGGCATGGCTCTGAAGGGAGACGGCACCGTTTGGGCTTGGGGATACAATGAGAATTTCAACTTGGGCAACCCGGGGCTGACTTCTTCCAACACGGCGATTCAGGTTCAGCAGACGGGTTCCGGACCGCTTACGGACGTGGTCCGGATATCTGGCGGCGGCCGCTTGAGCATGGCTCTGAAAAGCGACGGAACCTTGTGGTGGTGGGGCATGCAAAACCGGAACCTCCAAGTCGCGACAAAACTGCTCGGCGACGCAGGTCAATTCGCTGCGGGTGACAATCATGCCCTTGCGATTAAAGCGGACGGTACCGTATGGGGCGCGGGCTGGACCAGCAAGGGAGAACTGGGCATATCGGATGCCAGCCCTTTGGTATATTACACGTCTGCGCTGCAAGTATATCCGGCCCGGACGCAAATCAGCGCCAGTCCCGCTTCCATCGACGCGGACGGGACCAGCAAGACGACGGTCACCGTAACGCTCAAGGAAGGAAGCAATTATAACATCGGCAGGAGCGAAGGGACCGTTCAGCTTAGCACGACAGCGGGCACGCTCGGTCCGGTCACCGATCACGGGGACGGGACGTATACGGCTGAACTGACGTCGTCCAAGACGACCGGAACCGCAACGATTACGGGCATCATTAACGGTTATCCCATGAGCGCAAGCGGCACGGTAAAGTTCAATCCGCTTGGCGCTTCGGCCGTCACTTCAACGGTCACCGCGAGCCCGGCATCGATTCCGGCGGACGGCAGCAGTGTCTCCACCGTGACGGTGCAGCTGAAGGATAGCAACGGAAATCCGTTGACGGCGAGCGGCGGCGCCGTGCAAATGAAGACGACTGCCGGTACGCTGTCCGGCGTGACGGACCGGAAGAACGGGACGTACACGGCACAGCTGAAAGCGCCCGTTTCCGTCGGTACGGCAACCGTAACGGCGGAGCTGGGCGGAACGCCGATCGCGCAGAAGGCAACGGTCACATTCGTCCCGGGAGCCGCATCGGCTTCGGCATCCACGATCAACCTGGGGCAGAACACGCTCACGGCTGGAAGCGGAAGCACGGCGGTGACCGTCCGCTTAAAGGATGCGCACGGTAATCCGCTGGTGTCCGGAGGCGACACGGTAACGATCCAGTCCTCGCACGGCACGGCCGGGAGGGTAACCGACCATGGGGACGGGACCTATACAGCTGTGCTGACGGCAGGCACGGCCGCCGGCAGCGGGACCGTCAGTGCCGCGGTGAACGGGGCGGCGATGCAGCAGAAGGCCGCGATTCAGATTCTTCCCGCGGGAGCGTCTACGCAAACCTCGGAGCTGTCGGCGGCTCCCGTCTCGATCGTTGCGGACGGCAGCAGTAAAACGATGCTGACGGTACGGCTCCGGGATGCCTACGGTAACGCGTTGACGGCTTCCGCAGGTACCGTGTCCATGAGCACAAGCGGCGGCACCATCGCGGCCGTGTCCGACAAAGGCAACGGAACCTATACCGCAACGCTGACCTCGGCCTCCACGACCGGCACCGCTGAAGTATCGGCCAGATTGAACGGTTCATTGATCAAACAAACGGCCGTGGTCTCGTTCGTCCCGGGGGCCGCCTCCGCGGACAAGTCCAGCCTAGCCTCTGCTTCAGGCAGTCTCCAGGCCGGATCGGGGACCACGACGTTAACCTTAAAATTGAAAGATGCGCGAGGCAATGATCTCGTGACTGGCGGCGATGCCGTGACGATGCAGGCCAGCATCGGCTCGATCGGTTCCGTTGCGGATCAAGGCAACGGAACGTATACCGCGACGCTGACGGCGCCGACGGCAACGGGCATGTCGGTTGTATCGGCATCGGTTAATGGCGTGAGGCTCGCGCAAACGACGAACGTAAGCATCGTGCCCGGCCCCGTGTCTCTGTCGGCCTCCACGATCAGCGCCGCGAACGCAAGCGTTCCGGCTAACGGAACCGGCACGACCAGGGTTACCGTGGAGCTGAAGGATACGCATGGCAATCGTTTGACTGCTTCGGGCGGTACCGTAACCTTGTCGGCTACTGCAGGCAGCCTGAGTGCGGTAACGGATTACGGCGACGGGACGTACAGCGCGACCTGGACGGCGCCGACGACCGCAGGAACCGCAACGGTGTCGGGTTCTGTCAACGGCTCGGCACTTGCCGGCAAGGCAAGCCTGAACTTCGTTGCGGGGGCGGCATCGCCGTCAGCGACGAGCTTGTCGATCAACCCGGCCTCGATTACGGCAGACGGAGTCAGTACGGCTGTCATTACGGTCCAAGCAAAGGATGCCTACGGCAACCCGGTGACGCAAGGTGGCGACGCGGTATCCGTCGAAACAAGCGGAGGCACGCTCTCCGCCGTCATGGACCGCGGTAACGGTACTTATACGGCTACCGTTAAGGCGCCGACGACTGCCGGCAAGGCCGTCGTCCGGGCTGAGCTGAACGGCAAGACCGTCACGCAGACGGCGGACATCGTGTATGTTCCGGGCGCCGCTTCCCCGGCAACATCGCTCCTCACAGCGGGGGCGTCCGCTCTACCGGCTGACGGGTCAAGCACAACGGCGCTGACCGTGCAGCTGAAGGACGTCTACGGCAACAACCTGACGTCCGGTGGCGACAGGGTGAGCCTGAGCGCGACGGCCGGCTCGGTCGGGGCGGTAACGGATCATGGCGACGGCACATACTCGGCCGTGCTTACGGCACCGACGGTTGCCGGTCCGGCAACGATCACCGCGACGATAAACGGTGCGAAGCTATTGCAGACCGCGTCCGTTGACTTTGAAACCGGAGCGGCTTCGGCGCGCGAATCGCTGCTGACGGCAGCATCCCCGGCGATGCCGGCTGACGGCGCCAGCACAACAACCGTGACGCTGCAGCTGAAGGATGCCTTCGGCAACGAATTGAAGACGGGCGGTGATGCGGTTGTGTTAACCACGACGGCCGGAACGTTAGGCAGCGTTCAAGACCATGGCGACGGCACGTATTCAGCCATGCTGACGGCCGGTACGGTTTCTGGTTCAGCCGTCGTATCGGGTGCCGTAAACGGCGTGCCGTTGGAGCACCCTGTATCGGTGGATCTTCTCGCCGGGGCGGCATCCGCGGCCGAATCGATTATCGAGACGGACAGCAAAGCAATCACCGTGGGCGGCAGCACGTCAACGGTTGTCACGATTCGGCTGAAGGATGCCTTCGGCAATGCGTTGACCGCTGGGGGCGACAAGGTCCTGCTGCAGACGACGGCCGGAACGCTGGGTCTGATGACGGATCATCATGACGGTACGTACACGTCCATATTGACGGCTGGCACGGCGGCAGGCGAGTCCGTCATCACGGGAAGTGTCAACGATGTGCCGCTGGTGCACACGGCGTCGGTGCAGTTCATGCCTGGCCCGGCTTCGGCGGACCAAACGATATTGTCAGCCGACCGGGCAGTCGTTACCGCTGACGGGCTAAGCCGTTCAAACGTGACGGTACAGCTGAAGGACACTTACGGAAACGAGCTCCGCTCCGATGCCGGATCGCTCCAGCTTAAGCTGGCGTCGACGCTTGGCCTGCTGACGGAGCCGAAGTACGAAGCGGATGGCCGTTACACGGCCGGCGTTGCATCGAATAGGGCCGGAACAGCCGTCATTACCGGAACCTTGGACGGCATTCGGATCACCTCGGCAGTGACGGTATCCTTCGAGCCGGGGGAGCCTTCGGCGCTTCGCTCGACGGTCGATGCGGACCGGACCGGGCTGACAGCCGACGGCATGCAGTCCGCACGGATTACGGTGCAGCTGAAGGACGCCGCGGGCAATACGATTCCGGATGACGGCGGGCCCGCGGACATTCGGATTCATTCCTCGATCGGCACCGTTTCCGGGTCCGTATACGAGGCCGAGGGGCGGTACACGGCCTCGCTAATCTCCACCGAGGCCGGCATCGCCATCATTACGGCATCCGTGGAGAATAGCGAGCTCGCAGACACGGCTAAGGTCGAATTTCTGCCGGGTCCCGCTTCGGCCGCCGCTTCGGAGCTTTCAGCCGACAGCGGGGCAATCCCGGCCAACGGCTCCGCTGCCTCGACGATTACCATCTCGGTGAGGGATGCCTTTGGCAACAACACGGGGAGCGGGGCCGATATTCGGCTTGAGACTACGCTCGGCACCGTGACGGAAGCCACGTACCGCGAGAACGGCGTGTATACGGCGGAAGTCCGTTCAACCGAGCCGGGAGTGGCCGACATTCACGCCAGGATCGGCGGCGAACCGATTCGGGATGGCGTGCAGGTGACCTTTGCCGACGGCATATGGTTTACGCCGCCCTCGTACCGCCTTCAAATCGGCGAATCGGTGCGCACGGTCGTCGAGGTGACTTACGGGGATGCTACCTCGGACGTAACCGGAGATGCCCGCTTCCAATATGATGATGGGCTGATCCGGGTGGCGCGGGCCGAGGACGGTTACTGGTATGTCACAGGCCTTCGTACCGGGCGTACCGTCATGCAGGCCGTCTATGAGGCTGATGCCGGCAGGCTGACAGCCGTCGCCCCCGTCACGGTTTATGCCGTGCCGACCGGATTGACGCTGGATGCTTCCCGGTATGAGGTGAGGGAGGGCGAATATCGCCAGATCCGGGTAACTGCACATTACTCGGACGGCACCTCCTCCGATGTGACCGCGGAAGCTGCATACCGTCTTGCAGACAGGGGCTATGCCTCCCTGAATGCAGCGGGCCGGCTGTACGGCATCCGGTCAGGGAAAACGTCCATGACCGTGACCTATGAAGGTTTAAGCACCCCAGCCGAGGTTGCCGTTTTGCCGCCGGTTCACTCAGGTGACCCTGGTTTCGGCGGAAGCCCGGGCAACGCCGTCGGCATGCCGGACGATACCGGCGGGGTGAAACCGCCCGCAGGGGAAGATCGCGGACTCACCGTCGATCTGGTGCTCGACGGGGAATTCGGTCAGACGATCACGCTCGAGCACGAACAGCTGAGTTCAGGCCGCATCGTGATTGAAGCGAGGGGCGGAACGAACAAATGGTCGCTGCTCATGAAGCCTGCCGTCGTGGAACGGCTGCGGGAGCTTGTCAGCGGCGCGGTGATGGAGTGGCGCACGCCGCAGGGCGTATTTGTCTTCTCACTGGCTGAGCTGGGCGAGCTGCCATCGGATTTATCTGCGGCTTTCATCGGGCTCACGATCAGAACGGCCGATGACGAGACGGAGACGAGGCTCGGGGAGCTCTCGCGGAAAACGGGAGCGAGTATGCGGCTTAAGCCGTTCTCCGTGTCGCTGAACGCATGGAAGCCGGACGGAACGGCACAGCCGCTGGCAGATGGCCGATTATCCGCAACCTTCGCGCCTTCAGAGCGAATGCTGGCCGACGGCCGGTATTTGACGGCGGCTTACCTCGATGAAGCCGCCGGACAATGGAAGCACGTTCCGGCCCGTTTCGCTTCGGCCGAAAATGCCCTTCTCACTTTGAAGGCATCGGGAACCTATACCGTTCTGGAGAGCCGCCGCGCATTCACCGACATGAGCGGGCATTGGGCTAAAGCCGACGCCGAACTGCTCGCGAACAAGCTCATCGTGCAGGGGACGGAGGGCGGCCGTTTTGAACCCGGCCGCTCCATCACGCGGGCGGAGCTTGCTGCCATGCTGGTCAGAATGCTGGGGATCCATCCGAGCGGAGCAGCCGCGGTTCCTGCTTCGTTCAACGACGTGGCGGGCCGATGGTTTGCAGCCGACGTTCAAGCCGCCTATAAGGTGGAATTGATCCAAGGGTATGCGGACGGCAGCTTCCGCCCAGACGCGGCCGTGACCCGGCAGGAAATGATCGTTATGATCGCAAGGGCGATGGAAGCGGCGGGACTTGGCAAGGAGACCGAGGGAGCGCCGGTGCAATATGCCGACGATGACAAGCTTGCATCATGGGCTCGCGGGGCAGTCGATCAGCTTTCGCAGGCAGGACTGTTGACGGGCGACCAAGCGAACAGGCTGGCGCCGGAGCGGGCGGCTACCCGCGCGGAAACGGCGGCCATCCTGGCAAGAATGCTGCAATCGGGCATGTGA	MRRLKKIAMLLLAFLMIVPNLPQPAHAASAAPAGIKGIGAGYLHSLLIAGDGTVWTMGDNSAGALGNGTTAKSFRPVPVTKFDGTPLGNAKFVTGGGYFSVALLNDGTVWAWGRGTYGQLGNGASDDRHRAVQVTESGGGPLTSVRSIAAAYDHVLAIKEDGSAWGWGSNSSDMLTDYYDISNPRAVRIKASSGSYLNDVKAVGAGDYHSAALLNDGTVWAWGFGGFGGLGSGSTADSVYPVQVIDSSGQPLTGIADIQGSRFGGMALKGDGTVWAWGYNENFNLGNPGLTSSNTAIQVQQTGSGPLTDVVRISGGGRLSMALKSDGTLWWWGMQNRNLQVATKLLGDAGQFAAGDNHALAIKADGTVWGAGWTSKGELGISDASPLVYYTSALQVYPARTQISASPASIDADGTSKTTVTVTLKEGSNYNIGRSEGTVQLSTTAGTLGPVTDHGDGTYTAELTSSKTTGTATITGIINGYPMSASGTVKFNPLGASAVTSTVTASPASIPADGSSVSTVTVQLKDSNGNPLTASGGAVQMKTTAGTLSGVTDRKNGTYTAQLKAPVSVGTATVTAELGGTPIAQKATVTFVPGAASASASTINLGQNTLTAGSGSTAVTVRLKDAHGNPLVSGGDTVTIQSSHGTAGRVTDHGDGTYTAVLTAGTAAGSGTVSAAVNGAAMQQKAAIQILPAGASTQTSELSAAPVSIVADGSSKTMLTVRLRDAYGNALTASAGTVSMSTSGGTIAAVSDKGNGTYTATLTSASTTGTAEVSARLNGSLIKQTAVVSFVPGAASADKSSLASASGSLQAGSGTTTLTLKLKDARGNDLVTGGDAVTMQASIGSIGSVADQGNGTYTATLTAPTATGMSVVSASVNGVRLAQTTNVSIVPGPVSLSASTISAANASVPANGTGTTRVTVELKDTHGNRLTASGGTVTLSATAGSLSAVTDYGDGTYSATWTAPTTAGTATVSGSVNGSALAGKASLNFVAGAASPSATSLSINPASITADGVSTAVITVQAKDAYGNPVTQGGDAVSVETSGGTLSAVMDRGNGTYTATVKAPTTAGKAVVRAELNGKTVTQTADIVYVPGAASPATSLLTAGASALPADGSSTTALTVQLKDVYGNNLTSGGDRVSLSATAGSVGAVTDHGDGTYSAVLTAPTVAGPATITATINGAKLLQTASVDFETGAASARESLLTAASPAMPADGASTTTVTLQLKDAFGNELKTGGDAVVLTTTAGTLGSVQDHGDGTYSAMLTAGTVSGSAVVSGAVNGVPLEHPVSVDLLAGAASAAESIIETDSKAITVGGSTSTVVTIRLKDAFGNALTAGGDKVLLQTTAGTLGLMTDHHDGTYTSILTAGTAAGESVITGSVNDVPLVHTASVQFMPGPASADQTILSADRAVVTADGLSRSNVTVQLKDTYGNELRSDAGSLQLKLASTLGLLTEPKYEADGRYTAGVASNRAGTAVITGTLDGIRITSAVTVSFEPGEPSALRSTVDADRTGLTADGMQSARITVQLKDAAGNTIPDDGGPADIRIHSSIGTVSGSVYEAEGRYTASLISTEAGIAIITASVENSELADTAKVEFLPGPASAAASELSADSGAIPANGSAASTITISVRDAFGNNTGSGADIRLETTLGTVTEATYRENGVYTAEVRSTEPGVADIHARIGGEPIRDGVQVTFADGIWFTPPSYRLQIGESVRTVVEVTYGDATSDVTGDARFQYDDGLIRVARAEDGYWYVTGLRTGRTVMQAVYEADAGRLTAVAPVTVYAVPTGLTLDASRYEVREGEYRQIRVTAHYSDGTSSDVTAEAAYRLADRGYASLNAAGRLYGIRSGKTSMTVTYEGLSTPAEVAVLPPVHSGDPGFGGSPGNAVGMPDDTGGVKPPAGEDRGLTVDLVLDGEFGQTITLEHEQLSSGRIVIEARGGTNKWSLLMKPAVVERLRELVSGAVMEWRTPQGVFVFSLAELGELPSDLSAAFIGLTIRTADDETETRLGELSRKTGASMRLKPFSVSLNAWKPDGTAQPLADGRLSATFAPSERMLADGRYLTAAYLDEAAGQWKHVPARFASAENALLTLKASGTYTVLESRRAFTDMSGHWAKADAELLANKLIVQGTEGGRFEPGRSITRAELAAMLVRMLGIHPSGAAAVPASFNDVAGRWFAADVQAAYKVELIQGYADGSFRPDAAVTRQEMIVMIARAMEAAGLGKETEGAPVQYADDDKLASWARGAVDQLSQAGLLTGDQANRLAPERAATRAETAAILARMLQSGM	PGPT0023705_91	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5e_SECRETION_PROTEINS,PGPT0023705-yeeJ-K13735	NA	NA
AK002_01385	1419			hypothetical protein	GTGCCCGCCGGCCTTTTTATTTCCATGGACGCATGGAAAGAGAACATCTGGTTGCGGTCGGATATACGCTGCAGCATGGAGAGAGCCTCCGGTTCGTTGGCATACAACAAACCGGAGGCTCTTTTTGATGACGATAAAGTCGTTCGGACCGGTTCCCATTGTGCACATCTCGCAAGAATGCCGAACAACAAAAGTATGAAAATTATAAAAAAGGTTGTTTTCGTGGAAAGACCCCTCCACCCGAACGGAGGTATCCTTTTTAGTACAGAGAGGCTTTTCGAACCTTCGGTTGTAAGCGCTCTCGATTTCATTTTTCGGAAAGGGGAACTACCGATGAAGAGAGGATTGCCAGGATTGCTGATCGCGGTGCTGCTCTTGGCCCTGACGGCCTGCAACCTCGCCGAAAGCCAAACCGGCGATGCAAAGAAGGGTTACGTCGGCCTTGCGATGCCCACCAAATCATCCGAACGCTGGGTGGCTGACGGGAAGAACATGGAGCGGCTGTTTCAGGAAAAAGGGTACAAAACCGACCTTCAATTCGCCGAAGACGTGATTGAAAACCAGATTTCCCAAATCGAGAACATGATTACGAAAGGGGTCGACGTGATCGTGATCGCTTCGATCGACGGCAATACGCTGACCGACGTGATCAAGAAGGCCCATGATCAGGGAATCAAGGTCATCGCCTACGACCGGTTGATCCGCAACACCGAGCATTTGAGTTATTATGCCACCTTCGACAATTTCCAGGTCGGCGTTCAGCAGGCCTCCTATATTGAAGAGAAGCTTGGCCTGAAGGAAGGGAAGGGGCCGTTCAATATCGAGCTGTTCGGCGGATCGCCGGACGATAACAATGCTTACTTCTTCTATGACGGCGCGATGTCCGTGCTCAAGCCTTACATGGATTCGGGCAAGCTCGTCGTTCGGAGCAAACAGACCACCATGGCCCAGATTGCGACCCTGCGCTGGGACGGCGCCCTGGCGCAGTCGCGGATGGATAACCTGATCAGCGCCAACTATTCCAGCGAGAATCTGGACGCGGTGCTGTCGCCCTACGACGGGATCAGCATCGGCATCATCTCCTCGCTCAAAGGCGTAGGCTACGGGACGGCCGGCAAGCCGCTGCCAATCATCACGGGTCAGGATGCGGAGCTTGCTTCCATTAAGTCGATCGTGGCCGGTGAGCAAACCCAGACGGTGTTCAAGGACACGCGCCAGCTCGCCGAGCAGGCGGTGAAGATGGCGGAGAGCGTGCTGAAGGGAGAAGAGGCCGAGGTGAACGATACGGAATCGTACGACAACGGCATCAAAGTCGTGCCTGCCTATTTGCTTCCCCCTGTATCCGTTGATGCTTCCAACGTGGAGAAAGAGGTTGTGGAGACGGGCTACTATTCCAAGGAAGAAGTCGGATTGAAATAG	MPAGLFISMDAWKENIWLRSDIRCSMERASGSLAYNKPEALFDDDKVVRTGSHCAHLARMPNNKSMKIIKKVVFVERPLHPNGGILFSTERLFEPSVVSALDFIFRKGELPMKRGLPGLLIAVLLLALTACNLAESQTGDAKKGYVGLAMPTKSSERWVADGKNMERLFQEKGYKTDLQFAEDVIENQISQIENMITKGVDVIVIASIDGNTLTDVIKKAHDQGIKVIAYDRLIRNTEHLSYYATFDNFQVGVQQASYIEEKLGLKEGKGPFNIELFGGSPDDNNAYFFYDGAMSVLKPYMDSGKLVVRSKQTTMAQIATLRWDGALAQSRMDNLISANYSSENLDAVLSPYDGISIGIISSLKGVGYGTAGKPLPIITGQDAELASIKSIVAGEQTQTVFKDTRQLAEQAVKMAESVLKGEEAEVNDTESYDNGIKVVPAYLLPPVSVDASNVEKEVVETGYYSKEEVGLK	PGPT0015735_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0015735-sbpA-K10546	NA	NA
AK002_01386	1533	xylG	COG1129	Xylose import ATP-binding protein XylG	ATGTCAGAGTACATTCTTGAAATGCGGAACATTACGAAAGCGTTTCCCGGGGTAAAGGCGCTGAACCAGGTAAATCTGAAGGTTCGCGAAGGAGAGATCCACTCCCTGTGCGGGGAGAACGGAGCAGGCAAATCCACGCTGATGAAAGTGCTGAGCGGCGTGTATCCTTACGGCAGCTATGAGGGAGATATTCTGTTCAAAGGCAGCGTCTGTGAATTTAAAAACATCAAGCAAAGCGAAGACCTGGGCATCGTCATCATCCATCAGGAGCTTGCGCTGATTCCTTATTTGTCGATTGCCGAGAACATCTACTTGGGGAACGAGCGCGCCGAGAAGGGCATCATGAACTGGAACGAGACGATGATGGGGGCCAAAGAGCTGCTGGATAAGGTGGGGCTCAGCGAGAACCCGAATACGCAGGTGGGCAGCATCGGCGTCGGCAAGCAGCAGTTGGTCGAAATTGCGAAGGCCTTATCCAAGAAGGTGAAGCTGCTTATTCTGGACGAGCCGACGGCGGCGCTCAACGAGGACGACAGCGAGAATTTGCTTGCGCTGATGCTGGAATTCAAGAAGCAGGGAATCTCCTGCATCCTGATCTCCCATAAATTGAACGAGGTGTCGAAGGTATCGGATTCCATTACGATTCTGCGCGACGGCCAGACCATTGAAACGCTGGATATGAGAGGCGGCGAGGTGAACGAGGACCGGATCATCCGCGGCATGGTCGGGCGGGATTTGACGAACCGCTATCCGGAGCGGAGCCCGAAGATCGGGGAGGTCATCCTGGAGGTTAAGGATTGGACGGTATATCACGAGCAGCAAGCAGGCCGAAAAGTGATTGACAATGTGAGCATGAATATCCGCCGGGGGGAGGTCGTGGGCATTGCCGGGCTGATGGGATCCGGCCGGACCGAGCTTGCGATGAGTATTTTCGGCAGGGCTTACGGCCGGAACATCACGGGTACGCTTCGGAAAGACGGCAGGGAAATCCGGAATCAGTCCATCAACGAGGCGATTGAAAACGGCTTTGCTTACGTGACCGAGGACCGGAAGGAATACGGGCTGATCCTCATGGACGATATCAAACGCAACATCTCGCTGACCGGACTGTCCAAGCTGGCAAAGAAGATGGTCATTGACGATCGGGAAGAAATCCTCGTGGCGGAAGACATGCGGAAGAAGCTCAAGATCAAAACGCCGAACATTCTCCAGAAGACGGGGAACCTCAGCGGGGGGAATCAACAGAAGGTTGTGCTGAGTAAATGGATCTATGCCGAGCCCGACATCCTGATTCTGGATGAGCCGACGCGGGGGATTGACGTCGGGGCCAAATACGAAATCTACGCGATCATCAACCAGCTGGCGGATGAGGGGAAGGCGGTGCTTGTCATTTCCTCGGAGCTGCCTGAAATTTTAGGGATCTGCGACCGGATTTATGTCATGAGCGCGGGACGGATGACCGGAGAAGTTGGCAGAGAGCAGGCTTCGCAGGAAACCTTGATGAGATACATGACCAAGAATGGAGGGGCTTAA	MSEYILEMRNITKAFPGVKALNQVNLKVREGEIHSLCGENGAGKSTLMKVLSGVYPYGSYEGDILFKGSVCEFKNIKQSEDLGIVIIHQELALIPYLSIAENIYLGNERAEKGIMNWNETMMGAKELLDKVGLSENPNTQVGSIGVGKQQLVEIAKALSKKVKLLILDEPTAALNEDDSENLLALMLEFKKQGISCILISHKLNEVSKVSDSITILRDGQTIETLDMRGGEVNEDRIIRGMVGRDLTNRYPERSPKIGEVILEVKDWTVYHEQQAGRKVIDNVSMNIRRGEVVGIAGLMGSGRTELAMSIFGRAYGRNITGTLRKDGREIRNQSINEAIENGFAYVTEDRKEYGLILMDDIKRNISLTGLSKLAKKMVIDDREEILVAEDMRKKLKIKTPNILQKTGNLSGGNQQKVVLSKWIYAEPDILILDEPTRGIDVGAKYEIYAIINQLADEGKAVLVISSELPEILGICDRIYVMSAGRMTGEVGREQASQETLMRYMTKNGGA	PGPT0016530_551	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016530-gguA|ABC_GGU_A-K10548	NA	NA
AK002_01387	1167	xylH	COG4214	Xylose transport system permease protein XylH	ATGGAGACGCTCAAAAAAATGTTTAAAAACAACATCCGCCAATACGGGATGATCATCGCCCTTGTTGTCATTATGATTTTTTTCCAAATCATTACGGGAGGGCTGCTGCTGGAGCCGATCAACATCACGAACCTGATTCTCCAAAACAGCTATATTCTCGTACTGGCCATCGGCATGGTGCTTGTCATCATTACGGGTCATATAGATTTGTCGGTCGGTTCGGTAGCCGCCTTCGTCGGCGCCGTTGCTGCGATCATGATGGTCGATATGCAGCTGCATCCGGTCATTGCCGTCATCGTATCCTTGATCGTCGGCGGTCTGATCGGAGCATGGCAGGGATTCTGGGTGGCTTACGTGAGGATACCGGCCTTTATCGTAACCCTGGCCGGCATGCTCCTGTTCCGCGGCCTGACGATGATCGTGCTGGAGGGCCAATCCATTGCGCCGTTTCCGGGCGGCTTCCAGAAGCTGAGCTCCGGCTTCATTCCGGACTTCGGCAATACCGGCACCAATCTGATCGCAGTTCTGGCCGGCATCATCTTTACGGTTATTTTCCTGATCAATGAGCTGCGGGAACGAAAAGCCCACAAAAAATACAACTTCGACGTTCTGCCAAGCGGCTTGTTCCTCCTGAAGCTGGTGCTCATCGCGGCCGTGATCAATGCCTTTACGTTCATGCTGGCTAGTTACGCCGGCCTGCCGAACATTCTGATTCTGCTGCTGGTGCTCATTATCATCTATTCCTTCGTGATGAACAAAACCGTGATGGGCCGTCATATTTATGCGCTTGGCGGCAACGAAAAGGCGGCGGCGCTGTCCGGCGTGAAAACCAAGAAGGTCACGTTCTGGGTATTCGTCAATATGGGCGTCATGGCCGCCATCTCCGGTTTGATTTTTGCCGCCCGCTTGAACGCGGCGACGCCGAGAGCCGGTACGAACTTCGAGCTGGATGCCATCGCGGCGAGCTTCATCGGCGGCGCTTCGGCCACCGGCGGGATCGGGACGGTCTTCGGCGCGATCATTGGCGGTCTCGTCATGGGCGTCCTCAATAACGGGATGTCGCTCGTAGGTCTCGGCATCGACTGGCAGCAAGGCATTAAGGGCCTGGTTCTCCTCGCGGCGGTAGCCTTCGACATTTACAATAAGAAGAAGAGCAGTGCCGCTTAA	METLKKMFKNNIRQYGMIIALVVIMIFFQIITGGLLLEPINITNLILQNSYILVLAIGMVLVIITGHIDLSVGSVAAFVGAVAAIMMVDMQLHPVIAVIVSLIVGGLIGAWQGFWVAYVRIPAFIVTLAGMLLFRGLTMIVLEGQSIAPFPGGFQKLSSGFIPDFGNTGTNLIAVLAGIIFTVIFLINELRERKAHKKYNFDVLPSGLFLLKLVLIAAVINAFTFMLASYAGLPNILILLLVLIIIYSFVMNKTVMGRHIYALGGNEKAAALSGVKTKKVTFWVFVNMGVMAAISGLIFAARLNAATPRAGTNFELDAIAASFIGGASATGGIGTVFGAIIGGLVMGVLNNGMSLVGLGIDWQQGIKGLVLLAAVAFDIYNKKKSSAA	PGPT0016525_703	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_II,PGPT0016525-gguB|ABC_GGU_P-K10547	NA	NA
AK002_01388	729			hypothetical protein	ATGAAAAAGACGTCATCGCCCGTAAGCAAAGTATCGACGGAGATGTTTATTCAGCAAGGCAGCTGGGCATTGGGTTTTCTAACGATTGTGCTGCTGATTTATATTGGAGTCGGCATCGCTAACAGTATTGGTGTCAATGTTCGGGAAGGAATGACAGATGAGGACTTCTTCTCCATCGCTTACCGCTCCACCAAAGGATTTATGCTCGTCATCGGCATCATTTCAGCTTACGGTTTTCTGAGCTATTATGTAAGACACGGCATTACGCGCCGGGATTTCTTTGGTGGTTCCGCTTTAGCCGCCGTCTTTCTGTCCCTGGCATTTCCGGTTGCCGCGGCTCTGATCCATTGGATTGTCTCGCTGTTTGCATCACAAGATGCGGGAAGCACCCGGCTGCTGCAGGAGTTCGACAACAGCTGGCTGCTGACGCTCGTTTCCTACGGTATCCAAATCTTCATCTATTACCTGATGGGGTGGATGATCGGATCCGGATTTTACCGGTTTGGCTGGATTCGCGGCTTGGGATGGATCGCCGTTGCCCTTGTTTTGATTGGCTTCATGGATGCATTGTGGCAGTTCGAGCTGGCTTCCATATGGGAACAGTGGTTGCCGGTCACGACAGACTTTTCCGTCACGCTGCCGGTTTCGCTCGCAGGCTCCCTGGCCGTCATCCTGATTGCAATGATTCTAATTCGGCTGATCACCCGAAGAGTTACGATCAAAATGTAA	MKKTSSPVSKVSTEMFIQQGSWALGFLTIVLLIYIGVGIANSIGVNVREGMTDEDFFSIAYRSTKGFMLVIGIISAYGFLSYYVRHGITRRDFFGGSALAAVFLSLAFPVAAALIHWIVSLFASQDAGSTRLLQEFDNSWLLTLVSYGIQIFIYYLMGWMIGSGFYRFGWIRGLGWIAVALVLIGFMDALWQFELASIWEQWLPVTTDFSVTLPVSLAGSLAVILIAMILIRLITRRVTIKM				NA	NA	NA	NA	NA
AK002_01389	879			hypothetical protein	ATGAATCTTGATGTACAGTTAGATCGGGTATCGGTGACATACGGCAGCGTCGAAGCCGTCCGCGATATTTCCCTCCGTCTCCCGGCCGGCAAAATTTACGGTCTCCTCGGTCGCAACGGCGCAGGCAAAACCTCGCTCCTGTCGATCCTGGCTTCATTTCGCGAACCATCGTCGGGATCGGTTACGATTGGCGGCGAGCAGCCCTTCGAAAATGCCAAAATCATGAGGGAAGTTTCCTTCATCTACGATGTCGACTATAAAGAGGAGACGGACAAGGTCAAGGCCGCGATTGAATCCGTTGCCAGGTACCGCCCCCATTTTGATACGGCTTATGCCCTGGAGCTTGCCCGCAAATTTAATTTGCCCCTGGATAAACAGCTGAAGCAGCTCTCCAAAGGCATGCAGTCCGCTTTTAACGTATGCATCGGCCTCGCCAGCCGGTCGCCGGTTACCATTCTGGATGAAGCTTATCTCGGCATGGATGCGCCATCGCGCGAAATTTTTTACCGGGAACTGCTGAAGGACCAGGAGCGCCATCCCCGTACGTTCATTCTTTCCACCCACTTGGTTTCGGAGATGGATTATTTGTTTGAGGAAGTCATTATTATCCACAAAGGCCGGTTCATACTGCAAGACGATTATGAAAGCCTTACGTCCAAGGGAGTATCCATTACGGGCCCCGCGGCCAAGGTGGACGAATTCATCCAGGGCATGAAGGTGCTGAACGTGCAGCAGCTCGGTTCCACCAAGGCCGTCATGGTCTACGGGGAGCTTAGCGAGGCATCTCAATCAGCCGCATTGAAGGCAGGACTTGAGATCGGGCCGATCTCGCTTCAGGACTTGTTTATCCATCTGACGGGGGAGGAATATTCCGCATGA	MNLDVQLDRVSVTYGSVEAVRDISLRLPAGKIYGLLGRNGAGKTSLLSILASFREPSSGSVTIGGEQPFENAKIMREVSFIYDVDYKEETDKVKAAIESVARYRPHFDTAYALELARKFNLPLDKQLKQLSKGMQSAFNVCIGLASRSPVTILDEAYLGMDAPSREIFYRELLKDQERHPRTFILSTHLVSEMDYLFEEVIIIHKGRFILQDDYESLTSKGVSITGPAAKVDEFIQGMKVLNVQQLGSTKAVMVYGELSEASQSAALKAGLEIGPISLQDLFIHLTGEEYSA	PGPT0006725_17719	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_01390	387			hypothetical protein	TTGAGCGGTACCGTGCATCCAGATAATAGGCCCCTGTTCATCCAGATCAAGGAAAAGATCGAGGACCAGATCGTCAATGACCAATTGCTTGAAGGTGAACAGGTTCCTTCCACGACGCAGCTGTCCCAATTTTACAAAATCAATCACATTACGGTGTTGAAGGGCATCAACCTGCTGGTTGATTCCGGACTCATCTATAAAAAGCGAGGTGTCGGCATGTTTGTTGCTGAGGGGGCCAAGGAAATGCTGCTCCGGACCCGAAAGAGTGCATTTGCGGAACATTATGTGGTGCCTATGGTACAGGAAGCGGACAAACTCGGTTTGTCCACGGATGAGCTTGTTCAAATCATAACCCAGTTAAAAGGAAGTGACCCCCATGAATCTTGA	MSGTVHPDNRPLFIQIKEKIEDQIVNDQLLEGEQVPSTTQLSQFYKINHITVLKGINLLVDSGLIYKKRGVGMFVAEGAKEMLLRTRKSAFAEHYVVPMVQEADKLGLSTDELVQIITQLKGSDPHES				NA	NA	NA	NA	NA
AK002_01391	594			hypothetical protein	ATGATCAAACGCAAAAAAACGACGCTTTTCCTTGTTGTTGCCTTATTGCTCGCCATATTCTACATGCAGCTGCAAACCGCCATACCCGGATTTATCAACGATCTCGATTTTGATTTTAATAGCAAAGAAACCCCTGAAATCACCCAGCTCCACCCTTATGTACTGCAGCAAAAGAATGAGCTTGTTCGTCTCACCAGGAAAAAAGGGATCACGATTGTCATAACGGACGGTTACCGAAGCCACGAAGAGCAGACCCGCATCTACAATCAGGGCCGCAGCACCGAGGGCAACATCGTGACGAATGCCAAGGCCGGGGAATCTCTTCACAACTACGGGCTCGCCATTGATTTTGCGCTGAGGCTGAAGGATGGCAGCGTCATCTGGGATATGGAATACGACGGGAACGGAAACGGCAAGGCCGACTGGATGGAAGTCGTGGAGATTGCAAAAGATTTAGGCTTCCAGTGGGGCGGAGATTGGGCCAACTTTCCGGATTATCCGCATTTGCAAATCGATTTTGGATTGTCGATCCGTGATTTGAAACGGGGAAAGCTCCCTCCCATGGACGCTTCCGAGTATTCGGAAGCCAAGTGA	MIKRKKTTLFLVVALLLAIFYMQLQTAIPGFINDLDFDFNSKETPEITQLHPYVLQQKNELVRLTRKKGITIVITDGYRSHEEQTRIYNQGRSTEGNIVTNAKAGESLHNYGLAIDFALRLKDGSVIWDMEYDGNGNGKADWMEVVEIAKDLGFQWGGDWANFPDYPHLQIDFGLSIRDLKRGKLPPMDASEYSEAK	PGPT0024025_415	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024025-cwlK-K17733	NA	NA
AK002_01392	528			hypothetical protein	ATGAGCAATATTCAAAACATGTCGATGAGACTCAATCAGCTATCCAGCCAATTGGCTGCTGCAGGGCAGAACGGCCGCATGGACGAAGCCCTGATGATCGTGAACGAGCTCGGCGGGATCCGCACCGAGCTTCAGAATGCGCAGGCTGCGGTCACGCCGGAAACTTCTTCCGCCGTGCGCCAGGAGCTGGTGAACTGCAGGATGGTGCTGCATGGGATGATGGGGGCGGCGCAGGATATCCGAACCGCTGCGGCGGAGCAGTACCGTCAGGTGCTGGGCGAGAATAAAACGATGTTCGAGCAGATGGACGAGGCCGCGCAGCAGAGCGAGTATGCGCAAGCCTATCAGTATCGCCAGCTGTTCAAGCAGATGGATCAAGTCAGCCAGCAGCTGCATCAGCTGGATGGCTCGATGCTGGACGCGGGGTACCAAATGGAGCGGGCGCAATCGGCCGACGGCAGCCTGAACGGGGCAGTGGCTATCGAGGAACTGACTTCAAGCACGGACGACAGCGGAACGATGATGTAA	MSNIQNMSMRLNQLSSQLAAAGQNGRMDEALMIVNELGGIRTELQNAQAAVTPETSSAVRQELVNCRMVLHGMMGAAQDIRTAAAEQYRQVLGENKTMFEQMDEAAQQSEYAQAYQYRQLFKQMDQVSQQLHQLDGSMLDAGYQMERAQSADGSLNGAVAIEELTSSTDDSGTMM				NA	NA	NA	NA	NA
AK002_01393	1095			hypothetical protein	ATGAACATAACGGTATTGGCAAGGCCGGATATTCCCCGTGAATGCATCGAATTGCTCTATCGGTATACGAATCATGAAGACACCCGGTCCGTGAAGAATGAACTCACGATGAAATATAATCTGGACTCGCCGGACCTATTGCAAACCTTCGACCCCATCATCGAGATAGGAGAGCTGGTGCATGGCCAACTGGAAGCAGCGCCTGATCGCATGGCTTTTTTCTTCGAAAGCCGGGGACAGGCGGGCTGGTGCTGCGCCAAGCTGCTATTGGATGAATATCTCCGCTCAGCGGGTACGAATGCGAATATTCTTCGGCTGTCCCCTGTCATGCAGGATGAACGGCGGCGCAAGTACGCGGAGTCTCTCGTCCGATTATTTATGGGGGATGCCGAAAGCCGCGAATGCCAAGCGACTCATACCGATGCCGATCTGACCAACATGATTGACGGACTCGAACTGGACGTTCAGGAGAAATGGACACTGCATCTCTTATATCAGAACTTTGATATGTACATGCAGGAATTGCAGAGCATCCTTGAACAGGCCATGGCCCTGTACGAGGAACAATTGCCCTTGCTAGAGCCTCTGCTGGAGCGCTTTGCGGCAAGATACCATCAAGTGGTTCAAACCGAACCGCTGGAGTACATCAATAACCGATTCCAAATCAATCTCATGGACGATAAGGAAATCCGAATCGTCCCGCAGATCATGGGCTTCAATATGGTCACGCTCCATCCTCAAAAAAGCGAGAATTCAATAGAAACGCTGTATATCGGCATTCTCTTTGAAGCTCTTCAAGAAGCGGTTAGCCGGGTCATCTCAGACGAGAAGATATGCAAAACGTTGAAAATGCTGAGCGATGCCAGCAAATTTGCGATTCTGAAGTCGATTTACCGTGAGCCGGCGTACGGTTCGGAACTGGCAGACCGGCTGAATCTAACCACGGCTACCATCTCGCATCATATGAACGCACTTATACAACAAGGGTTTGTCATGATGGAAAAGCGGGCAAACCGCATCTACTACCGAATGAATCGGACGGCTGTCGAGACTTACCTCGAACAGCTGCGATCCAGCTTATTGCAGCAGGAATGA	MNITVLARPDIPRECIELLYRYTNHEDTRSVKNELTMKYNLDSPDLLQTFDPIIEIGELVHGQLEAAPDRMAFFFESRGQAGWCCAKLLLDEYLRSAGTNANILRLSPVMQDERRRKYAESLVRLFMGDAESRECQATHTDADLTNMIDGLELDVQEKWTLHLLYQNFDMYMQELQSILEQAMALYEEQLPLLEPLLERFAARYHQVVQTEPLEYINNRFQINLMDDKEIRIVPQIMGFNMVTLHPQKSENSIETLYIGILFEALQEAVSRVISDEKICKTLKMLSDASKFAILKSIYREPAYGSELADRLNLTTATISHHMNALIQQGFVMMEKRANRIYYRMNRTAVETYLEQLRSSLLQQE				NA	NA	NA	NA	NA
AK002_01394	1263			hypothetical protein	ATGATCATACAAGAAAACGCTCGAGTGATTCGTTATCGGGATCTGTCATCCCAAAAGGAGTATCTGAAGTTAATGATGGCCAATGCCGTGAACCGGTTCGGCGATTCCATCGACATGATTGCTTTTTCCTTGATGGTATACCAGCTTACCGGTTCCGCCTCATGGGTAGCCGTCATTTTCGGCATCAATGCACTCCCTTCCATCCTGTTTCAACCCTTTGCAGGCGCCATCGTTGAAAGACTTCACAAGAAAACCATCATGATCCTTGCGGATATTGGACGTGGAGTGACTGTAGGCGTCACTGCCGTCCTGCTTATGCTTGATCTGCTTCAGCCCTGGATTCTGCTTGTGCTTACGTTCATCAATTCCACGCTGGAATCCCTTCGTATTCCCGCCGGGTTAGCCATCATTCCCCAAGTGCTTGATAAAGCCTTATATACCCATGGCATATCCTTAAATTCAACCATCAAGAAAATCGTGGAGTTAGCCGGTCTTGGCGCTGCCGCAGCCATCATCGGATTATTCGGCCTTGGAGTGGCTATTATGATCGACGCCGTCACCTTTTTACTGTCCGCCCTCTTCATTCTGGGCATCAACAGCAAGGAAACATGGCAGCGGAGCCCGATTCGGCCGGATCTGAAAAGCTATCTCCATGCGCTGGCCGAGGGATTCATCTATCTAAGAAAGGCAAAAGTCGTATTCGCCGTCTGCATATTAGGCGGCATCATGGGCATCTTCCTGATTCCCATTAACTCCATGATGGCTCCATACACGACGGGAGTGTTAGGACTGTCCGCCAAGGGGTTGTCCGTTGCGGGCATTTCCTCAACGATCGGTCTTGGCATCGGTGCCTTCTTGTTCCCTTACTTAAGAAAACATTTCTCTGCCCGCATTCTGTTCATCACTGGCGGGACGTTCATTGGAATTTGTTATCTGGTATGGTTCTGGATATCGCACTATTCCGGACAAGTCATGCTGACCTATGTCATGTTGGCTTCAACCATGCTGATATTCGGTTTTTTTGCTTCCTTCGTGGAAACGGTGATCGGGGTATCCTTCATGGAACACATTGAGGAATCCTACTTGTCTCGCGCCGGTGCCATTTTTAACGCGATCGCAAGCTCAACCATTCCGCTCGGTTCGCTGATCGTCGCCACCGCGATGACGTTTATAACCCTTGAACAGCTATTTGTCGCCACTGGTATTTTTACAATCATATTGTTTGTTGGTATGCTCTTCATAAAGACATTACGCCAGCTGTAA	MIIQENARVIRYRDLSSQKEYLKLMMANAVNRFGDSIDMIAFSLMVYQLTGSASWVAVIFGINALPSILFQPFAGAIVERLHKKTIMILADIGRGVTVGVTAVLLMLDLLQPWILLVLTFINSTLESLRIPAGLAIIPQVLDKALYTHGISLNSTIKKIVELAGLGAAAAIIGLFGLGVAIMIDAVTFLLSALFILGINSKETWQRSPIRPDLKSYLHALAEGFIYLRKAKVVFAVCILGGIMGIFLIPINSMMAPYTTGVLGLSAKGLSVAGISSTIGLGIGAFLFPYLRKHFSARILFITGGTFIGICYLVWFWISHYSGQVMLTYVMLASTMLIFGFFASFVETVIGVSFMEHIEESYLSRAGAIFNAIASSTIPLGSLIVATAMTFITLEQLFVATGIFTIILFVGMLFIKTLRQL				NA	NA	NA	NA	NA
AK002_01395	1182	patB	COG1168	Cystathionine beta-lyase PatB	ATGAATTTTGATCTTGCGATTGACCGCACCTGCACCAACTGTCAGAAATGGGACAATGTCCCCACCGTCTTCGGCGTGCCGGACGCGCTTCCGATGTGGGTGGCCGACATGGATTTTGCCGCGCCGCCCGCCGTTGTAGAGGCGCTGCATAAACGGGTGGAGCATGGCGTATTCGGCTATACGTTCCCGTCCGACTCTTACCGTGAAGCGATTAGCGACTGGATGAAGAAACGCCACAGCTGGAGCATACAGCAGGAGTGGATTCAATTCTGTCCGGGCGTTGTTCCGGCTCTCAGCCTTATCGTGGATGCGTTCACCGAGCCGGGCGATCAAGTCGTTATCCAGACGCCGGTCTATCCGCCGTTCTACAGCGTCGTTCAAGAACATGGCCGCGAGTTGGTGCATAATCCGCTTCTTCTTAGCGAAGAGGGGGATTACACGATGGATTTCGAGGACCTGGAGAAGAGCTTTTCCACCGGCCATGTCAAAATGATCATTCTGTGCAGTCCGCACAATCCGGTGGGCCGGGTGTGGAGCCGAGCGGAGCTGGAACGTCTGGCTTCCCTCTGCCAGCAATACGACGTGCTTGTCGTATCGGATGAAATCCATGCAGATTTGGTGTTTGAACCCGGCGCGCACACGCCGTTCGCCGCGCTGTCCGAGGATGCCGCCGAGCGTTCCATCATCTGTACCGCGCCTAGCAAGACGTTTAATATCGCCGGCCTGAACACGGCGAACATCATCATCCCGAATGCGCAGCTGCGCAGCAAATTCCGCAAAATATTGAACCGTTACGCCATCGGCTCCATTACGCCGATGGGTGCGGCCGCCACCGAGGCTGCTTACCGTGAGGGCGAACCGTGGCTGGATGAGCTTCTGGTTTACATCCGCGGGAACATGGAGCTGGTAGCCCAATATGCACAGGAACATCTGCCCGAGCTGAAGGTGGTTATGCCGGAAGCCACCTACCTGCTGTGGATTGATTTCCGCGGCATGGGCATGTCCCACGAAGAGCTAAACCGCTTCCTCGTCCAAGAAGCGAAGCTCGGTTTGAACAGCGGCGCAGCCTTCGGCAAGGAAGGCGAAGGCTTCATGCGCATGAACCTGGCCTGCACGCGCGCCACCGTTCAGGAGGCGTTGTCCCGCCTGAGCAAAGCTGTCGGGGAATGGCGGAAGGCATAA	MNFDLAIDRTCTNCQKWDNVPTVFGVPDALPMWVADMDFAAPPAVVEALHKRVEHGVFGYTFPSDSYREAISDWMKKRHSWSIQQEWIQFCPGVVPALSLIVDAFTEPGDQVVIQTPVYPPFYSVVQEHGRELVHNPLLLSEEGDYTMDFEDLEKSFSTGHVKMIILCSPHNPVGRVWSRAELERLASLCQQYDVLVVSDEIHADLVFEPGAHTPFAALSEDAAERSIICTAPSKTFNIAGLNTANIIIPNAQLRSKFRKILNRYAIGSITPMGAAATEAAYREGEPWLDELLVYIRGNMELVAQYAQEHLPELKVVMPEATYLLWIDFRGMGMSHEELNRFLVQEAKLGLNSGAAFGKEGEGFMRMNLACTRATVQEALSRLSKAVGEWRKA	PGPT0001990_963	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
AK002_01396	1167			hypothetical protein	ATGCAGCTTGCGTGTAATGCGATGGTTTGCGCCAGCGAATCCTGCGCAACCCTTCCCCCAAGGCAAGGTTCCGATGAAGTCAAGAACGTTTCGCTTAAAGGCCCGGCAAGATGCGCGTGCTTTGTTCTTTTTTCCATGCGGAATCAAGTGTCAACAATCCGTTGTCATGATATAATGACATGGCGTCATACGCACAGCCAGACCATTACCAAGCTATACTCATGGAAAGAAGATGACAACAGCATGATCGCCGACATTTTACTTGAAGTGGTACTTCCCATCTTTGTCCTGATAGGCTTCGGCATTATTATGCAATATGCCTTTAAGCTCGATTTGTACACACTCGCCAAAATCAACTTTTACTACATTACGCCTGCAGCCGTATTTATGAGTATGTACGAATCCAAGATGTCACCGCAGCTTCTGGGCATGGTGGCGTTATTTTATGCGCTTTATATCGGCGTCCTCTACCTGATCAGCATGCTGGTTGCCAAGCAGCGCAAGTTCAACCGGGGGATGAGAGCCGCATTTACCAACAGCCTCCTGCTGGATAATTCGGGAAACTACGGCCTTCCGATCAATGATCTGGCCTTCAAGGGAGATCCGATGGCCGGCTCGGTGCAAGCGCTGATCATGTCTTTTCAAAGCCTCCTTACGTTTACGTACGGAGTTATTTCCATTCAGGGAGCCAAGACGGAGGGATTATACAAACAGGCCATGATCGGATTTCTGAAAATGCCCGTCCCCTATGCCCTCGTCATCGGCATTGCGCTGCATGCCCTGGCCTTGCCGCTCCCGGTCTTTATCTCGCAGCCGCTGACCTATGCGGACCAGTCCATGGTGGCGATCGCCCTGCTGACGCTCGGGGCACAGATCATTAAATATCCGCTGCGCCTGCGCCGGCTCGATGTTTACCTGAGCGTCCTGCTCCGTCTCTTGGTCGCGCCGGCTATCGGCATTCTGATCGTGCTGCTGCTCGGGCTAAAAGGCGTTCCGGCGCAAGCGCTCATCATCGCTTCCGGCATGCCCGTTGGCGTCAATTCGTCCATCCTGGCGGAAGAATATCAGAATGAGCCTGATTTTGCTGCACAAACTGTCCTTATATCGACCATACTAAACGTAATTACGATTACCGGCCTTATCACCCTGGCCAAATTCATAGCCTAA	MQLACNAMVCASESCATLPPRQGSDEVKNVSLKGPARCACFVLFSMRNQVSTIRCHDIMTWRHTHSQTITKLYSWKEDDNSMIADILLEVVLPIFVLIGFGIIMQYAFKLDLYTLAKINFYYITPAAVFMSMYESKMSPQLLGMVALFYALYIGVLYLISMLVAKQRKFNRGMRAAFTNSLLLDNSGNYGLPINDLAFKGDPMAGSVQALIMSFQSLLTFTYGVISIQGAKTEGLYKQAMIGFLKMPVPYALVIGIALHALALPLPVFISQPLTYADQSMVAIALLTLGAQIIKYPLRLRRLDVYLSVLLRLLVAPAIGILIVLLLGLKGVPAQALIIASGMPVGVNSSILAEEYQNEPDFAAQTVLISTILNVITITGLITLAKFIA	PGPT0007208_3834	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
AK002_01397	720			putative oxidoreductase	ATGAGCCTGAAAAATAAAACAGCCCTCATCACGGGTGCAGGCAAAGGGATTGGGCGCGCCCTGGCCATCGCACTTGCCAAGGAAGGCGTGCACGTTGGACTCGTCGCCCGTACGGCAGCAGACCTGGAGCCGCTGAGCGCCCTGGTTGCCGAGCAGTATGGTGTCAGAGCCGTCGCGGCGGTGGCCGACGTTTCCGTGCAGAGCGAGGCAGAGGCTGCTTTCGCGGCGGTAAACATGGAGCTGGGCTCGGTGGACATTCTGATCAACAACGCGGGCATCGCCCAGTTCGGCAACCTGCTGGAAATGGAACCGGAAGCCTGGAAGCGTATCGTCGACGTGAATCTGATGGGGACGTACTATATGACGCGTGCAGCGCTGCCCGGCATGATCGAGCATAACCAAGGAGACATCATCAACATCTCTTCTACGGCCGGAGAACGCGGCTTCGCCACGGGCTCAGCCTATAACGCTTCGAAATTTGCCGTGATGGGACTGACCGAAGCCGTGCTGCAGGAGGTCCGCAAGCACAACATCCGCGTGACGGCGCTGACTCCGAGCACCGTGAACACGGATCTCGCCGTCAATGCCGGCCTGAAGATCGGGGACGAGGACCGGATGATGCAGCCGGAAGACGTAGCCGAGCTTGTGCTGGCGGCGCTCAAGCTGCCGCAGCGGGTATTCGTCAAATCCGCGGGGATTTGGACTACCAACCCGCAATAA	MSLKNKTALITGAGKGIGRALAIALAKEGVHVGLVARTAADLEPLSALVAEQYGVRAVAAVADVSVQSEAEAAFAAVNMELGSVDILINNAGIAQFGNLLEMEPEAWKRIVDVNLMGTYYMTRAALPGMIEHNQGDIINISSTAGERGFATGSAYNASKFAVMGLTEAVLQEVRKHNIRVTALTPSTVNTDLAVNAGLKIGDEDRMMQPEDVAELVLAALKLPQRVFVKSAGIWTTNPQ	PGPT0003180_21254	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
AK002_01398	2109			hypothetical protein	ATGCTGCAAACGCTGAATATCATAACCGCGTTTCGTCAGGGGGATGAATCGGCTGCGGGAACGCATCCATGGCTAATGAAGCTGATATCGGCCGAGGAACGAATCGTCAATCTGGAACGGATCACGTCCATCGGGCAATTGGCCCACGCCAACCCCGTGCTGGATTATGTAGAACGCACATTGAAGATACTGGATTCGCTGCCTGTTTCCTATTGGATCAAAGAGCTGCTGGAAGAAGTCCTGGTGTGGGCGGAAACGGCCAAGGGCGGAACGATGAGGGATCGCCTGCGCTGGCAGCAGTCGGGCATCCATTTGTTCCTGCATAATATCGGGTCCGCGCAGCTGTATGAAAGACATATCCGGCAAGGCAGGGGAACCCTGTCACCGCACGAAGAGATGGTACATACTCTCATACTTACCCATGGACTGCTCGGGCAACACATCCGGGGGGAAGTCGCCTTCGAGGAGAACCTGCCGCTGATTAAGCTTATGGAGGAAGGACGGTTGACCGAAGATGAGCTGATCCGGCTGCTGATCCCTTTGAATCACTGCATCATTGCTGCCGTATCGGAGGAGCTTTGGCATTCCGTTGAGGAAGAAATCAAACAGCTGATTCGCAAGCTTGCCGAAGGGAGCGTCCCGGATCGTTGGACTTACGAGGAAAGGCTGCGCCGCCTTCGGACCGCTTCCATTGCCCGGGGGGAAGATTTCGACAGGCAGTTTCAGGAGATTCGGAGGCAGACGGATCTGCCTGCTGCCCTGCATGGGTTTCAGGACATGACGCTTTGGTATGTGGAAGCGGCCCTGCAGGATTTCTCGTTGGAAGAGTTCGTGAAGGTTCTGCTGCTGGCTCTCCATTCGGAGAAGCAGAGCCCGGAGGATCGATTGTCTTCGGATTCGGTGAGCCACCTGAGCTTTGAGCCGCTGATGAACGATATGTATTACGATTACAAAGGCGTCAAGAAGCTGAACGTGTACAAGAAAAGAATGATCGAGCAATATTTGCGCCAGACGGATTGGGAGGCCTGCCTTCGCGGGCAGGCGATTGCCAACCCGCATCTGCGCCACCGCATCGAACGAAAGCCGGAGCTGCCGGATACGGTATTCTTTACCTTCGAATTCTCGCAGGCCGCGGAGAAATTAATTGAATTTTGCATCGAGGCGGAGAAATCCCCGCTCTACGAGAAGGCAGTGCTGCTGCTGTTTGATCTGTTTGGCCTGAGGCGGGATGCTTATGACCGGTTTCATAATGAAGAGAATTATTTAAACGATATGAACAGCGCGGGAGATTACAAGAAAGTGATTCTGGATTATATCACGGGAACGGCGGTGCTGGATATCGGTCCCGGAGGCGGCGTGCTGCTTGACTTGATCGAAGAACGGCTCCCGCATGCGCGTCCCGTCGGGATCGATATCTCCTCGAACGTGATCGAAGCGCTGGAAAAGCGCAAACGCTTGGAGCACAAAGCATGGGAAGTTCTGAAGGGGGACGCGCTGAATCTCAGGGACTATGTGAAGCCCGGAAGCGTCGATACGGTCATCTTCTCCTCGATATTGCACGAGTTGTATTCGTACATTGAGACGGACGGTTCGCGCTTCAATACGGCGACCGTGGAGGCAGCTTTGCTCAGTGCCTATGAAGTGCTTGCACCCGGGGGCCGCATTATTATCCGTGACGGGATCATGACCGAGCCCGAGGATACCTGGAGAAGGATCCGTTTCCATGAGGCCGACGGCATGGAATGGCTTAACCGGTATGCCTCGGATTTCAAAGGCCGGGTCATATCCTACGAGCAGCTGGCTGACGCGGAGGTGCGCATGCCTGTCAACGATGCGATGGAGTTTCTGTATACCTATACTTGGGGTGCCGAAGCGTATGTTCATGAAGTGCAGGAGCAGTTCGGATATTTCACGCCTACGCAGTTTGCGGAATGCATCCGCAGAACGCTGGGTCCCGAAGCGCTGATCCGCGTGCAGCAGCATTATCTGCAGGAAGGATATGCCGAGGCATTGGCTGACCGCATCGAATTCATGGATGAGGATGGGAAGGCGGTAACTTTGCCGGACAGCACCTGTCTTTACGTGATCGAGAAGCCGGCCCGTCCGTAA	MLQTLNIITAFRQGDESAAGTHPWLMKLISAEERIVNLERITSIGQLAHANPVLDYVERTLKILDSLPVSYWIKELLEEVLVWAETAKGGTMRDRLRWQQSGIHLFLHNIGSAQLYERHIRQGRGTLSPHEEMVHTLILTHGLLGQHIRGEVAFEENLPLIKLMEEGRLTEDELIRLLIPLNHCIIAAVSEELWHSVEEEIKQLIRKLAEGSVPDRWTYEERLRRLRTASIARGEDFDRQFQEIRRQTDLPAALHGFQDMTLWYVEAALQDFSLEEFVKVLLLALHSEKQSPEDRLSSDSVSHLSFEPLMNDMYYDYKGVKKLNVYKKRMIEQYLRQTDWEACLRGQAIANPHLRHRIERKPELPDTVFFTFEFSQAAEKLIEFCIEAEKSPLYEKAVLLLFDLFGLRRDAYDRFHNEENYLNDMNSAGDYKKVILDYITGTAVLDIGPGGGVLLDLIEERLPHARPVGIDISSNVIEALEKRKRLEHKAWEVLKGDALNLRDYVKPGSVDTVIFSSILHELYSYIETDGSRFNTATVEAALLSAYEVLAPGGRIIIRDGIMTEPEDTWRRIRFHEADGMEWLNRYASDFKGRVISYEQLADAEVRMPVNDAMEFLYTYTWGAEAYVHEVQEQFGYFTPTQFAECIRRTLGPEALIRVQQHYLQEGYAEALADRIEFMDEDGKAVTLPDSTCLYVIEKPARP				NA	NA	NA	NA	NA
AK002_01399	726			hypothetical protein	ATGATGTTGAAACGCAGAACACGCTGGATGCCGGCCCTACTCGTCATCCTTGCGCTGCTGTTCGTGATGACGGCATGCGGCCAGAATGACAAGGAAACCGAAAGCGGCGCAGGCGGCGGAACAGGTTCGACGAACGGCGCCGCGGCGCCCGAAGCGGAACCGCCGAAGGAAGCCGAGGTCAAGCAGAACGTGCCGGACCCGAACGCCAGCCACCCCATCGTCACGATTGAAATGGAGAACGGCAAAACGATAAAGCTTGAGCTTTACCCGGAGGTTGCGCCGAATACGGTGAACAATTTCATCTCTCTGGTGGAACAAGGGTTTTACGATGGCACAGGCTTTCACCGCGTCATCCCCGGCTTCATGATTCAAGGAGGCGATCCTGACGGAAACGGCACGGGGGGACCCGGCTACGCGATCGCCGGAGAATTTACGTCCAACGGGTTTCAGAATGACCTGAAGCATACGACAGGTGTATTATCCATGGCGCGGGCGCAGGATCCAAACTCCGCCGGGTCGCAATTCTTCATTATGGTCGCGGACGCGCCTTCGCTGGATGCCCAGTACGCCTCCTTCGGTAAGGTCATCGAAGGCATGGAAACGGCTGAGGAAATCGTGGGCTTGGAGCGGGATCAGATGGACAAGCCGCTTGAAGTGCCCGTCATGAAGAAAGTGACGGTCGATACGCTCGGGAAGGATTATCCGGATCCCGAAAAGCAGGAATAG	MMLKRRTRWMPALLVILALLFVMTACGQNDKETESGAGGGTGSTNGAAAPEAEPPKEAEVKQNVPDPNASHPIVTIEMENGKTIKLELYPEVAPNTVNNFISLVEQGFYDGTGFHRVIPGFMIQGGDPDGNGTGGPGYAIAGEFTSNGFQNDLKHTTGVLSMARAQDPNSAGSQFFIMVADAPSLDAQYASFGKVIEGMETAEEIVGLERDQMDKPLEVPVMKKVTVDTLGKDYPDPEKQE	PGPT0015111_1392	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015111-ppiB-K03768	NA	NA
AK002_01400	393			hypothetical protein	ATGAAAGGATTGCCGATCCATCCCTGCAGACATAAGATCACCCTGCAGCAGCGACTAGCCTCGTTGACCGGACATCTGGTGGAAATCAACGCGCCGAACACCGGATTGGAACCCGGACGGCTGCAGCGGGTATTCCCGAAAAATTTCATCAAGGTGCAGGGCGAGCTTTTTGTGCCGTCCAGTCTCAACTCGGTTCGGGTATTCGATGTCAAGCCGCCGGGCAAAACGGTGCGGGTTGGGGTGCGGACCACTTTCCCAACCCGCGGCGCCTTTGACCGGATCCGGCTTGTCAGAATCGGAGCCGATTTCATCGAATTGCTTGCCAAGGACAAGAACCGTTCGCGGATTCTGCTTCCTCTAAACAAAGTGGAGGGCATATTTCCTGTCAAGTAG	MKGLPIHPCRHKITLQQRLASLTGHLVEINAPNTGLEPGRLQRVFPKNFIKVQGELFVPSSLNSVRVFDVKPPGKTVRVGVRTTFPTRGAFDRIRLVRIGADFIELLAKDKNRSRILLPLNKVEGIFPVK				NA	NA	NA	NA	NA
AK002_01401	177			hypothetical protein	ATGAAGAAACAACCTGACGAGAAGCACCGTTTAGTGACCGAACGCGACATCGATGAGGAATTCGGCCTGTTTGTCGAGGATTCCTATCCGGACAGCATTCCGATACCCGACAGCATCAAACACGAGAAGCCGGATGGCAGTGATACGAGTAACCGCGGAAATCCTCCGTCATCCTAA	MKKQPDEKHRLVTERDIDEEFGLFVEDSYPDSIPIPDSIKHEKPDGSDTSNRGNPPSS				NA	NA	NA	NA	NA
AK002_01402	108			hypothetical protein	ATGGAAAGAAAGGGCAACATATTAACGGCACTCATATGGGGGACCCTGATCGGCATCCTGCTGTGGATGTCATTTCTTGGCTGGCTGGATATCATATTCGGAAAATAG	MERKGNILTALIWGTLIGILLWMSFLGWLDIIFGK				NA	NA	NA	NA	NA
AK002_01403	699			hypothetical protein	ATGCGAGACGAAAACAATCGGAATACGCTGGCAGATTTGACATATTTGGAATTCGAGGCCAAACGGAAAGTCGAGGATACGGATTTGATTCCGCAAGACGATCTGAGAGACGTCAACACCTATACGGAGCAGAGCCTAAGCAGCGAAGACGCGGATCATATCGCGTACGATCAGAATGAAGCGGCTCCTGCGGATGCAAAACCGGAGGAGCGGATGAACCCCGATCACAGCGCCATCGATGCATGGGAAGCTACCGGCGCCGATCCGGATCAGCGGACCCTTGCCGATGAGCGGTTAACCTTGTCATCCGATGCCGGAGAAGCCGACGAGGTGCGGCTGGACCGCACCGCCGACGAAACGGTTATTCGCGATGTCGCGGATGATGCGACGGACCCGGAATGGCGGGCCATCGAGGGTGAGCCTCCAACTCGTCCGGGTGACGAGGTCATCGCCGAGTATACCGGCGATACGGAGCAGAGAGTCGCAGCCGACGCAGCGTTGTCAGGCAGCGGTACCGCCTTTTTGAATCAGGACATTTTTATGAATTACCCTTCGGGTGAAGAGGAGTATACGCCCTTGGAGGATGTGCCGGACGCGGACGCGATTGCGGCCAACAGCCCCGTGGATCCCGCCGCGCCTCCGACGGAACAGATGCACGGAACCGATCTGCTGAACGGCAGCAATGGCGAGGACGACTAA	MRDENNRNTLADLTYLEFEAKRKVEDTDLIPQDDLRDVNTYTEQSLSSEDADHIAYDQNEAAPADAKPEERMNPDHSAIDAWEATGADPDQRTLADERLTLSSDAGEADEVRLDRTADETVIRDVADDATDPEWRAIEGEPPTRPGDEVIAEYTGDTEQRVAADAALSGSGTAFLNQDIFMNYPSGEEEYTPLEDVPDADAIAANSPVDPAAPPTEQMHGTDLLNGSNGEDD				NA	NA	NA	NA	NA
AK002_01404	1452	bicA	COG0659	Bicarbonate transporter BicA	TTGTTTCAATGGATTAGACAAGGCTTCTTTGGCAACTCGCGCAAAGATATTTTATCGGGTCTGACGGTAGCGTTCGCTCTCATCCCGGAAGCGATCGCCTTCTCCATCATGGCAGGCGTTGATCCGATGGTGGGACTCTATGCGTCCTTCGTGATTGCCGTCAGCATTTCGTTTTTCGGCGGCCGTCCCGGCATGATCTCGGCGGCGACAGGGGCCATGGCGTCATTGATGGGACCGCTTGTGGCTATGCACGGGATCGAGTATTTGTATGCGGCAACGATTCTGACAGGAATCTTGCAAATGTTGATGGGAGCGCTCAAGTTCGGACGTTTTATCACGTTTGTTCCCCAGCCGGTCATCACCGGCTTTGTGAATTCCCTGGCCATCATCATTTTTCTGGCCCAGCTTCCGAATTTCAAGGGCGAATCGTGGCCGATGTACTTGATGGTGATCGGCACGCTGCTGATCATTTATTTATTGCCGCTGGTAACCAAAGCGGTTCCATCGGCACTCGTTGCGATCATCGTGATGACGATCGTTGCGGTTTGGTTCAAGGCCCCGGTGCAAACGGTCGGGGACATGGGCAACATCACCCAGGCACTGCCGTTCTTCCACATTCCGAATGTAACCGTGAGTTTGGACATGATCATGACGATATTGCCTATTTCCCTGGCTCTTGCTGTCGTCGGGATGACGGAATCGCTGCTTACCGCGTCGCTCGTGGATGAGATGACCGAGACGGGCAGCGACAAGAACCGGGAAATCCGCGGTCAGGGCGTTTCCAACGTGATCACCGGATTCTTTGGCGGCATGGCGGGCTGCGCCATGATCGGACAGACGGTGATTAATGTGAAATCGGGAGGGCGAACCCGGTTATCCACCTTGGTTTCCGGCGTGTTTCTGCTGTTCCTCATCATTGTGCTCGGGGATGTCGTGAAACAGATTCCGATGGCGGCGCTTGTCGGGGTCATGTTTATGGTTTCGATCGGCACGTTTGAATGGGGATCGCTTCGCACGCTTCACCGCGTGCCGTTAGGCGATGCCATCGTCATGCTGGCAACGGTCATTATTGTGGTAGCGACTCATAATCTGGCCATCGGGGTCATGATCGGGATTATCTTAAGCGCCCTGAATTTCGGGTGGAAGATGGCCAAAATTCACGCCGTGCCCCATATGCAGCCGAACGGCACCAAGGTATATGAAATCCGGGGACAGCTGTTTTTCGGAACGATGATGTATTTTGTAAATCTGTTTGACGTGAACGATGATCCGGAATATGTCGTGATTGATTTTTCCAAATCCCATGTATGGGATCAGTCAGCCACGAATGCCATTTCGAAGGTATGGCATAAGTACAAGGAAGCGGGGAAAGACCTCACGCTCATAGGGTTGAACGACGAAAGCCAGCGGATGGTCGATAAAGTCGGCCTTGCTTCAAACTCTACGCATTAG	MFQWIRQGFFGNSRKDILSGLTVAFALIPEAIAFSIMAGVDPMVGLYASFVIAVSISFFGGRPGMISAATGAMASLMGPLVAMHGIEYLYAATILTGILQMLMGALKFGRFITFVPQPVITGFVNSLAIIIFLAQLPNFKGESWPMYLMVIGTLLIIYLLPLVTKAVPSALVAIIVMTIVAVWFKAPVQTVGDMGNITQALPFFHIPNVTVSLDMIMTILPISLALAVVGMTESLLTASLVDEMTETGSDKNREIRGQGVSNVITGFFGGMAGCAMIGQTVINVKSGGRTRLSTLVSGVFLLFLIIVLGDVVKQIPMAALVGVMFMVSIGTFEWGSLRTLHRVPLGDAIVMLATVIIVVATHNLAIGVMIGIILSALNFGWKMAKIHAVPHMQPNGTKVYEIRGQLFFGTMMYFVNLFDVNDDPEYVVIDFSKSHVWDQSATNAISKVWHKYKEAGKDLTLIGLNDESQRMVDKVGLASNSTH	PGPT0003020_5727	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
AK002_01405	1914	rcsC_4		Sensor histidine kinase RcsC	ATGAAGGATATGCCCAAATCCATATTCCTGCTTCTGCTGGTCGTGCCGCTGCTGCTAATTATATCGATTTTATCACCGGGACAATCGGATGCTGAGCGTGCTCATACCGTGATACCTGATTGGCAGTTTATGTGGGATAACGAACAACAGGAGGTTGTTTCGCCAGCCGGCATTCGGAATTCAAGCGGTTGGCTGACAGGGACACCAGAGAACAAAGAACCCCCAAAGTCAGATGGGGTATCTTCAGCATGGAATCGTTTTACCCTGCCTGACCTTCCTTGGAAACAATCGGCCATTATGATTGACCGGATCAAGGGGCAGGATGTTCTGGCTTTCTTGAACGACGAACCAGTGTATGAAGCCAAGCGGGACTATATGTATACGAATCATTCGCTGCTGCTTCCTTTTCATCCTGATGATGCCGGCAAAACCGTTTATATATGGACAAACGGTTCTAGCGATATGACGTTAGGCATCGATAGCGAGATCATGCTCGGCGAGTATGATGATCTGCGTAGAGGTTTTATCAAGAAGGATCTGGAGGATTTTATATTAGGCAGCTCCTTTTTGTTTATTGCGGTGGTCATGTTCTTCTGCTGCTTGTTCCTTCCGAAGCATACGGTATCCAGCTGGCTGTCCCTGAGCGTGATCATTCTGGCAAGCGGAGCCTTGCTAATTACGTACTCGCCGTTCCTGTACACCTTTTATGGCGAACTCGGCAGTGTATGGGTCTCGGTATTCGATATTTCGCTTTTCACCGTTTTGCCGGCGCTGTATTTCTATTTCGAGAAAATCTACGGACCCGGTCCCTACCGGCTCATTCGCTACGGCCGAAGAATTCAGATGGCCTACTCCGGGATCTGCCTGGTCTTCCTTGCGGTACATGTTCTGAGCCATCATTCGTTTTATGATATGTACTATTTCTTCTCCGTGAAGATTCTCGGCGTCCTGATTATCCTGCAGATGGTGCTGCTGATCGGTACCACGATTCTGTACGCTGCCAAGCGTAACAAGGACGCTTATATTTTTACAGCCGGCTTCGGCATGATGGCGATAGCGACGCTCGGAGATATGCTGGCCTTCTATTACCATGACGGGCATTATGAGCTCTTTCTGTGGAAATGGGGCGTTATCGGCCTGATCGTCTCCCTGATCATATTGCTGGGCCGTAAATTCGCCCGAAGCCATGAGCAAGTGCTGCAATATTCCCGAGAGCTGGAGATGTTTAATCACGAACTTCAGCGATCGGAGAAAATGGAGATCATCAGCGAGCTCGCCGCTTCGGTTGCGCACGAGGTTCGAAATCCGCTGCAAGTGACGCGCGGCTTCATGCAGCTTCTGGCCGAGAACTCCAAGCAGACGGAAAAGGAGTATTTTGGCTTGGCGCTGAAAGAACTGGACCGGGCTTCCGGGATCATCACGGATTTCCTCACGTTTGCCAAGCCTGAATTGGAGCATGAGATCAGGCTGAACGTGTATGAGGAGCTGAAGCATGTGAAAGGCATTCTGCTGCCGCTTGCGAATCTGAGCGGGGGCACGATCGAACTGGATGACGCCAAGGAATTATACATCACCGGCAATTCATCCAAACTGAAGCAAGCGATGATTAATATCGTCAAGAACAGCATCGAGGCACTGGATGGAGAAGGGACTATTCGTATCTGGGCCTATGCCGAATCTGATGAAGTCGTGATTCACATCCAAGATGACGGCATTGGAATAGAAGCTGGGGATCTGGAGAGGCTGGGCGAGGCGTATTTCTCGAATAAGTCGAAAGGGACGGGGCTTGGCCTGATGGTCACCTTCCGGATCATCGAAGCGATGCGAGGAACCATTCATTTTATCAGTGAAAAAGGAAGCGGTACCGAGGCGATCATTCGCTTTCCGTCCGTTCCTGATTCCGTGGAAGTTTAG	MKDMPKSIFLLLLVVPLLLIISILSPGQSDAERAHTVIPDWQFMWDNEQQEVVSPAGIRNSSGWLTGTPENKEPPKSDGVSSAWNRFTLPDLPWKQSAIMIDRIKGQDVLAFLNDEPVYEAKRDYMYTNHSLLLPFHPDDAGKTVYIWTNGSSDMTLGIDSEIMLGEYDDLRRGFIKKDLEDFILGSSFLFIAVVMFFCCLFLPKHTVSSWLSLSVIILASGALLITYSPFLYTFYGELGSVWVSVFDISLFTVLPALYFYFEKIYGPGPYRLIRYGRRIQMAYSGICLVFLAVHVLSHHSFYDMYYFFSVKILGVLIILQMVLLIGTTILYAAKRNKDAYIFTAGFGMMAIATLGDMLAFYYHDGHYELFLWKWGVIGLIVSLIILLGRKFARSHEQVLQYSRELEMFNHELQRSEKMEIISELAASVAHEVRNPLQVTRGFMQLLAENSKQTEKEYFGLALKELDRASGIITDFLTFAKPELEHEIRLNVYEELKHVKGILLPLANLSGGTIELDDAKELYITGNSSKLKQAMINIVKNSIEALDGEGTIRIWAYAESDEVVIHIQDDGIGIEAGDLERLGEAYFSNKSKGTGLGLMVTFRIIEAMRGTIHFISEKGSGTEAIIRFPSVPDSVEV	PGPT0025285_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK002_01406	1890	rcsC_5		Sensor histidine kinase RcsC	ATGAGGTCTGGATGGAGAATCGCTGTGTTCCTGATCATCGTTATAGCTTTTAGCCAGGGGTTACCCGGGCTTGTCTTTGCCACCGAAGAAACGGCAGCTCGGGCAGCGATTAAGGAGTGGAGAATCCTTTGGTCCGAAACCCGTGGGGTACCGGACAGCGTACCGGCCCACAGGGATGACTGGCTGGTAACTTCGACCGGAGCTTCGACGCCTTCCAAGCCGCATGCCAAGGCATCCGCATGGATTCAAATGAAGATTCCCGAGATATCATCGGCATCCCCCGGCATTTTAATTGACAAGCTGCACGGACAGCAGGTTGCGGTATATGCGGACCATGAGAAGATTTACGAATCTACCCGTACGTACAATTATGAGCTGAACTACATTTTGCTTCCCCTTCACCAGGACTTACTCGGGAAGGATCTGTACATCTGGCTGGAAACCGCGCGAGATCATGTGACGATGGAAGGGAAAATACTGGTCGGCAACTATCATGATCTGTTGAACCAGTTCGTGAAGTCGAATCTGGTGGACATCATCCTCGGGAGCGCCTTTGTTTTTATTGCATTGGTGATGCTGATCTGCGCCGTGTTCCTGAACAGAAAATATTTGATTACCGTCCTGTCATTATCGTTTATTATTTTATCCGTTGGCATACTGGTATTTACATACTCCCCGTTTCTTTATACGATTTTTGATGAATATGGAAATTTATATACTCAGTTATATGACATCTCATTATTTATTTTACTTCCTTCGTTCAGTCTCTTTTTTGAAAAAATCTTCGGCCCCGGCTGGAGGGGCGTACTGCGCAAACTTCGGAAGTTCCAGGTATTCTATTCGCTGTTCTGCGGCCTGTTCCTGATTTTCAATCAATGGGCCTCTAATCAATGGTTCGACCTGTATTATTTCTTCTCCGTTCAGGTCCTGGGTTTTGTCATGATTGTTCAATTCGTACTGCTGGTCGGCAGCTCGATGTACTATGCCGTTAAGGGAAATAAGGACGCCGTTATTTTCAACGCTGGCTTTGCGGTGTTTGCCATTGTGGGTTTGGGCGAGCTGCTGCAGTTTTTCCTGACCCGGGGCAGCTACAATCTGTTCCTCTGGAAATGGGGCATCGTCAGCTTCATCATTGCGCTGATCGTTATTCTCGGACGGCATTTTGCCAAGAATCACGAACAGATGCTTCAATACTCCAAAGAGCTTGAGATGTTCAACAATGAGCTGCAGCGTTCGGAGAAGATGGAAATCATCAGTGAGCTTGCGGCATCGGTCGCGCATGAGGTTCGCAACCCGCTGCAAGTGACGCGGGGATTCCTGCAGCTCCTCACCGGAAAAGCCCAGTCCACCGAACGGGAGTATCTGGATCTGGCCTTGGTAGAGCTGGACCGTGCCTCGGGCATCATTACGGATTTTTTAACCTTTGCCAAACCGGAATTCGGCAAAGACACGGTGCTGCGGATATCCGAGGAGTTCAAGCATATCGAAGGCATACTCGGCCCGCTGGCCCATCTGCAAGGAGGCAGAATTACCGTCGATATTCCGGAGGATATTACGATTCGGGGCAATTCCTCGAAATTCAAGCAGGCCTTTATTAACATCGTAAAGAACAGCATTGAGGCGCTGGGCGACGATGGGCTGGTTCATATCCGCTGCTACCGACAGCAAGGCCAGGTGTTTATTCATGTGGTGGATAATGGCGAGGGGATGGGACCGGAGGTGCTGGCACGCCTGGGAGAGCCCTATTTCTCGAACAAAACGAAGGGGACGGGCCTTGGCTTGATGGTGACCTTCCGAATTATAGAAGCCATGGACGGGGACATTTATTTTACGAGCAAAATAGGAGTGGGGACCGATGCCGTCATTACGCTTCCCGCGGCTTGCGAATGA	MRSGWRIAVFLIIVIAFSQGLPGLVFATEETAARAAIKEWRILWSETRGVPDSVPAHRDDWLVTSTGASTPSKPHAKASAWIQMKIPEISSASPGILIDKLHGQQVAVYADHEKIYESTRTYNYELNYILLPLHQDLLGKDLYIWLETARDHVTMEGKILVGNYHDLLNQFVKSNLVDIILGSAFVFIALVMLICAVFLNRKYLITVLSLSFIILSVGILVFTYSPFLYTIFDEYGNLYTQLYDISLFILLPSFSLFFEKIFGPGWRGVLRKLRKFQVFYSLFCGLFLIFNQWASNQWFDLYYFFSVQVLGFVMIVQFVLLVGSSMYYAVKGNKDAVIFNAGFAVFAIVGLGELLQFFLTRGSYNLFLWKWGIVSFIIALIVILGRHFAKNHEQMLQYSKELEMFNNELQRSEKMEIISELAASVAHEVRNPLQVTRGFLQLLTGKAQSTEREYLDLALVELDRASGIITDFLTFAKPEFGKDTVLRISEEFKHIEGILGPLAHLQGGRITVDIPEDITIRGNSSKFKQAFINIVKNSIEALGDDGLVHIRCYRQQGQVFIHVVDNGEGMGPEVLARLGEPYFSNKTKGTGLGLMVTFRIIEAMDGDIYFTSKIGVGTDAVITLPAACE	PGPT0025285_44	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK002_01407	240			hypothetical protein	ATGACGACAGAAGCCATCTTTCAAACACAATTGATTCAAAAAGCCTGGGAGGATCCTAGCTTTAAGGCAAAACTGCTCAGCGATCCAAAGTCCGCGATCAAGGAAGTTCTTGGTGTACGGATTCCCGACCACATCGAGATTCGAACGCTTGAAGAGAATCCGGGCGAGCTGTATCTGGTCATCCCTCCGAATCCGACTAGCGTGATCAAATCGGAAGCCAAGGAAAGAGCCATCTGGTAA	MTTEAIFQTQLIQKAWEDPSFKAKLLSDPKSAIKEVLGVRIPDHIEIRTLEENPGELYLVIPPNPTSVIKSEAKERAIW				NA	NA	NA	NA	NA
AK002_01408	954			hypothetical protein	ATGAACTGGTTCAAGCCTTTCGAGGACGATCTTGCCGCCGCTTTCTCGGCCTGCGAAGCAAGGCTGTCCGAATTCCCTGCTCCCCTGAACCAAATCGGTCTTTCATACCTCAGAAAGTTTGACGTCTTCGAGCAGGACAGTTCCAAAAATTACATCTGCTATCTGCTTCCCTTCTGGATGAAAGAACGGACCGCACTTCCCGCCGAGATATACCGTGATCTCTCCACCGCTAACATTATCGGCATGTTATACTACTTCATTCAAGACGACATCATGGACTCGCCTCATGACGGCCAGTCCTCCATCGATCCGAAACACCATCTCGCGCTTGCCAACCTGCTGTATTACGAATTTCTCACATCCTATCAACCTTACTTCCCGGCAAATTCAGAATTCTGGTATTATTTCAAACACTATACGCACGAATGGTCGGAAGGCGTCATCCATGAAAACCGGGAGGATTACTTTAAGCACGACAGGACCATGGTTGCCAAAAAAGCGGCTCCCGTAAAGCTGGGAAGCACTGCCGCACTTCTTCTATCGGATCAAGCGGACCTTATTTCACGAACGAACGACGTGATGAATCATGTGCTGCTTACCTTGCAGATGATGGACGATTGGACCGATTGGAAGCAGGATCTTGCGGATGGCAGCTACAACTGCCTGCTCTCCCTCATTAAATCGGAACGGGGACAACCGCAGGACGCTGTTCTAACGATATCCGAAGTACAGGAAGCCATCTTTATCAACAACATGCTGAAGCCTTATGCAGAAATTGCCGCTGCCACCCATGCCCATCTCTTATCGGTAGATATAGAGGCTCCGCATCTGATTTCCTTCCATCAAACGATGGTGGATGAACTTCAGAACGAAGCGAATCATATCGAAAACAGCAAAAAAACCTTGTCTTTTGGCGGGTTAAATTACCATTTGTCTATTCTAAACAAAAAATAA	MNWFKPFEDDLAAAFSACEARLSEFPAPLNQIGLSYLRKFDVFEQDSSKNYICYLLPFWMKERTALPAEIYRDLSTANIIGMLYYFIQDDIMDSPHDGQSSIDPKHHLALANLLYYEFLTSYQPYFPANSEFWYYFKHYTHEWSEGVIHENREDYFKHDRTMVAKKAAPVKLGSTAALLLSDQADLISRTNDVMNHVLLTLQMMDDWTDWKQDLADGSYNCLLSLIKSERGQPQDAVLTISEVQEAIFINNMLKPYAEIAAATHAHLLSVDIEAPHLISFHQTMVDELQNEANHIENSKKTLSFGGLNYHLSILNKK				NA	NA	NA	NA	NA
AK002_01409	678			hypothetical protein	ATGACTCAGAAAATTGTAGGAGCTTTTCGGACGGAGCAGGAAGCAACCCGAGCTATTGAGGAACTAAAGCAGCAAGGATTCAGAGCCGATGAAATCTCTGTCATTGCCAAGGATCGCGGCGAATCTTCCCATATTCAGGACGAGACCGGAACCAAAGCGCCCGAGGGATTGGCCTCCGGAGCGGCTACCGGCGGCGTGCTGGGAGGCGTCACCGGATTGCTCGCAGGTCTCGGCGCATTGGCCATTCCGGGCATTGGTCCGATCATTGCCGCTGGGCCGATCGCGGCAACGCTGACGGGCGCCGCCGTGGGTGCCGGTGCAGGCGGGTTGGTAGGAGGCCTGATCGGTCTTGGCATTCCGGAAGATCAAGCGGAGGAATATGGGGGCTACGTCGATGAAGGGCATATTCTGGTCATGGTGGATGCCGATGAGTCGAACGGTGGCCAGGTATATGATATATTCCGGAGCAACAGCGCGCTCAATGAACACCATTACCGTGAAGAAGGTACCTACAGCGGTACAGGAGCACCGGTAGATTCGCGTTCTGAAGCGGCTGCCGCCACCGAGGATGCCGTGCCGGACCCTAACCTGTATCAAGGCTATGGCGATGGCAACGGCGGCGCCGTGAGTCCTAACATTGTTAGCCCGGATCGTGAAGAAACCACGAAGAGACGATAA	MTQKIVGAFRTEQEATRAIEELKQQGFRADEISVIAKDRGESSHIQDETGTKAPEGLASGAATGGVLGGVTGLLAGLGALAIPGIGPIIAAGPIAATLTGAAVGAGAGGLVGGLIGLGIPEDQAEEYGGYVDEGHILVMVDADESNGGQVYDIFRSNSALNEHHYREEGTYSGTGAPVDSRSEAAAATEDAVPDPNLYQGYGDGNGGAVSPNIVSPDREETTKRR	PGPT0014649_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
AK002_01410	198			hypothetical protein	ATGGGCATGGGCATGGGCACGGTCCTTGGCATCCGGGACATGGCCCAGGACCGTGGCATCCGGGTGGACCTGGACATGGCCCCGGTGGACCAGGCGGTCCTGGACATGGGCACGGCCCCGGCGGTCCCGGGTATGGGCCGAGGGGTGCGAGAATGCAGCGCAACAAGCGTTAAACACGACTTCAAGCAAGCCCTGTGA	MGMGMGTVLGIRDMAQDRGIRVDLDMAPVDQAVLDMGTAPAVPGMGRGVRECSATSVKHDFKQAL				NA	NA	NA	NA	NA
AK002_01411	1110			hypothetical protein	GTGAACATTTCTATGATGAAAAGCGATCAACTGCAACAAGCCGTCGAGCTGTCCGACCGTATTTTTCTTAAACAGCCGGAACAGCCTTCCATGGGGGTATCCTTCCCTCCGATATTCTCGCCGGGTATCAGCCATTCCTACGGTGCCTGGGATCAGGACAAACTGGTGTCTTTCATGGGATTCGTGCCGTTTACCATCCAGACTCGCGGTGCCCGATTAAATATTTTCTCCATCGGCTCCGTCTGCACGGACTCCGATTACCGGGGACAACGGCTTGCGGGCAATCTCCTGGAACAGTGCATCCGGCATGGCGAGGCCTCCGGTGCATCCCTCATCCTTATTTCCGGCGGCAGATCCCTGTATACCCGGGCAGGCAGCCGTTTATTCGGCCGGGCACTCCGGTTCCGTCTATCTCCCGCCGTTGTGGAGCCGCTGCGTGCTGCAACGGGAAAAGAAGTGAACATCCGGGCCATGCAGCCGCACGATCTGTTCCAGATCCAAAGACTGATGGAACAGCGGGAAGCTGGATATGTTACAACGGCTTCGGAGCTTAACAAGCTGCTGGATGCAAGCGCATACTCCAACGTGATCCGTCTTAAGCAGCAGGTGCTCGTCGCCGAAGAAGGCGGGGCGTTGACCGCTTTTGCCATCATCGCCGTACCCGGAAACACGATGACGCCTTCCAGGGAGTCCACCCTCGTCGAGTGGGGAGGAAGCCCTGAAGCGGCCGCACTGGTTATAGCCGATGCCATCGCGTCCTTCAGCCTTTCAGAGCTTACGATTCCGCTGCCTTGGCAGGATAAGGAGCTTGCCGCTTTAATCCAATCTGCCGGTATCCTGCCGGAGTATATTCGCAACGAGGGAACCATTTATTTGGTAAGCGGGCCAGAGCTGCTTCGTCAGCTGGCTCCTCTGCTTCCCGAGGGGTTGATCCAGGCCGACGGCGAACATGGTCCGTACCGTCTTACCCTGAGCCATGAAACGTTGGAGCTGGATGACGAAGGTTTGCTTTCCATCCTGTTCGATCCGGAATCCCCGTATCGGGCTAACGGGAGCGTAACCTTCGATCCTGTCCCTCTCCCTTACGCAACCGGCCTTCAATATATATAA	MNISMMKSDQLQQAVELSDRIFLKQPEQPSMGVSFPPIFSPGISHSYGAWDQDKLVSFMGFVPFTIQTRGARLNIFSIGSVCTDSDYRGQRLAGNLLEQCIRHGEASGASLILISGGRSLYTRAGSRLFGRALRFRLSPAVVEPLRAATGKEVNIRAMQPHDLFQIQRLMEQREAGYVTTASELNKLLDASAYSNVIRLKQQVLVAEEGGALTAFAIIAVPGNTMTPSRESTLVEWGGSPEAAALVIADAIASFSLSELTIPLPWQDKELAALIQSAGILPEYIRNEGTIYLVSGPELLRQLAPLLPEGLIQADGEHGPYRLTLSHETLELDDEGLLSILFDPESPYRANGSVTFDPVPLPYATGLQYI				NA	NA	NA	NA	NA
AK002_01412	1443	nhaP2	COG3263	K(+)/H(+) antiporter NhaP2	TTGCCAAGTTTTGTTGATTCCATGATTTTGCTGTGCGGCGCCTTGCTTCTGACAGGCGTATTGACCACCAAGTTTTCTTCCCGTTTCGGCATGCCCGCTCTGGTGCTGTTTATCGCGATCGGGATGATTCTCAGCCGTTTCATTTATTACGATAATGCGGAGCTCACGCAGCTGGTCGGCATATTTGCACTGATCGTCATTTTGTTTCAGGGCGGAATGCAGACCGACTTCAAAGAAATCAAGCCGGTACTGGGTCCGGCCATTTCGCTTGCCACGATAGGCGTCCTGCTGACAACCGTTGTAATCGGACTATGCGCCTCATTTGTGCTTGATATTTCTTTAAAAGAAGGACTGTTAATCGGCGCTATCGTCGGCTCGACGGACGCGGCAGCCGTATTCTCGGTTCTTGGCGGAACGAATCTGAAGAAAAGGCTTCGAATGACGCTCGAGGCGGAATCCGGAAGCAATGACCCGATGGCGGTGTTTCTTACCGTGTCCTTGATCGAATGGATAGAACATCCGGACCTAAATTTGTTCGGGCTTATTTTTTCGTTTGTGATGGAGATGGGATTAGGGCTGGTGGTCGGCATTCTTGTCGGCATGCTGGCCGTGTATGTGATCAATCGCATCAACTTCGATTCTTCGGGGCTATACCCCGTGACTGCTTTAGGATTTGCCGTGCTGACGTATGCCGCCGCCGCATGGCTTGGAGCCAGCGGTTTGCTGGCCGTATACGTTATGGCCTTGCTGCTTGGCAATACCGAGCTGACGTACCGTAAGACGATTCAAGCATTCAATCAAGGTTTTGCGTGGATGATGCAGATCGTGATGTTTGTGCTGCTCGGGCTGCTTGTCTTCCCGAACGAGCTGTCGAAGGTCGTATGGCAAGGACTCCTGTTGTCCCTGATTCTCATCTTCATCGCCAGGCCGATCGGCGTGTTCAGCAGTCTATTGTTCGCCAAATTTGCCGTCCGCGAGAAAATATTGATTTCATGGGCCGGCCTCCGTGGGGCCGTACCGATCGTATTGGCTACATATCCCGTACTGTCGGGAATCAGGCAGGGGGAATTGTTTTTTAATGTCGTGTTCTTTGTTGTATTGACATCAGCGGTGATCCAGGGCACCACCATCTCTCCGCTCACGCAAAGGCTTGCGCTGGTGGAGAAAGATAAAGGAAAGGCCCCGTCCTTATTGGAGCTGATGGCTCTAGGGAAAACGGATTCCGAGATCAACCACGTGCTGGTGGATGAGGATATGCCCATCGTCGGCAAGGAGATTCAGCAGCTGAATCTGCCGGACGATATCCTCTTTACCGCCATTATTCGGAAGAAACGCATCATCACGCCGAGAGGAAACACCGTCATTGAGGCAGGGGACACGTTATACGTAATGAACCCGAAGCAAAAACGGAAGGAAATGAAAACGATTCTTGGGTTATCCTAG	MPSFVDSMILLCGALLLTGVLTTKFSSRFGMPALVLFIAIGMILSRFIYYDNAELTQLVGIFALIVILFQGGMQTDFKEIKPVLGPAISLATIGVLLTTVVIGLCASFVLDISLKEGLLIGAIVGSTDAAAVFSVLGGTNLKKRLRMTLEAESGSNDPMAVFLTVSLIEWIEHPDLNLFGLIFSFVMEMGLGLVVGILVGMLAVYVINRINFDSSGLYPVTALGFAVLTYAAAAWLGASGLLAVYVMALLLGNTELTYRKTIQAFNQGFAWMMQIVMFVLLGLLVFPNELSKVVWQGLLLSLILIFIARPIGVFSSLLFAKFAVREKILISWAGLRGAVPIVLATYPVLSGIRQGELFFNVVFFVVLTSAVIQGTTISPLTQRLALVEKDKGKAPSLLELMALGKTDSEINHVLVDEDMPIVGKEIQQLNLPDDILFTAIIRKKRIITPRGNTVIEAGDTLYVMNPKQKRKEMKTILGLS	PGPT0013860_1385	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
AK002_01413	471	dps2	COG0783	DNA protection during starvation protein 2	ATGAGTAACTTAACCCAACAAGCGCAAGGAACAACCGATGAACTTCAACAGATACTGAATACGCAGGTAGCCAACTGGAGTGTGCTTGGCGTGAAGCTGCACCATTATCATTGGTATGTGAAAGGCCCTCAGTTCTACGTGCTGCACGAGAAATTCGAGGAGCTGTACAACACGGCCGCCGGTTATGTGGATGAGCTGGCAGAGCGAATGCTGGCCATCGGCGGCAAACCGGCCGCCAGCATGGCTCAATATTTGAAGCTGACGACGCTGCAGGAGGTTTCGAATGAAAACACGGCCGAGCAGATGGTCGGACAGCTGGTTGCGGATTTCGAGAAAGTGGCCGGAGAGCTCAAGTCCGGTATCGAGGCAGCAAACCAAGAGGGCGACGATGCAACTGCTGATCTGTTGACCGGCATGGTGAGCGATGTGCAGAAGCATTCGTGGATGCTGAACGCATTTTTGGGCAAATAA	MSNLTQQAQGTTDELQQILNTQVANWSVLGVKLHHYHWYVKGPQFYVLHEKFEELYNTAAGYVDELAERMLAIGGKPAASMAQYLKLTTLQEVSNENTAEQMVGQLVADFEKVAGELKSGIEAANQEGDDATADLLTGMVSDVQKHSWMLNAFLGK	PGPT0004055_2793	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
AK002_01414	906			hypothetical protein	ATGGCAGAGATGGAATCACGACAACAGCTGGAGTCGCAGCTTCAAGAGATTTTGAAATGGGAGAAGGAGCAGAAGGACGTCATGTTCTGGGAGAAGCTCGGAAGAATTCCCTTTATGCTGCTGGATCGCCTCACGCCCAAGGCTGTTCAAGAGAAAATCGGAAGCGCCTTGAACGAGGTCGGCGGATTTATTCAAAGCGGCGGGAAGCATCTGGTTCGCGAGAAGTCGGTCATGAACGTACTGGCTCAGACCGCTGGATTGGATGGTTCAGGCGCGGTGAACGACCCTTCCGCGAAATCCGGCGAGGCGGGGTCGGGCGGGGCTGGGAACGGAGAAGAGCAGGCGGTGGCTTCCGGACTTACGCTGGCAGCAGCCGCGAAATTGCCGCTCCAGGTCATGGATGCGGCAGCGGATACGCTGACGGTAAAGCGGGTCAAATTCGCGGCGGCCCAAGGGGCGGCAACGGGAATCGGAGGCGTATTTACGATAGCGGCCGATCTGCCCATGGTGCTCGGTCAATCGCTCAAGGTGCTCCAGGAGATGGCCCTTTGTTACGGGTATGATCCGAACGATCCCCGGGAGCGGGTGTTTATCGTGAAATGCCTGCAGTTTGCATCCGCCGACATCGTCGGAAAGAAAGCGGTGCTTGAGGAGCTCGCCAGTTTTGACGACGTCCAGGCGACGGAGCAGGTCTTCTCGCAGCTGCAGGGCTGGCGTGAAGTCGTCCAGTCGTATACCGATAACTTCGGGATGAAAAAGCTGTTTCAGCTGATTCCGATCGCCGGGATCGTATTCGGTTCGATCAGCAACAAAGGCACCATAAGCGATGTGGCCGAAGCCGGGAAAATGCTGTACAAGAAGCGGCGTGTTCATTACCGTCTTCGGAATATGGAATATCCGTTGTAA	MAEMESRQQLESQLQEILKWEKEQKDVMFWEKLGRIPFMLLDRLTPKAVQEKIGSALNEVGGFIQSGGKHLVREKSVMNVLAQTAGLDGSGAVNDPSAKSGEAGSGGAGNGEEQAVASGLTLAAAAKLPLQVMDAAADTLTVKRVKFAAAQGAATGIGGVFTIAADLPMVLGQSLKVLQEMALCYGYDPNDPRERVFIVKCLQFASADIVGKKAVLEELASFDDVQATEQVFSQLQGWREVVQSYTDNFGMKKLFQLIPIAGIVFGSISNKGTISDVAEAGKMLYKKRRVHYRLRNMEYPL				NA	NA	NA	NA	NA
AK002_01415	498	queF	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGGCTGGAAGACAAAAAGAAGAAATGGAAGACGTTACCCTGCTCGGCAACCAAGGCACGAAATACACGTTCGAGTATGATCCCGGCATTCTGGAGAGCTTTGACAATAAGCATCCCTACCGCGACTATTTCGTCAAATTCAACTGTCCCGAATTCACAAGCTTATGCCCGATCACAGGCCAGCCGGACTTTGCGACCATCTACATCAGTTACATTCCGGATATCAAGATGGTGGAGAGCAAGTCCTTGAAGCTGTACCTGTTCAGCTTCCGCAATCACGGGGACTTTCATGAGGATTGTGTCAATATCATCATGAATGACCTGATCAAGCTGATGGATCCGAGATATATCGAGGTATGGGGCAAATTCACCCCGCGCGGTGGTATTTCCATCGATCCGTACTGCAATTACGGTCGCCCGGGAACCAAATACGAGGAGATCGCCGCGAATCGTCTGATGAACCATGACCTGTACCCCGAAAAGGTGGATAATCGGTAA	MAGRQKEEMEDVTLLGNQGTKYTFEYDPGILESFDNKHPYRDYFVKFNCPEFTSLCPITGQPDFATIYISYIPDIKMVESKSLKLYLFSFRNHGDFHEDCVNIIMNDLIKLMDPRYIEVWGKFTPRGGISIDPYCNYGRPGTKYEEIAANRLMNHDLYPEKVDNR				NA	NA	NA	NA	NA
AK002_01416	795	queE	COG0602	7-carboxy-7-deazaguanine synthase	ATGAATAATGTGCATGAAACGCCTGTTACGGATTCAAACGGGGGCTCCTCCCCTGCCATGACGGTGGAACGTCCGGTTCCCGTGATGGAGATTTTCGGTCCTACCGTTCAAGGCGAAGGCATGGTCGTTGGCCGCAAGACGATGTTCGTTCGGACGGCGGGCTGCGACTATCGCTGTTCCTGGTGCGACTCCGCATTCACGTGGGACGGTTCCGCAAAGGACTCCATCTCTTTGTTGAGTGCTGATGAGATTTGGCAAGAGCTGTACCGGCTGGGCGGAGAACGCTTCGATCACGTCACCCTGTCCGGCGGCAATCCCGCTCTTCTTCCCCAGCTTGGAGCGCTTGTGGATGAGCTGCATCGGCACGGAATTACCGTTGCCGTGGAGACTCAAGGCTCACGCTGGCAGGACTGGCTGAATCATATCGATGAAGTCACCATTTCCCCCAAGCCGCCAAGCTCGGGCATGGATACGGACTGGGGCAAGCTCGACGATATCGTCTCGCGTTTATCCGCCCGTCCGCCCGGCAGAACCTTCAGCCTGAAGGTTGTGGTCTTTGACGATAAGGATTTGACCTACGCGGAAACGGTCCATGAACGATACCCGAACGTACCATTTTACTTGCAGACCGGTAATCCCGATGTAGGCACAGGGGACACGACTTCGCTTGTGTCTCATCTGCTGGACCGGTACGAGTCGCTTGTTGATGCGGTCATGCAATCCGACCGGTTAAACGATGTGCGTGTCCTGCCGCAACTGCACACGCTCGTCTGGGGGAATAAACGCGGCGTGTAG	MNNVHETPVTDSNGGSSPAMTVERPVPVMEIFGPTVQGEGMVVGRKTMFVRTAGCDYRCSWCDSAFTWDGSAKDSISLLSADEIWQELYRLGGERFDHVTLSGGNPALLPQLGALVDELHRHGITVAVETQGSRWQDWLNHIDEVTISPKPPSSGMDTDWGKLDDIVSRLSARPPGRTFSLKVVVFDDKDLTYAETVHERYPNVPFYLQTGNPDVGTGDTTSLVSHLLDRYESLVDAVMQSDRLNDVRVLPQLHTLVWGNKRGV				NA	NA	NA	NA	NA
AK002_01417	492			hypothetical protein	ATGAGCCGAGAGCCCGGGGCTTTCCGCATTGTAGAGCATCTGCAGAAGCTTGGCGAAGACATCGATGCCGGAAGCCTGCGTTACCATCGGAAGCGGGTGCTTGTTTCCAAAGAGTTTACCTTCGATGCTGCGCACCACCTGCATTGCTATGAGGGAAAATGCAAAAACCTGCATGGCCACACGTATAAAGTGGTTTTTGGTATCAGCGGAACTCCAAACGAGGTCGGCATTACCGTGGATTTTGGAGACATCAAGGATTGCTGGAAAACGAGTATCGAGCCTTACCTGGATCACCGTTACCTGAACGAGACCTTGCCGCCGATGAATACGACAGCAGAGAACATGGTGGTCTGGTTGTTTGAGAAAATGGAGGAGGCCCTCCGCAGCAGAGAATCCTACGAGCAACAAGGCATGCGAACGGAGTTCGTTCGCCTGTTCGAGACGCCGACCAGCTACGCTGAGGTCAGACGGGAGTGGATGATCCATGAATAA	MSREPGAFRIVEHLQKLGEDIDAGSLRYHRKRVLVSKEFTFDAAHHLHCYEGKCKNLHGHTYKVVFGISGTPNEVGITVDFGDIKDCWKTSIEPYLDHRYLNETLPPMNTTAENMVVWLFEKMEEALRSRESYEQQGMRTEFVRLFETPTSYAEVRREWMIHE				NA	NA	NA	NA	NA
AK002_01418	678	queC	COG0603	7-cyano-7-deazaguanine synthase	ATGCTTAAAAATGAAAAAGCAGTCGTTGTTTTCAGCGGGGGGCAAGACAGCACCACCTGCCTGTTCTGGGCGAAGGAACGCTTCGCCGAAGTGGAAACCGTAACATTCGATTATGGCCAGCGCCATAAGCTTGAAATAGAATGCGCGGCACAGATTGCCAAGGAGCAAGGCGTGAAGCAGACGGTGCTTGATATGAGCCTGCTTAATCAGCTGGCACCGAATGCATTAACGCGCAGCGATATCGAGATCGCCGAAGGCGACGGCTTGCCTACAACGTTTGTGGATGGCCGGAACCTGCTGTTCCTCAGCTTTGCCGCCGTGCTGGCCAAGGGCGTCGGAGCGAAGCATCTGATCACGGGCGTATGCGAGACGGATTTCAGCGGTTATCCCGACTGTCGGGACAGCTTCATCAAATCGCTCAACGTTACGCTGAACCTGGCCATGGATTACCCGTTCGTCATTCATACCCCGCTCATGTGGCTCGACAAATCCGAAACCTGGGAGCTTGCCGACCAGATGAATGCGCTCGAATATGTTCGCGATCATACGTTAACCTGTTATAACGGCATCAAGGGAGACGGCTGCGGGGAATGTCCTGCATGCAAGCTGAGAAAAGCGGGGCTCGACAAGTATATGCAGCGCCGTAACGGCATCTCCGAGAGGGGGCGCCTGGTATGA	MLKNEKAVVVFSGGQDSTTCLFWAKERFAEVETVTFDYGQRHKLEIECAAQIAKEQGVKQTVLDMSLLNQLAPNALTRSDIEIAEGDGLPTTFVDGRNLLFLSFAAVLAKGVGAKHLITGVCETDFSGYPDCRDSFIKSLNVTLNLAMDYPFVIHTPLMWLDKSETWELADQMNALEYVRDHTLTCYNGIKGDGCGECPACKLRKAGLDKYMQRRNGISERGRLV				NA	NA	NA	NA	NA
AK002_01420	705			hypothetical protein	ATGATTATCCGAATGGAAGATGCGGCCGGCAGCGGAGCAGGTCAAGCGGTTACGTTCTCTTTGACAGAGGGGGACACGGCGCATGTCCTTCATCCCGAGCAGATCGTTGCCTATCGTGGACCCTCCTCCGGGCGCAGCGATCGACTTATGAACGTGAAGGGCATCTACCGCAAAAAAAAGCTGATCCGTGCCGACATTACGGGACCCAGCCAGTTTACGGCTGCGCTTCCCCCGGGCTTCAACATGCATGAAATTCAGCTGGAAGGCGAACAGGACATGCTCTATGATTTTCGTCATGTTTTCTTTTACACCCGGTTTGTTACGATGCAGACAAGAATACTGAAAATCAAAAACATGCTGGTCACGCGAGATGCCATTAAGATGAAGTTTTCCGGGAATGGCAGCATCGGCATTCTGACCCAAGGCCCGGTATGCAAAGTCAAGCTGCATCCTACCGAGCCGCTGTATGTGGACGCCGGAAGCATCATCGCCTACCCCGAAGCCGCTAAGCTGGACCTGACCGTATACGGCAATCATCTGGCCAGCCAGCACATGAACTATCACTGGAAGCTGACCGGCGACGGTTATGTGCTGTTTCAAGCGGGACGCCAGAATCAGCGGCTCGTGAACGATTTAAACGACGAAGGCATCATCAAGCGATTCCTGCGGGAAGCAATTCCCTTCGGCGGAGTGTTTATCAAATAA	MIIRMEDAAGSGAGQAVTFSLTEGDTAHVLHPEQIVAYRGPSSGRSDRLMNVKGIYRKKKLIRADITGPSQFTAALPPGFNMHEIQLEGEQDMLYDFRHVFFYTRFVTMQTRILKIKNMLVTRDAIKMKFSGNGSIGILTQGPVCKVKLHPTEPLYVDAGSIIAYPEAAKLDLTVYGNHLASQHMNYHWKLTGDGYVLFQAGRQNQRLVNDLNDEGIIKRFLREAIPFGGVFIK				NA	NA	NA	NA	NA
AK002_01421	453			hypothetical protein	ATGTTTAAGCCGTCAAAATCCAGGCTCATCCAACTTTCTCTTATTCTGCTGGTGGCAGGAATCGCGCTGCCGGCCGGAGGACGGACCGCCAGCGCCAATTATTTCAACAATATGTACGATAATATCCAGCAGTTCACGGGACTCCCCGACGAAATAAACCAGCTTAAGAGCAACTATAACCAAGCCCTGCAAGAGCTTGATAAAGCCAAGATCGCTTCCGAACGGCTGCAGCAGCAAAATCTGACCCTGGCGGAGCAGAACTCCAATCTTGCAGAGCAGAACCAGCAATTAACCCAAATGGTAAGCCAGTTACAGGAGGCTGAAGCCGCACGAAAGCGCGGGGCGGAACGTTTAAAAACGGTAGCGATCACCGCCGTGGCGTTAGCTGCCGGATACTTTGTCATCATTCGCGTCCTGCGATTCGGCATGCGCCGAACGAACCGTTCGAGATAG	MFKPSKSRLIQLSLILLVAGIALPAGGRTASANYFNNMYDNIQQFTGLPDEINQLKSNYNQALQELDKAKIASERLQQQNLTLAEQNSNLAEQNQQLTQMVSQLQEAEAARKRGAERLKTVAITAVALAAGYFVIIRVLRFGMRRTNRSR				NA	NA	NA	NA	NA
AK002_01422	159			hypothetical protein	ATGATGAAAGATAACAACGTGAAGAAAATTATGATAACGGTGAATGGAAAGCCCGTAGGCAACGGCTTATTAATCGATAAAGTCACGTACGCGCCCATTCAACGCACTGAAAGATTTATGGGAGATACGAAGTCCGCTTCGGCAGCGGTAATAGGTTAG	MMKDNNVKKIMITVNGKPVGNGLLIDKVTYAPIQRTERFMGDTKSASAAVIG				NA	NA	NA	NA	NA
AK002_01423	744			hypothetical protein	TTGAAGAAAATGGGCTTTTGCATTCATTGCGGTAAAGAATTAACGGATGGCGTCGCACATCAATGCGCTAACGACATCTCGGCGAATCCTCTGAAATATACGGCGGCAGCGGCGGAGCCGGAACATAGGCGTCACGATTCCGCATCGGCCGGAGGCTCTCATACCAAAACTTCATCGGCCGTTCAAGTCGATGGTCAGGTGCTGCTGAATCTATTGAAAAATCCGATGAGTGCCCTGAATATGCGGGGGGATCAAACAGGCATGATCTACGGCCTGATCGGGATGGCATCCAGCATCCTCGGTTTCTGGTTGTTCGGCCTAGGAGTCAAGCGGATGTTCTATTCCGGACTGGGCATGATGTCCGCCTTGTTAAGCGATTTCGGGATGGGGAGCCGTTTTCTTCTGCTGGGATTGTTCTCAACCGTCATCCTGCTGGGTTCGTTCTGGCTTGCCGGGAACATGATGACCAAACAAAAGCTCGACATGAAGGATTACATAGCCAAAATGGGCTCGTTCCAGCTGCCGTTCGGAGCGGTGCTTATCGTTAGTGGACTGCTCAGCTTCTTGTTGGTAAAGCCGGCTTTCTTCCTCCTTGTATTTGCTCTAATGACCGGTTTGGCGGCAAACAGCGCCGCCGCAATCGAGTTGTACCGGATCGGCTCAACCCAGCTGGTCAAATTCATTGGGATCGCTTTAGGAATATATGTTTTGCTGCTTGCCGTGGTCAACACCATTTTATTGTAA	MKKMGFCIHCGKELTDGVAHQCANDISANPLKYTAAAAEPEHRRHDSASAGGSHTKTSSAVQVDGQVLLNLLKNPMSALNMRGDQTGMIYGLIGMASSILGFWLFGLGVKRMFYSGLGMMSALLSDFGMGSRFLLLGLFSTVILLGSFWLAGNMMTKQKLDMKDYIAKMGSFQLPFGAVLIVSGLLSFLLVKPAFFLLVFALMTGLAANSAAAIELYRIGSTQLVKFIGIALGIYVLLLAVVNTILL				NA	NA	NA	NA	NA
AK002_01424	723			hypothetical protein	TTGCAGTCAGGCTTGTATTCGGATTATACATGGAGCCACAGCCATGTGTTCGCTGGCGGCACTAGTCAAGTCTTTCTGCTGATCGAGTGGAGGGCTGGTGTCCAGAAGCAGAAAACGCAGTCCAAAGGCCTTCGTCGGCGCATAGCCGAAGAAGTCCAGCTGCACCTTCAATTAGGGGAAGGCGTTCAAGTGGAACAGATGTATGGCTGCCAAGGGGAGATTCTGAATGATCGCAACATCTCGTTGTCTTTAGGCTCTTTGTCCGAAGGAAGAACCAAGCGATTGGTTCTTGAGCTGAGTGTCGGTGCTCGTCAATCGGGGGTGTATCCCATCGTTACTGCCTTATGGACTTATATGGATGTTCTAAAGCAGAAGGTGGTTTTGCAGCCGTCCCGAACGATACCGCTTCAATTCAGCAATCATACGACGTTGAGATACCGAAAAGCAGATTACCGGGTAGAGAAAGTGCTGAAATTATACCAGAATGCTTTCATCCTGGAGCAGGCAAGAGAAGAACTGGAACAGGGGAATTTGACTCAAGGTGAAGATCTGATTCGTAGACAGGCAGATGAGATGCTTTTATACGCAACCCGATTTCGAGATCCGGAATATTTAAAGGAGGCCGAAGTCCTTTATAAACTCAGTGTTCTATATAAGAATACATATCAGCAGTTTTATTCTGAAAATGCGAACTGGAAAAGGGACTTTAGACTTAAGTCATAA	MQSGLYSDYTWSHSHVFAGGTSQVFLLIEWRAGVQKQKTQSKGLRRRIAEEVQLHLQLGEGVQVEQMYGCQGEILNDRNISLSLGSLSEGRTKRLVLELSVGARQSGVYPIVTALWTYMDVLKQKVVLQPSRTIPLQFSNHTTLRYRKADYRVEKVLKLYQNAFILEQAREELEQGNLTQGEDLIRRQADEMLLYATRFRDPEYLKEAEVLYKLSVLYKNTYQQFYSENANWKRDFRLKS				NA	NA	NA	NA	NA
AK002_01425	399			hypothetical protein	ATGACAGACCGACTGATCCGACTAATGAGAATCATTACCCTTGTACAAGCAAGACCAGGAATACTTGCTCGGGAGCTTGCCGAACGCTGTGGAACCAGTGAAAGAACCATTTATCGGGATATGGATGCCCTCAGTGCCATGCATATCCCCATCACTCACCAAGGCCGCGGCCGCGGCTATACCTTCATTGGACATTTTGCAATGTACCCCCTTGGTTTAACGGAAGAGGAGGTACAGGCATTATTTAAACTGCTGAATGTAATGGACAAAATCAAGCCGATCCTGCCGGATGAATTTGAAAGCGCTTATGAAAAGGTGTTGGCTGCTGTATATAAGCAAAGCGCGGAGAAGGCTGAAATTCAGGCCGGGGACCGGGAAGAATCCTCAACCGGTTTATAA	MTDRLIRLMRIITLVQARPGILARELAERCGTSERTIYRDMDALSAMHIPITHQGRGRGYTFIGHFAMYPLGLTEEEVQALFKLLNVMDKIKPILPDEFESAYEKVLAAVYKQSAEKAEIQAGDREESSTGL				NA	NA	NA	NA	NA
AK002_01426	1200			hypothetical protein	ATGAAGAAGATCTTGATCAGTGTATTAACGGTGCTAACTGTGATCATCGGAAGCTTGAATTCGGTCGTGGCGGAGGCGGCCCAAGACAATGCGTTCGGCAAAGCGGTGGAGTCTCGTGAGACCGCGGCTGTCCAGTTTACGGATATTCAGGGCCACTGGGCCCAGGCAGCTATTCAAGATGCGGTACAGCGAGGTTATGTGGATGGGTATCCGGATAGAAGATTCCTGCCTAACCAACAGGTATCCCGAGCGGAATTCATCAAAATGGCGGTGTCGGCCCTGGAGCTTGAGGCAGCTTCTACAAGTTCAGGTTCCTGGTATGCTCCTTACGTGACGGCGGCAGAATCGGCAGGGATCTATAAAGCCGGCGATTATGCCGACGGTAACCTGACTCAACGGATGACGCGTGAAGAGATGTCCAAACTGGCGGTAAAAGCACTGGGGTACAAAAATGTGGAGGATAAGCAGTGGATGTATCTTGCATCCAAGGATGGCATCATATCCGGGACCGCCCCGGGCGTAATATCACCAACGGGCGCTACCACAAGAGCTCAAGCGATTGCGGTCATTGAGCGACTGCTTCAGGTAAAAAGCGGCAAGGAGCTTCCCGTGGATAAATATGCAGTAGCTGCTGCTGAGGTGTATTGGCACAAGACGAATATTTTCTCGGTGGCACCGGAGATTTTTAATGGGCCGGATAATCATAACAAAAATGTAGGTATCGATTCATGGAAGTTGTCTAAGCTGCAATTCGGTGCACCGGATGGGTCTGTTGTTGCTCAGGTGGATGAATTAATAGCTATTGACTGGAACGATCCGAAAGATCCAAATCGCAAATTACTTCCAAGTAAAGATAAACTTGTGTGGGTACTTGGTTCTAATAAAAATGTCTTTGATAACGATTTACAAGCTTATGTGATTCTACTGAAATCACATTATATTGTTAATAATAAACCAAAATTATACCCTAGGGACGAGCTAGCGTTGAATATTCGGGGATACAACGGAAAAGCAAATGGTAGAGTTTTAAATATGCCGCATCTTATCGAATCAACAGATCCTAAAAAGCACGTTAATGGTTTGGTTATACCCAAGGAAGGATTTAGTACAGGGGGTATAATTGAAGTTATGGTGGAAACTATTACAGCAGGTGCTCCAATTTATCTCAGTAAATTATCTAGATCTATACTGATTAAGTAA	MKKILISVLTVLTVIIGSLNSVVAEAAQDNAFGKAVESRETAAVQFTDIQGHWAQAAIQDAVQRGYVDGYPDRRFLPNQQVSRAEFIKMAVSALELEAASTSSGSWYAPYVTAAESAGIYKAGDYADGNLTQRMTREEMSKLAVKALGYKNVEDKQWMYLASKDGIISGTAPGVISPTGATTRAQAIAVIERLLQVKSGKELPVDKYAVAAAEVYWHKTNIFSVAPEIFNGPDNHNKNVGIDSWKLSKLQFGAPDGSVVAQVDELIAIDWNDPKDPNRKLLPSKDKLVWVLGSNKNVFDNDLQAYVILLKSHYIVNNKPKLYPRDELALNIRGYNGKANGRVLNMPHLIESTDPKKHVNGLVIPKEGFSTGGIIEVMVETITAGAPIYLSKLSRSILIK				NA	NA	NA	NA	NA
AK002_01427	3681			hypothetical protein	ATGAAGAGATCTAGTCGTTATTATACTGTTTTAGTCATAACTGTCGTCACTTTTTTAATATCATTATTTCTACCTTATTTGCATTCTATTGAGGCAGCCAATGATACTACTCAAATTATAGATTATGAATTCGTAGCTGACCCCAAAAATTATGAGTATAGTGGATACTTATTTTCTGCTAAAAAAGAGTTAGAAACAAAGTTAATTACTTTGGACGCACCCTCAGGAAAAATAATAAAAAAGATTGAATGGATAGACAAAAAAACAAAATCCCCCATAAGACCAATTAATGGATTCACACCCGGGGTAACAAAATGGAGCGGCAAAGACTCTTTAAGTGGTACGAAAATAAAAGTTTCTTCAATTAATAACACAAACTACGGTGGTGTCTATTACTGGGATAGATGGTCGGTATCAGATGCAGGAAAAGAATATGGACAATTATGGAAGGCTTCAAGTACATTTGGAACAATTATGGATAATAAGAACTGTAGAAATGTTGAAAGAGAAAATATCCAAGGACATCAACTTCCTAGATACCCAGGATGCACGGATAAGGAAATGAGAGCACCTATCAATAGAAAAGAAGCGTTTCTTATTACGGAAATTGGGCATGCATTAATTGGGACATGGATACGTAGTGGGGCTATATCGGAAGATGCAGTAACTGCTAAAAATGTTCAAATTGATAATACAACAAGAATTCCGGATGTACATGGTACATTTGGTACATCAGATCCAAGTACAGTAGGCGGAGAAGTTATTAGTGTAAACGATGATGATCTTAACTCTATTACTATTAAATTCTCCCAGACTTTCAACAACGACACTTACAACCGATACTGGGCAAATCCAGGAGCCAAGCAGGTCTGGTACTTCTCCAAATTCTTTGTAGACTTTGATTCCTACACTTATATGTACAAAGACAAACTTCTCCGAGCCACATTTGCAGATGGAACATCAAGCCTGGAAATTACCGGTCCGACCTGTGTTCCACCGGGCGGTACCATTCAACTTACAGCGAAATTAACGAAGGTAGACGGAAGTACATACAATCTGCAAAGACACGATAAGTTGACTTGGCGAAGCTCGGATAACAGCATCATGTCCGTGAACGCTTCCGGTGTGGTTACAGCCGTGGCAACGACGGGGCAAGCGACGATTACGGCTCATTTTAAGGACACGGCCCAAGCCCTGGACGAAACCGACGATGCCATGATTCAGGTCGGGACAGGGTCATCTTGCGGAAATAACGGAGGAGGAGGCGGTGGAGATGGAGGCTCAGGCGGTCCGCCCAACACATGCGGGATCCAAATCGGTGCTGCGAGAAAGGGAACTGTTACTTCGCACACGGTAATGGACCCCGTGGCAACGGGCGTTATTAATGCGGATAACCGGGATTCAGAAAAGTTTGACGTTCTGGACGGGATACCGACTTCGGAATCCCTGTACGTCAATGTGTTTGGTCTCAATTATTTGTACAAGAACCAATGGGCGAACATGACGGGGGAGATCACCTACACCGTTCCCGTCAAAAAAACATACCTTCTCACCTGGACGATTCCGGGAACGCCAAGCTCAGGACCGGATGATCCCGGCACGCCCGATGAACCTATGGAAGAAGAGGTTCCGGTAGAAGAACAGGTGACGATAACGAGGCCGTACTCCTACTGGCAAATCGATAACCTGGAGGTTTATAAGCTGTCCAAAACGACTGTCAGCAACTATGCTTTACCAGGCGGTTCGGTGAGCCTCACTCCAGCCGGTTACACACCTCCCGTTCTTACGTCCGATCACAGCACGAGTCTTGACGATCATGTGGAGCCTGCTTCATGCGAAGAAGTGGATTTAGGGACGGAAACCGTTCCAGGCGGTTCAAGCAGACCGGCGGTGCCGACAACCGATTTTATGTCCGCAGCCGAGTCGGCCGTGGGCCAAAACCAGGTAAGAAACGATAAAGTCCTATTTAACGGATCTACCGTCATGAGTGACAGCTGGGCACAGGGAACGGCGCCATCTCCAGGGATTATCCCTCCGGCCGCGACGATTCAAAGAGACGTATTGTACGGCAGAAACTATCTTATCAGCAGTACGCTGTTGAATAAAGCGAATACGGCGAGCACCGGTACGATTGATTACGAGCTCATCCCGGGCAACATTAATGGCGGGTCCCATCAATCGTTCCCGGTCAACGCCATAAACACCGTCACGGTCCACACCCCGGTCGTCAACTATTCTTCCGTAACGGATGATCAGGCCCACAACCAGAAGACGACCCCCAATCCGAATCGGTCTGCCTTCATCTTGGATCGGCCGTTTACGGTACGCATCCCTACCTCGGGCCAGCATCGGAACATTCAGGGATACGGAAACCGGGACTATGCGAAGTATGTAAGATCGAAGCAGGTTTATTTTCCGTTCGATGTGTACAGCAGCGACAAGCGCACTTTCTATCCAAAAGACACCTGGATCACGATCCCGACGGCACAGCTGGATACGGAGTTTTTTCTGCCGGTGTGGGTAGATGAGGGCGATTACCAGGTGTACTTCCGTACGATTGCGGAGAACGCGCCGCCCGACTATACGACGCAGCCCGATGCCAACACGAATTTATCCCACCATGTGGCTACGGATATAGAACCTGTGGAAGTGATCGGGCGCGTGTATGATTTTCATATCACGGATATTGCCGATTATAACTGGGAGACCGTCTTCCGCAAGCAAAAAGGGAACGCGTCACCAAGCGGGGCGTCCTATTGGACAGGACTCCGCGGCATTGACGGCGAGGCCCGGGGGAACGCGCTGCCTTATACGCTTCCCATCGCTCCGGGCAAGCATCCGGCACAGGGGTATAAGAATGCGGCCGTGAAGACAGGATACCACTTCAAATTCGATTTGAAGACTAAGGGCAATATGTTCGGGGCGCAGGACGGCATTTCGGTTACGCCGAGCTTTTATTTCGTGAATAAAGACGGCAGCGGACGTCAGCCTGTCGATCTGTATTACCACAGTGGAGACCGGAAGTTCATTCGCATCGGTTCCCCGCAGGATACAGAGAAGCGTTACGTCATTCTGAATGAAAGGCTGCGCAATGTACCCCAAGAGGAACTGCAGGATACCGCTTCGTATCTATACAACCACGGTGGGGCACCGGCGGGAATGTCCCCGGCGGCCTATGCGAAGCAGTATATGGAGAAGATCAGCAAGAGCAAGACCTGGGTAGGCCGGCTTGACTGGATGCTGCTGCCGTCCGGCATTCGAACATTGATCGGGCCAAAGTCGGGGCTGCCAACCTCCGTTGACGGAGAGCGGGCCAACGCCGCTGTTCAGCGCTGGTACGGTGAATACAGTCTTCCCGCCGACGTCTATGTAGTGAAGAAAGGAACGGATCTGGCGGCTTATGGGCGGAGTAACCGATTGGACGAGAAGTCCCCTGTATTTCTGAAGAAGGGGTATATCGTGGTCAATTTCAACATCGAGACGATCCGTGAGGGCAATACGGCCAAGCCCCATCTGCAATACATTCATGCACCGCTCATGAATCAGTGGCAGCTTGAAGGGTACAGTCGAACCTATACCGATCCTTATGGCAAGAGATTTACGCTGCTGGACGGGGATGTCGTATTTTACCATGCAGATCAATCCAGTAAAGGGGATTTCAAATCCCAGGTTCCCCATTAA	MKRSSRYYTVLVITVVTFLISLFLPYLHSIEAANDTTQIIDYEFVADPKNYEYSGYLFSAKKELETKLITLDAPSGKIIKKIEWIDKKTKSPIRPINGFTPGVTKWSGKDSLSGTKIKVSSINNTNYGGVYYWDRWSVSDAGKEYGQLWKASSTFGTIMDNKNCRNVERENIQGHQLPRYPGCTDKEMRAPINRKEAFLITEIGHALIGTWIRSGAISEDAVTAKNVQIDNTTRIPDVHGTFGTSDPSTVGGEVISVNDDDLNSITIKFSQTFNNDTYNRYWANPGAKQVWYFSKFFVDFDSYTYMYKDKLLRATFADGTSSLEITGPTCVPPGGTIQLTAKLTKVDGSTYNLQRHDKLTWRSSDNSIMSVNASGVVTAVATTGQATITAHFKDTAQALDETDDAMIQVGTGSSCGNNGGGGGGDGGSGGPPNTCGIQIGAARKGTVTSHTVMDPVATGVINADNRDSEKFDVLDGIPTSESLYVNVFGLNYLYKNQWANMTGEITYTVPVKKTYLLTWTIPGTPSSGPDDPGTPDEPMEEEVPVEEQVTITRPYSYWQIDNLEVYKLSKTTVSNYALPGGSVSLTPAGYTPPVLTSDHSTSLDDHVEPASCEEVDLGTETVPGGSSRPAVPTTDFMSAAESAVGQNQVRNDKVLFNGSTVMSDSWAQGTAPSPGIIPPAATIQRDVLYGRNYLISSTLLNKANTASTGTIDYELIPGNINGGSHQSFPVNAINTVTVHTPVVNYSSVTDDQAHNQKTTPNPNRSAFILDRPFTVRIPTSGQHRNIQGYGNRDYAKYVRSKQVYFPFDVYSSDKRTFYPKDTWITIPTAQLDTEFFLPVWVDEGDYQVYFRTIAENAPPDYTTQPDANTNLSHHVATDIEPVEVIGRVYDFHITDIADYNWETVFRKQKGNASPSGASYWTGLRGIDGEARGNALPYTLPIAPGKHPAQGYKNAAVKTGYHFKFDLKTKGNMFGAQDGISVTPSFYFVNKDGSGRQPVDLYYHSGDRKFIRIGSPQDTEKRYVILNERLRNVPQEELQDTASYLYNHGGAPAGMSPAAYAKQYMEKISKSKTWVGRLDWMLLPSGIRTLIGPKSGLPTSVDGERANAAVQRWYGEYSLPADVYVVKKGTDLAAYGRSNRLDEKSPVFLKKGYIVVNFNIETIREGNTAKPHLQYIHAPLMNQWQLEGYSRTYTDPYGKRFTLLDGDVVFYHADQSSKGDFKSQVPH				NA	NA	NA	NA	NA
AK002_01428	1104	yheD_3		Endospore coat-associated protein YheD	ATGCATCTGGAATATGTCGGCATTCTGCTCAACAACAATACGTATCGCAGAATTTCCAGCGGGAGTATCGGCACTGAATCACTGACCAACTACGAAGAAGCTGCTGCCATGAATGGGTTGGTTCCTTGTTTTTTTACAATCCATCATATTTCACTAGAGACTGGAAAGGTGACTGGTTTTGTTCCGGCTCCAGCTGGATATTCACAAGTGCATATTCCCATCCCACGCGTTATTCATATGCGGGCTATTTATCATAAAAAACAGGAGCAGACGCTGATTGATCAACTGATCAAGCGCGGGGTATTCGTTTATAACGGGCGTACGCGTTACGGTAAAAACGTTATACATCATATGCTGGAACAGGACCAGGGGATATTACCATCCCTGCCTCATACGGTAGAAGCTACCCCTGCCTCGATTCGCTCCATGCTGAGCCAGCACGGGGATCTCGTTCTAAAACCATGCAATGGAAGCATCGGGGTTGGTATTATGCGATTAAAAGGTAACTCTTTTCGCAGTCAATTCACTTACTCCCGCTCATCCCCATCGGCCAAAGGTTGGAGGACGGTTACCTTGCCGCCCGGAAAGCTCCATCCACTGATCTATCAGCGGATTAGGCAAGCTCCATTCGTTGTACAGCAGCGCATACCGCTTGCCGAATATGATGACCGCCCCTTTGATATCCGAGTTACCGTTCAGCGCGGGGGAAGCGGGCGCTGGGAAGTCGCCGGCATGTTCGCCAAAACATCGGCTCCACGAACGTTTGTCTCCAACATTGCTCAAGGCGGCTCAGCCTATCGGGTCCCGGACATACTCGCCCGCTGTATGCCTGGCTTGCCTGTAGGACTTACCATAGAACGAATTGCTGAGTTTTCCCTCCATGTCGCCAAGACGCTGTCCTTGTATATTCCTTACGCAGCTGATTTTGGAATGGATGTCGGCATTACCGAGAATGGAAAGATCTATTTCATTGAATGCAATGGCTGCGATCAACGTTATGGATTTCGGGAAGCCGGAATGGAGGAAGTTTGGAAATACTCATACTACAATCCGATGGCTTTTGCCCGGTATCTTTATGATAACGGGGTTTGGCCGCATTATTGA	MHLEYVGILLNNNTYRRISSGSIGTESLTNYEEAAAMNGLVPCFFTIHHISLETGKVTGFVPAPAGYSQVHIPIPRVIHMRAIYHKKQEQTLIDQLIKRGVFVYNGRTRYGKNVIHHMLEQDQGILPSLPHTVEATPASIRSMLSQHGDLVLKPCNGSIGVGIMRLKGNSFRSQFTYSRSSPSAKGWRTVTLPPGKLHPLIYQRIRQAPFVVQQRIPLAEYDDRPFDIRVTVQRGGSGRWEVAGMFAKTSAPRTFVSNIAQGGSAYRVPDILARCMPGLPVGLTIERIAEFSLHVAKTLSLYIPYAADFGMDVGITENGKIYFIECNGCDQRYGFREAGMEEVWKYSYYNPMAFARYLYDNGVWPHY				NA	NA	NA	NA	NA
AK002_01429	1146	cotSA	COG0438	Spore coat protein SA	ATGGGTTTGCGGAAGGTGGCGGTTGTGACGCCGGGATCGTTTGTCATTCCATCGGGGAGGAGCAGCTCCGTCGAGCGGGTAGTAGAGCAGACCATTCCATTAGCACAGGGTGCCATGGATGTGCGCATATTCGGAGTACTGGGAAAAGGGCTCCCTTCAAAAGACACGATCAACGGCGTTCCGTGCTACCGCCTGCCACCTGGAACGAATTATTATCCTTCCTTGCTGCGGAGGCTTCAGAAGTGGAGACCGGATATTATCGAAGTTCACAATCGGCCGCTGCTGGCGCAGCGCCTCAAAATGCATCTGCCGGATGTGAAAATCGTATTGAATCTTCACTCCAATACATTTATTTCACCTCCGTATATGAGCGAGCAGCGTTTTGGGGCCATTGCTCGCTGGATGGACGGCATTGTGGTGAACAGCCGTTTCCTGCTGGAGGATATCACTTCAAAACATGCTGGGCTTCTGGAGAAGATCACGATTAATCATCTTGGTGTAAGTCTTGATCATTTTACTCCTGCTTTCAGTCCTGCTGCCAAGGCACTAAGAGAGGCAAAGCTTGCTCATTACGGATGGAACGGACGGCGAATCATTCTGTTTGCGGGACGGCTCATCCCTGACAAAGGGGTTCACCATCTGATTGCCGCATTGCCTCATATCATTGACAAGCATCCGGATGTTCTTTTGCTTATTATCGGAAGTGCGGCCTACGGATCCGATCGGGAAACCGCATATGTACGGGAACTGAAAAGAACGGCCGGACCTTATACCCAATGGGTATTTTTCCGCCCCTTTATCCCTTATCCCGCAATAGCAGACTGGTACTCGCTTGCCGATATTGTGGTTGTCCCCTCAGCGCCAAGGGAGGCCTTTGGGCTCGTGAACGTGGAAGCCATGGCTGCAGGAGTTCCCGTCATCGCTGCGAATGCAGGCGGTATTCCGGAGATCGTGGAGAACGGCGTGACGGGCTACCTGGTTCAAAGGGATGATTTTCCTGGCGGGCTTGCCGAACGGATTAACGGATTGCTTCAGGACGAGAATCTGCGTACCCGAATCGGGATGGCTGGTCGTGAAACGGTGCGTCAGCGTTTCAGATGGGATCATACGGCAGAACGATGGGCCAGCTTGATGCAAACCATCTAA	MGLRKVAVVTPGSFVIPSGRSSSVERVVEQTIPLAQGAMDVRIFGVLGKGLPSKDTINGVPCYRLPPGTNYYPSLLRRLQKWRPDIIEVHNRPLLAQRLKMHLPDVKIVLNLHSNTFISPPYMSEQRFGAIARWMDGIVVNSRFLLEDITSKHAGLLEKITINHLGVSLDHFTPAFSPAAKALREAKLAHYGWNGRRIILFAGRLIPDKGVHHLIAALPHIIDKHPDVLLLIIGSAAYGSDRETAYVRELKRTAGPYTQWVFFRPFIPYPAIADWYSLADIVVVPSAPREAFGLVNVEAMAAGVPVIAANAGGIPEIVENGVTGYLVQRDDFPGGLAERINGLLQDENLRTRIGMAGRETVRQRFRWDHTAERWASLMQTI	PGPT0025205_94	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025205-cotSA-K06338	NA	NA
AK002_01430	582			hypothetical protein	GTGAACAAAGCCAGAAGGATCACCAGGATAAGAAAGGGAAGGCCCTTTCGGCGGTACGATGGCTATAATAAGAAGATAGCCATCAGAGGAACTTCCGGCAAGTGGTCAGATTTAGAGAATGATGTGATGGATCACGCGTTGGCTGATGATGTAATCAGTGCTTCCCATCTGCAGCATCGCAGCGTAAGAAGTGAAGCGATTGAGGATTATGCCGTACACAGTATTCATCTGTCATCCGAATCCATTATTTCTTCCAAACTAGCACTTGAATCGGTTCAACCGAGTCATCTTTCCTTTAATCCAGTTCAAGGGGTTCCTGATACGCCTTTACTTCAGCAGTTTGGATATTTCCCCTTTATCTTTTCTGATGAACAAGAAACGATCGAAATTACAATACCGCTACAGACCTCCTATCAAGATGAACATTATGTAATGGTGGCATCGTGCAGTGATCCGGTGTTTCAAGCTGGCATTCGAAAACGGCAGCATGCGGAGGTTGCCATCGAAATTACACGGCCGGCAGGCACTATGATCTCAGAAGGCTGGCTGTACTGGATCTCAATAGGCCGGATGGTAACATAA	MNKARRITRIRKGRPFRRYDGYNKKIAIRGTSGKWSDLENDVMDHALADDVISASHLQHRSVRSEAIEDYAVHSIHLSSESIISSKLALESVQPSHLSFNPVQGVPDTPLLQQFGYFPFIFSDEQETIEITIPLQTSYQDEHYVMVASCSDPVFQAGIRKRQHAEVAIEITRPAGTMISEGWLYWISIGRMVT				NA	NA	NA	NA	NA
AK002_01431	747			hypothetical protein	ATGAGAAACGGGAGGCGGAATGTATATGAAGGATTTTTTACGATGAAGAGACGCGGCACTCGCTTACGGACATCTTTATCGGCGACTCTTCCCAAAGCTGATCCGGTTGAAGGACGGAAGGATGGATTTATCGTTGGCTATTCTTATGGCGTTCAACACGGACAAAAAAACGGAGAATCCTCATTTGAGGGCATCAGCATCATCATCCCCATTCATGATCCAAACGAAGATGCCATTGGCAAGATCAGAAGAATCGAAGCCTTAACGCCGCATCCATATGAGCTGCTCATAGCTGATGCCGGCTCCTCGGAAGGAACCAGGCAATATGTGCGCGGCAGGATCGGAGCGGTACGACACATTATGGAGAGAAGTGGTCAAGGCATAGCGGTTGTTCTTAATAAGGCACTTCGTGCTGCACACGGGAAGAAGTTAGTTATTCTATATGGCTGTACACCTGTTATGGATAACTGGATCGGCGGTCTGATGGATGAACTGGAACATGCACCGGCTATCAAAACGGTTTGTGTGAGTTTTGCACAGTCAGGAACCCCCGTACTTCCCGGGGATGAAACGGATATCCATAATCGGTTAAATGCGTGCTGTGCTCTGTTCCGCCCCGAGCTGTTAACGGAGGTGGGAGGACTAGATGAGGGACTTCCATCATTACAGGAAAGCATAAGCGAATGGTTAGGGCGAATTCCGAAGCAATATAGAACGATGCTGCCGGCTAAGGATCTATTCACCTGA	MRNGRRNVYEGFFTMKRRGTRLRTSLSATLPKADPVEGRKDGFIVGYSYGVQHGQKNGESSFEGISIIIPIHDPNEDAIGKIRRIEALTPHPYELLIADAGSSEGTRQYVRGRIGAVRHIMERSGQGIAVVLNKALRAAHGKKLVILYGCTPVMDNWIGGLMDELEHAPAIKTVCVSFAQSGTPVLPGDETDIHNRLNACCALFRPELLTEVGGLDEGLPSLQESISEWLGRIPKQYRTMLPAKDLFT				NA	NA	NA	NA	NA
AK002_01432	354			hypothetical protein	GTGGAGAAAAAAATAGATGATATGGTCGAATACCTATCGCACTCCCAGCAGCAATTAGCGCGCATTCTAGAAGCTCAGCGTCATGCAGCAGTCCGCATGGCTCAAATTATACATTCCTTACCGAATCATGAAATCCAAGCCTCCGAAGAACCGAATTCACGAGGAGGACCATCGTTAGGAGGGTCGTTAGGGGGACAATTATTAGGAGGCCGGTCGTCAGGATCCCAGGTGGAACAAGTCAATAGCAGCATTGCTGCTTATTTGAACGCCATGGCCGACCTGCAACAAACATCGGCAGACAGTTTGGAAATCGTAATGAAAGAGCTTAGAGCGAACGAGCAAGGCGAAGAATAA	MEKKIDDMVEYLSHSQQQLARILEAQRHAAVRMAQIIHSLPNHEIQASEEPNSRGGPSLGGSLGGQLLGGRSSGSQVEQVNSSIAAYLNAMADLQQTSADSLEIVMKELRANEQGEE				NA	NA	NA	NA	NA
AK002_01433	294			hypothetical protein	ATGCGGATTCTCGATGCATCCGTGACTATTCAATATAATACCTATCTCATTCTTCAAGGGAAAGCGGTAGAAGCCGAAAAGGTTTGTCAATGGGTCTTGACTCAATATCCTCGTTCCAAGGGAGAGTTGAAGGATTCGTTATCCATTCACGAGCAAATTGTCGAGCAAATCGAGGGCTTGACGAAAATAGGCTCCGGTCTTTGCCGGAATCTGCGGATTATTCTCGGAACGGACGCCGAACAAGATGATGCCATGGGATTTGATGCATTCGATTTCGGAGATACGGACTCATGA	MRILDASVTIQYNTYLILQGKAVEAEKVCQWVLTQYPRSKGELKDSLSIHEQIVEQIEGLTKIGSGLCRNLRIILGTDAEQDDAMGFDAFDFGDTDS				NA	NA	NA	NA	NA
AK002_01434	303			hypothetical protein	ATGATCGCGCGCATACAACGGGAACATGAGGCCAAGATTGCTATGGTATCATCCATTGCTAGAAGTCAGCAAGCGCTGGCAAGTATATTGGAAAGTATCGCTGAGGTTACGGCACATTCCGAAACAACCGCCCGCACGCTTGCGGAGAATATTCGGCTGCTTGTCGGCTATCAATCCGTGATGGCTGAAATGTTGACAGGCATTCCGTTAAATCGGTACAAATTAGGCAGTCCGGCATCGCCATGGATAACATCCGAGTGCCAGCTATTTTACAACGAGGCCGGGTTAGAAGCTACGAACTGA	MIARIQREHEAKIAMVSSIARSQQALASILESIAEVTAHSETTARTLAENIRLLVGYQSVMAEMLTGIPLNRYKLGSPASPWITSECQLFYNEAGLEATN				NA	NA	NA	NA	NA
AK002_01435	294			hypothetical protein	ATGAACACGGCATTAACGGTCAGGAATTATCGTAAGGCTTCACCCATGGCACGGAAGAAGTCATTCGCAAAAGGGCTGAGAAGCCTGAAGTCATCAGGTACTAAACGCCGCCATGGCAAGCCAGTCAAGCGCCATCGAGCCGGTGGCCGCTATAGCTCCAGGTCTGAGGCCGGTCGAACCCGGCCTTTATCCCAAATCCATGACAAAGGGTATGATCATTCCTACATGGAAGATTTTAAAGCCGGATTTGCTAAAGGTTATGAAGATGGGAGACAGGCTGTTACCTTAGCCTAG	MNTALTVRNYRKASPMARKKSFAKGLRSLKSSGTKRRHGKPVKRHRAGGRYSSRSEAGRTRPLSQIHDKGYDHSYMEDFKAGFAKGYEDGRQAVTLA				NA	NA	NA	NA	NA
AK002_01436	1086			hypothetical protein	ATGAGTCGAACCTGTAGAATAGACAAGCGATTCATTCGAAGAACATGCCGTAAGATGGGTTTCCCCCAATCATTCAAGTCCTTTGGCGCCGAAGCGAGATGGGGTCATCAAACTATGGAATGTTTAAAAGACTCCTACAAAAGCAGCATATGGAAACTTGAAATCGAACATGACCAAAAGCGCGTTCCCGTCATTCTTAAAATTTCGAAAGCGCTCAAAAAAGACCGGCCGGAAAGCACGGTTGAGAAAAATATATACCGTAAAGGAAAAAAAGTGCTTCAACCGTTCATGCCACTAGTCTATAAGACCAAACGAAATATGAACGGACGCGATTTGTGGGTGTTCATGGAATACATTGAGCCTCTCAAAGGGCGAGTTCAGTATAATCCGGATCATTTTGACAAAATCATTCCGACATTAGCGAAGCTCCACTCCTCTACGATGAATGAACGCTTTATACAGTATGAGGGACTATTCGGTGATTGGCTGCCTCGATATAATTCCAAGGTTATGAGACAAGAAAGAAAAAACATAAATAAGTTAACCTTATTTTATTTAGATGAAGCGATGAAAAACCACAAGTTGAAAGATATGATTAATCCATACTACTCACTCGTGAAGGGCCTGCTGCTGAGAGGGCCGGATTATTTCCCGGAGGTCGTTCATGAAGGCTGCTGCATTATCCATGGAGATCTTCACACTGCAAACATAGCGACAAACAATGTTAAGGAGAAGTCGTGGAATATCAAGTTTATCGATTGGGAAGGCGCAAAATATGCCCCGTGCTGGTTTGATCTCGTCAATTTGATCGGGGTTTTCTTGGCATACCGCCGAGAATGGGGGGATCAGGAAGAGGATATAACCCGCCGCTGCGTTCAATTATATTCGAATGAGATGAGAAAGCACGGAGTTATCTTTAATACGGATCCACTAAAACTGTACCGGATGGCATTTGCAAAACGAATACTCGAGAAAGGGCTGTATCTTCAGCTGAATTGGGCTGTTACCGGAAAAAAAGAGGCGAAGCTGCTGCCGGCGTATCTAGAAAAAATCAAGGTCTTAGGAAAAAATTTGGAGCTTTATTAG	MSRTCRIDKRFIRRTCRKMGFPQSFKSFGAEARWGHQTMECLKDSYKSSIWKLEIEHDQKRVPVILKISKALKKDRPESTVEKNIYRKGKKVLQPFMPLVYKTKRNMNGRDLWVFMEYIEPLKGRVQYNPDHFDKIIPTLAKLHSSTMNERFIQYEGLFGDWLPRYNSKVMRQERKNINKLTLFYLDEAMKNHKLKDMINPYYSLVKGLLLRGPDYFPEVVHEGCCIIHGDLHTANIATNNVKEKSWNIKFIDWEGAKYAPCWFDLVNLIGVFLAYRREWGDQEEDITRRCVQLYSNEMRKHGVIFNTDPLKLYRMAFAKRILEKGLYLQLNWAVTGKKEAKLLPAYLEKIKVLGKNLELY				NA	NA	NA	NA	NA
AK002_01437	1182			hypothetical protein	ATGGTGAAAACAGGAAATTCGGAAGGGTTCGAGCAAGGTCGTACGGATGGATTTAAAAAGGGAAAAGAAGATGGATATAATAAAGGGCTTGAGGATGCACAGGCCTTATTGGCAAACCCGCCTCTTAACGATATAAGTCTGAAGTGGCGGGAGCTTGGATGCGCTGATCAGATTGCAAGCCATTTCGGATCTACCGTTGTTTTGAACGATGGAAATATGGAGTGTTTGAAAGAAACGTTCAAGAGTGCAATCTGGAAACTCGAAATTACGGCAAACGGACAAAAATATCCAATGATTTTAAAGATATTCAAAGCACCCGTGAACGAACAGAAACTTATCGAGTTAAACATGTACCGAAAAGCAACCCATATTTTATCGGATCTGATACCTAACATATATCTGATCGTGGAAGGTATGAATGGTGATGATGTATGGGTATTCATGGAGTTCGTCCCTCAAGTAAAGGGTCAGGTTATCTTTACACCTGATTATTTCGACCGGATTATCCCTTCCTTGGCGAAACTTCACGCGCTAACCTATAACGACAATTTTTATAGTCATTGGGAAACATTCGAGGAATGGCTCCCGCTTTACGATTCCCCCACCTCAACGCAAGAACGCCAGAAGACGCATCAAAGAACTATAGAATATCTGGATAAGGCAATGGAACGTCCCGAATTAAAGGCGAGGCTGGAGTCTAGCTACGTTAATGTCCGTACCATGTTACAAAAGGGGCCTATTTATTTTCCCGAGCTTCTGCAGGCAGGTAAAAGCATCATTCACAATGATCTGCAAACACCGAATATCGGCTGCCACAATGTAGCCGAAGAGAATTGGAACATTAAGTTTATCGATTGGGAAGGTGCACGTTTCTCACCTTGCTGGTTCGATATGTTTAATTTAATGGGTGTGTTTTTTGCATACCGCAAGGACTGGAGAGGCGACGAATATGCCGTAATTGAACGCTGTGCGCCTTTATATGCCGCAGAAATGCTCAAATATGGAATCCGGTTCGATACGGACCCGGTTACGTTGTACAAAATGGCCTATTTGCAGCGCGTTTTGGAACGCAGCTTATTCCAGCAGCTTTTTTGGGGCGTGGAGGATCTGAAGACGGTTCATTTATTGGATCATTATTTGGAAAGAATCAATGTGTGGGGTAAGGAGCTCGGGTTATATTAA	MVKTGNSEGFEQGRTDGFKKGKEDGYNKGLEDAQALLANPPLNDISLKWRELGCADQIASHFGSTVVLNDGNMECLKETFKSAIWKLEITANGQKYPMILKIFKAPVNEQKLIELNMYRKATHILSDLIPNIYLIVEGMNGDDVWVFMEFVPQVKGQVIFTPDYFDRIIPSLAKLHALTYNDNFYSHWETFEEWLPLYDSPTSTQERQKTHQRTIEYLDKAMERPELKARLESSYVNVRTMLQKGPIYFPELLQAGKSIIHNDLQTPNIGCHNVAEENWNIKFIDWEGARFSPCWFDMFNLMGVFFAYRKDWRGDEYAVIERCAPLYAAEMLKYGIRFDTDPVTLYKMAYLQRVLERSLFQQLFWGVEDLKTVHLLDHYLERINVWGKELGLY				NA	NA	NA	NA	NA
AK002_01438	1713			hypothetical protein	ATGAATCATGTGTTAACCCGTTTAGATTTAGCGGATTCTCTGCTGTGCTCCCTTCCCTCCAGGAGTCGGATCGCAGGAAGCCCGAAGCTTCCAAGCATTCGAACCTTCCGAATACGAGTTGACAGAACGATGCCCTTTGAGTTTGTTGCCAATTTGATGTCTCCGTTTTGCGGATTATGGGAGGCTGATGTCTGTTTTGATTACTCAGATTATGATAGCGCTCTGTCCGGTATTGGAGGGGAAGCTCAGGCGGATGTATATATCATCTGGTTAGATTGGCGGATTTACGCCCGCTCTATGAGTGCACAAAAAGCTGCACAATGGCTGAATGAACGGATCGTTAAATTGCGAATGGTAACGGATAAACCGATTTGGATAAATAACTGGCCGGAGTCCTTGGAAGATGCCAATAGGGTGCTCAGCTTCCGTGCCAGTGACCGTGGATGGTTCCGGAAGTTAAATTCGTATTTGTTGGGAGCGGTTGAGAACAACACGGGCTGTGTTCTGATCGATTTAGCCCAATTGGCCCATGAAGGCACCGAATCCTTCTATGATTATCGGAACGAGGAAATTAGCAACTACCCATTTTCCAATCAGGCAACAACGATTATTTCCCGTCACCTTGGCGTCCAACTCTTGCCCGCTTCCTTGGTTCCGAGGCTTAAAGCGATTGCCTTGGATCTAGATGATACGCTATATCACGGAGTCCTGGGAGAAGAAGGAGCTGAAGGGGTAACGCTAACGGAAGGCCATCATCGGTTGCAAAGGCTGCTGCTTCAACTAAAACAATCAGGAATTATGCTTACTTTGTGCAGCCGCAATGAGGAGGAAGATGTTAAAGCACTGTTCGATGCGCGTACCGATTTTCCGCTGAGATGGGACGATTTTGCCGCTGTTCGTGCAAATTGGCAGACAAAAGCAGAAAATCTGAATCGGCTCTCTCAAATACTGAATATCGATCCGTCTGCCTTCTTGTTTGTGGATGACAATCCGGCGGAATTGGTGAAGATGGCTGCAGAACTACCGGAGGTACGCCTGCTCCGTGCCAAACGAAACGGTGAAGAAACGATGCTGGGTTTATGTCATTTTCCCGGATTGTATCAACTTCACCGGGATGATATTGCCGTATCCCGAACAACGGATATCCAGGCCAATCAGGCCAGAGAGAAGATCAGGCAAACAGCAGCGGATTACCATTCCTATTTAGACAGCTTGAACATGGTCATTACCATTTATGAGAATGAAGCTTCCCATGTCAAGCGGCTGTATGATCTAAGTCATAAAACAAATCAGTTTAACCTGGCTCTAAGACGTATGACAGAAAATGAAGCAAATGACGTTATGGACGCCTCCAATTACGTTACGATTACGGTTGGCCTATCGGATATACTGTCAGACAGCGGAATTATCGGCACCTTTGTATGCAGGTTGGATGGCGAACAAGCGCATCTAATCGAGACGCTTTTTAGCTGCAGGGCGCTTGGACGCGACATTGAAACGGTAGCCTTTGCCTGGATCTTGGAGAAATTGATGGATCGCGGAGTGCAGCGTATCCACATTGAGATGTCCCAGGGGCCGCGGAATGCCCCCGCCTTGGACTGGATAAAGCGTTTTGTTGAGGGCTCGCCGGAACAGCTGCCGCTTAGGGATCTCTATGCACGTGTAAAAGCTGCTTGCGGGAACCATCCTGCCAGAGTGGAGGTAAATCGATGA	MNHVLTRLDLADSLLCSLPSRSRIAGSPKLPSIRTFRIRVDRTMPFEFVANLMSPFCGLWEADVCFDYSDYDSALSGIGGEAQADVYIIWLDWRIYARSMSAQKAAQWLNERIVKLRMVTDKPIWINNWPESLEDANRVLSFRASDRGWFRKLNSYLLGAVENNTGCVLIDLAQLAHEGTESFYDYRNEEISNYPFSNQATTIISRHLGVQLLPASLVPRLKAIALDLDDTLYHGVLGEEGAEGVTLTEGHHRLQRLLLQLKQSGIMLTLCSRNEEEDVKALFDARTDFPLRWDDFAAVRANWQTKAENLNRLSQILNIDPSAFLFVDDNPAELVKMAAELPEVRLLRAKRNGEETMLGLCHFPGLYQLHRDDIAVSRTTDIQANQAREKIRQTAADYHSYLDSLNMVITIYENEASHVKRLYDLSHKTNQFNLALRRMTENEANDVMDASNYVTITVGLSDILSDSGIIGTFVCRLDGEQAHLIETLFSCRALGRDIETVAFAWILEKLMDRGVQRIHIEMSQGPRNAPALDWIKRFVEGSPEQLPLRDLYARVKAACGNHPARVEVNR				NA	NA	NA	NA	NA
AK002_01439	231			hypothetical protein	ATGACGGAAATACGCAAACAAATTGGGTCGATCTTATCCGAGGTGTTGAACACCCCGATACCGCCTCATGGTAATCCAAAGCGGGAAGAATTGCCGAATTGGGATTCTTTAAAGCATATGGAGCTCATTCTTCGCCTTGAAGAGCAGTTCGATGTTCGCTTTTCCATCAGGGAAGTAGCGGGTATTCAAAGCTTGGATGACATCGCCAGGATCATTGAGGTGAAGTCGTGA	MTEIRKQIGSILSEVLNTPIPPHGNPKREELPNWDSLKHMELILRLEEQFDVRFSIREVAGIQSLDDIARIIEVKS	PGPT0011375_7416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK002_01440	588			hypothetical protein	GTGAACCACAACATCACCGTTGAACGTTTCGGCATTCGATTAAGACCGATTACGATGGACGACGCCGAATTTATTTTCAAGCTAAGAAGGTCCCCTGAGTTATCGAAGTACATCGGAGAAATCGACTCTCGTTATGCTGTGCATGAAGCATGGTTGAAAGAATATTTTCATAGAGAGGGCGATTATTACTTCTGCATTGAGCTTCTCTCGGGAGTGCCGATCGGAACCATCGCGATCTATGATATTGATGGTCAAGCCGGCAATTGGGGAAGATGGATCATTTCCGATTCGATCCCAGCCGCTCCTGCCAGCGTATGGCTTATTTTTCACGTTGCGTTTGATATTCTGGGTTTGTCCAGTGTATTTTCCAATACGGTTATCGAGAATGCGAGCGTCGTTTCTTTTCATGATCACTGCGGGCTGCCGCGAACCGGAATCGAACGCAATGGCCTGACGATCAGGGGGGTCCCTTACGATATGGTTATTCATACGGCTACGAAGGAGAACTGGCCAACGGTACAACAACGTTTAGAGAAGCCCGCCATTTTAGCGGAGCGTCTGCTCGGGGAGACTCCGGAAAGTAATTAA	MNHNITVERFGIRLRPITMDDAEFIFKLRRSPELSKYIGEIDSRYAVHEAWLKEYFHREGDYYFCIELLSGVPIGTIAIYDIDGQAGNWGRWIISDSIPAAPASVWLIFHVAFDILGLSSVFSNTVIENASVVSFHDHCGLPRTGIERNGLTIRGVPYDMVIHTATKENWPTVQQRLEKPAILAERLLGETPESN				NA	NA	NA	NA	NA
AK002_01441	1377	wbpA_1	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGAGCGAAATCTTGCATAAAATAAAAACCAAGACGGCAACGGTGGCCGTGATCGGTCTTGGTTACGTCGGACTATCCGTGGCAGTGGAGGCGGCAAGAGGTAATTACAGGGTGTACGGAATTGACATTGATAAGAATAAAACGGAACAGCTGCAACGCGGAAAATCGTATGTTACGGATATAAAGGATGAAGACATCGATTCTTTGATCCATCAGCGCCTGTATGCGGTTCATGAGTTTTCAGCGCTGGCTGAGGCAGATATCATCGTTATTTGCTTGCCCACCCCGCTTAACATCAACAGAGATCCTGACGTTTCCATGATTCGGTCAGCGGTTGATTCCATCATCCGGTATGCTTCGAGAGATACGCTCATTATTTTGGAAAGCACCACCTATCCCGGAACGACCGAAGAATTAATTAAGAATGTGATTGAGGCCAATACGCAATGGGAAACGGGTAAGGATGTTTTTGTATGTTATTCTCCGGAAAGAGTGGACCCTGGAAACCGTAAATTCAATGTAAAAAACACACCTAAAATCTTAGGTGGAATCACGGAGGAATGTACACATCTCGGTCTTCAATTTTACCGTTCTTTTTTGGATAACGTGATTCCGGTAAGCTCAACGGCCGCGGCCGAGATGGTTAAGTTGCTCGAGAACACGTTTCGAAGCGTTAACATTGCGCTTGTGAACGAGCTGACGCTCATGTGTGACCGAATGGGGATTAACATCTGGGAAGTGATCGACGCTGCTTCGACCAAGCCGTTTGGTTACATCCCCTTTTTCCCGGGGCCGGGGATCGGCGGCCACTGCATCCCGATCGATCCGACCTATCTGTCATGGAGAGCTAAAAAGTTCGGCTTCTATAACAAATTTATTGAATTGACCAGCGATATCAACAGCAATATGCCCCGCTATGTCATATCGCAGATTACCGACATACTCAATGACCATGAAAAGCCGCTAAAAAACTCAAATATTATATGCATTGGCATGGCTTATAAAAAGGATGTCAACGATATGCGGGAATCGCCCGCACTCGAAGTGTTCAGGCTTCTACAGCAGAAGGGGGCTGCGGTAACCTATTATGACCCGCTCATTCCATGGTTTATGGACAACGGTCAAAGGATATCTTCCATAGAACTTTTGCCGGATCTGATTGCCTCCGCCGACCTGGTCGTTATTACTACCGATCATAGTACGATCGATTACCGGTTTATTGCTGAGCATGCCGCTTTGCTATATGACACGAAAAATGTGACTCGGTCGATTAAAGGAAACATCGTATTGCTCGGCGGACATAAGCGATTGGAGAAAAGCTCACCCCCGGTTGTGTCGATCAAAGATAACGGGGAAGGGAGGGAAGGGATTGATTGA	MSEILHKIKTKTATVAVIGLGYVGLSVAVEAARGNYRVYGIDIDKNKTEQLQRGKSYVTDIKDEDIDSLIHQRLYAVHEFSALAEADIIVICLPTPLNINRDPDVSMIRSAVDSIIRYASRDTLIILESTTYPGTTEELIKNVIEANTQWETGKDVFVCYSPERVDPGNRKFNVKNTPKILGGITEECTHLGLQFYRSFLDNVIPVSSTAAAEMVKLLENTFRSVNIALVNELTLMCDRMGINIWEVIDAASTKPFGYIPFFPGPGIGGHCIPIDPTYLSWRAKKFGFYNKFIELTSDINSNMPRYVISQITDILNDHEKPLKNSNIICIGMAYKKDVNDMRESPALEVFRLLQQKGAAVTYYDPLIPWFMDNGQRISSIELLPDLIASADLVVITTDHSTIDYRFIAEHAALLYDTKNVTRSIKGNIVLLGGHKRLEKSSPPVVSIKDNGEGREGID	PGPT0018920_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0018920-wbpA-K13015	NA	NA
AK002_01442	1521			hypothetical protein	TTGATTGATGTTGTCATATGTGTGCATAACGGTTTGAATGCGGTAAAACAATGCTTGAACTCCATTCAAAACAATACGACGCAAAAAATTAATTTAATTATCATAGATGATGGAAGCGATCAAACCACAAAGCGCTATCTGGAACAGTACACACGACAATTTCACCATAGATTAATTCGACACGATAAGCCGCAAGGCTATACGGCTTCTGCGAATCAAGGATTAAAGGAGTCAACATCACGATACTGCGTCCTCCTCAACAGCGATACGATCGTAACCGGTCAGTGGTTGGAAAGGCTGACGGAAACCATGGAATCCGACCGCAGGATCGGTATCGTCGGTCCGCTGTCAAATGCAGCCAGCTGGCAATCCATTCCCCATAGGGACTGGAGCCGTAATGGATTGGAGCCCGACTTGACGATCGAACAAATGGCCGAGATTGTCTATCAAGCCTCGGATAAGATTTTTCCGAGAGTCATGTTTTTAAACGGCTTTTGTTTAATGATCAAGAAGGAAGTGTTAGACAAAATCGGATATTTTGATGAGAAGAACTTTCCGGTAGGTTACGGGGAAGAAGATGATTATTGTCTTCGCGCCCGGGCTGCCAACTTTAAATTAAAGGTTGCCACCCATTGTTATATCTATCATCAAAAGTCGGCAAGTTTCGGAACCGATAGAAGAAAGAAATTAGTGCAGAATGGAAAAGCTGCTCTCTATCGCAAGCATGGCGAGGAAAGGGTTCAACGATCGGTACAAAAAATGGCCGTGCATCAATCGCTCAGAGAAACAAGGGCAAAATTAAAGTGGCTCTTAGCGTGCAGACGACAAATCATCACAAGTAATCAACGAAAAAACGTAGTATACACAGCGATAACCGGCAATTACGATAAGCTGCAGGATCCTTTACAAATGAGCAAGCATTGTGATTACTATTGTTTTACGGATAATCCGAAATTAAAGTCCGGAACCTGGAAAATGATTAAGTTAGATAAAATATTCGCTGATTCGGCCCGTCAAGCTAGATGGGTAAAAGTTATGCCACATTTATTATTTCCGACCTACAAACACAGTGTTTGGGTTGACGGGAATATCAGAATTGTCGGAGATATCGATCGGTTTATTGAAACATATAGAGCCTCACCGCTCGTGTTCTACAAACATTCACATCGGAATTGTATTTATAAAGAAGCTGAGGCTTGCATTGCCTTGGGGAAGGATAACAAGGAAGTCATATTAAAGCAAGTAGCCTTGTATAAGAATGCGGGATATCCGAGGGATAACGGACTGATTGAGTCCGGCGTGATCCTAAGACGCCATAATGATCCTGTCGTTATGGGGGCAATGACCACTTGGTGGAGACAAATTATAAGTTATAGTAAAAGAGACCAAATCAGTTTTAATTACGTGGCCTGGAAGAACAAGGTTCCTTTTACGGCGATCAATGGCAATATCCGTAATAATGAATTTTTTAATTGGAGCAAGCACCACAAGAAGCCGGTTATGAAAAGATTGAAACGCTAA	MIDVVICVHNGLNAVKQCLNSIQNNTTQKINLIIIDDGSDQTTKRYLEQYTRQFHHRLIRHDKPQGYTASANQGLKESTSRYCVLLNSDTIVTGQWLERLTETMESDRRIGIVGPLSNAASWQSIPHRDWSRNGLEPDLTIEQMAEIVYQASDKIFPRVMFLNGFCLMIKKEVLDKIGYFDEKNFPVGYGEEDDYCLRARAANFKLKVATHCYIYHQKSASFGTDRRKKLVQNGKAALYRKHGEERVQRSVQKMAVHQSLRETRAKLKWLLACRRQIITSNQRKNVVYTAITGNYDKLQDPLQMSKHCDYYCFTDNPKLKSGTWKMIKLDKIFADSARQARWVKVMPHLLFPTYKHSVWVDGNIRIVGDIDRFIETYRASPLVFYKHSHRNCIYKEAEACIALGKDNKEVILKQVALYKNAGYPRDNGLIESGVILRRHNDPVVMGAMTTWWRQIISYSKRDQISFNYVAWKNKVPFTAINGNIRNNEFFNWSKHHKKPVMKRLKR				NA	NA	NA	NA	NA
AK002_01443	948	cotI		Spore coat protein I	ATGCCTACTCTTCAAGAGGCAGCGTTAGTTCTTAACCAGTATTATGACATCAAAAAGCCGAAAATCGAATGGATTCAGAACGAGCCGGATAAGGCAGTGTGGAAGGTAATCGATAACAAAGAAACCTATATCCTTAAGTCGGATTACAGATCAAGTAAAAGCTTCACCCCTTCTATCACTCTACAATACGCACTATCCCAACAAGGGTTGAAGGTTCCTGAGGTTATCGCCACGAATCAACGGAAACTATGTACGAAGCAAGGTGAGCATCGTTATTATTTGTCTAAATATATCTCTGGAGGTCCTGCATCGATAATTGACCGCGTAAAGGTCATTGGGGATTTTCATCAACACGCTACATGGCCAAGTTCACTCACATCCAATCAAAAACCGAGCGCCTTGAAGAATGGAATTAACAGATGGATATCTGAATATCAATTAAAATTAAAAGATTTGATGAAATGGAAAAACCAGTACTCCTTGCCGTATATTCAACCCTGTATACAATTAGCTGAGAAATGTATAAAAGTTTCTTCCCGAAGAGCGCCCCTCCTCGCGGATCATCTCACATCCGTAAACAATAAAAGATGGCTTGTACATGGGGATTTAACCCATTTGAACGTAATAAAAACGCCATCAGGAGATTTATGGATCATTGATCTGGAGCATTCAAGAATTGACTCTCCCATCAAGGATATCCGTTATTTATTGCCGAGGGTCGTGTTGTCTTCTTATTATAAAGAGTATTTTGCGAGATTTCCTGAAGGGACGTCCTTTAAAGAACTCTATTATATAGACGCGATTTTTCCTCACAGCCTCCACTTCTACCTCGGCGGATCGATCAGGCAAGGGAAACTTCCGCTGAAGAGTTCTCAGGTACAAAAGATCGTATCGGACGAACTAGCGAAGGATGACATGATAAGCAAGCTGTTAGGCGGCAGTAAATAA	MPTLQEAALVLNQYYDIKKPKIEWIQNEPDKAVWKVIDNKETYILKSDYRSSKSFTPSITLQYALSQQGLKVPEVIATNQRKLCTKQGEHRYYLSKYISGGPASIIDRVKVIGDFHQHATWPSSLTSNQKPSALKNGINRWISEYQLKLKDLMKWKNQYSLPYIQPCIQLAEKCIKVSSRRAPLLADHLTSVNNKRWLVHGDLTHLNVIKTPSGDLWIIDLEHSRIDSPIKDIRYLLPRVVLSSYYKEYFARFPEGTSFKELYYIDAIFPHSLHFYLGGSIRQGKLPLKSSQVQKIVSDELAKDDMISKLLGGSK				NA	NA	NA	NA	NA
AK002_01444	1017			hypothetical protein	ATGAGAAAAATTCTTGTGGTCGGCTCAGAGGAAACCGCATCGTACCAAATCATTCTTCTCCCCCCTCTCCGTTATTTGGAAGGACAAGGATACTGCAGGTTCAAGATCCTTCCACATAAACAAGTAACCCGTTCTATCATTTCTTCATATGATATTATTTTGTTTTTGAGAAGCATTGAGCCTGCAGCGCTCCAATGTTTAGAATGGGCACACCGTGAAGGAAAGAAGACCGTATACGTCATTGACGACCATTTTCTCGCGATTCCTCAAACCACACGTCTTGGCCAAATTTACTCAAAACCCGCTTATAAAGAAACCTATACTTACTTTCTAAAAAACGTACACACAGTCAAAGTAGAATCACCCGTCTTTCGCGATCTGATTAAGATGCATTTCACTCCTAAAGTGGTCTATTTTCCAGGAAGCATTGATGTTTCCTATACACAATTGTCCAACAGTCCGAAAAAGGAAGATCGACTCGTGATCGGATATGAAGGTGCCAAAAAGGAAAGTTCTTTCCGCCCGGTTATTCCTGCATTGCAGCGCATACTTAAGGAATACGGAGATTTTGTTAGACTGGAGTTCTACGGGTACTGTCCTGAAGAATTGAAGGGGCATCCTAATATCTCCCATCGGAAACATAATGAAGATTACAGCAAGTTCATGCAGCAGCTGTATCGGGCCAATTGGGATATCGGTCTTGCACCCATGGATGATGGTCTGTTCTACCACTGCAAAAGCAATGTGAAGTTCCGCGACTATGCTGCCTGCCGCATTCCCGGCATTTATTCATTATCCCCCATATACCGAGATTGCGTATTCCACAAAAAAACGGGTTATTTTGTTCCTCAAACAGAGCAGGGCTGGTATGTCGGGATTCGAGAAATGATCGAGAATCCCAAACTTCGAAAAAAAATTTCACAAAAGGCCGCAAAGGCCGTGGCCAAGAACTTTACGATCAACCAGTGTGCGAAAAATTGGAAGTCTCTTTTTCAAGGCCTGCTCGACGTACCATAG	MRKILVVGSEETASYQIILLPPLRYLEGQGYCRFKILPHKQVTRSIISSYDIILFLRSIEPAALQCLEWAHREGKKTVYVIDDHFLAIPQTTRLGQIYSKPAYKETYTYFLKNVHTVKVESPVFRDLIKMHFTPKVVYFPGSIDVSYTQLSNSPKKEDRLVIGYEGAKKESSFRPVIPALQRILKEYGDFVRLEFYGYCPEELKGHPNISHRKHNEDYSKFMQQLYRANWDIGLAPMDDGLFYHCKSNVKFRDYAACRIPGIYSLSPIYRDCVFHKKTGYFVPQTEQGWYVGIREMIENPKLRKKISQKAAKAVAKNFTINQCAKNWKSLFQGLLDVP				NA	NA	NA	NA	NA
AK002_01445	915			hypothetical protein	ATGGCCATTATTTCGGTCTTCCCTTCACCTACAGGGACGCCAATTGCAACTGCGGTAGCTTCAGCTGTCGCTGGTGATGTCGTATTGGTTAATGATGGAACGTATCCAGAGCCGGCGGTGACTGTAGCGACTTCCAACGTAAAAGTTATAGCTAAAAATGAAGGTGCGGCGATACGCCAAGGACTCAACGCTGCGGCAAGTGCGTTCATTGTCACGGCAGCTACGGGGGTTGAAATTAACGGATTCTCCATTCAAAACTACACGGCCGATGCGATTGATGTTACCGCTGGTACCAATCACCGCATTATTGGCAATACCATCAACAACACGCTTGGTATTGGCATTGATTTAGCTGCCGGTACCGGACATGTAGCCTGGAGAAACAGTGTTCAAGACGCGGGCGGCGCTGCAGGAATCAACGTAGCAAGCACCGACAGCTGGATCGTACAGAATGTATTCTTCAGCAATACAAGTGTGGGTATTTTGTTGGCCGGCGCCAATAATGCGGCTATTGGTAATACTGTCTCTCAAAACGGCACAATCGGCATCTCGAGCACCGCAGCGAACAATCTGTTATTCGGCAACACGGTCACGCAAAACGGAACAAGCGGAATCACCGTTGCAGCAGCAAACAACGTACTGATACGCAACAACGTGGAAAATAATACAGGGATCGGCGTTTCGATCACAACCGGCGATAACGGATATCTTGGAGCCAACGATTCCGATGGTAACACTCAAACCGGTATCGCAATCGCCACAGACTTTAACAGTGTGGAATTCAACGAGATGGAGCTCAATCAGAATTTCGGACTCCTCATTTCCGGCGATGAAAACACCGCATTCGGAAACCGGTTCACCGGCAACACGCCAACTCAAATCTCCGTAACAGGTACGGACAATAACTTGTTCTAA	MAIISVFPSPTGTPIATAVASAVAGDVVLVNDGTYPEPAVTVATSNVKVIAKNEGAAIRQGLNAAASAFIVTAATGVEINGFSIQNYTADAIDVTAGTNHRIIGNTINNTLGIGIDLAAGTGHVAWRNSVQDAGGAAGINVASTDSWIVQNVFFSNTSVGILLAGANNAAIGNTVSQNGTIGISSTAANNLLFGNTVTQNGTSGITVAAANNVLIRNNVENNTGIGVSITTGDNGYLGANDSDGNTQTGIAIATDFNSVEFNEMELNQNFGLLISGDENTAFGNRFTGNTPTQISVTGTDNNLF				NA	NA	NA	NA	NA
AK002_01446	753			hypothetical protein	TTGTCCCCGATCATAAATGCCGAGTTTCCGAAGGTATCCGTCATCATTCCTGCCATGAACGAAGCGAAGACCATTGCGGCAGTCATTCGGCAAGCCAGCCAAGTGCACGCCAACACAGAGGTTATCGTTGTTGCCAATGGTTCAACGGACGGTACGGCGGAAATTGCTCAGAGCATCGGAGCAAGGGTGATCCACCTGCCGTTTCCGCTCGGTCATGACGTGGGACGAAGTATCGGCGCTGCAGCGGCTAGAGGAGACATCTTGCTGTTTACCGATGCAGACATCGTAATCCAAGCAAGTGATATGACCCCTTTGACAAAAGCCGTAGAAGAGGGGGTGGACGTGGCTTTGAACAAGTATTTGGGTCCGACCGATAAGCATCACGTTCACAGCGTTATCCTCGCTAAGCATACGTTAAACATTTTGGTATCCAATCCCGATTTGAAAGGAGCTTCACTTACAACCATTCCACATGCAATGAGCCGAAAAGCGGTTAATCTGATTGGTATCGACAATTTGGCCGTTCCTCCGAAAGCTCAAGCAATGGCCATTTATAATGGCTTGAAGGTACGGGGGATTCATTACGTGGATGTAGGAAAAAGAAATCCCAGGAGGGGTAGAACCAGAGGGAATGATCCCCTTGAAACCCTGATTGTGGGGGACCATTTGGAGGCAATAAATTGGTTAATCTCTCAATCCGGCATGCGGGGAAATCGATCAGATCTCGCACGAAAAAGAGAAAGCGTGTGGTGA	MSPIINAEFPKVSVIIPAMNEAKTIAAVIRQASQVHANTEVIVVANGSTDGTAEIAQSIGARVIHLPFPLGHDVGRSIGAAAARGDILLFTDADIVIQASDMTPLTKAVEEGVDVALNKYLGPTDKHHVHSVILAKHTLNILVSNPDLKGASLTTIPHAMSRKAVNLIGIDNLAVPPKAQAMAIYNGLKVRGIHYVDVGKRNPRRGRTRGNDPLETLIVGDHLEAINWLISQSGMRGNRSDLARKRESVW				NA	NA	NA	NA	NA
AK002_01447	1017			hypothetical protein	TTGGGGGCTCTTATTTTCAAGAATCGTCGGATTTCAAACGAAGCGGTCGACAATTGGAAAGAGAGAGCTTATGCTGCCGGTTATCAGCAAGCGGCCCATGAAGCTTCAACAACGGCGGATACACCCCCCCATATCAAAGTGAACGAGAGCTGGAATCGCTGGTACCATTCAGTCAAACCACTGCCATGGACGGTTTACCACGCAGCGGCGTCTAAATTTGTGGAAGGACACAGTAAGCATTCCGGAATATATCTAGGAAATGCCGTTCTTCTGCCGACGGACAAAAGGGTAGCGGCGATCGTCTTGGTGATGAACGAGAAAGACACGATTATAAAATTGCTGGAGCAGCTTCATCGGCTGCCGCTTCATGAAATCATTTTTGTGGTGAACGGATCCACCGATGAAAGCTTTGAAATGATCCGAAACCAATCGAAAGCCATCATTGTACACTACCAACAAGCTTTGGGACACGATGTTGGCAGAGCGGTCGGGGCGAAGTTAGCCGATTCTGAAATTCTGCTGTTCCTTGATGGAGATGTTCCGATATTAGCAGAGCATCTCGTACCTTTCATTGATGCCATTGAACAGGGTAGCGATATTGCCTTAAATGATATTTCTCCATGGATCGGGATGTTTACCAACAGAGACTACGTAACCATAGTGAAGGAGTTTATTAACCGATCCATGGGCAGGGCGGATCTCGAAGCCAATTCCCTTACCGCGGTACCTCACGCGATGAGGAAGGAAGCTGCCCAAATCATCGGATACGCCAATTTATCTGTCCCACCGAAAGCGCAAGTCATCGCCCTTGAAAAGGGTTTGAAAATAAATGCACCGGCCAGTGTAGACGTCATTACAAAAAATCGGCTCCGAGCTCGAAATGTCGGACAACAAAATGCAGTTTCCGATTTGATCATCGGAGACCACATCGAAGCTCTCAAAACGGTATTCGACATAAAGGGGCCGCGGCTATCTTTTATGGATCAGATTAGACAAAGGCAGCTAACCAAGGTTTAG	MGALIFKNRRISNEAVDNWKERAYAAGYQQAAHEASTTADTPPHIKVNESWNRWYHSVKPLPWTVYHAAASKFVEGHSKHSGIYLGNAVLLPTDKRVAAIVLVMNEKDTIIKLLEQLHRLPLHEIIFVVNGSTDESFEMIRNQSKAIIVHYQQALGHDVGRAVGAKLADSEILLFLDGDVPILAEHLVPFIDAIEQGSDIALNDISPWIGMFTNRDYVTIVKEFINRSMGRADLEANSLTAVPHAMRKEAAQIIGYANLSVPPKAQVIALEKGLKINAPASVDVITKNRLRARNVGQQNAVSDLIIGDHIEALKTVFDIKGPRLSFMDQIRQRQLTKV				NA	NA	NA	NA	NA
AK002_01448	729			hypothetical protein	ATGAAAAAAACAAGCATCATTATTCCGACTTTCAATGGCAGGGAGCTGCTAAAGGATTGCATTTATTCGATTAAACGCCATACGAATGAGCCTTACGAGATCATCGTTGTTGATAATGGTTCCTCGGACGGTACCGTTGACATCTGCCGTCAGGAGGGGATTACCTTCATTTCATTGGCAAACAACATTGGCTTTCCAGCTGCATGCAACAAGGGGTTGAAAATTGCAACCGGCGATACGCTGCTCCTGCTGAATAATGATGTCATCGTCACCCGCAACTGGTTGCAGAATATGTTGAATTGTTTGAACAGCGAAACCAATATCGGGATCGTCGGGCCGCTTACCAACTATGCAAGCGGGAAACAACAGATCGATATGCCTTATACCAGTTTAGAAGAGATGTCGAACCAGCTGAATGAGCCGGATGCCAGTAAGTGGCTTCAAGTGGATCGAATCGTAGGCTTATGTTTCCTGTTTAAACGGGAATTGATGGATCGCATCGGTCTGCTGGACGAACGTTATTCACCAGGTCATTTTGAAGACGATGACTATTGTTACCGGGCCAGGAATGCGGGATATACGTTCAGGATCGCGGGCGATGTTTTCGTTTTTCATCATGGGAGTGCCAGCTTTGCCAAGCAGGACATGAGTCAAGTGAAGCATCTTATCGATACAAACAAACAAAAATTCATGGATAAATGGGGCGTCGATCCAACGATCTATGTATAA	MKKTSIIIPTFNGRELLKDCIYSIKRHTNEPYEIIVVDNGSSDGTVDICRQEGITFISLANNIGFPAACNKGLKIATGDTLLLLNNDVIVTRNWLQNMLNCLNSETNIGIVGPLTNYASGKQQIDMPYTSLEEMSNQLNEPDASKWLQVDRIVGLCFLFKRELMDRIGLLDERYSPGHFEDDDYCYRARNAGYTFRIAGDVFVFHHGSASFAKQDMSQVKHLIDTNKQKFMDKWGVDPTIYV				NA	NA	NA	NA	NA
AK002_01449	708	rmlA_1	COG1209	Glucose-1-phosphate thymidylyltransferase	ATGAAGGGCGTCATTCTGGCAGGAGGTACGGGTACCCGGCTTTATCCACTGACCAAAGTCATAAATAAACATCTGCTGCCTGTCGGGAAGGTTCCGATGATATGTCACGGAATTGAGAAATTCAAAAAAGCGGGCATCGAGGAAATTCTCATCGTGATCGGCAAGCAATCGGCTGGTCTGTATACAGACCTGATCGGCAGCGGAAAAGAATGGGGAGTAAGCGTCACATTTAAAATCCAGGAAGAAGCCGGGGGGATTGCCCAAGCATTATACCTTGCCGAACCGTTCATAACACCTGGCGAAAAGTTCGTTGTGCTTCTTGGCGATAATCTGTTTGAGGATCATCTAATCACCTTTGTGCAAGCTTTTGAAAAACAGGCCGCTGGAGCGCGCGTACTTCTGAAGAAAGTTCTTGATCCGAAGAGATACGGTGTTCCCGTCTTGGAGAAAGACAACATCGTCATGATCGAAGAGAAGCCGGAGGAGCCTAAATCCGATTATTGCGTAACCGGTATTTATATGTATGATTCGACGGTGTTTGAAACGATCAGCACCATAAAACCATCGGCACGAGGCGAATTGGAAATTACCGACGTGAACAATGTGTACGCATCGAAGGGGCAGCTTACCTATGACATATTAGACGGATGGTGGACGGACGCCGGAACCTTCCAGTCCTTGTACCAAGCCAGCGGCCGATTGTGGTGA	MKGVILAGGTGTRLYPLTKVINKHLLPVGKVPMICHGIEKFKKAGIEEILIVIGKQSAGLYTDLIGSGKEWGVSVTFKIQEEAGGIAQALYLAEPFITPGEKFVVLLGDNLFEDHLITFVQAFEKQAAGARVLLKKVLDPKRYGVPVLEKDNIVMIEEKPEEPKSDYCVTGIYMYDSTVFETISTIKPSARGELEITDVNNVYASKGQLTYDILDGWWTDAGTFQSLYQASGRLW	PGPT0022600_5077	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
AK002_01450	1128	ykvP	COG1388	Spore protein YkvP	ATGAGAACAATGAATAAGCATTTGCTGCTTCAGGGGGGAGAGCAATCCGCCCAGTCGGAAGGATACAGAGAAGGTTATTCAGTGGGACGGAGAGAGGGATACAGGCTCGGTTTTTCCGATGCGGTAATAAGGTCCTTACCCAAGGAAGAGGAGCAGGTCCGCGATCTCCGTATTCTTTACGTCACTGCAGGCATTGGCGTCCCGTATCCTGCGCTGGATCAGGCGGTGACTGACGCATTAAAGGGACTGGTTCGAAGTCTCTCGGTTGCGAGCCCTTCCGAAGATATCGTCCTTTTGGCTAAGAAATTCCAGCCGGACCTAGTACTTGCTTTAAACGGTGTCGTTTTGGAAGCCGATACGCTCAAAGCGCTCCGGGATAGCGGATTTAAAACGGCCATTTGGTTTACGGATGACCCGTACTATACGGACTGGACGGTTTCGATCGCTCCCCGTTACGATTATATCTTTACGCTTGAATCCAACTGCGTATCATTTTATCGCGATTTAGGTTGTCAGCATGTGTATCACTTGCCTTTTGCAGTCAATCCGAACGTATTTTATCCGAAGCATGTGCCGACCTCCAATCAGACCGATATTTGTTTTATCGGAACGGCCTATTGGAACAGAGTGGAGTTAATGGATCATCTGGCCCCGATATTGAAAAATAAAAAAGTCGTCATTTCCGGATGGTGGTGGGACCGGATGAAACATTACGCCCAGCTGTCCGACAAGATTAAGCTCGGCGATTGGATGACGCCGGAGGACACGGCAACGTACTACAATGGAGCCAAGATCGTCATCAACCATCACCGTTCATCCGATGACGATACAATCAACGCCAACAGCAGAAAGGTAAAGGCGCTTTCCGTCAATCCCCGCACGTTTGAAATATCCGGCTGCGGCACGCTTCAGTTATCGGATATCCGCCACGATATGGATCAGTTATATTCCCCTGGAACGGAAATAGAAACCTACGGCTCTTATGATGAACTGATGGATAAAATCGACTATTACTTGCGTCATGAGGAAGAGAGACAGCGAATTGCGTTAAACGGCTTGATGAGAACGAGAAAGGATCATACCTACCATAAACGATTGAGTACGATGCTTCGTACCATTTTTCCTTGA	MRTMNKHLLLQGGEQSAQSEGYREGYSVGRREGYRLGFSDAVIRSLPKEEEQVRDLRILYVTAGIGVPYPALDQAVTDALKGLVRSLSVASPSEDIVLLAKKFQPDLVLALNGVVLEADTLKALRDSGFKTAIWFTDDPYYTDWTVSIAPRYDYIFTLESNCVSFYRDLGCQHVYHLPFAVNPNVFYPKHVPTSNQTDICFIGTAYWNRVELMDHLAPILKNKKVVISGWWWDRMKHYAQLSDKIKLGDWMTPEDTATYYNGAKIVINHHRSSDDDTINANSRKVKALSVNPRTFEISGCGTLQLSDIRHDMDQLYSPGTEIETYGSYDELMDKIDYYLRHEEERQRIALNGLMRTRKDHTYHKRLSTMLRTIFP	PGPT0024857_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_MATURATION_PROTEIN,PGPT0024857-cgeB-K06320	NA	NA
AK002_01451	765			hypothetical protein	GTGGACTCGATACTCCCGGAGCTAGAGATTCTTCCTGAAATTACGGTTCGCCAGATTATCGAAGCCGGTATGGAGCAAATGAGTTCTCGGTATTATCGTCTTCTAAGCGCGGCGGAGGTTGCAAGGAGGCTTAACGAAGCTTTGGATTCAAGCTCCCCGTTGTCCGTTATCCGCTTAGGGGATGGGGAACTGCTTACGCTTGCGCAGGAGTTGGTTTTGAACATGAATGAAGTGCGTAAAGAAGGACATTTTTTAAGTTATGCCGGTGTTCGTTTACCTGATCTAAAAGCAAGAGATATGTTGGCAGCCTCCGTGAGAAAGGCCGATATCGTTGGCATTCCCAAACTAAGATTGCCAAACTTTCAACCTCTGGGCTTTTCTGTTTTTAGAGCCCATGGCATTGATTATCGAAAGTTGCAACTAACGTTATCGACGGTCAACTATGCATTGCATTTGGAAGGTTTACTGGGAGGGATCCTTGCAGGACGTCGAGTTCTCGTGGTGGGCAATTCCGCTCCCGGTCTTTCACGGGTGCTGTCAGGCCGCGGAATCGAGGTGGCAGGCACGGTCGCTCCCGTGGAAGGCATCCACGATATTCCCAGAATCATGGAGGAAATTCGAGGGCATCCATTCGACATCGCGCTGGTGGGCGCCGGCATTCCGGCTGTTATCATTACAGAGCGAATTGCCTCCGAACTCGGAAAGGTCGCTGTCGATTTCGGGCATCTGGCTGATTCCTTGGCAAGCGGGGAAGCAACCTTATGA	MDSILPELEILPEITVRQIIEAGMEQMSSRYYRLLSAAEVARRLNEALDSSSPLSVIRLGDGELLTLAQELVLNMNEVRKEGHFLSYAGVRLPDLKARDMLAASVRKADIVGIPKLRLPNFQPLGFSVFRAHGIDYRKLQLTLSTVNYALHLEGLLGGILAGRRVLVVGNSAPGLSRVLSGRGIEVAGTVAPVEGIHDIPRIMEEIRGHPFDIALVGAGIPAVIITERIASELGKVAVDFGHLADSLASGEATL				NA	NA	NA	NA	NA
AK002_01452	1335			hypothetical protein	ATGAACCGCATCAGCCACCATAAAACGGACGGTTACAATGACGGGTTTAACAAAGGCTTCCAATCAGGCTACAAGGATGGATACAGCCGGGGGCGGCATATGGGAATATCCCAATTCAGGAATGTTTTTGAGGGTACAAGTATCATCATACCGACCTATAATCAGCTTCCTTATTTAAAAGAATGCATTGAAAGTATCGCTCGATATACCGACATGCCGTATGAACTCATTATTATTGATAATGCATCCGATGACGGAACTGCGGAATTCCTCAAATCTTCCCAAAGGCTCCGCTTTCGAATCAATGAAGAAAATTTAGGCTTTGCAGGGGCTGTAAACCAGGGACTGATGATGGCAAAAGGAACAACGTTGATGATCTTAAATAATGATTCCGTTGTAACGACCAACTGGCTCTCGAATTTGCTCGTCTGTCTGCACAGCGACCCGCAGTTCGGGATTGTCGGTCCGGTGACAAATTATATCAGCGGAGATCAGCTTATTCATGTCAGCTACCACGATATCGCGGAGATGCAGCAATTCTCCAAATCATACAATCACTCTAATGCGCACAGCTGGACCGTTACAGAACGCTTGACAGGTTTTTGCATGTTGATTCGGCGCGATGATTTTTACCGATTGGGTTTTTTTGACGAGGGCTTTGAGATCGGCAACTGTGAAGATGACGATTATGGGCTGCGTGCCCGTCTTCTTGGAATGCAGCTCATTATCGCCAAGGATACGTTTATTCACCATTATGGCAGCGTCAGCATGAAGACGTTAAATTCCAGATTCGAACAAGTGTATGCGAATAATCTTACTTTCTACTCCAGCAAGTGGGAAGATCCTCATGAGATGTTGTCCCTGAAGTGGCAGCGGAGCTTGAACCGGGACATGAAGCTGCGGACCGTTGATATGTATCCGACGTGTGTCTTCGTTACAGGGGCAGACTCGGTAATCTATTGGATTGAGAACGGAATCAGGCATCCGATTCATGGAGCCGTCGGAATTCAGGCTGTACGGGTTTCACAGGTTGATCTCCGCTGCTGGCCGCTCGGGGATCGCATGGCTGCGGAGGAAGCCGTTGGGCGAATGAGGACTGTGTATTTTCCATCCACGGAATCTTGGGAGCAAGAAGGCAAACTGATCAAGCATAAGAACGGCAGCGTTTATCAGTACAAGGGGAATCGGCTGCAGCGATTCATGAATCGGCTCGTCTTAGCGGCTTGGCACCTTGATTTTTACGAGCCGCTGCTAGTGAACGAGCACGAAATCCAGCAATATGGGGAGGAAATTCCAATCATTTCTCCTCCGGTGATTAAGGCGGATAACATTTAA	MNRISHHKTDGYNDGFNKGFQSGYKDGYSRGRHMGISQFRNVFEGTSIIIPTYNQLPYLKECIESIARYTDMPYELIIIDNASDDGTAEFLKSSQRLRFRINEENLGFAGAVNQGLMMAKGTTLMILNNDSVVTTNWLSNLLVCLHSDPQFGIVGPVTNYISGDQLIHVSYHDIAEMQQFSKSYNHSNAHSWTVTERLTGFCMLIRRDDFYRLGFFDEGFEIGNCEDDDYGLRARLLGMQLIIAKDTFIHHYGSVSMKTLNSRFEQVYANNLTFYSSKWEDPHEMLSLKWQRSLNRDMKLRTVDMYPTCVFVTGADSVIYWIENGIRHPIHGAVGIQAVRVSQVDLRCWPLGDRMAAEEAVGRMRTVYFPSTESWEQEGKLIKHKNGSVYQYKGNRLQRFMNRLVLAAWHLDFYEPLLVNEHEIQQYGEEIPIISPPVIKADNI				NA	NA	NA	NA	NA
AK002_01453	264			hypothetical protein	ATGAGAGCAAGGAAAAAACATGGCGGTGCTGCGTTGAAGAGAAAAGGAATCCGTGGAAGAGGCATAAGAGGAAAGGGGGCGAATCGAGTTTTTGGGGGAAAGAGAAGAAGAGGTCCAGGTAGAATAGCTCCGCGACAAACGGCTGCCGAATACAATCAATCCTATGATGCGGGGTTTGATAAAGCGTATAACGAAGGGTTTAACGTTGGTTATGCGGAGGGTATGGAGGCCGGTCATCAAGAAGCTTATAAAGGAGAAGGATAA	MRARKKHGGAALKRKGIRGRGIRGKGANRVFGGKRRRGPGRIAPRQTAAEYNQSYDAGFDKAYNEGFNVGYAEGMEAGHQEAYKGEG				NA	NA	NA	NA	NA
AK002_01454	1209			hypothetical protein	ATGGCTTTAAGAAAAAAAATAAGGCCTCGAAAGCGAGTTGGAAAACGAAAACACCAACACCATCCTGTTCGTCTTAGCGCATATCAAAAGGGCAGTTTAGACGGTTTTCAGCGGGGAAAAGAGGAAGGGCTCGCTCAAGGGCGCGCCGATGCGCAGAAAAGGTCTCAAACCGCTGTTGCCGTTATCGAGACGGCTCTGCCCAAGATGGACGTTCTGGTTATCGCGGCAGGCATGATACCGTCGCTTGAAATCGGCGTTATCCAGCCCCTCCAAACGCTGAATAAACAAGAGAACCTGCAATTCGACGTGAAACTGGAAACCGACGTGACCCACGAAATGATTGCTGCCGCGAACACGATTGTATTCGTTCGCAATGTGGAACCGGCGGCCTATGCATTACTAGAGCTGGCCCATCAGCTGAATAAAAGGACGGTCTATGTTATTGACGATAACTTCTTGGAGATTCAGCCAACAACTCCGGTGGGCGAATATTATAACGATCCGATCCGTCGAGAGACGTTTATTAAGTTTTTGAAAAACACGCAAATCATTAAAGTCGATGCACCTGATCTCGGCACCTATATTCATGAGCGGTACAATAGACACGTGATTTACTTCCCTGCCAGCATCGATTTCGAGTGGCTGGATCAGAACGAGAAGTCGGTTAAGGATCAGGGGCAAGTGGTCATCGGTTATGCAGGAGGGGACAAAGAGGAAGATTTCGTTCCCGTCATTTCAGCGTTGAACAAAATTTTGGATTACTATGGGGGATTCGTGAGATTAGAATTTTTCGGCTATCTTCCGCCTTCGCTGGCTGATCATCCAAGCGTCAAATATGAAGGCGGGGGGATGGAATACAAGGAATTTTTGAAAAAACTTAATAAGAGCAACTGGAACATCGGCATTGCGCCGCTTGCCAACAATTCATTTAACAAGGGGAAAACGAATACCAAATTCCGTGAATACGGTGCCTGCGGCATTCCAGGCATATATTCGAAATCTCCAGTTTATACGCACTGGGTCGAGCAGGGCGAAACAGGCTACCTGGTTGAGCATACCGAGCAGCATTGGTATGAGGGAATCAAGGCCATGATTGAAGATCCGACGATGCGGCAGAGAATCAAGGAGAATGCGCATCGGGCAGCCCGGCAGCATTTTTCGCTTCAGACATGCGTCGATAATTGGAAGAAATTTATATTCAAAACGTAA	MALRKKIRPRKRVGKRKHQHHPVRLSAYQKGSLDGFQRGKEEGLAQGRADAQKRSQTAVAVIETALPKMDVLVIAAGMIPSLEIGVIQPLQTLNKQENLQFDVKLETDVTHEMIAAANTIVFVRNVEPAAYALLELAHQLNKRTVYVIDDNFLEIQPTTPVGEYYNDPIRRETFIKFLKNTQIIKVDAPDLGTYIHERYNRHVIYFPASIDFEWLDQNEKSVKDQGQVVIGYAGGDKEEDFVPVISALNKILDYYGGFVRLEFFGYLPPSLADHPSVKYEGGGMEYKEFLKKLNKSNWNIGIAPLANNSFNKGKTNTKFREYGACGIPGIYSKSPVYTHWVEQGETGYLVEHTEQHWYEGIKAMIEDPTMRQRIKENAHRAARQHFSLQTCVDNWKKFIFKT				NA	NA	NA	NA	NA
AK002_01455	1038			hypothetical protein	ATGGGGAAAAGAGGGAAAAGAGGGGATATAAACGTACTCATCGTCGGATCCGAAAAAATCGCTTCCTATAAAATCGGCATTGAGCAGCCGCTCCGCCATTTGGAGAAGATGGGAGTCTGCGACTTTGACGTCAGATCCGATGATGAGATGGACAGATCAAGGCTGGCTGAAGCGGATATCGTCCTCTTCTTCCGAACGGTTCAGCCCGAAGCTTATAAGTATCTGGAGATGGCCCGGGAGATGGGAAAAAGAACGGTGTACGTGATCGACGACCATTTTATCGCGATGTCTCCGGGTTCGGATATGGGACGATATTATCATGATTCTTCACGAAGAAAGACGTATGTTAAATTTCTGAAAAACGCTCAAAGCGTAAAGGTTGCTTCCAGTTTTTTTGCCAAACATCTTGAAACGCATTTTAGTCCCCAAAAAATAATCTATTTTCCGGGAAGCGTTGATTTCTCCGTTTTTTCCGGTTTGAAAAAGAACCGTAAAGAAGAAGGGAAAGTCGTAATCGGGTATGAAGGCGGAAAAAAACAAGTGGCTTTTGAACCTGTTATCGGGGCATTGCACAAAATCATTGGGAAATACGGGGATAAACTCAGAATCGAGTTCTGCGGATATGTTCCCGATGAACTCAGGGAGAAGCCGCAGGTGTTTACGGAATCCTACGATGAGAACTATAAAAACTTTCTGAAGCGCCTTTACCGGTCCAACTGGGATATCGGGTTAGCGCCGTTGGAGCGAACACTGCTGCATGATTGCAAAAGCAACAATAAATTCCGCGAATATTCCGCTTGCAGGATTCCGGGCATCTATACTTCTTCTCCAGCCTACGATGAATGGGTTGCCGGGAAGGAAAACGGCCTGATTGTATCCGGTGAGAGCGATGATTGGTACGAAGCCATGGTCCAACTGATAGAACAACCTGAACTACGGCAGAGCATTGCGGAGCATGCGGAACAAGTAGCATGGGCGAATTTTTCAGTGGAAGCTTGCGCCGAACGATGGCGTTCACAAATTCTAATGTCGGAATGA	MGKRGKRGDINVLIVGSEKIASYKIGIEQPLRHLEKMGVCDFDVRSDDEMDRSRLAEADIVLFFRTVQPEAYKYLEMAREMGKRTVYVIDDHFIAMSPGSDMGRYYHDSSRRKTYVKFLKNAQSVKVASSFFAKHLETHFSPQKIIYFPGSVDFSVFSGLKKNRKEEGKVVIGYEGGKKQVAFEPVIGALHKIIGKYGDKLRIEFCGYVPDELREKPQVFTESYDENYKNFLKRLYRSNWDIGLAPLERTLLHDCKSNNKFREYSACRIPGIYTSSPAYDEWVAGKENGLIVSGESDDWYEAMVQLIEQPELRQSIAEHAEQVAWANFSVEACAERWRSQILMSE				NA	NA	NA	NA	NA
AK002_01456	1134	arnB	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	TTGGACCATAAGCTGATACCCGTTCTTCAACCGAGTATAGGTCAAGAGGAGATCGACGCGGTGGCAGATGTTTTACGGTCAGGATGGCTTGGACTTGGCCCCAAAACGGAACAGTTCGAGCAGGAATTTGCCAAGTATGTCGGCAGCCGTTTCGCGGTTGCGCTCAATTCTGGTACGGCCGCGCTCCATCTGGCCATGGACATTTTGGGTATCGGACCGGGTGACGAGGTCATCGTGCCTTCCATCACGTTCATATCCACTGTCCATGCGGTTAGCTATGTGGGAGCAACGCCGGTTTTTGCGGATATTGAACCCGATACGATGAACATTTCACCGGAAGATATCAAGCGGAAGATAACAGATAAAACCAAGGCAATTATCGTCGTTCACATGGGCGGGCATCCCTGCGATATGGATACCATCCATGAATTGGCGCATGCCAATGGAATCAAGGTAGTAGAAGATGCTGCGCATGCATGCGGCGCGGAATATAAAGGCAAAAAGATCGGCTCCATCAGCGATATTACCTGCTTCAGCTTTCACGCCGTCAAAAATTTGACGAGTGGTGAAGGCGGCGCAATTACCTGCAATACCGAGTGGATGAACCGTAAGCTGCGTGAGAAGAGGTGGGTAGGCATTTCCCGCGATACGTGGATACGGTCGTCACATGAGAAGGTGTATGCATGGCAGTATTTCGTTGATGATGTAGGATACAAATATCATATGAACGACATGCAGGCTGCCATCGGGCTCGTTCAGTTAAATAAGCTGAGCCAATTGAACGGAAGACGACAAGAAATAGCGGCTCGTTACCAATCCGAACTGAAGGATTTGGAATGGCTGGAACTTCCTCATGAACAGCCGTATGCTCAAAGCTCCTGGCATTTGTTCCAGGTTAAATTCAGCAAGGAAAGCCAGAGGGACCGTATGATTGGCCACTTGCAGGAACACAATATCGCGACGGGCGTCCATTATTATCCGTGCCATCTGCATCCGAGCTACCTGCATCTAAAAGCGATCGTGCCGCTCTCCTCAGAGATCTGGAAAAGAATTCTGACCCTTCCTATTCATCCGAACATTACGGAGGAGGACTTGGATCGGATCATAACCCGCATAAGGGAGTTTAAGCCATGA	MDHKLIPVLQPSIGQEEIDAVADVLRSGWLGLGPKTEQFEQEFAKYVGSRFAVALNSGTAALHLAMDILGIGPGDEVIVPSITFISTVHAVSYVGATPVFADIEPDTMNISPEDIKRKITDKTKAIIVVHMGGHPCDMDTIHELAHANGIKVVEDAAHACGAEYKGKKIGSISDITCFSFHAVKNLTSGEGGAITCNTEWMNRKLREKRWVGISRDTWIRSSHEKVYAWQYFVDDVGYKYHMNDMQAAIGLVQLNKLSQLNGRRQEIAARYQSELKDLEWLELPHEQPYAQSSWHLFQVKFSKESQRDRMIGHLQEHNIATGVHYYPCHLHPSYLHLKAIVPLSSEIWKRILTLPIHPNITEEDLDRIITRIREFKP	PGPT0022785_951	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010	NA	NA
AK002_01457	1176	purD_2		Phosphoribosylamine--glycine ligase	ATGAGAAAACTGTTGGTTCTAGGTGCGGGAATCTCCCAGCTCCCATTAATTGAAACCGCGAAAAGAATGGGATTATACGTTATTGTTGTGAGCCGCCAAGGAAACTATCCCGGATTTGCCAAGGCAGACAAGGTTTACTACGAGGATACGACCCATATGGATAAGATTGTCGAAATCGCCCGGCATGAAGGAATTCATGGAATCTGTACAACGGGTACGGACGTGGCCGTCAAGTCGATCGGCAGAGTCGTGGATGAATTGGGAGTAAGCGGATTGAGTTATGAATCCGCTCTACTCTCCTCAAATAAATGGAAGATGAAACAGGCTTTTATGAAACATGGCGTACGAACGGCACGATTTCTGAAAGTCCAAACCTTGCAGGAAGCTTACAGCGCTTTCGAAGTATTATCGCCGCCGCTTATCTTTAAGGCAGTGGACGGAGGAGCAAGCAAGGGCATTGTGAAGGTTGCCGATATGGCCCATGTGGAATACGCATTTGAAGCCGTGCGCAAGGATACGAAACTGGATTTTTTCATTGTTGAAGAGTTTATTGAAGGAACCGAGTTTGGCGCGCAGGCATTCGTCTACGATAACCAAATTCAATTCATCATGCCGCACGGGGATTTCGTCTTTTATGGGGATACCGGTGTTCCCATCGGTCATTATGTCCCCTATGAATTGCCCGAAGAAGTGCAGCAAGATTTATTTTCCCAGTTGAAGCAAAGTATCGAAGCGCTGGAATTAAATCATTGCGCAATCAATGCGGATTTTATTTTGAAAGACGGGCATGTGTATGTTCTTGAAATCGGAGGCAGAGCAGGAGCTACATGCTTACCCGAACTGGTGTCCACTTTCTATGGATTCGATTACTATGAGCAGATCATCAAGGCTGCTCTTCGCATGAATCCGTCATTTCCCTCTCATACTTCACAGCCTTGTGCGTGTGAATTACTGATCTCCGATAAAGATGGGGATATTACTGGACTTGAGAACGGAAATGATCAGCATGAGAATATTATTCAAATATCATTTGATTATCATATAGGCGAGAAGGTAAATAAATTCAGGGTTGGCACTGACCGAATCGGCCAGATCATCGTGAAAGGGGACCGTTTGGAAGAAGTGCTGAGCCTGCTGGAAGAAGTTAAAGAGAAGATAAGAATCGATTTAGGTTAG	MRKLLVLGAGISQLPLIETAKRMGLYVIVVSRQGNYPGFAKADKVYYEDTTHMDKIVEIARHEGIHGICTTGTDVAVKSIGRVVDELGVSGLSYESALLSSNKWKMKQAFMKHGVRTARFLKVQTLQEAYSAFEVLSPPLIFKAVDGGASKGIVKVADMAHVEYAFEAVRKDTKLDFFIVEEFIEGTEFGAQAFVYDNQIQFIMPHGDFVFYGDTGVPIGHYVPYELPEEVQQDLFSQLKQSIEALELNHCAINADFILKDGHVYVLEIGGRAGATCLPELVSTFYGFDYYEQIIKAALRMNPSFPSHTSQPCACELLISDKDGDITGLENGNDQHENIIQISFDYHIGEKVNKFRVGTDRIGQIIVKGDRLEEVLSLLEEVKEKIRIDLG				NA	NA	NA	NA	NA
AK002_01458	558	rmlC	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGAAAATTACGGATACAAAGCTCCAAGGCGTGAAACGGATTGAACCGGCCGTTCACCAAGACCATCGGGGATTTTTTATGGAAAGTTTCAATGATCGAGTTCTTAAAGGATGCGGCATTAACGACCATTTTATTCAGGACAATCACTCGATGTCACGTGAGGCAGGTGTTATTAGAGGGCTGCATTACCAACTGTCTCCCGAGGGACAGACGAAATTGATCCGCGTTGTAAGCGGGGCGATCTATGATGTGGTTGTTGATATTCGGTCGGGCTCTCCTACCTATGGACAATGGCAAGGTTTTATCTTATCCGCAGCCAATTTCATTCAACTTCTCGTTCCCAAAGGGTTTGCCCATGGTTTCTGTACTCTTGTTCACGATACGGAGGTCATATACAAGGTCGATGCCTACTATTCGCCAGAGCATGATCGGGGAATAGCCTGGAACGATCCGGATCTCAATATCGATTGGCCTGTGAACAAACCTGTTCTCTCTGAGAAAGATTCAAAGCATCCTCGATTGGCTTTGGCAGAAAATAACTATATATACGAGGGGTGA	MKITDTKLQGVKRIEPAVHQDHRGFFMESFNDRVLKGCGINDHFIQDNHSMSREAGVIRGLHYQLSPEGQTKLIRVVSGAIYDVVVDIRSGSPTYGQWQGFILSAANFIQLLVPKGFAHGFCTLVHDTEVIYKVDAYYSPEHDRGIAWNDPDLNIDWPVNKPVLSEKDSKHPRLALAENNYIYEG	PGPT0014300_1760	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
AK002_01459	987	rffG	COG1088	dTDP-glucose 4,6-dehydratase 2	ATGAAGATCGTTGTCACAGGCGGTGCGGGATTTATAGGCAGTAACTTTATACGATATATGCTGTCTCAACATCCGAATGACGAATTTATTAATGTGGATAAACTAACGTATGCCGGCAATTCAGGAAATCTGAGCGAAGTGCGGACGAATCCTAAATATCGTTTTGTGAAAGCGGATATCAGAGACCGGGCAGCTTTAGAACCCCTCTTTAAGGAGGGGGTTGATGCGGTCGTTAATTTTGCAGCTGAATCCCATGTCGACCGCAGCATTTTGCAGCCTGAATTGTTTGTCTTGACGAATGTGGCAGGAACTCAGACGCTCCTCGATCTGTCGAGGCAATATGGAGTCCGCAAGTTTGTCCAGGTCTCTACAGATGAGGTCTATGGAACGCTGGGAGCGGCCGGCCTATTTACCGAAGAATCACCGCTTCAACCCAACAGTCCTTATTCTGCAAGCAAAGCAGGCGCCGATTTGCTTGTTCGAGCTTATTATGAGACGTTTGGATTACCGATCAATATTACGCGCTGTTCAAATAATTACGGCCCATATCAGTATCCTGAAAAGCTAATACCGCTTATCATTTACAATGCTTTGCATAACAAGCCCCTTCCGGTATATGGCGACGGTTTGAACGTTCGCGATTGGCTGTACGTGGAAGATCATTGTCGAGCTGTCGATCTGGTTTTGCGCCAGGGCGTCGACGGCGAAATATATAATATCGGAGGACATAATGAACGGAATAATTTGCAGGTTATTCGAACGATCCTGTCTGAACTGAACAAACCTGAAACCTTGATTCAGCATATCAAAGATCGTCCCGGACATGATCGCCGTTATGCGATAAATGCAGACAAGATAAGGAAGGAACTCGGTTGGGCTCCACAATATCATTACGAAAGCGGCATTCGTGAGACGATTCGATGGTATCAGAAGAACCTGGCTTGGGTGGAACAAGTGCTTGAAAAGTCAGCAGACAGCGGTCATTAA	MKIVVTGGAGFIGSNFIRYMLSQHPNDEFINVDKLTYAGNSGNLSEVRTNPKYRFVKADIRDRAALEPLFKEGVDAVVNFAAESHVDRSILQPELFVLTNVAGTQTLLDLSRQYGVRKFVQVSTDEVYGTLGAAGLFTEESPLQPNSPYSASKAGADLLVRAYYETFGLPINITRCSNNYGPYQYPEKLIPLIIYNALHNKPLPVYGDGLNVRDWLYVEDHCRAVDLVLRQGVDGEIYNIGGHNERNNLQVIRTILSELNKPETLIQHIKDRPGHDRRYAINADKIRKELGWAPQYHYESGIRETIRWYQKNLAWVEQVLEKSADSGH	PGPT0022625_4602	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
AK002_01460	1071			hypothetical protein	ATGATTAAATCCAAGGCCCTCAACCTGACCGTCTCCGCGGCATTACTGCTTAGTATGGCTGCAGTAGCAGGATGCGGTAACGCCAATGACGGTAACACGACACGTACGAACAATGTGGACGGTGGCCGTGTCGGTGTGAAATCCGTACGTAACAACCAGAACGTCGGCAGTACGCAGCAGCATGACTTGTCCAACCTGAAATACAGCAAGGCGCTGTCGAAAAAAGTTTCGGATATCAGCGGCGTAGGATCGGCGCATGTATTCGTAACGAACCGCAATGCCTATGTTTCGCTGTCCAGGGACGGCATGAACACGAGCAACATCAATGGTCGCGTTACTGGCATGAGCACTGGGGCAAATCGTTCCGCTGACGGCTTGATGAATGGCACGAACGGCACGATGAACGGCACAAATACAACGAATGTCAGAAACCGTACCTTCGGCACTTCGGGCACGGGCAGCGTCGGTCTTCTCCGTGGTATGGCCAATGACACCAGACGTGCGGTAGACAATACGACAGGTCTCGGCCGCAATGCCGATAACCGCGGCTTCGGGGTGAACGGAACGACAACCAATGGCGGCTTTGGCGGAAGCAATTATAATACGCTAAACGGCACGCGCACGAACGGTCTTATGGGAACTAACGGCACGCGTACCAATACCCTTACCGGAACAAACGGCGCAACCAACGACACGTACATGGGAACCGGCATCAATGGCGTTCCTTATGGGACCTACAATAATAATATGGGCATCATGAGCAACAATCGTGAAGAAGTGCCTCAGCACCTTCGTCAGGAAATTACGAGCAAAATTCGCAAGACCGCTCCGCATATCAGTCAAGTTTATGTTTCCTCCGATGAGGAATTTTATCAGCATGCCAATCGATTTGGAACGGACGGGAATGCGGCGAACACGGTTGGAACGCTTTCGCGTGATTTCGGCTCTTGGATCAACCGCGTTTTCCCGTTGAACCTTGGCGGCCGAAACGGCATGAACGACACCCGCGGCAACTTGATGAAGAACGATACGGACGACGGTTGGTTTGGCGGCAATCGAAACAGCCGGTAA	MIKSKALNLTVSAALLLSMAAVAGCGNANDGNTTRTNNVDGGRVGVKSVRNNQNVGSTQQHDLSNLKYSKALSKKVSDISGVGSAHVFVTNRNAYVSLSRDGMNTSNINGRVTGMSTGANRSADGLMNGTNGTMNGTNTTNVRNRTFGTSGTGSVGLLRGMANDTRRAVDNTTGLGRNADNRGFGVNGTTTNGGFGGSNYNTLNGTRTNGLMGTNGTRTNTLTGTNGATNDTYMGTGINGVPYGTYNNNMGIMSNNREEVPQHLRQEITSKIRKTAPHISQVYVSSDEEFYQHANRFGTDGNAANTVGTLSRDFGSWINRVFPLNLGGRNGMNDTRGNLMKNDTDDGWFGGNRNSR				NA	NA	NA	NA	NA
AK002_01461	1188	agaA_1	COG1820	N-acetylgalactosamine-6-phosphate deacetylase	ATGAGCAGCGAACGCAAAAATTCGGTCCAATTGTTGTACGGTCAAGTCTTGACGCCGGACGGCTTCTGTGCAGACGGCGTGCTGGCGATCCAAGGAGAGGACATTGCTTACGCCGGCGATGTTTCGGGGCTCCCCGCCGAGCTTAAACAGGCTGCAGCGGAAGTGATCAACCAACCCGACGGCTACATTATTCCCGGATTTATTGATATCCACGTGCACGGCGGCAACGGCGAAGATTTCATGGATGCAAGCAAGGATGTCCTGGATAAAATCACGTCGTTCCACAGCTCCCAGGGAACCACGTCCATGCTCGCCACCACGATGACGGCGCCGAAGGCAGCCATCGACCACGTGCTTCGGGAAGTTAACGAGTACCGCAGCCAAGGCATGCCTTATACCAAACTGGTAGGCGCACATCTGGAAGGCCCTTTTATCAGTCCGAAATGGCCAGGTGCACAAAATCCGGAGCATATCGTCCATGCCAATATCGACTGGCTGGAAGAATGGGTGTCCACATACCCGGATCTGATCCGCCAGGTGACCCTGGCACCGGAGCGCGAAGGAGCGCTGGAGGCCATCTCCTGGCTCAGCAGCCACGGGATCGTGGCCGCACTGGGTCATACGGATGCCACTTACGAAGAAGTGGAGGCCGCCGTGGAGGCAGGACTGAGCCATGGCGTGCATACGTTTAATGCGATGACAGGACTGCATCACCGCAAGCCTGGCGTGGTGGGTGCGATGCTGGGCGATGATCGCCTAAGCTGCGAAATCATCGCCGACGGCATCCATGTTCACCCGGCTGCCATTTCGATTCTGGCCCGCATGAAACAGGACGGCAACCTGATTCTGATCACCGATGCGATGTCCGCTACCGGAATGGCTGACGGCGAATATACGATTGGCGATTTGCCGGTCGTTGTCGAGAACGGCATCGCCACGCTCAAGAGCAACAGGGATAGCCTGGCTGGCAGCACGCTGACGATGATCAAAGGATTCCAGCTGCTGGTCCGAGAGGTCGGTTTGAGCATTGAGCAGGCCTCCAGGGTCGGAAGCCTCAATCCCGCCAGAAAAATCGGCATCGATGACTGGACCGGATCCCTTGAGTCCGGCAAACTTGCCGACGTCCTGGTGCTCTCCAGCGACCTGGAGCTTCAAGGCGTCTGGATTCAAGGACAACGCAAGCATTAA	MSSERKNSVQLLYGQVLTPDGFCADGVLAIQGEDIAYAGDVSGLPAELKQAAAEVINQPDGYIIPGFIDIHVHGGNGEDFMDASKDVLDKITSFHSSQGTTSMLATTMTAPKAAIDHVLREVNEYRSQGMPYTKLVGAHLEGPFISPKWPGAQNPEHIVHANIDWLEEWVSTYPDLIRQVTLAPEREGALEAISWLSSHGIVAALGHTDATYEEVEAAVEAGLSHGVHTFNAMTGLHHRKPGVVGAMLGDDRLSCEIIADGIHVHPAAISILARMKQDGNLILITDAMSATGMADGEYTIGDLPVVVENGIATLKSNRDSLAGSTLTMIKGFQLLVREVGLSIEQASRVGSLNPARKIGIDDWTGSLESGKLADVLVLSSDLELQGVWIQGQRKH	PGPT0018860_882	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018860-nagA-K01443	NA	NA
AK002_01462	729	nagB_3	COG0363	Glucosamine-6-phosphate deaminase 1	ATGAATATTTACACATTCCGCGACGAAGAACAATTCGTGCAAACAGGCGCTAACCTGATTTCCAGCCTGCTGCACACCAATCCGCGCGCCACGCTTGGATTGGCTACGGGAAGCACGCCGGTCGGGCTCTATGCCAAGCTGATTGAAATGAACCGTCAGGGGCTGGTCAGCTTCGCCCAAACCACGACGTATAATTTGGACGAATATGTAGGCCTTCCGGAGAATCATCCCGAGAGCTACCGGACTTTCATGAATGAGAAGTTCTTCAATCATGTCGACATCCAGATGGATCGCACCCATGTGCCGAACGGCAATGCTGCCGATCCGGAAGCAGAATGCCTGAATTACGACAAAATGCTCGAAGAATACGGCCCGGTTGATCTTCAGCTCCTCGGCCTTGGACATAACGGACACATCGGTTTCAACGAGCCTGGCGAATCCTTAAGCGGCGGTACCCATGTGGTTGAGCTGCAAGAGAAAACACGTAACGCCAATGCAAGATTCTTCCCGACCCTGGACGATGTCCCGACCCACGCGATTACCATGGGCGTTGCCACCATCATGAAAGCCCGCCAAATTCTCCTGCTCGTTCGTGGAGAGGATAAAGCGGAAATCGTACACCGCGCATTGACGGGGCCGATTACCACAGAGTGTCCGGCATCGCTGCTTCAATGTCATCCGAACGTGGTTGTCCTTCTGGATCAAGGCGCAGGGAGACTGCTGGTATGA	MNIYTFRDEEQFVQTGANLISSLLHTNPRATLGLATGSTPVGLYAKLIEMNRQGLVSFAQTTTYNLDEYVGLPENHPESYRTFMNEKFFNHVDIQMDRTHVPNGNAADPEAECLNYDKMLEEYGPVDLQLLGLGHNGHIGFNEPGESLSGGTHVVELQEKTRNANARFFPTLDDVPTHAITMGVATIMKARQILLLVRGEDKAEIVHRALTGPITTECPASLLQCHPNVVVLLDQGAGRLLV	PGPT0018865_2663	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018865-nagB-K02564	NA	NA
AK002_01463	876	ybbH_1	COG1737	putative HTH-type transcriptional regulator YbbH	ATGACACCAATCTTGCATATTATTTCTGTCGAAAAGGAAGGTCTGCCCCGTCAGGAACGACGGCTTGCGGAGTTCATTTTGACAGCTCCGTCCGAGATTGTGCATATGGGAATTAAGGATCTTGCCGATCAGTGCGAGGTCAGCGCTGCCACCGTAACCCGTTTTTGTAAGAATTTTCAGTGTAAGGGGTATCCTGATTTTAAGCTCAAGCTTGCGGCCGAGATCGCTCATGCCGAAATGGCCTCGCGCACGGGAAACACGCGCTATCAGGATATCGTGGCGGGCAACCCGCTGGCCGGGATCGTCGAGGCGATCGAGTCCAATCATCTGACTTCCATCCGGGATACGACGCAGCTGCTTGATTTGGGTCAGCTGGAGCGTGCCGTGGATGCCCTGTGCCGCGCGAAACGCATTGATCTGTACGGCGTGGCGACCTCTTCCATCGTGGCGCAGGACTTTTACCAGAAGCTGATCCGGATCGGAAAAAACTGCACCGCTTTTGCGGATTCCCATATGCAGATCACGTCAGCCTCCACACTGACCTCAAGCGATGTGGCCGTTGCCGTTTCTTACTCCGGCGAAACGCCGGAAACCATCGATGCATTGGCCTGTGCCAAAGACGCCGGCGCCTTCACGATCAGCATCACCTCTTACCGGAGCAGCGCGATCTCCGCCCTCGCGGATATTACGCTGTATTCATCGTCGCTCGAGGAAGGAATGCGCCGGGGTGATATGGCTTCGCGTATCGCTCAGCTTCACATTATAGACATCCTATTCATGGGAATGGCCAGCCGGGACTTCTCCACGTATGTCCCCCGTCTGGAGCAATCATATCTTAATGTTCAAAATTATCGCAAAAGCCGAGGAGGACAATAA	MTPILHIISVEKEGLPRQERRLAEFILTAPSEIVHMGIKDLADQCEVSAATVTRFCKNFQCKGYPDFKLKLAAEIAHAEMASRTGNTRYQDIVAGNPLAGIVEAIESNHLTSIRDTTQLLDLGQLERAVDALCRAKRIDLYGVATSSIVAQDFYQKLIRIGKNCTAFADSHMQITSASTLTSSDVAVAVSYSGETPETIDALACAKDAGAFTISITSYRSSAISALADITLYSSSLEEGMRRGDMASRIAQLHIIDILFMGMASRDFSTYVPRLEQSYLNVQNYRKSRGGQ	PGPT0017985_566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337	NA	NA
AK002_01464	225	gerE	COG2771	Spore germination protein GerE	TTGAAGGGGACCGACCATAACAGCAAGTTCTTGTTAACCCACCGTGAACGCGAAGTGTTTGAATTGCTTGTGCAGGACAAAACGACTCGCGATATCGCCGGGCAGTTGTTTATTAGCGAAAAGACGGTGCGTAACCACATCTCCAATGTCATGCAGAAATTAAACGTCAAGGGCCGTTCGCAAGCTGTCGTTGAGTTGATAAAACTCGGTGAGTTGAAGATCTGA	MKGTDHNSKFLLTHREREVFELLVQDKTTRDIAGQLFISEKTVRNHISNVMQKLNVKGRSQAVVELIKLGELKI	PGPT0025270_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025270-gerE-K01994	NA	NA
AK002_01465	273			hypothetical protein	ATGGGATGGATGATCGGGATTACGGCCGGCGCCGTTTTGGTCCTCTTGGTATTGATTGGATTTGGACGCAAGCGAAGCAGCGGAAGAAAGGGCAATGTCATCCAGCTGAAATCCAAAACGCGATCGAGCAGCGGGCAGCGTGGACAAGCATGCAGCAAATGCCGCCGCAAGCGCCCGCTGACCTTTTATGCGGATGATTCCGGTGCCGTAAGAGGGCTGTGCACCGATTGCAAAAAGGAGCTGGGACGTCATCAGGAATTGTATCCCGTATAG	MGWMIGITAGAVLVLLVLIGFGRKRSSGRKGNVIQLKSKTRSSSGQRGQACSKCRRKRPLTFYADDSGAVRGLCTDCKKELGRHQELYPV				NA	NA	NA	NA	NA
AK002_01466	1797			hypothetical protein	GTGAACAGGTTTGGCAGGCTGAATACGCTGCGGAATCAAATCTTCCTCGGGTTTATGCTGGTGATGATCATCGTGTTGGCATTAGTCGGGGTTTTTGTATATGACCAGGTTTCCGCCCTTCTGCGCAACAGTGCCGAGAAGCATATCCAGCAGACGGCCGTACAGGCCACGGGCAAGCTGGATGCGCTGCTTAAGCAGGTGGATACGCTGACGGCCCAAGTGTCCACGAACGCAACGGTTCAGCGTTATCTCGCGCAGGAGACCGCAGGTCATCCGATTACGTTCGGAGAACGGCAGTCCCTGCAGCAGGAAGTGCGCAAGTATGAGGCATACGCTACGGGCATCCGGTCGCTTGAATTGTATACAACGGATTATCGGCGGCTGTTCCCGCTCGACGAAGGCAGTTTGACCAGCCGGGTCGGGGTCGATTGGATTATAGCGGCTGACAAGGGCATGGGGAAGCTGGTATGGTTCGGCCAGGATCCCCGGGATCCGGACGTGGTGGTAGCGGTACGCCGAATCCGGCTGATCGACCATTCTTTTGCGCATGGCGGGTACCTGCTCGTGAAGCTGGAGAAGGACTATTTTGCGCTGACGGATTCTGCCGGCGGCATGGGCAGCGATTCGCGTGAAACGATGGGGCTGTTTGATCAGGCGGGCCATGAAATCTCGTCGGATTTTGCGACGGAGGTGGATTCGAGGGCGGTTCTGCACCGCGAAGGAGAGACCGTTACGGTCGGCGACGAGGACTATATCGCCGTACAGAGGCAGTCTGGGGCAACGGGCTGGAATTTGGTCATCCTGACGCCAGTAGACTATACGACCGAAGGGATATCGGTGCTGCGGACCGCGATTATCGTATCCGGAGCCGTCGGTGCGCTGCTGTTTCTGATCTTGAGCTTTATTCTGACGACGATGATCATCCGGCCCATTCTGAATTTGATCAAAGCCATGCGCGGCGTGAGGCTGGGAACGCTGAAGCCCATTGCCGTCACCTCGAAGACGATGGAGATCAATGAGCTTAACAATTCGTATAACCAGATGGTGGATTCCCTGAACGAATTAATCGAGGTCGTGTATCAGAAGGAGATCATTCAGAGCCGGACGGAGCTTAAAGCGCTGCAGGCGCAGATCAATCCGCACTTTCTTTTTAACACCTTGGAAGCGTTTTACTGGGCGCTCGACGATCAAGGCGAAGAAGAACTGGCCCAGAACGTGGTCGCCATGTCGGGATTATTCCGCTACGTCATCAACCGCAAAGACGAGGATGAATGGGTATCGGTGCGGGACGAGCTGGATCATGCCGAACGTTATTTAATGATTATGAAAATGCGGATGCTCGACCGGTTATCCTGGAGAATCGAGGCGGACGAAGCCAGCAAGAACGTGCCGATTCCGAAGCTGCTGATCCAGCCGATCGTGGAAAATGCGATCCTGCACGGCGTCGAGCAGCGGCTGGGGCCGGGCACCGTCATTGTGCGCGCGCAAGCCTCCGATCAACCGGGTTACACGGTTGTTTCGATTGCCGACGATGGGCCCGGGATGGACGAGGAGACCGTAGCCTCGTTATATTCCTCCATGGAAAAAGGGTATGCGGAATCCGCTAAAAAAAGCGGCGTCGGCATAGCCAATGTCGAGCAGAGAATCCGGCTGTATTACGCTTCCGAGCAGATCGGCCTGCGCATACACAGCGTGGTCGGTCAGGGGACGACCGTTTCATTTCAAATACCGAACGATTTCCCGGCTATCGACGGGGAGGGGGAAAAGCATGAAAACGATACTGATCGTGGACGATGA	MNRFGRLNTLRNQIFLGFMLVMIIVLALVGVFVYDQVSALLRNSAEKHIQQTAVQATGKLDALLKQVDTLTAQVSTNATVQRYLAQETAGHPITFGERQSLQQEVRKYEAYATGIRSLELYTTDYRRLFPLDEGSLTSRVGVDWIIAADKGMGKLVWFGQDPRDPDVVVAVRRIRLIDHSFAHGGYLLVKLEKDYFALTDSAGGMGSDSRETMGLFDQAGHEISSDFATEVDSRAVLHREGETVTVGDEDYIAVQRQSGATGWNLVILTPVDYTTEGISVLRTAIIVSGAVGALLFLILSFILTTMIIRPILNLIKAMRGVRLGTLKPIAVTSKTMEINELNNSYNQMVDSLNELIEVVYQKEIIQSRTELKALQAQINPHFLFNTLEAFYWALDDQGEEELAQNVVAMSGLFRYVINRKDEDEWVSVRDELDHAERYLMIMKMRMLDRLSWRIEADEASKNVPIPKLLIQPIVENAILHGVEQRLGPGTVIVRAQASDQPGYTVVSIADDGPGMDEETVASLYSSMEKGYAESAKKSGVGIANVEQRIRLYYASEQIGLRIHSVVGQGTTVSFQIPNDFPAIDGEGEKHENDTDRGR				NA	NA	NA	NA	NA
AK002_01467	786		COG4753	putative response regulatory protein	ATGAAAACGATACTGATCGTGGACGATGAACCAAGAACGAGGGAAGGGGTAAGAAAGACCCTGGAGGCGTGGTCGTCCGGCCGATGCAAAATCGTGACGGCTACAAGCGGCGTAGAGGCGCTGGAGTGGCTGCAGGAGCAGGTGGCGCATCTGGTGGTAACGGATATCCGCATGCCGGAAATCGGGGGGCTGGAGCTGATTGAGCGATTGCATGAACTGGAGCATCCTCCAGTCATTATCGTCATATCCGGCTACTCGGAGTTTGACTATGCCCGCAAAGCGCTGCAATACGGGGTCGTGGATTATCTGCTGAAGCCGCTGGATAAGCGGAAGCTGGTAACCGCGGTTGAATCGGCGCTGGAACGGCGGGAAAAGATCGATCGGATTGAGCGGATGGAGAAACTGGTCGACCCCAAGCTGCTGGAGGCGGCGCAGCAGGATAAGGGCTACAGCGTCCAGGTGCAGGAAGCGCTGAAGTACGTGGATCAGCATCTGCAGGAGCCGGTATCGCTGAAGGAAGTGGCGGAGGTGCTTCATCTGAATTCCAGTTATTTCAGCGTGCTGTTCAAAGAGCAGACCGGGCTCACGTTCAGCGAGTATTTGACGCGCCGCAGGGTGCAGCGGGCCAAGGAGCTGCTGGCGGGGACGCCGCTGCCGATCTCGGAAATTGCGGAGAGGGTCGGATACCAGACGGCGAAATATTTCGTGAAAGTATTTCGGGACCTTGAGGAAGTAAGCCCGAGCCAATATCGCCAGAGCGTATCCGATAACGGAAAGGAAATCTAA	MKTILIVDDEPRTREGVRKTLEAWSSGRCKIVTATSGVEALEWLQEQVAHLVVTDIRMPEIGGLELIERLHELEHPPVIIVISGYSEFDYARKALQYGVVDYLLKPLDKRKLVTAVESALERREKIDRIERMEKLVDPKLLEAAQQDKGYSVQVQEALKYVDQHLQEPVSLKEVAEVLHLNSSYFSVLFKEQTGLTFSEYLTRRRVQRAKELLAGTPLPISEIAERVGYQTAKYFVKVFRDLEEVSPSQYRQSVSDNGKEI				NA	NA	NA	NA	NA
AK002_01468	1320			hypothetical protein	GTGTTCAATAAAAAATGGACGGTTCTGCTTTTGACATTGTGTCTCGCTCTGGTTGCAGCCGGCTGCGGATCGAACAGCAGCAGCACGGGGGAATCTGGCAGCGGCGGCAGCGAAGGCGATAAAGTTACGGTAAACTTCATGCACTTGTGGCCGGCGGGCGTCTCCGCGGGACAGAACAAAATCGTGAATCAGATCATCGAAGAATATCAAAAAGAGAATCCGAACGTGACGATCAAACAGGAAGTTCTGGATAATGAGCAATACAAAAACAAACTGAAGGTGCTTTCCGCATCGAACGAGCTTCCGGACGTAGGCGTGACCTGGGCAGCCGGATTCCTGAAGCCGTACGTGGAAGGAAACCTGTTTGCACCGGTCGACGATTTGCTGGACGGCCAGCTGGGCGACAAGTTCGTGGCGGGCACGACCGAGGCTTATGCGATTGACGGCAAAACGTATGCGCTTCCACTCGAGTTCAATATCGCTCCGGTTTACTACAACAAGGCGATATTCGAACAACACAACCTGGAGATTCCGCAAACCTACGAAGAATTCAAGTCGGTCGTGAAAACGCTGTCCGATAACGGAATTGCTCCAATCGCGCTCGGCAACAAGGATCGCTGGACCGGTTCGCTCTGGTACATGTACCTGGCAGACCGGATCGGCGGACAAGAAACGCTGGCCGGTGCAATCAGCGGCTCGGGCTCGTTTAAGGACGAATCGCTTGTCAAGGCAGCCGCCGAAGTTCAATCGCTGGTCGATGGCAACGCGTTTGTCAAAGGCTTCAACGGCTTGTCCAACGAGGAAGCGAAGTCGGAATTCCTGAACGGCAAAGCGGCCATGTACATGATGGGTACCTGGGAACTGCCGAACTTCACGACGAATGAAGAGATTCCGCAAGAATTCCGCGACAGCGTCGGATTCTTCAAATTCCCGACCGTCGAAGGCGGCAAGGGCGATATTAACAGCTGGGTAGGCGGACCGGGCGTCGGTTTGTTCATCGGCGAAAACTCGAAGGTGAAGGAAGAGTCCAAGAAATTCGTGGAGTATTTCGTGACCAAGTGGGGCGAGCAGTCGGTAACGGGTGCCGGCGTCATCCCGGCAACCAAGGTGGATACCTCGGCGCTTGAGCTTCCACAGTTGTACATCGATCTGTTCGATGAAATGAACAAAGCTAGCAGCATTACCTTGTTCGCGGATGTTCAAATGCAGGCGAATGCCGCCGAAACGCATCTGAACATGATCCAGGCGCTCTTCGGCAAAGCCGTCACACCGGATAAATTCTCCGAAGAGCATGACGCAGCGATTTCCAAAGGGAACTAA	MFNKKWTVLLLTLCLALVAAGCGSNSSSTGESGSGGSEGDKVTVNFMHLWPAGVSAGQNKIVNQIIEEYQKENPNVTIKQEVLDNEQYKNKLKVLSASNELPDVGVTWAAGFLKPYVEGNLFAPVDDLLDGQLGDKFVAGTTEAYAIDGKTYALPLEFNIAPVYYNKAIFEQHNLEIPQTYEEFKSVVKTLSDNGIAPIALGNKDRWTGSLWYMYLADRIGGQETLAGAISGSGSFKDESLVKAAAEVQSLVDGNAFVKGFNGLSNEEAKSEFLNGKAAMYMMGTWELPNFTTNEEIPQEFRDSVGFFKFPTVEGGKGDINSWVGGPGVGLFIGENSKVKEESKKFVEYFVTKWGEQSVTGAGVIPATKVDTSALELPQLYIDLFDEMNKASSITLFADVQMQANAAETHLNMIQALFGKAVTPDKFSEEHDAAISKGN	PGPT0016330_954	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_01469	882	ngcF_3	COG1175	Diacetylchitobiose uptake system permease protein NgcF	TTGGATAAAGTGATGTCCAACAAAAAAATCATCGCGCTGTATGTTCTGCCTGCACTGCTTGTGATCATGGCTGTCGTGTATATTCCGATCATGCTAACCGCTTATTACGGACTGAACGAATGGAACGGAATCGGTGCGATGACCTTTATCGGGCTGGATAATTACCAGGCCTTGCTCTCGGACGGCAAGTTCTGGGACAGTGCATGGCACTCCCTGCTGTTAGCCGTCTTCTCGGCTGCAAGCCTGATTATTTACCTGGCCGTGGCGATGGTGCTGGCCTCCAAGATCAAAGGCGCCAACCTGTTCCGCAAAATCTATCTCATTCCGATGCTGCTGTCCTCCGTTGCCATCGCGCAGCTTTGGCTGCGCATCTATCACCCGACGAACGGAATCGTGAACAGCTTCCTGGAGTCCATCGGGATCACGAACCCGCCCGCATGGCTTGCCGAGCCGTCGCTTGTATTGTTTGCATTGTTTATTCCGATTTTGTGGCAGTATGCCGGTTTTTATATCTTGATCTATTATGCAGCCTTGAAGAATATCCCGGCTTCGCTGGTTGAAGCAGCTAAAATCGATGGGGCAACCTCCTTCCAAATCGCGTTCCGAATCAAGCTTCCGCTCATCATGGAAGTGATCAAGGTGACGATCGTGCTGGCGGTGGTAGGTTCCTTGAAATACTTCGACCTCATCTTCGTCATGACGGACGGGGGGCCTAACGGCGCGAGTGAAGTGATGGCGTCCTACATGTATCATACGGCTTTCCGCGCTTATGATTTCGGTTACGGCAGCGCGATCGGGTTCTTCCTGCTTGTGATCTGTCTGATCGTAACGTGGGTCATTCGGAAATTAACGGCATCGAAAGAAACGATCCAATATTCATAA	MDKVMSNKKIIALYVLPALLVIMAVVYIPIMLTAYYGLNEWNGIGAMTFIGLDNYQALLSDGKFWDSAWHSLLLAVFSAASLIIYLAVAMVLASKIKGANLFRKIYLIPMLLSSVAIAQLWLRIYHPTNGIVNSFLESIGITNPPAWLAEPSLVLFALFIPILWQYAGFYILIYYAALKNIPASLVEAAKIDGATSFQIAFRIKLPLIMEVIKVTIVLAVVGSLKYFDLIFVMTDGGPNGASEVMASYMYHTAFRAYDFGYGSAIGFFLLVICLIVTWVIRKLTASKETIQYS	PGPT0016335_1746	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_01470	885	ngcG_5	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGATATCCGGAGCCACAGGACAGCTCCAAGAAGGGCGCGCCCGTTCCGGAAACGGAGCGGCAGGCAAGATCGGATACGCGCTGTTGTACATCGTGCTGATCGGCGTAGCCGTATTCCAGCTGTTCCCGCTCCTATGGCTGCTGCTGTTCTCTTTGAAAAACAATCAGGAGGTATTCGATCTTCCGCCTCTGTCCCTTCCGATGAATCCGCGTTGGGAGAATTACGAGAAGGTATGGAGCGCCGGCAACATCAGCGTTTATTTTCTGAACAGCGTGTGGATCACCGTTGTCGCGACTGCGCTTACGGTCATTCTGGGAAGTCTCGTCACCTTCGCGATTACGAGAATGAAATGGAAGGGCAACTCTTTCGTGCTCGGGTTGTTTATGGTGGCCATGATGATTCCGGTTCACTCCACCTTGATCCCGCTGTTCAGCATTTTTAACAAGGTCGGTTTGACCGATCATCCGGTTTCTTTGATATTGTCGTACGTGGCTTTCAATATGCCGATCACGATCATGATTCTGCTCGGATTCTATTACACGCTGCCGAAGGAAGTGGAAGAGGCCGCGGTCATGGACGGCTGTTCGGTTCACCGGGTCTTCTTCCGGATCGTGCTTCCGATGACGGGCTCGGTGCTGGCGACGACAGCCATCATTAACATGATTTATAACTGGAACGAATTTATCTTCGTGAACACGTTCATCAGCTCGGATATGTTCAAGACGCTGACCGTCGGCGTCCAGAACTTTATCGGTCAATACACGACCGATTGGGGCGCTATCGGCGCAACCCTGATGATCAGCATTTTGCCGATCCTGCTGATGTTCCTTTTCCTCAGCGATCGTATCGTGGAGGGCATTGCGGCGGGTTCTGTTAAAGGTTAA	MISGATGQLQEGRARSGNGAAGKIGYALLYIVLIGVAVFQLFPLLWLLLFSLKNNQEVFDLPPLSLPMNPRWENYEKVWSAGNISVYFLNSVWITVVATALTVILGSLVTFAITRMKWKGNSFVLGLFMVAMMIPVHSTLIPLFSIFNKVGLTDHPVSLILSYVAFNMPITIMILLGFYYTLPKEVEEAAVMDGCSVHRVFFRIVLPMTGSVLATTAIINMIYNWNEFIFVNTFISSDMFKTLTVGVQNFIGQYTTDWGAIGATLMISILPILLMFLFLSDRIVEGIAAGSVKG	PGPT0016340_457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_01471	1386	feoB_1	COG0370	Fe(2+) transporter FeoB	TTGGAACAGCTAAAGCGCTTGGAAGCTCTAACAGCGGCCATTCCTTCTGATCAGGTTGAGGATGTCCGGGAAGACATCGTGGGCGAGTTATTCAAAAAATCCCGGGAGCTGTGCAGCGACGCCGTCACCGTGACCAACCGGGAGCTGCTGTACCGTTCCGAGCGGCTGGACCGTATCTTCACCTCCAAGCTGTGGGGATTCCCGATCATGCTGGCCATGCTCGGCGTTATTTTTTACTTGACGATCGCCGGGGCAAACGTGCCATCTTCCATGCTGGCCAGTTTCTTTGGCTGGGTTGAAGGATACCTGACCATGGCTTTTCAGGCCATCCACGCACCCGATTGGCTCCATGGCGTGCTGATACTCGGGCTGTTCCGGGGAACCGCCTGGGTTGTCAGCGTGATGCTGCCTCCCATGGCCATCTTCTTCCCGGCCTTCGCGCTGCTCGAGAACTACGGCTATTTGCCGCGGGTAGCCTTTAATCTGGACCGACTGTTCAAAAAAACGGGAGCGCACGGCAAGCAGTCCCTCACCATGGCGATGGGATTCGGCTGTAATGCGGCCGCCATTATGTCGACCCGGATAATCGAATCGCCGCGGGAGCGGATGCTCGCCATTCTGACCAACAACTTCGTGCCCTGCAACGGTCGTTGGCCGACCTTGATCCTGCTGGCTTCCTTGTTCATGGCGGCAGGCTTTTCGGGAGGAGCCCAGACGCTCGTGACCGCCTCCGTTGTCATGGGCATGGTGCTGATCGGCGTCGTTGTCACGCTTACGGTGTCATGGGGATTATCGAAGACGGCATTGAAAGGCGTTCCTTCCCACTACACGCTGGAGCTGCCGCCATACCGCAAACCGAAAATCCTGAATACCATACTCCGGTCTACGCTCGACAAAACGATTTATGTCCTGCGCAGAGCCATCATCGTCGCAGCGCCCGCAGGCGTGCTGACCTGGATTTTGGCCAATATCTACGTCGGGGATTCCAGCATCCTGATTCACTTTGTAAGCTTCCTTGATCCGTTTGCACGCGCGCTCGGACTCGACGGCTTCATTCTGATGGCCTTTATCATCGGGCTTCCCGCGAACGAGATCGTGCTGCCGATCCTGCTGATGGGATATTTGGCAACAGGCTCCCTGACGGAGGTGGAGGATATGTTTGCACTCAAGCAAATCTTCCTGGACCAAGGCTGGACCTGGCTGACCGCGCTGAACATGATGCTGTTCTCGCTGCTCCATTACCCCTGCGGAACCACGCTCGTCAACATCTGGAAGGAAACGAAAAGCGCGAAGTGGACGTTCCTGTCCTTTGCCATTCCGACGGCCATCGCCATCGGCGTGACCTTCCTGGTCGCCCAGGCCGCACGGGCATTGGGATGGGTTTAA	MEQLKRLEALTAAIPSDQVEDVREDIVGELFKKSRELCSDAVTVTNRELLYRSERLDRIFTSKLWGFPIMLAMLGVIFYLTIAGANVPSSMLASFFGWVEGYLTMAFQAIHAPDWLHGVLILGLFRGTAWVVSVMLPPMAIFFPAFALLENYGYLPRVAFNLDRLFKKTGAHGKQSLTMAMGFGCNAAAIMSTRIIESPRERMLAILTNNFVPCNGRWPTLILLASLFMAAGFSGGAQTLVTASVVMGMVLIGVVVTLTVSWGLSKTALKGVPSHYTLELPPYRKPKILNTILRSTLDKTIYVLRRAIIVAAPAGVLTWILANIYVGDSSILIHFVSFLDPFARALGLDGFILMAFIIGLPANEIVLPILLMGYLATGSLTEVEDMFALKQIFLDQGWTWLTALNMMLFSLLHYPCGTTLVNIWKETKSAKWTFLSFAIPTAIAIGVTFLVAQAARALGWV	PGPT0003700_3714	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
AK002_01472	747	feoB_2	COG0370	Fe(2+) transporter FeoB	ATGAGAACGTATACCGTCGCGCTGGCGGGCAACCCGAACACGGGAAAAAGCACGCTTTTCAATGCGCTCACCGGCTTGAAGCAGCATACCGGCAACTGGTCCGGCAAAACGGTCAGTCTCGCGAGCGGCCATTACGAATACAAAGACGCCCGCTTCCAGTTCATCGATCTGCCCGGGACGTACTCCTTGTTCTCCAACTCGGCCGATGAAGAAGTCGCGCGCGATTACATTATTTTCGAGAAACCGGACGTCACCCTTCTGGTCCTGGATGCAACCGCGCTGGAGCGCAGCCTCAACCTGGCCCTTCAAGTGCTGGAAATGACCGACCGCGTCATCGTTTGCCTGAATCTGATGGACGAAGCGAAGAAAAAAGGAATCCAGGTTAACGCGCGCAAGCTGGCGGATCAGCTCGGCGTTCCCGTCATTCCCATATCGGCCAGAAACAACGAGGGGCTGGACGTATTGTCCGAACAGCTGCTGCTGATGTCCACGGGACAGACGCCGACCAAGCCCTACCGGATGAGATACAACGAACAGCTGGAGGCGCAAATTTCGGGATTAGAGTCCCAATTACGAGACATTGTCGGAGACGAATATCCGGCCAGATGGCTGGCCATCCGCTTTCTCGACGGAGACCGCAAGCTGATTGCGACGCTGAGAGATAGATTAAAGGCCGCGGATAAAGGGGGGATTTCACTTGGAACAGCTAAAGCGCTTGGAAGCTCTAACAGCGGCCATTCCTTCTGA	MRTYTVALAGNPNTGKSTLFNALTGLKQHTGNWSGKTVSLASGHYEYKDARFQFIDLPGTYSLFSNSADEEVARDYIIFEKPDVTLLVLDATALERSLNLALQVLEMTDRVIVCLNLMDEAKKKGIQVNARKLADQLGVPVIPISARNNEGLDVLSEQLLLMSTGQTPTKPYRMRYNEQLEAQISGLESQLRDIVGDEYPARWLAIRFLDGDRKLIATLRDRLKAADKGGISLGTAKALGSSNSGHSF	PGPT0003700_1832	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
AK002_01473	252			hypothetical protein	ATGGATGAGACAAAACATCGGCAGCATCTGCATCAGGCAGCTCTCGGAGAGCGATTTTTGATTGAACAGGTGGATATCCGCGGCGAACATAAACGGCGGCTTCTGGACCTCGGTTTCGTTCCGGGTTCCGTCATCGAAGTGCTGAAGGCCAGCCCGCTCGGAGATCCCACCTCTTATAGAGTAGCAGGCACCGTCATTGCGTTAAGAAAAGAAGAGAGCCAGTTAATATGGGGTAAGGTGATATCATCATGA	MDETKHRQHLHQAALGERFLIEQVDIRGEHKRRLLDLGFVPGSVIEVLKASPLGDPTSYRVAGTVIALRKEESQLIWGKVISS	PGPT0003695_1015	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003695-feoA-K04758	NA	NA
AK002_01474	1047	czcO	COG2072	putative oxidoreductase CzcO	ATGGTTTGGGATGTTATCGTTATCGGAGCGGGACAGGCGGGATTGGCATCCGGCTATTGGCTGCAGCAGGCGGGGATGAAGTTTCTGATGCTGGATCGGGGATCGGAGGCGGGGGAGGTTTGGAAGACGCGGTATGATTCCCTGAAATTGTTCACGCCCAGAACGCATAGCGCGCTATATGGGATGGCTTTAGAGGGGGATCCGCACGAGTTCCCGGATAAAGATGAAGTGGCTTCCTATTTGAAATCCTATGTAGCACGGTTCAGGCTGCCCATTCAGTTCGCGACGAATGTAACATCGGTCCGCAAGGAAGGTGGAATGTTTATCGTCGATACCGACCGCAAAAGCTTCCAAACCAAGGCGCTTATTATCGCAACCGGACCGTTTCGGCAGCCTAGAATACCTGCGTTTGCAGCATCTGTTCCGGGGGATGTTCTCCAGCTGCACTCGTCCGAGTACAAGAGGCCTTCCCAGCTTCAAGAGGGCGATGTGCTTGTCGTTGGCGGCGGAAACAGCGGGGCCCAGATCGCGGTGGAATTGTCCGGGGACCGGGAGACGTATTTGGCGGTTGGGCAGCCGCCGCGGTATTTGCCAATGACTCTTTGGGGGAAGGGGATGTTCTGGTGGCTGGACAGGCTCGGCGTTCTCTCAGCCAGCAATTCCTCCTGGGTGGGACGCAAGCTGAGGGGCCAGGGGGACCCGATTTTCGGATATGAATTGAAACAAGCGGTCAAGTGCGGTAAAGTGGTGTTGAAAACGAGAGCCGTTGGTGCCGGCGCTTCCGGCATGCAATTCGAGGATGGGACGGCGTTAAAGGTCCGGAACATCGTCTGGGCTACCGGCTTTGCTGCCGGTTATGATTGGCTTCATATAGAGCAAGCGTTGGATCGCAAGAAGGCACTTATTCATACACGCGGCATCAGTCCGGTGAAGGGGCTGTATTATGTAGGTTTGCCTTGGCAGACGCATCGGGGCTCCGCGCTGCTGGCAGGAGTTTCACGGGATGCCCGCGAAATCGTTCAAGCCATTATGGAGAAGAGGGGGTAA	MVWDVIVIGAGQAGLASGYWLQQAGMKFLMLDRGSEAGEVWKTRYDSLKLFTPRTHSALYGMALEGDPHEFPDKDEVASYLKSYVARFRLPIQFATNVTSVRKEGGMFIVDTDRKSFQTKALIIATGPFRQPRIPAFAASVPGDVLQLHSSEYKRPSQLQEGDVLVVGGGNSGAQIAVELSGDRETYLAVGQPPRYLPMTLWGKGMFWWLDRLGVLSASNSSWVGRKLRGQGDPIFGYELKQAVKCGKVVLKTRAVGAGASGMQFEDGTALKVRNIVWATGFAAGYDWLHIEQALDRKKALIHTRGISPVKGLYYVGLPWQTHRGSALLAGVSRDAREIVQAIMEKRG	PGPT0013865_1586	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
AK002_01475	306	czrA	COG0640	HTH-type transcriptional repressor CzrA	ATGGAAAAAGAACACCATGAGCTGCTGCACGAAGACCAGGCCATGGAAGCGTCACGACTCCTGAAGGCCATTTCGGATCCGACGCGGATCCGGATTCTTCATTTGCTCTCACAGGAAGAATGCCCTGTCGGTCATATTGCCGAGGTGCTTGGCATGAGTCAGTCGGCGGTATCCCACCAGCTTGGCTATCTGCGCAGTTTGAGACTGGTCAAATACCGAAGGGACGGAAATATATATTATTACACGTATGAAGATGAGCATGTTATCGGGATTTTGCAGCAGGTGCTGGACCATATCGCTCATTAG	MEKEHHELLHEDQAMEASRLLKAISDPTRIRILHLLSQEECPVGHIAEVLGMSQSAVSHQLGYLRSLRLVKYRRDGNIYYYTYEDEHVIGILQQVLDHIAH	PGPT0004305_306	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004305-czrA|yozA-K22043	NA	NA
AK002_01476	1728	proS_1		Proline--tRNA ligase	ATGCGGCAAAGCCAATTATTGATGACCACGATGCGCGATGTGCCGTCCGAGGCGGAAGCACTGAGCCATCAATGGATGCTCCGCGGCGGATATATCCGTCAAACGGCGGCAGGGATCTATTCGTACCTGCCGCTGGGCTGGCGGGTCTTGCGGAAGATCGAAGCGATCATCCGGCAGGAAATGGACTCAGCAGGCGGGCAGGAGCTTCTCATGCCCGCTGTCCAGCCTGCCGAGCTGTGGAAGGAATCGGGCAGATACGACGTATACGGCGCGGAGCTGATCAGACTGCATGACCGCCATAACCGGGAGTTCGTGCTTGGACCCACCCATGAAGAAGTGATTACGTCCATCGTTCGGCAAGAGATTTCTTCGTACCGGAAGCTGCCGGTCAACCTGTACCAAATACAGAGCAAATACCGGGATGAGCGGCGTCCGCGTTTTGGCCTGCTCCGGGGCCGGGAATTCCTGATGAAGGACGCGTATTCCTTCGATCGGGACTGGGAGGGACTGGACGCCTCCTACCGGAACATGTATGAAACGTATGAGCGGATCTTTAGGCGCTGCGGTCTGATGTTCCGGGCGGTAGAAGCCGATGCCGGCGCGATTGGCGGACAAGGGGAGACCCATGAGTTCATGGCGCTGGCCGACATAGGGGAGGATACCGTTGTATCCTGCAGCGATTGCCGTTATGCGGCGAATTTGGAACGCGCGGAATCTGCGGCACCGGGAGAGCCTGCTGCCATGAGGGATTCCGTAAAAACCGGCGGCAGCTCAGCTATGGAGCGCATATTAACTCCTGGAGTGAAGAGCATTCAGGAACTGACGGATTTCCTCCAGGTCGGTGCGGAGCAATTGATGAAGACGCTGATTTACCGCGTGGACGGGGAACTGGTTGCAGTGCTTGTCCGCGGCGACCGGGAAGCGAACGAGACCAAGGTGAAGTCCTACTTGGGAGCAGAAGCTGCGGAAATGGCGAGTGCCGAAGAAGTCAAACAGGCGACAGGAGCACCTGTCGGGTTTGCGGGACCGGTTGGCTTACGCCTAAAGATCATGGTCGATCATGAGGTGGCCGCCATGGCGGAGGGCATTACCGGTGCCAATCAGGAGGACACCCATCTGAAGGGGGTCCGCCCGGGACTTGATTTCTCGCTGGAGTACGTCGGCGATTTCCGGAATGTGACGGAAGGAGAGCCTTGCCCGCGCTGTGGAGCACCGCTGCAGTTTCATCGCGGGATTGAGCTCGGGCATGTTTTTAAGCTGGGAACCAAATATAGTGACGCCATGAACGGCAAGTACCTGGATGCCGACGGCCGGGAAAAACCGCTGATCATGGGATGCTACGGTATCGGCGTTTCCCGCGTCATGGCGGCCATTGCCGAACAGCGAATTTTGGATGGACGTTTGGTCTGGCCGATGTCCGTCGCTCCGTTTAAGGTCCACATCATCCCGGTTGCGGTGAAGGATGAGACCCAGATGCAACTGGCCGAGCACATCTACCGCAAGCTGAGCGGTGCTGGTCTTGAGCCTCTTTTGGACGACCGGGACGAACGGGCCGGGGTCAAGTTTAAGGATGCCGACCTTGCGGGCGCTCCGCTGCGCATCATCGTCGGGCGCGGTGCGGCTTCGGGGGAGGTTGAATGGATGGGCGAGGATGGAATCAAGATCAGTTTGCCTGCCGAGGAAGCAATCCAGCGTTCCCGCGAGGAGGCAGACCGTCAGCTGAAGTGA	MRQSQLLMTTMRDVPSEAEALSHQWMLRGGYIRQTAAGIYSYLPLGWRVLRKIEAIIRQEMDSAGGQELLMPAVQPAELWKESGRYDVYGAELIRLHDRHNREFVLGPTHEEVITSIVRQEISSYRKLPVNLYQIQSKYRDERRPRFGLLRGREFLMKDAYSFDRDWEGLDASYRNMYETYERIFRRCGLMFRAVEADAGAIGGQGETHEFMALADIGEDTVVSCSDCRYAANLERAESAAPGEPAAMRDSVKTGGSSAMERILTPGVKSIQELTDFLQVGAEQLMKTLIYRVDGELVAVLVRGDREANETKVKSYLGAEAAEMASAEEVKQATGAPVGFAGPVGLRLKIMVDHEVAAMAEGITGANQEDTHLKGVRPGLDFSLEYVGDFRNVTEGEPCPRCGAPLQFHRGIELGHVFKLGTKYSDAMNGKYLDADGREKPLIMGCYGIGVSRVMAAIAEQRILDGRLVWPMSVAPFKVHIIPVAVKDETQMQLAEHIYRKLSGAGLEPLLDDRDERAGVKFKDADLAGAPLRIIVGRGAASGEVEWMGEDGIKISLPAEEAIQRSREEADRQLK				NA	NA	NA	NA	NA
AK002_01477	1023			hypothetical protein	ATGAATCAGGAAGAGAAGGGCTCCAGCCCGGATATTCATTATATAGAAGAGCATCAGCTCAGTCAGGTAAAAATTGCACTGTCCAACCCGTTACGATGGGTGAACAGCTATGTGCTGCGGGGAGATGACGGGGTGACCGTCATCGATCCGGGGCCGCGCACGGCTTCCTCGGAGCAGGAATGGCTGGCGGCGATGGAGCAGCTGGAGATGGATTTCAGAGATATCGTCTCCATCGTGCTGACCCATCATCACCCGGACCACTACGGGCTTGCCGGGTGGTTTCAGGAACGCTCGGGAGCGAAGGTGTGGATGTCAGAGCGGGCGCATCGGGAAGCGATGCTGATGTGGGGAGCGGATTCCTCGATGGATCGTGCGCTCCCCGCGTTCTTCCGGCAGCATGGCATGCCGGAAACCAAGCTTGCCCTGCTGCCGGAGCATTTGAACAGCTTCTTTCCCCAAGTCACGCCGCAGCCGGAGATCTCGTTCATCGGGGAGGACCTGCCGTTCCGGATGGGGAACCGGATCTGGATGCCGGTGCAGACGGCCGGCCATGCTCCGGGGCATCTGTCGTTCTTCCATGCGGACAGCGGCGTCCTGTTATGCGGCGATGCCGTGCTGCCGCAAATCTCGCCTAACGTGAGCCTGGTGCCCGGCAGCGATGCCGAGCCGCTGGCGCTCTTCCTTGCAGGGCTGCGCCGCCTGCGGGAACTGCATGTCCGGACGGCGTATCCCGGACACCGCCACCCGTTCACGCATTTCCGTGAACGGATCGAAGCGCTCCTCCTCCATCACGAGGAGCGCCTGACCACCATCGCCGGCATGCTGAGCGCTGCCGGACGGCTCACCGCCTACGAGGTCTGCACCGCCCTCTTCGGCGATAAGCTCGGCATCCACCAGCTGCGCTTCGCCATGTGCGAAGCGCTGGCCCATCTCGCCGAGCTGGCCCGGCGCGGAGACGCCGCGATGATCGAAACCGGGGACGGAATGTGCTATTTTTCTGTACGGAAACCGCCGCATTCCTGA	MNQEEKGSSPDIHYIEEHQLSQVKIALSNPLRWVNSYVLRGDDGVTVIDPGPRTASSEQEWLAAMEQLEMDFRDIVSIVLTHHHPDHYGLAGWFQERSGAKVWMSERAHREAMLMWGADSSMDRALPAFFRQHGMPETKLALLPEHLNSFFPQVTPQPEISFIGEDLPFRMGNRIWMPVQTAGHAPGHLSFFHADSGVLLCGDAVLPQISPNVSLVPGSDAEPLALFLAGLRRLRELHVRTAYPGHRHPFTHFRERIEALLLHHEERLTTIAGMLSAAGRLTAYEVCTALFGDKLGIHQLRFAMCEALAHLAELARRGDAAMIETGDGMCYFSVRKPPHS				NA	NA	NA	NA	NA
AK002_01478	1182	glgC_1	COG0448	Glucose-1-phosphate adenylyltransferase	ATGAAGAAAAAAGAAGTAGTCGCGATGCTGCTCGCAGGAGGTCAAGGCAAACGCCTGAAGGGCCTGACCAAGACGCTGGCCAAACCGGCCGTTTATTTTGGGGGTACATACCGGATCATTGATTTTCCGTTGAGTAACTGCTCCCATTCCGGAATCGACACGGTCGGGGTACTCACCCAGTATGAGCCTTTGGTTCTGCATTCCTACATTGGCGTAGGAAGCGATTGGGATATGGATCGGCTGAATGTGGGCGTTTTCGTGCTCCCGCCGCATGAACGCGAGGACGGGACGACCTGGTACCGCGGGACGGCGGATGCGATCTTCCGGAATCTCAAGTTTATCGACCAGTACGATCCCGAGCACGTTTTGATTTTGTCGGGTGATCACATCTATAAGATGGATTACGACCGCATGCTGGCTTACCACAAGGAGAAAGAGGCCGATTGCACTATCTCCGTCATCGAAGTAAGCCTGGATGAAGCGAAACGGTTCGGCATGGTGAACACGGATGAGGACTACCGGATTTTCGAGTTCGAGGAGAAGCCGGCGCATCCGAAGAGCACAACGGCTTCCATGGGCGTTTATCTGTTTCGCTGGAAGCTGCTGCGTTCGTATTTACTGCAGAATGCGGACCTTCCGGATACGAGCCATGATTTCGGCAACGACATTCTGCCGAGGATGCTCGCGGACGGCAAAACGCTGTATGCTTATCCGTTCGAAGGGTACTGGAAGGACGTCGGCACCATCGAGAGCTTGTGGGAAGCCAATATGGATCTGCTGAGCGAGCAGCCCAAGCTGGATCTGAACGATCCGCTGTGGCGCATTTACACGCGGAATCCGAATCAGCCGGCAGAGTATATTTCTCCGAACGGCGTCGTCCGGAACAGCATGATCAACGAAGGCTGCACCGTGTGCGGCGAGGTGGAGCATTCGGTCCTCTTTTATGGCGTGGAGGTGGGGGAAGGCAGCGTCATTACCGATTCCGTCATCATGCCCAAGGTACGCATCGGCAGCCATGTTCGCATACACCGGGCGATCGTGACCGAGGACATGGTCATTCAAGATCATGCCCGGATCGGTCCGCCGCCGGAAGATCCATCCCAGATTGTGCTTGTAAGCGGTCATGATGAAGACGTCCTGAAGCTGCTTCAATCGTCTTCGTCCCACAATAATCAAGGTTAG	MKKKEVVAMLLAGGQGKRLKGLTKTLAKPAVYFGGTYRIIDFPLSNCSHSGIDTVGVLTQYEPLVLHSYIGVGSDWDMDRLNVGVFVLPPHEREDGTTWYRGTADAIFRNLKFIDQYDPEHVLILSGDHIYKMDYDRMLAYHKEKEADCTISVIEVSLDEAKRFGMVNTDEDYRIFEFEEKPAHPKSTTASMGVYLFRWKLLRSYLLQNADLPDTSHDFGNDILPRMLADGKTLYAYPFEGYWKDVGTIESLWEANMDLLSEQPKLDLNDPLWRIYTRNPNQPAEYISPNGVVRNSMINEGCTVCGEVEHSVLFYGVEVGEGSVITDSVIMPKVRIGSHVRIHRAIVTEDMVIQDHARIGPPPEDPSQIVLVSGHDEDVLKLLQSSSSHNNQG	PGPT0025885_3099	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
AK002_01479	1104	glgD	COG0448	Glycogen biosynthesis protein GlgD	ATGAGAGAACTCATGGGTATTATTAATTTGGAGCATGAACGGGATGTGCTGAGTGAATTGACGTATTACCGGTGCGGGGCCGCCGTCCCTTTCGCGGGAAGGTACCGTCTGATCGACTTTGTAATGTCCAATATGATGCACGCGGGCATTGAGGATATCGCCCTGTTCGTTCGCAGGAAATACCGCTCCTTGATGGATCATCTGGGCGAAGGCCGGCCGTGGGATATGCATCGCAAACGGGGCGGCCTGTTCATACTTCCGCCGGATTGGAACGATGAAACGGATGTGTCCGCCGGCGAGCTGCGGCATATTTATAACAATCTCGATTTTTTTGAGCGGGGGGCGGCGAAGTTTATCGTGCATTCCGGCAGCCAACACATCAGCACGGTGGATTTGAACGAGGTGTACGAGTACCATCTGGAGCAAGGCGCCGACGTAACGCTCGTGTATACCAGGGTAAATGCACCGAGGGAGGAGCATCGTTCCTGCGCCCGCCTGGAAGTTGACGAGGACGGCATGGTCACGGACATTCATTATGAACACAAGCAGGATGCGGTATACATGGAGATGTTCGTGATGGAGAAATCGCGCTTTCTCGAGATGGCCGATCATTGCATCGCCCATGGCGGCAACAACTTTTTTCGGGATGCGATCATGCAAAACCGGCACAAGCTGAACATTGCGGGATATGAATATCTCGGATATCACGCGGTGATCAACTCGCTGGAAAGCTATTACCGCACGAGCATGAACCTCCTGAATCCGAAGGCGTATAACAGCTTGTTCCGCAAGCAGGCGGTCCACACCAAGATCAAGTACGAGGTTCCCGCCAAATACCTGAATTCGGCCGATGTAAGCAATGCGCTGGTTGCCAACGGCTGCCAGATCGACGGGGAAGTGAAGAACAGCATTCTGTTCCGAGGGGTGCAGGTGAAGCGGGGCGCAAGCATCCATAACTCCATCATTATGCAAAAATGCGTCATCGGCGAAAACGTAAGGCTCGAGAACGTCATACTCGATAAAGATGTGATCATCTCTCGCGATCATAAGCTCCAAGGCGATTTTCGCAAACCTTTTGTCATTGCCAAGGACATTTCGATCTGA	MRELMGIINLEHERDVLSELTYYRCGAAVPFAGRYRLIDFVMSNMMHAGIEDIALFVRRKYRSLMDHLGEGRPWDMHRKRGGLFILPPDWNDETDVSAGELRHIYNNLDFFERGAAKFIVHSGSQHISTVDLNEVYEYHLEQGADVTLVYTRVNAPREEHRSCARLEVDEDGMVTDIHYEHKQDAVYMEMFVMEKSRFLEMADHCIAHGGNNFFRDAIMQNRHKLNIAGYEYLGYHAVINSLESYYRTSMNLLNPKAYNSLFRKQAVHTKIKYEVPAKYLNSADVSNALVANGCQIDGEVKNSILFRGVQVKRGASIHNSIIMQKCVIGENVRLENVILDKDVIISRDHKLQGDFRKPFVIAKDISI	PGPT0025885_4035	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
AK002_01480	2445	glgP	COG0058	Glycogen phosphorylase	TTGTTTAACAACAAGGAAACATTCAAGCAGATCTTTACGGAGCAATTGGTGAGTCGGTTGGGGAAGGGACTTGAGGAAGCAACGGCTGAGGATGTTTACAAAATCATCGGCGGCATGATCCGGGAATATGTCGGACGGGAATGGGCCGATGCCAACCGGATATACCGGGATACCGGGCAGAAGCAGGTGTATTATTTCTCTCTGGAATTTTTGATCGGCCGGCTGATGGGCAACAATCTGCTGAACCTGGGCGTGCTGGATATGGTCCGCAGCGGCCTTCTGGAACTGGGATGGAATTTGAATGAGATCGAGGAGCAGGAACCGGATGCGGGCCTAGGCAACGGGGGGCTCGGACGCCTTGCAGCGTGTTTTCTCGATTCGTTGGCATCGCTTAGCTATGCAGGCCATGGATGCGGCATCCGGTATAAGTACGGTCTGTTCGAACAGAAGATCATCGACGGCCATCAAGTGGAGCTGCCCGACAATTGGCTCCAGCGGGGGAACGTCTGGGAAGAACGTCGGGCAGACAAGGCGGTGGAAGTTCGCTTCTGGGGCCGCGTGGAGGTGGACGTGCAGGAGGGGCGGACCGTGTTTCACACGGCGGACTACGAACGTGTCCTGGCCGTGCCTTATGACGTGCCGGTCATCGGTTACGGCGAGGGGCAGGTGAACACGCTGCGGCTGTGGAGCGCCGAGTCCGCCTCGGATATATCCAGAATCCGTTCGGCCCATCATCATAACAGCTATTATAAATTTTTGGAATACAACCGTTCGGTTGAATCGATATCGGAGTTTTTGTACCCGGATGATTCGGCATACGAAGGCAAGCTCCTTCGCCTCAAGCAGCAGTACTTCCTCTGTTCGGCCGGCGTTCAGAGCATTCTCAGAACGTTTGACAAGCTGGGCAAGGCTTATCATGAGCTTCCCGAGCATGTTGCCATTCATATCAATGATACTCACCCGACCTTGGTGATTCCGGAGCTGATGCGAATTCTGATCGACGACAAGGGCTTCGGCTGGGATGAGGCGTGGGACATTACGAGCCGGACCGTATCGTATACGAACCACACGCTGCTTAGCGAAGCGTTGGAGAAATGGCCTGCCGGCATGGTCCGTGAGCTGCTACCGCGCATTTACATGATGATCGAAGAGATCAACAAGCGCTTCTGCGGTATGCTGCTGGAACGCTATCCTGGCGATCATGAGCGCATATCGCAGCTCGCCATCATGGAAAGCGACCAGATCCGCATGGCCAATTTGGCGATCGTGGGCAGCTATCACGTGAACGGCGTGGCGGCGCTGCACACGGAGCTGCTGAAGACGCAGGTCATGAAACCATTCTATGAGCTGTATCCGGAGCGTTTCAGCAACAAAACGAACGGGATTACCCATCGACGCTGGCTGATGCACAGCAACCCCGGCCTGAGTCAATGGATCTGCGATGGTATCGGCGATTCATGGATTACGGATCCGCGTCAGTTAATGCAGCTTAAGGGACTGAAGAACGACTCCGCCTTCCAGCAGGGCATTCAGCGGATCAAACGGAGCAATAAAGAGCGGCTTGCCAATTACATCGCGAATAAACAAGGGATCGCGGTCAATCCCGATTCCATATTCGATGTGCACGTGAAGCGGCTGCACGGCTATAAGCGGCAATTGCTGAATATTTTACGCGTCATGCATGTGTATAACGAGATTAAGGATCAGCCGGGCATGGAGCGCGTTCCCCGTACCGTTATTTTTGGCGCCAAGGCAGCGCCCGGTTACTATCTGGCCAAAAGCATCATCAAACTCATTAACGTCGTTGCGGATGTCGTGAATAAGGATCCGCAGGTCAATGACAAACTTCAGGTGCTGTTCCTTGAAAATTATTCGGTCTCACTCGCGGAGAAGATTATTCCGGCAGCCGATGTAAGCGAGCAGATTTCCACGGCCGGCAAGGAAGCCTCCGGCACGGGAAACATGAAGTTCATGATGAACGGCGCTTTGACCATCGGAACACTGGATGGGGCTAACGTGGAAATGTTCGACCTGCTCGGCAGAGAGAATATGTTCCTCTTCGGATTGGAGCTGGAGGACGTGTTGGAGTATTACAGGACGGGAGCTTATGTATCCAGGGAGCGGTATGAGCAGGACCCGAGAATCGCCCGCGTGCTGAATCAGTTGATTTCCTCAGGCCCGTTCTGCTGCCACGAGCTGGAGTTCGGGCAGATCCTGCAGTCCCTGCTGGATCATAATGACGAGTTTTTTGTGTTAGAGGACTTTGCCAGTTATGTCGCAACCCAGTCGGCCATTGATGATGCTTATTTGAATGACCGGTCCTGGACCCAGAAGTCGATTGTCAATATCGCGCACTCGGGACATTTCTCGAGCGATAACACGATTCACCGCTATGCATCCGACATCTGGAATGTTTCGCCTGTGAAGGTTGGCCTGAAGGGATAG	MFNNKETFKQIFTEQLVSRLGKGLEEATAEDVYKIIGGMIREYVGREWADANRIYRDTGQKQVYYFSLEFLIGRLMGNNLLNLGVLDMVRSGLLELGWNLNEIEEQEPDAGLGNGGLGRLAACFLDSLASLSYAGHGCGIRYKYGLFEQKIIDGHQVELPDNWLQRGNVWEERRADKAVEVRFWGRVEVDVQEGRTVFHTADYERVLAVPYDVPVIGYGEGQVNTLRLWSAESASDISRIRSAHHHNSYYKFLEYNRSVESISEFLYPDDSAYEGKLLRLKQQYFLCSAGVQSILRTFDKLGKAYHELPEHVAIHINDTHPTLVIPELMRILIDDKGFGWDEAWDITSRTVSYTNHTLLSEALEKWPAGMVRELLPRIYMMIEEINKRFCGMLLERYPGDHERISQLAIMESDQIRMANLAIVGSYHVNGVAALHTELLKTQVMKPFYELYPERFSNKTNGITHRRWLMHSNPGLSQWICDGIGDSWITDPRQLMQLKGLKNDSAFQQGIQRIKRSNKERLANYIANKQGIAVNPDSIFDVHVKRLHGYKRQLLNILRVMHVYNEIKDQPGMERVPRTVIFGAKAAPGYYLAKSIIKLINVVADVVNKDPQVNDKLQVLFLENYSVSLAEKIIPAADVSEQISTAGKEASGTGNMKFMMNGALTIGTLDGANVEMFDLLGRENMFLFGLELEDVLEYYRTGAYVSRERYEQDPRIARVLNQLISSGPFCCHELEFGQILQSLLDHNDEFFVLEDFASYVATQSAIDDAYLNDRSWTQKSIVNIAHSGHFSSDNTIHRYASDIWNVSPVKVGLKG	PGPT0018545_3423	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
AK002_01481	687			hypothetical protein	ATGTATACGAGCCCTTTCCAAAAAAATAACTCTCAGTTTTGCCCTTTCTGGACAAAGGGGTGCGGAAAAAGTACAATCGTCGTAAGCATCTTCATCAACCACGAAAATGAGGTGAGTTCCATCATGGCAGAAAACGATTCAAACATTCCATACAGCCTGAACAGCAAGAAGGTAGCGGAAGCGACACGGAGCCTGCTGCATAAACGTGGAATCAAGTTGGAGGAAATCGCGGAGCTGGTGATGATCCTTCAGAAAAAATACTACCCGAATTTGACGATGGAAGAGTGCATCGAGAACGTGGATGCCGTACTCAGCAAACGTGAAGTGCAAAACGCGGTGTTAACCGGCATTCAATTGGACATTTTGGCCGAGGAAGGCAACCTTATATCCCCGCTTCAAGAAATGCTCGCCAATGACGAAGGGTTATACGGCGTGGATGAAGTCCTGGCATTTTCCATCGTTAACGTGTACGGAAGCATCGGCTTCACCAATTACGGGTATATCGACAAACTCAAACCCGGCATTCTTGAGCAATTGAATGATAAATCAAGCGGCCGCGTACATACCTTTCTCGACGACATCGTCGGCGCGGTTGCCGCAGCCGCCAGCAGCCGGATTGCCCATCGCAAGCAAGCCGACCGGGAGATCGAGCTGTACGGTACGACCGAAGAGCTTCCAAAAGAATAA	MYTSPFQKNNSQFCPFWTKGCGKSTIVVSIFINHENEVSSIMAENDSNIPYSLNSKKVAEATRSLLHKRGIKLEEIAELVMILQKKYYPNLTMEECIENVDAVLSKREVQNAVLTGIQLDILAEEGNLISPLQEMLANDEGLYGVDEVLAFSIVNVYGSIGFTNYGYIDKLKPGILEQLNDKSSGRVHTFLDDIVGAVAAAASSRIAHRKQADREIELYGTTEELPKE				NA	NA	NA	NA	NA
AK002_01482	1059	gerM	COG5401	Spore germination protein GerM	ATGAAACGTAATCAACGTACTCTTCGCAGGCTTTCCGCCGCCGGGCTGCTTGCTGTTCCGATCGTGATGTCCGGCTGCGGCATGTTATCCGGGAAGCAATCGGAAGCGATTGACCCGCCGCCTGCGCAAGTGGAGAAGCAGATGCTGAACACGGCCGGATCCACGGCGGCTCAAGGAGACATCGGCATGCAGACAACGGTATATCTTGCGGATGCACGGGGGATGCTGGCACCTGTAACCTTGGGCATTCCGAAGGTGGAGGGCGCCAGCGTGGTGAAGGAATCCCTTGAAGTGCTGGTGAACGGAGGCCGTTACGCGGGCTATGTTCCACAGGGCTTCCAGGCGGTATTGCCTGCCGGTACGCAGGTCCATAACGTGACAGTCGATCCGGAGAGCAAATTGGCGGTCGTCGAATTCAATAAATCATTTGCGGAATATAAAGCGGCAGATGAACGGAGAATCCTGGAGGCGTTGACGTGGACGCTGACAGGACATGAAGGCATCGAGCAGATGCAGGTATGGGTGGACGGGGTCAAACTGACGGAAATGCCGGTCAATCACACGCCGCTGGACCGTCCGCTGTCACGTTCGATGGGAATCAATCTTCAAAAAGCGGATGATGCCTTGTATACGAACTCTTCACCGGTCACGGTCTATTTCTCATCGGTGACGCCGGAAGGCATTCAGTACTACGTGCCGGTCACAAGACTTGTTCCAACCGGACAAGACGCGGTGAAGGCAGCCTTAAACGAGCTGATTCGCGGACCGCAGTATGGCGACGGATTGGTTGAGGTCATCCCGGATGACACCACCGTTGCGGCGGTTGAAAAAGGGGAGGACGGAGCCGTAACCGTATCGCTTCAGGACAGCATGTTTGAACAGGGAGAGCAGGTTCCGACCGAGCTGCTTCAGGCCGTCGTGCTTACCGTAGCCGAGAATGCGGATGATGCCAAAGTGAAAATCCGGATGAACGACCTCACGGAGGTGGTTGGAACGGATAGCCGAAATTATAGTGAGCCCGTCAGCCGTCCGGAGTTCATCAACGAAATCTCGATCTGA	MKRNQRTLRRLSAAGLLAVPIVMSGCGMLSGKQSEAIDPPPAQVEKQMLNTAGSTAAQGDIGMQTTVYLADARGMLAPVTLGIPKVEGASVVKESLEVLVNGGRYAGYVPQGFQAVLPAGTQVHNVTVDPESKLAVVEFNKSFAEYKAADERRILEALTWTLTGHEGIEQMQVWVDGVKLTEMPVNHTPLDRPLSRSMGINLQKADDALYTNSSPVTVYFSSVTPEGIQYYVPVTRLVPTGQDAVKAALNELIRGPQYGDGLVEVIPDDTTVAAVEKGEDGAVTVSLQDSMFEQGEQVPTELLQAVVLTVAENADDAKVKIRMNDLTEVVGTDSRNYSEPVSRPEFINEISI				NA	NA	NA	NA	NA
AK002_01483	759	rph	COG0689	Ribonuclease PH	ATGAGATCTAACGGACGTAAGAGCGATGAGCTCCGACCGATGAATTTATCGACCCATGTGAATAAATATGCGGAAGGCTCCGTGTACATCGAGATGGGGGACACCAAGGTGCTGATTACGGCAACCGTGGACGAGAAAGTTCCCCCGTTTCTGAAAGGACAAGGAAAGGGCTGGGTGACGGCTGAATATTCAATGCTGCCGCGCGCAACACAATCCCGCAACCAACGGGAAGCCAATCGCGGTAAACTCAGTGGCCGGACGATGGAAATTCAGCGGCTGATCGGCAGAGCGCTCAGGTCTGTTGTGAATCTGCATGCTCTTGGCGAGCGGACGATTACGCTGGACTGCGATGTAATCCAGGCGGATGGCGGAACGCGGACCACCTCCATTACAGGAGCATTTGTAGCTTTAGCCATAGCTGTAAATAAAATTGCAGAACAACATAAATTAGCGGTATTCCCGATCACGGACTACCTGGCATCCATTAGCGTGGGCATTGCCGGCGGACAGGCGCTGCTGGATCTGAACTATGAAGAGGATTCCAAGGCGAAGGTGGACATGAACCTGGTCATGACCGGGAGCGGCAAATTCGTTGAGGTTCAGGGAACCGGCGAAGAGAGCCCGTTTTCCCGCGAGGAGCTGGATCAGATCCTGGAGCTGGGAGAGCAGGGGATCCGCGAGCTTATCGAGCGTCAGCAGGAGGCGCTTGGCCCGATTGCGGCCAAGATCGGTTCCGTGAATGCGAGCACCGGAGTCTGA	MRSNGRKSDELRPMNLSTHVNKYAEGSVYIEMGDTKVLITATVDEKVPPFLKGQGKGWVTAEYSMLPRATQSRNQREANRGKLSGRTMEIQRLIGRALRSVVNLHALGERTITLDCDVIQADGGTRTTSITGAFVALAIAVNKIAEQHKLAVFPITDYLASISVGIAGGQALLDLNYEEDSKAKVDMNLVMTGSGKFVEVQGTGEESPFSREELDQILELGEQGIRELIERQQEALGPIAAKIGSVNASTGV	PGPT0021590_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
AK002_01484	633	rdgB	COG0127	dITP/XTP pyrophosphatase	ATGAAACTGACACTTGGAGATACACTCATTGTAGCTACACGCAATCAGGGGAAAGTCAAGGAATTCGCGCATGCTTTTGCTGCTTTCGGCACGGATGTAAAGAGCATGTACGATTACCCTGATCTGCCGGATGTCGTTGAGGATGGAGCAACCTTCGCAGCCAATGCATTCAAAAAAGCCAAGGAAGTCGGCGACGCACTGGGATTGCCTGTGCTGGCCGATGATTCCGGATTGTGCGTGGATGCGCTGGACGGCGCGCCCGGCGTTTATTCCGCCAGGTATGCGGGTGAGCATGGCGCGGACGAGGACAATAACGAGAAGCTGCTCGGCGAGCTCGAACGGTTAAGGCTCGGCGAGGACACCGAGCAGCCCCTGCTAAGTCCGGCCCGGTTCGTCTGCGTTCTGGTGCTGTATGATCCGGTCTCGGGAGAAAAGCTCGAGGCGGAGGGGAACGTTGAAGGCTGGATCACTTCGGATCCTGCCGGAGCGGGCGGTTTTGGGTATGACCCGCTCTTCTATTTGCCAAGCCATGAGAAGACGATGGCCGAGCTTTCCCTGGAGGAGAAGCAGGAAATCAGCCACAGGGGAAAGGCGCTGCGAAAGCTTGTAGCGGACCTGCAGGCGCTAAATTGA	MKLTLGDTLIVATRNQGKVKEFAHAFAAFGTDVKSMYDYPDLPDVVEDGATFAANAFKKAKEVGDALGLPVLADDSGLCVDALDGAPGVYSARYAGEHGADEDNNEKLLGELERLRLGEDTEQPLLSPARFVCVLVLYDPVSGEKLEAEGNVEGWITSDPAGAGGFGYDPLFYLPSHEKTMAELSLEEKQEISHRGKALRKLVADLQALN	PGPT0021590_1729	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
AK002_01485	1845	asnO	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 3	ATGTGCGGAATAACCGGTTTTATACAATGGAGCGGCGATTTGACGCAGGATTCGCAGCTGCTGGTAAAAATGACAGAAAGTTTGGCTCACCGCGGACCTGACGGATCCGGCACCTGGATTTCCAACCCGTGCGCATTCGGTCACCGAAGACTCAGCGTGATCGACCCCGAAAATGGCGCTCAGCCGATGATCATTCATCAGGAAGAGGAAGTCTATGCCATTGTATATAACGGGGAATTATATAATGCTGCGGAGCTTAAAGACGAATTGGTACGACGCGGTCATCGTTTCAATACCAAATGCGACACGGAAGTTTTGTTAGTCTCCTATATCGAATGGGGCCCCGATTGTCTGGAACGCCTCAATGGAATATTTGCATTCGCGATTTGGGACAGCGTGCGGGAACAGGTATTTTTGGCTCGGGACCGGGTGGGGGTAAAACCCCTGTTCTACAGCTACATTGACGGAACGCTTGTATTCGGATCGGAACCGAAAGCATTGCTTCAGCATCCGAAAGTGGAGCCTGTTGTTGGGGCCGAGGGACTTGCGGAAGTGTTTATTATCGGCCCTGCGCGAACTCCGGGACACGGTGTCTACAAGGATATCGCAGAGCTTCGTCCAGGTATGGCCATGATCTTTAACCGGGAAGGATTGCGCAAGTATACCTACTGGAAGCTGGAAAGCAAGCCCCATGAGGATGACGCGGATCAGACGGCAAGCTTCTTGGGCGATCTTCTGCGCGACACCGTTGAACGTCAGCTGGTATCCGATGTACCGGTCTGCTCCCTGTTATCCGGCGGGCTTGATTCCAGCGCGCTTTCCTCGCTTGCCGTCGATTACTACAAGCGGACGGGCCAAGGACAAGTGCACACCTACTCCGTCGATTATGTGGACAACAACAAACATTTTAAATCCCATTCCTTCCAGCCGGGTGCGGATGCGCCATGGATCAAACGGATGCACGAGGAGCTGGGCACGAACCACCATTGGATCGAATTCGACACGCCCGAACTGGTCGAAGCGCTGGATGTCTCTACGCAGAAGCGGGACCTCCCGGGAATGGCTGACGTTGATGCTTCCTTGCTCCTCTTCTGCCGTGAAATTAAAAAAGGCGCGACCGTCGCCATATCCGGTGAAGCCGCTGATGAAATATTCGGCGGTTACCCTTGGTTCCACCGGGAAGAAATGCTGAATTCCGGTACTTTCCCATGGTCTGTCGCCCCGGATATGAGAGCCGGACTGCTGTCTGCCGAGATTCGGGACTGGATCAAGCCGCTGGAATACCTCGGAGACCGCTATGCCGATGCAGTAGCCGAAGTGCCGAAGCTGGACGGGGAGACCGGGCAGCAGGCCAAAATGCGGGTCATGTCCTACCTCAATATCACCCGCTTCATGCCAACCCTGCTTGACCGTAAGGACCGGATGAGCATGGGCGTTGGGCTGGAAGTCCGGGTACCCTATACCGATCACCGCCTAATCGATTACGTGTGGAACATCCCTTGGAGCATCAAAACGACAGGAGACCGGGAAAAGGGCATTCTGCGCAAGGCCCTTGAAGGCGTGCTGCCGGATGACGTCCTGTACCGCAAAAAAAGCCCGTATCCAAAAACCCATAATCCGAACTATCTGGCGGCCGTCAAAGCACAGGTGCTGTCTATTCTGGACGATCCTTCTTCGCCGCTCCTGCCGCTCATCGATACCGCCCGGATCCGGGAGCTGGCATCTTCGCCGGATGCTTCCTCCAATCTGCCTTGGTTCGGCCAATTGATGTCAGGTCCGCAGCTGTTTGCCTACCTGGCCCAGGTTCATTTCTGGCTCAAAGAATATAACGTATCCATCCGTTAA	MCGITGFIQWSGDLTQDSQLLVKMTESLAHRGPDGSGTWISNPCAFGHRRLSVIDPENGAQPMIIHQEEEVYAIVYNGELYNAAELKDELVRRGHRFNTKCDTEVLLVSYIEWGPDCLERLNGIFAFAIWDSVREQVFLARDRVGVKPLFYSYIDGTLVFGSEPKALLQHPKVEPVVGAEGLAEVFIIGPARTPGHGVYKDIAELRPGMAMIFNREGLRKYTYWKLESKPHEDDADQTASFLGDLLRDTVERQLVSDVPVCSLLSGGLDSSALSSLAVDYYKRTGQGQVHTYSVDYVDNNKHFKSHSFQPGADAPWIKRMHEELGTNHHWIEFDTPELVEALDVSTQKRDLPGMADVDASLLLFCREIKKGATVAISGEAADEIFGGYPWFHREEMLNSGTFPWSVAPDMRAGLLSAEIRDWIKPLEYLGDRYADAVAEVPKLDGETGQQAKMRVMSYLNITRFMPTLLDRKDRMSMGVGLEVRVPYTDHRLIDYVWNIPWSIKTTGDREKGILRKALEGVLPDDVLYRKKSPYPKTHNPNYLAAVKAQVLSILDDPSSPLLPLIDTARIRELASSPDASSNLPWFGQLMSGPQLFAYLAQVHFWLKEYNVSIR	PGPT0020150_3057	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
AK002_01486	315			hypothetical protein	ATGAATAAGTCGACCTACTATGTTTCCGTGCAGAGCCGCTCTGTGTTGACCGAACAGGGAGCGAGCGCTTATGAATGGGAGATCGAAGCAACGCCCGAAGAGGCGGATCAAGTTCGGATTGAGCTGGACATGATGCAGGAGAAGGACGAAGAAATGACAGGGTACTTGTTTCCTTGGCCGGATACACCGCAACAAAACTCCAATGCCCTGTTTCAATCCTCCCTGGACAAGGTGTACCGGACCATCTACGAATTAGGAACACCGGCCACTCGCCAGCAAATGGAAGAGCTCCGATTGCTCTCCGATTTGACATGA	MNKSTYYVSVQSRSVLTEQGASAYEWEIEATPEEADQVRIELDMMQEKDEEMTGYLFPWPDTPQQNSNALFQSSLDKVYRTIYELGTPATRQQMEELRLLSDLT				NA	NA	NA	NA	NA
AK002_01487	369			hypothetical protein	ATGATGTATGCAATCAGAGATGCAAAAATTCGCCGGATTACGGAAGTAAATGGCGCCCCTTGCGCTGAGGTTGAGGTCTATCCAGCAGCGGAAGGAGAAAGTGCATTGCTGGCTTATCTGACGCCATCTTCCCCGCTGGGAGGCTATGAGCTGGTGAAAATCGTGCGCAGCAACGCCAGCATGGAGGTGGATTGGTTCGACAACAGCATGCATGATGCATTTGTTGATGCCACGGACGAAGCGTTCGAGAACACTGTTCAATCCACCGCGGAGGAAGACCGGGATGCATTCAAGCAGCAGCTGCTTTCTACAGGCCAGCTATATGAGCAGCTGAACCAGCGGCTCAGCGAAGGCCCTCAATATTTCTAG	MMYAIRDAKIRRITEVNGAPCAEVEVYPAAEGESALLAYLTPSSPLGGYELVKIVRSNASMEVDWFDNSMHDAFVDATDEAFENTVQSTAEEDRDAFKQQLLSTGQLYEQLNQRLSEGPQYF				NA	NA	NA	NA	NA
AK002_01488	255			hypothetical protein	TTGTATCTCTTTCGTAAACAAGGATACCGGATGGTCCATACTCCCTACCGCAGCAAAATCGAAATCGACAAGAATCCTATCTTTGTTCGACCTTTTTTTGCAGAACTGCGTAAAAACCCCATGCAATCTTACATAGATGAACCTGCACATGCAAAAAGAGACCTGCCGATGGTATCCGGTCAGATCTCTTCGTTCGTCAAAGCTCTAGAAATATTGAGGGCCTTCGCTGAGCCGCTGGTTCAGCTGCTCATATAG	MYLFRKQGYRMVHTPYRSKIEIDKNPIFVRPFFAELRKNPMQSYIDEPAHAKRDLPMVSGQISSFVKALEILRAFAEPLVQLLI				NA	NA	NA	NA	NA
AK002_01489	1482			hypothetical protein	TTGGGCAGATGGAATAAACATATCGTCAAGCTATGGGGAGCGGGATTCCTGGCGTTGTCGCTTACCTTGGGATCCGTGCAAATGCCGGCAAGCGCCGAAGCAACGCAGAACGTTACGGTTCTTGAATCGTCTCATGAGCTCGTGAACGGCAAGATGCGCGTGACGGCGGACATTCGCAACGGAGGTACCGGAGCGGAAGCGGGATTCTATGTTGTCGGTTACGATGCAAACGGCCAAGCGCTTGAGGCAGTCGGTGATTCCGAATATATGATGAGCGACGAAATCGGTACATATGAAGTGGACCTTGACAGCGGCAGCAGCGTCAAGCGGGTGGAAGTGCTCCCGGCAGGACCGGCCGGTGATCAGGCGCGGCTGCTGGCATCCGGATACTATACAAGCAATGGCGTGGTCAACGTTTCTGGCGTCGTGCAGAATTCTGCGGTCGGGCACAATGTGGGTATGCTCGCCGTAGGGTATGATGCTTCCGGCAAAGCGGTCGAAGTGACATCGGCGGACAGCTACTTTGGCGGCAGCGATGTCGGCACCTTCGTCGTAGAGCTTAAAGCAGCGAAGCTGATCAAGAGCGTAAAGGTATCGGTCGTTGATCCGGTTGAAGATGCCGTGAAGCTGCTGCAATCCGGCAGCCGCCTGGAGAACGGAAAGCTTATCGTTACCGGTTCGATTCAAAACCGGAATAAAGGCGGGCAGGCCGGCGTCATCGTTGTCGGCAGCAACGCCAGCGGCAAGGTTCTGGAGGTCAACACGACGTCCGGGTATCTTTCATCCAACGAAATCGCGAATTTCCAGGCCGAGCTGGAGGGCGGCAAAGCCATCAGCGACCTGAAGGTGTTCCTGACAGGCAACAGCCAGACGCCTAAAATCATAGCCGAGGGCAGAACGACCATCAACAACAAGCTTGTCGTTACGATCGGCGTGGAGAACGGGGATGTGTCGCAACGGATTACCGTGAAATCGACGGCGTACGATGCGAAGGGGCGCTCCTTGGGGACCGATACGGACTCCATGTTCATGACCGCCAATGAAACGACGACCTTGCGCATTGATTACGATACTCGGGTCAAAAGCGTGAAGCTGAAATATTATGACCAATCCGGCAGAGAAATCGGAGAAGCGCCGATCCGCATCAAAATCAACGGCCAGCTCCAATCCTATGCGCAGTCGCCGGTGATGGTCGGAGGAAGCGTTCTTGTGCCTATGCGTCCGATCTTCGAATCCCTCGATGCCTCGGTCAAATGGGACCAAAAGACGCAAAGCGTATCCTCCTCCAAAGGCTCGACCCAAATCAAGCTGAAGATGGGCTCCAAGCAAGCGGTCGTTAACGGGAAGACCGTCACGCTGGATTCGGCGCCACGGATGGTGAAGGGCACCACGATGGTACCGCTGCGTTTCGTGGCATCCGCGCTGGGCTGTGAAGTGAAATGGGACGGCAATGAGAAAATGGTATTGATTACGACCAAATAA	MGRWNKHIVKLWGAGFLALSLTLGSVQMPASAEATQNVTVLESSHELVNGKMRVTADIRNGGTGAEAGFYVVGYDANGQALEAVGDSEYMMSDEIGTYEVDLDSGSSVKRVEVLPAGPAGDQARLLASGYYTSNGVVNVSGVVQNSAVGHNVGMLAVGYDASGKAVEVTSADSYFGGSDVGTFVVELKAAKLIKSVKVSVVDPVEDAVKLLQSGSRLENGKLIVTGSIQNRNKGGQAGVIVVGSNASGKVLEVNTTSGYLSSNEIANFQAELEGGKAISDLKVFLTGNSQTPKIIAEGRTTINNKLVVTIGVENGDVSQRITVKSTAYDAKGRSLGTDTDSMFMTANETTTLRIDYDTRVKSVKLKYYDQSGREIGEAPIRIKINGQLQSYAQSPVMVGGSVLVPMRPIFESLDASVKWDQKTQSVSSSKGSTQIKLKMGSKQAVVNGKTVTLDSAPRMVKGTTMVPLRFVASALGCEVKWDGNEKMVLITTK				NA	NA	NA	NA	NA
AK002_01490	297			hypothetical protein	ATGAGACAGCTTTTATCCTCTTTATCGTATTTCAGCATCTTCTTTGCACCGTTCATCCTTCCTGTCCTTGTATGGATTCTGTCTCCGGACGCTTATGTGGCCAAGCACGCACGCCGCGCCCTGTTCTCCCATCTGTTCCCCGTTATAGCAGCGATCCCGTTAATCTACATGGCCGTGACCTCGGGCTCCTTCGGTTCCGTCATCGGATACCTCATTCTGTTCGGCATCATCTATTTCGGGGCTTTTGTGTATAACGTGATCATGGGTATTCAGGTGCTGCGGGAGCACGCTTATTGA	MRQLLSSLSYFSIFFAPFILPVLVWILSPDAYVAKHARRALFSHLFPVIAAIPLIYMAVTSGSFGSVIGYLILFGIIYFGAFVYNVIMGIQVLREHAY				NA	NA	NA	NA	NA
AK002_01492	465	ysnE		putative N-acetyltransferase YsnE	ATGAATGACATCACTATGACTTTGGTAAGAGAGACTCACAAGGATCTTCAGGAGCTCATCGCGAAGCTGGACGATTACTTATCGACGTTATACCCGGCGGAAGGCATATTCGGGCTGGATCTGGCCGATCCCAAAGTAAACGAAACGCTATTCGTGGTGGCTTACCATGATGGCCAGCCTGTCGGCTGCGGTGCCATCCGGCCGCTGGATGCAGAATCGGTTGAAATTAAACGGTTTTTCGTGGATGTCCCTTACCGGAATAGGGGAATAGCTTCCCGGATCCTGCTCTTTCTGGAAGAACAAGCGAAGAAGCGGGGCTATCGTCTCTCGCGCCTCGAAACAGGCGAACCGCAGAAGGAATCCGTTCATTTTTACAAGAAGCTGGGGTATGCTCAGATTGAACCGTTTGGCGAATACATCGGGAGCGAATATAGTTTATGTTTTGAGAAGAGTCTGACATCCTAG	MNDITMTLVRETHKDLQELIAKLDDYLSTLYPAEGIFGLDLADPKVNETLFVVAYHDGQPVGCGAIRPLDAESVEIKRFFVDVPYRNRGIASRILLFLEEQAKKRGYRLSRLETGEPQKESVHFYKKLGYAQIEPFGEYIGSEYSLCFEKSLTS	PGPT0007180_532	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
AK002_01493	441			hypothetical protein	ATGCAGCTTACTAAAATATCACAGAATACCGCCATTCTATTGGAGCATGCCAGAAAATCGGGGCTGACTTCTTCCGATCTGCTGGAGGCTGTGCGCTCTGGTGAGGCAGAAAGATTCCAAATCGCCAATAACGGTCATTTTCACTATGAGGAATTATTCTCTTACGCAAAAGAGCATGGGGAAGATCTGGAGAAGGCCGTTAGCGAGGGGTACCAAATTACGTTTAATACCCGCAACGGGTTGAAGATCTGGCTGGAGGAAGCCTTCCGCATCAGCTCGGAATCCGATTTCAGCGTGGGCGAGGGCATTATCGAAGGATTGAAGCTCCAGAAGGAGCAGTTGGCTCGCTTGAAGGAAGCGCTGGCTGTCAACTGGACCCTGCAGGAAGAGCCGGCGGCAGACGGCGTTCAGGTCAGATTGACCGTCAGAGGATTGCAATAA	MQLTKISQNTAILLEHARKSGLTSSDLLEAVRSGEAERFQIANNGHFHYEELFSYAKEHGEDLEKAVSEGYQITFNTRNGLKIWLEEAFRISSESDFSVGEGIIEGLKLQKEQLARLKEALAVNWTLQEEPAADGVQVRLTVRGLQ				NA	NA	NA	NA	NA
AK002_01494	1863	argS_2	COG0018	Arginine--tRNA ligase	GTGTTAAGTCAAAAGATTATTTCGAGCCTTCAACAAGCCGTGAACCAGGTCTGCGAAGCTTACGGCACCAAACTTCCGGAGTCCACTCCGATTCGGATCGAGCAGCCTGCCAGCATGGAACATGGGGATTACGCAACCAACGTTGCGATGCAGCTTGCGAAGGTGCTCCGCAAGGCTCCCCTGCAAATCGCCGAGCTGATCCAAGCCGAGCTCGAGCAGGACGCATCCTACAAACAGCTCGTCCGCTCGACTGAGATTGTCGCCCCGGGCTTTATGAATCTGCGCATCGATTGGGAGTATTGGGCGAGCCACCATTTTGAACTCCCCCCGGCAGCTAACGAAAAGATCGTCATTGAGCACACGTCCATCAACCCGAATAAGTCCGCCCATATCGGGCATCTTCGAAATTCCTGTATCGGAGATACGCTTGTGAGATTAATGAGGAAGCTGGGTTACGAGGTCGAGGTGCATAATTATATCGACGACCTGGGCAATCAGCTGGCGGATACGGTGGTCGGCTTGCTCCACACGCCCCTGACGAAGGAGCATGCCCGGTTCGGCGATTACTGCTGGGACGTGTACTCAAGCACCAATAAAGCCTACGAAAGGGAGCCGGGGCTGGTTCAGCATCGGACCGAGGTTCTGCACGCATTGGAAGAGGGCAATCAGAACCTTTCCTGGATTGGACTGCTCGTTGCCGAGCGAATCGTTAAGGAGCATCTTGAGGAGATGAAGCAGTTCGGCATTGAATACGATCTGCTTGTATGGGAGAGCAGCATTGTTAGGGAGGGATTCTGGGCGTCCGCGTTCGAGCTGTTGAAGAATACCCCGCTGTTCCATCAGGAAACCGAGGGTAAACTTGCAGGCTGCTGGGTGCTCAAGCAATCAGGAACCGAAGCCGGAGACGAGGCGGAGTCGGACCACAGCATCGATAAAGTGCTGGTGCGCTCCAATGGCATCCTGACTTACACCGCCAAAGACATCGCCTACCACTTGTGGAAATACGGCGTGCTTTCCAATGATTTTGTATATAAAAAATTCACCGACGAGGTTTGGACGACGAGCTCGCACGGCGAGGAGCGTACTTACGGCAAAGCGGACATGGTCATCAACGTCATTGATTACAGGCAGCAGTACCCGCAGGCGATGGTGAAGCAGGCTTTGGAAGGCCTGGGCTTCCAACAAGAGGCTGAGAAGCTGCGCCATGTCAGTTACGGCGTCGTCTCGTTAAGCCCTTCCGCTGCAGCGGATCTCGGCATCGATACTTCCGACGGTAAGGCATCCTATGCGATGTCCGGACGTCAAGGAATCGGGATCAAAATCACCGAGCTTATTCATCAAGTAGCCAAGGTCATCGAGGACACCCGGTCCGATAAAAACGGTTTGTCCAGCCATGCGATCGCAACCGCCTCCATCCGTTACTACCTGCTTCGCTTTGCACTGCAAACCGAGGTGGTGTTCGATCTGAAGCAGGCCACTGAAATATCGGGAAATACGGGGGTGTATTTGCTCTATTCCTACGCGCGTGCACTCAGCGTGCTTAATAAAGCTCAAGAAGCCGAGGTTACGCCGTCTGTGCCTGCCCGGTTCCCTGCCATGGAAAAAGCGGAACATGCGCTGCTGCGGCATATTAGCACCTGGCATGATACCTTATATGCCGCCGGACGGGATCTATCTCCTAGTGCCATTTGCAACTTCACCTATGAGCTGTGCTCCCTGTTCAACAATTTTTACTCGGCATGCCCGATTCTGAAGGCGGCGGAAGAAGTGCTCCAATTCCGTGTATGGCTCACTTCCTTATTCAAGAACACCCTTGGCGAAGCGCTGGAGGTGCTGGGTTTGCCTACTCCGAGCCGGATGTAA	MLSQKIISSLQQAVNQVCEAYGTKLPESTPIRIEQPASMEHGDYATNVAMQLAKVLRKAPLQIAELIQAELEQDASYKQLVRSTEIVAPGFMNLRIDWEYWASHHFELPPAANEKIVIEHTSINPNKSAHIGHLRNSCIGDTLVRLMRKLGYEVEVHNYIDDLGNQLADTVVGLLHTPLTKEHARFGDYCWDVYSSTNKAYEREPGLVQHRTEVLHALEEGNQNLSWIGLLVAERIVKEHLEEMKQFGIEYDLLVWESSIVREGFWASAFELLKNTPLFHQETEGKLAGCWVLKQSGTEAGDEAESDHSIDKVLVRSNGILTYTAKDIAYHLWKYGVLSNDFVYKKFTDEVWTTSSHGEERTYGKADMVINVIDYRQQYPQAMVKQALEGLGFQQEAEKLRHVSYGVVSLSPSAAADLGIDTSDGKASYAMSGRQGIGIKITELIHQVAKVIEDTRSDKNGLSSHAIATASIRYYLLRFALQTEVVFDLKQATEISGNTGVYLLYSYARALSVLNKAQEAEVTPSVPARFPAMEKAEHALLRHISTWHDTLYAAGRDLSPSAICNFTYELCSLFNNFYSACPILKAAEEVLQFRVWLTSLFKNTLGEALEVLGLPTPSRM				NA	NA	NA	NA	NA
AK002_01496	765	tam_2		Trans-aconitate 2-methyltransferase	ATGTCAGAGCAAGTATGGAAGCCTTACGATTACGATCGACAGCTATCGTTTGTATCTGCTTATGGAAAAGGAGCGGCAGAGCTGCTGGCGCCTCAACCCGGAGAACGGATTCTCGATCTGGGCTGCGGAACCGGCGACTTGACTCATGAAATTTCCAAATCCGGCGCTCATGTCACCGGCATGGATTATTCCAGCGAGATGATTGAGCGGGCCAAAAGCAAATATCCTGGACTTCCGTTTCTAGCCGGGGATGGCGAGAACTTCGAAACCGAAACGCCATACGACGCCGTCTTCTCAAACGCGGCCCTGCACTGGATGAAGGATGCTGAAGGCGTGGTACGCTCCGTACATGGAGCCCTTAAACCCGGCGGCCGATTCGTTGCCGAGTTCGGAGGCAAAGGGAATATAGACGGCATCTACCAAGCCTTGAAAACCGTGTTCGCCGATCATTATGGAATCGATGCGGACAGCCGGAATCCGTGGTATTTTCCTAGTCTTGGCCAGTATGCCAGCCTGCTAGAAGCCCAAGGGTTCCGCGTGCATCTCGCCCATCATTTCGACCGTCCCACACGATTGTCCGAAGGCAAGAACGGCATAAAGTTTTGGCTGCTGCATTTTGGCGATTGCTTTTTTGCCGGATTCTCGCCTGAAGCGAAGGACGAAGCGATCGCTCGCATCAGCCAAGCTGCTCAATCGACGCTATGGCAAGAGGATGCTTTCTACGCGGATTACCGGCGCCTGCGAGTATTTGCAGAAAAGATTTAG	MSEQVWKPYDYDRQLSFVSAYGKGAAELLAPQPGERILDLGCGTGDLTHEISKSGAHVTGMDYSSEMIERAKSKYPGLPFLAGDGENFETETPYDAVFSNAALHWMKDAEGVVRSVHGALKPGGRFVAEFGGKGNIDGIYQALKTVFADHYGIDADSRNPWYFPSLGQYASLLEAQGFRVHLAHHFDRPTRLSEGKNGIKFWLLHFGDCFFAGFSPEAKDEAIARISQAAQSTLWQEDAFYADYRRLRVFAEKI				NA	NA	NA	NA	NA
AK002_01497	429			hypothetical protein	ATGCCATTATGGCTTGTATACGCATTGCTGTCGGCAGTCACGGCGGCACTTGTGGCCATTTTCGGAAAAATAGGCCTGCAAAACATCGATGCCAATTCGGCAACGGCCATTCGCTCCGTCATTATGGCCCTGTTTCTGCTAGGGGTCGTAGGGGTTCAGGGGAAATTCTCGGAGCTCGGAGAAATTCTGGTTCAAAAAAAGGCACTCAGCTTTATTGTGCTCAGCGGCATCGCGGGCGCTTTGTCCTGGCTGTTTTATTTTCTGGCGTTAAAATACGGCAAAGTATCGCAGGTAGGTCCTATCGATAAACTGAGCGTGGTCATTGCCGTGATTCTGGCCTTTGTGTTTCTGGGTGAGAAGATCTCCTGGATTAACGCAGCCGGCGTTGCACTCATTGCCGTTGGCGCGCTTCTTGTTGCCGTTAAATAG	MPLWLVYALLSAVTAALVAIFGKIGLQNIDANSATAIRSVIMALFLLGVVGVQGKFSELGEILVQKKALSFIVLSGIAGALSWLFYFLALKYGKVSQVGPIDKLSVVIAVILAFVFLGEKISWINAAGVALIAVGALLVAVK				NA	NA	NA	NA	NA
AK002_01498	444	yjaB	COG0454	Peptidyl-lysine N-acetyltransferase YjaB	ATGACACATCATATCGCGGCTTATACGGAAACTTACCATGATCAGCTGGTGGAATTATGGCTTCGTGCCGTATCTCAAACGCACGATTTTCTGACGGAGGAAGATATCCGGTTCTATTATGGCATGATGCAAAGCGGGGCACTGAGGTCCGTGGAGATCTGGATATGCTTGAATACGGAACAGCAAGCGATTGGATTTATCGGACTGGACGGCTCCAAAATCGAGATGCTGTTTGTGGATCCCCTGCACCACGGCCAAGGGACGGGAACAAAATTGATCCGGCATGCCGAACGGCTGAAGGGGCGTGGACTTCAAGTGGATGTGAATGAACAGAACCCCAAGGCCCACGCTTTTTATAAAAAATACGGATTCGTGCAGATCGGCCGTTCGGAGCTGGATGGTTCCGGAAAGCCGTTTCCGCTACTTCATATGCAGCTGCGGTAA	MTHHIAAYTETYHDQLVELWLRAVSQTHDFLTEEDIRFYYGMMQSGALRSVEIWICLNTEQQAIGFIGLDGSKIEMLFVDPLHHGQGTGTKLIRHAERLKGRGLQVDVNEQNPKAHAFYKKYGFVQIGRSELDGSGKPFPLLHMQLR	PGPT0021200_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
AK002_01499	2799			hypothetical protein	ATGAAGTTTTTTCCGAGCAACCTGTCGTTTCGCTATCCTTGGCGCTCCTATCAGAAGCGCGTGCTTCACGGGCTTGACCATCATCTGAAGAATCGCCAACTGCATCTGGTGGCGCCGCCGGGTTCGGGGAAGACCGTTCTTGGACTGGAGGTCATGCTTCGGATTAATCGGCCGACGATTATATTGGCTCCCACCATCACCATTAAACAGCAATGGGCAAGCCGTCTTGTGGAGCTGTTTCTTGACGAAGATGTCCAGCCGGAGTGGGTCTCGACCTCGCTCAAGCGACCGGCATTGGTAACGATTACGACCTATCAAGCCCTCCACAGCCTGATTAGTGCAGCAGGGCAGCCGACTTCTGCGAAGAAGGTCACCGCGGGGATGGTGCAAGCGGACCAAACCGGTGATGAGAATCAGGAGTTTTCGGATACGGGCATGGAAGACGCTGAGGCTGAACCGGCCGGGAGGGACGGTGTCCGCGAGGATGATATCACGGACGGTACCGAGGCTCAAGAAGCTCTGGAATTGTTGAAGCGGCAGGGATATCATACACTCATTTTTGACGAGGCGCATCATCTTCGAATGTCTTGGTGGCAAAGCGCCATGCAGCTGTGCGAGATGCTGGACGAGCCGACCAAGATCGCGCTTACGGCCACTCCGCCATACGATGTCAATCCGAGGGAGTGGCAGCGGTATATCGAGCTTTGCGGCCCTATCGACGAGGAGATCAGCGTGCCCGAGCTGGTTCGCCATGGGGAGTTGTGTCCCCATCAGGATTATATCAGCCTGACAAGGCCAACTCATGAAGAGGCCGCTAAGCTGCGGGAATTTCGAATGCAGGCACAACAGGTCAAAGACGAGTTGGTCCGGGATGAGTTTTTGGCGGAGTTGATCGTCCATCACCCCTGGATAACACGGTCCGAGGCGTACATGGAGGACATTTTGTCTTCCCCGGGGTATTACTCCAGCATGGTGCTCTATCTGCGAGCGGCCAATCGCCCGATCTGGAAGGAGGCGTTGAAGCTGCTCGGCATGGAAGAGAAGGAAACGCCCGACTTTACGGAGGAGTGGCTGGAGGAGCTCCTTGGCGGCATGCTGTATAAAGATGCCCATATTGATCGCGAGCTGCCGGAGTTAAAGGCGTTGCAGAAGAGGCTCAGCCGGTTGGGGATGATTGAACGGCGGAAGGTGTATATGAGATCGACGCCTGCGATTGATAAAATGCTGGTCCAGAGCGTTTCGAAACTGCACAGCATTGGCCGCATTCTTGAATTCGAGCGCTCCATGCTGGGGGAGAGCATGCGGATGGTGATCTTGACCGATTATATCCGCAAGGAGGACCTGCCGAAGGATGCGGACGACGAAAAACCGCTGCATCGGCTCGGAGTTGTCCCGATTTTTGAGCTGATCCGCAGGCAGCTAGCGGAGAAAAGCGGCTCCCGGGGCGAGCACGAGCTGCCCATCGGCATTCTGACAGGCTCCTTTGTGGTGCTCCCGGTGACGGCTATGCCCCTGGCTATAGCTTGCGCCGAACGCCGGGGCCTCCGCTTGTCCGAACGCCCCCTTGCCCACGACAGCCGCTATGTAACGATAGATGTTCGAGATGCAAATCGCTCGGCTATCGTCGCCATGATAACGGAGGTGTTTTCAGAGGGGGGCATTCAAGTGCTGATCGGTACGGCGGCTCTTCTGGGCGAGGGATGGGATGCTCCCGTGATCAATTCCTTGATCATGGCATCGTATGTAGGCTCGTTCATGCTGTCCAATCAGATGCGGGGACGGGCGATCCGGGCCCAACGCGGGAACCCGGATAAGACCGGAGCGATCTGGCATCTGGCATGCGTCGATACTTCCCAAATCGATGGGGGCGAGGATTTGAGCTCGCTTGCGCGCAGATTTCGATCTCTCGTCGGTCTATCGATCTCGCATCAAACCATAGAGTCGGGCATGGAGCGCATGGGCCTTGATCTTCGGAAAAACCCAACCGCAGAAAGCATCAACGCCTATAACCGCGACACATGCGAGCGGGCGAGGCAGCGGCATCTTTTGAAGGAGCGATGGAATTCGGCGATTGCCCTTCACAGCTCCATGACGGAGGAACTGACGGTGGATCGGGAGCGTATTCCTAAGCCTTTGATTTTCTCGCATACGGTGAAGGCCGTGCTTGCTTTTGCCGTTGGTTTGGGGCTGGGCGCCTTCATCGAGACGTTAACGTCGCCGCATTTGCTTCAATCGGACGCGCCGGCTTGGTTCAGCCTGCTGTTCTCGGTCGCCATTGCCTTGATCGCATCCGGTCCTTGGATATTTAAAGCCGTCAAAATGGTAATGCGTCATCAATCGCTGGAGCGGAGCATTCGAGAAGTGGCTCTGGTCGTGTATACGTCGCTATACGATATGGAGCTGGTCGAAACCGAGCCAAGCCTTCACCGGTTGAGAGCGGAGGAGGAAGGAGGAGCCGTCGTGTGTTGGATGAAGGACGGAACCACCCAGGAAAAAACGCTTTTCCTGAATTCGCTGCAGCAGGTGCTGGACCCGATCGAGAACCCGCGTTATCTTTTGTACCGCGAAGCGCGCGGCTGGTTTTCGACCAGGCGGGATTACCATGCCGTGCCGGAGGAAATCGGGCGTCGAAAAGAGCATGCGGAACGCTTTGCCCGGCTGTGGCGCAAGCATATCGGTCCGGCCGAGCTGGTCTACACCCGTACGCCGGAAGGCAGAAAAATGCTCCTGACGGCGCGAACGCGGGCTTTGTCCTCCATGTTCGTGAAGAAATCGGAGCGGGTTAGTGCTTGGAGGTAG	MKFFPSNLSFRYPWRSYQKRVLHGLDHHLKNRQLHLVAPPGSGKTVLGLEVMLRINRPTIILAPTITIKQQWASRLVELFLDEDVQPEWVSTSLKRPALVTITTYQALHSLISAAGQPTSAKKVTAGMVQADQTGDENQEFSDTGMEDAEAEPAGRDGVREDDITDGTEAQEALELLKRQGYHTLIFDEAHHLRMSWWQSAMQLCEMLDEPTKIALTATPPYDVNPREWQRYIELCGPIDEEISVPELVRHGELCPHQDYISLTRPTHEEAAKLREFRMQAQQVKDELVRDEFLAELIVHHPWITRSEAYMEDILSSPGYYSSMVLYLRAANRPIWKEALKLLGMEEKETPDFTEEWLEELLGGMLYKDAHIDRELPELKALQKRLSRLGMIERRKVYMRSTPAIDKMLVQSVSKLHSIGRILEFERSMLGESMRMVILTDYIRKEDLPKDADDEKPLHRLGVVPIFELIRRQLAEKSGSRGEHELPIGILTGSFVVLPVTAMPLAIACAERRGLRLSERPLAHDSRYVTIDVRDANRSAIVAMITEVFSEGGIQVLIGTAALLGEGWDAPVINSLIMASYVGSFMLSNQMRGRAIRAQRGNPDKTGAIWHLACVDTSQIDGGEDLSSLARRFRSLVGLSISHQTIESGMERMGLDLRKNPTAESINAYNRDTCERARQRHLLKERWNSAIALHSSMTEELTVDRERIPKPLIFSHTVKAVLAFAVGLGLGAFIETLTSPHLLQSDAPAWFSLLFSVAIALIASGPWIFKAVKMVMRHQSLERSIREVALVVYTSLYDMELVETEPSLHRLRAEEEGGAVVCWMKDGTTQEKTLFLNSLQQVLDPIENPRYLLYREARGWFSTRRDYHAVPEEIGRRKEHAERFARLWRKHIGPAELVYTRTPEGRKMLLTARTRALSSMFVKKSERVSAWR				NA	NA	NA	NA	NA
AK002_01501	843			hypothetical protein	ATGCTCGAGAACGAACGTTACGGCGAAGCGATGGAAGTGCTGCGTTTTCTGCTGAAGTGCGGGGGACAGAACGAACGGCACTATGAAGAGTGGAACTCGCTCCTCGAATGGCTTGAAGCTGCATTTCCGGAACAGGCCATACCCCGTTCGGTCGATTTCGATGCTGAGCCTGACGAGGATGATCCGGACGAGTCCGAGATGGCCAGACAGATGGTCAGGGACAAGGTTGCCCAGGATGCCGGATACGCCGACAAGCTGCTGGCTTCGGTCATGACCGGGCCGCTGACGGAGCAGACCATTTTGGCGCTGGAACAGCTCGCTTATCTGGACCGTCCGGAGATCGACGCGATTCTGGTCGAATGGCTGCATGATACGCCGCTTCATCCCCTGCTGCAATTCCGGGTGCTGCAAACGCTCCGGAGAAGAGGGATGGAAGGGCACGTAAGCCTTCATCGCGGGCAGGAAGCCGTTGAGATCGAGATCGATACGGTTCCCTTAGATCCGGGAGGCTTCCCGGACGCGATTACGAGGATTTTGGAGCGCGTTGCGGATCAGACCGAGGTTCATGAGCCGACGCTGTTTTATTTTGCCCAGGAATTATGGTCCCAGTTCATCATGGCGATTTACGGCACGGAGGATTACCATTCCATGCTGGACGAAGAAGAAGCCACGCTCGATATATGGGCCGCAGCGCTGCATGACATCGTGTCGGAGAGCCTGAAAGGCTTTCGCAATGAGGAGGAAATCCGCCCGCTTTACGGCATCACGGACACCATGCGGTTCCGCTATGAGGGAGCCTATCGATCTCTCAAGCAATTCGTCGCTGCAGGCGTGGAAGATTAG	MLENERYGEAMEVLRFLLKCGGQNERHYEEWNSLLEWLEAAFPEQAIPRSVDFDAEPDEDDPDESEMARQMVRDKVAQDAGYADKLLASVMTGPLTEQTILALEQLAYLDRPEIDAILVEWLHDTPLHPLLQFRVLQTLRRRGMEGHVSLHRGQEAVEIEIDTVPLDPGGFPDAITRILERVADQTEVHEPTLFYFAQELWSQFIMAIYGTEDYHSMLDEEEATLDIWAAALHDIVSESLKGFRNEEEIRPLYGITDTMRFRYEGAYRSLKQFVAAGVED				NA	NA	NA	NA	NA
AK002_01502	1323	tig	COG0544	Trigger factor	ATGAAAGCAACTTGGGAAAAAATAGAGAAGAACCTTGGCGTTCTTGACGTTGAGGTTGATGCGGAGCGCGTTGCATCCGCTCTCGACAAGGCTTTTAATAAAGTAGCTAAAAAAGCAAATGTACCTGGATTCCGTAAAGGTAAAGTGCCTCGGCCGATCTTTGAAGCGCGTTTTGGCGTAGAGAGCCTGTATCAGGATGCAATCGACATCCTTCTTCCGGAAGTATACGGCGAAGCTGTAGAACAAGCGGATATCTTCCCTGTGGATCGTCCGGAAGTGGACATCGAGCAGTTCGCTAAAGGCGAAACTTTCAAGTTCAAAGCTAGAGTAACCGTGAAGCCGGAAGTTACGCTTGGCGAATACAAAGGCGTTGAAGTAGCTGCAGTAGCTGCAGAAGTTTCCGAAGAGGAACTGAACGAAGAGCTTGAGCGTCTGCAACAACGTCATGCTGAGCTTACCGTTATCGACGAAGGTGCTTCCCAGTCTGGCGATATCGTTGTAATCGACTTCGACGGTTCCGTTGACGGCGTTCCTTTCGAAGGTGGACAAGCTGAGCGTTATTCCCTTGAGCTTGGAAGCAACACGTTCATTCCAGGCTTTGAAGACCAAGTCATCGGTATGGCTACAGGAGACTTCAAAGACGTGGAAGTAACCTTCCCTGAAACTTACCATGCTGAAGAATTGGCTAACAAACAAGCCGTCTTCAAAGTGAAAGTGCACGAAATCAAACGCAAACAGCTTCCTGAGCTGGATGATGAATTCGCTAAAGACGTTAGTGAATTCGATACGCTTGATGAGTACAAGGAAGATCTGAAGAAGCAATTGCTGACTCGCAAAGAGCAAGAAGCCCAAGGCGTTCGTGAGAACGAAGCCGTTGAAAAAGCAGCAGCAAACGCTGAAGTTGAAATTCCGGAAGCCATGATTCAATCCGAAGTTCAAAACATGATGCGCGATTTCGATAACCGTCTTCGCCAGCAAGGCATGAACCTGGAAATGTTCCTGAGCTTCTCCGGCCAAACCAATGCCGATCTGGAAGGCCAAATGAAGGACGATGCTGAAAAGCGCGTTCGCAACAACCTCGTGCTGGAGCAAATCGCGAAGGAAGAGAAACTTGAAGTATCCGAAGAAGAAATCAACAAAGAGCTGGAAAACATGGCTGATACGTACAAGCGTTCCGCTGATGAAATCCGCAGCATCCTCGGCGCTAACGGTTCCCTCGACAGCCTTCGTGAAGAACTGCTTCTTCGCAAAACGATCGACTTCTTGCTGGAAAACAGCGTAGAAGGCGCTCCTGTTGAGAAAAAAGAAGCAACTGAAGAATAA	MKATWEKIEKNLGVLDVEVDAERVASALDKAFNKVAKKANVPGFRKGKVPRPIFEARFGVESLYQDAIDILLPEVYGEAVEQADIFPVDRPEVDIEQFAKGETFKFKARVTVKPEVTLGEYKGVEVAAVAAEVSEEELNEELERLQQRHAELTVIDEGASQSGDIVVIDFDGSVDGVPFEGGQAERYSLELGSNTFIPGFEDQVIGMATGDFKDVEVTFPETYHAEELANKQAVFKVKVHEIKRKQLPELDDEFAKDVSEFDTLDEYKEDLKKQLLTRKEQEAQGVRENEAVEKAAANAEVEIPEAMIQSEVQNMMRDFDNRLRQQGMNLEMFLSFSGQTNADLEGQMKDDAEKRVRNNLVLEQIAKEEKLEVSEEEINKELENMADTYKRSADEIRSILGANGSLDSLREELLLRKTIDFLLENSVEGAPVEKKEATEE				NA	NA	NA	NA	NA
AK002_01503	591	clpP_2	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGAGTCTTGTACCTATGGTTGTTGAACAAACCAGTCGAGGCGAAAGATCTTACGATATCTACTCAAGATTACTGAAGGATCGCATTATATTCCTCAGCAGTGCGATCGATGACGATGTTGCCAATCTTGTTATTGCCCAGCTTCTGTTTCTGGCTGCGGAAGATCCGGAAAAAGACATCTCTTTGTACATCAATTCCCCTGGCGGTTCGGTAACGGCCGGGATGGGTATATATGATACGATGCAGTTGATCAAGCCTGATGTATCCACGATTTGCGTCGGCATGGCCGCCAGCATGGGATCATTGTTGCTTACTGCAGGAGCGCCAGGCAAACGCTATGCTCTCGAGAACAGTGAGGTGATGATTCATCAGCCGCTCGGAGGCATTCAAGGTCAGGCATCCGATATCCAAATCCATGCAGATTGGATCATCAAGACCAGACAAAAACTGAATCAAATCTATGTGGAGCGCACGGGTCAGCCCCTTGAAAAAATCGAACGCGATACAGACCGCGACTTTTTCATGAGCGCGGAGGAAGCGAAGGCGTACGGTATTATTGATGATGTTCTGTCTTCACCGACCAAATCTTAA	MSLVPMVVEQTSRGERSYDIYSRLLKDRIIFLSSAIDDDVANLVIAQLLFLAAEDPEKDISLYINSPGGSVTAGMGIYDTMQLIKPDVSTICVGMAASMGSLLLTAGAPGKRYALENSEVMIHQPLGGIQGQASDIQIHADWIIKTRQKLNQIYVERTGQPLEKIERDTDRDFFMSAEEAKAYGIIDDVLSSPTKS	PGPT0014595_7416	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK002_01504	1266	clpX	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGTTTAAATTTAACGATGACAAAGGGCAGCTGAAGTGCTCCTTCTGCGGCAAATCGCAGGAGCAGGTCCGCAAGCTGGTTGCGGGGCCCGGTGTTTATATATGTGACGAGTGCATCGACTTGTGTTCGGAGATCGTAGAGGAAGAGCTCGGACACGAGGAAGAAGTGGATCTGAAGGATATTCCGAAACCGCGTGAAATCCGCGATATCCTGGATCAATACGTAATCGGACAGGATCAAGCCAAGAAATCTCTCTCGGTTGCCGTTTACAATCACTACAAGCGCATCAATACCCAGAGCAAAATCGAGGACGTCGAATTGCAAAAGAGTAATATTTTGCTGCTCGGACCTACAGGTTCCGGTAAAACCTTGCTTGCGCAAACGATGGCCAAAATTTTGAACGTGCCGTTTGCTATTGCAGACGCAACCTCGCTGACCGAAGCCGGTTATGTGGGTGAGGATGTTGAGAACATTCTGTTGAAGCTGATTCAAGCTGCGGATTATGACGTGGAAAAAGCAGAACGCGGCATTATCTATATTGATGAGATCGACAAAGTAGCCCGCAAATCGGAGAACCCGTCCATTACGCGTGACGTTTCCGGTGAAGGTGTTCAGCAGGCTCTCCTGAAAATTCTGGAGGGAACCGTTGCTTCCGTGCCGCCGCAAGGTGGACGCAAGCATCCGCATCAGGAATTCATCCAGATCGATACTACGAACATTCTGTTCATTTGCGGCGGTGCGTTTGACGGTTTGGAGCAGTACATCAAACGCCGGATCGGCAAAAAGGTCATCGGCTTTAATGCATCCGGAGAAAGCCAAAAGGATCTTAAGCCAGGTGAATACCTGACGATGGTTCTGCCGGAGGATCTGTTGAAATTCGGATTGATTCCGGAATTCGTCGGCCGTCTGCCGGTCGTGTCAACGCTCGAGCCGCTGGATGAGGCGACATTGGTCCGTATTCTGTCCGAGCCTAAAAACGCGCTGACCAAACAGTACCAAAAGCTGCTTGAGTTTGATAACGTAAACCTCAAGTTTGAGCCGGGCGCACTTGAAGCGATTGCCCGCGAAGCCATTAAGCGCAACACGGGTGCTCGCGGACTGCGCTCCATCATCGAAAGCATCATGCTTGACGTGATGTATGAAGTGCCGTCCAGAGATGACATCAAGGATTGCGTCATTACGGAGCAGGTCGTTCGGGATAAAGTGATTCCTGAGCTTCAAACCAAAGCTAACGAAGACGACAAGAAACAAGAAGAAAGCGCCTAA	MFKFNDDKGQLKCSFCGKSQEQVRKLVAGPGVYICDECIDLCSEIVEEELGHEEEVDLKDIPKPREIRDILDQYVIGQDQAKKSLSVAVYNHYKRINTQSKIEDVELQKSNILLLGPTGSGKTLLAQTMAKILNVPFAIADATSLTEAGYVGEDVENILLKLIQAADYDVEKAERGIIYIDEIDKVARKSENPSITRDVSGEGVQQALLKILEGTVASVPPQGGRKHPHQEFIQIDTTNILFICGGAFDGLEQYIKRRIGKKVIGFNASGESQKDLKPGEYLTMVLPEDLLKFGLIPEFVGRLPVVSTLEPLDEATLVRILSEPKNALTKQYQKLLEFDNVNLKFEPGALEAIAREAIKRNTGARGLRSIIESIMLDVMYEVPSRDDIKDCVITEQVVRDKVIPELQTKANEDDKKQEESA	PGPT0014600_3601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
AK002_01505	1110	ispG	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	ATGTTTTTGAGACAAGACACACGGCCCGTCAAGGTGGGGAACCTTACCATTGGGGGAAAGAACGAAGTCATTATTCAAAGCATGTGCACCACCAAAACAGCAGACGTGGAGGCAACCGTTGCCGAGATACTGCGCCTGGAGGAAGCGGGATGCCAGATCGTCCGGGTAACGGTAAACAATGAGGAAGCAGCTGCTGCCATCAAAGAAATCAAGAAACGCATTCATATCCCGCTCGTGGCGGATATTCATTTTAACTATAAGCTCGCCCTGATGGCGATCGAGAACGGTATCGATAAGGTCCGGATCAATCCCGGGAACATCGGTAAGCGCGAAAAGGTCGAAGCCGTCGTGAAGGCATGCAAGGAGAAGGGGATTCCGATTCGGATCGGGGTGAATGCCGGTTCCCTGGAGAATCACCTTATTGAAAAATACGGGTATCCGACACCGGAAGCCATGGTAGAAAGCGCCCTGTATCATATCGGCATCTTGGAAGAACTGGACTTCCACGATATCATCGTTTCGCTTAAAGCGTCTGATGTGCCGATGGCCATCGCGGCGTACACCAAGGCGGCGGAAGTGATTCCGTACCCGCTTCATCTGGGAATTACCGAAGCAGGCACCCTCTTCTCGGGTACCGTGAAGAGCGCGGCCGGTCTTGGGGCGCTGTTGTCCCTAGGCATCGGCAGCACGATGCGTATTTCATTGAGTGCCGATCCGGTGGAAGAGATCAAGGTGGGCCGGGAGCTTCTAAAATCCTTCGGTCTAATCTCGGATGCGGCAACCTTGGTATCCTGCCCGACTTGCGGACGGCTGGATATCGATTTGTTCTCCATCGCCAATGAGGTGGAGGAGTATATCTCGAAGATTAAAGTTCCGATCAAGGTTTCAGTCCTAGGCTGCGCCGTGAACGGTCCCGGTGAGGCCAGAGAAGCCGACATCGGCATTGCCGGCGCTCGTGGGGAAGGTTTGCTCTTCCGTTACGGAGAGATGATCCGCAAAGTTCCGGAAGCCACCATGGTGGAAGAGCTTAAGAAAGAAATCGATCATATCGTGAAGGTGTACGAGGAAACCGGCGAAATCCCGGGCCGCAAGCACAAATCCACGGTCTGA	MFLRQDTRPVKVGNLTIGGKNEVIIQSMCTTKTADVEATVAEILRLEEAGCQIVRVTVNNEEAAAAIKEIKKRIHIPLVADIHFNYKLALMAIENGIDKVRINPGNIGKREKVEAVVKACKEKGIPIRIGVNAGSLENHLIEKYGYPTPEAMVESALYHIGILEELDFHDIIVSLKASDVPMAIAAYTKAAEVIPYPLHLGITEAGTLFSGTVKSAAGLGALLSLGIGSTMRISLSADPVEEIKVGRELLKSFGLISDAATLVSCPTCGRLDIDLFSIANEVEEYISKIKVPIKVSVLGCAVNGPGEAREADIGIAGARGEGLLFRYGEMIRKVPEATMVEELKKEIDHIVKVYEETGEIPGRKHKSTV	PGPT0007580_3259	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
AK002_01506	1731	lon2	COG1067	Lon protease 2	GTGAATTTAAGTATCGTGATTATGCTGGTGCAGCTGTTTTTTGCAGTCATCATCGGCATTTATTTTTGGAATTTATTGCGTGGACAGAAGACAAGCAAAACAGCGGTGGACCGGGAATCGCGCAAGGAGCTCGATAAACTCCGCAAACTCCGGTCAATCTCGTTAACGAAACCGCTCGCCGAGAAAACAAGGCCGCAAACCATGGATGACATCGTGGGGCAAAAGGACGGCTTGCGCGCCTTAAAGGCCGCGCTATGCAGCGCGAATCCTCAGCATGTCATCGTATACGGCCCTCCGGGGGTCGGTAAGACCGCTGCTGCCCGCGTGGTGATGGAGGAAGCCAAGAAGAACCCGCAATCGCCGTTTAAATACGACGCGAAATTCACGGAGATCGACGCAACGACGGCCCGTTTCGATGAACGTGGAATTGCCGATCCGCTCATCGGTTCTGTTCATGATCCGATTTACCAAGGCGCCGGTGCCATGGGGGTGGCAGGCATCCCTCAGCCGAAGCCTGGCGCGGTGACCAAGGCCCATGGGGGAATCCTGTTTATTGACGAAATTGGGGAATTGCATCCGATCCAGATGAATAAGCTTTTAAAAGTGCTGGAGGACCGCAAGGTGCTGCTGGAAAGCGCATATTATAATTCAGAGGATGCCAATACGCCCGCTTATATTCACGATATTTTTCAAAATGGGCTTCCGGCGGACTTCCGCCTGGTAGGTGCTACGACACGTTCGCCGGAAGAGATTGCTCCTGCACTTCGCTCGCGCTGCATGGAGATTTTTTTCCGTCCGCTTCTGCCTGAAGAGATCGGCAAGATTGCGGAGGATGCCATTCAGAAGATTGGCCTGAACGCTCCGCCGGAAGCGGTAGAAGTAGTGAAGCAGTACTGCTCCAACGGCCGGGAAGCGGTCAATATGATTCAATTGGCGGCCGGCCTGGCATTGACCGAGAAGCGAGATGCCCTGCGCGCGGCGGATGTGGAATGGGTGGCCAGCAGCAGCCAGCTGCAGCCAAGGCCCGACCGGAAAATACCGGAGAAGCCGCAGATTGGGGTCGTTAACGGATTGGCCGTATATGGCCCGAATATGGGGGCTCTGCTAGAAATTGAAGTATCTGCGGTTCCTGTCGAGGAGGGCCGGGGTACCTACAATATCACCGGGGTAGTGGATGAAGAGGAATTTGGCGGAGGCTCGCGCAAGCTGCGCCGCAAGAGCATGGCCAAAGGCTCGATCGAGAATGTGCTGACCGTGCTGGGCTCGATGGGCTTCACGCCCAAAAACTATGACCTGCATATCAATTTCCCCGGAGGAACGCCGATCGACGGCCCTTCCGCCGGCATTGCGATGGCCACGGCCATCGTGTCGGCCATCAAAGGGATTGAAGTCGATAACAAGGTAGCGATGACCGGCGAGATAAGCATCCATGGAAAAGTGAAACCGATTGGCGGAGTCATCGCCAAGGTGGAGGCGGCATTCCAGGCAGGCGCGACCCGCGTGATCATCCCCAAAGACAATTGGCAGACCTTGTTCCAGGATTTGAGCGGGGGCTTGCGGGTGATTCCGGTGGAATCGGTGGATGAAGTTTTCGGGCATATCTTTGGCGGTACGTTTGCTCCGGAGGTGATACAGCTTCCCGGAAACGAGGTATTTCCATCCTCTTCCGCTTCATTGCTGCAGGCCACGCCTCCGCGCAACGGAAAAATAACGGATGCCGGAGGATGTTAA	MNLSIVIMLVQLFFAVIIGIYFWNLLRGQKTSKTAVDRESRKELDKLRKLRSISLTKPLAEKTRPQTMDDIVGQKDGLRALKAALCSANPQHVIVYGPPGVGKTAAARVVMEEAKKNPQSPFKYDAKFTEIDATTARFDERGIADPLIGSVHDPIYQGAGAMGVAGIPQPKPGAVTKAHGGILFIDEIGELHPIQMNKLLKVLEDRKVLLESAYYNSEDANTPAYIHDIFQNGLPADFRLVGATTRSPEEIAPALRSRCMEIFFRPLLPEEIGKIAEDAIQKIGLNAPPEAVEVVKQYCSNGREAVNMIQLAAGLALTEKRDALRAADVEWVASSSQLQPRPDRKIPEKPQIGVVNGLAVYGPNMGALLEIEVSAVPVEEGRGTYNITGVVDEEEFGGGSRKLRRKSMAKGSIENVLTVLGSMGFTPKNYDLHINFPGGTPIDGPSAGIAMATAIVSAIKGIEVDNKVAMTGEISIHGKVKPIGGVIAKVEAAFQAGATRVIIPKDNWQTLFQDLSGGLRVIPVESVDEVFGHIFGGTFAPEVIQLPGNEVFPSSSASLLQATPPRNGKITDAGGC	PGPT0014315_5406	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
AK002_01507	2337	lon1	COG0466	Lon protease 1	ATGGGACCCAGTAAATCCAAAGGTCGTCGTTTTCCTTTACTGCCTTTAAGAGGTCTTCTGGTCTATCCAAGCATGGTGCTTCACTTGGACGTAGGCCGGGAGAAATCGGTAAAGGCTTTAGAAAAGGCGATGGTTGAAGACAATTTGATTCTCCTATGTTCTCAATCGGAAGTGAACATTGAAGAACCGACGCAGGATGATATTTTTCGGATTGGCACAGTTGCGAATGTACGCCAGATGCTTAAGCTTCCAAACGGTACCATACGTGTGCTAGTGGAGGGTATGGAACGGGCGGAAGTTATTGAATATACGGATCAAGAGGAATACTACGAGGTCATCGCTCGGGAGCTTCCCGAAGAGGAGAACCATGATCCTGAAGTCTCCGCATTAATGCGAACCGTACTGTCTCAGTTTGAGAATTATATCAATCTGTCGAAGAAAGTGACGCCTGAGACACTGGCGGCCGTTTCCGATATCGATGAGCCAGGACGGCTGGCGGACGTCATTACGAGTCATTTGTCGCTGAAGATCAAGGATAAGCAAGAAATTCTCGAAACAATCGACGTTCGCAAACGGCTCGAGAAACTTCTAGATATACTGAATAACGAGCGCGAAGTGCTGGAGCTGGAGCGCAAGATCAACCAGCGGGTCAAGAAGCAAATGGAGAAGACCCAGAAGGAATACTATTTGCGCGAACAGATGAAGGCCATTCAGAAAGAGCTTGGAGACAAGGAAGGCCGTGCCGGGGAAGTAGAGGAACTCCGAAGTCAGCTTCAGGAGCTTGAACTGCCGGAACGCGTCCAGGAGAAGGTAGAGAAGGAAATTGACCGACTCGAGAAAATGCCGGCGAGCTCTGCGGAAGGCGGCGTTATCCGGAACTATGTGGATTGGCTGCTGGCGCTGCCGTGGACGAACAAAACCGAGGATGATCTGGACATCGTCAAAGCGGAGCAAGTGCTGGACGAGGATCATTACGGTCTCGAGAAGCCGAAAGAACGCGTGCTGGAATATTTGGCGGTCCAGAAGCTGGTGAAGAAGATGAAGGGGCCTATTTTGTGCCTGGTCGGCCCTCCGGGCGTCGGTAAAACATCGCTTGCCCGGTCCATCGCCCGTTCCCTGGAGCGCAAGTTCGTTCGCGTCTCTTTAGGCGGGGTAAGGGACGAGGCGGAAATTCGCGGTCACCGGCGCACTTATGTCGGAGCTATGCCGGGCCGCATCATTCAAGGCATGAAAACAGCGGGCTCGATGAATCCCGTGTTTCTGCTGGATGAAATCGACAAGATGGCATCCGATTTCCGCGGGGACCCGTCTTCCGCACTGCTTGAAGTGCTCGATCCAGAGCAGAACAATACGTTCAGCGATCATTTCGTGGAAATTCCTTTTGACCTGTCCAACGTTATGTTTGTCACGACGGCGAACGTGCTTCATAACATTCCAAGACCGCTCCTGGACAGGATGGAAGTGCTGAACATTCCGGGGTATACGGAGCTGGAGAAGCTCCAAATCGCCAACCGTTACTTGCTGCCCAAGCAGAAGAGCGAGCATGGGCTTGAGCCTGAGCAGCTGATTCTGGATGAGGAAGCGCTGATGAAGGTGATCCGGGAATATACCCGCGAATCCGGCGTGCGGAATCTAGAGCAGCAAGTGGCGGCGCTATGCCGCAAAGCCGCCAAGCAGATCGTGACCCAGCAATCGGAATCCATCGAGATCAAGGCTGCCGATATCAAGGATTATCTCGGCATTCCGAAGTTTCGTTACGGCATGGCCGAGCTTGAAGATCAAGTGGGTACGGTTACGGGGCTCGCATGGACGGAAGTGGGCGGCGAAACGCTGACCATTGAGGTAACCGTGGTGCCTGGTACCGGCAAGCTGACGCTGACGGGCAAGCTTGGTGACGTGATGAAGGAATCGGCTCAAGCCGCCTTCAGTTTTACCCGCTCGAAAGCGGTAGAGCTTGGCATTGATCCGGATTTCCATGAGAAGCTTGATGTCCATATCCATATCCCGGAGGGAGCCATTCCGAAGGATGGCCCTTCAGCCGGCATTACGATTGCGACGGCTCTTATCTCATCTTTAACCAAACGGCATGTAGCCCGTGACGTGGCCATGACGGGTGAAATTACACTTCGGGGACGCGTACTGCCGATTGGCGGCTTGAAAGAGAAGTCGCTGGCAGCCCACCGTGCCGGTTACAAAAAAATATTGCTCCCTAAGGATAACGAACGCGACCTGCGTGATATTCCTGACAGCGTAAAGAACGACGTGGAGTTCGTTCCGGTATCCCATATGGATCAGGTTCTGGAGCATGCGCTCGTTGAACAAGCGGGAGTGCACTAG	MGPSKSKGRRFPLLPLRGLLVYPSMVLHLDVGREKSVKALEKAMVEDNLILLCSQSEVNIEEPTQDDIFRIGTVANVRQMLKLPNGTIRVLVEGMERAEVIEYTDQEEYYEVIARELPEEENHDPEVSALMRTVLSQFENYINLSKKVTPETLAAVSDIDEPGRLADVITSHLSLKIKDKQEILETIDVRKRLEKLLDILNNEREVLELERKINQRVKKQMEKTQKEYYLREQMKAIQKELGDKEGRAGEVEELRSQLQELELPERVQEKVEKEIDRLEKMPASSAEGGVIRNYVDWLLALPWTNKTEDDLDIVKAEQVLDEDHYGLEKPKERVLEYLAVQKLVKKMKGPILCLVGPPGVGKTSLARSIARSLERKFVRVSLGGVRDEAEIRGHRRTYVGAMPGRIIQGMKTAGSMNPVFLLDEIDKMASDFRGDPSSALLEVLDPEQNNTFSDHFVEIPFDLSNVMFVTTANVLHNIPRPLLDRMEVLNIPGYTELEKLQIANRYLLPKQKSEHGLEPEQLILDEEALMKVIREYTRESGVRNLEQQVAALCRKAAKQIVTQQSESIEIKAADIKDYLGIPKFRYGMAELEDQVGTVTGLAWTEVGGETLTIEVTVVPGTGKLTLTGKLGDVMKESAQAAFSFTRSKAVELGIDPDFHEKLDVHIHIPEGAIPKDGPSAGITIATALISSLTKRHVARDVAMTGEITLRGRVLPIGGLKEKSLAAHRAGYKKILLPKDNERDLRDIPDSVKNDVEFVPVSHMDQVLEHALVEQAGVH	PGPT0014315_4394	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
AK002_01508	645	engB	COG0218	putative GTP-binding protein EngB	ATGAAAGTTACGAAAGCCGAGTTTGTCATCAGCGCTGTCGTACCTGCCCAATATCCTGAAGACGCCTTGCCGGAGATTGCTCTGGCAGGGCGTTCCAATGTGGGCAAGTCATCGCTGATTAACCGTATGATATCCCGTAAGAACCTGGCTCGTACAAGCGCCACGCCGGGGAAGACACAGCAGCTCAACTATTATCGGGTGAACGACGACCTCTATTTGGTCGATTTTCCCGGTTACGGTTATGCTAAAGTTTCGAAGACCCAACGTGCGGCATTTGGCGAAATGATTGAGAGGTATTTGCTCAGCCGGGAAGAACTGAAGCTTGTATTATTGATTGTGGACATGCGTCACCCGCCTTCAAAAGACGATATCAGTATGTATGAATGGCTGCAGCATTACAACCGGCCGGTGTGCGTAGTCGCGACCAAGGCGGATAAAATTCCGAAAACGCGCCGCCAGAAGCATGTGAAGATCGTGAAGGAAACGCTCGGTTTCAAGCCCTATCATTCCTTTGTCATGTTTTCATCCGAGCTGGGTTTGGGTAAAGATGAGTTATGGGCCATTATGGAGTCCCATATGGGGACGAAGGATCATGTGGAAGAGCCGCACACGGATTCGGAGAATGACAGCAACGAGCATGTCTGA	MKVTKAEFVISAVVPAQYPEDALPEIALAGRSNVGKSSLINRMISRKNLARTSATPGKTQQLNYYRVNDDLYLVDFPGYGYAKVSKTQRAAFGEMIERYLLSREELKLVLLIVDMRHPPSKDDISMYEWLQHYNRPVCVVATKADKIPKTRRQKHVKIVKETLGFKPYHSFVMFSSELGLGKDELWAIMESHMGTKDHVEEPHTDSENDSNEHV				NA	NA	NA	NA	NA
AK002_01509	642			hypothetical protein	TTGGATCTGCTGTATAATGGTAGTAAGTTAAAAGAATTGAGGGAGATTTTTATGGCTCAGCGGTTAGCCACAGAATATGTTAATGCCACAATGCAAATGACGGATATTCAAATGGATCAATTTCTGCAATATACCCAAGCTTTCCGGGTCACTAACCGGGTAAAAGTCATGGATAGCGGAGAGCAGGAGTTCGTGCTCGAAGATGAAAGCGGGGAAGAAGTTCATTTGCCCTTTGAACGCAAGAATGGCTTGTACGTCTGTGAGCTGTCATGCCGATTGGTTACTCCCCATCTGACGAATGCCGTACGCAAACTGTTTGCGGCTTTTAAGGGATCAGGTAAAGTGAATCGGATTTATCGCGGCTTTACGATGAGCTACGACTACCATGCGGGAACGGTGCATCGAATTACGCAAGTCGCCGGGAACGACAGCATTGTCATTTATGAGTACAAGAATACGGCAGGCGAACTGCAGCGTCTCTTTAACAGCAATGAAGCAGAGAAAGAGATCGAATCCATCCAGCATCATATCAACGTGCTTCTGGACCAGCGGATTGCAGCAGGGAATGATAAACTGATTACGAAGACGATAGACGAAAGGCTGCGACGGTTTAATCAGCGCCTATTCGTGCTTGAAGCTTAG	MDLLYNGSKLKELREIFMAQRLATEYVNATMQMTDIQMDQFLQYTQAFRVTNRVKVMDSGEQEFVLEDESGEEVHLPFERKNGLYVCELSCRLVTPHLTNAVRKLFAAFKGSGKVNRIYRGFTMSYDYHAGTVHRITQVAGNDSIVIYEYKNTAGELQRLFNSNEAEKEIESIQHHINVLLDQRIAAGNDKLITKTIDERLRRFNQRLFVLEA				NA	NA	NA	NA	NA
AK002_01510	399	speH	COG1586	S-adenosylmethionine decarboxylase proenzyme	ATGGAATACTCAACTTTCGGAAGACACGTTGCTGTTGATACTTGGGGAGTCGATTTTGAACTACTGAACAGTGCAGAATTTTTACAAGCTCAGATGGTGGAAGCCGCTGAAGCATGTGGAGCAACGGTATTGTCCGTCCAATCCAAGCAGTTTGAACCACAAGGTGCGACTGTGCTGGTGTTGCTGTCGGAAAGCCATCTCTCGATTCACACATACCCTGAGAGAGGTTTTGCTGCGATTGACTGTTATACCTGCGGGGAGACAGTAGATCCGCAGTTGGCTATTGACTATCTGGTATCCGCTTTGAAACCTGAAAAATGCTATGCTAAGAAACTCGTGCGCGGACTCGGCGAAATGACCGTGGAAACGCCTGAGATGAAACAGGCTGAGCTCGTTTAA	MEYSTFGRHVAVDTWGVDFELLNSAEFLQAQMVEAAEACGATVLSVQSKQFEPQGATVLVLLSESHLSIHTYPERGFAAIDCYTCGETVDPQLAIDYLVSALKPEKCYAKKLVRGLGEMTVETPEMKQAELV	PGPT0007760_2046	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007760-speD-K01611	NA	NA
AK002_01511	1407	hemA	COG0373	Glutamyl-tRNA reductase	ATGCACATCGTCGTTGTTGGGTTGAACTATCGCACGGCGCCCGTGGAAGTCAGAGAACGCTTTACATTCTCGGAAGAAGACATGCCTAAGGCGTTAGAGCAGCTTAATTCGACCAAGAGCGTATTGGAGGGCGTCATTGTCGCTACCTGCAACCGTACTGAGATTTATGTTGTGGTAGACCGCCTTCATATGTGCGGCTACTTTATCCGCAGTTTTATGGAACAGTGGTTCGGCATTAATCGTGAAGAATTTACGCAGCACCTCTATATATATGAAGATGAACAAGCTATTTCCCATCTGTTTAAGGTTACCTGCGGTTTGGATTCCATGGTCATTGGAGAGACGCAGATCCTGGGACAGGTGCGCAATGCTTTTTTGACGTCGCAGAAGCATGATGCCACCGGAACTTGGTTCAACATGTTATTCAAGCAGGCCGTTACGCTCGGCAAGCGGGCGCATTCGGAGACATCGATCGGAGAGAGTGCGGTCTCGGTCAGCTATGCAGCGGTGGAGCTGGGTAAACGGATTTTTGGCGCATTTAACGATAAAAAAGTGATGATACTCGGTGCAGGCAAGATGAGCGAGCTTACCGTGAAGCATCTTTATGCCAACGGCGCGGCGGAAGTGATCGTGGCCAACCGCACGCTCGGCCGTGCCGAGGAACTGGCGCGCAAGTTCAAAGGAACGCCGTGCACCATCGCCGAAGCTAAGAATTTGTTGAATGAAGTCGACATTGTGATTAGCTCCACAGGCTCGAATGAATATGTTCTGAATGCGGAGCGGGTTAAAGAGAGCATGAAGAAACGTCAGTCCCGCCCGTTGTTCATGATTGATATTGCGGTTCCACGGGACATCGATCCGGCGGTTGGGGAACTTTCCAACGTATTCCTGTACGATATCGATGATCTGGAAGGCATTGTGGAAACCAATCTGGAAATGCGCCGGGTGGAAGCAGCGAAGATTGAAGTGATGATTCAAGAGGAGATGGATGCTTTCCACACATGGCTGAAGACGCTCGGTGTCAGACCGGCGATTCGGGCCTTGCAGGAGAAATCGAATGCCATCCATGAAGAAACGATGGAAAGCTTGTTCAACAAGCTGCCGGAGCTGGACGAACGCCAACGGAAAGTCATCCGTCGTTTGACCAAGAGCATCGTCAATCAGATGATGCACGATCCGATCAACCGGATCAAGGAGATGACGGGCGGCAAGCAGGGCGGCGAGGCTTTGGATTATTTTTCACAAATCTTTGCGCTGGAAAGCTTGATCCATGAGAATGAGCAGGAAGCCCGCGGCCGCAACAAGAAAGCAACTGCACCCGTTAAAGCTGAACGGACGAAGAATGCTGTAGATCAGCAGGCAGAAGAGAAGCCGCTTAAGGTGTCTCTGGCCCCAGCCACCCTTTGA	MHIVVVGLNYRTAPVEVRERFTFSEEDMPKALEQLNSTKSVLEGVIVATCNRTEIYVVVDRLHMCGYFIRSFMEQWFGINREEFTQHLYIYEDEQAISHLFKVTCGLDSMVIGETQILGQVRNAFLTSQKHDATGTWFNMLFKQAVTLGKRAHSETSIGESAVSVSYAAVELGKRIFGAFNDKKVMILGAGKMSELTVKHLYANGAAEVIVANRTLGRAEELARKFKGTPCTIAEAKNLLNEVDIVISSTGSNEYVLNAERVKESMKKRQSRPLFMIDIAVPRDIDPAVGELSNVFLYDIDDLEGIVETNLEMRRVEAAKIEVMIQEEMDAFHTWLKTLGVRPAIRALQEKSNAIHEETMESLFNKLPELDERQRKVIRRLTKSIVNQMMHDPINRIKEMTGGKQGGEALDYFSQIFALESLIHENEQEARGRNKKATAPVKAERTKNAVDQQAEEKPLKVSLAPATL	PGPT0003650_497	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
AK002_01512	831			hypothetical protein	ATGCTGTTAAACATAATTTATATCACCGGCATTTGTATCTATGCCCTGAGCCTTCTGTTTTATATCTCGGATTGCATTTCACGCAATTCGGTGGCGAAGCGGATAGGCACAGGGCTTCTTGTCATTACCGCGCTGCTGCAATTCGCGGGCATCGGCATCAGGGCCATGGAGGGCGGACATTTCCACTTCCCGGTATTTACGCTGTTTGATTTCCTGTTCCTGCTGGCCTTTTGCATTTCGATCACTTCGATTGCCCTGGCGTATATGAAACGCTCGGAATTTGCCGTCCTGCTCATCAACCTCGTCGGTTTTTGCGTGATGCTGGTCAATCGTTTGTGGTTCACGGCAGGAGACAATGCATTGTACAGCTGGGAAACGGAACACCGTCTCTTGCTGATTCATATCGCCCTGGCGAGCATCAGCTTCGCCGCTTTGACCGTCGGGGCCGTGTTTGCGGCGATCTACATGTTTCTCCATCGGAAGCTGAAGCACAAGCAGTGGAATGATACGGTCCGCAGGCTGCCGAGTCTGGAGAAGCTGGATGTGTATTCTTATAAAGCGCTGATGGCCGGTACGATTATTCTGGTCATGTCGCTTGTCTTGGCCGTCATGTCGGTGGCCATGGCCGGGCGGTGGACCCTGTTTTTGGATATCAAAGTATTGTCCACGCTGACGGCGCTAGCGATGTATATGGTGTATTTCATCAAACGCCGACTGTGGAGAAGGTCCGGCAGGGAGGCCGCCATATGGGCTTTAATCGGGTATGGATTCATTATATTGAATTTTTTTCTGAATACGTGGTCGGCATTCCACAGTTGGTCAGGAGTGTGA	MLLNIIYITGICIYALSLLFYISDCISRNSVAKRIGTGLLVITALLQFAGIGIRAMEGGHFHFPVFTLFDFLFLLAFCISITSIALAYMKRSEFAVLLINLVGFCVMLVNRLWFTAGDNALYSWETEHRLLLIHIALASISFAALTVGAVFAAIYMFLHRKLKHKQWNDTVRRLPSLEKLDVYSYKALMAGTIILVMSLVLAVMSVAMAGRWTLFLDIKVLSTLTALAMYMVYFIKRRLWRRSGREAAIWALIGYGFIILNFFLNTWSAFHSWSGV				NA	NA	NA	NA	NA
AK002_01513	657	cysG_1		Siroheme synthase	ATGACGCATGACCATTATGTGCCCGTCCTGCTGAATTGCAGGGGACGTTTATGCTTGATCGTCGGCGGAGGCAAGGTGGCGGAACGCAAAGCGCTCACCCTGCTGAACGCCGGGGCAAGCGTACATATTGTAAGTCCTGTACTAAGAAGCGAGACGCTCCGGCATTTGGCGGGAGAGAAGGCCCTTCAATGGACGGAACGGAAGTACCGGCCAGACGATCTGGCAGGCGCTTTTATGGTCCATGCGGCAACGGATGACGCCAAGCTGAACCTGAAGATCGCCGAGGACGCCGATCGCCTTGGCGTGCTGGTTAACGTAGCCAGCGACGGCGAGGCCGGTACGTTTATCAATCCGACGGTGCTGCGGCGGGGAAGGCTTATGCTGGCCGTGTCCACGTCGGGAGCAGGGCCGATGGCCGCACGCGATATACGCGATGAGCTCGAAGAACGGTTCGGACCGGAGTATGAGGATTATTTGGATTTTTTATACAGCATGCGTTCGATGATCAAGGATGAGGTGAAGTCCGCCGACGCGCGCAGGCGGCTGTTGCAAAAGGCATACCGCATGGATATGCTCGGGGAGATTCGCCGCGGAGGTTATGTGCCGTGGAGTCCGGACAAAATCAAGCAGTGGATTGAGAAGAATCAGGAGGAATGA	MTHDHYVPVLLNCRGRLCLIVGGGKVAERKALTLLNAGASVHIVSPVLRSETLRHLAGEKALQWTERKYRPDDLAGAFMVHAATDDAKLNLKIAEDADRLGVLVNVASDGEAGTFINPTVLRRGRLMLAVSTSGAGPMAARDIRDELEERFGPEYEDYLDFLYSMRSMIKDEVKSADARRRLLQKAYRMDMLGEIRRGGYVPWSPDKIKQWIEKNQEE				NA	NA	NA	NA	NA
AK002_01514	957	hemC		Porphobilinogen deaminase	ATGCGCACAATCGTAGTTGGCAGTAGACAAAGTGCTCTGGCACTGACACAGACAGGGCAGGTTATCGATGATTTGAAGCGTTTGGCCAAGGAGCACGGATTGGAATATGACTTCGCGGTCAAGAAAATCGTCACCAAGGGCGACCGCATACTGGATGTTACCCTTTCCAAGGTAGGCGGCAAAGGATTGTTTGTCAAAGAAATCGAGCAGGCCATGATAGACGGCGAAATTGACATGGCGGTTCACAGCATGAAGGACATGCCTTCCGTTCTGCCTGAAGGACTGGTTTCCGGGGCGGTGCCCGCAAGAAAAGATCCTCGCGACTGCCTGATCTCCAAAGAAGGGACAACGCTGGATGATCTTCCTCAAGGTGCCAAGGTAGGGACAAGCAGTCTTCGCCGGTCCAGCCAGCTCAAGGCCTATCGGCCTGATCTGCAGATCGATTGGATCAGGGGAAACATCGATTCCCGGATTCGCAAAATGGAGGAAGGCGAGTTTCAGGCCATCATTCTGGCAACAGCCGGCCTGCAGCGCATGGGCTGGGAGGATCGGATCACGTCGTACCTGCCGGTTGAAGTCAGTCTGCCAGCCGTAGGCCAAGGCGCTCTCGGCATTGAGTGCCGTGAAAACGATGAAGAGCTGCTGCATCTGCTCTCTCTTTATAACGACGAAGTAACTGCGCGGACCGTGGCGGCGGAACGCAAGTTTCTAAGCGAGCTGAACGGCGGATGCCAGGTCCCGATCGGGGCTTACGCCGTCATGAAGAATGTGGAGGCAGGAGATTCCCGCGGCGAACAAAACGTTATACAATTAACAGGAATGGTGGGTTCTCCTGACGGCGAAATCGTCTTGAAGGAAAGCGCCGAAGGAACCGACCCTGAAGCGCTCGGAGTGGAAGTGGCTGCAAAGCTGAAAGCTAAAGGAGCGGAGAAGATACTGGCACAAGTTAGGGGTTGA	MRTIVVGSRQSALALTQTGQVIDDLKRLAKEHGLEYDFAVKKIVTKGDRILDVTLSKVGGKGLFVKEIEQAMIDGEIDMAVHSMKDMPSVLPEGLVSGAVPARKDPRDCLISKEGTTLDDLPQGAKVGTSSLRRSSQLKAYRPDLQIDWIRGNIDSRIRKMEEGEFQAIILATAGLQRMGWEDRITSYLPVEVSLPAVGQGALGIECRENDEELLHLLSLYNDEVTARTVAAERKFLSELNGGCQVPIGAYAVMKNVEAGDSRGEQNVIQLTGMVGSPDGEIVLKESAEGTDPEALGVEVAAKLKAKGAEKILAQVRG	PGPT0003660_1755	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
AK002_01515	1560	cysG_2		Siroheme synthase	ATGGCAGGCAAGGTTTATCTCGTGGGAGCAGGTCCGGGCGATGCGCGCCTGATTACGATCAAAGGCAAGGAATGCATTGAAAAAGCGGATGTCGTGGTGTATGACCGATTAGCCAGTCCTCGGTTGCTGCGCTGGATGAAACCCGGAGCAGAGAAGGTCTATGTGGGCAAGCTTCCGGATCGGCATACGATGAAACAGGAACAGATCAATCAACTGCTGGTGGATTATGCTTTGGAAGGCAAGACGGTGGTCCGGTTAAAGGGCGGCGATCCCACGATTTTCGGAAGAGTCGGCGAAGAAGCGGAGCTGTTATATCGTCATGGCATCATGTACGAGATCGTCCCGGGGATCACTTCGGCGATCAGCGTGCCGGCTTATGCAGGAATTCCGGTGACGCATCGCGATCATGCCTCATCCTTATCCATCATTACAGGACATGAAAGCCCCGAGAAGCTGGACCGCATGATTCAATGGGATAAGGTGACCCATGCGACGGGGACTTTGATTTTTATGATGGGCGTGGCGAAAATCGGTTATATCAGCCGTCAGCTGATGAAGCATGGAAGGCCTCCGGAAACGCCGGTGGCTTTAATAAGATGGGGAACCCGTGCTGAGCAGGATACGCTGACGGGGACGCTGGCAGATATCGAGAACAAGGTCAAGGCAGCGGATTTTCAGCCGCCTGCCGTCATCGTCGTTGGCGAGGTGGTGCTTCAGCGGGAGCACTTGAAGTGGGCGGAACGGCTGCCCCTGTTCGGCAAAAGGATTCTGGTCACGAGGGCCCGAAGCCAAGCCAGTTCATTGGTATCCCAAATCGAGGAGCTTGGCGGGGAGCCTTATGAGTTTCCCGTCATTGAAACGGTGATGCCCTCGAAGGGCGAGGGGCTTGCCGGAATTCGAGAAGCGCTGGACAAGCTGGGTACGTATGATTGGGTGTTCTTCACCAGCGTAAACGGCGTCGAGTTTTTCTTCCGCCACCTGAAGGAGCATGGACGCGATATTCGCTCCTTGGCCTCGGCACGCATCGTCGCGGTAGGTCCCGCAACAGCCGATGCTCTTGGGAATTACGGTATATCCGCCGAAGTGATCAAGGAGCGTTACCAGGCGGAGGGCCTTATCGATGCCTACGGTCCAGAGCTTCAGCCGGGCCAGCGCGTGCTGCTGCCTCGCGGCGATCTCGCGCGCAGATGGCTGCCGGAGAAGCTTATGGAAATGGGACTGCATGTGACGGAAGCCGTGATATACGAGAACGTGCTGTGCGGCGAGGACGATGATGAGCTGCTGAAGCTGCTTCAAGACGGCGGCATTCATGCGGTCACGTTCACCAGTTCTTCAACGGTTACCAATCTGCTGAAAGTGCTGAAGGGGATGGGCGTGGCAGAGCCTGCCCATCTGCTGAAGGAATCGACGATTGCTTGCATCGGACCGCTGACCGCGCAAACCGCGGAGGAAGCCGGACTCCACGTATCTCTCCTCGCTGAGGAAGCGACGGTCGACAGTCTGGTCAAGGCCTTGTGTGTTTGGAACGAGAACGATCCACGCCGTATAACGACGCCATAA	MAGKVYLVGAGPGDARLITIKGKECIEKADVVVYDRLASPRLLRWMKPGAEKVYVGKLPDRHTMKQEQINQLLVDYALEGKTVVRLKGGDPTIFGRVGEEAELLYRHGIMYEIVPGITSAISVPAYAGIPVTHRDHASSLSIITGHESPEKLDRMIQWDKVTHATGTLIFMMGVAKIGYISRQLMKHGRPPETPVALIRWGTRAEQDTLTGTLADIENKVKAADFQPPAVIVVGEVVLQREHLKWAERLPLFGKRILVTRARSQASSLVSQIEELGGEPYEFPVIETVMPSKGEGLAGIREALDKLGTYDWVFFTSVNGVEFFFRHLKEHGRDIRSLASARIVAVGPATADALGNYGISAEVIKERYQAEGLIDAYGPELQPGQRVLLPRGDLARRWLPEKLMEMGLHVTEAVIYENVLCGEDDDELLKLLQDGGIHAVTFTSSSTVTNLLKVLKGMGVAEPAHLLKESTIACIGPLTAQTAEEAGLHVSLLAEEATVDSLVKALCVWNENDPRRITTP	PGPT0003670_518	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003670-cobA_hemD-K13542	NA	NA
AK002_01516	999	hemB		Delta-aminolevulinic acid dehydratase	ATGAGTTTTCCAATCGTACGCCATCGCCGGCTGCGTCAAAATGCCGGCATTCGCAGCATGGTCCGGGAGACCGTGCTTCATACGGAGGATCTGGTTCAGCCGATCTTCGTTACCTATGGCAGCGGTGTGAAATCCGAAATTTCCTCGATGCCGGGCGTATATCATTTTTCGCTGGATACCTTGAAGGAAGAAGTGGACGAAATCGTAAATCTAGGCATTCCGGCCGTGCTCCTGTTCGGGATTCCTGAGACAAAAGACAGCGTAGGCACGTCCGGTTTCGCGGATGACGGGATCGTCCAAGAGGCCACCCGCCTCATTAAGTCGTGGCATCCCGATCTTCTGGTCATTGCGGACACGTGCCTGTGCGAATTCACCGACCACGGCCACTGCGGCATGGTCCATACCTTCGAGCGTGACGGTCACACCTGCGGCGACGTATTAAACGACGAGTCGCTGGAGCTGCTCGTTCGCACGGCGGTCTCCCAGGCGAAAGCGGGAGCCGATATCATCGCACCTTCCAATATGATGGACGGCTTTGTCCAAGCCATTCGTTCCGGACTCGATGAAGCCGGATTTTATAATGTGCCGATCATGTCGTATTCGGTTAAGTACGCTTCGGCTTTTTACGGTCCATTCCGCGAAGCCGCAGACTCCGCTCCGCAGTTCGGCGACCGCAAAACCTATCAAATGGATCCGGCTAACGTAAGGGAAGCGCTCCGCGAAGCGGAGACGGACGTGCTGGAAGGCGCGGATATGCTGATGGTGAAGCCGGCGATGGCTTACCTCGACGTTGTCCGATTGCTGAGAGACCAGTTTGATCTGCCGATCGTCGCTTATAACGTGAGCGGCGAGTATTCCATGATCAAGGCGGCGGCTCAGCAGGGATGGATCAGTGAGCAGGCGATCGTGATGGAGCTGCTGACGGGGATGAAGCGTGCAGGTGCGGACATTATCATTACGTATTTCTCGAAGGATGCGGCACGCTGGATGCGCGGCTAG	MSFPIVRHRRLRQNAGIRSMVRETVLHTEDLVQPIFVTYGSGVKSEISSMPGVYHFSLDTLKEEVDEIVNLGIPAVLLFGIPETKDSVGTSGFADDGIVQEATRLIKSWHPDLLVIADTCLCEFTDHGHCGMVHTFERDGHTCGDVLNDESLELLVRTAVSQAKAGADIIAPSNMMDGFVQAIRSGLDEAGFYNVPIMSYSVKYASAFYGPFREAADSAPQFGDRKTYQMDPANVREALREAETDVLEGADMLMVKPAMAYLDVVRLLRDQFDLPIVAYNVSGEYSMIKAAAQQGWISEQAIVMELLTGMKRAGADIIITYFSKDAARWMRG	PGPT0003655_2257	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
AK002_01517	1296	hemL	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAGCCAAGATTTGCGAAAAGAAGAGTTGTCGCGTTCTGCTTTCGAAGAAGCGAAGTTATATATCCCGGGCGGCGTCAACAGTCCGGTACGTGCATTTAAATCTGTAGGACTCACGCCGATTTATATCGATCGCGGAGAAGGCAGCCGGGTATACGACATCGACGGCAACAGCTTTATCGATTATGTAGGTTCCTGGGGACCGCTGATTATGGGCCACGCACACCCTGAAGTCGTTGAAGCGCTTCAGGAGACCGCTGCCAAAGGGACCAGCTTCGGCGCGCCAACCCTGCTCGAAACGAAGATGGCGAAGCTCGTGTGCGAGCGCGTGCCGTCGATCGAGGTGGTGCGAATGGTGAATTCCGGCACGGAAGCCACCATGAGTGCCATCCGGCTGGCGCGTGGTTATACCGGACGCAGCAAAATCATCAAATTCGAGGGCTCCTACCACGGTCACGCGGACAGCCTTCTGATCAAGGCGGGATCCGGCATCGCGACACTGGGCCTGCCTGACAGCCCGGGCGTGCCTGAAAGCGTGGCGTCCAACACCATTGCGGTTCCTTACAACGACCTGGAATCGGTACAGCTTGCCTTCGAGCGTTTCGGCGAAGAGATCGCGGCCGTCATCGTTGAGCCGGTGGCAGGGAATATGGGCGTGGTTCCGCCGCAGCCAGGATTCCTGGAAGGCCTGCGCAAGGTCACTTCCGATTATGGGAGCATCCTTATTTTTGACGAGGTGATGACCGGATTCCGGGTAGACCTCAACTGCGCTCAGGGACGTTACGGCGTTACGCCTGACTTGACATGCCTGGGCAAGGTGATCGGCGGCGGGTTGCCGGTCGGCGCATATGGAGGCAAGCGTGAGCTGATGGATCAGATCGCTCCGGCAGGACCGATCTACCAGGCGGGAACGTTAAGCGGAAATCCGCTGGCCATGGCAGCCGGATACACCACTCTGAAGCTGTTGACGCCTGCCGTTTATGAACAGCTGGAGGAACGGGGAGCCCGCCTTCAGGCAGGATTCGAGCAGAGCGCCAAGGAATTCGGCATCCCGCTTACGATCAACCGGATCGGATCCATGGTCTGCCCATTCTTCACGAATACGCCGGTCGTGAATTTCGATACGGCCAAGACGAGTGACCTGGACCGCTTCCGCCGCTATTTTGCGGCGATGGTGCAGGAGGGAGTCAGCGTGCCTCCTTCCCAATTCGAGGGCATGTTCATCTCGGCGGCCCATACGGTGGAAGATATCGATGCTACCATCGAAGCCAATTACAACGCCTTCAAAAGCCTATGA	MSQDLRKEELSRSAFEEAKLYIPGGVNSPVRAFKSVGLTPIYIDRGEGSRVYDIDGNSFIDYVGSWGPLIMGHAHPEVVEALQETAAKGTSFGAPTLLETKMAKLVCERVPSIEVVRMVNSGTEATMSAIRLARGYTGRSKIIKFEGSYHGHADSLLIKAGSGIATLGLPDSPGVPESVASNTIAVPYNDLESVQLAFERFGEEIAAVIVEPVAGNMGVVPPQPGFLEGLRKVTSDYGSILIFDEVMTGFRVDLNCAQGRYGVTPDLTCLGKVIGGGLPVGAYGGKRELMDQIAPAGPIYQAGTLSGNPLAMAAGYTTLKLLTPAVYEQLEERGARLQAGFEQSAKEFGIPLTINRIGSMVCPFFTNTPVVNFDTAKTSDLDRFRRYFAAMVQEGVSVPPSQFEGMFISAAHTVEDIDATIEANYNAFKSL	PGPT0003680_2753	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
AK002_01518	909			hypothetical protein	ATGAGCTACGGGGGCAGCTGGAGTAAGCGCGGCGAATGGCTCGAGATGACGCCCGGCAAGGCGCTGTTGGGCCAGCCGGATCGGGACGAGGCCGCCGCCAAGTGGCTTCTGGAAACGGTCGGTATGCCCGAGAAGCTGTATCGCAAGCTTCGTCATGAGCAGGGGATACAATGGAGAGGGGACCGGCTTCGGCTGGTCCTTTTTCCTTATCGGGAATACGGCATCGAACCGAGGTGGCAGGAGCTTCAGGTGTTGTACGAGGACGATTTCTGCCTGGTCGTGAACAAACCGGCCGGCATGGCGGTCCATCCGGACAACGAAAGCCGGGAGACAACGCTGAATCATGTCGTGGCCGCCTATTACGAAGCAGAGGGGGTTCACGCGGCAGTCCGGCATATCCATCGGCTGGATAAAGATACGACGGGGCCCGTGCTGTATGCCAAGAACGAATATGCGCAGCTGAAGCTGGACGAGGCCATGCGCGAGAAGAAGATCGTTCGAATGTATGCGGCTATCGTTCAAGGGAGGGTATCGCAGGAGCTGAAGCGAATCGATCTGCCGATCGGCAAGGACCGCTATCACGCAAGCCGCCGGAGGGTTTCATTAACGGGGCAGGCCGCGATCACGCATATTCTCTCAGCCGAAGCTTATCCGAAAGCCAGTCTGCTGCACATTCGCCTTGAAACCGGCCGTACGCATCAGATCCGGGTCCATCTAAGCCATATGGGACATCCGCTTCTGGGGGATGTTTTGTACGGGGGACCAGGGACGTTTGCGCGCCAAGCGCTGCATGGCGAACGCCTGTTGTTCCATCATCCATTTACGGGCGAGAGCATTGACGTGCCGGCACCGTGGCCTCAGGATATGATGGAGTTACGAGAACGAATCATAGAGGGAGCGAACCGATAG	MSYGGSWSKRGEWLEMTPGKALLGQPDRDEAAAKWLLETVGMPEKLYRKLRHEQGIQWRGDRLRLVLFPYREYGIEPRWQELQVLYEDDFCLVVNKPAGMAVHPDNESRETTLNHVVAAYYEAEGVHAAVRHIHRLDKDTTGPVLYAKNEYAQLKLDEAMREKKIVRMYAAIVQGRVSQELKRIDLPIGKDRYHASRRRVSLTGQAAITHILSAEAYPKASLLHIRLETGRTHQIRVHLSHMGHPLLGDVLYGGPGTFARQALHGERLLFHHPFTGESIDVPAPWPQDMMELRERIIEGANR				NA	NA	NA	NA	NA
AK002_01519	1353			hypothetical protein	GTGTTTGACCAGTCCTACGGATTGCGGTTCGATATTTACGAGCGTATTAATTTGACGGAAGATTTGCCGGGAATCGAAGAATTGGAAGAGGCGGAGTTGATCCCGCACATTCAGGTGATCAGCCAGCAGGACCAGGCCACGCTTCGGGGCCATCTGCTTCTAGCAGGCCTGTATAAAGGGGATACCGAAGCAGGAGAGACGGAGCCGCTAGAACATTGGATTCCGGTCGAGATCACGGTACCGCTGAACCGGGTATCGTCATTGGATGACATCGCGGTCGAGATCGAGAATTTTGACGTGGATCTGTTATCCAAGCGCAGCTTGAACATAACGGGGGTTTTATCGCTCAAAGGAATCCAGGCGGCGGCTCCGGGAGCTCGTGACCAAGTATGGACCAATGAGGAATTCACAGTGGTACATGCTCCTGAAGCGAATGATATGTATGCAGGCGGAGAGCAGCAGCAGTTCGCAGCCAATCCGTATGAGCCGTATCAAGGCGTCGGAGCCAACGCTGACGCGAATACGCCTTCGCCTTCTTATTTCAGCGAGGCTCAGCCCAGAGTCCAAGAGTCCGAGGCGGATGCGCGCACGCAGCAGTATCTGGCATCTTGGGCGGAATACGAGAACCAAATTCAGGATACGCAGGATTCGGACCGAACGGTAAGCATCTCCAATACGCCTGAAGCCCAGGATACGGTCGAATACGCCTTACATAATGAGACGGAATCTCAGTCAGCTGAGCCGTCGACTCCGAATGTATGGCAGTTCGAACGGGCAGCGGCCCAGCCGGAGCCGCAGCAGGAAGAACCCGCAGCCGATTTCCCGGGCGTTACTGAGCGCAAAGGCGAAGAGACTCAAGCCCTGCCGGTATTGGATTCCCCGGAAACGGAGGAAGCCCAGCCTGTTTTTGAAGAGGAAGCCGAGCCCTTGGAGGAGATAGAGGAGGAGGTTTCCGTTCAAGCCGAAGAGGCTCCGTCCAAACCGGAGCTGAAGGTTGCCTTCAACGCGAAGAACAGCACCGCCAACACCGCTTCGGGCGTAGGCTTCTCTTCATTGCTTCAATCGAGCAGAACGGTTCAGGATCAGGATCAAGCTGCTCGAGACGAGGAAGAGGCCATTGAAGAATCCGTGGATTCCGTTTCGGCCGAGGATGTGGAATGGAAGAGTCTGTTCCTAGGCAACCGCCGCGAGGAAACGCCGTTCCGCAAGGTTCGGATGTGCATTGTTCAGCGTGAGGAGACTCTCGACGTTATTGCCGAGCGCTATCAGCTGACGCCGCGAGAGCTGTTGTTGTATAACCGCATGTCCGAGCAGAATGTGGAAGAAGGCCAGGTATTGTATATTCCCCAGTAA	MFDQSYGLRFDIYERINLTEDLPGIEELEEAELIPHIQVISQQDQATLRGHLLLAGLYKGDTEAGETEPLEHWIPVEITVPLNRVSSLDDIAVEIENFDVDLLSKRSLNITGVLSLKGIQAAAPGARDQVWTNEEFTVVHAPEANDMYAGGEQQQFAANPYEPYQGVGANADANTPSPSYFSEAQPRVQESEADARTQQYLASWAEYENQIQDTQDSDRTVSISNTPEAQDTVEYALHNETESQSAEPSTPNVWQFERAAAQPEPQQEEPAADFPGVTERKGEETQALPVLDSPETEEAQPVFEEEAEPLEEIEEEVSVQAEEAPSKPELKVAFNAKNSTANTASGVGFSSLLQSSRTVQDQDQAARDEEEAIEESVDSVSAEDVEWKSLFLGNRREETPFRKVRMCIVQREETLDVIAERYQLTPRELLLYNRMSEQNVEEGQVLYIPQ	PGPT0024855_88	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_VI_SPORULATION,PGPT0024855-spoVID-K06417	NA	NA
AK002_01521	2670	valS	COG0525	Valine--tRNA ligase	ATGGATCAAAAACAAAACCAATCCCAGTTAGAAATGCCGACGACGTATGATCCGAAGGCAGCCGAACAAAAATGGTATCCGTACTGGAAGGAAGGCGGCTTTTTTGAAGCCGGCAAGCGACCGGACGCGGAGCCTTACACGATTGTTATTCCTCCTCCTAACGTTACGGGCATGCTCCATATCGGCCATGCGCTTGACTTTACGCTGCAGGACATCCTGATTCGCGTGAAGCGGATGCAGGGCTACGATGCGCTGTGGCTCCCCGGTTCCGACCATGCGGGCATCGCCACGCAGACCAAGGTAGAGCAGAAGCTTCGCGAAGAAGGCGTTACCCGTTACGATCTGGGACGCGAGAAATTCCTGGAGAAGGTGTGGGAATGGAAGGACCTGTACGCAAACACGATCCGTGATCAGTGGTCCAAGATCGGCCTGTCCCTCGATTACTCCAGAGAACGTTTCACGCTTGACGAGGGATTGTCCGAAGCCGTACGGGAAGTATTCGTTAAGCTTTACGATAAAGGGCTCATCTACCGCGGCAAACGCATCATCAACTGGGACCCGGCTGCCCGCACGGCTTTGTCCGATATTGAAGTGGAGTACAAAGAGGTCAACGGCCATTTGTATCACCTGCAATATCCGCTGAAGGACGGCAGCGGCTCCATTACCGTGGCAACCACCCGTCCGGAGACCATGCTCGGCGATACGGCGGTCGCCGTTCATCCGGAAGACGAGCGCTATAAAGACATGATCGGCAAGACATTGGTGCTGCCTATCGTGGGCCGCGAGATTCCGGTTATTGCCGATGAGTACGTGGAGAAGGACTTCGGCAGCGGTGCGGTTAAAATTACGCCGGCGCATGATCCGAACGACTTCGAGATGGGTCTGAGACATGACCTGCCGCAAATTACCGTAATGGACGAATCCGGAACGATGAATGAGTTTGCCGGCAAGTACCAGGGTCTTGACCGCGCAGAATGCCGCAAGCAGATCGTCGGCGACATGAAGGAATCGGGCGTATTGCTTCGCATCGAAGATCACGTCCATCAGGTTGGCCATAGCGAAAGATCCGGCGCGGTAGTCGAGCCTTATCTGTCAACGCAGTGGTTCGTTAAGATGCAGCCGCTTGCGGAAGCAGCCGTAGATGCGCAGAAATCCGGCAAGGGCGTGAACTTCGTGCCTGACCGGTTCGAGCGAACCTATCTGCACTGGATGGAGAATGTGCGCGATTGGTGCATTTCCCGTCAATTGTGGTGGGGACACCGGATCCCCGCGTGGTATTCCGAATCCACGGGCGAAGTGGTTGTTGCCATGAATGAAGAGGAAGCCCGCGCGAAGCTGGGCAAGGATGATCTGAGACAGGACGAGGATGTGCTGGATACCTGGTTCAGCTCCGCGCTCTGGCCGTTCTCGACCATGGGCTGGCCGGACCTTGACAGTGAGGATTTCAAACGTTATTATCCGACCAGCGTTCTCGTAACGGGTTACGACATCATCCCGTTCTGGGTGTCGCGCATGATTTTCCAAGGACTTGAATTTACGGGGCAAATGCCGTTCAAGGACACGCTGATCCATGGCCTGGTTCGGGATAGCGAAGGCCGCAAGATGTCCAAGTCGCTGGGCAACGGCATCGACCCGCTCGAGGTGATTGAACAGTATGGCGCAGACGCTATGCGTTATATGATATCGACCGGCAGCACGCCGGGTCAGGATCTTCGATTCCGCTGGGAACGCGTGGAGCAAGCGCGTAACTTCGCTAATAAAATCTGGAATGCGTCGCGGTTTGCGCTCATGAACCTGGAGGGCTTCACGGCGGCGGATATCGACATTTCCGGAGAGCTGGGAACCGCGGACCGGTGGATTTTGCACCGTTTGAACGAAACTTCCCGCGATATAACGCGTCTAATTGATGCCTACGAATTTGGCGAAACCGGTCGACTGCTCTACAATTTCATCTGGGATGATCTGTGTGACTGGTATATCGAATTTGCCAAGCTGTCCCTGTATGGCGAGGATCAAGCAGCCAAGAAAAAGACGCAGTCGGTGCTTGCCTATGTGCTGGACCGCACGATGCGCTTGATCCACCCGTTCATGCCGTTCATCTCCGAAGAGATCTGGCAGCATTTGCCGCATGAAGGCGAGACCGTCATGCTGGCTTCTTGGCCGACCTATGATGAGGCGTTTGAGAATACGGAAGCTGTTACCGAAATGAACCTGCTGATGGATGTGATCCGTGCCGTACGTAACATCCGGGCGGAAGTGAACGTGCCGATGAGCAAAAAAGTAGAACTGCAATTGAAACCGGTAAGCGGGCAAATTGCCGGCATTATCGACCGCAATTCCGATTATATTCGCCGCTTCTGCAACACGTCGGAGTATGAGTCCTCCCTTGCGCTTGAGGCGCCGGATAAAGCGATGACCGCCGTGGTAACAGGCGTTGAAATGTATCTGCCGCTTGCCGGGCTGATCGATATCGCTCAGGAGATCACGCGTCTGGAGAAGGAAATCCAGCACTTGAACAGCGAAGTCGAGCGTGTGGAGAAGAAGCTGAACAATCCTGGTTTCGTATCGAAAGCACCCGAGAAGGTGATTGAGGAAGAACGGGCGAAACTCGCGGATTACTCGGACAAACGCAGCAAAGTGATTGCGCGCATCGAAGAATTGAGAGGCTAA	MDQKQNQSQLEMPTTYDPKAAEQKWYPYWKEGGFFEAGKRPDAEPYTIVIPPPNVTGMLHIGHALDFTLQDILIRVKRMQGYDALWLPGSDHAGIATQTKVEQKLREEGVTRYDLGREKFLEKVWEWKDLYANTIRDQWSKIGLSLDYSRERFTLDEGLSEAVREVFVKLYDKGLIYRGKRIINWDPAARTALSDIEVEYKEVNGHLYHLQYPLKDGSGSITVATTRPETMLGDTAVAVHPEDERYKDMIGKTLVLPIVGREIPVIADEYVEKDFGSGAVKITPAHDPNDFEMGLRHDLPQITVMDESGTMNEFAGKYQGLDRAECRKQIVGDMKESGVLLRIEDHVHQVGHSERSGAVVEPYLSTQWFVKMQPLAEAAVDAQKSGKGVNFVPDRFERTYLHWMENVRDWCISRQLWWGHRIPAWYSESTGEVVVAMNEEEARAKLGKDDLRQDEDVLDTWFSSALWPFSTMGWPDLDSEDFKRYYPTSVLVTGYDIIPFWVSRMIFQGLEFTGQMPFKDTLIHGLVRDSEGRKMSKSLGNGIDPLEVIEQYGADAMRYMISTGSTPGQDLRFRWERVEQARNFANKIWNASRFALMNLEGFTAADIDISGELGTADRWILHRLNETSRDITRLIDAYEFGETGRLLYNFIWDDLCDWYIEFAKLSLYGEDQAAKKKTQSVLAYVLDRTMRLIHPFMPFISEEIWQHLPHEGETVMLASWPTYDEAFENTEAVTEMNLLMDVIRAVRNIRAEVNVPMSKKVELQLKPVSGQIAGIIDRNSDYIRRFCNTSEYESSLALEAPDKAMTAVVTGVEMYLPLAGLIDIAQEITRLEKEIQHLNSEVERVEKKLNNPGFVSKAPEKVIEEERAKLADYSDKRSKVIARIEELRG				NA	NA	NA	NA	NA
AK002_01522	1404	fpgS		Folylpolyglutamate synthase	ATGAATCTGGACCAGAAGGTGAGAACGATGGTTGATCAATCGGCAGCTGCAGCGGCAGCTCCGTTCCATACCTATGAGGAAGCGGTAGCTTGGATCAATGGGCTGATTCCGTTTGGGATCCGCCCTGGCATGGATAGAATTCAGCGATTGATGGAGCTGCTCGGCCATCCGGAGCGTCGATTAAAATTCATTCACGTGGCCGGAACGAACGGAAAAGGCTCCACATGCGCTTTTTTAACAAAGGTTCTGCTTCAAGGGGGATTCACGGTAGGAACCTACACGTCCCCCTATATTACGAAGTTTACCAATCGGTTTCAGTATAACGGCGAAGACATACCGGAAGAGACGCTGCTGGAACTCGCGAATCGCTTAGAGCCGCTTGTTGCCGAAGTTGCGGGCTCCGGGCTTGGATCGCCCACGATGTTTGAGGTGTCCACGGCTCTTGCGATCCTGTATTACGGCGAGGTGTCTTATCCGGACGTGGTGGTATGGGAGACCGGACTTGGCGGTCGTCTTGACGTTACCAATATCGTTCATCCCATCATTTCGGTGATCACGAACATCGGCATGGACCATACCGACGTTCTGGGCGATACCATTCAGGAGATCGCCATGGAGAAGGCCGGCATCATCAAGCCCGGAGTGCCGGTAGTGAGCACGGTCACTCAGCCTGAGGCTGTCGACATTCTGAAAGAAACGGCCGCCAAAAACCGTACTAGTCTGTACCTTGTAGACGAACAATTCTCTTATGAACGGCTGCGCGGGGACGAAGAAAGCCAGACTTTCCGTTTTAAGGGACCGTTCCGGGATATGGATCTGGATATTTCGATGCAGGGCGAGCATCAATGCGCCAATGCCGCGGTTGCCATGATGACGCTGGAGGTGCTTCGCCAGTACATGGCTTTTATCGTGGATGAAGAAGAATTGCGTGCCGGGTTTAAGGATACGTTCTGGGCGGGAAGACTGGAGCAAGTGCAGTCCTCCCCGCGGATTGTTCTCGATGGCGCGCACAACCCCGAAGGGGCTGAATCCTTGGCCAAAAGCTTGCCGCAGATCTATAAGTATCGGAAACTGAACTTAATGATGGGAATGCTGGCAAATAAGCATCATGAATCGTATTTGCAGCATATACTGCCAATAGTGGATACGCTTATCCTGACTGAACCGGATTTCCGGAAGAAACTGGACGCCAAGGCGCTTGGTGACATCGTAGAGCAGGTAAGGGAGAAATACGCCAAACATACACTGCAAATCATCATAGAACCAAATTGGAAAAACGCACTTGAAGAGTTGAAGTCACGGACGGAAGCGGAGGATCTTGGGGTGGTGTCGGGCACGTTGTACCTGATTGCCGACGTGCGTTCCAACCTCCTGGGCCTTTCCGATTCTGAAAAAGGTTGGTGA	MNLDQKVRTMVDQSAAAAAAPFHTYEEAVAWINGLIPFGIRPGMDRIQRLMELLGHPERRLKFIHVAGTNGKGSTCAFLTKVLLQGGFTVGTYTSPYITKFTNRFQYNGEDIPEETLLELANRLEPLVAEVAGSGLGSPTMFEVSTALAILYYGEVSYPDVVVWETGLGGRLDVTNIVHPIISVITNIGMDHTDVLGDTIQEIAMEKAGIIKPGVPVVSTVTQPEAVDILKETAAKNRTSLYLVDEQFSYERLRGDEESQTFRFKGPFRDMDLDISMQGEHQCANAAVAMMTLEVLRQYMAFIVDEEELRAGFKDTFWAGRLEQVQSSPRIVLDGAHNPEGAESLAKSLPQIYKYRKLNLMMGMLANKHHESYLQHILPIVDTLILTEPDFRKKLDAKALGDIVEQVREKYAKHTLQIIIEPNWKNALEELKSRTEAEDLGVVSGTLYLIADVRSNLLGLSDSEKGW	PGPT0007975_602	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
AK002_01523	1329	murC	COG0773	UDP-N-acetylmuramate--L-alanine ligase	ATGAGCGCCATAGCGCGAGTAATGCTGGAGATGGGTTATAAAGTCACGGGTTCTGACGTGGCATCGCAAGAATTGACAGAAAAGCTGGCGGCCAAGGGCGCCAAAATATACATTGGACATACCGCCGAGCAAGTCCAAGGCGCGGACCTTGTGGTGTACTCCACGGCATTGTCCAAAGACAACGTGGAGCGGGTCGAGGCAGAGAAGCTGAACATTCCTGTCCTTCACCGTGCGCAGATGCTGGCGCGTCTTTTGAACGAACGCAAAGGCGTGGCCGTAGCGGGAGCGCATGGCAAGACAACCACTTCATCCATGATTGCGCTCGTGATGGAAGAATGCGGAGTCGATCCGACATTTATCATCGGCGGGGAAATTATGAACGTGGGCACGAATGCCAAAGCGGGCGAAGGCGAGCATGTGGTAGCCGAAGCCGACGAGAGCGATGGTTCATTCCTGCAATATCATCCATGGCTCGGCGTCGTTCTGAATATCGAAGCCGATCACCTGGAGAATTACGAAGGGGATTTCAATCGTCTCAAGGCAGCCTACGTGCAATTCCTCAGCCAGATCAAGGCTGACGGTACGGCCGTGGTGTGCGCCGACGATAACAACATTCAGGCGATTTTGCCAGACCTGAAATGCAATGTGACCACATACGGCATTCATGCGGATGCGGAGTATACGGCAACCAATCTGGTGCTGGGCGACCGTCACGTCAGCTTCACGATGCTTCATAACGGCATGGAGCTGGGCACCGTCGAGCTGTCCGTACCGGGTAAACATAATGTCTACAACGCCATGGCCACGGTCATATGCTGCTTGAAGAGCGGCATCTCGTTCGAGGCGATTGTAGAGGCCATCGTCAAGTTCAACGGGGCTAAGCGCCGCTTTCAGGTGCTTGGCGAAGCTGAAGGCATTCTGGTCATTGACGACTATGCGCATCATCCGACCGAGATCGAGGCGACGATCAGTGCCGCAAAAGCTACGGGCAAACGGATTATTGCGGTGTTCCAGCCGCAGCGGTATTCGAGAACCTTCTTCCTGCTGGATGCGTTTAGCCGCGCGTTCGGGGAAGCGGATGAGGTGATCATCACCGATATTTACTCCCCTGCCGGCGAGAAGCAGATCGAGGGCATCAGCTCGGGTAAGCTGGTGGAGCTGATCGTCCAGAACAGCAATGCCGGTGCCCGCTATTTGCCTACCAAGGAAGATGTCCTGAACGATCTCAAGGGTCGCGTAAAAGAAGGCGACCTGGTTCTCACGATGGGAGCGGGCGACATCTGGAAGGTCGGCGCGGCTTTAGCCGAGTTCATTAAGGGCAAGAAATAA	MSAIARVMLEMGYKVTGSDVASQELTEKLAAKGAKIYIGHTAEQVQGADLVVYSTALSKDNVERVEAEKLNIPVLHRAQMLARLLNERKGVAVAGAHGKTTTSSMIALVMEECGVDPTFIIGGEIMNVGTNAKAGEGEHVVAEADESDGSFLQYHPWLGVVLNIEADHLENYEGDFNRLKAAYVQFLSQIKADGTAVVCADDNNIQAILPDLKCNVTTYGIHADAEYTATNLVLGDRHVSFTMLHNGMELGTVELSVPGKHNVYNAMATVICCLKSGISFEAIVEAIVKFNGAKRRFQVLGEAEGILVIDDYAHHPTEIEATISAAKATGKRIIAVFQPQRYSRTFFLLDAFSRAFGEADEVIITDIYSPAGEKQIEGISSGKLVELIVQNSNAGARYLPTKEDVLNDLKGRVKEGDLVLTMGAGDIWKVGAALAEFIKGKK	PGPT0024120_3634	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
AK002_01524	1386			hypothetical protein	ATGAATAAAGCACGGATGACGATACGTATCGATCACGAACCGCCGAAGGGCAGGAACAAGGACCATGCGCGCGAGGAACACGATGCGAACCAAAACGTTCCAGCGGGCCACAACCCCCGGGTTTATGACCATCATTCCGTCTTCGACGAATATGACACAGCGGCAGCCAATCGGTTTACCGATACGGATGCTTCGTACGAACCTCAGAGGAGCATTCAGCAGGATCATCTGCGCGTCGTTACGCCGCTCCGGGCAGAGCGGGATATCCGGGACGTGGACGATCGTGACTGGAGAACATCGCGCAATCATCGGTCCAGGGGACGGTTAGCTGAGGAAAGAAGACGCCTGGACCATGATAACGGTCGGCCGTACGGCGATGCCCCTGAACATTCGGATACATACCAAGACGTGCATGAGGAGCTCTACGACCTCCATGATGATGCGTTTTCCGGGAGAATGACCCCCGAAGCGAACGACCCCCATTGGAATCTCGGGTCCGAGTCGGATCTATATGAGACATCCGCCGGCGATTACGGTTATTATCGCTCACGCAAACCCACCTCCTTCTGGAAGATGGCGGTGTCCGTGACCGCTGCCGTCATCACGGGCCTGCTGTTCGGGTACATGGTGCTGTCCATGTTTAACGGCGGCGACGCAGGCGAGAACCCGGCAACGGGACAGCTCGAGAGCAGTGATGCAGGGAACTTAGCGCCGACCGATCCATCCGGGGGAGCCGAGGCATCACCGACGCCTGATATGACCGAATCGGCTGTTCATATTCCGGGGCAGAACTTTTATCTGCTTCAATACGGCGTGTTCAGCACGCCCGAGCGGGCAGTGCAGGCGATCGGGGAACTGCAGCAATCCGGTATTGCCGCCGGCGGCGATCTGGACGAGGAGAACCGTGTGTATGCGGGCATCTCGCCTGACCGCGAGCAGGCGAAGCTGCTCAGCAATCAGCTTAAGGCCGAAGGCGTTGAATTATACGTTAGAGAGATCGCGCTGCCGAGCATCGAGTCAGCGGCATTTGCTGGCGAGGAGCAGACGCTGACGGACTATTTTACGATAAGCGGGCAGCTGGTATCGGAGCTTAGCCAGCTATCGGCATCCTTGCTGGGCATGCAGGAGCCCGGCGCGGTGACGACGGAGCATATGAATACCATCACGAATCTGCATCAGCAGTGGATCCAATCGGTCAAGCAGCTGGCCGCAGGCTTGGGTCCGGAGACCGGGGCCGCGCTGCCGGCCATGGAGCAGTCGATGAACAGTTCGATCACGGCGCTCTCCGAATACAACAAAAATCAATCCAAGGGGCATTTGTGGGAGATCCAAACAGGCATGATGAACTATGTCATGGGCCAAAAGAAACTCCTGGATGGCCTATAA	MNKARMTIRIDHEPPKGRNKDHAREEHDANQNVPAGHNPRVYDHHSVFDEYDTAAANRFTDTDASYEPQRSIQQDHLRVVTPLRAERDIRDVDDRDWRTSRNHRSRGRLAEERRRLDHDNGRPYGDAPEHSDTYQDVHEELYDLHDDAFSGRMTPEANDPHWNLGSESDLYETSAGDYGYYRSRKPTSFWKMAVSVTAAVITGLLFGYMVLSMFNGGDAGENPATGQLESSDAGNLAPTDPSGGAEASPTPDMTESAVHIPGQNFYLLQYGVFSTPERAVQAIGELQQSGIAAGGDLDEENRVYAGISPDREQAKLLSNQLKAEGVELYVREIALPSIESAAFAGEEQTLTDYFTISGQLVSELSQLSASLLGMQEPGAVTTEHMNTITNLHQQWIQSVKQLAAGLGPETGAALPAMEQSMNSSITALSEYNKNQSKGHLWEIQTGMMNYVMGQKKLLDGL	PGPT0024665_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024665-spoIIB-K06380	NA	NA
AK002_01525	243			hypothetical protein	ATGAAGAAAAATAAAGGAATGCTCATCTTGTTTTTGCTGCTGGGGTGGCTGACGGGAACATGGCTTGCCAAGGCGCTTCAACCTGTCAAGGCTCTGTCGTTTCTGACGTCTTCTACACCGATCAAGTGGTCGCCTTCAGCTGATTTTGACATTATTCGTTATGACATTAACCTTGAACTTAACTTTTGCCTGCTCAGTCTGCTCGGCATAATTGCTGCCGTCTGGTTATACCGCAGGCTCTAA	MKKNKGMLILFLLLGWLTGTWLAKALQPVKALSFLTSSTPIKWSPSADFDIIRYDINLELNFCLLSLLGIIAAVWLYRRL				NA	NA	NA	NA	NA
AK002_01526	612	maf	COG0424	dTTP/UTP pyrophosphatase	TTGAATGAGAAGAGAAACCGCCGCATCATATTGGCTTCCACCTCTCCTCGGCGTCAGGAATTGATTGCCTCCCTTCGTATCCCATTCGAGATTATGCCTAGTGAAGCTGACGAGGACACGCCGCAAGGGTGGTCGCCAGAGCGAATTGTGGAGTCACTGGCGCTGCGCAAAGCGGAAGCGGTTCTTCGAAAGCTGACGGATGATCCGGGAGATGGTATCATTGTGGGAAGCGACACGATTGTGGTCGTAGATGACCATGTCCTCGGGAAACCGGAGAATCACGCTGACGCTGCAAGGATGTTGTCCATGCTTCAAGGACGGGCACACTTCGTTTACACGGGAGTGGCTTGCATCGACCGGAGTTCCGGTCGCGCCAAGGTATCTCACCGCGTGACGACCGTAAAGATGAAATCGTTAAGTGATGATGCGATCGCGGCTTACGTAAAGAGCGGGGAACCTGCCGACAAAGCAGGCTCGTATGCGATTCAAGGCCTGGGTGCAACCATCGTGGAAGGAATCGAAGGCGACTACTTTAACGTTGTCGGCCTGCCGCTTTCTCTGCTCTCGGACATGCTGTCTGAAATGGGGATGGATGTACTCACCGATTCATAG	MNEKRNRRIILASTSPRRQELIASLRIPFEIMPSEADEDTPQGWSPERIVESLALRKAEAVLRKLTDDPGDGIIVGSDTIVVVDDHVLGKPENHADAARMLSMLQGRAHFVYTGVACIDRSSGRAKVSHRVTTVKMKSLSDDAIAAYVKSGEPADKAGSYAIQGLGATIVEGIEGDYFNVVGLPLSLLSDMLSEMGMDVLTDS				NA	NA	NA	NA	NA
AK002_01527	690			hypothetical protein	ATGGAGTCGCCAACGCTATTGCTGCGCGACATCCCCCATGATGAACGACCAAGAGAGCGCATGATGCAATATGGGGCGAGCGCTTTAAGCCATGCAGAATTGCTGGCGATACTGCTTCGGACCGGTACCCGCCAGGAATCTGCCGTACATATAGCCCAGCGGCTGCTGGGGGAAGCAGGCGGCATCCGGCAGCTCGTTGATCTTAGCATCGAGGAAATTACGCAAATCAAAGGAATTGGAACCGCCAAGGCTGTTCAGCTGAAGGCTGGCATCGAGCTTGGACGGCGCTTGGCCGCATCGAGACATGTAGAGCCGGTTATTATCCGCAGTCCGCATGACGCGGCAGAACTGCTCAGTGAACAGATGCGGTATTTACAGAAAGAGCATTTTGTCTGTGTTTTTTTAAATACGAAAAATCATGTCATTGCCCAGGAAACGCTATCGATGGGGAGCCTTAACGCCTCCATCGTTCATCCCCGCGAGGTGTTCAGAGCGGCCATCAAATGCAGCAGTGCATCCCTGGTGTGCGCGCATAACCATCCTAGCGGAGATCCGACGCCCAGCCCGGAGGACATTTCGCTGACTGCACGCTTAGTGGAGGCAGGACAGATTGTCGGGATCGACGTGCTGGATCATCTGATCATCGGGGACGGATCGTTTGTAAGTTTGAAGGAACGGGGCTTGATGTAA	MESPTLLLRDIPHDERPRERMMQYGASALSHAELLAILLRTGTRQESAVHIAQRLLGEAGGIRQLVDLSIEEITQIKGIGTAKAVQLKAGIELGRRLAASRHVEPVIIRSPHDAAELLSEQMRYLQKEHFVCVFLNTKNHVIAQETLSMGSLNASIVHPREVFRAAIKCSSASLVCAHNHPSGDPTPSPEDISLTARLVEAGQIVGIDVLDHLIIGDGSFVSLKERGLM				NA	NA	NA	NA	NA
AK002_01528	1035	mreB	COG1077	Cell shape-determining protein MreB	ATGTTAGGTGGTTTTACGAAAGATTTGGGAATCGATTTGGGGACGGCAAATACGCTGGTTTATGTTCGTGGGAAAGGAATTGTCGTAAGAGAGCCTTCCGTGGTCGCTCTGCGTACAGATACAAAGAGCATTGAAGCCGTCGGGGAATCGGCTAAGAAAATGATTGGACGGACGCCAGGCAACATTCGTGCCATTCGTCCGATGAAAGACGGCGTCATCGCCGATTTTGATACAACGGCTACAATGATTAAATACTTTATTCGTCAAGCGCAGAAGCAGCGTTCCATCTTCCCGCGCCACCCGAACGTGATGGTATGCGTGCCTTCCGGCATTACGGCCGTCGAGCAGCGTGCGGTTGAAGATGCGACCAAGCAAGCGGGTGCACGCGAAGCCTACACGATCGAGGAGCCTTTTGCAGCGGCAATCGGTGCAGACTTGCCCGTGTGGGAGCCTACAGGCAGCATGGTCGTTGATATCGGCGGAGGTACGACCGAGGTTGCGGTCATTTCCCTTGGAGGGATTGTAACCAGCCGTTCCGTACGCGTTGCGGGCGATGAAATGGACGAGTCCATTATTTCTTATATTAAACGCCAATACAACTTGATGATCGGTGAGCGCACATCCGAGCTGCTCAAGATGGAAGTAGGCTCCGCGATGCCGCTGGAGACCGTGGAAACGATGGAAATTCGCGGCCGCGACTTGGTGACGGGTCTGCCGAAGACGATCACGATTACATCGGATGAGATTAGCGAAGCGTTGGCAGATACCATTAATGCCATCGTTGAAGCCGTTAAGGTTACCCTTGAGAAATGTCCTCCGGAGCTTGCTGCGGATATTATGGACCGGGGCATCGTGCTTACGGGAGGCGGCGCATTGCTTCGCAACCTGGACAAGCTGCTTGCCGAAGAGACCGGCATGCCGGTCATCGTTGCGGAGAATCCGCTGGATTGCGTGGCCATTGGCACAGGTAAAGCGCTCGAGAACATTCACTTGTTTAAATCCCGGAGCAGCTCTGCCGTCCGTTCCAAACGGTAG	MLGGFTKDLGIDLGTANTLVYVRGKGIVVREPSVVALRTDTKSIEAVGESAKKMIGRTPGNIRAIRPMKDGVIADFDTTATMIKYFIRQAQKQRSIFPRHPNVMVCVPSGITAVEQRAVEDATKQAGAREAYTIEEPFAAAIGADLPVWEPTGSMVVDIGGGTTEVAVISLGGIVTSRSVRVAGDEMDESIISYIKRQYNLMIGERTSELLKMEVGSAMPLETVETMEIRGRDLVTGLPKTITITSDEISEALADTINAIVEAVKVTLEKCPPELAADIMDRGIVLTGGGALLRNLDKLLAEETGMPVIVAENPLDCVAIGTGKALENIHLFKSRSSSAVRSKR	PGPT0027700_2193	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
AK002_01529	876	mreC	COG1792	Cell shape-determining protein MreC	GTGTTGCAACTGTTTAAGCTGCTAGGCAATAAGCGTTTGTTCATTATGCTCATCGGGCTGGTAGCGTTTATCGCTATTATGGGGTTTACGCTCGGCCCGAGAGCTTCTTTATCTTGGCCTGAAAAATTCGTCAAAGATACGGTCGGTTTTGTGCAAAGTGTGTTTTATAAGCCCGCTGCTTATATAGCGGGTTTCTTTGAAGATGTACGGAACATGAAGGCGATCTATGAGGAGAATGAGGAGCTGCGAAGAGCGGTAGCCCAATATTCTCGTGAGAGCGCAAATTATAACACGATGAAAGCAAATTATGAGAAGCTTCAAGATTTACAAGGTTTTACAGAAAACCAGAAAAATCGATATAAATATGAATACCGTACTGCCCAGGTCCTAAGTGTTAATTCGGACCCGAATAATCGGACACTTGTCGTCGATCTGGGTGAGCGCGATGGGGTTCGCCCCAACATGTCGGTCACGACAGTGGACGGCATGGTCGGCATCATTAGCAGCGTGAGTAATTTCACCTCCACGGTGAAGCTGTTGACCACGATGGATGCTCAGGATCCGAATCCGCAGCCGATTTCGGTAACGGCCATTGGCAAAGAGGATAAAACATTCGGCGTGGTAGAGAGCTATGATGAGAAGACCAACACGCTGCTCATGACGCGGATTTCGGAAGATGATCCTATCAAGAAAGGCGATAAAATCATTTCATCCGGTGCCGGAGGCGTTATTCCACAAGGTATGATCATCGGTAAGGTCCTCAGCGTTCAGACCAGCCAATACGGTCAAAGCAGAACGGCTACGATCGAACCGGCGGCCAAGTTTGACGACTGGAAGTATCTGATCATCGTCTTTACGCCTGAGGAGCCGGAATAG	MLQLFKLLGNKRLFIMLIGLVAFIAIMGFTLGPRASLSWPEKFVKDTVGFVQSVFYKPAAYIAGFFEDVRNMKAIYEENEELRRAVAQYSRESANYNTMKANYEKLQDLQGFTENQKNRYKYEYRTAQVLSVNSDPNNRTLVVDLGERDGVRPNMSVTTVDGMVGIISSVSNFTSTVKLLTTMDAQDPNPQPISVTAIGKEDKTFGVVESYDEKTNTLLMTRISEDDPIKKGDKIISSGAGGVIPQGMIIGKVLSVQTSQYGQSRTATIEPAAKFDDWKYLIIVFTPEEPE				NA	NA	NA	NA	NA
AK002_01530	525			hypothetical protein	ATGGCACGTAAACAGATTCTGATCCTGCTGCTGTTCGTGTTATTCATTCTGCAGGGCACGGTGGTTTTCTGGTTAACGCCAAGCTCGCTGCAGCTTCAGATTTATCCGAACTTCGTATTGGTTTGCTTATTCTTTGTATCGATTTATTATCATCGCCATACCGGGCTCGTGCTCGGACTCCTGTTCGGCATGCTTCACGATATCGTGTATTACGGCGAGATGATTGGCACTTATTCGTTTGCTATGGGCGTATCCGCATATTTGGCGGGGCTTGTTTTCAAGTCCCCGCGGGCGCCGCTGCCCATGATGATGACCATTGTCATTCTGGGAAGCTTGTTGTTTGACAGTACGCTTTTTGGCATATATAAGGTATTTCGACTCAATCCGACTTCTTATAATTGGTCACTGCTTCATCATATGCTTCCCAATCTCCTTGTTCATTTTGCCTTTGCTCTGGCAATTTACGTTCCCTTACGCAAGCAGATTGAGCTGGTAACGAAGAATCAGAGAAGGAAGGCAACCTGA	MARKQILILLLFVLFILQGTVVFWLTPSSLQLQIYPNFVLVCLFFVSIYYHRHTGLVLGLLFGMLHDIVYYGEMIGTYSFAMGVSAYLAGLVFKSPRAPLPMMMTIVILGSLLFDSTLFGIYKVFRLNPTSYNWSLLHHMLPNLLVHFAFALAIYVPLRKQIELVTKNQRRKAT				NA	NA	NA	NA	NA
AK002_01531	663	minC	COG0850	Septum site-determining protein MinC	ATGGCTGTAAAATCCAATCATGTGACGATTAAGGGCATCAAAGATGGCCTGGTATTCCTGCTTGACGATCAATGCGAGCTGGAGGAATTGCTTGGCGAGCTCCGCTATAAGCTGGAGCATAGTCATCAGAATATTCTGACCGGACCCATCATTCATGTGGATGTGAAGCTGGGTTCCCGGCAAATTTCCGAAGAAGAGAAGCAGACGATTCTTGACATATTGAAGCAAAAGGGCAACCTGCTGATACGCAATGTGGAATCGCCGCCGCTTGCGTCCGAGCTCGTTCCGGAGGAGAAGCTTGCGCTTAAGACGGGGATGGTGCGTTCCGGACAGGTGCTGCATCATGACGGCGATCTCTTGTTCCTCGGCGATGTGAATCCAGGCGGGACGATTACGTGCACCGGCGACATTTACATATTGGGCGCTCTGCGCGGAACCGCGCACGCCGGTGTAGAGGGCAACGAGGATGCGATTATTGCGGCTTCGTATTTTGCCCCTACCCAGCTTCGTATCTCCCAGATGATCAGCAGACCGCCGGACGAATGGGAAACGCGGGAAACGGTCATGGAGTTTGCGTATTTGAAGGACGGAAGCATGGAGATCGACAAGATCAGCAACATCTCACGTTTGGGTCGGGATTTTAATGTGTTTAAAGGGGTGTAG	MAVKSNHVTIKGIKDGLVFLLDDQCELEELLGELRYKLEHSHQNILTGPIIHVDVKLGSRQISEEEKQTILDILKQKGNLLIRNVESPPLASELVPEEKLALKTGMVRSGQVLHHDGDLLFLGDVNPGGTITCTGDIYILGALRGTAHAGVEGNEDAIIAASYFAPTQLRISQMISRPPDEWETRETVMEFAYLKDGSMEIDKISNISRLGRDFNVFKGV				NA	NA	NA	NA	NA
AK002_01532	795	minD	COG2894	Septum site-determining protein MinD	ATGGGAGAGGCAATCGTCGTAACTTCAGGTAAAGGCGGAGTCGGTAAAACGACGACATCGGCGAACATCGGCACAGCTTTGGCACTGCTCGGAAAAAAAGTGTGTCTGGTTGATACGGACATCGGTCTTCGCAATTTGGATGTCGTGATGGGCCTGGAAAACCGGATTATATACGATTTGTGCGACGTTGCGGAAGGGCGATGCCGACTTAACCAGGCGCTGATCAAGGACAAGCGCTTCGATGAGCTGTATATGCTTCCTGCAGCCCAGACCAAGGACAAGAATGCCGTTTCTCCGGAGCAGGTCAAAGATATCGTACTTGAATTGAAAAAGGAATTCGAATACGTCATTATCGATTGTCCGGCCGGAATCGAGCAGGGATTCAAGAATGCAATCGCCGGCGCGGACAAAGCGATTGTTGTCACGACGCCCGAGAATGCGGCCGTAAGGGACGCGGATCGGATTATCGGCCTGCTGGAGAGCTCGCATGTCGAGTCTCCGAAGCTCGTGGTGAACCGGATTCGCCCGAATATGGTGAAATCCGGGGACATGCTCGAAATCGAAGATGTGCTGCAGGTGCTGAATATCGATCTGATCGGTATCGTGCCTGATGATGAAATGGTCATTAAAGCGGCGAATATCGGGGAACCTACGGTGATGAACCCGGATTCCCAGGCAGCCATCGCCTATAGAAACATCGCCCGGCGTATCCTTGGCGATACCGTTCCGCTGATGCAAATCCATCAGAAAAAAGGAATGTTCACCAAATTCAAAAAGTTTTTTGGAATGGGTTAA	MGEAIVVTSGKGGVGKTTTSANIGTALALLGKKVCLVDTDIGLRNLDVVMGLENRIIYDLCDVAEGRCRLNQALIKDKRFDELYMLPAAQTKDKNAVSPEQVKDIVLELKKEFEYVIIDCPAGIEQGFKNAIAGADKAIVVTTPENAAVRDADRIIGLLESSHVESPKLVVNRIRPNMVKSGDMLEIEDVLQVLNIDLIGIVPDDEMVIKAANIGEPTVMNPDSQAAIAYRNIARRILGDTVPLMQIHQKKGMFTKFKKFFGMG				NA	NA	NA	NA	NA
AK002_01533	909			hypothetical protein	ATGGACATCAAAACTTCCGTCAAGAACCGAAGAGAAGCCCGCATTCGCGAACTGCTGGAAGGGGAGCAGTTCACGGCGCAGGACGATAAGCCGTCTTGGACGGCGCTTCCCGATAGAACACCCGCTAATCCCCATAATCCAAAGACAGGCTTCATCAAGGACAACATAACGAACCCGTCCCCACGTTACGCAGAGCATGAACCGGATCCCGAGCGGCTTTGGAAGCAAGGGCATCGCGGTTGGTATGATACGCTGGATCCCGGTGCTCCGGGAGAACCGCCAAGAAAGGCTTCGTTTCTGTCAGGCCTGATTCGCCGCATCACCGTCAGTGCGCTGGTGTTTGGATTGGCATGGGGCGTATTTTCGTTTCAGCAGCCGTGGGCCCTTCGCGCGCAGGCATTTATCATTGAGGGGCTGAGCCATGAGATGGATTTCCAGGCGGCCCAGGTATGGTACGAGGAGCATTTTGGCAGCGCGCCGTCCTTTATTCCGATTTTTGGACAAACCGACGAGCATTCGACGAAGGTGAATGCCGGGACCTCTTTGGTTCCTCCGCTTTCCGGAAGGGTGGTTCAATCCTTTGCCGTGGATCTGAAAGGCATCGTTCTGGAAGCCGGAGGGGGTTCTTTAGCGGACCGGGCGGTTAAAAGTATAGAGACCGGGCGCGTCCTTGAGGTTAAAGAACATCCTGAGAACGGGATTACGATCCGCATACAGCATACGGGAGAGCGAACGGCGGCATACAGCAGGCTGGCGGAAACCGGGCTTAAGGCGAATGACTGGGTTCAAGGCGGAGATATTATCGGGACTTTGGCATCTTCAGGCACAGGCAGCCCGCCCTCCCTTTATTTCGAACTGAAAGAGGGGGATCGTGACGTCGATCCGGCGGAAGTGATTCCGTTTGATTAA	MDIKTSVKNRREARIRELLEGEQFTAQDDKPSWTALPDRTPANPHNPKTGFIKDNITNPSPRYAEHEPDPERLWKQGHRGWYDTLDPGAPGEPPRKASFLSGLIRRITVSALVFGLAWGVFSFQQPWALRAQAFIIEGLSHEMDFQAAQVWYEEHFGSAPSFIPIFGQTDEHSTKVNAGTSLVPPLSGRVVQSFAVDLKGIVLEAGGGSLADRAVKSIETGRVLEVKEHPENGITIRIQHTGERTAAYSRLAETGLKANDWVQGGDIIGTLASSGTGSPPSLYFELKEGDRDVDPAEVIPFD	PGPT0024780_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024780-spoIVFA-K06401	NA	NA
AK002_01534	864	spoIVFB	COG1994	Stage IV sporulation protein FB	TTGATTAAGTTTAAGGGAACGGTCTTGTCGCTGCATCCGCTCTTTGTCATTGTCATGCTGGCATCCGTGTTCACCGGTCGCTTCCTGGAGTTGCTGACCCTGTTTATTATCGTGTTTATTCATGAATTGGGACATGCCGCCGCCGCGGCAGCGATGGGGTTCAAGGTACGAGCCATTCAGATGCTGCCGTTCGGCGGCGTTGCTGTCATTGAAGACGACGGCAGGATGACCGCGATGAAGGAGATCATCATTGCGCTTGCGGGTCCGCTGCAAAATGTCATCATGATCGGCATTACCCTGGCCTGCCAATGGGCGGGGTGGGGTGACGAGCAGCTGCTGTCTTATATCATTCAGGGGAATCTCGTCATCGCGTTGTTTAACCTTCTTCCGATTCTGCCGCTGGACGGCGGCAAAGTGCTGCAGGCCGTCATCAGCCTGCTCGCTCCTTATCATGCCACCTTGCTGTGGGCTTCCCGGGCCGGGATTTTGTGCAGCTTGATTATGATCGGTTACGGATTGCAGCCGTTATTCTCCGGGGGCGGCATTCGTTTAAATGTGCTGATGATCGGCCTTTTCCTGGCGTATTCCAATTTCGAAGACTATCGGAACGTCCATTACCGGTTTTTAAGATTTTTGGTCAATCGGAGCGAGGTTTATGAACGGAATTTGGACGGGCTCGGTCCTGCCCAGCCAATCGTTGCAGATTCTTCGAAACCTTTGGATGATATCATGCGTCTATTTAAACGAGAGAAGTATCATTTGATTTATGTCATGAGCGGACGCGGCAGCCTGCTTGCCGTTGTTCCGGAGCAGCATGTGATTTCTTCTTATTTTGCATCAAATGGTCCGCCCTGGTATGCGTAA	MIKFKGTVLSLHPLFVIVMLASVFTGRFLELLTLFIIVFIHELGHAAAAAAMGFKVRAIQMLPFGGVAVIEDDGRMTAMKEIIIALAGPLQNVIMIGITLACQWAGWGDEQLLSYIIQGNLVIALFNLLPILPLDGGKVLQAVISLLAPYHATLLWASRAGILCSLIMIGYGLQPLFSGGGIRLNVLMIGLFLAYSNFEDYRNVHYRFLRFLVNRSEVYERNLDGLGPAQPIVADSSKPLDDIMRLFKREKYHLIYVMSGRGSLLAVVPEQHVISSYFASNGPPWYA	PGPT0024785_179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024785-spoIVFB-K06402	NA	NA
AK002_01535	1236	rng	COG1530	Ribonuclease G	ATGAGGCAAATGATAGTTCATTGTGAACATGAGACCATTCAGATGGCCCTCATCGAAGATGGGAGGTTAGCCGAATTCGCCGTTGAGCGGAGTCGTGAGCAAAGTGTTGTCGGAAGCTTTTATAAGGGCAGGGTCGTGAACGTGCTGCCGGGGATGCAGGCGGCTTTTGTAGATATCGGGCTGAAAAAGAACGCGTTCTTATATATCGATGATGTGCTCCATCCGCATTTAGAGAAGCAGCCCAAGCAGAAGCCTTCGATCTCGCAGCTGCTGACGGCAGGGCAGGAACTGATCGTGCAGGTCATGAAGGAACCCAGAGGCGGCAAGGGAGCGAGGGTGACGACGCATTTTTCGCTTCCGGGGAGATGCATGGTGTATATGCCGACTGCGGATTATGTTGCCGTCTCCAAGAAAATCGGACGCGATGCGGAAAGGGCACGGCTGAAGAGCATCGGCGAGCAGCTTCGCACAGATGAAGAGGGAATCATCATCCGAACGGTGTCGGAGGACGAGCCCCTGGAATTCATTAAGGGTGATCTGGAGTATCTGCGAAAAGAGTGGGCCCGGATTCTCGACAAGGCGGAATCTGCGCCCGTTCCGGCGCTGCTGCATCGCGATTTAGGCCTGCTGCAGCGGTTTCTCCGCGATGCCTTTGATCCGCTGCATGACGAGCTTGTGATCGACAGCAAGCTGAAAGGCGAGGAAACCAAGAGTTATTTGAAGGAAACCGTTCCGGGAATGGAGCCCAAGGTTACATATTACTCGGAAGGAGGCCCGATTTTTCAAGCGTACGGGTTGGACGAGCAGATGAGAGCCAGCTTCGCAAGGAAAATCACGCTTCCCGAGGGCGTGACCATCGTCGTAGACCAGACCGAAGCCATGACGATCATCGACGTGAACACAGCCAAATATATCGGCGGGGATAATTTCGAGGAAACGGTACTGAAGACGAATCTTTTGGCTGCGCAGCAGATCGCAAGGATTCTGCGCCTTTGGGATATCGGGGGCATTATTATCGTGGATTTCATCGATATGGATCATGAAGAGCACCGGCAGCAGGTGGTTTCTGTCATGGAGGCCGTTATGCGCAAAGACCGCACGAAGAGCTTTGTGGTCGGATGGACCAAGCTGGGACTGCTGGAAATGACCCGCAAAAAAGCCCGTGAAAGCTCGTCCCTCCCCTTTGCCAAGCCTTGCGGAACCTGCGGAGGCCGGGGCGTGGTTATCGAAGAATGA	MRQMIVHCEHETIQMALIEDGRLAEFAVERSREQSVVGSFYKGRVVNVLPGMQAAFVDIGLKKNAFLYIDDVLHPHLEKQPKQKPSISQLLTAGQELIVQVMKEPRGGKGARVTTHFSLPGRCMVYMPTADYVAVSKKIGRDAERARLKSIGEQLRTDEEGIIIRTVSEDEPLEFIKGDLEYLRKEWARILDKAESAPVPALLHRDLGLLQRFLRDAFDPLHDELVIDSKLKGEETKSYLKETVPGMEPKVTYYSEGGPIFQAYGLDEQMRASFARKITLPEGVTIVVDQTEAMTIIDVNTAKYIGGDNFEETVLKTNLLAAQQIARILRLWDIGGIIIVDFIDMDHEEHRQQVVSVMEAVMRKDRTKSFVVGWTKLGLLEMTRKKARESSSLPFAKPCGTCGGRGVVIEE				NA	NA	NA	NA	NA
AK002_01536	312	rplU	COG0261	50S ribosomal protein L21	ATGTACGCTATTATCGAAACAGGCGGTAAACAATACAAAGTTCAAGAGGGCGACGTATTGTTCATCGAGAAGCTGACTGCAGGTGACGGCGAGAGCGTGACTTTCGACCGTGTACTGGCCGTTTCCAAAGAGGACGGATTGGTAGCAGGAACTCCGGTTGTTTCCGGTGCAACTGTAACTGCAAAGGTAGAGAAGCACGGTAAAGGCCGTAAGGTCGTTGTATACAAATACAAGCCGAAGAAGAACTACCACAAGAAGCAAGGTCATCGTCAACCTTACACTAAAGTAACCATCGAGAAAATCCAAGCGTAA	MYAIIETGGKQYKVQEGDVLFIEKLTAGDGESVTFDRVLAVSKEDGLVAGTPVVSGATVTAKVEKHGKGRKVVVYKYKPKKNYHKKQGHRQPYTKVTIEKIQA				NA	NA	NA	NA	NA
AK002_01537	333			hypothetical protein	TTGATTACTGTACAAGTACTGCGCGGGGGAGATGGACGGATCCATAGCTTCAAGGTAACGGGGCACGCGGGATATGCCGATCCAGGTGAAGATATTGTATGTGCTGGAGTTTCCAGCATTACCGTGGGAACGGTGAATTCCATTGAAGCGTTAACCGGAACCGTTATGGAGACCCGGATGAAGGGCGGCTTTCTTAGCGCAAATCTTCCGCCTACGGCAGATGATTCCGTCTCCGGCCAAGTTCAACTGCTTCTCGAATCCATGGTTGTTATGTTACAGGGAATTGCCGATTCGTACGGCAAGTATATAAGAATACAAGAATTGACTACTTGA	MITVQVLRGGDGRIHSFKVTGHAGYADPGEDIVCAGVSSITVGTVNSIEALTGTVMETRMKGGFLSANLPPTADDSVSGQVQLLLESMVVMLQGIADSYGKYIRIQELTT				NA	NA	NA	NA	NA
AK002_01538	312	rpmA	COG0211	50S ribosomal protein L27	ATGTTGAAATTGGATCTTCAGTTATTCGCATCGAAAAAAGGTGTAGGTTCCACAAAGAACGGTCGTGACAGTGAAGCGAAACGTCTTGGCGTGAAACGTGCAGACGGTCAAGCAGTGACTGGCGGCAGCATCTTGGTTCGTCAACGCGGAACGAAAATTCATCCAGGCACGAACGTGGGTATCGGTAAAGACGATACTTTGTTTGCGAAAGTTGACGGCGTTGTGAAATTTGAACGTTGGGGTCGCGATCGCAAGAAAGTGAGCGTCTACCCGGTTGATGTCGCTCCAGTAGCGGCTGCAGTTGAAGCTTAA	MLKLDLQLFASKKGVGSTKNGRDSEAKRLGVKRADGQAVTGGSILVRQRGTKIHPGTNVGIGKDDTLFAKVDGVVKFERWGRDRKKVSVYPVDVAPVAAAVEA				NA	NA	NA	NA	NA
AK002_01539	741			hypothetical protein	ATGAAATCCTGGAAATGGATAGCAGCTGTGGCGGGGTTAACCTCCGTAATACCGGTGGCATGGATGGTATGGAAGCCATCCTTGGCTGCAGGAGCAGTGTTGACGGCTTGGGCTGTCGCCGCGTCTGCCTGCGGAGCATGGCTTGCCCGTAAATCGGACGAGCGCAGGCAGCAAGCCATCATTCGGAATATGGAGCAGACGGCGATTCAGATGTTGAATCACCATCGTCATGATTGGATGAATGAGCTTCAAATTTTGTACGGCTACATTCAACTGGGGAAGCTTGATAAAACCGTGGGTTCTGTGGAAAGAATAAAGGACAGGATGGCGACGGAGAGCAGGATCTCCAAGCTTGGCATTCCTTCACTGGTTTTTTATTTACATTCATACCGAACGTACAGCAGCAATCTGCAGCTCTGCGTTGAAGTGGTGGACCAGGTACAGCTGGAAGACAAAGTATCGCCACAAACGGCAGAGTCTTTTACCGAAGCGATCATTCAAACGGTGAGAGCCTTTCAATTGAGCGGAACGGCGTCATGGGGGGATACCCGGCAGTTAACATTAACATTTATGCAGCAGGAGCAAGAGCTGATCGTATGGGCTCTAGGCGAAGGTTCCTTTGGAGACCCGGAGGGCTTGAAGCTTCAGATTGAACAATCCGTAAAAGGCGAAGGCATTCGGGTGGAGCAGACGGAGCCGGGGGAGACCTCGTACCGCTTGTATCTGCCGTTTGTGACTTGA	MKSWKWIAAVAGLTSVIPVAWMVWKPSLAAGAVLTAWAVAASACGAWLARKSDERRQQAIIRNMEQTAIQMLNHHRHDWMNELQILYGYIQLGKLDKTVGSVERIKDRMATESRISKLGIPSLVFYLHSYRTYSSNLQLCVEVVDQVQLEDKVSPQTAESFTEAIIQTVRAFQLSGTASWGDTRQLTLTFMQQEQELIVWALGEGSFGDPEGLKLQIEQSVKGEGIRVEQTEPGETSYRLYLPFVT	PGPT0024635_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024635-spo0B-K06375	NA	NA
AK002_01540	1311	obg	COG0536	GTPase Obg	ATGTTTGTAGATAAGGCAAAAGTATATGTAAAAGGCGGCGACGGCGGCGATGGGCTCATTGCGTTTCGCCGTGAGAAATACGTTCCTGAAGGCGGACCTGCCGGCGGCGACGGCGGTAAGGGCGGCGACGTGATTTTCCGGGTGGATGAAGGACTGCGCACGTTGATGGATTTCCGTTACCAGAAGCATTTCAAGGCCAAGCGCGGGGAAAAGGGCCGCAATAAAAGCCAGCATGGGGCCAATGCGGAGAGCATGATTGTCCGTATTCCGCCGGGTACCATCTTAACGGATGACGATACCGGTGAAGTGATTGGCGATTTGACCCGTCACGGTCAACAGGTTGTTGTTGCCAGAGGCGGCCGCGGGGGCCGCGGAAACATCCGCTTTGCCACGCCGAACAATCCGGCGCCCGAGCTTGCCGAGAATGGAGAAGAAGGCGAAGAGCGCTACGTAACCATGGAACTTAAAGTGATGGCTGATGTAGGTCTCGTTGGATTCCCGAGCGTAGGCAAATCCACCCTGTTGTCTGTTGTATCCGCGGCTCAGCCGAAGATCGGGGCATACCATTTCACGACCATCACGCCGAATTTGGGCATGGTTGAGGTCGGGGACGGGCGCAATTTCGTCATGGCTGACCTGCCTGGCCTGATTGAGGGTGCCCATGAAGGCGTAGGACTTGGCCACGAATTCCTCCGGCACGTGGAACGAACCCGCGTCATTATCCACGTCGTGGATATGGCAGGCACGGAAGGACGGGATCCGTTCGAGGATTGGCAAAAAATCAACGATGAGATTAGGCTCTATAACCCGGTTCTGATCGAACGGCCGCAAATCGTAGCCGCCAATAAAATGGATATGCCGGAAGCAGAGGAGTACTTAGCGGCCTTCAAAGAGAAGGTGAAGGAGATTCGCCCTGACATCGAGGTGATGCCGATCTCCTCACTGACCCGTCAGGGGATCCAGGAACTTCTTTATCGCACGATCGATGTGCTGGAGAGCATTCCGGATGAGCCGGCGATTGAAGAGGTATCCGAGGTTTCCGAGCGCAAGGTGTATAAATTCAAAGCGCAGAACGACAATTCCTTCACCGTCACCAGAGATAATGAAATGTATGTGGTGCACAGTGAGCGGATTGAGCGAATGCTGAAACGGATGCAGATGAATTCGCATGATGCGATCCTGAAGCTTGCCAGAACGATGCGTCATATGGGCATTGATGAAGAGCTGCGGAAACGGGGCGCGACGGAAGGCACCATCGTACGGATCGGCGATTTCGAATTCGAATTTGTAGAAGGCAGCAGTTACTATTGA	MFVDKAKVYVKGGDGGDGLIAFRREKYVPEGGPAGGDGGKGGDVIFRVDEGLRTLMDFRYQKHFKAKRGEKGRNKSQHGANAESMIVRIPPGTILTDDDTGEVIGDLTRHGQQVVVARGGRGGRGNIRFATPNNPAPELAENGEEGEERYVTMELKVMADVGLVGFPSVGKSTLLSVVSAAQPKIGAYHFTTITPNLGMVEVGDGRNFVMADLPGLIEGAHEGVGLGHEFLRHVERTRVIIHVVDMAGTEGRDPFEDWQKINDEIRLYNPVLIERPQIVAANKMDMPEAEEYLAAFKEKVKEIRPDIEVMPISSLTRQGIQELLYRTIDVLESIPDEPAIEEVSEVSERKVYKFKAQNDNSFTVTRDNEMYVVHSERIERMLKRMQMNSHDAILKLARTMRHMGIDEELRKRGATEGTIVRIGDFEFEFVEGSSYY				NA	NA	NA	NA	NA
AK002_01541	1308			hypothetical protein	ATGGCTATTATTGAAGTCGTAAAATACGAAGGCCCGCCGGATGTGTTTGCCTGGCGTTATCCGAATCAGGAGTTAGGCACCTGGACCCAGCTTATTGTTCATGAGACGCAGGAGGCGATCCTGTATAAGGGGGGGCAGGCACTGGACTCTTTCCCGGCAGGGCGGCATACGCTGAGTACGGCAAACATCCCGATTTTATCCAATGTCATCAATCTTCCATTCGGAGGGAAGTCTCCCTTTACCGCAGAAGTCTGGTTTGTGAACAAACTTCGTTCGCTGGACGTGAAATGGGGGACCAGCTCGCCGATCCAGCTGCAGGATCCGAAATACAACATCATCGTATCGCTCCGAGCCTTTGGCCAATTCGGCGTTCAAATCAGCGATCCGCGAAAGTTTCTGGGAACCATGGTCGGTACCCTGCCAACCTTTGATCAGGGAACGCTGGTCAAATATTACCGCGGCGTGCTGATGTCCAACATTACGGAAATCATATCCTCCTATATCGTTCGGAAAAAAATCAGCGTTGTGGAAATCAATGCTTACATAGCGGAAATATCCAAGCACATCATGGAAGCGATTGCGCCTTCATTTGAAGAGATGGGGATTACCCTGCTGAATTTTTATGTGGATTCCATCAACATACCGGAGCATGATCCTGCAGCTGTCCGAATCAAGGAAGCGTTGGCAAAAAAAGCGGAGATGGATATCATCGGTTATACCTACCATCAGGAAAGAACCTTTAATACGCTTGAGGGAGCGGCGAAGAATCCCGGAAGCCCGGCAGCGGTCATGGGAACGGGGCTGGGCATGGGACTCGGAATGGTCGGTCCGATGTATGAGACCGCCCGGCATATGTTTGACCATGCCAAACCTCAAGAGAAGAACGATATGCAAATCGAGCAGAAGGCATGCACCAAATGCGGAATGCTGAACGGGGAAGAAGCCCGATTCTGTTCGGGATGCGGCCAGCCATTCCAGGCGCCGGCGGAGGAAGCCCCGGCGAAAGCCATCCTGTGCAACGATTGCGGGCAGCCCCTGGCTCCGAATGCAAAGTTCTGCCTTCACTGCGGCGATCCTTACCATGCATGCCCGAAGTGCGGACATGACCACCCGGCTGGCGCAGCCAAATGTCCGGATTGCGGTGCGCCGCTGCCAATGCCTTGCCGGGCATGTGGAGAATTGGTGGATGCCGAAGCCAAGTTTTGCCCGCACTGCGGGTCGAGTCACGCGCTTACATGTCCAGGGTGCGATCATGAGATCAAACCGGGCCAGAAGTTTTGCATGGAGTGCGGTCATAAATTGATGTGA	MAIIEVVKYEGPPDVFAWRYPNQELGTWTQLIVHETQEAILYKGGQALDSFPAGRHTLSTANIPILSNVINLPFGGKSPFTAEVWFVNKLRSLDVKWGTSSPIQLQDPKYNIIVSLRAFGQFGVQISDPRKFLGTMVGTLPTFDQGTLVKYYRGVLMSNITEIISSYIVRKKISVVEINAYIAEISKHIMEAIAPSFEEMGITLLNFYVDSINIPEHDPAAVRIKEALAKKAEMDIIGYTYHQERTFNTLEGAAKNPGSPAAVMGTGLGMGLGMVGPMYETARHMFDHAKPQEKNDMQIEQKACTKCGMLNGEEARFCSGCGQPFQAPAEEAPAKAILCNDCGQPLAPNAKFCLHCGDPYHACPKCGHDHPAGAAKCPDCGAPLPMPCRACGELVDAEAKFCPHCGSSHALTCPGCDHEIKPGQKFCMECGHKLM				NA	NA	NA	NA	NA
AK002_01542	759			hypothetical protein	GTGAATACAAGAACCAAGGATCGAAACGGGGCATGGCTGGCAGCCATTGCGCTTCCGTTTGTCACGATCCTCTTATTTGGATGGATAGGCGGGATGTTTCAGCCGAATTCTTGGATATCGGGGATTGCCGTTGGATGCGCCGAAGCGGCTGTTCTCCTATTTATCGGCTCTGTCATCGGCAGGGGGAGGGCAGCTTCGTCAGCCACTCCATTTTATATTGCTTCCGGCATCATTATTGGTATCTATACGGTGTCCGTTGTGCTGGAGGTTATTTTGCTGGGATACTTATTTAAGCTGCCTGTATCCTCGTATTTCATGATTCATCTGATTACGCTATCTGGATTTTTCGTTGTTCTGGGGCTCGTATTCCTGGCGGCAAAATATGCAGGCGCACAGGAGCGGAAGGAAAACGATCATCTCTCAGTCAAGAGAGAGACCGTAGCCTGGATCGGGTCGATTCGCAGCAAGGTAAGCGAACTGCCGGGAGAGAACATGCCGTCGTTGGAACGGCAGATCGCCGAGCTTGAAGAGACGCTGCGTTATAGTGATCCCATATCGCATACCTCCTTATATGAAGAGGAGCAGTTGATTCAGCAAAAAATTGCGATGCTGGAGGACCAAGTAACGCTGATCGGCGAAGCGCAAGCTGAACAGCGCAAGGAACTGGCAGAGCAAACCGTTCCTATCATCCGCGATATTCTCCGAACGGTGCAGGATCGCAATACGGTGCTTCTGAAGGCAAAGGCGGGATCAACCTAA	MNTRTKDRNGAWLAAIALPFVTILLFGWIGGMFQPNSWISGIAVGCAEAAVLLFIGSVIGRGRAASSATPFYIASGIIIGIYTVSVVLEVILLGYLFKLPVSSYFMIHLITLSGFFVVLGLVFLAAKYAGAQERKENDHLSVKRETVAWIGSIRSKVSELPGENMPSLERQIAELEETLRYSDPISHTSLYEEEQLIQQKIAMLEDQVTLIGEAQAEQRKELAEQTVPIIRDILRTVQDRNTVLLKAKAGST				NA	NA	NA	NA	NA
AK002_01543	750			hypothetical protein	ATGGGAGCTTCTAATCTGAAGCGTTTTAAACTTAAGTTCACGAAAATGGATTATTGGATCATCGCGTTGGCCGTGCTTTTTTTTCCGCTGGCCATCGTGCTGGCAGCCGTTCGGGTCCTTGCCACCCATCGCCACAACCGTTGTAAGGGAAGGAACAACCGCCTCTTCGGCTGGGTGCTTGCCATTACCTATGGAATCATAGAATTGCTCATGATTCTTGCGACGATTGATGACAAAGATATCGAAAGCCTCTATTCGGCCACCGTCGTTTGGGGCGTAATCATTCTGGTTCCAGCCATGATCATGCTGGTGATCGCCAATAAGGAAGACAAGAAATTCGGCAGCTTGCTGCAATTCTATTCGAATGCCATCCTGCATCGAGGGCTCGTCCAGGTTGAAGATATTGCCCGTGAGGCGAGACAAACGCCTGCACACGTGATCCGGGATATCACGTTTATGTTTGAAGAGCGTATGCTGCCTAACGGAAAGCTCGACAACGGAGTTGTTCTCATCCCGTCCTTGCACAGAAAGTCCGAATCATTCCGTGGCGAATTCGTTTCGCGCAGCGGGCAGCGCGTGCAATATTCATTGGGCGATACGACTGCAGGCCCAGCCCCCATATCCCGAACCGAACCTGCGTCCGATCCGGCGCCTAAATCCGTGGAATGCCCCGGCTGCGGAGCAAGAACGGTCGTAACGCATGTGGAGGGGAAGGAATGCGAGTATTGCGGTACCGTGATTGTGGCATAG	MGASNLKRFKLKFTKMDYWIIALAVLFFPLAIVLAAVRVLATHRHNRCKGRNNRLFGWVLAITYGIIELLMILATIDDKDIESLYSATVVWGVIILVPAMIMLVIANKEDKKFGSLLQFYSNAILHRGLVQVEDIAREARQTPAHVIRDITFMFEERMLPNGKLDNGVVLIPSLHRKSESFRGEFVSRSGQRVQYSLGDTTAGPAPISRTEPASDPAPKSVECPGCGARTVVTHVEGKECEYCGTVIVA				NA	NA	NA	NA	NA
AK002_01544	660			hypothetical protein	ATGAGCGTTCCGGTAAAGCCTTTTAAATCGCAATTTACCTCATTCGATTATTTTATTATTGGACTGACGTATGTGTTTTTTCCATTAGCTTTGATTATCGCTGCGTTTCGTATTCTGCCCACGCAGCAGCATCACAGTTATCAGGGAAGGAACTTTAGATTGATTGGATGGGTATTGTTCGGCACTTATATTGTTATCCTGATGATCAATTTAATGACGAGCGAAACCAGCGAGCAGTTCTTAAACGATAATTTATCGATGGCGTTGTGTGTATTAATCCCCGCGTTGTTTTTGCTGGTCGCTGCCGACATCTTAGACAAGAAATTCCGGAAGCTGCTCGGAATTTACAGGGAGGCTGTCTTGCAACGGCGGCTAATTTACATCGAGCATATCGCGATCGTTGCGAATCAAAGTCCGGCCCATGTGATCCGGGATTTGAACTATATGTTGAAGGAGCGCATGCTTCCTGCCGGGAAGATTGAGGATGGCGCGCTGGTGATCCGTTCGCTGCATAGAGAGCCGGTAAAACCCGTTGAATCTCAAACGAAGACGGAATCCAAGTCTGTGGCATGTTCCGGCTGCGGCGCAAGAACCGTGATTTCACGGCATGAGGAAAAAGAGTGCGAGTACTGCGGCTTGACCATGAGATACACCAGTTAG	MSVPVKPFKSQFTSFDYFIIGLTYVFFPLALIIAAFRILPTQQHHSYQGRNFRLIGWVLFGTYIVILMINLMTSETSEQFLNDNLSMALCVLIPALFLLVAADILDKKFRKLLGIYREAVLQRRLIYIEHIAIVANQSPAHVIRDLNYMLKERMLPAGKIEDGALVIRSLHREPVKPVESQTKTESKSVACSGCGARTVISRHEEKECEYCGLTMRYTS				NA	NA	NA	NA	NA
AK002_01545	438			hypothetical protein	GTGAAGGAACGCTACTATCTGGTCCGGGAAGACATCCTTCCCGAGGCTGTAGTTAAAACGATGCAAGTGAAAAAACTGCTGGCGTCGGGAGACGTGAGGACGGTTCATGAAGCCGTCGAGCAGGTAGGGCTTAGCCGCAGTGCTTTTTACAAGTACAAGGACGGCATCCACCCTATCAATCAATTGGAACGTGATGAAATCGTAACGATTTCCATCGATATGGAACATCGCTCGGGCATGCTATCGGAGGTGCTGGGGCTGGTAGCGGGTGAAGGCGGGAATGTGCTAACCATTCATCAGAGCATCCCGCTGCAAGGAATTGCGAATGTCGTTATTTCCGTCGAAGTTTCCCGGCTGAATGAGGAGCTGGATGATCTGCTAGATGGATTGAGGCGGATAGCCGGAGTCAGAAGAGTGCAGATGATAGGGCAAGGTTAG	MKERYYLVREDILPEAVVKTMQVKKLLASGDVRTVHEAVEQVGLSRSAFYKYKDGIHPINQLERDEIVTISIDMEHRSGMLSEVLGLVAGEGGNVLTIHQSIPLQGIANVVISVEVSRLNEELDDLLDGLRRIAGVRRVQMIGQG				NA	NA	NA	NA	NA
AK002_01546	1287	hom	COG0460	Homoserine dehydrogenase	ATGAAACCGGTCAAAGTAGGGCTTTTGGGATTAGGAACCGTAGGAACAGGGGTTGTCCGCATCGTTGAGGGGCATCAGGAGGATTTGAGCAGTCAGGTCGGTTCGCCGATTACGATCGAGCGCATCGCCGTCAAACATTTGGAGAAGTACCGCAGCGTCAATGTGGATCAGAGTAAATTAACGGAAGATCCCTGGGCGGTCATTCGCGATCCCGAGATTGATGTCATCGTTGAAGTGATGGGCGGGATCGAGCAGACCAAAACCTACATCCTCGAAGCGCTTGAGCGCGGCAAGCACATCGTAACCGCCAATAAGGATCTGATGGCCCTGCACGGTGCCGAAATATTGGCCAAGGCGCAAGAGAAGCAGTGCGACGTGTTCTACGAGGCAAGCGTTGCCGGCGGCATTCCCATTATCCGTACGCTGATTGAAGGCTTCTCGTCGGATCGTATCATGAAAATCATGGGGATCGTGAACGGTACGACCAACTTCATCTTGACCAAAATGAGCCAGGAAGGCGCCTCCTATGAGGATGTCCTGGCAGAAGCTCAGGAGCTGGGGTACGCGGAAGCCGATCCGACATCCGATGTGGAAGGCTTGGACGCGGCCCGCAAAATGGCAATACTCGGTACTCTCGGCTTCCGCACCAACGTTGAGCTCCAGGATGTATCCGTCAAGGGCATTTCGCAGGTAACGAAAGAAGATATCGCTTATGCCAAGCGTCTGGGCTACGAGATGAAGCTTCTCGGTATCGCGGAGCGTCAGGACGATGAATTCAGCATCAGCGTCCAGCCGACGATGGTTCGCAAAGGTCATCCCATCGCCGCCGTGAACGGCGTATTTAACGCGGTGTATGTATACGGGGAGGCCGTCGGCGAAACGATGTTCTACGGAGCGGGCGCGGGCGAGATGCCAACCGCGACATCCGTTGTGGCAGACCTGGTGGCGGTCATCAAGAATCTGAAGCTTGGCGTTAACGGTCTGAAAGCCATCGTTCCTTATAAACCGAAGAAGCTCAAAACCGATGAGCAGATCATGTACAAGAATTTCATCCTGCTTCATGTCGACGATAAAGCAGGTGTACTGGCCCAAATTACGCAGGTGTTCGCTCAATATAACGTCAGCTTGGAATCCGTTGTTCAGCAGCCGAACGAGCACAACCCGGACGCAGAGATAATCATCGTTACGCACAATGCGAGCAAAGCCAGCATGGATGAAGTGCTGAATCACTTTGAAGGCCTGGAGGTCATTCGCCGAATCAAAAGTGTTTACCGCGTTGAAGGATAA	MKPVKVGLLGLGTVGTGVVRIVEGHQEDLSSQVGSPITIERIAVKHLEKYRSVNVDQSKLTEDPWAVIRDPEIDVIVEVMGGIEQTKTYILEALERGKHIVTANKDLMALHGAEILAKAQEKQCDVFYEASVAGGIPIIRTLIEGFSSDRIMKIMGIVNGTTNFILTKMSQEGASYEDVLAEAQELGYAEADPTSDVEGLDAARKMAILGTLGFRTNVELQDVSVKGISQVTKEDIAYAKRLGYEMKLLGIAERQDDEFSISVQPTMVRKGHPIAAVNGVFNAVYVYGEAVGETMFYGAGAGEMPTATSVVADLVAVIKNLKLGVNGLKAIVPYKPKKLKTDEQIMYKNFILLHVDDKAGVLAQITQVFAQYNVSLESVVQQPNEHNPDAEIIIVTHNASKASMDEVLNHFEGLEVIRRIKSVYRVEG	PGPT0020155_2548	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
AK002_01547	1074	thrC	COG0498	Threonine synthase	ATGCCGTATGAAGGATTGCTGCAAACCTACAGAGAATATTTGCCGGTGAATGAGCGTACCCCGCTGCTAACGCTTAAGGAAGGGAATACCCCGCTCATCAAAGCCGTGAATCTATCCGAAGAGCTCGGAATCGATTTGCATTTCAAATTCGAAGGGCTGAACCCGACAGGTTCATTCAAAGACCGCGGGATGGTCATGGCCGTTGCGAAAGCAATGGAAGAAGGAAGCCGTACCATCATGTGCGCTTCGACGGGCAATACATCGGCAGCCGCTGCTGCTTATGCCGCCCGCGGCGGATTAAACTGCATCGTGATCATTCCGAACAACAATATTGCGCTGGGCAAGCTCGCGCAGGCGATGATTTACGGAGCGAAGGTGATCGCGATTGAAGGGAACTTTGACCGCGCGCTGGAAATCGTTCGCGAGATCACGGCCAAGCATCCGATTTCGCTGGTAAACTCCGTGAATCCTTATCGAATCGAAGGCCAGAAGACGGCTGCATTCGAAGTCGTTGACCAGTTGGGCAAAGCTCCGGACGTACTGGCCATTCCGGTCGGCAATGCGGGGAACATCTCCGCTTACTGGAAAGGATTTAAAGAATACCACGCAGCGGGCAAATCCACTTCCCTGCCGAAGATGCTTGGATTCGAGGCGGAAGGCGCCATGGCTATCGTCAAGGGTGAGCCTATTCCGAATCCGGAAACGGTAGCGACGGCCATCCGCATCGGGAACCCGGCCAGCTGGAAAACCGCGGTTGCCGCCGCTCAGGAATCCGGTGGACAAATTAATTACGTCACGGACGAGGAAATCTTGGAAGCATACCGTAAAATCGCATCGCGTGAGGGGATTTTTGCCGAGCCAGGATCGGCGGCCTCCATCGCAGGCGTTTATAAAATGAAGCGAGAGGGATATTTTAAAGGTGGGGAATCCGTTGTCTGTGTGCTGACAGGACATGGGCTGAAGGATCCGAATATCGCGATTTCTACCGTGAACGCCGAACCGCTCGTCGTATCGGATACGGAATCGGCGGTAATGGATGCCATTGCTAAGCTTGAAGGAGCTGCGCGGGTATGA	MPYEGLLQTYREYLPVNERTPLLTLKEGNTPLIKAVNLSEELGIDLHFKFEGLNPTGSFKDRGMVMAVAKAMEEGSRTIMCASTGNTSAAAAAYAARGGLNCIVIIPNNNIALGKLAQAMIYGAKVIAIEGNFDRALEIVREITAKHPISLVNSVNPYRIEGQKTAAFEVVDQLGKAPDVLAIPVGNAGNISAYWKGFKEYHAAGKSTSLPKMLGFEAEGAMAIVKGEPIPNPETVATAIRIGNPASWKTAVAAAQESGGQINYVTDEEILEAYRKIASREGIFAEPGSAASIAGVYKMKREGYFKGGESVVCVLTGHGLKDPNIAISTVNAEPLVVSDTESAVMDAIAKLEGAARV	PGPT0009175_5918	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
AK002_01548	969	thrB_2	COG0083	Homoserine kinase	ATGAGTTTGTCCCAAGGCGTCCGGGTGAAGGTTCCGGCCAGCACGGCTAATTTGGGACCCGGATTCGATACGCTCGGCATGGCATTGTCCCTGTATTCCTGGATCGAGATGAAAGCGTCGGAGAAGACCGTGTTCCATCTTCATGGCGATGAGATGGGCGGTCTGCCGACCGATAAGAGCAACCTGATCTATAAGGTGGCTCAGATGGTTTTTGAAGAAGCGGGACAGGCAGTTCCTGATCTCGAGATTTCCATGTATTCCGATATTCCGCTAACCCGCGGCCTTGGCAGCAGCGCATCGGCGATCGTAGGCGCGCTGGCTGCAGCCAACGCTCTAATCGGGTCACCCCTGCCGGATTCCAAGCTTTTTGATATGGCGACGAATCTTGAGAAGCATCCTGATAATGTGGGGGCTTCTTTATTTGGAGGAATCATTGCGGCCGTATGGGATGGGTCCCATGCGGATTATATGCGCATCGAACCTCCGGCGGACCTCGGAACGCTCGTGGTGATTCCCGATTTCGAGCTGGCGACATCCAAAGCAAGGGAAGCGCTGCCCGCCCAGGTCAGTTTAGCGGATGCTGTATATAATATTAGTCGGTCCTCCTTAATGACCGCTGCTCTTTCGGCAGGCAGACTGGACTTGATTCGTGCCGCGATGAAAGACCGGATTCATCAGCCATATCGTGCGTCGCTTGTACCGGGGATGTCCAAGATTTTGGCCGAAGCGCCTGATCACGGAGCACTCGGCATCGCGCTGAGCGGAGCGGGTCCGACGATGATTGCGCTGGTGGACCGGAACGAACCGCGTGCAGAAGAATTGGGCACGTATCTCACGGAGACGATGAAGGCGGAAGGAATCCTGTCTTCGTGCTACCCATTGAATCCAGTTGCGGAAGGCGTCCAGCTCTTGGATGATATTAATAATAGATCCTTTTTGGATATGATTAGAGGGGAAGTTACCGCATGA	MSLSQGVRVKVPASTANLGPGFDTLGMALSLYSWIEMKASEKTVFHLHGDEMGGLPTDKSNLIYKVAQMVFEEAGQAVPDLEISMYSDIPLTRGLGSSASAIVGALAAANALIGSPLPDSKLFDMATNLEKHPDNVGASLFGGIIAAVWDGSHADYMRIEPPADLGTLVVIPDFELATSKAREALPAQVSLADAVYNISRSSLMTAALSAGRLDLIRAAMKDRIHQPYRASLVPGMSKILAEAPDHGALGIALSGAGPTMIALVDRNEPRAEELGTYLTETMKAEGILSSCYPLNPVAEGVQLLDDINNRSFLDMIRGEVTA	PGPT0020275_611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
AK002_01549	888	pheA		Bifunctional chorismate mutase/prephenate dehydratase	ATGAAAAAAATAGCCTTGTTGCCCTCAGGATCGGTATCTCATGAAGCGATACTTTATCTCCTAAATGGTGAGCCGGTGGAATTTGTCCACCATAAACTGATCTCTGATGTATTTATGTCAACAGTAGAAGGAAAAAGCGATTACAGCGTGATCCCGATCGAGAACACCATTGAAGGCTCCGTGAGCCTTCATATGGATTGGCTGGTCAATGAGGTGGATCTGCCGATGCAGGTGGAGTGGGTTTATCCCTCCATTCAGAACCTGATCGGTAATGCTGCCGAATTCCGTTCAAGTGACGGAACGATGGATTACAGCCAGATCAAAAAGATCTGGTCCCACCAAGTTGCGACCGCCCAGTGTCGTCAGTTCCTTGCGAAGGCTGCACCACAGGCTGAGTTGGAGCAAGTGGGCAGCACCTCCGAAGGGGTTAAGATCGTAAAGGAGAATCCCGGCCGGGGATGGGCGGCAATCGGCACTTCGCTAGGCGCGGCCACCCACGAATTAAACGTGCTTGCTGAGCGCATTACCGACCATGATAACAATTACACACGGTTTGTGCTGATCGGACGCGAGCCGATATTGGTCAACCGTTCGCCGGAACATATCAAGACCAGCATTCTCGTAACGCTTCCAGAAGACGTGCCGGGAGCGCTGCACCAGGTGCTTTCCGCTTTTGCGTGGCGTCGCCTGAACCTGTCGCGGATCGAATCCCGTCCAACGAAGAAGAAGCTCGGTAATTACTATTTTTATATCGATGTCATGGCCGCAGCGGATTCCGTTCTGTTGGTTGCCGCCATGGGAGAGATTGAAGCGCTGGGATGTCTGGTTCGAGTGCTGGGCTCTTATCCGGGCTATGCCTATGAGAGTGAGAAAATGGAGGTTAAGTAA	MKKIALLPSGSVSHEAILYLLNGEPVEFVHHKLISDVFMSTVEGKSDYSVIPIENTIEGSVSLHMDWLVNEVDLPMQVEWVYPSIQNLIGNAAEFRSSDGTMDYSQIKKIWSHQVATAQCRQFLAKAAPQAELEQVGSTSEGVKIVKENPGRGWAAIGTSLGAATHELNVLAERITDHDNNYTRFVLIGREPILVNRSPEHIKTSILVTLPEDVPGALHQVLSAFAWRRLNLSRIESRPTKKKLGNYYFYIDVMAAADSVLLVAAMGEIEALGCLVRVLGSYPGYAYESEKMEVK				NA	NA	NA	NA	NA
AK002_01550	885	ilvE_2	COG0115	Branched-chain-amino-acid aminotransferase	ATGTCGGAGCAATGGATCTATTTAGATGGAGAATTTGTCACAAAAGAGAATGCTAAAGTATCTGTTTTTGACCATGGTTTTCTGTACGGAGACGGCATATTCGAAGGCATTCGAATATATAACGGCAACATCTTTAAGTGCAAAGAGCACTTGGACCGGCTGTATGATTCCGCCAAGTCCATCGATTTAGTCATCCCCCTGGCATATGAAGAATTGCTGGAGGCTATGGCCGAGACCATTCGACGCAATGACATGCGGAATGGGTATATCCGTATCGTGGTATCCCGCGGTGCCGGCAACTTGGGTCTGGATCCGCGCCGCTGCCCTAAACCGACCGTGTTGATCATTGTGGAGCAGCTGGCGATTTATTCTGAAGAAGCTTATCTCAATGGCCTGAAGGCCGTCTCCGTTGCCCAGCGGCGTAACATACCGGATGCGCTTAACCCGAAAATCAAATCCTTGAACTATTTGAACAATATCCTCGTGAAGATCCAATCCAACTTTGCGGGAGCGGATGAGGCTATTATGATGAACGCGCAGGGATATGTGACGGAAGGCTCCGGGGACAACATTTTCATCGTCAAGAACGGCGTAGTCACTACGCCTCCGTGCTATCTTGGCGCACTTGAAGGCATTACGCGTCAAGCCATTATCGACTTATGCGAGAAACTCGGCATTAAACTGAAGGAAGAGCCGTTCAGCATGCATGACGTATATATTGCGGACGAAGTCTTTTTTACGGGCACGGCTGCCGAGGTTATTGCAGCCCGCGAAATTGACGGACGGATCATCGGAAAAGGCCAGGCTGGTCCCGTTACGCTGCAATTGCTGGAGGAATTCCGCAAAATTGTGGATCAAGACGGCTATAAAGTATGGGAATCCTAA	MSEQWIYLDGEFVTKENAKVSVFDHGFLYGDGIFEGIRIYNGNIFKCKEHLDRLYDSAKSIDLVIPLAYEELLEAMAETIRRNDMRNGYIRIVVSRGAGNLGLDPRRCPKPTVLIIVEQLAIYSEEAYLNGLKAVSVAQRRNIPDALNPKIKSLNYLNNILVKIQSNFAGADEAIMMNAQGYVTEGSGDNIFIVKNGVVTTPPCYLGALEGITRQAIIDLCEKLGIKLKEEPFSMHDVYIADEVFFTGTAAEVIAAREIDGRIIGKGQAGPVTLQLLEEFRKIVDQDGYKVWES	PGPT0008860_6399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
AK002_01551	1731			hypothetical protein	GTGAAGATACACATCGTCAAGGAAGGCGACACCCTATATGAGCTGTCCAAAAAATACGACGTACCTTTAGCGAAAATCATCGATGCCAATCCACAGCTGGTGGATCCGAATAAGCTCGATGTCGGTGCCAAGATCAAAGTTCCGACCGAGCCCGTTCAGGTCCCTGACGGCAGCCAACCCATTATCCATAAGCATACGGTAAAGCAGGGAGACTCCCTCTGGAAACTGTCCAAGGCATGGGGAGTCACTCTGAAGGAAATCATCAATGCCAATCCGCAGCTTAAGAATCCGAATGCCCTGCTGGTGGGAGAAGTCGTCAACATCCCTTCATCAGGCGTTTCTACGGAATCCGGTGTTGATGACGGGGTTTCCATGAGCAGTGGCAGCGGTGCAGCCGCAGGCAAGAAGAAACCCGGCAGCAAGGATTACACCGGAGTTAAGGAAGAAATAACAGCGCCGATCGAGCAGCCTCCGGTCGTTCCTGAGGTTAAGGAGCCTGAGCCGCCGATTCTGCCGAAGCTTCCGGAGATTTCGCCTTTCCCCGAGGAGCCTAAGAAAATGGAACCGGAATACAAACCGGAGATATTACCTGAAATCAAGAAGCCGATCATCATGCCGGAAATCAAGAAACCGGAGATTATGCCAGAGGTGAAAAAACCGGAAGTGATGCCGGAATTTAAAATGCCCGTAATCATGCCAGAGTTTAAACCAGAATTCAAACCAGAATTCAAACCGGAGTTCAAGCCAGAGTTTAAACCCGAATTCATATCTCCATATAAACCTATGGAGCCGGAGTATACGTATCCTGTCAAAACCATGCCGTTACCGCATCCTGTTCATCCCATAGCCGAACCATGTCCGCCTTTTGCCCAGATGCCGATGCAGATGATGCCGCATCCGTGTCCGGAGTTTCCTTTTAAAGAAGCACCCGCATTTGCAATGCCTCCATTCGGTCTTCATGAAGGTCCCTGCGGGTGTCATGAGCCTATGAAATGGCCGGGCGCCGATTATGGCAATGCCGTCCATCCGTATCACAACATGCCGCAGGAAGCGATGCCTGTTTCCTACAATGAAGGCTGGGGAAGTACAGTTTCAGGATATCCGGGTGTTTCTGAACAGCCGATGAGCATGGAATATTCCCAGTTCTCGATCACGGAATCTTATACAGGGAATATGGTTTCCGACTACCATCCATATCCTGAGCATCATCAGACCGCAATGACATATGGTTATGTTCCGTCTCCTTGCGGATGCCATGGGGGAGAAATGGGGGCGCACCATGACATGCCGCATTTCGGGTACCCACAACATGGACATCGTCCGTACGCGCCTGACATGGGGGCACCGTATCAGCCGTGGCAGGGGGGGATGAACTACAATTCTTGGGCATACGGCTCTCCGTCTGCACCTATGGGAACACATGGAGCCTATCCTTCATTTGTAAATCCATATGAACCGAACTGGAATGATCGGCAAAATGATCAGCCGATCGATTCCGAATTCAATGCTGCAGCTCCTTTCGAAACAAAGCAAAGCAATGTGACGGTTAGCAGTGAATTTGAAAACGGTACGGGGCCATCCATATCCGGAGAGGCCGCCATTGAAGAAAGTAACAAGCCGAAAGCCAAAGTCCATCGTCAGCAAGCCAAAACAGGACCGGCAGCCAAGAAATCGCGCAAGCCGCAATCTTCTGCTAAAAACAAGCGCGACAATCCTTGGATCAGGGGTTAA	MKIHIVKEGDTLYELSKKYDVPLAKIIDANPQLVDPNKLDVGAKIKVPTEPVQVPDGSQPIIHKHTVKQGDSLWKLSKAWGVTLKEIINANPQLKNPNALLVGEVVNIPSSGVSTESGVDDGVSMSSGSGAAAGKKKPGSKDYTGVKEEITAPIEQPPVVPEVKEPEPPILPKLPEISPFPEEPKKMEPEYKPEILPEIKKPIIMPEIKKPEIMPEVKKPEVMPEFKMPVIMPEFKPEFKPEFKPEFKPEFKPEFISPYKPMEPEYTYPVKTMPLPHPVHPIAEPCPPFAQMPMQMMPHPCPEFPFKEAPAFAMPPFGLHEGPCGCHEPMKWPGADYGNAVHPYHNMPQEAMPVSYNEGWGSTVSGYPGVSEQPMSMEYSQFSITESYTGNMVSDYHPYPEHHQTAMTYGYVPSPCGCHGGEMGAHHDMPHFGYPQHGHRPYAPDMGAPYQPWQGGMNYNSWAYGSPSAPMGTHGAYPSFVNPYEPNWNDRQNDQPIDSEFNAAAPFETKQSNVTVSSEFENGTGPSISGEAAIEESNKPKAKVHRQQAKTGPAAKKSRKPQSSAKNKRDNPWIRG				NA	NA	NA	NA	NA
AK002_01567	714			hypothetical protein	TTGAGTGTTTTTCATTTCTTCAAGAAACTGTTCAGAAAACGGTGGAGACGTTGGAGACGCGCGATCTGGTCCTGTTCGATCGTAGTGCTCGTAGGTGTCATGGTATGGTCCGGCCAGACTATAACCGATCAGATGAAGAGGCTGCTCACCGCTACTTTCGATGAAACGCCGCTGGCTGTGGAAACGATGCAATACTTGCAAATCGAGGATGATAAGCAGGAGGAACGCAGGCAGGATCAGAGGGAATTCATGCAGAAGCTGAATACCTCGAAGGGAAAGAAGCATGTTCATGTCCGCATCACGTATGTCTGCGGCATTGAAGAGCAGGATATGGGAAAGCTAACGGCGGACGGCATTTATGAACTGATGAATAAAAATCCTTTATGGCAGGGACGATTGGATAATAAAGGCAATGTCTGGCTCGAGCAAACCGTATCCGACCTTTCACCCGCCTGCAAGCGGCAAGCTTATATGAGCATCGATGCCAACGGGAACTTAACGTTGTTTGACGGCCCGCCGGAAGAAGAGAAGGTCATGCGCACCTTCTTCCAACTGGATGTCGGCTCGATGGAATCCTCTCTGCCTAAAGACGTGATTCAGCAGCTTGAAGAAGGTATTCGAATTCAAGATATGGAAGAGTACAACAGTGTACTGTCAACCTTTAGCGACTATGCACGGGATATGGCCGAAAATGTCATGAGCCCTAGCCCTTGA	MSVFHFFKKLFRKRWRRWRRAIWSCSIVVLVGVMVWSGQTITDQMKRLLTATFDETPLAVETMQYLQIEDDKQEERRQDQREFMQKLNTSKGKKHVHVRITYVCGIEEQDMGKLTADGIYELMNKNPLWQGRLDNKGNVWLEQTVSDLSPACKRQAYMSIDANGNLTLFDGPPEEEKVMRTFFQLDVGSMESSLPKDVIQQLEEGIRIQDMEEYNSVLSTFSDYARDMAENVMSPSP	PGPT0014765_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014765-bofC-K06318	NA	NA
AK002_01568	504	ruvC	COG0817	Crossover junction endodeoxyribonuclease RuvC	TTGCGCATTTTAGGAATCGACCCGGGAATTGCGATTGTGGGTTTCGGGTTTGTCGATAAGGTTGGAAGCAAAGTTACGCCGGTTCAGTATGGCTGCATCCAGACGGAAGCCCATACACCGGATGAAGAGAGGCTGCATCACGTGTATGAAGGCATGCTGCAGCTTATCGATAAATATGAGCCGGAGGCCGTTGCATTCGAGAAATTGTTTTTTAACCGCAACGTCACCACCGCGATGTCCGTATCCCAGGCGAGAGGAGTTCTCATACTGGCGGCGGTCCAGCGCGGACTCCCGATTGCAGAATATACGCCTATGCAGGTTAAGCAGGCCATCGTCGGCTATGGCAAGGCAGAGAAGAAGCAGGTACAGGAAATGGTCAGGATGTTCCTGAAGCTGCAGAGCATCCCCAAGCCCGACGATGTGGCGGATGCTCTGGCCGTGGCAATCTGCCACGCCCATTCCTATACACTTAATTCCAAATTAAATGAGGTATTGCGAAAATGA	MRILGIDPGIAIVGFGFVDKVGSKVTPVQYGCIQTEAHTPDEERLHHVYEGMLQLIDKYEPEAVAFEKLFFNRNVTTAMSVSQARGVLILAAVQRGLPIAEYTPMQVKQAIVGYGKAEKKQVQEMVRMFLKLQSIPKPDDVADALAVAICHAHSYTLNSKLNEVLRK				NA	NA	NA	NA	NA
AK002_01569	618	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	ATGATCGATTTTTTACGGGGACAGGTTGTCCACTTAGAGAGTGAATATATTGTGCTGGATGTTCAAGGCGTAGGATACCGGGTGTTTTGTCCGAATCCGTATGCTTTTGCCAAAACGGAAGGAACCGTGACGGTTTTCACCCATCATCACGTCCGTGAGGATGCCATTCTGCTGTTTGGGTTTCCGACGCGGGAGGAGCAGAGGCTGTTCCGTAAGCTGATCGAGGTCTCGGGAATCGGCCCGCGCGTGGCGCTCGGCATACTCGGCGGAGGATCTCCGGATCATGTGGTTTCCGCGATCTATCAAGAGAATATATCCTTCTTGATCAAACTTCCGGGAATCGGCAAGAAAACAGCGCAGCGCATGATTTTGGATCTTAAGGATAAGCTTGAGGGCTTCGGGAATGCGAGCATGATGACCGGTCTTTTTGCCATCCAGGAGCCGGAAGCGGATGATGGCGGCTCGGCATGGTCCGAGGCTCGCGAGGGCTTGAAGGCGCTTGGTTATACGGATAGCGAGCTGGATAAAGTCTGGCTGAAGATCAAGGATTCCGGCGCAAGCGGCGAATCCGTCGATGTGCTCATGAAACGGGCACTGCAGCAGCTATTCGCTGGATAG	MIDFLRGQVVHLESEYIVLDVQGVGYRVFCPNPYAFAKTEGTVTVFTHHHVREDAILLFGFPTREEQRLFRKLIEVSGIGPRVALGILGGGSPDHVVSAIYQENISFLIKLPGIGKKTAQRMILDLKDKLEGFGNASMMTGLFAIQEPEADDGGSAWSEAREGLKALGYTDSELDKVWLKIKDSGASGESVDVLMKRALQQLFAG				NA	NA	NA	NA	NA
AK002_01570	1008	ruvB_2	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGGACGATCGAATTATTTCCGCCAATCTGATGATGGACGAGCAGGCTGTCGAGCTTAGTTTGCGTCCGCGTTATTTGGCTGAATATATAGGACAGAATCAAGTAAAGGAAAATTTGAAGGTATACATCGAGGCTGCAAAAATGCGCAACGAGGCGCTTGACCATGTGCTGCTGTACGGTCCTCCGGGACTTGGCAAAACGACGCTGGCCAATATTATCGCCAATGAGCTTGGCGTTAATCTGCGGACGACGTCCGGCCCGGCCATCGAACGGCCTGGCGATCTGGCGGCGCTTTTGACCAATCTGCAGGAAGGAGACGTCCTGTTTATTGACGAGATCCACCGGCTGCACCGGACGGTAGAGGAAGTGATGTATCCGGCCATGGAGGATTTTGCGCTGGATATTATGATCGGGAAAGGGCCAAGCGCACGCTCCGTTCGCCTGGATCTCCCGCCGTTCACCCTTATTGGCGCCACAACCCGGGCTGGCTTGCTCTCAGCGCCGCTGAGGGACCGTTTTGGTGTGGTAAGCCGTCTGGAATTCTATACAGTAGATGAGCTGAGCTACATTGTGTCACGCAATGCCGATCTTTTGGGGATCGAGATATTGGGGGAGGCCGCAGAAGAGATTGCCCTAAGATCGCGAGGGACACCGCGCATTGCGAACCGCCTCTTGAAACGGGTCCGCGATTATGCACAGGTTCGGGGCGACGGCATGATCACGCCAAGCATCGCGCAGGAAGCGCTGAAGATGCTCCAAATCGATCCGATGGGCTTGGATTTTATCGATCACAAAATGCTGAACGCCATGATCAAGAGCTTCCGCGGAGGACCTGTGGGACTGGATACCATTGCCGCAACCATCGGGGAAGAAAGCCAAACCATCGAAGATGTTTATGAACCGTATCTGCTGCAGATCGGTTATTTGCAGCGTACGCCGCGGGGACGCGTCGTAACGCCTACAGCTTATCAGCATTTAGGCATTCCCTTTCCTGAGGATCGCCGCTAG	MDDRIISANLMMDEQAVELSLRPRYLAEYIGQNQVKENLKVYIEAAKMRNEALDHVLLYGPPGLGKTTLANIIANELGVNLRTTSGPAIERPGDLAALLTNLQEGDVLFIDEIHRLHRTVEEVMYPAMEDFALDIMIGKGPSARSVRLDLPPFTLIGATTRAGLLSAPLRDRFGVVSRLEFYTVDELSYIVSRNADLLGIEILGEAAEEIALRSRGTPRIANRLLKRVRDYAQVRGDGMITPSIAQEALKMLQIDPMGLDFIDHKMLNAMIKSFRGGPVGLDTIAATIGEESQTIEDVYEPYLLQIGYLQRTPRGRVVTPTAYQHLGIPFPEDRR				NA	NA	NA	NA	NA
AK002_01571	2091			hypothetical protein	ATGGATAGGAACTGGACGAAATCATTATTCGGTTGGACCACCAAAGGACTCTTGTCGCTGGCTGTTGCCGGAAGCATATGGAGCGCGCCCGTCGTGCAAGCAGCCGCCCCTTCGTTAGATACGATTCGGGTTGCGATGTTCCTGGATCTGGGAAGCCAGTATAAATCGACGACCAATGCCGTAACGCTGAAATCCGCCGAGGCTTTGACGGCATCGCTGCTTGCTTCCGGTACTCATCAGACCCTGATGAGTATCCCTGCGAACCAGCAGGTCCGGATGAGCGTGGATACATACCGCGTTAAGGTGCTTGAGACAACGGATTGGAAAGCCGCTTCCGAAGCAGCCAAAAAGCTGCAGGCGACAAGTGACAAGCCGATGCTGTTTGCGGATGGCAAGATGTACAAGCTGTACGCCGGCATGTACGGTACAGAAAAAGCGGCCGCGGATGCGGCTGCTCGGACAGCGAAGACAGCGGCTGCATATCTGAATGGGCAAACGCCCACCGTTAAAGGCGCGCTGCATCTGTCCGCCGGATCGTACGGATCGGAGACTGAGGCGGAGACCGTGCGTAAGGCGTACGCTGATGCCGGTCTGGATGCATTCAATGTCATGGTGCCGACCGGGGAAGCTTCGGCTTATGAGGTGTGGGTAGGCGAAGCGGCGAACACGGCCGATCTCGCTGCCGTCAAGAAAGAAGCTGCCAAAGTATCCGGCGGCCTGGTTGAGCAGAACGCCAACACGCCGGGTCTTATCATAAAAAGTGACGTAAGCCTGAATCTGGCGGCTCCCCAAGAGGTGACGCATTACATGCTGTCAGGTAATCAATCCGTTCTGCGGGTTGACGGGAAATCAGGAGCGGGAACGAATGTGAAGGAGCGATCCGATCGCTCCTATCGAGGCGCTTTGGAGATCGGGCAAAAGAACGGTCAATTATACCTCGTCAACGAATTGCCGTTCCAGCAGTACCTATATTCCGTCGTGGGGGCGGAGGTGCCGTCTTCTTGGGGAACCGAGGCTCTGAAGGCACAGGCCGTGGCAGCGCGCAGCTATGCGCTCTTCCAAGGAAATAAGTTCGAAGTAGCGCATGTCGTGGACACTACGCTGAGCCAGGCCTATTATGGGACGGCTTATGAGTATCCAAGCATTATTCAGGCAGTGGATGCAACCGACGGCGAAGTCGTCATGAAAGACGGCAAAATCGTGGAAACCGTGTTTTCCTCCAACAGCGGTGGGATGACGGCGGACTCCACCGAGGTCTGGGGCAATCGTAACGATCTGTTTGCCGCAGTGGAAAGCCCTGGTGACTCCTCATCCCAGGCCGCGCTTAAAGCTTGGTATCATGTGCTTCTTCCGAGTGGCGTTACGGGTTACGTGCGTGAGGATAATGTAAAGGAAACGGGCAATGCAACATCGGCAGGTCTTCCTTATATGACTGTTACCGCCAAGGATACCAACGTGCGCCCGCTGCCGCTGATCCAATCGAACGTTGAGCCCGTAAGCAAGATGAATCCGGGAGAAACGGCCGTCGTCTTGGACAAAGTCGCGGAATCCAACAGCTTCGAATGGGTTCGAGGCCCTTATACTTCGGATCAATTGCTGGCCACTTTAAAAGGAAAAACCGCCAATAGCCTGCCGGCCTCCATTACTTCGCTGGATGTAACCGAACGAGGCCCATCGGGGCGGGCTCTTACGGTAAAAGCCAACGGCCAAGTGCTGGACGTAAAATATCCGGATATGTTCCGGTCGGCTTTTAACGGTCTGCCAAGCACGTTGTTTGATATTGAATCGACCGGAAGTTATACTGTATTGAGCGCGAATGGTGCGGTATCAACGGTTTCGAGCGGTCAAACGGTATCCGTCATTTCCGGAAGCGGAAACGGTAACGTCAAAGGCTCCGGCACCGTCGTGATGAATGGAACGGGGACAGCACGCGTAATCGAAAGCTCTCCGGGCTTTAAATTTACCGGTAAAGGCTTCGGCCACGGACTGGGCATGTCGCAATGGGGTGCCAAAGGAATGGCTGACGAAGGGTATGATTATAAGCAGATACTCCAACACTATTACCGCGACACGACTATAACGAAGGACTGA	MDRNWTKSLFGWTTKGLLSLAVAGSIWSAPVVQAAAPSLDTIRVAMFLDLGSQYKSTTNAVTLKSAEALTASLLASGTHQTLMSIPANQQVRMSVDTYRVKVLETTDWKAASEAAKKLQATSDKPMLFADGKMYKLYAGMYGTEKAAADAAARTAKTAAAYLNGQTPTVKGALHLSAGSYGSETEAETVRKAYADAGLDAFNVMVPTGEASAYEVWVGEAANTADLAAVKKEAAKVSGGLVEQNANTPGLIIKSDVSLNLAAPQEVTHYMLSGNQSVLRVDGKSGAGTNVKERSDRSYRGALEIGQKNGQLYLVNELPFQQYLYSVVGAEVPSSWGTEALKAQAVAARSYALFQGNKFEVAHVVDTTLSQAYYGTAYEYPSIIQAVDATDGEVVMKDGKIVETVFSSNSGGMTADSTEVWGNRNDLFAAVESPGDSSSQAALKAWYHVLLPSGVTGYVREDNVKETGNATSAGLPYMTVTAKDTNVRPLPLIQSNVEPVSKMNPGETAVVLDKVAESNSFEWVRGPYTSDQLLATLKGKTANSLPASITSLDVTERGPSGRALTVKANGQVLDVKYPDMFRSAFNGLPSTLFDIESTGSYTVLSANGAVSTVSSGQTVSVISGSGNGNVKGSGTVVMNGTGTARVIESSPGFKFTGKGFGHGLGMSQWGAKGMADEGYDYKQILQHYYRDTTITKD	PGPT0024670_75	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381	NA	NA
AK002_01572	1032	queA	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGAATGTGGATTTGTATGATTTTGAATTACCTGAACACTTAATTGCGCAGACGCCGCTGCTGGACCGAAGTTCTTCCAGGCTTCTCACGCTGAACAAAGAGAGCGGACAGATAAGCCACCAGACGTTTGCGGATATCATAGACAGCCTGAATCCGGGCGATACGCTCGTATTAAACGATACAAAGGTAATCCCGGCCCGATTGTTCGGCGAAAAGGAGGATACCGGGGCGAAAGCCGAGGTCCTTCTGCTGAAGAATATGGGAGAAGATCGCTGGGAAGCACTCGTAAAACCCGGCAAGAAGCTGAAAAAGGGAAACGTGATTTCCTTTGGCGACGGGAAACTAAAGGCGGTCATTGAGGAGGAAGGAGAAATGGGTGCTCGCACCTTGTCCTTCTCGTATAAGGGGATTTTCCAAGAAATCCTGGATGAACTGGGCCAAATGCCGCTCCCGCCTTATATTAAGGAAAAGCTGGATGATCGCGATCGTTATCAGACCGTATACGCGAAGCATGAAGGATCCGCAGCCGCGCCGACGGCCGGCCTTCATTTCACGGAGGCTCTACTGGAACAAATCCGGGCCAAGGGAGTGGACATCGCCTTCATCACTTTACATGTGGGACTGGGAACATTCCGCCCGATGTCCGTGGACCAGGTCGAGGACCATGTCATGCATGAAGAGTACTATTCCCTATCCCAGGAAACGGCAGACCTGCTGAATGAAACGAAACGGCGCGGCGGCCGGGTTATCGCCGTAGGAACTACCTCCTGCAGAACGCTGGAGACGGTAGGCTCACAGTTAAAGGGCGAGCCTCTGCGCGAGAGCAGCGGCTGGACAAGCATTTTTATTTATCCGGGATACTCTTTTACCGTGGTAGATGCGCTGATTACGAATTTTCATCTGCCGAAATCCACGCTGGTCATGCTGGTCAGCGCACTGGCCGGACGCGAACACATCATGCATGCGTACAAGGAAGCCGTTGACAAAGAATACCGTTTCTTCAGCTTTGGCGACGCGATGTTTATCTATTAA	MNVDLYDFELPEHLIAQTPLLDRSSSRLLTLNKESGQISHQTFADIIDSLNPGDTLVLNDTKVIPARLFGEKEDTGAKAEVLLLKNMGEDRWEALVKPGKKLKKGNVISFGDGKLKAVIEEEGEMGARTLSFSYKGIFQEILDELGQMPLPPYIKEKLDDRDRYQTVYAKHEGSAAAPTAGLHFTEALLEQIRAKGVDIAFITLHVGLGTFRPMSVDQVEDHVMHEEYYSLSQETADLLNETKRRGGRVIAVGTTSCRTLETVGSQLKGEPLRESSGWTSIFIYPGYSFTVVDALITNFHLPKSTLVMLVSALAGREHIMHAYKEAVDKEYRFFSFGDAMFIY	PGPT0023660_3169	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
AK002_01573	1140	tgt		Queuine tRNA-ribosyltransferase	ATGGCAGCAGCTGTTACTTATGAACATATTAAAACGTGCAAACAATCGGGCGCCAGGCTCGGCAGAGTGCACACTCCCCACGGCGTGATCGATACGCCGACGTTCATGCCTGTGGGAACGTTGGCAACCGTAAAAACGATGAGCCCGGAAGAGCTTAAAGCGATGGATGCGCATATTATTTTGAGCAACACCTATCACCTCTTCCTGCGACCGGGACATGATATTGTGAAGGAAGCAGGCGGACTGCACAAATTCATGAACTGGGACCGGCCGATATTGACCGATAGCGGCGGTTTCCAGGTATTCAGCTTGGCGGAAATGAGAAAAATATCGGAAGAGGGCGTACATTTCCGTTCGCATTTGAACGGAGATAAACTGTTCATCTCTCCGGAGGTCGCAATGGAGATTCAGAACGCGCTGGGATCTGATATTATGATGGCCTTTGATGAATGCCCGCCTTTTCCTGCGGAGTATGAGTACGTCAAACAATCAACCGAGCGGACTTCCCGCTGGGCTGAACGCTGCCTGAAGAGTCATGCCAGACCGGAGGACCAAGCCCTGTTCGGCATCGTCCAGGGAGGCATGCATGAGGATCTTCGCCGTCAGAGCGCCCGTGATTTGACTTCCATGGATTTCCCGGGTTATGCTATTGGTGGACTTAGTGTGGGAGAATCGAAGCAGCTTATGTATGAAGTGCTGGATTACACGGTGCCCCTGCTGCCGAACAATAAGCCTCGCTATTTGATGGGAGTCGGATCACCGGATGCGTTGATTGAGGGCTCGATTCGTGGTGTGGATATGTTCGATTGCGTGCTTCCGACGCGGATCGCCCGCAACGGGACAACGATGACAAGTCAAGGCCGTCTTGTCGTTCGAAATGCTCAATATGCCAGGGATTACGGACCGCTGGATCCGGAATGCGACTGCTATACCTGCCGTAACTACTCGCGTGCTTATCTGCGTCATCTGATCAAGAGCGACGAAACGTTCGGACTGCGATTGACGACGTATCATAATCTGCATTTCCTGATCAATTTGATGCGTAACGTGCGTCAGAGTATTATGGAAGACCGTCTGCTTGATTTCCGCGATGAGTTTTTTGATAAGTACGGCCTACACGATAATGAAAAAGGGTTCTAA	MAAAVTYEHIKTCKQSGARLGRVHTPHGVIDTPTFMPVGTLATVKTMSPEELKAMDAHIILSNTYHLFLRPGHDIVKEAGGLHKFMNWDRPILTDSGGFQVFSLAEMRKISEEGVHFRSHLNGDKLFISPEVAMEIQNALGSDIMMAFDECPPFPAEYEYVKQSTERTSRWAERCLKSHARPEDQALFGIVQGGMHEDLRRQSARDLTSMDFPGYAIGGLSVGESKQLMYEVLDYTVPLLPNNKPRYLMGVGSPDALIEGSIRGVDMFDCVLPTRIARNGTTMTSQGRLVVRNAQYARDYGPLDPECDCYTCRNYSRAYLRHLIKSDETFGLRLTTYHNLHFLINLMRNVRQSIMEDRLLDFRDEFFDKYGLHDNEKGF	PGPT0008145_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
AK002_01574	312	yajC	COG1862	Sec translocon accessory complex subunit YajC	ATGTTTGGTTCATTTGAACTCGCAGCAGGACAGACTCAAGGCGGCGGAGGCATTTTAGGATTGATTTTGCCTTTCGTTCTGATGTTCGTCATCTTTTATTTTCTGCTTATCCGTCCACAGCAGAAGAAACAGAAAACAAGAAACGCAATGCTTAGCGCCTTGTCCAAAGGCGATAAAGTGGTAACGATCGGAGGCCTTCACGGGACGATCGTGGAGATTACCGACGACATCGTGGTTTTGAAAGTGAACGACGTAACGAAGTTGACGTTCGACCGCAACTCGGTAAGCCATAGCGTGAATACGGATGCATAA	MFGSFELAAGQTQGGGGILGLILPFVLMFVIFYFLLIRPQQKKQKTRNAMLSALSKGDKVVTIGGLHGTIVEITDDIVVLKVNDVTKLTFDRNSVSHSVNTDA	PGPT0025730_3146	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
AK002_01575	390			hypothetical protein	ATGGAACCGATCCGGCGAGTATTCACTTTCAGGATCACCAATCCGATTCTTTCAGGACTATTGTATTCTTATTTCTGGATGTTTCTTGGCGCATTGGCGCTATCCCTGCTGCTGTGGGGCAGCGGACTGGCCGAGGATGATTTATCGTTCTACACGTTTCTGGTACATGCCGTCGCGGCCTTTATTGGTGGCTGCGTGAGCGGCAAACGCGCAGGTAACAAAGGCTGGTATTATGGCTGCCTTACCGGGCTGGTATACGGGATTACGCTGCTCGTCATCGGCTTTCTGGCCTTGGATAGTTCCTTGTCGCTCGGAGATTTGACGCTGATTGCCACGGTTTTTGCTGCCGGCGCCATCGGGGGAATGTTCGGGGTTAACTTAAAAAAATAA	MEPIRRVFTFRITNPILSGLLYSYFWMFLGALALSLLLWGSGLAEDDLSFYTFLVHAVAAFIGGCVSGKRAGNKGWYYGCLTGLVYGITLLVIGFLALDSSLSLGDLTLIATVFAAGAIGGMFGVNLKK				NA	NA	NA	NA	NA
AK002_01576	786			hypothetical protein	ATGTCTCATCTGACTATTCTGATTCTGCGGACCGTTCTGATGTATGTGGTCATCTTTGCTACCATGAGAATCATGGGCAAACGGGAAATCGGAAAGCTGTCTATCTTCGATTTGGTCATATCCGTCATGATCGCAGAGATCGCCGTTTTTGTCCTCGAAGATGTCCATAAACCGATTTGGGACGGACTAGCTCCTATCGCCGTGTTGGTTGCCATTCAGGTAGGACTTGCCTACATCGGCCTGAAAAATCGAAGCATACGGCTGTTTGCGGACGGAAAGCCCAGCATACTGGTATCCCGAGGCAAGCTTCACCGCAAAGAGATGTCAAAGCTTCGCTACAATCTTGATGATCTGATGCAGCAATTAAGAGGGAAGGACATCGACAGTTTGGCAGACGTGGAATTTGCGATTCTCGAAACTTCCGGCCAGCTCACCGTGATTCCAAAAGATGCGGACAACGGTTCGAACCGCTCGAATAGTTCATCAAGTTCTTCCAACGCCTCAAGCTCCACTCATTCTTCAGGTACTTTATCCAAGGCCAAATCCGAAACAGGAAACCCTACCGTTGTTGATATTCCATACGATAAAATTACGTACGAAGGACTGCCCATTCCGCTTATATTGGATGGAAAGGTGCAGGACGAAAACCTTGAACTAATTGAAAAAACAAGGTTCTGGCTGAAAAACGAGATTCAAAACCACGGAGCCAAGGATTTTAAAGATATCTTCCTATGCTCCATCGACCATAAAGGACGAATTTACATCGACCGCAAAGACAGGGACTAG	MSHLTILILRTVLMYVVIFATMRIMGKREIGKLSIFDLVISVMIAEIAVFVLEDVHKPIWDGLAPIAVLVAIQVGLAYIGLKNRSIRLFADGKPSILVSRGKLHRKEMSKLRYNLDDLMQQLRGKDIDSLADVEFAILETSGQLTVIPKDADNGSNRSNSSSSSSNASSSTHSSGTLSKAKSETGNPTVVDIPYDKITYEGLPIPLILDGKVQDENLELIEKTRFWLKNEIQNHGAKDFKDIFLCSIDHKGRIYIDRKDRD				NA	NA	NA	NA	NA
AK002_01577	1602	spoVB	COG2244	Stage V sporulation protein B	GTGAACAAGCAATCGTTTATTAAAGGAACGCTGATTTTACTTGCAGCCGGCATATTAAACCGCCTACTCGGTTTTATCCCCCGGATCGCCCTTCCCCGGATCATCGGACCCGAGGGTGTCGGAATTTACCAATTGGGCTACCCCTTCTTTATCGTGCTCGTGACTATCATCACGGGTGGTATTCCGCTAGCCATCGCCAAAATGGTCGCCGAAGCGGAAGGTGCCGGGAAGCAGGATGCTTCCAAGAAAATTCTGCATGTCAGCCTGATGCTGACGATTACGGCGGGAGCCCTCTTCACGGGACTCAGTCTGCTGCTTGCTCCTTGGGTAACCGGTGTCCTTTTGCCGGACGAGCGTGTATATCAAACCTTCATCAGCATGACGCCCATGATGATCATCATTGCCGTTTCGTCGGTCTACCGGGGATATTTCCAGGGCAAACAAAATATGATCCCCTCTGCAAGCTCCTCCGTTATCGAGACGATAGTCCGAATTATATGCATGTTGTGGTTTGCGCATCTCCTGATGCCCAAAGGCATCGCTTACGGGGCAGCCGGGGCCATGCTTGGAACAGCCGTGGGCGAGCTGATTGGCATGATCGCGCTGCTGCTGCAATATTCCGGCGAGGGTCGAAGAACGAACAAACTTTTGCCTAAGCCGCAAAAAGTCGTATCTGAAAAAAAAGCGCCGGAAGACTCTCCTTCGAATAAAGGCATCCTGAAGCGGTTACTCGGCATTGCATTGCCTGTAACGGGCGGAAAGATGGTGGGGTCCTTCTCCTACCTGCTGGAAACGATACTGACCAATCGCAGCCTCGCCATGGCAGGTATCGCGACATCCGTGGCCACCGCCCAATACGGCGCTCTGCAAGGCATGATCATCCCGCTCCTGCTATTGCCCGGTGCGTTGACCGTTTCCCTGGCCATCTCCCTGGTGCCTTCCCTATCGGAGGCAGCAGCCCGCAACGACCGGCCTACCATCCATAAGCGAATGAATCAATCCCTTCGGCTGGCTCTCGTCTCGGGAGCTCCGTTTGCCATCATTATGTTTGTCCTGGCCGAGCCGCTGTGCCTGCTGCTCTACGACAACGCCGAGATTAGCGATATGCTCAAAATCATGGCGCCCTTTGCCTTGTTTCTGTATGTGCAGTCCCCGCTTCAAGCTGCCTTGCAGGCATTGGACCGCCCGGGACGGGCTTTGTTGAATACCTTATTCGGTGCGATCATCAAGATGAGCCTTATCGTGTATTTGGCTTCCAACCCCGCCTTCGGCATCATAGGGGCCGTCATTGCCATCATCGTTAACAGCATCGCGGTTACATTGCTTCACGGTTTTAGTCTCTCCAGGCTGATCGGCTTTCGGTTCCGCCTGCTCGATTATGTCAAAATCGCTGCCGTCATGATCATTATGGGTGCCTGCGTTCTTTACGGATATAGACATCTTCCGTTCTCGACGACCCCCTGGCTGCAGTTTTTGACCTCTATCGTGGTTGGCATTCTGGTCTATTTCATCATGATTTTTATGACCAAGCTGGTAACGCCCCGGGATCTGGAACGCGTCCCTGTCGTCGGTACCTGGTTCAACAAGTTTAGCCGCCGCTAG	MNKQSFIKGTLILLAAGILNRLLGFIPRIALPRIIGPEGVGIYQLGYPFFIVLVTIITGGIPLAIAKMVAEAEGAGKQDASKKILHVSLMLTITAGALFTGLSLLLAPWVTGVLLPDERVYQTFISMTPMMIIIAVSSVYRGYFQGKQNMIPSASSSVIETIVRIICMLWFAHLLMPKGIAYGAAGAMLGTAVGELIGMIALLLQYSGEGRRTNKLLPKPQKVVSEKKAPEDSPSNKGILKRLLGIALPVTGGKMVGSFSYLLETILTNRSLAMAGIATSVATAQYGALQGMIIPLLLLPGALTVSLAISLVPSLSEAAARNDRPTIHKRMNQSLRLALVSGAPFAIIMFVLAEPLCLLLYDNAEISDMLKIMAPFALFLYVQSPLQAALQALDRPGRALLNTLFGAIIKMSLIVYLASNPAFGIIGAVIAIIVNSIAVTLLHGFSLSRLIGFRFRLLDYVKIAAVMIIMGACVLYGYRHLPFSTTPWLQFLTSIVVGILVYFIMIFMTKLVTPRDLERVPVVGTWFNKFSRR	PGPT0024825_222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024825-spoVB-K06409	NA	NA
AK002_01578	258			hypothetical protein	ATGGAACTCGAGCAAATGAGCGAGGAAGAATTGATGAGCACCATTGAGATGGTATGCTTGAGCAAGGTTGAGGAAATGCATTTGATTGGGTACGAGTATGTGACGAGCGACGATATTTGGAACTGTGTCAGCAGCAAGTACCAAAAGGAAGGCGTTCCACCCCTCCACCAATTGGTCAACGACATTCTGTCCTTGAAAGCAACAGCCTTGATGAACTATATGACAATATCAGCATATAAGGGATCTTCTTTCGATTAA	MELEQMSEEELMSTIEMVCLSKVEEMHLIGYEYVTSDDIWNCVSSKYQKEGVPPLHQLVNDILSLKATALMNYMTISAYKGSSFD				NA	NA	NA	NA	NA
AK002_01579	1251	secDF_1	COG0341	Protein translocase subunit SecDF	ATGAAGAGAATTATCAGTTTCGTCGGAACCGTGCTCGTGATCACTATTTTAATGGCCGTTACAACTCCAGGCTTGCTGAAAGACGTCCGTCTAGGTTTGGATCTAAAGGGTGGATTCGAAATCCTTTATGAAGCAGAACCGTTGATGGAAGGGCAGCAGGTTACCAAAGAAGCGCTGCAGGAAACCGCAAAGAGCTTACAAAAGCGTGCGGATGCGATGGGAACATCGGAGCCTGAGGTTACGCCGGAAGGGGCGAATCGGATTCGCTTGAAGGTGGCGGGCGTAACGGATGAGGCCGAAGTTCGAAAAACAATGAAAGAACCTGCGAACCTCACATTCCGAAGCAATGACGGCTGTAAAGAAGGCGAGGAGTTCTGTAAAATAGAGCTCCGCGGCGACGATTTCGTCGAGAACGGCGCATCGGTAGCCTATGACCAGCTTAATCAGCCTATGATAGATATTAAAGTGAAGGACAAAGGGAAGTTTGCTGAAATTACAGAACGTCTTCTCGGTCAAGAGCTGGCTATCTTCATGGACGACCAATTGCTGTCAGCTCCGACGGTACGAGCCGTATTAACGGACGGTACCGCGCAAATTACAGGGAACTACTCGCTGGATGAAGCGAAGCAGATCCGGGATACGATTAATCTCGGCGCCCTGCCGCTGAAACTGGTCGAGAAATATTCGCAGAGCGTAGGGGCTACGCTTGGCATGCAATCTCTTACAAAAACTTTAGAAGCCGGTCTGATCGCTTCCGTCGCGATTTTGCTGTTCATGATTATCCGATATCGCGTACCGGGCTTGCTGGCAAGTTTCGCACTTATTTTGCACACATGGCTGCTGATTCTTATTTTCGTATGGGCCGACTTTACGTTGACGCTTCCAGGCATTGCGGCATTTATATTAGGTATTGGTATGGCGGTGGATGCCAACATTATCACCTATGAACGCATTCGGGAAGAGATCAAGACAGGCAAAAGCGTGCCATCTGCAGTGAAATCAGGCGGTAAATCCTCCCTGCGCGCCATTATGGACTCTAACTTGACGACGATTCTCGTTGCCGCTGTCATGTTCGGATTCGGTACCGGTGCGGTAAAAGGTTTTGCCCTTGTATTGATTTTGGAGATCATCGTTAGTATTGCCACGAACGTTTATTTCTCCCGTTTCCTGCTCAATCTGCTTGTGAATATAGGTTGGGCCCGCAAACCGAGCCATTATGGCGTAAAGGAGCGTGACATTCGTGAGCTTTAA	MKRIISFVGTVLVITILMAVTTPGLLKDVRLGLDLKGGFEILYEAEPLMEGQQVTKEALQETAKSLQKRADAMGTSEPEVTPEGANRIRLKVAGVTDEAEVRKTMKEPANLTFRSNDGCKEGEEFCKIELRGDDFVENGASVAYDQLNQPMIDIKVKDKGKFAEITERLLGQELAIFMDDQLLSAPTVRAVLTDGTAQITGNYSLDEAKQIRDTINLGALPLKLVEKYSQSVGATLGMQSLTKTLEAGLIASVAILLFMIIRYRVPGLLASFALILHTWLLILIFVWADFTLTLPGIAAFILGIGMAVDANIITYERIREEIKTGKSVPSAVKSGGKSSLRAIMDSNLTTILVAAVMFGFGTGAVKGFALVLILEIIVSIATNVYFSRFLLNLLVNIGWARKPSHYGVKERDIREL	PGPT0029260_3469	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029260-secD-K03072	NA	NA
AK002_01580	918	secDF_2	COG0341	Protein translocase subunit SecDF	GTGAGCTTTAAGAACTTCGATTTCGTAGGCAAAAGCAGAATTTTCTACGTACTATCCATTGTAATTACGATTTTGGGCTTGGTTTTTCTCCTGACTCGCGGACTTAACTACGGAGTTGATTTCCAATCCGGCTCGAACGTGGATATTTCACTCTCCAAACCGTTGACCACGGAGCAAATCAATACCGTATTAAAGGATGCCGGAATCGGGGAGGATGCGAGCGTTACACCGGGTAATGACCGCGTCAACATCCGATTCAGCGAGGTGCTGACCGAGGATCAGGATCAGAAGCTTCGTTCCGGCATCGAGAAGCTGGACGAGAAGTCAACCTTCGAAATTAATACGGTTGACCCCGAGATGGCCAAAGAGCTGGGCCGAAACGCCATTTATGCCGTATTGATTTCCTGTATCGGGATTATCATCTATGTCAGCATCCGCTTTGAATGGCGGTTTGCGATTGCAGCGATCGTAGCGCTCCTGCATGATGCTTTCGTTGTCATCAGTATCTTCTCCATCCTTGGATTAGAGGTAGACCTGACATTCATCATCGCCGTCCTGACCATCATTGGTTATTCGATCAACGATACCATCGTTATCTTTGACCGGATCCGGGAGAACCTGCGGTTTGCGAAGATTAAGAGGGTCTCGGATCTCAAGGATTTGGTTAACAAAAGTTTGTCGCAGACGATCGGGCGCTCGATTTATACGGCCTTGTCCGTATTCATCGCTGCATTCTTCATGCTCCTCTTGGGCGGCGAGTCGATCCAGATGTTCTCGCTGGCTATTTGTATCGGTTTGGCATTCGGCGCGTACTCTTCGATCTTTATCGCAAGTCCGTTGTGGCTCCTTCTTAAAGGCCGCAATGTGAACAATAAGCCGAATTCGCCGAAGCCAAGCAAAGATAAAATCGAAATTTAA	MSFKNFDFVGKSRIFYVLSIVITILGLVFLLTRGLNYGVDFQSGSNVDISLSKPLTTEQINTVLKDAGIGEDASVTPGNDRVNIRFSEVLTEDQDQKLRSGIEKLDEKSTFEINTVDPEMAKELGRNAIYAVLISCIGIIIYVSIRFEWRFAIAAIVALLHDAFVVISIFSILGLEVDLTFIIAVLTIIGYSINDTIVIFDRIRENLRFAKIKRVSDLKDLVNKSLSQTIGRSIYTALSVFIAAFFMLLLGGESIQMFSLAICIGLAFGAYSSIFIASPLWLLLKGRNVNNKPNSPKPSKDKIEI	PGPT0029265_2928	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0029265-secF-K03074	NA	NA
AK002_01581	966	mneP	COG0053	Manganese efflux system protein MneP	GTGAGCAATGAACGCTTGAATCATACGGAGACTGTCCTATGGACAGGCATTGTAACGGATTTGGCATTAGCCTTGTGCAAAGGGATAGCCGGTTACTTATCCGGCAGCAAGGCTCTCATCGGAGATGCCCTGCATTCTGCGGCGAATGCCGTAACTTTATTGGTGGACCGTTTGCCAAGCCTTGGTATATTCGGCACGAAAAGTCCGATGCGGGACAAACGGAACGTTTCGAATACGACGGAGCCCGTCATATCGATCTTATTTGCCGTGTTATTGATCATGGGCGGCATTCAAATTGCGGTATCCGCGATCCAGACCATGGCATCGGACAACCTTGAGCCGCCGGCCACATCGGCGCTTCTTGCGATTTTCATATCGATGGCGGTGAACGAAGCGGTATTCCAATATCAAAGCTGGCAGATGAAAAGACTGCATGATCCCCGGTACGAAATGCTGTTGGCTGATCATCGGTTTGCCTTATATTCATCGTTAACGGTATTGATCGGCGTGTCGCTATCCATGGCAGGCTCTTATTTTGAATGGTCGCCTCTATTCTACATGGATTCCATAGCGGCTCTTATCGTGGCTTGTCTCGTGGTCCGGAAAGGATATATACTCATCGTTCATTCCGTTTACGGAACGCTTGCGGAGGAGAAACGCCATGAACACGAAGCCGAATTCATGGATACGATTCAGCGGGTGCACGGCGTGATCACGATCGAGGAGCTGAAGGTTCAGGAATACGGACAGATTCGCCACGTGAACATCGAAGTGAAAATCACCGTGAATCCGAGAACGTCCGTATTGGAAGCTCAGGAAATTGCCGAGCGAATCCGGAAGCTGTTGACCCATCGATTTATTCAGGTTACGGATGCCAAGGTTCACGTTGTGCCTTATGAACCCGGTTACCCGTATAAATCGAACTATGACTTGATGGACAACGATATGCCGACACTGCCGCAATAA	MSNERLNHTETVLWTGIVTDLALALCKGIAGYLSGSKALIGDALHSAANAVTLLVDRLPSLGIFGTKSPMRDKRNVSNTTEPVISILFAVLLIMGGIQIAVSAIQTMASDNLEPPATSALLAIFISMAVNEAVFQYQSWQMKRLHDPRYEMLLADHRFALYSSLTVLIGVSLSMAGSYFEWSPLFYMDSIAALIVACLVVRKGYILIVHSVYGTLAEEKRHEHEAEFMDTIQRVHGVITIEELKVQEYGQIRHVNIEVKITVNPRTSVLEAQEIAERIRKLLTHRFIQVTDAKVHVVPYEPGYPYKSNYDLMDNDMPTLPQ				NA	NA	NA	NA	NA
AK002_01582	2403			hypothetical protein	GTGCTGTATTCCAAATATGAATGGAGAATACGAGAGGCAGCGTCAACGATCACCGAACGGCTGGCCCATGATTTGTCGCTGCCACCCATCGTGGCTTCCCTCATGGCGTCCCGGGGGATACAATCAGCCGAGGATGGCCGGGAATTTTTATATGGAACGTTTGAGCTGACGCACGACCCTTATCTCATGCAGGGAATGCGGGAGGCCGTGCCGCGTATCCGCAAAGCGCTGGAGGATCGGGAGCATATTCTGATCTACGGCGATTATGACGCGGACGGGGTTTCCAGCACATCATTGATGATTCATCTCATGCGTGATTTGGGAGCATCTTATGATATTTATATCCCTCACCGATCCAATGAAGGTTATGGCTTACATAATCATGCGCTGGATTGGGCCCATCAGCAAGGGGTCAGTCTGGTGATTACCGTAGATACCGGGATTAGTGCGGTCGAGCAAATCGCGTATGCCAACAGCCTTGGCATCGACGTCATCGTCACCGACCATCATGAGCCGCCTGAGTTGCTGCCTGAGGCATATGCATTGATCAATCCGAAGATCCCGACATGCCCGTATCCCTTTAAGGGGCTGGCCGGCGTAGGCGTGGCTTACAAATTGGCACAGGCTCTCGTGGGTGACCCGCCGGAGGAATGGCTCCAGATCGTTTCGATCGGAACGATCGCTGACTTGATGCCGCTCACGGGAGAGAATCGGGTGCTTGTGAAGCACGGGATCGAATCGATGCGAAAAACGCGGTATGAAGGCATCCGCAGCTTGCTTGAGGTTTCGGGAATTCATGTAGAGCAGGTGACGGCCGTTAACGTGGCCTTCTCCATGGCACCACGGATTAACGCCAGCGGCCGTTTGGATCATGCAGGCCGTGCCGTGACGCTGCTTACTACGGAACACAGGGAAGAGGCAGAGCGCCTTGCTTGGGAGCTGGACGGGCTGAACAAGGATCGGCAGCAAGTGGTCGAAAACATCGTCCAGGAAGCGCTGGGGATGGTTCAAAACCGCTGGGGAGGACAGGAGATCCCGCCTGTTATCGTATTGGCGGGCGAGGGCTGGAATGTCGGCGTGGTCGGCATCGTGGCTTCCAAAATCCTGGAGCGCTTTTACCGCCCCGTTGTAATACTTGGAATTGATCCCGAAACGGGAAACTGTAAAGGCTCTGCCCGTTCGATTCCCGGATTCGATATCTATGCGGCTCTGCTTTCTTGCAAAGACGTCATGGACCATTTTGGCGGCCATCCTTCCGCAGCCGGCATGAGCCTCCATCGAGACCGCTTGGAGGCATTCGAACAGGGGCTTCATCGATATGCGGAGGATGCGCTCGAAGCAGAGCATCTGATTGCCGTTTGCGAAGCGGACCTGGAAGCCAGTTTGTCGGAGGTATCCGTACCCATTCTGGAACAGATGGAACAGTTAGGCCCGTTCGGCATGGCGAATGCCGTACCGAAGATAGTTTTTCGGAACGTTGTCGTCAAGGACGTCCGCAAGATCGGCAAAGAGGGGAAGCATCTGAAGCTTCGTTTGCAGCAGGAGCGGGAGGTTATCGATGCGATCTCATTCGGCTGGGGCCATCTTGCCGATATTCTGCCGGTGGGTTCGGTTGTGGATGTGCTGGGCGAGCTTTCCGTCAATGAATGGAACGGGAGCCGTAAAGTGCAGCTCATGATTCAGGATATCTGCGCCCCTTATCAGCAGGTGTTTGATTACCGCGGGATCAAAGAGCCGATCCGGGAGATCCAGAGGTGGAGAGCTGAACTGGAGCCGCATCTGCGGTGCCCGGCTGTCCGTTCCGCGGTGGTGTACGCAAAAGATTCACATCCGGAAATAAAAAGTCAATTGTATGATATGTGCCTTTGGGTATATGATAGGAATGCTGGCATCGTGCCGGATAATGAAATCGCCGCGAGCGGCAGTCAAGAAGACATTTCCGTTTTGTTCGTACTGGATGTACCGGAGACGGCTGAGCAGCTCGCTGCATTCATGTCAGCCTTCCATTCCGTTCCCAATATATTTATGTTACATCCGACCCGGAACCTGCGCGAACGGCTGCAAATTCCGGACCGGGAACAGTTTAAGAAGCTGTACGTTTCACTCGCTGGACTGACGTCCGCTCCCATGCCGGAGAAAGAGGTCTTAGCACGTCTACAGAAGCAGACTTCGTTATCATCGCGTATGCTGGTCAAAGTACTGGATGTCTTTGAAGAATTGGCATTCATTCAGCGAGACCAGGGACAAATTACCTTTGTTCCGAAGCCGGAGAAAAAACCGCTCGACGCTTCCCGTCACTTCCGGGAATTAAGCGACTTGGCGGATATGGAGCAGCATCTGCTGCATGCCGGTACCGAACAGTTAACCCAGTGGATGACGTCCCGTACAAAAGGCGTATCTTAA	MLYSKYEWRIREAASTITERLAHDLSLPPIVASLMASRGIQSAEDGREFLYGTFELTHDPYLMQGMREAVPRIRKALEDREHILIYGDYDADGVSSTSLMIHLMRDLGASYDIYIPHRSNEGYGLHNHALDWAHQQGVSLVITVDTGISAVEQIAYANSLGIDVIVTDHHEPPELLPEAYALINPKIPTCPYPFKGLAGVGVAYKLAQALVGDPPEEWLQIVSIGTIADLMPLTGENRVLVKHGIESMRKTRYEGIRSLLEVSGIHVEQVTAVNVAFSMAPRINASGRLDHAGRAVTLLTTEHREEAERLAWELDGLNKDRQQVVENIVQEALGMVQNRWGGQEIPPVIVLAGEGWNVGVVGIVASKILERFYRPVVILGIDPETGNCKGSARSIPGFDIYAALLSCKDVMDHFGGHPSAAGMSLHRDRLEAFEQGLHRYAEDALEAEHLIAVCEADLEASLSEVSVPILEQMEQLGPFGMANAVPKIVFRNVVVKDVRKIGKEGKHLKLRLQQEREVIDAISFGWGHLADILPVGSVVDVLGELSVNEWNGSRKVQLMIQDICAPYQQVFDYRGIKEPIREIQRWRAELEPHLRCPAVRSAVVYAKDSHPEIKSQLYDMCLWVYDRNAGIVPDNEIAASGSQEDISVLFVLDVPETAEQLAAFMSAFHSVPNIFMLHPTRNLRERLQIPDREQFKKLYVSLAGLTSAPMPEKEVLARLQKQTSLSSRMLVKVLDVFEELAFIQRDQGQITFVPKPEKKPLDASRHFRELSDLADMEQHLLHAGTEQLTQWMTSRTKGVS				NA	NA	NA	NA	NA
AK002_01583	516	apt		Adenine phosphoribosyltransferase	TTGGATTTTAAAGATTATATTCGTGTCATTCCCGATTTTCCGCAAGCGGGGATCAGCTTCAAGGATATTACCACACTACTGAAGAATGGTGAGGTATATCGCAAAGCCATCGAGGAACTGAAGGTCTTGGTTTCCGATCTCAAAATTGATGTGATAGCTGGTCCCGAAGCTCGTGGATTCGTCGTGGGTGCTCCGCTGGCTTACGCGCTTGGCGTGGGATTCGCGCCCATTCGCAAAAGCGGCAAGCTGCCTTACGAAACGATTGAAGTGGGATATGACCTCGAATACGGTAAAGATCGCTTGGCGATGCATACCGATGCAATCGAGAAAGGGCAAAATGTATTGATTGCGGATGATCTTCTTGCAACAGGCGGTACGATTGCGACTTCGGTTAACCTCATCCGTCAATTGGGCGGAAACGTTGTTGGCGCTGCTTTCATGATCGAGCTGACGGATTTGAACGGCCGCTCGAAGCTGGATGACATCGATGTATTTACGTTGATGCAGTACGAGTAA	MDFKDYIRVIPDFPQAGISFKDITTLLKNGEVYRKAIEELKVLVSDLKIDVIAGPEARGFVVGAPLAYALGVGFAPIRKSGKLPYETIEVGYDLEYGKDRLAMHTDAIEKGQNVLIADDLLATGGTIATSVNLIRQLGGNVVGAAFMIELTDLNGRSKLDDIDVFTLMQYE	PGPT0021455_4528	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
AK002_01584	1299	uraA	COG2233	Uracil permease	TTGCAACGTGAAATTCAAGTAGATGAGAAGCTTCCGTTGGGTCCAGGGTTCCTTCTGAGCCTGCAGCATTTGTTCGCCATGTTCGGAAGCACGGTGCTTGTACCGAACATATTCGGCGTGGATCCCGGCATGATCCTGCTGATGAATGGTGTCGGCACGCTGCTCTACATTTTTTTATGTAAAGGAAAGATTCCGGCCTACCTCGGCTCCAGCTTCGCCTTTATAGCCCCGGTGCTGATCGTACTGGAAGGCGACCCGGAAGCCAACTACGGCAAAGCTTTGGGCGCCTTTATCGTGACGGGGATCATCTTCTGTCTTGTGGCGCTCATCGTTAAATATGCGGGAACCAAATGGATCGACTTCGTATTCCCGCCTGCGGTTATGGGTGCTATCATTGCGATGATCGGGCTTGAACTGGTTCCGGTTGCCGCAGGCATGGCTGGTTTTTTGCCGGAAGAAGGGCAGTCCATCGATCCTAAAATCATTACCATCTCGCTCGTTACCCTCGGAGTTACGGTGTTGGGTTCCATCTTGTTCCGCGGCTTCGCCAAAATTATCCACATCCTGATCGGGATCGTTGTCGGATATGCGCTTTCCTTTGCGCTTGGGGTCGTGGACACGGAGAAAATCGCGAACGCGAAGTTCCTGTCGGCTCCGGAGCTGACAACCCCGGTTTTCGATAGCGGGGCGATCTGGACCATCATTCTGGTTTCGCTCGTAGTTATCGTAGAGCACATCGGCCACCTGCTGGTAACCAGCAATATCGTGGGCAAAGACCTTTCCAAGGATCCTGGCCTTCACCGCTCCCTGCTCGGCAACGGTATTTCCACCATCTTGTCCGGATTTGTTGGTTCCACGCCGAATACAACGTACGGCGAAAATATCGGTGTCATGGCTTTGACGAAGGTGTACTCCGTGTTTGTCATCGGAGGCGCCGCCATTATTGCCATTATTCTTTCCTTCTCGGGAACATTTTCCGCCGTTGTAGCGAACATTCCAACACCGGTTATGGGCGGCGTGTCTCTCTTGCTGTTCGGGGTAATCGCAGCTTCCGGCCTTCGAATCTTCGTGGAACAGAAGGTGGATTTCTCCAAAGCAAGCAACATGATCTTGGCTACAATCGTACTGGTAACAGGAATCAGCGGCGTAACCTTGAAGATTAACACGGTCGAGCTGAAGGGCATGGCCCTGGCTACCATCGTAGGTGTTCTCATGGCCCTCCTCTTCAAAGTCTTCGAGATTACCGGCCTCTCCAATGAAAAGAATGATGAGCCGCTCGTGGAAAAAACGCCGGATTGA	MQREIQVDEKLPLGPGFLLSLQHLFAMFGSTVLVPNIFGVDPGMILLMNGVGTLLYIFLCKGKIPAYLGSSFAFIAPVLIVLEGDPEANYGKALGAFIVTGIIFCLVALIVKYAGTKWIDFVFPPAVMGAIIAMIGLELVPVAAGMAGFLPEEGQSIDPKIITISLVTLGVTVLGSILFRGFAKIIHILIGIVVGYALSFALGVVDTEKIANAKFLSAPELTTPVFDSGAIWTIILVSLVVIVEHIGHLLVTSNIVGKDLSKDPGLHRSLLGNGISTILSGFVGSTPNTTYGENIGVMALTKVYSVFVIGGAAIIAIILSFSGTFSAVVANIPTPVMGGVSLLLFGVIAASGLRIFVEQKVDFSKASNMILATIVLVTGISGVTLKINTVELKGMALATIVGVLMALLFKVFEITGLSNEKNDEPLVEKTPD				NA	NA	NA	NA	NA
AK002_01585	2178	relA	COG0317	GTP pyrophosphokinase	ATGGGCATAGAGCGATTACTCGAAAAGGCCAGCGCCTATATAAAAGAACCCGATCTTCTCCGCATCCAGGAAGCTTATGAATTTGCGGAGCAAGCCCACCACGGACAAGTGCGGAAATCGGGAGAACCTTATATTCTTCATCCGCTTGCGGTTGCAGACATCGTGGTGAACATGCAGATGGACACATTGTCCATTATTGCTGCATTGCTTCACGATGTCGTTGAGGATACAACCGTATCGCTCGAGCAGATCCGCGAGCGTTTCGGGGATACCTGCGCAATGCTGGTGGATGGTTTAACGAAGTTGGAACGCATCCAATTCCGATCCAAAGAAGAGCAGCAAAACGAAAATTATCGCAAGATGTTTATCGCCATGGCACGGGATATCCGCGTAATCGTCATCAAGCTGGCGGACCGGCTTCATAATATGCGCACTCTTAAGTACCAGTCCGAGGAGAGCCAGCGCCGCATTTCCTATGAAACCTTGGAAATCTTTTGTCCGATAGCCCATCGTCTCGGTATTTCCGCGATCAAATGGGAGATGGAGGACATTGCGCTTCGTTACTTGAATCCGCAGCAGTATTACCGCATTGCGAATTTGATGCACAAGAAGCGTGCGGAGCGGGAGCAGTACATCGACAACGTCATCGTCTGCATCCGCGAGAAGCTTGACGAGATGGGCATTCAAGCCGATTTGTCAGGCCGACCTAAGCATATCTACAGCGTGTTCAAGAAAATGACGGTGAAAAACAAGCAGTTCAACGAAATTTACGATCTCCTTGCAATCCGCATTATTGTGGACAATATCAAGGATTGTTATGCCACGCTCGGCATCATCCACACCCTGTGGAAGCCGATGCCTGGCCGTTTCAAAGATTATATCGCCATGCCAAAAACGAATATGTACCAGTCCCTCCACACAACGGTGGTAGGGCCTAATGGGGAGCCGACGGAGGTTCAGATCCGCACCTGGGAGATGCATCGAACGGCAGAGTTCGGTATCGCGGCACACTGGGCGTATAAAGAAGGCTCCGCAGGCAACGGGGGCAGCTTCGACAACAAGATGACGTTTTTCCGCGAGATATTGGAACTGCAGCATGAAACGAAGGATGCGTCGGAATTTGTAGAATCTTTGAAAATGGACTTTTTCTCGGATTTGGTGTTTGTGTTTACGCCAAAAGGCGAGGTGATCGAGCTGCCTTCCGGCTCCGTTCCCCTCGACTTTGCCTACCGAATTCATACCGAAGTAGGAAACCGCACCATTGGTGCCAAGGTCAACGGAAGAATCGTTCCGCTGGACCATCAGCTCAAAACCGGCGATATCGTGGAAATTTTGACGTCGAAGCATTCCTACGGTCCAAGCCAGGACTGGCTGAAGATTGCCCAATCCTCGCATGCCCGAAGTAAAATCAAGCAGTGGTTCAAGAAAGAAAAGCGCGAAGAGAATGTCGAGAAGGGCCGCGAGATGCTGGAGCGCGAAATCAAGCGCCTCGGTCTTGACGTGTCCGAGTGGACGACGGACGATAAATTAATGGAAGCGGCCAAGAAATTCGCTTTTAATGATATCGAGGATATGCTATCGGCGGTCGGCTTCGGCGGGATCACTGCCGCGCAGATCTGTACGAAGGTGACCGAGAAGCTGCGCAAGGAGCAGGAGGAAGCCAACCAGCTTGAATTAACCTCCGAGATGAAGGAAATCAAGCCGGCCGAGAAGCGAAGCCGCCCGACCAACGGCGTCCGCGTCAAAGGGATTGATAACCTGCTCGTGCGTTTCGCAAGATGCTGCAATCCCGTACCCGGCGATGATATTGTAGGCTATGTAACTCGCGGCCGCGGCGTATCGGTCCATCGTTCGGATTGTGCGAATCTGCCGACAACGGATGAGGGCGAGGATGCGGCACGCGTGATTGAGGTGGAATGGGAAACGGCCGTCGAGGCAAATTACAGCGTCGATATTGAAGTGACGGGACACGATCGCAACGGATTGCTGAACGAAGTCCTTCAGGCCGTCTCCGAGAGCAAGACGAACATTTCCGCCGTCACGGGGCGATCCGACAAGAACAAAATGGCCATGATCCACATGACCATCCTGATTCGCAATACGGATCATCTCCAATCCGTAGTGGAACGAATCAAGCGGGTGAAGGATGTGTACACCGTTCATCGGATCATGCAGTGA	MGIERLLEKASAYIKEPDLLRIQEAYEFAEQAHHGQVRKSGEPYILHPLAVADIVVNMQMDTLSIIAALLHDVVEDTTVSLEQIRERFGDTCAMLVDGLTKLERIQFRSKEEQQNENYRKMFIAMARDIRVIVIKLADRLHNMRTLKYQSEESQRRISYETLEIFCPIAHRLGISAIKWEMEDIALRYLNPQQYYRIANLMHKKRAEREQYIDNVIVCIREKLDEMGIQADLSGRPKHIYSVFKKMTVKNKQFNEIYDLLAIRIIVDNIKDCYATLGIIHTLWKPMPGRFKDYIAMPKTNMYQSLHTTVVGPNGEPTEVQIRTWEMHRTAEFGIAAHWAYKEGSAGNGGSFDNKMTFFREILELQHETKDASEFVESLKMDFFSDLVFVFTPKGEVIELPSGSVPLDFAYRIHTEVGNRTIGAKVNGRIVPLDHQLKTGDIVEILTSKHSYGPSQDWLKIAQSSHARSKIKQWFKKEKREENVEKGREMLEREIKRLGLDVSEWTTDDKLMEAAKKFAFNDIEDMLSAVGFGGITAAQICTKVTEKLRKEQEEANQLELTSEMKEIKPAEKRSRPTNGVRVKGIDNLLVRFARCCNPVPGDDIVGYVTRGRGVSVHRSDCANLPTTDEGEDAARVIEVEWETAVEANYSVDIEVTGHDRNGLLNEVLQAVSESKTNISAVTGRSDKNKMAMIHMTILIRNTDHLQSVVERIKRVKDVYTVHRIMQ	PGPT0014310_3072	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
AK002_01586	444	dtd	COG1490	D-aminoacyl-tRNA deacylase	ATGAGAGTGGTCATTCAACGATGCAAGAATGCGCAAGTCGCAGTGGATAATGAAATCGTCGGCAAGATTGAAGCGGGATTGATGGTCCTGGTTGGCGTGACGCATGAGGATGAAGAGAAGGATGCCAAATACCTTGCCGAAAAGGTAGCGGGGCTGCGGATTTTTGAGGATGAGCAGGGAAAAATGAATTTCAGCGTCCAGGACGTGGGCGGAGCGATTCTGTCGGTGTCCCAATTTACCCTCTATGGAGACACCCGCAAAGGAAAGCGGCCGAACTTTATGGCTGCCGCAAAACCGGACGAAGCGAATGCATTGTACGAGTCGTTTAACCGCGAGCTTTCGGCGAAGGGGTTGCAGGTGGAGACCGGGGTGTTCGGAGCGATGATGGACGTGTCGTTGACCAACTGGGGACCGGTGACGCTAATTATCGACAGCCGGTCCTAA	MRVVIQRCKNAQVAVDNEIVGKIEAGLMVLVGVTHEDEEKDAKYLAEKVAGLRIFEDEQGKMNFSVQDVGGAILSVSQFTLYGDTRKGKRPNFMAAAKPDEANALYESFNRELSAKGLQVETGVFGAMMDVSLTNWGPVTLIIDSRS				NA	NA	NA	NA	NA
AK002_01587	168			hypothetical protein	ATGCGTCAATCCCCCAAATTTTCGATATGGAGCAGTTTGCCTGCGACGGTCGGAACCGGAGGCGTCAGGGAAGCAGCCAGCACGGAACGCATGGTTTCGGCGCCGGAAGAATCTGCACAGCTCATCAGCATCAAGGGAAATATGCGGAAGCAGCTGCCCCGATCGTAG	MRQSPKFSIWSSLPATVGTGGVREAASTERMVSAPEESAQLISIKGNMRKQLPRS				NA	NA	NA	NA	NA
AK002_01588	507	yhbO	COG0693	Protein/nucleic acid deglycase 2	ATGAGTAAAGTAGCATTTCTACTAGCCGACCAATTCGAAGATTCCGAGATGAAAACTCCTTACGATGCCGTGAAGGAAGCGGGGCATCAGGCTGATATTATTGGATTGAAACAAGGACAAGAGGTAAAGGGCAAACAGGGCAAGGCTTCCTACACAACCGATAAAGCCATTGCGGACGTCAACATAAACGATTATGATGCGGTGGTTATTCCAGGCGGTTCTTCTCCGGAAAACTTGCGTCTGGATTCCCATATATTGCAGTTTGTTGCAGCAGCGGACAAGGCGGGCAAACCGATTGCCTCGATATGCCACGGGCCGCAAATTTTGGCAAGCGCCGACCTGCTGAAGGGGCGTACGATCACTTCCTATCCTCCGCTTCAGGATGATATGGTAAACGCCGGCGCCAACTTTAAGGATGAGGAAGTCGTCGTGGATCGGAATTTCATTACGTCCCGGACTCCGAAAGACGAGCCGGCCTTCGTGCGCGAGCTGTTAAAAGCGCTGTAG	MSKVAFLLADQFEDSEMKTPYDAVKEAGHQADIIGLKQGQEVKGKQGKASYTTDKAIADVNINDYDAVVIPGGSSPENLRLDSHILQFVAAADKAGKPIASICHGPQILASADLLKGRTITSYPPLQDDMVNAGANFKDEEVVVDRNFITSRTPKDEPAFVRELLKAL	PGPT0015010_3502	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0015010-yfkM|pfpI|yraA-K05520	NA	NA
AK002_01589	450			hypothetical protein	ATGTCTAGACAAATTCAAGCTTATTTCAGGACGGAAGACGACGCTGAAGGCGCAAGGACGAGGCTGCTGACGTACAACACGGAACAGCTGGAGGTAGGACAGCTTCAGGATTCGGTCCGAAGCGGAGGGAATATCCTGGTGCCGCTGGTGCCATGGGGCAATGCCGGCACGGGCGGTGCTACGGCAGGGGCAACAACGATGGGGGCTCCCGGCGGCGTAGTCGGGGCTCCCGGGGTGATTGTGGGGGCAAGGGATACCAGCCGCGACATCGCCCAGGACCGGCCGGACAGCGATGATCTGCCCGGCGACGGATGGCGGGAAGCGGACGTGACCGACGGGGACTATGACGATCTCAGGTACACCTTGTCCGTTAAGGTAAGGGACGAGGACTATGATCAGATCGTGCATGATTTGCGGGCGAATAACGCTTATGTGGAGCGATTTGATTAA	MSRQIQAYFRTEDDAEGARTRLLTYNTEQLEVGQLQDSVRSGGNILVPLVPWGNAGTGGATAGATTMGAPGGVVGAPGVIVGARDTSRDIAQDRPDSDDLPGDGWREADVTDGDYDDLRYTLSVKVRDEDYDQIVHDLRANNAYVERFD				NA	NA	NA	NA	NA
AK002_01590	1254	hisS_1	COG0124	Histidine--tRNA ligase	ATGGCAAACGAGAAATTCGAGAAACCGACAGGCACGCAGGACATCCTGCCAGGAGCCGTCGAGAAATGGCAGTTTATCGAGGAGAAGGCACGGGATCTATGCCGGAGGTACAACTACCGCGAAATTCGCACACCGATCTTCGAACAGACCGAATTGTTCGAACGCGGGGTCGGCGAAACGACGGATATCGTTGAGAAGGAAATGTACACGTTCAAGGACAAAGGGGATCGCAGCATGACACTTCGTCCGGAAGGGACGGCAGGCGTCGTTCGGGCTTACGTGCAAAACAAGCTGTATGGAGAGCCCGATGTCACGAAGCTGTACTATATGGGGCCCATGTTCCGCTATGAGCGGCCGCAGGCGGGCCGATACCGCCAGTTCCACCAGTTCGGCGTAGAGGTGTTCGGCACCGCGGATCCGGCTATCGATGCCGAGGTCATTGCGCTGGGTTACAGCTTCTACAAGGAACTTGGACTGAACGGGGTAAAAGCAGAGATTAACTCCGTGGGAACGCCCGAGGTAAGGGCAGCTTACCGCAGCGCGCTGCTTGCTTTCCTGGAACCGATGAAAGACAGCCTTTGCTCGGACTGCCAGTCGCGCATGGAACGCAACCCGCTTCGCGTGCTGGATTGCAAGAAGGACCAAGGGAAGTTCGGTGATGCGCCTTCGATCCTGGACAGCCTGGACGAGGAGTGCAGCACGCATTTCGAGAAAGTCAAAGGGCACCTGGACGCCATGGGCATCGAGTATGAAATCAATCCAAGACTGGTTCGGGGATTGGACTATTACACGCATACCGCCTTCGAATTCAAGGCCCAAGGCATCGGCGCGATTGATACGGTAGGCGGCGGCGGACGCTTCAACGGTCTCGTCGGCCAGATCGGCGGACCGGATCAGCCGGGCATCGGGTTCGGCATCGGCCTTGAGCGTATCCAATTGATTCTGGAGCATCAAGGCGTCAATCTGTCGGCCTCGAAGCCGCTGGACGTTTATCTGGTGGCGCTGGGTGAAGCCGCCGAACGGGAATTGGCGAAATTGATCTACGATCTCCGCAGCAAAGGCGTGTCCGCGGAGCGCGATTATCTCGGCCGGAAAATGAAAGCCCAGATGAAATCGGCCGATCGTCTGCAAGCCCGTTATACCGCCATTCTGGGCGACGACGAGCTGGCACGCGGCGAAATCGCGTTGAAGTCGATGGAGACCGGCGAGCAGCGAACCGTTAGGCTGGATAGCCTGGTCCAGGAATTTGTTTAA	MANEKFEKPTGTQDILPGAVEKWQFIEEKARDLCRRYNYREIRTPIFEQTELFERGVGETTDIVEKEMYTFKDKGDRSMTLRPEGTAGVVRAYVQNKLYGEPDVTKLYYMGPMFRYERPQAGRYRQFHQFGVEVFGTADPAIDAEVIALGYSFYKELGLNGVKAEINSVGTPEVRAAYRSALLAFLEPMKDSLCSDCQSRMERNPLRVLDCKKDQGKFGDAPSILDSLDEECSTHFEKVKGHLDAMGIEYEINPRLVRGLDYYTHTAFEFKAQGIGAIDTVGGGGRFNGLVGQIGGPDQPGIGFGIGLERIQLILEHQGVNLSASKPLDVYLVALGEAAERELAKLIYDLRSKGVSAERDYLGRKMKAQMKSADRLQARYTAILGDDELARGEIALKSMETGEQRTVRLDSLVQEFV				NA	NA	NA	NA	NA
AK002_01591	1779	aspS		Aspartate--tRNA ligase	ATGAAAAGGACGCATCATTGCGGTCACTTGACAACCGCGAACATTGGAGAAACTGTGACACTGAACGGATGGGTACAAACCCGCCGGGACTTGGGCGGCGTGCTGTTCATCGATCTGCGCGATCGCAGCGGCATCATGCAAATCGTATTTAACCCGGATTTCTCCGGCGAGGCATTGGCCGTTGCCGATAAAGTCCGCAGCGAATTCGTGGTGGCCGTATCCGGGAAAGTCGTAAAGCGCGATCCGGAAACGTTCAACCCGAACCTGCCGACAGGCGAAATCGAAGTACAAGTAACCAGCATCGAAGTGCTGAACGCAGCCAAAACGCCTCCGTTCTTTATCGAAGACGGCGTGGAAGTGGATGAGCAGCTCCGCCTGAAGTATCGTTATCTGGACCTTCGCCGTCCGGAGATGCAAAAAACGCTGATGCTGCGCTCCAAAGCATCGAAAGTATTCCGCGACTTCCTGGACGATGAGGGCTTCGTGGATGTGGAGACGCCAATTCTGACCAAGAGCTCGCCGGAAGGCGCGCGCGACTATCTCGTACCGAGCCGAGTACACGCAGGCGAATTCTTTGCGCTTCCGCAATCCCCGCAAATCTACAAGCAGCTCCTTATGGTGAGCGGGCTTGAGCGTTACTACCAAATTGCGCGCTGCTTCCGTGACGAAGACTTGCGGGCCGACCGTCAGCCGGAGTTTACCCAGGTCGACATCGAGACGTCCTTCATGGATCGGGAAGACCTGCTGAACATGATGGAGCAGCTGATGGTGAAGCTGTTCAAGGAAACCATCGGCGTTGAGCTGGCGACGCCGTTCCAGCGTATCAGTTATGCCGACGCCATGGGCAAATACGGCTCTGATAAGCCGGATCTCCGCTTCGGCATGGAACTGATCGAAATGAACGACATCGTTGCAAGCAGCGGCGTCAAAGTATTCTCTTCCGTCATTGAAAAAGGCGGCGAAGTGAAGTGTTTGAACGCTAAAGGCTGCGGCACCTGGACCCGTAAGGAAATTGACGATCTGGGACCGTATGCAGCCCGTTACGGAGCGAAGGGTCTTGCCTGGATTCAAGTGAAAGAGGGCGAATTCAAAGGGCCAATCGTGAAATTCTTCAGCGAGCAGGAAATTGAAGCGGTAAGAGAACGCACGGGAGCCGAAGACGGAGACCTACTGCTGTTCTCCGCAGACAACAAAAAAGTGGTTGCCGACGTGCTTGGCGCGCTCCGTTTGAAAATCGGGCGCCAGCTTGGCCTGATCAACGACAACGAATACAAGTTCGCTTGGGTGCTGGACTTCCCGCTGTTCAGTTATGACGAAGAGGCGAAGCGCTATGTGGCCGAGCATCATCCGTTCACCCGTCCAAAAGACGAGGATCTGGAATTGATGGATACGGATCCGCTTGCCGTACGCGCTGAAGCTTACGACATCGTTCTGAATGGATACGAAGTAGGCGGCGGTTCCATGCGGATTTACAAACGCGAGATCCAAGAGAAAATGTTTGCGGCTCTTGGCATGTCGCCGGAAGTGGCGCACGATAAATTCGGCTATCTTATGGACGCCTTTGAGTACGGCACGCCTCCGCACGGCGGAATCGCCTTCGGGTTGGACCGTTTGGTCATGCTGCTTGCCGGACGCACCAATCTGCGCGAAACGATTGCGTTCCCAAAAACGGCAAGCGCAACGGATTTGTTGATGGACGCTCCTTCCCAGGTGGACGGAGGACAGCTGGAGCAGCTGCATATCAAACTCGCCAAGAAGCCGGGCGACGAGAAAAAATAA	MKRTHHCGHLTTANIGETVTLNGWVQTRRDLGGVLFIDLRDRSGIMQIVFNPDFSGEALAVADKVRSEFVVAVSGKVVKRDPETFNPNLPTGEIEVQVTSIEVLNAAKTPPFFIEDGVEVDEQLRLKYRYLDLRRPEMQKTLMLRSKASKVFRDFLDDEGFVDVETPILTKSSPEGARDYLVPSRVHAGEFFALPQSPQIYKQLLMVSGLERYYQIARCFRDEDLRADRQPEFTQVDIETSFMDREDLLNMMEQLMVKLFKETIGVELATPFQRISYADAMGKYGSDKPDLRFGMELIEMNDIVASSGVKVFSSVIEKGGEVKCLNAKGCGTWTRKEIDDLGPYAARYGAKGLAWIQVKEGEFKGPIVKFFSEQEIEAVRERTGAEDGDLLLFSADNKKVVADVLGALRLKIGRQLGLINDNEYKFAWVLDFPLFSYDEEAKRYVAEHHPFTRPKDEDLELMDTDPLAVRAEAYDIVLNGYEVGGGSMRIYKREIQEKMFAALGMSPEVAHDKFGYLMDAFEYGTPPHGGIAFGLDRLVMLLAGRTNLRETIAFPKTASATDLLMDAPSQVDGGQLEQLHIKLAKKPGDEKK				NA	NA	NA	NA	NA
AK002_01592	756	tcdA	COG1179	tRNA threonylcarbamoyladenosine dehydratase	ATGCTGCACCAATTTTCCCGAACGGAATTAGCCATCGGTCCCGAAGGCCTTGAAGTGATGAAGAACAGCACCGTGGCGGTGCTGGGTATCGGCGGCGTGGGTTCCATTGCGGTGGAGGCCCTCGCCCGAACCGGAGTCGGCCGCATCATTCTGATCGACAAAGACGTGGTGGACATCACGAACATCAATCGGCAGATCCACGCGTTAACGACGACGGTGGGTCAGAAGAAAGCGGATTTGATGGTCGATCGGGTCAAACTGATCAATCCGGAATGTGAAGCGATCGCCCTGAACATGTTCTACACCGAAGAAACGTATGAAGAGCTGTTTAAGTACGAGCTGGATTATGTGATCGATGCCTCGGATACGATTATTTATAAAGTGCATTTAATCAAGGAGTGCCTGCGTCGCGGCATTCCGATCATCTCGAGCATGGGCGCGGCCAACAAAATGGACCCGACGAAGTTCCAGGTGGCCGACATCTCCAAAACCTCCATGGACCCGATTGCCCGAATCGTGCGCACCAAGCTGCGCAAGGACGGCATTAAGAAAGGGGTCAAGGTCGTGTTCTCTCTGGAAGAGCCGATGAAGCCCCGCCAGGACGTGACGGAGAAAATCGTGCCCGAGAATGCTCCGGAAATCCGGAAGGCGAAGCAGCCGCCGGCAAGCAATGCGTTCGTGCCGCCTGTGGCGGGCCTGATCATGGTTAGCGTGACGGTGAAAGAGCTGCTCGAAAAAGGCGGCGTCTCGTTATAA	MLHQFSRTELAIGPEGLEVMKNSTVAVLGIGGVGSIAVEALARTGVGRIILIDKDVVDITNINRQIHALTTTVGQKKADLMVDRVKLINPECEAIALNMFYTEETYEELFKYELDYVIDASDTIIYKVHLIKECLRRGIPIISSMGAANKMDPTKFQVADISKTSMDPIARIVRTKLRKDGIKKGVKVVFSLEEPMKPRQDVTEKIVPENAPEIRKAKQPPASNAFVPPVAGLIMVSVTVKELLEKGGVSL				NA	NA	NA	NA	NA
AK002_01593	2178	helD_1	COG3973	DNA helicase IV	GTGTCAGAATCTTTTCAAAGTGCCTATCAAGAAGAAGAGTCAAGGCTAAACGAGGTTATCGTTGAAATTGACCGACAGCTTGAACGGCTGCGCGGTATTCCGGTATACACGGGCCATGATTTTACGGAGCAGGTGCTCGAGGCAGGCCGGGAAGAGAAACGGCAGGCCCTCGCCAAAAGCTTGCCGGAGCCTTATTTCGGAAGGCTGGATTTTCAAGAGAACGGAACGGGGGCGAAGAAACCGCTCTACATCGGGAAGATAGGCTTCGACAAGGCGGACGCAGGGGACCATCCAATGGTGATTGATTGGCGGGCTCCGGTCGCGAGTCTATTCTACTCCTTTACGGGCGGTACCGATCCGGCTTCATTCGAAGCACCTGAAGGAATCATCGAGGGGCTTGTGTATTTAAAACGAAACGTCGTGATCCGCAAGCAAATTTTGGAGCGCGTATCGGACACGTACAATCGGGAAAGCGGCGGACCTGCCGTATCCGATGAGTTTTTGGTCTACCGTCTCGGAGAGAACAAGGATAACCGGCTGCGGGATATCGTATCCACGATCCAAGCGGAGCAGGATAAAATCATCCGGGCGGCCAAGAACACCGCCCTCATCATCCAAGGGGTGGCGGGAAGCGGAAAAACGACGGTGGCGCTGCATCGGCTGGCTTATTTGCTTTACCAGTACAAGGAGCAGGTAACGGCCGAGAAAATGATCATATTCGCGCCAAACCTCATGTTCCTGGATTACATATCCGATGTGCTGCCCGAGCTCGGAGTTGGCGATATTCAGCAGCGGACCTTTGGCGATTGGGCGGCGAAGCTGCTTGATATTCAGCTGTCCTCGGAGGATCATGCGCAGACGCTTCATCAGTGGTTCGAGACGGAAACGGGCCAAGGGACGCCGGATATCGACGATAATGTGAGCGGGCGCTATAAAGGCTCCTTAAGGCTGATGGATATCGTGCGTCGCTGCGTGGAGTCCATCGAAGCCGAAGCCCTTCCGGACGGGGATTTCTCTCCATGGGATGGAGCCGTGCTGAAGCAGGAGACGATGGCGGAATGGTTTTACCAGGAATATAAGCCCTATCCGCTGGCGAAACGGAAGGAACGGCTGCTCGCCAGATTACATCGCTGGGCCTTAATGGAGCTGAAGAAATCACCATCGGCGGCCGTGATGAAAGAACGGAAGAAAAAAGCTGCACAACGCGAAAAGGCTTATGCCAATCGCTGGCCGAAATTTGAGCCAATCTCATTATATAAACAGTTATTTGGTGCGGCTAAGGTGACCGGATCGTGGTTTGAAGAGCTCTCCGCTCTTATTCCGTCCGAGGTGCTAGCCGCAACGCGCAAAGATCTGAAGAAGAATGTGGTCCGGGAGGAGGATTTGCCTGCCCTGCTGTATTTCCACTGCTTGCTGAACGATATTTCCTCAGAGCAGCGGTTTGACCACATCGTCATCGATGAAGCCCAGGATTTCTCTCCGTTTCAGGTGGCTGTGCTGGATCTGTTCGTAAGAGGACATTCCTTCACCATACTAGGGGATCTGTCGCAGGGCATTCATGCGTATCGCGGCGTGCATGCGTGGGAAGAAATGAGCTCCCTGTTCAAGGAAGAGGAAACGGCTTATTTTGCGCTGACGCGCAGCTACCGTTCCACGATGGAGATCATTGAATTTGCTAATGGGATACTGGAGAAGGGGGTCGCAAGCGACCTGCTGGCCGTGCCCGTATTCCGTAGCGGCGATGCCGTTCGCCTCATTCCTTATGATGCCGCGAACGCCAGAAGGAAGGATTTGGAGCGGGCCATGGGTGCGCTCATTGCCAAGGAATACCGGACGGTAGCCATTCTCACCCGCACCTTGCGGGAAGCGAAAGAGCTGCATGAGGAGTTAAGCACGTCCTGGCCGATGCTGAATCTGATCGATGGCAGCAAAGGAACGTATCAGGGCGGGTATTCCGTGCTCCCCGTGTATTTGTCCAAAGGTCTTGAGTTCGATGCCGTTGTGGTGGCAGATGCGGACCAGGCGCATTACGCGGAGAAAGCTTGGGATGCCAAGCTAATGTATGTAGGCTGTACGCGTGCACTGCATGAGCTGTGGCTGCTGCATGGGGAGCCGCTGCCATCGTATATCATGGCGGAGGCTTCAGAGATTATGGCGAGCGGCTGGCCTGCGGAGTAA	MSESFQSAYQEEESRLNEVIVEIDRQLERLRGIPVYTGHDFTEQVLEAGREEKRQALAKSLPEPYFGRLDFQENGTGAKKPLYIGKIGFDKADAGDHPMVIDWRAPVASLFYSFTGGTDPASFEAPEGIIEGLVYLKRNVVIRKQILERVSDTYNRESGGPAVSDEFLVYRLGENKDNRLRDIVSTIQAEQDKIIRAAKNTALIIQGVAGSGKTTVALHRLAYLLYQYKEQVTAEKMIIFAPNLMFLDYISDVLPELGVGDIQQRTFGDWAAKLLDIQLSSEDHAQTLHQWFETETGQGTPDIDDNVSGRYKGSLRLMDIVRRCVESIEAEALPDGDFSPWDGAVLKQETMAEWFYQEYKPYPLAKRKERLLARLHRWALMELKKSPSAAVMKERKKKAAQREKAYANRWPKFEPISLYKQLFGAAKVTGSWFEELSALIPSEVLAATRKDLKKNVVREEDLPALLYFHCLLNDISSEQRFDHIVIDEAQDFSPFQVAVLDLFVRGHSFTILGDLSQGIHAYRGVHAWEEMSSLFKEEETAYFALTRSYRSTMEIIEFANGILEKGVASDLLAVPVFRSGDAVRLIPYDAANARRKDLERAMGALIAKEYRTVAILTRTLREAKELHEELSTSWPMLNLIDGSKGTYQGGYSVLPVYLSKGLEFDAVVVADADQAHYAEKAWDAKLMYVGCTRALHELWLLHGEPLPSYIMAEASEIMASGWPAE				NA	NA	NA	NA	NA
AK002_01594	282			hypothetical protein	ATGACGACTCGCAAAAAATCCGTACGCAAATTGTACAACGCGGCAATAAATATGGCGATCAGTATACTGGGGCTCTACCTTCATGTCAGCACCTATCATCTTTTACAAGAAACATTCGGCCCCGGTTACCTCGACGATGAGAGACTGGCGATAAACCTGCTGTATGCCGTCCTCATCCTGCAGTTCCTGCTCGGCTTGTACGTCTTCATACGTTCAGCCATCATGCTTTACGAGTACAGGCAGGGAATCCGGAGTGAGGACGACGATGAGGTCTTGTTATAA	MTTRKKSVRKLYNAAINMAISILGLYLHVSTYHLLQETFGPGYLDDERLAINLLYAVLILQFLLGLYVFIRSAIMLYEYRQGIRSEDDDEVLL				NA	NA	NA	NA	NA
AK002_01595	1308	rarA	COG2256	Replication-associated recombination protein A	ATGGATTTATTCAGTATCGGGCGTGAAGGGGACCGGGATTCCCGGCTGCTGGCCGATCGGATGCGCCCTTCGTCGCTGGATGAATATATAGGACAAGAGCATATTATCGGACCGGGCAAACTGCTCCGGCGGGCCATAGAGGCGGACCAGGTCTCGTCGATTTTATTGTACGGCCCGCCGGGATGCGGCAAAACAACGCTTGCGCATATCATCTCCCAGCAAACGAAGGGGCATTTTGTTCGGTTGAACGCGGTGGAAGCCTCGGTTAAGGACGTCAGGGAAGTCATTGAGCAGGCCCAGAGCAACCGCAGCCTGTACGGCACCAAAACGATCCTGTTCCTGGATGAGGTGCACCGGTTCAACAGCTCCAGACAGGACGCGCTGCTGCCTGCCGTAGAGAACGGCACGATTATATTTATCGGCGCGACGACCGAGAACCCCTTTCATTACGTCAACGGGGCCCTAATGAGCCGGTCCACTTTATTCCAGCTTCAGCCGCTGACCAAGGACCATTCCATGATCGCGATGCGGCGCGCGCTGACCGATCAAGACAAGGGTCTTGGATTCATGGATCTCAAGGCCGATGAGGAAGCGCTGGAGCACATTGCAGCCATGGCGAACGGGGATATCCGGCGTGCACTCAATGCGTTGGAGCTGGCCGCGATGACAACGCCGCCGGACGCAAGCGGTACGGTCCATATCACGCTGGAAGTGGCGGAGGAATCGATTCGCCGGCCTACCGTGCGTGCGGACGAGTCCACGCAGTATGATGTGCTGTCCGCCTTTCACAAGAGCATTCGGGGCTCCAGCGATGCGGCGCTGTTCTGGTTTTTGTATGCGGTCGAAAAGCTCGGAATGGACCCGATGGTGTTCATTCGGCGCCTGATCGCTGCCAGCAGCGAGGATATCGGGCTTGCCAATCCCCAAGCCATGGTGCAGGCGGTAAGCGCATTGGATGCGTACCGGAACAACGGCTGGCCGGAAGCCAAGCTGAACATCGCCCAGGCGATCCTGTTCGCCGTGGAGAGCCCGAAATCCGATGGCGTTGTATCCGCCATATCCCGCGCGATGTCCGCCATGGATGAAGTGAAATCGGCGGAGGTTCCGCTGCATCTGCGCGATGCGCATTACTCGGGGGCGGTGAAGCTGGGACATGTCGGCTACAAGTACCCGCACGATTATCCGGGCCATTACGTGAAACAGGAGTATTTGCCGAAGGAGATCTCCCGCCGAGTGTTCTATCAGGCCACGGAGCAGGGGAACGAAGCCAAGATCGCTCACAACCAGCGGCTGCGGCGCGAAGAATAA	MDLFSIGREGDRDSRLLADRMRPSSLDEYIGQEHIIGPGKLLRRAIEADQVSSILLYGPPGCGKTTLAHIISQQTKGHFVRLNAVEASVKDVREVIEQAQSNRSLYGTKTILFLDEVHRFNSSRQDALLPAVENGTIIFIGATTENPFHYVNGALMSRSTLFQLQPLTKDHSMIAMRRALTDQDKGLGFMDLKADEEALEHIAAMANGDIRRALNALELAAMTTPPDASGTVHITLEVAEESIRRPTVRADESTQYDVLSAFHKSIRGSSDAALFWFLYAVEKLGMDPMVFIRRLIAASSEDIGLANPQAMVQAVSALDAYRNNGWPEAKLNIAQAILFAVESPKSDGVVSAISRAMSAMDEVKSAEVPLHLRDAHYSGAVKLGHVGYKYPHDYPGHYVKQEYLPKEISRRVFYQATEQGNEAKIAHNQRLRREE				NA	NA	NA	NA	NA
AK002_01596	540			hypothetical protein	ATGATGAAAACAGGGAAACAACGGTTTGTCATCCTGCTGCTGACCGCCGGCCTTATGCTGAGCGGCTGTTCGGGAAAAAGCGCCCAGGAGCAAGGCGTAAGTGGACAGGCAGCCGAGGCGGCGCATGAGCACGGACATCAGACGCAGCTGTCCAACGGGGATATCCAGGAGGCGACGGCTTCGATTGATGAGCTGCCGACCTTTTTGAAGAGCCAGACCAGCGAGCTCCAAACGATTTATGCTTTGTCCGCGCAGGTGAGTGATGTCCTGAAATACATTCCTTGTTATTGCGGCTGCGGGGAAAGTGCCGGTCATGAGAGCAACCTGAACTGTTTTATCGATGAGATTCAGGAGGACGGCACGGTGGTGTGGGACGATCACGGCACCCGCTGCGGGGTGTGTTTGGACATTGCCGTGGAATCTGCCAAAATGAGCAGCGAGGGCATGAGCTTAACGGATATCCGGACCGCGATCGACGAGAAATACAGCACCGGCTATGCCAAGCCGACGCCAACCCCGATGCCGCCTGTGGAAAGTTAA	MMKTGKQRFVILLLTAGLMLSGCSGKSAQEQGVSGQAAEAAHEHGHQTQLSNGDIQEATASIDELPTFLKSQTSELQTIYALSAQVSDVLKYIPCYCGCGESAGHESNLNCFIDEIQEDGTVVWDDHGTRCGVCLDIAVESAKMSSEGMSLTDIRTAIDEKYSTGYAKPTPTPMPPVES				NA	NA	NA	NA	NA
AK002_01597	2235	nrdD	COG1328	Anaerobic ribonucleoside-triphosphate reductase	ATGAAGGTCATGAAGAGAGACGGATGCCTGGTGAAATTTGAGACAAGCCGGATCGTGGAGGCGGTGGATAAAGCGTTTATGGCGGTGGAGGGTGTTTCCCGCAAGGATGCTTCCTTGCGGATTGGAGATGAGGTTGCCCACGCCACTGCGGGGATGGAACAGGTTAGCGTGGAGGAGATACAAGATATCGTTGTGGAGCATTTGCAAAGCACGGGTTATCCCGAGGTAGCGGCTGCCTATCAACATTACAGGGAGGCCCGCGATCTGGAGCGGATGCGGCGGGGAGAGCTTTATAAGATCAGCAGGGATGTGATCGGGGTAACCGATTTGGACCTGCTGCGGGAGAACGCGAATCTGAACGGGGAATCCTTCAGCGGAAAAATGAGCCGGATCGGCTCCGAATACTCCAAATGGATGGCAAGCAAATTCATCCTCCCCACAGAGCTCACGAGAGCGGTGAGGGATGGGTATGTATACGTTCATGACCTGGACCAGTATGCGCTGGGAACGACGAACTGCATCTTCATCCCGTTCGGCCGGTTGCTGGCCAAGGGCTTCAATACCGGTAACGGATCGGTCAGGCCGCCGCAGAGCATCATGACCGCCATGGCGCTGGTAGCCATCATCTTTCAATCCCAGCAGAACAGCCAATTCGGCGGCGTGTCCGGCAGCAAAATCGATTGGGATCTCGCGCCGTATGTCGGCAAATCGTTTCGTCGGCATTTTCGCAAAGGGCTGGCCTACTTCGAAGAAGCGGGGCTGGGAGAGGATCGGCCGTATGAACGAGCTCTTGAGGATCACGATATATACATAGACAATGAGCAGCTGAAGGACATATACCCGCGAATCTATCATTACGCCTATAGCGAAACGGTGAATGAAGCAAAGCAGGCCGCGGAATCCTTGATCCATAATTTGAATACGATGAGCAGCCGGGCCGGCGGACAAATTCCTTTCACTTCGCTGAATTACGGCATGTGCACGTCAACCGAAGGAAGGCTGGTGTCCCACGCCCTGTTGGATGCCACGATGAAGGGGCTCGGCGGGGGAGAGACGCCAATATTTCCGCAGCATATTTTCCAGTGCAAGCAGGGGGTCAACCAGGCGAAAGGCGAGCCGAATTACGACCTGTTCCTGAAAGCCGTCGAGTGCTCCAGCCGCAGGCTCTATCCGAATTTCGTCAACGTGGACGCGTCGTTTAATCTCGTCTATTATAACCCGGGCGACCCGGACACGATTATTGCCACCATGGGCTGCAGGACCCGCACGATTTCGGACCGCTTTGGGCGAAACCGCCTGAGCGGCAAGGGCAACCTGTCCTTTAATACGATCAATTTGGTCCGGTTCGGGATTGAACATGGCATCGTCCAAGGGAAGCGGGAAGTGCCGGACCTGAACCGTTTTTATCAACAGCTGGATCATTACATGAGAATTGCGGTGGAGGGCTTGATTCACCGTTACGAGCTGCAGGCCGACCAACCGGCCAAAGCGTCCGATTTCATGATGCGGGAGGGCGTGTGGGAAGGCGGCGAGGCGCTGGCGCCGGAGGATAAGGTGCGCGAGCTGATCAAGCACGGCACCCTGGCGCTTGGATTTATCGGGCTGGCCGAATGCCTGAAGGCGTTGACCGGACGGCATCACGGCGAGGATGAGGACAGCCGCGGGCTGGGGATCGAGATCATCCGGCATATGCGCCGGTTTTGCGATGCAGCCGGTGAAAGGTATAACTTGAACATCACGCTGTTTGCCACGCCTGCAGAAGGGTTATCCGGGAAATTCACGAAGCTGGACCGGCAGACCTTCGGGGTGATCGAGGGTGTGACTGACCGCGAATATTACACGAACTCTTTTCATATACCCGTGTACTATCCGATGGCCGCCTACCGCAAGATCCGTTCCGAAGCTCCTTTCCATGAGCTGTGCAACGCCGGCGCGATTTCGTATGTGGAGCTGGACGGCAACGCAAGGCAGAATACGGCTGCTTTCCGGGATATCGTTCAGTTTGCCCTGCAGCAGAACATCGGATATTTCTCCGTTAACCATCCCGTCGACCGGTGCCCGGCATGCAACTACGAAGGCATTATCGGAAGTGCGTGCCCTGGATGCGGCGCCTTGGAGGCGGATGGAAACTTCCAGCGGCTGCGGCGGGTAACGGGATATTTAACGGGCAATTATACGGAGCGTTTCAATTCGGCCAAGCAGGCCGAGGTTCGGGATCGGGTGAAGCATTTGTGA	MKVMKRDGCLVKFETSRIVEAVDKAFMAVEGVSRKDASLRIGDEVAHATAGMEQVSVEEIQDIVVEHLQSTGYPEVAAAYQHYREARDLERMRRGELYKISRDVIGVTDLDLLRENANLNGESFSGKMSRIGSEYSKWMASKFILPTELTRAVRDGYVYVHDLDQYALGTTNCIFIPFGRLLAKGFNTGNGSVRPPQSIMTAMALVAIIFQSQQNSQFGGVSGSKIDWDLAPYVGKSFRRHFRKGLAYFEEAGLGEDRPYERALEDHDIYIDNEQLKDIYPRIYHYAYSETVNEAKQAAESLIHNLNTMSSRAGGQIPFTSLNYGMCTSTEGRLVSHALLDATMKGLGGGETPIFPQHIFQCKQGVNQAKGEPNYDLFLKAVECSSRRLYPNFVNVDASFNLVYYNPGDPDTIIATMGCRTRTISDRFGRNRLSGKGNLSFNTINLVRFGIEHGIVQGKREVPDLNRFYQQLDHYMRIAVEGLIHRYELQADQPAKASDFMMREGVWEGGEALAPEDKVRELIKHGTLALGFIGLAECLKALTGRHHGEDEDSRGLGIEIIRHMRRFCDAAGERYNLNITLFATPAEGLSGKFTKLDRQTFGVIEGVTDREYYTNSFHIPVYYPMAAYRKIRSEAPFHELCNAGAISYVELDGNARQNTAAFRDIVQFALQQNIGYFSVNHPVDRCPACNYEGIIGSACPGCGALEADGNFQRLRRVTGYLTGNYTERFNSAKQAEVRDRVKHL	PGPT0021330_370	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-ANAEROBIC_SIGNALLING,PGPT0021330-nrdD-K21636	NA	NA
AK002_01598	504	nrdG	COG0602	Anaerobic ribonucleoside-triphosphate reductase-activating protein	GTGAATGTGTGCGGATACATCCCCGAGAGCATCAATGAAGGCCCCGGACTTCGTGCGGTTCTATTCGTGAGCGGCTGCCGCCATGCCTGCGCCGGATGTTTTAATACGGATTCCTGGGACTTTGAAGCGGGGAAGCCCTTTACCGAAGAAATGTCAGCGGCGATACTGCAGGATATCCTAGACAACCCTTTGCTGGATGGCGTGACCTTATGCGGTGGAGACCCCTTCTTCTCCCCGGAAGAATGTGCGGCATTCGTACGCAGGCTCAGGACCCTATGTCCCGCAAAAAACGTATGGGCCTACACGGGGTTCACCTTCGAAGCGCTGATGAGGCAGCCGAAGCTGCGCGAGTTGGCCCTGCTGTGCGATGTCATCGTTGACGGCAAATTCGAGTTGGAGCGCAGGGATGTCTCGCTTCCTTTCCGGGGCAGCTCGAATCAGCGTTTCATCGATGTAGCCGCCAGCATGGAGCAGGGAATTGCCGTGGAGTTTATTCTTCGCTAG	MNVCGYIPESINEGPGLRAVLFVSGCRHACAGCFNTDSWDFEAGKPFTEEMSAAILQDILDNPLLDGVTLCGGDPFFSPEECAAFVRRLRTLCPAKNVWAYTGFTFEALMRQPKLRELALLCDVIVDGKFELERRDVSLPFRGSSNQRFIDVAASMEQGIAVEFILR				NA	NA	NA	NA	NA
AK002_01599	1128	mnmA		tRNA-specific 2-thiouridylase MnmA	ATGAAAATGGTGATAACGATGTCAAAAGAAAAACATAACACTCGTATCGTTGTCGGCATGTCGGGAGGAGTCGACTCCTCCGTAACAGCGCTCCTGCTCAAACAGCAGGGCTATGAAGTGATCGGCATCTTTATGAAAAACTGGGATGATACCGATGAGCTTGGCTACTGCACAGCCGAAGCGGACGCTGAAGACGTGCGCCGCGTGTGCGAGCAGCTCGACATTCCCTACTATACCGTCAATTTCGAGAAGGAATACTTCGATAAAGTATTTTCCTATTTCCTCGATGAATATAAAGCCGGGAGAACGCCGAACCCCGATGTCATGTGCAACCGCGAGATCAAATTCGGCGAATTTCTGAACAAGGCCATGGACTTGGGAGCCGACTACGTCGCTACCGGCCATTATGCCCGCGTCATCGAGGAGGACGGACAGTACCGGCTGCTGCGGGGTGTGGACAGCAACAAAGACCAAACCTACTTCCTCAATGCGCTGAGCCAAGAGCAGCTTTCCAAGGCGATGTTCCCGATCGGGCATCTGCCGAAGCCGGAGGTCCGCCGACTAGCTGAGGAGGCCGGGCTGTATACCGCCAAGAAAAAAGACAGCACCGGCGTTTGCTTCATCGGCGAGCGGAATTTCAAGGAGTTCCTCGGACAATACCTCCCCGCCCAATCCGGCGATATGGTGGACATTGTCACCGGTGAAGTAAAGGGCCGCCATGACGGCTTGATGTACTACACGCTGGGGCAACGCCAAGGCCTCGGGATCGGCGGATCCGGCTCCGGTGAGCCTTGGTTCGTAGCCGACAAAGATTTGACCAACAATATTTTGTACGTTGTTCAAGGCGATCATCCGAGCTTGTATTCGACGGGACTCGTTGCCTCCGGAATGAACTGGATTGCAGGACAAGACGCTATGCCCAAAGACGCCTACGCCTGCACCGCCAAATTCCGCTACCGTCAGCCGGACCAGGAAGTAACCATAACCCCGCGCGAAGACGGAACCGTTCATGTCGCGTTTGCGAAGCCGCAAAAAGCGATCACGCCGGGACAAGCCGTCGTCTTCTATCAAGGGGACGAATGCCTTGGCGGGGGAACGATCGAAACGGCGGATAAAGTTCCATATTAA	MKMVITMSKEKHNTRIVVGMSGGVDSSVTALLLKQQGYEVIGIFMKNWDDTDELGYCTAEADAEDVRRVCEQLDIPYYTVNFEKEYFDKVFSYFLDEYKAGRTPNPDVMCNREIKFGEFLNKAMDLGADYVATGHYARVIEEDGQYRLLRGVDSNKDQTYFLNALSQEQLSKAMFPIGHLPKPEVRRLAEEAGLYTAKKKDSTGVCFIGERNFKEFLGQYLPAQSGDMVDIVTGEVKGRHDGLMYYTLGQRQGLGIGGSGSGEPWFVADKDLTNNILYVVQGDHPSLYSTGLVASGMNWIAGQDAMPKDAYACTAKFRYRQPDQEVTITPREDGTVHVAFAKPQKAITPGQAVVFYQGDECLGGGTIETADKVPY				NA	NA	NA	NA	NA
AK002_01600	381	cymR		HTH-type transcriptional regulator CymR	ATGATGGAGCTGGCCGCCAGGTTCGGCGAAGGGCCGACTTCGCTGAAGAGCATTGCCGAGAAGAACCAGCTGTCGGAACATTATCTTGAGCAGCTGATCGCGCCGCTGCGGAATGCGGGCTTGGTTAAGAGCATCCGCGGTGCATACGGCGGATATATCCTTTCCCGGGACCCGGCATCCATCACGGCAGGGGACGTCATCCGCGTGCTGGAAGGGCCGATATCCCCCGTCGATTTTACGGAAGAGGACGATCCGGCGAAGCGTGACCTCTGGCTCCGAATCCGCGACAGCATCGCTGAAGTGCTGGATTCCACGACGCTGGACTATCTGATCAATTACCATGAACAGTCTGCTGCAGACAACTATATGTTTTACATTTAA	MMELAARFGEGPTSLKSIAEKNQLSEHYLEQLIAPLRNAGLVKSIRGAYGGYILSRDPASITAGDVIRVLEGPISPVDFTEEDDPAKRDLWLRIRDSIAEVLDSTTLDYLINYHEQSAADNYMFYI	PGPT0004960_1213	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643	NA	NA
AK002_01601	1146	iscS_1		Cysteine desulfurase IscS	ATGAAATCAGTATACTTGGATCATGCCGCATCAACCCCGGTTCATCCGGAGGTTGCGGAGCGGATGATGAATGTCATGACGAGCCAATACGGCAATGCTTCGAGCGTCCATGCTTTTGGACGGGAAGCGAAGAAGATCGTGAACGGGGCGCGTGATCGAATAGCGTCTTTGTTAGGATGCCATTCGGACGAGCTGGTGTTTACCGCAGGCGGGACCGAGAGCGATAACCTGGCTGTTCTGGGACTGCTGGAGTCCTTGGGCGCGGAAGGCAGACATGTGATTACGTCAGCGGTGGAGCACCATGCGGTGCTCCACACTTGCCATGAGCTGGAACGGCGGGGCTGCCAGGTTACCTATGTCCCGGTGGACCCTACAGGGCGTGTTTCTGCAGAGGACATTGCGGGCGCGATTCAGGACAACACGGCGCTGGTGACCATCATGTACGGCAACAATGAAGTAGGCACCGTTCAGCCGATCGCCGAAATCGGCGAGTTATGCCGGAGCCGCGGAATCGTATTCCATACCGATGCCGTTCAGGCATTGGGCTCGGAGGCGATCAACTGCCGCGAGCTGCCGGTGGATATGTGGAGCTTTTCCGCCCACAAAATCAACGGGCCGCAGGGCGTAGGCGCTTTGGTCGTCCGCAGGGGACTCAGCGTCTCTCCCCGTCTGTTCGGAGGGCTGCAGGAGAAGAAGCGCCGGGCCGGAACAGAGAATATGGCCGGAATCGCCGGTTTTGCGGCGGCAGTGGAATGGACCGTGCAGAATATGGATACGCGAATCCAGCATTATCGCGAACTGAGATCGACCCTCCTTGACGGGCTTCGTCAGGAGATTGGCGAGAATTCTTTTGTGATCAATGGAAACCCGGAACATCACCTACCTCACATCCTGAATATCAGCTTTCCCGGTGCCAATACGGAGACGATGCTGATGAACCTCGATATGGAAGGAATTGCGGCGGCAAGCGGTTCGGCTTGTACGTCGGGATCCCTGGAAATATCCCATGTACTCCGAGCAATGAAACTTTCTGACCCTGTTTTGCGCTCCGCGATTCGTTTTAGTTTCGGTTTGGGTAATACTACTCAAGAAATGGAGTACACTGCCCAAAAAATTGGAACCATCCTTAATCGGTTACGTAAATAG	MKSVYLDHAASTPVHPEVAERMMNVMTSQYGNASSVHAFGREAKKIVNGARDRIASLLGCHSDELVFTAGGTESDNLAVLGLLESLGAEGRHVITSAVEHHAVLHTCHELERRGCQVTYVPVDPTGRVSAEDIAGAIQDNTALVTIMYGNNEVGTVQPIAEIGELCRSRGIVFHTDAVQALGSEAINCRELPVDMWSFSAHKINGPQGVGALVVRRGLSVSPRLFGGLQEKKRRAGTENMAGIAGFAAAVEWTVQNMDTRIQHYRELRSTLLDGLRQEIGENSFVINGNPEHHLPHILNISFPGANTETMLMNLDMEGIAAASGSACTSGSLEISHVLRAMKLSDPVLRSAIRFSFGLGNTTQEMEYTAQKIGTILNRLRK	PGPT0000065_5980	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
AK002_01602	522			hypothetical protein	ATGAAACTTCAAGAAATGATCGGACTGGCTGTATTCGACGTGGAGAACGGTAAGGAAATCGGCAAAATCCACGATTTTATACTAGATGAGAACTGGTTGATTACCGGATTGGAGCTTGAAGGCAAGGCTTTGTTTTCCTCGCATGTGAAAAGCGTCTCATGGGAAGATATCGTAGCCTACGGGGAAGATGCCGTCATGATCCGGAGCCAAGAGGCTGTCCGCAAATTGGGCGCCAACGATATACCGCTTACGTACCTTTTGGGCAAGCGCAAATTGAAAGAGATGCAGGTCCTGACAGAGGATGGTGTCCTGCTCGGTCGTATATCGGATGTTTATTTTGAGCAGGAACAGGGCAATACAATACTAGGGTTGGAAATATCCGATGGATTTGTCTCGGATTTGATCGAAGGTCGCAAATGGCTGCCTTGCACAGCGGAAATGGCTATCGGCGAGAGTGCCGTCATGGTACCCCCGATGAGCGAACAGCGTCTGGAAAAAGCCATTAATTCTGTGAACGGATAG	MKLQEMIGLAVFDVENGKEIGKIHDFILDENWLITGLELEGKALFSSHVKSVSWEDIVAYGEDAVMIRSQEAVRKLGANDIPLTYLLGKRKLKEMQVLTEDGVLLGRISDVYFEQEQGNTILGLEISDGFVSDLIEGRKWLPCTAEMAIGESAVMVPPMSEQRLEKAINSVNG				NA	NA	NA	NA	NA
AK002_01603	210			hypothetical protein	ATGAAATGTCCAAACTGTAGTTCCAAAGATATCGGAAAAATCGGCTCCCACCAGTTTTATTGCTGGGGTTGCTTTATCGAATTGACGGTTAACGGAGAGAAAATGTCCGTATACCAGGTAGAAGAGGACGGCACGCTCAGCTCGCTGGATGATTTGTTCTTCGGCGATGACATGCAGCCGGATTTTCCTCAGATGCACGCGTCTTCCTGA	MKCPNCSSKDIGKIGSHQFYCWGCFIELTVNGEKMSVYQVEEDGTLSSLDDLFFGDDMQPDFPQMHASS				NA	NA	NA	NA	NA
AK002_01604	1068	yhhT_1	COG0628	Putative transport protein YhhT	GTGGAACAGCTAACCGAGAACAAATGGTTTCGGTTGTTGGTTTGGTTGATGCTTGGACTCATCTCCCTTTATTTTGTCTGGCTGCTGCGCCCGCTGTTTCTGGATGTCTATCGTTTTCTTAAGGCCGTCCTGGCGCCATTTTTGGTTGCCATGATCATATCGTATGTGTTGAATCCGATAGTATGCACGCTCTCTGACCGCAAAGTTCCGCGGAGCATTGCGGTGCTGCTCATTTATGCCGTCTTCCTGACTTCGCTGGCGGTCATTCTGATCAATATGATTCCGATGCTGATCCGGCAGCTGGAGGAGCTCAACGAGCACTTGCCTGAATTATCGATGAACGCCCAAAGCCTGATGACCAATCTGGACAGCAGGCTGCTGCCCCCGGGAGTAAGGACAGGCGTCAACAGCTGGTTCCTGCAGATGGAGTCGAGGCTGGCCGGTGGAATTTCGGATTTCATGGACAATATCGGCAACACCATCAACATCCTGTTTAATGTGTTAATTGTTCCGTTCCTGATCTTCTACATATTAAAAGATTTTGAGGTGTTCCAGCGAACCGCCGTATCCTATCTGCCGCGGAGCCGCCGGAAGTCGATTGTCACGCTGCTGAAAGAGATCGACACGGCCCTCGGGAATTATGTCCGCGGACAATTTCTGGTATGCTTGATCATCGGCGTTCTCGCTTATGTGGGGTACATGATCGTGGGCATGCCGTACGCGCTGCTGCTGGCCAGCATCGTGGCGGTGTTCAACATCATTCCGTATCTAGGCCCCTTTCTCGGGGCGGCTCCTGCGCTTGTGATGGCATCCACGATTTCCTGGAGGATGGTGCTGCTGGTGGCGGTGGTCAATATGGTCTGCCAGACGCTGGAGAGCAATGTCATCTCGCCGCAAGTGGTCGGCAAGAAGCTGCATATGCATCCGCTTCTGATCATATTTGCGCTCCTTGTCGGCGGACAGGTGGCAGGAACCGTGGGTCTGATTCTGGCTGTTCCGGTCTTTGCCGTCATCAAAGTGCTGCTGCAGCATGTTTTCGCTTATTATGTCAGGAAGAAATCCGGTTGA	MEQLTENKWFRLLVWLMLGLISLYFVWLLRPLFLDVYRFLKAVLAPFLVAMIISYVLNPIVCTLSDRKVPRSIAVLLIYAVFLTSLAVILINMIPMLIRQLEELNEHLPELSMNAQSLMTNLDSRLLPPGVRTGVNSWFLQMESRLAGGISDFMDNIGNTINILFNVLIVPFLIFYILKDFEVFQRTAVSYLPRSRRKSIVTLLKEIDTALGNYVRGQFLVCLIIGVLAYVGYMIVGMPYALLLASIVAVFNIIPYLGPFLGAAPALVMASTISWRMVLLVAVVNMVCQTLESNVISPQVVGKKLHMHPLLIIFALLVGGQVAGTVGLILAVPVFAVIKVLLQHVFAYYVRKKSG				NA	NA	NA	NA	NA
AK002_01605	2628	alaS_1		Alanine--tRNA ligase	ATGAAAGCTAGTGAGATCCGTTCCAAATGGCTAGAGTTTTTTGCAGAGAAAGGCCACAATATTGAGCCGAGTGCATCGCTTGTACCGCATAATGACCCGTCCCTGCTCTGGATTAATGCAGGCATGGCTCCGCTCAAGCCTTACTTCGACGGGCGCGTGAAGCCGGAAAATCCGAGAATTGCCAACTCGCAGAAGTGCATTCGTACCAACGATATCGAGAATGTCGGCAAGACCCGCCGGCACCATACATTCTTCGAAATGCTGGGCAATTTCTCCATCGGCGACTATTTTAAAGAAGAAGTGATCACCTGGGCCTGGGAATTCCTGACGGACAAAAAGTGGATCGGCTTCGATCCGGAGAAGCTGTCCGTAACCGTGTATCCGGAGGATGAGGAGGCCTATAAACTGTGGAACGAGAAAATCGGTCTCCCGAAGGAGCGCATCATCAAGCTGCAGGATAACTTCTGGGATATCGGCGAAGGACCATGCGGACCTTGCACCGAGATTTTCTATGACCGCGGCGAAGGATACGACACGGAGGCACCCGAATCCGAAATGTTCCCCGGCGGCGAGAATGAACGCTGGCTTGAAGTATGGAACCTCGTGTTCTCCCAGTTCAACCACAACAAGGACGGCAGCTACACACCGCTCCCGAACAAGAACATCGATACGGGTGCGGGTCTGGAGCGCTTTGCTTCCATTCTGCAAAACGTGGCTTCCAATTTCGATACCGACCTGTTCCAGCCGATCATTCAGAAGACGGCAGAGCTTGCCGGCGTAAAATACAACGAGAAGACGGAATACGATATCGCGCTGAAAGTCATTGCAGACCACATCCGTACGGTTGCATTCGCGGTAGGCGATGGCGTGCTGCCTTCCAACGAAGGCCGCGGCTATGTCATCCGTCGTTTGCTCCGCCGCGCGGTTCGTTACGGAAAGGTGCTCGGACTGGAAAAACCGTTCATGTATACCTTGACCGGAACCGTAGGCGATATTATGGGAGTTTACTACCCAGAGGTCGTTGAGAAGCGCGCCTTTATCGAGAAGGTCATTGCGACGGAAGAAGAACAGTTCCATAAAACGCTCTCGGACGGCTTGAACATCCTGGCTGACGTCAGCGCCGAAGCGAAGAAGCAGGGCAAATCCGTCATCAGCGGCAGCGACGCGTTCAAATTGTATGATACGTACGGCTTCCCGTTTGATTTAACGGAGGATTATGCGTCCGAACACGGATTGACCGTGGACCGCGAGGGCTTTGATGCCGCGATGAAGGAACAGCGTGACCGTGCGCGCGCAGCCCGTCATGAAACGGAAAGCATGAAGGTCCAAGGCGGCGTTCTTTCCGATTATACGGTTAAAAGTGAATTTGTTGGATATAATGACACCGTCAGCGAGGCGAAAGTGCTCGCCATTGTGTCCGGTGACAGCTTTGCGGACAGCGTCAGTGAAGGCGAGACCTGTCAGGTCATTCTGGACGTTACCCCGTTCTATGCGGAAAGCGGCGGCCAGGTCAGCGATCAGGGGATGTTGGAAGGCGGATCCGTGCGTGCCCGAGTGGAAGGCCTCTTCAAGGCTCCGCATGGACAGCATGTGCATTTCGTAACCGTCGAGCTCGGCGAGCTCAAAGTGGGCGATACGGTCAAGGCGCAGGTCGACACCGCCATGCGCAATGACATCGTCAAGAATCATACAGCGACTCACCTTTTGCATAAAGCCTTGAAGGAAGTGCTTGGCGATCATGTCAATCAGGCAGGTTCCCTTGTTGAACCGCAGCGTCTGCGCTTCGACTTCTCCCATTTCGGCAGCATTACGCAGGAGGAACTGGCCGATATTGAGCGCCGCGTGAATGAACAGGTATGGAAAAGCGTTCCGGTCGTTATCGAGCGCAAGGCCATTGATGAAGCGAAGGCGATGGGCGCCATGGCCTTGTTCGGCGAGAAATACGGCGATATCGTCCGTGTCGTTCAGGTCGGGGATTACAGCATCGAGCTGTGCGGCGGATGCCATGTGGACAACACGTCCCAGATCGGAATCTTCAAACTGCTTGGCGAGAGCGGCATCGGCTCCGGCGTTCGCCGCATTGAAGCCGTAACGGGACGTTACGCTTATGAGCATCTGGAGGGCCAAATGGACCTGCTCAAGCAGGCTGCCGGCTTGCTGAAGAGCAATCTTGCAGACGTGCCGAAGCGGATCGAAGGCCTGAACCAACAGGTGAAGGATCTTGCCCGGGAGAACGAGTCCCTGCAAGGCAAGCTGGGAGCCATTGAAGCCAGCCAGCTGACCGACAAAGTGAAGCAGGTCGGAAACACGTCGCTGCTGGCAGCCGAAGTACAGGCCGGCAGCATGGACGGACTCCGCGGCATCGCTGACGAATTGAAGGGCAAGCTGCCCGAGACCATTCTTGTGCTCGGCTCCAAAGCAGGCGACAAGGTGAATTTCGTCGTAGCGGTTCCGCAGGAGCTGGTGAAGCAGGGCTATCATGCCGGCAAGCTGGTTAAGGAAGTCGCATCGGTATGCGGCGGGGGCGGCGGAGGCCGTCCGGATATGGCCCAAGCCGGGGGCAAGGATGCTTCCAAGCTTGCCCAGGCGCTGCAGCATGCGGAGGACCTCGTAGCCCGGGGCGTGTAA	MKASEIRSKWLEFFAEKGHNIEPSASLVPHNDPSLLWINAGMAPLKPYFDGRVKPENPRIANSQKCIRTNDIENVGKTRRHHTFFEMLGNFSIGDYFKEEVITWAWEFLTDKKWIGFDPEKLSVTVYPEDEEAYKLWNEKIGLPKERIIKLQDNFWDIGEGPCGPCTEIFYDRGEGYDTEAPESEMFPGGENERWLEVWNLVFSQFNHNKDGSYTPLPNKNIDTGAGLERFASILQNVASNFDTDLFQPIIQKTAELAGVKYNEKTEYDIALKVIADHIRTVAFAVGDGVLPSNEGRGYVIRRLLRRAVRYGKVLGLEKPFMYTLTGTVGDIMGVYYPEVVEKRAFIEKVIATEEEQFHKTLSDGLNILADVSAEAKKQGKSVISGSDAFKLYDTYGFPFDLTEDYASEHGLTVDREGFDAAMKEQRDRARAARHETESMKVQGGVLSDYTVKSEFVGYNDTVSEAKVLAIVSGDSFADSVSEGETCQVILDVTPFYAESGGQVSDQGMLEGGSVRARVEGLFKAPHGQHVHFVTVELGELKVGDTVKAQVDTAMRNDIVKNHTATHLLHKALKEVLGDHVNQAGSLVEPQRLRFDFSHFGSITQEELADIERRVNEQVWKSVPVVIERKAIDEAKAMGAMALFGEKYGDIVRVVQVGDYSIELCGGCHVDNTSQIGIFKLLGESGIGSGVRRIEAVTGRYAYEHLEGQMDLLKQAAGLLKSNLADVPKRIEGLNQQVKDLARENESLQGKLGAIEASQLTDKVKQVGNTSLLAAEVQAGSMDGLRGIADELKGKLPETILVLGSKAGDKVNFVVAVPQELVKQGYHAGKLVKEVASVCGGGGGGRPDMAQAGGKDASKLAQALQHAEDLVARGV				NA	NA	NA	NA	NA
AK002_01606	261			hypothetical protein	ATGGACTCCATGGATAAGACAGTCAAGTTCAATGTAAAAGGTGATGAAAAGGAGGCTTCCGCCCAGGACATTCTACTTTCGGTGTACGATTCGCTGGTAGAGAAGGAGTACAATCCGATTAACCAAATCGTAGGGTATCTTTTGTCCGGGGATCCCGCTTATATACCTCGGCACAATAATGCCAGAAGTTTGATCCGGAAAAAAGAGCGAGATGAATTGATTGAAGAACTGGTCCGGTTCTACTTAGCCAGTCACCGTTAG	MDSMDKTVKFNVKGDEKEASAQDILLSVYDSLVEKEYNPINQIVGYLLSGDPAYIPRHNNARSLIRKKERDELIEELVRFYLASHR				NA	NA	NA	NA	NA
AK002_01607	414	yrrK	COG0816	Putative pre-16S rRNA nuclease	ATGAAGAAGATCATGGGATTAGATTACGGGGACCGCAGAATCGGTGTTGCCATCAGCGACGTGTTCGGATGGACGGCCCAAGGGGTTGAAGTTATCGAACGCCGCCGCGACGAAGGCGAGCTGGACAGAATTGCCGCACTCGTCAAAGACAACGAGGTCGGCGAGATTGTGGTCGGCCTGCCTAAGAATATGAACGGCACGATTGGTCCGCGGGGCGAAATCTGCATGGAATTCGCAAACACGTTGCGAGAGTCCCTATCCTTACCCGTTCACCTTTGGGATGAACGGCTATCAACAGTATCCGCTGAAAGGACATTGCTTGAAGCCGATGTCAGCCGAAAGAAGCGAAAACAGGTTGTAGATAAAATGGCGGCAAGCTTGATTTTGCAAAACTACTTGGATTCTAAAAGGTAA	MKKIMGLDYGDRRIGVAISDVFGWTAQGVEVIERRRDEGELDRIAALVKDNEVGEIVVGLPKNMNGTIGPRGEICMEFANTLRESLSLPVHLWDERLSTVSAERTLLEADVSRKKRKQVVDKMAASLILQNYLDSKR				NA	NA	NA	NA	NA
AK002_01608	303			hypothetical protein	ATGGCTAATGAGCATATTGGTATGGAAGAAGAACCGGAAATTATTTATATTCCCGACGATGAAGGCAACGAGGAAGAGTTCGAAGTCATCATGAAATTCGAAGTGGATGGCTCGGATGCCAAATATATGATGGTCGTACCAAGGGAGTCTGCAGAAGAAGAGACTGACGAGGTTTACGCCTTCCGTTATGAGGAAGACGGAGAAGACCTGAAACTGTTTATGATCGAAGACGATGAAGAATGGGCCATTGTTGAAGAAACCTTCAATACGCTCGTGGAAGAGCTGGACGGGAGAGACGAATGA	MANEHIGMEEEPEIIYIPDDEGNEEEFEVIMKFEVDGSDAKYMMVVPRESAEEETDEVYAFRYEEDGEDLKLFMIEDDEEWAIVEETFNTLVEELDGRDE				NA	NA	NA	NA	NA
AK002_01609	315			hypothetical protein	ATGATGTCTGATTTTTCGGTTGAGAATATCGTATGGACCCAAGCCCTTAAGGAAGCATTCGGTGAGAGTGTTGAGCTTGAGGACGATAAAGGCCATCTCGAGGTTTATGATATTGCCGCCGAATTTGAAGTGGATGGTCAAGGGTATGCCATTCTGGTTCAGCCGGACCGCACCGATGAGGAGTACGAGGTTCTCCGGATCGTGAAGAATGCGGATGGCGGATTGGAGCTGGCCACCATTGATGACGACGAGGAATGGGAGAATGTGTCCGAGCTCTACGATGAGCTGACGTTTCCCGAGGGAGACGAGGACTAA	MMSDFSVENIVWTQALKEAFGESVELEDDKGHLEVYDIAAEFEVDGQGYAILVQPDRTDEEYEVLRIVKNADGGLELATIDDDEEWENVSELYDELTFPEGDED				NA	NA	NA	NA	NA
AK002_01610	1044	mltG_1		Endolytic murein transglycosylase	TTGAAGAAACTGGCAATAGCAGCATTGGTTCTGATCCTCATTGCAGGCGGGGCCGTATTCTACGTATGGAATGGTTTACAACCCGTTCAGAGCTCGGAAACTCCCGTCGAATTCACCGTGGAGTCCGGCATGAGCACATCCTCTATCGCCGATCTGCTTGAGGAAAAGGGACTGATCAAAAATGCTCTTATACTTAAAGGTTATCTGAAGCTTAGCGGCGAAGGCAGCCGTCTCATGGCTGGAACCTATGAAGCAACGCCGGGCACTCCCTTCCAGGAGCTGTTATCCAAGATGAACAACGGCGAAGTGAAGCCTGAGGAAATGGTCCGTTTCACGATCCCCGAGGGATATACGATCCTTCAGATGGCGGAAACCATCGCTCGCGAGAGCGGCATCGACGAGAAGGAGTTCCTGGAGGTTGTGGATCAGCCATCCGGCTGGAGTGTGCCCATAACGGAAGAGATTCCCGCAGAAGCAAATCTGAGGCATCATCTGGAGGGCTACTTATTCCCGGCGACCTATGAACTGCCGAAGAAGGATCTAACGGCAAAAGGCATCGCAGAGACCATGCTGAAGGAAACCGAGAAGCGTTTGGCTGAAATTCCGGATTGGGAGAGTCAGCTGGAGGCGCGAGGCGTGACGTTTCATGAGCTCATGACCATCGCTTCGCTGGTGGAGCGTGAAGTGGTTGCGGACCAGGAGCGCGCCCTGGTAGCCGGCGTGATTTATAACCGGCTGGACGAGGATATGAGGCTTGAAATCGATGCGACCGTTCAATATCTGTTAGATAAGCCGAAGGAGCGGCTGCTTTACGCCGACCTGGAGGTCGAGAGCCCGTATAACACTTATCGTCAAAAGGGACTTCCGCCGGGGCCTATCTCGAGCCCGAGCCTGGAGTCCATTCAGGCAGCCCTGAACCCGGAGAAATCCGATTATTTGTTCTATGTGACGAAGAAGGACGGTACGCAGGAACATCTCTTTGCCAAAACGTACAAAGAGCATTTAAAAAACATCGAAGCCAGCAAAAAGATGGCACAACAATAA	MKKLAIAALVLILIAGGAVFYVWNGLQPVQSSETPVEFTVESGMSTSSIADLLEEKGLIKNALILKGYLKLSGEGSRLMAGTYEATPGTPFQELLSKMNNGEVKPEEMVRFTIPEGYTILQMAETIARESGIDEKEFLEVVDQPSGWSVPITEEIPAEANLRHHLEGYLFPATYELPKKDLTAKGIAETMLKETEKRLAEIPDWESQLEARGVTFHELMTIASLVEREVVADQERALVAGVIYNRLDEDMRLEIDATVQYLLDKPKERLLYADLEVESPYNTYRQKGLPPGPISSPSLESIQAALNPEKSDYLFYVTKKDGTQEHLFAKTYKEHLKNIEASKKMAQQ				NA	NA	NA	NA	NA
AK002_01611	933	rlhA	COG0826	23S rRNA 5-hydroxycytidine synthase	ATGAGTATCAAACCTGAATTATTGGCGGCGGCCGGCTCCGTGGCCGATGCTGCTGCTTACCTGGAAGCCGGAGCCGATGCGCTGCTTGTCGGCGAAGACCGCTTCGGCATGAGATTGCCCGGCAGTTTGACCCTGGACGAAATTGCGCAAGTCGTGCAGCTTGCTCACGGGCAAGGGAGCAAAGTCTACGCAAGCTTGAACAACTTAATGACCAATGATTTGCTGCCGGAGCTTCCTGCTTATGTTAAGGCGCTCGGAGACATCGGAGTGGATGCGGTGGAATTTAACGATCCCTCGGTGCTAACTACCGTAAAAGACTTGGCTCCGCAGTTAAAGCTCCACTGGAATGCGGAAATGACCGCCACCAACTATTCAACGGCCAATTACTGGGGAAGCAAAGGCGCCTCCCGGGTTATTTTGGCGCGTGAATTGAATATGGACGAAGTCACGGACATGAAGCCGCAGCTTCAGCTGGAAGCGCAGGTCCAGGTCCACGGCATGACCAACATCTATCACTCCAAGCGGCGCCTGGTGAACAGTTACATGCAGCAGCAGGGCAGACCGGTCAATGACGGCAGCCTGGGCAAAGAGCGAGGCCTGTTTCTCATCGAGGCCGAACGCCAGGACGAGAAATATCCGATCTATGAGGATATCAATGGCACCCATATCATGAGTTCGGAGGATATCTGCATTCTGGAGGATCTGCATCTGCTGATGGCAGCAGGCGTGGACAGCTTTAAGGTGGAGACGCTGCTGAAGCCGCGCCATTACAATGAGGTTGTAATTCGAACTTATCGTAAAGCGATCGATCTCTACGCTGCAGACGCTTCAGCTTATGCATTTCAGGAAGAGTGGATGGACGGAATCCGCGCGATTCAGGATCCGGAACGCGAATTGTCGTTTGGATTTTTCTACAAGGAACAAGTTTATTAA	MSIKPELLAAAGSVADAAAYLEAGADALLVGEDRFGMRLPGSLTLDEIAQVVQLAHGQGSKVYASLNNLMTNDLLPELPAYVKALGDIGVDAVEFNDPSVLTTVKDLAPQLKLHWNAEMTATNYSTANYWGSKGASRVILARELNMDEVTDMKPQLQLEAQVQVHGMTNIYHSKRRLVNSYMQQQGRPVNDGSLGKERGLFLIEAERQDEKYPIYEDINGTHIMSSEDICILEDLHLLMAAGVDSFKVETLLKPRHYNEVVIRTYRKAIDLYAADASAYAFQEEWMDGIRAIQDPERELSFGFFYKEQVY	PGPT0021005_3244	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021005-PUTATIVE_PROTEASE-K08303	NA	NA
AK002_01612	1344			hypothetical protein	ATGGAAGCAATGGCACAGCCAAAATACAAAGGCAAACGCTATCGCCTGGACAAGCCGGAATTGCTCGCCCCGGCCGGTAATTTGGAAAAACTGAAATTTGCGGTGCATTATGGCGCCGATGCGGTATATATCGGAGGGCAGAAATACGGCCTTCGTTCGAATGCGGACAACTTCAGCTTCGAAGAAATGAAAGAAGGCGTGGAATTCGCCAAGAAATACGGCGCGAAGGTGTTTGTGGCCACCAACATTTATGCGCATAACGAGGACATCGAAGGCATTGAATCCTACCTGCGAAGCCTGGAAGAAGCAGGCATAACAGCGATCATCGCTGCCGATCCGGCGATTATCGAGGTTGCCAAGCGCGCTGCGCCTAAACTTGAAGTACATCTGAGCACGCAGCAGTCCACGCTCAATTGGCAGGCGGTGAAATTCTGGAAGGACGAAGGATTGCCGCGGGTCGTACTGGGACGGGAGACAAGCCTGGAGGAAATCGCAGCGATTAAAGAGAATGTTGACATTGAGATCGAAGCCTTTATCCATGGAGCAATGTGCTCCTCGTTCTCCGGTCGCTGCGTATTGTCCAACCATTTTACGGACCGTGATTCGAACCGGGGCGGATGCTGCCAATCCTGCCGTTGGAAATATGATTTGTTCGAGGATGGAAGAGAAGAGCAAGGTCATTGGGTGTCGGAAGAGCAGCAGCTGATGGAACAGCCTGCCCCTGCTCCATCCCCGTTCAAACCGGGCGTTACCCAGATCCCGCTGTTCCAGCCGGAAGATAATCAGTTTACGATGGGGTCGAAGGATCTCTGCATGCTGGAGCATATTCCGGACCTGATCGAGGTCGGAATCGACAGCTTCAAGATTGAGGGACGGATGAAATCGATCCATTACGTTGCGACCGTGGTCAATGTGTACAGACAGGCGATTGATTCTTACATGGCCAACCCTGAGCATTATGTATTGAAGCCTGAATGGATCGAGGAAATTAATAAAGCGGCCAACCGACCGCTGAATACCGGGTTTTTCTATGATACGCCGGACCATGAGGATCATATTTATGAACCGGAAGAGAAGGCGGTCCCTTATGATTTCGCCGGATTGGTGATGGAATATGACGAGCGCTCGGGAACGGCCGTCATCCAGCAGCGGAACCACTTTAAGCCTGGTGATGAAATCGAGTTTTTCGGGCCGGAAGGGACCTTCTTTAAGCAGACGGTAGGGCCTATCCAGGATGAGAATGGAAGCGAACTGGATGCAGCTCGCCATCCCCTTCAGCTCATTCGCATGAAGGTGGATCAGCCGGTGCGTCATTTTGATATGATGCGAAAACGCAAAGGATAA	MEAMAQPKYKGKRYRLDKPELLAPAGNLEKLKFAVHYGADAVYIGGQKYGLRSNADNFSFEEMKEGVEFAKKYGAKVFVATNIYAHNEDIEGIESYLRSLEEAGITAIIAADPAIIEVAKRAAPKLEVHLSTQQSTLNWQAVKFWKDEGLPRVVLGRETSLEEIAAIKENVDIEIEAFIHGAMCSSFSGRCVLSNHFTDRDSNRGGCCQSCRWKYDLFEDGREEQGHWVSEEQQLMEQPAPAPSPFKPGVTQIPLFQPEDNQFTMGSKDLCMLEHIPDLIEVGIDSFKIEGRMKSIHYVATVVNVYRQAIDSYMANPEHYVLKPEWIEEINKAANRPLNTGFFYDTPDHEDHIYEPEEKAVPYDFAGLVMEYDERSGTAVIQQRNHFKPGDEIEFFGPEGTFFKQTVGPIQDENGSELDAARHPLQLIRMKVDQPVRHFDMMRKRKG	PGPT0021005_1700	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021005-PUTATIVE_PROTEASE-K08303	NA	NA
AK002_01613	2175			hypothetical protein	ATGTCAGAAGTTGAGCAGCATGATAAGAAACCGAAAAAGGACAAGAAGCCCGGAGGAAACAAAGAGAAAAAGAAAACGCCTTCGGCATCATCAGGGATACATACTGCCAAGTCGTTCGTTTCTAACATGGGAACGGCCATAAGCCGGATGCCGATGAACCCGGCAAAATCCGTCGGAATCCGGTTGTTCCTGATCTTTTTGTCAGCCATTGTATTTTTTGTGATCGTCCTGGGTTATTTGTCTTACAACAAGGCAAAGGACACGATTGAGAAGAATGCTGCAAACGGCAATCAGCAGACGATTATCCAAACCTCCGAGAAAATCGACATCATTCTGGATAAGTACGAGAATGCCGGCAGACAAATCTTCTATGACATTGAATTGCAGAAGTTGTTGTCCGAGTACACGGATAAGAAGTTAAGCGAGTACGATGCGTTTACGGTGGAGCGGACCATTCGCGATAAGCTATCCAATCAGATTACGTCGGACTCGGCCATTAGAGCCATTTATTTGATCCCTTCCAAGGGAGAGAAGATCATATCCGCAGGACAATCCTCGGAATCCTCCAAAACCGTCCTTGAGCAAAGCTGGTACGCCGAACTGAAGGAAGGCGACAAGAAGATTATGTGGCTGCCAACGATGCAGAACAGCGGTGCTCCGTATTTCACGATTGCCCGCTCCTTGGGTTCCATGAACGACCTGACGTCTACGTATGTCGTCATGTTTGAACTGAACGCCTCGGTGCTGGATGCCCAGCTGAAGGGAATTAACCTTGGCGAGAACGGCCAACTGCAATTGATCAGTCCTGAAGGCATCGTTGTTTCCTCCAGCGATTCCTCCATCGTGGGATCGGAAACCGCTTGGACGTTTGCGAAAGAGTTTCCGGCCGACACCAAAACGGATGACGTAAGAACGAAGGATGAGGAAGGAAGAAATGTACTGGCGGTTTATAATACGCTGAGCACGAACGATTGGAAGCTCGTAGGCTCTGTCCAAACCAGCGAGCTCACGAAGGATGCCTCCAGCATACTGGTCATCACGCTGATCGTGGCAGCCATCGACGTTATTTTTGCCATTCTGATCGGTATTTGGATGGTAAGAATGATTGCCCGTCCGATAGGCAAGCTTAACCTGCTGATGAAGGAAGGCGCTAAAGGGAATTTGAATGTTCGTACAGACCATAAGAGCCAGGACGAAATCGGTCAGCTTTCGGCCAGCTTCAACGATATGATGGAGCAGATTACCGGACTCGTGCAGCAAACGAGCAATACCGCCCAGGAAGTGCTTCGAACGGCTGCCGAATTAAGCGATGCCTCGAAGAAGACGGCGATTTCGGCCAAAGAAATTGCCGTAGCTACCGAGGAAATTGCGAACGGAGCAAGCAGTCTGGCGGTTGAAGCAGAGCGCGGCAGCGATCTGACTAATAACATCTCGAAGCAGATGCAAATCGTTGTTACGGCTAACGAAGAGATGGGCAAATCGGCCCGTCACGTAGAAAGCTCCAGTGAGCTGGGAACGAAGCATTTGAGCGACTTGCTGGATAAGACCCATCAGACCGAGGATATGACACGCTCGATGATGCATAAGGTTGATGGCTTGAAGGAAACGACATCTTCGGTTGCCAAAGTGCTTGATGTGCTTCAGAACATCACCAAGCAAACGAACATCCTCTCCTTGAATGCAACGATCGAAGCGGCCCGTGCCGGAGCAGCCGGTAAAGGCTTCATGGTCGTGGCCGATGAAATCCGCCAGTTGGCAGACCAATCCAGGCAATCCATCGATATGGTCAGCCAAATTACGGACCGCATCATGGCCGAGATGAACGAAACCGTGCAGGTACTGCTCGATGCGAACCCGCTCTTCAAGGGTCAGATGGATGCCGTTAAGGAAACGAACGATATCTTCGTATCCGTTCAACAGCAGATGGTAGAATTTATCGATCGCTTGGATTCCGTCACGCATTCGATTGATGAGCTGAATGAATCTCAAAATGTACTTTCGGAAGCGATGAGCAATGTGAGCGCGGTAGCCGAAGAATCCTCCGCAACTTCGGAAGAGGTGGCTTCTCTCTCCACAGAGCAGCAAAGCGTCAGCAGTCAGCTGGTTAATCTGTCAACACAGCTTGAGAATGTATCGAATGAGCTGAAAGAGACCTTGTCTCGTTTTAGATTATAG	MSEVEQHDKKPKKDKKPGGNKEKKKTPSASSGIHTAKSFVSNMGTAISRMPMNPAKSVGIRLFLIFLSAIVFFVIVLGYLSYNKAKDTIEKNAANGNQQTIIQTSEKIDIILDKYENAGRQIFYDIELQKLLSEYTDKKLSEYDAFTVERTIRDKLSNQITSDSAIRAIYLIPSKGEKIISAGQSSESSKTVLEQSWYAELKEGDKKIMWLPTMQNSGAPYFTIARSLGSMNDLTSTYVVMFELNASVLDAQLKGINLGENGQLQLISPEGIVVSSSDSSIVGSETAWTFAKEFPADTKTDDVRTKDEEGRNVLAVYNTLSTNDWKLVGSVQTSELTKDASSILVITLIVAAIDVIFAILIGIWMVRMIARPIGKLNLLMKEGAKGNLNVRTDHKSQDEIGQLSASFNDMMEQITGLVQQTSNTAQEVLRTAAELSDASKKTAISAKEIAVATEEIANGASSLAVEAERGSDLTNNISKQMQIVVTANEEMGKSARHVESSSELGTKHLSDLLDKTHQTEDMTRSMMHKVDGLKETTSSVAKVLDVLQNITKQTNILSLNATIEAARAGAAGKGFMVVADEIRQLADQSRQSIDMVSQITDRIMAEMNETVQVLLDANPLFKGQMDAVKETNDIFVSVQQQMVEFIDRLDSVTHSIDELNESQNVLSEAMSNVSAVAEESSATSEEVASLSTEQQSVSSQLVNLSTQLENVSNELKETLSRFRL	PGPT0015710_2742	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_01614	1509	gerBA_2		Spore germination protein B1	ATGAAGACGAAGCAGCCTGGCCAAACGCCTGAATTCCTGTCAACGCACCTAAAGGAAAACCTGGAAACATTAAGTCTGTTGCTCAATGACCCCAGCGACCTCACCACGAAAGTGCTTCAGGTTGGGGGCAGTTCATACACCTCAGCCATTGTCAGCCTGGAAGGATTATCCGATCAGTTGTTGATTAAGGAGCAGATTATCCAGCCGATTCAGCATAACCCGGAGCAATACGCGTCATCCATGAAGGATGTGCGGAATGTTCTCCATGAAATCGAGAATCGGATGATATCCCTCCAGATCACCAACCGAACGAGACGCTGGGATGAAGTCATTCCGGTCATTCTTTCGGGCGATACGATTCTTATGCTGGAGGGTTCGGATGAGGTCCTGCTGATCAAAACCCGCAAATGGCCGGGACGGAGCATTGAGGAGCCTCAAACCGAAGCGCTGGTGCGCGGCCCGAGAGTAGGATTTACGGAAAGTATCTACACCAACATCTCCCTGCTGCGAAGACATATTCGCGAGCCCAACCTGACGATTGACCCCCATACCATCGGCAGGCGATCGAACCAGTCGCTTGCGGTCGTCTATATTAAAGGATTGACGAATCCGGAGCTGATCGAAGAAGTCAACCGCCGGCTGAAGTCGCTGGATCTCGACTATGCCCCTGAATCCGGGACGGTGGAGCAATGGATCGAGGACAGCTTTTTATCGCCGTTTCCCCAGATCCTCAATACCGAGCGACCGGATAAAGTCACTTCCGCCCTGCTGCAGGGAAAAGTAGCGATTTTGCTGGACGGTACCCCTTTTGTGCTTCTGCTTCCGTTTACTTTCATTTCCCTGTTACATTCCCCGGAGGATTATTACGAACGATGGAGCATTGGCTCGCTGATACGTTTGCTGCGTCTTGTGGCCATCGGAATTACCTTGTTTCTTCCCGCGCTGTATATTGCCATCCTGTCTTTCCATCCCGGCATGATCCCGTTTAAGCTCGTATTCTCGATTGCTGCTTCACGGGAAGGGGTGCCCTTTCCTGCAGTGATCGAAGCCTTACTGATGGAAGTTACACTGGAATTGCTGCGCGAAGCGGGAATTCGCCTGCCGAAACCGATAGGTCAGACAATCGGCATTGTCGGAGGACTTGTAATCGGGGAGGCTGCGGTTCAGGCGGGGATCGTGAGCCCGATTATGGTCATCATCGTGGCACTGACAGCCATATCCTCCTTTGCCATTCCGTCTTACAGCGCAGGCATTTCTTTTCGAATGCTGCGCTTTGCGATCATGATTGCTGCAAGCTTTCTGGGACTGTATGGAATTGTGCTGACCTTTATCATGATCTGTATTCACTTGATGAGGCTGCACAGCTTCGGAATCCCTTATCTGAGTCCCATTGCCCCCTCTGTTCAGCACGATTGGAAGGATATGTTTATCCGCGTGCCGGTGACTTGGCTTACGCTCAGACCTTTATTTATGAAGCCCCAGGATATCCATCGGGCAAAAAAGCGGTGA	MKTKQPGQTPEFLSTHLKENLETLSLLLNDPSDLTTKVLQVGGSSYTSAIVSLEGLSDQLLIKEQIIQPIQHNPEQYASSMKDVRNVLHEIENRMISLQITNRTRRWDEVIPVILSGDTILMLEGSDEVLLIKTRKWPGRSIEEPQTEALVRGPRVGFTESIYTNISLLRRHIREPNLTIDPHTIGRRSNQSLAVVYIKGLTNPELIEEVNRRLKSLDLDYAPESGTVEQWIEDSFLSPFPQILNTERPDKVTSALLQGKVAILLDGTPFVLLLPFTFISLLHSPEDYYERWSIGSLIRLLRLVAIGITLFLPALYIAILSFHPGMIPFKLVFSIAASREGVPFPAVIEALLMEVTLELLREAGIRLPKPIGQTIGIVGGLVIGEAAVQAGIVSPIMVIIVALTAISSFAIPSYSAGISFRMLRFAIMIAASFLGLYGIVLTFIMICIHLMRLHSFGIPYLSPIAPSVQHDWKDMFIRVPVTWLTLRPLFMKPQDIHRAKKR	PGPT0025115_183	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310	NA	NA
AK002_01615	1107	yndE_1		Spore germination protein YndE	ATGAACCTTAACCAACGAAGCAGTCAAACGATCGGCAGAAAAGAGATTGTTTACTCTGTCAGCAATATGATGATTGGACTCGGAATCCTCACGCTCCCCCATACGATTGCTAAGAAGACCCAGTTCTCGGATGGCTGGATGCCGATCATTCTCGGCGGCATGATCGCATTTGTATTTGCTTGGGCCATCGGCGTATTGGCTTCGAGGTTTCCCGGTAAAAACTATCATGCAATGGCCTCGATGATTTTGAGCCGAAAAGCAGCCCATGTGTTGACGCTGTTAATGAGCCTCTACTTTCTGTTATTTGTCAGTTACCAAGTGCGCGGCGTTTCTACGATATCGAGGCTGTATTTATTCGATAACACGCCGGAGGAAATCATCGGGCTGGTTTACTTGCTGGTATTAATCTATGCCGTTGCCGGCCCAAGCATCGCTTTGGTGCGCTTGAACCTGATTTTTTTTCCCATCGTTATCACGATTTTGCTGCTGATCGTCCTCTTGAATCTTGGAAGCTTAAACATGCACTTTCTGCTGCCTGTGTTTAAAACGGACTGGAGAAGAATCGTTGCCTCTTCGAAGGATACCGTATTCTCGTATCTAGGACTTGAGATCATGCTGTTCTACAACATCTATGTCGCTAGGAAAAGCAAGCTTCCAGGCTCTATCTTACGCGGGCTGATGATACCAATCTGCGTATACTTTGTTGTTTTCGTGTTTGTCATTGGCGTTTTTGGACCGATGGTGGTTTCCAATACGCTGTATCCGTTAGCCGAATTGGCCAAAGAGGTTGAAGTTCCGGGAGGAATATTCGAACGGTTTGAATTTTTCTTTTTTGTCATCTGGTTGATGACATTGTTCAGCACGAATGCGATGGCGTTTGACGTGGCTTTATTGGCGCTGGAATCCGTATTCCCTAAACATCGAAGATTTACGATGATCCTTGTTCTGGCACCGATACTGTTCATCCTCGGTTTATTGCCGAGCACGCTCCGAGAACTCAACGTATTTGCGGAATGGATCAGTTATATGGGGGTCGGATCCGCATGGGTGCTTCCGGCACTGCTGCTCTTGATCGCTAAAGTTCGGGGGGTGAAGGGGGATGGCTAG	MNLNQRSSQTIGRKEIVYSVSNMMIGLGILTLPHTIAKKTQFSDGWMPIILGGMIAFVFAWAIGVLASRFPGKNYHAMASMILSRKAAHVLTLLMSLYFLLFVSYQVRGVSTISRLYLFDNTPEEIIGLVYLLVLIYAVAGPSIALVRLNLIFFPIVITILLLIVLLNLGSLNMHFLLPVFKTDWRRIVASSKDTVFSYLGLEIMLFYNIYVARKSKLPGSILRGLMIPICVYFVVFVFVIGVFGPMVVSNTLYPLAELAKEVEVPGGIFERFEFFFFVIWLMTLFSTNAMAFDVALLALESVFPKHRRFTMILVLAPILFILGLLPSTLRELNVFAEWISYMGVGSAWVLPALLLLIAKVRGVKGDG	PGPT0025120_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311	NA	NA
AK002_01616	1152	gerBC_2		Spore germination protein B3	ATGGCTAGAAAACTCCGGATGCTCCTGGCGCTCCTGCTGTTATGGCCGACAGCGGGCTGCTGGGACCGCATCGAAATCGAGGAGCGGGGATTTGTAGTCGGCACGGCTCTTGACGCGGCAGAGGAAGGACAAATTAAGCTTACGTTTCAAATTGTCGTGCCTACGCAGATGAAAGGCTCCAGCGGCCAAAAGAGTGAGGGAGGGAGCCCTTTTATCAATCTGTCCTCAACCGCGAGCAGCGTATTCAAAGCCGCGCGGAAGATGTCGAATGAGATCAGCCGCTCTCCTTACCTGGCCCATAATCAAGTGATCATTATCTCCGAAGCGCTGGCCGGAACGGAGCACGTAGGCGATGTACTGGATTTGTTTGTCCGGGATCCGGAGAACCGGCGAGCTTCCAATATTATGGTCGCTGAGGGAGAGGCGAGCAAGATCCTGGAGATCCATTCAAAGATTGAAACCTTGCCTGTGCAGTACATTCGTTCAACGCAAGAAAATAAGGACAAAAGCGAATCCATCACGCCTCCAACGAATATGGGGGAACTGCATCATTTCCTGTTGTCCAAGTCGAGTTATGCGCTGCCCCGGGTATCGATCACGCAAGACGACAGAGTATCCACCAGCGGCGCAGCTGTGTTTAACGGCGAGAACTACAGGTTCATGGGATTCCTGGACAACGATGAAACCACGGGCCGGAACATGATGCAGGGAACGGTAAAAACCGCATCCCTGGAACTGGTCGTTCACGGCAAACAGCTCGTTTATGAAGTCAGGGAATTCAACCGGATCATTCGAGTCCATCTGGACGATCGCGGACTTCCCGAGTTTGACGTTGAAATTTCGGTCAGAGGCAATATTGGGGAAGCTGAGCTGGAAGAGAGCGAAATCGTTCGCGAACTAAACGGGGAGATCAAACGCAAGGCGGAGGAACGGATCAAGGAAATCGCAATGGATGTCATTCAAAAGGCCCAGAACGATTATAAATCGGACTTTTTGGGCTTCTGGAAGAAATGCCAAGAGCAGGAGTACGAAACATGGAACCGTTACAAGGACGACTGGGACCGAGGTCAAAACATTTTTTCGCAATGCAAGATCCATGTGCACGCAGACGCAAGAGTCCGGACCATTGGAACCATTACCGGGACGGAATAA	MARKLRMLLALLLLWPTAGCWDRIEIEERGFVVGTALDAAEEGQIKLTFQIVVPTQMKGSSGQKSEGGSPFINLSSTASSVFKAARKMSNEISRSPYLAHNQVIIISEALAGTEHVGDVLDLFVRDPENRRASNIMVAEGEASKILEIHSKIETLPVQYIRSTQENKDKSESITPPTNMGELHHFLLSKSSYALPRVSITQDDRVSTSGAAVFNGENYRFMGFLDNDETTGRNMMQGTVKTASLELVVHGKQLVYEVREFNRIIRVHLDDRGLPEFDVEISVRGNIGEAELEESEIVRELNGEIKRKAEERIKEIAMDVIQKAQNDYKSDFLGFWKKCQEQEYETWNRYKDDWDRGQNIFSQCKIHVHADARVRTIGTITGTE	PGPT0025125_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025125-yndF-K06312	NA	NA
AK002_01617	186			hypothetical protein	ATGGAATTCATGGATTATCGCTACGATATTTTGTTAAATCCGCTTGTCGTGATTGGTATACTGCTGCTCATCATCGTACCGTTGACCTTATTCCAAACAAACCGGTATCTGCACAAATATGGGGATCCGCCCTGGAAGCAGCCGGAGAAACCGGATGATGGTGCAGAGAGAAGCGAACATGATTGA	MEFMDYRYDILLNPLVVIGILLLIIVPLTLFQTNRYLHKYGDPPWKQPEKPDDGAERSEHD				NA	NA	NA	NA	NA
AK002_01618	1791	pbpI	COG0768	Penicillin-binding protein 4B	ATGAGGCTAATCCGCAATAAGCGAATTACATACGGATGGCTGATTTTGACGGTATTGATTGCCATTTTGACGATGCGCCTTGCCTGGGTGCAGCTCGTGATGAAGCATCAACGGGTCCCCGGAAGCCGGCACACAATGGTTGAGGCATCGCTTATCCAGCGGGAACGGGGCATCGTGCTGGATTCGGGCCGCGGACATTTTACGGATCGCAACGGAAAACCGCTCACAGGCAATTTGATCTGGACCGCCGTATTGTTTCCGGCCGGCGAGAAGGAGCTGAGGGGCGCCCATCATCAGGTTGCCAAGCTGGCCCGCATCCTGGGAACGGACACGAATCAGTTGCTGCAAATCTGGGGCAAGCTAAAGGAGCCGCAGCTATGGCATGGAGCGGATTCCCGCATTCCACGTTCCTTGTCCAAGGAGCAGATCGAGCAGATTCGCGAGCTTGAGCTCCCCAAACTCAAGGTTCTTCCTTATGAGCAGCGGTACGGTAACCGCCAATCGGGCATGCAGTGGCTTGGTTTTGTATCCGGCCAGCGTAAGGAAAGCCTGTTCTTTCAGGATTATCCGGAGATTTCGGGAACCAGCGGCCTGGAGAAGACGATGGATTCGCTGATCCGGGGTGAAGGACCTACGATCGTCTATTTTCCGGTAAACAGCACGAATGATGTAATTCAGGATATGAAGCCGATGGTGAAGGCGCCGGACAATCGGTACTATCCGTTACGGGTATCCACAACGATAGATATCGATATTCAGCGGGGGATCGAGGCCATCACGGATAAAGCGGACATGAAAGAAGGAGCCGTTGTCGTGCTGGATGCACGCAATGCCGATATCGTGGCGATGGTATCCAGACCGTTTTACAATCCGGAGCAGATACATCCGAAAGACGGTCAGTGGGAGAATCGCGGATTGAAAGCGGCCACGCCAGGCTCCGTGTTCAAGCTTGTAACGGCAGCGGCCATTTTGGAGAATGGTCTCAGCTCGCCAAACGAACATTTTCATTGCGATGGGGAATTTGGCAAGTTCGGATTGTCCTGCTGGAAAAAGGGCGGGCATGGAACGATTGATCTGCGCGAGGGCTTTGCGGAATCCTGCAACGTCGTATTTGCCACGCTTGCGGAAAGATTAACCCCACAGCAAATAACCTCAGCGGCATCCGCGCTGGGCTTTGGGCAAAGCGTAGGCTGGCAATCACAGCAGTTTTTAGGGCTTCGCTCATTTGCACCGTTGGATCATGAAGAGAAGGGGACGGTCTTTTCCAGCTCCGCAGATGCCTCCGATGCAGGCGTGAGAGTGCAGACAGGCATAGGCCAACGGGACGCTGCCGTATCCCCGCTCCAAGCCGCTAATGCGATGGTGACGCTGCTTCATGGCGGAGTGAAGACCAAGCCGCGTATTGTGAAGCAGATTCGGTACGCGAACGGCCAGTTGCTTCAGGATACAAATCCGCTGTACGAACGCCCATCAGAAAACGGTATTTCCCGGGAAACCTCTTCGATCCTGCTCGAATGGATGGAGGATGTCGTTCAACAGGGAACAGGAAGCTCTTTGAGTCATCGGAAATGGACCCTTGCAGGCAAATCGGGAACCGCTCAGGTCAAAGTAAAGGGCCGCGCCCGAAACAACCAGTGGTTTGTCGGGTACGGCCCGGTGGAGAAGCCACGTTATGCGGTGGCAGTATTGGTGGAGAATCGGAGCACGAACAGCAGCAATCAGGCAACCGAAATATTCGGTCAGGTCTCCGATTTCTTGGCCTCGGTTGAAGCGGGCTCCGGCTCCGCGTAA	MRLIRNKRITYGWLILTVLIAILTMRLAWVQLVMKHQRVPGSRHTMVEASLIQRERGIVLDSGRGHFTDRNGKPLTGNLIWTAVLFPAGEKELRGAHHQVAKLARILGTDTNQLLQIWGKLKEPQLWHGADSRIPRSLSKEQIEQIRELELPKLKVLPYEQRYGNRQSGMQWLGFVSGQRKESLFFQDYPEISGTSGLEKTMDSLIRGEGPTIVYFPVNSTNDVIQDMKPMVKAPDNRYYPLRVSTTIDIDIQRGIEAITDKADMKEGAVVVLDARNADIVAMVSRPFYNPEQIHPKDGQWENRGLKAATPGSVFKLVTAAAILENGLSSPNEHFHCDGEFGKFGLSCWKKGGHGTIDLREGFAESCNVVFATLAERLTPQQITSAASALGFGQSVGWQSQQFLGLRSFAPLDHEEKGTVFSSSADASDAGVRVQTGIGQRDAAVSPLQAANAMVTLLHGGVKTKPRIVKQIRYANGQLLQDTNPLYERPSENGISRETSSILLEWMEDVVQQGTGSSLSHRKWTLAGKSGTAQVKVKGRARNNQWFVGYGPVEKPRYAVAVLVENRSTNSSNQATEIFGQVSDFLASVEAGSGSA	PGPT0023965_56	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023965-pbpI-K21468	NA	NA
AK002_01619	1164			hypothetical protein	ATGCTTCCCTTGTATAAAAAATATTGGAGAACCGCCTTCGATATAGGTTTAATCGTGCTTACGGTTTACTTGATCATGCTCATATTCAGTAAGCTTTACCAGATTGCGGCTCCGGTGTTTTTATCTTTCCTCGTTTTCCTGATTATTGAGCCTTTCTCCAAATTCCTGCACCGCAGGGGGCTTCCGAAGCCTTTCGCCGCCGCGATATCCGTTCTGCTCTTCCTGCTCGTCATCCTTGGCATCCTGTTTGGAGCCGGAGCGCTCATCGTATCGCAATTCATGAATCTGCAGGATAATTTGCCGGCTTACACCCAAACGATCCAGAAACATTTCTCGGAAACCCTGATGTTCCTGCAGACGAAGCTCGACGCGCTGCCGCCGGATCTGACGGACCGCCTGAACGGTTACTTCCAAGACATTACCACCTTTGCCCAGGGCGCTGCAGAGTCGTTCTTCCGTTACATCGTTGGATTTATGGGGTCGTTCTCCTCGTTCATCGCGAATTTCGGGGTTGCGATTATCCTCGCCTTCTTCCTGAGCACGGAAATCGGCAGCTGGCGGAGAATCGCCAAGGACAAGACGCCGAAGACGCTCAAGACGGCTTTCGTTTTCCTGAAGGACAATGTATTCAAGGCAATCGGCTCTTATATTAAAGCCCAGATGAAGCTGGTCAGCATCACCTTTGTCATTGTATACATAGGACTCTTGATATTAGGTACGGGCAATTCCCTGTCCGTTGCGCTTATCTGCGCCGTATTCGATGTATTGCCGCTGCTCGGGGTTCCCGTTATTCTTATTCCGTGGATCACCTATTTGTTCATTGTAGGCAACACCGGGCTTGCGATCGGCTTGATCGTTCTGCTTGCCGTGGTGGTCATTTCCAGACAGCTGCTCGAGCCTAAAATTACGGGAAACTCGATCGGCGTATCCTCCGCCTTTCTGATGCTGTCCTTTATGATGATCTCCCTGTCGATATTTGGGGTTGCCGGTTTGATTCTGGCTCCCATCCTGCTGATTCTCATCAAAGAATTGCTTGCGCAGGGATATCTGAAGCAGTGGATTCATCTGCCGAGCGAAGAATTCGATGTGTCCCCTTGGGATATGTCCCGCTCTTACGCGGAGCCGGAGCCCGCTTCAACCGAGGCCAAGAAATCGGAGACCTGA	MLPLYKKYWRTAFDIGLIVLTVYLIMLIFSKLYQIAAPVFLSFLVFLIIEPFSKFLHRRGLPKPFAAAISVLLFLLVILGILFGAGALIVSQFMNLQDNLPAYTQTIQKHFSETLMFLQTKLDALPPDLTDRLNGYFQDITTFAQGAAESFFRYIVGFMGSFSSFIANFGVAIILAFFLSTEIGSWRRIAKDKTPKTLKTAFVFLKDNVFKAIGSYIKAQMKLVSITFVIVYIGLLILGTGNSLSVALICAVFDVLPLLGVPVILIPWITYLFIVGNTGLAIGLIVLLAVVVISRQLLEPKITGNSIGVSSAFLMLSFMMISLSIFGVAGLILAPILLILIKELLAQGYLKQWIHLPSEEFDVSPWDMSRSYAEPEPASTEAKKSET				NA	NA	NA	NA	NA
AK002_01620	1383			hypothetical protein	ATGCAAACGTTACTGCTATGGTTGTTTTACCTTTCATCTTTTTATGCATTCATTCCCGGCATCCTGACCCGGATATTCGGTTTTCGAGTATTTCGCAGGGGAACAGGCTTGGAAGACTTCGCCTTAACCTTTGATGATGGTCCTGATCCGTTCTATACGCCAAGACTGCTGGATCTATTGAAGCGGTATAATATGAAAGCGACTTTTTTTCTGGTCGGTTCCCATGCCGAGAAGCATCCGGAAGTCGTCAAACGCATTCATAGCGAGGGTCATCTGATCGGGATTCACAACTATGTTCACAAGAGCAATTGGTTAATGCGACCCGTGACCGTCCGCAAGCAAGTCAAGCGCACGGACGATATCATCTACGCCATAACCGGCGAGCGCTCGCGATATTACAGACCGCCTTGGGGAATCGTGAATTTATTCGATTTTGCCAAGAATACCGGCTGCCGCATCATCTTATGGTCCTCGATGTTTAATGATTGGCGAAGCAAGATCGGCGCTGACAAGCTGACTCAGCGTATGCTGGCCAAGCTGAACGGCGGCGAGGTTATGCTCCTCCATGACTGCGGTACGACGATGGGAGCGAACCCCGATGCGCCGGAGCAAATGCTGATTGCCTTGGAACGCGTACTGAAAGTCGCAGAGCAGAAGGGAATGAGAAGCATCCGAATCGACGACATGATGGCTAAGGAAAGCAAAGCGAAAGCGAAGAAGCTGTCTCCTCTCAAGCGGTTGATCGTCTCGTTGTGGCTCTTGTGGGAAAAAGCATTTCATGCGGTGTTCGCGCTCGAAACGGTTAATCCGGAGGATCCGATGCTGCATTTCCGAAAGCGTGCCTTCACCGGCAAAACGGTCGTGATGGAAGACGGCAGCCGGCTTGAGAAGGGTGACCAGGTGCTCGAGCTCCACTTTGACAACAAAAAATTGTTCGAGATCGGCAGCCGCTCCCGCTCGGAAGTGCAGCTTGCCATCAAAATGATTCGTGCCGTGCAGAAGGATTTGCCTTCTCTGGCGAACATGGTGCTGGACCGGCCCGAGTTTAAGGATATCAAAGGTTTGTATGCCGTAACCATGATTTCGCGGGGCCCCGAGCAATTTGGATTCCATGTGATGGATTTGCCTCGGGGGCTGTTCGCAAGTTCGTCCAGATTGTATCTGAAACTGCTGCTCAGCGTCATTCACCCGAAAGGTCAGGCCCGCCTGAAGGAGGGCACCCAGATGATGGAGCCGAGAATGCTCATCATGCCGGTGGATGTTCTGATCGGACGTTATGCGGAAAAGAAAACGCAGGTTTTGCCTCCATCGGAGGAACAGCAGGAAGTTCAACAGGAGCACGCGGGTGATCTGGCGGTTGCCAGTGTCTCGCAAGGCATGTAG	MQTLLLWLFYLSSFYAFIPGILTRIFGFRVFRRGTGLEDFALTFDDGPDPFYTPRLLDLLKRYNMKATFFLVGSHAEKHPEVVKRIHSEGHLIGIHNYVHKSNWLMRPVTVRKQVKRTDDIIYAITGERSRYYRPPWGIVNLFDFAKNTGCRIILWSSMFNDWRSKIGADKLTQRMLAKLNGGEVMLLHDCGTTMGANPDAPEQMLIALERVLKVAEQKGMRSIRIDDMMAKESKAKAKKLSPLKRLIVSLWLLWEKAFHAVFALETVNPEDPMLHFRKRAFTGKTVVMEDGSRLEKGDQVLELHFDNKKLFEIGSRSRSEVQLAIKMIRAVQKDLPSLANMVLDRPEFKDIKGLYAVTMISRGPEQFGFHVMDLPRGLFASSSRLYLKLLLSVIHPKGQARLKEGTQMMEPRMLIMPVDVLIGRYAEKKTQVLPPSEEQQEVQQEHAGDLAVASVSQGM	PGPT0018645_589	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_01621	1689	ilvD_1	COG0129	Dihydroxy-acid dehydratase	ATGACAACCAAAAAAATGCGTTCAGACATGATCAAGAAAGGCTTTGACCGCGCGCCGCACCGCAGCTTGCTGCGTGCAGCAGGCGTTAAGGAAGAGGATTTCGGCAAACCGTTCATCGCCGTGTGCAACTCTTACATCGATATCGTTCCGGGTCACGTGCATCTTCAGGAATTCGGCAAGATCGTGAAGGATGCGATCCGTGAAGCCGGCGGCGTTCCGTTCGAGTTCAACACCATCGGCGTGGATGACGGAATTGCCATGGGACATATCGGCATGCGCTACTCGCTGCCAAGCCGCGAGATCATTGCGGATTCCCTGGAAACCGTTGTATCCGCCCACTGGTTCGACGGCATGGTGTGTATCCCGAACTGCGACAAAATTACGCCAGGCATGCTGATGGGCGCCCTGCGCGTTAACATCCCGACGGTGTTTGTCAGCGGCGGACCGATGAAGGCCGGCGTGGACAGCAAAGGCCGCAAATTGTCCCTGACTTCCGTATTCGAAGGCGTCGGCGCTCACCAGGTCGGCAAAATCAATGACGATGAGCTCCTGGAATTGGAACAATACGGATGTCCAACCTGCGGATCCTGCTCCGGCATGTTCACCGCCAACTCCATGAACTGCCTCGCCGAAGCGCTGGGTCTGGCTCTGCCGGGCAACGGCACCATTCTTGCCATCGCCGAAGAGCGCAGAGAATTTGTTAAACAATCGGCCAAACAATTGATGGAGCTTGTCAAAATGGACCTGAAGCCGCGTGACATCGTAACCGTGGAAGCGATCGACAACGCGTTTGCGCTCGATATGGCGATGGGCGGCTCCACCAACACGGTGCTTCATACATTGGCGCTTGCCCATGAAGCCGGCCTTGATTACCCGCTGGAGCGGATCAACGAAGTCGCTGACCGCGTTCCTCACATCTCCAAGCTGGCTCCGGCTTCGGATTACTTCATCGAGGATGTGCATTTGGCAGGCGGTGTGAGCGCGGTTCTGCACGAGCTCCTGAAGAAGCCGGGTGCATTGCACGGAGATTGCATTACCGTAACCGGCAAAACGCTGGCCGAGAACGTAGAGGGCTGCGAAATCCAGGATGAGAACGTCATCCATCCGATCGATTCCCCGTATTCCGAGCGCGGCGGACTCGCGGTACTGTACGGTAATCTGGCTCCTGAAGGTTCCATCATCAAAGTCGGTGCGGTCGATCCGTCGGTTGGCGGATACCATAAAGGACCTGCTATCTGCTTTGACTCCCAGGACGAGGCGCTTAGCGGCATTGCCAACGGCAAGGTCAAGGAAGGCCATGTGGTTGTCATTCGATATGAAGGGCCGAAGGGCGGACCGGGCATGCCGGAAATGCTGGCGCCGACCTCGCAGATTGCAGGCATGGGTCTTGGAGCCAAAGTCGGTCTGATCACGGACGGACGCTTCTCCGGCGCTTCCCGCGGCATCAGCATCGGACACATCTCGCCGGAAGCGGCTGAAGGCGGACCTATCGCTTTCGTTGAAGACGGAGATATCATCGAGCTGGACCTGAATAAACGGACGATTCAATTGCTGGACGTTTCCGAAGAGGAAATGGCTGTACGCCGCAGCAAATGGGTTGAGTTCGAACCTAAAGTGAAAACCGGTTACCTTGCCCGCTACTCGAAGCTTGTGACCAACGCCAGCTCTGGCGGCGTATTGAAAATCTAA	MTTKKMRSDMIKKGFDRAPHRSLLRAAGVKEEDFGKPFIAVCNSYIDIVPGHVHLQEFGKIVKDAIREAGGVPFEFNTIGVDDGIAMGHIGMRYSLPSREIIADSLETVVSAHWFDGMVCIPNCDKITPGMLMGALRVNIPTVFVSGGPMKAGVDSKGRKLSLTSVFEGVGAHQVGKINDDELLELEQYGCPTCGSCSGMFTANSMNCLAEALGLALPGNGTILAIAEERREFVKQSAKQLMELVKMDLKPRDIVTVEAIDNAFALDMAMGGSTNTVLHTLALAHEAGLDYPLERINEVADRVPHISKLAPASDYFIEDVHLAGGVSAVLHELLKKPGALHGDCITVTGKTLAENVEGCEIQDENVIHPIDSPYSERGGLAVLYGNLAPEGSIIKVGAVDPSVGGYHKGPAICFDSQDEALSGIANGKVKEGHVVVIRYEGPKGGPGMPEMLAPTSQIAGMGLGAKVGLITDGRFSGASRGISIGHISPEAAEGGPIAFVEDGDIIELDLNKRTIQLLDVSEEEMAVRRSKWVEFEPKVKTGYLARYSKLVTNASSGGVLKI	PGPT0001875_3933	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
AK002_01622	246	gsiB_3	COG3729	Glucose starvation-inducible protein B	ATGGCAACCAACAGCAATCGAAAGATGACCCGCGAAGAAGCCGGACGTCTTGGCGGCGAAGCCACCGCCAAAAAACACAGCCGCGAATTCTACCAGGAAATCGGCAAAAAAGGCGGCAAAGCGACGTCCAAAAACCATAGCCGCGAGTTTTACCAGGAAATCGGTCAAAAGGGCGGCGAAGCGACCTCGCGGAATCATAATCGCGAATTCTATCAGGAAATTGGCCGCAAAGGCGGCAAGAAATAG	MATNSNRKMTREEAGRLGGEATAKKHSREFYQEIGKKGGKATSKNHSREFYQEIGQKGGEATSRNHNREFYQEIGRKGGKK				NA	NA	NA	NA	NA
AK002_01623	768		COG0637	Phosphorylated carbohydrates phosphatase	TTGCCGTTTGTTCAACTGAAAGGACGAACCGTTCCCTGCCAAGGGATCTTGTTTGATAAAGACGGTACGCTGCTTCATTTCATGGCGCTGTGGGGAGGATGGGCCGATTATGTGCTCGAGTTCATGGAGGAACGGCTGGAGCTGATGGGATCCGGCTTTACACTGCCGAAAGAGCAGGTGCTGGGGACCAAGCACGATGCCGGCGGACGCGTATCGGGGTATGATCTGCGGGGTCCGCTCGCCATGGGGACCGTGGAGGAGACGAACGGGCTTCTGGCTTGGCAATTGTACGCAGCCGGGATGCCATGGAACGAGGCGATTGTGCAGGTCCATCAGATTACGAAAAATGCCATGTACGAAGTCCGCCAGCGAAAGCCGGCATTCCCGATGCCCGGACTGGAACATTTCCTGAAAAAATGCAGCATGGCCTCCGTGAAGATGGCAGTGGTGACTTCGGATCAAACCTCAGGTGCCATGGAGCAGTTGGAATGGATGGGGCTTCGCTCGTATTTTACGGTCATCATGGGAAGAGATCAGGTTCGAAATGGCAAGCCGCACCCCGAAATGACCGAGGCGGCCTGCCGCCGGCTCGGGATCAAACCGGAGGAAGCGGTCGTCATCGGCGACAGCAACGCGGATATGCAGATGGCGAAGCAAGCAGGCGCTGCGCTGGCCGTAGGTTTAATGTCGGAGGAAGGGGAGCCGGCGCATCTGACAGATGCCGATGTTGTCATATCCGATTATAATGAATTAGACGTGCACAGGTAG	MPFVQLKGRTVPCQGILFDKDGTLLHFMALWGGWADYVLEFMEERLELMGSGFTLPKEQVLGTKHDAGGRVSGYDLRGPLAMGTVEETNGLLAWQLYAAGMPWNEAIVQVHQITKNAMYEVRQRKPAFPMPGLEHFLKKCSMASVKMAVVTSDQTSGAMEQLEWMGLRSYFTVIMGRDQVRNGKPHPEMTEAACRRLGIKPEEAVVIGDSNADMQMAKQAGAALAVGLMSEEGEPAHLTDADVVISDYNELDVHR	PGPT0001730_326	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK002_01624	753	cobB	COG0846	NAD-dependent protein deacetylase	GTGGAGAACAGGGAAAAGATCGAGCAGTTGGCAACATGGATCGAAGCGAGCGACTACATTGTTTTTTTCGGGGGAGCCGGTACCTCCACCGAGAGCGGAATTCCGGACTTCCGTTCGGCAGCCGGACTGTACCAGAGCGAGCACCAGTCTCCGTATCCGCCGGAGGTCATGCTCAGCCATACTTTTTTTATGCAGCATCCGGAAGTGTTTTACGACTTTTACCGGAGCAAGATGCTGCACCCGTTTGCGCAGCCGAACGGCTGTCACCGCCTATTGTCGAGACTCGAGCATGATGGGAAGCTAAAGGCGGTCATCACGCAGAATATCGATGGTCTGCATCAGTCGGCGGGATGTTCCGAGGTGCTGGAGCTTCACGGTTCCGTGCACCGCAATTATTGCATGGATTGCTCCCGATTCTACAGCCTTCAGGATATTCTGGACATTAAGGAAATCGTCCCGCGCTGCAAGGATTGCGGGGGGCTGGTTCGGCCGGACGTCGTGCTGTATGAAGAGGAATTGGACCAGAACGTCATCATGCGCTCGATCCAGGAAATATCGACGGCCGACTTGTTGATTATTGGCGGGACTTCCCTGACGGTACACCCCGCTGCGAGTTTGATATCCTATTTTCATGGAAGCAAGGTAGCATTGCTGAATGCAGATCCAACCCCATACGATCACCGGGCAGGCCTCCTGATTGCGGATCGGATCGGTCAAGTCATGACGCAGGTGGATAAACTGATCAGCACGTGA	MENREKIEQLATWIEASDYIVFFGGAGTSTESGIPDFRSAAGLYQSEHQSPYPPEVMLSHTFFMQHPEVFYDFYRSKMLHPFAQPNGCHRLLSRLEHDGKLKAVITQNIDGLHQSAGCSEVLELHGSVHRNYCMDCSRFYSLQDILDIKEIVPRCKDCGGLVRPDVVLYEEELDQNVIMRSIQEISTADLLIIGGTSLTVHPAASLISYFHGSKVALLNADPTPYDHRAGLLIADRIGQVMTQVDKLIST	PGPT0013485_1082	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
AK002_01625	1023	gpr_2	COG0667	L-glyceraldehyde 3-phosphate reductase	TTGCAAGTGACCTATGTGGCTAGCGAAGACCGCTATGAAGGAATGAAGTATAACCGCGTGGGGCGGTCCGGGCTGAAACTTCCCGCGATCTCCCTTGGATTATGGCATAATTTCGGTGGCGTCGACACGTACGAGAACGGGCGGAACATGATTACGCGCTCCTTCGATCTGGGCATCACCCACTTCGATCTGGCGAACAATTACGGACCTCCTGCAGGCTCTGCCGAGGAGACTTTCGGTAAAGTGCTTTCCAGAGACCTTAAGGCATATCGTGACGAAATCGTCGTTTCGTCCAAAGCCGGCTATTATATGTGGCCCGGTCCTTACGGCGATTTCGGATCGCGTAAATATCTGGTATCAAGCCTCGACCAGAGCTTGAAGCGAATGGGCCTGGACTATGTGGATATTTTCTATCATCATCGGATGGATCCGGAAACGCCGCTCGAGGAAACCATGGCAGCGCTGGATCATCTCGTTCGTTCCGGCAAGGCGCTGTATGTCGGAGTCTCCAACTATTCGCCGGAGAAGACCCGGGAAGCGATATCGATCCTGAAAAGCCTGGGTACCCCGCTGCTCATCCATCAACCGAGCTACTCCATGCTGGACCGCTGGGTGGAGAACGGTTTGCTTGACGTCCTGGAAGAGAACGGGGTCGGAAGCATCGCCTTCACGCCGCTTGCCCAAGGGCTTTTGACGAACAAATATTTGAACGGCGTGCCTGTCGATTCCCGTGCCGCAAGCGCATCCGTGTTCCTGAACGAAAGCAATATCACGCCTGAGGTGCTGCGCAAGATCAGAGCCTTGAACCAAATCGCCCAAGCCCGGAACCAGAGTCTGGCTCAATTCGCGCTCGCCTGGGTTCTGCGCGGCGGCCGGGTGACGTCTGCCCTGATCGGAGCAAGCAAAGTAAGCCAGATTGAAGACAACGTGGCTGCCTTGAACAATCTGGAGTTCTCGAAGGAAGAGCTGGATCGGATCGAAGCGATTCTCAAAACGGAGAATGCATCTCCTTCGGAAGGATAG	MQVTYVASEDRYEGMKYNRVGRSGLKLPAISLGLWHNFGGVDTYENGRNMITRSFDLGITHFDLANNYGPPAGSAEETFGKVLSRDLKAYRDEIVVSSKAGYYMWPGPYGDFGSRKYLVSSLDQSLKRMGLDYVDIFYHHRMDPETPLEETMAALDHLVRSGKALYVGVSNYSPEKTREAISILKSLGTPLLIHQPSYSMLDRWVENGLLDVLEENGVGSIAFTPLAQGLLTNKYLNGVPVDSRAASASVFLNESNITPEVLRKIRALNQIAQARNQSLAQFALAWVLRGGRVTSALIGASKVSQIEDNVAALNNLEFSKEELDRIEAILKTENASPSEG	PGPT0008285_862	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
AK002_01626	861	rhaR_15		HTH-type transcriptional activator RhaR	ATGAAACCAACCTATTCTGTTGCTTCCAACCCAGCACAGCAAGGCGGCGGCTGGCTCCACGTGCGATTCGCCGGCGAGAGCCAGACCCTTCCGGAGCATGCGTTGGGGCCGAAAATATTCGATCATTACCTCTTGCACGTCATCGAATCGGGCCATGGCGTATTTCGGACCGAAACCGACAGATACCAGCTCGGGCCCGGCGATTGCTTCCTGATCCATCCCGGCCAGATTGTCAGCTATGTATCCGATGCGAGCCAGCCGTGGCGTTACCGCTGGGTCGCCTTCGACGGAGAACACGCCGATGAAGAGATATCCCGTTTGGGGCTCACACCCGAAAAGCCTGTCCTCCACCTCGTGGAGAACAACCCCATTCCCGGCTATGTATCCCTCATCCAGGGCCATTTTCAATCCAGGGAAGAAAGCTCTCACATGGCCGCCATCGGTTACCTGCATTTAATCTGGGCCGAGATCATGAATCAGAGCGACCGGCCGTCCCGATTGACGCTGTCAGAACCCCAGGTTCAGCGCACGGTGAAGCAGATGATCAGTTACATGGCTTCCCAATACGCCCATCCCGTCTCGATCGAACAGATGTGTACGAGCCTGGGCTACAACCGCGCATACCTGTCACGGATCTTCAAGCAGGAAACGGGCATGACTCCGATCACGTATCTGCTTAAATTAAGAATCGACCAATCCAAACGGCTGCTGCGCGAACGTCCCGATTTGTCCATCGAGCAGGTTTCCGCATCGGTCGGACTGACCGATCCGCTCTATTTCTCGCGCCAATTCAAGCGGCTCGTCGGCCGATCCCCGTCGCGGTACCGCAAGGACATCATCTCTTCATCCGCGCTTACTTAA	MKPTYSVASNPAQQGGGWLHVRFAGESQTLPEHALGPKIFDHYLLHVIESGHGVFRTETDRYQLGPGDCFLIHPGQIVSYVSDASQPWRYRWVAFDGEHADEEISRLGLTPEKPVLHLVENNPIPGYVSLIQGHFQSREESSHMAAIGYLHLIWAEIMNQSDRPSRLTLSEPQVQRTVKQMISYMASQYAHPVSIEQMCTSLGYNRAYLSRIFKQETGMTPITYLLKLRIDQSKRLLRERPDLSIEQVSASVGLTDPLYFSRQFKRLVGRSPSRYRKDIISSSALT				NA	NA	NA	NA	NA
AK002_01627	1179	galK	COG0153	Galactokinase	GTGACGACGCAACAGCTTATGGAAAGATTTATGGACAAGCACGGTGAGAGCCAGCATAAGGTTCGCATATTTAATGCGCCGGGGCGCGTGAACCTGATCGGGGAGCATCTGGATTACAACGGAGGCTATGTGCTTCCGGCAGCCCTGGAGTTTGGTACAACCTTGATTATCCGGCCGCGTGACGATAACAAGGTGAGCTTTTCATCCACCAATATCCCCTATGAATTAACGATCAGTCTGGACGAGGATTATGGCTACAAAATCGATCAATGGACGGATTACCCGGTCGGCGTCATTACCGAGCTGAATAAAATCGGCTGCGGGCTCAGCAGCGGCTATGACCTGCTGTACCACGGGGATATCCCGAACGGGGCAGGCCTCTCGTCCTCGGCGTCCATCGAAGTGGTCACGGCTTACGCCTTCTTGAAGATGGAGGGCAAGGAGACGGATACGGTGGAGATCGCCAAGCTTTCGCAGCGGGTGGAGAACCTGTTCGTCGGCGTCAACTCCGGCATCATGGATCAATTCGCCGTAGCCAACGGCAAGCAGGATCATGCCATTCTGTTAATGTGCGATACGCTGGAGTATGAGCTGGTGCCTTTCCGGACCGGAGCATACAAAATCGTGATTTCGAATACCAACAAACGGCGCGGACTCGTCGATTCCAAATATAATGAACGCCGCAGCGAATGCGACCGCGCTTTGGAAATTTTGCAAAAGGAGCTCCCGGCGTTATCGTATCTCGCCCAGCTGAATCCGGATCAATTCGCGACCTTGCGGGACAGCATCCGGGATGAGACCGTCAGAAGACGCGCCCAGCATGTCGTTGAGGAGAACCAGCGCGTGCTTGATTCCGTGAAGGCTTTGAAAGAGGGGAATCTGGAAGTTTTCGGACAGTACATGAATCAGTCCCATGACTCTTTGCGTTATCTGTACGAAGTCACGGGCGACGAGTTGGATGCTCTGGTGGAAGAAGCCCAGCGGATTCCGGGTACGCTCGGTTCCAGAATGACGGGAGCCGGCTTTGGCGGCTGCACGGTATCCCTCGTGCACGAGGACGCGGTGGAACGTTTCATCGCGGAAGTGGGACAGCAGTATGAGGCCAGAACGGGACTGAAGGCGGACTTCTACGTATGCGGCGTAGGTCAAGGCGTGCATGAAGTAAAGGAGGGCGAATAA	MTTQQLMERFMDKHGESQHKVRIFNAPGRVNLIGEHLDYNGGYVLPAALEFGTTLIIRPRDDNKVSFSSTNIPYELTISLDEDYGYKIDQWTDYPVGVITELNKIGCGLSSGYDLLYHGDIPNGAGLSSSASIEVVTAYAFLKMEGKETDTVEIAKLSQRVENLFVGVNSGIMDQFAVANGKQDHAILLMCDTLEYELVPFRTGAYKIVISNTNKRRGLVDSKYNERRSECDRALEILQKELPALSYLAQLNPDQFATLRDSIRDETVRRRAQHVVEENQRVLDSVKALKEGNLEVFGQYMNQSHDSLRYLYEVTGDELDALVEEAQRIPGTLGSRMTGAGFGGCTVSLVHEDAVERFIAEVGQQYEARTGLKADFYVCGVGQGVHEVKEGE	PGPT0017840_1036	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GALACOTOSE_METABOLISM|DEGRADATION,PGPT0017840-galM-K00849	NA	NA
AK002_01628	990	galE	COG1087	UDP-glucose 4-epimerase	ATGGCTATTTTAGTGACTGGCGGAGCAGGTTATATCGGTTCACATACCGTGGCGGAGCTGCTGGAGCAAGGGGAAGACGTTGTTGTCATCGACAGCCTGGAGACGGGGCATCGCGAAGCGCTGCTGGGCGGAAAACTGTATGTCGGCGATCTGCGCGACAAGGCGCTGCTGAAGCAGCTGTTCTCGGAAAACGATATTGATGCCGTTATCCATTTTGCCGCGAATTCTCTGGTCGGCGAGAGCATGAAGGATCCGGTGAAATATTACGATAACAACGTGTACGGCACGCTGTGCCTGCTGGAAGCGATGAATGAGGCGGGCGTTCGAAAGATCGTCTTCTCTTCAACGGCCGCGACCTACGGTGAGCCCGAGAAGGTGCCGATCGAGGAAACGGACCGGACCCAGCCGACGAACGTGTACGGGGAAACCAAGCTGATGATGGAACGGATGATGTCCTGGTTCGATACCGTGCTCGGGGTGAAGTATGTCTCCCTTCGTTACTTCAACGCGGCCGGCTCGCATGCCAGCGGCAAGATCGGCGAGGATCACCGGCCGGAGAGCCACTTGATTCCGCTCGTTCTGCAAACCGCTTTGAAGCAGCGCGCCAGCATTTCGGTGTTTGGCGACGATTACGCAACTCCCGATGGCACGTGCGTCCGCGATTACATTCACGTCAGCGATCTGGCGAATGCGCATCTGCGCGCGGTTGAATACCTTCGTCGCGGCGAGTCCAGCAATGTGTTCAATCTCGGCAACGGACTCGGGTTCTCGGTCAAGGAAGTGATCGAGACATCGAAGCGGGTGACGGGTGCCGACATTCCGGTTGTCATGGAAGCCCGCCGTGCGGGTGACCCTGCGGTATTGGTGGCGTCTTCGGACAAAGCGCGCACGGTTCTCGGATGGACGCCGTCCAGAACGACGCTGGAGGAGATTATCGAGAGCGCATGGAAGTGGCACAGCAGCCGTCCGGACGGTTACGGCGACAATTAA	MAILVTGGAGYIGSHTVAELLEQGEDVVVIDSLETGHREALLGGKLYVGDLRDKALLKQLFSENDIDAVIHFAANSLVGESMKDPVKYYDNNVYGTLCLLEAMNEAGVRKIVFSSTAATYGEPEKVPIEETDRTQPTNVYGETKLMMERMMSWFDTVLGVKYVSLRYFNAAGSHASGKIGEDHRPESHLIPLVLQTALKQRASISVFGDDYATPDGTCVRDYIHVSDLANAHLRAVEYLRRGESSNVFNLGNGLGFSVKEVIETSKRVTGADIPVVMEARRAGDPAVLVASSDKARTVLGWTPSRTTLEEIIESAWKWHSSRPDGYGDN	PGPT0019010_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-ARBINOSE-XYLOSE_POOL,PGPT0019010-uxe-K12448	NA	NA
AK002_01629	1590	galT		Galactose-1-phosphate uridylyltransferase	ATGAATGCTGCAACATCAAGTACTCCCGAATCCAAGCAGGTTCTGCATGCCATTGAAATGCTGGTGCGATTCGCGCTTCATAAAGGCCTGATCCAGGCAGCGGATGCGGATTACAGCCGCAACCTGCTGCTGGAGGATTTCGGGTTCAGCGAGCCTTACGGCGACGAAGTGAACGACCTGATGCCGGATGGGCCCCAGGCTATGCTCGACATCCTGATCGATTACGGTGCGGCGCATGGCATGATCCCGGAGAATACCGATACGTACCGGGATTTGCTGGACGCCAAAATCATGGGCCGCCTCATGGCAAGACCTTCGGAAGTAACCGCTCGGTTCCGGACGGTAGAGCAGGAGCAGGGGATCATCGAGGCTACCCGGCAATTTTACAACCTGTGCATCGACTCCAACTATATTCGGATGGATCGCGTAGCCAAAAACGAATACTGGCGGCATGCCAGCGCGTATGGCGATATTGAGATTACCATCAATCTATCCAAGCCGGAGAAGAGTCCGAAGGAAATCGCCATGGCCAAACTGCTGCCTCCGCCGATTTATCCGAAATGCCAGCTATGCCGGGAGAACGTGGGTTATGCAGGCAGGGTCAATCACCCGGCGCGGCAAAACCTGCGCATTATCCCGCTGGAGTTGAACGGTGAGCCATGGTTCTTCCAATACTCGCCGTATGTTTACTATAACGAGCACTGCATCGTGTTCCACCACGATCACGTGCCGATGAAGCTGACCAAGGCGACGCTTGCCCGCCTCTTGAGTTTTGTTGATGCTTATCCGCATTATTTTCTCGGATCGAACGCGGATCTTCCGATTGTCGGGGGCTCCATTCTCACACATGATCATTTCCAGGGGGGACGGCATACCTTCCCGATCCAGAAAGCACCGAAGGTGGCCGGGTTTACGCACGGGGATTATCCGGGGGTATCCGTTGCCATCGTGAAATGGCCGATGTCGGTGATCCGGCTATCCTCAAGCGATCGGGATTCGCTGCTTGAATGCGCGAACGGCATTTACGAGGGCTGGAAAACCTACAGCGACCCTTCGGCAGACATTGAGGCCTTTAGCGAAGCGGACGGCGAACGGGTCCGCCATAATACGGTGACTCCGATTGCCCGCCGTAATGACGAGGGCATCTATGAGATGGATCTGGTTCTTCGGAACAATCGCACCAACGAGCAGCATCCGGAAGGGATCTTTCATCCTCATCGGGAGATGTTCCACATCAAGAAGGAAAACATCGGCTTGATCGAAGTGATGGGGCTGGCGATCCTGCCGGGCAGGCTCAAGGAAGAGCTGGATCAGATCGCCGAGATTCTGGCGGGGAACGAGGCACTGTATGCGGACAGCCAGGCTGCTGACCATCCGCTCGCCGTCCACGGCGACTGGATCGAGGAGCTGCGGGGCCGGGGTATAGCCGCATCCGATAAAGCCGGGGCCACCCAGCTGGTACGCCTGGAGGTCGGCAGCAAATTCACGACGATTTTGGAGCATGCCGGGGTATACAAACAGACGGCGGAAGGGCAGCAGGCATTTCAGCGCTTCCTGAGCCATATGGGATACGTCCCTGACAGCAGATAA	MNAATSSTPESKQVLHAIEMLVRFALHKGLIQAADADYSRNLLLEDFGFSEPYGDEVNDLMPDGPQAMLDILIDYGAAHGMIPENTDTYRDLLDAKIMGRLMARPSEVTARFRTVEQEQGIIEATRQFYNLCIDSNYIRMDRVAKNEYWRHASAYGDIEITINLSKPEKSPKEIAMAKLLPPPIYPKCQLCRENVGYAGRVNHPARQNLRIIPLELNGEPWFFQYSPYVYYNEHCIVFHHDHVPMKLTKATLARLLSFVDAYPHYFLGSNADLPIVGGSILTHDHFQGGRHTFPIQKAPKVAGFTHGDYPGVSVAIVKWPMSVIRLSSSDRDSLLECANGIYEGWKTYSDPSADIEAFSEADGERVRHNTVTPIARRNDEGIYEMDLVLRNNRTNEQHPEGIFHPHREMFHIKKENIGLIEVMGLAILPGRLKEELDQIAEILAGNEALYADSQAADHPLAVHGDWIEELRGRGIAASDKAGATQLVRLEVGSKFTTILEHAGVYKQTAEGQQAFQRFLSHMGYVPDSR	PGPT0017835_48	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965	NA	NA
AK002_01630	1164	adh2	COG1979	Long-chain-alcohol dehydrogenase 2	ATGAGACCTTTTGTCTTTCATAATCCGACTCAGTTGATTTTTGGCAAGGGCAAGCTGAGTGCTTTAAGCGGTGAAGTGGCCAAATACGGCCGGAATGTTTTGCTGGTGTACGGCGGCGGCAGCATCAAGCGCAGCGGCCTTTACGATCAGGTCATCGCCTTGCTGAAAGAAGCGAATGCGGTGGTGACGGAGCTTGCCGGGGTGGAACCGAACCCGCGCCTGTCAACGGTACATAAAGGAGTGGAGTTGTGCCGGGAGCATCACATTGACCTCATTTTGGCCGTCGGCGGCGGAAGCGTCCTCGACTGCTCCAAAGCGATTGCCGTAGGGGCCAAGTATGACGGTGATATGTGGGATTTCGTAGAGCGCAAAGCCGTACCGCAAGCGGGTCTGCCGCTTGGAACGGTGCTTACGATGGCCGCAACGGGATCGGAGATGAACGGCGGCTCCGTCATCACCAATGAAGTGACCCAAGAGAAGATGGGCTGGGGCAGCCCGCATGCTTATCCCGCATTTTCGATCCTGGACCCTGTGCATACATTCTCCCTTCCCCGGGATCAAACGGTGTACGGTATCGTGGATATCATGTCCCACGTACTGGAGCACTACTTCCACCAAGATACCAATACGCCGGTACAGGACGGGTTCTGCGAAACGATTCTTCGAACCGTTATCGATACGGCGCCGAAGCTGGTTGAGGACCTGGAGAACTATGAGCACCGCGAAACGATCATGTACTGCGGGACGATGGCGCTGAACGGGATGATCAACATGGGTATGGCCGGCGACTGGGGAACCCATAACATCGAGCACGCGGTGTCTGCCGTATATGACATTCCGCACGGCGGGGGCCTGGCGATCCTGTTCCCGAACTGGATGAAATATAATCTGAACGCGGATCCTCAGCGCTTCAAGTCGCTTGCCGTGAATGTATTCGGTGTTGATGCAGCCGGAAAAAGCGATGAAGCGGCCGGACTGGAAGGAATCGAGGCGCTTCGCCGCTTCTGGACTTCCATCGGTGCGCCGAGCACGCTGGGAGATTACGATATCGACGATCGCGAGATCGGGTCCATGGCCGATAAAGCGATGCGCTTCGGTCCTTTTGGCAACTTCCGCAAGCTGCAGCGCGAGGACGTCGTTGAAATCTATCGGATGTCGTTATAG	MRPFVFHNPTQLIFGKGKLSALSGEVAKYGRNVLLVYGGGSIKRSGLYDQVIALLKEANAVVTELAGVEPNPRLSTVHKGVELCREHHIDLILAVGGGSVLDCSKAIAVGAKYDGDMWDFVERKAVPQAGLPLGTVLTMAATGSEMNGGSVITNEVTQEKMGWGSPHAYPAFSILDPVHTFSLPRDQTVYGIVDIMSHVLEHYFHQDTNTPVQDGFCETILRTVIDTAPKLVEDLENYEHRETIMYCGTMALNGMINMGMAGDWGTHNIEHAVSAVYDIPHGGGLAILFPNWMKYNLNADPQRFKSLAVNVFGVDAAGKSDEAAGLEGIEALRRFWTSIGAPSTLGDYDIDDREIGSMADKAMRFGPFGNFRKLQREDVVEIYRMSL	PGPT0008295_500	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008295-adh2_2-K19955	NA	NA
AK002_01631	534	yuaF		putative membrane protein YuaF	ATGGAAGCGTTATATTGGGGCTGTCTGATCGGAGGCGTGATCTTCGCCATCGTAACCGTGGTGCTAGGCGACATACTTAGCTCGGCGCTTGACGGATTGTTGGACTTTTTGTCAGTGGATTTTTTCAATCCGGTTGTGATCGCTGGGGGAATCACCGTATTCGGCGGAACCGGAATCATGCTGACGAAATACACGGATTTGGCGGCAGGTGCCCATGTAACGCTATCTGTCTTGGCGGCCATCGTCATTTCGATTCTCGTCTACTTCGGGTACGTGAAACCGATGGAGAACAGCGAGAACTCGACGGGCTTCTCCATCAAGGAGCTTGCGGGCAGGATCGGCGTAGTCACGGTGCCGCTTCCTGCTGAAGGATTCGGGGAAGTGATGGTCAAGGTCGGCGCAGGCAACACGATGCACATTGCCTCCAGCTTTGATCGTCAAACGCTTCCGGCAGGTGTCCGCGTGGTGGTTGTCGACATTGTTGATGGCGTCCTGAGGGTGTCCGAACTGGAAGAACGAAAAGGAGAGGATTGA	MEALYWGCLIGGVIFAIVTVVLGDILSSALDGLLDFLSVDFFNPVVIAGGITVFGGTGIMLTKYTDLAAGAHVTLSVLAAIVISILVYFGYVKPMENSENSTGFSIKELAGRIGVVTVPLPAEGFGEVMVKVGAGNTMHIASSFDRQTLPAGVRVVVVDIVDGVLRVSELEERKGED				NA	NA	NA	NA	NA
AK002_01632	1530	yqiK	COG2268	Inner membrane protein YqiK	ATGCCAGAGTACTTAGTAATTCCGTCGATTGTTGTAGGCGTCATTGTCGTGTTAGGACTTGCGTTCTGGGCCCGCTACAAAACGGTGAGCCCGGATGAAGCGATGATTGTCACCGGTTCTTTTTTGGGAAGCAAAAATTTGTCGGAGGACGAATCCGGCCGCAAAATCAAAATCGTGCGCGGCGGCGGCGCTTTTATACTCCCCGTGTTTCAGCGCTCCGAATTCGTATCGCTCTTATCTCATAAACTGGATGTCATGACGCCTGAAGTGTACACGGAGCAGGGCGTGCCGGTTATGGCGGACGGGGTGGCCATCATTAAAGTGGGAAGCTCGATCGAAGATGTGGCGACTGCAGCCGAGCAATTCATGGGCAAGCCCATTGAAGCGCTGAAGGGTGAAGCCCAGGAGGTGCTGGAAGGCCATCTTCGCGCCATTCTCGGTTCCATGACAGTAGAGGAAGTATATCGTAACCGCGACAAGTTCGCGCAGGAAGTTCAGGGGGTTGCAGCAAGAGACCTGAAGAAGATGGGTCTGCAGATCGTCTCCTTTACCATTAAGGACGTTCGCGATAAGCACGGATATCTGGAAGCGCTTGGTAAACCGCGGATTGCTACGGTCAAGCGGGATGCGGAGATTGCCGAAGCCGAAGCGATGCGGGATGCTCGGATTCAGAAGGCGCGCGCAGAAGAAGAAGGACAGAAGGCCGAGGTCGTACGCGATACCAATATCGCGGAAGCCGAGAAGGAACGTGAGCTGAAGGTCGCGTCCTTTAAGAAGGAGCAGGATACGGCGAAGGCCGAAGCGGACCAAGCTTATCATATTCAGGAAGCCCGTGCCAGACAAACGGTGGTCGAGGAGCAGATGAAGGTTGAGCTCGTTCGTAAGGAACGCGAAATCGATCTGCAGGAAAAAGAAATCATGGTTCGCGAGAAGCAGTATGACGCGGACGTGAAGAAAAAAGCCGAAGCGGATCGCTATGCCGTTGAGCAGGCCGCCGAAGCGGATAAAGCCCGGAAGATGCGCGAAGCGGATGCTGTGCAATACTCCATCGAAACGCAGGCCAAAGCGTCTGCCGAACAGAAGCGCCTTGACGGTATGGCGGTTGCGGATGCCGAGCGCGCGAAAGGTACGGCCGAAGCCGAAGTCATCCGCCTGCGCGGTATTGCCGAAGCTGATGCCAAAGAGAAGCTGGCCGAAGCGTTCCAGAAGTTCGGCGAGGCTGCTGTGCTCGATATCATCGTGAAAATGCTGCCTGAGCTTGCCGGGAAGATTGCTCAGCCGATCTCGTCCATCGACAAGCTGACGGTTGTCGATACGGGCAAAGGCGAAGGAGCGGCTCGCGTGAGCAATTATGTGACCGAGCTGATGTCCACGGCGCCTGAGATGCTGAAAAGTGTGTCCGGGATTGACGTGGAGGATCTCATTAAGGGATTAACAACGAAAAAATCCGCCACGGCTCAAAAGCCGGTGTCAATCGAGCAGGAGCTTGTACCGGTCCCTGTAGAGACAAGTGCCGCTAAGGAAGAGTAG	MPEYLVIPSIVVGVIVVLGLAFWARYKTVSPDEAMIVTGSFLGSKNLSEDESGRKIKIVRGGGAFILPVFQRSEFVSLLSHKLDVMTPEVYTEQGVPVMADGVAIIKVGSSIEDVATAAEQFMGKPIEALKGEAQEVLEGHLRAILGSMTVEEVYRNRDKFAQEVQGVAARDLKKMGLQIVSFTIKDVRDKHGYLEALGKPRIATVKRDAEIAEAEAMRDARIQKARAEEEGQKAEVVRDTNIAEAEKERELKVASFKKEQDTAKAEADQAYHIQEARARQTVVEEQMKVELVRKEREIDLQEKEIMVREKQYDADVKKKAEADRYAVEQAAEADKARKMREADAVQYSIETQAKASAEQKRLDGMAVADAERAKGTAEAEVIRLRGIAEADAKEKLAEAFQKFGEAAVLDIIVKMLPELAGKIAQPISSIDKLTVVDTGKGEGAARVSNYVTELMSTAPEMLKSVSGIDVEDLIKGLTTKKSATAQKPVSIEQELVPVPVETSAAKEE				NA	NA	NA	NA	NA
AK002_01633	858	glcT_1	COG3711	PtsGHI operon antiterminator	GTGAGCAGCTTACAAGTGGCTAAAGTGTTGAACAATAATGTAATCATAGCGAAGCATCCTCAACATGGCGAGGTTGTTGTTATCGGCAAGGGCATCGGCTTTAACCGGAAGAATAAAGACCGTATCCCTGCCGCCGCTGCCGAGAAGATGTTCATTTTGACCAAACCGGAGGAGCAGGAGCAGTATAAGCAGCTGGTGCCTCACATCGACGAGAAGCTGATTGAGGCGATGAATGATATTATTCTGAATGCCGCCAAGTCCAGCGACGCTCCTCTGAATGAGCATATCCACATTGCCTTGACGGACCATATCGCATTTGCCATTAAACGCCATGCCCAAGGTCTTTATATCCACAATCCTTTTTTATACGAAACCAAAGAGATGTACCCTGAAGAGTACGAGATGGCCGAATATGCCGTCCGTACCATTCGGGAGAAGCTCGGTGTTGACTTAGGCGAAGAAGAAATCGGATTCATTGCCCTACATTTTCATGGTGCGCTTACGAACCAGCATATCTCCGAGGTCCGCAAGCACTCGGAGCTGATCGCGGACCTGGTGCATACCGTCGAGCAGCAGCTGGAGTACGCCATCCCGAGGGATACGCTGGATTATTCCCGATTGCTGACGCACCTCCGGTTTGCGTTGGAGCGGATTCGGCGGGGAGAAGCGGTGAACGAGACGAGTTCGCTTGACGGCCTTCTGAAGCGTGAATATCCCGAGACCTATTCCTTGGCATGGAAGTTGACCAAGATGATGGAGCAGCGGCTGAAGAAACCCGTCTATCCCGCTGAGGCCGGTTATTTGACCATTCATTTGGAACGGTTGGTCCAGCGTAAAGAGCAGGGCGAGCAAATGTGA	MSSLQVAKVLNNNVIIAKHPQHGEVVVIGKGIGFNRKNKDRIPAAAAEKMFILTKPEEQEQYKQLVPHIDEKLIEAMNDIILNAAKSSDAPLNEHIHIALTDHIAFAIKRHAQGLYIHNPFLYETKEMYPEEYEMAEYAVRTIREKLGVDLGEEEIGFIALHFHGALTNQHISEVRKHSELIADLVHTVEQQLEYAIPRDTLDYSRLLTHLRFALERIRRGEAVNETSSLDGLLKREYPETYSLAWKLTKMMEQRLKKPVYPAEAGYLTIHLERLVQRKEQGEQM	PGPT0014761_223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE_USAGE_REGULATION,PGPT0014761-licT|bglG-K03488	NA	NA
AK002_01634	2073	ptsG_2	COG1263	PTS system glucose-specific EIICBA component	ATGTTTAAGCGGCTTTTTGGCGTACTGCAAAGGGTCGGTAAAGCTCTGATGCTGCCAGTGGCCATATTGCCGGCGGCCGGACTATTGCTCGGTCTTGGAAATATGCTGGTCAACCCCGATTTCCTGCAATATGCACCTTGGCTGGATGCGGCCTGGGTTCAAGCGGCTGCCACGGTCATGATGAATGCGGGACAAATCGTATTCACGAACCTATCCTTGCTGTTTGCAGTGGGGGTTGCGGTCGGTTTGGCCGGAGGTGAAGGCGTTGCGGGACTGGCCGCGATCATCGGTTACCTTGTCATGAACGTCACCATGGGCAGCGTGATCGGCGTGACGCCGGCCATGGTCGGCACGAATTACGAATATGCCAGCGTGCTTGGCATTCCGACGTTGGCTACCGGGGTATTCGGCGGAATTATCGTCGGTATATTGGCAGCCAGCATGTACCGACGGTTTTTCAAAATCGAGCTTCCGTCCTATCTGGGCTTTTTTGCAGGAAAACGTTTTGTTCCGATTATGACGGCCGCAACGTCCGTTTTGCTTGGTCTGTTGATGGTGTTTATATGGCCGCCGATCCAGTCGGCGCTTAACACGGCATCGCATTTCATGCTGGAACAAAATCTGACGCTGTCCGCTTTTGTGTTCGGCGTCGTGGAACGCGGATTGATTCCGTTCGGCCTGCACCACATCTTCTACTCCCCGTTCTGGTTTGAATTCGGGGAATACCTGAACCAGGCAGGACAATTGGTTCGAGGGGACCAGAACATATTCATGGCCCAGCTTCGGGACGGCGTCGAGTTTACGGCAGGCACCTTCATGACGGGTAAGTATCCGTTCATGATGTTCGGTCTCCCTGCGGCTGCGCTTGCCATCTATCATGAGGCAAGACCGGAGAACAAAAAGTTCGTGGCCGGCATCATGGGGTCTGCGGCGCTGACTTCCTTCTTGACCGGGATCACGGAACCGCTTGAGTTCTCGTTCCTGTTCGTAGCACCGATCCTGTTCGCCGTGCATGCGCTGTTTGCCGGCCTGTCCTTCATGACCATGCATATTTTGGGCACCAAAATCGGCATGACCTTCTCCGGCGGCCTGATCGACTACATGATCTTCGGTGTCATTCCGAACCGGACGCCATGGTGGAATGTTCTCATCGTGGGTGCTATTATGGCTGTAATCTATTACTTCGGCTTCCGTTTTGTCATTCGGAAATTCAATCTGAGGACGCCGGGGCGCGAGGAAGCTACGACGACCGAGCCGGAATCAGGCTCCGGGGCAGCGGGCGCTGGCAGTAAAAATGATCTGCCGTATAATATCCTGACTGCACTGGGCGGCCAGCCTAACATCGCGCATCTGGATGCATGCATCACTCGTCTGCGCGTAGAGGTAAAAGACAAGGGCCATGTCGATAAGGCAAGGCTGAAGCAGCTGGGTGCGTCTGGCGTGCTGGAGGTGGGGAATAATATCCAGGCGATATTCGGAACCCGTTCCGATACGATCAAATCGCAAATCCAGGACATCATGTCGGGAATAACGCCGACCACTGCACCTCAAGCGGAGACGATGCCGACAGCTCAAGAGGAACAGCAGGCCGGACATGACGGGGAAACGCTCGTTATGGAGGAAATCGTATCGCCGGCCGATGGAGAGCTTATGGATATTTCCCATGTGCCTGACCCCGTGTTTGCCGAACGGATGACAGGTGATGGATTTGCGATCGTGCCTCATAACGGAACGATTGTGTCTCCCGTTAACGGCACCGTGTTCAATGTGTTCCCCAGCAAGCATGCCGTCGGCATTATGTCGGATGGCGGCAAGGAAGTGCTTGTCCATATCGGCGTCAATACCGTTAAGCTGAAAGGGCAAGGATTTGAAGTCCTTGTGCAAGAGGGGGATCTGGTCTCCACGGGTCAACCGATCATGCAAGTGGATTTGGATTATGTAAAGGAAAATGCCAAATCGATCATTTCTCCTATTATCTTCTCGAATCTGCCGGAGGGAGCTTCCGTGAAGCTGAACAAGACCGGTGAAGTAAAAAGCGGCGAGGAAGGGATCATTACCATATTGAAACCTTAA	MFKRLFGVLQRVGKALMLPVAILPAAGLLLGLGNMLVNPDFLQYAPWLDAAWVQAAATVMMNAGQIVFTNLSLLFAVGVAVGLAGGEGVAGLAAIIGYLVMNVTMGSVIGVTPAMVGTNYEYASVLGIPTLATGVFGGIIVGILAASMYRRFFKIELPSYLGFFAGKRFVPIMTAATSVLLGLLMVFIWPPIQSALNTASHFMLEQNLTLSAFVFGVVERGLIPFGLHHIFYSPFWFEFGEYLNQAGQLVRGDQNIFMAQLRDGVEFTAGTFMTGKYPFMMFGLPAAALAIYHEARPENKKFVAGIMGSAALTSFLTGITEPLEFSFLFVAPILFAVHALFAGLSFMTMHILGTKIGMTFSGGLIDYMIFGVIPNRTPWWNVLIVGAIMAVIYYFGFRFVIRKFNLRTPGREEATTTEPESGSGAAGAGSKNDLPYNILTALGGQPNIAHLDACITRLRVEVKDKGHVDKARLKQLGASGVLEVGNNIQAIFGTRSDTIKSQIQDIMSGITPTTAPQAETMPTAQEEQQAGHDGETLVMEEIVSPADGELMDISHVPDPVFAERMTGDGFAIVPHNGTIVSPVNGTVFNVFPSKHAVGIMSDGGKEVLVHIGVNTVKLKGQGFEVLVQEGDLVSTGQPIMQVDLDYVKENAKSIISPIIFSNLPEGASVKLNKTGEVKSGEEGIITILKP	PGPT0016870_161	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0016870-ptsG|glcA|glcB-K20118	NA	NA
AK002_01635	276	ptsH_1	COG1925	Phosphocarrier protein HPr	ATGCAACAAACATTCAGAATTATTGACGAAGACGGAATTCACGCACGCCCGGCAACCGCATTGGTGAATACGGCTAACAAATTCCAGGATACCAACTCTTTTGCCGAAGCTAACGGCAAAAAAGTAACGCTGAAGTCGATTCTGGGCGTTCTGTCCCTCGGATTGGAGCAAGGCGACACATTGACACTGATCACGGAAGGCGGCAATGAAAGCGAGGCGCTGACAGCATTGCAAGAAGTGATGGTGAACGAAGGGCTAGGCGAGCTTCATGAATAA	MQQTFRIIDEDGIHARPATALVNTANKFQDTNSFAEANGKKVTLKSILGVLSLGLEQGDTLTLITEGGNESEALTALQEVMVNEGLGELHE	PGPT0016875_1106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
AK002_01636	1722	ptsI_1	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGAATAATTTGAAAGGTATCGCGGCTTCCGCAGGTATCGCGATAGCACGTGTTTTTACGCTGGAGCATCCGGATTATTCCGTCTCGGAGAAGCAAGTGACGGACACGGATGCGGAGCTCGCGAAGCTGGATGCGGCTTTGGCCCAGTCACAGGCTGAGCTGGAAGCGATCAAAGCCCGCACGCTTCAGGAACTCGGGGAGAAGAAGGCTGAGATTTTCGAATCTCACCTTCTCATCCTGAATGATCCCGAATTGATTGAACCGGTCAAGGCGAAAATCGCTTCCGAATCGGTTAACGCGGAATATGCGTTGAACGAAACGGCAACCCAGTTCATTCAAATGTTCGAGAACATGAAGAGCGCCTACTTGCAGGAGCGAGCAGCGGATATGCGCGACGTCACCAAGCGCATCCTGAAGCATCTGCTCGGCTTGAATTATGTCAGCCCTTCGGAGATCAGCGAAGAAGTGATCGTGGTTGCAGAGGATTTGACTCCGTCGGATACCGCGCAATTGAACCGGAACTACGTTAAGGGCTTCACGACGAATATCGGCGGACGTACCTCGCACTCCGCCATCATGGCCCGTTCACTTGAAATTCCGGCTGTCGTCGGGACGAAGAACGTGCTCTCTGCGGTCCAAAACGGGGATTTGATCATCGTTGACGGATTGGAAGGGGATGTCATCGTTAATCCTACGGAAGCCATCGTAGAACAATACCGTGCGAAGCAGGACGCCTATGCCAAGCAGGTGGAGGAGTGGAAGAAGCTGCGCTCCGAACCGACGGTTTCCAAGGACGGAATCCATGTGGAGCTGGCTGCCAACATCGGGACACCGAATGATGTGACCGGCGTGCTGGAGAACGGCGGAGAAGCCGTAGGATTGTACCGTACGGAATTCCTGTACATGGGCAGAGACAAACTTCCTTCCGAAGAGATCCAGTATGTCGCTTACAAATCGGTTTTGGAGAAAATGGAAGGCAAGCCGGTTGTTGTTCGCACGCTTGATATCGGCGGGGATAAGGAGCTGCCGTATCTGGATCTTCCCAAGGAAATGAATCCGTTCCTCGGATTCCGTGCCGTCAGATTGTGCCTGGACCGCCAGGATATTTTCAGAACACAGCTTCGGGCACTGCTGCGTGCAAGCGTCCACGGAAACCTGCGAATCATGTTTCCCATGATAGCGACACTGGGCGAGTTCCGCGAAGCCAAAGCACTTCTGGAGGAAGAAAAGGCTAAGCTTATAAGCGAAGGCATTCCAGTTTCCGAAGAAATCCAGCTGGGCATCATGGTGGAGATTCCATCTACCGCCGTGCTTGCCGATCAATTTGCCAAAGAGGTGGATTTCTTCAGCATCGGAACCAATGACCTGATTCAATACACGATGGCCGCCGACCGCATGAATGAACGGGTTGCGTATCTATACCAGCCATACAATCCGGCGATTCTGCGACTGGTTAAAATGGTCATCGATGCCGCCCATCGCGAAGGCCGCTGGGTAGGCATGTGCGGCGAAATGGCCGGCGACGCGACTGCTATTCCGATTCTGCTCGGTCTGGGGCTGGATGAGTTCAGCATGAGCGCCACCTCCATTCTGCCGGCTCGCAGCCAGATCGGGAAGCTGTCCCGCAGCGATATGCAGGCACTTTCAGCCAAAGCGCTTGAAATGGGTACCGCAGAGGAAGTAGTGGCTCTGGTGGAATCCATTGAGGCTGCAGCCGAGTAA	MNNLKGIAASAGIAIARVFTLEHPDYSVSEKQVTDTDAELAKLDAALAQSQAELEAIKARTLQELGEKKAEIFESHLLILNDPELIEPVKAKIASESVNAEYALNETATQFIQMFENMKSAYLQERAADMRDVTKRILKHLLGLNYVSPSEISEEVIVVAEDLTPSDTAQLNRNYVKGFTTNIGGRTSHSAIMARSLEIPAVVGTKNVLSAVQNGDLIIVDGLEGDVIVNPTEAIVEQYRAKQDAYAKQVEEWKKLRSEPTVSKDGIHVELAANIGTPNDVTGVLENGGEAVGLYRTEFLYMGRDKLPSEEIQYVAYKSVLEKMEGKPVVVRTLDIGGDKELPYLDLPKEMNPFLGFRAVRLCLDRQDIFRTQLRALLRASVHGNLRIMFPMIATLGEFREAKALLEEEKAKLISEGIPVSEEIQLGIMVEIPSTAVLADQFAKEVDFFSIGTNDLIQYTMAADRMNERVAYLYQPYNPAILRLVKMVIDAAHREGRWVGMCGEMAGDATAIPILLGLGLDEFSMSATSILPARSQIGKLSRSDMQALSAKALEMGTAEEVVALVESIEAAAE	PGPT0002025_1679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0002025-ptsI-K08483	NA	NA
AK002_01637	2355	pulA	COG1523	Pullulanase	ATGATCAAGAGCTGCACAAGCGTTAAGCTGGGAGCGACCTACCGAAGAGAGGGAACGGCCTTTCAGGTATGGGCTCCGGATGCGGTTAATGTAAAGCTGGCTTTATATGATGGTCCGGGAGAATATAACGAGCAGGGTCTTGTGACGGATCACGAGGGCGGTACGCTGTATGCGATGGTCCGGAATGAGGACGGCGTATGGTCGGCTCAGGTAAACCGTGATCTTCATGGAACTTATTATATGTACCGAATCGAATCTGCGGAGGGGGCCGTCTGTTATGCCGTTGACCCTTATGCAACCGCTGTGTCCGCGAATGGCTGCCGCAGCGCGGTGGTCGACCTGGCGAAGAGCAATCCGCCGGGGTGGGAGCAGGATGTTAGACCCAACCTGCTAAAGCCTACGGATTCGGTGCTCTACGAGCTGCATGTACGCGATTTCTCGATTCATACGGATTCGGGAATGAAATATAGAGGAAAATACAAGGCATTTACGGAGGGCGGTCTGCGAGACTCCGAAGGAAACGCCCTTGGTCTGGATCATCTTGAAGAATTGGGTGTGACCCATGTGCATCTGCTGCCGGTATTTGATTTTCGGACGGTCAATGAGCTGGACGGATATGCAAGCGGGCGCTTAAGCCGCGAGTATAATTGGGGCTACGATCCGCAGAATTACAATGTGCCTGAAGGTTCGTATGCAACAGATCCCATGGATCCGATCGTGCGCATCCGGGAGCTGAAGGAGATGGTTTTGGCCCTCCATGCAAGGGGAATCCGCGTCGTCATGGATGTGGTTTACAACCATACGTATACGGTGGACGACGGCCCGTTCGAACGATTGGCGCCGGGGTACTTCTATCGCAAGGACGGATACGGGAATCTATCGAACGGTTCGGGCGTAGGGAATGAGCTGGCCACGGAGAATCCGATGGTGCGCAAATACATCAAGGATTCGTTAAAATACTGGGCCGAGGAATATCATATCGATGGTTTCCGGTTTGATCTGATGGCTCTGATCGATACAACGACGATAAAAGAGATCGTAAGCGAGCTGCGCCGAGAGGTCGACCGTTCTCTCTTGTTCTATGGTGAGCCATGGACGGGAGGAATGAGCCCGTTAACGGAGCAAACCGTCAAGGGAAGCCAGAAGGGTCAAGGCTTCGCCGTATTTAATGATCATTTCCGGCATGCCATCAAGGGGGACAATGACGGGCGCGGCCGAGGGTTTGCTACGGGCGAGCCATGGTACGAAGGGGCCGTCGTTGAAGGAATGATGGGCTCGATCCATGATTTTGCGCTCCACCCGGAGGAAACGGTGAATTATGTCACCGTGCACGACAATTTGAATCTGTGGGACAAAATTATAGTGGCGCAAGGCATGGAAGAGCAGGCAGGGCTTCTCCGTTTGACGGATGGGAAGCTGGTTAACGGAGGAGATGTATGGCAGGCAACCGCTGCGTCCACACCCTATGCCGGCATACCCGATGAAGATGTGATGTCGGCTGCGGCCGTGCGCCGGAGCTTGCTGGCTAACGGCATCGTGCTGCTCTCCCAGGGGATTCCGCTGCTGCATGCGGGCGATGAGCTGCTGCGCACGAAATACGGCGATCATAACAGCTACCGCAGCGGGGACGCCATCAATGCCATTCGCTGGTCCAATAAGCGACGCTTCAAACCGGTGTTCGATTATTACAGAGGTCTTATCGCCCTGCGAAAAGCCCATCCGGCGTTCCGGATGGCGTCAAGAGAAGAGATCGAAGGCCATATGGAAGTGCTGCGAAGCAGCGATCGGATCATCGCTTACCGCCTTACGAAGCCAGCCGAACAAGGCAGCTGGGGGCAAATCGTCGTCATCGTTAACGGCAATGAACATGAAATGCCGGTGGATCTGCCGCCTACCCCTTACCGCTGGAACATCGTGGTGAATGATCGTCAGGCGGGAACGGATACGATCCAGGCGCTGGATCAAGGGAAGGCAGTCGTTCAAGGTCTGTCGCTCATGGTGTTATATGAGGATCTGGCCCAGATGAAACAGGGGCTGACGGCCGTTGAGATCGAATATGAGAGACGCGACCAAGGGTACGAGGGCTGGAACGTATGGGTATGGGGAACGGGCGTGAAGGATGGCAGCATTCCATTCTCCCTCACGGACAGCGGCAGGGCGCGGGCGGTCTTCTACGCGGCTTCCGGAACCGATCGGATCGGCTGTATCGTCAGGCTGAATGAGTGGGAGGACCGGGAAGGCGAGAAGGATTGGTTTATCGATATTCCGCCGGATGAAGCAGAGGTTCGGATTGCGCTGCGAAGCGGTCAAAGCGAAGACAGCGACACTAAAGAGCAGCGGGATATCGCCAGTTAA	MIKSCTSVKLGATYRREGTAFQVWAPDAVNVKLALYDGPGEYNEQGLVTDHEGGTLYAMVRNEDGVWSAQVNRDLHGTYYMYRIESAEGAVCYAVDPYATAVSANGCRSAVVDLAKSNPPGWEQDVRPNLLKPTDSVLYELHVRDFSIHTDSGMKYRGKYKAFTEGGLRDSEGNALGLDHLEELGVTHVHLLPVFDFRTVNELDGYASGRLSREYNWGYDPQNYNVPEGSYATDPMDPIVRIRELKEMVLALHARGIRVVMDVVYNHTYTVDDGPFERLAPGYFYRKDGYGNLSNGSGVGNELATENPMVRKYIKDSLKYWAEEYHIDGFRFDLMALIDTTTIKEIVSELRREVDRSLLFYGEPWTGGMSPLTEQTVKGSQKGQGFAVFNDHFRHAIKGDNDGRGRGFATGEPWYEGAVVEGMMGSIHDFALHPEETVNYVTVHDNLNLWDKIIVAQGMEEQAGLLRLTDGKLVNGGDVWQATAASTPYAGIPDEDVMSAAAVRRSLLANGIVLLSQGIPLLHAGDELLRTKYGDHNSYRSGDAINAIRWSNKRRFKPVFDYYRGLIALRKAHPAFRMASREEIEGHMEVLRSSDRIIAYRLTKPAEQGSWGQIVVIVNGNEHEMPVDLPPTPYRWNIVVNDRQAGTDTIQALDQGKAVVQGLSLMVLYEDLAQMKQGLTAVEIEYERRDQGYEGWNVWVWGTGVKDGSIPFSLTDSGRARAVFYAASGTDRIGCIVRLNEWEDREGEKDWFIDIPPDEAEVRIALRSGQSEDSDTKEQRDIAS	PGPT0012195_563	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200	NA	NA
AK002_01638	90			hypothetical protein	ATGGTGAAAAGGGCTCTTATTTACATATTTTCAAAAGGGGTACTCTTTATTACCCGCTGCATTGTCATTTTAAACATCGAAATTCCATGA	MVKRALIYIFSKGVLFITRCIVILNIEIP				NA	NA	NA	NA	NA
AK002_01639	633	ctc	COG1825	General stress protein CTC	ATGTCAAAAGGAAACACAGTTCAACTCAAAGCCAATGTGCGTGATGAATTTACCCGGGCTTCTCGCCGAGAGCTTCGCGAAAGCGGCGGACTTCCCGGTGTTGTATACGGTGCGGGGGAGGAAAGCATCCCCGTAGCTGTTGATTTCAAGGATACGGCCAAGCTGTTCCACACCGGGCGTTCCGAGGTGTTTCAGCTAGATATTCCGGGCTCTGGCAAAGTGCCGGTGTTGATTAAGGATATTCAGAAGAGACGCGGCAACGTATCCCATGTGGACTTCCTGCGCATCTCCATGAACAAGCCGGTTCGTGTCAGCATCCCTGTGGATTATCAGGGTACTGCTGCCGGAACGAAGTCCGGGGGCATCCTGCAAACCCAGGTCACGGAAATCGAAGTAGAGGGTTTGCCGGGCGATCTGCCAACCACCCTGGAAGCGGATGTATCCGCGCTGGAGATTGGGGACAAGCTCACGGTAGCTGATCTTAAGGTGCCGGAGGGTATCACATTACACGCTTCGGAAGAGGAAATTCTAGCCACGGTCATCGTGCCTCGCGCGGTGGAGGCGGCGGAGACCGAGGGTGAAGCGGACGCTGAGGAAGCGAATGCGGAAGAGGCCAAAACCGAAGAATCATAA	MSKGNTVQLKANVRDEFTRASRRELRESGGLPGVVYGAGEESIPVAVDFKDTAKLFHTGRSEVFQLDIPGSGKVPVLIKDIQKRRGNVSHVDFLRISMNKPVRVSIPVDYQGTAAGTKSGGILQTQVTEIEVEGLPGDLPTTLEADVSALEIGDKLTVADLKVPEGITLHASEEEILATVIVPRAVEAAETEGEADAEEANAEEAKTEES				NA	NA	NA	NA	NA
AK002_01640	885	mltF_2		Membrane-bound lytic murein transglycosylase F	ATGCGCGGAACAAAATCGATACGTTATGTCAGTCTTGCCTGCTTGCTTTCTCTCTTCGGTTCCATTGTGCTTAGCGGCTGTACGGTGAACAGCAACGACCGGGTCCCGTCCCCGAACATGGGCGTTAATCCATACCGGGTGAACACCGGCTTCCTGCTTCGGAATGCCGTGGAACGCGGAACCCTGCGAATCGCCACGGAACGGGATTATCCCCCTTTCAGTTACCATGGTACAGGCGGAATACTTACGGGATTCGATGTGGAAATCGCTGAAGAGGTTGCCCGTCATATGGAGCTAAAGGCCGAATTCGTTGAGACCGAGTGGGAGAATCTGCTGCCAGGGCTGACGGAAGGTAAATACGACGCCGTCTTCAACCAGATCGAAGACCGGCCGGACCGGCGGGCGCTCTATGATTTTTCCGTCGCTTACTTATCCTCTACCCCCGTCCTCCTGGTTCATTCCTCGGGCAAAGCTCAGATCCGTACCTTCTCGGATATCAAGGGCAAGCGCGTCGGCCTGAACCCAACCGGAATCTATAAGGATATGGCCAAGCGGTACGGAGCGGAAGCGGTCCCGATTAAATATATATCCGACGCCGCTAACAAGCTCGCAAATGGAGACCTGGATGCCGTCATTTCGGACCAGCTATCGGTGACCAACCTGAAGCAGCAGTTCCCGGAAATGCCGGTCGCTGCCGCCGAATCCGCCGATCAAGTATCCGAGATTTCCGCAGCCTTTGTGAAAGGGAATCCGGATCTCGTGGCGGCCGTGGATAATGCCCTGGCTACCATGCAGCAGGATGGAACGTATTTGACCATATGGAACAAATACTTCGGGGACGCTCCGATCAGTTACAAAGGCATTCATGACCGCAAGGTTAAATAA	MRGTKSIRYVSLACLLSLFGSIVLSGCTVNSNDRVPSPNMGVNPYRVNTGFLLRNAVERGTLRIATERDYPPFSYHGTGGILTGFDVEIAEEVARHMELKAEFVETEWENLLPGLTEGKYDAVFNQIEDRPDRRALYDFSVAYLSSTPVLLVHSSGKAQIRTFSDIKGKRVGLNPTGIYKDMAKRYGAEAVPIKYISDAANKLANGDLDAVISDQLSVTNLKQQFPEMPVAAAESADQVSEISAAFVKGNPDLVAAVDNALATMQQDGTYLTIWNKYFGDAPISYKGIHDRKVK	PGPT0015635_118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_CYSTEINE_TRANSPORT,PGPT0015635-fliY|tcyA|yckK-K02424	NA	NA
AK002_01641	753	kduD_2		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGAACAGGTTTGATTTATCAGGCAAAACGGCGATCGTCACCGGCTCGGCCCGCGGACTGGGGCAAGGCATCGCCATAGCGCTGGCCGAGGCCGGCGCGGATATCGTTGCCGTGTCCATGAATACAAGCGCCGAAACGATTGAAGCCATCAAGGGATTCGGCAGAAAAGCCTCCGAGATTCGGGTTGATTTAAGCGATCAAAGCAAACTTCAGCAGACCTTTGATCAAGCGCTGGAGCTGACCGGGCATGTGGACATTCTGGTAAACAATGCCGGCATTATCCGCCGGACCCCGGCCAAGGATCACGGCGTGCAGGATTGGCTTGACGTGATCGACTTGAATTTGAACACCGTATTTTTGCTGTCCCAACTGGCCGGGAGACATATGATCGAACGCGGCAGCGGCAAGATCATTAACATTTGCTCCATGCTGTCCTACCAAGGCGGAATCAACGTGCCTGGTTACACGGCGAGCAAGCATGGCGTTGCCGGCTTAACCAAGGCTTTGGCCAACGAATGGGCAGCCAGCGGCATCCAGGTGAACGGCATTGCTCCCGGTTACATCGAAACCGATAACACGGCAGCCATCCGTCAGGACGAGGATCGCCGCACGTCCATTACGGACCGCATTCCGGCCGGACGCTGGGGCAAGCCCGAGGATATCGGAGGCCCTGCCGTGTTCCTCGCTTCCGCCGCTTCGGATTACATGAACGGGCATGTGTTATGCGTGGACGGCGGATGGATGGCCCGTTAA	MNRFDLSGKTAIVTGSARGLGQGIAIALAEAGADIVAVSMNTSAETIEAIKGFGRKASEIRVDLSDQSKLQQTFDQALELTGHVDILVNNAGIIRRTPAKDHGVQDWLDVIDLNLNTVFLLSQLAGRHMIERGSGKIINICSMLSYQGGINVPGYTASKHGVAGLTKALANEWAASGIQVNGIAPGYIETDNTAAIRQDEDRRTSITDRIPAGRWGKPEDIGGPAVFLASAASDYMNGHVLCVDGGWMAR	PGPT0018065_1353	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
AK002_01642	750	srlR_2	COG1349	Glucitol operon repressor	ATGAACCCGTTACGACGTTATGAAAAAATAATGGAGTACCTTCTAACCCATAAAGAAGTGACCGTCGCCGATTTGAGCCAGCAGCTTCAGGTAACCGGAAAAACCATACGCGAGGATTTGACCAAGCTCGAGGAGCAGGGCCTGATCGTCCGCGTGCACGGCGGTGCCGTGCTGGCCCACAGCGACCAATTCGGCATCCTGCCCTCAAAAGAACCGCTGGCCAAGCACCCGGATGAGAAGACCGAAATCGCGCAGAAGGCACTGAAGCATATCAACACGGACGACATCATTGCCCTTGACGGCGGCAGCACCACGCTGGAGATCGCCCGCAGGCTGGAGGATATGCCGTTAACGGTCATTACGAACGATGTCTATATCATCAGCGAGCTGGCGACCAAGAATCATATCCGGCTGGTCGTTCCGGGGGGCTACCGGGTGCGGAACATGCTCGCAGGCCCGGAAGGCGTAGCGTACGTAACGCAGCTGAACATTCAAAAAGCCTTTATATCCGCCACGGGCGTCCATCTTGACCATGGATTGTCCATCTATACCGGGGATTTGATTCCGTTCAAACGGGCCTTAATCGAAACCTCGGCGGAGGTTTATGCCGTCGTCGATCATCATAAATTCGGTCAGACGGCCTTACGGACTTTTTCATCCTTGCAGGAGATCAGCGGCATCATGACCGATGCGGGGCTGTCTCCCGGGACGGTAAAGCAATACGAGGGAGCCGGCGTTACCATGCTGTAA	MNPLRRYEKIMEYLLTHKEVTVADLSQQLQVTGKTIREDLTKLEEQGLIVRVHGGAVLAHSDQFGILPSKEPLAKHPDEKTEIAQKALKHINTDDIIALDGGSTTLEIARRLEDMPLTVITNDVYIISELATKNHIRLVVPGGYRVRNMLAGPEGVAYVTQLNIQKAFISATGVHLDHGLSIYTGDLIPFKRALIETSAEVYAVVDHHKFGQTALRTFSSLQEISGIMTDAGLSPGTVKQYEGAGVTML	PGPT0017590_1709	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK002_01643	834	kduI	COG3717	4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase	ATGGAAAGACGTTATGCCTCACATCCGAATGAAGTGAAACAATTTGACACGGAACGGCTTCGCAAGGAATTCCATATACCCGTCCTGTTTACGCCCGACAAGCTGGAGCTGGTCCTGACGCATGAAGACCGTTTGATTATCGGGGGTGCCGCACCCGTACGGGAGCAGGTCAAGCTGGATACCGACCTTAAAGAGCTGGGCGTTTCCTCTTTCCTTGAGCGCCGTGAGCTTGGCATCATCAATATCGGCGGACACGGTACCGTCCTGGTTGACGGGACGGAGCATGAGCTGAACAACAAAGAATGCCTGTACGTTGGCATGGGCACCGAAGAGGTCATTTTCCAAAGCACCGATCCGGCCAATCCGGCCAAATTCTATTTGAATTCGGCGCCGGCCCACCAATCGTTCCCGACGGCCAAAGCCACCCTTGAAGAAGCCGATTCCAGCGCTTTGGGTGACATCAAAAATTCCAATGATCGCGTGATCTATCGCTTCATTCATCAAAAAGGCATTCAGAGTGCCCAGCTTGTCATGGGCATGACCCTGCTGAAGGAAGGGAACATGTGGAACACGATGCCTGCCCATACGCATCCAAGACGCATGGAGGCGTATCTTTATTTTGACTTGCCGGAGGATGCGGTTGCCATCCATCTGATGGGTGAACCAAGCGAAACGCGCCACATCGTCATGCGCAACGAACAGGCCGTGATTTCGCCGAGCTGGTCGATCCACAGCGGAGTGGGCACAAGCAACTATACCTTTATCTGGGGCATGGCCGGGGACAACAAACGTTATGATGATATGGACCCCGTGTCCATGAAGGATTTAAAATAG	MERRYASHPNEVKQFDTERLRKEFHIPVLFTPDKLELVLTHEDRLIIGGAAPVREQVKLDTDLKELGVSSFLERRELGIINIGGHGTVLVDGTEHELNNKECLYVGMGTEEVIFQSTDPANPAKFYLNSAPAHQSFPTAKATLEEADSSALGDIKNSNDRVIYRFIHQKGIQSAQLVMGMTLLKEGNMWNTMPAHTHPRRMEAYLYFDLPEDAVAIHLMGEPSETRHIVMRNEQAVISPSWSIHSGVGTSNYTFIWGMAGDNKRYDDMDPVSMKDLK	PGPT0018245_760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018245-kduI-K01815	NA	NA
AK002_01644	897	glpQ_3	COG0584	Glycerophosphodiester phosphodiesterase	ATGAAACGAATGATGGTTATCTTTGCTGCTCTGCTGGCAGTAACCGGTTCCCAAACGGCAGCCGACGTGCCTCATTATCCATTTCATCAAGCCAGGGAACGGGAGGCCTGGATCAGGTCCGGGGATGATCGCGACCAGTCCTGGGTCAATATCGCCCATCGGGGGGCGTCGGGTTATGCGCCTGAGAATACGATGGCTTCGTTTGTCAAAGCGTTTGACATGGGAGCGGATATGCTGGAGCTGGATGTTCAGCTGAGCAAGGATGGAGAAGTCGTGGTGATCCATGATTCCACGGTTGAGCGAACCACGGACGGGCAAGGAGAAGTGGGCGGCCTAACCCTGGAGGAGCTGCGGCGGCTGGATGCGGGTTCGTGGTACGATTCGTCGTTCAAAGGAGAAGTCATTCCGACATTGGCGGAGGTGCTTGAGCACTTCGGTGGCCGGATCGGCTTGCTGATCGAATTGAAATCGCCCTCCCGGTACCCGGGCATTGAGCAAAAGGTTGCAGGCGATTTGAGAAGATATGCCGCCCAGACTGATGGACTAAGGTACAAGGACCTGATTATCGTTCAGTCTGCCGATACGGATTCGCTGGTTCGGTTCCGCCAGCTGATGCCCGATATTCCGCTTGGCGTAGTTATCACCAGTTCGGGCGACTTATCCAAGCAGCGGCTGGATAGTATGAAGGAGTACGCGGAATACGTGAGTATCTCGATGAGGCTCGTCTCCAAGGGACTGGTTCAAAAGATCCATCAATCGGGGATGAAAACGATGGTGTGGACCATTCGGGATATGCTGCAAATACCTTACGTGCTTCAAATTAACGTGGACGGCATCATTACGGATTATCCGGACCGGGTGCCGATTACGATTTCGAACAGGAACATGATCAGATAA	MKRMMVIFAALLAVTGSQTAADVPHYPFHQAREREAWIRSGDDRDQSWVNIAHRGASGYAPENTMASFVKAFDMGADMLELDVQLSKDGEVVVIHDSTVERTTDGQGEVGGLTLEELRRLDAGSWYDSSFKGEVIPTLAEVLEHFGGRIGLLIELKSPSRYPGIEQKVAGDLRRYAAQTDGLRYKDLIIVQSADTDSLVRFRQLMPDIPLGVVITSSGDLSKQRLDSMKEYAEYVSISMRLVSKGLVQKIHQSGMKTMVWTIRDMLQIPYVLQINVDGIITDYPDRVPITISNRNMIR	PGPT0018470_3663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_01645	1260	amiC		Aliphatic amidase expression-regulating protein	ATGAAAAAACAAAGCGTAATCGTTAAAGGATGGGCCTCGTTTGTATTATGCGCCATTTTAATGTCAGGCTGCGTGACGGAAAAGGAAACCGCTCCAACCGCCGGAGCGGGTAACGGGAGCCCGCCGGTAGAAGCCGCAGGCGATTCGATCAAGGTCGGCATTCTTCACTCGCTCAGCGGAACGATGGCGATCAGCGAGGTGTCCGTTAAGGATGCCGAGATACTTGCGATCGAAGAGATCAATGCGGCGGGCGGCGTGCTCGGCAAGCAAATCGAACCCGTGATCGAGGACGGCGCCTCGGATTGGCCGACCTTCGCGGAGAAGGCGGGCAAATTGCTGCAGCAGGATAAGGTTGCCGCCGTATTCGGAGGCTGGACCTCCGCCAGCCGGAAAGCCATGCTCCCTGTTTTCGAACAAAACCACGGTCTCTTATTCTATCCGGTTCAATATGAAGGGCTGGAATCCTCCCCTAACATTTTCTATACGGGCGCAACAACCAATCAGCAAATCGTGCCTTCGGTGTCCTGGCTGCTCGAGAACCGCGGCAAAAAAATGTTTCTGCTCGGCTCCGATTATGTGTTCCCAAGAACGGCCAACAAGATCATTAAGGCCCAACTGACGGCCGAGGGCGGCGAGCTTGTGGGAGAGGAATACACGCCGCTGGGCCACACCGATTTCAGCACGATTATAGCCAAGATCAAAGAAGCGAAACCCGATATCGTCTATAACACGCTGAACGGCGATAGTAATGTGGCCTTCTTCAAGCAGCTGAAGGATGCGGGCATTACCTCCAAGGACATGACCACGCTGTCCGTAAGCGTAGCGGAGGAGGAAATCCGCGGCATCGGCGCCGATATCCTGGAGGGCCATCTGGCAGCCTGGAACTACTATCAGTCCACGGATACTCCGGAAAACAAAGCTTTTGTTGATAAATACAAAGCGAAATACGGCGCTGACCGGGTCACAGCCGACCCGATCGAGGCTGGTTATACCGCGGTGTACTTGTGGAAGGCTGCGGTAGAGAAGGCGGGAACCACGGACGTGGATAAGGTGAAGGAAGCGGCCAAAGGCATTGAGTTCGCCGCCCCCGAAGGCAAAGTGACCATCGATGGCGACAATCAGCATATTCATAAAACGGTGCGCATCGGCGAGGTGCAGGCTGACGGACAGTTCAAGGAGCTCTGGAACTCGGGCGAACCCGTCAAACCGGACCCCTATCTGAAAACATACGATTGGGCAAAAGGTTTGAGCGGTGAATAA	MKKQSVIVKGWASFVLCAILMSGCVTEKETAPTAGAGNGSPPVEAAGDSIKVGILHSLSGTMAISEVSVKDAEILAIEEINAAGGVLGKQIEPVIEDGASDWPTFAEKAGKLLQQDKVAAVFGGWTSASRKAMLPVFEQNHGLLFYPVQYEGLESSPNIFYTGATTNQQIVPSVSWLLENRGKKMFLLGSDYVFPRTANKIIKAQLTAEGGELVGEEYTPLGHTDFSTIIAKIKEAKPDIVYNTLNGDSNVAFFKQLKDAGITSKDMTTLSVSVAEEEIRGIGADILEGHLAAWNYYQSTDTPENKAFVDKYKAKYGADRVTADPIEAGYTAVYLWKAAVEKAGTTDVDKVKEAAKGIEFAAPEGKVTIDGDNQHIHKTVRIGEVQADGQFKELWNSGEPVKPDPYLKTYDWAKGLSGE	PGPT0000925_1238	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000925-urtA-K11959	NA	NA
AK002_01646	906	livH	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGATATGACGATCCTGCAGGTGTTTAACGGACTGAGCGTCAGCTCGATATTATTATTGATCGCGCTCGGCTTGGCGGTAACGTTCGGCTTAATGAATGTCATTAATATGGCCCATGGCGAGCTGATTATGATCGGCGCTTATTCCACGTACGTTACCCAAGGCTTGTTCTCCGCCTATATGCCGAAATCCTGGTTCGATACCTATTTCATCGCCGCATTGTTAGTATCCTTCATGGTTGCCGCTGCGGTCGGCTGGCTGCTTGAAATGGTGCTTATCCGCCATCTGTACGGCAGACCGCTGGATAGTCTGCTCGCCACATGGGGCGTCGGGATGATGCTGCAGCAGATCGCAAGGTTCATCTTCGGCGCACCGAACGTGGCCGTAACCAGCCCTTCCTGGCTTAACGGCGGGCTTGCGATCACCTCAAGCATCATCCTTCCTTACAAGCGGCTGTTCATTGTATTGCTTGTGGCCGTCGTCCTGACGGCGATGTATCTTTATATTTACAGAACGGTTCAAGGCCGAAGAATGCGGGCGGTGATGCAGAACCGAAGCATGGCCGGTTGTCTCGGCATTTCGACCCGGCGCGTGGACGGACTGACGTTTGCGATCGGCTCGGGCATCGCCGGTATTGCCGGCTGTGCCTTGACGCTGCTCGGCCCGATCGGACCATCGATCGGGACCTACTATATCGTCGATGCTTTCATGGTGGTGGTGCTGGGCGGCGTAGGAAAGCTGGTCGGCACGGTTGCCGGAGCGCTGGGCATCGGCGTGTTCAACACGCTGTTTGAGACCTATACTTCGGCTTCCATCGGCAAAGTGCTGGTGTTCGCCTGCATCGTGGCTTTCCTGCAGTGGAAGCCCCGCGGGCTCGTCGCGCTGCGAACGCGCAGTTTGGATTAG	MDMTILQVFNGLSVSSILLLIALGLAVTFGLMNVINMAHGELIMIGAYSTYVTQGLFSAYMPKSWFDTYFIAALLVSFMVAAAVGWLLEMVLIRHLYGRPLDSLLATWGVGMMLQQIARFIFGAPNVAVTSPSWLNGGLAITSSIILPYKRLFIVLLVAVVLTAMYLYIYRTVQGRRMRAVMQNRSMAGCLGISTRRVDGLTFAIGSGIAGIAGCALTLLGPIGPSIGTYYIVDAFMVVVLGGVGKLVGTVAGALGIGVFNTLFETYTSASIGKVLVFACIVAFLQWKPRGLVALRTRSLD	PGPT0000930_1333	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000930-urtB-K11960	NA	NA
AK002_01647	1089			hypothetical protein	ATGGTGCTGAAATGGTTGACAGGAAACCCCGGCGGCCGATCGAAACGGATTCTATGGAGCGCGGTGCTGCTTCTGATGTGTTTGGCCCCCTTGTTCACGACCCCTTTTCGCCTCGGATTGCTAACGAAATTTTTGGCTTTGGCGATCCTGGCGGTCGGGCTTGACCTGATCTGGGGGTACGGCGGCATTCTGAGCCTTGGACATGGCGTGTTCTTCGGGCTGGGTGCTTATGCCATGGCCATGTATCTGAAGCTGGACGCCAGCGGCTCGGCCCTGCCTGATTTTATGGGATGGAGCGGGGTGGCGTCCCTGCCCTGGTTCTGGGAGCCTTTCCGGTCGTTCCCGGCGGCCTTGATACTCGGGATGCTGCTGCCGGCCCTGCTGGCGTTGATACTTGGATTCTTTACGTTCCGCAACCGGATCGTCGGCGTGTATTTTACGATTCTGACGCAGGCCCTGGTCATGATCGTGGTTACACTGTTTGTCGGCAAGCAGGAGTGGACGGGGGGCACGAACGGGATTACGGGGTACAGCTCCGTTTTGGGATTTAACCTGAATGCGCCCTCCACGAAAATAGGATTGTATTTTATTACGCTGGCCGCTTTGGCAGGAGCCTATATTCTATGCAGAAGAATTGTGAACAGCCGCGTGGGCCAGGTGCTGGAAGCGTCGAGGGATGGGGAGAACCGGGTGCGGTTTCTGGGATTCGATCCTTCCCGCTACAAAACCTTTGCGTTTGCCGTATCGGGGGGCTTGGCCGGGCTAGCCGGCATGCTGTTTGTGCTTCAGGTCGGCATTATTTCGCCGTCCATGATGGGCATCGTCCCGTCTATTGAAATGGTGCTCTGGGTCGCGCTTGGCGGCAGGGGAACGCTGATCGGCGCCATAATCGGCGCCGTGCTGCTGAACGCGGCCAAGACCGGGATCAGCGAAGCTTATCCCGAAGGGTGGCTGCTGGTATTGGGCGCTTTGTTTGTCATTGTTGTGGTCTTGATGCCGAAAGGATTGACGGGATTGTGGAGCAAGGCGACTTCGTCATTATCCAAAAGAGGGAGGACTGTCCATGCAGCCGTACGCAAAGAGAGCTGA	MVLKWLTGNPGGRSKRILWSAVLLLMCLAPLFTTPFRLGLLTKFLALAILAVGLDLIWGYGGILSLGHGVFFGLGAYAMAMYLKLDASGSALPDFMGWSGVASLPWFWEPFRSFPAALILGMLLPALLALILGFFTFRNRIVGVYFTILTQALVMIVVTLFVGKQEWTGGTNGITGYSSVLGFNLNAPSTKIGLYFITLAALAGAYILCRRIVNSRVGQVLEASRDGENRVRFLGFDPSRYKTFAFAVSGGLAGLAGMLFVLQVGIISPSMMGIVPSIEMVLWVALGGRGTLIGAIIGAVLLNAAKTGISEAYPEGWLLVLGALFVIVVVLMPKGLTGLWSKATSSLSKRGRTVHAAVRKES	PGPT0000935_1184	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000935-urtC-K11961	NA	NA
AK002_01648	840	lsrA	COG1129	Autoinducer 2 import ATP-binding protein LsrA	ATGCAGCCGTACGCAAAGAGAGCTGATGTTTCGCTAGCCGCACATGGGGAAGTCAGGGGCATCGGCATGTCGCCCACCGTGCTGTCCGCGGAAAATATAACGGTGGCCTTTGGCGGGTTCGTAGCGGTAAACGGCATGAATCTGGCGCTTCGCCAGCATGAGCTGCATTTTCTGATCGGCCCGAACGGGGCAGGGAAGACCACGATGCTGGATGTGATCTGCGGAAAGACTAAGCCTGGGACGGGGCGGGTGCTGCTCGGCGACGGTCTTGAGATTACGAGGAAGCGGGACTATGAAATCGCGGGTCTCGGCGTGGGCCGGAAATTCCAGGCACCGTCGATATTCCCCAACCTGAGCGTCAAGGAAAACCTGGAGCTGACCGTCGATTCGGACCGAAGCGTGCTCCGGGCGCTGAAGGTCAGGAGAAATCGATGCACTACGTTCGAGATGAAGAAGGTGCTGGAATTGATCGGACTTCCCGATCGGCTTCATGTTCGGGCAGGTTCCCTGTCGCATGGAGAGAAGCAGTGGCTGGAGATCGGCATGCTGCTGCTTCAGAAGCCGCGGCTTCTGCTGCTGGATGAACCGGTAGCGGGAATGACGGACGAGGAAACGATGAAGACCGGCGAGCTCCTTCAAGGCATTGCTAAGGAATGCTCCGTCGTTGTGGTCGAGCACGATATGGAGTTTGTACGTTCTTTTGCCGCCAAGGTTACCGTCATGCATGAAGGGAAACTGCTGAAGGAAGGATCCATGCAGGAGATTCAGCGCGATCCGGTGGTGGCCGAGGTTTACCTTGGAAAAAGGAGGGAGGCGAATGCTCAAGCTGCAGGGCATTGA	MQPYAKRADVSLAAHGEVRGIGMSPTVLSAENITVAFGGFVAVNGMNLALRQHELHFLIGPNGAGKTTMLDVICGKTKPGTGRVLLGDGLEITRKRDYEIAGLGVGRKFQAPSIFPNLSVKENLELTVDSDRSVLRALKVRRNRCTTFEMKKVLELIGLPDRLHVRAGSLSHGEKQWLEIGMLLLQKPRLLLLDEPVAGMTDEETMKTGELLQGIAKECSVVVVEHDMEFVRSFAAKVTVMHEGKLLKEGSMQEIQRDPVVAEVYLGKRREANAQAAGH	PGPT0000940_371	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000940-urtD-K11962	NA	NA
AK002_01649	696	livF	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	ATGCTCAAGCTGCAGGGCATTGAATCGGGTTATGGGGAGAGTGCCGTCCTGCGCGGCGTGTCCATGGTCGTGGACCCCGCAAAGATTGTATGCCTGGTTGGGCGCAACGGAGTCGGAAAAACCACGCTGATGCGAACGATAACCGGGCAATTGAAAATCCGGCAGGGGCGGATGAGCCTTGGCGAGCAGGAGGTTACCGGCTGGGATTCCGTCAAGAGAGCAAGAGGCGGGATCGGGTATGTCCCGCAAGGGCGCGAGATTTTCCCCCAACTCACTGTAAAAGAGAATCTGCTGCTCGGCCTTGAGCCATGCGTGCCTCGTACGAAGACATTCCCGGAAGAGGTGTTAGCCCTGTTTCCGGTACTGCCGCAAATGTATCACCGCCAAGGCGGCGATCTAAGCGGAGGACAGCAGCAGCAGCTTGCTTTCGCGAGGGCGCTTGCCTCCCGGCCCAAAGTGCTGCTGCTCGACGAGCCGACCGAAGGAATCCAGCCTTCCATCGTGGAGGAAATTCAAGACGTCATCCGCGGGATCAAAGCCAAAGGAGAAACGTCGGTCATTCTGGTGGAGCAGAGCATCGAATTCGTCCGAAGCGTGGCCGATTATATCTATGTCATGGATAAAGGGACGATCGTAGCCGAAGGGGTGCAGGATGCCATCGATATGGAGCAGTTCGAGCATTATTTGACGGTCTAA	MLKLQGIESGYGESAVLRGVSMVVDPAKIVCLVGRNGVGKTTLMRTITGQLKIRQGRMSLGEQEVTGWDSVKRARGGIGYVPQGREIFPQLTVKENLLLGLEPCVPRTKTFPEEVLALFPVLPQMYHRQGGDLSGGQQQQLAFARALASRPKVLLLDEPTEGIQPSIVEEIQDVIRGIKAKGETSVILVEQSIEFVRSVADYIYVMDKGTIVAEGVQDAIDMEQFEHYLTV	PGPT0000945_1307	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_TRANSPORT,PGPT0000945-urtE-K11963	NA	NA
AK002_01650	1488	araA	COG2160	L-arabinose isomerase	ATGAATTTGAAACCGCATACTTTTTGGTTTGTCACCGGAAGCCAGCACTTGTATGGTCCCGAAACGCTGGAGCAGGTCGCCGAGCACTCCCGCATCGTGGCAACGGAGTTTGACAAAGATCCTGTATTTACGTACCCCATTGTATTCAAGCCGATCGTAACGACACCCGATGAAATATACAACCTGATTCTTGAGGCTAACAACGATGAGTCCTGCGCAGGCATCATGACGTGGATGCATACGTTCTCCCCGGCCAAAATGTGGATCGCGGGCCTATCCCAATTGCAGAAGCCGCTTCTTCATTTCCATACCCAATTCAACCGGGATATTCCTTGGGAAACGATTGATATGGACTTTATGAACCTGAACCAGTCCGCACACGGCGACCGTGAGTATGGCCATATCGGTGCCCGCCTGGGCATCGCCCGCAAGGTCGTTGTGGGCCACTGGGAAGACGGGGAGGTTCGCGGCAGCATTGCCGGCTGGATGCGGACTGCCGCGGCCTATGCCGAAAGCCGCAGGCTGAAGGTGGCCCGCTTCGGCGACAATATGCGTCAGGTAGCGGTAACCGAAGGGGACAAAGTGGAGGCGCAAATCAAGCTTGGCTGGTCCGTGAACGGTTACGGCATCGGCGACCTTGTGCAGTCCATGAACGAAGTCGGCGATGAAGAGGTCAAGGCGCTCCTGAACGAATATGCGGAGTCGTATTCGATTACCAAGGAAGGGCTTAGCGATGGTCCCGTGCGCGATTCGATTGCGTACCAAGCCCGGATCGAGATTGCGTTGCGTCGTTTCCTCGAGGAAGGCGGCTTCGGCGCATTCACGACGACCTTCGAGGATCTGCACGGAATGAAGCAGCTCCCAGGACTCGCCGTGCAGCGCTTGATGGAGTCCGGTTACGGTTTCGGCGGGGAAGGGGATTGGAAAACAGCGGCCCTGACACGCGTGTTGAAGGTGCTTGCAGACAATAAAAGCACATCCTTCATGGAGGACTACACCTATCATTTCGAGCCGGGAAATCATATGATTCTCGGATCGCACATGCTGGAGGTATGCCCGACCATCGCGCTGGATAAGCCGACGCTTGAGGTTCATCCGCTCGGGATTGGGGGCAAGGGAGATCCGGCGCGACTCGTGTTTAACGGCCAAGACGGCCCTGCCGTCAATGCTTCCCTGATTGATCTCGGGCACCGCTTCAGACTGCTGGTGAATGTGGTGGACGGCGTCAAGGTGGAGCAGCCGATGCCGAAGCTGCCGGTGGCCCGCGTGCTGTGGAAGCCGCAGCCATCTCTTCGCGAATCTGCGGAAGCGTGGATTTTGGCCGGCGGCGCGCACCATACCGTACTCTCTTATGCCATGACGGCCGAACACTTAAGCGATTGGGCGGAGATGACCGGCATTGAAGCGGTCGTTATCGACAAGGATACAACGATACCGCGCTTCAAGAACGAGCTCCGTTGGAGCGAAGCCGCATACCGTCTGCGGTAA	MNLKPHTFWFVTGSQHLYGPETLEQVAEHSRIVATEFDKDPVFTYPIVFKPIVTTPDEIYNLILEANNDESCAGIMTWMHTFSPAKMWIAGLSQLQKPLLHFHTQFNRDIPWETIDMDFMNLNQSAHGDREYGHIGARLGIARKVVVGHWEDGEVRGSIAGWMRTAAAYAESRRLKVARFGDNMRQVAVTEGDKVEAQIKLGWSVNGYGIGDLVQSMNEVGDEEVKALLNEYAESYSITKEGLSDGPVRDSIAYQARIEIALRRFLEEGGFGAFTTTFEDLHGMKQLPGLAVQRLMESGYGFGGEGDWKTAALTRVLKVLADNKSTSFMEDYTYHFEPGNHMILGSHMLEVCPTIALDKPTLEVHPLGIGGKGDPARLVFNGQDGPAVNASLIDLGHRFRLLVNVVDGVKVEQPMPKLPVARVLWKPQPSLRESAEAWILAGGAHHTVLSYAMTAEHLSDWAEMTGIEAVVIDKDTTIPRFKNELRWSEAAYRLR	PGPT0017450_803	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017450-araA-K01804	NA	NA
AK002_01651	1089	araR_2	COG1609	Arabinose metabolism transcriptional repressor	ATGAATAATAGACGGATACCCAAATATATTGTATTAAAAAACGAACTGCTCTCATGGTTTGAATCCGGCCGGCTTCAAGCAGGCAAACAGGTTCCTTCGGAGCATGAAATCGCGGACCAGTTCGGCGTAAGCCGCCAGACGGTCCGCCAAACCTTCGGCGAGCTGGAGAAGGAAGGCTGGCTCGAACGGATTCAAGGCAAAGGAACCTTTGCCCGCAACCCGGCGCGGCGGGAAAGCGAGCAGGTCAAGACGATCGGCATCATGACGACGTACATCTCGGATTATATTTTCCCGCATATCGTCAGGGGAGCGGAGGCGGAGCTGCGCAGCAAGGGATACCGCCTGCTGCTTTCCAGCACCGACAACAACAAGGAGAAGGAGATGGAGAGCCTTCAGCTCATGACCAGCCAGCCGCTGAGCGGGCTGATTATCGAGCCGACCAAGAGCGCGGAGGGCAATCCGAATCTGACATATTTCCTGTCCCTGCAGGAGAAGGGGATTCCGTTTCTGATGATCAACGAGAAGTATCGGGAACTGGAATGCCCTTGCCTTAAGCTGGACGATGAGCTTGGCGGTTACAAGGCCACGCGGCATTTGATCGAGAATGGACATTCGGCGATTGCCGGATTCTTCAAGCGGGACGACCTTCAGGGCGTAAACCGGCTGAAGGGCTTCTTGCGGGCGCATCGGGAGGCGGGCATCCCCGTTTCGCCGGAGCGGGTGGTTACGTATACAACGGAACAGAAGGGCCGTTTCCCTTATGAACAGGCCGTCCAATTGCTGAAGCAGCCGATCGGGCAGCGGCCGACGGGATTCGTATGTTATAACGACGAGCTGGCCGTGTCTTTGGCGGAGGCGGCCGGGGAATGCGGGCTGCAAATTCCGCAGGACGTATCCATGGTCGGCTTCGATGATTCCACGCTAGCCGTTGCTTCCGGCGTGAAGCTGACGACGATGACCCACCCGAAGACGGAGATGGGGATCATGGCGGCCAGGCAGTTGATCAGCATGATCGAGCATCATACCGTATTTGAGGATACGGTTTATCAACCGGAGCTTGTGGAGAGAGAATCGGTGGACAAACGATAG	MNNRRIPKYIVLKNELLSWFESGRLQAGKQVPSEHEIADQFGVSRQTVRQTFGELEKEGWLERIQGKGTFARNPARRESEQVKTIGIMTTYISDYIFPHIVRGAEAELRSKGYRLLLSSTDNNKEKEMESLQLMTSQPLSGLIIEPTKSAEGNPNLTYFLSLQEKGIPFLMINEKYRELECPCLKLDDELGGYKATRHLIENGHSAIAGFFKRDDLQGVNRLKGFLRAHREAGIPVSPERVVTYTTEQKGRFPYEQAVQLLKQPIGQRPTGFVCYNDELAVSLAEAAGECGLQIPQDVSMVGFDDSTLAVASGVKLTTMTHPKTEMGIMAARQLISMIEHHTVFEDTVYQPELVERESVDKR	PGPT0017490_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_01652	690	ulaF	COG0235	L-ribulose-5-phosphate 4-epimerase UlaF	ATGTTGGAGGATTTGAAGCAGCAGGTGCTTGAGGCGAATCTGGAGCTTCCGAAGTACGGGCTCGTTACCTTTACATGGGGAAACGTCAGCGGCATCGACCGTGAACGGGGACTGTTTGTCATTAAGCCGAGCGGCGTGCCATACGAGGATTTAAAAGCGGCCGACATGGTCGTGCTGGATTTGAAGGGGAATGTCGTTGAAGGGGATTTGCGGCCTTCCTCCGACACCCCGACTCATCTGGTGCTGTATCAGAATTTTAAAGAGATCGGCGGGATTGTGCACACCCACTCTCCATGGGGAACGAGCTGGGCTCAGGCGGGACGCGCGCTGCCTGCTTACGGAACGACGCATGCCGACTATTTTTACGGGGAGATTCCAGTTACGCGGCCCATGACCCGGGAAGAAATCGAGGGGGCCTACGAGCTGGAGACGGGCAACGTAATCGTTGAACGATTCACGGATCTGGATCCGAACATGGTGCCAGGCGTGCTTGTGCATTCCCATGCGCCGTTCGTGTGGGGCAAGGATGCGCATAACGCCGTGCATAATGCGGTGGTGCTGGAGGAGTGCGCCAAGATTGCAGCCCGGATGCAGCAGATCAATCCCGAAACCGAACCGATGGATCAGACGCTGCTGGATCGCCATTTTTTGCGGAAGCATGGAGTCAATGCTTATTACGGTCAAAAGTAA	MLEDLKQQVLEANLELPKYGLVTFTWGNVSGIDRERGLFVIKPSGVPYEDLKAADMVVLDLKGNVVEGDLRPSSDTPTHLVLYQNFKEIGGIVHTHSPWGTSWAQAGRALPAYGTTHADYFYGEIPVTRPMTREEIEGAYELETGNVIVERFTDLDPNMVPGVLVHSHAPFVWGKDAHNAVHNAVVLEECAKIAARMQQINPETEPMDQTLLDRHFLRKHGVNAYYGQK	PGPT0017420_1414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017420-araD|ulaF|sgaE|sgbE-K03077	NA	NA
AK002_01653	1671	araB_1	COG1069	Ribulokinase	ATGGGGAATAAATACACCATTGGTGTCGATTACGGAACGCAGTCCGGACGTGCGGTATTGGTTAATCTGGCGAACGGGCAGGAAGTAGCGGATCATGTAACGCCTTATCGGCACCATGTTATTGATGAGTTTCTGCCGGGTTCCGGAAAGCGGCTGGAGCATGACTGGGCGCTTCAGCATCCGGGAGATTATCTGGAGGTTCTGCAGGTATCGGTGCCTGCGGTCATCCAGCAATCCGGCATTGATCCGGCGGATGTGATCGGCATCGGCATCGATTTTACGGCTTGCACCATGCTCCCGGTTGACGAGCTTGGCGAGCCGCTCTGCTTCCACCCGGAGCTGGCCGATCAGCCGCACAGCTGGGTTAAGCTGTGGAAGCATCACGCGGCCCAGCCGGAAGCAGACAAGATCAACGCGATCGCCGCTGAGCGCGGAGAAGCTTTTTTGCCCCGTTACGGCGGGAAGATCTCATCCGAATGGATGATAGCCAAAGTCTGGCAGATTCTTGACGAGGCACCGGCCATCTATGAACGCGCGGATCGGTTCCTGGAGGCCACGGATTGGGTCATCTCCCAAATGACCGGCCATATAGTCCGCAACAGCTGTACGGCTGGTTACAAGGCGATATGGCATAAGCAGGACGGATATCCAAGCAAGGATTACTTTAAAGCGCTGGATCCCAGATTGGAGGATCTGGCCGATACGAAGCTGCGCGGAGAGGTCCGTCCCCTTGGGAGCAGCGCCGGCGGCTTGACCGAGAAGATGGCAGAAATGATGGGCTTAACGCCTGGCATTGCCGTGGCCGTCGGCAACGTTGACGCGCATGCCGCGGTACCGGCGGTCGGCGTCGTAACACCGGGCAAGCTGGTCATGGCCATGGGAACCTCGATCTGCCATATGCTGCTCGGCACGGAAGAGAAGCAGGTCGAAGGGATGTGCGGCGTCGTCGAAGACGGCATCATTCCGGGATTATACGGTTATGAAGCCGGGCAATCGGCGGTGGGCGATATTTTTGAATGGTACGTTGAGGAAGCGCTTCCCGCGTACGTTAAGGAGGCTGCGACCGAGGAAGGAATCGGCTTGCATCAATGGCTGGAACGGGAAGCGGCTGCATACAAGCCGGGTCAGAGTGGTTTGCTGGCGCTGGATTGGTGGAACGGCAACCGCTCGGTGCTGGTGGATACGGATCTGACCGGATTGATGTTAGGGATGACGCTGTTGACGAAGCCGCAGGAAATTTATCGCGCCTTGCTGGAGGCGACGGCTTTCGGCACGCGCAAAATCGTGGACGCCTTTCATGAGAACGGCGTGGCTGTGGATGTTCTCTATGCATGCGGCGGACTGCCGCAGAAGAATCGTCTCCTGATGCAGATTTATGCGGACGTTACCAATCGTGAAATCTATGTGGCTGATTCCAAACAGACGCCGGCGCTGGGTGCCGCGATGTTCGCCGCAGTGGCGGCGGGTCAGGCCAAAGGCGGATATGATTCCATTATCGATGCGGCCGAGAAAATGGCACGGGTGAAGGAAGAGACCTTCAAGCCGATACGGGAGCATGTGGAAGTGTATGAGCAGCTGTATCAGGAATACAGCAAGCTGCATGATTATTTCGGCCGTGGGGAAAACGACGTCATGAAACGGCTGAAGCGGATTAAGCAGACGGCAGAATAG	MGNKYTIGVDYGTQSGRAVLVNLANGQEVADHVTPYRHHVIDEFLPGSGKRLEHDWALQHPGDYLEVLQVSVPAVIQQSGIDPADVIGIGIDFTACTMLPVDELGEPLCFHPELADQPHSWVKLWKHHAAQPEADKINAIAAERGEAFLPRYGGKISSEWMIAKVWQILDEAPAIYERADRFLEATDWVISQMTGHIVRNSCTAGYKAIWHKQDGYPSKDYFKALDPRLEDLADTKLRGEVRPLGSSAGGLTEKMAEMMGLTPGIAVAVGNVDAHAAVPAVGVVTPGKLVMAMGTSICHMLLGTEEKQVEGMCGVVEDGIIPGLYGYEAGQSAVGDIFEWYVEEALPAYVKEAATEEGIGLHQWLEREAAAYKPGQSGLLALDWWNGNRSVLVDTDLTGLMLGMTLLTKPQEIYRALLEATAFGTRKIVDAFHENGVAVDVLYACGGLPQKNRLLMQIYADVTNREIYVADSKQTPALGAAMFAAVAAGQAKGGYDSIIDAAEKMARVKEETFKPIREHVEVYEQLYQEYSKLHDYFGRGENDVMKRLKRIKQTAE	PGPT0017410_684	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017410-araB|L_ribulokinase-K00853	NA	NA
AK002_01654	1206	egsA_2	COG0371	Glycerol-1-phosphate dehydrogenase [NAD(P)+]	ATGACGGATTATTTGAACGAAGCAAAAGGTTTAATGAGCCGAATGAGGGAAGTCCGGCCGGCGTTCCGCGGACTTGAAACGATGGAGCTGGAGCCCGGCGCTATTTCAGCTGTGCCCGCGTACCTTAAACGGCAGGGCCTCAATTCACCGATCGTTGTGGCCGATGCGAATACGTATGAAGCCGCGGGTCAAACGCTGATGGATGGGCTGGAAGCGGAAGGTCTGGAACCCCGGCTGTGCTTGATCAAGCCTGATGAGTTAGGCGACGTGGTGGCGGATGAACGCTCGCTGATGCAGCTTTTTATCGAGGTGGAGCCGGAGCGGACAGGATGCCTCATCGCTGCCGGATCCGGTACCCTTCATGACATTACCCGCTTTGTCGCTCATCGGTGCGGGAAGCCTTTCGTCTCTGTACCTACGGCACCTTCGGTAGACGGCTTTACTTCGGCCGGGGCGCCGATCGTGGTTCGGGGGATCAAGCAGACCTTTGCGGCAACGGCTCCCATCGCCATATTCGCCGACCCGGATATCCTTGCGAAAGCGCCGCAGCCGCTTATAGCGGCAGGGTTTGGCGATATGCTCGGCAAATATACGTCGCTGCTGGATTGGAGATTCTCCTCGACCACGGCCGGCGAGCCCTATGATGACCAAGTGGCAGAAATTACGGAACGGGCACTGGAATCTTGCATCCAGCACGTGGAGGCCATCGGCCAGCGCACGGAGGAAGGCATCCGCATTCTGATGACGGCCTTGATTGAATCCGGGATCGCGATGCTGCTGTTCGGGCAGTCCCATCCTGCCTCCGGGGCAGAGCATCATTTGTCGCATTACTGGGAGATGGAGTACTTGCGCCTCGGCAACCGGGCGCTGCTTCATGGCGCCAAGGTAGGGGTTGCCTGCAGCGAGATATCAAGCCTTTACCATGCTGCGGCTGATCAGGGAGTGTATCCTTATGCCGAGCCCAAGCTTTGGGAGACGTACAGAGAGCAGGTTCGGGAGTGGCTTCGGAAGGTTCCTTCGAAGGAGGAGATCGCCGGGCTGCTGCGGCAAGCGGGAGGTCCTTCCAGCCTGAAGGAGCTTGGCATTGATGAGGAGCTATTCGGGGAGAGCCTGCGGGAGGCGCATAAGCTGCGCGACCGTCATACCATCCTGAGGACGCTGAACGAGGCTGACGGGGTAGGACAACCTGTGACTTCATACAGATAG	MTDYLNEAKGLMSRMREVRPAFRGLETMELEPGAISAVPAYLKRQGLNSPIVVADANTYEAAGQTLMDGLEAEGLEPRLCLIKPDELGDVVADERSLMQLFIEVEPERTGCLIAAGSGTLHDITRFVAHRCGKPFVSVPTAPSVDGFTSAGAPIVVRGIKQTFAATAPIAIFADPDILAKAPQPLIAAGFGDMLGKYTSLLDWRFSSTTAGEPYDDQVAEITERALESCIQHVEAIGQRTEEGIRILMTALIESGIAMLLFGQSHPASGAEHHLSHYWEMEYLRLGNRALLHGAKVGVACSEISSLYHAAADQGVYPYAEPKLWETYREQVREWLRKVPSKEEIAGLLRQAGGPSSLKELGIDEELFGESLREAHKLRDRHTILRTLNEADGVGQPVTSYR	PGPT0024335_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024335-araM|egsA-K00096	NA	NA
AK002_01655	918			hypothetical protein	ATGATCTACATTAAAGATTTAATGAGCGGACTTGATATCTTTAAAGCGCTCAGCTCTGAGATCCGCATTCAAATTTTGGAGCTGCTGGCCAAGAATCAAAGCCTGAACCTGAATGATCTCGCAAACAGGCTGAACCTCAGCAATGGCGCCATTACCATGCATATCAAGAAGCTGGAGGAAAGCGGCCTGATCGAAATCCATACCACGGGCGGGAAACATGGCATCCAGAAGATCTGCTATCTGAATAAAGACACCTTGATGGTCGATTTGCGAAGCAAGGATATTAATAATCTGTACGAGGTGGAAATTCGCGTCGGCCATTACAGCGACTACCAAGCCATCCCGACCTGCGGACTTGCGACCAAGGACAGCATCATCGGGGATTTCGACGATCCGCGCTATTTCGCCGATCCGGAGCGCATCAATTCGGAGATTATTTGGCTGACCGAAGGTTTCCTGGAATATCGGATCCCGAATTATTTGAAATCCAACCAATCGTTCCGCGAGATCCAATTCTCCTTGGAGCTGGGGTCTGAAGCACCGGGACATTGCGATAATTACCCATCGGATATTTTCTTTTACGTCAACGGGATCGAAATCGGCAGCTGGACAAGTCCGGGTGATTTCGGGGACAAACGCGGTACCTTCAACCCTGAATGGTGGCCACCCCACTTGAACCAATACGGCATGCTGAAGCTCATCCGAATCAATAAAGAAGGCAGCTTTATCGACGGGTGCCGTATTTCGGATGTCGGTTTGGACCAAATTCAGCTCGATTACAAGAGCGAGCTTACCTTCAGGATTGCCGTTAACGAGCAGTCGGTGAATAAACGCGGCTTAACCATTTACGGCAAGCATTTCGGCAACTACAGTCAAGATCTGTTGGCCCGCGTGCTGTATGATGTGAAGGAAGGATAA	MIYIKDLMSGLDIFKALSSEIRIQILELLAKNQSLNLNDLANRLNLSNGAITMHIKKLEESGLIEIHTTGGKHGIQKICYLNKDTLMVDLRSKDINNLYEVEIRVGHYSDYQAIPTCGLATKDSIIGDFDDPRYFADPERINSEIIWLTEGFLEYRIPNYLKSNQSFREIQFSLELGSEAPGHCDNYPSDIFFYVNGIEIGSWTSPGDFGDKRGTFNPEWWPPHLNQYGMLKLIRINKEGSFIDGCRISDVGLDQIQLDYKSELTFRIAVNEQSVNKRGLTIYGKHFGNYSQDLLARVLYDVKEG				NA	NA	NA	NA	NA
AK002_01656	1515	abfA		Intracellular exo-alpha-(1->5)-L-arabinofuranosidase	TTGGCAGCTGAGAACATGAAAGCACGAATGATCGTGGATAAGTCGTTTCGGATCGCGCAAGTTGATAACCGCATTTATGGTTCATTCATTGAACACCTAGGCCGCGCAGTATATGGCGGGATTTACGAGCCCGGCCATGAAACCGCGGATGCGGACGGTTTTCGGAATGACGTAAAGGAATTGATCAAGGAGCTGGACGTCCCGATTATCAGGTATCCCGGCGGGAATTTCGTTTCGGGGTATAACTGGGAAGATGGCGTGGGGCCTGTTGCCGAACGGCCAAAACGGCTGGAGCTGGCTTGGAGAACGCTGGAGCCGAACGATGTCGGCACGAATGAGTTTATATCCTGGGCCAAGGAAGTGGGCTCGGATGTCATGATGGCCGTGAATCTGGGGACGCGGGGGATCGATGCCGCCAGAAACTTGCTGGAATACACCAACCATCCGGGAGGCACGTATTGGAGCGATCTACGCCGCCGCCATGGTTATGAACAGCCGCACAAGATCAAGACCTGGTGCCTCGGCAACGAGATGGACGGACCTTGGCAGATCGGACACAAGACGTCCGAAGAGTACGGCCGGCTTGCGCTTGAGACGGCAAAAGCCATGCGGCTCGTCGACCCGACCATCGAGCTGGTTTCCTGCGGAAGCTCGAGCACGGGCATGCCGACATTCCCTGAATGGGAAGCCGTAACGCTGGATCATACGTATGAGGCGGTCGATTACATATCCCTGCATCAATATTACGGCAACCGTAATAACGATACCGCCAATTACCTGGCGCTTACGCTCGATATGGATCACTTTATTCATACGGTGAAATCCACCTGCGATTACATCAAGGCCAAGAAACGCAGCAAAAAGACGATGTATCTGAGCTTCGATGAGTGGAATGTTTGGTATCATTCCAATGACGCCGACAGACAGATTGATCCATGGAGCATCGCTCCCCCTCAGCTGGAGGATGTGTACAACTTCGAGGATGCGATTCTTGTGGGCAGCATGCTGATCACGTTCCTGCGCCATGCGGACCGGGTCAAGATGGCTTGCCTGGCGCAGCTCGTGAACGTGATCGCTCCGATCATGACCGAGAACGGCGGACGATCTTGGAAGCAGACGATCTTTTATCCGTATCTTCATGCTTCCAAATTTGGCCGGGGCGTATCCCTGCTGCCGATCGTCGACTCGCCGAAATACGATTCCAAGGACTTTACCGACGTTCCTTATCTCGACAGCGCGGTCGTTCATAACGAAGAGGATGAAGAAATTACGATTTTTGCCGTGAACCGCCATCTGGAGGAAGCCTTGGCGCTCGAATGCGATGTTCGCAGTTTTGAAGGTTACCGGCTGCTGGAGCATATCGTGCTGGAGCATGAGGATCTGAAAGCGGTGAACACCGCATCCGAGGAAAAAGTAAAGCCTCATCATCAGGGGGGCGCGAAACTCGATAACGGTATGGTTAACGCCAGGCTTGCCAAGGCATCATGGAACGTCATCCGCTTGAAAAAAGCCTAA	MAAENMKARMIVDKSFRIAQVDNRIYGSFIEHLGRAVYGGIYEPGHETADADGFRNDVKELIKELDVPIIRYPGGNFVSGYNWEDGVGPVAERPKRLELAWRTLEPNDVGTNEFISWAKEVGSDVMMAVNLGTRGIDAARNLLEYTNHPGGTYWSDLRRRHGYEQPHKIKTWCLGNEMDGPWQIGHKTSEEYGRLALETAKAMRLVDPTIELVSCGSSSTGMPTFPEWEAVTLDHTYEAVDYISLHQYYGNRNNDTANYLALTLDMDHFIHTVKSTCDYIKAKKRSKKTMYLSFDEWNVWYHSNDADRQIDPWSIAPPQLEDVYNFEDAILVGSMLITFLRHADRVKMACLAQLVNVIAPIMTENGGRSWKQTIFYPYLHASKFGRGVSLLPIVDSPKYDSKDFTDVPYLDSAVVHNEEDEEITIFAVNRHLEEALALECDVRSFEGYRLLEHIVLEHEDLKAVNTASEEKVKPHHQGGAKLDNGMVNARLAKASWNVIRLKKA	PGPT0018655_888	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
AK002_01657	1329	araN	COG1653	putative arabinose-binding protein	ATGATGAAAAGATGGATGGTTGTATTCATGGTGTTATGTATGACGCTCTTCCTGTGGGGATGCGGCAAATCGAACAATGCCGGCGGCGAAACCTCGGTTCTGGACGGAGGGGCGGGAGAAAGCGCTACGGAGCTGTCGTATTGGACGTTTGTTGAGCTGCACGGCCAGCACTTCGAGAAAATGCTCGGCAAATGGAACACGGAGAATCCCGATCGCCAGATCAAGCTGAACGTAACGGTCATGCCTTATGACGACATGCATAACAAATTATCCATCGCGGTTCAATCGGGGACGGGTGCCCCCGACATTGCGGATATCGAGCTTGGGAAGTTTCCGGATTTCCTTGCCGGCACGCCGCAGCTTGAACCGCTCAACGACGTCATTGATCCATACCGGGATACCATCGTGAAATCCCGTATCGACCTTTACAGCAAGGAGGATGTGAATTACGGCATCCCGACTCATGTCGGAGCTTCCGTCGCCTTCTATAATACCGAGATTTTGGAGGAGGCCGGGGTCAATTATCAGGATATCGTGACTTGGGAGGATTTCAAGCAGGCCGGTATTCAGGTATATGAAAAAACCGGCAAATATATGGGGACGGCCGATACAAGCGCGGCTTGGCAAGCTTCCATGCTGCTCGCGCAGCAAGGCGCGGATCTGACGGACGATTCCGGCAATCCGATCGTGAATTCGGAGCCGATGGTGAAGGCCATGACGCTGCTCAAGGATCTGCAGGACAGTAATGTCATCGCGACCATCGCCGGCGGTCAGCCTGACACCGAAGAGGCCTACGGCGAGTTTAATGCAGGAAATTATGCCACGGCTTTCATGCCGTTATGGCAAATGTCCAGATATACCAACTACATGTCCGATTTGTCGGGAAAAATAGCCATCGCGCCGATTCCGGTCATCGAAGAAGGAATGCCCCGGTCGGTTGGCGGCGGCGGAACGGGCACGGTCGTGACCAAGACGGCAAAAGACGTGCAGCTGGCAAAAGATTTTCTGGCCTTCGCCAAGCTGTCCCTGGATGCCAATAAAGAAATTTGGAACACGCTTGGATTCGATCCGGTCAATATGGACGTTTGGGATATGAAGGATGTTACGCACAATGCCGAGAATCAGTTCGTGAAATATTTCGTCAATAACCCGTTCGATGTCCTGAATGAGATCCGGGATGAAATCCGGTTAATCAAATCGACCTCCGCATCGCCCACCATCAACAACGTCCTGTGCACAACCACCTTCAACGAGATTTTTGAGGACGGCAAGGACATTACCGAAGCCCTGAATGACGCCCAGAAGCAAATCGAACAGGAATTGAAATAA	MMKRWMVVFMVLCMTLFLWGCGKSNNAGGETSVLDGGAGESATELSYWTFVELHGQHFEKMLGKWNTENPDRQIKLNVTVMPYDDMHNKLSIAVQSGTGAPDIADIELGKFPDFLAGTPQLEPLNDVIDPYRDTIVKSRIDLYSKEDVNYGIPTHVGASVAFYNTEILEEAGVNYQDIVTWEDFKQAGIQVYEKTGKYMGTADTSAAWQASMLLAQQGADLTDDSGNPIVNSEPMVKAMTLLKDLQDSNVIATIAGGQPDTEEAYGEFNAGNYATAFMPLWQMSRYTNYMSDLSGKIAIAPIPVIEEGMPRSVGGGGTGTVVTKTAKDVQLAKDFLAFAKLSLDANKEIWNTLGFDPVNMDVWDMKDVTHNAENQFVKYFVNNPFDVLNEIRDEIRLIKSTSASPTINNVLCTTTFNEIFEDGKDITEALNDAQKQIEQELK	PGPT0016480_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOOLOIGOSACCHARIDE_TRANSPORT,PGPT0016480-araN-K17234	NA	NA
AK002_01658	894	araP_4	COG1175	L-arabinose transport system permease protein AraP	ATGATTAAAAAATTTCTGTACTCTCAAAAGGTTGCTCCTTACGTGTTTGTCCTGCCGTTTATTCTGGTATTCCTCGTGTTCTGGGTGTTTCCGCTCGGCAGCTCATTCAGCATGAGCTTTCAGAAAACGCAGCTGGGGCAGGAAGCGGATTGGGTCGGCTTGGCTAATTACGGGAAGCTGATGGGGGACGGCGTCTTTTTGAAGGCAGTCACGAACAGCGCGATTTACATGGTGTTGACGCTTCTGATCCTGATTCCGTTTCCCATGCTGTTCGCGGTGCTGATCAACAACAAGTTCATGTGGGGGAGGGAGTTTTTCAAGTCGTCTTTTTTCTTCCCTGCACTGACGTCGGTCGTTGTGGCGGGCACCATCTTCCGGCTCATGTTCGGCGAGATGGAAGGATCCCTGATCAACAGCATCCTGGGGTGGTTCGGGATCGATCCGGTGAAGTTTCTGAAGGGACAGGTCACCGGCTATATCGCGCTGGTGGCTCTCGCCACTTGGCGGTGGACGGGGGTCAATATGCTTTATTTTTTATCGGGACTCAAGAACATTCCGGGTGAATACTATGAGGCGGCATCCATCGACGGGGCCTCGGCCTTTCAGAAGTTTACCAAAATCACGATGCCGTTATTGAAGCCGACCACGATTTATGTGTTAACGATCAGCATTTATGCGGGGCTTGCCATGTTTATCGAAAGCATGATGCTCTGGAACGGCAACAACTCTCCGAAGAATATCGGCCTCACGATTGTCGGTTACCTGTACCGTCAAGGCATCGAGAAGAACAATTTGGGTTATGCCGCCGCTGTAGGGATCGTGCTGCTGGCAATCACCATGATCATTAACCTGACGCAGCTGAAGCTCTCCGGCATGTTCAAGAAGGAGGATTGA	MIKKFLYSQKVAPYVFVLPFILVFLVFWVFPLGSSFSMSFQKTQLGQEADWVGLANYGKLMGDGVFLKAVTNSAIYMVLTLLILIPFPMLFAVLINNKFMWGREFFKSSFFFPALTSVVVAGTIFRLMFGEMEGSLINSILGWFGIDPVKFLKGQVTGYIALVALATWRWTGVNMLYFLSGLKNIPGEYYEAASIDGASAFQKFTKITMPLLKPTTIYVLTISIYAGLAMFIESMMLWNGNNSPKNIGLTIVGYLYRQGIEKNNLGYAAAVGIVLLAITMIINLTQLKLSGMFKKED	PGPT0016485_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOOLOIGOSACCHARIDE_TRANSPORT,PGPT0016485-araP-K17235	NA	NA
AK002_01659	834	araQ_22	COG0395	L-arabinose transport system permease protein AraQ	ATGAGAAGAGAAACGCTGGTCAAAATAATCCTCTTGATCTTGTTCTCCATACTGTGCTTTCTGATCCTGGTGCCTTTTTATGCCGTTACCATCGCTTCCTTCAAACCCGGCGAGGATTTGATTCGGTATGGCCTGAATTTGAAATTTGATCTGTCGGTGATGAGCCTGGACAATTTCGCCTACCTGTTTACGGGCGATCACTCCTACTTCATGTGGTTTATTAACTCCTTGCTCCTCACGGTGGTGCAGGTCACGTTAACCCTGCTGGTCAGCGCAACCGTTGCCTATGGGTTTGCAGCCTATGATTTCATCGGTAAGAACTTCTTGTTTATCTGCGTGCTTTTGATTATGATGGTTCCTTTTGAAATTCTTCTTCTTCCGTTATACTCCCTGACGTACAATCTGGGCCTCATGAATACATACTCGGCGATTGTGCTGCCGGGGATCGCAAGCGCGGCCACGATTTTCTTCTTCAGGCAGTATTTAAGAGGGGTTCCAAAAGAAATGATTGCGGCAGGTCGGGTCGACGGGGCCAGCGAATACGGGATCTATGTACGGTTGATCCTGCCCGTGATGAAGCCGTCCTTTGCAGCCATGGCGATTCTGAACGGCATGAACAGCTGGAACAATTTCCTGTGGCCGTTCATGGTGCTCAGCGATGATCGCAAGTACACGCTTCCGATCGGGTTGAAGACGCTGTTGACTCCTTACGGGAACAACTATGATTTATTGATTGTCGGCTCTTTTTTCTCGATCATTCCGATTTTCATCTTGTTCATGGCTTTTCAGAAATACTTTATTGACGGGATGACGGCGGGAGCGGTGAAAGGATGA	MRRETLVKIILLILFSILCFLILVPFYAVTIASFKPGEDLIRYGLNLKFDLSVMSLDNFAYLFTGDHSYFMWFINSLLLTVVQVTLTLLVSATVAYGFAAYDFIGKNFLFICVLLIMMVPFEILLLPLYSLTYNLGLMNTYSAIVLPGIASAATIFFFRQYLRGVPKEMIAAGRVDGASEYGIYVRLILPVMKPSFAAMAILNGMNSWNNFLWPFMVLSDDRKYTLPIGLKTLLTPYGNNYDLLIVGSFFSIIPIFILFMAFQKYFIDGMTAGAVKG	PGPT0016490_107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_ARABINOOLOIGOSACCHARIDE_TRANSPORT,PGPT0016490-araQ-K17236	NA	NA
AK002_01660	216			hypothetical protein	TTGCATCCTGTAACAAAGGCTCTATTATGGATTGGCGGCGCCCTGATCGTGATCGGGCTGCTGTGGCCTGTCATTGGCCGATTCGTCGGCCGGCTGCCGGGCGACATCGTCGTGGATAAACCCAATGTCAAAATTTATTTTCCGATCGTAACCTGCCTCGTCATCAGCGTGGTGGGCTCGTTGATTCTGTTTCTGATCCAGCAGTTTCGCAAATAG	MHPVTKALLWIGGALIVIGLLWPVIGRFVGRLPGDIVVDKPNVKIYFPIVTCLVISVVGSLILFLIQQFRK				NA	NA	NA	NA	NA
AK002_01661	870			hypothetical protein	ATGGTTCAAGCCCCGGTTCGGACAACGAACGGTGCACAAGAGGCCGCAAGCAAGGCAAGTACACGAAGAAGACTGAGCATGGCTGCCATCGGAGGACTGATCGCAGCGTTCGGTTTGGATTTATTTCTTGTTCCTAGCGGAATCATCGCGGGCGGCGTAACGGGAATCTCTGCGCTCGCTTCGCATCTGACGGGACTTCATACGGGCATGTTTTTGTTTGCATTAAATCTGCCCTTGCTTCTGCTGGCCTATCGCCGGTCGAACCGGGAAAAAGCCGTCATTGCAACCGTCGGGCTGCTGACGTTTTCCGTATGCTCGATCTTGTTCTTTCCGATTCCCGCTCTCATCGACAGCAAGATCGGGAGCGCAGGCATCGGCGGCATTTTCCTCGGTCTCGGCATCGGCATCGGCCTTCGTTACGGCGTCGTCCTGGATACGCTCCAGATGCCGAAGATCCCCCAGCAGCTATCGCAGCTGCTGACCCGGCTGAAACTGCCCTACGTCCATATCATGATCAATCTGTTGGTACTGACTTTGGCGGGGCTCCTCCTCGGCTGGGAACGGGCGATGTATTCGGCCATCGCGTGCCTGATGGCACTGGAGACCGGGCGCGTTACGACTTCAAGCCTTCCGCTTAAACGGGAGGTACGGATTCGAAGCATCAGCGAAGCGGAAATCCGGCACACCATGAAAGCCATCATTGGGTATGATCCCCAATCGGCACAAGACAAGGGTGAAGGCGCGAACCACGGTGAGCCCGCCCATTCGCAGCAGCTGGTCTACCAGGTTCATATTCTGGAAATGCCCAGGTTCAAATCCATCGTGTTTAGCTTGGATCCGAATGCCGAAATCACCATCATCCAAAAATAA	MVQAPVRTTNGAQEAASKASTRRRLSMAAIGGLIAAFGLDLFLVPSGIIAGGVTGISALASHLTGLHTGMFLFALNLPLLLLAYRRSNREKAVIATVGLLTFSVCSILFFPIPALIDSKIGSAGIGGIFLGLGIGIGLRYGVVLDTLQMPKIPQQLSQLLTRLKLPYVHIMINLLVLTLAGLLLGWERAMYSAIACLMALETGRVTTSSLPLKREVRIRSISEAEIRHTMKAIIGYDPQSAQDKGEGANHGEPAHSQQLVYQVHILEMPRFKSIVFSLDPNAEITIIQK				NA	NA	NA	NA	NA
AK002_01662	1245	khtU_2	COG0475	K(+)/H(+) antiporter subunit KhtU	ATGGATCATTTGGTTTTAGAAGTAGGATTGGCGATTGCCTTGATCGCCCTGGCGGGGTTGCTATCAGCTAAACTCCGGTTTTCCGTCGTCCCTTTCTATATTCTGGTGGGGATGGCGGTTGGGCCTCATGCTTTTCATTTTGGATCTTTCGATTTTCGTTTTATAGAAAGTGCTCCGCTCATCGACTTTATGGGGCGGATCGGCGTACTCTTCCTTCTGTTCTATCTCGGACTCGAGTTCTCGGTCGGCCGATTGATCAAATCGGGCAAGTCCATCGTTGTAGGTGGCAGCATCTACATTGCCATTAACTTTACGCTTGGACTGATGATCGGGATCTTTGCCGGATTTCCCTTGGCGGAGACGCTCATTGTCGCAGGCATAACGACCATCTCCTCGAGCGCTATCGTGGCCAAGGTGCTGGTCGACTTGAGAAGAACAGCGAATCCGGAGACCGAGATGATCCTCGGGATCATCATGTTTGAGGACGTATTCCTCGCTGTATATATCTCGATTCTTTCCGGGCTCGTGCTGAGCGGCTCCTCGTCGCTGGGCGGCGTCCTGATATCTGCCGTGATCGCTCTTGGATTTATGCTGCTAGTCATTATTATCGGGCGTAAAGCCGTACCGCTTCTGAATAAAGCATTGAATATACGGTCTAACGAATTGTTTGCCTTGGTCGTATTCGGCGCGTTGTTCCTGCTCGCAGGATTCGCTGAAACGATTCATGTTGCCGAGGCCATCGGCGCGCTGCTCGTCGGGCTTGTTCTGGCCGAGACCGAGCATCGTGAACGCATTGAGCATTTGATATTACCATTCCGCGATTTCTTTGGAGCCATATTCTTCTTTAGCTTCGGTTTAACGATAGTACCGTCCGAGCTTGGCGGAGCTGTGTGGTTATCGCTGATCGCCGTGATCATCACGCTTCTTGGCAACTTCATTGCAGGCATGCTTGCCGGCCGCAGCGCCGGATTGTCTTCGAAAGCATCCTCCAATATCGGTCTGACGATTGTATCCCGCGGGGAGTTTTCCATCATTCTCGCCAATATGGGGAAAGCCGGCGGGCTTGCAACCTTCATTCAACCGTTCGCAGCCCTGTATGTACTGATACTCGCCATACTCGGACCGCTGCTGACCAAGGAGTCCAAGCACGTCTATAACTTCTTGAACAAGATATTTAAATTTAAAGATCATAAGGAGAAGAAACCGGTTAAACCGAAGCTAAAGGATGAAAGTGCCAGCGGATAA	MDHLVLEVGLAIALIALAGLLSAKLRFSVVPFYILVGMAVGPHAFHFGSFDFRFIESAPLIDFMGRIGVLFLLFYLGLEFSVGRLIKSGKSIVVGGSIYIAINFTLGLMIGIFAGFPLAETLIVAGITTISSSAIVAKVLVDLRRTANPETEMILGIIMFEDVFLAVYISILSGLVLSGSSSLGGVLISAVIALGFMLLVIIIGRKAVPLLNKALNIRSNELFALVVFGALFLLAGFAETIHVAEAIGALLVGLVLAETEHRERIEHLILPFRDFFGAIFFFSFGLTIVPSELGGAVWLSLIAVIITLLGNFIAGMLAGRSAGLSSKASSNIGLTIVSRGEFSIILANMGKAGGLATFIQPFAALYVLILAILGPLLTKESKHVYNFLNKIFKFKDHKEKKPVKPKLKDESASG	PGPT0014395_3509	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
AK002_01663	492	khtT_2	COG0490	K(+)/H(+) antiporter subunit KhtT	ATGCATGTTCGCGAAACAGATTTGCCTGGAATCGGTAAGAAATTCGTAATTGATACCCGCGGTGGCGATAAACTGGTCATCATCATTCATGACGACGGCCGCCGTGAAATGTACCATTATGAATATGACGATCCGGACGAAAGCATCTCCATGATTTCCCTGGACGATGACGAGGCCCGTCAAATTGCGGCCATCGTCGGCGGTCTCACGTATAAACCGAAGGCGCTCGAAACGATCGACATGGCGCTGGATGAATTGATCATCGAGTGGTACCGCATCGAGCCCCACTATTACGGGGCAGGTAAATCGATTGGCGATCTGGGCGTACGCCAAGCCTCAGGCGCAACCATCATCGCAAGAGTTGACAAAAACAGCAAACAAATCAATCCCGGACCTGACGTTATCATTACACCGGATTCGACGCTCGTCGTCGTAGGTGAACGTCAACAACAGCGGCTATTTAAACAAATCTTGATGAACGGACGTGGTTGA	MHVRETDLPGIGKKFVIDTRGGDKLVIIIHDDGRREMYHYEYDDPDESISMISLDDDEARQIAAIVGGLTYKPKALETIDMALDELIIEWYRIEPHYYGAGKSIGDLGVRQASGATIIARVDKNSKQINPGPDVIITPDSTLVVVGERQQQRLFKQILMNGRG				NA	NA	NA	NA	NA
AK002_01664	345			hypothetical protein	GTGAACTGTTTCTTAAAAACGGCAAGAATTGCATGGATGCTGGTGCTTGTTCTGGTTACGGCATTTGCCCTATATATTCCCGTCCAGGAGTATTACAGCAACGAAACCCAAGATGAGCGGTATGTTTACAAGCATGACCATCATCTGAAAGCGGCTGTTCTGAAACACTCTCAAATTCTCTCCAAACTTAAGGCAGCCGGCAATACCATAGCGCTGTTCTTATTGATGTCGGCCATTGTGATGCAGCAGGCTCCCAAAACACGTCTGCCCTATCGGCCGATTATTCCGCTTCGACTCCGGCTTTTAGTATTATTCCCCATTAAGTTCACATCGAAGTTCGTCTAG	MNCFLKTARIAWMLVLVLVTAFALYIPVQEYYSNETQDERYVYKHDHHLKAAVLKHSQILSKLKAAGNTIALFLLMSAIVMQQAPKTRLPYRPIIPLRLRLLVLFPIKFTSKFV				NA	NA	NA	NA	NA
AK002_01665	192			hypothetical protein	ATGAGCAAAAAGAAACCTGAATTTGACGGTCAATTCCCCGGCGTGGACCCGATCCCCGAGCCCGACCGGCCGGATCAGGCCGCAACCGATAAACTCGACGATCTTGTCCTCGGCGTTTTGGAAGATAAAGATCAAGCGAAAGCCGATATCGGGCCCGATACGGAAAACTATGATAAGCTACGCAAAAAATAG	MSKKKPEFDGQFPGVDPIPEPDRPDQAATDKLDDLVLGVLEDKDQAKADIGPDTENYDKLRKK				NA	NA	NA	NA	NA
AK002_01666	630			hypothetical protein	ATGAAGAAAAAATGGATAGGCTGCACCCTTGCTTTATTGCTTGTATCCGGCTCTGTCGTATCTGCGCATCCGGGACGAACGGATGCCAACGGAGGGCATACCTGCCGAACCAATTGCGAACGCTGGGGTCTGTCATATGGCGAGTATCATTATCATAACGGCGGTGGGAGCTCTTCCGGAAGCAAGTCGTCTTCATCCGCGCCTAAGTCGAAATCATCGCAAAAGAGCACGGCTAAGCCTGCAGCGCCGAAGCCCGCGGCTCCGGCTTATGCTAAGTCCGGCCTTAAGGTTTACGTCAACGGCAGCGTGGTAAAATTTAATAGCGAGCCATTGGTGTATAACAACATCAATCTGGTGCCGCTGCGGGAAATTGCGGAGGGCATGGGGGCTAAGGTCAACTGGAATCGCGATGCGGCCAGCATCGGCGTGCAGAGAGGCAATCATAAAGTCACGCTCACGATCGGAAGCAAAACCGTTTATTATAATGGCAAATCGGAAACCGTTGCGGTCGCTCCCAAAGTGATTGACGGCGTGACGTATGTTCCCATTCAGGTGTTTGCACGGGGGCTGGGCGCTGGCGTGAACTATACCGAGCATGATAAAATTCTGAGAATATCGTTTAAGGAATAA	MKKKWIGCTLALLLVSGSVVSAHPGRTDANGGHTCRTNCERWGLSYGEYHYHNGGGSSSGSKSSSSAPKSKSSQKSTAKPAAPKPAAPAYAKSGLKVYVNGSVVKFNSEPLVYNNINLVPLREIAEGMGAKVNWNRDAASIGVQRGNHKVTLTIGSKTVYYNGKSETVAVAPKVIDGVTYVPIQVFARGLGAGVNYTEHDKILRISFKE				NA	NA	NA	NA	NA
AK002_01667	432			hypothetical protein	TTGAGTTTTTTTGATAAATTTAAAGCCGGCGTATCGGACGCCGGAAACAAAGCTAAAACGCTGGTGGAGATCAATCGGTTAAAGCTGCAGAACAACGGCAAAAAAAGCGATATCGACGAACAGCTCCTGGAAATCGGCAAGGTTGTATTCGCTTCAACCGAAGCAGGGAAGTGGCCGCCTGATCAGGAGAGCATCCAAAGCTACGTGGCCAAGATTCATCAATTGAATTTCGAAATCGAACAAAATCTGCTCCAGATTGCCAACCTTACGGATGAGAAAATATGCCGAGGGTGCGGGAACAGTTCAGCCGTGAATGCCAAATTTTGCGCCCACTGCGGCCGAACGTTCGAAGTAATTCAAGTTCAAGCGGAAGAGCAGCGCAAAGAGGTTCCGCTGCTGGAGGATGGCGGCGACCAAGAGGAGCCGAAATAG	MSFFDKFKAGVSDAGNKAKTLVEINRLKLQNNGKKSDIDEQLLEIGKVVFASTEAGKWPPDQESIQSYVAKIHQLNFEIEQNLLQIANLTDEKICRGCGNSSAVNAKFCAHCGRTFEVIQVQAEEQRKEVPLLEDGGDQEEPK				NA	NA	NA	NA	NA
AK002_01668	1560	lipO_9	COG1653	Lipoprotein LipO	ATGCCGAAGAACACGGCCTGTAATGATGAATTTAGTCAACATGGTGATCGAGGGGTGTCAAGGCTGCTTAAAGGTAACGTTCTATTGCTTCCCGTATGCGTAATTCTGATGCTCCTTGCTGCCGGGTGCAACGGCCCGGGGTCTTCGGAGGAGGAGAATCCGCCGGAGAATCTACCCAAGGGCGCATCCATCAACATCGTCATTTCCAGTCTGGGGATGACGTTCCCTGCAGGAATGGACGAGAATGACAATCCGTACCTGAATTACATCGAAGAGCGTACGGGGCTCGAGATCGGAGTCAATCTTCCTCCGCCCGAGGTATACAACGAGAAGCTCGACGTCATTATGTCCTCAGGCAATTTGCCGGATATGCTCCATACGTACGAGCCGGTGTGGTTCGACAATTACGTTAAGCAGAAGGCCTTTATGCCGCTGGATGAATTAATCGACGAGTACGGCCCCCACCTGAAAGAAAAAATTCCGCCGGAGGTCTGGGATCGGGTCCGATACGGCGGTAAAATCTATGCGGTTCCGAGCTTGAATGAGGTGACTGGAGCCGAATTGATGTATGTCCGGAAGGACTGGCTCGATCGGCTCGGCTTACAGCCGCCCGAAACGCTGGAGGAATATTACGAAGTCATTCGTGCCTTCACCCTGGATGATCCTGACGGTAATGGCGTCCAGGATACGATCGGTTTAACCTTGACCTCGAGCCTGGGAAGGTCTTCGCCGTTTTTCGGCGCTTTCGGCACGCAGCGGAATACGTGGTTTGAACGGGACGGGCAGCTGGTGAACGGAAGCATTTTGCCGGAAACGAAGGAAGCCCTCGCTTTTTTTGCCAAGCTGTATCAGGAGAACCTGCTCGATCGGGAATTTCCTTTAAACCTGCAAAACAATCTGTTCGAAAAAATAGAAAACGGCACGGTCGGCCTGTTCTCCGCGGCTTGGTACGATACGCGCGCACCGATTGCGGCCAATATGAGCAAGGACCCCGAGGCCGAATGGATGCCGCTTCCGTATCCGACGGGACCGGACGGATTTAAAGGCGTTGAAGGGAAGGACATCATACGAGGTTATAACGTCATACCGGCCGAATCGGAGAAGGCTGCCGAAGTAATCCAGTTTTTAGACTTCGTTGCCAGCGACTACAAGACGCTGAAACTTGGCTTCGAGAACGAAATCTGGCGCTGGGAGAACGGGGCGATCGTAACGGATTTCGGGCTGCACGACAAGCATTTATACCGCGGCATTTACCAGTCCCTTGTCGACGTGCCGGATCAATTGCTGTTCAAGGAACGGCTTGATTCGCTCGGGGACTTCAATCTGTACAACAATCTGCAGCTGATCAATCAGCATATTATTCCGAATGCATTCTACGGAGTTCCTACCCCCGGGATGACGAAATACAACACGAAGCTTAAAAATCTGGAGGATGTGTTCACGAAAATCATCATGGGGCTTGAGCCGCTGGACGCATTCGACGACTATGTGAAGACCTGGAAGGAAGAAGGGGGAGATGAAATCACGAAGGAAGTGAATGAATGGTACTCCAAACAATAA	MPKNTACNDEFSQHGDRGVSRLLKGNVLLLPVCVILMLLAAGCNGPGSSEEENPPENLPKGASINIVISSLGMTFPAGMDENDNPYLNYIEERTGLEIGVNLPPPEVYNEKLDVIMSSGNLPDMLHTYEPVWFDNYVKQKAFMPLDELIDEYGPHLKEKIPPEVWDRVRYGGKIYAVPSLNEVTGAELMYVRKDWLDRLGLQPPETLEEYYEVIRAFTLDDPDGNGVQDTIGLTLTSSLGRSSPFFGAFGTQRNTWFERDGQLVNGSILPETKEALAFFAKLYQENLLDREFPLNLQNNLFEKIENGTVGLFSAAWYDTRAPIAANMSKDPEAEWMPLPYPTGPDGFKGVEGKDIIRGYNVIPAESEKAAEVIQFLDFVASDYKTLKLGFENEIWRWENGAIVTDFGLHDKHLYRGIYQSLVDVPDQLLFKERLDSLGDFNLYNNLQLINQHIIPNAFYGVPTPGMTKYNTKLKNLEDVFTKIIMGLEPLDAFDDYVKTWKEEGGDEITKEVNEWYSKQ	PGPT0017245_2603	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01669	1818			hypothetical protein	ATGCTGGCGGCCAAGAGCGCGGGGGACCGAGTGATCGACTTGTTTCGCTGGATCCGGGATCGGTTTTCGCAGAACATTCAAACCCGCTTGACCGGTTATTTTCTGCTGATCCTGCTGCCGCTGGTCATTATCAGCCTCTTCGCCGTAGAGCGGTCCCGGGATATTCTCTACGAACAGGCGGTGGGGAGGACGGAGATGGCGCTGTCGTCGGCGATGAATCATTTTGATCTGGCGCTGCAAAACGTGGAGGAGATATCGACCCTGATTGCAGGGGATCCAGGAATGAACGAGCTTCTTAACAAAAACAGCACCAACTTCTCCCCTCAATCGATCGTGGATTTCTCGTACATTTTGGAGCAGCTGTCGAATTCCGTATCGGTAAACCGGTTCGTATCCCAAATTACGGTGTATCATCGGGCTTCCAACATGTTCATTTCTACCCATTACGGCGGCAAAAAGCTGACGGGCGAGACGCAGCAGGAATGGCTGGTGGAAGCTGCGCGACGGAACGGAACGGGGATTTCCTACGTCATGTCGGAAGCCCCAGTGGCGGAGGGCATTACGTTTGGCCAGATGACCAATACGGACAGCATTTCCCTGATTCGGGCCATGGACCTGTACAACAGCGAACGGCAGTCGAATCTGCTGGTGGTGTCTTTTAATAAAAGCAAGCTGCTGAATATCATCAAGACGCTGCTCCCGTCCGAGAACAGCCGCATCGCCCTGCTGAACGAAAGGGGAGAAGTGGTGGTGGAGACCGGAAGAGTGTATCAGGAGGATATTACCGACAAGGAGATGACGGTCACGATTGATTCGGATTACTCCACATGGCGTCTTGAGCTGGTTCAGCCGAAAAGCGAGCTGTACAAAGAGACCGATCAGCTGCGCCTGTTCACGGTTGCGATCATCGGGCTGAGCATCCTGCTGGCCATTATCATTTCATGGGTGGTGTACAGCGGGATTGCCTCACCTGTGTTGAAATTGTCGCGCGGGATGAAACGGCTCAGCAGCGGAGAGCTGAACATTCATGTCGACACCAAGCGGAAGGACGAATTCGGTTTTCTCATCCAGTCGTTTAACAAAATGGCTGTCGTGCAGAAACATCTGATCGAGGATCATTACGAGCAGCAGCTGCGATTGACGACAACGGAGCTGAAGTTTCTGCAATCCCAGATCAATCCGCATTTTCTGTATAACACCCTCGATTCGATTTATTGGACGGCCAAAAACTACGATGCGGATGAGATCAGCGAGATGGTGATGAACCTGTCGAAGTTTTTCCGGTTGAGCCTGAACAAGGGCAGACAGGTGTTTACGATTGAGGAGAGCATTACCCACCTGCACTACTATTTACGAATCCAGCAGCTTCGTTTCATGGACAATTTCACTGTGGATTATCAAATTTCGGAAGAGAGCAAGGGGGTTCCGATTCTCAAGCTCCTGCTTCAGCCTTTGGTGGAAAATGCCATCATTCACGGCATGGAGGGCAAATCCTCCGGAGGGAGCCTGGTCATCTCCAGCCGGATTGAAAAAGGGAACATGGTGATTATCAGCGTACAGGATAACGGGCCCGGGATCAGCGAAGAGCGGCTGCGCTACATCCAGCATGAGCTGGAGATGATGGGCTCGCGCAGCGTACCCGCGTCTTCCCAGGATGAAGAGCATGTGAAGGATCTGTTCGGTCTTCGGAACGTGCTTGGCCGAATGAAGCTGTATTATGGCAGAGAAGCGGATCTGACGGTACACAGCGTGGCAGGGGAAGGCACCACCGTCACGATTTCCATCCCGCTGGAGCGCTGCAAGGAATTTAACCTGTAA	MLAAKSAGDRVIDLFRWIRDRFSQNIQTRLTGYFLLILLPLVIISLFAVERSRDILYEQAVGRTEMALSSAMNHFDLALQNVEEISTLIAGDPGMNELLNKNSTNFSPQSIVDFSYILEQLSNSVSVNRFVSQITVYHRASNMFISTHYGGKKLTGETQQEWLVEAARRNGTGISYVMSEAPVAEGITFGQMTNTDSISLIRAMDLYNSERQSNLLVVSFNKSKLLNIIKTLLPSENSRIALLNERGEVVVETGRVYQEDITDKEMTVTIDSDYSTWRLELVQPKSELYKETDQLRLFTVAIIGLSILLAIIISWVVYSGIASPVLKLSRGMKRLSSGELNIHVDTKRKDEFGFLIQSFNKMAVVQKHLIEDHYEQQLRLTTTELKFLQSQINPHFLYNTLDSIYWTAKNYDADEISEMVMNLSKFFRLSLNKGRQVFTIEESITHLHYYLRIQQLRFMDNFTVDYQISEESKGVPILKLLLQPLVENAIIHGMEGKSSGGSLVISSRIEKGNMVIISVQDNGPGISEERLRYIQHELEMMGSRSVPASSQDEEHVKDLFGLRNVLGRMKLYYGREADLTVHSVAGEGTTVTISIPLERCKEFNL				NA	NA	NA	NA	NA
AK002_01670	1611	cheB_5		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAATCTCATGATCGTGGAAGATGAACCCCGGCTGCGCAACGCACTGGCTTACAATATCCCGTGGGACAAGCATGGGATTGAAGTCGTGGGCATGGCGTCCAACGGCATCGAAGCCCTTGAGCTGGTAGGCCGAAAAAAACCCGATATTATGCTGATCGATGTACAGATGCCTGAAATGGACGGGCTGACGCTCCTCGGCGAGCTGCGAAGCCGGCAGGACATCAGCCGATTGACAAAAATGATCATCCTGAGCGGACATGACAACTTCGAATTTGCGCAGCTGGCGCTGGAATATGGGGTGTCCAAATATTTATTGAAGCCCGCCGGCGAGGAAGACATTCTCGAAGCGGTGCTTGAAGCGAGGCAGCAGCTGCGGGAGGACTTGGAGCAGTGGCAGCGTAAAGCGGCCTTGGAGCAGAAATGGAAGGACAATTTGCCGCATTTGCAAAATCTCTTTTTTATCCAATGGGTCAGCGGCAAATATACAAAACAGGACGTCCTTAACAAGGGCAGGGAATTATATGTTTCATTGAAGGAAAATGACCGTTTCGCCGTCGCCGTGGTGGATCTGGACCCCCTGCCGGAGAGCGAGACCCGCTTTCAGCGGGGGGATGTCGAGCTGCTGCAGTTTACGATGCAGTGCCTGGCCAAGGAGCTGCTGTCCCATCCATCGCTCTGGATCACGTCGGATTCAGGCAATATGCTCCTGATGGTCTTGATCCTGGAGGAAAGCCAGGATGCCAAAGAAGCCATGCTGCGGCTGAATGCGGACGTATCCAAGCTCCTCTCCCAAACGAGGGAGGTGCTGAAGATAACGGCCAGCGCCGGCATCTGTGCATCCATCGGGACGATCGAGGAGATGAGCCTCTTGTATGCGCAGGCTTGCCGGGCGCTTCAGGAGCGCGTCGTGTATGGACACGATCTCGCGATTCCTTACCGGGAGCAGCTCCAGCGGGATATTCAGGGCGTGATCGTTCAGCAGAACCTGGAGAAGACGCTGGAGATCGCACTGGAAACGGCGGATGAAACGAAGGCGCTGGAGGCGCTGAAGGGATTATGGGAGGAAGCCTTCTCGAGGTCCGAATCCTCGGACGAATTCCAGGAGGCGGTGCTTTACATGAACAGCTTCTTTACCCGAATGATCCAGAAGCAGGGCTGGACGGTAAAAAGAGTCGTCGGCGACGATATCGAATATTTCCACAACGTCAAGCTGCTGAGCACCAAAATGCAAACCTGGTCGCTCCTGGAGCGAACGGTGAAACATATCATCACGTTTATGGGCGAACAGCGGAAAACGACAAGCAATCAGGTGGTAAAGGACATTCTGAACCTGCTCGAGGAGGAGATGGACCAGGAAATTACGCTGCACACGGTAGCGGACCGGCTTTACGTGAATTCTTCCTACCTCAGCCGGCTGTTCAAGCAGGAAATGGGGGTCGTCTTCTCCGCTTACGTGCTGGAACGCAAAATGGAGCGGGCCAAGTCGCTGCTGCAGGACGGACTCAAGGTGTACGACGCCGCCCGGCTGGTCGGATACCGCGATGTCAGTTACTTCACCAAGGTGTTTCGGAAGTATTGGGGCGTGAATCCGGGGGAGTTCAAGGGATAA	MNLMIVEDEPRLRNALAYNIPWDKHGIEVVGMASNGIEALELVGRKKPDIMLIDVQMPEMDGLTLLGELRSRQDISRLTKMIILSGHDNFEFAQLALEYGVSKYLLKPAGEEDILEAVLEARQQLREDLEQWQRKAALEQKWKDNLPHLQNLFFIQWVSGKYTKQDVLNKGRELYVSLKENDRFAVAVVDLDPLPESETRFQRGDVELLQFTMQCLAKELLSHPSLWITSDSGNMLLMVLILEESQDAKEAMLRLNADVSKLLSQTREVLKITASAGICASIGTIEEMSLLYAQACRALQERVVYGHDLAIPYREQLQRDIQGVIVQQNLEKTLEIALETADETKALEALKGLWEEAFSRSESSDEFQEAVLYMNSFFTRMIQKQGWTVKRVVGDDIEYFHNVKLLSTKMQTWSLLERTVKHIITFMGEQRKTTSNQVVKDILNLLEEEMDQEITLHTVADRLYVNSSYLSRLFKQEMGVVFSAYVLERKMERAKSLLQDGLKVYDAARLVGYRDVSYFTKVFRKYWGVNPGEFKG				NA	NA	NA	NA	NA
AK002_01671	969	yteP_16	COG4209	putative multiple-sugar transport system permease YteP	ATGAAACCCACGTTAGAACCATCGCCCGCACCGCATAGAGAGATGAAGCCAAAACGAGGGTATTGGGGGCGTTTAGGGTCCGATATATGGAAAGAGTGGGATCTTTATCTGCTGCTCGTGCCGGGCATTTTGTTCATTTTACTGTTCAAGTACACGCCGATGTACGGGATCACGATCGCATTTAAGGATTTCAACATCTTCACCGGATTTGCCGACAGCCCGTGGGTAGGATGGAAGCATTTCGAGAAGCTGTTCACGTCGCCGGATTTTGCTCAGGTATTCAAAAATACGGTCATCATCAGCTTCCTGAAAATCGTGATCTTGTTTCCGCTCCCTATCATTATCGCACTGATGCTCAATGAGCTGAGGCATATGGTATTTAAACGCACGGTGCAAACCGTCATCTATCTTCCGCATTTCTTGTCCTGGGTCATCGTTGGCGGATTGTTTATCGATTTGCTCTCGACGAATGGAGGAATCGTCAACAAATTGCTGGTGTCTCTCGGCATGGAGCAGATTGCGTTCTTCCTGGATAACAGCGTGTTCCGGAGCGTGCTGATCACGTCGGCGGGCTGGAAGGAAACGGGCTGGAGCACCATCGTATATTTGGCAGCGTTTACAATGATCGATCCAATGCTGTATGAAGCGGCGAAGATTGACGGTGCCGGACGCTGGAAGCAGCTGTGGCACATCACGCTGCCGGGGATTGCTCCAATCATTGTCCTGATGTTTATCCTGCGGCTGGGGAATGTACTGGAAGCGGGAACCGAGCAGATTCTGGTCATGTACAACCCGGTGGTGTACCAGGTGTCGGATGTCATTGGTACCTATGTTTACCGGCAAGGCTTAGGGAACCAGGACTATAGCTTCTCGACCGCGGTCGGCTTGTTCGAAGCGGTGATATCGTTCACGTTGGTCATTCTCGGCAATGCCATGAGCAGAAAATACTTACAGCGCGGGATCTGGTAA	MKPTLEPSPAPHREMKPKRGYWGRLGSDIWKEWDLYLLLVPGILFILLFKYTPMYGITIAFKDFNIFTGFADSPWVGWKHFEKLFTSPDFAQVFKNTVIISFLKIVILFPLPIIIALMLNELRHMVFKRTVQTVIYLPHFLSWVIVGGLFIDLLSTNGGIVNKLLVSLGMEQIAFFLDNSVFRSVLITSAGWKETGWSTIVYLAAFTMIDPMLYEAAKIDGAGRWKQLWHITLPGIAPIIVLMFILRLGNVLEAGTEQILVMYNPVVYQVSDVIGTYVYRQGLGNQDYSFSTAVGLFEAVISFTLVILGNAMSRKYLQRGIW	PGPT0017250_823	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01672	918	dasC_4	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGGATCACAAAAAAGCTTTGGAAGGAACAAACACCACCCGAGGTGTCATCAAAACGTCGTTCTCGGAAAAATGCTTCTCGGTATTCAATTATACGTTCTTCATCGTGATGGGTTTAACGACCCTGCTGCCTTTCATGAACCTGATCGCGAAATCCCTGAGCAGCGAGGGAGCCGTCATATCGGGTCAGGTTGGGCTGCTCCCGGTCGGGGTTCAATTCGAAACGTACAAGTACGTGCTGCAGGATTCCATGTTCTTGAATTCGCTCAAGGTGTCCATCTTTCTGACGATCGTCGGAACGGCTTGCAGTTTGTTTTTGACCACGCTGACGGCTTATCCGTTGTCCAAATACCGGCTGCGCGGACGGAAAGGCCTTCTGTTGATCTTCGTATTCACGATGCTCTTCAGCGGCGGACTGATTCCGACTTACCTGCTCATGCAGAATTTGAATCTGGTGAACTCCTTCCCGGTGTTGTTCCTGCCGGCGATGGTGAACGTGTACAACATGCTGATCATCAAAAACTATTTCGAAGGTCTTCCGGATGAGCTGGAGGAATCCGCCAAGCTGGACGGCGCGGGGAACATCCGCATTTTGGTTTCGGTCATCGTGCCGCTCTCGCTCCCCGTCATGGCAACGATCGGATTGTTCTTCGCGGTTGCTTTCTGGAACGACTATTTTGCAGCGATGATCTACATTACCGATCCGGCGATCAAACCGATGCAGCTGTACCTGAAGGAACTGCTGGTTTCGTCCAGCGGGGATTTCCTGAAGGACAATGTCGACGCCGCGATCAACGCAACGCCGCAGTCCATACAAGCTTCCTCGATCCTGCTGGCAACGATCCCGATTTTGCTGGTGTATCCGTTCCTGCAAAAGTATTTTGTCAAAGGCGTGCTGGTGGGTTCGGTTAAAGGTTAG	MDHKKALEGTNTTRGVIKTSFSEKCFSVFNYTFFIVMGLTTLLPFMNLIAKSLSSEGAVISGQVGLLPVGVQFETYKYVLQDSMFLNSLKVSIFLTIVGTACSLFLTTLTAYPLSKYRLRGRKGLLLIFVFTMLFSGGLIPTYLLMQNLNLVNSFPVLFLPAMVNVYNMLIIKNYFEGLPDELEESAKLDGAGNIRILVSVIVPLSLPVMATIGLFFAVAFWNDYFAAMIYITDPAIKPMQLYLKELLVSSSGDFLKDNVDAAINATPQSIQASSILLATIPILLVYPFLQKYFVKGVLVGSVKG	PGPT0017255_608	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01673	1533	lipO_10	COG1653	Lipoprotein LipO	ATGATCAAGATTAAAAAATCCGCGGTACTGGCCGGGATTCTCGGATTCACGCTGGCGCTGTCCGGATGCGGCGGCGGGGGAGGCGGCACGACGAACACGCCGGCGGCTCAGCCATCGGACACACCGGCAAGCACCCCGAAAGACGAGGGAAACAAAGACACAACGGCTGAAAAACCGGGTCTGCGCATGATCATGCAATATGGATTGTTTGATCCGAAGACCGAATACGTGGCCAAGTACATCCAGGAAAGAACCGGATTCAACGTGGAATACGAGCTGCTGCCGGCCGAGAACGCGGACGAGAAGCTGAACCTGCTCGTGTCTAGCAAAGATAACTATGATCTGGTGAAATTGAATGCGGCCCAGTTCTACAATCTGGCCTCTGCGGGAGCGCTCGAGCCGATCGATGAGCTGTTGGAAGCCCACGGCAACTACATTAAACAGTCCATTAAACAAGAATCCTTCGGCAGTGCAACAATCGACGGCAAGATCTACGGCATTCCTGAAACCGGCGCGGGCGTAAGCATCGGGGAAGAGCTTGTGGTCAGACAGGATTGGATGGATGAATTGGGGCTGGCTACGCCTACGACCGCCGATGAGCTGTACAACGTGCTCAAAACGATCAAAGAGAAGAAAAAAGTCATTCCGCTCACCATGAGCAAGGACTCCCTGTATGGCGATATCGCAACGACATTCGGCATTTTGACCGATTGGAAAGAGGTCGACGGCAAGCTGGTGCATCGCGCCGAGCAGCCGGAAATGAAAGAATACATCACCTTTATGAACAAACTGTACAAAGAGGGTCTGCTGGACACCGAAACGCCGATCAATACCGCGCAAAAGTCCATCGAGAAATTCTCGGGCGGCAATGCGGCGATGTATAAGCTGGCATGGTGGAACGCAGGCACGACGATTGCCGCACTGGAGAAAAACTTCCCGGAAGCCAAAACGTCCATCATTCCTTATCTGAAAGGCAAGGACGGCAAAGCCGTGGTCGGAGCGAAAGCGAATACCACTTGGTATGTAGCCATCCTGAAATCCTCGAAGAACAAGGAAGCCGCCATGGAATTCCTGAACGCGAAGATGGAGCCGGAGACCTTCAAAGGCATCGCGCTGGGTAAAGAAGGCGTCCACTATGAAGTGAAAGACGAAAAATACTATCCGATTCTGCCGATTTTCAATGATGAATTGAGTAATGCAAGCAGCTTCCTGACAGGGGTAGACGAAGAGAAATACCCGATCTACTGGCAGGCACGCGTACGTAAAGATCCGATTCTGCAAGCGCATTTCGAAGCCTTCCAGAAGAATGCCGAAGGCATCATCGTTGTGGATCCGATGTCAACGGCACCGCCGATTGAAGCCGTATCCAAAAACCTGCTGAAGTTGACGACCATGCTCGATGACAATGTGCTGCAATTCATTTCCGGAGCGAAGCCGATTGATGCTTACGATCAATTCCTGGCTCAATGGAGAGCCGAAGGTGGAGCCGATATGGTGGCCGCGGCAAATGAATGGTTTCAATCCACGAAGTAA	MIKIKKSAVLAGILGFTLALSGCGGGGGGTTNTPAAQPSDTPASTPKDEGNKDTTAEKPGLRMIMQYGLFDPKTEYVAKYIQERTGFNVEYELLPAENADEKLNLLVSSKDNYDLVKLNAAQFYNLASAGALEPIDELLEAHGNYIKQSIKQESFGSATIDGKIYGIPETGAGVSIGEELVVRQDWMDELGLATPTTADELYNVLKTIKEKKKVIPLTMSKDSLYGDIATTFGILTDWKEVDGKLVHRAEQPEMKEYITFMNKLYKEGLLDTETPINTAQKSIEKFSGGNAAMYKLAWWNAGTTIAALEKNFPEAKTSIIPYLKGKDGKAVVGAKANTTWYVAILKSSKNKEAAMEFLNAKMEPETFKGIALGKEGVHYEVKDEKYYPILPIFNDELSNASSFLTGVDEEKYPIYWQARVRKDPILQAHFEAFQKNAEGIIVVDPMSTAPPIEAVSKNLLKLTTMLDDNVLQFISGAKPIDAYDQFLAQWRAEGGADMVAAANEWFQSTK	PGPT0017245_2878	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01674	4650			hypothetical protein	ATGTATCGTTTATTTCGCAGGCGAATCGCGCTGCTCCTCAGTTTGTCGCTGATCGTATCGCTCATCGTGCCGATTGGTTCTTCCGCGTTCGCGGATAACGAAATTCCCCCGGCTCAAAGCGCGGTTCCCGAGCCGGTTACGCTGGTCTCCCAAGGCGGAAACAGTCTGGAATTCACGGATATCAACGTTGCAGGCGACGCGCTGAAGAGCCAAAATGACTACTTGGCGCTGTACACGAGCGGTGCTTCGGTTACGGGCTCCGTGTACACCGATGAGGTATGGGTTCCCACGCTACATGTCGCGGTCTCGGTGGATGCCGGCGGTCAAGTGCTGGACATTCTCGGACCGGACGCCGATCCTCCGGCTGCCTGGGATCCGGGCACGCTGCTGCCGATTCCGGCCGGCGGTTATGTTGTCGTGGCAGGCGGGACGCTTCCGTGGGAGCAATCCGCTTATCAAAAGCCTCTCTTTAATCAAAACCAAACAGGAGATTCGGTGAAGCTGATGCGCGCGGGCGTCGAAGTGAAAGCAGCCGATTTCCTGCCGGATCAGCCGGGGCCTGGGCCGGATCCGCTGCCGCCGGAGCTGCATCTGCTTACGCCAAACGATGCGACAGTGGATATCCCGGTCATTGAGATTGCGGGTTTTGTGGCGAACTATGCCGCGGACCTGGATTTAAGCGTAACCGTCAATGGCGATGAAACGGCGCTTACGGCGGATGGCGTGTTCCGCACGAATGTGTATTTGGAGCCGGGTCCGAACGCGGCTCAGGTAAAGCTGTTTAAGGGAGACGGCGAATTGGCCGTTCAAACGCTGAACATCGTGTACGAACCGATCGAGAACCAGGATTATATTGAAGTCGAGGCGGCGCCGAAGGATATTACAATCGACATCGAAGGTCCGCGCAAGAAGCTGGATTACGTCGATAAGGATGTCACGGGCGTGCCGAACATCGTGGCGGTATTTACGAGGGATTACGGCAGCTCCATCACGATTCCCCAGACCAATGTGGCCGTGCAGGTGGATGCCAACAACCGCGTATTGCGAGTGGTCAATCCTTCGATCAACGGCAAGCCTCCGGTGTGGACCGGACCGACCGATCTTGAAATACCCGAAGGCGGTTATGTGCTGATGGCACAGGACAACAGCTATGCAGGCAACAACATCAAGCGGTATTTGGCCGAGAACTTTAAGGTCGGCGACATGATCAAGCTGCGCAAGAACGGGGAAGTGGTTCAGGTACGCGACATCATGAGCGGCAACGGCCTCATTGCACGGCTCACGCTGGATAACCAGACGATGTACACCGTAACGGAAGGCAGCACCGCCGTCACGGGGCGCATTGACAACATAGACGATGTTGCGGCGATCAAGCTGCTGGTGAACGGGAACGAGATTCCGTTTGAAGCGGATGGCACCTTCACTCATAATTATACGTTAACGAACGGCACCAACTATATCGAAGTGAAAGTGATGAAGAATGACATCGAGCAGGATGTGCGTCATTTGGCCGTGTTTGCCAGACCTGGTTTTTCTCCGGAAAAAGAAGTCATTCTCTGGGTGGACCAGGCATCCAATGCGAGAAAGTTCAAAACCAGCGAGGATGTTTTGGCATTTCTGCAAAAAGCCAAGGAAACGGGCGTGACGTCGGTCGCGTTTGACGTGAAGGGCGTTGAAGGCTATGTTTCGTACAAAAAGAACGATTTGACGGGCAGACCTTACGTCAGCGAGATCAAGGCACCCGAAAAGGCGGGGGCAAGTCCGGATCTGGACCTGCTGCAGGAGTTCATTGACCATGGCCATGCCCTGGGATTAGAGATCCATGCGGCGATCAACGTGTTTGCCGAAGGATCGATCGCCCATAACGAGTATGCGGTGCTGAACGACCACCTCGACTGGGAAGAACGCGTGTATTTCCCTGAAAACAACGGCGAGATCAAGCGTCTGCGCGAAAGCAAAAAGCAGGGCCTGGTAGCTTTCGTCAACCCGTCCAATGACGAGGTCCGCGATTACCAGCTTAGAACGTTCGAGGAAATCATCAAGAATTACGACGTGGACGGGGTTGTACATGACCGCAGCCGGTATGACAACGAAGGGGCCGATTTCAGCGACGAAACCCGCGTGAAATTCGAGCAGTTTTTGCAGGCCCGGGGCAAGCAGCTTGTCAATTGGCCAAACGATATCTTCTCCTATGAAAACAATGTAAGGGTATACGGCCCGCTGATTCAGGACTGGTGGGAATTCCGCTCGGGCACGATTCAGAGCTTCTTCGGCGAAGTGAAGGCGCTGGTGGATTCCTATGAAGTCTCAGAAGGCAGAAAGATCGAGGTATCCTCTTATGTAGGATCCTGGTATGAGACGTATTATCTAAACGGCGTCAACTGGGGCAGCAAGAACTTCCGGTTCAATCCCGCACTCGGCATGCCGGACGAGTCGGTGTATACGGAGGAATATTACCAAACCGGATACATCGAGTATTTGGATTTTCTGATGATCGGGGCTTATCAAACGACCAGTCAGGAAATCCAGAAATACATTACGCTTGGGAATATCGTAACGAACGGGGAAATTCCGCTGTATGCAGGCATTGCCATGAACAACGTGCAGGCGCCGGCCGTCCAGCGCGAAGTATTCCAGGCGGGGCTGAAGTCCACGAACGGCCTGATGCTGTTTGATGCATCCCAGGTCAACTGGCCGATCGCGGCTGCCGCTCTCCAAGATAAGGAGTGGGTGAAGGACTACCAGCTCGGCATGAGCTTGCCGGGAAGCCCGGATTCGTTCCTTGAAGGCAATTTCTATAACATCAACCGGATCGAGGGCAACGTTAACGTGATGACGGAAGCCTTCGGATACTCCACGGGCACGAACCGCTTCGGGGTTGAAGTGGTGGTGGATAACACGGGTCACGTGACGCGCGTAGTCAACCGGAACCAAGCGATCAACTGGAGCTGGGGAGCCCCGGAAGAGAATAACAGCGTCATACCTGCGGGAGGTTTTGTCATAACCGCTCTGGATCCGTCAGGCACAAGAACGCTCCGCCAGCTCGTGGCCAATGCTTACAATACGGGCGAGCAGGTTCGTTCGGCCGTATTAAGCGGGCTGATGGACGATGAAGGCAAGGAAACGCGCGCCAGCCAGCTTGCGTTAACAGGGCTGGTCGAAGTTCTCGGACCCGGCCAAGCGGCCGTGAAGGTGAACGGTGCCGATGCGACCCTGTCGGCTAAAGGTGAATTTACAGCGAACGTGCCGCTGCAAACGGGCGCCAATTCGATCACCGTGGACGTATTCGTTGACAACTTCAAAACAAACAGCAAGACGTTTGAGGTCATCCGGACTTCTACGGGAGACGGCGGATCCGATCCGGGAACTCCGGGCGGAGGATCCGGTTCACCGGGTGGAGGAACGACGCCGCCACCTCCAAAACCGACCGAACCCGAGCGCTTGAACATCAAGAAAGAGACGGCACCGGACGGCAGGACGGTCATCGTAGCGGATGCAAACGAGAAGTCTTTGCTCGATGATGTGGCACGGCTTAGCAAGCTGCCGGCGGCTTCACGCTTGCTTACGTATAAGGTAACTGACGCTTCGGATTCCGTCGTTCTTCACTTGCCGGTTCAAGGGCTGAGCGCTGCCGTGAAAGACCTGCCGGGGGGCTCCATCGTGTTGGAATCCTCCCAAGGCCGATTGGAAATTCCGCTCCAGTCGCTGACGGAAGCCATGCAGCAGCGAGGGACGGCGGAAAGCTTGCAGATCCGCGTCGGGTTTGCTTCGAAAGAAGAAGAGGACCGGATGAAGGCAGCACTGGAGGATGGAGCCTCCATGCTGGATGCACCGCTTGCCATAACCTTGGCGTGGAAGCAAGGTGACAAGTTGTCGACACTTCCGGCACTGAAAGGACCTTACGCTAAGTTTACGAAGGTTCTATCCCGTGTCGCCAGTCCATCCCAAATGACGGTGCTGCGGATGGATCCGGCATCCGGCCAGCTGGTCTTCGTACCGGCGCTCATTCGCACATCGAACGGTACCTCCCAAGCGGAGTTCAAATGGAGGGAGAGCGGGGTTTATTCCGTTGTCTCCCATGCGAAGACATTTGAGGATTTAAGCAGTCATTGGGCCCGCGAGGACGTATCGCTGCTGGCCTCGAAAAAATTGATTGAAGGACTGAGCGATACGCGTTTTGGTCCGAACGAGCCGATCACGAGAGCGCAGTTCACGGCGATGCTCGTCCGTGCGCTCGGGTTGAAGGATCAGGGAGCCGACACGGGCTTCCAGGACGTGAAGGCATACGATTGGTTTGCGTCCGCTGTCGCTACGGCTGTGGAGAATGGGCTGATCGAAGGCTTCAGCAATGGCACATTCCGTCCGGACGAGGAGATTACCCGTGAGCAGATGAGTGTCTTGCTGCTTCGGGCGCTGATGCTTGCCGGCAAGGATCTGGAGACAGGAGACTCCGGCTCCATATTGGAAGGGTTCAAGGATCGTGACCGCATCGGATCCTGGTCCGAAGAGGCCGTGTCGGCCATCGTCCATTCAGGTCTGATGGAGGGACGTTCTTCTGACAAGTTCGTTCCCAAGGCACATTCCACCCGTGCTGAAGGAGCGGTCGTATTAACCAGAATGCTGCAAATGGCAGAATTTATTAACCGTTAA	MYRLFRRRIALLLSLSLIVSLIVPIGSSAFADNEIPPAQSAVPEPVTLVSQGGNSLEFTDINVAGDALKSQNDYLALYTSGASVTGSVYTDEVWVPTLHVAVSVDAGGQVLDILGPDADPPAAWDPGTLLPIPAGGYVVVAGGTLPWEQSAYQKPLFNQNQTGDSVKLMRAGVEVKAADFLPDQPGPGPDPLPPELHLLTPNDATVDIPVIEIAGFVANYAADLDLSVTVNGDETALTADGVFRTNVYLEPGPNAAQVKLFKGDGELAVQTLNIVYEPIENQDYIEVEAAPKDITIDIEGPRKKLDYVDKDVTGVPNIVAVFTRDYGSSITIPQTNVAVQVDANNRVLRVVNPSINGKPPVWTGPTDLEIPEGGYVLMAQDNSYAGNNIKRYLAENFKVGDMIKLRKNGEVVQVRDIMSGNGLIARLTLDNQTMYTVTEGSTAVTGRIDNIDDVAAIKLLVNGNEIPFEADGTFTHNYTLTNGTNYIEVKVMKNDIEQDVRHLAVFARPGFSPEKEVILWVDQASNARKFKTSEDVLAFLQKAKETGVTSVAFDVKGVEGYVSYKKNDLTGRPYVSEIKAPEKAGASPDLDLLQEFIDHGHALGLEIHAAINVFAEGSIAHNEYAVLNDHLDWEERVYFPENNGEIKRLRESKKQGLVAFVNPSNDEVRDYQLRTFEEIIKNYDVDGVVHDRSRYDNEGADFSDETRVKFEQFLQARGKQLVNWPNDIFSYENNVRVYGPLIQDWWEFRSGTIQSFFGEVKALVDSYEVSEGRKIEVSSYVGSWYETYYLNGVNWGSKNFRFNPALGMPDESVYTEEYYQTGYIEYLDFLMIGAYQTTSQEIQKYITLGNIVTNGEIPLYAGIAMNNVQAPAVQREVFQAGLKSTNGLMLFDASQVNWPIAAAALQDKEWVKDYQLGMSLPGSPDSFLEGNFYNINRIEGNVNVMTEAFGYSTGTNRFGVEVVVDNTGHVTRVVNRNQAINWSWGAPEENNSVIPAGGFVITALDPSGTRTLRQLVANAYNTGEQVRSAVLSGLMDDEGKETRASQLALTGLVEVLGPGQAAVKVNGADATLSAKGEFTANVPLQTGANSITVDVFVDNFKTNSKTFEVIRTSTGDGGSDPGTPGGGSGSPGGGTTPPPPKPTEPERLNIKKETAPDGRTVIVADANEKSLLDDVARLSKLPAASRLLTYKVTDASDSVVLHLPVQGLSAAVKDLPGGSIVLESSQGRLEIPLQSLTEAMQQRGTAESLQIRVGFASKEEEDRMKAALEDGASMLDAPLAITLAWKQGDKLSTLPALKGPYAKFTKVLSRVASPSQMTVLRMDPASGQLVFVPALIRTSNGTSQAEFKWRESGVYSVVSHAKTFEDLSSHWAREDVSLLASKKLIEGLSDTRFGPNEPITRAQFTAMLVRALGLKDQGADTGFQDVKAYDWFASAVATAVENGLIEGFSNGTFRPDEEITREQMSVLLLRALMLAGKDLETGDSGSILEGFKDRDRIGSWSEEAVSAIVHSGLMEGRSSDKFVPKAHSTRAEGAVVLTRMLQMAEFINR				NA	NA	NA	NA	NA
AK002_01675	183			hypothetical protein	ATGGATAAATTAACGATCATATTGGTTAAGTTTCTGACCGTTGTTATTTTCATCCTTCTATTTATCGGGGTTTTCTTGCTCGGGAGATTCGTCGGTAACGCAACTCCTTGGTATGTAACAACCTCCTTACTGATACTGTTGATTGTTAGATGGGTTTACTTAAGAATAAAAAATAATCACTAA	MDKLTIILVKFLTVVIFILLFIGVFLLGRFVGNATPWYVTTSLLILLIVRWVYLRIKNNH				NA	NA	NA	NA	NA
AK002_01676	108			hypothetical protein	ATGAGCTACGACAAATGCTGCTACGGCGGCGGATACGGATCTTCGGTAGGCATTGTTCTGGTATTGTTTATCCTGTTGGTGATTGTATTAAGCACCTTTTGGATTTAA	MSYDKCCYGGGYGSSVGIVLVLFILLVIVLSTFWI				NA	NA	NA	NA	NA
AK002_01677	762	ant1		Streptomycin 3''-adenylyltransferase	TTGGACACGCAATCGGTTTTGGATCAAGCGGTGGACTTGTTTACGGAGGAGCTTGGCAGCCATTTGGTCGGCGTTTACTTGCATGGCTCCTTGGCTATGGGCTGTTTCAACCCGGAAGCAAGCGACGTGGATCTGCTGGTCGTGGCAGCAAGGCAGCCGTCCCGGGAACAATTGAGGCGGCTTGCCAACAAACTCATAGCCCTCCACGATGGAATGGCCAATCAGCAGGGATTGGAACTGAGCCTGGTCCTGGAGTCCAGTCTCCGGGAGCTCGTTTATCCGCCACCATTCGAATTCCACTACTCCGCCTTCCATCGCGAGAGGTATCTGGCCGATGACGATTACCTATGCGGCGGATTCCAAGACGCGGACCTGGCCGCCCATTATACCGTGATCTATCATCGAGGCATTGCACTGTACGGCAAACCCGTTCGCGAGGTCTTCCCGCCCGTGGACCGTTCCTATTACGTCCAAGCCGTCCTCGAGGATGTAGAGAGTGCGGTACAGGATATTACCGCCTCTCCTGTGTATTACACGCTGAACCTTTGCCGGGTGCTGTACTATCTGAGGGAAGGCGTGGTGTCCTCCAAAAAAGAAGGAGGCGAATGGGGGCTTCGCGCACTTCCCTCGCAGTATCACCCGATGATCGAGCATGCCCTGCATCAATATAGCGGCGGAGCCGGGAAACCCGCGGAATCCGCGCCGGATGGACTCGTCGCGTTTGCCGGCGACATGCTGGAGCGAATCCGAAAGGCATTATGA	MDTQSVLDQAVDLFTEELGSHLVGVYLHGSLAMGCFNPEASDVDLLVVAARQPSREQLRRLANKLIALHDGMANQQGLELSLVLESSLRELVYPPPFEFHYSAFHRERYLADDDYLCGGFQDADLAAHYTVIYHRGIALYGKPVREVFPPVDRSYYVQAVLEDVESAVQDITASPVYYTLNLCRVLYYLREGVVSSKKEGGEWGLRALPSQYHPMIEHALHQYSGGAGKPAESAPDGLVAFAGDMLERIRKAL	PGPT0028680_132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028680-aadA-K00984	NA	NA
AK002_01678	708	sfp	COG2091	4'-phosphopantetheinyl transferase Sfp	ATGGGCACTTTTAATGAGAATCAGCCTAGCGCTGTGGAGGTCTACGCGATCCGGAATTCGGATCATATCCGCGACGAAACGTTTCGGGCCTTATTCCAGACGCTGTCCCCTGACCGACAGGAGTATGTGTCCAAGTTCAGAAGGGCGAGCGATTACCAGCGTTCGGTGCTTGGCGATGCCTTGGTCCATCGCATGCTTCGGGATAAGCTGGGACGGGAACGGATGAATATGGAAATCATCAGAAACGCTTACGGCAAACCATTCTTGAAGGATCATGATAACCTGCATTTTAACGTCTCCCATTCCGGGCAGTGGGTCGTGTGCGCCGTCGGCTATGAGCCGCTCGGGATCGACGTCGAGAAAATGGAGAACATCGATATGGATATTGCCAAACGGTATTTCCATAAAACCGAGTTTAACGCGCTGCTCAACTGCCCTCCATCCGAACGGCTTTTCCGCTTCTTTGATTTATGGACGCTAAAAGAAAGCTACATCAAGGCCGTTGGCAAAGGCCTGCATTTGCCGTTGGATTCTTTTGTAATGGAGCGGCAAGGCGGTGAATGGGAGTGGGCACCCGTGGTTGGAGAGAACGGAGGAACCTACTATTTTAAGCAGTATGCGCTGGAAGAAGGGTACAAGCTGTCGGTGTGCAGCATGGACCGCCATTTCCCCGAGCAGATTCAATACGTAACGGCTGATGAGTTATGA	MGTFNENQPSAVEVYAIRNSDHIRDETFRALFQTLSPDRQEYVSKFRRASDYQRSVLGDALVHRMLRDKLGRERMNMEIIRNAYGKPFLKDHDNLHFNVSHSGQWVVCAVGYEPLGIDVEKMENIDMDIAKRYFHKTEFNALLNCPPSERLFRFFDLWTLKESYIKAVGKGLHLPLDSFVMERQGGEWEWAPVVGENGGTYYFKQYALEEGYKLSVCSMDRHFPEQIQYVTADEL	PGPT0008845_1804	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
AK002_01679	1575			hypothetical protein	ATGATACGAGAAATGCAGGCCGATATCGTCATTCTCGGCGGCGGGACAGGAGGAACAGCCGCTGCGCTTGCCGCCGCCAAATCAGGAAAATCCGTCATCATGACCGAGGAAACGACTTGGATCGGGGGACAGCTGACCAGCCAGGCGGTTCCGCCCGACGAGCATCCGTGGATTGAATCCTTTGGCTGCACGCGCAGCTACCGGCAGTTCCGCGAAGGCGTCCGCCAGTACTATCGCGATAATTTTCCCATGACGCCAAAGGCCAGATCCAACGTGCAGCTGAATCCCGGCAGCGGCATCGTCAGCCGGCTGTGCCATGAGCCCCGCACGGCTCTCGCCGTGCTGCACCAAATGCTGGCCCCGTACATTCACAGCGGGCGGCTTACGATCCTGTATCAATATGCGGCGGAGTCTGCCGACGTTTCAGGGGATCGCGTGGACAGCGTAACCGTGCGTCATCTTGAAACCGAGGATCAAATCGTCCTCCGCGCCCCGTTCTTCGTGGATGCCACCGAGCTAGGAGATCTGCTTCCGCTGGCAGGCATCGAATATGTCACCGGTGCGGAGTCCAAATCCCAGACAGGGGAGCCGCATGCCGTCGACGGCGATCCGCTGCCGCAGGACATGCAGGGCTTTACGTATTGTTTTGCCGTCGACTATCTGGAGGGTGAAGACCATACGATTGAGAAGCCTGAGCTGTATGATTTTTGGCGGGAGTATAAACCCGATTTCTGGCCGGATAAGCTGTTAAGCCTGAGCGCCGTCAAGCCGTCGACGAATGAGCCGGTCGAGTATGAGATTTTCCCGGGACACGGCAAGTTCCCGCTTTATCAATACCGTCAAATCCTGGACCCGAAGCATTTTGCCGAAGGTACGTTCGACAGTTCGGTGTCGCTTGTGAACTGGCCGCAGAACGACTACTGGCTGGGTTCCATTATCGATGTGCCGAAGGAAGAGGCCGACCATCATATTGATCAAGCCAAACAGCTCAGCTTGTCCCTGCTGTACTGGCTTCAAACCGAGGTGCCCCGGCCGGATGGCGGACAGGGTTATCCCGGACTGCGTCTGCGTCCCGATGTGGTTGGAACGGAAGACGGAATGGCCATGTACCCTTACATCCGTGAGTCCAGAAGAATTCAGGCCGAGTTCACGGTCCTGGAGCAGCATGTGGCAACCGAATCGCGCCCTGACGGCGTTGCCGAAACGTTCCACGATTCCGTCGGTATCGGCTGTTACCGGATCGATTTGCACCCGAGCACGGGTGAGCGTCCTTACATTGATATCTCTTCCCTGCCATTCCAAATTCCGCTGGGCAGCTTAATACCGAAGCGGATGAAGAATGTGCTGGCTGCCAGCAAGAACATCGGGGTCACCCACATTACGAACGGCTGCTACCGGCTGCATCCCGTAGAATGGAACATCGGCGAGGCCGCCGGATACTGCATCAGCCACTGCCTGGATCATGACATTCTGCCGACGGATGTTCGGAACGACAAAGATAGACTCGCCAGCTTCCAGCAAAAGCTCGTAAGCGAAGGCATCGAGCTGGCATGGCCGGCACTCCGGCCCGTCTGA	MIREMQADIVILGGGTGGTAAALAAAKSGKSVIMTEETTWIGGQLTSQAVPPDEHPWIESFGCTRSYRQFREGVRQYYRDNFPMTPKARSNVQLNPGSGIVSRLCHEPRTALAVLHQMLAPYIHSGRLTILYQYAAESADVSGDRVDSVTVRHLETEDQIVLRAPFFVDATELGDLLPLAGIEYVTGAESKSQTGEPHAVDGDPLPQDMQGFTYCFAVDYLEGEDHTIEKPELYDFWREYKPDFWPDKLLSLSAVKPSTNEPVEYEIFPGHGKFPLYQYRQILDPKHFAEGTFDSSVSLVNWPQNDYWLGSIIDVPKEEADHHIDQAKQLSLSLLYWLQTEVPRPDGGQGYPGLRLRPDVVGTEDGMAMYPYIRESRRIQAEFTVLEQHVATESRPDGVAETFHDSVGIGCYRIDLHPSTGERPYIDISSLPFQIPLGSLIPKRMKNVLAASKNIGVTHITNGCYRLHPVEWNIGEAAGYCISHCLDHDILPTDVRNDKDRLASFQQKLVSEGIELAWPALRPV				NA	NA	NA	NA	NA
AK002_01680	2283	rhaR_16		HTH-type transcriptional activator RhaR	ATGGTCCTGTTCGGCTGCTTCATCAGCATCATTCCTCTTGCGGCCCTCGGCTTCTTCTCGTTCATGAAATCATCCACCTCCGTGCAAAACCATGTCAACAGCAGCAACATCCAGATCATGAATCAAACGAACAGCAATCTTGAACAGGTGCTGAGGACCGTAGACTATACACTGAATTACGTCATCAATTCCAACATGCTGCAAAGCGCCTTGTATCGTCCCCTGTCCTATTATGACTTCCAGTTGTATAACAAACTGAGAGAAGAGATGAGTCTGCTGCAGTCTCCCGAAACCAAAGTAACGGACGTCATTCTTGCGAATGCGACAAGCAACTGGCTGATCAATAACCGGGGCATGTACGAATTTAATGAATACGCTTCCAAAGGGACGCTCCTGAAGCTTCTCGAGCTGCAAGGAAACTCCAATTGGATGATGCTGGAGACCGAATCCCTCGGCTCCAGCGATACGCTCAGTTATGCCTGCCCTTATACGATCGCCCTTGTGAAGAAAATGCCGCTCTCCTCTTCCAGCGCCCGGGGCGTCGCGCTTGCCACCATTCCCAGCTGCAGTCTTGCCGCCATGATGGACAGCCCTTCCGAATCCCGGGAGGTCATGGTGCTGGACCACAATTACCGGATCGTTGTGCATCCGGAGCAAAGGAAACTGGGACTATATCTGACCGATACCGGGTATGCGGAGGCGGAGCTGGACCATTTTGACAGCAAATCGGGGCAGTTCGAGACGAAGATCGACAACAGGCAAGTGTCGGTGACGTACGTCCGTTCCGATTTTAACGGCTGGCTGTATGCCTCCTTCACCGAAATGTCCGCCATCACGAAGGAGTCCCGTTCCATCGGCTGGTTCACGCTGTATATCTGCCTGCTGATGATCGGTTTCAGCGTCCTGATTGTATGGCTTGGAACGCGGAAGATGTATACGCCCATCCGTCACATTTTCGAAAATATCGTGGAGCGTCTCCCGGAAATCCAAGCGAACAAAAAGAGCGAGCTGCAAGTCATCGACGAACATATCCGGGATATGTTCAATTCGAATACCAAGCTCCGCAGCGAGCTTCGGCAGACGAGCCAGCAGGTGCGCACCTTTTTCCTCCATAAACTGTTCCTGGGCAAGATCAATCCGCCCGAAGTGATGGAACAGATCGAGATGTTCGGCTTCAAGGAGCAAGTATCCGCATGGGAACAGCTGGCGGTCTTCACCCTCCAGATCGACATGCTGGACGAAACCCGCTATGAACGAAAAGATCGGGATTTGCTGCTGTTTGCCGTCAACAATATTATTGAGGAGATGATCCCCTCCTCCCATCGGCTCCCCTCCGTCATTATCGATCTTACGCAGGTTACGCTCATCGGACGAGGCGGCATCACGCCTGAGGCATTCAACGATTATGTGTATACCCTATCGGAGGAGATCCAGAAGACGACGCGAAATTTCCTGGATCTGGAGGTCAGCATCGGCATCAGCCTGCCTTACGACAACCTGTCCAAAACGTCGCGCGCCTACCAGGAAGGGCTTGAAGCCCTGAAACACCGCATCAAGCTGGGAACCGGCGTCATCGTCCCTTATTTCAGCCTGAACTCCGGCAAGCATACCCGGGTCTATTTCTATCCGATGCAGGTGGAGAACGAGCTGATCGATGCCATCAAGCTGGCTGACGAGGAACGGGCCGTGGAGCTTCTGAGGCAGTGGCTGGACGAGGTGTTTCGCAAGGACCGGACGCCGCATGAGTATCAAATCTCGCTCATCCGGCTGTTGAATGATCTGATGATTGTGATGCAGGAGAACGGGATCATGCTGGAGCAGCTCGACATCCGGGACAGCTCCCTCGTGGAGGAGCTTCTTCGGCTCTACACCAATCCCGATATCGAGAGCTGGTTCAAATCGCGGATCATCCGGCCGATGGTGAGTGTTTTCCGGGATCGCCAGGACTCTCAATACCAGAATCTCTCCGAGCAGATGATCGAGATGATCAGCAAGGAATTCGACCGCAACATTACGCTTGAGGAATGTGCTTCGCGCCTCCATTACAACAATTTTTATCTAAGCAGCGTGTTCAAGAAAGAAACCAACATGTCCTTCAGCGAATACCTGTCCCAATACCGCTTCAAGATGTCCAAGAAATGGCTTGTCGAAACCGATATGCCCATTAAGGATATTGCGGAGAAACTGAGTTACAACAATTCGCAGAACTTTATCCGGTCCTTCCGCAAGCTGGAGGGGATGACGCCCGGGCAATATCGCAGCAAATACAAAACCGGATCATAA	MVLFGCFISIIPLAALGFFSFMKSSTSVQNHVNSSNIQIMNQTNSNLEQVLRTVDYTLNYVINSNMLQSALYRPLSYYDFQLYNKLREEMSLLQSPETKVTDVILANATSNWLINNRGMYEFNEYASKGTLLKLLELQGNSNWMMLETESLGSSDTLSYACPYTIALVKKMPLSSSSARGVALATIPSCSLAAMMDSPSESREVMVLDHNYRIVVHPEQRKLGLYLTDTGYAEAELDHFDSKSGQFETKIDNRQVSVTYVRSDFNGWLYASFTEMSAITKESRSIGWFTLYICLLMIGFSVLIVWLGTRKMYTPIRHIFENIVERLPEIQANKKSELQVIDEHIRDMFNSNTKLRSELRQTSQQVRTFFLHKLFLGKINPPEVMEQIEMFGFKEQVSAWEQLAVFTLQIDMLDETRYERKDRDLLLFAVNNIIEEMIPSSHRLPSVIIDLTQVTLIGRGGITPEAFNDYVYTLSEEIQKTTRNFLDLEVSIGISLPYDNLSKTSRAYQEGLEALKHRIKLGTGVIVPYFSLNSGKHTRVYFYPMQVENELIDAIKLADEERAVELLRQWLDEVFRKDRTPHEYQISLIRLLNDLMIVMQENGIMLEQLDIRDSSLVEELLRLYTNPDIESWFKSRIIRPMVSVFRDRQDSQYQNLSEQMIEMISKEFDRNITLEECASRLHYNNFYLSSVFKKETNMSFSEYLSQYRFKMSKKWLVETDMPIKDIAEKLSYNNSQNFIRSFRKLEGMTPGQYRSKYKTGS				NA	NA	NA	NA	NA
AK002_01681	1539	lipO_11	COG1653	Lipoprotein LipO	ATGACCCGTCTGTCAAACTATGTTATGCTTACGCTCGCTATCCTATTGGTATCGGCTGCTTGCATCACCATGGCCCGCTCGTCGGGGGCGGATGGCGGAAATGCGTCTTTTGATCGCAGTACCCGCATTTCGATGATGGCCAACCTGCACACCACCGAGATTCCATCCGATCGGATCGAGAAAGAGATCGAGGAAAAAACGGGCGTTCAGCTGGACATCCAGTGGGTGCCGGACGGCAGTTATGATGAAAAAGTGTTTGCAGCGCTTGCGACAGGAACCTTGCCGCAAGTCCTGTATCTCAAGAATGCCGCATCCTTGTCCTACTTCAGGGATGAGATACGAAGCGGGCTGTTCTGGGAAATCGGCCCGTATCTTGACAGTTATCCGAATTTAAAGCGATTGAAGCCCGAGGTTTTAAGGAATACCGCTATTGACGGGAAGTTGTACAGCCTGTATCAGGAGCGTGCCTTGGCCCGCTCGGGCATCATTTACCGGAAGGATTGGGCGGATCGGCTGGGGCTTCCGGCGCCGGAAACGCTTGACGATTTATACGAAATGCTGAAAGGGTTTACATATAACGATCCGGACAACAACGGCATCGATGATACCATCGGCTTGACGGACCGCAACGACTTGATTTACGGGGCTTTCAAGACGATCAGCTCGTATTACGGAACGCCGAATCATTGGGGATGGTACAACGATTCGTTGCAGCCGGAATTCGTCTTTCCGCAGTATATGGAAACGATGAGATTTTTCAAGAAGCTGCATAGCGAAGGACTGGTGAATGAAGATTTTCCGATTACCAGCAAGACGGACCAGCAGGAGCTGTTCATTACGGGGAAAGCCGGGGTCTATATCGGCGCGATGGGGGACGTCCTGTCTCTGCAGTCACGGCTGCTGGCGAATGACCCTGAGGCCGTACTCGATGTTCAGAATCGGGTACGCGGGCCGGAAGGGTTCGGGATATGGGCATCCCAGGGATACGGAACGGTCATCTTGTTTCCGAAGTCCGCGATCGCCACGGAAGAGGAATTGAAGAATGTGCTCTCCTTCTACGATGCGCTAATGAGTCCCGAGCTTGCGAACCTGATGTATTGGGGAATCGAGGGCACCCACTATACCGTACAGGATGGCAAAGCGGTGGCGGTGGATGCTTTTGAGCTGAGGGAGAAGGACGTAAAGCCTTACCAGGCTTTGATGGCCGGAAGCTTCAGCACCATACCGGGCATGCTGGAGCCGGTTAACACGAATAAGGTCAAGGATAAAGCCGAGCGGCTGATTTATGATAATGAAAGCTTCCTCATCTATGATCCTACCGCACCGCTGGAATCTCCGCTGTATAACGAGATCGGCGTCCGATTGAATGAACGCATGCGTGACGCCACCTATCAATTCATGCTGGGAATGATCGATGAGAAGGGGTTCCAGGCGGAGATCGACCGTTGGCTTGAAGAAGGGGGAAGCCAGATTATCGAGGAATATGATGCTTCGTATCGAAGCACGGTGGGACCGTATCTGCATGAGGAATACCGCTAG	MTRLSNYVMLTLAILLVSAACITMARSSGADGGNASFDRSTRISMMANLHTTEIPSDRIEKEIEEKTGVQLDIQWVPDGSYDEKVFAALATGTLPQVLYLKNAASLSYFRDEIRSGLFWEIGPYLDSYPNLKRLKPEVLRNTAIDGKLYSLYQERALARSGIIYRKDWADRLGLPAPETLDDLYEMLKGFTYNDPDNNGIDDTIGLTDRNDLIYGAFKTISSYYGTPNHWGWYNDSLQPEFVFPQYMETMRFFKKLHSEGLVNEDFPITSKTDQQELFITGKAGVYIGAMGDVLSLQSRLLANDPEAVLDVQNRVRGPEGFGIWASQGYGTVILFPKSAIATEEELKNVLSFYDALMSPELANLMYWGIEGTHYTVQDGKAVAVDAFELREKDVKPYQALMAGSFSTIPGMLEPVNTNKVKDKAERLIYDNESFLIYDPTAPLESPLYNEIGVRLNERMRDATYQFMLGMIDEKGFQAEIDRWLEEGGSQIIEEYDASYRSTVGPYLHEEYR	PGPT0017245_2792	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01682	1539	lipO_12	COG1653	Lipoprotein LipO	ATGAAGAAGAAAAAAGCCAGTACCATCCTGGCAATTGTAACCGCTTTATCCGTATTGGCGGGCTGTGGCGGCGGCTCCGCCCCTGCAGCAACCGGCAGCAGCACAAATGGAGGTCAGGCGCAAGGCGAGAAACCAAGCGAACCGGTTGCCATCTCGATCATGGCCAACCTCCACACCCCTGAAGTTCCTTCCGACATGATTGAGAAGCTGCTGGAAGAGAAAACGGGCACCAAGCTTGACATTCAGTGGGTGCCGGACGGCACTTACGACGAAAAGGTCAATGCATCCTTCGCAACCGGAACGCTGCCGCAGGTGACATATCTGAAGAATGCCGCTTCGCTAGTGAATATGCGGGACGCGATCCGCAACGGGCAATTCTGGGAAATCGGGCCGCTGCTGGATCAATACCCGAACCTCAGCAAGCTGAAACCCGATGTGTTAAAAAACACGGCGGTGGACGGCAAAATCTATGCGTTATACCGTGAAGTGCCTTTGTCGCGCCAAGGCATCATTTATCGCAAGGATTGGGCCGACAAGCTTGGGCTCAGCGCTCCGACCAATATTGACGAGTTCTATAATATGCTGAAGCAGTTCAAGGAGAAGGATCCTGACGGCAACGGCCAAGACGACACCATTCCGTTGACCGACCGGAACGATCTGATCTATGGGGCATTCAAAACGATAAGCTCATGGCTCGGGACACCGAATAACTGGGGCGAGAAGGACGGCAAGCTGGCTCCCGAGTTCATGTTCCCCGAATATATGGAGACGATGAAATTCTTCAAGAAACTTCATCAGGAAGGGTTGATCAATCAGGATTTCCCGGTTACCAGCAAAACCGATCAGCAAAATTTGTTCATTACCGGCAAATCGGGCGTTTATATCGGAGCGATGGGGGACGTATCCAGCCTGCATCCCAAGGTCGTCGAAGTGAATCCGGATGCGGAGCTCGATGTTCAGAATAAAATCGAGGGAGGACCGAACGGCTTTGGAATCTGGTCGGTTCCCGGCTACGGCTCGGTGATACTCTTTCCGAAAACAGCCATCAAATCGGAGGAAGAACTGAAAGGAGTGCTTGCCTTCATGGATCAGCTGATGAGCCCTGAGCTCGGCAACCTGATCTATTGGGGAGTGGAAGGACAGCACCACCAGCTGGAGGAAGGCAAGGTCGTTCCTTCGGAGGACACCAAGCTGACCGATCGTGAAGTGAAGCCTTATCAAGCGATGCAGGTGGGCGGGCCGTTAACGATCGAAGGATTCTATGAGCCGAAGCATATGCTTCCTGTTAAAGCGAAGGCTGAGGAAATGATCGTGGAGAACAATGATTATCTCATAGAGGATCCTTCGGCTTCCCTGGACTCCAAGACGTTTAACGAAAAGGGCGTGCAGCTGCAGGAGATGATCAAGGACGGCACGTATCGGTTCATGCTCGGCGATCTCGACGAAGCAGGATTCCAGGCCGTCGTGGACAACTGGCTTAAGAGCGGCGGTCAGCAAATCATCGATGAGTTCAACGTTTCCTACGAATCTTCCAAATAA	MKKKKASTILAIVTALSVLAGCGGGSAPAATGSSTNGGQAQGEKPSEPVAISIMANLHTPEVPSDMIEKLLEEKTGTKLDIQWVPDGTYDEKVNASFATGTLPQVTYLKNAASLVNMRDAIRNGQFWEIGPLLDQYPNLSKLKPDVLKNTAVDGKIYALYREVPLSRQGIIYRKDWADKLGLSAPTNIDEFYNMLKQFKEKDPDGNGQDDTIPLTDRNDLIYGAFKTISSWLGTPNNWGEKDGKLAPEFMFPEYMETMKFFKKLHQEGLINQDFPVTSKTDQQNLFITGKSGVYIGAMGDVSSLHPKVVEVNPDAELDVQNKIEGGPNGFGIWSVPGYGSVILFPKTAIKSEEELKGVLAFMDQLMSPELGNLIYWGVEGQHHQLEEGKVVPSEDTKLTDREVKPYQAMQVGGPLTIEGFYEPKHMLPVKAKAEEMIVENNDYLIEDPSASLDSKTFNEKGVQLQEMIKDGTYRFMLGDLDEAGFQAVVDNWLKSGGQQIIDEFNVSYESSK	PGPT0017245_2839	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01683	1008	yteP_17	COG4209	putative multiple-sugar transport system permease YteP	ATGCTGCAGTCTCAGGCAGGCTTCGGGGCAGAAAGGAAGTCTGAGATCATGAGCGAAACCGCAGTGAAGACCGGGATGCGCAAGGACGCCCCCACAATACCGGAGTCCGGTCGAATGAGAAGAATCGTTAAAAACCGGGCGATCTATCTCATGATACTTCCGGGATTTTTATACTTCCTGATCTTTAAATACATCCCGATGTCGGGACTGATCATAGCCTTCCAGGATTATCAGGCTTATCTCGGCGTAACGGGCAGCCCCTGGGTGGGGCTCAAGCACTTTGAGCGGCTGTTTACCGAGCCGATGTTCTTCACGATATTAGGCAACACGCTGCTGCTGTTTTTCTTGAACCTGGCATTTTATTTCCCCGTGCCGATCATTCTTGCCTTAATGCTCAACGAGGTCCGGCGCGAAGTCTTTAAACGCTTTATCCAGACGCTGGTGTACATTCCCCATTTCATGTCGTGGGTCATCATCGTATCCATTTCGTTTGTCATGCTCTCGATGGATCGCGGCATTATCAATGAGCTGCTGGTTATGGCCGGATTCGAAAAAATCAATTTCCTGATGAGCAGCGATTGGTTCAGGCCGATGTATGTCCTGCAGATCATCTGGCGTGAGGCCGGCTGGGGGACCATCATTTATTTGGCCGCCATGGCCGCGATCGATCCGGGTTTATACGAAGCGTCCCGAATTGACGGGGCCAGCCGCTTTCGGCAAATGTGGCATATCACGCTCCCTTCGATTCGAAGCGTGATCGTCGTTTTATTGATTTTGAAAATCGGCGACGTGCTGGAGCTTGGGTTCGAACATATCTATCTCCTCTTAAACTCGATGAATCGGGATGTTGCGGAGATTTTCGATACGTATGTGTACACCGCGGGTCTGAAGCAAGGACAGTTCAGCTTCAGCACGGCGGTCGGGTTCTTTAAATCGCTGATCGGTCTCATTCTGGTGATGCTGGCCAATTGGCTGGCCAAAAAGGCCGGAGAAGAAGGCATCTATTAA	MLQSQAGFGAERKSEIMSETAVKTGMRKDAPTIPESGRMRRIVKNRAIYLMILPGFLYFLIFKYIPMSGLIIAFQDYQAYLGVTGSPWVGLKHFERLFTEPMFFTILGNTLLLFFLNLAFYFPVPIILALMLNEVRREVFKRFIQTLVYIPHFMSWVIIVSISFVMLSMDRGIINELLVMAGFEKINFLMSSDWFRPMYVLQIIWREAGWGTIIYLAAMAAIDPGLYEASRIDGASRFRQMWHITLPSIRSVIVVLLILKIGDVLELGFEHIYLLLNSMNRDVAEIFDTYVYTAGLKQGQFSFSTAVGFFKSLIGLILVMLANWLAKKAGEEGIY	PGPT0017250_1104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01684	879	lacG_3		Lactose transport system permease protein LacG	ATGGTACAAGATAAAACGATATCGAGCCGAATCTTCGATATCGTGAACTACACGCTGCTGTCGATCATCGGCCTCGTTACCATTCTGCCTTTCCTTCACGTCATCGCCGGATCGTTCACGACGGTGACGGAGCTGGCGCAGAAGCAGTTCGTCCTGTTTCCGACCGTATGGTCCCTTGACGCTTACAAGTACGTGTTTTCGACCAATACGGTTTTTCGTTCGCTAGGCGTTTCCGTTGGAGTAACCTTCCTGGGCACTTTGTTCAGCATGCTGTTAACCTGCCTGATGGCCTACGGGCTGTCGCGCAGGGATCTGGATGGCCGAAATTTCATCATGTTCATGGTCTTGTTCACGATGCTCTTCAGCGGGGGCATGATACCGACGTTCCTCGTGGTGAAGGAGATGGGGCTCATCGATACGTATGCGGCCTTGATTGTCCCGACGGCAATCAATGCCTTCAACCTCATCATCATGCGAAACTTTTTTCAGAACCTGCCCGAGGGGCTGGAGGAATCCGCAAAAATCGACGGGGCCGGCGATTGGGGCATCCTGTTCCGAATCGTGATTCCGCTGTCGATGCCTGCCATTGCAACGATATCGCTCTTTTATGCGGTAACCTACTGGAATACGTATATGTCGGCGATTCTGTACCTGAATGACGCGGCCAAGTGGCCTGTGCAGGTCATCCTGCGGCAGATCGTCATTCTTGCCAGCGGCTTGACGGCCGATACGTCCGGCATGGACGAATTCGTCCGGCCGCCGGAGCAGACGGTGAAAATGGCGGTCATCGTCATTGCCACGCTGCCGATACTGTGCGTGTATCCGTTCCTGCAGAAGCATTTTGCGAAGGGCGCGCTGCTGGGATCCATCAAGGGATAG	MVQDKTISSRIFDIVNYTLLSIIGLVTILPFLHVIAGSFTTVTELAQKQFVLFPTVWSLDAYKYVFSTNTVFRSLGVSVGVTFLGTLFSMLLTCLMAYGLSRRDLDGRNFIMFMVLFTMLFSGGMIPTFLVVKEMGLIDTYAALIVPTAINAFNLIIMRNFFQNLPEGLEESAKIDGAGDWGILFRIVIPLSMPAIATISLFYAVTYWNTYMSAILYLNDAAKWPVQVILRQIVILASGLTADTSGMDEFVRPPEQTVKMAVIVIATLPILCVYPFLQKHFAKGALLGSIKG	PGPT0017255_2340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01685	1440		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43B	GTGTTGGAAAAGAAACGGCATGCACCTATCATGGCCGGCAATTATGCGGACCCGTCTGTCATCCGGGTCGGCGAGGATTATTACATGACGCATTCATCCTACAAGCTGACGCCCGGGCTCGTCATCTGGCATTCGCGTGATTTGCTGAATTGGAGCCGGGTCGGGGCCGCACTGCCCCATTACGAGGGGGATGTGTGGGCGCCGGATTTCGTCGCGCATAACGGGAGGTATTATATCTATTATCCGGCAGGGCGGACGAATTGGGTCGTTACGGCATCCAGTCCGGCGGGACCTTGGAGCAAGCCGATCAATCTGGGGATCAAGGGAATTGATCCGGGGCATACGGCAGGACCGGACGGAAAGCGTTATTTGCATATGTCGGGCGGTGATTTTGTAGAGCTTACGGCAGACGGGCTCGCGGTCGCCGGCGAAGTAAGGCATGTGTATAACGGCTGGCGGTATCCGGAGGATTGGGTCGTAGAGGCATACAGCCTGGAAGGGCCGAAGATGACCGTTCGCGACGGATATTATTATCTGACGGTAGCTGTCGGAGGGACGGCAGGACCGCCTACAAGCCATATGGCCGTATCGTCGAGATCCCGAACGCCATGGGGGCCGTGGGAGCATTCGCCTTACAACCCGGTCGTTCATACGGAATCCAGGGAGGAGCCCTGGTGGTCCAAGGGACATGCCTCGCTGATCGACAGTCCTGACGGCCAGTGGTGGATGGTCTACCATGCATATGCGGGCGGATTTCATTCGCTCGGTCGGCAGACGTTGCTCGAACCCATCGAATGGACCTCGGACGGGTGGTTTCATGCTGCGGAAGACCATGAGAGGCTTGACCGGCATGATGGGCCGCATGACAAAGAAGAAATCAATGTGGTGAATCAAAGCGTTTCATTCAGGGATACCTTTGCCGGATCTGAACTGGGCCTTCATTGGCAGTGCGAAGGCGTGGAGCCTTCCACCCGGTTCCGTCCGGGGAATCATGAGTTGGCAGCCGAAGCAGCACCCGAGGAAGCCAAAGCTTCTCCGCTGCTCTACATGGCGGGCCATAAGCGTTACTCAGCAGAGGTCGAGATTATCGTGGAGGGTCCGGCGGAGGGCCGACTGCTGCTCTATTACAACGATGCGGCATATCTCGGCATGGGAGTCAACGAGCGCGGAGTCCGGCATTTCCGGTCATTCAAGGGATACGGCACGATGCCGAACCATACTCGCAGGGCATTTCTGCGGTTGGTTAACGATGCGCATATCGTTTCGTTCTATTACAGCTTCGAGGGGACGCAGTGGATCCGGTACGACAAGGTCGCGGATGTTTCAGGGTTCCATCATAACACGTTTGGCGGATTTCAGAGTCTCCGCGTCGGATTGGATGCCATCGGTAAAGGCAGGGTGATTTTTCGGAATTTTTCATATAACGTCATAAGCAGCTGA	MLEKKRHAPIMAGNYADPSVIRVGEDYYMTHSSYKLTPGLVIWHSRDLLNWSRVGAALPHYEGDVWAPDFVAHNGRYYIYYPAGRTNWVVTASSPAGPWSKPINLGIKGIDPGHTAGPDGKRYLHMSGGDFVELTADGLAVAGEVRHVYNGWRYPEDWVVEAYSLEGPKMTVRDGYYYLTVAVGGTAGPPTSHMAVSSRSRTPWGPWEHSPYNPVVHTESREEPWWSKGHASLIDSPDGQWWMVYHAYAGGFHSLGRQTLLEPIEWTSDGWFHAAEDHERLDRHDGPHDKEEINVVNQSVSFRDTFAGSELGLHWQCEGVEPSTRFRPGNHELAAEAAPEEAKASPLLYMAGHKRYSAEVEIIVEGPAEGRLLLYYNDAAYLGMGVNERGVRHFRSFKGYGTMPNHTRRAFLRLVNDAHIVSFYYSFEGTQWIRYDKVADVSGFHHNTFGGFQSLRVGLDAIGKGRVIFRNFSYNVISS	PGPT0018665_1928	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
AK002_01686	1119			hypothetical protein	ATGGCACAGCGGTTAGAGGATATTCTGGCAGGCGGCGACAGGCTGTTTGAAGGCTTCTTCGAATGGCTCGAGGGGCAATACGACGCGGCTTCGGGCGGTTTCTATTATGCCCTCAGTTCACGGGATTCCGAGGCGTTCGTTCCGGACATCGAGTCGACCGCGCAGGCATTGGGCATTATCGAGCGATGCGGGCTTCTGCAAAGACTGTCCGATGGCATCAAGGCGGGGCTCGTGCGGTTTTTTCAGTCCAAACAAGACCCCGCGACGGGTTACTTTTATGATGCCGATCCCAATATGAGAACAGACGATGTGATGGTGGGACGAGCGCTTGGGTACAGCGTGGGAGCACTCCGCAAGTTGGGTGCAGCCCCCTTGCACCCGCTGCCGGGCAATCGGCATATGGCTCCGGCATACTGCCGCTCTCCCGAGGAATACGCGGAGTGGCTGCGCTCGATCAGTCTGGTGAACAGCTGGCGCGGCTGCGATCGTCTGTGTAATTCAGCCCCTTATTTATCCCAAATGCCGCAGGATGAGAGGGAGCCGTTTTTGCGTGAGGCGCTGTCGTATTTTGCGAGTTTACAAGATCCGGCGACGGGGCTGTGGGGCGAAGGCACGCCTTATGTCCGAATATCGGGAACCTTCAAGCTGCTGACGTTCTATAATCGGTTTCAAGCTCCCTTGCCGCGGATATCGGAAATATACCATTCGTTGATGCGTGCGCTGCAAAGCGAGAAGGCCGTTGATATGTGTTATATCCGGAACCCGATCAGTCTCCTGACATCGATGAAGCTGCGCATCCCGGAGGAGGATGTTCGGATCATCGCGGAAATCACCTTGCAGAATATGGCGCGTCTCAAACGCGCGGACGGCGGATTTTCACGGGAAATCGATCATTCCCCGCCGTCGCCGAATGTGGCCCAGGTGAAGCCCGGAGAGTATTATCCCGACATGCCGGAGGCGGTTCCGCTGGGCAAAGGAGAGGTAGAGGGGGATATGAATGCGGGAACCCAGGCGATTCTGATCCGCTATTCGCTGCGGGAGCTGGTCGGGCTGCAGGAGCGAAAGCTGGATACGACCGATTCCGCGTTCTCCAATCTTCGGGCAGCTGCAGATATATAG	MAQRLEDILAGGDRLFEGFFEWLEGQYDAASGGFYYALSSRDSEAFVPDIESTAQALGIIERCGLLQRLSDGIKAGLVRFFQSKQDPATGYFYDADPNMRTDDVMVGRALGYSVGALRKLGAAPLHPLPGNRHMAPAYCRSPEEYAEWLRSISLVNSWRGCDRLCNSAPYLSQMPQDEREPFLREALSYFASLQDPATGLWGEGTPYVRISGTFKLLTFYNRFQAPLPRISEIYHSLMRALQSEKAVDMCYIRNPISLLTSMKLRIPEEDVRIIAEITLQNMARLKRADGGFSREIDHSPPSPNVAQVKPGEYYPDMPEAVPLGKGEVEGDMNAGTQAILIRYSLRELVGLQERKLDTTDSAFSNLRAAADI				NA	NA	NA	NA	NA
AK002_01687	333			hypothetical protein	ATGGCGGAGATCGGGGTTTGGGAGCAAGCGGAGCCTGGAGTGACGAGGAAGGTATTTAAACCTGGTGCCGGTCTGATGATGATGGAGGTTCACTTTGAAGCAGGAGCGGAAGGGGCACTCCACAGTCATCCCCATGAGCAGATGAGTTATTGCCTGAAGGGAGCCATTGAATTCTATATCAACGGCGAGACAACCCTTGTACGCCAGGGAGACACCATCGTCATTCCCGGTGGAGCGGAGCATGGCGTGAAGGCACTTGAGCCATCCGCTCTTTTGGATACGTTTACACCGTTGAGACTAGATTTGCTTGGACCCGAAGAGAGCAGCAATTGA	MAEIGVWEQAEPGVTRKVFKPGAGLMMMEVHFEAGAEGALHSHPHEQMSYCLKGAIEFYINGETTLVRQGDTIVIPGGAEHGVKALEPSALLDTFTPLRLDLLGPEESSN				NA	NA	NA	NA	NA
AK002_01688	810	axeA1	COG0657	Acetylxylan esterase	ATGAAGCTTTGGGAACAGGATACACCAGGATATGCGTCGGTGGAAGAGTCGTTCACGCCCTATATGACACCTTATCTTCTACAAAAAGAAACACCACACGGAGCCGTGCTCGTTCTGCCGGGCGGCGGATATGGACGGCGGGCAGATCATGAGGGCGATCCGGTTGCCCTGTGGCTGAATTCGATCGGCTTATCGGCATTTGTCGTTCATTACCGGGTTGCCCCGTACCGGCATCCTTATCCACTGTATGATGCCCAGCGGGCAATTCGGCTCGTAAGGCATCATGCCAAGGAATGGAACATCGATCCGGAACGCATCGGAATTCTCGGATTCTCCGCCGGCGGACATCTCGCGGCCAGTGCAAGCACCTATTTCGATGAAGGAAATCCGGAGGCCGAAGATCGCGTTGAGCGGCAGGGCTGCCGTCCGAACGCATCCATTCTCTGTTACCCGGTCATTTCATTTAAGGAATACTTCCATGAGGGCTCCATGACCAATTTGTTGGGGGAGGACCCGGCGGAAGACTTAAGAAATGCGATGTCGCTCGAATGGTCGGTAAAACCGGACACCCCGCCTTCCTTTCTGTGGCATACCGCGGATGACGGCGCGGTCCCGGTCGAGAACAGCCTGATGTATGCCGGATCGCTGAGCAAGCAGCAAATCCCGTTCGAATTGCATGTTTTCCCGGAAGGCCGGCATGGCCTTGGCCTTGCGGAAGAAGATGCCAGTGTTTCGCAATGGACGCGCCTGTGCGAGGGTTGGCTGCAGAAGATTGGGTTCCTGTCGCAAGCCGTTGTGCAAGGAAGGTAG	MKLWEQDTPGYASVEESFTPYMTPYLLQKETPHGAVLVLPGGGYGRRADHEGDPVALWLNSIGLSAFVVHYRVAPYRHPYPLYDAQRAIRLVRHHAKEWNIDPERIGILGFSAGGHLAASASTYFDEGNPEAEDRVERQGCRPNASILCYPVISFKEYFHEGSMTNLLGEDPAEDLRNAMSLEWSVKPDTPPSFLWHTADDGAVPVENSLMYAGSLSKQQIPFELHVFPEGRHGLGLAEEDASVSQWTRLCEGWLQKIGFLSQAVVQGR				NA	NA	NA	NA	NA
AK002_01689	1104			hypothetical protein	ATGGCAGAACGAACGACGCCAAGCATACCGGCTAAGCTGACCGGCATGGGCCGCCGGCTGCAAGCCTTATTCGAAAGCAGGAAAAAGGGATCTGCCAAGCCCACCCGGGTCCCCGGAGAAACGGCAGCCGAAAAATCCACCCAACCCTCCATGCCCTCGGCATTCGGCGTGCTTGTCCGCAAAGAAATAGCGGACCATATCCGCAGCTGGCGCTTCATCCTGCTGCTAGGCATCATTGCCTTAACCTGCGTAGCCTCGCTGTATACCGCTATGAACAGCATCCGGGAAGCCCTCGGATCGGAGAACGGGGTCCATGATTTTGTCATTCTGAAGCTGTTCACCATCTCGGACGGCACCCTTCCGACCTTCATCGGATTTGTCGGTTTCCTGGGTCCGTTGCTCGGAATCGGCATGGGTTTTGATGCCATCAACAGTGAACGGAACAAAGGCACGCTCAGCCGAATCATGGCCCAGCCGATTCATCGCGACGATCTGCTCAATGCGAAATTCGCGGCTTCCCTGATCGTCATCAGCATCATGTTTATCACGCTCGGGCTGTTGACCATGGCACTGGGCACCCTGATTATCGGGATTCCGCCTACCTTTGAGGAATTTTTACGGATCATCAGTTTTCTGGTCGTGACGATCTGTTACGTCGGCTTCTGGCTTAATCTGTCCATTACGTTCTCCGTAAGGTTCCGACAGCCGGCCACCTCCGCCCTGTCGAGCATCGCCGTCTGGCTGTTCTTCAGCTTTTTCTTTGACATGATCCTGCAGCTGCTGTCGCGGGGACTGGCTCCCAGTACTGCCTCGGCGACGGTCCAAGATGTCATGAGCTATCAGAATCTGATGCTGTGGCTAAGTCGGCTGTCGCCGTATACCCTGTTCAATGAAGCGACGACCACCCTGCTGATGCCATCCATCCGCAATCTCGGTCCGCTCACGCAGGAGCAGGTGTATGGAGCCATTGCCAGTCCGCTGCCGTTCGGCCAAAGCCTGCTGCTCGTCTGGCCGCAAATTATCGGGCTGGCCGCAGCCACGCTGATCTGCTTTGCCATCTCCTACGTCCTGTTCCTCCGCCAGGAGATTCGAGGCCGGTCCTGA	MAERTTPSIPAKLTGMGRRLQALFESRKKGSAKPTRVPGETAAEKSTQPSMPSAFGVLVRKEIADHIRSWRFILLLGIIALTCVASLYTAMNSIREALGSENGVHDFVILKLFTISDGTLPTFIGFVGFLGPLLGIGMGFDAINSERNKGTLSRIMAQPIHRDDLLNAKFAASLIVISIMFITLGLLTMALGTLIIGIPPTFEEFLRIISFLVVTICYVGFWLNLSITFSVRFRQPATSALSSIAVWLFFSFFFDMILQLLSRGLAPSTASATVQDVMSYQNLMLWLSRLSPYTLFNEATTTLLMPSIRNLGPLTQEQVYGAIASPLPFGQSLLLVWPQIIGLAAATLICFAISYVLFLRQEIRGRS	PGPT0006730_7231	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_01690	1023	lnrL_2	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGGATACGGTCATTGACATTCAGGAACTGACGAAGAGTTACCACGACACGAGAGCGGTGGACCGTTTATCCCTTCAAATTAGGCGGGGCGAGATCTTCGGCCTGCTCGGTCCGAACGGTGCGGGCAAATCCACCACGATCCTGATGCTGCTGGGGCTGAGCGAACCGGATTCGGGATCGATAAGCGTGCTTGGCATCAATCCGACAAGAGAGCCGATTCCGGTGAAACGGCGGGTTGGGTACCTTCCGGATGACGTCGGCTTTTACGAGGACCGTACCGGCATGGAAAACCTGATGTTAACCGCGCGGTTGAATCGAATTCCGGATAACCAGGCCCGCGAAAGGGCATTGGAGCTGCTGGAGCAGGTAGGGCTCACGCATGCTGCCCACAAGAAGACGGGGGCTTATTCCCGCGGGATGCGGCAGCGGCTCGGACTTGCCGACGTCTTAATGAAATCCCCCGAAATCATCATTCTTGACGAACCGACCCTGGGCATCGATCCGACAGGTATGGAAGAGCTGCTGCGGTTGATACGGAAGCTCAGCCGCGAGCAAGGATTGACCGTGCTGTTATCGTCCCATCAGCTGCACCAGGTTCAGCAGATTTGCGACCGCGTCGGCTTGTTCGTACGGGGACGACTCCTCGCCGAAGGCGATGTCGGGAGTCTGTCCCGAACTCTGTTTGCGGATGATCCCATTATGATCACGGCGGAGGTGGATGAGCTTGTGCCCGAACTGCGGGATGCCGTCGGCAGCATCCCAGGGGTTCACCAAATCGAAGTTCCGCCTGCCGTGAGCGGTCCGGCTGAATCAAACGACACGCTGACCAGAGACCTGCCAATTAAGGTTCTGATTCGGGCCGATAGGGATTGCAGCCCGGAGATTGCCCGAACGGTCGTAAATGCAGGCGTTCGGCTGTTCTCGCTAAATCGCCAGCAGCACGGCCTGGACGAAATCTACCACCGTTATTTTGCAGGAGGTGAGGAGCATGGCAGAACGAACGACGCCAAGCATACCGGCTAA	MDTVIDIQELTKSYHDTRAVDRLSLQIRRGEIFGLLGPNGAGKSTTILMLLGLSEPDSGSISVLGINPTREPIPVKRRVGYLPDDVGFYEDRTGMENLMLTARLNRIPDNQARERALELLEQVGLTHAAHKKTGAYSRGMRQRLGLADVLMKSPEIIILDEPTLGIDPTGMEELLRLIRKLSREQGLTVLLSSHQLHQVQQICDRVGLFVRGRLLAEGDVGSLSRTLFADDPIMITAEVDELVPELRDAVGSIPGVHQIEVPPAVSGPAESNDTLTRDLPIKVLIRADRDCSPEIARTVVNAGVRLFSLNRQQHGLDEIYHRYFAGGEEHGRTNDAKHTG	PGPT0006725_1805	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_01691	1164			hypothetical protein	ATGAAATCATGTAGACAACGAGCCAAGCAGCTGTGCCTGCTGCTCTTGTTCATCCTGGGTACTTGCTTGTACGGCGGAAGTAACACCGCATTGGCGGCCGGAGAAATCACGTTATACACGCCATATACGTCGATTTCCGTTCCGCCTGGAGAAGTCATCAATTACCCGCTAGAGGTCAAAAACAATACGAATAGCGTCATTACGGTTCCGCTGCAAATCAACAGCCTCCCGAGCGGCTGGAGCACCAAGCTAAACGGTGGAGGCTGGCAGCTGAGGGAGGTATCGGTGAAGCCCGGCGAATCCGAATCGGTGACCCTGGAGGTAACTGTGCCGCTTAAGGTAGATAAAGGCTCCTACCGGTTTCAATTAACCGCGGGCTCGATGGCCAGTCTGCAGTTAACCGTGGATATCACGGAAAAAGGAACCTATCAAACCGAGCTCACAACCGATCAGGCCAATCTGGAAGGGCACGCCGATTCCACGTTCACCTACACGGTGAATCTGCAAAACCGAACGGCCAATAAGCAAAACTATGCCCTGAACGCCGATGCCCAGGCGGGTTGGGACGTTACATTCACGTCAGGCGGCAAGCAGGTATCCTCCGTCGAAATCGAAGCAGGCGCAAGCCAATCCATTACCGTCGATGTCAAGCCGCCTGCGGAGGTGACGGAAGGCTCCTTCTCCATTCCGATCCGCGCCTCCAATTCATCGACGTCCTCCGAGCTTGCGCTGGAAGCCGTCATTACAGGGTCTTACGGGCTGGAGCTTACAACGCCAAGCGGCTTGCTCAGCACGAATGTCAATGCAGGCGGAAGCAAAACCATTGAGCTTCTGGTGAAGAATACGGGCACCGCACCACTCTCGGACATTAATCTCAGCGCCGATACGCCGGTGGACTGGGAGGTCAGCTTTAATCCGAAAACGATCGAGAATCTGCCTGCAGGCAAATCCACAACGGTAGAAGCCAAGCTCACTTCAAGCGACAAAGCCATCGCCGGCGATTATGTCACAAGCCTGAAAGCCGCTGCGGCCGAAGCAAGCTCCGACGCCCAATTCCGCGTAGCCGTCAAAGGTTCCATGCTATGGGGCTGGATCGGCGTGCTTGTCATATTAGCCATTCTGGGAGGCATCTATGTCCTCATTCGCAAATACGGAAGGAGATGA	MKSCRQRAKQLCLLLLFILGTCLYGGSNTALAAGEITLYTPYTSISVPPGEVINYPLEVKNNTNSVITVPLQINSLPSGWSTKLNGGGWQLREVSVKPGESESVTLEVTVPLKVDKGSYRFQLTAGSMASLQLTVDITEKGTYQTELTTDQANLEGHADSTFTYTVNLQNRTANKQNYALNADAQAGWDVTFTSGGKQVSSVEIEAGASQSITVDVKPPAEVTEGSFSIPIRASNSSTSSELALEAVITGSYGLELTTPSGLLSTNVNAGGSKTIELLVKNTGTAPLSDINLSADTPVDWEVSFNPKTIENLPAGKSTTVEAKLTSSDKAIAGDYVTSLKAAAAEASSDAQFRVAVKGSMLWGWIGVLVILAILGGIYVLIRKYGRR				NA	NA	NA	NA	NA
AK002_01692	600	sigK_1	COG1595	ECF RNA polymerase sigma factor SigK	ATGAACGATCATTCCGCGTTATGGTTGGAGGAGATTGCCGAGGGCTCCGCCGCAGCATTCAGACGCTTCTATGATGCCTATGCCCGTCTGGTGTACCGGTTGGCTTTACAGATGACGAAGGACCCGGCCGAGGCGGAGGATGTATGCCAGGATATCTTCATGGAGGTGCTGCATAAGGCGGATCAGTACGATCCCGCCCGCGGAAGCGTCGAGGCTTGGCTGGCGGTGAGAACAAGGTGCAGGGCGATGGATCGCCTGCGCAAGCGGCAGCGCATCGCTACGGCCGAATGGAACGGGGAGGCGCTGCCGGAGACGGTATGGAGCGAAGAACAGGAGTCGGTTGAGCTGGCCGCCTTGCGACGGGTGGAGCTGGAGCAGGTAAAGGAGGCGCTGCAAGGCATTCCGCCCCTTCAGCGGATGGCGGTTTACGGAAGCTACGTCGAGCAGCGGTCCCACCGGGAAATGGCGGAATTGTTAAACCGGCCGGTCGGCACCGTCAAATCCTTAATCCGGTACGGGATCCTCAATGTCAGGCGGCGGCTCGATGCGATGAACGGGAAGGAAGGGGGAAGCGCGCAGCATGAAACTTTCAAAGCATAA	MNDHSALWLEEIAEGSAAAFRRFYDAYARLVYRLALQMTKDPAEAEDVCQDIFMEVLHKADQYDPARGSVEAWLAVRTRCRAMDRLRKRQRIATAEWNGEALPETVWSEEQESVELAALRRVELEQVKEALQGIPPLQRMAVYGSYVEQRSHREMAELLNRPVGTVKSLIRYGILNVRRRLDAMNGKEGGSAQHETFKA				NA	NA	NA	NA	NA
AK002_01693	897			hypothetical protein	ATGAAACTTTCAAAGCATAACCTTGAACATCTTGTTCAAGGTGACATCGGCTGCAGGGCCTATCCCGAGGAGAAGCTTGTCGATTACGTGATGAAGCGTTTGCCGTACGCGGAGAGCAGGAATCTGGAGCTCCATCTCAAGGAATGCGAGGCGTGCTCCGGCACGGCGGCGGAATGGGCCGACCTTATGGGAGCAGAAGATCTCGCAATGCCATTCCATGAATCCGATGTCTTCGGGCAGGAGCTGTTTCGAAGCCGTGATATGGACGGCGAACAGCTCGGATCGACTCAGCCGGCAGGTACGGAGCCGGCCATACGGGGGGCCGTGCAGGATCAAGCTCCGAATGATGGACCCATACCTCCCGATCGGCTGCGCCGCAGGCTCATGCGAGCGGCTTATATCCGGTCCTTCCGAAGCAAGGTCCGAATCAGGAAGCATGCTGCCTTCCATGCGATATCCGGAGCGCTGCTCATCCTGTTGATAGCCGGTTTATTCACCTTGAAAGGGAACGACGTCCAGACCCAGGCGGCCTTCGAACATACCGTGAGCCAGCGGATTGCCGATATGCAGAGCGATGATACCGAGCGGTACGTCATACAGCCCGTAGAGCCGTTTTACGGCAGCGGCTCGGTATGGCTCAAACGCGGCTCGGGAGAAATGCTGATCGTTGTGAACGGTCTGCATTCCTTGCAGGAAACAGACTATCAGGTATGGCTGCAGGATGAGGAGCGGCTGTCGAGCGCCGGCTTTATGCTGGTTCAGGGTCCGCAGGGAAAGAGTTATTATTACGGGTTCGGCGCTGAGAACGCGAAGCGGATCGTGGTCAGCATGGAACCCAAAGGGGGGAGCCGGAGCCCGACCGGGCCCGAAGCCGTCCTGGTGAATATGGGGCCTTGA	MKLSKHNLEHLVQGDIGCRAYPEEKLVDYVMKRLPYAESRNLELHLKECEACSGTAAEWADLMGAEDLAMPFHESDVFGQELFRSRDMDGEQLGSTQPAGTEPAIRGAVQDQAPNDGPIPPDRLRRRLMRAAYIRSFRSKVRIRKHAAFHAISGALLILLIAGLFTLKGNDVQTQAAFEHTVSQRIADMQSDDTERYVIQPVEPFYGSGSVWLKRGSGEMLIVVNGLHSLQETDYQVWLQDEERLSSAGFMLVQGPQGKSYYYGFGAENAKRIVVSMEPKGGSRSPTGPEAVLVNMGP				NA	NA	NA	NA	NA
AK002_01694	1032			hypothetical protein	ATGTGGCGTGCAGATGCTTTATTGGAATCCATGTATAACGAGGCTGTGAATAAAACGAAAGACAGTCAGGCTGCCATGAGCGCCGAAGAGCGCAATCGGTATTTGAAGCAAGCGCTTCGGCGATTGATCGGCGAGTTCGAGGCCAACGAAAATCACAAGCCCGTCCTGCTCGAACAGGAATCATGCGACGGTTATATTCGCGAAAGGGTAGAATTATCAGCCGTACCGGGCGTATCCTTTGCGGCTTATATCCTAATCCCGGAAGATCAGCGGAAGCCGATGCCCGCAGCCGTCGCCGTTCATGGCCATGGCTATGGAAGCCGGGAGATTATAGGGCTGAGGCAGGACGGATCCAGCGATCCGGATCCGCCAGGTATACATCGGCATTTCGCGGTTCAGTTGGTGCGGCGAGGCATGGTGGTGATCGCTCCGGATGTGGCCGGTTTCGGAGAGCGCCGCCTAGCCGCCGATCTTGCACGGAACCCGGAAGCCGCGAACTCCTGCCACCGGCTGTCCACCCAGCTGCTGATGCATGGCAAGACGCTCGCCGGTCTCCGCGCAGCCGAAACGCTAAGGGCACTGGACTATCTGGCCGAGCGTCCCGAAGTCCAGCCTGGCAGAATCGGCATCATGGGTTTTTCGGGAGGCGGCCTGATCTCGTTCCTGTGCGCGGCGCTGGATGAACGGATCCGGGCTGCGGTGCTTGCCGGTTATCCCAACACCTTCATGGACAGCATTATGGCGATGCAGCACTGTATATGCAATTACATTCCGGGTATCCTGAACCATGCCGAGCTGCCGGAATGGATAGGGCTGATCGCTCCCAGATCCTTGTATCTGGAGTCGGGAGCCGATGATCGGATATTTCCGGCTGCGGGTTTTAACTCGGCGGTTGAACAGCTCAGGGTAACCTATCGGCGTGCCGGCGCGGAGGATAGACTTCAAGCCGACCTGTTTCCTGGAGCGCACGAAATTAGCGGCCGTCATTCGTACGATTGGCTGTTCGAACGGTTAAGCAGCCCGGAGAATTGA	MWRADALLESMYNEAVNKTKDSQAAMSAEERNRYLKQALRRLIGEFEANENHKPVLLEQESCDGYIRERVELSAVPGVSFAAYILIPEDQRKPMPAAVAVHGHGYGSREIIGLRQDGSSDPDPPGIHRHFAVQLVRRGMVVIAPDVAGFGERRLAADLARNPEAANSCHRLSTQLLMHGKTLAGLRAAETLRALDYLAERPEVQPGRIGIMGFSGGGLISFLCAALDERIRAAVLAGYPNTFMDSIMAMQHCICNYIPGILNHAELPEWIGLIAPRSLYLESGADDRIFPAAGFNSAVEQLRVTYRRAGAEDRLQADLFPGAHEISGRHSYDWLFERLSSPEN				NA	NA	NA	NA	NA
AK002_01695	3252			hypothetical protein	ATGTCACGAAGATCAGGCAAATGGTTCAGGTTATTGTCGGTGCCTCTGGTTCTCGCATTCTTGCTTGGCTCCATGCCGGGGATCGGATCATCCAAAGCCTATGCCTATACCGCATCGGATGGGGATACGGCGATGAAAGCTTATAACGAAACATTCTGGGACCCTAACGCCAAGATGTTCTGGAAGGACACCAAACGCGACAAGCACCAGGACTTCTGGGTGGAGGCAGAGCTGTGGGAATTGGTCATGGATGCGTACCAGCATACTTCCGACCCTGCTTTGAAGGCTGAACTCAAAACGCAGATCGACGATGTTTATGACGGCACCGTAGCCAAGTACGGCGAAGACTGGACGAATAATCCGTTCAATGACGATATCATGTGGTGGGCGATGGGCAGCGCCAGAGCCTACCAAATCACCGGGAACCCAAGATACTTGGAAGCAGCGAGGTTTCATTTCGATTTCGTGTACGATACGCAGTGGGACGAAGAGTTCGCAAGCGGCGGCATTTGGTGGCTGAACAGCGACCACAACACCAAGAACGCATGCATCAATTTCCCGGCGGCTCAAGCAGCATTGTATCTTTACGATATTACGAAGGATGAGCATTATCTAAACGCGGCAACCCAAATATTCAGATGGGGCAAAACGATGCTGACGGACGGAAACGGAAAAGTATTCGACCGGATCGAGCTCGAACGCGGTGCGGTTCCGGACGCCACTCACTACAACCAGGGTACATACATCGGAGCGGCCGTCGGATTGTATAAAGCGACCGGAAATCCGGTTTACCTCGACGATGCGGTCAAAGCCGCAGAGTTTACCAAGAGCCGTCTGGTGGATGCAAACGGCGTGTTGAACTATGAAGGTCCCAACGGGGATCTGAAGGGTGGCAAAACGATCCTGATGCGCAATTTGGCCCACCTGCAAAAAACACTCGATGAGACCGGGCAGCACTCGGAGTTCAGCGCTGAATTCGACGAATGGCTTGCATTCAATGTCGAAATGGCCTGGAGCCACCGCAATCCGGAACAGATCGTGGATGGAAACTGGGCGGGACAGCTGCTGTCCGGAACCTATGAGTCCTGGTCCTCGGCTGCTGCCGTTCAAGCTCTGAACGTCATCAAGCCGATGGAAGCAGATCTTCATTATGGCGTTAAGAACCCATTCGATAAAATCGAAGCGGAACGCTATAATATCGGTTCCGGTTTCGTGCTGGAGGGTGCGTTTGAAGGCACGCTCCAACTGGGAGGAATTCAGCACGGCTCTTATGCCGCATACAAAAATGTGGATTTCGGATCTGAAGGGGCGATCGGCTTTATTGCCAGGGCGTCCAGCGGAACGGGCGGAGGCCATATCGAGATCCGGCTCGACTCCAAGGACGGCCCCAAGGTTGGGACCTTGAACGTAGAGGGAACGGGCGGCTGGAATAACTATATCGATGCCGTTACCCTCCTTAAGGACGACCAGGGATCGCCGAGCTCCATTACCGGCGTCCATGATGTGTATCTTGTCTTCAGCAAAACGAATGACGATTATTTGTTCAATTTGAACTGGATTAAATTCACGACGACCGATCCGACCGAAACCGATGCCTATGCCAAGCTTAAGGCTGGAAATTACGACAGCAGCGAAGGTCTCAGCAAACATGCCGAGCTTGGGTACTTAGACGGTATCCATCACAATGCTTATGCGGCTTATGAAGGAATCGACTTTGGATCGGGCGCGGCAGGCGTGACCGTCCATGTGGCGAGCGGCAATCAGGGCGGAACGATCGAAGTCAGGTTGGACAGTCTGGATGGGCCTACCGCAGGCGTCATCCCCGTTCCGGCGCTCGGAAGCTGGGATCGTTGGGTCGATATTATGGCGAATATCGATGACACCCTGGCCGTGGGGGTCCACGATGTATACCTGGTTTTCAAGGGAGCGAACGGCAGCGACTATCCCCTTAATCTGGAGTGGTTCACCTTTACAACCATGAAAGGAAAAGCCAGGGATGCTTACGGCAAGCTGGAGGCCGAAAACTATACGAACGGAGTAGGCTTCGGCAATGAAACCGGAGGCGGGGAAACCTACCTGGCCGGCATGTTTGGACCGAATAATCCTTATGCCATGTACAATTACATCGATTTCGGCAGCGAAAGCCCAACCCAATTCCATGTCAATGCGGCCAGCGACACTAACGGCGGGACAATCGAGGTCCGACTGGACAGCCTTAACGGTCCGGTTATTGCTGCCGGAACCGTCTCGGGAACCGGAGGCTGGCAAAATTTCAAGGTTTTCTCGACGGACGTAACGACTCCCGTAACGGGAAAACACATCGTATTCATGTCTTTTAAAGGCGGAGACTGGTTATACAACTTCGATAAATTCACCTTTGGCGACCCAGCTGTATTCACGGAGCCTGCCCCTCCTACGATACCCGAAGAGGACGATGTTGCTCCGGGCGAGGTAGAGAACGTGCAGGTGAAGCGCGGAGAAGGCAGTGTGACGCTGTATTGGGACGGTCCTTACGATATCGATGCTCAAAAAGTGCAAATTACGCTGCGGAGCGATGGGCAGCAGGTCGGAGAAGTCCTCGAGGTCAATCGCGGAATTCAAACAGCGGTGATACAAGGAATCGAAGCTGGCAAGGATTATTCGCTTTTCATCCGGTCCAAGGATCTGTCCGGCAATGTTTCGCAAGGGATCACCCTTGAGGTAACCGACTCTCCGGCCTTCTCTCTATCTGTGAACGGCAAGAGCTTGAAAGACGGCGATTCCATGGAGGATTACACGCCCCTCAGCTTCAAAATTCTGGACTCTTCCATCCGTTTTGCCGAGATCACCATCGACGGAAAGGCATACACCATCGATCCGGTGACCATGGATCCAATCGACATTGATTTGGCCGGCAACTTGGGCGATAAAACCGCCACGATTACGACCGAGGACCGCTCAGGAAACAAGCTTCAGAAAAACCTCCGGTTCCGGGTCATCACCAGCGTGAATTCCATGAAACAATTAGTCGAGCGATTCACGGATTCAGGCGATGTACGCGGTCCACTCGTTCCCCAGCTGAGCAATGCCCTTAACCAGGTCCAGCATCATCTGGATAAGGGAAGACGCGATCAGGCCTTGAAACATATGCAGAATTTCACCAAGCACCTGAATAAAGAGGCTATGGGCCGCAACGTCAACGAGCAAGCCAAGGCGATATTGAATACGGATGCCAACTTCCTGATCCATGATTGGCAGGATGACCTGGAGTAA	MSRRSGKWFRLLSVPLVLAFLLGSMPGIGSSKAYAYTASDGDTAMKAYNETFWDPNAKMFWKDTKRDKHQDFWVEAELWELVMDAYQHTSDPALKAELKTQIDDVYDGTVAKYGEDWTNNPFNDDIMWWAMGSARAYQITGNPRYLEAARFHFDFVYDTQWDEEFASGGIWWLNSDHNTKNACINFPAAQAALYLYDITKDEHYLNAATQIFRWGKTMLTDGNGKVFDRIELERGAVPDATHYNQGTYIGAAVGLYKATGNPVYLDDAVKAAEFTKSRLVDANGVLNYEGPNGDLKGGKTILMRNLAHLQKTLDETGQHSEFSAEFDEWLAFNVEMAWSHRNPEQIVDGNWAGQLLSGTYESWSSAAAVQALNVIKPMEADLHYGVKNPFDKIEAERYNIGSGFVLEGAFEGTLQLGGIQHGSYAAYKNVDFGSEGAIGFIARASSGTGGGHIEIRLDSKDGPKVGTLNVEGTGGWNNYIDAVTLLKDDQGSPSSITGVHDVYLVFSKTNDDYLFNLNWIKFTTTDPTETDAYAKLKAGNYDSSEGLSKHAELGYLDGIHHNAYAAYEGIDFGSGAAGVTVHVASGNQGGTIEVRLDSLDGPTAGVIPVPALGSWDRWVDIMANIDDTLAVGVHDVYLVFKGANGSDYPLNLEWFTFTTMKGKARDAYGKLEAENYTNGVGFGNETGGGETYLAGMFGPNNPYAMYNYIDFGSESPTQFHVNAASDTNGGTIEVRLDSLNGPVIAAGTVSGTGGWQNFKVFSTDVTTPVTGKHIVFMSFKGGDWLYNFDKFTFGDPAVFTEPAPPTIPEEDDVAPGEVENVQVKRGEGSVTLYWDGPYDIDAQKVQITLRSDGQQVGEVLEVNRGIQTAVIQGIEAGKDYSLFIRSKDLSGNVSQGITLEVTDSPAFSLSVNGKSLKDGDSMEDYTPLSFKILDSSIRFAEITIDGKAYTIDPVTMDPIDIDLAGNLGDKTATITTEDRSGNKLQKNLRFRVITSVNSMKQLVERFTDSGDVRGPLVPQLSNALNQVQHHLDKGRRDQALKHMQNFTKHLNKEAMGRNVNEQAKAILNTDANFLIHDWQDDLE				NA	NA	NA	NA	NA
AK002_01696	1350			hypothetical protein	ATGAGACAGGGTGCAAAAGGGTGGGCCAGCGCAATCATCGCTTTATTGTTCTTCTCAAGTCTGCTGGCCGCATGCGGCGGGAACGGCGGCGGAGGCTCCGGTTCGGCAGACTCCGGGAACGCGCCGTCCGGACAGGATAACGCGGGATCCAGCAAACCCGTCGAAGTCACGATGATTACTTGGGAGTCGGCGGCCATGAACGAAAAAATCATGGCATCCATGAAAAAATTCGAAGAGGAAAACCCCGACATCAAAGTAAAACTCATCCCTACGCCATTGGATAATTACGGCGTCAAGATCAACGGAATGATCACAGCCAAGAAAGCGCCGGACATCTTCATGACCGGCAACGACATGCTGCTCGATAATGCCGGCAAGGGACTTCTCTACGACTGGACGGAGCTTGCCACCCAGGACAAAGCGTTCATGGAGGGCTTTTACGACGGCGTGGTGGACAGCTGGTACTATGAGGGCAAATTGGTTGGCTTACCGGGTCTCTTGAACACGTACGGCATTTTTTACAATAAAAAGTCCTTCCAGGAGGCAGGCCTTCCGGAACCGAAAATCGGCTGGACCTATGACGAATTTTTTGCGGCGATGGAGAAACTTTCGAGCAATCAAGGCGGCGTGCAGCAATTCGGTTATTATGCCCCCCTTGATCCCTTCCACGTCTCACTCTATTCGGTTTCCGCGGGCGGCGCTCCCTTTGCCGACGCCATTATCAACCCGACGAAGGTCGAAATCAGCGACCCGTTCAGGGAAGGCGTCGAAAAGTATAAGTCCGCGATTGCAAACGGCTACATGAATCCCCCTACCTTTGATTTAACGAATGCCATGAGCTCGTTCAAACAAGGCAAAGTTCCGATGACCCTGCAAGGACAGTGGGTAGCGGACGATCTGATCCGCACGGCTCCCAAGGAATTGGAATGGGGCTACGCGCCGATGCCGGTGGTGAACAGCCAGACCGAAATTTATGACGCCGTAGGCTGGTCCAGCCCTGCAACGCTCAAAAATCCGGAAGCGGTATGGAAAGTGCTCAAGTACCTGGACTCCAAAATGTATGAAGAGGTCCTCCCATCGACCCCGGTCGCTCCTGCGGCTTATCAAGCATCTTCCGCAGCTTATTACGATGCGCTGAAAGCGGCGGGCCATCCGGAAGTGGGCGAAGGCCTCGACCATATTCTGAAATCCCCGAATACGCAGCCGGTTCGTTTCCTGTCGACGTGGGCGGGCAAAGCGTACCCGTTCATAGAGGCCTCTTGGAAAAACATACTGATGGGCAAAGCGCCGATCACCGAACTGGATGTGATGGCTGAAAAAATCAATAACGTGATAACCACCGGCAAATAG	MRQGAKGWASAIIALLFFSSLLAACGGNGGGGSGSADSGNAPSGQDNAGSSKPVEVTMITWESAAMNEKIMASMKKFEEENPDIKVKLIPTPLDNYGVKINGMITAKKAPDIFMTGNDMLLDNAGKGLLYDWTELATQDKAFMEGFYDGVVDSWYYEGKLVGLPGLLNTYGIFYNKKSFQEAGLPEPKIGWTYDEFFAAMEKLSSNQGGVQQFGYYAPLDPFHVSLYSVSAGGAPFADAIINPTKVEISDPFREGVEKYKSAIANGYMNPPTFDLTNAMSSFKQGKVPMTLQGQWVADDLIRTAPKELEWGYAPMPVVNSQTEIYDAVGWSSPATLKNPEAVWKVLKYLDSKMYEEVLPSTPVAPAAYQASSAAYYDALKAAGHPEVGEGLDHILKSPNTQPVRFLSTWAGKAYPFIEASWKNILMGKAPITELDVMAEKINNVITTGK	PGPT0016545_2989	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_01697	900	dasC_5	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGCAAGCGGAAGTACGGCCGGAACTAAGAGGAAACCTGAATCCAGCGGACATACGCGTGAAGCGGAGAGCAAGATTCAATTGGATTGACGCCTTTCGATTTATCATCCTGGCCATCGGCGCCATAGCGATGCTGTTCCCCCTCTTCTGGATGGTCACCATTGCGCTGAAGAGCAACAATGACGTGTTCAAAATTCCGCCTGAATGGTTTCCGCGGGAATTTCATTGGTCCAATTTTGTGACCGGAACGAAGGAAATCAACTTTTGGCAAACATTCGGGAACTCCCTGTTCATTGCCATCACCTGCACGATCGGGCAGATTATCAGCTCGGTGCTGGTCGGGTACGGGCTCGCACGGCTGAAGTTCCCGGGCCGGAAGCTGTGGTTCTCGCTATTCATAGGAAGCCTCATGCTTCCCGGATTCGTAGGCATGATTCCCATGTTTAATCTGTACACCAGCATCGGATGGTACGATTCGTGGCTGCCTATCATCGTGCCCGCTTTTTTTGGAAACGCCACGTTCTCGTTCCTGTTCGTCCAGTATTTAAGAACGATTTCCGTTTCGTTTGACGAGGCGGCCAAAATCGACGGGGCTTCGGACCTTTATGTGCTGCTTAAAGTATTGGTGCCCATGTCGATGCCGGTGATCATGACCATGGTGATCTTTGCGTTCCAAGGCGCATGGAATCAATATTTGGAACCCCTGCTCTATATTATCGACCCAAGCAAATGGACGCTGTCTCTGGCAATGGCTACCTATACAGGCACCTATGCGACCGCCTGGAATTTGTTCATGGCCGCGGATCTGATTTATATCCTGCCGATGCTGCTGCTCTTCTTCTTTGGCCAGAAATTTTTTATGCAGGGGCTCGGCTCCATGAATTCCGCAGGCTTGAAGTAA	MQAEVRPELRGNLNPADIRVKRRARFNWIDAFRFIILAIGAIAMLFPLFWMVTIALKSNNDVFKIPPEWFPREFHWSNFVTGTKEINFWQTFGNSLFIAITCTIGQIISSVLVGYGLARLKFPGRKLWFSLFIGSLMLPGFVGMIPMFNLYTSIGWYDSWLPIIVPAFFGNATFSFLFVQYLRTISVSFDEAAKIDGASDLYVLLKVLVPMSMPVIMTMVIFAFQGAWNQYLEPLLYIIDPSKWTLSLAMATYTGTYATAWNLFMAADLIYILPMLLLFFFGQKFFMQGLGSMNSAGLK	PGPT0016540_2178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_01698	891	ngcF_4	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGGGAACCAATAGAAAGCTACGCGGCTGGGTCATCGGCTATCTGTTCATTTTGCCGTCCATTATCGGCTTCAGTGTTTTTGTCGGATATCCCCTGCTTTCGTCCATGTATTATGCCTTGACGGAATGGAGCGGGTACGACACCCCACGTTTTATCGGCTTCGAGAACTTTAGATACCTGTTCACGGAGGATCCGGCTTTCTGGCCATCGATCCGCGCGACGTTTTATTTCGTAATCCTGAGTGTTCCGTTATCGCTGATCCTAGGTTTGTTGTTGGCGATGATGCTGAACAAAAACCTGACCGGCATCAAATGGTTTCGCACCATCTTTTATCTTCCGGTCGTCGTTCCCTCCATCGCTACGCTCACGTTGTGGCAGTTCATATATGAGCCGCAATACGGGCTGGCGAATTCCCTGCTAAGGGAGTTCGGGCTGGCGCCGGGCACATGGCTGACGAGCGAAACGACAGCGCTTCCATCCATCGTGTTGATCGGTTTATGGCAGGTCGGTTCCAGCGTCATCATCTTTCTGAGCGGGCTGCAGTCCGTTCCGCAGGACATGTATGAAGCCGCCGAAGTCGACGGCGCCTCCCGATGGCGAATGTCGATCAATATTACGCTTCCGATGATCACGCCCATCCTGTTTCTGCAGCTTATACTCGGCATCATCGGCGCATTCCAGGCGTTTAACCAGGTTCAGGTGCTGACCGGAGGCGGACCGAATTTCTCCACTTCCTTGCTGAATTACAAAATCTATACCGATGCCTTCAACGGAAGAATGTTTGGTTATGCCATCGCGGAGGTATGGGTTCTCTTCGTTATCATCATGATTTTTACCGTGATTTCTTACCGGTACTCCAACCGGTTCGTTTATTACGAAAGCGACAAATAA	MGTNRKLRGWVIGYLFILPSIIGFSVFVGYPLLSSMYYALTEWSGYDTPRFIGFENFRYLFTEDPAFWPSIRATFYFVILSVPLSLILGLLLAMMLNKNLTGIKWFRTIFYLPVVVPSIATLTLWQFIYEPQYGLANSLLREFGLAPGTWLTSETTALPSIVLIGLWQVGSSVIIFLSGLQSVPQDMYEAAEVDGASRWRMSINITLPMITPILFLQLILGIIGAFQAFNQVQVLTGGGPNFSTSLLNYKIYTDAFNGRMFGYAIAEVWVLFVIIMIFTVISYRYSNRFVYYESDK	PGPT0016535_6961	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_01699	1332			hypothetical protein	ATGTTTACGTTGGACTATTTTGCTGTTTTGCACGATTTGCACCGCACGGTATCCGAAGGCACCCCGGATGATCCGAAACTTGGGCATATGTTCAGGAGCATGCTGGACAACACGCTGGGATCGACCATCCGAAGACAGCCAGACGGCACTACCTTTGTTATTACCGGCGATATTCCGGCCATGTGGCTGAGGGATTCGGCGGCGCAAATCCGGCCGTTCCTCGTTCCGGCAGGCCAAGACCCCAGACTGGCCGATCTGATCGAAGGGCTCGTACGGAGGCAGTCGGCATTCATCCTGCTGGATCCGTACGCCAACGCGTTTAATGATTCGCCTTCCGGTCAAGGCCATCAGAACGATCGCACCGCCATGAACCCCTGGCTTTGGGAGCGCAAATATGAGGTCGATTCATTGTGTTACCCCCTCCAGCTTGCTTACCTGTTGTGGAAAGAAACCGGCAGAACCTCTCACCTCGATCACACATTCCATTCAGCTGCCAAGGCGATTCTTGCCCTCTGGCGAACCGAACAGCATCATGAATCGAAATCGCCGTATTACTTCGAACGCTTTAACTGTCCTCCAAGCGACACGCTGCCCCGCGGCGGTAAAGGCACGGAAGTGGCTTATACCGGAATGACCTGGTCCGGCTTCCGTCCGAGCGACGACGCCTGCGCCTATGGATACCTGATTCCGTCGAATATGTTCGCCGTCGTCGTGCTCGGTTATCTGGCGGAAATTTGCCGAGAGGTCCTGCGAGATCCCGAGATGGAGGCGGAAGCGGCGAAACTGGCGGATGAAATCCGGCATGGCATCGAGATGTACGGCGTGCTCGACCATCCCGAATACGGAAGAATTTACGCCTATGAGACGGACGGAATGGGAAACCACCTGCTTATGGATGACGCTAACGTCCCCAGCCTGCTGTCCATCCCCTATTTGGGTTATGCAAGCGCCGATGACCCGGTCTATCAAAATACCCGCAGGTTCGTGCTGAGCCAGGCCAATCCGTATTATTACCAAGGCACTGCCGCCTCCGGCATCGGCAGCCCCCATACGCCGGACCGTTATATATGGCCGATTGGGCTGGCCATTCAGGGCTTGACGACCACCGATCAAGAGGAGAAGCTTCGGCTGCTTCGGTTAATGGCGGATACCGATGCCGGCACCGGCATGATGCATGAAGGATTTCTGGTCGACGACCCTGCCCGTTATACCCGCCCATGGTTTTCTTGGGCAAATATGATGTTCTGCGAGCTGATCATGGACTATAACGGCATTCGGGTCAAAGCGAATGAACGCCTAGGAGGTCATCGGGATCATCATGGGAACCAATAG	MFTLDYFAVLHDLHRTVSEGTPDDPKLGHMFRSMLDNTLGSTIRRQPDGTTFVITGDIPAMWLRDSAAQIRPFLVPAGQDPRLADLIEGLVRRQSAFILLDPYANAFNDSPSGQGHQNDRTAMNPWLWERKYEVDSLCYPLQLAYLLWKETGRTSHLDHTFHSAAKAILALWRTEQHHESKSPYYFERFNCPPSDTLPRGGKGTEVAYTGMTWSGFRPSDDACAYGYLIPSNMFAVVVLGYLAEICREVLRDPEMEAEAAKLADEIRHGIEMYGVLDHPEYGRIYAYETDGMGNHLLMDDANVPSLLSIPYLGYASADDPVYQNTRRFVLSQANPYYYQGTAASGIGSPHTPDRYIWPIGLAIQGLTTTDQEEKLRLLRLMADTDAGTGMMHEGFLVDDPARYTRPWFSWANMMFCELIMDYNGIRVKANERLGGHRDHHGNQ				NA	NA	NA	NA	NA
AK002_01700	702	sigK_2		RNA polymerase sigma-28 factor	GTGCCTGGATTGTTTACCGCAATTGCTTTGTTCATTAAAGAGTTGACCCTGCTCGTTTCGTATGTGAAAAACAACGCGTTTCCCCAGCCTCTGACCGAGGAGGAGGAAGCTAAACATCTGCAGCGAATGGCCGAAGGCGATCCTCAGTCGCGGAATAAACTGATTGAGCATAATCTTCGGCTGGTCGCGCACATCGTCAAAAAGTTCGATAACACCGGCGAGGATCTGGAAGATCTCATATCCATCGGCACCATCGGTCTGATCAAAGCCATTGAAAGCTTTCGGCCCAACAAGGGGACGAAGCTGGCGACGTTTGCTGCCCGTTGTATAGAAAACGAAATATTGATGCACTTGCGTTCGCTTAAGAAAACGCGCAAGGACGTATCCCTGCATGATCCGATCGGAACGGACAAAGAGGGGAATGAGATTACTCTAATAGATATCCTCGGGACGGAAGCGGATGACATTGTGGATGCCGTGCAGCTGAAAATCGAAAAGAGCAAAATTTATCGAAATCTGGACATATTGGACGACCGCGAGAAGGAAGTTGTCATAGGACGGTTTGGATTGGAAGCCGGGGGAGAAGAACGGACGCAGCGGGAAATCGCCAAAGAACTGGGAATTTCGCGCAGCTACGTGTCGCGCATTGAGAAGCGGGCACTGATGAAGCTGTATCATGAGTTTTATAAGCAGAAACGATAA	MPGLFTAIALFIKELTLLVSYVKNNAFPQPLTEEEEAKHLQRMAEGDPQSRNKLIEHNLRLVAHIVKKFDNTGEDLEDLISIGTIGLIKAIESFRPNKGTKLATFAARCIENEILMHLRSLKKTRKDVSLHDPIGTDKEGNEITLIDILGTEADDIVDAVQLKIEKSKIYRNLDILDDREKEVVIGRFGLEAGGEERTQREIAKELGISRSYVSRIEKRALMKLYHEFYKQKR	PGPT0014795_1391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK002_01701	273			hypothetical protein	ATGCACTTTATGAAAGAGAAGAATGAATTCGTGATTTATGTCGTCTCGTTATCCAACATCAAGCGCTACATGTCCATCGAATTTATCGGCGGTTCTTGCGGGTATATCATCGCTCAAAGAGCGCTTCAATCCGATCTGCTCGGCATGGTCGGCAGCATCATCGCCCCGATGGCGATCCGCCGCGTGCTGCAATGGCAGCAGCTCAAATCCGAGCGTCATGCGCACCTGGATCTGCGCTCACTCTTCAAGCAGAGCGCGCCGAACCCTACATAA	MHFMKEKNEFVIYVVSLSNIKRYMSIEFIGGSCGYIIAQRALQSDLLGMVGSIIAPMAIRRVLQWQQLKSERHAHLDLRSLFKQSAPNPT				NA	NA	NA	NA	NA
AK002_01702	279			hypothetical protein	ATGAACGGGTTTGAGAAAGAAAAACGAGCGAAGTCTACGGATTTGTCTACCGTCGAGTCCCAACGGAACGATCTGGTGGCAGAGGAATTTCCCGAGGGGCCCTACGGTTCCGATCTTCGCAGCGATTCCCTCGGCAAGAGCACGCCTTGGCGCAAGGATCAGCGGCCTCCGAATCGGTTCGATTATGAGGATCGCCAGCTGCACATGGGCATCGAGCGGGAGTATCCCGGCGAAGACGAGAGCATGCAAGCAGATCCGGGACAAAAGAAACCTGAGTAG	MNGFEKEKRAKSTDLSTVESQRNDLVAEEFPEGPYGSDLRSDSLGKSTPWRKDQRPPNRFDYEDRQLHMGIEREYPGEDESMQADPGQKKPE				NA	NA	NA	NA	NA
AK002_01703	837			hypothetical protein	ATGCTGCAAGGTTTAACAGGCGCAGGGCTCGGAAAACTTGAAAGCGATTTACAGTTTATCGAGCTTGCGGCCAAATATGAATTCCAATGCGTCGATATCGATGCCAAAGGTCTTGTGGACCGGCTTGGCGCGGAAGCGGCTGCCGAAATGCTGCAATCCCGCCAACTGGAAATCGGGGCGATCGGTCTCCCGGTGGAATGGAGAGGGTCGAACGAGCAGTTTCTAAGCGGACTCGAGAAGCTGCCGGCCGCCGCGGCCGCCGCCAAGGCGCTTGGCTGCACTCGCTGCTGTACATACATTCTTCCTTCCACGGACGCGCCTGCAGCCCATTTCATGGCGCTGGCCACTTCCAGGCTGCGGGCCTGCGCCAGCATTCTGGGAGCATACGGAATCCGATTGGGCCTGGAGTTCGTCGGTCCGCACCATCTGCGCACCCAATGGAAGAACCCGTTCATATGGACGGTACAAGAGACGTTGGATTGGATCGATGCCATCGGGGAGCCGAATGTCGGGCTGCTGTATGATGCCTATCACTGGTACACCAACGAGATGACAACCGACGATATCCGGCAGCTGCGCGCAGACCAGATTGTTCATGTCCACATCAACGATGCCAAGGACATTCCAATTCGGGACGTACTCGATAATGACCGCCTTTACCCGGGTGAGGGCGTGATTGATTTGCCAGGCTTCCTTCAGGCCCTGAACGATATCGGCTATAAGGGCCCGGTAACGCAAGAAATTTTGACGCCTTCCACACCGGCGGGTGCTCCAGAGGAGCTGGCTGCCAAATCGCGCCAAGCCTTCAACAGCGTATTCGGCGCTGCAGGTCTGTAA	MLQGLTGAGLGKLESDLQFIELAAKYEFQCVDIDAKGLVDRLGAEAAAEMLQSRQLEIGAIGLPVEWRGSNEQFLSGLEKLPAAAAAAKALGCTRCCTYILPSTDAPAAHFMALATSRLRACASILGAYGIRLGLEFVGPHHLRTQWKNPFIWTVQETLDWIDAIGEPNVGLLYDAYHWYTNEMTTDDIRQLRADQIVHVHINDAKDIPIRDVLDNDRLYPGEGVIDLPGFLQALNDIGYKGPVTQEILTPSTPAGAPEELAAKSRQAFNSVFGAAGL	PGPT0018495_289	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018495-iolI-K06606	NA	NA
AK002_01704	966	axeA	COG3458	Cephalosporin-C deacetylase	ATGAATACTATTGAGCAGCGTAAGAAAGAGCTTGGCAACTTGCGTCCGGAACCAACGATCGACGAGCAGGCTTTGAATGTTTTTTGGGAGGGGGCGCTAAAGTCGCATGGGGACAGACCGCTTCGCATGGTTAGTAAACCGGAAATTACGCCATATCCCCATATGGAGGTATCTCGGGTATCCTATCATGGATATGATGATACTCCTATCAACGCTTGGTATATAGCGCCGGCTAATCATTCATCGAAAGCAGAGACTAGGCCGTGTATCGTAACCTTCCCGGGTTATACCGGAGACCGCGGATTTCCTGAACGGTATGCTCATTGGCTGATGCTGGGGTATACGGTATTTGCCGTTGACGTCAGGGGTCAGGGCGGGGAGACGGGGAATTTGCTGCCGCTGGACAGCGGCGTGGTTAAAGGCTGGGTGTCGCAGGGGATTACGGATATCCATCGCTCCTATTACATGGCCATTGCCATGGATGCCGTGAGAGCCGTGGATGCGGCATCACGGCAGCCGGGAGTAGACCCTGCAAAAATCGCCGTGGTGGGCGGGAGCCAGGGCGGCGGCCTGTCGATGCTGGCAGGGGCGCTGAATCCCAAGGTTGCGGCCATCGTAGCCGACATTCCCAACATGTGCAGGATGGATTACGGCATTTTGTATTCGGTCAGCTCGCTGAACGAAATCGCCCAATACATAAAGCGGTACCCGGAGCAGCTGGATCAGATTTTGGCACATCTCGCGCATTTTGACATGCTGAATCTCGCGCCGAGAATCCAGGCCCCGATCATGGTGTCCGTCGGATGGAAGGATACGGTTTGCATGCCCGAGACTATCTATGCGGCTTACAACCGGATTGAGGCGGCAAAAGAAATCAGGGATTATCCGTTCTCCGGCCATGAAGTCAGTGAGTACCAGAAGCGGGAGGGTGTCTTGTTCCTGGAACGGGTATTTAACCGGAGATAG	MNTIEQRKKELGNLRPEPTIDEQALNVFWEGALKSHGDRPLRMVSKPEITPYPHMEVSRVSYHGYDDTPINAWYIAPANHSSKAETRPCIVTFPGYTGDRGFPERYAHWLMLGYTVFAVDVRGQGGETGNLLPLDSGVVKGWVSQGITDIHRSYYMAIAMDAVRAVDAASRQPGVDPAKIAVVGGSQGGGLSMLAGALNPKVAAIVADIPNMCRMDYGILYSVSSLNEIAQYIKRYPEQLDQILAHLAHFDMLNLAPRIQAPIMVSVGWKDTVCMPETIYAAYNRIEAAKEIRDYPFSGHEVSEYQKREGVLFLERVFNRR	PGPT0011020_562	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-CEPHALOPORIN_METABOLISM,PGPT0011020-cah-K01060	NA	NA
AK002_01705	372			hypothetical protein	ATGACAGCAGGCGAACTCAAACAGGATCTTTTGAGGGTTTACAACGCGATAAATAAGAAAATATTTAACGTGGGTGTAAAGCAGCAAAAAGTCGATTTCGTTGGCAACAAAATCATCATTGTGTCGAGGAATAGTAGAGTCCCCGTCCTAAAACTGCTGGATGAGAATTACCCCCTCTCTACCCGGCAGTTGGACCACCTTTTATTCCAGGTGTTCAAGCAGGAGATTAAAACCAGCCTGGAAGAGAAGTTTCCGTTTAAAATCATCTCCATTCTTAAAGATTATGATGCAGAGACCGAGTTTTCCGGTACCATCGTATTCTTGGAGAAGGAGATAGAAACATATCTGAACGACATGCCGGAACTCGGGTAG	MTAGELKQDLLRVYNAINKKIFNVGVKQQKVDFVGNKIIIVSRNSRVPVLKLLDENYPLSTRQLDHLLFQVFKQEIKTSLEEKFPFKIISILKDYDAETEFSGTIVFLEKEIETYLNDMPELG				NA	NA	NA	NA	NA
AK002_01706	780	btuD_7		Vitamin B12 import ATP-binding protein BtuD	ATGACTCACAAAATCGAAATTTCGGGCGTCAGCAAATGGTTTCGCAGAAACGGGGAAGAGATTCCGGCCATGCGGGAGACGAGTCTGGCGATCGAGGAGGGGCGTTTTGTCAGCATAATCGGTCCCAGCGGTTGCGGCAAATCCACCCTGTTCAACATTATCGCCGGCCTGATGCCTCCTTCCACGGGCAAAGTGATGGCGGACGGAAAGGATATCGTCGGTACGACTGGTTATGTGGGCTATATGCTGCAAAAGGACATGCTTCTGCCATGGCGCACCATCCTCGATAACATCATTCTGGGCATGGAGGTTCGGGGAGTTCCCTACAAGGAAGCCGTGGAGAGGGCGCTGCCCTTGATGGAAAAATACGGTCTGAAGGGCTTTGACAAGCATTATCCGAAGGAACTCTCGGGAGGGATGAAACAGCGTGCCGCGCTGCTGCGGACGCTGCTCTACGACAGGGACATCATTTTGCTGGACGAGCCGTTCGGTGCGCTTGATGCACAGACCCGGTTGACCATGCAGAACTGGCTGCTGCAGATCTGGGAGGACTTTGGCAAAACGGTGCTGTTTGTCACCCACGACATTGATGAAGCGATTTACCTGTCGGATGACATCTACGTGTTCTCGTCCAGGCCCGGCCGGATCAAGTCCAAAATCACCGTGACGATGGAGCGTCCGCGCAAAACGGAAGACATGACGTCGCCGGCATTCATGGAGTTGAAGCATCATCTCATGGACCTGCTGTCGGCTGGGCATGAGGAAGAGCAAATATCGTAA	MTHKIEISGVSKWFRRNGEEIPAMRETSLAIEEGRFVSIIGPSGCGKSTLFNIIAGLMPPSTGKVMADGKDIVGTTGYVGYMLQKDMLLPWRTILDNIILGMEVRGVPYKEAVERALPLMEKYGLKGFDKHYPKELSGGMKQRAALLRTLLYDRDIILLDEPFGALDAQTRLTMQNWLLQIWEDFGKTVLFVTHDIDEAIYLSDDIYVFSSRPGRIKSKITVTMERPRKTEDMTSPAFMELKHHLMDLLSAGHEEEQIS	PGPT0001140_6145	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK002_01707	882	ribX_2		Riboflavin transport system permease protein RibX	ATGGAAACTGCACGCAAAGAGGCTTTTATCGTACATGCCGTGACACCCTCGGATTCTGCCGCGGGTTCGTCCAAACGGCCGGAGGTAGTGCCGTACATATTGGATGAAGAGGGACTGGAGCGCCGCAGGAGCCGGCGGATCGTTTGGGGAAGGGCCGCTGTAGCCGTGCTTGTTTTTCTGGTATGGGAAGTGTTCACGCGAATCGGCCTGCTGGACTCCTATTATTGGAGCAGCCCCAGCGCGATCCTTCGCACAACCTGGACCCAAATCACCGAGGGGACCTTGTTAAGGGATATTACGTACACGTCCGGCTCAACCATACTCGGGTTTGTGTTCGGCACCTTCCTCGGTGCACTGCTCGGACTATCATTCTGGTGGTCGAAATCGTATGCAGGGATCAGCGAGCCATACCTAATCATACTGAATGCATTGCCCAAACTCGCCTTAGCGCCCGTACTCGTCATTCTGCTCGGAATCGGATTCTTCTCGAAGGTGGCTCTGGCGTTCTCCATGACGGTTGTCGTGTCGGCCCTGTCGGCATACAGCGGCGTGAAGAGCGTGGACCCGGATATGGAAAAGCTGATGTACTCCCTGGGCGCCAAGCGGCATCAGGTCTTTACCAAGGTCGTTGTACCGTGGTCCATGCCCTGGATCATCAGCAGTTTACGGATCAATATCGCCCTTGCGCTGGCAGGTGCCATCGTGGGCGAGTTCATCGCCTCAAGCCAGGGCGTCGGCCGGATGATTATGTATGCAGGAACGATATTGGATATCAACCTCGTGTGGGTGGGCGTCGTCGTCCTGTCGCTGCTGTCCATGGTGATGTACTGGGGCGTCGTCGTCCTGGAGAAGTGGTTATCCAAGGGCTTGACCAAGCAATAG	METARKEAFIVHAVTPSDSAAGSSKRPEVVPYILDEEGLERRRSRRIVWGRAAVAVLVFLVWEVFTRIGLLDSYYWSSPSAILRTTWTQITEGTLLRDITYTSGSTILGFVFGTFLGALLGLSFWWSKSYAGISEPYLIILNALPKLALAPVLVILLGIGFFSKVALAFSMTVVVSALSAYSGVKSVDPDMEKLMYSLGAKRHQVFTKVVVPWSMPWIISSLRINIALALAGAIVGEFIASSQGVGRMIMYAGTILDINLVWVGVVVLSLLSMVMYWGVVVLEKWLSKGLTKQ	PGPT0001145_2125	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK002_01708	1044			hypothetical protein	ATGAACAAAAAAATGAGGAAACGTTCACTGCTGTTCGCACTGGTCATGGTCACCGCCCTGCTTGGCGCCTGCGGCAACGAGAAAAGCGACGGCAGCACCGTCTCCGCTTCCGGCGACGGGAAGCTCAAGAAAATCGTGATCGCCGAGCCGCTCCACTCCACGGGCTATCTTCCCCTGTACGTCGCACAGCGCGAGGGCTATTTCGAGAAAAGAGGGCTGGACGTCGAGGTTATCCAAGCGGCAGGGGGAGCGCACGTAACCGCCGTGGTCAGCGGTGATGCCTGGGGCGTTATCGGCGGGACGGAGTCCAATGCCTTGGCCAACAACAACAATTCCGACCCGATCATCTCGGTCGTCAATGTCGTCAATCGGGCGAACGTGTATTTAATGGCTAAGAAAGGCACCGCGCCTGCAAGCGATTCCCCCGAAGACCTGAAGGCATTTTTGCAAGGGAAAAAGATTAACGCCGGCCGCCATGGAGGGACACCGAATCTCTTAACCCGCTATCTTCTGATTCAGCTGGGGCTCGATCCGGAAAAGGATGTGCAGCTGCTGGAGCCGGCCGACGGCTCCACGGTGGTGACGATGGTTCAACAGGGCGCAGCCGATATCGCCAATGGAGCCGAACCGCAAATCAGCGACGGAATTTCGAAGAACGTGTGGGAGGAGCCGTTTTACAAATTTCATGATCTCGGGGATTTCTCGTATTCGGTACTCAGTGTGAAGAAGTCTACCATCGAGAAGGATCCGGAAGCCGTGCAAAGCTTTACCGATGCCATCATCGAAGCGCTTGAAGTCGTCCAGTCGGATAAGGAGCTGGCCAAGAAGAATCTGAAAGCCGAATTCCCCACATTATCCGAGGATGCGATACAAGCTGCGCTTGACCGTGCCTATGCGGACAATCTGTGGAGCTTGGACGGGATGATTTCGGAAGAAGCTTTGAAGCATGATATGGATGTCATGATAGAGACCGGAATTTTTAAAGGGGATTATACCTATGATGCCCTGGTGGATATGCAGTTTGTGAACCAATCCAAGAAGTAA	MNKKMRKRSLLFALVMVTALLGACGNEKSDGSTVSASGDGKLKKIVIAEPLHSTGYLPLYVAQREGYFEKRGLDVEVIQAAGGAHVTAVVSGDAWGVIGGTESNALANNNNSDPIISVVNVVNRANVYLMAKKGTAPASDSPEDLKAFLQGKKINAGRHGGTPNLLTRYLLIQLGLDPEKDVQLLEPADGSTVVTMVQQGAADIANGAEPQISDGISKNVWEEPFYKFHDLGDFSYSVLSVKKSTIEKDPEAVQSFTDAIIEALEVVQSDKELAKKNLKAEFPTLSEDAIQAALDRAYADNLWSLDGMISEEALKHDMDVMIETGIFKGDYTYDALVDMQFVNQSKK	PGPT0001135_2684	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK002_01709	645	rutB	COG1335	Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGAAATCTTTGAATCGACTGATGCTGGAAAGCAAAGCGGCGGTGATCGTGGTGGATGTGCAGAACGATTATTGCCATCCGGAGGGGGCATTGCCTAGAGCAGGCTGCGATGTTAGCGGGGTGGCGGAGATGATGCCGCAGCTGCATAAGCTGCTTCATTCCGCCAGAGAGCTGAATGTGCCGATTATCTTCATCCAAACGCTGCATGAGAGAGCGACGGATTCCGAGGCTTGGGCGACCAGGTCCTCCGGACGCTCGGCTCATGTGTGCCGGAGGGGAAGCTGGGGAGCGGAATTTTACGAGATCACGCCCGAGGCGGACGATATCATTGTCAATAAACACCGGTACAGCGCATTTGTGAATACTAGGCTGGATTCGGTATTAAAGACGCTGAAGATCGAGACCTTGATCATGACGGGGGTCAGCACCAATGTGTGCGTGGAATCGACGGCCCGGGACGGCTTCATGCTGGATTATCATATCGTGCTTGCGTCGGATGCCTGCGCGTCGTATTCGCAAACGGCCCATGACATGACACTCGAGAATATCGAGGGTTATTTCGGGAAAGTTAGTGAGGTGGCGCGGCTTATCGATATTTGGATGGATAAAAAAGCCGAGGAACCGGCGCAGCCGGCCATCGGTTAG	MKSLNRLMLESKAAVIVVDVQNDYCHPEGALPRAGCDVSGVAEMMPQLHKLLHSARELNVPIIFIQTLHERATDSEAWATRSSGRSAHVCRRGSWGAEFYEITPEADDIIVNKHRYSAFVNTRLDSVLKTLKIETLIMTGVSTNVCVESTARDGFMLDYHIVLASDACASYSQTAHDMTLENIEGYFGKVSEVARLIDIWMDKKAEEPAQPAIG	PGPT0021270_390	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021270-rutB-K09020	NA	NA
AK002_01710	1404	ribZ_2		Riboflavin transporter RibZ	ATGAACAGCAAATCAAGGATGATCGTCCAATACACCATATGTTTAGGGGCATTTCTGTCCAATCTGTCGGCCGGCATGTTCAACATCGCGCTTGTAGATATCGCAAGAACATTCGATTCCGCCATCCCCGGGGCACAGTGGATCGTGACCGCATATTTGCTCGTCATCTCCATCCTGCTCCCGGTCATGGGTAAGCTTGGGGACATGCTGGGCAGGCGGAGGATCCACAATATCGGCTATTTCGTGTTTATGGCCGGTGCGCTATGCTGCGCATTGTCTCCTTCATTAAACGGGCTGATATCTTCCCGCATTCTTCAAGGCATCGGAGCGGCCATGTATCAAGCCACGAATATGGCACTCATCATCTCCGTGTTTCCGAAGGAACAGCGCGGCAAAGCGCTGGGTTTAATCAGCACCTTCGTGGCTGCGGGCTCCATGATCGGTCCGAGCCTTGGCGGCATATTGATTCAATGGTTTTCGTGGCGGAGCAACTTTTGGCTGCTAACAGCGATCTCGCTGGTTGCATGGATATTCGCGCAGCGTTTCATTCCGAAGGACGAGCCGGATCAAGGCGTGAGCCGGCTGGACGTGCCCGGGGCTGCCTTTTTTGCGATATCCTTGACCGGACTGGTCACGGCCGTGAATTTGGGGGCTCAGTGGGGATGGGGCTCCTGGCAGGTTACACTGCTGTTCATGATGTTCGGAGCCGGAGCCATCGCATTCATCGGGTGGTGCCTGTCTTCGCGCTGGGAGCGAAAAGGTAAGGACCATCTTCCGTTTATGAAGCTGGATCTGTTTCGGGATGCAGGCGTTAGCGTCGGGATCCTCATTACCATCATCACCTATATGGCCGCTTTCTCCGCGCAGCTTGTACTGCCGGTGTTTTTGCTCAGCGAGCTGGGCATCGAACCTGCGACGGCAGGGCTGATCATGATGGGGTACCCGTTGTCGCTGATCATATTCTCTCCCTTAAGCGGAAGCTTGTCGGACAAGCTGGGGACATTCCCGTTATTGTCTGCCGGCTTGCTGGCCATGACGGCGGCGCTAATCGTGCTGGGCTTTGTATCGCCTGCGTATCCGATCTTCTTCCTGATCCTGCTTATCGTCCTGCTCGGCGGTTCCATGGGCTTGATCACGCCGCCGAACAATTCCCTGGTGATGGGCAGGACGTCCAAAACAGACCTCGGACTGATCAGCAGCATTTTGGCGCTGTCGCGAAATCTGGGGATGATGTTTGGCACGGCGGCGGGAGGTGCCATGCTCGCGCTTCCGGGTCAAGCGGCAGGGGGGCTTATCGGATTTCGCATGATATTTGTGCTGAATACGGCCCTGGTTGTCATCGTTTATGTCACGATGCTCATATCGTTTCGCTTCGCCAGGCATAAGGAGACGTTATCTTCGTAA	MNSKSRMIVQYTICLGAFLSNLSAGMFNIALVDIARTFDSAIPGAQWIVTAYLLVISILLPVMGKLGDMLGRRRIHNIGYFVFMAGALCCALSPSLNGLISSRILQGIGAAMYQATNMALIISVFPKEQRGKALGLISTFVAAGSMIGPSLGGILIQWFSWRSNFWLLTAISLVAWIFAQRFIPKDEPDQGVSRLDVPGAAFFAISLTGLVTAVNLGAQWGWGSWQVTLLFMMFGAGAIAFIGWCLSSRWERKGKDHLPFMKLDLFRDAGVSVGILITIITYMAAFSAQLVLPVFLLSELGIEPATAGLIMMGYPLSLIIFSPLSGSLSDKLGTFPLLSAGLLAMTAALIVLGFVSPAYPIFFLILLIVLLGGSMGLITPPNNSLVMGRTSKTDLGLISSILALSRNLGMMFGTAAGGAMLALPGQAAGGLIGFRMIFVLNTALVVIVYVTMLISFRFARHKETLSS				NA	NA	NA	NA	NA
AK002_01711	1074	ysdC	COG1363	Putative aminopeptidase YsdC	ATGAATGAATCAACACTGGAATTATTCCGCACATTAACGGAATTCCCTGCTGCACCGGGCTTTGAGAGGGAACTCCGTTCTTGGGTGAAGGATGCCCTCTCTCCATATACAGATGAGTTCGTGCAGGATCGGCTGGGCAGTTTGTTCGCCGTCCTTCGCGGTAACGATGAAGGTCCGAAAGTCATGGTGGCCGGGCACATGGATGAAGTCGGCTTCATGGTAACCGGCATTACCGAAGCGGGCATGGTTCGTTTCCAGCCGCTCGGCGGCTGGTGGAGCCAAGCCGTGCTTGCCCAGCGCCTGCAGATCATCACGGACAACGGCCCGGTCGTCGGGGTTGTCGGCTCCATTCCTACGCATCTGCTGGATGAAGCGCAGCGAAGCAAACCGGTCGACATCAAAACGATGTATATCGATATCGGCGCCGACAACAAGGCCGAAGCGGAGTCGTTCGGCATTCGTCCCGGCCTGCAAGTCGTTCCGGTCTGCGAATTCACGCCGCTCGCCAATCCGAAAAAAATCATGGCCAAGGCATGGGATAACCGCTACGGCGTAGGCCTTGCCATCGAGCTGGTCCAGGCGCTCCATGGCGAGAAGCTTCCCAACACGGTATACGCCGGTGCGACCGTGCAGGAAGAGCTGGGCCTTCGCGGAGCCCGTACTTCGGCAAACCTGATTCAGCCGGATATTTTCTTCGGTCTGGACGCCAGCGCAGCGAACGACATGATGGGCGACAAGAGCCAGTTCGGCCAATTGGGTCAAGGCGCGCTGCTTCGCATCTTCGATCCGACGATGCTGACCCATCGCGGCATGGTCGAGTACGTTCAGGATACGGCAGAGACAAACAAAATCAAATACCAATACTTTGTGTCGCCGGGCGGCACGGACGCTGGCCAAGTGCATTTAAGCGGCATCGGCGTTCCGTCCACCATCATCGGCATTTGCTCCCGATACATCCACACCTCTTCGTCCATCATCCATACGGACGACTACGAGGCAGCCAAAGAGCTTCTGATCAAGCTCGTGAAAGGCTTGGACCGCACGACGCTCCAGACGATACTGGACCGCGCATAA	MNESTLELFRTLTEFPAAPGFERELRSWVKDALSPYTDEFVQDRLGSLFAVLRGNDEGPKVMVAGHMDEVGFMVTGITEAGMVRFQPLGGWWSQAVLAQRLQIITDNGPVVGVVGSIPTHLLDEAQRSKPVDIKTMYIDIGADNKAEAESFGIRPGLQVVPVCEFTPLANPKKIMAKAWDNRYGVGLAIELVQALHGEKLPNTVYAGATVQEELGLRGARTSANLIQPDIFFGLDASAANDMMGDKSQFGQLGQGALLRIFDPTMLTHRGMVEYVQDTAETNKIKYQYFVSPGGTDAGQVHLSGIGVPSTIIGICSRYIHTSSSIIHTDDYEAAKELLIKLVKGLDRTTLQTILDRA				NA	NA	NA	NA	NA
AK002_01712	489			hypothetical protein	ATGTCAGGCTCCAACCAAAAGCCTAAGTCTGATATCACCACAATGAGCTCGGCGGAATATCAGACGATTGCCAAAAAGCATGAGCCTCCCCGCGCCGTGCTTAAAAATTGCTTGCGCGCTTTTTTGGTGGGAGGCCTCATCTGTTTGATCGGCCAATGCATTCAGCGTTTTTTTATGTCCGTATTCGATATGAGCACCACCGAAGCGAGCAATCCTACGGTCGCCGTATTGATCATCCTCTCCGTCATTCTGACGAGCTTCGGCGTATATGACAAAATCGCGCAATGGGCCGGAGCGGGCAGCGCCGTGCCGGTCACGGGGTTTGCCAACTCCATGTGTTCCGCTGCGCTTGAACATCGTGCAGAGGGATTGGTCCTCGGGGTCGGAGCCAGCATGTTTAAGCTGGCGGGCTCCGTGATCGTATTTGGTACCGTGGCTGCGTTCATTATCGGTATCATTTACGCTATTTTCGGCATCGAGGGGAGGTAA	MSGSNQKPKSDITTMSSAEYQTIAKKHEPPRAVLKNCLRAFLVGGLICLIGQCIQRFFMSVFDMSTTEASNPTVAVLIILSVILTSFGVYDKIAQWAGAGSAVPVTGFANSMCSAALEHRAEGLVLGVGASMFKLAGSVIVFGTVAAFIIGIIYAIFGIEGR	PGPT0024805_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024805-spoVAC-K06405	NA	NA
AK002_01713	1014	spoVAD		Stage V sporulation protein AD	ATGAAGGTGATCGGTCAAACATGGCAGTTCGAGAACAAACCCGTCATCATCGGCACGGGAACGATCGTTGGGCCTGAAGAAGGGGAAGGTCCGCTGGCTAACGATTTCGACTATGTCTACGACAATATCGAGATCAACGAAAAAACATGGGAAAAGGCAGAACGGAAGCTGCTGGAGGACGCGTCGAGAAAAGCCGTCGAAAAGGCGGGCATCAAGGAAGACCAGCTGCAGTTTTTCGTGGGCGGGGATTTGATGAACCAGATCATCAGCAGTTCGTTTGCCGCCAGACAGATGGGCGTGCCGTATATCGGCGTGTTCGGTGCTTGCTCGACATCGATGGAGAGCCTTGCGGTCGCCTCCATGCTCGTCGATTCGGGCGGAGCCCAGTATGTCATGGCTGGTACGGCCAGCCATAACTGTACCGTCGAGAAGCAGTTCCGGTATCCGACGGAATACGGATCGCAGAAACCGCCTTATGCGCAATATACGATCACGGGAGCAGGCTGCTCCGTCGTTTCGGACAAGGGAGACGGACCTGCCGTGACGTATGCCACCATCGGCAAGGTGGTCGATCTGGGCATCAAGGATCCGTTCAACATGGGGGCGGCGATGGCTCCGGCGGCGGCCGACACGATCACGAAGCACTTTAAGGACACGGGCCGGCAGGCAAAGGATTATGATCTGATCGTCACGGGCGACCTGGCCTCGGTCGGGCTTCCCATTGCGAAGGACCTCCTACAGCAGAATGATGTCATCATGGACGGCACGGTATTTGCCGATTGCGGCTTAATGATCTACGACATGGAAAAACAGAAATACGTCAACGCAGGGGGCAGCGGCTGCGGCTGCTCGGCGGTTGTCACCTACGGCCATATTTTGAAACGGATGCGCAAAGGCGAATTGAAAAAAGTGCTGGTCGTTGCTACCGGCGCCTTGCTGTCGCCCCTTTCTTACCAGCAGGGTGAGAGCATTCCGTGTATCGCTCACGCCGTAGCCTTAGAGATGGGAGGATAA	MKVIGQTWQFENKPVIIGTGTIVGPEEGEGPLANDFDYVYDNIEINEKTWEKAERKLLEDASRKAVEKAGIKEDQLQFFVGGDLMNQIISSSFAARQMGVPYIGVFGACSTSMESLAVASMLVDSGGAQYVMAGTASHNCTVEKQFRYPTEYGSQKPPYAQYTITGAGCSVVSDKGDGPAVTYATIGKVVDLGIKDPFNMGAAMAPAAADTITKHFKDTGRQAKDYDLIVTGDLASVGLPIAKDLLQQNDVIMDGTVFADCGLMIYDMEKQKYVNAGGSGCGCSAVVTYGHILKRMRKGELKKVLVVATGALLSPLSYQQGESIPCIAHAVALEMGG	PGPT0024810_349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024810-spoVAD-K06406	NA	NA
AK002_01714	354			hypothetical protein	ATGATGCAGTTTTTATGGGCGTTTATTATTGGCGGATTGATTTGCGTCATTGGGCAAATCATGATGGACGTTATTAAACTGACGCCGGCGCATACGATGAGTACGCTGGTGGTTGCAGGGGCCATCGCGGACGGCTTCGGATTATACGAGCCGCTGGTGAAATTCGCGGGAGCGGGAGCCTCCGTGCCGATCACGAGCTTTGGCAACTCGCTTGTGCACGGTGCGTTGACGGAGCTGGGGAGGGACGGCTGGATCGGGGTCGTGACGGGGATATTCGAAGTAACCAGCGCGGGGATATCCTCGGCGATCATTTTCTCCTTCCTGGCAGCGCTGTTCGTTCGCCCGAAGGGATAA	MMQFLWAFIIGGLICVIGQIMMDVIKLTPAHTMSTLVVAGAIADGFGLYEPLVKFAGAGASVPITSFGNSLVHGALTELGRDGWIGVVTGIFEVTSAGISSAIIFSFLAALFVRPKG	PGPT0024815_479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407	NA	NA
AK002_01715	957			hypothetical protein	ATGCCCGTAAGCCAAGAATCCATGAAAATCATTACCTCGGTACGAACCAATCTGGAGTCGTGCCTGCTAGGCAAAGAATTTGAGATCCAATTGCTCCTTACGGCGCTGCTCGCTGGCGGACATGTACTGATCGAAGATGTGCCCGGCACGGGAAAGACCCAACTGATCAAAGCTCTAGCGAAATCCATGCAGGGGGATTACCGCCGCATTCAATGCAACCCGGATATCCTCCCGAGTGATATAACAGGCGTTTCCGTATTCCACCCTCGAGATGAAATGTTTTACTTCCGGCCAGGTCCGGTCATGACCAATATTTTGCTGGCGGACGAAATCAACCGGGCCACAACCAAAACGCAGTCGGCCCTGCTGGAAGTGATGGAGGAGCGCAGCGTAACGGTGGACGGGGCTACCCACGAACTCCCGCATCCTTTCATGCTGTGCGCGACCCAGAACCCGATTGATTTTGAAGGCACCTATATGCTTCCGGAAGCGCAGCTGGACCGGTTCATGCTGAAGCTGAGCCTGGGTTACCCTGATGCCGCCACGGAGAAGCAGCTGATGTACCGTTCGCGCGACGGGCAACTGTCGGACAAGCTTCAGCCCGTGACGCATATGGATAAGATTTCATCCATTCAGCGCGAGATTCGCGAGGTATTCATCGGTGAGCCCGTTGCCGATTACCTGCTGAATATCACCCGCTCGACCCGTGAGCACCCTTCCGTCATGCTGGGCGCAAGTCCACGGGCCACCCTGTCCTTCATGAATGCGGTTAAAGCCTATGCCTTCCTGCAAGAGCGGGATTACGTTCTGCCAGATGACGTGAAGACGCTTGCTCCCTACGTACTTTCGCACCGGATCATGCTGCGTCCGGAAGCCAGGCTCGACAATGCGAGTCCGGAGTCGGTGCTTGAGTTTATACTCCGTCAGGTTAAAGTGCCTGTTCAGATGGGGAGATAG	MPVSQESMKIITSVRTNLESCLLGKEFEIQLLLTALLAGGHVLIEDVPGTGKTQLIKALAKSMQGDYRRIQCNPDILPSDITGVSVFHPRDEMFYFRPGPVMTNILLADEINRATTKTQSALLEVMEERSVTVDGATHELPHPFMLCATQNPIDFEGTYMLPEAQLDRFMLKLSLGYPDAATEKQLMYRSRDGQLSDKLQPVTHMDKISSIQREIREVFIGEPVADYLLNITRSTREHPSVMLGASPRATLSFMNAVKAYAFLQERDYVLPDDVKTLAPYVLSHRIMLRPEARLDNASPESVLEFILRQVKVPVQMGR				NA	NA	NA	NA	NA
AK002_01716	1248			hypothetical protein	ATGCGCCGCGCGGTTTCGTTATTTTTGAATGGCATGCAGCCGTCCAGACTGGCAGCGGTATTGGCGGTATGGTGCCTGTGTCTTTTGTATGTTCTATTCCAGGGAGGGAAAACCTCGCTCATGCTCTTCTCCATGGTCAGCCTTCTGACGGTCTATCTGATCGGCGCGGGTTTTGGCGGGGTCAATCGCGTCAAAGCGCACCGGGTCGTCCTTGGGGGAACGGAGCGCGGTGGAGAACAGCTTCATGCCGGCGAGCAGGTGCGCGTTAAGCTCGAGGTCCATGTCCCGGGGTTGCTGCCGATGCCCTATATGATCGTGCGTGAAGTGCTGCAGAGGCATAACGGCGACTCCTGGTCCTTTGAAGACAGCGTCATTCCGAACCTCCGGGGGGCAGGCAAGCTTGTATTCCAGACTCCTCCGCTCGAACGCGGGCGATATGTTTTTTCCAAGACGGAATGCATAAGCGAAGATATCTTCGGATTGATGGAGCATAAGGGACGCATCGAGGTTCAAACGGATTTCCGCGTTCTGCCGAGAACCATTTATATACCGAAGTGGCAGCGGAACATACGGAACTCCAGATTGGGCGGGACGCAAACCACGGTGTCGGCTTCAAGGCGGGAAACCACGCAGATTAACGGCGTCCGCGATTATGTATATGGAGACCGGATCTCCCGGATTCACTGGAATGCAACGGCGAAGACCGGCTCTTGGAAATCGAAGGAATTCGAGCATGAGTCCTTCCCCCGAACGATGATCGTTCTGGATTGCGCCGCCGACGGATACGACAATGCCCAGCAATTCGAGCTTGCCGTATCGGCAGCCGCTTCGCTGATCGAATACGGGGCCAAGGAGCATGCGGGGACGGGGCTGTTCACGGCTGCCCAGGAAGCCCAGATGTTCGCTCCGGCCGATCACGCCGGGGAACGGATGCGCATGATTCAGCATCTGGTTGACGTGGATTATAACCGGAAGAGCAAGCTGATTGCGTCCCTTGAGAAATCCTATCGCCATTTCCCAAAAGGAGCCTTGTTCCTGCTGATCAGCCCGATGAGCGGCAAAGAGGCTTCAGAGATCATGCGCTGGGTGGAGACCAGGGGGATGAACCCTTGCTTCTTGCAAATCGCTCCTTCCAATGAAACGACAAAACGCGATGAATCGATTTCGCTCCTGCAATCCCGGGGGATCTCAAGTTATTCGGTTGCTTCCCTCGACGAGCTTCCGGCTGCGCTGGGAGGTGGTGCATGA	MRRAVSLFLNGMQPSRLAAVLAVWCLCLLYVLFQGGKTSLMLFSMVSLLTVYLIGAGFGGVNRVKAHRVVLGGTERGGEQLHAGEQVRVKLEVHVPGLLPMPYMIVREVLQRHNGDSWSFEDSVIPNLRGAGKLVFQTPPLERGRYVFSKTECISEDIFGLMEHKGRIEVQTDFRVLPRTIYIPKWQRNIRNSRLGGTQTTVSASRRETTQINGVRDYVYGDRISRIHWNATAKTGSWKSKEFEHESFPRTMIVLDCAADGYDNAQQFELAVSAAASLIEYGAKEHAGTGLFTAAQEAQMFAPADHAGERMRMIQHLVDVDYNRKSKLIASLEKSYRHFPKGALFLLISPMSGKEASEIMRWVETRGMNPCFLQIAPSNETTKRDESISLLQSRGISSYSVASLDELPAALGGGA				NA	NA	NA	NA	NA
AK002_01717	2241			hypothetical protein	ATGATGAAGTTATGGCTGGACAAACTATCGACGACCTTCTTCAGCACGTTAACGATGCTGTGGATCTGGATTATGGGGATGCAGTGGGTATCCTTCACGGAAACGATATGGCTGTCGGAAACGACCGCGATCGTTATCGCGGCTTTAACCATTACGGCGGTTACCGAAGCGCTGCTGCCGATCAAGCGGGGTTACCGAGTGGTGCTCCAGTTTCTATTGATCCTGTATTGCGTATACAGTTTGCTGAAAACTTCCGGCAATCCGGTTCCTGTCTTCGGAGCGGAAGGTTTCCTGACCGAGGAACTCCTGTATCTCTTTCCTTATTTATGGTTTGCTATCGCTGCTTGGGCCATGTTCCTCTTTCTTGCCCGCTGGGCCAAAACCAAGGGACGCGTGCTTCTGGTAGTCGGGATCCACGTCATCAGTTTTGCCATTTTGGATTCCTTCACGAAAATCGTGCTGTGGGATGAGATTGCTTGGGTTGTCGGGGCCGGAATGGGCTGGCTCGTATCCAGCCATTTCAACCGGTTCCGTAGACGCTTTCCTCAAGGATGGGTCAATCTATCGAAGTATCCGTTTAAGATTATTGCCAATATTCTGGTCATTTTTTCATTGATTATCGTGGCCGGCGTGAACATGCCCCACGTGAAGCCGACGCTGACCGATCCTTATACGGCCTGGAGAGAGTGGAACGGGGTGCCGTTATCCGGCGTCGGCACATCGGGGACCGGAACCCTTATCGAGTCGGCGTCCGAAAGCATGTCCGGTTACGGAAGAGAGGATAACGATCTTGGCGGCGGTTTTAATTTTGATTATTCGCCGGTGATGTCGATCACCTCGGAAGAACGCAGCTATTGGCGCGGCGAAACCAGAGCCGTATACTCGGGCACGGGCTGGGCTGACGGAGCCAGCAGCCGTCGATCCGGGACGGGAGTCGACATCGGTGACCCCTTGCCGGAGGAAGCCGGCACATCCGTACCTACCAAAAAGCTGGAACAATCGGTAACGATGCTGAGCGACACGGTGTATCCGGTATTGTTCGGGGCTTACAGCGTTCGTCAGCTGGATAGCCTGGATGAGGACATCGATCCGGACCGTCTCAGCTGGGTGAACGAAGGCGCGGAGATGCATCTGGACGACGTTCGCGATGCGGACTATCCGAAGAGTTATACCATAACGTCCGAAGTTCCCGTCATCCCGATCGATGAGCTGAGCGCCAGAACGTATGATGAGCTGTACTCCGGCTCGTTCGACGAAGCGTATGTCCAGATGCCGAGAAATTTCCCGGACCGCGTATCGGATCTGGCCGAAGAAATTACGGCGGACGGTAACACGCCGTATGAGAAGGTCATGCTTTTGCAACAATATTTAACGAGCAACTATACCTATACCAACACCCCTGACCTTACGCTCAAAAAGAGCGACGATTTCGTAGATGCCTTTTTGTTTGAAATCATGGAAGGGTATTGCGATTACTTCTCCACGTCCATGGTGATGATGACTCGGTCGCTGGATATTCCTGCACGCTGGGTCAAGGGTTACGCCCCCGGCAGGATGACGGCTTCGGAATACGTTCCGGTCGACGGCCAAACCTCGATCGAGCCTGATAACTATACCGTCACGAACGCCGACGCTCATTCCTGGGTTGAAGTATACTTCGGCGAGTACGGCTGGGTTCCGATCGAAGCGACTCCGGGATTCAGCATGCCGATTCTAACGGCCGACGCCGAGGCTGAGCCCGTCATCGAGGAGGAAGTCGAAGAGGAAGAGAAGGCCGAGGACGAGGTAACTCCTGCCCAAACTTCTGATAATCCATCATCCGGATGGGTTAAAGTCATAGTAACGGCAGCGGTGGTTGTCATCGGGCTGTGGATTCTGTATATCTTGTGGAGAATGCGCATCAGCCTGCGCTTCGCCGGGGCACGGATTCGGGCAGGCAAGCCGCTGACGGCAGCGGATAAGGTGATTGCCGAGACGGAACGCTGGATCCGTTCCGTGCAGCGCAAGGGATTGGTAAGGCAGGAACATGAAACCCTCCGTGAATCGGTTCGCCGCTGGGCACATGCACATCCTGAGCTGGAAGCAGAGCTGAGGCCGCTGCTGCAGCAGTTCGAGGCTGCCCGTTACAGCCCTGCGGAAGTGAAGGAAGAGCAGTGGCGCTCGGTCCAACATGATGCCGAGAAGCTGAAGAAGTCCGTCAAGAAGGTCCGCGTTGTGCCGGACAAACGTCTATCAACGTAA	MMKLWLDKLSTTFFSTLTMLWIWIMGMQWVSFTETIWLSETTAIVIAALTITAVTEALLPIKRGYRVVLQFLLILYCVYSLLKTSGNPVPVFGAEGFLTEELLYLFPYLWFAIAAWAMFLFLARWAKTKGRVLLVVGIHVISFAILDSFTKIVLWDEIAWVVGAGMGWLVSSHFNRFRRRFPQGWVNLSKYPFKIIANILVIFSLIIVAGVNMPHVKPTLTDPYTAWREWNGVPLSGVGTSGTGTLIESASESMSGYGREDNDLGGGFNFDYSPVMSITSEERSYWRGETRAVYSGTGWADGASSRRSGTGVDIGDPLPEEAGTSVPTKKLEQSVTMLSDTVYPVLFGAYSVRQLDSLDEDIDPDRLSWVNEGAEMHLDDVRDADYPKSYTITSEVPVIPIDELSARTYDELYSGSFDEAYVQMPRNFPDRVSDLAEEITADGNTPYEKVMLLQQYLTSNYTYTNTPDLTLKKSDDFVDAFLFEIMEGYCDYFSTSMVMMTRSLDIPARWVKGYAPGRMTASEYVPVDGQTSIEPDNYTVTNADAHSWVEVYFGEYGWVPIEATPGFSMPILTADAEAEPVIEEEVEEEEKAEDEVTPAQTSDNPSSGWVKVIVTAAVVVIGLWILYILWRMRISLRFAGARIRAGKPLTAADKVIAETERWIRSVQRKGLVRQEHETLRESVRRWAHAHPELEAELRPLLQQFEAARYSPAEVKEEQWRSVQHDAEKLKKSVKKVRVVPDKRLST				NA	NA	NA	NA	NA
AK002_01718	531			hypothetical protein	TTGTTTGAAATGTTAATTCCAAAGCTCCGTGTCAACACGGTTTTTGATATTAACCTGGAGGAATTATATGAGCAGGGGTATCGTGGAATCATTACCGATTTGGACAATACCCTTGTTGGGGCCAAGGCGCCGCTGGCCACGCCGGAATTGGTCGTTTGGTTCAAAAGAGTGAAGGAGATCGGTTTCCAGCTCATCATCGTCTCGAATAATCAGCTCGAGCGCGTATCTAAATTCGCGACGCCGCTGGACATCCAGTATGTGCATGAAGCCCGCAAGCCAAGCAATACTCCGTTTCGCAAAGCGATGAAAATGATGGAGCTTACTCCGGAGAAAACGGTTGTTGTCGGCGACCAGATGCTGACCGACGTATACGGCGGGAATCGGCTCGGCTTGTATACGGTTCTGGTTATGCCAATCGCCATCAACGATGAAGGATGGTTTACCCGCCTTGTCAATCGTCGGGTGGAACGCATCGCCTTGACCCGTTTGCGCAAAAAAGGATTATGGATGGAGGAGGAACCGAAATCATGA	MFEMLIPKLRVNTVFDINLEELYEQGYRGIITDLDNTLVGAKAPLATPELVVWFKRVKEIGFQLIIVSNNQLERVSKFATPLDIQYVHEARKPSNTPFRKAMKMMELTPEKTVVVGDQMLTDVYGGNRLGLYTVLVMPIAINDEGWFTRLVNRRVERIALTRLRKKGLWMEEEPKS				NA	NA	NA	NA	NA
AK002_01719	1128	yqeH	COG1161	putative protein YqeH	ATGACGTTGCCTACAGGCGGAGATGACATCAAGAAGTGCAGCGGCTGCGGCATACAGCTTCAGAGCGCTGCACAGGACAAGCCGGGCTATTTGCCGGAGAAGGCTTGGGACCGCGACCCGGTGATTTGCCAGCGCTGTTTCCGTATCAAGAATTACAACGAGGCTTCTTCGGTCGCCGTAGACCAGGATGAATTTTTACGGCTGCTCGGACAGATCGGCGGCAAGAATGCGCTGGTCATTCACATCGTGGATCTTTTCGATTTTGAAGGAAGCCTGATTTCAGGGCTGCAGCGGTTTGTCGGCAACAATCCGGTGATTCTGGCGGTTAACAAAACCGATCTTCTGCCGAAGGTGACCAATTGGAACAAGGTTCTGAATTGGGTGCAGAAGCAGTGCAAGGAGCATGGCCTGAGAACGGAAGAGATCGTGCTCTGCAGCGCGAAGAAGAACCAAGGCTTTGAGCGGCTGCTGGAGACGGTTGCGCATTACAGGGGCGACCGGGACGTCTACGTGGTCGGCGCCACGAACGTGGGGAAATCCAGCTTGATCAATCGCCTGATCCGCGACTACAGCGATCTGGACCAGGAGCTGACCGTTTCCCGTTATCCCGGAACGACGCTCGATATGGTCAATATTCCGCTGGATGACGGCCGGTATATTATTGATACGCCGGGCATTGTGTACCCATGGCGCTACAGCGAACTCGTGAGCCGTGAGGATCTGGGGACGGTCATGCCGGAGAATCCGCTGAAGCCGATGGTATACCAGCTGAACGAAGGGCAGACCCTCTTCTTCGGCGGTTTCGCCCGCTTTGATTTTCTGCAAGGGGAGCATCAATCCTTTACTTGTTTCATCAGCGGCCGGCTCGGCATTCATCGGACCAAGCTGGAACGGGCGGATTCGCTATTTGCGGAGCATGCCGGGGAGCTGCTGTCCCCGCCGACCAAGGAACGGCTTGAAGAGCTTCCGGAATGGACGAGACACGAAATCCGTATTCCTAAAGGTGCGCGTCAAGACGTGTTTATCTCGGGAATCGGCTGGATCAAGATCAACGGTGAGCATGGAGCGCTTGTAGCGATTCATGTACCTAAAGGAATCAAAGTCCTGTCGCGTCCATCCCTGATATAA	MTLPTGGDDIKKCSGCGIQLQSAAQDKPGYLPEKAWDRDPVICQRCFRIKNYNEASSVAVDQDEFLRLLGQIGGKNALVIHIVDLFDFEGSLISGLQRFVGNNPVILAVNKTDLLPKVTNWNKVLNWVQKQCKEHGLRTEEIVLCSAKKNQGFERLLETVAHYRGDRDVYVVGATNVGKSSLINRLIRDYSDLDQELTVSRYPGTTLDMVNIPLDDGRYIIDTPGIVYPWRYSELVSREDLGTVMPENPLKPMVYQLNEGQTLFFGGFARFDFLQGEHQSFTCFISGRLGIHRTKLERADSLFAEHAGELLSPPTKERLEELPEWTRHEIRIPKGARQDVFISGIGWIKINGEHGALVAIHVPKGIKVLSRPSLI				NA	NA	NA	NA	NA
AK002_01720	867	aroE	COG0169	Shikimate dehydrogenase (NADP(+))	ATGAAAGTGAATCCAATGAACGAGCGTGATTATTTGCTCCTTGGCGTAATGGGGGATCCCATCGGCCACTCGAAATCGCCGGCCATGCATGATGCGGCGATTAACGCCCTGGGTTTGTCAGGAGCGTACGTCCCCCTTCATATTCGTCCGCAGGGCCTGGGCGACGCCATTCAGGCCGTCAAAGCACTGGGATTTCGAGGGGTGAACGTAACGATCCCGCACAAGGTGGAAGTCATGAAGTATTTGGACGTCGTCGATGAAGGGGCACAGCGCATCGGTGCCGTGAACACCATCGTCAATGACAACGGCAAATTGACGGGTTACAATACGGACGGCATCGGATATGTTCGTTCATTAAAGGATGAAGCCTGTCCCGACCTGAAGGGAAAGCGCATCGTTGTCATCGGTGCGGGCGGCGCCGCAAGAGGCATCATCTATGCCCTCATCGGCGAAGGGCCCGAGAAGATATCCATTGTAAATCGGACGTCCGCCAAAGCATTGGCGCTTGCCGAGGAGTGGAGCTCGCTTGCGGACTTGAGAGGGTACGGAGAGGAAGATGCCGGAGAGGCGTTGTCGGATGCCGATGTAATCATTAACACGACCTCTGTGGGCATGTTTCCCCGGATTTCGGAGCTTCCCATTCCGCCGGAGTCCATACGCGAAGGGATCATTGTCAGCGATTTGATCTACAATCCGTTGAAGACCGAGCTGCTGCGGCAAGGGGAGCTTCGGCGATGCACCATACACGGCGGGCTTGGAATGTTCATTAATCAAGGCGCCTATGCATTCGAATATTGGACGGGTCTGACGGCACCCGTGCAGGCCATGAAGGAAGCCGTTCTGACCAGCTTCCAATCCGAGGCTTAA	MKVNPMNERDYLLLGVMGDPIGHSKSPAMHDAAINALGLSGAYVPLHIRPQGLGDAIQAVKALGFRGVNVTIPHKVEVMKYLDVVDEGAQRIGAVNTIVNDNGKLTGYNTDGIGYVRSLKDEACPDLKGKRIVVIGAGGAARGIIYALIGEGPEKISIVNRTSAKALALAEEWSSLADLRGYGEEDAGEALSDADVIINTTSVGMFPRISELPIPPESIREGIIVSDLIYNPLKTELLRQGELRRCTIHGGLGMFINQGAYAFEYWTGLTAPVQAMKEAVLTSFQSEA	PGPT0012890_1329	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
AK002_01721	291	yhbY	COG1534	RNA-binding protein YhbY	ATGTTAACAGGAAAGCAAAAACGACATTTACGCTCGCTCGCCCATCATCTGGATCCGCTGTTCCAGGTAGGCAAGGGAGGCAGCAACGAGCATCTGATCCGTCATATCTCCGAGGCGATCGAGAAGCGGGAACTCATGAAGGTATCCGTGCTCAACAACTGTCTTGAAGACCCGCGCGAAATCGCCCAGGAGCTTGCTGAAGGAGCCGGAGCCGAGCTGGTGCAGGTTATCGGCAAGACGATCGTGCTTTATAAAGAATCGAAAGACCACAAAACCATCGAGCTGCCGTAA	MLTGKQKRHLRSLAHHLDPLFQVGKGGSNEHLIRHISEAIEKRELMKVSVLNNCLEDPREIAQELAEGAGAELVQVIGKTIVLYKESKDHKTIELP				NA	NA	NA	NA	NA
AK002_01722	591	nadD	COG1057	Nicotinate-nucleotide adenylyltransferase	ATGAAGGTAGGGATAATGGGCGGAACCTTCGATCCCATTCATATCGGGCATATGCTCGCAGCGGAATGCGCGCGGGACGCTTACGATCTGGAAGAGGTGTGGTTTATGCCAAGCCACATCCCGCCGCACAAGGAAGATGCCGGCGTAACGGGCCTGATGAGGCTGGAGATGACCGCTGAAGCCGTAGCCGACCATCCGTCGTTTCGTACGTTGGATTGGGAAGTGAAACGCGGCGGCGTCTCCTACACGGTAGATACGGTCAGAGAGCTGCGCGATGCGTACCCCGAGCATGACTTCTACTTCATTATCGGTGCGGATATGGTTGCGTATCTTCCCAAGTGGAACCGGATCGGCGAACTGGCGGAAATGCTGACTTTTATCGGGCTTAACCGTCCCGGAACCAAACTATCGGTGGATGATCTGCCTGATTTTCTGCAAAAGGCGGTTGTCACGGCTGAGATGCCGCTGATCGAAATCTCCTCCACCATCATTCGGAGCCGAGCGGCATCAGGTTCGTCCATCCGTTATATGGTGCCGGACCGAGTATACGATTATATTGTTAGGAGCGGTATTTATGGATTACAGCCGTGA	MKVGIMGGTFDPIHIGHMLAAECARDAYDLEEVWFMPSHIPPHKEDAGVTGLMRLEMTAEAVADHPSFRTLDWEVKRGGVSYTVDTVRELRDAYPEHDFYFIIGADMVAYLPKWNRIGELAEMLTFIGLNRPGTKLSVDDLPDFLQKAVVTAEMPLIEISSTIIRSRAASGSSIRYMVPDRVYDYIVRSGIYGLQP	PGPT0013435_3469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
AK002_01723	579			hypothetical protein	ATGGATTACAGCCGTGATGAACTCATAGAAGCCGTATCCTCCCAGATGCCGGCCAAGCGCTGGGAGCACACCAAAGGCGTCATGGAAACCGCGGTCATCCTTGCCGGCAGGTTCGGAGCCGACCCGGTTAAGGCCGAATTGGCCGCCATCCTGCATGACGTGGCCAAATACTGGCCCGTGCAAAAGCTTCATCAGATGATGGTGGAGCATAAGCTCTCCGACGAGCTGCTCCATTACGACAAACAGCTTTGGCATGCTGAAGTCGGGGCATTCGTAGCGGAGCACGAATATGGCGTAACGGATGCCGAAGTGCTTGACGCCATCCGGTACCATACGTCGGGGCGCATCGGCATGACGCTCCTTGACAAGGTGGTCTGCCTGGCGGATTATATGGAACCGGGGCGGGATTTCCCCGGCGTGAATAATATTCGCGAACTGGCCAACCATAGCCTTGAAGAGGCGCTTGCAGCCGGTTTTGATTCGACGATTGGATATCTGCTCTCGCGCAGACAAATCATTTTTCCGTTGACGGTGCTAGCCCGCAACGATCTAATTAAGCAATTGGAGGCGAATTCATGA	MDYSRDELIEAVSSQMPAKRWEHTKGVMETAVILAGRFGADPVKAELAAILHDVAKYWPVQKLHQMMVEHKLSDELLHYDKQLWHAEVGAFVAEHEYGVTDAEVLDAIRYHTSGRIGMTLLDKVVCLADYMEPGRDFPGVNNIRELANHSLEEALAAGFDSTIGYLLSRRQIIFPLTVLARNDLIKQLEANS	PGPT0013435_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
AK002_01724	348	rsfS	COG0799	Ribosomal silencing factor RsfS	ATGACGTTGAAACCGAATGAATTGTTAAATGTGGCCGTAGCTGCCGCTGAAGATAAAAAAGCGATGGATATCGTGGTCCTGGATCTCAGAGGGATTTCCCTGATCGCCGACTATTTTGTCATTTGCCACGGTAACTCGGATACCCAGGTTCAAGCGATCGCAACCGAGGTCCGCAAACGGGCTCATGACGAGGGCGTGGCATTGCGCGGACTGGAAGGAATGGACGCTGCCCGTTGGGTGCTGATGGACCTTGGCGACGTGATCGTTCATATTTTCCACCGCGATGAGCGGGAATACTACAACATCGAGCGTCTGTGGTCGGATGCCAAAGTGGTGGAGAACGTATGA	MTLKPNELLNVAVAAAEDKKAMDIVVLDLRGISLIADYFVICHGNSDTQVQAIATEVRKRAHDEGVALRGLEGMDAARWVLMDLGDVIVHIFHRDEREYYNIERLWSDAKVVENV				NA	NA	NA	NA	NA
AK002_01725	903	cvfB		Conserved virulence factor B	ATGAGTCTGATTGCCGGCACATTAACGAAACTCGTTGTATCCAGGGAAGTGTCCCCTTACGGTTATTTTCTGGATGGCGGAGATCGGGATGTGCTTCTTCACTATTCGGAGCTTACGGGTAAGATCGAGCCGGGGGATACGATAGAGGTCTTTATATTCTTCGATACGGAAGACCGCCTGGCCGCAACGATGAAGAAGCCGTACCTAACACTGGGCGAAACGGCGAAGCTTGAAGTGGCCGACGTCCATCCGCGCCTCGGCTGTTTCCTCGAGATGGGACTTGGCAGGCAGCTGTTGCTTCCGATCCGGGAATTGCCGGAGCTGCGGGAGCTTCACCCGCAAGTGGGAGACCACGTGTTTGTGATCATGGAGCATGATAAGCAAGGCCGGCTGCGAGCGAAACTCGCCGGAGAACAAGAGCTTGCTCCGCTTGCGTTCCATGCGCCGGATTCGTGGAGGGGCCAATGGTTCACTGCCCTGGTGTATAAACCGCTCCAGATGGGCACGTTTGTCATCATCGACGGCGGCGTGGTCGGCTTCGGCGCGATCGGCATGATCCATTCCTCGGAACGGACGCGTATGCTGCGTCTTGGCGAAGAGGTAAAGGTTCGGGTCAGCCATATTCGGGAGGATGGCAGGGTCAACCTGTCCATGGTACCGCAAAAAGAGATCGGACGGACGGATGATGCAGACCGGCTGCTTGCTTTTCTGCAGGAGCGTCCCGGCCATGCGATGCCGTATTCGGATGAAACGCCGCCCGACATCATCAAGCAGCGTTTCGGCATCAGCAAATCCGCCTTTAAACGCGCCCTTGGCAAGCTGATGAAGGACGGGCTGGTTACGCAGAAGGACAGCTGGACGTATATGGTCAAAAAAGAGGAGAACTCCGGTTCAAACGAATAA	MSLIAGTLTKLVVSREVSPYGYFLDGGDRDVLLHYSELTGKIEPGDTIEVFIFFDTEDRLAATMKKPYLTLGETAKLEVADVHPRLGCFLEMGLGRQLLLPIRELPELRELHPQVGDHVFVIMEHDKQGRLRAKLAGEQELAPLAFHAPDSWRGQWFTALVYKPLQMGTFVIIDGGVVGFGAIGMIHSSERTRMLRLGEEVKVRVSHIREDGRVNLSMVPQKEIGRTDDADRLLAFLQERPGHAMPYSDETPPDIIKQRFGISKSAFKRALGKLMKDGLVTQKDSWTYMVKKEENSGSNE				NA	NA	NA	NA	NA
AK002_01726	771			Glycine/sarcosine N-methyltransferase	ATGTTGTCTTACCGCAAGTTTGCTTACGTATATGATCAACTCATGGAAGACATGCCGTACCCGGACTGGATCCGCTTTGCGAGAACCGCCTGGGAGAAGCACGGAATGCCAAAAAGCGTCGTCGAGCTCGGATGCGGGACAGGCAGCATCACCATACCGCTCGTCAACTCCGGTTTTGAAGTAACGGGGATTGACCTGTCAGCGGATATGCTGTCGGTTGCCAGACGCAAGCTGGAGGGCACGCCTCAGGGACATCGCTTGTTCCGTGAAGGGAGCGTTCGCTGGGTGCAGCAGGATATGCGTTCCTGGGAGCTGCCCGAGCAGGTGGATTCCGTCATTTCATTTTGTGATTGTGTGAACTACCTGCTGGAGGAGAAGGACATCCGCTCCGCTTTTGCAAGGACCTACAACGGTCTCAAGGAAGGCGGCACGTTCCTGTTTGACGTGCATCACCCCAATACGCTGCTGCGATACGACGAAGAGCAGCCATTTGTTCTGGATGAACGGGAAGTGTCCTATATATGGACATGCGACCTGGATGAACGCCGGATGGAGATTGAACATCACCTCTCCATTTTTGCACGGGATGACCAAGACCGAACGATCTACCGCCGCTTTGAAGAAACGCATGTCCAGCGGGGATATGACCCGGAATGGATGAAGGTTGAGCTGATCAAGGCCGGATTCCGGGACGTGAAATGCTATGCCGATTTTGAGTGGACGGAAGCGGGTCAGGATGCATCCAGGCTGTTCTACGTTGCCGTAAAATAA	MLSYRKFAYVYDQLMEDMPYPDWIRFARTAWEKHGMPKSVVELGCGTGSITIPLVNSGFEVTGIDLSADMLSVARRKLEGTPQGHRLFREGSVRWVQQDMRSWELPEQVDSVISFCDCVNYLLEEKDIRSAFARTYNGLKEGGTFLFDVHHPNTLLRYDEEQPFVLDEREVSYIWTCDLDERRMEIEHHLSIFARDDQDRTIYRRFEETHVQRGYDPEWMKVELIKAGFRDVKCYADFEWTEAGQDASRLFYVAVK				NA	NA	NA	NA	NA
AK002_01727	867			hypothetical protein	ATGAAACTGTCCGTATTTACGGTCGCCACCCCTGATTTACTGCCGGAGGAATTGGCCCAAGCGGCGGCGGATGCCGGTATCGAAGGGATCGAGTGGCGCTTCAAGGAAATTCCGGCAGAGGCTGCCGAAGAGAAGCCTTCCTTCTGGGGGCATAACCGCTGCTCCATCGATCCGAACGGCACGCAGGAAGATTGGCTCAGGTTTAAGCAAGCAGCCGACAAGCATGGCCGGCGCAGTCTTGCGGTCGTTCCTTATCTGACCTGCGGCGACGTGGAAGCGACGGAGAAGGTCATGCAAGCGGCCAAGCTGATCGGAGCCTCTTTCATTCGTGTGGGGATTCCGGGATATAACCGAACGCGCAATTACAACGAGCTGTACGACCAGGCGGTCCGTTACCTTCATGAGGTGCAGGATCTTGCTGCCGCTTACGGGGTTAAAGCCGTGGTGGAAACCCATCATCTTACGATCACTCCGAGCGCCGGACTGACGCACCGGCTCGTATCCCACTTCAATCCGCAGCATATCGGCGTGCTATATGATCCGGGCAACATGGTCCATGAAGGTTACGAGAACTACCGGATGGGCTTGGAGCTTCTCGGTCCCTACGTGGCTCATGTCCATGTGAAAAACGGGGGTTATCGAAAAACGCCTTCCGAGGATGGAAGCTCGGCATCCTGGTCCGGAGAATGGGTCTCGCTTGACCAAGGGGCCGTCCCATGGAAGCAGGTCATACAGGACTTGCAATCGGTCGGCTACGAAGGTTACTACGGAATCGAGGATTTTAGCGGGACGTTTGAATCCAGGGAGATGCTGCTTCGTTTTGCCGAGCAGATGAAAATGTGGGCAGACCATAAACAAAGCGTATAG	MKLSVFTVATPDLLPEELAQAAADAGIEGIEWRFKEIPAEAAEEKPSFWGHNRCSIDPNGTQEDWLRFKQAADKHGRRSLAVVPYLTCGDVEATEKVMQAAKLIGASFIRVGIPGYNRTRNYNELYDQAVRYLHEVQDLAAAYGVKAVVETHHLTITPSAGLTHRLVSHFNPQHIGVLYDPGNMVHEGYENYRMGLELLGPYVAHVHVKNGGYRKTPSEDGSSASWSGEWVSLDQGAVPWKQVIQDLQSVGYEGYYGIEDFSGTFESREMLLRFAEQMKMWADHKQSV				NA	NA	NA	NA	NA
AK002_01728	1170	gfo_2		Glucose--fructose oxidoreductase	ATGGAACAGGTAAGAGTAGGGGTTATCGGACTGGGGATGGGTTTTTCGCATGCCAGATCGCTTGCAGCGGGGCGGATTTCGGGGGCGCGGCTTAGCGCCATATGCGACCTCAACGCGGCCAAGCAGGAAGAAGCGCGGGCTACGCTCCCATCGGACGTGAAAATTTGGAGTGACGCGGATGCTATGATCTCTTCGGGAGAGATCGATGCGGTGATTATTGCAACGCCCCATTATGCCCATCCTCAAGTGGCGATCGCGTGCCTGAATCAAGGACTCCACGTCCTGATTGAGAAGCCGGCGGGCGTGTATACGAAGCAGGTGCGGGAAATGAACCGCGCGGCCGAAGCCAGCGGCAAAGTGTTCTCGATCATGTACAATCAGCGCTGCAATCCGCTGTATAAAAAGCTTAGAGAGCTCATTGAGGCCGGCGAGCTCGGCGAAGTCCGGCGGATGAATTGGATCGTCACGAATTGGTACCGCTCACAGAGTTATTACGATTCGGGCGGATGGCGCGCTACCTGGGCGGGAGAAGGCGGAGGCGTCCTGATTAACCAATCTCCGCACCAGCTGGATCTGTGGCAGTGGACGACCGGCATGATGCCGAAGCGAATCCGCGCATTTTGTTCCTTCGGCAAGTACCGGAACATTGAAGTGGAAGACGACGTGACGGCTTATGCCGAATACGAGAACGGCGCCACGGCCGTCTTCATAACGACAACGGGGGAAGCGCCGGGCACGAACCGGTATGAAGTGACGGGAGACCGCGGTAAAATCGTCATCGAGGACGGCAAGCTTACCTTCTGGCGTCTTCGGGTGCCTGAACCGGAGTTCAATCAGCAGTATACCGGGGGCTTCGGCGAACCGGAATGCTGGAAATGCGAGGTGCCGATCTCGGGAGACAATCCTCAGCATAATGGCATCATCCAGAACTTTGCGGACGCCATTTTGCACGGAACGCCATTGATTGCGCCGGGCGAAGAGGGAATCCACGGATTGACCCTATCCAATGCCATGCACCTGTCCACTTGGACCGACAATTGGGTAGACCTGCCTTTGGATGAAGATCTGTATTACGAGATGCTGCAAGAACGGATAGCGAATTCGTCCACCAGGAAAACGGTCAAGGAGATCGGGCCGGTGGATATGAGCAAGACGTTTGGCGCTTATTAA	MEQVRVGVIGLGMGFSHARSLAAGRISGARLSAICDLNAAKQEEARATLPSDVKIWSDADAMISSGEIDAVIIATPHYAHPQVAIACLNQGLHVLIEKPAGVYTKQVREMNRAAEASGKVFSIMYNQRCNPLYKKLRELIEAGELGEVRRMNWIVTNWYRSQSYYDSGGWRATWAGEGGGVLINQSPHQLDLWQWTTGMMPKRIRAFCSFGKYRNIEVEDDVTAYAEYENGATAVFITTTGEAPGTNRYEVTGDRGKIVIEDGKLTFWRLRVPEPEFNQQYTGGFGEPECWKCEVPISGDNPQHNGIIQNFADAILHGTPLIAPGEEGIHGLTLSNAMHLSTWTDNWVDLPLDEDLYYEMLQERIANSSTRKTVKEIGPVDMSKTFGAY	PGPT0022715_51	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
AK002_01729	1074			hypothetical protein	ATGGACCGCAGCAATGGAATGCTCTATGCGCCGGTGGGCAAGGCCCAGCCGGTGTGCAAGCCCGGAGAATTTATTTTTGCAGCCATGTCGCTGGAGCATGGCCATATATACGGCATGTGCAACGGCTTGATTGAGGCCGGGGCGACGCTGAAGTGGGTGTATGACCCAGACCCCGCCAAGGTTGCGGCTTTTTGCAAGGCATACCCGGGGGCAGCCGCGGCTTCCTCCGAGGCCCAGGTGCTGGAAGATGCCGAAGTTCATCTGGTGGCGGCTGCCGCCATTCCTTCGGAGAGGTGCGAGCTCGGCCTGAAGGTCATGTCGCACGGCAAGGATTATTTCACGGATAAAACGCCGTTCACCACGCTGGAGCAGGTGAACGCTGCACGCGCGAAAGCCGCGGAGACGGGCAAGAAATACATGGTCTATTACAGTGAACGGCTGCATGTGGAGAGTGCCGTCCATGCCGGGAAGCTGATTCAGGACGGGGCGATCGGGCGAGTGGTTCAAGTGATGGGAACAGGACCGCACCGTTTGAATGCGTCCTCCCGCCCGGACTGGTTTTTCCGTCATCAACAGTACGGGGGCATCCTGTGTGACATCGGCTCCCACCAGATCGAACAATTTTTGTTTTATGCGGGATGCCGCGATGCCAAGGTGATCAGCAGCAAGGTGGGCAATTATGCGAATCCGGAATACCCCGAGCTGGAGGATTTTGGAGATGCAACGCTGGTGGGAGACAATGGAGCCACCAATTATTTCCGCGTCGATTGGCTGACGCCCGGAGGACTTGGCACTTGGGGCGATGGCAGAACCTTTATTCTGGGAACGGAAGGATACATCGAGCTTCGCAAATACATCGATATCGCAAGGCATCCGCAGGGGGATCATCTGTACTTGGTTAACGGCGAAGGAGAGTTTCATATGGAACTTCAGGGGAAAGTGGGCTATCCGTTTTTCGGGGAGCTTATTCTGGACTGCCTGGAACGCACGGAACATGCCATGTCCCAGGAGCATGCCTTCAAGGCCGGAGAATTGTGCGTGATTGCCCAAAATGAAGCCGTGCGCATTCCGTAA	MDRSNGMLYAPVGKAQPVCKPGEFIFAAMSLEHGHIYGMCNGLIEAGATLKWVYDPDPAKVAAFCKAYPGAAAASSEAQVLEDAEVHLVAAAAIPSERCELGLKVMSHGKDYFTDKTPFTTLEQVNAARAKAAETGKKYMVYYSERLHVESAVHAGKLIQDGAIGRVVQVMGTGPHRLNASSRPDWFFRHQQYGGILCDIGSHQIEQFLFYAGCRDAKVISSKVGNYANPEYPELEDFGDATLVGDNGATNYFRVDWLTPGGLGTWGDGRTFILGTEGYIELRKYIDIARHPQGDHLYLVNGEGEFHMELQGKVGYPFFGELILDCLERTEHAMSQEHAFKAGELCVIAQNEAVRIP				NA	NA	NA	NA	NA
AK002_01730	882	rhaR_17		HTH-type transcriptional activator RhaR	ATGACCTCATCTGTCGATATGATGCCAGGCTTTGACCGCATGCAGCTTCAAGCGCCGTTCGATCTGACCTATTACAATGAACAGCCGCTGTCGGGAGGGCAGTTTCACTCGCATGCTTTTTATGAAATCTATTATTTCCATGAGGGACGCTGCACGTATTTGATAGGCGATTCCGTGTTTACCCTGAAACCGGGGGATCTGCTCCTGATGAACGGGCTTACGCTGCACTGTCCGAATGTTGAACCCGATTCCAGATATGTCAGGAGCATTCTGCATTTTGATCCGGCCTGGATCTGCAAGGGGCTTTCGGAGACGGCCAAATCGATATTGCTGGACCCCTTCGAAACGCTGCGGAATCACCGCATGACGCTGACGGGGGAGAACCGGGAAGAATTCGAAGGGATGCTGGCCGACATACACCGCCTGTCGTCCTCCACGGCCAGGTTTCGCCAGGAGCGGATGACCCTTCGAATCCAGGAGATGATGTACGTCATCGCCGATTGGTGTCAGGCCGCCGTGCAGGATCACGACGCGATCTCGGAGAAGGAGCGGCATGTCCAGCATGTCGTCTCGTTTGTCGAGGAAAATTATATGCTGGATCTGACGCTGGAGGGAATCGCCCGCGACATGCATATCACGAAGCACTACTTATCCTCCTTATTCAAGGAAGTGACCGGAACGACGGTGTTCAAATATGTGTATCACCGGCGGATCAACCAGGCAAAAATCATGCTTAGGCTCCACCCCCATCTGAGCATAACGGAGATCAGCCAGGCGTCCGGTTTCAAGCATTTGGCCCATTTCAGCCGGATGTTCAAGGCCATGGTCGGGACGACGCCGGAATATTACCGCAGAAGCGGAGAAGAGCTTTCGTTGACTTGA	MTSSVDMMPGFDRMQLQAPFDLTYYNEQPLSGGQFHSHAFYEIYYFHEGRCTYLIGDSVFTLKPGDLLLMNGLTLHCPNVEPDSRYVRSILHFDPAWICKGLSETAKSILLDPFETLRNHRMTLTGENREEFEGMLADIHRLSSSTARFRQERMTLRIQEMMYVIADWCQAAVQDHDAISEKERHVQHVVSFVEENYMLDLTLEGIARDMHITKHYLSSLFKEVTGTTVFKYVYHRRINQAKIMLRLHPHLSITEISQASGFKHLAHFSRMFKAMVGTTPEYYRRSGEELSLT				NA	NA	NA	NA	NA
AK002_01732	2442	leuS		Leucine--tRNA ligase	ATGACGGACAATCAACCAACCGGCCACGGCTACCAGCCGCAGGCCATCGAACCGAAGTGGCAGCAATACTGGGATGAGAACAAAACCTTTAAAACGGAAGATGCCTCGTCCAAACCGAAATTTTACGCGCTGGATATGTTTCCGTACCCATCGGGCGCAGGCCTGCACGTAGGACACCCGGAGGGATACACGGCAACGGACATCGTGTCCCGCTACAAGCGGATGCGCGGATACAACGTTCTTCATCCGATGGGATGGGACGCCTTCGGCCTGCCGGCAGAGCAGTATGCGATGGACACGGGCAAACATCCTCGTGAGTTCACCGTGCAGAATATCGATACGTTCCGCCGCCAGATCAAATCCCTCGGGTTCTCGTATGACTGGGACCGCGAGATCAGCACCACCGATCCGGAATATTACAAATGGACGCAGTGGATCTTTATCCAGCTCTATAAACGCGGCTTGGCCTATGTGGCCGAGGTTCCGGTAAACTGGTGCGAAGCGCTCGGCACCGTGCTGGCGAACGAAGAGGTCATCGACGGCAAGAGCGAACGCGGAGGCCATCCGGTCGTACGCAAGCCGATGCGCCAATGGATCCTGCGCATTACCGAATATGCGGATCGCCTGCTGGAGGATCTGGACGAGCTGGACTGGAGCGAAAGCCTGAAGGATATGCAGCGCAACTGGATCGGCAAATCCACGGGCGCCGAGGTCCGTTTTGACATCGAAGGGTATGATGGTCATCTGGAGGTGTTCACCACTCGTCCGGATACGCTGTTCGGGGCAAGCTACTGCGTCCTGGCACCGGAGCATGACCTCGTGGACAAAATTGCGACAGCCGATCAGCGCGATGCGGTGAAGGCTTATCAGGATCAGGCAGCACGTAAAAGCGACCTGGAGCGGACGGATCTGGCCAAGGATAAAACCGGCGTATTCACGGGTGCGTATGCCATCAACCCGGTCAACGGCGCCAAGGTGCCGATCTGGATCGCGGATTACGTGCTTGCCGGCTACGGCACGGGGGCCATTATGGCGGTTCCGGGACATGACAGCCGGGACTGGGAGTTTGCGAAGCAATTCGGTCTTCCGATCATTGAAGTCGTTCAAGGCGGAAACGTCGAGGAGGAAGCATATACCGGCAGCGGCGCGCACGTAAATTCCGGCTTCCTGAACGGGCTGGATAATGAAGAGGCTATTCTGGCGATGAATGAATGGCTGGAGAAAGAGGGCAAGGGCAAGAAGAAGGTGACCTACCGTCTGCGCGACTGGCTGTTCAGCCGTCAACGCTATTGGGGCGAGCCGATTCCGATTCTGCATCTGGAAGACGGAACGATGAAAACCGTGCCGGAAGATCAGCTTCCATTGCTTCTGCCAGATGTGGATCAGATTAAACCGTCCGGCACCGGCGAATCGCCGCTGGCCAACGTGACGGAGTGGGTCGAAACGGTTGATCCCGAAACGGGTATGAAAGCCCGCCGCGAAACCAATACGATGCCGCAATGGGCCGGCAGCTGCTGGTACTACCTGCGTTACATCGATCCGGATAACCATGATGAACTGTGCTCCAAGGAGAAGCAGAAGGAATGGCTGCCGGTTGACCTGTACATCGGCGGCGTGGAGCATGCTGTGCTTCACTTGCTGTATGCGCGCTTCTGGCACAAAGTATTGTATGACCTGGGCGTCGTCGATACGAAGGAGCCTTTCCAGAAGCTGGTCAATCAGGGCATGATCCTGGGGAACAACAATGAGAAAATGAGTAAATCCCGCGGCAACGTCATCAATCCGGACGATATCGTGAACGAGTATGGCGCTGACACGCTGCGCGTATACGAGATGTTCATGGGGCCGCTGGAAGCGACGAAGCCATGGAACACCAACGGCGTTGAAGGAACGCACCGTTTCCTTTCCCGCGTATGGCGCCTGTTCATCGGAGACGACGGTCAATTGAATCCTAAAATCGTGGATGGCGAGGGTACGGACGAATTCAAACGCACGCTGCACAAAACGATTAAGAAAGTGACCGACGACTTTGAGCATCTGCGCTTTAACACAGCGATCAGCCAGTTGATGATATTCATCAACGAGGGGTACAAAACGGAAGTGCTTCCTCGCAAGGCGATGGAGAACTTCGTCCAACTGCTTTCCCCGCTTGCCCCTCACCTGGCTGAAGAGCTGTGGAGCCGTTTAGGCTACACGGAGAGCGTAACCTACGTGCCTTGGCCTGAGTTTGACGAGGCTTGGACCGTAGAGGCAGAAGTCGAGATCGTGGTGCAAGTCAACGGCAAAATCGTGGAACGCGCCAAAATCGCGAAAGACATGGACCAAGAAGCCATGCAACAACATAGCCTCTCCCTTCCAAATGTCAAGCAGGCGCTGGAAGGCAAGAGTATTCGCAAAATCATTGCCGTGCCGGGTAAACTGGTCAATATCGTGGCCGGTTAA	MTDNQPTGHGYQPQAIEPKWQQYWDENKTFKTEDASSKPKFYALDMFPYPSGAGLHVGHPEGYTATDIVSRYKRMRGYNVLHPMGWDAFGLPAEQYAMDTGKHPREFTVQNIDTFRRQIKSLGFSYDWDREISTTDPEYYKWTQWIFIQLYKRGLAYVAEVPVNWCEALGTVLANEEVIDGKSERGGHPVVRKPMRQWILRITEYADRLLEDLDELDWSESLKDMQRNWIGKSTGAEVRFDIEGYDGHLEVFTTRPDTLFGASYCVLAPEHDLVDKIATADQRDAVKAYQDQAARKSDLERTDLAKDKTGVFTGAYAINPVNGAKVPIWIADYVLAGYGTGAIMAVPGHDSRDWEFAKQFGLPIIEVVQGGNVEEEAYTGSGAHVNSGFLNGLDNEEAILAMNEWLEKEGKGKKKVTYRLRDWLFSRQRYWGEPIPILHLEDGTMKTVPEDQLPLLLPDVDQIKPSGTGESPLANVTEWVETVDPETGMKARRETNTMPQWAGSCWYYLRYIDPDNHDELCSKEKQKEWLPVDLYIGGVEHAVLHLLYARFWHKVLYDLGVVDTKEPFQKLVNQGMILGNNNEKMSKSRGNVINPDDIVNEYGADTLRVYEMFMGPLEATKPWNTNGVEGTHRFLSRVWRLFIGDDGQLNPKIVDGEGTDEFKRTLHKTIKKVTDDFEHLRFNTAISQLMIFINEGYKTEVLPRKAMENFVQLLSPLAPHLAEELWSRLGYTESVTYVPWPEFDEAWTVEAEVEIVVQVNGKIVERAKIAKDMDQEAMQQHSLSLPNVKQALEGKSIRKIIAVPGKLVNIVAG				NA	NA	NA	NA	NA
AK002_01733	843	proC_1	COG0345	Pyrroline-5-carboxylate reductase	ATGAAGGTCGGTTTTATCGGTACGGGCAGCATGGGTAGTCTGTTGATCGATGCCTTCATTCAATCGGGCGCACTCCTGCCTGAGCAGATTCGGGTCAGCAACCGAAGCCCTGAAAAGCCGCTGCAGCTGGCAAAACGTCATCCCGGTCTGACGGTATGCAGCTCTAACACGGAGACGGCTTCTCAAAGCGACCTGCTGTTTTTATGTATCAAGCCGCTGGAATTCAAAACGGTCATCGGCGAAATCAAGGATCGGCTCGAAACCCGGCAAATCGCCATATCCATCACGAGTCCGGTCCAACTGATCCATCTGGAATCATCGCTGCCTTGCAAGGTAGCGAAAATCATACCGAGCATCACTAACATCACCGGAGGCGGAGCATCGTTATGCATGTATGGTTCCCGAATAAAAGAAGAAGACAGGCAGCTTATAGAAAGCCTCCTGTCTTATATCAGCAGGCCGCTCAAGATACTGGAATCGCACACGCGAATCACTTCCGATTTCTCCAGCTGCGGGCCTGCTTTTTTAAGTTTATTCATGGAAAAATGGATCGACGCTGCCGTTGAAATGACCGGAATCGACCGCAGGTCCCTCAATGCACTAGCCGGCGAAATGCTGCTTGGCACCGGCAAGCTGCTAACGGAGGAGGGCTTCTCCCCCGAAGAGCTGCAAAAGCGGGTGGCGGTTCCCGGAGGCATCACGGCCCAGGCTCTGGCACTGCTGGAATCGAACCTGAACGGGTTGTTCTACCAATTGATCCAAACCACACACGACAAGTATGAGGAGGATTTGGCCAAACTGGATGCTGCCTTCGGTTTTACGATTAACCGGCCACGATATTGA	MKVGFIGTGSMGSLLIDAFIQSGALLPEQIRVSNRSPEKPLQLAKRHPGLTVCSSNTETASQSDLLFLCIKPLEFKTVIGEIKDRLETRQIAISITSPVQLIHLESSLPCKVAKIIPSITNITGGGASLCMYGSRIKEEDRQLIESLLSYISRPLKILESHTRITSDFSSCGPAFLSLFMEKWIDAAVEMTGIDRRSLNALAGEMLLGTGKLLTEEGFSPEELQKRVAVPGGITAQALALLESNLNGLFYQLIQTTHDKYEEDLAKLDAAFGFTINRPRY	PGPT0029420_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029420-comER-K02239	NA	NA
AK002_01734	663			hypothetical protein	ATGAAACGGATATCTTTAGGTTGGAGCCTTGCCGCAACGCTTGCGGGCTGCGGACTCATCTTGTTTGCCGGCGGCACGGAACAGGGAATCGAGGGCTGGCAGCCGTTAAACGAACAGCTGGAGCAAGTCATGACCATGGAGGAGAGCGCCGGTCCGAAGGCGCTTGCTTCCGATTCCCGGGATAAGGATGCGGGAGGGGCTGCAGCCCCTGCCGACACTCGAACGGATTTTTCTGATGCTGCAAAGACCGCTCAGGGTGGACAAGGCGAGCCCGCTACGAACGCGAAGGAACCGATGGCAAGTCTGGACCCGGCTGCTGCGGCCGGGAACGGCCAAGCAGCGGAACCCTACCCATCTTCAGCTTCTGCACAGGCAGTCGTTTCTCCGGCTTCATCCCCTACGGAGCCTGTCGGGGAACCGGTCTCTGCCAATGAATCTCCAGCGCTGCCGCCGTCCATTCCGGATCCGTCCGGATTGATCAATGTGAATACGGCGGATGCAGCCACGCTGATGGAGCTGCCCGGCATTGGCGAGGCCAAGGCCAAGGCTATTATCGATTACCGGAATCAGTTCGGCCCGTTTCGAACTCAGGCCGACTTGATGAACGTAAAGGGCATCGGGCCCAAAATGCTGGAGAAGATGAAGCCTTACGTAGGACTTTAG	MKRISLGWSLAATLAGCGLILFAGGTEQGIEGWQPLNEQLEQVMTMEESAGPKALASDSRDKDAGGAAAPADTRTDFSDAAKTAQGGQGEPATNAKEPMASLDPAAAAGNGQAAEPYPSSASAQAVVSPASSPTEPVGEPVSANESPALPPSIPDPSGLINVNTADAATLMELPGIGEAKAKAIIDYRNQFGPFRTQADLMNVKGIGPKMLEKMKPYVGL	PGPT0029410_1032	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029410-comEA-K02237	NA	NA
AK002_01735	519			hypothetical protein	ATGAGTGCAGATCAACGTAAAGATTGGGATACTTATTTCATGGATATTGCCTTTATGGTATCTACCCGTTCTCAATGCCCTCGGCGTCATGTGGGAGCGGTGCTGGTGCAGGGCAAGAAGCTGCTCGGGACGGCTTATAACGGCGCGCCGATGGGGGTGCCGGATTGCTCGGAAGCAGGTTGTATGATCGCGGAGGATTATGAATTGGTCGTGCAGGACGGCAAGGAAAGCATGGTGAAGAAGCAGCGCTGCATCCGCACGATTCATGCCGAGCAGAATCTGCTGCTGTTCACGGACCGGATCGACAGGGAGGGCAGTACGGTGTACGTGACAGACGAGCCTTGCTGGACCTGTGCGAACATGCTTGCCAACAGCGGCATTGTCGAGGTTGTGTTCCATCGTCCTTATCCCAAGGACTCCGGCAAGGTGTCCCGCATGATGGAACAGAAGGGGATTTCGTTCCGGCAGCTTGAAGCATACGAGCCGCCGCGCGAAACCTTGATGACGGTAGCGGAATAA	MSADQRKDWDTYFMDIAFMVSTRSQCPRRHVGAVLVQGKKLLGTAYNGAPMGVPDCSEAGCMIAEDYELVVQDGKESMVKKQRCIRTIHAEQNLLLFTDRIDREGSTVYVTDEPCWTCANMLANSGIVEVVFHRPYPKDSGKVSRMMEQKGISFRQLEAYEPPRETLMTVAE	PGPT0021380_845	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
AK002_01736	2778			hypothetical protein	TTGACTGCGATTTGCAGGCAAGGGTTCTTTTTTTATTTCGTCAAGAAGGGGATACATTCGATGATGAAACGAAGGCCATTACTTGTGTTTACCGTGTTATGGGTGATCGGCAGCGGTGCTGCATGCCTGTATGACGGATGGAAGCTCGCCGTGATTGGGGTCGGACTAATTCTTCTATTATTAGCTGTATGCCAGTGGGTGGGCGCAGGGCGCCTTTTTACGATCTGCATGCTATTCTCATTGTGCGTATCGGGCTCGTACTGGGAATGGCATGATGCGGCGAATGTAAGTGATTTCGAGTCGGTCCTTGCAGCGGAAGAGTCGACTGAACCCATGCCTGTTACTGCGTTCGGGGTGATTTCTTCTCCTGTCGAGGTGGATGGCGACCGGGCTGATTTCCAGGTAACCTTACAGCGGGCTGATCTGGTCAAAAACAAGCACCCGGCGGTGCAAAAACAAGCCGATCCGAATGGCAGCATGATGCTGAATACAAACGATATCATTATGGTCCAAGTAAAACTGCTGGATAAAACGGAGCTGGAGATTGTAAACCAATGGCAGCGCGGGGACCGCATACAGCTGAGCGGGGAAATGCAAAAGCCTGGAGTGGCCCGCAATTTTGGCGGATTTGATTACCTTCAGTATTTGCGTACTCAGAAGATTCATTGGATCGTCAAAGTGAAGGGCTCAGACCAAGCGGTGGTCGAACCGCCCGACAGCTGGAAATTAAGCCATGTTCTCAGATGGAATGATGCCCTTCGCGACAAGCTTGGAAGCAAGCTGGATCAATTGTACGGCGGCATCCATGCGGGTTATATGAAGGGACTCGTCATTGGCAATCAGGATGATCTGGATCCCGATACATTCATGGAGTTCTCGCGTTTGGGATTGACTCATATTCTTGCGATATCGGGCATGCATGTGGCCGTGGTTGTAGGTTGCCTGCTATTCGTATGCACAACCCTTCGAATGACGAGGGAGGCCTCGCTGACTGTGGTGATGTGGCTGATTCCCGTATATGTCCTGCTGACCGGGGCGAGTCCTTCCATAGTGCGCGCAGGCATCATGGGAATGATCGGTTTGTATGCTGCGCGGCGGCGGCTTTTGAAGGATGGGCTGCATATCCTCAGCGTGGCCGCGCTTGCCATGCTGGTGTGGAATCCGTATTTTCTCGTGAACGTCAGCTTTCAGCTGTCCTTCATCGTGACGGCGGGCTTGATGATATTCGTGCCGAAGCTGATGCCGCTGCTGACATTCTTGCCCCGCTGGCTGGGGGGAACCGTCGGCATAACAGTCGTGGCGCAGCTGATTTCATTTCCGCTCACCATCTATTACTTCAACCAGGTCTCGCTTATCTCCGTTTTCGCCAATCTGATCCTCGTTCCGGTCATTAGCCTGGTCGTCCTGCCTTTAGGCATGGTGTCTCTGTTGATGGGGTGGGTATGGATGCGCGGGGCGGGCTGGCTGGCCGCCGTGACCGAATGGTTAAACCATATCACGTTCCGGATCGTTGAATGGATGAATGGTTCCTCGGTTTTTATGACATTGTGGCCGTCTCCGTCGTTAGCCTGGATCCTGTGTTATTTCGTTGTCCTGTATGCATTGCTGTCCATCCTGAACAAAAGATTCAAGAATCCCGAGGGAGGGCAGAACGCTTCGAATGATACGGAGCCGTTGGACGGACGCCCGCCATGGGGCGATAGAGCAAATTTGTCCGGCGTGGGCACGCTGCCGATCGTGGGCCGTTTGGCCGGTGTATTGCGATGGAGAGGGTTCCTTCGCGTCAGTGATGATATCGAACGGTATGCCCCGGGAGCTGCGATAGCCCTGCTGTCCGGGGTTTTAATTGTTTTGCTGTACGGAGGCTATCAGTCACCGTCTACACAAGGGGCTGGACTGGTGCAATTCCTGGATGTGGGACAGGGAGATTCGATATTGGTAACAACGCCTTCGGGCAAGCATGTGCTCATTGACGGTGGCGGGACGGTGAATTTTCGCAAGGAGAAGGACGCCTGGAAGGAAAGGAAAGCTCCGTACGAGGTAGGAGCGAAAGTGGTGGTGCCTTTGTTGAAAAAACGGGGCGTGCACCAGCTTGAAGCCGTCATCATGACCCATGGGGATCAGGACCACATAGGGGGACTCCTGGCTGTATTGCAGGAAATCCCCGTGAAATCCGTCGTGTTTAATGGGACCTTGACCGAATCCGCCTCCTTCCGAAAGCTGATGTTATCCGCGGTTGAACAGCGCATTCCCGTATATCAGGCAGGAGCGGATTCCGTATGGAGACTTGACGGTCATACGGAGATCCGATTTTTATCCCCTCTTTACCCAGAAAGTGGAGAAGTCATCAAACCATTACCGTTGATTAAGGAGCAAAATCATGCTTCACTAGTATTTGTTCTTCAGATAAACGGCAGCCGGGTCTTATTTACGGGGGATACGGATCAAGCAGCCGAACGGAAAATACTGCAGCACCTGGAGGGGCAATCCCAAGATGATGCTGCCTCACGGCTTACAGCTGCCGAAGATCGGATCGACGTCATGAAGGTGGCCCATCACGGAAGCAAGACATCCACATCCGCGCCATGGCTGAATGCATGGAAGCCGAAGGCTGCGGTAATTTCTGCCGGCGTCAACAATATGTACGGCCACCCTCATCCGGACGTGGTCGGCCGCTTGGAACGTTTTCGGTCCATCATCTATCAAACCAATCTTCATGGCGAAATCCAGATGAGGATCAAGAACGGGCATATTGAGACGCGAACGAAGATTCAATGA	MTAICRQGFFFYFVKKGIHSMMKRRPLLVFTVLWVIGSGAACLYDGWKLAVIGVGLILLLLAVCQWVGAGRLFTICMLFSLCVSGSYWEWHDAANVSDFESVLAAEESTEPMPVTAFGVISSPVEVDGDRADFQVTLQRADLVKNKHPAVQKQADPNGSMMLNTNDIIMVQVKLLDKTELEIVNQWQRGDRIQLSGEMQKPGVARNFGGFDYLQYLRTQKIHWIVKVKGSDQAVVEPPDSWKLSHVLRWNDALRDKLGSKLDQLYGGIHAGYMKGLVIGNQDDLDPDTFMEFSRLGLTHILAISGMHVAVVVGCLLFVCTTLRMTREASLTVVMWLIPVYVLLTGASPSIVRAGIMGMIGLYAARRRLLKDGLHILSVAALAMLVWNPYFLVNVSFQLSFIVTAGLMIFVPKLMPLLTFLPRWLGGTVGITVVAQLISFPLTIYYFNQVSLISVFANLILVPVISLVVLPLGMVSLLMGWVWMRGAGWLAAVTEWLNHITFRIVEWMNGSSVFMTLWPSPSLAWILCYFVVLYALLSILNKRFKNPEGGQNASNDTEPLDGRPPWGDRANLSGVGTLPIVGRLAGVLRWRGFLRVSDDIERYAPGAAIALLSGVLIVLLYGGYQSPSTQGAGLVQFLDVGQGDSILVTTPSGKHVLIDGGGTVNFRKEKDAWKERKAPYEVGAKVVVPLLKKRGVHQLEAVIMTHGDQDHIGGLLAVLQEIPVKSVVFNGTLTESASFRKLMLSAVEQRIPVYQAGADSVWRLDGHTEIRFLSPLYPESGEVIKPLPLIKEQNHASLVFVLQINGSRVLFTGDTDQAAERKILQHLEGQSQDDAASRLTAAEDRIDVMKVAHHGSKTSTSAPWLNAWKPKAAVISAGVNNMYGHPHPDVVGRLERFRSIIYQTNLHGEIQMRIKNGHIETRTKIQ	PGPT0029415_88	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
AK002_01737	549	sigW_4	COG1595	ECF RNA polymerase sigma factor SigW	GTGGTGGAGCAGGGACTCATAAGAGCCGCTCAATCGGGCGATCGCGACGCTCTAATCACCCTATTGCGAGAAATTGAGCAACATGTTTACCGAACTGCTTATTACATTTTAAACAATGAACAGGATGCCATGGATGCAGCCCAGGAAGCACTGATACGTGTATATACGAAGATCAACTCCTATGAGGAGAAAGCCCAGTTCAAGACTTGGGTCCAGCGGATCGTTACCAACATATGCATCGATAAATTCCGCAGAACGAAGCCGACGGTTTCCATCGATGAGCATGACATGGTGTTTCGGGATCATCTCGACGTGGAAAGGGAAGTGATGTCGGGCTATCTGGCCCAGGATATCCAGGAGGCCATTAACCAACTGCCGGATCATCATCGCACGGTCATTGTCTTAAGGTATTTGCAGGACCTGTCCTACAACGAAATCGCTGATTGTCTGAACCTCCCGCTCAATACGGTGAAATCCTATTTGTTCAGGGCCAGGCAGCAGCTGCAGAATATGCTCCAAGAGCATCAGAAAGGTGGTGTATCAGGATGA	MVEQGLIRAAQSGDRDALITLLREIEQHVYRTAYYILNNEQDAMDAAQEALIRVYTKINSYEEKAQFKTWVQRIVTNICIDKFRRTKPTVSIDEHDMVFRDHLDVEREVMSGYLAQDIQEAINQLPDHHRTVIVLRYLQDLSYNEIADCLNLPLNTVKSYLFRARQQLQNMLQEHQKGGVSG				NA	NA	NA	NA	NA
AK002_01738	1275			hypothetical protein	ATGAATTGCCAAGAGGTGGTGGAACGCATGCACCGCTATTTGGACCGGGACCTTACTTCCGATGAGACGGCCCAAATGTATCAGCATATTGCCGTGTGTCCCGAGTGTGCGGAGACCTTTAACATATTAAAGTCATTAAACAGAGAGCTTGAAGATCTTCCGGCCGTTACCCCGCCTGTCAGTCTGGTAGACGCTATCATGCCTAAACTGGATGCCATCGACCGTGATCGCGAGAGCCTTATCGCACCTCCGGCCGTGAAAAGCCAGGAGCCTGCCGAAATGATGCCGGACATTCGGCGTCCGCGGCGTGCGGGCAGCTGGTGGAGCACGGTTGGCGGAAGAACGGCGATCGGGGCTGCCGCCGCTGTACTTATTCTCGGCGTCGCTATTTTTAATTATGAACCGAAGATGTTGTCCGATGCGGAGATTCCGTACGAAGAGGCGAGCACGACCAGCGCGGGAGCGAATGAGGATTCGGCCGAGACGGAGATTCAGGATATGGTTCAGCCGTTTGCCGCCGATGGCGGCGCGGAGACTGGCAGTACGGCGAACGAGGGGAGCGATCCTTCCGCAGGTTTGCGGAGTTCGCCGCCGGAATCGTCGGAATCCGATCCGAATCCGGGCCCGAACGACGAATCGAAGGAGAAGACAGAGCCATCGGATGGGCCTAAAGACACCAGGGAAGATGCAGCAGCCCCCGATGCTCCGGTTAAGAAGAACAATGACGGGGAGCCTCAAGCGCCAGACCAACCTGCAACAAGCAGCAATGAGGTACCCAAAAAAAATGACGCAAGCCCTTCGAACCCTCCGGCCGACGAGCCTGGGCAGAACTCGGAGAGCATGAGCATCCAGACTTCGCCTAATAATCATGAAGCAATGGACGTCCAAACCGAGATGGTGCCGCCGATCAGCGACCCTGCCGGCGATGCAGGCGCTGGAAGCGCGGAATCTTCCGACCGTTCCACCGGATCGTACCAAGGGCTGGCGATGGTGCCGGAGCAATGGCCGTCCCCGGATGGTCTGTACAGAGCCTCCCTGGAGGCCGAATATCTGGTGATCTATCGCCTGCCGTCGGGAGACCAGACTTCAGCTGAAGCGGTCGAAACGGTCGAGAGGATTCCGCTTGGCGGAAGCTGGGTATCCGGTCAATGGTCCGAGGACGGCTTAACGTTCAAGTACAAGGTACAGACGAACAAAGAGCTGGTTGAATCCGTCTACTCCATAGAGAAGGCTCAGCCGCCGGCGTCTGCGGGGCAGAAGCAGCCTAAACCATAG	MNCQEVVERMHRYLDRDLTSDETAQMYQHIAVCPECAETFNILKSLNRELEDLPAVTPPVSLVDAIMPKLDAIDRDRESLIAPPAVKSQEPAEMMPDIRRPRRAGSWWSTVGGRTAIGAAAAVLILGVAIFNYEPKMLSDAEIPYEEASTTSAGANEDSAETEIQDMVQPFAADGGAETGSTANEGSDPSAGLRSSPPESSESDPNPGPNDESKEKTEPSDGPKDTREDAAAPDAPVKKNNDGEPQAPDQPATSSNEVPKKNDASPSNPPADEPGQNSESMSIQTSPNNHEAMDVQTEMVPPISDPAGDAGAGSAESSDRSTGSYQGLAMVPEQWPSPDGLYRASLEAEYLVIYRLPSGDQTSAEAVETVERIPLGGSWVSGQWSEDGLTFKYKVQTNKELVESVYSIEKAQPPASAGQKQPKP				NA	NA	NA	NA	NA
AK002_01739	1020	yqeN	COG1466	putative protein YqeN	ATGGATGCCAAAGCGGCGGCCAAGGCGGTCAAGCAGGGAGATGTGTCTTCCGTCTATTTGCTGTACGGCAGCGAGAAATTCCAGATGAAGGAGTTCGCCGAATTTCTGGAAGCTCAGCTGATCCCGAAAGAAGACCGGGATTTTGCGCTGGTTCACATGGATTTAGGGGAAGTTCCGATACAAACCGTGGTAGAGGAAGCGGAGACGGTTCCTTTTATGGTTCAGAAAAAACTGATATTCGTCCGGGATACGGCTTTTTTTACGGCTGCAAAAGATAACGGGAAAGTGGATCATCGTCCAGAGGCTTTGCTGGATTATTTGACCGATCCCGCAGATTATAGCGTGATTGTCTTTATGGTGGGGCAGGAAAAGCTGGATGAGCGCAAGAAGGTAGTCAAGGCGGTCAAGAAGTCGGGGGTTGCCCTCTCCTTCATGCCTTTGGGCGGGGATGAACTTCTTCGCTGGGTGGACAAGCAGGTGAAGAAAGGCGGCTGCACGTTGCGCGCAGGCGCGGCGGAAGCGCTTGTTCGGAATGCGGGAACCAGTCTTCAGTCTTTATCGGGTGAAATCGAGAAGCTGTGTTTGTATGCGGGAGCCGACGGAGCCATTGATGTTGCAACCGTGGATATGCTGGTGGCGCGCAGCACGGAACAGAATGTGTTTGCGCTCGTGGAGGATATCGCCAATCTCCGATTGGACAAGGCGCTCGGGATCTATTATGAGCTGCTGAAGCAGCGTGAGGAGCCCATCAAGATTGCGGCCCTGATTACCAGACAGTTCCGAATCATTCTGCAGGTGAAGACGTTATCCACCCAGAGCTACTCGCAGCAGCAGATTGCTTCCCAAATCGGGGTGCATCCTTATGCGGTGAAGATTGCTGGCGAGCAGGCCCGCAAGTTTCAGACGGCACGTCTTGAAGGCATATTGAACCATCTCGCCAATCTGGATTACCAGATGAAGACCGGGGCCGTGGATAAGGTGCTCGGAATCGAGTTGTTTCTGCTGCGGCTTGGCGCGTAA	MDAKAAAKAVKQGDVSSVYLLYGSEKFQMKEFAEFLEAQLIPKEDRDFALVHMDLGEVPIQTVVEEAETVPFMVQKKLIFVRDTAFFTAAKDNGKVDHRPEALLDYLTDPADYSVIVFMVGQEKLDERKKVVKAVKKSGVALSFMPLGGDELLRWVDKQVKKGGCTLRAGAAEALVRNAGTSLQSLSGEIEKLCLYAGADGAIDVATVDMLVARSTEQNVFALVEDIANLRLDKALGIYYELLKQREEPIKIAALITRQFRIILQVKTLSTQSYSQQQIASQIGVHPYAVKIAGEQARKFQTARLEGILNHLANLDYQMKTGAVDKVLGIELFLLRLGA				NA	NA	NA	NA	NA
AK002_01740	273	rpsT	COG0268	30S ribosomal protein S20	ATGCCAAACATCAAATCCGCGATTAAACGTGTAAAGACAAATGACAAACGCCACGCGCTTAACATTTCTCAAAAATCCGCGCTTCGCACAGCTGTTAAAACTGCTGACGTAGCGTTGAACGGTACAGAAATCGAAGCTGCTAAAGTAGCTTTCCAAGCTGCTTCCAAGAAGCTTGATAAAGCCGTAACGAAGGGCCTGATCCATAAGAACGCAGCTGCCCGCAAGAAATCCCGTCTGGCGAAAAGACTAAACGCTCTTACGTCCCAAGCGTAA	MPNIKSAIKRVKTNDKRHALNISQKSALRTAVKTADVALNGTEIEAAKVAFQAASKKLDKAVTKGLIHKNAAARKKSRLAKRLNALTSQA				NA	NA	NA	NA	NA
AK002_01741	1002	gpr_3		Germination protease	ATGGATCTGGATCTGCAAAAATACTCGGTCCGAACGGATCTGGCCGTGGAATCAAGAGAACTGGCTGGAGGCACAGGAAGCGCGCCCATTCCCGGGGTTATGGAGGATGTGGTGCAGGAGGACGGAATCAAGATTACAAGGCTGGATGTGGAGAACGATGCTGCCTCTCAGCAGATCGGAAGGGTGAAGGGGCATTACGTCACGTTGGAGGTACCCGATCTTCGCAAGGGCGATACGGGGCTTCAGGATCAGGTGTCCGTTGTCTTCGCCCGCGAGTTTGAAGCGTTCATGTCCCGGATCGGGATTGGACCCAAGGCAAGCGTGCTCATTGTCGGGCTCGGCAATTGGAACGTGACGCCGGATTCGCTGGGACCGCTCGTGGTGGAGAACGTGATGGTGACCCGCCAGTATTTCGAGCTCATGCCGGATCGGGTGGCGCCAGGCTACCGTCAGGTCAGTGCCGTAGCGCCGGGCGTTCTCGGCCTGACAGGGATTGAGTCGAGCGAAACGGTCCAAGGGATCGTGGAACAAATCCGTCCCGATCTGATCATCGCCATCGACGCCTTGGCTTCTCGTTCGCTGGAGCGTGTGAATACGACCATTCAGATCGCGGATATCGGCATCCATCCCGGCTCCGGCGTTGGCAACAAGCGCAAAGGGTTGACCCAAGAAATTCTTGGGGTGCCGTGTATTGCGATCGGCGTTCCGACCGTCTGCTACGCTTCCACCATCGTCAATAATGCGATAGAGCTGATGAAATCCCACTTCGGGGAAGGCGCGCCGGAGACGGGCAAGATTATGGGAATGCTGCACGATATCCCCGAAGGCGAGCGCCTCGCCCTGGTGAAGGAGGTTCTGGAGCCGCTGGGCCATGACCTTATCGTAACGCCTAAGGAGATTGACGAATTTATAGAAGATATCGCCAACATCGTGGCGACCGGCCTGAACGCGGCGCTCCATGAAGCCGTGGATCCCGGCAATGTAGGCGCGTATACCCACTGA	MDLDLQKYSVRTDLAVESRELAGGTGSAPIPGVMEDVVQEDGIKITRLDVENDAASQQIGRVKGHYVTLEVPDLRKGDTGLQDQVSVVFAREFEAFMSRIGIGPKASVLIVGLGNWNVTPDSLGPLVVENVMVTRQYFELMPDRVAPGYRQVSAVAPGVLGLTGIESSETVQGIVEQIRPDLIIAIDALASRSLERVNTTIQIADIGIHPGSGVGNKRKGLTQEILGVPCIAIGVPTVCYASTIVNNAIELMKSHFGEGAPETGKIMGMLHDIPEGERLALVKEVLEPLGHDLIVTPKEIDEFIEDIANIVATGLNAALHEAVDPGNVGAYTH				NA	NA	NA	NA	NA
AK002_01742	1374			hypothetical protein	ATGAACAATCGCAAGTTCCGCATCTGGAATATTGCCAGAATGAAACGGAAGGTCATGGAAGGTCTGAGCATGGGGCGAACGTTAATTATACTGATGCTAGGCTCTCTTATATTTTTTATTTTGCTAGGGCTCGGGGGAATGGCGGAACAGCGGATGAATTCCTCGCCCGTGTCGTCGATGAAAGGATTGGCCGCTTCGTTATCCAGCCATTTTTTCATCGATATGATCGGCATGGAGATGCCGCATATGACGGCTTCCAAAGAGACCTCGAGCTTCTCCGGCGAGAAAATGTCCACGTTCGTCTTTGAGCTCCTGACGAGCGTAAACCCGAAGGATCCGAAGAGCCTCCTTGCGGGAGAGCTTCCCGGCATGAAGGCTAATCAACCGGTTCAGCTATCGCACGGCTCCGGTAACGAGGATGGCGAGGCGCCGGCCGATTACCGGCCGGACCCGGCGGAAGGGCAGGCAGAGGGAGAGCCCGCCGAGACCGGGGAAGAGCCGACGCAAGGCGAACAAGGGAACAGCGGCAATGAAGGAAAGGGCGAGGATGCTCCGGATCAGGGCGCGAAGGACGAGCCCGGCAGCAAGAATGAACCCGGAAGCACCTCCAAGGACGGAAAGACAACGAACGGGAAGAAATCCGTCCTCATCTATCATTCCCACCCGCAGGAAGCGTATAACCCGCTGCTCTCGCATCCATCCGATAATCCGGGGGCGACATCCCCGACCAAGAACGTCATGCTGGTGGGCAGCTTCCTGAGCAAAAGGCTTGAAGCCAACGGAATCGGCACCCTTCACGACAAGAGCGACTATCAATCTACCGTGGAAGGATATAACTATAACTATTCTTATAAATACTCGCGCCAGATGGCCATGGAGGCCATGTCCCAGAACGACGGCATCAACTATCTGATCGATATCCACCGGGATTCGCAGCGCTACAACAAAACGACGGCTACCGTAAACGGCGTCAATTACGCCAAGGTGTACTTCATCATCGGACATGCGAACGAGAACTGGAGACAGAACGAGGCGTTTGCAAGCAAAATCAATGCCAAGCTGGAGAAGTCCTATCCCGGCGTTTCCCGGGGCGTGTGGGGCAAATCGGCGGACCAAGGGAACGGAGAGTACAACCAATCCTTGTCTCCGAACAGCATCCTGATCGAAATCGGCGGCATCGACAATACGAAGGAAGAATTGCAGCGAACGGCCGAGGCGCTGGCCGACATCATCGCCGACGTGTACTGGCAGGAACAAGAAGCCGAGAAGGCCAGCGTGAAAAAAGAGAGTGATCCAGCGAAGAAGCAGTCGGCTTCAGCAGCCAAGGACGGCAGCGAAAAAGGTGCGGAGGATAAAGCGTCCAAAGCAGGTTGA	MNNRKFRIWNIARMKRKVMEGLSMGRTLIILMLGSLIFFILLGLGGMAEQRMNSSPVSSMKGLAASLSSHFFIDMIGMEMPHMTASKETSSFSGEKMSTFVFELLTSVNPKDPKSLLAGELPGMKANQPVQLSHGSGNEDGEAPADYRPDPAEGQAEGEPAETGEEPTQGEQGNSGNEGKGEDAPDQGAKDEPGSKNEPGSTSKDGKTTNGKKSVLIYHSHPQEAYNPLLSHPSDNPGATSPTKNVMLVGSFLSKRLEANGIGTLHDKSDYQSTVEGYNYNYSYKYSRQMAMEAMSQNDGINYLIDIHRDSQRYNKTTATVNGVNYAKVYFIIGHANENWRQNEAFASKINAKLEKSYPGVSRGVWGKSADQGNGEYNQSLSPNSILIEIGGIDNTKEELQRTAEALADIIADVYWQEQEAEKASVKKESDPAKKQSASAAKDGSEKGAEDKASKAG	PGPT0024690_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024690-spoIIP-K06385	NA	NA
AK002_01743	414			hypothetical protein	ATGATGTCGAGATTGGGAAAACGGTTTGTGGCGCTTATCATATGGACAGGCATCGGCATATTGGTCGGCATGCAGCTTGGAGGGGCCAAAGGGCCGGTGCCGGCCGACGGTACCGGGGGAACGCAGACCGTGGTGCAAGGCCAAGTTCAGGATCCTCAAGGCGGAACGTCTCAGGGGAATGGATGGGGAGGGACGCGCAAGCATCCTCCCACCCCTGAATCCGTCGAACAGGAACCAGACGCCCGTAAGACGGCTGTGCCCGAATACGAGCCGTCGCCCAGCGACATTCTGCTCCCCGAACGCTCCCAACCGCCTGCCGATGTGCTTGCCGACAAAACGGCCGGACTGCTTCAGCAGCTCTCTGACCAAAGCATCCGCTGGGTCGTGTCGATGTTCGGATCGATTACGGAATAA	MMSRLGKRFVALIIWTGIGILVGMQLGGAKGPVPADGTGGTQTVVQGQVQDPQGGTSQGNGWGGTRKHPPTPESVEQEPDARKTAVPEYEPSPSDILLPERSQPPADVLADKTAGLLQQLSDQSIRWVVSMFGSITE				NA	NA	NA	NA	NA
AK002_01744	1818	lepA		Elongation factor 4	ATGACAGACGTACAAGTAAGACAACAAAAAATTCGTAATTTCTGTATCATTGCACATATAGACCATGGGAAATCGACGCTTGCCGACCGTATTTTGGAATTTACGGGCGCATTAACTTCGCGTGAAATGCAGGAGCAGGTACTGGATCAGATGGATCTGGAGCGAGAGCGCGGAATTACCATCAAGCTGCAGGCGGTTCGCCTGAACTACAAAGCCGATGACGGCGAGGAGTATATATTGAACCTGATCGATACTCCGGGACACGTCGACTTCACGTATGAGGTATCCCGAAGCCTGGCCGCTTGCGAAGGCGCGCTGCTCGTTGTGGATGCCGCGCAGGGAATCGAAGCGCAGACATTGGCCAACGTATATCTGGCATTGGATAACAATCTTGAAATTTTGCCTGTCATTAACAAAATCGACCTGCCGAGCGCCGATCCCGAACGGGTGAAGCAGGAGGTCGAGGATGTGATCGGGCTCGATGCCAGCGATGCCGTTTTGGCTTCCGCGAAAGCGGGCATCGGAATCAAGGAGATCCTGGAGCAGGTGGTTCAGAAAGTGCCTGCGCCAACGGGCAATTCCGAAGATCCGCTGAAAGCGCTGATTTTCGACTCCCATTATGATCCTTACAAGGGCGTCATCGTATATGTCCGCGTCATTGACGGCAGCATCAAGGCCGGTTCCAAGATCAAGATGATGGCCACCGGCAAAACCTTCGAGGTGATCGAGGTGGGTGCCTTTAAGCCGCGCATGTCCATCGTGGACGAGCTTAACGTCGGCGATGTCGGTTTCATCGTGGCGGGCATCAAGAGCGTTGGCGATACGCAGGTCGGGGATACGGTAACGGATGCCAAGCGTCCGACGGCCGAGCCGCTCCCGGGTTACCGCAAAATCAATCCGATGGTGTTCTGCGGATTGTATCCAATCGAAACATCGGACTACAACGATCTGCGCGAGGCGCTCGAGAAGCTGCAGCTGAACGATGCATCGCTCAGCTTTGAGCCGGAGACGTCCAGCGCGCTCGGATTCGGCTTCCGCTGCGGATTCCTGGGCCTCCTTCACATGGACGTCATTCAGGAGCGGATCGAACGCGAGTTTAACATACCGCTGATTACGACCGCGCCGAGCGTGATTTACCGCATTACGCAGACGAACGGAGAGCAGATTCAAATCGATAACCCTTCCCACTATCCTGAGGTCGGCAAGGTCGATTATGTCGAAGAGCCTTATGTTAAAGCAGCCATTATCGTGCCGAATGATTATGTCGGAGCGATCATGGAGCTTTGCCAAAACAAACGCGGCGAATTCGTCAACATGGAATACCTGGACACGACGCGCGTCACCATTACCTATGAAATTCCGCTGTCGGAAATCGTGTACGATTTCTTCGATCAGTTGAAATCGAGCACCAAAGGATATGCTTCATTCGACTATGAGCTGTCCGGATACCGCCGGTCCAATCTGGTCAAAATGGACATTCTGCTTAATGCCGAGCAGGTGGATGCCCTGTCCTTTATCGTGCACAAGGACCGCGCATACCACCGCGGCCGGGCGATTTGCGAGAAGCTGCGCGAGCTGATTCCTCGCCAAATGTTCGAGGTGCCAATTCAGGCATCGGTCGGTACCAAGGTTGTGGCCCGCGAAACGGTTAAAGCGATGCGCAAGAACGTGCTTGCCAAATGTTACGGCGGCGACATCTCCCGTAAACGGAAGCTTCTGGAGAAGCAGAAGGAAGGTAAGAAGCGGATGAAGCAGGTGGGCAGCGTCGAAGTGCCGCAGGAAGCCTTCATGGCCGTTCTGAAAATCGACGACAAGTAA	MTDVQVRQQKIRNFCIIAHIDHGKSTLADRILEFTGALTSREMQEQVLDQMDLERERGITIKLQAVRLNYKADDGEEYILNLIDTPGHVDFTYEVSRSLAACEGALLVVDAAQGIEAQTLANVYLALDNNLEILPVINKIDLPSADPERVKQEVEDVIGLDASDAVLASAKAGIGIKEILEQVVQKVPAPTGNSEDPLKALIFDSHYDPYKGVIVYVRVIDGSIKAGSKIKMMATGKTFEVIEVGAFKPRMSIVDELNVGDVGFIVAGIKSVGDTQVGDTVTDAKRPTAEPLPGYRKINPMVFCGLYPIETSDYNDLREALEKLQLNDASLSFEPETSSALGFGFRCGFLGLLHMDVIQERIEREFNIPLITTAPSVIYRITQTNGEQIQIDNPSHYPEVGKVDYVEEPYVKAAIIVPNDYVGAIMELCQNKRGEFVNMEYLDTTRVTITYEIPLSEIVYDFFDQLKSSTKGYASFDYELSGYRRSNLVKMDILLNAEQVDALSFIVHKDRAYHRGRAICEKLRELIPRQMFEVPIQASVGTKVVARETVKAMRKNVLAKCYGGDISRKRKLLEKQKEGKKRMKQVGSVEVPQEAFMAVLKIDDK	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
AK002_01745	1167	hemW	COG0635	Heme chaperone HemW	ATGACGGCAAACGATCAGCGGACGGAAGCGGTGTACATCCACATTCCGTTCTGTACCAATAAATGTTTTTACTGCGACTTCAATTCCTACGTGTTAAAGGATCAGCCGGTAATGGATTATCTGCGAGCGCTGGATAAGGAAATGGAGCTGACCGTTCAGGCTAATCCGCCGGGACGAATCAAAAGCATCTTTGTAGGCGGCGGGACTCCTACCGTACTGAAGCCGAACGAAATGGAATACTTCTTGCAGAGCGTGAAGCGCCATTTTCCGGAATGGTCCGATAGCATCGAATTTTCAATGGAGGCGAATCCCGGCACCACGGATCTGGAGAAGCTGTCCGTCATGCGCCAAGGCGGGGTGAACCGGATCAGCTTCGGGGTGCAGGCCTTCCAGAACACATTGCTGACCGGCATCGGCAGAATTCACGATACGGATGACGTATACCGGAGTCTCGATAACGCCAGAAGAGCAGGCTTTGACAACATGTCCATCGATCTGATGTTCGGTCTCCCGAATCAAACCTTGGACATGCTTGCGGAAAGCGTGGATAAAGCATTGGAGCTCGAACTTCCGCACTATTCAATCTACAGCCTGAAGGTTGAAGAGAATACGCTGTTCCATACGATGTACCAACGAAACCAGCTTCCGCTTCCGGATGAGGAGGATGAGCTGAATATGTACCTTCTTTTAATGGAACGGATGAAGGCTGCCGGATATAAACAGTACGAAATCAGCAATTTTGCGAAACCCGGCTTCGAGAGCCGGCATAATATGACGTATTGGCGCAACGAAGACTATTACGGCCTAGGCGCGGGAGCGCACGGATATGTCGGCCGTCAGCGCCATGTGAACATCAAAGGGGTCAATCCCTATAATGAAGCAGCCAATAAAGGCCTTCCAAGATTGGAGAGCTTTGAGATATCTAGGGAAGAAGCGATGGAGGATTTCCTGATGGTCGGGCTGCGCGTGCTGGACGGCGTCTCGCGCAGCCGCTTCCGGGAGCAGTTTGGGATCACCATGGAGGAGGTTTTTGCCGGTCCGCTGAATAAAATGGTAGGCGCGGGCCTACTCGATGCCACCGAAGACGGGTATAAGCTGAGCAGCAAAGGAATTTTGTTTGGCAACGATGTGTTTGGCGAATTCATAGGAAGCCTGACGACAAATTAA	MTANDQRTEAVYIHIPFCTNKCFYCDFNSYVLKDQPVMDYLRALDKEMELTVQANPPGRIKSIFVGGGTPTVLKPNEMEYFLQSVKRHFPEWSDSIEFSMEANPGTTDLEKLSVMRQGGVNRISFGVQAFQNTLLTGIGRIHDTDDVYRSLDNARRAGFDNMSIDLMFGLPNQTLDMLAESVDKALELELPHYSIYSLKVEENTLFHTMYQRNQLPLPDEEDELNMYLLLMERMKAAGYKQYEISNFAKPGFESRHNMTYWRNEDYYGLGAGAHGYVGRQRHVNIKGVNPYNEAANKGLPRLESFEISREEAMEDFLMVGLRVLDGVSRSRFREQFGITMEEVFAGPLNKMVGAGLLDATEDGYKLSSKGILFGNDVFGEFIGSLTTN	PGPT0003200_3199	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
AK002_01746	462	argA	COG1246	Amino-acid acetyltransferase	ATGTCGGCGGTATGCAGAAAAGCAAAGTTAGAGGATGTCGAGCCGCTGTATCAGATGATTCAGGGTTATGCCGAGAAGGGGATTATGCTCCCCCGGTCCAAAAAAGTGCTGGAGAAACAAATCGGAGAATTCGTTGTAGCTGAATCCGAAGGGCACGTCATTGGCTGCGGTTCATTGTGTCAGCTGGGAAGCGATTTGGTCGAGATCCGTTCGCTCGGCATCTCGGAAGGATATAAAGGGCAAGGCATCGGCTCCATGCTGGTGGATAGCCTTCTGGAAGAAGCGAAACGCCGCGAGCTTCCGAAAGTGATGGCCTTGACGTATGAGGTATCCTTTTTCATCAAAAACGGCTTTGCCGTCGTAGAGAAGGAGATTTTTCCGGAGAAGGTATGGACCGACTGCATCCACTGCAAGAAGCAGCATGCTTGTGACGAAATAGCTGTTCTTAAAGTACTGAACTGA	MSAVCRKAKLEDVEPLYQMIQGYAEKGIMLPRSKKVLEKQIGEFVVAESEGHVIGCGSLCQLGSDLVEIRSLGISEGYKGQGIGSMLVDSLLEEAKRRELPKVMALTYEVSFFIKNGFAVVEKEIFPEKVWTDCIHCKKQHACDEIAVLKVLN	PGPT0014241_787	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014241-argA-K00619	NA	NA
AK002_01747	1035	hrcA	COG1420	Heat-inducible transcription repressor HrcA	ATGTTAACAGATCGTCAGCGCATGATTTTGAATGCCATTGTGGATGACTATATCCGTTCTGCCGAGCCGGTAGGTTCAAGAAGCATTTCCAAGCGAGGGGACGTCGGCTACAGCCCGGCAACCATTCGTAACGAGATGGCTGATCTGGAGGAGCTCGGGTTTCTGGAGCAGCCCCATACTTCAGCCGGACGAATACCGTCGCATAAAGGATATCGATATTATGTTGATCATCTCACGTCGTCGTTTTCCTTGAACCCTGCGGAACTGCATATGATGAAATCATTTTTTGCAGAAAAGCTGAACGTGATGGAGCAGATGATACAGCATACAGCCGGCATTCTGTCTCAAATGACTAATTACACTTCCATCCTGCTGGGACCGGAAGTTTTTCATACGTCTTTGCGCCATTTCCAGCTTCTTCCTCTCCATGAGGATCAAGCGGTGGCCATCATCGTTACCAGCACAGGGCAAGTCGAGAACAAGGTTGTTTCGATTCCGCAGGGCGTGTCCGTAACGGAACTGGAGCAAGTGGTAAATCTTCTGAACAAGAAGCTGGTCAATGTGCCTCTATATAAACTCAAGACTCGTTTGTATTCGGAAATTGCCGAGGAAATGCAGCGGCATATTTCACATTATGAGGATCTGATGAGTATGCTGGATATCGCTCTCAACAACGAACCGGATCACCGGGGGGTATATCTGAGCGGCACGACCCACATGCTGAACCAGCCGGAGTTCAAGGATGTTGATAAGGTAAGGGAAATATTCGAGCTTCTTGAGCAGACTCCCGCACTGATGAAGCTCATGGCACCTGCTCCCGGGGAGCACGGTGTACAAGTGAAGATCGGCACAGAGAATACGCATGAGGCCATTTCGAACTGCAGTTTGATCACTGCGACGTATTCGATCGACGGCAAAGCGCTTGGTTCGATCGGCATTCTCGGTCCTACAAGAATGGAATATGCACGGGTGATCGGCATCTTGAATGTGTTATCCCATGACCTGACGAAGCTGCTGTCACACTGGTACAAATAA	MLTDRQRMILNAIVDDYIRSAEPVGSRSISKRGDVGYSPATIRNEMADLEELGFLEQPHTSAGRIPSHKGYRYYVDHLTSSFSLNPAELHMMKSFFAEKLNVMEQMIQHTAGILSQMTNYTSILLGPEVFHTSLRHFQLLPLHEDQAVAIIVTSTGQVENKVVSIPQGVSVTELEQVVNLLNKKLVNVPLYKLKTRLYSEIAEEMQRHISHYEDLMSMLDIALNNEPDHRGVYLSGTTHMLNQPEFKDVDKVREIFELLEQTPALMKLMAPAPGEHGVQVKIGTENTHEAISNCSLITATYSIDGKALGSIGILGPTRMEYARVIGILNVLSHDLTKLLSHWYK				NA	NA	NA	NA	NA
AK002_01748	1536	groL2		60 kDa chaperonin 2	ATGAGCCAAGGACAACATAGCCAAGTGGACGGAGACGAGCGATATTCCACGCTGCTGAACAACAGCAATGCCGTCCGCGCAGTTACGTCTGCCGTAGAAGGCACGCTTGGCCCCAAGGGGCTCGACGTCATGCTGGTTGGCCCGCGCGGCGAAGTGGTCATCACCAATGACGGAGTGACGATTCTGGATAAAATGGATGTCACCCATCCCGCCGCGCGCCTTCTGATACAGGTGGCTCGGGCGCAGCAGGAGAAAATCGGCGACGGCACTACAACGGCAACCGTGCTCGCGGGCGCCCTCGTGCAGGAAGGGGTATCCCGCATCACGCGCGGGGTGCCCGCTTCCAAGGTGGTTGAGGGCCTGCGCCAGGGAATCGAGAAGTCGATGCAGCTCTTGTCGAAGCGCGTCCGGCTGATCGGCGGATTGGATGATCCGCTGCTGGAACGGACGGTGCATGTCGCCGGGCGTGAACGGAAGGACATCGTGGAGCTGGTTATGCAAGCCGCGCGAAAAGCCGGAATCGGCCGTCTGCAGGATCCTTCCTACTCGCTCGCAGACAGTATAATTGCCCTAGAGAATGCCGAGAATGAAGTGTTCGAGGGGGTTCTGCTCCGGCAGCGGCCGATCTTCGCCAGGGAGTCCAAGTCCTACGACGATGCCAAAGTGCTGGTGCTGTATGATTCCCTGGAGCCCGACGACATCGACGAAGAGGCGCTTACAACCGAAGCCGGATTCGCGCAGTATATGGATCTGCGAAAAGTGTTCGCGTCGGATTTGGACAGATTGTCCGAACTATCCGTAAAACTGATCCTGCTCGAAAAGGGCATTCATCCGGATGCGGAGCAGTTTTGCCTGGATCACGGGATGATGGTGGTACCGCGCGTATCGCGTGCGGATCTTCGCAAGGTAAGCGACATGACGGGAGCTACACCGATACGCCGCAAGGCGTTACATAAAGACTCGAAAGAGCTTGCGGCCCTTCTGGGTCATACCCCGCGCGTCGCTTATGATGAAGGCATCGAAAAAATCCGCCTGTCCTGCGGCAGCAAGGACCGCATTGTGACGGTGATCGTCGGGGCAAGCACTTCGGAAGTGGTAGGGGAGGCCGCCAGGATTGCGGGCGATGCCGCTTCGGCACTGCAGGCTGCCGTATCCGGCGGGGTGCTTCCAGGCGGCGGGACAAGCGAACTGGCCGTGTCTTATGAACTGGAACGGATCCGGGAAGCCCAGAAAGGCATGGAAGCCTTCGGCATGGAGGCAGTTTCCGCTGCGCTGCGAAAGCCGATGTCGCAGATTCTTCTGAATGCCGGTTATAATCCGCTTGAGAAGATGGAAGAGGTCCGAGCCGCACAAATCCGAGCCGACTCCGACTGCATGGGCATTGACTGCGACAGCGGGCGGGTTGTCGACTATGAAGAGCTGGGCGTGCTGGATCCGGCCCCGGTCAAACTTCACGGCCTGCGGGCAGCCGGTGAGGTTGCGGCTGCCGTGCTGCGGATTCATCACGTGATCAAGATGAAGGAAATAGGCGAATAA	MSQGQHSQVDGDERYSTLLNNSNAVRAVTSAVEGTLGPKGLDVMLVGPRGEVVITNDGVTILDKMDVTHPAARLLIQVARAQQEKIGDGTTTATVLAGALVQEGVSRITRGVPASKVVEGLRQGIEKSMQLLSKRVRLIGGLDDPLLERTVHVAGRERKDIVELVMQAARKAGIGRLQDPSYSLADSIIALENAENEVFEGVLLRQRPIFARESKSYDDAKVLVLYDSLEPDDIDEEALTTEAGFAQYMDLRKVFASDLDRLSELSVKLILLEKGIHPDAEQFCLDHGMMVVPRVSRADLRKVSDMTGATPIRRKALHKDSKELAALLGHTPRVAYDEGIEKIRLSCGSKDRIVTVIVGASTSEVVGEAARIAGDAASALQAAVSGGVLPGGGTSELAVSYELERIREAQKGMEAFGMEAVSAALRKPMSQILLNAGYNPLEKMEEVRAAQIRADSDCMGIDCDSGRVVDYEELGVLDPAPVKLHGLRAAGEVAAAVLRIHHVIKMKEIGE				NA	NA	NA	NA	NA
AK002_01749	615	grpE		Protein GrpE	TTGAATAATGAGCACAAGGATGCTGTTCAAGATACAGTTACAGAAGAAACGATCGAAGAAACTTTGGAAAACACGCCAAACACGGGTGAGAGCGGGTCTTCGGAGGAGGCCGTGAATCCAGAGCAGGAGATTCCCGTAACGGAATCGGCTGATGAAGCCGCAGGTTCGGCCGAGCTTGAGAAGCTTCAGGCCGAGCTGCAGGAGCAGCAGCAGCGTACCCTGCGGGTACAGGCGGATTTCGATAATTTCCGCCGCCGCACGCAGAAGGAGAAAGAGGATCTGGGCAAATATGCTTCCTCCAAACTGATTACGGAGCTTCTGCCCGTCATCGACAACTTTGAGCGTGCCCTCCAGGCATCCGAGGAGAACCCGGAATTTGAATCCTTCTCCAAGGGCGTCAGCATGATTTTCCGTCAATTGGAATCCGTTCTTGCTACCGAAGGCTTGAGCGCAATGAAGAGTGTGGGCGAGCCGTTCAATCCGGAGTACCACCAAGCGATCATGCAGGTGGAGAGCGATGAGTACGAGGAAGGCATCGTGGTTGAGGAAGTGCAGAAAGGGTACATGTTAAAAGATAAAGTGTTGAGACCTGCCATGGTTAAAGTGAGCATGTAA	MNNEHKDAVQDTVTEETIEETLENTPNTGESGSSEEAVNPEQEIPVTESADEAAGSAELEKLQAELQEQQQRTLRVQADFDNFRRRTQKEKEDLGKYASSKLITELLPVIDNFERALQASEENPEFESFSKGVSMIFRQLESVLATEGLSAMKSVGEPFNPEYHQAIMQVESDEYEEGIVVEEVQKGYMLKDKVLRPAMVKVSM	PGPT0014650_2868	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
AK002_01750	1839	dnaK	COG0443	Chaperone protein DnaK	ATGAGCAAAGTTATTGGTATCGACTTAGGAACAACCAACTCCTGCGTAGCCGTCATGGAGGGTGGGGAAGCGGTAGTTATCCCGAATCCGGAGGGTGCCCGCACAACCCCGTCGGTTGTCGGATTTAAGAAAGACGGCGAGCGCATCGTTGGGGATACAGCTAAACGTCAAGCGATCACCAACCCGGATCGCACGATCATCTCCATTAAACGCCATATGGGTACGAATCACAAAGAATCCATCGACGGCAAAGACTACACGCCGCAAGAAATCTCCGCCATCATTCTGCAGAAGCTGAAATCCGATGCGGAAGCATACCTGGGCCAGCCTGTAACTCAGGCAGTTATTACGGTACCCGCATACTTTAATGACAGCCAGCGTCAGGCAACCAAGGATGCCGGCAAAATCGCGGGCCTTGAAGTTCTGCGTATCGTCAACGAGCCGACGGCTGCGGCATTGGCTTACGGCATGGAGAAATCCGAAGACCAAACCATCCTGGTATATGACCTTGGCGGCGGTACATTCGACGTTTCCATTCTGGAACTGGGCGACGGCTTCTTCGAAGTAAAAGCAACCAGCGGGGACAACCAACTGGGCGGCGACGACTTCGACCAAGTGATCATTGACTACCTGGTAGCCGAATTCAAGAAAGAGCAAGGCATCGATCTGAGCAAAGACAAAGCAGCCGTTCAACGTTTGAAAGACGCAGCGGAAAAAGCGAAAAAGGAATTGTCCGGCGTACTGACAACAACGATCTCGCTGCCGTTCATCACGGTTGCAGACGGCGTTCCTCAGCACCTTGAGATCAACCTGACTCGCGCCAAATTCGAAGAATTGTCCGCTTCCCTTGTAGAGCGTACGCTTGGACCGACTCGTCAAGCGCTCAGCGATGCAGGCTTGACAGCGAACGATATTCATAAAATCGTCCTTGTCGGCGGTTCCACTCGTATTCCTGCCGTGCAGGAAGCGATCAAGAAATTGACGGGCAAAGAGCCTCATAAAGGCGTAAACCCGGATGAAGTGGTTGCGCTTGGAGCAGCGGTTCAAGCCGGCGTATTGACCGGTGACGTTAAAGACGTCGTATTGCTCGACGTGACCCCGCTGTCCCTCGGTATCGAAACCGCAGGCGGCGTATTCACCAAAATGATCGACCGCAACACGACGATTCCTACAAGCAAATCCCAAGTGTTCTCCACTTATGCGGATAACCAGCCGAGCGTGGAAATTCACGTGCTGCAAGGCGAGCGCGAAATGGCAGCCGGCAACAAAACGCTGGGACGCTTCATGCTCGGAGACATTCCTCCTGCACCGCGCGGCGTTCCGCAAATCGAAGTTACCTTCGATATCGATGCCAACGGGATCGTAAACGTGTCCGCAACGGATAAAGGTACAGGCAAGAGCCAGAAGATCACCATCACGTCCTCCAGCGGCCTGAGCGACGCTGAAGTTGAACAAATGATGAAAGACGCTGAGCTTCATGCCGAAGAAGACCGTAAACGCAAAGAGCTGGTGGAGGCTCGCAACAATGCCGACCAACTCGTGTACACGACCGAGAAAACACTCAAGGACCTGGGCGACAAAGTCGATGCTTCCGAAGTGGAAAAAGCAAACGAAGCGAAAGACAAAGTGAAGAAGGCGCTTGAATCCGATAACCTGGAAGAGATTAACGCTTCGGTAGAGGAGCTTACTCAAATCGTACAGCAGCTGTCCGTGAAGCTGTATGAGCAAGCGGCACAAGAACAACAAGGTGCTGAAGGTGCCGAGTCCGGCGCTCCTAAGAAAGACAACGTCGTGGATGCAGATTACGAGGTTGTTGACGAAGATAAAAACAAAGGTTAA	MSKVIGIDLGTTNSCVAVMEGGEAVVIPNPEGARTTPSVVGFKKDGERIVGDTAKRQAITNPDRTIISIKRHMGTNHKESIDGKDYTPQEISAIILQKLKSDAEAYLGQPVTQAVITVPAYFNDSQRQATKDAGKIAGLEVLRIVNEPTAAALAYGMEKSEDQTILVYDLGGGTFDVSILELGDGFFEVKATSGDNQLGGDDFDQVIIDYLVAEFKKEQGIDLSKDKAAVQRLKDAAEKAKKELSGVLTTTISLPFITVADGVPQHLEINLTRAKFEELSASLVERTLGPTRQALSDAGLTANDIHKIVLVGGSTRIPAVQEAIKKLTGKEPHKGVNPDEVVALGAAVQAGVLTGDVKDVVLLDVTPLSLGIETAGGVFTKMIDRNTTIPTSKSQVFSTYADNQPSVEIHVLQGEREMAAGNKTLGRFMLGDIPPAPRGVPQIEVTFDIDANGIVNVSATDKGTGKSQKITITSSSGLSDAEVEQMMKDAELHAEEDRKRKELVEARNNADQLVYTTEKTLKDLGDKVDASEVEKANEAKDKVKKALESDNLEEINASVEELTQIVQQLSVKLYEQAAQEQQGAEGAESGAPKKDNVVDADYEVVDEDKNKG	PGPT0014555_5728	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
AK002_01751	1119	dnaJ		Chaperone protein DnaJ	GTGGCTGATAAGCGTGATTATTATGAGGTGCTCGGTGTCGGCAAGGATGCATCGGACGATGAGATCAAGAAGGCGTACCGCAAAATGGCCCGCCAGTATCATCCGGACGTGAACAAAGCGGCGGACGCGGAAGCCAAATTCAAGGAAGTGAAAGAGGCTTACGATGTATTGAGCGATGGTCAGAAGCGTGCGCGTTATGACCAGTACGGTCATATAGATCCGAACCAAGGCATGGGCGGAGGCGGTTTCTCCGGTGATTTCGGCGGTTTTGGAGATATATTCGATATGTTCTTTGGCGGCAATGGACGCCGTGATCCGAACGCGCCTCAGCGGGGAAACGATCTGCAATACACGATGACGGTTGAATTCAAGGAAGCCGTATTCGGCAAGGAAACGGACATTACCATTCCGAGAACGGAGACATGCGATACATGTCACGGCTCAGGAGCGAAGCCGGGCACGCAGCCGCATACCTGCTCGGTGTGTAACGGCAGCGGGCAGCAGGAGGTCGTGCAAAATACGCCGTTTGGACGTATGGTGAACCGCCGCGCCTGCTCGAACTGTAACGGAACCGGGAAGATCATCAAAGACCGCTGCTCGACTTGTAACGGCAACGGCAAGGTGAAGAAACAGCGCAAGATTCATGTTCGTGTACCTGCAGGCGTGGATGACGGAGCTCAGCTGCGCATGACGGGCGAAGGCGAAGGCGGATTCCGCGGCGGTCCGGCCGGCGACCTGTATATCGTAATCCGCGTGAAGCCGCATGACTTCTTTGAACGCGAAGGGGACGACATTTATTGCGAAGTGCCGCTTACCTTTGCCCAAGCCGCGCTTGGCGACGAGATCGAGATTCCGACGCTCACCGAGAAAGTGAAGCTGAAGATACCGGCCGGCACGCAGACGGGGACTTTCTTCCGCTTGAAAGGCAAAGGGGTGCCGCGGCTGCGCGGTATGGGACAGGGTGACCAGCATGTCAAGGTTGTGGTCATTACGCCAAGCAAGCTCAGCGATGAACAGAAAGAGCTGCTTCGTCAATTCGCTTCGCTTGATGGCGAACAGACCCATGAACAGGAACAGTCCTTTTTTGACCGTGTAAAAAAAGCTTTCCGCGGTGATTAA	MADKRDYYEVLGVGKDASDDEIKKAYRKMARQYHPDVNKAADAEAKFKEVKEAYDVLSDGQKRARYDQYGHIDPNQGMGGGGFSGDFGGFGDIFDMFFGGNGRRDPNAPQRGNDLQYTMTVEFKEAVFGKETDITIPRTETCDTCHGSGAKPGTQPHTCSVCNGSGQQEVVQNTPFGRMVNRRACSNCNGTGKIIKDRCSTCNGNGKVKKQRKIHVRVPAGVDDGAQLRMTGEGEGGFRGGPAGDLYIVIRVKPHDFFEREGDDIYCEVPLTFAQAALGDEIEIPTLTEKVKLKIPAGTQTGTFFRLKGKGVPRLRGMGQGDQHVKVVVITPSKLSDEQKELLRQFASLDGEQTHEQEQSFFDRVKKAFRGD	PGPT0014545_5255	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
AK002_01752	381			hypothetical protein	GTGAATGAAGTGGCAGAGAAAAACATATTGGCTTATTTCAAAAGTCCGGAAGAAGCCCGGCATGCGGCCCGCAAATTGCAGTCGCTGCGCGTTGCCGATATGTCCATCGACCGGTTTAGCGCCGATCCCGGCGGGGAGCTCAACAATCCGATGAATCCGTTGACAGGCAACATCGCAAGCTTAACAACGATGACCTTAAATGCGGATATTTCGGGGCCGGGGGCCGGAATTCTCGGAGCTGCGGACCCATCGGCCAGCGGGATGAGCACCGGCGGTGAGGATGGAACCGAAGGCCGGGATATTTTGCTGACGGTTGTACTGGACGAAAGCGTCTTCCCGCAAGCCATGCGGTTAATCGAAGAATCCGGCGGCATGATTTAA	MNEVAEKNILAYFKSPEEARHAARKLQSLRVADMSIDRFSADPGGELNNPMNPLTGNIASLTTMTLNADISGPGAGILGAADPSASGMSTGGEDGTEGRDILLTVVLDESVFPQAMRLIEESGGMI				NA	NA	NA	NA	NA
AK002_01753	201			hypothetical protein	ATGATGAGACGCGTAAAAAAAGGGAAGATCTCGAGCAAAACCGAGAAGATGATTGCGCTGCAGTCTGCCAAGGCGGAGGATGTTGAGTTTTCGGCTATGGAAGCCGATCACGATGATGTGGAAGCGCTTCGCAGAAGCGAGGCAGCGGATGAACGCCAATTGAAGAAAATTTTGGATGAAACCAGCAAAAATGTAGATTAA	MMRRVKKGKISSKTEKMIALQSAKAEDVEFSAMEADHDDVEALRRSEAADERQLKKILDETSKNVD				NA	NA	NA	NA	NA
AK002_01754	978	prmA	COG2264	Ribosomal protein L11 methyltransferase	ATGTTATGGCGTGAATTAACGATACATACCACGGAGGAAGCCGTGGAGATGATTACGAATTTCCTGCATGAAGCGGGAGCCGGGGGCGTTTCGATCGAGGAGTCCGGTACTACGAACAAAAAGCGGGACACCTCTCTGGGACAGTGGTTTGACGAGATCGTTCCGTTTAACGATATTCCTGAAGGCCAGGCCGTCATCAAAGGTTACTTCGACGAGACGGTGACGCTGGAAGCGATCCGCGATGAAATAACGCCGCGCGTCAATGAGCTGAAGGAATTCGGTATCGAAACGGGCGAAGTGCGGTATGAGATGAAGACGGTGGACGAGAATGATTGGGCTACGGCCTGGAAGCAGTATTTCAAACCGATCCGCGTCTCCGACAGGCTGACCATCAAACCGACGTGGGAAGAGTACACCCCGGAATCCGAGCACGAGTCCATCATCGAGCTGGACCCGGGCATGGCCTTCGGCACAGGAACGCATCCGACGACTTCGTTATGCTTGCGTACATTGGAGATGGTGATCAAGGGCGGAGAGGAAGTCATCGATGTCGGGACAGGCTCAGGCATACTCTCCATCGGCGCAGCGCATCTGGGCGCTTCACGAATTCTGGCTCTTGACCTCGATCCGGTCGCGGTATCCAGCGCGACGGAGAACACCCGCCTGAACGGCCTGGAAGACCGGATTACGGTGAAGGAAAGCGATCTGCTCTCCGTACTCACGGATTCGTCCGATGACTCGGATCTGGGCGTGACGCTGCCGGTACAAATCGTGGTGGCAAACATCTTGGCCGAGGTTATTCTGCTGTTCGTGGACGACGTATACCAGGCTCTTCAGCCGGGAGGGGCTTATATCGCTTCGGGCATTTACAAGAACAAGGAAGAGATCGTGGAGAAGGCATTGATTGCTTCCGGTTTCGAAATTGCGGATATTTGCCGCGAGGATGATTGGGTTGCATTCGTGGCGAGGAAGAACTGA	MLWRELTIHTTEEAVEMITNFLHEAGAGGVSIEESGTTNKKRDTSLGQWFDEIVPFNDIPEGQAVIKGYFDETVTLEAIRDEITPRVNELKEFGIETGEVRYEMKTVDENDWATAWKQYFKPIRVSDRLTIKPTWEEYTPESEHESIIELDPGMAFGTGTHPTTSLCLRTLEMVIKGGEEVIDVGTGSGILSIGAAHLGASRILALDLDPVAVSSATENTRLNGLEDRITVKESDLLSVLTDSSDDSDLGVTLPVQIVVANILAEVILLFVDDVYQALQPGGAYIASGIYKNKEEIVEKALIASGFEIADICREDDWVAFVARKN				NA	NA	NA	NA	NA
AK002_01755	693			hypothetical protein	ATGGATTTTTTGGACCAACTGCTATTTTACCCGTTGGAGCAGCTTCCTTTTTACCTGATTGCTTTGATCATCGCATTTACCGTGCATGAGTTCTCGCATGCCTATTTTGCCAATAAATTCGGAGACCCGACGGCCAAGCTGCTGGGCAGGGTCACGCTGAATCCGGCGGTGCATTTCGATTTTCTGGGGATTCTTCTTCTGCTGATTGCAGGTTTCGGCTGGGCACGGCCGGTGCCGGTCAATCGGGAGAACTTCAGCAACCCGCGCCGCATGAGCATCATTGTGGCTGCGGTCGGTCCGCTGAGCAACCTTCTCTTGGGAATACTGGGGGCGCTCATTTATGCCATTTTGTATCAAACAGGGATGATTCCTCCTGTCGGATTAACCAAGACGGATCAAGCGGTGCATTTGTTCTTTAATATTTTTATATTGCTCAATTTCTTTCTATGCCTGTTCAATCTGGTTCCACTGCCTCCGCTGGACGGCTACCGGATTCTGGAGAATGCGCTGCCGCCGCGTCTTAGCGCGAGGATTCAGAAGTTTGAGCAATGGTCGATCCTTTTCTTCCTGTTGATCATACTGTTGCCTGTGTTCCAGGATTATACGATCAAACCCCTGTACGATGCGGCACATGCACTGTCTTCCAAATTTTTGGACATGTTCATTATGATGACCGGCGGTTACCGGCTCTGA	MDFLDQLLFYPLEQLPFYLIALIIAFTVHEFSHAYFANKFGDPTAKLLGRVTLNPAVHFDFLGILLLLIAGFGWARPVPVNRENFSNPRRMSIIVAAVGPLSNLLLGILGALIYAILYQTGMIPPVGLTKTDQAVHLFFNIFILLNFFLCLFNLVPLPPLDGYRILENALPPRLSARIQKFEQWSILFFLLIILLPVFQDYTIKPLYDAAHALSSKFLDMFIMMTGGYRL				NA	NA	NA	NA	NA
AK002_01756	771	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCAGCGATATTTTGTGACTCCCGCACAATTCGAGGGAGACCGTGTTGAGATTACGGGCGACGATGCCCGTCATATTGCCAAGGTCATGCGAGGCAGGCTTGGCGATAAATTGATCGTGAGCGACGGGGTATCCCGCGAGGCCTTGATGGAGATTGAGCGCATCGATGCAGGCAGCGTGTTTGCCGTTGTGATTGAACCCATGGAGATGTCGCAGGAACCGCGTCTGCAAGTGAGCATTGCCCAGAGTTTGCCGAAAGGCGACAAGATGGAGACCGTCATCCAAAAGTGCACCGAGATCGGCGCGGTGTCCTTTGTTCCCTTCCTGTCGGAAAGAACGATCGTTCAGTACGATGCCAAAAAGGAAGGAAAGCGGCTGGAGCGCTGGCGCAAAATCGCGAAGGAGGCGGCTGAACAGGCGCATCGCAACCGGATTCCGTCTGTTGAACAGCCTCTGACGTGGAAAAATCTGCTTGCAGCGTTTTCCGGCTATGATGCCGTATATTTTTGTTATGAAAAAGAGCAGGGCTCCCAGCTGAGGGACGTGCTGAAGCCTTTTGCAGAGCAGGCGCTGCGTGAATCGGCCAAGCCTGCCAGCTTGCTGCTGGTCGTTGGGCCCGAGGGCGGCTTTACGGAAGAGGAATGCCGAGCGGCCGAAGCTGCGGGAGCCGTAGCCGTTGGACTCGGAAGGCGGATCCTTCGCTGCGAGACCGCCGGCATGACGGCGCTGGCCTGCGCACTATACGAATCTGGAGAAATGGGGGGCGTTTGA	MQRYFVTPAQFEGDRVEITGDDARHIAKVMRGRLGDKLIVSDGVSREALMEIERIDAGSVFAVVIEPMEMSQEPRLQVSIAQSLPKGDKMETVIQKCTEIGAVSFVPFLSERTIVQYDAKKEGKRLERWRKIAKEAAEQAHRNRIPSVEQPLTWKNLLAAFSGYDAVYFCYEKEQGSQLRDVLKPFAEQALRESAKPASLLLVVGPEGGFTEEECRAAEAAGAVAVGLGRRILRCETAGMTALACALYESGEMGGV				NA	NA	NA	NA	NA
AK002_01757	1344	mtaB	COG0621	Threonylcarbamoyladenosine tRNA methylthiotransferase MtaB	ATGCCATCCGTAGCGTTTTATACGTTGGGTTGCAAAGTCAATTTTTACGATACCGAGGCCATCTGGCAATACTTCAAGAATGAAGGCTACGACCAGGTGGACTTCGAACAAACCGCTGATGTTTATTTGATTAACACCTGCCACGTTACCAACACAGGGGATAAGAAGAGCCGCCAGATGATCCGGCGCGCGGTTCGCCGAAATCCCGAGGCGATCGTGGCCGTAACGGGCTGTTATGCCCAAACCTCGCCAGCGGAAATTCTGGATATCCCGGGCGTGGATCTTGTCATCGGGAACCAGGATCGCGAGAAAATCATGGATTTCATTCATGACATCGAAAAGACGCGCCAGCCGATTAACGCCGTGCGCAATATCATGAAGACCCGGGTATTCGAGGAAATGGACGTACCGGATTTCGCGGAACGTACTCGCGCATTTCTGAAAATTCAGGACGGATGCAACAACTTCTGCACGTTCTGCATCATCCCTTGGTCCCGCGGTTTGTCGCGAAGCCGTGATCCGAAGAGCATCATCAAGCAGGCGCATCAGCTGGTCGGAGCGGGTTATAAGGAAATCGTGCTGACCGGTATCCACACCGGCGGATATGGGGATGATCTCGAGGATTACAGATTGTCCGATTTGCTGTGGGACCTTGACCGGGTTGACGGTTTGGAACGGATCCGCATCAGCTCCATTGAGGCAAGCCAGATCGATGAGAAGATGCTGGACGTGCTGAACCGCTCCAGTAAAATGTGCCGCCATCTTCACATTCCGCTCCAAGCGGGGGATGATACGGTACTGAAACGGATGCGCCGTAAATATACGACGGAAGAGTTCTATAACAAGATGGGCCTGATTCGTCAAGCGATGCCGGATGTGGGCATTACGACGGACGTCATCGTCGGCTTCCCTGGCGAAACGGAGGAAATGTTCCGGAACGGATATGACCTGATGAAGGCGATTCAGTTCTCGGAAATGCATGTATTCCCGTATTCGAAGCGTACCGGCACGCCGGCGGCACGAATGGAGGATCAGGTGGACGAGGAAGTGAAGAATGCGCGTGTGCACGATCTGATCGACTTGTCGGAGCAGCTCCAGCTTGCTTATGCCGAGCGTTTCGTGGGCCAGATTCTGAACGTGATACCGGAGCGCGAATACAAGGGTGCTCCCAAAGGCGGAAAGATGCAGGGTTACAGCGACAACTACCTGCAGCTTGTATTCAACGGATCGCCTGATCTCGAAGGCAAGCTGTGCCGCGTAAAAGTAACCAAAGCCGGTGTAAATGAATGCGAGGGCGAACTCCTCAGCGTCATGGATCATGGATTAAAGGCAGCTGCCCAGTAA	MPSVAFYTLGCKVNFYDTEAIWQYFKNEGYDQVDFEQTADVYLINTCHVTNTGDKKSRQMIRRAVRRNPEAIVAVTGCYAQTSPAEILDIPGVDLVIGNQDREKIMDFIHDIEKTRQPINAVRNIMKTRVFEEMDVPDFAERTRAFLKIQDGCNNFCTFCIIPWSRGLSRSRDPKSIIKQAHQLVGAGYKEIVLTGIHTGGYGDDLEDYRLSDLLWDLDRVDGLERIRISSIEASQIDEKMLDVLNRSSKMCRHLHIPLQAGDDTVLKRMRRKYTTEEFYNKMGLIRQAMPDVGITTDVIVGFPGETEEMFRNGYDLMKAIQFSEMHVFPYSKRTGTPAARMEDQVDEEVKNARVHDLIDLSEQLQLAYAERFVGQILNVIPEREYKGAPKGGKMQGYSDNYLQLVFNGSPDLEGKLCRVKVTKAGVNECEGELLSVMDHGLKAAAQ				NA	NA	NA	NA	NA
AK002_01758	456			hypothetical protein	ATGGCATATACACAAATTTCCGCGGGCGGCGTTGTATACCGTTATCATGAAGGGGCGCTTCAGATCCAGCTCATTTTGGACCGTTATGGAAAAACCTCGCTTCCCAAAGGCAAGATGGAAGCCGGTGAATCCGTCGAGCAGACGGCTCTCCGAGAAATACGCGAGGAGACAGGTATAGTCGGATCCATCACTTCTCCAGTGGACATTATTGCATATAAATACCATCATCCCGAATTCGGCCAGGTCGACAAGGAAGTTCACTACTACCTGGTTAAGGCAGAAGGAGGCATCCTAAAACCCCAAATCGAGGAAATCAACGGGGTGGACTGGTTCGAGCCTCTTGCCGCATGGAGGAAGCAGCGGAGCAACGGGTACAATAACAACGATATCATCCTGCGTAAAGCGCTGATGCTGCTTGAAGTCGCTATTCCGGCGGATGAAGATATGAAATTTTAG	MAYTQISAGGVVYRYHEGALQIQLILDRYGKTSLPKGKMEAGESVEQTALREIREETGIVGSITSPVDIIAYKYHHPEFGQVDKEVHYYLVKAEGGILKPQIEEINGVDWFEPLAAWRKQRSNGYNNNDIILRKALMLLEVAIPADEDMKF	PGPT0021680_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021680-ndx1-K18445	NA	NA
AK002_01759	972			hypothetical protein	ATGCTATCCACGCTCTGGTTTCCCGTCTGTTATGGTCTTGTCCTGTTTCTGTTCGGCATGAAGGTCATGGAGGTCGCCCTCCAACGCTGGGCCGGACCGCTCTTGCATAAGTGGCTCCATAAAGCGACATCCACGCCCCTGAAAGGCATGATTGCCAGCACGGCGGTCACGGCCCTGCTGCAGAGCAGCACCGCCGTAACCGTGCTGGCGATAGGCTTTGCCAATGCCGGATTGTTAAGCCTGTCCGGTACCTTGGGCGTTATTCTCGGCACGAACATCGGCACGACGGTAACCACCGAACTCATCAGCCTGCAGATCGGACAAGCCGCCATGCCTCTGCTTGTCCTCTCGCTGATGCTGTGGGTCGGAGCCGTTCTTGTCAGCGAGCGCGTACCTGCGAGTCACGACAAGTTAAAAAACCAGTTGATCCGCAGCCAATTTTTATGCCTCGCTGTCGCCGGATTTTCGCTGGTGCTGCTCGCGATACAAATCATGCAATCCATTGGGCCGACCCTTCAAAGCCTCGGGTTGTTCCAATGGTTTCTTGACCACGCCTCGCAAAGCGTCCTCTGGGGCATTGCAGCCGGTGCGATCCTGACGGCTTTGATGCACAGCAGCGCCGCCGTCATCGCCATGGCTATGGGGCTCGCTGCCAGCGGAGCGCTGCCTCCCGAGATCGGCGTCGCGATCGTGCTGGGCTCCAATGTCGGCACCTGCGTGACGGCGCTCATCGCAGCGATTGGCAGCAGCCGTGCCGGACGATTCGTGGCTTGGTCCCATTTGGGGCTTAATATCGGCGGAGTCCTGCTCTTTATTCCGTTCACAGCGGGATTAACCGCCGTATCCGGATGGTTAGCCGCAGATCCGGCCGGACAAATCGCCCATGCGCAAACCCTGTTTAACATCGTATGCTCGCTGATCGCGCTACCTCTATGCTATCTGCCTTTCTGGAATAAGCGGTTGCAGTCCTAA	MLSTLWFPVCYGLVLFLFGMKVMEVALQRWAGPLLHKWLHKATSTPLKGMIASTAVTALLQSSTAVTVLAIGFANAGLLSLSGTLGVILGTNIGTTVTTELISLQIGQAAMPLLVLSLMLWVGAVLVSERVPASHDKLKNQLIRSQFLCLAVAGFSLVLLAIQIMQSIGPTLQSLGLFQWFLDHASQSVLWGIAAGAILTALMHSSAAVIAMAMGLAASGALPPEIGVAIVLGSNVGTCVTALIAAIGSSRAGRFVAWSHLGLNIGGVLLFIPFTAGLTAVSGWLAADPAGQIAHAQTLFNIVCSLIALPLCYLPFWNKRLQS	PGPT0002650_2195	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
AK002_01760	1374	rlmI_1	COG1092	Ribosomal RNA large subunit methyltransferase I	GTGCCATCGGTTATTTTGGAGCGCAGTCGAAAAAAGAGACTGGAGCAGGGGCACCCTTGGGTGTATAAAAGCGAGATTGCTTCTGTCGAGGGCGAGCCCGAGCCGGGCGATATCGTATCGGTGTTCAACCACCAAGGCCGTTTTCTTGCCTCCGGGTATTACAATCCGTTATCACAAATCACCGTGCGCACCGTTTCGTATGAGCCGGTCGAGGCGATGGACAAGGCTTTTTTCGCAGCCAGATTCCAGGAATGCCTGAAACACCGGGAGCGGTTTATCGGAGACGAGAATGCTTACCGGCTGGTATACGGCGAGGCTGATTTTCTGCCGGGGCTGATCGTGGACCGTTTTGCCGACGTGCTGGTCGTGCAGCTACTGACGCTGGGCATGGATCGATGCCGTGCGGACATCGTGGAGGCGCTTGTCGAAGTGGTACAGCCGAAAGGAATTTACGAGCGCAGCGACGTTTCCATCCGGGAACTGGAAGGGCTGGAACAGCGCAAGGGAACTCTTTACGGGGAGTGTCCCCGCCACGTCATCGTGACGGAGAACGGCTTGAAGATCAAAGTGGATATCGAAGAAGGTCAGAAGACCGGATATTTCTTTGATCAGCGGGAGAACCGGGCATCCATCAAACCGTTAATGACCGGTTGGGGAAGCCGCAGCGGGATTACGCTTCAGCCCGTGGAGCGGGATGGCGAGACGAAGACCCTGCCGGTGAACAAAAGCGGAAAAGAAGTTACGTTCCCGTATTGGGACGGCGCAACGGTGCTGGAATGCTTTTCGCATACGGGCAGCTTCACGCTGCATGCATGCAAATACGGCGCCAAGAAAGTCACCTGTCTCGACATATCGGAGCATGCCATCGAAAGCGCCAAAGAGAACGTGGAATTGAACGGATTCCAGGATCGCGTGGAATTTGTGGTGGATGACGCCTTCCAATATTTGCGCAGCCAGGTAAAGGGTTTGGAAGAGCGCGAGCTGCGTGCCCAAGGGGACCAGAAAGTGGATACCTCGAAACCGTTGACCGCGGGCGGGGGGCGATCCTGGGACGTGGTCATTCTGGACCCGCCGGCGTTTGCCAAAACCAGGTCGGCCGTCAAGGGGGCTTGCCGCGGGTACAAGGACATCAACCTCCACGGCATGAAGCTGGTCAACGAGGGTGGATATCTGGTTACGGCAAGCTGCTCGTACCATATGCGGCCGGATTTGTTCCTGGAGACGATCCAGGATGCGGCGAAGGATGCCGGCAAAATTCTGAGATTGGTGGAATGGCGTGCGGCCGGCAAGGACCATCCGCAAATTCTCGGGGTCGACGAGGGACATTATTTGAAATTCGCCGTCTTTGAAGTGCGCAGCAAATCAAAACTGTAG	MPSVILERSRKKRLEQGHPWVYKSEIASVEGEPEPGDIVSVFNHQGRFLASGYYNPLSQITVRTVSYEPVEAMDKAFFAARFQECLKHRERFIGDENAYRLVYGEADFLPGLIVDRFADVLVVQLLTLGMDRCRADIVEALVEVVQPKGIYERSDVSIRELEGLEQRKGTLYGECPRHVIVTENGLKIKVDIEEGQKTGYFFDQRENRASIKPLMTGWGSRSGITLQPVERDGETKTLPVNKSGKEVTFPYWDGATVLECFSHTGSFTLHACKYGAKKVTCLDISEHAIESAKENVELNGFQDRVEFVVDDAFQYLRSQVKGLEERELRAQGDQKVDTSKPLTAGGGRSWDVVILDPPAFAKTRSAVKGACRGYKDINLHGMKLVNEGGYLVTASCSYHMRPDLFLETIQDAAKDAGKILRLVEWRAAGKDHPQILGVDEGHYLKFAVFEVRSKSKL				NA	NA	NA	NA	NA
AK002_01761	3531	addB	COG3857	ATP-dependent helicase/deoxyribonuclease subunit B	ATGGGCGTTCAATTTGTTATCGGCAGGTCGGGCAGCGGCAAGAGCACGTCGATCCGCCAAGAGATGATCGAACGGTTGGAGCATAATCCCAAGGGGGATCCGATGATCCTGATCGTTCCGGAGCAAGGGTCCTATGAAGCAGAGCACGCGCTCGTCAATGCGGGAGGCATTCGCGGAATGATGCGCGCGCAGGTGCTTAGCTTCCGCCGTTTGGCTTACCGGGTCATGCAGGAAACCGGCGGAGCCGCGAAAGTGGCGATCAGCGAGGAAGGAAAGCGTATGCTCCTGTATAAAATTCTGCGGAGGCGCAAGGAAGAGCTCCACATGTTCGGCGCCTCGGGAGAGCAGCATGGCTTTGTCGGCAAGCTGAGCGAGCTGTACACGGAAATGAAGCGCTATTGCATTGACGCCTCATGCGTGGAGGAGCAGCTGGGACAGATGGTATCCGGCTCCGGGAATTCACCGATGCTGCGGCGGAAGCTGGAGGACATCGTGACGGTCTTTCGCGATTTCGAGCTTGAAATTTCACGGTTTTACATGGATGAGGAAGACACGCTGGTCTCATTGGCTGAGGGTGTGACCGAATCGGAATATATCAAGCGTGCCGACATCTGGATCGACGGCTTCCACGGCTTTACGCCGCAGGAGTACCGGGTGCTGCGGGAGATCATCGCACACGCCAAGCGTGTGACGATCGCGCTGACGCTGGATAAGCCTTACAAGAACGGGACGGTTCCGCATGAGCTGGATCTCTTTCATCCTACTGCGGTGACGTACATAAAGCTCAAAGGGATTATCGATGAGATCGGGCTGGAGGCGGAGCACCGCATTCTTCATCCCGATGTTCTGCCGCGGTTTCAGGAATCTTCCATGCTTGCCCATCTCGAGCGCGGTTATGATCGGAAGAGACGCTGGGCGGAACCGGATGAAGGCCCAGACACAGCGAGCAGTCCAAACCGCGGGAGGAAAGGTCTGCTTTTACACGCTGCCAGCCATCGCCGGGCCGAAATCGAAGGAGCTCTGCGCGAAATGCTGCGGCTGGCACAGGAGGAAGGGGCAAGATACCGCGAAATGGCTGTTTTCGTCCGGAATATGGGGGACTATGAGCATCTGATGGGTCCTTTGTTCAGGGAATACGGCGTTCCTTATTTTCTCGATCAGAAGCGGAGCGAGCTTCACCATCCGCTGGTCGAGTTCATTCGCTCTGCGCTTGATGTCATCGGTCGCCGGTGGCGTTATGAGGACGTATTCCGCTGCGTGAAGACGGATCTGCTGCTGCCGCTGGACGGTTCGCTTACCCGTGAGGACATGGATCGTCTGGAAAACCATGTGCTGGCCTCCGGGATCCAGGGCACGCGCTGGACGGATGGCCGTCCCTGGAAGGGAATTCCGAGCCTCTCTTTAGAAGAGGGGGAAAGCGAGATCCGCAATCAGGACGGCATGGCCGCGATCGAGTACGCCAGGAAGGTGATAACGGAACCGCTGCATGCGTTCGAGAAGCGGATGAAAAAGGCTGCGAGCGCGATGGATCAGAGCACCGCGGTCTATCGGCTGCTGGAGGAGTGCGCTGTGCCCGAGAAGCTGGAGCTGTTAAGCCGGGCTGCACTGGATGCCGGGCGCCCTGAGGAAGCCCGGGAACATCGCCAGGTATGGGGAGCCGTGCTCGGCCTGCTCGACCAAATCGTCGAGATGATGGGCGCGGAGAAGCTAAGCACCGAATTGTTTACCGGCGTGCTGGGTACGGGACTTACGGAAATGAAAATGGCTCTTGTGCCTCCGTCTCTGGACCAGGTGCTCATCGGCAGCATGGACCGGACGCGGACGGGCGGGGTGAAATATGCTTTTCTTCTCGGCATTAACGACGGCGTGCTCCCGGCCCAGTTCCAGGATGACGGCATCCTGACCGAGCCGGAACGAGTTCGTCTTGAAGACCGCGGGCTGGAGCTTGCCCCGAGCATATCCCGAAGACTGCTGGATGAACGGTTTCTGATCTACAATGCGCTGACTTCGGCCAGCAAACAGCTGTGGGTCAGCTACCCTGCAGCGGATGATGAAGGCAAGCCGTTACTGCCATCCGAGGTGGTGCGGCATCTGAAGCTGATGTTCCAGCTGGAAGAGGAGCCTTTGTTTCCAAGACCGCATGCCGGGCAATCGGCCCTTGAGCAGGGGGGTTATGCGGTCCGTCCGGGCAAGACGCTTGCTTATTTAGCGGGCCGGCTTCGCGACTGGAGGAATGGGGAGGAGATCCCGGATTTGTGGTGGCATGTTTACAACTGGTATGCGGAGCAGCCGGGTTTGCGGCCCCGCCTTACGACCATGCTCTCCTCCTTGTCTTACCGGAATGAAGCCCGGCCTCTCAAGCTGGAAACCAGCAGACAGTTGTACGGAACGAAGCTGCAGACAAGCGTATCCCGGATGGAGCGCTTTGTTGCCTGCCCGTTCTCCCATTTTGCCTCCCATGGCTTGAAGCTGAAAGAGCGGCAGCTGTACAGGCTTCAGGCTCCCGACATCGGACAGCTGTTCCATGCTGCCTTGAGCAGCATGGCCGTCAAGTTCCAATCGCAGCATCGAAGCTGGGGAGACCTGACCGCCGAGGAATGCCTTCGCGAAGCGGAAGCGACCGTGGATCGGCTCGCACCCATGCTGCAGGGTGAAATCCTGCTCAGCTCCAAGCGGTACGGCTATATTTCGCGCAAGCTTAAAAACATCGTGGGCAGAGCGTCGGTCATATTGGGAGAGCAGGCGAGGCGCGGCAAATTCGAGCCGATCGGCCTTGAGCTTGATTTCGGTCCCGGAAAGCCGCTGCCACCCCTGGCGTTTGAATTGCCGAACGGGACCAAGATGGAGATTGTCGGGCGCATAGACCGGGTCGACATGGCCCGAGGCGAGCATGGCATCATGCTTCGGGTCATCGATTATAAATCGAGCCAGAAGGATCTGCGGCTGCATGAGGTCTATTACGGCCTATCCCTGCAGATGCTGACCTATCTGGACGTGCTGCTGACGTTTGCGGAGGAATGGCTGGGCGAGCAGGCCCTGCCTGCGGGAACCTTGTACTTCCACGTGCATGATCCGGTATTGCAGTCCGCCAACGGCATGACGCCGGAGCAGGCGGCGGAGGAGCTGCTCAAGCGCTACAAAATGAAAGGCCTGCTCCTGGCAGACCGCGAAGCGGTGTCCCTCATGGATTCGTTCCTTGAAAAAGGGCACTCTGCCATCCTGCCCGTCGCCGTCAAAACGGACGGCAGCTTCTACAGCAGCGCGGCCGTGGCAACGCCTGACCAGTGGGAGACCCTGTTGTCCGCCGTGCGGGAGAACATGCTGAACATCGGCTCCCGGATCACAGGCGGCGATGTCGCGATTAAACCGTACCGGATACAGCAGGAGACCGCCTGCACGTTCTGTTCTTTCCGGCCGGTATGTCAGTTCGACGACGCGATTGAGGGCAGCGAATACCAGCTGCTGGGCAAACCGGGCAAAGATCAGGTGTGGGATATGCTTGGACATCCGAAGGGAGGAGAGAGCCGGTGA	MGVQFVIGRSGSGKSTSIRQEMIERLEHNPKGDPMILIVPEQGSYEAEHALVNAGGIRGMMRAQVLSFRRLAYRVMQETGGAAKVAISEEGKRMLLYKILRRRKEELHMFGASGEQHGFVGKLSELYTEMKRYCIDASCVEEQLGQMVSGSGNSPMLRRKLEDIVTVFRDFELEISRFYMDEEDTLVSLAEGVTESEYIKRADIWIDGFHGFTPQEYRVLREIIAHAKRVTIALTLDKPYKNGTVPHELDLFHPTAVTYIKLKGIIDEIGLEAEHRILHPDVLPRFQESSMLAHLERGYDRKRRWAEPDEGPDTASSPNRGRKGLLLHAASHRRAEIEGALREMLRLAQEEGARYREMAVFVRNMGDYEHLMGPLFREYGVPYFLDQKRSELHHPLVEFIRSALDVIGRRWRYEDVFRCVKTDLLLPLDGSLTREDMDRLENHVLASGIQGTRWTDGRPWKGIPSLSLEEGESEIRNQDGMAAIEYARKVITEPLHAFEKRMKKAASAMDQSTAVYRLLEECAVPEKLELLSRAALDAGRPEEAREHRQVWGAVLGLLDQIVEMMGAEKLSTELFTGVLGTGLTEMKMALVPPSLDQVLIGSMDRTRTGGVKYAFLLGINDGVLPAQFQDDGILTEPERVRLEDRGLELAPSISRRLLDERFLIYNALTSASKQLWVSYPAADDEGKPLLPSEVVRHLKLMFQLEEEPLFPRPHAGQSALEQGGYAVRPGKTLAYLAGRLRDWRNGEEIPDLWWHVYNWYAEQPGLRPRLTTMLSSLSYRNEARPLKLETSRQLYGTKLQTSVSRMERFVACPFSHFASHGLKLKERQLYRLQAPDIGQLFHAALSSMAVKFQSQHRSWGDLTAEECLREAEATVDRLAPMLQGEILLSSKRYGYISRKLKNIVGRASVILGEQARRGKFEPIGLELDFGPGKPLPPLAFELPNGTKMEIVGRIDRVDMARGEHGIMLRVIDYKSSQKDLRLHEVYYGLSLQMLTYLDVLLTFAEEWLGEQALPAGTLYFHVHDPVLQSANGMTPEQAAEELLKRYKMKGLLLADREAVSLMDSFLEKGHSAILPVAVKTDGSFYSSAAVATPDQWETLLSAVRENMLNIGSRITGGDVAIKPYRIQQETACTFCSFRPVCQFDDAIEGSEYQLLGKPGKDQVWDMLGHPKGGESR				NA	NA	NA	NA	NA
AK002_01762	4122	addA	COG1074	ATP-dependent helicase/nuclease subunit A	GTGAGAGAGATGATAGCAAAACCCGAGGGAAGCATGTGGAGCGACGACCAGTGGAAAGCCATTGCGATGTCGGGCGACGATATGCTGGTTGCAGCTGCGGCAGGTTCAGGGAAAACCGCCGTGCTGGTTGAACGGATCATTCGCAAAATCCTGGACGATGCCGCCGGGTTCAGCGTAGATCGGCTGCTTGTGGCTACCTTCACGAAAGCCGCCGCTGCCGAAATGCGGGGACGGATCCGGGAAGCGCTGGACCGTGAGCTGGACCGGGATCCGGACAATGAGCATATCCGGCGTCAGCTCGCTTTGCTTGGAAGAGCGTCGATTACAACGCTGCACTCCTTCTGCATGGAAGTCATTCGGCGATATTATCAGTTAATACCGCTGGATCCGGGATTCCGCATCCTGAACGAACATGAGGCGGATTTAATGCGGCAGGATATGCTGGAGGAGCTGTTCGAGGAGAAATACGGAGAGGCGGAGGGGGACCCGGAAAGTCGGTTTCTGCGCTTGGCGGACTGGTTCAGCGGCGAGCGAACGGACGATGCGCTGTACCGTCTCGTGCAGCGTCTATACGATTTCTCCCGCAGCCATTCATGGCCGTCACACTGGCTTAGGGAGACAGCCGCCGGCTTTCAGGTGGCCGATACGGAAGCCCTTGGTAACACGCCATGGGTCCAGAGCATCTTGGCTGATGCACGCTTGGCTTTGAACGGAGCGGCAGGGCTGCTGCAGCAAGCCAAGGCAATTGCCATGCAGCCGGGAGGGCCAACACCGTATGCGGACAATCTCGATGAGGACTTGCGAATGGTGGCTTCCCTGCTGGAGGCCATCGATACTTCGCCGTGGGAATCGTTGTACGGCATTTTCCGCGAGGCGTCTTTTGGCAAGCTTAAATCCGTTCGAAAGGATGAGGTGCTGCCGGAGCTGCAGGAGCAGGTCAAGGAACTGCGCGACAACGTGAAGAAAATCGTAAATGAGCTGAAAAATGCATTGTTCGGCCGTCCGGCATCGGAGTTTTTGCGGGAGCTTCACACGGCAGCGCCGCTGATGATGGAGCTGTCCGAGACGGTTATCGCCTTTGGCGAGCGATACCGGGAGGCCAAGGCGGCCAAAGGCATGGTCGACTTTAATGACCTTGAGCATTACTGCCTCCATATACTTCGCCATCCCGATTCCGTGCCGGGACATATGATGCCTTCCGATGCGGCGATGGAATACCGCGAGCAGTTTGATGAAGTGCTGCTGGACGAATATCAAGATACGAACAGCGTGCAGGAAGACATCGTACGATTGATCTCCCGGGAAATGCCGGGCAACCGGTTTATGGTCGGCGACGTGAAGCAGAGTATTTATCGGTTCCGTCTGGCGGAACCGGGACTGTTTCTCGATAAGTACAAGACGTTTTCTTCCGGGACAGGCACGTCCCAAACGGGCATCCGAATTGATCTGGCCCGTAATTTCCGCAGTCGGATGGAAGTGGTGGACGCCGTCAATTTGCTGTTCCGGCAGATCATGAACGAATCGGTAGCCGAGATTGCCTATGATGAACGGGCCGAGCTTGTATGCGGAGCTTCTTTTCCGGAACGGGAAACGAACGGAGGCGCGAATCCCTACATGCCCGAAATGCTGCTGATCGACCGTGCCGGAAAAGGTCCGGAGGAGCAGTCCGATGAATCGGCTTCCGAAGAGGACGGGGTTCAGCTTGAGGCTGAGGCGCTCGAAATGGAAACCGCCCAGCTGGAAGCCCGTGCCATTGCCCGCAAAATCCGCGAAATTACAGGCGAAAGCGGAAAGCCGCTCATGGTTTACGATAAAGGGTTGAAAACGATGCGGCCCGCCGGGTATGGAGACATGGTCATTTTGCTGCGCTCCGCCATGGTTTGGGCACCGTTAATTATTGAGGAGTTAAGGCAGGAGGGAATACCGGCATTCGGCGAGCAGAACAAGGGATACTTTCAGGCTACGGAAGTGGAGATCATCTTATCGCTGCTGCAGGTGATCGATAATCCGCGGCAGGACATTCCTTTGGCTTCGGTATTGCGCTCGCCCATTCTCGGATTATCCGAGGAAGAGATGGCACAGGTGCGCCTGTGCGCGAAAGGGACTTATTACGATGCGCTGAAGGCGGCGGTCTCGTTAAGCGTCGCGCCGCCGGTCATGGATTCGGCACGCCCTAGGGGCTTCGTCGACGGAAAATGGACGCCGGGCGCAGGACTGGAAGGCCTGGCCGAAGCCGCCGCCGGTCATGAACTCGTAGCAGGCAGCCATCTTTCGGATGCCCCGCTAACGGCGGAAGGCCATGCTATCGAAATATCGGCGGAGCTTGGCGCCAAACTTGGATTGTTTATGGATCGGCTGCAGCGCTGGCGGCAGGAAGCGCGTCAGGGAAGCCTGAGCGATCTGATCTGGGGGATCTACAGCGAAACCGGATATTTGGATTGGGTTGGCGGCTTGCCCGGCGGCAAGCAGCGTCAGGGCAATCTGACCGCCCTATATGACCGGGCCGTGCAGTATGAACAGGACACGGCCTCCAGAGGGCTCTTCCGTTTTCTGACCTTTATCTCGCGTCTCCGCGAGCGCGGCGGGGATCTTGGCACCGCCGGAGGCACAGAAAGCCAGGGCAACGCGGTGCGCCTGATGACCATTCACAAGAGCAAGGGCCTGGAGTTTCCGGTCGTGTTCGTGGCGGGATTGTCCAAAAATTTCAATCAACAGGATTTGAACGCCCCCTTCCTGATGCATAAGGAGCTTGGCTTCGGACCGAAGTTCGTGGATGAAGGCATGCGCGTAAGCTACCCGACGCTGCCAAACCTGGCGATTCGGCGCAGATCGCAGCTGGAGCTGCTGGCCGAGGAGATGCGGGTGCTCTACGTTGCGCTTACACGGCCGAAAGAGAAGATGATCCTGGTCGGCACGGTGAAGGATTTGCCGAAAAAGGTGTCCGCTTGGGCACAGGCCGATTTTAACCCGGAGCTGCTTCTGCCGGATTACGTCCTTGCCCGGGGACGGAGCTACCTCGATTGGATCGGTCCGGCCGTGATACGGCATCCGTCTGCGGGCCCGCTCCGCGGACAGGCGGGATTGCCGGAGGAGACGAGCTCGCGCGCGTTAGCGGCAGACCGATCGCAATGGATATTCTCGATTGAAACGCCGGAATCCCTGGCGCAGGGCATGACCGGCATGAGCGATGACGTTCAGGCGGACAGCGAAAATCGGATGATGAAGCTGAATGCCCTGCGCAGGCTCGAGCCTGTTCCGGAATCTGCGATTGCCGAAGCGGAAGAGGAGGGGACAGATGTTCAGCGGGCTTCCATCGATCAGCGGTTGTCGTGGAATTATCGTTATGAAGCGGTCAGTCAAATATCGGCCAAAACGTCCGTAACGGAGATGAAAAAGCTGCTTGCCCTGCAGGACAGCCCCTCCTTGGATTTGTTGGAGGAACGGGCCGTGAAAAGCCAGAGCAGGGAAAGTATCGACGCAAGCACCTCCTTCACGCTGAGCCTGCGGCGGCCGAAATTTATGGAGTCCACGAAGCTGACGCCCGCCGAGCGGGGAACCGTATATCATACCATCATGCAGCATCTGCCGCTTCAACGGCTGGAAGACGCTGCAGAACCGACAGCGGAGATCGAAGAGACCATCCGTTACCTGGTGGAAAAGGAGATCATCACCGGTGAGCAGGCTTCCGCGGTGGAAGCAGCCGAGATTAGCAGCCTTTTTGATTGCGACCTTGGAAAACGGGTGCTGTCAGCAGAAGATGTCTGGCGCGAGATGCCGTTTTCCTATGCACTCCCAGCGGCAGAAGCTTATCAGGGGCTGGCTTTTCTGGACCCGATATCGGAACACTCGGCCCAAGGATTGCCCGAGATGGAGCTGCTGCGGGACGAAACGGTGCTGATCCAAGGGGTTGTGGACTGCATGTTCAGGCATAACGGCCGCCTTGTGCTGCTTGATTATAAGACCGACCGGGTGCTGGAGCATCGCGGCGGCCTGACGGCCTTGGCTGACCAGTATCGTTTTCAGCTGGACCTGTATGCAAAGGCTTTGGAGGATATTTTAGGCGAACCTGTGCATGAGAAATGGCTGTACTTTTTTGATGGGGGACATGCCGTACAGGTATAA	MREMIAKPEGSMWSDDQWKAIAMSGDDMLVAAAAGSGKTAVLVERIIRKILDDAAGFSVDRLLVATFTKAAAAEMRGRIREALDRELDRDPDNEHIRRQLALLGRASITTLHSFCMEVIRRYYQLIPLDPGFRILNEHEADLMRQDMLEELFEEKYGEAEGDPESRFLRLADWFSGERTDDALYRLVQRLYDFSRSHSWPSHWLRETAAGFQVADTEALGNTPWVQSILADARLALNGAAGLLQQAKAIAMQPGGPTPYADNLDEDLRMVASLLEAIDTSPWESLYGIFREASFGKLKSVRKDEVLPELQEQVKELRDNVKKIVNELKNALFGRPASEFLRELHTAAPLMMELSETVIAFGERYREAKAAKGMVDFNDLEHYCLHILRHPDSVPGHMMPSDAAMEYREQFDEVLLDEYQDTNSVQEDIVRLISREMPGNRFMVGDVKQSIYRFRLAEPGLFLDKYKTFSSGTGTSQTGIRIDLARNFRSRMEVVDAVNLLFRQIMNESVAEIAYDERAELVCGASFPERETNGGANPYMPEMLLIDRAGKGPEEQSDESASEEDGVQLEAEALEMETAQLEARAIARKIREITGESGKPLMVYDKGLKTMRPAGYGDMVILLRSAMVWAPLIIEELRQEGIPAFGEQNKGYFQATEVEIILSLLQVIDNPRQDIPLASVLRSPILGLSEEEMAQVRLCAKGTYYDALKAAVSLSVAPPVMDSARPRGFVDGKWTPGAGLEGLAEAAAGHELVAGSHLSDAPLTAEGHAIEISAELGAKLGLFMDRLQRWRQEARQGSLSDLIWGIYSETGYLDWVGGLPGGKQRQGNLTALYDRAVQYEQDTASRGLFRFLTFISRLRERGGDLGTAGGTESQGNAVRLMTIHKSKGLEFPVVFVAGLSKNFNQQDLNAPFLMHKELGFGPKFVDEGMRVSYPTLPNLAIRRRSQLELLAEEMRVLYVALTRPKEKMILVGTVKDLPKKVSAWAQADFNPELLLPDYVLARGRSYLDWIGPAVIRHPSAGPLRGQAGLPEETSSRALAADRSQWIFSIETPESLAQGMTGMSDDVQADSENRMMKLNALRRLEPVPESAIAEAEEEGTDVQRASIDQRLSWNYRYEAVSQISAKTSVTEMKKLLALQDSPSLDLLEERAVKSQSRESIDASTSFTLSLRRPKFMESTKLTPAERGTVYHTIMQHLPLQRLEDAAEPTAEIEETIRYLVEKEIITGEQASAVEAAEISSLFDCDLGKRVLSAEDVWREMPFSYALPAAEAYQGLAFLDPISEHSAQGLPEMELLRDETVLIQGVVDCMFRHNGRLVLLDYKTDRVLEHRGGLTALADQYRFQLDLYAKALEDILGEPVHEKWLYFFDGGHAVQV				NA	NA	NA	NA	NA
AK002_01763	1185	sbcD	COG0420	Nuclease SbcCD subunit D	ATGCGTATTTTGCATACCGGGGACTGGCATCTGGGGCGCACGCTCGAAGGCCGAAGCCGGCTTGCCGAGCAGGAGCGCTTTCTGGATGAACTGGTTAAGCTGGCGGACGATCAGCAGGCGGACCTGATCCTCATGGCGGGGGATGTTTATGATTCCGTGAATCCGCCTGCGTCAGCCGAGCAGCTGTTTTACGAAGCGGCCGCCAGACTTACGGAGGGAGGCCGCCCCATGGTGGTCATTGCAGGCAACCATGATCAGCCGGAGCGGGTTGCATCCGTTACGCCGCTTGTTGCAGCCAGAGGCATCACGCTGATAGGGACACCTATCGCCGATGCAGTAACGGTTGCCACAGCCCGTACCGGAGAAACGGCCAAGATCGCAGCTCTGCCCTACCCGTCAGAGGCCAGGCTCAACGAGCTGTTATCGGTCGACGGGGATGAGGATCAGCTTCGCCGCGCCTACAGCGACAGAGTCGGAAAACTGATGAGGATGATGGCAAGGGAATTTTCTCCGCAGACGGTCAATCTGGCGATGAGCCATATCTATGTCCTTGGCGGCGTCGAGAGCGATTCCGAGCGTCCGATTCAAGTCGGGGGAGCGTACACGGTCGATCCGTCGGCGCTCGCTGTCGGCGCTGCCTATACGGCGCTGGGTCACCTGCATCGTTCCCAGGCTGTGAAAGGGGAGGGGATGATCCGCTACAGCGGATCTCCGCTGGCCTACAGCTTCTCGGAAGCGGGACAGGCGAAATCGGTGACCATGGTTGACGTATCGCCGGGAGGAGCTCCCGTGATTGAGGAGCTGTTTCTCAGCAGCGGCCGCCCGCTTGTCCGATGGAAAGCCAAAGGCGGCTTGGATGAAGTCTACCGCTGGCTGGATGAGGGGCGCGATCCCGAGGCCTTCATTGATCTGGAGGTATCCTTAACGGAGGCCATGGGGCTTGCGGATATTCAGCGGCTGCGCAAGAGCCGGGACGGCATCGTCCACATTCGTCCGGTATACCCGGAGATGGAAGCGTTGGAGCTGGAGAGCGAGCGCTCAAGGCTGCCGCTGCCGGAACTGTTCCGAAAGTTCTACCAACGGCAAACCGGGGGGGCTGAGCCTGAGGATCACCTGGTCGATTTGTTTCTGGAGCTGGTTGAGGAAGAGGAGTCTGAGTCTGACGGAACGGAGGTGAAGTCTTAG	MRILHTGDWHLGRTLEGRSRLAEQERFLDELVKLADDQQADLILMAGDVYDSVNPPASAEQLFYEAAARLTEGGRPMVVIAGNHDQPERVASVTPLVAARGITLIGTPIADAVTVATARTGETAKIAALPYPSEARLNELLSVDGDEDQLRRAYSDRVGKLMRMMAREFSPQTVNLAMSHIYVLGGVESDSERPIQVGGAYTVDPSALAVGAAYTALGHLHRSQAVKGEGMIRYSGSPLAYSFSEAGQAKSVTMVDVSPGGAPVIEELFLSSGRPLVRWKAKGGLDEVYRWLDEGRDPEAFIDLEVSLTEAMGLADIQRLRKSRDGIVHIRPVYPEMEALELESERSRLPLPELFRKFYQRQTGGAEPEDHLVDLFLELVEEEESESDGTEVKS				NA	NA	NA	NA	NA
AK002_01764	3444			hypothetical protein	ATGAAGCCGATTTTGTTGAAGTTATCCGGACTGCAGAGCTACCGAAGCACGCAGGAGATTGATTTCGAAACGTTGTGCGAAACCGGGCTCTTCGGTATTTTCGGACCGACGGGCAGCGGGAAATCCACGCTGCTGGATGCGATTACCTTAGCCATGTACGGAAAAGTGGAGCGCGCGGTTAACGGAACCCAGGGCATCATGAACCACTCGGAGGACGGCCTGTCCGTCTCCTTTACGTTTGAGTTGTCTTCCGCAGCCGGGCTGGAGCGATACCGGGTAGAGCGCAGGTTCAAACGGGTTAATGAGCTTTCCATCAGCAATACGGTGAGCCGTTTCATTCGCGTTACCCCCGAAGGGGATCAGGTGGTGGCGGATAAATTGGCCGAGGTCACCCGCTGCGTCGAAGAGAAAATCGGGCTCAAAATGGACGATTTTACCCGGGCGGTCGTGCTTCCGCAGGGAAAGTTCGCCGAATTCCTTTCCCTGAAGGGGAGCGAACGCCGGCAGATGCTGCAGCGGTTGTTCCATTTGGAACGGTACGGGGATCAGCTTGCGATCAAGCTCAGCCGCCGTGTTAAGGATACGGAGGGTTCTCTGAAATCGGTCGAAGCGGAACAGCAGGGTCTTGGAAGTGCAGGCAAGGAAGCTTTGGCGGAAGCGACGGCGGTGCTGGAACATGCCAAGAAACACGCGATGCTTTCCCGCAATCATCTCCAAGCCGCCATGGAAGCCCATGAAGCAATGGGAAAAATTCGCGAGCTGGATATGGAAAAGCGGCGGCTGCAGGGGAAGCTGGACGAGCTTGCCCAGCATGAGGAAGAGATGCAGCGGTTGGAACGCCGCCTTGAGCTGACAGGGGCTGCGGCCGCCGTTCTCCCCGCGCTTGAGGCATGGCGCGAATCCGGCAAGGCATGGGATCAGCGGCGGCGGACTGCCGAAGGGCTCCTGGCGCAAGCCGCGTCCGCCCAGCAGGCAGCCGAGCAGGCTGTGAAGGCGGATGAAGCCGCCCAAGCTGCGCTTCGGGCCGAGGAACCGAAGCTGGTGCTTCGGGAGCAGCAGCTGGAGCAGGCCGTTTTATTGCAGCGGGAACGTGATGCATTACGGGAAGAACTGGCCAAGCTGGATGCGCAGCGAACGAAAGCGCGCCAAGAGCGCGAAGGGATAACCGCTCTGCTTCATAAGGAGCAGGAGCTGCTTGAACGAGGCCGCAGGCGGCAGGAGGAGCTGCAGGGCAAGCTGAAAGGGCTGGAGACCCGTTCAGGGGAGCGCCAGGCGCTTCATCTGGCGATGCAGAAGGTTCAAGCCCTTGAGGCTGTCCGCAGGCAGAAGCAAAAGTCCGAGCTTGAACTGAAATCGCAGGAGGGCAAGCTGAGGGAGCTCGAGGCCAGAGTGGGCACCATGCAGAAGCAGGAGCAGGAGCTGCAGCGCGACTACATACAGCTCTCCATGCAGGCTGACAGCTTGCAGCGTGACGCAGCCGAAGCATCGGCATTTGCCGATCGGATCGCCGCTGCCGCAGTCGAGGTAAGCCAGGCGATGAGCCGATCGCTTCGGGACAGACAGCTTCATGCGTTGTCCCTTTCGCTGGCCGCCGAGCTCCGGGAAGGCGAGCCTTGTCCCGTGTGCGGAAGTCAGCATCATCCGCAACCGGCCGTTTCGGCAGGACAGCCTGAAGAGACTTTGGATGAGGGCATGGACCGGCTGACGCGGATCACGCATCAAATTCAGGAAGCCAGATTGACCCTGCGGGGGCAGCATAACGAAGCGGAGTCGCTGGCGAGTCAATCGCGTTCGCAGATCGACACTTTCGCAGACGGCGAATTGATTGACGCGAGTTCCTTCAGGCAGAGCGGATCGATGGAAGCGGCGGTATCCGCCATGCCTGTCGCTGAAGGGCCGTATGACGCGGAAAAGCTTGCTTCGGATACAGCCTGGCTTATAGAAGCGGCTGATGTTCAAGCTGCTGCCATCGGGCAATGCCGAGCTGAAGTTTCCAAGGCACAACAGAGTCTTCTGGCATGTCGGCAGGAGCTTATGAAACAGAGCGCCGCGCTGGAGAATGGACAAGCGGCAGAGCACCAGATGCGGGATCAGTTAGCCGGATTGGAAATCGAAGCTGCGGACATTTTGGCTTCCTGGCAGGAAAGCAATCCGGAATTTCCTTTGGAAGAGGCAGCTGCCCGTTTTCAGCTCATGCAGGAGAAGGACGCGGAATCCGAATCGATTAAGGAAGGGCTCGAGCGCAGCGTTCCATTCATCGAAGAGAAAAAGGAGGCCGTCCTCCGCTTGGAGCAGCAGCTGCTTGAGCTCGAAAAGCTGCTGATTCAATGGGATGCGCAGCGGGAAGGAAAGGCGGATGGCCTGAAGGATAAAGAAGAGCGGCTTCAGGCTTGGATCGGAGACCGGTCGGCCGAGGAAATGCTGGGCGAGTGCAGGACCAGGATGAAGCTGCTGAAGGAGTCCGCGGAACAAGCTAGGAGCGAATGCAGGAAGGCAGAGGAGACGGCTCGGCATGCAGCCAAGGAAGCGGCGCTTGCGGAACAGGCGGAAATAGCCGCGCAGGAGCAGCACGGGGCTGCCAAGCTTGCCTGGAAGAACCAGCTGGCCGCCTCTCCGTTCGCTACGGAGCATGCCGTCATGGAAGCCTGCTTGACCCCGGAAGAAAGCGAACGATGTGCCCAGCTCGTGAAAGCGCATCGGGACGGGCAGCGGGAATGGACGCTGAGGCTTCGCGACGTCGAACTGAAGCTTGGCTCCCGCCCGTTCCAAGAAGAGGACTGGGAACGGTGCACAGCCGAGCTTCAGGCGGCCCGTGCATCCGATGAGGAAGCGCTGCAGGCGAGAGCCCGGGCGGAGCGGGATTTGGAAGACTTGAACCAGCGTCACGTCCGGTTCATGGAATTGGAAGAGCGGCGTCTAAACCTCCAGCGAGAGAGCGAGCGCTTGTCCAAATTGCAGTCCTGCTTGCGCGGCAACGCGTTTGTTGAATATATTGCGGAAGAACAGCTGATGCAGGTGAGCCAGTCGGCCTCCCAGCGTCTTCGCTATTTGACCAAGCAACGCTACTCGCTTGAGGTGGATTCCGGCGGAGGCTTTGTCATTCGGGACGATGCCAACGGCGGCGTCCGGCGTCCGGTATCCACTTTATCCGGCGGCGAGACGTTCCTGACCTCATTGGCCTTGGCTTTGGCGCTCTCCGCCCAAATCCAGCTGCGCGGGCAATATCCGCTGCAATTCTTTTTCCTCGACGAAGGGTTCGGCACGCTGGATCCGGAGCTGCTGGAGACGGTCATCACCGCGCTTGAGCGCCTCCATACCGATAAGCTAACCGTCGGCATCATCAGCCATGTGCCCGAGCTTCGGGCCCGCCTGCCGCGCAAGCTGGTGGTACAGCCGGCGGAACAGGCGGGTGCGGGATCCCGGATAACAATTGAATCGATGTAG	MKPILLKLSGLQSYRSTQEIDFETLCETGLFGIFGPTGSGKSTLLDAITLAMYGKVERAVNGTQGIMNHSEDGLSVSFTFELSSAAGLERYRVERRFKRVNELSISNTVSRFIRVTPEGDQVVADKLAEVTRCVEEKIGLKMDDFTRAVVLPQGKFAEFLSLKGSERRQMLQRLFHLERYGDQLAIKLSRRVKDTEGSLKSVEAEQQGLGSAGKEALAEATAVLEHAKKHAMLSRNHLQAAMEAHEAMGKIRELDMEKRRLQGKLDELAQHEEEMQRLERRLELTGAAAAVLPALEAWRESGKAWDQRRRTAEGLLAQAASAQQAAEQAVKADEAAQAALRAEEPKLVLREQQLEQAVLLQRERDALREELAKLDAQRTKARQEREGITALLHKEQELLERGRRRQEELQGKLKGLETRSGERQALHLAMQKVQALEAVRRQKQKSELELKSQEGKLRELEARVGTMQKQEQELQRDYIQLSMQADSLQRDAAEASAFADRIAAAAVEVSQAMSRSLRDRQLHALSLSLAAELREGEPCPVCGSQHHPQPAVSAGQPEETLDEGMDRLTRITHQIQEARLTLRGQHNEAESLASQSRSQIDTFADGELIDASSFRQSGSMEAAVSAMPVAEGPYDAEKLASDTAWLIEAADVQAAAIGQCRAEVSKAQQSLLACRQELMKQSAALENGQAAEHQMRDQLAGLEIEAADILASWQESNPEFPLEEAAARFQLMQEKDAESESIKEGLERSVPFIEEKKEAVLRLEQQLLELEKLLIQWDAQREGKADGLKDKEERLQAWIGDRSAEEMLGECRTRMKLLKESAEQARSECRKAEETARHAAKEAALAEQAEIAAQEQHGAAKLAWKNQLAASPFATEHAVMEACLTPEESERCAQLVKAHRDGQREWTLRLRDVELKLGSRPFQEEDWERCTAELQAARASDEEALQARARAERDLEDLNQRHVRFMELEERRLNLQRESERLSKLQSCLRGNAFVEYIAEEQLMQVSQSASQRLRYLTKQRYSLEVDSGGGFVIRDDANGGVRRPVSTLSGGETFLTSLALALALSAQIQLRGQYPLQFFFLDEGFGTLDPELLETVITALERLHTDKLTVGIISHVPELRARLPRKLVVQPAEQAGAGSRITIESM				NA	NA	NA	NA	NA
AK002_01765	360		COG0537	Purine nucleoside phosphoramidase	ATGGATTGTGTTTTTTGTAAAATCGTAGAGGGTGAGCTTCCTTCCACGAAGATACTCGAGAATGATAAGGTGCTCGTATTTCAAAACATCAACCCGGAAGCGCCGGTTCATGTCTTGATCATTCCAAAGAAGCATATCGCTTCCATGAACGATATCGAGGATGAGGACCTGCTGCTGATTGGCGAGATGCACAAAGCGGCTAAAGAGGCCGCGGCCAAGCTCGGCATTGCGGAGAGCGGTTATCGGTTAATTAACAACTGCGGTCGCGATGGGGAACAAACGGTGTTCCACGTGCACTATCACCTGATGGGCGGACGCCGATTAGGCGCATTAACCGGCATTTCCCCGGCTCATACATAA	MDCVFCKIVEGELPSTKILENDKVLVFQNINPEAPVHVLIIPKKHIASMNDIEDEDLLLIGEMHKAAKEAAAKLGIAESGYRLINNCGRDGEQTVFHVHYHLMGGRRLGALTGISPAHT				NA	NA	NA	NA	NA
AK002_01766	441	yqeY	COG1610	putative protein YqeY	ATGAATCTTAGCGAACGATTGAACGAAGATATGAAGCAAGCGATGAAGAGTAAGGACAAGTTCAAACTCTCAACGATTCGAATGGTTCGTTCGACGATAAAAAATCTTGAAATAGATTTGAAACGAAGTTTGGATGACAACGAAGTGCTTGATATTTTTAGTCGTGAAATCAAACAGCGCAAAGATGCCCTCCAAGAATTTGAAAAAGCGGGACGCGACGATCTTGCCGCCGATGCAAAAGCAGAAATTGAGCTCCTTAGCGCCTACCTCCCGGAACAGCTTACTGAAGAAGAAATTAAAGTCATTGTACAGCAGACCATCCAGGAAACCGGTGCTTCTTCAAAAGCCGAGATGGGTAAAGTAATGAGCGCTCTCATGCCGAAAGTTAAAGGGCGTGCAGACGGAAAGCTTGTCAATCAAGTTGTTCAACAATTTCTGTAA	MNLSERLNEDMKQAMKSKDKFKLSTIRMVRSTIKNLEIDLKRSLDDNEVLDIFSREIKQRKDALQEFEKAGRDDLAADAKAEIELLSAYLPEQLTEEEIKVIVQQTIQETGASSKAEMGKVMSALMPKVKGRADGKLVNQVVQQFL	PGPT0030490_2983	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
AK002_01767	1362			hypothetical protein	ATGAGTGGAAAGTTGTGGATGCGCAGATTTCTGACGTTAACGGCAGCCGTCGTGATGATGCTGATATCGATCGGAATGTATGCAGCACCGATGAAATCCGCGATGGCGGCTAACATCGGGTCGGTGTACGTCATTCCGGTGAAGCAGCCGATCGAACGCGGCTTAACCAGCTTTATGGAGCGCGGTTTTAAGGAAGCCAAGGAAATGGCGGCAGGACTCATCGTCCTGGAAATCGATACGCCGGGCGGTCTTGTCGACCAAGCGGGTGAAATTGCCACCCTGATGAAGGACAGCGAGATTCCGATCGTGGCTTACATTACGGGCGATGCGGCATCGGCCGGCAGTTACATCGCACTCAATGCAGACAAGATTGCCATGTCCGAGGGCAGCATGATTGGCGCGGCTTATATGGTGGATGCCAGAGGCAATCGGATCGAGGATGCCAAGCTGGTTTCCTGGTGGAAAAGCAAAATGGCAGGAGCTGCCGAAGCGGGTGGTCGAAACAAAGAAATCGCGATGGGCATGGCAGATATCAATCTGAAGGTCGACATGCCTGAAATCGGTTTGACGAAGCAGCCTGGAGAGATTATTTCCTTGACGCATGATGAAGCGCTGAAGACAGGTTATGCGGACACGATTGCGAACAGCACCGAAGAGGTCATCACATGGATGGACTACTCCAAGCAGGACGTATTCCGGATGGAGCCGACGTTTTCGGAGAAGCTGGCTACATTTCTTACGCATCCCGGGGTCATGACGCTGCTGTTGTTCATCGGTATCGCCGGCGTGATTATCGAAGTCATTGTTCCTGGATTCGGCGTGCCGGGGATTCTTGGCGTGGTTGCATTCGTGCTTTATTTCTTCGGCAACCAGGTGGCCGGATTTGCCGGTTGGGAGACCTGGCTGCTGTTTGTGATCGGTATCGTGATGCTGGCGATGGAGCTGTTTGTGCCAAGCTTCGGGATACTGGGCATCATAGGCTCAGCCAGCTTGATTGCCGGCGTCGTCATGGCGGCCTATAGCACCTCTCATGTTGCTCTGTCCCTCGGGGTTGCAGCGGCATCGGCCCTGGTGGCCATCATTGTGGTTGCCCTCGTATTCAAGGAACGGGGAGTATGGCGCAAGTTCATACTCAGTGACAGCTTATCGAAGGAACAGGGGTATGTTCCGAATGAAGACAGGGATGTGCTGATCGGCCTGGTTGGAACTTCGATTACGCCGCTTCGGCCGGCTGGAACGATGGAACTTGAGGGACGGCGCCTTGATGTGGTTACCCTTGGCGGATTCATCGATTCCGGCCGACCGGTCCGCGTCATCAAGACGGACGGCACCCGAATTGTGGTAGAGGAAGAAAAAGGGTGA	MSGKLWMRRFLTLTAAVVMMLISIGMYAAPMKSAMAANIGSVYVIPVKQPIERGLTSFMERGFKEAKEMAAGLIVLEIDTPGGLVDQAGEIATLMKDSEIPIVAYITGDAASAGSYIALNADKIAMSEGSMIGAAYMVDARGNRIEDAKLVSWWKSKMAGAAEAGGRNKEIAMGMADINLKVDMPEIGLTKQPGEIISLTHDEALKTGYADTIANSTEEVITWMDYSKQDVFRMEPTFSEKLATFLTHPGVMTLLLFIGIAGVIIEVIVPGFGVPGILGVVAFVLYFFGNQVAGFAGWETWLLFVIGIVMLAMELFVPSFGILGIIGSASLIAGVVMAAYSTSHVALSLGVAAASALVAIIVVALVFKERGVWRKFILSDSLSKEQGYVPNEDRDVLIGLVGTSITPLRPAGTMELEGRRLDVVTLGGFIDSGRPVRVIKTDGTRIVVEEEKG				NA	NA	NA	NA	NA
AK002_01768	1008			hypothetical protein	ATGGAATTGGATGGTTCTTTGGTACCGATTCTTCTAATCGGGGTTGTCGCGATTATCCTGCTTAGCGTGTTTTTCAGTTTTTTCCCGTTAATGCTCTGGATCTCGGCGCTCGCTTCCGGCGTGCGCATCGGGATTATTACATTGGTGGCCATGCGCCTGCGGCGCGTAACGCCAAGCCGGATTGTGAATCCGCTCATCAAGGCAACCAAGGCAGGACTTGGTCTTAACATCAACCAGCTGGAGAGTCACTATCTAGCAGGTGGTAACGTAGACCGGGTGGTCAATGCCTTGATTGCAGCCCAACGTGCGAATATTCCGCTCGAGTTTGAAAGGGCTGCTGCGATCGACCTTGCCGGACGCGATGTACTGCAGGCGGTGCAAATGAGCGTTAACCCGCGCGTGATCGAAACGCCGGTAGTAGCAGCCGTAGCAAAAGACGGTATTGAAGTCAAAGTTAAAGCACGTGTAACGGTACGTGCCAACATTGACCGTTTGGTCGGGGGTGCTGGCGAAGAGACGATTATTGCTCGTGTCGGTGAAGGTATCGTAACGACGGTAGGTTCCAGTAATTCGCATAAAGATGTTCTTGAAAATCCGGACCTGATCTCAAGAACGGTTCTGTCCAAGGGACTCGACGCAGGAACAGCGTTTGAGATTCTGTCTATTGATATCGCGGACGTGGATGTAGGCAAAAACATCGGTGCTTACCTGCAGACCGAGCAGGCCGAAGCCGACAAGCGCATTGCCCAAGCGAAGGCGGAAGAACGCCGCGCTATGGCAGTAGCCCAAGAGCAGGAGATGAAGGCTCGCGTCGTAGAGATGAGAGCACGCGTCGTGGAATCGGAATCTCAAGTTCCGCTGGCGATGGCAGAAGCGCTTCGCAGCGGCCAGCTGGGCGTGATGGATTATATGAACCTGAAGAATATCGAAGCCGATACGCAAATGAGAGGTTCCTTCGGTAAGATGGGTGAGAATAATGACAACTCCGGAGACAACAAAACCAAGTAA	MELDGSLVPILLIGVVAIILLSVFFSFFPLMLWISALASGVRIGIITLVAMRLRRVTPSRIVNPLIKATKAGLGLNINQLESHYLAGGNVDRVVNALIAAQRANIPLEFERAAAIDLAGRDVLQAVQMSVNPRVIETPVVAAVAKDGIEVKVKARVTVRANIDRLVGGAGEETIIARVGEGIVTTVGSSNSHKDVLENPDLISRTVLSKGLDAGTAFEILSIDIADVDVGKNIGAYLQTEQAEADKRIAQAKAEERRAMAVAQEQEMKARVVEMRARVVESESQVPLAMAEALRSGQLGVMDYMNLKNIEADTQMRGSFGKMGENNDNSGDNKTK				NA	NA	NA	NA	NA
AK002_01769	576			hypothetical protein	GTGAGCTGGTTAATCGAAAATTTTTACATTGTAGCTGTTATAGGCTTCTTCATTATCTCCGCCCTCGGAAGAAGGGGAAAGAACCCCGAGGAGGGGAAAAACCCTCGTATGCCATCCTTCGGCGGCGAAGGGGACCGTCCTGCAAGACCGGGGCAGCAGCGGTCACAGCGGCCTGAAGCAAGACGGGTACAGACGGCTCCACAAGTCTCCCGTCCGCCTGTTCAGGAAAGCACCCGGATCGAGCGGTTGGATGAAGAAGAAACGGATACCGGGAACGGATACTCTCTTGAACATCAAGAGATTGATCGAGCGAGACGTGAGGAAGAGATGAGGTTCCACCCTGACAGCATAGATCATAGAATCGAGATGATGGAGAAGGACTTGAACCGGATTCACTCTAATTTGAATCGGATGACCATCGCTTTACCTGAAACTGTTGTCGAAAGCCAAGATGAAGATCGCGAACAGACTAGGAGCAGTCGATCGAATCTTGCAGAACAGGCTCGAAACGGCATTGTTTGGGCCGAAATTTTGGGACCCCCGCGTGCCAAACGCTCCATGAACTCTCGCCGGTAA	MSWLIENFYIVAVIGFFIISALGRRGKNPEEGKNPRMPSFGGEGDRPARPGQQRSQRPEARRVQTAPQVSRPPVQESTRIERLDEEETDTGNGYSLEHQEIDRARREEEMRFHPDSIDHRIEMMEKDLNRIHSNLNRMTIALPETVVESQDEDREQTRSSRSNLAEQARNGIVWAEILGPPRAKRSMNSRR				NA	NA	NA	NA	NA
AK002_01770	294			hypothetical protein	ATGTCCCGCATCAGCCGCAAGCTGCAGAAATGGACCCAAGAAATGCTTGATTTGCCACAGGACCTGTTATTTGATTTACCGCGGTTGACCCTGATTGGCAATAAAGAGCTGCATATCGAAAACCATCGCGGAGTCCGGCATTTTTCCGAGGAACGACTTGTGTTGTCATTAACGCAAGGTTCTTTGGAGATTTCCGGGACCGGGCTTGCGATTCAGGCCATTCAAAGCCACGAAGTGACCATCATTGGCACCATTCATAATATTCAATACATAGGATTGGGGGAGAAACCGTGA	MSRISRKLQKWTQEMLDLPQDLLFDLPRLTLIGNKELHIENHRGVRHFSEERLVLSLTQGSLEISGTGLAIQAIQSHEVTIIGTIHNIQYIGLGEKP	PGPT0024765_67	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024765-yqfC-NA	NA	NA
AK002_01771	1194			hypothetical protein	GTGAAGATTCCGACGATGATCCATCTTCGAGGATATTTGAAGCTCGCCGTTCGCGGTGAGCATGTGGAAGCATTCATCAATTCATTGGCGGAGGCCGGGATCCCGGTTTGGGACGTAACACCGACAGCGGCGCATTCAGCAGAGTTTAAGCTGCTGCTGAAAGATTTCAAAGGGCTCCGTCCGCTGTTAAAACGGACAGGCTGCCGTACGCGCATCAAGGAGCGGTTTGGTTATCCTTTTCAAGCACGACGTTTGTTCAAACGCAAAGCTTTTGTTATCGGCGTCGTTGCGTTTTTTATGATTCTGCTGACGCTTTCGTCCATGGTATGGAACGTGGAGGTCGAGGGCAATGAAACGATTGCGTCGGAAGATGTACTGGATGCGGCCAAACAGGAGGGCATTTATCCGTTTCAATGGATATTTAAGCTGCAATCGATGGACAAGCTGTCCGGCAATTTGACCGTCCGTCTTCCGGGAACCTCTTGGGTAGGGGTGGAACGCAACGGGACGCGCATACGCATTCAGATCGTCGAGGCAGCCGTGCCGGAGAAACCGCCTCTCCAGAGCCCAAGGCATCTGATCAGTACCCAGGACGCGGTAATTACTCAAATGTACGCAGAGAAGGGGGTTCCTAAAGTAGGGATCAACAGCCGCGTGAAGAAGGGCGACATTCTGATCTCCGGGGTTCTTGGGGATGAGGAGAATTCGGAGAGAGTCGTAGCCAAAGGGGAAGTAAGGGGCCTGGTATGGCATGAATACGATATCGAAATTCCGTTGGTAAAAACGCATAAGGTCTATACGGGCGAAGGAAAGAAGCGCTCCTATATCGTGTTCGGGGATCGTGCCGTTCAGTTGTGGGGCTACGGGGAGATCCCGTATTCGCAGCAGGAGACCCTGACCTTCTATGATCCGCTGACTTGGAGGACGCGCGTGCTGCCGCTCGGCTGGATGACGGAAAAAATCATGGAGGTCACCGAGGTCCAGCGGACCATTACCGAGGATGAAGCCAAAAAAGAGGGAATCGAGGGGGCGCGCCGTGATATTTTGGCGAAATATGGGACCGATTCAAGATTCGTAAGCCAAAAAATTTTGCATGATAAGAAAGAGAATGGTAAAGTTTATATGAAAGTGCTTTTTGAGGTGGAAGAGACCATCGCGAAAGAACTTCCCATAGTATACGATCAAGGAGAATGA	MKIPTMIHLRGYLKLAVRGEHVEAFINSLAEAGIPVWDVTPTAAHSAEFKLLLKDFKGLRPLLKRTGCRTRIKERFGYPFQARRLFKRKAFVIGVVAFFMILLTLSSMVWNVEVEGNETIASEDVLDAAKQEGIYPFQWIFKLQSMDKLSGNLTVRLPGTSWVGVERNGTRIRIQIVEAAVPEKPPLQSPRHLISTQDAVITQMYAEKGVPKVGINSRVKKGDILISGVLGDEENSERVVAKGEVRGLVWHEYDIEIPLVKTHKVYTGEGKKRSYIVFGDRAVQLWGYGEIPYSQQETLTFYDPLTWRTRVLPLGWMTEKIMEVTEVQRTITEDEAKKEGIEGARRDILAKYGTDSRFVSQKILHDKKENGKVYMKVLFEVEETIAKELPIVYDQGE	PGPT0024760_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024760-yqfD-K06438	NA	NA
AK002_01772	972		COG1702	PhoH-like protein	TTGTCACAGCAAACGACCAGCATTCAAATTTTACTTCAAAGCGCGTCAGAAGGTCTGTCCTTATTCGGACCACAAGATACATTTCTAAAATTAATCGAAAAAGAGATTCCTGCGACGATCGATTCACGGGAAGCCGTCATCACGATTCGGGGACAACATCGAAATGTGGAGAGTCTTCAGCAGCTGTTTGAAGTGCTGCTCCAGCTTGTGCGCAACGGCTACATTTTGACCGAGCGCGATATTCTTTATGCTGTAGAACTTGCCAAGGATCTGAGAGCCGATCAGCTGCTGGATCTGTACAAGGGCGAGATTACGACAACCTTCAAAGGTAAGCCTATTCGAGTAAAAACCATCGGCCAGAAGCACTATGTGACCACCATCAAGAAGCGGGACATCGTATTCGGCATCGGTCCTGCCGGAACAGGGAAGACCTATTTGGCCGTCGTTCTGGCCGTAGCCGCGCTGAAGGAAGGATCCGTCAAAAGGATCATTCTGACAAGGCCCGCAGTGGAGGCCGGAGAGAGCCTGGGCTTCCTGCCTGGAGACCTGCAAGAGAAGGTTGACCCTTATCTGAGACCTTTGTACGATGCCTTATACGACGTTATGGGCCCGGATCAAACGGCCAAGGCGCTGGAGCGCGGGTTGATCGAAATCGCGCCGCTCGCGTACATGCGCGGACGGACGCTGGACGACTCGTTTATTATTTTGGATGAAGCACAGAACACCACGCCGGAACAGATGAAGATGTTTCTGACACGGCTCGGATTCGGTTCGAAGATGGTCATTACAGGGGACGTGACCCAGATTGACCTGCCGCGGGGGAAAAAATCAGGACTTATCGAAGCTAAAACGATATTAAGCGGAATTGAGGAAGTCGGATTCGTCTATTTCGCCGAACAGGATGTTGTACGTCATTCCTTAGTACAAAAAATCATCGTCGCTTATGATAAAGCAGCAGAAAACCAAGATTAA	MSQQTTSIQILLQSASEGLSLFGPQDTFLKLIEKEIPATIDSREAVITIRGQHRNVESLQQLFEVLLQLVRNGYILTERDILYAVELAKDLRADQLLDLYKGEITTTFKGKPIRVKTIGQKHYVTTIKKRDIVFGIGPAGTGKTYLAVVLAVAALKEGSVKRIILTRPAVEAGESLGFLPGDLQEKVDPYLRPLYDALYDVMGPDQTAKALERGLIEIAPLAYMRGRTLDDSFIILDEAQNTTPEQMKMFLTRLGFGSKMVITGDVTQIDLPRGKKSGLIEAKTILSGIEEVGFVYFAEQDVVRHSLVQKIIVAYDKAAENQD	PGPT0002700_3075	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
AK002_01773	2301	pgpH		Cyclic-di-AMP phosphodiesterase PgpH	ATGGCCTCCAAAGAACCATCGACGGACAAGTCCATGTGGAGTAAAAACAGCGGATGGAAATATAGCGTGGCAACACGCTATATTCTGTTTCTGCTGCTTGCTTTGCTCTTTTATATCAGTCTAGCATCCAAGCTTTTGCCGGAACGCTATGACATCCAGGTCAATACGAAAAGCGAAAAGAATATCGTGGCGCCCGTTCAAATCGAGGACAGCAAGGCGACGCTGAAGGCACAGGAGGCGGCGGCGGAGAACGTCCAGCCGATTTACCCTCTCGTCCCGCTGCGGAACGACGTTCTGGTTACGCAGATCCTTGACCGCATTGAACGGTTGAACCAGGACGTGGATATCAGCTCCGCCGAAAAGGTGGAAATTTATCGCAAAGAAATTCCGCGGATGGCCAGAGAATTCGTGCAAAATTTCGTGTCGGCCAACAGCACGAATGAAGCCTACTCCAAAGAGCTGCTTCAGGAAATGCAGCGGGTTATCGAAGAACAAACCTATCGGATTCCCGAGGAAACGTTCATTAAGATACCGCGGTTGAATTCGGAAGATATTATCCAGATGAAGCCCGTAGCCCGCGAGATCGTCTCCAGGCTGATGCTGAACGAGATCGTGGATGCCGACACGGCCCGCACCCGCGTGGCGGAACGAGTGAACACCAGCTCGTTGAACGATCGGACCGCCAGGGAAGTCGTTCAGGAACTGGCGAGCTTAACGATTACGGCCAACAAGTTCTATGACGAGGTCGCCACGAAGAATGCGAAGGTTGAAGCTCGCGAGAATACCCCGCCCGTCTTTATCAAACAAGGGGACATCCTTGTGGCAAAGGGTCAGCTCATCACGCCGGAGCTGTACGAGCTGCTCGGCAAGAACGGGCTGCTGAAGGACGACATCAACTATTGGCCGGAGCTTGGCGTTTTGCTCCTGTCCGTTTTGCTGTCCCTCGGCATACTGACGTTCATCCGGCAGTCGGAGCCGGGCAAATTCAAATACAACAACTCGCAGCTGCTGATGCTGGTCCTGGTGTACGTCATCACGCTGATCACCATGCATTTGACCGCATTTCTGCAGAGCGATTCCCAGATGTACGTGGGGTATTTGGCGCCTGTCGCGATCGGCGCGATTCTGGTTACCCTGCTGCTGGAGACCTCGCTTGCCTATTTCAGCGTCATTATCTTCAGCATCATGGCAAGCGTCATATTGAACGTTCAAGGGGAACTGTTCGACTTCAAGTTCGGGTTATTCGCAGCCGTGACTTCCTGCGTGGCAATCTTCTCGATCCACCGCGCAAGCCAGAGGTCGACGATGCTGAAGGGCGGCATCATGGCTTCTCTCTTCGGCGCCTTGATCGTGTTCATTATGCTGCTGCTCAATAACGACACGTGGACTACGACGGAAACGCTGTATTCGATCGGCTTTGCCATCGCGGGCGGACTGTTAACGGCGATCCTGGTTATCGGGCTCATGCCGTTCTTTGAAGTCACCTTCGGCATTCTCTCGGCGCTGAAGCTGGTTGAATTGTCAAATCCGAACCATCCGCTGCTCCGTAAACTGCTGACAGAGACGCCGGGCACATACCATCACAGCGTCATGGTCGGTAACTTATCCGAGGCTGCTGCGGAAGCGATTGGCGCCAACGGACTGCTGTGCCGCGTCGGTTCTTATTATCACGATATCGGAAAAACCAAGCGCCCGATCTATTTCATCGAGAATCAGAACAATATGGAGAATCCGCATGATTCCATAGAACCGAAGCTGAGCAAATCCATTATCGTAGCGCATGCAAGGGATGGCGTGGAGATGCTCAAGGAGTACAAGCTGCCCAAACCGATAAGGGATATTGCGGAGCAGCATCATGGCACCACGTTTTTACACTATTTCTATCATAAGGCGGTTCGCCAGGCGGAAGAGCAGGGCGTCGAGCCGGATTTCACGGAGGATGATTTCCGCTATCCGGGGCCGAAGGCCCAATCCAAGGAGTCTGCGATTGTCGGCATCGCCGACAGCGTGGAAGCGGCCGTCCGATCATTGCGTAAGCCAACGGTCGAACAGGTCGAATCGATGATCGAGAAGATTATCAAGGGGCGTCTGGATGACCATCAGTTTAATGATTGCGATTTAACGATGAAGGAACTGGACATCATCGCCAAGACGTTAAAGGAGACGGTGATGGGGATTTTCCATTCCCGGATCGAATATCCGGAGGATGTGAAGCGTCCCAAACTGCCCGCGCCGAACGGCGAAGGCTCGACCGCATCGGAGACGTCCGCAACGAGTGAGGAACAGAGAAGGAGCGTATAA	MASKEPSTDKSMWSKNSGWKYSVATRYILFLLLALLFYISLASKLLPERYDIQVNTKSEKNIVAPVQIEDSKATLKAQEAAAENVQPIYPLVPLRNDVLVTQILDRIERLNQDVDISSAEKVEIYRKEIPRMAREFVQNFVSANSTNEAYSKELLQEMQRVIEEQTYRIPEETFIKIPRLNSEDIIQMKPVAREIVSRLMLNEIVDADTARTRVAERVNTSSLNDRTAREVVQELASLTITANKFYDEVATKNAKVEARENTPPVFIKQGDILVAKGQLITPELYELLGKNGLLKDDINYWPELGVLLLSVLLSLGILTFIRQSEPGKFKYNNSQLLMLVLVYVITLITMHLTAFLQSDSQMYVGYLAPVAIGAILVTLLLETSLAYFSVIIFSIMASVILNVQGELFDFKFGLFAAVTSCVAIFSIHRASQRSTMLKGGIMASLFGALIVFIMLLLNNDTWTTTETLYSIGFAIAGGLLTAILVIGLMPFFEVTFGILSALKLVELSNPNHPLLRKLLTETPGTYHHSVMVGNLSEAAAEAIGANGLLCRVGSYYHDIGKTKRPIYFIENQNNMENPHDSIEPKLSKSIIVAHARDGVEMLKEYKLPKPIRDIAEQHHGTTFLHYFYHKAVRQAEEQGVEPDFTEDDFRYPGPKAQSKESAIVGIADSVEAAVRSLRKPTVEQVESMIEKIIKGRLDDHQFNDCDLTMKELDIIAKTLKETVMGIFHSRIEYPEDVKRPKLPAPNGEGSTASETSATSEEQRRSV				NA	NA	NA	NA	NA
AK002_01774	498	ybeY		Endoribonuclease YbeY	ATGAGCCTGCAGCTGGCATGGAATAATGAACAAGAGGATTTTCAGATTAGCGAGGAATTGATCGCCCTGCTTGAAGCGATTCTGCAGAAGGCCGGAGAGGCTGAAGGCGTAACCGATGGCGAGGTTGATCTGACCTTTGTCGATGATGAAGGGATCCATGAATTGAACCGGGAGTACCGGGGAATCGATCGTCCGACCGACGTGCTCTCCTTTGCAATGAATGAAATAACGAACGATGAGCTCGAGATCATTTATGAGCTGGAAGAGGGAGAAGAGCTGGAGAGCGTGCCGGATGTACTGGGCGATATCATTATTTCGGTCCCCCGGGCGAAGCTGCAAAGCGAAGAATACGGTCACTCCTTGGAGCGTGAGCTGGGTTTTCTGTTTGTTCACGGATTTCTTCACTTGCTCGGATATGACCATCAGGATGAGGCAAGCGAAGCCGAAATGATGGGCAAACAGGAAGCCGTACTTGCCGAAGTAGGATTGACAAGATAG	MSLQLAWNNEQEDFQISEELIALLEAILQKAGEAEGVTDGEVDLTFVDDEGIHELNREYRGIDRPTDVLSFAMNEITNDELEIIYELEEGEELESVPDVLGDIIISVPRAKLQSEEYGHSLERELGFLFVHGFLHLLGYDHQDEASEAEMMGKQEAVLAEVGLTR	PGPT0021360_159	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
AK002_01775	384	dgkA	COG0818	Undecaprenol kinase	GTGAAGCCGCACAGACAATCGTTATACAGGGCTTTTAGATGCGCTATACGAGGCATCTTGACGGCTGTACAAACGGAACGCAATATGAAAATCCACATTGCTGCTGCCTTGATCGTGTTCATCGCAGCAGCTTTGCTGCAATTGGATCGAATCAGCTGGTTATTTTTGCTATTGGCGGTTTCCATTGTATTCATTGCGGAGCTGGTCAATACCGCGGTGGAGGCCATCATCGATTTGATCTCGCCAGATGAACATGAGTTAGCCCGGGTGGCTAAGGATACGGCAGCCGGTGCAGCATTCGTTGCAGCGGCGTTTGCCGTCGTGATCGGCATTCTGGTCTTCTATGAACCGGTATGGGAATGGATACAATCTTTAACAAGCTGA	MKPHRQSLYRAFRCAIRGILTAVQTERNMKIHIAAALIVFIAAALLQLDRISWLFLLLAVSIVFIAELVNTAVEAIIDLISPDEHELARVAKDTAAGAAFVAAAFAVVIGILVFYEPVWEWIQSLTS	PGPT0024175_335	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024175-dgkA-K00887	NA	NA
AK002_01776	408	cdd	COG0295	Cytidine deaminase	ATGGATGCAGGTTTGTTGATGCAAGAAGCGATTAAAGCGCGCACGCGGGCGTACATTCCTTATTCGAAATTCGGCGTGGGAGCGGCCCTGCTGGATTCTCGCGGACAGGTGCATTTGGGCTGCAACGTGGAGAATGCCGCCTACGGACCGACCAATTGCGCGGAGCGCACGGCATTGTTCCGGGCGATTGCCGACGGTCATGAAGCGGGGAGCTTCCAAGCGATTGCCATCGTTGCGGATACGGACGGCCCGTGCACGCCGTGCGGCGTATGCCGACAAGTGCTGGTGGAGCTGTGCAAGCCGGATATGAAGGTCATTATGGGCAACATGAAGGGCGACATCAAGGAGACGACCGTCAGCGAACTGCTGCCGGGGGCGTTCGGTCCATGGGATTTAAACAAGCAGTAA	MDAGLLMQEAIKARTRAYIPYSKFGVGAALLDSRGQVHLGCNVENAAYGPTNCAERTALFRAIADGHEAGSFQAIAIVADTDGPCTPCGVCRQVLVELCKPDMKVIMGNMKGDIKETTVSELLPGAFGPWDLNKQ	PGPT0021360_2690	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
AK002_01777	903	era	COG1159	GTPase Era	ATGAAAAAAAAACAATTTAAATCCGGTTTTGTGGCAATTATCGGTAGACCTAACGTAGGCAAATCGACGCTGATGAACCAAGTGATCGGCCAGAAAATCGCCATCATGTCGGACAAGCCGCAAACGACAAGAAACAAAATCCATGGCGTTTATACGACCTCGGATTCCCAAGTGGTCTTTCTGGATACGCCGGGCATCCATAAGCGTCAGTCCAAGCTCGGAGATTATATGAACCAGACCGCTTTGAGCACATTGGGTGAGGTTGAAGCGGCATTGTTCCTGGTTGACGCGTCCGAGGGCATCGGCGGGGGAGACCGGTATATCGCCGAGCAGCTGCAGAAAATCAAGACGCCGATCATCCTGGTGATGAACAAAATCGACAAGATTGAGCCGCCCGCTCTGCTGCCTCTGATCGAGCAATATCGGAAGCTGCATGATTTTGCAGAGATCGTCCCGATTTCCGCGAAGCTCGGCAGCAATGTGAACACGCTGCTCGAGCAGATCCAGAAGTATTTGCCGCCAGGTCCGCAGTACTATCCTGAGGACCAAGTGACGGATCATCCGGAGCAATTCGTATGCGCCGAGCTGATTCGCGAGAAAATTTTGCACATGACCAGGGAGGAAGTGCCTCATTCCATCGCAGTCACCATCGAGGATATGCGGGTCGAAGAGAACGGTACCGTCTATATTTCCGCCGTTATTTTCGTAGAACGCGATTCCCAGAAGGGCATCATTATCGGCAAGCAGGGGGCGCTGCTTAAAGAAGTGGGCAGACAGGCCCGCCAGGATATTCAAAGGCTGCTGGGGTCCAAGATTTTCTTGGAGCTCTGGGTTAAAGTAAAAAAAGATTGGCGCAATCAAGAACGCGTTCTTCGCGATCTCGGATTTCACCGCGGGGAATAA	MKKKQFKSGFVAIIGRPNVGKSTLMNQVIGQKIAIMSDKPQTTRNKIHGVYTTSDSQVVFLDTPGIHKRQSKLGDYMNQTALSTLGEVEAALFLVDASEGIGGGDRYIAEQLQKIKTPIILVMNKIDKIEPPALLPLIEQYRKLHDFAEIVPISAKLGSNVNTLLEQIQKYLPPGPQYYPEDQVTDHPEQFVCAELIREKILHMTREEVPHSIAVTIEDMRVEENGTVYISAVIFVERDSQKGIIIGKQGALLKEVGRQARQDIQRLLGSKIFLELWVKVKKDWRNQERVLRDLGFHRGE				NA	NA	NA	NA	NA
AK002_01778	141			hypothetical protein	ATGCGAGATTTTTCGTGGAAGTATTTTGCGATGACTGGAGATGTCGATGCGTATTTGCTGTATAAGGAAGCCGAGGGTGAATCGGTCCTTGCAGCTGCATCCGTTGAAGACGAGGCGGCCCCGAATGAAGAAGACGAGTAA	MRDFSWKYFAMTGDVDAYLLYKEAEGESVLAAASVEDEAAPNEEDE				NA	NA	NA	NA	NA
AK002_01779	756	recO	COG1381	DNA repair protein RecO	ATGCTATATCGGGCGGAAGGGATTGTCATCCGCAGCATGGACTACGGTGAAGGGAACAAAATCATTACACTTTGCACCAAAGAATCGGGCAAGGTAGGCGTGCTGGTCAGAGGAGCAAAGAAGGTGAAAAGCCGTCATGCTGCTCTGACGCAGCTGTTTACTTATGGAGAATATGTGTTCTTCCGGAATGGTACCGGGCTTGGCAACTTGAACGCCGGCGAGATTATGGAATCTCACCACGGGCTCAGGGAGGACCTTGTAAAAGCCGCCTATGCTTCTTATGCCTGCGAGCTCTTGGATCGGGTGCTGCAGGATGAGGAGACGGGCGCTTTTTGGTTTCATCAGCTCAAGGCCTGCCTGGAAGCCCTTCAGGAGGATAAGGACCCCCAAATTATCATCAATCTGTATGAGATGAAAATTTTGCAGGCTGCAGGGTACGGGCCGGAGCTGGATGTTTGCATTTCATGCAATCAATCCAGAAAAGACGAAGATATGCTGGTGAGCCCCCGCCTTGGCGGCGTGCTGTGCCGTTACTGCAAACATCTGGATCCGCCGGCGATGGCCATCTCGCCCAGAACGCTGAAGCTGCTGCGCCTGTTTGGACGCCTGGACCTGAGGCGGCTGGGCAATGTAGACGTAAAGGACGAAACGAAGGCCGAGCTCAAAAAAGTCATGCGAGCGTTGATGGATATGCAGCTGGGGCTGCGTTTGAAATCGCAAAACTTTTTGGACCAAATGGACAAGTACAACATTTGA	MLYRAEGIVIRSMDYGEGNKIITLCTKESGKVGVLVRGAKKVKSRHAALTQLFTYGEYVFFRNGTGLGNLNAGEIMESHHGLREDLVKAAYASYACELLDRVLQDEETGAFWFHQLKACLEALQEDKDPQIIINLYEMKILQAAGYGPELDVCISCNQSRKDEDMLVSPRLGGVLCRYCKHLDPPAMAISPRTLKLLRLFGRLDLRRLGNVDVKDETKAELKKVMRALMDMQLGLRLKSQNFLDQMDKYNI				NA	NA	NA	NA	NA
AK002_01780	888	glyQ	COG0752	Glycine--tRNA ligase alpha subunit	ATGAATTTCCAGCAGATGATTTTGACGCTGCAGCAATTTTGGGCGGAACAGAATTGCATCATCGTGCAGCCGTACGACACGGAAAAAGGCGCCGGTACGATGAACCCGATGACGTATTTGCGTTCGATCGGGCCCGAGCCGTGGAACGTGGCTTATGTTGAGCCTTCCCGTCGCCCGGCCGATGGCCGCTATGGGGAGAACCCGAACCGTTTGTATCAGCATCACCAATTCCAGGTCATTCTCAAACCTTCCCCTGACAATATCCAGGAGCTGTATTTGGAGAGCTTGAAGCGTCTTGGCATCAATCCGCTTGATCATGACATCCGTTTTGTTGAGGACAACTGGGAAGCGCCAACGCTCGGTGCATGGGGCTTGGGCTGGGAAGTATGGCTCGATGGTATGGAGATCACGCAGTTTACGTACTTCCAGCAGGTTGGCGGCATTGACGCCAATCCGGTGGCTGTGGAGATTACCTACGGCATGGAGCGCCTTGCATCCTACATCCAGGATAAAGAGAACGTGTTCGATCTGGAGTGGGTAAACGGCATTACCTACGGAGACGTGTTCCATCAGCCGGAATTCGAGCATTCGAAGTATACCTTTGAAGTGTCCGACGTGAAGATGCTGTTTACGCTGTTTAACATGTACGAGGAAGAAGCGAATAAAGCGATGAACCAGCATCTGGTGTTCCCCGCTTATGATTATGTTCTGAAATGCTCGCACACGTTCAACCTTCTGGATGCCAGAGGCGCGATCAGCGTAACGGAGAGAACGGGATACATCATGCGCGTGCGCAACCTGGCTCGTCAGGTAGCTGCCACGTATTTGGAGGAGCGCGAGAAGCTGGGCTTCCCGCTGATTAAGAAAGGGGGCGCAGAGCATGTCTAA	MNFQQMILTLQQFWAEQNCIIVQPYDTEKGAGTMNPMTYLRSIGPEPWNVAYVEPSRRPADGRYGENPNRLYQHHQFQVILKPSPDNIQELYLESLKRLGINPLDHDIRFVEDNWEAPTLGAWGLGWEVWLDGMEITQFTYFQQVGGIDANPVAVEITYGMERLASYIQDKENVFDLEWVNGITYGDVFHQPEFEHSKYTFEVSDVKMLFTLFNMYEEEANKAMNQHLVFPAYDYVLKCSHTFNLLDARGAISVTERTGYIMRVRNLARQVAATYLEEREKLGFPLIKKGGAEHV				NA	NA	NA	NA	NA
AK002_01781	2076	glyS	COG0751	Glycine--tRNA ligase beta subunit	ATGTCTAAGGATTTATTGTTTGAAATCGGCCTGGAAGAAGTGCCGGCGAGATTTCTGCGCGCCGCGATGGAGCAGCTTCAGGACAAGTTGGTCAAATGGCTGGATGCTTCCAGAATCGCGCATGGCGAAGTCACGGCATTTGCTACCCCGCGCCGCTTGGCGGTATGGGTTCAGAACGTTGCGGATAAACAAGAGGACGTCAGCGAGGAAGTGAAAGGGCCTTCCCGCAAGATCGCTCTTGATGACAGCGGGCAGTGGAGCAAGGCGGCTCTTGGTTTTGCCAAAAGCCAGGGCGTTGATCCCGAGAGCTTTACGTTTAAGGAGCTCGGCGGAGTCGAGTATATTTACGTGACGAAGAATAGCGTCGGCGTGGATACGAAGTCCATCCTGTCCGAAGGGTTGCTTGGAATACTGACTTCGATGACATTCCCGAAAAACATGCGCTGGGGAGCGCACGAATTCAAATTCGTCCGTCCGATTAAGTGGATGGTCGCGATGCTCGGCAGCGAGACGGTAGATCTGGAAATTACGGGCGTGAAGGCCGGTAACGTAACTCGCGGGCATCGTTTCCTTGGCGGAGAAGCCGTAATTCCGGAAGCATCTGCTTACCGCGACGTGCTTCGCGAACAGCATGTTATCGTCGATGTGGATGAGCGCCAAGAGATGATCGTTTCGCAAATCCAGGCGCTGGCCCAGGAGAAGGACTGGAATATCGCGATCAAGGATGACCTGCTTGAGGAGGTATTGTTCCTGGTTGAAACTCCAACCGTGCTGTACGGATCGTTCGACTCCTCATTCCTTCATATTCCGCAGGAAGTATTGATTACGTCCATGCGTGAGCATCAGCGGTATTTCCCGGTGCTGGATAAGCAGGGACAATTGCTTCCGTATTTCGTAACGGTTCGCAGCGGGGACAGCCGCTCCCTCGACGTGATTGCGAGAGGAAACGAGAAGGTGCTGCGGGCCCGGTTATCGGATGCGAAATTCTTCTATGAGGAAGACCAGAAGCTTCAGATCAAGGATGCCCTGTCGAAGCTGGAGAGCATCGTTTTCCATGAAGAGCTGGGGACGATCGGCGATAAAGTCCGCAGAATCCGCCGGATTTCGGATCAGTTGTCCGCGAAGCTTAACGTTTCTGCAGACGCAGCGGATTCCGTGAGCCGTGCGGCCGATATTTGCAAATTCGATCTGGTGACGCAGATGGTCTATGAATTCCCTGAATTGCAAGGGGTCATGGGAGAGGATTACGCAAGAAAAGCCGGTGAGAAGGAGCATGTAGCCAAAGCGGTGTTTGAGCATTACCAGCCTCGCTTTGCCGGCGATTCGGTGCCTTCCACGATGGTGGGTTCCATCGTGAGCATCGCGGATAAAATCGACACCATCGTGGGATGCTTCTCCATCGGTATTATTCCGACTGGCTCCCAGGATCCTTACGCACTTCGGCGTCAGGCTGCGGGCATCGTTCAGATCATTTTGGAGCACAAACTTCCGGTGACTTTATCCGACGTGTTCGGCGTGGCGCTCGAGGTTCACGAGAACATTCGCGTATTGAAGCGATCGACGGACGAAATCCGCAAAGACCTTAAGGAGTTCTTCGGGCTTCGCGTGAAGAAGCTGTTGTCCGAAGACCAGCGTTATGATGTGGTGGATGCGGTTATTACGGCCGGATTCGATCATGTGGTGTCCGTCGTATCCCGCGGCCATGCGCTGATGAATGCCGTGGAGAGCGTCCAGGATTTCAAAACGACGGTAGAGTCCTTCAACCGGGTCAGCAATTTGGCTGCCAAAGCGGGTAAGGCCGCTGTCAACGCCGAACTGTTCACGGAATCGGAAGAAAACAAGCTTTATGAAGCTTGGAACGCGATTCGCGCAGATTACCATGCCGCGCTGCAGGCAGCGGAGGGCGAACGTTCGCTGTCCTTGCTGAGTGGACTAAGGGAGCCGATTACCGGGTTCTTTGATTCGGTGATGGTGATGGCTGAAGACGAAGCGGTTCGGGCCAATCGCCTTGCGCTGCTCTCTGGAATCGACGGTGATCTGAAGCAGTATGCCGATTTCACGAAATTGGTGTGGTAG	MSKDLLFEIGLEEVPARFLRAAMEQLQDKLVKWLDASRIAHGEVTAFATPRRLAVWVQNVADKQEDVSEEVKGPSRKIALDDSGQWSKAALGFAKSQGVDPESFTFKELGGVEYIYVTKNSVGVDTKSILSEGLLGILTSMTFPKNMRWGAHEFKFVRPIKWMVAMLGSETVDLEITGVKAGNVTRGHRFLGGEAVIPEASAYRDVLREQHVIVDVDERQEMIVSQIQALAQEKDWNIAIKDDLLEEVLFLVETPTVLYGSFDSSFLHIPQEVLITSMREHQRYFPVLDKQGQLLPYFVTVRSGDSRSLDVIARGNEKVLRARLSDAKFFYEEDQKLQIKDALSKLESIVFHEELGTIGDKVRRIRRISDQLSAKLNVSADAADSVSRAADICKFDLVTQMVYEFPELQGVMGEDYARKAGEKEHVAKAVFEHYQPRFAGDSVPSTMVGSIVSIADKIDTIVGCFSIGIIPTGSQDPYALRRQAAGIVQIILEHKLPVTLSDVFGVALEVHENIRVLKRSTDEIRKDLKEFFGLRVKKLLSEDQRYDVVDAVITAGFDHVVSVVSRGHALMNAVESVQDFKTTVESFNRVSNLAAKAGKAAVNAELFTESEENKLYEAWNAIRADYHAALQAAEGERSLSLLSGLREPITGFFDSVMVMAEDEAVRANRLALLSGIDGDLKQYADFTKLVW				NA	NA	NA	NA	NA
AK002_01782	477			hypothetical protein	ATGCGTATGAACGAAAGCTCCATTTCGATCGTGGTTGACGGGGATGCTTGTCCAGTCAAGAAGGAAATCGCAGAGACTGCTCGTGCATTCCGTGTGCCGGTGCTGCTTGTTTCTTCCTATGATCATCTGCTGCAAGCCGAAGAAGGGGTTACGACGATCCAGGTGGACCGGAGTGATCAAAGTGCGGACCTCTACATCGCCAACCACATATCCAGGGGGGATATCGTGGTGACGCAGGATTATGGACTGGCTGCGCTAGCGCTTGCCAAATCATGCCACGTGATCTCCTTTCGCGGACGTATTTTCCATAATACGGATATTGATTTCATGCTGGATTCCCGTCATCATCAGGCGAAGGCGAGGAAACAAGGAAGGTATGGCAAAGGGCCCAAGAAACTGCTTGACGAAGACCGGAGGTTTTTTCAACATAAACTGACAAAACTTTTGCGTGAATTGCAGGAGAATGTCCACCCGTAG	MRMNESSISIVVDGDACPVKKEIAETARAFRVPVLLVSSYDHLLQAEEGVTTIQVDRSDQSADLYIANHISRGDIVVTQDYGLAALALAKSCHVISFRGRIFHNTDIDFMLDSRHHQAKARKQGRYGKGPKKLLDEDRRFFQHKLTKLLRELQENVHP				NA	NA	NA	NA	NA
AK002_01783	1818	dnaG	COG0358	DNA primase	ATGAGTACCGGACAAGGCAATATTCCGGATGATGTCATTGAGGAAGTACTGGCCAAAAGCGATATTGTGGATACGGTCAGCAAATACGTGCATCTTACCAAACAGGGGAAATACCTGAAGGGCTTATGCCCGTTTCACTCAGAGAAGACTCCTTCCTTTACGGTTACACCGGAACGCCAAATCTTTTACTGCTATGGCTGCGGTAAGGGCGGAAACGCCATTAAGTTTAGAATGGAAATCGAAGGATTTTCTTTTCCCGAAGCCGTCAAGACAATGGCAGAAGAGAATGATATCTCGTTGCCGGAAGGTCAAGGAGTTCCCGTAATTCCTCGTAATCCGGAAAAAGAACGTTTGATTGAAGCGTATGAGCTTAGCGCCAAGCTGTACCATTTCCTGCTGAAGAATACGGAACATGGTACGGAAGCCATGAAGTATTTAAGAGCCCGCGGAATGAACGACAAGATGATTGATCAGTTTCAAATCGGTTATGCGCCAGATCGTTGGGACACGCTGGTTCAGTTCCTGACCAAACGCTCCTTTGACTTGAAAGAGATGGAAAGAGGCGGTTTATTATCCGCAAGACATGAACAAGAAGGCTATCTCGACCGTTTTCGCGGACGAATCATGTTTCCGATACATGACCGCAGCGGCAAGGTCATCGCGTTTGCTGGCAGAATACTGGGGGACGGTCAACCGAAGTACCTGAATTCCCCGGAGACACTTCTATTTAATAAGAGCCGCACATTGTACAACCTGCACCAGGCCAAAACATCCATACGCAAATTGCGTCAAATCCTATTATTCGAAGGATACGGCGATGTCATTTCGTCATGGGAAGCAGGACTGCACAACGGCGTGGCAACGATGGGAACCTCTCTAACGGAAAACCAAGTGGCAATCATGAAATCGGTGGCTGAAGAAGTTGTTGTTGTCTATGATGGCGATAAAGCCGGCATGGCCGCCGCGTCAAAAGTCATTCCAATGCTGGAAGGCGTTGGTCTCAAGGTACGAATCGCTTTGGTGAACGAAGGAATGGACCCGGATGATTATATCCGCAAGTTCGGTCCCGAGCGTTTCAGGCATGTGGTGGAAACAGCCGTTTCAACAACAAAATTTAAACTTATATATCTGAAGAAAAACCATATACTGCTAGAAGAAGATGGTAAAATTGCGTACGCCAAAGAGGCACTGCCCATTATCGCCGTACTGAATTCCTCAACCGAACGGGAGGTTTATTTGAGGGAATTATCCTCCGAGCTTCATCTTTCCTACGAAAGTCTTAAGCAGGATTGCAATCTGCTTCGGCAATCGATGCAAAAAAAGATGGGCGATGGGGATAATAAGGAAAAAAGGTGGAATAATGGTAGGCATAAAAAAGGGCGCCAGCCCGCCCCGGCACTTCTGCCTGCTTACCATGCTGCAGAACGGCGGCTGCTGTCGCTGATGCTGCAGGATGCGGAGGCCGCGCGATACGTTGGCGATCGCCTGGGAGAAGCGTTTAATATTGAAGATCATGCGGCAATCGCTGCTTATCTATATGCTTTTTACGCACAGGGCAAATCTCCGGATATCAGCCGTTTCATGTCATCGCTCCAAGACGATCGTTTGGAAATGACGGTCAGCTCGATCATGATGATGGAAGCACCCGCCGAGTGGAACGTTCAAGTGCTCGATGATTGCATACGCGAGGTGCTGAAATTTCCGCAGCAGAGAGAGATCGACCAGAAAAAAGAAGAAATGATAAAAGCGGAGCGCTCAGGTGATTTTTTGCGAGCCGCGCAAATTGCAAGTGAGATTATCGCCCTAGAAAGACAATGA	MSTGQGNIPDDVIEEVLAKSDIVDTVSKYVHLTKQGKYLKGLCPFHSEKTPSFTVTPERQIFYCYGCGKGGNAIKFRMEIEGFSFPEAVKTMAEENDISLPEGQGVPVIPRNPEKERLIEAYELSAKLYHFLLKNTEHGTEAMKYLRARGMNDKMIDQFQIGYAPDRWDTLVQFLTKRSFDLKEMERGGLLSARHEQEGYLDRFRGRIMFPIHDRSGKVIAFAGRILGDGQPKYLNSPETLLFNKSRTLYNLHQAKTSIRKLRQILLFEGYGDVISSWEAGLHNGVATMGTSLTENQVAIMKSVAEEVVVVYDGDKAGMAAASKVIPMLEGVGLKVRIALVNEGMDPDDYIRKFGPERFRHVVETAVSTTKFKLIYLKKNHILLEEDGKIAYAKEALPIIAVLNSSTEREVYLRELSSELHLSYESLKQDCNLLRQSMQKKMGDGDNKEKRWNNGRHKKGRQPAPALLPAYHAAERRLLSLMLQDAEAARYVGDRLGEAFNIEDHAAIAAYLYAFYAQGKSPDISRFMSSLQDDRLEMTVSSIMMMEAPAEWNVQVLDDCIREVLKFPQQREIDQKKEEMIKAERSGDFLRAAQIASEIIALERQ				NA	NA	NA	NA	NA
AK002_01784	1134	sigA_1	COG0568	RNA polymerase sigma factor SigA	ATGATGGCGAATGATCAGCATACTGAACTAGAAACGGAATTTACGCTGGATCAAGTCAAGGATCAGTTGATTGAACAGGGTAAAAAGAGATCCGTATTAAGCTATAAAGATATTATGGAGAAATTGTCGCCATTTGATCAGGACACGGAGCAGATGGAAGAGTTCTATGAGCAGCTGGCCGACCTGGGTATCGATGTGGTAAATGAAAATGACGAAGAGGGCCCTCACCGGCAATCGGGAGATTCCGAATCCCATGATAATGAGGATTTTGGATTTGACGACGATCTTTCACTGCCTCCGGGGATCAAGATTAACGACCCGGTTCGGATGTACCTGAAGGAAATTGGACGGGTTCCGCTGTTGTCCGCGGATGATGAGATTGAGCTAGCCAACCGGATTGAACAGGGAGATGAAGAAGCCAAGCGCCGTCTGGCCGAAGCCAACCTGCGTCTCGTCGTAAGTATTGCGAAGCGTTATGTGGGTCGTGGAATGCTGTTCCTGGATTTGATCCAGGAGGGCAACATGGGTTTGATCAAAGCCGTGGAGAAATTCGATTACAAAAAAGGCTTCAAATTCAGTACGTATGCGACTTGGTGGATTCGCCAAGCGATCACGCGCGCGATCGCGGACCAGGCCCGTACCATCCGTATTCCCGTGCATATGGTAGAGACCATCAACAAGCTGATACGTGTATCCAGACAGCTTCTGCAGGAGCTTGGACGTGAGCCTTCGCCGGAGGAAATTGCTGCAGAGATGGAACTCAGCGTTGAGAAGGTCCGGGAGATCATGAAGATTGCCCAGGAGCCGGTTTCGCTGGAAACGCCGATCGGCGAAGAGGACGATTCCCATCTTGGGGATTTCATCGAGGATCAGGAAGCACTCGCTCCTGCTGACGCGGCTGCCTACGAGCTCCTGAAGGAACAGCTCGAGGACGTGCTGGATACGCTGACAGAGCGCGAGGAGAATGTCCTTCGCCTTCGTTTCGGACTCGATGACGGCCGCACAAGAACGCTGGAAGAGGTCGGCAAAGTATTCGGCGTTACGCGTGAGCGGATACGGCAGATCGAAGCCAAAGCGCTCCGTAAGCTTCGTCACCCGAGCCGCAGCAAACGGTTAAAGGATTTTCTCGAATAG	MMANDQHTELETEFTLDQVKDQLIEQGKKRSVLSYKDIMEKLSPFDQDTEQMEEFYEQLADLGIDVVNENDEEGPHRQSGDSESHDNEDFGFDDDLSLPPGIKINDPVRMYLKEIGRVPLLSADDEIELANRIEQGDEEAKRRLAEANLRLVVSIAKRYVGRGMLFLDLIQEGNMGLIKAVEKFDYKKGFKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINKLIRVSRQLLQELGREPSPEEIAAEMELSVEKVREIMKIAQEPVSLETPIGEEDDSHLGDFIEDQEALAPADAAAYELLKEQLEDVLDTLTEREENVLRLRFGLDDGRTRTLEEVGKVFGVTRERIRQIEAKALRKLRHPSRSKRLKDFLE	PGPT0014685_1148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
AK002_01785	768	trmK	COG2384	tRNA (adenine(22)-N(1))-methyltransferase	GTGTCAGCATTGAAATTATCAAGAAGATTAACGAAAATTCTGGAGAAGATTCCTCGCGGCAGCAAACTTGCAGATATCGGTTCGGATCATGCCTTGCTGCCCGTAGCTGCCGTGGAGTGCGGAGCTGCGGTTCAAGCTGTCGCCGGTGAGGTAAATCCAGGCCCATATGATGCGGCCGTCAAGCAGGTCATCGAATCAGGGATGACCGATGTCATCAGCGTGCGAAAAGGGGACGGATTGAATGTGCTCTCGGCCGGTGAGGCGGACGTTATTACCATTGCCGGCATGGGCGGCAGCCTGATTGCAGCGATTCTGGATCGCGGGATCGAGAAGCTGGCCGGCGTTCGCAGGCTTGTTTTACAGCCGAACGTGGGAGAGGACATTTTGCGCAGATGGCTGCATTCCCATGGCTGGGTGCTGATCGAGGAATGGATCCTGGAGGAAGACGGGAAAATTTACGAGGTGCTGGTCGCCGAGCCTTCGGATACAACCGGCCTGACGAATGAACAGGTATACAAGGAAAGGACGATCGGAGACGGTGTCCGGCTTTCCGCGGACTGGCTGTTCCGTATGGGACCTTGGTTGACGCAATCCCCGAGTCCGGTTTTCCATGATAAGTGGACGTCGGAGATGGAGAAGATGGGGTATATACTTCAGTCGCTATCGCGTTCGGATCTGCCCGCGGCGGCCGATAAGGCGAGCGAGATTCGATCGGATATCGAGTTTATTCAGGAGGTGCTGGCATGCTTGCCAAAGGACAAACCGTAA	MSALKLSRRLTKILEKIPRGSKLADIGSDHALLPVAAVECGAAVQAVAGEVNPGPYDAAVKQVIESGMTDVISVRKGDGLNVLSAGEADVITIAGMGGSLIAAILDRGIEKLAGVRRLVLQPNVGEDILRRWLHSHGWVLIEEWILEEDGKIYEVLVAEPSDTTGLTNEQVYKERTIGDGVRLSADWLFRMGPWLTQSPSPVFHDKWTSEMEKMGYILQSLSRSDLPAAADKASEIRSDIEFIQEVLACLPKDKP				NA	NA	NA	NA	NA
AK002_01786	1116		COG0327	GTP cyclohydrolase 1 type 2	ATGCTTGCCAAAGGACAAACCGTAATTCAATTCATGGAACAACTGGCCCCCAAGCACGTGGCCGAACCCGATGACCGGATCGGGCTCCAGCTTGGAACTTTGCAAAAGGACATCCGCACGGTGCTGATTGCACTGGACGTGAATGACGAAGTGGTGGATGAAGCCATTGAGCTTGGGGCCGACCTGATTATCGCGCATCATGCGATTATCTACCGTCCGCTGAAGCAGCTGCAGACGGATACGCCGATGGGCAAGGTATACGAGAAGCTGATCAAACACGACATCGCGGTCTATGTAAGCCATACGAATCTGGACGTAACCGAGGGCGGCATGAACGATTGGATGGCGGAGGCGCTGGGCATCGAGGACACGTCGCCCATCCATGACATGCATAACGAGCAGCTGTCCAAGCTGGTGGTGTTTGTTCCGAAGAGCCACCATCAAGAGGTGCTGGATGCCGTGCTCGGAGCCGGCGCAGGCTGGATCGGAAATTACAGCCACTGCAGCTTCAATATCGAGGGCTTCGGCACCTTCGTTCCAAGAGAAGGCAGCACCCCTTATCAAGGCAAGGAAGGGAAGATGGAACGGGCAGACGAGGTCCGGATCGAAACGATCGTTCCCCACACGATTAAGAACAAGGTCATCCAGGCTATGCTCAAGGCGCATCCTTATGAAGAGGTTGCCTACGATCTGTATAACATGGACTTGAAGGGAAGATCCCTCGGTCTTGGACGTGTCGGAAAGCTGAAGGAGCCCCTGACGCTGGCTGAGCTGGTCGACGTGGTAAAAGTGAAGCTGGAGGTCCCTCATGTTCGCGTAGTAGGAGAACTCGGCCGTACCCTACGCAAGGCAGCCGTTATAGGCGGATCTGGAGGACGCTACATGATGAAGGCGCTGTTCCGGGGAGCAGACGTGCTGGTAACGGGGGATGTGGATTATCATACGGCACAGGACGCGCTGGCCGCAGGACTTACCATCATTGATCCGGGCCACAATGCCGAGAAGATCATGAAAGTCAAAGTTGCCGAGTGGATGGAGCAGAAGCTGCAGGAGCATAAGTACGAAACCCGGGTCGTGGCTTCCCGCATCAATACGGAGCCGTTCCAGTTTGTTTGA	MLAKGQTVIQFMEQLAPKHVAEPDDRIGLQLGTLQKDIRTVLIALDVNDEVVDEAIELGADLIIAHHAIIYRPLKQLQTDTPMGKVYEKLIKHDIAVYVSHTNLDVTEGGMNDWMAEALGIEDTSPIHDMHNEQLSKLVVFVPKSHHQEVLDAVLGAGAGWIGNYSHCSFNIEGFGTFVPREGSTPYQGKEGKMERADEVRIETIVPHTIKNKVIQAMLKAHPYEEVAYDLYNMDLKGRSLGLGRVGKLKEPLTLAELVDVVKVKLEVPHVRVVGELGRTLRKAAVIGGSGGRYMMKALFRGADVLVTGDVDYHTAQDALAAGLTIIDPGHNAEKIMKVKVAEWMEQKLQEHKYETRVVASRINTEPFQFV				NA	NA	NA	NA	NA
AK002_01788	279			hypothetical protein	ATGTCTTGTCATAACGATTATCCATGTCCTCCGGTGTCCCCGATTGTGTGCGATCCGATTGTAGTCGTGAGAGACCACTATGTACCGCAAATCGTACCGGTTATTCATCCTATAAAAGTGGTGGATAAGATTCACTGCGTCCCGGTAGAAAAACATCTGTACACGTACAGCGAAGAGGAAGTCGTAACCGAAAATGGAGGCTATGGCGGCGTTACGGTATCCGGCAAGCGTTCCAAGAAAGCTACAGTGCGTACCAGCCGTACCCGCCGGAAGAAATAA	MSCHNDYPCPPVSPIVCDPIVVVRDHYVPQIVPVIHPIKVVDKIHCVPVEKHLYTYSEEEVVTENGGYGGVTVSGKRSKKATVRTSRTRRKK	PGPT0025150_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025150-cotD-K06327	NA	NA
AK002_01789	1929			hypothetical protein	GTGAAATCTCGTACCTTTTGGAGCATTATAGGGGCAGCGTCAGTTATTGGCGCGCTTTTGATCTTGCTGTTCATCCCCGGATCGAAACAGCCGGCTCCAACGGCTGAACCGTCACGGCCCTTAAAACCCCAGCAGGAGAACAAGGCCAAGCATTTTACCATGCTGGGCGATATCCAGGCAACGGATCAATTAAACCGTCTCGATGCCAGGGGACACCTCCGCAAAATGCTGAGCAATGACGCTTTGCGCAGTGCGGGGCAAGTCAAGGCGTATACGCAGAAAGAGCAAAAAATGCACAAGCATTTTCAGCAAGTACGCTGGTATAACCTCAAGGAAAATAAAATGGCGGACATTCAAGGCCAGCTTCCCAAAATGAGCAAAACAGACAAAAATCGGATCGCCCATCATTTTCAACTGGCGCAGCAGAAACTGAAACGCGGGGAAGCTTACGATTCCCCCAAATTCAACGCGGCAGGGCAGCCTTATTTTGTTGTGGCCGAACCGTCCAAGGATGGCAGATATGGCGCTGCCGCCCTGGTCAATCAAGCCGTGCTCCAAGAGGTAAGCAATCACCAGAAGCGGAATCTCCGCTTAATTCCGTATCCGAAGGAAGGCAAATTCCGGGTCGAGTCCATCCATGCGGATACCCTCTCCGACATCACCGTCAAAACCGGCCATGATAATGAAAAGGCCAGTCATTTTTACGAAAATGAAATCGTGGTGTCCTTTCAAAATGAACCGTCAAAGCAGCAGCTGCTGGATATCTCCAGGGAAATATCATGCGAAACGCCAAGGAAACTGGGTTATGCCTATGTTTTCCGTTCCAAAGAAATGGATTACCAGAAGCTTCGCTCCTATTTCCAGCAAAAGTGGAAAATCAAATACACGGAGCCTCACTACATTTATTTAACCAATGATCGCAGCCCTCAATCCCGGGTTAACTCGGATTTCACGGATGGGGCGAATGCCCAAGTCAATATTCCGAATGATCTCCTGTTTTCGGAATATCAATGGAATCTGCCCGTCATCGAGACAAACCGGGGCTGGGATCTGTCCAAAGGCAGCGAAGATGTCATCATCGCCGTAATTGACACTGGGGTGGATCTTCAGCATTCCGATTTGGACGGACAATTGGTGGAAGGGTACAACATTGTCGAGAAAGACAAACAGCCGCTGGATGATGTGGGGCACGGGACGCACGTAGCCGGCATCATCGGTGCCCTGGTCAACAACGGCGAAGGCGTTGCGGGCGTTAGCTGGTACAACAAAATCATGCCGGTTAAGGCGCTTGACGGATCCGGATCGGGAACAACCTATGCCGTCGCGGAGGGCATTATTTGGGCCACGGATCACGGAGCCAAGGTGATCAATATGAGTCTTGGCAACTATGCGGACTCCCAGTTCCTGCATGATGCCGTCAAATACGCGTATGATCGCGACGTTGTGCTTGTTGCCGCATCAGGCAACGACAACACGGAGCGTCCCGGCTATCCTGCCGCCTATCCGGAGGTGCTGGCTGTCGCCGCAACGGATTCCAATCAGAAGCGGGCGGAATATTCCAACTACGGCGATTACATCGATGTGGCCGCTCCAGGGACCAATATCGCAAGCACCTTCCCGGGAAATCAATATGCCGCTCTGTCCGGGACCTCCATGGCAAGTCCCCATGCAGCCGCCATGGCGGGGCTTATCCGTTCCCTTAACCCTGACCTGACCAATCAAGAGGTCATGGACGTCATGATCAACCAAGCGGTGGATCTCGGCGACAAGGGAAGGGATAAATATTACGGTCACGGTCAGATCGATATCTTCCAGTCCTTGAAAGCGGTTGGCGCCCCTGAAGTGCCTCTTCAAATGTGGCCCGGCCGTACCCTTCGCAATCTGGAACAAGAGCTCCGCAAATTAAACGGCTCAACGAATAAAAGATAA	MKSRTFWSIIGAASVIGALLILLFIPGSKQPAPTAEPSRPLKPQQENKAKHFTMLGDIQATDQLNRLDARGHLRKMLSNDALRSAGQVKAYTQKEQKMHKHFQQVRWYNLKENKMADIQGQLPKMSKTDKNRIAHHFQLAQQKLKRGEAYDSPKFNAAGQPYFVVAEPSKDGRYGAAALVNQAVLQEVSNHQKRNLRLIPYPKEGKFRVESIHADTLSDITVKTGHDNEKASHFYENEIVVSFQNEPSKQQLLDISREISCETPRKLGYAYVFRSKEMDYQKLRSYFQQKWKIKYTEPHYIYLTNDRSPQSRVNSDFTDGANAQVNIPNDLLFSEYQWNLPVIETNRGWDLSKGSEDVIIAVIDTGVDLQHSDLDGQLVEGYNIVEKDKQPLDDVGHGTHVAGIIGALVNNGEGVAGVSWYNKIMPVKALDGSGSGTTYAVAEGIIWATDHGAKVINMSLGNYADSQFLHDAVKYAYDRDVVLVAASGNDNTERPGYPAAYPEVLAVAATDSNQKRAEYSNYGDYIDVAAPGTNIASTFPGNQYAALSGTSMASPHAAAMAGLIRSLNPDLTNQEVMDVMINQAVDLGDKGRDKYYGHGQIDIFQSLKAVGAPEVPLQMWPGRTLRNLEQELRKLNGSTNKR				NA	NA	NA	NA	NA
AK002_01790	507			hypothetical protein	ATGCCAGCAGACAATCTTCAGAAATTATGCTCAGAATCCAGAGAAAAGTTGAAATCTGCTATTTCGATTATGGAAACGTTTTTGAATGAACATGCTTTATCTCAATTGGTAACGGAACAGGACGAGGAAACCGTTCACTTTTACAAAGGATTTCTGTCGGATGTTCGCCATTTGCTCGTATTTTCTGAAGTTTCCTATGAGAAGCTAGGCGTTGTACAGCGTCGCCCTAATTTTGATATCGATTTTGCCGAGAAGGCTTTGTATAATTTGTATCATCGCTGCGTGAACAGCTTCTTCTATCCCAAAAACGAAAGTTATTCCGAAGATGGTCGTTACGCCTACACCGGACAGGATGCCATCCGTTTCCGGAAGAAGCCGGTACGTCCCGCACGTGACGTCATCATGAACATTACCAAGATTTATGAAGAGCTTCGCGACGATCTTGCTTATTACGAGAGCGATTATTTGACGGAGCGCCGGATGCAATCCGAGAGAAGCCACGCTTAG	MPADNLQKLCSESREKLKSAISIMETFLNEHALSQLVTEQDEETVHFYKGFLSDVRHLLVFSEVSYEKLGVVQRRPNFDIDFAEKALYNLYHRCVNSFFYPKNESYSEDGRYAYTGQDAIRFRKKPVRPARDVIMNITKIYEELRDDLAYYESDYLTERRMQSERSHA				NA	NA	NA	NA	NA
AK002_01791	225			hypothetical protein	ATGGCCAACGAAGCCAAACCATTAGTGAAGTGCAGTGTCAGCAATTGCCATTACTGGGGAGAACAAAATTTATGTCATGCCGAGATGATTATGATCGAGATTGACCGTCATGCGAATGTGAAACTTAACGAAGAGTATGGGGCAGAGCCTTACGTAGACGATCATCAGGATGTTGCTGACAAGTCTTCCGAGACCTGCTGTCTGACCTTCAAGCCGAAGGGCTGA	MANEAKPLVKCSVSNCHYWGEQNLCHAEMIMIEIDRHANVKLNEEYGAEPYVDDHQDVADKSSETCCLTFKPKG				NA	NA	NA	NA	NA
AK002_01792	363			hypothetical protein	ATGGATAAAAAACATCGCAAAAATAAAATGAAGGTTGTTCAAGGCAAGCGAAACCGGGTAGACTTCCCGCGGAAGGACCACCGCGAGGAATATGCAGCCGAGGTGGCTCCGCCAATGGAAACTTCGGTACGCCATGCAGACGAGGATAAGACGGATCTGTCCACCGGCCGGGCGGTCGGATACGTAGGCCTGGTATTAGGAATAGCCTCCTTGTTCATGTGGTCGGTCATTCTCGGACCTATCGCGGCTGTCGTGGGTTATTACGCTTACAGCAAAGGCAGCAGAACGACAGGTGCTTGGTCCATAGGACTCGGCATTCTGGCGACGCTCAGTTATTTTATCTTGATTCCTTTCAGCAGATAA	MDKKHRKNKMKVVQGKRNRVDFPRKDHREEYAAEVAPPMETSVRHADEDKTDLSTGRAVGYVGLVLGIASLFMWSVILGPIAAVVGYYAYSKGSRTTGAWSIGLGILATLSYFILIPFSR				NA	NA	NA	NA	NA
AK002_01793	690	mltF_3		Membrane-bound lytic murein transglycosylase F	ATGCAAATAGATCCGATATCATGGAAGCAAATGACGGATGTATCACAGATGAATACGAATTCCACCGAATCGTCAGCCGGATTTGTCAATGTGCTGAGCAGCCTGCTTAACGAAGAATCCACTTCCAAACCGGTTGAACGTTCCATGACACAGCTGGCGCCCGGCGTCACCTTTAAGGACGGGCTGTTGTGGCAGCAGTTAGGCGTTGTGAATGAGTCCGTATCGTCGAGCACCTCGATAGAAGCAGAGGTCAACGACACCGGGGCAACAAAGCCTACGACTTTTGAGGATTTAATTACGGCGGCAGGGGAACGCTATGGCGTGCCGGTATCGTTGATCAAAGCGGTCATCGACGCGGAATCCTCGTTTAATCCGCATGCGGTCTCGTCTGCAGGTGCCAAGGGACTGATGCAGCTCATGGACGGTACGGCGAGAGGACTCGGGGTAAGCAACCCTTTTGATCCGGCTCAGAACATCGAGGGCGGTACCAAATATTTGTCCAATCTGATCCAACGGTTTGGCGGAGAGATAGCCATGGTGCTTGCTGCCTATAATGCAGGGCCGACACGCGTCGCGGGTTTGGGTGTATCCAGCGATGAAGAGCTGATGTCCGTGGCCCATGAATTGCCCAAGGAAACCCAGGCATACATTAGCAAAGTCATGAACGCCCAGTCGAAATACGCATTGTAG	MQIDPISWKQMTDVSQMNTNSTESSAGFVNVLSSLLNEESTSKPVERSMTQLAPGVTFKDGLLWQQLGVVNESVSSSTSIEAEVNDTGATKPTTFEDLITAAGERYGVPVSLIKAVIDAESSFNPHAVSSAGAKGLMQLMDGTARGLGVSNPFDPAQNIEGGTKYLSNLIQRFGGEIAMVLAAYNAGPTRVAGLGVSSDEELMSVAHELPKETQAYISKVMNAQSKYAL				NA	NA	NA	NA	NA
AK002_01794	1167	iscS_2	COG1104	Cysteine desulfurase IscS	ATGACCTTGATATATTGGGATCACGCTGCAACGACCCCTCCTTTTGATGAAGTAGTGGACACGATGGCGGAAGTCATGAAGCTTCATTATGCTAACCCGTCAGCCCTTCACCGTTCAGGCGAAGCGGCCGCCAAATTGCAGAAAAGGGCAAGAGAGGTGTGCGCAGCCGCGCTGGACGTTCAGCCGGATGAGATCGTATTTACGTCCGGGGCAACCGAGGGCAATAACATGGCGATAAAAGGGGCTGCGATGCAGTACAGCAGCCGGGGCAAGCATATCATCACGACAGGAATCGAGCATCCATCCGTATATGAATGCTGCAGACAGCTGGAAACGCTGGGCTGGGAAGTGACATACCTTCCCGTGGATGCCGAAGGCATGGTGGATCTGGCTGCCTTAAGCGAAGCGGTCCGTAAAGATACGGTGCTGGTCAGCATCATGCATGTGAATAATGAAACGGGGGCCGTACAGCCGCTTGAGGAAGTGGGGCGTATCGTGAAGGAGCGGAACCCGCGCACGCTGCTGCATGTCGATGGCGTACAAGGATTCGGCAAGGTCCCGGTCTCGCTATCCGGGTGGCAGGCCGATTTGTACAGCTTGTCCGCACATAAGTTCAACGGTCCAAGGGGAATGGGGGTGCTGTACATCAGGCGAGGCGTCCAGCTCTTTCCCTTGATATCCGGCGGATCCCAGGAGAGCGGGCATCGGGCGGGCACGGAGAATGTTGCCGGAGCGGTAGCGATGTCTAAGGCCATGCGATTGTCCAGGGAAAATCAGCCTGAGCTTTATGTCAGGATGACGGAGATCAGGGAGCTGCTGTTTCAGGGCATCCGCAAAATTCCGGGCTTGGTGTTAAACAGCAGCGAACAGAGCGCGCCGCACATCATTCATTTTTCGTATCCGGGATTAAAACCCGAGGTGATGGTCCATGCTCTGGAAGAGATGGGCATGCTCGTATCGACCAAATCGGCTTGTTCGTCGAAATTCAGCGAGCCCAGCCGGGTACTGTTAGCGATGGGAAAAGACTTGGAAGCAGCTTCCTCCGGAATTCGTATCAGTCTTGGCAAGGAGCATCAGCTGGGCGATGCAGCGCGGCTGGTCGAGGTATTGGCGAAAGTTTGCGGGAACCTGCGTCCCATCATAGAAAGAGAGGGTAATCGGAGATGA	MTLIYWDHAATTPPFDEVVDTMAEVMKLHYANPSALHRSGEAAAKLQKRAREVCAAALDVQPDEIVFTSGATEGNNMAIKGAAMQYSSRGKHIITTGIEHPSVYECCRQLETLGWEVTYLPVDAEGMVDLAALSEAVRKDTVLVSIMHVNNETGAVQPLEEVGRIVKERNPRTLLHVDGVQGFGKVPVSLSGWQADLYSLSAHKFNGPRGMGVLYIRRGVQLFPLISGGSQESGHRAGTENVAGAVAMSKAMRLSRENQPELYVRMTEIRELLFQGIRKIPGLVLNSSEQSAPHIIHFSYPGLKPEVMVHALEEMGMLVSTKSACSSKFSEPSRVLLAMGKDLEAASSGIRISLGKEHQLGDAARLVEVLAKVCGNLRPIIEREGNRR	PGPT0000065_4867	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
AK002_01795	1239	thiI	COG0301	putative tRNA sulfurtransferase	ATGACTTACGATAAACTGCTGCTTCGCTTTGGCGAGTTTACCCTGAAAGGCAAAAACCGCAACCGGTTCGAGAGATCGGTGCTGAATCATATTCGAAGCGTGCTCAGACCGTATCCAGGCGCGAAAATCATCAAGGAATACGGCCGCCTGTACGTCGAGCTTAACGGAGAGTCTCCCGAGGCGCTGATTCAAGTGCTGAAGAAGGTGTTTGGCCTGGTTTCCATCAGTCCTGTTCGCGTATGCTCTTCGGAACCTGACCGCATTATCGAAACAGCGGTTGATTTTGTGGGGCAGAAGGAACTGGAAGGCACGGTAACCTTCAAGGTCAATGCCAGAAGAGTATGGAAGCAATTCCCTCATTCCTCGCAAGAGATGAATCATTTGGTCGGTTCGCCATTGCTGCGGACCTATCCCCAGCTAAAAGTGAAAGTGAAGCAGCCCGATATGGAGCTGCGCGTGGAAATTCGGGAGAACGAGACGTATTTGTACTATGAAGTGATTCCCGGCGCCGGCGGTTACCCCCTTGGTACGAACGGGAAGGCAATGCTGCTCCTCTCCGGAGGAATTGACAGTCCTGTAGCGGGCTGGTCAGCGATGCGCAGGGGACTTGAACTTGAGTGCGTCCACTTCTACAGCTTCCCCTACACCAGCCAGCTTGCGAAGGAAAAGGTCATGGAGTTAACGAGGCTGTTATCGGGCTATACAGGAAAAATCAAGCTTCACCTGGTGCCGTTTACCGATGTGCAGACCTCCTTTGTCGGTATCGGCCAGGACAATCTGATCATTACTTTTATGCGCAGAGCCATGTTACGGATTGCTTCCTCGCTTGCTGAGCGGGAAGGTGCACTGGCGATCGTGACCGGGGATAGCCTAGGACAAGTGGCCAGCCAAACGCTGCCGAGCATGAATGTGATCGGAAGAGCTACCGAGCTGCCGCTGCTCCGGCCGCTCGTCATGATGGATAAGAACGACATCATCAACATTGCGATGGACATCGGCACATTTGACACGTCGATTCTGCCGTATGAGGATTGCTGCACATTGTTTGTTCCTAAATCGCCGACCACCAATCCGAATCTGAAGATTATCGAGAAGGTGGAGGCTTCGCTTACCGAGCTGCCTGCCTTGATTCAAGCGGCGATTGAAGGCACGGAGACCGTGACCATCACGCCGGACAGTAAGATCGGCGAGCTTGGCGAGAAGCGTGAGGAGCCCGTAGTCAACGAAGACTGGTTCTAA	MTYDKLLLRFGEFTLKGKNRNRFERSVLNHIRSVLRPYPGAKIIKEYGRLYVELNGESPEALIQVLKKVFGLVSISPVRVCSSEPDRIIETAVDFVGQKELEGTVTFKVNARRVWKQFPHSSQEMNHLVGSPLLRTYPQLKVKVKQPDMELRVEIRENETYLYYEVIPGAGGYPLGTNGKAMLLLSGGIDSPVAGWSAMRRGLELECVHFYSFPYTSQLAKEKVMELTRLLSGYTGKIKLHLVPFTDVQTSFVGIGQDNLIITFMRRAMLRIASSLAEREGALAIVTGDSLGQVASQTLPSMNVIGRATELPLLRPLVMMDKNDIINIAMDIGTFDTSILPYEDCCTLFVPKSPTTNPNLKIIEKVEASLTELPALIQAAIEGTETVTITPDSKIGELGEKREEPVVNEDWF	PGPT0008940_855	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008940-thiI-K03151	NA	NA
AK002_01796	693			hypothetical protein	ATGGAAACCACAGCCGCTGAATTTTTTCTTGCATTAATCAACATTGTGTTTTTGGATTTGATATTGGCCGGGGACAACGCCATCGTAATCGGCCTTGCGGCACGCAATCTTCCGAAGGAAACCCAGAAAAAAGCCATTATCTACGGTACGGCAGGTGCTGTAATTCTCCGCATCATAGCCACCATCCTGGTCGTCTGGCTGCTCAACATCCCTTGGCTGCTGCTTGTGGGAGGCGTGCTCCTGATCGGCATTGCTTACAAGCTGTTGACCGACGACAATAATGATCACGGCAATATCAAGGCTGGCAACAACCTGGGTGCGGCCATCCGCACCATCATTGTAGCCGATGCCGCCATGGGTCTGGACAACGTCATTGCCGTTGCCGGCGCGGCCAAACATAACATGATCCTTGTAACCCTGGGCCTGCTCATCAGCGTTCCCATCGTGGTATGGGGCAGCACCCTGTTCATCAAGCTGATCAACCGCTTCCCGTGGATTATCTATGTAGGTTCTGCGGTGCTTGCATATACGGCATCCTCCATGATTACCGAGGAGAAGCATTTTATGGGGTACTTTGAAGGGCACCAGATTATAAAATATCTGTTCATTGCCGCCATCATCGTCGGCGTGCTGACGGCAGGACATCTGAAAAAAAAATCAGCCGCTCGCCGTCAGTCGTCCACTCTGTCCTAG	METTAAEFFLALINIVFLDLILAGDNAIVIGLAARNLPKETQKKAIIYGTAGAVILRIIATILVVWLLNIPWLLLVGGVLLIGIAYKLLTDDNNDHGNIKAGNNLGAAIRTIIVADAAMGLDNVIAVAGAAKHNMILVTLGLLISVPIVVWGSTLFIKLINRFPWIIYVGSAVLAYTASSMITEEKHFMGYFEGHQIIKYLFIAAIIVGVLTAGHLKKKSAARRQSSTLS				NA	NA	NA	NA	NA
AK002_01797	648			hypothetical protein	TTGTTGGGACAAATATTAGTGATCAATCTTGTACTCAGCGGCGACAATGCCTTGGTCATTGCTATGGCCAGCAAGGATCTTCCGGAAATACACCGCAAACGGGCCGTTTGGATCGGGACGGCGGGGGCTGTACTTTTGCGCTGCATTCTGACTTTTGTGGCCGTTCTGCTGTTGAAAATTCCGTTTCTGCAGGCTGGCGGCGCATTGCTGCTCATCTGGATCGCGGTCAAACTGATGATGCAAAAGGAACATGATCCTTCGAGCATGACCAGGGCTTCCACGATATGGGGCGCGGTCAATACGATTCTGATCGCCGATTTTGTCATGAGCCTGGACAATGTCTTGGCAATCGCGGGGCTTGCCAATGGCGATCTCTCACTGATTGTCATCGGGATTATATTAAGCATTCCAATTGTTGTATGGGGAAGCGGGATGATCTCCAGGCTGCTTCAAAAGTTTCCCGTACTGCTCTATATAGGTGCCGGTATTCTAGCTTTTACAGCAGGCGAAATGCTCATACAGGATTCTCGCGTCGGCTTGCTGCTGGCTTATTGGATGCCCTATGCGCACAGCTTGCTGCCGATTATCGTTGCAGGTTTCGTCGTTCTCATCGGCGGATTGCAGACGGTAAGACGGACCGGCACGTAA	MLGQILVINLVLSGDNALVIAMASKDLPEIHRKRAVWIGTAGAVLLRCILTFVAVLLLKIPFLQAGGALLLIWIAVKLMMQKEHDPSSMTRASTIWGAVNTILIADFVMSLDNVLAIAGLANGDLSLIVIGIILSIPIVVWGSGMISRLLQKFPVLLYIGAGILAFTAGEMLIQDSRVGLLLAYWMPYAHSLLPIIVAGFVVLIGGLQTVRRTGT				NA	NA	NA	NA	NA
AK002_01798	513			hypothetical protein	ATGTCCTCCAGAAAAGATTTGGCATTGGGTATTTTCATCGTTGTCGCTGGAGTCGTTATTTTGCTCGGCAAGCTTGGCGTATTCGGATTTCTGGGCAGAACGTTATGGCCGCTCGTCCTGCTGCTGCCGGGTGTTTTTTTGCATATCCTGTTTTTTGGTCGCCGGGCTTCTGCCGCTATACTGATACCGGGCGGTATTCTGACGGTATACGGGCTTCTGTTCCTCATATGCAATATCGGCGGCTGGGGACTAATGGCCTCATTATGGCCTGTTCTCATTCTCGGTGTGGCCGTAGGCCTGTTTGAGTATTATCTGTACGAGAGCCCGCGTCCCGGCGCTGCACTGCCGATTGCGCTTGGTCTGACGGCGCTTTCCGTTGTGATATTCATCTTCACCTGGCTTCAGACAGGAGCGTTCTACATTATTGCGCTGATCTTGATCGCGGCGGGCGCTTGGATGATCTTCGGCCGCAATCGTTCGAGACGCAATAATAAATGGAGCCGAGGCTGGTAA	MSSRKDLALGIFIVVAGVVILLGKLGVFGFLGRTLWPLVLLLPGVFLHILFFGRRASAAILIPGGILTVYGLLFLICNIGGWGLMASLWPVLILGVAVGLFEYYLYESPRPGAALPIALGLTALSVVIFIFTWLQTGAFYIIALILIAAGAWMIFGRNRSRRNNKWSRGW				NA	NA	NA	NA	NA
AK002_01799	1842	typA	COG1217	GTP-binding protein TypA/BipA	ATGCAATCAAGAGATCAGATTCGCAACATTGCCATTATTGCTCACGTTGACCATGGCAAAACAACACTTGTAGACCAACTGCTGCAGCAGTCCGGTATTTTCCGGGAGCATGAGACGCTGCAGGAGCGCGCGATGGACTCCAATGATTTGGAGCGCGAACGCGGTATTACCATCCTAGCCAAAAATACGGCTATTACGTATAAAGATTTCTTGATTAACATTGTGGATACGCCTGGACACGCCGATTTCGGCGGTGAAGTCGAACGTATCATGAAAATGGTCGACGGCGTTCTGCTCGTTGTTGACGCATACGAAGGCTGCATGCCTCAGACCAAGTTCGTTCTGGGCAAAGCGCTTGCCCATAACTTGACGCCAATCGTCGTTGTAAACAAGATCGACCGTCCGGCTGCTCGTCCAGCTGAAGTGATCGATGAAGTGCTTGACCTGTTCATTGAGCTTGGAGCGAACGACGACCAGTTGGACTTCCCCGTAGTATATGCATCTGCCCTAAACGGTACTTCTAGCATGGATCCGGAGAAGCAAGACGATAACATGCTTGCTCTTTACGAAACCATTATCGACCATATCCCTTCCCCTACCGAGAAAGTGGACGAGCCTCTGCAGTTCCTCGTTACCTTGATGGATTACAATGAATATCTGGGCCGTATCGCCGTCGGCCGCGTGAATCGCGGTGTCATTAAGCAAGGCCAACCGGTTGCTGTTATGCTTAGAGACGGTTCCACGAAGAATGCCCGTATCGAGAAGCTGTTCGGTTTCCAAGGACTGAAGCGGATCGAGGTCGCTGAAGCAGGCGCTGGCGACATCGTGGCGATCGCAGGCATCAAAGACATCAACATCGGAGAAACCATTGCGGATCCACAGCATCCGGAAGCCCTCCCGGTTCTCAAAATTGACGAGCCTACCCTGCAAATGACGTTCCTGGTGAACAACAGTCCTTTTGCCGGACGCGAAGGCAAATGGGTGACATCCCGCAAGCTTCGCGACCGTCTCTTTAAAGAACTGGAAACGGACGTCAGCTTGAGAGTGGATGAGACGGACAGCCCGGATGCCTATATCGTTTCGGGACGCGGCGAGCTTCACCTCAGTATCCTGATTGAGAATATGCGTCGTGAAGGCTATGAGCTTCAAGTATCCAAGCCTGAAGTTATCGTAAGAGAAATCGATGGCGTCAGAATGGAGCCGATCGAACGCCTCCTGATTGACGTGCCGGAAGAGAGCATGGGCGCTGTTATGGAAAGCCTTGGAACACGTAAGGCCGAAATGGTCAACATGGTGAACAACGGAAACGGTCAGGTACGTCTGGAATTCCTGATTCCGGCTCGCGGGCTTATCGGCTACCGCACCCATTTCTTGACGCTGACACGCGGCTACGGCATTATGAACCATGCGTTCGACAGCTATGGCCCGCTGGTTGGCGGCCAAGTGGGCGGACGCCATCAAGGCGTGCTGGTTTCCACGGAAAACGGATCTTCGACGTTCTACGGCATGATGTCGGTTGAAGACCGCGGAACCCTGTTCCTGGAACCGGGGACCGAGATTTATGAAGGCATGATCGTCGGGGAGCATACCCGCGACAACGATATCGTCGTCAATATTTGTAAAGAGAAGCAATTGACCAACGTTCGTTCGGCAACGAAGGACGATACGGTGAAATTGAAAACACCGGTCATCTTCTCGCTTGAGCAAGCTCTGGAGTACCTGAACGACGACGAGTATTGCGAGATTACGCCGAAGTCCGTTCGTCTCCGCAAGAAGATTTTGAACAAGAGTGAGCGCGAACGCGCAGAAAAACATCGTAAAATGGCGCAAGCAAATCTATAA	MQSRDQIRNIAIIAHVDHGKTTLVDQLLQQSGIFREHETLQERAMDSNDLERERGITILAKNTAITYKDFLINIVDTPGHADFGGEVERIMKMVDGVLLVVDAYEGCMPQTKFVLGKALAHNLTPIVVVNKIDRPAARPAEVIDEVLDLFIELGANDDQLDFPVVYASALNGTSSMDPEKQDDNMLALYETIIDHIPSPTEKVDEPLQFLVTLMDYNEYLGRIAVGRVNRGVIKQGQPVAVMLRDGSTKNARIEKLFGFQGLKRIEVAEAGAGDIVAIAGIKDINIGETIADPQHPEALPVLKIDEPTLQMTFLVNNSPFAGREGKWVTSRKLRDRLFKELETDVSLRVDETDSPDAYIVSGRGELHLSILIENMRREGYELQVSKPEVIVREIDGVRMEPIERLLIDVPEESMGAVMESLGTRKAEMVNMVNNGNGQVRLEFLIPARGLIGYRTHFLTLTRGYGIMNHAFDSYGPLVGGQVGGRHQGVLVSTENGSSTFYGMMSVEDRGTLFLEPGTEIYEGMIVGEHTRDNDIVVNICKEKQLTNVRSATKDDTVKLKTPVIFSLEQALEYLNDDEYCEITPKSVRLRKKILNKSERERAEKHRKMAQANL	PGPT0023720_1482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
AK002_01800	294			hypothetical protein	ATGCAGGAATGGTTTGCCGCGCACCCGCTCGTTTCGTATATCGTCATTTTTGTGCTGATCACCTACGTTTACAACAAGGTATTCCGAGTGAAGCAGAAGCTTCCTCTCTTGAAGGAGATTCTCCTGTATATCTTGATGGCCCTGGGTTCGGCGATACTGCTTGTGTTTCAGATCGATAAGCTGCCGATTATCCAATGCTTGTTGGTCGCCGTGGCGTTGATGCTGATGGTGCGTATTCGATACTTTGTTGAAGATCGTCAGAAGAAGAAGGCTCAAGCCGAGCCGAAGTCATAA	MQEWFAAHPLVSYIVIFVLITYVYNKVFRVKQKLPLLKEILLYILMALGSAILLVFQIDKLPIIQCLLVAVALMLMVRIRYFVEDRQKKKAQAEPKS				NA	NA	NA	NA	NA
AK002_01801	1107	tagU_3		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAATCCTACTCATACCAATCTCCCTCCAAGAGCCAAAAGTGGGGGGAAGGGCAAGAAACAGCCAGTTCCTAAAAAGAAGAAAAGCCCATGGAAATCATTCTTTAAATTTATATTAATCGTACTGCTAATTGCAGTATTGACTGCCGCAGGTTACGCCGGGTACCTGTTCTTCAAGGGGAATGAGGTTATCGAGAAAAGCGGGATCGACAAACCGGTAGCTCCGGGCCATTCTGCAAAAGAAAAACCGATTACCGTGCTGCTCTTAGGAACCGATCATCGTCCGGAGACAGGGACGTATCTGACGGACGTGGTGATGGTCGCCTCCATGCATCCGGAAACCAATACGTCGACGCTGGTTTCTCTACCCCGGGATACGCTGATTGAACTTGAAGGATACAAGGCGACGAAGCTGAATGCTTATTACCCGAGGTTTAAAGCGGCCTACAATGCTGCCGAGAAAAAGGAACCGGGGAGCGGCATTCAGGCTGAAGAAGAAATGAAAGTCATGATGAGCAAATATCTTGGCGTTAATATCGACTATGTAACGGTTATCGATTTCCAGGGATTCCGTGACGTTGTGGACACCTTTGGCGGCGTAGATGTCAATGTTCAATATAATATGTGTTACCGCGATACTGCCGACGGGACCGACATTAATCTCACTGTGGGTCCTCAGAAGCTGGATGGCAAGAAGGCGCTGGATTATGTTCGTTACCGTAAATCCAGTAACAGCTGTTCGCCGAGAACGAAGGAGTCAAGCGATTTTGAGCGTAATGCCCGCCAAAGCGAAGTATTGCATTCCTTGCTCGACAAGATGAAATCGCTCGGAGGCGTTGCGAAGGTGGGAAATGCGCTGGATGCGGTCAGCGACAACATGACCACCGATTTCGAGCAGGAGCAGATCCGGAATTTGATTGCGACTTATTATGATATCGGAAAAGATGATGTGAAATTCATGCCGGTTACAGGCAATTGGAAGAGCCCTTATGTATATATTAGCAGCAGCGAGCTGGATGCAGCCAAACAAGCGCTGCAAGATGAGCTAGCAGGGAAACACAACGCCGGCGATCAAGGAACAGAAGCGGATTCTGCAACGGCTCCGTGA	MNPTHTNLPPRAKSGGKGKKQPVPKKKKSPWKSFFKFILIVLLIAVLTAAGYAGYLFFKGNEVIEKSGIDKPVAPGHSAKEKPITVLLLGTDHRPETGTYLTDVVMVASMHPETNTSTLVSLPRDTLIELEGYKATKLNAYYPRFKAAYNAAEKKEPGSGIQAEEEMKVMMSKYLGVNIDYVTVIDFQGFRDVVDTFGGVDVNVQYNMCYRDTADGTDINLTVGPQKLDGKKALDYVRYRKSSNSCSPRTKESSDFERNARQSEVLHSLLDKMKSLGGVAKVGNALDAVSDNMTTDFEQEQIRNLIATYYDIGKDDVKFMPVTGNWKSPYVYISSSELDAAKQALQDELAGKHNAGDQGTEADSATAP	PGPT0023440_1700	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK002_01802	279			hypothetical protein	ATGTCCTACCTCATGATGCATACGACACACCCATTGATCCATAGTCGGCAGACGGGTTGCCCTGCCCCTGCATCGGTGCGGGCGGATTCCATTAGGGAATGGGAATCCTTCGGATGTCGTCCTTCTGATTCCATGTCGCTCATGACGGGTTCTTTCGACATGGGTGTCCATGTTGCACCGAATAAGCAGTCATACTCCAAATATGTTAACGGTCATGTCCCTAGCGAAGCCGTTATGTCGGTTAGTGGTGTTGTTATGACCTTAAAAAAAGCCCAGTGA	MSYLMMHTTHPLIHSRQTGCPAPASVRADSIREWESFGCRPSDSMSLMTGSFDMGVHVAPNKQSYSKYVNGHVPSEAVMSVSGVVMTLKKAQ				NA	NA	NA	NA	NA
AK002_01803	699			hypothetical protein	ATGAGAGCTGCTCTATCCATCATGCTGGCGGTGTTGTTGCTCGCAGGCTGCGGGACCGCCAATAACCATGCATCACCCTCTCCTCGTAATCAAACCGATGGAACCACTGCTAACAGTGTTCGCAACATGAATGGGAACAGAGGTTATACCACCAACAATGTAGACGGTTGGACACCGGATAACCCCAATACGGGGCGTGTCGGTAACGTAAATGATAACAACGGACGAGTTGACGCCACAACCGCAAATCACCTGAAATCACTGGCTGAGAGCGTGCCTGGCGTTAAAAACGCGAACTGTGTTGTCATGGGCAAAACGGCTGTCGTCGGGCTGAATGTAGATGGAAATTTAGATCGTGCAGAAGTTGGAACCATTAAATACACGGTCGCGGAAGCCCTTCAAACCGATCCGGCAGGCGCCAATGCACTGGTTACCGCCGATTTGGACGTAGCCAACCGGATTGCCGACCTTGGTCGGCACATTCAGGAGGGACATCCTGTTTCCGGACTTGCCAGTGAACTTGCAGACATCGTTGGCCGTATCATCCCTCAATTGCCGAAAGACGTAACGCCGCGAGACGGGAATGCACAGCGAAACGGGAATGGGCAGCAAGACGGAAATGTGCAGCAAAACGGTGCTAAAACAGTAAAACCAAATCATCGCAGTCATGCACCGGCCCATCCACAAAACGGGAAATAA	MRAALSIMLAVLLLAGCGTANNHASPSPRNQTDGTTANSVRNMNGNRGYTTNNVDGWTPDNPNTGRVGNVNDNNGRVDATTANHLKSLAESVPGVKNANCVVMGKTAVVGLNVDGNLDRAEVGTIKYTVAEALQTDPAGANALVTADLDVANRIADLGRHIQEGHPVSGLASELADIVGRIIPQLPKDVTPRDGNAQRNGNGQQDGNVQQNGAKTVKPNHRSHAPAHPQNGK				NA	NA	NA	NA	NA
AK002_01804	1332			hypothetical protein	ATGAAAAAAATATTTGTACTGGATACGAACGTACTGCTGCATGATCCTCAATCGATTTATGCATTCGAGGAGCATGAAGTCATCATTCCTGCGGTGGTTCTTGAAGAGATTGATTCCAAGAAGCGAAATGCCGATGAAATCGGCCGCAATGCCCGTATGGTCTCCCGATTGCTTGATGGGCTTAGAGAACAAGGTCATCTTCACGACGGAGTTCTTCTGGAGAACGGCGGGACGTTGAAGGTTGAGCTTAATCATCGCAGCTTCGTCAAGGTACAGGAGTTATTTAGCGAAGCATCGAACGACAATCGTATTTTGGCTGTCGCGTTAAATTATAAATTGGAGGAGGAGCCGAAGGAGGACGGAAGACCCGTTGTTCTTGTCAGCAAGGATGTCCTCGTTCGAATAAAAGCGGATGTGCTTGGGCTAACGACACAGGATTATCTATCTGACCGCACGGCGGATCCAAGCGAATTATATCCGGGATTCTCAACGATCAAGGTGCATCCTTCCGTGATCGATGAATTCTACAGCTATCGTTATTTGCCGATTAAACCACTTCAACTCTCTTATCCGCTTTATCCGCACGAATTCGTTATTCTGAAGGACGAGATGGGATCCGGCAAGTCTGCCCTGCTTCATGTGAATGAGGATGCAACCCGACTAGAGCCCCTTCATCTAAGCAACGAGCCCGTATGGGGCATCAGTGCCCGGAATGCTCAACAGCGCATGGCGATTGAGCTTCTCCTGAATGACGACATTCCGCTGGTTACCATTACGGGAAAAGCCGGTACGGGCAAAACCTTGCTGGCATTGGCAGCAGGACTATCCAAGGTGGAGGATGAGCACAAATACAAAAAACTGCTCATTGCGCGTCCGGTCGTTCCGATGGGGAAAGATATCGGATATTTGCCGGGAGAAAAGGAAGAGAAGCTGAGACCGTGGATGCAGCCGATCTATGACAACCTGGAGTATTTGTTCGACACCAAGAAATCCGGCGATATCGATAAAATATTGATGGGTCTGGGAAGCATCCAGGTAGAAGCACTGACTTACATCCGCGGTCGCTCCATTCCAGGTCAGTTCATCATCGTTGACGAGGCTCAGAACTTATCACGCCATGAGGTCAAGACGATTGTTTCCCGGGCGGGAGAAGGGAGCAAGGTGATACTGATGGGGGACCCCGAACAGATTGACCATCCCTACCTGGATGCCGTTAGCAATGGGCTGACCTATGTGGTTGAACGATTTAAGCAGGAAGGTTTAAGCGGACATATTACGCTGACTAAAGGGGAGCGTTCCAAGCTGGCACAGCTGGCGGCCGATTTGCTGTAG	MKKIFVLDTNVLLHDPQSIYAFEEHEVIIPAVVLEEIDSKKRNADEIGRNARMVSRLLDGLREQGHLHDGVLLENGGTLKVELNHRSFVKVQELFSEASNDNRILAVALNYKLEEEPKEDGRPVVLVSKDVLVRIKADVLGLTTQDYLSDRTADPSELYPGFSTIKVHPSVIDEFYSYRYLPIKPLQLSYPLYPHEFVILKDEMGSGKSALLHVNEDATRLEPLHLSNEPVWGISARNAQQRMAIELLLNDDIPLVTITGKAGTGKTLLALAAGLSKVEDEHKYKKLLIARPVVPMGKDIGYLPGEKEEKLRPWMQPIYDNLEYLFDTKKSGDIDKILMGLGSIQVEALTYIRGRSIPGQFIIVDEAQNLSRHEVKTIVSRAGEGSKVILMGDPEQIDHPYLDAVSNGLTYVVERFKQEGLSGHITLTKGERSKLAQLAADLL				NA	NA	NA	NA	NA
AK002_01805	1251			hypothetical protein	ATGAAGCGGAAGAAATATTGGTTCTTATTCGCCATTTTATTATTATCCTTATCCAGTTTATCTCCCAGCTTTGACTTCACTCATCATACGAGACGGGAACCGCCCGGGGATGAACCGATTCCTCCGCAGCAGAGGCCGGAGGTACCAGAGAGCGACCTGGGCCCCATCAAGGTCGGCGTCCATTTGAATCCGGACGAGCTGAGGCACCTGAAAGCGCTCAACGAACGCTTTATGGAAGAGACCGGAGCCGAGATCGAAATCACGCCTCTAGAAACGGCCGATACGGAGAAAGAATCGTTTTTGCTTCATATGTCCCTTGGCGAAGGACCGGACATTATATTAACGGATTCTCATTACATTAAAGCGCTTGCAATGACGGGATATCTTCTGCCCGTCGATGCATCACAGACAACGGTGACCGGCGAGGATACCCTGAATGGTCTTCTGCCGCAGCTGCAATGGAACGGGTATCAATGGGGAATGCCTTTTGATATAGATCCCTATATCGTGACCTGGCAGACCAAAGGGAAGGACGGCGCCTCATTTAACATGCCGGAGAGCCGACAGGCTTGGCAGGAATATATGGAGCTTCATAAGACGAGCCCCGTCCTCTCATTTGATCCGAAGGATCCTTACGCATTCGGCGCGGCGGTGCATTTGCTTGAAGGCGATCCTTCCAAGCCGGATCAAGAAGTACTTGAAATGTTAATCCGCAATCACCTTGGAACGCCGGAATCGTCCCGCGGCGCAGCAGATACGATAGAAACGGGGCAGGAACCTTCCTCTGGCACAGAGGAGGCTTCCGTGGCCGTTGAGCCGTATTCGAGCTTCGCGGACCGAGAGGTAAGCGGATTGTCTTCCGCATTGGCCATGGGAAAGAGTCATTTGAATACGCCGGTTGTGCGAGCGAGAAGTTTTGCGGTAGCCGCACAGACGGAGTCGTCTGCGCTTGCCATGAAATGGATTACGTATATGACAAGCAAAGAGATGCAGCAGGAATGGAGCAAAACGTCAGGAACACTCCCCGTCGTACCCGAAATGTATGTCACGGGCACGAACCTGAGGGATCGGGGCATTTGGCAAAAAGCGGCGGTCCCCGCCCAGGTGCTGCTCTCCCGGAATGAGCCGGCCGCCTTGGATTTTGGCGATTCAGAAGGTTTCCAGACTTATAGCGAATCAGCATATCGATTGCTGCATGGCGAAATAACGGTTGAAGAATATATGAAATTGTACACGCCTGCTCAACCATAA	MKRKKYWFLFAILLLSLSSLSPSFDFTHHTRREPPGDEPIPPQQRPEVPESDLGPIKVGVHLNPDELRHLKALNERFMEETGAEIEITPLETADTEKESFLLHMSLGEGPDIILTDSHYIKALAMTGYLLPVDASQTTVTGEDTLNGLLPQLQWNGYQWGMPFDIDPYIVTWQTKGKDGASFNMPESRQAWQEYMELHKTSPVLSFDPKDPYAFGAAVHLLEGDPSKPDQEVLEMLIRNHLGTPESSRGAADTIETGQEPSSGTEEASVAVEPYSSFADREVSGLSSALAMGKSHLNTPVVRARSFAVAAQTESSALAMKWITYMTSKEMQQEWSKTSGTLPVVPEMYVTGTNLRDRGIWQKAAVPAQVLLSRNEPAALDFGDSEGFQTYSESAYRLLHGEITVEEYMKLYTPAQP				NA	NA	NA	NA	NA
AK002_01806	1113			hypothetical protein	TTGAAAGTACGAGTAAAATACCCACTCCTCCCGGTCTTGCTGTGTTTAACCCTGTTCTTCTGCTTCATTGGTGCTCCCGCTGCGGTTTATTCCCAGCAGGATGTCAGCCCCGTCATGCCTGACTCGGAAGAGGCGCGCAAGCTTCTGGAGGACAGCCTCTCCATCGTGGAAATCGATCATGAAATCGAACGGATAACCAAACGCATGGAGGAATTGCAGACTCTTCAGAGCGAGCTGCAAACCCAAATCCAGGATATGGGCATGCGTATTGAAGACCGGCGAGATCGGGCGGCTGCCGTCCTTCGGTCATATTACATGGGTGAGCGGGATAACTTATTTTTCATGCTGCTGTCTGCTAAAGACTTAGCCGGCTTTTTCCGCGTCATGGACTTTTACGATATTATTATTCAGAACGACCGGGATACGCTTACCGTGTATAACAATCAGTACCGCTCCCTTGCTTCCGCTCAGGCTGAAGCAGCACGGAATGCGTCCCGGCTCGCCGAAGTAAAGGACAGCCTGGTGAAGCAGCGCGAACGGGTGCTTGCGCTTGAGCAGCAGGTAGATGGAGCACTCACAGCCAGCAGCAATCCGGATGCCATGAAGAGGCTGATCGAGGAGTTTACCCTCTATTGGGAGAATGTAGGGCTGTACGAGGTGAAGCGTCATTTCCAGGCCCTGGCTAGCGCCATGGAAAATCTGCCGTCGTTCGTCCAAGGCAGCAAGAATATGCTGAAGACCAACGGAAAGGTATATACCATCGACATCCATGAAGATGATCTCAACACGTTTTTAAGATCCGAAGACGAAATCTTTAATAGCTTTGCGTTTCATTTTGACGATGGAAAAGTAATAGCTTCCGGCGAAAGCGGAAATTTGTCGCTGCTGATTGAAGGGAAATACACCGTCATTAACGAACCGGAGAATGCCATTATGTTTGAAGTCGACAAACTTGTGTTCAACCGTCTGGAATTGCCCGACACAACGCGCAGAGCGCTGCAGGAAGAATTCGACATGAACTTTTATCCCAAGCAGCTGGTTTCTTTCTTGAAAGCGACGGAGGTTGCAAGCGATGATCAACGATTAGTGGTCAAAATGGAGCTGGATCTATAG	MKVRVKYPLLPVLLCLTLFFCFIGAPAAVYSQQDVSPVMPDSEEARKLLEDSLSIVEIDHEIERITKRMEELQTLQSELQTQIQDMGMRIEDRRDRAAAVLRSYYMGERDNLFFMLLSAKDLAGFFRVMDFYDIIIQNDRDTLTVYNNQYRSLASAQAEAARNASRLAEVKDSLVKQRERVLALEQQVDGALTASSNPDAMKRLIEEFTLYWENVGLYEVKRHFQALASAMENLPSFVQGSKNMLKTNGKVYTIDIHEDDLNTFLRSEDEIFNSFAFHFDDGKVIASGESGNLSLLIEGKYTVINEPENAIMFEVDKLVFNRLELPDTTRRALQEEFDMNFYPKQLVSFLKATEVASDDQRLVVKMELDL	PGPT0023855_2070	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
AK002_01807	237			hypothetical protein	GTGGCACGGATGTTTCGAGTCCTTGGCTTTTTCACCCTGACCATCGGGTTGATGGCCTTTGCCGGAGATCATATTGAAATGGCACTGCTTTTCTTCCTGCAGACCGCATTTTTCGTGATCCTGGGATATTTGAAATTCACGGAGAGAACCTATATTCTTCTCTTCTGGGCTTATATGATCGTGACCTTCACAGGCTTTAGCTACTGGACGGTCTTCATTATGGGCAAACCACTCTAA	MARMFRVLGFFTLTIGLMAFAGDHIEMALLFFLQTAFFVILGYLKFTERTYILLFWAYMIVTFTGFSYWTVFIMGKPL				NA	NA	NA	NA	NA
AK002_01808	651	rsfA		Prespore-specific transcriptional regulator RsfA	ATGTCAGCAGTGAGACAGGATGCATGGAGCGCAGAGGACGACCTAATACTGGCGGAGGTGACCCTGCGTCATATTCGTGAGGGCAGCACCCAATTGGCTGCCTTTGAGGAAGTCGGAGAAAGAATAGGCCGGACATCGGCGGCTTGCGGATTTCGTTGGAACAGCTGTGTTCGCAAGAAATATGAGGATGCTATCAGCTTGGCGAAATCTCAGCGTCAAAAGAGAAGTTATTATAAAAAACAGCCTTCCGCCAGCGGACCACAAGTTGCAGGATTGGCAGCTCCGGAAATGGAGCACGATGTTTATAAACATGATGGCGCAAGCGAAGAGACGTTGTCCATCGATGCGGTTATCCGTTTCCTTCGCCAGTGGAAGGGCGGGCTGCAGGAAAGTTCACGCCAGTATAAACTGCTTGAGAAGAATTTGCGTGAAAAAGAGGATGAGCTTGCAAGGCTCCGCAGCGAGAATCAACGGTTGTTGAAGGAAGTAAGCGAAGTGAAAACCGACTACCATGTGGTCAATGACGATTATAAGGCACTGATTCAGATTATGGATCGGGCACGGAGACTGGCTTTTTTGAATGAAGAGGACGAGGAACTGAAGACCCGCTTCAAAATGGATGCCAACGGTAATCTGGAACGAATCGAATAG	MSAVRQDAWSAEDDLILAEVTLRHIREGSTQLAAFEEVGERIGRTSAACGFRWNSCVRKKYEDAISLAKSQRQKRSYYKKQPSASGPQVAGLAAPEMEHDVYKHDGASEETLSIDAVIRFLRQWKGGLQESSRQYKLLEKNLREKEDELARLRSENQRLLKEVSEVKTDYHVVNDDYKALIQIMDRARRLAFLNEEDEELKTRFKMDANGNLERIE				NA	NA	NA	NA	NA
AK002_01809	960	panE	COG1893	2-dehydropantoate 2-reductase	ATGAATATACATATCATCGGGGCCGGATCTTTGGGCCTGTTATATGCCGGCAAACTTGCGGGCTCAGGCTGCAGAGTCACGGTATGGTGCCGCAGCGAGGAGCAGGCGAGCAAGCTCCGGACTACCGGCATCACGATCGAGAAGACGGAGGGGAAGCCTCAGACCGTTGCCCCCAATGCTTTTTCGGTCCGTGCATGGGATGCCTTTGCCGAGTCGGGAGCGGCAGCGGATGCGGATTATCTCTTTCTCATGTTGAAGCAGCAAGGGATCGAAGAGATGGCCAGGGAAGTGCTGGCACCATTCGGACACCATCGCCGCAATCTCATATGCTTTCAGAACGGTACAGGCCATTTGGAACGGCTTCGGGAGCTGCTGCCCATGTGGAAGCTCTATGCAGCGATTACCACGGAAGGGGCCAAGCGTACAAGCAGTTCCTCGGTTCTGCACGCCGGCCATGGAACGACGACAATCGGCAAAATGATGCCTGCTGCGAGCTTTATAGGGGCTACATCCCATGAAGATCATGATATTGAGCTGGTTAAAGAGCTGAATAGAGCAGGATTTGAAGCTTTATTGTCGAATGAGATGGATGAGATGATCTATCGTAAACTGCTGATGAATGCGGTCATTAACCCTTTGACTGCATTGTGGCGGATTCCTAACGGAGCGCTGTTATCCTCCCCTGAACGGGCCGGGCTTATGAAGCAGCTGTATCATGAAGGAATCCTTGTATATGAAGCTGCCGGAATTCCGTATGGAAACAAGCTGTGGGAATGGATTGTAAGCGTCTGCCAATCCACTTCAGGTAACACGTCCTCCATGCTAAAGGACGTGATGGACGGCCGAGCGACGGAAGTTGCCTGGATTAACGGAAGCATTGTCCAGCTTGGACACAAATATGGCGTTTCAGTGCCAAAACACGAGCTGATCACGCAGCTCATCGAGGGGATGAATCTATAG	MNIHIIGAGSLGLLYAGKLAGSGCRVTVWCRSEEQASKLRTTGITIEKTEGKPQTVAPNAFSVRAWDAFAESGAAADADYLFLMLKQQGIEEMAREVLAPFGHHRRNLICFQNGTGHLERLRELLPMWKLYAAITTEGAKRTSSSSVLHAGHGTTTIGKMMPAASFIGATSHEDHDIELVKELNRAGFEALLSNEMDEMIYRKLLMNAVINPLTALWRIPNGALLSSPERAGLMKQLYHEGILVYEAAGIPYGNKLWEWIVSVCQSTSGNTSSMLKDVMDGRATEVAWINGSIVQLGHKYGVSVPKHELITQLIEGMNL	PGPT0008745_1841	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
AK002_01810	387			hypothetical protein	ATGGGGTTTTTACAGGGGCTGTTTAACACATTGAGTCTTTTTCCGTTCATTCCGTTTCTGATGGTGTATATCATAGTGCTCCAAAGAAATAAGAATCGAAAACAAGCGCTGGAGCTGGCCATGGATATCACCACCTTTTTTATGCTGTTCTCGGTTTCCGCCTTGTTTAATACTACGTTCCAGACCAAATTCGGATTTTATCTGATACTCCTGATGCTGCTTATCGCGGCGGGGCTGATCGGGAGCGCGCAAAACCGCTGGAAAGGCAAGGTAAACGGAAAAAGGCTGCTGCGGGCCGTGTGGAGGCTCGGCTTTGTGACAATGAGTTTTGGTTACATAGTTTTTACATTTTTTGGTCTACTCTCCTACATAATTAAGATGATGTAA	MGFLQGLFNTLSLFPFIPFLMVYIIVLQRNKNRKQALELAMDITTFFMLFSVSALFNTTFQTKFGFYLILLMLLIAAGLIGSAQNRWKGKVNGKRLLRAVWRLGFVTMSFGYIVFTFFGLLSYIIKMM				NA	NA	NA	NA	NA
AK002_01811	1659	oppA	COG4166	Oligopeptide-binding protein OppA	ATGAAGAAACAAAAGAAACTACTGCTTCTCATGACGCTAATTCTTGCTTTCAGCTCGGTTTTGGCAGCGTGTGGAGCTGATAAGAATGAAGGTGCAAACGGCGGAACAGCGGACAAGCCTAAAGAGCAAGTCTTCCGCATGAACCTTGCTTCCGACCCTCCAACATTGGATCCGGGATTGTCTCAGGACAATACGTCGAATACGGTAATCAATGCTGTGTTTGAAGGTCTGGTTCGTAAAGGTGCAGATGGTTCCGAAGAGCCGGGCGTAGCCAAAGAATGGAAAATTTCTGAAGATGGCCTCAAATATGTCTTCACGCTTCGCGAGGATGCCAAATGGAGCAACGGCGATTCTGTAACGGCTAAAGATTTCGAGTATGCATGGAAACGCGTACTTGATCCGAACTTTACGCCAGCATCGCCTTATGCATATCAGCTGTATTACGTGAAAAACGCTGAAGCGTACAACCTCGGCGAAATTAAAGACGCTAATGAAGTTGGCGTAAAAGCAACCGATGATTACACGCTGGAAGTAACGCTGGAAAACCCGACGCCATACTTCCTAAGCTTGATGTCTTTCCAAACCTACTTCCCGGTTCACAGCTCCGTTGAAGGTAATGCTTCTTGGGCAACGAAACCGGATACCTTGATTGGCAATGGTCCGTTCAAAGTTTCACAAATGACGAAGGGTCAAAAAATCGAGCTTGTGAAAAACGACCAATATTGGGATAAGGACTCCATCAAACTTGAGAAAGTTCAAATGAGCATCGTGAACAGCTCTGCTACAGAACTTTCAAGCTATCGCAATGACGAACTGGATTATGCAGGACATCCAACAGGCAATATTCCGACGGATCAACTTACGGCGATCAAAAAGGAACTGGGCGATGAATTGATGATCAAAGGCATTTCGTCGACCTATTTCTATATCTTTAACACAACTCAAGAGCCATTTGACAATGTGAACATCCGTAAAGCCTTCTCGATGGCGATTGACCGTAAGGCTATCGTAGAGAAAATTACGCAGGGCGGACAACTTCCTGCATTCGGTTTTGTTCCTCCGGGCATCAAGGGTGAGTCCGATGAGTACCGTAAAGAGGTGCCGGATACTTACTTCGAAGAAAATCTTGAAGAAGCTAAGAAACTGCTCGAGCAAGGTATGAAGGAAAAAGGCTATACCACGTTGCCTGAAGTTACTCTGATCCATAACTCCGATGACAACCACAAGAAAATTGCGCTTGCCATCGCGGATATGTGGAAGAACAATCTCGGCGTTACTGTTAAGGTTCAAAACCAAGAGTGGGGCGTATTCCTGAAGAACCGTACGGATCTCAACTATCAAGTTGCACGTTCCGGCTGGGGAGCAGACTATAACGACCCGATGACTTATATCGACATGTGGACATCCAATGGCGGAAACAACGACACTGGATTCAAGAGCGAAGAATATGACAAACTTGTGAAGGATGCCTATGCGACTAGCGATAACGCCAAGCGCATGGAGCTGATGTCCCAAGCGGAGAAAATTCTCGTTCAGGACAATCAAGTTGTTATGCCGATCTACTACTATTCCAGTGTGTCCCTGGTTAAACCATGGGTGAAGAACCTTCATCTGGATTATAAAGGTGATATCGATTTCACACGTGCATATATCGAGTAG	MKKQKKLLLLMTLILAFSSVLAACGADKNEGANGGTADKPKEQVFRMNLASDPPTLDPGLSQDNTSNTVINAVFEGLVRKGADGSEEPGVAKEWKISEDGLKYVFTLREDAKWSNGDSVTAKDFEYAWKRVLDPNFTPASPYAYQLYYVKNAEAYNLGEIKDANEVGVKATDDYTLEVTLENPTPYFLSLMSFQTYFPVHSSVEGNASWATKPDTLIGNGPFKVSQMTKGQKIELVKNDQYWDKDSIKLEKVQMSIVNSSATELSSYRNDELDYAGHPTGNIPTDQLTAIKKELGDELMIKGISSTYFYIFNTTQEPFDNVNIRKAFSMAIDRKAIVEKITQGGQLPAFGFVPPGIKGESDEYRKEVPDTYFEENLEEAKKLLEQGMKEKGYTTLPEVTLIHNSDDNHKKIALAIADMWKNNLGVTVKVQNQEWGVFLKNRTDLNYQVARSGWGADYNDPMTYIDMWTSNGGNNDTGFKSEEYDKLVKDAYATSDNAKRMELMSQAEKILVQDNQVVMPIYYYSSVSLVKPWVKNLHLDYKGDIDFTRAYIE	PGPT0021015_1453	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021015-oppA|mppA-K15580	NA	NA
AK002_01812	933	oppB	COG0601	Oligopeptide transport system permease protein OppB	ATGCTGAGGTATGTGGCGAGTAAGTTTTTTTATATGCTTGTATCGTTGTTCATACTGATCTCAGCCACTTTTTTTCTTATGAAAGCCATACCGGGCGATCCGTTTATGGGAGAGAAAAAGCCATCGCCTGAAATTCTGGCGAGGCTGATGGAGCAGTATGATTTGGATAAACCGGTATTTCAGCAGTATACGAAATACTTGGGCAATATCATCCAGGGTGACTTTGGCTTGTCCATGAAGAAACAGGGACAATCCGTAACAGATATTATTGTAGACACGTTCGGCCCGTCACTACGTTTGGGTCTTATCGCGATTGTGGTATCCGTCATCGTCGGTGTCCTGTTGGGGATGCTTGCAGCCTTGTATCACCGCAAGCTGATTGACAACATCGCCATGATTATCTCGGTTCTGGGCATCGCGGTACCGAGTTTTGTACTCGCGTCCTTGTTGCAATTCGTTCTCGCGGAGAAAGCAGGCATATTCAATGTCATGGGCTTTGAGGGACCGCTGGACTACGTGCTTCCGGTCATGGCGCTGTCTGCACAACCGATTGCATTTATCGCTCGCTTGACAAGGTCCAGCATGCTGGAAGTTTTGCATTCGGATTATATCAAGACGGCGAAGGCCAAGGGCCTTAACTGGTTTGCGATTATGTTCCGTCATGTGATCCGTAACGGTATTTTGCCGGTCGTGACTTATGTCGGTCCGATGACAGCGAACATTATCACGGGATCGGTCGTCATTGAACAGATTTTCGGTATCGGCGGCATAGGCAAGCAGTTTGTTGAAAGTATCACGAACCGTGATTATACCGTCATCATGGGAATTACGATTTTCTACGGCATCCTGCTGATGCTGGCTCGTTTTGTCACGGACATCGTGTACGTATTTGTGGATCCACGCATTAAATTGACCGGCGGGAAGGAGAGGTAG	MLRYVASKFFYMLVSLFILISATFFLMKAIPGDPFMGEKKPSPEILARLMEQYDLDKPVFQQYTKYLGNIIQGDFGLSMKKQGQSVTDIIVDTFGPSLRLGLIAIVVSVIVGVLLGMLAALYHRKLIDNIAMIISVLGIAVPSFVLASLLQFVLAEKAGIFNVMGFEGPLDYVLPVMALSAQPIAFIARLTRSSMLEVLHSDYIKTAKAKGLNWFAIMFRHVIRNGILPVVTYVGPMTANIITGSVVIEQIFGIGGIGKQFVESITNRDYTVIMGITIFYGILLMLARFVTDIVYVFVDPRIKLTGGKER	PGPT0021020_746	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021020-oppB-K15581	NA	NA
AK002_01813	951	oppC_2	COG1173	Oligopeptide transport system permease protein OppC	ATGGAGAAAGAACAGCGTATGCCTCATCCTGCGGCACTAAACTTGAAGCCTGAAGATTTTCAGAAGATTGGTCCTGATGAGAAGCAATCCGAGGTAATACAGCGTGAAAGCTTGTCTTCCTGGAGAGATTCCTGGGAGAGACTGCGCAAGAACAAGCTGGCAATGACAGGCTTGATTATTATGATCCTGATTGTCATCATGGCCATCATCGGCCCGATGATCTCTAAATATGATTATGAAACGAATGATTTGATGAATACGAATATGCCGCCTTCATCAGAACATTGGTTTGGAACCGACGATCTGGGCCGCGACGTTTTTGTTCGTACCTGGATGGGAGCTCGGATATCCTTGACCGTTGGTCTTGCAGCAGCTGCGATTGACTTGATGATTGGCGTAATATATGGCGGCATCATGGGTTATTTCGGTGGCCGCGTCGATGAGTTCATGAATAAGTTTGCGGAAATTTTGTATTCCATTCCGTACCTGCTCGTTACGATCTTGCTATTGGTTGTATTCGAGCCAAGTTTAGGCACGATCATACTCGCCTTAACCATCACGGGGTGGATTAACATGTCCTGGATCGTGCGGGGCGAGATCATGCAGCTGAAGAGCAGAGAGTATGTGCTCGCTTCACGCTCGATGGGTGCGGGAACTGCGCGCCTGCTGTTCCGGCATTTGATTCCGAATGCGATGGGGCCGATTATCGTTACCTTGACCTTGTCGGTTCCAAGCGCAATCTTTGCCGAGGCTTTCCTGAGTTTCCTTGGTCTTGGCGTTCAAGCACCGGTTGCATCATGGGGCTCCATGATTAATGATGCCTTGTCCGGATGGATGTATTATCCATGGCGGATGTTGTTCCCTGCTCTATTTATCAGCTTGACGATGTTGGCATTTAACATTTTCGGTGATGGATTGCGTGACGCGCTGGATCCGAAATTGAAAAAATAG	MEKEQRMPHPAALNLKPEDFQKIGPDEKQSEVIQRESLSSWRDSWERLRKNKLAMTGLIIMILIVIMAIIGPMISKYDYETNDLMNTNMPPSSEHWFGTDDLGRDVFVRTWMGARISLTVGLAAAAIDLMIGVIYGGIMGYFGGRVDEFMNKFAEILYSIPYLLVTILLLVVFEPSLGTIILALTITGWINMSWIVRGEIMQLKSREYVLASRSMGAGTARLLFRHLIPNAMGPIIVTLTLSVPSAIFAEAFLSFLGLGVQAPVASWGSMINDALSGWMYYPWRMLFPALFISLTMLAFNIFGDGLRDALDPKLKK	PGPT0021025_1296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021025-oppC-K15582	NA	NA
AK002_01814	996	oppD_4	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGAACCGATCTTGCAGGTGAAGGACCTCAACGTATCGTTTCGTGTTCGCGGCGGTGAAGTAAAGGCAGTCCGCGGCATGAATTTTGAAGTCGGCAAGGGGGAGACGGTTGCCATCGTCGGTGAGTCCGGAAGCGGTAAAAGTGTTACCGCCCAGACCATTATGCGATTGATTCCGTCCCCGCCCTCGGAAATTAAAAAAGGAGAGGTCATTTTCCAAGGACAAGACCTTCTCAAAAAAACGAACAAACAGATGGAAGCGATTCGCGGCAAGGATATCGGGATGATCTTCCAGGATCCGATGACCTCGCTCAATCCAACCATTAAAATAGGAAAACAAATCACGGAAGTGCTGGTCAAGCACCAAGGGATGTCATTCTCGGAAGCCAAGAAACATGCCATTGAAATGCTGAAGCTGGTGGGCATCAAAAACGCGGAAGAGCGCTTCAACCAGTATCCGCATGAATTCTCCGGCGGTATGCGCCAGCGCGCGATGATCGCGATCGCCCTTGCATGTAAGCCGACCCTGCTGATTGCGGATGAACCGACGACTGCCCTTGACGTTACCATTCAGGCGCAGATTATGGACGTGATGAAGGAAATGCAGGAGCGTTTGGGCACATCCATCATTCTGATTACGCATGATCTCGGCGTTGTTGCCGGTATGTGCGACCGCGTGATCGTCATGTATGCGGGCGAAGTGGTGGAAACGGGAACGAAATGGGAGATTTTCAAAAATCCGCAGCATCCTTATACCAAAGGCTTGCTTCGTTCCATGCCGCGCCTGGATCAGAAGAAGGACGAGCCGCTGATTCCGATCATCGGTACGCCTCCCGATCTCATTAAGCCGCCGGTGGGCTGCCCGTTTGCTGCTCGCTGTGATGAGGCTATGCGAATTTGCGAACGGGTCGACCCGGGCGCAACGGAATTCAGCGATACGCACATCGCGCGCTGCTGGAATCTGCACCCGATGGCGAAGGAGGCGCAGGGCTCATGA	MEPILQVKDLNVSFRVRGGEVKAVRGMNFEVGKGETVAIVGESGSGKSVTAQTIMRLIPSPPSEIKKGEVIFQGQDLLKKTNKQMEAIRGKDIGMIFQDPMTSLNPTIKIGKQITEVLVKHQGMSFSEAKKHAIEMLKLVGIKNAEERFNQYPHEFSGGMRQRAMIAIALACKPTLLIADEPTTALDVTIQAQIMDVMKEMQERLGTSIILITHDLGVVAGMCDRVIVMYAGEVVETGTKWEIFKNPQHPYTKGLLRSMPRLDQKKDEPLIPIIGTPPDLIKPPVGCPFAARCDEAMRICERVDPGATEFSDTHIARCWNLHPMAKEAQGS	PGPT0021030_1924	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021030-oppD-K15583	NA	NA
AK002_01815	939	oppF_3	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAAGGATAACCATTTAATTGAGGTAAAAGGCCTGAAGAAGTATTTCAACGTTGGCAAAGGTCAAGTGCTTAAGGCGGTTGACGACCTGAATTTCTTCATTCGCGAAGGCGAAACGCTTGGTATGGTGGGTGAGTCCGGCTGCGGCAAGTCAACCGCAGGACGGACGATTCTTCGCCTCTATGAACCTACGGCCGGAAGCGTTAATTTTAACGGAACGGACATTTACAAGCTGTCCCCTGGCAAGATGAAGGCGATGCGCCGCGATATGCAGATGATTTTCCAGGATCCGTATGCCTCGCTGAATCCAAGATTCACGGTGTCGGACATTATCGGCGAAGCCTTGGATATTCATGGAATGGCAGGCAGCCGTGCCGAACGCAAGAAGCGGATTGAGGAGCTGCTGGATATGGTCGGCTTGAACAGCGACCACGCGACGCGTTACCCTCACGAATTCTCGGGTGGTCAGCGTCAACGGATCGGGATTGCCCGCGCCCTTGCGGTAAACCCTAAATTCATCATTTGTGACGAGCCGATCTCGGCGCTTGACGTTTCGATTCAGGCGCAGGTTGTCAATTTGTTGAAAGATCTGCAGGATCGGCTTGGTTTAACTTATCTCTTCATTGCGCATGACCTGTCCATGGTTAAGCATATCAGCGACCGGGTAGCGGTGATGTATTTGGGCAAAATGGTGGAGCTGGCAGACAGTGAGGAACTGTATGCGAACCCGATCCATCCGTACACGAAAACCCTGCTGTCCGCGATTCCGATTCCGGATCCTGAAATTGAGGCTAACAAAAAGCGCCTCAAGCTGGAAGACGATTCGCAGGGGCCGATTTCGGCAGCCAAAGGCGAAGACGGAACGGTTCAGCTGGACGTGAAGGATTCGGAGCTGGTCGAAGTGTCCAAAGGACACTGGGTTGCCAAAGCCTACGCTTAA	MKDNHLIEVKGLKKYFNVGKGQVLKAVDDLNFFIREGETLGMVGESGCGKSTAGRTILRLYEPTAGSVNFNGTDIYKLSPGKMKAMRRDMQMIFQDPYASLNPRFTVSDIIGEALDIHGMAGSRAERKKRIEELLDMVGLNSDHATRYPHEFSGGQRQRIGIARALAVNPKFIICDEPISALDVSIQAQVVNLLKDLQDRLGLTYLFIAHDLSMVKHISDRVAVMYLGKMVELADSEELYANPIHPYTKTLLSAIPIPDPEIEANKKRLKLEDDSQGPISAAKGEDGTVQLDVKDSELVEVSKGHWVAKAYA	PGPT0021035_2560	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021035-oppF-K10823	NA	NA
AK002_01816	1632	bshC	COG4365	Putative cysteine ligase BshC	ATGAATATCGTTCCGGAACCATTATCCCTCGCTTCGCGTCTCGCCCATGATTATATTCACCATTTCGACCGGGTAAGCGGGTTCTACGGTGAAGATCACCGCGGCGAGCACGGCTATGCCGAGCGGGTACAATGGCTGGATCTTTCGGAAGACAAACGAATTCAGCGCAAGTCGCTGGCAGCATGTCTTCGGACGTATAACCAGAAACACAATGATCATCCCGCCGTACATAAATCACTTCAACAGCTGGAGCAGCCCGGAACTGTTACCATGGTTGGTGGACAGCAAAGCGGTTTGTTTACCGGCCCCCTGCTTGTCATATATAAAGCCATCACCGTGATTCAGGCTGCCCGCGAAGCGGAGGAACGCTTGAATCGTCCCGTTGTGCCTGTATTTTGGATCGCTGGAGAGGACCATGACTGGGATGAAGTCAATCACACGTATTTCCTGACTCCGGATCAGCAGCTGTCCAAAATCAAGCTGGATGCCAAGGACGGGCTCAGGACATCGGTGAGTTATACCGATGTTCCTGAAGAGGACTGGTCGATGATGCTGGCAGAGCTTCAGACGCAGCTGGCGGACAGCGAATACAAGGCAGACTTGCTGAAGCTTGCGTCTCAATCGTTTGACGGATCGGCCGGATTAAGCGAGGCATTCGCTAAACTCATCGGCTGCATGTTCGGCAAATATGGACTGATCCTCCTGGATTCCGCAGACCCGGGACTTCGGGCGCTGGAAGTGCCCATATTCGAATCGCTGATTACCCGCAACGAGACACTGGGACTTTCGTACCAGCAGGCTGCAAGGGATATCGCCGGACTGGGCTACGAGGTCCAGGCCGACGTATCCGAGAACGGGGCCAATCTGTTCTACTTGCATGAAGGCAGACGCCTGCTGCTGTACCGGGAAGGAGGCGTGTTCTCCGACCGCAAGGGCATCGTTTCTCTCACGGAGGAAGAATTGCTTCGGGATTTGCATCAGTTTCCTGAGCGCTTCAGCAATAACGTGCTGACCCGCCCGATCATGCAGGACTCGCTGCTCCCCGTGCTGGGGACGATACTCGGTCCTGGCGAAATCTCTTACTGGGCGATTACGCGCTATGCATTTGCCGATATGGGCTTACAGATGCCGCTAATCATCCCGAGAATGTCTTTCTCCATGGTGGACGGCACCGTCCACAAGCTGATGGAGAAATACGGATTGTCCTTCGAGGATGTTCAGCTTCGCTTGTCCGAGAAGCGCGAGGCTTGGCTGGCAAGCAAGGACGAATTGAATCTGGAGGAACGCTTCAGCGAAACCCGGAAACAATTCGAAGCATTATATCAACCTTTAATAGAAGATCTTGGCAAAATGCAGAGCGGACTGTTAAAATTAGGTCTAACCAATAAGGATAAAATATTGGAGCAGATGGATTACCTGTTAAGTAAATCCCGGAATGCCCTGGAACAGCAGCATGAGGCCGCCTTGGCGCAGTGGAAGCGCATCGAACAGACGCTGCTCCCGGAAGGGAAGCCTCAGGAGCGGGTATACAACATACTGGAATACATGAATCGTTACGGATTGAATCTGGTGGATCGCCTGATGGAAATCCCATACGATGCTTCGGGCATGCACCGCGTCGTTTACGTATAA	MNIVPEPLSLASRLAHDYIHHFDRVSGFYGEDHRGEHGYAERVQWLDLSEDKRIQRKSLAACLRTYNQKHNDHPAVHKSLQQLEQPGTVTMVGGQQSGLFTGPLLVIYKAITVIQAAREAEERLNRPVVPVFWIAGEDHDWDEVNHTYFLTPDQQLSKIKLDAKDGLRTSVSYTDVPEEDWSMMLAELQTQLADSEYKADLLKLASQSFDGSAGLSEAFAKLIGCMFGKYGLILLDSADPGLRALEVPIFESLITRNETLGLSYQQAARDIAGLGYEVQADVSENGANLFYLHEGRRLLLYREGGVFSDRKGIVSLTEEELLRDLHQFPERFSNNVLTRPIMQDSLLPVLGTILGPGEISYWAITRYAFADMGLQMPLIIPRMSFSMVDGTVHKLMEKYGLSFEDVQLRLSEKREAWLASKDELNLEERFSETRKQFEALYQPLIEDLGKMQSGLLKLGLTNKDKILEQMDYLLSKSRNALEQQHEAALAQWKRIEQTLLPEGKPQERVYNILEYMNRYGLNLVDRLMEIPYDASGMHRVVYV				NA	NA	NA	NA	NA
AK002_01817	1269	ahcY	COG0499	Adenosylhomocysteinase	ATGAGCTCATCATCAATACAAACCAGCAATATTGCCGACCTGAAACTGGCGCCGGAAGGTCATCTCAAAATTGATTGGGTGCAGGCGCACATGCCGGTATTGAACCGGGTACGCGAACAATTCGAGAAAGAACAACCGTTCAAAGGCTTGAAAGTGGCCATCTCGCTGCATCTGGAAGCGAAGACCGCGTATCTGGCGAAGGTCATCCAAGCCGGCGGAGCCGAAGTGACAATTACCGGCAGCAATCCGCTGTCTACGCAGGATGATGTATGCGCGGCGTTGGTGGAAGACGGAATAACGGTGTTTGCCAAGTACAACCCGGATCCGGAGGAATACAAGCAGCACCTCATCTCAACGCTGGAAACGAGACCGGATCTGATCATCGACGATGGCGGGGATCTGGTAACGATCCTTCACTCCGAGCGCACGGATCTGCTTGAGGGGGTGCGGGGCGGCGCCGAAGAGACAACGACGGGCATTCTGCGCCTGAAATCGCTGGAGAAAGAAGGCGCTCTGAAATTCCCGATGGTTGCCGTGAATGACGCTTACTGCAAATACTTATTCGATAACCGTTACGGTACGGGGCAATCGGTCTGGGACGGAATTAACCGAACGACAAACCTGGTGGTTGCAGGCAAAACGGTCGTTGTCGTCGGCTATGGCTGGTGCGGCAAAGGCGTGGCGATGCGCGCCAAGGGTCTCGGCGCCAACGTCATCGTGACCGAGATTGATCCGATCAAGGCGGTTGAGGCTTACATGGACGGCTTCCACGTTATGCCGATGCGCGAAGCGGCTAAACAGGGGGACTTTTTCGTAACCGTCACGGGCAACCGCGACGTCATTAGCGGAGAAGACTTTGATGTCATGAAGGATGGCGCCATTTTGTCCAATGCCGGGCACTTCGATGTGGAAGTCAACAAACCGGATCTGTCGGAGCGATCCCAGTCGGTTCGGACGGTTCGTCGCAATATCGAAGAATACCATTTGAAGGACGGCCGTAAGATCTATTTGCTTGCAGAAGGCCGTTTGGTGAATCTGGCGGCAGGGGACGGACATCCGGCAGAAATCATGGATATGACGTTTGCCCTTCAGGCCTTGTCGCTCAAACACGTGAATGATCAGTACCAGGGCATCGGCAACCGCGTCGTGAATGTTCCGTACGAGCTGGATCAACAGGTTGCTTTATATAAACTGGAAAGTCTAGGTATCCATATCGACAGCCTGAGCGCTGAGCAGAAATCCTACTTGGACAGCTGGGCCCAGCATTAA	MSSSSIQTSNIADLKLAPEGHLKIDWVQAHMPVLNRVREQFEKEQPFKGLKVAISLHLEAKTAYLAKVIQAGGAEVTITGSNPLSTQDDVCAALVEDGITVFAKYNPDPEEYKQHLISTLETRPDLIIDDGGDLVTILHSERTDLLEGVRGGAEETTTGILRLKSLEKEGALKFPMVAVNDAYCKYLFDNRYGTGQSVWDGINRTTNLVVAGKTVVVVGYGWCGKGVAMRAKGLGANVIVTEIDPIKAVEAYMDGFHVMPMREAAKQGDFFVTVTGNRDVISGEDFDVMKDGAILSNAGHFDVEVNKPDLSERSQSVRTVRRNIEEYHLKDGRKIYLLAEGRLVNLAAGDGHPAEIMDMTFALQALSLKHVNDQYQGIGNRVVNVPYELDQQVALYKLESLGIHIDSLSAEQKSYLDSWAQH				NA	NA	NA	NA	NA
AK002_01818	438	mraZ		Transcriptional regulator MraZ	ATGTTTATGGGGGAGTTTCAGCATAGCATCGACGATAAGGGGAGAATCATCATCCCCGCTAAATTTCGCGACCTCCTGGGCACCTCGTTTATCGTAACCCGCGGATTGGACAATTGCCTCTTTGTATACCCCAAAGATGAATGGGCCATCATGGAGCAGAAGCTCAAATCCCTACCGCTCATGAAGTCGGATGCACGCGCATTCACCCGGTTTTTTTTCTCCGGGGCGACGGAATGTGAATGGGATAAACAGGGAAGGGTAAATTTGCCGGGCAATTTGCGCGAGTTCGCCAAGCTCGAGAAGGAATGCGTCGTCATCGGCGTATCGAGCCGCGTGGAGATCTGGAGCAAGGAGCAATGGCAGAATTACTATCAGCAGTCGGAGGAAGCGTTCAACGACATTGCTGAGAAGCTGGTAGACTTTGATTTTGACTTATGA	MFMGEFQHSIDDKGRIIIPAKFRDLLGTSFIVTRGLDNCLFVYPKDEWAIMEQKLKSLPLMKSDARAFTRFFFSGATECEWDKQGRVNLPGNLREFAKLEKECVVIGVSSRVEIWSKEQWQNYYQQSEEAFNDIAEKLVDFDFDL				NA	NA	NA	NA	NA
AK002_01819	954	rsmH		Ribosomal RNA small subunit methyltransferase H	TTGTTCCATCACATCACAGTGCTTAAGCAAGAAGCGACAGAAGGGCTGCGCATCAAACCAGACGGTATATATGTTGACTGTACGCTCGGGGGGGCGGGGCACAGCTCGCTCATTGCTTCCCAACTAAGTTCGGAAGGCCGGTTGATCGCTTTGGATCAGGACGACTGGGCATTGAATAACGCCCGGGAGGCCATGAAGCCTTATGCGGACCGGATCACCCTCGTTAAGACCAATTTTCGCGATTTGGAGGAGGTGCTCCGAAGCGAAGTGGGGGCTGGCGAGAACGGGCAGCCGCAAGTTGACGGTATACTGTTCGATTTGGGCGTATCTTCTCCGCAATTTGATGAAGGGGAGAGAGGGTTTAGCTACAATCATGATGCCCCGCTGGATATGCGGATGGATCAATCCGCCGAGCTTACAGCAGCCAAGATTGTAAACGAATGGCCGGAACAGGAAATCGCGCGGATATTGTACCAATACGGCGAAGAGAAGTTCTCAAGGCGGATTGCCAAGGTCATCGTTGAAAGAAGGGCACAGAGTCCTATTCAGACAACCGGAGAGCTTGTCGAAATGATTAAGGAAGGGATACCGGCCGCGGCTCGAAGAACGGGCGGCCACCCGGCGAAGCGAAGCTTTCAAGCATTTCGCATCGCGGTAAACGATGAGCTTGGCGCTTTCGAGGATGCGCTTCATCAAGCCGTAAGATGTCTTGCGCCGGGAGGAAGGGTCTCGGTGATTACCTTCCACTCGCTCGAAGACCGGATATGCAAGCAGATTTTTAACAGTTACATTCCCAAGTGCACGTGCCCTCCAGACTTTCCGATGTGCGTATGCGGAGGCGGCCAAGGCGATCTGAAGCTGGTAAACCGTAAACCGCTTATCCCGTCGGCGGAAGAAATTGAGAGTAATCCAAGGGCGCGTTCGGCGAAGCTGCGGATTGCGGAGAAACTGTAG	MFHHITVLKQEATEGLRIKPDGIYVDCTLGGAGHSSLIASQLSSEGRLIALDQDDWALNNAREAMKPYADRITLVKTNFRDLEEVLRSEVGAGENGQPQVDGILFDLGVSSPQFDEGERGFSYNHDAPLDMRMDQSAELTAAKIVNEWPEQEIARILYQYGEEKFSRRIAKVIVERRAQSPIQTTGELVEMIKEGIPAAARRTGGHPAKRSFQAFRIAVNDELGAFEDALHQAVRCLAPGGRVSVITFHSLEDRICKQIFNSYIPKCTCPPDFPMCVCGGGQGDLKLVNRKPLIPSAEEIESNPRARSAKLRIAEKL				NA	NA	NA	NA	NA
AK002_01820	414	ftsL_2		Cell division protein FtsL	ATGGCTTACACGCGCGGCAATTTAGCCGTACAGGAGAGACAGAAGGAAACGCAGCAGTCCGCTTATCTCGAGAAGACCAAAGTCGTTAAACGTCGTTCCCAGCTTCCGCAAAAAGAAAAGCTGCTGTATTTGTTGTCCGTGGTGTTCGTGGTTGCCGTCATGGGCGTCATCGGCATGAGTCATGTTCATTCCTATGACCTGAACCGGCAGATCCAGGCGACGGAGAACAAGATATTGGATGCGAAGCGGAATATCAATCAACTTCAGGTAGAAAAGCAAACGCTGGAGATGCAGGTATTGGACAAGGCGAAAGAGCTCGGTTATGTGCCGATTGAGGACGATAACATGATCCATCTATCACCTGTCTCGGGAGCAACCGGGACACAGGATTCAGACTCGGGACAAAATGATTGA	MAYTRGNLAVQERQKETQQSAYLEKTKVVKRRSQLPQKEKLLYLLSVVFVVAVMGVIGMSHVHSYDLNRQIQATENKILDAKRNINQLQVEKQTLEMQVLDKAKELGYVPIEDDNMIHLSPVSGATGTQDSDSGQND				NA	NA	NA	NA	NA
AK002_01821	2307	pbpB	COG0768	Penicillin-binding protein 2B	ATGATTAAAAAAATCAAACTGCGTACCGTGCTAATAGGGGGATGTATAACCCTCTTTTTTGCTTTATTGATTGGTCGGGTATTTTGGCTGCAGGTGATCGATAACGACTTCTGGAAGGAACAAGCCTTAGCGAAATGGTCCAGAACCCAGGACTTGCCGGCATCCCGCGGTACGATCATGGACCGGGACGGCGACATCCTGGCCATGGACGCCCCGGCTTTCACGGTCATAGTAAACCCTGCGGTCATCCAGGCTAACGGCTTGGAGAATGAGGTCGTTAAAGGGCTGCACGAAACTCTCGGCAAGGATGAGGATAAGCTTCGTGAAATGGTTCAAGCCAAGGGCAAGGATGGGGAATACCTGAAGGGCGTGGAAGTCCGCAACGAAGGATGGAAGATCAGCCAGGAGAAGATGGAAGAGGTTAAAGAGTTCAGCCAAAGCTTGAATGATAAATTGAAGGCCGCAGGCAAAGTTCCCGATTCGGGCATCGGCTTTCAACGCGAGCAGAAACGCTTCTATCCCAAAGAGACATTGGCTGCACATATGCTGGGTTATACCGATCGTCAAGGACAGGGGATCGGAGGCATTGAGCAGTTTTATGACGAGATGCTGAAGGGGACCGACGGATTCGCTTCTTACAAGAGCGACAAGAAGGGAGTCAAGCTGCCCAGCGAGGATGATTTATATCAGCCTGCAATAAATGGGAAAAATTTAGTACTGACGACCGACGATACAATCCAGTATTATATCGAGGAAGCGATGCGCGACACGTATAACCAATATAAACCAATCAGCATGACGGTGATCGCAGCGGATCCGAACACGATGGAAATACTGGGGATGGCCAACATGCCGACTTTTGATCCCAATACATATTCGAAGTGGAATCAAAAGAATTTTATCAACCATGCCGTGCGGTCCATCTATGAGCCGGGATCGACCTTCAAAATTGTAACCCTGGCCAGTGCAGTGCAGGAAAAGCTGTTTAACCCGGGTGATATTTATCAATCCGGATCCATAAGGGCGGGGGGAAGAACCCACCGGGATATTAACAGCGTAGGGTGGGGGCCGATTACTTACCTGGAAGGCGTGAAAAAGTCCAGTAACGTGGCATTCGTAAAATTGGGATACGAGATGCTCGGCAAAGAGCGGTTTACCAATTATATTCGGGAATTCGGTTTTACCGAGAAAACGAATATTGACCTGCCCGGGGAAATTCTCGGCACCCTGAACATGACCTATGATTCCGATATTTCAACCATGACCTATGGTTACGCCGTATCGGTTACGCCTATACAACAGATTGCGGCCATTTCCGCCGTTGCCAACGGCGGCAAGCTCATGGAGCCGCATATGGTGAAGGAGATCGAGGACCCCAATACGGGCGAGGTTCAGAAAATCGAGCCGAAGGTCGTGCGTCAGGTCATATCTCCCGAAGCCGCAAGAGAAACAGGGACTTACCTTGAGCAGGTCGTAGCCGACCAAGTAAACGGCACAGGGAAGCTTGCGTATATCGACGGCTACCGCGTTGCGGGCAAAACCGGTACCGCCATTAAATCCGGCGGCGGATATAAAGACCGTTCGAAACAGGTGGTTTCGTTCATCGGGTACGCTCCCGTCGAGAACCCGAAGATCGCCGTGCTGGTCATTATCGACGAGCCGAACGTGGAGAAGGGCGGCGGCGCGCTGGCGGCACCGATATTCAAGGAAATCGTCTCCAAGACATTAAACTATTGGGGCGTTCCCAAATCGAATGAAACTCAGGATAAAGAAAAATCGAATCCGGGAACGGCGCCGAAGGATGCCCTTAAAGCACCGGACTTTACGGGAATGAAGCTCAGCGAAGTAAAGGCCAAGCTGTTGAAGGACGGGGTTGCGTTTGAGACATTGGGCAATGGAAGCACCGTGAAGGAGCAGTATCCGCCCGCAAATTCGATCATTAACGTTGGACAGCGCATTTATCTTCTTACAGAGGACAGCCCATCGATGAAAATTCCTAATTTAGAGGGAGAATCGCTTAGGGATGCCATGGAGGTGCTCACCTTGATGAAAGTAAAGGTGAACGTTCAGGGCGAGGGTTTCGTTGTATCGCAATTGGAAGCCAAAGAGAATGGCCAGCGGATCGTGCAATTAACGCTGAAATCGGCTCAAGAGCTGATAACGGGCAGCAGCGGTACCGATGAAACCTCCTCCGCTGGCAGCGCAAATGCGAACGGGGAAGAAACCGGCGACAATGAGACGGAAGGAACCGCCGATAACGAAGCCGAAGCAACCGACCAAGGACAAGGCGATACCGAAGGGGAATAG	MIKKIKLRTVLIGGCITLFFALLIGRVFWLQVIDNDFWKEQALAKWSRTQDLPASRGTIMDRDGDILAMDAPAFTVIVNPAVIQANGLENEVVKGLHETLGKDEDKLREMVQAKGKDGEYLKGVEVRNEGWKISQEKMEEVKEFSQSLNDKLKAAGKVPDSGIGFQREQKRFYPKETLAAHMLGYTDRQGQGIGGIEQFYDEMLKGTDGFASYKSDKKGVKLPSEDDLYQPAINGKNLVLTTDDTIQYYIEEAMRDTYNQYKPISMTVIAADPNTMEILGMANMPTFDPNTYSKWNQKNFINHAVRSIYEPGSTFKIVTLASAVQEKLFNPGDIYQSGSIRAGGRTHRDINSVGWGPITYLEGVKKSSNVAFVKLGYEMLGKERFTNYIREFGFTEKTNIDLPGEILGTLNMTYDSDISTMTYGYAVSVTPIQQIAAISAVANGGKLMEPHMVKEIEDPNTGEVQKIEPKVVRQVISPEAARETGTYLEQVVADQVNGTGKLAYIDGYRVAGKTGTAIKSGGGYKDRSKQVVSFIGYAPVENPKIAVLVIIDEPNVEKGGGALAAPIFKEIVSKTLNYWGVPKSNETQDKEKSNPGTAPKDALKAPDFTGMKLSEVKAKLLKDGVAFETLGNGSTVKEQYPPANSIINVGQRIYLLTEDSPSMKIPNLEGESLRDAMEVLTLMKVKVNVQGEGFVVSQLEAKENGQRIVQLTLKSAQELITGSSGTDETSSAGSANANGEETGDNETEGTADNEAEATDQGQGDTEGE	PGPT0023935_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023935-pbpB-K08724	NA	NA
AK002_01822	1944	spoVD	COG0768	Stage V sporulation protein D	GTGAAAGTATCCAAGGTATCGCAGCGGAGAAGGCTGCTCTGGAGCCTGCTGCTGCTGCTCCTGCTGTTCTCTGCGCTGATCATCAGACTGGCCTATGTGCAGATCGGGAAAGGCGCGGAGTTGTCGGCGAAAGCGGAGGATCTCTGGCGCCGCGACATTCCGTTCGCGGCACAGCGGGGTGAAATTCTGGACCGTAACGGAACCGCATTGGTTACGAATATAACGACACCGACCATTTGGGCGATTCCTGTACAAATCAAAGATCCGGACCATACAGCCGAGACGTTGGCCGGGCTGATCAGCATGGACAAGGCCGATATCAAGAAGATCATTACGAAACGTTCGAGGTTGGAACGGATAAATCCCGGTGGACGAAAAATTACGATGGAGCTGGCTCAGGAAATTCGTGATTTGAAGCTGCCGGGTATCGTTGTTGCTGAGGACAACAAACGGTATTATCCCTACGGCGATCTCGCGGCCCATATTTTGGGGTTTACGGGAGCTTACAGCCAGGGACTCACCGGCCTGGAAGCCATGCATGACGACAAGCTGAAGGGCTTTGAAGGCGGAATATCCTATTTGTCCGATGCAGGCGGAAGAATCATGCCGGGCTCCTCGGAGAAATACGTAGAGCCCCGCGACGGTCTGAATCTGGAGCTGACGATCGATAAATCGATCCAGTCCATCATGGAGCGGGAGCTTGACCAGGCCATGGTGAAATACCAGGCGAATGGAGCATGGTCGATTGCCATGAATCCGAAGACGGGCGAGATTTTGGCGATGGCCAGCAGGCCGGGGTACTCCCCTGCCAACTATCAGGAATTTTCAGCGGAAACATACAATCGCAACTTGCCGATCTGGATGACCTATGAGCCGGGCTCGACGTTCAAGATTATTACGCTTGCCGCTGCGCTCGAAGAGGACAAGGTCGATCTGAAGAACGACCATTTCTTCGACAGCGGGGCGGTAGAGGTCGGCGGAGCCAGGCTGCGCTGCTGGAAGAAAGGCGGCCATGGCAGTCAAACCTTCATGGAGGTTGTGCAGAACTCCTGCAACCCGGGCTTTGTGGCATTGGGCCAGAAGCTGGGTAAGGAAAGCCTGTTCCAGTATATCCGGGATTTCGGCTTTGGAGCGAAGACAGGCATCGATTTGAACGGGGAAGAGAACGGCATTCTGTTCAAGCTCGATAACGTTGGCCCTGTGGAGCTGGCCACAACGGCGTTTGGCCAAGGCGTATCGGTTACGCCGATCCAGCAGGTTGCGGCCGTGTCCGCCGCCATTAACGGCGGTAAGCTGTTCAAGCCGCACGTCGCCAAGGCTTGGGTCAATCCGGAGACGGGCGAGACGGTGGAGGAAATCAAACCGGAGCTCGTCAGACAAGTAATCTCGGAGGAAACCTCCAAGCAAGTGCGCGAGGCACTCGAAAGCGTCGTCGCCAAAGGAACCGGACGTCCGGCCTTCATCGACGGTTATCGTGTGGGAGGGAAGACCGGTACCGCCCAGAAGGTGATTAACGGCCGTTACTCGTCAACCGAGCATATCGTCTCCTTCATCGGATTCGCGCCGGCCGATGACCCGGAAATCGTGGTGTACACGGCGGTGGATAATCCGAAAGGCATACAGTTCGGCGGCGTCGTGGCAGCCCCGATCGTGCAGAATATCCTGGAGGATGCGCTGCACTATATGAACGTCCCGCCGCGCAAAGATCAGCTTGCCCGCGAATACAAGTACGGCGAGACGCCGACCGTGACCGTACCGAACCTGGTCGGTGCAACCGTTCAGGATCTGTATGAAGACTTGAATATGAACTTCATGCTGGCCAAGTCCGGAACCGGCAATACGGTAATTTCCCAGGCGCCGAAGCCGGGAAGCCGGGTGGAGCGAGGGTCCACCATTCGGATTTACATGGGCGAAGACCCGGGGGAATCCAAGCACGAACACTAA	MKVSKVSQRRRLLWSLLLLLLLFSALIIRLAYVQIGKGAELSAKAEDLWRRDIPFAAQRGEILDRNGTALVTNITTPTIWAIPVQIKDPDHTAETLAGLISMDKADIKKIITKRSRLERINPGGRKITMELAQEIRDLKLPGIVVAEDNKRYYPYGDLAAHILGFTGAYSQGLTGLEAMHDDKLKGFEGGISYLSDAGGRIMPGSSEKYVEPRDGLNLELTIDKSIQSIMERELDQAMVKYQANGAWSIAMNPKTGEILAMASRPGYSPANYQEFSAETYNRNLPIWMTYEPGSTFKIITLAAALEEDKVDLKNDHFFDSGAVEVGGARLRCWKKGGHGSQTFMEVVQNSCNPGFVALGQKLGKESLFQYIRDFGFGAKTGIDLNGEENGILFKLDNVGPVELATTAFGQGVSVTPIQQVAAVSAAINGGKLFKPHVAKAWVNPETGETVEEIKPELVRQVISEETSKQVREALESVVAKGTGRPAFIDGYRVGGKTGTAQKVINGRYSSTEHIVSFIGFAPADDPEIVVYTAVDNPKGIQFGGVVAAPIVQNILEDALHYMNVPPRKDQLAREYKYGETPTVTVPNLVGATVQDLYEDLNMNFMLAKSGTGNTVISQAPKPGSRVERGSTIRIYMGEDPGESKHEH	PGPT0024085_323	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024085-spoVD-K08384	NA	NA
AK002_01823	1485	murE_1	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGAACTTGAAGCAATTATCATCCGTATTGGCCGCTGCTGTTATCGAGGGATCCGGAGATGTTGAAATTACGGGGATAGAAACAGACTCCAGACAAGTAAAACCGGGGGATTTGTTCATTTGCCTGCCGGGCCATACGGTGGATGGACACGAGTTTGCAGCCCAGGCCGCCGACAAAGGTGCCGCGGCGCTGGTCGTTGAACGCAAGCTGGAGGTTGACCTCCCGCAGGTCATCGTGAAAGACAGCCGCTTCGCGATGGCGGGTTTGGCGAACGCCTTTTATCATCAGCCGAGCTCCCGAATGAAGATGATCGGCGTAACCGGTACGAACGGCAAGACAACGACAACGTATTTGATCGAGACGATCATGAACGATTTCGGGTTGAAAACCGGATTGATCGGAACGATTCAGATGAAATACGGCGGCCAGTCCTTCCCGATGCCGAGAACGACGCCCGAGGCGCTGGAGCTTCAGCGTTACTTGAACGATATGGCCAATGCAGGCACCGAGTGCTGCGTGATGGAGGTATCCTCGCATGCGCTCGAACAGGGGCGCGTGAAGGGAACGGATTTCCGGACGGCCATCTTCACGAATCTGACCCAGGACCATCTGGACTATCATCACACGATGGAAGAATACCGCGGCGCAAAAGGGTTATTTTTCTCCCGGCTGGGCAACGCTTTTGCCAAGGATGAATCCGCGCGCAAATATGCCGTCCTGAATGCGGATGACGATGCTTCGGCATATTTCGCCAAGCAGACCGCGGCGGAAGTGATAACCTACGGTTTGGGTGAAGATGCGGATGTGCGGGCGAGCAATATATCGATCACCGCGCAAGGCACTTCGTTCCATGTGGATACGTTCCGCGGCAGTGCGGACATTTCGATTCGAATGGTAGGAAAATTCAACGTGTATAACGCTATGGCCGCGATCGCGGCAGCGCTCCTGGAAGGTGTGCCGCTCGAAGATATCAAGAACAGCCTGGAATCCGTGCCCGGAGTCGATGGCCGCGTAGAGGTCGTGGATGAAGGCCAGCCGTATGCCGTGATCGTGGATTACGCCCATACGCCGGACGGACTTGAAAATGTGCTCCGCACCGTCAATGAATTCGCGGAAGGCCGGGTGATCACCGTATTCGGCTGCGGTGGCGACCGGGACCGGACCAAACGGCCGATCATGGGTAAAATCGCTGCGAAATACAGCGATGTTGTATTGGTAACTTCCGATAATCCCCGTACCGAGGATCCGGAGTTGATATTGAAGGATATCGAGGCCGGATTGGTTGAGGACGGTGTGGCAACCGAAAGCTACAAGCTCATCGTCGATCGCCGGAAAGCGATCGAAAAGGCTATTGAAATGGCAAGCCCGGGCGATGTAGTATTGATTGCGGGGAAAGGTCATGAGACCTATCAGCTGATTGCGGGCGAAGTGCTTGATTTTGACGACCGCATCGTAGCCAAAGACGCGATAAGGGGCAGACAATAG	MNLKQLSSVLAAAVIEGSGDVEITGIETDSRQVKPGDLFICLPGHTVDGHEFAAQAADKGAAALVVERKLEVDLPQVIVKDSRFAMAGLANAFYHQPSSRMKMIGVTGTNGKTTTTYLIETIMNDFGLKTGLIGTIQMKYGGQSFPMPRTTPEALELQRYLNDMANAGTECCVMEVSSHALEQGRVKGTDFRTAIFTNLTQDHLDYHHTMEEYRGAKGLFFSRLGNAFAKDESARKYAVLNADDDASAYFAKQTAAEVITYGLGEDADVRASNISITAQGTSFHVDTFRGSADISIRMVGKFNVYNAMAAIAAALLEGVPLEDIKNSLESVPGVDGRVEVVDEGQPYAVIVDYAHTPDGLENVLRTVNEFAEGRVITVFGCGGDRDRTKRPIMGKIAAKYSDVVLVTSDNPRTEDPELILKDIEAGLVEDGVATESYKLIVDRRKAIEKAIEMASPGDVVLIAGKGHETYQLIAGEVLDFDDRIVAKDAIRGRQ	PGPT0024130_2472	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
AK002_01824	1389	murF	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGTGCGGCGGTACGCTCTCACGTAACCAAGATGACAACATCATCATTCAAGGAGTCGGTACCGACTCCCGAACCATACAGCCGGGCAACCTGTTTGTTCCGATTGTCGGCGAGAAGTTTGACGGGCATGAATTCGTGGAGAGCGTGCTCGCCAGTGGAGCCGGCGCGGCATTCTGGCAGAGGGATCATCAGCCGGTTCCCGCCGACCTCCCGCTCATTCTCGTGGAGGATACGTTAAAGGCGCTCCAGTCGCTTGCGGCGGCCTATTTGTCCGAGAGCAGAGCCAAGGTGGTGGGCATAACCGGCAGCAACGGCAAAACCACCGTGAAGGACATGGTGTCGGCACTGCTTGAAACCACGTATAACGTTCACAAAACGCAAGGCAATTATAATAATCATATCGGGCTTCCGTTAACCGTGCTGGCAATGAAGGAAGACACCGACATTATCGTGCTTGAGATGGGCATGAGCGGACGTCATGAGATCGAGCTGCTCTCGAACATAGCCCGCCCGGATTTAACCGTGATCACCAATGTCGGGGAAGCGCATTTGCTGCAGCTCGGTTCCCGGGAAGAAATCGCACGGGCCAAGCTTGAGATTATCAGCGGCATGAAGCCGGGCGGTTTGCTGATCTATCATGGGGACGAACCGCTGATCCGTCAGGTGCTTGCTGAAGAAGCAACGGTGAAGCCGGAGGGGCTGCGAACGTATACGTTCGGAAATCAAGATACCAATGACGATTATCCGACGGGACTCATGTTCCATGCCAGAGGAATCATATTTACTTCGAGACTGCATGCAGGCGAAGGCTTCAGCCTGCCGCTCCTCGGCCGCCACAATGTGGTGAACGCCCTGGCAGCCATGGCGGTGGCGGCCCATCTGGGCATCGGCGATGAAGCCATTCGCAGCGGGTTCGCCCATCTGAAGCTGTCGAGCATGCGGATCGAAGCCGTAGAGACCGCGCTTGGGGTAACCGTGCTGAACGATGCCTACAATTCCAGCCCGACGGCGGTGAAGGCGGCTGTAGACGTGCTTGGCGATATGAAGGGCTATCGCCGCCGGATCGCCGTGCTCGGGGACATGCTGGAACTTGGTCAGCGGGAAGAGTCATTTCATGCCGAGATCGGAGATTATTTATCTCCGGACAATGCGGATCTGGTATTCACCTACGGTCCGTTGTCTCTTCATACGGCGAATAAAGCGAAAGCCCGCTTCCCGGAAGGGGCCGTGCTTTCATTTACGGATAAAGAGAAGCTGATCGAAGCCCTGCTGGAGCAGGTAACGGAGAAGGATATCGTATTGGTGAAAGCCTCGCGCGGCATGAGGCTGGAGCACGTGGTTGATGCCTTGAAGGCACTGCCGGGCAGCAACAACGGAGCGAGGGGGTGA	MCGGTLSRNQDDNIIIQGVGTDSRTIQPGNLFVPIVGEKFDGHEFVESVLASGAGAAFWQRDHQPVPADLPLILVEDTLKALQSLAAAYLSESRAKVVGITGSNGKTTVKDMVSALLETTYNVHKTQGNYNNHIGLPLTVLAMKEDTDIIVLEMGMSGRHEIELLSNIARPDLTVITNVGEAHLLQLGSREEIARAKLEIISGMKPGGLLIYHGDEPLIRQVLAEEATVKPEGLRTYTFGNQDTNDDYPTGLMFHARGIIFTSRLHAGEGFSLPLLGRHNVVNALAAMAVAAHLGIGDEAIRSGFAHLKLSSMRIEAVETALGVTVLNDAYNSSPTAVKAAVDVLGDMKGYRRRIAVLGDMLELGQREESFHAEIGDYLSPDNADLVFTYGPLSLHTANKAKARFPEGAVLSFTDKEKLIEALLEQVTEKDIVLVKASRGMRLEHVVDALKALPGSNNGARG	PGPT0024145_1405	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
AK002_01825	966	mraY_1	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGGACTTTCAATTGCTGTTATTGACAATCGGTGTAGCGTTTGTGCTTGCGGTGATATCGGCTCCGCTGCTCATTCCGCTGCTGCGGCGTATGAAGTTCGGCCAGCAGGTCAGGAACGACGGTCCGCAGAGCCACTTGAAAAAAGCCGGGACGCCAACGATGGGCGGCGTCGTCATTCTTCTAGCTTTTACGCTGACTTATATTAAATTTTCGCCTGTCGATACCGATTTCTACGTGCTGATCGTAGCCACGCTCGGTTTCGGTTTGATCGGCTTTCTTGACGATTACATCAAGATCGTGTTTCGCAGATCATTAGGACTTACGGCCCGGCAGAAGCTGTTTGGACAGCTTCTGTTTTCCGGTATTATGTGCTGGCTGTTGATTTCCAACGGCCACAGCACGGCAATCAGCGTGCCGGGCATGGATTGGTCCTTTGATTGGGGCCCATGGTTCTATTATCCGTTCATCGTGGTCATGATGCTTGCAATCAGCAACGCGGTCAATTTCACCGACGGATTGGACGGCCTGCTGTCCGGCGTCAGCGCGATTGCCTTTGGCGCGTATGCCATCGTCGCGATCCAGTCCACCTCGTTCGCGGCGGCGTTCTGCGCGGCTGCCATGATCGGCGCGGTGCTCGGGTTTCTGGTATTTAACGCTCATCCCGCGAAGGTGTTCATGGGAGATACGGGTTCTTTAGGCATCGGCGGTGCCATCGGCGCGATTGCCATCGTAACCAAGAGCGAGCTGCTGTTCCTGATCATTGGAGGGGTCTTCGTCATCGAGATGCTATCTGTTGTGCTTCAGGTGATCTCCTTCAAAACCCGGGGCAAACGAATATTCAAAATGAGCCCGATCCACCACCATTACGAATTGTCCGGGTGGTCGGAGTGGCGCGTTGTTTTTACATTTTGGGCCGTGGGACTGGTACTTGCGGGACTCGGACTCTATATCAACAAGGGGTTGTAA	MDFQLLLLTIGVAFVLAVISAPLLIPLLRRMKFGQQVRNDGPQSHLKKAGTPTMGGVVILLAFTLTYIKFSPVDTDFYVLIVATLGFGLIGFLDDYIKIVFRRSLGLTARQKLFGQLLFSGIMCWLLISNGHSTAISVPGMDWSFDWGPWFYYPFIVVMMLAISNAVNFTDGLDGLLSGVSAIAFGAYAIVAIQSTSFAAAFCAAAMIGAVLGFLVFNAHPAKVFMGDTGSLGIGGAIGAIAIVTKSELLFLIIGGVFVIEMLSVVLQVISFKTRGKRIFKMSPIHHHYELSGWSEWRVVFTFWAVGLVLAGLGLYINKGL	PGPT0024105_4206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
AK002_01826	1434	murD	COG0771	UDP-N-acetylmuramoylalanine--D-glutamate ligase	ATGAAGCAGCTAGATGTTTATCGGGATAAGCATATCGTCGTGTTGGGTCTTGCCAAAAGCGGAGTGCAGGTAGCGAAGGTGCTGCATCAAGCCGGAGCCTCCGTCATCGTGAATGATCGAAAGGAAAGAGAACAGTGTCCTGAAGCCTCGGAGCTCGAGGCTTTGGGTATTTCTGTTATTTGCGGCGGGCATCCCGATGACCTCATTCATCCCGGCGTGGCGCTCCTTGTCAAAAACCCGGGAATTCCGTATTCGGTCCCGCCTGTCCAAAAGGCGATCGAGCTTGAAATTCCTATCGTGACCGAAGTCGAAATCGCCTATCACCTGTGCGAAGCTCCCATGATCGGCATCACGGGCTCGAACGGCAAAACAACCACCACGACTTGGGTAGGCGAGATGCTGGAAAGCGCGGGCCTTTCGCCGATCGTTGCCGGCAATATCGGCACGCCCCTATCCGAGGCCGCAGCGACAGCAACGGAAAATGACTGGATGGTCGTTGAACTGAGCAGTTTTCAGCTAAAAGGAACGGAGGCGTTCCGGCCGCGCATTGCCTGCCTCCTCAACGTGACGGAAACGCATCTGGATTACCATGGCGGAATGGATGATTATGTGGCATCCAAAGCCAAGCTGTTTGCCAACCAGACTTCGGAGGATACCGCTGTGCTCAATTGGGATGATCCCGTGTGCAGAAACCTTGTCCCGTATATCAAGGCGCACATCGTGCCTTTTTCGATGAGCGAGAGCCTTCGTGAAGGGGTTCACATCACGCCGCCATATGCTCCCGGTGCCCAGGATTCGGACGAAGACGATCAGGGGCGCAGAATCATTTATACAGACGGCGAAGGGTTTACCCATGAGATCATCCGTGTGGAGAACATCGGACTGCCGGGAAGATTCAATGTGGGGAACGCCATGGCGGCTTGTGCCATCGCCATAGCGGCGGGCGTTGCCCCCGATAAGCTGGAGGAAGCTTTGTCCAGCTTCCGCGGCGTTGAGCACCGCCTGGAATTTGTGGCGGAACTTCAAGGCGTATCCTATTACAACAATTCCAAGGCAACCAATTCCAAGGCGACGCATATGGCTTTGACCTCGTTCAAGGAACCTGTCGTTTTGATCGCGGGGGGGCTTGACCGGGGCTCGGATTACGAGGAGCTGATCCCATCCATGCAAGGGCGGGTGAAAGCGGTCGTGCTTCTTGGCGAAACCAGGGAGAAAATCGCGAACGCTGCCGCCAAGGCCGGATTAAAGGACATCATCCTCGTCGATAATGGGGAGGACGCCGCTTCGACATTGACCTCGGCTGTCCGGAAGGCTGCGGGGCTGGCGGAGAGTGGAGACATCGTTCTCCTGTCCCCCGCGTGCGCGAGCTGGGACATGTTTCCTTCCTATGAGACGCGAGGACGCATTTTTAAAGAGGCGGTGCATAACCTTTAA	MKQLDVYRDKHIVVLGLAKSGVQVAKVLHQAGASVIVNDRKEREQCPEASELEALGISVICGGHPDDLIHPGVALLVKNPGIPYSVPPVQKAIELEIPIVTEVEIAYHLCEAPMIGITGSNGKTTTTTWVGEMLESAGLSPIVAGNIGTPLSEAAATATENDWMVVELSSFQLKGTEAFRPRIACLLNVTETHLDYHGGMDDYVASKAKLFANQTSEDTAVLNWDDPVCRNLVPYIKAHIVPFSMSESLREGVHITPPYAPGAQDSDEDDQGRRIIYTDGEGFTHEIIRVENIGLPGRFNVGNAMAACAIAIAAGVAPDKLEEALSSFRGVEHRLEFVAELQGVSYYNNSKATNSKATHMALTSFKEPVVLIAGGLDRGSDYEELIPSMQGRVKAVVLLGETREKIANAAAKAGLKDIILVDNGEDAASTLTSAVRKAAGLAESGDIVLLSPACASWDMFPSYETRGRIFKEAVHNL	PGPT0024125_965	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
AK002_01827	1098	ftsW_1	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGAACAAGAACCGCCAGGCGCCCGATCTGTGGCTGCTTATCTGTATTTTGGCCCTGCTGGCCATCGGAATCGTCATGGTATACAGTGCAGGCTCCGTCCTCGCTTTTCATGACTATGGCGATAAGTTTTATTTTGTGAAGCGTCAGCTGTTTTTTGCCTGTCTGGGGCTTGCTGCCATGTACTTCACATCGAGGATCGATTTTCGGGTTTGGAAGAAATACAGCAAGATTGCGCTGCTGGTCTGCTTTTTTTTGCTGATTATCGTACTAATTCCAGGCATCGGCGTTGTTCGCGGCGGAGCCAGAAGCTGGCTCGGCATCAGCTCGTTCGGCATTCAGCCCTCCGAGTTCATGAAGCTGGGCATGATTCTGTTTCTATCGCGCTGGCTTAGCAAGCAAGACTATGATATTACATCATTTACCAGGGGGCTGATGCCGCCGCTAGGTTTGATCGGACTGGCATTCGGGCTGATCATGCTTCAGCCTGATTTGGGTACGGGCGCCGTCATGCTCGGTGCTGCGATGATGATCGTATTTACGGCAGGAGCACGGATGAAGCATCTGGGCTTTCTCGCTTTAGGCGGGATAGCCGGATTCATAGGCTTGATTCTGACGGCGCCCTACCGGCTGAAGCGGATAACCGGCTTTCTCGATCCATGGTCCGATCCGCTCGGCGCAGGCTACCAGATCATCCAATCCCTCTATGCGATAGGGCCGGGCGGACTCGGCGGACTCGGACTAGGCATGAGCCGTCAGAAGTACGCTTATGTGCCTGAACCGCAGACTGATTTTATTTTTTCGATCCTGGCCGAAGAGTTGGGGTTCATCGGCGGCTTGATTGTATTGCTCTTGTTCGCCGCCTTGGTGTGGCGGGGCATGAGGGTGGCCATGACGGTCACCGACGGCTTTGGCAGTCTGCTGGCCGTAGGGATCGTAGGCATGGTCGCCATCCAGGTCGTCATCAATATCGGCGTCGTTATCGGTTTGATGCCGGTGACAGGGATTACGCTGCCGCTCATCAGTTATGGAGGCAGCTCGCTGACGCTGATGCTGACGGCGCTCGGCATTCTATTAAATATTTCCCGTTATGCGAGGTGA	MNKNRQAPDLWLLICILALLAIGIVMVYSAGSVLAFHDYGDKFYFVKRQLFFACLGLAAMYFTSRIDFRVWKKYSKIALLVCFFLLIIVLIPGIGVVRGGARSWLGISSFGIQPSEFMKLGMILFLSRWLSKQDYDITSFTRGLMPPLGLIGLAFGLIMLQPDLGTGAVMLGAAMMIVFTAGARMKHLGFLALGGIAGFIGLILTAPYRLKRITGFLDPWSDPLGAGYQIIQSLYAIGPGGLGGLGLGMSRQKYAYVPEPQTDFIFSILAEELGFIGGLIVLLLFAALVWRGMRVAMTVTDGFGSLLAVGIVGMVAIQVVINIGVVIGLMPVTGITLPLISYGGSSLTLMLTALGILLNISRYAR	PGPT0014810_4697	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
AK002_01828	1110	murG	COG0707	UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGCGTGTCGTTTTGACCGGCGGCGGAACGGGGGGGCATATTTACCCCGCCGTTGCCATAGCAAGACAATGTGAGAAGGAAGATCCGAAGACGGAGTTTTTATATATCGGAGGCGAGCGAGGCCTCGAAAGCAAGCTGGTACCCCAAGAGAAGCTGCCGTTCGAGAGCATCGATATCACGGGGTTCCGGCGCAAGCTGTCGATGGACAACGTGAAGACGATCATGCGTTTTTTCAAAGGCGTGAAGCGATCGAAGGCCCTTCTGAAGGAGTTTAAACCGGACGTCGTGATCGGGACGGGCGGATATGTGTGCGGCCCGGTCGTTTACGCCGCCGCCAAGCTGGGAATACCGACCATGATTCATGAGCAGAACGCGATTCCGGGCCTGACCAACCAATTCCTCAGCCGATATGCGGATACGGTTGCCGTCAGTTTTGAAGGAACGGAGTCTTCTTTTCCTAAAGCCAAAAGAACGGTATATACAGGAAATCCACGTGCGACAACGGTTTTATCCGCCAATCGTGAACGTGGATTTGCTACGCTCGGCATTCCGGTGGACAGCCAGGTCGTTCTGATCGTCGGCGGAAGCCGGGGAGCCAAGGCGATCAATAACGCGATGATCGGGATGGCGCCGTTCATTCACAAGCTGCCGAACGTCCATTTTGTATTTGTTACGGGCGATACGTATTTCGAGAATACGCGGGAATCCATTCGGTCCCAGCTCGGCACCATGCCGAATCATCTTCATATTTTGCCCTATATTCATAATATGCCGGAAGTGCTTGCGGCTACTTCGCTGATCGTAAACCGTGCGGGAGCCTCATTCCTGGCGGAAATTACATCGCTTGGCATCCCATCCGTCCTTATACCATCACCTAACGTCACCAATAACCACCAGGAGGCGAATGCGAGGCAATTGGAGGAAGCGGGAGCATCCAGCATGATTTTAGAAAAGGACTTGACGGCTGAATCGCTGTTCCGGAAGCTTGAGGAGATCATGACCAACCGCTCTGCAAGAGAGTTGATGTCTGCGGCTTCGAAAGAGCTCGGCAAACCGGACTCGGCGGCCGTCATAACCCAAGAAATCCGCCGGTTAACCGGCAAACGCTAA	MRVVLTGGGTGGHIYPAVAIARQCEKEDPKTEFLYIGGERGLESKLVPQEKLPFESIDITGFRRKLSMDNVKTIMRFFKGVKRSKALLKEFKPDVVIGTGGYVCGPVVYAAAKLGIPTMIHEQNAIPGLTNQFLSRYADTVAVSFEGTESSFPKAKRTVYTGNPRATTVLSANRERGFATLGIPVDSQVVLIVGGSRGAKAINNAMIGMAPFIHKLPNVHFVFVTGDTYFENTRESIRSQLGTMPNHLHILPYIHNMPEVLAATSLIVNRAGASFLAEITSLGIPSVLIPSPNVTNNHQEANARQLEEAGASSMILEKDLTAESLFRKLEEIMTNRSARELMSAASKELGKPDSAAVITQEIRRLTGKR	PGPT0024150_1526	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
AK002_01829	906	murB_1	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGCAGCAGTGGAAATCGCTACTATCAGAGGCCAATGTCGGAGCAGTGTTATGGAATGAACCGCTGGCAAAATATACGACATGGAAAATAGGCGGACCAGCCGATTGCCTGATTGTTCCTGAGAACAAGGAACAGCTCAAGGAACTGGTCACTCTTCTCCATGCCCATCACATACCTTGGACACAGCTGGGCCGCGGTTCAAACATGCTGGTTGCCGATAAAGGAATTCGGGGAGCGGTCATCAAGCTGGGCCAGGGTTTTGAGGAGCTTCGTTTTGACGGAGAGACGGTAACTGCAGGCGGCAGTCTGTCTTTTGTCAAACTTAGTGTTCTGGCCGGAAAACAAGGATTATCCGGGCTCGAATTTGCCGGAGGCATTCCTGGATCGGTCGGAGGGGCCGTCTACATGAATGCGGGTGCCCATGGGTCTGATGTGTCACGCATATTCAAGTCCGCTGACATTGTACTGGAAACAGGGGAATTGGTTACGTATGCTGCGAAAGATATGGCGTTTGATTACCGACACTCCATTCTGCATGAACGGAAAGGGATTGTGACTGAAGCGGTATTTGAGCTCCGTCAAGGAGACCGCAAGGAGATTACAGCCGTTATGGCCTCCTATAAGGACCGTCGCCGGCGTACGCAGCCACTCCAATCCGCAACGGCAGGCAGCGTATTTCGCAACCCGCCCGGCGACCATGCGGCGAGGTTGATCGAGGCTGCCGGTCTCAAGGGCCTGCGGATCGGAGGCGCAGAAGTTTCTTTACAGCATGCCAATTTCATCGAGAACACCGGTCAAGCGACAGCAGAGGACGTGCTCGCTTTGATGGAACGCATCAAGGAAACCATATCGGAGAAGAACGGAATTCAAATGGTGCCTGAGGTGTACGTTCTGGGCGAGCGGTAA	MQQWKSLLSEANVGAVLWNEPLAKYTTWKIGGPADCLIVPENKEQLKELVTLLHAHHIPWTQLGRGSNMLVADKGIRGAVIKLGQGFEELRFDGETVTAGGSLSFVKLSVLAGKQGLSGLEFAGGIPGSVGGAVYMNAGAHGSDVSRIFKSADIVLETGELVTYAAKDMAFDYRHSILHERKGIVTEAVFELRQGDRKEITAVMASYKDRRRRTQPLQSATAGSVFRNPPGDHAARLIEAAGLKGLRIGGAEVSLQHANFIENTGQATAEDVLALMERIKETISEKNGIQMVPEVYVLGER	PGPT0024115_4081	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
AK002_01830	1284	murA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase	TTGGACAAATTGGTGATTGAGGGCGGAAGGCCCCTATCAGGAACCATACGTATCCATGGAGCAAAAAATGCAGCTTTACCTATTCTAGCAGCAAGTCTTCTTGCAGAAGGGACTGTAAGATTAAGCAATGTCCCGCATCTGCTGGATATTGAAGTGATGCTCAGCATTCTCGGCCGTCTCGGCTCCAAATGCAAGCATGAGCTGGAGACGGTGACCGTGGATACCTCGTCGGCCAATTCGTTTCATGTCCCGGAAGATTTAATGAAGCAGATGCGATCCTCCATCTTTTTGATGGGACCTCTGCTGGCCCGTTTTGGCGAAGTGACGATCTACCAGCCCGGAGGCTGCGCGATCGGAGAACGCAAGATCGACCTCCATCTTAAAGGATTGCAGGCGCTTGGTGCGGAAATCGAGGAGAGCAACGATAAAATCCATTGCAGGGCCAGCCGTTTGATCGGAACCGATATTCATCTGGATTTTGCCAGCGTGGGGGCGACGGAGAATATCATGATGGCAGCAGCAACGGCGCTCGGCACGACAGTGCTCACCAATGCCGCGAGAGAGCCTGAAATTCAGGACCTTCAGCATTTCCTGAACAAAATGGGAGCGAACATTATCGGTGCAGGAACGGATACCATAACGATCCATGGCGTGGAGCGCCTGGAGCCTTGCGAGTATGAGATCATTCCGGACCGGATCGTAGCCGGAACCGTCATGATCGCAGCAGCGGTTACCCGCGGCAGCGTAACGCTTACAAAGACCAATCCGTCCCATTTAACTTCCCTTATACATGTGCTGAAGCGCGCCGGTGTTCAAACCAGTATATGCAATGATATAATAAATATAAGCTGCATGAGCCGTCCTAAAGCTGTGGAACGAATCGTGACTTCGCCGTATCCTTCTTTCCCGACTGATTTGCAATCCCAGGTTATGGTCTTGCTGTCCTTGGCGGACGGGTTTAGCGTGATGAAAGAGACGGTATTCGAAGGACGGTTCAAGCATGTAGAGGAACTCTCCCGCATGGGGGCGGACATTTCCACGGATCTGAACTATGCGTTCATACGCGGCGTGCAGAGAATTTACGGAGCCACCGTGGAAGCAACCGATCTTCGGGCTGGAGCGGCGCTCGTCATTGCCGGTTTGGCCGCGCAGGGAACGACCGTGGTGGAGCAAGTTCACCATATTGATCGCGGTTATGATCGTATTGAAAACATGTTCCAAGGTTTAGGCGCACGGATCTATCGTCAGTCCCCGGTGCCAAAGCCGCTTGATTTAGCCAATTGA	MDKLVIEGGRPLSGTIRIHGAKNAALPILAASLLAEGTVRLSNVPHLLDIEVMLSILGRLGSKCKHELETVTVDTSSANSFHVPEDLMKQMRSSIFLMGPLLARFGEVTIYQPGGCAIGERKIDLHLKGLQALGAEIEESNDKIHCRASRLIGTDIHLDFASVGATENIMMAAATALGTTVLTNAAREPEIQDLQHFLNKMGANIIGAGTDTITIHGVERLEPCEYEIIPDRIVAGTVMIAAAVTRGSVTLTKTNPSHLTSLIHVLKRAGVQTSICNDIINISCMSRPKAVERIVTSPYPSFPTDLQSQVMVLLSLADGFSVMKETVFEGRFKHVEELSRMGADISTDLNYAFIRGVQRIYGATVEATDLRAGAALVIAGLAAQGTTVVEQVHHIDRGYDRIENMFQGLGARIYRQSPVPKPLDLAN	PGPT0024090_2586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK002_01831	756	divIB	COG1589	Cell division protein DivIB	ATGTCCAAGACACATATGCCTGTCCTGAAGCAGGACAAGCCCAAACCGAAAACGGCCAAAAAAATCATATGGATTCTTTTGCTGCTGTTCGCAGCTCTGCTGACGATCTTGTTTTTCCGGTCGTCGGTCAGCCAAGTTACCGAGATTCATTTTACAGGCAATACGTTTAATACAAATGAGCAGCTTACCAAGCAAAGCGGACTCCACATCGGAGACCAGTACTTTGGCGTCGACCCCACACTCGTGCAGGAGCGCCTGATGGAGCTGGGCACGATTAAGACGGCCGAAGTGGTCAAGAGCTTTCCGGGCGACATCAGTATCGTGGTGACGGAACATCCTACGGTTGCCTATGAGCTGTCCGACAGCGGCGAGCTCCAAGCGATTCTGTCGAGCGGTACCTCGGTTCCCGTCACGGCAAGCGGCATTGCCGTGGAGAAGCCGATTCTGACCAATTGGGATGCAAACGACCCCAACAAGGCCAAGCTCAGCAAAGTACTTGCCGAGATTCCGGGAAGCCTGACTTCAGACATTTCGGAGATCATGCCGTCGCCAACGTTATCTTTTCCGGACCGGATCAAGATGTACACGCGTTCCAAATTCGAGGTCATCACATCGGTTTCCTTGCTCCATGACAAGGTGGAGTACTTGAATCAGGTTACCGAAATAGAGCGGCCGGGTGTGATTACGATGCTGGAAGCCGATTCTTACGTGCCGTTTGAAGAAGAAGTTGGAGAAGACGCCGAGGAAGGGCAATAA	MSKTHMPVLKQDKPKPKTAKKIIWILLLLFAALLTILFFRSSVSQVTEIHFTGNTFNTNEQLTKQSGLHIGDQYFGVDPTLVQERLMELGTIKTAEVVKSFPGDISIVVTEHPTVAYELSDSGELQAILSSGTSVPVTASGIAVEKPILTNWDANDPNKAKLSKVLAEIPGSLTSDISEIMPSPTLSFPDRIKMYTRSKFEVITSVSLLHDKVEYLNQVTEIERPGVITMLEADSYVPFEEEVGEDAEEGQ				NA	NA	NA	NA	NA
AK002_01832	1284	ftsA	COG0849	Cell division protein FtsA	TTGAGCAACAATGACATCATTGTTAGTTTGGACATCGGTACATCCAAAGTTCGTGCTATTATTGGGGAAGTTAATAATGGAACCTTTAATATTATTGGAGTTGGATCTGCCGACTCGGAGGGAATTCGCAAAGGTGCAATTGTAGATATCGACCAGACCGTACAATCCATTCGCAGCGCTGTAGATCATGCGGAGCGTATGGTCGGTATTCAAATATCCGAAGTTTATGTCGGCATATCTGGAAATCATATCGGACTTCAATCCAGCCACGGCGTTGTGGCAGTATCGAACGAGGATCGCGAAATTGGTGAAGAGGACATTGACCGCGTGCTGAAGGCGGCGGAAGTCGTTGCACTTCCTCCCGATCGTGAAATTATCGATGTGGTTGCTAAACAGTTTGTAGTTGACGGTTTGGAAGGAATCTCTGATCCGCGAGGAATGATCGGCGTAAGGCTGGAAGTGGAAGCGACGATTATAACTGGCGCCAAAACGGCAATACATAACCTGTTACGCTGCGTGGAGAAATCAGGTCTGAAAGTGAAGGATCTGGTGCTGATTCCGCTTGGTGCTGGACAGCTGGCCTTGTCCAAGGACGAGAAAACGATGGGGTCCGTGCTGGTCGACGTCGGAGCGGGCTCAACCACGCTGGCTGTGTTCGAGGGGGGCAGCATTGCCGCAACCTCCACGCTTCCGGTAGGCGGAGATTTCGTGACGAATGATATCGCATACGGCCTGCGAACGCTGACGGATCAAGCAGAGAAGGTTAAACTGAAGTACGGGTGCGCGCTGATCGAGAGTGCCGCACACGAAGTAACGTTCAAGGTAACGAGAATTGGAAGCAATGTGGACAAGGAGTTCACTCAAGAGGATCTGGCAGCTATCATAGAACCTCGCGTTCAGGAAATATTCCAATTAGTGCGCCAAGAAATCAAGCGCTTGGGTTACAGTGAGCTTCCTGGTGGTTATATACTTACTGGGGGCACTATGTCCATGCCTGGTGTGCTGCAGGTGGCACAAAATGAGCTGGCGACTTCCGTACGGATTGCGGTTCCCGATTTTATCGGTGTTCGTGATCCGGGATACTGCAGCGGAGTCGGCATCCTCCATAATGCAATCCGGAACGTACGCGTACGGAATACAGGAGGAAGCAACAACAGCAGCGGAAATAGCAAGAAACCGGTGAACCGCGCTAAGCAGCAAAATCCTGTCGCAGCAACTCAGGAGACCAGCCAGAAGCCGGGATTTATTGAACGCCTGAAAAAGATGTTCAGCGAGTTTATATAG	MSNNDIIVSLDIGTSKVRAIIGEVNNGTFNIIGVGSADSEGIRKGAIVDIDQTVQSIRSAVDHAERMVGIQISEVYVGISGNHIGLQSSHGVVAVSNEDREIGEEDIDRVLKAAEVVALPPDREIIDVVAKQFVVDGLEGISDPRGMIGVRLEVEATIITGAKTAIHNLLRCVEKSGLKVKDLVLIPLGAGQLALSKDEKTMGSVLVDVGAGSTTLAVFEGGSIAATSTLPVGGDFVTNDIAYGLRTLTDQAEKVKLKYGCALIESAAHEVTFKVTRIGSNVDKEFTQEDLAAIIEPRVQEIFQLVRQEIKRLGYSELPGGYILTGGTMSMPGVLQVAQNELATSVRIAVPDFIGVRDPGYCSGVGILHNAIRNVRVRNTGGSNNSSGNSKKPVNRAKQQNPVAATQETSQKPGFIERLKKMFSEFI				NA	NA	NA	NA	NA
AK002_01833	1128	ftsZ	COG0206	Cell division protein FtsZ	ATGTTGGAATTTGATTTTGAAATGGAGAGCTTAGCTCAAATAAAAGTAATCGGAGTAGGCGGCGGCGGAAGCAACGCCGTTAACCGAATGATTGAAAATGGTGTGCAGGGCGTTGAATTTATTACGGTCAATACGGATGCTCAGGCACTCCACCTTGCAAAATCCGAACATAAACTGCAAATCGGGGACAAGCTGACTCGCGGTCTTGGTGCCGGCGCCAATCCTGACGTAGGCAAGAAGGCTGCGGAAGAATCCCGTGATTTGATCATGAACACCCTGAAGGGTGCCGATATGGTATTCGTTACAGCCGGTATGGGTGGCGGTACAGGTACTGGAGCTGCGCCTGTCATCGCTGAAATTGCTAAGGAGTGCGGGGCATTAACGGTTGGGGTTGTCACTCGTCCGTTTACGTTCGAAGGACGCAAGCGTGCTTCCCAAGCGGAGCTTGGCATTGAAGCATTGAAAGAGAAAGTGGACACACTCATCGTCATTCCGAATGATCGCTTGCTGGAGATCGTGGATAAGAAGACACCGATGCTGGAAGCGTTCCGAGAAGCTGATAACGTATTGCGTCAGGCCGTTCAGGGCATTTCTGATCTGATCCAAGTGCCGGGTCTGATCAACCTTGACTTTGCCGATGTGAAAACGATCATGACAGAACGCGGCTCGGCTCTGATGGGTATTGGACTGGCTACTGGTGAAAACCGTGCCTCCGAGGCTGCCCGCAAGGCGATCATGAGCCCGCTGCTTGAAACCTCAATCGAGGGTGCCCGCGGTGTGATCATGAATATTACGGGAGGAACCAATCTTTCCTTATATGAAGTGAATGAAGCGGCCGAGATTGTAACATCTGCTTCCGATCCGGAAGTGAACATGATCTTCGGTGCAATCATTGAGGAAAGCATGAAGGATGAAATCAAGGTCACGGTTATCGCTACCGGCTTTGAGAGCAAGCCTTCTCCAATCCCGCCGGGACGTCGTCCTGCAATGCCGCAAGGGGAACAACAGCAACAACAGCAGCCGGAAACGGACAAGAGTAATGTGAATCTGAAGCCGTTTGGCAATCAGAGCAATGATCAGCTTGATATTCCTACTTTTCTTCGCAATCGTACCCGTAATAATGATTAA	MLEFDFEMESLAQIKVIGVGGGGSNAVNRMIENGVQGVEFITVNTDAQALHLAKSEHKLQIGDKLTRGLGAGANPDVGKKAAEESRDLIMNTLKGADMVFVTAGMGGGTGTGAAPVIAEIAKECGALTVGVVTRPFTFEGRKRASQAELGIEALKEKVDTLIVIPNDRLLEIVDKKTPMLEAFREADNVLRQAVQGISDLIQVPGLINLDFADVKTIMTERGSALMGIGLATGENRASEAARKAIMSPLLETSIEGARGVIMNITGGTNLSLYEVNEAAEIVTSASDPEVNMIFGAIIEESMKDEIKVTVIATGFESKPSPIPPGRRPAMPQGEQQQQQQPETDKSNVNLKPFGNQSNDQLDIPTFLRNRTRNND	PGPT0027695_4662	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
AK002_01834	1023	spoIIGA		Sporulation sigma-E factor-processing peptidase	GTGAACAACCTGGTTGTTTATATTGATCTTATATTTTTGGCAAACCTCGTCATTGACGCCGTTTTGCTGGCTTTGACCGCCTGGATGCGGAGAGTGAAGCCAACATGGTGGAGGCTTGCATTATCCTCTGTGATCGGCGCTCTGTATGTCGTCATGATGTTTGTCCCGCAATTGTCGTTTTTGTTTACCTTTCTCATCAAGTTTGGACTATCGTTGATCATGCTGTGGGTGGCTTTCGGCTTTGTGAGCTTGCAGAGTTATCTTCGGAATTTGGGAGCTTTCTATATGGTGAATTTTGCCGCAGCCGGGGGCATTATCGGTTTTCATTACTTGGTCCAAAATTCGGGAGAGTTGTTCAGCGGGATATGGTATACGACATCGGGCGGGCTATCCTTTGAATTGAAGGTGGGATTCTGGTTTGCGTGCATTACCTTTTTTGTAGTTGTATTCGCGTTTAAAGCCGTTCAGACCACGAAACGAAAAACCGAGAACCGGGAAGCCTTGTTGGGAGAAGTGTCCGTATGGATCGGCAGCGTCAAGATAGGCTGTGTGGGTCTGCTTGATACAGGTAACCAATTGAGCGATCCCTTGACGCGCACGCCGGTTATGGTGATGGAAGCAGAACTATGGGAAGCCTACCTGCCCCAGGGATGGAGCAAACAGCTGATGGAGGGGGAACCGGACAAATTAATCATGGGGCTGGCGGCAGAGGAATTCGAATGGCAGGACCGCCTGCGGCTTGTTCCGTATCGCGGCGTCAACCGGGGGGCTGCATTCATGCTTGCGCTGAAGCCTGACATGGTACGAGTCGAGCTGGGGGGATTTGAATACACGGCATCCAAGGTGCTGATTGGTCTTGACGGCGGGACGCTTTCGGGAGACAGGGCATACAGGGCCATCATCCATCCGGCGTTGACGGAAGGTGAGGGGACGCCGAAGAATGCACAACCTGCCATAACGGGCGATTCTCAGAATCATGAGGCGACCGGTCTGAAATCAGGCGAAGCCAAGACTGCAGGATAA	MNNLVVYIDLIFLANLVIDAVLLALTAWMRRVKPTWWRLALSSVIGALYVVMMFVPQLSFLFTFLIKFGLSLIMLWVAFGFVSLQSYLRNLGAFYMVNFAAAGGIIGFHYLVQNSGELFSGIWYTTSGGLSFELKVGFWFACITFFVVVFAFKAVQTTKRKTENREALLGEVSVWIGSVKIGCVGLLDTGNQLSDPLTRTPVMVMEAELWEAYLPQGWSKQLMEGEPDKLIMGLAAEEFEWQDRLRLVPYRGVNRGAAFMLALKPDMVRVELGGFEYTASKVLIGLDGGTLSGDRAYRAIIHPALTEGEGTPKNAQPAITGDSQNHEATGLKSGEAKTAG	PGPT0024680_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024680-spoIIGA-K06383	NA	NA
AK002_01835	723	sigE_1		RNA polymerase sigma-35 factor	ATGCCCGTTAAATGGAGATTAGCATTGCAGCTGCAGTATTACCGCGTACTTTTTATGCTGGGTTTGAAGAGTCAGGAAATCTACTATATCGGAGGAAGCGAGGCGCTTCCGCCTCCGCTAACGAAAGAGGAAGAGGAGTTCTTGCTCAAAAAGCTGCCTACCGGCGATGCGGCCACCCGGGCCATGCTGATCGAACGTAATCTGCGCCTGGTCGTTTATATCGCCCGCAAATTCGAGAACACCGGCATTAACATCGAAGATTTGGTATCGATCGGTGCCATCGGACTGATTAAGGCGGTGAATACGTTTGACCCCGAGAAAAAAATCAAGCTGGCCACGTATGCCTCGCGCTGCATTGAAAACGAAATTTTGATGTACCTGCGCCGGAATAACAAAACGCGAAGCGAGGTCTCTTTCGACGAGCCGCTGAATATCGATTGGGACGGCAATGAATTGCTCCTGTCCGACGTATTGGGCACCGAGAACGACACCATCTACCGCAACATCGAGGAGCAGGTCGACCGGAAGCTGCTGCAAAAAGCACTCGATAAATTGAGCGACCGGGAACGCATGATTATGGAGCTTCGTTTCGGCCTGCAGGACGGGGAAGAAAAGACGCAAAAAGACGTGGCAGACCTGCTTGGAATCTCGCAATCCTACATTTCCCGATTGGAGAAGAGAATCATTAAACGGCTCCGCAAAGAATTCAACAAGATGGTGTAA	MPVKWRLALQLQYYRVLFMLGLKSQEIYYIGGSEALPPPLTKEEEEFLLKKLPTGDAATRAMLIERNLRLVVYIARKFENTGINIEDLVSIGAIGLIKAVNTFDPEKKIKLATYASRCIENEILMYLRRNNKTRSEVSFDEPLNIDWDGNELLLSDVLGTENDTIYRNIEEQVDRKLLQKALDKLSDRERMIMELRFGLQDGEEKTQKDVADLLGISQSYISRLEKRIIKRLRKEFNKMV	PGPT0014795_1032	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK002_01836	783	sigG_1	COG1191	RNA polymerase sigma-G factor	ATGACGCGAAACAAAGTTGAAATTTGTGGTGTGGATACGTCAAAACTGCCTGTTCTGACGAACGTGGAAATGAGGGAGCTGTTTCATAATCTGCAGCAGAACAATGAACGGTCTGCCCGAGAAAAATTGGTGAACGGCAATCTGAGACTGGTGCTCAGCGTCATCCAAAGGTTTAACAATCGGGGAGAGTTCGTTGATGATCTGTTTCAGGTAGGCTGCATCGGATTGATGAAGGCAATCGACAATTTTGATTTATCGCAAAATGTTAAATTTTCCACTTATGCCGTACCGATGATTATCGGAGAAATACGTCGATACTTAAGGGACAATAACCCGATTCGCGTCTCCCGATCACTGCGCGATATTGCCTACAAGGCACTTCAGGTCCGGGATCAGCTGACCAATGCGAATTCGCGTGAACCAACGATTTTTGAAATTTCCGAAGCGCTGAATGTGCCCAAGGAAGACGTTGTTTTTGCACTCGATGCCATTCAAGATCCCGTTTCGCTGTTTGAGCCGATTTATCATGACGGTGGCGATCCGATATATGTGATGGATCAAATCAGTGATGACAAGAACAAGGATGTGTCCTGGATTGAGGAAATCGCTCTCCGGGAAGCGATGCACAAGCTCGGGCAGCGCGAAAAAATGATTCTGTCCATGCGGTTTTACGAAGGCAAAACCCAGATGGAAGTTGCCGATGAAATCGGTATCTCCCAAGCCCAAGTGTCGCGCCTGGAGAAGTCGGCGATCAAGCAGATGCAGAAGCACGTCAAAACTTAA	MTRNKVEICGVDTSKLPVLTNVEMRELFHNLQQNNERSAREKLVNGNLRLVLSVIQRFNNRGEFVDDLFQVGCIGLMKAIDNFDLSQNVKFSTYAVPMIIGEIRRYLRDNNPIRVSRSLRDIAYKALQVRDQLTNANSREPTIFEISEALNVPKEDVVFALDAIQDPVSLFEPIYHDGGDPIYVMDQISDDKNKDVSWIEEIALREAMHKLGQREKMILSMRFYEGKTQMEVADEIGISQAQVSRLEKSAIKQMQKHVKT	PGPT0014795_114	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK002_01837	300			hypothetical protein	ATGAAAATTTCCGATTTTCAAACAAAGGATGTTATTAATATCATCGACGGCAAGCGGCTCGGGCAAATCAGCGATTTGGAGCTGGATTTGCGGCAGGGCCGGATTGAAGCGATCGTGGTGCCGAGCTACGGCAAATTCATGGGGCTGTTCGGCGGCGGAAGCGATCTGATCATACCGTGGCGGAATATCGTCAAGATCGGCTCGGACGTGGTCCTTGTCAAAATGGAGGAACTGCGGAGAACGCCGGATGATCAGGAAACGATGGAGTATCTGGATCGTCCTGACCGTCGATCCTTCTAA	MKISDFQTKDVINIIDGKRLGQISDLELDLRQGRIEAIVVPSYGKFMGLFGGGSDLIIPWRNIVKIGSDVVLVKMEELRRTPDDQETMEYLDRPDRRSF				NA	NA	NA	NA	NA
AK002_01838	855	rl5		Polyphenol oxidase	ATGGAACCGTTTGTTAGTCAAGATCGGCAGACACCGAGTCTGTTTGTGCTCGAAAAATGGGAAGGGAAATCAACGGCCGCACTTACGGCCGGGTTCACGGGCCGGCATGGCGGCGTGAGCCGGATACCCTATGACAGTTTGAATTTGGCCTTTCATGTCGGAGACGAGCCGGGCGACATTGTCGAGAACCGGAAGCGGATCGCCGCGGCGCTTGGCTTTTCTCTCGAAGACTGGACGTGCGGCGAGCAGGTGCACGGCGTCCGGATTGGCGTCGTTCATGATAAGGACAGGGGCAGAGGGAGCTTGGAGCGGGCCTCGGCCTATCAAGATACGGACGGGCTTGTAACCGATGTTCCCGGCGTGTTGCTGACTTCCTTCTATGCGGACTGCGTGCCGCTGTATTTCTGGGACCCGGTCACGGGCGCCGTCGGTCTGGCCCACGCAGGCTGGAAGGGAACCGTGGGAGGCATAGCCGAACAAATGGTGGTCAGGCTGTCTGCGGAATACGGAAGCTTGCCTGGGAACCTCCATGCAGCCATCGGTCCGTCGATCGGCGAATGCTGTTACGAGGTGGACGATCGGGTCATGGATCGTGTCCGCGAACTCGGAATTGAAGGATTCCCAGTCGATAAAGTTACAAATTCAGCTTTTTATATCGACAAAGGACACGGGAAATACATGCTGAACTTGAAAGAAATAAACAGACACATTATGATTAAAGCAGGAATATTGGCGGAACATATCGAATGTACATCATGGTGTACAAGCTGCAATCACGATCTGTTCTTCTCCTATCGCAAAGATGGAGGGACTACGGGTCGGATGGCGAGTTGGATCGGGATGAGAAAGAGGTGA	MEPFVSQDRQTPSLFVLEKWEGKSTAALTAGFTGRHGGVSRIPYDSLNLAFHVGDEPGDIVENRKRIAAALGFSLEDWTCGEQVHGVRIGVVHDKDRGRGSLERASAYQDTDGLVTDVPGVLLTSFYADCVPLYFWDPVTGAVGLAHAGWKGTVGGIAEQMVVRLSAEYGSLPGNLHAAIGPSIGECCYEVDDRVMDRVRELGIEGFPVDKVTNSAFYIDKGHGKYMLNLKEINRHIMIKAGILAEHIECTSWCTSCNHDLFFSYRKDGGTTGRMASWIGMRKR	PGPT0019965_382	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_LIGNIN_DEGRADATION|LIGNINASES	PLANT_LIGNIN_DEGRADATION-POLYPHENOL_OXIDASE,PGPT0019965-yfiH-K05810	NA	NA
AK002_01839	723		COG0325	Pyridoxal phosphate homeostasis protein	TTGGATCGGGATGAGAAAGAGGTGAGTCGTCCCTTGAGTTTGAAGGAACGTATCGATCAAGTGGAACAGCGAATAACGGAGGCATGCGCAAGAAGCGGCAGGGACCGGAATGATGTGAATATGATTGCGGTCACGAAATATGTCTCCTTGGATATGACGGCTTCGGTACTGGATCACGGACTTTTGCATATCGGCGAGAACCGCTGGCAGGATGCCCAGGCGAAGTGGAATGCACTCGGCAGCCGCGGCACATGGCATTTCATCGGCCATCTTCAGACCAATAAGGTCCGGGATGTCATTGATAAATTTCAATATATTCATTCGCTCGACCGCTTGTCTTTGGCCCATGAGCTGGAGAAGCGGGCGGCTGCGCTGAATCTGCAGGTATCCGCCTTGATGCAGGTCAATATCTCGGGTGAGGAATCCAAGTACGGCTTGCCTCCCGAGCAAGCAGCTGAGTTTTTGAAGGAAATCAACAGTCTTTCGCACGTAAAGGTTACCGGACTCATGACCATGGCTCCATACGAATCGTCGGCGGAGCAGACGCGTCCTGTATTTCGTGGTTTAAGACAACTAAGAGATGAGCTGAACGAGCAGGCGCTTACGGCGGAGCCATTGACCGAATTGTCCATGGGCATGTCCAATGACTTTGAAGTTGCCATAGAGGAAGGGGCGACCTGGGTGCGTCTCGGCTCAATTTTAGTAGGGAAAGAGGAGGATTGA	MDRDEKEVSRPLSLKERIDQVEQRITEACARSGRDRNDVNMIAVTKYVSLDMTASVLDHGLLHIGENRWQDAQAKWNALGSRGTWHFIGHLQTNKVRDVIDKFQYIHSLDRLSLAHELEKRAAALNLQVSALMQVNISGEESKYGLPPEQAAEFLKEINSLSHVKVTGLMTMAPYESSAEQTRPVFRGLRQLRDELNEQALTAEPLTELSMGMSNDFEVAIEEGATWVRLGSILVGKEED				NA	NA	NA	NA	NA
AK002_01840	447	sepF	COG1799	Cell division protein SepF	ATGGGCGTGATGAACCGGTTTATGAATTTCTTGGGACTGCAAGAGGAAGAAGAAGTTGTGGAACGCGAGGTTCTGGCCTCGCAGGAAGAGCCGGTGGAGGCAACGCCGTTTGATCATCGGAAAAACCAAAAGAGCGGCAATATCGTTAGCATTCATTCGCAGAAGAACGTTAAGGTTGTATTAGTCGAGCCTCGTTCATATGATGAAGCACAGGAGATTGCAGATCATCTGCGGTCATTCCGAACGGTTGTGGTCAACCTTCAGCGCGTGAGGAATGATCAGGCGCTGCGCATTATCGATTTTCTTAGCGGAACCGTTTATGCGCTTAGCGGCGGAATCTCGAAGGTGGGCGGGAACATCTTCCTATGCACGCCGGATACCGTAGAGATCCAAGGTTCGATCTCGGAGATTCTAGCAGACGAACATGAATATAACAGAATGAGGTGA	MGVMNRFMNFLGLQEEEEVVEREVLASQEEPVEATPFDHRKNQKSGNIVSIHSQKNVKVVLVEPRSYDEAQEIADHLRSFRTVVVNLQRVRNDQALRIIDFLSGTVYALSGGISKVGGNIFLCTPDTVEIQGSISEILADEHEYNRMR				NA	NA	NA	NA	NA
AK002_01841	270			hypothetical protein	TTGACCTACGAAATTATTAGCGTTGTTAGCACGCTATTCCGTATTTACTTCTACATGATTTTGGTTTATGTCTTGATGTCCTGGCTTCCGAATGTGAGGGAAAGCTTTGTCGGGGAGCTGCTTGGCAAGCTGGTAGAGCCTTATCTGGCACCTTTTCGCCGGTTCATTCCGCCGATTATGGGCATGATCGATATTTCCCCGATTATCGCGCTGTTCGTGCTGCAGCTGGCTGAGCGCGGCGTATACGCTATTCTCGGATATATCCTGTAG	MTYEIISVVSTLFRIYFYMILVYVLMSWLPNVRESFVGELLGKLVEPYLAPFRRFIPPIMGMIDISPIIALFVLQLAERGVYAILGYIL	PGPT0013730_3322	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TYPE_IVa_PILUS_HOMOLOG_PROTEIN,PGPT0013730-yggT|ylmG-K02221	NA	NA
AK002_01842	783			hypothetical protein	ATGAAACTGGACATCTACGATCATTTTCACAAGGACGAACGGGAATTTGTGGACCGGGCTTGGGAATGGGTGGTCAATGCCGGACAATATCATGAAACCAAGCTGACGGATTTCCTGGATCCCCGGCAGCGGTTCATTCTGGAATCGCTCGTGAATCGTCATCCGGACGTGCATGCCGTGTTTGATGGCGGACATGCTGATGCCGAACGCGTGCGGGCGATGATTGCTCCGGATTACCGGGCGCTTGAAGGCGAGGATCTGATGATGAAGGTGCTCAGCATCTCTTCCGGAGATCAGAAGTTTCTGGAGCTGGAGCATGGCGATTATATGGGTTCGATACTGGGTCTGGGCATTAAGAGATCCAAGATCGGTGATATCCATGTGCTTGCGGACGGCTGCCATGCGGTCGTTGCCGACGATATCAGCGCCTTCCTGCATCTGAATCTCAGCCAGGTCCACCGGGTGCATGTCATGACGGATCTGCTGCCGCTGGACAAGCTTCAGGTGGCCCGCACGAATTTCGAGGCGATGGACATTACGGTATCTTCCATGAGACTGGACGGAATCGCCAGTGATGCCTACCGAATCAGCCGCACAAAAATCGTCGTGCCGATCAAGGCTGGCCGGTGCCGCGTCAACTGGAAAGTGGAAGAGGATCCCTCCACGAATTTAAAAGAAGGCGATGTCGTCTCCATCCAAGGATTTGGACGGTTTAAAGTACTGGAGACGGGCGGCCTGACGAAAAAAGGGCGGTACCGTATCAAGGTTGGGAAATATGCTTGA	MKLDIYDHFHKDEREFVDRAWEWVVNAGQYHETKLTDFLDPRQRFILESLVNRHPDVHAVFDGGHADAERVRAMIAPDYRALEGEDLMMKVLSISSGDQKFLELEHGDYMGSILGLGIKRSKIGDIHVLADGCHAVVADDISAFLHLNLSQVHRVHVMTDLLPLDKLQVARTNFEAMDITVSSMRLDGIASDAYRISRTKIVVPIKAGRCRVNWKVEEDPSTNLKEGDVVSIQGFGRFKVLETGGLTKKGRYRIKVGKYA				NA	NA	NA	NA	NA
AK002_01843	495	divIVA	COG3599	Septum site-determining protein DivIVA	ATGCCATTGACACCGCTTGATATACATAACAAGGAATTCGCCCGTCGAATTCGCGGTTATGATGAGGACGAGGTCAACGAGTTTTTGGATCAGATTATTAAGGATTATGAAAGTGTGATCCGGGAGAATAAAGAATTAGGCAACCAGCTAATGGCGATGCAAGAAAGACTGGATCATTTTTCGAATATTGAGGAAACCTTATCAAAGACCATCATTGTCGCCCAGGAGGCGGCGGATGAGCTGAAGAACAACGCGAAGAAGGAAGCTCAGCTGATCGTTAAGGAATCCGAGAAGAATGCGGACCGGATCATTAACGATGCGCTCGGGAAATCACGCAAAATCGCGCTGGAGGTTGAAGAGCTGAAGAAGCAGGCCTCCATCTACCGCACCCGTTTCCGCTCCTTGGTAGAGGCTCAGCTGGAGCTTCTGAAGCAGGAAGGCTGGGAGACGTTGGAGAACCGCGAACCGAGTCTGGAGCCGAAAGAGGTATACTAG	MPLTPLDIHNKEFARRIRGYDEDEVNEFLDQIIKDYESVIRENKELGNQLMAMQERLDHFSNIEETLSKTIIVAQEAADELKNNAKKEAQLIVKESEKNADRIINDALGKSRKIALEVEELKKQASIYRTRFRSLVEAQLELLKQEGWETLENREPSLEPKEVY	PGPT0014805_779	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014805-divIVA-K04074	NA	NA
AK002_01844	3090	mupB		mupirocin-resistant isoleucine--tRNA ligase MupB	ATGAACAGAGTAGACGTCAAGGAGAAGGCGCGGGCAAGAGAGCTGCGCATCTTGAACAAATGGAACGAGGAGAACACGTTCAAGAAATCAATCGAGCTGCGGGCAGGCAAGCCGAATTATGTATTTTACGAAGGTCCGCCGACCGCGAATGGCGCGCCTCATATCGGCCATGTGCTCGGCCGGGTCATCAAGGATTTTGTGGGCCGCTATCAGACGATGAAGGGCTACCATGTCGTCCGGAAAGCGGGCTGGGATACGCACGGGCTTCCGGTAGAGCTGGGCGTAGAGAAGCAGCTGGGCATCTCCGGCAAGCAGGAAATCGAGAATTATGGCGTGGAGGCCTTTATCAAAAAGTGTAAAGCCAGCGTATTTGAATATGAGCATAAATGGCGCGAGCTGACCGAAGCGATTGCTTATTGGACCGACCTGGATCATCCGTACATCACGCTTGAGAACAACTATATCGAGAGTGTTTGGAACATTTTGGCGACGATTCATGACAAGGGCCTTCTGTACCGTGGTCACCGCGTAAGCCCGTACTGCCCTTGCTGTCAGACGACACTGAGCTCCCACGAAGTGGCACAGGGTTACGAGGATGTTAAAGACCTGAGCGCAACGGCGAAGTTTAAGCTGCATGACAGCGGAGAGTATGTGCTGGCATGGACGACGACGCCTTGGACGCTGCCATCCCACGTGGCGCTCGCCGTGAATCCGGATATGGATTACGCTCGCGTCAAGCAGGAGGACGGCATCTATATCGTGGCTAAAAATCTGGTAGAGGATGTCATGAAAGGCGACTTTACCGTTCTATCGACGCTGAAAGGCTCCGAGCTGGTCGGCAAGACTTACGACCCTCCATTCCCTTATGTAAAAGCGGAAAAATCGAACATCGTTGTCGGCGCATCCTTTGTTACCGATGCAAGCGGTACGGGGATTGTACACATGGCTCCTGCGCACGGTGAAGACGACTACCGCGTATGCCGCGAGAATGGCATCAGCTTCGTGAGTGTCGTGAACGGCCAAGGCCGTTATACCGATGAAGTGACGGATTTTGCCGGACGCTTCGTCAAGGATTGCGATCTGGACATCGTGAAGGCATTGTCCGAAAAAGGACTTCTGTACAGCAAGGAGAAATACGAGCACAGTTATCCATTCTGCTGGCGCTGTAAATCCCCGCTGCTCTATTATGCGATGGAGAGCTGGTTTATCGAAACGACGGCGGTTAAGGATCAGCTGATCGCGAACAACAACGAGGTAACCTGGTACCCAGGCCATGTGCGTGAAGGCCGCTTCGGCAAGTTCCTTGAAGATCTGGTCGATTGGAATATCAGCCGGAACCGTTACTGGGGAACGCCGCTTAACGTATGGGTCTGCGATTCTTGTGAAGGGCAGTTCTCGCCGCACAGCATTGGGGAGCTTCGGGCTAACGCCGTAGGCGAGGTAGCAGAGGATCTGGAGCTGCACAAGCCATATGTGGATGAAGTGAAAGTCAAATGCCCGCATTGTGAAGGCGGCGTGATGGAACGGACCTCGGAAGTCATTGACGTATGGTTTGACAGCGGATCGATGCCGTATGCGCAATACCATTATCCATTCGAGGACAAGGAGAAGTTCGAACAGCAGTATCCTGCCGATATGATCTGCGAAGGGATCGACCAGACGCGCGGATGGTTCTACAGCTTACTCGCCGTATCGACCCTCTTCACCGGTAAAGCGCCTTATAAAGCGGTCATGGCCACGGGCCATATTCTCGATGAGAACGGACAGAAGATGTCCAAATCCAAGGGCAACGTCATCGATCCTTGGGAAATCATCGAGGAGTACGGCACGGATGCGTTCCGTTGGGCGCTGCTCGCCGACAGTGCGCCATGGAACAGCAAGCGTTTCTCGAAAGGAATCGTCGGCGAAGCTAAATCCAAGGTTGTGGACACGCTGGTGAACACCCATGCGTTCCTGACATTGTATGCCGGCATCGACGGCTATGATCCGAAGGAGCATGACTTCAAGGGATCGGACCACAAGCTGGACCGCTGGATTCTCTCCCGCCTGAACAGCTTGATTCAAGTGGTTGACAAGGGATTGGCCGTCAATGATTTCCTTAACGCGGCCAAAGCCATCGAAGCTTATGTGGATGAGCTGAGCAACTGGTATATCCGTCGTTCGCGCGATCGTTTCTGGGGCAGCGGACTCGGGGAAGATAAGCTGGCCGCATACGGGACGCTTACGCACGTGCTGTTGACGCTATCCAAGCTGATGGCACCATTCACGCCGATGCTGTCCGAAGATATCTTCGTCAACCTGGGCGGCGGCGAGAGCGTGCATCTGGCCGACTTCCCGCAAGCCGACGAAGCGTTGATCGACAAAGCGCTCGAGCAGGACATGGAAACGGCAAGACAGATCGTAGAGCTTGCGCGCAACGTCCGCAACGAGACAGGAATCAAGACGCGTCAGCCGCTGTCCGAGCTCATCGTATCCATGGATCGCGAGTTCGATCTCGCGGGGTATGAAGACATCATCAAGGATGAGATCAACGTCAAAGCAATTGAGGTGGAGACCAGCGACAGCGGGTTCGTTGATTTCACGCTCAAAATGCACCTGAAGGTTGCAGGCAAGAAATACGGTAAAAATATTGGCTTCCTGCAAGGTTTCCTGAAGGGAATGAGCAGTGACGAAACCCGCAAGGTGGTCCAATCGGGCGGCGTGAACGTAACTTCACCGGAAGGCGAAGAATTGCAGATCACGTCCGAAGAGCTGCTGGTAGAGAAGAAGGCGAAGGCAGGCTTTGCATCCGCTTCGGGTTACGGGTTAACCGTTGCGCTCAATACGGATATCACGCCGGAGCTGGAGCAGGAAGGCTGGGTTCGCGAAGTGGTGCGTGCCGTGCAGGATACGCGCAAGAAGCTGGACCTGCCGATCGAGAAGCGGGTCAATCTGACCCTCGATACGGATGATGAGCTTCAAGCTGCGATCACCGCATTTGAAGATGTGCTGCGCGAAAATGTTCTGGTTAACGATTTGCAATACGGACAAAGCGAAGGCATGGAGCGGGTTGAGCTTGGCGGCAAAACCATTGGCATCCATATCGCCTGA	MNRVDVKEKARARELRILNKWNEENTFKKSIELRAGKPNYVFYEGPPTANGAPHIGHVLGRVIKDFVGRYQTMKGYHVVRKAGWDTHGLPVELGVEKQLGISGKQEIENYGVEAFIKKCKASVFEYEHKWRELTEAIAYWTDLDHPYITLENNYIESVWNILATIHDKGLLYRGHRVSPYCPCCQTTLSSHEVAQGYEDVKDLSATAKFKLHDSGEYVLAWTTTPWTLPSHVALAVNPDMDYARVKQEDGIYIVAKNLVEDVMKGDFTVLSTLKGSELVGKTYDPPFPYVKAEKSNIVVGASFVTDASGTGIVHMAPAHGEDDYRVCRENGISFVSVVNGQGRYTDEVTDFAGRFVKDCDLDIVKALSEKGLLYSKEKYEHSYPFCWRCKSPLLYYAMESWFIETTAVKDQLIANNNEVTWYPGHVREGRFGKFLEDLVDWNISRNRYWGTPLNVWVCDSCEGQFSPHSIGELRANAVGEVAEDLELHKPYVDEVKVKCPHCEGGVMERTSEVIDVWFDSGSMPYAQYHYPFEDKEKFEQQYPADMICEGIDQTRGWFYSLLAVSTLFTGKAPYKAVMATGHILDENGQKMSKSKGNVIDPWEIIEEYGTDAFRWALLADSAPWNSKRFSKGIVGEAKSKVVDTLVNTHAFLTLYAGIDGYDPKEHDFKGSDHKLDRWILSRLNSLIQVVDKGLAVNDFLNAAKAIEAYVDELSNWYIRRSRDRFWGSGLGEDKLAAYGTLTHVLLTLSKLMAPFTPMLSEDIFVNLGGGESVHLADFPQADEALIDKALEQDMETARQIVELARNVRNETGIKTRQPLSELIVSMDREFDLAGYEDIIKDEINVKAIEVETSDSGFVDFTLKMHLKVAGKKYGKNIGFLQGFLKGMSSDETRKVVQSGGVNVTSPEGEELQITSEELLVEKKAKAGFASASGYGLTVALNTDITPELEQEGWVREVVRAVQDTRKKLDLPIEKRVNLTLDTDDELQAAITAFEDVLRENVLVNDLQYGQSEGMERVELGGKTIGIHIA				NA	NA	NA	NA	NA
AK002_01845	351			hypothetical protein	ATGGCAGAGACGCCGGAAAATGCGTTATCAACCGAAAAGAATAAATCGCTTGTGGAAGCTGAACGGGACCAGTTGAGCGCCATACACCGCATGACCACGGACATCGCGCAGCAGCTGGAGAAGGCCCGGATCGCGGAATACACCCAGCTGTTGAACCGCCCCTGGAAATTGATCTGGACCAATCTGTTGGCCGGGTCGGCACGCGGCGTGGGAATCGCGATCGGGTTTACTTTTTTTGCGGCAACCATCATATATGCCCTGCAGGCGCTTGGCGCGCTGAATTTGCCTATTATCGGCGATTACATTGCGGATATTGTCCGGATTGTCCAGCGCCAGCTTGAACTGACGTAA	MAETPENALSTEKNKSLVEAERDQLSAIHRMTTDIAQQLEKARIAEYTQLLNRPWKLIWTNLLAGSARGVGIAIGFTFFAATIIYALQALGALNLPIIGDYIADIVRIVQRQLELT				NA	NA	NA	NA	NA
AK002_01846	741	dksA_1		RNA polymerase-binding transcription factor DksA	ATGTCGCATCTCACTCAGGAGCAACTTCATAATTTGCAACAAAAGCTGATGGATCGAAAGGTTGAACTTGAACGGCGCATGGTCAATAACGACCAACACGGGCTGGGAGAATCGGAGCGAGATATGACCGGCGAGCTGTCCCATATTGATAATCATCCTGGCGATGTGGGAACCGAGGTGTTTGAAAGAGGAAAAGACCTCGCGCTTCAGGACAGGGTGGATCAGGAGCTGCAACGGGTAATTTTTTCGCTGGAAGCCATTCATCATGGCCGTTACGGCGTCTGCCTTACCTGCGGCCAGCCCATTCCGTACGAGCGGTTGGAGGTTATCCCGGATACGCAATATTGCGTAGAACATACGCCTCGGGAGCGCGTGTCCCGCGACCGTCCGATCGAGGAGGACGTTCTAGCTCCCGCTTTCGGAAAATCCAGTATGGATGAGCACGAATATGCTGCATTTGACGGCGAGGACGCCTGGCAGATCGTTGAGAGCTGGGGGAACTCCAATTCCCCGGCTTTGGCGGAAGGTAACGAAATTGACAGCTATAACGAAATGGATATCGAGAATGGCGACGATCAAGGCGGGTTCGTGGAGGTATACGAAAACTTCGTTGCCACCAATATCGATGGCTCGGAAGTGTTTATCGTACGCAGTCCCCAATATGTCGATTACCTGAACCGGGGCGAAGGAAGCTATCTCCTTGACCCCCATGGCGACCCGGATGATGAATCATTCAGCTGA	MSHLTQEQLHNLQQKLMDRKVELERRMVNNDQHGLGESERDMTGELSHIDNHPGDVGTEVFERGKDLALQDRVDQELQRVIFSLEAIHHGRYGVCLTCGQPIPYERLEVIPDTQYCVEHTPRERVSRDRPIEEDVLAPAFGKSSMDEHEYAAFDGEDAWQIVESWGNSNSPALAEGNEIDSYNEMDIENGDDQGGFVEVYENFVATNIDGSEVFIVRSPQYVDYLNRGEGSYLLDPHGDPDDESFS	PGPT0014560_210	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
AK002_01847	501	lspA	COG0597	Lipoprotein signal peptidase	GTGGTATATTATTTGATTGCATTTGTTTTATTTCTAATCGATCAGGGAACCAAGTACTTGATTGCTACCAGGCTCGAGCTTTATGAACAGATACCGGTCATCGGGGATTTCTTCCTGATCACGTCCAGCCGGAACCGGGGAGCCGCGTTCGGCATACTTCAGGACCAGTTATGGTTCTTCATCATTGTGACAATAATCGTTGTGGGCGGAATCGTCTGGTACCTGCGGAAGGTATCCAAAGAAGGACGCAAGCTGCTGCCGACCGCGCTTGCGCTTGTACTTGGAGGGGCACTCGGAAACTTCATCGATCGATTGATAATGGGAGAGGTCGTCGATTTCCTGCAGTTTAATTTTGGCAGCTACACCTTCCCGATCTTTAATATTGCCGATTCTTGCATCGTGATCGGCGTGGGACTGATCATATTGGATACGCTTCTGGAAGGAAGACGCGAGAAGATGCAGACAACAAGTGAAGTTTCTGGCACAGAAGGGACTGAATGA	MVYYLIAFVLFLIDQGTKYLIATRLELYEQIPVIGDFFLITSSRNRGAAFGILQDQLWFFIIVTIIVVGGIVWYLRKVSKEGRKLLPTALALVLGGALGNFIDRLIMGEVVDFLQFNFGSYTFPIFNIADSCIVIGVGLIILDTLLEGRREKMQTTSEVSGTEGTE	PGPT0004770_3164	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
AK002_01848	975	rluD_1	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGATAGTGCAAGACGGTAAGGATACAGATACGGATTGGACAGATGAGAACGGTCGGGAAACGGAAGCCAGCGAATGGACGGTGGAGGCCGACGCTGCCAAAACCCGTATCGATAAATACATAACGGAGAATCTTGGGGAAGATGTGTCGCGTTCCCAAGTGCAGTTATGGATTGCGGACGGACATGTGAGCGTGAACGATGGCCCGATCAAGTCCAATTACAAAGTAAGTCAGGGTGACCGCATCGTGCTGAAGGTTCCCGAGCCATCGGCCGTCGAAATCATTCCCGAGGACATCCCGCTTGAGATCGCGTTTGAAGACGGAGACGTGATTGTCGTAAACAAGCCGAGAGGGATGGTTGTCCATCCGGCTCCGGGGCATTCGTCCGGCACGCTAGTGAATGCATTGATGTTTCACTGCAAGGATTTGTCGGGAATCAATGGAGAGCTTCGCCCCGGCATCGTCCATCGGATCGATAAGGATACTACGGGCCTGATCATGGCCGCGAAGAATGATAAAGCCCATGCTTCGCTGGCCGCCCAGTTGAAGGAGCACAGCGTGAACCGCCGTTATTTGGCGTTGGTGCACGGCAATATCAGCCATGATCAGGGAACCATTGACGCACCGATCGGACGGGACGCGCAGGATCGCAAACTGTATACCGTCACGGACCGGAACAGCAAACATGCGGTGACGCATTTTACCGTCGTGGAGCGGTTCGGGGATTACAGTCTCCTCGAGCTTAAGCTGGAGACGGGACGAACCCATCAGATTCGCGTGCATATGAAGTATATCGGGCATCCTCTCGTAGGGGATCCCGTTTACGGCAAGAGCAAGGGGATCAAATTGAACGGACAAGCGCTTCATGCGGCCGTTTTGGGTTTTGTCCATCCTTCGACCGGGGAGTATATGGAGTTTTCGGCACCGATGCCGAGCGATATGAATGAGCTGTTGACGATTTTAAGGGGCCGCTAG	MIVQDGKDTDTDWTDENGRETEASEWTVEADAAKTRIDKYITENLGEDVSRSQVQLWIADGHVSVNDGPIKSNYKVSQGDRIVLKVPEPSAVEIIPEDIPLEIAFEDGDVIVVNKPRGMVVHPAPGHSSGTLVNALMFHCKDLSGINGELRPGIVHRIDKDTTGLIMAAKNDKAHASLAAQLKEHSVNRRYLALVHGNISHDQGTIDAPIGRDAQDRKLYTVTDRNSKHAVTHFTVVERFGDYSLLELKLETGRTHQIRVHMKYIGHPLVGDPVYGKSKGIKLNGQALHAAVLGFVHPSTGEYMEFSAPMPSDMNELLTILRGR				NA	NA	NA	NA	NA
AK002_01849	156			hypothetical protein	ATGAATATCGAGATGGTCAACAACCGTATTAGCCAGCTGCCTATCGCTATGGCTGGCATTGTTCATGCATTTCTCAACAACGGGAGAGGTCTGTCCAATTTTAATGATACGAGTTGTACCATCGCGAGAAGTCACCTGCCTGCCTGCACGGATTAA	MNIEMVNNRISQLPIAMAGIVHAFLNNGRGLSNFNDTSCTIARSHLPACTD				NA	NA	NA	NA	NA
AK002_01850	1962	ettA	COG0488	Energy-dependent translational throttle protein EttA	ATGAATATGATCAATGTACAGAAACTGACGCAATACCACGGGGCCCAGCTGGTATTGGACGGGATATCGTTTGAAATACAGGAAGGCGAGAAGGTAGCGCTAATCGGCAGAAACGGAAGCGGCAAGTCCACGCTGATGCGCCTGCTTGCCGGATTGGATCAGCCGAACGAAGGGCAGCTTGCCATCAAGAAGGATACGAAAATCGGGTATGTGGAGCAGATTCCGAGCCATATGGATTCCTGGACGGTGCTGGATGTACTGTCCCATGGATTGATTCACTTGAAGGAATACCGCGCGGAGATGACGGAACTGGAGAAGAGAATGAGTGATCCGGGAATCGCCGGGAATGCAGAGCTGCTCGATCGTGTGCTGCGTCGTTACTCGGCGCTCCAGGAACGGTTTGAAACAGAAGGCGGTTATGAGCTGGAAGCCAGCATCGACAGAATCGCTACCGGGCTGCAAATACCCAAGAGCGAGTACGGACTGTCATTCGGCTCGTTGTCGGGGGGAGAGCAAACCCGCGTCGTACTGGCATCGCAGCTGATCGTACAGCCGGATCTGCTCCTGCTCGATGAACCGACGAATCATCTGGATTTGGCACGCACGGAATGGCTGGAGGAATTTTTGCGGGAATACCCGGGAACCTGCGTCATTATTTCTCACGACCGGTATTTTCTCGATCGGGTGGTGACCAAGACGATAGAGCTCGAGGACGGAGAGGCTTTCTCTGCCCAGGGTGGTTATACCGCATTCATGAAAGACAAGGAAGAACGGCTGCTGCAGCAGTTCGCCGATTACCAGGAGCAGCAGAAAGTGATCAAGAAGATGAAGGAATCCATCAAGCAGCTGGAGGAATTCGGCCGGATCGGCGGCAACGAGAAATTTTTTAAGCGGGCGGCTTCCATGCGGCGAGCGCTGGAACGGATGGAGAAGGTCAAGCGACCTGTGCTGGATCGAAGACAGGCCGATTTCGAGCTTCATCCTCAGGATCGTTCCGGCCGCCGCGTGGCATACTTTGAACAAGTTGAGGTTCGCTACGGGAATCAGGCGGTGCTGGGAGGGGCTTCCGGGCTTATCGAATTCGGCGAAAAAATTGCGCTGATGGGTCCGAACGGCAGCGGAAAAACGACGCTGTTCAAAGTGCTGGTGGGTGAGCTTATGCCCGACGCCGGGTCCCTTGAATGGGGCGCGCGCGTCGACGTGGGTTATCTGGCCCAGCAGGAGGAGCCGGATAATCCGAAGGAAACGGTGCTCCAATATTTTCGGGAGAACGCCGGGGTTGAAGAGGGAGAGGCCCGCGGGATTTTGGCAAGATATCTGTTCTATGGCGCGGTCGTGTTCCGATCGGTGGGCCAGCTGTCAGGCGGTGAATGGACACGATTGAGGCTGGCGCTCCTTATCCATCAAAAGCCGAACCTGCTGCTCCTGGATGAACCTACGAACCATCTGGATATTGCTTCCCGGGAGGCCTTGGAGGATGCGCTGCAGGGGTATCAGGGGACCGTTCTTGCCATTTCCCACGACCGTTATTTCGTAAACCAAGTGTCAGGCAAAGTGTGGGATTTGAACCAAGGAACGCTGACCGTCTTTCATGGAAATTATGATGATTTCCGGGCCAAGAAAGACCAGCTTGAAGCCGCATTGCAGGTAAGAGAACTCAGAGCTGGTGCGAATGCCGTTTCTTTACAAAAGGGGACGCCGCCGTCCAAATCCAACGAAAAGCCCGGCCAGAAATTCGAACGCAACCATCCTGATCGCTCTGCTGCGGAAAGATCCAAATGGCTGGAAGAGGAGATCGCCCGTTTGGAGACCCGCATCCGGCAGCTGGACGGCTGGCTTGAAACGGAAGGCTCGATAAGCGGCAATTCGGACATGACGCTGCTCGAAGAGCATTGGAACGAGCGGGAGTCGCTGGCAGCGAGCCGCGACGAGCTCCTAGCGGAATGGCTGGAGCTGTCTTAA	MNMINVQKLTQYHGAQLVLDGISFEIQEGEKVALIGRNGSGKSTLMRLLAGLDQPNEGQLAIKKDTKIGYVEQIPSHMDSWTVLDVLSHGLIHLKEYRAEMTELEKRMSDPGIAGNAELLDRVLRRYSALQERFETEGGYELEASIDRIATGLQIPKSEYGLSFGSLSGGEQTRVVLASQLIVQPDLLLLDEPTNHLDLARTEWLEEFLREYPGTCVIISHDRYFLDRVVTKTIELEDGEAFSAQGGYTAFMKDKEERLLQQFADYQEQQKVIKKMKESIKQLEEFGRIGGNEKFFKRAASMRRALERMEKVKRPVLDRRQADFELHPQDRSGRRVAYFEQVEVRYGNQAVLGGASGLIEFGEKIALMGPNGSGKTTLFKVLVGELMPDAGSLEWGARVDVGYLAQQEEPDNPKETVLQYFRENAGVEEGEARGILARYLFYGAVVFRSVGQLSGGEWTRLRLALLIHQKPNLLLLDEPTNHLDIASREALEDALQGYQGTVLAISHDRYFVNQVSGKVWDLNQGTLTVFHGNYDDFRAKKDQLEAALQVRELRAGANAVSLQKGTPPSKSNEKPGQKFERNHPDRSAAERSKWLEEEIARLETRIRQLDGWLETEGSISGNSDMTLLEEHWNERESLAASRDELLAEWLELS				NA	NA	NA	NA	NA
AK002_01851	1254	dapL_1	COG0436	LL-diaminopimelate aminotransferase	ATGAGCATGGATAAATATCAGGAAACGTACATTCAACAGAGCTTTGCCGATCGGATTGGCGGTGCTAATTACGGTAAAGATACGGCCATTTATAAATTCGAGAAGATCAAGAGAGCAAAGGCGGCTGCGAAGCAGGAGCATCCTGATACCGAATTGATCGATATGGGAGTAGGCGAGCCGGATGAGATGGCGGATGCAGGCATCGTGGCAAAGCTGGCGGAAGAGGCGGCGAAGCGGGAAAACCGCGGATATGCGGATAACGGGATTCCCGAGTTCAAGGAAGCGGCTGTTCGCTATTTGAACAACGTATTCGGCGTCGAAGGCATCGATGCGTCCACGGAAGTGCTGCACTCCATCGGCTCCAAGCCGGCACTGGCGATGCTGCCGTCCTGTTTCATCAACCCGGGCGACATCACGATCATGACGGTTCCCGGATATCCTGTGCTCGGAACGCATACCAAGTATTTGGGCGGCGAAGTCCACAATGTGGAGCTGAAAAAAGAGAATGCATTTCTGCCGGATCTCGGCTCGATCCCTGAGGACATTGCCCGCCGTGCCAAACTGCTCTACCTGAACTATCCGAACAACCCGACGGGGGCCAGCGCAACGGCCGAATTCTTCGCCGAGGTTGTCGAGTGGGCCCGCAAATATGGCGTGGTGGTTGTTCATGACGCACCTTATGCTGCGCTCACTTACGATGGTTTGAAGCCGCTGAGCTTCCTATCCGTTCCTGGAGCGAAGGACGTCGGCGTGGAGCTTCACTCCCTGTCCAAATCCTACAACATGACGGGGTGGCGCATTGGCTTCATCGCCGGGAACCCGCTGGTGGTTAAAGCGTTTGGCGACGTGAAGGACAACAACGATTCCGGACAATTCATCGCCATTCAAAAGGCTGCCGCTTACGGTCTGGATCATCCGGAAATTACGGAGAAGATTGCCGAGAAGTATTCCCGCCGCCACAACATGCTGGTCGACGTGCTGAACGGACTCGGTTTTACGGCGGAGAAGCCCAAAGGCTCCTTCTTCCTGTATGTGGAGGCTCCGAAAGGCGTCAAAGGCGGACGCCGTTTTGAATCCGGGGAAGACTTCTCCCAGTACCTGATTCGCGAGAAATTGATCTCCACCGTCCCTTGGGATGATGCAGGACACTTCGTTCGATTCTCCGTTACCTTCATTGCCGACGGCGAGGAGGAAGAGAAACGCGTCATTTCCGAAATTCGCAGAAGACTCAGCGATGTGGAATTTGAGTTCTAA	MSMDKYQETYIQQSFADRIGGANYGKDTAIYKFEKIKRAKAAAKQEHPDTELIDMGVGEPDEMADAGIVAKLAEEAAKRENRGYADNGIPEFKEAAVRYLNNVFGVEGIDASTEVLHSIGSKPALAMLPSCFINPGDITIMTVPGYPVLGTHTKYLGGEVHNVELKKENAFLPDLGSIPEDIARRAKLLYLNYPNNPTGASATAEFFAEVVEWARKYGVVVVHDAPYAALTYDGLKPLSFLSVPGAKDVGVELHSLSKSYNMTGWRIGFIAGNPLVVKAFGDVKDNNDSGQFIAIQKAAAYGLDHPEITEKIAEKYSRRHNMLVDVLNGLGFTAEKPKGSFFLYVEAPKGVKGGRRFESGEDFSQYLIREKLISTVPWDDAGHFVRFSVTFIADGEEEEKRVISEIRRRLSDVEFEF				NA	NA	NA	NA	NA
AK002_01853	561	pyrR	COG2065	Bifunctional protein PyrR	ATGAGCAACGAACAGCATGTGATTATGGACGAGACGGCCATCCGCCGCGCGCTAACGAGAATTGCCCATGAAATATTGGAAAAAAATAAAGGGATCGAGGATTGCGTATTGGTCGGGATCCGCACGCGCGGCGTGTTTCTTGCCCAGAGAATCGCGGAGCGAATGAACGAGATCGAAGGTACTCCGATTCCTTGGGGAGAGATCGACGTGACCTCCTACCGCGATGACCGGGACAGCAAGGGAGCCGCTGCGGAACGGGCTGAGGGAGCGAAGCACAGCCTAGCGCACCTGAACATCCATGACAAGAAGGTTATTTTGTTTGATGACGTGCTGTACACCGGCCGGACGATTCGGGCAGCGATGGACGCCCTGATGGACTGTGGACGGCCTAGAATGATACAGCTTGCGGTTTTGGCAGACCGGGGGCATCGCGAGCTGCCGATCCGGCCGGATTATATCGGAAAGAACGTTCCTACCTCCAAACAAGAGGAAATTACGGTGGCATTAACCGAAATCGACGGCAAGGACGAAGTGACCATTAGCCAAAGAGAGGAACGATAA	MSNEQHVIMDETAIRRALTRIAHEILEKNKGIEDCVLVGIRTRGVFLAQRIAERMNEIEGTPIPWGEIDVTSYRDDRDSKGAAAERAEGAKHSLAHLNIHDKKVILFDDVLYTGRTIRAAMDALMDCGRPRMIQLAVLADRGHRELPIRPDYIGKNVPTSKQEEITVALTEIDGKDEVTISQREER	PGPT0021245_701	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
AK002_01854	909	pyrB	COG0540	Aspartate carbamoyltransferase	ATGACAACAGCCATTTCATTGAAAGAACGCAGCCTCTTAGGTTTGAAGGATATTAGCAGAGACGAAATCGGATCCATCCTGAATCGGGCAGCATATTGGGAAGCGCAGTCCGAGAAAGTGGTGCCGGTACTTCAATCGAAATTTGCGGTAAATATGTTCTTCGAGAACAGCACCAGGACGAGATTCTCGTTTGAAATGGCTGAGAAAAGACTCGGTGCCGAGGTCATGAACTTTGCGGCGGCAGCATCCAGCGTCGAGAAAGGCGAGTCGATCTACGATACCGTCAGAACGCTGGAATCCATGGGAATCGACGCGGGCGTCATCCGGCTGAAGCCATCCGGCGTGCTGCAGGAGCTGGCGGAGCGGATCTCGATTCCGCTGGTCAATGCGGGCGACGGCAACAATGAGCATCCCACGCAGGCGCTGCTTGATCTATACACGATGAAGAAAAGCTTCGGCGAGCTTAAGGGATTAACGGTATCCATCATCGGGGACATCAAGCACAGCCGGGTTGCTCGTTCGGATCTGTGGGCCCTGCAGAAGTTCGGAGCCCATGTGCAGTTCTGCGCGCCGGAATCGATGCAGGCTCCGGAGCTGGCTCAGTATGCGCCTTACGTATCGATGGAAAAGGCGCTCAAGGCCGATGTGGTGATGATGCTGAGAGTTCAGCTGGAACGCCATAACGAAGGGGTGTTCAAATCCAGCGCGGAGTACCGGGAGCAGTACGGCTTGACGGAAGAGCGGGCGGCCAAGCTGTCGGGGCACACCATGATTATGCATCCGGCACCGGTGAACCGCAACGTCGAAATCGACGACGCGGTCGTGGAAAGCCCGAGATCGATGATATTCAAGCAGATGGCGAACGGAGTGCCCATTCGCATGGCGGTCATGGAACGGGCGATGGTCTGA	MTTAISLKERSLLGLKDISRDEIGSILNRAAYWEAQSEKVVPVLQSKFAVNMFFENSTRTRFSFEMAEKRLGAEVMNFAAAASSVEKGESIYDTVRTLESMGIDAGVIRLKPSGVLQELAERISIPLVNAGDGNNEHPTQALLDLYTMKKSFGELKGLTVSIIGDIKHSRVARSDLWALQKFGAHVQFCAPESMQAPELAQYAPYVSMEKALKADVVMMLRVQLERHNEGVFKSSAEYREQYGLTEERAAKLSGHTMIMHPAPVNRNVEIDDAVVESPRSMIFKQMANGVPIRMAVMERAMV	PGPT0021160_4507	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
AK002_01855	1302	pyrC	COG0044	Dihydroorotase	ATGCAAATGCAAGTGATAAAGAATGCCAAAGTGATCAATGAACAAGGACAGCTCGAAGATAAACATATCGTCATTGCAGACGGATTGATTCAGTCGGTTGCGAGCGATATCGCAGCCTTGCCGGAACCGGGCGATCACGTTCAGATCATCGATGCCGAGGGCAAGCTGGTCACGCCGGGATTCATCGATATGCATGTGCACTTGAGAGAGCCGGGTTATGAGCACAAGGAAACCATCGAGAGCGGCAGCCGCTCGGCAGTCAAAGGCGGTTTTACAACCATCGCCTGCATGCCGAACACAAGACCGGTGACCGATACGCCGGAAACGGTGAAGCTCGTGCTGGATAAGGCCAGCGAGGCGAATCTTGCGAAGGTGCTGCCATATGCAGCCATTACGAAGAACGAGCTGGGCCGCGAACTGACGGACTTTGAGGCCTTGAAGGCCGCGGGTGCGATCGGATTTACGGACGACGGCGTCGGTGTGCAGAACGCACAGATGATGAAAGATGCCATGAATAAAGCAAAAGCGCTGGGCATGCCGGTCATTGCGCACTGCGAGGATGACTCGCTGGTAAAGGGAGCTTGCGTGACCGAGGGCAAATTCGCTCAGCAGCACGGCCTGAAAGGAATACCGAACGAGTCGGAAGCGATCCATGTCGGGCGCGACATTCTACTGACCGAAGCCACCGGCGTGCATTACCATGTATGCCATGTGAGCACGGAGCAGTCCGTAAGATTGATCCGCCAGGCAAAAGCGATCGGCATCTCGGTAACGGCCGAGGTATGCCCCCATCATCTGGTTCTCTCCGACGAAGACATTCCCGGCCTTGATGCAAACTGGAAGATGAACCCGCCGCTGCGCACACCGCGTGATGTGGAGGCTTGTATAGAAGGTCTGCTGGATGGAACGCTTGATATGATCGTAACGGATCATGCACCGCATAGCGCGGAAGAGAAAGCAAAAGGCATGGAGCTGGCTCCCTTCGGCATCGTGGGATTCGAAACAGCGTTCCCGCTGCTCTACACCAAGTTTGTCGCCACAGGAAAATGGGATCTCGCCCTGCTCGTAAAACGGATGACAAGCGATCCGGCAAGAGTATTCGGTCTTGCAACGGGTGTGCTGGAAGCCGGTAAAGCAGCGGACCTGACCATGATCGATCTCGAAGCGGAGAAAGAAGTGAACCCGGAAGAGTTCGCAACAAAAGGCCGCAACACGCCATTTACAGGCTGGAAGCTGAAAGGCTGGCCCGTGATGACTTGGGTGGACGGCGAAGTGAAATGGTCCGAACAAAACGGATTCTAA	MQMQVIKNAKVINEQGQLEDKHIVIADGLIQSVASDIAALPEPGDHVQIIDAEGKLVTPGFIDMHVHLREPGYEHKETIESGSRSAVKGGFTTIACMPNTRPVTDTPETVKLVLDKASEANLAKVLPYAAITKNELGRELTDFEALKAAGAIGFTDDGVGVQNAQMMKDAMNKAKALGMPVIAHCEDDSLVKGACVTEGKFAQQHGLKGIPNESEAIHVGRDILLTEATGVHYHVCHVSTEQSVRLIRQAKAIGISVTAEVCPHHLVLSDEDIPGLDANWKMNPPLRTPRDVEACIEGLLDGTLDMIVTDHAPHSAEEKAKGMELAPFGIVGFETAFPLLYTKFVATGKWDLALLVKRMTSDPARVFGLATGVLEAGKAADLTMIDLEAEKEVNPEEFATKGRNTPFTGWKLKGWPVMTWVDGEVKWSEQNGF	PGPT0021145_2077	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
AK002_01856	1137	carA		Carbamoyl-phosphate synthase small chain	ATGCAGGCAAGATTGTTACTGGAGGACGGAACGCTGTTCAGCGGAAAATCCTTCGGCGCGGATGCTGAAATGACCGGAGAGGTTGTTTTCAATACAGGGATTACAGGATATCAAGAGGTGCTGAGCGACCCGTCCTACTGCGGACAGATCGTAACCATGACGTACCCTTTGATCGGCAACTACGGCATCACGCGGGATGACTTTGAATCCATTCGGCCGTTCGTTCACGGATTCGTCGTTCGTCGTCATGAGCCTGTTCCCAGCAACTGGCGTGCAGAATACAGCGTTGACAGCCTGTTGAAGGAATACGGAATTCCGGGGATCAGCGAGATCGATACGCGGATGTTAACCCGTATCATCCGTCATTACGGTACGATGAAGGGCATCCTGACCACTTCCAACAAACCGGTGGAAGAGCTTAAGGAGATGCTCGGCGATACGACGATCGCTGAACTCCGCAACCAGGTGGCAAAAACCTCAACGCCGCAAATGTTTACGAGTCCAGGTTCAAAGGAACGGATCGTTCTGGTCGACTTCGGTGCAAAAAGCGGGATTCTGCGCGAATTGACGTCCCGCGGATGTGACGTCATGGTCGTTCCGCATGACACGACGGCCGATGAAATCCGCAGACTTCACCCGGACGGCATTCAGTTGTCCAACGGCCCTGGGGATCCGAAAGACGTGCCTTACGCAGTCAACATGGTCAAAGAACTGCTCGGCGAATATCCGATCTTCGGCATCTGCCTTGGCCACCAATTGTTTGCGCTGGCTGCGGGCGCGGACACCGAGAAGCTGAAATTCGGACACCGCGGCGGAAACCATCCGGTAAAAGAGCTTGCCAGCGGACGCTGCTACATCACTTCCCAAAACCATGGATACACCGTAAACGAAGAATCCGTCAAAGGGACGGATCTGGAAGTTACGCATATCAACAACAACGATAAAACGATCGAAGGCTTGAAGCACTCGAAATTCCCGGCCTTCTCCGTGCAATACCATCCTGAAGCTGCGCCTGGCCCGCACGACAGCAGCTATCTGTTTGATCAATTCCTTGAAATGATAAGAGACCATAAACAGAATGAAATCCGGAAACCGCGCCAGGCGGTTCTGGCCGCAGCCGTGAAAGGAGCTCAATAA	MQARLLLEDGTLFSGKSFGADAEMTGEVVFNTGITGYQEVLSDPSYCGQIVTMTYPLIGNYGITRDDFESIRPFVHGFVVRRHEPVPSNWRAEYSVDSLLKEYGIPGISEIDTRMLTRIIRHYGTMKGILTTSNKPVEELKEMLGDTTIAELRNQVAKTSTPQMFTSPGSKERIVLVDFGAKSGILRELTSRGCDVMVVPHDTTADEIRRLHPDGIQLSNGPGDPKDVPYAVNMVKELLGEYPIFGICLGHQLFALAAGADTEKLKFGHRGGNHPVKELASGRCYITSQNHGYTVNEESVKGTDLEVTHINNNDKTIEGLKHSKFPAFSVQYHPEAAPGPHDSSYLFDQFLEMIRDHKQNEIRKPRQAVLAAAVKGAQ	PGPT0021155_2862	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
AK002_01857	3207	carB		Carbamoyl-phosphate synthase large chain	ATGCCTAAACATGATACATTGAAAAAAATTCTCGTCATCGGCTCCGGTCCGATCGTCATCGGGCAAGCAGCGGAATTCGACTACGCTGGAACCCAAGCCTGCCAGGCACTGAAAGAAGAAGGCATGGAGGTCGTGCTGATCAACAGCAACCCGGCGACCATCATGACCGACACCAACATGGCGGATAAAGTATATATCGAGCCGATCACGCTGGACTTCGTTACCCAGATCATCCGTCAAGAGCGTCCGGACGGACTGCTCCCGACGCTTGGAGGACAAACAGGGCTGAACATGGCGGTTGAGCTTGCCCGCGCCGGAATCCTGGAGCAGGAAAACGTCAAACTGCTCGGAACGCAGCTGGAATCGATCGAAAAAGCCGAAGACCGCGACTTGTTCCGTGAGCTGATGCGCGAATTGGATCAGCCCGTGCCGGAGAGCACGATCGTAACGACCCTGGAAGAGGCGCTTGAGTTCGCGAATGAGATCGGTTATCCGGTGATCGTGCGCCCGGCCTACACGCTTGGCGGCACCGGCGGCGGCATTTGCGCAACCGAAGAGGAACTGCGCGAAACGGTCAGCTCCGGACTTCGCTACAGCCCGATCACGCAGTGCCTGATCGAGAAGAGCATTGCGGGAATGAAAGAAGTCGAGTACGAGGTGATGCGCGACGCCAACGATAACTGCATCGTGGTATGTAACATGGAGAACTTCGATCCGGTCGGCGTTCATACCGGCGACAGCATCGTCGTGGCGCCAAGCCAAACGCTGTCTGACCGCGAGTATCAAATGCTCAGATCCGCATCGCTGAAAATCATCCGCGCCCTGAACATCGAAGGCGGATGCAACGTGCAGTTCGCGCTGGATCCGAACAGCTATCAATATTACGTCATCGAGGTAAACCCACGGGTCAGCCGCTCATCCGCGCTGGCTTCCAAAGCAACGGGCTACCCGATCGCGAAGATGGCAGCAAAAATCGCGATGGGTTACACCCTGGACGAGATTGTTAACCCGGTAACGGGCCAGACGTATGCTTGCTTCGAGCCTACGCTGGATTACATCGTCAGCAAAATTCCGCGCTGGCCGTTCGACAAGTTCATCCATGCCAACCGGAAGCTGGGCACCCAGATGAAGGCAACCGGCGAAGTGATGGCAATCGGCCGCACCTTCGAAGAATCGATCCATAAAGCGGTCCGCTCCCTGGAAATCGGCGTGCATCGTCTATACCTGAAAGGCGCGAACGAGCTGAGCGATGAAGTGCTCCAGCAGCGCCTGATCAAAGCCGACGATGAGCGGATGTTCCTGATCGCGGAAGCGTTCCGCCGTGGCTATGATCTGCAGCAGATTCAGGACCTGACGAAGATCGACTGGTGGTTCCTGGACAAAATCGAACGCCTGATCAAGTATGAAGACCATATTCGCAGCGAAGCGTCGCTGACTTACGAAACGCTGTACGAAGCGAAGCGTCTCGGCTTTACGGATCGTGCCATCGCCGAGCTCCGCGCAGAAGGCAAGGCCAGCACGCACACGACCGAGGAGTCGATCGGATTCCTCCGCCGCGAGCACGGATTGCGTCCGGTATACAAAATGGTGGATACCTGCGCAGCGGAGTTTGAAGCAACGACGCCGTACTACTACTCCACCTACGAAACGGAGAATGAAGTCATCGAATCCGCGAAGGAGAAAGTCATCGTGCTCGGCTCCGGTCCGATTCGGATCGGTCAAGGGATCGAATTCGACTACTCCACGGTGCATGCCGTATGGGCCATCCAGAAGGCGGGATATGAAGCGGTTATCATCAACAACAACCCGGAGACCGTATCCACCGACTTTAATACATCGGACCGTCTCTACTTCGAACCTCTGTTCTTCGAAGATGTCATGAATGTCATCGAGCAGGAGAAGCCGATCGGCGTCATCGTACAGTTCGGCGGGCAGACGGCGATCAACCTCGCGGAGCCGCTCAGCAAAGCGGGCGTGAAGATTCTGGGCACAAGCCTGGAGAGCATTGACGAAGCCGAGGACCGCAAGAAATTCGAAGCGCTTCTGTCCCGATTGGAGATCGCCCAGCCGAAAGGTAAAACCGTAACGTCGGTCGATGATGCCGTAGAAACAGCACAATCGCTGGGCTACCCCGTGCTCGTAAGACCTTCGTATGTACTGGGTGGACGCGCCATGGAGATTGTATACTCCGACAGCGAGCTTCTGAGCTACATGAAAGAGGCGGTTAAGATCAACCCGGATCACCCGGTTCTGATCGACCGTTACATGATGGGTAAAGAAGTGGAGGTTGACGCGATCTGTGATGGCGAGACGGTGCTGATTCCAGGCATCATGGAGCATGTAGAACGTGCAGGCGTTCACTCCGGAGACTCGATTGCGGTATATCCTCCTCAGTACTTGTCCCAGGATCTGAAAGACAAGATTGCGGAAATTACGATCAAGATTGCCAAAGAGCTGAATACACGCGGACTTGTCAACATCCAGTTCGTTATCTATAAAAACGAAGTGTACGTAATCGAAGTGAATCCGCGTTCTTCCCGGACGGTGCCGTTCCTGAGCAAGGTGACGGGCATCCCGATGGCGAACCTGGCTACGCAGGCCATTATGGGCGGCAAGCTGAAGGATCTCGGATACGAGGAAGGCATGTGGCCGGAAAGCGAGCATGTATCGGTTAAAGTGCCGGTCTTCTCCTTCGCGAAGCTTCGCCGCGTTGAGCCGACCCTCGGACCGGAAATGAAATCGACTGGCGAGGTTATGGGCCGCGACGTGAAGTATGCCAAGGCACTGTATAAAGGCCTCATCGGTGCAGGCATGAAGATTCCTTCAACGGGCGCGATCATCGCCACCATAGCGGATAAAGACAAAGCCGAAGCGGCTGCGCTGCTGAAGGGCTTCCATAAGCTGGGGTATAAAATCATCGCAACCGGCGGTACGGCGGCAGCGCTCAAAGAAGCGGGTCTTGACGTGACGACCATCAACAAGCTGTCCGAAGGCACGCCGAACATTCTCGATATGATCCGCACAGGCGAAGCGAACTTTGTCTTCAACACATTGACCAAAGGCAAAACGCCGCAGCGCGACGGATTCCGAATCCGCCGTGAAGCGGTAGAGAATGGCGTTGTATGCATGACCTCGCTCGATACGGTTCGCGAGCTTCTGACGATGCTGGAGACCATCAACTTCTCCTCTGAAGCGATGCCGGTTTAA	MPKHDTLKKILVIGSGPIVIGQAAEFDYAGTQACQALKEEGMEVVLINSNPATIMTDTNMADKVYIEPITLDFVTQIIRQERPDGLLPTLGGQTGLNMAVELARAGILEQENVKLLGTQLESIEKAEDRDLFRELMRELDQPVPESTIVTTLEEALEFANEIGYPVIVRPAYTLGGTGGGICATEEELRETVSSGLRYSPITQCLIEKSIAGMKEVEYEVMRDANDNCIVVCNMENFDPVGVHTGDSIVVAPSQTLSDREYQMLRSASLKIIRALNIEGGCNVQFALDPNSYQYYVIEVNPRVSRSSALASKATGYPIAKMAAKIAMGYTLDEIVNPVTGQTYACFEPTLDYIVSKIPRWPFDKFIHANRKLGTQMKATGEVMAIGRTFEESIHKAVRSLEIGVHRLYLKGANELSDEVLQQRLIKADDERMFLIAEAFRRGYDLQQIQDLTKIDWWFLDKIERLIKYEDHIRSEASLTYETLYEAKRLGFTDRAIAELRAEGKASTHTTEESIGFLRREHGLRPVYKMVDTCAAEFEATTPYYYSTYETENEVIESAKEKVIVLGSGPIRIGQGIEFDYSTVHAVWAIQKAGYEAVIINNNPETVSTDFNTSDRLYFEPLFFEDVMNVIEQEKPIGVIVQFGGQTAINLAEPLSKAGVKILGTSLESIDEAEDRKKFEALLSRLEIAQPKGKTVTSVDDAVETAQSLGYPVLVRPSYVLGGRAMEIVYSDSELLSYMKEAVKINPDHPVLIDRYMMGKEVEVDAICDGETVLIPGIMEHVERAGVHSGDSIAVYPPQYLSQDLKDKIAEITIKIAKELNTRGLVNIQFVIYKNEVYVIEVNPRSSRTVPFLSKVTGIPMANLATQAIMGGKLKDLGYEEGMWPESEHVSVKVPVFSFAKLRRVEPTLGPEMKSTGEVMGRDVKYAKALYKGLIGAGMKIPSTGAIIATIADKDKAEAAALLKGFHKLGYKIIATGGTAAALKEAGLDVTTINKLSEGTPNILDMIRTGEANFVFNTLTKGKTPQRDGFRIRREAVENGVVCMTSLDTVRELLTMLETINFSSEAMPV	PGPT0021150_4151	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
AK002_01858	738	pyrF	COG0284	Orotidine 5'-phosphate decarboxylase	ATGAACGCCAGCTACAATGAAATGGCGGGCCGCCTGATGGTGGCCCTGGATTACCCGGATGCCGAGCGTGCACAAGCATTGGTTCGTCAGCTGGAGGGCATCCCGTGTTATATGAAGGTCGGCATGCAGCTGTTCTATGCGGCCGGTCCTGACTTTGTGAAAGAATTGAAAGCGAAAGGCTATTCCGTGTTCCTGGATGTGAAGATGCATGATATTCCGAATACGGTCAAAGGCGGCTCGCACAGCGTAACGCGGCTGGGCGTGGACATGTTTAATGTCCATGCCGGCGGCGGCGCGCTCATGATGCAGGCGGCAAAAGCCGGGGCGGAAGCCGCAGTGGCGGACACCCGGGGTCTTGCCATGCCTACAATCATTGCGGTAACGCAGTTGACCAGCACGAATCAGGATGTCATGAATAACGAAATCGGCATTCCAGGCCAGGTGGAGGATACCGTCGTGCGTTATGCTGAGCTGGCCCGGCAGTCCGGGCTTCACGGCGTCGTGGCATCCTCCCTGGAAGTGGAAGCCATTCGATCCGCCTGCGGCAAGGATTTCAAAACCGTCATTCCGGGTATCCGCCCTGCCGGCGCGGATATCGGTGACCAAGCGCGGGTGCTTACACCTGGGGAAGCGATCCGCAAGGGGAGTCATTACCTGGTTGTCGGCCGCCCGATCACCGAGTCCCATAACCCGAGACAAGCTGCTGAACAGATTATTGAGGAGATGATTCAAGCATGA	MNASYNEMAGRLMVALDYPDAERAQALVRQLEGIPCYMKVGMQLFYAAGPDFVKELKAKGYSVFLDVKMHDIPNTVKGGSHSVTRLGVDMFNVHAGGGALMMQAAKAGAEAAVADTRGLAMPTIIAVTQLTSTNQDVMNNEIGIPGQVEDTVVRYAELARQSGLHGVVASSLEVEAIRSACGKDFKTVIPGIRPAGADIGDQARVLTPGEAIRKGSHYLVVGRPITESHNPRQAAEQIIEEMIQA	PGPT0014965_2239	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
AK002_01859	642	pyrE_1		Orotate phosphoribosyltransferase	ATGAGTACCATCGCGAATATTCCGCATCAGATCGCATCTTATTTGCTTAAGATCGAGGCCGTTTCCCTAAGACCTCATCAGCCGTTTACATGGACGTCGGGCATCAAGTCTCCGATCTACTGCGACAATCGCCTGACCATGTCCTATCCCGACATTCGCGATTACATTGCTGAATCGTTCGCGGCCGTCATTCGGGAGCAATATCCGGAAGCCGAGGCCATTGCCGGAACGGCCACCGCAGGGATCCCGCACGCGGCCTTCGTATCCCAGAAGATGAACCTGCCGATGTCCTATATTCGGGACAAAGCCAAAGGCCACGGCAAGGAAAACCTGATCGAAGGTTTGATCAAGCCCGGCCAGAAGGTCGTTGTCATCGAGGATCTGATCTCCACGGGCGGCAGCTCCCTGAAGGCGGCGCAAGCGGTCAAGGACGCAGGAGCGGAGCCGCTCGCGGTGCTCGCCATATTCAGCTATCAGCTGGATAAAGCGGTACAAGCCTTCGCCGAAGCGGGAATTCCGCTGCAGAGCCTTTCCAATTATGGTGCACTCATTGATGTAGCGTTATCGGAGAACCGGATTCAAGCAGAGGACGTGGAGCTCCTTCAATCCTGGAGATCGAATCCAACCTCCTTTGGCGTATAG	MSTIANIPHQIASYLLKIEAVSLRPHQPFTWTSGIKSPIYCDNRLTMSYPDIRDYIAESFAAVIREQYPEAEAIAGTATAGIPHAAFVSQKMNLPMSYIRDKAKGHGKENLIEGLIKPGQKVVVIEDLISTGGSSLKAAQAVKDAGAEPLAVLAIFSYQLDKAVQAFAEAGIPLQSLSNYGALIDVALSENRIQAEDVELLQSWRSNPTSFGV	PGPT0021200_1607	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
AK002_01860	585			hypothetical protein	ATGAACGCAAAAAAAGAAGCGGTGCTTGAGGCCACAAAGCGGTTGTTTCTGAAGCATGGGATTGTGCAAACCAGCATGGAGCAGATTGCCGAAGCTGTCCCCGTTTCCAAGATGACGATTTATAACTATTATCAGAGCAAAGAGGGCTTACTGGATCATGTGGTGGATCGCATGGTCGAGGAGCTGATGGCGATCTATCGCGGGATCATGGAGCAGGCAAAAGATCCGCTGGAGGCCTTAACCGTGTTCTACAGGGATCAGGAGAAGTTTTCGGCGCTCGTCTCGCAGCAATTTGTGTCGGATCTGGCCAAGTTTCCGGAACAGATGGACAAGCTGATTGAGTTCAATCAGAAATACGTTGTGCCGGAATTCGAAATGCTGATTTTTAAAGGCCAGCAGCTGGGACAGATCCGCAAAGACATTTCACCGCAGGTACTGGTCGCGTTTTTGACTTTCATCAAGGAATTTACGGCGCGAACGGAATGGTACCATGGTCTGGGCAGCCTGAATGCGGTCAGCGAACAACTGATGACGGTTCTATATCACGGCATTATCCGGAAGGATGAGCCGCTTAATCCAACATAA	MNAKKEAVLEATKRLFLKHGIVQTSMEQIAEAVPVSKMTIYNYYQSKEGLLDHVVDRMVEELMAIYRGIMEQAKDPLEALTVFYRDQEKFSALVSQQFVSDLAKFPEQMDKLIEFNQKYVVPEFEMLIFKGQQLGQIRKDISPQVLVAFLTFIKEFTARTEWYHGLGSLNAVSEQLMTVLYHGIIRKDEPLNPT	PGPT0028895_980	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028895-mexL-K18301	NA	NA
AK002_01861	786			hypothetical protein	TTGGAAATTCCGTCCAGGATCCAACTGACCGGCAAGCAATTCTTTGTATTAACCGGCATTGTCGGTGCGCGGGCTGTCATCGGGTTGGAGGACCCTTTTCGCGGAACGCTCACGGAAGAGATGCCTGTTGAAGTAGCCAAGATAGAGCAGGAACTGCTGGAGAAGGGTTTGATTCAAACGGCCGATAACGAGCCGGTTCTTGTGCAGGAGCTCCTGGAATACATAGAAGTATGCAGCCGGACCTTGTTAACGATTCATATGAGGGTGGCCGGTTCGGAGGAAACGTCGAAGGAGTGTTTCATTTATTACAGTTCCAGCCTTGTCGTGAAGGCAGATATCGAAATCGGGCCAGGCGGCGAAAGGCTTTATGTGCTGGAAGAGCTGGGAACCCCTTCGGAGGCTTGGCTGAAGATCATCGGTTACCTGCAGCTGGAGGATCGAAAAAATCGCGATACAGGCACACTGGCCTTGCCTAAAGGCTGGTTCCAGCAATGGATGAACGCCGAGCAAGGGGGGCAGGAGCCTCGGAAGCACCTGCTTGCTCAAGGCTATCCGGAAACGGTCGTTGCTGCCTTGGCTGATTGCGTCAGCCATCCGGAGAGATATGCCACCTTCACGGCGTATTATTGTCCGGATCTGAACTGCCGGATTCAGGGAATCGAGCTGTTAAGAGGAGCGCAATCCAATTGGCTGATTCGCAACGAAGGCGAACAGGACCAAATATGGGGTGCTACGGTAACCGAGATCATCCGGGAACTCGGCGCGGTCATCGAGCGTATTAAGTGA	MEIPSRIQLTGKQFFVLTGIVGARAVIGLEDPFRGTLTEEMPVEVAKIEQELLEKGLIQTADNEPVLVQELLEYIEVCSRTLLTIHMRVAGSEETSKECFIYYSSSLVVKADIEIGPGGERLYVLEELGTPSEAWLKIIGYLQLEDRKNRDTGTLALPKGWFQQWMNAEQGGQEPRKHLLAQGYPETVVAALADCVSHPERYATFTAYYCPDLNCRIQGIELLRGAQSNWLIRNEGEQDQIWGATVTEIIRELGAVIERIK				NA	NA	NA	NA	NA
AK002_01862	1074			hypothetical protein	ATGACCAAAATACGTGTGGTACCTGAAATGCTGAACCAGCAGGGCGCAGCGGTATCTGATATTGCACGGGAAGTCCAAGCGCTTCAGGAGCGGATGCAGCAGCGCATCCAGAGCATGTCCTGGGAATCGCGCCATCGCGCCCAGGTAGAGCAGCGCCTTGCGCAATGCAGGGCCGCGTGCCAATCGGTTGTAGGCCGTCTGGAGCAGAATCGCGGCCAGCTTGTGAAGAAAGCGGGGGATTTTTCGCAGACCGACCAATCGCTCGGGAACAATCTGAATTTCGGCAAACAATCGGTCGCCCAGGTGAGTCCGCATCTGCTGCTTCAGGCGAGTATGGCACAGAACGGAAATAAGAAGACGGATCCGCCCGTGACGGCGGCGGGCGTCGAATTCAATGCGCTCGCGCCATTCGGCGGCACGGCGGATCAATGGAAGGGCAATCCGCTTGCGGCCGCAGGAGTATTGTTCGGAACGGTAACCGCATCGGGCACGATGTACAAATACTGGGATATGTACCGGAACGGCTTCGGTGTATGGCTTGAGAAAGACAAGCGCGGCAACATGCGTGCCAACGTGACGAACGGCATGCTTGCCAATATCCGCAAAAAATCCTATGCCGAGTACAATTGGCGGAATCACCCCCGAATTCCGAAATACGTCCTGCCCGGCGCAGCCGTGAAGGACTCGCTCAGCTGGAAGGGCGGCAAGCTTGGTTATGCGGGCATCGCCATGCAAACGGTGGGAAATCTGGTTACGAATATCAATGAAAACAAGAGCGGGGCGAAAATAGCCGGAGACGCCGTCGTCGATGTTGGCGTCGGCGTGGGAACCGTGGTCGCTTCCGCGGCGGCTGGCGCTAAAGCCGGCGCGCTTATCGGCACGGCGGTGGGCGGTCCGATCGGCACCCTGGCGGGTGCGGCCATCGGCTTCGGCGTGTCGGTCGGTGCTTCCTATGTCATGGACGGCATCAAGTTCGCCGATTTTGACGGGGACGGGAAGAAAGATACCGTAACCGAAGGATTGAAAATGGGGGCGGAGAAGATAGGTTCTACGATAGCCGGATGGTTCAAATAA	MTKIRVVPEMLNQQGAAVSDIAREVQALQERMQQRIQSMSWESRHRAQVEQRLAQCRAACQSVVGRLEQNRGQLVKKAGDFSQTDQSLGNNLNFGKQSVAQVSPHLLLQASMAQNGNKKTDPPVTAAGVEFNALAPFGGTADQWKGNPLAAAGVLFGTVTASGTMYKYWDMYRNGFGVWLEKDKRGNMRANVTNGMLANIRKKSYAEYNWRNHPRIPKYVLPGAAVKDSLSWKGGKLGYAGIAMQTVGNLVTNINENKSGAKIAGDAVVDVGVGVGTVVASAAAGAKAGALIGTAVGGPIGTLAGAAIGFGVSVGASYVMDGIKFADFDGDGKKDTVTEGLKMGAEKIGSTIAGWFK				NA	NA	NA	NA	NA
AK002_01863	768			hypothetical protein	ATGAGCACGAAGATTTCAGAGGAAGAACAGTTTCATTTCCGGCTAATCCCCGCCGAGCAAATTCGGGGCGGCATCGTATGCTTTTTATTCATTATGCTCATCCCCGCGCTGGTCACGCTGGCGGCGCCGATGATGTCGGTTTATTTTTATGCGGCGGCGGCAGTGTGGGCGGCCATGCTGCTGTGGGGAATTGGCCTGAGCGTTAATCCGTACCGGTCTGAGGTCGGTTTTGTGCTGTACTTGGGGATTTACGGATTGGCGCTGGCGGTCACTTGCCAGCTGGCTATCTTGAAAATGATGTATGACATGGCCGGTGTCGAGTCGATGGGATATGGGCTTAGCTCGATCGCAGTGATGCTCCTGCTGCTCGTTGCGTTTTATGTTCTGCATGCAAGAGCGCTGCGGCAAGGGACGTACCAATCCATGGAACGCAAAGGCGGCATCGGCAAAGCAGGCAAAGCGGCCTTGCTGTTGGCAGGCATCGGTTACACAGGGTATTACGTCGTGGTTGCGGTTACCGGTGACCTTGGCGGATTCGTCATGGGCATGGCGGCTTTTTCCGTATTGTTGATTCTCGGCCTGTACCTGGCCGTTGTGTTCATCCCTCGATATCGGTTCATCCAGAACAATATGGAAAAGCTGAAGGCCCATTACCCCGTATTGGGATTGCCGAAGGAGCAGCGGAACGCCGCGTTTCTGAACAAAATGAATCAGGGCCGCACGCCGGCCGCACCGCATCGTCATAGCAAGAAAAGGAGAGGATCGTAA	MSTKISEEEQFHFRLIPAEQIRGGIVCFLFIMLIPALVTLAAPMMSVYFYAAAAVWAAMLLWGIGLSVNPYRSEVGFVLYLGIYGLALAVTCQLAILKMMYDMAGVESMGYGLSSIAVMLLLLVAFYVLHARALRQGTYQSMERKGGIGKAGKAALLLAGIGYTGYYVVVAVTGDLGGFVMGMAAFSVLLILGLYLAVVFIPRYRFIQNNMEKLKAHYPVLGLPKEQRNAAFLNKMNQGRTPAAPHRHSKKRRGS				NA	NA	NA	NA	NA
AK002_01864	276			hypothetical protein	ATGACGCAACAACAGCAGCTGCTGCCAAACGGATCGATCGTCATTTTGAAGGAAGGCGAGAAAAAGCTGGTGATCTATGGACGCAAGCAAATTTTGGCGCTTGAGCAGCCGCAATTGTTCGACTATCTGGCTTGTCCGTATCCGGAAGGGTATGTCAGCCCGGAGTTTGCTTACGTGTTTAACCATGAGGATATCCAAGAGATTATTTTTACGGGTTACCAGGACGAAGAGGAAGAACATTTTCAGGCCGTACTGGCTGAGACGAAGGCAACTTAG	MTQQQQLLPNGSIVILKEGEKKLVIYGRKQILALEQPQLFDYLACPYPEGYVSPEFAYVFNHEDIQEIIFTGYQDEEEEHFQAVLAETKAT				NA	NA	NA	NA	NA
AK002_01865	273			hypothetical protein	ATGTCAGGACGTATAGAGGTATCGCCCGAGGAGCTGCGCCGCGCGGCGGCAGACATTCGCAGCGGGAGTGACTACGGCGGGGAATTGGTCGCGAGGCTGTCCCAGGTCATTGAAACGCTGAATGCCGAATGGGAAGGCGTTTCCCAGCAGCGTTTTCGCACAGAGGCCGAGGAGACGAAGGCGCAGCTGATGAATTTCATCCAGATGATGCATTTGATGGAGCAGGAGCTGATGAGCATCGCTGCCCGGTTTGCAGAGGCCGACGGCCAATAA	MSGRIEVSPEELRRAAADIRSGSDYGGELVARLSQVIETLNAEWEGVSQQRFRTEAEETKAQLMNFIQMMHLMEQELMSIAARFAEADGQ				NA	NA	NA	NA	NA
AK002_01866	165			hypothetical protein	ATGAACTGGGTATATTACGGCAAGCTCTATACAACCAAATTTCAGGCTGGGTGCTTCGCTAAACGTCTGGAGCAGGATGGCTGGCTGTTCGGGTATCATGATCCGCGGATGGTGGAGGTTTATCGTTCCAAGAAGGGGCGTTATGGCGTGCGATTCCTGCCTTGA	MNWVYYGKLYTTKFQAGCFAKRLEQDGWLFGYHDPRMVEVYRSKKGRYGVRFLP				NA	NA	NA	NA	NA
AK002_01869	1161	xerC_1		Tyrosine recombinase XerC	ATGAAAGGCCATGTATATCCAAGAGGAAAAACATATACGTATGTAATCGATCTACCACCTGATCCAATGACAGGTGGTCGAAGGCAAAAATCAAAAGGCGGTTTTAAAACCGAAAAGGAAGCCTGGACAGCGTGCCACTTAAAAATTGCTGAGATTGAGAAAGGTCTGCATGTCGATGACTCAAAAATAACCCTTCGGGAATACCTGCTGGAATATCTCGAAACCCATGCTAAGCCAAATTTTAAGCCTACTTCATATGATACTGAGAAAACGGTTATTGAAGCTCGAATTATTCCTGTTCTCGGTAAAGTAAGACTTCAAGCATTAACTCCTCGAGCAATCAAAACATTCTACGCCGAGCTACGAAAAACCTATTCAAAGGAGTATGTAAAGACTATTCACGGCATTCTGAAGCGTGCACTGAGGATCGCTTACACCGAATCAGGGCTCTTGTCAGAGGATATTATGAGCAAGGTATCCATGAGAAGCAAGGTTAATGCAAACGAGCAAAAGGAAATGAAGTTCTGGTCTGTTGAAGAATTCAACCAGTTTCTAAAATCATCGAAAGGTCATGTTCACTATATTGTTTTCTCACTCGCAATTTATACTGGCATGCGTCGCGGTGAGATTCTGGGTCTTCGCTGGAAGGATGTCGATTTTGAGCGCAAGGAGCTGCTGGTTACTCAAACAGCCAATTGGACCCGTTCAGGATTGGTCATACAGCGCCCTAAGACGAATGATTCAATCCGTAGGGTAAAGCTATTCCAGTTTATCTTAGACGACCTTCAGGAACGCTATCAGCAGATTCAGAAGAATAAATCTGAGTACGGCGATGGGTATGAGGATAATGATCTCGTATGCTGCTACCCGAACGGCGGTTATATAAAACCGAAACGTATAACAGAAGGAATGGACGTTTTGGTCCGGAAGGCAGGAGTAAAGAAGATTCGATTCCACGATTTAAGACATACCCACGCGTCGTTTTTACTCCGGATTGGCATAAACCCCAAAGTGGCAGCTGAACGTCTTGGTATGACCCCAGCAATGTTCAATGAGCGATACTCTCACTTACTCCCTACAATGCAAGATGAAGCCATTGACAGAATCGAAGCAGAGCTCAATAAGTACTCTGAAAAGATGCGAGATCCTGTGGATAAATAG	MKGHVYPRGKTYTYVIDLPPDPMTGGRRQKSKGGFKTEKEAWTACHLKIAEIEKGLHVDDSKITLREYLLEYLETHAKPNFKPTSYDTEKTVIEARIIPVLGKVRLQALTPRAIKTFYAELRKTYSKEYVKTIHGILKRALRIAYTESGLLSEDIMSKVSMRSKVNANEQKEMKFWSVEEFNQFLKSSKGHVHYIVFSLAIYTGMRRGEILGLRWKDVDFERKELLVTQTANWTRSGLVIQRPKTNDSIRRVKLFQFILDDLQERYQQIQKNKSEYGDGYEDNDLVCCYPNGGYIKPKRITEGMDVLVRKAGVKKIRFHDLRHTHASFLLRIGINPKVAAERLGMTPAMFNERYSHLLPTMQDEAIDRIEAELNKYSEKMRDPVDK				NA	NA	NA	NA	NA
AK002_01870	885			hypothetical protein	ATGTTTAGATTTTATGAAACCACTCTTTTAGAGCAGTTTGTCGAAGACTTATATAAAAAACACGGAATACTTACTCCACAACAACTGAATATTGAAGAATTAGCCAGGCGCCTAAACGTATGGGTTTATTATTCGGAGCTAGGTAGTGAAGCGGTGGAAATAAAGAGCGGGTTAGGATCCATTAACATTTATAAGAATCAGTCAAGGGCAAGGCAATGGATCGATTTTCTGCATGAACTATGCCATATATTACGCCATTCTGGTGATCAGAGAATCATGCCCGAGCAATTCACCAGAGCTCAAGAAGCTGAAGCAGATAATTTTGTTCTTTATGCAGCAATGCCGATTTCAATGATCTCACAACTTCGATTACCTGTAAGAAAGAATGATGCTATTCATTTCTTAGCCTCTATTTTCAAAGTCCCGTTGTATCTAGCTAAAAAGAGACTTGAACAAATCCAACATAGATTGTGCCAAGGGAAGTTGTTAACGGAGACTGTTAAACAGGTTGAAGACAGCGATCATGTTAGTAATGGAGATCATGACCATATGAGAGAGACTAAAGTCTACGCATATTACGATCCCGCTGATGATTTGATCGCACCTTCACAATTTATCATTCATGTAGACCATGAAACTTTACATACTCAAGAAGAACTCATTTTCTCCATAGATGGCCCATTTGAGGTAGTCGAGGATGGCCAGCTTGAGAATTTTACAGACAGTAAACCAGTAAAGTTTTTCGATTTGGATTATACCAGAGAAGGAAAAGTCAGTTTAAAGCTGAGCCATCTGGCAAGCAGATATTATAACTCTGCAAATAAGTTTGTAATTCAGAAAAAAGATATTGAGGAATTACTAAGGTTTTATGGAGATGAATTTTAA	MFRFYETTLLEQFVEDLYKKHGILTPQQLNIEELARRLNVWVYYSELGSEAVEIKSGLGSINIYKNQSRARQWIDFLHELCHILRHSGDQRIMPEQFTRAQEAEADNFVLYAAMPISMISQLRLPVRKNDAIHFLASIFKVPLYLAKKRLEQIQHRLCQGKLLTETVKQVEDSDHVSNGDHDHMRETKVYAYYDPADDLIAPSQFIIHVDHETLHTQEELIFSIDGPFEVVEDGQLENFTDSKPVKFFDLDYTREGKVSLKLSHLASRYYNSANKFVIQKKDIEELLRFYGDEF				NA	NA	NA	NA	NA
AK002_01871	378	xre	COG1396	HTH-type transcriptional regulator Xre	GTGCGCTTAGATCGATTGAAGAGCCACAGATTAGAAAAAAAACTTACCCATGAAGATATGGCAAGCAAATTGGGGATTACCCGACAAGGGTACGGAAATTATGAATCAGGGAAAAGAGATTTGGATACAGCTACCTTAACTCTTATAGCTGACATACTTGATGTTGATACCGATTATCTTCTAGGTCGAACAGATATCCCTCGCTCAAACAATGAAGATTCAGAGCTTGAGAAACTGCTTGAGAACCCAGTACACGGAGCTTTCTTCAAGGGATATCTGGATGCCCCAGAACAGAAAAAGGCAGAGATGCGTCAGTTTTTAAAGTTCATTTTGGAGCAAGAGAAAGATCGTAAACCTGGTCAACAACAAGGAGAATGA	MRLDRLKSHRLEKKLTHEDMASKLGITRQGYGNYESGKRDLDTATLTLIADILDVDTDYLLGRTDIPRSNNEDSELEKLLENPVHGAFFKGYLDAPEQKKAEMRQFLKFILEQEKDRKPGQQQGE				NA	NA	NA	NA	NA
AK002_01872	255			hypothetical protein	ATGGCTAGAGAATGGTTAGCCAAACTTAGAATTGCCAGTAATAAAACCCATGATGATGTTGCAAATCAAGTTGAAGTTAGTCGTCAATATTATGGGATGATTGAGTCAGGAGTTAGAAATCCAAGCGTAGATCTAGCGAAACGAATCGCTTCGTCCTTAGGATTTGAATGGACTATTTTTTTTGTAGATGATGGAAACGAAATGTTTCGTGACGATGTACAGACAGCATCATCTGATCGAAAGGAGGTGGGGTAG	MAREWLAKLRIASNKTHDDVANQVEVSRQYYGMIESGVRNPSVDLAKRIASSLGFEWTIFFVDDGNEMFRDDVQTASSDRKEVG				NA	NA	NA	NA	NA
AK002_01873	294			hypothetical protein	ATGGCAAGAGCACTTACAACCCCTTCAACATTGGCGGAAGCTTTACGTTTGGCTGCTGATCTCGCTGAACGAAATGAGGAACTGGAGAAACAGCTAGTGGAATTGCAAACATCCCAGTTTCCTGAGGTACTTCAATCAAAGCATATTCTTGAATTGATGGGGTGGTCAAAATCAACTTTGACATTTGCGGCAAATGATCCAACGTTTCCGCATCTGGATGGATCCAGAAAGAAAGGTGATGCAATTCGGTGTTTGAAATGGGATTTTTACGACTGGCTTAAATCGCGGAGGTGA	MARALTTPSTLAEALRLAADLAERNEELEKQLVELQTSQFPEVLQSKHILELMGWSKSTLTFAANDPTFPHLDGSRKKGDAIRCLKWDFYDWLKSRR				NA	NA	NA	NA	NA
AK002_01874	516			hypothetical protein	ATGGCAATCGGACAGTTTGGACCAGCACTCGACGAAGTGCTGAAACGAAAAGGAGAGACGCGAGGGACGGCCGGCGCCGCAGCTCACGTAGATGCTTCCCTGATCGGGAAGATCGTAAAGGGAACAAGGAAACCTTCTAAGGAAGTTATGGCTTCCACGACTAAGCATTACGATGATGGTCAGCTTTACATTGCAGCAGCCGGGGAGGTTACTGGCGGCGCTTTTGCCCCCTGGCTCAACAATGTGGATTTACATAGAGCATCAGTTCTTTTCAAAACGGTCGAGGAAATCAAGGAAGTCTTAGTGCTCACATCCGAGGCGCCGATCAGCAAGACGGCAGATCAACTCAACGAATCAGAAAGAAAGATCATGAAACGGCTGCTGATGGAAACGGTCGAAGCGATAACGGCGTTGACTCACTTTGCAGCGGTCCTCTGTAAGGAATATTCATTCAGTTGGTTTGCCACGTGGAAAGAGCACCGCGCCGATCTTAAAGCAAAAAAATACATGAAGTGA	MAIGQFGPALDEVLKRKGETRGTAGAAAHVDASLIGKIVKGTRKPSKEVMASTTKHYDDGQLYIAAAGEVTGGAFAPWLNNVDLHRASVLFKTVEEIKEVLVLTSEAPISKTADQLNESERKIMKRLLMETVEAITALTHFAAVLCKEYSFSWFATWKEHRADLKAKKYMK				NA	NA	NA	NA	NA
AK002_01875	276			hypothetical protein	ATGTTGAGAAACGAGTTGGTAAAACAAGCTCTACAGGCTGGAAGAAATGCTGAACATAATCTGCAGGTCATCGTCCGGAATCCAGATAGGATGATTCACCCCAACAAATTGGTTGATGGAATCGACTATTTGAACAACATGATCAGATTCGCGGAAAAAGAAATAGAAAAAAAAGACCGCCGGCCAGGGCAGTCTCGGTTGAGAACACGTCTAATGAGTCTCTTGTCGTCTATTGTAGCTGACGAACAACGGAAGCGCAAGGAGGGTACGACATGA	MLRNELVKQALQAGRNAEHNLQVIVRNPDRMIHPNKLVDGIDYLNNMIRFAEKEIEKKDRRPGQSRLRTRLMSLLSSIVADEQRKRKEGTT				NA	NA	NA	NA	NA
AK002_01876	366			hypothetical protein	ATGATTGATAAAGGTTTAGTTATGGAGCAAGTCGGTAGGGATTTGTCGGAGCAAGAATCCCGGATAGTGGACTGGCTTAATGGCTGGAATTCCGATACCAGCAACACCGTCGCAAGACTTATTTATTCAGCTTATGAAAATGGTAGGCAAGCGCATGTTGTGGCAAGGGCACAAACGATGACAGCTGAGGATATTCAGGAATTCGTTCAGGCACTTGCCTTTCGATACAAACAAGTTATGGATGCATGGATTGTATCAAAGCCAGGAGACGAGAAAGCCATCTCAAATTACAAACTCTTTCAGAACGTTATCGATTCATTACCTCGAGAGATTTCAGGCCCATTTTGGGCAGAGTTCAATCGATAG	MIDKGLVMEQVGRDLSEQESRIVDWLNGWNSDTSNTVARLIYSAYENGRQAHVVARAQTMTAEDIQEFVQALAFRYKQVMDAWIVSKPGDEKAISNYKLFQNVIDSLPREISGPFWAEFNR				NA	NA	NA	NA	NA
AK002_01877	264			hypothetical protein	ATGCAGGTTATTCAAAAACTGACCGTAGTCAGTAACCCAACAAGAATTTTTGAAGTCGGTACTGAGGTCAACAGCCGGGAAGTAATTGAGATCAAACAAGTGGGTGATGACAACATTTCCGAGTTCTGGGTGATCGATGAGAACGAACAGGTTATTGCCAGTGTAGAGAACTGCCCGGTCATTGTGGAATGGCAGAACATCGCTGAACATGATCAAACAGAAAATGACCCGCAGGAACGGGTCATATCTGGTGCCAAAAAATAA	MQVIQKLTVVSNPTRIFEVGTEVNSREVIEIKQVGDDNISEFWVIDENEQVIASVENCPVIVEWQNIAEHDQTENDPQERVISGAKK				NA	NA	NA	NA	NA
AK002_01878	1992			hypothetical protein	TTGAATAGGATTGTACTTGAGCGTCTGAAGTTTCGTAATTTTAAGGGGTTCCGCGAATATGCTCTTGCCACCAATGGTGGGGACGTAGACATCTTTGGTGATAACGGAACAGGTAAGACAACGATTTTCGATGGTTTCACCTGGCTGCCATTCGGTAAGGACAGTTTCAACCGCTCAGACTTCGAAATCAAAGAACTCGATACCACCGGAAAGGTTCGCAAACACAAGATTGAGCATGAAGTCGAAGCTGATCTTCTTGTCAACGGTCGACGCCGAACCTTCCGAAGAGTCCTCTCGGAAAAATGGACGAAGAAGCGCGGTTCAGTGACTGATTCCTTCGAGGGACATACCACTGACTATTATATCGACGGTATACCAGTTAAAGCTGGTGAATTCAAGGATGAGATTGATTCCTTGATTAAAGAGGATCTGTTCAAGCTTCTGACCAATCCGACTTATTTCAACGAGCAATTGAAGAAAGAAGAGCGCCGCAAGGTACTGTTGGAAATCTGCGGTGATATCACAGATGCAGAGGTTATTCACTCAAATCCGGCTCTTAGTCGACTGCCTGCTATTCTGGGTGATAGGGCCGTGGAAAGTCATCGGAAGATGGTAGCTGCTCGGTGCAAGGCAATCAACAAAGAAATCGAAGAGCTTCCGGTTCGAATCAGCGAGGCTCAACTCAGTCAGCCAGACATTTCTGATCTAGACGAGGAGCTGCTTCAGGAGGATATCGATACGCTTCGGTCCCGATTGAAAGCCAAAGAGGAAGAGAAGCTCCGCATCCAAAACGGCGGGGAATCAGCAGTCAAAGAAAAGCGAATCCGCGAAATTGAAGCCGAGATTCTTAAAATACAAAATCGATTGCAGTCAGATGCGCTGGATCAAGTGGCCATCAAGCGCAATGAAACTGGCCGGTTACAAGGAGAGCATGACGCTTTGCGTCGGCAGATTGATGATAAACTTCATCGGATCGAGCAAGGTGAAAGAACCATTGATGCTAATAAACATGAGGTTTCTCGCTTAGGGGCTGAATGGGCAGAGGTTAACGAAAGAGAGTTTGAAGGCCATCAACATGATGAAAAATGTCCGAGTTGCGGACAAGCCCTTTCGGCTGAGCAAATTCAAGAGGCTCACACCAAGGCTGAGGCAGCGTTTAATCGCTCCAAAGCTGAGAGACTGGAGCAGATCAGCAAGAAAGGAAAAGCGGCTAAAGAAGAGATTCGTCGTTTGGAGCAAGTCAATTCTCGACTACTGGATGAGATTAATCAGTTAAGCGACAAATCAGCTATCATGCAAGCTGATCTGAAGGCAGCCGAGACAGAACTCGAAAGATTACGTTCCGGCATTCAGGATCCCAAGGCAGATCCGGAATATCAGCAACTTCTTACAGAGAAGGAGACCATTCAAGAGGAGATCATTCGTCTAAGCGATTATGCTAAGGAAGAATGCTGGCGGGTACAGCAAGATATAAACGATATTCAGGCTGAGCTTCGAAAGCTGGAAGAGGATAAAGCAAATTTTGCTCAGGTACGGAAGACAGAGCAAAGGATCGCCGAGCTCGAGAAGCAGGAGAGAGTCCTAGCTGCCGAATATGAGCAGTTACAAGAGGAACTGTTTCTCACAGAGGAGTTCACCCGTTCTAAGGTTGCTCTACTGGATTCGAAGATCAATTCCAAATTCAAATATGCACGTTTCCGATTGTTTGAGGAGCAGATCAATGGGGGGCTGAAAGAAGTTTGTGACACCCTCTACAATGGTGTACCTTATGACGGCGGGCTCAACAACGCAGCTCGTATAAACGTTGGCCTGGACATAATCAACACCCTCTCTGAGCATTATGGATTTTCGGCGCCGATATTTATCGACAATGCTGAGGCTGTAACGCAGTTGATTGATACAGATGCCCAAGTGATCCGGTTGATCGTTTCCGAAACTGACAAGAAGCTCCGGATCGAGACGAAGAATAAAAGCATGCAGGAGGCGATCTAA	MNRIVLERLKFRNFKGFREYALATNGGDVDIFGDNGTGKTTIFDGFTWLPFGKDSFNRSDFEIKELDTTGKVRKHKIEHEVEADLLVNGRRRTFRRVLSEKWTKKRGSVTDSFEGHTTDYYIDGIPVKAGEFKDEIDSLIKEDLFKLLTNPTYFNEQLKKEERRKVLLEICGDITDAEVIHSNPALSRLPAILGDRAVESHRKMVAARCKAINKEIEELPVRISEAQLSQPDISDLDEELLQEDIDTLRSRLKAKEEEKLRIQNGGESAVKEKRIREIEAEILKIQNRLQSDALDQVAIKRNETGRLQGEHDALRRQIDDKLHRIEQGERTIDANKHEVSRLGAEWAEVNEREFEGHQHDEKCPSCGQALSAEQIQEAHTKAEAAFNRSKAERLEQISKKGKAAKEEIRRLEQVNSRLLDEINQLSDKSAIMQADLKAAETELERLRSGIQDPKADPEYQQLLTEKETIQEEIIRLSDYAKEECWRVQQDINDIQAELRKLEEDKANFAQVRKTEQRIAELEKQERVLAAEYEQLQEELFLTEEFTRSKVALLDSKINSKFKYARFRLFEEQINGGLKEVCDTLYNGVPYDGGLNNAARINVGLDIINTLSEHYGFSAPIFIDNAEAVTQLIDTDAQVIRLIVSETDKKLRIETKNKSMQEAI				NA	NA	NA	NA	NA
AK002_01879	1083			hypothetical protein	TTGACCACAGAAAATCAGCAGGCTATTGCAAAAAAAGAGCCGACCCAGTCTGAACGCTTCATGACCAAAGTTATATCAGAATTTGGTTCAAGTGTTGGCGAAGTTGCATTAACAAACTTTCAAAAGCGACTCGCTCAAAATTACTTCGTTGCCTTAGATTCCGTTCTCAAGTCCACGGAAGAGAAGCGCTTGAAGAAATCCGAAAGATATCGAGATGCCTTAGCCGTCACTTGGGCGAACGTGAATATGGACAAGCTTGCCCGCGATGTTGTTGCTTACGCACGAATTGGATTTGATCCATCACAACCGAATCACATCAACCTAATCCCTTTTAAAAATAACAATACCAATAAGTATGACATTGTCTTCATTGAAGGATACCGCGGACTTGAACTAAAGTCCGTGAAATATGGTTTGGATATTCCAGATCACGTAACAGTTGAGCTTGTTTACTCCAATGATTATTTCGTTCCAATCAAAAAAGATGCTAATCATCCACATGAGGGGTATGAGTTTGAAATTAAGAACCCCTTTGATCGTGGATCCATCCTTGGTGGCTTTTACTTTCATTCATACACAAAGACCCCTGAAAAAAACAAGCTCGTCATGATGACGATTAAAGAAATCGAGAAGCGCAAGCCTGACCACGCAAGTCCTGAGTTCTGGGGCGGTGAAAGGGACAAGTGGGAGAACGGTAAAAAGGTAGGCAAGGAGTCTGTTGAAGGCTGGTTCGATAAGATGTGCTGGAAGACGGTATATCGGGCTGCGCATAGCGATATCACCATTGACAGCCAGAAGATCGATGATGATTATCTCCGTTTGAAACAAATGGAGAGTGACTTCGCGGAATCTGAGGTGAATCAGGAAATCAGTGAGAACGCGAACAAGAATGTCATCGACATTACACCACCAATCGACACAGATCCGGAACCTGATCCAGCCCAAGCAAAGAAAGAAACCTCTTCAGGCAGTACTGCTAAATCCAAGCCAGATCCTGCTGATCAACAAGCGATGGACTTTGAGGATTTCTCAGGTGATGTACCTCAAATGGAGTCGGCTGGTAGCGGCCCTGAGTCCTGGTGA	MTTENQQAIAKKEPTQSERFMTKVISEFGSSVGEVALTNFQKRLAQNYFVALDSVLKSTEEKRLKKSERYRDALAVTWANVNMDKLARDVVAYARIGFDPSQPNHINLIPFKNNNTNKYDIVFIEGYRGLELKSVKYGLDIPDHVTVELVYSNDYFVPIKKDANHPHEGYEFEIKNPFDRGSILGGFYFHSYTKTPEKNKLVMMTIKEIEKRKPDHASPEFWGGERDKWENGKKVGKESVEGWFDKMCWKTVYRAAHSDITIDSQKIDDDYLRLKQMESDFAESEVNQEISENANKNVIDITPPIDTDPEPDPAQAKKETSSGSTAKSKPDPADQQAMDFEDFSGDVPQMESAGSGPESW				NA	NA	NA	NA	NA
AK002_01880	708			hypothetical protein	GTGATCGATATTCAATGTCTAGGCTCCAGCAGTGCGGGCAATGCATACCGGATTAGCGATGGGAAAACGGCTCTCCTTCTGGAGGCCGGATTTCCTTTCAAATCACTGCAGCGGGCTTTGAAGTTTCGAATGACGAAGATTGCGGGCTGCCTGATCACCCATGAACATCAGGACCATAGCAAGGCCGCCAAGGACATCATGAAGGCTGGTGTGGACGTGTATACCAGTCAAGGCACAGCGGACGCCAGAGGCCTCGCAGGGCATCGTTTGAAGGTCATCAAGGCAATGGAGCCGTTTCAAGTTGGCACCTGGTCTATTCTCCCCTTTGACATACAGCACGACGTCGAGGAGCCACTAGGGTTCCTTCTGGCCAATACGGCCGGGGACAAACTGGTCTTTTTGACGGACACCTACTACTGCCGGCATCGCTTCCGGGATCTAACCCACATCATGGTGGAATGCAATTATTCGATGGACATCGTAAAGGAACGGGTGACATCCGGCCGCCTGCATCCAGCACAAATGAAGCGGCTGCTGAAGTCGCACTTTGGTCTGGAACATGTAAAAGATTTCTTGAAAGCCAATGATACCCGAAACGTCCAAGAGATCTGGCTCCTGCACTTATCGGATGGCAACAGCGATGAGGAACGTTTTAAGCGAGAGATTCAGGAAGTGACCGGTAAGATGGTCCGTGTGGCTGAACGATGA	MIDIQCLGSSSAGNAYRISDGKTALLLEAGFPFKSLQRALKFRMTKIAGCLITHEHQDHSKAAKDIMKAGVDVYTSQGTADARGLAGHRLKVIKAMEPFQVGTWSILPFDIQHDVEEPLGFLLANTAGDKLVFLTDTYYCRHRFRDLTHIMVECNYSMDIVKERVTSGRLHPAQMKRLLKSHFGLEHVKDFLKANDTRNVQEIWLLHLSDGNSDEERFKREIQEVTGKMVRVAER				NA	NA	NA	NA	NA
AK002_01881	195			hypothetical protein	ATGAGTGAACCCATACAGTTGGATCTGTTCGAAGAGCAGGATGCGCAGACGGTTTTAAACGGCATGTACTACGAACGGTCTTCAGGTAAGTTTGTCTCCTATGTTCTCGGCAGGCGGCACTTTGAAATAACGCCTGGCCGATGTCTTGGTGATAAGGAATGGAAAGAACGAATTATAAGGGAGCGTGCGATATGA	MSEPIQLDLFEEQDAQTVLNGMYYERSSGKFVSYVLGRRHFEITPGRCLGDKEWKERIIRERAI				NA	NA	NA	NA	NA
AK002_01882	282			hypothetical protein	ATGAGCCAAATGACAAAGGAAGAATTAAACCAGCGTACGAAGGAAATTGTCGATTTTCTTTCCGGAAAAAACGAGGAAGCGAAGATGGCGGGGATTGATCAGCACGGCCATTTCTATACTTCCGTTGCCTTTACATTAGGATCATTGATCGGATTTGACTTGAAGCCTGAAGGATACGGCCCAATTATCGCAACAGTGATTGAATCCCTTACAGACGGGTTGCAGACAGCAGCCCAGGGCAAGGGAGTAAATGGAACCTTTATCAAAATCGTGCGGGATTAA	MSQMTKEELNQRTKEIVDFLSGKNEEAKMAGIDQHGHFYTSVAFTLGSLIGFDLKPEGYGPIIATVIESLTDGLQTAAQGKGVNGTFIKIVRD				NA	NA	NA	NA	NA
AK002_01883	930			hypothetical protein	ATGCCCGAGGGAAGTTACTCTTTTCCGATTTACTCCGGATTACTTGAGCCAGAACATTACAAACGAATAGGCAGCGCGATATGGCTTTTCCTCTGGTGCGTAAGCTCCACGACGGCGGAGAAAGACGAAGAAGGAACGGTCTGGGGCATCGTCCTTGGGAACAAGCCTATGAAGCTGTCAGAGATCTCCGAAAGGTTCGGAGTCAACGACAAAACTGTGAGCCGCTGGTTGGACACCTTAGAGATTCATCAATACATACGAGTGACCAGGGCTCCAAGAGGCTTAATACTTTGGGTCAGAAATTCCAAAAAGAGACCGGACAAAAATGTCCGATCACCCGGAAGTGAACAGACAAAAATGTCCGATCACATCGACGGTGATAAGACAAATTTGTCTGATCACAAGCAAACTGATCAGACAAAAATGTCCGATCAGACGTCATTTTCGGGTAGTGATCGGACAAATATGTCTGATCTAAAAGATATTAAAGATCTTATTACTACTACTCCTACTACTAGGGAATGGCATGAGGAAGATGCTGACCCTCAGATAGACGGAATGATTGCCATTTTAAACGCTTATTGCAAATTGAATAACAAGCTTGATTTCCACGTTAGACAAAAAGAGCGCGAAGCCATGGGTAAGATGGTCGCCGGGGGGATGCCGGTACCCTTTACCATCCGAACTATGGAGGGCCTGCTTCAGGCAAAGCGTGAACGGGAGGGAGAAGGTTTTAAATACCCAACCAGCTTTTTGTACTACGTGGACGGAATTCACGAAGCTTGGCAGAACTCCCAAACTACCAGTCCGTCGATGGCTGGAGTCGCCCAGGGAGCGCCAGAGCAACCGAAACGAATGAGCAAGCAGCAGCAGGCGCTTGAAAACTTACGAAGACGAGCAAGGGAGGAACGGCAGCGTGAACAGAGCTGA	MPEGSYSFPIYSGLLEPEHYKRIGSAIWLFLWCVSSTTAEKDEEGTVWGIVLGNKPMKLSEISERFGVNDKTVSRWLDTLEIHQYIRVTRAPRGLILWVRNSKKRPDKNVRSPGSEQTKMSDHIDGDKTNLSDHKQTDQTKMSDQTSFSGSDRTNMSDLKDIKDLITTTPTTREWHEEDADPQIDGMIAILNAYCKLNNKLDFHVRQKEREAMGKMVAGGMPVPFTIRTMEGLLQAKREREGEGFKYPTSFLYYVDGIHEAWQNSQTTSPSMAGVAQGAPEQPKRMSKQQQALENLRRRAREERQREQS				NA	NA	NA	NA	NA
AK002_01884	336			hypothetical protein	GTGAACAGAGCTGAGGTAATCGACCTTTTCATCGAAATCAAGCAAGAGTACCCGCAATTTAACGATAGTGACGAAGAGATTGATCGCCACTTGAAATATCTCAAAGATTTCCCGTTTGAAGCAGCTTTGCATAATGTCGAGCAGCACATCAAGACAAAGAAATGGCCACCTGGCATATCAGAGATCCGAGGAAGCTTGGGGGAACAGATCGAGCGCGACCGAATGAAATCCTTTACCCAGGAGTATTTCGCTGAACGCGCCCGTGCTCGAGAAGAAGCGTGCCCACCTCCGCCAGGTTGGAAAGAGGCAGTATATGCAAAGCTCAAACGTGCCTGA	MNRAEVIDLFIEIKQEYPQFNDSDEEIDRHLKYLKDFPFEAALHNVEQHIKTKKWPPGISEIRGSLGEQIERDRMKSFTQEYFAERARAREEACPPPPGWKEAVYAKLKRA				NA	NA	NA	NA	NA
AK002_01885	1434	dnaC_1	COG0305	Replicative DNA helicase	ATGCAAAGCTCAAACGTGCCTGACATGATCCTACCCGAGATGCCGCATGATTTGGCCGCTGAGTGCTCGGTACTCGGTGCTATCCTGGTCAATCCGGATGTGTACGAGTACGTTGAAGCACTGGTCCCGAACGCCTTTTATCGCGCAGAGCATCGGCTTATCTTTAGCAGAATGATGGAACTTGCCGAGGAAGGGCAGCCGATCGACCTGGTGACGTTGGCTTCTCGTCTGCAAGATCAGAAAGAGCTTGAAGATACAGGTGGCGTCAGCTACTTGTCAAATCTGGCTCGCTCAGTTCCGACGACAGCAAATATAGAATCTTACGTCAAGTCAGTCCTAACCAAGTACACGTTGCGTGAATATATTCGGTCAAGCATGGCCGGGATACAGGCTGCTATGGCCGGTGAGGATATACGACACCTAGTCACATCAGCTCAGCAAGTTGCGACAACACTGGCAGATCAAGCAGCTCCTAAGAAGGATTTCAAACGAATCAATGACGTCCTGGTGGAAGTCATTGAGACGACAGAGGTTAAATCAGAGGCGTATAAGACAGGTAATGTTACGGGACTTCAAACTGGGTACACAGATTTGGATTTAATCACAGCCGGTCTACAATGTAGCGATTTAATCATTGTCGCTGCCCGGCCATCTGTTGGGAAGACAGCTTTTGCTCTCAACATTGCGCAGAATGTAGCACTTCTGAGTAGGGAACCTGTAGCGATATTTAGTTTGGAGATGTCGGCTGCTCAATTGGTCACCCGAATGGTCAGTGCTGAGGGGAATCTGGAAGCCAGTAAACTCCGGATGGGTGATATGGCGGAAGATGATTGGAGCAAAATGTCCGCGGCTGCTGGTGTCCTCGGTGGTACGAATATTTTGATCGACGACTCAGCTGGAATCACGGTGCATGATATACAGTCGAAATGCCGGCGCCTTAAGAAGCAGGAAGGACTTGGACTTATCGTAATCGATTATCTGCAACTGATCGTCGGCCGCAGCAAGGGTCGTGGGCCAGAGAACCGGCAGCAGGAGGTCTCGGAGATCTCCCGGACATTGAAACAGCTGGCCAAAGAGTTGGATGTTCCGATTATCGCGCTTTCCCAGCTTAGCCGCGGCGTGGAGCAACGGCAGGATAAGCGTCCAATGATGAGCGACCTTCGAGAATCCGGATCGATCGAACAGGATGCTGACATTGTGGCCTTCTTATACCGGGATGATTATTACGACAAAGAATCCGAGAAAAAGAACATCATCGAAATCATTATCGCTAAACAGCGGAACGGCCCTGTGGGTACTGTGGAGCTGGTGTTCCTGAAGCAGTTCAATAAATTTGTCAATTACGACCGGATTCATTCAGATCCCGGTCCAAAGCCACCAAATCCACCAAAACAAAACAAGGTGGTCAATATAGATAAACGCCAATGGGCATGA	MQSSNVPDMILPEMPHDLAAECSVLGAILVNPDVYEYVEALVPNAFYRAEHRLIFSRMMELAEEGQPIDLVTLASRLQDQKELEDTGGVSYLSNLARSVPTTANIESYVKSVLTKYTLREYIRSSMAGIQAAMAGEDIRHLVTSAQQVATTLADQAAPKKDFKRINDVLVEVIETTEVKSEAYKTGNVTGLQTGYTDLDLITAGLQCSDLIIVAARPSVGKTAFALNIAQNVALLSREPVAIFSLEMSAAQLVTRMVSAEGNLEASKLRMGDMAEDDWSKMSAAAGVLGGTNILIDDSAGITVHDIQSKCRRLKKQEGLGLIVIDYLQLIVGRSKGRGPENRQQEVSEISRTLKQLAKELDVPIIALSQLSRGVEQRQDKRPMMSDLRESGSIEQDADIVAFLYRDDYYDKESEKKNIIEIIIAKQRNGPVGTVELVFLKQFNKFVNYDRIHSDPGPKPPNPPKQNKVVNIDKRQWA				NA	NA	NA	NA	NA
AK002_01886	168			hypothetical protein	TTGGGGAAACAAACGAGGCCAACAAAACCTACCCGTAAGCAGAAGGAAGAAATGAAGGCATGGAAGCTTGTTCCGGATTCCTGGCTAGTCGTCCAAGATACCCCGACGGAGTTGCTTCTGATTAGCAAGAGCGGATTAAAGAAACGCTCCATCCGCCGAGGTGCCTGA	MGKQTRPTKPTRKQKEEMKAWKLVPDSWLVVQDTPTELLLISKSGLKKRSIRRGA				NA	NA	NA	NA	NA
AK002_01887	207			hypothetical protein	ATGGGGAGTCCTTGGAGTAGATGGAGCGTCTACGAATACATGAAGCACCGTTTCGTCCGGACTGGCCAGGTGCCTGATCAGGACGAGCTGCAAGCTGAATTCGCGGGGATTGATCAAACTGAGCTCCAAGAGGGGATTGCTGAGTTCGACACAATCGCTGCTGGATGGCACGGAATGGAGATGCAGCATGCAACGGAAATTGATTGA	MGSPWSRWSVYEYMKHRFVRTGQVPDQDELQAEFAGIDQTELQEGIAEFDTIAAGWHGMEMQHATEID				NA	NA	NA	NA	NA
AK002_01888	414			hypothetical protein	ATGATCCAGTTCACCGTTTACGGCGAACCCGTCGCGCAGGGAAGGCCAAAGTTCAGCACCGCCGGCGGCTTCGTAAAGGCTTATGACCCGGCGAAGTCTCGGAATTACAAGGATTATGTCCGGCTCGCAGCCGCTCAACATGCACCGAAAAGCCTTTTGGAAGGGCCGGTCGGAATGATGCTCACCGTTTACCGATCGATACCTAAAAGCTTCAGCAAGAAGAAGGCAGCTGCAGCTGAAGCCGGCGAGATACGGCCGACAACCAAACCAGACGTTGACAATTATCTAAAGGGTGTAAAGGACGCCCTGAAAGGTGTCATCTGGAAAGACGACAGCCAAGTCGTTGAAGTGTTTACCCAGAAGAAATACAGCGGTCGGCCGCGCATCGAGGTCAAGATCAAGGAATTATCCTAA	MIQFTVYGEPVAQGRPKFSTAGGFVKAYDPAKSRNYKDYVRLAAAQHAPKSLLEGPVGMMLTVYRSIPKSFSKKKAAAAEAGEIRPTTKPDVDNYLKGVKDALKGVIWKDDSQVVEVFTQKKYSGRPRIEVKIKELS				NA	NA	NA	NA	NA
AK002_01889	834			hypothetical protein	GTGATAGGGATGGTTAAAAACTACGCAAAATTTACTGCTGAAATTCAAAAAGGGATCAACATCAAAGGTTCAGATGTGGAAATGAAATTATTAATTCCGTTGAAAGCTGCTCAACCATACCTGAATTTTCTAAGCAACAGTCAAGGTAACGAAGTAAATATCTTTGTAGGAAATCCGCAAATGGCATTCGACTTCGAAGAGGATGAAGACGATGCCTACAAGCTTTACCAAGGTGGCCGTCGCGTAACAGCAGATGCCTCTGGTGTGGTCACAACGGTTGAGCAACCAGATGAGCAGAAGGATGAGAATCAGGCTGAGCTGGACCTCGATGAGTCCGGATCAGAGGGATCCGCTGAACACAGTGATGGACAAGCTGAGGATCCTGCAGGGGACCCTCCACCAGAGGAAAGCGACGAGCTGAACGATTACGAAAAGGAAATCATGGGCGAGGGTTCAACACAAGGAGGTCCCGATCTTCCGGAATGGATGCAGGAACAGCAGCAAGCGGATAAACCGGATGGAAATGAGATGACCTTCGAGGGTGCTGATCAAGAGCCAGCAGCGAACGGGAACTCTGAAACTGAGGAAGGCCAGGTATCTAGCGATGAAGAGATCAGCAAGGAAGATCTTGAACAGTTCATTTTAATCGAACGTCCTACCTTCGACGAGCTTCCATTTGATTTTCCTATGTTCTTGGAAAAACGCCTAAATGAGGGCAAAACATGGAGTGAAATTTCAAGGATTGCAGGCATTACATCGAGCCAATTACAGCCGAAGTGGAGAAAGTACAAGGAAATGGTCACCAAGATGATGAAGGACGGCGGAGCCGCTTAA	MIGMVKNYAKFTAEIQKGINIKGSDVEMKLLIPLKAAQPYLNFLSNSQGNEVNIFVGNPQMAFDFEEDEDDAYKLYQGGRRVTADASGVVTTVEQPDEQKDENQAELDLDESGSEGSAEHSDGQAEDPAGDPPPEESDELNDYEKEIMGEGSTQGGPDLPEWMQEQQQADKPDGNEMTFEGADQEPAANGNSETEEGQVSSDEEISKEDLEQFILIERPTFDELPFDFPMFLEKRLNEGKTWSEISRIAGITSSQLQPKWRKYKEMVTKMMKDGGAA				NA	NA	NA	NA	NA
AK002_01890	267			hypothetical protein	GTGGATGAGCAGACCCGTAGACGAGTATTTCAGAAGGTGAAGACCTTCAGCAATCATAAATTCTGGAACTGGATGAACTACATGCACAGTAGAGCCTATGCAAAGGCAGCACAGCATTATGAAGAAGCGATGGGGATCGTGCTGCAACCGAAACAAGCAGCTGCAGTAAAGTCAAAGGCAATCGAAATCCGCGAGAAATGGGACGGGATGTCTACGGTAACGATTGACGATACTGAGGGTGCTGAATTCCATTCACTGGGGGTGTAG	MDEQTRRRVFQKVKTFSNHKFWNWMNYMHSRAYAKAAQHYEEAMGIVLQPKQAAAVKSKAIEIREKWDGMSTVTIDDTEGAEFHSLGV				NA	NA	NA	NA	NA
AK002_01891	777			hypothetical protein	ATGGCGAGATTTCCTAACTGGACGAAAGAGGAGGTTGAGTACCTTCAGGATCAGTGGGGAGTAACCAGTATAAAGGGGATGTCAACTCGGCTGTGTAAAAGCATCAATGCCGTAAAGCTTAAGGCTCAGCGAATAGGGTTATCTGATGCCAGGATGAACTTTGACGGTATAACCGTTTGCCAGCTTGGCAAAGCGCTTGGTCGTGAATACTCCACCATGAAAAACTGGATCAATCGTTATGGGATGCCCGCCAAGAGGAAGTTGTTTGCTCAAAGCGCGAGGGTTTTGGTTATAGCTTATTCCGACTTCTGGAAATGGGCTGAGAAACATAAAGAGCTGCTGAATCTAGCCAAAATGGAGCCAGGAACAATCGGGCCGGAGCCTGAATGGGCGAAAGTAAAACGAAAAGCAGATCAATTAAGGTCTCAGAAAACATGGCAATCTGTTGACTGGACGCCTGCAGAGGACCAGAGGCTTGCTCAGATCCTGAAAACCGAAATTACTTATCCGGAATTAGCCCGCATGTTTAACCGATCGGAATCGTCCATAAAACGACGAATCCATGATCTTAACCTCAAAATGCGGCCGGTCCGCCTGAATAACCTGATCAAATATACACCCGATGAAGTCCAGACGTTGCTGCGTATGGCTCAGGAAGGATACAGTTACGAAACAATAGGTGCGGTGTTAGGAAAAAGTGCGCTCGGTGTCCGAGGGAAGTTGGAGCGAATGGGGTTTGACTTTAAACGTCGGCGGTTAAAAGAGACAGCAAATTGA	MARFPNWTKEEVEYLQDQWGVTSIKGMSTRLCKSINAVKLKAQRIGLSDARMNFDGITVCQLGKALGREYSTMKNWINRYGMPAKRKLFAQSARVLVIAYSDFWKWAEKHKELLNLAKMEPGTIGPEPEWAKVKRKADQLRSQKTWQSVDWTPAEDQRLAQILKTEITYPELARMFNRSESSIKRRIHDLNLKMRPVRLNNLIKYTPDEVQTLLRMAQEGYSYETIGAVLGKSALGVRGKLERMGFDFKRRRLKETAN				NA	NA	NA	NA	NA
AK002_01892	138			hypothetical protein	ATGAATGAGACCCCCACATCCTTGGCCGGGGCGGGGGTCAATAAACAATTTATTCCTCTCAATAATTATATCATAAAGGGGATTGAGGGGAATGGCGATGGCATGGGGACAAGGAGAGCTCTTTCCAAAAGCAACTGA	MNETPTSLAGAGVNKQFIPLNNYIIKGIEGNGDGMGTRRALSKSN				NA	NA	NA	NA	NA
AK002_01893	486			hypothetical protein	ATGGCATGGGGACAAGGAGAGCTCTTTCCAAAAGCAACTGAATCGGAGATCCAGCGCACAAAATTCCTGCTCGGAAAATATAAAGAGATGACGATGCTTATGCAGGATTTTGAAAAATTCGAACAGGACCTTAAACAAGTGGCCGTTGATGGCGAAGCAGCTCGTCGAATCGATCAAGAGGATTTACACGCCGATAAGACGGCCAACGCTACGATTTTGATTGAAAAGCAACGTTGGGTGTATCAGCAGTACAAATTTTACACACAACAGCTTCAGAGGGCATTCGGATTGATTCAAGACGATGATGAAAGGAAGGCTGTCGATTACAGGTACATGCAGGGTTATTCTTATAAGGAGACATTGCTGTTTTTCAGGCATGGCCTGAGTGACAGCACTATTCGCCGTAAGATAGCTGAAGGTACTGAGAGCATGGCTAACACGTTAAAACTGATGGGATTCTTTGAACAAGATAATGTCGAGTTTTAA	MAWGQGELFPKATESEIQRTKFLLGKYKEMTMLMQDFEKFEQDLKQVAVDGEAARRIDQEDLHADKTANATILIEKQRWVYQQYKFYTQQLQRAFGLIQDDDERKAVDYRYMQGYSYKETLLFFRHGLSDSTIRRKIAEGTESMANTLKLMGFFEQDNVEF				NA	NA	NA	NA	NA
AK002_01894	792			hypothetical protein	ATGACAGTAAAAAAGAAGATTAAGAGTTTATTTGTGATCGCTTCTGTTCTAGCACTGACTACAAGTAGTTTGGGTTCGGCAACAGCAGCACCAATCGAATCAAAGCCTGACTTTATTGAGAAGGCAGACCAGGTTCTTATTTCCACAAAAAATAATGAAGACAGAATAAATCAGTTAGAAGAATTGGGCTGGGAAGTTGTTGAGACATCATCGGATGATCGTATTATGACGCCTTTTTCACCATCTGGTTGTGGATCAGTGATAAATGAGAATGTTCTAAAACAATGGGACGCAGTTAACTCTCGTTATATGTATCTTATCCAGGCAGGATGGGACTTTAATGATTCCTGCTCGGATTTTGATGACACTTCAGGGAACGCCCCAGACATTCTGGCGATTGCAGTAGTAAATGGACAAGGTAAGTCTGTAGGAGTTCAAGGAGAGTTTGCTCAAATATATGTTAGAGATGAAGATGGCGATGATCATCCTACTAGAGGTAACGTTTCAGGACCAAGTGGATCTGGAATAGTTTATACAATCGATGATCAAGATGGATTTACAGATAACATCGGAGATAATGGGGACGCGTGGTTCTACATTCAAAAACCAAGTGGGACTGGACCGTTCTACGTACAATCTAAATGGCGTCATACTTGGACATCTACACAATCCACTTTAACAGGTGTAGGTATTACATATGGTACTGGGTCGATTGGACTCAATGCCACATGGAATACAACTACAACTCCTCTTTCATGGGATGCATTTGATTCGAGTTTAGCCTCATTCTAA	MTVKKKIKSLFVIASVLALTTSSLGSATAAPIESKPDFIEKADQVLISTKNNEDRINQLEELGWEVVETSSDDRIMTPFSPSGCGSVINENVLKQWDAVNSRYMYLIQAGWDFNDSCSDFDDTSGNAPDILAIAVVNGQGKSVGVQGEFAQIYVRDEDGDDHPTRGNVSGPSGSGIVYTIDDQDGFTDNIGDNGDAWFYIQKPSGTGPFYVQSKWRHTWTSTQSTLTGVGITYGTGSIGLNATWNTTTTPLSWDAFDSSLASF				NA	NA	NA	NA	NA
AK002_01895	1119			hypothetical protein	ATGAAAGTGGGTCGTAAACAAATGAAGAAAGTGGAATTGAAATATTCAAAAAAAGCTGTTGACAGAGCTGGTGATTTTTTCTCAAAAATGTTAAGCGAAGTATTCTTCGATGAAAATACAGAAGTAAGCTCGAAGGAGATAATTGATGCCTACGAAACGCTTAATAATTGGAGAGCTGTTCATGGTTATCCAATCAATACTTTTCAAGCGACTTTAAGAAACAAGTTAAAGAGCATTGACCCGAACGCAGTTGTAGCTCAAAGATTAAAACGAACCCCTTCGATTATAAGTAAACTAGCGAGATTTAGGGGAATGAAACTATCAAGAATGCAAGATATAGGTGGTTTGAGAGCTGTTGTCGAGGACCTAAGTCAAGTAGAAGCACTCTATGATTATTACAAGAGCAGTAATAGTAAGTGGAAGCATCAACTTGTGAATGAGAAAAATTACATTGATAACCCTAAACCGTCTGGATATAGAGGGATTCATTTGGTTTATCGCTACTATAAAAATAATCCTGAAATCTATAATGGCCTTATGATCGAACTACAAATACGAACTCGTCTGCAACATGCCTGGGCCACAGCTGTAGAAACAATGGGGACTTTTCTCAATTCCTCACTAAAATCTAGTGAAGGGCCAGATGAATGGCTATCGTTTTTTTCACTGGCCAGTTCGGCATTTGCATATTTAGAAGGGAAGAGTTTGATTCCTGGCTACGAACACCTATCAAGAGAAGAAACATTCCGAACTCTAGTGCTTGAAGAAAAGAGATTAAAGATTTCTGAAAAATTGAATGTATTTAGAAATGCCCTAAAAACTATAAGTAGTGATGGAACAGGTAGTTACTATCTCATGGTTTTAGAACCTGAAGAGAAGAAGTTAACATATACTGCTTATGGAAGAGATAGACTTGAGGAAGCCACGGAACATTACTTGAAAGAGGAACAAATAAGCGATGGTGATAACAAAAGACAAGTTGTACTTGTAAAAGCATCTTCTGTAGAATCGCTTAAAAAGGCATATCCGAACTACTTTTTGGATACACATGAATTTTTAAATGTTTTGCGGAGAATAAGCAAAGAAGTGAAGAAAGATAGCAAGGAAAGAGCGGGCTAG	MKVGRKQMKKVELKYSKKAVDRAGDFFSKMLSEVFFDENTEVSSKEIIDAYETLNNWRAVHGYPINTFQATLRNKLKSIDPNAVVAQRLKRTPSIISKLARFRGMKLSRMQDIGGLRAVVEDLSQVEALYDYYKSSNSKWKHQLVNEKNYIDNPKPSGYRGIHLVYRYYKNNPEIYNGLMIELQIRTRLQHAWATAVETMGTFLNSSLKSSEGPDEWLSFFSLASSAFAYLEGKSLIPGYEHLSREETFRTLVLEEKRLKISEKLNVFRNALKTISSDGTGSYYLMVLEPEEKKLTYTAYGRDRLEEATEHYLKEEQISDGDNKRQVVLVKASSVESLKKAYPNYFLDTHEFLNVLRRISKEVKKDSKERAG	PGPT0014825_185	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
AK002_01896	345			hypothetical protein	TTGTCAGAATGGAAAGAACAAATAAAAGCTCACGTTGCTTCGTATGTTGACTCAAAAACCACTGTCCACAAATCAATCGTGTCAGTCTTGACTGAATTGAAAAGTGGCCTTGGTTACGGAGTTGACGCGAAGCAAACCGCGCTTTCGCCAATAGAATGGAATGTTATTATTAATATACCCTCTGTTGGAAGAGTAGAGTTTAGCATTAGTTATTCTGAAATTTACGAAGCTGGTGGTTCGTATGATGAGATCGGAAACTGGATTCCCAAGTTTCCTGATGACTTGGACGGGGCAATAAAGGATATTATTTTGGAAAAAGTTAAAAATTCTGTCGATCCAGGATGA	MSEWKEQIKAHVASYVDSKTTVHKSIVSVLTELKSGLGYGVDAKQTALSPIEWNVIINIPSVGRVEFSISYSEIYEAGGSYDEIGNWIPKFPDDLDGAIKDIILEKVKNSVDPG				NA	NA	NA	NA	NA
AK002_01897	735			hypothetical protein	ATGAAAAATAAAGAAGAAAATCCGAATAAAACCCCGAAAGGGTATATAAATAAATTACACTTTATATACATTATTATTTGTCTTGTAATAGTAATTCTTGCAATATTGGCTTATACAATATGGGACAACGAGGCTGCAGGTGTTGGATTAAATAATGCTGCTACTGCTTCCTCAATCGTATTAGCAGTTGTTGCAATTGTGATGACAATAGTTGACATAGCTGGTCAGCGTAAAACCGTCTCCGATTTAAGGGACACAGCCGAGACCCTGGAAGAAAACCTCATTCAAACTAACAAGAGCCTTGAAACGGTAGCTACACTGGAAAACCAGTTGACTGAAACAATGGAAAGTATTCTTAAAAGCCAGCAGGAACTTCAACATGGAATCTCAAAAATACAGCACTCTTTTGGATCTGGGGAAGCAATAGATAAAGAAAAGCTGGTTGATCAACTGGAATTATTAAAGAATAAAGCAGTGATTATACCATCACATGTTCGTGTTGTAAATCGCCAGAATGATATAAATGAATATAAGAATCGTTTTGAAATAAGGGATAGGATTCTATTAGTGCTTAAAACAAGGAAAGAATTCTCAATTACTGAATTATTAGAAAGTCCTGCAGTATCTTCTTTAGGCATTAAACGATCAGCTTTGAAAAATGAACTAACTCGCTTAGTAGAGCAAGGGATAGTACAAAACAACAATGGAAGGTATGGTTTAAAAAAGAGAACATAG	MKNKEENPNKTPKGYINKLHFIYIIICLVIVILAILAYTIWDNEAAGVGLNNAATASSIVLAVVAIVMTIVDIAGQRKTVSDLRDTAETLEENLIQTNKSLETVATLENQLTETMESILKSQQELQHGISKIQHSFGSGEAIDKEKLVDQLELLKNKAVIIPSHVRVVNRQNDINEYKNRFEIRDRILLVLKTRKEFSITELLESPAVSSLGIKRSALKNELTRLVEQGIVQNNNGRYGLKKRT				NA	NA	NA	NA	NA
AK002_01898	1299			hypothetical protein	ATGAACATCAGAGTCGTCCCGATCGATCAGATAAATGCAGCTGCCTACAACCCAAGAGTGGACCTGCAGCCGGGAGATCCGGAATATGAAAAGCTAAAGCGTAGTATTGAGGAATTCGGCTATGTGGAGCCGATCGTTTGGAATGAGCGTACCGGCAACATGGTCGGCGGGCATCAACGGTATAAGATCATGGTCCATGAGCAAGGGCATACAGAGTTGGCCGTCAGCGTTGTCGATTTGGACGACCAGCAAGAACGGCTTCTGAACATTGCGTTAAACAAAGTATCCGGCCGCTGGGATGACGAAGCATTGGCCAGGCTATTGGCTGATTTGCAAACGAGCGGGGCGGATTTGACGTTATCGGGTTTTGAAGAGGAAGAGCTCAGTGACCTGATGGTCGATTTCGGTACCATGCCTGATACGGAGATTGAGGAGCCGGTTGTGGAGGATGATTTCGACGTCCAAGGGGCGTTTGATGACATCCGGGAGCCGGAGACGAAACGGGGAGATATTTGGCAGCTAGGCCCTCACCGATTGATGTGTGGTGATTCAACCAGCATTGAGGATGTAAGCTACTTGATGGATGGTGAACTGGCTGCGCTGGTGGTTACAGACCCACCATATAACGTGGCAGTTGAAAGTGACTCTTCCCGTCTGGCCGCTGACGGCCGGGAGTCAATAATGAACGACGACATGCCTGCAGAGGAATTTGCGGGCTTTTTGCATTCCGTATTTGAGAGGTATGCCGAACATATGGCGCCGACGGCGGCGATATACGTCTTTCATCCATCTTCTTACCAGCGCCAGTTCGAGGACGCCATGAACGCAGCAGGCATTGTCATCCGGAGTCAATGCGTATGGGTGAAGAACGCGGCTTCATTCGGTTGGTCGCAGTACCGTTGGCAGCATGAGCCGGTATTCTATGCTCATATAAAGGGAAAGACCCCAGCTTGGTACGGCGACCGCCGACAGACAACGGTATGGCGCGCTGGCCTCCCTTTGGAGGAACCTGAACCATCCACGGTCTGGGAAGTGTCCCGTGGTAACGTCGGCAAGTATGTTCATCCGACACAGAAGCCGCTAGAACTACTGGCCATACCGATCAAGAATAGCAGTCGTCCAGGTAACACTGTTGTGGATTTCTTCAGCGGAAGCGGGTCCACATTGATGACTTGCGACCAACTGGATAGGCCCTGCCGTACCATGGAGATCGATCCGAAGTTCTGCGACGTCATTAAAAAACGGTACAAGGAAGCTACCGGCATAGAGCCAGTCCTCATTTCTCGTATCAATTCTTAG	MNIRVVPIDQINAAAYNPRVDLQPGDPEYEKLKRSIEEFGYVEPIVWNERTGNMVGGHQRYKIMVHEQGHTELAVSVVDLDDQQERLLNIALNKVSGRWDDEALARLLADLQTSGADLTLSGFEEEELSDLMVDFGTMPDTEIEEPVVEDDFDVQGAFDDIREPETKRGDIWQLGPHRLMCGDSTSIEDVSYLMDGELAALVVTDPPYNVAVESDSSRLAADGRESIMNDDMPAEEFAGFLHSVFERYAEHMAPTAAIYVFHPSSYQRQFEDAMNAAGIVIRSQCVWVKNAASFGWSQYRWQHEPVFYAHIKGKTPAWYGDRRQTTVWRAGLPLEEPEPSTVWEVSRGNVGKYVHPTQKPLELLAIPIKNSSRPGNTVVDFFSGSGSTLMTCDQLDRPCRTMEIDPKFCDVIKKRYKEATGIEPVLISRINS				NA	NA	NA	NA	NA
AK002_01899	216			hypothetical protein	ATGGGAACACCTGAGAATAAAGATTTGCTTATGCAGCATGAGCTTCAAGTCATGGAAGGTATCCTCGAGAGCAAGGAACAATACCGGAAGATCGTCAAAGCGGGTATAGCCAAGTGGGTGAAGGATTTTCAGGAAGGCCGGATTGAGATCAATACGGTGGACGACCTGAAAAAGCTGATTGAAATAGATATTGAGTTACAGAGGGATGAGCTTTGA	MGTPENKDLLMQHELQVMEGILESKEQYRKIVKAGIAKWVKDFQEGRIEINTVDDLKKLIEIDIELQRDEL				NA	NA	NA	NA	NA
AK002_01900	426			hypothetical protein	ATGACCTATAATCAGATTAAAAAGCTAGAAAAGTATCTGGACTCAATAAAGGGTAAAACTCCCGAAGATGTTAAATTCGTAAAATCCTCCATACAACAAATAATGAATGACGCAATTAAAAGAGAAGAGAACTTTAAGGATGATTTGAAAAATATTAGAATTCACTATCAAGCTCAATTAGCTCTTTCAAATGCCATGGGAAATTATATTGGTATATCAGCAATTTTAATTGCATTAGTAATTGGAATGTTTAGCGTAAGTTCCTCAATGGATAACGTGAGTTTACTTTATTCAATTTCTACACTTCTATTTTTCATTTTCGTAGGGTATATGCTCATTAACACAGGGCGTATTAACAAAAAATTGGTTTCGTATACAATCATCATACAAATAATCGATGAACTATTAGAAAATCCAAGTATTTAA	MTYNQIKKLEKYLDSIKGKTPEDVKFVKSSIQQIMNDAIKREENFKDDLKNIRIHYQAQLALSNAMGNYIGISAILIALVIGMFSVSSSMDNVSLLYSISTLLFFIFVGYMLINTGRINKKLVSYTIIIQIIDELLENPSI				NA	NA	NA	NA	NA
AK002_01901	882			hypothetical protein	ATGGCTAGAGAAAGAAGTCCAGACCGGGACAAGGCAAAACGTATGTGGCTGGAGAGCGGCGGAACGATGAAGCTTAAAGACATCGCCGCCTCTCTTTCTATTGGGGAGACACAGGTCCGAAAGTGGAAATCCCAAGATAAGTGGGCTGCTGATTTGAATAGTAACGTTACCAATGAATCGAAAGGTAACGTTACTAAACGAGGTGCCCCCAAAGGGAACAAAAACGCAGTCGGTAACCGTGGGGGAGCTCCTGAAGGTAATAAACGAGCTGTTGGCAATAAGGGCGGCCCCGGTGGGCCGCTAAAAAATAAGAAAGCAGTTACCACGGGGGAATATGAAACGATATGGCTTGATGCGTTGGAAGACGACGAGCTTGATTTAGTGAACCGGATCGACACGGATCCTATCCTGCAGGTGGATGAATCAATTCTCAAATTTGAGATCCGCGAGCGGCGTATGCTGCTTCGAATCAAGCGGCTGATCGACGGCCTGACTGAAAAGGAACGACGGGTCCTGTATGAGCTCAAGTCGGTAAAGGAAGCGATGACGGTACATGACGAGAAATCCGGCCTGACCAAGACGATCCCCGTCACTCGGACCGAACTGGTAGAGTCCGAGATTGAGGAAAAGACCTTCCGTCAAATTGATGACATCATTGCTTTGGAGGAGGCATTGACTCGAGTTCAGGACAAAAAGTTGAAGGCAATTGAACTGAAAAACAAGCTGCTGGATGAAGAGCGGCAGGTTCGCATTGAAAAGCTCAAGTTTGAGCTTCAAATGCTCCGCGGCGGCGAAGCCGATGACGTTAAAGATGATGGATTCATTGAAGCTCTAAGAGGAAAAGCAGCGGAGGTGTGGGCTGATGGCAAGACTGAAGCTTAA	MARERSPDRDKAKRMWLESGGTMKLKDIAASLSIGETQVRKWKSQDKWAADLNSNVTNESKGNVTKRGAPKGNKNAVGNRGGAPEGNKRAVGNKGGPGGPLKNKKAVTTGEYETIWLDALEDDELDLVNRIDTDPILQVDESILKFEIRERRMLLRIKRLIDGLTEKERRVLYELKSVKEAMTVHDEKSGLTKTIPVTRTELVESEIEEKTFRQIDDIIALEEALTRVQDKKLKAIELKNKLLDEERQVRIEKLKFELQMLRGGEADDVKDDGFIEALRGKAAEVWADGKTEA				NA	NA	NA	NA	NA
AK002_01902	1284			hypothetical protein	ATGGCAAGACTGAAGCTTAAGCCGCCACCTTTCAAATGGAGACCCTTTTCCGAGAAGCAGATCCGTGTTCTGACTTGGTGGATGCCGGAGAGCCCGCATCATGATATGGACGGCCTGATATGTGACGGTTCTGTCCGGGCGGGGAAGACGGTGGCCATGTCGCTAAGCTATGTTTTTTGGGCCATGGAGAGCTTCAACGGTGAACAATTCGGCATGTCCGGCAAGACCATCGGCGCGCTGCGCCGTAACGTGATCGGGCCGCTCAAGCGCATGTTGACGAGCCGGGGTTATAGCGTTCACGACAACCTGACAGATAACGTCCTGACGATTAGCCGCGGGCTTGTGGCAAACTATTTCTTCCTGTTCGGCGGAAAGGACGAACGAAGCCAGGATCTGATTCAAGGGATTACGCTGGCCGGGATGTTCTTCGACGAGGTTGCCCTAATGCCACAATCGTTTGTGAACCAAGCGGTGGCACGCTGCTCCGTCGAAGGCCGGAAATATTGGTTCAACTGCAATCCAGCCGGCCCTTATCACTGGTTCAAGGTCGAATGGTTGGATCAAGCCGTCGAGAAGCGCGTGCTGCACCTGCATTTCACGATGGACGATAATCTGTCGCTGTCCGAACAGATCAAAGACGGCTACCGTCGATTGTTCAGCGGCGTGTTCTACAAGCGGTATATTCTCGGTCTGTGGGTGCTTGCTGAGGGTGTCATATACGATATGTTCGATAAGGACAAGCACGTCGTCCCGACCAAGGATCGACCATACACGCAATATTATGTCAGCTGCGACTACGGGACTCAGAACCCGACCACGTTTGGGCTTTGGGGACAATGCGAAGGTACTTGGTACAAAATCAAGGAGTATCATTACGATGGCCGGGCTCGCAGCCGGCAGAAGACAGACGAGGAATACTGCGACGATCTCATAGAATTTGTAGGCAAGCTGCCGATCAAGGGCGTCATTATCGACCCTTCGGCAGCTTCTTTTATTGCAGCCATCAAGAAGCGTGGCGTGCTGCGCGTCATTAAGGCTGCCAATGAGGTAGTAAACGGGATCCGCGACGTCGCGTCGGCGTTGGTTGAAGGTTTGATCAAATATAACGATTGCTGCAAGGAGACGTTCCGGGAATTCAGTTCCTATGTTTGGGACGAGAAGGCAGCAGCTCGCGGCGAAGACAAGCCGGTTAAAGAGAACGATCACCAGATGGACGGTGATCGTTATTTTGTGCATACCATCGTGAAGCGTCGGGGCGGTGTATTCTTCCCGGGGCAAGCGTGA	MARLKLKPPPFKWRPFSEKQIRVLTWWMPESPHHDMDGLICDGSVRAGKTVAMSLSYVFWAMESFNGEQFGMSGKTIGALRRNVIGPLKRMLTSRGYSVHDNLTDNVLTISRGLVANYFFLFGGKDERSQDLIQGITLAGMFFDEVALMPQSFVNQAVARCSVEGRKYWFNCNPAGPYHWFKVEWLDQAVEKRVLHLHFTMDDNLSLSEQIKDGYRRLFSGVFYKRYILGLWVLAEGVIYDMFDKDKHVVPTKDRPYTQYYVSCDYGTQNPTTFGLWGQCEGTWYKIKEYHYDGRARSRQKTDEEYCDDLIEFVGKLPIKGVIIDPSAASFIAAIKKRGVLRVIKAANEVVNGIRDVASALVEGLIKYNDCCKETFREFSSYVWDEKAAARGEDKPVKENDHQMDGDRYFVHTIVKRRGGVFFPGQA				NA	NA	NA	NA	NA
AK002_01903	1494			hypothetical protein	GTGTCATTACTGTGGCCGACAGATGAATATCAAAAGGAAATTGAAGACATTATCATCCGGGGAGCTAAAACGGCGGCCACGCTGGAGCAAATCATCCAGCTTGAGATCGGCGGGTGGAGGGCCTCCCCTAAGCGGAAATGGATGGAGATTGGTGACCTCTATTACCGTAATAAAACGGACATCTTGGAGCGGCAGCGGACTGCAATAGGTGCTTCTGGAGCTCGGGAGCCGGTCGGTAACCTGGCTAATAACAAACTGGCTAATGCATTTGTACGGAAACTAGTGGACCAGAAGGTCGGCTATCTGCTCGGGAAGCCAATAAGTATCCAGACAGATAATTCAAAGTACGCGGAAGCGTTGGATGAAGTTTTCGACAGCACCATGTCCCGGAGAATCCAGTCTACAGGGAAGGAAGCTGTCAATAAAGGGATTGCCTGGTGGTTCGTGTACTACGATGAAACAGGTGAACTTCAATTTCGGAAGATGCGATCAGAAGAAATCATTCCACTTTGGGCAGACGAGGCGCACACTGTTTTGGATGCGATCATACGTGATTATGAGGTCATTGTATACGAGGGCATGCAACGCAAGACTGTCCGAAAAATTGAATGGTGGGATACACAAGGTGTTCGCCGTTATGTTGTGGATGGAACGGGCTTGGTACCAGATGTAGAAGCCGGGCCGATCGGATCACATTTCTCAGTGATTTCTGGTGGTAAGGAACAACCGATGAATTGGGAACGCGTACCGTTCATTTGCTGGAAGTATAACGAGGAAGAGCAGCCTCTTGTCGAGATCATCAAATCCCTGGTAGACGACTATGACCGTAACAAATCCGATAACAGCAACAACCTGGAGGATTTACCTGAATCGATCTACAAGGTCAAAAATTACAGCGGGACGGATCCGGCCGAGTTTCGTAAAAATCTTGCACTATTTCGGACCGCCTTTGTTGATGGTGATGGCGATCTGGATACGTTGTCCCTTGCCCTCAATGTTGAAACCTACAAGACTCATATGGAACAGGCACGGAAGGATATTTATGAGTTCGGTCGAGGCGTCGATACGCAAGGTGTCGAAATCGGCAGCGCACCCTCAGGAATCGCACTGAAGTTTCTTTATTCAGACCTTGATCTCGATGCCAGTCTCATGGAGACCGAGTTTCAGGCATCTCTTGAGCAGCTTCGGTGGTTCGTCGATACGCACCTGTATAACACGACAAAGGTTGATTACAGCGAAGAGGATATTGAGTTTATCTTCAATCGAGATATGCCGATTGATGAGGAAAGCATCATTCGCGGGATAAAAGACAGCATCGGTATTTTGTCAGACGAAACGCTTGTTGCGCAACATCCGTGGGTTCGTGTTGTTCAGGCTGAACTGGACCGCATTCAGAAGCAAAAAGAGGAGTCTCTTGAGCGCATGGCCGCATACGGCGGGCTTCCACCGAATACACCGCCTGATGCTACCAGTGAGGATGGCGATGATGAATGA	MSLLWPTDEYQKEIEDIIIRGAKTAATLEQIIQLEIGGWRASPKRKWMEIGDLYYRNKTDILERQRTAIGASGAREPVGNLANNKLANAFVRKLVDQKVGYLLGKPISIQTDNSKYAEALDEVFDSTMSRRIQSTGKEAVNKGIAWWFVYYDETGELQFRKMRSEEIIPLWADEAHTVLDAIIRDYEVIVYEGMQRKTVRKIEWWDTQGVRRYVVDGTGLVPDVEAGPIGSHFSVISGGKEQPMNWERVPFICWKYNEEEQPLVEIIKSLVDDYDRNKSDNSNNLEDLPESIYKVKNYSGTDPAEFRKNLALFRTAFVDGDGDLDTLSLALNVETYKTHMEQARKDIYEFGRGVDTQGVEIGSAPSGIALKFLYSDLDLDASLMETEFQASLEQLRWFVDTHLYNTTKVDYSEEDIEFIFNRDMPIDEESIIRGIKDSIGILSDETLVAQHPWVRVVQAELDRIQKQKEESLERMAAYGGLPPNTPPDATSEDGDDE				NA	NA	NA	NA	NA
AK002_01904	1653			hypothetical protein	ATGAAATCGGAAGATTACTGGGCGCGCCGGATGGAGGACCTGAACGAGGCGGAGCTTCGAAAGGGAGAGGCGTATATCAAGGCGCAGAACGCTGAGTATGACAAGGCGTTGGCCCGGATCCGGAAGGAGACGGAAGCCTGGTATGCTCGGCTTGCCAAGAACAACGGTGAAATCTCTATGGCAGCTGCTCGCAAGCTCCTGACAGACAATGAGCTCAAGGAGTTCCATTGGTCGGTAGAGGATTACATCAAGGTCGGCCGGGAAAATGCAATCGATCAGCGATGGATGAAGCAACTTGAAAATGCGAGTGCCAAAGCCCACATCAGCCGGCTGGAGGAACTGGAGCTGAAGTTGCAGCAAGAAGTCGAACTGCTGACGGCCCGGCGGGCCAAGGGTTCGACCGAAGTCCTCGGCGATATATACAAGGAAGGGTATTACAAAGGGATCTTCGAAGTACAGCGCGGCGTCGGCGAGGGCGTGCCGTTTGCTGGGCTGGATGCCCGCCAGATTGACAAGGTCTTGGCGAAGCCCTGGGCGCCAGACGGCCGGAACTTCAGTTCGAGGATCTGGGGAGATCGGGATAAGCTGCTGTCGGAGCTGCAGACGGTACTGACGCAGGACTTGACCCGCAGCGAGCCGTCAGATAAGGTGATCTCCGATTTTGCGGAGCGGATGAGCGTCAGCAAGCGTGCGGCTGAGCGGCTTATCTTAACGGAGGCGGCGTATTTCTCCGGTCAGTCTCGGATCGATGGGTATAAGACCCAGGGGGTTACGGCCTATAAGTTTGTAGCCACATTGGATAAGCGGACGTCCAAAGATTGCCGGGAGATGGACGGGGAGGTCATTCCGCTGTCGGAGGCGAAGCCGGGAGTCAACTATCCGCCGTTGCATGCCTATTGCCGCTCGACGACGATTCCCGTTTACGAGGACGTGGGGGAGGCAGAGCCCGGCGAACGAGCTGCGCGCGGGAAGGACGGCAAAACCTTCAGCGTGCCCGGTAACATGTCTTATAAGGAGTGGGCTGCGAAATACGCGCCGAAGGATTCTGAAAAGCCGCCAGCGGTTTCAGAACCGCCGGCAGTTGAACCACCACCGGTTAAGACGACTGAGCCTGATGCGAAGCCACCATCGGCAGCGCCAACGGCTCAACCTTCAAGCCCGTCGCAGCCGTCTTTGCCATCCAATCAGCTGGATCTGACGAGAGACGAAGAGGCGGCCGTCACGCGATACATCGGAGGCGAGTCTTACGTACTAAATGACAAGCTACGCCGCGGGCAACCGCTAGAAAGTCGGGAAATGGAATGGATCGAGGAACTAGATAAGGCCCTTAACAAGCTTCCTCCATATGAAGGGGATGTATCGAGGTCGCTGCAGTTCACTTCAGAGGAATCCCTCGAGGAGTTTATGGCAGACATCCGGCCCGGAGCCGTGATACAATATCCGCAGTACATCTCGACAACGGCTGGCCCTATTTACAATCCGGATGGTCAGGTTCAAATGATCATTTTGGGTGCCCGTCAGGGTCGTAACATCACGATGTACAACCCGGGAGAACAAGAAATTCTGTATTGGAGGAATTTCGGGTTTGAGGTTACCGAGGTGCGGTATGTGGACGGCGTGTACATCATCCTCATGAGGGAGGTTGGGCAATGA	MKSEDYWARRMEDLNEAELRKGEAYIKAQNAEYDKALARIRKETEAWYARLAKNNGEISMAAARKLLTDNELKEFHWSVEDYIKVGRENAIDQRWMKQLENASAKAHISRLEELELKLQQEVELLTARRAKGSTEVLGDIYKEGYYKGIFEVQRGVGEGVPFAGLDARQIDKVLAKPWAPDGRNFSSRIWGDRDKLLSELQTVLTQDLTRSEPSDKVISDFAERMSVSKRAAERLILTEAAYFSGQSRIDGYKTQGVTAYKFVATLDKRTSKDCREMDGEVIPLSEAKPGVNYPPLHAYCRSTTIPVYEDVGEAEPGERAARGKDGKTFSVPGNMSYKEWAAKYAPKDSEKPPAVSEPPAVEPPPVKTTEPDAKPPSAAPTAQPSSPSQPSLPSNQLDLTRDEEAAVTRYIGGESYVLNDKLRRGQPLESREMEWIEELDKALNKLPPYEGDVSRSLQFTSEESLEEFMADIRPGAVIQYPQYISTTAGPIYNPDGQVQMIILGARQGRNITMYNPGEQEILYWRNFGFEVTEVRYVDGVYIILMREVGQ				NA	NA	NA	NA	NA
AK002_01905	165			hypothetical protein	ATGAGTCAGAACAAAAAACCATTTTCGGATCCACGATGGAATGATACTTCGAAACCGAAGATTATCGGGTACCGGGAGATCCCTCCGGAAGAACAGAAAAAATACAAGAAACAGCTGGATGACTTTTTACGGAAATCGGGAGTTATGAAAAAGGATCATGATTAA	MSQNKKPFSDPRWNDTSKPKIIGYREIPPEEQKKYKKQLDDFLRKSGVMKKDHD				NA	NA	NA	NA	NA
AK002_01906	276			hypothetical protein	ATGCCCAAGCGATATAAGAAGAGCGTTTTTATTGACGTCCTTGAATTCAGCAATACGCCTGAGAACCACCAAGACATCATTGATTTTACCGGCTTGCCTATCAGCGTCGAGTACACCAGTGACGGTGTGCAGCTCCGGGTGATTCGTGGAGCCTACAGCGTCCTGGTGGCCAAGTTGGGGGAGTGCATCGTGAAAGATAGTGCTGGTACCTTAAGTGTTCGGACTAAAGAGTCACTTGAGGCCGAGGGGTACACCCTAGTCGAAGAGGCTGGCTAA	MPKRYKKSVFIDVLEFSNTPENHQDIIDFTGLPISVEYTSDGVQLRVIRGAYSVLVAKLGECIVKDSAGTLSVRTKESLEAEGYTLVEEAG				NA	NA	NA	NA	NA
AK002_01907	648			hypothetical protein	ATGGATTGGTTGAAGGAATTGCTGAAGAATGCCGGGTTGAATGAATCAAAGATCGATGCCTTGATCGGTGACGTGAACAAGGAGCTGCCGAAACACTTCGTGCCGAAGGACAAGTACAACGAGGCTGCCGAAGCCCGCAAGAAGGCAGAGAAGGAAGTCACCGATCGCGACAAACAGCTGGAGGATTTGAAAAAATCCAGCGGTGACGCCGAAGCGCTGAAGCAGCAGATACAGAAACTTCAAGACGACAACAAGGCGGCCAAAGATAAGTACGAGGCTGAGTTGAAAGACCTGCAGCTAACAGGAGCGCTCAAGCTGGCCCTTGCTGGCAAAGTCCATGATCCGGACATCGTGACAAACCTGCTGGATAAAACAAAAATCGAACTGGACGACAGCGGAAATATCAAAACTGGCTTGGATGACCAGATTAAAGCCCTGCAAACGAGCAAGGCTTTTTTGTTTGTCCCAGAGGACAAAGGCGGCGGTCAGTTCCAGTTCCGCGGGGCCAATCCGCCAGAAGGCGGAGGAGCAGGCGGTGCCGGCGGGTCTGGTCAGGACAAGGCTGCTGAATTTGGGAAGAGGTTGGCCGAATTCGCCAAACAAAACTCTTCCACTGCGGAGGCACAAAAATCATATTTTGGAGAGTGA	MDWLKELLKNAGLNESKIDALIGDVNKELPKHFVPKDKYNEAAEARKKAEKEVTDRDKQLEDLKKSSGDAEALKQQIQKLQDDNKAAKDKYEAELKDLQLTGALKLALAGKVHDPDIVTNLLDKTKIELDDSGNIKTGLDDQIKALQTSKAFLFVPEDKGGGQFQFRGANPPEGGGAGGAGGSGQDKAAEFGKRLAEFAKQNSSTAEAQKSYFGE				NA	NA	NA	NA	NA
AK002_01908	366			hypothetical protein	TTGCACATGAGCAAGTTTGTACAAACCGACTACGGTAACCGGAAAGAAATTCTGAAATTCCCGGATCACTACGTGAATATGCCGATTACTGTCGATGCCACAGGGGTAACCCCGGATGCAGACGGCAAGAAAGTCGTGCCAGCCGGGACGATCTTGGGCGGCGGCGTGCTGACAGATACGTCGAAGCTTGCCAAAAAAGCGAACGACGGCACGGCAGAAGGCGTGCTGTTTTATGACGTTGATGTAACGTATGGTCCGGCCCCGGGAGCACTTCTGATTCATGGCTTCATCGATTTAGCCAAGTTGCCGGAAGCACCGGCTGATGAAGCTGTCGCAGCTTTGAAACAAATCACATTCATCGCCTAA	MHMSKFVQTDYGNRKEILKFPDHYVNMPITVDATGVTPDADGKKVVPAGTILGGGVLTDTSKLAKKANDGTAEGVLFYDVDVTYGPAPGALLIHGFIDLAKLPEAPADEAVAALKQITFIA				NA	NA	NA	NA	NA
AK002_01909	1050			hypothetical protein	ATGCCTACAATTTTTGATATGGTCAATGCAAAGGCTATTGCTGCATATGTGACTAACAATCCATCCAACAGAATCGCTTACCTCGGAGCCACTCTATTTCCGCGTCGAAAGAAGCTCGGACTCGATTTGTCCTGGATCAAAGGTTCTCGCGGTCTTCCTGTATCGTTGCAGCCGTCTGCATTTGACGCCAAAGCAACGCTTCGGGACCGTATCGGCCTTAGCAAAATCGAAACGGAAATGCCGTTCTTCCGCGAATCGATGAGAATTGGTGAGAAAGATCGCCAAGAACTACTTAAGCTGCAGGAGTCTGCTGATCAATACGTCATGCCGTTGATCAATCAAATTTTTGACGATGTTGCATCTCTAGTTTCCGGCGCTGATGTTGTACCAGAACGTATGATCATGCAGCTGCTGTCAAGCGGCAGAATTCGTATCACATCTGCGGAGACGCGTCAGGACTATGATTATGATTACAAGATGGATCCGAGCCACATGGAGACACTGACCGGCACGGCCGTTTGGAGAAATCCCGATTCCACGCCTATTCAGGACATCCAACGTTGGCAGAAGCAAGTTGAGGCAGATACTGGCACGAAGCCGACGCGCGCAATCTGCTCTCAAGACGTATGGGATGCTCTTCTCGTACATCCATCTATTCGTCTTGACATGAATCCGTTGGGTGGCCAGAACGTCATCATGACGGATGAGATGTTGCGCCAGTACCTTCGTGCTAAACTCGGCATCAGCGTTGCCCCGTATACGAAGCAGTACGCCCTTCAGGACGGATCTTCGCACCTGTTCTATCCAGCGGGATATTTCACACTCATTCCGGAGGGTAATCTTGGCAGCACGTGGTTTGGCACGACGCCGGAGGAAGCTGATCTGATGGCCGGAGCAACGGCTGCAGAAGTTTCGATCGTCAATACTGGCGTGGCAATCACGTCAATCAAGGAACCACATCCGGTGAATGTCGAGACGCTCGTCTCCGAGATCGTGCTTCCGAGCTTCGAAACGATCGATACCATATTCATTGCCAAGGTGTTTGATTAA	MPTIFDMVNAKAIAAYVTNNPSNRIAYLGATLFPRRKKLGLDLSWIKGSRGLPVSLQPSAFDAKATLRDRIGLSKIETEMPFFRESMRIGEKDRQELLKLQESADQYVMPLINQIFDDVASLVSGADVVPERMIMQLLSSGRIRITSAETRQDYDYDYKMDPSHMETLTGTAVWRNPDSTPIQDIQRWQKQVEADTGTKPTRAICSQDVWDALLVHPSIRLDMNPLGGQNVIMTDEMLRQYLRAKLGISVAPYTKQYALQDGSSHLFYPAGYFTLIPEGNLGSTWFGTTPEEADLMAGATAAEVSIVNTGVAITSIKEPHPVNVETLVSEIVLPSFETIDTIFIAKVFD				NA	NA	NA	NA	NA
AK002_01910	321			hypothetical protein	ATGTCAGACCAACAAAACAATCCGTTTGAAGACAAGAGTATTGAAGAGGTGTTGGAAATGATCGAAATCGGCGATCTGACCCCAGCACAAGCCCTTGAGATTGAAATCGAGGGAAAGAACAGGAAGACCCTGATTGCAACACTGGAAAAGATGTTGGAATCATCTCCGGAAGAAAAGCAAGCCGACATGGTGAAGGGCATCATTATCAAAAATGTTAAGCACAACACGACGCGGTATCAAATCGGACAGAAAGAAGAGTTTTCAAAAGAGGACTTCGAAATTCTTCTGGCTGCAAAAGCCATTCGCCCACTTGAGGAGTGA	MSDQQNNPFEDKSIEEVLEMIEIGDLTPAQALEIEIEGKNRKTLIATLEKMLESSPEEKQADMVKGIIIKNVKHNTTRYQIGQKEEFSKEDFEILLAAKAIRPLEE				NA	NA	NA	NA	NA
AK002_01911	483			hypothetical protein	ATGATCATGCGGTATTGGGACGACAAATTAAAAAAGCCGGTAACTGTGACACCGTCAAATCCACTGCCTACCGGCCCCCCAAGTGCTCTGTCTCCGGGATCGATTACCACAGATCAGTTGGCTGACGGAGCTGTAACAGCCGAGAAGCTTGCTTCGGATGCTGTCACTACAAACTCGATTTCGGATGCGACTACTGTCGGTAAGTCCTTTTTGAAGGCGGCGGATGCCGCTGCAGCTCGCACGGTGATCGGCGCAGGCACCAGCAATCAGAACTTGTCAGCCCTTACTGCAGCGGAGGCGACAACAGGGACGGCCACAACGGCTAGGGCTATTACAGCTGCGGTGCTAGCCGGTGCAATTAACGAGCGCACCAAAGGTAAAGCGCAGATTGCCGCACTTACACCTATCGCGGATCCATCAACAGCCGATGCTCCCACTGTGGCCACGCTGCTTAACGCTGTGATTGCAGCGCTCAAGGCGTAG	MIMRYWDDKLKKPVTVTPSNPLPTGPPSALSPGSITTDQLADGAVTAEKLASDAVTTNSISDATTVGKSFLKAADAAAARTVIGAGTSNQNLSALTAAEATTGTATTARAITAAVLAGAINERTKGKAQIAALTPIADPSTADAPTVATLLNAVIAALKA				NA	NA	NA	NA	NA
AK002_01912	396			hypothetical protein	ATGATTACGTCAACAGACGTTTGGGGGATCATCAAGGCACGCCTGGAGTTGGCTGACGAGGCCCTGCAGCCGCTGATTAACACGTACATTGCCGAGATCGAGCGCAGAATCAAGCATTATTGCAACATCAGCAGTCTTCCGGACGATCTGCTGTACGTTTGGGCCAGTATGGTCATCGACGCCGTTCGGGTTGATCTTCCTAATGTGGACGAGATCGACGATACCGTTGGTGGTCAGGCCGGCAGCGTTAAGGTCGGCGACACATCGGTATCCGGCGGGGGAGGTTCCGGCGGCGGGCTTACCAATTCGTCGAAGGCCGTAATCGATCAGGTCGTGTTTAATTACCGGGCGGATTTGCATCATTACCGCCGGATGACATGGGGGCGTAGCAGATGA	MITSTDVWGIIKARLELADEALQPLINTYIAEIERRIKHYCNISSLPDDLLYVWASMVIDAVRVDLPNVDEIDDTVGGQAGSVKVGDTSVSGGGGSGGGLTNSSKAVIDQVVFNYRADLHHYRRMTWGRSR				NA	NA	NA	NA	NA
AK002_01913	372			hypothetical protein	ATGATCAATTACCGACGTCACCGGCGGCAGATTGAGCGAATGTATGAGGACAGGGCCACGGTTAGCCGATATGCCGACGTCAAGGACCCGGTTACGAGGGAGACCAAGCAGGTGTTGCAGCCGCTGTACGAGGACCAGCCTTGCATGCTTTCGCAAACAGGGCTCCCTCGTAACGGTCAGACCGAAGCGCAAAACGACATCAGGTATGACGCCAAGCTGTTTATCGCCCCGGAGCTTGAGATCCGACAGGGCGACGCCATTTTCGTCACCAGAAAGGCTACGGGGCGTATGGAGACATACGCGGCGGGCGAACCATTTCCGCCATATCCGAGCCACCAGGAAATTAACCTGACGGCAAAGGACTGGGCATAA	MINYRRHRRQIERMYEDRATVSRYADVKDPVTRETKQVLQPLYEDQPCMLSQTGLPRNGQTEAQNDIRYDAKLFIAPELEIRQGDAIFVTRKATGRMETYAAGEPFPPYPSHQEINLTAKDWA				NA	NA	NA	NA	NA
AK002_01914	408			hypothetical protein	ATGAGTCGCTTCGGCTCATTCGATTTCTCGGAAATGGAGGAATTCAGGGACCAGCTCAAGGCGATGAAAAAGGCATGGCCGAAATTCATCAAGGAATGCGTGGAGGAGCTCGCGAACCGTTTGCTCGCCGAGGTTGTCCCTCGGACACCGGTCCAGGAGGGGGAGCTTCGCCGCAGCTGGACGATCGGGCAGGTGACGATGAAGGCTGATGGCGGGGCTGAGCTCGAGGTGTTCAACCCTGTGTATTACTCGGCTTACATCGAGTACGGCCATCGGACCCCGAACCATCAAGGATGGGTGGAAGGCAGGTTCATGATGACTCTTTCCGCTCAAAAGTTGGAGTGTGAAATACCTGGGATCTTGGAGCGCAAGCTTGATAAATTCCTCAAAAAATACATTGGGAGGTAG	MSRFGSFDFSEMEEFRDQLKAMKKAWPKFIKECVEELANRLLAEVVPRTPVQEGELRRSWTIGQVTMKADGGAELEVFNPVYYSAYIEYGHRTPNHQGWVEGRFMMTLSAQKLECEIPGILERKLDKFLKKYIGR				NA	NA	NA	NA	NA
AK002_01915	441			hypothetical protein	GTGCAGGTTACCTATAATGACGTGCGGTATGCGGTGCAGGCTGCCCTGGACAAAGCCTTCCCGGCCATCCCCATTTCCGGCGAGGAGATCAAGCAGAATCTTGATCCACCTCGTTTTTTTGTTCGCTTGTTGGAGCCCGCCCATACGCAGGAGCTCGGCCGCCGGTACCGCCGCGACCATCCATTTGTGGTTCGTTACTTTGCGCCGGAACGGTCAAATGATGACATGTACGATATGGCAGAGCAACTGACCGATGCCCTCAAATGGATCACGGTCGGCGGTCGCAAATGGCCGGGGCAGGGGATGGATTTTAAGATTATTGATGAGGTCCTGCATTTCTTCGTGACGTACAGCCTGCTTGTCTGGGAGCTGCCGCCGGATGATCCGAAGATGCAGATGCTTGAACAGGAGGGATATGTGCATGACAGACAAGGCAGATAG	MQVTYNDVRYAVQAALDKAFPAIPISGEEIKQNLDPPRFFVRLLEPAHTQELGRRYRRDHPFVVRYFAPERSNDDMYDMAEQLTDALKWITVGGRKWPGQGMDFKIIDEVLHFFVTYSLLVWELPPDDPKMQMLEQEGYVHDRQGR				NA	NA	NA	NA	NA
AK002_01916	192			hypothetical protein	ATGACAGACAAGGCAGATAGAAGCCGGGCTCCTGCAGTTCCGGCTTTTACGAAGGAGCAATTTTTGAAGTCCAGACAGCGCCCGGGCCACGAAAGGGATATCCTGGCCGCTGTGCTGGAGGACGGTAAAACCTACACGTTTGCAGATGCCGAGAAGGCCCTGCAAGCATACCTGAAAAGGAGTGTGAAGTAA	MTDKADRSRAPAVPAFTKEQFLKSRQRPGHERDILAAVLEDGKTYTFADAEKALQAYLKRSVK				NA	NA	NA	NA	NA
AK002_01917	1332			hypothetical protein	ATGGCCGGTGGAACATGGACAGCTCAAAACAAAGTCAGACCGGGCACGTACATCAATTTCAAGGCACGCCCGCAGCCGCTCGGCTCCCTGGGCGACCGAGGAATCGCGGCGTATCCTGCGGCGCTGCCGTGGGGGGACCCGGCCAGCGTGATCGTGGTGGAGGCATCCGAATATATGGATAAGTCCCTCGCACTGATCGGCTTCCGTCCGACCGATCCACGCATTCGCCATATAACAGCGGCGGTTAACAATGCCAGCACCGTATTGCTGTACCGCCTCGGCGGGACGGGAGCGGTCAAAGCCAAGGCGACGGAAGGACCATTGACGGCGACGGCCAAGTGGGGCGGCACCCGCGGGAACGATCTGCAGATCGTGGTGCAGAGCAATATCGATGATCCGGCAGCGTTCGACGTGGTCACGCTTTTGGATGGGGAAGAGGTCGACCTGCAGACGGTCACTGTGATTGAGGAGTTGCAACCTAGCGCCTTTATCGATTGGAGCGGATCAGGCACGCCGACAACGACGGCCGGCATCAGGCTCACCGCAGGGGCCGACGGTACAGCGAGCGGTGCAGACTTCTCGGCGGCCCTTAGCGCCTTTGAAGCGTATCAGTTCAATGTCTTGGGCGTTCCTTTGACCGATTCATCGAGCAAGCAGCTGGCCGCAGCTTACGTACGCCGGCAACGGGAAGAGGAAGGAAAGAAGGTTCAGGCGGTGCTCGTGGATTACTCGTCGGCGGATTACGAGGGGATCATCAGTCTGAAAAACAGCATCATCACGTCGGACGGTCTTAAGGTTCCTCCTGAAATGCTGCTTTGGGAAATCGCGGCGATGGAGGCGGCGGCAAACGTGAACGAGTCCCTCACCTATACGGTCATTCCGAACGCCGTCGACGCCTATCCTCGCTTGACCAACAGTGAAACGATCGCAGCGCTCAAAAACGGAGAGCTCGTTATCACGGCTGTTAACGGGTCCGCGGTCATTGAGCAGGACATCAACACATTGACGAGCTTCACACCGGATCGGAGCCGTTCCTTTAGCAAGAACCGGGTCATTCGGGTGCTGGACAGCATCGGCAACGATATTAAGCGGATCTTCGACCAGTTTTACATTGGGAAGGTGTCCAACAACGACGACGGCCGGGCACTGTTGAAGGCGGAAGTCGTTTCCTATTTACTTTCGCTGCAGGGGATCGGAGCGATTCAAAACTTCGACAGTCAAACCGATATCTCTGTCGCCCCAGGCAACGATGTGGATTCCGTTCTTGTCGAGCTGAGTATCAAGCCAGTAGACAGCATCGAGAAAATTTACATGACCGTGGAGGTGGTATAA	MAGGTWTAQNKVRPGTYINFKARPQPLGSLGDRGIAAYPAALPWGDPASVIVVEASEYMDKSLALIGFRPTDPRIRHITAAVNNASTVLLYRLGGTGAVKAKATEGPLTATAKWGGTRGNDLQIVVQSNIDDPAAFDVVTLLDGEEVDLQTVTVIEELQPSAFIDWSGSGTPTTTAGIRLTAGADGTASGADFSAALSAFEAYQFNVLGVPLTDSSSKQLAAAYVRRQREEEGKKVQAVLVDYSSADYEGIISLKNSIITSDGLKVPPEMLLWEIAAMEAAANVNESLTYTVIPNAVDAYPRLTNSETIAALKNGELVITAVNGSAVIEQDINTLTSFTPDRSRSFSKNRVIRVLDSIGNDIKRIFDQFYIGKVSNNDDGRALLKAEVVSYLLSLQGIGAIQNFDSQTDISVAPGNDVDSVLVELSIKPVDSIEKIYMTVEVV				NA	NA	NA	NA	NA
AK002_01918	468	xkdM_1		Phage-like element PBSX protein XkdM	ATGGCCTTTTTCCGTGAACAGGACGCAATTAGCGGCAAATATGCCAAGGCGTATGCGACGATCGATGGTCGGGTCGAGGAATTGTTTTATGCAAAATCTCTTGAAGCGACCATCGAAAAAAATAAGGTGGACGTCCCGGTCTTGGGCAAGACCAATACGCCGCAGCGAGCTGCAGGATGGTCTGGAACAGGAACGATGACTGTTTACTATGTGAGTTCTGTATTCCGGCAACTTATGCGCACATACATTCAGACCGGCGAGGACTTTTGGTTTGACTTGATGGTCACCAATGAGCAGCCAGGGAGCTCGACAGGAAAGCAAACGGCTATGCTGCTTGGTTGCAACGTGGACAGCGTAGTCGCTGCACAATTCGATGCTACCAGCGATGATATGCTGGAAGAAGAAATCCCGTTCACTTTCCATGATTACGATCTGCAAGATCAGTTCAATTTGATCACAGGTAGATGA	MAFFREQDAISGKYAKAYATIDGRVEELFYAKSLEATIEKNKVDVPVLGKTNTPQRAAGWSGTGTMTVYYVSSVFRQLMRTYIQTGEDFWFDLMVTNEQPGSSTGKQTAMLLGCNVDSVVAAQFDATSDDMLEEEIPFTFHDYDLQDQFNLITGR				NA	NA	NA	NA	NA
AK002_01919	408	yqbN_1		putative protein YqbN	ATGAACCTGCAGGACTTTTTGAATGCTAACCCGGTGGACAACTTGACTGAAGAAGTGGCTATCTCTCCGCGATTTAAGGATGAGAAAGGCAATCCCTTGAAATTTACTATTAGAGCGATGTCTCCAGCTGAATTCGAGGACATTCGAAAAAAATCCACGCAAATTAAAAAAGGAAAAAAGGTTGAATTTGATAATCAATTGTTTAATCTCAGCATTGCGATTAATCATACGGTTAACCCGGATTTCCGAAATGCCGAATCCATTAAGAAGCTTGGTCTGGCCACTCCTGAGGATTATGTTCAAAAGGTGCTGCTTGCCGGCGAGTTGTCAACACTCGTACAGAAAATCAACGAACTTAGTGGTTTTGATGTAGCGATGAACGATTTGGTAGAAGAAGTAAAAAACTAA	MNLQDFLNANPVDNLTEEVAISPRFKDEKGNPLKFTIRAMSPAEFEDIRKKSTQIKKGKKVEFDNQLFNLSIAINHTVNPDFRNAESIKKLGLATPEDYVQKVLLAGELSTLVQKINELSGFDVAMNDLVEEVKN				NA	NA	NA	NA	NA
AK002_01920	561			hypothetical protein	ATGGTGTGGTTATTGCTTTTCATAGTTGCAATTTTTATCGGGGCTATAGTCGTTCTTGTGAATCAAGCAAGAAACAACAAGAAGATCAAACAAGAAGCGATAGACCGTGGGGCATACGATGGCGTTGCTTGTAAACATATCGAAGGCCTAGGGATTGGTGATAAATCATGTAATATACTAGCCTTTGAAAATGAAATTCAAATTGAGGCTGCTAATAAATCTTCGTTTAGAATTCCGATTGAGCGTGTAAGAGCTTTTGTCACAAAAAGCCAACAAGAATTTGAGGATGTAGATAGGAGCGTCGTTGGAAGAGCTGTTGTGGGTACCTTATTGGTTCCTGGATTGGGGACTATTGTTGGTGGAATGTCCGGATTGAAGAATAAAAAGAAAAAGAAGGGTGGGAAAAGTTTTTATTTAATCATTAACTATGTTGATGCTAGTGGGGAATTAAAAGGAGTAACATTTCAGGATGATTTAAACATAACTCGTCTCACCTCTTTTACAAAAACGGTTAATGATAAATTATCATCGCAATCGTACGGTCAAGTAATTGACTTATAG	MVWLLLFIVAIFIGAIVVLVNQARNNKKIKQEAIDRGAYDGVACKHIEGLGIGDKSCNILAFENEIQIEAANKSSFRIPIERVRAFVTKSQQEFEDVDRSVVGRAVVGTLLVPGLGTIVGGMSGLKNKKKKKGGKSFYLIINYVDASGELKGVTFQDDLNITRLTSFTKTVNDKLSSQSYGQVIDL				NA	NA	NA	NA	NA
AK002_01921	2547			hypothetical protein	GTGCCGACTATTGCAACACATTTGAATATGATGAATAACTTTAGTGGTCCTCTCAAGGCGGCGATTCGCCAGACCAATACAGCCATTTCAGCTATGGAAAATTTGAGGCGAGTAGTGGAGCGTCCAACACATGCAGATATTGATGTTACTTTGGACTCTTCGCAGGCCATGCAAGAAGTACGTCAGTTGAACCAAGAAGTAGAGAGACGATTAGGAACTATAACGAGTGAGGTTGAACTAGAAGTAACGACTCAAGTTACTAACGCCATCGGGCAGCTTGACGGTCCAATCAATCGTGTACGCTCAGAAATTGACCGGTTAGCTGATGTTTTACAATCACAGAATCAGCCGTCATCAGGCAGTGGAGGATCAGACGGTGGTGGTTTTCTCCTTGGCTCGGGCGGATTTGTTACTGCTTTAGCAGGGATTTTAGGTACCGGCGCTCTTGTTAGTGGTACTGTTGGGGGAGCAATGGAACAGCAACAGCTTCAGGGATCCCTCCAAGCTCAAGTTGGCATAGATGATCAGCAAGCAGCTTTTATGGTGCAACAGGTGCAAGACGTTTGGTCCTCAGGGTGGGGCGAATCTCTTGCCATGGTCAATAATGATATGGCTACTGTCCGTCAAAACCTTAGTGGTTTATCTCAAGATGCCACCAAGGCCTATACCCAATCAGCGTATGCTGTCCAGCAGGTAGCAAAAGGGCAAACGGATGTCCGAGAGCTGTCTAAAGTAACCCGAACATTAATGGCTAATTTTGAGGGGCTTGGTGAAATTCAAACCCTAGACCTAATCGCGACAGGCTATCAGCGCGGTGGGGACTACGCTAATGACTTGTTGGATACTGTTAACGAGTATGCTGTTCATTTCTCCGGTCTCGGAATGAGTGCCGAGCAGATGTTTGCCACTCTGATTGCCGCCAGCGAGGAGGGGGCTTGGAATCTGGATAAAGTAGGGGATGCTGCGAAAGAAAGCTTTATTCGCCTGCAAGATCTCTCCGATTCCAGCAGGGAAGGACTTCAAGCGCTTGGTTTGGATGCTAATCAGGTAGCTGCAGATATCGCAGCCGGCGGCGATGCAGCTAATCGAGCATATCAGGCAACATTACTCGCGCTCGGAAATATGGAAAATGCCACGGATCGTAACACCGTCGGGGTTAAATTGTTCGGAACCATGTGGGAGGATCTCGAAGATAGCGTGGTTCTGGCTATGCAAGCTGGGCAAGCTGGACTTGGTGAGTTTGAAGGAGCAACGGCGCGGGCAGCCGATGCGTTGCAGAATAAACTCGTATTCCAATTTGAGCAGTTTAAACGTAACTTTGCTTTGGGCTTTGCTGAGGCTGGGCAAGGCTCTATCGAAGGGCTAGCCCCCTTAATTACGATGCTTAACGAAGCTTTCCAGGCTGGGAAGTTTCAGCCGTTTTTCGATGGGCTGTCTAACGCTTTAACATTTACAACCGAGCTGATTAGTTTCCTTGTGGAGAACGCCATATGGCTCTCAGACACGATAATTGAGAATTGGTCCTGGATCAGTCCGATTGTTATGGGTGTTGTTGCTGCTATGGGTGCGTACTTGCTGATGACTCGTGGAGTTTCAATTGCTCTGCAGATTGCCAAAGTAGCTCAGATCGCTTTCAATGCAGCCATGAGCATGAATCCATATGTTCTTGTAGCCACACTAATCATCGGAATCATTACTGCCTTAGTCGCACTATGGAAGACGAATGACCAGTTTGCTGCTGGCTTCTTAAGAGCTTGGAATGGAATCCTAAATTTCTTCGACCAGATTCCGATCTTTTTTACCTGGGTCGGCAACGGAATTGCTAATGCCTTTGACTGGGCGAAGGTCGAAACTCTCAAAATTGTTGATTCGTTGGCCAACGGCGTTATTCATCGGATTAACTGGTTAATCGATAAGTTGAATAAGATACCAGGAGTGAGCATTAATGCGATAGATCAATTGAATTTAGCTGGTTCCGCTGCAGTAGAAGCTGAGGCAGCCAAGCAGGCTAGGGCAGCGAGTTTAGAAGAGATGCGACAAGGAGCTGCGGAAAAGGCAGCTGAGCGCGAAGCACAGGTGCAAAAGTTTTTAGATGATCGTCAATCCAAGCGCGCCAAAGAAGCTGCCGAAAAAGCTGCTCAGGAGGCGTCGCTAAAAGCCGCAGAGGAAGCTGCTAAACTAGCAGCAGATGCAGCAAGGAACCAGCAACCAGGCAGCATGCTAGGCGCAGGTACTAGCTTGCCAAACAGGGTAACAACGCCAAAGTTGCCTACCATTGGTGTTGGTGACAAGGACATCGGCAAAGTGGGCAAGGTGGGCCAGGTCGATAAGATCAAGGATAAGGTGGATATCTCCAGCGAGGACCTCAAGATGATGCGGGAACTTGCTGAGATGAAGAACATCCAGAACAATGTCACTCTGCAACCGTCGATTAGCTTCGGCGATACACACGTCCGCAAGGAAAGCGATATTAATACCATCGTTGCACACATTACCGAGAAACTGGAGCAAGACATTGCTTCCTCGGTGGATGCTGCGTACACGTAA	MPTIATHLNMMNNFSGPLKAAIRQTNTAISAMENLRRVVERPTHADIDVTLDSSQAMQEVRQLNQEVERRLGTITSEVELEVTTQVTNAIGQLDGPINRVRSEIDRLADVLQSQNQPSSGSGGSDGGGFLLGSGGFVTALAGILGTGALVSGTVGGAMEQQQLQGSLQAQVGIDDQQAAFMVQQVQDVWSSGWGESLAMVNNDMATVRQNLSGLSQDATKAYTQSAYAVQQVAKGQTDVRELSKVTRTLMANFEGLGEIQTLDLIATGYQRGGDYANDLLDTVNEYAVHFSGLGMSAEQMFATLIAASEEGAWNLDKVGDAAKESFIRLQDLSDSSREGLQALGLDANQVAADIAAGGDAANRAYQATLLALGNMENATDRNTVGVKLFGTMWEDLEDSVVLAMQAGQAGLGEFEGATARAADALQNKLVFQFEQFKRNFALGFAEAGQGSIEGLAPLITMLNEAFQAGKFQPFFDGLSNALTFTTELISFLVENAIWLSDTIIENWSWISPIVMGVVAAMGAYLLMTRGVSIALQIAKVAQIAFNAAMSMNPYVLVATLIIGIITALVALWKTNDQFAAGFLRAWNGILNFFDQIPIFFTWVGNGIANAFDWAKVETLKIVDSLANGVIHRINWLIDKLNKIPGVSINAIDQLNLAGSAAVEAEAAKQARAASLEEMRQGAAEKAAEREAQVQKFLDDRQSKRAKEAAEKAAQEASLKAAEEAAKLAADAARNQQPGSMLGAGTSLPNRVTTPKLPTIGVGDKDIGKVGKVGQVDKIKDKVDISSEDLKMMRELAEMKNIQNNVTLQPSISFGDTHVRKESDINTIVAHITEKLEQDIASSVDAAYT				NA	NA	NA	NA	NA
AK002_01922	666			hypothetical protein	ATGCGAGTCTATGGTGTCGAGCTGAGCTTCAACAATAAAGAAGAAGTGCTCCAGCTGCCGATCAACCCTTCCGAAATGGAAGTTGATGAAACTGGCCGTGGAAACACGTATGATGTGGTCGGCCTCGGTGAGATCAACGTGATTAAGGATAGGCAGCTTACTACGTACAGCTTTAATGGTTTGTTTCCCGCGCAATGGTACCCGTTTGTAACAACGGATGACCTCTTACATCCGGTGGAATACATCAAGATGATTGAGAAGTGGATGACGACCAAACGGCCCATCCGTTTCATTTTTACTTCCGACACCTATGACATCAACACGCCAGCCAGTATAGAGTCCTTCACATGGAAAGAAGTAGCCGGCGGCGGTGGAGATATCGAGTATTCGCTTCAGCTTAAGAAATACGTGTTCTACGCGGCGCGGAAGATCGTCAAGGAATCCACCAATGGAGGTGGCCGCGTGCAGAAGAAGAAAACGGCGGCACGTCCAAATGACAAACAGCAGCCGAAGACGTACACCATGGTTGCCGGCGACAGCCTATGGAAAGTCGCACAGATGAAGCTCGGGAATGGAGCACGCTGGAAGGAAATCCAGCAGCTGAACGGAATCAAAGACGCCGAAATCAAACGGCTACCGATTGGGAAGGTGTTGAAGTTGCCATGA	MRVYGVELSFNNKEEVLQLPINPSEMEVDETGRGNTYDVVGLGEINVIKDRQLTTYSFNGLFPAQWYPFVTTDDLLHPVEYIKMIEKWMTTKRPIRFIFTSDTYDINTPASIESFTWKEVAGGGGDIEYSLQLKKYVFYAARKIVKESTNGGGRVQKKKTAARPNDKQQPKTYTMVAGDSLWKVAQMKLGNGARWKEIQQLNGIKDAEIKRLPIGKVLKLP				NA	NA	NA	NA	NA
AK002_01923	978			hypothetical protein	ATGAAGCTGGATGTGAAAATCTTGAATCGGCAGGGCACCGGTGGGGAGTGGGATGTCAGCGAAATCGTTGAGGGTTTAAGCTGGAAGACATCCCGGATCGGCAAGGCTGGCAGTGTTTCTTTCAAACTGGTGAAGGGATCCCCGTTTGAGTCGTCCGATTTTACGTACAACAACGGTGATATCGTTCGGGTTCGAGTGGATAAATCGAATATGTTTCATGGTTATATCTTCTCGATTGACGAAGGCAGGGATGAGGCCGTCACCATCACGGCATACGATCAGATTCGTTACTTGATGAATGTGGACACATACGTCTTTAAGGGCGTTACGGCAACGGAGATTCTGCAGCGGATCGCCAAGGACTTCGGCCTTAAGCTCGGCACCGTCGCGGATACTGGATACAAGATCCCGACGATGTCCGAGGATAGTCAGAAGCTGCTCGATATCGTCACTAAAGGAATTACGTTAACCTTCTCCAACACCGGCAGGGACTATTGCCTTTACGATGACTTCGGCGCGCTGTGTCTCCGGGGGATTAACGATGTACAGTTGGACTTGATCGTTGGAGATGGCAGCTTAATGTATGACTATGAAATCAAGCGTTCCATAGACAGCGATACGTATAACCAAATTAAGCTGTATAAGGATAACAAGGACACAGGTAATCGTGAGATTTATCTGGCCAAGGACAGTGTGAATATCAAACGCTGGGGCCTGCTGCAACTCTATCAAGGCGTGGACGAGGACATGAACAAGGCCCAAATCAATGCCCTGCTAAGTAAACTGGCCACGCTAAAAAACCGGGAAACGAAATCACTCAAGGTTAACGCTTTGGGTGATATTCGTGTGCGTGCCGGCATGCGTGTCCGAATCGTCATATCGGAGTACGGGGTTGATCAGGCCCTATTGGTCGATGAGTGTTCGCACGACTTCGATGGAGCTGCGCATACCATGTCATTGGATTTAAGGGTGGTGTAA	MKLDVKILNRQGTGGEWDVSEIVEGLSWKTSRIGKAGSVSFKLVKGSPFESSDFTYNNGDIVRVRVDKSNMFHGYIFSIDEGRDEAVTITAYDQIRYLMNVDTYVFKGVTATEILQRIAKDFGLKLGTVADTGYKIPTMSEDSQKLLDIVTKGITLTFSNTGRDYCLYDDFGALCLRGINDVQLDLIVGDGSLMYDYEIKRSIDSDTYNQIKLYKDNKDTGNREIYLAKDSVNIKRWGLLQLYQGVDEDMNKAQINALLSKLATLKNRETKSLKVNALGDIRVRAGMRVRIVISEYGVDQALLVDECSHDFDGAAHTMSLDLRVV				NA	NA	NA	NA	NA
AK002_01924	372			hypothetical protein	ATGGCTGATCTACTGAATACGTTTAAAAAAGCTGCTGTTGCTGCCGTGGCTGCGGGGAATCCAACCTCGGTCATGTTCGGTACGGTGAGCAGTGCGAATCCGCTAGAGGTAATCGTTGATCAACGGTTTACCCTTCCTGCGGATTTTTTGGTTATTCCGGAATCGCTGATTCATTTTGAAATCGATTTTCACCATACCCACGAATACACGGATGACAGCGGAACCGGATCCAGCACGAAGCAAACCGAGCCTGCACTGCCGGTGAAGCCGATCGTCATCCGCCGCGGGCTGGAGGAAGGTGACAAACTGCTCATGCTTCGGGTCCAGGGCGGTCAGAAATACATTATTTTAGATAGGGTGGTGGACGCGTGA	MADLLNTFKKAAVAAVAAGNPTSVMFGTVSSANPLEVIVDQRFTLPADFLVIPESLIHFEIDFHHTHEYTDDSGTGSSTKQTEPALPVKPIVIRRGLEEGDKLLMLRVQGGQKYIILDRVVDA				NA	NA	NA	NA	NA
AK002_01925	405			hypothetical protein	GTGATACCTGAAACGGACGAAAACCTGCTGGACGAGTCGCTGGAGGATCAGCCACAGCCCTCCTTGACCTGGCATATCGATTTTGATAAAGGGAGGATCATCGGTAAGACCGATGGCCTTATCGCCATCCAACAGGCCGTATTTAAGGTGTTCCAGACGGATCGGTTCTGGTATGACATTTACAGCTTCGACTACGGCCATGAGCTTACGTTGTTGCTTGGCAGCAGTCCGGAATTCGTACAATCCGAAGCAACACGGATGATTCAGGAGGCGCTGCTGCCGGATGACCGGATCGACTCCGTAGAAAACGTGGAAGCCGAAATAAACGGTGACCAGATCACCATCCGGTTCACGGTGGTCACGGTCTACGGCAGTTTTGAGCAGGAGGTGAGCCAAAATGTATGA	MIPETDENLLDESLEDQPQPSLTWHIDFDKGRIIGKTDGLIAIQQAVFKVFQTDRFWYDIYSFDYGHELTLLLGSSPEFVQSEATRMIQEALLPDDRIDSVENVEAEINGDQITIRFTVVTVYGSFEQEVSQNV				NA	NA	NA	NA	NA
AK002_01926	1080			hypothetical protein	ATGTATGAGCACATGACCTATGACTTTATATTGCAGCGGATGCTTTCCCGGGTGCCGGATACGATCGACAAACGGGAGGGTAGCGTCATTTACGACGCCTGTTCGCCGGCAGCGGCCGAGCTGGCGCAAATGTATATCGAGTTGGATATAAACGATATCCTGTATTTTGCGGACACCGCGTCTGGCGAGTACCTCAGCCGTAGGACGGCCGAGTTCGGTGTGAACCGGGCCGGGGCGACGCCTGCCGAACGTAAGGGGCTGTTTTACAACTCCGCCAATGCGCTTATGGACGTGCCGCTTGGTAGCCGCTATTCAATTGGAGACCTGAGCTTTGTCGCCAAAGAAAAGATCAGCACCGGAACATATAAACTGTCCTGTGAGACACCAGGGACTGTCGGCAATGAGCAATTTGGAGCGCTTTTGCCGATCGATTACGTGGCGAACCTCTCAAGGGCAGTTTTGGCCGAAGTTCTAGTTCCTGGTGAGGATGAGGAGCCAGACGGCGAGCTCCGGCAGCGTTTTTATGCTGCTGTCAATGAGCCGGCCTTTGGTGGCAATGTCGCTGACTACAAGCAGCGGATCAACGCTATACCAGGCGTTGGGGCAACAAAGGTTTACCCGGTCTGGAAGGGCGGCGGAACCGTCAAATGCACCATTATTGCCGCGGACTGGGAACCGCCATCGACGACGCTCGTCAATGAGGTTCAGACCATTATGGATCCTACGGTTAACAGCGGGCAGGGAATCGGCCAGGCGCCGATCGATCATCAGGTTACGATCTTTGGCGTGACCGGGGTTACGATCAACGTCGAGACGACGCTGACACTGGCGGCCGGCATAACGCCCGGACAGGTCCAGGCAGATGTGGAGGCGGCGATCACATCCTACCTCCTTGAGCTTCGGCGGGATTGGGCCAATCAGCAGCAGCTGATCGTCCGGACTGCCCAGATCGATGCGCGTATACTGACGGTAACCGGCATCGAGGACGTTGCAAGCACGACGGTTAACGGATCGGCGGCCAACCTCACCCTCGAGGCAGACGAGGTGCCGCAGCCAGGGACGGTGACGATCCATGGCTGA	MYEHMTYDFILQRMLSRVPDTIDKREGSVIYDACSPAAAELAQMYIELDINDILYFADTASGEYLSRRTAEFGVNRAGATPAERKGLFYNSANALMDVPLGSRYSIGDLSFVAKEKISTGTYKLSCETPGTVGNEQFGALLPIDYVANLSRAVLAEVLVPGEDEEPDGELRQRFYAAVNEPAFGGNVADYKQRINAIPGVGATKVYPVWKGGGTVKCTIIAADWEPPSTTLVNEVQTIMDPTVNSGQGIGQAPIDHQVTIFGVTGVTINVETTLTLAAGITPGQVQADVEAAITSYLLELRRDWANQQQLIVRTAQIDARILTVTGIEDVASTTVNGSAANLTLEADEVPQPGTVTIHG				NA	NA	NA	NA	NA
AK002_01927	588			hypothetical protein	ATGGCTGATCGGATCCTGATTCACCTGCCAGAGTATTACGGAAGTATCGAGGATTTTAAAGAACTGGCTGAAACCGAAACCATCGAGCTTAACCTGATGAGGGATGCGATTAATCAGCTCTTTGACGACCAGTTTGTAGAGACATCCGGCCTGCAGGCGATTAAACGGCGGGAGCAAATGCTAGATATCAAAGCGGACCCGACAACGGAGATCCTTGATTTTCGTCGGCGCCGGATCTTAAACCGGTACCAAACAAAGCCGCCGTTTACGATCCGTTACCTTCAGCAGCAGCTGGATATGCTCGTGGGTCCCGGGATGACAATCGTTTCGGTGGACTACGAAAACCGTGTGCTGACGGTGACGGCAAACATCGATAACGCTAGTGTATTCCGGGAAGTCCTTCACACCATCGAGACGATCAAGCCGGCCAACATGGTCTACCAGCAAAATACTGCGCTTGAAGGTGGGATTGAAATACAAAGCTATTTGAAGATGAAAGAAATGATTTGGAACTATAAGCTCGACGGTTCCTGGAAGCTCGGGGAAAAGCCATTTCTTTCTTATGGACCGGAGGTGTCTATTAAATGA	MADRILIHLPEYYGSIEDFKELAETETIELNLMRDAINQLFDDQFVETSGLQAIKRREQMLDIKADPTTEILDFRRRRILNRYQTKPPFTIRYLQQQLDMLVGPGMTIVSVDYENRVLTVTANIDNASVFREVLHTIETIKPANMVYQQNTALEGGIEIQSYLKMKEMIWNYKLDGSWKLGEKPFLSYGPEVSIK				NA	NA	NA	NA	NA
AK002_01928	285			hypothetical protein	ATGATAACAGCGGGACTTTTGCATGGTGTGGCGGAATACGTAAATAACCGTATCGCAAAGGTGGTCATTAACGGGACCTATACCATTACGGATTTTGAGGTTAAGGCTGTTACCGACAACGTGCTGGCACTTAATTACATTGTCCCGGTGGCGGAGGTTTCCTTGATCACACTTGTCGAGCTGAAAGACGCTTCCGACAATGTGCTGACATCTGATCCGGTTAATGTCCCGATTACAGCAGATCATTTGATGCTACAAACAATCGAGGTAAAGGAGGCGCAATAA	MITAGLLHGVAEYVNNRIAKVVINGTYTITDFEVKAVTDNVLALNYIVPVAEVSLITLVELKDASDNVLTSDPVNVPITADHLMLQTIEVKEAQ				NA	NA	NA	NA	NA
AK002_01929	1461			hypothetical protein	ATGGCGAGAACTGACTGGGATCCTGAAGATGAGGTTAAACCAGCGGATATGAATGAAATTGGACGGGAGATCAACGAACTAGAATTGAGAGCTACGGTTTGGCTTGGGACGACAGAGGGGTCCGGAACGGAATACACCGTGGATAGCGACAAAGTGTCGAGTTTGTTCGATGGGTTGCGAGTGTCTTTTCGGGCACATGTAGCCAGTGGAGCAAACCCCACCCTACAAATTAACGTCTTAGGCGCTGTACCACTGAAAAAACCTAATGGACGTGCGGTAAAACTTGATGCGGATGGAGTGTACACGGCAGTTTACTCAGCAGCGTCTTTTATCTTACAGGGTGAAGGGGGTGAATATGGTACGGCTACAGCGGCCGACGTATTAGCACCTAAAACGTTCGGGACGGACGAGGGAATAGTAACAGGAACCATACCAACACAAGGAAATCAGTTTAAATCCGGTTTATGGTCGAACCCAGACGGAGATGCCTTTGTAGATACTTACGTCAATATAGACGGTGGTTATTACCCGCCAGGAACGCAGATGACAATTCAGGCATACGATCCAAACCTTGATTCAAAAAACATCCGAGCGGGTGCTGAAGTTTTTGGTGTGGATGGGGACTCGAATGTGGTGGACACTTCCGACGCAACGTTAGGTGAGGTTCCGGGTCAGAAAGCTGATTATATGTTGATAAACAAAACGGCGTATGTAAAAGGGAAAAAACTAACGGGATCAATGCCGGACAATCGAAATCGGGTGTTCGATGCGGGGGTGCGTGTCGAGAATTTTCTTGGTGAACCTAGTTTCAAGGCTTATATTCCAGCAGGGGGGTTTGTCGATCCACGCACTTCATTATTCATTTCCGTCCCAACAATGATCCCATCGAACATCAGGTCAGGAGTTAAAATACTGGGCGTGACTGGAACAATGCCAGGCGGGTCAATATCGAGAATATCCAAAGGACAAGTAACGATGACAGGCAGCAACTCATATACCTCTCCAATCCCAGACGTGGATGTGAACAAAGCAGTGTTATTCTTTACTGTCACGGGATTGACGGACAAACCCCGACGGAATAAGGTTCGGGGGTTTATTAATGGGCCATCTTGGGTGAATTTCAGTGTTAATTATCCCCCAACCTCTACTACTCCTGTGACTGTGCAATATCAAGTGGTTGAGTACGAAAATGTAAAACAAATTATACGAGGAAGCGCAAACAGAGAGGTAGGTGCGGGAGCAACGGTCGTTAACCTTCCTACCCCTGTGACGGACATGACAAAGTGTTTTCTGGTTGGGTCATACGAAACAGACGCTGCCGAAGATTGGAATTGGGGTGTTGCTGATCCTCGTATTTGGTTTCTTACTGAGAGCACGATAGCTATTCAAGGTTCGATAGCTAACAAGCCGGGAGTAACGACATCAGAACTATGGCATTATCAGGTAGTCGAATACAACTAA	MARTDWDPEDEVKPADMNEIGREINELELRATVWLGTTEGSGTEYTVDSDKVSSLFDGLRVSFRAHVASGANPTLQINVLGAVPLKKPNGRAVKLDADGVYTAVYSAASFILQGEGGEYGTATAADVLAPKTFGTDEGIVTGTIPTQGNQFKSGLWSNPDGDAFVDTYVNIDGGYYPPGTQMTIQAYDPNLDSKNIRAGAEVFGVDGDSNVVDTSDATLGEVPGQKADYMLINKTAYVKGKKLTGSMPDNRNRVFDAGVRVENFLGEPSFKAYIPAGGFVDPRTSLFISVPTMIPSNIRSGVKILGVTGTMPGGSISRISKGQVTMTGSNSYTSPIPDVDVNKAVLFFTVTGLTDKPRRNKVRGFINGPSWVNFSVNYPPTSTTPVTVQYQVVEYENVKQIIRGSANREVGAGATVVNLPTPVTDMTKCFLVGSYETDAAEDWNWGVADPRIWFLTESTIAIQGSIANKPGVTTSELWHYQVVEYN				NA	NA	NA	NA	NA
AK002_01930	288			hypothetical protein	GTGGACTGGACCGTGCTCACAGCAATCATTTCTGTCACCGCAGCCATCAGCGGCATCGTGCTTGGCTGGGTTGGCAAGACGAAGGCTTATAAGGCTGAGGTGGTACAAGAAGCCACAGCGGACGCATCGTTGCATACCGATGTGTCTTACATCAAGCGTGGTATCGATGACATTAAGGTAGACGTCCGTATCCAAGGACAGCGTATGGATGGTTTTGCCGAACGTTTGACTCGAGTCGAAGAGTCGGCCAAGCAAGCGCACAAACGAATTGATGAGATGAAAGAATAG	MDWTVLTAIISVTAAISGIVLGWVGKTKAYKAEVVQEATADASLHTDVSYIKRGIDDIKVDVRIQGQRMDGFAERLTRVEESAKQAHKRIDEMKE				NA	NA	NA	NA	NA
AK002_01931	267			hypothetical protein	ATGGAATGGAACGTGATTTTTGAATTGATCGATCCTCGGCTGCTCATCGTAGTGGCGGCATGTTGGGTTGTTGGGTGGGTTATGAAGAAAACCCCAAGGGTTGCAAATTGGAGCATCGTCTATATTGTCATTGCCATTGCTGTGTGGCTCACTATTGGACTTCTCGGTTTTTCAGTTGAGGCTGTCATTCAGGGAATTCTCGCCGGCGCTTTTGCTGTGTTTGGTCACCAGGCAGTGAAACAGACAAGGGAAGGAATTGAGTCATGA	MEWNVIFELIDPRLLIVVAACWVVGWVMKKTPRVANWSIVYIVIAIAVWLTIGLLGFSVEAVIQGILAGAFAVFGHQAVKQTREGIES				NA	NA	NA	NA	NA
AK002_01932	729			hypothetical protein	ATGAAAAAGGTACGGATTGATGGCGGCCATGGTGGTAAGGATCCGGGAGCATGCGGGAACGGGCTACAAGAAAAGGATTTAGCTCTAACTCTTTCACTTGAAATCAAAAAGCAGCTGGAACGTGATTACATTGGAGTACAGGTAGAACTCTCTAGGTCATCAGATGTATTCCTTGAGCTCAAAGAGCGGACCGACGCGGCCAACAAAGCCGATGCGGACCTCCTAGTTTCCATCCATTGCAATGCCGGCGGCGGGGCTGGTGGCTTTGAGTCTTTCCGGTATACTAATGCTTCAACTGCTTCACGGTCCCTGCAAAACGTGCTCCACACCGAGATCATGACAGCCTTGAAGCCATTCAATGTAATTGATCGTGGCCAGAAGGCAGCGAATCTGCACATGTGTCGTGAATCTAAGATGCCTGCCGTCCTGACTGAAAACCTTTTTATCGATGTTGCTGCTGATGCGGCAAAGCTTAAACGTCAGGAAGTCATTGATGCTTTGATTGCCGGGCATGTCGCCGGAATCGCGAAATACTTAGGCCTTAAAAAGAAGGGGAGTGCAGCTACGGTGAGCGACAAGGTAAATGTCATCGTAAACGGCAAGCAAATAAAAGACGGTAAGCTAATGGACGGAGTGACCTATGTACCTCTCCGGGCTGTTGGCGAGGCACTGGGGGCAAAAATAGGCTGGGATAATAAGACTAAAATAGCTACAGTTATAACCAAATAA	MKKVRIDGGHGGKDPGACGNGLQEKDLALTLSLEIKKQLERDYIGVQVELSRSSDVFLELKERTDAANKADADLLVSIHCNAGGGAGGFESFRYTNASTASRSLQNVLHTEIMTALKPFNVIDRGQKAANLHMCRESKMPAVLTENLFIDVAADAAKLKRQEVIDALIAGHVAGIAKYLGLKKKGSAATVSDKVNVIVNGKQIKDGKLMDGVTYVPLRAVGEALGAKIGWDNKTKIATVITK	PGPT0024160_6674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK002_01933	576			hypothetical protein	ATGAAAACTAAGGATATCGATATCCGGAGATCTCTTCATTTTTCACTCCATAATGAACACAAGGATGAGCCGGATACTTTGATCTTGGATGAGCTTGCTCTTTGCCAAGGTGATGCTCGAATAGATGTTGCTGTTGTAAATGGAGCAATAAATGGCTATGAGATCAAAAGTGAAAGTGATACCCTTTCAAGGCTGCCAATTCAGTCATCCTTCTATAATAAAGTCTTCGATAATGTGACGATATTAACTGCCTCAAAATTTGTAGATGGTATAAAAGATATTATTCCTGAATGGTGGGGTATTACACAGGCGGAGAAAGAAGAGGACGGCATGGTCCATTTTTTTGTTCTAAGAGAGCCTCAAAAAAATCAAGAAGTAGATGCACTTTCTGTAGCACAGCTTTTATGGAGAGATGAAGCTCTATTGATACTAAAAGAAAAAGGCTTGCAAAAGGGTTTAATGAGCAAGCCTCGAAACGTTCTTTGGGATGCATTGGCAAAAAACTTACCTCTTAATGTACTGCAGAATGAAGTGCGTAAAGCTCTTAAGGCAAGGACACACTGGAGAGTTCATTGA	MKTKDIDIRRSLHFSLHNEHKDEPDTLILDELALCQGDARIDVAVVNGAINGYEIKSESDTLSRLPIQSSFYNKVFDNVTILTASKFVDGIKDIIPEWWGITQAEKEEDGMVHFFVLREPQKNQEVDALSVAQLLWRDEALLILKEKGLQKGLMSKPRNVLWDALAKNLPLNVLQNEVRKALKARTHWRVH				NA	NA	NA	NA	NA
AK002_01934	1080			hypothetical protein	ATGCAAAGGGAGATCAAGTACACGCCTGTTTTAAAGTGGAAGCAAGGAGAGCAGAAGGCTATTGAGGAATTGGAAATATCTGTAAAACAAGATTTAACTCCAATGATAGAAATTCCTCCAATTGACTGGGATTTCGAAAATGAAGTACCTAAGAAAACGATTGACGAACATCTATCTAAAGTAGGAGAGTCACTTGAGAAATCATGGGGATTAGAAGATTATCCTGTTTTTGTTGATCTGAATTATATAGAAGCCACTGATCGATTACAAAATGGTCAACACCCTCTAAATTTTGTCCTAGAAGAAGCTAGAGCCCGTAATATAAATGTGATACCAGTTACTAGCAGTTCACGGGACCAGGCTTACCAAAATGAGATCAGATCAGCTCATGGTCAAGATAGAAACGGAATTTGTTTTAGATTAAAAGAGGACGACTTCTCAGACATACAGGCGAATATTGATAATTTGTTAAACGAACTAACTGTAAGCCCTGCTGAGGTAGATTTAGTACTTGATTATGAATATGTAAATCCTAATGATCAAACTAGGACTTTTTTATTTCTAACAAGCATTATTAACTCTACCCCTTATCTACATCAATGGAGGAACCTTGTGCTTATTGGGACATCGTTTCCTAGCGATTTATCGGCTGTTGGATCTAACTCAATAGATACAATCGAAAGAACAGAAAGGTTAATATGGAGGAGGCTACACTCATCATCAATTGGTAGAATCCCGTCTTATGGAGATTATGGGATATCCAATCCCGCACCATTTGAAGCTGATCCTCGCTTCATCAACATGAGTGCAAACATTCGATATACCGCAGCTGATAAATACATCATTTTTAAAGGTCGCATGATTAAAAGATACGGAGGAACCCAGTATTATCAATTAGCCAACCAAGTTGTTTCGCATCCGGAATATTCAGGTCATGGATTCAGCGCCGGGGACTTGTACATACGAGAAGTCGCTAGCAATAATGATGGTCCCGGCAATGCAACCAGTTGGCGCAAATCCGGGACCAATCATCATTTAACTTATGTAGTCAATGAACTCTCCAGTGTGTCCTTGCCTTAA	MQREIKYTPVLKWKQGEQKAIEELEISVKQDLTPMIEIPPIDWDFENEVPKKTIDEHLSKVGESLEKSWGLEDYPVFVDLNYIEATDRLQNGQHPLNFVLEEARARNINVIPVTSSSRDQAYQNEIRSAHGQDRNGICFRLKEDDFSDIQANIDNLLNELTVSPAEVDLVLDYEYVNPNDQTRTFLFLTSIINSTPYLHQWRNLVLIGTSFPSDLSAVGSNSIDTIERTERLIWRRLHSSSIGRIPSYGDYGISNPAPFEADPRFINMSANIRYTAADKYIIFKGRMIKRYGGTQYYQLANQVVSHPEYSGHGFSAGDLYIREVASNNDGPGNATSWRKSGTNHHLTYVVNELSSVSLP	PGPT0027721_563	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-Gop-Beta_PROTEIN_TOXIN-ANTITOXIN_SYSTEM,PGPT0027721-antitoxin_beta_protein-na	NA	NA
AK002_01935	201			hypothetical protein	ATGTTAAAGGAACTAATGATTGCTATAGAAAAACACCAACAGGTAAGTGTCAAGACAAAAGACGGGAATATAACAGTGGGCCTACCTAAACATTCTACTGATCCAGGGAGAGTGAAAATTTATACAAAAAATGAGGTCGTATCTTTACCTTTAAATGATATAAATCATGTAATGAGGATCATAGGTTTTCCGACTAAATAA	MLKELMIAIEKHQQVSVKTKDGNITVGLPKHSTDPGRVKIYTKNEVVSLPLNDINHVMRIIGFPTK				NA	NA	NA	NA	NA
AK002_01936	849	lig		DNA ligase	ATGTTTATTGATCCGATGTTACTCGCAACAGCGCCAGCTCCGTTTTCCGATCCCCATTATATCTTTGAACCAAAGATTGACGGACACAGGCTCCTTTTCTCCCAAAAGTCCGGTCGGATCCGACTCTATACTCGTCATGAGACAGAATGTACTCAACAATACCCTGAATTATTGGTTCCGTTTGATGATGACATTCTTCTGGATGGTGAAGTGGCATGTGCCGGGCCCGACGGCGTGGATTTTGAGGAAGTCATGATCCGGTTTAAAGCAAGTAAGGACCAACGCATCAAACAGCTGGTCATGTCTTCTCCAGTTACGTTTGTTGTGTTCGACATATTGCAATACAAAGGGCAAGACCTTCGGAAGATGCCATTGCTGAAGCGCAAAGAGATCCTTGCCGGCATAAAAATGCCAAATCAGAAATTTGGCATCATTCCCTTCGTCGAAGGTGTGGGAGAGGCGTTGTTTGAACAGATGGTATCCCGAAAGCTTGAAGGGATGGTCGGCAAGCGAAAGAATAGCCTTTATGTAAGCCGCCGATCGACAGCCTGGCAGAAGGTCATTAATTGGTCTTATACGGACGTGATCATAACTGGGTATCGTAAGGACGAATTCGGATGGCTCGCCGCTGTCCCTGATGAGTCCGGGCAGCTTCGTCCAGCTGGAATTGTGGAGTACGTAACACAAGCAGTTCGAAAAGAGTTTTATTCGAAGAGTCAATCCCTTGTAATAGGCGAGGACAAAAATTTTGTGCATTTGACGCCAGTTACCCGGGGGCGGGTGAAATTTAGAAACTGGTTCAAATCGGGGATGTTGCGAACGCCAGTATTAACGGAATTCATAAAATGA	MFIDPMLLATAPAPFSDPHYIFEPKIDGHRLLFSQKSGRIRLYTRHETECTQQYPELLVPFDDDILLDGEVACAGPDGVDFEEVMIRFKASKDQRIKQLVMSSPVTFVVFDILQYKGQDLRKMPLLKRKEILAGIKMPNQKFGIIPFVEGVGEALFEQMVSRKLEGMVGKRKNSLYVSRRSTAWQKVINWSYTDVIITGYRKDEFGWLAAVPDESGQLRPAGIVEYVTQAVRKEFYSKSQSLVIGEDKNFVHLTPVTRGRVKFRNWFKSGMLRTPVLTEFIK				NA	NA	NA	NA	NA
AK002_01937	738			hypothetical protein	ATGAAGAAAAGAAGAGTATTAAGTATTTTGTTTTCTCTGACACTAGTAGCTGGTTTATTTTCTGGGGTAGCGTCTGCAGAAGAAGTAAAAGAAAGTCCTAAGGCTGTTGTTAAGGAGACTATTCTGTCACCGGTCGAAAAGAATGAGAGTTTGAAGGTGACCATTCAACAACTTTCTGATGGAACACAGAGAAGGATTTTTAGTGGCTCAGGTAATGCTGCTGATAACCCAGTTCGATTAGACATTAAAGTGAACTCCGAGAATAATACATATAACGTTATTAGAACTGACCTGTCTAATGACCCCAGATACCAAAAAACGATTGAGCCTTTCGCTCCTTTGTGGAACAAGCAAATTAAGTTGTTAACAAAAGATCCCGCGAATTGGGATATTGTCTATACAAAAGCTCTGCTATACTGGTATTCACAGAATGGGTATCCTGCGTATAGTACTGGCGGATCTGCAACTTGGGCTGTTAAAAATTCTCCACTCGAAACTAATTGGTACGTTGATCTTGAACAATCATGGAGAAATGATAGGCAAGATGGCACTGCAGTAGGACAAGCAGCGTATGGTAGTTTTCATAATTATGATTTTGGTGACCATAATAAAGGAACATGGGTTACTCACAATGTCTACGTTTGGGGAGAAAACAATGCTGCTTTTGACTATGATGCGATTCAGGACATAACTGGCGAAGGCGAACTATTGTTGTGGAGTACAATCGAAATATATTAA	MKKRRVLSILFSLTLVAGLFSGVASAEEVKESPKAVVKETILSPVEKNESLKVTIQQLSDGTQRRIFSGSGNAADNPVRLDIKVNSENNTYNVIRTDLSNDPRYQKTIEPFAPLWNKQIKLLTKDPANWDIVYTKALLYWYSQNGYPAYSTGGSATWAVKNSPLETNWYVDLEQSWRNDRQDGTAVGQAAYGSFHNYDFGDHNKGTWVTHNVYVWGENNAAFDYDAIQDITGEGELLLWSTIEIY				NA	NA	NA	NA	NA
AK002_01938	333			hypothetical protein	ATGTTTATTGATAAGTTGCTAGGAGTTTTCGGTGGATTGTGTAGCGTTGTGATTTATATTATCGTTTGTTTTTTCAGTCCTACCGAAATGTTGAATTGGGGTACTATTACGATCTTACTCTTTATGTTGTTTATCCCTGGTTGTTTGGCAGTTTTTTCAGCCATAGTACGTAGAAGAGGACTCATGCTAATTTCTATAGTTTGGTTATTACCTGTAGTTCTTTATTTCTCTGGGGGAAATGGAGTATATAGATATACGTGGATTATAATCGTGTTGTTATCTGTTAGCTTCATCTTAATGAACTTTAAGAAACCGACTACCCATAGTAGGTAG	MFIDKLLGVFGGLCSVVIYIIVCFFSPTEMLNWGTITILLFMLFIPGCLAVFSAIVRRRGLMLISIVWLLPVVLYFSGGNGVYRYTWIIIVLLSVSFILMNFKKPTTHSR				NA	NA	NA	NA	NA
AK002_01939	1272	dinB_1	COG0389	DNA polymerase IV	TTGAAGTCACGGCAGCGTGTTGTTATGTTGGTGGACTGCCAATCTTTTTATGCCAGTGTGGAAAAAGCCGAGCATCCGGAATATAAAAACCGTCCTTTGGTGGTTGCTGGTGATCCAGAAAGGCGCTCAGGCGTTGTTCTGGCTGCATGCCCTATAGCCAAATCCAAAGGGGTTAAGACGGAGGATAGACTGGGTGAAGCTTATGCAAAGTGCCCTGAGCTTGTAGTGATACGACCACGCATGCAGAGGTATATTGATGTGGCGATGCTCATCACGGACATTTACAAGCAGTATACCGACCTTGTAGAAACGTTCAGTATTGATGAGCAGTTTTTGGACGTAACTGGGTCTATGCATCTCCATGCTGACACTCCTGAGGAATTGGCTCATCTGATCCAAACACATGTCAAGGCGGCGACAGGGGTATATATTCGCTTCGGGATTGCTGAGAACAAGATACTTGCGAAGACTGCTTGTGACAATTACGCCAAGAAAAATCCATCCGGTATATACACTCTCACAAAAGAGATGTTGCCTGAAACATTATGGAAGCTTCCGGTGAGCGAAATGTACATGGTGGGACGCCGGATGACTCGTCACTTCACCGTGATGGGATTGCCTACGATCGGAAGTATAGCTCAGACGCCTCTTGGAAAGCTCAAGCAGATGATGCGGCGCAAGTTTGGAAAAAACTCAGACATCCAGGCCGAGTTATACTGGAGGATCGCAAACGGCATCGATGACAGCCCTGTACTGCCGGGGACGCACCAGGTCGCTCCTAAATCCGTCGGCCACATGATGACCTTGCCGCGGGATTACGGCACCATCGAAGAGATTAAGGTCGTGCTGCTAGAACTAACAGAGTTGGTTTGTCAGCGTTGCAGGTCACTTGGTTTCATGGGTCAAGTTGTATCGGTCGGGTGTATGGGAGCAGACTTTGATCGCCCCACCGGCTTCTCCAGGCAAATGAAGATGGAGGACCCATCTAACATCACTATGCAAGTTTACCGCTGGGCCTCCAAGCTGCTGGAAGAGCATTGGGATGGCTTGCCGATCCGGCGGGTTGGCATTAGCTTGACGCAGCTCACTCCCGATAACGAATACCAGATGTCTCTGTTTGATACTGGCCGTGAGAAACAAATGGCATTAGAACGGACAACTGATGCTCTAAAAAACAAATATGGAAATTCAATTTTGATTCGGGCGGTCTCAATGACGGCAGCGGGTCAGGCACTCGATCGATCGGCTAAGATAGGAGGTCATTATAAATGA	MKSRQRVVMLVDCQSFYASVEKAEHPEYKNRPLVVAGDPERRSGVVLAACPIAKSKGVKTEDRLGEAYAKCPELVVIRPRMQRYIDVAMLITDIYKQYTDLVETFSIDEQFLDVTGSMHLHADTPEELAHLIQTHVKAATGVYIRFGIAENKILAKTACDNYAKKNPSGIYTLTKEMLPETLWKLPVSEMYMVGRRMTRHFTVMGLPTIGSIAQTPLGKLKQMMRRKFGKNSDIQAELYWRIANGIDDSPVLPGTHQVAPKSVGHMMTLPRDYGTIEEIKVVLLELTELVCQRCRSLGFMGQVVSVGCMGADFDRPTGFSRQMKMEDPSNITMQVYRWASKLLEEHWDGLPIRRVGISLTQLTPDNEYQMSLFDTGREKQMALERTTDALKNKYGNSILIRAVSMTAAGQALDRSAKIGGHYK	PGPT0014881_1012	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
AK002_01940	342			hypothetical protein	ATGACAACAACACGAAAAAAACTGGAGGGTAACGGCCTTTGGGAGTCAAGTCGTATGATGCTGCCTGAACATAAGGAGACAATAATTCGTCGGCAGCTCGAAGAGGGGAGAAAAGACCGTCCAACGCTTGATCCGCAGGAAATGGAATTGATTGAACAAGCGTTGGCCGAGTCTTTTCATGAACACCGTGTAGTTACAGTAAGACTGTTTGATGAGTATGAAGATACAGAGTTAACGGGTATTGTCGTGCTGATCCACACGTTCAGACGGGAGATCAAATTGTCTATGGCTGAAGGTGACTGGCAATGGATTAAGATCGATGAAATAATATCAGTTGGATGA	MTTTRKKLEGNGLWESSRMMLPEHKETIIRRQLEEGRKDRPTLDPQEMELIEQALAESFHEHRVVTVRLFDEYEDTELTGIVVLIHTFRREIKLSMAEGDWQWIKIDEIISVG				NA	NA	NA	NA	NA
AK002_01941	648			hypothetical protein	ATGAAAAAACAAGTTGCTGTTACGGCCTTAGCTTGTGCGCTTGTTCTTGGTGGCGGAGGGTTTGCATACTATTCTTACGCTGCTGGTGCTGAACAAACCGTTATTCCGGTTGTTGCGTCGTCTTTAGAACCACAGCAAAATGAGGAAAGTCATGTGCTTGAAACTTCATCGCCAGACCAAGAAACGTTTGAAATAAAGCCAGAAACAACAGTGGGCCCTGGCGTTCAGGATCCTGAAAATATCGATTTAGCTGATGTACCGGAGGCAGATATACATATTCCGCTTTTAAAAGATAATGCTGCTGCATTACTCAGTTCCTTGGGACTAACTAAACAAAATATTCAAGCGTTGCAAAGGGAGTATGGACTTCACCTTAGATCCTTATTAACAACCACAGATGGTGATGAGATTCGTATAAATCAAGTCGATGCAAATATGGGAGTGTCAGATGCTATTGAGAGCCTGAAGACAGATTATTACCCTGAGACTTCTGAATTAACAGAGGTTAATGGTCTTAAAGCATTGTATGTTGATGGGGAAGTGAGAAAAGTTGTACATTTGATCTCTGATGATCACCTCTTTACTATTTCAGCTAATACGGCCTCGCTTGAAGAATTGATGGATATCGCAAAACAAATTCGTGAATAA	MKKQVAVTALACALVLGGGGFAYYSYAAGAEQTVIPVVASSLEPQQNEESHVLETSSPDQETFEIKPETTVGPGVQDPENIDLADVPEADIHIPLLKDNAAALLSSLGLTKQNIQALQREYGLHLRSLLTTTDGDEIRINQVDANMGVSDAIESLKTDYYPETSELTEVNGLKALYVDGEVRKVVHLISDDHLFTISANTASLEELMDIAKQIRE				NA	NA	NA	NA	NA
AK002_01942	189			hypothetical protein	ATGCTAGAGCACATGGTTATTTTACTTCGTAGTATATCAGCATTCGTCATTTTGTTGATTATTACGCGGTTTTTGGGCAAACAAACGTTGTCTAACATGAATTTTCATGAATTTGTTACGGCCGTGATATTAGGGCAATTGCTGCGAACTTTGCTTTCAATGAAAAAATGGAAGTCATACACCTGCTAA	MLEHMVILLRSISAFVILLIITRFLGKQTLSNMNFHEFVTAVILGQLLRTLLSMKKWKSYTC				NA	NA	NA	NA	NA
AK002_01943	543			hypothetical protein	ATGGAAGTCATACACCTGCTAATCTCGCTTGCCGTATTTACATTTACATCATATTTTTTATCAAAGATCGTGGTGAAGAATCGTAAATTCCGCATGTGGGCTGAAGGGACGCCGAGCGTAGTTATAGAAGGTGGCAAGATCCTGGAAGAGAATCTAAGGAAAAATAAGTTAACTTTAGATACGATCAATCAGATGTTGCGGCAAAAGGATATATTTGACATCTCGGAAGTGGAGTACGGCGTATTAGAGATCAATGGAAAGATATCTGTAATGAAGAAAAAGGAATACCAGAATGTAACTTTAAAAGATATGAAAAAGGGCTTGAAAGGGAATCAGCAGTTTCCGATTGAGCTTATCATGGATGGCCAACTTTTAGAAAATAATCTAAAAATTAATGATCTGTCCCCAGAGTGGATTAAAGAAAAATTAAAAGTCCGGAACAAAGAAATTGCAGATGTTTTTTATGCAGTGAAAGGAACCTACGGTCAGCTGTACATCGATCTGTATCGGGATAAAATACAGCATCCCGTTGATGTAGAGTAA	MEVIHLLISLAVFTFTSYFLSKIVVKNRKFRMWAEGTPSVVIEGGKILEENLRKNKLTLDTINQMLRQKDIFDISEVEYGVLEINGKISVMKKKEYQNVTLKDMKKGLKGNQQFPIELIMDGQLLENNLKINDLSPEWIKEKLKVRNKEIADVFYAVKGTYGQLYIDLYRDKIQHPVDVE				NA	NA	NA	NA	NA
AK002_01944	585			hypothetical protein	ATGCACAAAAGCACAGTATCAGGAAAGGCAAAAAATACGGTCAAACAACAAAAGCCTAGAAGACATAGCGGAATCTGGGCGGGTAGCGTTGCAAAAGCAATGAGAACGATGATTGCCGCACAGAGATCATTGAATGCACAAAATCCGGTTGTTATTAGCCAACGAACTAGAAGAATAAGTACGAATCGAAATTGGGTAAATGCACTAGAAATCGAGCGAAATCCGGCATGGGTTGCGCCGCAAGCTGGTGAATCGTACGTTTGGGGAAGAAATGACCCTAACGGTCCTGCTGCCGTGGTCGCCAGAAGATTTACGATTAGAGACAATATTGAGAGAGCCAGCTTGTTCCTGTCCGTGGATAACTTTGCCATCGTTTTAATCAATGGACGGCCGGTCGTTATCGACAACCCGCAGGGCAATGTTTCATTCTTTAATCCGGGAAGAACTTTTAATATCAGACGCTTCCTTCGGAGAGGTACAAACGATATCGTGATCGCCGCTTTTAACTTCCCGTCCAATGCAAACAGAAGCGGAGATAATCCAGCTGGCGTCCTTGCCCGTATCGAGATTGAACTAGAAGATTAG	MHKSTVSGKAKNTVKQQKPRRHSGIWAGSVAKAMRTMIAAQRSLNAQNPVVISQRTRRISTNRNWVNALEIERNPAWVAPQAGESYVWGRNDPNGPAAVVARRFTIRDNIERASLFLSVDNFAIVLINGRPVVIDNPQGNVSFFNPGRTFNIRRFLRRGTNDIVIAAFNFPSNANRSGDNPAGVLARIEIELED				NA	NA	NA	NA	NA
AK002_01945	1611	betA	COG2303	Oxygen-dependent choline dehydrogenase	ATGGAGAAAAAATCAACTTATGATTACATCGTTGTAGGCACAGGTCCTGCTGGGGCCGTGATTGCGAAGACACTTACTGACGACATGCGAACCTCCGTGCTTGTTTTAGAATCGGGCGGAAACCATGACAAAGACAAACCGATTAAGGATTCAACCTTTGCACTTGAATTGGAAGAAAGTTTCTTTCCGAATTACTTTTGGCAGGGAGAAGGCATCCCCCAAGAGGAACTTGATGAACGCGCATTCGAATGGACAACAGGTCGACTCTCGGGAGGCGGTTCCTCAATCAACGGAGAACAATATGTTAGACCGACATCCGCCGTGCTCCGAAAGTGGGAACGGCTGCTTGGACCTCTATGGTCACCTGATAAAGCGATTCGACGATTCAAAGCATTGGAGAATTATAACGGAGAAACCACAGATATCAATGCACACGGGTATCGAGGAAGAATTAACATTCGGCAAGCACCCGAAACTCCAACGCCGATGGCTCACAAGCTGACAACTGCGATCGAGCGGGCAACAGGTTATCCGACCATTCTTGACTATAATGATCCGAATACTCCCATGGGACCGTTCACCCGTTGGCAATTATACCAACAGCCTGATGGTCGCAGGGAGAGCTCCTCCACGGCCTTCCTGTCTCGCGATATTATGACGGCAACAGGTCGGGGAGTGAATAACAGAAAACTAACTGTGAAGTTTCGAACAACGGTTCTCCGTATTCTTTTCTCCGGCAAGCGGGCCATTGGCGTTGAATATTTGAAGGATGGCAAGTGCTGCTATGCATATTCCCGTAAAAAGGTTATTATTTCGGCGGGGATCAACAGCCCTCAGTTGTTGATGTTGTCAGGAATCGGACCCGCCAAAATGCTGAAAAAGGCTGGAATCCCTGTCATCTTCGACAATCCAAACGTAGGGCAAAGGTTAAAAAACCATACGTTAAATTTCGCAGTATTTGCTACCAATTCACAAGATCGTCCCCTCCCTCCCTTAGACCCCAACGCTCTGTATACGGGAGGAGCTTTCTTGCCAGATCCATCTGGTATCGATCCGGATGAGCGGGCTGTTCAACTCGTTGGCATTGGATCCGATGAAGAATTGACAATAGCGATTCTGTACTTGCGACCCAAGAGCAATGGGACGATCCGCATACAAAGCAAAGATCCGCTGAATATCGTATTGGCAGATGAGGGTTTTCTCTCAAATCCGGACGACATGGAGGCGGTAAAAAGAATTTATAGAACGTATATCAAAGATATTGCCATAGAGTTGGAACAGATTGATTCTTCATATCGTCTCGTATCCCCTACATTTGATATTATCGATGACGATGACAGGCTTGAGGAATTTATTAAGGAAAATTTCGATCACAATCACCATCAGCAAGGATTTCTGCGGATGGCTCCTTTATCCGAAGGAGGAGTCGTTAACCGTAAAGGAAAGGTACACGGAGTTCAAGATTTGATCGTTGCAGATGCGTCCTTAGTTCCATATACAGTCGACGGAAACACCTCTTCTGCTGCATACCTTATCGGATACACCATCGCAAAGCAATTAAGTAAACGCAAAAAAAAGCAACGATCACATCCGGAATCGGGGGAAGAATGA	MEKKSTYDYIVVGTGPAGAVIAKTLTDDMRTSVLVLESGGNHDKDKPIKDSTFALELEESFFPNYFWQGEGIPQEELDERAFEWTTGRLSGGGSSINGEQYVRPTSAVLRKWERLLGPLWSPDKAIRRFKALENYNGETTDINAHGYRGRINIRQAPETPTPMAHKLTTAIERATGYPTILDYNDPNTPMGPFTRWQLYQQPDGRRESSSTAFLSRDIMTATGRGVNNRKLTVKFRTTVLRILFSGKRAIGVEYLKDGKCCYAYSRKKVIISAGINSPQLLMLSGIGPAKMLKKAGIPVIFDNPNVGQRLKNHTLNFAVFATNSQDRPLPPLDPNALYTGGAFLPDPSGIDPDERAVQLVGIGSDEELTIAILYLRPKSNGTIRIQSKDPLNIVLADEGFLSNPDDMEAVKRIYRTYIKDIAIELEQIDSSYRLVSPTFDIIDDDDRLEEFIKENFDHNHHQQGFLRMAPLSEGGVVNRKGKVHGVQDLIVADASLVPYTVDGNTSSAAYLIGYTIAKQLSKRKKKQRSHPESGEE	PGPT0013615_3784	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
AK002_01946	258			hypothetical protein	ATGTACTTCCAAACGCTGAGGCTGCTGGTGGGATGCAGCTCATTTTCTTACATAGGATGGGGGATCAAGGTGTCAGAGTGGGTATTGAATCAGTCCTGGGGACTGCCCGTGTTGCTTGCCTTCTTAGTGATCGTATTCGTATTCGAGTCAAGGAAAGCTTTTAAGGCATATCAAGAAAAAAGACGTTTTGAACTGGGATGGGCCCTATTGTTTGCGCTGGTGGCTTTATTGGCGATTATTGTCCTGGTGGCTTATTAA	MYFQTLRLLVGCSSFSYIGWGIKVSEWVLNQSWGLPVLLAFLVIVFVFESRKAFKAYQEKRRFELGWALLFALVALLAIIVLVAY				NA	NA	NA	NA	NA
AK002_01947	1206	tetA		Tetracycline resistance protein, class C	ATGTCATTACTATTGCGAAACAATGGAGCCATTCTGCTCCTCATGTTCAATATATTTTTAGTTTTCACCGGCATCGGGCTTGTCATCCCCATTATGCCTACCTATATGACGGAGCTGCATATCAGCGGAAGCACGGTGGGCATGCTCGTTGCCGCCTTTTCATTAACGCAGCTGCTATTCTCTCCGCTTGCGGGGAGATTGTCCGATATCATGGGCCGCAAAAAAATCATCATCTCCGGCATGATTGTATTCGCCATATCGGAATGGTTATTCGGAGCGGCCAGCACGCCGACGCTGTTGTTCGCGGCAAGAATGCTTGGCGGCATCGGCGCCGCCCTCATCATGCCCGCCGTCATGGCCTATACGGCTGACGTCACTTCCAACGAGGAACGTGCCCGGGGCATGGGATTCATTAATGCAGCGATTACGACAGGCTTCATTATCGGACCCGGCATCGGGGGGTTCATCGCCGAGTTTGGCATTCGTGTTCCTTTCTACGCTGCAGCCGTAGCCGGGGGCATTGCCGCTTTGGTGACGCTGCTGCTGCTTCCGGAATCATCAGCCAAGCAAGAAGCACCTACCGTGCTGGGACGGAAACAGGAGAGCCTGGCGGTCCAGCTGGCCCGTTCGTTCAGGGAGCCGTATTTCCTTAGTCTGATCATCGTATTTGTTCTGTCGTTCGGTCTTGCCAATTATGAAACGGTGTTCGGCCTGTTCGTGGATCATAAATTCGGATTCACCCCTAAAGATATCGCCATGATCATTACGTTTGGCTCCATTGCGGGCGCTGTCGTGCAGGCAACGATATTCGGCTGGATCCTGAACCGGTTCGGCGAGAAAAGGGTCATTACGCTCAGCTTGCTCACAGCGGGAATCTGCATTCTGTTAACGCTGTTTGTGCATAAATATTGGCTAATCTTCCTTGTGACGTTCCTTGTCTTCCTGTCGATCGACATCCTGCGTCCTGCCATCGGCACGCAAATGTCCAAGCTGGCAAAGGATCAGCAAGGCTACGTCGCCGGCCTGAACTCGGCTTATACCAGTCTGGGGAACATCGCGGGGCCCCTTATCGCAGGTTATCTGTTTGATTTGGACATCAACTTCCCATACATCTCTGCATCGATCGTCCTCATCCTCTGCTTTTTCTTGGCCATGCGTGCCGGCAGAGCCTGGGCTGCTACGGAAGCTGTCACGAATGAGCGGTAA	MSLLLRNNGAILLLMFNIFLVFTGIGLVIPIMPTYMTELHISGSTVGMLVAAFSLTQLLFSPLAGRLSDIMGRKKIIISGMIVFAISEWLFGAASTPTLLFAARMLGGIGAALIMPAVMAYTADVTSNEERARGMGFINAAITTGFIIGPGIGGFIAEFGIRVPFYAAAVAGGIAALVTLLLLPESSAKQEAPTVLGRKQESLAVQLARSFREPYFLSLIIVFVLSFGLANYETVFGLFVDHKFGFTPKDIAMIITFGSIAGAVVQATIFGWILNRFGEKRVITLSLLTAGICILLTLFVHKYWLIFLVTFLVFLSIDILRPAIGTQMSKLAKDQQGYVAGLNSAYTSLGNIAGPLIAGYLFDLDINFPYISASIVLILCFFLAMRAGRAWAATEAVTNER	PGPT0003185_349	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003185-blt-K08153	NA	NA
AK002_01948	600	qacR_1		HTH-type transcriptional regulator QacR	GTGAACAAAAAACAACAACAAACCGAAGATACCAAGCGACGCATTGCCGAAGCCGCCAAGGCGCTATTTATGCAGAAGGGATACAAATCAACGTCGATCGAGGAAATCGTCGAAGCCACCGGCAGCAGCAAAGGGAATATCTATTATCACTTTAAAAGCAAGGAAGGGCTGTTTCTGTATTTGATCGAGGAATGGGACCTCGAGTGGGAACAGAAATGGAGCAGTAAGGAGCAGCAATACACCACAACCGTTGATAAATTGTACGGAATTGCCGACCAACTGGTGTTTGATGATCTGAACCACCCCTTCTCCAAAGCTCTGGACGAATTCATGAACAACAATGGAGACGTGTCCGAGGAAGTAGAGCAGCGAATCGTCCGGATTATCCGAAGCCACCTGGAATTCAATCAGAAGTTGCTGCAGCAAGGGATTGATCAAGGGGAGTTTGAGAATCATAACGTGGAGCAGCTCTCCCTCATTTTTGAAAGCCTCATCGTGGGCTTAAGCCAGATGTCCCGCATTACGAAGGTAAAAAATCCGCTTGCCCTTTATCATACGGCCATTCAAGTATTCCTGCACGGCATCGAAAAGAAATCGTAA	MNKKQQQTEDTKRRIAEAAKALFMQKGYKSTSIEEIVEATGSSKGNIYYHFKSKEGLFLYLIEEWDLEWEQKWSSKEQQYTTTVDKLYGIADQLVFDDLNHPFSKALDEFMNNNGDVSEEVEQRIVRIIRSHLEFNQKLLQQGIDQGEFENHNVEQLSLIFESLIVGLSQMSRITKVKNPLALYHTAIQVFLHGIEKKS				NA	NA	NA	NA	NA
AK002_01949	771		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGAAAAAACGAACATGCTCAGCCTTCTCATTGCTTGCCCTTGCGCTGATTCTTGGTTATCCCGGCCATGTGCATGCGGAGCACGCGCCTTCCGCCTCCAAAGGCAGAGATTATTATGAGGAGCGCGGCGAGATCGTGTGGGAAGTGCCCACGCAGAACAAGGTGATCGCCCTCACTTTTGACGACGGCCCGGACGAGCATAATACCGTTCAAATTCTGGATCTGTTAAAGCGGTATGACGCTAAAGCCACCTTCTTCGTTGTAGGCAGCCGGGTGGAGAAACATCCCGACATCGTCGCACGGGAGCTGCAGGAAGGACATGAAATCGGCAACCACTCCTATACGCATCCGCCCTTTCACAATATTAACGTCACGAAGTTATCAAGTGAACTGAATCAAACGCAGGATGCGATCTATCAAGCCACCGGCATGAAGACCGTACTGTTCCGCCCGCCCGGGGGCAGCTATAATGAAGCCATTGTGAGGACGAGCAAGGATTTGGGCATGCTGACCGTATTGTGGTCATGGCACCAGGATACCCTCGACTGGCGAAAGCCCGGCGTCAACCGCATCGTCCGAAAGGTACTGGATAACGCCCGGAACGGCGACATCGTACTTATGCACGATTTTGTACCCAGCAGTACGCAGACGGTTGAAGCCCTGAAGATGATTTTGCCGGAGCTGCAAAAAAGGGGTTATTCATTTGTTACCGTATCCGAGCTGATGTCCTACCATGAGAAATCACGCAAGTTCATCGAAGTCAACCATTAA	MKKRTCSAFSLLALALILGYPGHVHAEHAPSASKGRDYYEERGEIVWEVPTQNKVIALTFDDGPDEHNTVQILDLLKRYDAKATFFVVGSRVEKHPDIVARELQEGHEIGNHSYTHPPFHNINVTKLSSELNQTQDAIYQATGMKTVLFRPPGGSYNEAIVRTSKDLGMLTVLWSWHQDTLDWRKPGVNRIVRKVLDNARNGDIVLMHDFVPSSTQTVEALKMILPELQKRGYSFVTVSELMSYHEKSRKFIEVNH	PGPT0018645_3447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_01951	369	ung_2	COG0692	Uracil-DNA glycosylase	ATGTTTAACAATGATTGGGACCTTATCCTGCAGGGAGAAGTGGATAAGCCTTATTTTCAAGCTTTGTTGGAACGGGTGGAAGAAGAGTACCGGCGCAGTACGGTGTATCCTCCTAAGGAAGATATATTTCGGGCTCTGCAGCAAACATCGTACCAATCGACGAAGGTCGTTATTTTGGGGCAAGACCCTTATCACGGTCGCCGGCAGGCGCAGGGACTGAGTTTCTCCGTCTCGCCCGGGGTTGCGATTCCTCCGTCTTTACGCAATATACATAAGGAGCTTTCATCGGACTGGGGATTTCGGCCCCGAATCATGGATCCTTGCAATCATGGGCGGACCAGGGAGTTCTGCTGCTCAATGCTGTGCTGA	MFNNDWDLILQGEVDKPYFQALLERVEEEYRRSTVYPPKEDIFRALQQTSYQSTKVVILGQDPYHGRRQAQGLSFSVSPGVAIPPSLRNIHKELSSDWGFRPRIMDPCNHGRTREFCCSMLC				NA	NA	NA	NA	NA
AK002_01952	396			hypothetical protein	ATGAAGCATTGGATTGGTCGTCATGTTGTCATTCAGCGTCTAGACGGGGCGAAAAGCACGGTTGAAGGTGTGCTGAAAGGGTGGGATCCCGTTCAGGAAAAAGTGGTTCTAGGCCCGGGCGAGCTTATCATTCCGTTTCGAGCCATTCATAGAATTATGCCGAGGAACTCCTATCCGGCCCTGAACTCCATCGGTTATATCGTGAGTCATACCATTCAATTCGATAATGCCGTTTATTTTGGATCCTGCGTCATGGTATGGAGGGGCAACCAGCTGGTGTCTTCCCAGGCCATCCTGACATCTCACGATGAGGATACCGTCACACTGTCGAATGGCACGATATTGCGTAAGGACGAGCATGATTTCGTGGTTCGGTCCCTGCGCGGCAATGCGTGA	MKHWIGRHVVIQRLDGAKSTVEGVLKGWDPVQEKVVLGPGELIIPFRAIHRIMPRNSYPALNSIGYIVSHTIQFDNAVYFGSCVMVWRGNQLVSSQAILTSHDEDTVTLSNGTILRKDEHDFVVRSLRGNA				NA	NA	NA	NA	NA
AK002_01953	1077		COG0628	Putative transport protein	ATGATGCAGAGCAAATATTTCAGGACATGCTTTGGCATAATCGCGCTGCTCTTAATCATCTACCTCGGAGCCGAAATCAGCTTTTTGTTTCGCCCCATCGTCTCCATGTTCAACATGCTGATCGTTCCGGTGGCCATGGCCGGCTTCTTCTATTATCTGCTCAGGCCGATCGTGGACTACCTGGAGCGACGCAAAATCAAACGATCCATCGGCGTCCTGATGCTGTATTTCGTGTTTGCCGGTCTCTGCGCGATCTTTGGCATCGTCGTATGGCCGACGCTCCGTGAACAGATCGAAAACTTCATCAGCAACGCCCCCTTCCTGGTTGAGGGCGTGGAGGAGCAGATCGACCAGCTTCAACAAAATCAATTCTGGTCCCGCTATATACCAACGGAATCCGAATTGTCGACCTCCCTGACGGAATACATGAACCGCATCATCACCTGGATCAGCAATTCCATCAATAATCTGATTTCCGTTGTATCCGGCGTCGTTGTCATTATCGCTACGATTCCGATCATTTTGTACTACATGCTGAAGGAAGGCAGCAAGCTCCCGCCAAGACTGCTCAGCGTCCTGCCCAGACGATACCGCCGCGACGGCCAGGAGGTGCTGGGCGAGATCGATACGGCACTCAGCAATTTTATTATCGGCAAAGTGATCCTGAATCTTATACTTAGCGTCATGATCTATATCGGATTTTTGATTATCGGACTGCCCTATTCCCTGCTCTTGACGGTGATTTCCTTCTTCTTGAATTTCATTCCGTACATCGGTGCGCTGCTGGCGACCATTCCAGTCGTCATCATCGGATTTATCGAATCGCCCTCCATCGCGATATGGTCCGTCGTGGTCATTGTCATCGCCCAGCAGATTCAAGATAATATCCTGACGCCCGTCATCTACGGGAAACAGCTGGATATTCACCCACTGACTACGGTTGTCCTCATTCTTGTAGGCGGCGACTTCTTCGGACTGCTCGGCATCCTGCTGGCCATTCCGGCCTACATGATCATCAAAATTATCGCGGTGCGAATTTACGAGCTGTTCCTCGCCGAAAAAGTAGAGGACGCATGA	MMQSKYFRTCFGIIALLLIIYLGAEISFLFRPIVSMFNMLIVPVAMAGFFYYLLRPIVDYLERRKIKRSIGVLMLYFVFAGLCAIFGIVVWPTLREQIENFISNAPFLVEGVEEQIDQLQQNQFWSRYIPTESELSTSLTEYMNRIITWISNSINNLISVVSGVVVIIATIPIILYYMLKEGSKLPPRLLSVLPRRYRRDGQEVLGEIDTALSNFIIGKVILNLILSVMIYIGFLIIGLPYSLLLTVISFFLNFIPYIGALLATIPVVIIGFIESPSIAIWSVVVIVIAQQIQDNILTPVIYGKQLDIHPLTTVVLILVGGDFFGLLGILLAIPAYMIIKIIAVRIYELFLAEKVEDA				NA	NA	NA	NA	NA
AK002_01954	339	ykuD_1	COG1376	Putative L,D-transpeptidase YkuD	ATGCCTCAATACCGCATTATTGTCGATTTGTCCGACTTTCAGCTGCACCTGCTCGACGGCAACATCGTGGTACGCACGTTCCCGGTCGCCATCGGCAAAATGGCTACGCAATCGCCGCCCGGCAATTACACCATTGTCAACAAACAACCGAATCCCGGCGGTCCTTTCGGGGCTTACTGGTTAGGTTTGTCCAAACCCCACTACGGCATCCATGGCACGAATGACCCTTCATCCATCGGACGCTCCGTTTCCCATGGCTGCATTCGGATGTATAACGAGGACGTGGTGGAGCTCGCTTCCCTCGTGCCCATCCATACCAGGGTCACCATACGAAACTAA	MPQYRIIVDLSDFQLHLLDGNIVVRTFPVAIGKMATQSPPGNYTIVNKQPNPGGPFGAYWLGLSKPHYGIHGTNDPSSIGRSVSHGCIRMYNEDVVELASLVPIHTRVTIRN	PGPT0023745_818	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
AK002_01955	1824			hypothetical protein	ATGTCTCCCGCAAGGCTATATCTAAAATATATTAAAAATAATATGTTTACCAAGATGCTGCTGTTAATCGCCCTGATTGCAGTAGTTACCATCGTCACCTTATCGTTTCTTATGTATTACTTCTTGTTTCAATCGGCCGTCCGCAGCGAGCTGGACATCCAGCGGAGTGCGGTGGAGCGGGTGGAACGACACCTGAATCAAAAATACGAGAATGCCCAGTCCTATGTGAACGACTTATACCGCAACAGCTCTTTGGGCATTGACACTTCCTATTTTCTCATGAACTCGTTCAACGAGTATATGGCCAAGCGAATGAATCGGATCGCGGGCGGGGGGCAGTCCAATTCGGACAGCGTAGTCGCTTATTTCAAGCAGAGGCTTGACGATGATCCGGATATAGAGAACATCATGCTGTACAGCGCGGAGAAGCAGTATGTCTACGTGTACAAGCAGGGCAGCATGACAAGGCTGTATCAGGCGAATGCCACGCATTCCTACATTCCCGACGTGATGGCGCTCGAAAGCCAGAGCGTCACGTTGCCGAATCTATGGATACGCAAGCTGGCCGGAGACGTGACATTGCCGTTGTTCTCGATCCGAAGCCCGATTAATGATATGACCACTTACAAAAATTTGGGACAGCTGCTTATTTTGTATCGAACGGATGCGCTGGATGCCGTGCTGAACAACAGCGACGATTCCCTGAAGGGCTCCGTTCTGGTGTTGTCGGGCGACGGCCGCGTGATGTTTGACTCCTCCGGCAAATATTACGGCGAGAAGTATCCGTATGCCGACCAGCTTCTGAATTCCAAGGAAACGGTGACCCTCGATGAGGAATCCTATATTACAACGGCAGCCCATAATCAGGCAGGCTATACGGTGGTGGGCATCACGCCCAAGCGCGAAATCGCGGAATCGTTCCATGGCTTGCAGAGCACCATTATCATTGCGGCCCTGCTATGCATCGTGATAGCGGTGTCCATCCCTTCCCTGATGATCGTCAATTACTCCAGAAGAACCGATAACATTATCCGTTTTATGCGCAAGGTCGAGAAGGGAGAGTTCGTGGCCCGGATGCAGGATACCAAGGACGATCAGCTGGGGCAAATCGCAGGCAGCTTCAATGAAATGCTGGATGAGCTTTCCCGTTACATCGATAAGGTGTATAAAGCGGAGATTAACCAGAAGAACGCGGAGCTGTCCGCGCTGCAGGCGAGAATCAACCCGCATTTTTTATACAACACGCTTGAAGTGATTCGAATGAGGGCTCTCTCGCAAGGGGCGCAGGACGTCGGCGATATGATCTACAGCTTGTCGATGCTGTTCAAGAATATCGTTCAGCATAAGTCCCACTATACGCTGAAGGATGAGCTGGAAGCGTGCAGGCTTTATCTGGAGCTGTTTCGCATTCGCTATAAGGACAAGTATATTTACAAAATGCACTGCGACGATCAAATCAAGCATGTGCCGATGATCAAAATGTCGCTGCAGCCGCTGATTGAGAATTATATCGTTCACGGCCTGCGCAGCGATCAGGACGATAACTGGCTGACCATCAACGCGACGCAGGAGGATGACGAGGTTCATATCGAGATCAAGGACAACGGGAAAGGGATCCCGCCGCAGCGGCTCGAGGAAATCAAATCCCGGCTGGATGTGGCCGAGTCGAGCGGAGAATCGTTTGGTCTGCGGAGCGTGAATGAGCGATTAAAGCTGACATATGGAAGTTCGTACGGAATGGACATCCAGAGTGAGCCGGGTAACGGAACGACGGTGACAGTGAAATTTCCGGTGACAGAGAGGAAGCTGAATAACGATGTATAA	MSPARLYLKYIKNNMFTKMLLLIALIAVVTIVTLSFLMYYFLFQSAVRSELDIQRSAVERVERHLNQKYENAQSYVNDLYRNSSLGIDTSYFLMNSFNEYMAKRMNRIAGGGQSNSDSVVAYFKQRLDDDPDIENIMLYSAEKQYVYVYKQGSMTRLYQANATHSYIPDVMALESQSVTLPNLWIRKLAGDVTLPLFSIRSPINDMTTYKNLGQLLILYRTDALDAVLNNSDDSLKGSVLVLSGDGRVMFDSSGKYYGEKYPYADQLLNSKETVTLDEESYITTAAHNQAGYTVVGITPKREIAESFHGLQSTIIIAALLCIVIAVSIPSLMIVNYSRRTDNIIRFMRKVEKGEFVARMQDTKDDQLGQIAGSFNEMLDELSRYIDKVYKAEINQKNAELSALQARINPHFLYNTLEVIRMRALSQGAQDVGDMIYSLSMLFKNIVQHKSHYTLKDELEACRLYLELFRIRYKDKYIYKMHCDDQIKHVPMIKMSLQPLIENYIVHGLRSDQDDNWLTINATQEDDEVHIEIKDNGKGIPPQRLEEIKSRLDVAESSGESFGLRSVNERLKLTYGSSYGMDIQSEPGNGTTVTVKFPVTERKLNNDV				NA	NA	NA	NA	NA
AK002_01956	1512	rssB_13		Regulator of RpoS	ATGTATAAGGTATTTATCGTGGACGATGAGCCGTTCATTATAGAGGGATTGGTTGATGTCGTGGATTGGTCGAAGTATGGCATCGAGGTGGTCGGTCATGCGGAGAACGGCCGTCAGGCACTGGAGAAGATGGCGGTCGTTCCGGTCGACATTCTTATAACGGATATATCGATGCCGGTGATGACGGGGCTTGAATTGATTGAGGGCGCACGCAAATTAAACCGTAATCTGAAGGTGATTATCCTGAGCGGTTTCGACGACTTTGCCTATTTGAAGGAAGGCATGCGGCTCGGGATCGAGAATTATCTGCTCAAGCCGATCAACCTCAAGGAGCTGGAAGAAACGATTGCAAGCACAACGGATAAAATGAACAAATCCAGAAGGGAAATGAGACTGGACGAGTATGACATCAATATTTTGCGGAGCAACATCCTGTATCGCTGGATCACCGACCGGATCGAGCCGGAGGAGCTGGAGGAGCGGGCGACCCTTCTGGGATTGAATCTCAATTTGCCCTATGTTATGGCATCTATCCTGAGAGCGGACTTCACGCCGCTGGAGAACTGCCTGTATCAATTAATGGACCAGGAGCCGGGCGTTCTGTATTTCCGGGACAACGACGGCGACCATGTGGTCATCTTCATGATGAAAGACCCGGATACGGAAAAAGCGAGGGCAATCCGCCTGCTGCAGCAGGTGCGGGAGCAGTGCTATGAAGAAGAGCTGAGCATCTCGCTCGGCAGCGTGGAGAGCCTCGGCGGGAATTACAAGGACAGTTATCTCCATGCCAAGGAAGCCCAGGAATACTATCTTGTTCTGGAGCAGCCCTCCTACGTGGATTATGTTGATGTTCAGGCCAAAAAGGGAGAAGCGGCGGAATCCTATTCGGTACAGTGGCCCGAGTATGCCAAAGGCATCGCTGGAAGGGACAAGCAGGTGCTGTTCGATCTGATCGACAGCGATTTTGACCGGCTTCGCCACACCCAGGGAATGAACCCGACAACCTTGAAGAGCATCGCGGTCGAAATGGTCATTCGCCTGAAACTGGAGCTGAACGATATCCAGTATACGGCCGCCCCTGATTTCGTGAAAAATACAATTACCGATATTATGGATTCCGTATCGATCGACGATCTGATCACTGCGGTAAAGGATGGGGTCGGCGGGCTGGTCGATTCGCTCAACAATGACGTGAAGAGTCCTGTCATCCAGCAGATTCTGAATCATATCCAGCACCATTACAACGAGGATTTGTCGTTGAAGGTGCTGGGAGCTAACTATCATATCCATCCGGTCTATCTGGGTCATCTGTTCCATAAAGAGACGGGAGAAAACTTCACGGAGTACATTAACCGGTACCGGATTGAGCGGGCCAAGGAGCTGCTTCGGAACTCTTCGACAAAAGTACAGGATATCGCAAAAAATGTCGGTTATTGGGAAACCGGTTATTTCTATAAACAGTTCAAAAAATTCGTCGGCGTATCGCCGAGGGATTTTAGAGGAATGCTCTGA	MYKVFIVDDEPFIIEGLVDVVDWSKYGIEVVGHAENGRQALEKMAVVPVDILITDISMPVMTGLELIEGARKLNRNLKVIILSGFDDFAYLKEGMRLGIENYLLKPINLKELEETIASTTDKMNKSRREMRLDEYDINILRSNILYRWITDRIEPEELEERATLLGLNLNLPYVMASILRADFTPLENCLYQLMDQEPGVLYFRDNDGDHVVIFMMKDPDTEKARAIRLLQQVREQCYEEELSISLGSVESLGGNYKDSYLHAKEAQEYYLVLEQPSYVDYVDVQAKKGEAAESYSVQWPEYAKGIAGRDKQVLFDLIDSDFDRLRHTQGMNPTTLKSIAVEMVIRLKLELNDIQYTAAPDFVKNTITDIMDSVSIDDLITAVKDGVGGLVDSLNNDVKSPVIQQILNHIQHHYNEDLSLKVLGANYHIHPVYLGHLFHKETGENFTEYINRYRIERAKELLRNSSTKVQDIAKNVGYWETGYFYKQFKKFVGVSPRDFRGML				NA	NA	NA	NA	NA
AK002_01957	1479			hypothetical protein	ATGAGTAAATCGAAAAAGAAATGGCTCCTGCCGCTAACGCTTTTATTGTCCGCGTCCATGCTGTTGTCTGCATGCGGAGGCAATAAAGAAGAGAGTGCAGGAAACGGCGGGGGAACTGCCGAGAAACCGGTTGAGCTGATCTGGTACACCATCGGAACACCTCAAAAGGATGTTGACAAGGTTGAGGCAGAAATCAATAAATACACTGCTGAGAAGATTGGTGTAACCGTTGACATGAAAATGATCGACTTCGGGGATTACAACCAGAAGATGCAGGTTATGGCAGCTTCCGGCGAACCGATGGATATCCTGTTCACGAGCTCATGGGCGTTCGATTATGTGCAGAACGCACGTAAAGGCGCATTCATGGAATTGGACGAGCTGATCGAAAGCCACGGAAAAGGCATTAAAGAAGCAATCGATCCGGCGTTCCTGGAAGGTTCCAAGGTTGACGGACACAACTATGCGATTCCGGCCAACAAAGAACTTCCTGCTCAAGAAGCATGGCGCTTTAACAAAACATTGCTCGATAAATACAATCTCGATATTTCGAACGTAAGATCGATGGAAAGCTTGGAGCCGCTGCTGAAAACGATCAAGGAAAACGAACCGAACGTCGTTCCTTTGGCCATCAGCAAAGACTTCGGACCATTGCTTCCATTTGACTACATCATCGAAAAAATGCCAATGGCCGTATACCTGGACGACAAGGAAGAACTGAAAGTCGTGAACTTCCTCGAAATGCCGGAAACGTTGGATATGCTTAAGTTGATGAACAAGTACTACAAAGCGGGATACATCTCCCCAGAAGCTGCAACAACAACTTCGACGCAAGATCTGATGACATCCGGCAACTGGTTCACGGACCGTGCGGCTACACAGCCATTCGCGGACAACCTGTGGAGCCAAAGCTACGGCTATCCGGTCGTATCTACTCCTGCCGGCGATGCAAACATCTTTAACTGGTCGGTTATGGGTTCGATGCAAGCGATTTCCGCAAACTCGAAATACCCTGAGAAAGCAATGGAGTTCCTGAACCTGCTGAACACCGACGTATATCTTCGTAACCTGGTTGACTCCGGCATCGAAGGCGTGCACTACAAGAAGCTTAGCGAGAACGTAATGGAAAACTTGCCAGAATCGAAAAACTACGACATGCCTACCTTTGCGCTTGGCAATGTCATGCTGACTTACTTGAATCCTGAAGATCCTGAGAACAAATGGGAAGAGTTCAAGAAGTTTAACGAGTCCGGCCAGCCTGCTCCGCTTCTCGGCTTCAACTTCGATCCAACCAAAGTATCCACAGAGCTCGCTGCTGTCAACAACGTAAAAGAAGAGTTCTGGGCGCCGCTGATGACAGGTACCGTCAATCCTGAGGAGTTCCTGCCAAAAGCGAATGAAAAGCTGAAAGCTGCTGGTCTGGATAAGATCATCGCTGAAGCACAAAGCCAAATTGATGCTTGGAAAGCAAGCAAGTAA	MSKSKKKWLLPLTLLLSASMLLSACGGNKEESAGNGGGTAEKPVELIWYTIGTPQKDVDKVEAEINKYTAEKIGVTVDMKMIDFGDYNQKMQVMAASGEPMDILFTSSWAFDYVQNARKGAFMELDELIESHGKGIKEAIDPAFLEGSKVDGHNYAIPANKELPAQEAWRFNKTLLDKYNLDISNVRSMESLEPLLKTIKENEPNVVPLAISKDFGPLLPFDYIIEKMPMAVYLDDKEELKVVNFLEMPETLDMLKLMNKYYKAGYISPEAATTTSTQDLMTSGNWFTDRAATQPFADNLWSQSYGYPVVSTPAGDANIFNWSVMGSMQAISANSKYPEKAMEFLNLLNTDVYLRNLVDSGIEGVHYKKLSENVMENLPESKNYDMPTFALGNVMLTYLNPEDPENKWEEFKKFNESGQPAPLLGFNFDPTKVSTELAAVNNVKEEFWAPLMTGTVNPEEFLPKANEKLKAAGLDKIIAEAQSQIDAWKASK	PGPT0017245_3247	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_01958	939	yteP_18	COG4209	putative multiple-sugar transport system permease YteP	GTGAGAGCAATCGGACAGTTTTTCAAAAATATTATGACGAATAAGGCCATGCTGTTCATGGTTTTGCCGGGGACCCTGTGGTTTCTCTTATTCTCATATTTGCCCATGTTCGGGACCATTATTGCATTTAAGGAATACCGCTTTAGCCGAGACGGGTTCTGGGCAAGTATCGTTAATAGTGAATGGGTAGGATTCCAAAACTTTAAATTCCTGTTCAGTACCAACGATGCTTACATCATTACGCGCAACACCGTTCTTTATAATTTCGTGTTCATCATATTAGGTCTCATTCTATCCGTAGCGCTGGCTATCGTATTGTCTGAAATCGTGAACAAGAAATTGGCGAAAGTCTATCAAACCGGCATGTTTCTGCCGTACTTCCTGTCCTGGGTTATCGTAGGTTATTTCGCATTCAGTTTCCTGAGCATGGATAAAGGGATGCTGAATCAGATTCTGGGCTGGTTCGGCATGGAGCCGGTTCAGTGGTATTCCGAAGCCAAGTATTGGCCGATATTCCTGACGTTGATCAGTTTGTGGAAATCCGTAGGTTATAACAGCGTCGTCTACCTGGCGGCGATCATGGGGATCGACAAATCCTTGTACGAGGCGGCGATGATTGACGGAGCGAACAAATGGCAGCAGATTAAAGCCATCACGCTTCCGATGCTGAAACCGCTGATGACCATTTTGACTCTTCTTGCGATCGGTAAAATCTTCTACGCTGACTTTGGTCTCTTCTATCAAGTGCCAAGGGATTCGGGAACCTTGTATTCCGTAACGAACGTCATTGATACCTATGTATATCGCGGTCTGAAAACAACGGGCGAGATCGGCATGAGTACGGCTGCGGGTCTGTACCAGTCGGTTGTCGGATTTATTCTGGTTATGGTATCCAACTATATCGTTCGTAAATACGACAAGGATAACGCATTGTTCTAA	MRAIGQFFKNIMTNKAMLFMVLPGTLWFLLFSYLPMFGTIIAFKEYRFSRDGFWASIVNSEWVGFQNFKFLFSTNDAYIITRNTVLYNFVFIILGLILSVALAIVLSEIVNKKLAKVYQTGMFLPYFLSWVIVGYFAFSFLSMDKGMLNQILGWFGMEPVQWYSEAKYWPIFLTLISLWKSVGYNSVVYLAAIMGIDKSLYEAAMIDGANKWQQIKAITLPMLKPLMTILTLLAIGKIFYADFGLFYQVPRDSGTLYSVTNVIDTYVYRGLKTTGEIGMSTAAGLYQSVVGFILVMVSNYIVRKYDKDNALF	PGPT0017250_1795	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_01959	918	araQ_23	COG0395	L-arabinose transport system permease protein AraQ	GTGTTCAAATCGAAAAGCAAGATGAAAGATTTCCATCAGCTTTCATCCGGGTGGAATGTCGTATTCAACCTGATTGCCGGTATTTTCTCGTTCCTGTGTGTATTTCCGTTCCTGTTCGTTATGATCATCTCATTTACAGACGAAGGCTCACTGGCCCGAAACGGATACCAAATCTGGCCGGAGAAATGGAGTCTTGAAGCTTACAAATACGTATTCCAGACAGGCGACACGCTTCTTCGTTCTTACGGCGTAACGATCTTTGTCACGGTCGTAGGTACGCTGCTCAGTCTGTTTATCATTTCGCTTTATGCTTATGCCATCTCCCGCAAAGGGTTCAGATACCGGAACTTCTTCTCGTTCTTCGCATTTTTCACGATGCTGTTCAACGGGGGTCTGGTACCGACTTATATCGTAGCAACGCAATTGCTGGGTCTGAAAGATTCCATCTGGGCTTTGATTCTGCCTTTGGCGCTCAATGCCTTCTATATCATGATTCTGCGTACGTTCTACAGCACCAGCGTTCCGGACGCCATCATCGAATCCGGTAAAATCGACGGTGCGAGCGAGTTTAAGATTTTCTACAAGCTGGTATTGCCGCTATCCCTGCCGGGTCTGGCTACCATCGGTTTGTTCAGCACGCTTGGGTATTGGAACGATTGGTTCAACGCATTGCTCTACATCGACGATCCGAACCTGGTTCCGCTGCAATCCATGCTCATGCGGATCGAAACCAGCATGCAGTTCATCCTGCAGAACTCGCAGAACTCATCCCTTAGCATGGCCGCTCTTCAGAGCATGCCGCAGGATACTTCGCGGATGGCAATGGTCGTTCTGGCAACCGGTCCGATTATTCTGGCCTATCCGTTCTTCCAGCGCTACTTCATTCAAGGTCTGACCATCGGCGCGGTTAAAGAATAA	MFKSKSKMKDFHQLSSGWNVVFNLIAGIFSFLCVFPFLFVMIISFTDEGSLARNGYQIWPEKWSLEAYKYVFQTGDTLLRSYGVTIFVTVVGTLLSLFIISLYAYAISRKGFRYRNFFSFFAFFTMLFNGGLVPTYIVATQLLGLKDSIWALILPLALNAFYIMILRTFYSTSVPDAIIESGKIDGASEFKIFYKLVLPLSLPGLATIGLFSTLGYWNDWFNALLYIDDPNLVPLQSMLMRIETSMQFILQNSQNSSLSMAALQSMPQDTSRMAMVVLATGPIILAYPFFQRYFIQGLTIGAVKE	PGPT0017255_604	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_01960	2298			Beta-xylosidase	ATGACTTATAAAGATCCCCGTAAACCCATTGCGGAAAGAGTGGAACATCTGCTTGGCCTGATGAACCTGGAGGAAAAGGTGGGGCAGCTGATCCAGCCGTTCGGCTGGAAGACCTATGAGGTGAATGAAGGTCAGATTACATTAACGGATTCATTTAAAGAGCAAGTTAAAAATGGCGGCGTCGGATCCCTTTACGGGACCCTTCGCGCCGATCCATGGACCGGTGTAACACTTGAGACCGGTCTTTCTCCGCGTGAAGGAGCGGAAGCCGTCAATCACATCCAGCGGTACGCCATTGAGCAGTCCCGACTTGGCATTCCGATCCTGATCGGGGAAGAATGCTCGCATGGTCACATGGCCATCGGCGGCACGGTCTTTCCGGTGCCGTTGTCCATCGGGAGCACGTGGAACTTGGATTTATACCGCGACATGTGCCGGGCCGTCGCGCTGGAAACACGCAGCCAGGGCGGCGCGGTCACCTATTCGCCGGTGCTCGACGTCGTGCGCGATCCAAGATGGGGACGTACCGAGGAATGCTTCGGTGAAGACCCGTACCTGATCAGCGAATATGCGGTCGCATCGGTTGAAGGCCTTCAGGGCGAGTCCCTGGACAGCCCTAGCAGCGTTGCGGCGACCTTGAAGCATTTCGTTGGCTATGGCAGCTCGGAAGGCGGGAGAAATGCCGGACCCGTGCACATGGGCACGCGTGAGCTGATGGAAGTGGACATGCTGCCGTTCAAGAAGGCCGTGGAAGCGGGAGCGGCCTCCATTATGCCCGCCTATAACGAGATTGACGGCGTGCCATGCACCGTCAATACGGAGCTGCTTGACGGCATTCTCCGCAAGGAGTGGGGTTTTGACGGCATGGTAATCACGGACTGCGGCGCCATCGATATGCTGGCCAGCGGCCACGATACCGCCGAAGACGGAATGGATGCCGCTGTGCAGGCCATCCGCGCCGGCATCGATATGGAGATGTCTGGCGAGATGTTCGGCAAGCATCTTCAGAAGGCTGTCGAGTCAAACAAGCTGGAGGTCTCCGTATTGGACGAGGCCGTACGCCGTGTATTGACGTTAAAATTCAAGCTCGGATTGTTCGAGAATCCTTACGTGGATCCCCAGACAGCCGAGAACGTGATCGGCAGCGAGCAGCATGTCGGGCTTGCCAGGCAGCTTGCGGCAGAAGGCATCGTTCTCCTTAAGAACGAAGCAAAGGCTCTGCCGTTATCCAAGGAAGGCGGCGTGATTGCCGTCATTGGACCTAATGCCGATCAGGGATACAATCAGCTTGGAGACTACACCTCTCCTCAGCCGCCGGCAGCCGTGACCACCGTGCTTGGCGGAATTCGCGCGAAACTGGGAGAGGAAGCGCAGCGCGTATTGTACGCTCCGGGATGCCGCATTAAGGACGATTCCAGGGAGGGCTTTGAATTCGCATTGACTTGTGCGGAACAGGCCGATACCGTGGTTATGGTGCTTGGCGGTTCCAGCGCCCGCGATTTTGGCGAAGGCACGATTGATTTGCGCACAGGGGCCTCGAAGGTCACGGACGATGCTTTAAGCGACATGGATTGCGGCGAAGGCATTGACCGGATGACGCTGCAGCTATCCGGCGTTCAATTGGATTTGGCGCAGGAGATCCATAAGCTTGGCAAGCGGATGATCGTGGTGTACATCAACGGCCGTCCGATCGCGGAGCCGTGGATCGACGAGCATGCCGATGCGATTCTGGAAGCATGGTATCCTGGACAGGAAGGCGGACATGCGATAGCGGACATTTTGTTCGGGGACGTGAATCCGTCCGGCAAGCTGACGATGTCGATACCGAAGCATGTCGGGCAGCTGCCGGTTTACTATAACGGCAAGCGGTCGCGCGGTAAGCGTTACCTTGAAGAGGATTCCCAGCCGCGTTATCCGTTCGGATACGGGCTAAGCTATACCGAATTCAGTTATTCGGATATTCAAATGACTCCAGAAGTGATCGGAACGGACGGTACGGCCGTTGTTTCCGTGAACGTTACAAATAGCGGTGACTGTGAAGGGTCCGAGGTTGTACAATTATACGTAAGCGATGCCGCCAGCAAATATACAAGACCCGCCCGTGAACTGAAGGGCTTCCAGAAAATTTCCCTGCAGCCCGGAGAGCGGCGCAAGGTGGAATTCACTATCGGTCCGGAACAGCTTCAATATATCGGTCAAGATTACCGGCAGGTGGTTGAACCCGGGCTGTTCCGTGTTATGCTAGGCAGGCATGTGAACGATACGCTTAGTGCAGATCTGACCGTACAGGAGGATTAA	MTYKDPRKPIAERVEHLLGLMNLEEKVGQLIQPFGWKTYEVNEGQITLTDSFKEQVKNGGVGSLYGTLRADPWTGVTLETGLSPREGAEAVNHIQRYAIEQSRLGIPILIGEECSHGHMAIGGTVFPVPLSIGSTWNLDLYRDMCRAVALETRSQGGAVTYSPVLDVVRDPRWGRTEECFGEDPYLISEYAVASVEGLQGESLDSPSSVAATLKHFVGYGSSEGGRNAGPVHMGTRELMEVDMLPFKKAVEAGAASIMPAYNEIDGVPCTVNTELLDGILRKEWGFDGMVITDCGAIDMLASGHDTAEDGMDAAVQAIRAGIDMEMSGEMFGKHLQKAVESNKLEVSVLDEAVRRVLTLKFKLGLFENPYVDPQTAENVIGSEQHVGLARQLAAEGIVLLKNEAKALPLSKEGGVIAVIGPNADQGYNQLGDYTSPQPPAAVTTVLGGIRAKLGEEAQRVLYAPGCRIKDDSREGFEFALTCAEQADTVVMVLGGSSARDFGEGTIDLRTGASKVTDDALSDMDCGEGIDRMTLQLSGVQLDLAQEIHKLGKRMIVVYINGRPIAEPWIDEHADAILEAWYPGQEGGHAIADILFGDVNPSGKLTMSIPKHVGQLPVYYNGKRSRGKRYLEEDSQPRYPFGYGLSYTEFSYSDIQMTPEVIGTDGTAVVSVNVTNSGDCEGSEVVQLYVSDAASKYTRPARELKGFQKISLQPGERRKVEFTIGPEQLQYIGQDYRQVVEPGLFRVMLGRHVNDTLSADLTVQED	PGPT0019110_3634	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
AK002_01961	3114			hypothetical protein	ATGGAACGTATTCGACGCTTTATACGCGAACTGTCGGAGCGGCAGTGGCTCGAATCGACGGAGCTTCGAGATTGGAACATTACCCGGTCCACTTACATGGTTCCGGGCGTGTACGAAGAGACGGCCCCTTATCCGGAGGGGCAGAACTTCAACAGGTTTCCGAGCACGCAGGGGACAACCTATTTCTTTAGGAGGAATCTTGAGTTACTCCCGCAATGGGCAGATGGAGCGCTTGGGCTCGTGTTTCAATCCGGGGGCGAGGGGCTGCTGCGCATTAATGGCGCGTCTTATCAGGGATTGGACCGGAATCATACTTTCGTTACGCTGGATCCGAAGCGCACCGGAATGAACATGGAGCTTGAGATCGAATTGTTCGATCCGATTCCGGAGCCGGTCGACCCGCTGAATCAGCAGGCTGTCATTCAGCCACCGATTACCCGCGTACAAAGTTTGCTTGTCCGCGTAAACGTGCCTGTCCAGAGCCTGATGTACACCGCTACCGTGATCCGGGATTCGCTTATCCTGCTGCCGGATACCGATATGCGGCGCATCCGTTTGATGGAGGCGCTGTATCAGGCCATGGATCGCTTCGTAGGCTTGAATGACGCTGCCATTCGGGATGGTGCCGAGGTAACCGCGATTGAGCATGATCTGAAACAGTCGGTCGCAGCCATAGGCGGCCATGCTGAAGGCACCGAGCATATGGTGGGCCAGTCCCATATCGACATCGCCTGGCTGTGGCCCGTTCGCGAAACCGTACGAAAAACAAGCCGCACCTTCTCCACGATGGATGCGCTGATGAACGAATATCCCGAATTCAAGTACGCTCAGAGTCAGCCGCTGCTGTACCAATTCCTGAAGGATCACGATCCCGAGCTGTACGAGAGAGTGAAGGCCAGAATCAAGGAAGGGCGCTGGGAGCTGGTCGGCGGGATGTGGGTCGAACCGGACCTGAACATTCCGAGCGGGGAATCCCTCATGCGTCAAATGCTGTACGGGCAGCGCTTCTATCAAGAAGAGTTTGGCCTGACATCGCAAATCGAATGGCTGCCGGATACGTTCGGATACTGTGCATCCCTGCCTCAAATCTTGAAGCATGGCGGCATTCATTATTTCATGACTACCAAGCTTGGCTGGAACGATACGAATGTGTTCCCGTACGATCTATTCCATTGGGTCGGGATCGATGGAACGCCGATGCTCTCCTATCTGAACCATGGCGTGAACGAGAACACGCTGCCGAAGGACGTTCACGAGCATTGGCAGTCGTACCGTCAAAAGGCCGTTCATCCGGAGCAGATGCTGCTGTATGGACACGGCGACGGCGGCGGAGGCGTAACTCGCGAGATGCTGGAATACATCAACCGGGCCGAGCTGATGGTAGGCCAGCCTGCCAGCAAATACAGCACGGCTGCCGAGTTTTTTGACGGGATCGACGCAGCTCAGCCGAAGCTGCCCAAATGGCGCGGGGATTTATACCTGGAGCTTCATCGCGGCACCTATACGACGCATGCACGAAACAAGCGCCATAACCGGAAAGCGGAAATCCTGTTCCGCGAGGCGGAGCTATGGAACTCGGTAGCTTTCCCGTCGATGGACAACGAGAAGAAGCAGGGCATCGCCAGCGAGCTGCATGACGGCTGGAAGCTGATTTTGCTGAATCAATTCCACGATATTATTCCGGGTTCCGCGATAACGGAATCTTACGTGACCTCCGAGAAGGAATACAAAGAGGTATTCCAAAAAGGAAATCATAGCCTGAATCTCGGGCTTCAGGTATTGGCGGACCAGGCCGATACAGAAGGGGAAGGCGTTCCGTATGTTATCTTTAACGGACTTGGATGGAGAAGAGACGCCGTCATCTCGCTAGAAGTAGAGCATGGTCTTACACCGTACGATTCGGATGGCTCGCCGCTGCCATTCGATGCCTTATCCGGAGAGAACGGCGAAACCTCGCAGCGCTTAAACGTTCATGTTCAAGGCATCCCGGCTTTGGGATACACAACCATCTGGTTGAAGCCTTCGGCAGGAAACGGAAAGGCAGCGGAGAAGTCTACTACAGTGTTCGCAGATTCTTGGGAAACGGATTTCTATAAGGTCAGCTTTAACGAGCGCGGCGAAATCACGAGCCTGTGGGATAAAGAAGCACAACGGGAAGTAATCAAGCCGGGCGAAGCCGCGAATCGTTTCCACTTCTTCCATGACCGTCCGACGCTGTGGGATGCGTGGGATATCGATACCCGCTACGAGGAGCAATCCGCCGGCGATGCCGAGTTGATCGAGAAGAAGCTGGTGTCTGCGGGCGAAGTCCAGGATGTGCTGCGTTTCCGCTGGCGCATTCATCAGTCGGAGATCACGCAGGATATGATTTTTTATCATCATGACCGACGGATCGACTTCAAGACGTTTGTCAGCTGGAACGAATCGCATAAATTGCTGAAAGTCGGTTTCCCGATCGGCGTCGTTGCCGAGAAGGCCACTTACGAGATTCCGTTCGGAACCATTGAGAGACCGACTCATCGCAATACGAGCTGGGAGCAGGCGCAATATGAAGTCTGCGGACACCGCTTCGCGGATGTGTCGGAGCATGGATACGGCGTCAGCCTGATCAACGACTGCAAATACGGATATGATGTTCAGGACAGCACGATCCGGCTGTCGCTGCTGCGCGCGCCGAAATGGCCGGATGTCACGGCGGATTTGGGAGAGCATGAGTTCACGTATTCCCTCTATCCGCATAACGGAGACTGGAGAAGCGCCGGAATCGTCCGCAAAGCAGCCGAGCTTAATCATGATCTGCCATGGGTGAGAACAGGTTCGAAGAAGGGTTCGCAGCCTGCCGTGCATTCGTTTATTCCTTTCGAGAGCGATCACGTTATCCTGGATACCGTTAAGCCGGCAGAAGACGGCACGGGGTACGTCCTTCGGATGTATGAGTCCGCGGGCGGCCGGGATGCGGCAACAGTGAGCTGGCCTTATCCTTGCGAAAGGGTCCATCGATCCAACGCCTTGGAAGAAGAACTCGAACAACTGGATATCGCGGAAGGAAGGCTAACCCTTCAATTCCTGCCGTACGAGATCAAAACCATCAAATTGACCACACAACATACTTAG	MERIRRFIRELSERQWLESTELRDWNITRSTYMVPGVYEETAPYPEGQNFNRFPSTQGTTYFFRRNLELLPQWADGALGLVFQSGGEGLLRINGASYQGLDRNHTFVTLDPKRTGMNMELEIELFDPIPEPVDPLNQQAVIQPPITRVQSLLVRVNVPVQSLMYTATVIRDSLILLPDTDMRRIRLMEALYQAMDRFVGLNDAAIRDGAEVTAIEHDLKQSVAAIGGHAEGTEHMVGQSHIDIAWLWPVRETVRKTSRTFSTMDALMNEYPEFKYAQSQPLLYQFLKDHDPELYERVKARIKEGRWELVGGMWVEPDLNIPSGESLMRQMLYGQRFYQEEFGLTSQIEWLPDTFGYCASLPQILKHGGIHYFMTTKLGWNDTNVFPYDLFHWVGIDGTPMLSYLNHGVNENTLPKDVHEHWQSYRQKAVHPEQMLLYGHGDGGGGVTREMLEYINRAELMVGQPASKYSTAAEFFDGIDAAQPKLPKWRGDLYLELHRGTYTTHARNKRHNRKAEILFREAELWNSVAFPSMDNEKKQGIASELHDGWKLILLNQFHDIIPGSAITESYVTSEKEYKEVFQKGNHSLNLGLQVLADQADTEGEGVPYVIFNGLGWRRDAVISLEVEHGLTPYDSDGSPLPFDALSGENGETSQRLNVHVQGIPALGYTTIWLKPSAGNGKAAEKSTTVFADSWETDFYKVSFNERGEITSLWDKEAQREVIKPGEAANRFHFFHDRPTLWDAWDIDTRYEEQSAGDAELIEKKLVSAGEVQDVLRFRWRIHQSEITQDMIFYHHDRRIDFKTFVSWNESHKLLKVGFPIGVVAEKATYEIPFGTIERPTHRNTSWEQAQYEVCGHRFADVSEHGYGVSLINDCKYGYDVQDSTIRLSLLRAPKWPDVTADLGEHEFTYSLYPHNGDWRSAGIVRKAAELNHDLPWVRTGSKKGSQPAVHSFIPFESDHVILDTVKPAEDGTGYVLRMYESAGGRDAATVSWPYPCERVHRSNALEEELEQLDIAEGRLTLQFLPYEIKTIKLTTQHT	PGPT0018760_748	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018760-mngB|ypdB|manA-K01191	NA	NA
AK002_01962	1320			hypothetical protein	ATGGAACAATTCAGACTCCCCAAAATACCAATGCCGGAGCTAGAGCTGCCGCAATCCATTCAGGCGGTTTTGCAAGAGGCCGAAGAAAAGCTGGCGCACCGTCCCAAGCTGCTTCAGCTGTTCAAGAACACGTTCCCGAACACGCTGGAAACAACCACCAAATTGATGGAGGATGGCACGACATTTGTGATCACCGGCGATATTCCGGCCATGTGGCTGCGCGATTCGGTAGAGCAAGTGATCCATTACATTCCGTTTGCCAAGAACGATCCGCAGCTTCAGCGGATTCTAAGCGGGTTGATCAAACGCCATTTTCAATATATTCATATCGATCCTTATGCCAATGCCTTCAATGAATCGGCCAACGACTGGCACTGGAACACGACCGACGAAACGGACATGTCGCCATGGGTATGGGAGCGCAAATTCGAGATCGATTCGCTGTGCTTCTCCGTTCGCCTGGCCTACCTGTACTGGAAGGAAACCGGCCTGACGGATGTGTTCGACGCCAACTTTAAGTCGGCTATGATCAAAATCATCGAGCTGTTTAAAACCGAACAGCACCATTTCGAGAAATCGCCTTACCGTTTCACGCGGGATAACGGAATTCCAACCGATTCCTTGCGCAACAACGGTCTCGGCATGCCGGTGAATTATACGGGCATGATCTGGTCGGGCTTCCGTTCAAGCGACGATGCCTGTGATTTCCACTACAACATTCCGGGGAACATGTTCGCCGTTGTGGCCCTTCGTCAAATGCAGGAATTCGCGGAATGGGTATTCCGTGACATGAAGCTGCTGGATGAATTGAAACGACTTGAAGCTGACGTGGATCACGGAATTCAGCTGTACGGCATCTATCGTCATCCGGAGTTCGGACCGATCTACGCCTATGAAACGGACGGTTACGGAAATTACTGCCTGATGGATGATGCGGGCACTCCAGGATTGATGTCCATTCCTTATCTGGGGTATTGCTCCGCGGATGATCCAATCTACCAAAACACCAGACGGTTCGCGCTCAGCAAAGAGAATCCTTTCTACTACGAGGGCGCTGTTGCCAAAGGCATCGGCAGTCCGCATACGCCGCCGGATTATATCTGGCATATGGCCTTGTCCATGCAGGGAATTACGGCACAGACGGCAGAAGAGAAGCTGGAGATGATTGCGCTGCTGGAAGCGACCGATGCCGATACCGGCTTCATGCATGAAGGATTCCATGCCGACGATCCGAAAGTCTTCACCAGATCGTGGTTTGCCTGGTCCAACAGCCTGTTCTCGCAATTGGTGTATCAGGCGATGAAAGCAGGGATTCTATGA	MEQFRLPKIPMPELELPQSIQAVLQEAEEKLAHRPKLLQLFKNTFPNTLETTTKLMEDGTTFVITGDIPAMWLRDSVEQVIHYIPFAKNDPQLQRILSGLIKRHFQYIHIDPYANAFNESANDWHWNTTDETDMSPWVWERKFEIDSLCFSVRLAYLYWKETGLTDVFDANFKSAMIKIIELFKTEQHHFEKSPYRFTRDNGIPTDSLRNNGLGMPVNYTGMIWSGFRSSDDACDFHYNIPGNMFAVVALRQMQEFAEWVFRDMKLLDELKRLEADVDHGIQLYGIYRHPEFGPIYAYETDGYGNYCLMDDAGTPGLMSIPYLGYCSADDPIYQNTRRFALSKENPFYYEGAVAKGIGSPHTPPDYIWHMALSMQGITAQTAEEKLEMIALLEATDADTGFMHEGFHADDPKVFTRSWFAWSNSLFSQLVYQAMKAGIL				NA	NA	NA	NA	NA
AK002_01963	3141			hypothetical protein	ATGAGCGGGCGCCTGATTGTATTCTATGATCCGTCCTTTCCGGCAGCAGAAGCTGCCGGTTTGCCGGCTAGCGCCGCGGCTCTGAATGCATTTGATGCGGTATGCAGCGCCGAGGACCTCGCTGAAGCGCTGGCATCGTCAGGCGGACAAGGTGCAAGCTTTGTCAATTTGCACGCGCCTTATTTTCCGAAATCCGCCTGGAGAGCGATTCTGGACTTCCTGAGAAACGGCGGCGGCCTGGTCAGCGTTGGCGGCGCACCCTTCAAGCGTCCTGTCCGCAAAGAGGACGGCGCTTGGGTGGTGGAGCACGAACAGACGGCGTATCACCAGCAGCTTCATATTCATGAGGTGCTGCCTGTGGACAGCGGGCGTGTCGATCATTTGATTGCAAGCGACGTTATACCGCTGATGGAGAGCAGCCGGGAACGGTTAACCGTCAGCGATACATGGAATTTGGTTCCGCATGTCACCAAGAGCAGTGATCTGCCTCACCAAATGGGATCGGCCGGGCCGATGGATACCCGGATTTATCCGCTCCTTAAGGGAAGCACGGCGAACGGGAGAGAGGTCGCCGCTCCGGTTGTTCTATGGGAAAATGTCGGCGGACCTTTCTTGGGCGGACGCTGGCTGTTTGTGAATCAGCCACTCACCGCTTCCTTCTGGGAACAGGATGGAGGAGCAGAGGTGCGCCGCTGGGCGGCATTCTGCGCGAAGGGGATTACCGAGCTGTGGATCAAGCCGAATTATGCGACCTACGAGTCCGGCGAGCGCGCGATTCTGACCCTGCAGGCGCAAAGGCTTGGCCGGGGCCTGCCGGTTCATGAGCCGCAGAGCTGGACGTTCCGCATCTCTGTCAAGCACGACGGGGATGAATCTTCCGAATGGAATCATACCGTTACCGTGGACGTGAACGGGCAATTTTATGTACAGCGCATCCCGGTTGCACTCGATATCAAGCCGGGAGCTTATCGCGTGGTGTGCGAAGCCGAAGGGCCGGACGGAGAAATCCGCAGGCTGAGACAAGGCTTCTGGGGAGCTGATCCGCAGCTGCTGCAGGCAGGCTCGCCCGTAACCTGCAACCGGGATTACTTCATCAAGGACGGCCGTCCGCTGCCGGTTGTCGGCATGACGTACATGACGTCCGATGTCGCGCGTAAATTCCTGTTCCTTCCGAATACGGATGTATGGGATCGTGATATGGCGCAAATGCGGGGGGCCGGCATCAACTGGATCCGCACCGGCATTTGGACCGCTTATCGCAATATTATGCAGGTGGACGGGCATGCATCCGAGGAGGTTATGCGTTCGATTGACGCCTTCCTGTTAACGGCGAAGAAGCATGATCTGCAGGTAACGTTTACCTTCTTCTCCTTCACGCCGGAGACATGGGAAGGCCAGAATCCTTACCTCGATCCGCGAAGCGTGGAAGCGCAGAAGCGTTTCATACGTTCCATCGTGACAAGGCACAAAGACACAAAGAATGTGGACTGGGACCTGATCAACGAGCCTTCCATGTTCGATCCGCCGCAAATTTTCTCGGACGGTCCGCGTTCGGCGAAGGATCCGTTCGAGCGGCAGGCTTATGTCGATTGGCTGAAGAAGCGTCACGGCTCGATTGAGCGTTTACAGGAACGCTGGAACATGACGGCCGATCAGCTGCCGGGTTTTGACTCCGTGGTTCCTCCGGAGCCTCAAGCCATTAATTTTGACGTTCAAGACATGCACCAGGGGAAAAAAGGCGGGCAATGGCTCGATTATGTATTGTTCTCCATGGATATTCATAACCGCTGGGCCAAGGAATTATATGAAGATATCAAGGCGGTGTGCCCGGACCATATGGTGACCGTCGGACAAGACGAGGCGCTTGGCGCACAGCGTCCATCCCCGTTCTTCTATGCCGAAGCCGTGGACTATACGACGGTTCACTCCTGGTGGTTCAACGACTATTTGATCTGGGACGGCATCTTTGCCAAAACGCCGGATAAACCGAACCTGATTCAGGAAACGGGCATTATGTACGTGGAAACACCGGACGGCCGGGCGAAGCGGAGCGAAGCCGAGCTTCGGAACCTGCTGGAGCGCAAATATGCTTACGCCTTCTCTACCGGTGGCGCAGGAGCCATTCATTGGATCTGGAACACCAACTTCTACATGGATAATGCCAATGAATCGCATATCGGAGCTGTCCGCGCCGATGGCACGGAGAAACCGGAAGCGGATGTATCGTATGATTTCGGCTCCTTCATGGAAGGCATCCGGGATTTGTTTGCAGGCCGGAAGCTTGAAGAGACCGCGGTCATCTTCCCTTATTCCAACGATTTCTCCAACCGGAAGCTTGCTTTTGAAGCGACGACGAAGGCGACGCGCGCGCTTGCTTACGAGCTGAACGTGCCGTTCCGTGCCGTTGGGGAATATGATTTAAGCTCGCTGCGCAGCAATCCGGCGAAATTCATCATTCTGCCGAGCGCCCACAATGTGGATGATCAGGCGTTCGCCGAATTGATAACGATCGTAGAGGAAACGGGAGCCACGCTGCTCCTGACCGGTCCGATCGGTCTGGATGCTTACTGGCATCCGGTTGATCGCATGGCCGCAGAGCTGGGCGAACGCAAGCTGGCAAATGTGCGCCGGGAAGAAAGCTTGCGCTTAGGGGATCGTGCATGGCCCGTTTCATATGGTCATCGCAAGATTGCCGAGCTGAGCAAAGAAATTCCGGCAGGCAGCGGGGCTAAACCGGCAGACGCAGCCGGCGACTCGCTCGTGGACGTGAAGCTTGGAGAAGGACGTCTGCTCTGGAGCCCGCTTCCGGTGGAACTGAACGACCGGATCGACGCCATTTCCGCTTTGTACCGGCATGCATTGGAGTTGTCCGCAGCCGACACGGGACTGATCTGGAATCAAGGCGGAGAACATTCCGGCGTATACGGGCGCAAAGTAACGTTTGAAGAAGGAGCCCTCTTCGTCTTCGGCTCAGAGCAATCGTGGGATGCGAACGTCGAGGTGAAGGATCCTTCAACCGGCCTTATCTATTCATTCGTGCTCGAGGCGGATCGTTCGATCTTGTTCGCAGTGGATGCGAGCGGCGACCTGTTATCGGTGTACCGTCCGGATGAAGTCGAAATCACCGTATCGAAAGGCTAA	MSGRLIVFYDPSFPAAEAAGLPASAAALNAFDAVCSAEDLAEALASSGGQGASFVNLHAPYFPKSAWRAILDFLRNGGGLVSVGGAPFKRPVRKEDGAWVVEHEQTAYHQQLHIHEVLPVDSGRVDHLIASDVIPLMESSRERLTVSDTWNLVPHVTKSSDLPHQMGSAGPMDTRIYPLLKGSTANGREVAAPVVLWENVGGPFLGGRWLFVNQPLTASFWEQDGGAEVRRWAAFCAKGITELWIKPNYATYESGERAILTLQAQRLGRGLPVHEPQSWTFRISVKHDGDESSEWNHTVTVDVNGQFYVQRIPVALDIKPGAYRVVCEAEGPDGEIRRLRQGFWGADPQLLQAGSPVTCNRDYFIKDGRPLPVVGMTYMTSDVARKFLFLPNTDVWDRDMAQMRGAGINWIRTGIWTAYRNIMQVDGHASEEVMRSIDAFLLTAKKHDLQVTFTFFSFTPETWEGQNPYLDPRSVEAQKRFIRSIVTRHKDTKNVDWDLINEPSMFDPPQIFSDGPRSAKDPFERQAYVDWLKKRHGSIERLQERWNMTADQLPGFDSVVPPEPQAINFDVQDMHQGKKGGQWLDYVLFSMDIHNRWAKELYEDIKAVCPDHMVTVGQDEALGAQRPSPFFYAEAVDYTTVHSWWFNDYLIWDGIFAKTPDKPNLIQETGIMYVETPDGRAKRSEAELRNLLERKYAYAFSTGGAGAIHWIWNTNFYMDNANESHIGAVRADGTEKPEADVSYDFGSFMEGIRDLFAGRKLEETAVIFPYSNDFSNRKLAFEATTKATRALAYELNVPFRAVGEYDLSSLRSNPAKFIILPSAHNVDDQAFAELITIVEETGATLLLTGPIGLDAYWHPVDRMAAELGERKLANVRREESLRLGDRAWPVSYGHRKIAELSKEIPAGSGAKPADAAGDSLVDVKLGEGRLLWSPLPVELNDRIDAISALYRHALELSAADTGLIWNQGGEHSGVYGRKVTFEEGALFVFGSEQSWDANVEVKDPSTGLIYSFVLEADRSILFAVDASGDLLSVYRPDEVEITVSKG				NA	NA	NA	NA	NA
AK002_01964	2736	mngB	COG0383	Mannosylglycerate hydrolase	ATGGACCAATCCAGAAAGGCACATATCATTTCTCATACTCACTGGGACCGCGAGTGGTATTTGCCGTACGAAAAGCACCATGTGCGGTTAATCGAGCTGATGGACAGCTTGCTTGAGACGATGGAAAAGGACTCGGAATACCGCAGCTTTTTCCTTGATGGCCAGACGATTATTATCGAAGATTATTTACAGGTAAGACCTGAGAAAAAAGAACAGCTGGAGAAGCTGATCACGGACGGCCGCATCATCATCGGTCCTTGGTACATCCTGCAGGATGCGTACCTGACGAGCAGCGAAGCCAACGTGAGAAATATGCAGATCGGGCACCAGGATGCGAAGCGGTACGGCACGGTTGCCAAAATCGGGTATTTCCCGGATACGTTTGGACTTACGGGCCAAATCCCGCAGCTGATGCTCCAGTCCGGCATCGATAACGCCTTTTTCGGACGGGGCGTGAAGCCGACGGGCTTTAACAATACCGTCTCCGACAGCGGCTATGAATCTTCGTTCTCCGAGCTGATGTGGGAAGGTCCGGACGGCTCCAAGGTGCTGGGCATCCTGTTTGCCAACTGGTACAGCAACGGCAACGAGGTACCCGTGGATGAAGCCGAGGCGAAGGCGTTCTGGGACCGCAAGCTGGCGGATGCCGAGAAGTACGCTTCGACGCCTGAGCTGCTGTACATGAACGGTTGCGATCATCAGCCGATTCAGACCGATCTTCCGGAAGGCATTCGTACAGCGAAGAAGCTGTATCCGGATACGGAGTTTATCCACTCCAATTTCGACGATTACCTGAAAGCGGTCCGCGAGAAGCTGCCGCAGGATCTTTCCTCCGTCAAAGGAGAGCTCCGCAGCCAGCGCACCGATGGATGGGGAACGCTCGTGAACACCGCTTCGGCGCGCGTATACCTGAAGCAGATGAACCAGCGCGGCCAGACTCTGCTGGAAAAAGTGGCCGAGCCGCTGGCATCCTACGCCAGCCTGCTTGGCAAGGAGTATCCGCATCATCTGTTCACCTATGCGTGGAAGACGCTGATGCAGAATCATCCGCATGACAGCATCTGCGGCTGCAGCGTGGACGAAGTTCACCGCGAGATGGTCACCCGCTTCGAGAAAAGCGCCCACGTGGCGGAAAATATCGTGGACGACAGCGTGCGCGTCATCGCGGATGCGGTGGACACAACCGCATTCGAGCAATGGGGCACCGATCCGCTGCCGCTGGTCGTATTCAATACGACCGGATGGGAACGCAGCGGTACGGTCAGCATCGAGCTGGACGCGAAACGCCTCTATTTCCGGGAAGGCTATTCGCTTGAGGAAACCAGCCGCCGGATGAAGGAAGTCGACTTGTCCGGCCGCGTGCTGGTTAACGCTCAAGGTCAAGCCGTGCCTTGCACCGTAGAGGACCTGGGACTTCAGTTCGGGTACGATCTGCCGGACGACCGTTTCCGCCAGCCGTACATGTGCCGCCGCGTGAGACTGACTTTCGAGGCAAGCGACATTCCTGCCATGGGCTTGACTGCCTATGCTTGGGTGAAGAGCGAAGTGAAGCCTGCCGAGACGGGATCCCTGATCAGCCAGTCGAACGTGTTGGAAAATGACCTGATCAAGGTCGAAATCCAAGCGGACGGTTCCTTCTCCCTGACGGATAAAAAGAACGGACAAGTATACCGCGATCTGGGCGTTTATGAAAATACCGGAGACATCGGTAACGAATATATGTACAAACAGCCGGACGGTGAAGTTCCATTGACAACCAAAGGACTGACCGCCGAAATTACGGTTCTGGAAGACACGCCTTACCGGGCATCCGTTGAAATCGTTCATAACTGGTCCATTCCGGCTATGGCGGACAGTAAGCTGGATGAAGAGCAGCATGAGCTTGTGTATTATCCGAACCGCAAAGCGCAAAGATCGAGCGAGATGGTGCCGATGCGCATACGTACCGTGGTCAGCTTGAACCGCAGCGGCAAAGGCGTGGAGATCGAAGCCACGTTGGATAATCAGGCGAAGGATCATCGGGTGCGTGCTTTGTTCCCGACCGATCTGGAGGCATCTTCCCATTACGTGGATTCCATGTTCGAAGTGGCGAAACGGGATAATGAACCGGCTGCCGAATGGGAGAACCCGAGCTACACGGCTCATCAACAGGCCTTCGTGGACGTTACGGCGGCTGCGGCAGGACTGACGGTGGCCAACCAGGGCTTAAACGAGTACGAAGTCCTGCGGGACGGTCGGAATACGATTGCCGTTACGCTGCTTCGCTCCGTAGGCGAGCTCGGCGATTGGGGTTACTTCCCGACGCCTGAAGCCCAGTGCATCGGCGTTCATACGGTACGTATGGAGGTCATTCCGCATCAGGGCGACGGCATCGCTTCCGGCGCTTATGCCGAGGCTTACCAGTTCCAGATTCCATGGACGGCTGCCCAGACCGGCGTTCATACCGGACAGGTGGCTTCCACCTCCGCGCCGCTGGCATGGAGCCGCGAAGAGCTTGCATTCTCTTCCCTGAAAGTGAATCCGAACACTGGGGACTTGATGCTGCGCTGGTTCAATTTGGCAGGCACAGATGCTGAGCTCGCGCTGACATCTTCCCTTCCGTCCCAGGGCGTGTACAAGAGCAATATCCTGGAGGAAGAGGGAGCGGTTCAAAGCTTTGACAATCATGGAAGCTTTACGCTGCCGGTGAAACCTTATGAGATCTTGACGCTGGGCGTTAAAGTTTCGGCCGAGTAA	MDQSRKAHIISHTHWDREWYLPYEKHHVRLIELMDSLLETMEKDSEYRSFFLDGQTIIIEDYLQVRPEKKEQLEKLITDGRIIIGPWYILQDAYLTSSEANVRNMQIGHQDAKRYGTVAKIGYFPDTFGLTGQIPQLMLQSGIDNAFFGRGVKPTGFNNTVSDSGYESSFSELMWEGPDGSKVLGILFANWYSNGNEVPVDEAEAKAFWDRKLADAEKYASTPELLYMNGCDHQPIQTDLPEGIRTAKKLYPDTEFIHSNFDDYLKAVREKLPQDLSSVKGELRSQRTDGWGTLVNTASARVYLKQMNQRGQTLLEKVAEPLASYASLLGKEYPHHLFTYAWKTLMQNHPHDSICGCSVDEVHREMVTRFEKSAHVAENIVDDSVRVIADAVDTTAFEQWGTDPLPLVVFNTTGWERSGTVSIELDAKRLYFREGYSLEETSRRMKEVDLSGRVLVNAQGQAVPCTVEDLGLQFGYDLPDDRFRQPYMCRRVRLTFEASDIPAMGLTAYAWVKSEVKPAETGSLISQSNVLENDLIKVEIQADGSFSLTDKKNGQVYRDLGVYENTGDIGNEYMYKQPDGEVPLTTKGLTAEITVLEDTPYRASVEIVHNWSIPAMADSKLDEEQHELVYYPNRKAQRSSEMVPMRIRTVVSLNRSGKGVEIEATLDNQAKDHRVRALFPTDLEASSHYVDSMFEVAKRDNEPAAEWENPSYTAHQQAFVDVTAAAAGLTVANQGLNEYEVLRDGRNTIAVTLLRSVGELGDWGYFPTPEAQCIGVHTVRMEVIPHQGDGIASGAYAEAYQFQIPWTAAQTGVHTGQVASTSAPLAWSREELAFSSLKVNPNTGDLMLRWFNLAGTDAELALTSSLPSQGVYKSNILEEEGAVQSFDNHGSFTLPVKPYEILTLGVKVSAE	PGPT0018760_1744	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018760-mngB|ypdB|manA-K01191	NA	NA
AK002_01965	1917			hypothetical protein	ATGAAGATTTATTTTGATAACCTGCCGGAGAAGCTGCTTGAAGGGGTTGGCGAGCTCTCGGACATATTGGATATCCGAATTACGGAGGGAGAGGGCCTAAAGATTCGGGTCATACAGGCTCCAGGACCGATCCAGTTATCATTAAAGGATGGGCAGGGGACGATCCGATACCAGGAGAAGATTCATTTTTTTCGTGCTTTAGGGGTGTTTCTGGAGCAGGCGAGGGAGCGTGACCGGTTCGAGCTGACCGAGGAGCCCAGGTTTGACTTCAACGGCACGATGCTTGACGTTTCGCGCAATGGCGTGCTTAAGGTTCCGGTGATCAAGCAGTTTATCCGCTATATGGCTTTGATGGGGCTGAACGGGCTGATGATGTATACCGAGGATACGTACGAGGTGAAAGAGCAGCCGTATTTCGGTTATATGCGCGGCCGGTACACGGCTTCGGAAATGAGGGAATGCGACGATTACGCGGACCTGTTCGGCATCGAGATGATTCCGTGCATCCAGACCTTGGGGCATCTGCAGCAAGCGTTGAAATGGGGCTATGCCGCGGATATGAAGGATCATGCGGATATTTTGCTCGCAGGTGAGCCCAAGACGTATGCTTTCATCGAACAGATGATCACCACCGCATCCCGGATGTTCCGTTCCAAGCGGATTCACATCGGGATGGACGAGGCGTTTCAGGTCGGCCTTGGCAAGTATTTAAAATTGAACGGGGTCCAGGACCGGTTTCAGATTATGAATGACCATGTCAGCCGGGTGCTTGCCATTACCGAGCGTCTCGGACTCCGGCCGATGATCTGGAGCGACATGTATTTTAATTTGCTGGCCAACGATTATCAAGGTTCGCTGTACAATCTGGATGCGGATTTTTCCGACGACAATATGAGCCGCATTCCCCAAGGCGTCCAATTCGTATATTGGGATTACGGACGCAGGGATGAAGAGGGGTATGAGCGGCTGTATGATAAGCATATGAAGCTGGGCTCCAAGCCGATTTTTGCTGGCGGCATTCATATGTGGAACAGCATCAGTCCGAACAACGGCAAGACCTGGATGACCAGCCATCCTGCCCTGCGCGCCGCCAAAACGAAAGGGATCCGCGAAGTCATCGCCACCGCCTGGGGGGATAACGGAAACGAAACCAATCACCTGGTCATCCTGGCGGGCCTCCAGCTGTTTGCCGAGCATGGGTACGGAGACGGTATCAGCGACGAGCTTCTGGCAAGAAGGCTCGCGGCTTGCACGGGCATCGATTTGTTCGGATCGCTGAACGCGCTGAAATATATGGATGAGGTTCCCGGCGTGTCGGAGGGAAATCACTGGATGGCCAATCCCTCGAAGTATTTGTTGTGGCAGGATCCTTTGCTGGGACTGCTGGACAAGCATGTGGAGGGGGAAGCGGACTCCGTGCTGCCTGGACATTACGCCGAGCTGGAGCAGAGATGGCGGGACTGCAAGGAACAGTACCCGGCACCGTTTAACCGCCTTTATGATTTCTATGAAAAATTGGCCTCGGTCCTCGTTATCAAGAGCACCCTGGGCGTTAAGTTGAAAAGGCTCTACGACACAGGCAACAAAGACCGGCTTGCTGAGCTTGCTTCCGCAGCGGATTCTCCGTTAAACGACCTGAAGCGGCGCATCGAGACATTGCGTTTATCCCACAGGGCGCTTTGGATGAGCACGTATAAGCCATTTGGCTGGGAAGTGCTGGATCTCCGCTACGGCGGGCTTCTCGCGCGAATCTCCTCTACGCAGGACCGCCTTTCGGATTATGTGGGAGGCGTAGTCGAGGAAATCGAGGAACTGGAAGCCGACCGGATGCTCTTCGACCAGAATGGTCTAACCGACAGACCGCTTGAGGTTAATGTAACCTATCAGGCGGCCGTGACGGCGTCGAGCTTCATCTAA	MKIYFDNLPEKLLEGVGELSDILDIRITEGEGLKIRVIQAPGPIQLSLKDGQGTIRYQEKIHFFRALGVFLEQARERDRFELTEEPRFDFNGTMLDVSRNGVLKVPVIKQFIRYMALMGLNGLMMYTEDTYEVKEQPYFGYMRGRYTASEMRECDDYADLFGIEMIPCIQTLGHLQQALKWGYAADMKDHADILLAGEPKTYAFIEQMITTASRMFRSKRIHIGMDEAFQVGLGKYLKLNGVQDRFQIMNDHVSRVLAITERLGLRPMIWSDMYFNLLANDYQGSLYNLDADFSDDNMSRIPQGVQFVYWDYGRRDEEGYERLYDKHMKLGSKPIFAGGIHMWNSISPNNGKTWMTSHPALRAAKTKGIREVIATAWGDNGNETNHLVILAGLQLFAEHGYGDGISDELLARRLAACTGIDLFGSLNALKYMDEVPGVSEGNHWMANPSKYLLWQDPLLGLLDKHVEGEADSVLPGHYAELEQRWRDCKEQYPAPFNRLYDFYEKLASVLVIKSTLGVKLKRLYDTGNKDRLAELASAADSPLNDLKRRIETLRLSHRALWMSTYKPFGWEVLDLRYGGLLARISSTQDRLSDYVGGVVEEIEELEADRMLFDQNGLTDRPLEVNVTYQAAVTASSFI	PGPT0012150_1867	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
AK002_01966	162			hypothetical protein	ATGGATATCCATTCGAATGAATACAAAATCGCTGCGCTCAACGGAAATGAAGGCACTTTGAAGGCAATTGAAGACGCCGAAACCAAAATTGCCGAGCTGACGGGCAAAGAGATCACGCTGATTGCCTACGAGAAAGAACAAACACAAGGGGAGAAGCCATAA	MDIHSNEYKIAALNGNEGTLKAIEDAETKIAELTGKEITLIAYEKEQTQGEKP				NA	NA	NA	NA	NA
AK002_01967	384			hypothetical protein	ATGATTCAATTTGAAGGACTGCACCATGTGAGCTTGGCGGTGCGCGACTTGGAGAAGGCGAAGTTTTTTTACTCGGACGTTCTCAAGTTTCGGGAGCTGCCGCGCCCGCCGTTTGATTCGAAAGGGGTATGGTATGCCGTCGGGAACCAGCAGCTCCATCTGCTGGAGCATCCCATCAGCGATACACTGCGGGAACGGGGCATCGATACAACGGACGGACATTTCTCGATCTGGGTGAAGAGCTACCGCGAAACCAAGGAATGGCTGGACCGGATGAACGTCGAGTATGTAGCCAAACCCGACAGCGTAGCGGGCTTCGCCCAGATATTCGTGCTCGATCCGGACCGCAACATTATTGAATTCGGAGCCGAGTACGGCTCGTAA	MIQFEGLHHVSLAVRDLEKAKFFYSDVLKFRELPRPPFDSKGVWYAVGNQQLHLLEHPISDTLRERGIDTTDGHFSIWVKSYRETKEWLDRMNVEYVAKPDSVAGFAQIFVLDPDRNIIEFGAEYGS				NA	NA	NA	NA	NA
AK002_01968	312	ykuD_2	COG1376	Putative L,D-transpeptidase YkuD	GTGGCCACCGGCAAAAAACCCTCCTATACGCCGGAAGGACTGTTCAAAATCCACGAAAAAGTGAAGAACAGACCGTACTACAAGGAAGGCATCAAGGGAGGAGATCCGCGCAACCCGCTTGGGGACCGCTGGCTCGGCATTAATGTGAAAGTGAACGGCCGAACCAGTTACGCTTATGCCATCCACGGCAACAACAACGCGAATTCGATCGGAAAGTACGTATCCGCGGGTTGTATCCGGATGCACAACAAGGACGTGCGATGGCTCTACGACAAAGTAAAAATGAACACCCCCGTCCTCATCCAAAAATAA	MATGKKPSYTPEGLFKIHEKVKNRPYYKEGIKGGDPRNPLGDRWLGINVKVNGRTSYAYAIHGNNNANSIGKYVSAGCIRMHNKDVRWLYDKVKMNTPVLIQK	PGPT0023765_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023765-ynhG-K19234	NA	NA
AK002_01969	627	yfiR		putative HTH-type transcriptional regulator YfiR	ATGTGTCCAAGGGTCAGCGACGAATACAAGCAGCAGAAAAAGCTTGAAATCTTGGGAGCAGCCAGGCGCGTCTTTATTAGGAAGGGCTATACCCGCACCGTGATGCAGGACATCATGGAGGAAGCCGGCATGTCCCGCGGTGCCGTGTACGCGTATTTTGGCAATGTGGAGCATGTTTTTCTGGAGGTTCTGCGTTATGACGATCAGGAGGCGCTCCGTTTTTTTGAACCGGATTCGCCACATTCGATATGGAAGCAAATGTTGGACTGGATCAAGAAACAGCAGGAGGACATCTCGCTGATCCATCACTCGCTTGTACTCGCCAGGGCGGAATACTTCCTGTCTTCCTCTTATGATCATGCGAAGCAAGGAGATCCCTATATTACCGAGCGCTATCAGATTACGGTTGAGGCTCTGTGCGGGGTCATCCGGAAGGGGCAGGAGCAAGGGGAGTTTCGGCCGCGTCTGGAACCGGAAGCCATCGCACGGTACATGATCTCGTTTCTCAACGGACTCATGCTGGATACCTTCCAGCTTGGGGCTGGGGTGACTTGCGTGCCGGAGCAGCTGGAGTCTTTCCTCTACTCTCTCGGCGAAATGCTAAATCCGATAACCATTGAATCATGA	MCPRVSDEYKQQKKLEILGAARRVFIRKGYTRTVMQDIMEEAGMSRGAVYAYFGNVEHVFLEVLRYDDQEALRFFEPDSPHSIWKQMLDWIKKQQEDISLIHHSLVLARAEYFLSSSYDHAKQGDPYITERYQITVEALCGVIRKGQEQGEFRPRLEPEAIARYMISFLNGLMLDTFQLGAGVTCVPEQLESFLYSLGEMLNPITIES				NA	NA	NA	NA	NA
AK002_01970	540	speG		Spermidine N(1)-acetyltransferase	ATGCTGTTTGATTCTGCTAGATTGTCTTGTCGAAAAATGACCATGGATGACGCGGAGCTGTATCATACCTGGCGAAATGACCTGGAAGTGATGCAATCCACCAGTCCCAGCTTGGATACTTACCAAATGGAGGAGACCAAGGACTTCGTTCAGCATGTGATCCTCGGCACTCCGTCCTCGAAGAGCTATCTGATCCAGGCGAAGGAATCAGGCCAACCGATCGGCATCATGTCGTTGGTCGGCATCGATTTCAAGAATCGCAATGCGGAGTGCATCATCGACATCGGCGATAAAAATTATTGGGGCAGGGGATACGGCTCGGAAGCGATGGAGCTGCTGCTGGATTATGCCTTTTCGGAGCTGAATCTGCACCGGGTAAGCCTGCGGGTGTTCTCCTTTAACCATAAAGCGATCAAGCTGTATGAAAAAATCGGCTTCGTCCACGAAGGCAGCTCCAGACAGAGCTTGTACCGGAACGGTGCCTGGCATGACATTGTGCACATGGGGCTTTTGCAGAGCGAGTATACCGCCAACGGTTGA	MLFDSARLSCRKMTMDDAELYHTWRNDLEVMQSTSPSLDTYQMEETKDFVQHVILGTPSSKSYLIQAKESGQPIGIMSLVGIDFKNRNAECIIDIGDKNYWGRGYGSEAMELLLDYAFSELNLHRVSLRVFSFNHKAIKLYEKIGFVHEGSSRQSLYRNGAWHDIVHMGLLQSEYTANG	PGPT0007790_796	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
AK002_01971	786	lnrL_3	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGTCCGAAAATGAAGTGTTATCGATTGAAGACCTGCGCATGAAATATGATAACCGTTATGTATTGAACGGGATCGATCTGAAGGTCAACCGCGGCGAGATGATAGGATATATCGGTCCGAACGGGGCGGGAAAGAGCACGACGGTTAAAATTATGCTTGGGCTGGTTGAAGGGTATACAGGAACGGTCCGCATATTCGGCCAGGATATTTCCGACGGGAATATCGATTATAAACGGAGAATCGGGTATGTGCCCGAGGTGGCGGAATTATACGATCAGTTAACGGCCGCGGAATATCTGACTTTTATTGGCGAATTGTACGGACTTACATACGATGCTGCGGATTATAAGGCCAAACATTTGATGGACTGCTTTGACTTGGAAAAGGCTTACCATGCTCGGATCGCCACGTTTTCAAAAGGAATGCGGCAAAAGGTGCTGCTCATCTCGAGTCTCCTGCATGATCCGGATCTTTTGTTCCTTGATGAGCCCTTAAGCGGGCTGGATGCAAACAGCGTGATGGTGGTCAAGGAGGTGCTGGCGCAGCTGTCGGCACAGGGCAAGACGATTTTTTATTCCTCGCATATCATGGACGTCGTCGAGAAAATCAGCAGCCGGATCGTTCTGCTCGCAGACAGCCGGGTGGTGGCGGACGGAACGTTCAAAGAGCTGCAGCAGCATTCCCATGAAGGGTCGCTGGAAGAGGTGTTCAATCAGCTGACGGGCTTCAATGACCATGCCAGCATCGCGGAGCGGTTCGTATCGATCGTTCGGGAGGGAAGCTGA	MSENEVLSIEDLRMKYDNRYVLNGIDLKVNRGEMIGYIGPNGAGKSTTVKIMLGLVEGYTGTVRIFGQDISDGNIDYKRRIGYVPEVAELYDQLTAAEYLTFIGELYGLTYDAADYKAKHLMDCFDLEKAYHARIATFSKGMRQKVLLISSLLHDPDLLFLDEPLSGLDANSVMVVKEVLAQLSAQGKTIFYSSHIMDVVEKISSRIVLLADSRVVADGTFKELQQHSHEGSLEEVFNQLTGFNDHASIAERFVSIVREGS	PGPT0006725_21811	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_01972	1632			hypothetical protein	ATGGCGGGCCCGGAAGTTTCATTTCGAATGCTGAAGCTGCTGGATCGGTTTCAAGGGGTTATCTCGAGAATGGGCGTCGACTATGAAACGCTGCGGCGGATCCTGCATGTCAAGCTGCTGATGGACTCGAGGCGGGCACCCGTCATATTATCTTCAAACAGCCGGAAGGCTGAAGAGCAGGACAAAAACCTGTTTGTCAGTTCCCTCTGGCTGTATGGCTTAATCGGGCTTGTCCTGACGCCGTTTGTGTTCTGGAGCGATCCGGAATATCTGATGCCGATGAGCATCCTGTCCGCCATCCTCATGTTCCTGATCATGACCTCCATGATTTCGGATTTCTCATCCGTGCTTTTGGATGTGCGCGACCGCAGCATTCTGATGACGAAACCGATCGACGGCCGCACGGTCGGCGTGGCCAGATCGATTCATGCCGGCATTTATTTGCTGCTGCTGACCGGAGCGCTATCGGCTGCTTCACTTGCCGTGGGGCTGTTTAAGCATGGCGTGCTGTTCTTTCTGACCTGCATCCTTGAGCTTATTCTCATGAATATGCTCATACTGGTGGGCACCTCCATGATTTATCTGGTGCTGCTGAAATATTGGGACGGAGAGAAACTGAAGGATCTGATCAATTATGTACAGATTGGGCTTTCCGCCACGCTGGCCATCGGCTATCAGTTCGTGATCCGTTCGTTTGATCTGATTGATTTCAATTTGGTATTTACGCCGGCCTGGTGGCAGGTTCTGCTTCCGCCCGTATGGTTTGCGGCTCCATTTGAATGGATGTTCGGCGAGGGGAGCGGGTGGCTGATTGTCCTCTCCTTACTGGCCGTGCTCGTTCCGATTCTGCTTATGGTGGTGTACCTTCGTTATATTCCATCCTTCGAGCAGTATCTGGAAAAGCTGGCGCACAGCGAAGCGGGAAAAGGGCGGGAACGCGGTCGGTTTGACAGGTTTTTGGCCAAAATCGTATGCCGGTCCCGCACGGAACAGGCATGTTTCCGCTTATCTGCCAGCATGCTGAAGAACGAGAGAGAATTCAAGCTGAAGGTGTATCCTACGCTCGGGTTGTCCGTTCTGCTGCCCTACCTGTTCTTTTTCTCCACGATCCGTAATTCCTCCCTGGCGGAAATCGGCAGGGGATCGTCCTACTATGTGCTGCACGTCATGCTCATCATGATTGTCACCGTCGTGATGATGTTGAAATTCTCCGGCAAACCCAAGGCCTTCTGGCTGTTTGGGGCGGCTCCGATGCCAAGCATGAGTCCCTTATATCAAGGAGCTTTAAAGGCTTTTGCCATAAAAATGTTCCTGCCGTTGTTCACTGTGAATGCGATCGTATTCCTGATCTTATTCGGTATTCGGATCCTCCCGGACGTTCTCATCATCCTTCTTACCGGCTTGGTGCTGATTCCTGTGTCGGCCAAGGTAATGCTGCGCCATCCGCCGTTCTCTCAAGCCTTTAATATGGCTCAGCAAAAAGACGGCTGGTGGGTGCTGCTGTTCATTATCGTTGTCGGCGGGCTATGCGGCTTGCACTATTTTAGCAGCACGGTTACCTACGGTATATCGGCCTATATCGTCGCGCTGCTTGCCGCCAATGGTTTGGCTTGGACCAGGCTGTATAAGTGA	MAGPEVSFRMLKLLDRFQGVISRMGVDYETLRRILHVKLLMDSRRAPVILSSNSRKAEEQDKNLFVSSLWLYGLIGLVLTPFVFWSDPEYLMPMSILSAILMFLIMTSMISDFSSVLLDVRDRSILMTKPIDGRTVGVARSIHAGIYLLLLTGALSAASLAVGLFKHGVLFFLTCILELILMNMLILVGTSMIYLVLLKYWDGEKLKDLINYVQIGLSATLAIGYQFVIRSFDLIDFNLVFTPAWWQVLLPPVWFAAPFEWMFGEGSGWLIVLSLLAVLVPILLMVVYLRYIPSFEQYLEKLAHSEAGKGRERGRFDRFLAKIVCRSRTEQACFRLSASMLKNEREFKLKVYPTLGLSVLLPYLFFFSTIRNSSLAEIGRGSSYYVLHVMLIMIVTVVMMLKFSGKPKAFWLFGAAPMPSMSPLYQGALKAFAIKMFLPLFTVNAIVFLILFGIRILPDVLIILLTGLVLIPVSAKVMLRHPPFSQAFNMAQQKDGWWVLLFIIVVGGLCGLHYFSSTVTYGISAYIVALLAANGLAWTRLYK	PGPT0006730_1108	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_01973	678			hypothetical protein	ATGGAAGCTATTTGGTTTATGGTGTTTTCGACTTTTGAAACACTGGCGATTTATTCACTGATCATGACATTGCTTAGATTTAAAACAACGGAGTACATATGGCAGGCCCTGCTGGTTATGATCCTTGCCAATCTACAGAGTTACATCATGCGGAATGAACTCTCGCTCGATTTTCTTGCCCCGCTTATTACGGTAATGATTTTTGTGTTCTTGTTCTCGGCCATCATTAAAATCCCTGTCATTTGGTCGGCGATTTGCACCATTATAGGCTACATGTTTTACGCGTTGATTCAAACCGCCTATTTGACAACGGTGTTCGGATCGATCGATGCCATTCAGACCGATCCTGCCAAAGGTTACATTCTTCAAGTTCTGTCAGGAGCGACGGGACTGCTGATATCCTGGTTGATGTACAGGTTCGGTATTGGGTTTAAGTACGACCTGGAGAAGCTGCGCATTAAATTTGAACATATTCTGTTAATCGCTTTAATTATCGTAGTGCTGATATTAATTGCCATTCTGTTTTACCTCAACCGCCTGTGGCTGCATCTTCTCTTCTTTGGAATCACATTTGGAATCTTCTTGTATTATGCCATCAATACAGAGGAGCGGGAGTCTTATGATCATAGAAGGACTGTCAGAGCGGATAGCGGAGAGGATCAAACGTCAGGTTCCTGA	MEAIWFMVFSTFETLAIYSLIMTLLRFKTTEYIWQALLVMILANLQSYIMRNELSLDFLAPLITVMIFVFLFSAIIKIPVIWSAICTIIGYMFYALIQTAYLTTVFGSIDAIQTDPAKGYILQVLSGATGLLISWLMYRFGIGFKYDLEKLRIKFEHILLIALIIVVLILIAILFYLNRLWLHLLFFGITFGIFLYYAINTEERESYDHRRTVRADSGEDQTSGS				NA	NA	NA	NA	NA
AK002_01974	543	agrB		Accessory gene regulator protein B	ATGATCATAGAAGGACTGTCAGAGCGGATAGCGGAGAGGATCAAACGTCAGGTTCCTGATCATCCGTCCTCCGTTCCTGTTTTGAAACACGCGCTCGCCATTCTATTCAACGTGATGTTCATTGTCGTATTCACGCTGCTGATTTCGATCTTCTCGGGTAACGTGAGAGAGGCGGTCATAGCCTTGACGGGCTTCGCCGTACTGAGGCAATTCTCGGGAGGGTATCACCTTAAGACGGGGGCCGGCTGTATTGCATTCACGACAGCACTGTTCACCTTGGTGACTTTTGTTGATATGGGGAATGCAGCTGTGCTCGTTATGAATGCACTTAGTCTGTTGCTGGTTATGCTGTTTGCTCCCAGCCGTATCGAGAGACAATCCCGGATACCGAGCAAGCATTACTCTAAACTCCGCTTGATTAGCTGCTTCATCGTGATGTTCAATTTTGTCCTTCAGTCCCCAACATTGGCTGTCATATTTTTAATCCAGGCCATAAGTTTATTACGCTGGAAAGGAGGACAAGCTCATGTTATGGATCCATAA	MIIEGLSERIAERIKRQVPDHPSSVPVLKHALAILFNVMFIVVFTLLISIFSGNVREAVIALTGFAVLRQFSGGYHLKTGAGCIAFTTALFTLVTFVDMGNAAVLVMNALSLLLVMLFAPSRIERQSRIPSKHYSKLRLISCFIVMFNFVLQSPTLAVIFLIQAISLLRWKGGQAHVMDP				NA	NA	NA	NA	NA
AK002_01975	141			hypothetical protein	ATGTTATGGATCCATAAGATTCGTCATCGTTTTTTTTCGTTCATCGCATCTGCACTGACGTTGGTAGCCGTATTTGTCGTTAATACTGCAAGTCCCGTATTTGTGTACAGCGGAGAGACGCCGGAAGAACTTTTGAAATAA	MLWIHKIRHRFFSFIASALTLVAVFVVNTASPVFVYSGETPEELLK				NA	NA	NA	NA	NA
AK002_01976	207			hypothetical protein	ATGTTTGAGAAATACCTGGAGCAAACCGTAGAAATCATATACGAAGACCGTAAGGGCAACATTACCCAGCGCAAAATACAGATACACAGCATTAAGGATCAGCGGATTCGGGCAACGTGCCTGGAGACGGGAAAGCCTCGGGTATTCAATGAAAACAATATCCTGTCCTGGAGGCCCCAGAAAGGAAGAGGTTCGCATGCTTCCTGA	MFEKYLEQTVEIIYEDRKGNITQRKIQIHSIKDQRIRATCLETGKPRVFNENNILSWRPQKGRGSHAS				NA	NA	NA	NA	NA
AK002_01977	264			hypothetical protein	ATGCTTCCTGATCTGGAACGAAAACTGCTCCGAATTTTGATCAACTATCCGGCGCATCGCAGCCGTGTCCCGACCTTACGGTTACTTAAGTATCTAACGGGACGTAAACCGAACGAAATTATGGAGGGCATAGCTTCATTGGAGGAACAAGGCTATATTATGTTTAAGAACAAGCGGGAATTGCAGAGCCTGATTGTGCTGAAGGAAGAGGCACAGCCCGTTCAAAGAGTGGAAAGAGCTGCGGATTACTGGACGACACATTGA	MLPDLERKLLRILINYPAHRSRVPTLRLLKYLTGRKPNEIMEGIASLEEQGYIMFKNKRELQSLIVLKEEAQPVQRVERAADYWTTH				NA	NA	NA	NA	NA
AK002_01978	414			hypothetical protein	ATGCCTGTGCTTAGAGATTGCACGGATGAGGGGACACGAGCCGAATTTCATTTTATATCCCGTATCCCTGGAAAGTACGAAGGATGCCAAATCAACTTTAAATTTTATGATTCCAACCGATTCATCTATGATTTGAATTTCGGTTGGACGAATCTAACGATTCATAATTATATTACAGTAACTACGGAATTTCCGTTGGACACACTGAATGGATTCAAATTAGATGGATTATATATGTCATTCGAAAAACATCTTTATCAATTAAGCTGGAAAAGAAGCCAATCGGAAGGTATTTATGAGTTGGGCTTTTTTGGGTCTGATCAAGACTTCACGCTTACTACTGATATAGACTCTGTCAGAAAGTTTGGTTCTCAATTTAAGTTGGAATGGGATCAAGCACCGATATTCGATTGA	MPVLRDCTDEGTRAEFHFISRIPGKYEGCQINFKFYDSNRFIYDLNFGWTNLTIHNYITVTTEFPLDTLNGFKLDGLYMSFEKHLYQLSWKRSQSEGIYELGFFGSDQDFTLTTDIDSVRKFGSQFKLEWDQAPIFD				NA	NA	NA	NA	NA
AK002_01980	264			hypothetical protein	ATGACAGGTGGAATATCCCATCGTTTCAAGCGAGCGGGACTGGTGCTCTCGTTATTGGCGGTATCTATTGTGGGCGGCGGCTGCAGTGTCCCGGAAAGAACATCGGTGCAATTGGAGCCGCTGCATGCCCCTGCAGCGCCCGTGATGCTGGATGTGTACGGGCGTTCCGTGGATCAGGACGTATATTCCAAGCAGGGAAGCGGGGTGCTGGAGCCGGTATCCCCGATGGATGCGGAGGACACGTTAAGGGATCTCCATCCATAA	MTGGISHRFKRAGLVLSLLAVSIVGGGCSVPERTSVQLEPLHAPAAPVMLDVYGRSVDQDVYSKQGSGVLEPVSPMDAEDTLRDLHP				NA	NA	NA	NA	NA
AK002_01981	111			hypothetical protein	ATGAGCATGGGAGCCACGATATTTTGGGCTGTGGTCATTGCTGCCCTGATCATCTATCCCACCTTCTGGACGATCAAAAAAGGTTATTCCCGCAAATGGGATGAGGAATAG	MSMGATIFWAVVIAALIIYPTFWTIKKGYSRKWDEE				NA	NA	NA	NA	NA
AK002_01982	444			Acetyltransferase	ATGGCAGCAGAAATCATCAATGTATCAACGGAAGAGCAGTTGCAGCAGGCGCTGGATATCCGAAAGGATGTGTTTGTCCTAGAACAGAAGGTGCCGATCGATTTGGAGATCGATGCTTACGACCGCCTGGAATCGGATGCACACCATGTCTTGATCAAGTCGGAGGGGCAGTACGCCGCAACCGGGCGTATTACCTATTACAATAAGGATTCCGCCAAAATGCAGCGGATCGCGGTGCGGAAGCCGTTCCGTTCCAAAGGGATTGGCCGTGTGCTGATGATGGCGCTGGAAGCGCAGGCTCGTGAACTAAAGCTGCAATATTCCGTGCTCGATGCACAGGTGCAGGCAGAGGCTTTTTACCGCAAGCTGGGGTATGAGACGATTTCGGACGAGCCGTTTGATGATGCAGGCATTCCCCATGTTCGCATGAAAAAGGAATTGTAA	MAAEIINVSTEEQLQQALDIRKDVFVLEQKVPIDLEIDAYDRLESDAHHVLIKSEGQYAATGRITYYNKDSAKMQRIAVRKPFRSKGIGRVLMMALEAQARELKLQYSVLDAQVQAEAFYRKLGYETISDEPFDDAGIPHVRMKKEL				NA	NA	NA	NA	NA
AK002_01983	234			hypothetical protein	ATGGATCAAGGACAACAAGAAGTTGTAGGCGTACGTAAAAATGGTGATGGCGACATCATCGAACTTAAGCTGGATAACGGCAGCGTCGTGGATTACAAGACGGCCCAACAGATGGCCAAGAATAAGGAAATCAAGAACCTGAACGTATTCCGTGGACGTGATGGAGACGAACATCTTCGTTCCAATGCGGATGGCGATCCCAGCAACAACCTGGACAATTTGCCGACGTTCTAA	MDQGQQEVVGVRKNGDGDIIELKLDNGSVVDYKTAQQMAKNKEIKNLNVFRGRDGDEHLRSNADGDPSNNLDNLPTF				NA	NA	NA	NA	NA
AK002_01984	738	rbn		Ribonuclease BN	TTGACACTGACATTGCAAATGCTTGGCACCGGCAGTGCGTTTGCCAAGAACTACTATAACAATAACGCACTGATACATGACGGAAATTTCACGTTGCTCATCGACTGCGGAATCACTGCACCGTTGGCGCTGCATCAGATGAACAAAACGTTTAACGATGTGGACGCCGTGCTCATTACGCATATCCATGCCGACCATGTTGGCGGGTTGGAGGAGCTTGCGTTTATTATGAAGATGAAATACAATCGCAAACTTCCGCTCTATATTGCTGACGCGCTGGTGGAACCGATATGGGAACATACACTCAAGGGCGGATTATATCAGCACGGGCATATCTCTTCCCTTCAGGATGTATTTGACGTGCATCCTTTGAAACCGGGCGTGAAGGCCGCTATTTCATCCGGAATCTCGGTGGAGCTGATTCATACGCAGCATATTCCGGGCAAAGACAGCTATTCGCTTTATTTGAACGATCGGATTTTTTACAGCGCGGACATGGTATTCGACCCCATCCTGCTGAAGCAATTGGTAAATGAACGGGATTGCGAAGTGATTCTGCATGAATGCCAGCTGCAGGGTCCGGGCGAGGTGCATACGACACTCGATGAACTGCTCAGCCTGCCTCAAGAAATTCAGGAGCGTACCTATCTGATGCATTACAGCGATGAGGTCGAAGCTTTCATCGGCAAGACCGGAAACATGGAATTCGTGGAGCAGCAGCGGGTATACGAATTGTAG	MTLTLQMLGTGSAFAKNYYNNNALIHDGNFTLLIDCGITAPLALHQMNKTFNDVDAVLITHIHADHVGGLEELAFIMKMKYNRKLPLYIADALVEPIWEHTLKGGLYQHGHISSLQDVFDVHPLKPGVKAAISSGISVELIHTQHIPGKDSYSLYLNDRIFYSADMVFDPILLKQLVNERDCEVILHECQLQGPGEVHTTLDELLSLPQEIQERTYLMHYSDEVEAFIGKTGNMEFVEQQRVYEL	PGPT0001770_4383	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK002_01985	555			hypothetical protein	ATGAAGTGGAAAAAAGTGATGGCATGTATGCTAGTGCTCTCTTTAATGGGTGGCAGCACCCTTTTGTTTGCGGATTCCGTCAATGAACGTGTTCGTGTTTGGCTGAACGGACGCGAATTGAAGGATGGCGGATATTTGATTGATGGCAAAACCTATGTGCCGGTCCGGGAATTTGACGGGGCTGTGGACTGGAATTCGGCGAATGGACAAGTCCAGGTCGTCAAGCCGAATGTGCATATTTTTCTCTTTAAAGGAGATACTGTATTCGGCAACGTAAACAAAGGCAAGCTGAAATTCAATGTATTTAGCCAGGTAGACAGCTTAAACAACAATATTCATGCCGTGAAAGTAGCGATTGAGGATCCTTCGGGCAATATCAAGGACATCCAGTCCCAGGAAGTGAAGGACCGCAAGGATAACTTCTGGTTCCGAACCTATGATTTCACTTATGATTTCAAAACGGCCGGAAAATACTCGGTAGGCTTTTATGTAAAAGTCAAATCGGATGACGGTTTTGTGAAGGTTGCGGAGAAAGTGATTACCGCCCTAAATTGA	MKWKKVMACMLVLSLMGGSTLLFADSVNERVRVWLNGRELKDGGYLIDGKTYVPVREFDGAVDWNSANGQVQVVKPNVHIFLFKGDTVFGNVNKGKLKFNVFSQVDSLNNNIHAVKVAIEDPSGNIKDIQSQEVKDRKDNFWFRTYDFTYDFKTAGKYSVGFYVKVKSDDGFVKVAEKVITALN				NA	NA	NA	NA	NA
AK002_01986	324			hypothetical protein	ATGAGCGAACACAAACATGAACACGGAGATGCTTGCGGCTGCGGTCACGATCATGACCACGATCACGAACATGAAGAGTTTGTGCTGACATTGACGGATGAAGAAGGAAAAGAAGTAGAGATGGTTCTCGTGGAGACATTTGATGTCGGCGAGAAGCTTTACGCGCTTTTGCTTGAACGCGAGAATCCGGAAGCGGACGGCGTCATTCTACGTATGGAAGAAGAGAACGAGGAAATGGTTCTTTACAATATTGAGGACGAAGACGAATGGAATGAAGTAGAGGCGGTTTACAACGAACTGGTCGCTGCTGCAAACCAGGAGTAA	MSEHKHEHGDACGCGHDHDHDHEHEEFVLTLTDEEGKEVEMVLVETFDVGEKLYALLLERENPEADGVILRMEEENEEMVLYNIEDEDEWNEVEAVYNELVAAANQE				NA	NA	NA	NA	NA
AK002_01987	1488	speA	COG1982	Arginine decarboxylase	GTGACAACGTCCATGGACCACAGTCGTACACCGCTCTTCACCGCGCTTAAAGAACACGCGGCCAAAAACCCCGTGCAATTTCACATTCCGGGACATAAGAAGGGCCTCGGCACCGATGCCGAATTCAGGGAATTTATAGGGGATAACGCCTTTTCTATAGATTTGATCAATATTGCGCCGCTGGATGATTTGCATCAGCCTACAGGCGTCATTGAAGAAGCCCAGAAGCTGGCCGCCGACGCATTCGGTGCCGACCACACTTACTTCAGTGTCCAAGGGACAAGCGGAGCGATCATGACCATGATCATGTCGGTATGCTCGCCCGGCGATAAAATCATCGTACCGCGCAACGTTCATAAATCCGTGCTTTCCGCCATCATCTTCACCGGTGCCAAGCCTGTGTTCGTATCGCCTGCCCAGGATTCCAATGTGGGGATCGATCACGGGATCACGATCAGCTCCGTACGGAAAGCGCTAAAGCGTCACCCTGACGTCAAGGCCGTACTGGTCATCAATCCGACATACTTCGGGGTGAGCGCCAACCTGAAGGAAATCGTCGATTTGGCCCACAGCTACAACGTTCCCGTGCTTGTGGACGAAGCACACGGGGTTCTGATCCATTTTCATGAAGAACTTCCGATGTCGGCGATGGAAGCCGGTGCCGATATGGCTGCCACCAGCGTTCATAAACTCGGCGGATCGATGACCCAAAGCTCCGTGCTGAACGTGAACACCAAGAACGGATACATCAATCCTTACCGCGTGCAGACCATCATCAGTATGCTGACCACAACGTCGACCTCCTACATCCTGCTGGCATCGCTGGATACTTCTCGCCGGAGCCTGGCGCTGCATGGACGGGAAATGGCTGCAAGGACGATTGAATTGGCGCAATATGCACGAAACGAAGTCAATAAAATCGAAGGCCTGTACTGCTTCGGGCAGGAAATACTGGGCGGAGAAGCAACGCACTCCTATGATCCGACCAAGCTGACGGTTCATGTACGCCATCTTGGCATCACGGGATATGAAACCGAGAACTGGCTGCGGGACCACTACAATATTGAAGTGGAGCTCAGCGATATGTACAACATTTTGTGCCTCATTACACCGGGGGACAACCGGGAGACAATCGATATTTTGCTGACGGCGCTCCGCGAGCTTTCGGACCAGTACATGCACGTGAACGAAATTAATGAGCTGGTCGTGAAAACGCCGGAAATTCCGCAGCTGTCGCTCATTCCCCGCGATGCGTTTTATGGGGATACGGAGGTCGTGCCGTTCAAGGAATCGGCCGGACGCATTATTGCCGAATTCATCTATGTCTACCCGCCGGGGATTCCGATCTTGCTTCCGGGCGAAGTTATTTCCCAGGAAAACATCGATTACATTACCGATCATGTCGATGTCGGCCTTCCTGTCAAAGGTCCTGAGGACCGCAGCATTCAGAACGTGAAAGTTATCGTGGAAACGGATCCTATATTCTAA	MTTSMDHSRTPLFTALKEHAAKNPVQFHIPGHKKGLGTDAEFREFIGDNAFSIDLINIAPLDDLHQPTGVIEEAQKLAADAFGADHTYFSVQGTSGAIMTMIMSVCSPGDKIIVPRNVHKSVLSAIIFTGAKPVFVSPAQDSNVGIDHGITISSVRKALKRHPDVKAVLVINPTYFGVSANLKEIVDLAHSYNVPVLVDEAHGVLIHFHEELPMSAMEAGADMAATSVHKLGGSMTQSSVLNVNTKNGYINPYRVQTIISMLTTTSTSYILLASLDTSRRSLALHGREMAARTIELAQYARNEVNKIEGLYCFGQEILGGEATHSYDPTKLTVHVRHLGITGYETENWLRDHYNIEVELSDMYNILCLITPGDNRETIDILLTALRELSDQYMHVNEINELVVKTPEIPQLSLIPRDAFYGDTEVVPFKESAGRIIAEFIYVYPPGIPILLPGEVISQENIDYITDHVDVGLPVKGPEDRSIQNVKVIVETDPIF	PGPT0007770_1549	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
AK002_01988	624			hypothetical protein	ATGACGGTTACCGGATTTAAAGATCAGGATTTCGACGTATTCTCCGTTCCAGGGCTCGAAGCCCGTATGGAGGTTCTCATTGAACGGGTAAGACCCAAGCTTGAGACGCTGGGGGCCGAGCTTGCCCCCTATGTGTCCGCGCTGGTCGGGGAAGAGATGTTCGTGCATGTGGCCAAGCATGCCAGACGAACCGTTAATCCCCCGATTGACACCTGGGTCGCATGGGCTGCCAGCAAACGGGGCTACAAAGCGCTGCCTCATTTTGAGGTGGGCATGTTCGGAACCCATCTGTTTGTTATCTTCGCGATTATTTACGAAAGCCCCAACAAAACCGTATTTGCCGGCAACCTGGAAGCCAAGCTGAAGAAAACAGCGAAGGCGCTGCCTAAACATTTCTATTGGTCCATGGATCATATGAATCCGGCCGGCACCCCTCACCAGGACATGAGCGAGGAGGATTTCGTTCGCCTCATTGAGAAGCTGAAACAGGTGAAAAAGGCTGAGGTCATGTGCGGACTGCGCATTCCGCGCGAGGAAGCCGTCAAGCTTGAAGGGGACGAGCTGGTGCAAAAGGTGCAGGAGACGTTTGAGACGCTGCTGCCGCTTTATAAAATGGCGTTTTAA	MTVTGFKDQDFDVFSVPGLEARMEVLIERVRPKLETLGAELAPYVSALVGEEMFVHVAKHARRTVNPPIDTWVAWAASKRGYKALPHFEVGMFGTHLFVIFAIIYESPNKTVFAGNLEAKLKKTAKALPKHFYWSMDHMNPAGTPHQDMSEEDFVRLIEKLKQVKKAEVMCGLRIPREEAVKLEGDELVQKVQETFETLLPLYKMAF				NA	NA	NA	NA	NA
AK002_01989	597			hypothetical protein	GTGAATAAGAGCGAGGAAGTGGAGTATTGCAACCTGGAGCTCCGGTTTGATCGCCGGCATATCCAGGACCTAATCAAGGAATTGATCCAGGAAGGATATTCGCTTTACTGGAGCGAGAATGATACGCAGTTTGTCATTTCGATCCGAACCGGACGCAAGCTGGTAAAGCTGCGGTTTCAACGGACAGGAAGCGGTTTTAAGCTGGTAGGCGATTATATGATCCGCGATCCCAAGCTTGCGGAATGGATGGAGAAATTGATCGAGAATACCCGTGGTCACGCTGTCGTCAAACGTTTCAAGGACCGGCAGATATTGATCGAGAATATTTTGTTTGGCGAGGTTATAAGGCTGGTGGAAATATCCGGTTACCGGCAGCGGGTGCTGTTTCAGAAGGGGACGCCGATGACGGAGCAGGAAATGGTGCGGTTGTTCGAATCGGATGAGGGGGAACAGCGGCTCCTTCTATCCAGGCTGGAAACCGATGATGAGCTTGAGAAGCTCCATGCCGCCCTGCAAGAGGGGAATCAGGACAAAATCGCGGCCTGCAAGCAAAGACTCCGCGAGCTTTCCTTGGAGCTGATGAGGCTGGAGTGGTAA	MNKSEEVEYCNLELRFDRRHIQDLIKELIQEGYSLYWSENDTQFVISIRTGRKLVKLRFQRTGSGFKLVGDYMIRDPKLAEWMEKLIENTRGHAVVKRFKDRQILIENILFGEVIRLVEISGYRQRVLFQKGTPMTEQEMVRLFESDEGEQRLLLSRLETDDELEKLHAALQEGNQDKIAACKQRLRELSLELMRLEW				NA	NA	NA	NA	NA
AK002_01990	1422	gndA	COG0362	6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating	ATGGAGAACCAGATGTCAAAACAACAAATCGGTGTGATTGGCCTTGCTGTAATGGGAAAAAACCTGGCCCTGAACATCGAAAGCAAAGGCTTCACCGTTTCCGTATATAACCGCTCTCCGCAAAAAACGGAAGATATGCTGAAGGAAACCGAAGGCAAGCAAGTGAAAGGAACGTTCTCGATCGAAGAATTCGTGGATTCCCTTGAAACTCCTCGCAAAATCCTGATCATGGTACAGGCAGGACAAGCTACGGACGCTACGATTGAACAGCTGATTCCGCATTTGGACCAAGGCGATATCATCATCGATGGAGGTAACGCTTATTTCCCTGATACGCAGCGCCGCAGCAAAGAGTTGGCTGAAAAAGGCTTTAACTTTATCGGTGCAGGCGTTTCCGGCGGCGAAGAAGGCGCATTGAAAGGCCCATCGATCATGCCTGGCGGACAAGAAAGTGCTTATAAGCTGGTTGAGCCTATTCTGACGGCCATTTCCGCGAAGGTTAACGAAGAGCCTTGCTGTACATATATCGGACCGGACGGTGCCGGCCATTATGTAAAAATGGTTCACAACGGTATCGAATACGGCGATATGCAGCTCATTTGCGAAGCGTATCAATTGCTGAAAGACGTACTCGGCCTCGATGCGAAGGATCTTCACGGAATCTTCACGGAGTGGAACCAAGGCGAGCTCGACAGCTACCTGATCGAGATCACGGCTGACATTTTCTCCAAATACGACGAAGAAACCGGCAAGCCGATGGTTGACGTCATCCTGGATACGGCGGGTCAAAAAGGAACAGGCAAATGGACAAGCCAAAGCTCCCTGGATCTGGGCGTGCCGCTTTCCATGATCACCGAATCCGTATTCTCCCGTTTCCTCTCCGCGATGAAAGAAGAGCGCGTTGCGGCAAGCAAAATCCTGAATGGTCCAAAAACGGCTGCATTTGACGGCGACAAAGCCGAGTTCATCGAAAATGTGCGCAAAGCGCTGTTTGCGAGCAAGATCGTATCCTACGCTCAAGGCTTCGCACAGCTTCGCGTAGCATCCGATGAATACGGCTGGAACCTGCAATACGGCAACCTCGCTAAAATCTGGCGCGGCGGCTGCATTATCCGTTCCCGCTTCCTGCAGAACATCACCGATGCGTATGAGAACAATCCGGAGCTTAAGAACCTGCTGCTGGATCCGTTCTTTACCGATATAATCGAATCCTATCAAGATGCATGGCGTAAAGTTGTAGCTTCCGCGGTATCCTTGGGTATTCCGGTGCCTGGATTCTCCAGTGCGCTTGCATACTACGACAGCTACCGTACGGCGAACCTGCCAGCGAACCTGCTGCAGGCTCAGCGCGACTACTTCGGAGCGCACACCTTTAAACGCGTTGACAAAGAAGGAACCTTCCACTACAACTGGATGGAGTAA	MENQMSKQQIGVIGLAVMGKNLALNIESKGFTVSVYNRSPQKTEDMLKETEGKQVKGTFSIEEFVDSLETPRKILIMVQAGQATDATIEQLIPHLDQGDIIIDGGNAYFPDTQRRSKELAEKGFNFIGAGVSGGEEGALKGPSIMPGGQESAYKLVEPILTAISAKVNEEPCCTYIGPDGAGHYVKMVHNGIEYGDMQLICEAYQLLKDVLGLDAKDLHGIFTEWNQGELDSYLIEITADIFSKYDEETGKPMVDVILDTAGQKGTGKWTSQSSLDLGVPLSMITESVFSRFLSAMKEERVAASKILNGPKTAAFDGDKAEFIENVRKALFASKIVSYAQGFAQLRVASDEYGWNLQYGNLAKIWRGGCIIRSRFLQNITDAYENNPELKNLLLDPFFTDIIESYQDAWRKVVASAVSLGIPVPGFSSALAYYDSYRTANLPANLLQAQRDYFGAHTFKRVDKEGTFHYNWME	PGPT0017385_2296	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
AK002_01991	393			hypothetical protein	ATGGTGCCATTTCATCCAACCGGACTCTCTTCCTCGGCCAAGCGGATCCGCCGGATGCTCGATCCATCTTACCCGCTATGCCGCGAGGACGTGATGTGGGTGCTTCATTTTGTCCAAAAAAAAGTGGCTCTGAAGGATCCTGCGCTGCAAGATCTTTCAAAGCCACGGTTGCTGCAAAATTTCAACAGTTATTGCGAAGCCGCGCTGCTCTTGCTCGGAAGCGGAAACCACTTTCACACAAAGAACGGCGACATCCGCACCTGTCTCTTAGAAGCCATGCACGGGCTTCCCGAGCTGGCGGAGGCTATCTCCCCTGCTCAAGCCCGCACGTTTGAATCGATGCCCTCGATCCCTGAGGACGGTATCCATCCTGCTGCAAGAGAGCAGAATTAG	MVPFHPTGLSSSAKRIRRMLDPSYPLCREDVMWVLHFVQKKVALKDPALQDLSKPRLLQNFNSYCEAALLLLGSGNHFHTKNGDIRTCLLEAMHGLPELAEAISPAQARTFESMPSIPEDGIHPAAREQN				NA	NA	NA	NA	NA
AK002_01992	519	aroK	COG0703	Shikimate kinase	GTGAAATTGGATAAGCTGGGTAGAAACATCATTCTGATCGGGATGATGGGTACGGGCAAGTCAACCGTGGGGCGTCTCGTGGCGGACTCGCTCGGCTACAACTTGATAGATCTGGATGCGGAAATTGAGAGAATGGAAGGCAGAACGATTTCCGAGATGTTTGAAAAGGATGGAGAGCCGTATTTCCGCGAGGCTGAATCCGCTGCATTGCGCAGCGTTTTGCTCCGGGATGGAATCGTCCTGGCATCCGGCGGCGGAGCTGTCCTTCGTTCCGACAATTGCGACGTAATGAAACGCGGCGGCTGGGTCGTTGCCCTCACAGCGGATGCAGCCAGCATCGTGGGACGCGTACGGGGCGATGCCAACCGGCCGCTGCTTGCGGGCGATGTCGAAGAGAGGGTTCGGCGCATCCTCGATGAGCGAAAGGACAAATACCGGTTTGCGGACGTGATGGTGGATACGGTTGGCCGATCCGCGGATGAAGTGGCGGCTGACATTTTAACGCATTACCGCGGCTAA	MKLDKLGRNIILIGMMGTGKSTVGRLVADSLGYNLIDLDAEIERMEGRTISEMFEKDGEPYFREAESAALRSVLLRDGIVLASGGGAVLRSDNCDVMKRGGWVVALTADAASIVGRVRGDANRPLLAGDVEERVRRILDERKDKYRFADVMVDTVGRSADEVAADILTHYRG	PGPT0012900_3390	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
AK002_01993	312		COG0607	Sulfurtransferase	ATGATGAAACCGATCCCTCAGATGGAAACTTCGGAGCTTAGAAGCCGGCTTCAAAACGGCGAACAGGTGTACATGATTGATGTCCGCGAAGATGAAGAGGTTGCCGCCGGGATGATCAGCGGTGCCAAGCATATCCCGATGGGCGAGATTCCGAACCGCCTGGACGAAATTCCGCGCGACCAAGAGGTTGTCTTTATCTGCCGCAGCGGCGGACGCAGTCAACACGTATGCGAATTTCTCAATCACCAGGGCTTGAACAACGTGATCAACATGAAGGGCGGCATGCTGCAGTGGCATGACGATGAAGTATAG	MMKPIPQMETSELRSRLQNGEQVYMIDVREDEEVAAGMISGAKHIPMGEIPNRLDEIPRDQEVVFICRSGGRSQHVCEFLNHQGLNNVINMKGGMLQWHDDEV	PGPT0013055_85	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK002_01994	1293	aroA_1	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase	ATGGATGTTATCGTCAGGCCTACGCCTATTTTAAAAGGGGAGATCGGAGCGCTGTCCTCCAAGAACTATACCACCCGTTACCTGCTTGTGGCTGCCCTAGCGGAAGGAACGAGCACGATTTATTACCCTGCCCACAGCGAGGATAGCGACGCGATGAGACGCTGTATCCGGGATCTCGGAGCCGTGATCGAGGAGGACGAGGAAAAAGCCGTGATTACGGGCTTTGGCAAATCGCCGCGGGATGTGAAGGAGCTGAATGTCGGCAACGCCGGTGCCGTTCTCCGCTTCTTGATGGGCGTAACGGCATTATCTAAAGAGGTTACCTTCGTCAATGCGTACCCGGAATCACTGGGCAAGCGTCCGCATGACGATCTCATCGAGGCCCTTGGCCAACTGGGTGTGGAAGTGGAGCATAACGAAGGCAGGCTGCCCATCACGATTCGCGGCGGCCAGCCGAAGGGCGGCAAGCTCACCGTTTCAGGCGAAGTAAGCTCGCAGTATTTAAGCGCACTGTTGTTCTTGACCCCATTGCTTGCCGAAGACAGCGAAATCACCGTTACCGGAGATCTGAAATCCAAGGTCGTGATCGGTCAGACCCTGGAAGTGCTGGAGCAGGCCGGCATTACGATTCACGCAGCGGACGACTATACGTTCTTCCGGGTTCCCGGGGGGCAATCCTACGAAGCCAAGACCTATACGGTTCAAGGCGATTATCCGGGCTCTGCTGCCGTGCTAGCGGCTGCCGCTGTTACGCAGTCCGATGTGACGATCCGCAATCTGTCGGAGGACAGCAAGCAGGGCGAGCGCGCCATTATCGACGTTCTGCGAATGATGGAGGTTCCGCTCACGCATGAGAACGGAAATGTCCATGTGCAGGGCAACCGCACGCTAAAGGCGCTGGAATTCGACGGAGATGCGGCGACGGACGCGGTGCTCGCGATGGTGGCGGCAGCCGTGTTTGCCGAAGGGACCTCCCGGTTCTACAACGTGGAGAATCTCCGTTATAAGGAATGCGATCGGATTACGGATTATTTGACCGAACTGCGTAAAGCAGGGGCCAACGTGGAGGAGCGCCAGGCCGAGATTATCGTTCATGGCCGTCCGGACGGCGTCGAGGGCGGGGTTGAGATCAATGCCCATTACGATCACCGGGTGATCATGGCCCTCACGGTGGTCGGGCTGCGCGCAGGACAGCCGATCCGGATCAAGGACGCCCACCATGTAGCCAAGTCGTACCCGCAATATTTTGATCACATGAAGGCGCTTGGCGCCGATGTAGAATGGGTAAAATAG	MDVIVRPTPILKGEIGALSSKNYTTRYLLVAALAEGTSTIYYPAHSEDSDAMRRCIRDLGAVIEEDEEKAVITGFGKSPRDVKELNVGNAGAVLRFLMGVTALSKEVTFVNAYPESLGKRPHDDLIEALGQLGVEVEHNEGRLPITIRGGQPKGGKLTVSGEVSSQYLSALLFLTPLLAEDSEITVTGDLKSKVVIGQTLEVLEQAGITIHAADDYTFFRVPGGQSYEAKTYTVQGDYPGSAAVLAAAAVTQSDVTIRNLSEDSKQGERAIIDVLRMMEVPLTHENGNVHVQGNRTLKALEFDGDAATDAVLAMVAAAVFAEGTSRFYNVENLRYKECDRITDYLTELRKAGANVEERQAEIIVHGRPDGVEGGVEINAHYDHRVIMALTVVGLRAGQPIRIKDAHHVAKSYPQYFDHMKALGADVEWVK	PGPT0012850_2800	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
AK002_01995	423	yccU	COG1832	putative protein YccU	ATGGCATTTGAAAATCCTACGCGCGAAGAAATCGCGGATATTTTACGTAATGCGGGCAATATTGCTGTCGTTGGCCTGTCCGATCGGCCGGACCGCACATCCCATATGGTTTCTGCCGCGATGCAGCAACGCGGATACCGGATTATCCCGGTAAACCCTGGTGCAGCCGAAATCCTCGGCGAGAAAAGTTACCCTTCCCTGAAGGACATTCCCGAGCCGATCCATATCGTCAATGTGTTCCGGCGCAGCGAATACTGCGCCGATGTAGCACGGGAAGCCGCCGAGATCGGTGCGAAGGTGCTCTGGCTGCAGCAGGGAATTATCAGCGAGGAGGCGGCGGCCATCGCCGAAAGCAGCGGCATGATCGCGATTATGGACCGCTGCATCAAGGTCGAGGATTCCATCGCATTGGGCGGCCGTTAA	MAFENPTREEIADILRNAGNIAVVGLSDRPDRTSHMVSAAMQQRGYRIIPVNPGAAEILGEKSYPSLKDIPEPIHIVNVFRRSEYCADVAREAAEIGAKVLWLQQGIISEEAAAIAESSGMIAIMDRCIKVEDSIALGGR	PGPT0013060_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK002_01996	1884	gamP_1	COG2190	Putative PTS system glucosamine-specific EIICBA component	TTGAATTGGTTGGGATCGTTGCAACAGCTGGGCAGAGCAGTCATGCTCCCTACAATGGCGCTTCCGGCGGCAGCTCTCCTGCTTAGCGTGGGGAGTTTGCCATGGTCGGCGTGGGGCTTCGGAACCTTAGGCGAAATCGCTCAGGCAGCGGGGCACGGGGTGTTTTATTACATGCCGTATTTATTTGCCATTGGCGTCGCATGGGGACTCTCGAATCAGGGAGGTCCCGCCGGGCTCGCCGCCCTGGCCGGCATGTTCATCTATGATCAGGTCATATCCCGTCTGGGAGACGGGAGCGTACAGCCCTCGACCTTGATCGGTATTATATTTGGGGTAATGTCCGGTTACGTGTATAACCGGTTCAAACATATTAAGCTTCCCGAAGCCATACAGTTTTTTGGAGGCTCCAGATTTGTACTGCTGTTCATGGGATTGTTCTCAACGATATTCGCTTGGATCATGCTGGGGACAGCACCCCTTGTGCAGCGCGGGTTAGATGCTTTTTATGATCTTACCGTACATATGGGAGCTTTCGGTTTGTTTCTATACGGAATTTTGTACCGCGTACTCACGGCCTTCGGTCTGCATCATTTGTTAAACAATGTGTATTGGTTTCAGCTGGGCTCCTACGAGACGGAGGATGGTACCGTCGTGCAGGGGGATCTGCCCCGGTTCTTCGCGGGGGATCCCACGGCTGGCGACTTCATGGCCGGTTTGTTCCCGATCATGATGTTTGCCCTGCCGGCGATCGCGTTTGCCATTATCCAGGAAGCACGTGAAGATCTGAAACCGAAAGTGAAAAAGACGTTTATGCGGTCCGCGCTTGTCTGTTTTTTGACCGGGGTTTCGGAGCAGATCGAGTTCGCGTTTTTATTTGCGTCTCCATATCTGTATGTGCTCCACGCCTTGATGGCCGGTTTCGCGATGGTCCTTACCTATGCATTTGACATCCATCACGGTTTTTCGTATTCGGCTGGATTCATCGATTACGTGCTCAACTTCCATTTATCGCAGAACGCCTGGATCATCATACCGATCGGGGCCGTGTATGGCATCGTCTACTACTTTCTGTTCCGCTGGGCGATACGCACCTTCGAAATCCCCACGCCGGGGCGCGAGGAGGGCTCGGCGCTGGAAGGCCGGGCAGGCGATATTCCCTATCAGGCGCCGCTCATTCTGGAGGCGCTTGGAGGCAAAGACAACATCGTTCAGGTGCAGTCCTGCATGACGCGTCTGCGATTGACCGTATACAATGATCGTCAGATTGATTCTGACGCACTGAAATTGCTCGGTTCAGCCGGCATTATCAAGCTGGGCGGAGGGAACGTGCAAGTGGTGTTCGGGACGTATTCCGAGCTCATCCGCGAAGAGATAAACAAGCTGATGCAGCAGGATTTGCCGCGCGTTCTGTTCAGCGCGCCCGTACAGGGACGCATGCTTCCGATTGACGAAGTGCCGGATGATATTTTTGCGGCGAAGCTGGTCGGCAACGGCGTCGCCTTCATACCGGAAAAAGGAGAGCTTGTATCACCGGTATACGGCACGGTCATGCACGTGTATCCGACGATGCATGCCATCGGGATTTCAACGCCGGAAGGGCTTGAGGTATTGATTCATATCGGGATCGACACTTCCCAGCTGAAAGGACCGTTTACGGCTGTGGTCAGCGAAGGGGATACCGTTGAACCGGGGCAACTGCTGGTCAAGTTCGATTTGGCGTATTTAAAGACACATGCCGCATCGCTGGCCACGCCAATGGTAATCACCAATCCCGATAAAGTAAGAGCCTGGAGCTATGCTCCGTTCAAGACCGTGAAAAGAGGACAGTCATCTGTCATGTCCGTCGTATTAAATGAGAGTAATGCTGGGGGTAGAGAATCATGA	MNWLGSLQQLGRAVMLPTMALPAAALLLSVGSLPWSAWGFGTLGEIAQAAGHGVFYYMPYLFAIGVAWGLSNQGGPAGLAALAGMFIYDQVISRLGDGSVQPSTLIGIIFGVMSGYVYNRFKHIKLPEAIQFFGGSRFVLLFMGLFSTIFAWIMLGTAPLVQRGLDAFYDLTVHMGAFGLFLYGILYRVLTAFGLHHLLNNVYWFQLGSYETEDGTVVQGDLPRFFAGDPTAGDFMAGLFPIMMFALPAIAFAIIQEAREDLKPKVKKTFMRSALVCFLTGVSEQIEFAFLFASPYLYVLHALMAGFAMVLTYAFDIHHGFSYSAGFIDYVLNFHLSQNAWIIIPIGAVYGIVYYFLFRWAIRTFEIPTPGREEGSALEGRAGDIPYQAPLILEALGGKDNIVQVQSCMTRLRLTVYNDRQIDSDALKLLGSAGIIKLGGGNVQVVFGTYSELIREEINKLMQQDLPRVLFSAPVQGRMLPIDEVPDDIFAAKLVGNGVAFIPEKGELVSPVYGTVMHVYPTMHAIGISTPEGLEVLIHIGIDTSQLKGPFTAVVSEGDTVEPGQLLVKFDLAYLKTHAASLATPMVITNPDKVRAWSYAPFKTVKRGQSSVMSVVLNESNAGGRES	PGPT0016870_504	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0016870-ptsG|glcA|glcB-K20118	NA	NA
AK002_01997	1764	ptsI_2	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGATACAAGGCATTGGCGCAGCAACAGGCGTAGCTATCGGTAAGGCTTTCGTACTGCCGCATTGGGAGCTGGATCTTCCGGATTCCGAAATGGACGCTGTCGATTTAGCCAAAGAGTTCGAGCGCTTATATGAAGGCATACGAACCTCCAAGAATGAAATTGAATACATCAAGAACGAATTCAAGGAAATGGTGGGGCACGAGGAGTCGCAGATTTTTGACGCGCATCTGGCCATACTGGAGGATCCCGTGTTCATGAACGAAATTCAAGGGATCATCGAGCGCCAGTACAAGGCTGCCGAGGTGGCGGTAAAAGAGGCGATCGATCATTTCGTATCCATGTTCGATCTGCTGGACGATGAGTATATGAAGGAGCGGGCGCTTGATATTAAGGATGTCGGCAATCGGCTGCTGAAGCATCTTCTTGGTGCTCCCGAAGTGAAGCTCCCGGCCGATACGCAGCCTTATATATTGGTTGCGAAGGAGCTCTCCCCGTCGCAGCTCGTTCATCTGAACCCTTCCCACGTTCTTGGTATCGTGACGATGACCGGCGGCAAGACCTCTCATTCGGCGATCATGGCCCGCGCGCTGGGCATACCGCTCGTTTCGGGAATCGAGAACAAGCTGGATAAACCGATCCAGACCGGACAGCAGCTGGTGGTGGACGGAGATGAGGGGTTGCTCTATTTGGAGCCTGACACGCTCATCGTGGAGCGGTATGAAGGCATTCGGGACCAGCAGCGGAAAAAGAAAGAGCAGCTCCAGCTCCTGGCAGCCGTTGATGCGGTAACGAAGGACGGAACATACTTTAACCTGGCCGCGAACATGAACTCCGTTAAGGAAATGGAGATTGCGCTGAAGAACGGCGCGCAGGGAGTTGGATTGTTCCGAACGGAGTTTTTGTATATGGACCGGCACAACTTCCCGACGGAGGAAGAGCAGTTCGAAGTGTATAAACTGGTTGCGGAGAACGCAGGCAAGGCGTCCGTCGTGATTCGTACGCTGGATATTGGCGGCGATAAGCAGCTGGATTATTTCGCGCTTCCGGAAGAAGAAAACCCCTTCCTCGGGTACCGCGCCATCCGCATCAGCTTGGACCGAACCGAACCGTTCCAGACCCAGCTTACCGCGATTCTGAGAGCCAGCGCATACGGCAGCGTCAAAATCATGTATCCGATGATTTCATCGGTAGATGAAGTCAAGCAGGCCAATGCCGTGCTGCGGCGTGCCATGGCCGATTTGGACCGACGCGGCATCGCCTATGATCCGAACATCAAGGTCGGCATCATGATCGAGGTGCCTGCGGCGGTCACGATCTCGGATTTGCTGGCCGAAGAGGCCGATTTCTTCAGCATCGGGACCAATGACCTGGTTCAGTATGTTCTGGCCGTGGACCGGATGAACGAGCAGATCGCGCATATGTATCATCCGTTTCATCCTGCCATTTTGCGCATGCTCCGGACGACGGTGGAGGCTGCCCATGGGGCAGGGATTCCAGTCAGCGTGTGCGGAGAACTGGCCGGAGACGAAAGAGCGATTCCGCTTTGGCTTGAGCTCGGCGTTAAGGATTTGAGCATGTCTCCGCAATCCCTGCTCCGCGTGAAGCATCGCATTTTGAATACGAATGCGGCAGAAGCGAAAGGAGAGGCGGCGGCTTGCTTCAAGCTGCGTACCAGCTCCGCTGTCGAAGAACGTCTTAGCGCTTTTGCCGAACGGAGCAGTTATCTGAACGGAACCAACGGAACGGACAGCACGGCGTCTTAA	MIQGIGAATGVAIGKAFVLPHWELDLPDSEMDAVDLAKEFERLYEGIRTSKNEIEYIKNEFKEMVGHEESQIFDAHLAILEDPVFMNEIQGIIERQYKAAEVAVKEAIDHFVSMFDLLDDEYMKERALDIKDVGNRLLKHLLGAPEVKLPADTQPYILVAKELSPSQLVHLNPSHVLGIVTMTGGKTSHSAIMARALGIPLVSGIENKLDKPIQTGQQLVVDGDEGLLYLEPDTLIVERYEGIRDQQRKKKEQLQLLAAVDAVTKDGTYFNLAANMNSVKEMEIALKNGAQGVGLFRTEFLYMDRHNFPTEEEQFEVYKLVAENAGKASVVIRTLDIGGDKQLDYFALPEEENPFLGYRAIRISLDRTEPFQTQLTAILRASAYGSVKIMYPMISSVDEVKQANAVLRRAMADLDRRGIAYDPNIKVGIMIEVPAAVTISDLLAEEADFFSIGTNDLVQYVLAVDRMNEQIAHMYHPFHPAILRMLRTTVEAAHGAGIPVSVCGELAGDERAIPLWLELGVKDLSMSPQSLLRVKHRILNTNAAEAKGEAAACFKLRTSSAVEERLSAFAERSSYLNGTNGTDSTAS	PGPT0002025_442	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0002025-ptsI-K08483	NA	NA
AK002_01998	531	yfkM	COG0693	General stress protein 18	ATGCGATTGACTGGAAAAAAGGTTATAGCGCTTGTTGATGAAGAATTCGAGGATTTGGAGCTATGGTATCCCGTTTACCGGGTCCGCGAGGAAGGAGCGGAAGTCCATCTCGCCGGGCTGGAAAAGGGTAAAACTTACACCGGCAAATATGGCGTTCCGGCTCAGGCCGAGTATTCGTTTGAAGAGCTGAACAGCAAGGATTATGACGGAATACTCGTACCGGGCGGTTGGGCGCCGGACAAGCTTCGCCGATATGATAAAGTGCTTCAACTGGTTAAAGAAATGAACGAGGACCTGAAGCCGATCGGACAGATCTGCCACGCAGGATGGGTGCTGATCTCCGCCAAAATCCTGGACGGAGTTACCGTTACTTCCACGCCGGGAATCCGCGACGATATGGAAAATGCCGGTGCGATCTGGAAGGATGAGGCGGTCGTGACCGACGGGCATATTATTTCCGCACGCCGGCCTCCCGATCTTCCGCCATACGGCAAAGCCTTCTGCGATGCGCTGGCACGGCAAGGCCAATAA	MRLTGKKVIALVDEEFEDLELWYPVYRVREEGAEVHLAGLEKGKTYTGKYGVPAQAEYSFEELNSKDYDGILVPGGWAPDKLRRYDKVLQLVKEMNEDLKPIGQICHAGWVLISAKILDGVTVTSTPGIRDDMENAGAIWKDEAVVTDGHIISARRPPDLPPYGKAFCDALARQGQ	PGPT0015010_2714	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0015010-yfkM|pfpI|yraA-K05520	NA	NA
AK002_01999	501			hypothetical protein	ATGGGACTGTTGGTTTTAGATTACGTGATAGGATTTGGGGTGGGCATTTTGTTCAAAACCTGCAACTGCGGACAAAGTATGAAATTGGAATTAAGAAAGCTGATTCATGAAAGAAAAACTCGGATATGTGATGTTCCTGTTTATGCCTGTCAGGCCTGCAAGAAGTATGAGCTTCTGCCTCTTATTAAACCGGATTTGCTTCGCTATCTCGCATCGATTAACAATGAGACCGAGCGAATACGCGTTTCGTTCGCAGATGTCAATGAAGCCGCATATGTTCTTCGTGAAGTGTTCCGTACATACGATGATGATTCGTCGGCAGAATGGCAGGCGCGCTGCATGGAAGTATTTGACGAGCGCATTAATATGCTGTTGGATCTATTCCGTTATGCCCAGAGCCTGGCCGACGGCGACTGGATGAGACAAATGGAGGGGCGTCTCGAGCAATTAAGCACCATAAAATCTCTCATTCCTGAAAATTCGAGCAATTATGCAAGATAA	MGLLVLDYVIGFGVGILFKTCNCGQSMKLELRKLIHERKTRICDVPVYACQACKKYELLPLIKPDLLRYLASINNETERIRVSFADVNEAAYVLREVFRTYDDDSSAEWQARCMEVFDERINMLLDLFRYAQSLADGDWMRQMEGRLEQLSTIKSLIPENSSNYAR				NA	NA	NA	NA	NA
AK002_02000	348			hypothetical protein	ATGGCGACGTTGACGAAAATGACTACTATAGAAGAGCTGCGCAGCACGCTGGAATCTTCCGATCGGAAGCACTTGCTTTTGTTCAAACATAGTACCAGATGCCCAATTAGTGCCGGAGCCTACAGGGAAGTGCAAGCTTACCTTGAGGACCAGCCGAACGAGGGGATCGACTATGTGTGGATCGATGTCATTGCGGACCGACCGGTGTCGAGTCAGGCTGCCGAAACTCTGAACATCCAACACGAATCGCCGCAAGTTATACTTGTAAAAGAAGGAGCGCCAGTCTGGCATACATCCCATTCCCATATTACGGCTGAAGCGCTGAAAGCTCAATTGGACGGCATATGA	MATLTKMTTIEELRSTLESSDRKHLLLFKHSTRCPISAGAYREVQAYLEDQPNEGIDYVWIDVIADRPVSSQAAETLNIQHESPQVILVKEGAPVWHTSHSHITAEALKAQLDGI	PGPT0015028_71	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015028-ytxJ-NA	NA	NA
AK002_02001	1011	ccpA_3	COG1609	Catabolite control protein A	TTGACGGTAACCATTTACGATGTTGCGCGCGAAGCAGGCGTTTCCATGGCGACGGTATCCCGGGTTGTAAACAATAACCCGAACGTTAAGCCTCAGACCCGGAAAAAAGTATACGAAGCGATTGAACGTTTAGGGTATCGTCCGAATGCGGTAGCCAGAGGCCTGGCCAGCAAGAAGACCACAACCGTCGGCGTTGTGATCCCTGACATTTCAAACTCGATCTTTGCGGAGATTGCCCGTGGTATTGAGGATATTGCTAACATGTATCACTATAATATAATTTTGTGTAATGCCGACAAACGTAAGGAAAAGGAAATCCGCGTAATCAACACCTTGCTCGAGAAGCAAGTGGACGGGCTGTTGTTTATGGGTGGAACGGTGACGGACGAGCATATCCAGGCGTTCCAGACATCGGCTGTGCCGATTGTTCTCTGTGCGACCAGTGATGAGAGAGGTTCTTATCCTTCGGTCGACATCGATCATGAACAGGCTGCGTTTGATGCGGTCAACACGCTGATTCGGCACGGACACCGCGAGATCGCTATGATCAGCGGCACGCTGCAGGATCCGGCAAACGGCTATGCTCGTTTCCAAGGCTACAAAAAAGCGCTGGAAGCAGCAGGCATCGAGTATCAAGAGGATTTGGTGCGGATCGGTAACTATCGTTATGAGTCCGGCGTGGAAGCGATGAAGTACTTCCTGGGCCTCAAGAAGAAACCAACCGCTATATTTGCCGCTACCGACGAGATGGCGATTGGCGCTATTCATAGCATTCAGGATGAAGGCTATAAAGTGCCGGATGACTTCTCGATCATCAGCGTAGACAATATCCGGATGGCTTCGATGGTTCGTCCACAGCTGACAACGGTGGCCCAACCAATGTATGATCTGGGAGCCGTAGCGATGCGTTTGCTTACCAAGCTGATGAAAAAGGAAAATGTGGAGAATCCTCGCGTGATTCTGCCGCATGAAACGATTCTTCGCCTCTCGGTCAGCCATGTGAACGAATAG	MTVTIYDVAREAGVSMATVSRVVNNNPNVKPQTRKKVYEAIERLGYRPNAVARGLASKKTTTVGVVIPDISNSIFAEIARGIEDIANMYHYNIILCNADKRKEKEIRVINTLLEKQVDGLLFMGGTVTDEHIQAFQTSAVPIVLCATSDERGSYPSVDIDHEQAAFDAVNTLIRHGHREIAMISGTLQDPANGYARFQGYKKALEAAGIEYQEDLVRIGNYRYESGVEAMKYFLGLKKKPTAIFAATDEMAIGAIHSIQDEGYKVPDDFSIISVDNIRMASMVRPQLTTVAQPMYDLGAVAMRLLTKLMKKENVENPRVILPHETILRLSVSHVNE	PGPT0014791_177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
AK002_02002	702	mtnN	COG0775	5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGACAACACAGGTGATCGGCCTTATCGGGGCTATGGACGAAGAAGTGGAGCTGCTGCTCGGTCAACTGGAGAATAAAGAAACAACCGTTAGGGCAGGTGTTACCTATGCATCGGGAACGATCCATGGCAAGCAGGTCGTCGTATGCAAGAGCGGGGTGGGCAAGGTCAATGCAGCGGTCACCACGCAGATCTTGATCGACTTCTTCGGCGTTTCCAAAATATTATTTACCGGCGTAGCGGGCGCGCTGCATCCGGAGCTCAACATCGGCGATATCGTGATCTCCTCTTCATGCATGCAGCATGATATGGACGTGACGCCGTTAGGCTTTGCGCGCGGGGTCATCCCGTATCAGGAGCTGTCCGATTTTCCCGCAGACGCCTCTTTGATCCAGCTGGCGGAGGAGGCCTGTAAAGAGCAGGCAGTGAATCATTACATCGTAGGGAAGGTTCTGTCCGGGGACCAGTTCATTGCCAGCCGCGATACGGTGCAGACGCTCTACGAGGAATTGAACGGGGCCTGCGCGGAAATGGAAGGCTCTGCCGTTGCCCAGGTATGTTACATGAACGGCGTGCCTTATGTGGTGATCCGATCCATGTCGGATAAGGCCGACGGTTCTGCGCATGTCAACTTCCCCGAGTTTACAGTAAAGGCTTCCAAGCGTTCTCATGAAATCGTGAACTATATGCTGGGCAAACTCTAG	MTTQVIGLIGAMDEEVELLLGQLENKETTVRAGVTYASGTIHGKQVVVCKSGVGKVNAAVTTQILIDFFGVSKILFTGVAGALHPELNIGDIVISSSCMQHDMDVTPLGFARGVIPYQELSDFPADASLIQLAEEACKEQAVNHYIVGKVLSGDQFIASRDTVQTLYEELNGACAEMEGSAVAQVCYMNGVPYVVIRSMSDKADGSAHVNFPEFTVKASKRSHEIVNYMLGKL	PGPT0014320_1520	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
AK002_02003	633	acuA		Acetoin utilization protein AcuA	ATGGAACACTGCAAGGTATACCAGTCTCATGTTTTGTTCCCTGAAGACCGCCGCCTGATCATCGAAGGACCTGTACCTCCCGAGCAGCTATCCGAACTGACCATGCACCCTGATCTCAAGGCTTTTCGTCGTCCTGCGGAGCAGCATGAGGCATTGGTGGAAATTGCAGGCCTGCCCGAAGGCAGAATCATCATCACGAGAGACCGAGATATGATCGTAGGATACGTAACGTTTCATCACCCGGATGAGCAGGAGCGCTGGTCTGAGGGCAATATGGAAGATTTGATCGAGCTAGGTGCCATCGAGGTAGCGAAAGATTACCGTTCCTTAGGCCTTGGGCAGCGGATGATCAAAACCGCATTCGAGGAAGGCCAGATGGAACGCTACATCGTGTTTACGACCGAATACTACTGGCATTGGGACCTAAAAGGCAGCGGCCTTAACGTGTGGGATTACCGCAAAATGATGGAGCGCTTAATGAAAGTCGTGGATATGGAATGGTACGCAACCGACGATCCGGAAATCTGCTCCCATCCCGCCAACTGCCTCATGGTCAGAATCGGTCGGCATGTGCCGCTTTCATCGCAAGAACAATTCGACCGGATCCGTTTCAGACAGCGGTTTATGTATTAA	MEHCKVYQSHVLFPEDRRLIIEGPVPPEQLSELTMHPDLKAFRRPAEQHEALVEIAGLPEGRIIITRDRDMIVGYVTFHHPDEQERWSEGNMEDLIELGAIEVAKDYRSLGLGQRMIKTAFEEGQMERYIVFTTEYYWHWDLKGSGLNVWDYRKMMERLMKVVDMEWYATDDPEICSHPANCLMVRIGRHVPLSSQEQFDRIRFRQRFMY	PGPT0008215_69	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,PGPT0008215-acuA-K04766	NA	NA
AK002_02004	1725	acsA	COG0365	Acetyl-coenzyme A synthetase	ATGAATCAAACGCATAGCGAAATATTGCCAAGTGAAGTATCACATTCCAATATGAAGAGTTACGAGCAAGCACGCTCCGAGTTTTCATGGGACGAAATCGAGAGACATTTTACTTGGTATGAGACGGGTAAAGTAAACATGGCGTACGAGGCAATCGATCGTCATGTAGCGGAGGGACGAGGAGACAAGGTAGCACTCTTGTACAGTGACGCCGCCCGCGAGGAGACTCTTACTTTTGCGCAATTGAAAGAGAAATCCGACAAGTTCGGCAATGTGCTGCGCAAATATGGCGTGGGCAAAGGCGATCGGGTATTTATCTTTATGCCGCGCGGCCCTGAGCTCTATGCCGGTTTGCTTGGTATTTTGAAGGTAGGTGCCGTGGTAGGCCCATTGTTCGAGGCGTTCATGGAGACGGCGGTAAAGGATCGCTTGGAGGATAGCGGAGCGGTTGCGCTGATTACGACGCCTGCGCTGTTGTCGCGCGTGAAACGGGATGAGCTCCCCGAACTGAAGCATGTCTTTGTCGTTGGCGAAGTGGAAGAAGAGGATCCGCGTCTAGTAAACTATCATGAGGAAGTTGAAGCCGCATCCAGCGAGCTGGAGATTGAATGGCTCGAGCGGGAAGACGGATTGATCATGCACTATACATCAGGCTCAACCGGGAAACCGAAGGGCGTATATCACGTTCAGAACGCTATGGTGCAGCATTATTATACAGGCAAGGTTGTTTTGGATTTAAGGGAAGACGATATATATTGGTGTACGGCGGACCCGGGTTGGGTAACCGGTACGTCATACGGTATTTTTGCGCCATGGTTGAACGGCGTGACCAATGTCATTCGCGGAGGCCGCTTTAGCCCGCAGGACTGGTACAGCACATTGGTAAACAACAAAGTAACGGTATGGTACAGCGCGCCGACTGCCTTCCGGATGTTGATGGGGGCAGGTTCCGATCTTATCGACCAATATGATTTGAGCCATGTACGGCATGTACTGTCCGTTGGCGAGCCGCTCAACCCCGAGGTGGTGCGTTGGGGACACAAGGCTTACAAGCAGCGTATCCATGATACATGGTGGATGACGGAGACCGGGGGGCAGCTGATCTGTAACTATCCGGGGATGGCGATCAAGCCGGGATCCATGGGGCGTCCGCTGCCGGGCATTACGGCGGCGATCCTGGACGATCACGGGAAAGAAGTTGCTCCATATACGATGGGGAACCTGGCCATCAAGACACCTTGGCCGTCCATGATGAGAACCATCTGGAATAACGAGGCGAAGTATCAAGAATATTTCCGTATTCCGGGCTGGTACATTTCCGGGGACTCGGCCTATATGGACGAGGATGGATACTTCTGGTTCCAGGGCAGAATCGACGATGTGATCAATTCGTCCGGGGAGCGAATCGGCCCATTCGAGGTGGAGAGCAAGCTTGTTGAGCATCCGGCCGTAGCCGAAGCCGGCGTTATCGGTAAGCCTGATGTAACACGAGGCGAGATCATTAAGGCCTTTATCTCCCTGCGTGAGGGCTATACGCCTTCTCAGGAGCTCAAGGATGAAATCTATCGTTTCGTGAAGGAAGGTCTATCCGCCCATGCCGCCCCGCGTGAAATCGAGTTTAAGGATAAACTTCCGAAGACGCGCTCCGGTAAGATCATGCGGCGCGTATTGAAAGCCTGGGAACTGGATCTGCCGACTGGCGATCTGTCCACGATCGAGGATTAA	MNQTHSEILPSEVSHSNMKSYEQARSEFSWDEIERHFTWYETGKVNMAYEAIDRHVAEGRGDKVALLYSDAAREETLTFAQLKEKSDKFGNVLRKYGVGKGDRVFIFMPRGPELYAGLLGILKVGAVVGPLFEAFMETAVKDRLEDSGAVALITTPALLSRVKRDELPELKHVFVVGEVEEEDPRLVNYHEEVEAASSELEIEWLEREDGLIMHYTSGSTGKPKGVYHVQNAMVQHYYTGKVVLDLREDDIYWCTADPGWVTGTSYGIFAPWLNGVTNVIRGGRFSPQDWYSTLVNNKVTVWYSAPTAFRMLMGAGSDLIDQYDLSHVRHVLSVGEPLNPEVVRWGHKAYKQRIHDTWWMTETGGQLICNYPGMAIKPGSMGRPLPGITAAILDDHGKEVAPYTMGNLAIKTPWPSMMRTIWNNEAKYQEYFRIPGWYISGDSAYMDEDGYFWFQGRIDDVINSSGERIGPFEVESKLVEHPAVAEAGVIGKPDVTRGEIIKAFISLREGYTPSQELKDEIYRFVKEGLSAHAAPREIEFKDKLPKTRSGKIMRRVLKAWELDLPTGDLSTIED	PGPT0002265_5760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK002_02005	3108	mtgA_1		Biosynthetic peptidoglycan transglycosylase	ATGGTTGAGGAGAAAAAACAAGAGCCTGAACAACAGAAAAAACCGCGAAAACGGTCCTTTCTGCGGGTACTGGGATCCGTCATCGGATGGCTCTTTGTGGTAGGTCTGATGGGCGTTTTGTTCGCCGGAGGAGCCGTAGCCGGTTATGTAACCTCTATTGTTGAGAATGAGCCGGTAAGATCACGTGCCCTCATCGAGAACACGGTGAACGATAATGCCATAACGGGCTTTGCCTACTTCGCGGATGGCTCACCGATCGGACAGCTTAGAACCGAAGAAGACAGACGACCTGTGGAGTTCAAGGAGATTCCCCAGCTTGTTAAAGATGCCGTCGTATCCATAGAAGACAACCGTTTTTATACACATAAGGGTGTTGACATAAAAGGTACCGCTCGCGCCGTGAAGGAACGCGTGTTGAATGAGCCGGTTCAAACCGGCGGCAGCACATTGACGCAGCAGCTGGCCAGGCTTACTTTTTTAAGTCGTGACAAAACGGATAACCGTAAGGTAAAAGAAATGCTGCTGGCGATGCGGATGGAGCGCTTCTTAAGTAAAGACCAGATATTGACGGCCTACTTGAACAAGGTTCCATACGGCAACGGCTCGAGCGGATACCAGCTGTTCGGGATCAAGGCAGCGGCAAGAGGAATATTCAACATCAACAATCTGAATGATCTGAATGTGGCCCAAGCTGCATACTTGGCAGGTCTTCCGCAGCTGCCTTCCTCCTACTCGGCCTTCAACGGCAAAGGGGAATTTGATGAGAAATCGTTCAACCGGGCCATAAACCGCCAGCACCGCGTGCTGGCAAGCATGCTGGATGAAGGTAAAATAACGCAAGCCGAATACGATGAGGCCAAAGCATTCGATATCAAAGAATCGCTGGCTCCTCGCACGCAGAAAGCCTATGTGACTTATCCTTATCTCATGATGGAAGTCGAACGTCAAGCATCGAACATTCTGATGCAGCTAAGCCAGGAAGCTGAAGAGAACGCAAAAGGCAAGCAAGCGAACTCCGATCTGATGGATGCTTCCCGTGCTCAGCTGAGCACCGGCGGTTACCGCGTGTACACCACCATCGACCGGACGCTCTACAAGACCATGCGTTCCATTGCAGAGGATGACAGCAACTACTTGCCTGACAGCGCCGAAAAAGGAATGGAGCAAACCGCCGCGATGATGATCGACAACAAAACCGGCGCCATTCTCGGCATGATTGAGGGCAGGGATTTCAACACGGAACAAATGAATTATGCTACGCAAATGAAACGGCAGCCCGGATCTGCCATGAAACCTATTGCCGCCTACTTACCGGCACTTGATACGGGGGCGATTCAGCCTGCCAGCGTGGTGGACGATTCACCGATCATCTTAAAGGACTACAGCAAAGTATTCCATATCCCTAAAAACTCGTACACCGGGTACAGAGGATTGATGACGGCAAGACAGGCGCTGAACGATTCGACCAATACGGTGGCACTCAAGCTGTTTAACAACACGGTCGGCATTGAGAAGGCCTGGGAGTTTTCCAAGAAGCTGGGCATCACTACCTTGGAGGAAGACGATTATAATGCTTCAACCGGCGTACTGGGCGGATTGCATTACGGCGTGACCGTGGAAGAGCTGACGAATGCCTACAGTTCCATCGGCAATCAAGGCAAATTCACGGATGCATTCATGATCGAGAAAATCGTGGACTCCAAAGGCAATATTGTTTACAAACACGAAGTAAAACCGGAGCAGGTATTCTCCGAGCAGACAGCGTATCTCATGACGGATATGCTGCGTACCGTCATTACGAACGGAACCGCCAGCAAGGTCCGGGATACGTACAAGAAATTCAATGAGGTTCCCGTCGTGGGTAAAACCGGCTCCACCCAGAACTACGGGGATGTTTGGTTCATGGGGTACTCGCCGGATGTTACGCTTGGCGTATGGGTCGGATACAAGGAGCAAAAAAATACGCTTGTTGGCGATCAGCGCAAGCACGCCCAGGCCATCTGGGCCAGAATCATGAACGAAGCGACGGACGTTAAGCCGGAGCTGTTCCCAACCAAAACGTTTGAAAAGCCGGAAGGCATAACGTCCAAGACGGTCTCCGCTTACAGCGGCAAGCTGCCGACTTCCTTAACGGATAAATTCGTAACGGATCTGTTCAACGCGAAGTTCGTGCCTACCGAAAGCGATGACGGCATCGCCAAAGCAAAATACATTACCTATCGTGGCGTAAATTATATTCCACAGGAAGCAACGCCTTTGGATATGTTGAGAGAACAAATCGTAATCAAGCGCGAAAAGCCGATTGACGAGCTGATTGTGGAACTCCAGAACGCCTTGAAGGTTATGAAAGGTGAAAAGAAAGCGCTGGAATCCTATCTCCCGCAGGATGCGAAAAAAGGAATGCCAAGCAAGGTCGACCCGAGAACGGACGACGGCAAGGCTCCTACTCCACCGAAAAACGTACACTATTCGGTGGGCAGCGGCTCCATCAGCTTTAATGCCAGCGGATCGCCTGATGTTGTCGGATACCGGCTCTTTAAGTCCGTGAACGGCAGCCCGTACACTCATCAAGGTCAGGTCATTCTTGGCGACGAGAGCCTTGTCTTCTCAGGTCTTGGAGCTGACGGTGTATTTACGACCTATTACGTCGTCGCCGTTGACGTAGCCGGCAAGACGTCTGAGCCAAGCGCTATTGTGGGCGGCACAACATCGGGATTCCCATTACCGGGCGACACTGAAACGAACCCGGATGACACCATCGATCAGCCAGATGACGGCATCACCGAGGAAGAGCCCGATATCGATCCCGGATTTGGGAATGAAGGCGCCACGACTGTACCGTCTGCACCAGGCCAGCCGACACTCACAGCTACTCCGGAGGGTTTCCAGGCCACTTGGAGCGGAAACGCCCCAGAAGAAGAGGTCATGGTCTACAATATCTATATCAGCCCGAACAGTGACGGGAACTACCAGATTCTGGGCTCCAGCAAGAGCACGGAGTTCTACTACACCTCGGGCAACCCGATTGGCGGCACCTTTAGAATAACTGCCGTCAATCCGATTGGTGAATCTGCAGCTTCGCCAGCCGTATATTTTGAGAAAAAATAG	MVEEKKQEPEQQKKPRKRSFLRVLGSVIGWLFVVGLMGVLFAGGAVAGYVTSIVENEPVRSRALIENTVNDNAITGFAYFADGSPIGQLRTEEDRRPVEFKEIPQLVKDAVVSIEDNRFYTHKGVDIKGTARAVKERVLNEPVQTGGSTLTQQLARLTFLSRDKTDNRKVKEMLLAMRMERFLSKDQILTAYLNKVPYGNGSSGYQLFGIKAAARGIFNINNLNDLNVAQAAYLAGLPQLPSSYSAFNGKGEFDEKSFNRAINRQHRVLASMLDEGKITQAEYDEAKAFDIKESLAPRTQKAYVTYPYLMMEVERQASNILMQLSQEAEENAKGKQANSDLMDASRAQLSTGGYRVYTTIDRTLYKTMRSIAEDDSNYLPDSAEKGMEQTAAMMIDNKTGAILGMIEGRDFNTEQMNYATQMKRQPGSAMKPIAAYLPALDTGAIQPASVVDDSPIILKDYSKVFHIPKNSYTGYRGLMTARQALNDSTNTVALKLFNNTVGIEKAWEFSKKLGITTLEEDDYNASTGVLGGLHYGVTVEELTNAYSSIGNQGKFTDAFMIEKIVDSKGNIVYKHEVKPEQVFSEQTAYLMTDMLRTVITNGTASKVRDTYKKFNEVPVVGKTGSTQNYGDVWFMGYSPDVTLGVWVGYKEQKNTLVGDQRKHAQAIWARIMNEATDVKPELFPTKTFEKPEGITSKTVSAYSGKLPTSLTDKFVTDLFNAKFVPTESDDGIAKAKYITYRGVNYIPQEATPLDMLREQIVIKREKPIDELIVELQNALKVMKGEKKALESYLPQDAKKGMPSKVDPRTDDGKAPTPPKNVHYSVGSGSISFNASGSPDVVGYRLFKSVNGSPYTHQGQVILGDESLVFSGLGADGVFTTYYVVAVDVAGKTSEPSAIVGGTTSGFPLPGDTETNPDDTIDQPDDGITEEEPDIDPGFGNEGATTVPSAPGQPTLTATPEGFQATWSGNAPEEEVMVYNIYISPNSDGNYQILGSSKSTEFYYTSGNPIGGTFRITAVNPIGESAASPAVYFEKK	PGPT0023890_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023890-pbp1b-K03693	NA	NA
AK002_02006	603	rpsD		30S ribosomal protein S4	ATGGCACGTTACACCGGTCCTAAATTTAAATTAAGCCGTCGTCTGGGAATCTCCCTGAGCGGTACAGGTAAAGAATTGGCAAAGCGCCCTTTCCCTCCAGGTCAGCATGGTCCTAACCAACGGAGAAAAGTAAGCAACTACGGTATGCAGCTTCAAGAAAAGCAAAAGCTGCGTCACATGTACGGCTTGGGCGAGAAGCAATTCCGCACCCTGTTTAACAAAGCTACCAGCATGAAAGGTATCGCGGGTGAGAACTTCATGTTCCTGCTTGAGAGCCGTCTGGACAACCTGGTATACCGTCTTGGCTTCAGCAACTCCCGTGCGGGCGCTCGTCAATTGGTAGCTCACGGTCACGTGACTGTGAACGGCAAGAAAGTCGATATCGCTTCTTATGCTGTAAGCACTGGCGATGTAATCGGCCTTCGTGAAAGAAGCCGCAGCCTCTCTTCCATCAAGGAAGCTTTGGCTAACCGCGTGCATCTTCCAGCTTACCTCGAGTTTGACGAAGCAGCAATGGAAGGGAAATACATCCGTCTTCCAGAACGTTCCGAGCTTTCCCAAGACATCGACGAGAAACAAATCGTCGAATTCTACAACCGTTAA	MARYTGPKFKLSRRLGISLSGTGKELAKRPFPPGQHGPNQRRKVSNYGMQLQEKQKLRHMYGLGEKQFRTLFNKATSMKGIAGENFMFLLESRLDNLVYRLGFSNSRAGARQLVAHGHVTVNGKKVDIASYAVSTGDVIGLRERSRSLSSIKEALANRVHLPAYLEFDEAAMEGKYIRLPERSELSQDIDEKQIVEFYNR				NA	NA	NA	NA	NA
AK002_02007	1992			hypothetical protein	ATGTCAGAAGAACAACGGAAAGTGTATGAAAGCTCTCCCGGTTCTGCGGTCATGTTCAATGATGCCGGGCCAATTCCTGGAAACGAGCCTCGTCTATGGCTTCAGGGCTTGGATATTACACCTCATGATTTCCCTTATATTCAGCCTCTCATATCAGACAGCTATCTGGAGTGGCTAAGAGAAAGCGCTGGCACGCAGGCGATGCGGAAATTCAGCTGGGCCCTTCTTTCTCATGAGGGAGCTTGGCTGACAGGGGCACCCGAAATAACGGAATACGTTCATGCAAGCGAGGATGAGACGCTGACGCATACGCTCCGTTCGAAAGAAGCCGCCCATGGCATGGGCAAGGGTTCGCTTGAGGGAATGGTGCTGTGCGCTGTCCCGCTGTTCACGCGTGTCCATGGCGATTTTTTTGCGGTGATGGTCAGCGTTGCCTCGGGGAGGATGGAGCCGGAGCAGTCGCTCATGCTGACGGAAACTTACGCATTGCTCTTCCGTTCCTGCTTCTATCGCCAGATGGAGTACATCTTTGCGGATGACCTGGAGAAGGTCCACCGCCAAGCCGAACGTGAAGTGCAGAGGCGTTCCATCTTGTTTCAGTACGTGAAGCGGATGCATGTGCAGATCAATGTGGACAGCGTGCTGGTGGAGGCCATTGATAGCGTCCTGGCCCTGTATCCCAAGGCGAAAGTCGAATTGTTTATGTCACAGGACCATGAAAGCGTTCATCCGCTCGTGCGTCCGCTGCTGCTCCATCATTGGCAGGAAGAGGTTTATGTGCGCACCTTTATGGAAGGTTCCCTGACGATTCATGAGCATGAAGAACCCGACACGCTGGTGGAGATCGGGATTCCCATGGGAGGCAAGCAGGGCGTCTATGGGGTGCTTCACGTTGAAGTGGACAAGTTGGAACTGCCCGATATGGATCTGGAGCTGCTGGGGATGATGGCCGATGCCGCAGGCACCGCCTTCGAGAACGCCAAACTGTACGAGCAATCCAACCTGATGATTCATGAGCTCCGCATGATTAATGAGCTGACCCAGCGGCTGAACAAAAGCTTGCATTTGGCGGAGATATTTCAATTCGCCAATCATGAACTCCTCAAGATCCTTGAAGCGGATTACTGCTGCATTCTGATCCATAACGAGGAGCTTGGCGGTCTAGAGGTGGTATCCTGCAACGCCGAGTGGCTGGCCAAGGAGGTCTTCGAGAAGGACTACGGCCTGGGGGGCCTCGTCTATCATTCGAAGGAGCCGCTCATTCTGTCAGACTATCAGGAAGAGCGTCCGGCAGAATCCAGGCTGATGGAGAGCACGCGGTCCAGCTCGATGATTGCTACTCCGCTAATGGTTAACGGCGAGGTGAGGGGCGTCGTCCTGCTCACCCATGCGAAGCGGCATTATTTCTCGTACGACAGCTATCGGCTGCTTCAAGCCTTGACAAGCCATATCGGCTTGGCGATCGGGAATGCCTTTCTGCATGCGGAAGTGAGAAGAATGGCTAACCGGGATATGCTGACCGAACTGTATGCCAGACATTATCTGGATGAAATAATCCATGAATGCCAGAACCGTGATTTTTGCGGCTCGCTCATCGTGGTGGATATCGACGAATTCAAGCAGGTCAACGACACGTTCGGGCACCAGCGTGGTGACAAGATTCTGAAGCAGGTCAGCAGCATCGTAAAAACAACCATTCGTCACAGCGATATTCCGGCCCGTTGGGGCGGTGAGGAGCTTGCGGTGTATCTGCCGGGACTCGGCATTCAGCAGGCGGTGCAGGTGGCCGAACGGATTCGCTTACGGGTGGCCGAAGAGACCGATCCGCGCGTAACGGTGTCGTGCGGGATTTCCGAGTGGAACTGGACCAACGACAAGATCAGCGTGGAGTCGCTCTTCTATCGGGCGGATATGGCGCTCTACGAAGCCAAGAATGGCGGTCGCAACCGGATCGTCGTGGAGAGGGCCGAAGCCGAGATCGGAATGGATTAG	MSEEQRKVYESSPGSAVMFNDAGPIPGNEPRLWLQGLDITPHDFPYIQPLISDSYLEWLRESAGTQAMRKFSWALLSHEGAWLTGAPEITEYVHASEDETLTHTLRSKEAAHGMGKGSLEGMVLCAVPLFTRVHGDFFAVMVSVASGRMEPEQSLMLTETYALLFRSCFYRQMEYIFADDLEKVHRQAEREVQRRSILFQYVKRMHVQINVDSVLVEAIDSVLALYPKAKVELFMSQDHESVHPLVRPLLLHHWQEEVYVRTFMEGSLTIHEHEEPDTLVEIGIPMGGKQGVYGVLHVEVDKLELPDMDLELLGMMADAAGTAFENAKLYEQSNLMIHELRMINELTQRLNKSLHLAEIFQFANHELLKILEADYCCILIHNEELGGLEVVSCNAEWLAKEVFEKDYGLGGLVYHSKEPLILSDYQEERPAESRLMESTRSSSMIATPLMVNGEVRGVVLLTHAKRHYFSYDSYRLLQALTSHIGLAIGNAFLHAEVRRMANRDMLTELYARHYLDEIIHECQNRDFCGSLIVVDIDEFKQVNDTFGHQRGDKILKQVSSIVKTTIRHSDIPARWGGEELAVYLPGLGIQQAVQVAERIRLRVAEETDPRVTVSCGISEWNWTNDKISVESLFYRADMALYEAKNGGRNRIVVERAEAEIGMD				NA	NA	NA	NA	NA
AK002_02008	828			hypothetical protein	ATGCGAAACAGAAGGTTACGAAGCGTTATCGCAATGATGGTATTCATTTTTGGATTAACCGGATGCGCCTGGCAGGATCAGCTGACTGCCGAAGAAGCGTTTAACCGTGCTTTATCGGGGCTGTCCGGCATCGATAATTTCTCTTTTCGAGGAGAAACGGCGATTCGGAGCGGAGAAACAGGACCGTTTGAGGAAAGCTTGGCGTTTGAAGGGAATCTGCGGCATCATTCCGACCTGACCTTATCTTCTAAAGAGAGAAGCACCGTCATACGGAATGACAAGATGTCTGCCGAATCGGCATATAAATCGAATGAACTTACCGTGACGCTCAAGCGTAAGGATGGCAAGTGGAGCACGCTTTCGTCGGAGCATGCCGGGGGAATGTGGATGAGCCGGTTAAATCCGCTGGAATTGCTGGAGTACATGGGCAAGTCGGAGAAGACCGTTACCCAGGAACTGGGGGCCGCAAGAGGAACGAAGGTGCTGCGTGTCGAGCTTTCGCCCGAGGCGGCTGCCCATATGGTGCAGGAGTCGCTGGATGAGCAGATGAAGGCGTTGGCTGAGCGGATTGAACGCAAAGACGACCCGTTATACAGCGACGATCCGAAGGTTCGCAAGCGGCTGAAGGAAATCTGGGAAAGGGACTACCATGAAATGAAAAACATGCTGAATGAGGCGGATGCCGTTTCGGTCTGTCATGTAACCATTAACAGAAAAAGCCAGCTGCCTACCAAGATGACCATGGAGCGCAGGGTATCCTTTGTGGACGAACAAGGCAAAACACGTACCGAAACACTGCTGTCGGATGTTACGTTTACCGGTTATTGA	MRNRRLRSVIAMMVFIFGLTGCAWQDQLTAEEAFNRALSGLSGIDNFSFRGETAIRSGETGPFEESLAFEGNLRHHSDLTLSSKERSTVIRNDKMSAESAYKSNELTVTLKRKDGKWSTLSSEHAGGMWMSRLNPLELLEYMGKSEKTVTQELGAARGTKVLRVELSPEAAAHMVQESLDEQMKALAERIERKDDPLYSDDPKVRKRLKEIWERDYHEMKNMLNEADAVSVCHVTINRKSQLPTKMTMERRVSFVDEQGKTRTETLLSDVTFTGY				NA	NA	NA	NA	NA
AK002_02009	1116	pepS	COG2309	Aminopeptidase PepS	ATGCGTGATCCCAGAATTCAAAAGTTGGCTCAGAATCTCGTGAACTACTCCGTGGATATGCAGCCAGGGGAAAATGTGCTCATCGAAATGATCGGATCGGAGCGCGATCTGCTGAATGCCATTATCGAGGAGGTCTCGAAGGGAGGCGGCCGTCCGTTCGTGCAATTGACGGATCGTACGGTGCAGCGCGCGATGTTGAAGAACGCAAATAAAGAGCAGCTTGAGCTGTGGGCAGAGCTGGATCTTGAACGCATGAAAAAAATGGATTGTTACATCGGCATTCGCGCAGGCGAGAACGTCAACGATATGGCTGACGTGCCCGAAGAGAACATGAAGCTGTACAATGCCCTTTACTCGCATCCCGTACATAGCGAAGAGCGCGTGAAGCGCACCAAATGGGTGGTTCTCCGTTACCCGAACGCCAGCATGGCGCAGCTTGCCAACACCAGTACGGAGGCCTTTGAGGATTTCTACTTCGATGTGTGCAATCTGGATTACTCCAAAATGGACCGCGCCCAGGATCCTTTGGCCGAGCTGATGAGGAATACCGACAAGGTTCGCATCGTGGGACCGGGAACGGACCTCAGCTTCTCGATCAAAAACATCGGCGCGGAAAAGTGCTCCGGCCAGAAGAACATTCCGGATGGCGAGGTGTACACCGCGCCCGTTCGCAACTCGGTTAACGGGACGATCGCTTACAACACACCGACTCTTTACAATGGAGTCACCTTCGAAAATATTAAATTCCGCTTTGAAAACGGGAAAATCGTCGAAGCAACAGGGAGCGACACGAAGCGGCTGAACGAGATCCTGGATTCGGATGAGGGTGCGCGGTACATCGGCGAATTTGCCATCGGCTTCAACCCGTACATTTTGACGCCGATGAAGGATATTCTTTTCGATGAGAAAATTGCAGGAAGCCTGCATTTTACGCCAGGCCAAGCATATGATGTAACAGACAACGGCAATCGATCCTCCATTCACTGGGATCTTGTTTTGATCCAGCGGCCGGAATACGGCGGCGGGGAAATCTACTTTGATGATCGCCTGATCCGCAAGGATGGCATATTCGTTATTCCAGAACTGGAAGCATTAAATCCGGAAAATCTTAAATAG	MRDPRIQKLAQNLVNYSVDMQPGENVLIEMIGSERDLLNAIIEEVSKGGGRPFVQLTDRTVQRAMLKNANKEQLELWAELDLERMKKMDCYIGIRAGENVNDMADVPEENMKLYNALYSHPVHSEERVKRTKWVVLRYPNASMAQLANTSTEAFEDFYFDVCNLDYSKMDRAQDPLAELMRNTDKVRIVGPGTDLSFSIKNIGAEKCSGQKNIPDGEVYTAPVRNSVNGTIAYNTPTLYNGVTFENIKFRFENGKIVEATGSDTKRLNEILDSDEGARYIGEFAIGFNPYILTPMKDILFDEKIAGSLHFTPGQAYDVTDNGNRSSIHWDLVLIQRPEYGGGEIYFDDRLIRKDGIFVIPELEALNPENLK	PGPT0020940_1524	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
AK002_02010	246			hypothetical protein	ATGTCCAATAACAATCAATCTATCGTAGAAATTTCGCAAACAGCCAGCCAGTTCACATCCTCCATCGTTTTGCAGGCGGAGAACAAGTACATTGATGTTAAGAGCATCCTGGGTCTGTTCACAACGCTTGTCAACAGCCAAAGCTATGAACTGCATGTACATGGTCCTGATGCCGATGAAGCTAAAAAAGCAATGATCGACGTATTCACCAAGCATGGCTTGAACGTATCCGTCGTGGCTGAATAA	MSNNNQSIVEISQTASQFTSSIVLQAENKYIDVKSILGLFTTLVNSQSYELHVHGPDADEAKKAMIDVFTKHGLNVSVVAE	PGPT0016875_3710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
AK002_02011	288			hypothetical protein	ATGACTTCATCTGATTTACAGGAACAGCTGAATCTCAAAGCGATCAGTCTTCTTCATGAAGATGCAGATAAAATCCTAAAGCTTATTGAAGTACAGATGGAGAATCTGGCGACCCGTTATTGCCCTCTCTATGAGGAAGTGCTGGATACCCAAATGTACGGTTTTTCAAAAGAGGTTGATTTCGCGGTGCGGGCCGGGCTTCTTCCGGAAAGTACGGGAAAGCAGCTGATCAGCAAGCTTGAACGCAATCTGGCGGTCCTGTACGAAGCCATGAATCAATCCAAATAG	MTSSDLQEQLNLKAISLLHEDADKILKLIEVQMENLATRYCPLYEEVLDTQMYGFSKEVDFAVRAGLLPESTGKQLISKLERNLAVLYEAMNQSK				NA	NA	NA	NA	NA
AK002_02012	1074			Ca(2+)/H(+) antiporter	ATGAAGAAATGGCTCAATCCCGCGCTTCTGATCTTTACCTTTTTGCTTAGTGCGCTGGGACATTTTGCGAATTGGAACTTCACGCTCCAGTTCATTCTGTCTGCCATCGCGGTTATTTTTGTCGCCGGTTTTCTCGGCAAAGCAACGGAAAGCGTCGCGCATTACGCCGGCCAACGGCTCGGGGGATTCCTGAACGCTACCTTCGGCAACGCGGCAGAGCTGATCATCGCCATCCTGCTGATTAAGGAAGGTTTGTACGATATGGTGAAAGCCAGCATCACCGGCTCCATTATCGGCAACCTGCTGCTCGTTCTCGGGCTCAGCCTGTTTGCCGGGGGCCTCAAGTTTAAAATCCAGAAATACAATGTGACGCTGGCAGGTCTGAACGGCTCCCTGATGACGCTGGCCATTATCGCCCTGTTCATCCCTGCGGTCTTTCTGAATACCCACTCCATTACGGAGGGTGAAACCAAGACGCTCAGCCTCATTGTGGCGGGAATTCTGATCGTGGCCTACATCGCATGGCTTGGATTCTCGATGATCACCCATAAAAATTATTTGGCGGATGTCAGCGACGATCACGACCAGGATGCGCTTCCGCACGAGCACGGTCCCACTTGGTCCAAGAAGCGCTCGATTCTGTACCTTGTCATCGCCACCGTGATGGTTGCGTTTGTCAGCGAATGGCTTGTCGGGGTGCTTGAGCCCATCAGTCACGAATATGGCCTCAGCGAGCTGTTTATCGGGGCCTTCCTGGTAGCGATTATCGGCAACGCCGCAGAGCATAGTGCAGCCATCATGCTTGCGATGAAGAACAAAATCGGCGCGGCCGTTGAAATTGCCGTCGGCAGCAGCCTGCAGATCGCCCTGTTCGTTGCTCCCGTGCTTGTGTTCATCAGCTTTTTCCTTGGGGATACGATGGATCTCGTGTTCACCACGCTGGAGCTGGTCGCCATCGGCGTCGCCGTATTCATTGCCAGGTCCATTACGCAGGACGGCGCCTCCAACTGGTATGAAGGCCTGCTGCTGCTCGCCGTATACGTCATACTGGGCGTCTCCTTCTTCCTCGTCTAA	MKKWLNPALLIFTFLLSALGHFANWNFTLQFILSAIAVIFVAGFLGKATESVAHYAGQRLGGFLNATFGNAAELIIAILLIKEGLYDMVKASITGSIIGNLLLVLGLSLFAGGLKFKIQKYNVTLAGLNGSLMTLAIIALFIPAVFLNTHSITEGETKTLSLIVAGILIVAYIAWLGFSMITHKNYLADVSDDHDQDALPHEHGPTWSKKRSILYLVIATVMVAFVSEWLVGVLEPISHEYGLSELFIGAFLVAIIGNAAEHSAAIMLAMKNKIGAAVEIAVGSSLQIALFVAPVLVFISFFLGDTMDLVFTTLELVAIGVAVFIARSITQDGASNWYEGLLLLAVYVILGVSFFLV	PGPT0013985_2401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013985-chaA-K07300	NA	NA
AK002_02013	387		COG1302	Alkaline shock protein 23	ATGACGGAACAACTTCAACTGGATAACGGTTTGATTCGAATATCGGATGATGTCGTCTCGAAAATTGCTGGATTGGCTGCCTTGGAAACCCCAGGTATTGCAGCCATGTCCGGTGGATTGTCCGAGGGCTGGGCGAAGCGGCTGAGCGGCAAAAATGTGCAGAAGGGTGTTACGGTAGAAGTAGGGCAGCTGGAGGCAGCGATCGACCTGCGGATTATCGTGCTTTACGAGACGCCTATACATGAAGTGTGCCGCATGCTTCAACAGAACGTCCGCGAAGCTGTCGAGAGCATGACAGGGCTTCGTGTGGTTGAGGTCAACGTGAAGGTCGAAGGTGTAGCTTTCAAAGACGACGAAATCGACGATATTCAGCTTCGAGCCAAATAA	MTEQLQLDNGLIRISDDVVSKIAGLAALETPGIAAMSGGLSEGWAKRLSGKNVQKGVTVEVGQLEAAIDLRIIVLYETPIHEVCRMLQQNVREAVESMTGLRVVEVNVKVEGVAFKDDEIDDIQLRAK				NA	NA	NA	NA	NA
AK002_02014	1218	ftsW_2	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGAATACGACCAAACCTCAGCCGAAGAGAGGGACGCCTGATTTTCAACTGCTGATCCTTACCTTGCTGTTGGTGGGATTCGGACTGATCATGGTGTTCAGTTCCAGCTCCAGCTTGGCCGTTTTCAATGAAAAATTCAATAACGATCCGCTGCACTTCACGAAGCGGCAAGCCGCGTTTGCGGTTCTGGGCACGTTTGTCATGTTTGTGGCCATGAACATCAACTATAAGAAATACAAGAAGCTATTCATACCGGTGTTTTTTCTAACCTTGATGCTGCTGATTCTTGTGGTGATTATCGGTTCCGCAACCAACGGCGCCACGAGCTGGTTTAATTTGGGGAAATTCGGCATCCAGCCGACCGAACTGGCCAAAATCGCGACGATCGTCTATCTGGCAGCGCTGATCACCAAAAAAGGGGAACGAATCCGTCAATGGAAGGGCGGTTTCTTCCCCGTACTCATTATTGTAGGGATCGTAGCGGGCCTGATCATGCTTCAGCCGGACCTGGGCTCCTGCTTTATCCTCGTGGCTACCAGCGGGCTGTTGATCTATGCGGGGGGCGCCAGCCTTAAGCATATTCTCGGCTGTATCTCGCTTGTTGCGCTTGGCCTGGTGCTCACGCTCGGCGTCGGATCGCTCTTTAACTCCGGCGGAGATCAGGAGCAGGCCTCCAAGAACTACAAGATGGGACGAATCGAGGCATTCATGGACCCGTTCCATGACGAATCGGACACGGGCTACAATCTGGTCCAATCGCTGATTGCCATCGGCCAGGGCGGCGTCACCGGAGCGGGTTACGGGGAGAGCGTGCAGAAGCTGCATTATCTGCCGAATCCGTACAACGATTTCATCTTCTCGGTCATCGGCGAAGAATTCGGTTTTATCGGAACCGCGATATTCCTGCTGCTCTATTTATACTTCATCCTGCGGGGGATCATCGTGTCGCTTCGCTGCTCGGATCCGTTCGGAACCTTGACCGGCGTCGGCATCATGGGACTTATCGCCATTCAGGCCTTCATCAACATCGGCGGGGTGACCAATACCATTCCGATAACGGGCGTTACCCTCCCGTTCATCAGTTACGGCGGATCCTCGCTGCTGGTCATGATGCTGAGCATGGGCATCGTGCTTAGCATATCCAGGGACAGCAACCGTCCGATGAAAGAGGAGCAGGTTAAATCCGTAATTAAAAAAGACTACCGGGCAACCGTGTAG	MNTTKPQPKRGTPDFQLLILTLLLVGFGLIMVFSSSSSLAVFNEKFNNDPLHFTKRQAAFAVLGTFVMFVAMNINYKKYKKLFIPVFFLTLMLLILVVIIGSATNGATSWFNLGKFGIQPTELAKIATIVYLAALITKKGERIRQWKGGFFPVLIIVGIVAGLIMLQPDLGSCFILVATSGLLIYAGGASLKHILGCISLVALGLVLTLGVGSLFNSGGDQEQASKNYKMGRIEAFMDPFHDESDTGYNLVQSLIAIGQGGVTGAGYGESVQKLHYLPNPYNDFIFSVIGEEFGFIGTAIFLLLYLYFILRGIIVSLRCSDPFGTLTGVGIMGLIAIQAFINIGGVTNTIPITGVTLPFISYGGSSLLVMMLSMGIVLSISRDSNRPMKEEQVKSVIKKDYRATV	PGPT0014810_1821	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
AK002_02015	348			hypothetical protein	ATGATTTTCGAAAATACAGGCTTGGACGGATTGCACAGCGATTTAGCTTACCTCGATGAATGTGCCGAGAAAGTAGGCTTCATTCGTTGGCAGTGGGAATATTACCGCGCTACATACGACTTGAAAATCGAAGATAAAAAAAATCAGGCTGAATACTTCCTGCGCATTAACACCCGCGCTGTTGAAGGCAAGCTGGAGAAACCGGACACCATCCTCAAAATCGAAGCGGTATACCTGGGCAAAGCCACGTTCCCGCACGGTCTCGAGTATGAATCCATGGCTCCGCAGCCCGTCATGAATGTGGCCACCAAGAAGCTTCAAGAGCTCAAAGCTCTTCTGGAAGCGTAA	MIFENTGLDGLHSDLAYLDECAEKVGFIRWQWEYYRATYDLKIEDKKNQAEYFLRINTRAVEGKLEKPDTILKIEAVYLGKATFPHGLEYESMAPQPVMNVATKKLQELKALLEA				NA	NA	NA	NA	NA
AK002_02016	510	nudF_1	COG0494	ADP-ribose pyrophosphatase	ATGAACCGCGTCGTTTACCGCACGGAGTATTATGCAGTGGAAGAAAACGGACAGAAGGAAATCGTCGTGATCGACCGGATTCCGGATTCGGCAGCGGTTGTGGCCGTCCATCAAGGGTGCCTGCTTCTGGTATGCCAGCATCGGGAAGCGGTGAATGAGATCACCTGGGAGCTTCCCGGCGGAACGGTGAAGCCCGGCGAGGAACGCACGCTTGCCGTTAAGCGGGAGCTTGAGGAAGAGGCTGGCGTGCAGTGCAAGGACCTGTCCTACATGGGCAGTGCTTATCCGATGGCTTCTCTGGCCAACCGGAACGTTTATTTTTATTTCACCGACGATTTGAAGGTGTCCGGGAGCCGGGAGTCGAATCAAGAGGAAGACGAAGACGTTAGAGCGGTGTGGGTCCCGCTCAGGGATGTATATCGCAGGATCAAGGAGGGCGGCCGGATGGATGCCATGGTTGGGCACGGACTGCTGCTGAGCAAACTCCACGGCTTTCTTGCGATCGATTGA	MNRVVYRTEYYAVEENGQKEIVVIDRIPDSAAVVAVHQGCLLLVCQHREAVNEITWELPGGTVKPGEERTLAVKRELEEEAGVQCKDLSYMGSAYPMASLANRNVYFYFTDDLKVSGSRESNQEEDEDVRAVWVPLRDVYRRIKEGGRMDAMVGHGLLLSKLHGFLAID	PGPT0021525_3857	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
AK002_02017	1179			N-acetyldiaminopimelate deacetylase	ATGAACTTGATGAAGGAAACATTTTGGGATCAATGGTATCCACGGATGGTGGAGTGGCGGCGTCATTTACATATGCACCCGGAGCTTTCGTTCCAGGAGAAGGAAACTTCGGGATTTATAGCAGCCCGGCTGCAGGAGCTCGGCCTTGTGGTCAAGACCGGTGTTGGCGGGCATGGAGTTATAGGGACGTTAAAAGGGGATAAACCCGGCAGGACGGTTGTGCTGCGGTCCGACATGGATGCACTGCCGATCGAGGACGGCAAGAGCTGCGAATACAAATCGAGGGTGCAGGGAGTGATGCACGCTTGCGGGCATGACGGGCATGCCTCCATGCTGCTTGGAGCCGCCGCATATTACAGCACGTTCCCAGAAGAAATTCAGGGGGAGATTCGTTTTATGTTCCAGCCGGCGGAAGAAGTATGCCCCGGCGGTGCGGTGGAGATGATCAAGGACGGGGCGCTCGATGGGGCCGACGTTGTCTACGGTCTGCACCTGTGGACGCCGTTACCTGTCGGGACCGCAGCGAGCGCGCCGGGTCCGCTGATGGCGGCGGCGGATGAGTTTTTCATTGACATTACGGGGCGCGGGGGGCATGGCGGCATGCCGCATGTGACGGCCGATGCCCTGGTTGCGGGGGCTGCGCTTGTCATGCAGCTTCAAACCATCGTAAGCCGCACCGTGGATCCGCTGCAGCCTGCCGTCGTTACGGTAGGGACGATGCAAGCCGGAACGGCGCAAAACGTCATAGCCTCCTCCTGCCGGATCACGGGGACGGTGCGCACATTTGACGAACCTACCCGGACATTGATCCGGGAGCGGATCGAGCATATGACCCGGACGGTTTCCGAAACCTACGGCACAAAGGCGGCGATTCGATATCTCGTCGGCTACCCTCCCGTGGTGAACGATGAAGCCGAAACCGCACGATTTTTCCGTACGGCACCCAAAGTGTTCGATGCGGATCAGGTCACCGTTTCGCCCAAACTGATGCCGGCAGAGGATTTCGCTTATTACTTGAAGGAAATTCCGGGCTGCTTCATTTTCGTTGGAGCCGGCAACCCCGACAAAGGGGCGATTTATCCGCATCATCATCCGATGTTCGACTTTGATGAAGATGCGATGCGCTACGGGGCGAAGCTGCTGGTCGAGATGGTGTCGAGTTACCAGAACGGGGAATAG	MNLMKETFWDQWYPRMVEWRRHLHMHPELSFQEKETSGFIAARLQELGLVVKTGVGGHGVIGTLKGDKPGRTVVLRSDMDALPIEDGKSCEYKSRVQGVMHACGHDGHASMLLGAAAYYSTFPEEIQGEIRFMFQPAEEVCPGGAVEMIKDGALDGADVVYGLHLWTPLPVGTAASAPGPLMAAADEFFIDITGRGGHGGMPHVTADALVAGAALVMQLQTIVSRTVDPLQPAVVTVGTMQAGTAQNVIASSCRITGTVRTFDEPTRTLIRERIEHMTRTVSETYGTKAAIRYLVGYPPVVNDEAETARFFRTAPKVFDADQVTVSPKLMPAEDFAYYLKEIPGCFIFVGAGNPDKGAIYPHHHPMFDFDEDAMRYGAKLLVEMVSSYQNGE				NA	NA	NA	NA	NA
AK002_02018	1788			hypothetical protein	GTGCACAACAAGCCTTGCATCGTCCAGCGCGATCGGACCATACTTCTTGAAACCGCCCATGCGGATGCGGAGGCTGCGCGCGAGCAGCTTGCCCAATATGCGGATTTGATCAAAAGTCCCGCATCATTTCATACATATCGCCTGACCCCTTTATCTTTATGGAACGCCGCTTCTGGAGGCATGACGGCTGAAGCGATTTGCTCGAGCCTCCAGTCGTTGTCGCGTTGGGACGTGCCGGCCTCCCTGCTGGAAGAGATTCGCCAGCTCGTTGGGCGTTACGGGCAGCTGTCGCTGCTCCCGCATCCAACGCTTGATCGTGCATTGCTGTTATCCGGCAATGAGGAAGCCCTGATGCAGGAGCTGACGTCCCATCGCTCCCTGAGGGAAATCGGCGTCCGGTTGATTTCGCCGAAGGAAGCGGAGGTGCCTTCGGACCGCCGCGGCGTGTTAAAGCAGGAGATGACCCGGCTCGGCTATCCTGTGCTGGACCTCGCGGGATATATGGACGGGCAATACCTGAACATTCTTTGGCGGGGAGAGAAATCGGGCAGCGGGCGCCTTGAAGATTCGAACGGCGGATCCAACGATCTGCGCTTCGTGCTTCGCGACTATCAACAGAAGGCTGTCGACTCCTTCAGGGATATTGGCGGCGAAGGCGGCAATGGAGTGCTGGTCCTGCCATGCGGCGCAGGGAAAACGGTCATTGGCATCGCAGCCATGCGCGAGCTGCAGTGCGAGACGCTGATCCTCACTTCCAATACCACGTCGGTAAGGCAGTGGATCGCCGAGCTGATGCAGAAAACGACGCTGTCCGTGGATGAAATCGGCGAATACTCCGGTCAGCGCAAACAGGTCAGGCCGGTGACAGTCGCTACCTACCACATCTTGACCCACCGGCAGGGCAAGGGGGAGGAGCAGCAGCATATGAAGCTGTTTAATGAACGGCGCTGGGGCTTGATCATTTATGACGAGGTCCATCTTCTACCCGCTCCGGTATTCCGCGCGACGGCCGACATCCAGGCGACCCGCAGGCTTGGCCTGACCGCCACTTTGGTTCGCGAGGATGGAAGGGAGAGCGACGTGTTCTCCCTGATCGGTCCCAAGCGATATGAAATGCCGTGGAAAAGGCTTGAGGCACAAGGGTGGATTGCTTCGGTGACCTGCACGGAGATTAAGGTGCCGCTGCCGGACGAGATCAGAGAAGCCTGCGAAACGGCAGGCAAAAGGGAGCAATATCGGCTTGCTGCCGAGAATCCCTCCAAGCTTGATGTGATTCGGCAGCTCGTGGATGTCCACAAGGATGCCCAGACGCTCATCATTGGACAATACCTGGATCAGCTCCATGCCATTTCCAGGGAGCTGCAGGCCCCGCTCATCACGGGACAAATGACCCAGGATCAGCGTAACGAATGGTATAACGCCTTCCGGGAAGGAAACGTACGCGTGCTTGTCGTATCGAAAGTGGCAAACTTCGCGGTCGATCTGCCCGATGCTTCCGTAGCGATTGAGGTTTCGGGCAGCTACGGCTCGCGGCAGGAGGAAGCGCAGCGGCTTGGACGTTTGCTGCGGCCCAAGACAGGGGAGAATCGGGCTTATTTTTATGCATTGGTAACGGAGGACAGCCGGGAGGAGATCTTTGCGATCCGGCGACAGCTGTTTCTGATTGAGCAGGGGTATGAATATCACGCGATACATGCAAAGCAGCCGGCGGCTTCCCTGGATCTGATCGCGAGGCGAAATACCCGCTCTTATCAGCATCCCGACGGGAAGGAGGTCTCGTGGAGATGA	MHNKPCIVQRDRTILLETAHADAEAAREQLAQYADLIKSPASFHTYRLTPLSLWNAASGGMTAEAICSSLQSLSRWDVPASLLEEIRQLVGRYGQLSLLPHPTLDRALLLSGNEEALMQELTSHRSLREIGVRLISPKEAEVPSDRRGVLKQEMTRLGYPVLDLAGYMDGQYLNILWRGEKSGSGRLEDSNGGSNDLRFVLRDYQQKAVDSFRDIGGEGGNGVLVLPCGAGKTVIGIAAMRELQCETLILTSNTTSVRQWIAELMQKTTLSVDEIGEYSGQRKQVRPVTVATYHILTHRQGKGEEQQHMKLFNERRWGLIIYDEVHLLPAPVFRATADIQATRRLGLTATLVREDGRESDVFSLIGPKRYEMPWKRLEAQGWIASVTCTEIKVPLPDEIREACETAGKREQYRLAAENPSKLDVIRQLVDVHKDAQTLIIGQYLDQLHAISRELQAPLITGQMTQDQRNEWYNAFREGNVRVLVVSKVANFAVDLPDASVAIEVSGSYGSRQEEAQRLGRLLRPKTGENRAYFYALVTEDSREEIFAIRRQLFLIEQGYEYHAIHAKQPAASLDLIARRNTRSYQHPDGKEVSWR				NA	NA	NA	NA	NA
AK002_02019	1719			hypothetical protein	ATGACGAGACAGCAGGACATGGCGGACACGATGAGCCTGGAACGGCTTCTTCCGAAGGAGCGAACGGTCCTCCATCATATCTGGTCCCGCTTTGCCGGGCAGGGTTTCGATGACGACAAGCTGCGCTCATTGCGATTTCCTCGATTGAGCGGCGTGGAGGTGCAGCTTGCCTTCATCTCCTTGAGACAACAGGGATGGGTGCGAGCGGTCAAGCGGGGGTGGGGCGAGCGGCTGTATTTCATTCCTTTTGACAAGCTGCAGATCCTCCAAGAAGGCTGCGGTCCTGTGGAGTCACTTGAAACAAGCTCCATCCCTCCTGCATCCGTGAGGCTTCAGCAGGAAGCAAGAAGCGGCGTAGCGATCGATATGTTCAATGTTCTCGCATATATGGCCAAAAACCGCGTATCGTTGACCACAAAAGGGATTTTGCATAAGAAATATATTCAGAAACTGGGGGGCGAGATCGCCTTAACGCCATACGATGTCGAAGGGCTTTCCCTTCACTATGATCATGCGGATGCGTACCCTCCACATGTGGCGATGGTTTTGGATCTGCTGTTTACGTTTGAGCTGGTCGCTGCCGATCAGGGGGAGCTCAAGCTGAACCGTACCGCATTGCGGCGTTGGCTTATGCTCTCCCGGGAAGCGATGGACAGGTTCGTCCTTCTTCACATGATGGAACGCTACATTCCGAACTCGGCCGGGTTTCAGCATTGGACTTGGCGGATATGTCACTCGTCGCTGTCCGGCGGGGTGTGGTACCGCGCCCGGCAGATGCCCGCTGCAGTCTCAGAGCCTTTGGAAGGAGGGGCATCCACCGGAAAAGAATTATTGCCGGAGGAAGCCGCTTCATGGCTCCGGTTATTAACCGGCTGCGGTTACACCGATTTGGGCATCGATGACGATGGTCAATTCCTATTCCGCTGGCGCGTGGCTCCCTCCTCCTTGCTGAATGGAAGCGAAGGCGCTGATACCGGATCATCGGGTCTGTTTATTCAGCCGGATTTTGACATATTGATACCGCCCGATGTGCCGAATTCCGTTAAGTTTCAAGCTGCTTGCTGCACGGATCGGATTTTGGATGATGTGATGACGGTCTATCGCCTGACAAGGGATTCGGTGATGCAGGCGGCAAAAGCCGGAATGGACCCCGAGGGAATCGTGGCCTTTTTCACGAAACATGCAGCCGTGGGAATGCCGGAGAACGTGCAAGCTGCCTTATGCCAATGGGGCAAGGAGGTGGACAGGGCGGGCCAGAACGAGTCGCTGCGCTCTGCTGAGGCTCCTCCAGAAGAGGATGCGGAGCTTGCGGGCCCTGATGGAGATGACCGTTACCCTATGCAGTGGGGGAATCGCAGCCGTCCCTCCTGCGGATTGATCCGCCCGGCACGAAGCGAGCTTGCACTTGAACCTGATGACACGCTGCCGGATCCATCGTCGATCATTCCCGATTTGAACCGGATTCCTGTCATGTGGACACGGGATTGGCGCTCTTACCACGGCTCGACGGCCAAACAAATGATGGAGCAGGCGCTGGAGCTGTCGGCCAAATTGGAGATTGCCGTCGATGGCAGCCGCATGGAATTCATTCCATTTCAAATCCTGCGTCAGCCGTGGAAAATTTCGGGTGCGTTGTATGATCCGGATTCGGATAAGACGGGAGCCATCGTGGAGTTAGGCGAAGGGGAATGGAGGGAAATGCGGCTCGTGATTCCGTAA	MTRQQDMADTMSLERLLPKERTVLHHIWSRFAGQGFDDDKLRSLRFPRLSGVEVQLAFISLRQQGWVRAVKRGWGERLYFIPFDKLQILQEGCGPVESLETSSIPPASVRLQQEARSGVAIDMFNVLAYMAKNRVSLTTKGILHKKYIQKLGGEIALTPYDVEGLSLHYDHADAYPPHVAMVLDLLFTFELVAADQGELKLNRTALRRWLMLSREAMDRFVLLHMMERYIPNSAGFQHWTWRICHSSLSGGVWYRARQMPAAVSEPLEGGASTGKELLPEEAASWLRLLTGCGYTDLGIDDDGQFLFRWRVAPSSLLNGSEGADTGSSGLFIQPDFDILIPPDVPNSVKFQAACCTDRILDDVMTVYRLTRDSVMQAAKAGMDPEGIVAFFTKHAAVGMPENVQAALCQWGKEVDRAGQNESLRSAEAPPEEDAELAGPDGDDRYPMQWGNRSRPSCGLIRPARSELALEPDDTLPDPSSIIPDLNRIPVMWTRDWRSYHGSTAKQMMEQALELSAKLEIAVDGSRMEFIPFQILRQPWKISGALYDPDSDKTGAIVELGEGEWREMRLVIP				NA	NA	NA	NA	NA
AK002_02020	438			hypothetical protein	ATGAGCGTATCGGAAATAAACACGGTCGATATGGCCGAGGTGCTCACCTATGCCTACGAGATAGGCGACATGATTAATGCTTCCGTCGAAGTGGCGGATTATCTATATTGGAAGCAGGCAGTTGAGAATGACCCCATGATTCAGGCTTTGGTCAGAAAGCTTGAATCGAAGAAGGAGTTGTTCGAAGAGACGCAGCGGTTCGGCCACTTTCACCCCAATTATCATTCGGCCAAGGATGAAGTAGCCGCGGTGGAAGCGGAACTGGAAGCTTTTGAGCCCGTAGCCCGGTTCAAGCAGGCCGAGAAGAATCTGGACGATCTGCTGCATTCCATGTCGGAGAGGATTGCTTTTTCGGTTTCGGAGAGCATCAAGGTTCCCGGCAATGACCCTCTTCCGAAGAAGGGGTGCGGCAGCGGCGGAGCCTGCTCGTGCGGATAA	MSVSEINTVDMAEVLTYAYEIGDMINASVEVADYLYWKQAVENDPMIQALVRKLESKKELFEETQRFGHFHPNYHSAKDEVAAVEAELEAFEPVARFKQAEKNLDDLLHSMSERIAFSVSESIKVPGNDPLPKKGCGSGGACSCG				NA	NA	NA	NA	NA
AK002_02021	264			hypothetical protein	ATGTTGGCTGAACGGACCGGTTTTATTATATGGGTCAGCGATGTGAAGGCAGCAAGGAATTTGGAGAAATACGGCAGCGTCCATTATATATCGCGCCGCATGCATTACGTTGTCATGTACGTCAACGCTGACCGTGCCGAAGAGACAATGAAGAACATCCGGAGATTGTCCTACGTTCGTAAGATCGAGCGCTCCTACCGGAACGAGATTAAGACAGAGTACAGCAGCAAGGGGCCGGATAAAGCCAAGTTTTACGGTCCCTAG	MLAERTGFIIWVSDVKAARNLEKYGSVHYISRRMHYVVMYVNADRAEETMKNIRRLSYVRKIERSYRNEIKTEYSSKGPDKAKFYGP				NA	NA	NA	NA	NA
AK002_02022	438			hypothetical protein	ATGCGCGACAAAGGGACTGAGCGGTGGAGCACCTATGAGCCGTTTTATATTACGTTAAATGATAAAAAGGTAGCCGATATCGTGATTACCAATCATGCAAAGAGCCGTTATACGGACCGGGTGGAAGGCCATGACACCTCCCACGAGGAAATCGGGACTTGGATGTGGGAGTGCTTGAAGCAGGACCGGATCGTGCCGTATTACCGCAACGAACAGGATGTCTATCTGATCGACGACGATCTGGTGGTTGTGGCGGAGTTCTCGGAGCTGGAGCATGAACGCGATCTGATCGGCAACCCACTGCATCGGATGATCATTGTAACATTTTTGGGGCGTATGTCCGAAACCATTGAGCTTCGGGACCTGAAGTCTTATTACTCATGGCTTCGTCATTCGCGCCGCATGACGCTGATCAAGAACAGCCGCAAGCGTAAATAA	MRDKGTERWSTYEPFYITLNDKKVADIVITNHAKSRYTDRVEGHDTSHEEIGTWMWECLKQDRIVPYYRNEQDVYLIDDDLVVVAEFSELEHERDLIGNPLHRMIIVTFLGRMSETIELRDLKSYYSWLRHSRRMTLIKNSRKRK				NA	NA	NA	NA	NA
AK002_02023	897	cmpR_1	COG0583	HTH-type transcriptional activator CmpR	ATGAATTTTCACCAGCTACATATCTTTTACACGGTGGCCGAGCGGGGGAGTTTTTCCGCTGCTGCCCAAGCGCTTCATATGAGCCAGCCGGCCGTGACGATGCAGGTGCAGGCGCTGGAGGAGTACTTTGGGACAAAGCTGCTCATCCGCTCCACCAAGCGCATGGAGTTATCCGAGGCCGGGAGGACGCTGCTCCCCTTTGCCCGCAGGAGCCTGGAGCTGTCGCAGGAAACGGATGCGGCCATGGCGGCTTTCTCGAACAAACTTCAGGGAAGGCTGCAGCTCGGGGCAAGCCTGACGATCGGGGAGTACGTGCTGCCGCGACTGCTGGGGCCCTTCGGCCGGGAGTATCCGGACATATCGATAATGCTCAAAGTGATGAACACTACGCAGATTCTCGAGGAAATCGCAAGCCACCAACTGAACTTCGGACTGATCGAGGCTCCTGTGGAACATCCGGACATGGTGCTGGATGCGGTCATGGAGGATGAGCTGAAACTGATCGTTCCTTCCAGCCATCCTTTAGCGCAAAGGGAAGATGCGATATATTTGAAGGATGTGCTGACGTATCCGTTTGTGCTGCGCGAGAAAGGTTCCGGCACCCGGAAGGTCATGGAGGACGTGCTGCTGGAGCGGGGGCACGACCCTGAGAGCATCCAGACGGTGATGGAGCTGGGGAGCACGGGAGCGGTCAAATCGGCGGTAGAGGAAGGACTCGGCATAACGATGCTGTCAACCTCTACGGTCAAGCACGAGACAGCGCTCGGGTTAGTCAAAATGATCGATATCGCGGATGCGTCATTTAAACGGAATTTCTATTCCATTCATTTGCGGTCGGCGCTCTTGCCGATGTCGGCGATGACGTTTTTGGCCTACTTAAGAGAGCGACGGCGTTAA	MNFHQLHIFYTVAERGSFSAAAQALHMSQPAVTMQVQALEEYFGTKLLIRSTKRMELSEAGRTLLPFARRSLELSQETDAAMAAFSNKLQGRLQLGASLTIGEYVLPRLLGPFGREYPDISIMLKVMNTTQILEEIASHQLNFGLIEAPVEHPDMVLDAVMEDELKLIVPSSHPLAQREDAIYLKDVLTYPFVLREKGSGTRKVMEDVLLERGHDPESIQTVMELGSTGAVKSAVEEGLGITMLSTSTVKHETALGLVKMIDIADASFKRNFYSIHLRSALLPMSAMTFLAYLRERRR	PGPT0001160_987	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
AK002_02024	867	yciV	COG0613	5'-3' exoribonuclease	ATGGATAAACTCGCGGATCGAAAGGGCTGTGACCTCCATTCCCACACCCAGGCTTCGGATGGAATGAATACGCCTTCGGAGAACGTGCAGCTTGCCTATGAGCGGGGGCTGGGGGCTTTGGCCATTACGGATCATGATACCGTAGCCGGGATCGAGGAAGCGCTGCAAGCGGGAGAACGCTTGAACATCATCGTGGTCCCCGGCGTTGAAATCAGCACCATGGCAGGCGGGACGGATATTCACGTCCTGGGCTATTACGTCGATCACCGGGACCCCGTGTTTCTCGAGCGGCTGGCAGCGCTCCGCCGCACGAGGGATAAGCGCAATGAGAAGATCTTGGCTAAGCTTCGCGAGCTTGGCATCGAGCTTACGATGGAGGAAGTCATTGCGGTATTGGGGCGGCCGCTGGAGCCCGATGAGAGCATCGGACGCCCGCATATTGCGGATGCGCTGGTCCATAAAGGACATGCCCTGGATCTGAGGGATGCCTTCGACCGGTATCTCGCCCAGGGCGCGGCTGCCTATGTACCGCAGCCGCGGATCCATCCCAAGGAAGCCTGCGAATGGATCCGTGAAGCCGGCGGCGTGCCGGTGCTTGCGCACCCCGGACTCTACGGCGATGATACGTTGGTCAGAACGGTCATTGAAGAGTCAGGGTTCAAGGGGATCGAAGTCTATCATTCGGACCATGGGGTATCGGAGGAGGAACGTTACTTGGCGATGGCCGAGGAGTACGGCTTCATCGTGACCGCCGGATCGGATTACCATGGACAGAGGCAGGGCAAGGTATTCCATGGGGATATCGGCAGCCGCCAGGTATCCACCCAGGTGCTGGACCAGCTTCAACAGGCGCGGGCAAGGATCTAA	MDKLADRKGCDLHSHTQASDGMNTPSENVQLAYERGLGALAITDHDTVAGIEEALQAGERLNIIVVPGVEISTMAGGTDIHVLGYYVDHRDPVFLERLAALRRTRDKRNEKILAKLRELGIELTMEEVIAVLGRPLEPDESIGRPHIADALVHKGHALDLRDAFDRYLAQGAAAYVPQPRIHPKEACEWIREAGGVPVLAHPGLYGDDTLVRTVIEESGFKGIEVYHSDHGVSEEERYLAMAEEYGFIVTAGSDYHGQRQGKVFHGDIGSRQVSTQVLDQLQQARARI				NA	NA	NA	NA	NA
AK002_02025	1758	rqcH		Rqc2 RqcH	ATGGCACTAGACGGCATTGTCACGCGCGCGATCGTGCATGAGCTTCAAGCCTGCCGGGGCGCACGAATCAATAAAATATATCAACCGAACGATCGGGACATCGTGTTTCATATACGCACCCAGCAAGGAAACGCCAAGCTGCTGCTCTCCGCAAACCCGACGTATCCCAGGGTGCATCTGACGCAGGAAACGTTTCTCAATCCGGCCGAGGCGCCGATGTTTTGCATGATTCTGCGCAAGCATTGCGAAAGCGGCATCATCGAGGACATCCAGCAGGTGGGCATGGAACGGATTATCCATATGACGATTCGTCAGCGCGACGAGCTCGGGGATGTTTCCTCCAAGAAAATCATCGTGGAGCTGATGGGCAGACACAGCAACATCATTCTGCTTGATCCCGCGAGCGATACCATACTGGACGGCATCAATCATGTGACGCCCGCCATCAGCAGCTACCGCGTGGTCATGCCGGGATTTTCCTACACGAATCCGCCGGAGCAGCATAAGCGGAACCCGCTCGAAACCGGGCAGGAAGCTTTCCGGGAGTCCTGTCTGGTGAACGAGGAGTCGACTGTCTCATGGCTGGTCGGCGAATTCAGCGGTCTAAGCCCGCTGGCAGCGCAGGAAATAGCCCACCGTGCAGGAGAAGGCCATCCGGGGGGAAACGAAGGGGAAAAAGATTGCGGCAGCCTGTGGCGTGCATTCGATGAGGTGATGGGACAAGTCCGCAGCCATCAGTATACGCCTGTTACAGGCGTCAATGCCAAGGGCAAATCGGTGTTCTCCGTCATACCGCTGACATTGCTTGCGGACGAGACCAGAACCTACGAATCGGTCAGCCAATGCATGGAGGATTATTACGGGGATAAGGCGCAGCGGGACACGGTTAAACAGAAGGTCAGCGATCTCCTCCGATTCCTGCAGAATGAAAGGACCAAAAACATCAAGAAGCTGGATAATCTGAACAAAGATTTGGAGGAAGCCGGCGATGCCGATCGGTACCGGATCTTTGGCGAGCTTCTCTTCGCCTCGCTCCATCAGATTCAGAAGGGGGACCGCGAAGTCCAGCTGATCAACTTCTACGATGAAGAGCAGGCGACCGTTACCATACCGCTGGATCCGCTCCTGACCCCATCGGATAATGCCCAGCGATATTTCAAAAAGTACAACAAGTATAAGAACAGCCTCGCGGTCATCAACGAACAGTTAATCAAAACCCGCGAAGAGATCAACTATATCGAGAATCTTCTGCAGCAGCTGTCGCATGCTTCCCTGAACGACATCGATGAAATCAGGGACGAGCTGGTCCAGCAGGGGTATTTAAGAGACCGCAGCCGCAAAACGAAGAAAAAGAAGAAAAACGACAAGCCGACGCTGCATGTCTATACTTCATCCGAAGGCGTCGAGCTCTATGTGGGCAAAAACAACCTTCAAAACGAATACGTGACCAACCGTCTCGCTTCCTCGAACGACACATGGCTGCACACCAAGGATATCCCGGGTTCCCATGTGGTCATCCGCAGCAGCGAGTACGGGGACGCGACGCTCCAGGAAGCGGCGCAGCTGGCGGCTTATTACAGCCAGGCCAAAGAATCCAGCAGCGTGCCCGTCGACTATACGCTCATTCGCCACGTCCGCAAGCCGAATGGAGCCAAGCCCGGCTTCGTCATCTACGACAATCAGAAAACGCTGTTCGTGACGCCGGACGAGCAGCTGATCAAGGCCATGCCCAATTCGGTGAAAAACAATCGCAATTAA	MALDGIVTRAIVHELQACRGARINKIYQPNDRDIVFHIRTQQGNAKLLLSANPTYPRVHLTQETFLNPAEAPMFCMILRKHCESGIIEDIQQVGMERIIHMTIRQRDELGDVSSKKIIVELMGRHSNIILLDPASDTILDGINHVTPAISSYRVVMPGFSYTNPPEQHKRNPLETGQEAFRESCLVNEESTVSWLVGEFSGLSPLAAQEIAHRAGEGHPGGNEGEKDCGSLWRAFDEVMGQVRSHQYTPVTGVNAKGKSVFSVIPLTLLADETRTYESVSQCMEDYYGDKAQRDTVKQKVSDLLRFLQNERTKNIKKLDNLNKDLEEAGDADRYRIFGELLFASLHQIQKGDREVQLINFYDEEQATVTIPLDPLLTPSDNAQRYFKKYNKYKNSLAVINEQLIKTREEINYIENLLQQLSHASLNDIDEIRDELVQQGYLRDRSRKTKKKKKNDKPTLHVYTSSEGVELYVGKNNLQNEYVTNRLASSNDTWLHTKDIPGSHVVIRSSEYGDATLQEAAQLAAYYSQAKESSSVPVDYTLIRHVRKPNGAKPGFVIYDNQKTLFVTPDEQLIKAMPNSVKNNRN				NA	NA	NA	NA	NA
AK002_02026	2796	yloB	COG0474	Calcium-transporting ATPase	ATGGAACAAAAGCAATGGCACCAGATGGACACGGATGAATTGCAGCAAGTACTGCAGATGCATCCGCAGCACGGCCTCACGGAAGAGGAAGCCGGGGAGAGACGAAAAAAAAGTGGCTACAACGAGCTCTCCGAGGGCGTTAAAATTTCTCCATTTGTTCTGTTCTTGAATCAATTTAAGGATTTCATGATGCTGGTGCTTCTTGGAGCCACCCTGGTATCCGGCCTGTTGGGCGAGTATCTGGATGCCGTCACGATCGTGGCCATCATCCTGATCAACGGGATCCTTGGTTTCATCCAGGAATTCAAGGCGGAGCGGTCGCTTCGGGCCTTGAAGCAGCTGTCCGCGCCGACCTCCAAGGTCATCCGGGACGGCAAGGTGGTGCAGCTAACGGCCAGAGAACTCGTACCTGGCGATGTCATTCTCGTCGAGAGCGGAGACCGTATCCCGGCCGACGTTCGCTGGCTCGAGATCAACAGCTGCAGCGTCGAGGAGTCCGCCTTGACCGGCGAGTCCCTGCCGGTTAATAAGCATGCCGAGCCGATCCGCGATGCGGAAGTTCCGCTGGGCGACCGGAAGAACATCGGTTTCATGGGAACGATGGTGGCCCGCGGCACGGGCAAAGGCGTAGTCATCCGGACCGGAATGGATACGGAGATGGGCAAAATCGCCGATATGATCCAAAACACGGAGTCCCAGGAGACGCCGCTGCAGCATCGCCTGGAGCAGCTGGGCAAAATTCTGATCGCCGTTTCGTTGGGGCTGACGGTCTTGGTCGTAGTCGCAGGCATTCTGCATGGACAGCCTGCAGCAGGGATGTTCTTCGCAGGGGTCAGCCTTGCCGTAGCGGCCATACCTGAAGGTCTGCCGGCCATCGTCACGATTGCGCTATCCCTCGGCGTGCAGCGCATGATCAAGCGCAAAGCGATCGTGCGCAAGCTGCCATCCGTGGAGACGCTGGGCTGCGCATCCGTGATCTGTTCGGATAAAACGGGGACGCTCACGCAGAATAAAATGACCGTAACCCAGGTTTGGCTGGGAGGACGTACGCTGGAAGTGACCGGGCACGGGTATGACCCGACGGGTCAGATCCTCCACAGAGGCAAGCCTGTCGAGCTAAGATCCGATCAGGGGCTCCGCAGGCTGCTGCAAATCAGCGGGCTGTGCAACAATGCGGAGATCTATGAGAATGTGCAAGAGGAAGCCCGGAGCAAGCGCAAGGGCAAGGAGGAGCCGGCAGCAGCTGCCTGGGAATTAAAAGGGGACCCGACAGAAGGAGCGCTGCTGACGCTGTCGTCCAAAATGGGTTTGACGAAGGGCAGTCTGAACTCTATCTACCAAAGAGACAAAGAGTTTCCTTTCGATTCGGAGCGGAAGCTGATGTCCGTCATCGTCAGCCATCAGGGTGGACGCTTGCTCTGCACGAAGGGCGCACCGGACGTCCTGCTGGACGCCTGTGCTTATATCATGTGGGACGGGAACGTCGTGCCGCTGACCTCCACGCTCCGCCAGAAGGTGCTGGCCGCCAATGAAGGCATGGCTTCCAACGCGCTGCGCGTGCTTGGTTTGGCATATCGGGATTTGCGTTCCTATGATAAGCCGGAAACGGAGAAAGAGGCCGAGAGCCAGCTTATCTTTGTGGGACTGGCCGGAATGATCGATCCGCCGCGCCGTGAAGTGCGCGACGCGATTGCGACGTGCCGACGCGCCGGAATCAAGACCGTCATGATCACGGGCGACCATCGGACAACGGCGGAAGCGATCGCGGCCCAGCTCGGGATCCTGCCAAGGAATGGTCTGTCGCTATCGGGACAGGAGTTATCCCGAATGGACGACAAGGAGCTGGATGCGAGGGTGGATCAAACCTTCGTTTATGCCCGCGTCTCTCCCGAGCACAAGCTTCGCATCGTGAAATCGCTCCAGCGGAAGGGGCATGTGGTTGCCATGACGGGGGACGGCGTGAACGATGCACCTGCCATCAAAGCCTCGGATATCGGGATTGCCATGGGCATTACCGGCACGGACGTAACGAAGGAAGCGTCATCGCTGGTGCTCAGTGACGATAATTTCTCCACGATTGTTTCGGCGATTGAGGAGGGGCGGAGCATTTATGAAAATATCCGCAAATTCATCCGCTATTTGCTGGCCTCCAATGTCGGCGAGATTCTGACGATGTTTTTTGCGATGATGATGGGACTGCCGCTTCCGCTCGTTCCGATCCAGATTCTGTGGGTAAACCTGGTCACCGACGGGCTCCCGGCCATGGCGCTCGGGGTGGACCAGCCGGAGAAGGATCTGATGGAGCACAAGCCGCGGGGGGCCAAGGAAAATATTTTTGCCAGACGCCTTGGCTGGAAAATCATCAGCCGCGGCATCTTGATCGGCCTGTGCACGCTCGGCGCATTTTGGGTCACGCTGCGCATCGCGCCGAATGATCCGGCGCAGCTGGCCAAGGCGCAGTCCGTTGCCTTTGCTACCCTTGTCATGGCCCAGCTGATCCATGTGTTCGACTGCCGCAGCTCGCGCTCGATTTTCCATCGGAACCCGCTTCAGAACAAAGCATTGGTTCTGGCCGTGCTGTCCTCGGTATTGCTGATGCTCGGCGTCATGTACATCGAGGCGTTCCAGCCGATCTTCAAGACGGTTCCGCTTGGCCTGAAAGAGTGGGCATTGACACTCGTCGCCGCCGGCATTCCTACCTTCCTGATGGGGGCCGGAAGCGTGTGGGGCGGTAGACGGAACCGCAACCGGAACCGCCGCGGCATGATGACGAAGAGTGCAAATATTTCGGCGTAA	MEQKQWHQMDTDELQQVLQMHPQHGLTEEEAGERRKKSGYNELSEGVKISPFVLFLNQFKDFMMLVLLGATLVSGLLGEYLDAVTIVAIILINGILGFIQEFKAERSLRALKQLSAPTSKVIRDGKVVQLTARELVPGDVILVESGDRIPADVRWLEINSCSVEESALTGESLPVNKHAEPIRDAEVPLGDRKNIGFMGTMVARGTGKGVVIRTGMDTEMGKIADMIQNTESQETPLQHRLEQLGKILIAVSLGLTVLVVVAGILHGQPAAGMFFAGVSLAVAAIPEGLPAIVTIALSLGVQRMIKRKAIVRKLPSVETLGCASVICSDKTGTLTQNKMTVTQVWLGGRTLEVTGHGYDPTGQILHRGKPVELRSDQGLRRLLQISGLCNNAEIYENVQEEARSKRKGKEEPAAAAWELKGDPTEGALLTLSSKMGLTKGSLNSIYQRDKEFPFDSERKLMSVIVSHQGGRLLCTKGAPDVLLDACAYIMWDGNVVPLTSTLRQKVLAANEGMASNALRVLGLAYRDLRSYDKPETEKEAESQLIFVGLAGMIDPPRREVRDAIATCRRAGIKTVMITGDHRTTAEAIAAQLGILPRNGLSLSGQELSRMDDKELDARVDQTFVYARVSPEHKLRIVKSLQRKGHVVAMTGDGVNDAPAIKASDIGIAMGITGTDVTKEASSLVLSDDNFSTIVSAIEEGRSIYENIRKFIRYLLASNVGEILTMFFAMMMGLPLPLVPIQILWVNLVTDGLPAMALGVDQPEKDLMEHKPRGAKENIFARRLGWKIISRGILIGLCTLGAFWVTLRIAPNDPAQLAKAQSVAFATLVMAQLIHVFDCRSSRSIFHRNPLQNKALVLAVLSSVLLMLGVMYIEAFQPIFKTVPLGLKEWALTLVAAGIPTFLMGAGSVWGGRRNRNRNRRGMMTKSANISA	PGPT0013990_2788	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CALCIUM_TRANSPORT,PGPT0013990-yloB|ctpA-K01537	NA	NA
AK002_02027	840	dapF	COG0253	Diaminopimelate epimerase	ATGATGGAATTTACGAAAATGCATGGGTTGGGCAACGACTTCGTTGTCGTATACGGCGAACGGGAACTTCCATCCGATGCATCCGAATTGGCCGTGAAGCTGTGCAATCGCTTCTTCGGCATCGGTGCTGACGGACTTGTATATATTTTGCCTTCCGCGAAGGCTGATTTCATGATGCGGATTATGAATTCGGACGGTTCCGAAGCGGAGCAGTGCGGCAACGCCATCCGCTGCGTCGCGAAGTATGTGTACGATCACGGCCATATCGACCGCGAGGAGATTACCATAGAAACCATCGGTGCCGGCGTGCAGCAGGTGCGTCTTACGGTGCAGGACGGTCAAGTAAGCAGTGTAAGGGTCGATATGGGCGAACCGGTCCTGAACGGACTTAGCGTGCCGACCTTGGTCGATCTCAATCCGGTGGTGAATCATCCCGTTGAAGTGGAAGGCAGGGAATTCCGATTCACTGCCGTTTCCATGGGCAATCCGCACTGCGTCATTTATGTGGACGATGCGGTGAACTTTGATCTCGGCGTATGGGGTCCTAAGCTTGAGGTGCACCCGCTCTTCCCGAGAAAGATCAACGTGGAGTTTGCGACGGTGAATTCACGCGGTCAAGTGGACATGCGGGTATGGGAGCGCGGCGCGGGGCCGACCCTGGCCTGCGGCACCGGCGCCTGCGCGACGCTGGTATCCTCCGTGCTGAACGGTGCCACAGACCGCAGCGCGACGATCTCGCTTAAGGGCGGGGATCTGTTCATCGAGTGGGATGAGCTTGACAACCATGTGTACATGACGGGACCGGCCGAGGTTGTATATAAAGGGAAGTTGGCAATTTAG	MMEFTKMHGLGNDFVVVYGERELPSDASELAVKLCNRFFGIGADGLVYILPSAKADFMMRIMNSDGSEAEQCGNAIRCVAKYVYDHGHIDREEITIETIGAGVQQVRLTVQDGQVSSVRVDMGEPVLNGLSVPTLVDLNPVVNHPVEVEGREFRFTAVSMGNPHCVIYVDDAVNFDLGVWGPKLEVHPLFPRKINVEFATVNSRGQVDMRVWERGAGPTLACGTGACATLVSSVLNGATDRSATISLKGGDLFIEWDELDNHVYMTGPAEVVYKGKLAI	PGPT0007230_2503	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
AK002_02028	1872	yitJ	COG0646	Bifunctional homocysteine S-methyltransferase/5,10-methylenetetrahydrofolate reductase	ATGAAACCGAATCTTCGGCAGGCATGGGAGAATCAGGTACTGGTCGGTGACGGCGCGATGGGTACTTATTTATATCAAAAAGGATTTCCTGTAGGCATTTCATATGAAGAACTGAATTTAACCTCTCCGGAGGTCATCGGGAACGTTCATCGCCAGTATGTTGAGGCTGGTGCCGAGGTCATCGAGACCAACACGTTCTCTGCCAATTATGACAAGCTGTCCAAATACGGCTTGGAGGCGAGGGCAGGAGAGATTAACCGCGCAGGCGTGAGAATTGCGCGTGAAGCCGCCGGCGATCACGGATATGTGGTGGGAGCGGTCGGCTCCATTCGGGCAGGCAAAAGAAGCAATATTTCCACGAGCGAGCTCAAGCGTTACTTCGAAGAGCAGCTGTCCGTACTGATCGCCGAAGGCGTTGACGGCATCCTGCTCGAAACGTTCTACGACGTGGATGAAATGCAATTGGCTTTGGCGCAGGCACGGATGCTGAGCGACCTGCCGGTGATCTGCCAGTTCGCGGTGGAGGATATTGCCCGCACGCTGGACGGCTTCACGATGCCGGATGCATACCGCATATTGAGCCAAGAAGGCGCGGACGTGATCGGGTTCAACTGCCGGACGGGGCCGAACGGCATCATGCGCGCGCTGGAAACCCTGAACGGCATCATGAATCTTCCGGCTTCGGTCTACCCGAATGCGGGAATCGCCGATTATGTGGACGGAGAATACCGGTATGGCGCGAGTCCCGAGTATTTCGGGAAAACGGCTCTGGAGTTTGCGGATCGCGGCGCCCGCATTATCGGCGGCTGCTGCGGGACGACGCCGGAGCATATCGCGGAAATTTCCTCGGCGCTATCCGGCTACGTTCCTTCGCCGCTCCCTGCCGTCGAAGAGGCGGAGATCAACCGGATCGTGATTCACGAAACGGCCCAGGAGCAATTCTACGAGCGCAGCGGGGAGCCGACGATCGTCGATATCGTAAAGGAGCGGCATACGGTTATCGTGGAGCTGGACCCTCCGAGGGATTTGGATATCACCAAGTTCATGAAAGGCGCCGAAGCTTTGAAAAAAGCGGGAGCCGATGCGCTGACCCTTGCGGATAACTCGCTGGCCGTAACCCGCATGAGCAATATGGCTCTCGGCCATCTGGTACAAGCACGCACGGGACTGCGGCCGCTGATTCACATTGCTTGCCGCGACCGGAACCTGATCGGCACGCAGTCGCACATGATGGGCTTCGACGCGCTCGGCATCGACCATGTGCTTGCGGTGACGGGAGATCCGGCCCGTTTTGGGGATTTGCCGGATTCCAGCTCGGTTTACGACATGACCTCGTTTGAAATCATTCGGATGATCAAGCAGCTGAACGACGGCATTGCTTTCTCCGGAAAGCCGCTGAAGCAAAAGGCGAAATTCGTTGTCGGGGCAGCGTTCAATCCGAATGTAAGGCATCTGGACAAAGCGGTTGCCCGCTTGGAGAAGAAGATTGCTTCGGGCGCCGATTACGTCATGACGCAGCCCGTTTACGATCCCGAGTTAATGGTTAGGCTTCGGGAAGCGACGGCGCATCTGGATATTCCGATCTTCATCGGCATCATGCCGCTGGCAAGCGGGCGCAATGCCGAGTATTTGCACAATGAGGTGCCGGGCATTCAGCTGTCGGACGAAGTCCGCAGCCGCATGGCGGGACTTGAAGGCGAAGCGGGCCGGGCGATGGGCGTCAAGATCGGCAAGGAGCTGCTGGATGTTGCGACAGAGCATTTTAACGGCATCTATTTGATGACGCCGTTTATGTTCTATGAAATGAGCGTACAATTAATGGAGTACGTCTGGGAGAAATCGGGCCGCCGATTGACCCCCTTGTTTCATTAA	MKPNLRQAWENQVLVGDGAMGTYLYQKGFPVGISYEELNLTSPEVIGNVHRQYVEAGAEVIETNTFSANYDKLSKYGLEARAGEINRAGVRIAREAAGDHGYVVGAVGSIRAGKRSNISTSELKRYFEEQLSVLIAEGVDGILLETFYDVDEMQLALAQARMLSDLPVICQFAVEDIARTLDGFTMPDAYRILSQEGADVIGFNCRTGPNGIMRALETLNGIMNLPASVYPNAGIADYVDGEYRYGASPEYFGKTALEFADRGARIIGGCCGTTPEHIAEISSALSGYVPSPLPAVEEAEINRIVIHETAQEQFYERSGEPTIVDIVKERHTVIVELDPPRDLDITKFMKGAEALKKAGADALTLADNSLAVTRMSNMALGHLVQARTGLRPLIHIACRDRNLIGTQSHMMGFDALGIDHVLAVTGDPARFGDLPDSSSVYDMTSFEIIRMIKQLNDGIAFSGKPLKQKAKFVVGAAFNPNVRHLDKAVARLEKKIASGADYVMTQPVYDPELMVRLREATAHLDIPIFIGIMPLASGRNAEYLHNEVPGIQLSDEVRSRMAGLEGEAGRAMGVKIGKELLDVATEHFNGIYLMTPFMFYEMSVQLMEYVWEKSGRRLTPLFH	PGPT0008140_87	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008140-yitJ-K24042	NA	NA
AK002_02029	888			hypothetical protein	ATGTCATTGAGCATGACCGGATATGGGCAATCCGTTGTCGATTTTCAAGGCTACAGTATCTCTTTCGAAGTGAAGTCAGTCAATCACCGGTACTGCGAGATCGTCTTTCGCATGCCCCGTGAATGGGCGCTCTTCGAGGATTCGCTTCGACGGGCGGTACAGAGCCGGATCGGACGCGGACGGATTGATGTTTATATTAACAAGGAAAACAACGGCGAGACTCAGGGTGCCGTGCTGAACCATGCCATGGTTCAAGCGTATTTACAGGCAGCCGAGGATTTGAAGTCATACGGAATCGCGGGAGATCTGGCGGTGCGGGATATTTTGACGCTGCCAGATGTTCTTGTTACTCCGAGCGGACTTTCCATGGATGAAGCGCAGCAGAAGTTATGGAATGATGCGCTTCTTCAAGGTCTGGAACAAGCGCTTGAGGGTCTGGTCCAGATGCGCAGCAGGGAAGGCGCTTTTCTCGCGAAGGATATCGGGCAGAGGCTTGACCGCTTGCAGGTGCTGCACCGGGAGATGACCGAGCTTGCTCCGGAGGTTCCGGCCGAATACCGGAAGCGCCTGCGGCAGCGCATTGAATCTCTTGATGACGGATCGCTTGCTGTTGATGAACATATATTCGGAATGGAAGTCGCTCTGTTTGCTGAACGTTCCAATGTGGACGAGGAGTTGATTCGACTTCACAGCCATTTGGAACAATGCAGGGAGCTGCTTCTTCAGAAAAGCCCTGTAGGCCGTAAACTGGATTTTCTGATTCAGGAAATGAACAGAGAAGTCAATACGATTGGATCGAAAGCCAATCATCTGACTCTGGTAAACCGTGTTGTCGAAATGAAAGCGGAACTGGAGAAGATTCGTGAACAAGCCGCCAATGTGGAATAA	MSLSMTGYGQSVVDFQGYSISFEVKSVNHRYCEIVFRMPREWALFEDSLRRAVQSRIGRGRIDVYINKENNGETQGAVLNHAMVQAYLQAAEDLKSYGIAGDLAVRDILTLPDVLVTPSGLSMDEAQQKLWNDALLQGLEQALEGLVQMRSREGAFLAKDIGQRLDRLQVLHREMTELAPEVPAEYRKRLRQRIESLDDGSLAVDEHIFGMEVALFAERSNVDEELIRLHSHLEQCRELLLQKSPVGRKLDFLIQEMNREVNTIGSKANHLTLVNRVVEMKAELEKIREQAANVE				NA	NA	NA	NA	NA
AK002_02030	261	remA	COG2052	Extracellular matrix regulatory protein A	ATGGCAATCAAACTTATTAATATTGGCTTCGGAAACATCGTATCGGCCAATCGGATCATCTCAATCGTGAGTCCTGAATCGGCTCCAATCAAGAGGATCATTCAAGAAGCACGGGACCGTCATATGCTGATTGATGCTACATATGGCCGAAGGACGCGGGCTGTTATCATTACCGATAGCGACCACGTGATTTTATCGGCCGTACAGCCGGAAACGGTGGCTCACCGTCTGTCCAGCAAAGATGACGACAACGACGAATAA	MAIKLINIGFGNIVSANRIISIVSPESAPIKRIIQEARDRHMLIDATYGRRTRAVIITDSDHVILSAVQPETVAHRLSSKDDDNDE				NA	NA	NA	NA	NA
AK002_02031	573	gmk		Guanylate kinase	ATGTCTAAAGGATTATTGATTGTATTGTCCGGTCCTTCCGGGGTTGGAAAGGGAACCGTCTGTACGGCACTTCGCAGCCGGGTTCCGGAACTGGTGTATTCGGTGTCGGCTACGACGCGTTCGCCGCGGCTCGGTGAGGTAAACGGCGTAAACTATTTTTTCAAAAGTCGGGAACAATTCATGGATATGATTGAGAACGACCAGCTTCTCGAATATGCGGAATACGTCGGGAACTATTATGGAACCCCGCGTGATTTTGTGGAAGAAACATTAGCCACCGGCAAGGATATTATACTGGAGATCGAAGTGCAGGGCGCGCTGAAGGTCAAGGAGAAGTTTCCGGACGGTATCTTTGTGTTTCTGATGCCGCCGTCGCTGGACGAACTGAAAGATCGGATCCAGGGCCGGGGGACAGAAAGTCAGGCCACGATCGACCACCGCATGTCCGTAGCTGTTGACGAAATCAATCTGCTGCAGCATTATGATTATGCCGTAGTGAACGATGAAATCAATCTTGCTTGCGAGAGAATACAATCTATCATTATAGCCGAACATTGTAAGGTGAGAAAGTAA	MSKGLLIVLSGPSGVGKGTVCTALRSRVPELVYSVSATTRSPRLGEVNGVNYFFKSREQFMDMIENDQLLEYAEYVGNYYGTPRDFVEETLATGKDIILEIEVQGALKVKEKFPDGIFVFLMPPSLDELKDRIQGRGTESQATIDHRMSVAVDEINLLQHYDYAVVNDEINLACERIQSIIIAEHCKVRK	PGPT0021475_4756	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
AK002_02032	201	rpoZ		DNA-directed RNA polymerase subunit omega	GTGTTATATCCATCCATTGATGAAATGATGAATAAAGTGGACAGTAAATATTCTCTTGTGGTTGCGGCTTCGCGCCGTGCACGCCAACTGCGTGAAGGAGAAGTCAGCGAGTTGAAACATCCGAAATCCCATAAGTTCGTCGGTGTCGCTCTGGAAGAAATCTATGGCGATTACGTGAAGATTGAGCGTGGAGAGGACTAG	MLYPSIDEMMNKVDSKYSLVVAASRRARQLREGEVSELKHPKSHKFVGVALEEIYGDYVKIERGED				NA	NA	NA	NA	NA
AK002_02033	1254	coaBC	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	ATGTTGAACGGAAAAGTCGTCGTACTTGGCGTTACAGGTGGCATTGCCGCGTATAAAGCAGCGACTTTATGCAGCAGGCTTGTCCAGAGGGGAGCGGATGTGCATGTCATCATGACGGAATCCGCCAAGCAGTTCATTCCGGAATTAACGCTGCAGACGCTGACCAAAAACCCGGTATATAGCGATACTTTTGACGAAAGGGACCCCTCGGTCGTCTCGCATATTCACTTGGCCGACCTGGCCGATCTGGTGCTGATTGCTCCGGCGACGGCCAATATCATCGGCAAGATGGCACATGGCCTGGCGGATGACATGCTGACCACGACGCTGCTTGCGACCACGGCTCCTGTCATGATCTCGCCGGCGATGAACGTGCATATGTACACGCATCCGGCCGTCATGGCCAATATGGAGACGCTGGTTTCACGCGGGGTGTCCATGATTGAACCCGGAGAGGGACTTCTGGCATGCGGATACGTCGGAAAGGGACGGATGGAGGAGCCTGATACGATCGTGGATGTGGTTGAACGGTTTTTCCAAGGGCGCGCAGTCGAGTCCGCGGCGTCGAATCAGGACGTGGAAAGCGTCTCGACAGGCATATTGCACGGCAAAAAAGTGGTTGTCACGGCCGGCGGTACGATCGAGCGCATTGATCCGGTCCGTTATATCACGAATGATTCCTCCGGAAAAATGGGGTTTGCGATTGCTAAAGCCGCCAAGCAGCTGGGAGCGGACGTCCACCTCATTGCGGCTCATACCGATGAAGCCCCGCCAGAGGGAATTCCTGCGGAGAGAGTGGAGTCGGCCCAGGACATGTACGAAGCGGTGCAGCGCGTGTTCGAAACGAGCGATATCGTGGTTAAGGCGGCAGCGGTCGCCGATTATCGTCCTGCGGAGGCAGCGACGTCAAAGATCAAGAAGCGCGGGGAAACGATGACGCTGGATCTTGTCAAGACCACGGATATCCTGGAAAGCCTGGGACGCCAAAAGACCTCCCAGTTCTTGATCGGATTTGCCGCCGAGACGGATACGGTAGAGCAGTTCGCCAGGGAAAAGCTGAAACGCAAAAATTGCGACCTGATCGTTGCCAATGATGTTACGCAGGAAGGCGCCGGCTTTGGCACGGACACGAACAGCGTTCATATATTCGATGCAGAAGGGCTCGTCCTGCAGCTGCCCGTGATGTCCAAGGAGGAAGTGGCCCTGAGGCTGTTAACGCTGGCGGCCGAACGGTTGACCGGGAGGTTATCCTGA	MLNGKVVVLGVTGGIAAYKAATLCSRLVQRGADVHVIMTESAKQFIPELTLQTLTKNPVYSDTFDERDPSVVSHIHLADLADLVLIAPATANIIGKMAHGLADDMLTTTLLATTAPVMISPAMNVHMYTHPAVMANMETLVSRGVSMIEPGEGLLACGYVGKGRMEEPDTIVDVVERFFQGRAVESAASNQDVESVSTGILHGKKVVVTAGGTIERIDPVRYITNDSSGKMGFAIAKAAKQLGADVHLIAAHTDEAPPEGIPAERVESAQDMYEAVQRVFETSDIVVKAAAVADYRPAEAATSKIKKRGETMTLDLVKTTDILESLGRQKTSQFLIGFAAETDTVEQFAREKLKRKNCDLIVANDVTQEGAGFGTDTNSVHIFDAEGLVLQLPVMSKEEVALRLLTLAAERLTGRLS	PGPT0008815_776	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
AK002_02034	2529	priA		primosomal protein N'	ATGGAAATGGCCCGTGTGATTGTGGACGTGCCGTCCAAGGATACGGACCGTCCATTTGATTATCTGATACCGGAGGAGCTCCGGCCATGGGTCGAGGTAGGCAGCCGGGTCGGCGTGCCGTTCGGTCACCGTACGCTTCAGGGATTCGTGGTTTCGCTGCATCCCCGGCCCGAGATGGATACGGCCAAAATGAAGCCGATTCAGGAAGTCCTTGATGTGATGCCGCCGCTCTCGCCTGAGCTGATTGAGCTTGGAGAATGGATGAAAGAGCGGTATGCATGCCGTTATATAACCGCTCTTCAATCGATGCTGCCAACGGCGCTGAAGGGAAAAGCCGAGCGGTATATTTCCCTTGGCGAGCCGGATGCGGGCTTGTCGGATGAAAGCGGCGGATTATTCGGGCTCCTGCCGGAAAGCGAATTGGAGCAGGAGATCATCCGGTTTGTCGGTCAGCGAGGCGAGGTGTCGCTCCAGCAGTTAACGCGAGCGTTCCCGGATGCGGCAGCCACCGTAAAAGCGCTGATCGGCCGGGGGCGGTTAAGCGAATTCCAGCAAATCAAGGACAAACTGCAGAAAAAAACGATGAAAGCGGTAGAGCTTGCCGTTTCGAGCGAGGAAGCGCATGTGGCGCTGGCTTCGTTTCCGGCTAAGGCTCAGCGGCAGAAGGAAGTGCTCCAATATATCGTAGAGATGGAGGACTTCCTGCCGATATCGCAGAAGGATCTGCTGCAGACGCTCGGCGTCACCGCAGGCACCGTGAAGGCGCTGGCCGACAAGGGACTGATTACCCTTGAGGATGTCGAAGTGTTTCGCGACCCGTACCGGGGACGGCACTTTACGCCCAGCGCCCCGCTTGCGCTCACGCCGGAGCAGCAGGCTGTGTATCGGAGCATTGTGCGCAAGCTGGATGAACGCAAGCATGGCGCGTTTCTCCTGCACGGGGTAACGGGCAGCGGCAAGACCGAAATCTACCTGCAGACCATTCAGCGCTGTATGGATCAGGAGCGTCAGGCGATTGTCCTGGTGCCCGAAATATCGCTCACGCCCCAAATGGTGGAGCGGTTCAAAGCCCGCTTCGGCGACCGCGTGGCCGTCATGCACAGCCGGCTTTCGGATGGTGAGCGCTACGATGAGTGGCGCAAAATTAGGGAAGGCCGGGCCTCGGTTGTCGTGGGAGCACGATCGGCGGTGTTTGCGCCGTTTGACCGACTTGGCCTTATTATTATGGATGAAGAGCATGAAAGTTCATATAAGCAGGAAGAAACGCCGAAGTACCATGCCAGGGACGTGGCGATTCACCGTGCCTCGCTGACAGGTGCAGCCGTCATTCTGGGCTCGGCAACGCCTTCGCTTGAAAGCTACCATGCGGCGAGATCGCAGGCTCAGGATGATTTTGCGCCGCATCTGCTGGAGATGCCGAGCCGTGCGCTGGGCAACCAGCTGCCGGCTGTTCAGGTCGTGGATATGCGGGAGGAGCTCCGGGAAGGAAATCGCTCCATGTTCAGCCGCTCCCTGCATGCCGCGATTTCGGCGCGGCTGGAACGCGGAGAACAGACGGTGCTGCTGCTGAATCGGCGGGGGTACTCCACTTTCGTGATGTGCCGGAGCTGCGGATATGTGGCAGGCTGTCCGGAATGCGACATTTCGCTGACCTACCATCAGAAATCGAACAATCTGCGCTGCCATTATTGCGGTTACGCCGCACAGGCGCCGGAGGTTTGCCCGGATTGCGGGAGCGAGCATATACGCTATTTCGGAACGGGCACGCAGCGTGTCGAGGAAGAATTGGCCAAGCTGTTCCCCGGGATTCGCGTCATTCGGATGGACGTGGACACGACGACCGAGAAGGGCTCCCACGAGAAGCTGCTGAAGCAGTTTCGGGATAAAAAGGGCGACGTGCTGCTTGGAACTCAAATGGTCGCCAAAGGCCTGGATTTCCCGGATGTCACTCTGGTCGGCGTCATTACGGCCGATTCGGCGCTGAATCTGCCCGACTTCCGGGCGGCGGAGAAGACGTTTCAGCTGCTGACTCAGGTGGCCGGAAGAGCAGGACGCCATCAGCTGCCGGGTGAAGTGGTCATCCAATCCTACACGCCCGAGCATTATTCGATTATTCATGCAAGCAGCCATGATTATTTATCCTTCGTCAAGGATGAGCTGAAGCACCGCAAAGCGCTCCATTATCCGCCGTACTGCAGGCTGATCCTGGTGACGCTGTCGCATGAACAGCTGCCGCTGCTCGTACGACTGGCAGAGAATTTTGCCGCCTCCATCAAAAGCGAATCCGACCGCCGGGGATGGTTCGGAAGCCTGGACCGGTTCGACGCAAGCGCGCTCGATATCCTGGGTCCGGTGGCTTCCCCCATTCCGCGGTTAAAAAATAGATACAGATTTCAATGTATGATAAAATGGCGGGGAACGATGGATGCCGTCTCGCTGGTGCGTTCGGTTGCCGAGAAGCTTCAGGATTCGGCGCGGGACGGCAAGCTCCAAATCAGTATTGACGTTGATCCGCAAATGTTAATGTAA	MEMARVIVDVPSKDTDRPFDYLIPEELRPWVEVGSRVGVPFGHRTLQGFVVSLHPRPEMDTAKMKPIQEVLDVMPPLSPELIELGEWMKERYACRYITALQSMLPTALKGKAERYISLGEPDAGLSDESGGLFGLLPESELEQEIIRFVGQRGEVSLQQLTRAFPDAAATVKALIGRGRLSEFQQIKDKLQKKTMKAVELAVSSEEAHVALASFPAKAQRQKEVLQYIVEMEDFLPISQKDLLQTLGVTAGTVKALADKGLITLEDVEVFRDPYRGRHFTPSAPLALTPEQQAVYRSIVRKLDERKHGAFLLHGVTGSGKTEIYLQTIQRCMDQERQAIVLVPEISLTPQMVERFKARFGDRVAVMHSRLSDGERYDEWRKIREGRASVVVGARSAVFAPFDRLGLIIMDEEHESSYKQEETPKYHARDVAIHRASLTGAAVILGSATPSLESYHAARSQAQDDFAPHLLEMPSRALGNQLPAVQVVDMREELREGNRSMFSRSLHAAISARLERGEQTVLLLNRRGYSTFVMCRSCGYVAGCPECDISLTYHQKSNNLRCHYCGYAAQAPEVCPDCGSEHIRYFGTGTQRVEEELAKLFPGIRVIRMDVDTTTEKGSHEKLLKQFRDKKGDVLLGTQMVAKGLDFPDVTLVGVITADSALNLPDFRAAEKTFQLLTQVAGRAGRHQLPGEVVIQSYTPEHYSIIHASSHDYLSFVKDELKHRKALHYPPYCRLILVTLSHEQLPLLVRLAENFAASIKSESDRRGWFGSLDRFDASALDILGPVASPIPRLKNRYRFQCMIKWRGTMDAVSLVRSVAEKLQDSARDGKLQISIDVDPQMLM				NA	NA	NA	NA	NA
AK002_02035	495	def_1		Peptide deformylase	ATGGCGATTCGTATTATCGTTAAAGAACCGGATGAGGTTCTTCATAAAAAGGCAAAGGAAGTTACCAAAATTACGCCGAACGTTCAAAAGCTCCTGGACGATATGGCCGATACCATGTACGATGCGGAAGGCGTCGGGCTGGCCGCGCCGCAGGTCGGCATACTGAAGCGCCTGATTGTTATCGATGCGGGCGATGAGCACGGCTTGATCAAGATGATTAACCCGGAGATCGTCGAGAGCGAGGGCGAGCAATTCGGGCCGGAAGGCTGCCTGAGTATTCCAGGCTGGAACGGGGATGTTCGACGTGCGGAGAAAGTAACGGTTAAGGGGCTTGACCGCGAAGGCAATGAGCTTGTCATTACGGGTACAGGGCTGCTTGCGCGAGCATTTCAGCATGAAATCGATCATTTGAACGGGGTGCTGTTTACGGAAATCGCCGACCGGGTGTATGAGTATGTTCCGGAACAGCCGAGAAGTGAGTTGGAGAACCGATGA	MAIRIIVKEPDEVLHKKAKEVTKITPNVQKLLDDMADTMYDAEGVGLAAPQVGILKRLIVIDAGDEHGLIKMINPEIVESEGEQFGPEGCLSIPGWNGDVRRAEKVTVKGLDREGNELVITGTGLLARAFQHEIDHLNGVLFTEIADRVYEYVPEQPRSELENR	PGPT0008125_25	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
AK002_02036	942	fmt	COG0223	Methionyl-tRNA formyltransferase	ATGAATATCGTATTTATGGGCACCCCCGCCTTTGCAGTACCCAGTCTGGAAATGCTGATTGCCGAAGGATACACGATAGCCGCCGTCGTTACGCAGCCTGACCGTCCGCAGGGGCGCAAAAAAGTGCTGACCCCGACGCCGGTCAAGGAAGCCGCCCTTCGTCACGGCATCCCTGTCCTGCAGCCGCAGCGACTGCGGAATCCGGAAGCCGTGGCCGAATTGGCCGAATATAAACCCGATCTGATCGTCACGGCCGCGTACGGCCAAATCCTGCCGAAATCGGTGCTGGATATGCCAGCGCTTGGCTGTCTGAACGTCCACGGCTCGCTCCTCCCCGCTTATCGGGGAGGAGCGCCGATTCAGCGGAGCATCATCAATGGAGAGTCCGTCACGGGCATCACGCTGATGTATATGGCGGAGGGACTCGACACCGGGGACATGATCGCCCGCGCCGAGGTCCCTATTGAAGACGACGATACGGCTGGAACCATGTTCGAGAAGCTGAGCCAAGCCGGCGCGGAGCTGCTTCGGCGGGAGCTGCCGCGGCTCGTGAAGGGCAAGGTGGAGGCCGAGCCTCAGGATGATTCGAAGGCAACGTATGCTCCGAATCTGACCCGGGATGACGAGAAGATCGATTGGAGCCGCACTTCCCGGGAAATCTACGATCAGATTCGCGGCCTGGTTCCTTATTCCGGCGGGTTCACGCTGTGGAACGGCGAAGTGTTTAAAGTATGGGCAGCGGCTAAGCCGGACAGCGCCCAGAAGGCATCTGGCGATGCGCAACCCGGGACCGTGCTCGAGCTGCAGGAGAAAGGGATCGTCGTGAAAACAGGCGACGGTACGCTGACGCTGCTTACGGTTCAGCCTAGCGGCAAGAAGGCAATGGATGCGGCGCAATTCGTCCGCGGGACGAGCCTGACGGCCGGGACGGTGCTGTCGTGA	MNIVFMGTPAFAVPSLEMLIAEGYTIAAVVTQPDRPQGRKKVLTPTPVKEAALRHGIPVLQPQRLRNPEAVAELAEYKPDLIVTAAYGQILPKSVLDMPALGCLNVHGSLLPAYRGGAPIQRSIINGESVTGITLMYMAEGLDTGDMIARAEVPIEDDDTAGTMFEKLSQAGAELLRRELPRLVKGKVEAEPQDDSKATYAPNLTRDDEKIDWSRTSREIYDQIRGLVPYSGGFTLWNGEVFKVWAAAKPDSAQKASGDAQPGTVLELQEKGIVVKTGDGTLTLLTVQPSGKKAMDAAQFVRGTSLTAGTVLS	PGPT0008125_3450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
AK002_02037	1383	rsmB	COG0144	Ribosomal RNA small subunit methyltransferase B	GTGAGCGGAAACCGCAGCCCGAAGGGACGCCTGGACTCTCCCCGGGAGCTGGCGATGAATGTATTGACTCAGGTTGAGCAGGAGGGGGCGTACAGCAATCTCCTGCTCAACTCCGCTCTGCAGAAATCCTCGCTTGCCAAGAGCGACGCGGGACTAGCCACGGAGCTGATCTACGGCACGATCTCGCGGCTGAACACGCTTGATTATTTTTTGAACAAGTTTGTCAACAAAGGGGTGCGGAAGCTTCAGCCTTGGGTAAGGGCGCTGCTTCGCATCAGCCTTTATCAGATCGTGTATCTGGATCGGATCCCGGACCATGCGGTTGTCAGCGAGGCCGTTAATCTGGCGAAGCGCCGCGGGCATCAAGGGATCTCCGGCATGGTGAACGGGGTGCTTCGGAATATTCTGCGTCAGAAGGAAACCTTGGCCATTCCGGAGGATATGACGGACGCCCAGCACATTTCCCTTCTGCATTCCCATCCGCAGTGGCTGGTGGAGCGCTGGATCTCCCAGTACGGTACGGAGGCAGCGGAGGCGATCTGTGCCGCAAACAACGAACCGCCGGCTGTCAGCGTGAGGGTGAACACCACGATGATCAGCCGCGACGACATGCTGAAATTAATGGGCAGCCATGGCCTGGATGCTTCCCCATCGTCGGTTAGTCCCTACGGGATTGTCGTTAAGGGTGCGGGCAATATGGCCTTGACCGATTGGTATCGTGACGGGATGATCTCGATCCAGGACGAAAGCTCGATGCTCGTGGCCGAGGCCGTTCAGCCCGAGCCGGGCATGCGCGTGCTCGATTGCTGCGCGGCCCCGGGCGGAAAGAGCGCCCATATGGGCGAGCTGATGAAGGACGAGGGCAGCATCGTCGCCAACGATATTCATGCCCATAAAGGGAAGCTGATATCGGATCAGGCCAGCCGTTTGGGACTGGACAGCATTTCGATCGTGACGGGGGACGCGCTGGATTTGGCAGACCGCTTCGAGCCTGCGTCTTTCGACCGAATTTTGCTGGATGCTCCCTGCTCGGGCCTTGGCGTGATCCGGCGCAAGCCGGATCTGAAGTGGGGCAAGTCCCAGGAGGACATCCATGAGATTGCGGCGCTGCAGCTCAGGCTGCTGGAGTCGGTCTCGACCTTGCTCCGTCCCGGAGGGATCTTGGTATACAGCACGTGCACGATTGAACCGATGGAGAATGAAGGCGTGGTATCTGCTTTTCTGGAAGGCCATTCCGAATTTGCCATTGCAGAAGACGGCCTTGGAGCCTTAAGCCGACTGGGCGAGAATTCGCTTTCGCGAGGCGGCGGCATTCAAATCCTGCCCCAGCACTATCACAGCGACGGCTTTTACATTGCCAGACTCGGCAGACGTTCCTCTTAA	MSGNRSPKGRLDSPRELAMNVLTQVEQEGAYSNLLLNSALQKSSLAKSDAGLATELIYGTISRLNTLDYFLNKFVNKGVRKLQPWVRALLRISLYQIVYLDRIPDHAVVSEAVNLAKRRGHQGISGMVNGVLRNILRQKETLAIPEDMTDAQHISLLHSHPQWLVERWISQYGTEAAEAICAANNEPPAVSVRVNTTMISRDDMLKLMGSHGLDASPSSVSPYGIVVKGAGNMALTDWYRDGMISIQDESSMLVAEAVQPEPGMRVLDCCAAPGGKSAHMGELMKDEGSIVANDIHAHKGKLISDQASRLGLDSISIVTGDALDLADRFEPASFDRILLDAPCSGLGVIRRKPDLKWGKSQEDIHEIAALQLRLLESVSTLLRPGGILVYSTCTIEPMENEGVVSAFLEGHSEFAIAEDGLGALSRLGENSLSRGGGIQILPQHYHSDGFYIARLGRRSS				NA	NA	NA	NA	NA
AK002_02038	1041	rlmN_1		putative dual-specificity RNA methyltransferase RlmN	ATGAAACCTTTTATATATGATTATTCACTGGAAGAGCTTCAAGCCTGGGCTCAAGAGAACGGGGAGCCCGCGTTTCGGGGAACCCAGATTTATGACTGGCTGTACGTGAAGCGGGTGAACGACTTCGCGGAAATGACGAATCTGTCCAAAGAGCTTCGGGCCAAGCTGGAGCAGGAGTTCAGCTTCGTGACCCTGACGGAGATCACCAAGCTGGAATCCAAGGACGGAACAGTCAAGTTTCTGTTCGGCCTTCATGATGACCATGCCATCGAGACCGTCATCATGCGGCATAACTACGGCAACAGCATCTGCGTTACGACGCAGGTCGGCTGCCGTATCGGATGTACGTTCTGCGCATCCACGCTGGGTGGCTTGAAGCGAAACCTGACCTCCGGCGAAATCGTTGCCCAGGTGGTTCAGGCACAGAAGATTCTCGATAAAACGGGAGAACGCGTCAGCAGCATCGTGATCATGGGTTCAGGCGAACCGTTTGAGAACTATGAGGCGACCATGAAATTCCTGCGCACGATGATCCATGAAAAAGGATTGAATATCGGCCAACGCCACATTACCGTATCGACGAGCGGCATTGTGCCTAACATCTATAAATTCACCGAAGAGGATACCCAGATTAATCTGGCCATCTCCATTCATGCGCCAAACGATAAGCTGCGCTCCAAGCTGATGCCCGTGAACCGCCGGTTCCCGTTTGACGACGTGATTGAATCGCTTCGTTATTACCAGGCTAAAACCGGACGCCGCATTACGTTTGAATACGCCTTGATCGGCGGAGTGAATGATCAGGTGGAGCATGCCGAAGAGCTTGCGGACGTCATCAAGGATATGAACTGCTTCGTCAATCTGATTCCGGTTAACCATGTGCCGGAACGGAAATATGTTCGCACATCGCGTAACGATATTTTCAAATTTCAACGTGCGTTAGCAGACAAGGGGGTCAATGTGACCATCCGTCGTGAACAAGGCCATGATATCGCTGCCGCTTGCGGCCAGCTGCGGGCCAAGCATATGGAGTTGAGGTGA	MKPFIYDYSLEELQAWAQENGEPAFRGTQIYDWLYVKRVNDFAEMTNLSKELRAKLEQEFSFVTLTEITKLESKDGTVKFLFGLHDDHAIETVIMRHNYGNSICVTTQVGCRIGCTFCASTLGGLKRNLTSGEIVAQVVQAQKILDKTGERVSSIVIMGSGEPFENYEATMKFLRTMIHEKGLNIGQRHITVSTSGIVPNIYKFTEEDTQINLAISIHAPNDKLRSKLMPVNRRFPFDDVIESLRYYQAKTGRRITFEYALIGGVNDQVEHAEELADVIKDMNCFVNLIPVNHVPERKYVRTSRNDIFKFQRALADKGVNVTIRREQGHDIAAACGQLRAKHMELR				NA	NA	NA	NA	NA
AK002_02039	777	prpC	COG0631	Protein phosphatase PrpC	TTGATCAAGACGGTTCATGTAAGCCATGTGGGGCGCGTTCGTCCTGTTAATGAGGATTCGGTATTTGTTAGCACATTGGAGCATGGCTATACCTTGGGTGTGGTTGCCGACGGCATGGGAGGCCACCTTGCGGGCGACACTGCCAGCAGGCTTGCGGTAGATACCGTGGCCGCGGATTTGTCCTCTTTGGAGCAGGACATGTCCATGGACGGCGTTCGGGCTGCGCTGGGCGATGCCATATTGCACGCCAATGCAGTTATCTATCAGGAAGCCTCGGCAGATGAGCGGCTTCACAATATGGGCACGACGATCGTAGCGGTGCTTCTGCGAGGCTCCGAAGGTTATATCGGTCATATCGGGGACAGCCGGGCTTACAAAGTCGTTCCCGGACAAGTCATTCGGCTCACGGATGATCACACATTGGTTAATGAGCTTTTTAAGAGTGGTCAGATTACGGAAGATCAACTGGAAACCCATCCCCGGAAAAACGTATTAAGCCGGGCACTTGGAACGGATGTGGATGTGACGGTTGAGCTTACGCCGGTTACGCTCGGGGAAGGCGAAGTGCTGTTGCTATGCAGTGACGGACTCAGCAACCGGGTCAGCCGCGAGCTGATCGGACAAATTTCCGGTTCACTTGACCTTCCTCTGGAAGAAAGAGCGGATCGCCTGCTTCAACTAGCACTTCTCGCTGGCGGTGAGGACAACATCACAGTCGCAATGTTTGAACATCAAGAAGAGGTTGTCGGGCAACGTATAAAGGGGTGGGATTCATGA	MIKTVHVSHVGRVRPVNEDSVFVSTLEHGYTLGVVADGMGGHLAGDTASRLAVDTVAADLSSLEQDMSMDGVRAALGDAILHANAVIYQEASADERLHNMGTTIVAVLLRGSEGYIGHIGDSRAYKVVPGQVIRLTDDHTLVNELFKSGQITEDQLETHPRKNVLSRALGTDVDVTVELTPVTLGEGEVLLLCSDGLSNRVSRELIGQISGSLDLPLEERADRLLQLALLAGGEDNITVAMFEHQEEVVGQRIKGWDS				NA	NA	NA	NA	NA
AK002_02040	2139	prkC	COG0515	Serine/threonine-protein kinase PrkC	ATGATCGGACATGAATTGGCTGGTCGTTATAAGATTATTGAACGCATCGGCGGCGGCGGCATGGCGCTGGTCTACAAGGCTCAGGATATTTTGCTGAACCGGAACGTAGCGATCAAAGTGCTGCGCCAGCAGTTTGTGCACGACGAGGAATTTATTCGCCGTTTCCGGCGTGAGGCACAATCGGCGGCTTCATTGTCGCATTCCAACGTGGTCAGCATCTACGATGTGGGCCAAGAGGAAGATGTGCATTACATCGTCATGGAATATATCGAAGGTCAGAATTTGAATGAAATCATTAAAGAACGGGCGCCACTGCAGGTTGAAGAAGCCGTGCGGATTGCGACCCAGATCTGCGATGCATTGGGGCATGCCCATCATAACCAGATTATTCACCGCGATATTAAACCGCATAATATTCTGATTGGCCGTAACGGGAGGGTCAAAGTAACCGACTTTGGCATTGCCAGAGCGGTCACGTCGACAACCATTACGCAGACAGGCTCCGTTGTGGGTTCTGTGCATTATTTCTCGCCGGAGCACGCCAAGGGCGTCGTAACGGGCGAGAAATCGGATTTATACTCACTTGGTATCGTGTTATATCAAATGCTCACGGCCCGTCTTCCTTTTCTGGGCGAGAGCCCGATCAGTGTTGCACTGAAGCACCTGCAGGAGGAATTTGACGAGCCTAGGGAAGTGAACCCGCTCATTCCTCAAAGCGTGGAGAACATCATCCTGAAGTCCATGCGCAAAAATCCGGAGGAGCGTTACCAGTCCGCGGAAGAAATGATGGACGACCTCGAGACGTGTTTGATGCCGATGCGCCTCAATGAGCCGAAGATGGAGTTCGAGGACGATGCCGATTCTACCCTGGTCATGCCGGCGCTCAAAACGATGCAGCGCAGCAGCCAGCATCAACATGACCAAGATGACGACTCGGATGACGAGGAGTTTGAGGAAAAGCCAACCGGCAAACCGAAGAAAAAGTGGGTCAAGCCGACCATCATTATCGGCTCAGTGCTCCTGTTCCTCGGCCTTATGTTAGGCGTCGTCATGTATGTGAACAATATGCTGGAGGTGCCGGAGGTTAAGGTGCCGCCAGTGGTAGGCATGACGGAGGAGGAAGCGATCCGCGAGCTAGAGGCCCAAGGTTTGACGGTGAATGAGGAAGTCATTCGCGAATATAAACCGAATGTGGATGAAGGCGTCGTGTTTGCACAGGACAAGGAACCAGAGACCATGCTGAAGAAGGGCTCACCGGTTCAGTTGTCGGTTGGGGATGCAAAGCCGCTCCCGGAAATGCCGGACCTTAATGGGATGACGTTTGATGAGGCAGTTGCTGCATTAAAAGAGATTGGAGTTAAGGAAACCTCCATCAAGCGATCGTCTGAAAAAAATGATGAAGTACCTCAGGGCAAGATCTTTAAACAAAGCCCAGAAGCCAATACAAAAATCGATCCAGAAACGGATGCGATCAGCGTAACGGTGAGCGAGGGCAAGAATTTTATCCCTATGCCGGGCGTGGTTGGCTTAGAGCAGGAGAACGCCGTCAATATTTTGGAGTCGAATGGCTTTAAAATTGCAGCTATCAAAGAGAGATCTAGTTTTGAAGTAAAAAAGGGCATCGTAATAGAGCAATGGCCGCATGAGGCCAATCAACAAGTTGCACCAGGCTCCGAAATCACGCTGTTCGTCAGCTCCGGTTATCCTTCGGATGCGCTTGAGTATAATTACAGCGTACCGGTGTCGCCGAGCGCCGAAGGACAAGAAAGCAAAATCCGGGTGGTCTTCAGCGACGCGCTGGGAGACAACCAGGAGGCCGTAAACAAGACCATTACGACTTCCGAAATGGTACCCGTTAAGCTGCTGCTTGCTCCCGACAAACACGCGACGGTCATGATATTCCGTGACGGCCGCCAGGTGGATACGTACAGCGTAAGCTACACCGACGTCAAGAACGGAACCGTGCCGCAGCCGACCTTTGAGCAGCCGCCTGAGCAACCTGATGTACCGGTGGACACCAACCCGGATGAGGGAAATGGCGAGGACGGTTCGAATGAGGAAGATGATGCTGCTTATCACTGGGATAACGGCAGCGAAGGAAACGGCAAGGGTAAGGGCAAAGGCAAAGACAACGATTAG	MIGHELAGRYKIIERIGGGGMALVYKAQDILLNRNVAIKVLRQQFVHDEEFIRRFRREAQSAASLSHSNVVSIYDVGQEEDVHYIVMEYIEGQNLNEIIKERAPLQVEEAVRIATQICDALGHAHHNQIIHRDIKPHNILIGRNGRVKVTDFGIARAVTSTTITQTGSVVGSVHYFSPEHAKGVVTGEKSDLYSLGIVLYQMLTARLPFLGESPISVALKHLQEEFDEPREVNPLIPQSVENIILKSMRKNPEERYQSAEEMMDDLETCLMPMRLNEPKMEFEDDADSTLVMPALKTMQRSSQHQHDQDDDSDDEEFEEKPTGKPKKKWVKPTIIIGSVLLFLGLMLGVVMYVNNMLEVPEVKVPPVVGMTEEEAIRELEAQGLTVNEEVIREYKPNVDEGVVFAQDKEPETMLKKGSPVQLSVGDAKPLPEMPDLNGMTFDEAVAALKEIGVKETSIKRSSEKNDEVPQGKIFKQSPEANTKIDPETDAISVTVSEGKNFIPMPGVVGLEQENAVNILESNGFKIAAIKERSSFEVKKGIVIEQWPHEANQQVAPGSEITLFVSSGYPSDALEYNYSVPVSPSAEGQESKIRVVFSDALGDNQEAVNKTITTSEMVPVKLLLAPDKHATVMIFRDGRQVDTYSVSYTDVKNGTVPQPTFEQPPEQPDVPVDTNPDEGNGEDGSNEEDDAAYHWDNGSEGNGKGKGKGKDND				NA	NA	NA	NA	NA
AK002_02041	909	rsgA_1	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGCTAGAGGGACTGATCGTGAAGGCACTAAGCGGATATTACTATGTCAAACCACTGCAGGATGGCAACATTATATCCGGGGAGGACCCAGCGGTTCAATGCAGAGCCCGCGGCATTTTCAAAAAGAAAGGCATCTCTCCGCTCGTTGGAGATCACGTGATGTATTCATTGACTGAGAATGGGGAGGGGACCGTGGATGAAATACTTCCACGGTCTTCCCAATTAATTCGCCCGCCGGTCGCGAACGTCGACTTGGCGGTGCTGTTGTTTTCGGTCAAGGAACCGGACTTGAGCCTGCATCTGCTGGACAAGTTCCTGGTACATATTGAGCATTCGGGACTTGAGGCGTTGATCTGCCTGACGAAGCAGGATCTTGCAGACGACTCGGACGATGTATTGGAGCAGGTCAAGCGCCAGTACGAAGAAATCGGGTATGAAGTGCTTATAACCAGCTCCTTGCAAGGCATCGGTACCGATGAGGTGAAGGACCGCCTGGCCGGTCGAATCAGCGTATTCTCCGGTCAATCCGGCGTCGGCAAGTCGTCCCTGCTTAATGCGTTGATGCCGGGCCTCTCGCTGGAGACCAGCGAAATTAGCCTGCGCCTTGGCCGCGGCCGGCATACGACGCGTCACGTTGAGCTGATTGAGCTTGATAACGGAGGCTACGTTGCCGATACGCCCGGCTTTAGCCAGCTGGATTTTCTGGAGCTGGGTGTCGAGGAGCTGTCGACCTGCTTCAAGGAGTTTGCTCCTTATGCGGCTGAATGCAAATTCAGAGGCTGCAGTCACATGCAGGAGCCTGGCTGCCGGGTGATTCAAGCCAAAGAAGATGGAATCATCCTGGCAAGCCGTTATGAGCATTACGTGGAGTTTTATACCGAGATGAAAGACAAGAAGCGGAGGTACTGA	MLEGLIVKALSGYYYVKPLQDGNIISGEDPAVQCRARGIFKKKGISPLVGDHVMYSLTENGEGTVDEILPRSSQLIRPPVANVDLAVLLFSVKEPDLSLHLLDKFLVHIEHSGLEALICLTKQDLADDSDDVLEQVKRQYEEIGYEVLITSSLQGIGTDEVKDRLAGRISVFSGQSGVGKSSLLNALMPGLSLETSEISLRLGRGRHTTRHVELIELDNGGYVADTPGFSQLDFLELGVEELSTCFKEFAPYAAECKFRGCSHMQEPGCRVIQAKEDGIILASRYEHYVEFYTEMKDKKRRY	PGPT0009020_3670	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
AK002_02042	660	rpe		Ribulose-phosphate 3-epimerase	ATGATAAAAATTGCGCCATCCATATTGTCGGCGGACTTTGCAAAGCTGGGGCAGGAAATTAAGGAAGCCGAAGCGAGCGGAGCCGACTGGATTCATGTGGACGTCATGGACGGGCATTTCGTGCCGAATATTACTCTGGGGCCGCCGATCGTCCAAGCGATCAGACCGCATACGGGCCTGACGCTCGACGTGCATCTGATGATCGAACAGCCGGAGTTGTATATTGCCGACTTCGTCAAGGCAGGAGCAGACTTGATCACGGTTCATGCCGAGACCTGCCCGCATCTTCACCGCGTCATCCATCTCATTAAAGAGCATGGCGTGAAGGCTGGCGTCGCGATTAATCCGGCCACGCCGGCCCATGTCCTTCAGGAAGTGCTTCCTGACGTGGATTTGGTGCTGGTGATGACCGTGAATCCCGGCTTCGGCGGACAGGCGTTTATCGAGCGGACCGTAAGCAAGATTGCGCAGCTGCGTGAATGGATTTCAAACTCCGACAATCCGAATATCCATATCGAAGTGGATGGCGGCATTACGGCGGAGACGGCGCCGCTCGTGGTGGAAGCGGGAGCGGATATCCTGGTTGCGGGCAGCGCGGTCTTCGGGAAGCCGGATCGGGCGGCGGCCATTGCCCAAATCCGAAACAGCGTAACATCTTGA	MIKIAPSILSADFAKLGQEIKEAEASGADWIHVDVMDGHFVPNITLGPPIVQAIRPHTGLTLDVHLMIEQPELYIADFVKAGADLITVHAETCPHLHRVIHLIKEHGVKAGVAINPATPAHVLQEVLPDVDLVLVMTVNPGFGGQAFIERTVSKIAQLREWISNSDNPNIHIEVDGGITAETAPLVVEAGADILVAGSAVFGKPDRAAAIAQIRNSVTS	PGPT0017425_4360	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
AK002_02043	189	rpmB	COG0227	50S ribosomal protein L28	ATGGCTCGCAAATGTTATGTAACAGGCAAGAAACCAAGCAGTGGTAACCATGTTTCTCACGCTAACAACCACAACAAGCGTTCTTGGGGTGTCAACGTTCAAAAGGTTCGCATTTTGGTGGATGGCAAGCCAAAACGTGTATACGTCAGCACTCGCGCTTTGAAATCCGGTAAAGTGACTCGCGTATAA	MARKCYVTGKKPSSGNHVSHANNHNKRSWGVNVQKVRILVDGKPKRVYVSTRALKSGKVTRV				NA	NA	NA	NA	NA
AK002_02044	1740			putative protein	ATGGTCCTTGCCGGAGCGGAGCAGCTGCAGCAGCATGCAGAACACGTCAATTCCCTGAATGTGTTCCCGGTGCCGGACGGCGATACGGGGACCAACATGAATTTGACGATGACGGCAGGCGTAGCAGAACTGAAGAGTAAATACTCGGAGTCCGTCGGGCATAGTGCCGGTGTGCTGTCCAAGGGGCTTCTGATGGGAGCCAGAGGGAACTCGGGAGTGATTCTGTCCCAGTTGTTCCGTGGTTTCAGCCGGTATGCGGCACCTTATACAGAACTTAATTCTCATCAATTTGCCGCAGCGCTGCAGACAGGCGTGGAAGCTGCGTATAAAGCTGTCGTAAAGCCTGTGGAAGGCACCATCCTGACCGTAGCTAAAGAAGCGGCCAAACATGCCGTTTATTTCTCGCGCCGCAGCAACGATATCGTGGAGCTGATGGAGCAGGTGCTGGCCAAAGCCAAAGAAACGCTGTCCCAGACGCCGGATATGCTTCCCGTGCTGAAGCAGGTTGGCGTTGTGGACTCGGGCGGGCAAGGCCTGGTGTACATCTACGAAGGTTTCTTGCAAGCGTTGAAAAAAGACGGCGCGTCCGGATCCTTCGCTTCCGCGGAAGGACAAGCAGAACAGAGCAGCGCGGCACCAGCCTATCATGCGGTTCCTGATTTCTCGGCGGTTCAAGCTCCGGCTTCGGCCCAATCCCGACTGTCCACGGAGGACATTGAATTTTTATACGACATGGAATTCTTTATTAATAGGCAGCTTGGAGAGGGAACGAGTGCGGACTTTGATGAAGATAAGTTCCGGAAAGCGCTTGCAGTGAACGGTGATTCCATCATTGTCATTGCCGATGACGAGACGATCAAAGTGCATGTCCATTCCAAGGCGCCGGGCGAAGTGTTGAATTTGGCCCTCATGTATGGAGAGATCACCCAGATTCACATTTTGAATATGCGCGAGCAGCACCGCGACTTGCTGACAACGGGAATGGATATCGCGCCGATGCCCGAGCTGTTTGCGGATATTCCGGCAGAGACCGTGACGCCGGAAGCACCGGCTGTTCCTCCTGCAGACGAGATCGCGCCGTACGGGTTCATTGCGGTTTCGTCAGGGGAAGGCATTTCCGATATATTCAAGAGCCTCGGCGTCGACGTCGTTCTCTCCGGAGGACAGACGATGAACCCGAGCACCGAGGATTTCGTCAATGCGATTTCTTCGATCTCGGCCCAGCAGATTTATATTCTGCCGAACAACTCCAACATCGTGCTTGCTGCCCAGCAGGCTAGAGAGCTTCTCGAAGGCGAGCGCAGCGTAACGGTCATCCCGAGCAAGACGATCCCGCAGGGAATCGCGGCAGCGTTTGCTTTCCAGGAAGACGAGAATGCGGATATGAATACCGACAACATGCTGGATGCCATCACTCGCGTGCAATCGGGGCAGGTCACCTATGCCGTTCGGGACACAACAATTGATGATCTCGAGATCAAGGCTGGCCAGTTCATCGGTATCCGCAATTCCAACATCGTGGCAGCGAACGAGGATCTGATCACGACATCCCAGGATTTGCTGGGTAAAATGCTCGAATCCGGCGATGAAATCGTAACGCTGCTTACCGGCGCTGACGCAACCGAGGAATCGACCAGCGCGCTCACGGAGTGGCTGGGCGAGCAGTACCCTAACGCGGAGGTTGAGGTACACTACGGCGGACAGCCGATCTATTCCTATCTGTTCTCCGTGGAGTCTTGA	MVLAGAEQLQQHAEHVNSLNVFPVPDGDTGTNMNLTMTAGVAELKSKYSESVGHSAGVLSKGLLMGARGNSGVILSQLFRGFSRYAAPYTELNSHQFAAALQTGVEAAYKAVVKPVEGTILTVAKEAAKHAVYFSRRSNDIVELMEQVLAKAKETLSQTPDMLPVLKQVGVVDSGGQGLVYIYEGFLQALKKDGASGSFASAEGQAEQSSAAPAYHAVPDFSAVQAPASAQSRLSTEDIEFLYDMEFFINRQLGEGTSADFDEDKFRKALAVNGDSIIVIADDETIKVHVHSKAPGEVLNLALMYGEITQIHILNMREQHRDLLTTGMDIAPMPELFADIPAETVTPEAPAVPPADEIAPYGFIAVSSGEGISDIFKSLGVDVVLSGGQTMNPSTEDFVNAISSISAQQIYILPNNSNIVLAAQQARELLEGERSVTVIPSKTIPQGIAAAFAFQEDENADMNTDNMLDAITRVQSGQVTYAVRDTTIDDLEIKAGQFIGIRNSNIVAANEDLITTSQDLLGKMLESGDEIVTLLTGADATEESTSALTEWLGEQYPNAEVEVHYGGQPIYSYLFSVES				NA	NA	NA	NA	NA
AK002_02045	858	degV_1	COG1307	Protein DegV	GTGAATAAGACCGTTATTGTGACAGACAGCACAGCGGATATTCCGGCAGACCTGGCGAAGCAACACAACATTCATATTGTGCCGCTGAGACTTATGTTCGGGGAAGATACGTTTTTGGACGGAGTGGAAATCACGCCGGGAGAGTTCTACAAAAAGCTGGTGCAATCGCCTCAGCTTCCGACGACCTCCCAGCCTTCGCCCGCAGATTTTGTGGCTGTGTATGAGTCCATTCTGGAACAGCACCCTGGCTGCTCCATTGTGTCCATTCACATCTCATCCGGCCTGAGCGGAACGTATCAGTCCGCATTGCTTGCAACCTCTCTTATTGAAGGAGAAGCGGATATTACCGTATGGGATTCCAAATCGGCTTCCTACGGTTTCGGGTTATTCGTGGTTCATGCAGCGAAGCTCGCGCAAGAAGGAGCCGCTGTTTCGGATATTCTTTCATCGCTCGAGGACCTTCGTTCCAAGCGCCGCCTCTACTTCTTGGTAGACACGCTGGAATATTTGCAGAAGGGCGGAAGAATCGGCAAGGCGTCGGCCGTGCTCGGTACGCTGCTTAACATTAAGCCGATTTTGTCCATTGACGGCGAAGGGATTATCTTTCCGGTAGACAAGGTCCGGGGTCGGAAGAAAGCGACAGCCAAAATTATTGAGCTGTTTCAACAGGATCTATCCGGCGTGAAAAATATTAAAGTGGCTGTGGGTCATACAGCTGACCCTGCTCAGGTTGAGGATTTTCTGCAGCAGCTGTCCGCTGTGTTCACGATCGAGGAAACCGTGTTCTCCGAGATCGGTCCGGTTATCGGTACGCACGTCGGACCGGGAACCATTGCAGCATATATATGGCCTGCTTAA	MNKTVIVTDSTADIPADLAKQHNIHIVPLRLMFGEDTFLDGVEITPGEFYKKLVQSPQLPTTSQPSPADFVAVYESILEQHPGCSIVSIHISSGLSGTYQSALLATSLIEGEADITVWDSKSASYGFGLFVVHAAKLAQEGAAVSDILSSLEDLRSKRRLYFLVDTLEYLQKGGRIGKASAVLGTLLNIKPILSIDGEGIIFPVDKVRGRKKATAKIIELFQQDLSGVKNIKVAVGHTADPAQVEDFLQQLSAVFTIEETVFSEIGPVIGTHVGPGTIAAYIWPA				NA	NA	NA	NA	NA
AK002_02046	2052	recG		ATP-dependent DNA helicase RecG	ATGAGTCTCAAACTCGATCAAATATCCGTCAGACAGATCAACGGCGTGAGCGCCCTGAAAGAGGGGGAGCTTCACGCCTTTGGCGTCTCTACGGTCAAGGATCTTTTGGAGTATTACCCCTTCCGGTACGAGGATTACCGGCTTCGGTCCTTAAGCGAAGTCAAGGACGGGGACAAAATCACCATTCAAGCCAAGATAGCCAGCGTGCCGGTTCTGCAGCGCTACGGGCGTAAATCCCGACTTACCTGCAAAATGCTGGCCGAAAACTGGATGTTCACCGCGACCTGGTTTAACCGGCATTTTCTGAAGGACCAGCTTACGGCCGGCCGGGAGATCGTGCTGACGGGCAAGTGGGATCAGCGCAGAATGCAGCTTACGGTGTCTGAATCCGAATTCCCGGATAAAGGAGCCTTCCGGAGCGGAACGCTGCAGCCGGTGTATTCCATCGGCGGAAAGATTACGCAATCCTGGATCCGAAAAACGATGGGACAGGCATTGGAGCAATACGGGGAGATGATTCCCGAGATTTTACCGCAATCCTTGCTCCGAAAATATGATCTGATGCCCCGTAAAGCGGCGATTATGACGATCCATCAGCCTGTCGACTCCAGGGAAGGTCAGGAAGGGCGACGCCGCATGGTGTACGAGGAGCTCTTCCTGTTCCAGTTAAAAATGCAGGCATTCCGGGCACTGAACCGGGGACGGATGGACGGGGTGGTACATACGGCCGACAATGCAACCATCCGGGAGTTCGTCCGCAGCTTCCCGTTTGAGCTTACCGATGCGCAGAAGAAGGTGGAGCTGGAGATTTTGCATGATATGCGATCCCCTTACTGCATGAACCGTTTGCTACAAGGGGATGTCGGCTCGGGTAAAACGATTGTTGCCGCCATCGCGTTGTTTACGACGGTCCGCTCAGGCTTCCAAGGCGCATTGATGGTGCCGACGGAAATTCTTGCCGAGCAGCATATGCGTTCCCTGCAGAAGCTGTTTGAACCCTTCGGCATTACGGTCGGATTGCTGACAGGCAGCGTAACGGGGAAGAAGCGGAAGGACCTGCTGGCTTCCTTGCAGATGGGACTGACGGACATCGTTGTGGGCACCCATGCCCTTATCCAGGATGACGTCTACTTCCGGGAACTGGGGCTCGTCGTGACGGACGAGCAGCACCGCTTCGGCGTGAATCAGCGAAGCGTTCTAAGGCGTAAAGGGTATAACCCGGACGTGCTCACGATGACAGCGACGCCGATCCCGCGGACGCTGGCCATTACCGCCTTCGGAGACATGGACGTGTCCACGCTGTCGGAGCGTCCGAAAGGGCGCATTCCCATTACGACCTATTGGGTCAAACATGAACTGATGGACCGCGTGCTCGGATTTATTTCCCGGGAAGTAAATCAGGGACGCCAGGCATATCTGATCGCCCCGTTGATTGAGGAATCGGACAAGCTGGACGTCCAGAATGCGATTGACCTGCATGTTCAGATGCAGCAGGCGTTCCCCGCATATTCCGTCGGACTTCTGCACGGCCGCATGACGCCGGCCGAGAAGGATGAGGTCATGCGCCAATTCTACAGCAATGAGGTTCAGCTGCTGATATCCACGACGGTTGTTGAGGTTGGCGTTGACGTGCCGAACGCAACCCTGATGATCATTATGGATGCCGATCGCTTCGGCCTGTCCCAGCTGCACCAGCTTCGGGGCCGGGTAGGCCGTGGACAGCATGCTTCCTACTGTGTCCTGGTGGCTGATCCGAAGTCGGAAGTAGGTCAGGAGCGGATGCAGGTCATGACGGAAACCGAAGACGGCTTCGAGGTATCCCGGCGGGATCTGGAGCTTCGGGGACCGGGCGATTTTTTCGGTACGAAGCAGAGCGGGCTGCCGGAGTTCCGGCTGGCCGACATGGTCGCCGATTTCAAGGTAGTCGAAGAGGCCCGGGGCGACGCGGCGGCTCTCGTTAGCGACAGCTCCTTCTGGACGTCGCCGGAATATGAGCCGCTGCGCGACTTTTTGCAGCAGGAGAAGATCTTCCAGGGCGATATCATGGATTAA	MSLKLDQISVRQINGVSALKEGELHAFGVSTVKDLLEYYPFRYEDYRLRSLSEVKDGDKITIQAKIASVPVLQRYGRKSRLTCKMLAENWMFTATWFNRHFLKDQLTAGREIVLTGKWDQRRMQLTVSESEFPDKGAFRSGTLQPVYSIGGKITQSWIRKTMGQALEQYGEMIPEILPQSLLRKYDLMPRKAAIMTIHQPVDSREGQEGRRRMVYEELFLFQLKMQAFRALNRGRMDGVVHTADNATIREFVRSFPFELTDAQKKVELEILHDMRSPYCMNRLLQGDVGSGKTIVAAIALFTTVRSGFQGALMVPTEILAEQHMRSLQKLFEPFGITVGLLTGSVTGKKRKDLLASLQMGLTDIVVGTHALIQDDVYFRELGLVVTDEQHRFGVNQRSVLRRKGYNPDVLTMTATPIPRTLAITAFGDMDVSTLSERPKGRIPITTYWVKHELMDRVLGFISREVNQGRQAYLIAPLIEESDKLDVQNAIDLHVQMQQAFPAYSVGLLHGRMTPAEKDEVMRQFYSNEVQLLISTTVVEVGVDVPNATLMIIMDADRFGLSQLHQLRGRVGRGQHASYCVLVADPKSEVGQERMQVMTETEDGFEVSRRDLELRGPGDFFGTKQSGLPEFRLADMVADFKVVEEARGDAAALVSDSSFWTSPEYEPLRDFLQQEKIFQGDIMD				NA	NA	NA	NA	NA
AK002_02047	288			hypothetical protein	TTGGGTTATCAGCAGTATGGCATTAGTCCGCAGCTGGTGGAGCGTATCAAGCTAAAAATGAAAAACCCGGCCATCAAGGAAAGAATCAAGGGACTGACTCAGGGCTTGACCAAGGCGGATCTTCAAAATAGCGCAAAAGTACATCAATTGATCCGGACGGCCAGCGGCATCTTGAATGAAAAGCTGAGCTCCGCACAGGAGCAGCAAATGGTTCAATTCGTGCTTGCACAGCGCATCGATCCGAACAACACCTTCCATTTGATCAAGCTGTGGGGAATGTTTCGTTAA	MGYQQYGISPQLVERIKLKMKNPAIKERIKGLTQGLTKADLQNSAKVHQLIRTASGILNEKLSSAQEQQMVQFVLAQRIDPNNTFHLIKLWGMFR	PGPT0027615_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-VapC-VapB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027615-antitoxin_vapB-K19687	NA	NA
AK002_02048	708	yedK_1	COG2135	SOS response-associated protein YedK	ATGTGCGGACGTTTTACGCTCACCGTTACTTGGGAAGAGCTGATGACCAGGTATCTCATTGATCCCGAATCGGTCTCTCCCTTTCACGTTCCCAGGTATAACATCGCGCCTACGCAGATGGTCACGGCCATTATCCATGACGGGAGCACCAACCGGATCGGGCAGCTGCAGTGGGGGCTTGTCCCATCCTGGGCCAAGGATTCCTCGGGCGGAGCCAAAATGATCAATGCCCGCAGTGAAACGCTGGAAGACAAGCCTGCCTATAGGATGCCCTTTTATCGGAAAAGATGCCTGATTCCTGCAGACGGTTTTTACGAATGGCAGAAAAACGGCAATGGCAAGCAGCCCTTTCGCATTGGATTGAAGAACGGCGAAATATTCAGCATGGCCGGCCTGTACGACACCTGGATCACCCCAGGGGGCGAGAAGCTGAGCACCTGTACCGTCATTACGACCGAGCCCAACAGGCTCATGGAGCCGATCCATAACCGGATGCCGGTCATTCTAAGACCCGCTGACGAAGCGCTATGGCTTGAACGGCAGCCGTCCTCCCATACCCATGGGAACCACCCTTCCCACCTGCAATCGCTCAAGGAGCTGTTGAAACCCTATCCCGCGGAGGAAATGCAGGCAGTGCCGGTAAGCACAACCGTAAACTCCGTCAAGAACGACACGGAAGATTGCATCCGCTCCATTACGGGCAGCTAG	MCGRFTLTVTWEELMTRYLIDPESVSPFHVPRYNIAPTQMVTAIIHDGSTNRIGQLQWGLVPSWAKDSSGGAKMINARSETLEDKPAYRMPFYRKRCLIPADGFYEWQKNGNGKQPFRIGLKNGEIFSMAGLYDTWITPGGEKLSTCTVITTEPNRLMEPIHNRMPVILRPADEALWLERQPSSHTHGNHPSHLQSLKELLKPYPAEEMQAVPVSTTVNSVKNDTEDCIRSITGS				NA	NA	NA	NA	NA
AK002_02049	1302	pbuO	COG2252	Guanine/hypoxanthine permease PbuO	GTGTTTGATTTAAAAGCTAACGGCACCTCGGTCAAGACCGAAGTTGTTGCCGGGACCACGACATTTTTTACGATGGCTTATGTGACCGTGGTGAATCCGCTGATACTGTCGCAAGCGGGCGTGCCGTTTGAGCAAAGCTTCACGGCTACGATTATTGCCGCCGTCATCGGTACGCTGCTCATGGGACTCGTAGCCCGCTACCCGATTGCCGTGGCGCCGGGGATGGGGTTGAATGCTTATTTTACGTATTCCGTTGTCCAAGGGCATGCCGGACTTGGCTATATTGAAGCCTTCTCCGCCGTTTTTATCGCCGGTATTCTGTTTCTGCTGTTATCGATGACTTCCCTGCGGCGCAGGTTGATTGAGATGATCCCGGCGAACCTGAAGCATGCGATCACGGTCGGGATCGGCCTGTTCATTGCTTTTATCGGTCTGCGGATGAGCGGCATTATCACCGCGCATCCGGATAATCTGGTAGCGCTCGGCGATTTGCACCAGCCATCGGTCGTGCTCGCCTTGGTGGGCTTGGCGGTTACGCTCGTGCTGCTGTCCCGCGATGTGAAGGGCGCCTTGTTCATCGGCATGATTTTCACCGGAATTATCGCTTATTTTGCCGATATGCTGTCCTTTACCGGCGGGATTATGTCCGTTCCCACGCTGCCGGAAGGCATTCTGGTATGGAACCCGATTACGGCGGCCTCGGATGTGATCAGGCACGGGCTCTATGCCGTGGTGTTCTCGTTCCTGCTTGTAACGCTGTTCGATACCACGGGCACGGTCGTTGGCGTGGCAGAGCAGGCGGGGCTGATGAAGGATAACAAGCTGCCCCGCGCGGAACGTGCCATGTTCTCCGATTCGGTGGCAACCGTGGCCGGCTCCATGGTCGGCACAAGCCCGACCACGGCGTATATCGAATCCGCAGCCGGTGTCGGCGCAGGCGGCCGCACAGGCTTAACCTCGGTGGTCGTTGCCGGGCTATTCGTGGTTGCGGCCTTCTTTAGCCCGCTGATCGGCGCGGTTGCCGGATTGTCCGCCATCACGGCACCGTCGCTGATCGTGGTGGGCTGTCTGATGCTGAGCAACGTTCAGCACATCCGATGGAACGACTTTGATGAAGCGTTCCCTGCGTTTCTCGTGATTTTGACCATGCCGCTTACCTCCAGCATCGCAACAGGGATTGCGCTCGGTTTTATTTCATACCCGCTCATGAAAATCGTGAAGGGCAAGTGGAAGGCGGTTCATCCGCTGATGTATATTTTTGCCGTGCTGTTCGTGCTGCAGCTCGTCTTTGTTCCGCATTGA	MFDLKANGTSVKTEVVAGTTTFFTMAYVTVVNPLILSQAGVPFEQSFTATIIAAVIGTLLMGLVARYPIAVAPGMGLNAYFTYSVVQGHAGLGYIEAFSAVFIAGILFLLLSMTSLRRRLIEMIPANLKHAITVGIGLFIAFIGLRMSGIITAHPDNLVALGDLHQPSVVLALVGLAVTLVLLSRDVKGALFIGMIFTGIIAYFADMLSFTGGIMSVPTLPEGILVWNPITAASDVIRHGLYAVVFSFLLVTLFDTTGTVVGVAEQAGLMKDNKLPRAERAMFSDSVATVAGSMVGTSPTTAYIESAAGVGAGGRTGLTSVVVAGLFVVAAFFSPLIGAVAGLSAITAPSLIVVGCLMLSNVQHIRWNDFDEAFPAFLVILTMPLTSSIATGIALGFISYPLMKIVKGKWKAVHPLMYIFAVLFVLQLVFVPH	PGPT0007325_4569	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007325-pbuG|azgA|ghxP|ghxQ|adeQ-K06901	NA	NA
AK002_02050	642			hypothetical protein	ATGGGATCACGTTTGAACAACAATATGCACGCTGAACAAGACCTGCAGTCCATCGGACAAAAAAGCGCAAGCTCCGGCCAGTCCGGCCAGCTTCTGCAATCGCTGCTGTGGAACCGGCACGATCTTCCTTCGCTGGAGCATGGCCGGCTCTATCGGCATCACGATGGATTTACGCTCACCGGAACGGTCGTAGCCAGCCTGGAAGGCCGGACCCTCCACTGCTCCTACGAGGTCGAAACCACAAGCAGCTGGGAGACCCGGAAAGTCCGGATTACTCTCTCAAGCGGCACGGAAGAACAGTCCCTTCACCTGGAACGGGATGATGAGGGCCGCTGGTGGAACGGCGATACCGAGCTCACGGCCTTTGCCGGCATGACCGACATCGATCTCGGGATCACCCCGTCCACCAACACGCTCCCGATCCGCCGCCTGCAGCTGGAGCCCGGGGAGAGCGCAACCATGATGGCCGTATGGATTCAATTCCCGAGTCTTACCGTCGCTCCCCTCCCCCAACGATACACGCGGACGGGCGAATTCGCCTATCGTTACGAGAGCAGCCACGGAGCGTATCAAGCTGATTTGGGGGTTGACGAACACGGCCTTGTCACAACGTACGCGGACGTATGGAGCCGGACTCGCTGA	MGSRLNNNMHAEQDLQSIGQKSASSGQSGQLLQSLLWNRHDLPSLEHGRLYRHHDGFTLTGTVVASLEGRTLHCSYEVETTSSWETRKVRITLSSGTEEQSLHLERDDEGRWWNGDTELTAFAGMTDIDLGITPSTNTLPIRRLQLEPGESATMMAVWIQFPSLTVAPLPQRYTRTGEFAYRYESSHGAYQADLGVDEHGLVTTYADVWSRTR				NA	NA	NA	NA	NA
AK002_02051	333			hypothetical protein	ATGAAAAAACTAACGGGAAACGGTCTATGGGAATCCAGCCGCATGATGCTGTTTGAGCATCGCGACGCCATTTTGGAGAAGCAGGGCGAGAAGCATAAGCAGACCCACCCTCTTCTGGATGAGCAGCAGATGCAGTGGATAATAGAAAAGATCAGCACGGCTTACCGGAACAAGGAACCCTTACAGCTGCAAGTATACGGGGAGTACGGAAATTACGCGGTAAACGGAAGGATCTCCCGAATCAATACCCTGAACGAGCGGTTGCTTGTCGGGGATACATGGATTAATCTGGTAGATATACTGGAGGTTGAAACGGCGGAGACGTGTGATTGA	MKKLTGNGLWESSRMMLFEHRDAILEKQGEKHKQTHPLLDEQQMQWIIEKISTAYRNKEPLQLQVYGEYGNYAVNGRISRINTLNERLLVGDTWINLVDILEVETAETCD				NA	NA	NA	NA	NA
AK002_02052	1266	dinB_2		DNA polymerase IV	ATGCATAAACGCAAGCAGCGCGTCGTTTTTCTGGCGGACTGCCAGTCCTTTTATGCCTCTGTTGAAAAAGCGGCGAATCCCGCATACCAAAACAGACCCTTGGTCGTCTCCGGCGACCCTTCCCGGCGAAGCGGCATCATTCTCGCGGCATGCCCGCTTGCGAAGGATCACGGGGTCACCACGGCGGAGCCCCTGTGGCAGGCCCAGCAGAAATGCCCCGATCTGGTCGTGATGAAACCGCGCATGAGTGCCTATATCCGGATATCCCTGCAGATCATGAGCATTCTCGAATCCTATTCCGATCTCGTGGAGCCGTTCAGCATTGATGAGCAATTCATCGATGTGACGGCAAGCTTGGCGCACTTTGGCTGCACGCCGAAGGAGCTTGCCCGGCATATTCAGATGCGGGTGCGGCGCGAGACCGGCGTCTATACCCGAGTCGGCATCGGGCGCAACAAGGTTCTTGCCAAGCTGGCCTGCGACAATTTTGCCAAGAAGAATGAGGACGGCATCTTTGAGCTGAACGAGGACACCATGAACGCTCTCTGGGCCTGCCCCACCCATAAAATGTTCGGCGTGGGCTCGCGGACCACGAAGCATCTGGCACGGCTCGGCATCCAGACCATCGGTGAGCTGGCCCATACGCCGCTTCCCGATCTCAAATTCAAAATGAAGCGCTACATGAAAAAAAACTGCGACATCTGGAGCGAAGTGCTGTGGCGAACCGCCAATGGTTATGATGATTCCCCGGTGACGCCCGATGCATTCGACGGGCAAAAAGGAATCGGCCGGCAGACCACGCTTCCCGTCGATTATCACGACCAGCAGGACATCGATGTCGTGCTGAACGAGCTCTCCATGCTCATCTGCCAGCGGGCGCGGGCCAAAGGCTACATGGGCAACGTGGTCCATGCCGGTGCCCAGGGCGCCGATTTCGACCGGCCGGTGGGATTCTCCCGCCAAATGAAGATTGCCGAGCCCACGCATCTGTCCCGCGAAGTGTATGCGGCTGCCAAGGAGCTGTTCCGCAAGCACTGGGACGGCGGCCCTGTCCGCAAAATCTGGGTCTCCCTCGGAGAACTGCAGAGTGACGCCGTTTACCAGCTGTCTCTCTTCGGCGACCGGGAGCGGCTCATGTATTTGGAACATACCATGGACGATATCAACAACCAATATGGTCCCTCCTCCGTTTACTTCGGCTCATCGCTAACCAAAACCAGCCAGCTGAAATTTCTGAACGCCAAGATCGGAGGACACTACAAATGA	MHKRKQRVVFLADCQSFYASVEKAANPAYQNRPLVVSGDPSRRSGIILAACPLAKDHGVTTAEPLWQAQQKCPDLVVMKPRMSAYIRISLQIMSILESYSDLVEPFSIDEQFIDVTASLAHFGCTPKELARHIQMRVRRETGVYTRVGIGRNKVLAKLACDNFAKKNEDGIFELNEDTMNALWACPTHKMFGVGSRTTKHLARLGIQTIGELAHTPLPDLKFKMKRYMKKNCDIWSEVLWRTANGYDDSPVTPDAFDGQKGIGRQTTLPVDYHDQQDIDVVLNELSMLICQRARAKGYMGNVVHAGAQGADFDRPVGFSRQMKIAEPTHLSREVYAAAKELFRKHWDGGPVRKIWVSLGELQSDAVYQLSLFGDRERLMYLEHTMDDINNQYGPSSVYFGSSLTKTSQLKFLNAKIGGHYK	PGPT0014881_1129	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
AK002_02053	363			hypothetical protein	ATGTCCGCGTCTCCGCTGCAAACCGAGGAAGAGCTGCTGTCCGTCAAGGACTGCGTCATTCTGCCGATTTTGCTGGACGTGCTGGAACGGGATATCCGCAGCATGAAGCATACCGGCATAAGCGACTATTACGTGTTCCATCTGCAGACCATTCAGAAGATTACGTTCGCGAAGCTCGCCGAGCTCAAGAGAAGCTGCCGTGCACGCGGCATCGCCATTCTGGAAACCCGGCGCCAGAAGCACTCCGTCACCATCCGCTACCGATGTCGCGGCTACCAGCATGACATGGAGCTGATGTGGGATTTTGTGAGGGCCGATATTCAAATGCGTCTGGCTGAAACATTTCACATTCGTCTCGAATAG	MSASPLQTEEELLSVKDCVILPILLDVLERDIRSMKHTGISDYYVFHLQTIQKITFAKLAELKRSCRARGIAILETRRQKHSVTIRYRCRGYQHDMELMWDFVRADIQMRLAETFHIRLE				NA	NA	NA	NA	NA
AK002_02054	1590			hypothetical protein	ATGAACATACCCAAACGACGCCTCAAAATCAGTCTTGCGATGGTCATGCCCGCATTGGTTTCATTATCCATCCTGATGACGATGTCGATCATGGTCTACATCCAGTATAAAAACGAGAAACGATCCCTGTACGACACGACCATGTCGCTGAATTTATCATCCGCGCAAAAAATGGCGGTTACCATAGAAGCGCTTTTCTCGGGGATGCGCCAAAGTCTGCACGCCGCCGCAAGCAACCCGGCCATTGAGGCAAGAGCGGCATCCGACGAAAAGGAGCTGCAGGTCATTTTTGATCTTATGCTCCAGAGCAGCCCTTATTTCAATTCCGTATTTTGGGCCGACGAAAGGGGGAGCATTCGAGTCGTCTCACCTGCGGGGAATCAGGTAAACCATGCCCGATTAATAACGGAGGGGGCCATTCAAGCATTAAACGAGAGAAAATCCTATCTTTCGGTACCGTATAGGAGTCCGACCGGCCGCTGGATCGTGTTTGCGAGCGAGCCGATTTTTGACGGATCCGGCAAGTACTGCGGCATGATAGCAGGCACGATTTATCTGGAAGAAAACAATATATTGCATCGGATCTTCGGATCCGGTGCGGGAAATGAAGAAAACTCCTATTCCTATATCGTGGATTCCGGCGGGAAGGTGCTCTATCATCTGGAGGAAAGCCGGGTCGGGGAGGACGTGAGCTCTAACGTGGTCGTGAGACGGCTCATGGATGGCGAGAGCGGCATGCAACGCGTGACGAATACGCAGGGCAACGATTACTTGACGGGTTATGCCAGCGTGGCGATGAATGGCTGGGGGATCGTCATGCAGACGTCGGTAAGCTCCATCCTGGCCGATGTCAATCGAAATTTGCAGGACCAGCTGAGAAGCATGCTGCTTCCCATCGCGCTCATGCTGTTCATTGCCGTATATACGGCCGCAAGAATTGCCGCCCCGTTTACCCGGCTCTATAAATTAACGAAATCGGTAGCAGCCGGCCAAACGGTGTCTTCCCAGGAATTCCGGCCGCATTGGAACCGGGAAGCCGACCAGTTGAACCGGATCATGGGAGCCGCTGCGGAAACGATGGCCAAGCAGACTCAGTCGCTGCAGCAGGAAGCGATCACGGATCCATTGACGGGGCTGTCCAATCGCCGGGAGCTGGAACGCTGTCTTGAGTCTTGGGATGCGCTCGGGGAGCCGTATGCCGTTATTCTCCTGGATATCGACCATTTCAAAGCGATAAACGATACGTATGGCCATCAAACCGGCGATCAGATCCTGAAGCTCGTGGCGGCCGTCATGGTGGATTGCGCTCCCGCGGATGCGGTATGCTCCCGCTTTGGCGGGGAAGAGTTTGTCATTCTTCTTCGCGAACGCAGCCTGGATACGGCGTACCGTATGGCTGAACGGATACGCCGGGCGATCCTGGTTTCCCCGACCCCTTATTCCGGAACGCTCACCGTATCGATCGGCGTATCGCTGTATCCGGAGCATGGGGGAAACCGGGAGGATGTATTTCAAGCGGCGGATAGGGCGTTGTACCGGGCGAAGGGGGAAGGACGCAACCGCACGGTGGCGGCGGAATTATCGGCATGA	MNIPKRRLKISLAMVMPALVSLSILMTMSIMVYIQYKNEKRSLYDTTMSLNLSSAQKMAVTIEALFSGMRQSLHAAASNPAIEARAASDEKELQVIFDLMLQSSPYFNSVFWADERGSIRVVSPAGNQVNHARLITEGAIQALNERKSYLSVPYRSPTGRWIVFASEPIFDGSGKYCGMIAGTIYLEENNILHRIFGSGAGNEENSYSYIVDSGGKVLYHLEESRVGEDVSSNVVVRRLMDGESGMQRVTNTQGNDYLTGYASVAMNGWGIVMQTSVSSILADVNRNLQDQLRSMLLPIALMLFIAVYTAARIAAPFTRLYKLTKSVAAGQTVSSQEFRPHWNREADQLNRIMGAAAETMAKQTQSLQQEAITDPLTGLSNRRELERCLESWDALGEPYAVILLDIDHFKAINDTYGHQTGDQILKLVAAVMVDCAPADAVCSRFGGEEFVILLRERSLDTAYRMAERIRRAILVSPTPYSGTLTVSIGVSLYPEHGGNREDVFQAADRALYRAKGEGRNRTVAAELSA				NA	NA	NA	NA	NA
AK002_02055	522	ywnH_1	COG1247	Putative phosphinothricin acetyltransferase YwnH	ATGAAAAGCACTTCGATCAGACTAGCGGTCACTGGCGATGTGGACCGAATACTGCACATTTATAATCAAGGTATTGAAGATCGCATCGCGACGCTGGAAGCAGATCCTAAAGATATTACATATATGACTAACTGGTTTCAACAACGCCAGGATCGTTACGCCGTCATTGTAGCTGAGAACGATAATAAAGTAATTGGCTGGGCCTCGCTCAACCCTTACTCGCAGCGATGTGCTTACGACGGCGTTGCCGACCTATCCATATACATCGATCGAGCATTCAGAGGCAAAGGAATCGGGAGCATGCTGCTTCAACATCTCGAGTCGATTGCAAAGGAACATGGATTTTATAAAATCGTGTTATTTACCTTTCCGTTTAATCAAAACGGTCAGGGTCTATATCATAAACGTGGATACCGCGACGTCGGCGTTTTTAAAAACCAGGGCATCTTGGATGGCAAGTTCGTAGATGTAAAAATTATGGAGAAGCTATTGGACGGGGCGGATCTTCGATCATGCCGATAA	MKSTSIRLAVTGDVDRILHIYNQGIEDRIATLEADPKDITYMTNWFQQRQDRYAVIVAENDNKVIGWASLNPYSQRCAYDGVADLSIYIDRAFRGKGIGSMLLQHLESIAKEHGFYKIVLFTFPFNQNGQGLYHKRGYRDVGVFKNQGILDGKFVDVKIMEKLLDGADLRSCR				NA	NA	NA	NA	NA
AK002_02056	450			hypothetical protein	ATGGAGAATGCACGCGAACTGTTTCAAATCATGACGCGAAGATTTGGTCTTCTGCATAAAAACTGCTGCAGTATCGGAGGGAACGACGTCTCCCTAGTTCAAAGCCATATCTTGTATGAGATTGATCGGCGGCACAATCCTTCGATGCAGCAGATTGCCGAAGCACTAGGAACCGATATTACGACGTTTAGCAGACAGGTCCAATCCTTAATCAAAAAGAATTTCGTAAAAAAAGCTCAGGATCCGCAGGATCGAAGAGTATATGCACTGGCTCTTACGACGGAGGGCAAGTTTATAGCGACTACCATTGATCAGCAGATGCATGACTATCTTAACGAAGTATTTTCGTATATGACCGAGTCGGAAAAAGAAACCGTGCTTCACTCCGTTAAGATTTTCAACGAGGCAATGGCTAAATCCAATAAATGCTGTGGCCCCATGTCCGAATAA	MENARELFQIMTRRFGLLHKNCCSIGGNDVSLVQSHILYEIDRRHNPSMQQIAEALGTDITTFSRQVQSLIKKNFVKKAQDPQDRRVYALALTTEGKFIATTIDQQMHDYLNEVFSYMTESEKETVLHSVKIFNEAMAKSNKCCGPMSE				NA	NA	NA	NA	NA
AK002_02057	315	arsR	COG0640	Arsenical resistance operon repressor	ATGAAGGTCTCTACCATACATGAAGACGTATTAAGCCTGTATGAACAGAAATTCAAAGCATTGTCCGATAAGAATCGGTTGAGAATCATTTATGAATTGAATCAACGAGGTAAAGTATGCGTATGTGACCTAACGGACATGCTGGATCTCCCTCAATCGAAACTGTCTTACCATCTGAAAATGCTGCTGGATGCAAACATTATTTTGATGGAGCGCATCGGAAAATGGAACTATTACGAGCTTAACGATGAAGAAGTCAAGGGACTGCTATCCGAGAAGCTGTGCTGCGTGTTTTATCCGAATTCCAAAGCATAA	MKVSTIHEDVLSLYEQKFKALSDKNRLRIIYELNQRGKVCVCDLTDMLDLPQSKLSYHLKMLLDANIILMERIGKWNYYELNDEEVKGLLSEKLCCVFYPNSKA	PGPT0004735_4449	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_02058	1404			Ferredoxin--NADP reductase	ATGAAAAACATTGAGTTTAAGGTAACCTCATCTTCATGCTGCACACCCCGAGTACCGTCAAGCACCAAGGAAACAGTCAAGAAGGAGCATGCTTCCTATAACGATAACCTGCCGGTGGCGATAATCGGAGCCGGTCCGATCGGTTTGGCAGCAGCAGCGCATTTGGGGGAGAGAGGACAAAATTTCATCCTTTTTGAAGCCGGATCCAGCATCGGACAAAACATTCTCCAATGGGGACATGTACGACTATTCTCGCCATGGCAGTACAACATCGATAAAGCCGCCGAGCGTCTTTTGCGCAAACAAGGATGGAAGCCTCCTGTATTAACGGAACTGCCTTTCGGTCATGAGATCGTGCATCAATATTTGGAGCCTTTGGCTAAACTGCCTGAACTTGCGCCCAATATCATGTTAAATTCCAGAGTAGTCTCCATATCGAAAAAGAATACAGATAAAATGAAATCGGCTTATCGCGAAGCTGCACCATTCGTGCTTTATGTCGATACAAATAACTCCACGCAGCGTTTTGAGGCTAGGGCCGTGATCGATGCGTCCGGAACCTGGGGACATCCCAATCCGCTGCATGCCGACGGAATATGGACACGGGAAGAGCGTGATTTGAAGGATCATATTTATTATGGGATTCCGGATTTATCAGCAGAACAAAGGCAGAAATACGCAGGGAAACGCGTTGCGGTGGTAGGAGGCGGACACTCGGCGATCAACACTTTATTGGATCTGGTCCAGCTCAAAGAAACGGATTCGAATACGGAAATTATTTGGGTGATGAGAAAGAAGTCGGTGGAAGAAGCCTATGGCGGGGAAGAGAATGATCAGCTCGAGGCTCGCGGGGCGCTTGGAAGCCGCATTCACCAGTTGATTGATGCAGGCCAAATCCAAGTGGTTAATCCATTGATGATCGAAGGGCTTTCCCAAAAAGATGGGAAGATTGGCATCAAGGGGACTGCCAATGGCGAGGGCAAGGAAATACAAGGAATCGATGAAGTGATCGTGAATACAGGGAGCCGACCCGATATTTCATTTCTGAGCGAGATCAGGCTTAGTATGGATCCTGCCACGGAGAGCGTCGAGGCGCTGGCTCCGCTAATTGATCCGAATGTACACAGCTGCGGCACCGTAAGACCTCATGGCGAGAAAGAGCTTCGTCATTTGGATAAGAACTTTTATCTTGTCGGGATGAAGAGTTATGGCCGGGCTCCGACTTTCCTCATGGCTACAGGGTATGAGCAGGTCAGATCCATTGCAGCCTATTTGGACGGCGATCTGGAGGCGGCGTTAAAGGTTGAGCTGGAGCTGCCGGAGACCGGCGTATGCGGCATCAGCAGTGGACCAAATGCCAACGATTGCTGTTTGCCGGCCTCATCTGCTTCGGGCTGCAAATAA	MKNIEFKVTSSSCCTPRVPSSTKETVKKEHASYNDNLPVAIIGAGPIGLAAAAHLGERGQNFILFEAGSSIGQNILQWGHVRLFSPWQYNIDKAAERLLRKQGWKPPVLTELPFGHEIVHQYLEPLAKLPELAPNIMLNSRVVSISKKNTDKMKSAYREAAPFVLYVDTNNSTQRFEARAVIDASGTWGHPNPLHADGIWTREERDLKDHIYYGIPDLSAEQRQKYAGKRVAVVGGGHSAINTLLDLVQLKETDSNTEIIWVMRKKSVEEAYGGEENDQLEARGALGSRIHQLIDAGQIQVVNPLMIEGLSQKDGKIGIKGTANGEGKEIQGIDEVIVNTGSRPDISFLSEIRLSMDPATESVEALAPLIDPNVHSCGTVRPHGEKELRHLDKNFYLVGMKSYGRAPTFLMATGYEQVRSIAAYLDGDLEAALKVELELPETGVCGISSGPNANDCCLPASSASGCK				NA	NA	NA	NA	NA
AK002_02059	324	aseR	COG0640	HTH-type transcriptional repressor AseR	ATGGAGCCCATGAACGAAATAGCCGAAAAACTCAAATTGCTTGGGGATAAAACAAGGCTTACGATGTTGACGCTCCTTAAGGAAAGAGAATGGTGCGTTTGCGAGTTCGTGGATATATTCGATATGTCGCAGCCCGCGATCAGCCAGCATCTGAGAAAGCTGAAGTCTCAGGGAATCGTTAATGAAGCCAGGCGAGGACAGTGGGTTTATTATTCATTGAACGTGGACGACAAGCCCTATATCCAAGCCGTATTAAATGAGATGCCAGGTTCGCAAGAAGTATTGTCATCCATGAATAAGGAGGTTAACTGTACTTGCAGCTAA	MEPMNEIAEKLKLLGDKTRLTMLTLLKEREWCVCEFVDIFDMSQPAISQHLRKLKSQGIVNEARRGQWVYYSLNVDDKPYIQAVLNEMPGSQEVLSSMNKEVNCTCS	PGPT0004735_3863	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_02060	1296	arsB	COG1055	Arsenical pump membrane protein	TTGGTTTCTGTTGTCCTGGCCAGCATCATTTTTATTTTCACGTTAATTTTTGTCATCTGGCAGCCCAAAAACCTATCCATTGGATGGTCGGCTTGCGGAGGCGCTCTGCTGGCGCTTCTCGTTGGAGTCGTGGATTTTCAGGATGTGTGGGACGTCACCTTGATCGTATGGAACGCAACGCTCGCCTTTGTTGCAATCATCATTATCTCGTTGATCTTGGATAAAATCGGGTTATTCGAATGGGCAGCGCTGCATATGGCCAATGCCGCCCGGGGAAACGGCATCCGGATGTTTGTGTACGTCTCCTTGCTTGGAGCGGTTGTTTCCGCATTCTTCGCGAATGACGGAGCGGCTCTCATCCTGACGCCGATCGTGCTTGCCATGGTGCGGGCGCTCAATTTCGATGAACGAAAGGTATTTCCATTTATCATCGCAAGCGGCTTTATTGCGGACACCACCTCGCTTCCGCTTGTCGTCAGCAACCTGGTAAACATCGTATCTGCCGATTTCTTCGGCATCTCGTTCATCGAATACGCCAGTCGCATGCTGGTTCCGAATCTGTTCTCATTGGCAGCGAGCGTTCTTGTGCTTTACTTGTTTTTCCGCAAAAGCATCCCGCGGAAGTTTGACGCTGCCCAACTGAAGCAGCCATCCACCGCGATTCAGGATCCTGCCATGTTCCGTTTGTCATGGATCGTATTAAGCGTACTGCTCATCGGTTACTTTGTATGTGAATTTGCAGGTATTCCCGTATCGATCGTCGCCGGCGTTATCGCGATATTGTTCCTGTTGATGGCGAGAAAAAGTCCGGCTGTGCAAACAAAGGAAGTGCTTAAAGGGGCGCCCTGGGCGATCGTGTTTTTCTCGATTGGCATGTATGTCGTCGTATATGGCTTGCGCAATGCAGGCCTTACGGATCTGCTGGCCGGCGTCATACAGAGCGCAGCGGATCAAGGGTTATTTGCCGCTACCATGGCCATGGGTTTTATTGCCGCCATTATTTCGTCTATTATGAACAATTTGCCGACGGTGATGATCGATGCACTAGCCATCGATGCAACCCATACGTCGGCAGCCATTAAAGAGGCATTAATATATGCGAACGTGATCGGTTCCGATTTAGGCCCCAAAATTACGCCGATCGGTTCGCTGGCAACCTTGCTTTGGCTGCATGTCCTTTCTGCCAAAGGCGTGAAGATCAGCTGGGGAACCTACTTCAAAACAGGGATCATATTGACCATCCCGACGTTATTCATAACACTCTTGGGTTTGTATATCTGGTTGACCCTATTGTAA	MVSVVLASIIFIFTLIFVIWQPKNLSIGWSACGGALLALLVGVVDFQDVWDVTLIVWNATLAFVAIIIISLILDKIGLFEWAALHMANAARGNGIRMFVYVSLLGAVVSAFFANDGAALILTPIVLAMVRALNFDERKVFPFIIASGFIADTTSLPLVVSNLVNIVSADFFGISFIEYASRMLVPNLFSLAASVLVLYLFFRKSIPRKFDAAQLKQPSTAIQDPAMFRLSWIVLSVLLIGYFVCEFAGIPVSIVAGVIAILFLLMARKSPAVQTKEVLKGAPWAIVFFSIGMYVVVYGLRNAGLTDLLAGVIQSAADQGLFAATMAMGFIAAIISSIMNNLPTVMIDALAIDATHTSAAIKEALIYANVIGSDLGPKITPIGSLATLLWLHVLSAKGVKISWGTYFKTGIILTIPTLFITLLGLYIWLTLL	PGPT0004710_436	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893	NA	NA
AK002_02061	420	arsC_1	COG0394	Arsenate reductase	ATGGAGAAAAAGACGCTTTACTTCTTGTGCACAGGCAACTCCTGCCGCAGCCAAATGGCTGAAGGATGGGCCAAAAAGCATCTGGGCGAGGATTGGAATGTTTACAGCGCCGGCATCGAAGCTCATGGTGTGAACCCGAATGCCGTCAAAGCTATGAACGAAGTGGGGATCGATATTTCGAACCAAACTTCGGATATCATGGATCCGACATTGTTAAATCAATCCGATTTGGTGGTCACCTTGTGCGGCGATGCTGCTGATCGTTGCCCCATGACGCCCCCGCATGTTCGCCGTGAACACTGGGGATTTGACGATCCTGCCAAGGCTCAGGGAACCGATGAGGAGAAATGGGCGGTTTTCCAACGCGTTCGGGACCAAATCGGGGAGCGCATCCAACAATTCGCCAAGACCGGCGAATAA	MEKKTLYFLCTGNSCRSQMAEGWAKKHLGEDWNVYSAGIEAHGVNPNAVKAMNEVGIDISNQTSDIMDPTLLNQSDLVVTLCGDAADRCPMTPPHVRREHWGFDDPAKAQGTDEEKWAVFQRVRDQIGERIQQFAKTGE	PGPT0004715_2381	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
AK002_02062	1437	norG_1	COG1167	HTH-type transcriptional regulator NorG	GTGTGGAAGCCGGATCGTAACAGCACACGACCTCTATATCAGCAAATTGCCGATGATCTGGAGCAAAGAATATCTTATGGTGAGTTTCCACCGGGCAGCTTACTCCCATCCGAACGAAAGCTCGCGGAGCAGTTAGGGGTTAATCGAAGCACCGTGGTTCTGGCTTACTCGGAGCTTCGGGCGCTTGGAATTATAGAGAGCCGTTCCGGAAGCGGAACGCGGGTCAGCAACTCCAAATGGGGAGCCACGCCCAAGCATACGCCGAACTGGCGCCGTTATGCGGAGGGAGGGAATTTCCTGCCGAATCTCCCTTTTCTTCGCCGGATTCGGGAAGCGCTGGCGCATGATCCCTCATTGATCGATTTTGCCAGCGGAGAGCTTGCCGGCGATTTGGCACCGATCCAAGAAATGAATACGTTAATGAGTCAAAAATCGAACACGTCCTATTTCGGATATGACAACCCGCAGGGATATGGGCCGCTCCGGCAGGCTTTGGTTACGTATCTGAAAAAGTATCGGGGAATCCAGACCACCGAATCCTCCATATTGATCACGTCGGGGTCTCAGCAGTCGCTGTATCTCATTACGCAGTGCTTGTTGTCCCCTGGCGATGCGGTGGCCATTGAAGACCCGTCGTACTGCTATTCGCTGCCGATGTTTCAATCGGCCGGCCTTCGCTTGTTCAGACTCCCTGTCGATGAACGAGGGGTGCGGCCGGAGGACATCCGCTCGCTGTACAAGAAACACCGGATCAAGATGATTTTCATTAATCCGAATTTTCAGAATCCGACAGGCACCGTCATGGCTCAGGAGCGAAGATCGCAGCTGCTGGATGCAGCCAGTGAACTTGGACTTCCCATCGTGGAGGACGATCCCTTCAGTTTGACCGCCTTCCAGTGCTCGCCGCCGGCCCCTTTGAAATCCGTGGATTCCGTCGGATCGGTGCTGTACATCGGGTCACTCTCGAAAATAGCCGCGTCCGGCCTCCGCGTAGGCTGGATGGTTGCCCCGAATTCCATTGTGGAGCGGCTTGCAGACGCCAGGCAGCAGATGGATTTCGGGCTGAGCGTGGTGCCCCAAAGCCTTGCCGTCCAGTTTATCGACTCTTCCTATTTTGCTCCCCACCTGGACAGGCTGCGAGCGAGCTTGCTGTACAAGCGGGATTTGCTGATCGAGGCCCTGCAGAAAGAGCTGCAAGGCCTCGTTCATTTCCATGTGCCCGCGGGCGGCCTGCATCTCTGGTGCAAGATCGTGCCGGAAGTGAATGACAGCAAGCTGCTGGAGGCCGCCATTCAAAAAGGCGTTATTTTCGCGCCGGGAAGCGTGTACGGTTCGGCTTCCGGATATGTGCGATTCACTTACGCCCGTGCCAGGGCCGAGGATATCCCTTCCGGAATCTCCAAGTTCGCCCAAGCCCTGCACGCTGCCATTCAATAG	MWKPDRNSTRPLYQQIADDLEQRISYGEFPPGSLLPSERKLAEQLGVNRSTVVLAYSELRALGIIESRSGSGTRVSNSKWGATPKHTPNWRRYAEGGNFLPNLPFLRRIREALAHDPSLIDFASGELAGDLAPIQEMNTLMSQKSNTSYFGYDNPQGYGPLRQALVTYLKKYRGIQTTESSILITSGSQQSLYLITQCLLSPGDAVAIEDPSYCYSLPMFQSAGLRLFRLPVDERGVRPEDIRSLYKKHRIKMIFINPNFQNPTGTVMAQERRSQLLDAASELGLPIVEDDPFSLTAFQCSPPAPLKSVDSVGSVLYIGSLSKIAASGLRVGWMVAPNSIVERLADARQQMDFGLSVVPQSLAVQFIDSSYFAPHLDRLRASLLYKRDLLIEALQKELQGLVHFHVPAGGLHLWCKIVPEVNDSKLLEAAIQKGVIFAPGSVYGSASGYVRFTYARARAEDIPSGISKFAQALHAAIQ	PGPT0028960_383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK002_02063	150	rpmG2		50S ribosomal protein L33 2	ATGCGAGTGACAATCACATTGGCATGCACGGAAACGGGGGACCGTAACTATACAACGACCAAAAATAAACGAAATCACCCGGAGCGGATGGAATTGCGCAAATATTGTCCGCGTTTGAAGCGGGTGACGCTGCATCGGGAAACCCGTTAG	MRVTITLACTETGDRNYTTTKNKRNHPERMELRKYCPRLKRVTLHRETR				NA	NA	NA	NA	NA
AK002_02064	474			hypothetical protein	ATGAACCAGGAACGACAGGATTCCGGCGGAGAGCTGCTCCTGAGCGCACATACCCCGGAACAGTGGAGGCGGAGAAGGCAGGAGCTAAACGAGTGGATCAACAGACCCAAGGTGCGCAAACAGCCCAAACGCACGCGGTTGTTCGGCAATACCCCTGTCGACGACCAGCTGTATCCGATATTGATTTCGCTGCAGCAGGCGGGCTTGGAGACCGAGTTTTCCTGCGCGGGGGTAAGTCCTCTCGATGAGCCCGTGGATCATTCCCTGTACGCCTATCTAACCTTTTTCTCAAAGGGTCCTGCGGAGCGGTTCGCTGACCTGCTCATGGAAAATATGAAGCATCGCGCTCTGATTACTTATGAGCCTGCCCGTCATCGCTATGACGCATCGTCGTTTTTTATCGGACATAACCGCTCCTTCTGCCTTCTTCTGCAGCACAGCGCGGATCAATTACTGAGGGATTCGGCCCGGTAG	MNQERQDSGGELLLSAHTPEQWRRRRQELNEWINRPKVRKQPKRTRLFGNTPVDDQLYPILISLQQAGLETEFSCAGVSPLDEPVDHSLYAYLTFFSKGPAERFADLLMENMKHRALITYEPARHRYDASSFFIGHNRSFCLLLQHSADQLLRDSAR				NA	NA	NA	NA	NA
AK002_02065	894			hypothetical protein	ATGCCGAGTAAAGAGAGCGCGGCTATAAAAGAGCAGCTGACCGCCGAGGGATTTCATCATAAATGGGAACATGCCGGAACGATTCGGCAGTATATCGAAACATTGCCTCCATATCCTGCGCTGTCAGAGGATCAGGAAGGATTTGAGACCCGCCGTTTCCATAGCGGATCGGGCGTAAGCATGAATTATTATGTATCGCATGGAAGGAAGGAACAGGGGACAGTCGTTTATTTGCACGGCGGAGCCTATATCGAAGAGATTCTGCCGCCCCATTTCGCGTTTGCAAGGCAGTGGACGGAACGAACCGGATTCACCGCCATCCTACCCAATTATCCCACCGTTCCGGCTGCCGATGCGAAAAAGCTGACGGGGCTGATGCGCGAGTTTTACGTGCACGTATGTGCCCACGCCGGGAGCCCGGTATTTCTTATGGGCGATTCGGCCGGCGGCGCGCTGGCTCTCGACATGGCCCAGTCGGTCAAGGAGACGCCGCTGCAAGCGGAGGGGCTGATTCTGATCTCGCCATGGGTGGATGCAGCCACGGACAATCCGCAGATATCCGCGCTCGGCATCCCGCAGCGCGACGTCTTTCTCCAGCCGGCCGGGCTCGGAGCGGTAGGAAGGATGTATGCAGGAGGCCTTCCGATGGACCATCCTGCGGTCAGTCCTTTGTTTGGCGATATGGGAAGCCTTCCCCGCACGGTCATTCTCGCAGGAACCGACGATTCCCTGCTGCCGGACGCTCGCCTGCTGCGCGATAAGATGGCCCGGGAAGGCGTCGATGCCGAGTACTGGGAATACGAGAACATGATGCATGTGTGGCCCCTGTTTCCGATGCCTGAAGCCGAAGAGGCACTGGAACGGCTGCATCAATGGACGGCGCGCGAAGGTTGA	MPSKESAAIKEQLTAEGFHHKWEHAGTIRQYIETLPPYPALSEDQEGFETRRFHSGSGVSMNYYVSHGRKEQGTVVYLHGGAYIEEILPPHFAFARQWTERTGFTAILPNYPTVPAADAKKLTGLMREFYVHVCAHAGSPVFLMGDSAGGALALDMAQSVKETPLQAEGLILISPWVDAATDNPQISALGIPQRDVFLQPAGLGAVGRMYAGGLPMDHPAVSPLFGDMGSLPRTVILAGTDDSLLPDARLLRDKMAREGVDAEYWEYENMMHVWPLFPMPEAEEALERLHQWTAREG				NA	NA	NA	NA	NA
AK002_02066	975	iolG_7	COG0673	Myo-inositol 2-dehydrogenase	ATGGCATTCAACATAGGAATGATCGGTACAGGCTGGTTCAGCAGAGTGCATGCAGATATTGTGTCCAACATGGACGGAGTGAACGTTGCCGCCTTTGTCGGGACGAGTCAGGAGAAAGCGGAACAAGCGGTGCGGGGCTATGCCGGCGCCAAGGCGTACAGCAACGTTGAGCAGATGCTGGATGCAACCAAGCCCGATGCGGTTTATATCTGCGTTCCGCCGTTTGCGCATGGAGAGATCGAAGCCCAGGTGGTGGAACGGGGCATTCCTTTTTTGGTCGAGAAGCCGCTGGGCACGAGCCTGGATACGCCACGGCAGATTCTGCATGAGGTGAAGAAGGCCGGTTTAATTACGTCTGCAGGGTATCATTTCCGTTATACGGATGCGGCCATCAAGGCAGCCGAGCTGCTGGAAGGCCGGAAGATCGGGATGGCGCTTGGCTACTGGATGGGAGACATGCCGCAGGTGTACTGGTGGAGACAGCAGGAAGGCTCGGGAGGGCAATTCATTGAGCAAACCACCCATATGGTTGACCTGCTTCGCTGCCTGCTGGGTGAAGCGGATGAAGTGTATGCGGCTTTTGCCCATCGAGCGATGAAGGATGTTCATGAGGGGGTAACGGTACACGATGTGGGCACTGCGACGCTGAAATTAAAATCCGGCGCCGTGGCAACGATCTCCAATACCTGCATGCTGCCGGAGTCGGATCGGGCTGGCTTGGATATTTATACGGAGCAGGGGATCATCGGCATTCAATCCGATAAGCTCATCGTCAAGGAAAAAGGAAGAACGACGGAATACCGGAATAGGGCTAATCCGTATCTTCGGGAGAGTGAAGCGTTCATCCACGCGGTTCGCACCGGCGATGCCTCCGGAATCTTATCCTCCTACGAGGATGCGTTTAAAACCATGGAAATTACCTTTGCTGCTTTGCAGTCGGCCGAAACGGGGGTCCCGGTGAAGATCGGGGAATGA	MAFNIGMIGTGWFSRVHADIVSNMDGVNVAAFVGTSQEKAEQAVRGYAGAKAYSNVEQMLDATKPDAVYICVPPFAHGEIEAQVVERGIPFLVEKPLGTSLDTPRQILHEVKKAGLITSAGYHFRYTDAAIKAAELLEGRKIGMALGYWMGDMPQVYWWRQQEGSGGQFIEQTTHMVDLLRCLLGEADEVYAAFAHRAMKDVHEGVTVHDVGTATLKLKSGAVATISNTCMLPESDRAGLDIYTEQGIIGIQSDKLIVKEKGRTTEYRNRANPYLRESEAFIHAVRTGDASGILSSYEDAFKTMEITFAALQSAETGVPVKIGE				NA	NA	NA	NA	NA
AK002_02067	3675	narG	COG5013	Respiratory nitrate reductase 1 alpha chain	ATGAGACGAAAGTCGGGGCTGAAGTTCTTCAAGAGGATGGAAAGCTACTCTGGCAATTGGTCCGTTCTGGAGGAGAAAAGCAGGGAATGGGAGGATATGTACCGCAAGCGCTGGTCGCACGACAAAGTGGTGCGGACCACTCACGGCGTGAACTGTACAGGCTCCTGCAGCTGGAAAGTGTTCGTAAAGAACGGGATCATCACCTGGGAAAACCAGCAGATCGATTATCCGTCCTGCGGGCCGGATATGCCGGAATTCGAACCGCGGGGATGTCCGCGCGGGGCGTCATTTTCCTGGTATGAATACAGCCCGCTGCGGGTGAAATACCCTTACATGCGCGGCCGGCTGTGGCATATGTGGAAAGAGGCATTGAACGAGCACGGCGATCCGATCGCCGCTTGGGCCAGCATCGTCGAAGATCCGACGAAATCCAAATCCTATAAACAAGCACGGGGAAAGGGCGGTCACGTTCGTGTATCTTGGCAGGAAGCCACGAAGCTGATCGCCGCCCAGTTAATCTATACGATCCGCAAATACGGCCCGGACCGCATCGCCGGCTTCACCCCGATTCCGGCGATGTCGATGATCAGCTACGCTTCGGGAGCAAGGTTCATCTCCCTGCTGGGCGGCGAAATGCTGAGTTTTTACGACTGGTATGCCGATCTGCCGCCGGCTTCCCCGCAAATTTGGGGAGAGCAGACCGACGTGCCGGAATCGAGCGACTGGTACAATGCGGGCTACCTGATCATGTGGGGCTCGAACGTGCCGTTAACGCGTACGCCGGACGCCCATTTCATGACGGAAGTGCGGTACAAAGGCACCAAGGTCGTGTCGGTCGCGCCGGACTATGCGGAGAATGTCAAATTCGCCGACAACTGGCTGGCTCCGAATCCCGGAACCGATGCGGCGATTGCACAAGCCATGACGCATGTCATTTTGAAGGAGTTCTATCATGAGCGTCAGGAGCCGATGTTCCTGAATTATGCGAAACAATATACGGATATGCCTTTCCTGATTCTCCTGGATGAGTTTGAGGGAGGCTACAAGGCAGGCCGTTTCCTCCGGGCAAGCGATTTGGGCGATGCCTCGCAGCATGCCGAGTGGAAACCGGTGATTATCGACGAGAACACGAATGAAATCATCGTTCCGAACGGTACGATGGGCCAGCGCTGGGAGCAGGACAAGAAATGGAACCTGATTCTGGAACGCGAAGACGGGTCGGTCATTGCACCGGCGCTTTCCGTGGAGTCCCAGGGAGCGGAGCGGCAGAAGATCCGGTTCCCGTTCTTTGATAACCGGGCCAACGGCACCTTCCAACGCCAAATTCCAGCGAAGAAAATTCAGCTGGCCGACGGAACCGAGCGTCTCGCCGCAACGGTATATGATCTGATGCTGAGCCAATATGGGATAGGGCAAGCGGAGAGCGGGCTTGCGGCTTCAGGGTATGAAGATGCCGAATTCGACTACACCCCGGCCTGGCAGGAGAACATTACCGGCGTGAAAGCGTCGGTCGTCGTTCAAATCGCCCGAGAATTCGCGCAGAATTCGCTGGATACCGGCGGCCGCTCCATGATCATCATGGGTGCGGGCATTAACCACTGGTTCAACAGCGACACGATCTACCGCTCCATTCTGAACCTGGTCATTCTGACGGCCTCCCAGGGTGTGAACGGCGGCGGCTGGGCGCATTACGTAGGACAGGAGAAATGCCGTCCGATCGAGGGGTGGTCCACGGTTGCCTTCGCTAAAGACTGGCAGGGACCGCCGCGTCAGCAAAATGCCACTTCGTTCTTCTATTTTGCGACCGACCAGTGGAAATACGAAGAAATGGGGGCCGATTCCCTGAAATCGCCGACGGGCGGGGAGATCCGGTACCAGCATCCGGCGGATTACAACGTGCTTGCCGCGCGGCTCGGCTGGCTTCCGTCCTATCCCCAGTTCAACAAGAACAGCCTGACGTTTGCGGAGGAAGCGGCGCTGCAAGGCAAAACGAGCAATGAAGACATCGTGAAACACACGCTTGAACAAATCGTGTCAGGGGAGACGAAATTTGCGGCCGAAGATCCGGGTGCGCCGGAAAACTTCCCGCGATCGCTGTTCGTATGGCGCTCGAACCTGATCTCAAGCTCGGCCAAAGGGCAGGAATACTTCATGAAGCATTTGCTTGGCGCTTCGGACAGCCTGCTCTCGACGCCGAACGAAGAGGATAAGCCGGAGGAAATGGTGTGGCGCGAGGACGTGGAAGGCAAGCTGGATCTGCTAGTCGCGCTCGATTTCCGGATGACCTCGACGCCGATGTATGCCGATGTGGTGCTGCCGGCAGCGACCTGGTACGAGAAAACCGATTTATCCTCCACCGACATGCACCCCTTCGTCCATCCGTTCAACCCGGCGGTGGATCCGCTTTGGGAATCGCGTTCGGACTGGGATATTTACAGAACGATCGCTGAAGTCTTCTCGGACATGGCCCAAACGCATCTGCCCGGCGTATACAAGGATCTTGTGACAAGCCCGCTGGCCCATGACTCGGCAAGCGAGATCGCCCAGCCGTACGGTGAGGTGAAGGATTGGCGCAAGGGCGAGATCGAAGCGGTTCCGGGCAAAACGATGCCGAACCTGACGGTGGTCGAACGCGATTATACGAAAATTTACGATAAATTCGTGACGCTCGGGCCGAACCTGGCCACAGGCAAAGTCGGGGCGCACGGCGTCAGCTTCTCGGTTGCCGAGGAGTACGAAGAGCTGAAGCGCTTGAACGGAACTTATTATGACGACTCCATCAAAAATGGCCTGCCGAAGCTTCATACCGCAAGAAATGCGGCGGATGCCATTCTGAATCTTTCTTCGGCTACGAATGGAAGAGTAGCGCAGCGGGCATGGGAATCGGCGGAGCAGGATACCGGCGTGCAGCTGAAGGATATTTCCGCGGACCGCGCGGCGGAGCGCATCACGTTCCAGAGCATCACGGCCCAGCCGAGGGAAGTCATTCCGACGCCGGTGTTCAGCGGCTCGAACAAAATGGGAAGAAGGTACTCGCCGTTCACGACGAACATCGAGCGGCTCGTGCCGTTCCGCACGCTGACCGGCAGGCAGCATTTTTATATCGACCATGAAATCTTCCTGCAGTTCGGCGAAGCGCTGCCGGTGTATAAACCGACGCTTCCGCCGATGGTGTTCGGACCGCGCGACAAGCAGATTACCGGGGGCAAGGATACGCTGGTGCTCCGCTATTTGACGCCGCACGGCAAATGGAACATTCACAGCACGTATCAGGATAACCTGCACATGCTGACGCTGTTCCGCGGCGGCCCGACGGTATGGATCAACAATGACGACGCGGCGGCAAACGACATCCAGGACAACGACTGGCTGGAAGTATACAACCGCAACGGGGTCGTCACCGCCCGTGCCGTTGTCAGCCACCGGATGCCAAAAGGCACGATGTACATGTATCACGCGCAGGACAAACACATCAATGTGCCGGGTTCGGAAATCACGAAGGATCGCGGCGGCAGCCACAACGCGCCGACGAGAATCCATGTGAAGCCGACCCAGATGGTCGGGGGCTACGCCCAGCTCAGCTATGGCTTCAACTACTACGGACCGATCGGCAACCAGCGGGATGTGTACGTGGCTGTCCGCAAAATGAAAGAGGTGGATTGGCTTGAAGATTAA	MRRKSGLKFFKRMESYSGNWSVLEEKSREWEDMYRKRWSHDKVVRTTHGVNCTGSCSWKVFVKNGIITWENQQIDYPSCGPDMPEFEPRGCPRGASFSWYEYSPLRVKYPYMRGRLWHMWKEALNEHGDPIAAWASIVEDPTKSKSYKQARGKGGHVRVSWQEATKLIAAQLIYTIRKYGPDRIAGFTPIPAMSMISYASGARFISLLGGEMLSFYDWYADLPPASPQIWGEQTDVPESSDWYNAGYLIMWGSNVPLTRTPDAHFMTEVRYKGTKVVSVAPDYAENVKFADNWLAPNPGTDAAIAQAMTHVILKEFYHERQEPMFLNYAKQYTDMPFLILLDEFEGGYKAGRFLRASDLGDASQHAEWKPVIIDENTNEIIVPNGTMGQRWEQDKKWNLILEREDGSVIAPALSVESQGAERQKIRFPFFDNRANGTFQRQIPAKKIQLADGTERLAATVYDLMLSQYGIGQAESGLAASGYEDAEFDYTPAWQENITGVKASVVVQIAREFAQNSLDTGGRSMIIMGAGINHWFNSDTIYRSILNLVILTASQGVNGGGWAHYVGQEKCRPIEGWSTVAFAKDWQGPPRQQNATSFFYFATDQWKYEEMGADSLKSPTGGEIRYQHPADYNVLAARLGWLPSYPQFNKNSLTFAEEAALQGKTSNEDIVKHTLEQIVSGETKFAAEDPGAPENFPRSLFVWRSNLISSSAKGQEYFMKHLLGASDSLLSTPNEEDKPEEMVWREDVEGKLDLLVALDFRMTSTPMYADVVLPAATWYEKTDLSSTDMHPFVHPFNPAVDPLWESRSDWDIYRTIAEVFSDMAQTHLPGVYKDLVTSPLAHDSASEIAQPYGEVKDWRKGEIEAVPGKTMPNLTVVERDYTKIYDKFVTLGPNLATGKVGAHGVSFSVAEEYEELKRLNGTYYDDSIKNGLPKLHTARNAADAILNLSSATNGRVAQRAWESAEQDTGVQLKDISADRAAERITFQSITAQPREVIPTPVFSGSNKMGRRYSPFTTNIERLVPFRTLTGRQHFYIDHEIFLQFGEALPVYKPTLPPMVFGPRDKQITGGKDTLVLRYLTPHGKWNIHSTYQDNLHMLTLFRGGPTVWINNDDAAANDIQDNDWLEVYNRNGVVTARAVVSHRMPKGTMYMYHAQDKHINVPGSEITKDRGGSHNAPTRIHVKPTQMVGGYAQLSYGFNYYGPIGNQRDVYVAVRKMKEVDWLED	PGPT0000285_1365	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000285-narG|narZ|nxrA-K00370	NA	NA
AK002_02068	1536	narH	COG1140	Respiratory nitrate reductase 1 beta chain	TTGAAGATTAAAGCGCAGGTCGCCATGGTCATGAATTTGGATAAATGCATCGGCTGCCATACGTGCAGCGTCACCTGCAAGAGCACCTGGACGAACCGTCCGGGCGCGGAATACATGTGGTTCAACAACGTGGAAACGAAGCCGGGGGTCGGCTACCCGATCCGCTGGGAAGACCAGGAGAAATACAAGGGAGGCTGGACGCTGAAAAAGGGCAAGCTGCAGCTGAAGTCCGGCAGCAAGCTGTCCAAAATCGCGCTCGGCAAAATTTTCTACAATCCGGATATGCCGGAAATGAAAGATTACTATGAGCCCTGGACGTATAACTATGAACATCTGACGAATGCCGGGGAGAAGAAACACCAGCCGGTGGCTCGTCCGAAATCGGCCGTGACCGGCGAAACGATGAATCTGGAATGGGGCCCGAACTGGGAAGACGATCTGGCGGGCGCCCACGTGACCGGTCCGAAGGATCCGAATATCGAAAAGATCGAGGAAGAGATCAAATTCAACTTTGAGCAGGCGTTCATGATGTATTTGCCCCGCCTGTGCGAGCACTGCCTGAACCCGAGCTGCGTCGCCTCCTGCCCCTCCGGTGCCATGTATAAGCGGGACGAGGACGGCATCGTGCTGGTGGACCAGGAGGCCTGCCGCGGCTGGCGGTACTGCATGACCGGCTGCCCATACAAAAAGGTGTACTTCAACTGGAAAACGAACAAGGCCGAGAAATGCACCTTCTGTTTCCCGAGAATCGAAGCAGGGCTGCCAACGGTATGCTCCGAAACCTGCACAGGCCGTATCCGTTACTTGGGCGTGCTGCTCTATGACGCGGACCGCGTACAGGAAGCAGCCTCCACGCCGGATGAGAAGGATCTGTATCAGGCGCAGCTCGATCTGTTCCTGGATCCCCACGATCCTGGGACCATCGAGCAGGCGCGCAAAGACGGCTTGTCGGAAGAATGGATCGAAGCTGCCCAAAACTCGCCGGTCTATAAGCTTGCGATCGAATACAAGCTGGCCTTCCCGCTTCATCCGGAGTACCGGACGCTGCCGATGGTATGGTATGTGCCGCCGCTCAGCCCGATCATGAACTATTTTGAAGGCAGGGATTCCATCGAGAATCCGGACATGATTTTCCCGGCGATCGAGGAGATGCGCACGCCGATCCAGTACCTCGCGAATCTGCTCACGGCAGGCGACACGGTCACGGTGAAGGAAGCCCTGCAAAGAATGGCGATGATGCGTTCTTATATGCGCGCACAATCGTCGGGGGCCGAGTTTGATGAGACGCGTCTGGCACGGGTCGGCCTGACTGCCCATCAAATGAAGCAGATGTACCGGCTGCTTGCCATCGCGAAATACGAAGACCGGTTCGTTGTTCCGACTTCCCATAAAGAAAGCCATATGGATGTCTACCGTTCCCAGGGCTCCGAAGGATTCGGCGCGAGCTGCGGCGGCTGCGGTCCGGAAGGTCTGCAGGGCAAAACCGGCAAGGAGCTGTACGAAGAAAATTTCTATGGAGGGATCTGGCGTGATTAA	MKIKAQVAMVMNLDKCIGCHTCSVTCKSTWTNRPGAEYMWFNNVETKPGVGYPIRWEDQEKYKGGWTLKKGKLQLKSGSKLSKIALGKIFYNPDMPEMKDYYEPWTYNYEHLTNAGEKKHQPVARPKSAVTGETMNLEWGPNWEDDLAGAHVTGPKDPNIEKIEEEIKFNFEQAFMMYLPRLCEHCLNPSCVASCPSGAMYKRDEDGIVLVDQEACRGWRYCMTGCPYKKVYFNWKTNKAEKCTFCFPRIEAGLPTVCSETCTGRIRYLGVLLYDADRVQEAASTPDEKDLYQAQLDLFLDPHDPGTIEQARKDGLSEEWIEAAQNSPVYKLAIEYKLAFPLHPEYRTLPMVWYVPPLSPIMNYFEGRDSIENPDMIFPAIEEMRTPIQYLANLLTAGDTVTVKEALQRMAMMRSYMRAQSSGAEFDETRLARVGLTAHQMKQMYRLLAIAKYEDRFVVPTSHKESHMDVYRSQGSEGFGASCGGCGPEGLQGKTGKELYEENFYGGIWRD	PGPT0000500_1013	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000500-narH|narY|nxrB-K00371	NA	NA
AK002_02069	579			hypothetical protein	GTGATTAATCTCGGAAAGCTGCATGATTGTAAACATGTTTTCGGTTTTTTTGCTCAGCAGCTCACGTATCCGGAAAAGCTGGATTTCCATCCGTCTGTCATGGAGGAAGCGCTTGACTCCGCCGATCCGGCTTATGAATCCGTCAGAACGTATTGGACGATCATGCATGAATACAGCATGGAGGAGATTGAAGAGCTGTATGTCCAGACCTTCGACTTTCAGGCGAAATCCACATTGTATATGACCTATTACAAATTCGAGGACGGCCGGGAACGCGGGCAGATGCTCGCCAGGCTTAAGGAGACGTATGAGATGTTTGGCCTTGGCATCGAAGGCTCGGAATTGTCGGATTATCTTCCGCTGATGTGCGAGTTTTTGTACGCGGCGCCCTGGCAGGGCCGCGAGAAGGAAGCCGCGGAAAGCCTGAATTTGATGATGGCCGTCATGGAAGACGGCACCTATCATCTGCTGAAAGCCTTGGAGAAGTATAACAGCCCGTATGCTTATCTTGTTCAAGGGCTTCGCGACACGTTCAAGGCGTGTCTCAGTCAGGAGGCTGCCACTCATGAACATGATTGA	MINLGKLHDCKHVFGFFAQQLTYPEKLDFHPSVMEEALDSADPAYESVRTYWTIMHEYSMEEIEELYVQTFDFQAKSTLYMTYYKFEDGRERGQMLARLKETYEMFGLGIEGSELSDYLPLMCEFLYAAPWQGREKEAAESLNLMMAVMEDGTYHLLKALEKYNSPYAYLVQGLRDTFKACLSQEAATHEHD	PGPT0000510_1149	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000510-narJ|narW-K00373	NA	NA
AK002_02070	693	narX	COG2180	Nitrate reductase-like protein NarX	ATGAACATGATTGATCAATTTTTGTGGGTCATTTTCCCCTATGTATGCATCGTTGTATTTATCGTCGGTCATATCTACCGTTATCGTACGGACCAGTTTAACTGGACGGCAAAATCCAGCGAGTTTATCGAGAAAAAACATCTCAAGCTGGGCAGCCTCATGTTCCATCTTGGCATCATTCCGGTTATCGGGGGACATGTGGCCGGCCTGGCCATCCCCCAATCCTGGATGGAGTCGCTCGGCATCAGCGACCATATGTACCATATCGGCGCGGTGTATATCGGAAGCGCATTCGGCTTTTTAACGCTGGGGGGCATGATCTTGTTAACCGCCAGACGATTTGCCATCCGAAATGTCCGAAAACTCAGCACCGCTTCCGATATGGTGGTCAATGTCCTCCTGCTGTTTATCGTCTTCATGGGGATGTACAGCACGCTGGTCACAAACGCGGTGCAGCCGGAATTCAATTATCGGGAAACGGTCTCGGTCTGGTTCCGCGGATTGTTTATGTTCCGTCCGGAGGCTTCGCTGATGGAGGATGTGCCGCTGTCGTTCAAAATTCACATTCTTGCGGGATTTGGTATTTTCGGCTTGTGGCCGTTTACCCGTCTGGTCCATGTGTGGAGTGTTCCGTTGAATTATGTGGGCAGAAGATATATCCTGTATAGAAAGCACCGCAAATTTGAGTCGTAG	MNMIDQFLWVIFPYVCIVVFIVGHIYRYRTDQFNWTAKSSEFIEKKHLKLGSLMFHLGIIPVIGGHVAGLAIPQSWMESLGISDHMYHIGAVYIGSAFGFLTLGGMILLTARRFAIRNVRKLSTASDMVVNVLLLFIVFMGMYSTLVTNAVQPEFNYRETVSVWFRGLFMFRPEASLMEDVPLSFKIHILAGFGIFGLWPFTRLVHVWSVPLNYVGRRYILYRKHRKFES	PGPT0000505_773	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000505-narI|narV-K00374	NA	NA
AK002_02071	465			hypothetical protein	ATGAAGAATCAGCCGATCTATAATTACCAACGTGAGATGGATAAGCTTCGGACCCGGTTTCATTTCGATTTCGTGTCCATGGCATTGGTGCAGCCGGCTGAAGACCGATTTGTATTGACCTGGCAGTATGCCTCGGGAAACATCAACGAGAGGTACAAGCGCATCGTGCTGCATTCCGGCAAGGGCATCGCCGGCATGGTGTTTAAGACCGGGAAACCGATGCTGATCCCGAATGTGAATGCGGATATTGAATCAAGGGACTTGTATAATTATCCGATTATCGTTGCAGAGCAGCTGAAGAGCCTCGGTGCCATACCGCTGTGGGAAGGCACGCGCGTCATGGGGGTTTTGCTTGTGGGATATCGTAAGGAGAACATGCTGGATCACAAGGCCTTTGCGTCGTTTCAGGAAGGTATAGGAACGGAATTTGGCGCTTTTTATGCCAAGGAGGTATCACGGCCGTGA	MKNQPIYNYQREMDKLRTRFHFDFVSMALVQPAEDRFVLTWQYASGNINERYKRIVLHSGKGIAGMVFKTGKPMLIPNVNADIESRDLYNYPIIVAEQLKSLGAIPLWEGTRVMGVLLVGYRKENMLDHKAFASFQEGIGTEFGAFYAKEVSRP	PGPT0000535_24	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000535-nreA-K10851	NA	NA
AK002_02072	1080	nreB		Oxygen sensor histidine kinase NreB	GTGATTCAAATGACGGATGAGCATCTGAGCGAATTGCTGAGAAACATGTATCAGAATAGCATGGAAGCCATTTTTTTTATGGACGAGGACGGCAGCGTGGTCGCGATGAATCCGGCTGCGGAGAATATCCTTGACATTGAAGTGATCGAGAGGATGCACTCCGGACTGGACGGGTCCTTCTGCCAGACCTGCGAAGGGTACACCGACGAACAGGATCTCATCTCCTGCTCCAAATGCTATCTGGATTATCCGGATGGAGAATTCTCGTCGTTCCAAGTCTATCTGAAGACGCGGTCCGAAGGAATTGTTCCTTATGCGGCCAGTTACCATACCATCGATGAAGCCCGCGGCATCCGGGTGATGATGCTCCTCGATCTGACGAAGCAGCAGAAAACGCAGGAAATGCTGCAGCGGACGAATATGCTGAAATACGTCATCAAGGCACAGGAGGACGAGCGCAAGCGGATCTCGCGCGAGCTGCACGATAGCGTGGCTCAGGAGCTCTTAAGCTCGCTGGTCGACCTGCGCGTCGTTAAATATATGAATGTGGGCGAGGATGTGCTCAAGAAGCTGCACCAGACCGAGGCGTCTTTAACGAGGCTGCTGGATGATATCCGGCATTTGTCGGTTGAGCTCCGGCCCGCTTCCCTCGATGATTTGGGGCTGGAGGCTGCCTTCCGCTCCCATTTCAAATGGATCGGGAAGAATTACGGCATGCTGGTTGAATTCTCTGCAGAGTTGGCGGCGGCCCGCTATGGCAGCGAGATTGAAACGGTGGTGTACCGGGTTTGCCAGGAAGCGGTGTTAAATGCCTTGAAATATTCGGGAACGGACGAGGTACATGTCCGATTATGCGAGGAGAACGGCTGCCTTCAGTTAACCGTCCGGGACGATGGCGTCGGGTTTAACATGATCATTGACGAAGCCAAGGGAACCGGATTAGGGCTGTACGGAATGCGCGAACGCGCAGAACTCGTCGATGGCCAGTTTACTTTGGTTTCCGCTCCCGGCGAGGGGACGACGGTTCAGCTGAAGATCCCGCTTACGAGCAGCGGCAAGGCGGAGGTGAGGGGAATATGA	MIQMTDEHLSELLRNMYQNSMEAIFFMDEDGSVVAMNPAAENILDIEVIERMHSGLDGSFCQTCEGYTDEQDLISCSKCYLDYPDGEFSSFQVYLKTRSEGIVPYAASYHTIDEARGIRVMMLLDLTKQQKTQEMLQRTNMLKYVIKAQEDERKRISRELHDSVAQELLSSLVDLRVVKYMNVGEDVLKKLHQTEASLTRLLDDIRHLSVELRPASLDDLGLEAAFRSHFKWIGKNYGMLVEFSAELAAARYGSEIETVVYRVCQEAVLNALKYSGTDEVHVRLCEENGCLQLTVRDDGVGFNMIIDEAKGTGLGLYGMRERAELVDGQFTLVSAPGEGTTVQLKIPLTSSGKAEVRGI	PGPT0000525_67	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000525-nreB-K07683	NA	NA
AK002_02073	648	nreC	COG2197	Oxygen regulatory protein NreC	ATGAAAATTGTGATCGCGGATGATCATGCCGTGGTCCGCAGCGGATTTTCCATGATTCTGAATTACCAAGAGGATATGGAGGTCGTCGCGACGGCGGCAGACGGCATTGAGGCATACGCCATGGTGGTCAAGCATCGGCCGCATGTGCTGTTGATGGATTTAAGCATGCCTCCCGGCGAGAGCGGATTGATTGCGACAGGCAAGATCAGCAGTGAATTTCCCGAAACGAAAATTTTGATCCTGACCATGTATGACGATGACGATTACTTGTTCCATGTTTTGAAGAACGGCGCTTCGGGTTACGTGCTCAAAAATGCGCCGGATGATGAATTGATTTCTGCCATCCGCATGGTTCATAAGGGAGGAACCTACATCCACCCCCAGATGGCCACGTCCCTGGTCCGGGAATTTATCAAGAAAGACAGCGAGAGCGCGGAGCAGGATCCGTTCAACAGCCTGTCCCAACGGGAGATTGAGATCCTGCCGCTGATCGCGAAGGGCTATGGCAACAAGGAAATCGCGGAAAAACTATTTGTATCGGTCAAAACGGTGGAAGCGCACAAGGCCAAAATCATGGAAAAGCTGAAATTGAAGAGCCGTCCGGAGTTAGTGGAATATGCGCTGAAGAAAAAACTGCTGGATTTTTAA	MKIVIADDHAVVRSGFSMILNYQEDMEVVATAADGIEAYAMVVKHRPHVLLMDLSMPPGESGLIATGKISSEFPETKILILTMYDDDDYLFHVLKNGASGYVLKNAPDDELISAIRMVHKGGTYIHPQMATSLVREFIKKDSESAEQDPFNSLSQREIEILPLIAKGYGNKEIAEKLFVSVKTVEAHKAKIMEKLKLKSRPELVEYALKKKLLDF	PGPT0000530_221	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE|NITRITE_SENSING,PGPT0000530-nreC-K07696	NA	NA
AK002_02074	1521			hypothetical protein	ATGGGAATGATCAAAAAGCTGCAGCTTCCGCTGCAAACAATGAATCTGGTGCTTGGTTTTATGGTATGGGTCATCATCTCCGCGCTCCTGCCGTTCATAAGAGAAGATATCGCCATTCCGGCAGACCGGCTCGCCATTCTGACGGCCATTCCGGTGGTGCTGGGCTCGGTTCTGCGGATACCGCTCGGTTATTACGCCAACGTGGTCGGAGCACGAATTGTTTTTATATCCAGCTTCATCCTGCTGCTGTTTCCGGTCTATTTTATCAGCTCGGCTTCATCCTTTACGCATCTGGTCATCGGCGGCTTGTTCCTTGGGATCGGTGGGGCCGTGTTCTCGGTGGGCGTGACCTCATTGCCGAAATACTATGCAAAAGAGAAGCTGGGACTGGTCAATGGGATCTATGGGATGGGCAACATCGGTACAGCCATTACCACGTTTGCCGCACCGGTCATCGCGACGGGGATCGGATGGTCCAAAACCGTCCAGCTGTATTTGATCCTGCTGCTGATATTTGCATTATTCAATGTTTTTTTAGGCGACCGCAAAGAAATCAAGGTGAAAACACCGGTCATGGAACAGATCAAGGGTGTATATAAGAATGAAAAGCTGTGGTTTTTCTCGCTTTTTTATTTCATTACCTTCGGTTCGTTCGTAGCCTTTACGGTGTACTTGCCGAACTTCCTGGTTTCTCATTTTGAGCTGGCCAAGGTGGATGCCGGGATGCGGACGGCCGGGTTCATCATGATCGCGACTTTTTTGCGTCCCGTCGGGGGCTGGCTTGCAGACCGATTTAAACCGCTGTTCTTATTAATGGGCGTATTCCTGGGGCTGACGGCTGCGGCTATCCTGTTGGCATTCTCTCCGTCCATCGGCTTGTATACGGCCGGCTGCTTAACCATAGCCGTTGGTGCGGGTCTCGGGAACGGGGTCATTTTCAAACTCGTGCCCCTTTATTTCAATAAGCAGGCCGGCATTGTGAATGGCATCGTGTCCATGATGGGCGGCCTTGGCGGATTCTTTCCTCCGCTGATGCTTTCCTTTATCCATTCGGTTACAGGGCAGTATTCCATCGGCTTCATGGCTTTGTCGCAGGTTGCGCTTGCGAGCTTCGTCGTTGTTGTATGGATGTATTACCAGGACAAACTTGCCGTGCAATCCGAGGTGTTTAACTCCACCGGCCAAGGGATTCTGGTAACGGATCCAAGCGGAAGGATCAGTGCGGTCAATCCGGCATTCACGAAGTTAACGGGATACTCGGAGGAGGAAGTGCTCGGCAAAAATCCGAGCGTGCTGAAGTCCGGAAGGCAATCGTCGGCGTTTTATCGCGCGATGTGGTCTGAGATCATGGAGCGCGGAAGCTGGCAGGGGGAGATTTGGAACCGCAGGAAAAACGGAGAGGAATATTTGGAGCTGTTGACCATTAATGCCGTAAGGGACGAATCGGGCGACATCATTCATTATGTAGGTACCTTTAGCGATATTACATACCATTCGTCCGGCAATGCTTCGAGCGGCTGA	MGMIKKLQLPLQTMNLVLGFMVWVIISALLPFIREDIAIPADRLAILTAIPVVLGSVLRIPLGYYANVVGARIVFISSFILLLFPVYFISSASSFTHLVIGGLFLGIGGAVFSVGVTSLPKYYAKEKLGLVNGIYGMGNIGTAITTFAAPVIATGIGWSKTVQLYLILLLIFALFNVFLGDRKEIKVKTPVMEQIKGVYKNEKLWFFSLFYFITFGSFVAFTVYLPNFLVSHFELAKVDAGMRTAGFIMIATFLRPVGGWLADRFKPLFLLMGVFLGLTAAAILLAFSPSIGLYTAGCLTIAVGAGLGNGVIFKLVPLYFNKQAGIVNGIVSMMGGLGGFFPPLMLSFIHSVTGQYSIGFMALSQVALASFVVVVWMYYQDKLAVQSEVFNSTGQGILVTDPSGRISAVNPAFTKLTGYSEEEVLGKNPSVLKSGRQSSAFYRAMWSEIMERGSWQGEIWNRRKNGEEYLELLTINAVRDESGDIIHYVGTFSDITYHSSGNASSG	PGPT0000300_771	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
AK002_02075	726			hypothetical protein	ATGAAAAAGACGAGGATTGTGATTCCGCGGGAGCATGGAGGCTGGGCCATGGTCTCTGTACCTTATTTCATCGGAATGGTGGCTGCCAAGCCGGCCCTTCTGCACCTTCCGCTGTTTTTGGCGTGGTTATTTCTATATATGGCGTCCTATCCGTTTCTGCAATCCTTAAAGACTACGGCCAAACGCAAAACCTGGATATCCTGGGGGACCGTTTATGCCCTTGTTGCCGCTGTGTTTCTGGTTCCGGTACTTGTTCTCAAGCCGTCGATGCTCTGGTTTGCGCCGATCCTTCTCTTGCTGATCATGGTTAATGTCTGGCATGTCCTCCGCAAAGCGGAGCGTGCGCTGCTGAACGATATTTGTGCGATTCTGCTGTTCTGTACCGGAGGCGCCGCTGCATACATGCTGGGAGGAGGAGGCTTCGATCAGCTGCTAGCCGCTGTTGTTGCTCTGAATTTCCTATATTTCACGGGAACCGTATTCTTCGTCAAATCCGTATTTCGGGAGCGGAAAAACAGGCGCTGGACGGCATATGCCATCACGTATCATTCGGTGATGCTGATTCTGCCGATCTTCCTCGGGCATCCGTGGATGTGCCTGCCGTTCTTGTTTCCGTTTGTGAAGACACTGCGGTATGCCGGAAAAATAATGAAACCGATGAAGGTCGGCATGATCGAGATTGCGGGTTCCATCCAGTTTTTATTGCTGTCATGGATCTTGATGTAA	MKKTRIVIPREHGGWAMVSVPYFIGMVAAKPALLHLPLFLAWLFLYMASYPFLQSLKTTAKRKTWISWGTVYALVAAVFLVPVLVLKPSMLWFAPILLLLIMVNVWHVLRKAERALLNDICAILLFCTGGAAAYMLGGGGFDQLLAAVVALNFLYFTGTVFFVKSVFRERKNRRWTAYAITYHSVMLILPIFLGHPWMCLPFLFPFVKTLRYAGKIMKPMKVGMIEIAGSIQFLLLSWILM				NA	NA	NA	NA	NA
AK002_02076	204			hypothetical protein	ATGGTGGAGGAAATCCGGTTTACGGGCAATTTGTATCAGACGGAAGCCATCCGTTATGTACGCGAGAACTTCGGGGAAGAATTTGTTTTCGTGAACGAGAATGGAAATGCTTCGCTCTCCAAGGACGTGAAGAAGGCTTTCCGCAAACTGCATGGCGGCCGGATTGCCTGGGATCGCGACGGATTCATGTGGGCTTGGACGTAA	MVEEIRFTGNLYQTEAIRYVRENFGEEFVFVNENGNASLSKDVKKAFRKLHGGRIAWDRDGFMWAWT				NA	NA	NA	NA	NA
AK002_02077	2496			hypothetical protein	ATGAACAAGAACATATCACGCCAAGGAAGCCATAGACCCGCCCGTCCCTGGACGATCTATGCCATCCATCATTCTCACACGGATATCGGTTACACCGAGCGCCAGGAGCGGATCGAGCAGTACCATGTCGATTTTATCCGCCAGGCTCTGGGCATTACGGATGCCGCACACCGCGGAGAACGTCCCGAATGGAAATCGTTCCGCTGGACTTGCGAAACATTCTGGGCGGTTGAGAAATTCCTCGAATCGGCCACGACGGAAGAAAAGGAGGCTTTTCAGCAAGCGGTAATCCGCGGTGATATCGAACTGTCCGGAACCTATCTCAACATGACGGAGCTTCCGGACTTCGACCTCCTTCTGCACAATCACGGCAAGGCGCAAAGGTATGCAAACACGTTCGGACATCGGATCGACAGCGCCATGACCGCCGACATCAACGGGTACAGCTGGGGTTATGCGGAAAGCCTGCTGCAAAATAACATCGAGCATCTGTTTTCCTGCATCCATACGCACCACGGCATGTATCCGCTGGGCCGCAAACAAACCCCGTTCTGGTGGGAAAGCCACAGCGGCGGCAGGCTGCTCGTATGGAACGGCGAGCATTACATGTTCGGCAACGAGCTCGGGTTCTGCCCTGACGCACTCGGCAAATACATCATCAAGGATGAGCTTCAGCATAATTTGATGGAGCCCGAAGAGCGGCACAACGACATTGCTGCCCTGCGGATTAACCGGTATTTATGGAATCTTGAGCAGGAGTCCTACCCGTATTCCTTCGTTCCCGTCATGGTCTCCGGCCTGGGCACGGACAATGCGTCCCCGAATGCCGACATTGCGGAGTGGATAAGCGCATGGAATGAACAATACGGCGACCAAATCACCATTAAAATGGCCACGCTCTCCGAATTTTTTGCCGTCTTGAAGCAGGAGGATCTGTCCGCGCTTCCGGTGCACCGCGGGGATTGGCCGGACTGGTGGACCGATGGGGTCGCCTCCACGGCGATGCATACCCAGATTTACCGGGATGCCCAGCGCACGCTTCGCAAAGTCAAGCGTCTCGATCCGGGCCATGCAGCGGCAAGCCTCGCCGAGATCGAGGAGGCATCGCAGGCGCTGACCATGTATGCCGAGCATACCTGGGGCTACCATTCCTCCGTGTATGAGCCTTGGCATCCGCAGGTGCAGATGCTGGAGGTGCGAAAGCAAGCCTATGCGGCGGAAGCCAGCAAGCTGGCTTACCGGGCGCTGGATAAAACGCTCGTTGCCCGTCAGGGGGCACTGCTTGCCCCCCATCGTCCCTTACGCTACGAGGTGATCAACACGGAACCGGCCGCAGCTACGCTGCAGGTTGCCGTACCGCTGGATGGCTGGGAACACGTGATTTTGAAGAAAACGTTCGAGCTCATCGACGAAACGACCGGGCAGCCGCTTCCGTACCAATTGACACATACGGGGGCACTTGTTACGGAGCTCACGCTTGAAGCGGGAGAGTCCCGGATATTGTTTATTCATACGCCCGAATCGTCAGATATTTTCGCTGCTTCCGGGAACATGGCAACCGCGCGGAATACCGAACCGATCGCATGCGAAGGCATCGCCGACATTTGGACCCAGCCCTTGACTCCCTATCCGATCGTGGTGGGCAAGAGTTCGCTCGAATCCGACTTCTTCCGGATCGAATGGGAAATGAACAAAGGCATTACGGCCTGGATCGATAAGACACGCTCGGCGGGCCTGCTGGACGGTGAACGCGAGCACGGGGCATTCACTCCTGTCTACGAGGTAACGCCGGCACAGGATGAGCATAATCCATCCGAAATATGCTCGACCCGCCGCCGCATGGGACGCAACCGGAAGGGCACCAACGTCCAGCGGGATGCCGGGCGCTTAACCCGCGCGACCGTGCTGGACAACGGACCGCTGTTTGCCCTGGTCGAGCTGGTGTTCGACGTGAAGGGGCTCAGCTACTATGCCCTCCACATCAAGATGTTTGCCAACCAGCCTCGTGTCGAGGTGTCCGTCCGCTTCCACAAGGACAGCGTTTGGCTGCCGGAAAATGTCTATGTGGCACTGCCGTTCTCGCTGGGGACGGAAGCCGAGTTATACGCCGAAAAAGCCGGATGCCATATCCGGCCTTGGAAGGATCAAATTCCTGGAAGCTGCCTCGATTACACCAGCGTGCAGGAGGGAATATTCTGGCACTCGGCTAAAGACCGGGAAGCGTTGACCCTGTCCATGACAGACACGCCGCTCGTACAGCTCGGAACGCTGGAGCACGGGCCGCGCCAGCTTCACGCCATGCAGCCGGCGGACAGCCGTCCTTCCACGTATGCCTGGATATTGACGAACTACTGGGAGACCAATTTCAAGGCTACGCTTGGCGGCTTCTACGAGTTCCGCTATGCGGTAGAACGCCATCGCCAGCTGGACCCCCAGCAAACGGCGAAGACGCTGCACGCCTCAACCGGACAATTCACGATCCATCGGATCCATTGA	MNKNISRQGSHRPARPWTIYAIHHSHTDIGYTERQERIEQYHVDFIRQALGITDAAHRGERPEWKSFRWTCETFWAVEKFLESATTEEKEAFQQAVIRGDIELSGTYLNMTELPDFDLLLHNHGKAQRYANTFGHRIDSAMTADINGYSWGYAESLLQNNIEHLFSCIHTHHGMYPLGRKQTPFWWESHSGGRLLVWNGEHYMFGNELGFCPDALGKYIIKDELQHNLMEPEERHNDIAALRINRYLWNLEQESYPYSFVPVMVSGLGTDNASPNADIAEWISAWNEQYGDQITIKMATLSEFFAVLKQEDLSALPVHRGDWPDWWTDGVASTAMHTQIYRDAQRTLRKVKRLDPGHAAASLAEIEEASQALTMYAEHTWGYHSSVYEPWHPQVQMLEVRKQAYAAEASKLAYRALDKTLVARQGALLAPHRPLRYEVINTEPAAATLQVAVPLDGWEHVILKKTFELIDETTGQPLPYQLTHTGALVTELTLEAGESRILFIHTPESSDIFAASGNMATARNTEPIACEGIADIWTQPLTPYPIVVGKSSLESDFFRIEWEMNKGITAWIDKTRSAGLLDGEREHGAFTPVYEVTPAQDEHNPSEICSTRRRMGRNRKGTNVQRDAGRLTRATVLDNGPLFALVELVFDVKGLSYYALHIKMFANQPRVEVSVRFHKDSVWLPENVYVALPFSLGTEAELYAEKAGCHIRPWKDQIPGSCLDYTSVQEGIFWHSAKDREALTLSMTDTPLVQLGTLEHGPRQLHAMQPADSRPSTYAWILTNYWETNFKATLGGFYEFRYAVERHRQLDPQQTAKTLHASTGQFTIHRIH				NA	NA	NA	NA	NA
AK002_02078	1011			hypothetical protein	ATGAACCGCCCTGATTGGGACGATACGGGAAGCCCGTCTCCCCCTGCCCCCATCACCATAACGCTAGATGCCGGGGGAACCGCTTTGAAGGGGGCGCTGCTCGTGAATGGGCAGCTTGTCCCCGGCTCGTTCCTCATCCAGCCTTCGGCATCGCAAGGAACGGCTGAGGAAGCGATCGCCAGCTTCGCCGGCGCCTGCCATGATTTGTTACGCTTTTACGCCTCGGCCTTCCGGCCGGTGGACTATCGCGATTCGATCCGGATCGGCTTTGCCTTTCCGGGGCCCTTCGATTACGCAAAAGGCGTTGCCCTTCTTCAAGGCATCGGCAAATATGATGGGCTGTACAAACTGTCGGTTCGGGATCTGCTCCGTTCGAAGTTCCAGAGCCTCAAACCATCCTTTCCGGGTGCCATGATGAATCGTTTGACCGCTGCCGATATCCGATTCGGGAACGACGCCTTCATGTTCGGGCTGGGCGCCTCCATCCGGTTCAGGGCGGAACGTCTCGTATGCCTGACGCTCGGTACGGGCCTCGGTTCGGCCTTCGTGGAGAATGGCCGGATCGTAGCCGGCAAGGACGGTATCCCTGGCAGCGGCATGCTGTATGCGGAGCCTTACCGGGACCACATCGTGGACAGCTATTTCGGGAGAAGAGGCATTCTGAGGATGGCCTCGGAGCGGGGACTCCTGACGGACGGAATCGACGTTGCCGATCTGGCCGAAGCGGCAACGCGAGGTAATGGGCAGGCCCGCGATTTATTCCGGGAATTCGGCAGCAATCTGGGAGGAATGCTGCGGCCCTATCTATCCGGATTCCGGCCGGATCGCTTGGTGCTGGGCGGACAGATCTCGGGCAGCCTGCCCTTATGGGAAAGGGATATGCAGCTGGCCTTGGGTACGCACAGCGTTCCAATCGACTGTCTCGAGGACGGTACGTCCGCTGTGTTTTACGGCATAGAGAAGCTGTTTGACGATACGGCGAGCGATCGATCCGCTCCATATTATCATTAG	MNRPDWDDTGSPSPPAPITITLDAGGTALKGALLVNGQLVPGSFLIQPSASQGTAEEAIASFAGACHDLLRFYASAFRPVDYRDSIRIGFAFPGPFDYAKGVALLQGIGKYDGLYKLSVRDLLRSKFQSLKPSFPGAMMNRLTAADIRFGNDAFMFGLGASIRFRAERLVCLTLGTGLGSAFVENGRIVAGKDGIPGSGMLYAEPYRDHIVDSYFGRRGILRMASERGLLTDGIDVADLAEAATRGNGQARDLFREFGSNLGGMLRPYLSGFRPDRLVLGGQISGSLPLWERDMQLALGTHSVPIDCLEDGTSAVFYGIEKLFDDTASDRSAPYYH				NA	NA	NA	NA	NA
AK002_02079	1872			hypothetical protein	ATGAAACCTGCAACTGCCTTTCAATCACATCCGATCAATCCTGTGGATTTTCGCCACGAGCCCTTGTTCATGAATCAGGGGATCGACTCCTGGAACTCGTTCATCATGTCGACCCACAAACAAAAATCGCAGCTTCATCCCCCTGAAAAGCGAGGCGTCTACATTACGCTCGACGGAACGCACGGTGCCGATTTCGATAAACTGCTGATCCAGCTTCAGCAAGCCTGCGAACAAGAGGGCATCGCCTTCTCGAGCGATTCGACGTCCCATTACGTAAAACCCGAAGCCGAGCTCCGGGCCGAGATGGCTCCTTATCTGACCGATAACCGGGCATTCGGCTATAAAGCCTCGGATGTCCGTCCCATTCAATATTTTCTGCCGGACGCAAAGGCTGCCTTGCAAAAAAGCGCGCGTCAATTTGACGCGATGTGCGGCATTCACGTGCTGCACGGCCCGGGTGCCTCGCTGCTGGAAGGCAGGACTCCCGATCTTCGCTTCTACGCCGATTACTCCCGCGAAAACCAGCAGCGGCGCCATGCCGAGCATATGGGCAGCTTCGGCCTCGGCATCTCGAGCGATAAGGTTGAGACCTACAAGAACTGCCTGTTTCTCGAATGGCCCGTCTGGGAAACTTACCGCCGGGACTGGCTGGACCATCATGTCCAGCATTCGGTCAACCAAGCGTACTATATGGATTTGAATCGTTCGGAAGCTCCCGTCTGGCTGCCTGCAGCGAAATTGGCAAGCGTGCTGCATCAAGCGGCCCGGCAGCCGTTTCGGGTCAAGCCGTTTTTTGCCCCGGGGATATGGGGAGGGCAATACCTTAAGGAATTGTGCGGCCTTCCCGAAGAATGGCCGAACTGCGCCTGGAGCTTTGAACCCATCGCTCCCGAGAACACGCTGCTGCTGCGCGTGCAGGATGTCACCTTCGAGGTTCCGTTCACTTTGTTGATGGAGGCAGCCCCCCAGGAAATTATGGGAACGCGTAATTTCGAGCTGTTCGGCGATTATTTTCCGATCCGGTTTGACTATCTGGATACGATGAAGGGCGGCGAGCTGTCGCTTCAGGTGCATCCGTTGCAGGAATATGCAGAGGCGCAGTTCAATGAACATATGACACAGCAAGAGTCGTACTACATCATGCGTAATGTCCCGGGAGCCAAGGTGTATTTGGGACTGAAGGAAGGGATCACCGGCGGACGGCTCCTTGAAGCCGTCGAGAATGCCCATCTTCAGGAAGAGCCGCTTGAGCTTTCCGACTACGTTAACGAGTACCACTCGCAAACAGGGGATCTCTACCTTATTCCACCGGGTACGGTCCACTGCTCCGGCAGGGATAATCTCGTGCTGGAAATCTCCTCGACCACCTGGTGGTTTACGTTTAAGATTTACGATTATCTGCGGCTGGACGCCGATGGCAAGCCACGCCCGATGAACCCTGAGCATGCGCGCCACAATATCAATGACGCCATGAATACGCCGGCGGTAGAGGACGGGCTTATCGCCAGGCCATCCGTCGTAAGCCGTCAAGGCGGCAGCACGGAGGAACTGCTGGGACAACGGGAAGATCTTCTGTTCCAGGTCAGCAGGCTGAATTTGCAGGATACGTGGAAAGCGGATACCCAAGGAGAGTTCGTTATGTACAATCTCGTGGAAGGCGACCGCGTCCGCCTTGTACCGGCAGCGGACGAGGGTGGGGCCGTTGAATGGGGCTACGCGGAATCCTACATCGTTCCGGCATGTATAGGCGAATACCGATTGGAGAACCTGTCCGGATCCCCATGCACCTTGATTGCGGCCAGGGTCAATCCGGAATGGAATCTCCCGCTGCTTCCACCTTCCCGGAGAGCGGCAAACGGAGAGTTTTCATGA	MKPATAFQSHPINPVDFRHEPLFMNQGIDSWNSFIMSTHKQKSQLHPPEKRGVYITLDGTHGADFDKLLIQLQQACEQEGIAFSSDSTSHYVKPEAELRAEMAPYLTDNRAFGYKASDVRPIQYFLPDAKAALQKSARQFDAMCGIHVLHGPGASLLEGRTPDLRFYADYSRENQQRRHAEHMGSFGLGISSDKVETYKNCLFLEWPVWETYRRDWLDHHVQHSVNQAYYMDLNRSEAPVWLPAAKLASVLHQAARQPFRVKPFFAPGIWGGQYLKELCGLPEEWPNCAWSFEPIAPENTLLLRVQDVTFEVPFTLLMEAAPQEIMGTRNFELFGDYFPIRFDYLDTMKGGELSLQVHPLQEYAEAQFNEHMTQQESYYIMRNVPGAKVYLGLKEGITGGRLLEAVENAHLQEEPLELSDYVNEYHSQTGDLYLIPPGTVHCSGRDNLVLEISSTTWWFTFKIYDYLRLDADGKPRPMNPEHARHNINDAMNTPAVEDGLIARPSVVSRQGGSTEELLGQREDLLFQVSRLNLQDTWKADTQGEFVMYNLVEGDRVRLVPAADEGGAVEWGYAESYIVPACIGEYRLENLSGSPCTLIAARVNPEWNLPLLPPSRRAANGEFS				NA	NA	NA	NA	NA
AK002_02080	930	rhaR_18		HTH-type transcriptional activator RhaR	ATGCAAATCGATGACGATGTTTTCATCCCGTTATTCAAGCGGGCCAATTCCATATTAAATCGTACCTTGAGCCGTATTGAACAACAGGAGCTGAGCATCCGTATCCATTACTGGGGGTTCATGCCACGCCACTACGACAATACGGAGCACAAGCATTCATTTTTTGAAGCTTGTTACGTGTTAACAGGCAACGGAACCTATATCGAAGGCGAAAGAGAGTTTCAGCTCCATCCGGGCACACTGTTTCTCTCACGGCCGGGCGTCCAGCATCAAATAAGAAGCAAGGACGGCCTGGCCTTATGCTATGTCGCCTTTGAACCGGAAGAAACGGCAAACGGCGAGTTTTATGCGGCCGCGTTCCGGTTGTTGGCCAAACAAGGCAATCCGGTGGTTACAGAAGGTGCCCGGCAGGCGTCCGGATTATTATGGCTTTCGCTGTTATCGCTGTTTCATACGGGTTCCGGCAAACAGCACCCGCCGCAAATGCTGAACAGTTTGGCCGCATCACTGATAGTATCCTTTCTGGCCGTCCATGGCCCGGGCTTCCACCATGAGCCTTCCGGCGCCGAAGCAAACGATGAAGGAACCTCCATGTTTCATCAGGCCGAACTGTTTATCAAGGACAACCTCAACGAACCGCTCTCGCTGGAGCGCGTGGCGGGCCATCTCCACATCACGACCCGTCATTTAACCCGGCTGTTTCGCAAATACGGCCATCAATCCTTTGTCCATTATGTACAGGAGCAGCGCGTGCAGCAGGCAAAGCATATGCTCCTCCATACGGATCGCCAGATCAAGGAGATTGCCGTCTGCTGCGGATTCGAGTCCGTGCATTACTTCACCAGGGTATTTACGTCCAAACTTGGCGTAACCCCGGCCCGCTTCCGGCGCTCGCAGTTTTCGGAAGGACGCTACGACTCCGAGGTTTAG	MQIDDDVFIPLFKRANSILNRTLSRIEQQELSIRIHYWGFMPRHYDNTEHKHSFFEACYVLTGNGTYIEGEREFQLHPGTLFLSRPGVQHQIRSKDGLALCYVAFEPEETANGEFYAAAFRLLAKQGNPVVTEGARQASGLLWLSLLSLFHTGSGKQHPPQMLNSLAASLIVSFLAVHGPGFHHEPSGAEANDEGTSMFHQAELFIKDNLNEPLSLERVAGHLHITTRHLTRLFRKYGHQSFVHYVQEQRVQQAKHMLLHTDRQIKEIAVCCGFESVHYFTRVFTSKLGVTPARFRRSQFSEGRYDSEV	PGPT0017785_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
AK002_02081	591	ydhK		putative protein YdhK	ATGTCAGAAAAAAAACGATTAAAGCCGCTTATTCTGGTTGCCTTTGCATTCCTCATCCTCGTGCTGGGCGCCTGCGGAAATACGGATGGCGCGAATCCGGATCAAGCGGAGAGCGTGGATACCACCGGCGGCATGGAAGGCATGGATCACGGCAGCATGAACCATTCCGGATCGGGCGAGGTTCCGGAAGGGTTGAAGACGGCGGACAATCCTGCCTATGCGGCCGGGACCCAAGCGATCATCGAATCCGACCACATGCCCGGGATGAAGGGGGCCAAAGCAACGATAGTCGGAGCTTACGATACGACGGTGTACACGATATCGTATACGCCGACGAACGGCGGGCCCGAAGTGAAGGATCATAAATGGGTCATTCATGAAGAGCTGAAGGATGCGGGCAAGGAGCCCCTGGAGCCGGGAGCGAAAGCCGTCGTGAATGCGGATCATATGGAGGGGATGAACGGAGCGACAGCCGTTATCGATTCCGCCGAGCAAACGACGGTCTATATGGTGGACTTTACGTCAACATCCGGAGAGGAAGTCAAGAACCACAAATGGGTCACGGAGAGTGAGTTATCTCCGGTCCAATAA	MSEKKRLKPLILVAFAFLILVLGACGNTDGANPDQAESVDTTGGMEGMDHGSMNHSGSGEVPEGLKTADNPAYAAGTQAIIESDHMPGMKGAKATIVGAYDTTVYTISYTPTNGGPEVKDHKWVIHEELKDAGKEPLEPGAKAVVNADHMEGMNGATAVIDSAEQTTVYMVDFTSTSGEEVKNHKWVTESELSPVQ	PGPT0015018_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015018-ydhK-NA	NA	NA
AK002_02082	906			Epimerase family protein	ATGAGAATAGCCATTTGCGGGGGCACCGGCTTCATTGGCCAAGCATTGTGCAAGCGCTGGCTGCGCGACGGACATGACATTATCATCGTCACCAGGTCGAAGCCGGAGATCCCCGCCGTGCAGCAGAACGGGTCATTATCCTACTTGACCTGGGATGAGATGAAATCCCATCCGGAGCGGTTCGAGCGCTTGGACGCACTCGTTAACCTTGCCGGCTCCTCCCTGAGCCAGCGCTGGACGCAAGCAGGCAAGAAGAGTATTCTTCAGTCCCGGCAACGAACCGTATCTGCCGTAGCGGACCTGATGCAGCGCCTGGAGCACAAACCTCCGGTCATTCTTCAAGCATCGGCAATGGCCATATACGGCACATCCGAGTTTGAAGCGTTTGATGAGGACAGTCCGGCCACGATCATGGATTTCCCGTCCGAGGTTGTGCAGCAATGGGAGCAAGCAGCCGATTGCATCCCGGTAGACCGGTTAATCAAGCTGCGCATCAGCGTCGTGCTGGGCGATCAAGGCGGTGCCCTCCCCAAGATGCTGCTGCCGTATAAATTAGGGGTCGGCGGCAACATCGGCAGCGGCAAGCAATGGCTCTCCTGGATCCATATCGACGACATCGTGGAATTAATCGATTATTGCATCCGGCACGAAGACATTTCCGGAGCCGTGAACGCCGCTTCCCCGCATGCGGTCACGAACGAGGAATTTGGCCGTAGCGTCTCCAAGGTCTATCGCCGTCCGCATTGGCTGCCCCTGCCTGCATTCATGCTCCAAGCCATCCTGGGCGAAATGTCGCTTATTCTGTTAAAGGGCCAGCGGATCCTTCCGGCCAAAGCCCAGCGCCACGGCTTCAAGTTCCGGTATCCGGAATTGACGGCCGCCTTGCAGCAGATCAAAGGAAGCTGA	MRIAICGGTGFIGQALCKRWLRDGHDIIIVTRSKPEIPAVQQNGSLSYLTWDEMKSHPERFERLDALVNLAGSSLSQRWTQAGKKSILQSRQRTVSAVADLMQRLEHKPPVILQASAMAIYGTSEFEAFDEDSPATIMDFPSEVVQQWEQAADCIPVDRLIKLRISVVLGDQGGALPKMLLPYKLGVGGNIGSGKQWLSWIHIDDIVELIDYCIRHEDISGAVNAASPHAVTNEEFGRSVSKVYRRPHWLPLPAFMLQAILGEMSLILLKGQRILPAKAQRHGFKFRYPELTAALQQIKGS	PGPT0014730_2089	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
AK002_02083	1191	rocD	COG4992	Ornithine aminotransferase	ATGGACCCTTCCAACCCTCATATCGAGAAAGCCGAAAGGTACGGCGCGAGAAACTACCACCCTCTTCCCATCGTCATCGCTTCAGCTGAAGGCATTCATGTGACGGATTCGGACGGCAAACGGTATATCGATATGTTAAGCGCCTATTCGGCACTTAACGCAGGTCATTGTCATCCCCGCATCATCCGGGCCTTAAAGGAACAGGCGGATCGGGTGACCCTGACCTCGCGCGCATTTCATCATGATCAACTAGGCGATTTTTACGAGAAGCTGTCCGCTTTAACCGGCAAAGGGATGATTCTTCCCATGAATACGGGAGCCGAGGCGGTTGAGACGGCGCTTAAGGCAGCGCGTCGCTATGCTTACCGGAAGAAAGGTATTCCGACAGATCAGGCTGAAATCATCGTATGCGAGGGCAATTTCCACGGCCGCACGATCACGGTTACCTCCTTCTCCTCATCCCGCGAATACCGCGAGGACTTCGGTCCGTTTACGCCGGGATTCAAAGTCATTCCCTATGGCGACCTTGAGGCGCTGGAGCAGGCGATTTCGCCGAATACAGCCGCTTTTCTCGTGGAGCCGATCCAAGGCGAATCCGGCATCGTCATTCCGCCTGACGGATACCTAAGCGGGGCACTGGAGCTGTGCAGGCAGCACAACATCCTCATGCTAGCGGACGAAATCCAGACCGGCTTCGGCAGAACGGGCAAACGCTTTGCCTGCGACTGGGAGGAGGTCGAGCCGGACATGTACATTCTTGGAAAAGCGCTGGGCGGCGGCGTCTTTCCCGTCTCCGCCGTGGCGGCGGACGCGGATATTCTGGATGTATTCGAGCCGGGTTCCCACGGCTCCACCTTCGGCGGAAATCCGCTCGGATGCGCGGTGGCCATCGCCTCCATGGACGTGTTCATTGAGGAAGGGCTGGAGGTTCGCTCCCTGGAGCTCGGCGAATATTTTCTCCGGCAACTTCGATCCATCCCGCATCCCGATATCCAGGAGGTGCGCGGCAGAGGTTTGTTCATCGGCATGGAGCTTAAGGTCCCGGCCAGATCCTATTGCGAGAAACTGAAAGATCTCGGCCTGCTCTGCAAAGAAACCCATGAAACCATTATCCGCTTCGCCCCTCCGCTCATCATCACCAAAGCGGAACTGGACCAGGCGGCGGCGATCGTAAGGCAGGCGTTTGCGTGA	MDPSNPHIEKAERYGARNYHPLPIVIASAEGIHVTDSDGKRYIDMLSAYSALNAGHCHPRIIRALKEQADRVTLTSRAFHHDQLGDFYEKLSALTGKGMILPMNTGAEAVETALKAARRYAYRKKGIPTDQAEIIVCEGNFHGRTITVTSFSSSREYREDFGPFTPGFKVIPYGDLEALEQAISPNTAAFLVEPIQGESGIVIPPDGYLSGALELCRQHNILMLADEIQTGFGRTGKRFACDWEEVEPDMYILGKALGGGVFPVSAVAADADILDVFEPGSHGSTFGGNPLGCAVAIASMDVFIEEGLEVRSLELGEYFLRQLRSIPHPDIQEVRGRGLFIGMELKVPARSYCEKLKDLGLLCKETHETIIRFAPPLIITKAELDQAAAIVRQAFA	PGPT0014253_3768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
AK002_02084	906	rocF		Arginase	ATGAACAATCTTCCGTCCACCGTATCGATCATCCCGGTGCCCTTCGACCGGGGAGCTACCCGCCGCGGCGCCGGACAGGGACCGGACGCCATATTCGGAGCCGGTCTGAAACGCAAGCTTAACGCGCTCGGTGTAACCTACCAGGTCGATGATTTTGCTGCGCTCCCCGAGCGCAAGGATGAAGCGCACCATCCCCAATTAAAACATTTGACAGAAGTCGTGACGATGAACGAGCAGCTGGCAGCGCGCGTATCCGCCCTGGCAGTAGCGGGCACCTTCCCTCTTGTGCTCGGCGGCGACCATAGCATAGCAATCGGCACGCTCGCCGGACTTACCCGGCATTACCGCAACTTGGGCGTCATCTGGATCGATGCCCATTCCGATCTCAATACGCCGGATACTACCCCGACCGGCAATATCCATGGCATGTCCCTGGCTGTCAGCTTGGGAAAAGGCGATCGGCGGCTAACCTCGATCGGCGGCGTTAAATCAACCATTAAGCCGGAGCATGTGGTGCTCATCGGCGCGCGCTCACTTGATCAGGGCGAGCGGGACTTCATCCGCCGGGAAGGCATCGCCTGCTTCACGATGCAGGATATCGACCGCATGGGCATGTTCCGGGTCATGGAGGAAGCCATCCGCATTTCGTCAACGGGAACGGATGGCGTTCATCTTTCCTTTGATATTGACAGTGTCGATCCGAAGATCGCACCGGGAACAGGAACGCCGGTACAAGGCGGGCTCAGCTACCGGGAAGCGCACCTGGCCATGGAGATGCTGTCGGAATCCGGTATTCTGACGTCAGCCGAATTCGTGGAGAACAACCCGCTGCTGGACCGCGGGCAGAAGACGTCCCGGCTGCTTGTCGGTTTAATCGCCTCCATGCTGGGCGAAAGCATCTTATGA	MNNLPSTVSIIPVPFDRGATRRGAGQGPDAIFGAGLKRKLNALGVTYQVDDFAALPERKDEAHHPQLKHLTEVVTMNEQLAARVSALAVAGTFPLVLGGDHSIAIGTLAGLTRHYRNLGVIWIDAHSDLNTPDTTPTGNIHGMSLAVSLGKGDRRLTSIGGVKSTIKPEHVVLIGARSLDQGERDFIRREGIACFTMQDIDRMGMFRVMEEAIRISSTGTDGVHLSFDIDSVDPKIAPGTGTPVQGGLSYREAHLAMEMLSESGILTSAEFVENNPLLDRGQKTSRLLVGLIASMLGESIL	PGPT0020100_1636	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
AK002_02085	1362	ugpB_3	COG1653	sn-glycerol-3-phosphate-binding periplasmic protein UgpB	ATGAAACGTTTTGGTAAAAGGTCCTTCGCGCTGCTCCTGCTTTCCTGCTTCATGCTGATCAGCGCCGCTTGCAGCAATACGCCAGCCGCCGGAGAAACGACCGTTGCCGCCGGCAGCGAACCGGCCAAGGAACCTGTTAAGGTCGTTTGGTGGCATTCCATGAGCGGTGAGCTCGGGACCGTCGCGGACAAGCTGATTTCCGATTTTAACGCAGCCCACCAGGATATTCAGGTAGAGGGCGTGTTTCAAGGCACGTACGATGAAAGCTTGAACAAGCTGAAGGCTTCATTGGGATCGAACAGCGGACCGACCATGATTCAGGTGTACGAAATCGGCAGCCGTTTCATGATGGACACCAAGGCGATCCGTCCGGTTCAAGACTTCATGGATGCTGAAGCATACGACATTTCTTCCTTGGAACCGAATATCAAAAATTATTATACATTCGACGACAAATTGTATTCGATGCCGTTTAACTCCTCCAACCCGATCCTTTACTACAACAAAGATGCCTTTAAAGCGGCCGGTCTGGATCCGGAAAATCCTCCAAAAACCTACGAAGAGGTAGCGGAAGCGGCTAAAGCGCTAACGAAAGGCGGCCAAACCGGCGCATCCTTCGCAATTTACGGCTGGTTCATGGAGCAGTTCCTTGCGAACCAAGGCGTTGAGCTGCTGAACAACGGCAACGGCCGCACTTCTCCGGCAACCGCTTCGCAAGTCAACAATGCCGCTGCCGTGAAAACGCTGGAATGGTGGAAGCAAATGCTGGACGATAAAGTTCTGCTGAACCTGGGACGTAAAACGGATGACACCAAAAAAGCCTTTGCAGCCGGCCAGGTCGCCATGACGCTGGACTCCACGGCTTCGCTCCGCGGAATCGTCAGCGCAGCGGAAGGCAAATTCGAAGTCGGCACGGCATTCCTGCCCAAACCGGCTGACGGCGGCGAAGGCGGCGTTATCATCGGCGGTGCAAGCCTGTGGCTGATGAACAACAAATCGGAAGAAGAGCAGCAGGCCGCCTGGGAATTCATGAAGTATTTGGCCGAGCCGCAAACCCAAGCCTACTGGCATGTCAACACGGGTTACTTCCCGGTCACGACCAAAGCTTACGAAGAGTCCCTGGTAAAAGAGAACCTGGAGAAATATCCTCAATTCCAGACCGCGGTGGATCAACTGCATCAAACGACCGCCAACCTGGCAACGCAGGGCGCTGTCATGGGCGTGTTCCCTGAGGCCCGCCAGCTGACGGAAACGGCCATCGAGGAAGTGCTGAACGGTCAGAAAACACCGCAGGAAGCATTGGATAAAGCTGCTCAGGAGATCAGCTCCAAGATCGAGACCTATAATAAAACGGTAAAATAA	MKRFGKRSFALLLLSCFMLISAACSNTPAAGETTVAAGSEPAKEPVKVVWWHSMSGELGTVADKLISDFNAAHQDIQVEGVFQGTYDESLNKLKASLGSNSGPTMIQVYEIGSRFMMDTKAIRPVQDFMDAEAYDISSLEPNIKNYYTFDDKLYSMPFNSSNPILYYNKDAFKAAGLDPENPPKTYEEVAEAAKALTKGGQTGASFAIYGWFMEQFLANQGVELLNNGNGRTSPATASQVNNAAAVKTLEWWKQMLDDKVLLNLGRKTDDTKKAFAAGQVAMTLDSTASLRGIVSAAEGKFEVGTAFLPKPADGGEGGVIIGGASLWLMNNKSEEEQQAAWEFMKYLAEPQTQAYWHVNTGYFPVTTKAYEESLVKENLEKYPQFQTAVDQLHQTTANLATQGAVMGVFPEARQLTETAIEEVLNGQKTPQEALDKAAQEISSKIETYNKTVK	PGPT0016835_240	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016835-ugpB-K05813	NA	NA
AK002_02086	825	araQ_24	COG0395	L-arabinose transport system permease protein AraQ	ATGAACATGCGTCTCATGCCCAAAAGCTTCATCTATATCGCGCTGCTTCTCGGTTCGTTGGCCGTTCTTTTCCCGCTCCTATACACCTTGTCAACATCACTGATGAGCGAGGCCGAATCGGCCGTCTATCCGCCGCCTCTGCTTCCCGAAGCCGTCAATCTGTCCAACTTCGCCAAGGTGATCGATACGATTCCTGTCCTTACCTTTATCGGAAACAGCCTGGTTGTCTCCATTGCCATCATGCTCGGGCAGATCGTGACCGCAAGTTTGGCGGCATACGCTTTCGCCTTCCTGCGATTCCCGGGAAAAACGCTGCTGTTCAGCCTCTTTCTCGCGACGATGATGATCCCGTGGGAGGTGATCATGATTCCGAATTACTTGACGGTCAAAAGCCTGAACTGGCTGGACACCTATCAAGGGCTCATCATTCCATTTCTAGCCACGGCCTTCGGAACCTTCCTGCTCAGACAGACCTTCCTGCAGCTGCCGAAGGAGCTGTTTGAAGCGGCCCGCGTGGACGGCTGCGGACATGTCCGCGTTTTCCTGAGCATGGTGCTGCCGTTATCCATCCCTGGAATCGCCACGCTGGGCGTGTACTCGTTCCTGAATAATTGGAACATGTACCTGTGGCCGCTTCTGACAACCAACCGGGTCGAGATGCGAACCGTCCAAATCGGGATCGGCATGCTGCAGTTCGAAGAGATGAATTCATGGAATCTGATACTCTCCGGCGTGCTCCTGCTGCTGCTGCCTTCCCTGCTGCTGCTTGCGCTCGGGCTGAAACCCCTTGTGCGCGGCATCACCGCAGGTGCTTTGAAGGGCTAA	MNMRLMPKSFIYIALLLGSLAVLFPLLYTLSTSLMSEAESAVYPPPLLPEAVNLSNFAKVIDTIPVLTFIGNSLVVSIAIMLGQIVTASLAAYAFAFLRFPGKTLLFSLFLATMMIPWEVIMIPNYLTVKSLNWLDTYQGLIIPFLATAFGTFLLRQTFLQLPKELFEAARVDGCGHVRVFLSMVLPLSIPGIATLGVYSFLNNWNMYLWPLLTTNRVEMRTVQIGIGMLQFEEMNSWNLILSGVLLLLLPSLLLLALGLKPLVRGITAGALKG	PGPT0016845_1429	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016845-ugpE-K05815	NA	NA
AK002_02087	981	ugpA_2	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGATGATGGAAAAAGAATTCACGCTTCCTTCTCCGGGGCACTCTCTATCGCCGAACGTCAACGAGCCGGAGGTATCAACCGCGGCGAAACCCGTCTCGATCAAGAGAACAAGGCGCAGAGAAATTCTGCTCGCTTATGCATGTTTAGCGCCTTCGCTGCTCATATTCGGCCTGTTCTTATTCTACCCGCTGCTCAAGTCGGTTTATCTTAGCCTGTTCCTGACCGATCCGCAAGGCCGGGTAGCGGAATTCGTAGGATTCGACAACTTCAGGGAAATATTGGCCTCCGACATGTTCTATACAAGCTTTGGCAATACCCTGCTGTTCATCTTGCTGACGGTTCCGACCGGCATGGCGGCTGCGATTCTGCTGGCTGCCCTGACGCACAACAAACTCAAGGGCATGAAAATATTCCGCTTTATCTTCTCGCTTCCGATGGCCGTGTCCGTCGGTACCGGCTCGATGATCTGGATGATTCTATACCATCCGACCTTAGGCATACTGAATTATTTCCTGTCGCTGCTCGGCACGCAGCCCGTCCAATGGCTGACCGATCCGAAATGGGCCATGATCTCCGTCGCGCTTATGACCGTCTGGATGAATCTTGGATTCAACTATATCCTGATGCTGAGCGGCATGCAGGGCGTGTCCGAAGATATCTATGACAGCACCAAGATTGACGGCTCCGGTCCGCTGAGAACGTTCTTCCGGATAACGATGCCGCTAATCTCCCCTACGTTATTCTTCACGTCCGTCGTATCGGTCATCGGTGCCTTCCAAGCATTCGGACAAATCAACATCCTCACCAAAGGCGGTCCGATGAACAGCACCAACGTCATGGTATTCAATATCTACCAGGATGCCTTCGTCAATTTTCGCTTCGGCATCGGCAGCGCGCAGGCACTCATCCTGTTTGCCATCATTCTGCTGCTGACCGTCTTTCAATTTAAATTCGTCGAGAAGAAGGTGCATTACCAATGA	MMMEKEFTLPSPGHSLSPNVNEPEVSTAAKPVSIKRTRRREILLAYACLAPSLLIFGLFLFYPLLKSVYLSLFLTDPQGRVAEFVGFDNFREILASDMFYTSFGNTLLFILLTVPTGMAAAILLAALTHNKLKGMKIFRFIFSLPMAVSVGTGSMIWMILYHPTLGILNYFLSLLGTQPVQWLTDPKWAMISVALMTVWMNLGFNYILMLSGMQGVSEDIYDSTKIDGSGPLRTFFRITMPLISPTLFFTSVVSVIGAFQAFGQINILTKGGPMNSTNVMVFNIYQDAFVNFRFGIGSAQALILFAIILLLTVFQFKFVEKKVHYQ	PGPT0016840_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_sn-GLYCEROL-3P_TRANSPORT,PGPT0016840-ugpA-K05814	NA	NA
AK002_02088	984	degA_1	COG1609	HTH-type transcriptional regulator DegA	ATGGCAACGATCAAGGATGTGGCGAATCAGGCGGGCGTATCCGTAGCCACGGTTTCGCGGGTTTTAAATGGAAACGGTTACGTGCATGAGGACACCAGGTCCAAGGTGGAACAGAGCATTCGAGAGCTGAATTACACGCCGAATGAAGTGGCGCGTTCTTTATACAAGAGGAAATCCAAATTGATAGGACTTTTGCTTCCCGACATCATGAACCCCTATTTCCCGCAGCTTGCCCGCGGGGTAGAGGACGAGATGCAGGAGAATGATTACCGGTTGATCTTCGGAAACAGCGACGAGAGCAAGAAGAAGGAAATGGAGTACATTCAGACGTTTGTCCAGAACAATGTGGTTGGCGTCATATCATCGACCAACGATCCGGATGCCGACATGTATACAGGACTGAACATTCCCGTCGTGTTTCTGGACCGCACCTCGTCGGACCGCCCTTCCGTGTACGCGGATGGCCGTCAGGGAGGAAGAATAGCGGCCAAGGAAATCTTGCGGCGAGGGAGTAAAACCATAACGGTAATTCAAGGTCCGGCGGATGTGCGGCCTGCACAGGAACGTTTTGAAGGAGCCATCGAGGTTCTGGAGCAGCAGGCGGCTGCGTATCAAGTGCTGAAGACGACATCGTTTTCTTTAACCGATGCCGAAGAATTCGCCCAGAAAGTGTTCAGCGAATATCCGGACACGGATGGCATAATCGCGAGTAACGATATTATGGCATCCGCCGTGGTGAAAGAAGCGTTTCGGCTGGGGAAAAGGGTGCCGGAAGACGTGCAAATTATAGGATTTGACGATATTCTGCTCAGCAGGCTGCTGGCCCCGCCGCTGTCAACGATTCATCAGCCGGCGTACGAAATGGGCCGGGAAGCGGCCAGATTGCTTATCGGACTTATCGAAGGGCAGCGCATAGAGAAAAGCAATATCGAATTCTCGGTTGAATTCATAGAGCGGCAGACAACGAGAAAGGTGGAATCGTGA	MATIKDVANQAGVSVATVSRVLNGNGYVHEDTRSKVEQSIRELNYTPNEVARSLYKRKSKLIGLLLPDIMNPYFPQLARGVEDEMQENDYRLIFGNSDESKKKEMEYIQTFVQNNVVGVISSTNDPDADMYTGLNIPVVFLDRTSSDRPSVYADGRQGGRIAAKEILRRGSKTITVIQGPADVRPAQERFEGAIEVLEQQAAAYQVLKTTSFSLTDAEEFAQKVFSEYPDTDGIIASNDIMASAVVKEAFRLGKRVPEDVQIIGFDDILLSRLLAPPLSTIHQPAYEMGREAARLLIGLIEGQRIEKSNIEFSVEFIERQTTRKVES	PGPT0017992_15203	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
AK002_02089	879	rbsK_1		Ribokinase	ATGGCAAAAATCGTGGTAATCGGAAGCGCGTCGATGGACTTGGTGGTAACCTCCGCCAAGCGCCCCGGCGCGGGAGAGACAGTGCTAGGCGACAGCTTTAAGACGGTGCCCGGAGGGAAGGGAGCCAACCAGGCCGTCGCGGCGGCAAGGCTGGGTGCAGAGGTGACGATGGTTGGCTGCGTCGGTGACGATTCCTTCGGCGAAACGATTTTGAACAATTTGCAGTCGAATGGTGTTATTACGGATTATGTGGAACCGGTTACAGGTATGGAAAGCGGTACGGCGCACATCATTTTGGCAGAGGGAGACAACAGCATCGTGGTGGTGAAGGCTGCCAATGATCGGATCACTCCGAAATACGTAGATCAGGCGGAAAAGGCAATCCAGGCGGCGGATATCGTGTTGATTCAGCAGGAGATTCCGGAAGAAACGGTGGTGCACGTGAGTGCGATATGCGCCAAGTATCAGGTGCCATTGATGCTGAACCCCGCTCCTGCCCGTCCGGTGCCGAGCGTCGTTATTGAACGGGCGGCATACATTACGCCAAACGAACATGAAGCCGCTATCCTGTTTAATGACGAGCCGCTCGGCGACGTGCTGCGCCGGTATCCGAATAAACTCATCGTAACGGAAGGGAAAAAGGGCGTTCGTTATTTTGACGGTATGCAAGAGGTCGTGGTTCCGGGCTACAAGGTTGAAGCCGTAGATACAACGGGTGCCGGCGATACATTCAACGGCGCATTCGCCGTGGCGCTGGCCGAGGGCATGAGCATGACCGACAGCCTCAGATTCGCGAACCGCGCCGCTTCCTTGTCGGTCATGAAGTTCGGAGCGCAGGGCGGAATGCCGTCGCGTCTCGAAGTGGAAGGGAGCCTTTGA	MAKIVVIGSASMDLVVTSAKRPGAGETVLGDSFKTVPGGKGANQAVAAARLGAEVTMVGCVGDDSFGETILNNLQSNGVITDYVEPVTGMESGTAHIILAEGDNSIVVVKAANDRITPKYVDQAEKAIQAADIVLIQQEIPEETVVHVSAICAKYQVPLMLNPAPARPVPSVVIERAAYITPNEHEAAILFNDEPLGDVLRRYPNKLIVTEGKKGVRYFDGMQEVVVPGYKVEAVDTTGAGDTFNGAFAVALAEGMSMTDSLRFANRAASLSVMKFGAQGGMPSRLEVEGSL	PGPT0017405_4499	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
AK002_02090	399	rbsD	COG1869	D-ribose pyranase	ATGAAGAAGAACGGCATGCTGAACAGCCACATCGCGAAAGTGCTGGCGGATCTGGGGCACACCGATACCATCGTGGTCGGGGACGTTGGCCTTCCGATTCCTCCAGGCGTTCCGAAGATCGACCTGGCGCTTACGCTGGGAACGCCGAGCTTTATGGAGGTGGTGGAGGCGATCGCCGACGATATGGTCGTTGAAAAAATCGTCATTGCTGAAGAAATGAAGCGGGAGAATAAGGAAACACTGCATGATATACAGGAACAATTTCAGGATTGCGAGATCGAGGCTTGCTCGCACGAGCAGTTCAAGGAACGGACTCGAAACGCCAAGGCGGTTATCCGTACAGGCGAAGCCAAGCCCTATGCGAACTGCATTTTGCAGGCCGGCGTTCATTTCGGTTAA	MKKNGMLNSHIAKVLADLGHTDTIVVGDVGLPIPPGVPKIDLALTLGTPSFMEVVEAIADDMVVEKIVIAEEMKRENKETLHDIQEQFQDCEIEACSHEQFKERTRNAKAVIRTGEAKPYANCILQAGVHFG	PGPT0016595_616	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0016595-rbsD-K06726	NA	NA
AK002_02091	1482	rbsA_3	COG1129	Ribose import ATP-binding protein RbsA	ATGAACATTGAGATGACGAATATCCATAAATCCTTTGGCACGAACCGGGTGCTGGCGGGCGTGGACTTTGATCTCCGGGAAGGAGAGGTTCATGCCCTGATGGGAGAGAACGGCGCGGGCAAATCGACGCTGATGAATATATTAACCGGGCTTCACAGCCGGGATGAGGGCAAGATCTTGATCGACGGTCAGGAAACCTATTTTGCGAACCCGAAGGAAGCCGAAGAGAGAGGCGTTGCCTTCATCCACCAGGAGCTCAACATCTGGCCGGAGATGACGGTTCTGGATAACTTGTTTATCGGCAAGGAAATGACATCCGGCCTGGGATTCCTCAACATGAAACAAATGAAGGCGCTTGCGAAGGAACAGTTCGGCAAATTGGCGGTGACGATACCGTTGACGCAGGAGGCAGGGGAATGCTCCGTCGGCCAGCAGCAGATGATTGAGATCGCTAAAGCGCTCATGACCAAAGCGAAAGTCATCATTATGGACGAGCCCACGGCGGCCCTGACCGAAAGGGAAATCGAGAAGCTGTTCGGCGTCATCCGCTCGTTGAAAAAGCAGGGCGTATCCATCGTTTACATCTCCCACCGCATGGAGGAGATCTTCACGATCTGCGACCGGATTACGGTCATGAGGGATGGCAAATCCGTGGACACCAAGCCGATTCCCGAAACCAACTTTGACGAAGTCGTCAAAAAGATGGTCGGCCGGGAGCTGACCGAGCGATATCCCGCACGGCATCCGTCTCCGGGCGAACCGGTGCTGGAAGTGAAAAATATTACCGGCAAGGGCCGGTTCGAGAATGTGAGCTTCTCCGTTCGAGCCGGCGAGATCGTAGGCGTATCCGGTTTGATGGGCGCGGGGCGCACCGAGATGATGCGAGCGATCTTCGGGCTGGACCCGCTGGATAGCGGGGAAATCTGGGTGCGCGGCAAGAAGGTTCAGATCAAGAAGCCGGATGATGCCGTGAAACACGGCATTGGATTCATAACGGAGGACCGCAAGGATGAAGGGCTGGTGCTGGATTTCTCGGTCCGTGAAAATATGGCGCTGCCCAATCTGTTCAGCTTCTCATCCAGAGGATTCATTTCCGGGAAGAAGGAGCAGGATTTCGTCGATACGCTGACAAAGCGGCTGCAGATCAAGACCCACTCATCCGAGACGCATGCACGCAATCTGTCGGGGGGCAACCAGCAGAAGGTGGTTATCGCCAAATGGATCGGCATTGGGCCGAGCGTGCTCATCCTGGACGAGCCGACCCGCGGCGTGGACGTAGGAGCGAAGCGCGAAATTTACCAGCTGATGAATGAGCTGACCGAACGCGGCGTGGCGATTCTGATGGTATCGTCGGAGCTGCCGGAGGTGCTCGGGATGAGCGACCGGATTCTCGTCGTTCACGAGGGCAGGATATCCGGTGAACTGGATCGCGAACAAGCCACGCAGGAACACATCATGACTCTAGCTACAGGGGGACAGTAA	MNIEMTNIHKSFGTNRVLAGVDFDLREGEVHALMGENGAGKSTLMNILTGLHSRDEGKILIDGQETYFANPKEAEERGVAFIHQELNIWPEMTVLDNLFIGKEMTSGLGFLNMKQMKALAKEQFGKLAVTIPLTQEAGECSVGQQQMIEIAKALMTKAKVIIMDEPTAALTEREIEKLFGVIRSLKKQGVSIVYISHRMEEIFTICDRITVMRDGKSVDTKPIPETNFDEVVKKMVGRELTERYPARHPSPGEPVLEVKNITGKGRFENVSFSVRAGEIVGVSGLMGAGRTEMMRAIFGLDPLDSGEIWVRGKKVQIKKPDDAVKHGIGFITEDRKDEGLVLDFSVRENMALPNLFSFSSRGFISGKKEQDFVDTLTKRLQIKTHSSETHARNLSGGNQQKVVIAKWIGIGPSVLILDEPTRGVDVGAKREIYQLMNELTERGVAILMVSSELPEVLGMSDRILVVHEGRISGELDREQATQEHIMTLATGGQ	PGPT0016600_4775	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
AK002_02092	969	rbsC_2	COG1172	Ribose import permease protein RbsC	ATGACAACTATTAACGATGCCAAGGCGGAAAAAGGGTTCAAGGTCTCAGGTTTGACGCAAAAGCTCGGTCCGCTGCTCGGACTGATCATTCTGATCGTCATCGTTTCCGTCCTGAATCCAAGCTTCTTGGAACCGCTTAACATTCTGAACCTGCTGCGTCAGGTATCGATTAACGCACTGATTGCTTTCGGTATGACGTTTGTTATCCTGACGGGCGGCATTGACCTGTCGGTCGGTTCGATTCTCGCGCTCTCCAGCGCATTTGTCGCCAATATGATGGTAGCGGGGTTTGACCCGATTCTCTCGATCATCATCGGCGTTGCGCTTGGCGGGGTGATGGGCATGATCAACGGTCTCATGATCACCAAGGGGAAAATGGCGCCGTTTATCGCCACCTTGGCTACCATGACGATATTCCGGGGACTTACGCTGGTTTATACGAACGGTAATCCGATTACTGGGCTTGGCGACAGCCTTGTATTCCAATTGTTCGGCCGCGGATACCTGCTGGGCATTCCCGTGCCGGCCATTACGATGATCATCACGTTTGCCGTGCTGTGGGTCATCCTGCATAAAACGTCGTTTGGCCGCAAAACGTATGCCATCGGCGGTAACGAAAAGGCATCGCTTGTATCCGGCATTAAGGTACCGCGCGTAAAGATTATGATTTATTCCCTGGCAGGGATGCTGTCCGCGCTGGCAGGGGCGATTCTGACCTCCCGTTTGAATTCGGCACAGCCGACAGCGGGTACCTCTTATGAATTGGATGCCATCGCAGCCGTTGTGCTGGGCGGTACAAGCCTGACCGGCGGACGCGGCCGGATTGTCGGCACGTTAATCGGTGTGCTGATCATTGGCATACTGAACAACGGACTCAACCTGCTCGGCGTGAACTCTTTCTATCAGATGGTTGTCAAAGGCGTCGTGATTGCGATTGCCGTACTGCTCGACCGTAGAAAATCGGCTTAA	MTTINDAKAEKGFKVSGLTQKLGPLLGLIILIVIVSVLNPSFLEPLNILNLLRQVSINALIAFGMTFVILTGGIDLSVGSILALSSAFVANMMVAGFDPILSIIIGVALGGVMGMINGLMITKGKMAPFIATLATMTIFRGLTLVYTNGNPITGLGDSLVFQLFGRGYLLGIPVPAITMIITFAVLWVILHKTSFGRKTYAIGGNEKASLVSGIKVPRVKIMIYSLAGMLSALAGAILTSRLNSAQPTAGTSYELDAIAAVVLGGTSLTGGRGRIVGTLIGVLIIGILNNGLNLLGVNSFYQMVVKGVVIAIAVLLDRRKSA	PGPT0016590_4798	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
AK002_02093	918	rbsB	COG1879	Ribose import binding protein RbsB	ATGAAAAAAACAACTTTGCTGCTCGTATCACTTATGCTGATCTTCATAACAGGCTGTTCGCTGGAGCCGCCGGAATGGGCGAAGCCCAAGGCTAGCGGAGATATAAAAGACATCAAAATCGGTCTTTCCATCTCGACCTTGAATAACCCGTTCTTTGTCTCCTTGAAGGATGGCGTCGTCGCCGAAGCGGCGAAGCAGGGAATGGAGGTCGTTGTCGTTGACGCACAGAACGACTCGGCTAAGCAGAGTAATGACGTCGACGACCTGATTCAGCAGGGCGTCAATGCACTGCTGATTAACCCGACGGATTCGTCTGCGATTTCAACCGTGGTGCAAACGGCGAATAGCTTGGGCATTCCGGTCATTACACTCGACCGCTCGGCGGATCAAGGTGAGGTCGCTGCGCTGGTTGCCTCGGATAACGTCAAAGGCGGTCAGATGGCAGCCGAGTATATCGTGGAACAACTGGGCAAAGATACGAAGGTCATTGAGCTCGAAGGCGTTCCGGGCGCTTCCGCGACCCGCGAACGGGGCAAGGGCTTCCATGATATCGCGGATGAGCAGCTGAACGTGGTCGCGAAGCAAGCGGCGGATTTTGACCGGACCAAAGGTCTTACCGTGACGGAAAATCTGCTGCAGGGCAATCCGGACGCCAAAGCGATATTTGCCCACAATGACGAAATGGCCCTGGGCGCAATCGAAGCGATCCAAAGCTCGGGCAAGGACATCATGGTTATCGGCTTTGACGGCAACGACGATGCGCTGAAGTCCATCGAAGCCGGCAATCTGACGGCAACGGTAGCCCAGCAGCCTGAACTGATCGGTCAGCTCGCCGTCGGCGCAGCCAAGGACGTGCTGCAGGGCAAAGAGGTAGAAGCGAATATCGCGGCACCGCTGAAGCTGGTCGTGAAGGAATAA	MKKTTLLLVSLMLIFITGCSLEPPEWAKPKASGDIKDIKIGLSISTLNNPFFVSLKDGVVAEAAKQGMEVVVVDAQNDSAKQSNDVDDLIQQGVNALLINPTDSSAISTVVQTANSLGIPVITLDRSADQGEVAALVASDNVKGGQMAAEYIVEQLGKDTKVIELEGVPGASATRERGKGFHDIADEQLNVVAKQAADFDRTKGLTVTENLLQGNPDAKAIFAHNDEMALGAIEAIQSSGKDIMVIGFDGNDDALKSIEAGNLTATVAQQPELIGQLAVGAAKDVLQGKEVEANIAAPLKLVVKE	PGPT0015740_5698	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
AK002_02094	1077	iolW_1	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	ATGACGACGGAAAAAAGAAAACAAGCGATCGTGATCGTGGGCTACGGCGGTATGGGCAGCTACCATGCCAAGCTGATTAAGGACAACGCGTTTCTTGAGGTGACCGGAACCTACGATATTCTGGAAGAGCGCCGGAAGGCGTCCCGGGAGGACGGGTATTCTGCCTACGAGAGTTATGACCAAGTGTTGAACGATGATGCGGTTGACGTGGTGCTTATTGCAACGCCGAACGACGTGCATAAGGAGCTGGCGCTTCAGGCGTTTGCAGCCGGCAAGCATGTCATCTGCGAGAAGCCGGTAGCATTGTCCGTAAGCGACTTTAAGGACATGGTCTCCGCTGCCGATGCGGCCGGTCGGGTGCTGATGGTTCACCAGAACCGCCGCTGGGACGAGGATTTCCTGACGATTAAGCAAATGTACAACGAAAAGACGATTGGCGATTTGTTCCGTATCGAATCCAGGGTACACGGGGCGAACGGCATTCCGGGCGATTGGCGCCATCTGGAAGCGCACGGCGGCGGCATGCTGCTGGACTGGGGCGTGCATTTGCTGGACCAGATCCTGTTCATGGTGGACAGCCGGATGACCAGCCTGAGCAGCCGCTTGAGCTTTATTTTGGGCGATGAGGTGGATGACGGCTTTGAATCGGTCATCGAATTCGAGAACGGCGTATCGGTTCTGATCGAAGTGGGAACGACGAATTTCATTACGCTTCCACGCTGGTATGTCAAAGGAACCGAGGGAACCGGCATTATTGAGGATTGGTCGTTAAACGGAAGAGTCGTTACCCGGAACCAGGATGCCGCGAAAGTGGAGCCGAAGCCGATTCAAGCCGGGGTAGGCTTGACCAAAACGATGGCCCCTCCTTCCGAAGAAGCTACCATTACGGGTGCCCTGCCGGAGCCATACCGTCAATCCAGCAGCTTCTTCGATAACTTTGCGGCCGTGACCCGGGGCGAGGCAGAACCGATCGTCAAGAACGAGGAAGTGCTGCGCGTCCTGAACCTGATCGAAGCGGTGTTTGAATCGGCCAGAACGGGCGAAACGCTGAAGGATTTCGACATTTACCCTGCATGA	MTTEKRKQAIVIVGYGGMGSYHAKLIKDNAFLEVTGTYDILEERRKASREDGYSAYESYDQVLNDDAVDVVLIATPNDVHKELALQAFAAGKHVICEKPVALSVSDFKDMVSAADAAGRVLMVHQNRRWDEDFLTIKQMYNEKTIGDLFRIESRVHGANGIPGDWRHLEAHGGGMLLDWGVHLLDQILFMVDSRMTSLSSRLSFILGDEVDDGFESVIEFENGVSVLIEVGTTNFITLPRWYVKGTEGTGIIEDWSLNGRVVTRNQDAAKVEPKPIQAGVGLTKTMAPPSEEATITGALPEPYRQSSSFFDNFAAVTRGEAEPIVKNEEVLRVLNLIEAVFESARTGETLKDFDIYPA	PGPT0018530_98	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
AK002_02095	1623	rhaR_19		HTH-type transcriptional activator RhaR	ATGAATGTATTGCTGGTTGATGACGATTATTTTGTCGTGGCCGCGCTGGAGAAGAAGATTGATTGGAAGGCACTCTCGATCGAACAAGTCCATACCGCTTACAGCGTGGCGCAGGCGAGGGAGATTCTGCAGGGTCATTCCGTTCAGATCCTCATTTGCGACATCGAAATGCCGCAGGGCAGCGGACTGGAGCTTCTCGCCTGGATACGCGAGGAACAATACGGCATACAGACGATCTTCCTGACTAATTACGCCGATTTCAACTATGCGCAGAAAGCGATTGAGCTGCAAAGCTTCGACTATTTCCTGAAGCCGATTGAATTCGACAAGCTCAGCCTCATCATCTCCAAGGCCGTGTACAAAGCTAAGGAACAGCAAAGCGATCAGGAGGCGATACAGGACGGGCAGCTGTGGAAGAAAAACCAAAGAAAGCTGCAAGAGCACTTCTGGAGTAAGCTGATCAAGGAAAAAAAAGCTTCGTCGGACCGGGCCGCCATCGCCGGGTATATCGCGGAGCAGAATCTGTCCTATGCGATGTCGGATCTGTTTCTCCCCCTGCTGATCACGATCTTTCCGTATGATCAAAGCTTGGGCAAAGAAGACAAGGATCTGTTTGACTATGCGTTTCTCAACGTGCTGTCGGAATTGTTCCAGGACCCGCTCTTCACGGTTGAAGCCGCTATGGAATATAAGGATTACAATTGGATGGTCATGCTGAAATGGAATTATCCTCCTGATACCGCAGTCATTGAATCCATCTGCACGTCCTTCATCGAGAAAGCCAACCGGTTCCTTCGGAGCGATGCGTGCTGCAACGTATCGGTTTCGGCGGCTTTGGAGGGGATCAACAAATCCATACGGGACCTGCTGCAAATGAACGAGGACATGATCAAGAAGCGCAACCAGATCATGTTTCTGGAACGGCATTCGCTGCAAGAAGCCGCGTATACCCCTCCCCCGCTTCAAGACTGGGAGGCGCTGCTTGCCGAAAACAACCCGGCCGCCTTTCTCGAAGAAACTCGCCGGTACCTGCAGAATTTGGCCAAGAGCGGCGTCCACAGCGCTTCGGTGCTGCGTTTATTCCGCTTGGATATGGTGCAGCTCGTGTACTCCTACCTGAAGGGCAAAGAGATTCAGGCTCATAAGCTATATACCGGCAAAACCAATGATCAGTTATTTCTGCAGTCGTTAAACTCGATTGAAGACATGGAAAAATACATGGCGTATCTCGTCCGCACGGCAGCCGAATATCATGCTTACGCCGGCCATTCCCATACCGTCGTAGAGGAAATCAAGCATTATATCGGGTGCCATTACGGGGAGGAGCTGACGCGAACGACCCTGGCGGAAATCGTCTTTCTGAACCCGGATTATTTGGCCCGCGTCTTTAAGAAAGAAACGGGCGTATCTTTAGGCACTTATATCATTCAGGCCCGCATCCGGGCGGCCAAACATCTGTTGGAGTCGACTCCGTTGTCCGTGTATCAGATTGCGGCGAAGGTCGGATACGCCAATTATTCCTACTTCTCGAAGCTGTTCAAGCAGGATACGGGCTGGGCGCCCAGCGACTATAGGCGGGTGCTGCAAGGCGGAGGCAGCGGGAAGGTGGATCACGCCAAATGA	MNVLLVDDDYFVVAALEKKIDWKALSIEQVHTAYSVAQAREILQGHSVQILICDIEMPQGSGLELLAWIREEQYGIQTIFLTNYADFNYAQKAIELQSFDYFLKPIEFDKLSLIISKAVYKAKEQQSDQEAIQDGQLWKKNQRKLQEHFWSKLIKEKKASSDRAAIAGYIAEQNLSYAMSDLFLPLLITIFPYDQSLGKEDKDLFDYAFLNVLSELFQDPLFTVEAAMEYKDYNWMVMLKWNYPPDTAVIESICTSFIEKANRFLRSDACCNVSVSAALEGINKSIRDLLQMNEDMIKKRNQIMFLERHSLQEAAYTPPPLQDWEALLAENNPAAFLEETRRYLQNLAKSGVHSASVLRLFRLDMVQLVYSYLKGKEIQAHKLYTGKTNDQLFLQSLNSIEDMEKYMAYLVRTAAEYHAYAGHSHTVVEEIKHYIGCHYGEELTRTTLAEIVFLNPDYLARVFKKETGVSLGTYIIQARIRAAKHLLESTPLSVYQIAAKVGYANYSYFSKLFKQDTGWAPSDYRRVLQGGGSGKVDHAK				NA	NA	NA	NA	NA
AK002_02096	1740			hypothetical protein	ATGGTTAAAGCATTGAATAACAAGCCTTATCCCATCCGTCACTATGTGAAAATCATGCTCTTCATCTCGATCTTTGCCCTCGTGGTGGATTTGGTGATCAGCTTCGCCTCCATCTTCATCGTGAAGCAGCAATCCACCCGCTATTTGCAGGATACGGCGAATCTGTACATCCGGCAGATCAATCATGACTTCTCGTATATCAACCACTATATGGGCTGGACGCTCGCGAATGACGAAAGCGTCAAGAACATGGATACCCCCGGCACCGATTACGTGAATTATATTAAGTCGAGCGAAAGAGTGCATAAACAGTTTAATGAGCTTCAAAAAAACTATGGCCAGGAATACAACTTCTTCTTCTATTTAAAGGAACAGGATTTCTTCCAGAACTATGCCCCCATGTCCCTTTCGTATACGGAGTTCCTGGAGCTGAAGGAACAGATCGTCTCCCTCACGGATTCCAAAAACGTATACGAAACGTTCTACTCGAACTGGAACCCGATCCTTGTGCAGGACACGCATTACGTCATTAACATCGTACCCTATCACAACCGGTACTTGATCTGCCTCATCTCCGCAGACGACCTGGTCCGGCCGCTCCAGGAATTGGATTTGGGCGAGGACGGGTTCGTCTCTCTGGTGGATGCCCAAGGAGCAGCCCTTACGAGTCCAGGTGCCGGCGAGGCCGGGGCCAAGCCGCTCGAAGGCGCCAAGGCTTCCTTGTTCAGCCTGTCACAGCCGCGGACTACGGTCACGGAGGGATTCTCGAATGCCTCCTTCAACGTGCAGCTGGTCATCCAGTTCGGCGTGTTCGAGACCATCATGATCGCCCAGCTGCTCATTATGCTGCTGTTCGTACTGCTTACTTGCACGCTCAGCGTGGTCATGCTGTATTTCAAGAAGAAGGTGTTAAAGCCCATTCAGAATTTCTCGGAAAACGTAAGGCGCATCCACGAGGATAGCGAAAATCTGGATTTCATGAGCAGCGAGATCATCGAGCTCGAGCAGGTCAATTCTCAATTCAAACACCTGATCGAACAGATCAAGAAGTTTAAAATCGATATTTATGAGCAGGAGCTCGAAAAACAAAGAATCCAGCTCGATTATATGAAGCTGCAGATCAACCCCCATTTTTTCCTGAACTGCTTGACGAACATCTACAGCATGGCGCAAATGCAAATGTTTAAGGAAATCGAATATATGTCGCTGTCCACGTCCAAATATTTTCGTTACATTTTTCAGAGCGGCGATAACCTCGTGCGGCTTGAGGACGAAATCGAGCACGTCCGGATTTATCTGGAGATTCAGAAGCACCGCTACCGCGATGCCTTTTCTTATCACATCGGGTATGAACAAGAGCTTGCCGGCCTCACGATTCCCCCCCTGGTGCTCCAGACCTTTATTGAAAACGCGGTGAAATACGCCGTATCCAGAGATCAGGTGCTGCAAATTCGCCTGACCGTCAGCTTGCAAGTGGAGGACGATAAGCCTTATGCGGTCATCCGGATCTCCGATACCGGTCCCGGCTTTCCGCAAGACGTATTGGATAAGCTGGCAAACGGCAGGCCGCTGGATCAAAGCGAAGGGAAACACATCGGGATCATGAACACCCTTCAGCGGCTGGAGCTGCTCTACCATCATCGGGCGCAGGTGGAATTTTCAAACCCGGAAGGCGGCGGTGCCAGCGTCGCACTAACGCTGCCCCAGCCACTGCAGGAAAGGAGAGGAGACATTCGATGA	MVKALNNKPYPIRHYVKIMLFISIFALVVDLVISFASIFIVKQQSTRYLQDTANLYIRQINHDFSYINHYMGWTLANDESVKNMDTPGTDYVNYIKSSERVHKQFNELQKNYGQEYNFFFYLKEQDFFQNYAPMSLSYTEFLELKEQIVSLTDSKNVYETFYSNWNPILVQDTHYVINIVPYHNRYLICLISADDLVRPLQELDLGEDGFVSLVDAQGAALTSPGAGEAGAKPLEGAKASLFSLSQPRTTVTEGFSNASFNVQLVIQFGVFETIMIAQLLIMLLFVLLTCTLSVVMLYFKKKVLKPIQNFSENVRRIHEDSENLDFMSSEIIELEQVNSQFKHLIEQIKKFKIDIYEQELEKQRIQLDYMKLQINPHFFLNCLTNIYSMAQMQMFKEIEYMSLSTSKYFRYIFQSGDNLVRLEDEIEHVRIYLEIQKHRYRDAFSYHIGYEQELAGLTIPPLVLQTFIENAVKYAVSRDQVLQIRLTVSLQVEDDKPYAVIRISDTGPGFPQDVLDKLANGRPLDQSEGKHIGIMNTLQRLELLYHHRAQVEFSNPEGGGASVALTLPQPLQERRGDIR				NA	NA	NA	NA	NA
AK002_02097	930	yteP_19	COG4209	putative multiple-sugar transport system permease YteP	TTGAAAGCAGGCCAACTGAATAGAACCACACACCCAACCCTCGGGCGGATCAGAAAAAATTGGGGCCTGTATTTGCTGCTGCTGCCTGCGGTAGTGCTGGTTTTGTTGTTTTCTTACGTGCCGATGTACGGCATTTTGATCGCATTCAAGGACTACAGTCCCGCTCTCGGGATTATGGACAGCCCCTGGGCCGGTCTGAAGTATTTCGAGAAGTTTTTTAACTCCTATCAATTCTCGACCACCATAACGAATACGCTGGTCATCAGCTTATACAGCGTTGCGACGTTCCCGATTCCGATCATGCTGGCCTTGATGGTCAATCAAATGCGCCAGAATTGGTTCAAGCGCTTCTTCCAGACCGTAACCTACATGCCGCATTTTATATCGACGGTCGTGATGGTGGGACTCATGCTGATTCTGTTCTCGCCGGGCTCGGGATTGATCGGGAATATCTTCCGGCTCTTCGGTGCACAAGCGCCGAATCTGATGGGATCGGCCGGCTTGTTCAGCAGCGTGTACGTATGGTCGGACGTGTGGCAGCATACGGGCTGGGACAGCATTATCTATATCGCGGCGTTGTCTGCGGTGAGCCCCAGCCTGTACGAGGCGGCCACCATGGACGGGGCAAGCAGATGGCAAAAAATCCGGTTCATCGACATCCCGATGCTGATGCCAACGGTCGTAACGCTGCTCATTTTGCGGATCGGGAGCTTGCTTGGCGTCGGCTTCGAGAAGGTTTATCTCATGCAAAACAGTCTCAATATAACCTCCAGCGAGGTCATCTCCACGTATGTGTACAAAATCGGGATGCTGAGCAGCCAATACAGCTTCTCGTCGGCCATCAATTTGTTTAATACGGTCATCAATTTTGTTCTGCTGATTCTGGTCAACCAGATTTCGAAAAAATACAGCGAAAACAGTTTGTGGTAA	MKAGQLNRTTHPTLGRIRKNWGLYLLLLPAVVLVLLFSYVPMYGILIAFKDYSPALGIMDSPWAGLKYFEKFFNSYQFSTTITNTLVISLYSVATFPIPIMLALMVNQMRQNWFKRFFQTVTYMPHFISTVVMVGLMLILFSPGSGLIGNIFRLFGAQAPNLMGSAGLFSSVYVWSDVWQHTGWDSIIYIAALSAVSPSLYEAATMDGASRWQKIRFIDIPMLMPTVVTLLILRIGSLLGVGFEKVYLMQNSLNITSSEVISTYVYKIGMLSSQYSFSSAINLFNTVINFVLLILVNQISKKYSENSLW	PGPT0017250_2010	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02098	921	dasC_6	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGGGCGTAGTGGAAGTAAGAGAGAAGACGGGGCCGCAGCAGAGGAACACCCGATCTTCCGACAGGGTGCTGGAAATCGGCCTGTATGTATTCGCCGTCTTGATGCTGATCGTGCTGATTTACCCGCTGTACTTCATCATCATCGCTTCGTTCAGCGAGCCGGCAGCGGTCGCGAATGGACAGGTATGGCTGTGGCCTAATGATTTTACGCTGGCAGGCTATCAAGAATTGCTGAAGCACTCTAATATATGGATTGGGTACCGAAATACGATTGTGTATACGATCGTGGGTACAGCCATCGGCCTGGTGGTTAACATATCCGCAGCTTACGCGCTGTCCCGCAAAGACCTCGTGGGCCGCAAGTATATATCGCTGCTCTTTATATTTACGATGTTCTTTAACGGCGGTTTGATTCCGACCTTCATGACGATCCGCGATTTCCAGCTGTACGATACGTTTCTTGTCATGGTGCTGCCGTTCTCGGTTGCCGCCTTCAACATCATCGTGGCGCGGACCTTTTTCCAGAGCAGCATCCCGGAGGATTTATGGGAGGCGGCACAGCTGGATGGCTGCGGAAATCTCCGATATTTCGTGACCATCGTGATTCCGCTTTCGAAAGCGGTCATCTCGGTCATCGCCTTATGGACGGCCGTGGGTCATTGGAATTCTTATTTCAACGCCCTGATCTATTTAAAAGATACGAACCTGTACCCGCTGCAGCTCATACTGCGCAATATTCTGGTCACCAACCAGATGCAGTCCGCGATGGGTACCGGGGAAGCCGCGGCCATTGCGCTGCGTCTGGCCAATATTATGCGCTATGCGGTCATTATCGTCGCCACGGTGCCGATCATGTGCATCTACCCGTTTGTGCAAAAGTATTTCAATCAGGGGGTGATGATCGGAGCCGTCAAGTCGTAA	MGVVEVREKTGPQQRNTRSSDRVLEIGLYVFAVLMLIVLIYPLYFIIIASFSEPAAVANGQVWLWPNDFTLAGYQELLKHSNIWIGYRNTIVYTIVGTAIGLVVNISAAYALSRKDLVGRKYISLLFIFTMFFNGGLIPTFMTIRDFQLYDTFLVMVLPFSVAAFNIIVARTFFQSSIPEDLWEAAQLDGCGNLRYFVTIVIPLSKAVISVIALWTAVGHWNSYFNALIYLKDTNLYPLQLILRNILVTNQMQSAMGTGEAAAIALRLANIMRYAVIIVATVPIMCIYPFVQKYFNQGVMIGAVKS	PGPT0017255_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02099	1620			hypothetical protein	ATGGGAACAAACAATGCAAAGAGGAGACATCGCCTCAAGCTGGCTGCCGTCATCATGTTGACCGCAATCCTGCTGTTGAACCTGGCGGGCTGCAGCGGCGGCAAGAAGGAGGACGCCAAGTCGGATGCCGAGGCCGCTTTTAACCAAGAAGGCCTGCCGATCGTGAATGAACCGATTACGCTGGACGTGCTGACCGTTCGCTGGGGCAACATGGGGGATACGTTCCTCCAGAACCAGTGGCTCAAGGATTTGGAGAAGGAGACCAACGTCAAAATCAATTGGCAGATCATGTCCTCCAATGATTGGGGCGAGCAAAAATCGATCATGCTGGCGAGCGGTACGCTGCCGGATATCATTTTTGGGGATATCGTATTCAGCGATTCCGACATCGTCAACAACCTGTCGTATTTCCGTCCGCTCGACGACTACATCGATCAATACATGCCGAACCTGAAGGCGGCGCTGGAAGAAACGCCCGAGATGAAAAAGATGAGCACCTTCCCGGATGGGAAAATCTATTCCTTGCCGGCGCGGCTGCCGTCAAGGCCGAAGGCGTCGATCCAGCCGATCATTAACAAAGCCTGGCTGGATCAGCTCGGACTGGACGTTCCGGACAACACGGACGAATTGTATAACGTATTCAAAGCGTTCAAAGAAGGGGATCCGAACGGCAACGGCAAGGCCGACGAAATTCCGGTCAGCGGATCGGGGAACATCAGCATCGACCTGCTGAATCCCTTCGGCATCACCGACATCAACGGAAACAGCATGATGGTCATCGATAACGAGCCCGTATTCTACCCGGTGACGGAGAACTACAAAGAAGCGATCAAGTGGGCCCATAAGCTGTACGCCGAAGGCCTCATAGACCAAGAAATCTTCACGCAGGACAGCACCATGTCCACGGCAAAACATCAGAACCCGGATGCGGCGTTGATCGGTTTCTCCAACCAATGGGTACCGGACGCGGTATTCGGAAAATGGAAGGATCAATACATCGCGATTCCATCCATTGCCGGTCCTGACGGTAAACGGTACCAGGGCGGCGAGCCTGAGGGCATGAGCCTGCGCAGAAACGAGTTTCTCATCACCACGTCGAACAAGCATCCGGAAATTTCGGCCCGCTGGGCGGATCAGTTCTACACCAATGAAGCGAGCATCCAGAATTTCTGGGGAGCCATCGGCACGGTGATTCAGAAGAACGACGACGGAACGTTTACGCTCATGAGTCCGCCGGAGGGAACGAGTGCCGATGCCTGGTACTGGGAGCAATCCGTAAGGGATTTCGGTCCCAAGTACGTAAGCCCGAGCTTCGAGAAAAACATCATATTGGATGAGACCACGGGCGACGGCTTGAAGCTGGTCATCGACAAGCTGGGCAGTGATTACGTGACGACGCCGTTCCCGAACGTCATGTACAGCGCAGAAGAATTCCAGGAGCTGCCTACGCTGACTACGGATATCGATGGCTTTGTCGGCACGACCCGCGCAAAATGGATATCCGAAGGCAATATCGATGCGGAATGGGACGCATACGTCAAGAAGCTGAACGATATGGGGCTGGAGCGGCTGGTACAGATCCGCAAGGAAGCCTATCAGCGGTATATCAGCGTCAAATAA	MGTNNAKRRHRLKLAAVIMLTAILLLNLAGCSGGKKEDAKSDAEAAFNQEGLPIVNEPITLDVLTVRWGNMGDTFLQNQWLKDLEKETNVKINWQIMSSNDWGEQKSIMLASGTLPDIIFGDIVFSDSDIVNNLSYFRPLDDYIDQYMPNLKAALEETPEMKKMSTFPDGKIYSLPARLPSRPKASIQPIINKAWLDQLGLDVPDNTDELYNVFKAFKEGDPNGNGKADEIPVSGSGNISIDLLNPFGITDINGNSMMVIDNEPVFYPVTENYKEAIKWAHKLYAEGLIDQEIFTQDSTMSTAKHQNPDAALIGFSNQWVPDAVFGKWKDQYIAIPSIAGPDGKRYQGGEPEGMSLRRNEFLITTSNKHPEISARWADQFYTNEASIQNFWGAIGTVIQKNDDGTFTLMSPPEGTSADAWYWEQSVRDFGPKYVSPSFEKNIILDETTGDGLKLVIDKLGSDYVTTPFPNVMYSAEEFQELPTLTTDIDGFVGTTRAKWISEGNIDAEWDAYVKKLNDMGLERLVQIRKEAYQRYISVK	PGPT0017245_1773	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02100	735			hypothetical protein	ATGGGGAACATCAAAGTCACGGTATGGAATGAATACCGGCATGAGAGACATAATGATCAGGTAGCCGGCATATATCCGAATGGGATTCATCGTGCGATAGCGGATCATCTCGAACAGGTGGAAGGTTTGGAAGCAGCCACCGCCGTACTGGATGAGCCGGATCACGGATTGACCGATGAGCGATTGGCGAACACGGATGTACTGCTGTGGTGGGGCCATCTGGCACATGATGAGGTCCGCGACGACATTGTCGAGAAGGTTCGGCAGCGGGTACTGGACGGCATGGGATTGATCGTGCTGCATTCTGGTCACGGCTCCAAAATCTTCTCCAGGCTCCTTGGCACGAACACCGGGATGCTGAAATGGCGCGACGACGGCGAGATCGAGCGTTTATGGGTCGTTGAACCGAGCCATCCTATTGCGCAGGGGCTGGGTGAATATATCGAGATTCCGCGGGAAGAAATGTATGGAGAGCGGTTCGAAATTCCGGCGCCGGATGAGCTTGTGTTCGTCTCCTGGTTTGAAGGCGGGGAAGTGTTCCGAAGCGGGTGTTGTTACAGGCGCGGCAGAGGGAAGCTGTTTTATTTCCGTCCGGGCCACGAAATGTTTCCGGTCTACCACCAGCCCGAAATTCTGCAGGTGATTACCAATGGCGTGTTCTGGGCCGCTCCAGTTGAAGGAGCTAAAACGGCTTACGGGCGGGTGGCGCCCATCGCTCCTGTCGCACAATCCTAA	MGNIKVTVWNEYRHERHNDQVAGIYPNGIHRAIADHLEQVEGLEAATAVLDEPDHGLTDERLANTDVLLWWGHLAHDEVRDDIVEKVRQRVLDGMGLIVLHSGHGSKIFSRLLGTNTGMLKWRDDGEIERLWVVEPSHPIAQGLGEYIEIPREEMYGERFEIPAPDELVFVSWFEGGEVFRSGCCYRRGRGKLFYFRPGHEMFPVYHQPEILQVITNGVFWAAPVEGAKTAYGRVAPIAPVAQS				NA	NA	NA	NA	NA
AK002_02101	1086	iolG_8		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAATAAATTTCGAATCGGCTTAATCGGTTTGGGCGGGATGGCGCAGGAGCACATCCGCTGGATGAATGCAGAGAATGTCTATCAGTTTGTGGCCGTGAGCGACGTCAACGGGGAAGCGGTGGCCAGAGTAGGCGATCAGCTGGGGATCGAGGACGGGAAACGCTATACGGATTTCAAGGATTTAATTGATGATCCTGACGTCGATGCCGTCATTTCGGTCACGCCCAACAACGTGCACGCTGATATCATCAGCGCATGCTTGCAAGCGGGCAAGCCTTTTTTGGCAGAAAAACCATTCACGCGAGTCTTCGAAGAAGCCATCTCCTTGCTGGAGTTGTATGAGAAACAGCCCGTTCCCGCCATGATCGGATTTACGTACCGATATACGCCCGCTTTTCGTTATGCCAGGGAACTTATCCGTACGGGCAAGCTGGGTACGATCCGTCATTTCTCCATTCAGTATTTGCAGGGGTTTGGCGTGCCGAACCAGCAGGTTCCCTACATGTGGAGATACAACAAAGCCATCACGGGGACGGGAACGCTGGGAGATCTCGGTTCGCATATGATCGATATGGCCCGTTTTCTGTTTGGGGAGTTCGAAGAAATTACGGCCCAGCTACATACCATCATCCCGGAACGCCGGGACCCGGTGACGGGAGCCATGGCCAAGATCGAGGTCGATGATTTTGCCAGCTTTCAGGCCCGGATGGAGGGTGATATTATGGGCGTATTCCAGACGTCACGCAATGCATTCGGTTCAGGCAATCAGCATGAAGTGTCCATTTATGGCGACCACGGCACGGTCCACGCGAGCACATTGGATCCGGAGCGGGTGGTGTGGATTCGCGAAGAAGAGCCCGGGCAGCTCGCCAGAACGGCAATGGAAGTGCCGCAGCATTGCAAAGTCAAGCAGTATGCCGATTTTGCCGCGATATTGCGGGGAGCGCCTGCCGACGGAGTGCCCGGGTTCATGGACGGATACCGGAATCAAGAGGTGCTGGATGCAGTCGTCAGGTCAAGCGAGACCAAAACGGTGGTTGAGCTGGGCAAATCCATCGGCCAACGGATTCAGAGTTTGTCATAA	MNKFRIGLIGLGGMAQEHIRWMNAENVYQFVAVSDVNGEAVARVGDQLGIEDGKRYTDFKDLIDDPDVDAVISVTPNNVHADIISACLQAGKPFLAEKPFTRVFEEAISLLELYEKQPVPAMIGFTYRYTPAFRYARELIRTGKLGTIRHFSIQYLQGFGVPNQQVPYMWRYNKAITGTGTLGDLGSHMIDMARFLFGEFEEITAQLHTIIPERRDPVTGAMAKIEVDDFASFQARMEGDIMGVFQTSRNAFGSGNQHEVSIYGDHGTVHASTLDPERVVWIREEEPGQLARTAMEVPQHCKVKQYADFAAILRGAPADGVPGFMDGYRNQEVLDAVVRSSETKTVVELGKSIGQRIQSLS				NA	NA	NA	NA	NA
AK002_02102	975			hypothetical protein	ATGGTAATGCATTTCTCCAAGATTAGCAACATCTATATTCATGTCAAATGGTTCACGGACAATTTTGAATGGGTCCCTCTGCCCTTTCCCCGTATCGTTACGCTGACGTTCCTGTTTTGGTTAGCGTTTACATTGCTGATCTTGTTGCTCACATGCGCAATACACGATCCCTTGGGAAAGATGCGGCCCCTCGTGCGAATCCACGGATGGCTGCACAGGCTTAGGCCCCACACCGAGGTGATTCTGCGTATTGGGCTGGCGATCGGGCTGGTGCTGCAGCTTCTGAGCGGCTCCTACCTCGCCCCCGAATTCCGAACCAATTCCATGTGGATCATCCTCGGCCTATCCGCAGCCGCAGCGTGCCTTCTCTATAAACGCACCTTGCCGGTAAGCGGCGCCATCCTATTCCTGCTCTATATTCAGGCGTCCTTATCCTACGGTCTTTTTCATTCCATCGATTATTTGCTCTATCTCGGCATTGTTTATTATCTGTTTGTGTGCGGCACTCCCATCAAAAGAACGGCAGCCCCGGTCTTGTATATATGCACAGGCATGTCCCTCGCTTGGCTTGCCATGGAAAAGCTGACCATTCCCGAGCTCGCTTGCACGGTTATGGGCAGCTATGGACTTCCTACCTTCGGTTTTACCATTGAGCATTTTGTCATGATTAGCGCTTTTGTTGAAATCGGACTGGCATGGGCGTTCATCGTAGGTATCATGAACCGGTTCACGGCACTGCTGGTATCCGGCATTTTTATTATGACAAGCCTTGTATTCGGTTACAAAGAAGTCATCGGCCATATGATCATTCACACGGTGCTGATCCTGTTCCTGATCGAAGGCACGGGGGAAGTGCGTACCCCTTTTCAGTTCCATCGCTCGCCGGTTAAACGCGGATTGTTTGTGGGCGTTAACTTCTGCCTGTTTCTGTTCAGTTTGATGGCGCTCTATATTTGGATGGGCAAGATGTTATGA	MVMHFSKISNIYIHVKWFTDNFEWVPLPFPRIVTLTFLFWLAFTLLILLLTCAIHDPLGKMRPLVRIHGWLHRLRPHTEVILRIGLAIGLVLQLLSGSYLAPEFRTNSMWIILGLSAAAACLLYKRTLPVSGAILFLLYIQASLSYGLFHSIDYLLYLGIVYYLFVCGTPIKRTAAPVLYICTGMSLAWLAMEKLTIPELACTVMGSYGLPTFGFTIEHFVMISAFVEIGLAWAFIVGIMNRFTALLVSGIFIMTSLVFGYKEVIGHMIIHTVLILFLIEGTGEVRTPFQFHRSPVKRGLFVGVNFCLFLFSLMALYIWMGKML				NA	NA	NA	NA	NA
AK002_02103	1641	cobQ		Cobyric acid synthase	ATGAATGAAACGGAAACGGAATACATAAGGGAAACACCCACGATAATCGGGAAAGGACAAGGAGCGGTGCTCATGCTGCAGGGCACGGCTTCGGATGTAGGCAAGAGCATCGTAACGACCGCGCTGTGCCGTATTTTTCTGCAGGATGGTTATCGCACGGCTCCATACAAGTCGCAAAATATGGCGCTTAACTCCTACGTGACGCTTGATGGCAAGGAGATCGGCAGAGCGCAGGGCGTGCAGGCCGAAGCCTGCGGCATAGCCGCAACAACGGACATGAATCCGATCCTGATCAAGCCGATTAAAGATATGCATTCCCAAATCGTGATCCACGGCGTGCCCGAAATGCAGATGAGCGCGATGGATTACAGGACGCAGTTTCTGCCGAAGGCCAAGGGGATCGTCTTGGATGCGCTGGACCGGCTCCGGGAGAAATACGATATCGTGGTCATGGAAGGCGCGGGAAGTCCGGCAGAGATCAATCTCAAGGATCGGGATATCGTGAACATGAATTTGGCTGGATGGGCGGATTCTCCGGTCATTCTGGTTGCGGATATCGACCGCGGGGGCGTGTTCGCCTCGATTGTAGGAACGCTCGAACTCCTGGAGCCCCATGAGGCGGCCAGGGTCAGAGGGTTTATCATCAACAAATTCCGCGGGGATTTGGCGCTGTTGAAGCCGGGACTGGACTGGCTTGAAGAACGGACAGGCATACCGGTGCTTGGCGTCCTTCCTTACATTCAGGACATGCGGATCGAGGCCGAGGATTCCGTAGTGCTGGATGAGCTTCAATATCAGAGACAGGAAAAACGCGACCTTGATATTGTCGTTATCCGGTATCCGCGCATTTCGAATTTTACGGATTTTGATGCGCTTCGCTGGGAGCAGGATGTCGTCGTTCGCTTCGTCCAATCGGTGGATGAGCTCGGCACGCCGGACGTCATCATTTTGCCCGGTACGAAGGATACGATCAGCGATTTGGGATTCATCCGGGATCGGGGCCTGGCGGAGGCGATTTTAAGGTTGACGCAGACGCGGGATGTGCAGCTGGTTGGCATCTGCGGAGGATATCAAATGCTGGGCGAGCGGTTATCGGATCCGCATGCGGTGGAAGGCAGCGCACGGGAAGCGGCGGGACTTGGACTGCTGCCGATGCGGACAGCTTTTTCAAAGCAAAAAAAGACCGTTCGCGTAAGAGGGGATTTGTCACAGGAACATCCTCTGAAGCTCGTTTTATCGGATACGAAGGCTATTTCGGCAATAGGGGCCTACGAAATCCATATGGGCGTCACCGAAAGGAGCACGGAGCCTGGCGGATCAGAACACCGAACGTTGTTTTCGATTGAAGCAGATTCGGGGGATTCTTTGGAAGCCGGAGAAGATATTCAAGCATATCCTGAAGGTTTAGCCACCGCCGATGGACGCATCTGGGGTTGTTATCTGCACGGCTTGTTTGACAACGATGCCTTTCGCAGGTCCTGGCTGAACGGCATTCGGATAAATAAGGGACTGGATGCCATTTGGGAAACGTTCCAAGCGGAAGAACGCAAACTCGCAGAATACGACCGTGTGGCGGACATCGTGCGGAATCATGTGGATATGGAGAAGATTTATGAAATCATCGGCTGTACGCACCGATAG	MNETETEYIRETPTIIGKGQGAVLMLQGTASDVGKSIVTTALCRIFLQDGYRTAPYKSQNMALNSYVTLDGKEIGRAQGVQAEACGIAATTDMNPILIKPIKDMHSQIVIHGVPEMQMSAMDYRTQFLPKAKGIVLDALDRLREKYDIVVMEGAGSPAEINLKDRDIVNMNLAGWADSPVILVADIDRGGVFASIVGTLELLEPHEAARVRGFIINKFRGDLALLKPGLDWLEERTGIPVLGVLPYIQDMRIEAEDSVVLDELQYQRQEKRDLDIVVIRYPRISNFTDFDALRWEQDVVVRFVQSVDELGTPDVIILPGTKDTISDLGFIRDRGLAEAILRLTQTRDVQLVGICGGYQMLGERLSDPHAVEGSAREAAGLGLLPMRTAFSKQKKTVRVRGDLSQEHPLKLVLSDTKAISAIGAYEIHMGVTERSTEPGGSEHRTLFSIEADSGDSLEAGEDIQAYPEGLATADGRIWGCYLHGLFDNDAFRRSWLNGIRINKGLDAIWETFQAEERKLAEYDRVADIVRNHVDMEKIYEIIGCTHR	PGPT0004580_281	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004580-cobQ|cbiP-K02232	NA	NA
AK002_02104	873			hypothetical protein	ATGTTGAATAAGAAGGGTACTGTGCTAACCTTAACGAGCATACTTGCAATTGGATTAATGACATCATGCGATAATGCGAAGCAGGCCCCGGATACAGGCGGCCACGGCGGGAACCATAATCAGGAAGCCGTAAATCCGGAAGAGAACGGGCACAGTGGGCACGGAGGCGGGCATGAGACGGCCTCGAACAACTACCAGGCTGAATTTACATGGAATGAACCGGCAAGCGCAGGCACCGAAACAGAGTTAACGATTCAGATCACGGACAACAACGGTGGACCCGTCCAGGAATTTGAAGTCAATCATGAGAAGCTGCTGCATTTGATCATCGTGAATCGCGATTTGTCATTTTTCAACCATATCCATCCCGATTACAAGGAGAACGGCGAGTTTACCGTGAACACCACGTTTCCCGCCGGCGGCGAATATAAATTGATTGCGGATTTCGTGCCGAAGGGCGCTGGAGGGAGCACGCTCAGCGAATGGGTTCAGGTGGAGGGAGAAGAAGGAGAAACTTCGGCCATTGAGCCTGACTCCAGCCTGATCAAACAAGTCAACGGCAAGGAAATCGAACTGAGCCTGAGCAATGCCTTATCGAATGAAGAGACCGTGCTCACCTATCATATTCAGGATGCGCAGACGAAGCAGGGAATCAGCAATCTGGAGCCTTACCTAGGCGCGGTCGGTCATGTTGTCATTTTGTCCGCAGACGCCGAGAAGTACATCCATGTGCATCCTCTTGACGAATCGAGCACTGGTCCTAAAGCGGAGTTTGCGACTACCTTTCCGCATAGCGGCATCTACAAAATCTGGGGACAATTTCAGCATCAAGGTGAAGTGGTAACCGTGCCTTTTGTTATTGAGATAAAATAA	MLNKKGTVLTLTSILAIGLMTSCDNAKQAPDTGGHGGNHNQEAVNPEENGHSGHGGGHETASNNYQAEFTWNEPASAGTETELTIQITDNNGGPVQEFEVNHEKLLHLIIVNRDLSFFNHIHPDYKENGEFTVNTTFPAGGEYKLIADFVPKGAGGSTLSEWVQVEGEEGETSAIEPDSSLIKQVNGKEIELSLSNALSNEETVLTYHIQDAQTKQGISNLEPYLGAVGHVVILSADAEKYIHVHPLDESSTGPKAEFATTFPHSGIYKIWGQFQHQGEVVTVPFVIEIK	PGPT0004090_640	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
AK002_02105	240			hypothetical protein	ATGACAGAGCCATTGAAAATCTACACCATACCCACTTGCAGCGATTGCCATCATGCCAAGCGTTACTTCAAGGAGCAGCAGGTTCCGTACACGGAATTTGATTGCACGCAGAATCCGGAATATCCGGAAGAAGTGAGACGTCTGACTGGAAAACAGATCGTGCCTACGATCGTTATCGGCGACAACGTATTTATCGGATTTGCCGATAACTTTCAGGAAATCAGGGAATTGATTAAATAA	MTEPLKIYTIPTCSDCHHAKRYFKEQQVPYTEFDCTQNPEYPEEVRRLTGKQIVPTIVIGDNVFIGFADNFQEIRELIK	PGPT0013201_4723	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CHAPERONES,PGPT0013201-grxC-K03676	NA	NA
AK002_02106	939			hypothetical protein	ATGAATACAAATCCAAAGAGATTTTCTAATGTTAATCATCATGACGATGCGCAGTCGGACGGCTCTATTCTTGCTCCGGTAACCGTGATCGGATTAGGCGCCATGGGCTCCAAACTGGCCCGCACCTTCGTGAGCAACGGATATGTCACCACCGTCTGGAACCGCACGCCTGAAAAAGCCGCCGAACTTGTAGGCTTGGGTGCCTCCGGCACTACGGACATCGCGGATGCCATCGCCGCCAGTCCCCTCTTGATTGTGTGCGTACTAGATTATGATGCCGCCCGCCATATTCTTGAACCCATGAGGGAGAAGCTTTCCGGCAAGGTTGTCGTAAATCTGACAACCGGCACTCCCGAAGAGGCCCGCGCGATGGGGACCTGGATGAGGACCCAAGGCGCCGAATATCTGGATGGCGGCATCATGGCCGTTCCTTCCCTGATCGCCACGCCTCATGCCGTAATACTCTACAGCGGTTCACAAACAGCTTACGAAACATATAAACAAGCTTTGGAAGGCTTAGGTACTAGTCACTATTTAGGGACCGATCCAGCTCTCGCTCCGCTGAATGACCTCGCACTGCTAAGCGGCATGTACGGCATGTTCGGCGGTTTCATCCATGCCGTGGCGCTTGCAGGCACCGAAGGAGCGAAGGCTTCAGACTTCACGACCTCGCTGCTGATGCCTTTTCTGCAGGCCATGATGTCCACTCTGCCTGAGATGGCGAAGCAGATCGACACCGGCGATTATACCGCCAAGGATGCGAGCCTGGCGATGCAAGCAGCTCACGACACCATCGGGGAGGTCAGCAGGGCACAGGGCGTCAGCGCCGAAACATTCGCGCCGATTTTCGAACTGATGAAACGACGGGTAGAGGAAGGTTATGGCGGGGACGACTTCGCCAGCGTGATTGAGCTGATCCGTAAGCGTCGATCGTCTTAA	MNTNPKRFSNVNHHDDAQSDGSILAPVTVIGLGAMGSKLARTFVSNGYVTTVWNRTPEKAAELVGLGASGTTDIADAIAASPLLIVCVLDYDAARHILEPMREKLSGKVVVNLTTGTPEEARAMGTWMRTQGAEYLDGGIMAVPSLIATPHAVILYSGSQTAYETYKQALEGLGTSHYLGTDPALAPLNDLALLSGMYGMFGGFIHAVALAGTEGAKASDFTTSLLMPFLQAMMSTLPEMAKQIDTGDYTAKDASLAMQAAHDTIGEVSRAQGVSAETFAPIFELMKRRVEEGYGGDDFASVIELIRKRRSS				NA	NA	NA	NA	NA
AK002_02107	216			hypothetical protein	ATGGATTATGGAATGAACGTTATTTTGTTTGAAAAAAGACCGGACGGTGAGCTGGTGCAGATTGAAGAGCGGGCATGGACGATGAACATGGTCGCTGCGCTGGAGCACGTGAATTATATCGTCGCGGGCGGCAGGGAATATGAAACGATCGAAGGCAGATTAAACGTGGACACGGGCAAACTGGAGCTTCTGCTCGTTCCGATGCGGAACGATTAA	MDYGMNVILFEKRPDGELVQIEERAWTMNMVAALEHVNYIVAGGREYETIEGRLNVDTGKLELLLVPMRND				NA	NA	NA	NA	NA
AK002_02108	675			hypothetical protein	TTGAGTAATGAAAAAGACAAAAAAGACCAGCCCGCTTCCAAATGGCTGACGCCGGAAGGCAAACCGATTCGAGTCTTGTCAAGCTCGCTCGGCATCGCCTTGTTGGCGAATGCGTTTTTGGTGTCGGGCGCGGCAGCGAAGGATCTCGCTTCGGAAGCGGTTACCTCATCCGAAGAGCCGCAGCTGGTATCCTGGTCGACGGAAGAAGTAAAGAAGTATTTTGACAAGAACGTGGACTGGAACATCCCGTTCCCTAGCGCAGAAGAATTCGAGGAAGAGCCGGCGGAAGGAGCATCTGCAGGATCAGGCGGGGGAACGACGGTAATCAATAACTATGGCGGCTACAATTCCGGTTTCGGCTGGGATGATCTGCTGCTCTACCACATGCTGTTCAACAACGGCTCCTACTATTCCTCCAGCGGATGGTACAACAATCATCGCGGATATTACGCGAATAACGGCAAGCCTTACAAACCCCGCACGTATTCGAGCGGTACGTTCCAGAACAAACCGGTGGTGAACTCCAATGTCCGTCCCAAGACCTCAACGTCCTCTTCGGGCACGATAACGCGCCGCTCCACATCGTCCAAGTCCGGCGGCATTGGCGGCAATTCCAGCGGCTTCAGTTCCTCGGGTTCGAAATCCAGTTCCAGATCCGGCGGTTTTGGCGGATGA	MSNEKDKKDQPASKWLTPEGKPIRVLSSSLGIALLANAFLVSGAAAKDLASEAVTSSEEPQLVSWSTEEVKKYFDKNVDWNIPFPSAEEFEEEPAEGASAGSGGGTTVINNYGGYNSGFGWDDLLLYHMLFNNGSYYSSSGWYNNHRGYYANNGKPYKPRTYSSGTFQNKPVVNSNVRPKTSTSSSGTITRRSTSSKSGGIGGNSSGFSSSGSKSSSRSGGFGG				NA	NA	NA	NA	NA
AK002_02109	1200	yjfC	COG0754	Putative acid--amine ligase YjfC	ATGAGCCGCGAAAGCGTGTTTACCGTTTCGGGACAGCCTGACCCCAATCGGGATGGGCGGGTATCGGAGCTCGCAGAGCTTGGCTTTACCTGGGCGAATTTGGAAGGGGAAGCCTACTGGATAGACCAAATCGTCACCATACGTCAAGAGACCTATCGCGAGCTGGAAGAAGCCGCTGCGGTACTGTGGGCGACGCTGGACAAAACCGTTCGTTACGTCCATCGCAACCATCATATTTACAGCTTGATCGGCATTCCGCCGATCCTGTGGCAGATGCTGGACGAATGTCCGCTGCCGGAGGAAGGGTTGATCAGCCGGTATGCCAGATTTGACTTTGCGATTGCCCATGACGGCAGCATCAAGCTGCTGGAGCTGAATGCGGACACACCCACAGGGTATGTTGAGGCTTCCATTGCAACGCCGTGGATGTGCGCTCAGGCCGGCGTCTATTCTCCCAATGAGCGGATGCAAGAGCTGGTGGCACAAGCGTGGGCGGCAGAGCGTCCGGATACGGCCGCATGCATTGCTTACGGCGAGCATCTGGAGGACTCCGGCACGATCGAAGCATTGGTCCGGCACAGCGGGCTGGATATCAAGCTGGTGGATTGCCTGGATCTATGGGTGGACGAAGGCATGCTGAAGGACGGCGAAGGCCGGGAGATTCACCGGATGTTTGCTCTTTATCCGAAGGAATGGATGTCCGTCGATGATGGCGGAGATGCGCTTGCCTATGCCATCGAGACGGGGCGACTCCAGCTGTTCAACTCGCCGCACAGCATTCTGCTGCAGTCCAAAGGCTTGCTGGCCGCCATGTGGGGCATGTATGAGCTGGGCCTATTGTTCGATGAGCAAGAACGCGAAGCGATCGTCAAATATATGCTGCCGACATACAACAAACCCGTGTTCTCCGGCAATTTCGTATCGAAGTCGATGTTCGGCCGAGAGGGTGGTTCTGTCAAACTGTACGACCAGACAGGACAGCTCGAGGTAGAGGATCAGGACGGATATGATACTAGCGTCATGTTTCCGACGGTCTATCAGAGGAGGGCCGAGCTGGCTCGCGTCGAGACGGCGGAAGGGGAATTTCATTTGCTGACGGGGTTGTTCGTCCTTAATGGTATCCCATGCGGATTGCTGGGACGGGCGGGCGGTTTGATTACGGGCAATTCGAGCCATTTTATCGCAATGGGAGTGAAATAA	MSRESVFTVSGQPDPNRDGRVSELAELGFTWANLEGEAYWIDQIVTIRQETYRELEEAAAVLWATLDKTVRYVHRNHHIYSLIGIPPILWQMLDECPLPEEGLISRYARFDFAIAHDGSIKLLELNADTPTGYVEASIATPWMCAQAGVYSPNERMQELVAQAWAAERPDTAACIAYGEHLEDSGTIEALVRHSGLDIKLVDCLDLWVDEGMLKDGEGREIHRMFALYPKEWMSVDDGGDALAYAIETGRLQLFNSPHSILLQSKGLLAAMWGMYELGLLFDEQEREAIVKYMLPTYNKPVFSGNFVSKSMFGREGGSVKLYDQTGQLEVEDQDGYDTSVMFPTVYQRRAELARVETAEGEFHLLTGLFVLNGIPCGLLGRAGGLITGNSSHFIAMGVK				NA	NA	NA	NA	NA
AK002_02110	675			hypothetical protein	ATGCAGTTGAAACAAGAGAAAAGGCAGCAAAGCGGTGCTCCGAAGGGAAAGAGGAAACCTCCGGTCGTCCTGGCGGTGCTTATCTTATCCCTTATGGTTTTAGCGCTGAGCGCATGCTCCGGCGGCAGCTCCACCGTGTTCCATACCGGATCGGAGGAAGTATCTTCGGCCTCTAGTCGCGTGCCTTGGGACTATCGCATCATTGAAGGGACCGTCGGCGATTTGATTGGCGGCGACATGACCGTCCTGCCGGATAACGAGCTCCTGCCTAACGATAACAACTATGCTACAGGGGACAAAGTTTGGACGCTGCAATTCATGGACGCCGAGCTGACCACGGATGCGAATCAGCGCAACGATATCCGGTTATCGTCCTGGCAGACCATTAAGTCGTTCAAGGATAAAAAGACGGCGGAATCGGATTTGGCCAACCTGAAAGTGACCGTCAAAACCGACGTGAAGCTGGTTGGGGTATATAAAACAACGTACAAAAAAGACACCAGGCATTTTGCCGTTGTTGAGCTGCCGACGGGCAACCGGATCAAGCAGCCGATCGACGAGAAGCGTTATGCCGCATTGGAGAAGAAGGACACGGTTGATGTTGTATTGGAGGAAGTGCATGATTTCGCCGATTACGACTTGGCCTATGCAAAATTTCGGGGGTGGGCGGATTGA	MQLKQEKRQQSGAPKGKRKPPVVLAVLILSLMVLALSACSGGSSTVFHTGSEEVSSASSRVPWDYRIIEGTVGDLIGGDMTVLPDNELLPNDNNYATGDKVWTLQFMDAELTTDANQRNDIRLSSWQTIKSFKDKKTAESDLANLKVTVKTDVKLVGVYKTTYKKDTRHFAVVELPTGNRIKQPIDEKRYAALEKKDTVDVVLEEVHDFADYDLAYAKFRGWAD				NA	NA	NA	NA	NA
AK002_02111	393			hypothetical protein	TTGACGGTCGTCATTAATATTGTTATAAGTGTGATCTGTATTATCGTGCTTCAATTGCTGGGCATGCTGATTTTCAGCTGGATGACCCGGTTTAACGACATGGAAGAGCTGAAGAAAGGCAATGTCGCGGTTGGTCTGGCATTTGGCGGCAAGTTTATGGCAACGGCCATTATTTTGGGCATATCGGCATATACGAATTCATCGATATGGCATATGATACTGTGGTTTGCCGTTGGATATGTATGCTTGATCGTTGCCTATTGGGTATTCGAGCTGGCGACGCCGGGTCTTCGAATTTCCGAGCACCTGCAAAAGGGCAACGTAGCGATCGGCATCCTGCTGGCCATGGTGTTCATCGGCACAGCTTTTGCGATCAGCAGCCTGATCATTTAG	MTVVINIVISVICIIVLQLLGMLIFSWMTRFNDMEELKKGNVAVGLAFGGKFMATAIILGISAYTNSSIWHMILWFAVGYVCLIVAYWVFELATPGLRISEHLQKGNVAIGILLAMVFIGTAFAISSLII				NA	NA	NA	NA	NA
AK002_02112	1023			hypothetical protein	GTGCACTTTTTTCTGAGATTATCTTTGAAAATGATGCGTCTGCGTAAAACAACGATCAGCGTGATCGTGGTGCTGTTTGTGGTGCTTTGCTCGACCCTGGCATTCCTGCTGGAGCCGGAAACGTTTCACCATTGGTTTAACGCCCTTTACTGGGTGCTTACCACGATGGCCACCGTTGGTTATGGCGATTATTATGCAGCTACCGTGCCGGGCAAGATCTTAACGATATTCATCTATATCTTCGGTATCGGGCTGCTCAGTTTAGTGATCGGTAAAGTGATCGAATCGTTTGGAAGCATGCAGCGGCAGAGAGGAGCGGGCAGGTTGAATTTTAAGGGCAGCGGCCATGTCATCATTATCAATTGGAGCAAAAAAGCGATGTCCGCGATCGACGAGATTCTGTCGTATTCGCCGCAGTCCGAGATCGTGGTCATCGACGATTCCAGCCGGCATCCCGTGGAGCATCTCGAACAGGTGCATTTTGTAAGCGGCGATCCTGCATCGGATGACGTGCTGATGAGAGCCAACATTTTGGAGGCCAAGTCGGCCATTGTCTTCGCGGACGCCCGGATCGACGAATCGGCGCTGGTGGACGGCAAGTCGCTCCTGATTGTTTCCAGCATCGAGCGGATTGCGCCGGACGTACATACCACGGTGGAGATCATGCAGGAGAAGCATGTGCAGAATTTCCGCCACAATCAAGTAAACGAGTTTGTCCTCTCGCACGATGCCGTTTCCCGATTGGCGGTGCGGGCGGCGCTGCAGGAAGGAAACTCGGATGTGCTGATGCAGCTGCTCAGCCGCCAGCACGGCGACGATATTTACGAAGTGGCATTAAACCCCGCATGGAAGACCTACGGGGATGCATTTCAGGATCTGCTGCGGCAAGGAGCGACGCTGATCTCCGATCGCAGTGACCTCAGCATCAACCGCAAGCTCGATTTGCCGATTCCGCGGGATGCGAGGCTGTATGTGGTTTCGGACGAAGAGACCATTGACCGGATTTCCGGTAAGCTGGCTTGA	MHFFLRLSLKMMRLRKTTISVIVVLFVVLCSTLAFLLEPETFHHWFNALYWVLTTMATVGYGDYYAATVPGKILTIFIYIFGIGLLSLVIGKVIESFGSMQRQRGAGRLNFKGSGHVIIINWSKKAMSAIDEILSYSPQSEIVVIDDSSRHPVEHLEQVHFVSGDPASDDVLMRANILEAKSAIVFADARIDESALVDGKSLLIVSSIERIAPDVHTTVEIMQEKHVQNFRHNQVNEFVLSHDAVSRLAVRAALQEGNSDVLMQLLSRQHGDDIYEVALNPAWKTYGDAFQDLLRQGATLISDRSDLSINRKLDLPIPRDARLYVVSDEETIDRISGKLA	PGPT0002715_1943	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK002_02113	957			hypothetical protein	ATGTCGCACAAGCTCATGCTTCGAGTCGACCCGCACGCTCCCATGAATGTCAGCACGCAAGTCAAGGAACAGTTAAAGTGGCTGATTGGTATTGGACAGATCGAACCATTCGATATGCTGCCCCCGGCGGGCGCGCTCGCGGACAACCTCGGGCTGAACCGCAACACCGTAAACTTGGTGTACAATCAGCTGAAGGACGAGGGGATCGTCTCCATGCATAAAGGCAAAGGAACGCAGGTTCTGAACAACCCTCAGGTAGAAGAGCTTCGAAATCGCAGAAAGCTGATGCATGAGCTCGCAGAGCGAACGACGGAGGAGCTAGGCTCCCTTCATATCCCGGCGAGCGAGTTCTTTGCCGCATCCCTTGCCTATACGCTGCTGCAGGAGCCTGTCCTGAACGCAGAGCGGCGAATTCTGTTCATCGAATGTAAAGGGCATGATTTTCCCTTCTATCAGAAAGCGATTGAGGAAATTACGGGCGCGGAAGTCAAAACGGTGTTTCTGGAGGATTTGTTGGCGGGAGAACAAGCGCTGATCGAAGCTTTCGACTATTCGAGCCTCATTGTCACGACGCTTAATCATGATTCCGAAGTCAAGGCCCTATGCAGCAAATACGACAAAAAAGCATTCGTTATTGGAGCGAATGCGGAAACGTCGGTCCTGCTTGATATTGCCCGGCTGACACCGGGCAGCCATCTCAGTTTTGTCTGCCTTGGGAAGGCAGGTGCGCAGTGGATGGCCAGCCGTGTTCAAGAAGCGGGTATCGATGGGGTCCGGGCCAGCATGGCCGGCCTGGATCATCGGGAAGACCTGCTGCAGCGGATCGAGCAATCCGATCAGGTTTATGCCTCTGATGCCGTATATGAAGCGGTTCGATCGTTAGCTCCCGGCAAGGTGAAGCTGTTTCCCATGGCACTGGAGAAGAGTAGTGTGAACATGCTAAGAGACATGATCTGA	MSHKLMLRVDPHAPMNVSTQVKEQLKWLIGIGQIEPFDMLPPAGALADNLGLNRNTVNLVYNQLKDEGIVSMHKGKGTQVLNNPQVEELRNRRKLMHELAERTTEELGSLHIPASEFFAASLAYTLLQEPVLNAERRILFIECKGHDFPFYQKAIEEITGAEVKTVFLEDLLAGEQALIEAFDYSSLIVTTLNHDSEVKALCSKYDKKAFVIGANAETSVLLDIARLTPGSHLSFVCLGKAGAQWMASRVQEAGIDGVRASMAGLDHREDLLQRIEQSDQVYASDAVYEAVRSLAPGKVKLFPMALEKSSVNMLRDMI				NA	NA	NA	NA	NA
AK002_02114	522			hypothetical protein	ATGAAGGATCAAGCTGATTCTTATTTGCAGAAAATGAAAGGGGGGGCTAGAAGTCCGTTGACCGTTCGTCCCATGAATCTCGCCGTTGGCTTTATCGGGGGTGCCGTTTCGATCGGCTTACTGGCCCTTCTCTCCGCGCTTGCAGGAAGTCCATGGATCATGGCGCCTTTTGGGGCGAGCTGCGTGCTGGCGTTTGCAGTCTGGGATGCGCCGTTATCACAACCAAGAAACCTGGTCGGAGGGCATCTTATTTCCACGCTTACGGGACTTGTAACGCTGGAGGTCCTGGGTGACGGAATATGGGCCATGGCGATCGGGGTGGGGGCCGCGATCAGCCTGATGGGAATGACCAAGACGACCCATCCTCCCGCCGGCGCAGACCCCTTGGTCGTTATTATGGCTGGCAGCGGCTGGTCATTCCTGTTCACGCCTGTGCTCGTCGGCTCGGTCATGATCGTGGTGGTGGCTCTGCTTGTCAATAATGCGGTAAAGGAACGAAGATATCCGACTTTTTGGTGGTGA	MKDQADSYLQKMKGGARSPLTVRPMNLAVGFIGGAVSIGLLALLSALAGSPWIMAPFGASCVLAFAVWDAPLSQPRNLVGGHLISTLTGLVTLEVLGDGIWAMAIGVGAAISLMGMTKTTHPPAGADPLVVIMAGSGWSFLFTPVLVGSVMIVVVALLVNNAVKERRYPTFWW				NA	NA	NA	NA	NA
AK002_02115	2238			hypothetical protein	GTGGTCGCAGCATTTTGCACTATAGTGCTTCTCTGCGGTGCCGCTGTAATCTTAGGATATCTACGGCCGTCATTAAAAACGTATGCGGATGCGGACGGCGTGAAAATGAAATTCAAAACAGAGGGAACCTCCTTTCTGGTATATGAGGATGAAGAGGTTTGGAAAGAGGTTTTTGCCAAGGGCGTGAACCTGGGCGCAACCGTACCCGGGCATTTTCCCGGCGAGCTGCCGGCCTCCGAGGAAGATTATCTGCGCTGGTTCAAACAGATCGATGAAATGGGAGCAAACGTCATTAGGGTCTACACGGTGCATAATCCGGTCTTTTATTCCGCGCTGGTGAAATACAACCGGGATAAGGGCGATGATCCCCTGTACTTCATGCAGGGCATTTGGTCGCCGGAGGAGCAGCTAATCGAGCGTCGGGATGCGTATGACGAAGAAATCGTCCAAACGTTTAAAGCGGAGATCTCGAAGGCTGTCGCAGCAGTTTACGGGGATATCAACGTTGAGCCCAAACATGGACAGTCGAGCGGCAAGTATAAGGTCAATGCGGGCAAGTACCTCATGGCCTGGCATGTGGGTACGGAATGGGACCCAGCCATGGTTGATAACACCAACAAGGTACATAAGGGTGTCCCTCAGTATAAGGGGTCCTATTTCTCGGGGACGGAGGACGCAAGTCCCTTCGAGAATTGGCTGGCATCTTTATTGGACTACACGGCTGCCGAAGAGCAGAAGTACGGGTGGCAGCATCCGATGACATTTACCAATTGGGTCACGACGGATGTGCTTGAGCATCCGGGGGAACCGCTGTTTGAAGAAGACCTGGTGTCCGTCGATGCAAGGCACGTCGAACCGGTGAACTGGGATGCGGGATATTTTGCGGCATACCATGTGTACCCGTACTATCCGGATTTTTTCCGGACGGACAAAACATTGCAGACCCTCCCCGACGGGGACGGGGGCTACAACACGTACAAAGCTTATTTGCGAAAATTGAAGGCAGAATTCGAGGATATGCCGATCATGGTTACCGAGTACGGCGTGCCCTCCTCCATCGGTATTTCCCACCACGGTCCTGGAGGAAAGGACCAAGGGGGACATGACGAAGCGGAGCAAGGCCAAGTGAATGTCTCGCTGACTCAGGATATTTACGACGAAGGCTATTCCGGAGCGATTTTGTTCATGTGGCAGGACGAATGGTTCAAGAAAACATGGAATACGATGCCTTTTGAAATACCGGCAGACCGCCGGGCATTCTGGTTGAATGTGCTGACCAACGAAAAGATGTTCGGCGTTCTGGCAATGCAGCCGGGTAAAGCGGAACAAATTACGATCGACGGGGATTTGACCGACTGGGATAAGGTTCCTGAAGGGGAAGTCAAAACCTGGTCCGGTACGGCTCCGGGCGTAAAAAACATGAAATTGACGCATGACGAGGCTTATCTGTATATCGGCATGGAGCTGGACGAGGCATTCGATCCCGAACGTTCCAAACTCTTCATCGGAGCGGACACCATCCCTGGCGGCGATATACCGAAGAAAGAGCTGGCGGGACGAACGCTCACCGGCGGGGCTTTGGAAACGTTGATTCAGGTAGGCCAAGAGGACGAATCCCAGGTAACCATAGCGCCATCTTACGATTTCCACAGCCGGCTGTACGGCAAGGAAGGCTATTGGATGCTGCCGGGAGAGGAAGCCAAGGGAACGAAGGACGATCCCGTCGTACCGGGCGGCTCGTTCCATTCCTGGAAGCTGGCCATCAGCCTGCTGATGAATCCGCCGGACACCCGATTCTCCCATCCGTTCGTGGATGAAACGGTGGGAACGCTGAAACGGGGAACCAGCGATCCGGAATCTCCGGATTTCAACTCTCTTACGGCATGGCAGTATCAAGACCGCTTCGTCGAGATGAGGATTCCGTGGATGCTGCTGGGATTCGGAGATCCGAGCTCGCTGCAGGTGCTGGACTACAGTCCGCTTCAAGACAAGCGCACGTTCAGCACGACCACGGCGGACGGTATCCGGCTGGTTCCATGGATTACTGAAAGATCCGAGAACACCGGCAAACCAGCTTCAGGATCGGAGCAGTCCATTAATCTGTCGGACATCGAGCCTTATACATGGGAGCTGTGGGAAGCAACCCAATACAGCGAACGCTTGAAGCAAAGCTATTACGATATGCAGGAAATATTCACGCGTCTCCCTGAAACGGGGCGGCAGCCAGATGCTAAATAA	MVAAFCTIVLLCGAAVILGYLRPSLKTYADADGVKMKFKTEGTSFLVYEDEEVWKEVFAKGVNLGATVPGHFPGELPASEEDYLRWFKQIDEMGANVIRVYTVHNPVFYSALVKYNRDKGDDPLYFMQGIWSPEEQLIERRDAYDEEIVQTFKAEISKAVAAVYGDINVEPKHGQSSGKYKVNAGKYLMAWHVGTEWDPAMVDNTNKVHKGVPQYKGSYFSGTEDASPFENWLASLLDYTAAEEQKYGWQHPMTFTNWVTTDVLEHPGEPLFEEDLVSVDARHVEPVNWDAGYFAAYHVYPYYPDFFRTDKTLQTLPDGDGGYNTYKAYLRKLKAEFEDMPIMVTEYGVPSSIGISHHGPGGKDQGGHDEAEQGQVNVSLTQDIYDEGYSGAILFMWQDEWFKKTWNTMPFEIPADRRAFWLNVLTNEKMFGVLAMQPGKAEQITIDGDLTDWDKVPEGEVKTWSGTAPGVKNMKLTHDEAYLYIGMELDEAFDPERSKLFIGADTIPGGDIPKKELAGRTLTGGALETLIQVGQEDESQVTIAPSYDFHSRLYGKEGYWMLPGEEAKGTKDDPVVPGGSFHSWKLAISLLMNPPDTRFSHPFVDETVGTLKRGTSDPESPDFNSLTAWQYQDRFVEMRIPWMLLGFGDPSSLQVLDYSPLQDKRTFSTTTADGIRLVPWITERSENTGKPASGSEQSINLSDIEPYTWELWEATQYSERLKQSYYDMQEIFTRLPETGRQPDAK				NA	NA	NA	NA	NA
AK002_02116	1194			hypothetical protein	ATGTTTTCAAATTTAGAAATGGCATACGTCTTTGTCTATGTATGCCTCGGCCTGATTGCAGCCGGCATTATCCTGTTGTTCCAAATGAAGATCAAGCATAATGCCATACAAAGAGAAACGGAACGATTTACGGAAAAACACCATGATTACTTTGTGTATGTGCAGAGTCATCTGCATGATGATACGACGCTGGAGCTGCCGCCAGGCAAATTGACGTCGGCCGAACGCCGGGTCATTCAAGCCAAGTTTATGGAGTGGATCGAGCAATTCAAAGGCGACGCCAGAGAGAAGCTCCTGCGTTTGTGCCGGGACGCCGGGTTTGTGGAACAGGAAATTCGGGCATTATCCAGCATGAGGAAAGACCGCCGTATTGAAGCGGTCTACCGCCTCGGCGGGATGCGGGCGGAAGAGGCCGTTCCGCAGCTCCAGCAGCTGATGAACCGGACGAAATACGGTCCGATGACCATCATCATTGCGCGGGCAATTGCCAAGAGCGCGGTTTCGTCCCAGCAGATTCGGGAAATGTTGTCCAAGCTGCTGTCTTACGATAAAGCCATTCACCATATGGCTGCCGATATTTTGCTGGAGACCCGGCTGGATTCGGCCAGCCTCATGCGCAAGCTACTGGACGATCCCGATCCCGGGCTAGTCAAGGTTTCGCTTGTTGCCATGTGGGGACAGGCCATTCCGGCAGTCGTGCCGGCACTCGACCGATTGGTCGGATCCGAGGAGAAGGACGTGCGTGCCGAGGCCGTCAAGCTGTATCTTGGCTCGAACCCGGCCCTGAAGGATGACACCATTGCGGCGCTCATGAATGATCATGAGTGGGAAGTGCGGGCGGCAGCGGCGAAAGCGCTCGGACGGCTTCATGCCGCAGGCAGCATTCCGCTCCTGGCTTCAGCCCTGAAGGACGAGAATTGGCATGTGCGGAACAACAGCGCGGAGAGTCTTGCCATGTTGGGAGAACAAGGCTTCGAGACCTTGTGCCAAGCCGCGCTCACAGGAGAAGGTCCAGCCAGGGAAACGGCCCTGTACCGGATCGAACGGATCATGTCCAACGAAGGCGAATACGAGCAGGTCGAGCAAATGGTGGCATTTAATAAAAGAAAACTGGTGTACGATCGTTATTTCGGCGTTCAAACGAACAAACGGATCGGCACGGTTGCAGGAGTAGGAGGAGATTACACTGCTTAG	MFSNLEMAYVFVYVCLGLIAAGIILLFQMKIKHNAIQRETERFTEKHHDYFVYVQSHLHDDTTLELPPGKLTSAERRVIQAKFMEWIEQFKGDAREKLLRLCRDAGFVEQEIRALSSMRKDRRIEAVYRLGGMRAEEAVPQLQQLMNRTKYGPMTIIIARAIAKSAVSSQQIREMLSKLLSYDKAIHHMAADILLETRLDSASLMRKLLDDPDPGLVKVSLVAMWGQAIPAVVPALDRLVGSEEKDVRAEAVKLYLGSNPALKDDTIAALMNDHEWEVRAAAAKALGRLHAAGSIPLLASALKDENWHVRNNSAESLAMLGEQGFETLCQAALTGEGPARETALYRIERIMSNEGEYEQVEQMVAFNKRKLVYDRYFGVQTNKRIGTVAGVGGDYTA				NA	NA	NA	NA	NA
AK002_02117	1389			hypothetical protein	ATGGTGGCGATTTATTACGTCATGATCGTTAGCGCGCTTTATTTTGTAATTCTGATGTTTTCTTTCAGAAATATTAAGGATATTTTCAGACGCGCGACGTATTCGAAATACAATACGCTTTCGGGCTCGGAATTGGTACCATCGGTATCCTTGCTGGTCCCGGCCTATAACGAAGAGCTGACGATCGCGGAGAATGTCCGCTGCCTCATGACGCTGAACTATCCAACCTACGAGGTCATCGTCATCAATGACGGATCCTCCGACGAAACGCTGAAGGTGCTGATTGAGGAGTATGGGTTGACACTGCTGCCCAATCCGGAGATCCGCGGCAACATCAGCACGAACAAGGTGCGGGGCATTTATTATAATCCGCAGTACCCGCAGCTATACCTCATTGACAAGGAGAACGGCGGTAAGGCGGATTCCTTGAACGCGGGCATCAACTTGTCCCGTTATCCGCTGATTTCTTCCATCGATGCGGATTCATTGCTGGAGAAGGATGCGCTGATCCGGATGGCCCGGATGTACATGGAGAATCCCGAGGAGACGGTGGCGATCGGCGGCGACGTCCGGATTGCCAATGGCTGCGTGATTGAGAACGGTGAGGTTAAGGACGTATCCTTGCCGCGCCGGATGTGGCCGATGTTTCAATCGATTGAATATTTGAAAGCTTTTCTGGGGGGCCGAATCGGGTGGAGCCATTTCAACGGGCTCATCATCGTCTCCGGGGCCTTCGGCTTGTTCCGGAAAGACTATGTCATTGCGGTTGGCGGCTATCGCGGCGGTTACCCCGGTGAAGATATGAACATCATTATCAAGCTGCACCGCTATATGCTGGAAAATAAAATCAAATACCGCGTTTCCTTTTGTCCTGAAGCGGTGTGCTGGACGCAGGCGCCGGACAGCTACAACATTTTGTCCAATCAGCGCAAGCGCTGGGGACGCGGAAACTTGAAGAACATGATCGAGAACCGGGATATGGTGTTCAATCCGAAATATAAAGTCATGGGCTTGTTGACAATGCCCTACAACGTTATTTTCGAAGCGCTAAACCCTTACTTCAGAATTACGGGCCTTCTGGCTCTGCTTGGATATGTTTTGCTGGATATGACAAATTGGCATGTGCTGGTCGTGTTCGGGCTCGTCAATTTCTTAAGCGGGTACCTGCTCAGCGTGGGAGCCCTTATCCTGGAGGAGATGGCCTTCCGCCGGTATACCAAATTGTCCGATCTGGTGAAAATGCTCCTCTTCTCTGCGCTCAAGTTCGTGGGTTACCATCAGCTGGGCGTGCTGTGGAGAGTACAGGGACATATTCAATATTTGCAAAACAACAATTCATGGGGCACCATGACCCGGCAGAGCTGGAAAGATAAGAACGAGGCGGCTTGA	MVAIYYVMIVSALYFVILMFSFRNIKDIFRRATYSKYNTLSGSELVPSVSLLVPAYNEELTIAENVRCLMTLNYPTYEVIVINDGSSDETLKVLIEEYGLTLLPNPEIRGNISTNKVRGIYYNPQYPQLYLIDKENGGKADSLNAGINLSRYPLISSIDADSLLEKDALIRMARMYMENPEETVAIGGDVRIANGCVIENGEVKDVSLPRRMWPMFQSIEYLKAFLGGRIGWSHFNGLIIVSGAFGLFRKDYVIAVGGYRGGYPGEDMNIIIKLHRYMLENKIKYRVSFCPEAVCWTQAPDSYNILSNQRKRWGRGNLKNMIENRDMVFNPKYKVMGLLTMPYNVIFEALNPYFRITGLLALLGYVLLDMTNWHVLVVFGLVNFLSGYLLSVGALILEEMAFRRYTKLSDLVKMLLFSALKFVGYHQLGVLWRVQGHIQYLQNNNSWGTMTRQSWKDKNEAA	PGPT0023485_188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023485-pgaC|icaA-K11936	NA	NA
AK002_02118	807	rcsC_6		Sensor histidine kinase RcsC	ATGTCTCAATCGGCAACATTGCAACGCGTGCAGGCCGTCGATTTTTACGGCCGCGTGGAGGAGGAAGTGAGAGAACATCCCAATGGAACAGCATTGCTGTTTCTGTACTGTGCTGGCAATCCGTCCGGGACGGAGGCTGAGCTGGCGGAGGTCCAAAGCTTTGTGGACCAGCTGTCCGGCGTAAACGGCGAGGTTCTGCACGACGCCAATACCGGCGTATCGGCCGTTACCCTGCCTGGCTACACGCTGGATGCCGCCCATTATCAGGCACTGCTCCTGAAGCAGCATCTGCAGGGCCGTTTCGAGCAAGCGGACCCGCGTATTACGCTTGCAGCGCTTACGGAAGCGCCGCCTCGGCAGACGTTGAAGCAGATGGCGGAAACCGCCAGGCTCAGCACCTCTTCGGATATTCATATATTCACGCAGGAGGAAGCGGATAGCGGCCAAAACCGCATTCTCATCGTGGACCAAGATGCCACGGTGAGGGAATTTTTACAGATTCGCTTGGCCATGCAGGGTTACGAAACGCTGGAAGCGGTGGATGGCTTGGAGGCACTGGAGCTCATCCCGAAATGGGAGCCGGATCTTGTCCTGACCGAGCTGAACCTGCATGGCATCGACGGCCTGCCGTTCATTCATCATATCCAGCAGCTGGACGTGAAGGAGCCGCCGAAAATTGTCGTGTTAACCGAGAAGCGGGTTGAGCAAACCATCAGCCAATGTTTCCAAAACGGGGTCGATGACTACGTAACCAAACCGTTCTCGCCGGTGGAGCTGGATGCCCGCATCCGCCGCTGCCTTCATTAA	MSQSATLQRVQAVDFYGRVEEEVREHPNGTALLFLYCAGNPSGTEAELAEVQSFVDQLSGVNGEVLHDANTGVSAVTLPGYTLDAAHYQALLLKQHLQGRFEQADPRITLAALTEAPPRQTLKQMAETARLSTSSDIHIFTQEEADSGQNRILIVDQDATVREFLQIRLAMQGYETLEAVDGLEALELIPKWEPDLVLTELNLHGIDGLPFIHHIQQLDVKEPPKIVVLTEKRVEQTISQCFQNGVDDYVTKPFSPVELDARIRRCLH				NA	NA	NA	NA	NA
AK002_02119	1362	wbpA_2	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	GTGAATGAGGAATATGAAACTTTATTGAGTGCCATTGAAAATAAGAAAGCTGTACTGGGTGTTGTGGGACTAGGTTATGTAGGCTTGCCGCTGGCTGTGGAAATGGTGAAACAAGGATTTACGGTTATCGGCATCGATCTGGATTCCGACAAAATCGACCGCATTTACCGCGGCGAGTCCTATATTACGGACATCTCGTCCGAAGAGCTTGCGGCATGCATGGAGACCGGACGCTTTAAGCCGACAACGGATTACAGCATGATCGCCGTCATTGACGCGGTCAGTATCTGTGTGCCGACGCCGCTCAGCGAGAATCAGGACCCGGATACTTCCTACATTACAATGGTAGTCGATCAGCTCAAACGGTTCATGAAGCCTAATCTGTTAATTACGCTGGAGAGCACGACGTATCCGGGAACCACGGAGGAACTGATTCAACACCCGATCGAGAAGCTCGGTTACAAGGTCGGCCAGGACTTCTATCTGTGCTTCTCGCCGGAACGGGTCGATCCGTCCAACAGCCGCTTTAATACGCGGAACACGCCGAAGGTGATCGGCGGAACGACGGATGCCTGCCTGAAGCTGGGCGAAGCGCTGTACAAGCAGTACGTGGAGACGGTTGTACCCGTCAGCAATCCGAAAGTTGCGGAAATGTCCAAGCTGCTGGAGAATACGTTCCGCAGCGTGAATATCGCCTTCGTCAACGAGATGGCGATGATGTGCGACCGTATGGGCATCGATGTATGGGAAGTGATCAATGCGGCGGCCACCAAGCCGTTCGGTTTCATGCCGTTCTATCCGGGGCCAGGCATCGGCGGCCACTGCATCCCGCTGGATCCCATGTACTTATCGTGGAAGGCCAAGGGCTTCCGCTTTTACAGCAAATTCATTGAGCTGGCACAATCCACCAATGACAATATGCCTTACTACGTGATCAACAAAACCGCGACGATTCTGAATGAATATGCCAAATCGATCAAGCGCTCCAATATCCTGCTGCTAGGCATGGCCTACAAACCGGACATCAGCGATTTGCGCGAATCCCCGGGCCTTGAAGTTTACGAACAGTTCAAGGAGAACGGCGCTTATGTGGATTACTACGATCCGTATGCCAACAGTTTCGTGGATAAGCAAGGCGGGACGATTCGCAGCGTGGAGTATGATCTCGCGAAATTCAGCCGGTACGATTGCATCGTCCTCATTACGAACCACAGCAATCTGGATTATCATTCGATCGCTTCCGCCGGCGTGCCGATCTTGGACACGCGGAATGCATTTAAAGCGTATGCCGAGCCTCATATTTACAAGATCGGCCATTCCGTTCAGCATGTGCCTGAGCCGGGCGAGGCTGTCTTGATCTGA	MNEEYETLLSAIENKKAVLGVVGLGYVGLPLAVEMVKQGFTVIGIDLDSDKIDRIYRGESYITDISSEELAACMETGRFKPTTDYSMIAVIDAVSICVPTPLSENQDPDTSYITMVVDQLKRFMKPNLLITLESTTYPGTTEELIQHPIEKLGYKVGQDFYLCFSPERVDPSNSRFNTRNTPKVIGGTTDACLKLGEALYKQYVETVVPVSNPKVAEMSKLLENTFRSVNIAFVNEMAMMCDRMGIDVWEVINAAATKPFGFMPFYPGPGIGGHCIPLDPMYLSWKAKGFRFYSKFIELAQSTNDNMPYYVINKTATILNEYAKSIKRSNILLLGMAYKPDISDLRESPGLEVYEQFKENGAYVDYYDPYANSFVDKQGGTIRSVEYDLAKFSRYDCIVLITNHSNLDYHSIASAGVPILDTRNAFKAYAEPHIYKIGHSVQHVPEPGEAVLI	PGPT0018920_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0018920-wbpA-K13015	NA	NA
AK002_02120	927			hypothetical protein	ATGAAATGGACGAGAAGACTGAGGCATATCGATGCAAAAGCGAAGTGGATCATCCTGGCTGCCGGCATCTGTCTTTTGCTGCTGATCCTTATTCTTCTTCCGTCAGGCAAGGTGAATCAAAACAAAGCTACCTGGCTGTGGGATGCAAGTCTGATCCGGAGTGAAACGGAGGAGATTGTAGCCTTTAGCCGCAGGGAAGGCATTACAACGATCTTTTTGCAAATTCAACAAGAGGTTACGGACGAGGAGTACCGCCATTTCGTGGCTGCGGCACATCGGCAGGGCATCAGCGTCCATGCTTTGAACGGCCACCCCGACTGGGCTTATGAGGAAGGCCGGCAAAAAGGGATGGACCTGCTGGCCTGGCTGGAAGAGTACAACCAGGCTTCCGCCCCCGAGGAGAAATTCGAGGGCGTGCAGTTCGATGTGGAGCCTTACGTGCTTCGCAGGTGGGATCGCGAACAGGAACAGGTGGTGGAAGAATGGAGCGCCAACACGGAAGTCTGGGTCCAGGAGGCCAAGCGTCAGGGTCTCCCGTTCAGTGCCGCGGTTCCGTTCTGGCTTGATTCGATACCTGGACCGAGCCGAGCGGATACCGATTCGTTCAGCCGCTGGATGATCCAAAATACGGATGCGATTGCCGTTATGGCATACCGCGACAGCGGGGAGCAGATGTATGAATTGTCCAAGGAGGAGCTGGAGCAGGCCGACGAACTCGGCAAATCCGTGTGGATCGGCATGGAGCTCGGGGATACGGACGAAGGCGAGCATTTGACCTTTTATTCCAAGAGCGAGCAGGAGATGGAGGATGAAGCCCTGCGCGCCGCCAAGCTTGGCAGCGACCATTCCTCCTTCGCGGGATTGGCCGTCCATCATTATCAGGCCTGGGTCCACAAACGAACCGCGATGGGCGGGGAAGAGCGGTGA	MKWTRRLRHIDAKAKWIILAAGICLLLLILILLPSGKVNQNKATWLWDASLIRSETEEIVAFSRREGITTIFLQIQQEVTDEEYRHFVAAAHRQGISVHALNGHPDWAYEEGRQKGMDLLAWLEEYNQASAPEEKFEGVQFDVEPYVLRRWDREQEQVVEEWSANTEVWVQEAKRQGLPFSAAVPFWLDSIPGPSRADTDSFSRWMIQNTDAIAVMAYRDSGEQMYELSKEELEQADELGKSVWIGMELGDTDEGEHLTFYSKSEQEMEDEALRAAKLGSDHSSFAGLAVHHYQAWVHKRTAMGGEER				NA	NA	NA	NA	NA
AK002_02121	1467			hypothetical protein	ATGAAGAGAGTTTCTAGTAGTAACCGAGTGTTTTGCATGTTTACCCGAATGACCGCTTTGCTGGCGATCCTGGCGTTGATGGGCGGCTGCGGTTTTTTTGGCGGTAAAGCAGCCTCCAGCGATGAGGCGGGAGGTCCGATAGCGCCTGCTCAAAAGGTGGAGCGGTATACGGGGGAGAAGAGCAGGGAAATTCCGTACGTGTACACGGCCAGGAAGGAATTGGCGCTTACCTTTAACGGCATGGGCGATAAAGCCACCATGACGGCACTGATCGATGAATTGGAAACATACGGAATCAAGGCGACCTTCTTTCTTCCGGGCATCCGAGTGGCGGAGGAGCCGGACATTGCGGGCGCGATCTTGGCCGGAGGCCATGAAATCGAGAACAATACGCTCAATCAGCTGGATATGAACAAGCTGGATTACGATCAGATCTATAAGGAGATCAAGCTGGCAAACGACGTTATTGAACGGGAGACCGGCGCCCAGCCCCGTTATGTCCGGACGCGTTCGGGCGATTACCCGGAAGATGTGCCGCTGGCGGCAGCGCATCTTGGAATGAAGGCTGTTGTCAGCTATAACATCAATCCGAAGGACCGCGATATGCAGAGTGCCGAAGCTATCGGAGAATACGTGGCGAGGTTCGTCTCCAGAGGGGGCATCATCTCCATGAACACCGACGTCAATCCGGAAGTGGTCTCTTCCATAAAATACATTGCCAAGGCCGTGGACGATATCGGATATCGGCTGGTTACGCTGGATGAGCTGGTGCAGAACGGGGGCGAGCGAAAGCCGCTCGAGCAAATTCCGGGATATGACGCAGCCCGCATCAATCCGGATTATCAACGGGCGAAGTATGAGCTGGTTTATCAAGTCGATACCGACAAAAAAGAAGTCGCCCTGACGTTTGACGATTTCGGAAGCGACAAAACGGTGACCCGCATACTCGATATTTTGGCCGAGCATGATGTCAAAGCGACCTTCTTCCTGCGGGCCAAAGGCGTGGAAAGCAATCCGAATTTGGCGCGGGCGATGGTGGAGGGCGGGCATGACGTGGCCAACCATTCCTACAGCCATCCCGTCGTTACATCGCTGACGCCCGAAGAGCTTCAGCAGGATGTCGTCAAGGCGCATCAGGTCATTACCGAAGCCATCCAGCAGCAGCCTGTCATGCTGTTTCGTCCGCCGACCGGCGTGGTCGACGATAAACGGGCCAAAGCGTTGGCGGCAGTCGGTTACCCGGTGATTGCCATGTACGACGTGACGACGCTGGATTGGGACATTTCCAATAGTGCCGACGATATTGTGAACGGGGTTATGACCAAGACGCGGCCGGGAAGCGTCATCTTGCTGCATATGCTGGATGACATTCATACCATTGAGGCGCTGCCCCGCGTGCTGGAAGGCCTCAAGGATAAGGGATACACGTTTGTAAAAATGGCGGACATGATGCAGTTGCAGGACTAG	MKRVSSSNRVFCMFTRMTALLAILALMGGCGFFGGKAASSDEAGGPIAPAQKVERYTGEKSREIPYVYTARKELALTFNGMGDKATMTALIDELETYGIKATFFLPGIRVAEEPDIAGAILAGGHEIENNTLNQLDMNKLDYDQIYKEIKLANDVIERETGAQPRYVRTRSGDYPEDVPLAAAHLGMKAVVSYNINPKDRDMQSAEAIGEYVARFVSRGGIISMNTDVNPEVVSSIKYIAKAVDDIGYRLVTLDELVQNGGERKPLEQIPGYDAARINPDYQRAKYELVYQVDTDKKEVALTFDDFGSDKTVTRILDILAEHDVKATFFLRAKGVESNPNLARAMVEGGHDVANHSYSHPVVTSLTPEELQQDVVKAHQVITEAIQQQPVMLFRPPTGVVDDKRAKALAAVGYPVIAMYDVTTLDWDISNSADDIVNGVMTKTRPGSVILLHMLDDIHTIEALPRVLEGLKDKGYTFVKMADMMQLQD	PGPT0018645_328	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_02122	1314	wbpA_3	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGGAATTATTTGAAAACATGCTGGACCGCGTGGATAAATTGGCGGTCGTCGGACTGGGTTATGTCGGACTGCCGCTGGCGGTCGCGTTCTCGAAAAGGCTGGATGTCATCGGCTTTGATCTGAGCGAGGCGAAGGTGTCTCAGTATCGCAGCGGATTCGATGCTACCGGTGAGATCGGAGATGCTTTGCTTGCGGGCAGTGCGGCCGATTTCACCTCGGATCCGGACAAGCTGAAGGAGGCTAGCTGCTTTATCGTGGCCGTTCCGACACCCGTAAAAAGCGGCAATGTGCCGGACCTGAAATTCGTGCGGAATGCCAGCCGCTTGGTCGGCCGCGCCTTGAAGCGGGGAGCGGTGGTTGTCTATGAGTCAACGGTCTATCCGGGGGTTACGGAGGAAGTCTGCATTCCGATTCTCGAAGAGGAGTCGGGCCTGCGCCTGGGCGAGGATTTCAAGGTGGGGTATTCCCCGGAACGGATTAACCCCGGAGACCAGGTCCACCGGCTGGAGACCATCGTGAAAATCGTATCCGGCAATGATCCGGAGGCGCTGGAGACGGTTGCCAGACTGTATGAGCTGATTATCGAGGCAGGCGTTCACCGGGCGGAAACCATTAGGGTGGCGGAAGCGGCAAAGGTCATCGAGAACGCACAGCGCGACATTAACATTGCCTTTATGAACGAGCTTTCGATGCTGTTCAACCAGATGGACATCGATACGAATGCCGTGCTGCGCGCAGCGGGAACGAAATGGAACTTCCTCCCGTTCCGCCCGGGTCTCGTCGGCGGGCATTGCATCGGAATCGACCCGTATTATCTGACGTATAAGGCCGAGGATACGGGGTATCATTCCAAGATTATTTTGGCAGGACGGCATATCAATGACGGAATGGGAAAATACGTCGCCCAGCACGTCATTAAACTTGCGATTCGCCAAGGGATAGATCTGATGAAGGCGAAGGTGGCCGTCATGGGCCTTTCGTTCAAGGAGGATTGCCGGGATATCCGCAATTCCAAGGTCATCGATATTATTCGGGAGCTGCAGGATTACGGGATCCGGCCGATGGTGGCTGACCCGCACGTAGACCCGAAGCAGGCTTATGAGGAATACGGCATCGAGCTGTCGGACATGAGCGAGCTGAACGGAATCCAGATTGCGGTTGTGGCGGTCGCTCACCGGGAGTTCAAGCAGCTCGGGATTGCGGCATTCAAGGACATGTTCAGTTCTGAACAGGCGAAGCTTCTGATCGACGTGAAGGGAGCTTATCCAAAAACCGAATGCGAAGCCCATGGCTTTCATTATTGGAGTTTGTAA	MELFENMLDRVDKLAVVGLGYVGLPLAVAFSKRLDVIGFDLSEAKVSQYRSGFDATGEIGDALLAGSAADFTSDPDKLKEASCFIVAVPTPVKSGNVPDLKFVRNASRLVGRALKRGAVVVYESTVYPGVTEEVCIPILEEESGLRLGEDFKVGYSPERINPGDQVHRLETIVKIVSGNDPEALETVARLYELIIEAGVHRAETIRVAEAAKVIENAQRDINIAFMNELSMLFNQMDIDTNAVLRAAGTKWNFLPFRPGLVGGHCIGIDPYYLTYKAEDTGYHSKIILAGRHINDGMGKYVAQHVIKLAIRQGIDLMKAKVAVMGLSFKEDCRDIRNSKVIDIIRELQDYGIRPMVADPHVDPKQAYEEYGIELSDMSELNGIQIAVVAVAHREFKQLGIAAFKDMFSSEQAKLLIDVKGAYPKTECEAHGFHYWSL	PGPT0018915_200	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
AK002_02123	1872	arnC		Undecaprenyl-phosphate 4-deoxy-4-formamido-L-arabinose transferase	ATGAGGATTATAAAAAGAAAGCAACCGAAGAGCACCAAGGAAGTTCTAACGCTTCCGCGCACGGACAGACGGACTCTTTCCTATGTGCCCGATCCGGAGCAGATCCGGATGAATGCGGACCGAAGAGGCAACCGGGCGCAGAAGCCCGGGGAGGATTTGTCCAGCTCTGACTACGTCAACAAGCTGCGGATGCTCAGCCTGCGTTACGAGGCGGATTTTGAAGTTTTGCTTGTCCCGAACGGGAAAAAGAAAAAAGCCGGGATTAAGGGCGTGGCTGCCGATATTTCGGCCACGGGCCTTCTGCTCAGGCTGCCGGAAGCCTCTTCAAGCCTCGAAGTCGGCGACAAAGTGAAGGCACGATTCCGCATCCCGCCGGGGGCTATGCCCGAGGGCTTCGAATCGGCCGTCAGGATCGATGCAGCCGTTGTTCGCAGAGCCTCGAATTCGACCGAAGCCGGCGAAGAGCATCTGCTTGCCTTGGAGTTCGAGAAACCGCTCACGGATTATTTTCAGCGCAAACGGTGGGGGTATTCCGTATATTCCGCCAGCGCCTTGCTGTTCATGGCGGTGCTCTTCATCATGCTGATGCGGGCGGAGAGCATCATTTATTTCAAATACAACATGGTGCTGTATTTGTACAGCCTGATCGCGGCCCTGTTTCTGCTGACGCGCTACCTGTTCGGAGCATTGTACCGCGATGTGCCGATCAATCCGGATTATACGCCGGGAGTATCCATTATCATCCCCTGTTTCAATGAAGCGGAATGGATCAAACGCACGATACTCAGCTGCATGAACCAGGACTATCCCGTAGACAAGCTGGAGGTCATTGTGGTGGATGACCGATCGACGGACCAGTCGGTACAGCAGATCCAAGACATGATCGAGTTGATTCATTCCGAGGCGGAGCGTTACGCTACCCGGGAGCGCTTGTCCTATATGGTGCTGCCCGAGAATGCGGGCAAACGGGCCGCTCTGGTCAAAGGCGTCGAGATGGCCAAGCATGATTTGGTGGTCTTCGTGGATTCGGACAGCTTCCTGGATCCGACGGCGATTCGTCACCTCGTCCAGCCCTTTCAGGATCCCAAGATGGGCGGCGTTGCCGGAAGGACGGACGTCGAGAACAAATATACCAATAACATGACGAAGCTGCAGACCGTCCGTTATTATATCGCCTTTCGGATCATGAAAGCGGCAGAGTCCTGGTTTGACAGCGTGACCTGCCTGTCGGGTCCCTTATCCTGCTATCGGAAAGAGCTGATCGTGCAGCATGCGGACGCTTGGCTGAACCAGAAGTTTCTGGGCAGGCCCGCCACCTTCGGAGACGACCGGAGCATGACGAACTTTATTTTGAAAACGCATCGTACCGCTTACCAGGATTCTGCCATTTGCTCGACGATCGTGCCTTCGCAGATGAAGGTGTTTCTGAAGCAGCAGATGCGGTGGAAGCGCTCCTGGCTGCGCGAATCGCTGCGGGCTGGAAGTTTCATATGGCGCAAAGAGCCGTTTATGGCGTTGTTTTTTTACATAGGCCTGATCGTGCCGATTGCCGCGCCTGTCGTGGTTGCCTACAACCTCATGTACGTGCCGATCGTTCACGGCATTTTCCCGGGGACCTTCCTGATGGGATTGCTGCTGATGGCGCTGCTGATGAGCCTGGCCCACCTGCTGTTCCGGAAGAGCAGATTATGGGTGTTCGGCTTCGTATTCTGCCTCTTCTATGAATTCGTCCTGTTATGGCAGATGCCGGTGGCTTGGTTTACCTTCTGGAAATCGACGTGGGGGACGCGGGAAACGCCGCAGGATATCGAAGCCAGGGAGAAGAAGGAAGCCCGCAAGCGCAAAGGCAAAAAATTCGGATTACCGTTCTGA	MRIIKRKQPKSTKEVLTLPRTDRRTLSYVPDPEQIRMNADRRGNRAQKPGEDLSSSDYVNKLRMLSLRYEADFEVLLVPNGKKKKAGIKGVAADISATGLLLRLPEASSSLEVGDKVKARFRIPPGAMPEGFESAVRIDAAVVRRASNSTEAGEEHLLALEFEKPLTDYFQRKRWGYSVYSASALLFMAVLFIMLMRAESIIYFKYNMVLYLYSLIAALFLLTRYLFGALYRDVPINPDYTPGVSIIIPCFNEAEWIKRTILSCMNQDYPVDKLEVIVVDDRSTDQSVQQIQDMIELIHSEAERYATRERLSYMVLPENAGKRAALVKGVEMAKHDLVVFVDSDSFLDPTAIRHLVQPFQDPKMGGVAGRTDVENKYTNNMTKLQTVRYYIAFRIMKAAESWFDSVTCLSGPLSCYRKELIVQHADAWLNQKFLGRPATFGDDRSMTNFILKTHRTAYQDSAICSTIVPSQMKVFLKQQMRWKRSWLRESLRAGSFIWRKEPFMALFFYIGLIVPIAAPVVVAYNLMYVPIVHGIFPGTFLMGLLLMALLMSLAHLLFRKSRLWVFGFVFCLFYEFVLLWQMPVAWFTFWKSTWGTRETPQDIEAREKKEARKRKGKKFGLPF				NA	NA	NA	NA	NA
AK002_02124	1758			hypothetical protein	ATGGCTAAAAAACAAAAAACAGCCCTCAATGTTCGGCGAAAAAATCGCAGGAAAATCATCAAAGTAACGGCACAGGTCATGGTATTGGCCGTTGCAGCCGTCCTGTTGGCCAATGCGATTTTCGATTTTCGAACATATAAGGAGCCGGACAGATCCGCCTGGCGTCAGGATCAGGGCTTTATTGCCCTGTCCTATTTCGGGGTCGGCCGCTCCGGGACGTCCAAGCTCGTATCCAAGGCCCAGCTGGATTCCCAGCTGAAGGCCTTATACGAACAGGGCTATACGACGATTTCGCAGCAGGATATCATCGATTATTACAGCCATGGCAAGAAGCTGCCCGACAAGGCGCTGTACCTGTCCTTTGAAGACGGGCGGAATGATTCCGCGCTGTTCGCGCAGCCGCTGCTTGAAAAATATAATTATAAGGCTACCTTTCTGTCCTATGCCAATAAAATGGGCAACAGCGAACGGAAATTTCTGCAGCCGAAGGACATGCTGAAGATGACCCGCACCGGGTATTGGGAGCTTGGGACTAACGGCAACCGGCTGACCTATATCAATATTTTCGATGATGAGGGCCGTTATGTCGGCGTTAAAGACGAGCGTGAGCTGACGGTCAAATCCAACGTGGAATATTACAACCACTATTTGATGGATTTCATCCGCGACGAGAACATGATTCCGCTCGAGAACCGCGCCGAGATGGAAGAACGGATCCGGGCCGACTATGCGGCAATGGACAAGGTTTACACGGAATCGCTCGGTTACGTTCCGATCACGTATATGATCATGCACGCCAATGCGCTCGGCGGAGGAATGAATCAGCTTGTGGCGAATGCCAATACGGATCAGATTCGGAAGCTGTTCGGGATGAATTTCAACCGGGAAGGCGTTGCCTTCAATTCGAAGGATAGCGATCTGTATAATCTGACCCGGGTCCAGCCCGCGCCGTATTGGTCTACCAATCACCTGTTAATGAAGCTGCGTAAGGACCAAGGGCAGCCTATGCAGTTTGTACGGGGCGACACGGAGCAGGCTGACAAGTGGGAGCTGCTTGGCGGAGCGGCAGAATTTACGGATAACCGGATGGTGGTCACATCGCCCCCGTCCCAGGCAGGAAGCGTGTATTTGAAGGGCAGCGGGGAGCAAGACGTCACCGTCTCGGCCAAAGCGCTCGGCAATGTGGTGGGACGGCAGTCGGTTTATGTCCGTTACGACCGGACGAAGGGTTCTTATATCAGGCTTCTGCTGGAGAACAACCACGTGGTGGTGGAACAGAAGGTAGCGGGCCAAGCTCCCGAGGAGCTGTTCTCGTACGCCTTGCCGAAGGTAGCATGGGGCGAAGAGGATCTGCAATTCGATAAGGCTTCGGTCTATACAAAGGAGCAGACGCTGTCCGGAGACCGGGATGATGAGAATGAGTACCCTGTCAACATAATCGGAAATCGGTGGCTGGAGATTTCGGTGAAAGGCGATGCCCTGTCCGTGAGCGTTGATCGGCAGTTGCTTCTGGACCGGCAGCCTGTGGATGCATCGATCGGCGCAGGAGGCGTGGCGCTTGAATCGGAGTATCATGAGCAGAACGAAAAGGATGATATTTACGACGCCGTCTTCGAAGATGTCACGATTGTGTCGGAGCCACCGGGTGCCGAACGTAAGCTGCTGTTCACGAACAAGCCGTCCGGGCTTGCCGGTGTCCTGACCGGCGTACAGCGAAGCATGAACCGCGCGGTCGACTGGGCTGTCGAGACTTTCTAA	MAKKQKTALNVRRKNRRKIIKVTAQVMVLAVAAVLLANAIFDFRTYKEPDRSAWRQDQGFIALSYFGVGRSGTSKLVSKAQLDSQLKALYEQGYTTISQQDIIDYYSHGKKLPDKALYLSFEDGRNDSALFAQPLLEKYNYKATFLSYANKMGNSERKFLQPKDMLKMTRTGYWELGTNGNRLTYINIFDDEGRYVGVKDERELTVKSNVEYYNHYLMDFIRDENMIPLENRAEMEERIRADYAAMDKVYTESLGYVPITYMIMHANALGGGMNQLVANANTDQIRKLFGMNFNREGVAFNSKDSDLYNLTRVQPAPYWSTNHLLMKLRKDQGQPMQFVRGDTEQADKWELLGGAAEFTDNRMVVTSPPSQAGSVYLKGSGEQDVTVSAKALGNVVGRQSVYVRYDRTKGSYIRLLLENNHVVVEQKVAGQAPEELFSYALPKVAWGEEDLQFDKASVYTKEQTLSGDRDDENEYPVNIIGNRWLEISVKGDALSVSVDRQLLLDRQPVDASIGAGGVALESEYHEQNEKDDIYDAVFEDVTIVSEPPGAERKLLFTNKPSGLAGVLTGVQRSMNRAVDWAVETF	PGPT0023480_430	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023480-pgaB-K11931	NA	NA
AK002_02125	984			hypothetical protein	ATGCTGCCTCAGCCGCTGCAGGCGCAAGTCAAGCTGTCTGCCTGGATTACGGATTGGCAGTGGGAGACGGGCATGACAGATTGGAAGCAGCTGGGTGGTGAGCTTGAAGAAATCAAGCTGTTTGCAGCCTATTTCAATCATAAAGACGAGCTTTACTTGACGTCGGATTTTCGGGAGGGGCTGCCAGCGTTCCTGGAGGCGTCCAAGGAAGGGGAGGCGGCTCGCGCAGTCCTGACGATCGTCAACGATCGTTTCCATCCCGATGGAACGGCCAAACAGAAGGATCCGGACCTGATATCCCGGCTCGTCGCTACTCCCGAAAGCCGCAGCCAACATATCAGGCAGATTTTGGACATGGCATCCCAGCACGGCTTCGACGGCGTGGAATTGGATTACGAGAAAGTCCGCAAGGAGGATGGGGCCAACCTCTCCGCACTGTACGAGGAGCTGTATGAGCGTCTCCGGGCGGAAGGCCTCTCGCTTCGAATCGTGCTGGAGCCGGGCGTATCCCTGTCATCGCTTAAGCTGCCGGAGGGGCCGGATTATGTCCTGATGGCATACAACCTGTACGGGGGGCATAGCGGACCCGGACCGAAGGCGGATTATGCCATGATCAAGGAGCTGGGGGGCAAACTGCGGCAGCTGCCGGGAGACCATGCCATCGCGCTGTCGGTTGGCGGGTTTGACTGGGCGGAGAATGGCAAGGCGGTCTCTTTAACGGAGAAGCGTGCGGTAGAGCTGGAGCGTGCCAGCCCGGACGAACCGAAGCGGGATCCGGACAGCGGGGCACTGCACTTCAAGTACACGGACGACGAAGGCATCGGGCATACCGTATGGTATGCGGACGGAACGACCCTTGCCGGATGGATGGATGCGGCGGGGGAGGCGGGCATTTCGAAGATTGCGATCTGGCGGCTCGGCGAAATGGAAGCAAATTCACTGCAGAAGTTGAGCGAGTTTCGACAGCAATCCCATCATGAATGA	MLPQPLQAQVKLSAWITDWQWETGMTDWKQLGGELEEIKLFAAYFNHKDELYLTSDFREGLPAFLEASKEGEAARAVLTIVNDRFHPDGTAKQKDPDLISRLVATPESRSQHIRQILDMASQHGFDGVELDYEKVRKEDGANLSALYEELYERLRAEGLSLRIVLEPGVSLSSLKLPEGPDYVLMAYNLYGGHSGPGPKADYAMIKELGGKLRQLPGDHAIALSVGGFDWAENGKAVSLTEKRAVELERASPDEPKRDPDSGALHFKYTDDEGIGHTVWYADGTTLAGWMDAAGEAGISKIAIWRLGEMEANSLQKLSEFRQQSHHE	PGPT0025110_561	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
AK002_02126	2148			hypothetical protein	ATGAAGAATATCTTCCATATATATTCTGCCGATATCCGTAGAATCGTCCGCAATTGGGCTGCAGCCGTCATCATCGGGGGTCTTGCCCTCCTACCTTCTCTATATGCCTGGTTTAACATCGAAGCTTCCTGGGATCCCTACGGCCAAACCTCAGGTGTATCGATTGCCGTTGCCAACCTGGATAAAGGCACCACCCTTCGCGACCAGCCCATTAACCTGGGCAAAGAAATCGTAGAGTCCCTGCATCACAATGAGAAGCTGGGGTGGCGGTTTACGGAGGACAGCGAGAATGCGATACAGGGGGTGCGGCGCGGCACCGATTATGCCGCTATCGTCATTCCGGAGAACTTCTCCGCCCGGATCGGCACCGTGCTGACCAATGAGCCCGTCAAGGCTCAGATCCTCTATTACACGAACGAGAAAATCAACGCCATTTCGCCCAAGGTGACAGCCCAGGGGGCATCTGCCGTCGTGGAGGAAGTCAGCAAAAATTTCATCAAAACCGCCAACGGCACCATCTTCGAGATTTTCAACACGCTCGGGATCGAGATCGAGAACCAGCTCCCTGCGATCAACAAAGTACGAAGCTTGCTGTTCCGGCTCGAAAAAAGCTTTCCCGAGCTCAACGAGGCGGTGAGCACGGCCCAGCAGGATATCAAGCTGGCCAACCGGTTGGTTGAGCAGGCCAATGCCGCTCTGCCCCGCCTTGAAGGGATTGCCACGGACGGCAAGGAAATGGCCGGTGCGCTGGCGGAGTTCGCAAATCAGGCCGCAGGGGCCTCAAAATCGCTGGAGCCTGCGCTGCGGCAGGACTTGGAGGTGCTGGGTGCAGCCACCGGAGCGCTTTCGCAAGTGCTGGACGCGCTAGGGCAAAAAGGCATCGACCCGAAGGAGCTGGCCAGCCGCCTGAACGCTGCGAAGGAGCGCGCTGAGACCGCAGCGCAAGCTGCGGCCCGGCTGGGGCAATTGTTCAAGCGGCTGGGCTCGATCTCCCCGGCGGCGGCTTCCGCGGCGGCTAAGCTCGAGGACATTGCCGCACGATGGACCTCGGCTCAAGCCGTGCTCCAAACCATCGCCCAAGCCGTGGAACGGGGGGAGGAAGCACCTGCGGATTCCATCGACAAGCTGAAGAAGCTGACCGATGACATGACGGGGCTGACCGACGCGCTGCTAAGCCGGTACGACAGCGAAATCGGCCCGGCGATAAGCAAGGCCTTCACCAAGGGCGCAGGTACGGCCAAGCGCGTTCAGAAGGAATTGACCCAGGCGCTTGCCGGCGTCCCCGACATCCAGCGTTTGCTCCAAGATGCCCGAAAAGGGCTCAAAGTGGGAGGCGAAGAAGTGCAGCTCGCCCAAAATCGTCTGCCGGAGGCGGAGCTTCGGATTACGCAGCTGGCCAACCGGCTGCGCGAGATGGAAGCGGAAGGGGATATTCAAGAGATCATCGATCTTCTCCAAAACAATTTCGAGCTCGAGAGCCAGTTTTTTGCCGAGCCGGTTACGCTGGAAGAGAATCGCCTGTACCCCATCCCGAACTACGGCTCCGCGATGTCGCCCTTCTTCACGACCTTGTCCTTGTGGGTAGGCGCACTGCTGCTCGTTTCCCTGCTCTCCGTTGACGTACATGATGAGGAGAGAAGCTTCCGCAGCTTCGAGGTTTACTTCGGACGCTATCTCACCTTTCTGACCATTGCCCTGTTCCAGGCGCTGTTCGTTACCCTGGGCGATATTTATTTGCTGGGAACCTATGTGGTGAACCCCGGCTGGTTCATTCTGTTTGCGCTGCTGATCAGCTGCGTTTTCATGCTGATCGTCTACACGCTGGTGTCCGTATTCGGCAATGTCGGAAAAGCGATGGCGATCGTTCTGCTCGTGCTGCAGCTGGCGGGCGCTGGCGGGACCTTTCCGATCCAGATGACGCCGCCGTTCTTCCAGGCATTGCATCCGTATTTGCCGTTCACCTATGCCATCAGCATGATGCGGGAAGCCGTCGGCGGCATCCTGTGGGATATCGTCATCCGCGATATGCTGCTCATGCTGGTCTTCGCGGCGATCGCGCTTGTGATCGGGATCGCGCTCAAGAAGCCGATCAACCGGGCCAGCAGCGGGCTGATCCGCAAAGCGAGAGCTTCGAAGCTCATTCATTGA	MKNIFHIYSADIRRIVRNWAAAVIIGGLALLPSLYAWFNIEASWDPYGQTSGVSIAVANLDKGTTLRDQPINLGKEIVESLHHNEKLGWRFTEDSENAIQGVRRGTDYAAIVIPENFSARIGTVLTNEPVKAQILYYTNEKINAISPKVTAQGASAVVEEVSKNFIKTANGTIFEIFNTLGIEIENQLPAINKVRSLLFRLEKSFPELNEAVSTAQQDIKLANRLVEQANAALPRLEGIATDGKEMAGALAEFANQAAGASKSLEPALRQDLEVLGAATGALSQVLDALGQKGIDPKELASRLNAAKERAETAAQAAARLGQLFKRLGSISPAAASAAAKLEDIAARWTSAQAVLQTIAQAVERGEEAPADSIDKLKKLTDDMTGLTDALLSRYDSEIGPAISKAFTKGAGTAKRVQKELTQALAGVPDIQRLLQDARKGLKVGGEEVQLAQNRLPEAELRITQLANRLREMEAEGDIQEIIDLLQNNFELESQFFAEPVTLEENRLYPIPNYGSAMSPFFTTLSLWVGALLLVSLLSVDVHDEERSFRSFEVYFGRYLTFLTIALFQALFVTLGDIYLLGTYVVNPGWFILFALLISCVFMLIVYTLVSVFGNVGKAMAIVLLVLQLAGAGGTFPIQMTPPFFQALHPYLPFTYAISMMREAVGGILWDIVIRDMLLMLVFAAIALVIGIALKKPINRASSGLIRKARASKLIH				NA	NA	NA	NA	NA
AK002_02127	444			hypothetical protein	ATGTATACAATAGAACATGCGTTCTTATATTTTTTCATGTTCGGGGATGTGTCTCTTATGATGAAACCTTCCACTCCTCCTCCGCCTTCGGTCGAAGACGAAGCCCTGGTCAAGGATTATCTGCTGCATGACCTGCTTCAGTCTGTTCTCGAACGGGATATTGGAATCCTCAAGACCCTCAAGCTCAAAATGGCCGATATCTATATTTTAAATCTGCAGTATCTCCAAAAAAGGATTTCGGCACACGCCTGGTCCATTCAACAGCAGATGAAGCGGCGCGGCATCCGGATTCAAAGTCAGGGCCGTACCCCCGAGGAAGGGCTGCAGGTGCATTATCTGTGCCGCGGGTATGAAGGCAGCCTGCTCTGCGATCGGCCCTCTCTTAAGGAAGAGATAAAGGCTCGGCTCGTTTCGTATCTTGGCACGGATTTGGCGGCATACTAG	MYTIEHAFLYFFMFGDVSLMMKPSTPPPPSVEDEALVKDYLLHDLLQSVLERDIGILKTLKLKMADIYILNLQYLQKRISAHAWSIQQQMKRRGIRIQSQGRTPEEGLQVHYLCRGYEGSLLCDRPSLKEEIKARLVSYLGTDLAAY				NA	NA	NA	NA	NA
AK002_02128	510	glxR	COG0664	CRP-like cAMP-activated global transcriptional regulator	ATGATACTGCATAAAGGCGAAATATTGTTCCGGCAAGGGGATAGCGGGGATCATTTATATCACATTCGGAGCGGATTGTTTAAGGTGACCCGTCTGCATGCCAATGGCAATATGGTGCTTTTCAATATTCTATATCCAGGCGAAACGGTACCCCATCACTCGCTGATCAGCCCGAAGGAAACGCATGGAACCGCGATCGCGCTGATTCAGAGCGAAGTGGATGTGATATCGGCTGAAGCTTGGTATCGACAGCTTGAGGAGGATCCGCAAAAACCGCTCGAGGTTGCCAGATTGCTGCAGGAAAAGGTGAGGTTCATGCAGATGAGGCTGGATCACTTAACCGTGGGCGGCCCGGCGGAGCGGCTGGAGCTGCTGATTCAGTGGCTGGATGAGTATTCCCAAGGGATACATCTGACCGAATATTTGACTCAGGAAGAGATCGGACAGCTGATCGGGGTAAGAAGAGAAACGGTAAACCGGCTGCTGAGGGAGCAGGGCAAGCACGTTTAG	MILHKGEILFRQGDSGDHLYHIRSGLFKVTRLHANGNMVLFNILYPGETVPHHSLISPKETHGTAIALIQSEVDVISAEAWYRQLEEDPQKPLEVARLLQEKVRFMQMRLDHLTVGGPAERLELLIQWLDEYSQGIHLTEYLTQEEIGQLIGVRRETVNRLLREQGKHV	PGPT0015075_4894	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
AK002_02129	1206	hmp	COG1017	Flavohemoprotein	ATGTTAAGCCAACGTACGATCGAGGTCGTTAAATCGACCGTGCCGGTTCTGGAAACCCACGGCACGGCAATCACAAGCGCATTTTATCAAAAATTGTTTCATCATCATCCGGAACTTCTTAACATATTCAACCATGCGAATCAAAGGGAAGGAAAACAGCCCTTTGCCCTAGCCAATGCCGTATACGCAGCTGCGGCCCATATCGACCGTCTTGAAGCCATCGTCCCGGTTGTTAAACAAATCGGACACAAGCACCGGGCATTAAACATCTTGCCGGAACACTATCCGATCGTCGGCGAAACGCTGCTCGGCGCCATGAAGGATGTGCTTGGCGATGCCGCAACGCCCGAAATTATCGAGGCTTGGGCCGAAGCTTATGGCGTCATTGCCGATGTCTTTATCGGCATCGAGGCGGATATGTACCAGCAAGCCGCAAACAAAGCCGGCGGCTGGAGCGGATACCGTAATTTCGTCATTGACCGGAAGGTGGAGGAAAGCTCCGTCATTACTTCCTTTTATCTGGTACCGCAGGACGGCGGGGAAATTTCCGATTATCTACCCGGCCAATACATCACGCTCCGGGTAAAACCTGAGGGCGAAGCCTATTATCATAATCGTCATTACAGCCTCTCTTCCGCACCCGGACATCCTTACTACAGAATTACGGTGAAACGCGAAGACGAGCTGGATGGAAAGCCTGCCGGCATCGTCTCCAACTGGCTGCACCGTCATGCAGAGGTCGGGACCGTTCTCGAGGTCACGGCTCCGGCCGGTACCTTTACGCTGGATACGGACTCCGATCTTCCGCTTGCCTTGATCAGCGGCGGCGTCGGTTTGACTCCGATGGTGGCTATGCTGGAATGCGTGCTGCTGAATCAGCCTGACCGGAAAGTAACCTTTATCCATGCGGCGAAATGCGGCAGTCAGCATGCAATGAAGCTGCATATCGATGAACTCGCCTCGAAGCATCCGCAGCTAAGCACGTACGTCATTTATGAACAGCCGGAAACGGAAGACACTTGCCACCAAACCGGCTACATCGATCTGGAGTTCCTTCGCAAAACGGTCGATCCGAAAGCCGACTTCTATTTCTGCGGGCCGGTTCCGTTCATGCGTGCCGTGAACGGCCATTTGAAAGCGATGGAGGTGCCTGCTGACCGGATCCACTATGAATTCTTTGGTCCGGCCGGTACGCTGGAAAGTTAA	MLSQRTIEVVKSTVPVLETHGTAITSAFYQKLFHHHPELLNIFNHANQREGKQPFALANAVYAAAAHIDRLEAIVPVVKQIGHKHRALNILPEHYPIVGETLLGAMKDVLGDAATPEIIEAWAEAYGVIADVFIGIEADMYQQAANKAGGWSGYRNFVIDRKVEESSVITSFYLVPQDGGEISDYLPGQYITLRVKPEGEAYYHNRHYSLSSAPGHPYYRITVKREDELDGKPAGIVSNWLHRHAEVGTVLEVTAPAGTFTLDTDSDLPLALISGGVGLTPMVAMLECVLLNQPDRKVTFIHAAKCGSQHAMKLHIDELASKHPQLSTYVIYEQPETEDTCHQTGYIDLEFLRKTVDPKADFYFCGPVPFMRAVNGHLKAMEVPADRIHYEFFGPAGTLES	PGPT0013000_760			NA	NA	NA	NA	NA
AK002_02130	693			hypothetical protein	ATGAGGAAAAGACAAAACACATTTATCACCATGTCGGCGATGTTGTTCGGAACGTTTTTAATGGCTTTTACGTATTATCACATTAATTTTCACAATCATTTGACCGAAGGCGGCTTTGTCGGCCTTGCGCTGCTTGGCAAATATGCGCTTGATATTCCGCCAGCATTGAGTATGGTCCTTATGGACATACCGGTACTGCTGATTGCCTTGTTCATCAAGGGTCGGAAATTCATATTCAATACCGTTGTTGCGGCGAGCATGTTTACCTTGTTCTACGCATTGATCGAGCGGTATTCAACGCTGGTTATCGATCTGAATCATAACTTGCTGGCAGCCGCGCTGCTGTCCGGATTATTGACGGGCTTTGGAGCCGGCATCGTGCTCCGCTATGGCGGGGCGACAGGCGGCGACGACGTAATCTCCGTGCTGTTCAGCGAGTGGAGCGGGCTTAAGGTAGGGACGGTGTTTTTCCTGATGGATGCCGTAGTACTGCTATTATCGCTATTTTATATGCCATTGGTTGAAACCTTATATACTATATTAGCCGTATCGATTGCCGGGCAAGTGATCACCATCACAGTGACGTACGGTACCGAGAAAGCGGAAAAGAAACCGGTTCGGAAGGCGGTCCGTGCCCCAAGCACTCCGGTTACTCCGAAAACAGCGCAGCATACCGTTAGCGGCCGTTCATAA	MRKRQNTFITMSAMLFGTFLMAFTYYHINFHNHLTEGGFVGLALLGKYALDIPPALSMVLMDIPVLLIALFIKGRKFIFNTVVAASMFTLFYALIERYSTLVIDLNHNLLAAALLSGLLTGFGAGIVLRYGGATGGDDVISVLFSEWSGLKVGTVFFLMDAVVLLLSLFYMPLVETLYTILAVSIAGQVITITVTYGTEKAEKKPVRKAVRAPSTPVTPKTAQHTVSGRS				NA	NA	NA	NA	NA
AK002_02131	183			hypothetical protein	ATGCCTTGGAGCAAAAATGATTATCCGCCATCCATGAAAAATCTGGAGCCGCGGGTGAGGAATAAAGCCGTGGAAATTGCCAATGCCTTGCTGGAGGAGGACTACGACGAGGGACGTGCCATCGCCATCGCCACCGCCAAGGCACAGGAGTGGGACGAGAACCACCCCAAGGACGAGAAGTAA	MPWSKNDYPPSMKNLEPRVRNKAVEIANALLEEDYDEGRAIAIATAKAQEWDENHPKDEK				NA	NA	NA	NA	NA
AK002_02132	966	msrA_2		Peptide methionine sulfoxide reductase MsrA	ATGAATAATCGTTCAACCCCAAGCGAATTGGCTACCTTTGCGGGAGGCTGCTTTTGGTGTATGGTCTCTCCCTTTGACGAGCTGCCGGGCATTCTGAAGGTCGTTTCCGGTTATACTGGCGGCCACAAGGAAAATCCGACCTATGAAGAGGTGTGCTCCGATACCACAGGCCATTATGAGGCCGTTCAAATCACCTATAACCCGGAAGTTTTCCCATATGAGAAGCTGCTCGAGCTTTTCTGGCAGCAAATCGATCCTACGGATGAGGGCGGACAATTCCATGACCGCGGGACATCCTACCGGACCGCTATTTTTTACCATACGGAGGAGCAGCGCGAGCTTGCGGAGCAATCCAAGCAGGCGGTGGCTGCCAGCGGACGTTTCGACGGACCGATCGTGACGCCGATCATCCCGGCGAGCACCTTCTATGAGGCCGAGGAATACCATCAGGATTACCACAAGAAAAATCCGGGCCATTACAAACGCTATCGCAAAGGCTCCGGTCGAGAGGATTTCATTGAACAGCACTGGTCGGAGCCGGTGGATACCGCCGAGCTTAAGCAGCGCCTGACGCCGATCCAATATGAAGTGACGCAGAACAACGCAACCGAACCCCCGTTCCACAATGAGTATTGGGACCATCATGGGGAAGGCATTTACGTCGATATCGTGTCCGGCGAGCCGCTCTTCAGTTCTACGGACAAATACGACGCCGGCTGCGGATGGCCAAGCTTCACCCGTCCGATTCGCGAATACAACATCAAGGAAAAAATGGATCTCACCCACATGATGGTCCGCACCGAGGTACGAAGCAAAAAAGGCGACTCTCACCTCGGCCATGTGTTCGACGACGGACCCGGACCGAACGGGCTCCGTTACTGCATCAATTCCGCTGCGCTCCGGTTTGTGCCGAAGGAAGAGATGCAGAAGGAAGGCTACGGCGAGTATTTGCAGCTGTTCGAATAA	MNNRSTPSELATFAGGCFWCMVSPFDELPGILKVVSGYTGGHKENPTYEEVCSDTTGHYEAVQITYNPEVFPYEKLLELFWQQIDPTDEGGQFHDRGTSYRTAIFYHTEEQRELAEQSKQAVAASGRFDGPIVTPIIPASTFYEAEEYHQDYHKKNPGHYKRYRKGSGREDFIEQHWSEPVDTAELKQRLTPIQYEVTQNNATEPPFHNEYWDHHGEGIYVDIVSGEPLFSSTDKYDAGCGWPSFTRPIREYNIKEKMDLTHMMVRTEVRSKKGDSHLGHVFDDGPGPNGLRYCINSAALRFVPKEEMQKEGYGEYLQLFE				NA	NA	NA	NA	NA
AK002_02133	612	ydjZ_1	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	ATGAAGAGATGGATCATCCCCATCCTATATGCGGCAGTACTGGCACTTGCTTTTTCATACAGGCATGATATCACGGAGTGGCTGGAGAGCGATCCCCCGCTCTTCCTCATGATCCTGCTGGCAGCCCTGCTTGCCTTATTTCCCATTGCCCCCTACAAAGTGGTCATCGCTATTCTCGGGTATGCATACGGCACCGTCTGGGCGGCCGCCATATCGTGGTTCGGAACGACGATCGCCGCCGTCATCCTGTATGCGGCTGTGCGGTCTTTATATCAGGAGTCCGGCAGACGGCTGCTTGGGAAATACACGGCCATACACAGGTTTACGAACGCGGTCGAACGGCGCCCCTTTCAGTCGATCCTGCTCGCCCGCCTGCTGCCCGTGATACCGCAAATGGCCGTCAATCTATATGCCGGCGTCGCCTCGATCCCATTCTGGACGTACACCGCCGCTTCCGCCATCGGCAAAATTCCAGCCATCCTCCTGTACGCCTGGCTTGGCAGCGGATTGGCCGATCATCCGGTCATCTTCGCGGCTGTTGCGGCAGGACTTATGCTGCTAACCGCTTTGTTCATGGCCGCTTTCCGGTGGTATAAGGGGAGAACGACATAA	MKRWIIPILYAAVLALAFSYRHDITEWLESDPPLFLMILLAALLALFPIAPYKVVIAILGYAYGTVWAAAISWFGTTIAAVILYAAVRSLYQESGRRLLGKYTAIHRFTNAVERRPFQSILLARLLPVIPQMAVNLYAGVASIPFWTYTAASAIGKIPAILLYAWLGSGLADHPVIFAAVAAGLMLLTALFMAAFRWYKGRTT				NA	NA	NA	NA	NA
AK002_02134	702			hypothetical protein	ATGGATTTGCTATCGATGGAATTTTGGACCGCGCTGCTGTCGATTGTCCTCATTGACCTCGTGCTGGCAGGCGATAATGCTATCGTTATCGGTCTCGCCGCTCGCAATGTCCAGAAAGAGGACCAGAAGAAGGTTATCCTGTGGGGAACCGTCGGTGCGATCATCATACGGATCGTAGCCACGCTGCTCGTTGTCCAGCTCTTGATGATCCCCGGCTTGCGCTTGATCGGCGGTATCGCGCTGCTGTGGATTGCCTACAAGCTGCTGGTCGATGAGAAGCAGCATGAAATTTCCGCGGGCAACCAAATGTGGGCTGCTATCCGTACGATCATCATCGCGGATGCCATGATGGGACTGGATAACGTTCTTGCCGTAGCAGGCGCTGCCGGTGAAAGCTTCATGCTGGTTATTGTCGGACTTGCGATTTCCGTTCCGATCATGGTGTGGGGCAGTACCATTATCCTGAAGCTGACGGATCGCTTCCCGATTATCATCACGATCGGCGCTGCGGTGTTAGCCTGGACCGCATCGAAGATGGTGGTGGAAGAGCCGATGATTCACGGCTGGTTCGCAAATGGCGTCGTGAAGTACGGGTTTGAGGTTATCGTCATTGCCATCGTCATCGGAATCGGAACCTGGATGAAGAAGAAGAATGAGCACAAAGCGAAGAGCAACCCGGTACAGGTAAAGATGGTTGACTAG	MDLLSMEFWTALLSIVLIDLVLAGDNAIVIGLAARNVQKEDQKKVILWGTVGAIIIRIVATLLVVQLLMIPGLRLIGGIALLWIAYKLLVDEKQHEISAGNQMWAAIRTIIIADAMMGLDNVLAVAGAAGESFMLVIVGLAISVPIMVWGSTIILKLTDRFPIIITIGAAVLAWTASKMVVEEPMIHGWFANGVVKYGFEVIVIAIVIGIGTWMKKKNEHKAKSNPVQVKMVD				NA	NA	NA	NA	NA
AK002_02135	315			hypothetical protein	ATGGAATCTGCGGGAAAGTCCGTAGAAGAACGGATAGCGGAATCGTACCGTCAGGATGAGGATATGATGATCCTCGTGTTTGCCCAGTGGTGTGTGAATCACGGTCTGGATCCGGCTGAGCTGTACCGTAAAGCCTATCCGGATCAGCCGGACAATGAGCGGTTGACGCGCGTGCTTGAATTGACGGTGCCCAAAGAAGAGGCTGGGGAAATACCGGATCAGACCCTGCTTGGCGTCCTGTCGATGTTCGGTAATGAAGACTTGGCTATCGTTGTTGCCGAGGCAGCGGCCACCCTTGGTCCTGACAAGAAGTAA	MESAGKSVEERIAESYRQDEDMMILVFAQWCVNHGLDPAELYRKAYPDQPDNERLTRVLELTVPKEEAGEIPDQTLLGVLSMFGNEDLAIVVAEAAATLGPDKK	PGPT0014312_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014312-yxiS-NA	NA	NA
AK002_02136	819	araC_5		Arabinose operon regulatory protein	ATGGATTCAAATCTTTCCAACCAAGTCGTAGCAGCGGATTTCTCATTTCATCGCAAACCTTTCAAGATGTCCCTGGCGGACGGTTTCGACACCTATTTGATGCGTTGGCAGACCGACGGCAAATGCCGCGCCAAAATCGACGGCAAGCTGTCGCTCGTCGAGGCAGGGGATCTGTTGATCTTCACGCCCGGACAGCCTTATGAACTTCGAATCGATGACGAATACAACGCATTGGGTGAATTGACCATCGAAAGCGGCGATTATCATATTTTTTTCAAAGGGCCTTGGGCGGACGCGTGGTGGAATTCCAAGAAACGCCCGACCAAAATCAGGGTGCCGCTGGAGGAGCGTTACCTGAGCCTGTTTCGGCAAATTCTGCTCGAGCAGCGGCGCGTATCGGATCCTTATCCCGAGATTTCGGATTATACCGTGCGGATTCTGTGCCTAGAGGTGGACCGCCTGTTATCGGAGCAGCCGTCAACAACCCCCAAGACGTATCTCGCCTACCGCATGAAGAACTACATTGAGGAGAATGCCTCCTCCATGTTCAAGCTGGAGGATGTCGCCGGCCATGTCGGCATCAGCGTTTCCCGGGCAGTCCATCTGTTCAAGGAAGCGTTCGGCACCACCATCATGCAGTACACCATGGACGTGCGACTGAGCATGGCAAAGGAACGGATCGTTTTCAGCCCCCTCTCCCTGGAGGATGTCGCCGAAACCTCCGGCTTTGCGAACTACACTTATTTTCACCGCGTTTTCCGTTCCCGATTCGGCGTTTCGCCTAAGCAATTCCGCATGTCCAGCCGAACCTCCAATTAA	MDSNLSNQVVAADFSFHRKPFKMSLADGFDTYLMRWQTDGKCRAKIDGKLSLVEAGDLLIFTPGQPYELRIDDEYNALGELTIESGDYHIFFKGPWADAWWNSKKRPTKIRVPLEERYLSLFRQILLEQRRVSDPYPEISDYTVRILCLEVDRLLSEQPSTTPKTYLAYRMKNYIEENASSMFKLEDVAGHVGISVSRAVHLFKEAFGTTIMQYTMDVRLSMAKERIVFSPLSLEDVAETSGFANYTYFHRVFRSRFGVSPKQFRMSSRTSN	PGPT0017485_719	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_02137	1101	iolG_9		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAAAAAAATGAGAGCAGGTATAATTGGCTGCGGAACCATCAGCGGCGTATACTTCACGAACTTGAAAAACAGCCCTTGGGTTGAAATCGTGGCATGTGCCGATCTCATTCCGGACAACGCCCAAGCGAAAGCGGAAGAGTTCAACATCCCGAACGTATACACGGTTGAGGAGATGCTCGCACAGACGGATATTGAGTTTATTATTAATTTGACCATTCCGGCCAGCCACGCCAATGTCGATATCGCCTCCCTGGAAGCAGGCAAGCATGTCTACAGTGAAAAACCGCTGGCCATAACCCTTGACGAAGCCCGCCGCGTCCTGAATATCGCCGATCAGAAGGGGCTTCGCGTCGGCTGCGCACCGGATACGTTCCTAGGCTCCGGCGTACAGACGGCCAAAGCGGCCATTGAATCCGGGCTGATTGGCAGACCTGTTGCCGCAACGGCGTTTATGATGGGGGCAGGACCGGAAGCATGGCATCCCAATCCCGAATTTTTTTACGCGTCGGGCGGAGGTCCGATGATGGACATGGGACCTTATTATGTGTCGGCCCTGGTAGAGCTGCTGGGTCCCGCAAGCCGGATCAGCGCATCCACAGGCATCCAGATCCCGGACCGTTCCGTCGGCTCCGGCCCGCTTCAAGGAAAGCCGATCACGGTTCAGACGCCGACGCATTTGGCAGGGACGCTGGATTTTGAGAACGGTGCCATTGCAACCATGATTACCAGTTTCGATATCTTTGGCGGGTCCAATCTGCCCTGGATCGAAATCTACGGCACGCAGGGCAGCCTGAGTCTCGGCGATCCGAACTACTTCAACGGAGAAGTGAAGCTGCGCAAGCACGGCTCCGAGGAATGGGAATTGCTTGAGCCCGCCTTCGAATGCGGGAAGAACGAGCGGGGTCTGGGCATCCATGATATGATCCAATCGATTCATGAGCAGAAGGACCACCGCGTAAGCGGGCGCCTGGCTTATCACGTGCTGGAGATCATGCAGTCCTTTCAGCAGTCTTCGCTGGAGGGCAGGCATATCGTTCTGCAAAGCACGTACCGTTATGGCAAACTTCCGGCACCTCAGCAGGCCGAATCGGCTGAATAG	MKKMRAGIIGCGTISGVYFTNLKNSPWVEIVACADLIPDNAQAKAEEFNIPNVYTVEEMLAQTDIEFIINLTIPASHANVDIASLEAGKHVYSEKPLAITLDEARRVLNIADQKGLRVGCAPDTFLGSGVQTAKAAIESGLIGRPVAATAFMMGAGPEAWHPNPEFFYASGGGPMMDMGPYYVSALVELLGPASRISASTGIQIPDRSVGSGPLQGKPITVQTPTHLAGTLDFENGAIATMITSFDIFGGSNLPWIEIYGTQGSLSLGDPNYFNGEVKLRKHGSEEWELLEPAFECGKNERGLGIHDMIQSIHEQKDHRVSGRLAYHVLEIMQSFQQSSLEGRHIVLQSTYRYGKLPAPQQAESAE				NA	NA	NA	NA	NA
AK002_02138	1086	gfo_3		Glucose--fructose oxidoreductase	ATGTCGAACACGTTGAAAATCGGAATTATCGGCTGCGGGGGAATCGCCAACGGCAAACATATGCCGAGCTTGAAGAAGCAGGCGCAGGCCGAATTGGTCGCTTTTTGCGACATCGTGGAAGAGCGTGCGCAGAAGGCAGCAGCCGAATACGGGGTTGAAGGCGCAAAAGTGTACACGGATTTCAGGGAATTGCTGAAAGACGGCAGCATTGACGTCATCCATGTATGTACGCCGAACGATTCGCACTCCGAAATCACGGTAGCATCCCTGGAAGCCGGCAAGCACGTGATGTGCGAGAAGCCGATGGCAAAAACGGTTTCCGAAGCACAGGCCATGCTGGACGCCGCAAAGCGCACAGGCAAAAAACTGACCATCGGTTATAACAACCGTTTCCGGGACGACAGCATGTATTTGAAGGGGATCTGCGAGGAAGGCGAGCTGGGCGAGATCTACTACGGTAAAGCCCTGGCCATCCGCCGCCGTGCCGTTCCGACCTGGGGCGTATTCCTTGACGAGGAGAAGCAAGGCGGAGGTCCGTTGATCGATATCGGAACCCATGCGCTGGATTTGACCTTGTGGCTGATGGACAATTACAAGCCGAAAAGCGTGCTGGGATCCACGTTCCATAAGCTGGGTCAGCGCGAGAATGCGGCGAATGCGTTCGGTCCGTGGGATCCGAAGGAATTCACGGTAGAGGATTCGGCATTCGGATTTATTACCATGGAGAACGGCGCTACGATCGTTCTGGAATCCAGCTGGGCGCTTAACGTCCTGGAGATCGGCGAAGCGAAAGCCGTTCTGGCGGGAACCGAAGGCGGAGCCGACATGAAAGACGGCTTGCGCATCAACGGCGAGAAAATGAGCAGACTGTATGAAACCAAAGTGGATCTGAACGCCGGCGGCGTAGCGTTCTATTCGGGCTCCAAGGAAAACGACTCGGACCGTGAAGCAAGAATGTGGCTTGAAGCGATCATAGAGGATAAGGATCCGGTCGTTAAGCCGGAGCAGGCGTTTGTGGTGACGCAAATCCTGGAAGCGATCTATGAATCGGCGAAGACGGGTAAAGCGGTTTATTTCGACAACTAA	MSNTLKIGIIGCGGIANGKHMPSLKKQAQAELVAFCDIVEERAQKAAAEYGVEGAKVYTDFRELLKDGSIDVIHVCTPNDSHSEITVASLEAGKHVMCEKPMAKTVSEAQAMLDAAKRTGKKLTIGYNNRFRDDSMYLKGICEEGELGEIYYGKALAIRRRAVPTWGVFLDEEKQGGGPLIDIGTHALDLTLWLMDNYKPKSVLGSTFHKLGQRENAANAFGPWDPKEFTVEDSAFGFITMENGATIVLESSWALNVLEIGEAKAVLAGTEGGADMKDGLRINGEKMSRLYETKVDLNAGGVAFYSGSKENDSDREARMWLEAIIEDKDPVVKPEQAFVVTQILEAIYESAKTGKAVYFDN				NA	NA	NA	NA	NA
AK002_02139	969			hypothetical protein	ATGAAATTAGGCGTATTTATGGTATTGCTGAGTGGACGTAAACTGGAGGATGCTTTGGACTACGTGGCATCCAAGGGCCTTAAAGCAGTTGAAATCGGAACAGGCGGTTATCCCGGAAATGCACATTGCAACCCGGTCGAGCTGCTTGAGAATGAAACCGCGCTGAAAAACTTCAAAAACGCGGTGGAATCCCGCGGGCTGATCATTAGCGCACTGAGCTGCCACGGCAATCCGCTTCATCCGCAAAAGGCAATCGCAAAAGAATTCCATGACACATACGTAAAAACGGTGGAGCTTGCCGAGAAGCTTGAAGTACCTGTTGTCAACACATTCTCCGGCTGCCCAGGCGACCACGAGGATGCCAAATACCCGAACTGGCCGGTAGCGCCTTGGCCTAACGACTACCAAGAGATCCTGACTTGGCAGTGGGATAACAAGGTCATTCCTTATTGGACCGAGTGGGGTAAATTTGCGGCAGACCGCAATGTCAAAATCGGTTTGGAACTGCACGGCGGCTTCTCCGTTCACACGCCGGGCACGCTGCTCCGTTTGCGCGAAGCCGCAGGCGAAGTGATCGGTGCCAACCTGGATCCGAGCCACATGTGGTGGCAAGGGATTGACCCTGTTCAAGCGATTCAAATTTTGGGCCGCGAAGGAGCGATCCACCACTTCCATGCGAAGGATACTAGCATTGATCCGATTAACGTGAACAAACACGGTCTCACGGATATGCAGTCGTATGCGAACATGCTGGATCGCGCTTGGCAGTTCCGCAGCGTAGGTTACGGACACGATGTGAAGGAATGGGCGGATATGATGAGTGCTCTTCGCCTGGTTGGATATGACTATGTCGTGAGCATTGAACATGAAGACGGACTGATGTCCGTTGAAGAAGGCTTCTCCAAAGCGGTGCAAAACCTTCAGCAAGTGCTGATCGAAGAGCCGCTCGGAGAAATGTGGTGGGTCTAA	MKLGVFMVLLSGRKLEDALDYVASKGLKAVEIGTGGYPGNAHCNPVELLENETALKNFKNAVESRGLIISALSCHGNPLHPQKAIAKEFHDTYVKTVELAEKLEVPVVNTFSGCPGDHEDAKYPNWPVAPWPNDYQEILTWQWDNKVIPYWTEWGKFAADRNVKIGLELHGGFSVHTPGTLLRLREAAGEVIGANLDPSHMWWQGIDPVQAIQILGREGAIHHFHAKDTSIDPINVNKHGLTDMQSYANMLDRAWQFRSVGYGHDVKEWADMMSALRLVGYDYVVSIEHEDGLMSVEEGFSKAVQNLQQVLIEEPLGEMWWV				NA	NA	NA	NA	NA
AK002_02140	723			hypothetical protein	ATGCTTAACGTAACCATATGGAATGAATTCGTGCACGAGAAAATCCATGATGAGGTTCGGAGCGTTTATCCGACGGGCATTCACACAGCTTTGGCGGAGGGTCTGCAAAATCCGGATTTCATCATTAGAACGGCAACGCTCGACCAGCCGGAGCATGGATTGACGGACGATGTACTGGATTCAACCGATGTGCTGTTGTGGTGGGGGCATATGGCTCATGACCAGGTTAGTGACGAAATCGTAAGCAAGGTCGTAAAACGCGTGCAGGATGGTATGGGACTGATCGTTCTCCATTCCGGACATTTTTCCAAACCGTTCAAAGCTTTGATGGGCACGAGCTGCGATTTGAAGTGGCGCGAAGCAGGAGAACAGGAAATTATTTGGAGCGTGAATCCGACGCATCCGATTGCTGCGGGAATTACGGGACCGATCATCATCGAGCACGAGGAAATGTACGGGGAGTTCTTTGACATTCCGGCCCCTGATGAGCTGGTATTCGTCAGCAATTTCGAGGGCGGGGAAGTGTTCCGCAGCGGATGCACATTCAAACGCGGGCATGGGAACATTTTTTACTTCCGTCCGGGGCATGAGACCTATCCAACCTACTACAACCCCGAAGTGCTGAAAGTGATCTCCAATGCGATTAACTGGGCTCATTCTACGGCAGGCAAGCAAACGTTCGGCAACAGTCAGCCGGTTCGCGCGCTTCCCGTTTTAGTCTAA	MLNVTIWNEFVHEKIHDEVRSVYPTGIHTALAEGLQNPDFIIRTATLDQPEHGLTDDVLDSTDVLLWWGHMAHDQVSDEIVSKVVKRVQDGMGLIVLHSGHFSKPFKALMGTSCDLKWREAGEQEIIWSVNPTHPIAAGITGPIIIEHEEMYGEFFDIPAPDELVFVSNFEGGEVFRSGCTFKRGHGNIFYFRPGHETYPTYYNPEVLKVISNAINWAHSTAGKQTFGNSQPVRALPVLV				NA	NA	NA	NA	NA
AK002_02141	663			hypothetical protein	ATGAACGAAGTACAAAGCGCACCTGTAGATCCCGCAACCATCGCCATATGCCGGGCGAGGCTCGTCCATCAACCCGTTGAGGGCTTCCTGCTCGGAAGGGGAGTCCGCTTTGCGAAAATTATGTTCATCGGGGAAGCGCCCGGGGCTCATGAAGTTTTGGAAGGCAAACCTTTTGTAGGGCAGGCCGGACAAGAGATGAACGCGTACCTGGAACGTCTGAAACTGACGAGGGACCAGGTATATATTACCAGTTCCATGCGAAGCAGGCCCTACAAGGATAAAGTGCTCGTGAGGCCTTCGGGCGAGAATGTCATCAGCCGATCGAATCGCACGCCGACCAAGGCGGAAATTTTGGCGCATGCGCCTTTGCTTGATGAAGAGATCCGATGGGTGCGCCCGGACATCCTGGCACCAATGGGAAATACCGCGCTGCACCGGTTAATCGGAAGCCATGAAACGGTGACGTCGCTGCACGGCAAGCTGATGGAGGGACCGGTTCAGCAAGCGGCAGATCCGGAAAATCCCGGAGCAGGCTATGTGTTTTCACCGGAGACCTATAAGATATTCCCTCTGTTCCATCCAGCGGCGGTGCTGTATAATAGGAAATTATCCACTTTGATTGAGGACGATTTGGATATTTTGGCTCGGATATTAGGGGGATAA	MNEVQSAPVDPATIAICRARLVHQPVEGFLLGRGVRFAKIMFIGEAPGAHEVLEGKPFVGQAGQEMNAYLERLKLTRDQVYITSSMRSRPYKDKVLVRPSGENVISRSNRTPTKAEILAHAPLLDEEIRWVRPDILAPMGNTALHRLIGSHETVTSLHGKLMEGPVQQAADPENPGAGYVFSPETYKIFPLFHPAAVLYNRKLSTLIEDDLDILARILGG				NA	NA	NA	NA	NA
AK002_02142	321	yodB_1	COG1733	HTH-type transcriptional regulator YodB	ATGGAAGTTACAAATGTTACGATGTGTCCCCGTTTCGAATCGGCCTTTTCTTTTCTGGGCAAACGGTGGAACGGCTTGATTATTCAAACGCTGATGAGCGGACCTAAGCGCTTTAAGGATATTTCGAATTTGATTCCGTCCATGAGCGATAAAATGCTCTCCGAGCGGATGAAGGATTTGGAATGCGAAGGCATACTGATTCGTCATGTCTATCCGGAAACTCCGGTACGTATTGAATATGAACTGACTGAAAAAGGCAAAGCACTGCGTCCGGTGATGGAGCAAATTTCATCCTGGGCAGAACAATGGGTCGACAGATGA	MEVTNVTMCPRFESAFSFLGKRWNGLIIQTLMSGPKRFKDISNLIPSMSDKMLSERMKDLECEGILIRHVYPETPVRIEYELTEKGKALRPVMEQISSWAEQWVDR	PGPT0028512_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028512-yodB-NA	NA	NA
AK002_02143	678			hypothetical protein	ATGATCAAGCGAACGAATATCTCCCGGTTCCATTATGGACAAGAGGACATCTCAGAGCTTGAAAACGCTTCATTACAAGTGCTTCATATATTTGAGAAAACCAAGCGGGTGCTGAGCCAGTATGTACCGGAATCACTGTGGTCGGCCGTGTGTGGAACAAGCCCAGACGCTGTAGCATCCGTTAGCCAAGACGGCACCGCTCGGGTCGACATGTTCCAGAAATGGGTCAAGGCTCCCGGCGGATGGAAGTTCATTGGTTATGAAACCGAAACATTGAATTCGTCTTCCGAGCAGAATAAGGGACGGATGGGAAGATTCCTGCATATGATCATCTGGTCGCTCTACGAGAAAATCGTGATGCTGCATCCCTTCCTTGGCAGCGAAGCGTTCTTCGACGGGGAGGAGCTGGACGTGATCGCCCATTATTTTGTGCCTACGTATATTAGTGCCGTGCCTTTGGTGCAGCAAGGAAAAGCCTATAAGACCATTCAGGCCGGCATCGTACTGTACCAGGAGCATATCGAGGCGCCTGCCGTCATCATGCAGTCGGAAGGAGGCCTTTTGGAGGGGAACTGGATGACCGGGGTGAACCTGGATGCGGGGGGATTTGCCGGAATTCGTCCCTATTTAAAAGTGCCCGGCGGCGAACGAGCCTATATGGAAGCCGAAATCATATAG	MIKRTNISRFHYGQEDISELENASLQVLHIFEKTKRVLSQYVPESLWSAVCGTSPDAVASVSQDGTARVDMFQKWVKAPGGWKFIGYETETLNSSSEQNKGRMGRFLHMIIWSLYEKIVMLHPFLGSEAFFDGEELDVIAHYFVPTYISAVPLVQQGKAYKTIQAGIVLYQEHIEAPAVIMQSEGGLLEGNWMTGVNLDAGGFAGIRPYLKVPGGERAYMEAEII				NA	NA	NA	NA	NA
AK002_02144	2439	nasD_1	COG1251	Nitrite reductase [NAD(P)H]	ATGTCCAATATAAAGAGAGAAAAGTTGGTTGTCATTGGCAACGGTATCGCAGGCATAAGCACGGTCGAGCAAATCATTAAATTGGGTGGGAAATTTGACATCACCGTCATTGGACAGGAGCCTCACCCGAACTACAATCGCATTATGCTGTCCTATGTGCTGGAAGGCAGTAAAACCTTGGACGACATCGTATTGAATGACTGGAAATGGTACGAGGACAATCAGATCACCCTGCATACGGGTGTGACCGTCACCGCCATCGACGGGGAGCGCAAGGTTGTAACGGCCGATAACGGATTGACGGTTCCTTATGACAAAGTGATTATAGCTACAGGTTCGAAGCCTTTTATATTGCCTGTACCGGGCAGTGACAAAGAGGGAGTTATCGGATTTCGAAACATCGCCGACTGCACGCAGATGCTTCAAGCCGCCAAGGCATACAAGAAAGCGGCCGTCATCGGAGGAGGGCTGCTGGGTCTGGAAGCTGCGAAGGGATTGGTCAGCCTGGGCATGGAGGTGACGGTGGTTCATCTCATGCAGGATTTGATGGAGAGCCAGCTGGATTCCATGGCATCGGGGATGCTGCAAAGGGAGCTGGAGCGGCAGGGGATCCGGTTCTTATTAGGCAAACAAACCACGGAAATCATGGGCGATGAGAGAGTCACGGGGCTGCGGTTCAAAGATGGAGATGAGCTTGAAGCGGAACTCGTGGTCATGGCCGTGGGTATCAGAGCGAACGTTGAAGCCGCCCACGCGAGCGGTATCGAAGTGAACCGGGGAATCGTAGTCAACGATTATCTTCAGACCTCCTGGCCGGATGTGTATGCGGTTGGCGAATGCTGCGAGCATCGGGGGGCATGCTACGGCCTGGTTGCGCCGTTGTTCGAGCAGGGACAGGTTCTTGCCAAGCATCTCTGCGGCTTGGACGGCCAGCCTTACGAGGGCAGCATCGTATCGACGAAACTGAAAATCAGCGGCGTTGATGTATTCTCCGCAGGAGAGTTCATGGAGCAGGCTGAGCACTCGGTGATCGTGGCGAAGGACGATTGGCGCAAGACTTATAAGAAAATCCTGCTGCGCGACAATATCATCGTCGGCGCGATATTGTTCGGAGATGTCAGCGATTCGGCCAGCCTTCAATCCATGATACGAAAAAAGACGGCCATGACCGAGGAGATCTATCATTCGATCATGGGCACCGAATGTGCAGGGAAAGGAAACGGCAAGGCCTTCTCGCTGGATAAGATGCCCGACGATGAAATCGTCTGCGGCTGCAACGGCGTAACCAAAAAGGCCATTGTGGATGCCGTGACGCTTCAAGGCCTCACGACGGTGGACGAAATCAAAGCTTGCACGGGAGCGACCCGTTCTTGCGGAGGCTGCAAGCCAGTCGTGGAGCAAATCCTTCAGAGCGTACTGGGCGATGGCTTTAAGACGGCAGGCAAACAAGGCATATGTCCTTGCACCACGCTCGACCGGGACGAAATCGTCGCCGAAATCAGCGCCAAGGGGCTGACCACGACGAAGGAAGTCATGCATGTGCTGAACTTCAGCAACCCTGAGGGCTGCTCCAAATGCCGTCCCGCCATCCATTATTATCTGGCCATGCTGAATCCGGTGACCCATCAGGAGGAGAGGGAGTCCCGCTTCGTCAACGAACGGATGAACGCCAACATTCAGAAAGACGGCACTTACACGGTAGTGCCAAGAATGTACGGCGGCGTTACCACGCCGGAGGATTTGAAGAAAATTGCGGACGTATCGCTTAAGTACAATGTTAAGGTCGTTAAGGTAACCGGCGGACAGCGACTGGATCTGATCGGCGTGAAGAAGGAAGATCTGCCAAGCGTATGGGAAGAGCTGGATATGCCGTCCGGTTATGCTTATGCCAAATCGCTGCGGACCGTCAAGACCTGCGTAGGCTCCCAATTCTGCCGCTTCGGCACGCAGGATTCGATGGGCATGGGTGCATTCCTCGAGGAGAAATTCGAGCGGCTGGACTTTCCGGCGAAGTTTAAAATGGCGGTCAACGGATGCCCGCGAAATTGTGCCGAATCGTGCACGAAGGACATCGGGATCGTCGGCAATGACGGCGGATGGGAGATATTCGTCGGAGGCAACGGCGGAACGAAGGCACGCCTGGCCGATTCGTTCTGTAAAGTGAAAACGGACGAGGAACTGATCGAGATCTGCGGCGCCTTAATGCAGTACTACCGTGAAACCGGCAAGTACCTCGAGAGAACGTCGGAATGGGTAGAGCGTCTGGGACTGGAACAAATCCGTGCGGCAGTCCTTGATGATGCTAAACAGCGTAAGGAGCTGGTGGAAAGAATAGAGCTGGCCCTGCAGCAAGTCGAAGATCCGTGGAAGAAAGTGCTGAACGACGATAAGCTGCGCAATACGCTGTTCCAGGACGCAAGACCGGTCGGCAGCAAGTAA	MSNIKREKLVVIGNGIAGISTVEQIIKLGGKFDITVIGQEPHPNYNRIMLSYVLEGSKTLDDIVLNDWKWYEDNQITLHTGVTVTAIDGERKVVTADNGLTVPYDKVIIATGSKPFILPVPGSDKEGVIGFRNIADCTQMLQAAKAYKKAAVIGGGLLGLEAAKGLVSLGMEVTVVHLMQDLMESQLDSMASGMLQRELERQGIRFLLGKQTTEIMGDERVTGLRFKDGDELEAELVVMAVGIRANVEAAHASGIEVNRGIVVNDYLQTSWPDVYAVGECCEHRGACYGLVAPLFEQGQVLAKHLCGLDGQPYEGSIVSTKLKISGVDVFSAGEFMEQAEHSVIVAKDDWRKTYKKILLRDNIIVGAILFGDVSDSASLQSMIRKKTAMTEEIYHSIMGTECAGKGNGKAFSLDKMPDDEIVCGCNGVTKKAIVDAVTLQGLTTVDEIKACTGATRSCGGCKPVVEQILQSVLGDGFKTAGKQGICPCTTLDRDEIVAEISAKGLTTTKEVMHVLNFSNPEGCSKCRPAIHYYLAMLNPVTHQEERESRFVNERMNANIQKDGTYTVVPRMYGGVTTPEDLKKIADVSLKYNVKVVKVTGGQRLDLIGVKKEDLPSVWEELDMPSGYAYAKSLRTVKTCVGSQFCRFGTQDSMGMGAFLEEKFERLDFPAKFKMAVNGCPRNCAESCTKDIGIVGNDGGWEIFVGGNGGTKARLADSFCKVKTDEELIEICGALMQYYRETGKYLERTSEWVERLGLEQIRAAVLDDAKQRKELVERIELALQQVEDPWKKVLNDDKLRNTLFQDARPVGSK	PGPT0000450_2091	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
AK002_02145	318	nasE_1	COG2146	Assimilatory nitrite reductase [NAD(P)H] small subunit	ATGGAAACCGGAACTTATATCACGGTAGGGAATGAACATGAATTTCTGTCGCAACTCGGAAGGGTGGTCCAGATCGGTGACCGGGAGATTGCCGTCTTCCGAACCTCGGATCATCAATGGTTTGCTCTCGAGAATAAAAGCCCGCACCCCAAAGGAGGTCCGTTAGCCGAAGCCATCGTATCCGGGCATTACATTTACGATCCGTTATACGATTGGAAAATCGAGCTTTCGACAGGGCTTGTGCAGGCTCCGGATAAGGGCCAAGTACGGATATATCCGGTTCGCGCCGTGGATGGAAAGGTTGAGGTAGGTGTATAA	METGTYITVGNEHEFLSQLGRVVQIGDREIAVFRTSDHQWFALENKSPHPKGGPLAEAIVSGHYIYDPLYDWKIELSTGLVQAPDKGQVRIYPVRAVDGKVEVGV	PGPT0000455_1897	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
AK002_02146	789	nirC_1	COG2116	Nitrite transporter NirC	ATGTTTAACAATGATGTGGAAGCCGTCGTCAATGCCGCGGTCGCGAAAAAAGAGCAGATGAACAACAACTTGCTGCGCTACATGGTATCGGCCATGCTGGCCGGTGCTTATGTCGGCATTGGGATCGTATTAATCTTTAAGCTGGGCGCGCCGCTGGCAGCCGCCGGTTCGCCTTTCCAGTCCCTCGTCATGGGAGCCGCATTCGGGATTGCGCTCACGTTGGTTGTGTTTGCCGGTTCAGAGCTGTTCACCGGAAATCATATGTTTTTTACGATAAGCACGTTATCCAAACGAACGACGATGGGGGACACGCTGAAGAACTGGGGCTTTGTGTTTATCGGCAATTTGGCGGGAGCGATCCTGCTCAGCTATCTGGTTTATGCTTCCGGCCTGTTCAAAGGGCTGCCGCCCGATCATCTCATCTTCACGGCAGCGGCCAAGAAAATGAACGATCCGTTCATGGAGCTGTTTTTTAGAGGCATATTATGTAACTGGCTTGTATGTCTGGCCCTGTGGATGGGAATTCGGGCCAAAGGAGAAACAACGAAACTGATTTTAATATGGTGGTGCCTGTTTGCCTTCATTGCGACAGGGTATGAGCATAGCGTAGCGAACATGTCGCTTCTGACGCTGGCGACGATATTGCCGGGACATCCCGAGACGGTATCCATCGGCGGCTGGATCAGCAACATGGTGCCGGTCACGCTGGGGAATATCATTGGCGGCGGGTTGTTTGTAGGCATGGCTTACTGGTTTATCTCTTCGGGAAAAGGGAACAAGCAAAAGTAG	MFNNDVEAVVNAAVAKKEQMNNNLLRYMVSAMLAGAYVGIGIVLIFKLGAPLAAAGSPFQSLVMGAAFGIALTLVVFAGSELFTGNHMFFTISTLSKRTTMGDTLKNWGFVFIGNLAGAILLSYLVYASGLFKGLPPDHLIFTAAAKKMNDPFMELFFRGILCNWLVCLALWMGIRAKGETTKLILIWWCLFAFIATGYEHSVANMSLLTLATILPGHPETVSIGGWISNMVPVTLGNIIGGGLFVGMAYWFISSGKGNKQK	PGPT0000565_323	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000565-nirC-K02598	NA	NA
AK002_02147	159			hypothetical protein	ATGCGTGAAGGTTTGATTCCTGCTGTTCTTGGAACCGTGGTTTCTGCTTCGGGTGCCGCTCTGCTTTGCAGCAGGTATAAATTCGCTGCAACCGGTATTCTAGGCTTCGGACTGGCTCATATGGTGCTTGGTGCGATTGACCTGGTGGAACATCGGTAA	MREGLIPAVLGTVVSASGAALLCSRYKFAATGILGFGLAHMVLGAIDLVEHR				NA	NA	NA	NA	NA
AK002_02148	726	fnr_2	COG0664	Anaerobic regulatory protein	ATGAAAACTGTAGACCATGTAATGGAAATCGAAAACTTAGGGAACACGCAGTGCTTCTCGGAACAAAACCGCAACCGTCTGCTGGTTACCATGAAGGAAAGGGTACTCCCTGAAGGATCGCATTTGTTCTGGGAAGGCGACTTCGCCGACAAGCTGTACTTCGTTAAACAAGGAAGAATTAAATTAACCAAATCGACGGATGAAGGCAAAGAGCTTATTCTATATATGTACCATCCAGGAGACATGGTCGGGCAAGCCGATCCATTCTTCAGCAACAACCACAGTTTTTCGGCAGAGGTGCTTGAGGACAGCGTAGTCGGGGTCATCGAGCACAAGGAACTGGAGCTGTTGATCTGCCAGCATTGCGACTTCGCGATTGATTTCATGAAGTGGATGGGTATACACCACCGCATCACGCAGACCAAATTCCGTGATCTCATGATGTACGGCAAGCCCGGCGCATTAACGTCGACGCTGATTCGTCTGGGCAATACCTACGGGCAGCATCAAGAGGATGGCACCATTCTCATCAACAAAAAGATTACCCATACCGATCTTTCGAACATGATCGGGGCCACCCGCGAAAGCGTGAACCGGATGCTGAGCGACCTTCGCAAAAAGGACGCCATCGAATATGCCGGCGGCATGATTGTTATCAAAGATCTGCCGATGCTGCAGGAAATATGCCACTGCGAGCTGTGTCCGAACGAAATCTGCCGGATTTGA	MKTVDHVMEIENLGNTQCFSEQNRNRLLVTMKERVLPEGSHLFWEGDFADKLYFVKQGRIKLTKSTDEGKELILYMYHPGDMVGQADPFFSNNHSFSAEVLEDSVVGVIEHKELELLICQHCDFAIDFMKWMGIHHRITQTKFRDLMMYGKPGALTSTLIRLGNTYGQHQEDGTILINKKITHTDLSNMIGATRESVNRMLSDLRKKDAIEYAGGMIVIKDLPMLQEICHCELCPNEICRI	PGPT0015075_806	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
AK002_02149	2613	adhE	COG1012	Aldehyde-alcohol dehydrogenase	ATGGCTGTGAGCAAAGGAACAACGGTTGAAGTGAAGGGACAAACGGCAGCAGAGTACATTCAAGGTCTGATCGACAAGGCGAATCGGGCAAAAGAAAAGTTTATGAAACTCGATCAGGAGCAAGTCGACGGAATTGTGCAGGCCATGGCCATGGCCGGACTTGAGAAGCACATGCAGCTGGCGAAAATGGCGGTTGAAGAAACGGGTCGCGGCGTGTATGAAGACAAAATCATCAAAAACCTGTTTGCCACGGAGTATATCCACAACAGCATCAAGTACGACAAAACGGTAGGTATCATCGAAGACAATGCCTATGACAGCTTCCAAAAAATTGCGGAGCCGATCGGGATCATCATGGGGATCACACCGGTAACCAATCCGACCTCGACTACCATATTCAAGGCGCTGATCTCCATCAAAACAAGAAACCCGATCATCTTCGGTTTCCATCCATCCGCGCAGGCATGCAGCAGGGAAGCCGCGCTCATCCTGCGGGACGCCGCCGTGAAACAAGGCGCTCCGGCCGACTGCATCCAGTGGATCGAGGCTCCTTCCATGGATAAAACCAATACACTCATGAACCATCCTGACGTTGCCTGCATTCTGGCTACGGGCGGATCGGCGATGGTCAAAGCAGCATACAGCTGCGGCAAGCCAGCCCTCGGCGTAGGTCCCGGCAACGTGCCGTGCTTCATCGAGAAGAGCGCGGACCTCGATCAAGCGGTGAACGACTTGATTCTATCCAAGACGTTTGATAACGGCATGATCTGCGCATCCGAGCAAGCCGTCATTATCGAAGAGCCGATCTATCATACCGTGAAGAAAAAAATGATCGCCAGCGGCTGTTATTTCGTGAACAAGGAAGAGCTGGCGAAGCTGACCGCGCATGCCATGGTAGCGGATAAATGCGCCGTCAATCCTACCATCGTCGGACAGCCGGCAGCCAAGATTGCCGAGGCTTGCGGCTTTGAGGTGCCGGAAAGCACCAAGATCCTAGTCGCCGAGCTAGAGGGAGTCGGTCCCGCTTATCCGTTGTCCGCCGAGAAGCTGAGCCCGGTGCTGGCTTGCTATAAAGTGAAAGACGCGGAAGAGGGCATCACGCGCGCCGAAGAGATGGTTGCTTTTGGCGGCATGGGCCACTCGTCGGTCATCCACTCGCACAATGAGGACGTCATTCTGAAATTCTCGGATCGCATGAAGACCTGCCGCATCCTGGTCAACCAGCCTTCCTCGCAAGGCGGCATCGGGGATATCTACAACACGAACCTGCCGTCGCTGACGCTCGGCTGCGGTTCGTATGGCCGGAATTCCACGTCGTCGAACGTGACGGCCGTCAATCTCATCAACGTGAAAAGGGTGAACCGCAGAACCGTGAATATGCAGTGGTTTAAAGTACCGGACAAAATATACTTTGAAAAAGGCTCGACGCAGTATCTCGCCAAAATGCCTGACATCACCCGCGTCGCGATCGTAACCGACCCCATGATGGTGAAGCTGGGATATGTGGAGCGGGTAGAGCATTACCTGCGTCAGCGCAGACTGCCGGTAGCCATCGAGGTGTTCTCGGAAGTCGAGCCGGATCCTTCGACAACGACAGTAGAACGGGGTACGGAGATGCTGGAACGGTTCCAGCCGGACTGCATCATCGCCCTCGGCGGCGGATCGCCGATGGATGCCGCAAAAGCGATGTGGCTGTTCTATGAATATCCGGATACGGACTTCAACAACCTGAAGCAAAAATTCATGGATATCCGCAAACGGGTCTATAAATATCCGAAGCTGGGACGGAAGGCGAAATTCGTAGCCATTCCGACAACGTCGGGAACGGGCTCGGAAGTAACTTCGTTCGCCGTCATCACGGACAAAGTGCAGGGAAATACCAAATACCCGCTGGCAGACTATGAGCTGACGCCGGACGTGGCGATCATCGATCCGGAATTCGTGTACACCTTGCCTAAAACGGCGGTGGCCGATACCGGCATGGACGTCCTGACGCATGCGATTGAAGCCTACGTATCGGTGATGGCTAGCGATTACACGGATGGGCTTGCCATCAAAGCCATCCAGCTGGTGTTCCAATATCTTGAGCAATCGGCGCTGACCGGCAACAAACTCGCCCGCGAGAAAATGCATAATGCTTCGACGCTTGCAGGCATGGCCTTTGCGAACGCGTTCCTGGGCATCAACCACAGTCTGGCGCATAAATGGGGCGGACAGTACCATACGGCGCACGGACGGACCAATGCCATACTGATGCCGCACGTCATTCGCTACAATGCCAAGAAGCCAACGAAATTCGCGGCATGGCCGAAATACACCCACTTTGTGGCCGATGAAAGATATGCCGAGATCGCACGGATTCTTGGACTGCCGGCAAGAACGACGGAGGAGGGCGTAAACAGCCTGATCGCCGCCATCCGCGAGCTGAACAGCAAGCTCGGCATCGAGGAATCGTTCCAGCAGCTTGGCATCGATCCTCAGGACTTCGAGAGAAACGTCGAGCATTTGGCGGACCGGGCTTTCGAAGATCAGTGCACGACCAGCAATCCGAAGCTGCCGCTGGTGACAGAGCTAGCAGAAGTATATCGCAACGCCTTCTATGGACGTTTCTAA	MAVSKGTTVEVKGQTAAEYIQGLIDKANRAKEKFMKLDQEQVDGIVQAMAMAGLEKHMQLAKMAVEETGRGVYEDKIIKNLFATEYIHNSIKYDKTVGIIEDNAYDSFQKIAEPIGIIMGITPVTNPTSTTIFKALISIKTRNPIIFGFHPSAQACSREAALILRDAAVKQGAPADCIQWIEAPSMDKTNTLMNHPDVACILATGGSAMVKAAYSCGKPALGVGPGNVPCFIEKSADLDQAVNDLILSKTFDNGMICASEQAVIIEEPIYHTVKKKMIASGCYFVNKEELAKLTAHAMVADKCAVNPTIVGQPAAKIAEACGFEVPESTKILVAELEGVGPAYPLSAEKLSPVLACYKVKDAEEGITRAEEMVAFGGMGHSSVIHSHNEDVILKFSDRMKTCRILVNQPSSQGGIGDIYNTNLPSLTLGCGSYGRNSTSSNVTAVNLINVKRVNRRTVNMQWFKVPDKIYFEKGSTQYLAKMPDITRVAIVTDPMMVKLGYVERVEHYLRQRRLPVAIEVFSEVEPDPSTTTVERGTEMLERFQPDCIIALGGGSPMDAAKAMWLFYEYPDTDFNNLKQKFMDIRKRVYKYPKLGRKAKFVAIPTTSGTGSEVTSFAVITDKVQGNTKYPLADYELTPDVAIIDPEFVYTLPKTAVADTGMDVLTHAIEAYVSVMASDYTDGLAIKAIQLVFQYLEQSALTGNKLAREKMHNASTLAGMAFANAFLGINHSLAHKWGGQYHTAHGRTNAILMPHVIRYNAKKPTKFAAWPKYTHFVADERYAEIARILGLPARTTEEGVNSLIAAIRELNSKLGIEESFQQLGIDPQDFERNVEHLADRAFEDQCTTSNPKLPLVTELAEVYRNAFYGRF	PGPT0006360_927	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006360-adhE-K04072	NA	NA
AK002_02150	2247	pflB		Formate acetyltransferase	ATGTCGGTGATTGAAAAAGAAGTTGGCTGGAAAGGTTTTAAATCAGGTAAATGGACCAAGCGCATTGACGTTAACGATTTTATTGCAGAGAATATTACCCCTTATTATGGCTCTGATGATTTTTTGGCGGGACCTACGGACAACACCAAGGCACTGTGGGATATCGTATCGGATTTAACCAAGAAGGAACGGGATAACGGCGGGGTTTTGGACGTGGATGTCCATACGCCTTCCACCATCACCTCCCACCAGCCTGGCTACTTGGATAAAGATAAAGAACAGATCGTCGGCGTGCAGACCGATGAGCCGTTCAAACGCTCGATTCAGCCTTTCGGGGGCATCCGGATGATGATTGATGCGTGCAACGCATACGGCTTCGAAATGCCGCAGGCGGTAGTGGATATCTTCAACGGCATCCGCAAAACGCATAACCAGGGCGTATTTGATGCCTATACTCCGGAGATGAGAGCAGCGCGCAAGGCCGGGATTATTACGGGTCTTCCCGATGCATACGGCCGCGGCCGCATCATCGGCGACTACCGCAGAGTATCGTTATACGGGGTGGACGCGCTGATCCAGGACAAACTGAGAGAACTCGGCGAGCTTGAAGTGGACGCCATGGACGAGCCGGTGATCCGTCTGCGGGAAGAGCTGTCCGAACAAATGCGCGCCCTCAAGGAACTGAAAGAAATGGCCGGCATGCACGGCTTTGACATTTCCAAACCGGCGAATACGGCAAAGGAAGCATTCCAATGGCTGTATTTCGGTTATTTGGCCGCGATCAAGGAGCAAAACGGGGCTGCCATGTCGCTTGGCCGGGTATCCTCTTTCCTTGATATTTATATCCAGCGGGATTTGGCCGAAGGCGTGCTGACGGAAGAGACGGCCCAGGAGCTGGTGGACCATTTTGTCATGAAGCTGCGGATCGTGAAGTTCCTGCGTACGCCGGATTACAACGAGCTGTTCAGCGGCGATCCGACGTGGGTGACCGAATCCATCGGCGGCATGTCGTTGAACGGTGAAACGAGGGTAACGAAGAACAGCTTCCGTTTCCTGCACACCCTGTACAATCTGGGACCTGCGCCGGAACCGAACTTGACGGTACTGTGGTCGGAGAAGCTGCCGGAGGCCTTCAAAAAATACTGTTCGAAGGTATCGATCGAAACGAGCTCGATCCAATATGAGAATGACGATCTCATGCGTCCGATCTACGGGGACGATTACGGCATCGCCTGCTGCGTATCCGCCATGCGCATCGGGAAGCAGATGCAGTTCTTCGGAGCCAGAGCGAACCTGGCCAAAGCGCTGCTGTATGCAATCAACGGCGGGAAGGATGAGAAATCCGGCGCCCAGGTCGGACCGGAATATCCGGCGATCACCGCTGAGGTTCTGAGTTATGATGAGGTCATGAAGCGCTTCAAGCCGATGATGGAATGGCTCGCGAAGCTCTACATGAATACCCTCAACGTGATTCACTACATGCATGACAAATACAGCTACGAGCGGATTGAAATGGCGCTTCACGACCGCGATATCCTGCGGACGATGGCATGCGGCATAGCGGGCCTGTCGGTAGCAGCGGATTCGCTGAGCGCGATTAAATATGCGAAGGTGAAGCCGGTACGCAATGAGCAAGGGATTGCGGTGGATTTTGAAATCGAGGGCGATTTCCCATGCTACGGCAACAACGACGACCGCGTGGACGGCATCGCCGTTGAACTGGTCGAGGCCTTCATGAGCATGATCCGCAAGCACAAAGCCTACCGCGATGCCATGCCGACCCAGTCGGTGCTCACGATTACGTCGAACGTGGTATACGGCAAGAAGACAGGAACCACGCCGGATGGACGCAAAGCAGGCGAGCCGTTTGCACCGGGCGCAAACCCGATGCACGGACGCGATAAGAAGGGAGCCCTCGCTTCGCTGACTTCCGTGGCCAAGCTGCCTTATGAGGACAGTCTGGACGGCATCTCGAATACGTTCTCGATCGTCCCGAAAGCCCTGGGCAAAGAAAGCGACATTCGGGTAAACAATCTGGTTGCCATGCTGGACGGCTACTTTGGCAGCAAGGCCCACCATTTGAACGTGAACGTGTTTGACCGTGAGCAGCTGATCGATGCGATGGAGCATCCGGAGAATTATCCGCAGTTAACCATCCGGGTATCCGGCTATGCGGTCAACTTCGTCAAACTGACGCGCGAACAGCAGCTCGATGTCATTAACCGTACCTTCCACGGATCGATGTAA	MSVIEKEVGWKGFKSGKWTKRIDVNDFIAENITPYYGSDDFLAGPTDNTKALWDIVSDLTKKERDNGGVLDVDVHTPSTITSHQPGYLDKDKEQIVGVQTDEPFKRSIQPFGGIRMMIDACNAYGFEMPQAVVDIFNGIRKTHNQGVFDAYTPEMRAARKAGIITGLPDAYGRGRIIGDYRRVSLYGVDALIQDKLRELGELEVDAMDEPVIRLREELSEQMRALKELKEMAGMHGFDISKPANTAKEAFQWLYFGYLAAIKEQNGAAMSLGRVSSFLDIYIQRDLAEGVLTEETAQELVDHFVMKLRIVKFLRTPDYNELFSGDPTWVTESIGGMSLNGETRVTKNSFRFLHTLYNLGPAPEPNLTVLWSEKLPEAFKKYCSKVSIETSSIQYENDDLMRPIYGDDYGIACCVSAMRIGKQMQFFGARANLAKALLYAINGGKDEKSGAQVGPEYPAITAEVLSYDEVMKRFKPMMEWLAKLYMNTLNVIHYMHDKYSYERIEMALHDRDILRTMACGIAGLSVAADSLSAIKYAKVKPVRNEQGIAVDFEIEGDFPCYGNNDDRVDGIAVELVEAFMSMIRKHKAYRDAMPTQSVLTITSNVVYGKKTGTTPDGRKAGEPFAPGANPMHGRDKKGALASLTSVAKLPYEDSLDGISNTFSIVPKALGKESDIRVNNLVAMLDGYFGSKAHHLNVNVFDREQLIDAMEHPENYPQLTIRVSGYAVNFVKLTREQQLDVINRTFHGSM	PGPT0001950_1115	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0001950-pflD|ybiW|tdcE-K00656	NA	NA
AK002_02151	726	pflA		Pyruvate formate-lyase-activating enzyme	ATGCTAAAAGGTCATGTACACTCCATAGAAACGTTCGGAACGGTGGACGGTCCGGGTATCCGCTTTGTGCTCTTCATGCAGGGCTGCCTCCTGAAGTGTCAATACTGCCACAACCCGGATACCTGGGGACTTCATGAAGGACATGAAATGACGGTGGATGACGTGCTGCGAGAGATTGAGCCTTATCTGAGCTACTACCGCTCATCGGGTGGAGGACTCACTGTTTCGGGCGGTGAGCCGACGCTGCAGTATCCTTTTGTCACGGAGCTGTTCAAGGAAGTGAAGCGCCGCTGGAATTTGCATACGACCCTGGACAGCAACGGGTATAACGAGCCGGATAAAATATCGGAATTGCTGGAGCATACCGACTTGGTCCTCCTTGATCTGAAGCATATCAACGACGAGAAGCACATCAAGCTGACAGGCAAGTCCAATGAAAGGACGCTGAAGACCGCCCGCTGGCTGTCCGACCATGGTCGGAACATGTGGATCCGGCACGTCTACGTGCCGGGCATCCATGACAGCGAGGACGATTTGGCGGCGCTCGGTCAATTCATCCGCACGCTGCGCGGCGTGGAAAAGTTCGAGATCCTGCCATACCATCAGATGGGCGTGTACAAATGGAAGGAGCTCGGCATGGCATACCCGTTGGAGGGCGTACCTTCACCGTCCGAGGAAGAAGTCGCACGCGCCTATCGGTTGATTGGCGAAATTTCCGAGAAATAG	MLKGHVHSIETFGTVDGPGIRFVLFMQGCLLKCQYCHNPDTWGLHEGHEMTVDDVLREIEPYLSYYRSSGGGLTVSGGEPTLQYPFVTELFKEVKRRWNLHTTLDSNGYNEPDKISELLEHTDLVLLDLKHINDEKHIKLTGKSNERTLKTARWLSDHGRNMWIRHVYVPGIHDSEDDLAALGQFIRTLRGVEKFEILPYHQMGVYKWKELGMAYPLEGVPSPSEEEVARAYRLIGEISEK				NA	NA	NA	NA	NA
AK002_02152	1359	msmE_3	COG1653	Multiple sugar-binding protein	ATGAAGAAAAAGGGTCTGGCATTATTCATGTCGCTTTTGTTCGTCTCATCCACGCTTTTGTCTGCATGCGGCGGCGGTGACAAGGCGGCAGAAAAGCCGTCAGGCGGCTCGGAAGGAACGGTGAGCAATGAGCCGTTTGAAATCACCATTCGCCATACGCAAGTAGGCGAATCCAAGAAGTTCCGTCTCGCATTGCTGAACGATGTGGTCAGCAAAACCGAAGAAGCGGTGCCCGGGCTTAAAATCAAGCTGGACGCTGTAGACTCTGAAGTGAATCGTAAAGAGAAGCTGAGAGGCGAGATGGCTGCCGGCAAGCCGCCGGAAGTATTCGACGTATTCGGAAGCCCGGATGCAGGCGTATATTCCAAAGAAGGCTTGATGCTCGATTTGACCCCGATCTTGGATGAGCTCGGCATAAAGGACAAATTTACGACACTGGACCCGTTCACGCATGACGGCAAGATCTATGGATTGCCGATCGGCGGTTCCATCGAAGGTATTTTCTATAACAAGGATTACTTCGCCCAGAAAGGCCTCAGCGTACCGAAAACGTTGGCGGAACTTGAGCAGATCGCCGAAGCCATCAAGGCCGATGGCAAAATTCCGTTCGCGCAATCTTCCAAGGATGCATGGATTCCGCTCATGACCACGAATAACCTGTGGAGTTATTATGCAGGGGCGGAGGTAACTTACGGCTTCAAGACCGGGGAAACCAAATGGACCGATCCGAAAGTCGTGGAAGGCGTGAAGAAACATCAGGAATGGGTGGAGAAAGGGTACTTCAAAAAAGGCGAGCTCGGCTTTGAATACGCGGACATGAGAAATCAAATCATCACCGGGGAAGCCGTCATGATGATGGACGGATCATGGGCGAACTCCGTATTTAGAGATCCGGCCCAAGCGGGCGACATGGTCGGCAAGATCGGATATTTCAATTTGCCTCCGGTGAATGAAGGCGACCCTGTCATCGTCATGCAGGACGCGAACAACGGATACGGCTTCTCGGCGGCGGTAGCAGAGGATCCTCGCAAGCTTCAAGCGGTTAAAGAATTCATCAAAAATATGTGGACGGATGAAATGCAGCTGCGCGGGCTTAAGGAAGACGGAGTCCTGCCGGCGATGAAGATGGATCTGGAAACGATGAATTCCACGTCGGATGATCCGCTGATGCAGGATATTTTCAAAGGCGTCAGCGAAATCAACAAATCCTTCCCTGCCTTCGATGCGCTTGTTCAAGCCGACGTAAACACGGCGCTGAGCATGGGAATCCAGCAGGTGATCGGCGGCGAGCTCGATGCCGAGAAGATGCTGGAGAATGTTCAAGCAGCACAGGAAGCGGCTAATGCTTCAGAGGAATAA	MKKKGLALFMSLLFVSSTLLSACGGGDKAAEKPSGGSEGTVSNEPFEITIRHTQVGESKKFRLALLNDVVSKTEEAVPGLKIKLDAVDSEVNRKEKLRGEMAAGKPPEVFDVFGSPDAGVYSKEGLMLDLTPILDELGIKDKFTTLDPFTHDGKIYGLPIGGSIEGIFYNKDYFAQKGLSVPKTLAELEQIAEAIKADGKIPFAQSSKDAWIPLMTTNNLWSYYAGAEVTYGFKTGETKWTDPKVVEGVKKHQEWVEKGYFKKGELGFEYADMRNQIITGEAVMMMDGSWANSVFRDPAQAGDMVGKIGYFNLPPVNEGDPVIVMQDANNGYGFSAAVAEDPRKLQAVKEFIKNMWTDEMQLRGLKEDGVLPAMKMDLETMNSTSDDPLMQDIFKGVSEINKSFPAFDALVQADVNTALSMGIQQVIGGELDAEKMLENVQAAQEAANASEE	PGPT0016330_425	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_02153	885	melD_8	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAACAGAGCGCTGAGAAATCCTCTGATTTACATCGTTTTTGTGCTGCCGGCATTCTTGCTGTTTCTGGCTTTTTTCATATATCCCATCTTCACTGCGTTTGACAACAGCATTACGAGCTGGAACGGCATCTCCAAAGACGTGAAGTACATCGGGCTCGATAACTATGTGACCGCCCTGAATGACGGTGCCTTCTGGAAGGCGGTCCGAAACAATGTCTATTTCATACTTTTTTCCTGCTTGATCCAGGTTCCGATCATCGTGGTTTTCTCCCTGCTTATCGCCAACGTCAAGCGTTTGAAGGGGCTGTATAAAACAGCGGTTTTCGCACCTTCCATCATGTCGACGGCTGTCATCGGCATTTTGTGGGGATTCATCTACAATCCGGACTTTGGCCTGATGAATGAAATGTTGGGATTGGTTGGCATCGAGCCGATCTATTGGCTGTCGGATCGCAAATGGGCCATGATCGCCATCCTGATTACGAACGCTTGGCAATGGACCGGCTTTTACATTGTGATGGTGCTTGCCGCCATTCTGTCCATTCCCAAGGAGCTTGACGAGGCTGCGGCGATTGACGGAGCGACAGGCGTCCAAAGGGCTACCAAAATCACGCTTCCATTAATAATGCCAATTATCTCCGTTGTGATCATGCTTTCGATTGCGGGAGCCATGAAAGCCGCGGACATTATCCTGGTTATGACCAAGGGAGGGCCGGCCGGCTCCACCGACGTTATGGCAACATATATGATTCGATACGCGATCACGAGTTTCAAGCATGGCTTCGGCAATTCGATCGCCGTGTTGATTTTCCTCTTCACGATTATCGTAACGGTGCTCTACCAGGTGCTGATCGCCAGACGCAACGAAAGGATTGAATACTGA	MNRALRNPLIYIVFVLPAFLLFLAFFIYPIFTAFDNSITSWNGISKDVKYIGLDNYVTALNDGAFWKAVRNNVYFILFSCLIQVPIIVVFSLLIANVKRLKGLYKTAVFAPSIMSTAVIGILWGFIYNPDFGLMNEMLGLVGIEPIYWLSDRKWAMIAILITNAWQWTGFYIVMVLAAILSIPKELDEAAAIDGATGVQRATKITLPLIMPIISVVIMLSIAGAMKAADIILVMTKGGPAGSTDVMATYMIRYAITSFKHGFGNSIAVLIFLFTIIVTVLYQVLIARRNERIEY	PGPT0016335_1617	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_02154	828	ngcG_6	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGAGGGCACTAAAGAAACTGATTCCGCACATTTTCCTGATGGCTTATTTGCTCGTCATCCTGTATCCATTCCTGTTCGTCCTGTTCTCATCCGTGAAGGTGGATAACCAGTCCATTGCAACGAACCCGTTTGGATTGCCAAGCACGTTGGTGTTTGATAACTACGTAAACGCTTGGGTGAGCGCCAAGATCAGCACGTATTTCTGGAACAGCTTATACATCGGCGTCCTGTCGGCCTGTCTATCGATCCTGTTTGCGGCAATGCTGGCTTTTGCCGTGACGCGGATGAGATACAACCGGATCAGCGCGATCATCTTTCAATGTATTTTGATCGGGATGCTGATCCCGAATAACTCTCTCTTGCTGCCGATATACGGCATCATGAGGCAGCTGGATATTCTGAATACGCATATGGCCCTGATTCTGCCCTATGTTGCCAATGCCATCCCGTTTTCTGTGATTATTTTGGCCGCCTTCATGCGGTCGCTGCCCGGTGAAATCGAGGAAGCCGCGGTCATAGACGGATTGAGGTCCGGAGGCTTGTTTGCTAGAATTATCTTACCTCTGACCGTTCCGGCTATCGTTACCGTTTTCATCATTAATTTTCTGGGTAACTGGAACGAATTCTTGCTTGCTAACTACTTCCTATCGAATGATGAACTGAGAACGCTGCCTGTCGGAATGGTCGGTTTCAGGGACGCTTACAATATGAACTACGCCCAGATGTCGGCGGGGATCGTATTCAGCGTGCTGCCGGTCCTTATCATCTATGCCGTTCTGCAAGAGAAAATCATAGAAGGCGTCACCGCAGGAAGCGTCAAGGGGTAA	MRALKKLIPHIFLMAYLLVILYPFLFVLFSSVKVDNQSIATNPFGLPSTLVFDNYVNAWVSAKISTYFWNSLYIGVLSACLSILFAAMLAFAVTRMRYNRISAIIFQCILIGMLIPNNSLLLPIYGIMRQLDILNTHMALILPYVANAIPFSVIILAAFMRSLPGEIEEAAVIDGLRSGGLFARIILPLTVPAIVTVFIINFLGNWNEFLLANYFLSNDELRTLPVGMVGFRDAYNMNYAQMSAGIVFSVLPVLIIYAVLQEKIIEGVTAGSVKG	PGPT0016340_1876	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_02155	1857			hypothetical protein	ATGAACTTGCGGAACAAACTATTCACGGCCTTTTTGGGGCTCATTATTATTCCGTTATTTGTGCTGGGCCTATTTACATTCTTTATTACCTACAACTCGATTGAGGAAAAGTACAGCCAGCAAGCCGAATATTCGCTAAAAGCGATCAGCTACAGCATTTTGAACGTGTTCAAGGAGATGGAGTACGTTACGGATAACGGGATTGCCACCTCCGTCTTCGCAATGGCGCTGAATGCCAAGGATCCCGATGCGCAGAACCTGATTAAGGAATCCAATGCGGATCAGCTGAAATTGAACGACAGGCAGCGAAGCTTTCGCAATCTTCTCTATAATCACCCTGCCATCAGTTATGCTTTTCTATATCATTTCAACAAAGAATCAGCACCCATTCCGATATTCAGTAAAGAGGATTTCAGGACACTGCCTTATGAGCAGTTTAAGAACAGTCCCTTATATGAAGAGGTTGTGAAGCTGAACGGGATTCCCAAATGGCTGGCTCCGCACGAATTTCCGGAATTGACGGGGGCGGATCCGGTGTTTACCCAGATCAGGCTGATTAAAGACGTCACGACGCTCCGCAAGCTGGGGATTCTCGTCGTCCAGATCAAGAGATGGGAGTTCGAAGAGATTTTCCGCAATCTGACGCTCCCTAACAACCTGCAGAACACCTCCTTCATGCTGGTCAACAATGAAGGCTTCATTCTGTTTGACCCGCAGAACGGCATGGATGGTCAAAATATCAGTCAATACATGAAGCGTGACGTTGAGTTTAAGCAAGGCTATCAAAGCTTTAAAGCCAAGTTTAACGGCAAAGAAAATATTGTTTCCATCTATCATCTGAACGATTATGGCTGGAACATCGTCTCGGTGACCGATTGGAACTCGCTGTCGCAAGAGGTAACTTCCTTTGCCAAGTGGTTTTTTGTCATCATGGGCATCTGTCTGGTTACCGCGATTGTGTTCAACCGCCTGTTCATGAACCGGATTACCGGCACGATTGCCGTCATCGTGCGGTTTATGCGCCGCGTGGAGGATGGGGATTTGAATGCCAGAGTGGAAGAGAAGGGTGAGGATGAGCTTCTGCTGCTGTCCAAAGGGTTCAACAATTTGATGAACCGGATCAACAATCTGTTCGCGCAGATCAAGAAGGAGCAAAGGCAGAAGACCGATGCGGAAATGCGTGTGCTGCAAGCACAGATCAAGCCGCACTTCCTGTTTAACACATTGGAATCGATCAATGTCCTTGCGGTCCAGAATGAAGGTCGCAAGGTCAGCGAGATGGTGTACCGGCTTGCCAGCATTTTGCGGATCAGCATACAGGACAAGGAAGAAATTACGCTGGATGAAGAAATCAAGCATCTTCAAAGTTATCTTGAAATCCAAAAGTTTCGGTTCGAGGATCTGTTCGAATACGAGATCGACGTGCCGAAAGAGCTTATGCACAGCCGCATCCTGAAGCTGACGCTGCAGCCCCTGGTGGAAAACAGCATCCAGCATGGCTTTGAGGGAATTTCCTATACGGGATGGATACGCATCTCTGCTTGGAAGGAGCTCGGCAATGTCGTAATCCGGGTGGAGGACAACGGACTCGGCATGACCTCTGAGCAGTTGTCCATGTTTGAGTATATGGTGTCCGAGGATGGCGTATCCGAACAGACGACGATGCAGAACCTGAAAGTAAACCAGGAACGGCGGGGACTTGGACTGCGAAGCGTGGCTGATCGGCTTAGAATTCAGTACGGTCCTTATTATGGGCTGTTCATATGCTCCAGCCGCCCCGGCGGCACCGTTATACAATGCGTCATACCCAATTATGACAGGGGGGAAGGGCATCATGCTGAAGGCATTATTGGTTGA	MNLRNKLFTAFLGLIIIPLFVLGLFTFFITYNSIEEKYSQQAEYSLKAISYSILNVFKEMEYVTDNGIATSVFAMALNAKDPDAQNLIKESNADQLKLNDRQRSFRNLLYNHPAISYAFLYHFNKESAPIPIFSKEDFRTLPYEQFKNSPLYEEVVKLNGIPKWLAPHEFPELTGADPVFTQIRLIKDVTTLRKLGILVVQIKRWEFEEIFRNLTLPNNLQNTSFMLVNNEGFILFDPQNGMDGQNISQYMKRDVEFKQGYQSFKAKFNGKENIVSIYHLNDYGWNIVSVTDWNSLSQEVTSFAKWFFVIMGICLVTAIVFNRLFMNRITGTIAVIVRFMRRVEDGDLNARVEEKGEDELLLLSKGFNNLMNRINNLFAQIKKEQRQKTDAEMRVLQAQIKPHFLFNTLESINVLAVQNEGRKVSEMVYRLASILRISIQDKEEITLDEEIKHLQSYLEIQKFRFEDLFEYEIDVPKELMHSRILKLTLQPLVENSIQHGFEGISYTGWIRISAWKELGNVVIRVEDNGLGMTSEQLSMFEYMVSEDGVSEQTTMQNLKVNQERRGLGLRSVADRLRIQYGPYYGLFICSSRPGGTVIQCVIPNYDRGEGHHAEGIIG				NA	NA	NA	NA	NA
AK002_02156	786		COG4753	putative response regulatory protein	ATGCTGAAGGCATTATTGGTTGATGATGAGGCACCCATCCTGAACAATCTCAGCAAGGTTCTGCCTTGGGAAGAGATGGGCATGAAGGTGGTCGGACTTGCCCGCAGCGGGATGGAAGCGCTTGAAGTAGCGGATCAGTATAACCCGGATTTGATTCTGTGCGATATCCGGATGCCCGTCATGGACGGGCTGACCTTCATTACGAAGATCCGGGAGAAAGGAAGCCGGGCGGAAATCTTTTTGCTGACGGGTTATCAGGAATTTGAATATGCCCGTGAAGCGATCAAGCTGGGGGTTAAGGATTATATCAGCAAGCCGATTCATTACGGGGAGCTTGAGATGAAGATTCGGGAGATCGGGGAGGAAATCCGCAAGAAGAGGGCGAAAGAAAAGTATTATAGTACCGTTTCGCTGATCGACGAGGCTCCGAACCCCGAAGCCGTTAAGAAAACACCCGAGCAATTGGTATCGTCTGCCCTGGAGTACATCAACACCCACATGGGACAGGATTTGGGCATCGAGGAGCTTTCGGAGCATCTGGGCATCAGTTCCAGTTATTTCTGCTTGCTGTTCAAGAATCATGTCGGTCTTACCTTCGTGGAGTATTTGACGAGGCAGCGGATGGAGGCGGCCAAATTCCTGTTAGTGAACAGCGACAAGAACATTGCACAGATCGGTTCCTTTGTCGGTTATCATGAGCGGCGGTATTTTACCAAGGTATTTCAAAAGGCTACCGGCATGACGCCATCCGAATTCCGGGAAATGTCCGGAGAGCCGAGTCTCTGA	MLKALLVDDEAPILNNLSKVLPWEEMGMKVVGLARSGMEALEVADQYNPDLILCDIRMPVMDGLTFITKIREKGSRAEIFLLTGYQEFEYAREAIKLGVKDYISKPIHYGELEMKIREIGEEIRKKRAKEKYYSTVSLIDEAPNPEAVKKTPEQLVSSALEYINTHMGQDLGIEELSEHLGISSSYFCLLFKNHVGLTFVEYLTRQRMEAAKFLLVNSDKNIAQIGSFVGYHERRYFTKVFQKATGMTPSEFREMSGEPSL				NA	NA	NA	NA	NA
AK002_02157	1641	nagZ_1	COG1472	Beta-hexosaminidase	ATGAAATGGACGGCAGCAGATTTAACGCTAGAGCAAAAGGTAGGACAAATGTTTATATGCGGCTTCAACGCATTGACGCCGAATGAGCATGCCAACATACTGATCGAACAATTTCAGGTGGGGGGCATCTGCTACTTCCGCCGGAACGTGAAGACGCTGCCTCAGCTTGCCGAGCTGTCAGCATCCCTGCAGCAGCTCGCTTCGGGAAGCCAACCGTTTCCGCTTCTGATCTCGATTGATCAGGAGGGCGGCATGGTCGCACGAATCGATCATGAAGGCATCAGCCGCATTCCGGGCAATATGGCGCTTGGAGCTGCGGGCAGCGCAGAGGATGCCTACAGGGTGGCGCAAATCGGGGCGCGCGAATTGCGTTCGCTCGGCGTGAACATGAACTTCGCGCCTTGCCTCGACGTCAACAACAATCCGCGCAACCCGGTTATCGGCGTGCGCTCCTTCGGCGAAGATCCCCATGCCGTTGCCGAGCTCGGGACTGCGGCGATTAAGGGTTATCAGGAAGAAGGAGTGTCCGCTACGGCCAAGCACTTCCCGGGACATGGCGACACCAGCGTCGACTCCCATCTGGGGCGGGCATCGGTACCGCATGATTTGGAACGGCTCCGCAGCGTTGAACTGCTCCCTTTCGCACAAGCGATCAAGGACGGCGTCGATGCCATCATGACGGCTCACGTCAGTTTCCCGGCGATTGAGCCGAGTGATCTGCCTGCAACGCTTTCCCATGCTGTATTAACGGGGCTGTTGAGGGAGGAAATGGGCTTCGAAGGTTTGATCGTGACGGATTGCCTCGAGATGCATGCGATCTCCAAGGAGTACGGCATTCCGGAAGGCGCGATACGCGCGATCGAAGCAGGGGCGGACTGCGTGCTGGTCAGCCATACGGTGTCGGAGCAGACGGCGGCGATTACGGCGGTCATCGAGGCTGTCCGCGGCGGGAGACTCCCGGTTGAGCTGATCGACAAAGCCGTTGATCGGATTTTGGCGCTCAAACAGCGTAATGCGAAAATCGCTGAAAAGCTTCCCGTCCACCCGATTGGCGAGGTTGCCACAGAGACCAAGCAGCTGCTTGCTCAAATCGCAGGCAGGGGAATCACGCTGGTAAAAGACGAAGGGCAGCTGCCTCTTAAGCCGGAGCAAGCGGTTGCCGTGATCTGGCCGGAGCTGCTTCAGGCGACCCAGGTCGACGAAGCATGGAGCAAGAGCTACACGCTTGGGGATGCCCTGAGAAGTTACGGCGTGCAGGCAGACGATCTGCGCGTCGGGACGGATATGTCCGACGAAGAGGTAGAGCAGGCCGTTAAAGCGGCGGAGGGATATAAGCAGATCGTGGTGGCTACGTACACCTCCGAGAGCCGTCTTCCCGAAGGTCAGCAGAAGCTTGTAAGCAGGCTGAGCGAGCTTGAGGATGTGACACTCGTTATCGTCGCAACCCGCAATCCGTACGATATCAATGATCTTCCGCCGGTTCCCGCGTATTTGTGCAGCTACGAGAATACGCCTTACTACATGAATGCCGCTGCGGGTGTATTGGTTGGCAAAGTTAGGCCCGAGGGTAAGCTTCCGGTAGGGATCAGCAAGACCTATCCTCTCGGCTGGACCGGCAATCAGGACTATGTCAATAATTAA	MKWTAADLTLEQKVGQMFICGFNALTPNEHANILIEQFQVGGICYFRRNVKTLPQLAELSASLQQLASGSQPFPLLISIDQEGGMVARIDHEGISRIPGNMALGAAGSAEDAYRVAQIGARELRSLGVNMNFAPCLDVNNNPRNPVIGVRSFGEDPHAVAELGTAAIKGYQEEGVSATAKHFPGHGDTSVDSHLGRASVPHDLERLRSVELLPFAQAIKDGVDAIMTAHVSFPAIEPSDLPATLSHAVLTGLLREEMGFEGLIVTDCLEMHAISKEYGIPEGAIRAIEAGADCVLVSHTVSEQTAAITAVIEAVRGGRLPVELIDKAVDRILALKQRNAKIAEKLPVHPIGEVATETKQLLAQIAGRGITLVKDEGQLPLKPEQAVAVIWPELLQATQVDEAWSKSYTLGDALRSYGVQADDLRVGTDMSDEEVEQAVKAAEGYKQIVVATYTSESRLPEGQQKLVSRLSELEDVTLVIVATRNPYDINDLPPVPAYLCSYENTPYYMNAAAGVLVGKVRPEGKLPVGISKTYPLGWTGNQDYVNN	PGPT0012175_1288	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
AK002_02158	2733			hypothetical protein	ATGAATTTCAAACGAATCTCGATGATTACAGTCCTTGCCGCGGCCCAAGTATCCATGGCATTTCCCGTGGCAGCTGAATCACCGGATGTTACAGCTCCGGCGCTAAACGGGCAACCAGCGCTGCAGTCCCCGGTGGAAGGACAAGGCCAGGCAAACAGAGAACAACAGACGGACTTGCAGCAAGCGGAGGAAACGCCGGCAACGCCAACAGAAACACCTTCCGATTCAATCGAAGGCACGACCAGCGATCCGAATGCCACCCCTTCTGCACCCAATGAACAGCAGGAGGACTCGGCAAGCGATCCTTCCGATAATGAAGTATCTGAGAACGAAGAAGGAAGTCCGGCCGAAGGCAAGCCCGAAGTCGGCATTACCAATGCAGCCGCTAATGAACTGGTGCTGTTGATGAACAGCAACGTGATGTACCATAACGGCAAGCAGTACAAAGCGGGACAGCCGATGGCCGTGAAGCAAGGGGTATCCTATGTCGCCATTCGCGCCATGGTTGAGCGCGCAGGACTTAAGCTGTCTTACGATAATAAGACGAAGGAAACCATTATCCTTAAGGATGGCAATGAGCTGCGATTCACGACAGGAAGCAGCAATTATAAAGTCAACGGACAGGTGCGTCCGATGAAAGGCCCTGCCTACCAAAGCAACAACGTATTTATGGTTCCGCTGACCGCGATCACGCAAGCGCTTGATATTCCATACACGGTGAACCAGCCGGAGAAGAAAGTGATTCTCGATCTGTCCGGAATGGGCAGCGGCAGCAATAGCGGCGAACAGCCGGGGGGCAGCAGCGGCGGCGGATCCGGCAGCGAGGTTCCGAACATACCGAACCTCGGTCCGAATGATCTGATCCTGATGATGAACAGCAACAAGATGTATCAGAACGGAAAAGCGTATACCGCCGGACAACCCATGGCAGTCAAGAATGGCGTATCCTATGTCGCGATTCGATCCCTCGTCGACCGTGTCGGCCTGAAGCTGATCTATGACGGGAAGACAAAGGAAACGATTATTATCCGAGGTAACGATGAGCTTCGCTTTAAGACGAACAGCAGCGTATACACCGTGAACGGCGTTCGCAAATCGATGAAGGGACCGGCTTACCAGTCCAACAATACGTTTATGGTGCCGCTGACCAGCATCACGCAGGCGCTGGACATCACCTACCGGGTCGACCAGCCGAACAAGCGGATCATCCTGAGCCTAAGCACCAAGCCGGTGGCATCCTTTACGGTGCAGCCTGGTGAAATCTTTGCCGGACAAACCAAGGTAACGTACAAGACGAATGCCTATTCGCCGACAGGCCTGGCTATCGTAGACGAGCATTGGGAAGGCCGGGAAGATGTGTTTGACGAGCCTGGCGTGCATACGGTTTCCTATTCGGTACAGGACGCCAGCGGGGAGTGGAGCGATCCGTATATTTTGAGCATTCATGTATCCGCACCGAATACGCCGCCTGTGGCCATGTTCGATACGGATAAACAGGAATACAAGATAGGCGAGAAAATTACGTACATTAACATGAGTTATGACAGCGACCCCGGCGACGAAATTACGTTTAAGTGGGAAAACAACGACCAGGCTTTCTTTACGGCAGGGCCGCATAAAGTGCTGTTGATCGTGACCGATAAGCATGGGGCGACCAGCTCATACGAGAAAATCATCAACGTAACAAGCGAAGTGTTGTATACGCGCGATCAATTCAATCAATTATTTACGGGCATCGGCGACAAATACACGTTTGACGGATCGGCCGTGCCGACATGGAATCTGATGCCGATTACGAGAAGCTCCGAGCCGTACCTGTTGATTCGCAGCAACTCTCCGGAAACCGTCTATCAGGAAGGTATCGTATATCGCGAGATCGGCAATGCCAGCACGCGCTTCATGATTCACCACTTGAATGCTACCGGGAAGAACATGAAGATGTATGTCGTAGCGACCAACATCAACACCATGACGGCGCGTCTGACCACCGAGTATACCGGTTTGGGCGGTCCGATCAACATTCCGACCGCTACGGGGAAAGCGGCTGTGCAGCGCTATCTCGAGTCCATGCAGTCAGCGGATGCATTCAAGACGATTTCGCTCGCCCCTGGCGAAAGCCGGATCATCCTGCAAGATTTGAGCGCGCAAACCATGAAGAATCAGCAGGTGCTGTCCATGTTTGCCGATCTGTATTCGGATTCGCCGATTCGATACGATGTCATCATGATCGATGAAGCCAAGGATCCGATCCAGAAGCTGCCATACCTGAAGCTCCACCCGGCCGATGGCATTCATAACCGGGGAACCTACCCGGACTCGACCCGAATCATTGAATCCTATGATTTGGTAGGCAACACGCCTACGCGTCTTGCGCTTGGTGATAAGACAAACGATCCGAACCTGGAAGGGTATGACGGCATTAACGGTTCATATCAATCCAACGCCGGTAACTTCGGCGTTCTGTACAAAATCAAGCTGCACCGCGTAGCACCCAATACGCTGATCACGCTGAATCCGCGCGGAGGCAAATACATGGGCGCGATGATGGTGAACGGAAACATCATTCAGACGCCGAACACAAGCGGTGGCGCGGTATCTGCGCCGAATGAAGCCGCCGTTCTCTATCGTACGGGGAATTACGAGCAGACGGTGGAAATCCTGTTTACGGCAGCACCGGGAAGCAGCCTTCCGATCAACATTCTGCTCCAGCCGCTGCCGCAAGTGAAGAACTAA	MNFKRISMITVLAAAQVSMAFPVAAESPDVTAPALNGQPALQSPVEGQGQANREQQTDLQQAEETPATPTETPSDSIEGTTSDPNATPSAPNEQQEDSASDPSDNEVSENEEGSPAEGKPEVGITNAAANELVLLMNSNVMYHNGKQYKAGQPMAVKQGVSYVAIRAMVERAGLKLSYDNKTKETIILKDGNELRFTTGSSNYKVNGQVRPMKGPAYQSNNVFMVPLTAITQALDIPYTVNQPEKKVILDLSGMGSGSNSGEQPGGSSGGGSGSEVPNIPNLGPNDLILMMNSNKMYQNGKAYTAGQPMAVKNGVSYVAIRSLVDRVGLKLIYDGKTKETIIIRGNDELRFKTNSSVYTVNGVRKSMKGPAYQSNNTFMVPLTSITQALDITYRVDQPNKRIILSLSTKPVASFTVQPGEIFAGQTKVTYKTNAYSPTGLAIVDEHWEGREDVFDEPGVHTVSYSVQDASGEWSDPYILSIHVSAPNTPPVAMFDTDKQEYKIGEKITYINMSYDSDPGDEITFKWENNDQAFFTAGPHKVLLIVTDKHGATSSYEKIINVTSEVLYTRDQFNQLFTGIGDKYTFDGSAVPTWNLMPITRSSEPYLLIRSNSPETVYQEGIVYREIGNASTRFMIHHLNATGKNMKMYVVATNINTMTARLTTEYTGLGGPINIPTATGKAAVQRYLESMQSADAFKTISLAPGESRIILQDLSAQTMKNQQVLSMFADLYSDSPIRYDVIMIDEAKDPIQKLPYLKLHPADGIHNRGTYPDSTRIIESYDLVGNTPTRLALGDKTNDPNLEGYDGINGSYQSNAGNFGVLYKIKLHRVAPNTLITLNPRGGKYMGAMMVNGNIIQTPNTSGGAVSAPNEAAVLYRTGNYEQTVEILFTAAPGSSLPINILLQPLPQVKN				NA	NA	NA	NA	NA
AK002_02159	471	zur	COG0735	Zinc-specific metallo-regulatory protein	ATGCTTACGACGGAACAGATCATCGACGCCATGTCGGAACACGGGCTGCGCATTACCGATCAGCGCAAGACGCTTGCCAAATTGTTTGGGGAACATCCTGGATATTTGACGGCCAAGGATGTATACGAATATATGGGCCGGAAGTACAGCGGTTTGAGCTTTGATACGGTATACCGAAATCTTCGGGTATTGTACGAGCTTGGCGTATTGGAGCAAGTCGTGTTCGAGGAAGGCGTCAAGTTCAGGGGTCGCTGCAGCGAAGAACACCATCATCATCACATGATCTGCCTGCAGTGCCAGAAGACCTATCCGATTACCTTCTGCCCGATGCAGCTGACCGATGCACCGGACGATTTCCAGGTGGTCCAGCATAAATTCGAAGTGTTCGGATACTGCCGGGACTGCGGCAAGGACAATAACGATAAGGAAACCTCGCAGGCCGGTGGAGGAAATCGGGACAGCCGGGCATGA	MLTTEQIIDAMSEHGLRITDQRKTLAKLFGEHPGYLTAKDVYEYMGRKYSGLSFDTVYRNLRVLYELGVLEQVVFEEGVKFRGRCSEEHHHHHMICLQCQKTYPITFCPMQLTDAPDDFQVVQHKFEVFGYCRDCGKDNNDKETSQAGGGNRDSRA	PGPT0004295_17	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004295-zurR|zur-K02076	NA	NA
AK002_02160	258	yidD	COG0759	Putative membrane protein insertion efficiency factor	ATGAGCACGGCGCGCAGGGTAGTGAAGGTGCCGATACACTTCTATCGGAAATTCATTTCTCCTCTGAAACCGGCGACTTGCCGCTTCTATCCAACCTGTTCGGCATATGCGCTGGAAGCGATTGAGGTGCATGGTGCGCTGAAGGGCTCCTGGCTGGCTGCTAAGCGGATCGCGAGATGTCATCCGTTTCATCCTGGGGGCATCGATTTGGTGCCGCCGCGCAAGGATAAGGTGTCGTCTTCATTGACAGAGGAATAG	MSTARRVVKVPIHFYRKFISPLKPATCRFYPTCSAYALEAIEVHGALKGSWLAAKRIARCHPFHPGGIDLVPPRKDKVSSSLTEE	PGPT0024530_183	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
AK002_02162	1989	metG_2		Methionine--tRNA ligase	ATGGCAGACAAAAAGACGTTTTATATTACGACGCCGATCTATTATCCGAGCGACAAGCTGCATATCGGACATGCTTACACAACGGTGGCCGGCGACGCCATGGCCCGCTACAAACGGCTTCGCGGATACGATGTCCGTTATTTGACGGGGACCGATGAGCATGGGCAGAAGATCGAACGCAAAGCGGCAGAGGCCGGAAAAACCCCGCAGCAGTTCGTTGACGACATCGTGGCAGGCATCAAGGATCTGTGGAAAAAGCTGGATATATCGAACGAAGACTTCATTCGTACCACGGAGAAGCGCCACACCACGGTGGTGCAGGAAGTATTCGAACGTCTGCTGAAGCAGGACGACATCTACAAGGGCGAATACGAAGGCTGGTATTGTACGCCTTGCGAGTCGTTCTTCCTGGAACGTCAGCTGGTCAACGGCAATTGTCCGGACTGCGGACGGCCGGTGGAGCTCGTGAAGGAGGAGAGCTACTTCTTCCGCATGAGCAAGTATGTGGACCGCCTGCTTCAGTATTACGAGGAGAATCCGGATTTCATACAGCCGGTATCCCGCAAGAACGAGATGATCAACAACTTCATTAAACCGGGTCTTGAGGATCTGGCGGTGTCCCGTACAACCTATGAGTGGGGGGTTAAGGTCAAGAGCGATCCGAAACACGTCATCTACGTGTGGATTGATGCACTCCTGAACTACATCACGGCACTCGGTTACGGTACGGAGGACACCAGCCTGTATGACAAATACTGGCCGGCGGACGTTCACCTGATGAGCAAGGAAATCGTGCGTTTCCATACGATCTATTGGCCGATCATTTTGATGGCGCTCGATGTGCCGCTTCCGAAAAAAGTGTTTGCCCACGGCTGGCTGCTCATGAAGGACGGCAAAATGTCCAAATCCAAAGGGAATGTGGTCGATCCGGTCACGATGATCGACCGGTATGGTCTCGACGCGCTTCGTTATTACTTGCTGCGCGAAGTTCCGTTCGGGGCGGACGGGACGTTTACGCCGGAAAGCTTCGTGGAGCGGGTGAACTCCGACCTGGCCAATGATTTGGGCAACCTGCTGAACCGCACCGTGGCCATGGTCGATAAATACTTCGACGGGGAGGTTCCGGCTTTCTCGGCAGGCGTAACGCCTTTTGATGCCGCGATCGAGGAAGCCGCCAAGTCCGTTTATGACAAAGTCGAAACCGCCATGGAGAATATGGAGTTCTCGGTTGCGCTGACCGCGATCAGCCAGTTTGTCAGCCGCAGCAACAAATACATCGATGAGACCCAGCCGTGGACGCTGGCCAAAGACGAGAGCAAACGGCATGAGCTTGCTTCCGTCATGAGCCATTTGGTCGAGACGCTGCGGATTGCATCGATCCTGCTGCAGCCGTTCCTGACCCGGACGCCGAAGAAAATGTGGGAACAGCTCGGCTTGGCGGAAGGGGAATTGACAACTTGGGAAAGCGGACGCCAGCTCGGAGCGATACCGGCTGGAACGAAGCTTCAAAAGGGCGAGCCGATCTTCCCTCGCCTGGATGCGGAGCTGGAAGTGGCCTACATCGCTGAGGCGATGACTGGCGGCAAGAAGGCGGCCGAGGCAGAGCCTTCGACTTCGGCAGCAGCTCCGTCTACCGACAGCGGAGCAGAGCCTGTGGAGCTCAAAGAGGAAATCGGCATCGAGGATTTCGCCAAGGTCGAGCTGCGCGTAGCGCAGGTCATCGCGGCCGAGCCGGTCAAGAAAGCGGACAAGCTGCTGAAGCTGCAGCTGGATCTCGGGTTTGAGCAGCGGCAGGTGGTGTCCGGCATTGCGAAGTTTTATACGCCGGAGGAATTGGTGGGACGCAAAGTGATTTGCGTGACAAACCTGAAGCCGGTGAAGCTTAGAGGCGAAATGTCGCAAGGCATGATTTTGGCCGCTTCCTACGGGGATCAGCTCACGCTGGCAACCGTGCCGGAGGGCATGCCAAACGGCGCCATCGTGAAATAA	MADKKTFYITTPIYYPSDKLHIGHAYTTVAGDAMARYKRLRGYDVRYLTGTDEHGQKIERKAAEAGKTPQQFVDDIVAGIKDLWKKLDISNEDFIRTTEKRHTTVVQEVFERLLKQDDIYKGEYEGWYCTPCESFFLERQLVNGNCPDCGRPVELVKEESYFFRMSKYVDRLLQYYEENPDFIQPVSRKNEMINNFIKPGLEDLAVSRTTYEWGVKVKSDPKHVIYVWIDALLNYITALGYGTEDTSLYDKYWPADVHLMSKEIVRFHTIYWPIILMALDVPLPKKVFAHGWLLMKDGKMSKSKGNVVDPVTMIDRYGLDALRYYLLREVPFGADGTFTPESFVERVNSDLANDLGNLLNRTVAMVDKYFDGEVPAFSAGVTPFDAAIEEAAKSVYDKVETAMENMEFSVALTAISQFVSRSNKYIDETQPWTLAKDESKRHELASVMSHLVETLRIASILLQPFLTRTPKKMWEQLGLAEGELTTWESGRQLGAIPAGTKLQKGEPIFPRLDAELEVAYIAEAMTGGKKAAEAEPSTSAAAPSTDSGAEPVELKEEIGIEDFAKVELRVAQVIAAEPVKKADKLLKLQLDLGFEQRQVVSGIAKFYTPEELVGRKVICVTNLKPVKLRGEMSQGMILAASYGDQLTLATVPEGMPNGAIVK				NA	NA	NA	NA	NA
AK002_02163	1092	psaA	COG0803	Manganese ABC transporter substrate-binding lipoprotein	ATGAACAAGAGAAAGAGCAAGAACAAACTGAACGGGTGGACCTGGAGCGTTACTTCGATGTTGCTGGCGATGCTCATCCTGTCGGGCTGCGGAAGCAAATCCGGCGGAAGCATTGTTGAAGGCAAGGTTAACGTCATTACGACCTTCTATCCAATATATGAATTTACGAAGGAAATCGGCGGAGACGAAGTCAATGTCGTGAATCTTCTGCCAACGGGCGTGGAACCTCATGATTGGACGCCGCGCAGCCAGGATATCGTCAATACCTCCAAGGCCCAGCTGTTTCTCTATAATGGTGCAGGGCTGGAAGGCTGGGCGCCGGGATTCTTAAAGGGTCTCGATAAAGATACGCAAGTGAAACCAGTCATCGTTTCCCAAGGGATCCAACTGATCGATGCCGTGGGGGATGATGGCCACGGGCATGGTGAAGCAGCCCATGAAGAGGAACACGACCACAGTCATGAAGAAGGCGCTGAAGCGCACGACCACAGCCATGAGGAAGGCACCGAAGAAGATCATGCAGACCATGATCACGAGAAAGAGGCGGCTGAGACAAACACGGACACCCATCATACGGATCCACATACTTGGGTAAGCCCGAAATCCGCACTGGTCATGGCTGAGAATATCAAGAACAGCCTGGCCGAGGTCGATCCGGAACATAAGGACGGCTATGAACAGCGCTATGAAGCGTTAAAAGAGAAGCTGGTCAAACTGGATAACGACTTTACGAACGAGCTGTCCAAACTGCCGAAAAAAGATATCGTCGTATCCCACCAGGCGTTCGGCTATCTATGCCGGGACTACGGTTTAACGCAGCATGCGATTATGGGGCTGTCGCCAGACGCCGAGCCGAGAGCGCAGGATATCTTGAACCTGACCAAGACGGTGAAAGAGAAGGAAGTGAAATATATTTTCTTCGAAGAACTCGTATCGGATAAACTGGCCAAAACGCTGGCGAACGAAGCGGGCGTGGAAACCTTGGTGCTGAATCCGGTGGAGGGGCTGACCAAGGAGCAGGCAAGCAGCGGCGAAAATTATTTCACGCTGATGGAGAAAAATTTGCAAAATCTAACGAAGGCTTTACAATAA	MNKRKSKNKLNGWTWSVTSMLLAMLILSGCGSKSGGSIVEGKVNVITTFYPIYEFTKEIGGDEVNVVNLLPTGVEPHDWTPRSQDIVNTSKAQLFLYNGAGLEGWAPGFLKGLDKDTQVKPVIVSQGIQLIDAVGDDGHGHGEAAHEEEHDHSHEEGAEAHDHSHEEGTEEDHADHDHEKEAAETNTDTHHTDPHTWVSPKSALVMAENIKNSLAEVDPEHKDGYEQRYEALKEKLVKLDNDFTNELSKLPKKDIVVSHQAFGYLCRDYGLTQHAIMGLSPDAEPRAQDILNLTKTVKEKEVKYIFFEELVSDKLAKTLANEAGVETLVLNPVEGLTKEQASSGENYFTLMEKNLQNLTKALQ	PGPT0004220_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
AK002_02164	750	znuC_1	COG1121	High-affinity zinc uptake system ATP-binding protein ZnuC	ATGGAGCCGGCAGCGCAGGATTGCCACCAACCTATCGTACAAATCAAGGACGTATCCTTTCATTACCGGGATCAACAGGTGATCAAGGATCTTAATTTCACCATAAAAGAGCGGGATTTCGTTGGCATTGTCGGGTCTAACGGCGCGGGAAAAACCACCCTGCTCCGCATGATCGTCGGCTTGCTTCCTGCCGCGGAAGGGACGATTGAACTGTTCGGCCAGCCGATCCGTAAATTCCAGGACTGGGAGCGAATGGGCTATGTCCCGCAAAAAAATGCTTTCAACCCGCTGTTCCCTGCCACCGTGCGCGAAGTCGTCATGTCCGGTCTATATAATCGAAAAAAAATGTTTCGCCGTTTGAGCCGCCTGGACCATCAGAAATGCGAGGACGCGCTGGAAGTGATGCGCATTCAGGATATTGCCGATAAACGGATCGGCGCCCTGTCCGGAGGCCAGCAGCAGCGCGTATTCCTTGCTCGCGCGCTGATCAATCGTCCGGATCTGCTTATACTGGACGAGCCGACAATCGGCATTGATGCGGAGACCCAGGCCGGATTCTTTGAATTGATCACCCATATGCATGCCCATCATCATATGACGTTCCTGATGGTCACCCATGATTTGGACATGGTCAAAGACTACCTGGGCGAATCGCCGGTATCGCAGAACGGGAAGATTCAGTTTTTCGTCCGGCATTCCCATGAAATCGAAAACTGCGCGGAAGTGGACTTGCAGCATTCGCTCGTTTAA	MEPAAQDCHQPIVQIKDVSFHYRDQQVIKDLNFTIKERDFVGIVGSNGAGKTTLLRMIVGLLPAAEGTIELFGQPIRKFQDWERMGYVPQKNAFNPLFPATVREVVMSGLYNRKKMFRRLSRLDHQKCEDALEVMRIQDIADKRIGALSGGQQQRVFLARALINRPDLLILDEPTIGIDAETQAGFFELITHMHAHHHMTFLMVTHDLDMVKDYLGESPVSQNGKIQFFVRHSHEIENCAEVDLQHSLV	PGPT0004230_1863	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
AK002_02165	807	znuB_1	COG1108	High-affinity zinc uptake system membrane protein ZnuB	TTGCTTGATATTTTGCTTAGCGATTTTTTCCAGCGGGCTCTGATCGGAGGGGTTCTGATCGGGATTACGGCCCCGCTTATCGGGATATTCCTCGTGCTGCGCAGGCTGTCGATGATCGGCGATACGTTGTCGCACGTCACGATAGCGGGCGTGGCCCTCGGATTTTTGATCGAAGTCTACCCGCTTGCCGCAGGATTGGTATTTGCGGTGCTGGCCTCTTTTGCGATTGAGAAGCTGAGAAAGGCCTACAAAAGTTATGCCGAGCTGTCAATCGCCATTATCATGTCGGGCGGCGTTGCGCTGGCCTCGCTGTTTTTCACGCTGGGAATGGGCTATAATACGGATGTCATGAGTTATTTGTTCGGCAGCATCTATACGCTGGATTCCACGGATATTTATATGGTAGGCGGCGTAACCGTCGTTGTCATTGCGGTGGTGGTTATGTTCTTCAAGGAATTTTTTCTGCTCAGCTTCGAGGAGGATGCGGCCAGCGTCAGCGGCCTGCCCGTCAAGTGGATGAACATGATCATTACGGTGCTGACGGCGCTTGTCGTAAGCACCGCCATCAAGATTGTGGGCGCGCTTCTGGTCTCCGCATTGCTGACCATTCCGGTAGCGATCAGTTTATTGCTGGCGAGAAGCTTTCGAAGCTCCATCGTATTATCGGTAATCATCTCCGAAATTGCCGTTATCGGGGGACTGATGCTTGCCGGCGTATTTAATTTGGCACCCGGCGCCACCATCGTGCTGCTGCTGATCAGCCTGCTCATCATTACGCTTGTCGGCAAAAAGGGCTTTACGACATAA	MLDILLSDFFQRALIGGVLIGITAPLIGIFLVLRRLSMIGDTLSHVTIAGVALGFLIEVYPLAAGLVFAVLASFAIEKLRKAYKSYAELSIAIIMSGGVALASLFFTLGMGYNTDVMSYLFGSIYTLDSTDIYMVGGVTVVVIAVVVMFFKEFFLLSFEEDAASVSGLPVKWMNMIITVLTALVVSTAIKIVGALLVSALLTIPVAISLLLARSFRSSIVLSVIISEIAVIGGLMLAGVFNLAPGATIVLLLISLLIITLVGKKGFTT	PGPT0004225_1751	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
AK002_02166	714			hypothetical protein	ATGGCTGATATTAATATCGGCATCGCGTTTGCGGCCGGTTTCGCTTCATTTATATCTCCATGCTGCCTGCCGCTGTACCCGTCCTATTTATCCATTATTACAGGCATGTCGGTCAATGACTTAAAGAACGAACAGAACCGCAAGGAGGTCCGTTTCCGGACCATGACGCACACACTCGCGTTCATCCTTGGGTTTTCTGCTGTTTATTACACTCTCGGTTGGGGGGCAGGCCTGTTCGGGGAGTTCTTCACGGAATACCAGGATCTGATTCGTCAGTTATCCGCGCTGCTGATCATTGTGATGGGACTTATGCTTATCGGCATTTTCCAGCCTAAATTTCTCATGAAAGACCGGAAATTCAATTTTAAATCCAAACCGACCGGATACATAGGAACATTTCTATTTGGTATCGGCTTCGCCGCAGGCTGGTCGCCTTGCGTAGGACCGATTTTGACGGCGATCATCGCGCTTGCAGCTTCCGATCCGGGAACATGGTTCCCGCTGATCACTTCATATTCGCTCGGGTTTGCGGTACCGTTTTTCATCCTGGCCTTTTTCATCGGCTCCACCCGCTGGATTCTTAAATATTCAAGCACGCTGATGAAGGTCGGCGGCGTCTTGATGATTCTGATGGGGGTTCTGCTCTTCACGGATCAAATGTACAAAATTACGATTTGGCTGCAAGGCATTACGCCGGAATGGCTTAAATTCTAA	MADINIGIAFAAGFASFISPCCLPLYPSYLSIITGMSVNDLKNEQNRKEVRFRTMTHTLAFILGFSAVYYTLGWGAGLFGEFFTEYQDLIRQLSALLIIVMGLMLIGIFQPKFLMKDRKFNFKSKPTGYIGTFLFGIGFAAGWSPCVGPILTAIIALAASDPGTWFPLITSYSLGFAVPFFILAFFIGSTRWILKYSSTLMKVGGVLMILMGVLLFTDQMYKITIWLQGITPEWLKF				NA	NA	NA	NA	NA
AK002_02167	426	mntR	COG1321	HTH-type transcriptional regulator MntR	ATGCCGACACCTAGCATGGAGGATTATTTGGAGCGCATCTACAAGTTGATCGACGAAAAAGGATATGCGCGCGTTTCGGATATTGCCGAAGGCTTGGAGGTTCACCCCTCATCCGTCACGAAAATGATTCAAAAGCTGGACAAAGACGAATATTTGATTTATGAAAAATATCGTGGTTTGGTTCTGACCAGCAAAGGCAAAAAAATGGGCAAGCGGCTCATGGAACGTCATCATTTGCTTGAGGAATTCCTTGAGATGATCGGTGTACAGGATGAAAACATTTACAGGGACGTTGAAGGAATCGAGCATCACTTGAGCTGGGATTCCATTACGAGAATTGAGACGCTTGTGGAATATTTCAAGCGTGATGAGAATCGACTTCAGGATTTGCGTGACGTTCATAACGAATTAGTCAACGAATCGTAA	MPTPSMEDYLERIYKLIDEKGYARVSDIAEGLEVHPSSVTKMIQKLDKDEYLIYEKYRGLVLTSKGKKMGKRLMERHHLLEEFLEMIGVQDENIYRDVEGIEHHLSWDSITRIETLVEYFKRDENRLQDLRDVHNELVNES	PGPT0003895_53	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003895-mntR|dtxR|ideR|sirR|troR-K11924	NA	NA
AK002_02168	1557			hypothetical protein	ATGAAGCTTCGTAGATGGTTGTTGGTGCTGATCATGCTGCTATTGTGTCTCCCGTCGGTGGTCCCAACCGCGCAAGCGAAGGCGGCTCGTATCAGCATTCAGCTGGACGGTGTAAACCTGAACAGTGACGTATCTCCTTACATATTGCCAAAGGTTAACGTGACCATGGTTCCTACGCGGATCATCAGTGAAGGACTTGGCGCTTCGGTCGCTTGGAATCAGAAGTCGAAGACGGTAACAATCGGAAAGGACGGTTCGAGCCTGCAATTGACATCCGGCAAAAAAACCGCCCTCGTGAATGGATCATCGGTAGCGCTGGATGCTTCCGTTGAAATCAAGAACGGCCGGGTCATGGTTCCGCTGCGTTTCATCAGCGAGAATCTGGGCGTTCAAGTTGAGTGGAATCAGGCGGCACAGCGCATCTCGCTGTCCACGGGTTCGGTCGTCGTTCCTCCGCCGGTATCAACCGGGGATGAAGTCAGAGGGGCCTGGATATCCACCGTGTTCAATCTGGACTGGCCGAAAACGAAGACCAGCGCGGAACAGCAGCAAGCCTCTTACATCGCCTTGCTGGATTCGCTCCAGGATGTTGGCATCAATACCGTATACGTGCAGGTGCGTCCGGCCGGTGATGCATTGTATCCTTCCACCATGGTACCGTGGTCGAAGGTGCTGACGGGCATTCAAGGTGCCGATCCGGGTTACGACCCGGTTGCTTTCATGGTAGAGGAAACGCACAAACGGAACATGGAATTTCACGCTTGGTTTAATCCATTCCGGGCGAACACCGATATTTTGACGGCATCGCTCCATCCGTCCCATGTTGCGCTAAGCCATCCGGATTGGATCGTGAATACAGGCAAGCAGCTGTATATTAATCCTGGAATTCCAGAAGCCAGGCAGCATATCATCGATACGATCATGGAGGTCGTTAACGGATACGATATTGACGGCATCCATCTGGACGACTACTTCTATCCGTCCAATACGGTCTTTAACGATGACGCGGCATACCGCGAGTTCAATCATGGAGCCTACGCCAATCTTGCGGATTGGCGCCGCGGAAATATCAATGCCTTTGTCCAATCGCTTGGAGAGAGCATTCATCGCGTGAAACCGGACGTCGAATACGGAATCAGCCCTTTCGGCGTATGGCGTAACCAGTCCGTGGATAAGACGGGATCGGATACGAAAGCCGGTGTAACGGCGTATGACAGCATGTATGCCGATGTGCGGTCCTGGATCCAGAACGGCTGGATCGATTACGTCGCACCGCAGATCTACTGGAGCATGAGTAATCCGGCAGCCGACTATGATAAGCTGGTGGACTGGTGGGCCAGCGAAGTACAAGGAACCGGCGTAGATCTTCTGATCGGTCATGCCCCCTACAAACTGGGAACCAGCGAAATCGGCTGGCAGAGCGCATCGGAAATCATCAATCAATTGAAGTACAATCAAAACCATGCCGAAGTGAAAGGCAGCATTTTCTTTAGAGCAGAGAATATTTTAAGCAATCCGTTAGGCATTAAAGATCAATTGCAATCATATTATAGATAA	MKLRRWLLVLIMLLLCLPSVVPTAQAKAARISIQLDGVNLNSDVSPYILPKVNVTMVPTRIISEGLGASVAWNQKSKTVTIGKDGSSLQLTSGKKTALVNGSSVALDASVEIKNGRVMVPLRFISENLGVQVEWNQAAQRISLSTGSVVVPPPVSTGDEVRGAWISTVFNLDWPKTKTSAEQQQASYIALLDSLQDVGINTVYVQVRPAGDALYPSTMVPWSKVLTGIQGADPGYDPVAFMVEETHKRNMEFHAWFNPFRANTDILTASLHPSHVALSHPDWIVNTGKQLYINPGIPEARQHIIDTIMEVVNGYDIDGIHLDDYFYPSNTVFNDDAAYREFNHGAYANLADWRRGNINAFVQSLGESIHRVKPDVEYGISPFGVWRNQSVDKTGSDTKAGVTAYDSMYADVRSWIQNGWIDYVAPQIYWSMSNPAADYDKLVDWWASEVQGTGVDLLIGHAPYKLGTSEIGWQSASEIINQLKYNQNHAEVKGSIFFRAENILSNPLGIKDQLQSYYR				NA	NA	NA	NA	NA
AK002_02169	924			hypothetical protein	ATGCACATCAATGCGGTTTTTGAAGGCGGGGGGGTCAAGGGCATCTCGCTTGCCGGGGCTGTCAAGGCGGCGGAGAATGCCGGCATGGTATTCAGCCGCGTTGCCGGAACCTCCTCGGGCTCCATCGTGGCATCCGTGCTGGCAGCAGGTTACCGAGCTGACGAAATCAAACGTATTATCGAGGAAACGCCCTTTCATTCGTTTCTCCAGCGGGCACCCATATTTAATACGAAGTTTATCGGTCCTGCCTTGCGGGTGTTGATTAAGAAGGGGCTCTATTCCGGAGAAGCCCTGGAGAATTGGATAAGGGAAATCCTGCTGGCGAAAGGGATATTTACCTTCTCGGACATCCCGGCAGGCAAGCTTTATATCGTGGCATCGGATATCACCAATGGCAGGCTGCTGGTGCTTCCGGATGATCTCCGCCAATACGGGATCAACCCTGCTACCTTTCCCGTAGCCAAGGCTGTGCGCATGAGCTGCAGCATCCCCTATTTTTTTGACCCCGTCATTCTTCGTTTGTTGGGCAGGGCCGCTAAAGGCAAATCGTTCGGCGAACAATTTGTTTATATCGTGGATGGGGGATTGCTCAGCAACTTCCCCTTATGGCTTTTTGATCGCGAATCGAAGGGTGGGCCTAAGCCCCTGCCGGTGCTTGGCTTTCAAATGGTCGGGAAGAACAGCAACCTGCCTCATCTGATCGAAGGCCCGATCGGCATGTTAACCGCCATGTTCGAGACGATGCTGTCCGCACACGATGAACGTTATATCGAGCAGCAAAACCGAAATCGCACGATCAAAATTCCGACGCTCGGCATCGGCACCACCCATTTTAATCTGACCAAAGAGGAAAGCGAGAATTTGTACAATTCCGGTCTGACGGCCGGCACGATGTTTTTCACCCGCTGGAATGCCGAACATTAA	MHINAVFEGGGVKGISLAGAVKAAENAGMVFSRVAGTSSGSIVASVLAAGYRADEIKRIIEETPFHSFLQRAPIFNTKFIGPALRVLIKKGLYSGEALENWIREILLAKGIFTFSDIPAGKLYIVASDITNGRLLVLPDDLRQYGINPATFPVAKAVRMSCSIPYFFDPVILRLLGRAAKGKSFGEQFVYIVDGGLLSNFPLWLFDRESKGGPKPLPVLGFQMVGKNSNLPHLIEGPIGMLTAMFETMLSAHDERYIEQQNRNRTIKIPTLGIGTTHFNLTKEESENLYNSGLTAGTMFFTRWNAEH				NA	NA	NA	NA	NA
AK002_02170	336			hypothetical protein	ATGAGAAGGCATGCGATCATTTTTTGGACGGCGATTACGTTGGCCGCCATAGGGCTACTGGTATTCCTGTTAGACCCTGGATCAAGAATGAGAATATTGATTCCTCTAATTATTGTTGCTGTCGTGTATGTGCTTTACAAGTTCCCGCCACGCCGTTTTAACAAACGGCCCAAGGTGAAGCCTTCCAAGCGGACGGCGGCGAAACTGGCGGCGGCTAAGAACAGCACCGTACGCAAAAGCAACCCCACTGCTAAACGTAAACAGTATCCGTTTCAAGTGATCGATGGGCACAAAGGAAAATCCGACCCATCCGATGATGTTCCTAAATACCATTAA	MRRHAIIFWTAITLAAIGLLVFLLDPGSRMRILIPLIIVAVVYVLYKFPPRRFNKRPKVKPSKRTAAKLAAAKNSTVRKSNPTAKRKQYPFQVIDGHKGKSDPSDDVPKYH				NA	NA	NA	NA	NA
AK002_02171	993			hypothetical protein	TTGTCCGATAAGTCAACCCCGATCAGCTATGGAGGCCAAGCTGTAATCGAAGGCGTTATGTTCGGCGGCAAGCATGTGAATGTGACGGCCGTGCGGCGTAAAAATAATGAAATCAAGTTTCTCGAGGTGCCTCGCGAAGACAAGGCATGGGTTCGGAAGCTGCGGAAGATCCCGCTTCTTCGCGGCATCGTCAGTCTCATAGATTCTACTATCAAAGGCTCCAAACATTTGAATTACTCTGCCGATGCTTATGCTGACGATACGCTGGAGCCCGAAGAACGCGAGAAGCAGAAAGAGAAAGAAGACTCCGGCTGGAGTTTAAGCATGATTATCGGTGTGGCCGCCGTCAGCGTGCTTTCCTTTGTTTTCGGCAAGCTGCTGTTTACACTCGTTCCTGTTTTCGTAGAGGATTTCTTTTTTGGCGATACATTTGATCACTATATCGTGCATAACCTGATTGAAGGCGTTATTAAATTAATACTGCTTCTCGTGTATTTATGGGCGATCTCGCAAACACCCGTCATTAAAAGGCTCTTTCAGTACCACGGCGCCGAACACAAAGTCATCAGCGCATTTGAAGCCGGCGAAGAGTTGACGGTGAAGAACGTTCAGAAATATACGCGGCTGCATTATCGCTGCGGCAGCAGCTTCATGATGCTGACCATTGTGCTCGGCGTCGTTGTCTACTCGGTGGTGCCATGGGATACCATGACGCAGCGGGTCATTCAAAGAATTGCGCTTCTTCCGGTCGTGCTTGGCGTTTCCTTTGAATTCCTGAAATTGACCAATGCCATGCGGGACCTGCCGGTACTCCGTTTCCTCGGATATCCCGGTCTGTGGCTGCAGCTTTTGACGACGAAGGAACCTACTGATGATCAAGTTGAAGTATCCATCGCATCCTTTAACAGAATGCGTGAGTTAGATGCTCAATACGAGAATGTTACAGTTCACCAATCTGTGACAGGAAGTGTGCTGGATCCCGCGAAAGGGTGA	MSDKSTPISYGGQAVIEGVMFGGKHVNVTAVRRKNNEIKFLEVPREDKAWVRKLRKIPLLRGIVSLIDSTIKGSKHLNYSADAYADDTLEPEEREKQKEKEDSGWSLSMIIGVAAVSVLSFVFGKLLFTLVPVFVEDFFFGDTFDHYIVHNLIEGVIKLILLLVYLWAISQTPVIKRLFQYHGAEHKVISAFEAGEELTVKNVQKYTRLHYRCGSSFMMLTIVLGVVVYSVVPWDTMTQRVIQRIALLPVVLGVSFEFLKLTNAMRDLPVLRFLGYPGLWLQLLTTKEPTDDQVEVSIASFNRMRELDAQYENVTVHQSVTGSVLDPAKG	PGPT0015034_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015034-yqhQ-NA	NA	NA
AK002_02172	498			hypothetical protein	ATGCATGAACATCAATTTCGTAAGCAGAACCAGATAACCAATCCGTTTACGTTTGCGCTGGAGCTAGGCTATTATGCCGGCCTGATCTGGGGGGGCGTGCTTTGGATCTTTTACTGGTTGAGATTCACGAAGGTTGTACCCGGTTTTTTGCTGGAGCCATTTTTCAAACATGAATTCCTCAAGACCACAGCCGGGCAAATCGCCGGGTGGCTGTCCTTCATCGCTTTTTCCGTCATCGCTTCCCTCATTTATGTAGCCCTGTTCAGGAAGCTGAAGGGCCCATGGCCCGGGATAGCTTACGGAATCGTGTGGTGGGCGGTGCTGTTTGTTGCGCTCAATCCCTGGCTTCGGCTGACGGACCCGGTGAAGAAGCTGTCCTGGGATACAAACATTTCGGAGGTTTGTATTTTTATATTATGGGGCCTCTTTATCGGTTATACGATTGCGCAGGAATTCACCGACGAGAAACTGCGTGAACCGAAGAAGCTGACGGGTTAG	MHEHQFRKQNQITNPFTFALELGYYAGLIWGGVLWIFYWLRFTKVVPGFLLEPFFKHEFLKTTAGQIAGWLSFIAFSVIASLIYVALFRKLKGPWPGIAYGIVWWAVLFVALNPWLRLTDPVKKLSWDTNISEVCIFILWGLFIGYTIAQEFTDEKLREPKKLTG				NA	NA	NA	NA	NA
AK002_02173	447	yqhS	COG0757	3-dehydroquinate dehydratase	ATGAAATCCATATGGGTGATAAACGGACCGAACTTAAACCTGCTCGGCTTCCGGGAACCGGGCATTTATGGTTCGCTCAGCCTGCAGGCGATCGAAGATAATTTGCGTAAACAGGCGGATCTCGCCGGTATCGGTATTACCTTCTTTCAGTCTAATCATGAGGGTGCTATCATTGACCGTATTCATGAAGCGATCGGACAGGCTGACGGCATACTCCTGAATCCGGGAGCACTGACTCACTACAGCTACGCTGTGCGTGATGCCATCAGTTCTGCCCGCATTCCGACAGTCGAGGTTCATCTCTCTAATATTCACGCCAGAGAGGAATTTCGTCATACCTCCGTCATAGCGCCTGTGGCTGTCGGACAAATCGCGGGTTTTGGCGCGGCGAGTTACACATTGGGCTTGTCGGCACTGCTGCAAGTCCTGGTCGACCAAGAAGGGTAG	MKSIWVINGPNLNLLGFREPGIYGSLSLQAIEDNLRKQADLAGIGITFFQSNHEGAIIDRIHEAIGQADGILLNPGALTHYSYAVRDAISSARIPTVEVHLSNIHAREEFRHTSVIAPVAVGQIAGFGAASYTLGLSALLQVLVDQEG	PGPT0012905_1975	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
AK002_02174	1071	ypdF	COG0006	Aminopeptidase YpdF	ATGAGTAACAAACGAGTGGTTAAATTGCGCGAACAGCTTCAAGCCAAAGGTTTGACGGCTATGCTGATTGCAAGTCCGATCAACCGCAGATATTTAACGGGCTTTACCGGTTCAGCCGGTTATGTGCTGATCACACGCGATGAGGCCTATCTGTTGACGGATTTCCGCTATATGACGCAAGCACCGCAGCAAGCCGCCGGTTTTAAAGTGGTCGAGCACGGGCCGAAAGTGATGGAGACGGTCAGGGGTCTGTTGTCTTCCGAAGGCATCACATCGCTCGGATTCGAACAGGACCATGTTACATACGGCGTGTTTTCCGCATATTCGGAACAGCTCGCGCCCATCAGCCTGATGCCGGTTTCGGGCCTTGTAGAAGACTTGCGTATATTCAAGGATGCCGAAGAGTTGAGCATTATGCAGCGGGCAGCGGATTTGGCTGATCAGACGTTCAGCCATGTCCTGACGATTCTGGCTGCCGGCAAAACGGAACGGGAAATCGATCTCGAGATGGAAATGTTCATGCGCAAGCATGGCGCAACCGCGTCTTCCTTCGACACGATCGTTGCTTCCGGCGAGCGTTCGGCGCTTCCTCACGGCGTAGCCAGCGAGCGGGTCATTCAAGGGAACGAATTCGTTACGTTTGATTTCGGCGCTCTGCTGGACGGGTACTGCTCCGATCTCACGAGAACCGTGGCGCTCGGCCGTCCTGATCCGAAGCTGAAGGAGATCTATGATATCGTGCTTGAAGCGCAGCTTCACGCACTGGATCATATTAAACCAGGCATGACGGGACGCGAGGCAGACGCTTTGGCTCGCGATATTATTTCGCGTTACGGATACGGGGAATATTTCGGCCACAGCACGGGGCACGGATTGGGCATGGAGGTTCATGAATCGCCGCGGCTTTCCAAGCTGAGCGATGACGTGCTGCAGCCCGGCATGGTCGTAACGGTGGAGCCGGGCATTTACCTGCCTGGACTTGGCGGTGTCCGCATCGAAGATGATATCGTCATCACGGAAACGGGCATTCGCATACTGACAAGCTCGTCCAAAGATTACACCATATTGTAA	MSNKRVVKLREQLQAKGLTAMLIASPINRRYLTGFTGSAGYVLITRDEAYLLTDFRYMTQAPQQAAGFKVVEHGPKVMETVRGLLSSEGITSLGFEQDHVTYGVFSAYSEQLAPISLMPVSGLVEDLRIFKDAEELSIMQRAADLADQTFSHVLTILAAGKTEREIDLEMEMFMRKHGATASSFDTIVASGERSALPHGVASERVIQGNEFVTFDFGALLDGYCSDLTRTVALGRPDPKLKEIYDIVLEAQLHALDHIKPGMTGREADALARDIISRYGYGEYFGHSTGHGLGMEVHESPRLSKLSDDVLQPGMVVTVEPGIYLPGLGGVRIEDDIVITETGIRILTSSSKDYTIL	PGPT0006770_6495	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
AK002_02175	558	efp		Elongation factor P	GTGATTTCAGTTAACGATTTTAAAACAGGTTTGACCGTAGAAGTTGATGGCGATATTTTCACCGTATTGGATTTTCAGCATGTTAAGCCGGGTAAAGGCGCAGCTTTCGTACGTTCCAAATTGAAAAACCTTCGCAACGGCAACACCGTTGAGAAGACGTTCCGTGCAGGCGAAACGATTGGCCGCGCCATCATCGACAACCGTGGCGTTCAGTATCTCTATGCCAGCGGTCAAGAGCATGTTTTCATGGACAACGAAACTTACGACCAGTTCAGCTTGACCAGCGAGCAGCTGGAATGGGAGCTTAACTTTCTGAGAGAGAACATGAACGTTAACATCATCAGCTACCAAGGCGAGATCCTCGGGATCAACCTGCCTAACAGCGTCGAGCTGAAGGTCGTTGAAACCGAGCCTGGCATCAAAGGCAACACGGCTACCGGCGCTACGAAGAACGCCAAAGTGGAAACCGGCCTGAATGTACAAGTACCGCTGTTCATTAACGAAGACGATGTGCTTCTGATCGATACACGCGAAGGTAAATACATTTCCCGTGCGTAA	MISVNDFKTGLTVEVDGDIFTVLDFQHVKPGKGAAFVRSKLKNLRNGNTVEKTFRAGETIGRAIIDNRGVQYLYASGQEHVFMDNETYDQFSLTSEQLEWELNFLRENMNVNIISYQGEILGINLPNSVELKVVETEPGIKGNTATGATKNAKVETGLNVQVPLFINEDDVLLIDTREGKYISRA	PGPT0016205_4458	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
AK002_02176	1254	lysC_1		Aspartokinase	TTGTCACTGTACGTCATGAAATTCGGAGGCAGCTCTGTAGGGGATACAGAACGCATGAAGCGCGTTGCCAGAAGAATTGTAGAGAAACAAGATGAAGGTCATCAATGTGTAGTCGTGGTGTCTGCCATGGGGGATACGACGGACGATTTGATTGACCAGGCAAAGCTGTTAAATGAGAATCCACCGGCGCGGGAAATGGATATGCTGATGACCACGGGGGAGCAGATATCCATCTCGCTGCTATCCATGGCGATTCACGGGCTTGGACGCAAGGCAGTGTCCTTGACCGGCTGGCAGGCGGGATTTCGCACGGAAGCCGTCCATGGTAAAGCCCGCATTACAGATATAAAGCCTGAGCGCGTGCACAAAGCGCTTGGCGAAGGAAATGTCGTCATTGTCGCGGGATTCCAGGGCATGTCCGAAGACGGAGAGATTACAACGCTTGGACGCGGGGGCTCAGATACCACCGCGGTAGCTCTTGCGGCTGCCATTCAAGCGGATGTATGTGAAATATATACGGATGTGGACGGGATATACTCCACGGATCCGCGGGTTGTCAAATGCGCGCGGAAACTGAAGGAGATTTCCTATGACGAGATGCTCGAGCTTGCCAATCTGGGCGCGGCTGTTCTTCACCCGCGTGCGGTCGAGTATGCGAAGCATAATCAAGTCAAGCTTGTCGTCAGATCCAGCTTTAATCATAACGAGGGTACGGTTGTTAAGGAGGAAACAAGCATGGAACAAGGTGTGGTTGTCAGCGGAATTGCATTCGACAAGAATGTAGCGAGAATCAGTATTCTGGGCGTAGCCGATACGCCGGGCGTTCTGGCCCAAGTGTTCGGAGAGCTTGCAAAAGAATCGATTGACGTTGATATCATCGTGCAGAGCGGCGTTCAGAACGGCGAAGCGGACTTTTCCTTTACGGTGTCCCTGGCGGATCGGGAGCGTGCGTTGTCCGTGATCGAACACATTCGCGGCAAGCTGCCGTATCGCGACGTTACCTCGGAAGACCATCTTGTGAAAGTATCGATTGTCGGCGCGGGCATGGTCAGCCATCCCGGCGTGGCGGCACAAATGTTTGACGTGATCTCCCGGCAGGGAGTCAGCATCAAAATGGTCAGCACGTCCGAGATCAAAGTATCCTGCGTCATCGAGGGAAGCAATCTCGAAGGGGTCGTGCAGGCGCTTCATACCGCGTACGGACTGGATACGGATCAGCAGGCTTCCGTAGGCGGACCGCAGGTACGCCGATAA	MSLYVMKFGGSSVGDTERMKRVARRIVEKQDEGHQCVVVVSAMGDTTDDLIDQAKLLNENPPAREMDMLMTTGEQISISLLSMAIHGLGRKAVSLTGWQAGFRTEAVHGKARITDIKPERVHKALGEGNVVIVAGFQGMSEDGEITTLGRGGSDTTAVALAAAIQADVCEIYTDVDGIYSTDPRVVKCARKLKEISYDEMLELANLGAAVLHPRAVEYAKHNQVKLVVRSSFNHNEGTVVKEETSMEQGVVVSGIAFDKNVARISILGVADTPGVLAQVFGELAKESIDVDIIVQSGVQNGEADFSFTVSLADRERALSVIEHIRGKLPYRDVTSEDHLVKVSIVGAGMVSHPGVAAQMFDVISRQGVSIKMVSTSEIKVSCVIEGSNLEGVVQALHTAYGLDTDQQASVGGPQVRR	PGPT0014040_3843	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
AK002_02177	267			hypothetical protein	ATGCTGGACAAGTTTGTCGCTAGTATGGCAACGCTTCGGATTTTCTCAGGCAGCCTTGAGATCGTCGCGGCCATCATCATGCTGCGCCTGAACCAAGTCGATAAAGCGCTTGCCGTGAATTCGGCATTGGCGTTTACGGGTCCGCTTATTTTGATTCTGACCACAACCATCGGCCTGGTGGGAATGGCAGATAAATTGTCATGGGGGAAGATCGGCTGGATATTGTGCGGCGTCTCCTGTCTCTTATACGGGGTTTTAAAAAAATGA	MLDKFVASMATLRIFSGSLEIVAAIIMLRLNQVDKALAVNSALAFTGPLILILTTTIGLVGMADKLSWGKIGWILCGVSCLLYGVLKK				NA	NA	NA	NA	NA
AK002_02178	999			hypothetical protein	ATGACATTGAATTGGTTAGACCTGTTTCCCGAAACCGTCAAACGCATGCTGCTGAACCTATCGAAAGAGCTTCTCGAACATGTGGAGGAGGTACGGATCCGGGAGGAGCGTCCGCTGGAGATCAATTCGGCGGGCAAGCATCATTTCCTGGACAGGCGAGGCGGACTCACCTTGCGGCCTGAAGAAGCGTATAAGCCGACGCGTGAAGATACCCATAGGCTGCTGGACCTTATCAGCAATCATTCCCTCTACACCATGGAAGAAGAGCTCCGAAAGGGGTTTATCACCATACCAGGGGGCCATCGGGTCGGGCTTACGGGCCGGACGGTGCTGAGCGGCGGCAGGGTGGAGCACATCCGGGATATCAGCGGATTTAATGTCCGGATTGCCAAGGAAATACAGGGAGCGGCGGACGACATCCTTCCTCATCTGCTTGACCGGAAACGGAAAAGGGTGATGCACTCGCTGATCTTATCTCCGCCCCAGCAAGGCAAAACGACGCTGCTCAGAGACCTGGCTAGACAGATCAGCTACGGCAAGTGGGGAAACTCTTCCGTGCATTGGCCGGGAATGAAGGTGGGCATCATCGACGAGCGTTCCGAGATCGCGGGTTGTTTGCGCGGCGTACCCGGATTCGATGTCGGCCCTCGCACGGACGTAATGGATGGTTGTCCGAAAGCCGAAGGGATGATGATGATGATCCGTTCGATGTCTCCGGACGTGCTCATTGTGGACGAGATCGGCCGGCCGGAGGATGCGGAAGCGGTGATTGAGGCTTTGCATGCCGGCATCAGCGTGATTGCAACGGCGCATGGCTCATCCGTTCAGGACATGCGGGGCCGGCCCGCCCTCTCGGGACTTCTGGAGAACCGGATGTTTGAAATGTATGCGGTTCTTAGCCGAACGGGCGACCACCGATCATACAAGCTGTATGACGGAGGCCAGCGAACGCTTCAGACGGCTATCAGCGGCCAGCCGGGAGGTGATGCCTATGCTTAA	MTLNWLDLFPETVKRMLLNLSKELLEHVEEVRIREERPLEINSAGKHHFLDRRGGLTLRPEEAYKPTREDTHRLLDLISNHSLYTMEEELRKGFITIPGGHRVGLTGRTVLSGGRVEHIRDISGFNVRIAKEIQGAADDILPHLLDRKRKRVMHSLILSPPQQGKTTLLRDLARQISYGKWGNSSVHWPGMKVGIIDERSEIAGCLRGVPGFDVGPRTDVMDGCPKAEGMMMMIRSMSPDVLIVDEIGRPEDAEAVIEALHAGISVIATAHGSSVQDMRGRPALSGLLENRMFEMYAVLSRTGDHRSYKLYDGGQRTLQTAISGQPGGDAYA	PGPT0024720_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024720-spoIIIAA-K06390	NA	NA
AK002_02179	519	spoIIIAB		Stage III sporulation protein AB	ATGCTTAAACTGGTCGGGGCCGTGCTCGTGCTGGGTGCAGGAACCTTAGCCGGATTCTACCAAGCCCAGCAATTCGCAGCAAGACCCAGACAGCTGCGAGAACTTATTCTCGCGCTTCAACGGCTGGAGACGGAAATCAGCTACGGCTTTACGCCGCTGCCCGACGCGCTGGAGCGAATCGGCGTTTCCCTTCGTGAACCGCTCAAATCCCTGTTGGCCTCCGCAGCGCTTTACATGAGACCCGATTACGGGTTATCCGCACAAGACAGCATCCGCAAGGCGCTTGGCGAACATTGGAGGCGAACATCGATGAAAAGTGCCGAACGTGAGGTATTGGAACAGCTAAGCGGCGTACTTGGCACCAGTGACAGACAGGACCAGATCAAACATATCGCTCTGGCCGTGGGACAGCTCAAGCATGAAGAAGCAGCGGCAAGGGATGACCAGGTCAAATATGAAAAAATGAGCAAAAGTCTGGGACTGCTCATCGGAGCATTGATCGTCATATTGATCTTTTAG	MLKLVGAVLVLGAGTLAGFYQAQQFAARPRQLRELILALQRLETEISYGFTPLPDALERIGVSLREPLKSLLASAALYMRPDYGLSAQDSIRKALGEHWRRTSMKSAEREVLEQLSGVLGTSDRQDQIKHIALAVGQLKHEEAAARDDQVKYEKMSKSLGLLIGALIVILIF	PGPT0024725_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024725-spoIIIAB-K06391	NA	NA
AK002_02180	204			hypothetical protein	ATGAACATTGAAGTGAACGCGATCTTCCAGATTGCCGGTATTGGCATCATCATTGCCATGATTCATACCGTCCTGAAACAGATGGGGAAAGAGGATATGGCGCATTGGGTGACCCTCATCGGATTCGTGGTTGTATTGTTTATGGTCGTAAGGCTGCTAGACGATTTGCTGAAGGAAATCAAAAGTATTTTTCTATTCCAGTAG	MNIEVNAIFQIAGIGIIIAMIHTVLKQMGKEDMAHWVTLIGFVVVLFMVVRLLDDLLKEIKSIFLFQ	PGPT0024730_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024730-spoIIIAC-K06392	NA	NA
AK002_02181	390			hypothetical protein	ATGGAAATTATCCAGGTGGTAGGACTCGGCATCATCGCTACCGTGCTGATCTTGATTGTCAAGGAACAGAAACCGCTCTTTGCCTTTCTTCTCGCCGTGGCGACATCGCTCCTCATCTTCCTGTTCCTGATCGGAAAGATCGGTAATGTCATATCCATGCTGGAAGATCTGGCGGAGAATTCCGGCGTTCAGATCATCTATCTGAAGACGGTTCTGAAAATCATCGGAATCGCCTATATCGCGGAAATGGGGGCACAGATCGTTCGAGATGCCGGACAGGAATCGATCGCATCCAAAATAGAATTGGCGGGAAAAGTGCTCATATTGGTGCTCGCTGTACCGATTATCGGGATCATCATCGAGACGGTCCTGAAGCTCCTCCCGGCTTGA	MEIIQVVGLGIIATVLILIVKEQKPLFAFLLAVATSLLIFLFLIGKIGNVISMLEDLAENSGVQIIYLKTVLKIIGIAYIAEMGAQIVRDAGQESIASKIELAGKVLILVLAVPIIGIIIETVLKLLPA	PGPT0024735_68	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024735-spoIIIAD-K06393	NA	NA
AK002_02182	1209	spoIIIAE		Stage III sporulation protein AE	ATGGTGACAGGAGCAACACTTCGAAGAGGCTTGGCCGTGTTTTGCCTACTGATCCCGATGCTGTTGCTGTCCGGATGGTTCTGCGGGACGATCGATGCGGCTGCAGCCGCCAATCCGGCCGATGAGTGGGTCGAGCAGCAGACGCAGCAGCTGCCAACGGATCAGGTCGAGAAATACTGGGACCGGCTCATGAAGGATTACGGCGGGTTCTTCCCGGATGGCAGGACGCCCTCCCTGATGGATATGCTGCTGCCGGGCGGCGACGGGCTGAGCTTCAAAGGGGTTATGTCCGGTATCGGAAAATATCTGTGGCACGAGGTGCTCTATAACGGCAAGCTGCTGGCGACCATCGTCATGCTGAGCATTATGAGCTTGATTCTAGAGAATCTACAGACGGCCTTCGAAAAAAGCACCGTGAGCCGGGTAGCCTATACGATCTGTTACATGGTTGTCCTGGTCATCGCGGTCAACAGCTTCAGCATCGCGATCGGATATGCGCGGGACGCCATCACCCAAATGATCGATTTCATGATGGCCATGCTTCCTTTGCTCTTTGCGCTGATGGCCTCGATGGGCAATGTCGTCACCGTCTCGGTGGCCCATCCGCTGGTCATATTCATGGTACATACGGTAGGCACGCTGATCAGCACGATTGTGTTCCCGCTTTTATTCTTCTCGGCTCTGCTGCATCTGGTTAGCTCCTTATCCGAAAAGTACAAGCTGACCCAGCTTGGGAATCTGCTGCGAGGGATCTCGATGGGCGTCCTGGGTGTGCTGCTTACCGTGTTCCTGGGAGTTATCTCCGTTCAAGGGCTGACCAGCTCGGTTACGGACGGCGTAACCATCCGGGCAGCCAAATACGTAACCGGCAATTTCGTTCCGGTAGTCGGCAAGATGTTCGCAGATGCGACGGATACCGTAATCTCGGCTTCGCTGCTAGTTAAGAATTCCATCGGGCTGGCGGGGGTCATCATCATTTTGTTCCTTTGCGCATTTCCTGCGATCAAGATCTTGACGCTTGCCTTGATATATAACGTCGCGGCGGCCGTCATGCAGCCGCTCGGCGATACCCCGATCGGCACCTGCCTCCAGACGATCGGTAAGACGATGCTGTACGTTTTCGCGGCCTTGGCCGCGGTGAGCTTGATGTTCTTTCTCGCCATAACGATACTGCTCACGGCTGCCAACATCACCGTCATGATGAGGTGA	MVTGATLRRGLAVFCLLIPMLLLSGWFCGTIDAAAAANPADEWVEQQTQQLPTDQVEKYWDRLMKDYGGFFPDGRTPSLMDMLLPGGDGLSFKGVMSGIGKYLWHEVLYNGKLLATIVMLSIMSLILENLQTAFEKSTVSRVAYTICYMVVLVIAVNSFSIAIGYARDAITQMIDFMMAMLPLLFALMASMGNVVTVSVAHPLVIFMVHTVGTLISTIVFPLLFFSALLHLVSSLSEKYKLTQLGNLLRGISMGVLGVLLTVFLGVISVQGLTSSVTDGVTIRAAKYVTGNFVPVVGKMFADATDTVISASLLVKNSIGLAGVIIILFLCAFPAIKILTLALIYNVAAAVMQPLGDTPIGTCLQTIGKTMLYVFAALAAVSLMFFLAITILLTAANITVMMR	PGPT0024740_99	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024740-spoIIIAE-K06394	NA	NA
AK002_02183	720			hypothetical protein	ATGGACTGGCTTGGAGATTGGCTGAAAAGCGTCATCATGGTGGTTCTCTTTGCGGCCTTCGTTGATTTGATCCTGCCCGGGAAGGCGCTTGAACGCTACGCCAGGCTAGTCCTGAGCTTGTTGATTCTGCTTACGCTGCTCAGTCCCATCATTACATTAATCACGGATCCGCCGGAGAACCAGCTGGCGATGGAACTGGAGCGGCAGGAGAAGGGGCTGCCGGAGGAAATTCAGCTGGAGCATATCATGGCCCAGGCTGAAAAGCTCAAGGATACGCAGCAGAGTCAAAGCCTGCAATGGGCTGGCAATGAGTTAGCCAAGGTGATGAAAGAAGAGATCGCGGCTGAAACGGGGGAAGCCGTTCAAGAGGTCAAGGTGGTGCTGGCCGCGGTTGCCGGGCAGGGCAAGGAATATGCCGGCGCTGCGATACGCTCCGTTGACGTAAGGCTGGCTGGAGATGAGCCGGCGAATGCAGAGCTTGGGGAAGACGATAGAAGTCCCATCGGCGTAACGCCAGTGGATTCCGTTCAGGTGAACGTGGATTCCATGGCAGAGGAGAAGGATGGGAAGGCAGCAGTAAAAGAAAACGCAGAGGCAGTCAGCAAAGCCGAGGAAGCCAGAGCAGAACCGGTTCGGGACTACATCAGCCGCCGGTGGGATTTGGAGCCGGAGCTGATCACGATATATACGCCGGGGCAGGATCAGGATAACAAGCTGTAG	MDWLGDWLKSVIMVVLFAAFVDLILPGKALERYARLVLSLLILLTLLSPIITLITDPPENQLAMELERQEKGLPEEIQLEHIMAQAEKLKDTQQSQSLQWAGNELAKVMKEEIAAETGEAVQEVKVVLAAVAGQGKEYAGAAIRSVDVRLAGDEPANAELGEDDRSPIGVTPVDSVQVNVDSMAEEKDGKAAVKENAEAVSKAEEARAEPVRDYISRRWDLEPELITIYTPGQDQDNKL	PGPT0024745_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024745-spoIIIAF-K06395	NA	NA
AK002_02184	645			hypothetical protein	ATGGGAAATTGGTTGAAGCGGTTGGAGCAGTGGCTTGGCGGAGGAGCCGGCGGAGCAAGGAAGATGCAGACCTTCAGGTGGCTGATCATACTTGGCCTGATCGGCGTCGCGATCATGCTGTTCAACTCCTTCGTCAATGTCAAGAAGCTGGATCATGAGAATATCGGCCGCGAACCGCCGCCGGATACCGCCGCGGTCTCAACGACCCAGGGGGCTGCGAGCAGCAGCGGCGGCGGTGAATTCGAAAGCATCGAGCAAGATTTCGAAATGCGCACCAAGACGATGCTGGAACAGATCGTCGGCGTCGGGTCCGTGGATGTCATGGTGACCGTGGAGTCTACGGAAGAACTGGTGGTGCAGCGAAATATGAAGGATACGCAGGAACTCACGGAAGAAACCGATGCCAACGGAGGGAAACGCCATGTTACGAGTTACCAGCGCGACGGCCAGATCGTCACTTATGATTCTTCGGGCGAAGAGACGCCGATCGTCACCAAGAAGATCAAACCTCAGGTCCGCGGCGTGCTCGTCGTAGCCAAGGGGGCCGAGAATGAAGTCGTAAAGAGCTTGATCGTGGATGCGATCCAGCGGGGTCTGAACGTTCCATCTTATCGTATATCCGTCGTCCCTCGCAAACAGGAATAA	MGNWLKRLEQWLGGGAGGARKMQTFRWLIILGLIGVAIMLFNSFVNVKKLDHENIGREPPPDTAAVSTTQGAASSSGGGEFESIEQDFEMRTKTMLEQIVGVGSVDVMVTVESTEELVVQRNMKDTQELTEETDANGGKRHVTSYQRDGQIVTYDSSGEETPIVTKKIKPQVRGVLVVAKGAENEVVKSLIVDAIQRGLNVPSYRISVVPRKQE	PGPT0024750_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024750-spoIIIAG-K06396	NA	NA
AK002_02185	864			hypothetical protein	ATGAATAACAAAAGACAAACCATATGGTTAGTATCCATGCTTAGTTTAATGGTCATCCTGTCCGCTTACTACTTGTTCACGGACGATTCGGGAACGAAAGCGCCGCCGGTTGCCGAGAGCACGCAGGTGGACGGTCAGAAGCCCGGCGCAGGACAGGAAGCCAATGGAACCGCAGGCGACGAGCTGGTTGTGAACGAAGTTCTCGAAGAAGGCACGGACGGAGATTCCGGAGCCAACGAGCAAGGGACAGGAACGACGGATACGGGCGTAACCGGCACGGAGGATCCTGCAGAGGCAACGCAAGGTGAGCAGGATGACCAAGGGAAAGCGGCCGGAGAAGCGGATAAGCCGCAAGAACCGGAAGTGAAGGAATCCACGGACGGAGCCGATAAATCCAAAGACGCCAGCAGCACCGGCAAGGAGGAAGCAGAGACTTCCAAGGACACCAGCAGCACGAGCGGCGAAAAATCGGATAAAGAAGTGCTGGAGGAAGTGGCAGCCAACGCAACCTCTGCAGTCGCACAGCTGGATTCCTATAAACTGGACCGCGCACAAAAAAATAATAAATTATACGATGAATTAATGACAAAAATCGACAACCATGAAAATAAACCGGAGGAAACAGCACAAGCTACCCAGCAGCTGAAAGCGGCGGAAGCGAAAGAGGAAGTCATTCTCAGCATCGAGGAAACGCTGCAGCAGCAATTCGGCAACGCCGTAGTAAAGGAAGAGAGCGAGAAATATAATGTGGTCGTTCTGAGCGAGAAACTCGATGCCAAAGGCGCGGCGGACATCGTCAGTCTTGTGATGAAGGAATTGAAGGTTTCGCCGGATAAAGTAACCGTCCAATATGTTGCGCCATAA	MNNKRQTIWLVSMLSLMVILSAYYLFTDDSGTKAPPVAESTQVDGQKPGAGQEANGTAGDELVVNEVLEEGTDGDSGANEQGTGTTDTGVTGTEDPAEATQGEQDDQGKAAGEADKPQEPEVKESTDGADKSKDASSTGKEEAETSKDTSSTSGEKSDKEVLEEVAANATSAVAQLDSYKLDRAQKNNKLYDELMTKIDNHENKPEETAQATQQLKAAEAKEEVILSIEETLQQQFGNAVVKEESEKYNVVVLSEKLDAKGAADIVSLVMKELKVSPDKVTVQYVAP	PGPT0024755_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024755-spoIIIAH-K06397	NA	NA
AK002_02186	504	accB	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGTTTAAATTAAACGAAATTAAGGAACTTATTAAGCTGGTGGATCAAACTTCCGTGCATGAACTGGAGATTGAGAGCGAGGGTACACGCTTATCCATTAAGAAACCCAATGCAGCCGAGGTCGTTAACAACTATCAGGCCGCGCCGCAAGCGTACATACCGGCTCAGCAAGTGATGGCACCGCAGATCGTACAGCCGAATACGGGGAATCAAGCACCTGCAGCGGCACCCCAGCAGGATTCAGCGGAGGATAGCAACAGCTCATTACATAAAATCGTATCACCGATGGTAGGAACCTTCTACCGTTCCCCATCGCCTGAGGCTGGGCCGTTTGTAAGCCCGGGGGACAAGGTGACGGAGAAATCGACGGTCTGCATCATCGAGGCCATGAAGCTGATGAATGAACTGGAAGCAGAGATCAAGGGCGAAATCGTTGAGGTTCTCGCGCAGAACGGTCAGCTTGTAGAATTCGGGCAGCCTCTGTTCCTGGTGAAGCCGGAGTAA	MFKLNEIKELIKLVDQTSVHELEIESEGTRLSIKKPNAAEVVNNYQAAPQAYIPAQQVMAPQIVQPNTGNQAPAAAPQQDSAEDSNSSLHKIVSPMVGTFYRSPSPEAGPFVSPGDKVTEKSTVCIIEAMKLMNELEAEIKGEIVEVLAQNGQLVEFGQPLFLVKPE	PGPT0001700_744	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
AK002_02187	1344	accC	COG0439	Biotin carboxylase	ATGACAATTCAAAAAGTGCTTATCGCGAACCGCGGAGAGATAGCAGTCCGTATCATCCGGGCTTGCCGGGAGCTTGGCATCGCAACCGTTGCCGTATACTCGGAGCCGGACCGGGAATCTCTGCACGTTCGCTTGGCGGACGAGGCCTATTGCATCGGCCCTACATTATCGAAAGACAGCTATTTGAATTTCACGAATATCATGAGCGTGGCTACGCTGACCGAGTGTGACGCGATTCACCCCGGTTACGGCTTTTTGGCCGAGAACGCGGATTTCGCGGAGATCTGTGAATCCTGCAACATTACCTTTATCGGCCCTTCCGCCGACGCGATCAACCGTATGGGCGACAAGGCGGTGGCGAAGCAAACGATGAAGGATGCGGGGGTTCCGGTTATTCCCGGGTCCGACGGATTGGTCGAGGATCTGGACGAGGCCGTCATGCTCGCACGCGACATCGGTTATCCGGTCATTATCAAAGCGACCGCAGGCGGCGGAGGTAAGGGGATTCGAATCGCCGAGGATGAGGAATCGCTGATCAAACAGATTACGAACGCCCAGCAGGAAGCCCAAAAGGCTTTTGGCAATGCTGGCGTGTATCTTGAAAAATATCTCACCGGCATGAAGCACGTGGAGATTCAGATTATCGCCGATAAACACGGCAACGCCGTGCATCTCGGGGAGCGTGACTGTTCCGTGCAGCGCCGGAGACAGAAGCTGGTTGAAGAAGCTCCTTGTCCGGTGCTAAGTGAAGAGGTACGCAGCCGAATGGGTGAAGCCGCCGTTCGCGCGGCAAAAGCGGTAAACTACTCCGGTGCCGGCACGCTTGAATTTTTGCTGGGCCAGGACGGACAGTTCTACTTCATGGAGATGAACACGCGGATTCAGGTGGAGCATCCGGTAACGGAGATGGTAACCGGCGTGGATCTGATTCAGGAAATGATCTCCGTTGCTGAAGGCAACACACTTTCCTTCAGTCAAGAGGATGTTGTCATTAACGGCTGGTCTATCGAGTGCCGGATCAATGCCGAGAATCCGGACAAGGGCTTCATGCCTGCACCGGGAACCATTCAATTCTATTTGCCTCCGGGGGGGCCCGGCGTGCGGGTGGACAGCGCGGCATATCCCGGTTACACGATTTCGCCTTATTACGATTCGATGATTGCCAAGCTCATTGTATGGGCGCCGACCCGCGATGAAGCGATCGCGAAGATGAAACGCGCTTTGGCTGAATTCGAGATTGAAGGGATCTATTCGACCATCCCGTTCCATCAGAAACTGCTGAAGCATCCTACCTTCTTGAAGGGCGACTTCGATATTAAGTTTTTGGAAGAAAATGAGATTTAA	MTIQKVLIANRGEIAVRIIRACRELGIATVAVYSEPDRESLHVRLADEAYCIGPTLSKDSYLNFTNIMSVATLTECDAIHPGYGFLAENADFAEICESCNITFIGPSADAINRMGDKAVAKQTMKDAGVPVIPGSDGLVEDLDEAVMLARDIGYPVIIKATAGGGGKGIRIAEDEESLIKQITNAQQEAQKAFGNAGVYLEKYLTGMKHVEIQIIADKHGNAVHLGERDCSVQRRRQKLVEEAPCPVLSEEVRSRMGEAAVRAAKAVNYSGAGTLEFLLGQDGQFYFMEMNTRIQVEHPVTEMVTGVDLIQEMISVAEGNTLSFSQEDVVINGWSIECRINAENPDKGFMPAPGTIQFYLPPGGPGVRVDSAAYPGYTISPYYDSMIAKLIVWAPTRDEAIAKMKRALAEFEIEGIYSTIPFHQKLLKHPTFLKGDFDIKFLEENEI	PGPT0001705_3901	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
AK002_02188	471			hypothetical protein	ATGCGTTATGCAGTTCGGGTGCATCCGCTAACTTATTCTGAAAGGTGTGTTGAGACAATGGCGGAAACTTTGCCTACAGAATTTGAACGTACAGATATCGGTGAGATTCAGATTGCACCGGAAGTAATTGAAGTCATCGCCGGGCTCGCTACGGTCGAGGTACGCGGTGTTGCGGGGATGAGCGGAGGCTTTGCAGGCGGCATTGCGGAGCTGCTCGGACGCAAGAATTTATCCAAGGGCGTTAAAGTTGAAGTCGGACAACGGGAAGCTGCCGTTGACGTATCCGTCATCGTGGAATATGGCCATCGACTGCCGGAAGTTGCCGGGGAAATCCAGCGCAATGTGAAACGTTCGATTGAGAATATGACAGGGCTTACGGTGATTGAAGTCAATGTACATATTCATGACGTCCATTTCATGAAATCCGTGGAGAAGACGGAAGAATTGGATTTGGCTCAACGCGTCAAATAG	MRYAVRVHPLTYSERCVETMAETLPTEFERTDIGEIQIAPEVIEVIAGLATVEVRGVAGMSGGFAGGIAELLGRKNLSKGVKVEVGQREAAVDVSVIVEYGHRLPEVAGEIQRNVKRSIENMTGLTVIEVNVHIHDVHFMKSVEKTEELDLAQRVK				NA	NA	NA	NA	NA
AK002_02189	540			hypothetical protein	GTGGCCAAAATCATGGACAGACTTTTGCTGTTTATCTACAGCTTAAGTATCGGTGTTATATCCGTAGTTGCCATCCTCCTGTTGAGTGGCGCTGTTCCTTACGAATTAACGAGTGTTCAGGAACAACGCCTTTTCTGGGCTGGAATTATCGTAGCTGCGGTTTTGTTTTTGCTGAGCATCCGTTTCTTCTACATCTCCGTCAGGCGCGATCGCTCGAACCTAAACTCCATCGATCAGCGAACGGAATTCGGCGATATCCAAATCTCCGTGGAGACGATCGAGAATCTCTGCTTGAAGGCGGCTTCGCGCGTCCGCGGAGTGAAGGATCTGAAATCGCGGATCAAGGTATCCCAGTCGGGTCTTGATATTGCGATTCGCGCCGTGGTTGATGGCGAGGAATCCATTCCTACACTGACTACCGAAGTGCAGAAGCAGGTGCACGACTTCGTTGAAGATACAACAGGAATACCCGTATCATCCGTATCCGTATATATTGCTAACGTGGTTCAGGCACCAAGCTTCAAGAGCCGCGTGGAATAG	MAKIMDRLLLFIYSLSIGVISVVAILLLSGAVPYELTSVQEQRLFWAGIIVAAVLFLLSIRFFYISVRRDRSNLNSIDQRTEFGDIQISVETIENLCLKAASRVRGVKDLKSRIKVSQSGLDIAIRAVVDGEESIPTLTTEVQKQVHDFVEDTTGIPVSSVSVYIANVVQAPSFKSRVE				NA	NA	NA	NA	NA
AK002_02190	234			hypothetical protein	ATGCCTTGGAAAGAAATATGGGAGAGTCACAGAGGAAGAATTGCCGGGGTGGCCGGCGGGCTTGTGTGCGGACTGATTTATTTATTATCCGGTTTTTGGGATATGCTGTTCTTTGCATTAGTGGTATTTATCGGCTATATATTTGGCAAGCGCAAGGATCTGAACCAGGGCTCCATCTTCCACTTTCAGGAATGGGGACGCTGGCTTTCCGAGCGCTGGCGGCCGTTTAAATGA	MPWKEIWESHRGRIAGVAGGLVCGLIYLLSGFWDMLFFALVVFIGYIFGKRKDLNQGSIFHFQEWGRWLSERWRPFK				NA	NA	NA	NA	NA
AK002_02191	459	nusB	COG0781	Transcription antitermination protein NusB	ATGAAAAGACGTGTAGCTAGAGAGATTGTCGTTCAGAGCCTTTACCAGATGGAGATGAACGAAGTCGACAGCATGGAAGCCGTGTCGATGCTGCTCTCCGAAGCGGCAGAAGAGAATGAGACCGAGCGGGTCATCGGCGACGAGGTTCAAATGAAGGAATATGTGCTGCAGCTGGTCAACGGAACATGGGAATCCAAGGATTCGATTGATGAACTCCTTGCTCATTATTTGAAAGGCTGGCAGGTAAGCCGTCTTTCCCGCGTGGATCGTCAAATCCTGCGACTGGCCGTGTACGAGCTGACTTATCGCGATGACGTGCCCGGGAAAGTGGCGGTTAACGAAGCGATCGAACTGTCCAAGCATTTCGGAACCGAGGAATCGGGCAAGTTCGTCAACGGCGTATTGGGCCGGATGATTCAAGAGCTGGATCAAGTCAAGGTGAAGCTCCGTCAGTCCTAA	MKRRVAREIVVQSLYQMEMNEVDSMEAVSMLLSEAAEENETERVIGDEVQMKEYVLQLVNGTWESKDSIDELLAHYLKGWQVSRLSRVDRQILRLAVYELTYRDDVPGKVAVNEAIELSKHFGTEESGKFVNGVLGRMIQELDQVKVKLRQS				NA	NA	NA	NA	NA
AK002_02192	861	folD_1		Bifunctional protein FolD protein	ATGACAGAAGCAACGATTATTAGCGGAAAACAGATATCGGAAGAAATTCGCAAGGGGATTGCGTTAGAAGTAGAACAATTGTCCAAGCAGAATGTACGTCCTGGTTTGGCTGTTGTACTTGTAGGAGATGATCCGGCTTCGCATGTTTACGTTCGCAACAAGGAGAAAGCATGCCACGATCTGGGCTTTTATTCCGAGGTGCATCGTCTGCCCGCGGATTCCAGCCAGAACGAAGTGCTCGCACTGGTGGACAAGCTCAATGCCCAGGAATCCATCCATGGGATCCTGGTCCAGCTACCTTTGCCTAAACACATCGAGGAAAAGGCCGTCATCGATGCGATTGCGGTGGAGAAGGACGTGGACGGTTTCCACCCGGTTAATGTGGGTAACCTCGTAATAGGCGATGACAGTCTCCTGCCATGCACGCCGGCCGGCGTGATTGAAATGATCAAGCGGACAGGCATTGAGATTGCAGGCAAACATGCGGTCGTGATCGGGAGATCCAATATCGTCGGCAAACCGGTATCTCTTCTTCTTCAGCGCGAGAACGCGACCGTTACGATGTGCCACTCCAAAACGGGGAATATGGCGGAAATCGCGCGTCAAGCGGACATCCTGGTCGTGGCGATCGGCCGAGCGAACATGATTGATGCCAGCTACGTGAAACCCGGCGCCGTCGTTATCGATGTCGGCATGAACCGCCTGGAGAACGGAAAGCTTGCCGGGGACGTTGACTTTGAGAGCGTGAAGGCAGTGTCCGGCCCGATTACTCCGGTACCCGGAGGGGTGGGACCGATGACCATCACGATGCTCATGCAGAATACGCTGATAGCCGCCAAAAGGCTGAATGGGCTGGCCTGA	MTEATIISGKQISEEIRKGIALEVEQLSKQNVRPGLAVVLVGDDPASHVYVRNKEKACHDLGFYSEVHRLPADSSQNEVLALVDKLNAQESIHGILVQLPLPKHIEEKAVIDAIAVEKDVDGFHPVNVGNLVIGDDSLLPCTPAGVIEMIKRTGIEIAGKHAVVIGRSNIVGKPVSLLLQRENATVTMCHSKTGNMAEIARQADILVVAIGRANMIDASYVKPGAVVIDVGMNRLENGKLAGDVDFESVKAVSGPITPVPGGVGPMTITMLMQNTLIAAKRLNGLA	PGPT0008075_3199	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
AK002_02193	1371	xseA	COG1570	Exodeoxyribonuclease 7 large subunit	ATGAAGACGGCCGATCCAGGACGAGTATTATCCGTTAAGGATTTAAACCGATATATTCGCATGAAGATGGAAGGCGACTCCAGGCTATCCGACGTATGGATCCGAGGCGAAATATCAAATTTTACCCATCATTCCAGCGGACATATGTATTTTACCTTAAAGGATGAAGGCAGCCGGATTCGTGCGATCATGTTTGCGACTCATAACCAGAGGCTGCCTTTTATCCCCAAGGAAGGGTCGCGTGTCATAGCGCGGGGCAATGTGTCGGTGTATGAACGGGATGGACAATACCAATTCTATGCCGTCCAAATGCAGCCGGACGGCATCGGCAGCTTGTACCTCGCTTATGAACAGCTGAAGTCGAAGCTGGAGGAAGAGGGCTTGTTTGCAGCCGATCGCAAGCGGCCGCTGCCGCGCTATCCCAAGACGATAGGTGTGATCACGTCGCCAACGGGGGCTGCCGTGCGGGATATCATGATTACGATCCGGAGGCGCTATCCTCAGGCGAACGCCATTTTGTATCCGGTGCTGGTTCAAGGCAAAGGGGCTGCGCCTTCGATCGTCAAAGCCATTCGGACGATGAACGACATGGCAGAGGCTGATGTGCTAATCGTTGGGCGCGGTGGCGGATCACTGGAAGAACTCTGGGCGTTTAATGAGGAGATCGTTGCAAGAGCCATTTATCAATCCCATATTCCGGTTGTTTCGGCCGTCGGGCACGAAACGGATTTTACGATCGCCGATTTTGTCGCGGATCTTCGAGCCGCCACACCAACGGCCGCAGCGGAACTAGCGGTTCCGAGCAGCGCAGAACTGAGAGGGCAGCTTGCCCAAAGACAGCGCCAGCTGAATCAAGGGCTGCAGCAACGCCTTCAGCGGAGCCGTGAACGTTTGATATCGCTTCAGCGGTCCCCGGTCCTGGTGCATCCCCGCCGGTATATGCTTCAGCATGCCGAACGGCTGGACATGCTGTCCCAACGGCTGCAGGGCCACCTGAAATCCAGGCTTTCCCTGGTCCGCCAGCGTCAAAAATCGCTGCACCAGGGCCTGATCCGATATAATCCGCGGACTCAAGCGGAGTTCGCCGCCAAAAGGAAAGAGCAGGCCAACCGGCAGTTAATGAACGCGATGCAGTCAATCATGAAGTCCAAGATGTCGCAGCTGCAAACCGAGATGCGACATCTCGATGCGCTCAGCCCGCTGAAGATCATGTCGAGAGGATACAGTCTTGTGTATGACGAGAAAGAGCAAAAGCTTGTAAAGTCGATAGAAGACGTGCAATTAGGTGATTTGGTGAACGTAAGGGTCAACGATGGACAGCTGCAATGTCAAGTGTGGGGAATGAAGGAGGATGAAGAGATTGGCGAATGA	MKTADPGRVLSVKDLNRYIRMKMEGDSRLSDVWIRGEISNFTHHSSGHMYFTLKDEGSRIRAIMFATHNQRLPFIPKEGSRVIARGNVSVYERDGQYQFYAVQMQPDGIGSLYLAYEQLKSKLEEEGLFAADRKRPLPRYPKTIGVITSPTGAAVRDIMITIRRRYPQANAILYPVLVQGKGAAPSIVKAIRTMNDMAEADVLIVGRGGGSLEELWAFNEEIVARAIYQSHIPVVSAVGHETDFTIADFVADLRAATPTAAAELAVPSSAELRGQLAQRQRQLNQGLQQRLQRSRERLISLQRSPVLVHPRRYMLQHAERLDMLSQRLQGHLKSRLSLVRQRQKSLHQGLIRYNPRTQAEFAAKRKEQANRQLMNAMQSIMKSKMSQLQTEMRHLDALSPLKIMSRGYSLVYDEKEQKLVKSIEDVQLGDLVNVRVNDGQLQCQVWGMKEDEEIGE				NA	NA	NA	NA	NA
AK002_02194	261	xseB		Exodeoxyribonuclease 7 small subunit	TTGGCGAATGAAACACTGGAGATCAGCTTCGAAGAAGCGATGGCTCAGCTGGAGACGATCGTTGAGCAGCTGGAAGACGGAGATGTGCCGCTTGAAAAAGCCATCGATTTATTTCAACAGGGCATGAAGCTGTCGCAGATGTGCAGCAAAAAGCTGGAGCAGGTCGAGCAGAAAATCGAAATGATCGTGGAAGAGGGCGGAGAATTGAAGCGGAAGCCATTCGGCGGGACGCTGGATGAGACAGGTGAACTGGGTGAATAA	MANETLEISFEEAMAQLETIVEQLEDGDVPLEKAIDLFQQGMKLSQMCSKKLEQVEQKIEMIVEEGGELKRKPFGGTLDETGELGE				NA	NA	NA	NA	NA
AK002_02195	924			Farnesyl diphosphate synthase	ATGAGACAGGTGAACTGGGTGAATAACAGACTTACGATCCATCAATATATGAATGAAATTTGTGACAGGCTGGACAGCGAGTTCACGAATCTTTTTCCGTCAGGCTGGAAAGTTCCTGAAACCCTTTCGCGGTCCATGTCGTATTCTTTAATGGCAGGCGGCAAGCGAATGCGTCCGCTGCTTGTCATTGCGGCATGCGAGGCGGGCGGCGGCAGCCGTGAAGCAGCCGTTCCGGTTGCCTGCGCGGTGGAAATGGTCCATACATATTCCCTTATCCACGATGATCTGCCGGCGATGGACGATGATGATTACCGCCGCGGCAAGCCGACGAATCATAAGGTGTTTGGCGAGGCCAGCGCCATTTTGGCCGGGGATGCCTTGCTGACGCATGCCTTTTACAGCGTCATCCAGGCTGCCAGAAAGCATGGGGTTCCAGCAGAACGCGTGCTGTCGATCGTGGAGGATCTTGCGGAGTATGCAGGTCCGCGGGGGATGGTAGGCGGACAGGTGGCCGACATGGAGGGGGAGCAAGGGATCACGACGTTAGAGCAGCTTGAGTATATACACCTGCACAAGACCAGTGATCTGATCATGTTCTCGCTGATGGCGGGCGGCCATGTTGCCGGGTGCTCCGACGCCCAGATCGAATCCTTGCGTACCTTCGGGCATCATATCGGCCTTGCTTTTCAGATTCAAGATGATATTCTGGATCTCGTGGGGGATGAGTCCAAGCTCGGGAAGCCGGTACAAAGCGATGTGAAACAGGAAAAGGTGACCTACCCGTACTTCATCGGTTTGGACGCATCGAGGCATGAAGTCGAGCGACTGACGGCAGAAGCCAAGCGGGTCATTTCCGAAGGGAACTTCGCCGACCCTGCAAGGCTGCTGGAGATCGCGGATTTCTTGATGGCCCGGGACCACTAA	MRQVNWVNNRLTIHQYMNEICDRLDSEFTNLFPSGWKVPETLSRSMSYSLMAGGKRMRPLLVIAACEAGGGSREAAVPVACAVEMVHTYSLIHDDLPAMDDDDYRRGKPTNHKVFGEASAILAGDALLTHAFYSVIQAARKHGVPAERVLSIVEDLAEYAGPRGMVGGQVADMEGEQGITTLEQLEYIHLHKTSDLIMFSLMAGGHVAGCSDAQIESLRTFGHHIGLAFQIQDDILDLVGDESKLGKPVQSDVKQEKVTYPYFIGLDASRHEVERLTAEAKRVISEGNFADPARLLEIADFLMARDH	PGPT0007560_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789	NA	NA
AK002_02196	1908	dxs	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	GTGCTTCTTCCAAATATCAAACAACCAGAACAACTTAAAAATCTATCGGTGGACGAACTCGAGGATTTAGCGGGACAAATCCGTCATTTTCTAATCGAAAAGCTGTCCGTTACCGGTGGCCATCTTGCACCGAATCTGGGAGTGGTTGAACTCACGCTGGCCTTGCACTATTGCTTTGACAGCCCTCGTGACAAGATGATTTTCGATGTGGGCCATCAAGCCTATGTACACAAGATCTTGACCGGACGGATGGATAAATTCGATACGCTCCGCAAATATAAAGGCTTGTGCGGCTTCGTCAAGCGGTCCGAGAGCGAGCATGATGTATGGGAAGCAGGTCACAGCAGCACCTCGCTGTCTGCCGCAATGGGTATGGCCATGGCCCGGGACCTGAAAGGCGAAGACAATCGGGTTATCGCCATGATCGGGGACGGAGCCCTTACAGGCGGCATGGCGTTTGAAGCGCTAAACCATATCGGCCACGAGCAGAAGAAGCTCATGGTCATCCTGAATGACAATGAAATGTCGATCGCGCCGAATGTCGGTGCTATGCATAACTACTTAAGCAAGATCCGTTCGGACCGTTTTTATCTTCGTGCCAAAGACGAAGTGGAAATGGTCTTGAAGAAAATCCCTGCCATCGGCGGCAAACTCGCGAAGACGGCAGAGAAGATGAAGGACAGCCTTAAATATATGATGGTTCCGGGTGTTTTATTCGAGGAACTTGGATTTACGTATCTCGGGCCTGTGGACGGACATGATCTGAATAAACTGATCGATACATTGAAGCAGGCGGACAATGTGGATGGTCCCGTGCTGATCCATGCCGTAACAACCAAGGGCAAGGGATACCGTCCGGCCGAATCGGATTCGCATAAATGGCATGGAATCACCCCTTATAAGATTGAATCCGGCCAAGTGCTCAAGGCAGTAGGCAATCCGATGTACACGGAAGTGTTCGGACAGACCTTGGTGGAGCTGGGGGAACAGGACAAACGCATCGTTGCCGTTACGCCGGCGATGCCGGGCGGCTCCGGCTTGATCCCGTTCAGCAAGAAATTCCCGGACCGCATGATCGATGTCGGGATTGCCGAGCAGCACGCGGCAACGCTGTGCGCGGCTCTGGCCATGGAAGGCATGAAACCCGTATTCGCGGTCTATTCCACGTTCATGCAGCGTGCGTACGACCAAATCGTGCATGATATTTGCCGCCATAACGCCAACGTGATGTTTGCGATTGACCGTGCCGGCTTTGTCGGTGCAGACGGCGAAACGCATCAAGGGGTATACGATGTGGCCTTCATGCGTCATATCCCGAATATCGTCATCATGATGCCAAAAGACGAGAATGAGCTTCGTCACATGATGAAGACGGCGCTTGATTATAATGAAGGACCGATTGCTTACCGTTACCCTCGGAACAATGTGCGCGGCGTTCCGATGGACACTGAGCTGGTGCCCATTCCAATCGGAACCTGGGAAGTCGTCCGTCCCGGCGAAGGGTATGCCATCCTGGCTTCCGGTCCGATGGTTCAGCTGGCCGAAGAAGCAGCGGAGCAGCTCAAGCGGGAAGGCATTGCGGTAGAAGTCGTGAATGCCCGTTTCCTTAAACCGCTTGACGGAGATATGCTGGGGAATTTGGCGAAGACGGGAACGTCGATGCTGGTTCTGGAGGAAACCTCGCAAGCAGGCAGTTTGGGGAGCGCGGTTCTGGAATATTTTGCAGAGCAGGGAATCCATGATGCCGTCGTATCCTTGATGGGGATCGAAGACCGGTTCATCGAGCATGGAAGCATTCCGCAGCAACGGGAGGAAGTAGGTCTCACGCTGGAAGGGGTTTGCCAGGAAATCCGGAGCCTGAAGAATGCCCGGACCGCCGTACTCGGCAAAAGAAGTTTTATGTCTTAG	MLLPNIKQPEQLKNLSVDELEDLAGQIRHFLIEKLSVTGGHLAPNLGVVELTLALHYCFDSPRDKMIFDVGHQAYVHKILTGRMDKFDTLRKYKGLCGFVKRSESEHDVWEAGHSSTSLSAAMGMAMARDLKGEDNRVIAMIGDGALTGGMAFEALNHIGHEQKKLMVILNDNEMSIAPNVGAMHNYLSKIRSDRFYLRAKDEVEMVLKKIPAIGGKLAKTAEKMKDSLKYMMVPGVLFEELGFTYLGPVDGHDLNKLIDTLKQADNVDGPVLIHAVTTKGKGYRPAESDSHKWHGITPYKIESGQVLKAVGNPMYTEVFGQTLVELGEQDKRIVAVTPAMPGGSGLIPFSKKFPDRMIDVGIAEQHAATLCAALAMEGMKPVFAVYSTFMQRAYDQIVHDICRHNANVMFAIDRAGFVGADGETHQGVYDVAFMRHIPNIVIMMPKDENELRHMMKTALDYNEGPIAYRYPRNNVRGVPMDTELVPIPIGTWEVVRPGEGYAILASGPMVQLAEEAAEQLKREGIAVEVVNARFLKPLDGDMLGNLAKTGTSMLVLEETSQAGSLGSAVLEYFAEQGIHDAVVSLMGIEDRFIEHGSIPQQREEVGLTLEGVCQEIRSLKNARTAVLGKRSFMS	PGPT0008960_2330	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008960-dxs-K01662	NA	NA
AK002_02197	873	tlyA	COG1189	Hemolysin A	ATGGATTCATCTCAGAAGGAACGAATTGATGTCCTGCTCGTGGAGCAGGGATATTATGAGAGTCGCGAAAAAGCAAAAGCCGCGATTATGGCGGGTCTGGTCTATGCCGGAACCGAACGGATCGAGAAAGCCGGCATGAAAATTCCGAGAACGTCCGAACTGAAGGTCAAGGGCTCGGTTCATCCTTATGTCAGCCGAGGCGGACTAAAGCTGGAGAAAGCGATTCGTACGTTCGGCCTCGACATGAAGGGGCGCACGATGCTGGATATCGGATCATCGACAGGCGGTTTTACGGATTGCGCGCTCCAGCATGGGGCCAGTTATGTGTACGCGATCGACGTTGGTTATAACCAGCTGGATTGGTCGCTGCGTAACGATGAACGCGTATGCGTCATGGAGCGAACGAATTTTCGCTATATGACGCCGGAGGATCTGAACGGTCCTCCGCCTGATTTTGCCAGCATCGATGTTTCGTTTATTTCACTTCGCATTATACTGCCGCCTCTGAAGATGCTGCTCGCTAAACCGGGAGATGTAGCCGCCCTGATCAAACCTCAATTCGAGGCGGGGCGGGAGAAGGTCGGTAAATCCGGGGTGGTTCGGGATCCGAAGGTCCATAAGGAAGTTTTAACGCAGGTGCTGACTTTTGCGGACGGCCTTGGATTCAAGCTGAAAAACCTTACGTTCTCTCCGATAACGGGAGGAGAAGGAAATATTGAATTCCTGGCCCACTGGCGATTAGAGCCGGAGGTATCTGAAAGCTCGGAAGAACCGACTCAGGAAGATGGACAAGCTTCTGTCCCATTGAGTCAATGGATTGACACCGTCGTCACGCAAGCGGCTCATACATTCACAGGAAACTCATCGAAATGA	MDSSQKERIDVLLVEQGYYESREKAKAAIMAGLVYAGTERIEKAGMKIPRTSELKVKGSVHPYVSRGGLKLEKAIRTFGLDMKGRTMLDIGSSTGGFTDCALQHGASYVYAIDVGYNQLDWSLRNDERVCVMERTNFRYMTPEDLNGPPPDFASIDVSFISLRIILPPLKMLLAKPGDVAALIKPQFEAGREKVGKSGVVRDPKVHKEVLTQVLTFADGLGFKLKNLTFSPITGGEGNIEFLAHWRLEPEVSESSEEPTQEDGQASVPLSQWIDTVVTQAAHTFTGNSSK				NA	NA	NA	NA	NA
AK002_02198	492			hypothetical protein	ATGAATGAGCGTTATGATTGGTTATTAATGATATTGCTTGGTGTCGTCATTGCCTTGCTTATCGGCTATAGGCTGAATCGTTGGCTGATGTCACCATCACCGGACCGGCTGCCGGGCATCCCGATCAATGAGCACATTCCAGATCACCCAGTCATTGGGATGCTTGAACAAGAAGGATATGATGTGGTTGGGGGTAAAGTAAAAATAAACTTGTCGTTTGAAACGGGACATAAGCCCATCTTAAGTCGGTTGTTCATAGATTATGTTGCATCCGACGACAGCGGCGAACTGTACATGGTGAAGCTGGCCCGGGAACGAATGCCGGTGGAGTGGACAGGCTCCGGCATTCGCGATCGGTTGATGCCGTTTTTGCTGCTGTATCCCGAGTGTGCGGGCCTCCTCTACATCGACGTGAATGAGGGGACCATTAACCGTTTAAGCATGGATTGGACGGACGAAGAATGGATTGGTCATGATGAATACAACAGTTAA	MNERYDWLLMILLGVVIALLIGYRLNRWLMSPSPDRLPGIPINEHIPDHPVIGMLEQEGYDVVGGKVKINLSFETGHKPILSRLFIDYVASDDSGELYMVKLARERMPVEWTGSGIRDRLMPFLLLYPECAGLLYIDVNEGTINRLSMDWTDEEWIGHDEYNS				NA	NA	NA	NA	NA
AK002_02199	450	argR	COG1438	Arginine repressor	ATGAAGGGACAACGCCATATTAAAATCAGGGATATCATTACCCACCAGGATATTGAAACGCAGGATGAGCTTGTGGACGCATTGCGCGCGGAAGGCTTTCAGGTTACTCAGGCTACGATATCACGGGATATTAAAGAATTGCTGCTCATAAAAGTGCCTACAGATGATGGGCGATATAAATACTCCATGCCGACAGATCAGCGGTACAACCCTGTTCAGAAGCTCAAAAGAGCGCTCGTCGACAATTTTGTTTACATTGACCGAACCGGCAATCTTGTGGTCATGAAATGCTTGCCCGGAACAGCCAACTCGGTTGCCGTGCTGCTCGATAACATGGAATGGTCACAGATCATGGGGACCATCTGCGGGGATGACACGATCTTGCTGATTTGCCGTACGGAAGTAGACGGCGAACATGTGGTGTCCCAAATCAAAAATTTCATTTCCTAA	MKGQRHIKIRDIITHQDIETQDELVDALRAEGFQVTQATISRDIKELLLIKVPTDDGRYKYSMPTDQRYNPVQKLKRALVDNFVYIDRTGNLVVMKCLPGTANSVAVLLDNMEWSQIMGTICGDDTILLICRTEVDGEHVVSQIKNFIS	PGPT0020105_1970	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
AK002_02200	1740	recN	COG0497	DNA repair protein RecN	ATGTTAAACACGCTATCCATTCGGAACCTGGCTGTTGTAGAAAGCGTGGATGTACACTTTTATCCCGGATTTCACGTCCTGACAGGGGAAACCGGGGCCGGTAAGTCCATCATCATTGATGCGCTGGGTTTAATTGCCGGCGGCCGCGGCTCGGCAGAGCTGATTCGATACGGGTGCGACAAAGCGGAGATCGAGGCTCTGTTTGAGCTGCCTGCGGAGCATCCGGTATGGAGCACGCTCAAGAAGCTGGGGGTTGAAGCGGATCCGGAAGAGCACTTACTAATTCGAAGAGAGCTGACGTCTCAAGGAAAAAGCACGTCGCGTATTAACGGACAGCTGCTGAACCTCAGCATGCTGCGTGAAGTCGGGGAAAAGCTGATTAATATCCATGGACAGCATGAGCATCAAAGCCTGCTGCGTTCAGAGCAGCATATGAGCCTCCTGGATACTTACGGAGATAAGACCATAGGGCCTGCCAAGCGCAAATACCAGGAGCTGTACGGCGAATTCAGCAAAGTGGAGAAAGAGCTTAAGGACCTGCAGGAAACCAGCCAGAAAGCATATCAAATGCTGGATATGTACCGTTTCCAGCTGGAGGAAATCGCGGCTGCCGGGCTGAAAACCGGCGAAGACGAGGCATTGTCCGAAGAAAGAACCAAACTCTCCCACAGCGAGAAGATGATGGATTCCGTAGCGGGAGCCTACGACCTGTTGTACGGATCATCGGGCCTTGAGTCCGTCAGCAGGGCTTTGTCTAGACTTGAGGATGTATCCGGATACGACGAGAAGGGTTTAAAGCCGCTTGTCGAGCAGCTTCAATCCGCTTATTATCAGCTTGAGGATGCGGTATTCCAGTTAAGGGATTATCGTGACGGCATCGAATTCAATCCCGAACGGCTCAATGAAATTGAGCTCCGTTTAGATATGATCTCCGGTTTGCGCCGAAAATATGGGGATAATGTGGAGCAAATTCTGGAATACTACGTGAGAATTCAGCAGGAAACCGATATGCTGGAGAATAAGGACGAATTTATTCAAGCGTTGGAACAGCGCCGTGACGAGTTGTTAAGCGTGCTGCTCGTAAGCGCGAAAGAGCTGAGTCACGCCCGCAAGCAATGCGCGCAAGACTTGGCTAGGCAAGTCGAGGGAGAACTGAAGGATCTTCAAATGGAACGCACCTCGCTGGAAGTCCGCCTGGAATTGCAGCTGGATCCGAACGGCTACGAGTATGAAGGCCAAAAAGTCCGGTTGACAAGACAAGGCATGGATACGGCGGAATTCCTTATCTCCGCGAATCCGGGCGAGCCGCTCCGACCGCTTGCCAAAATTGCTTCGGGTGGGGAAATGTCCAGAATTATGCTGGCGATGAAGAGTATATTTGCCCGTCATGATCAAATACCGGTCTTAATCTTTGATGAAGTCGACACGGGTGTCAGCGGAAGGGCTGCCCAATCGATTGCCGAGAAGCTGTTTTTGCTGGCCAAAACCTGTCAGGTATTCTCCATTACGCATTTGCCGCAGGTGGCTTGCATGGCGGATCATCAATATTTAATCGAGAAGAAGCTTGAAGCCTCCAGAACGATGACGCAAGTAGAAAACCTGAATGAAGAAGGGCGTGTAAAAGAGCTTGCCCGGATGCTTGGCGGAGTCGAAATTACCGAAAAGACGCTTCATCATGCCCAAGAAATGCTCAATCTGGCGGCAGCGCAAAAGGCTTCCAGAAAGGCTTTGGGTCAATGA	MLNTLSIRNLAVVESVDVHFYPGFHVLTGETGAGKSIIIDALGLIAGGRGSAELIRYGCDKAEIEALFELPAEHPVWSTLKKLGVEADPEEHLLIRRELTSQGKSTSRINGQLLNLSMLREVGEKLINIHGQHEHQSLLRSEQHMSLLDTYGDKTIGPAKRKYQELYGEFSKVEKELKDLQETSQKAYQMLDMYRFQLEEIAAAGLKTGEDEALSEERTKLSHSEKMMDSVAGAYDLLYGSSGLESVSRALSRLEDVSGYDEKGLKPLVEQLQSAYYQLEDAVFQLRDYRDGIEFNPERLNEIELRLDMISGLRRKYGDNVEQILEYYVRIQQETDMLENKDEFIQALEQRRDELLSVLLVSAKELSHARKQCAQDLARQVEGELKDLQMERTSLEVRLELQLDPNGYEYEGQKVRLTRQGMDTAEFLISANPGEPLRPLAKIASGGEMSRIMLAMKSIFARHDQIPVLIFDEVDTGVSGRAAQSIAEKLFLLAKTCQVFSITHLPQVACMADHQYLIEKKLEASRTMTQVENLNEEGRVKELARMLGGVEITEKTLHHAQEMLNLAAAQKASRKALGQ				NA	NA	NA	NA	NA
AK002_02201	1335	spoIVB	COG0750	SpoIVB peptidase	TTGAAGCCCAACCTCAGGAGAAAACTGCTCGGTTTCGTTCTTGCTTTCCTTCTTTGTTTCATTGGAACTGCTGATCCTGTCCAATCTTTTGCCTCATTGCCCGATGAGCTGAGATTGATTACCGGTCAGCAGTCCCGTCTTGATGTTGCCATGCCTGTGCAAGCCCTCGCTTCAGTTGATCGACCGGATGTCCTGCAGCTAAACGGCTCCCGGGAATCGAAACTTCAAGTATCGTTAAAACAGCCGCTGCAGCTCAATCCCCAGCAAAGCGGAAACGCAGAAGTGACCCTGAAATTATTCGGTACAATTCCTCTGAAGACTGTCCATGTCAAAGTGATGCCGGAACTTAAAGTCATACCGGGAGGCCAAACCATCGGCGTCAAGGTGAAATCCTCCGGTATACTGGTGGTTGGACATCATCTGGTACGGGTTCAAAACGGGGCCAAAGTGTCTCCCGGCGAAGCTGCCGGCCTAAAGCTTGGCGACCTGCTTACAACGATGGATGGAAAGCCGCTTAACGATGTCACGAAGGTTGCCGAGATCGTCGAGAAGGCTGGTAAAGCGAATCGGCCGCTGGATATATCCTTTAAACGGGACGGCAAGGTAATGAAAACAAAGCTGAGTCCCGCCTATGACCAAGAGGATCAAAGCTGGCGCCTTGGCCTGTATATCCGTGATTCCGCAGCAGGCGTAGGGACGCTTACCTTTTATGCGCCTCACCAGAAGGTCTACGGAGCGCTCGGTCATGTCATCACCGACATGAATACTCAGACCCCCATTGATGTTGGAAGCGGCCAGATCGTTCAATCCAACGTCACCTCGATTAGCCGTAGCGAAGAAGGCGAGCCCGGAGAGAAAAGGGCAACCTTCACCAAAGACGGCAAGATTTTAGGCAATGTCGAGCGCAATACCCATTTCGGCATTTTCGGTAAAATGAATCAGCTTCCGGAACACGGGCTGTATCAGGAGCCGATTCCCGTTGCCTTTTCCCATGAGGTGAAGGAAGGTCCCGCTGAAATTTTAACCGTCGTTGAAGGTCAGGAAGTCGAACGCTTTACGGTGGAGATCGTTCACGTCTCCAAACAGGACGCTCCAGCGACCAAAGGAATGGTGCTGCGCATTACCGATCCGAGACTGCTTAAGAAGACCGGCGGGATCGTGCAGGGCATGAGCGGCAGTCCCATCGTTCAGGATGGCAAGCTGATTGGAGCGGTAACCCATGTATTTGTAAACGACCCTAAGTCGGGATATGGGTGCTTTATCGAGTGGATGCTTCAAGATTCCGGCGTACTACAATCTACAGAATCAACACCTCAAAATCTTAAGGCAGGTTAA	MKPNLRRKLLGFVLAFLLCFIGTADPVQSFASLPDELRLITGQQSRLDVAMPVQALASVDRPDVLQLNGSRESKLQVSLKQPLQLNPQQSGNAEVTLKLFGTIPLKTVHVKVMPELKVIPGGQTIGVKVKSSGILVVGHHLVRVQNGAKVSPGEAAGLKLGDLLTTMDGKPLNDVTKVAEIVEKAGKANRPLDISFKRDGKVMKTKLSPAYDQEDQSWRLGLYIRDSAAGVGTLTFYAPHQKVYGALGHVITDMNTQTPIDVGSGQIVQSNVTSISRSEEGEPGEKRATFTKDGKILGNVERNTHFGIFGKMNQLPEHGLYQEPIPVAFSHEVKEGPAEILTVVEGQEVERFTVEIVHVSKQDAPATKGMVLRITDPRLLKKTGGIVQGMSGSPIVQDGKLIGAVTHVFVNDPKSGYGCFIEWMLQDSGVLQSTESTPQNLKAG	PGPT0024775_47	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024775-spoIVB-K06399	NA	NA
AK002_02202	804	spo0A	COG0784	Stage 0 sporulation protein A	TTGCAAAAGATTGAGGTATTATTGGCAGACGACAACCGTGAATTTACAAACCTGCTCGGCGAATACATTTCGGATCAACAAGATATGGTGGTATCCGGAATCGCTTATAATGGCGAAGAAGTACTGAGCATGATTGAGGAATCCGGAAAGGTACCGGACGTACTGATCCTTGATATTATTATGCCTCATTTGGACGGGCTTGGGGTACTCGAGCGTTTACGCGATATGAATCTGTCTCCGCAGCCGAAAGTCATTATGCTCACGGCGTTCGGCCAAGAGAATATAACGCAGCGCGCGGTGCAGTTGGGTGCTTCCTATTATATTTTAAAGCCGTTTGACATGGAGGTGCTCGCCAGCCGCATTCGACAGCTCGTGGGTTCGCCGAGCAGCATTTCCTCCGGCACTCCGTTTACAAGCATGAAATCCAATGTGGTTCCTATGGGCAAGGGCAAGAATTTGGACGCGAATATCACTTCCATTATCCATGAAATCGGCGTTCCCGCTCATATCAAGGGATATCAATATCTCCGCGAAGCCATTACCATGGTGTACAACAATATCGAAATTCTTGGAGCGATTACCAAAACGCTGTATCCGGCCATCGCTGAGAAGTTCAAAACAACGCCATCCCGAGTGGAGCGGGCGATCCGGCATGCCATTGAAGTGGCTTGGACTCGCGGTAACATCGATTCCATCAGCCACTTGTTCGGCTACACCATTAACATCAGCAAATCCAAGCCGACCAACAGCGAGTTCATTGCCATGGTGGCAGACAAGCTTCGGATCGAGCATAAGGTCTCTTGA	MQKIEVLLADDNREFTNLLGEYISDQQDMVVSGIAYNGEEVLSMIEESGKVPDVLILDIIMPHLDGLGVLERLRDMNLSPQPKVIMLTAFGQENITQRAVQLGASYYILKPFDMEVLASRIRQLVGSPSSISSGTPFTSMKSNVVPMGKGKNLDANITSIIHEIGVPAHIKGYQYLREAITMVYNNIEILGAITKTLYPAIAEKFKTTPSRVERAIRHAIEVAWTRGNIDSISHLFGYTINISKSKPTNSEFIAMVADKLRIEHKVS	PGPT0014750_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014750-spo0A-K07699	NA	NA
AK002_02203	903			hypothetical protein	ATGCAATTGGAAATAGACAAGTCATCGCTTGTGGTTTACGAGGCTTTGGCCAGCGAAGTTCGCATCAAGATTATTCAGATGCTCTCCAAAAACAAAATGAACATCAAAGATTTAGCGCAGGAGCTTCAAATCAGCAGTCCGATCGTGACGAAGCATATTAAAAAACTTGAAGATGCCGGCATTATCCGGACAGAGAAGGTGCCGGGAAAATCGGGGCAGCAGAAAATTTCGATCCTGAAGGTGGATCACATTGAAATCAACTTCCCCAAAAAAATCTTCCATTCCTTTGCTTCTTATGAAGCCTCGGTGCCGATCGGGCATTACACCGATTATGACCTGAAGCCTACTTGCGGCCTTGCTACCGAGAAGGAGTTCATCGGACGGGTTGACGAACCCAAGTACTTTATGGATCCCAAGCGCGTGGATGCGGAAATCCTGTGGTTTACCGAGGGGTTCATCCAATACAACATCGCCAACTTTCTGCAAAAGGATGAGAAGCTGCAGCAATTCGAAATCAGTTTGGAGATATCGTCCGAGTTTCCTTTTTCCAATGATGTGTGGCCATCGGACATTACGTTTTCCTTGAACGGAATGGAGCTCGGCACGTGGACGAGCCCAGGGGATTTTGCGGATACGCGGGGGAAATATACGCCTGAATGGTGGCCGCACAACATCAACCAATACGGACTGCTGAAAACGATTCGGATTACCAGCCACGGCACGTATATCGATGGCGATCCTCTCTCAACCGTCTCCGTGGACGACCTGGATTCGGCATGTGATCGCTGGACCTTTCGTATCGAAGTCAAGGAAGACGCGAAGCATGTTGGAGGCGCTACGTTATTCGGCAAGAAATTCGGAAACCATGCCCAGGATATCCAGTTCAAAATGTATTATCTGTGA	MQLEIDKSSLVVYEALASEVRIKIIQMLSKNKMNIKDLAQELQISSPIVTKHIKKLEDAGIIRTEKVPGKSGQQKISILKVDHIEINFPKKIFHSFASYEASVPIGHYTDYDLKPTCGLATEKEFIGRVDEPKYFMDPKRVDAEILWFTEGFIQYNIANFLQKDEKLQQFEISLEISSEFPFSNDVWPSDITFSLNGMELGTWTSPGDFADTRGKYTPEWWPHNINQYGLLKTIRITSHGTYIDGDPLSTVSVDDLDSACDRWTFRIEVKEDAKHVGGATLFGKKFGNHAQDIQFKMYYL				NA	NA	NA	NA	NA
AK002_02204	1239			hypothetical protein	TTGAAGAAAAAAATGGGGGTTTCACTGATACTTGCATTGTTAGCGGTAGCGGTACTGGGAGGATGCGGAAACGGCGACAAGAACACCATTACCTTCTGGACGCCATTGACGGGTGATGACGGGGCTTACATGGATCAGCTCGTTAAGGATTACAATGCCACCAATCCCGAGTATAAAGTGAAGCATGTCATCACTTCGGACATGTATACGAAGATATCCACCGTTCTTAATTCCGGCAAAGGCGTTCCCGATCTTTCCATCATCCACGCGGACCGCGTTCCAAGCTTCGTTAAGCAAGGCGTATTGGAGCCGATGACGGCAGTCATGCAAGCGCAGCCAGAATTGAAAGAGGACAATTATCTGCCGCAGGCCTGGGCAACCGGAAACGTGGAAGGCACCCAATATACGGTACCGCTTGATATCCACAGCAACGCGATGTACTACAACAAAAATCTGCTCAAGAAATACAATGTTGAAAGTTTCCTGGATGACGATGTCGTGACCATCGATGAAATGTTGTCGCTGCAAGGCAAACTGGATGAGGGTGATTACGTGGTCAATGATGCGCTGTTGGGCTGGGTTGTGTTGGCTCAAATACAGAATCTGGGCGGAGACATCCAGCAAGACGGCAAGCCTGCAGTCAATACGGAAGCCATGAAGCAGGCATTTACGGAGATTAAGAAAATAGCCGATGCGGGTTTAATGACACCATTTGGCGAAGACGGCTACCTGATGTTCCAAGCTGGAAACGTTTTATTCTCCACAGACGGCACATGGAGCTCTACGGCCCATGCCGCGGTTGACGGCCTGGACTTTGGCGTAACCAACATTTATTCGACGAGTGCGGATAAATATACAAACCGAGCATCTTCCCACCTGTTCTCCATGCTGAAGAACGAGAAGAGAACGGATGAAAAGGAGCAGGCCATCGGCCAGTTCCTGGAGTTCATTCGCCAACACTCGATCGAGTGGGCAAAAGCGGGTCAGATCGTAGCGAGTAAACAAGTCATTGAAAGTCCGGACTACAATAACTATATTCAATCATTCTTCACGTCCAATGAAAAAGAAATTGAATCCTTGTACATTTACACTTACGAGTACTATCCATATGTTGCCGAGGCTGTAGATACATATGCAGCGGATATTGTGCGGGGCAACGTCGATATCGACGAAACCCTGGCGACGATGCAGAAGTTCGTAGAGGATAAAATCGCAGAAGGCAACAGTGCCGCAAAGTAA	MKKKMGVSLILALLAVAVLGGCGNGDKNTITFWTPLTGDDGAYMDQLVKDYNATNPEYKVKHVITSDMYTKISTVLNSGKGVPDLSIIHADRVPSFVKQGVLEPMTAVMQAQPELKEDNYLPQAWATGNVEGTQYTVPLDIHSNAMYYNKNLLKKYNVESFLDDDVVTIDEMLSLQGKLDEGDYVVNDALLGWVVLAQIQNLGGDIQQDGKPAVNTEAMKQAFTEIKKIADAGLMTPFGEDGYLMFQAGNVLFSTDGTWSSTAHAAVDGLDFGVTNIYSTSADKYTNRASSHLFSMLKNEKRTDEKEQAIGQFLEFIRQHSIEWAKAGQIVASKQVIESPDYNNYIQSFFTSNEKEIESLYIYTYEYYPYVAEAVDTYAADIVRGNVDIDETLATMQKFVEDKIAEGNSAAK	PGPT0016545_9950	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_02205	876	araP_5	COG1175	L-arabinose transport system permease protein AraP	ATGAAAAAGAAGTCGCTGACACCTTATTTCTTTGTAGGTCCCCATCTGATTCTATTCATCGTGTTTATTCTATTACCGACCCTATACGGGATCTATGCTTCGTTTACGCAATGGAATCTGATCAATGACCCGGTGTGGGTCGGCCTGGCCAACTATAAAACGATTCTGTTTGATGCGGAGTCCACCTTCTATACCCAATTTATGAACGGATTAAAAAATACGTTGATCTTCGTAGTTCTGAGCGTACCGATATTAATCGTTATCCCGTTAATGATCGCGGTGTCGCTCGAACACAAAAAAGTGAAAATGAAAAACGTCATTCAATCCATTCTCTATATTCCCGGATTAATTTCGATCTCCGCAGCGGCACTGATTTGGTCATTGATATTTAACAAGCAGCTTGGGATCACGAACAACGTCTTCGGCTCCGAAACGGTCTGGGCCGCCAACCAGCCTTATGCCTGGCTGATCATTATTGTCATTACGGTTTGGGGCGGGGTCGGTGGAAACATGATCATCTACCGGGCTTCTATCAGTGGAGTATCCAAGGATTTGTACGAATCGGCCGAGATGGACGGAGCGGGGCCCGTCCGCAGATTTTCGAGCATTACGCTGCCCTCCATCCGTTTCCCGCTGATTTATACCTTTGTCATGACGACCGCCGGAGCTTTCAACGTATTCGGTCAGCCATTAATGATGACGGACGGAGGACCCAGACAGAGCACGACGGTATTGATGATGTATATTCGCCAGCTGGCCTTCGGCCACGGGGAATCCATTGCCGGCATGGCATCCGCGATGGCGGTGCTGCTCGGACTGGTCATTCTGGTCATTTCAGCCCTTCAATATTATGTGATGAACCGAAACGCGTCCTAG	MKKKSLTPYFFVGPHLILFIVFILLPTLYGIYASFTQWNLINDPVWVGLANYKTILFDAESTFYTQFMNGLKNTLIFVVLSVPILIVIPLMIAVSLEHKKVKMKNVIQSILYIPGLISISAAALIWSLIFNKQLGITNNVFGSETVWAANQPYAWLIIIVITVWGGVGGNMIIYRASISGVSKDLYESAEMDGAGPVRRFSSITLPSIRFPLIYTFVMTTAGAFNVFGQPLMMTDGGPRQSTTVLMMYIRQLAFGHGESIAGMASAMAVLLGLVILVISALQYYVMNRNAS	PGPT0016535_8336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_02206	912	araQ_25	COG0395	L-arabinose transport system permease protein AraQ	ATGTCGAACCCGGTAGTACATGAAGCGAACGCGGATACTAAGCTTGCCCGCTCCGGTCCGAAGAAGGCTTCAACCAACATTAGCGTGTCCAAATATATTGCTTATACTTTTCTCATCCTGCTGTGCGTGATATGGGCGATTCCGGTCATCTTTGGTATTACCACATCGTTCCGGTCCCAGGCGGAGGTCGTATCCAGCGGTTTCAGTCTGCTGCCCGAAAACTGGATATTCGATAATTATGTCACGATCCTGCAAAATACGTCGACGGCCCCGATCCTGCGCTGGTTGATGAACTCCGTCTTTATCGCAACGATGCATACGCTGCTGGTGATCGTGGTCATTTCCATCACCGGCTACGGGTACTCCCGCATGAACTTTAAAGGAAGGGACACCTTGTTCTTTACTTTGCTGGGGATTTCTTTCTTTCCCGGAGTCGTGAACCTGATTCCATCCTACAAAATCATAGATGCGCTGGGGTGGGTAAACACCTCATGGGCAATGATTATTCCAGGTTTGGCAGGCATGGGGAACATATTCTTGGTCAGACAATTCATGATGGGCGTTCCCAAGGATCTGGACGAATCGGCACGCGTGGACGGCGCGGGTGACTTTAGAATCTATTATTCTATCATTTTGCCGCTCATGAAGCCTGTGTTGATTGTATGCGGCCTGTTTTCATTTACGGGTTCCTGGAATGATTTCCTCTGGCCGGTCATCGTGTATACCGACGTGGAGAAGATGCCGGTTACGGCAGGACTGCTGTTGCTGCAGGACATCTACGGCAATTATCGCATGATCGGACAATTGATGGGTTCCGCTATCCTGGCCATCATTCCGACGCTGCTGTTGTTCCTGTTTGCCCAGAAATATTTTGTGCAGTCGATCAACTTAAACGCGGGTATCAAAGGATAG	MSNPVVHEANADTKLARSGPKKASTNISVSKYIAYTFLILLCVIWAIPVIFGITTSFRSQAEVVSSGFSLLPENWIFDNYVTILQNTSTAPILRWLMNSVFIATMHTLLVIVVISITGYGYSRMNFKGRDTLFFTLLGISFFPGVVNLIPSYKIIDALGWVNTSWAMIIPGLAGMGNIFLVRQFMMGVPKDLDESARVDGAGDFRIYYSIILPLMKPVLIVCGLFSFTGSWNDFLWPVIVYTDVEKMPVTAGLLLLQDIYGNYRMIGQLMGSAILAIIPTLLLFLFAQKYFVQSINLNAGIKG	PGPT0016540_1652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_02207	975		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGACTGAATTATATATAAAAAATCCCCTGATCGAGCAGAGGGCAGATCCCTGGATCTATAAACATAGCGATGGTTTTTATTACTTTACCGGTTCCGTGCCGGAATATGACCGGATCGAGCTTAGACGCTCGGAAACGATCCAAGGGCTTGCGGCTGCGGAAGGCATAACGATTTGGCGCAAGCATGATTCGGGTTTGATGAGCGCCAATATTTGGGCGCCCGAGCTTCATCACATAGAGGGCAAATGGTACGTGTATTACGCAGCGGCCCATACGTCCGAAACGAGGGACGGGTTGTTTGATCACCGCATGTTCGTGCTGGAGAATGCTTCGGCGAACCCGCTGGAAGGGGAATGGGTGGAGAAGGGACAAGTGATCACGAAGTGGGAGTCTTTTGCACTGGACGCAACCACGTTTGAGCATAAGGGAAGGCGGTATTATGTGTGGGCCCAGAAAGATCCGGCCATTCCGGGCAACTCGAATCTCTATATCTCCTTGATGGAAAATCCCTGGACCCTGACAGGGGAACAGGTTTGCATATCGGTTCCCGAATATGATTGGGAGAAGATCGGCTATCTGGTGAATGAAGGAGCCGCTGTCCTGAAGCGAAACGGTCGCATATTCATGACCTATTCCGCAAGCGCCACGGACCATAACTATGCGATGGGCCTGCTGACGGCCGATGAGGACAGCGATTTGCTGGATCCGAGCTCCTGGGTGAAATCACCCTTGCCCGTATTTACGACATCGGAAGCCAATGGCCAATACGGGCCGGGACACAACAGCTTCACGGTATCCGAGGACGGCCTGGTGGACATCCTGGTTTACCATGCCCGAAGTTACAAGGTGATGGCGGGTGATCCGCTATATGATCCGAACCGCCATGCGCGCGTACAGATCATCCGGTGGAATGAAGACGGTACGCCGAATTTCGGTGTGCCGAGAGCGGATCATGCAATGATATCCGAGTCATGA	MTELYIKNPLIEQRADPWIYKHSDGFYYFTGSVPEYDRIELRRSETIQGLAAAEGITIWRKHDSGLMSANIWAPELHHIEGKWYVYYAAAHTSETRDGLFDHRMFVLENASANPLEGEWVEKGQVITKWESFALDATTFEHKGRRYYVWAQKDPAIPGNSNLYISLMENPWTLTGEQVCISVPEYDWEKIGYLVNEGAAVLKRNGRIFMTYSASATDHNYAMGLLTADEDSDLLDPSSWVKSPLPVFTTSEANGQYGPGHNSFTVSEDGLVDILVYHARSYKVMAGDPLYDPNRHARVQIIRWNEDGTPNFGVPRADHAMISES	PGPT0019091_845	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
AK002_02208	888			hypothetical protein	ATGGCAAAGATATTAGTATTGGGCGGAACCCGCTTTTTTGGCAAAAGGCTGGTTAACCGGCTGGTGGCTAACGGCGATGCCGTTACGATTTTGACGCGCGGACAACACCAGGATCCATTCGGGGGTGCCGTTTCGCGGCTTGCCGCGGATCGGAAAGATCCGGAGAGCTTAAAGCAGGCAGTAGGGAGCCAGGATTTTGATATCGTATATGATAATATATGTTATACGCCGGAAGAAGCGGGACAAGCAGCGGACTTATTTGCTGGACGCGTAGGACAATATGTGCTGACCTCCACGTTGTCAGTATATGATTTTGCGGATCATCCGGTAAGGGAAGAGGACTTTGATCCATACAGATATCCGGTTATGATGAATGAAAGCAGGGACTACAGCTACAAGGAAGGCAAGCGCCAGGCGGAGGCGGTTTTGTTCGGTCGCCATAATCTCAATGTAACCGCCGTCCGGCTCCCGATTGTGCTTGGACCGGATGATTACACGCGAAGGCTGCTTTTCCATATTGAACATGCTGCGAGCGGGGAAGCCATTGGTTTGCCGGATCCCGACGCGCAAATCTCGTTTGTGCATGCCGAGGAAGCGGCAGAATTTCTGGAGTGGGCAGGCCGAGTCCAATTAGATGGCCCGGTTAATGCATGTTCGAGCGGCACGATTTCGGTACGGGAAATGATGGGCTTGATCCAGCAGGAAATCGGAAGGACGGCACCGCTCCAGTCATCGGCGGCACCGGATCACATGTCTCCGTTCGGCATTCCGGGAGATTGGACGATGGATCATGCCAAAGCGGCAGCCGCCGGATTTACATTTTGGGATCTGCACGACTGGATGCCGAAATTGATTGCCGAATTGTCCGCCGATTTGAAGGTTCGTTAA	MAKILVLGGTRFFGKRLVNRLVANGDAVTILTRGQHQDPFGGAVSRLAADRKDPESLKQAVGSQDFDIVYDNICYTPEEAGQAADLFAGRVGQYVLTSTLSVYDFADHPVREEDFDPYRYPVMMNESRDYSYKEGKRQAEAVLFGRHNLNVTAVRLPIVLGPDDYTRRLLFHIEHAASGEAIGLPDPDAQISFVHAEEAAEFLEWAGRVQLDGPVNACSSGTISVREMMGLIQQEIGRTAPLQSSAAPDHMSPFGIPGDWTMDHAKAAAAGFTFWDLHDWMPKLIAELSADLKVR				NA	NA	NA	NA	NA
AK002_02209	213			hypothetical protein	ATGAGCGACAAGATGGAAGCATGGAAAGAGCGTATACAGGAAGCGGAATCCAAGGGAGGTTTACCTCCGGATGCCCTGACGTTAATCCATGCGATGTATGAAGAAATCGAAGCTTTAACGAGACAGAATGTCAATCTGCGGAGAACCGCCTTAAAAGCGGCCTCCAAAGAAACAAGGATGTCGAGTAAATTGAAGGACGCCCTCATGGAATAA	MSDKMEAWKERIQEAESKGGLPPDALTLIHAMYEEIEALTRQNVNLRRTALKAASKETRMSSKLKDALME				NA	NA	NA	NA	NA
AK002_02210	306			hypothetical protein	ATGAAAATGTTAATTTCCCGCTTTATTGCCATCTTGATTTTGGTTATTCCGGGTTTTATGGCAATGAAGGGTTTCTTGATGATGAAGGATGCGGTTTTTCTATATATTGCCGTGCATGGGGACGACAACGTGGCGAACCCCGCTTTCGGTTGGCTTTCTTTTCTTGGCGGACTGGCCCTGTTCGTCATCGGCATCGGTTTCCTGGGCGGCTGGATTCTGTTCCGCGACCGCAAACGGAATTACGTCGGTCCGAGATTCAAAAAGAAGCGCCCGGCAACAAAATCAGGAACCCCGTCCAAAAGCTGA	MKMLISRFIAILILVIPGFMAMKGFLMMKDAVFLYIAVHGDDNVANPAFGWLSFLGGLALFVIGIGFLGGWILFRDRKRNYVGPRFKKKRPATKSGTPSKS				NA	NA	NA	NA	NA
AK002_02211	1422	pdhD_1		Dihydrolipoyl dehydrogenase	GTGGCTATAACATGTGATGTAGCAATTCTTGGCGGAGGTACCGGTGGATATGTTGCAGCCATCCGTGCAGCCCAGCTCGGTAAACATGTGGTTATCATCGAGCAGGACAAATTGGGAGGGACCTGCTTGCACCGCGGGTGCATTCCGAGCAAAGCATTGCTTCGAAGCGCCGAGCTTTATGCGGAAATGAAGGATAGCGAGAGCTATGGAATCGAGACGGACGGAGTCCGGCTATCGTTTAACAAAGTGCAGAAACGGAAGGACGGCATCGTGGAGAAACTGCACCAGGGCGTCCAATATTTGATGCGTAAAAATAAAATCACCGTCGTGCAGGGCAAAGGGAGAGTTATCGGCCCGTCCATTTTCTCTCCGCGCAGCGGGGCCGTAGCGGTTGAGCTTCCGGATGGCGAGATGGAAACCGTGGTTCCCACCCACCTGATCATTGCGACCGGATCGCGTCCGCGTCACTTACCGGGATTAGAGCCTGACGGCATACATATATTGACTAGCGACCATGCGCTTCAGCTGGATGAGCTTCCCTCATCCATTATTATCGTGGGGGGTGGCGTAATCGGCGTGGAATGGGCCTCGATGCTGAATGATTTCGGAGTTCAGGTCACGATTGTGGAAGCTTCATCCCATTTGCTGCCTTCGGAGGATGAGGAGATCGGACGCGAGCTGTCGAAGATGCTCAGCGCCAGGGGCGTAGAGGTTATCACGAACATAAAGCTATTAACCGACAGCTGTGAGATCGGGAATCAAAGCGTGTCCATCGCAATCGAGCATAAGGATGACACAAGAACGTTGTCAGCGGACAAGCTGCTGCTCTCTGTCGGAAGAGTGGGCAATACCGAGAATATCGGACTTGAGAATACGGATGTTCGCGTGGAGAACGGCTTCATTGCCGTGAACGGGAATATGCAAACAACGGAGCCCCATATTTACGCGATCGGCGATTGCATCGGGGGACTTCAGCTTGCGCATGCGGCCAGCCATGAAGGGATTGCTGCCGTGAACCATTTGGCAGGCGAGAATACGGAGGTCTACCGAAGCGAATGGATCCCGCGCTGTATTTACACCCGTCATGAGGTAGCCAGCGTCGGGTTGACGGAGAAGCAGGCGAAAGAACGCGGACATGAGATCAAGATCGGCAGATTCCCGTTTTCGGCGATCGGCAAATCTTTGATCCACGGAACAAAGGAAGGGTTCGTAAAAGTCATTGCCGATCAGAAGACGCAGGATATTCTGGGCGTGCATATGATCGGTCCGCACGTAACCGAGCTCATTGGCGAAGCGGCTCTTGCACAAGTGCTGGATGCGACCCCATGGGAAGTCGGCACGGCGGTCCACGCCCATCCGTCATTATCCGAAATCATCGGCGAAGCGATGCTTGCCGTGGATGGACGAGCGATCGGTTTGTAG	MAITCDVAILGGGTGGYVAAIRAAQLGKHVVIIEQDKLGGTCLHRGCIPSKALLRSAELYAEMKDSESYGIETDGVRLSFNKVQKRKDGIVEKLHQGVQYLMRKNKITVVQGKGRVIGPSIFSPRSGAVAVELPDGEMETVVPTHLIIATGSRPRHLPGLEPDGIHILTSDHALQLDELPSSIIIVGGGVIGVEWASMLNDFGVQVTIVEASSHLLPSEDEEIGRELSKMLSARGVEVITNIKLLTDSCEIGNQSVSIAIEHKDDTRTLSADKLLLSVGRVGNTENIGLENTDVRVENGFIAVNGNMQTTEPHIYAIGDCIGGLQLAHAASHEGIAAVNHLAGENTEVYRSEWIPRCIYTRHEVASVGLTEKQAKERGHEIKIGRFPFSAIGKSLIHGTKEGFVKVIADQKTQDILGVHMIGPHVTELIGEAALAQVLDATPWEVGTAVHAHPSLSEIIGEAMLAVDGRAIGL	PGPT0001380_4140	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
AK002_02212	1029	bfmBAA	COG1071	2-oxoisovalerate dehydrogenase subunit alpha	ATGAAAGAACATGAAACGGTTACGGCAAACAACAATAGGCATGAGCAGCTTGGACTGACCGACGGACAAGTGCTGGACATGTACAAATATATGGTGCTGGCGCGAAAATTCGATGAGCGCAATCTGCTGCTGCAGCGTGCGGGCAAAATTAATTTTCACGTTTCCGGAATCGGGCAGGAGGCATGTCAGGTTGCTGCTGCCTTTGCCCTCGACCGGGAGAAAGATTATTTTCTACCTTATTACCGCGACTACGGATTCGTATTGGCGGTTGGCATGACGCCTCGCGAATTAATGCTGTCGGCTTTTGCCAAGGCCGAGGATCCGAACAGCGGCGGACGGCAGATGCCGGGCCACTTCGGCAGTAAACGCCTGCGGATCGTGACCGGCTCCAGCCCTGTAACGACCCAGGTTCCGCATGCCGTAGGTTTCGCGCTTGCTGCGAAGATGCAGAAGAAGGATTTTGTATCGTTTGTTACGTTTGGCGAAGGCTCGAGCAATCAGGGCGATTTTCATGAAGGCTGCAACTTTGCCGGCGTTCACAAGCTCCCCGTCATTATCATGTGCGAGAATAACCAATATGCCATTTCGGTTCCGCTTCATAAACAGATTAGCGGGAAGGTCAGCGACCGCGCGCTCGGGTACGGTTTTCCGGGTGTTCGAGTGGACGGCAACGACGCTCTGGAAGTTTACGCGGCCGTGAAGGAAGCCCGGGAACGTGCGATCCGAGGGGAAGGACCAACGTTGATCGAATCTATGATGTACCGTTTGTCTCCGCATTCCACATCGGATAACGATTTGGCGTACCGGACCAAAGAAGAGGTTGAAGAGAACTGGAAGAAAGACGGCGTCGCCCGTTTCAAGAACTATTTGATCGACTGCGGGCTCTGGGACGAAGCACGCGATCAGGATTTGATCGCGCAGTTAAACCTGGAGATCAAAGAAGCGACGGAATCTGCAGACTTGGCTCCGTTTCCGAAGCCTGAAGATACGCTTCTTCACGTATATGCCGATGCTGAAGGAGGCGCGTAA	MKEHETVTANNNRHEQLGLTDGQVLDMYKYMVLARKFDERNLLLQRAGKINFHVSGIGQEACQVAAAFALDREKDYFLPYYRDYGFVLAVGMTPRELMLSAFAKAEDPNSGGRQMPGHFGSKRLRIVTGSSPVTTQVPHAVGFALAAKMQKKDFVSFVTFGEGSSNQGDFHEGCNFAGVHKLPVIIMCENNQYAISVPLHKQISGKVSDRALGYGFPGVRVDGNDALEVYAAVKEARERAIRGEGPTLIESMMYRLSPHSTSDNDLAYRTKEEVEENWKKDGVARFKNYLIDCGLWDEARDQDLIAQLNLEIKEATESADLAPFPKPEDTLLHVYADAEGGA	PGPT0008861_2434	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
AK002_02213	987	bfmBAB	COG0022	2-oxoisovalerate dehydrogenase subunit beta	ATGGCGGTAATGGAATATATCGATGCAATACGCCTGGCCATGAAGGAAGAAATGGAGCGTGACGACTCCGTATTCGTGTTAGGCGAGGACGTGGGCGTCAAAGGCGGCGTGTTTACTACCACCAAGGGCTTGATGGATCAATTCGGCGAAATGAGGGTGCTCGATACCCCGCTCGCGGAATCCGCGATTGCCGGCGTGGCTATTGGTGCAGCCATGTACGGCATGAAGCCGATTGCCGAGATGCAATATTCGGACTTCATGTTCCCGGCAACCAACCAGATTATTAGCGAAGCGGCGAAAATCCGCTATCGTTCCAATAACGATTGGAGCTGCCCCGTCGTGATCCGCGCGCCGATCGGAGGCGGAATATTCGGAGGCTTGTATCATTCCCAGTGCCCGGAATCGGTGTTCTTCGGAACGCCGGGATTGAAAATCGTTGCGCCGTACTCGGCCTATGATGCAAAAGGGCTGCTGAAAGCGGCGATCCGCGACCCGGATCCGGTTCTGTTCTTCGAGAACAAGAAATGCTATAAGCTGATTACCGGCGATGTGCCGGACGACGATTACGTTGTCCCGATCGGTAAAGCGAACCTGCTGCGCGAAGGCTCGGATATTACGGTGATCAGCTACAGCCTGCCGCTGCATTTCGTCATGCAGGCTGCTGAAGAGCTTGAGAAGGAAGAAGGCATCAGCGCGCATGTGCTGGACCTGCGTACCATACAGCCGCTGGACCGGGACGCGATTATCGCCGCAGCCCGGGCAACGGGGAAAGTGCTGATCGTGCACGAGGATAACAAGACCGGCGGGGTTGGCGGGGAAGTATCCGCGATCATAGCGGAGCACTGCTTGTACGATTTGGATGCTCCGATCATGCGCCTATGCGGTCCGGACGTGCCGGCTATGCCAATCAGTCCGCCGATGGAGAAATTCTTTATGCTTAACAAGGACAAAGTCAAAGAATCCATGCGTCAATTGGCGCTTTATTAA	MAVMEYIDAIRLAMKEEMERDDSVFVLGEDVGVKGGVFTTTKGLMDQFGEMRVLDTPLAESAIAGVAIGAAMYGMKPIAEMQYSDFMFPATNQIISEAAKIRYRSNNDWSCPVVIRAPIGGGIFGGLYHSQCPESVFFGTPGLKIVAPYSAYDAKGLLKAAIRDPDPVLFFENKKCYKLITGDVPDDDYVVPIGKANLLREGSDITVISYSLPLHFVMQAAEELEKEEGISAHVLDLRTIQPLDRDAIIAAARATGKVLIVHEDNKTGGVGGEVSAIIAEHCLYDLDAPIMRLCGPDVPAMPISPPMEKFFMLNKDKVKESMRQLALY	PGPT0008862_1563	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008862-bkdA2|bfmBAB-K00167	NA	NA
AK002_02214	1413	odhB_1		Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGTCCGAAAATCAGAAATTGACCGATGTTACGATGCCTCAGCTGGCAGAATCCCTTGTTTCGGCGACCATTGCCAAGTGGCTGAAGAAGCCCGGGGATTTCATTGAGCAATACGAACCGATCTGTGAAGTGATCACCGATAAAGTCAATGCCGAGATTCCATCCACCCTGGACGGCGTCATGGGCGATATTCTTGCCCAGGAAGGCCAAACCGTCAATGTTGGCGATATTATTTGCCGGATCGCGGTCGCTTCAGGAGAAGGGACTGCGCCTTCGCCACAGCCGGCTGCAGCAGCTTCGGCGAGTCCGCAGCAGGGTGCAGGCAGCGAGGAAGGCTCGATGCGTTTCCGTTACTCGCCTGCCGTGCAGACGCTGGCTGCGGAACATCAGATCGATCTTTCGAAGGTGCAGGGATCTGGCATGGGCGGAAGAATAACCCGTAAGGACGTATTGGCTTATATCGAAAAAGGGGGAGCAGCCCAAGGCCAAGGCCAAGGCGCTCCTGCCGGATCGGCGTCTTTCCCTAGCGCGCAAGCGCAAAGAGAAGCAGTGCAGCCGAGCGGGACTTCGCCGTTTCAAGGTCTGCAGCATCAGACGCCTGCGGAACCGTCGCCTCCTCTGGGCACAGCCATTCCGGATGTGCGCCATTCGGGGCTGCATTTGACGGAATCGCCGAAAATTCCGACCATTGAAGTGGAGGGCATGGAAGGCGGAAGATCGGAATACTTCATTGATGTAACGCCGATGCGGAATGCCATTGCCCGAAACATGCGTCAAAGCGTTACGGAAATACCGCATGCCTGGACGATGATCGAAGTCGACGTGACCAACATCGTGCTGCTGCGCAATCAATTGAAGGATGAGTTCAAGCGCAAGGAAGGGGTTAATTTAACCTATCTGGCCTTTTTGCTAAAAGCCGTTGTGAACGCCATTAAAGATTATCCGATCATGAATTCGTTCTGGGCCGTGGATAAAATCGTGGTGAAGCGGGATATCAATCTGTCCTTGGCCGTCGGAACGGAGGATTCCGTGTTGACGCCGGTCATCCATCGTGCCGATCAAAAGAATATTGCGGGCCTTGCGAGAGAGATCGAGGATCTAGCGCGCAAGACACGTGAAGGCAAGCTGAAGCTGGACGATATGCAGGGCGGTACCTTTACGGTTAACAATACGGGGTCCTTCGGCTCGATACTGTCCTATCCGATCATCAATTATCCGCAGGCTGCGATTCTGACATTTGAATCCATCGTGAAAAAGCCGGTGGTCATCAATGACATGATCGCGGTTCGCTCCATGGCAAACCTGTGTTTGTCCCTGGATCATCGGATTTTGGACGGGGTGATCTGCGGGCGATTCCTCCAGCGCGTCAAAGACAATCTGGAAGGCTACACCCTGGATACGAAGCTCTATTAA	MSENQKLTDVTMPQLAESLVSATIAKWLKKPGDFIEQYEPICEVITDKVNAEIPSTLDGVMGDILAQEGQTVNVGDIICRIAVASGEGTAPSPQPAAAASASPQQGAGSEEGSMRFRYSPAVQTLAAEHQIDLSKVQGSGMGGRITRKDVLAYIEKGGAAQGQGQGAPAGSASFPSAQAQREAVQPSGTSPFQGLQHQTPAEPSPPLGTAIPDVRHSGLHLTESPKIPTIEVEGMEGGRSEYFIDVTPMRNAIARNMRQSVTEIPHAWTMIEVDVTNIVLLRNQLKDEFKRKEGVNLTYLAFLLKAVVNAIKDYPIMNSFWAVDKIVVKRDINLSLAVGTEDSVLTPVIHRADQKNIAGLAREIEDLARKTREGKLKLDDMQGGTFTVNNTGSFGSILSYPIINYPQAAILTFESIVKKPVVINDMIAVRSMANLCLSLDHRILDGVICGRFLQRVKDNLEGYTLDTKLY				NA	NA	NA	NA	NA
AK002_02215	684	lipB	COG0321	Octanoyltransferase	ATGAAAAAACCGTTAGATGTATCGTATACGCCGATTGTGGATTACGGCATGGCTTGGGAGCTTCAAAAAAACCATGTTTCCGCCATCGATCAGGGAGAGCGTCACGAGAGTCTGATGCTCCTCCAACATCCTCCGACCTATACGATGGGGTCACAGCGGCATCCGGAGCACCTGCTGCTAAGCAAAGAGGAATTGGAGAAACAGGGCATCGGACTGTTTGAAATCGATCGCGGCGGAGATATTACATATCACGGTCCCGGACAGCTTGTCGGGTATCCGCTGTTGCTGCTGGATGGCGGCAAGAATTTGAACCTCCACGGGTTTCTGCGCGACGTGGAGCAGGTCATCATCGATTACTTGGCATCCTACGACATCGAAGCAGGCCGAAAACCCGAGTACACCGGTGTATGGGTAGGCGATTCGAAGATCTGCGCCATCGGCGTGAAATTCAACAAATGCCGCCGGCATCGCGGGTTTGTGACAAGCCACGGCTTTGCGTTTAACATTAAATCCGGGATCGCGGATGCGGGATTCTCGGGCATTATTCCATGCGGCATTCAGGAATTCGGCGTCACTTCACTGGAGGATTGCACGGGGCGGAAGTTCGAGGTAGAGGAAGTAGCCCGGGAGATCGTGCCTTACTTCACCCGGGTATTTCCATATGAGGCTCACTGGCTGTCATAA	MKKPLDVSYTPIVDYGMAWELQKNHVSAIDQGERHESLMLLQHPPTYTMGSQRHPEHLLLSKEELEKQGIGLFEIDRGGDITYHGPGQLVGYPLLLLDGGKNLNLHGFLRDVEQVIIDYLASYDIEAGRKPEYTGVWVGDSKICAIGVKFNKCRRHRGFVTSHGFAFNIKSGIADAGFSGIIPCGIQEFGVTSLEDCTGRKFEVEEVAREIVPYFTRVFPYEAHWLS	PGPT0003925_1983	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
AK002_02216	102			hypothetical protein	ATGCAACGTAAAAAGTGGTTTCGAATTGTGATCTATCTCATGCTGATTGCCATGGTAGGATCAACGCTTCTGGTTATCCTGGAGCCTTTGTTCCTTCGCTAA	MQRKKWFRIVIYLMLIAMVGSTLLVILEPLFLR				NA	NA	NA	NA	NA
AK002_02217	1131	pepT_2		Peptidase T	GTGATCTCAGAAGAGCGTATCATTCAAGAGTTTATGGAACTGGTTCAAGTGGATAGCGAAACCCAACATGAAGAAGAGATCTCGAAAGTTCTCCAGCACAAATTTTCCGGTCTCGGCTTCGAAATCATAGAAGACGATGCCAAGGAAAAGACGGGGCACGGAGCAGGCAATCTGATTATTACCTGGAAAGCGGACGAGGCGGCCCAGCATGCGCCTAAGCTGCTTTTTACCTGCCATATGGATACCGTAACACCCGGGAAAGGCATCAAGCCGACTCTAGGCGATGACGGTTGGATCCGAAGCGACGGAACGACCATCCTCGGGGCGGACGACAAAGCCGGCATCGCCGCTTTGCTGGAAGGCATTCGGGTCATTCAGGAAAATAACATTCCGCACGGGCAAGTCCAGTTTGTCATTACGGTAGGCGAGGAATCGGGGCTGGTCGGAGCGCGGGCGTTGAATCCGGATGTTTTGGATGCGGATATCGGCTTTGCGCTGGATTCCAACGGGGAGCTGGGTTCGATCGCAGTTGCCGCCCCGACCCAGGCGAAGATCAAAATGATTATTAAAGGCAAGTCTGCCCATGCCGGCGTAAATCCGGAGGACGGCATCAGTGCCATTCAAGTCGCGTCCAAAGCCATCGCCAAAATGAAGCTCGGACGCATCGATAAGGAGACCACGGCTAACATCGGCAAATTCCAGGGCGGAGGCGCTACGAATATCGTGTGCGACTTTGTTCAGATCGATGCCGAAGCACGCAGCATCGTTCAGGAAAAGGTCGATAAGCAAGTGAATGATATGCGTGAAGCGCTTGAAACCACGGTTCGTGAATACAATGCCAATTGCGAGTTCATTAGCGAGATCGTTTATCCGGCCTTCAGCTTCAATGAGCATGACGAGGTCGTTCAGCTTGCGCAGCGGGCCATCGGCGGATTGGGTTTGCCGACCCGCACATTCCGGTCCGGCGGCGGCAGTGATGCCAATATTTTTAACGGCCTCGGCATTCCAACCGTCAATCTGGCGATTGGATATCAAGACATTCATACCACGCAGGAGCGCATTCAAGCTTCTGATTTGGTAAAGGCGGCGCAGATCGTGGTTGGAATTATCCAGGAAACGGCCAAAGCGTAG	MISEERIIQEFMELVQVDSETQHEEEISKVLQHKFSGLGFEIIEDDAKEKTGHGAGNLIITWKADEAAQHAPKLLFTCHMDTVTPGKGIKPTLGDDGWIRSDGTTILGADDKAGIAALLEGIRVIQENNIPHGQVQFVITVGEESGLVGARALNPDVLDADIGFALDSNGELGSIAVAAPTQAKIKMIIKGKSAHAGVNPEDGISAIQVASKAIAKMKLGRIDKETTANIGKFQGGGATNIVCDFVQIDAEARSIVQEKVDKQVNDMREALETTVREYNANCEFISEIVYPAFSFNEHDEVVQLAQRAIGGLGLPTRTFRSGGGSDANIFNGLGIPTVNLAIGYQDIHTTQERIQASDLVKAAQIVVGIIQETAKA	PGPT0020915_2459	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
AK002_02218	1212			hypothetical protein	ATGCGACATATACCTATTATTGAAACCGATCCGATTACAAATCCACCTTCAACTGAATATGAGCGCGGAAAATGGTACAAAAAACGCGGGTATCTTGAGAAGGCTCTGAAGAGCTTCAAGGATGCTGCACAATCCGCAACAACCGATACGACGAGCTCGGGATGGAAGGAAGTAGATTTAAGCTGGCTTGAGTACGGGCTATTAAGCATGCGAATGCGTTCCTACGGCAAAGCCGAGGAGGCTTTCAGAACCGTCGTGCTACATTCCGGTGCCCACGCCCAAGAGGCGCTGAATCAATGGGCCGCACTCCTGCTTCTGCAAGGAATCCCGGATCAAACCATATGCGAACGGCTCTTGAACGAAACAAGCAGCTTTCCGGCATCCAATATCATGGTTGGCAGGTCTTTATATTATATCGGGGCTTACCCGTTTGCCTCCCGCTGCTTTGCTGAGCAGGGAAGTTTATATTCCGATACCTGTATCATGTACGTGACTTGCCTCATCATGACAGGTCAAACCTCTGAAGCCATGCACTTCATTGACAGTTACCTTCGGGATTCCATCCGTCAGCCGCGGGAACTGCCGCGTCCGCAAGGATCCGAGATGGCTCAGCTAAGCCGAATCCGGCAGCTCTGCGAGTGGAGCGTCCAACATTCGCTGCCTGACCGATTCATCGCCATGTCGGAGGCTTTGGAATTAGCTCGCACCGCCATATCGCTCAAAATGATCTCCATCGCCGAACATCTGCTTGCCGATAGCGGCGAACGTGCTTATTATGCTCTTATCTGTTTTCTTTATGAGGAAGGCTACAGGGGGCAGGCAATTTCAAAGTTGCATCAATTGGAAGCGCTGCCTCTCCAGGATCAAGACAGCTACAGCTTCAAGGTATGTTTCATAGCGGCTGAGCATTTGTATGATCTGGGTAATTATGACGAGGCCGCATCCATGCTTGAGCAGCTCAGGCTTGCTTCTCCCGGGCATACGGAGGCTCGCTTCGGCGAAGCCGCTTGTTATTTGCAGTCCGCGTTGATTTCCCTTTCCGCCCGTCTGGAGGAGAGTTATTCCTCTGCATCGGCAAGGAAGGAAATCGAGTTATACCTTGACAACATTAATGCCGCATTGCATGTTGTCGAGAGTACGAACTGGCATACCACCTGGACGCCTGCCCAAAAAAGGGTAGAGACCTCCCCGACGATGTCATTCCTGAATTAG	MRHIPIIETDPITNPPSTEYERGKWYKKRGYLEKALKSFKDAAQSATTDTTSSGWKEVDLSWLEYGLLSMRMRSYGKAEEAFRTVVLHSGAHAQEALNQWAALLLLQGIPDQTICERLLNETSSFPASNIMVGRSLYYIGAYPFASRCFAEQGSLYSDTCIMYVTCLIMTGQTSEAMHFIDSYLRDSIRQPRELPRPQGSEMAQLSRIRQLCEWSVQHSLPDRFIAMSEALELARTAISLKMISIAEHLLADSGERAYYALICFLYEEGYRGQAISKLHQLEALPLQDQDSYSFKVCFIAAEHLYDLGNYDEAASMLEQLRLASPGHTEARFGEAACYLQSALISLSARLEESYSSASARKEIELYLDNINAALHVVESTNWHTTWTPAQKRVETSPTMSFLN				NA	NA	NA	NA	NA
AK002_02219	165			hypothetical protein	ATGAAAAGCTACAAAGGTGACCATTCGATACATTTGGTAGGACAGGCCTGGCAGATCCGGATTATGCTGAAGCAATGGCAGCAGCAATGGGGATCGGAAACGAAGATTATGGATATTATTTCTAAGTCTTCTAAAAATATTTACGAAAACAGATCGGAAAATTAG	MKSYKGDHSIHLVGQAWQIRIMLKQWQQQWGSETKIMDIISKSSKNIYENRSEN				NA	NA	NA	NA	NA
AK002_02220	582	act		Methanol dehydrogenase activator	GTGAGCGATATCGGCAGTAAGACCCGTGAAGCATCGGATAAATTGCTGGAAGAAACCACCTTGTCCACCCAATCTATTTTTGAAGGGAAAATCATATCGCTGCAGGTCGATACGGTGACACTGCCCGATGGGCAGACGGCAACCCGTGAGGTTGTCAGACATCCCGGCGCCGTAGCGGTGCTTGCGTTAAAAGACGATAAAATGCTGGCCGTCAATCAATTTCGTCAGCCCCTTGGGCGCTGTGAGGTTGAAATCCCTGCCGGCAAGCTGGAGCGGGGGGAAGATCCGCTTGAAGCGGCCAAGCGTGAACTGCAGGAGGAAACCGGTTATACATGCGGTTCGATCCGAAAACTGCATTCCTTCTATACATCTCCGGGGTTTGCCGATGAGATCATTCACTTGTACCTGGCAGAGGATCTGGTCGGAGGCGACATGAATCCCGATGAGGACGAGTTCATAGAGATGATGGAAATTTCGCTGGAAGAAGCGTACTCACTCATCCAAGAGGAGAGAATCAGCGATGCCAAAACCATTCTCGCCGTCTATGCTTGGAATATGTACAGCCTGACGGGTAAGATCTGA	MSDIGSKTREASDKLLEETTLSTQSIFEGKIISLQVDTVTLPDGQTATREVVRHPGAVAVLALKDDKMLAVNQFRQPLGRCEVEIPAGKLERGEDPLEAAKRELQEETGYTCGSIRKLHSFYTSPGFADEIIHLYLAEDLVGGDMNPDEDEFIEMMEISLEEAYSLIQEERISDAKTILAVYAWNMYSLTGKI	PGPT0021525_1696	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
AK002_02221	1215			hypothetical protein	ATGCAGCATCCTGACGAAAACGTCTCTGCCGGGAAGCTTCAGTCCTATTACTGCGACATGCATATTCATATCGGTCGCACAAGCAGCGGGCAAGCTGTGAAAATAAGCGCAAGCAACAACCTGACCTTTGAAAATATAGCCGTCGAAGCTTCGGAGCGGAAAGGCATTCAGATGATCGGCATCATCGATTGCCATTCTCCTTCGGTGCAGGAAGACATTCTGCAGTGTTTGGACAGCGGCGTCATGCAGGAGATCGACGGGGGCGGAATTGCGTACCGGGATACGGTAATCCTGCTTGGCAGCGAGATTGAAATACGTGAAAGCGGCCGAGGCGCGGCCCATGTGCTGGCTTATTTTCCCGACCTGAGCACGATGCAGGAGTTCACCGGCTGGATGGCCGGATATATGAAAAACGTCCAGCTGAGTTCCCAGCGCATCTATGTCAGTCCGCTGGAGCTGCAGCAAGAGATTACGGCACGCGGCGGGCTGCTGATACCCGCTCATGTCTTTACGCCCCATAAGGGGCTTTACGGCAGCATGGCTGACCGTATGAGCGAGGTGTTCGATCTGAACGGGATTGCGGGCATCGAGCTTGGGCTCAGCGCCGATTCCTCGATGGCTGGACGTATTAGCGAGCTGGATGCCTATTCCTTTTTGACCAATTCGGATGCGCATTCCCTCGGGAAGATCGGCAGGGAATACAACCGGATCGACATGGCCAAGCCTTCATTCGCAGAATTTCGCCAGGCGCTTCAGGCTAGCAACGGGAGAAGAATCAGTGCGAACTACGGGCTGAATCCCAGACTGGGTAAATACCATCGCACCTATTGCGTGGGATGCGACAGCATTCTGGATGAAGGGAGCGACATTCATGATTTGGTGCGATGCCCGTACTGCGGAAGCACCAAGCTGGTTCAAGGGGTGTTCGACCGAATTCTTAACATCGCTGACCGCACGGAGCCCGTGGTGCCGGAGAGCCGACCTTCGTATCACTACCAGGTTCCGCTAGAGTTCATCCCGGGTCTTGGGAAGTCCTCCATGTCGAAGCTGCTTGACGCATTCGGCACCGAAATGAATATCCTTCATCAGGCCACGGAAGCCGAGCTGGCGGCCGTTGCCGGCGAGGGACTCGCGGCAAGCATCGTGATGGCCCGGAATGGGACGCTGCCCTTATCGGCTGGCGGCGGAGGCTCTTACGGGAAGGTGCTCCGGTAA	MQHPDENVSAGKLQSYYCDMHIHIGRTSSGQAVKISASNNLTFENIAVEASERKGIQMIGIIDCHSPSVQEDILQCLDSGVMQEIDGGGIAYRDTVILLGSEIEIRESGRGAAHVLAYFPDLSTMQEFTGWMAGYMKNVQLSSQRIYVSPLELQQEITARGGLLIPAHVFTPHKGLYGSMADRMSEVFDLNGIAGIELGLSADSSMAGRISELDAYSFLTNSDAHSLGKIGREYNRIDMAKPSFAEFRQALQASNGRRISANYGLNPRLGKYHRTYCVGCDSILDEGSDIHDLVRCPYCGSTKLVQGVFDRILNIADRTEPVVPESRPSYHYQVPLEFIPGLGKSSMSKLLDAFGTEMNILHQATEAELAAVAGEGLAASIVMARNGTLPLSAGGGGSYGKVLR				NA	NA	NA	NA	NA
AK002_02222	624	spoIIM	COG1300	Stage II sporulation protein M	ATGCAATCATTCCGCCAGGCCTTTAAGGATCAGACGATGCTCTATGTGTTTGTAGGCGTCTTGTTTTTAGTGGGCGTGCTGTTTGGAGCGTTGATGGTCAATGCGCTTTCATTGGAGCAGCAGCAGGAAATGGCCCGCTATTTAAACCACTTTTTTGTTAACGTGCAGGACGGTGGAGAATCCATGAGTCAGTCTTCTTACTGGAGCATCGCAGCCCTGCATCTGAAATGGATCGGTTTGATATGGATTCTGGGATTGTCCGTCATCGGGCTCCCGGGAATATTGATATTGGATTTTCTAAAAGGGGTTCTCATCGGGTTTACGGTCGGTTATCTGGTGGGACAGTATTCATGGAAAGGCCTGCTGTTCGCCCTGGTGTCGATTGCACCGCAAAATTTGCTCATCATCCCCGTGCTCATGATGTGCAGTGTAGCGGCGATAACCTTCTCTCTATACATTATCAGGGACCGATTTATCATGAATCGGGGAGGCAGCATGATGAAGCCTTTTGCTTCGTATGCCATGCTGACATTTTTCATGGTCATGCTGACGCTCGGGGTCGCTTCCTTTGAAACCTGGGTAACCCCCGCCATGATGCGCTGGGTTACGCCCATGTTGCTATAA	MQSFRQAFKDQTMLYVFVGVLFLVGVLFGALMVNALSLEQQQEMARYLNHFFVNVQDGGESMSQSSYWSIAALHLKWIGLIWILGLSVIGLPGILILDFLKGVLIGFTVGYLVGQYSWKGLLFALVSIAPQNLLIIPVLMMCSVAAITFSLYIIRDRFIMNRGGSMMKPFASYAMLTFFMVMLTLGVASFETWVTPAMMRWVTPMLL	PGPT0024685_376	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
AK002_02223	465	fur	COG0735	Ferric uptake regulation protein	ATGGAAGCGCGGATCGACAAAATTAAGCAGCAGCTACAATCCCAAGGATACAAATTAACGCCCCAACGGGAAGCCACGGTAAGCGTATTGTTGGAAAATGAAGACGACCACCTTAGCGCAGAGGATGTATTTATGCTCGTGAAAGAGAAGGCTCCGGAGATCGGTCTGGCAACCGTGTACCGTACCCTAGAGCTGCTCAGTGAGCTTCATGTTGTAGAGAAGATAAATTTTGGCGATGGTGTCGCCCGTTACGACTTGCGGACGGATACTTCGAAGCATCACCATCATCATTTGATATGTACTCAATGTGGAAGCATGGATGAAATACGCGAGGATTGGCTCGGTCCGTTGGAAGAGCGGTTAGAGCGAGAATTCAACTTTACCGTTCATGACCACCGGCTTGATTTCCATGGCATATGCTACCGTTGCAAAGAGAAGGGCAAGAATGACCAGGACAAATCCTAA	MEARIDKIKQQLQSQGYKLTPQREATVSVLLENEDDHLSAEDVFMLVKEKAPEIGLATVYRTLELLSELHVVEKINFGDGVARYDLRTDTSKHHHHHLICTQCGSMDEIREDWLGPLEERLEREFNFTVHDHRLDFHGICYRCKEKGKNDQDKS	PGPT0003880_1155	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
AK002_02224	234			hypothetical protein	GTGATTATATCTATTCGAAAAATAGGCTCACTGATCCGTTTTATTTCGATGTTTGCCGTGTTGACCATGTTTTTTTACTTCGTGCTGGGATGGGTAGGCGATTGGCTAACACCAGTAGATCCTTACCGTGCGCCTTCGGGTCAAGCGGTAAAGGCTTTTCAGCCGGAGAGCACCATGGACTCCCGTTATTCGCCGGCCGAGCGTCTCCGATTGTATTACTGGTACGGAGAGTGA	MIISIRKIGSLIRFISMFAVLTMFFYFVLGWVGDWLTPVDPYRAPSGQAVKAFQPESTMDSRYSPAERLRLYYWYGE				NA	NA	NA	NA	NA
AK002_02225	885	xerD_1		Tyrosine recombinase XerD	ATGAAACCATATCTGGACGAATATGTACAATATCTGGAGGACGAGAAGGGACTGTCCCGAAGCACGATAGCATCGTATCGGGCCGACCTTCAAGGATTCCTTGCATTTGCAGCTGAAAGGGAGGTCACCCATCCGCGTGAGGTGAATCGAACGCTGCTCGGGCTGTATGTGGGAAGGCTGAGGCAGCAGGGGAAGGCGGCATCGAGCCTGCTTCGATGCACGGCTTCCCTGCGTTCCTTTTTTCAGTATTTGGTGCGTCAAGCCGTTATTGTACAGGATCCGACCCAGCTGCTGGATAATCCGAAGCCGGAACGGAAGCCGCCGAAGTCGCTAACCGTGGAGCAGGTGGACAAGCTGCTGTCGGCTCCCGATTCCGGTACCCCGCAGGGCGCCAGGGACAAAGCGATGCTTGAGCTGCTGTACGCTTCGGGCATCAAGGTCTCGGAATTGGTGAATCTGTCCATCCATGACATCCATTTGGAGATGCGCTTTTTACGCTGCGCGGTTTCCGGTGGGAAGGAGCGTATTCTGCCGATCACCCCCATTGCGGCCGAGAGCGTTGCATTGTATGTGCGAGATATGCGGGACAAGCTGATGAGGGATGCCGGTGAAGACGCGTTATTCCTGAATTCGCTGGGAACGCGCTTGACACGGCAGGGTTTTTGGAAAATTATTAAAAAGTATGGCAAGCTTGCCGATATTGACGAGGACATCACGCCGCATACCCTTCGGCATTCGTTTGCCATGCATTTACTGGGGAACGGCGCGGACTTGCGTTCGGTTCAGGAGATGCTGGGACACTCGGCATTGTCCACAACCGGGATGTATCAATCTGCCAAGAAAAGCATGAAGGAAGTATACGATCATTATCATCCGAGATCATAG	MKPYLDEYVQYLEDEKGLSRSTIASYRADLQGFLAFAAEREVTHPREVNRTLLGLYVGRLRQQGKAASSLLRCTASLRSFFQYLVRQAVIVQDPTQLLDNPKPERKPPKSLTVEQVDKLLSAPDSGTPQGARDKAMLELLYASGIKVSELVNLSIHDIHLEMRFLRCAVSGGKERILPITPIAAESVALYVRDMRDKLMRDAGEDALFLNSLGTRLTRQGFWKIIKKYGKLADIDEDITPHTLRHSFAMHLLGNGADLRSVQEMLGHSALSTTGMYQSAKKSMKEVYDHYHPRS	PGPT0022000_7030	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK002_02226	825	punA		Purine nucleoside phosphorylase 1	ATGAGTTCAGTCCATCAGCAAAGCATTAAGGAAGCAGCAGCATACATACGAGGGCAGAATGGCGTCCAGCCCGAGGTCGGCCTGATTTTGGGTTCGGGGCTCGGCGTGCTGGCGGAATTGATTGAGAATCCGGTTTCGATCGCTTACACGGACATTCCTCATTTTCCCGTATCGACGGTGGAAGGACATGAAGGCGAACTGCTGCTGGGCACGATCCACGACCGGCCAGTCGTCCTGATGAAGGGTCGCTTCCACATGTACGAAGGCTACGGCCCGGAAGTAACGGCTTTTCCGGTACGCGTCATGAAGGAGCTGGGCGTAAAGAGCCTGCTCGTTACCAATGCGGCCGGCGGCATCAACACGTCCTTTGAGCCGGGCGACCTCATGCTGATCTCCGATCATCTGAACATGACAGGAACCAACCCGTTAATCGGGCCTAACGATTCGGCGCTTGGCGTGCGCTTCCCGGACATGTCCCAGGCTTACAGCCGTCAACTTCGCCAATTGGCAAAAGAAGTCGCCGTGGGTCAGGGCATCGTGCTGAGAGAAGGGATTTACGCGGGTTTGCTGGGACCGACTTATGAAACGCCGGCTGAGATTGTCATGCTGCGCACGCTTGGTGCGGATGCGGTAGGCATGTCCACCGTGTCCGAGGTCATCGTGGCAAGGCATGCCGGGCTTGAGGTGCTGGGCATCTCCTGCATCAGCAACATGGCAGCGGGCATACTGGATCAACCGCTTTCCCATGACGAAGTGATGGAAACAGCGGAGAAGGTCCGTGAGAAATTCCTGGCGCTCGTTATGGCCATCATTCCCAAAATGTAA	MSSVHQQSIKEAAAYIRGQNGVQPEVGLILGSGLGVLAELIENPVSIAYTDIPHFPVSTVEGHEGELLLGTIHDRPVVLMKGRFHMYEGYGPEVTAFPVRVMKELGVKSLLVTNAAGGINTSFEPGDLMLISDHLNMTGTNPLIGPNDSALGVRFPDMSQAYSRQLRQLAKEVAVGQGIVLREGIYAGLLGPTYETPAEIVMLRTLGADAVGMSTVSEVIVARHAGLEVLGISCISNMAAGILDQPLSHDEVMETAEKVREKFLALVMAIIPKM	PGPT0013380_1265	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
AK002_02227	1191	dacF	COG1686	D-alanyl-D-alanine carboxypeptidase DacF	GTGAAAAAAGCGTTAATCGCTGGATTCCTAGTTCTAGCCGTGGGATTGTCCAGTGCGGCTGTACCAAGTTATGCGGAAGAAAATAGCAAACCCGGCGGAGGATCATCTCAAGAGGAGCTGGCGCCAAGTGCCCGTTCCGCTATATTGCTGGATGCGGATACCGGAACCATTATTTACGAGAAAAACAGCCATGATAAGCTGCCTCCGGCAAGCATCACCAAGGTAATGACGATGCTGCTTACGATGGAAGCCATCGATGAAGGACAATTGAAGTTGACCGATAAGGTGCGCACCAGCGAATATGCGGCATCCATGGGCGGATCCCAGATTTTTCTTGAGCCCGGCGAGGAAATGACCGTGGACGAGATGCTCAAAGGCATTGCCATGGCGTCGGGCAATGATGCTTCCGTTGCGATGGCTGAGAAGATTGCCGGCTCGGAAGAAGGCTTCGTGAAAATGATGAACGAGAAAGCGGCGGAGCTGGGGATGAAAGATACGCATTTCGTGAACTGCAACGGACTTCCTGCAGAGAATCATTATACATCGGCCCATGACATAGCGGTCATGAGCAGGGAATTGCTGAAATACGACCAGATCACCAAATATACCGGCGCTTATCAGGATTACTTGCGCAAAGATTCGGAGAAACCGTTCTGGCTGGTCAATACGAACAAGCTGGTGCGGTTTTACACGGGCGCGGACGGATTGAAAACCGGGTATACGTCCGAAGCCAAGTTCTGTTTATCGGCAACGGCCAAACGGGACGGGCTGCGCGCTGTAGCGGTTGTCATGGGGGCTCCGGACACCAAGACGCGGAACAATGAAGTATCGCGCATGTTTGATTATGCCTTTTCCCAATACACGATGCACTCCATCTATAAGCCTGGCGAAGTGCTCGGTATCGTGAAGGTTCAAAAGGGCAACGTGCCCGAGATCTCGATTCAAGCGGAAAAAGACTACAGCGTGCTTGTCAAGAAAGGCGTAAAGAATCCGGACATCCGTCATGAGATTCAGTTGGATCCGAACGTGAAGGCACCGGTAGCCGCCGGACAAGTCATCGGCAAGCTGTCTGTCTATCAGGGGGAACAGCTCGTGAAGGAGTTCGAGCTGACATCGCCTGTCGAGGTGGAAAAGGCCGGATTCTGGAAGCTGTTCAAACGGACAACCGGCAAGTTGTTTCATGTAGATTAA	MKKALIAGFLVLAVGLSSAAVPSYAEENSKPGGGSSQEELAPSARSAILLDADTGTIIYEKNSHDKLPPASITKVMTMLLTMEAIDEGQLKLTDKVRTSEYAASMGGSQIFLEPGEEMTVDEMLKGIAMASGNDASVAMAEKIAGSEEGFVKMMNEKAAELGMKDTHFVNCNGLPAENHYTSAHDIAVMSRELLKYDQITKYTGAYQDYLRKDSEKPFWLVNTNKLVRFYTGADGLKTGYTSEAKFCLSATAKRDGLRAVAVVMGAPDTKTRNNEVSRMFDYAFSQYTMHSIYKPGEVLGIVKVQKGNVPEISIQAEKDYSVLVKKGVKNPDIRHEIQLDPNVKAPVAAGQVIGKLSVYQGEQLVKEFELTSPVEVEKAGFWKLFKRTTGKLFHVD	PGPT0024040_3303	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK002_02228	354	spoIIAA	COG1366	Anti-sigma F factor antagonist	ATGAATCTGCATGTTGATATGGAGCATCACAGGCATGTTCTGATCGTCCGTCTGTCCGGCGAGCTGGATCATCATACGGCCGATCATGTCCGGATGCAGCTGGATGAAGCCATTCAGAGACGTCAAACAGAGCACTTGGTGCTGAGCTTAAAAGACTTGGATTTTATGGACAGCTCAGGGCTGGGAGTCATTCTGGGACGCTATAAATTCATCAAGCAAAAGGGCGGAAAGATGGCGGTGTGCGATGTCAAGCCGCAGGTTTACCGCTTGCTTGACATGTCGGGGCTGTTCAAAATCATGCCGATATACGAGAACGAGGGCACGGCACTCTCGGGTCTGGAGGTAGTGTCATGA	MNLHVDMEHHRHVLIVRLSGELDHHTADHVRMQLDEAIQRRQTEHLVLSLKDLDFMDSSGLGVILGRYKFIKQKGGKMAVCDVKPQVYRLLDMSGLFKIMPIYENEGTALSGLEVVS	PGPT0024655_198	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024655-spoIIAA-K06378	NA	NA
AK002_02229	459	spoIIAB_1		Anti-sigma F factor	ATGAGTGAAGGAAGAGCACAGCATAATTTTATGTCGCTGCAGTTTGCCGCTAGGTCGGAAAACGAATCCTTTGCCCGTGTCGCCGTGGCTGCATTCATCTCCCAGATGGATCCCAACATGGATGAGCTGAACGATCTGAAAACGGTGGTTTCCGAGGCCGTCACGAACAGCATCATCCATGGTTACGACAGCGACCCGGAAGGGGTCGTCAAGATTGAAGCCTCGATAGACGGGGATATGATCACGCTGCGCATCGAAGATTCCGGCCACGGGATCGAAGATCTGGAGATGGCGAAGCAGCCGCTGTATACCTCGAAGCCGGAGCTGGAACGATCCGGCATGGGATTCACCATCATGGAAAATTTCATGGACGAATTTGAAGTGGTCAGCGAACCAGGCAACGGTACGTCGATCAAAATGAAAAAGAGGATCGAATCTAAGAAAGCTTTATATAATTAG	MSEGRAQHNFMSLQFAARSENESFARVAVAAFISQMDPNMDELNDLKTVVSEAVTNSIIHGYDSDPEGVVKIEASIDGDMITLRIEDSGHGIEDLEMAKQPLYTSKPELERSGMGFTIMENFMDEFEVVSEPGNGTSIKMKKRIESKKALYN	PGPT0024660_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024660-spoIIAB-K06379	NA	NA
AK002_02230	756	sigF	COG1191	RNA polymerase sigma-F factor	ATGGATGCCGATGTGAAGAAAACTTCGCAGACTTATTTGGACGACGCGGAGGTCAAACGACTCATTGCACTTAGCCAAAGCGGGGATAATGTCGCCCGGGACACGCTCGTCAACTGTAATATTCGTCTTGTCTGGTCTGTCGTTCAACGGTTTATGAACCGTGGGTATGAGCCGGATGATCTGTTTCAGATCGGCTGTATCGGTCTCCTCAAATCCGTGGACAAGTTCGATCTCAGTTATGACGTAAAGTTCTCTACCTATGCCGTACCGATGATTATCGGTGAAATTCAGCGTTTCTTAAGGGACGACGGGACTCTGAAGGTCAGCCGTTCGCTTAAGGAGATGGCCAACAAAGTCAGGAAGAAGCGGGACGAGCTGTCCAAGCAGCTCGATCGTCTTCCCACGGTGAAAGAGGTTGCCGAAGAGCTGGGGGTAACGCCCGAGGAAGTGGTGTTTGCCCAGGAGGCGAACAAACCGCCAACCTCGATTCATGAGACCGTATTTGAAAATGACGGGGATCCCATCACGCTAATGGATCAGATTGCCGATGATTCGCAGGAACGATGGTTTGACAAGCTGGCCTTGAACGAAGCGATAGGGGGCTTGACCGAACGGGAGCGGCTCATTGTATATCTAAGGTACTACCGGGATCAGACGCAGTCGGAAGTTGCCACCCGGCTGGGCATATCCCAGGTGCAGGTATCGCGGCTTGAGAAAAAAATATTGCAGAGCATTCGGAACGAGATCGCGCAGTAG	MDADVKKTSQTYLDDAEVKRLIALSQSGDNVARDTLVNCNIRLVWSVVQRFMNRGYEPDDLFQIGCIGLLKSVDKFDLSYDVKFSTYAVPMIIGEIQRFLRDDGTLKVSRSLKEMANKVRKKRDELSKQLDRLPTVKEVAEELGVTPEEVVFAQEANKPPTSIHETVFENDGDPITLMDQIADDSQERWFDKLALNEAIGGLTERERLIVYLRYYRDQTQSEVATRLGISQVQVSRLEKKILQSIRNEIAQ	PGPT0014795_660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK002_02231	645			hypothetical protein	ATGAAGGTTAATCCCACTCCGACGGTGTTTCTGCAGCTGCGGAGCCGAATACGGCTGCCGAGAGACCAGACCGTCAAACTAGGCGATGTCGCCTTCATAGTCTGTGAGCCCGAATGGGAGAAACGGCTCAGAGCCCTGCCGTTGACTCAGCCGAAGGATATCGACGGCAACCGTCTTGTCATGGATCTGATTCAAATCATTCCGAAGATACAAGGGTTGATTCCGGGCGCCCATATTGAACCGATGGGTAACCATCATACCCTGGTGGAGCTTGTCGGTCCGGACAGCAAGCGATCCAAGCTGTGGTTCCCGCTCATTTGGCTGCTCTTGTTTTTCGGTTCTGCGCTCACCATCATGAACTTTCATGCAGATGTCAACATGCTCGAGGTCCAGATCCGGATTGTCGAAATGGTGACGGGAAAACGAGACGAGCATCCCTATTTGTTCCAGATCGCTTACTCTCTGGGGCTCGGATTCGGCATGACGGTGTTCTTCAATCATTTGTTCAAGAAAAAATGGAATGAAGAACCGACCCCGCTGGAGGTGGAAATGTACCTCTATCAGGAAAATCTGGATCAGTTCGTGGTTGCCGAAGAATACCGGAAAATGAACGCCGATGCCGATACGACGGGGAAAAAACCATGA	MKVNPTPTVFLQLRSRIRLPRDQTVKLGDVAFIVCEPEWEKRLRALPLTQPKDIDGNRLVMDLIQIIPKIQGLIPGAHIEPMGNHHTLVELVGPDSKRSKLWFPLIWLLLFFGSALTIMNFHADVNMLEVQIRIVEMVTGKRDEHPYLFQIAYSLGLGFGMTVFFNHLFKKKWNEEPTPLEVEMYLYQENLDQFVVAEEYRKMNADADTTGKKP	PGPT0024795_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024795-spoVAA-K06403	NA	NA
AK002_02232	429			hypothetical protein	ATGATGATGTCCATTCTGCAAGGGGTATTTACCTGTGTTCTCGGCGTAGCCGGAGGCATCGCCGTCGGCGGGGGCGTGATTGCGCTCATCATAGTGCTGGACATCATACCGAGATTGTCCCAATTGACGGCGACTTACAGCCGGGTGCATTGGTATGAAGGAGCATTGATAACGGGATCCTTCATTGGCACGGTGGCCGATTTCTGGAGATGGTCCGTTCCTTTGGGACCGGTCGTGAGTACCATAATCGGACTGATGTGCGGAATATTTATCGGCATGCTGGCAGCCGCACTGACGGAAGTATTGAATGTCCTGCCGATTCTGGCCAAGCGGCTCCGGCTGAAGGGGTATTTGTTTGGTCTTCTGATGGCCATGGTGGCAGGCAAGGTAGCGGGTTCCCTGTTCGACTGGTTTGTTTACAGCAAGTGA	MMMSILQGVFTCVLGVAGGIAVGGGVIALIIVLDIIPRLSQLTATYSRVHWYEGALITGSFIGTVADFWRWSVPLGPVVSTIIGLMCGIFIGMLAAALTEVLNVLPILAKRLRLKGYLFGLLMAMVAGKVAGSLFDWFVYSK	PGPT0024800_58	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024800-spoVAB-K06404	NA	NA
AK002_02233	1635			hypothetical protein	ATGGACGAGAAAACAACGCATGGCGGCGAACTGGAGGCCGGGATTCCGATCATTCCCCCATCCGAGATCAAAGCGTTAGAGGAAGAAGCGCTAAAGGAAAAGAGGGAGGCTGAAACCTCCGACAGCACCAAGGAATCCGTCATTTATTGGCAGCAAACGGACGATGTTCCCGCGAAGTTGAGCGAACTGAAAGAAACGCTTAAGGAAGTGATCGGCCTTGGGGTTTCGTTTGACGTGGTATTCCGCGAGATGAACTTTGCCGGCAGAAATGCGGGGCTTCTCTTTCTAAACGGGTTCACCAACGATGTCGTGGTGACGGAAATTTTGACAAGGCTGACGTACCTGACGCCAGACGACGTTAACAACCATGCGCTTTCCGAAATCATGAACCGCTATATTCCCCATGTTCAGGTAGAGCGGGACACCAGGCTCAGCAAGGTGATTGACGAGGTCCTGTCAGGCCTATGCGCGCTGTTCATCGAGGATGCGCATTCCGCCATCATCCTGGACACCCGGAAATATCCCGTACGGGGACTCGAAGAGCCGGCTGTCGAACGCGTTGTTCGAGGCGCCAGGGACGGGTTTACGGAGACGCTGGTGACGAACGTTAACCTCGTGCGGAGACGGGTTCGTGATCCGGGACTGCATGTGGAGATCATCAAAGTGGGAAGGCGTACGAGAACGGACGTCAGTTTGGTCTTCATCGATGACGTAGCCGACCGTACCCAGGTAGAAGCCATCCGGAAGAAAATCCAGGAAATCGATTTGGAGGGGCTCCCTCTTGGCGACAAGCAGCTGGAGGAAGCGATTGTAAACAAGGGCTGGCACCCCTATCCGCTGGTCCGTTATTCCGAGCGTCCGGACGTGGTCTCTTCCCATCTGCTGGAAGGCCGGATCGTCATTATGGTGGATACATCGCCGAGTGTGATGATCATGCCGACCACCTTCCTGGATCTCTGTCAGCATGCGGAAGAGAATCGCCAGACCCCGTTTATGGGGACCTATCTTCGCTGGATACGATTTATAGGCATTTTTGCTTCCATGTTCCTGCTCCCGTTGTGGATGCTGCTGGTTGTCCATCCTGAATTGAAGCCGCCGGGTCTCGATATCATCGGTCCGCAGGAGAATGCGAAAATTCCCATTATTCTGCAGTTTCTGATCGTGGAATTCGGCGTGGATTTGCTCCGCTTGGCCGCGGTTCATACACCGACGCCGCTCGCATCGGCAATGGGCTTGATCGCTGCGATTTTGATCGGCGATATTGCCGTTAAAACCGGATTGTTTGTCAACGAGGTTGTCTTGTATATGGCGGTTGCCTCCATAGGGATGTTTGCGACTCCAAGTTATGAGCTGGGGCTGGCCAACCGGATGGTCAGGCTGGTCCTGCTGCTGGCCACAGCCATGTTCGGGGTGAAGGGTTTTGTCATCGGGACAACGCTTCTAATTCTGCTTCTGACGACCCACCGTTCCTATAACTCGTCTTATTTATGGCCGTTTATACCATTTAGTGCAAAAGCGATGGGTGAAATTTTATTCCGCAAACCGCTGCTTATGTCAAGAAGACGCCCGGCTCTCAACAAAACGCGTGACAACACGAAAATGGGCCCGGAAATGAATCCGAGGGGCGAGCACTAA	MDEKTTHGGELEAGIPIIPPSEIKALEEEALKEKREAETSDSTKESVIYWQQTDDVPAKLSELKETLKEVIGLGVSFDVVFREMNFAGRNAGLLFLNGFTNDVVVTEILTRLTYLTPDDVNNHALSEIMNRYIPHVQVERDTRLSKVIDEVLSGLCALFIEDAHSAIILDTRKYPVRGLEEPAVERVVRGARDGFTETLVTNVNLVRRRVRDPGLHVEIIKVGRRTRTDVSLVFIDDVADRTQVEAIRKKIQEIDLEGLPLGDKQLEEAIVNKGWHPYPLVRYSERPDVVSSHLLEGRIVIMVDTSPSVMIMPTTFLDLCQHAEENRQTPFMGTYLRWIRFIGIFASMFLLPLWMLLVVHPELKPPGLDIIGPQENAKIPIILQFLIVEFGVDLLRLAAVHTPTPLASAMGLIAAILIGDIAVKTGLFVNEVVLYMAVASIGMFATPSYELGLANRMVRLVLLLATAMFGVKGFVIGTTLLILLLTTHRSYNSSYLWPFIPFSAKAMGEILFRKPLLMSRRRPALNKTRDNTKMGPEMNPRGEH	PGPT0024820_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024820-spoVAF-K06408	NA	NA
AK002_02234	1335	lysA	COG0019	Diaminopimelate decarboxylase	ATGTTTTTACACGGTACAAGCAAGATTAACGATCAGGGGCATTTGGAAATCGGCGGGTGTGACACATCCGATTTGAAAGCTCAATATGGAACACCACTATATATCGTAGACGAGCAGTCGGTTCGCAACCGCTGCCGGGAATACATCGAGGCCTTCAAGGCTTCCGGTTTGAAGTTCCAAGTCGCGTATGCAAGCAAGGCGTTCTGCGTTATGGCCATGTGCCGATTGGCCGACGAGGAAGGCATGTCGCTCGACGTTGTTTCCGACGGAGAGCTGTACACGGCGCTTCAGGCTGGATTCCCTGCGGAACGGATTCATTTCCACGGAAATAATAAGACGCCGGAAGAGATCGAGATGGCGCTGGATGCCGAAATCGGCTGTTTCGTTGTTGATAACGTGATTGAACTGCATATGCTGCAGGCCATCGCTGCCGAGAAGAACCGCAAGGTCAACATTTTGCTTCGCGTGACACCGGGCGTCGAGGCGCATACGCATGAATATATCTCGACAGGACAAACCGATTCGAAGTTCGGCTTTGATATCGGCAACGGCTCTGCGTACGAAGCGGTGCAGCTTGCGGAAGCACAGGCCAATATTCATCTCATGGGCATCCATTCCCACATCGGTTCCCAAATTTTTGAGGTAGAAGGCTTCCAGATGGCTGTTCAGCGCGTAGCTGAATTTGCAGCTTCCGTAAAAGAAGGCCTGGGCGTTGTGTTCAAGGTCGTGAACCTGGGCGGCGGATTCGGTATCCGCTACGTGGATGGAGATACGCCGCTTCAAGTATCCCAATATGTAAAAGCGATTACGGATGCGGTAAAGAACCATTTTGCGGGCCTTGGTTCCGAGCTTCCTGAAATTTGGGTGGAACCGGGTCGGAGCATCGTCGGTGACGCAGGCACCACGCTCTACACGGTGGGCACCAGCAAGGATATTCCCGGGGTGCGCAAATATGTTGCCGTCGACGGCGGCATGACGGACAATCCGCGTCCGGCACTCTACGAATCGAAATACGAAGCGCTGCTTGCAAACCGTGCTAAAGAAGAGCCGGAAGAAACGGTATCCATTGCCGGCAAATGCTGCGAGAGCGGAGACATGCTGATTTGGGACCTGGAGCTTCCGAAGGTTGAAACGGGCGATCTGCTGGCGGTGTCCTGCACGGGCGCATACAACTATTCCATGGCCAGCAATTACAACCGGATCCGCAAGCCTGCGGTCGTATTCGTGAAGGATGGGCAAAGCAATCTGGTCGTTCGCCGCGAATCGCTTGCCGATATCATCAGCAACGATGTCGTGCCGGCGGATGTAACAAAAGAAACCGTTACGAGTTTATAA	MFLHGTSKINDQGHLEIGGCDTSDLKAQYGTPLYIVDEQSVRNRCREYIEAFKASGLKFQVAYASKAFCVMAMCRLADEEGMSLDVVSDGELYTALQAGFPAERIHFHGNNKTPEEIEMALDAEIGCFVVDNVIELHMLQAIAAEKNRKVNILLRVTPGVEAHTHEYISTGQTDSKFGFDIGNGSAYEAVQLAEAQANIHLMGIHSHIGSQIFEVEGFQMAVQRVAEFAASVKEGLGVVFKVVNLGGGFGIRYVDGDTPLQVSQYVKAITDAVKNHFAGLGSELPEIWVEPGRSIVGDAGTTLYTVGTSKDIPGVRKYVAVDGGMTDNPRPALYESKYEALLANRAKEEPEETVSIAGKCCESGDMLIWDLELPKVETGDLLAVSCTGAYNYSMASNYNRIRKPAVVFVKDGQSNLVVRRESLADIISNDVVPADVTKETVTSL				NA	NA	NA	NA	NA
AK002_02235	432	ppiB	COG0652	Peptidyl-prolyl cis-trans isomerase B	ATGGCAAAAAAAGCGAAGATCACCTTGGAAAACGGCAAAGAGGTTGTGCTTGACCTGTTCGAGAACGATGCACCGAACACGGTGGCTAATTTTGAGAAATTGGCCAACTCCGGCTTCTATAACGGTCTGGTATTTCACCGCGTAATTCCTGGATTCGTTGCTCAAGGCGGATGTCCGCAAGGAACGGGAACCGGCGGACCGGGTTATACCATTAACTGCGAGATCAATCCTAACAAGCACGAGCGCGGAAGCTTGGCCATGGCGCATGCCGGCCGGAATACCGGCGGAAGTCAGTTCTACGTGTGCTACGAGCCGCAGCCGCATTTGGACGGACAACATACCGTATTCGGCAAAGTTGTTGAAGGCATGGAATACGTGGATGCATTCAAAGGCCGCGACAAAATGGAAAAAGTCGAAGTGTACGAAGCATAA	MAKKAKITLENGKEVVLDLFENDAPNTVANFEKLANSGFYNGLVFHRVIPGFVAQGGCPQGTGTGGPGYTINCEINPNKHERGSLAMAHAGRNTGGSQFYVCYEPQPHLDGQHTVFGKVVEGMEYVDAFKGRDKMEKVEVYEA	PGPT0015111_4874	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0015111-ppiB-K03768	NA	NA
AK002_02236	402	fadM_3	COG0824	Long-chain acyl-CoA thioesterase FadM	ATGAAAACTTCGCTGGACATTATCGTCCGTCCCACGGAGATCGACGTCAACGGACATGTAAACAATGCAAAATACCTCGAATACCTGGAGTGGGGCCGGGAGGAATGGTACGAAGCGGGAGATCTGCATTATGATGTGCTGAAACGGCTCGGGGTTCAGACCGTCACCGTCAATATCAATATCAATTACCGCAAGGAGTGCGGCCAAGGCGAACGGCTGACCGTCGTGACGGAACCCGAGTCCATGGGCCGCACGAGTTACGTCATGGCCCAGCGGATATACAACGAACAGCATGAGCTGTGCGCGGATGCCATCGTTACCAGCGTGGCGATGGATGTAAACTCACGTAAAGGCCGGCCCGTCCCCGAAGAACTTCGCCGATTGTTCCCAGCCCCTGCGTAA	MKTSLDIIVRPTEIDVNGHVNNAKYLEYLEWGREEWYEAGDLHYDVLKRLGVQTVTVNININYRKECGQGERLTVVTEPESMGRTSYVMAQRIYNEQHELCADAIVTSVAMDVNSRKGRPVPEELRRLFPAPA				NA	NA	NA	NA	NA
AK002_02238	1110	ribD	COG0117	Riboflavin biosynthesis protein RibD	ATGTTTAGCATGGATATCGTCAACGATGAATTCTATATGTCACTTGCGCTGGATCTGGCTGAACGTGCGCAGGGCCAAACCGGGATCAACCCGGTAGTCGGCTGCGTCGTCGTTAAGGACGGTGCTCTCGCCGGGGTGGGCACGCATCTGGAACGCGGAACGCCGCATGCCGAGGTTCATGCCCTGAATATGGCCGGGCCGAAAGCGGCAGGCAGTACCGTGTACGTGACATTGGAGCCCTGCAGTCACTACGGCGCAACGCCGCCTTGCAGCGAGAGGCTTATCGCCGAGGGCGTTCGGCGGGTGGTTGTGGCCTGCGAGGATCCGAATCCCCTCGTGGCGGGCAGAGGGATTCAGATGCTGCGCGCAGCGGGAATCGAGGTTGAAACGGGTATCCTTAAAGATCGCGCTCTTCGCCTGAACGAAGCCTTTGTTAAATTCATTACGTCGGGCCGGCCCTTCGTCACGTTAAAGACGGCCAGCACGCTGGACGGCAAGATCGCTTCGAAAACCGGGGACAGCAAGTGGATCTCCAATGAAAAATCCCGGGAGCTGGTGCATACGCTGCGCCATCGCCATCAAGGCATCATGGTCGGCGTGTCTACGGTTATCGCGGATAACCCGAGCCTGACGACCCGGCTTGGCGTTGAGGGGCTGCACCCGGTCAGGATCATCGTGGATTCGAGCCTGAGGATACCGCTCGACAGCCATGTCGTGTCAGACGGATTGGCGCCCACCTGGATCCTGACGACGGAGCAGGCGGATGACACGAAGCGGACCGAGTTGGAAGAGCTTGGTGTTCAGGTCATCCCCTGCGGGCCTGGACCGCGGGTGGATCTGAAGGGAGCGCTGCTGCAATTGGGACAAAAGGGGATCGCCTCGATTTTGCTGGAAGGCGGCGGTACGCTTAATGGCTCGATGCTGGAGCAGAAGCTGGTGGACCGGCTCATCCAGTTTATCGCTCCCAAAATCATCGGCGGGAATGATGCGCCGGGAAATTACATGTTCAGCGGTTATGAACAGATGAACCAAGCGATTTCGCTGACAGGACTTGAGACCGAAAGACTGGGCGACAATATCTACGTCACTGGCATTCCGGTCTGGAAATAA	MFSMDIVNDEFYMSLALDLAERAQGQTGINPVVGCVVVKDGALAGVGTHLERGTPHAEVHALNMAGPKAAGSTVYVTLEPCSHYGATPPCSERLIAEGVRRVVVACEDPNPLVAGRGIQMLRAAGIEVETGILKDRALRLNEAFVKFITSGRPFVTLKTASTLDGKIASKTGDSKWISNEKSRELVHTLRHRHQGIMVGVSTVIADNPSLTTRLGVEGLHPVRIIVDSSLRIPLDSHVVSDGLAPTWILTTEQADDTKRTELEELGVQVIPCGPGPRVDLKGALLQLGQKGIASILLEGGGTLNGSMLEQKLVDRLIQFIAPKIIGGNDAPGNYMFSGYEQMNQAISLTGLETERLGDNIYVTGIPVWK	PGPT0008555_1847	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
AK002_02239	669	ribE	COG0307	Riboflavin synthase	GTGTTTACTGGATTGGTCGAGGAGATCGGCGAGATGCGGCGTATCGGGCGCCAAGGGGAGGCCATGCTGCTGAGCATTTCCGCTAACCGGATTATGGACGATCTGAAGCTGGGCGACAGCGTATCCGTAAATGGCGTCTGCTTGACGGCTACGGCGATCGACAAGGGCGTATTTACGGTTGACGTTATGCCGGAAACCTATAGGAATACGAATCTCAAGGAGCTGCAGCCGGGCGGGAAGGTTAATTTGGAACGGGCGATGGCAGCCGGAGGGAGATTCGGAGGCCATATCGTTCAGGGACACGTGGATGGCATCGGCGTCATTCGGAGCGTAAAGGCCGATCAGAATGCAGTGGTATACGAGATTTCGCCCACGAATGGGGACGTATTCAAATATATCATTCCGAAAGGCTCGGTCACATTGGATGGAATCAGCTTGACCGTTGTCAAAACGACGGATTCCTCCTTTACGGTGTCCATCATTCCCCATACGCTGGCGGAGACGGTGCTCGCTTATAAAAAAGCGGACGACACGATTAATATCGAATGCGACATTTTGGGGAAATATGTAGATCACCTGCTGCACTACGGTTCGGAAGGCGCAGGAAGCAGAAGCGGCACGAAATCGGGGATCAGCAGGGATTACCTGGCCGAGCATGGCTTTGCCTAA	MFTGLVEEIGEMRRIGRQGEAMLLSISANRIMDDLKLGDSVSVNGVCLTATAIDKGVFTVDVMPETYRNTNLKELQPGGKVNLERAMAAGGRFGGHIVQGHVDGIGVIRSVKADQNAVVYEISPTNGDVFKYIIPKGSVTLDGISLTVVKTTDSSFTVSIIPHTLAETVLAYKKADDTINIECDILGKYVDHLLHYGSEGAGSRSGTKSGISRDYLAEHGFA	PGPT0008610_650	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
AK002_02240	1239	ribBA	COG0108	Riboflavin biosynthesis protein RibBA	ATGGATGAGCGCTTTTCATTTCATACGATCGAAGAGGCGTTATCAGATTTGAAGGAAGGCAAGGTCGTCATCGTTGTTGATGACGAGGACCGCGAGAATGAAGGCGATTTTATCGCATTAGCGGATAAAGCTACCCCTGAGGTCATCAATTTCATGATCACCGAAGGCCGCGGGCTGGTCTGTTTGCCAATGACGCAGGCCAGGGCTCGGGAGCTCGATCTTAAACCGATGGTGACGCAAAACACGGACTATCATGGAACGGCCTTTACCGTCTCCATTGACCATAAGGACACCACGACGGGCATATCCGCTCATGAACGTTCCATAACCGTCAACGGCATCTTGGATCCAAATGCATCGGCCGCCGATTTTCGAAGACCGGGCCATATGTTTCCGCTGATTGCCAAAGACGGCGGCGTTCTTCGCCGGGCAGGACATACGGAGGCGGCTGTCGATCTAGCCCGCCTGAGCGGCTCCTATCCGGCAGGCGTCATCTGCGAGGTGATCAAGGAAGACGGCACGATGGCAAGGCTTCCAGACTTGATGGAGATCGCGAAAAAGCATGATCTGAAGCTGATCAGCATCAAGGATTTGATCCATTACCGCAACGAAAAAGAAAAGCTCGTGCAGCGCGAGGTGGCGGTGCGGATGCCGACCGACTACGGCGTGTTTCAAGCCGTAGCCTACACCAATGACGTGGACAACAAAGAGCATGTCGCATTGGTAAAAGGAGAGATCGACCCGAGTGAGCCGGTTCTCGTCCGCGTGCACTCCGAGTGCTTGACAGGGGATGTGTTCCACTCCCATCGCTGCGACTGCGGTCCGCAATTTGAGGCGGCCCTTCGCCAGATCGATGAAGCAGGCAGAGGCGTGCTTCTCTATATGCGCCAGGAGGGACGGGGCATCGGTTTGATCAACAAGCTGAAAGCCTATAAGTTGCAGGAAGAAGGGCTCGACACCGTCGATGCGAACCTGAAGCTAGGCTTTGCGGCGGATCTGCGCGATTACGGCATCGGAGCCCAGATCCTGAAGGATTTGGGCGTAAGGAAGATCCGCCTGCTGACAAACAATCCGCGTAAAATCAAGGGGCTCGAAGGTTACGGCCTGGAGGTCGTGGAGCGCGTCCCGATTCAAATGCCGGAGAACGAGGATAACACGGGCTACCTGCACACCAAGCAAGCGAAGCTCGGTCATATGCTGAAGTTCAATGATATCGAGCAGAACGAGAGTGCCAATTAA	MDERFSFHTIEEALSDLKEGKVVIVVDDEDRENEGDFIALADKATPEVINFMITEGRGLVCLPMTQARARELDLKPMVTQNTDYHGTAFTVSIDHKDTTTGISAHERSITVNGILDPNASAADFRRPGHMFPLIAKDGGVLRRAGHTEAAVDLARLSGSYPAGVICEVIKEDGTMARLPDLMEIAKKHDLKLISIKDLIHYRNEKEKLVQREVAVRMPTDYGVFQAVAYTNDVDNKEHVALVKGEIDPSEPVLVRVHSECLTGDVFHSHRCDCGPQFEAALRQIDEAGRGVLLYMRQEGRGIGLINKLKAYKLQEEGLDTVDANLKLGFAADLRDYGIGAQILKDLGVRKIRLLTNNPRKIKGLEGYGLEVVERVPIQMPENEDNTGYLHTKQAKLGHMLKFNDIEQNESAN	PGPT0007990_1346	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
AK002_02241	468	ribH	COG0054	6,7-dimethyl-8-ribityllumazine synthase	ATGGCAACAATATTTGAAGGTCATTTAGTATCCGAAGGTTTGAAATACGGCATCGTGGTAGGTCGTTTCAACGAATTCATCACCAGCAAGCTGCTTGGCGGGGCACTGGACGCCTTGAAGCGTCACGGCGCACAGGACAACGAAATCGACGTCGCCTGGGTGCCGGGGGCGTTTGAAATTCCGCTCATCGCCCAAAAGATGGCAGAAAGCGGCAAATACGATGCGATCATCACCTTGGGAACCGTCATTCGCGGCTCCACCACGCACTATGATTATGTGTGCAACGAAGTGGCCAAGGGCGTGTCCGCCATTAACCTGAAGACCGGCGTACCAACGATTTTCGGCGTCGTCACGACGGAGAACATTGAACAAGCCGTCGAACGGGCGGGAACGAAGGCAGGCAATAAAGGCTGGGATTCCGCCATGGCGGCCATTGAAATGGCGAACTTGACGAAAAGCCTAAAATAG	MATIFEGHLVSEGLKYGIVVGRFNEFITSKLLGGALDALKRHGAQDNEIDVAWVPGAFEIPLIAQKMAESGKYDAIITLGTVIRGSTTHYDYVCNEVAKGVSAINLKTGVPTIFGVVTTENIEQAVERAGTKAGNKGWDSAMAAIEMANLTKSLK	PGPT0008605_3229	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
AK002_02242	792	scpA	COG1354	Segregation and condensation protein A	GTGACCGTATTATACAAGCTGGAAACGTTTGAAGGACCGCTCGATCTGCTGCTGCACTTGATTGATAAAGCGGAAATCGACATCCAGGATATTCCCGTCAGCGAGATTACCGAACAATACATGGCCTATTTGCACAACATGCAGGAGCTGGAACTGGAAATTACGAGCGAATTTCTGGTGATGGCTGCAACGCTGCTGTCTATAAAGAGCAAGCTATTGCTTCCGAAGCCTCCGGTTATCGAAATGGACGAGTTCGATTTTTTTGAAGAGGATGACATGGATCCGAGAGCGGAACTCATCGCGAAGCTGATCGAATACCGCAAGTACAAAGGCATCGCCCGTCATCTGCATGAGAAGGAATGGGAACGCAGCATGATTTACTCCAAGGAAGCGGAGGATCTGACTCCTTACATGCCGGAAGTGGAAGAGAACCCGGTGCAGGGATTACATATCTCGGATTTGATCGCAGCTTTTCAAAAAGCGTTAAGTAAAGCCGTCAAACGCACATCGTATGCCCGCATCCAGCGGGATGAAATATCGGTTAAGGACCGGATCCGGCAGGTGATGGACGCTTTGGAGCAGGTCGGGCCGGGAGGCAGGATTCTGTTCTCCAAGCTGCTGCACGAGGAGATGGAGCGCCATGAAATCGTGGTGACCTTTCTGGCTATCTTGGAGCTGATGAAGATGAAGCAAATCCTGTGCTACCAAGAGAAATTGTTTGAAGATATCGTCATGGAGTGGAGAGGGGAAGAACGCATTGATGGAATATCCGAAGCTGAAATCGATTATTGA	MTVLYKLETFEGPLDLLLHLIDKAEIDIQDIPVSEITEQYMAYLHNMQELELEITSEFLVMAATLLSIKSKLLLPKPPVIEMDEFDFFEEDDMDPRAELIAKLIEYRKYKGIARHLHEKEWERSMIYSKEAEDLTPYMPEVEENPVQGLHISDLIAAFQKALSKAVKRTSYARIQRDEISVKDRIRQVMDALEQVGPGGRILFSKLLHEEMERHEIVVTFLAILELMKMKQILCYQEKLFEDIVMEWRGEERIDGISEAEIDY				NA	NA	NA	NA	NA
AK002_02243	606	scpB	COG1386	Segregation and condensation protein B	ATGGAATATCCGAAGCTGAAATCGATTATTGAGGGGCTTCTGTTCCTGGCGGGAGAAGAGGGCTTGTCGGTAAAGCAAATTGCTGAAATCACCGAGCAATCGGATGGCCTCGTTGGCGAAGCGCTGGAGGATATGAAGGAAGAATGGGAGCGATATGAACGGGGAATTCAGATCGTGCAGATTGCAGGGAGCTACAAAATCGCGACGCTGGCCGAGCACGCCCCGTATTTCGAACGTCTGGCGTATTCGCCTTCCCGCTCCTCATTGTCGCAAGCCGCGCTCGAGACGCTTTCCATCGTGGCCTATCGGCAGCCGATTACGCGGGTGGAGATTGAAGACATTCGAGGCGTCAAGTCCGAAAGAGCCATCCATACGCTGGTAAGCAAAGGGTTGATTGAAGAAGTCGGACGCGCGGAGGCGATTGGCAGACCGATTCTGTATGGAACGACCAAATCGTTTCTGGATTATTTCGGGCTTGCGAACATCAAGGATTTGCCGGAGCCGTCGCAATTCGAGGATAACGATCATCTGGAAGAGGAAACGCAGCTGCTGTTCGACAAGCTTGACGGACAACAGCTTACGTTTGATGATGTGGAGGAAAGCTGA	MEYPKLKSIIEGLLFLAGEEGLSVKQIAEITEQSDGLVGEALEDMKEEWERYERGIQIVQIAGSYKIATLAEHAPYFERLAYSPSRSSLSQAALETLSIVAYRQPITRVEIEDIRGVKSERAIHTLVSKGLIEEVGRAEAIGRPILYGTTKSFLDYFGLANIKDLPEPSQFEDNDHLEEETQLLFDKLDGQQLTFDDVEES				NA	NA	NA	NA	NA
AK002_02244	681			hypothetical protein	GTGAGGATATGGATCTTTCTTGCGGTCGGCCTGGTCGTTCTCCTTATCGCATTGCTGATCGTTGTGCTAAGCTCGAAGGTCACGATAAAGCTGGACGTGGTCCTAAGAAAAAATGAATATAAAGTATTGGCGGAAATGAAAATGCTCTTTGGATGGATCACGCGCAAATACGAAGTTCCCTTTCACTTGGCCAACGGTGGCATTGAGTATAAAAAAGAGACCGTTCCCGTGGACGAGGGGACTGAGCTCGGTTCCAAAGAAAACAAAGAAACTTCAAGGCGAACTATACGATATAGGGACTATGTGCGGGTCTTGCTGACTACTAAAGGATTTAAAAAGTGGGCAAGGCAAACGATGGCGGCCGTTCATCTCATGGATGTGCGCTGGTCAACCCGGATTGCTTTGGAGCATGCGGCCGATACCGCGGTTGCAACCGGGCTGCTTCATGCTGTTAAGCATACCATTATGGGATGGATGTCGTACCGGCTGATTATGGATGAGCTGCCGGAAATCCAGGTGGTACCGGTCTTTAACGGTCCGCCGCAAATTTCCACAGAGCTTTGCTGCATAGCGAAAATCTCCTGCGGAAAAGCTATGTATGCTGGACTGGTACTTATAGTTCGCGTGTTAAAGGTGAAAGGAGGAATTAGATCATGGCAGAACACCCTATTCAAGGCTTGA	MRIWIFLAVGLVVLLIALLIVVLSSKVTIKLDVVLRKNEYKVLAEMKMLFGWITRKYEVPFHLANGGIEYKKETVPVDEGTELGSKENKETSRRTIRYRDYVRVLLTTKGFKKWARQTMAAVHLMDVRWSTRIALEHAADTAVATGLLHAVKHTIMGWMSYRLIMDELPEIQVVPVFNGPPQISTELCCIAKISCGKAMYAGLVLIVRVLKVKGGIRSWQNTLFKA				NA	NA	NA	NA	NA
AK002_02245	450	ytfJ	COG3874	putative spore protein YtfJ	ATGGCAGAACACCCTATTCAAGGCTTGATGCAAACGGCTATGGAGAACATCAAGGGAATGGTGGACGTGAATACGATCGTAGGCGACCCCGTGAATACCCCTGACGGCAGCGTCATTTTGCCAATCAGTAAGGTGGCGTTTGGTTTTGCAGCGGGCGGGAGCGACTACAACGTTGAAGCAGGCGGCACACACCATAATACCGCTAACGGGACGCATACCGACCATAATGCCCTTCCTTTTGGCGGCGGCAGCGGCGGTGGCGTGTCCATCCGGCCGATAGCTTTCCTGGTCGTGGGTAAAGAAGGCGTGCACATCGTTCCGCTGGACAACCAGACACATCTGTTTGAACGGATTATCGATGCGACCCCGTATTTACTCGATCAAATCCAGTCGATGTTTCAATCGGGAAGCAATGCCGCAGGCAGCACGACGCCTCCGCCGGCATACTGA	MAEHPIQGLMQTAMENIKGMVDVNTIVGDPVNTPDGSVILPISKVAFGFAAGGSDYNVEAGGTHHNTANGTHTDHNALPFGGGSGGGVSIRPIAFLVVGKEGVHIVPLDNQTHLFERIIDATPYLLDQIQSMFQSGSNAAGSTTPPPAY	PGPT0024995_156	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024995-ytfJ-NA	NA	NA
AK002_02246	1185	dacB	COG1686	D-alanyl-D-alanine carboxypeptidase DacB	ATGATGAAAATGAAATGGACGAACCGCAAGTCTATGTTATCCATGTTGATCGCCATATGCTGCTTGCTGGTTACGGCTGTCCCTGTACATGCAGATCACGAGCAAGGCCCGTCCAATCATGCACAGGCAGCTGCGCTGATTGACGTGACGTCCGGGAGAATGCTGTACAGCAAGAACGGGGACGAGCGTTTAAGAATCGCCAGCTTGACCAAGATTATGACCGCCATCGTGGCCATTGAACACGGCAAGCTGGATGATCGCGTCAAAGTCTCCAAGAATGCTTTTGCCAAAGAGGGCTCCTCGATCTTCCTGAAGCTTGGCGAGGAGATGACCCTTGAGAATCTGCTGTACGGCTTGATGCTGCGCTCCGGCAACGATGCTGCCACGGCCATTGCGGAGCATGTCGGCGGTACGGAAGAAGGCTTTGTGTTATTGATGAACGAGAAGGCCGCCTCGCTCGGCATGACGAATTCGCATTTTATGAATCCGCATGGACTGGATCACGACGAGCATTACTCGTCAGCGCATGACGTAGCCAAACTGACGGCATATGCCCTCAAGAATCCGGTCTTTAGCGAGATCGTCAAAACCCCTACCAAGAAAGCGCCCAACCCGAATGAAGCATGGGACTACAAATGGGACAACAAAAACAAAATGCTGCGCTTCTACGAAGGGGCGGACGGCGTCAAAACGGGTTACACCAAAAAAGCATTCCGCTGCCTGGTGAGCTCTGCTACTCGTAACGGTCAGCAAATCGCAGCGGTAACACTGAATGACGGCAACGATTGGAACGACCATTCCAACATGCTGGATTATGGCTTTGCTCATTTTCCACTGAAAAAGGTCACGGAAAAGGGACAGAAAATCCAGGGCTATCCGCTCGTCACGGGCAGTTCCTTCACTTATGCGTTCGCGCATGATGAGGAAGCGCGCCTGGTGAAGAGACTGGTCTTGCATAAAGCAAGCACGCCCGACTTGTCTTTTGGGCTGCGGGGGCATATTGAGCTGCTGCTCGATAATGTCAGCATCGGCAAGGTTCCGGTTTACACGGAAGGAAGCAAACTTCCTGAAGCCCCTGAGGTCTTGCAAAAGTCCAGGAGCGCTCTGGGGCCCGTCGGTTCCTTGTCGCTTTGGCAGTCTGCAGGAGAAGTGCTCCGGCATCTGTTCAGGGGCGCACATAACTAG	MMKMKWTNRKSMLSMLIAICCLLVTAVPVHADHEQGPSNHAQAAALIDVTSGRMLYSKNGDERLRIASLTKIMTAIVAIEHGKLDDRVKVSKNAFAKEGSSIFLKLGEEMTLENLLYGLMLRSGNDAATAIAEHVGGTEEGFVLLMNEKAASLGMTNSHFMNPHGLDHDEHYSSAHDVAKLTAYALKNPVFSEIVKTPTKKAPNPNEAWDYKWDNKNKMLRFYEGADGVKTGYTKKAFRCLVSSATRNGQQIAAVTLNDGNDWNDHSNMLDYGFAHFPLKKVTEKGQKIQGYPLVTGSSFTYAFAHDEEARLVKRLVLHKASTPDLSFGLRGHIELLLDNVSIGKVPVYTEGSKLPEAPEVLQKSRSALGPVGSLSLWQSAGEVLRHLFRGAHN	PGPT0024040_3419	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK002_02247	633	spmA	COG2715	Spore maturation protein A	ATGATCAATTTGATTTGGATGGGGATGATTGTGATCGGGTTTTGTTTTGCGGCCGTCAACGGGAACATCGACAGCGTCACGAAAGCCGCATTCGACGGAGCCCAAACGGGTGTAACCGTCTCCTTCGGTCTTATCAGCATACTGGTATTCTGGCTTGGCATGATGCGGCTCGCAGAGGACGCGGGTCTGCTGAAAAAAGTGGCCAGGCTGCTGGGGCCGGTTGTCCGCTTCCTGTTCCCGGATGTACCGAAAAATCATCCCGCAATGGGATACATATTGTCCAATATGAGCGCCAATTTGTTCGGTCTGGGCAATGCGGCGACCCCGATGGGAATCAAAGCGATGCAGGAGCTTCAGAAATTGAATCCGGATAAGGAAACGGCATCTCCGGCGATGTGCACCCTCCTGGCGTTAAACACGGCCAGCATTACGCTGATACCGACAACGCTGATCGCGATCAGGCTAAATTATGAATCTGCCAATCCTTCGGAAATCGTCGGAACCACGCTATTGGCCACTGCGATTGCGACGGCCGCGGCAATTATCGCCGACCGATGGTATCGCAGACGAACGATGCGCCGCCAGAAGCCGCCCGGAATCGGTACAGGCCTGAACCCGGACGTGAAGGGGTGA	MINLIWMGMIVIGFCFAAVNGNIDSVTKAAFDGAQTGVTVSFGLISILVFWLGMMRLAEDAGLLKKVARLLGPVVRFLFPDVPKNHPAMGYILSNMSANLFGLGNAATPMGIKAMQELQKLNPDKETASPAMCTLLALNTASITLIPTTLIAIRLNYESANPSEIVGTTLLATAIATAAAIIADRWYRRRTMRRQKPPGIGTGLNPDVKG				NA	NA	NA	NA	NA
AK002_02248	534	spmB		Spore maturation protein B	TTGCTGTCTTGGATTAATCTCGTTTCCGCCTGGTCAATACCCATTATTATCGCATTTATTCCTCTTTATGCTTATACGCGCAAAGTGCCCGTATACGAATCGTTTGTGGACGGAGCCAAGGACGGCTTCTCCACGGCGATCGGGATCATTCCGCATTTGGTTGGCATGATGGTCGCCATAAGCGTATTCCGCTCTTCCGGCGCCCTGGAGTTTTTTGTCGGTTGGACGGGCCCTTTTTTGCAATCGCTCGGCGTACCTAGCGAGATTCTGCCTTTGGGAATATTACGGCCGCTGACAGGTACGGGCTCCCTCGCTTACACAACGGAGCTGATCCGCGCATACGGACCGGATTCGATGATCGGCCGAATCGCTTCGACCATACAGGGAAGCACGGACACTACCTTATACGTGTTGACCGTCTATTTTGGCGCCGTGGGCATCCGCAATGGCCGCTATGCGTTGAAGGTCGGACTGTTCTCCGATTTGGTCGGGTTTATTGCGGCGATTGCCGTCTGCTTGCTGGTGTTCGGTTAA	MLSWINLVSAWSIPIIIAFIPLYAYTRKVPVYESFVDGAKDGFSTAIGIIPHLVGMMVAISVFRSSGALEFFVGWTGPFLQSLGVPSEILPLGILRPLTGTGSLAYTTELIRAYGPDSMIGRIASTIQGSTDTTLYVLTVYFGAVGIRNGRYALKVGLFSDLVGFIAAIAVCLLVFG				NA	NA	NA	NA	NA
AK002_02249	339			hypothetical protein	ATGGAAATCGAGGGTTTTGTTATTCATCATACCGTGTGCGCGCAGGAACCGCGGAACTGGGATTTTAAGATCCATCCGGACGGCTCCGTGTCCGCTTCTTCCGTGCTGGTCCAACCGGGACAGATCCACATCTGTCTGGAGGGCGACTTCAATGCCAGCTACGAGTCGATGACGCTGGACCAGAAAACGCAGCTGTTTACCGCCAGCAAAATCATTTTGGAGCTGTCCAGACTCCATGATATTTCCCCGCTCTACTTATTTCCCCACTCCGACACCTGCCCAGGGGCACATTTTCCATGGAACGCGCTTGTGATTTATCCTGTCGATGGTTATCATTAG	MEIEGFVIHHTVCAQEPRNWDFKIHPDGSVSASSVLVQPGQIHICLEGDFNASYESMTLDQKTQLFTASKIILELSRLHDISPLYLFPHSDTCPGAHFPWNALVIYPVDGYH				NA	NA	NA	NA	NA
AK002_02250	756	rluB_1	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGGAGAGATTACAGAAAATTATGGCACAGGCCGGAGTCGCTTCCCGCCGCAAGTGCGAGGAATTGATTCTTGAAGGCAAGGTGCAGGTAAACGGTGAGACCGTTACCGAGCTCGGCACGAAGGCCGATCCAGCCCAGGATATCATTACGGTTTCAGGCAAACCGATTAAGAATGAGAAAAAGGTATATGTCATGCTGAATAAGCCGAAGGGAGTCATTACAAGCGCTTCCGATCCCGAAGGCCGTAAAATTGTATCGGATTATCTCAAAGGCATTAAAGAGCGGGTATATCCGATTGGACGTTTGGACTACGATACGGAGGGTCTTTTGCTGCTGACTAACGACGGGGAGTTTGCCAATCTGCTCAGCCACCCCAAATACCATGTGCCCAAGACTTATTTGGCTACCGTGAAAGGGGTGCCCCACGGCACCGAGCTGGACAAGCTTCGTCAAGGGATTATGCTGGAGGACGGAATGACGTCTCCTGCGGAAGTGGAGTATAAGGACGTGGATCCGGACAATAAACAATCCGTTATTTCGATCACGATTCATGAAGGCCGCAATCGTCAAGTGAGAAGGATGTTCGAGGCGATTTCCCATCCGGTATTGAGATTGAAGCGGATATCTTACGGGGATCTGCTGCTGCAAAATTTAAAGCGGGGCTTGTACCGCCATTTGACGGCGGACGAAATCAACCAGCTCCTGCAGATGGCGAAAGCCGCAAAGCCGGGTGGGAAACCGAAGAAAAAACGTTAA	MERLQKIMAQAGVASRRKCEELILEGKVQVNGETVTELGTKADPAQDIITVSGKPIKNEKKVYVMLNKPKGVITSASDPEGRKIVSDYLKGIKERVYPIGRLDYDTEGLLLLTNDGEFANLLSHPKYHVPKTYLATVKGVPHGTELDKLRQGIMLEDGMTSPAEVEYKDVDPDNKQSVISITIHEGRNRQVRRMFEAISHPVLRLKRISYGDLLLQNLKRGLYRHLTADEINQLLQMAKAAKPGGKPKKKR				NA	NA	NA	NA	NA
AK002_02251	528	resA_1		Thiol-disulfide oxidoreductase ResA	ATGGGCAAATCTAAGAAAAGCGTACAGATTGTTATTCTGCTTGCCATCATCCTGATCGGAGTGTACGCCGTTGCAACCGTTGTATTCGGCTCTGATGAGGTTCCCAAAGTAGGGCAAAAGGCAGCGGATTTCGAACTTCTAGGCATGGATGGCAACGTACATACCATGAGTGAATACGAAGGCAAGGCCAGGGTTATTAATTTCTGGGGCACCTACTGTCCGCCGTGCGTGCGGGAAATGCCGGCACTTCAAGCCCAGTGGGAAAAATGGAGCGGCCAGGGCGTTGAGATCATCGGAATCAATGTGGGCGAGAACAAAATGACGGTAGAGAATTTTGTTGCTCAAACCGGCGTGAAATTCCCCATCCTGATGGATCCCAAGCGGAACGCTGTTGCCAGCTTCGGGGTTGGGCCGATGCCAACGACCTTTTTTGTTACGGCCTCCGGCAAGATTGACCATATTCGCATAGGCGAACTGGATTTGAACACCCTTGACAAACAAATTGAACAGTTGGTGAATGCGAAATGA	MGKSKKSVQIVILLAIILIGVYAVATVVFGSDEVPKVGQKAADFELLGMDGNVHTMSEYEGKARVINFWGTYCPPCVREMPALQAQWEKWSGQGVEIIGINVGENKMTVENFVAQTGVKFPILMDPKRNAVASFGVGPMPTTFFVTASGKIDHIRIGELDLNTLDKQIEQLVNAK				NA	NA	NA	NA	NA
AK002_02252	1704	ccs1		Cytochrome c biogenesis protein Ccs1	ATGAGTCAAGGTTCCAAGCCTTTGATCCAGAATACGAAGTGTGATTGTGGACACCAGAATCCAACGGGGACGGTCCTCTGCGAGGCTTGCGGCAAGCCGCTGACCGAGGAAGCGGAGGCCCAGCCGATTCTGGAAATGCGGTATGACGGCGTTGCCCGTCGATCGCAGAAAGAAAATCCCGGTATTATCGATCGGGTATGGAATTTCTTCTCTTCGGTAAAAGTAGCAATATATCTCATATTGCTAACCTTGATCGGCTCCTCGCTGGGGACGATCTTTCCGCAGGAGAGCACTTTCCTTAACATTGACCCCTCTGTCTACTACAAAGAGGAGTACGGACAGCTGGGGCATATTTATTACTTGCTCGGGCTGTCACATACATATACGTCTTGGTGGTTCGTTCTGCTGCTCGTCATGATCGGCGCATCGCTTGTCATTTGCAGTCTTGACCGTGTCCTGCCGCTCTACAAAGCGCTCAGCAGACAACGGATTCCGAAGCATATGTCCTTTCTTACCCGTCAGAAGGTGGTATACCAAGGACAAGTCCAAGAGGACGGGGCCGACTGGGTTGAGCGGATTAAGCCGATCATTAAGAAAAAGGGCTATCGCGTTCGAACGGACGGCGGGACGCTTCTGGCAGAGAAGCAGCGGTTCAGCCGCTGGGGCCCTTATGTTCTTCATATCGGCCTGATTATCTTCCTTCTCGCTGTTTTGGGACGGAACCTGCCGGGACTGCATATGGACGAGCATATGGCCTTTCCCCAGGATGAGCCTGTGCACATCAAGAACACCAGCTACTATTTATTGAACGACGGCTTTAAGGTTGAATTCTATACCGAGGACGATATGCCTGAAGAATTCAAAGGCAAGAACAAAGTGCTGCCGAAGGAATTCCAAACCCAGGCCATCCTGTATATGTGCGAGGCCAATTGCGACGATCTCGATAAAGAGCCTCAGCTCGTGGAATTGACGCGCCATAACATCGAAGTGAACCATCCGCTCAATTACAAAGGGTTAAAGGCTTATCAATTCGATTATGATCTGACCCCGATTCTCCGTACGGTTTCGCCGATGCTGATTGACAGCAAGAGCGGTAAGGAATACGGCAAAATCACGCTGTCCATCAACGATCCCCAAAGAGTATATCAGGCAGGGGAATATACGTTAACGCTTACACAGTCCTTTACCGATTTTGGGCTGGGCGATAACGGCAAGCCGGTCAACTTGTCACCTAACCCGAATGCGCCTGCATTCTTATTTCTGATTAAGGGACCTGATCTGCCGAAGGAAGGCATTCAGTACTTCTACTTCCCTAAACAGATCGATAAGGAACGTTTCAATCAAGAAGCGATCAATGCGCAGCTGGCGGGTGGGGAGGCACTCGTAAAACTGGATGTGCTCAGCATGGACGATGTGGACTTTTCGGAATCGACGACTTATCTGAATATTCGTGTGGATAAAGCCATGCCGTTCATTTGGGTTGGTTGTTTCATCGGTATGATCGGCTTGATCATGGGCTTTTATTTCACCCATCGCCGGATCTGGCTGCGTATTGATAACGGAACGCTGACGCTGGGCGCGCATACGAACAAGAACTGGTTTGGACTTCGCAAGGAGATCTCCGCGATCCTCAAGCAAATGAATATCGAAGTCGATGAAAAGTCATTGGAGAATAACAGGGGGACTAAGCATGAATCTAATTGA	MSQGSKPLIQNTKCDCGHQNPTGTVLCEACGKPLTEEAEAQPILEMRYDGVARRSQKENPGIIDRVWNFFSSVKVAIYLILLTLIGSSLGTIFPQESTFLNIDPSVYYKEEYGQLGHIYYLLGLSHTYTSWWFVLLLVMIGASLVICSLDRVLPLYKALSRQRIPKHMSFLTRQKVVYQGQVQEDGADWVERIKPIIKKKGYRVRTDGGTLLAEKQRFSRWGPYVLHIGLIIFLLAVLGRNLPGLHMDEHMAFPQDEPVHIKNTSYYLLNDGFKVEFYTEDDMPEEFKGKNKVLPKEFQTQAILYMCEANCDDLDKEPQLVELTRHNIEVNHPLNYKGLKAYQFDYDLTPILRTVSPMLIDSKSGKEYGKITLSINDPQRVYQAGEYTLTLTQSFTDFGLGDNGKPVNLSPNPNAPAFLFLIKGPDLPKEGIQYFYFPKQIDKERFNQEAINAQLAGGEALVKLDVLSMDDVDFSESTTYLNIRVDKAMPFIWVGCFIGMIGLIMGFYFTHRRIWLRIDNGTLTLGAHTNKNWFGLRKEISAILKQMNIEVDEKSLENNRGTKHESN				NA	NA	NA	NA	NA
AK002_02253	1254	ccsA		Cytochrome c biogenesis protein CcsA	ATGAATCTAATTGATTTCAGCGGCGACGCATTTATCGTCGCCTTTACCTTATACTGCGTGGCATTTATCATGTACGGACTTGCCGTCATGGGACGCCGGTTCCGCAAACGCGACCCGGAAGCCCATTTGGCGAAGTGGGGTAAGATCGCATTTGTTACGACAACGATCGGTTTGATCGGACACTTGCTATACTTCTTTACTAGATGGGCGGGCTCGGGGCATGTGCCGGTCAGCAATATGTATGAGTTTATGTCCTTCTTGTCGATGGCAATCATGATTGCCTTCCTCGTACTTTATTTTATCTACAAAAAATCGCTGCTCGGATTGTTTGCACTGCCTCTGGCAATCCTGATCATGGCCTATGCCGCCGTGTTCCCGCAGCAGGTGCAGCCGCTCATTCCTTCGCTTCAGTCCTATTGGCTGGGTATCCACGTTACATTGGCGGCATTGGGCGATGCGTTTTTTGCGGTCGGCTTTATTGCCGGCTTGATGCACCTGCTCCGGACCGTTAACTTTAGCGGAACGGACAAGGGTGCGCGCAGGGAACAGCGCTGGCTTGAGCTCGTCATGTTTGCCATCGTGGTGCTGATCGGATTTATTTTGTCGGTATACAGCTTCCGTGCAGGCGGATATCAGGCGGAGTTTAACCAGACATTGGTTGACCCGAAGACAGAAAATAGTACAATAGTAAAAGTGGAATATAACATGCCTCCGCTTGTCGCACCTTATAAAAGCGAAACGGAGAGCATGCAGTCTTTCTTGGGCATGAAATCTCCACTCATGGAAGCTCCGTCCTGGATGCACGGCGTGAACGCTGGACGTAAGCTGAATACGGTGGTATGGTCGCTGGTCACCGGATTGATCCTTTACGGATTGCTCCGCCTGATCCTGCGCAAACCGCTGGCTAAATTCATTCAGCCCGCACTCCATCGACTGGATCCGGATGATCTGGACGAAATCAGTTATCGAGCCATCGCGATCGGCTTCCCCGTATTTACGCTTGGCGGTCTCATCTTCGCCATGATCTGGGCAGAGATTGCATGGGGCCGATTCTGGGGCTGGGATCCGAAGGAAGTATGGGCGCTTATTACTTGGTTGTTCTACAGCGTGTACCTTCATCTCCGGCTATCGCGCGGATGGCAGGGCAAATATTCGTCCTGGCTGTCCGTTATCGGCTTTATCGTGGTCATGTTCACGCTGGTCGGCGTCAACTTGATTATCGCGGGTCTGCATTCCTATGCAGGCACCGACTAA	MNLIDFSGDAFIVAFTLYCVAFIMYGLAVMGRRFRKRDPEAHLAKWGKIAFVTTTIGLIGHLLYFFTRWAGSGHVPVSNMYEFMSFLSMAIMIAFLVLYFIYKKSLLGLFALPLAILIMAYAAVFPQQVQPLIPSLQSYWLGIHVTLAALGDAFFAVGFIAGLMHLLRTVNFSGTDKGARREQRWLELVMFAIVVLIGFILSVYSFRAGGYQAEFNQTLVDPKTENSTIVKVEYNMPPLVAPYKSETESMQSFLGMKSPLMEAPSWMHGVNAGRKLNTVVWSLVTGLILYGLLRLILRKPLAKFIQPALHRLDPDDLDEISYRAIAIGFPVFTLGGLIFAMIWAEIAWGRFWGWDPKEVWALITWLFYSVYLHLRLSRGWQGKYSSWLSVIGFIVVMFTLVGVNLIIAGLHSYAGTD				NA	NA	NA	NA	NA
AK002_02254	717	srrA_1	COG0745	Transcriptional regulatory protein SrrA	ATGTCTGAGCACGGAAATCGCATTCTTGTTGTTGATGATGAGGAACGGATTCGCCGTTTGTTGAAAATGTATCTGGAGAAGGAAGGATATGAAATCGAGGAGGCGGAGGATGGGGAGACTGCTCTTCGCAAAGCAAGCTCGGAGGATTACGGGCTTGTTATTCTGGATGTCATGCTGCCCGGCATGGACGGCGTTGAAGTATGCACCCGCCTTCGTCAGGTGAAGTCTACGCCGATCCTGATGCTGACCGCCAAAGGCGAGGAGATTAACCGCGTTCAGGGATTCGAGGTGGGCGCCGACGATTATGTGGTGAAACCGTTCAGTCCTCGCGAGGTGATCTATCGCGTTAAAGCCATATTGCGCCGTTCGTCCGCGACGGCTTATCTGAGCAAGGAGCCGAATCCAAGCAACAGCATCGTATTCCCTCACTTGATCATTGAACACGATGCCCACCGCGTGACGGCCGGCGGGCATGAAATCAGCCTGACGCCGAAGGAATACGAGCTTCTGCACTATTTGGCCTCGTCCCCGGACAAAGTGTTCTCGCGGGAAGAACTGCTGAAGGATGTTTGGAATTACGAGTTTTTTGGCGATCTTCGCACGGTCGATACCCATGTGAAGCGTCTGCGCGAAAAATTGAATAAGGTATCCGCGGAGTCCGCAGCGATGATTACGACCGTATGGGGAGTAGGCTACAAGCTGGAGGTACCGAAGTAA	MSEHGNRILVVDDEERIRRLLKMYLEKEGYEIEEAEDGETALRKASSEDYGLVILDVMLPGMDGVEVCTRLRQVKSTPILMLTAKGEEINRVQGFEVGADDYVVKPFSPREVIYRVKAILRRSSATAYLSKEPNPSNSIVFPHLIIEHDAHRVTAGGHEISLTPKEYELLHYLASSPDKVFSREELLKDVWNYEFFGDLRTVDTHVKRLREKLNKVSAESAAMITTVWGVGYKLEVPK	PGPT0013765_748	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_02255	1434	resE_2		Sensor histidine kinase ResE	GTGAGTTTTTGGAGATCACTTGTCGGCAAGCTGTGGATTACGATAACCTGTTTGGTCGCGTGCGTACTGCTGACGCTCGGTTTATTCTTGCTCCCTTATATCGATACCACCTTCGCGAACTCGGATGCCATCAAGCGTTTATTTACTTATGTCGCCATTATCGGCTTTTCGATGACCACCTTTTTCGGGTTGTTCCTGCTGACGAAAATTACGCAGCCCATGCAGCAGCTCATCGAGGCAGCCAACGATATCCGTAAAGGGAAATACGGCACGCGGTTGAACCTTGTGACCAGTGATGAGATCGGCGAGCTGGCCAATACGTTTAACCATATGGCAGCGGAGCTGGAAACGAACATCCGCAATTTGAACCACGAGAAGGAGCACCTGTCCAGCGTGCTGAGAAGCATGAGCGACGCCGTGATTACGTTTGACAATCACGGGCAGGTCATCCTGGTGAACCCGCCGGGACTGGAAATCATGAAGACCTGGAAAGGGCTGCAGTGGGACGATGAGCTTCAGGGCGGAGGCTGGGCGGCCGATGTCATGCCAAAACCGCTCAGCGAGTTATATTACGCCACCGTCAACGAAGGCAAAGACCAAAGCGCCGATCTGCATGTGAAGCAGGGAATCTGGTCAGCCCATATGGCCCCCCTGTATTCGGATGACGTGATCCGCGGAGCCGTCGTGGTGTTAAGGGACATAACCGAACAGGTTACATTAGAAAAGATGCGGACGGACTTCATTGCCAACGTGTCGCACGAAATACGGACGCCGCTGTCCATGATGCAGGGATACAGCGAAGCGCTCCTGGACGGCATGGCAGCTTCACCCGAAGAGAGCAGGGAGCTCATACAGGTCATTCATGAGGAATCCCTGCGGATGGGGCGTCTGGTGAAGGATCTGCTTGATTTGACGCGCATGGAGGCAGGGCATGCCGAGTTATCCCTGCGCGAGATGGATGCAGGCGAATTGTGCGAGCGGGTATTCCGGAAATTTGCGGTTCGAGCCAAAGAGCGGGATATCGATCTTCAGCTGAACAAGCTCCATTCGAATCTTCAGCTCGAAGCGGCGGATGAAGACAAGCTTGAACAGGTGCTGACCAATTTGCTGGATAACGCTTTCCGTCATACGCCTTCAGGCAAGAAAATTCAAATTACGGCAGACCGGATCGCCGTATCCAACACGGAGGCGCTCCAGGTGAAGGTTTGCGACCAGGGTGTCGGCATTCCGCCGGAAGACCTGCCTTTTGTATTCGAACGATTCTACAAGGCCGATAAGGCGCGTGTGCGTGGGGAGACGGTGGGAACCGGCATTGGCCTTGCCATCGTGAAAAATATCGTGACCGCGCACCATGGAACGATCAACGCGACAAGCGAAGTGGGGAAAGGCACCGTGTTTACGATGACGATCCCGACAAAAGCGGCAGAATCCTAG	MSFWRSLVGKLWITITCLVACVLLTLGLFLLPYIDTTFANSDAIKRLFTYVAIIGFSMTTFFGLFLLTKITQPMQQLIEAANDIRKGKYGTRLNLVTSDEIGELANTFNHMAAELETNIRNLNHEKEHLSSVLRSMSDAVITFDNHGQVILVNPPGLEIMKTWKGLQWDDELQGGGWAADVMPKPLSELYYATVNEGKDQSADLHVKQGIWSAHMAPLYSDDVIRGAVVVLRDITEQVTLEKMRTDFIANVSHEIRTPLSMMQGYSEALLDGMAASPEESRELIQVIHEESLRMGRLVKDLLDLTRMEAGHAELSLREMDAGELCERVFRKFAVRAKERDIDLQLNKLHSNLQLEAADEDKLEQVLTNLLDNAFRHTPSGKKIQITADRIAVSNTEALQVKVCDQGVGIPPEDLPFVFERFYKADKARVRGETVGTGIGLAIVKNIVTAHHGTINATSEVGKGTVFTMTIPTKAAES	PGPT0026265_391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026265-resE-K07651	NA	NA
AK002_02256	1593	serA	COG0111	D-3-phosphoglycerate dehydrogenase	ATGTTTAAAGTATTGGTATCGGATCCGATCAGCGATTTGGGGATCCAGCAGTTAATGGACGCCGCCGATGTGCAGGTAGACAAAAAAACCGGGCTTAACGAAGACGAGCTCACTGCCATTATCGGTGAATACGACGGACTCCTCGTTCGGAGTCAGACGCGTGTTACAGAACGCATCATGAATGCAGGAACCAATCTCAAGGTGGTTGGCCGTGCCGGCGTTGGCGTGGACAACATTGATCTTGAAGCGGCAACAAAGCGCGGGATCGTTGTTATCAATGCACCTGACGGCAACACGATCACGACGGCAGAGCATACGTTTGCTATGATGATTGCCCTCGCCCGCCACATCCCTCAAGCTTATGCCAAAACGGTAGGCGGAACCTGGGATCGCAAATCCTTCCTCGGCGTAGAGCTCCGCAACAAAACGCTGGGCGTTATGGGCATGGGACGGATCGGCAGCGAGGTGGCTAAACGCGCCAAGGCTTTCGGCATGAACATTCTCGCTTTCGATCCGTTCCTGACGGAAGAACGCGCGGATAAGCTGGGCGTGAAGCTTTCCTCCGTGGATAATATTATCCGGAACGCAGACTTCATCACGGTTCATACTCCGCTTACGCCGGAGACGCGCCACATGATCGCCAGACCGCAATTCGAGGTCATGAAACGCGGCATGCGTATCGTGAACTGTGCCCGTGGCGGCATCATTGACGAGCGCGCGCTCGTGGAAGCCATCGATGAAGGCATTGTAGCCGGAGCCGCATTTGACGTATTCGAACATGAGCCGCCTGAAAGCGATCATCCGTTCCTGAACCATCCGAAGGTTATCGTCACTCCGCATCTGGGTGCATCCACTGTTGAAGCCCAGGAGAACGTTGCGATCGACGTTTCCGAGCAAGTGCTGCATATCCTGCGCAACGAACCGTTTAAGAATGCGGTCAACTTCCCGCTTGTAGCCGCAAGCGTCATGAACAAGCTGCAGCCTTACTTCTCGCTCGGCGAGAAATTGGGCAGTGTAGCGGCCCAGATCACCGCACACGCGGTAAAGGAGATTCACGTAGACTATGCAGGAGAGCTGGCTGAAGTCGATACGCAGGCCCTGACCCGCTACATCGTGAAGGGCGTGCTGGAACGCCACCTCGGAAGCGAAGTGAACATTGTCAACTCCATGCATTTGGCGAAGAGCCGCGATTTGCATGTCGTTGTGTCGCAGACGCCAAAAACCAAAGACTTCACCAATCTCGTTACCGTTACGCTGAAAACGCAAAACGGCCTGGAACGAATCGTTGCGGGTACGCTTCTTCTGGGATACGGCGAACGAATCGTCCGACTGGATAAATTCCCTGTCGATATCTCACCTGAAGGCCATCTGATCCTGATCTCCCACAACGATAAACCGGGCATTATCGGACGTGTCGGAACCCTGCTCGGCGAGAACGATGTCAACATCGCCTCCATGCAGGTGGGACGTAAAGTGATCGGCGGCGAGGCCATCATGCTGCTGACGGTGGATAAAGACGTTCCTAAGGACGTTCTGATCAAGCTTACCGGCTTGTCGGAGCTCAACACGGCGCAGCAAATCGCGCTAGGCTAA	MFKVLVSDPISDLGIQQLMDAADVQVDKKTGLNEDELTAIIGEYDGLLVRSQTRVTERIMNAGTNLKVVGRAGVGVDNIDLEAATKRGIVVINAPDGNTITTAEHTFAMMIALARHIPQAYAKTVGGTWDRKSFLGVELRNKTLGVMGMGRIGSEVAKRAKAFGMNILAFDPFLTEERADKLGVKLSSVDNIIRNADFITVHTPLTPETRHMIARPQFEVMKRGMRIVNCARGGIIDERALVEAIDEGIVAGAAFDVFEHEPPESDHPFLNHPKVIVTPHLGASTVEAQENVAIDVSEQVLHILRNEPFKNAVNFPLVAASVMNKLQPYFSLGEKLGSVAAQITAHAVKEIHVDYAGELAEVDTQALTRYIVKGVLERHLGSEVNIVNSMHLAKSRDLHVVVSQTPKTKDFTNLVTVTLKTQNGLERIVAGTLLLGYGERIVRLDKFPVDISPEGHLILISHNDKPGIIGRVGTLLGENDVNIASMQVGRKVIGGEAIMLLTVDKDVPKDVLIKLTGLSELNTAQQIALG	PGPT0009155_1344	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
AK002_02258	600			hypothetical protein	ATGAAAAAATTTAAAATACGCGTTAAAAGAATCGAAGCCCACCAGCTGAACGATCGGCTGCTGCTCATCAATCTGTATCTTACGCAAGCGTTGACGCTTATCGTCGGTTTGATCTGGATTTTGTTTCAGCACCGGAATCCGTTCGGATTATTTGTTTTTCCGAAGGAGATCGAGTTTGTTTATTGGGGTCTCGGACTTGCCGCAGCGATGCTGGCAGTGGACTTTGTATTGTCCCGGTTCGTGTCGGAGGATAGCATGGACGACGGCGGGATCAATGAAATGCTGTTCAGGAAAAGGCCGGTTTGGCATATATTCGTTATCGCCCTGATCGTGTCCATCTGCGAGGAATTATTGTTTCGCGGAGCGATACAGCATGCGTTCGGACCGTATTGGACAAGCATCTTGTTCGCGCTGATCCATGTCCGATATTTAAAGCATTGGCTGCCGACTGGATGGGTTTTCTTGAGCAGTTACGGTCTGGGCTACGTCTATATACAAACGGGTACCATTTGGGCGCCAATTCTGTGCCATTTTCTGATAGATTTCATATCGGGAATGTTGATACGGTTTCGGAGGAAAGAGGAACATGAACGAGCTTAG	MKKFKIRVKRIEAHQLNDRLLLINLYLTQALTLIVGLIWILFQHRNPFGLFVFPKEIEFVYWGLGLAAAMLAVDFVLSRFVSEDSMDDGGINEMLFRKRPVWHIFVIALIVSICEELLFRGAIQHAFGPYWTSILFALIHVRYLKHWLPTGWVFLSSYGLGYVYIQTGTIWAPILCHFLIDFISGMLIRFRRKEEHERA				NA	NA	NA	NA	NA
AK002_02259	411			hypothetical protein	ATGAACGAGCTTAGCAGAATGCAACGGCATCAGGGCCGAAATAAAGGCCGGAAGAACAAGTCATCGGCTCAATCCGAAAAGAGGGCGGCGGAAAAGCCGCTGCAGGCAGAGGGGAGTCGGAGTCGATCTAAATCCCAAGCTCCCGTAAGCACTGCGGTACCGAAGACGCGGGGCGGCAGCGCGGCGGATGGATTAAGCCGGTCCAGATCGACAAGGTCAAACCAGAATCCGATAGAGGAAGAGGTTTCGGCGCCTAAACGAACGAATACATATTCCTCCTATCGCGTAAGAATGAGCAAGTGGTTTGTGAACTCATTAATTGTCATCTTCATATTGTTAATGGTAGGTCTTCTGTGGTGGGGACTTATCGGAGCGCCTCCATTAAGGGAATTGTTAAAGGAGATATTATGA	MNELSRMQRHQGRNKGRKNKSSAQSEKRAAEKPLQAEGSRSRSKSQAPVSTAVPKTRGGSAADGLSRSRSTRSNQNPIEEEVSAPKRTNTYSSYRVRMSKWFVNSLIVIFILLMVGLLWWGLIGAPPLRELLKEIL				NA	NA	NA	NA	NA
AK002_02260	819	ypbG	COG1408	putative protein YpbG	ATGAGTGTGTTGATGTGGATAGCGGGTGCTGCGGCACTCGGTGCAGGCGCAATCGGCTGGATGAGGGCTGAAGCCCGGGGCTATCGGCTGCGTGAAGAGGAAGTGGTATCCGAGCGTATTCCGCGGTCGTTTGACGGGTTTCGGATGCTGTTCATCACCGACATACATCGCAGACAATTGTCTGAAGAGAAGCTATTATCCAATATATCATCGGTGGATTGCGTGCTCCTGGGCGGGGATATTACCGAAAAAGGGGTGCCTCTTGAGCGGTTGAGACATAACATGTCGGTTCTGGCCCGCATCGCTCCCGTTTATGCCGTACTGGGAAATCACGACCTGTATGCAGGCAAGGACGCCGTTCGCAAGGTATTGCGGGAGAGCGGGGTCATTCTTATGAATGACAAGACCGTCACGTTGAAGCGGGATGACGAATGTCTTGTTCTTAGCGGAGTTAGGCAGCCGGCAAGCAGGAAACATCCGTATACGAAATTCCGGGGAAATGCAGCGGAAGACCAGTATCACATCATTCTGGTGCACGATCCGATCTGGCTCAAAGGCAAGGAAGAAACGCACGGGGATCTCCTGCTGGCAGGTCATACCCATGGCGGACAGATTGTGCTGCCGATTGCCGGAGCGGTTCGTCTGGAGCGCTTTTACAAGAAGTATAAATCCGGATGGTATACGCTGCCGAGGAAGGCAGGCGAGTCTGTCCAATCCTCCAGGCTGCTGATCAGCCGGGGGTTCGGCACTTCCCATATTCCGCTGCGCTTGAAATGTCCGGCGGAATATCATGTGATTACGTTACGCAAAAAACCTTAA	MSVLMWIAGAAALGAGAIGWMRAEARGYRLREEEVVSERIPRSFDGFRMLFITDIHRRQLSEEKLLSNISSVDCVLLGGDITEKGVPLERLRHNMSVLARIAPVYAVLGNHDLYAGKDAVRKVLRESGVILMNDKTVTLKRDDECLVLSGVRQPASRKHPYTKFRGNAAEDQYHIILVHDPIWLKGKEETHGDLLLAGHTHGGQIVLPIAGAVRLERFYKKYKSGWYTLPRKAGESVQSSRLLISRGFGTSHIPLRLKCPAEYHVITLRKKP	PGPT0022365_3861	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK002_02261	927			hypothetical protein	ATGGTTAGAACACGAACAGTCCTTCTGTTGGCCTGCTGCCTGATGCTCAGTGCATGCGGCGGCAACGGCGCCGCTCAGAAGCAAGGCGCGGCTACGGAAGGCGGTAATACCCAGACGACGCAGCAAAACGAATCCACCGGGCAGGTGTCCCCTCCGAAAGAAAACACCGATCCTTCGGCCGATCTGGACAAGCCTGAAGACCCATCCAGCACGAGCTCGAGTAAATCCCCGGATTCCCCGGACCCGTCCGAAGAGGCCGTCAAGGATCCGGAAGCAGAGCTCCCGTCCGAACCGAAATACCACATGAATAAGGTGTACCGAATCGTACCAAACGATGAATCCGTACCCGAAAAGGTGGTGCTGCTCACATTTGACGACGGTCCCAAGGATGAAAAAATGATCAACCGCATGATCGATACGCTCGACAAGCATAAAGCCAAAGCCATTTTCTTCGTGAATGGATACCGCGCGAAGGAGCATCCCGAACTGCTGAAGCTGATCCATGACCGCGGTCAAATCATCGGCAATCATTCCTGGGATCATATCGACCTGAAAAAGGAAAGCAAACAAAAGGTCGAGAAACAGATCGGGGACGTCCAGAAAATCGTCAAGGAAGCAACGGGAGCGGAACCGAAGTTTTTCCGGCCTCCGTTCGGCTCCGGCGGAGATACCGTCAAGGAAGTAGCACTGGAGCATGACCTGCTGTTCATGACTTGGTCCAACGGTTCCCTGGATTGGGAAAGCAAAAACAAAAACAAACCCGATGCCGTTGTGAGCAACGTGCTCGAGCAGCTTCATCCCGGCAGCAATATTCTGATGCATGAGCTTCCGTGGACTGCCGAGGCCCTGGACACTTTGCTGACCAAGCTCGAGGCCAAAGGGTATGGATTCGTTGATCCGCGATGGATCGAGCCTAAAATAAGATAA	MVRTRTVLLLACCLMLSACGGNGAAQKQGAATEGGNTQTTQQNESTGQVSPPKENTDPSADLDKPEDPSSTSSSKSPDSPDPSEEAVKDPEAELPSEPKYHMNKVYRIVPNDESVPEKVVLLTFDDGPKDEKMINRMIDTLDKHKAKAIFFVNGYRAKEHPELLKLIHDRGQIIGNHSWDHIDLKKESKQKVEKQIGDVQKIVKEATGAEPKFFRPPFGSGGDTVKEVALEHDLLFMTWSNGSLDWESKNKNKPDAVVSNVLEQLHPGSNILMHELPWTAEALDTLLTKLEAKGYGFVDPRWIEPKIR	PGPT0018645_1530	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_02262	372			hypothetical protein	GTGAAGACTTCGTCATTTCTATATGGTGTCATTATCGGTGCCGTTGCATCCCGGATGATTTCCCGGAAAAACGGCATGTTCTTCTCCTCGATGATGAAAGACGCGAATCTTGGCCGGTTTGCGAATACCGCGATGAGTAAAATTCAAGGCAACAAGAGCCAGTTTGGCGGCTCCAGCCGAGAAAGCGTGTCTCCCAGTTCAGGCCGACATGATTCCACTCATTCCAATGGAACTGCAGGGGTACAGGCATCGACTCATTCGAAGGCTGCCAACCTGAAGCAGGTCAAGGATTTCATCCGAAACAACCCTGATGTGAAGACCGAAGTCGAACAGATTTTGAAAGAGACCCACACCGTCATACCGGGTTTGTAA	MKTSSFLYGVIIGAVASRMISRKNGMFFSSMMKDANLGRFANTAMSKIQGNKSQFGGSSRESVSPSSGRHDSTHSNGTAGVQASTHSKAANLKQVKDFIRNNPDVKTEVEQILKETHTVIPGL				NA	NA	NA	NA	NA
AK002_02263	612	mecB	COG4862	Adapter protein MecA 2	ATGAAAATAGAGCGTTTGAGTCAAGATAAGATACGGATTTTCCTCACGTTTGACGATCTGAGTGAGCGTGGGATCCAGAAGGAAGAGATGTGGCAGGAAATACCGAAAGTTTATGACCTGTTTACGGAGATGATGGATCAGGCATACAGTGAACTCGGATTTGATGCCACCGGACCTCTTGCCGTTGAGGTGTTTGCACTGCCTGCCCAAGGCATGGTGGTTATTGTGACGAGAGGGAAATACGATCATCATTTCGGCGGCTTGTCCGAAGAAGATATGCCGGACGAGATTTATGAAATGGAAGTAACGCTGGATCAAAGTGATACCATCGTCTATGTTTTTCAGGATTTTGAAGTGCTCATTGAAGCATCGCATATGTTGAAGGACCTTGTAGGCGGAGCGGGCAAGCTCTATCACTATATGGATAAATGGTTTTTGTACTTCGAGCCCGAGGAATTGGATAACGAGAAGCTGCCGGCTATAATTGCAATGCTGGCCGAGTTCGGCGAATCCTCTTCGGTGACGGAGGCTATGCTGGAGGAATACGGGAAGAAAGTGATGCCTCAGCAAGCGGTTGAGGTTATCTGTACACACTTCCAGCGTCAGCATTAA	MKIERLSQDKIRIFLTFDDLSERGIQKEEMWQEIPKVYDLFTEMMDQAYSELGFDATGPLAVEVFALPAQGMVVIVTRGKYDHHFGGLSEEDMPDEIYEMEVTLDQSDTIVYVFQDFEVLIEASHMLKDLVGGAGKLYHYMDKWFLYFEPEELDNEKLPAIIAMLAEFGESSSVTEAMLEEYGKKVMPQQAVEVICTHFQRQH				NA	NA	NA	NA	NA
AK002_02264	696	prsW	COG2339	Protease PrsW	GTGCTGGTGTTCTCGATCATTGCGTCAGCTTTGGCGCCGGGACTCGCATTGCTCACGTATTTTTACCTGAAGGACAGGTATGATCAAGAACCCCTGCACATGGTGATCAAAGTGTTCATGCTAGGGGTTCTGATCGTTTTCCCGGTCATGATTTTGCAGCGGGGAATGATACTATGGCTTGGCGACAATCCGGTAGTCAACTCACTGTTCGTTTCGGCGGGCGTTGAGGAATTTTTAAAATGGTTCGTGATGTATCATATTATTTTTAATCATACGGAATTTGACGAGCCTTATGACGGCATACTATATGCAGTTGCGATATCGCTGGGATTTGCTACGGTAGAGAATTTGCTTTACGCCTGGTACAGTCAGGCAGCCTTCGGCCCGATGTTCATGCGGGCGCTGCTGCCCGTTTCGGGACACGCAATGTTTGGCGTCATCATGGGATACTACATGGGACATGCGAGGTTCACGGAAGGGAAGCGAAGAAGATTCTTCCTCGTGCTGTCCATGGTTCTGCCTTGGATGTGGCATGGTCTTTATGACCTGATTCTGAATTTGCTGACGCACACATGGGTATGGTTTATCGTTCCGCTAATGGTTCTGCTGTGGTATGGCGGCATGGGCAAAATCTCCAGAGCGAACAACCGCTCTCCTTTCCGCTTCATTAAACGGGAGGAAGAGGTTAATACGTAA	MLVFSIIASALAPGLALLTYFYLKDRYDQEPLHMVIKVFMLGVLIVFPVMILQRGMILWLGDNPVVNSLFVSAGVEEFLKWFVMYHIIFNHTEFDEPYDGILYAVAISLGFATVENLLYAWYSQAAFGPMFMRALLPVSGHAMFGVIMGYYMGHARFTEGKRRRFFLVLSMVLPWMWHGLYDLILNLLTHTWVWFIVPLMVLLWYGGMGKISRANNRSPFRFIKREEEVNT				NA	NA	NA	NA	NA
AK002_02265	147			hypothetical protein	TTGCGTGTAAAAGTGAAAATTCTTTGCAAGGATTGCGGTGAGCGATTCGTATTGCGCGGAAAGAAGGAGCAGGGCCGGATCGAAACCGGATTTAAGCAGTGCCTGTGCAACAACCGGGATCACTTCGATATTGAGGAAGATTTCTAA	MRVKVKILCKDCGERFVLRGKKEQGRIETGFKQCLCNNRDHFDIEEDF				NA	NA	NA	NA	NA
AK002_02266	1350	ypeB		Sporulation protein YpeB	ATGTACAAACGATTAAGCGCTATTCTGTTTCCTGTAGCCACCATATTATTGATCGGGGCTCTGGTTTGGGGATATCAAGAAAATAAAGAAAAGAACGCCATTTTGATTAACGCCGAGAACCAGTATCAACGGGCTTTCCATGACTTGTCGTACAATATGGACAGGATTCATGCCGAGCTCGGCAATACGCTTGCGGTCAGCTCGACCTCCCAAGGGATGCACCGGAAGGGGCTGATGAACGTATGGCGGCTGACCAGCCAGGCGCAGAACGAAATCAGTCAACTGCCGCTAACGCTGCTTCCGTTCAACAAAACCGAAGAGTTCCTGTCCCGGATATCGAATTTTGCCTACAAAACGGGCGTGCGCGATTTAACGAAGGAACCGCTTAGCGAGAATGAAGTCAAAACGTTGAAATCGTTATATGCCAACTCCGGCGAAATCACGAAGGATTTGCAACATGTGCAGAACAAGGTCATCGCTAACAGTCTGCGCTGGATGGACGTTGAAACGGCCTTGGCTACGAATAAAGTCGAAGATAACTCGATTATTGACGGATTCAAAACGGTGGATAAAAAAGTAGAGTCTTATCCTGAGCTTGATTGGGGACCATCGGTAAGCAGCATTTATGACAGACGTTCCGTGAAGCAGCTGGCAGGCATGCCGGTCTCGGAGCAGGATGTGAAGCGCAAAGCGCTGAAATTCTCCGACACGGGCAATCAAGCCAACGTACAAGTTACGAAGAACGGTAGCGGCACCGAGTGGGTATCCTACACGGCCAAAGTCAAACACCCGAAGGGCCATATGCTCAGTATGGATTTCACCGAAAAAGGCGGCCAGCTGATCTCCTACACGGATGAACGGAACGTAGGCGCGAAGAGAGCATCCGTTCAGGATGCCATCGACAAAGCCCAGCAATTCCTGACGAAAAAAGGCTATTCCGACATGACGGTCGTATCGGCCGACCAATACGATAACCTGGCCAACTTCTCTTTTGTGCGCGAAGAAGACGGCGTGCTGATTTATCCTGAGAAAATCACCGTGCGCTCGGCCATGGATAACGGTGAGGTCATCGGATTTCAGGCGAGCGACTTTGTTTACGAGCACCAGGTGAAGCGCGATATCCCGCAGCCGAAGCTCAGCCTCGCCGAAGCGGAGAAGGTTTTGAACCCTGAATTCAAGGTGCTCTACCACCGCAAGGCCTTAATCAAAAACGACCGTTCCGAAGATGTGCTGTGTTATGAGTTCGGCGGACGGATCAACGGCTCTCAATACCGGATTTACATTAATGCGGATACGGGCCTGGAAGAAACGGTCGAGGTCGTTAAGGATGCGCAGGCAGGAATTAAATAG	MYKRLSAILFPVATILLIGALVWGYQENKEKNAILINAENQYQRAFHDLSYNMDRIHAELGNTLAVSSTSQGMHRKGLMNVWRLTSQAQNEISQLPLTLLPFNKTEEFLSRISNFAYKTGVRDLTKEPLSENEVKTLKSLYANSGEITKDLQHVQNKVIANSLRWMDVETALATNKVEDNSIIDGFKTVDKKVESYPELDWGPSVSSIYDRRSVKQLAGMPVSEQDVKRKALKFSDTGNQANVQVTKNGSGTEWVSYTAKVKHPKGHMLSMDFTEKGGQLISYTDERNVGAKRASVQDAIDKAQQFLTKKGYSDMTVVSADQYDNLANFSFVREEDGVLIYPEKITVRSAMDNGEVIGFQASDFVYEHQVKRDIPQPKLSLAEAEKVLNPEFKVLYHRKALIKNDRSEDVLCYEFGGRINGSQYRIYINADTGLEETVEVVKDAQAGIK	PGPT0025130_184	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025130-ypeB-K06313	NA	NA
AK002_02267	663	ypfA	COG5581	putative protein YpfA	GTGAGCGCATTGTATCCAAAGATCAACGACGTCCTCTATATCCAGTTGGATACGGGGGATGAGAAGGAAGCCAGCATTGTTTACAAATCCCGCATTTCCGACATGGATGACGAATCGATGTATATGGAGGTTCCGCTTCAGGAAGGAACGGGCAGGCTGAAGAAGCTGTATATCGGGGACGAGCTTTCCGCTTATTTTTTGACGGAGGGCGGAGTCAAGAACTTCTTCAATTCCTATGTCCTGAGTCACCATGAAGACGTTATACGCCTGGTTCGCATCAAAAAGCCGGAGCAGGATCAGATCACGAAGGTGCAGAGAAGGAGCTTTCTGAGGGTACAAGCCGAGCTCGAGTTAGCGGTGATGGCCAAAGACGGCACGCGGTTGCTGACCAAAACCGATGATGTCGGCGGCGGAGGGGTATCCTTTTACCTGGAACCCGACAAATCGTTTGCGGAAGGGAGCTTGTTAAGCTGCTGGATCCTTATTCCGTTCAAGAACGGATCGGTGGAGCATGTCCCTTTTGAAGGCGAAGTTGTCAGGGTCAAGCAGCTGCCAGGCAACCGAAGCATCGTCATGCTGAAATTTAATCAGATCGTAGATATGGAGCGTCAGAAGCTGATCCGTTATTGCTTTGAGCGCCAGTTTGATTTTCGCAACCGTTGA	MSALYPKINDVLYIQLDTGDEKEASIVYKSRISDMDDESMYMEVPLQEGTGRLKKLYIGDELSAYFLTEGGVKNFFNSYVLSHHEDVIRLVRIKKPEQDQITKVQRRSFLRVQAELELAVMAKDGTRLLTKTDDVGGGGVSFYLEPDKSFAEGSLLSCWILIPFKNGSVEHVPFEGEVVRVKQLPGNRSIVMLKFNQIVDMERQKLIRYCFERQFDFRNR				NA	NA	NA	NA	NA
AK002_02268	288			hypothetical protein	ATGTCCCAGTCATCTAACGATCAAAATCAGCTGCGGCGAAAAACCAGGCAGGATCCCATGCCGGGCGATAAAGGACAAGCTCTCCATGACCGATACGGTCAAGTGCTGCTTAAGCTGCTGATAGGGCTCGCATTCGCTTTGGTGATCGTCCAGCTGCTATTGCATTATGAACCAAGCCGGCCCTACCTTTCGCCGATTCAGCAGATGGAGGGTGTTCCCGTTAATGAGCCAAATGTAAACGATTGGATGGGAGAAAACACCCCTTCTCTTTTGCATCGCTCTAGCTAG	MSQSSNDQNQLRRKTRQDPMPGDKGQALHDRYGQVLLKLLIGLAFALVIVQLLLHYEPSRPYLSPIQQMEGVPVNEPNVNDWMGENTPSLLHRSS				NA	NA	NA	NA	NA
AK002_02269	681	cmk	COG0283	Cytidylate kinase	TTGGTTATGCAGGGGACAGGTTATCGCGACAGAATTAATATTGCCATCGACGGTCCGGCAGGCGCGGGCAAAAGCACGGTAGCGCGTATGGTAGCCAGCAGGCTGCAGTACATCTACGTGGATACCGGCGCCATGTACAGGGCAGTCACCTGGTTCATGCTGAACCAAGGGATTTCTCCGGAAAATCCCGAAAAAGTGCTTCAACATGCACAAAACATGGTGATTGAATTAAAACCGCATGAAAATGGTCAAATGGTTTGGCTGAACGGGGAAGACGTCACGCCGTATATTCGTTCACATCAGGTTAGTGCAGTGGTATCCCAATATGCACGAATCGAAGGTTTGCGAATAAAGCTTGTCCGTTTACAGCAGCAAATGGCACTGGATAAGGGCGTTGTCATGGATGGACGCGACATCGGCACGACGGTTTTGCCGGATGCTGAGGTGAAGATTTTCATGACGGCCAGTGTCAAGGAACGTGCGCTCCGCCGCTTCCATGAGTTAAGTGATGAAGGCATAACGCTGGAACAATTGGAAAGAGATATCGCAGAACGCGACAGGCTTGACCAGGAACGTGAAGTGTCCCCGCTCCGTTGCGCAGAGGATGCCATCATACTGGATACGACGCATATGGATATCAATCAGGTTGTCGAAGCGATTCTTTCATATTGCGAAACTTAA	MVMQGTGYRDRINIAIDGPAGAGKSTVARMVASRLQYIYVDTGAMYRAVTWFMLNQGISPENPEKVLQHAQNMVIELKPHENGQMVWLNGEDVTPYIRSHQVSAVVSQYARIEGLRIKLVRLQQQMALDKGVVMDGRDIGTTVLPDAEVKIFMTASVKERALRRFHELSDEGITLEQLERDIAERDRLDQEREVSPLRCAEDAIILDTTHMDINQVVEAILSYCET	PGPT0021220_2098	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
AK002_02270	591	plsC	COG0204	1-acyl-sn-glycerol-3-phosphate acyltransferase	ATGATTTACGTTTTTTGCAGAGCGGTGGTCCGCGGTTTGTTCGCTATTCTCTACAGATTCGAATCTGTCGGCGTACATAACATACCTTCGGAAGGCGGCGTGCTAATCTGCAGCAATCACATTAGCGTTCGAGATCCGATTTCTGTCGGCATTCACGTCAAGCGCCAGGTGAAGTTCATGGCCAAAGCCGAATTGTTCAACATTCCGGTTTTCGGATGGCTGGTTCGCCAGCTGGGGGCCTTTCCGGTCAAGCGCGGCGGAGTGAGTAAAGATTCCATCAAAACCGCTCTTACGATCTTGCGTTCGGGCGAGATTATGGGAATCTTCCCTGAAGGCACGCGCAATTCGGATGCAACCGCGGCGAAACGTGGCGCGGCAAGCTTCGCTCTCCGCAGTGGGGCAACGGTCGTACCGGCTGCCATCATTGGAGACTACAAGCCGTTCCGAAAGGTAAAAATCATCTACGGCGCACCCGTGGATCTGTCCCGGTTCGAAGGTGACAAGTCACCGGAGGCACTGGACGGGGCAACCGAATTGATCATGGCCAAGATTCACGAAATGCGGGCCAGCGGCAAACCAACCGTGAACTGA	MIYVFCRAVVRGLFAILYRFESVGVHNIPSEGGVLICSNHISVRDPISVGIHVKRQVKFMAKAELFNIPVFGWLVRQLGAFPVKRGGVSKDSIKTALTILRSGEIMGIFPEGTRNSDATAAKRGAASFALRSGATVVPAAIIGDYKPFRKVKIIYGAPVDLSRFEGDKSPEALDGATELIMAKIHEMRASGKPTVN	PGPT0024380_6955	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
AK002_02271	1218	ypfD	COG0539	30S ribosomal protein S1	ATGTCGGAAGAAACAAGAAATCAAGAGGCTGCTGAAAACCAAGAGCAGCTGGACCAAATCGTATCCTTGAAAAAAGGGGACACCGTGAAAGGGACGATCGTCAAACTGGAGGACAACCAAGCTTACGTAAGCATTGGATATAAATATGACGGCGTAATTCCTGTTCGCGAACTGTCTTCTGTACAGCTTGATAATGCATCGGATGCGGTTCAGGTTGGCCAAGAGGTAGAGTGCAAGGTCGTTAGCATCAACGACGACAAGGAAAGCCTGGTTCTTTCCAAGCGCGCGATCGACACCGAGAATTCTTGGGAAGACCTTGAGAAGCATTTTGCGGATCAGGACGTATTCGAAGTAACGGTGGCTGACGTGGTTAAAGGCGGACTCGTAGCCGATGTCGGCGCACGCGGCTTTATTCCTGCTTCCATGGTCGAGCGTCACTTCGTTGAAGACTTCAGCGACTACAAAGGCCGCACGCTTCGCGTAAAAGTGAAAGAGCTGGACCGCGAGAACAACAAAGTGATTCTTTCCCAGAAGGACGTTCTGGAAGAAGAGTTCGAAGCGAACAAACAAAAAGTGATGTCCGAGCTTCAAGACGGACAAGTGCTGGAAGGCACGGTGCAACGCCTCACGCAATTCGGCGCATTCGTTGACGTTGGCGGCGTGGACGGTTTGGTTCACGTATCCGAGATCGCTTGGAGCCATGTTGACAAGCCATCCGATGTATTGTCCGAAGGCGATCAAGTGCGCGTGAAAGTGCTGAAAGTGGATCCTGAAAAAGGCAAAATCAGCCTCAGCATCAAAGCGGCTGCTCCGGGTCCTTGGGAAACAGCTGGCGAGCAATTCAACACGGGCGACATCGTAACGGGCGTCGTAAAACGTCTGGTTACCTTCGGAGCTTTCGTTGAATTGGCACCAGGCGTAGAAGGTTTGGTTCATATCTCCCAAATCTCCCACAAGCATATCGGTACTCCGCAAGAAGTACTGAAGGAAGGCCAAGAAGTTCAGGTTAAAGTACTTGACATCAACACTTCCGAGCAGCGTATCAGCCTGAGCATCAAAGAAACCGAAGAAGCGCCAGCTCAAGCTCCGCGAGCTGAAAAACCGTCCAAAGGTCCTAAAATCGACCTGAAAGACAACCCGAACGTTTCTTTGAACAACCAAGGCATGAGCGTTACGCTTGGCGAGCGTTTCGGCGATAAGCTGAGCAAATTCAAGTAA	MSEETRNQEAAENQEQLDQIVSLKKGDTVKGTIVKLEDNQAYVSIGYKYDGVIPVRELSSVQLDNASDAVQVGQEVECKVVSINDDKESLVLSKRAIDTENSWEDLEKHFADQDVFEVTVADVVKGGLVADVGARGFIPASMVERHFVEDFSDYKGRTLRVKVKELDRENNKVILSQKDVLEEEFEANKQKVMSELQDGQVLEGTVQRLTQFGAFVDVGGVDGLVHVSEIAWSHVDKPSDVLSEGDQVRVKVLKVDPEKGKISLSIKAAAPGPWETAGEQFNTGDIVTGVVKRLVTFGAFVELAPGVEGLVHISQISHKHIGTPQEVLKEGQEVQVKVLDINTSEQRISLSIKETEEAPAQAPRAEKPSKGPKIDLKDNPNVSLNNQGMSVTLGERFGDKLSKFK	PGPT0007615_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
AK002_02272	1323	der_1	COG1160	GTPase Der	ATGGCAAGACCCGTAGTGGCTATCGTCGGAAGGCCTAACGTCGGTAAATCCACCATATTTAACCGATTGATCGGCGACAGATTAGCCATCGTTGAAGATAAACCGGGGATTACCCGTGACCGGATTTACGGCAGTGCCGAATGGAACGGTAAAGCGTTCAGTGTCATCGATACAGGCGGTATCGAAATCGACGGCGATGACATGATTTTGAAATCCATACGCATGCAAGCCGAGCTTGCGATTGAAGAAGCGGATGTCATCGTATTTATGTGCGATGCGAAGACGGGGGTTACCCAATCGGACGAGGAAGTTGCACAGATTCTGTTCCGTTCCGGTAAACCTGTCATACTCAGCGTAAACAAAGTGGATAATTTGAAGCGCGCTGATGATATCTATGAGTTCTATTCCCTCGGATTTGGCGATCCTGTCGGGATATCAGGCAGCCACGGGACAGGGATCGGCGATCTCTTGGACGTTGTCGTCGAGAACCTGCCGGAACTGGAAGATGACGAATATGACGAGGATGTTATTCGTGTCGCCTTGATCGGCAGACCGAATGTGGGCAAATCTTCTCTCGTCAATGCCATTCTGGGAGAAGAGCGCGTCATTGTCAGCGACGTTGCGGGCACTACCCGCGATGCGATCGATACGCCATTCGAGAAAGATGGCCAGCGGTACGTCCTCATCGATACGGCAGGCATGCGCAAACGCGGAAAAGTGTATGAAACCACCGAGAAATACAGCGTCATGCGGGCCATGCGGGCCATCGAGCGGGCGGATGTCGTTCTCGTGCTCATCAACGGGGAAGAAGGCATTATCGAGCAGGACAAGCATATCGCCGGTTATGCTTATGAGGCCGGTAAGGCGTCTTTGTTTGTCGTCAACAAATGGGATATGGTCGAGAAAGACGACAAGACGATGCAGCAGTTCGAGAAAAAGATCCGGGACCATTTCCTGTTCATGACCTATGCGCCGGTTGTATTCTTGTCGGCCAAGACGAAGCAGCGCCTGCAGAAGCTGCTCCCTGTCGTTAAACATGTGGCCGATCAGCATTCGCTTCGCGTGCAGACGCATCTGCTTAACGATGTCATATCCGATGCGATTGCAATCAACCCTCCTCCAACGGATAAGGGAAGAAGATTGCGCATTAACTATTCAACACAGGTGGCGGTCAAGCCGCCGACCATGGTCGTATTCGTCAACGATCCGGAATTGATGCACTTCTCATATGAGCGTTACCTTGAGAACAAGATTCGGGCCGCTTTTGACTTTGAAGGTACACCCATCAGGATATTTACTCGAAGAAAGTCTGATGAGAGTTAG	MARPVVAIVGRPNVGKSTIFNRLIGDRLAIVEDKPGITRDRIYGSAEWNGKAFSVIDTGGIEIDGDDMILKSIRMQAELAIEEADVIVFMCDAKTGVTQSDEEVAQILFRSGKPVILSVNKVDNLKRADDIYEFYSLGFGDPVGISGSHGTGIGDLLDVVVENLPELEDDEYDEDVIRVALIGRPNVGKSSLVNAILGEERVIVSDVAGTTRDAIDTPFEKDGQRYVLIDTAGMRKRGKVYETTEKYSVMRAMRAIERADVVLVLINGEEGIIEQDKHIAGYAYEAGKASLFVVNKWDMVEKDDKTMQQFEKKIRDHFLFMTYAPVVFLSAKTKQRLQKLLPVVKHVADQHSLRVQTHLLNDVISDAIAINPPPTDKGRRLRINYSTQVAVKPPTMVVFVNDPELMHFSYERYLENKIRAAFDFEGTPIRIFTRRKSDES				NA	NA	NA	NA	NA
AK002_02273	627	plsY	COG0344	Glycerol-3-phosphate acyltransferase	TTGATTCTGGAGATCGTAGCGATTGTAGTTTGTTATTTACTTGGTTCGGTGAGTTTTAGCGTACTGCTTGCCAAAATCCTGAAAGGGATCGACATTCGTCAGCATGGCAGCGGGAACGCCGGGGCAACCAATACCCTTCGCGTCCTGGGAAAAGGACCTGCCATTCTGGTGTTGGCTTTGGATGTAATTAAGGGCATCGCTGCGGTTTGGATCGGACGATGGCTCGGGGGAGACAATGCGTGGCTGCCGGGATTATGCGGGATTGCCGCCATCATCGGTCATAATTGGCCTCTTTACTTCCGCTTTCGAGGCGGCAAAGGAATTGCAACCGCCATTGGGGTGCTTGCTACGCTCTGCTTCATTCCAGCGCTTATAGCAGGCATTATCGCCATTCTATCCATTGTTTTTACCCGTTATGTATCTTTGGGTTCCCTTATTTTTGTAGTGCTTACCCCTGTTTTCCTCTTGATCGCGGATTATTCCTGGCCGATCTTTTGGACAAGCTTGATCATATGCGTATTCGCCTTCTGGCGTCATCGCTCGAACATCGTGAAGCTTGTACAGGGACGTGAAAACAAGCTTGGTTCCGGAAAAGGAAAGGACAAAGGAGGGAAGCGCGTTGTCTGA	MILEIVAIVVCYLLGSVSFSVLLAKILKGIDIRQHGSGNAGATNTLRVLGKGPAILVLALDVIKGIAAVWIGRWLGGDNAWLPGLCGIAAIIGHNWPLYFRFRGGKGIATAIGVLATLCFIPALIAGIIAILSIVFTRYVSLGSLIFVVLTPVFLLIADYSWPIFWTSLIICVFAFWRHRSNIVKLVQGRENKLGSGKGKDKGGKRVV	PGPT0024375_1417	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
AK002_02274	1041	gpsA	COG0240	Glycerol-3-phosphate dehydrogenase [NAD(P)+]	TTGTCTGACAAAGTCGCTGTTCTGGTGGCAGGCAGTTGGGGAACCGCTTTGGCAAGTGTTCTCGCTTCGAATGATCTGGATGTTGTCGTCTGGACGAGAACGGAGGAACAGACCCGTGAAATCAACGAACTGCATACCAACAACCGTTATTTGCCCGGGGTGGAGTTATCTTCGAACATTCGCGCCACGACCGATATGGAAGAGGCGGTCTCCTCGGCTGCTGCCGTGGTTATCGTTGCACCATCGTCCGCGATGCGGGAGGTTTCGGGCCAGCTGAAGCAGTATTGGAGCGAAGATATGCTGGTGATTCACGCAACCAAAGGATTCGAGATTGAATCCCTGAAGCGGATGTCGACCGTCATATCCGAAGAGCTGGGCTGCGAGGAAGGTCGCGTAGTCGTACTATCAGGACCCAGCCATGCGGAGGAAGTGGTGAGACGCTGCCCTACAACGGTCGTTGTGGCATCCTTGGACGCCAAGGCGGCTGCCGCCGCCCAGGACCTGTTTATGAACACGTATTTCAGAGTGTACACGAACCGGGATATGATCGGCGTGGAATTGGCCGGAGCGCTGAAGAATATTATCGCTTTGGGCGCCGGCATGTCCGACGGATTGGGCTTCGGCGACAACGCCAAGGCGGCGCTTATTACGAGGGGATTGGCAGAAATTTTGCGAATCGGCATGGAGTTGGGCGCGAATCCGCTGACGTTTGCCGGGCTTGCCGGGATCGGCGACCTCGTGGTTACCGCTACGAGCCAGCACAGCCGGAACTGGCGTGCGGGATCGATGCTTGGTCAGGGCAAGAAGCTTGATGAGGTTCTCGCATCCATGGGGATGGTGGTGGAAGGAATACGCACGACCAAAGCCGCGCATGCCATTTCCGAGAAATACGGAGTGCAGATGCCGATTGCCGACCAGCTGTACCATGTGTTGTTTAAAGACCGGAATCCCCGCGTCGCCGTGGAAGCCCTAATGGGCCGGGACCCCAAGACCGAGATGGAAATGATGCCGCTCGAGACTTGGGAGCAATGGCACACCTAG	MSDKVAVLVAGSWGTALASVLASNDLDVVVWTRTEEQTREINELHTNNRYLPGVELSSNIRATTDMEEAVSSAAAVVIVAPSSAMREVSGQLKQYWSEDMLVIHATKGFEIESLKRMSTVISEELGCEEGRVVVLSGPSHAEEVVRRCPTTVVVASLDAKAAAAAQDLFMNTYFRVYTNRDMIGVELAGALKNIIALGAGMSDGLGFGDNAKAALITRGLAEILRIGMELGANPLTFAGLAGIGDLVVTATSQHSRNWRAGSMLGQGKKLDEVLASMGMVVEGIRTTKAAHAISEKYGVQMPIADQLYHVLFKDRNPRVAVEALMGRDPKTEMEMMPLETWEQWHT	PGPT0024330_706	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
AK002_02275	276			hypothetical protein	ATGAGCAAAAGCTTTCACAAGGATGTACTGAATGCGATTAACAAGAAAAGCGGAAAGAAAATTTCTTCAGGGGCTGTCAATAAGCTGGCTAGCACGGTTAAGCCGTCTACTATGCAAAATGAAGCCCAGCTCCGCCAGCTGATCAAGCAGGTATCTGCTATGGCGAACATACCTGTCAGCGAGGACACGATTCAGGAAATTGTCGGAGCGGTGAAGAAGAGCGGCATGAATCCGAGCAATATGGAAGCCTTGATGAAAATGATGATGAACAAATAA	MSKSFHKDVLNAINKKSGKKISSGAVNKLASTVKPSTMQNEAQLRQLIKQVSAMANIPVSEDTIQEIVGAVKKSGMNPSNMEALMKMMMNK				NA	NA	NA	NA	NA
AK002_02276	180			hypothetical protein	ATGGATCCGATGCAAAAGATGTGGCTGTCCCTTGTCGCATTATTGATTATGGCGCTGTCCGTCATCGTGGTTACGCTTGCGCGAAGCAAGACCAAAGGTTTTCTGCGCGGCACGCTATCGTTTGTGGCCTTTATGATGATGATTTTCGGTTTTATTATCGGACTGGCTTCCATCATTTAA	MDPMQKMWLSLVALLIMALSVIVVTLARSKTKGFLRGTLSFVAFMMMIFGFIIGLASII				NA	NA	NA	NA	NA
AK002_02277	591			hypothetical protein	ATGACGCTGAATGATCTGCCGGAATTGGAGAAGGCGTTAGCTACTGCCATTCACAAACTGAATCAGGCGCCTGTCGCTTGGCTGCTGGGGGGAAGCTGCTGCTTGCTCCTTCAGGGCGTAGAATTAGGCAAGCCGCCGAGGGATATCGATATTTACGCCGATGCAGGGGGGATTCAGCCGCTGCATGAGACGCTGGCCCTTCTGGCAGTAGACGCTCCCCGACTCGATCAGGAAGGGATATATTCTTCCATTCTGAGCCACTATGAATTAGAGAAAGTCCCGATTGAACTTGTAGGCGGATTTGAAGTGAATTCGGAGGGTTCCTCCTATCGCGTTGAAATCGATCAATTGCTCTATCCTGCAGCGCCAGCGCGTCACATACGGGACGTCACGGTACGGCTGATGCCGTTATCCCACGAACTGGTGTTTAATGTGCTTCGAGACAGACCGGATCGTTACGTTGCCATTTCGGAGGCGATATTGAGGGATATGAACCAACATTTGCCGCTGCTTCAGCGGTTGTTAAGCCGAAACCGGTTGAGCGAGGAACATCGGATGGTATTGAAGCGATTAATCGGACTACAGCCATAG	MTLNDLPELEKALATAIHKLNQAPVAWLLGGSCCLLLQGVELGKPPRDIDIYADAGGIQPLHETLALLAVDAPRLDQEGIYSSILSHYELEKVPIELVGGFEVNSEGSSYRVEIDQLLYPAAPARHIRDVTVRLMPLSHELVFNVLRDRPDRYVAISEAILRDMNQHLPLLQRLLSRNRLSEEHRMVLKRLIGLQP				NA	NA	NA	NA	NA
AK002_02278	360	nqrF		Na(+)-translocating NADH-quinone reductase subunit F	TTGGAGTACGAGGTATTATTTCTGCCGGATCAGAAGAAGGTCAAGGTTCGTCCGAACACGAATGTGCTGGATGCCTCGCGTCGTGCCGGTGTACGCATTCCGACCCGTTGCGGAGGCAAAGCAGGCTGTCTAATGTGCAAAATCCTGGTACCGGATGAGGAACGCGGACATTGCTCTGCTCCTGAGACCAAGGAAATCAGGAAGCTGGGAACGTCGATGATGGAACAAGGCTACCGGTTATCCTGCCAGACGAGGATTACGAGCCATTTGAAGGTGATAATCCCCGAGGATCCCCTTAAAGCCGCGATACGCAAGCAGCTGGAGGCAGCGAGGAACCGGGAGTCCGATGACTTTATTTAA	MEYEVLFLPDQKKVKVRPNTNVLDASRRAGVRIPTRCGGKAGCLMCKILVPDEERGHCSAPETKEIRKLGTSMMEQGYRLSCQTRITSHLKVIIPEDPLKAAIRKQLEAARNRESDDFI	PGPT0006786_87	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0006786-fdx|cndB-K04755
AK002_02279	759			hypothetical protein	TTGAGTATGAACACTTGGATGACCCAAGCGGCTGGCCGTACGAAGCGGATGTCTGCCGTCTTAGTCCTGGTGCTGTTTCCGATGTTGCTGACAGGTTGTCTATATCCTGACGAGAAGCTGCAGGAGAACAAGGTTTCCTATAGGGAAAGTGTCAAACGGATTCAGTCGGCCGTGGACGATTTTTATCAAGAGCAAGGAATTCTGCCGATCATTACGGCAGGCGCGGAAATTCCGAAGTATGAGAAATACCGGGTCGATTTGGATCAGCTGAAGGGCCGAGGATATATCGACCAAATTCCGGATACGGCTTTCGAGAAAGGCGGCAGCGGTTATTTTCTCATTATTAATGAGGAAACCGAACCCACCGTGAAGGTCATGGACTTAACAACGGCTCAGAAGGTGAATGACGTTCAGCGAGCCGTGAATCTGTACAAAATGGCGAATGAAAACGCCCTTCCGGCAGGGGAAGCCCTCTACCCGGGTTATACGGCGGTGGATTTGTCGAAAACCGAGGCCAAATCCCTTAAGTTAATGAGTGTATACTCGGGCCAGGAAATGCCTTTTATGATGGATGAAGAGGGCACCGTTTACGCCGATTATGCCTTTGATATTATGCAGGCTATCCAGAAAAACGGCTCCGAGCCCAAAGAAGGAGAGGATTTACGGGTGTTTCTGGAGAAGGAATCCTATTATGTACCCGTAAAATCCGTACCCTATGCATGGAAGGACGGGCAGCCTATGGCTCAGCCCCTATCCTAA	MSMNTWMTQAAGRTKRMSAVLVLVLFPMLLTGCLYPDEKLQENKVSYRESVKRIQSAVDDFYQEQGILPIITAGAEIPKYEKYRVDLDQLKGRGYIDQIPDTAFEKGGSGYFLIINEETEPTVKVMDLTTAQKVNDVQRAVNLYKMANENALPAGEALYPGYTAVDLSKTEAKSLKLMSVYSGQEMPFMMDEEGTVYADYAFDIMQAIQKNGSEPKEGEDLRVFLEKESYYVPVKSVPYAWKDGQPMAQPLS				NA	NA	NA	NA	NA
AK002_02280	1479	spoIVA		Stage IV sporulation protein A	TTGGAAAAAGTGGACATTTTTAAGGACATTGCCGAACGGACCGGAGGGGACATTTACTTAGGTGTTGTCGGTGCCGTCCGTACGGGAAAATCAACGTTCATCAAGCGGTTTATGGAGACGGTTGTTCTCCCGAACATTACGAACGAGGCGGATCGGGCAAGAGCTGTCGATGAGCTGCCTCAAAGTGCTGCAGGGAAAACGATCATGACGACCGAGCCGAAATTCGTGCCGAACAACGCGGTACAAATCAAGGTTACGGATGGCCTTGAGGTCAACGTAAGATTGGTCGATTGTGTTGGTTATGCCGTTGAAGGTGCTAAGGGTTACGAGGACGAGAATGGCCCGAGAATGATCTCGACGCCATGGTTCGAAGAGCCGATTCCGTTCCAGGAAGCGGCCGAAATCGGAACCCGCAAAGTCATTCAGGAGCACTCCACGCTTGGCGTCGTTGTCACGACGGACGGAAGCATTGCGGAGATCCCGCGAAGCTCTTATGTTGAGGCCGAGGAGCGCGTCATCGAGGAACTGAAGGAAGTCGGCAAGCCGTTTGTCGTTGTCATTAACTCCACGCGTCCCCGCAGCGAAGAAGCCCTTCAGCTGCGCAATGAGCTGGCAGAGAAATACGACATTCCGGTCATGACGCTGAGTGCGGCTACCATGACCGACGATGATGTGACCGGTGTGCTTCGTGAGGTATTGTATGAGTTCCCGGTGCATGAAGTGAATGTCAATCTGCCTAGCTGGGTTATGGTGCTTAACGAGAACCACTGGCTCCGCAGCAACTATGAAAACTCGGTGAGAGATACCGTGAAAGATATCCGCCGTCTGCGTGACGTGGATCGTGTGGTTAGCCAGTTCATGGAATATGATTTCATCAACCACGCCGGACTCAGCGGCATGAATATGGGTCAGGGCGTTGCCGAGATCGATCTCTTCGCGCCTGACGAACTGTATGACCGGATCTTGATGGAGGTCGTGGGTGTCGAGATCCGAGGCAAGGATCATCTGCTGCAGCTGATGCAGGAGTTCTCCCATGCCAAACGGGAATACGATCGCTTCGCCGAAGCGCTTGAGATGGTCAAAACGACGGGGTACGGCATCGCCGCTCCTTCCCTGGCCGAGATGGCGCTTGATGAGCCTGAGCTCATCCGCCAAGGCACCCGCTTCGGGGTAAGATTGAAAGCGACCGCGCCATCCATTCATATGATTCGGGTGGACGTAGAATCCGAGTTCTCGCCGATCATCGGCACGGAGAAGCAGAGCGAGGAGCTTGTGCGCTACCTGATGCAGGACTTCGAGAACGATCCGATCAAAATTTGGGAATCCGACATATTCGGACGCTCGCTGCACTCGATCGTCCGTGAAGGAATCCAAGGAAAAATCGCGATGATGCCAGACAATGCCAGATACAAATTGCAGGAAACCTTGGGTCGCATCATTAACGAAGGCTCCGGCGGTTTGATCGCAATCATTCTTTAA	MEKVDIFKDIAERTGGDIYLGVVGAVRTGKSTFIKRFMETVVLPNITNEADRARAVDELPQSAAGKTIMTTEPKFVPNNAVQIKVTDGLEVNVRLVDCVGYAVEGAKGYEDENGPRMISTPWFEEPIPFQEAAEIGTRKVIQEHSTLGVVVTTDGSIAEIPRSSYVEAEERVIEELKEVGKPFVVVINSTRPRSEEALQLRNELAEKYDIPVMTLSAATMTDDDVTGVLREVLYEFPVHEVNVNLPSWVMVLNENHWLRSNYENSVRDTVKDIRRLRDVDRVVSQFMEYDFINHAGLSGMNMGQGVAEIDLFAPDELYDRILMEVVGVEIRGKDHLLQLMQEFSHAKREYDRFAEALEMVKTTGYGIAAPSLAEMALDEPELIRQGTRFGVRLKATAPSIHMIRVDVESEFSPIIGTEKQSEELVRYLMQDFENDPIKIWESDIFGRSLHSIVREGIQGKIAMMPDNARYKLQETLGRIINEGSGGLIAIIL	PGPT0024770_98	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024770-spoIVA-K06398	NA	NA
AK002_02281	273	hup_2		DNA-binding protein HU	ATGAATAAATCGGATCTGATTACACAAGTAGCTGAATCTACTGAGCTTTCCAAGAAAGATGCAACTAAAGCGGTTGATGCCGTTTTCGATGCAATCTCCGAAGCATTGCAAAGTGGAGACAAGGTACAACTGGTCGGTTTTGGCAACTTCGAGGTTCGCGAGCGTTCCGCACGGAAAGGCCGCAACCCGCAAACAGGTGAAGAAATCGAAATCCCTGCGAGCAAAATTCCTGCATTTAAACCTGGTAAAGCGCTCAAAGACGGAATCAAATAA	MNKSDLITQVAESTELSKKDATKAVDAVFDAISEALQSGDKVQLVGFGNFEVRERSARKGRNPQTGEEIEIPASKIPAFKPGKALKDGIK				NA	NA	NA	NA	NA
AK002_02282	225	mtrB		Transcription attenuation protein MtrB	ATGGAGAACGTTCAGAACGGCGATTATTTTATTGTCAAAGCGCTGGACCATGGCGTGCAGGTAATCGGTCTTACCCGCGGTCAGGATACCCGCTTTCATCATACCGAGAAGCTGGACAAAGGCGAAGTCATCATCGCCCAGTTCACGGATCATACGTCCGCGGTGAAAATACGCGGCAAAGCCGAGATCATGACCAAACACGGGAAGATCGAATCCGGCATCTGA	MENVQNGDYFIVKALDHGVQVIGLTRGQDTRFHHTEKLDKGEVIIAQFTDHTSAVKIRGKAEIMTKHGKIESGI				NA	NA	NA	NA	NA
AK002_02283	579			hypothetical protein	ATGGCGAAACAATACAGAGACGGACAGTATATTGTGGTCCCTGAAAATCCGGTATCCATGTTTTTGTTCAACAGTACGCGCTCGGCGTGGATATGGCTGCTGGTAAGGCTGTATCTCGGTTACGCGTGGTTAACGTCGGGCTTGAAAAAGCTGACAGCCGAAGCCTGGACGGGAAGCGAAGCCGGAGCGGCCATTAAGGGCTTTGTCGGCGGCGCGCTGGCAAAGGCGGAAGAAGGAAAGGACGTCACCGGATGGTATGCTTCTTTCCTTGAAGGGTTCGTGCTTCCCAATGCCAAGCTGTTTGCCTATATGGTGGCCTTCGGCGAGGTACTGGTAGGACTCGGGCTGATTTTGGGACTGCTGACCGGTATTGCCGCGTTTTTCGGCGGGTTAATGAATGCCAGCTTTTTATTCGCGGGCACGGTAAGCTCCAATCCGTTGTTGTTTATATTGGCGACATGGCTGGTGCTGGCCTGGAAAGTCGCGGGCTGGTACGGCTTGGACCGCTGGGCGCTGCCGCTGCTGGGTACGCCTTGGAGCCGCAAGCGCAAGGATAGGGATATTCCGGAACAAGTTTGA	MAKQYRDGQYIVVPENPVSMFLFNSTRSAWIWLLVRLYLGYAWLTSGLKKLTAEAWTGSEAGAAIKGFVGGALAKAEEGKDVTGWYASFLEGFVLPNAKLFAYMVAFGEVLVGLGLILGLLTGIAAFFGGLMNASFLFAGTVSSNPLLFILATWLVLAWKVAGWYGLDRWALPLLGTPWSRKRKDRDIPEQV				NA	NA	NA	NA	NA
AK002_02284	963	menA_1		1,4-dihydroxy-2-naphthoate octaprenyltransferase	ATGGGAATCCGTGCTTTTTTTAAACTGGTGGAAATTCAGACGAAGGTTGCCAGCATGATCCCGTTCCTGTTCGGAACCTTGTATGCGCTGTTTCGTTTTCAGCAGTTCAATGGGTATCATTTTGCCCTGATGCTCGCATCATTGCTGTCGTTTGATATGGCAACAACGGCGATCAATAATTATTACGATTACAAAAAAGCGATTAAAAAGAACGGCTTCGGTTACGAGCAGCATAATGCCATCGTACGTTATAACCTGAAAGAGCCGGCGGTTGTGTCCGTCATCGCTCTGCTGCTGCTGACGGCCGTCGGATCCGGCATAGCGCTGTTCCTGTCCACGGGCTGGTTAATTCTGCTGCTTGGCGGATTGTCCTTCGCCGTAGGGATATTATATTCGTTCGGACCGATTCCGATTTCGCGGATGCCGCTAGGCGAGCTGTTCTCCGGATTGTTCATGGGGTTTGTCATTATCTTCATCTCGGCTTGGATCCATGCTGAGGGCAGCCATCTGGCGGTTATGGATATTCAAGGGAGCGTCCTCTCCCTTCAGGTGAACCTTCCCGAGGTGCTGCTGCTGCTGGTCGTATCGTTGCCAGCCATTCTCGGGATTGCCAACATCATGCTGGCCAATAACATCTGCGACATGGATGAGGATTTGGAGAACAGACGGTATACGCTGCCGGTATATATCGGATTCAAGCATTCGCTGAGACTGTTCCGGCTTCTGTACTGCCTTGCTTATCTGGACTTGGCGGCTCTTCTTCTGATGAAGGTGCACCCTGTGCTGGTTCTGCTGGTGTTCGTCACCATTGTCCCGGTATATAAAAAAGGAGCCGCATTCACCGCACATCCATCCAAAGAGAAAACCTTCGTGATCGCGGTGCAAAATTTCGTGGTCATGAATTTGGCCAGGATCGCGGCGCTGGCTGTGGCCGTGACGTTGACCTCGCTTTCGCTCTTCTAA	MGIRAFFKLVEIQTKVASMIPFLFGTLYALFRFQQFNGYHFALMLASLLSFDMATTAINNYYDYKKAIKKNGFGYEQHNAIVRYNLKEPAVVSVIALLLLTAVGSGIALFLSTGWLILLLGGLSFAVGILYSFGPIPISRMPLGELFSGLFMGFVIIFISAWIHAEGSHLAVMDIQGSVLSLQVNLPEVLLLLVVSLPAILGIANIMLANNICDMDEDLENRRYTLPVYIGFKHSLRLFRLLYCLAYLDLAALLLMKVHPVLVLLVFVTIVPVYKKGAAFTAHPSKEKTFVIAVQNFVVMNLARIAALAVAVTLTSLSLF	PGPT0009395_257	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
AK002_02285	552			hypothetical protein	ATGAAGCATTGGCAATCCGTACAAGCGGTACTCTTGCCTGCGGCGATTGCATTCATCCTGCTTGGCCTGTTGATGGGGTTCCACTCGCAAGCTCGTTATAAGGTCGGTGCTGTGCCCGCGGCGGTACCATACCACAGCCGCGAGTTAAGCGATGCCGGCTTAGTGGATTCCCTGATGAGTCTACCTCTAAATCTTCAGATAAGCCGGGCGGACTATGAAGAAGGCGCTTTGACGCTGGATATCAAATTGAGCGATGCCACGGAAACGGCCTCCGAGGTTTACGAGGACATCGCGAGCATTATGTCCTATTCGTTCGAAGGCACGGATAATGTGAGGCAGCTGTATCTCAGGGTGGTTGCCATCGATCGCTGGGGAGGAAAACGGTATATGCTGCTGGCCTCGAATATGAACAGGGAAGCATGGGATTCACGCTATGCGGAAGTCCTAACCCAGCTGGAGAACGAGGATGTGCCGCCTTCCGTCGCTGCTGCGCTGAACCTGACCTTTACGAATCTTTGGCCAAAGCAGTTCAGCGGCCCTGGAAAGGGGTAA	MKHWQSVQAVLLPAAIAFILLGLLMGFHSQARYKVGAVPAAVPYHSRELSDAGLVDSLMSLPLNLQISRADYEEGALTLDIKLSDATETASEVYEDIASIMSYSFEGTDNVRQLYLRVVAIDRWGGKRYMLLASNMNREAWDSRYAEVLTQLENEDVPPSVAAALNLTFTNLWPKQFSGPGKG				NA	NA	NA	NA	NA
AK002_02286	861			hypothetical protein	ATGAAACCGTATCGCGTACCAGAACTGGCAGAGAAATATATAAACTATGATATGATTCAGAACCACACGGAACTTCCGGGTTTTCCGGATGCCCGTGTTCATTTGTTATACATATTTTTAATGGATTCGGGACGGAATATTGCCGGACACGAAGAATTGTACGCGCTGGTTACCTCACTGGTTCAGGTGGGACTCGATACGCATGAAAGCATCGACGTTACGGAAGGCAATCAAGGAGAGGCAATGATGCGCTCCCGGCAGCTGAAAGTGCTCGCAGGGGATTACTTCAGCAGCCGTTTTTATCAGCTCCTGGCCCTTAAGGGCGAAATTGCCGTCATCTCGCTTCTGAGCAAAGCGGTTAGCGAAGTGAACGTGATGAAGATGAGATTATACGGCAAAATGAAAAAAAACCTGCTGCCTTCTGAAGAATATCTACAGCTAACGGTACAGCTGAATATGCAGCTGTTTCTTTCTTTTACTCCGCTGCTTGAGGTGTCCGTGCAAGAAACATGGGAGAAGCTGCTCAAGGAAATTACGGAATGTGAAACGCTTGTGCAGGAGATGGAACGCTGTGCGACGCCTGACATCGGCAGATGCGGCTACGCGTACTGGCATCTGATCGAGTCGGGGAGCGACGAGGAACGGAAAATGCTGGTGGGCAGAAAAACGGATATGAAGGATTGGCGGAAGCTGATTCTGAAGCATAAGGCTTCGGAGAAGCTGCTGGACAAGCTCCGGGAATCCGTCAGCGCCGTACAGCAGCTGCTGGGAGGCCGCGTGGGTGAGAGCCCGTACGCCGGTATGCTGGACCCGTTTCTGAAACGGCTTAACACATATCGGTCCGTCGTAAGTGAAGGGTAG	MKPYRVPELAEKYINYDMIQNHTELPGFPDARVHLLYIFLMDSGRNIAGHEELYALVTSLVQVGLDTHESIDVTEGNQGEAMMRSRQLKVLAGDYFSSRFYQLLALKGEIAVISLLSKAVSEVNVMKMRLYGKMKKNLLPSEEYLQLTVQLNMQLFLSFTPLLEVSVQETWEKLLKEITECETLVQEMERCATPDIGRCGYAYWHLIESGSDEERKMLVGRKTDMKDWRKLILKHKASEKLLDKLRESVSAVQQLLGGRVGESPYAGMLDPFLKRLNTYRSVVSEG	PGPT0007531_46	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007531-hepST-K00805	NA	NA
AK002_02287	759	menG	COG2226	Demethylmenaquinone methyltransferase	GTGGATAATCAAACAACCAAGTTAGACGCAATCAAGCATGACGGCAAAAATCCGAAAGAGCAATATGTCCATTCCGTCTTCGAAAGCATATCGGGCAAATACGACTTGATGAACGACATTCTCAGCTTTCGAAGACATAAAGCCTGGCGCAAGTATACGATGAAAAAGATGAACATGCGCCATGGCGATACGGCCATCGACCTATGCTGCGGAACCTGCGACTGGACAATTAGCATGGCCCAGGCAAGTGAATCCGGACACATAGTCGGACTCGACTTCAGTGAGGGGATGCTGAACGTCGGCCGGGAGAAGGTTGCCAAGCATGGACTCGAACCACAGATCGAGCTGGTTCAGGGAAACGCCATGAGCCTGCCGTTCGAAGATAACCAATTCGATTACGCGACGATCGGTTTCGGTCTTCGCAATGTGCCGGATTACATGCAGGTTCTGCGTGAGATGAAACGCGTGGTTAAACCCGGCGGGATGGTGGTATGTCTCGAACTGTCCAAGCCGACTTGGCAGCCGTTCAAAGGCATTTATTATTTTTATTTCCAACAAGTGCTGCCTCGGATGGGGAAACTGGTAGCCAAGCGTTATGAGCAGTATAAATGGCTGCCCGAATCGCTGGCTTTGTTCCCGGGACGAGAGGAGTTAGCCGAAGCTTTCCGTCAGACCGGACTTCAACAGGTTCAGGCCTTTCCCTTGACTGGTGGCATAGCAGCCTTGCATATTGGGATCAAGGAGAATCTGGATGTTTAA	MDNQTTKLDAIKHDGKNPKEQYVHSVFESISGKYDLMNDILSFRRHKAWRKYTMKKMNMRHGDTAIDLCCGTCDWTISMAQASESGHIVGLDFSEGMLNVGREKVAKHGLEPQIELVQGNAMSLPFEDNQFDYATIGFGLRNVPDYMQVLREMKRVVKPGGMVVCLELSKPTWQPFKGIYYFYFQQVLPRMGKLVAKRYEQYKWLPESLALFPGREELAEAFRQTGLQQVQAFPLTGGIAALHIGIKENLDV	PGPT0009535_934	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
AK002_02288	873	plqA		4-hydroxybenzoate solanesyltransferase	ATGTTTAAGAAAATAGGAACTTATCTTGAAATGATTAAAGTGGAGCATACGCTGTTTGCTCTGCCTTTCGCTTTTATGGGGGCGATTCTAGGATCGGCCGTCGTGTTTGACCGATTACCGTCCTGGGGAGATATCGGCTGGATCTTTCTTGCCATGTTCGGTGCGCGAAGCGCAGCTTTCGGACTCAACCGGCTCACCGACCAACATATCGATGCCAAGAACCCCCGCACGGCTAATCGCGCCATTCCGGCAGGCCTGCTGAAGCCGCTGGAGGTCATCATATTTATTATTCTGTCTTTCGCCGTGTTTTTCTGGGCTACTTACATGCTGGACCCGTTTGCTTTCCGTTTGCTGCCTATCGCTATTTTCATGCTTATCATTTATTCCTTTACCAAACGGTTCACATGGTTATGCCATCTGGTGCTCGGCCTTACAACGGCGCTTGCCCCGCTGGGCGGATGGGTTGCGGTAACCGGTCAAATCGACTGGAAGGCGATGGTGTTTTATATCGCGCTTGCGTTTTGGACGGGCGGATTTGATATCGTTTATGCTTGCCAAGACGAGAAGTTTGATGCAAAAGAAAGGCTGTACTCGATTCCTTCCCGGTTCGGCCTGCACAAAGCGCTTTGGTTCGCTCGCGGGTTCCACGTCGTTACGGCTGTCGGTTTTATCGTTCTTTTCTTTGTGACGCCGGTGGGCTGGTGGTATTTGGCGGGCATGGTGATCGCTTGCGGAATTTTGTTCTATCAGCACTACATCTTGTCGCCAAATGATATGAGCCGCCTGCAAACCGCGTTCTTTACCATGAACAGTACGCTGAGCATCATTCTGTTCGTATTCACTCTCATTGATTTGGTGGTGCGTTACATCTGA	MFKKIGTYLEMIKVEHTLFALPFAFMGAILGSAVVFDRLPSWGDIGWIFLAMFGARSAAFGLNRLTDQHIDAKNPRTANRAIPAGLLKPLEVIIFIILSFAVFFWATYMLDPFAFRLLPIAIFMLIIYSFTKRFTWLCHLVLGLTTALAPLGGWVAVTGQIDWKAMVFYIALAFWTGGFDIVYACQDEKFDAKERLYSIPSRFGLHKALWFARGFHVVTAVGFIVLFFVTPVGWWYLAGMVIACGILFYQHYILSPNDMSRLQTAFFTMNSTLSIILFVFTLIDLVVRYI	PGPT0009515_1994	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009515-ubiA-K03179	NA	NA
AK002_02289	603	ubiX	COG0163	Flavin prenyltransferase UbiX	ATGAAATCCATGCGCAGAAAGAGCTGGGTTGTCGGCATTACGGGGGCCAGCGGCAGCATATACGGGGTTCGTCTCACGGAGACCCTGCTCTCGCTGGGCTACGATGTGCAATTGATTATCTCTAATGCGGGCTGGCGCGTGCTGAAGGAGGAAATGGGCTTTCAGGCGGGCAACCGTGAGGAAGTGCTGGCCGAGAAATTCGGCGGTTTCGAGGGGAACGTGATATACCATCCGATCTCCGACATCGGAGCTACGATTGCCAGCGGCTCTTACCTGGTGGAAGGCATGATTATCATGCCATGCTCGATGGGCACGTTATCCTCGGTGGCACACGGATCTTCCGATAACCTGATGGGCCGCGCCGCCGACGTCATGATGAAGGAGGGCCGTCCCCTGGTGCTTGTCCCGAGAGAAACGCCGCTGCATGCCATTCACCTGGAGAACATGCTGACGCTGGCCAAGCTTGGGGTCAAAATCATTCCGGCGATGCCAGCCTTCTATCACGGACCGAAAACGATTGATGATATCGTCCATTTTTTGGTCGGCAAGGTATTGGACAGCTTACGCATCGAACATGAATTGTACACCAGATGGGGTGACTAG	MKSMRRKSWVVGITGASGSIYGVRLTETLLSLGYDVQLIISNAGWRVLKEEMGFQAGNREEVLAEKFGGFEGNVIYHPISDIGATIASGSYLVEGMIIMPCSMGTLSSVAHGSSDNLMGRAADVMMKEGRPLVLVPRETPLHAIHLENMLTLAKLGVKIIPAMPAFYHGPKTIDDIVHFLVGKVLDSLRIEHELYTRWGD	PGPT0009565_1154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0009565-ubiX|bsdB-K03186	NA	NA
AK002_02290	936	hepT_2	COG0142	Heptaprenyl diphosphate synthase component 2	ATGGACGTTATCGAAAGGGAGCTCTATCTCAGCGTCGAAGGCGACAGTCCCGAGCTGACAGAGACTTCCCTGCATCTGCTTAGAGCAGGCGGCAAGCGCCTCCGTCCCGTTTTTGTCCTGATGGGCGGCAAATTCGGCGACTATGACATTGATAAGCTGAAGCATGTGGCCGTGCCGCTGGAGCTGATCCACAGCGCTTCCCTCGTTCATGACGACGTGATTGACGATGCGGACACGCGGCGCGGCAAACCCACGGTGAAGGCCAAGTGGGACAACCGGATCGCCATGTATACCGGCGATTATATTTATGGTAAGGCACTCCAGTTGACGACTCACCTGAAACAGCCTGAAATTCATCAGATTCTGGCCAAGGCCATGGTTGAGATGTCCATTGGCGAAATGGAGCAGATTCGTGATTTCTTTAATACCGAACAGGACGTCAGAAGATATCTTCTCCGCATTCGCCGCAAGACGTCGCTCCTGATTGCCGTCAGCTGCCAGCTCGGCGCGTTGGCTGCGGATGCGGACCGCAAGGTGGCCAACAGCCTGTATCGATTCGGATATAACGTCGGCATGGCATTTCAGATTCAGGACGATCTCCTGGATCTGTGCGGGACGGAGAAGCAGATTGGCAAGCCCCCGGGGAGCGATATGAGACAGGGAAACATTACGCTGCCCGTCATTTTTGCTCTCGAGGACAGCCAGCGGAGAGAACCGCTGCTGCAGGAGCTGGAACGGATTCATGCACTAAATGGCCAGTGCGATGTGTCGGGCGCCGTAAAGCTTGTAACCTCAAGCGAAGGCATATCGAGATCCGAGGCGCTGGCTGATCGGTATATAGGTAAAGCATTGGCTGCATTGGATACGCTGCCTGACATCAAGACCAAAAAACAGCTTAGAGATATCGCAAATTTTATTACAAAGCGGTCATATTAG	MDVIERELYLSVEGDSPELTETSLHLLRAGGKRLRPVFVLMGGKFGDYDIDKLKHVAVPLELIHSASLVHDDVIDDADTRRGKPTVKAKWDNRIAMYTGDYIYGKALQLTTHLKQPEIHQILAKAMVEMSIGEMEQIRDFFNTEQDVRRYLLRIRRKTSLLIAVSCQLGALAADADRKVANSLYRFGYNVGMAFQIQDDLLDLCGTEKQIGKPPGSDMRQGNITLPVIFALEDSQRREPLLQELERIHALNGQCDVSGAVKLVTSSEGISRSEALADRYIGKALAALDTLPDIKTKKQLRDIANFITKRSY	PGPT0025040_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
AK002_02291	453	ndk	COG0105	Nucleoside diphosphate kinase	ATGAGGCCTATGGAACGTACTTTTTTGATGATTAAACCCGATGGTGTGCAGCGTGGGCTGATCGGCCGAATCGTCGGCCGTTTGGAGGATAAAGGATTCAAGCTGGTTGCGGGCAAGTTTATGCAGATTTCGGACGAGCTGGCCAAGCGCCATTATGCGGAACATGAAGGCAAGGATTTTTTCGATAACCTGGTAGGGTTCATCACGTCAGGACCGGTGTTTGCGATGGTTTGGGAAGGTGACGACATCATCGCTTTGTCTCGCCAGGTCATCGGCAAAACGAATGTGAAGGATGCGCTGCCAGGTACGATACGCGGGGATTTTTCAGCTCATACGCCGCATAATCTGATTCACGGATCGGATTCGCCTGAAAGCGCGCAGCGCGAGATCGCCAATTTTTTTGATGATCGGGAATTGGTTGAGTACAACAAGACGCTGTCCCCTTGGCTGTAA	MRPMERTFLMIKPDGVQRGLIGRIVGRLEDKGFKLVAGKFMQISDELAKRHYAEHEGKDFFDNLVGFITSGPVFAMVWEGDDIIALSRQVIGKTNVKDALPGTIRGDFSAHTPHNLIHGSDSPESAQREIANFFDDRELVEYNKTLSPWL	PGPT0021210_2083	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
AK002_02292	804	cheR		Chemotaxis protein methyltransferase	ATGACGAAACATGAACCAGTACTGGAGGATCCCGATTATATCGGCTTTGTTCGCAGCATCGAGCGAAGCACGGGGATCAACCTGGCCGATTACAAGGAAGCGCAGATGAAGCGAAGGCTGACGACGCTGCGCATGAAGAAGGGGTTTGAAACCTTTTCGGCCTTTTACGATGCGATGATGAAGGACAAGCCGCTCTTTCATGAGTTTTTGGACCGGATGACAATTAACGTCTCGGAGTTTTGGCGCAACCCGAACCGGTGGGAAGTGCTCCGGGACAAAATATTGCCGGAGCTGGCCAAGCAGAATCCCGGGGTGTTGAAGGTTTGGAGCGCTGCCTGCTCGACCGGCGAAGAGCCCTATACGCTTGCCATGATCCTGGCGGAACAAAACATGCTGGGCCGGGCGCGCATCATGGCGACCGATATCGATGACGGTGCGTTACATAAAGCGAAGGAAGGTCTGTATGTCGAGAGGTCACTCAAGGACGTCCCTTCCGGAGTAGCCGCCCGCTATTTTAAGGAAGAGGGCTCGCTGTATCGATTCAGCGAGAACTTGAAGAAGGAGGTCTCCTTCCACAAGCAGAATCTGCTCACGGACCGGTTCGAAGCCGGGCATGATCTGATAGTCTGCCGGAACGTGATGATTTATTTCACGGAAGGGGCCAAGCACAAGCTGTATCAGAAATTTGCCGCGAGCCTGAAACCGGGCGGATTTCTGTTTGTGGGCAGCACCGAACAGATCTTTAATCCGGGACAGTACGGCCTGGAAAGCAACGAGACCTTTTTCTACCGTAAAATTCAATAG	MTKHEPVLEDPDYIGFVRSIERSTGINLADYKEAQMKRRLTTLRMKKGFETFSAFYDAMMKDKPLFHEFLDRMTINVSEFWRNPNRWEVLRDKILPELAKQNPGVLKVWSAACSTGEEPYTLAMILAEQNMLGRARIMATDIDDGALHKAKEGLYVERSLKDVPSGVAARYFKEEGSLYRFSENLKKEVSFHKQNLLTDRFEAGHDLIVCRNVMIYFTEGAKHKLYQKFAASLKPGGFLFVGSTEQIFNPGQYGLESNETFFYRKIQ	PGPT0015670_3936	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
AK002_02293	1170	aroC_2	COG0082	Chorismate synthase	ATGAGCTTACGGTTTTTAACCGCTGGGGAGACGCACGGGCCTCAGCTGACAACTATAATCGAAGGGCTTCCAAGCAACTTGGAGCTTGATTTCGACGCACTGAACTTTCAGCTCCATCGTAGACAGAAGGGCTACGGCCGGGGACGCCGCATGCAGATCGAGAAGGATACCGCGCAAATCCTTGGCGGTGTGCGTCACGGTTATACAACCGGTGCGCCGCTCGCGCTGGTCGTCCAGAATAACGATTGGAAGCATTGGCAGAACATTATGAACGTGGAGCCGATAGAGGGCAACGACGAGGCGAAGAGACGGGTACATCGTCCAAGACCGGGTCATGCCGACCTGAACGGCGGATTGAAGTACAACCTGAAGGATCTGCGTAACGTGCTGGAACGCTCCAGTGCCCGTGAAACCACGGTCCGCGTTGCCGTTGGCGCTATCGCAAGACAATTCCTGGCGCAGTTTGGCGTCAAAGTGGCTGGCCAGGTCATCCGGATCGGCGAAATCGAGGCTCCCCCGCACCATCTTTCGATCGATGAGCTGATCAAGCGTACGGAAGCTTCTTCGGTTCGCGTGGTGGACGAAGAGACCGAGAAGAAGATGGAAGCCTACATAGACGAGATCAAAAAAGAAGGCGACTCCATCGGCGGCATCGTGGAATGCATCATCGAAGGATTGCCGGTCGGATTGGGCAGCCATGTCCAATATGACCGCAAGCTGGATGGACGCATCGCGCAGGGCGTGATGTCGATTAACGCCTTTAAGGGCGTTGAGGTCGGCATCGGATTCGAAGCAGGCGAGCTGCGCGGCTCCCAGGTGCATGACGAGATTATGTACAGCGAGGAACGCGGATACCACCGTGCGACCAACCGCTTGGGAGGTTTCGAGGGCGGAATGACCAACGGCATGCCGATCGTCGTGCGCGGCGTCATGAAGCCGATTCCGACGCTGTACAAGCCGCTTCAAAGCGTGGATATCGACACGAAGGAAGCCTTTACGGCTCAGGTTGAACGCTCGGATGCTTGTGCGGTTCCGGCAGCCAGCGTCGTGATGGAGCACGTTGTGACCTGGGAGGTAGCGAAGGCGTTCCTTGAGAAGTTCGGCGGCGATTCGATGGAGGAAATCCATACGAATTACCAAAACTACCTGAAACAGCTGGAGAACTACTGA	MSLRFLTAGETHGPQLTTIIEGLPSNLELDFDALNFQLHRRQKGYGRGRRMQIEKDTAQILGGVRHGYTTGAPLALVVQNNDWKHWQNIMNVEPIEGNDEAKRRVHRPRPGHADLNGGLKYNLKDLRNVLERSSARETTVRVAVGAIARQFLAQFGVKVAGQVIRIGEIEAPPHHLSIDELIKRTEASSVRVVDEETEKKMEAYIDEIKKEGDSIGGIVECIIEGLPVGLGSHVQYDRKLDGRIAQGVMSINAFKGVEVGIGFEAGELRGSQVHDEIMYSEERGYHRATNRLGGFEGGMTNGMPIVVRGVMKPIPTLYKPLQSVDIDTKEAFTAQVERSDACAVPAASVVMEHVVTWEVAKAFLEKFGGDSMEEIHTNYQNYLKQLENY	PGPT0012875_1364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
AK002_02294	1095	aroB	COG0337	3-dehydroquinate synthase	ATGAGGACATTACATGTGGAACTGGGAGAGCGTTCCTATCCGATTTATATCGGTGCGGGGATTCTGAATACCCTCGGCGAGCTGAGCGCGAAGCATGGCATAACACGCAAGAGCCCGCATCTGATCGTAACGGATGATCAAGTGGCGCCTCACTATTTGGCGCAAGTGGAGGAGCAGCTGAAATCGGAAGGGTACACGGTCATTTCCCATATCGTCCCTTCCGGCGAGTCCTCCAAATCCCTACAGGTCTATGAAGAGGTTATGACCACGGCCATCAACGGCAAGCTGGACCGCAGCTCGGCAGTCTTCGCGCTGGGTGGAGGCGTTGTGGGCGATTTGGCCGGATTCGTCGCGGCGACATACATGCGCGGCGTGACGTTTGTTCAGATCCCGACCACGATCCTTGCCCATGACAGCAGCGTAGGCGGCAAAGTGGCGGTGAACCATCCTCTGGCCAAAAATATGATTGGCGCTTTTCATCAGCCCGTCATGGTGGTTTATGACGTGAATACGCTGATGTCGCTGCCGGCGCGCGAGGTGTCTTCTGGCCTTGCGGAAATGGTGAAGCATGGCTTGATCCTGGACCGGGATTTTGCCTACTGGTGCCGTGAGAACGGCTCTAAGCTGCAGAGCCTGGAGCCGGAAGCTTTGATCTACGGCTTGGAGCGCGGCTGCGCGATCAAGGCGGACGTGGTATCCCAGGATGAGCGGGAAGGCGGCTTGCGCGCCATTCTTAATCTGGGGCATACCATTGGCCATGCCATCGAAGCCGTTGGCGGTTACGGCCGATTCTTGCACGGCGAGGCGATTGCAATCGGCATGGCGGGATCGGCCCGACTTGCTGAGAAGCTTGGCAGACCCGCGGGTCTGCACAAAGAGACGGTGAGCATGCTGAAGGCGGTGAATCTGCCGGTAATCTTGCCGGATGACGTCTCGGTCGATCGCATCATGGATGCCATGCAGCATGATAAGAAGTTCGCCGAGGGGCAAATGGTATTTATCGTACCGGAATCCATCGGTTCCGTCAGCATCGTTAAGGATGTACCGGTAGAAGCTGTTCGATCCGTGGTCGAACAGTTGAAGGGAGAGGGATAG	MRTLHVELGERSYPIYIGAGILNTLGELSAKHGITRKSPHLIVTDDQVAPHYLAQVEEQLKSEGYTVISHIVPSGESSKSLQVYEEVMTTAINGKLDRSSAVFALGGGVVGDLAGFVAATYMRGVTFVQIPTTILAHDSSVGGKVAVNHPLAKNMIGAFHQPVMVVYDVNTLMSLPAREVSSGLAEMVKHGLILDRDFAYWCRENGSKLQSLEPEALIYGLERGCAIKADVVSQDEREGGLRAILNLGHTIGHAIEAVGGYGRFLHGEAIAIGMAGSARLAEKLGRPAGLHKETVSMLKAVNLPVILPDDVSVDRIMDAMQHDKKFAEGQMVFIVPESIGSVSIVKDVPVEAVRSVVEQLKGEG	PGPT0012865_1847	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
AK002_02295	375	aroH	COG4401	Chorismate mutase AroH	ATGATGAATCGGGGAATCCGGGGGGCGACAACCGTCACCCGCAACGATGAGCAGGAGATCGTACAGGAGACGCTGCGACTGCTGGAAGAGATGGTGAGACGCAACGAGCTGCAGCCTGAATATATCAGCAACATATGGATTACGATGACGCAGGATTTGGATGCAACGTTCCCGGCCAAGGCGATACGCCAGCTGGAGGGCTGGGATCTCGTCCCTTTGATGTGTTCGGTTGAAATCCCCGTTCAGGGCAGTTTGCCGCGCTGCATCCGGTTTATGGTGCAGGTCAATACGGACAAAAGCCAGAGCGAGATCAAGCATGTGTATTTGAACGAAGCCAAGCGGCTGCGTCCGGATTTATCGGGCTCAAACGCTTGA	MMNRGIRGATTVTRNDEQEIVQETLRLLEEMVRRNELQPEYISNIWITMTQDLDATFPAKAIRQLEGWDLVPLMCSVEIPVQGSLPRCIRFMVQVNTDKSQSEIKHVYLNEAKRLRPDLSGSNA	PGPT0021220_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
AK002_02296	1554	trpE	COG0147	Anthranilate synthase component 1	ATGGCGAATCCATCAATGGAGCAAGTGGTGGCAATGGCAGGTGAATACAACCTGATTCCGGTAGCGATCAGACTGTTAGCCGATATGGAAACCCCGATTCGCATTTTTCAGCGGTATGCGGAGCGGAAACGGGCATTTTTACTAGAGAGCGTTGAGGGCGGCGTACAGTGGGCACGGTATTCGTTCATCGGAACAGACCCCTTCTTAATGATAACGGGTAAAAAAGGCAAGATTGAGATTGAAAAGAACGGGGAGCGTTCCTTGCTGGAAGGCAAGCCCGTCGAGGAGCTTAAAGCGCTGCTGCGTACGTACCGCAGCCCGCAGCTGAAGGAGATGCCTCCTTTTACCGGAGGGGCCATCGGATTTTTCGGATATGATCTGCTTCAATATTACGAGAAGCTGCCTGCACACGCGATGGATGATCTCGGGATGGATGATATCCGGTTCATGTTTTGCGATCAAGTCATTGTCTTCGACCACGTGAAGCAGCAGATCATGCTGGTCGGGAACGTGCACGTGAAACCTGGAGATTCGGACGACACCATCCGTCAGAGCTATATGGATGTATGCCGTACCCTGGAAGCGGCGGCCGAACAGCTTCAGGATCAGGGGCCGCGGGAGAACGTAAACTCCAGAGGCATTCCGGCCGATGTCGACATGGGCGATATTAAATCCAACATGACCAAAGAGAAGTATCTCTCCAATGTGGAGCAAGCGAAGGAATATATTCGTGCAGGCGACATTTTTCAAGTTGTCTTGTCCCAGCGCTTCCATATCGAAACCGATGTATCGCCGCTTCACGTCTACCGGGTGCTGAGAACGCTGAATCCTTCGCCGTACATGTATTACCTCAAAATGGACGACGACATTATCGTGGGGACGTCTCCTGAAGCCTTGGTGAAGGTGGAAGGACGAAGGCTGGAAACAAGACCGATCGCGGGGACAAGGCCGAGGGGCAGCGACGAAGCCGAAGATCAGGCGCTGGCGGATGATCTGCTGCAGGACGAGAAGGAACGCGCGGAGCATTTGATGCTGGTGGATCTCGGCCGCAACGACCTGGGCCGCGTATCGGAGTTCGGCACGGTGAAATGCGATACGTTCATGGAGATTGAAAAATACTCCCACGTGATGCATATGGTATCCAGCGTATCCGGCCAGCTGAGCGAGAATAAGGATTTCTTTGATGCTTTTCTGTCCTGTTTGCCAGCAGGAACGGTATCCGGAGCTCCGAAACTGCGGGCAATGGAGATCATTGCCGAATTGGAGCGGGAAGCGAGAGGCGCATATGCCGGGGCCATCGGTTATCTGGGCTTTGGAGGCAATATGGATTCCTGCATTACGATCCGCACGATCATTTTTCGCCAGGGCAAAGCTTATGTTCAGGCAGGGGCCGGAATCGTATGGGACTCGGTTCCCGAGAAGGAGTATGAGGAAACCATTAATAAAGCCAAAGGGATGCTGAAGGCGATCCGCGTCGCGGAAGCGATGTTTCCGTCCAGCACGGGGGCCAACGACTTAATCAATCAGGATTATCTGTATCAATATACACCTTAA	MANPSMEQVVAMAGEYNLIPVAIRLLADMETPIRIFQRYAERKRAFLLESVEGGVQWARYSFIGTDPFLMITGKKGKIEIEKNGERSLLEGKPVEELKALLRTYRSPQLKEMPPFTGGAIGFFGYDLLQYYEKLPAHAMDDLGMDDIRFMFCDQVIVFDHVKQQIMLVGNVHVKPGDSDDTIRQSYMDVCRTLEAAAEQLQDQGPRENVNSRGIPADVDMGDIKSNMTKEKYLSNVEQAKEYIRAGDIFQVVLSQRFHIETDVSPLHVYRVLRTLNPSPYMYYLKMDDDIIVGTSPEALVKVEGRRLETRPIAGTRPRGSDEAEDQALADDLLQDEKERAEHLMLVDLGRNDLGRVSEFGTVKCDTFMEIEKYSHVMHMVSSVSGQLSENKDFFDAFLSCLPAGTVSGAPKLRAMEIIAELEREARGAYAGAIGYLGFGGNMDSCITIRTIIFRQGKAYVQAGAGIVWDSVPEKEYEETINKAKGMLKAIRVAEAMFPSSTGANDLINQDYLYQYTP	PGPT0007095_1434	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
AK002_02297	1041	trpD_1	COG0547	Anthranilate phosphoribosyltransferase	ATGAACGTGATGGAGACGATGCAATCCAGCCTTTCAAAGCTGATCGGCGGTCAGGATCTGAGCCGGGAAGAGGCTCGCGGGGTTATGCAGACCATAATGGAAGGCCATGCGACCCATTCTCAAATCGGCGCGCTGCTGACGGCCTTAAGAATGAAGGGAGAGACCGTAGAAGAGATAACCGGATTTGCCGAAGCGATGAGAGGCGCGGGCGGACGTGTCGTTACCGAACGGAACCAGCTGCTCGATACATGCGGCACCGGAGGATCCGGCATTCACAAGTTTAACATTTCTACCGTATCCGCCATTATCTCCTCCTCGGTTTCGGTCAGAGTGGCCAAACACGGCAACCGTTCGGCATCGGGCCGGGCGGGCAGCGCCGATGTGCTGGAAGCGCTTGGCGTCAATATCCACTTGACCGCAGAACAAGCCACAGCCTGCCTGAACGATATCGGAATCTGCTTCCTGTTCGCCCAAATTTATCATCCGTCGATGAAACATGCGGCTGCTCCTCGCAAAGAGCTCGGGGTCCGGACCGTATTTAACATGCTGGGGCCACTGACGAACCCGGCGGGCGCGGACCGGCAGATGCTCGGGATATACGATATGAACAAAACGGAAACCATTGCGCAGGTCCTCAAAGAGCTCGGTTTGAAGCGGGCCATGGTGGTGACCAGCCACGATGGGCTGGATGAAATCAGCGTCTCGGCGCCTACCCGGGTATCGGAGCTCCGGGGCGGAGAAGTCCGCACTTATGATATCCACCCCCATGATTTGGGTCTGTCGGTTCATCCGATGAACGATATCCTGGGCGGCGACGCACAAGAGAATGCGGCCATCATCGGCTCGGTACTGCGCGGAGAACGCAGTGCTTATCGGGACATCGTGCTTGCCAATGCCGGTGCCTGCATCTATGTGTCGGGACTTGCGGATAGTTTGGCCGAAGGCGTCCAGCGTGCAGCGGGAGCGATTGATTCCGGTCTGGCGCAGTCCAAGTTGGAGCAGCTGATCTCAAGAACGGGGGAAATGAGTTATGTATCTTGA	MNVMETMQSSLSKLIGGQDLSREEARGVMQTIMEGHATHSQIGALLTALRMKGETVEEITGFAEAMRGAGGRVVTERNQLLDTCGTGGSGIHKFNISTVSAIISSSVSVRVAKHGNRSASGRAGSADVLEALGVNIHLTAEQATACLNDIGICFLFAQIYHPSMKHAAAPRKELGVRTVFNMLGPLTNPAGADRQMLGIYDMNKTETIAQVLKELGLKRAMVVTSHDGLDEISVSAPTRVSELRGGEVRTYDIHPHDLGLSVHPMNDILGGDAQENAAIIGSVLRGERSAYRDIVLANAGACIYVSGLADSLAEGVQRAAGAIDSGLAQSKLEQLISRTGEMSYVS	PGPT0007090_1671	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
AK002_02298	810	trpC		Indole-3-glycerol phosphate synthase	ATGTATCTTGATCGAATCGTAGAAACGAAACGCAATGAGGTTGCACAGCTGCGAGAAACGTTCAGCATCTCGGAAGCAGAGAGGCAAATAGCGGATTTGCCTCCGACTCTCGGGTTTGAGAAGGCGTTGTCCATGGGACGCAAACGCAGCATGGGGTTAATCGCCGAGGTCAAAAAGGCTTCGCCCTCCAAAGGGTTGATTCGTCCCGACTTTGACCCGGTTATGATCGCCAAGGCTTACGAAGCAGCCGATGCCGATTGTCTGTCCGTGCTGACGGATAAGGATTACTTTCAGGGAAGTGGAGAATATTTGCAAGCGGTAAGGGCGGCCGTCAACATCCCGCTGCTGCGCAAAGATTTCATTATCGACGAGACTCAGATTTACGAAGCGCGCCTGCTGGGTGCGGATGCCGTTCTCTTGATTGCGAGCATACTTGCGCCGCAGCGCATCGCGGAGTTCATTGACGTTGCAGGCTCGATCGGATTGGATTGCCTGATTGAGGTTCACGATGGGCAAGAGCTGGAATCGGTTCTCGGACTGGGAACGGCCCGTCTGATCGGGATTAACAACCGTAATCTTCGGACCTTTGAGACCTCATTGCAGACAACGGCGGATATCGCGGCACAAGTTCCGCAGGGAGTTACGTTGATCAGCGAGAGCGGAATATCAGGCCCCGCCGATATTTCCTACTTGCATTATGTTGGGGCACATGGGGTTCTGGTGGGGGAACATTTCATGCGCCAGCAGGACGTGTTCCGCGCTGTGAACGATCTGATGGGACCTCTGCCGATAGCTGCAGACATGGAATAA	MYLDRIVETKRNEVAQLRETFSISEAERQIADLPPTLGFEKALSMGRKRSMGLIAEVKKASPSKGLIRPDFDPVMIAKAYEAADADCLSVLTDKDYFQGSGEYLQAVRAAVNIPLLRKDFIIDETQIYEARLLGADAVLLIASILAPQRIAEFIDVAGSIGLDCLIEVHDGQELESVLGLGTARLIGINNRNLRTFETSLQTTADIAAQVPQGVTLISESGISGPADISYLHYVGAHGVLVGEHFMRQQDVFRAVNDLMGPLPIAADME	PGPT0007080_1435	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
AK002_02299	672	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	ATGAGTACGGCTCTAAAAATATGTGGACTTCAAAGCGTTGAAGTGCTAAAATCTATGATAAACTTACCTGTGGATTATATCGGATTCGTATTTGCAAAGAGCCGGCGGCGGGTAACGCCGCAGCAGGCTGCGCAGTTGGTGCAAGTATTGCGGGAATGGGAGCATGACAAGATTCCCGCTGCCGTCGGCGTCTTGGTTAACCCTGATTTGAGCGAGCTCGCAGAGCTTCTTCAAGAAACGGCGCTTGACGTCGTGCAGCTGCATGGTCAGGAATCGCCGCAATTTTGCCGGGAAGTGAAGGAGCGCTTCCCGGTTTCCGTTTTTAAGGCGGTATCGATCGGAAGTGACCGTCCGGAAGCAGAACGTCTGTCGGCACTGGATTCGTATGCGGGCTGCATCGACGGACTGCTGATCGACACCTATGATCCGGTGTACGGCGGAGGGTCGGGCAAGACGTTTGCCTGGGATCTGATCCCGGCGTACCAGCAATGGGCTGAACGGCAAGGGATTCCCTTGTTTGTAGCCGGCGGGCTCGATCCGGATAATGTTGCTCATTTGATCGGCCAGTACGCTCCGTACGGGGTGGATGTATCCAGCGGCGTAGAGAGCGAGCCTGGCGTGAAGGATATAAACAAAGTGACCGCATTTGTAGAAAGGGTGAAGGGGAAATGA	MSTALKICGLQSVEVLKSMINLPVDYIGFVFAKSRRRVTPQQAAQLVQVLREWEHDKIPAAVGVLVNPDLSELAELLQETALDVVQLHGQESPQFCREVKERFPVSVFKAVSIGSDRPEAERLSALDSYAGCIDGLLIDTYDPVYGGGSGKTFAWDLIPAYQQWAERQGIPLFVAGGLDPDNVAHLIGQYAPYGVDVSSGVESEPGVKDINKVTAFVERVKGK	PGPT0007115_839	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
AK002_02300	1197	trpB	COG0133	Tryptophan synthase beta chain	ATGACACAGCTTCCTGACCGTAATGGACGTTTCGGGGTGTTTGGAGGCCGGTTCGTGCCGGAAACACTGATGAACGCTTTAATAGAGCTTGAGCAAGAATATAATCGTTTTTCGGAGGACCCTGCTTTTAAAGAGGAGATCGCCTATTTGCTGAAACAGTATTCCGGAAGGGAAACGCCGCTTTATTACGCGGAGCGGCTCAGCCAACATCTCGGCAAGGCTAAAATTTACCTGAAGCGCGAGGATTTGAACCATACCGGCGCGCACAAAATCAACAATGCCATTGCACAAGGCGTGTTAGCCAAGCGCATGGGCAAAGGCAAGGTCATTGCCGAAACGGGTGCCGGACAGCATGGCGTAGCGACCGCGACCGTAGCCGCTCTGCTGGGTCTTGAATGCAAGGTATTTATGGGCGAAGAAGATACCAAGCGGCAGCAGTTGAACGTATTCCGCATGAAAATGCTCGGTGCCGAAGTAATTCCGGTGACGTCGGGAAGCCGAACGCTGAAAGATGCCGGCAACGAGGCGCTTCGCTACTGGGTCAGCAACGTCGAGGATACCTTTTATGTGCTGGGCTCCGCTGTAGGGCCGCATCCGTATCCGATGATGGTGCGGAACTTCCAGCGCATTATCGGTGACGAGACCCGGAGGCAGATACTGGAGACGGAAGGAAGGCTTCCAAACGTCATTCTTGCGCCGATCGGGGGCGGTAGCAATGCGATCGGCATGTTCTATCCGTTCCTTGAAGACAAGGAAGTCGGATTGATCGGCGTCGAAGCGGCAGGCAAGGGAGTGGATACCGATTTTCATGCGGCTACCATGTCCAAGGGGACACAAGGCGTATTCCAAGGCTCGATGAGTTATTTGCTGCAGGACGAGTACGGACAAGTACAGGAGGCGCATTCCATTTCAGCCGGCCTTGATTATCCCGGCGTTGGTCCGGAGCATTCCTATTTAAAAGACATTGAACGCGTGCAGTACGTACCGATAACCGACCAAGAGGCGCTCGATGCCCTGCAGCTGTTATGCCGCACGGAAGGCATTATTCCTGCCCTGGAATCCGCGCACGCCGTAGCGCAAGCCGTAAAGATGGCATCCACGTGGACCGAGAACGATATCGTCGTGATTAATTTATCCGGTCGCGGCGACAAGGACGTGGAGTCCATCATGGCTTACACGGGAGGGAAAACCGAATGA	MTQLPDRNGRFGVFGGRFVPETLMNALIELEQEYNRFSEDPAFKEEIAYLLKQYSGRETPLYYAERLSQHLGKAKIYLKREDLNHTGAHKINNAIAQGVLAKRMGKGKVIAETGAGQHGVATATVAALLGLECKVFMGEEDTKRQQLNVFRMKMLGAEVIPVTSGSRTLKDAGNEALRYWVSNVEDTFYVLGSAVGPHPYPMMVRNFQRIIGDETRRQILETEGRLPNVILAPIGGGSNAIGMFYPFLEDKEVGLIGVEAAGKGVDTDFHAATMSKGTQGVFQGSMSYLLQDEYGQVQEAHSISAGLDYPGVGPEHSYLKDIERVQYVPITDQEALDALQLLCRTEGIIPALESAHAVAQAVKMASTWTENDIVVINLSGRGDKDVESIMAYTGGKTE	PGPT0007075_3354	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
AK002_02301	807	trpA	COG0159	Tryptophan synthase alpha chain	ATGAACCGAATCGATCAGACCTTTGCGTCGTTGAAGGAACATAACAAGACCGCCATGATCCCTTATCTCACCGTCGGAGATCCGGATGTGAAGTCGACGCTGGATATCATCCATGAGCTTGAAATCGCGGGAGCCGACATTATTGAACTCGGCGTTCCCTACTCGGATCCCCTTGCCGACGGACCGGTCATCCAGCGCGCTTCCGAGCGCGCGCTGAAGAGCAAGGTGACCATTCGCACTTGCATGGAAACCGCGCGCCTGGCAAGAGAGCGGGGCAGCAAGCTGCCGTTCATCCTGTTCACGTATTACAATCCGGTACTGCAAACCGGACTGGACGTTTTCTTCGAGGAAGTGGTAAGGCATGACATCAGCGGCTTGATCATTCCCGATCTTCCGGTGGAAGAATCCGAGGAGGTTCGGAAACGCGCCCACGCGGCGGGAGTTCATCTGATTCCGCTGGTGGCCCCTACCTCCCATGAGCGGATCGCGAACATCGCTTCCGAAGCGACCGGCTTTGTGTACTGCGTATCCTCGCTTGGCGTGACTGGCGAGCGTACCGATTTTTACTCGGGGGTGGAGTCTTTCCTTGAGACGGTAAGGCAGTACAGCAGCGTGCCGATCGCGATCGGCTTTGGCATTTCATCCAGTGAGCAGGTGGCCAGATTCTCAAAAATCTGCGACGGCGTCGTTGTCGGCAGCGCGATTGTGCGTCAGATTGAATCAACCATTCCTCTGCTGGAGAAGGAAGAGACAAGACAGCAGGGACTTTTGCAAATCAGGGAATTTGTGGCACAATTAAAAGGATAG	MNRIDQTFASLKEHNKTAMIPYLTVGDPDVKSTLDIIHELEIAGADIIELGVPYSDPLADGPVIQRASERALKSKVTIRTCMETARLARERGSKLPFILFTYYNPVLQTGLDVFFEEVVRHDISGLIIPDLPVEESEEVRKRAHAAGVHLIPLVAPTSHERIANIASEATGFVYCVSSLGVTGERTDFYSGVESFLETVRQYSSVPIAIGFGISSSEQVARFSKICDGVVVGSAIVRQIESTIPLLEKEETRQQGLLQIREFVAQLKG	PGPT0007070_2334	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
AK002_02302	1098	hisC_1	COG0079	Histidinol-phosphate aminotransferase	ATGAAACCGAAAGCGCAAATTGTTAATCTTCCCGTATATCAGCCCGGGAAACCGATCGAAGAAGTCAAAAAGGAATTAGGGCTGGATGTCGTCATTAAACTGGCCTCCAACGAGAATCCGTACGGCTGCTCGCCGCGCGCAACCGAAGCGATTACCGCCGAACTGGGAACGCTCAGCCTGTATCCGGACGGAAGTGCGGCCGATTTAACGGCGGAGCTTGCTGGCCAGCTGGGAATTGAACGCAATCAGATTATTTTCGGCTGCGGATCCGATGAAATTATTGCCCTCATTATCCGGGCATTCCTGCAACCGGGGGATGAAACCATCATGGCGGATCAGACCTTCTCGGTGTATAAAACGAACGCGGATATCGAAGGTGCGACATGCATCGAGGTGCCGCTGGTGGACGGTAAGCACGATTTGCCGGGCATGGCCAAAGCCGTTTCGGACAAAACCAAAATCGTGTGGGTGTGCAATCCGAATAATCCGACCGGAACCATCGTTTCCGAAAGCGAGCTGGTTTCCTTCCTGGATGAAGTCCCGGCCCACGTAATGGTTGTGCTTGATGAAGCTTATTATGAATATGTAACGGACGCTTCGTACCCGGACAGCATCAAGTTAATGGAGCGTTATCCGAATCTGGTCATCCTGCGTACCTTCTCCAAAATATACGGCTTGGCCGCCCTCCGGATCGGCTACGGCATCGGGCAGCAGGAAGTCATTTCCTTGATCAATCGGGTACGTGAGCCGTTTAATACGGGACGCCTGGCTCAAGTAGCGGCGAAGGCAGCCCTGAAAGATCAGGAGTTCGTAGCGAAATGCCGTCAAATGAATGCCGATGGAATCCATTACGTACAAGGGGAATTTGATCGTCTTGGACTATCTTATTTTCCTGCGAACGGTAACTTCATTATGGTGGATGTGAAGAAGCCAGGAACCGAAGTGTTTAAGTCTCTGCTTAGCAAAGGCATTATCGTACGGCCTGGATTTGAACTGTACCCGAACTATATTCGCGTAACCGTAGGCTCCGAAGAACAGAATAAGGCTTTTATCGGCGCTTTGGAACAAGTGCTGAGCGAAGTGAATGCGCCAGCCTGA	MKPKAQIVNLPVYQPGKPIEEVKKELGLDVVIKLASNENPYGCSPRATEAITAELGTLSLYPDGSAADLTAELAGQLGIERNQIIFGCGSDEIIALIIRAFLQPGDETIMADQTFSVYKTNADIEGATCIEVPLVDGKHDLPGMAKAVSDKTKIVWVCNPNNPTGTIVSESELVSFLDEVPAHVMVVLDEAYYEYVTDASYPDSIKLMERYPNLVILRTFSKIYGLAALRIGYGIGQQEVISLINRVREPFNTGRLAQVAAKAALKDQEFVAKCRQMNADGIHYVQGEFDRLGLSYFPANGNFIMVDVKKPGTEVFKSLLSKGIIVRPGFELYPNYIRVTVGSEEQNKAFIGALEQVLSEVNAPA	PGPT0020305_3822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK002_02303	1095			hypothetical protein	ATGACAATGCAAATTTCCATATTCGGCGTCGGCTTGATCGGCGGTTCGTTAGCTTTAAACTTCAAAGGAAAACCTGGCATAACCGTTACCGGTTATGCCCACACCCAAGAATATGCCGACCAGGTCATTGCTAAAGGCGTCGTTGATAAGGTTACGCTTTCGGTAGAAGAAGCTGCCCTAGACGCGGACGTCATTTTTTTATGCGTTCCCGTAGGCAGTCTTGAGATGTACATGAAACGTTTGAGCGAAATGCGGCTGAAGCCGGGATGCATTATTACGGATGTTGGCAGCACCAAAGCAAGCATTGCCGAATGCGCGTCCCAGCTTGCCCTTAAGGATGCGTATTTCATCGGCGGTCATCCGATGGCGGGCTCGGAGCGGTCCGGTGTTGGAGCTGCCTCCACCGTATTGTTCGAGAATGCATATTACGTGCTTACTCCGCCGGACGATGTCCCTCAGGATAAGCTGAACGTGCTTGTAGAGCTTTTGTCTCACACGCGTGCCCATATTGTGAAGGTAGAGCCGAGACTTCACGATGAGATCGTTGGAGCGATCAGCCATCTGCCTCATGTGATCGCAGTGGCGTTAGTCAATCAGATCAGCTCCTATAATGACGATAATCCGTTGTACCGCACCTTGGCCGCAGGGGGCTTTCGGGATATAACCCGCATCGCTTCCAGCGACCCGGTCGTATGGCGGGACATTCTCTTAAACAATCGCAGGGTCATGCTGACGCTGCTGCAAGACTGGAATGAAGGGATCCGGCGATTCATGGATATGCTGGAGTCGAAGGACGGTGCTGCGATCGAAGAGGCTTTCCGCATGGCAGGGGAATTCCGCAGCGTCCTGCCTGAGCGGCGCAAGGGCATGATCGTGTCCCAATTTGATCTGTATTTGGACGTGCCTGACCATCCGGGCATCATCGGCCGCATTGCGACGGAGCTCGGGACGAACAGCATCAACCTCAGCAACATGCAGATTATCGAGAGTCGGGAAGATGTGCCGGGCGTGATGAGGCTTTCCTTCCGCAATGAAATCGAACAGGAGCGGGCTAAAGAGCTGTTGTTATCGCAAGGACACTCGGTGTATCAGTAA	MTMQISIFGVGLIGGSLALNFKGKPGITVTGYAHTQEYADQVIAKGVVDKVTLSVEEAALDADVIFLCVPVGSLEMYMKRLSEMRLKPGCIITDVGSTKASIAECASQLALKDAYFIGGHPMAGSERSGVGAASTVLFENAYYVLTPPDDVPQDKLNVLVELLSHTRAHIVKVEPRLHDEIVGAISHLPHVIAVALVNQISSYNDDNPLYRTLAAGGFRDITRIASSDPVVWRDILLNNRRVMLTLLQDWNEGIRRFMDMLESKDGAAIEEAFRMAGEFRSVLPERRKGMIVSQFDLYLDVPDHPGIIGRIATELGTNSINLSNMQIIESREDVPGVMRLSFRNEIEQERAKELLLSQGHSVYQ				NA	NA	NA	NA	NA
AK002_02304	621	algU	COG1595	RNA polymerase sigma-H factor	GTGGGTGAAGGAGGAACGAAAAATCATATGACGGATTCCCAACTAATCCAAGAAATTAAGCAAGGCAATACCGAACTTTATTCCGAATTAATGCGGCGTTATCAGAGAAAAATATTGGCATTTGTCTATCATATGTTAAAAAGCTCGCACATGGAGCTAATGGCCGAAGATTTATGCTCGGAAACGTTCTACAAGGCTTTCCGGAGCCTGCATTCCTTCCGGGAAGTGGATGCATCCTTCTCGACTTGGCTCTACACCATTGCGCGCAACACCGTGCTGAGCGAACTTCGCAAGCATCGCAGCGGCACATTGCCCCTGGAAGAGAGCGGGGTCGTGCCAGTGGCGCCGCTGGAGGTCGCTCCGGAGCAGGCGATCCTGCGCAGTGAACGAGTACATATGGTAAGGGAAGCGATTAATAATTTACCGGAGAAGCAGAGATCGGCGCTGATTCTTCGGGAGTATGATCAACTGGATTACCAGGAAATCGCAGATATTTTAGGTCAAAGCGTCAGTTCGGTTAAGTCACTGTTGTTCAGAGCCCGCGGCAGCGTAAAAATTCAGCTCGAACCCTATTTTTATGAGCCGGTTTTTGAGGATCTGAGAGGGATGAAGAACAGATGA	MGEGGTKNHMTDSQLIQEIKQGNTELYSELMRRYQRKILAFVYHMLKSSHMELMAEDLCSETFYKAFRSLHSFREVDASFSTWLYTIARNTVLSELRKHRSGTLPLEESGVVPVAPLEVAPEQAILRSERVHMVREAINNLPEKQRSALILREYDQLDYQEIADILGQSVSSVKSLLFRARGSVKIQLEPYFYEPVFEDLRGMKNR				NA	NA	NA	NA	NA
AK002_02305	603			hypothetical protein	ATGACTTGCAATGAAGCCCAAGAGCTGATGGAAACGGTCTGGGATTTACCGGACAACGATCTGCGGCGACAACGGCTGATTGCGCATGTTCAAACCTGCAGTTCATGTGCAGCGGAGTACGAAATGTGGGTGGAAAGCCAGAACATGGTTCATGCCTTGGAGCATGAGCTTCCCGACATGGACGCTGAACAGATCAACCGCAATGTGATGGACCGCATTTATCGCGATTTTCCCTGGCTGGTGGAGGAAACGTCCAAGAGCCGGGCGGTTAGCCGGGTGTTCCGGAAGCGGCTGACGCTGATGATTGCCGGTTTTCTGGCCTTGTTCGTTTGCAGCTTTGTTTATTTTGCAGCGACGGGCAATCAGCCTGATCCGGTTCCGGAAGCCGTAACGACAGGGATTATCCCTACAGGCGTAGCGGATACGGCCCAAGGCTTGAATGCCAAGGACGATTACAACATCCCAAAAACCAACAGCGGCATTATTGATCCTTTTGTGGTTGATATGAGTCCCACTCAGCCAGAATACTGGATGATACTTTCCCTTTTGGGAATCGGATGCGCTTTGTTTTTCCTAAAAAGACTAAATCGGGTCAGAAGATAA	MTCNEAQELMETVWDLPDNDLRRQRLIAHVQTCSSCAAEYEMWVESQNMVHALEHELPDMDAEQINRNVMDRIYRDFPWLVEETSKSRAVSRVFRKRLTLMIAGFLALFVCSFVYFAATGNQPDPVPEAVTTGIIPTGVADTAQGLNAKDDYNIPKTNSGIIDPFVVDMSPTQPEYWMILSLLGIGCALFFLKRLNRVRR				NA	NA	NA	NA	NA
AK002_02306	588	gpmA_2		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGCAGATCGGCTTGGTTCGCCATGGATTAACGGATTGGAACGCTTTAGGCAAAATCCAAGGCCAAACGGACATACCACTGAATGAGGAAGGCCGTCGTCAAGCGCGTTTGCTTGGGGAAAGACTTCTGCAGGAGCCTTACCGATGGGACTTCGCGATCAGCAGCGGGCTCTCCCGCGCTGAAGAAACCGCGAAGATCATTTCGTCCATGCTGAACATTCCCTTGGCGCCGCCGGATAACCGCTTGCGTGAGCGTAAGTACGGTCAGGTGGAAGGCTTGACAGCGGAAGAGCGTGAAACCCGGTTCGGTGCCGATTGGCACATGTTGGATCTGGGTCAGGAAACGGATCTGGAGCTTCAGTCCAGAGGGCTTGTCTTTCTCGATGATATGTGGCATAAGCATCCGGAAGCCAATATTCTGGTTGTCAGTCATGGCGGTTTTTTAGCGCAGTTATACAAGCTGGTGTGCCGTGGCGCTCTGAGCGAACGGATCGGCAATCTGTCGCTCACCGTCCTGGAGAGAAAAGAGGATGACTGGTCACCCTTGCTGTTTAACTGTACCAAGCATCTGTTGACGAACCAATCGTAA	MQIGLVRHGLTDWNALGKIQGQTDIPLNEEGRRQARLLGERLLQEPYRWDFAISSGLSRAEETAKIISSMLNIPLAPPDNRLRERKYGQVEGLTAEERETRFGADWHMLDLGQETDLELQSRGLVFLDDMWHKHPEANILVVSHGGFLAQLYKLVCRGALSERIGNLSLTVLERKEDDWSPLLFNCTKHLLTNQS	PGPT0018035_1367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018035-gpmB-K15634	NA	NA
AK002_02307	759			hypothetical protein	ATGATAAAAGATGCTGAATTTTTAAACTTCATACAAAACATGGATCACCATTTTTCGGGATGGGACTTTTCGCGTATTACCGCTTCCGGCCGCATGCAGTCCCACGCTCTCCCCTGGTCTTTGGGCAGCGTGGTGCTCCCTTTGATGCGAAATGCCGCTACGATGCTGGACATGGGGACGGGAGGAGGAGAATTCTTGTCCTCCCTGCAGCCGCTCCCCAAAACCGTTTATGCCACCGAAGGGTACAAACCGAACGTTCAGATTGCGAATCAAAGACTTGAGCCGCTGGGCGTAAACGTTGTCTATTTTGAAGAAGATTCCTCGCTTCCTTTCAAGGATCGTTATTTTGACCTGATCATCAATCAGCATGAATCCTATTCGGCAGCGGAAGTAAGAAGAATATTGAACGAGCGTGGGGTGTTCGTAACCCAGCAATCCGGCGGAACCGATTGTTATGGGATAAACGAATCGCTTGGCGTTCCGCTGAATGAAGAGTTCGCTCATTGGAACCTGGCCATAGCGGCTCAAGAGCTGCATGATCACGGTTTCAAGGTTACCTTCAGCCGCGAGGACTTTTTACCGCAGCGATTTTACGACATCGGCGCACTGGTTTATTACTTGATAGCGATTCCCTGGCAGATTCCGAATTTTACGGTGGAGCGCTATATCGAGCCTTTACATCATATTCACCGGATGATCCGGACCAATGGCTACTTCGAGGTCCAGCAGCACCGGTTTATTCTAATCGCCGAAGTGTAA	MIKDAEFLNFIQNMDHHFSGWDFSRITASGRMQSHALPWSLGSVVLPLMRNAATMLDMGTGGGEFLSSLQPLPKTVYATEGYKPNVQIANQRLEPLGVNVVYFEEDSSLPFKDRYFDLIINQHESYSAAEVRRILNERGVFVTQQSGGTDCYGINESLGVPLNEEFAHWNLAIAAQELHDHGFKVTFSREDFLPQRFYDIGALVYYLIAIPWQIPNFTVERYIEPLHHIHRMIRTNGYFEVQQHRFILIAEV				NA	NA	NA	NA	NA
AK002_02308	1155			hypothetical protein	ATGAATCTAGCGGATATGCTCACATATGCCGATATTGGACAGCTTAGCAATATAGCGAATCACTATGATTGTGACGCTAAGCGAAATTCGAAGCACGAACTGATCCAGAGCATCCTGTCCAAGCTCGGGCGAAGAGAGTTTTTCGAGGAGCAGGTCAGCAGCTTGTCACCAAGCGATTTGCGTTTTCTGAACAATCTGGTCTTTGACACTCGAACAGGCTACAGCCTGGAAGAACTGACGGCCGCCATCCGTCATACGGCGGATTTGGAGGAGAAAGAAGATAAAGCTTCTTCAAACAAGAAGGCAGCTGCGGCCATAACGGAAAGTCCGCGGGAGGCGGTCGCACGTTATCGCCGGAGCGGCTGGCTGTTTAACGGTTTTACTCATTCGACCAAGTATTTGTTTCAAGTCCCCTCGGATTTGAAGGAGCGGTTCCGCGATGTGCTGCGGGAGCGGCTTCATCAAAATCTGGAGCGTTTGCCGCATGATCCGGAGGCGTACCGGGATGAGCAGGGACTAGCTGCTGAAGATCTCAAGCTGATTCTTAAATATGTAGGCGGGCACGATATCGAGTTGAACCAAGAAGGATTCATGTATAGGCGCAATCAGCAGCAGCTCATGAGTACGCTGCATATTTCGGAGCCGTTGATTACCAAGGGAGCGTGGCGGTTCGGGTATGGTCGTTCCTGCATTGAATATCCCGACCGGTTTGCGCTGCTGTACGATTATGCCTACGCCAAAAAATGGATCAGGGAAAACCATGCGCGGTTGATCCTGAGTGAAACCGGAACCTCGTTTCTTGAGGAAGGAAATCAAGTTAGCGTGATACAGATATTCCGCTTTTGGTTAAGACTGTATAAAGGCGCAATTCCCAATATATCTTCTCTTGTTTACTGGATAAGTCAATGCGCAAGAGATTGGGTCACGGCAGCCTCGCTTTACGAATCGCTGGGCTGGCTAATCCGTCCTTTCTATTATGATAGTCCGCAAAACATCTTGGAGCAGCGGATTATCCGAATGCTGATGCATTTGGGGATGCTCAGAATAGGGGAGAGCCAGAGCATGGGAACATCATACAAAATGACCGCGCTTGGATTGAAGGCAGCGGAAGCCGGCATACATATCAGCGATTCGAATGATGATTTGATCCTCTAG	MNLADMLTYADIGQLSNIANHYDCDAKRNSKHELIQSILSKLGRREFFEEQVSSLSPSDLRFLNNLVFDTRTGYSLEELTAAIRHTADLEEKEDKASSNKKAAAAITESPREAVARYRRSGWLFNGFTHSTKYLFQVPSDLKERFRDVLRERLHQNLERLPHDPEAYRDEQGLAAEDLKLILKYVGGHDIELNQEGFMYRRNQQQLMSTLHISEPLITKGAWRFGYGRSCIEYPDRFALLYDYAYAKKWIRENHARLILSETGTSFLEEGNQVSVIQIFRFWLRLYKGAIPNISSLVYWISQCARDWVTAASLYESLGWLIRPFYYDSPQNILEQRIIRMLMHLGMLRIGESQSMGTSYKMTALGLKAAEAGIHISDSNDDLIL				NA	NA	NA	NA	NA
AK002_02309	180			hypothetical protein	ATGGATAAGATGAAGGTTACTTACGAGGTTATGTTAGGTCTGGCGGCCGAAATGGTGTGGGACGAGGCATTGCGCAAGCATCGGAGCGAAGAGCTGTACAAGGAAATCGACGAAGCGCTGGCTTCCGGCGACGAAGTGGCTTTCCGAACCCTGACGGATGAACTGAGGACTTTGAATTGA	MDKMKVTYEVMLGLAAEMVWDEALRKHRSEELYKEIDEALASGDEVAFRTLTDELRTLN				NA	NA	NA	NA	NA
AK002_02310	438			hypothetical protein	ATGAAATTTAGTGAAGTGGACGAGCAGACGTGGCCGGAGCTGAAACCTTATTTTGATACCTGCCTGATTCCGTTTACCGGACTTTCGGGTACGGAAACGCCATGGGAGGCGACAGCCGCGCTGGAACGGCTCCGGGATTTTATGGATATGGCAGAAATTCCGTTTAAGGGAAGATTGGTTACATATCCTGCCGTACAATATGGAAATACTGAAGATATGAAGCTTCTAAATGAAGTTTGTCACAATGTCAAATCCATCGGCTTTAAGTTCGTGGTGGTCATGACAGCCGATTCCGAGCTCTCTGTAGAGGATGTGCCCGAAAGTACGCTTGTCCTGTCGCGCCGCAGGCTGGAAGGCAGCGACTCGATCCCTATGCCTGCCATCGTATCCGGACAGATCAGCGAAATGTGGCAGCAGGAAAGCCGTGTTGAATTGTGA	MKFSEVDEQTWPELKPYFDTCLIPFTGLSGTETPWEATAALERLRDFMDMAEIPFKGRLVTYPAVQYGNTEDMKLLNEVCHNVKSIGFKFVVVMTADSELSVEDVPESTLVLSRRRLEGSDSIPMPAIVSGQISEMWQQESRVEL				NA	NA	NA	NA	NA
AK002_02311	546	petC_1		Cytochrome b6-f complex iron-sulfur subunit	ATGAGCAGCAACCACAATGACGAGCATGAAGAATCGCACAATCCACCCCGACAGAAAGAGATGTCCCGCAGACAATTTCTTACATACACGTTGGGCGGTGCCACAGCTTATATGGCTGCTGGAGTAGTTTTGCCAATGCTCCGCTTTGCCGTTGATCCGATTCTTCAAAATAAGGAAGAAGGGTCTTTTGTAAAAGTCGCGGAAGAGAGCAAAATTACCAACGATCCACAGGAATTCCATTTCGAGCTCAAACAGCAGGACGGCTGGTACAACAGTACGGCTACTTTGACGGCGTGGATTCGTAAGAACGATCAAGGTGAAATTGTAGCGCTTTCACCGATTTGTAAGCATTTGGGATGCCTTGTTGGATGGAATAACAACAAGAATTTCCCGGATGAATACCACTGCCCTTGCCACGGTGCGCGTTATACACCGGACGGTAAGAACCTGGCAGTCGCGCCGAAGCCGCTTGACCAGTACGAGACGAAAATCGAGAACGGCTGGATTTACCTCGGCGCCATCGTGCCAAATACCGTAGTTAAATAG	MSSNHNDEHEESHNPPRQKEMSRRQFLTYTLGGATAYMAAGVVLPMLRFAVDPILQNKEEGSFVKVAEESKITNDPQEFHFELKQQDGWYNSTATLTAWIRKNDQGEIVALSPICKHLGCLVGWNNNKNFPDEYHCPCHGARYTPDGKNLAVAPKPLDQYETKIENGWIYLGAIVPNTVVK				NA	NA	NA	NA	NA
AK002_02312	672	qcrB	COG1290	Menaquinol-cytochrome c reductase cytochrome b subunit	ATGTTGAAGAATGTCTACAACTGGATTGATGAACGTCTCGATATCACGCCGATTTGGAGAGACGTTGCAGACCACGAGGTACCGGAACACGTAAACCCGGCGCATCATTTCTCCGCGTTTGTGTACTGTTTCGGCGGCTTGACGTTTTTTATCACAGTCATCCAGATTCTGTCGGGAATGTTCCTGACGATGTATTACGTACCGGATATCATAAACGCTTACAACAGTGTCGAGTACCTGCAAACACAGGTTGCCTTCGGACAGATTGTCCGCGGCATGCACCACTGGGGCGCAAGCTTGGTAATCGTTATGATGTTCCTGCATACGATGCGCGTGTTCTTTACCGGCTCTTACAAAGCGCCGCGTGAAATGAACTGGGTCGTTGGTATGCTCATTTTCTTTGTTATGCTCGGCCTTGGTTTGACAGGCTACCTGCTGCCATGGGATAACAAAGCTTACTTCGCTACAAAAGTTACACTGGAGATTGCGAACTCCGTACCTTGGCTTGGACCTATCATTAAAGAATTGCTGCAAGGCGGTACGATCGTAGGTGCCGAAACGCTGACGCGTTTCTTCGCTATTCACGTATTCTTCCTTCCGGCTGTCCTTCTTGCCTTATTGGTAGGACACTTTATCATGATCCGCAGACAAGGTATTTCCGGTCCACTATAA	MLKNVYNWIDERLDITPIWRDVADHEVPEHVNPAHHFSAFVYCFGGLTFFITVIQILSGMFLTMYYVPDIINAYNSVEYLQTQVAFGQIVRGMHHWGASLVIVMMFLHTMRVFFTGSYKAPREMNWVVGMLIFFVMLGLGLTGYLLPWDNKAYFATKVTLEIANSVPWLGPIIKELLQGGTIVGAETLTRFFAIHVFFLPAVLLALLVGHFIMIRRQGISGPL	PGPT0030840_498	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
AK002_02313	888			hypothetical protein	ATGGCACATGGTCATAAATCTGATGAAAAAGTAGTTTATGTCGGCGATTCGCGTGTGAAAAAAGGCAGCGGTTGGGTTACGCCGCCGGATTACACCGCATACCCCGGCAAATCAGAAGCGTTCATTCCTAACTTCTTGTTGAAGGAATGGATGGTTGGTGTAGTTGTATTGGTCGGTTTCCTTGTACTCACCATCTCGGAACCGGCACCGCTTGGTTATCCGGCGGATCCGGGGGCTTCGGTCATTCCGATGCCGGACTGGTACTTCCTGTTCCTGTATGAATATTTGAAGCTTCCGTACGCATCCGGTGATTATGTGGTACTCGGTACGATTGGCGTTTCCGGCGTAGCCTTTGGCTCATTGCTCCTCGTTCCCTTCCTGGATACAGGAAAGGAACGCAGGTTCTACAAGAGACCTATCACTTCGGCGCTGATGATTCTGTCGTTGTTTGCCGTCATCTATCTGACCAATGCTGCATGGACGCACTATCAGCATGAGCTGGAAGCGACGGGCCAGAAGCCGGAGCATATTCAGCGGGAAGAAGAAGCTCACGAGAAACGTGCAGCTGGTCTGCCAACGACCAGCGGCAAGCAGCCTGAAGACAGCATCGTAGCGATTGTGGATAAGGATAATCCTGCAATGGAGACCTTTAAAACGGCTACTTGTATCTCCTGTCACGCTGCAGATTTGAAAGGGGCATCCGGACCGTCGCTGCGCGGCGTCGGGGATACCCACACCAAGGAAGAGATTGTGGCTATCATCGAAAATGGCCAAGGCAGCATGCCGGCTATGAAGGAAACTGCACTCTCTGCTGGAGTTACCGAAGAACAACTCGACCAGCTGGCTGATTGGCTCGCAAGCCAGAAGGCAGAAGCGGCTGCAGAGTAA	MAHGHKSDEKVVYVGDSRVKKGSGWVTPPDYTAYPGKSEAFIPNFLLKEWMVGVVVLVGFLVLTISEPAPLGYPADPGASVIPMPDWYFLFLYEYLKLPYASGDYVVLGTIGVSGVAFGSLLLVPFLDTGKERRFYKRPITSALMILSLFAVIYLTNAAWTHYQHELEATGQKPEHIQREEEAHEKRAAGLPTTSGKQPEDSIVAIVDKDNPAMETFKTATCISCHAADLKGASGPSLRGVGDTHTKEEIVAIIENGQGSMPAMKETALSAGVTEEQLDQLADWLASQKAEAAAE				NA	NA	NA	NA	NA
AK002_02314	633			hypothetical protein	TTGTCAATTTCGTTTTTATGGAGCCGGGAATTTCTAAGCAAGCGATCGATTCTTTGGCTGCTGCTCGTCTGCAACGTACTTGGAACAATCTATGGATACATATGGTACGGCGCTCAAATGGCCGATACGGTGGAACATGGCTACATATGGCAGGTCGTATTCGTGCCGGACAGCCCGACGGCCAGTTTGTTCTTCAGCTTGGCGCTTTTGCTGCTTCTCTACCCGCCTCGGAGCCTCGGCGGCGCGTTGTTTCAGCATCTCATAGAGGCACTGGCAGTCGTCACATCCGTGAAGTATGGCATATGGGCGGTTGCGATGATATTTGCCGGACAAGCCCAAGGAGATGTGCTGGCATGGCAGGATTGGATGCTTGTCGCTTCGCACACGGCGATGGCAGTAGAAGCCTTGCTGTTCGTCCGATTGTTTCATTACCGCTGGACAGCCCTAACCGGGGCCATTGCCTGGACGCTGCTGAACGACACCGTCGATTATACATATGGCGTGTTTCCGTGGCTGCCCGGTCCGTTATATGATGACCTGCCAGCCGTCCAGCTGTTCACTTATCTGTTGACGCTCTTCAGCGGTTTCGCCGGCTGGATCTTCATGAAATACGGGAATCCCAAGCAACGCTAG	MSISFLWSREFLSKRSILWLLLVCNVLGTIYGYIWYGAQMADTVEHGYIWQVVFVPDSPTASLFFSLALLLLLYPPRSLGGALFQHLIEALAVVTSVKYGIWAVAMIFAGQAQGDVLAWQDWMLVASHTAMAVEALLFVRLFHYRWTALTGAIAWTLLNDTVDYTYGVFPWLPGPLYDDLPAVQLFTYLLTLFSGFAGWIFMKYGNPKQR				NA	NA	NA	NA	NA
AK002_02315	858			hypothetical protein	ATGTTACGAATCTTTCCGAAGCTCCTTCTGTCCCTGTCTGCATTGCTTCTGCTGGTTACCGCAGGCTGGGGTAATCCCCTATGGGCTAGCCCGGCGGCAAACGGACAGTCGGAGTCTTCGCCTGCTGCATCCATTCAGGCCAAAGCGCTGAACAAGGAAGTGGAGCAGTTATACCGTCATGTGGAGGAAGGCAATGTACAAGCCGTGTTAGAGGATATTCGCCGGGTATCCGGGCTGTTTGAGGCTTCCTCATTTCAAGGATTGACCGGCGTTGAGGGGATCCACGCGTTGGCTGAGAGCATTCTGGAGATGAAAGAAGCTACGGCAAGGGCGACGCAGGAGCCCCAGCACTGGATGGTGTCCGCCGGCAAGCTCCGAATGGCAGCGGATAGCCTGATCCATGCCAGGGATGCGTTATGGCTTCAATATTACAAGGTCATACGCGAAGACCTGAGAGTCATGGGACAGTATGCGCAGCAGCAGGATCAGGCTGGCATGAGACGAGCCTACGACAGCCTGAGCGAGCATTATGAGCTCATCCGTCCTTCCGTTGTCATCCAGCGCAAGCCCGAGGATGTCAACATGATGGAATCCTGGATTTCCTATGCAGGGGGACTGGTGGCATCCGGAGACACGGCGCAAGTGGGGAAAGTGGTTCCGCAGGGCGAGGAAATGATGAATATGTTATTCGGCAAGAAAAAAGACGAGCCTGCGCTTGCTCCGCTGGGAGAGGTTAAAGAGCCATGGACTTGGCAGCTGGTCATTGCCGCTTTTATTTTGGCGGCATTAACGTTTGCAGGGTACCGCAAATACCGCGGCCAGCTGTACAGCGCAAAACCGATGTTCCCCCGAAAGTAG	MLRIFPKLLLSLSALLLLVTAGWGNPLWASPAANGQSESSPAASIQAKALNKEVEQLYRHVEEGNVQAVLEDIRRVSGLFEASSFQGLTGVEGIHALAESILEMKEATARATQEPQHWMVSAGKLRMAADSLIHARDALWLQYYKVIREDLRVMGQYAQQQDQAGMRRAYDSLSEHYELIRPSVVIQRKPEDVNMMESWISYAGGLVASGDTAQVGKVVPQGEEMMNMLFGKKKDEPALAPLGEVKEPWTWQLVIAAFILAALTFAGYRKYRGQLYSAKPMFPRK				NA	NA	NA	NA	NA
AK002_02316	870			hypothetical protein	ATGAAAACGTCCAAGTTGCTCCATCAGTTGCAAACGATCATTCCGATCATCGCCGGTTCTGCCATATACGCATTCGGACTGCTGTATTTCATCATTCCGAATGAACTCATGGAGGGTGGGGTCACCGGCATTACCGTACTGCTAAATTACGCCTTTAACATATCGCCGTCCCTTTCAACCATGGCATTGAATATCCCGCTGTTCCTGGTCGGAATGAAAATACTCGGAAAACGCCAGTCTGTCTATACAGGTCTCGGCATCGCATCCTTAACCCTGTTTCTGTGGCTGTTCGAATTACTGATCGACCGCGGATATGTCGTGCCTTTTCACACCGAGTATGATTATATTCTGGCTGCGCTTTATGCAGGGGTGACATTGGGGGCCGGGCTCGGCATCGTTTTCCGGTTCGGCGGGACGACTGGCGGCTCCGACATCATTGCCAGAATCATCAACCGGAAATTCGGGTTCAGCATGGGCCAGATCATTTTATCCCTCGATATTTTGATTATCGGTCTATCCTTATTCTTTATCCCGCTCGAGCGCATATTGTATACCCTGGTCGCCGTATTCATCGCTTCCAAGGTGATCGATTTCATACAGGAAGGGGCTTATGCCGCCAAAGCCTTCACCATCATCAGTGACCGGGCGCCTGATATCGCAAATCGCATATCTACCGAGATGGATCGCGGGGTCACGCTGATCCCGGCTATCGGCGCTTACTCCATGCAAGCCAAGCATATGGTATACTGCGTCGTATCGAGGCAGGAGATTCGCCGCCTTACGGGAATCGCCAAATCCTTGGACCCCCGGGCGTTTATTATCATTAATGATGTCAATGACGTGCACGGGGAAGGTTTTAAAGAGGAATAG	MKTSKLLHQLQTIIPIIAGSAIYAFGLLYFIIPNELMEGGVTGITVLLNYAFNISPSLSTMALNIPLFLVGMKILGKRQSVYTGLGIASLTLFLWLFELLIDRGYVVPFHTEYDYILAALYAGVTLGAGLGIVFRFGGTTGGSDIIARIINRKFGFSMGQIILSLDILIIGLSLFFIPLERILYTLVAVFIASKVIDFIQEGAYAAKAFTIISDRAPDIANRISTEMDRGVTLIPAIGAYSMQAKHMVYCVVSRQEIRRLTGIAKSLDPRAFIIINDVNDVHGEGFKEE				NA	NA	NA	NA	NA
AK002_02317	330	ypjD	COG1694	putative protein YpjD	TTGGGAAAATCAATGGCTGAAATGCAGCAGGAAGTCGATCGATACATATCACAATTCAAGGAAGGTTATTTCAGTCCTTTATCCATGATGGCCCGAATGTCGGAAGAGGTGGGGGAACTCGCCCGAGAAGTTAATCATCAGTTCGGCGAGAAGCCGAAAAAAATGGATGAAGCGGAAAATTCCATCGAAATGGAGCTTGGAGATATATTGTTTATTACGATCTGTTTTGCCAATTCCCTCGGCATCGATCTCGCGGAAGCGCATGATAAAGTGATGCATAAATTTTCTACGCGCGATGCCGATCGTTGGACGAAAATAAACACCGATTAG	MGKSMAEMQQEVDRYISQFKEGYFSPLSMMARMSEEVGELAREVNHQFGEKPKKMDEAENSIEMELGDILFITICFANSLGIDLAEAHDKVMHKFSTRDADRWTKINTD				NA	NA	NA	NA	NA
AK002_02318	546			hypothetical protein	GTGAAACCTGAAAGTTATATACAAAAAGCATATCGATGCATACTTCAAAATGATTTCGAAGAAGCGTTGCGTTGGTTTGAGCAAGCGATCATCGCGAATCCGGGAGATGCCGAAGTGCATTATCGGTGCTCCATTACCTACGGCAGAAGCAACAAGCTGGAGATGGCGATTACGCATGCGGAGGAAGCCGTCAGGCTGCAGCCGGACAAACCGGAATATGCTCTTCATTTACAGCATATCAAGGCTGCGGAGCTGGTGCAGCGAGCAAGAAAAATGGTGGAAAACCGCAAGGATGTGACCAAGGCTGAATTGTATCAAGCCGTGGGACATCTCAAATCAGCCGTAGCCATGGACCCTTTGTACGCTCAGGCTTATGTATGGCTTGCTCTTGTTTACAGTGAACTCGATGAGCATGCGCTCGCCATTACCACGCTTAAAGAGGTAATTTCGTTGTACCCGCAGGAGAGCGGGCTGCAGCATATTATGGAGGAACTCAAACAGCGCTTGAAATCATATATGCAGGATACAGCATCGGATGGAAAGTGA	MKPESYIQKAYRCILQNDFEEALRWFEQAIIANPGDAEVHYRCSITYGRSNKLEMAITHAEEAVRLQPDKPEYALHLQHIKAAELVQRARKMVENRKDVTKAELYQAVGHLKSAVAMDPLYAQAYVWLALVYSELDEHALAITTLKEVISLYPQESGLQHIMEELKQRLKSYMQDTASDGK				NA	NA	NA	NA	NA
AK002_02319	804	dapB	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGGCAAACAAATGGACAGTTGCGGTCGTCGGTGCCGGCGGCCGTATGGGTAAAGAAGTAGTGAAGCTTGTATTGGGCGACGAGGAACTGGAACTGGTTGCTGCCGTCGGCTTGTCGGATGCGGGAGCCGATGCAGGAACGCTGGTGGGTCTGCCTGCCTGCGGCATTACGGTGACATCGGATCTGGAGATGGCGCTTGTCGAATCCAAACCGGACGTCATGGTTGATTTTACGGCGCCTCAATTTGCATACAGCAATACGGCGTTGGCCATCAAGCACGGCGTTCGCCCGATCATGGGCACGACCGGCTTTACGCCGGAGCAAATCGAAGAGCTGGACAAGCAATGTACGGAACAGAACATCGGCGGATTGATCGCGCCGAACTTTTCCATCGGAGCCATTCTGATGATGAAATTTGCTGCCCAGGCCGCCAAATATTTGCCTCACGTTGAAATTATCGAAACCCATGGCGACCAGAAGCTGGATGCTCCGTCCGGAACATCGATCAAAACAGCGGAAATGATTGCCGCGAACCGCGAGGAGATTCGTCAAGGCAATCCGAAGGAAGAGGAAGTCATTGAAGGTGCAAGGGGCGGATATTACAACGGCTTCCGAATTCACAGCGTTCGTCTGCCGGGCGTCTTTGCCCAGCAGGAGGTCATATTTGGCGGTTACGGTCAAAGCCTGAAGATCCGACATGATTCGTATGAACGTGCAGCTTATATGCCGGGCGTGAAAATGGCTATAGAGAAGGTAATGGGCTACACCGGTTTGGTCTACGGATTTGATCATTTTATTGACTAA	MANKWTVAVVGAGGRMGKEVVKLVLGDEELELVAAVGLSDAGADAGTLVGLPACGITVTSDLEMALVESKPDVMVDFTAPQFAYSNTALAIKHGVRPIMGTTGFTPEQIEELDKQCTEQNIGGLIAPNFSIGAILMMKFAAQAAKYLPHVEIIETHGDQKLDAPSGTSIKTAEMIAANREEIRQGNPKEEEVIEGARGGYYNGFRIHSVRLPGVFAQQEVIFGGYGQSLKIRHDSYERAAYMPGVKMAIEKVMGYTGLVYGFDHFID				NA	NA	NA	NA	NA
AK002_02320	420	mgsA	COG1803	Methylglyoxal synthase	ATGAATATTGCATTTATCGCGCATGACCGCAAAAAAGAGGAAATGGTCAATTTCGTTATCGCTTATGAAAATGTATTCGAAGATCATAAATTATACTCGACTGGAACGACGGGAACCCGGATTATGGAGCAAACCCAACTCAGCATTCACCGTTTTGCTTCGGGACCGCTGGGCGGCGATCAGCAGATCGGAGCTCTTGTGGCGGACAATGAGATGGACCTGATTATTTTTCTTCGGGATCCGTTGATGGCACAGCCTCATGAACCGGACATCAATGCACTCCTCCGTTTGTGCGACGTGCAGGGAATACCGCTTGCTACCAATGTGGCGACGGCTGAGATTCTCGTCAAGGCGCTGGACCGCGGCGATTTTGCATGGCGCGAACTCGTTCATAAATATAAACCGGGTGTGGATAGCTGA	MNIAFIAHDRKKEEMVNFVIAYENVFEDHKLYSTGTTGTRIMEQTQLSIHRFASGPLGGDQQIGALVADNEMDLIIFLRDPLMAQPHEPDINALLRLCDVQGIPLATNVATAEILVKALDRGDFAWRELVHKYKPGVDS	PGPT0001780_871	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
AK002_02321	708	bshB1	COG2120	N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 1	ATGAACACCAAACTGGACATATTAATCTTCGGAGCTCATGCAGACGATGCCGAGATCGGAATGGCAGGAACGATTGCAAAGCATACGGCAGTTGGACTGTCGGTCGGGATCTGCGATCTCACGCAGGCGGAAATGTCGTCGAACGGCACCGTCGCTCTTCGCAAGCAGGAGGCAGAGCAAGCTGCCGGTATTTTGGATCTCAAGGCCCGAACGAATCTGGGGCTGCCGGATCGCGGTTTGTTCGTGACGCCGGAGCATATTGAAAGGGTCACGGCCGAGATTCGCAAGTTTTCTCCTTCTATTGTATTTGCTCCCTACTGGGAGGATCGCCATCCGGACCATGTCGCTTGCAGCCGGTTGGTTGAGGAAGCGGTATTCAATGCCAAGCTTCGCCGATACATGCCCGAGCAGCCGCCGGTTAAGGTGGACGAGCTTTATTTTTATTTCATAAACGATATCGGAAGAACGGATTTGGTCGTTGACGTTACGGAGCAATACGGCGTTAAGGAGCAGGCCTTGTCTTGTTACCGTTCCCAGTTCGAGAAGGCTGAAGAAGATGCAGTCTCAACCCCGTTGACCGAGGGGTACATCGAGCGTGTGCGGGCCAGGGATTCACTGCTTGGAGCGCGCAGGCTTATTCCTTATGCAGAGGGCTTTGCTTGTAAAAGTCCGTATGTTGTTCATCTATTCGGCCCCAAGCAGGCATAA	MNTKLDILIFGAHADDAEIGMAGTIAKHTAVGLSVGICDLTQAEMSSNGTVALRKQEAEQAAGILDLKARTNLGLPDRGLFVTPEHIERVTAEIRKFSPSIVFAPYWEDRHPDHVACSRLVEEAVFNAKLRRYMPEQPPVKVDELYFYFINDIGRTDLVVDVTEQYGVKEQALSCYRSQFEKAEEDAVSTPLTEGYIERVRARDSLLGARRLIPYAEGFACKSPYVVHLFGPKQA	PGPT0019570_734	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
AK002_02322	1164	bshA	COG0438	N-acetyl-alpha-D-glucosaminyl L-malate synthase	ATGAATCAGCAACCATTAAAAATCGGCATTACCTGTTACCCATCGCTCGGCGGGTCAGGAGTCGTGGCGACCGAGCTGGGCAAACTCCTCGCGGAGCAAGGCCACCAGGTTCATTTTATCGCTCACAGCATTCCGTTCCGATTGGGAACTTTCCATAAAAATATTTTTTATCATGAAGTAGAAGTAAACGACTATTATGTGTTTCGTTATCCCCCATATGACCTGTCGCTGGCGACCAAAATGGCTCAGGTGGCAAAAATGCAGCAGCTTGACGTGCTTCATGTGCACTATGCCGTGCCGCATGCTGTATGTGCCTTCTTGGCCAAGCAGATGGTCGGAGATCAGCTGAAAGTCGTTACGACGCTCCACGGAACCGATATTACGGTGCTGGCGCAGGACGAGTCGCTGAAGGATTTGATCCGGCTAGCCATTAATGAAAGTGATGCCGTTACCGCCGTTTCTCAGGATCTTATTCGTGAGACGCGGGAGCTGCTGGATATAAGCCGTGACATCGACCTTACCTATAATTTCGTGGATCCGCGGGTGTATTATCCGCGGGATTCGAGATCGCTGCGTAAGGATTATGCCGATCCAAACGAAAAAATCATGATGCATATTTCCAACTTCCGTCCCGTCAAACGGGTAGGCGACGTATTGGAAATATTCGCCCAGGTGCAGGAGCAGGTACCCTCGAAACTGCTATTAGTAGGGGAAGGGCCGGAGCTTCCGAAGATCCAATGCCGGATCAATGAGCTGGGGCTTGGCAGCAAGGTGCATTTTCTCGGCAAACAAGACGAGATTGCCCATGTGATCTCGATGGCGGACGTGCTTCTGCTCCCATCCGAGAAAGAAAGCTTTGGCTTGGTCGCCCTGGAAGCAATGGCGTGCGGAGTACCAACGGTCGGATCGACGGCAGGCGGCATTCCCGAGCTGGTTACCCATGGGGAAACCGGGTATCTGGCTCCAATCGGAGACACGCATTCGATGGCTCAGCATGTGCTGGATATATGTAAGGATGAAGCCCTCAGCGAACGGCTGCGCAAGGCATGCCTGCAGCGTTCCAAAACGATGTTCTGCAATGAATTGATACGGGGCAAGTACGAGGAAATCTATTACCGAGTATTGGGACGGGAGGTTAGCGAGCTGAAGCCGGTTTGCGGTTAA	MNQQPLKIGITCYPSLGGSGVVATELGKLLAEQGHQVHFIAHSIPFRLGTFHKNIFYHEVEVNDYYVFRYPPYDLSLATKMAQVAKMQQLDVLHVHYAVPHAVCAFLAKQMVGDQLKVVTTLHGTDITVLAQDESLKDLIRLAINESDAVTAVSQDLIRETRELLDISRDIDLTYNFVDPRVYYPRDSRSLRKDYADPNEKIMMHISNFRPVKRVGDVLEIFAQVQEQVPSKLLLVGEGPELPKIQCRINELGLGSKVHFLGKQDEIAHVISMADVLLLPSEKESFGLVALEAMACGVPTVGSTAGGIPELVTHGETGYLAPIGDTHSMAQHVLDICKDEALSERLRKACLQRSKTMFCNELIRGKYEEIYYRVLGREVSELKPVCG	PGPT0019565_398	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
AK002_02323	1299	cca		CCA-adding enzyme	ATGGCAGATAAGTATAATTCGATTCGATGGCGCAACGCGGACCCGGACATGGCCGAGCGGAGTGCGGATGTGATCCGCACTCTGCTTCGGCATGGGCATGAAGCGTATTGGGTCGGAGGCTGTGTCCGTGATGAATACATGGGGCGCAGGGTCAGCGACATGGATATTACCACCGCCGCCTTGCCGGAAGTCACCTGTTCCGTCTTCCCCAAAGTAATTCCTACAGGAATCAAGCACGGAACCGTGACGGTGCTGATGGAAGGCCAGTCTTTTGAAGTGACGACATATCGGGTGGAGAGCGGTTATGAGGACCATCGTCATCCGACGGAGGTCGCTTTCGTCGGGGAAGTGAAGGAAGATTTGAGGCGGCGCGACTTCACCATGAACGCAATGGCCAGAGGAATTGACGGTTCCTGGGTTGACCCGTTCGGCGGACGAGAGGATATTGACCGGAAGGTGATTCGCTGCGTGGGCGATGCCCGTCTTCGATTTCGCGAAGACGCCCTGCGCATGGTGCGCTGCATCCGCTTTGCCTCTGTGTTCGGTTTCTCCATCGCACTCCGTACATGGAGAGGGATCCTCTCAGAGAGAGACACCTTAGGATGGATTGCGATGGAACGCATCCGCAGTGAATTCGAGAAAATTCTGGCTGGGCCGTCCCCGCTGCGCGGATTGGAGATGTTTGTCCGCAGCGGACTGCATTCCCGGATGAAAGCGCCCTTTCCCTATACCACGCATGATAGGAAGACGATCGAAGCCATGGAGCGGATTGAACCGGATCACGCGACGATCCGTTGGTCCTTGCTCCTGCTCGCATGCGGCATTACAGCTCAGGAAGCAGAGGAGCTCCTGCGGTCATGGACGTTTTCCAATAAGCAGCGGGAATCCATCGTGAAACTGCTCTCGCTGCATGAATCCTATCTGCAGCAACCGAATGCGGGCGATGCCGAAAGCAGCAGGCTCAAGTGGATCGGACTAGTCCTTGCCCATGGGGTCGAGACAGCCCAAGGATGGCTTGAAATGCAAACGGCTTTGCATCACACGGGAGCGTCTTCTGCTCCGCTGACCTTCATCCGGCAGCTTGACGTGTGGCTGCAGGATCTCCGGATCCGCAGCTTGAAGGATTTGGCCATCACCGGCAGCGAATTGCTTGAGACGCTGGGCAGACGCGGAGGCCCGTGGCTTGGGGAACTTCTCGGGCTGCTGCTGGGGAAAGCGGCGGCAGGTTTGATTAACAACGATAAGGAATCGTTGATTGAAGAAGCAAAGCGGGTGGTAATTCATAATGAAGGATCATGA	MADKYNSIRWRNADPDMAERSADVIRTLLRHGHEAYWVGGCVRDEYMGRRVSDMDITTAALPEVTCSVFPKVIPTGIKHGTVTVLMEGQSFEVTTYRVESGYEDHRHPTEVAFVGEVKEDLRRRDFTMNAMARGIDGSWVDPFGGREDIDRKVIRCVGDARLRFREDALRMVRCIRFASVFGFSIALRTWRGILSERDTLGWIAMERIRSEFEKILAGPSPLRGLEMFVRSGLHSRMKAPFPYTTHDRKTIEAMERIEPDHATIRWSLLLLACGITAQEAEELLRSWTFSNKQRESIVKLLSLHESYLQQPNAGDAESSRLKWIGLVLAHGVETAQGWLEMQTALHHTGASSAPLTFIRQLDVWLQDLRIRSLKDLAITGSELLETLGRRGGPWLGELLGLLLGKAAAGLINNDKESLIEEAKRVVIHNEGS				NA	NA	NA	NA	NA
AK002_02324	990	birA	COG0340	Bifunctional ligase/repressor BirA	ATGAAGGATCATGATCAAGACAACGCACTTCTGAGAATGTTCCAGGAGAATGCCGGTCAGTTTCTGTCCGGGGAAGAGATTAGCCGAAAATTGTCCATCAGCCGGACGGCCGTATGGAAGCAGATCAATAAGCTTCGGAATGCAGGGTATGATTTCGAGGCCGTTCCGCGGCTTGGCTACCGCATGCTGGACGAGCCGGACCGACTGAGCTGGGATCAACTGACAGCGGGCATGACCAGTCGGTACTTCGGCAAATCGATCAAGCTGTTGGACAAAACGGCGTCAACTCAGGAGGATGCCCGGCAGTTGGCAGAAGAAGGGGCAGCCGAAGGCACGCTTGTCATCTCGGAAGAGCAGACGGGGGGGCGGGGCAGAATGGGAAGGAAATTTCATTCCCCGAGAGGCAAAGGCATATGGATGAGCCTGGTGCTCAGACCGAAGCAGCCGCTGCATCTAACCCAGCAGCTTACCTTATTGACAGGCGTGGCGGTATGCCGTGCCATCGCTAAATCCGCCGGCGTGCAAACCGACATCAAATGGCCGAACGATATTCTGTATCAGGGCAAAAAGGTTTGCGGCATTCTGCTGGAGTCTGCAACCGAAGATGAAAGAGTACGCTACTGCATTGCCGGCATCGGAATCAGCGCGAATCTGAAAGAAGCGGATTTTCCAGAGGAATTGCGGAACGTTGCGACGTCGATTCGCATCGCCGGCGGGAAAACCGTCAACCGGACATCGCTGATCCAGTCCATCATGTCGGAGATGGAGGTTTTATACGAATTGTACAACGAGGAGGGCTTCGAGCCCGTAGCCTCGCTCTGGGAAGCTTTATCCGGTACGGTGGGCCGCGAGGTTCAAGTACAGACGGCCCGTGACCGTTTTAGCGGGATTGCGACGGGACTCAACCAGGATGGCGCTCTGCTGGTCCGCAACCAGCATGATGAACTCGTTCCCGTGTATTCAGGCGATATTCTTTTTAATACCAGGTAA	MKDHDQDNALLRMFQENAGQFLSGEEISRKLSISRTAVWKQINKLRNAGYDFEAVPRLGYRMLDEPDRLSWDQLTAGMTSRYFGKSIKLLDKTASTQEDARQLAEEGAAEGTLVISEEQTGGRGRMGRKFHSPRGKGIWMSLVLRPKQPLHLTQQLTLLTGVAVCRAIAKSAGVQTDIKWPNDILYQGKKVCGILLESATEDERVRYCIAGIGISANLKEADFPEELRNVATSIRIAGGKTVNRTSLIQSIMSEMEVLYELYNEEGFEPVASLWEALSGTVGREVQVQTARDRFSGIATGLNQDGALLVRNQHDELVPVYSGDILFNTR	PGPT0022055_467	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
AK002_02326	888	panB	COG0413	3-methyl-2-oxobutanoate hydroxymethyltransferase	ATGGCAGGCAAACAACCACTGAACATCGTGAAATTGAAGAACATGAAGAAGAAGGGCGTACCGATCACGATGCTGACCGCGTACGATTATCCTTCCGCCAAGCTGGCGGAAGAAGCGGATATTGATATGATACTGGTGGGCGATTCCCTCGGCAACGTTGTGCTGGGTTATAACTCCACGATTCCCGTCACGCTGGACGACATGGTGTACCACACGCGCGCCGTCGCTCGCGGAGCCGAGGATACGTTCATCGTAGCGGATATGCCGTTCATGACTTATCATGGAGGCATCGATGAAAGCTTGCGCGGCGTGCGGCGATTGATGCAGGAAGGTCATGCGCATGCCGTGAAAATGGAGGGCGGCGAAGAAATCGCCGATACCGTAAAACGGATCGTACAATCCGGGGTCCCGGTGCTGGGCCATATCGGGCTGACGCCTCAGTCGGTAAACCAGATCGGCGGCTACCGGATTCAAGGCAAGGATGCCCAAGATGCCAAGCGGCTCATGAACGATGCGAAGGCGCTTGAAGCGGCCGGCGCATTTGCTATCGTGTTGGAACTGGTTACGGAAGAAACGGCTGCTGACATATCCAAAGCGCTGAGCATCCCGACCATTGGCATCGGCGCCGGTCGTTATTGTGACGGCCAGGTGCTGGTATTCCATGATATATTGAAATACGCATCCCCTTATCGGGACAAACGCTTCGTGAAAACCTACGCCGATGTCGGCTCCGTTATCCGCGAGGGTATCACGCAGTATGTGAAGGAAGTGAAGGACCGCGCATTCCCGGCCGAGGAGCATGTGTTCAAGACGGAGAACAATGCCGGTTCCGAAACGACAACGGCATTATATGGAAGCCAGAAGGAAAAGGTGGGCACGACATCATGA	MAGKQPLNIVKLKNMKKKGVPITMLTAYDYPSAKLAEEADIDMILVGDSLGNVVLGYNSTIPVTLDDMVYHTRAVARGAEDTFIVADMPFMTYHGGIDESLRGVRRLMQEGHAHAVKMEGGEEIADTVKRIVQSGVPVLGHIGLTPQSVNQIGGYRIQGKDAQDAKRLMNDAKALEAAGAFAIVLELVTEETAADISKALSIPTIGIGAGRYCDGQVLVFHDILKYASPYRDKRFVKTYADVGSVIREGITQYVKEVKDRAFPAEEHVFKTENNAGSETTTALYGSQKEKVGTTS	PGPT0008740_464	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
AK002_02327	891	panC	COG0414	Pantothenate synthetase	ATGAAAGTGATTCGCAGCATTGCGGATTTAAGATCAGAGCTTCGGGACCGGCTGGAATCCGGCAGAGGCCCGGTAGGCCTCGTGCCTACGATGGGATATTTGCATGAAGGACACGCCAGCCTGATGCGGAAGGCGCGGGAAATGTCAGGTACGGTTGTCATCAGTATCTTTGTCAATCCGATTCAGTTCGGACCGGGCGAGGATTATGAAACTTACCCACGGGATGAAGCGCGTGACCTGGCGTTGGCGGAATCCGAAGGGGTGGACGTGGTATTCATTCCTGCGGTTGAGGAAATGTATCCTCAGCCGACCAAAACCAAAATTGCCGTAGCGGAAATTACGTCATTGTTGTGCGGGGCCTCCCGCCCCGGACATTTCGACGGTGTCACCACGGTTGTTAATAAATTGTTCAATATCGTAAAGCCTGACTATGCCTTCTTCGGGATGAAGGATGCACAGCAGGTGGCCGTCATAGAGCAAATGGTACGGGATTTGAATATGGATGTGACCATCGTGCCATGTCCGATCATTCGCGAATCCGACGGCCTTGCCCTAAGCTCGCGCAACGTGTATCTGAAGCCGGAAGAGCGGGAACAGGCCCTTGTGCTGTCGGGCTCGCTGCGGACGGCTCAGGAGGCAATCCGGCAGGGACAAGCGACGACGGCAGGAGAGATCCGCGCTCATCTTCGGGATTATATATCCCGCTCTCCGCTCGCTGATATTGATTACGCGGAATTGCTCACCTTCCCGGAGCTCGCGCCCGTGGAAGATTCATACCGCATTGTGGATGAAGACAGAACCGTCATCATGGCGCTGGCCGTGCGTTTTGGCCGTACCCGTCTCATTGACAATGCATTACTTCAACCAAAAGTAGGGGGATCCCATGTTTAG	MKVIRSIADLRSELRDRLESGRGPVGLVPTMGYLHEGHASLMRKAREMSGTVVISIFVNPIQFGPGEDYETYPRDEARDLALAESEGVDVVFIPAVEEMYPQPTKTKIAVAEITSLLCGASRPGHFDGVTTVVNKLFNIVKPDYAFFGMKDAQQVAVIEQMVRDLNMDVTIVPCPIIRESDGLALSSRNVYLKPEEREQALVLSGSLRTAQEAIRQGQATTAGEIRAHLRDYISRSPLADIDYAELLTFPELAPVEDSYRIVDEDRTVIMALAVRFGRTRLIDNALLQPKVGGSHV	PGPT0008750_750	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
AK002_02328	384	panD	COG0853	Aspartate 1-decarboxylase	ATGTTTAGAACGATGATGAAATCCAAAATCCACCGCGCAACGGTGACGGAAGCCAATCTGAACTATGTGGGCAGCATTACCATTGATGAGAATCTAATGGAGGCTGCAGACCTTCTGGAGAATGAAAAAGTTCAAATCGTGAACAATAACAATGGCGCCCGTCTGGAAACGTACGTGATCAAAGGCGAGCGCGGCAGCGGCGTCATCTGCTTGAATGGGGCAGCCGCACGGCTCGTACAGCCCGGCGACAACGTCATTATCATTTCTTATGCCATGATGTCCAAAGAGGAATACGACCATCACACCCCGACGGTCGTGATCGTCGACGAGTCGAATAAGCCGGTTACGACGGAGTATCGCGAAGTTCACGCCGCCATTCTCTGA	MFRTMMKSKIHRATVTEANLNYVGSITIDENLMEAADLLENEKVQIVNNNNGARLETYVIKGERGSGVICLNGAAARLVQPGDNVIIISYAMMSKEEYDHHTPTVVIVDESNKPVTTEYREVHAAIL	PGPT0008890_1116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
AK002_02329	630			hypothetical protein	ATGTTTCAACATGTATTCGCCGAAATGAACAACATGTTAGATGAAATTGTGAAGCATTACCCTTCTGCTCAAGGTCCCCAAAAACAGGCGCTGGTACAAAACTGGAACATGCTCAAAAGCATGAGCGAGGGCATTATCGAGGAGTGGCTGCATTTTGAAGAAAAAATGGCCATCTTCCGCGAGAGTGCAGCGTCACCTCCGGTTTTTCCGCCGACCGAAGCGCCTGAATTGCAGCTGGATGCGTTCGTTCGCGGTCAAGGTTACTACAAGCTGTTGATGTTCCAGCCGGCCATACAGCAGTTTGAGGCAGCCGCTGCGGTATTTCCGGACAGCCTTCTGATCAAGTTGTACATTGCCATGTCCCATCTGTATTTGGGGCAAACCGCCCAAGCATCCGACGTATTGATCTCCATCCTGCCCCTGGCTGACAACAGAAAGCTTCGGGCGATGATCTACAATGCGCTTGGATGCATCGAGGTGTTGAATGGACAGCAAGCAAAGGCCGAGGAACATTTTGCACTGGCGATTCATAGCGATCCGACGCTTCCCGACCCCATGATCAACCTGGAGGTCTGCAAGCAGAATCGCGGTGAGCTCCAGTACGGCAGCCAATTGATCTCTTTGCTGTAG	MFQHVFAEMNNMLDEIVKHYPSAQGPQKQALVQNWNMLKSMSEGIIEEWLHFEEKMAIFRESAASPPVFPPTEAPELQLDAFVRGQGYYKLLMFQPAIQQFEAAAAVFPDSLLIKLYIAMSHLYLGQTAQASDVLISILPLADNRKLRAMIYNALGCIEVLNGQQAKAEEHFALAIHSDPTLPDPMINLEVCKQNRGELQYGSQLISLL				NA	NA	NA	NA	NA
AK002_02330	2916	dinG_1		3'-5' exonuclease DinG	ATGCTGTTAATTAGTCTGGAGGAAAGGGATTTTATCGAAATGAAATTTGCCGTATTGGATTTTGAAACCACGGGCAACCAGTCTGCAGATGAAATCATTCAGGTTGGACTGGCCATCATCGAAGAGGATCGAAGCATATCCCGCGTATACGGCACCTATGTCAATCCCGGGATTCCGATCCCTCCTTTTATTACCGGTTTGACCGGCATTTCCGACAGTGATGTAGCGGATGCTCCGTCATTGGAAGAAATGATGATGGAGCTTGTGCCCATGCTCGACGATGTCGTATTGGTTGGACATAACGTCGCTTTTGATTTTAACTTTTTGCAAAACGCGCTCGATCGCTGCGGCTATTTACCGTTCAGCGGCCGTATTCTAGATACGATGCACTTCTTAAAAATATGCTTTCCCTCGCTCCCGTCCTACCAGCTCGGGATGGTCTCTTCTCATTTCGGCCTGGAGCATGACCGTCCGCACCAGGCGGACAGCGATGCGCTTGCCACAGCCTATGCGCTGCTGAAATGTTTGGAGGAGATCGACGAGCTTCCGCTGCTCACCATTCAGCGTTTAAGCGACCTGTTTGCCGACGAGGACAGCGACTTGGCCTGGTTCTTTGACGGCATTCGTTCCGACAGGGAGCTCCAAGCCGTACAAGCGGGAGACACCCATACGTACTACCGCCAGTTTGCCTTGGCGGTGGATGATTGGAACGATATAGCACCTGTCAGGGATGAGACGGAGCCTAACCCCTTGGCCGATGTAAGCTTCGAGCAATACATGAACGATGTCCGTGAACGCCTGAAGGAAACGCTGCCTCATTATGAGAGCAGGGATGCCCAGGACATGATGTTCCAGGAAGTGATGCAGGCGCTGGATGACAATAAACATCTATTGATCGAAGCAGGCACGGGAACCGGCAAATCCCTTGGATATTTGCTGCCGTCGATCTATCAAAGCGTGAAGCAGGAACAGAAGGTTATGGTGAGCACGCATACGATCAACCTTCAAGAACAGCTGCGTGACCGGGATATTCCCCTGCTCACCCAGGTTGTTCCTTTTCCTTTTAAGGCGGCCATTTTCAAGGGCAGGGGACATTATTTGTGTTTGAGAAAATTTGAACATAAAATAAATAGAAGAGATTTTCATTCCCCGAAGGAAGACGTAATCACTGCGGCCCAGATGCTGGTCTGGCTGACCCAGACGGAGAACGGGGATGACGAAGAGCTAAACCTAGGCGGACGCGGAGGGGATTTTTGGGAGACCATCTCCAGCGATTCGGATTCTTGCCTCGGACGCGCCTGCCCTTGGTTCCGCAAATGCTACTATCACAGGGCCAAGCATGAAGCAGGCATCGCGGATGTCGTCATTACGAACCATTCGAAGCTGTTCACCGACGTGAAGGCGAATCATCAGCTGCTGCCAAGCTATGAGCGCCTCGTCATCGACGAAGCGCATCATCTTGAGGATGTCGCCGGCAAGCACCTTGGCTTGCAAATGAAGTATTTTTCGGTGGTCCATACCTTGACCCGCATGTACAAAGACAGCCGAAGCGGGCAGCTCCCGGCTCTGCGCCAGCTGCTGCAAGCTTCGCCGCACGAGAAGGCTGTCGAATGGTCTTCCGTCATCGACCGTTTGTATCCGGACCTGATTACCGCAAAAGAGAACTGGGATCGGCTCAGCGATCAATTGTTCGGACTGCTTCCGGAACGCGGAGACGCTTCTCCGGGAGATGCCGGCCAATTCTCGCTCCGCCTGTCGCCGCTTAAGAAGCCGAAGGATTGGGATTCGATGGCCGAGCTGGAGCATCAAATTCATCTGACGCTGGGCGATGTCGTGCGCAAGGGCGATAAGCTGATCGCCGAAATGAAGGAAGATTTGGATGACTACAGCGCGGACAGCCTGTTAACCGACCTTTCGGGCCTGTTTAAGGACCTTGCCGCGCATCGTGAAGACCTGCGATCCTTCATGGCCCTGAACGATGAGGGCACGGTATACTGGATGGAGGCGAACGGCAATTTCCGCAGCAAATCGCTGCAGCTGTATGCCGTGCCCGTCGACGTGAGCGCTCATTTGAAGGAATTGTTTTTTGACAAGAAACAAAGCGTGATTCTGACATCGGCGACCTTGTCGGTGGACAAATCGTTTCAGTTCATGATCGAGAACCTGGGTCTTCAGGAAGCGGCTGAAGCGGGGAACCTGAACACGGTTCAGCTCCCGTCCCCGTTTAATTATAGGGAACAGGCCCTTCTTGTCGTGCCGCGCGATTTTCCGAGCGTGAAGGGATCGGTCGGGGATGCACTCTTTGTGAATACGCTCGTGAAGTCTTTGGCCGATACGGCCGTCGCTACACATGGCCGCATGCTCGTCCTGTTCACTTCGTACCGGATGCTGCGCCAGGTGCACGAGCCGCTGAAAGAAGCGCTGGCATCAAGCGACATCACGGTATTGGGACAAGGTATGGACGGAACCAGCCGTACCAAGTTAATCCGAAGATTTCAGGACAACAGCGCTTCCGTGCTGCTGGGCACCAGCTCCTTCTGGGAAGGGGTAGACATCCCGGGTGAGGCGCTGACTTGTCTAGCCATCGTCCGGCTGCCGTTCCAGCCGCCGAATCACCCCTTGGTCGAAGCCAAGAGCGAACTGCTGCAGCAGCAGAAGAAGAATCCCTTCATGAAGCTTTCGGTTCCGCAAGCGGTCATTCGTTTCAAACAGGGGTTTGGGCGTCTGGTGAGAACAGCACAAGATAAAGGGATCGTGATCGTGTACGATACCCGGGTCATTGAATCCTATTACGGGAAGTATTTCTTATATTCCTTGCCGGGGCCGAAGATGGAGCACATGCCGACAGAGGGGATCGTTCCCCGAATTTCGGAATGGCTGCAGGAAGAGGCAAGCGCGGGAAACCAAGCTGAATAA	MLLISLEERDFIEMKFAVLDFETTGNQSADEIIQVGLAIIEEDRSISRVYGTYVNPGIPIPPFITGLTGISDSDVADAPSLEEMMMELVPMLDDVVLVGHNVAFDFNFLQNALDRCGYLPFSGRILDTMHFLKICFPSLPSYQLGMVSSHFGLEHDRPHQADSDALATAYALLKCLEEIDELPLLTIQRLSDLFADEDSDLAWFFDGIRSDRELQAVQAGDTHTYYRQFALAVDDWNDIAPVRDETEPNPLADVSFEQYMNDVRERLKETLPHYESRDAQDMMFQEVMQALDDNKHLLIEAGTGTGKSLGYLLPSIYQSVKQEQKVMVSTHTINLQEQLRDRDIPLLTQVVPFPFKAAIFKGRGHYLCLRKFEHKINRRDFHSPKEDVITAAQMLVWLTQTENGDDEELNLGGRGGDFWETISSDSDSCLGRACPWFRKCYYHRAKHEAGIADVVITNHSKLFTDVKANHQLLPSYERLVIDEAHHLEDVAGKHLGLQMKYFSVVHTLTRMYKDSRSGQLPALRQLLQASPHEKAVEWSSVIDRLYPDLITAKENWDRLSDQLFGLLPERGDASPGDAGQFSLRLSPLKKPKDWDSMAELEHQIHLTLGDVVRKGDKLIAEMKEDLDDYSADSLLTDLSGLFKDLAAHREDLRSFMALNDEGTVYWMEANGNFRSKSLQLYAVPVDVSAHLKELFFDKKQSVILTSATLSVDKSFQFMIENLGLQEAAEAGNLNTVQLPSPFNYREQALLVVPRDFPSVKGSVGDALFVNTLVKSLADTAVATHGRMLVLFTSYRMLRQVHEPLKEALASSDITVLGQGMDGTSRTKLIRRFQDNSASVLLGTSSFWEGVDIPGEALTCLAIVRLPFQPPNHPLVEAKSELLQQQKKNPFMKLSVPQAVIRFKQGFGRLVRTAQDKGIVIVYDTRVIESYYGKYFLYSLPGPKMEHMPTEGIVPRISEWLQEEASAGNQAE				NA	NA	NA	NA	NA
AK002_02331	666	rex	COG2344	Redox-sensing transcriptional repressor Rex	ATGAAATCGGAAAAAATTTCGGAAGCCGTGGTCCGCAGATTACCTGTATACTTGCGCTATTTGAATGAGCTTCAGAAGAGGGAGGTTTCCACGGTTTCCTCCCAGGAGCTGGGACAGAAGCTGGACCTCAATCCTGCTCAAATTCGTAAGGACCTGGCGTATTTCGGTGATTTTGGACGGAAAGGGATCGGATATGATGTTTCTTATCTGATCGAGAAGATTCGCCAGATTCTGAAGCTGGACCAGAAGATCAATGTCGCATTGGTCGGGGCCGGTAATCTTGGACATGCATTATCGAATTACAATGCATTCCTGAAGGATAATATGAAGATTGTGGCGATTTTCGATTCGTATTCTCCCAAAGTTGGCATGAAAATTAACAATTTGGTCGTACAGCCGATGGAAGAGCTGGAGAAGACGGTTCATGAGCACGGCATTCGAATCGGAATTATCACCGTTCCGGATTTCGAAGCGCAGAACGTAGCGAATCAGCTTATCGCCTCAGGGATCGAGGCGATTCTGAACTTTGCGCCAACCATCCTGAAAGCCCCAGCCCATATCCGGATTCATACGGCTGATTTTACAACGGATTTGCAAAGTTTGGCCTATTATTTGGATAACGGCAAGGAGGATGCAGCACATGACAACAACGAAGTGGATGGTTAA	MKSEKISEAVVRRLPVYLRYLNELQKREVSTVSSQELGQKLDLNPAQIRKDLAYFGDFGRKGIGYDVSYLIEKIRQILKLDQKINVALVGAGNLGHALSNYNAFLKDNMKIVAIFDSYSPKVGMKINNLVVQPMEELEKTVHEHGIRIGIITVPDFEAQNVANQLIASGIEAILNFAPTILKAPAHIRIHTADFTTDLQSLAYYLDNGKEDAAHDNNEVDG				NA	NA	NA	NA	NA
AK002_02332	1302	mtaD	COG0402	5-methylthioadenosine/S-adenosylhomocysteine deaminase	ATGACAACAACGAAGTGGATGGTTAAGAACGGAACGTTTGCTGTACTGGAGGAAGACCGATCCGTGCTTCGCGGATACATGGTGGTTGAGAACGACAGGATCACGTACCTGGGCGAAGAGGAGCCCGTCGTGGAAGAGGGAACAGAGATTATCGACGGAACCCATCTGTTCTTCCTGCCTGGATTGGTGAACACGCATGGACATGCCGCCATGTCGCTTCTCCGCGGTTATGGCGACGATCTGGCGCTGCAGGTATGGCTTCAGGAAAAAATGTGGCCGATGGAAGCCAAATTCACGTCAGACGACGTATATTGGGGCACATCGCTCTCCGTGCTGGAGATGATCAAGGGCGGAACCACGACGTTTGTCGATATGTATGACCATATGGATCAGGTCGCGAAGGTTGTCCAGGACTCGGGAATGCGCGGTGTCCTGACGCGCGGCGTAATCGGTTTATGCCCGCCCGAGGTACAGCAGCAGAAGCTGGATGAGGCGGTGGCATTCGCGAAGGATTGGCATGGCAAGGCTGACGGCAGAATTACGACGATGATCTCGCCGCACGCGCCTTATACCTGCCCGCCGGATTTCATCGAAAAATTCGTTCAAGCATCCCATGACTTGAACCTGCCTTTGCATACCCATATGTCCGAAACGGAAACCGAAGTGGCTCAGAATGTTAAGGATTACGGACTTCGCCCCGTTGCCCATTTGGAGAAGCTGGGCATGTTCTCCCGTCCTACGCTTCTTGCGCATGCCGTTCATCTGACCGATGAAGAAATCGAAGTCTTGGCCAAGCATCAAGTAGCCGTATCGCATAATCCCGGAAGCAATTTGAAGCTTGCCAGCGGAGTCGCCCGCGTACCTGCGCTGCTGAAAGCCGGCGTAACGGTGTCGCTCGGTACCGACGGACCTGCTAGCAACAATAACCTGGATATGTTCGAAGAGATGCGGCTGGCTGCCCTGATCCATAAAGGAGTAAGCGGGGATCCGACGGCCATTCCGGCCTCCGAAGCGCTTCGAATGGGTACGGAGTACGGAGCCAAGTCCGCTTTCCTTGAGGATATCGGTACGCTCGCGGTAGGGATGAAAGCCGATATGATCGCATTGAATACGGATCAGGCGCATTTCCTTCCGCGGACCGACTATATTTCTCACGCGATCTACTCTGCCAGCGCGAAGGATGTAGAGCATGTATGGGTTGACGGCAAGCAGGTGGTGAAGAATGGCGCGAGCCTTACTCTCGACGAGGAACGCATCCGCCGGGAAGCGCAGCGTGCATTTGAGCGTCTTACAACCCTCTAG	MTTTKWMVKNGTFAVLEEDRSVLRGYMVVENDRITYLGEEEPVVEEGTEIIDGTHLFFLPGLVNTHGHAAMSLLRGYGDDLALQVWLQEKMWPMEAKFTSDDVYWGTSLSVLEMIKGGTTTFVDMYDHMDQVAKVVQDSGMRGVLTRGVIGLCPPEVQQQKLDEAVAFAKDWHGKADGRITTMISPHAPYTCPPDFIEKFVQASHDLNLPLHTHMSETETEVAQNVKDYGLRPVAHLEKLGMFSRPTLLAHAVHLTDEEIEVLAKHQVAVSHNPGSNLKLASGVARVPALLKAGVTVSLGTDGPASNNNLDMFEEMRLAALIHKGVSGDPTAIPASEALRMGTEYGAKSAFLEDIGTLAVGMKADMIALNTDQAHFLPRTDYISHAIYSASAKDVEHVWVDGKQVVKNGASLTLDEERIRREAQRAFERLTTL	PGPT0023665_1923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960	NA	NA
AK002_02333	519			hypothetical protein	TTGAAGAAAAAAACGAAGTGGATACTGCTGAGCGTGTCCGGCGTCCTGCTACTATTGCTTGGCCTACAGCTCTATTATTCCTATGTTATGAAAGATACGTGGAATGAAGAAAGAATGGCGATCCTTGCAGCGAAACAGCATGGCCAATTGGTCTCGTCCGACAAGACCTATAAATCGGTATGGGGCGAGGACAATAACTATTGGGTGGTCAGCGGGAAAGATAAAGACAACCAAGACCGCATGGTCTGGGTGAAGTTTACGGACGATAACGTTCCTGTTGAAGGGGCAGATGCCGTTCAGTCCGTGTTATTGAATACGGGCATGTCAGAGGCCGTGATGCGGGACCAGATCCGTAACGAAATGCCGGGTGCGGTCATCAAGCGATTGCTGCCGGGAATGTATGAAGGCGAGTATGCCTGGCAGCTGCAGTATGAAAACAACGGTCAGCGCGGCTACAGATTCTATCGTTTTCAAGACGGAAACGCCATCGGAAATGATATTATTCTTCCTAATCAATAA	MKKKTKWILLSVSGVLLLLLGLQLYYSYVMKDTWNEERMAILAAKQHGQLVSSDKTYKSVWGEDNNYWVVSGKDKDNQDRMVWVKFTDDNVPVEGADAVQSVLLNTGMSEAVMRDQIRNEMPGAVIKRLLPGMYEGEYAWQLQYENNGQRGYRFYRFQDGNAIGNDIILPNQ				NA	NA	NA	NA	NA
AK002_02334	534			hypothetical protein	ATGAAACTGCGCATTGTACCTATCATGCTGACTGTCGTGATCTCAGCATCGGTCCTCTTTGGCGGTTGGTTTCTGTATCGGCAGATGGCTTTGCAGAATCCGCTCGCAACTGTTGTGTCACAATACGATGGCGTGAAAAGTTCTCATATAGATATTAAACAGGATACCGTGACTTTGAATCTTGATTTGGCTCCGGATGCGAATTTACAAGGTTTGGTTCAGCATATTAAGCAGGAAGGCAAGTCCGTGATCGGCAAGCGGGAATTGAGAATCCAGGTGGAGGACCATTCCTCGGAAGCATTGGATCAATGGTGGGAGCAAGCGATGCTGTCGGTTGCCGAAGCGATGGACAATAAGCAGTATACCGATATTCAATCATCGCTCGAGCAGCTGGCTGCCCAGTCACCGAATTTGAAAGCAAAAGCAACGATCGACGACACCAATGTCTATGTCAGCTTGTCGGACGGCAAGTCTGGTAAATTTATAATCTTGCCGCGTCAACCTGGCAAAATGGAGGTGTGGAATCATGCCTAA	MKLRIVPIMLTVVISASVLFGGWFLYRQMALQNPLATVVSQYDGVKSSHIDIKQDTVTLNLDLAPDANLQGLVQHIKQEGKSVIGKRELRIQVEDHSSEALDQWWEQAMLSVAEAMDNKQYTDIQSSLEQLAAQSPNLKAKATIDDTNVYVSLSDGKSGKFIILPRQPGKMEVWNHA				NA	NA	NA	NA	NA
AK002_02335	1503	ftsH_2	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGCCTAAATTAGCAAAAGAAATTATCTTAGGCTTCATTCCGGTTTTGTTGGTATTCCTTGTGTTTGTCGGCGTGAACATCGTGCCTCTCTTAATAGCGACAGGACTCGTAGGCGGCTTGCTGTTTATAGCCAAGATGAAGGGCGGCATCGCGGTTGGTGCCGGAAATGAGCGAAAGCGGAAGAAGAGCGGCCCGGCCAAGCTGACGTTCGAGGAAATCGGCGGGCAGGATAACGCTAAGCAGGAGCTGCGGGAAGCATTGGATTTTCTGATTCGTCACGAAGATATTAAGAAATTCGGCATTCGTCCATTGAAGGGGATTCTTCTCACAGGGCCTCCGGGAACAGGGAAGACCTTGATGGCCAAGGCCGCTGCCCATTATACCGATTCTATCTTTGTCGCTGCTTCAGGCAGTGAATTCGTGGAGATGTATGTCGGCGTCGGTGCAGGGCGTATCCGGGATTTGTTCAAGGATGCCCGCAACCGCGCGGCCAAAGAAAACAAGCAAAATGCCATCATCTTCATCGATGAGATCGACGTCATCGGCGGTAAACGTGAAGGCGGCCAACAGCGAGAGTACGACCAGACGCTGAATCAGCTCCTGACCGAAATGGACGGCATCTATTCGCAGGAAACGCCTCGCATTCTGGTGATCGCCGCAACGAACCGTAAAGAGATGCTGGACAGCGCGCTGCTGCGTCCAGGACGATTCGACCGCCATATTCAAGTGGATCTGCCTGATAAGAAGGGCCGGACGCATATCTTGAATCTGCATGCGGGCAATAAGCCGCTGCATCAAGATGTCGACTTGGAGAAAATAGCAGAGGAAGCTTACGGCTTCTCGGGTGCACAGCTGGAGAGCGTCATGAACGAAGCCGCCATCTATACGATGCGCGAGAACGAACAATTTATCCATCAGCGTCATCTGTCCATGGCGATTGACAAGGTAATGATGGGCGAGCGTTCCGACCGTGAATCGAATTTGGAAGAGAAAAAACGTGTTGCCATCCATGAATTGGGACATGCTATCATGGCAGAGCTGGTGCGCCCAGGCAGCGTGAAGCAAGTCGCGCTCAGCCCGCGCGGCAAGGCGCTTGGCTATGTTCGCCATAATCCGCAGCAGGAACAGTATTTATACACAAAAACCTTCCTGGAAGAGCAGATTATGATCGCTCTTGGCGGCGCGGCCGCCGAAGAGATCTATTACGGTGGCCGAAGCACGGGCTCCAGCAATGATTTCGAGCAGTCTCTGAACATCGTGGAGACGATGATGAAGTCGGGTCTGACGTCGCTGGGTATCGTTAACATGAACATGGTTACTACCGAAGAGCTGATGAAAGAGAACAATGTGATATTGGAAGAGCTAATGAACCGCACCAAGACGCTCTTGGAACAGAAACGGCCGATATTCGACAATTCTCTTGACATCCTGTTGAAGGAAGAAATTCTCTCGGGAGAACAATTTCGTTGTCAATTTCGTGAAAACGCGCTTTTACCAGCATAA	MPKLAKEIILGFIPVLLVFLVFVGVNIVPLLIATGLVGGLLFIAKMKGGIAVGAGNERKRKKSGPAKLTFEEIGGQDNAKQELREALDFLIRHEDIKKFGIRPLKGILLTGPPGTGKTLMAKAAAHYTDSIFVAASGSEFVEMYVGVGAGRIRDLFKDARNRAAKENKQNAIIFIDEIDVIGGKREGGQQREYDQTLNQLLTEMDGIYSQETPRILVIAATNRKEMLDSALLRPGRFDRHIQVDLPDKKGRTHILNLHAGNKPLHQDVDLEKIAEEAYGFSGAQLESVMNEAAIYTMRENEQFIHQRHLSMAIDKVMMGERSDRESNLEEKKRVAIHELGHAIMAELVRPGSVKQVALSPRGKALGYVRHNPQQEQYLYTKTFLEEQIMIALGGAAAEEIYYGGRSTGSSNDFEQSLNIVETMMKSGLTSLGIVNMNMVTTEELMKENNVILEELMNRTKTLLEQKRPIFDNSLDILLKEEILSGEQFRCQFRENALLPA				NA	NA	NA	NA	NA
AK002_02336	873	hbd	COG1250	3-hydroxybutyryl-CoA dehydrogenase	ATGTACTTCAAAAAAATCGGCGTTGTAGGCGGCGGGACCATGGGGCAGGGCATTGCGGAGATGCTGGCAGCCAAGGGCCTTGACGTACTGCTCGTAGAGAAAACTCCAGAGAAACTGGACTATTCATACCGAATGATCGAGACCAGTCTAGATAAACAACTGGAGAAATGGGGAATTACCCAGGCTGAGAAGAAACTGATCCTGACCCGGATTCAAAAAGTAACTCATTTTGCGGAGCTTAGCACCTGCGATATGGTGATTGAGACGATCATAGAGGACTTGGATGCAAAGAAAGAAGTATTTACACAGTTGGATCAAGTTTGTCCGAGCCACGTAATATTAGCAAGTAATACATCCACGCTTAGTTTGACGGAGCTCGCCAGCTCCACCAAATATCCTGAGCGTGTTATTGGCATGCACTTCATACATCCCGTTTCCAAGGTCGACCTCGTTGAAATCATTCGCGGCCTGAAGACTTCAGATCATACGTTTAACGAAACCAAACGCTTTGTAGAGGAAGTTTCGGATAAAAAGGGGATCATGGTCTATGAATCTCCAGGTTTCGTCACCACCCGCATGATCACGCTCATGATCAACGAAGCGATGCATCTCCTGCAAGAAGGCGTAGCCTCGGCGGAAGATATCGACGACGCCATGAGAATCGGATATAACTTCCAGCACGGACCGCTGGAGATGGCCGACCGTTTCGGCCTGGATTCCATTCTCGCCGCGCTGGAGCGCATGTTCCGCGAGTACGGCGAACTGAAATACCGTCCATCGATTGTCTTAAAGAAATTGGTTCGCGCAGGACAACTGGGCGTTAAAACCGGAGAAGGCTTTTTCAAGTACGACAAGGATGGTGACCGGGTATGA	MYFKKIGVVGGGTMGQGIAEMLAAKGLDVLLVEKTPEKLDYSYRMIETSLDKQLEKWGITQAEKKLILTRIQKVTHFAELSTCDMVIETIIEDLDAKKEVFTQLDQVCPSHVILASNTSTLSLTELASSTKYPERVIGMHFIHPVSKVDLVEIIRGLKTSDHTFNETKRFVEEVSDKKGIMVYESPGFVTTRMITLMINEAMHLLQEGVASAEDIDDAMRIGYNFQHGPLEMADRFGLDSILAALERMFREYGELKYRPSIVLKKLVRAGQLGVKTGEGFFKYDKDGDRV	PGPT0006075_3059	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
AK002_02337	1209	ackA	COG0282	Acetate kinase	ATGAATATTCTCGTAATTAATGCAGGCAGTTCTTCGCTGAAGTATCAACTGTACGACATGACGGATGAATCCGTGCTGGCTAAAGGATTGGTTGAGCGGATCGGCATGGATTCCTCGATTCTGACGCATAAACCGACGGGAAAACAGGACGTAACGGAAGTCAGCGAAATTCTGGAGCATACTACCGCGATCCGCAAAGTGCTTGGGATGCTGACGAACGAGGAGCACGGTGTGATCGATTCCATCGAAAGCATTCAGGCCGTAGGGCATCGCGTGGTGCATGGCGGGGAATCTTTTAAAGAATCCGCTCTCGTAGACAGTGACGCCAAAGCGGAAATCCGCCGCTTGTTCGATCTGGCTCCGCTTCACAATCCGGCCTCGATGATGGGGATCAAAGCCGCAGAAACCAATATGCCTGGCGTTCCGCAGGTCGTTGTGTTTGATACGGCGTTCCATCAGACCATGCCTGAGAAATCGTACCTGTACGCTATTCCGAGAGTACTTTATAATAAGTATAAAGTACGTCGTTACGGTGCGCACGGTACTTCCCATGCCTATGTCAGCCAGGCAGCGGCAGAATTTCTGAACCGTCCGCTGGAGGATCTGAAGATCATCACCTGCCATATCGGCAACGGGGCTTCCCTCACAGCGGTAAAGGGCGGCAAGTCCATCGATACCTCCATGGGCATGACGCCGCTGGAAGGGCTCATGATGGGTACGCGCAGCGGTGATTTGGATCCTGCGATCGTGCCGTTTGTCATGAACAAGGAAGAGCTGACCGTCAACGAAGTGAACTCCATGCTGAACAAGCACAGCGGATTGCTGGCGATTTCCGGAATCAGCAGCGATATGCGCGAGATCACGGAAGGCATGGAAAAAGGCGATCCGAACTCCACATTAGCTTTTGAAATGTACGAGTATCGTGTCCGTAAATACATCGGTTCTTATGCTGCCGCCATGAATGGCGTGGATGTCATCGTATTTACGGCGGGCGTCGGCGAGAATTCGATCGTTCTTCGTCAAAGAGTGCTTGAGCAGCTTACCTATCTCGGAGTAGAATTGGATGAGGAGCTGAACAGCATTCGATCAGGCGAGCCGCGTCGTATTTCCGCGGCGAACTCGAAGGTTGAGGTACTCGTGGTCCCTACCAATGAAGAATTGGTTATTGCTCGGGATACGCATCGTATCGTTCAAGCTTCCAACCGTTAA	MNILVINAGSSSLKYQLYDMTDESVLAKGLVERIGMDSSILTHKPTGKQDVTEVSEILEHTTAIRKVLGMLTNEEHGVIDSIESIQAVGHRVVHGGESFKESALVDSDAKAEIRRLFDLAPLHNPASMMGIKAAETNMPGVPQVVVFDTAFHQTMPEKSYLYAIPRVLYNKYKVRRYGAHGTSHAYVSQAAAEFLNRPLEDLKIITCHIGNGASLTAVKGGKSIDTSMGMTPLEGLMMGTRSGDLDPAIVPFVMNKEELTVNEVNSMLNKHSGLLAISGISSDMREITEGMEKGDPNSTLAFEMYEYRVRKYIGSYAAAMNGVDVIVFTAGVGENSIVLRQRVLEQLTYLGVELDEELNSIRSGEPRRISAANSKVEVLVVPTNEELVIARDTHRIVQASNR	PGPT0001360_1104	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
AK002_02338	1296	asnS		Asparagine--tRNA ligase	ATGGCCACCAAAAGTGTGATTCGTAACGTCAACCAGCATGTCGGCGAGACCGTCACGATCGGCGCCTGGATCAACAACAAGCGTTCCAGCGGGAAGATTCAATTCCTGCAGCTTCGCGACGGCTCCGGCTATATCCAGGGCGTTGTAGTGAAGAGCGAAGTATCCGAACAGGTATGGGAAGACGCGAAAAGCCTGACACAAGAAAGCTCTTTGTATGTGACGGGTGTTATACGTGAAGAGCCGCGGAGCCAATCGGGTTATGAGATGACGGTTACCGGCATTGAAATTATACATCTTACGGAAAACTATCCGATTACGCCTAAAGAGCACGGTGTCGATTATTTGATGGACCATCGTCATCTGTGGCTTCGTACGCAGAAACAACGTGCGATTATGGTGATCCGTGCAGAAATTATCCGTGCCGTTCAAGAGTACTTTGATACCAACGGCTTTACGCTGGTGGATCCGCCGATTTTGACCCCAACTTCTGCGGAAGGCACAACCAATCTGTTCCACACGAAATATTTTGATGAAGATGCCTATTTGACCCAGAGCGGACAGCTGTACATGGAAGCTGCTGCCATGGCACTCGGCAAGGTATACTCCTTCGGGCCGACATTCCGCGCCGAGAAGTCCAAAACCCGCCGTCACCTCATCGAGTTCTGGATGATTGAGCCTGAGATGGCCTTCACGGACCATGAGGAGAGCCTTCAGGTGCAGGAGCAGTTCATCAGCCATGTGGTGCAATCCGTCGTTAAAAACTGCCGTCAGGAGCTTGAAACGATCGGTCGCGACATATCGAAGCTGGAGGCAATCCAGGCGCCGTTCCCGCGTATTACGTACGATGAGGCGATTGAATTCCTGCACACGCAGGATTTTGATATTCCTTGGGGCGAGGATTTCGGCGCGCCGCACGAAACGGCCATTGCCGAGAAGTATGACAAGCCGGTCCTCATTACCCATTATCCGGCAGGCATCAAGGCTTTCTACATGAAACCGGATCCGAATCGTCCAGAGGTCGTGCTGTGCGCGGATATGATCGCGCCGGAAGGTTACGGCGAGATTATCGGAGGATCGCAGCGGATTGACGATCCACAGCTGCTCGAAGAGCGCTTCAAAGAGCATGATCTTTCGATGGAAACTTATCAATGGTATATGGATTTGCGTAAATACGGCACCGTGCCTCATTCCGGATTCGGCTTAGGCCTTGAGCGTACCGTTGCGTGGATTTGCGGCTTGGATCATGTTCGTGAAACGATTCCGTTCCCACGGACCCTGTACCGGATGTACCCGTAA	MATKSVIRNVNQHVGETVTIGAWINNKRSSGKIQFLQLRDGSGYIQGVVVKSEVSEQVWEDAKSLTQESSLYVTGVIREEPRSQSGYEMTVTGIEIIHLTENYPITPKEHGVDYLMDHRHLWLRTQKQRAIMVIRAEIIRAVQEYFDTNGFTLVDPPILTPTSAEGTTNLFHTKYFDEDAYLTQSGQLYMEAAAMALGKVYSFGPTFRAEKSKTRRHLIEFWMIEPEMAFTDHEESLQVQEQFISHVVQSVVKNCRQELETIGRDISKLEAIQAPFPRITYDEAIEFLHTQDFDIPWGEDFGAPHETAIAEKYDKPVLITHYPAGIKAFYMKPDPNRPEVVLCADMIAPEGYGEIIGGSQRIDDPQLLEERFKEHDLSMETYQWYMDLRKYGTVPHSGFGLGLERTVAWICGLDHVRETIPFPRTLYRMYP				NA	NA	NA	NA	NA
AK002_02339	747	dnaD	COG3935	DNA replication protein DnaD	ATGGACCACGGCAACGCGGATACCGGCATGAACGGTTGGACGGCCGGCGCCGCTGCCGGCATGAGCCAAGGGATGGCGATCATTCCATATGCCCTGCTCCGGCATTACCGGTCACTTGGTTTAAGCGATCGCGAAGCGATGCTGGTCATCCATTTGATCGGGTATCAGCAGGTGGAGTTTAAGACGTTTCCTTCGCTGGAGGAGCTTGCGGAGGTGACGGGCTCTCCAGCCGCCTTCATCGCTGCAAGCCTGCAGCGCCTAATGAAGGTAGGACTGATCGGCATAGATGAATATGTCGACGAGGGCCAGGGAATTCATTATGAGCGGTACAATCTGAACGGATTGTATGAGAAGCTTGCTGCGTGTCTGGCCCAAGAGGGCAGGGACAAAAGCCCTGAAGCAGCCAAGTTTGCTTCACCTCTGTTGAATGCCCGTCCAGCTTCCGGCAAAACAGCTGCATCGGAGAAACCGGCTCCTGAGAAGGAAGAGCGGAATTTGTTCACCATTTTCGAAAAGGAATTCGGACGTCCGCTATCGCCGATGGAGCTGGAGACAATCTCCGGCTGGGTCGACGCGGACCGCTACCCGGACGAGTTGATCCTGTTAGCGCTAAAAGAGGCGGTATTCGCGGGCAAACTGCATTTCCGCTACATTGACCGGATCCTGCTCGAATGGAGCCGCAACCGGGTGCGTACCGCACAGGATGCCAAAGCCTATACGCAGAAATTCAGAAATATCGGAAGATAG	MDHGNADTGMNGWTAGAAAGMSQGMAIIPYALLRHYRSLGLSDREAMLVIHLIGYQQVEFKTFPSLEELAEVTGSPAAFIAASLQRLMKVGLIGIDEYVDEGQGIHYERYNLNGLYEKLAACLAQEGRDKSPEAAKFASPLLNARPASGKTAASEKPAPEKEERNLFTIFEKEFGRPLSPMELETISGWVDADRYPDELILLALKEAVFAGKLHFRYIDRILLEWSRNRVRTAQDAKAYTQKFRNIGR				NA	NA	NA	NA	NA
AK002_02340	300	sigW_5	COG1595	ECF RNA polymerase sigma factor SigW	GTGAGCATTCAACCGACGAAGCCAGAGATGAAGGAATTGGACATCGAGGTAACCATAGAACGGGTGTTAAACGGGGATCGGCAAGCTTTTGTACATATCGTTGAAGCATTTCAACAGCAGATTTTCATGTATTGCTGGAGACTGCTGAACCAGCGGCAGGATGCGGAGGATGCCGTACAGGAAATCATGGTGAAGGCTTACCAGAAACTCGAGACGTATAAGCCAGAGACCTCATTTTCTGCTTGGCTGTATAAGATGGCTTATCACCATTGTCTGAACACCAAGAGATCAATGATTTGA	MSIQPTKPEMKELDIEVTIERVLNGDRQAFVHIVEAFQQQIFMYCWRLLNQRQDAEDAVQEIMVKAYQKLETYKPETSFSAWLYKMAYHHCLNTKRSMI	PGPT0014960_6290	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_02341	558			hypothetical protein	ATGGGGGATCTGGGTGTATTTCGAGAGGAAGCGGGTAAGCGCGGAATGCCTGACATCCATATTCCCTCCCGGATATTAAAAGAGTATTCGTTTCATGAAGGAACCCTTTCCTTTACCCCCGATCTTTCCGATTTGTTTCAGGGGGGAGAGCCGACAAAAGCTTATTACGATATTCAAAATGAGTTGATTCGGAAGGCGGAAGAATCGACGGGAAGCAAAAGAATTTTCGTTAAGGAGATAAAACCGCCCAGCGCGGGCTCAATTTCGCTATCCTACGTAAAAGGCAGCGACATGGAAACCTCGATCAGCGTAATAGCAACCAAGCGAAGCGCCATGAACTCCAAGCAGGAGATTCATTATGCCGATAAGGACCATGTCGAAAAGGTTCTGGCAGGTGGACACGAGATGATATACGTTCGATACGCAGACGCCTATTTTAATCAAGGCCTGGCTTGGGTGGATGAGGCTCAAGATCTTTATTACCATATCGCATTGAACAGCAAAGCGAAGCTAACAAAAGAGAACATGATAGAAATCGCAGAGCGCTTTATTAACTAA	MGDLGVFREEAGKRGMPDIHIPSRILKEYSFHEGTLSFTPDLSDLFQGGEPTKAYYDIQNELIRKAEESTGSKRIFVKEIKPPSAGSISLSYVKGSDMETSISVIATKRSAMNSKQEIHYADKDHVEKVLAGGHEMIYVRYADAYFNQGLAWVDEAQDLYYHIALNSKAKLTKENMIEIAERFIN				NA	NA	NA	NA	NA
AK002_02342	696	gph_1		Phosphoglycolate phosphatase	ATGGAGATGAGATACAAGGCCATTATTTTTGATCTGGACAACACGTTGCTAGACTACAGTCAGAGCGAAAAGAAATGCATGCAGCAGGCGCTGGAGTTATACCGTCTGCATGAGGATTTGACGTGGGATGAGTTCTGGGGGACATTCGGACCGATCAATTTTAATTACTGGATGAACCGAATTCAGCATAATCACGACATTAGGCAGGTGTTGGAGCACTCCTTCACGGACACGTTCCTTGGATTGAAGCGGGAATTTAACCAGTGCCGGGAGATCTCGGAAACATACTGGGGGTTATTTTGCAGTTCCCCCCATTTGGAGCCGCATGCCGATCTTATACTGGAGCACCTGCACGGCAATTTTGCGCTCGGTGTGATTTCCAACGGCATTGGTGAAGCACAGCGCAAACGTCTTGCGGCAGGAGGCTTGTTTCATTATTTTGATTCCTTCATCATTTCGGATGAAGTAAAGTACTGGAAGCCGGATCCGCATATCTTTAAGCTTGCTTTGCAGGAATTAGCGGTTGACTCAAGCGAGGTGCTGTACATAGGGGATTCGCTTACGGATGATTATGAAGGAGCAGCGAATGCAGGAATTGATTTTTGTTATTATAATCGCAGGGGCACCCCTTTAAGCGACCGTCATCGGCCTGCTTATATGATCAAGGATCTTATGGAGCTCAAGGATCTGACTTAG	MEMRYKAIIFDLDNTLLDYSQSEKKCMQQALELYRLHEDLTWDEFWGTFGPINFNYWMNRIQHNHDIRQVLEHSFTDTFLGLKREFNQCREISETYWGLFCSSPHLEPHADLILEHLHGNFALGVISNGIGEAQRKRLAAGGLFHYFDSFIISDEVKYWKPDPHIFKLALQELAVDSSEVLYIGDSLTDDYEGAANAGIDFCYYNRRGTPLSDRHRPAYMIKDLMELKDLT	PGPT0006885_1265	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
AK002_02343	657		COG0546	5'-nucleotidase	TTGAAATACAAGCATATTCTATTTGATTTGGACGGAACCCTGACCGATCCGCGCGAAGGCATCACGAAAGCTGTGAGGCACGCACTCGGTCAGCATGGGATTATCGTCAACGATCTTTCCGAGCTGGAATGCTTTATCGGTCCCCCGCTCCAGGAGACCTTCACCGAAAAGTACCATTTCAGCGAGGCCGAGGCTTGGGAAGCAATTCTGAGCTATCGTGAATATTTCAAGGACACCGGCCTGTATGAAAATGAAGTATATGTCGGCATTCGCGATGTATTGGATCTATTGTTATCGCAAGGGCGACAGTTGTATGTCGCTACCTCCAAGCCTGCGGTTTTTGCGCAAACGATACTTGAGCATTTCCAGCTGTCCACCTATTTTACCATGGTGTGCGGAAGCGAACTGGACGGCACCCGGTCCGCCAAAACCGAAATCATTCAGCATGTTCTGGATAACTGCCGTATTCATGCTTCGGAAGCCGTCATGATCGGAGATCGGATGCATGATTTAATAGGAGCACGGAATTGCGGGATACACAGCATGGCTGCAGGTTACGGCTATGGTTCGGAGGAAGAGCTGAAGGCATGCCAGCCGACCTATTTCTTCAAAACGGTGGAGGAGATGCTCCGGTCGTTTGCAAGCTTAGCGGTTTAG	MKYKHILFDLDGTLTDPREGITKAVRHALGQHGIIVNDLSELECFIGPPLQETFTEKYHFSEAEAWEAILSYREYFKDTGLYENEVYVGIRDVLDLLLSQGRQLYVATSKPAVFAQTILEHFQLSTYFTMVCGSELDGTRSAKTEIIQHVLDNCRIHASEAVMIGDRMHDLIGARNCGIHSMAAGYGYGSEEELKACQPTYFFKTVEEMLRSFASLAV	PGPT0001730_5428	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK002_02344	270			hypothetical protein	ATGAAATATATAAACGCGGATATTATACTTCCCGAGGAATTGCTGAAGGAAGTGCAAAAATATGTACAGGGCGGGATGGTATACATCCCGAAACCCGAAGGTTTGCGCAAGAAATGGGGAGAAAACTCGGGCAGCCGGGTGTATTTGAAAAAAAGAAACCTGGAAATCCGGCAGCTATTTGCTTCAGGCGCCACGATTGACCAGCTTTCTTCTCAGTATTGTTTATCCTGCGATTCCATCAAAAAAATCGTGTATACCAAAAACAAGTAA	MKYINADIILPEELLKEVQKYVQGGMVYIPKPEGLRKKWGENSGSRVYLKKRNLEIRQLFASGATIDQLSSQYCLSCDSIKKIVYTKNK				NA	NA	NA	NA	NA
AK002_02345	1035	srkA_3		Stress response kinase A	ATGAATGAGTTTTTTCAATTTGAAACAGAAGAACAAAGATGTGCGCTGCTCGAAAGAGCCAAAAGGGTTGCGGTATCGGCACTTCAGCAATATAACCTGAGATGGGTTGAGATTGAATTTATCGGTATTTCGGACACGATTACATATCAAGTTAGGACGAACATAGATGAAACCTGCTTGTTAAGAATTCATTCGGATCGGCGGTGCAGCAATGAAATCGACCTGGAGCTTCAATTTCTGGATGCCCTTATTGCCGCAGGTATCAAAGTGCCGACAGGTATAACCACTCCAAGTGGGTTAAGATGGTTGACAATCGATACAGATCATGGATTCAAAGCACCTCTTGTCACCGTTATGAAATGGGTGGATGGAGTGCATGCGCATGAAAGACTTACAGAAGACCAGGCTTATCAGGTAGGTGTCTTGATTGCTCAACTGCATGAAGCGGCACTTGGCTTCGAAAGACCTTCTGATTGCCGGGGGCCGGTATGGGGGATAAACTCTTATAGAGAAGCGCTCGCCAAGTTGGAACGATATGCGGGGACTTTTTTGTCGGAAGCCTCATTTATACTATACCAACTCGCAGCTGAAAAGGTTATATCCCAGCTTGATCATATGAACGCTGACGATTTCAACTACGGTCTCATTCATGCCGATTTGCATTTGGGGAATCTGGTATTTGAAGGGGGATTTCCTCATCCGATTGATTTCGGTAGATGTGGCTATGGTTATTTTCTTTACGATTTGGCAGCGGTAATGTTGTCACTCGTTCCGAACCAACGTTTAAAAGTGCTTCAAGGATATGAAAGCGTGCGGAAGTTGGGCTCGAATTATATTCATTCTCTGGAATGCTTTTTCATCATGATCATGATGGAGAATTATAGTCACCATGCCTCCAATCCAAGAGAGACAGAAAGTCTTAAGAGTGAGCAAATCTATGCGCTAGCCTATATCCATGAATATTTGCGCGGACGTCCGTTTCTGCTGAATGTGGTAGAGCCCATAGAAATAGACGATGTACCAATCTCTAGTTGA	MNEFFQFETEEQRCALLERAKRVAVSALQQYNLRWVEIEFIGISDTITYQVRTNIDETCLLRIHSDRRCSNEIDLELQFLDALIAAGIKVPTGITTPSGLRWLTIDTDHGFKAPLVTVMKWVDGVHAHERLTEDQAYQVGVLIAQLHEAALGFERPSDCRGPVWGINSYREALAKLERYAGTFLSEASFILYQLAAEKVISQLDHMNADDFNYGLIHADLHLGNLVFEGGFPHPIDFGRCGYGYFLYDLAAVMLSLVPNQRLKVLQGYESVRKLGSNYIHSLECFFIMIMMENYSHHASNPRETESLKSEQIYALAYIHEYLRGRPFLLNVVEPIEIDDVPISS				NA	NA	NA	NA	NA
AK002_02346	825			hypothetical protein	TTGCAAGTAACGAACCAACCAGGTGAATTTAATACCTGCTTGATCATCATGATCGCCACCATCGTATGGGTTCAATGGTCATCATTCCTTCTATCCGTGGCGTGGGGAATCGGACTGATCCTGATAATATATACGATGTTCAAGCTTAGAAGCGTACGCAAGATATCGATTCAGATAAATGACACGGCCATCGTGGCGCTTATCATGGTGATAGGTTATATGCTCTATCATTCTTCTGGTGAAATCATTAAAAATGGATTAGCGGGGCACGATGCCTGGGCGATCATCCTGTCGAGGCTAAGTCTGATATTATTTGTATTCCCCTTTGCACTGGCGGCCATTTTAACGAAGGAAAAACCGTTATACCTTGCCACAGGTTCATGGGGAAAAACGATTTATTTTCCATGGATATTCAAGGGCCCGCTCAAGGATCCGATCTGGCGTTTCATGCTTATTTTCCTGGTTATCGTCTGTGCCATATTTTCATTTTTTATTGACTGGGGACAGCCGCAACTTCTCGTTCTTATCGGTTATGCACTATCATTTGCGCTGATCAATGCCGTCCTTGAGGAGCTGTTGTGGCGGGGATACATACTTAGTCATTTTGTAAGTGGATTTGGGGAGCTGAAAGGGCTTGTCATCGCCGGAGCTACCTTTGGTTTATACCATTACCACCTAGGTTTTTCGTGGCCGGTTTGCCTGTTGTTTTCAATCTTTGGCATCATGATGGGCGGCGTGGCTATTCGTTCGAAAGGATTGGCTCCCGTCATGGTCATGCATTTTGCGATGAACGTTCTATTCGTCCTTAGCGGTATGATTCTGTAA	MQVTNQPGEFNTCLIIMIATIVWVQWSSFLLSVAWGIGLILIIYTMFKLRSVRKISIQINDTAIVALIMVIGYMLYHSSGEIIKNGLAGHDAWAIILSRLSLILFVFPFALAAILTKEKPLYLATGSWGKTIYFPWIFKGPLKDPIWRFMLIFLVIVCAIFSFFIDWGQPQLLVLIGYALSFALINAVLEELLWRGYILSHFVSGFGELKGLVIAGATFGLYHYHLGFSWPVCLLFSIFGIMMGGVAIRSKGLAPVMVMHFAMNVLFVLSGMIL				NA	NA	NA	NA	NA
AK002_02347	492	sigE_2	COG1595	ECF RNA polymerase sigma factor SigE	GTGAACCAATACAGCCAGCACGTGTTCCATACGGCATACTCGGTCCTGCGGGATGCCAAGGAAGCGGAGGATGCGTCGCAGGAAGTGTTTATACAAGTATACAAAGCTCTCCCCCAGTACAGATCTGAAGGTTTTAAGACCTGGATTACCCGCATCGCCTTGAACAAAGCGATTGACATGAAGAGGAAGCTTTCCCGTAAACCGCCGGAGCAGCTGCCCGGCGAACATGAAGAAGTGCTGGATAAACTCCCTTCCCGGGACGAGGATGTGGTTTCTCTGCTCATACATAAGGAGAGAAGAGAGGAACTTCGAGAGAAAATTGAAGCATTGCCGGACAATCACCGCGTCATTATTACGGCTTTTTATTTGGAAGAGAAAAACTACGAACAAATCGCAGCCGAGCTGAATGTCACGGTCAAGACGGTTGAATCGAAATTATACCGGGCCAGACAATGGATTCGGAAATCGTGGAAGGAGGAGGAGTGGAAATGA	MNQYSQHVFHTAYSVLRDAKEAEDASQEVFIQVYKALPQYRSEGFKTWITRIALNKAIDMKRKLSRKPPEQLPGEHEEVLDKLPSRDEDVVSLLIHKERREELREKIEALPDNHRVIITAFYLEEKNYEQIAAELNVTVKTVESKLYRARQWIRKSWKEEEWK				NA	NA	NA	NA	NA
AK002_02348	459			hypothetical protein	ATGAACGCCAAGGATCACGAGCTCAAGCTGCTGACCGAACGTTATGTTAGAGGGGAAGGCTCGCCCGAAGAACGAACTTCATATGAAGAGCTCATGCTAACGGATGACGACGTGCTGGAGATCTATATGCAGGTTCTGTCGGAGCTTGATGCCGAACTTCCCGGTATGGCAGATCCGGAAGCATTTGCCGAGCAGGTGGTGGAACATGAACAGATTAAGCCTTACACCCCGAAAGCACCGCTGCGGATTCAGGAACGGCCTAAGCGCTGGTACGAACGCGCCATCGTCCATTATGCCATAGCGGCGTCCATTACGATGCTGTTCCTCTTCACCGGGGCATTCGACCGGCTGCTTCCCAGTGAGATTAGCGGTCAGGTCCCTTTATCCGATACGCCTTCCTATAGTGAGCAATGGGTGGAAAAAACAACGGGCTGGCTGGACCGGCTATTATCCAGATAA	MNAKDHELKLLTERYVRGEGSPEERTSYEELMLTDDDVLEIYMQVLSELDAELPGMADPEAFAEQVVEHEQIKPYTPKAPLRIQERPKRWYERAIVHYAIAASITMLFLFTGAFDRLLPSEISGQVPLSDTPSYSEQWVEKTTGWLDRLLSR				NA	NA	NA	NA	NA
AK002_02349	1116			hypothetical protein	GTGCAACCGCAACGAAGTAAAGGTTTTGCCTTTATACTCAATATCCTTCCGGGTCTCGGCCATTATTACTGGGGGAGGAAGGGACGGGCGCTGTTATATCCGCTGCTGTTCTTCGGAAGCCTGTTCGGCGGGATTTTGTTTGGGATCATGTCGGCTTCCGACGCAGTATTTGCGCTGGGACTTCTCGGTGCTTTAATGATCTGGGGGATCAGCATGCTCGATCTGCTCATTGCGTTGATCCGTTATACCCCCGTCACGATTATTCATGATGAATTCGGGCGGCCGATGGAGATTCGCCAGGACAAGAGCGATGAGTCCGAGCGCTTTTATACCATCCTGCTGTCCTTCATTCCCGGCCTTGGCCATTTTCAACTGGGCTTGATGCAGCGCGGGCTGTCATTCCTGATCGCCTTTTTCGGACTTGGAACGATTCTGGTGTTCCTGACGGGGTTGACTCATGAATCGGTGTTCCTGCTGTTTTTGGGCATGCTGCCGATCATATGGCTTTATTGCATGTTTGACGTGGTACAGCTGGTTCACCGCAAGCAAGCCGGGGATCTGCTCATAGACCGCACGCTGTTTGATGAGCTGGAGAGCGGCCGGGAGAGCGGACGCCGCAGCAAAGTGTTTGCCACCTTGCTGTCGGCGTTTCCCGGAGCGGGTCAAATGTATTTGGGTTTGCAAAAACGAGGACTGCAGCTCATGGTTCTATTTCTTGGCAGCATCTATGTACTGGATGTGCTTAAGCTCTCGGTATTTCTGTTTTTGATCCCGTTGATCTGGTTTTATGCCTTTTTCGATGGTTTGCAGCAAGTCAGCCGCTATGGCCGGGAGCCGCTCCGGGATCGGCCGATCATCTCGGGCCTTGGAAATCAGCAGCGCTGGCTAGGGCTTGGCCTGCTCATTCTTGGCATCTATTTCGTATTTACGAGCGTTGTGATGCCTTATGTTGAAACGCTGTTTCCGGATTTGCACCTGGATTACCGGATTCGAACCTACATGAAAACCGTAATCGTAGCGGTGCTTCTCATCGGAGGAGGAATCAAGCTGATGACAGGCTCGAAGAAGGATTCACGGAGTGGAAATCGTCCATTTTATGATTCCGACAACGATTGA	MQPQRSKGFAFILNILPGLGHYYWGRKGRALLYPLLFFGSLFGGILFGIMSASDAVFALGLLGALMIWGISMLDLLIALIRYTPVTIIHDEFGRPMEIRQDKSDESERFYTILLSFIPGLGHFQLGLMQRGLSFLIAFFGLGTILVFLTGLTHESVFLLFLGMLPIIWLYCMFDVVQLVHRKQAGDLLIDRTLFDELESGRESGRRSKVFATLLSAFPGAGQMYLGLQKRGLQLMVLFLGSIYVLDVLKLSVFLFLIPLIWFYAFFDGLQQVSRYGREPLRDRPIISGLGNQQRWLGLGLLILGIYFVFTSVVMPYVETLFPDLHLDYRIRTYMKTVIVAVLLIGGGIKLMTGSKKDSRSGNRPFYDSDND				NA	NA	NA	NA	NA
AK002_02350	294			hypothetical protein	GTGCTTGAAAGCTTAGCCATCGGCGTCGTGTTTATTTTGTACGGATTGGTCCTCTTTTTGATTCCGCCTAAAAGCTCCAACAGTTTTTATGCTTACAAAACGACGTCTTCACTCAAAAATGAACGGAATTTTAAAGTTGCCAATGCCTACGTCAGCTTGCTGCTGATGATTTTCGGAGTCATCCTGCTGCTGATCGCCAGGCTTACCGGCCACTTCATGACGACCGTGATTTCGACCGTCATCGTTTTTATCCTGATTTATATTCTCGTTGAACGAAAGCTAAAAAACCTGTAA	MLESLAIGVVFILYGLVLFLIPPKSSNSFYAYKTTSSLKNERNFKVANAYVSLLLMIFGVILLLIARLTGHFMTTVISTVIVFILIYILVERKLKNL				NA	NA	NA	NA	NA
AK002_02351	657	mtnB_1	COG0235	Methylthioribulose-1-phosphate dehydratase	GTGGCATTTTCAGATATCCAGCTCGAACAGAAACAGGCTGCGCTGCAGGAACTTAGAGGAATCAAGGAACTGTTTGCATCCAGAAACTGGTTCCCGGGTACAAGCGGCAATCTTTCTGTCCGTGTTGGCGATTTCCATCCGGAGCAGTTTTATTTTGCCGTCACGGCCAGCGGAAAAGACAAATCCGTACATACGCCGGAGGATTATCTCTTTGTGGACCAGAACGGTGTCCCTTGCGAAGCAACCGGCTTAAAGCCCAGCGCGGAGACTTTAATCCACTGTGAAATCTACCGGAAAACCGGCTGCGGCGCCATTTTCCATGTGCACACCATCGACAACAACCTGATCAGCGATTGGTATGGTGAACAAGGTTACGTGCCTGCCCAAGGAATCGAGCTGATCAAAGCCTTTAACATTTGGGAAGAGGACGCGGCGATCCGCATTCCGATCCTGCCGAACTATGCGGACATCCCGCGGATTGCAGAGCTCGTTCCCGGCGCGCTCGATCCGGCGGTACCCGGCATTTTGCTGCGCAACCACGGCATCTACGCCTGGGGCAAAAATGCGTTCGAAGCCAAAAAACATCTGGAGGCTTTTGAGTTTATATTCGAATACTCCTACCGCCGTTTGCTTCTGAATGCAGCCGGTTCCAAGTAA	MAFSDIQLEQKQAALQELRGIKELFASRNWFPGTSGNLSVRVGDFHPEQFYFAVTASGKDKSVHTPEDYLFVDQNGVPCEATGLKPSAETLIHCEIYRKTGCGAIFHVHTIDNNLISDWYGEQGYVPAQGIELIKAFNIWEEDAAIRIPILPNYADIPRIAELVPGALDPAVPGILLRNHGIYAWGKNAFEAKKHLEAFEFIFEYSYRRLLLNAAGSK				NA	NA	NA	NA	NA
AK002_02352	681	mtnX	COG4359	2-hydroxy-3-keto-5-methylthiopentenyl-1-phosphate phosphatase	ATGACATCTGGAGCAAAACAGCCAATTATTTTTTGCGATTTTGACGGAACTATCACGAACAACGATAACATCGTCGCCATCATGAAACACTTCAAACCGGAAGGCTTCGAGCCGCTCATGCAGGATACGGTTGACCGCACCATTTCAATTCGGGAAGGCGTTGGCCGCATGTTCGCGCTCTTCCCTTCCTCCATGAGAGAAGAAATTACCGAGTATGTGCTGAGCCATGCCGGGATAAGGGAAGGCTTCGCAGCGTTCCTTGACTATTTGAAATCCGAACAGATCGAGTTCTATGTCACAAGCGGCGGCATCGATTTCTTTGTCGATCCTCTGCTGAAGCCCTTTGGCATTCCGGCGGACCATATCTTCTGCAACGGTGCCGATTTCGAAGGGGATCGCATTAAGATTACCTGGCCTCATCCTTGCAAGGAATCCTGCCATAACGACTGCGGCATGTGCAAGGTTACGGTGATGGACCGTTTTCCAGCCGACCGATATTACCGGATTCTGATCGGTGACAGCCTTACCGATTTTGAAGGCGCCAAGCAGGCCGACCTGGTTTATTCCCGATCCACGCTCACCGAGCAGTGCAAGAAGCTTGGCGTGTTTCATGTACCCTTCGAGACATTTACCGATATTCAGAACGACATGAAAGACAAGTTTACGCAGGAGGTGCTGTAA	MTSGAKQPIIFCDFDGTITNNDNIVAIMKHFKPEGFEPLMQDTVDRTISIREGVGRMFALFPSSMREEITEYVLSHAGIREGFAAFLDYLKSEQIEFYVTSGGIDFFVDPLLKPFGIPADHIFCNGADFEGDRIKITWPHPCKESCHNDCGMCKVTVMDRFPADRYYRILIGDSLTDFEGAKQADLVYSRSTLTEQCKKLGVFHVPFETFTDIQNDMKDKFTQEVL				NA	NA	NA	NA	NA
AK002_02353	1215	mtnW	COG1850	2,3-diketo-5-methylthiopentyl-1-phosphate enolase	ATGAGCCGCTGTATTGCAACGTACCGAATTTATGACGACCAGGCGGATTTCCGTAAGAAAGCGACCTCCATCGCCGTTGGCATGACGGTTGGCAGCTGGACCGAGCTGCCGCAGGCCAAACGCGAAGCCATGCAGAAACATCTTGGCGAGGTCGTTGACATTCAGGTTCACGAGGGCTGGGAGCCCGGCAGCCGTTATGCGGATGTCTGCATCGCTTATCCGGACATCAATTTTAGCCGGGATATTCCTGCCCTGCTGGTGACCGTGTTCGGCAAAATTTCCATGGACGGGCGCATCAAGCTGACGTCCCTGGATCTGTCTCCCGACTTCCTGAGTGCATTTCCCGGACCGAAGCATGGCATCGACGGAATCAGAGGCCTTCTCGGCGTCCATGACCGTCCGCTGCTCATGAGCATCTTCAAATCGGTGATCGGACTGAATGCGGACGAGCTTAGAGCCCAATTTATCCGCCAGGCGCTCGGTGGCGTGGATCTGATCAAGGATGATGAAATCCTGTTCGAGAACGACCTCACCCCGATTGAAAAACGGGTCAGCATGTGCATTCAAGCCGCTGCGGACGTTGAACAGCAGACGGGCAAAAAACTGCTGTACGCGGCCAATTTGACCGGACGTACATCGCAGCTGCGCGAGCAGGCATTGCGCGCGATCGATGCAGGCGCCAATGCCCTGCTCTTCAATGTGCTGTCCTACGGGTATGACGTCCTGCACGAGCTGAGCAGCGATCCGGAGATTACGGTGCCCATCGCGGCTCACCCAGCGCTTGCCGGCGCCATCTATCCTTCTCCGCACTATGGGATTGCGGCACCTGTGCTGCTCGGCCAGCTGATGCGGATCGCCGGAGCCGATCTGGTGCTCTTCCCTTCTCCTTACGGCTCCGTCACGATGCCGAGGGAAGAGAATCTCGCCATTCGCGACGAGCTGCATAGCGCTAAGCTTGGCGTGAAGCGAAGCATGCCGGTACCGTCCGCGGGAATTCATCCTGGACTCGTTCCGCGCATCATCCGGGATTTCGGCACCGATGTGGTCGTTAACGCAGGCGGCGGAATCCACGGTCATCCGATGGGAACCGAAGCTGGCGGCAAAGCCTTTGTACAGGCGATTGAGGCAACGATGAAATCCGTGCCGCTTGCCCACTATGCCGAAGAGCACGAAGAACTGAAAGCCGCACTGGACATCTGGGGAGGAGAAGCATGA	MSRCIATYRIYDDQADFRKKATSIAVGMTVGSWTELPQAKREAMQKHLGEVVDIQVHEGWEPGSRYADVCIAYPDINFSRDIPALLVTVFGKISMDGRIKLTSLDLSPDFLSAFPGPKHGIDGIRGLLGVHDRPLLMSIFKSVIGLNADELRAQFIRQALGGVDLIKDDEILFENDLTPIEKRVSMCIQAAADVEQQTGKKLLYAANLTGRTSQLREQALRAIDAGANALLFNVLSYGYDVLHELSSDPEITVPIAAHPALAGAIYPSPHYGIAAPVLLGQLMRIAGADLVLFPSPYGSVTMPREENLAIRDELHSAKLGVKRSMPVPSAGIHPGLVPRIIRDFGTDVVVNAGGGIHGHPMGTEAGGKAFVQAIEATMKSVPLAHYAEEHEELKAALDIWGGEA				NA	NA	NA	NA	NA
AK002_02354	870	proC_2		Pyrroline-5-carboxylate reductase	ATGTGCCAATCTCCGCAGAACCGACCTTTAATAGATAAAGCAATCACCTTCTACGGCGCAGGCTCGATGGCCGAAGCGATCGTACGAGGATTAGTGAGCCGTTCTGTCGTGCTTCCCGAGAATATTACGATGCTGAACCGTAGTAACGCCCAGCGCCTTCTGGAACTGAGCGAACGGTACGGCGTCCAGATCAACAACGACGAGGCCGCCAAAATCGAAATTTTGAAAACCTCGCCGGTGATCGTGCTGGCCATGAAACCGAAGGATGCCGCCAAAGCGCTGAAAGAACTGGGACCCAAGCTTTCCAGCGACCAATTGATCATCTCCGTGATCGCCGGACTTTCGATTTATACGACGCAGACGCTGCTAGGAAACCAGCAGCCCATTGCTAGAACGATGCCGAATACATCCGCTTCGATCGGGCTTGGTTCCACGGGCATTGCGTTCTCGAAGAATATCAGCGAAGAACAGCGTCAGCTCGTGCTGACTTTGTTCGAAGCAGTTGGCCACGTGACGGTCATCGAAGAAGAGAAGATGGACATCCTGACCGGGATATCCGGCAGCGGCCCGGCTTACTTCTATTACATGATGGAGGCCATGACCGCAGCGGGAATCCGCGGTGGCCTGACGCCGGAGCAAAGCCGCGAGCTGACGCTTCAAACCATTCTGGGTGCCGCCCGCATGGTCCAGCAGACCGGGGAACAGCCGTCGTCGCTGCGCGCGAAGATTACATCGCCGAACGGTTCGACGCAAGCTGCCCTGGAAACGCTCGACAAAGGCGATTTTTTCGAAACGGTCATTGCCGCCGTAAACCGCTGCGCTGAGCGCTCCAAAGAAATGGGCGCGATGCTGAAGGAGCAGATCTCATGA	MCQSPQNRPLIDKAITFYGAGSMAEAIVRGLVSRSVVLPENITMLNRSNAQRLLELSERYGVQINNDEAAKIEILKTSPVIVLAMKPKDAAKALKELGPKLSSDQLIISVIAGLSIYTTQTLLGNQQPIARTMPNTSASIGLGSTGIAFSKNISEEQRQLVLTLFEAVGHVTVIEEEKMDILTGISGSGPAYFYYMMEAMTAAGIRGGLTPEQSRELTLQTILGAARMVQQTGEQPSSLRAKITSPNGSTQAALETLDKGDFFETVIAAVNRCAERSKEMGAMLKEQIS	PGPT0014225_702	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK002_02355	1248	proA	COG0014	Gamma-glutamyl phosphate reductase	ATGAGTGAGGTACGCAATAAAGCTCAGCTCGCCAAGCAGGCTGCATTTCGTCTTGGCAGATTGAGCACGGAGGAGAAAAATCAGGCGCTGCTGATCATGGCCGACGCACTAATCCAGCGGACGGCAGATATCATGGAAGCCAACGCAGAGGATCTTCGGCGCGGGAAAGAGCTTGGCACCTCTGCTTCCCTGCTGGATCGGCTGGCACTGAACGAAGCCAGAATCGAGGGCATTGCCGAAGGGTTGCGCCAAATCGTGGAGCTACCCGACCCGATCGGCGACACCTTGGAAACGATCGATCGTCCGAACGGACTGAACATCGTGAAGAAACGCGTTCCCCTGGGCGTGATCGGCATCATATATGAAGCACGTCCCAATGTGACGGTCGATGCCGCAGGACTATGCTTGAAGACGGGTAATGCGGTCGTCCTGCGGGGCGGATCATCCGCCCTCTCCTCCAACCGCAAAATCATCGAAGTGCTTCACGAAGCTATGGAACGCACTGCGCTGTCTAAAGAAGCGCTTCAGCTTATCGAGGACCCGAACCGCTCCTCCGTGGATGAAATGCTGAAACTGAACGGACTGCTGGATGTCATCATCCCGCGCGGCGGCAGCTCCCTAATCCAGAACGTCGTGATGAACGCCACCGTGCCGGTCATCGAAACCGGGGCGGGCATATGCCATACGTACCTGGACGCATCGGCACGGCCGGACATGGCCGCCGCTATCAGCATCAATGCCAAGGTGCAGCGCCCTTCGGTCTGCAATTCCATGGAAACCCTGCTCGTCCATGCGGATTATGCCAAATCGCACCTGACTTCGCTGGCCGAAGCATTCCGTGAGCGTAATGTCGAGCTGCGCGGATGCCAGCGAACCCTGGAATATATTCCTTGGGCTGCCGTCGCAACGTCCGAGGATTACGCGACAGAGTATAACGACTACATTTTGAACATTAAAATCGTGGACCGCCTGGATGAGGCCATCGAGCACATTTCGGTATATGGCACGAAGCATTCCGAATGCATCGTAACGGAGAACGAGGATCATGCGGAGCGTTTCCTGCAGGAAGTAGACGCAGCGGCTGTCTATCATAACGCTTCGACCCGCTTCACCGACGGCTTTGAATTCGGCTTCGGCGCCGAGATCGGGATCAGCACCCAGAAGCTGCATGCCCGGGGACCTATGGGGTTACCCGCGCTTACTTCCTCCAAATATGTTATTATCGGTAGTGGTCAAATACGCGAATAA	MSEVRNKAQLAKQAAFRLGRLSTEEKNQALLIMADALIQRTADIMEANAEDLRRGKELGTSASLLDRLALNEARIEGIAEGLRQIVELPDPIGDTLETIDRPNGLNIVKKRVPLGVIGIIYEARPNVTVDAAGLCLKTGNAVVLRGGSSALSSNRKIIEVLHEAMERTALSKEALQLIEDPNRSSVDEMLKLNGLLDVIIPRGGSSLIQNVVMNATVPVIETGAGICHTYLDASARPDMAAAISINAKVQRPSVCNSMETLLVHADYAKSHLTSLAEAFRERNVELRGCQRTLEYIPWAAVATSEDYATEYNDYILNIKIVDRLDEAIEHISVYGTKHSECIVTENEDHAERFLQEVDAAAVYHNASTRFTDGFEFGFGAEIGISTQKLHARGPMGLPALTSSKYVIIGSGQIRE	PGPT0014215_3890	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
AK002_02356	1104	proB	COG0263	Glutamate 5-kinase 1	ATGCTCTCGCGCATCGTCGTAAAGATTGGAAGCAGCTCCCTAACGACAGACGAAGGCGGACTTAATCTGGATTCGGTCGCGTTTTTTGCCGGGGAACTTGCCGGGCTCCGCGAGGCCGGCCATGAAGTTCTCCTCGTGACCTCCGGAGCCGTCGCTGCAGGGTTTAGGGAGATCGGGTACGAGACGAGACCCAAGCTGCTCCATGAGAAGCAAGCATCCGCTGCATTGGGCCAAGCGCTGCTCATGCGGGCCTACCAGAATGCGCTGGCCTCCCATCAATTGAAAGCGGCCCAGATTCTGTTGACGAGAATGGACTTTGCGAACCGCAAACGCATGAACAACGCCAACATGACGATTACGGAGCTTCTGAAGCAAGGCGTCATCCCCATCATTAACGAGAACGACACGGTTTCGATTGACGAGCTGAAATTCGGCGATAACGATACGTTATCCGCACTAGTCGCCAACCTTGTCCGCGCTCAGCAATTAATCATCCTGACCGATACGGACGGCTTATACACGGCCGATCCGCGCAAGTCGCCGGATGCCAAAAAATACGAGGAAATTCATGACATTACCGATGAAATTTACAGCATGGCGGGAGGGGCCGGCTCCAGCGTCGGAACCGGCGGCATGCGCTCGAAAATCGATGCCGCCAAAATCGCCACCCGCGGCGGCGTTCCCGTTTTCATCGGCAAAGCCAACGAACCCGGCGATCTGGTGAAAGCATTGGAGCGCAGCGGCAAAGGTACGTATTTTGCCACTCACCTGTCAGCCCTGCCTGTGAAGAAGCAATGGCTCGGCTTTATGTCCTCGCCTCTGGGTCGGATCGTAGTCGATCCCGGTGCCGAGAAGGCGCTGATCCACGGAGGTCACAGCCTCCTTCCCGTTGGCGTTAAACGGATCGAAGGCAGTTTCCATGCAGGCGATGTGGTGGAAGTCGTCAATATGGACAACGAAAGGCTCGGCAGAGGCATCGTCAATTACGACGAGGACCAGCTGCAGGCCGTGCTCGGATTGCCGAGCAGCCAAGTCATCGGGATTATCGGCGAGATCCATCGGCTCGAGGTTATTCACCGCGATGAATGGATTACGTTAAAATAG	MLSRIVVKIGSSSLTTDEGGLNLDSVAFFAGELAGLREAGHEVLLVTSGAVAAGFREIGYETRPKLLHEKQASAALGQALLMRAYQNALASHQLKAAQILLTRMDFANRKRMNNANMTITELLKQGVIPIINENDTVSIDELKFGDNDTLSALVANLVRAQQLIILTDTDGLYTADPRKSPDAKKYEEIHDITDEIYSMAGGAGSSVGTGGMRSKIDAAKIATRGGVPVFIGKANEPGDLVKALERSGKGTYFATHLSALPVKKQWLGFMSSPLGRIVVDPGAEKALIHGGHSLLPVGVKRIEGSFHAGDVVEVVNMDNERLGRGIVNYDEDQLQAVLGLPSSQVIGIIGEIHRLEVIHRDEWITLK	PGPT0014220_215	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
AK002_02357	1194	bacF	COG0436	Transaminase BacF	ATGAACAAAAAGCCAGACGTTTTCCACATAGAGCCGGCCGAGATCATGGCCCAGCTGCCTACGCAATTTTTCGCGACCCTGGTCTCCAAGGTAAACCGCCAAGTGTCTCAAGGGCATGATGTAATCAATCTCGGGCAGGGAAATCCCGATCAGCCCACGCCGCCTCATATCGTATCGAGCCTGAAGGAGGCGGCCGACAATCCGCAGTTTCACAAATATTCGCCTTTTACCGGCTTTTCCTTCCTGAAGGAAGCCATCGCGCATCGATACAAGGAGGACTATAACGTCGATCTGGATCCGGAAACGGAAGTCGCCATTCTGTTCGGGGGAAAAACCGGGCTGGTGCAGCTGCCGCAAATCCTCCTGAACCCAGGGGATGTCTGTCTTGTCCCGGACCCGGGTTACCCGGATTACTGGTCAGGCGTTGCTCTCGCCCGCGCGCAAATGAAGTTCATGCCGTTAACCGCAGATAACCGCTTCCTCCCCGACTATACTGCTATATCGCCTGCAGACCGGGAAAAAGCGAAGCTGATGTTCCTGAATTACCCGAACAACCCGACATCCGCCGTCGCTCCTTTATCCTTCTACGAGGATACGGTGGCATTCGCCGCCGAACACGGGATCGTGGTAGCCAGTGACTTTGCATACGGGGCGATCGGTTTTGACGGAGACCGTCCGGTCAGCTTCCTGCAAGCGGAAGGCGCCAAGGAGGTGGGCGTGGAATTCTACACCCTCTCCAAAACCTACAATATGGCAGGATGGCGCGTCGGCTTCGCCTTGGGGAACCCAAACATCATCTCGCTGATCAATATGCTGCAGGACCATATCTATGTCAGCCTGTTCGGCGGCATCCAAGCGGCTGCGGCAGCGGCTCTCACCTCGTCGCAGGACTGCGTCGACCAACTGGTGTCGCGCTACCAGTCGAGAAGGGATGCCTTCTACGGTGCCCTGTCCGAAATCGGGTGGCAGGCCCCTAAACCGGCCGGCTCCTTCTTTAGCTGGCTGCCCGTGCCGAAGGGATACACCTCGGTAACCTTTGCCGACCTGCTGCTGGAGGAGGCCAAGGTGGCCGTCGCACCTGGCGTAGGCTTTGGGGATCACGGCGAGGGGTATGTCCGCGTCGGCCTGTTAAGCAGCGAGGAACGAATGCGGGAAGCCGCCTACCGGATTGGCAAGCTGAACCTGTTCGGCTAA	MNKKPDVFHIEPAEIMAQLPTQFFATLVSKVNRQVSQGHDVINLGQGNPDQPTPPHIVSSLKEAADNPQFHKYSPFTGFSFLKEAIAHRYKEDYNVDLDPETEVAILFGGKTGLVQLPQILLNPGDVCLVPDPGYPDYWSGVALARAQMKFMPLTADNRFLPDYTAISPADREKAKLMFLNYPNNPTSAVAPLSFYEDTVAFAAEHGIVVASDFAYGAIGFDGDRPVSFLQAEGAKEVGVEFYTLSKTYNMAGWRVGFALGNPNIISLINMLQDHIYVSLFGGIQAAAAAALTSSQDCVDQLVSRYQSRRDAFYGALSEIGWQAPKPAGSFFSWLPVPKGYTSVTFADLLLEEAKVAVAPGVGFGDHGEGYVRVGLLSSEERMREAAYRIGKLNLFG	PGPT0012760_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012760-bacF-K19549	NA	NA
AK002_02358	813	yafV		Omega-amidase YafV	ATGACTGGAGAAGCAAAGGCTCAGCTTCATATCGCACTTATTCAAGCTGATATTGAAATAGGCAACGTCCAGGCCAACGTGGATAACATGCTCGGCATGATGGAGAAGGCGGCAGCGGCGAACCATAAGCCGGACGTGATCGTGCTGCCGGAGATGTGGAACACCGGATATGCGCTGGACCGGATCCATGAGCTCGCCGACCCTATGGGACAAGAAACCTCTTCGATGCTGAGCGAGTTTGCTCGAAAGCACCGCATCCAAGTCGTTGGCGGTTCCGTAGCCGAACGGATCGAAGACCGGATTTATAACAGCATGTACGTCTTTAACCGGAACGGGGAGCAGATCGCCAAATATTCCAAAATCCATTTGTTCCGCCTGATGGACGAAGAGAAGTTCCTGGAAGCCGGACAGCAGACCGTAACCTTTGATCTGGAAGAAATGAAGGCGGGCGCGTCGATCTGTTACGATATCCGGTTCCCGGAATTGTCCCGCACCCTCGCGCTTGGCGGCGCTCAAGTGCTGTTCGTGCCTGCGGAATGGCCCCATCCGAGGCTGCATCATTGGAGAACGCTGCTCCTCGCCAGGGCGATCGAGAACCAAATGTATGTCGTAGCCTGCAATCGCGTAGGAACCAGCGGCGAAACGGACTTTTTCGGCCATTCCATGATCATTGACCCATGGGGCGAGATCATCGCCGAAGGGGATGAGCGGGAAACGATCGTGACAGGCACGCTGGATTGCAAGCTCACGGATGAAGTGAGAGGTCGCATACCGGTTTTTGAGGACCGTCGGCCACATTTGTATTTCCAATAG	MTGEAKAQLHIALIQADIEIGNVQANVDNMLGMMEKAAAANHKPDVIVLPEMWNTGYALDRIHELADPMGQETSSMLSEFARKHRIQVVGGSVAERIEDRIYNSMYVFNRNGEQIAKYSKIHLFRLMDEEKFLEAGQQTVTFDLEEMKAGASICYDIRFPELSRTLALGGAQVLFVPAEWPHPRLHHWRTLLLARAIENQMYVVACNRVGTSGETDFFGHSMIIDPWGEIIAEGDERETIVTGTLDCKLTDEVRGRIPVFEDRRPHLYFQ				NA	NA	NA	NA	NA
AK002_02359	186			hypothetical protein	ATGGCAGAGAACAACCAATTCGACAGCCGAAACAATGAACAGGAACAAGAACAGAAAGAGCAGTTCCGCAATTTTGTTGAGAGCGTAGCCGGAGGCGGGAACGGGAAAAACGAATCGATTCAGGATCAGTCCCGTACCGCGGACGAACAGAACCGAATGATCGACCAGCATAATTTGCGCAAATAG	MAENNQFDSRNNEQEQEQKEQFRNFVESVAGGGNGKNESIQDQSRTADEQNRMIDQHNLRK				NA	NA	NA	NA	NA
AK002_02360	933	oxyR		Hydrogen peroxide-inducible genes activator	ATGGAACTGAGACAACTGCAATATACGCTGCAAATCGCGGCGGACAAAAACTTTTCGCGCGCCGCGGAGAAGCTTCATATCGCCCAGCCTTCCCTGAGCCAGCAGCTCTCCAAACTCGAGAAAGAACTCGGGGTGCTGCTGTTCCAGCGCAATACGAGCAACGTCGAGCTTACCCATGCCGGTGCCAGCTTTGTCGAGCATGCGCAGAAGATCATGGACGCCGTCGAGCAGCTGAAACAGGAGATGTCGGACATCTCCCAGCTACGGAAGGGGAAAGTCGTCGTGGGCAGCATGCCGATAACCGGCTCTCATCTGCTGCCCCGAGTTTTGCCTGCTTTCAAAAAAGGATATCCGGATATCGAAATCACCCTTTTGGAGGACTCCTCCATGAATCTGGAGAAGCTGACGGCCAGCGGCAAGGCGGATCTTAGCCTGCTTGCGCTGCCCTTGGCGGAGCCGTCCTTGTCCTGGATTCCGATCGGCGAGGAAATGATCGATTTGGCAGTTCCTCCCCAGCACCCGCTTGCGCTGCGGGCGGCCTCCGATCCCGTACGCCCCATTACGATCGACGAAATCCGAAACGAAGCGTTTGTCGTGCTCAAGAAGGGTCAGGGCTTCCGGAAGCTTACCTTCGATATATGCCGGGAGGCCGGCTTCGAGCCGAACGTTGTATTCGAGAGCAGCAACATCGAGACCCTCCAGTCTTTGGTCGCTACCGGGATGGGGATCACGCTGGTTCCCCGGTTCATTGCCCGTGCGAAACGCAGCGAGTTTATTCCGGTGTATCTGCCGCTCGCGGATCCGGTGCCGAGCCGCACGCTGGTCGTCGCTTACCGAAACGGCCGGTATTTGTCCAAAGCGGCGGATGCGTTCATCGACACGTTCAAGCAGGTCATGGACAAGCTTGTGGTAGAAGGCGTTCAGGATAAATAA	MELRQLQYTLQIAADKNFSRAAEKLHIAQPSLSQQLSKLEKELGVLLFQRNTSNVELTHAGASFVEHAQKIMDAVEQLKQEMSDISQLRKGKVVVGSMPITGSHLLPRVLPAFKKGYPDIEITLLEDSSMNLEKLTASGKADLSLLALPLAEPSLSWIPIGEEMIDLAVPPQHPLALRAASDPVRPITIDEIRNEAFVVLKKGQGFRKLTFDICREAGFEPNVVFESSNIETLQSLVATGMGITLVPRFIARAKRSEFIPVYLPLADPVPSRTLVVAYRNGRYLSKAADAFIDTFKQVMDKLVVEGVQDK	PGPT0012965_1309	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
AK002_02361	1410	leuC	COG0065	3-isopropylmalate dehydratase large subunit	ATGTTCGAAAAAATTTGGGATAACCACGTGATTCATCAGGAAGAAGGCAAGCCGGGTATTCTGTATATCGACCTGCATTTGGTCCACGAGGTGACTTCCCCTCAAGCCTTCGAAGGTCTGCGTCTCAGCGGCCGCAAAGTGCGCCGCCCGGAACTTACCTTCGCCACGATGGATCACAACGTACCAACGAAAGACCGTTATAACATCACGGATCCGATTTCGAAGCAGCAAATCGACACCCTGACCAAGAACTGTCAGGATTTTGGCGTTACCCTGTATGATCTGGACACGATTGACCAAGGCGTAGTGCACGTTATGGGTCCTGAGCTTGGCTTGACGCATCCCGGCAAAACGATTGTGTGCGGCGACAGCCACACATCCACTCACGGCGCATTCGGTGCGCTGGCGTTCGGTATCGGTACGAGCGAGGTTGAGCACGTCCTGGCAACCCAATGTTTGCAGCAGGCTAAAGCGAAAACCATGGAAGTTCGTTTTGTCGGCCGCCGCAATCCCGGCGTAACGGCGAAGGACATGATCCTTGGCGTCATTGCGAAGTACGGAACCGATTTTGCAACAGGCTATGTTATCGAATATACGGGCGAAGCCATCCGCGAGTTGTCGATGGAAGAGCGCATGACGGTGTGCAACATGTCCATTGAAGGCGGAGCCAGAGCGGGCATGATCGCTCCGGATGAAACGACGTTTGAATATTTGCGCGGACGTCAATATGTTCCGCAGGGCGAAGCTTTTGATGCCGCTGTAGCAGCTTGGAAAGAGCTTGTGACAGACGAAGGCGCCGAGTTCGACGTGGTCGTTGAATTCGACGTGGAAACGCTGATCCCTCAAGTAACCTGGGGAACGAGCCCGGGAATGGGCACCGACATTTCCTCGACGGTTCCTAACCCTGCAGACTTCAAGACCGAGAACGAGCGCAAGGCAGCGGAGAAGGCGCTGGAATATATGGCGCTTGTGCCAGGGACTCCAATATCCGAGATTCCGATCGATTATGTCTTCATCGGTTCTTGCACGAATGGACGGATCGAGGATTTGCGGGCAGCAGCCGCTGTAGCGAAGGGACATAAAGTGTCCAGCAATGTGACCGCCATCGTCGTTCCGGGATCGGGCCGAGTGAAGATTCAGGCCGAAAAAGAAGGGCTCGACAAAATTTTCGTTGAGGCGGGTTTCGAATGGCGCGAAGCAGGCTGCAGTATGTGCCTTGCGATGAATCCGGATGTACTGAAGCCTGGACAGCGCTGCGCTTCCACATCCAACCGGAACTTCGAAGGTCGCCAGGGCCGCGGGGGCAGAACGCACCTCGTATCGCCGGCAATGGCAGCGGCAGCTGCGGTTAAAGGACGCTTCGTGGATGTACGTGATTGGAACTTTGCAGCCGAAGAAGTTGTGAGCTAA	MFEKIWDNHVIHQEEGKPGILYIDLHLVHEVTSPQAFEGLRLSGRKVRRPELTFATMDHNVPTKDRYNITDPISKQQIDTLTKNCQDFGVTLYDLDTIDQGVVHVMGPELGLTHPGKTIVCGDSHTSTHGAFGALAFGIGTSEVEHVLATQCLQQAKAKTMEVRFVGRRNPGVTAKDMILGVIAKYGTDFATGYVIEYTGEAIRELSMEERMTVCNMSIEGGARAGMIAPDETTFEYLRGRQYVPQGEAFDAAVAAWKELVTDEGAEFDVVVEFDVETLIPQVTWGTSPGMGTDISSTVPNPADFKTENERKAAEKALEYMALVPGTPISEIPIDYVFIGSCTNGRIEDLRAAAAVAKGHKVSSNVTAIVVPGSGRVKIQAEKEGLDKIFVEAGFEWREAGCSMCLAMNPDVLKPGQRCASTSNRNFEGRQGRGGRTHLVSPAMAAAAAVKGRFVDVRDWNFAAEEVVS	PGPT0001442_463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
AK002_02362	603	leuD1	COG0066	3-isopropylmalate dehydratase small subunit 1	ATGCAAGCATTTACGAAATTAAACGGTATTGTCGCACCTGTCGACCGGGTGAATGTAGATACGGACGCAATTATTCCTAAACAGTTTTTGAAACGGATTGAACGCACGGGATTTGGACAGTTTCTGTTTTACGAGTGGCGGTTTGATGAAGAGGGAGGCAATATCGACAGCTTCTCGTTGAACCAGCCCCGCTACCAGGGTTCGACCATCCTGATCTCCCGTGCCAACTTTGGCTGCGGATCTTCCCGCGAGCATGCGCCTTGGGCGATTCTCGACTACGGATTCCGCGTGGTCATCGCTCCATCGTTTGCTGATATTTTCTACAATAACTGCTTCAAGAACGGAATTCTGCCGATCAAATTGTCGGAGGAGCAGGTCGAAGAGCTGTTCCAGCGGACGGAAGCGAACGAAGGCTATAAACTGAACGTGGATCTGGAGAACAAAACGATTACCGATGATCAGGGATTGCACATCGACTTCGACCTCGACGAGCACCGTCGTCAATTCCTGCTTCAAGGATTGGACGATATCGGGTTGACGCTGCAGCATGAAAGTGCAATCGATGCTTACGAGAAAAAACATGGGGAGCGCTTGTTCGCCTAA	MQAFTKLNGIVAPVDRVNVDTDAIIPKQFLKRIERTGFGQFLFYEWRFDEEGGNIDSFSLNQPRYQGSTILISRANFGCGSSREHAPWAILDYGFRVVIAPSFADIFYNNCFKNGILPIKLSEEQVEELFQRTEANEGYKLNVDLENKTITDDQGLHIDFDLDEHRRQFLLQGLDDIGLTLQHESAIDAYEKKHGERLFA	PGPT0001443_2740	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
AK002_02363	1437			hypothetical protein	ATGAAGAAGTTAGGGTTTGTAATGGTGTTGATAGTCTTCTTGCTGGCGTTTCCGAAGAGCGGCGAGGCCAGTTCTTCAAGTGCGGCCATATTTCTTGACGGGGAACCATTGAATTTGTCTTCGGGCGTCCAGGTAGCCAACATGAAGGGCAATGTAATGATTCCGATACGCGTGGTATCCGAGAATCTCGGTTTCAAGGTAGGCTGGGAGAAGGCCAGCCAAACCGTAACGGTTGAAAATAGCGAGAAGACGGTCCGCATGGTGGTCGGCAGCCAGCAGGCAGAGCTGAACGGGGCACAGGTAGATTTGAATTTGGCGCCTGTCTTGAACGGGCCTACCACGCTTGTGCCGCTCCGGTTTGTGAGCGAGCAGATGGGGCTTGACGTGAAATGGGATAACCAATCGAAGGCTGTGTACCTTACAAGCGGCGCGCTGCCTACCACCGGAGCCGAGATTGATCCAGGTGAAGGAAGCAATCCGGGCAGTCAGACGCCCCCGCCTGCGGAATCTGGAAATAAGGGTTCATTGACGGGGCTCAGCTTTAGCGATAACCGTCTCATGATTGCAACGGAAGGCGCCGTGACGCCGAAAGTGTTCAGCATGACGGGGCCTGACCGGATTGTTATCGACCTTCCGGACACCGTCTACTCTGCTTCCTTCCTGAGCGGACATGCCGTGAACGCGCAGAATGGCGGCAATATGGAAGCTGCGGATTATTCCGACGTTACGAATATTAGATATGCCGTGTTCAGCGACAACCCGCCAACCGTGCGGATCGTATTGGATTTGACTGGACCTAAGAATTATGCGGTGACCCAGGAATCGGGCATCATCATCGTTGATCTGAACGCAGAGGGCGAAATTCTCGTACCGCCGGTGCCGCCGGTTACCGGGAATGGCAAGAAAACGGTTGTTATTGATCCCGGTCACGGTGGTATCAAGCCGGGGTCGATCAGCCTTACGGGAAAAACGGAGAAATCTTTTAATTTGGATATTTCCCTTAAGGTTGAAGCACTGCTCAAAAATGAAAAGAATATCAATGTAGTGATGACTCGCAGCGATGATTCACATCTTGAGCTCAGCGATCGCGTGAAAATCGCAAATAATTTAAAAGCAGATATTTTCGTGTCCATTCATGGAAACAGCAACGCGTCCAGCAGTCCCAGCGGTACGGAAACGTATTATACGAGAGATTCCAGCAAGTCATTGGCGGATGTGATCCATAAACATCTTGCAAAAGCGACAGGTCTCAAAGATCGTGGAGTTAAATACGGTAGCCTTCATGTTACGAGGGAAACGACGATGCCGGCTGTCCTGCTCGAGATTGGCTTTTTGAGCAACAAGGGTGACGAAGCCCAGTTGTTTAAAGACGATTTCCAAAATCGTGTTGCACAAGGTATTGTAGAGGGTATTAAAGAATATCTTAAAGTACAATAA	MKKLGFVMVLIVFLLAFPKSGEASSSSAAIFLDGEPLNLSSGVQVANMKGNVMIPIRVVSENLGFKVGWEKASQTVTVENSEKTVRMVVGSQQAELNGAQVDLNLAPVLNGPTTLVPLRFVSEQMGLDVKWDNQSKAVYLTSGALPTTGAEIDPGEGSNPGSQTPPPAESGNKGSLTGLSFSDNRLMIATEGAVTPKVFSMTGPDRIVIDLPDTVYSASFLSGHAVNAQNGGNMEAADYSDVTNIRYAVFSDNPPTVRIVLDLTGPKNYAVTQESGIIIVDLNAEGEILVPPVPPVTGNGKKTVVIDPGHGGIKPGSISLTGKTEKSFNLDISLKVEALLKNEKNINVVMTRSDDSHLELSDRVKIANNLKADIFVSIHGNSNASSSPSGTETYYTRDSSKSLADVIHKHLAKATGLKDRGVKYGSLHVTRETTMPAVLLEIGFLSNKGDEAQLFKDDFQNRVAQGIVEGIKEYLKVQ	PGPT0024160_1724	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK002_02364	696			hypothetical protein	ATGAACAAAAAATATTGGATGACCGGATTGCTGGCGCTTCTGCTTGCATTTAGTGCCGGCTGTGGACAGAAGCCGACTGCAGCCCCCGCCGAGACGGGTCCGGATACAGAAGCAGGACAAGTACAGACGCCGCAGGACGAACCGGGCGATGACAAGGCGGCGGATGATCAGAAGCAAGGCGAAGCCGAAGCGACTACCGTGAACGCGAGCGAAGGAACAAGCACGCCGCCGGAGAAAACAGCCGCTGGAAGTACAGGTACGCCAGAGGATACGAAGGACGTGAACGCTGCGGAGGATCAAGCGAAGAAAGCGAATATTAAACTCTATTATACGGACCCGGAGATCATGGATTTGAAAGAAGCCAGCAAAGAGATCACGTACTCGGGCGAAGAGGATAAATATAAGAAGGCTTTTGAAGGTCTTCAAAAGAGCGGAGATGCCGAGTTGAATCCATTATGGTCGGATAAAATCACGCTCAAGTCACTTAAGTTCGATAACGGAGCATTAACGCTGGATATCACCAAGCCGGCAGAGGCGAATCTTGGAGCTGGAGGGGAAATGTTTGCGATTGACGCATTGCAAAAAACATTCTTCCAGTTCGAGGAAGTGCAGTCCTTAGAATTGCTTGTAGACGGTAATCAGATTGAGAGTTTAATGGGGCATGTTGAGCTGGAGCATCCTATGACTCGGAAATAG	MNKKYWMTGLLALLLAFSAGCGQKPTAAPAETGPDTEAGQVQTPQDEPGDDKAADDQKQGEAEATTVNASEGTSTPPEKTAAGSTGTPEDTKDVNAAEDQAKKANIKLYYTDPEIMDLKEASKEITYSGEEDKYKKAFEGLQKSGDAELNPLWSDKITLKSLKFDNGALTLDITKPAEANLGAGGEMFAIDALQKTFFQFEEVQSLELLVDGNQIESLMGHVELEHPMTRK				NA	NA	NA	NA	NA
AK002_02365	1386			hypothetical protein	ATGAAGAAGTTCGGTTTTTTAATGTTTCTGGTTGTCATCATGATTGCGTTTCCTAAAATGGCGGATGCGAGTTCGTACAGCGCAAGGATTTACCTGGATGGTCAACAAATCAATCTGTCATCTGGCGTGAAGGTGGAGAACAACAACGGTACCGTCATGGTCCCGATCCGTGTCATTTCCGAAAATCTCGGTTTTAACGTGAATTGGAACAAGGCAGCAAAGACGGTAACGGTTGAAGACGCCTGGCAGAAAGTGACGATGGTGATCGGAAGTCAGTATGCCGACATAAACGGCCAGCGTGTTCTAATGACGAAGGCGCCTGTTCTTCGAGGCGGAACGACCCTCGTTCCGATTCGCTTTGTAAGTGAGCAGATGGGCCTTCAAGTAAGATGGGATAACACGCAGAAGGCAGTCTATCTTACCTCGTCTTACGATGGCAGTAACCCTGGCGAAGAACCCGGCGTCGCTACGTCGACCGTGGACGGTCTCAGCTTCAGCGAAAACAGGCTGATGGTCGCCGTTACGGGCAATGCGAAGCCGAAGGTGTCGAAGCTCAGCAGTCCGGACCGTATCGTCATTGATATGGCGAACACGAATTTCTCCGAGACGTTCAGCAGCAACGCCGATTTCGATGACGTGACGAAGAGCGGCCAGATGACGGTGTCGGGTTACCCGGACGTCAAAGCCGTCCGTTACTCCCTGTATAACAGCAACCCGATGACCGTGCGGATCGTCATTGATCTGAACTATGCCAAGAACTACACCGTATCAGGCCTTGAGAACGGATCGGGCCTGTTCATTGTGGATCTGAACACGACCTCTAACCCTGCGCCGGAACCCGGTACGGGCGGAAAGAAACTCGTGGTCATTGATGCGGGTCATGGAGATCATGATCCGGGAGCAATCGGGGTAACGAAGAAGAGGGAGAAGGATTTCAACCTCGCGATGGCGCTGAAAGTTGAGAAGTTGTTGGCCAAAGAAAAAAATATCGAAGTCGTTTTGACTCGCAGTAACGATACTTTCCTCGAGCTGAAGGATCGCGCGAAGATTGCGAATGATCTGAAGGCTGATGTTTTCATATCGATACATGCTAATAGCGGCCCTTCCACTGCAAGCGGAACCGAAACGTATTATTACAATGAATCTGACAAGGCGCTGGCGAATGCCCTTCATAAAGAGATTGTGAAGGCTATGGGCTTAAAAGACCGCGGCGTGAGATACGGCAATTTCCATGTCATTCGCGAGACCAAGATGCCTGGCGCCCTGCTGGAAGTCGGGTTCCTGAGCAACAAGACCGATGAGAGCAAGCTGTTTGATCCGGCAACGCAGGATCGGGTAGCCGAGGCAATTGTCAGAGGCATCAAAAATTATTTGAAGGTTGATTAA	MKKFGFLMFLVVIMIAFPKMADASSYSARIYLDGQQINLSSGVKVENNNGTVMVPIRVISENLGFNVNWNKAAKTVTVEDAWQKVTMVIGSQYADINGQRVLMTKAPVLRGGTTLVPIRFVSEQMGLQVRWDNTQKAVYLTSSYDGSNPGEEPGVATSTVDGLSFSENRLMVAVTGNAKPKVSKLSSPDRIVIDMANTNFSETFSSNADFDDVTKSGQMTVSGYPDVKAVRYSLYNSNPMTVRIVIDLNYAKNYTVSGLENGSGLFIVDLNTTSNPAPEPGTGGKKLVVIDAGHGDHDPGAIGVTKKREKDFNLAMALKVEKLLAKEKNIEVVLTRSNDTFLELKDRAKIANDLKADVFISIHANSGPSTASGTETYYYNESDKALANALHKEIVKAMGLKDRGVRYGNFHVIRETKMPGALLEVGFLSNKTDESKLFDPATQDRVAEAIVRGIKNYLKVD	PGPT0024160_2003	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK002_02366	603			hypothetical protein	TTGAATAAAAAAATTTGGGCAGTCGGACTATTGGCAGCCGTTATGCTGATTGGTGCCGGTTGCGGGCAGAAACCCGGAGCAGCACCGGACGATACGCCGGGGCAAGAGACACCTGCACCTGATGATCAGACAGGACAGAGCAATGGGGGAACATCGAACGGATCCGGTGGCACGTCAACAGGGAACGGCGGCAATGAAGCGACAGCGCCGGAAGCCAAAACGGAGAGCATCAAAGCCTATTATACGGACCCGGATTTGATGGAGCTGGTTGAAGGCTCAGCAGAGATTTCGTATAAGGATGATCAGGAAAAATACGAAGCTGCATATCAAGCATTGCAAAAGAGCGATAAGGCCGATATGGTTCCCCTGTGGGAGAAAATCGGGCTGAATTCGTTAAAGTTCGAAAACGGCGCTCTGACGCTCGACGTGACGGTCCCTGACGAAGCCAACTTGGGTGCAGGCGGCGAGTCGTTTGCCGTCGATGCCATCAAGAAAACGTTCTTCCAGTTTGACGAAGTAAAATCACTTCAAATTCTGGTCGATGGTCAGCAGACCGAATCGTTGATGGGGCATGTCGATTTGGAAAATCCAATGACTCGGTAA	MNKKIWAVGLLAAVMLIGAGCGQKPGAAPDDTPGQETPAPDDQTGQSNGGTSNGSGGTSTGNGGNEATAPEAKTESIKAYYTDPDLMELVEGSAEISYKDDQEKYEAAYQALQKSDKADMVPLWEKIGLNSLKFENGALTLDVTVPDEANLGAGGESFAVDAIKKTFFQFDEVKSLQILVDGQQTESLMGHVDLENPMTR				NA	NA	NA	NA	NA
AK002_02367	2730			hypothetical protein	ATGGTACTTAGACACAGCAAACATGTTCATTCCAAAAAAGTGGTCTCCGCCGTCATGGCCGGACTTATAGCATTCGGAGGCGGAGCTTCGATCGTCTCGGCAGATGAAGAAGCAGCAAATGCGACAACGGCAAATGCACCCCAAACGGCCATTAACGTATTCAGCGACGTGAATGCCGGTTATTGGGGAGAAAAGTACATTTATCAATTAGCAGCACAGGGGATCGTGACCGGGAATAACGGAAAGTTTCGTCCGAACGATCCTGTAACGCAGCAGGAAGCTGTAACGATGGCGATCCGGTTCTTAAGCATGCAGGATCAATTAAGCAGCGGCGCTGCGACATTACCGACAAATGTTAAAGTGAACGATTATTTTACGAAGTATGTTGAACTGGCTTTTCAGCAAAACCTGCTCGACAAGCAAAAAGAATCCGGATACACGGACGAGAAAGTCATTTGGGGCGCGCAGAAAGCATCCCGGGAATGGATAACCGAAGTGCTTGTCCGTTCCATTGGACGTACCGCGGAGGCCAATGCCGCCAAAAATAAAGCGACAGGCTTTGCGGACAACGCCAAGATATCCCCGGAACGTTTGGGATACGTTAATGTGGCGGTTGAGCTGGGCCTTGCCAAAGGCGTGAACGGAAACAAATTCGATCCGCAAGGGGCGGTTACCCGTGCCCAGCTTGCAACGTTCTTCAGCCGGGCTCAAGCGTACATTACCACGAATTACGAGAACCAATACAAAGGCTCCATCGCTTCGATTGAGAACGGCAAACTGGAGCTGTATGCCGACGGCAAGCTGAATTCATTCAAGCTGGATTCTTCCACAGCTTATTTTGCGTCCGATTCGGAGAAAAGATTGCAGTTTTCGGACATCAATCCATACACGCAAGCGGTGGTCGTCGCGAATAACGGAACGGCTGCTTACGTGGAAATTACGGATCCAACCCAGCAGGTGGAGCGGTTTGACCGCACGTATGCCCGTTTGTCTCCGAACAACGTGATTTGGCTTGATACAGGCAGTACATTTGAAGAGCTGAGTTACGAGCCAAGCACGGTTTTCCTCGACCAGAACGGCATCCAAATCGATCCGAAGACGCTTGCTGCGGGCAGCTTGCTTACCATTGAGCGCGAAACCTACAGCCCGCAGAAGAAAATCGTGTCGATCCGCGTGAAGAGCGGCTTGGTGAACAAGACCGGAGCGGGCGTCGTCCAAAACGTGGATACGGCGAACAAAAGAGTAACCCTTAAGGACAGCACCGGTTATGAGGACACGTACACGTGGGATGATGCTACCGTCATTCGCTATCAGAATCAAATTCTGTCTCCGGCGGAGCTGAAGAATGGTTATACCGTGAATTTCACGGTAAAAAACAGCATTCTTCAATCGGTGGAAGTCACGCAAAGCGTCGACCGTACGGTACAGGCGATGCTGTATTCAGTTGAAGAAAACGGAAAAACCATCACGTATAAGCGCAGCGGAAGCACGCAGCTCGAAACGAAGTTTCTGGCGGAGAAGCCGGAAATTATTATGAGTGGCGTGGCGAAGCCCGTCTTGTCCGATTTGCTCGCGGACGCCGTATCCGGCGATCAAGTGACGCTGACCATCAATGGCGAGGAAAAAATCACGAAGATCGAAGTAACGGGCCGTCAAATGGAACAGCTGGATGCCGTCACTATTGTCAATTACGATGCGAAGACGCACTGGCTGACCGTCAAGGATGTTAACAATCAGCCTCGCGTCATCATCCTGGATGATAAGACGAAGCTGGAATCGAGCAACGGAACAACGCTGGATAAAGTGGAGCCGCTGCTTGGAGCAGGACGCAAGGTCAGCGTATCGCTCATTGGTACCCGAGCACTTTCACTGGAAGTGGTTTATAAAGTTGAAGGTAAAATCAACAGCATTAACACAGCCAAGAAAGTGATATCGATTGTGGCCGCCAACGGAAAAGTAGAGGAAATTCCATACAACAGCACGCTGCTTGTAGAAATCTTCGGCAAATCGAACGCTTCCCTGGCGGATGTGCGTGTCGGCGACGAGGTTTCGGCGCAGCTGTCGACCAACCAGGACTACTTGCAGAGCCTGAAGCTTAAGACATCCGCGCAGTTCGAGGTCGTATTCACCGAACCGACGAAAAACCGCATTCGAGTGAAAGCGAATGGCGCTACAAGCGATATTTATACGGACAAAGCAACATTGACCGGCGATAGCGGACAAGCGATCCTGCTTGCAGACCTGCGTCCCGGAACTCTCGTTAATATTACGCTTCAAGGCTTAACGGCTGTTTCGGTTGCCGAAGTCAAATTGACGCTTGGCGAAGTCACCAGCTTGGATGCTTCGGGCAATGTATTGACCGTGAAAGATCATTCGGGCAACAGCCAGACCCTAGGCGTAAGCGGCGGCGTCAAGGTCGTCAAGAATGGTTCGACGGCTTCGAACTTAAGCACGTTGACGCAGGGAGATCGCGTTGAGATTCGAAAAGACATTCAAGGCGTAACGATCATCCAAGTGCTGGAGAAGATCGAGCGTGCGTTCTGGCAGGCGAACAACACCGAAATTCAAGTGAAACGCAAATCGATTAACGATAATTACCGATTTACGTTATCCGATAAAGTATTTGTTCATCAAGGTGACACTACTTTGTCCGTGCAATCCCTTAAGGAAAATGATAATATTGTACTGTACTTAAACAACGGTGTCGTTGTTGAGATCGTAAAACAGTAA	MVLRHSKHVHSKKVVSAVMAGLIAFGGGASIVSADEEAANATTANAPQTAINVFSDVNAGYWGEKYIYQLAAQGIVTGNNGKFRPNDPVTQQEAVTMAIRFLSMQDQLSSGAATLPTNVKVNDYFTKYVELAFQQNLLDKQKESGYTDEKVIWGAQKASREWITEVLVRSIGRTAEANAAKNKATGFADNAKISPERLGYVNVAVELGLAKGVNGNKFDPQGAVTRAQLATFFSRAQAYITTNYENQYKGSIASIENGKLELYADGKLNSFKLDSSTAYFASDSEKRLQFSDINPYTQAVVVANNGTAAYVEITDPTQQVERFDRTYARLSPNNVIWLDTGSTFEELSYEPSTVFLDQNGIQIDPKTLAAGSLLTIERETYSPQKKIVSIRVKSGLVNKTGAGVVQNVDTANKRVTLKDSTGYEDTYTWDDATVIRYQNQILSPAELKNGYTVNFTVKNSILQSVEVTQSVDRTVQAMLYSVEENGKTITYKRSGSTQLETKFLAEKPEIIMSGVAKPVLSDLLADAVSGDQVTLTINGEEKITKIEVTGRQMEQLDAVTIVNYDAKTHWLTVKDVNNQPRVIILDDKTKLESSNGTTLDKVEPLLGAGRKVSVSLIGTRALSLEVVYKVEGKINSINTAKKVISIVAANGKVEEIPYNSTLLVEIFGKSNASLADVRVGDEVSAQLSTNQDYLQSLKLKTSAQFEVVFTEPTKNRIRVKANGATSDIYTDKATLTGDSGQAILLADLRPGTLVNITLQGLTAVSVAEVKLTLGEVTSLDASGNVLTVKDHSGNSQTLGVSGGVKVVKNGSTASNLSTLTQGDRVEIRKDIQGVTIIQVLEKIERAFWQANNTEIQVKRKSINDNYRFTLSDKVFVHQGDTTLSVQSLKENDNIVLYLNNGVVVEIVKQ	PGPT0022155_4487	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
AK002_02368	672	nth	COG0177	Endonuclease III	ATGAATGCGGCAACGGTACGGCATATTTTGGACACGATGGAGAGCATGTTTCCGGATGCACATTGCGAACTGAATCACAGCAATGCGTTTGAGCTGACCATCGCCGTGCTGCTGTCTGCCCAGTGCACGGATGAAACGGTTAATAAAGTAACAAAGGATCTGTTTCAGAAATACAAAACGCCTTTGGATTACGTATCGGTACCGATCGAGGAGCTTGAGCAGGATATCAGACGGATCGGGTTATACCGGAACAAGGCCAAGCATATTCAGAACTTGTGCAGGATTCTGATCGAACAGTATGGCGGGGAAGTACCGGAAGCTCATGACGAGCTCGTCAAATTACCCGGGGTTGGACGCAAGACGGCCAATGTCGTCGTTTCCAACGCCTTTGGCGTGCCTGCCATTGCGGTGGATACGCATGTGGAGCGGGTATCCAAACGGCTCGGACTGGCTGCTTGGAAAGATTCCGTGCTGGAAGTGGAGAAAAAGCTGATGAAGCGGGTGCCGCGTGAAGAATGGACGATGACGCATCATCGGATCATTTTTTTCGGAAGGTACCACTGTAAAGCTCAAAATCCGCAATGCCCGGTATGCCCGCTGCTGGATGTTTGCCGCGAAGGAAAGAAACGTATGAAAACCTTAGCAGTCAGGAAGAATAAGGAACAACCGTAA	MNAATVRHILDTMESMFPDAHCELNHSNAFELTIAVLLSAQCTDETVNKVTKDLFQKYKTPLDYVSVPIEELEQDIRRIGLYRNKAKHIQNLCRILIEQYGGEVPEAHDELVKLPGVGRKTANVVVSNAFGVPAIAVDTHVERVSKRLGLAAWKDSVLEVEKKLMKRVPREEWTMTHHRIIFFGRYHCKAQNPQCPVCPLLDVCREGKKRMKTLAVRKNKEQP	PGPT0013735_2652	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
AK002_02369	282			hypothetical protein	ATGAAATGCATCTCTGTTTACACCGACAATTTTGAATTGTTCTCGGATATTTTTGAACATGTGGTGGAGAGCCAGAGCCAACTGAGCGAGAATGAAGAGCAGGAAGTGGAAGGCGTGACGTTCAGCCACTCCGGGGATGCTCCCGAGCATTATTTGGAGCGCATGTCTCAGAAGCCGGAAGTGGTTGTGATGCGCGATAAGTCTCGCGGTTTAACCATTTTGCAGCACGGAAACGTGTTCGAAATTTTGATTCCGGCCGAAGAGAACACCGTCGTATCTTAA	MKCISVYTDNFELFSDIFEHVVESQSQLSENEEQEVEGVTFSHSGDAPEHYLERMSQKPEVVVMRDKSRGLTILQHGNVFEILIPAEENTVVS				NA	NA	NA	NA	NA
AK002_02370	3645	der_2		GTPase Der	ATGACATTGAAGTTGATGACAGATGAAATCGGATACAGCATGACGGAATTAAATAGAGTCCGGGACCGTTTTTTGGACTGGAATGACGAGTCTTCCTCCGCATTGACCGAGGATTTGATACGCAAGGGTACTGGCGGCGAGCTGACGCTTGCCTTCTGCGGTCATTTTTCAGCTGGGAAGTCAAGCATGATCAATGCGCTTTGCGGCAAAAAGGTGCTGCCCTCGGGTCCGGTACCGACGAGTGCCAATGTGGTCACGATTCGAAGCGGGGAGCCCCGGGCATTAATTCACCGGACTGTCGCGGACCATGGGGAGCCGATCAAGGTAACGATCGACGAACTCGCGGAATACTGCAAGGAGGGCCGGGAGTATTCCGCGATTGAAGTGTGGGATGACGTGCCGCTGCTTGGCGCGGACGGAGTGTTGATGGATACCCCCGGCGTCGATTCGACCGACGACGGGCATCGGCTTGCCACCCATTCCGCACTGCATATGGCGGACATCGTGTTTTACGTCATGGATTACAATCATGTGCAGTCGGAGAGCAATCTGATGTTTGCCAAGAGCCTGTCGGATTGGGGGAAGCCGCTGTATTTGATCGTGAATCAGATCGACAAGCATCGTGATGACGAGCTGACGCTGTCTTCTTACCTGAACGACGTCAAGAAGGCGTTCGCCCAGTGGAAGATCACGTACAAAGGGTTGTTATGCACCTCGCTTAAAGTACAGGACCATCCCTATAATCAATGGGAGACGCTGAAGTCTTTGATCGCCGAACTGATATCCCGGAAGGAGCCGCTGCTGCGCCATAGCGTTTCCTGCTCCATTCGTCATGCTGCGGATCAGCATGTGGAAGCCTATACCCGCAGTCATCAGGAGGAGAAGGAACGGCTGCTGGAGGAAATGGGCGGCGAGGAGGCTGCAGCGGCGCTGCAAGCACGCTTGCATGAGCTGGAAGAACAAAAAAGAACCGTAGCGGGGCTGCCGGAATCGATTCGCGCAGAACTCCGAAAGGAAGCCGATAAGCTGCTGGCCAATGCCAATCTAACGCCGGCGGATGTTCGGGATTTAAGCCTGTCCTTCCTGGAGAGCCGAAAATCCGGCTTTAAGGTCGGGTTCCTCTTCTCGGGCGGCAAGACGGAGGAAGAGCGCCGTCGCCGTCTAGAGGCCTTCCATCATCGTTTGGAGGAACAGACCTCTTCGCAGGTTGACTGGCATCTGCGTTCGCTGTTCCGCAATAGCGTCGAGCAGCATGCGGAATGGAATGCCGAATGGGAACGTTTGATGGACGACGAACTTCCGGGCGTGCGGGAAGATATGATTACGCGAACCGTGAATCCGGAAGCAACGGTGTCGGGCGAATATGTATTGAACTATAACCGGGAGCTGGCCGAGGAAATCAAGGGGAGCTACCGCATGGCCGTGTTGGTGCTTGCCGATCGGCTGAAGGCGGCATTGACGGACGCTGCGGCCGTCCGTCTGCAGGAGCTGGAGCGCCAGGGCGCCGAGCTCCGGGCGCAATCCGCGGCTTCCGCCAGCTACGCAGCCCTGCAGCAGGCGGAAGCCGCCCGCGCGGCCGAGCTGGCAGAGCTGCTCCCGCCGCGCACCTCCCTCACCCCCGGCCTTCTGCCGGAGGTGAGGGAGCCGGAGGGGCAGCCTGCGCATGCGGCTGCCCAGGGCAGCGCCCCGGCGGCGCAGCCGGGGCAAGGGCGCACGGCGCCCCGGGCCGCCGCTGCGCAGGCGGCGGCACCGCAGCGGCGCCAGCGGCTTGAGGCCGCGGCAGCCGAGCTGCGCGCAGCGGCGGCCCTGCTGGCGCCGCACCCCGCGCTGGCGTCGGCCGCGCGGGATCTGACCGCCCGCGCGGATGCGCTTGCGGGCGGCTCGTTCACTCTGGCGCTGTTCGGAGCGTTCAGCGCCGGAAAGTCCTCCTTCGCCAATGCGCTGCTGGGCGAGTCGGTCCTGCCGGTATCGCCGCATCCGACAACGGCGGCGGTGAACCGCATATTGGCACCGGCCGAAGGAAGATCTCATGGTACCGCAGACGTGCGTATGAAGAGCCGCGATATGTGGTGGGACGATTTGAAGTATTCCTTCGGCGTGCTGGGTCTCCAAGAACCGAATCCGGCCAATTGGCGGAGCGTGGCCGACGGTTTGAATCCGGCCGGAATTCACCCGGCGGGACTGCCGCATTACGGATTCCTGAAGGCCGCCGCCTCCGGCTGGGATGAGATGGAGTCCAGGCTCGGCACCACGGAAACGGTAGAACTGGCCGAATATCGGGGATACGTGGCGGACGAAACCAAATCCTGTTTTGTCGACGGGATCGATCTGTATTACAGCTGTCCGATGACGGAGCAAGGGATCGTGCTGGTGGATACGCCGGGAGCGGATTCCCTGCATGCCCGGCACACCGGCGTCACCTTCAACTATATTAAGAATGCGGATGCCATTGTTTACGTAACGTATTACAACCATGCCTTCTCCAAAGCGGACCGGCAATTCCTGTCCCAGCTGGGCCGGGTCAAAGACAGCTTTGCCCTGGATAAAATGTTCTTTATCGTCAATGCGGCTGATCTAGCTCAGTCCGAAGACGAGCTGAATGAGGTGGTGAAGCATGTGCGCACCAATCTTACAGCCAGCGGCGTAGGCAGCCCGCATATCTTCCCCGTCTCCAGTCTGGCTGCGCTGGACAGTAAACGGCAAGGGGACGAGGAGAAATTGCAGTCATCGGGATTCCCTGTTTTCGAAGAAGCGCTGGGCCGATTTGCGGTGGAAGAGCTGCCAAGGCTGTCCCAGCGTGCCGGTTATGATGAGATCGCTTCTGTAAGGGACCGTATCCGGGGGTGGGCTGAAATGGCCGCTCAGGATGAGACCACGCGCAAGCGGAAAATCGGGGAGCTGGAAGAGGTGCAAAACCAAGCCATGGCCCGCCTTAACGCTTTGGCGGAGCAGGAAATGGCCCGCGACATCGGTCAAGAAAGCAGCGAGCTGCTGTTTCACGTGCGGCAGCGGCTGGATTATGCCATGAACCGCTTTTTCCAGGAGTCGTTTAATCCTTCCGTGCTTCGGGAGGATGCAGGCCATTTGAAATCGGCATTTGCGGCTTGCGGGCGTGATTTGATGCGGACGATGTCCGTAGAGCTGGATCAGGAATTATGGGCCACCACGCTTCGTTTGGAGACGGCCGGTCGCAAATTAACCGAAGCTGCGGCATTTAAGGCCGCAGCCGATATCAACGGCATGGCCGAGGGTCTGTCACTGGCCATACGCCGGGATCCGGACTGGGCACCGCCGGAGCTGGAAGAAACGGAGCTGCAAATCCAAGGGGAATGGTTAACCTTCTGGTCGACCTTTAAGAATCCCAAACATTTCTTTGAGGGCGGCGGAAGTTCCAAGCTGCGCGAAGCGGCTGAGCCGAAAGTGAAGGAAGCCGTGGCGGGTGTGGTCGGCCTGCGGGAAGAGCAGCTGACGGACCACTATGTTCGAATGAGCGAACGTTCACTGCAGCATCATGTATCCGCTTTGGAGGAACAGCTGAAGGAATCCATGGCTGCCATACTGGGTTCGCTGCAGGACGGCCAGTCTCCGTTGATGTGGCGTCAACTGGCGGATGATTTGGAAACCATGATGAAGTCAGCGCAGTAA	MTLKLMTDEIGYSMTELNRVRDRFLDWNDESSSALTEDLIRKGTGGELTLAFCGHFSAGKSSMINALCGKKVLPSGPVPTSANVVTIRSGEPRALIHRTVADHGEPIKVTIDELAEYCKEGREYSAIEVWDDVPLLGADGVLMDTPGVDSTDDGHRLATHSALHMADIVFYVMDYNHVQSESNLMFAKSLSDWGKPLYLIVNQIDKHRDDELTLSSYLNDVKKAFAQWKITYKGLLCTSLKVQDHPYNQWETLKSLIAELISRKEPLLRHSVSCSIRHAADQHVEAYTRSHQEEKERLLEEMGGEEAAAALQARLHELEEQKRTVAGLPESIRAELRKEADKLLANANLTPADVRDLSLSFLESRKSGFKVGFLFSGGKTEEERRRRLEAFHHRLEEQTSSQVDWHLRSLFRNSVEQHAEWNAEWERLMDDELPGVREDMITRTVNPEATVSGEYVLNYNRELAEEIKGSYRMAVLVLADRLKAALTDAAAVRLQELERQGAELRAQSAASASYAALQQAEAARAAELAELLPPRTSLTPGLLPEVREPEGQPAHAAAQGSAPAAQPGQGRTAPRAAAAQAAAPQRRQRLEAAAAELRAAAALLAPHPALASAARDLTARADALAGGSFTLALFGAFSAGKSSFANALLGESVLPVSPHPTTAAVNRILAPAEGRSHGTADVRMKSRDMWWDDLKYSFGVLGLQEPNPANWRSVADGLNPAGIHPAGLPHYGFLKAAASGWDEMESRLGTTETVELAEYRGYVADETKSCFVDGIDLYYSCPMTEQGIVLVDTPGADSLHARHTGVTFNYIKNADAIVYVTYYNHAFSKADRQFLSQLGRVKDSFALDKMFFIVNAADLAQSEDELNEVVKHVRTNLTASGVGSPHIFPVSSLAALDSKRQGDEEKLQSSGFPVFEEALGRFAVEELPRLSQRAGYDEIASVRDRIRGWAEMAAQDETTRKRKIGELEEVQNQAMARLNALAEQEMARDIGQESSELLFHVRQRLDYAMNRFFQESFNPSVLREDAGHLKSAFAACGRDLMRTMSVELDQELWATTLRLETAGRKLTEAAAFKAAADINGMAEGLSLAIRRDPDWAPPELEETELQIQGEWLTFWSTFKNPKHFFEGGGSSKLREAAEPKVKEAVAGVVGLREEQLTDHYVRMSERSLQHHVSALEEQLKESMAAILGSLQDGQSPLMWRQLADDLETMMKSAQ				NA	NA	NA	NA	NA
AK002_02371	1779		COG1132	Putative multidrug export ATP-binding/permease protein	ATGAATGTTCTTAGGCAACTGCAGGGCTTCTTTTGGGAGAAACGAAGTTATCTTTTTCTTTCCATTCTGTGTCTGGCGATTGCAACCGCTTTAGGTCTTGTCTATCCGCAGCTGTTAAAAGTGCTGATTGACGATGCAATCAAGCTGGAGAATTACGGCATCGTACCACAGCTGGCACTCACCGTGCTGGGCGTGGTCATCCTTAAAGCTTTCATGCAGTTTTTGCATGGATTCTTTGGAGGGAGGCTGGGGAATTACCTGGCTTACTCGTTGCGAAACGCCTGCTATGAAAAGTTGCAATTTCTATCGTTCCGCTATTACGACACGGCTCGGACAGGGGATTTGATGTCGCGGCTGACGGGGGATTTGGAAGCAATCCGGATGTTTATCGGCTTCGGTTTTGCCCAACTCCTCAACCTCGTACTGATGGTGACTTTCGGTTCCATCATGATGTTCACCATCAGCTGGAAATTGACGCTGGTTACTTTGGTAGCGATGCCATTTCTGGTGTTCGCAGCTCTGAAATTCGAGTCCAAGATCCATCCGGCGTTCCAGGAGATGCGCCTGGCGCTCAGTTCGCTGACTACCGCGGTGCAGGAGAATATTACGGGTGTTCGTACCGTTAAATCCTTTGCTCGCGAGCCTCACGAAGTGGAGAAATTCTCCGAACGGAATGAGCGTTACAAAACCAATCAGATATTCGCCTCTTCCCTGTGGGCCCGTTATTTCCCGATGATGGAGCTCTTTGCGAATGTCAGCGTCGTCATTTTGCTTGCCGTCGGGGGCGCCATGGTTATCCAAGGTTCGATGACGGTAGGGGAACTGGCAGCATTCTTCACTTTAATTTGGTACATAATCGGACCTCTTTGGGGGATCGGGTTCCACATTAACAACTATACGCAGTCGAAGGCTTCGGGTGAACGGGTGCTGGAGCTGTTGAATCAGCCCATTGATGTCGAAGACCGTGAGCGTGCGGTAGATTTGGTGCCAAGCCAGGTGAAGGGTCATGTCGTGTTCGACAATGTCACCTTTGCTTACGGCAACAAGATGGCTGCTGTCAAAGATATCAATCTGGATGCTCGTCCCGGCTCCGTGATCGGTTTGCTGGGGGGAACAGGTTCGGGGAAGTCAACCATTATCCAGCTCTTGATGCATGCCTATAACGTGAATCAGGGCAGCATCAAATTAGACGGCGTGAACATCAACGATATTAAGGTACGGAGTCTGCGCAGCCAGATTGCAACGGTCTTCCAAGAGACCTTCCTGTTCTCGTCCAGCATCCGCAACAATATTTCTTACGGGATGAAGGACGTTAGCATGGATGAAATCATTCGGGTAGCCAAGCTGGCCAAGGCTCATGACTTCATTATGGAAATGAAGGATGGCTACGATACCATTGTCGGTGAACGGGGGATGGGTCTTTCCGGCGGACAGAAGCAGCGGATCGCGATTGCCCGTGCCCTTCTGAAGGACCCGAAAATCCTGATCCTGGATGATGCCACCAGCGCAGTGGACATGGAAACAGAGCATGAAATCCAATCCGGTTTCCAAGAAGTCATGAACGGCAGAACGACCTTTATTATCGCTCACCGTATTTCCTCCTTGCGTCATGCGGATGAAATTCTCGTTCTGGATGAAGGTAGAGTCGTGCAGCGCGGCAAGCATAACGATTTGATTGCGGTGCCGGGACCTTACCAGGATGTGTACAAAATACAATATGCGGACCTGATTGCGAAGCAAGCTCAAGCAGGAGGTACGCCAGGGCAGGTGCAAGCATGA	MNVLRQLQGFFWEKRSYLFLSILCLAIATALGLVYPQLLKVLIDDAIKLENYGIVPQLALTVLGVVILKAFMQFLHGFFGGRLGNYLAYSLRNACYEKLQFLSFRYYDTARTGDLMSRLTGDLEAIRMFIGFGFAQLLNLVLMVTFGSIMMFTISWKLTLVTLVAMPFLVFAALKFESKIHPAFQEMRLALSSLTTAVQENITGVRTVKSFAREPHEVEKFSERNERYKTNQIFASSLWARYFPMMELFANVSVVILLAVGGAMVIQGSMTVGELAAFFTLIWYIIGPLWGIGFHINNYTQSKASGERVLELLNQPIDVEDRERAVDLVPSQVKGHVVFDNVTFAYGNKMAAVKDINLDARPGSVIGLLGGTGSGKSTIIQLLMHAYNVNQGSIKLDGVNINDIKVRSLRSQIATVFQETFLFSSSIRNNISYGMKDVSMDEIIRVAKLAKAHDFIMEMKDGYDTIVGERGMGLSGGQKQRIAIARALLKDPKILILDDATSAVDMETEHEIQSGFQEVMNGRTTFIIAHRISSLRHADEILVLDEGRVVQRGKHNDLIAVPGPYQDVYKIQYADLIAKQAQAGGTPGQVQA	PGPT0029040_397	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
AK002_02372	1866		COG1132	putative ABC transporter ATP-binding protein	ATGAACGCCAATGTAAATACTGAACCGCATCAGAAGCAAAAGATTCCGAGGCCGCGGAAGCCTTCGGAAGAAACCAATGAACGTTTTGTATACAAGGACGACGATGTCATCGAGAAGCCGTTTAACTGGACGCAGCTGACGCGTCTGATCTCGTATATGAAACCATATGCCAAACAGATCCTCCCGTTGATCGGCCTCATGATGATTATCGGCACGATTACGAAGCTTGCCATTCCGTTCCTGACGAGCTTGGCTATTGACCAGGCCATTGACCCGAAGGAAGGAAATCCGAGCCTGACCCTGCTGTATCAGATTACGATCGCCGTTCTGGCGATGTATATCATTCAATGGGTAGCCGGGATATTCCGGATCAAGTTTACGAATATCATCGGTCAGCGGGTTATCTATGACCTGCGCGCCGATTTGTTCCAGCATATACAGCGCCTATCCTTTAATTTCTTTGACAAGCGTCCGGCGGGATCCGTGCTGGTTCGCGTTACGAACGATGTCAACTCCCTGCAGGATTTGTTTACGAACGGGGTTGTCAATCTGATCATCGACTGCGTGCAGCTGGTCGGTATCGTTGTCATCCTGCTGTTGATTAACTGGAAGCTTGGCCTGGCCGTGATCGTGACGGTACCGATCATGTTCTTTATCTCTACGAAACTCCGTGTGCGCATCCGGCGCGCATGGCAGGAAGTGCGGATCCGGAATTCGCGGATTAACTCCCACTTGAACGAATCCATTCAGGGGATCCGGGTTACGCAGGCCTACACGCAGGAAGAAGAGAACATGAAATTCTTCGATAACATGAACCTGGACAGCAAAAAGTCCTGGGATAGGGCGTCGGCCATGAACCAAGGGTTTGGGCCTCTTATCGAGATTACCGGGGGTTTCGGTTCCCTGATCTTGTTCTGGCTTGGTGCCGTATTGATTCAGCAAGGCGAGCTCACGATCGGTCTGTTGATTGCCTTTACCCAATATGTCGGGAACTTCTGGGAGCCGATCAACCGGCTTGGCCAAATGTATAACCAATTGCTAGTCGCAATGGCTTCATCCGAACGCATATTTGAGTTCATTGACGAGAAGCCGAGCATTGATGATCAGCCTGGCGCGAAGAAATTGCCGACCATTAAAGGGGACATCAAGCTGGAGAATGTGGTGTTTGAATACGAAAAAGGACGCCAGGCTCTCAAAGGCATCAATCTGGACGTGAAGGCAGGCCAGTCGATTGCGCTGGTGGGGCATACCGGATCAGGCAAGAGTACCATCATTAATCTGCTCAGCCGTTTTTATGATATTACGGACGGCAAATTAACCATCGACGGGTACGATATCCAATCGGTCACGGTGGAAAGCCTGCGAAATCAGATCGGCATCGTGCTGCAGGATACCTTCATATTCTCGGGTACGATTCGGGATAATATCCGCTTTGGCCGCCTGGATGCGACCAATGAGGAGATTGAAGACGTGGCCAAGGCTGTGGGCGCCCATGAGTTTATAGTCCAGATGCCGGGCGGCTACGATACCGAGGTCGAGGAACGCGGTAACATGCTGTCCATGGGGCAGCGGCAGCTGCTATCCTTTGCGAGGGCGCTCCTTGCGGATCCGCGCATTTTGATTCTGGATGAAGCAACGGCAAGTATCGATACCGAGACGGAATTAAAAATCCAGAGTGCCCTTAAAGTGCTGCTTCAGGGACGTACCTCCTTCATCGTGGCGCACCGTTTGTCAACGATCCGTCATGCCGATCATATCGTCGTGCTGGATCACGGGAAGATCATCGAAGAAGGAAATCACGACCAGCTTATGCAGAAGCAGGGGACATATCATGGGCTGATCGAAGCACAATACCGATTTTTGTAA	MNANVNTEPHQKQKIPRPRKPSEETNERFVYKDDDVIEKPFNWTQLTRLISYMKPYAKQILPLIGLMMIIGTITKLAIPFLTSLAIDQAIDPKEGNPSLTLLYQITIAVLAMYIIQWVAGIFRIKFTNIIGQRVIYDLRADLFQHIQRLSFNFFDKRPAGSVLVRVTNDVNSLQDLFTNGVVNLIIDCVQLVGIVVILLLINWKLGLAVIVTVPIMFFISTKLRVRIRRAWQEVRIRNSRINSHLNESIQGIRVTQAYTQEEENMKFFDNMNLDSKKSWDRASAMNQGFGPLIEITGGFGSLILFWLGAVLIQQGELTIGLLIAFTQYVGNFWEPINRLGQMYNQLLVAMASSERIFEFIDEKPSIDDQPGAKKLPTIKGDIKLENVVFEYEKGRQALKGINLDVKAGQSIALVGHTGSGKSTIINLLSRFYDITDGKLTIDGYDIQSVTVESLRNQIGIVLQDTFIFSGTIRDNIRFGRLDATNEEIEDVAKAVGAHEFIVQMPGGYDTEVEERGNMLSMGQRQLLSFARALLADPRILILDEATASIDTETELKIQSALKVLLQGRTSFIVAHRLSTIRHADHIVVLDHGKIIEEGNHDQLMQKQGTYHGLIEAQYRFL	PGPT0029045_428	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
AK002_02373	462			hypothetical protein	ATGAGCATCGAAAGCGTAATTTCTGCGCCTGCACTGCTGATTCGAAACTTTGAGAAGAATGATTTGGAAGCTGTCACATCCTTGATGCGAGAACTGAATTATCCGACCACGCTCAACGTCATGCGTGAACGGATGGAGTCCATGAACGACAACCCGTTATACGGCAACCTGGTTGCCGAGGTTGATGGAGACGTCGTCGGCATGATCATGCTTCGTCAAGTCAAATCCTTCACTATGACCGAACCGGTCACTCAAATTACTTCGGTTATTGTAACCTCAAGCTACCGCGGCCAAGGAATTGGCAAACGACTGATTCGCGGTGCAGAGACATGGGGAAGACAGCATGGTAGCCACCTCTTGTTTCTCACAAGCGGCAACCGGGAAGAACTTGCTCCCGCACATGCATTTTATGAACATATTGGATTTGAAAAGGCTGGTTACCAGTTCAGCAAAAAGCTGTAG	MSIESVISAPALLIRNFEKNDLEAVTSLMRELNYPTTLNVMRERMESMNDNPLYGNLVAEVDGDVVGMIMLRQVKSFTMTEPVTQITSVIVTSSYRGQGIGKRLIRGAETWGRQHGSHLLFLTSGNREELAPAHAFYEHIGFEKAGYQFSKKL				NA	NA	NA	NA	NA
AK002_02374	732			hypothetical protein	ATGAACAACCATTGGATAAAGAAGATCGCAGGCGGCAGCATCGCGGCTGTATTGGCGGTCGGCATCATGCTGCCGACAACGGCTTCGGCTGCACCTGCTGATAGCAATAATTATGTAAACTGGCAACAAAAGATCCAGAAATTCCTGGAGAGCCAAGGCTTGGAGTCGCAGTTTAAATGGGTGGTCGTCCAACAACCGCAAACGGAAAAGCCTCAGGCGGATAAGCCGGCTGAGACACCTCAAACAAGCAAGCCTGAGACCAGCAAACCGGAAGCAAGCAAACCAGAAGCAAGCAAGCCAGAAGCAAGCAAGCCATCTACGACTCCGTCCCAGCCTTCCGAATCTGCGGGCACAACGGAGCAATCGAATTTTGCTTCCGAAGTTGTCAACTTGGTGAACCAAGAGCGTTCGAAAGCTGGCCTGAAGCCGCTCACGGTGCATGCCAAGCTGACAACGGTAGCACTGGACAAAGCGAAGGACATGAGCAATAACAATTATTTCAGCCACACTTCGCCAACGCACGGCTCTCCATTCGACATGATGAAGGCTTACGGCATTTCTTACGGCTATGCCGGCGAGAATATCGCTAAAGGACAGCGCACGCCGCAGGAAGTCATGAACTCCTGGATGAACAGCCAAGGTCACCGCGAAAATATCCTGTCTCCTAATTTCACCATGATCGGTGTGGGATATTACAACGGATACTGGGTTCAAGAATTCATCAGCCAATAA	MNNHWIKKIAGGSIAAVLAVGIMLPTTASAAPADSNNYVNWQQKIQKFLESQGLESQFKWVVVQQPQTEKPQADKPAETPQTSKPETSKPEASKPEASKPEASKPSTTPSQPSESAGTTEQSNFASEVVNLVNQERSKAGLKPLTVHAKLTTVALDKAKDMSNNNYFSHTSPTHGSPFDMMKAYGISYGYAGENIAKGQRTPQEVMNSWMNSQGHRENILSPNFTMIGVGYYNGYWVQEFISQ				NA	NA	NA	NA	NA
AK002_02375	849			hypothetical protein	ATGAAGTCATCTGCATGGATATGGCGTATCACGGCCTCCGTGTCGATTATCGTAACGATTGTGCTTATATTCGGTTTCGTGTATGCGTTTAAGGATATTAATGATCCTCAAGGGCAGCCTTTGCTCACCGGCGGCGAATTCGCCGCGCCAGGCCAAGAGACTGCGCCGCCGAAGCCGGAACGGGCTCCGGAAGCGGTTCTGCCCAATGATCTGAAAGTGACGGCGATCGGAGACTCGCTTGCCAAGGGAACGGGGGACAGTAGCGGGGGCGGTTTTGTCCGCCGAAGCGTCGAACAATTGAACGGCGATGGACGAACGGCCAGCCTGCTGGCCAATCTGGCGATAAACGGAATGACCACCGAGGGACTTCTCCCTAAGCTGGACGACAAGGGAATACAGTATGCCTTGAAGGAAGCCAACGTCATTATGCTGTCTATCGGAGGCAATGATATCTTTCAAGGAAGCGGGCTGATGGAGGGGGCGGCGGATGCCGGCGAGCTGGAGCTCGATCCAGCCATGCTGATGGGCGCATTGCCGCAGGCCTCCGAACGCTTGCAGACGATTCTTGAGAAGATTCGGGACATTAATCCGGATGCCCGAATTGTTTATATCGGCTTGTATCATCCCTTTTCCGATTTGGAAGAATTGCTGATACCCGGCAATGTCGTGGTCTCAGCATGGAATCATGCGGTCATGGAGCTTGTAAACCGCGATCCCAATATGACGCTTGTCCCGACATTCGATCTGTTTCAGCATAAGCTCGGCGAGTATCTGTCCACGGACCATTTTCATCCGAACGGGGCAGGATATCAGGCCATCGCGGATCGAATTGTAGAAGGTATGCTGTAG	MKSSAWIWRITASVSIIVTIVLIFGFVYAFKDINDPQGQPLLTGGEFAAPGQETAPPKPERAPEAVLPNDLKVTAIGDSLAKGTGDSSGGGFVRRSVEQLNGDGRTASLLANLAINGMTTEGLLPKLDDKGIQYALKEANVIMLSIGGNDIFQGSGLMEGAADAGELELDPAMLMGALPQASERLQTILEKIRDINPDARIVYIGLYHPFSDLEELLIPGNVVVSAWNHAVMELVNRDPNMTLVPTFDLFQHKLGEYLSTDHFHPNGAGYQAIADRIVEGML				NA	NA	NA	NA	NA
AK002_02376	969	lnrL_4	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGAATGAACAAGCGCAGGAAATCGTACTATCCGTCCAGCATGTAAAAAAGAAAATCGGTCGAAAATGGATTATACAAGATGTGTCGTTCGATGTGCGCGCGGGCGAAATATTCGGGTTCCTGGGGCCGAACGGGGCAGGAAAAACAACCACGATCCGAATGCTTGTGGATTTGATCAAGCCGTCATCCGGCAGGATCGAGGTCTGCGGTTACGATGTGAACCGCCAGCAGGAGCAGGCGCTGCGCTATATTGGATCCATCGTGGAGAATCCGGAGATGTATTCGTATTTGACCGGATGGGAAAATCTAGAGCATTTTGCGAGAATGCAGCCCGGCATTGACGATCAGCGGATACAGGAAGTTGTGGATACGGTCAGGCTTGATCGAAGAATCCATGACAAGGTAAGCACTTATTCACTTGGCATGCGGCAGCGTTTGGGGATCGCCCAGGCCTTGCTCGGCAGGCCGAGGCTGCTCATTCTGGACGAGCCGACGAACGGTCTTGACCCGAAGGGAATCAAAGAAATGCGGCAGTTCATCCATCAGTTGGCCGAGGAGGGCTTGGCCGTATTTGTTTCCAGCCATCTGCTGAGCGAAATCCAGCTGTTATGTGATCGGGTAGCCATCATCAGCAGCGGAAGGGTGCTTGCGGTCGGCGAGGTCGATGAATTGATTGCCGGCAGCAGCGATCATGTCATCTGGGATCTGAATCCCGCCGTGCAGGGCAAACGAATTCTGCAGAAGCTGGATTATTGCGAGATCGTGGACCGCCCGGAGGATGTGCTTGACGATAATGTACTGGCAGGCATGTCACCGGATGCCGTTGTGACCCGTATGCATGCAGCACATACATCAAGGGCTGTGGAAAGGCTGGTTGGCGCTGGCGTGCAGGTCCGGGAGGTTCATCGGATCAATCCTACGCTGGAGCAGCTGTTCCTGCAGATGACGGAGGGTGAGAGCATTGAGTAA	MNEQAQEIVLSVQHVKKKIGRKWIIQDVSFDVRAGEIFGFLGPNGAGKTTTIRMLVDLIKPSSGRIEVCGYDVNRQQEQALRYIGSIVENPEMYSYLTGWENLEHFARMQPGIDDQRIQEVVDTVRLDRRIHDKVSTYSLGMRQRLGIAQALLGRPRLLILDEPTNGLDPKGIKEMRQFIHQLAEEGLAVFVSSHLLSEIQLLCDRVAIISSGRVLAVGEVDELIAGSSDHVIWDLNPAVQGKRILQKLDYCEIVDRPEDVLDDNVLAGMSPDAVVTRMHAAHTSRAVERLVGAGVQVREVHRINPTLEQLFLQMTEGESIE	PGPT0006725_4965	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_02377	990			hypothetical protein	TTGAGTAATCTGTTGCCCCTGATCAAGAACGAATGCATCAAAATTATCAAGCGTAAGCGGTTTTATGTGGTTCTTCTGGTTCTCCTCGTCCTAGTGCCCATGTTTACATACGCCCAAATGAAGTCCGCAGAACGTAGCCGGGAGAAGTTTAACAGCGACTGGCGGCTTGAGCTTCAGCAGCGGATCACGGATAATGAGAATTCGCTTAGCAGCGACAGGGTGCCGGATGAATGGAAACGATATCGGCAAATCTTTATTCAGCAGATGCAGTATTATTTGCAGCATGATGTGAATCCTAATCAACCAAACGGGGTAACGTTCACGCGGGAATTTCTGAACAATGCAATATCCTTGTTTATCCCGCTGCTCATCATGGCCATTGCTTCGGATATCGTTTCCGGAGAGCGGACGACCGGCACCATTAAGATGCTCCTGACAAGGCCGGTAAAGCGTTGGAAAGTGCTGCTGAGCAAACTGGTTGCCTTGATCATGTTCACGTCGCTCATTGTCGTTTCCACCTTTGTCATCGCTTACCTGATCTCGGGTCTCGCTTTCGGCTACAAGGGGTTTGACATCCCGGTATTCACGGGTTTCCAAATTGTCGGATCCGACGTGGATATGTCCGGCGTTCATGCGGTGCCCCAGTGGAAGTATTTGCTGATGCAGGGCGGTTTGGTCTGGTTTGTCGGCGTATGCGTCGGTATGCTGGCTTTTATGGTATCCGTCCTGGTTCGAAGCACGGCGGCCAGCATCGTCATTATGATGGCGGCATTGATCGCCGGAAATATTCTGACGAATATGGCGTCAGCATGGAGCAGCGCCAAATATTTGTTCATGGTAAACCTGAATTTGACCAGTTATTTAGCGGGCAATTTGCCGCCGATCGAGGGCATGACCTTGAATTTTTCCCTTGCCGTATTAGCCATTTGGGCGATTTGTGCGGTTATTGTTGCATTCAGTGTCTTTACGAGAAGGGATATCTTGAATTAA	MSNLLPLIKNECIKIIKRKRFYVVLLVLLVLVPMFTYAQMKSAERSREKFNSDWRLELQQRITDNENSLSSDRVPDEWKRYRQIFIQQMQYYLQHDVNPNQPNGVTFTREFLNNAISLFIPLLIMAIASDIVSGERTTGTIKMLLTRPVKRWKVLLSKLVALIMFTSLIVVSTFVIAYLISGLAFGYKGFDIPVFTGFQIVGSDVDMSGVHAVPQWKYLLMQGGLVWFVGVCVGMLAFMVSVLVRSTAASIVIMMAALIAGNILTNMASAWSSAKYLFMVNLNLTSYLAGNLPPIEGMTLNFSLAVLAIWAICAVIVAFSVFTRRDILN	PGPT0006730_8632	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_02378	1980	parE		DNA topoisomerase 4 subunit B	ATGGTCGAACAGATCGATATGTTTGCAGAGTCATCAAAGAACGGCGGTACTAACCGTTCAGGATACGATGCTGACGACATTCAAGTGCTCGAAGGCCTTGTTGCGGTACGCAAACGGCCAGGCATGTACATAGGGAGCACAAGCTCGTCGGGTCTGCATCATCTGGTATGGGAAATTGTGGACAACGCCGTAGACGAGCATTTGGCCAAGTACTGCTCGAGAATTGAAATTACTTTGCATAAAGACGGATCCGCGACGGTATACGATAACGGACGCGGCATTCCGACGGGGATGCACAAGACCGGCATTCCCACGCCGCAGGTGGTCTTCACGATTTTGCATGCCGGCGGCAAATTCGGCGGTTCCGGATACAAGAAGTCCGGCGGCCTTCACGGCGTTGGCGCATCCGTAACCAATGCGTTGTCCGAGTGGCTGGAAGTGGAGATTTACCGCGAAGGTAAAATTCACCGCCAACGCTTCGAATACTGGCAGGACAAAAAAGGAAAAGAGCATGTCGGAGAACCGGTAACCGGCCTTGAGGTTCTGGGCAATACGAACAAAACAGGGACGAAAATCACGTTTAAACCGGACGCGCGCGTGTTTACCTCGGGAACGCATCTGAACTACGACACGCTTGCAGAGCGCTTACAGGAGATTGCCTTCCTGAATTCAGGACTCCGGATCGTTTTGAAAGATGAGCGGAGCGGGAATGGGGAAGAATTTTTTTATGAAGGCGGCGCAAGCCAGTTCGTGCAGTTCTTGAATGAAGGCAAGGACGTGCTGCACGATGTGATCCATTTTTATGCCGAGAAGGATGACATCGAAGTCGAAATCGCCCTTCAATATAATGCAGGATATACCGAAACGCTGGCCTCGTTCGTTAACTCCATCCCGACGCGCGGGGGCGGTACGCATGAGACGGGCTTCAAGACGGCGTATACGCGCGTCATGAACGATTATGCAAGGAAGAACAATCTTCTGAAGGAAAAGGACAAGAATCTGGAGGGGAATGACCTCCGGGAAGGCATGATGACCGTGATCAGCGTCAAGATGGCTGAGGTCGAGTTCGTGGGCCAGACGAAGGACCAGCTGGGAAGCGCCTCTGCGCGGAGCGCGGTGGACAGCATCGTTACCGAGAAGATGCAAATTTTCCTAGAGGAAAATCCGCAGGTTGCCCAAACGCTGCTGAAGAAGGCCATTCAGGCCTCCAAAGCGCGCGAAGCGGCCCGGAAGGCAAGGGATGAGATGCGCAGCGGCAAGAAGCGCAGCGAGAGTTCCAATCTCGGCGGCAAGCTGACGCCGGCTCAGTCCAAGGATTTCTCCCGAACCGAATTGTTCATTGTCGAAGGGGACTCCGCTGGCGGCTCGGCAAAGCAGGGGCGGGATTCTAAGATCCAGGCGATCCTGCCGCTTAAAGGGAAGCCGATGAACCCGGAAAAATCCAAGCTGGCCGACATCCTGAAGAATGATGAATACCGTGCGATCGTATCCGCGATCGGCGCGGGGATCGGCACGGAGTTTACCGCCGGGGACAGCAATTATTCGAAAATCATCATCATGACCGATGCGGATACGGATGGAGCCCACATTCAGGTGCTGCTGCTCACGTTCTTCTACAGATACATGAAGCCATTGATTGATGAAGGCCGCGTCTATCTTGCGCAGCCTCCGCTGTATAAAATCGCCAGTAAATCCGGCAAGCTGGAAACCGTGCGGTATGCCTGGACGGATGAACAGCTGGCTAATTATTTGAAGGAATTCAAAAATTTTGAGCTGCAGCGCTACAAGGGACTGGGCGAGATGAACCCGGAGCAGTTATGGGAAACGACGATGAACCCGGAAACACGGACCTTGCTGCAGGTTCAAATCGAAGATGCCGCCAAAGCGGAGCGGCGCGTGTCTACGCTGATGGGAGATAAGGTAGATCCCCGCAAGCGGTGGATCGTTGAAAATGTCAACTTCGCGGAGTTTGAGGAATAG	MVEQIDMFAESSKNGGTNRSGYDADDIQVLEGLVAVRKRPGMYIGSTSSSGLHHLVWEIVDNAVDEHLAKYCSRIEITLHKDGSATVYDNGRGIPTGMHKTGIPTPQVVFTILHAGGKFGGSGYKKSGGLHGVGASVTNALSEWLEVEIYREGKIHRQRFEYWQDKKGKEHVGEPVTGLEVLGNTNKTGTKITFKPDARVFTSGTHLNYDTLAERLQEIAFLNSGLRIVLKDERSGNGEEFFYEGGASQFVQFLNEGKDVLHDVIHFYAEKDDIEVEIALQYNAGYTETLASFVNSIPTRGGGTHETGFKTAYTRVMNDYARKNNLLKEKDKNLEGNDLREGMMTVISVKMAEVEFVGQTKDQLGSASARSAVDSIVTEKMQIFLEENPQVAQTLLKKAIQASKAREAARKARDEMRSGKKRSESSNLGGKLTPAQSKDFSRTELFIVEGDSAGGSAKQGRDSKIQAILPLKGKPMNPEKSKLADILKNDEYRAIVSAIGAGIGTEFTAGDSNYSKIIIMTDADTDGAHIQVLLLTFFYRYMKPLIDEGRVYLAQPPLYKIASKSGKLETVRYAWTDEQLANYLKEFKNFELQRYKGLGEMNPEQLWETTMNPETRTLLQVQIEDAAKAERRVSTLMGDKVDPRKRWIVENVNFAEFEE	PGPT0027710_906	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
AK002_02379	2460	parC		DNA topoisomerase 4 subunit A	ATGAGTTTATCGGAGCAATTTTTGCCGGCATTTCTGGAAGAGGTTGTAGGTGACCGATTTGGCCGGTATTCCAAGTATATAATTCAGGACCGGGCGATCCCGGACGTTCGTGACGGCCTGAAGCCCGTTCAGCGTCGGATTCTGTACGCCATGTACGATTCGGGTAACACACCGGATAAACCATACCGCAAATCGGCGAAAACCGTCGGGGATGTCATGGGTAATTACCATCCGCACGGGGACTCCTCGATTTATGAAGGCATGGTTCGGATGGCCCAGCCATGGAAAATGGGACATGTGCTTGTGGACGGTCACGGAAACTGGGGTTCCCAGGACGATGATCCGGCAGCAGCTATGCGTTATACCGAGGCCAGGCTGTCACCGATTGCTATGGAGCTGCTGCGCGATATCGAGAAGCGTACCGTGCTGTTCAAGGACAATTTTGATAACACGGCGAAGGAGCCGGTTGTGCTGCCTTCGCGGTACCCGAATCTGCTTGTGAACGGAGCTAGCGGGATTTCCGCGGGCTTCGCGACCGAAATCCCGCCTCACAATCTGCGGGAAGTAATCGATGCGTGCATCGCCGTCATGCAGAAGCCGGAGATCGAGCTGGACGAGATCATGACGTTCATAAAAGGCCCGGACTTCCCGACCGGCGGTATCATCATGGGCGGCGAAGGCATTTTGGATGCCTATCGGACAGGCAAAGGCCGGGTCTATCTGCGATCCAAGACGGACATTGAATCGCTTCGTGGTGGTAAACAGCAGATCGTCATCACGGAAATTCCTTATCAGGTTGTTAAGTCCAGACTCGTTACGGCGATGGAAAATATTCGTCTTGAGAAAAAAGTCGAAGGCATCGCCGAGGTTCGGGACGAGAGCGGACGGGAAGGGCTGCGCATCGTCGTGGAGCTGAAGAAGGATGCCGACGCGAACGGGATTCTGGCTTATTTGTTCAAGAAAACCGACCTGCAGATTACGTACAATTTCAATATGGTTGCCATCGTGAACAAAACCCCTCAGCAGCTGGGGCTTAAAGCGATGCTGTCGGCCTATATCCACCATCAGCGTGAAGTCGTTACACACCGGACGCAGTTCGAGCTGGAGAAAGCCGAGGATCGGGCTCATGTATTGGAAGGCCTCGTCAAGGCGCTCAACATACTGGACGAAGTGATTGCGGCTATTAAGGCCTCCAAGAATCGCCAGGATGCCCAGAACAATCTGCAATGGATGTTCGGTTTCACGGAGAGACAAGCCGACTCGATTCTGACGCTGCAATTATACCGTCTTACCAACCTTGAAATTCATTCCCTGCAAAAAGAGCTGGACGAGCTGACAAAGAAAATCGAGGGCTTGCGTGCGATTCTCGACAGCGATAAGAAGCTGATTGGCGTCATTCGCAAAGAGCTGATCGAAATTCGGGAGAAGTACGGCATCGACCGGCGTTCGGTTATCCAGGAAGAAGTGGAAGAGATCAAGGTGAATCTTGAAGTGCTTGTTAACGCCGAGGATGTGCTCGTAACCTTGTCGAATGAAGGCTATATCAAGCGTACCAGCATGTTATCCTTCACTCGCAGCGGCGGTGAGCTGGAAAGCTCGGGCGTCAAGGAAGGGGATTACATCACGCGGTTGTTTGAAGTCAATACCCTGGAGAATCTGCTGATCTTCACGAGCCGCGGGCAATACTTCTTATTGCCGGTGCATCAAGTTCCGGAGTACAAGTGGAAAGATGCCGGTACGGCCATCGTGAACGTGATCCAGGTACCGAAAGAGGACCATATCGTATCGGTCATCCCGGTTTCGAACTTTGACGAAGCGGGCAAATCGCTTGTCTTCGTGAGCCGCAAAGGGCAAGTGAAGCGGACAGATCTCAAGGAGTACGTAACCAAACGGTCTGGCGCGGTTGCGGCTGCGAAGGTAGCTGCGGAAGACAGCATCATCCAGGTCGTTATGAGTGACAGCAATAAAGATATCGTGCTGATCTCGAAAGAAGGGATGAGCATCCGCTTCAATGAACAGGAAGTCAATGCCATGGGACGCGTTTCCGGCGGGGTTCGGGGAATCCAGCTTCGAGACGGGGACGAGGTCGTTGCGGCATTATGGGTAGAGAACGATGAAGGCGAGATTTTGACCATCACGGATCTTGGATACGGCAAACGAAGCTTGCTGTTGGATTATCCGGCCCAAAGCCGCGGCGGAAAAGGCATGGCCACGTTTGAGTTCAAGGAAGGCAAGCGGGTGAAGCCTAACGGCAGCGCCATTGTCGGCGCTTTCTATTGTCGCGAGCCGCTGCAGATTAACGCTTATAGCGAAGACGGGCAAGCTTTCCCGATTCACACGGAGAAAGTTCCGATTGCGGAGCGTAAATCGATTGGTAAACTACTGGCCGATGTCGGCAAGAACGGGCAGATTGTCGATTTGGTCAGTCTCCCTCATGCAGAGTCAGGCAAAGAAGGTTAG	MSLSEQFLPAFLEEVVGDRFGRYSKYIIQDRAIPDVRDGLKPVQRRILYAMYDSGNTPDKPYRKSAKTVGDVMGNYHPHGDSSIYEGMVRMAQPWKMGHVLVDGHGNWGSQDDDPAAAMRYTEARLSPIAMELLRDIEKRTVLFKDNFDNTAKEPVVLPSRYPNLLVNGASGISAGFATEIPPHNLREVIDACIAVMQKPEIELDEIMTFIKGPDFPTGGIIMGGEGILDAYRTGKGRVYLRSKTDIESLRGGKQQIVITEIPYQVVKSRLVTAMENIRLEKKVEGIAEVRDESGREGLRIVVELKKDADANGILAYLFKKTDLQITYNFNMVAIVNKTPQQLGLKAMLSAYIHHQREVVTHRTQFELEKAEDRAHVLEGLVKALNILDEVIAAIKASKNRQDAQNNLQWMFGFTERQADSILTLQLYRLTNLEIHSLQKELDELTKKIEGLRAILDSDKKLIGVIRKELIEIREKYGIDRRSVIQEEVEEIKVNLEVLVNAEDVLVTLSNEGYIKRTSMLSFTRSGGELESSGVKEGDYITRLFEVNTLENLLIFTSRGQYFLLPVHQVPEYKWKDAGTAIVNVIQVPKEDHIVSVIPVSNFDEAGKSLVFVSRKGQVKRTDLKEYVTKRSGAVAAAKVAAEDSIIQVVMSDSNKDIVLISKEGMSIRFNEQEVNAMGRVSGGVRGIQLRDGDEVVAALWVENDEGEILTITDLGYGKRSLLLDYPAQSRGGKGMATFEFKEGKRVKPNGSAIVGAFYCREPLQINAYSEDGQAFPIHTEKVPIAERKSIGKLLADVGKNGQIVDLVSLPHAESGKEG	PGPT0027705_712	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
AK002_02380	432			hypothetical protein	ATGCATACTGCCGAATTCGCCAAGGTGTGGTCCAAGCTGGCCAAGGATTATAAACTCCATATGGAAGCCGGATTGGCCCCGACATTGACGGAGTCGCAACTCATGGTGCTGGAAGTGCTCGCTGAGCAGAAGCGGATGAAACCTTCCGATTTCATTCCTTACCTGGCTACAAGTCCGGCTGCCGTAACGATGCTATTGGACCGGATGGAGAAGAACGAATTGATCAAACGGGAACGGGACGCAAATGACAGACGGATCGTCTGGGTGACGATATCCTATAAAGGACGCGAGGAATATACGCGCGGATTACAGGTTAGGGAGGAGTACCTTTCCCGGATTCTGAACCGCATATCCTCGCATAATCAACAGCTGCTTGTCTATTTGTTAGGTAAGATCAGCACGGCTCCGCAGGAGGTTCTGGTCGAGGCGTAG	MHTAEFAKVWSKLAKDYKLHMEAGLAPTLTESQLMVLEVLAEQKRMKPSDFIPYLATSPAAVTMLLDRMEKNELIKRERDANDRRIVWVTISYKGREEYTRGLQVREEYLSRILNRISSHNQQLLVYLLGKISTAPQEVLVEA	PGPT0016185_314	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-TEMPERATURE_DEPENDENT_REGULATION,PGPT0016185-hosA-K22489	NA	NA
AK002_02381	1362	gbpA_2		GlcNAc-binding protein A	ATGGATCAGGTTCAGTGTCAAACAAATCACCGCTTGCATTTGAAACCGCTGTGGATTTTTTTAGGAAGCACACTGTTGTTTTTCACCATTATGATCATTACGGCAAGCAGCGTTTCCGCTCATGGTTATATCGAATCACCGGCCAGTCGTGGTTATAAGTGCAAGCTCGGCGAGAACGTCAACTGCGGCAGAATCATTTATGAACCGCATTCCCTGGAAGGGAAAGGAAACTTTCCGATCGGCGGACCGGCGGATATCCAGATCACCGGTGCCGGTATCTTTACCGAACTGTATGAACAGACGCCAACCCGCTGGAGCAAAGTGAACATGAACGGCGGGCCGAACACGTTTAAGTGGGTGCTGACCGCAGCCCATGCTACATCCGATTGGAAATATTATATTACGAAAAAAGGCTGGGATTCCAGCAAACCCCTCGCACGCGCAGATCTCGAATTGTTCTGCTCCTTCAATGACGGCGGCAAACAACCGCCGAACACCGTAACCCATACTTGTAACGTACCTACCGACCGCACCGGGTACTATCTCATCCTCGCCGTATGGGAAATCGCCGATACGGGCAATGCCTTCTATAACGTGATCGACGTGAACCTGAATAACGGCAGCGGCAATCAGGACACGCAGGCACCGACGGTGCCGGCGAATCTGAGAATCACAGGTGTTACAAGCAGCAGCATTTCGCTTGCCTGGAACGCCTCTACGGATAACGTAGGAGTCACAGGCTATGAAATCTATCGAGGCTCCAATCTAGTGGCAACGGTATCCGGATCCACCCTGAGCCACACCGTTACCGGCCTGCAAGCAGGCACCTCCTATACCTTTACTGTAAAAGCCCGTGACGGAGCAGGCAACGTATCACAGGCGAGCAGCCCGCTAACCGCCAGCACATCAAATCCCGTTCCGGACACCCAAGCTCCGACGGCTCCTGCCAATTTACGATCTGCGGGATCGACGTCCACAAGCGTATCTTTAGCCTGGAACGGTTCCACGGATAACGTCGGAGTAAGCGGCTATGAGGTATATCGGGGCACCACACTGGTTACGACGGTGTCCGGCAGCACGCTATCCTATACAGTTAGCGGATTATCGCCAAACACGACCTATAGCTTTACCGTAAAAGCACGCGATGCGGCAGGCAACGTATCCCCAGCCAGCAATGAGCTGCAAGTCACCACGGCGGACGGCTCTGTACCGGAAACTCCGGCCTGGGCTCCGAATACTTCATACCAGCAGGGAGCTTTGGTGACGTATGGAGGCAAAACCTATGAGTGCCGCCAAGCCCATACGTCCCTGCCTGGATGGGAACCCGCTAACGTGCCGGCTTTATGGCTGCTTAAGTCTTAA	MDQVQCQTNHRLHLKPLWIFLGSTLLFFTIMIITASSVSAHGYIESPASRGYKCKLGENVNCGRIIYEPHSLEGKGNFPIGGPADIQITGAGIFTELYEQTPTRWSKVNMNGGPNTFKWVLTAAHATSDWKYYITKKGWDSSKPLARADLELFCSFNDGGKQPPNTVTHTCNVPTDRTGYYLILAVWEIADTGNAFYNVIDVNLNNGSGNQDTQAPTVPANLRITGVTSSSISLAWNASTDNVGVTGYEIYRGSNLVATVSGSTLSHTVTGLQAGTSYTFTVKARDGAGNVSQASSPLTASTSNPVPDTQAPTAPANLRSAGSTSTSVSLAWNGSTDNVGVSGYEVYRGTTLVTTVSGSTLSYTVSGLSPNTTYSFTVKARDAAGNVSPASNELQVTTADGSVPETPAWAPNTSYQQGALVTYGGKTYECRQAHTSLPGWEPANVPALWLLKS				NA	NA	NA	NA	NA
AK002_02382	720			hypothetical protein	ATGAGCAGACGGGGACCAGCATCGTATCCGGCCGTGCCGATTCTATTCGAGGATAATCATGTGTTGGGCGTAACCAAGCCGGTCAACATCCCCTCGCAGGAGGATGCTACCGGCGATCCCGACATGCTGACCATTCTGAAACAGGACATCAAGGAGCGTTATAACAAGCCGGGGAACGTTTTTTTGGGATTGGTGCACCGCCTTGACCGTCCCGTGGGCGGAGCGATGGTATTCGCCAAGACGTCCAAAGCCGCATCCCGATTATCGGAGGCCGTCCGCAGCCGCAGCTTCCGTAAGCAGTATGTAGCGGTCGTTCACGGTGTTCCAGCGAAAACTTCAGGCCGGCTCGTGAACATGCTGTACAAGGATGCGAAAACCAACACCGTCCACGTTACCTCCAAAGGGACGGACGGAGCCAAGGAAGCCATTCTGGATTATACGGTGCTCCAAGCAGCGGAAGGCGTAAGTCTTGTCCGGATCGAACTGCACACCGGTAGACCGCACCAAATACGCGTACAGCTCAGCCATGCGGGTCATCCGCTGTTCGGCGATCAGAAATATGGAAGCAAGGTGAACAAGGCCGGCCAACAGATTGCCTTATGGTCCGTGTTGGTCGGATTCCCTCACCCTGTTACCAAAGAGGACATCTCCATTCGTTCCATTCCGCCTTCCGTTTATCCCTGGAGTATCTTCAATATGGACCAGCTGGGATCGACATGA	MSRRGPASYPAVPILFEDNHVLGVTKPVNIPSQEDATGDPDMLTILKQDIKERYNKPGNVFLGLVHRLDRPVGGAMVFAKTSKAASRLSEAVRSRSFRKQYVAVVHGVPAKTSGRLVNMLYKDAKTNTVHVTSKGTDGAKEAILDYTVLQAAEGVSLVRIELHTGRPHQIRVQLSHAGHPLFGDQKYGSKVNKAGQQIALWSVLVGFPHPVTKEDISIRSIPPSVYPWSIFNMDQLGST				NA	NA	NA	NA	NA
AK002_02383	864	rlmL_1		Ribosomal RNA large subunit methyltransferase K/L	ATGTATGTAGCTCAAGGTTGGCAAGATTACGAGGTCATCGACACCGGTGGCGGTGAGAAGCTGGAGCGCTGGGGCGATGTCATTCTAAGGCGTCCGGATCCGCAGATCATCTGGCCGATTGAACGTGAAGACGGACAATGGCGAAATGTACACGGGCACTATCACCGCAGCTCGTCCGGCGGCGGGCAATGGGACATGAAAAAGCAGCTGCCGGATCGATGGACCATCTCGTACGACCAATTGAAATTTCATATCCGACCGACCAATTTTAAACATACCGGCTTGTTCCCGGAGCAGGCTGCGAACTGGCGCTGGATGATGGACAAAATCGCTTCCGCCGGTCGTCCGATCAGCGTGCTGAACCTGTTCGCCTATACGGGTGGAGCTACCGTCGCTGCGGCCTCTGCCGGTGCTCAGGTCGTCCACGTGGATGCTGCGAAGGGGATGGTTCAATGGGCCAAGGAAAACGCGGCATTGTCCGGCCTGGCTGACCGCCCTATCCGTTATATTACGGATGACGTGTTTAAATTCGTTCAGCGGGAACAGCGTCGGGGAAACAAATACGATGCGATTATTATGGATCCTCCCTCTTATGGGCGCGGGCCAAGCGGAGAAACGTGGAAGCTGGAACAAAGCCTGTATCCATTTCTCGAAAGCTGCATGAGCATCGTATCGGATAACCCGCTGTTCATGCTGATTAACTCCTACACGACCGGCATCTCCCCGACCGTTCTGAACAACATGCTCACCATGACCATGAAGCCGAAGTACGGCGGATTGATCAGCGCAGGCGAAATCGGATTGCCGATCACCCGCTCCGGCATGAACCTGCCATGCGGCATCCTGGGCCGATGGGAGTCCTGA	MYVAQGWQDYEVIDTGGGEKLERWGDVILRRPDPQIIWPIEREDGQWRNVHGHYHRSSSGGGQWDMKKQLPDRWTISYDQLKFHIRPTNFKHTGLFPEQAANWRWMMDKIASAGRPISVLNLFAYTGGATVAAASAGAQVVHVDAAKGMVQWAKENAALSGLADRPIRYITDDVFKFVQREQRRGNKYDAIIMDPPSYGRGPSGETWKLEQSLYPFLESCMSIVSDNPLFMLINSYTTGISPTVLNNMLTMTMKPKYGGLISAGEIGLPITRSGMNLPCGILGRWES				NA	NA	NA	NA	NA
AK002_02384	519	eis_1		N-acetyltransferase Eis	ATGAACATACGTACCGAAACCGAGAATGATTATGAAGGGGTCAACGAGCTGCTCACCCAGGCTTTTTCCGGTCAGGAAGAAGCGATCCTTGTACAACGATTGCGGGAAGACGGAGCTTTCGAAAGGGAATTGTCCATGGTGGCTGAAGAGGACGGGATCATCAAGGGGCATATTATGTTCAGCCGGGCCAGCCTTCTTGACGGCGGTCATACCCATCGGGTAGCTGCGCTAGGACCGCTGGCTGTGCTTCCGAAGTATCAACGCCAGGGGATCGGCGGGAAACTGATTGAAGAGGGGAAACGGCGGTGTCTCTCGCATGGCTATCCGCTTGTGTTTCTGTTCGGGCATCCGTCGTATTATCCACGCTACGGTTTTGTCCAGGCCAGAAACCATGGAATCGATATATCCCAATTCGCCGTTTCCGATGAGGTGTTCATGGTCGCCGAGCTTCAGCAAAGCGCACTTCATAACCTTCATGGCGAATTCCGTTTTCATTCCGCATTCGAAAATTTGGGGTAA	MNIRTETENDYEGVNELLTQAFSGQEEAILVQRLREDGAFERELSMVAEEDGIIKGHIMFSRASLLDGGHTHRVAALGPLAVLPKYQRQGIGGKLIEEGKRRCLSHGYPLVFLFGHPSYYPRYGFVQARNHGIDISQFAVSDEVFMVAELQQSALHNLHGEFRFHSAFENLG				NA	NA	NA	NA	NA
AK002_02385	1962	mutS2_1		Endonuclease MutS2	ATGAAGACATTGGCATTAAACAAATTAGAATATGAGAAAATACGCACCGAACTCGAACGCTTTGCCGTATCCTATCTGGGCATTGCGCACATTCAGAAGATGGCCCCCCTCACCCAGATGAAGGCCATCCGTAATAAGCTCAATGAAACGGAGGAAGCCAAAACCCTGCTGCAAAGCGGGGCTAGCGTGCCTATTCCCTCACTGGAAGGCGTTGAGTTGATCCTGGATTTGCTTGGCACCGGATATGTCCTGTCCGAGCGTGATTTCGGCCATTTGGTCCAGTATCTCAGAAGCTGCCGTCAGCTCATTCAATATATGGCCGCCAAGAGCAGCATTGCTCCGACGATCAGTTCCTACGCCTCTTCCATGCATGAACTGCGCCCGCTCCTGTCCGAAATCGAACGCAGCATTCATGCCGGCCGCGTTGTGGATGGCGCCAGCAAAGATCTGGCGAAAATCCGCAAAAAAATTATCGTAACCGAGGAACGGATCAAGCGTAAGCTCGACAGCCTGATGAGCCGTTACAAAGGGATCATGCAAGAGCACGTCGTCAGCAAACGCGGGGGACGTTACGTGCTGCCTATCAAGAAGGAGCACCGAAAAGCCGTAAGTGGCTCGATTCTGGATGAATCGGCCAGCGGGCAGACGGTATTCATCGAACCAGCCGATATGCAGGGGCTTCAGATGGAACTGAACCACCTGCAAGCCGATGAGGTCCGGGAAGAAACCAAAGTGCTGAGCGATTTGACGGCACTCGTCGAGCAGTATCAATACGAACTGAGAACCAACGCCGATACCGTCGGAATCTACGACTACATCATAGCCAGGGGCAAATACGCGATTTCCATCGGAGGGCGGAATGTGGATCTGAACCAGGAGGGATTCATCCATCTGAAATCCGCGGTTCACCCTTTAATCGGCTCCTCCATGGTACCGCTGGACTTCACCATCGGGAAACGATATAAAACCTTAATCATAACGGGTCCAAATACAGGAGGCAAAACTTCAGCACTGAAGACGGTTGGGCTGATCACCATTATGGTTCAGTCCGGTTTGCTGGTTCCCGTAGCGGAGGGCAGCCATTGCGCCGTCTTCGACGAGGTGTCCGTCGATATCGGAGACGGGCAGAGTTTGGAGCATGCCCTGAGCACATTCTCGGCGCATATCCGCAACATCCGCGACATTTTGCAGACGGCTGGCCGGTCCACGCTGGTATTGCTCGATGAAATGGCTTCCGGAACGGACCCGGGTGAAGGCGTCGGGTTGTCCATCGCCATTCTGGAAGAGCTGTTTCAACGTCAAGCAACGGTCGTGGTCACTACCCACTTTACCGAAATCAAAAATTTTGCCGATCGCACGGCAGGCTTTGAGAATGCCCGCATGGAATTTGATGCCGACACCCTCGAGCCGCTCTATCGCCTGCGGATTGGTGAAGCCGGTCACAGTTATGCTTTTGTCATTGCTGCAAAGCTGGGGATTCCGGAAGCGATCATAGCCAGATCTCGGGAAATCACGGAGGAGGGGACGACAAGAAGTATTGCGGCCTACAGTCATGAGGATAGCTCGGACACCGAAGAACGGGCCGCTGAACCAACCCCGGGTGAATACGATTCCTACCCTATCGAGGGTCCGGATCAACCCTTAAACGACAAGAACAAAGAAGACGAAGCCCCCGCCTCTTCCCTTTATCAGCTTGGAGATCGGGTCTATGTGCCATATTTGAAACGAAGCGGCACCGTTTATGAAACCATGGACGCTAGAGGGCATATCGGTGTCATGATTCAACAGGAGCGATTGAAAATCAACCATAAACGGTTAAAGCCCTACATTGCGGCTAAGGATCTCTACCCGGAGGATTATGATCTGGATATCGTCTTTGAAAGCAAAGAGAACCGGAAGAAGCGCAATTTGATGAAGCGCAAGCATGTTGAGGGATTGCAAATAGAAACGAAGCCCGAGTAG	MKTLALNKLEYEKIRTELERFAVSYLGIAHIQKMAPLTQMKAIRNKLNETEEAKTLLQSGASVPIPSLEGVELILDLLGTGYVLSERDFGHLVQYLRSCRQLIQYMAAKSSIAPTISSYASSMHELRPLLSEIERSIHAGRVVDGASKDLAKIRKKIIVTEERIKRKLDSLMSRYKGIMQEHVVSKRGGRYVLPIKKEHRKAVSGSILDESASGQTVFIEPADMQGLQMELNHLQADEVREETKVLSDLTALVEQYQYELRTNADTVGIYDYIIARGKYAISIGGRNVDLNQEGFIHLKSAVHPLIGSSMVPLDFTIGKRYKTLIITGPNTGGKTSALKTVGLITIMVQSGLLVPVAEGSHCAVFDEVSVDIGDGQSLEHALSTFSAHIRNIRDILQTAGRSTLVLLDEMASGTDPGEGVGLSIAILEELFQRQATVVVTTHFTEIKNFADRTAGFENARMEFDADTLEPLYRLRIGEAGHSYAFVIAAKLGIPEAIIARSREITEEGTTRSIAAYSHEDSSDTEERAAEPTPGEYDSYPIEGPDQPLNDKNKEDEAPASSLYQLGDRVYVPYLKRSGTVYETMDARGHIGVMIQQERLKINHKRLKPYIAAKDLYPEDYDLDIVFESKENRKKRNLMKRKHVEGLQIETKPE				NA	NA	NA	NA	NA
AK002_02386	1800	pepF1_1		Oligoendopeptidase F, plasmid	ATGGGGAAATTGCTGACACGAAGTGAGGTTCCAATCGAGGCTACCTGGAATCTGGATGATTTGTTTGTCTCGCAAGAAGAATTTGAAATGGGTCTCAAAGCGCTTGAATCGCAAGCTGCTCGATTGACGCGTTTTAAGGGCAGGCTAGGCGATGGTGCATCTGTACTTCTCGAATGCTTGAATGAACAGGAAGCGTTGATGGAGAGCATCGGCCGAGTCGGGGCATATGCCAGACTGCGTCAGTCGGAAGACGGAACCAATCCGTCCAACCTGGCGAATTCGGCCAAAACGGGCGATGTGTTGTCCCGCATCCAGTCCTCCTTAACTTTTATTGAATCGGAGCTGCTGGATCTCCAGGACGGAACCATCGAGCATTACATAACGAAGGAAGAAGGGCTGGCGCCTTATGCCCGAAGCTTGACGCTGCTGCTGGAGTCCAAGCCTCACCGCTTGAGTCCTGAGACGGAGAGCGTGCTTGCATCGCTGGGCGAGGTGCTCGGTTCCCCTTACCGCATCTATTTGCGCAGCAAGCTGTCGGATATGACCTTTGATGACATTCAAGTGAATGATGAAACCAAGCCGGTCTCGTTCCGTCTGTACGAGAATTCCTACGAAATGTCCGAGGATACGGAGCTGCGGCGCGAAGCCTATGCGTCTTTTACGAAGTCGCTGCAGGGGTCGCGTCACACTTTTGCCGAGGCGTATGCCACGGAAGTGAAGAAACAGGTGGTGCTGTCCCGGCTTCGCGGGTATGACTCCGTTACGGACATGCTGCTCAAGCCCCAGCAAGTGACAATGGATATGTACAATCATATCCACGATACGATTCTGAAGGAGCTTGCTCCGCATATGCGCAGGCTGATGAAGCTGAAGAAACGCGAGCTTGGTCTGGATCAGATGCTATTTTGCGATTTGAAAGCGCCGATGGATCCAGATTTCAATCCTAGCGTAACCTATGAAGAGGCTTGTGCCACCATTTCCAGCGCCTTGTCGGTTCTTGGTCCCGAATACGGCGAGATCGTTGAATCCGCGTTCTCCAAGCGCTGGGTGGACTATGCCGATAATATCGGCAAATCTACCGGAGCGTTCTGTTCCTCGGTTTACGGAGTGCATTCCTATATCCTGATGGCATGGGCGGACAATATGCGCAATGCCTTCACGTTAGCACACGAGGTAGGGCATGCGGGCCATTTGATGCTCGCAGCACGCTATCAGCGCATCACCAATGCCCGTCCGTCCATGTATTTTATCGAAGCGCCGTCAACGATGAACGAGCTTCTCTTGGCGGATCACTTGCTGAGTCAATCCGAGGATAAGCGGATGCGGCGCTGGATCATTCTCCAGCTGCTGAGCACCTATTACCACAATTACGTGACGCACCTTCTGGAAGCGGAAATGCAGAGAAGGGTGTACCGCCATGCGATGGCCGATGAACCGATTACGGCAGACAAGCTGTCCGAGCTGAAAGGCGCAGTGCTTTCCGATTTCTGGGGAGACGCCGTTGAACTGGACGAAGGCGCGAAGCTTACCTGGATGCGGCAGCCGCATTATTATATGGGACTTTACCCTTACACCTATGCGGCAGGCTTGACCGCTTCAACGGCTGCGGCGCAGCTGATCCGCGAGGAGGGACAACCGGCCGTGGACCGCTGGCTTGAGGTGCTTAAGGCCGGCGGCAGCAAGAGCCCGCTGGAATTGATGGCCATGGCGGGCGTCGATATGTCCACGTCGGAGCCGATCTCCAAAGCGGTGGCTTATGTAGGCAGGCTGGTAGACGAACTGGAGTCCCTGTACCAATAG	MGKLLTRSEVPIEATWNLDDLFVSQEEFEMGLKALESQAARLTRFKGRLGDGASVLLECLNEQEALMESIGRVGAYARLRQSEDGTNPSNLANSAKTGDVLSRIQSSLTFIESELLDLQDGTIEHYITKEEGLAPYARSLTLLLESKPHRLSPETESVLASLGEVLGSPYRIYLRSKLSDMTFDDIQVNDETKPVSFRLYENSYEMSEDTELRREAYASFTKSLQGSRHTFAEAYATEVKKQVVLSRLRGYDSVTDMLLKPQQVTMDMYNHIHDTILKELAPHMRRLMKLKKRELGLDQMLFCDLKAPMDPDFNPSVTYEEACATISSALSVLGPEYGEIVESAFSKRWVDYADNIGKSTGAFCSSVYGVHSYILMAWADNMRNAFTLAHEVGHAGHLMLAARYQRITNARPSMYFIEAPSTMNELLLADHLLSQSEDKRMRRWIILQLLSTYYHNYVTHLLEAEMQRRVYRHAMADEPITADKLSELKGAVLSDFWGDAVELDEGAKLTWMRQPHYYMGLYPYTYAAGLTASTAAAQLIREEGQPAVDRWLEVLKAGGSKSPLELMAMAGVDMSTSEPISKAVAYVGRLVDELESLYQ				NA	NA	NA	NA	NA
AK002_02387	3015	rcsC_7		Sensor histidine kinase RcsC	ATGATGCAAACAGCGGAGAATTGGGTCTGGGAACAGATGTTTGACAAATTGCCTTTTGGGGCGATCCTGATTTCTGCGGTTGACGAGCCTGTTGCGATGGTGAACGACCGATTCTGCGAAATAACAGAAACCAAGCGTTCTGACCTGCTTCGACTCAAACCTTCCGAAATTCAAGTTCTATCCAACCTATCTATTCAACAGACTTTAGAATCATTCATATATGACCCAACGTCCACTCTCTCAAGAGATTCTTATTTTATCCGCCAAGACGGGCGCCAAATGCATGTCACCGTGAGGATCTCCCTGCTGGAGCCCCCCGCCCAAGACAGGACACCGTGGATCATGTGCTGCCTGGAACCCGGAACCGTGCAGGAGGGGTCGACTTTGCCGGCGATCATCAAGAATGAAGAGCTGCTGGCACTGATTTCGAAAAGCGGACAAGACCTTATATCCATCAGCAGCGCGGACGGCATTATCGAATACATCTCACCTTCTGCCACCGACATACTGGGGTACACCCAAGAGGAGATGATTGGCCAACACCGCGGTAAATACTACCATCAAGTCGATTCCGAGCAAATGAAGGAACCAGGCAAACTATTTTCGGAGAAAGATAGTTTCGTTCGACGCATTCGCCATAAGGAAGGACATTATTTATGGTTTGAAACGTCGTTTCAGCTCATTCGGGGAGCTCAAGGTGAAATTGACAAGGTACTGGCCATAGGACGAAACATAACCAAACGAAAAACGGATGAGGATACGCTGGCCCACGCGCAGCGGATTGCCAAGATCGGTTCCTGGCGCTGGGACTTGATCACGCATACGCTTACCTACAGCGATGAAATGAGGCGAATTTACGGGTATCAGATCAATGCCATCGAACCGAATCATGACACGCTGATGTCCCTGGTCATTCCGGAGGATCGCGAACGGCTGGAACAGGTTGTGCGCACAGCCATACAGGGTAAAGCAGACGAAATCATATACCGGATCCAGCTTAAAGACGGACAAACCCGGACCATCAGGGCCCAGTGGGAGGTCTCCGTTACGAACGAAGGAAGACCCATGGAGATGGTCGGCATGGCACAGGATATTACCGAACAGGTGATGATCGAGCAGCAGTCGCTGGAGAATGAGAATAAGTACAAGCTCATCACCGAAAATTCGCTCGATTTCATTTCGCGAAGCACCATCGACTGCTTTACGTTTCTTTACTGCTCGCCTTCCTGCTACGCCCTGCTCGGGTATCGCCCCGAAGAGATGGTCGGCACCAGTTCTTTTGACTACGTATACGCTGAGGATATTGCGCCGCTACAGGACTATTTAGAGAATTGCCTGGAAGGCAAAATGCTCACGCCGATCACCTTCCGCTATATACATAAGGATGGCAGGCACATCTGGTTTGAGGTCAATTGCAAGTACATCAGCACGCAGGACGGACAGAAAAATGAAATTATTTCGATTGCCCGCGACATCTCCGAACGAAAATTAATGGAATTTAAGCTGAAGGAAAGCGAGCAGCGCTACCGCTCCCTGTTCGAGTACAATCCATCCGCCGTATACTCCATGAATTTGGACGGTGATTATATAACGGCCAACCAGAATCTGCAGGATCTGACGGGATATACGTTAGGCGAGCTCATCGGGATGTATTTCGGTCCGATTGTGGCGGAAAAAGACATGGCTCGCACGCTGTTTCATTTTAATCAGGCAAAGGAAGGCATACCTCAAAGCTATGATCTGACCATCATTCATAAGGATGGACGTCCCATCGAAATCAATACCATCAACATTCCGATTTTCGTGGAAGACGAAGTCGTCGGCGTTTATGGCATTACCCGGGACATCACCGAACGCATTCGGACGATGGAAGAGATCAAGAAGCTCAGCCGGGAGCTCACCCTGTTGCTGAATACGGTATCGGAGGGCATCATCGGTCTGGACATTCACGGGCAAGTCGCTTTCATCAATCCAGCCGGGGCAGCCATGCTGGATTACGAACCGACAACGACCATTGGACGGCCGTGCGACCAGATCATCAAAGAAATTCGCCATGACGGCACTTTCTATCGGGGGGAAGATTCTCCTCTCGTTCGGGCAGTCAAACAAGGCGTACCGCTGTCCAGAGCCGAAATCGTACTCTGGCGAGGAGACGGTTCGAGCTTTTTGGCCGATTATCAGGTCAATCCGATTTGGGATCAAGGAGAGCGCAAAGGCGCCGTCATGGTATTCCGCGATATTACGGACGAGAAAGAGATCATCCGCGCCAAGGAGAACGCCGAACGGGCGGATCAAGCAAAGACGGAGTTTCTCACCATGATGAGCCACGAGCTCCGGACGCCGATGAACGGCATTATCGGGATGATCGAGCTGTTAAGCACGACAGAGCTCGACGAGGACCAACAGAATTATATCCATATTCTCATGGAGAGCAGCGGCTCGCTGCTGCACATCCTGAACGAGATTCTCGATTTCAGTAAAATCGAGACCGGCAATATGACCCTTAATCATGAACCGATTGATTTGCGCTCCTTGCTCGAAGTCGTCGTTGATTTATTCTCGGCCAAGGCCAAGGAAAAAGGATTGTCCTTATCGTTCAACATCAACAGCGCCAATGTCCCCGACGTGATTATCGGCGATGCCCTGCGGCTGCGGCAGGTGCTTGTGAATCTCATCAGCAATGCCATCAAGTTCACGCATGAGGGCAGCATAACGATGAGCGTGGAAGGACTTCGCAGGACGGGCACCCAGGAGTTCACGCTTGCTTTTCAAGTAGAGGATACGGGAATCGGCATAGCGCCTGAGCTCCAGCATCAGCTGTTCACCTCCTTCTCGCAGCTGCATCCATCCTTGAACCGTAAATATGGCGGTACCGGACTAGGGCTTGCGATCAGTAAAAAGCTGGTTGAGCTGATGGGCGGCGTCATTGGCGTCGAGAGCCGTGAAAATGCCGGTTCTTCCTTCTATTTTACGATTCCGACCCATACGCTGCAGGATGATCACACGGACCAGTGA	MMQTAENWVWEQMFDKLPFGAILISAVDEPVAMVNDRFCEITETKRSDLLRLKPSEIQVLSNLSIQQTLESFIYDPTSTLSRDSYFIRQDGRQMHVTVRISLLEPPAQDRTPWIMCCLEPGTVQEGSTLPAIIKNEELLALISKSGQDLISISSADGIIEYISPSATDILGYTQEEMIGQHRGKYYHQVDSEQMKEPGKLFSEKDSFVRRIRHKEGHYLWFETSFQLIRGAQGEIDKVLAIGRNITKRKTDEDTLAHAQRIAKIGSWRWDLITHTLTYSDEMRRIYGYQINAIEPNHDTLMSLVIPEDRERLEQVVRTAIQGKADEIIYRIQLKDGQTRTIRAQWEVSVTNEGRPMEMVGMAQDITEQVMIEQQSLENENKYKLITENSLDFISRSTIDCFTFLYCSPSCYALLGYRPEEMVGTSSFDYVYAEDIAPLQDYLENCLEGKMLTPITFRYIHKDGRHIWFEVNCKYISTQDGQKNEIISIARDISERKLMEFKLKESEQRYRSLFEYNPSAVYSMNLDGDYITANQNLQDLTGYTLGELIGMYFGPIVAEKDMARTLFHFNQAKEGIPQSYDLTIIHKDGRPIEINTINIPIFVEDEVVGVYGITRDITERIRTMEEIKKLSRELTLLLNTVSEGIIGLDIHGQVAFINPAGAAMLDYEPTTTIGRPCDQIIKEIRHDGTFYRGEDSPLVRAVKQGVPLSRAEIVLWRGDGSSFLADYQVNPIWDQGERKGAVMVFRDITDEKEIIRAKENAERADQAKTEFLTMMSHELRTPMNGIIGMIELLSTTELDEDQQNYIHILMESSGSLLHILNEILDFSKIETGNMTLNHEPIDLRSLLEVVVDLFSAKAKEKGLSLSFNINSANVPDVIIGDALRLRQVLVNLISNAIKFTHEGSITMSVEGLRRTGTQEFTLAFQVEDTGIGIAPELQHQLFTSFSQLHPSLNRKYGGTGLGLAISKKLVELMGGVIGVESRENAGSSFYFTIPTHTLQDDHTDQ				NA	NA	NA	NA	NA
AK002_02388	282	yjdJ	COG2388	putative protein YjdJ	ATGGACAAACGAAATATACAAGCGGGCCCAAGCAGCTTTTATATGGAGGACAACGGTAAAAAGGTAGCCGAAATTTCCTACTCCCCGCAAGGAAACGGAGTGATCAGCATCGATCATACCTATATTTCTCCAGGGCTTCGGGGTCAAGGCATTGCCGATGAGCTCGTTCGAAAAGTGATCGGATACGCCAGGGAAGAAAACTTGAAAATCATCCCCGCTTGCTCCTATGCCGGGCATTATTTTGATAAAAACCTCGATGATCGCGTACTGCTGCACAAGTAA	MDKRNIQAGPSSFYMEDNGKKVAEISYSPQGNGVISIDHTYISPGLRGQGIADELVRKVIGYAREENLKIIPACSYAGHYFDKNLDDRVLLHK				NA	NA	NA	NA	NA
AK002_02389	321			hypothetical protein	ATGAACCAATATTCAACTCAACCGCAAATGCTGTTTCAATGCGATCACCAGTTGGTGCATTCCATGAAGAAACATAGAGAAAGCGCCCATTCGGCCATGAAAAACGTGGTGAATCGCAAGGTAAGAGTGCATACGATGGATGATGAAGCCATTGAAGGTATCGTCATCAATGTCGATGCAAAGAATGTGTACATTCTTGTAGAACAAGGCAACAGAGGTTTCTTCCCGGGATACCCTCCATTTGTGCCATACGGGCCCAATCCTAACGTCATATTGCCTTTAGCATTGTTCAATTTATTGGCTGTCAGCTTGTTGTGGTAG	MNQYSTQPQMLFQCDHQLVHSMKKHRESAHSAMKNVVNRKVRVHTMDDEAIEGIVINVDAKNVYILVEQGNRGFFPGYPPFVPYGPNPNVILPLALFNLLAVSLLW				NA	NA	NA	NA	NA
AK002_02390	456			hypothetical protein	ATGAAACTTCAAGGGTTTTATCCCGTCATCATGACAGAACAGATTGCCGAAAGCGCAGACTTTTACAAACGATTGTTTGGTTTTGAGGTTGTTTTTGAAGCGGATTGGTATGTAAGCTTGAAGAAAGAAATCGAGGGACCCATCGCTTACGAGCTGGCGATCCTGTCCAAGGATCACCCGACGGTTCCCCCTGCCTATCAGCAGCGTGTACAGGGGTTGATTCTCAATTTTGAGGTGGAGGATGTGGATGCCGAGTACGAAAGGCTGGTCAACCATGAAAAGCTGCCGCTTCATCTGGACATTCGTGATGAAGAATTCGGCCAGCGGCATTTTATTATCAGTGACCCGAATGGGGTGCTGATCGATATGATTAAAATCATTCCACCTTCCCAAGCCTTTATGGAGCAGTATAATGAAGAGGTGTGGTCCACGAAGGATGACGGCACTGGCGAATGA	MKLQGFYPVIMTEQIAESADFYKRLFGFEVVFEADWYVSLKKEIEGPIAYELAILSKDHPTVPPAYQQRVQGLILNFEVEDVDAEYERLVNHEKLPLHLDIRDEEFGQRHFIISDPNGVLIDMIKIIPPSQAFMEQYNEEVWSTKDDGTGE				NA	NA	NA	NA	NA
AK002_02391	585			hypothetical protein	ATGAGAAGAACCAAAAGCGAAGCGAACGAAACCATACAGCTGCTGCTAAAGGTGGCCAGGGCACAATTTACGGAAAAAGGCTATGCCCATGCGGCTTTAGAAGAGATTGCCGACGAAGCTAATGTTACCCGCGGAGCGCTGTATCATCATTTTAAGAATAAACAAGGGCTGTTTCTCGCCGTGCTCGAATTAGTGCAGACGGAAATTGGGGAGCGCGTGGAGGCAGAAGCCGACCGTTACGTGGATCCTTGGGATCAGCTGCTGTTTGGATGTCGGGCCTTTATTGCGACCGTGGTCGAACCGCAGAATAAGCGCATTATGCTTGTTGACGGCCCGAGTGTCGCAGGCTGGGAGTCATGGCGCGAGATGGACGAGCAGAATTCGATGAGTCACCTGAGGGAACAGTTGGCCTCGATGCAGCATCAGGGAATGATGAAGGCCGCTCCGGTGGATGCCTTGACGCATGCCCTGTCCGGAGCCTTAAACGAATGCTCGCTGTGGGTGGCACAAATGCCGGAAACGGATAAAGGCATCGAGGAAACCATGCATGTGATTGCCGGCATGCTGCAGGGATTCAGGGTTTAA	MRRTKSEANETIQLLLKVARAQFTEKGYAHAALEEIADEANVTRGALYHHFKNKQGLFLAVLELVQTEIGERVEAEADRYVDPWDQLLFGCRAFIATVVEPQNKRIMLVDGPSVAGWESWREMDEQNSMSHLREQLASMQHQGMMKAAPVDALTHALSGALNECSLWVAQMPETDKGIEETMHVIAGMLQGFRV				NA	NA	NA	NA	NA
AK002_02392	636			hypothetical protein	ATGGGCCGGATATCCAGCAAATCTTACAATTTGCATGAATGTTGTAAGCTGGAGAGGTACATCCAAAAATCCATGAAATGGAAAGGGGTTAATATGAATCCATTGAAACCGCTGCAAGCATTTTTGGAAGCACAGCAGGACAACCCGATCGAAGCCATCGGAGGCTATATTTCCGAACATATTGAACAGAACTGGGAAAAGGTGCTTACCGATAACCGTGAAAAACTGCTAAGAGCATACAACGAGGGTGGGGATATGGCGTACGGGACGTATTTAAACCTGTTATTCTTGCCGGTACACAGGCAGCTCAAGGAAATGGGAATACGTCCCGCACCGAAATTCCCGGGCGACTTCGACATTTCAAGGGAATGGGGAAGCGAGGAAGGAACCGACCAGCAGCGCTGGATGTGGAGCACCGTTTTGTCGCCGGAGGAAAAGCCGCTAGGTACCATCGTCACGATCGTATATCACGACCATACCCAGTTTCGCGTCCCAAGGCAGCCGCGTATTCTAGCCTTGCATGAGACAGGCAAGGAAGACGTCGTTGCGGTCCTTTCCCTGAAGTCGCCGGACTTTAGGGAGGCGCTCGAATTTACGGCAGAATATGAACACTATCTGCGGAGTTTGAAGGAGTAG	MGRISSKSYNLHECCKLERYIQKSMKWKGVNMNPLKPLQAFLEAQQDNPIEAIGGYISEHIEQNWEKVLTDNREKLLRAYNEGGDMAYGTYLNLLFLPVHRQLKEMGIRPAPKFPGDFDISREWGSEEGTDQQRWMWSTVLSPEEKPLGTIVTIVYHDHTQFRVPRQPRILALHETGKEDVVAVLSLKSPDFREALEFTAEYEHYLRSLKE				NA	NA	NA	NA	NA
AK002_02393	942	iolS_1	COG0667	Aldo-keto reductase IolS	ATGAAATATATATCAATCAAGGGATTAAACAAACCCGTCTCTGCGCTCATGAAAGGAACGGACTATTTCTATCATGATTCGTACGAGAAAGCTGCCGCCAATATGGATGCTTACCTTGCGATCGGCGGCAATTCCGTTGATACCGCTCATATATACTGTGGCGGTCAGAGCGAAGAAGTCATCGGCAGGTACATGCAGGAAAGGGGGAACCGGGATCAGCTCGTTATTCTGACAAAGGGGGCTCATCATGACCAAAACGGCCCTCGAGTCAGCAAAAAAGACATCAAAAACGACATCACGACAAGCTTCGAAAGACTCCAGACGGATTTCATCGATCTGTACGCATTGCATCGTGACGACCCTGAGGTTCCGGCGGGGGAAGTCATCGAGGCTCTGAACGAATATATTGCGGACGGCAGTGTAGGCGCCATCGGGGTATCCAATTGGACCTGGGAACGCATTCGGGATGCCAATGCCTATGCCGACGCAAACGGCTTGGTCGGCTTTTCCTTCAGCAGCCCGAACCTCAGCCTGGCCAAGCCGAACGAACCTTTCTGGAAAGGCTGCGTCTCAGCCGATGCGGAGACGATGGCTTGGCATGAAGCCGAGCAGTTTCCGCTGCTCTCCTGGTCTTCCCAAGCGCGAGGATTCTTCACCGGGCGATTCACGCCGGAAATTCGGGACAACGCGGATCTTGTGCGGGTATTTTACAGCGATGCGAATTGGGAGCGGTTAGAGCGCGCCAAACAGCTGGCCGCTTCGAAGAATGTGACAGCCATACAGATCGCGCTCGCTTACGTACTGAACCAGCCCTTCCCTACCTGCGCGCTGATCGGCGCGCAATCGGCCGAGGAATTGAAATCCTGCGACGAGGGTTCGAACATCCAGCTGACTAAGGAAGAATTAGACTGGTTAGACCTGACGATTGATCAACGATCTTGA	MKYISIKGLNKPVSALMKGTDYFYHDSYEKAAANMDAYLAIGGNSVDTAHIYCGGQSEEVIGRYMQERGNRDQLVILTKGAHHDQNGPRVSKKDIKNDITTSFERLQTDFIDLYALHRDDPEVPAGEVIEALNEYIADGSVGAIGVSNWTWERIRDANAYADANGLVGFSFSSPNLSLAKPNEPFWKGCVSADAETMAWHEAEQFPLLSWSSQARGFFTGRFTPEIRDNADLVRVFYSDANWERLERAKQLAASKNVTAIQIALAYVLNQPFPTCALIGAQSAEELKSCDEGSNIQLTKEELDWLDLTIDQRS	PGPT0017540_1406	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
AK002_02394	996			dTDP-3,4-didehydro-2,6-dideoxy-alpha-D-glucose 3-reductase	ATGACTCAAAAACTTCGTTGGGGGATACTTGGATGCGCCAGCATTGCCAAACGTTCGGTCATACCCGGTCTGCAGCAATCCCGTTTCAATGAAGTCGTTGCCATCGCCAGCCGCGACCAGGCAAAAGCAGAGCAAACCGCCGAGGAACTGAAGATTCCGACGGCATACGGCAGTTATGAGTCCTTGCTTGAGGATTCTTCCATAGATGCGGTCTATATCCCGCTTCCTAACCATCTACATAAAGAGTGGAGCATCCGTGCAGCGGAAGCCGGCAAACATATACTGTGCGAAAAACCGCTGGCGCTGACGGAAGCAGAAGCGGCCGAGATGGCTGACGCGGCTGCGACAGCAGGCGTGATTCTCGCCGAAGCCTTTATGTACCGCTATCATCCGCGATACGAAGTACTGAAGGAAATGATCGACTCCGGAGCCATTGGGGAAATTCGGGGCATTCGCAGCGCGTTTACTTTTAACAGCTCGGCCAATCATGGAAACGTCCGGTTTCGCAAAGATTGGGGCGGCGGTTCGATTTATGATGTCGGCTGTTATCCGATCAATGCCGCGCGCATTCTGCTGGATAAAGAACCGGAAGCGGTTACCGTTCAAGCCTTCTTCTCGCCTGAGCATGATCATGTCGACATGATGGCCTCCGGCTTGATCGAATTTGATGGCAACGTTGCCCTGACCTTTGATTGCGGCATGTGGGCGGCTTATCGGAACCCACTTGAAATTGTTGGCACGGATGGCCTGATTGAAGTCCCATACGCCTACAGCCTGCCTGAGAACGGAGCAAACTTCTTCTTAACGACCGGCGATGGACGCAAAGAAATCGAGGTTCCTCATGCAAACGCATACAGCGAACAAGGTGACCGGATAGCGGAAGCCATTATGTACGACAAGCCTCTCCGCTACTCGACGGAGGATGCGGTTCGCAACATGAGAGTCATCGATGCCTGCCTGCAATCTGCCCACGAACGTACGAGAATCGTGCTGTAA	MTQKLRWGILGCASIAKRSVIPGLQQSRFNEVVAIASRDQAKAEQTAEELKIPTAYGSYESLLEDSSIDAVYIPLPNHLHKEWSIRAAEAGKHILCEKPLALTEAEAAEMADAAATAGVILAEAFMYRYHPRYEVLKEMIDSGAIGEIRGIRSAFTFNSSANHGNVRFRKDWGGGSIYDVGCYPINAARILLDKEPEAVTVQAFFSPEHDHVDMMASGLIEFDGNVALTFDCGMWAAYRNPLEIVGTDGLIEVPYAYSLPENGANFFLTTGDGRKEIEVPHANAYSEQGDRIAEAIMYDKPLRYSTEDAVRNMRVIDACLQSAHERTRIVL	PGPT0017545_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017545-xdh-K14273	NA	NA
AK002_02395	837	rhaR_20		HTH-type transcriptional activator RhaR	ATGAAACGACAAAGCCATCTGCTGACCCTTCCGCAAATGCCGTTCTTCTGTCTGCCGGAATCGGTAGGGATCTACCGGGATGAGCCGGATCACACGGTGACACGGGCAGCCGGTTCTTTAAACAATTTCAATATTCACTATGTTGCTTCCGGAAAAGGGCATGTTGAAATCGACAATGTCGTTCATACGCTCGGCCCAGGGGAAGCCGTGCTGTATTTTCCCATGCAAGCTCAGCATTATTACAGCAGCGAGGACGATCCTTGGGATGTCCGCTGGTTCCATTTTTATGGAAGCGGCCTGCAGAATTATTTCATCGAGCGCGGATTTCATAAAAGCCAGCTTTGGAGCATTCGGCAGCCGGCGGTCTTTGAGGAAGCGCATGAAGCGCTCTTGATTGAGGCGGAAACCCATCGCATGCTGAAGCCTGCGCAATTGTCCACCTTGACGTATTCCTTGTTAGCCGTATTCGTTGAACAGGCTTCCTCTTTATCGGATAATAAATCCAACAATTCGGCGAACCGGATTCACGAGCTGCTGCCCATCATGCAGCAGGAAGCTGCACAGCCGTTTATTTTGGAAGAGTGGGCGGCTAGGTTAGGCGTTTCCACGTACTATTTTTGTAAATTATTCCGCAACGTCATGGAGATGACGCCGATGGATTTTGTGACGCGCTGCCGTCTTCAGATGGCTAAGCAATGGCTGCTCGATCATAAAGATAAAACGATCGGACAAATTGCAGTGGAAGCGGGTTACCCGAGCGTCAGTTACTTTAACAAGCGATTTATGGAGCACGAAGGCATGACGCCATCTTCCTATCGTCGCTTGTATGGGGTATAG	MKRQSHLLTLPQMPFFCLPESVGIYRDEPDHTVTRAAGSLNNFNIHYVASGKGHVEIDNVVHTLGPGEAVLYFPMQAQHYYSSEDDPWDVRWFHFYGSGLQNYFIERGFHKSQLWSIRQPAVFEEAHEALLIEAETHRMLKPAQLSTLTYSLLAVFVEQASSLSDNKSNNSANRIHELLPIMQQEAAQPFILEEWAARLGVSTYYFCKLFRNVMEMTPMDFVTRCRLQMAKQWLLDHKDKTIGQIAVEAGYPSVSYFNKRFMEHEGMTPSSYRRLYGV	PGPT0017485_613	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_02396	591			hypothetical protein	ATGTCCGATAACAAAAATATATATGTTCTACTGACTGATACGGGAACGATGTTTACGAAATTGATCAAACGAATCACTGCCGCGCCTTATAATCATGCCTCGCTGGCGCTCGACGAGAACTTGAATGAAGTGTTCAGTTTCGGACGAAAGTGCGCCAACAATCCTTGGGTCGGAGGATTCGTGGAGGAGGATGTGTATGAAGGAACTTTTCGCCACTTCCCCGGCACGCGCTGCGCTCTGCTTCGTCTCGAAGTCACCCCTCAGCAATATGACGCGGCAAGACGCGTGATCCGGCATTACCAGGATGAAGAGGAAGCCTATGGCTATAATCTCATCGGTATGTTCGGCGTGCTGATGAGACTCGATATTACGAGGGAACGATCCTATTTCTGTTCGCAATTCGTCGCGGAAGCGATGAAGCAAAGCAGAATCCATTTATGGGATCGGCCTTCCTCGGCAGTAACGCCGAATGATTTCTTTCAGCATCCGGCGTTTGAGGTTATCTATGAAGGGATGTTATATGATTATCCACTGCTCGATCAATCCAGATTAGCCGGATGCCAATACCCTCTCCAAACGGTTGCTCGATGA	MSDNKNIYVLLTDTGTMFTKLIKRITAAPYNHASLALDENLNEVFSFGRKCANNPWVGGFVEEDVYEGTFRHFPGTRCALLRLEVTPQQYDAARRVIRHYQDEEEAYGYNLIGMFGVLMRLDITRERSYFCSQFVAEAMKQSRIHLWDRPSSAVTPNDFFQHPAFEVIYEGMLYDYPLLDQSRLAGCQYPLQTVAR				NA	NA	NA	NA	NA
AK002_02397	816			hypothetical protein	ATGATGTTTAGAAGATTATGGTTCTCAGTCCTTGCCATGGTACTGCTGCTCACCCTTACCCCCATTCCTTTCGCGAATGCTGCAGCCATTGAGTTCACCGATTCGGTTCAAGCTCAATTGAATGCCACGGCAGACCGGGCAGGCGGAACCGTTCGTTCGAAACTGAAGAAGCAGTACGATGATTTTAAGTCGGAACGGAAACAGGCCATGGATTGGGACGATCGAATTTCTACCCTTCGTTATGCGAATGAAGCCAAAGCTTCGGAAACTCGCAAACGAATCAGCGAAATCGACAAGGACAAAATCCGCAGGCTGGAGGATCAGCTCCAAGCAGCCAAATCCAAATACCAGCCGCTGTTTGATACCTATTCCGCGCTCAATAAACAAATCGCCGCAGCCAAAAAACTGAAGGACAAATCGCTATCCAAAATGCTGCAGTCGCAGGCCGGCGGCATGAAGCTCCTGGTTGCCTTGGGACGTGAGGATATTCGAAACAAGCAGGCGGCGCTTACGGCGGCCAAGAAAGAGAGAACCTCCAAAGCAGCTAAAATCCGTTCCATCCTGTCCGAGATCGATCCGTACAAAAGCAAGATCAAAGGCGATAAAAGCGCTATTACTACGCCCAATAAACTAATGACAACCGAATGGAAAAATTTCAAAGCCGCCGTAAAGGCCAATGAATCCGCCAGAACCAGCGATACCCTGTCCAGGCTTCTGACGCTCTCAGGGCAGATCCTGACCAAAAAGAAAAGCATCTTTTCTTACGAACAAAAAATCGAGTCCGTCATCGCGCGCGCTAATGCACAATTAAGGTAA	MMFRRLWFSVLAMVLLLTLTPIPFANAAAIEFTDSVQAQLNATADRAGGTVRSKLKKQYDDFKSERKQAMDWDDRISTLRYANEAKASETRKRISEIDKDKIRRLEDQLQAAKSKYQPLFDTYSALNKQIAAAKKLKDKSLSKMLQSQAGGMKLLVALGREDIRNKQAALTAAKKERTSKAAKIRSILSEIDPYKSKIKGDKSAITTPNKLMTTEWKNFKAAVKANESARTSDTLSRLLTLSGQILTKKKSIFSYEQKIESVIARANAQLR				NA	NA	NA	NA	NA
AK002_02398	621			hypothetical protein	ATGACAACCCCAATGGAGTTCGATGCCGTGTTCAGCCTGGGGCACAACTGCCAGGTTGCCGCTCAGCTTAGAAGAAACAACCTGCGACGTTCGGCAGGTCCATGGGACTGGTTCAACTTCGCTTCAACCCGTGAATTTTGCAAAATCATCCATCAACAATTCAGCGAATTCATGCTCCGGGAAAACCTGGACATCTACGGCAAATCCGTCAACTGTTATTATGTACGCGACAAACGATCCTCTTGTTTATCCTTCCACGACTTCCGGAACGACCCGATGGAGCAGCCGCTATATGACTACCCTGCTTTCCGCAAACGGCTGGATCGAAGAATCGAGCGTTTTAACCGCTGCTTGAATTCGGATCGGAAGACGCTTCTCGTGCGCATCATCCCGCATAAAAAGGATGCCGAAACGATAGAGCAGGTTATTCGCGAAACATACGCCAACCCAAACGTAACGCTGTTATTTGTCCTGATTGGCGACCATGAACAAATCGTAAATCTTCCCTCGTTCTCGGATCGGGTGCTCATCAAGCAAATCCCGAAGGGGGCGACCTGGGAAGGAAATTCGGATGCGTGGAAGACCCTCCTTGGTGGGTTTTCGCTCACGACAGGGGAATAA	MTTPMEFDAVFSLGHNCQVAAQLRRNNLRRSAGPWDWFNFASTREFCKIIHQQFSEFMLRENLDIYGKSVNCYYVRDKRSSCLSFHDFRNDPMEQPLYDYPAFRKRLDRRIERFNRCLNSDRKTLLVRIIPHKKDAETIEQVIRETYANPNVTLLFVLIGDHEQIVNLPSFSDRVLIKQIPKGATWEGNSDAWKTLLGGFSLTTGE				NA	NA	NA	NA	NA
AK002_02399	1323	yeeO_2	COG0534	putative FMN/FAD exporter YeeO	ATGGACTACCGGCAGATCTTCGCTTTATTTTTCCCGATTTTGATCGACCAGGCGTTTATTATCGGTTTGAACCTGGTCAATACCGCCATGATCAGCTCGTCCGGCGTATCGGCGGTCAGCGCCGTGAACATGGTGGACTCCTTGAACATCTTCTTGATTAATGTGTTTGTGGCGGTTGCAACCGGGGGTACCGTCGTAGTGGCGCAGTATAAAGGAAGCGGCAACGCGATGATGGTATCCCGGGCATCCGCCGCCACGGTAACTTCGGTGGCGATGATGGCTTTAGCGATCGCGCTCCTGATCATCGGGCTTCACCAGCCGGTGCTGACTCTCCTGTTCGGCTCAGCGTCGCCAGAAGTGCTGGAGAGTGCGCGGATTTATCTGATCGGAAGCAGCACTTCCTTTCTCGGGATTGCGATTGTGCAGGCGGTCTGCGGCGCGCTGAGGGGTATTGGCAAGACCCGCGCCTCACTGGCGTTGTCGCTGATCATGAACCTGCTCTACGTTCTGCTGAACATCGTGTTCATCACGCTGCTGAATATGGGCGTTATCGGCATGACGCTGGCCATCAACATCGCCCGTTTTGCCGGGGCGGCCTGCGCGCTATATTATCTGTTTAAAGTAGACGCGACGCTGCATATCCGCCTGCGGGACCTGTTTCATTTTCCGATATCGATGCTGCGCAAAATTATGTTTATCGGGCTTCCGTTCGCGGCCGAGCAGATGTTCTTTAACGGAGGAAAGCTGTTAACCCAAGTGTTTATCGTCAGCCTGGGCACGTATGCCATTGCAACAAACGCAATCGGGTCATCGCTTGCGGCCGTCTTCCAAATTCCGGCTAGCGCGTTGTCCTTAACGATCGTGACCGTTGTTGGTCAATGCATCGGCCGCGGAGATATTGCCGATGCCCGCAAGTTCATCAAATCTTTTCTCTGGCTGGGCGCGTTCTCGCTGGCCCTGATGGGACTGATATTGATGCCGCTCTACCGGCCGTTGGTGGGACTGTTCAATCCGCCGCCGGAAATCGTGAACGATCTGTTCGTGGTGCTGTTGATCAACACGCTTGTGCAGGTGCCGCTGTGGTCGATTAGCTTTATCCTGCCATCGGCCTTGCGTGCGGCAGGCGACTCGCGGTTTACGTCGATCACCTCGATGCTGACCATGTGGCTGTTCCGGGTGATTCTCGGTTATATTATGGGAATCGTTCTGGGCTGGGGCATTCTCGGCGTATGGCTGGCCATGAACTGCGAATGGGGCGTAAGGGGAGCCGTCTTCCTATGGCGCTTCCGAGGAAAGAAATGGTATGCGCATAAACTGATTTAG	MDYRQIFALFFPILIDQAFIIGLNLVNTAMISSSGVSAVSAVNMVDSLNIFLINVFVAVATGGTVVVAQYKGSGNAMMVSRASAATVTSVAMMALAIALLIIGLHQPVLTLLFGSASPEVLESARIYLIGSSTSFLGIAIVQAVCGALRGIGKTRASLALSLIMNLLYVLLNIVFITLLNMGVIGMTLAINIARFAGAACALYYLFKVDATLHIRLRDLFHFPISMLRKIMFIGLPFAAEQMFFNGGKLLTQVFIVSLGTYAIATNAIGSSLAAVFQIPASALSLTIVTVVGQCIGRGDIADARKFIKSFLWLGAFSLALMGLILMPLYRPLVGLFNPPPEIVNDLFVVLLINTLVQVPLWSISFILPSALRAAGDSRFTSITSMLTMWLFRVILGYIMGIVLGWGILGVWLAMNCEWGVRGAVFLWRFRGKKWYAHKLI				NA	NA	NA	NA	NA
AK002_02400	1653	cdr		Coenzyme A disulfide reductase	ATGGGCCAAAAAATCGTCATTGTCGGCGGTGTAGCAGGCGGTGCCTCGGCAGCTGCCAGACTGCGGAGATTGGATGAGAGCTCTACCATTGTTTTAGTGGAACGCGGGGAATATATTTCGTTTGCCAACTGCGGTCTGCCCTATTATATAGGAGAAACTATAACTGACCGCAATAAGCTTATGGTGCAGACCGTACCCGGTCTTAGCCGCCGCTACGATCTGGATATTCGGAATCTCAGCGAAGTTACGTCCATTCTGCGTGATAAAAAAATGGTTGCGATTAAAAACCTTGCTACCGGCGAAACCTACACCGAGAGCTATGATTATCTGATCCTGTCACCCGGCGCGAAGCCCGTGGTGCCGGATATTCCCGGCTTGTCCGATGCTCGTAACGTATTCACGTTGCGGAATATCCCGGACACGGACCGAATCAAGCAGTACGTGGATGATGTCCAGCCGAAGGAAGCCATAATTGTCGGGGGAGGATTCATCGGGCTGGAAATGGCCGAAAATTTGGCGGATCGCGGCGTTCAGGTGACCGTCATCGAAATGGCCAACCAGGTGATGGCTCCGCTGGATTACGAAATGGCCGCGATCATTCAGTCGCACCTTAAAGACAAAGGAGTCCGTCTGATTCTTGAGGATGGCGTAGAAGCGTTTCATGACGGCGGCCAACAAATCGAGCTTTCCAGCGGCAAACGAATATCAACCGAGATGACGTTGCTTTCGATAGGCGTTCGGCCAGAGAGCACGCTGGCGTCAGCTGCCGGACTTCCCGTCAATGATCGCGGCGGGATTCAAGTTAACGAATATATGCAGACCGCGGACCCGAGCATTTATGCCATCGGCGATGCGATTGAGGTAAAGGATTATGTCCTTCAAAGCCAGGCCTTTATCCCGCTCGCCGGTCCTGCCAATCGGCAGGGGCGCTTGGTAGCGGATCACATCTATGGTAAAAGTAATTATTACAAAGGCACGCTCGGTTCGTCAATTGCAAAGGTCTTTGATCTAACGGTTGCTGCGACAGGTGTTTACGAAAAGCGCCTGAAGCAGATGAACCTACCTTATCAAGCCATCCATATTCACCCTTCGTCGCATGCCGGGTACTACCCCGGGGCGTATCCAATCTCCTTGAAGCTGTTATTCCATCCGGAAACAGGTCAAATCTATGGGGCGCAAGCGGTTGGAGCAGATGGCGTGGACAAGCGAATCGATGTCATTGCTACGGCAATCAAGGGAAACCTCAATGTATGGGACTTGACGGAGCTGGAGCTTTCCTATGCGCCCCCTTATTCCTCCGCCAAAGACCCGGTTAACTATGCCGGATATGTTGCCGCCAACATCTTGGATGGCTTGGTTGACACGGTCCAATGGCATGAAATCGACGATCTGGTTGGAAAAGGTGCAACCCTGATCGACGTCCGCGAACCTAAGGAGAGGGAGTCAGGATATATCCAGGGTTCCATCAACATTCCGCTTAACGATCTGCGCAGCCGACTGAAGGAACTGCCGGAGAATGAAACGCTGTACGTGACTTGCCAGGTTGGACTGCGCGGATACTTGGCGGCGCGTATTTTGACAGAGCACGGTTTCCGGGTAAAGAATCTGGACGGCGGCTGGAAAACGTACTCGTCCGCGTATAAACCGTCCTAA	MGQKIVIVGGVAGGASAAARLRRLDESSTIVLVERGEYISFANCGLPYYIGETITDRNKLMVQTVPGLSRRYDLDIRNLSEVTSILRDKKMVAIKNLATGETYTESYDYLILSPGAKPVVPDIPGLSDARNVFTLRNIPDTDRIKQYVDDVQPKEAIIVGGGFIGLEMAENLADRGVQVTVIEMANQVMAPLDYEMAAIIQSHLKDKGVRLILEDGVEAFHDGGQQIELSSGKRISTEMTLLSIGVRPESTLASAAGLPVNDRGGIQVNEYMQTADPSIYAIGDAIEVKDYVLQSQAFIPLAGPANRQGRLVADHIYGKSNYYKGTLGSSIAKVFDLTVAATGVYEKRLKQMNLPYQAIHIHPSSHAGYYPGAYPISLKLLFHPETGQIYGAQAVGADGVDKRIDVIATAIKGNLNVWDLTELELSYAPPYSSAKDPVNYAGYVAANILDGLVDTVQWHEIDDLVGKGATLIDVREPKERESGYIQGSINIPLNDLRSRLKELPENETLYVTCQVGLRGYLAARILTEHGFRVKNLDGGWKTYSSAYKPS				NA	NA	NA	NA	NA
AK002_02401	261	ricR	COG1937	Copper-sensing transcriptional repressor RicR	ATGGATTACAATGATCAAATGAAGAATCGAGTGAAACGCATCGAAGGTCAATTGCGCGGCATTCTGAAAATGATGGAGGAGAACCAGGATTGCAAGGAAGTGATTACCCAGCTGTCTGCGACGCGGACGGCGATCGATCGGACGATCGGCGTTGTCGTCAGCTCAAATCTTGTGGAATGCGTGCAGCAGGCCGCAGAGACCGGGCAGGATACGGAGAAGCTTGTGGTTGAAGCGGTGAATCTGCTTGTTAAGAGCAGATAA	MDYNDQMKNRVKRIEGQLRGILKMMEENQDCKEVITQLSATRTAIDRTIGVVVSSNLVECVQQAAETGQDTEKLVVEAVNLLVKSR	PGPT0004175_2138	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK002_02402	228	tusA_1	COG0425	Sulfur carrier protein TusA	ATGAACGCGGATAAACTATTGGACGTTAAAGGCTTGGCCTGTCCCATGCCGATCGTGAAAACAAAGAAACAGATGAAAGAAATGGAACAAGGTCAAGTGCTTGAGATTCATGCAACGGATCAAGGCGCGAAGAGCGATTTAACGGCTTGGGCCAAATCGACGGGCAACGAGATGCTGGAACATCAAGAGGATGGTGGCGTGCTGAAGTTTTGGATTAGGAAGGGATAA	MNADKLLDVKGLACPMPIVKTKKQMKEMEQGQVLEIHATDQGAKSDLTAWAKSTGNEMLEHQEDGGVLKFWIRKG				NA	NA	NA	NA	NA
AK002_02403	486	dsrE2	COG2210	Sulfur carrier protein DsrE2	GTGACAGAAACAAAAAAGACAACGATCGTATTATTCAGCGGCGATTATGACAAAGCGATGGCTGCCTATATTATCGCCAACGGTGCGGCCGCATACGACCATGAGGTGACGATATTCCACACCTTCTGGGGGCTTAACGCATTGCGGAAGGATGAGGATGTCCTGCTTCCCAAGAAAAAAAGCTTCATCGAGAAGATGTTCGGAAAAATGATGCCGCGCGGATCCAACCACATGGGACTTTCAAAAATGAATTTTGCCGGGATGGGTCCCAAAATGATCAAGGACGTAATCAAGAAACACAACGCCGTTCCGCTTCCGCAATTGATTGAGATGGCGCAGGAGCAGGACGTGAAGCTGGTTGCATGCACGATGACGATGGATCTGCTTGGGCTGCAGCAAGAAGAACTGCTTGACGGTATTGAGTATGCGGGCGTTGCGGCGTATTTGGGCGACGCTCAGGATGGCAATGTTAACTTGTTCATTTAA	MTETKKTTIVLFSGDYDKAMAAYIIANGAAAYDHEVTIFHTFWGLNALRKDEDVLLPKKKSFIEKMFGKMMPRGSNHMGLSKMNFAGMGPKMIKDVIKKHNAVPLPQLIEMAQEQDVKLVACTMTMDLLGLQQEELLDGIEYAGVAAYLGDAQDGNVNLFI				NA	NA	NA	NA	NA
AK002_02404	366	glpE		Thiosulfate sulfurtransferase GlpE	ATGGATATTCTCAATGTATTGTTCATTGCACTTATCATTCTGTTTGTCGTTTGGAGAATTTTCCCGGCCAAAGGAGTCAGGCAGATTACCGCGGCACAGCTAAAACATGAGATTAAGGATGCCAATGCGAACAAGCAGTTCATCGATGTCCGGACGCCGGGAGAATTCAAGGGAAATCACATTCGGGGTTTCCGCAATATTCCGCTGGATCAGCTATTGTCGAGCAGCGAGTCGCTCTCCAAAGAGAGGGAAGTGGTATTGATCTGCCAAAGCGGTATGCGAAGCAACAAAGCGAGCAAAACATTAAAGAAATCAGGCTTTGTGAAGGTGACGAATGTGAAGGGCGGCATGAACGCCTGGTCGTAA	MDILNVLFIALIILFVVWRIFPAKGVRQITAAQLKHEIKDANANKQFIDVRTPGEFKGNHIRGFRNIPLDQLLSSSESLSKEREVVLICQSGMRSNKASKTLKKSGFVKVTNVKGGMNAWS	PGPT0001770_676	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK002_02405	297		COG0607	Sulfurtransferase	ATGAGAGAAATTTCTCCAAAAGATCTAGAGCGGATGTTGAGTGACGGGACAGCCGTGAATATCATTGATGTGCGAGAAGCGGAAGAAGTCGAGGAAGGGAAAATTCCGGGCGCCGTCAACATTCCCCTAGGTTTGATTGAATTCCGCAAGCAGGATCTTGATCGGTCGAAAGAATATGTCATGGTATGCCGTTCCGGCGGACGCAGCGGCCGTGCAGCTGAATATTTGGAAGGCCAAGGCTATCAAGTCATCAATATGACGGGCGGCATGCTCGCATGGGAGGGCGAAACAGAGTAA	MREISPKDLERMLSDGTAVNIIDVREAEEVEEGKIPGAVNIPLGLIEFRKQDLDRSKEYVMVCRSGGRSGRAAEYLEGQGYQVINMTGGMLAWEGETE	PGPT0001770_710	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK002_02406	588	tusA_2		Sulfur carrier protein TusA	ATGGCAGCAATTGAATCGAACATGAAGCTGGACGCTAAGGGGCTGGCATGCCCGATGCCCATCGTCCGCACGAAAAAAGCGATGAAGGATCTGGAAGCCGGTCATGTTCTGGAGGTAGAGGCAACCGACAAAGGTTCCAAGGCCGACATACAGGCATGGGCGGAAAGCACGGGCCATCAATATCTCGGAACGATTGAAGAGGCGAATGTGCTGAAGCACTACCTTCGCAAATCGTCAGGGGAAGAAACGGCAGAACGAAGCTATCCACATGTAGCGTCTAATGATCAGCTGGAGGAGAAACTTGCGTCTGGAGCGCCAATCATCGTCTTGGATGTGAGAGAGGCGGCGGAGTTTGCTTTCAGTCATATTCGCAATGCCGTATCGATTCCGCTTGGCGAACTGGATGAACGCATGGTGGAGCTGAATAAAGAGGATGAAATCTATGTCATCTGCCGTACCGGGACAAGGAGTGACCTCGCTGCGCAAAAGCTTTCAGCTAACGGCTATGCAGGCATTATAAACGTGGTGCCGGGCATGAGCGGCTGGCGTGGAGAAACTTTTGGCTTGAAGGATGGCGCAGATGCTTAG	MAAIESNMKLDAKGLACPMPIVRTKKAMKDLEAGHVLEVEATDKGSKADIQAWAESTGHQYLGTIEEANVLKHYLRKSSGEETAERSYPHVASNDQLEEKLASGAPIIVLDVREAAEFAFSHIRNAVSIPLGELDERMVELNKEDEIYVICRTGTRSDLAAQKLSANGYAGIINVVPGMSGWRGETFGLKDGADA				NA	NA	NA	NA	NA
AK002_02407	1128	gloB_1		Hydroxyacylglutathione hydrolase	ATGACAGTAAGAGAAATGCAAGCGCAAGAAGTGGCCATGAAGGTGATTCGCAAAGAGAGCCTGTTTCTATTGGACGTGCGGAACCCTTCGGATTTTGAAGATTGGAAGATTGAGGGCGAAGGAGTTCGGCATTTGAATATCCCTTATTTTGATTTGATTGACGGCGTGGAAGAAATATTGGATCAAATCCCGATGGATCAAGAAGTGCTGGTTGTATGCGCCAAGGAAGGCTCGTCGGTCATGGTGGCCGAGATGCTGGCCGGGCATGGCCGGCATGTGGCGTATTTGAAAGGCGGAATGAAAGCCTGGAGCGAACATCTTGTCCCGCTGAAGATCGGCAGCTTGGCGGATGGCGGCGCGCTTTATCAGTTTGTTCGTATCGGCAAAGGCTGTTTGTCTTATATGGCGGTATCGAACGGCGAAGCGGCATTGTTTGACGCTACCCGCATGACGGAGGTATATCTTGAATTTGCCGAAAGCGTGAATGCCCAAATCAAGCACGTGTTTGATACCCATCTCCATGCAGACCATATTTCCGGCGGTCGAATGATTGCTGAGCAGACAGGAGCCGTATACTGGCTTCCGCCAGAGGATGCCGGCGAGGTCGTGTTTAAATACGAGCCATTGAAGAACGGCGATCAAGTGGCGATTGGCGGGAGCACCATCCGCATCGATGCGCTCCATTCTCCGGGCCATACCATCGGGTCCACTTCGTTTGTCATTGATGATCAATACCTGCTGACAGGCGATATTCTGTTTATCGATTCCATCGGCCGTCCGGATCTGGCGGGACTGGCAGACGATTGGGTCGGCGATTTGCGGGAGACGCTCTATGCCCGCTACACCCGTCTATCGGATGATCTCACCGTACTGCCGGCGCATTTCATGATCATGGACGAATTGAACGAGGACGGGACGGTCGCGAAGAAATTGGGAGAGCTGTACCGGGAAAACCATGGCCTCAACATCATAGACGAGACGGAATTCCGAACATTGGTAACGCAGAATTTGCCGCCGCAGCCTAACAGCTATCAGGAAATCCGTCAAACCAACATGGGGATAATGAACCCTGACACCGAGCGGCAGCGTGAGATGGAGATTGGGCCGAACCGCTGTGCCGTACGTTAA	MTVREMQAQEVAMKVIRKESLFLLDVRNPSDFEDWKIEGEGVRHLNIPYFDLIDGVEEILDQIPMDQEVLVVCAKEGSSVMVAEMLAGHGRHVAYLKGGMKAWSEHLVPLKIGSLADGGALYQFVRIGKGCLSYMAVSNGEAALFDATRMTEVYLEFAESVNAQIKHVFDTHLHADHISGGRMIAEQTGAVYWLPPEDAGEVVFKYEPLKNGDQVAIGGSTIRIDALHSPGHTIGSTSFVIDDQYLLTGDILFIDSIGRPDLAGLADDWVGDLRETLYARYTRLSDDLTVLPAHFMIMDELNEDGTVAKKLGELYRENHGLNIIDETEFRTLVTQNLPPQPNSYQEIRQTNMGIMNPDTERQREMEIGPNRCAVR				NA	NA	NA	NA	NA
AK002_02408	783			hypothetical protein	ATGGAACTAAGTATATCCTTCATCATAACGATATTTTTAATCGGATTCATTGGCTCATATATATCAGGAATGGTTGGCATTGGCGGCTCGATCATCAAATACCCGATGCTGCTGTATATCCCGCCGTTATTCGGCCTTGCGGCTTTCACCGCGCATGAAGTATCGGGCATAAGCGCCGTACAGGTATTCTTTGCCACGATCGGGGGCGTGTGGGCATACCGCAAGGGCGGATATCTGAACAAAACACTCATTATCTATATGGGTTCGGCCATATTGCTCGGCAGCTTCATCGGCGGTTTCGGCTCCAAAATGATGAGCGAAGGCGGCATCAATCTCATCTATGGCATATTGGCGCTGATTGCGGCCGTGATGATGTTCATCCCAAACAAAGGGGTGGACGATATTCCCCTGGATCAGGTCAAGTTCAATAAATGGCTGGCTGCTGCGCTGGCTCTTGTGGTCGGAATCGGTGCCGGCATCGTCGGAGCGGCCGGAGCATTCCTGCTCGTTCCGATCATGCTGGTTGTATTGAAAATACCAACGCGGATGACCATTGCCACCTCGCTTGCGATTACCTTCATCTCATCCATCGGTTCGACGGTTGGCAAGCTGACGACGGGGCAAGTGGATTATATTCCGGCCCTTATTATGGTTGTTGCCAGCTTGATCGCCTCTCCACTCGGTGCGGCCGCGGGCAAGAAAATGAACACAAAGATTCTGCAGATCATTTTGGCCGTTTTGATCCTGGCAACGGCTATCAAAATTTGGCTGGACATTCTATGA	MELSISFIITIFLIGFIGSYISGMVGIGGSIIKYPMLLYIPPLFGLAAFTAHEVSGISAVQVFFATIGGVWAYRKGGYLNKTLIIYMGSAILLGSFIGGFGSKMMSEGGINLIYGILALIAAVMMFIPNKGVDDIPLDQVKFNKWLAAALALVVGIGAGIVGAAGAFLLVPIMLVVLKIPTRMTIATSLAITFISSIGSTVGKLTTGQVDYIPALIMVVASLIASPLGAAAGKKMNTKILQIILAVLILATAIKIWLDIL				NA	NA	NA	NA	NA
AK002_02409	606			hypothetical protein	ATGAATCCATGGAATGAACGGTTTCAGGGCGAAGACTATGTCTTCGGAACCGAGCCCAATGTATTTATAGCCGACATGCATAAGAGGTTGGCATTAACGGGTAATGCGCTTGCGATCGCGGAGGGCGAAGGACGAAATGCGGTGTTTCTGGCTCGCGAAGGCATGAACGTAACCGTGTGGGATTATGCGGAGTCCGGCCTGAACAAAGCCAATAAGCTGGCCGAAGCCAGCGGCGTTGAGATTCGCACCGAGCTTGTGGACCTTGGGGAAGCGCAGTGGACGAAGGAGCAATGGGATGAGATCATTTGCGCATTCGGACATTTTCCCAAGGAATTGAGAACAAGGACGCTGGAAGGCGTGAAAACCGCGGTGAAGCCGGGAGGATATTTTCTCACCGAAGTGTATTCCCCGTACCAGATTCCTTATCGAAGCGGGGGACCGCAAGATCCTCAGTATTTATACGCGCCCGGGGATTTCCTCGAAGCTTTTGCGGATTGGCGAATTGTCCATTTTTTCATGGGTGAGGTCGTTCGGCAGGAAGGACAGGGGCACCAGGGCTTGTCCCATGTCATTCAGTTTGCGGGGCAAAAGCCGTCCATCAAATGA	MNPWNERFQGEDYVFGTEPNVFIADMHKRLALTGNALAIAEGEGRNAVFLAREGMNVTVWDYAESGLNKANKLAEASGVEIRTELVDLGEAQWTKEQWDEIICAFGHFPKELRTRTLEGVKTAVKPGGYFLTEVYSPYQIPYRSGGPQDPQYLYAPGDFLEAFADWRIVHFFMGEVVRQEGQGHQGLSHVIQFAGQKPSIK				NA	NA	NA	NA	NA
AK002_02410	804	rhaR_21		HTH-type transcriptional activator RhaR	GTGATCCAATTAATGAGCGTGAATTTTGATGATCATATCCCGAACTGGCGGACTCAGCTAGAGACGATCCGTTATAACGTGCTTGTAGTGGTAAGAGAAGGAAAAGTGAGGTATGAAATAAATGGGGAGGAGATCATTGCGGAAGAAGAAGACGTGCTCTTCATCCCGCAATCGACGAGACGAAGCGGCGGGAACTGGAATGATATCCTCCATCGGAAATACACCATTCTCTTTACGATGGATCCTCAGGTAACCACAGGCATTCCGTTTCTGGATGGAGGCCAATTCCTCAAATTCAATCTTGCGCATATTCAGTATGCCTACCGCCGCTGCGATCGATTGTTCGAGGAGATGCGCGGCGGCAAAAGCTACCGCTCCATGATCTGTCAGGGCATCATGCAGGAGCTGCTCGGCATGCTGGCCCGGGAACTCGAGAAGACCGAGCTGCCGCCAAGCAAAAGAAATTATGCGGATACCATCAAAACGTATCTGTTGGACCATTACCGCGAACCGATCGAAATCGATAAACTCGCAAAGTTAATCCATCGTTCCCCCAATTATGCCACCGCCCTCTTCAAGGAGGTGTACGGTCATTCCCCGATTCGGTACATGCACCAGCTGCGCGTGCTGGAAGCGTGCGGCCTGCTGCTTCATTCCGACATGACAATCGCTCATATCGCCCACTATCTGGGTTATTATGACACGTCCTATTTTTATCGCATGTTTAAAAAATACACCGGTCTGTCACCCTCCGACTATGTGCAACAGGGCGATCGGTCCGATGTATCCAAGCTGTTCACCTAA	MIQLMSVNFDDHIPNWRTQLETIRYNVLVVVREGKVRYEINGEEIIAEEEDVLFIPQSTRRSGGNWNDILHRKYTILFTMDPQVTTGIPFLDGGQFLKFNLAHIQYAYRRCDRLFEEMRGGKSYRSMICQGIMQELLGMLARELEKTELPPSKRNYADTIKTYLLDHYREPIEIDKLAKLIHRSPNYATALFKEVYGHSPIRYMHQLRVLEACGLLLHSDMTIAHIAHYLGYYDTSYFYRMFKKYTGLSPSDYVQQGDRSDVSKLFT	PGPT0017485_781	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_02411	1461			hypothetical protein	ATGAGAGTATTATTGCTGGATTTGGACTCGACCAGACCGGATCATTTAGGGTGCTACGGATACCATCGGAATACGTCGCCCAACATTGACCGGATAGCGGCGGAAGGCGTACGCTTCGACAATTACTATACCTCCGACGCTCCATGTTTTCCATCAAGAACCGCGCTGATGACCGGCAAGTTCGGCATTCATAATGGGGTCGTGGGCCATGGAGGCTCGGCAGCGGACGTGCGGCATGAAGGCATTACGCGGGATTTCCGCGACAAGCTGGCTTCGGAGAGCTTTCCCGCCATTTTCCGCCGTGCCGGCATGAAAACCGCTCTGATCAGTCCGTTCGGAGAGCGCCATTCCGCCTGGACCTTCTATGCGGGCTTCAATGAAATGTATAATACAGGCAAAGGCGGCTTGGAGTCGGCTGAAGAAGTGTCTCCGGTCGTGCTGGACTGGCTGGATCGCAACGCCGATGAAGATAACTGGATGCTCTATGTGAACTTCTGGGATCCGCATACGCCTTATCGTGCACCTCAGTCGCTGGGCAATCCGTTCGAGCATGATCCTCTTCCGGAGTGGTTATCCGAAGACGTGCTTCAGGAGCATCAGAAGAAGGTCGGCCCGCATGGTGTAAACGAAATTAACATGTATAATAGTGATGTATCCCCTGATTACCCGCGCCATCCCGGAGAGATTCGGACGATGGAGGATTTGCGGACGATGGTGGACGGCTATGATTGCGGCATTCGGCATATGGACGAGCATATCGGGGTCATCTTCGAGCTGTTGGAATCCAAGGGCGTTATGGATGACTTGATCGTAATCATAACGGCGGATCATGGCGAGAACATGGGGGAGCTTGGGATATATGGCGAACATGGCACGGCGGATCAGGGAACCTGCCGCATTCCGATGATTATCCGAGGGCCCGGCATCATGCAAGGGATATCGGATCGCAATCTGCACTATCATCTGGATCTACTGCCTACGATGGCGGAATATATGAACGTGGCACCGGCAAGAAGCTGGGATGGGATCAGTTATGCCGAGACCCTGCAAAGCGGACGCGAGAGCGGCAGGGAGTATCTGGTGGTATCCCAATGTGCACACGTCTGCCAGCGAAGCGTGCGGTTTGGAGATTGGCTGTACATTCGTACCTATCATGACGGCTTTCATCTGTTCGACAAAGAAATGCTGTTCCATATCACCGAGGACGTTTATGAACAGCACAACCAGGCGTCTCAAAGACCGGATCTTTGCCGGGAGGCCGTCTACCTGCTGAATGAGTGGCATGATCATATGATGTCGACAATGCCGTTCGACGTGGATCCATTGTGGACGGTCATGAAAGAGGGGGGACCTTACCACGCCAAAGGTCATTTGCCCCGGTATATCGAGCGTTTGAAGAACACGGGCCGGGGAGAAGCGGTTCCGGAGCTGATGCGCCGCCATCCTCGGGAGTTCGTGTAA	MRVLLLDLDSTRPDHLGCYGYHRNTSPNIDRIAAEGVRFDNYYTSDAPCFPSRTALMTGKFGIHNGVVGHGGSAADVRHEGITRDFRDKLASESFPAIFRRAGMKTALISPFGERHSAWTFYAGFNEMYNTGKGGLESAEEVSPVVLDWLDRNADEDNWMLYVNFWDPHTPYRAPQSLGNPFEHDPLPEWLSEDVLQEHQKKVGPHGVNEINMYNSDVSPDYPRHPGEIRTMEDLRTMVDGYDCGIRHMDEHIGVIFELLESKGVMDDLIVIITADHGENMGELGIYGEHGTADQGTCRIPMIIRGPGIMQGISDRNLHYHLDLLPTMAEYMNVAPARSWDGISYAETLQSGRESGREYLVVSQCAHVCQRSVRFGDWLYIRTYHDGFHLFDKEMLFHITEDVYEQHNQASQRPDLCREAVYLLNEWHDHMMSTMPFDVDPLWTVMKEGGPYHAKGHLPRYIERLKNTGRGEAVPELMRRHPREFV	PGPT0013620_692	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
AK002_02412	987		COG1262	Formylglycine-generating enzyme	ATGGGAGAACCACATTCCTGCTGCGCAGGCTCCAGAGCGCACCTGCAGTTGGCGGGATCCGGCCAGAAGGCTCTTATTGGCACCATGGGAGACGAAAAGTATGATGAACAGTCTCATCCTGATCTTCATACCGATATGATCATGCTGCCTGGAGGGACGTTTACGATGGGCACGAATTCGAATGAAGGCTTCCCTCGCGACGGCGAAGGTCCGGCTCGCAGCGTAACCGTCTCCGGGTTCGAGATCTCGCCCCATGCCGTAACGAATGGAGAATATCAGCGGTTTGTAGAAGCCACCGGTTATGTGACGGAAGCGGAACGGTTCGGCTGGTCGTTTGTATTTGAACTGCTGGCTTCGGAGGAAACGAAGGCAGCAGTAGCCCAGGTGCCGCAAGAGGTGCCTTGGTGGCTGGTGGTCGAAGGGGCTTACTGGGCAGCGCCCGAGGGGGCGGATTCCAGCATCGAAGGCCGGATGGACCATCCGGTCGTACATATATCCTGGAACGATGCCGCGGCTTACTGCCAATGGGCCGGCGTGCGGCTTCCGACGGAAGCGGAATGGGAATATGCGGCTCGCGGCGGTTTGGAGAGCAGGACCTATCCGTGGGGAGATCTGCTGAAACAGGACGGAGAGCATCAATGCAACATATGGCAGGGCAAATTTCCGGTCAAAAATAACGCCAGCGACGGGTACATCGGAACCGCGCCGGTGGATGCCTACAAACCGAACGGTTACGGACTGTACAACATGTCCGGCAACGTATGGGAATGGTGCGGCGATTGGTTCAGCCCGGCGTATCATCAGCAGACCTCGGCGAACAATCCGTTCTATGGGGAGCCTACCGGCAGAAGGTCGATGCGCGGGGGTTCGTACCTGTGCCACAGATCCTACTGCAACCGGTATCGAGTCGCGGCGCGGAGCGGGAATACACCCGACAGCTCGACGGGCAACTGCGGTTTCCGGGTGGTGAGGGATGATGGATCATGA	MGEPHSCCAGSRAHLQLAGSGQKALIGTMGDEKYDEQSHPDLHTDMIMLPGGTFTMGTNSNEGFPRDGEGPARSVTVSGFEISPHAVTNGEYQRFVEATGYVTEAERFGWSFVFELLASEETKAAVAQVPQEVPWWLVVEGAYWAAPEGADSSIEGRMDHPVVHISWNDAAAYCQWAGVRLPTEAEWEYAARGGLESRTYPWGDLLKQDGEHQCNIWQGKFPVKNNASDGYIGTAPVDAYKPNGYGLYNMSGNVWEWCGDWFSPAYHQQTSANNPFYGEPTGRRSMRGGSYLCHRSYCNRYRVAARSGNTPDSSTGNCGFRVVRDDGS				NA	NA	NA	NA	NA
AK002_02413	996	thrB_3		Homoserine kinase	ATGATTCAGCAGCTTCTGCAATCCTATTGGCCCGAGTGGTACGGAGATACGGTGAACGGCCCTACGGGCTGGAACAATACGACTCTTTTTATTCATAACCCACATCGGCGTTCGGTCATGCGCATTTACAATACGCATCGTGACAAGGCAAGGATCGAATTCGAGTTTGCGGTTTTGGACTCGCTTCAGCGGGTACCCCTTAGCTTTAAGGTCCCAACGCCTGTTCCATCAACGTCTGGCGATAAGATGGTTCGGGTGCAGGACGGAAGTGATCGATACGCTTGCCTATTCGCATACATTGAAGGAGCGCGACCGGATGAAGAGGGCATTCGAGCGACTTATTCCTTCGGGGAAAAAACGGGAGAACTTGTAAGTGCACTTGCGGCTTGTTCGATTGGAATGGAGCCGGTGTATCCGCCCTATTACGAACTGCTTCAATCGTATCCTTTATGCAGCAGGACGTTCATTCAGGATTTCTGCAAGCGACCGCCCGTCGAGTTCCAGGAACAAGGAAACGCGCTCCAAACCCTTCAAGAAGCGTACACCGAGATATCCGGCAGGCTGGAATCCCTGAAAAATCTGCCGCAGCAGCTGGTCCACGGGGACCTGAACTTTTCGAACCTGCTTCTAGATTCGAAACAATCGGGCAAGGTCATCGCTTTGCTTGACTTCGAATTTTGCACAAAGGATGTCAGGGCGATGGAGCCTGCGGTCGTCATTTCGGGATTTTTGGGAATGGCGGAGGAGAAGGACGCCATCCGGCAGTTCTGCGAAGGCTTTGCCAGCCGCGTACGGCTGACCGAAGAGGAGATTGCTGCCATACCGGTACTGCTGCGCTTGCGTTTGGTTGACGTTTTCTTGCATTTTTTGAGCCGCTATCGGGAAGGGACCGATGATTCCCATGTGCTGCAGGAGCAGATCGATATGCTGGCAGCCGGATTGAAGCGGCTGGAGCAAAGTGAGGCGTGGATGGAAGACGTGTTATACAGTATTTGA	MIQQLLQSYWPEWYGDTVNGPTGWNNTTLFIHNPHRRSVMRIYNTHRDKARIEFEFAVLDSLQRVPLSFKVPTPVPSTSGDKMVRVQDGSDRYACLFAYIEGARPDEEGIRATYSFGEKTGELVSALAACSIGMEPVYPPYYELLQSYPLCSRTFIQDFCKRPPVEFQEQGNALQTLQEAYTEISGRLESLKNLPQQLVHGDLNFSNLLLDSKQSGKVIALLDFEFCTKDVRAMEPAVVISGFLGMAEEKDAIRQFCEGFASRVRLTEEEIAAIPVLLRLRLVDVFLHFLSRYREGTDDSHVLQEQIDMLAAGLKRLEQSEAWMEDVLYSI	PGPT0020285_91	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020285-thrB2-K02204	NA	NA
AK002_02414	597	yjgB		putative protein YjgB	ATGAACTTGAAACAACCAGCTAAAAAAGCAATCGTCACCTTGACTATGGCGGGCGTCGTCGGCCTTAGCGCATTCGGAGCAAATCATGCTGTTTTGCCACTGCAGCAGGCTGAAGCCGCCACGGCGGCAAGCGCCGAGGATTATGCTGCCGAGCACGCGCTCAAGACGCTCAACAGCTTTTATAAACCTGCATTGAAGGGACAATTCCCCGGTGCGGTCAGCGGCTTAACGATCGGTAAAAGCACGAAGCAGGACGTGTACAAGGCCATTGGCGAGCCTCCCGTGCCCGGCAAGGATGCCGATGCCTTCGACGTATACGGGGCCAACATGGGGAATCCGGGCTACGCCTTCTCCTACAAGCTGAATAAAATTCGCGAAATGCGTTATTTTGGCACCAATGTGGAACGACAGACGAACATCGGCGGCATTACCATGAAAATGCTGAAGAAGAATTGGTTTGCTCCGGATGCCACCACCACATTCAAGAACGGAAAAACCAAGCAAACCAAGCTGACCTACCATCGTGGAGCATATAAGTTGGAGTTTATCTTCAACAGCAGCACGGACCTGGATCATATTAATCTGCTGAAAAAGTAA	MNLKQPAKKAIVTLTMAGVVGLSAFGANHAVLPLQQAEAATAASAEDYAAEHALKTLNSFYKPALKGQFPGAVSGLTIGKSTKQDVYKAIGEPPVPGKDADAFDVYGANMGNPGYAFSYKLNKIREMRYFGTNVERQTNIGGITMKMLKKNWFAPDATTTFKNGKTKQTKLTYHRGAYKLEFIFNSSTDLDHINLLKK				NA	NA	NA	NA	NA
AK002_02415	798	nirC_2	COG2116	Nitrite transporter NirC	ATGGAAACCGAATCCTTACTCAAGGTGGAGCAGCTTGCTCTCAAAAAACACAAAATTTTTAAACAAAGCCAGCTGCGCTACATCGCCCGCTCCATGCTCGCCAGCATGTTTATCGGCTTTGGCGTCATTGTCGCTTTTAAGACGGGCAACTTTTTTTATCTGGAGCATTCCCCTCTGACTTATCCGATGGCTGCCCTTACGTTTGGCGCGGCGATTATCCTGATCGCGTACGGGGGAGGGGATTTGTTTACAGGGAATACGTTTTATTACACGTATGCCGCTCTCCGCAAGAAATTAAAGTGGCTGGAAGTAGTCAAGTTATGGATTTTCAGTTATGCGGGAAACATCCTGGGGGCCTGCACGTTTGCGCTGTTGATTTTCTTAACGGGATTATTCACCGATTCCTCCGTGAACGGATTTCTGCTCAATGTGGTGGAACACAAAATGACCACCCCGACGGTGCAGCTGTTTTTTCGAGCGATTCTGTGCAACTGGCTCGTATGCCTTGCCTTTTTCATCCCCATGTCCCTGAAGGGCGACGGAGCCAAAATGTTTGCCATGATGCTGTTTGTTTTCTGCTTTTTCATCTCCGGGTACGAGCACAGCGTTGCGAACATGTGCACCTTTGCCATTGCGCTCGTGCTGAATCATCCGGGCACGATTTCGTTTGATGGCGTATTGCATAATCTGATTCCGGTAACGTTCGGCAATTTGATCGGCGGCGTTCTATTAATGGGTTTTATGTATTATTTTGTGAACAAGCCTTTTCTGGATGCGAAGGAATCCTCTGGTGAATAA	METESLLKVEQLALKKHKIFKQSQLRYIARSMLASMFIGFGVIVAFKTGNFFYLEHSPLTYPMAALTFGAAIILIAYGGGDLFTGNTFYYTYAALRKKLKWLEVVKLWIFSYAGNILGACTFALLIFLTGLFTDSSVNGFLLNVVEHKMTTPTVQLFFRAILCNWLVCLAFFIPMSLKGDGAKMFAMMLFVFCFFISGYEHSVANMCTFAIALVLNHPGTISFDGVLHNLIPVTFGNLIGGVLLMGFMYYFVNKPFLDAKESSGE	PGPT0000565_269	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRTATE|NITRITE_TRANSPORT,PGPT0000565-nirC-K02598	NA	NA
AK002_02416	528			IS1595 family transposase ISSpgl1	ATGTTTCCAGAACTAGAGACTCAACGATTAAGGCTGCGTGAAATCCGGCTTCAGGATGCCGAAGCGATCTACAGCTGCTTCTCGCATGAGCAGGTGACCCGCTATTACGGTCAAGACACGTTGACCAGCCCCGAGCAAGCTCGTCGATTCATTGAGCTGTTCGCTAACAACTACGCAGAGCAGCGTGGGATTCGATGGGGCATCGAAAGGAAAGAAGCCCAAGGCCTGATCGGGACGATCGGATATAACGCATGGTCCCCACGGCATAGAAGAGCAGAAATCGGATATGAGCTTCATCCAGACTACTGGAGGCAAGGATATGCCAGCGAAGCGGCCTCCGCCATCCTGGCATATGGATTTCAGGAGCTTGGCCTAACCCGCATCGGTGCCGTCGTTTTTATCGAGAACCAGGCTTCCCATGCACTGCTGGCCAAGCTCGGATTCGAAGCGGAAGGAACCCTGCGTCAGTATATCTATCAGAACGGCACGGCACACGATACGCGGGTGTATTCATTGTTACAAGGCTAG	MFPELETQRLRLREIRLQDAEAIYSCFSHEQVTRYYGQDTLTSPEQARRFIELFANNYAEQRGIRWGIERKEAQGLIGTIGYNAWSPRHRRAEIGYELHPDYWRQGYASEAASAILAYGFQELGLTRIGAVVFIENQASHALLAKLGFEAEGTLRQYIYQNGTAHDTRVYSLLQG				NA	NA	NA	NA	NA
AK002_02417	1839		COG0043	4-hydroxybenzoate decarboxylase subunit C	ATGAAATATCATAATCTGGAAGAATGCATCATTGATTTGGAGAGGCATGGGCATTTGGTTCGTATACATGAAGAGGTCGATCCTCATTTGGAAATGGCGGCCATACATATGAAGGTTTATGAGGCAGGCGGCCCGGCACTCCTGTTTGAGAATGTAAAAGGTTCAAGGTTCCGTGCGGTATCCAATCTGTTCGGCACGATCGAGCGCAGCAAATTCATTTTTCGGGAAACCTTCGAATCTACGCAAGACGTTATCGCGCTGCGCAACGATCCGATGAAGGCGCTCAAAAATCCTTTTAAATATATCGGGACGGGACTGGCAGCTAAATCTGCACTGCCGATCAAAAAAACAGGTGCCCTGCCACCCGGATTTCAGGAAATCCAAATTTCCGATCTGCCACTCATTAAGCACTGGAAGGACGACGGCGGCGCTTTCGTCACGCTACCCCAAGTGTATTCCGAAGACCCGGAGAAGCCGGGCGTCATGAATTCCAATCTAGGCATGTACCGGGTTCAGCTCACAGGCAATGAATATGAACTGAACAAGGAAGTCGGCATCCATTACCAAATCCACCGGGGCATCGGCATCCATCAAGCGAAGGCAAATAAGCTGGGTCAGCCGCTGAAAGTAAGCTGTTTTATCGGGGGGCCCCCTGCCCATACGATTTCAGCGGTTATGCCTCTACCGGAAGGCATGAGCGAGCTTACCTTTGCGGGACTGCTGTCGGGACGACATTTCCGGTACAGCTATGTGGATGGTTACTGCATCAGCCACGATGCGGATTTTGTTATTACGGGGGAGATCCATCCCGGCGACACCAAGCCCGAGGGACCTTTTGGCGATCATCTGGGTTATTACAGCCTGGTCCATCCGTTTCCCGTCATGCGAGTTCACAAAGTCTATGCCAAGCAGCAGGCCATCTATCCGTTTACGGTCGTCGGGAGACCGCCGCAGGAAGATACGTCCTTCGGGGAGCTGATTCATGAGCTGACCGGCGGGGCGATCCGGCAAGAAATTCCAGGGGTCAAGGAAGTCCATGCGGTTGATGCTGCCGGGGTACACCCCCTGCTCTTTGCCATCGGCAGCGAACGGTATACCCCATATCAACAAGTAAAGCAGCCGGCTGAGCTTCTCACCATCTCCAACCGGATACTGGGCACGGGCCAATTAAGCTTGGCCAAGTATTTATTCATTGCAGCTGAAGAGAAACAGCCTTTAAGCACGCATCACATCGAGGACTTCTTGACCTATATATTGGAACGCATCGATCTGCAACGGGACATCCATTTTCAGACCAATACCACGATCGATACGCTCGATTATTCCGGAACCGGACTCAACACCGGCAGCAAGGTCGTATTTGCGGCGGTCGGGGATAAAAAAAGGGATTTGTGCCAAGCGGTGCCTGAGGCGTTAACGGATCTTCCCGGGTATGCGCCCGCAAAATGGATCATGCCCGGCATTGTCGCCATCCAGGGAGCCCCCTTTACGAGTTATTCGGAAGTGGCACAGGAAATGTCGAGGCTTAGCAATGCCATCCGGGAACGAGGTTCGCTTCCTTCCTGCCCAATGATCATTCTGTGCGATGACAGTGAATTCATGAGCGCAACGCTCAACAATTTTCTCTGGGCAACCTTTACGCGCAGCAATCCTTCCCACGACATTCACGGCGTGAACAGCCGCTATGAGCACAAGCATTGGGGCTGCGACACGGTCATTATCGATGCGCGCACGAAACCGCACCAAGCTCCTCCGTTAATACCGGACGCGGAAGTTGAACGCAGCATCCAGCGTTTGTTTGCGGACAGCGGCAGCTTAAGCCGCATTTCGCTGCGTTAA	MKYHNLEECIIDLERHGHLVRIHEEVDPHLEMAAIHMKVYEAGGPALLFENVKGSRFRAVSNLFGTIERSKFIFRETFESTQDVIALRNDPMKALKNPFKYIGTGLAAKSALPIKKTGALPPGFQEIQISDLPLIKHWKDDGGAFVTLPQVYSEDPEKPGVMNSNLGMYRVQLTGNEYELNKEVGIHYQIHRGIGIHQAKANKLGQPLKVSCFIGGPPAHTISAVMPLPEGMSELTFAGLLSGRHFRYSYVDGYCISHDADFVITGEIHPGDTKPEGPFGDHLGYYSLVHPFPVMRVHKVYAKQQAIYPFTVVGRPPQEDTSFGELIHELTGGAIRQEIPGVKEVHAVDAAGVHPLLFAIGSERYTPYQQVKQPAELLTISNRILGTGQLSLAKYLFIAAEEKQPLSTHHIEDFLTYILERIDLQRDIHFQTNTTIDTLDYSGTGLNTGSKVVFAAVGDKKRDLCQAVPEALTDLPGYAPAKWIMPGIVAIQGAPFTSYSEVAQEMSRLSNAIRERGSLPSCPMIILCDDSEFMSATLNNFLWATFTRSNPSHDIHGVNSRYEHKHWGCDTVIIDARTKPHQAPPLIPDAEVERSIQRLFADSGSLSRISLR	PGPT0009530_242	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009530-ubiD-K03182	NA	NA
AK002_02418	642			hypothetical protein	ATGAATACTTCATGCAGAGTATCCAAGCTGGCCCAATCGGATAAACTCTTATTTTCATCCATAATGAGCCGGGCATTTGCCCGGGATCCATTGTTCCTGCATGCATTTGGCGATCCAGAGCTTGATCGTAAATCAAGAAGCAGAGCGGCTGCATTTATCTCCTTCATGTTTGATAAAAGCTTTCTGCTGCATGAAGAAATATGGGGCTATTTTGAAAACGAAATCTTGCTCGGCACCTTCATTGTAGAGAAACCCGGCATAAGCAAGCTTAAGCGTTTGAAGGGCGCTTTTTTGCTCATTGGAAGACTCTTGCCGTTGTTATTCCAACTCCCAGTCAAAACATTGAGATTCCTGAATGCCTATATGGGCATTACAAGATCGGCTGCTCCTTCTTCTCCGCACCATTATCTCGTTATGATCGGAGTGAATCCGGAAGTCCAAGGCAGGGGAATTGGAACAGCAATGCTGCGGCACCTGCTTCAAGTGGTTAATTCGGATCACAATTCAGATGGAATCGCGCTCGATACTGAAAATAAGGAGAATGTAAATCTGTATCAAAGGCGGGGATTTGCTTTAAGGCATGAAGCATATATCAACGCCCTGACCGTGTATTGCATGTTCTATCAGAAAGACGATTTTTAA	MNTSCRVSKLAQSDKLLFSSIMSRAFARDPLFLHAFGDPELDRKSRSRAAAFISFMFDKSFLLHEEIWGYFENEILLGTFIVEKPGISKLKRLKGAFLLIGRLLPLLFQLPVKTLRFLNAYMGITRSAAPSSPHHYLVMIGVNPEVQGRGIGTAMLRHLLQVVNSDHNSDGIALDTENKENVNLYQRRGFALRHEAYINALTVYCMFYQKDDF				NA	NA	NA	NA	NA
AK002_02419	558			hypothetical protein	ATGAAAGTAATGAGGATTCCTTCGATTCTGCATGAGGTATTCGGTGAGCAGCAATCCGTTGGCACGATTCTCGTCATCTTGGCGTTCGGCGGATGTCTGACCACAGCAGCAAGCCTTGTTTTTCCGGATATCCTGCATTCTTTGCCTTTATGGCGCGGTATCCTTGCTTTATTGTTTATTTTCGATATTTTCTGCGGCTGTATCGCCAACTTCACTCGCTCGACCAGTAATTTCTATGCAGCCCGTAAAAAACAGCGGATCGTGTTCATCGCCATTCACGTTCATATTCTCCTGGTAGCCGTATTGCTGGATACCGACATGGCGTATGCGGTGGGAATATGGGCTTATACCATCGCTGGAGCTGTGACCGTGAATGCGCTGATCGGGAAGTCATCACAGCCTTTTATAGGAGGCTTGCTTCTGTCGATTGGCATAGGGGTTACATTCTTGCTGTCCAACATCCAGCCCTACATGTTAATGGCCGGCACCCTGTTTATGCTGAAAGTATTGTACAGCTTTGCTATCGACCATTATGGGGGAGCTGTAGAGAAAGCATGA	MKVMRIPSILHEVFGEQQSVGTILVILAFGGCLTTAASLVFPDILHSLPLWRGILALLFIFDIFCGCIANFTRSTSNFYAARKKQRIVFIAIHVHILLVAVLLDTDMAYAVGIWAYTIAGAVTVNALIGKSSQPFIGGLLLSIGIGVTFLLSNIQPYMLMAGTLFMLKVLYSFAIDHYGGAVEKA				NA	NA	NA	NA	NA
AK002_02420	603	betI_2		HTH-type transcriptional regulator BetI	ATGAACGGGTATGAGCGCAGAAAGCATAAAAAAATGGAACAGGTCTTCGATGCTGCTTTCCAGCTGTTTTCAAGGCACGGTTACCAAAAGGTTAGCGTTAACGAAATCGCCCAACAGGCAGGCGTGTCACCTGCGACGATATATAACTATTTTGGAACCAAAGATCAGCTCTATCTGGAAATGATCATGTATTGGACGGACAAGCAGTTGGAGGTGTATGAGCGCATTCTGGATTCCGCGCGCTCTTTTGCCGAGAAGGCCCGAGAAATCATGCTGTTGGAGGCTAAGAATCTGACCTTTTTGTCGGAAGAGTTCCGGAATTTCCAAACCTCCGAGGAACGTGGCATTAGTCAGACCATCCAACGGTACAGTGAAGAGAAGGTGAAAGATTTTTTCATGAAGTTTGTCGCGCTGGGGAAACAAGAAGGTTATATTCATAAGGACCAAACCGAAGAGGTTACGATGCAGTACTTCTCGATGTTCATGAATGAGCTAGGGCGACGCTGGGATTCGGGGAACCGGGAATATGTCAACGGGAGCATGGAGACCTTAATGGAGCTTTTCTTTTACGGTTTAGCCGGGCAAAAACATGAAGGCAGTTGA	MNGYERRKHKKMEQVFDAAFQLFSRHGYQKVSVNEIAQQAGVSPATIYNYFGTKDQLYLEMIMYWTDKQLEVYERILDSARSFAEKAREIMLLEAKNLTFLSEEFRNFQTSEERGISQTIQRYSEEKVKDFFMKFVALGKQEGYIHKDQTEEVTMQYFSMFMNELGRRWDSGNREYVNGSMETLMELFFYGLAGQKHEGS				NA	NA	NA	NA	NA
AK002_02421	216			hypothetical protein	ATGAACGAATTATTAACGAAAGCGCAAATCGTTGATCTGGTGACAAGACTGTATAATGGGGAAGGCAGCGAGGAAGAGGCAGGGGAATGGATAAATCTGCTGCAAAGGAATGTGCCTCACCCTGACATCAGCAATCTGATTTTTTGGCCGGAAGAAGATCTTACACCTGAGGAAATCGTTGAAAAGGCATTGAATTATAAGCCAATAGTACTGTGA	MNELLTKAQIVDLVTRLYNGEGSEEEAGEWINLLQRNVPHPDISNLIFWPEEDLTPEEIVEKALNYKPIVL	PGPT0027660_222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YxiD-YxxD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027660-toxin_yxiD-K21493	NA	NA
AK002_02422	204			hypothetical protein	ATGGCGTTAAATTGTAGGAAGCACAATTTACGGGGTGATCGCGACGCGATTGAGAATTTCCTGCTGGTCGGCACCTATGGCGGAATGCTGCACCGGATGAACCTGGCAAGCGGCATCCGGGATGAATACAGTATAGGCACAGCCCCAATTTGCGAAACAGGACGCTGGATATTCTGGAAGAACCGAGATCCCTTGCATTGGTAA	MALNCRKHNLRGDRDAIENFLLVGTYGGMLHRMNLASGIRDEYSIGTAPICETGRWIFWKNRDPLHW				NA	NA	NA	NA	NA
AK002_02423	471			hypothetical protein	ATGTCCATTATGCTTACAAAACTAGAACTAATCGATCGAATCCTTCATCTGCTTCATAAGACCTCCATATATGATCCTGAATACGAGAGAGTGGCCACGCTACCGTTTGAAGAGGGATATATCGGTGATTTGAGTCCGGTTGTTCGGGTCGGAGAGCAGGATTGCGAGCTCGCTATGTATGAAAGAGGCGTGCAAATGCTCAGCAAGAGGACCAAGGATCCCGATGAAGTGGTCTTCTGGATCCTGGAGGATACCATTCATACCATTGCCCATCTCAAGCTTCTGGAAAAATACAAGGTGGATAATGTAACCACCCATTTGAAGTATACCAAGGATGAGATCCAAGAAATGAAGGACATGATCAATGAATCCTTTCTTCAGTTCGGCGGACAATATGAGCAGTGGCATAAGGCGGGCAAGCGGAACGAGCTTGAGTCGCCTGATCCGGGCAGAAACGCAGGTAAAGACTAA	MSIMLTKLELIDRILHLLHKTSIYDPEYERVATLPFEEGYIGDLSPVVRVGEQDCELAMYERGVQMLSKRTKDPDEVVFWILEDTIHTIAHLKLLEKYKVDNVTTHLKYTKDEIQEMKDMINESFLQFGGQYEQWHKAGKRNELESPDPGRNAGKD				NA	NA	NA	NA	NA
AK002_02424	279			hypothetical protein	ATGGTTCTAAGCATGGACGAAATCGTCAATGCGGTCTGCCTTCACCAAGCGGAACGCAGAGGCGTCAAACCAACGGACGTATCGCTTGAGCTTAGCTGGGACGAAGATACGGGATATACGGCCGAAGTTTGGGTCAACGGAAGAACTCAGTATTTGATTGAGGCCAACCTCATCGAGGCCATTCTCCGCTACCTTCACTCCGAGTATAATATCCGCGCATACAGCGAGCAGGTAAGACTTGAGCTGGAAGATGAAATTATCGCCATTGTTCAGCAATAA	MVLSMDEIVNAVCLHQAERRGVKPTDVSLELSWDEDTGYTAEVWVNGRTQYLIEANLIEAILRYLHSEYNIRAYSEQVRLELEDEIIAIVQQ				NA	NA	NA	NA	NA
AK002_02425	444			hypothetical protein	ATGAAAAAAGTATTGACGATTCTAGTAGCGATTACACTGTTCTTTGTAGCGCTGACACCTGATTCCGTAGACGCAAGACGAGGCGGCGGCGGTTTTAAATCCGGAACCAAGTCATACAACAGCACTCCGAAAAAGAATGATACCAATAATGTTCAACAAACAAACAACCGTTCCAATACAGGGGCAGCCGCTAACACGAAAAAACCAGGATTTTTTAGCGGCGGCAGCTTGATGAAAGGACTTATGATCGGTGGTCTCGCCGGATTGCTCTTCGGCAGCATGTTCGCCGGCATGGGCTTCATGGGCGAAATCATGGGACTGCTCATTAACCTGATCGCCATCTGGGCTTTGATTATGATCGTTATGGCTGTTGTACGTGCCGTGAAGAATCGTCGTAAACAAAACGAGCCTCGCGACAACAACAATCACAATAACCGGTACTAA	MKKVLTILVAITLFFVALTPDSVDARRGGGGFKSGTKSYNSTPKKNDTNNVQQTNNRSNTGAAANTKKPGFFSGGSLMKGLMIGGLAGLLFGSMFAGMGFMGEIMGLLINLIAIWALIMIVMAVVRAVKNRRKQNEPRDNNNHNNRY				NA	NA	NA	NA	NA
AK002_02426	513			hypothetical protein	ATGCTTCGCATACAGCCTTTTTGGCAAGCCAAACACAGTCAAATCTATCCGCTGCTGTCCAGCATGGAGGAGAAGCAGCTGTTGTCTTCCCACTGGGTTCAGCAAAGCGATAAACCGGACAAAAAAATTTATGCGATTACAGAAAAAGGCATGCAGAAGCTGCGTGAATGGATGTACCAACCGATTGCGCCTGCAGTCACCAAGGATGAGCTTTCTCTTCGAACCTTTTGCCTGTGGTTGACGGAGATCGGCATCGCCGTCGATATTTTCGAGGACCGCAGAATCGGGTATCTGGAGAAAAAGCGCTACTATGAGCAGATTCTAGCGGGAATTCCGGAGGACTCCCGCGAGATCGGAAGCAAGGCATTCAGCAATTATGTGCTCGCTACCAAAGGACTGATGATGGCTGAAACCGAGCTGAAATGGTGCGATTGGGTACTGGAATTACTGAGACAGCAGCAGCGCGCTACAGCCTCAAACCATGGTCGCACAAATTTTGAAACCTTATCGTGA	MLRIQPFWQAKHSQIYPLLSSMEEKQLLSSHWVQQSDKPDKKIYAITEKGMQKLREWMYQPIAPAVTKDELSLRTFCLWLTEIGIAVDIFEDRRIGYLEKKRYYEQILAGIPEDSREIGSKAFSNYVLATKGLMMAETELKWCDWVLELLRQQQRATASNHGRTNFETLS	PGPT0025575_93	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR|BF-CELL_DENSITY_REGULATION	CE-QSR|BF-BIOFILM-LOW_CELL_DENSITY_REGULATOR,PGPT0025575-aphA-K10917	NA	NA
AK002_02427	570			hypothetical protein	ATGGAAAAACACCTTAACAGCATACTGGAACACAATCGCAGCTTTGTAGAGAATAAAGAATACGAATCCTATCTGACAGGGCGTTTTCCTGAGAAGAAACTCGTAATCATCACCTGTATGGACACGCGCTTGGTCGAACTTCTGCCGAAAGCGATGAATTTCAAGAATGGCGATGTCAAAATCATCAAAAACGCCGGCGCAATCATTTCCCAGCCTTTCGGGAGCGTGATGCGGAGCGTCATGGTTGCGCTGTACGAGCTTCACGCGGAAGAAGTCATCGTTGTGGGCCACTACGAATGCGGCATGGCATCCCTGAACGCAGAGGATATGATCCAGCATATGAGAGACCGCGGCATTTCCGATGAAGTGCTGTCCACGCTGGAAAACTCCGGCATCCGGTTATCCAAATGGCTTCGCGGTTTCGATAACATTACGGACGGCGTAAAAAATACGGTCAGCCTGATTAAAAACCACCCGCTCCTTCCTCCAAACGTACCCGTCCATGGCATGGTCATCGACCCCAACACCGGTGCGCTTGATCTCGTCGTGGAAGGATACGAGAACGAATAA	MEKHLNSILEHNRSFVENKEYESYLTGRFPEKKLVIITCMDTRLVELLPKAMNFKNGDVKIIKNAGAIISQPFGSVMRSVMVALYELHAEEVIVVGHYECGMASLNAEDMIQHMRDRGISDEVLSTLENSGIRLSKWLRGFDNITDGVKNTVSLIKNHPLLPPNVPVHGMVIDPNTGALDLVVEGYENE	PGPT0002415_6487	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002415-cynT|can-K01673	NA	NA
AK002_02428	330			hypothetical protein	GTGAATATTCAACTCACCCCGCAAGCCGAGCTGAAGCTGAAGGACAAACTCGGGGACAAGCCGGGCGCAATCAGGCTGATCTATGACACGGAGGGATGCGGATGTGCCGTCAACGGCGTCCCAGGCCTGCGTATTGTAGATGAGCCGGCGCCGGATGATCTTGCTGTCGAAACGGACAGCCCGGTAACGTTTATCGTGAACCGCAAGCAAGCTGTTTTTTTTGAAGAGAAGATGAAACTCGATGCCGATCCGGCCGCCTACGCCTTCCGTCTGGACAGCAGCGGACAGCATTATGGCACCAATATCCAGGTAGTGGATACCAGAGCCTAA	MNIQLTPQAELKLKDKLGDKPGAIRLIYDTEGCGCAVNGVPGLRIVDEPAPDDLAVETDSPVTFIVNRKQAVFFEEKMKLDADPAAYAFRLDSSGQHYGTNIQVVDTRA				NA	NA	NA	NA	NA
AK002_02429	1518	ypwA	COG2317	Carboxypeptidase 1	ATGGCAGTACAACATTTCCAGCAATGGGAACAATTTGAACAATTGGTTCGCAAAATCATGAGTTACTACGAAGCTATTGGCCTACTTCATTGGGATTTACGGACAGGCGCTCCGCGCAAAGGAACCGAGATCCGCTCGGAAACGATCGGGGTTCTCTCCACAGAAGCATTTAAACTGCAAATATCGGAAGAGATGGGAGAGCTGTTGTCTTTCTTTGCCAAGCCGGAACAGGCTGAACAGCTGGATGATCGCAAACGCCGCATGATTGAAGAGGTGCGCAAGGTATACGACCAGAGCAAGTCCATCCCGCCTGAGCGCTTCCAGGAATATTCCATTCTCGCCGCCCAATCGGAGACGAAGTGGGAGGAAGCGAAAAAGAACAGCGATTTTGAAGGCTTCGAACCTTACTTAACGAAGATCGTTGCGTTCAAGCAAGAGTTTATTGATTATTGGGGCGTGAAAAACACCAGATACGATACGCTCCTTGATATGTATGAGCCGGATTTAACGGTGGATAAGGTGGATGCCATCTTTGACCGTCTGAAGGCGCGCCTGGTTCCACTGGTACATGCGATCCAGGAATCGCCCTTCAAGCCGAAAGCAGACTTCTTGAAGCAGCTGTTTCCGAAAGAACAGCAGGAGAAATTCAGCTTGTTCCTGCTGGAGCAGATGGGCTACGACTTTGAAGCGGGACGCTTGGACGAGAGCGTGCATCCTTTTGCCACGGGCTTGAACCCGGGAGACGTGCGCATTACGACCATGTACCTTCCGGACGATGTGCTTAGTGCGGTATTCAGCTCCCTGCACGAGGGAGGCCATGCCCTTTACGAGCAGAATATCGATAAGGAGCTCGCGGGGACACCGCTCTCCGGCGGTACCTCCATGGGCATCCATGAATCCCAATCCCGTCTGTGGGAAAACATGATCGGCCGCAGCCGTCCGTTCTGGCGCCGCTATTTCGCGGATTTGCAGCAGCACTTCCCGGAACAGTTGAAGGACGTGGACGTAGAGGACTTCTACCTGGCCGCGAACAAGGTGGAGAACTCCCTGATTCGCATCGAAGCGGATGAGCTTACTTATAACCTGCACATCATCATTCGTTATGAGATCGAGAAGAAACTCTTTAACGAAGGTTTGGCGGTGAAGGATCTTCCGGAGACCTGGAACGCGAAGTATAAAGAATACCTCGGCATTATGCCGCCGAACGATGGGATGGGCGTGCTTCAGGACGTTCACTGGTCCGGCGGGGACTTCGGGTATTTCGCCTCCTACTCCCTTGGGAACATGTATGCGGCCCAGATGCTGCACACCATGCGCAAAGAGCTGCCGAATCTGGACCAGCTCATCGAAGCCGGGAACCTGGCTCCGATCAAGGAGTGGCTGACGGACAAGGTATACAAATACGGAAAGAGCGAGAAGCCGTCCGAGATCATCGAACGCGTCACCGGCGAAGAACTGAATCCGGATTACCTGGCCGATTATCTCGAAGAGAAATATAAAGAGATCTACAAACTGTAA	MAVQHFQQWEQFEQLVRKIMSYYEAIGLLHWDLRTGAPRKGTEIRSETIGVLSTEAFKLQISEEMGELLSFFAKPEQAEQLDDRKRRMIEEVRKVYDQSKSIPPERFQEYSILAAQSETKWEEAKKNSDFEGFEPYLTKIVAFKQEFIDYWGVKNTRYDTLLDMYEPDLTVDKVDAIFDRLKARLVPLVHAIQESPFKPKADFLKQLFPKEQQEKFSLFLLEQMGYDFEAGRLDESVHPFATGLNPGDVRITTMYLPDDVLSAVFSSLHEGGHALYEQNIDKELAGTPLSGGTSMGIHESQSRLWENMIGRSRPFWRRYFADLQQHFPEQLKDVDVEDFYLAANKVENSLIRIEADELTYNLHIIIRYEIEKKLFNEGLAVKDLPETWNAKYKEYLGIMPPNDGMGVLQDVHWSGGDFGYFASYSLGNMYAAQMLHTMRKELPNLDQLIEAGNLAPIKEWLTDKVYKYGKSEKPSEIIERVTGEELNPDYLADYLEEKYKEIYKL				NA	NA	NA	NA	NA
AK002_02430	1005			hypothetical protein	ATGAAGCGTCAAAAATGGTGGGGGCTGGCTTTATCCTTGCTCCTTGTCTGCGGAGTTGCGCTTGCCGGGTGCGGGGGCGGCGGATCGGCCACGAAGGTCAAGATCGGCGAAGTGACGCGTTCGATCTTCTATGCGCCGCAGTATGTCGCATTGGAGAAGGGATTTTTCAAGGAAGAGGGGCTGGATGTCGAGCTGCAGACGACCCCGGGCGGAGACAAAACGATGACGGCTCTGCTGTCCGGAGCTATCGACGTGGCGCTTGTCGGCTCGGAAACTTCGATTTACGTGTACCAACAGGGCTCTGAAGACCCGGTCATCAATTTCGGGCAGGTGACGCAGACGGACGGCACGTTTCTGATGGCCAGGGATGGATCGGGTGATTTTGACTGGAACAGCCTGAAGGGCAAAGTATTCCTCGGTCAGCGTAAGGGCGGAATGCCGCAGATGGCAGGCGAGTTTACGCTCCGTAAAAAAGGAATCGATCCGCATGCGGACCTGGAGCTGATTCAGAACATCGATTTTGCGAACATCGCATCGGCGTATGCTTCCGGTACGGGTGAGTTTGTCCAGCTCTTTGAGCCGCAGGCCTCCATATTTGAAAAAGAAGGCCGTGGCAAGGTGGTGGCTTCCTTTGGCGTAGAAAGCGGGCATCTGCCGTACACCGTGTTTATGACAAAGCAAAGCTATATCGACAAAAACGATGCCACGGTGCAGAAGTTTACGAACGCCCTGTACAAGGCACAGCAATGGGTGGATGCGAGCAGCCCCGAAGATATCGCGGATGCGATCATGCCTTATTTTAAAGACAGCGACCGCGACATCGTGGTGTCCTCGGTCAAGCGCTACAAAGAGCAGGGCAGTTATGCCAGCGATCCGATCGTGGATGAGGCGGAGTGGAACAATCTTCTGGACGTGATGGAGCAGGCCGGGGAACTGAAGGAACGGGTAGCGCCGGATGCCATCGTCGACAACAGCTTTGCCGAAAAAGCCAAGCAAGCTAAATAA	MKRQKWWGLALSLLLVCGVALAGCGGGGSATKVKIGEVTRSIFYAPQYVALEKGFFKEEGLDVELQTTPGGDKTMTALLSGAIDVALVGSETSIYVYQQGSEDPVINFGQVTQTDGTFLMARDGSGDFDWNSLKGKVFLGQRKGGMPQMAGEFTLRKKGIDPHADLELIQNIDFANIASAYASGTGEFVQLFEPQASIFEKEGRGKVVASFGVESGHLPYTVFMTKQSYIDKNDATVQKFTNALYKAQQWVDASSPEDIADAIMPYFKDSDRDIVVSSVKRYKEQGSYASDPIVDEAEWNNLLDVMEQAGELKERVAPDAIVDNSFAEKAKQAK	PGPT0001135_5567	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK002_02431	774	tauB	COG4525	Taurine import ATP-binding protein TauB	ATGGTACCGGTAGTTGAATTGAATGATATCGCTCATGTATATGTCACCGATCGGGAAGCCTCTCTGGCTGTGGAAGGAATTCATTTGAAGGTGGAGCCGGGGGAGTTCATCAGTCTGGTAGGGCCCAGCGGCTGCGGGAAAACGACCATCCTGTCCGTCATAGCGGGCCTGCTTGCCCCCTCCAAAGGGGCTGCTTACGTAAACGGCAAGCCGGTTAACGGACCGTCGCCGGAAGTCGGATACATGCTGCAGCAGGACTATTTATTTCCTTGGCGCACCATCATGGATAATGCCTTGATCGGATTGGAATTGACGGAGAGACTGAATCCGCAAAGCCGAAGCGTCGTAGGGAATCTGCTCAAGGAGATGGGGCTTGGGGAGAGCGGTAATCTGTATCCGACGCAGCTGTCGGGCGGGATGAGGCAGCGGGTAGCGCTCGTCAGGACCTTAGCTACGGATCCGGGACTGCTGCTGCTGGATGAACCTTTCTCCGCGCTGGACTACCAGACGAAGCTGCAGCTTGAGGATTTGATCGTGGAAACCCTGAAGGAGCGGGGGAAGACGGCCATCCTGGTCACTCATGATTTATCCGAAGCGATTGCGATGAGCGACCGGGTCATTCTCTTGAACCGTAATCCCGGGCGGGTTCATCGTTTGTTTGATATTCCCGACAACATCCGCCGGGCGCAGCCGTTTTTTGCTCGCAAGGAGCCGGGGTTCAATGAATTGTTTCATGAAATCTGGGGCGAAATGCAAACGATCGGGAAGGAGTGA	MVPVVELNDIAHVYVTDREASLAVEGIHLKVEPGEFISLVGPSGCGKTTILSVIAGLLAPSKGAAYVNGKPVNGPSPEVGYMLQQDYLFPWRTIMDNALIGLELTERLNPQSRSVVGNLLKEMGLGESGNLYPTQLSGGMRQRVALVRTLATDPGLLLLDEPFSALDYQTKLQLEDLIVETLKERGKTAILVTHDLSEAIAMSDRVILLNRNPGRVHRLFDIPDNIRRAQPFFARKEPGFNELFHEIWGEMQTIGKE	PGPT0001140_6447	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK002_02432	834	ssuC_3	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGACATCAAGGGATGAGCCATCAGCTTCTTCTTCGAAGGGCTGGCTCCAGAATATCCATGCAAATCACATGAAGCGAAAGAAAAGCATGCAAAACCGGGTACTGACCGTTCAGCTCAGCCTGCTGCTGCTGTTCTTTATCTGGTGGGAAGCGGCGGGCAGATTCAAATGGATCGACGTGCTGCTGTTCAGTTACCCCACCAAAATCTTCGCGAACATATGGGATAACATGATCAGCGGCGAGTTATGGGGACACCTGGGGGTCACGGTAGGAGAGACGGTTGTAGGATTCCTGCTCGGCACGCTCGTTGGCACGCTAATGGCCGTATTGATCTGGTGGTCACCGTTTCTCAATAAAGTGCTGGATCCTTATATGGTCGTGTTCAACAGCATGCCGAAAGTGGCGCTGGGTCCCATATTCATCGTGATGTTCGGCGCCGGCTTTACCGCCATTGTCGTCACTACGCTATCCATTACGGTCATTGTGACCACGCTCGTCGTATACAATAGCTTTAACGAGGTGGATTCCAATCTGATCAAGGTCGTCCGCACGTTCGGCGGAACCAAGCGCCAGGTATTTCAACGGGTCATCTTGCCGGCTTCCTATCCCGCGATCGTATCAACCCTCAAGGTTAACGTGGGCATGGCATGGGTCGGCGTCATCGTCGGCGAATTTTTGGTTGCCAAATCGGGTCTCGGTTACTTGATTATGTACGGTTTTCAGGTGTTCAACTTCACGCTCGTGTTATCGAGCCTGCTCATCATTGCCGTTGTAGCAACGGCCATGTATCAGATCGTGGTATATATAGAAAGGAAATTGTTGACCCACCGCTAA	MTSRDEPSASSSKGWLQNIHANHMKRKKSMQNRVLTVQLSLLLLFFIWWEAAGRFKWIDVLLFSYPTKIFANIWDNMISGELWGHLGVTVGETVVGFLLGTLVGTLMAVLIWWSPFLNKVLDPYMVVFNSMPKVALGPIFIVMFGAGFTAIVVTTLSITVIVTTLVVYNSFNEVDSNLIKVVRTFGGTKRQVFQRVILPASYPAIVSTLKVNVGMAWVGVIVGEFLVAKSGLGYLIMYGFQVFNFTLVLSSLLIIAVVATAMYQIVVYIERKLLTHR	PGPT0001145_4055	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK002_02433	981			hypothetical protein	ATGGGATTTCGTGTCATCAAAACAGCAGCGGCCAGCCTGCTTGCCATTTTAATTACAGATGCTTTGAACATACCGGGGGCTACGTCCGCCGGTCTTCTTGCTATACTCGGCGTTGACGTTACGCGCAAACGGAGCGTGCGCTCCATATCGTCCCGATTTTTTGCGTCATTGCTGGGACTTATGCTGGCGTGCATTTTATTTTATTTTCTTGGTTTTCATTACTGGGTGCTGGCCTTGTACATATTGCTTGCATTTCCCGCGATATCGAGGGCTAATTTCAAGGAAGGCATCGTGACCAGCTCGGTTGTGGTGTTTCGGGTATTTCAGGGGGAAGAGATCGGACTCGGCATATTGCTCACGCAAATCGAACTCCTGATTATCGGCCTCGGGTCGGCCATGCTCGTGAACCTGGTTTATATGCCGAACAGCGAGGGGGCGATGATGGAGATCCGCCGCAAGGTGGACGGGCTTTTCTCCGTCATTTTCCATCATTTCTCGCTGACGCTTCGAAACCCCGAACATATATGGGACGGAAAAGAGCTGATCGAGGCCAATCGGCAGATCGAAAAAGGGATAGAGGAAGCGAAGCGGGCTTCGGAGAACCAGATGATTCATCCGGACGGCTCCTGGAACATCTATTTTTATATGCGTAAGGAACAGATGGAGAATATCCAGAGCATGATGCATCAGATCTCCCAGGTGTACGAGCGGCTTCCGCACGGCGTGCTGACGGCTGAAATTTTCGATCAGTTAAGCCAGGATGTCGTTGCCGAAGGTTATACGGGGAAGTCCGAAGGTCTGCTGATTGAGCTGGAGGACAGGTTCAAGGAGATGGAGCTCCCTACGACCCGCGAGGAATTCGAGGTCCGCTCCGCGATTTTGCAGCTCTGCCACGAGCTGGAATACTATTTGAATATTTCGAAAAAGTATAAAGCGCCCACGGCGAAAAAACCGCAGAAGCGCGCGGATTCGGCCGTATAG	MGFRVIKTAAASLLAILITDALNIPGATSAGLLAILGVDVTRKRSVRSISSRFFASLLGLMLACILFYFLGFHYWVLALYILLAFPAISRANFKEGIVTSSVVVFRVFQGEEIGLGILLTQIELLIIGLGSAMLVNLVYMPNSEGAMMEIRRKVDGLFSVIFHHFSLTLRNPEHIWDGKELIEANRQIEKGIEEAKRASENQMIHPDGSWNIYFYMRKEQMENIQSMMHQISQVYERLPHGVLTAEIFDQLSQDVVAEGYTGKSEGLLIELEDRFKEMELPTTREEFEVRSAILQLCHELEYYLNISKKYKAPTAKKPQKRADSAV				NA	NA	NA	NA	NA
AK002_02434	561			hypothetical protein	ATGTCATTGAGTCATAAACACCAATGTAGAGAAATCATCACGAAGGCGATCTGCGGCAAGGGTCGTAAGTTCTCTACCGTAACACATACCGTGACTCCGCCTAATAATCCGACCAGTATTTTGGGGGCTTGGATTATAAACCATCAGTACGAGGCGGTTGCCGCCGGAGACGGAATTGAAGTTATTGGTACTTACGATGTAAACATCTGGTATTCCTATGACAAAAATTCGCAGACCGATGTGGCGAAAGAAACGGTATCGTATGTAGAACGCGTGCCTCTTTCCTATCTGGATCCGAAGCATCGTGCATCCACGGTGGAGGTTTCGGCTGAAGCGACGCAGGAGCCGAGCTGCGTCGAGGCCAGCGTATCCTCGAATGGCACGAGCGTCATTCTGCGGGTAGAGAGAGAGTATGCGGTGGAACTGGTAGCCGAAACCAAGGTCGTTGTCAAAGTATGCAGCTACCCTCACGGCGACTACGAAGACAAAGAATTCGACTACGTCCTGGGAGACGACGTCGAAGATTACGAAGATTACGAAGGTCTGGAGGATGAACTGTAA	MSLSHKHQCREIITKAICGKGRKFSTVTHTVTPPNNPTSILGAWIINHQYEAVAAGDGIEVIGTYDVNIWYSYDKNSQTDVAKETVSYVERVPLSYLDPKHRASTVEVSAEATQEPSCVEASVSSNGTSVILRVEREYAVELVAETKVVVKVCSYPHGDYEDKEFDYVLGDDVEDYEDYEGLEDEL	PGPT0025155_78	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025155-cotE-K06328	NA	NA
AK002_02435	1260			hypothetical protein	ATGGCTAGAATGATCGTACAACCGGCGGCTGAAAAAAAGCATGTGTCGCTGCAGGGATCTGCTTCGCTCTTGGCGCAAGCACGGTTGATCCGATCCGGGATTCCGTGTCGCTTGAATTCGGGTTCGGCCGAGGAGAAGCGTTACGCCGCCAGGTACGCGGTGCATGTCGACTGGCTGGCTGCAGCCAAGATCCGCCAACATCAGATGGGCGGCAGCGAAGCGGTGTTCATGCCCGATCCCGAGAGCGGAAGATATGAAGATGGCCTGCATCGAAGATTGGAGAAAGCGGCCCTGCGGTCGCTGTATACACTGGGCGTCGATGAAGGGGAAGTCATCATTACGGCCCGCCCCGGTCGAAGATACGTAGTGGAGGATATCCGCGTGCCAGCTGACCGCAGCAAAGCCGTAATGAGTGCCAAGGGTCAGGGGGCACGGCGGACGGAAGGGTACCCTGCATACAACGAAGAAGGCGATTCTCCTCTTGTTTCATCGTTACTCATGGGCATGGATCCGGAGTTTGTGCTGATGAAGGATAACGGAGACATCGTGTTTGCTTCCGAATTTATGGAACGCGGCGGGTCGGTCGGAAGCGATGCCGTTCGTTTACGGGGCGAGGTGATTTACCCTATTGCCGAGCTCAGGCCGTCGCCCAAGGCGAATCCGAAGGAATTGCTGCTTGAAATGCAAAGAGCTCTGCGTGAAGCTCATCTCCTGATTCAGGATCGTTCTTTGGCATGGAAGGCAGGCGCCCTGCCTCATGGCGATTTTCCGCTGGGAGGCCATATTCATTTCAGCGGCGTACCGCTGTCCCTGTCTCTTCTTCAGACCCTGGATAATTATGTGGCTCTGCCGCTGGCGCTGCTCGAAGACCCGAAGGGGCGTTCACGGAGGCCGCGTTACGGTTTCCTTGGGGATTTCCGGAGGCAGCCTTACGGTGGGTTTGAATACCGTACGCTGCCCAGCTTTCTCGTCTCGCCGCTCGTCGCGAAGGTGTCGCTGGGCGTGGCTTACCTGGTCGCCCGCTACAGCGATCGCCTGCCGGGGAGGCCGTTAAACACCGAACGGTATCACCGTGCCTATTACGAAGGCGATAAATCCGTGCTCAAAGAGTGTATTGCAGGCTGGCACAGGGATCTGTCGGCACTGCCGGAGTACCCGGATTTTGCCCGTGAAATCGAACGGGCTCTAGCGCACATGGAGACGGGGCGAACCTGGGATGAAAGCAGGGATATCCGGCCGCTGTGGAATATTCCCGTTTAA	MARMIVQPAAEKKHVSLQGSASLLAQARLIRSGIPCRLNSGSAEEKRYAARYAVHVDWLAAAKIRQHQMGGSEAVFMPDPESGRYEDGLHRRLEKAALRSLYTLGVDEGEVIITARPGRRYVVEDIRVPADRSKAVMSAKGQGARRTEGYPAYNEEGDSPLVSSLLMGMDPEFVLMKDNGDIVFASEFMERGGSVGSDAVRLRGEVIYPIAELRPSPKANPKELLLEMQRALREAHLLIQDRSLAWKAGALPHGDFPLGGHIHFSGVPLSLSLLQTLDNYVALPLALLEDPKGRSRRPRYGFLGDFRRQPYGGFEYRTLPSFLVSPLVAKVSLGVAYLVARYSDRLPGRPLNTERYHRAYYEGDKSVLKECIAGWHRDLSALPEYPDFAREIERALAHMETGRTWDESRDIRPLWNIPV				NA	NA	NA	NA	NA
AK002_02436	2772	mutS	COG0249	DNA mismatch repair protein MutS	ATGGCTAAATATACGCCGATGATTGAACAATATTTGAAAGTCAAAGAACAAGCGCGCGATGCGTTTCTTTTTTTCCGCTTGGGCGATTTTTACGAAATGTTTTTCGATGACGCGATCCTTGCGTCGAAGGAATTGGAGATTACGCTGACCGGCCGCGAAGGCGGCGGTGCAGAGAAAATACCGATGTGCGGCGTTCCTTATCATTCCGCCGAAGGTTATATCCAACGGTTGATTGAAAAGGGGTACAAAGTCGCCATCTGCGAACAGATGGAGGATGCTTCGGTCACCAAAGGCATGGTGCGGCGGGAAATCGTCAGGGTCGTCACGCCGGGGACCATCATGGACGGCAAGGTCGTTCACGACAAATCGAACAATTACATGGTGTGCGTCACGGAAGCGGGCGGCTTGATGTCCTTATCCGCATGCGATTTGTCCACCGGCGAGCTCTACGTGACGTCGGTGCCTTCATCGGAGGAATGGTTGAGGGACGAGATTGGCATTTATGAGCCTTCCGAAATTATCGGGGATGCATCGCTGCTTGGGATCATCTCATCGCAGGCGCTGCCGGGCAGCCGAAATATCGTATACACGGCCTGGGATCGAAGAGAAGACGCATTGGTTCGGACCCAATTCGGAGAAGCGGCATGGGTCCGCCTTGAAGAGGAGAGAAGAGCCTGCATATCCCTGCTTATCTCGTATTTAAGCGAGACGCAGAAACGGTCGCTGGGGCAGCTGACTCAAATCGCTTCCTACGAGCCGGGACAATACATGGTGCTGGATCCGTTCACCAGGCGGAATCTGGAGCTGGTCGAGACGGTTCGTGAACGCTCGAAGAAAGGCTCTCTCCTATGGCTTCTGGATCGTACGGAAACCTCCATGGGAGCCAGACTCCTGCGGCGGAGAATCGATAAACCGCTGCTGTCCCGAAGCCGGATCGAGGAGCGGCTGGAGGCCGTCGAGCATTTGTATAACCAGTACATACTGCGCGAAGATTTGCGGATGGCGCTGAAAGAGATTTACGATTTGGAGCGGCTGGTCGGCCGGATCGCGTTCGGCAGCGCGAACGGACGCGATTTGAATGCGCTCAAGCTGTCATTGAGGCAAATTCCTTCCCTGAAGGAGCTGTGTGCCCAGTCGCCTTCCGAGACGCTGCGGCGCGTGGCAGCGGATACCGATGTTTGCGACGATCTGTGCGAACTGATCGAGAATGCGATTGTGGATGAGCCGCCGGTGTCAGTGCGCGACGGAGGAATCATCAAGCCGGGGTACCACGAACGGCTGGATGAGTTTCGGGAAGCGAGCACCAGCGGCAAACGCTGGATCGCCGAGCTGGAGGCCAAGGAACGTGCCGCTACCGGGATCAAGTCTTTGAAGATCGGTTATAACAAGGTGTTCGGCTATTATATCGAGGTCACCAAATCCAATCTGTCATCCCTGCCGGAAGGCCGATATGAGCGCAAACAGACGCTGGCCAACGCGGAGCGTTACGTCACGCCCGAACTGAAGGAGAAGGAAGGACTGATCCTGGAAGCCCAGGAGAAAATGGTGGATCTGGAGTATGCGCTCTTTACCGAGCTGAGGGATAAGCTGAATACCCAAGTGAGCCGGCTGCAGAAACTCGCCGAGCGCATCGCCGAGATTGACGTCTATCAGTCGCTGGCTGCCGTCAGCGCGGAGTACCGGTTCGTCAAGCCGGAGCTGAGCGAGGGCTATGATTATATCGTTGAAGGCGGCCGTCATCCGGTGGTGGAAGCCGTCATGAAGGATTCGTCGTTTATCGCGAACGCAACGGATTTGCGCAAGGACGGCTCTTCGATCCTGCTTATAACGGGTCCGAATATGGCCGGCAAAAGCACGTACATGCGCCAGGTGGCTCTGTTATCCATTTTGGCGCAGATGGGCTGTTTTGTCCCGGCGGAGCGCGCGGTTATCCCGCTGGTCGACCGGATCTTTACTCGCATCGGCGCCGCCGACGACCTGATCGGCGGTCAGAGCACCTTCATGGTGGAAATGGCGGATATCCAGGTCATGACGGAAAAAGCGACGCCGCGCAGCCTGATCATCATTGATGAGCTTGGGCGCGGTACGTCCACGAGTGAAGGCATGGCCATTGCGCAAGCCGTGATTGAATACGTGCATGATCATATCGGCTGCAAGGCATTGGTATCGACGCATTTCCATGAGCTGGCTCACCTTCAGGAGAGCCTTGGCGGGCTCAAGAATTATTCCATGGCGGTTCAGGAAAGCGGCGACAAGGTGCATTTTCTCCGCAAGCTGATTCCTGGCGCGGCGGACAGCAGCTACGGCATTTATTGTGCCAGACTGGCAGGTTTGCCCGGCAGTATCATTGATCGCGCTTATGGGCTGCTGCAGGGCCTGGAGATGGCTTCCCTGGCCGCAGTGGCATCGGAGCAAGGGACCGCGGTCCATCGGAAGGAGCCTGCGTCCGATGCCTCTTCGGATGTGAGACGCAGCGGACCGGAAGCTTTGCATGAAATCCGTGAAGAGACGATGCCGTATGCCGGCAGCCTGAACGGAGCAGACCCGAAAGGCGGCGTGGTGCAGCTCTCCATTTTCGGCGAGGAGGAAGTGCCTGAATCCCGGAATGCCAAGATGGGCAAGGATCAGCACTCTTCTCCGCAAGAAGCTGCTCACGATCCTGCTGTTAAGAGCATCATAGACGCCGTCAAAGGTGCCGACGTCATGAACATGACGCCGCTTCAGGCGATGCAATTCCTGAATGACCTGAAGCTTCAAGCGAAGGATATGTGA	MAKYTPMIEQYLKVKEQARDAFLFFRLGDFYEMFFDDAILASKELEITLTGREGGGAEKIPMCGVPYHSAEGYIQRLIEKGYKVAICEQMEDASVTKGMVRREIVRVVTPGTIMDGKVVHDKSNNYMVCVTEAGGLMSLSACDLSTGELYVTSVPSSEEWLRDEIGIYEPSEIIGDASLLGIISSQALPGSRNIVYTAWDRREDALVRTQFGEAAWVRLEEERRACISLLISYLSETQKRSLGQLTQIASYEPGQYMVLDPFTRRNLELVETVRERSKKGSLLWLLDRTETSMGARLLRRRIDKPLLSRSRIEERLEAVEHLYNQYILREDLRMALKEIYDLERLVGRIAFGSANGRDLNALKLSLRQIPSLKELCAQSPSETLRRVAADTDVCDDLCELIENAIVDEPPVSVRDGGIIKPGYHERLDEFREASTSGKRWIAELEAKERAATGIKSLKIGYNKVFGYYIEVTKSNLSSLPEGRYERKQTLANAERYVTPELKEKEGLILEAQEKMVDLEYALFTELRDKLNTQVSRLQKLAERIAEIDVYQSLAAVSAEYRFVKPELSEGYDYIVEGGRHPVVEAVMKDSSFIANATDLRKDGSSILLITGPNMAGKSTYMRQVALLSILAQMGCFVPAERAVIPLVDRIFTRIGAADDLIGGQSTFMVEMADIQVMTEKATPRSLIIIDELGRGTSTSEGMAIAQAVIEYVHDHIGCKALVSTHFHELAHLQESLGGLKNYSMAVQESGDKVHFLRKLIPGAADSSYGIYCARLAGLPGSIIDRAYGLLQGLEMASLAAVASEQGTAVHRKEPASDASSDVRRSGPEALHEIREETMPYAGSLNGADPKGGVVQLSIFGEEEVPESRNAKMGKDQHSSPQEAAHDPAVKSIIDAVKGADVMNMTPLQAMQFLNDLKLQAKDM				NA	NA	NA	NA	NA
AK002_02437	1980	mutL	COG0323	DNA mismatch repair protein MutL	ATGGGGATTATTCGGATTTTGGACGAGCATATTGCAAACCAGATTGCTGCCGGCGAGGTGGTGGAGCGGCCTGCCTCCGTTGTCAAGGAGCTGGTCGAGAACGCCATTGATGCCGGGAGCACCAAGATCGACGTTTCGGTCGAAGAGGGCGGACTGGACAGCATTCGCGTAACGGATAACGGGGCGGGCATTGATCCGGAGGATTGCGAGACGGCTTTTTATCGCCATGCGACAAGCAAAATTGCCGAGGGCCGCGATCTGTTCCAGATCACCAGCCTTGGTTTCCGGGGGGAAGCCCTGCCGTCCATAGCAGCCGTATCGAAGGTGCGCCTGGTTACGTCCAATGCCCAGGATGGCCGCGGACGGAAGATCGAAATCGAAGGCGGCCATCTGCGCGTGAACGAAGAGACGGCCGCACCCAGAGGAACGGATTTCCTCGTGAAGGAATTGTTTTACAATACGCCGGCAAGGCTGAAATATATGAAAACGATCCAGACCGAATTAGGGCATATATCCGATTATATGTACCGCTTGGCGCTATCCCGGCCGGACATCGCTTTTACGCTCCGGCATAACGGGAACTCGCTGCTGCAGACGCTGGGCAACGGCGATGCCCTTCAGGTCATAGCGGCCGTATACGGCACCCAATCGGCCAAAGCCATGCTGCCGTTCGAAGCCGAGAATATGGACTATACGTTAAGCGGGTATATCAGCCGTCCGGACTATACCCGGGCAAACCGGAACGGTATGTCGCTCATCATAAACGGGCGGTATATCCGGAACTACGGCTTAATGCAGGCGATATTGAGAGGTTATCATACGCTCCTGCCGATCAACCGGTTTCCGCTTGTCGTCATTCAGCTGTCCATGCATCCTTCGTTGATCGATGTGAATGTGCATCCTTCCAAGCTGGAGGTGCGGTTCAGCAAAGAGCAGGAGCTGTTCGCTTTCGTGGAGGAAGAGGTTCGCAAGGTGCTGCAGCAGGAAATCCTCATTCCGCGTCCGGCCAAACAGAATATCGGTAAAAGCGACAATGCTTATATCCAGGAACAGCTGTCATTTCCACAGGCGCAGGGCCATGTCGGAGCGGCCCGCGGCGGGCAAGATCGGGATCTCGAGATCCCAGGCAGCGGTGATCGATCCGCGGGAGGAATCACGCCGCCTCCAACGCCGCCTGCAGCGTGGCCTGACAAGCAGTCCCTTGCGCCGCCCCCATCCGGTACCATGCGTTCTTACGGGGACGGAACAGCAGAAACAGCCGCAGCTTCGCAGATGCGTGAGACGGCCGCTTCGTCTTCGTATCGAAGCGATTACCGCAATGATGCCAAGAACGGTGGAAATCCAGCCGTGACCAAGGAGTGGCTGCAGGCCGTTTCAGGGCCGGCTCCCGAAATCCCGCCTTTTCCGGAGCTAACGCTTATCGGCCAGCATCACGGAACCTATCTCATTGCGCAGAATGATACCGGTCTGTATCTGATCGATCAGCATGCCGCGCATGAGCGGATTAACTACGAGTATTACTACGAGCAGTTCGGCAACCCGGCGGACGCATCGCAGGAGCTGCTCCTGCCGATCACGCTTGAATTCACGTCCTCGGAGTCGGAGAAGGTAAAGGAACGGCTGCATTGGTTCGAGAAGGTCGGCGTTTATATGGAGTTTTTTGGCGGCCATACCTTCCTGGTCCGTTCGCACCCCTTCTGGTTCCCTAAGGGCGAAGAGAAGGCCATCATCGAAGAGATGGCCGAATGGGTGCTGAATGAGCGTACTATCGATATAGCCAAGCTGAGAGAAACCTCATCGATCATGTGTTCGTGCAAGGCTTCCATCAAAGCCAATCAGAAGCTGACGGAACAGGAGGCGATGACGTTGATCCAGCGTTTGGCCGCCTGCCGGCAGCCTTACACCTGTCCGCATGGACGACCGATCGTGGTTTCGTTCTCGGCATACGACTTGGAGAAAATGTTTAAGCGCGTCATGTAA	MGIIRILDEHIANQIAAGEVVERPASVVKELVENAIDAGSTKIDVSVEEGGLDSIRVTDNGAGIDPEDCETAFYRHATSKIAEGRDLFQITSLGFRGEALPSIAAVSKVRLVTSNAQDGRGRKIEIEGGHLRVNEETAAPRGTDFLVKELFYNTPARLKYMKTIQTELGHISDYMYRLALSRPDIAFTLRHNGNSLLQTLGNGDALQVIAAVYGTQSAKAMLPFEAENMDYTLSGYISRPDYTRANRNGMSLIINGRYIRNYGLMQAILRGYHTLLPINRFPLVVIQLSMHPSLIDVNVHPSKLEVRFSKEQELFAFVEEEVRKVLQQEILIPRPAKQNIGKSDNAYIQEQLSFPQAQGHVGAARGGQDRDLEIPGSGDRSAGGITPPPTPPAAWPDKQSLAPPPSGTMRSYGDGTAETAAASQMRETAASSSYRSDYRNDAKNGGNPAVTKEWLQAVSGPAPEIPPFPELTLIGQHHGTYLIAQNDTGLYLIDQHAAHERINYEYYYEQFGNPADASQELLLPITLEFTSSESEKVKERLHWFEKVGVYMEFFGGHTFLVRSHPFWFPKGEEKAIIEEMAEWVLNERTIDIAKLRETSSIMCSCKASIKANQKLTEQEAMTLIQRLAACRQPYTCPHGRPIVVSFSAYDLEKMFKRVM				NA	NA	NA	NA	NA
AK002_02438	780	rsmJ		Ribosomal RNA small subunit methyltransferase J	ATGATCATTACAACTGGAGAAGCGGAAGCGCCGGACATCGTCGAGCGCGCCAAACGTTTAGCCCAGGAAACCGGCTGCCGTTACGTCCAGCGCGGCGGCCATTCATTGCGAAAATTAGCCCGCAGGTTCGGGGACGACGACGTACTGGTCGTACTGAACGGACATGTGCGTTTGAGCGGACCTGGCGGCTCTGTCATGGAATTTCACCCAAGCATGGGCTTTGTCCGATTGAAACGGGTGCTGAACGGAAAACCCGATCCCATGCTGGAGGCATCGGGGATGGAGGAAGGGGACTCCGTTCTGGATTGCACGGCGGGCCTTGGAGCCGACGCCCTGGTATTCTCGGGCAAGGGAGGGGCGAACAGCCGGATCACAGCCCTGGAAAGCTCGCTGCCTTTGTTTGCGCTGCTGAAAGAGGGGCTACGGACCTATGAAAGCCATCTGGAAGCCAGCGATCAGGCGATGCGGCGAATCGAGGTCAGGCACAGCCATCACCTGGATTATTTGAAATCGCTGCCGGACCAAAGCGTCGACATTGTCTATTTTGACCCGATGTTCCGTGAACCGATCACCGACTCGGCTTCCATCAACCCGTTAAGGCACTATGCAAACGGTGAGCCTCTGGATGCGGAAAGCGTGAGGGAAGCGATCAGGGTCGCGCGCAAAACCGTCGTCATGAAGGAAGCGCGGTTCAGCGGAGAATTCGAACGGCTCGGATTTGCACTGCCTGAACGGGGAAAATCCAAAATAACGTACGGAGTGATTTCCATTGACAGATGA	MIITTGEAEAPDIVERAKRLAQETGCRYVQRGGHSLRKLARRFGDDDVLVVLNGHVRLSGPGGSVMEFHPSMGFVRLKRVLNGKPDPMLEASGMEEGDSVLDCTAGLGADALVFSGKGGANSRITALESSLPLFALLKEGLRTYESHLEASDQAMRRIEVRHSHHLDYLKSLPDQSVDIVYFDPMFREPITDSASINPLRHYANGEPLDAESVREAIRVARKTVVMKEARFSGEFERLGFALPERGKSKITYGVISIDR				NA	NA	NA	NA	NA
AK002_02439	948	miaA	COG0324	tRNA dimethylallyltransferase	TTGACAGATGAAACCAAACCGAAGCTGCTGGTTCTCATCGGACCGACAGCGGTAGGCAAAACCAAAATGAGCATTGAAATTGCGAAAGAATTCGGATGTGAGATTATATCCGGCGATTCGATGCAGGTGTACCGGGGCATGGATATTGGCACGGCCAAAATTTCCGCGGAGGAAATGGATGGCGTGCCCCACCATCTCATTGACATTCACGAGCCTGATCACCCGTACTCGGTGGCCGAATTTCAAGAGCAATGCCAGCGGCTGATCGCCGAGATCACGGAACGGGGGAAGCTTCCGTTCATCGTTGGCGGAACCGGGCTTTACGTAGAGTCGGTATGCTACGGTTATCAGTTCAGCGAGACCGGAGCGGATGAAGTTTTTCGGGAGGAGCAGTTCCGCTACGCCAATGAACATGGAGCAGAGGCTCTCCATCAGAAATTGGCAGAAGCCGATCCTGAAACTGCCGAACGGCTTCACCCTAACGACCTACGCCGGGTCGTTCGTGCTTTGGAAGTATTTCATGTGACCGGCGTCCCACTTTCGGCCCAGCTGGCGCCTCAAACCAAGCAGTCTCCCTATGACTTATGCTTGGTCGGTTTGACAATGGACAGGCAAATGCTATATAACCGTATTGAAGAGCGAATTGACCTTATGCTGAGCCAAGGACTTGTTGATGAGGTGGCGGCGCTCATGGACAAAGGGTTCGCTCCGGGGCTAGTATCCATGCAAGGGCTGGGTTACAAGGAAATCGTGTCGTACCTTAAAGGGGAGTTCAGCTACGAGGAGGCCGTCGTGCTGCTTAAGCGCGATACGCGCCGTTTCGCTAAGCGGCAGCTATCTTGGTTTCGCCACATGAAGGACATCGAGTGGGTAGACGTCACCGACTCGGGAAATTTTTCTGCTAACTATCAAAAAATCCGTGCTATAATAGCAGGAAAGTTTCACTGA	MTDETKPKLLVLIGPTAVGKTKMSIEIAKEFGCEIISGDSMQVYRGMDIGTAKISAEEMDGVPHHLIDIHEPDHPYSVAEFQEQCQRLIAEITERGKLPFIVGGTGLYVESVCYGYQFSETGADEVFREEQFRYANEHGAEALHQKLAEADPETAERLHPNDLRRVVRALEVFHVTGVPLSAQLAPQTKQSPYDLCLVGLTMDRQMLYNRIEERIDLMLSQGLVDEVAALMDKGFAPGLVSMQGLGYKEIVSYLKGEFSYEEAVVLLKRDTRRFAKRQLSWFRHMKDIEWVDVTDSGNFSANYQKIRAIIAGKFH	PGPT0007210_2385	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
AK002_02440	240	hfq	COG1923	RNA-binding protein Hfq	ATGAACAAGTCCATTAACATCCAAGACACGTTCTTGAACCAACTGCGCAAAGAGAACATTCCGGCCACGGTATACCTTACAAACGGCTTTCAGATCCGTGGAACGATCAAAGCTTTTGACAATTTTACCATCGTGATTGACAGCGACGGCCGTCAGCAAATGGTGTACAAGCATGCTATCTCCACGTTCATGCCGCAGCGTAATGTGTCCCTGATGCAGGATAACAACAGCGAACAATAG	MNKSINIQDTFLNQLRKENIPATVYLTNGFQIRGTIKAFDNFTIVIDSDGRQQMVYKHAISTFMPQRNVSLMQDNNSEQ	PGPT0025560_1523	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-AI1|AI-2|CAI-1_PERCEPTION|SIGNALLING,PGPT0025560-hfq-K03666	NA	NA
AK002_02441	2670	mtgA_2		Biosynthetic peptidoglycan transglycosylase	ATGGCTGGAAAAGATAATCAGATGTCTCGGTTGAATAAAAACAAAGACAACTCGAAGACATCCAAAACCACGAAACCGAATGCAAAGAAGAAAAAGGGCAAGGGCAAGCGAATTGCATGGGCGTTGTTTTTCACGGCCGTCATTGCGATCTTCTGCGCGCTTGCAGGTTATTTGTTCATCCTGATCAGCGGAGAAAAGCTGCTGGAACAGAATCAGGATAAACTGACCGCTTACGGTACTTCCAAAGTATATGACCGCAACGGCACGCTGATGGGCGAGTTGTCCCTGCAGAAGAGCGATCCCGTGAAGTACGAGGATATCCCGGAGAAATTGATACAAGCATTCATTGCAACTGAAGATAAACGGTTCATGGAGCATAACGGCGTGGACATGTGGTCGATCGGCCGTGCAGCAGTAAAGGATATCATGGCCCGGTCCATGGTGGAAGGCGGAAGCACGATCACGCAGCAGCTGGCGAAGAATATATTCCTGACCCGGGACAAAACATTCTTCCGAAAGGCGACTGAAATGTCGATCGCGCTGGCGCTTGAGCGTCAGCATAGCAAACAGGAAATTATCGAGATGTATTTGAACCGGATTAACTTCGGTGGACCTTATTACGGCATCAAAGCCGCATCCGAGCGTTATTTCGGCAAGTCGGATCTGAAAGAGCTGGATTTATGGGAAATGGCGACGCTTGCGGCAATGCCGAAAGGGCCGTCCCGCTATAATCCGCTCAAGAATCCCGACCTTTCCAAAGAGCGGCGCGCGGTCGTCCTTACCCTGATGGAACAACAGGGATATATCACGGCCGAAGAGGCAGCGGAAGCCAAGAAGGTGGACTATGCCTATACGCCGCCTGAAAGACAGCAGAAGTATACGGCGTTTATCGATTATGTCATGGAAGAGGCCGAAGAGAAGTGGGGCCTTACCGAGGATGACGTTAACATTGGCGGTTATCAGATTTATACCACGATGGACGTGAATGCCCAAACGGCCATGGAAGAGGAATTCAATAATCCGGCAAACTTCGAAGAAAGTCCGGATGACGTGCAGGTTGAAGGATCCATGGTCATCATTAACCAAGAGACCGGCGGGATCGTCGCCATGGTCGGCGGTCGGGAGTATACGCGCGGCGGGTTCAGCCGGGCTACCGACAGCCGTCGTCAGCCGGGCTCCGCTTTGAAGCCGATTGTATCCTACGCGCCGGCTCTCGAATCCGGCAAATTTACGAAGGATTCGAGACTCAGCAACAAGAAGCAGTGTTTCGGCAGCAATTACTGTCCGAATAACCTGCACGGTTACTCGGAGACAATCGGCATGCCGGAAGCGATTCAGCGTTCCGAGAACATCCCGGCCGTATGGCTGTTGAACGAAATCGGCGTGAAAACCGGATTTGATTTCGCGCAAAGCCTCGGCATCAAGATGTCCGAAGGGGATGCGAACCTATCCTTGGCCCTGGGCGGCATGGATACCGGTACGAACACCTTTGAGATGGCTCAAGCTTTCAGCGCTTTTGCCAATGGCGGAGAATTCAAAGAGGCTTTTGCGATCAAACAAATTAAAGACAACAAAGGCAAGGTTGTGCATGAGAACAAAGGCAGCAAAGGGAAGCGCGTGATGAGCGAGACGACGGCTTCGCAAATGACGGATATGATGCGCCGCGTCGTAGAGGACGGAACGGGTAAGAATGCCCGGATCAGCCGTCCGGTAGCCGGTAAGACGGGAACCACGCAGAGCGGCTACAAGGGCGTCAGCTCGAACCGCGACGTATGGTTTGTCGGTTATACGCCGGAATTAACGGCAGCTGTATGGATGGGTTACGATAATCCTGACCGGCAGCATCTGCTGAAACGAAGCAGCTCGATCTCTGCTTCCTTATGGGGCAAAGTGATGGAGAAGGCGGTTCAAGGCTATGAGGCGAAGAATTTCCCGAATGTCGAGCCGGTACAGCCCCCTGTAGAAGAACCGGCATTAAGCGCAGTCAGCGGTTTGACGGGCTCTTATAACGGGGAGACCCAGACCGTATCACTGAGCTGGAATCCGGTTCAAGGCAATGTTCAGTACCGCATATACCGTAAGGAAACGTCCGAGTCCGAGTACTCGCGCATTCTCGATTCTCTGGGCGGAACCTCCATTGAGGATATGAGTGCGATGGAAGGATTGACATACGATTATTACGTAACGGCATTCGATCCATCAACCGGCGATGAATCGGAACCTTCGAACATTCTGCAGATCGTGGCTGTTTCCGAGGAATTGCCGCCTGAGGATCTGGAACCGGATCCGGGAGACACTCAAGAACCGCCTCCGGTGGATGAAGGTGAGAACGGGGAAGGGAACGAGATGCCGGGTAATGAGAATGGGAACGGCAACGGGAATGGTAACGGGAATGGCAACGGTTCGGGCGAACCGGGCAATGGCGAAGGCCATGGGAATGGAAACGGAAACGGATCGACTCCGCCTGACAATGGAAACGGAGCTGGGAACGGTCAGGATGGCCAGAATCCCGGCGACGGAACGGATGGCTCAGGAGATGGAACGAGCATCGGTGACGGTGGCACGGGAGGAACTGACACGGATAGCGGCAATATCCCTACGGTTCCGGGAACGATCGTGGATCCGTCGGATCCGGCGAACGCGCCTGACCAGTCCCAAGACAGCCCATAA	MAGKDNQMSRLNKNKDNSKTSKTTKPNAKKKKGKGKRIAWALFFTAVIAIFCALAGYLFILISGEKLLEQNQDKLTAYGTSKVYDRNGTLMGELSLQKSDPVKYEDIPEKLIQAFIATEDKRFMEHNGVDMWSIGRAAVKDIMARSMVEGGSTITQQLAKNIFLTRDKTFFRKATEMSIALALERQHSKQEIIEMYLNRINFGGPYYGIKAASERYFGKSDLKELDLWEMATLAAMPKGPSRYNPLKNPDLSKERRAVVLTLMEQQGYITAEEAAEAKKVDYAYTPPERQQKYTAFIDYVMEEAEEKWGLTEDDVNIGGYQIYTTMDVNAQTAMEEEFNNPANFEESPDDVQVEGSMVIINQETGGIVAMVGGREYTRGGFSRATDSRRQPGSALKPIVSYAPALESGKFTKDSRLSNKKQCFGSNYCPNNLHGYSETIGMPEAIQRSENIPAVWLLNEIGVKTGFDFAQSLGIKMSEGDANLSLALGGMDTGTNTFEMAQAFSAFANGGEFKEAFAIKQIKDNKGKVVHENKGSKGKRVMSETTASQMTDMMRRVVEDGTGKNARISRPVAGKTGTTQSGYKGVSSNRDVWFVGYTPELTAAVWMGYDNPDRQHLLKRSSSISASLWGKVMEKAVQGYEAKNFPNVEPVQPPVEEPALSAVSGLTGSYNGETQTVSLSWNPVQGNVQYRIYRKETSESEYSRILDSLGGTSIEDMSAMEGLTYDYYVTAFDPSTGDESEPSNILQIVAVSEELPPEDLEPDPGDTQEPPPVDEGENGEGNEMPGNENGNGNGNGNGNGNGSGEPGNGEGHGNGNGNGSTPPDNGNGAGNGQDGQNPGDGTDGSGDGTSIGDGGTGGTDTDSGNIPTVPGTIVDPSDPANAPDQSQDSP	PGPT0023895_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0023895-pbp2A-K12555	NA	NA
AK002_02442	558			hypothetical protein	ATGAAACGTAAATTCGGAGATCGGGCGAATTGGCGCCGTATCACCCGCCGACACTTCACTTCCCGGTATGTGGAATGTGAGCAATTTACAGGGTATCTCACGTTATATACCATCTATGGCCTGAAAGAACCGTTGTGGAAGACATATGGCCGTCATACTTACCGAATCGCGGACAAAGGCTATTCATGGCTGCAGTATTATCCGAAGGACAGCCATTTCATCGTTACGGCCATGTTTGACGACAAGCGGAATATTGTTCAATGGTATATCGATATTTGCAAGAAGCAAGGTGTAACCGATCAGGGCGTCCCATGGTTTGACGATCTATACCTGGACGTTGTGGTCGTCAAGAATGGCGAAGTGTTCTTGCTGGATGAAGATGAGCTTGAGGATGCCCTGCGCCGGAATGATATTACCCGGGATGATTACAGGCTTGCCAAGGTGACTGCACGAAACTTGCTTCGGGCCATCGACGCACATGAATTTCCTTACTTTATGATGTCGCTGAAGCATCGCGACCAGTTATTTCATAACGGAGAGTTCAGGAGGAAGAAATAA	MKRKFGDRANWRRITRRHFTSRYVECEQFTGYLTLYTIYGLKEPLWKTYGRHTYRIADKGYSWLQYYPKDSHFIVTAMFDDKRNIVQWYIDICKKQGVTDQGVPWFDDLYLDVVVVKNGEVFLLDEDELEDALRRNDITRDDYRLAKVTARNLLRAIDAHEFPYFMMSLKHRDQLFHNGEFRRKK				NA	NA	NA	NA	NA
AK002_02443	654			hypothetical protein	ATGCGTCAGGAAATACATAAAGGCCTGCCGACCGCAGGCACAAGAAAGAGAGCGTGGTATCGGCGAGGGATCTATACCCTGCTCTCGCTCGTCGTTCTCGGAGTTTTTTGGTCAGGTTATGCGTATTGGAAAATCGAAAGCGCCGTCAGCAGACCGGCGGAGAATGCGGACGTCGGCATCATTTTGGGCGCCTCCATGTGGGGAGATCAACCAAGTCCCGGCCTTCGCGAACGCCTTGAGCATGCGCTGGTTGAATATAATGCCGGTCGATTCGATACCTTCATTGTTACAGGCGGTCTGGATAAACCGGAGTATAACTATACCGAAGCTGAGGGGATGAGAAACTTCCTGGTCGAGGCAGGGGTGCCCGAAGAACGAATCTTCCTTGAGAACGAAGCTACGAGCACTTACGAGAATTTGCTATACAGCCAAGCGATCATGGAGGAGCACGGGTGGAGCACCGCTATCATTGTAACCCATGATTATCACGGGACGAGGGCCATGGAGGTCGCAACGGCCCTTGGCTACGATCAACCCTCGATGTCGCTGACGGAATCTACCGTTCTGCCCATGGCCAAGCACAAGTCCCGGGAAGTGCTGGCTTATACGAAATGGACGGCCGATCGGCTGTTGATCGCCATGGGTGTCCTATGA	MRQEIHKGLPTAGTRKRAWYRRGIYTLLSLVVLGVFWSGYAYWKIESAVSRPAENADVGIILGASMWGDQPSPGLRERLEHALVEYNAGRFDTFIVTGGLDKPEYNYTEAEGMRNFLVEAGVPEERIFLENEATSTYENLLYSQAIMEEHGWSTAIIVTHDYHGTRAMEVATALGYDQPSMSLTESTVLPMAKHKSREVLAYTKWTADRLLIAMGVL				NA	NA	NA	NA	NA
AK002_02444	984	spoVK	COG0464	Stage V sporulation protein K	ATGAACGGGCGTGTAACGGCCGCTAACGGCCGATCTGAAGGACGGCCATCCCGGCAGATAAATGTCGTGCTCCGCAGCGCGGAACCCCCACTCATCAGCAGTGCGGTTCCGGAACGCGAACCGGCCCCTTCGCCGAACCCTGTTTCCCAGCACAGTCTATTCCAAGAAATACAAAAAGAGCTGGATCAGCTGGTAGGTCTCGAACAGATCAAGGACCTGGTGTTTGAAATCTATGCTCTGCTTCAAGTAGCCCATATGCGTTCGGAAGCAGGCTTATTAAGCGGCGGTCATGTATACCATATGATTTTCAAGGGAAATCCCGGTACGGGCAAAACGACGGTCGCCCGCATCGTAGCGAAGCTGTTTCAGAAGATGGGCGTGCTGAATAAGGGCCACCTGGTCGAAGTGGAGCGGGCGGACCTCGTAGGCGAATATATCGGCCACACGGCACAAAAGACCAGGGAACTGGTCAAGAAGGCGTTGGGTGGCATTTTGTTCATCGACGAGGCCTACAGCCTCGCGCGCGGGGGAGAGAAGGATTTTGGCAAGGAAGCGATCGATACGCTTGTCAAAGCCATGGAGGATCATAAAAACCAGTTCATTCTAATTCTGGCGGGTTACAGCGACGAGATTGATTTTTTTATGGATACGAATCCCGGTTTGCATTCCCGTTTTCCGATCCAGATGGACTTCCCGGACTACAATCTGGATCAATTGATCCAGATTTCGGAGCTGATGGCGAAGGAGAGAGACTACATCTTGATGCCGCAGTCGCTGAGCAAGCTGAAGGATCACCTGCAGCTTGAGAAGGAACACGGGCTGCACGCCTTCAGCAACGCGCGTTATGTACGGAATGTGATCGAGAAATCGATAAGGAATCAATCGGTTCGGCTGTTGAATCAATACGTAACGGGCAACCCGGGCAAGCTGGAGCTTATGACCCTGCGGCCGGAGGACTTTAAGTTAAACGGAAAATTACAATGA	MNGRVTAANGRSEGRPSRQINVVLRSAEPPLISSAVPEREPAPSPNPVSQHSLFQEIQKELDQLVGLEQIKDLVFEIYALLQVAHMRSEAGLLSGGHVYHMIFKGNPGTGKTTVARIVAKLFQKMGVLNKGHLVEVERADLVGEYIGHTAQKTRELVKKALGGILFIDEAYSLARGGEKDFGKEAIDTLVKAMEDHKNQFILILAGYSDEIDFFMDTNPGLHSRFPIQMDFPDYNLDQLIQISELMAKERDYILMPQSLSKLKDHLQLEKEHGLHAFSNARYVRNVIEKSIRNQSVRLLNQYVTGNPGKLELMTLRPEDFKLNGKLQ	PGPT0024835_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024835-spoVK-K06413	NA	NA
AK002_02445	1293	hflX	COG2262	GTPase HflX	ATGACAAATATAACGCATGATACCCGGACAGAGATCGAAGATAAAGCCGTTCTGGTCAGTTTGGTAACGGACGCGGTTAAACGCACCGGGATTAATCCGGAACACTCGCTGCAGGAGCTGGTTCAGTTGGCCGAAACCGCTGGAGTAGAGGTGCTGGATGTCATTACGCAAAATCGGGAAGTGCCGGATTCCAAGTGGTTCATCGGCAAAGGGAAAGTCGAAGAGCTGCGCATGGCGATTGATGGATTAGGCGCAACCACGGCCATATTCGACCAGGAATTATCCGGGGCGCAGGTTCGAAATCTGGAAGAATCGCTTGATGTCAAGATTATCGACCGGACTCAATTGATTCTGGACATTTTCGCGCAGCGGGCGAAAACGCGTGAGGGAATCATCCAGGTGGAGCTGGCCCAGCTTACGTACCTGCTCCCGAGGTTATCGGGACATGGCAAAAATCTGTCCAGGCTCGGAGCGGGAATCGGGACGCGCGGACCGGGGGAGAGCAAGCTCGAAACCGACCGCAGGCATATTCGCGACAGAATCAGCGACCTGAAGCGGCAGCTGGATGAAGTCACCCGGCACCGGACGCTCCATCGGGAACGCCGAAAGAAGAGCGGGGCCGTGCAGGTTGCGCTTGTCGGTTACACCAATGCCGGCAAATCGACTTTGTTGAATCGGTTAACGGCCGCGGACGTTTACATCGAAAATCAATTGTTTGCGACGCTGGATCCCACTTCGCGCGTGCTGGAGCTGCCAAGCGGCAAAGAAGTCGTGCTTACGGATACCGTAGGATTCATACAGAATCTTCCCCATGATCTGGTGGCTGCGTTCCGTGCGACGCTGGAAGAAGCCAACGAAGCCGATCTGATCCTTCATGTCGTGGATGCTTCTTCACCTATGCGGGACGAACAGATGGCAGTGGTTCAGTCCATTCTTCAGGATTTGGGAGCCGCCGATAAACCTCAAATCGTCCTGTTTAACAAAAAGGATGCATGTGAGCCGGGCCAGCTGGAAATGCTGCCGACGGGAGAGGGGCAATTGAAGATCAGCGCGTACGTTGATGAGGATTTGGAATCGGTCCGCGAAGCGATTCAGGACCGGCTCTCCGGAGGCAACGTCACGTTCCGGATTCCGGCCGACCGCGGCGATTTGAACTCGGTCGTATACCGGGTCGGAGACGTGCTGGAGCAGTCTTTTGACGAGAATGATATCCTCTATGTGGTTCGGATCAATAAAGCGGATTATGAAAAGATGGGTTATTTGCTTCATGATTACGTTCAGAATGGATCTTAA	MTNITHDTRTEIEDKAVLVSLVTDAVKRTGINPEHSLQELVQLAETAGVEVLDVITQNREVPDSKWFIGKGKVEELRMAIDGLGATTAIFDQELSGAQVRNLEESLDVKIIDRTQLILDIFAQRAKTREGIIQVELAQLTYLLPRLSGHGKNLSRLGAGIGTRGPGESKLETDRRHIRDRISDLKRQLDEVTRHRTLHRERRKKSGAVQVALVGYTNAGKSTLLNRLTAADVYIENQLFATLDPTSRVLELPSGKEVVLTDTVGFIQNLPHDLVAAFRATLEEANEADLILHVVDASSPMRDEQMAVVQSILQDLGAADKPQIVLFNKKDACEPGQLEMLPTGEGQLKISAYVDEDLESVREAIQDRLSGGNVTFRIPADRGDLNSVVYRVGDVLEQSFDENDILYVVRINKADYEKMGYLLHDYVQNGS	PGPT0007245_2658	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
AK002_02446	1281			hypothetical protein	GTGTATAAGAGGAGAGAGCAGTTCGTCATGGCAAGATTTTCGCAAGATATACTTGAATTGAGCAGTGAGATTGAGTCCAAAATCAGTCGGCGTATACGGGAGATTGACACCATTGTTGATTTTAATCAGTGGAAGGTCATCGATGCTTTCCAGAAGTTTCAGGTGAGTGATTTCCATTTTGCGGGTTCCACCGGCTATGCCTATAATGATCGTGGCCGTGAAGTGCTGGATGAAGTTTACGCTGACGTATTCAGAGCCGAATCGGCCCTGGTCCGGCCCCATTTTGCTTCGGGAACCCATACGATCTCGACGGCATTGTTCGGTGTATTAAGACCGGGAGATGAGCTGCTTTACATTACAGGACGTCCCTACGACACGCTGCATAAAGTCATTGGCGAGCCCGGGGACGGCACCGGATCGCTGCGCGATTTCGGTATCGGCTATCGTGAGGTGGCGCTGACAGAAAAAGGGGACATTGATTGGGAGCGGGTCGAGAGTGCCATCGCGCCTTCAACGAAAGTTATCGGTATCCAGCGTTCCCGGGGATATGATTGGCGGTCTTCGTTTACCGTTGCCCAGATTGGCGAGATGGTTAGCCGTATACGGTCCATTCGCGAGGATGTAATCGTGTTTGTGGATAACTGCTACGGTGAGTTTACGGAGCGTCTGGAACCGACGGAGGTCGGCGTTGATCTGCTGGCTGGTTCTCTAATCAAAAATCCTGGCGGAGGCATTGCCGAAACCGGCGGCTACATATGCGGCAAAGCAGCCTATGTCGAGCAGGCGGCGTATCGGCTGACTGCACCCGGAATCGGACGTGAAGTCGGGGCTATGCTGGGAACAACCCGAGGAATCTATCAGGGCTTATTCCTGGCACCTTCCACCGTCGGGCAAGCCATCAAGGGAAGCGTCTATGCCGCCGCGATGTTTGAAGCCGTGGGATTTACGACCAAGCCGGGCTGGCAGGATGAGCGTACCGATTTGATCCAGGCGGTATCTTTTAGCGGAGCGGAACATCTGATCGCTTTTGTTCAAGGGATTCAACGGGCCGCTGCCGTGGACAGCCATGTGGTTCCCGAACCTTGGGATATGCCGGGATATGAGCATCCGGTGATCATGGCGGCAGGCACGTTCATTCAGGGAGGAAGCCTGGAATTGTCCGCGGATGCGCCTATCCGTTCACCATATATCGGCTACATGCAGGGTGGTTTGACGTATTCTCATGTTAAATATGGGGTACTTATGGCACTCCAAAGCATGAAAGATCGTAAACTATTGTAA	MYKRREQFVMARFSQDILELSSEIESKISRRIREIDTIVDFNQWKVIDAFQKFQVSDFHFAGSTGYAYNDRGREVLDEVYADVFRAESALVRPHFASGTHTISTALFGVLRPGDELLYITGRPYDTLHKVIGEPGDGTGSLRDFGIGYREVALTEKGDIDWERVESAIAPSTKVIGIQRSRGYDWRSSFTVAQIGEMVSRIRSIREDVIVFVDNCYGEFTERLEPTEVGVDLLAGSLIKNPGGGIAETGGYICGKAAYVEQAAYRLTAPGIGREVGAMLGTTRGIYQGLFLAPSTVGQAIKGSVYAAAMFEAVGFTTKPGWQDERTDLIQAVSFSGAEHLIAFVQGIQRAAAVDSHVVPEPWDMPGYEHPVIMAAGTFIQGGSLELSADAPIRSPYIGYMQGGLTYSHVKYGVLMALQSMKDRKLL				NA	NA	NA	NA	NA
AK002_02447	411	glnR	COG0789	HTH-type transcriptional regulator GlnR	ATGGGTGATGAGATTCGGAGGAATATGGCGTTATTTCCGATAGGCATTGTTATGAAGCTTACGGATCTATCTGCCAGACAAATTCGCTATTATGAGCAGCATAATTTAATTGTCCCAGCCCGTACGTCGGGCAACCAACGCCTGTTTTCCTTCAATGATGTGGAGCGACTGCTAGAGATTAAGGCTTTGATTGAAAAAGGCGTGAACATTGCCGGCATTAAACAAGTCATGAACCCGGTCACGAAAGAATCTGAAGAGGCTACCGTCATTACGCCGGATACGGAGAACAGACGCCGTGAGATGTCGGAGTCGCAGCTGCGCCGTTTGCTGAAGCAGGAATTGATTACCGCTAAAAGACCGGGTCAGGTTTCATTGATTCAAGGGGAATTATCCCGGTTTTTTAATAAATAA	MGDEIRRNMALFPIGIVMKLTDLSARQIRYYEQHNLIVPARTSGNQRLFSFNDVERLLEIKALIEKGVNIAGIKQVMNPVTKESEEATVITPDTENRRREMSESQLRRLLKQELITAKRPGQVSLIQGELSRFFNK	PGPT0001015_34	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0001015-glnR-K03713	NA	NA
AK002_02448	1329	glnA_1	COG0174	Glutamine synthetase	GTGAGTTATACCAGAGAGGACATTCTACGCATCGCCAAAGAAGAAAATGTTCGATTTATCCGCTTGCAATTTACAGATTTGCTGGGAACGATCAAAAACGTTGAAATTCCGGTAAGCCAGCTGCCTAAAGCGCTTGATAATAAAATGATGTTTGACGGTTCTTCCATCGAAGGGTATGTGCGTATCGAGGAATCCGATATGTACCTGTACCCGGATCTGGATACCTTCATGATCTTCCCTTGGGTATCCGAGGATCGCGTCGCACGTCTGATCTGTGATGTTTACATGCCGGACGGCACCCCATTTGCGGGAGATCCGCGCGGCATTCTGAAGAGAGCACTGAAGGAAGCCGAAGAGATGGGCTTCACTTCCATGAATGTCGGTCCGGAGCCGGAATTCTTCCTGTTCAAAACCGACGAAAAAGGCAATCCGACCATGGAGCTGAATGACCAGGGCGGATACTTTGACCTGGCGCCTACGGATCTCGGCGAGAACTGCCGCCGTGACATCGTGCTGACGCTGGAAGAGATGGGCTTCGAAATCGAAGCTTCTCACCACGAGGTTGCGCCTGGCCAGCACGAAATCGACTTCAAGTACGCAGATGCGATCAAAGCGGCTGACCAGATTCAAACCTTTAAATTGGTTGTTAAGACGATCGCTCGTCAGCATGGTCTGATCGCAACGTTTATGCCAAAACCGCTATTCGGCGTAAACGGCTCCGGCATGCACTGCAACCAATCGCTCTTCAAAGGCAGCGAGAACGCGTTCGTTGATGAGAGCGACGAGCTTGGCCTGAGCGTAACGGCTCGGAACTATATGGCGGGTATTCTTAAGCACGCACGCGCGTTTGCTGCGATCACGAACCCGACGGTGAACTCGTACAAGCGTCTCGTGCCTGGTTACGAAGCACCTTGCTACGTAGCATGGTCTGCAAGTAACCGCAGCCCGATGATTCGTATTCCAGCATCCCGCGGACTGAGCACGCGCATCGAAGTGCGTAACCCGGATCCGGCTGCGAATCCGTATCTGGCTCTGGCTGTCATGCTGAAAGCTGGCTTGGACGGCGTTAAGCGTGAGCTGTCGCTTCCGGCACCGATCGACCGCAACATCTACGTGATGACGGAAGAAGAGCGCATTGAGGAAGGCATCCCAAGCTTGCCGGCAAACCTGAAAGAAGCGCTTAACGAATTGATCCGCAGCGAAGTCATTTCCGATGCACTCGGTGACCATGCGCTGGCTCACTTCTACGAGCTGAAAGAGATCGAATGGGATATGTATAGAACGCAAGTTCACCAATGGGAACGCGATCAGTACATTACGATGTATTAA	MSYTREDILRIAKEENVRFIRLQFTDLLGTIKNVEIPVSQLPKALDNKMMFDGSSIEGYVRIEESDMYLYPDLDTFMIFPWVSEDRVARLICDVYMPDGTPFAGDPRGILKRALKEAEEMGFTSMNVGPEPEFFLFKTDEKGNPTMELNDQGGYFDLAPTDLGENCRRDIVLTLEEMGFEIEASHHEVAPGQHEIDFKYADAIKAADQIQTFKLVVKTIARQHGLIATFMPKPLFGVNGSGMHCNQSLFKGSENAFVDESDELGLSVTARNYMAGILKHARAFAAITNPTVNSYKRLVPGYEAPCYVAWSASNRSPMIRIPASRGLSTRIEVRNPDPAANPYLALAVMLKAGLDGVKRELSLPAPIDRNIYVMTEEERIEEGIPSLPANLKEALNELIRSEVISDALGDHALAHFYELKEIEWDMYRTQVHQWERDQYITMY	PGPT0000645_8885	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
AK002_02449	684			hypothetical protein	ATGAAAAAGAAATATATTCTATTACTCTCAGCGGCAACAATGTTAGGAGGAATGACAATAGGGGTAGGAGCTGCTCCTGCACTAGAAAAAATAAGTGCAAATTTAAATTGGGGAATTAAATATGAGGTTAATGGTGAAGATTGGGTTCCAAAAGATCAATCAGGAAAAAAACTTGCAACAATTACATACAACAACTCAAATTATATCCCTGTAAAAGCTATCTCCGAGGCACTTGGCTCTGTCGTTGAATATGATAGCAAGAATCAAAAAATTATTATCGGAGAAAAACCAGATACAACAATTATAACTAAAGAAGGAATCAAGATTAATAGTACTTCCTTTACCACAAGAGATAAGCAGTACACCGAACATAATGGAAAAGATTACGGTTCTGGTATCGTAATGAGAGAAATTAATAATTCTGAAAAAACGATCATTCTTGAACCAAAAGGAAAATATAAAGTACTAGATCTTTCGTTGTTACCGATTAATATCCGTAATGATATCTCAGTAACGATATATAATGGCAAGACAAAGATAAAAGAACTTATGCTGTCGCCTAAAGATATTGGACAGCATATCGTTATTGATATTAAAGATGCAAACCAAATTGAAGTAAATGTGAAATTTCAGAAAGATATAACAGGGGATGACACTATATTCCTGACAGGTACATATAAATAA	MKKKYILLLSAATMLGGMTIGVGAAPALEKISANLNWGIKYEVNGEDWVPKDQSGKKLATITYNNSNYIPVKAISEALGSVVEYDSKNQKIIIGEKPDTTIITKEGIKINSTSFTTRDKQYTEHNGKDYGSGIVMREINNSEKTIILEPKGKYKVLDLSLLPINIRNDISVTIYNGKTKIKELMLSPKDIGQHIVIDIKDANQIEVNVKFQKDITGDDTIFLTGTYK				NA	NA	NA	NA	NA
AK002_02450	537	sigW_6	COG1595	ECF RNA polymerase sigma factor SigW	TTGGAGCTCGAATACTTGAAGCAGATGACGGCCATGGACAGCCAGACGCTGGATAAAATCATGAATGAATATGGAAATGATGTGTGGAATTATGCGTATTTTTTGACCAAACAGCATGCCTTGGCAGACGATATTGCACAAGAAGCCTTTATTAAGGCCTATTACGGCATACATACCTTTCGCGGTCAGGCGACGCTGAAAACGTGGCTGCTTACGATCACGCGACATACGGCGTTCCGGTACAAACAGGCTTTTTTCTTTCGGAAAGTCATCCTTAAAGACAAGCTTACCGCCAGTTCGTCAAGCCGGTCAGCGGAAGCGGAATATTTGGACGAGCAGTATACGGATGAAATATGGGCAATGATTATGACTTTGCCGAGCAAGCTTAGGGAAGTGTTGGTGCTGGACCTATACTATGAAATGCCGATGCATGAAATTGCGGAGCTGCTTCATATTGCGACAGGCACCGTAAAATCCAGATTGCATCGGGCCAGGAAACAAGTACAAAACTTAATGAAGGAGAAGAACGATGAGTGA	MELEYLKQMTAMDSQTLDKIMNEYGNDVWNYAYFLTKQHALADDIAQEAFIKAYYGIHTFRGQATLKTWLLTITRHTAFRYKQAFFFRKVILKDKLTASSSSRSAEAEYLDEQYTDEIWAMIMTLPSKLREVLVLDLYYEMPMHEIAELLHIATGTVKSRLHRARKQVQNLMKEKNDE	PGPT0014960_10308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_02451	807			hypothetical protein	ATGAGTGAGGATAAACCAGACTGGTACAACCGTGCTAAAAAAGCTCCTTTTTCAAATGAAAAGTTCACGTCCGTAATGAAAGAAAACGTGCATAGGTCCGTGATTTTCACATACAGCAAACCTAAACGTCGAAAATACTTACAAGTTGGATTAGCTGGCGGGTTTATGCTTCTGATTATTTTAATTGCCTTTCAATTGCCTTTTGGCAGTGAGGAACAAGAGAGAGGAGGGACTATGCCTCCTGGTAGGGAGGAGACAATCCGGGCACAAGGCGTAACGGATGAAGGAAGGTTAAACGTTATTGCAGTTGGACAGGAAAAAATAACGACATTGGGTGCGCCGAGCTGCTTCGGTATCGAAACGGATCGGTCGTTTACCGGAAACTACAGCGTGCAGTATAGTACTAACCAAGTTACAAATGAAGTCACTACGCTGGAGGGTCTTACATTTATTCAACCGACATCTGCTCCGGTTGATATGATTCGCCTGCCGTTTCAAGCTGCCGACGTATTTATACTCGCACCGCAATATAGGGACTGTCATGGCATACAAATCTATGCGTTCGCCGTAGAGCATGAAACGGGTAAAGCCGTCCAGCTCCGATTTCAGGATGAGTCCTTGGTATCCTACTTTTCATATTATAGACCAGGTACGGCTCCCGAGGTAAAGGAGAATAAGCTTGTTCTGCAGTCCACCGAGGGACCGGGAGGCGAAGGTTCGACGGATTATGTTTCTGAAAGAATGTATCAATTAGATCTTAGGCAAAATGCGTTAGTTCTAGTGTTGCGTAAGATCGGAACGTTCTAG	MSEDKPDWYNRAKKAPFSNEKFTSVMKENVHRSVIFTYSKPKRRKYLQVGLAGGFMLLIILIAFQLPFGSEEQERGGTMPPGREETIRAQGVTDEGRLNVIAVGQEKITTLGAPSCFGIETDRSFTGNYSVQYSTNQVTNEVTTLEGLTFIQPTSAPVDMIRLPFQAADVFILAPQYRDCHGIQIYAFAVEHETGKAVQLRFQDESLVSYFSYYRPGTAPEVKENKLVLQSTEGPGGEGSTDYVSERMYQLDLRQNALVLVLRKIGTF				NA	NA	NA	NA	NA
AK002_02452	627	lexA	COG1974	LexA repressor	ATGTCGAAAATATCCAGCCGCCAGCTGGCGATCTTAGAGTTTATCCGCAACGAAGTTCGTAGCAAGGGTTACCCGCCTTCTGTCCGGGAAATCGGCGAGGCTGTCGGACTAGCTTCCAGTTCTACGGTCCATGGTCATCTGGACCGTTTGGAGAAGAAAGGCCTGATCCGCCGTGACCCTACGAAACCAAGAGCGATCGAGCTGCTTGGCCAAGAAGAATCCGAGAGCGCGAATCTGTTTACGCACACCATTGCCAGAGTGCCTGTCGTTGGTAAAGTCACAGCAGGCGTTCCGATTACGGCCATGGAGAACATTGAAGATTATTTCCCGCTCCCGCAGCATTATGTAGGCGACGATAAGGTGTTCATGTTGTCTGTAGTCGGCGACAGTATGATTGAAGCCGGTATTCACAGCGGTGACTACGTCATCGTTCGCCAGCAGCAAACCGCGGACAATGGTGACATTGTCGTAGCAATGACAGAAGAAGATGAAGCAACCGTGAAGACCTTCTACAAGGAGAAGGATCATGTACGATTGCAGCCGGAGAATCCTACCTATGAGCCGCTGCGCTTGAACCATGTAACGATTCTCGGGAAAGTGATCGGTCTCTTCAGGGACGTACACTAA	MSKISSRQLAILEFIRNEVRSKGYPPSVREIGEAVGLASSSTVHGHLDRLEKKGLIRRDPTKPRAIELLGQEESESANLFTHTIARVPVVGKVTAGVPITAMENIEDYFPLPQHYVGDDKVFMLSVVGDSMIEAGIHSGDYVIVRQQQTADNGDIVVAMTEEDEATVKTFYKEKDHVRLQPENPTYEPLRLNHVTILGKVIGLFRDVH	PGPT0014895_2383	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
AK002_02453	372			hypothetical protein	ATGTTGAAATACAGTACATACCGCAGCATTTATGAGAACGTTCCGGTGGTAACAGAACAATCATCGAAGACTTGGGGCATTTACTTGAAATCGAAGATAGCTTCGATCCCTTTGAATAAATTGCTGTTCACCCTGCTTATTGTAGCCATCTTTTGGACAGGTGCATATTCCGTTTTTGCCGGGGGGACAGAGAAGCCGACTGGAGAGAAGCAGGTGATCGTTCAATATGGCGATAGCTTGTGGCGAATTGCTTCCCTTCACAAACCTGCGGATATGGATACACGCGTATATCTGGATAGCATACGAAGAATGAACGGATTGAAGGGTCCGGACATACAGGCTGGAGAAGTGCTGTCATTGCCGGTTTGGTGA	MLKYSTYRSIYENVPVVTEQSSKTWGIYLKSKIASIPLNKLLFTLLIVAIFWTGAYSVFAGGTEKPTGEKQVIVQYGDSLWRIASLHKPADMDTRVYLDSIRRMNGLKGPDIQAGEVLSLPVW				NA	NA	NA	NA	NA
AK002_02454	207			hypothetical protein	ATGGACATCGATACTTTGGTAGAACGCATCAATGTATTAGCAAGAAAGAAGAAGAATGAAGGGTTGACCGAGGAGGAGCTCAAAGAACGGGCCGACCTTCGGGAAATATACCTTAACAATATTCGCAGTAACTTTAGACAACAGCTGGAATCGATTGAATGGGTTGATGAAAACGAACAAAAAGGCGGCCCGCGATTAAAGCACTAG	MDIDTLVERINVLARKKKNEGLTEEELKERADLREIYLNNIRSNFRQQLESIEWVDENEQKGGPRLKH				NA	NA	NA	NA	NA
AK002_02455	525			hypothetical protein	ATGTCACGTTCATGGGAAAGAAAAGTCAGCAAAAATATGTCGCAACTTAACAAACAGCGCAAAAAGCAGGGGCTGACCTCGTATCAAGGTTCTGCGATTAATGATAAGCATGACGTGTTTAAGGGACGTAAGTATGTACTTCCGTTAGTGCTTGTTGCATTGGCCGGTTTGTATGCGCTTCTCGGAACGGCAACTTCACAGGCAGCCGGCGGAAGCAATGATGTATTGAATTGGGTTGGCGTCAGCTTGTATATCCTGTTGGCGCTCATGATATTTCTCCGCAAGCCTTATTTGAAGATTGAGCGCGCTTCCGTGTCGACCATGAAGTTCAACCGGGAACGCCGTCTGGCCGTATCCGATATCGAGAAGATCAAATTGGCTTCGGGTTCCGTCGTGATCCAAGGCAAGGGAAAAGCAGGCAACTGGGTGTTCTCCCGTATGATGAATCTTTACGATACCAAAGCCATGGGCGAAAGATTGGAAGAGTTCGCAAAAACTCATCAAATTCCAGTGGAGCACAACTAA	MSRSWERKVSKNMSQLNKQRKKQGLTSYQGSAINDKHDVFKGRKYVLPLVLVALAGLYALLGTATSQAAGGSNDVLNWVGVSLYILLALMIFLRKPYLKIERASVSTMKFNRERRLAVSDIEKIKLASGSVVIQGKGKAGNWVFSRMMNLYDTKAMGERLEEFAKTHQIPVEHN				NA	NA	NA	NA	NA
AK002_02456	792	gph_2		Phosphoglycolate phosphatase	ATGCCGATTGCTGCGGTTTTGTTTGATTTGGACGATACGTTGTTATGGGATGAACGCAGTGTAGAAGAAGCGTTTGAAGTGACATGCCAAGCCGGAGCGGCGGAAACCGGCGTTGATGCCGGCGCGCTTTTGGCCGCGGTGCGGGAGGAAGCAAGAGCATTGTATGAATCCTATGATACTTTTGCTTTTACCAAGATGATCGGAATCAATCCGTTTGAGGGCTTGTGGGCTAATTTTACGGCAGGATCCCAGCCCGAATTCCGAAAGCTGCAAGAATTGGCTCCCGTATATCGTAAGGAATCCTGGCGGCGCGGACTTCATCGCCTTGGCGTTGATAATGAAGCGTTGGCGGAGACGTTGGCAGCGCAATTTGCGGCGGAACGCAGAACAAGACCTTATGTATATGAAGAAACCTTTGAAGTGCTGAAGGAATTGCAGGGTAACGTGAAGCTGCTGCTTCTTACGAACGGAAGTCCGGATTTGCAGCAGGAGAAGCTTGATGGCGTTCCCGAACTGGTCCCTTATTTTGACCACATTATTATCTCGGGTGATTTCGGCAAAGGCAAGCCGGATGTTTCCATATTCAAGCATGCACTTGATCTGTTAGGCGTCGAGGCGGATCAGGCCGTAATGGTGGGAGATAAGCTGACCACAGATATTAAAGGCGGGAATGCCGCAGGACTGCATACGGTTTGGATCAATCGAGTAGACCGGCCTCATGATCCGGCGATTCAGCCGAAGTATGAGATCAAACATTTATCCGAGCTGCATGCTATTGTGGCGTCCTTATAA	MPIAAVLFDLDDTLLWDERSVEEAFEVTCQAGAAETGVDAGALLAAVREEARALYESYDTFAFTKMIGINPFEGLWANFTAGSQPEFRKLQELAPVYRKESWRRGLHRLGVDNEALAETLAAQFAAERRTRPYVYEETFEVLKELQGNVKLLLLTNGSPDLQQEKLDGVPELVPYFDHIIISGDFGKGKPDVSIFKHALDLLGVEADQAVMVGDKLTTDIKGGNAAGLHTVWINRVDRPHDPAIQPKYEIKHLSELHAIVASL				NA	NA	NA	NA	NA
AK002_02457	405			hypothetical protein	ATGACCAGAAAAAAGATGGCCTTTATTGCAGCCATGGTGTTGATGGCGGTTGCGCTTGCCGCATGCAATGACAGTAAGGCGGAACCCAGTGATGATGTGATGGCGGAGCCGATTATCGTAGAGCTCTCTCTGACCCCAGAGAGCATTAAGGCAGGCGAGAAAGTGTTGATCGAAGCGAAGGTAACACAAGCAGGCAGCCCGGTCGAAGATGCAAATGACGTTGAATTCGAAGTGACGCTGGAAGGCGGAGGCGTTCAGGCAAAGGTTCCGGTCAAGCATGATCAAGGCGGGATCTACAAAATGGAGAAAACCTTCGAGGAAGCAGGAACCTATCGCATCGTTTCCCATGTCACGGCAAGAGGGCAGCACTCCATGCCGCTGAAGGAACTGACGGTAACCGAGTAA	MTRKKMAFIAAMVLMAVALAACNDSKAEPSDDVMAEPIIVELSLTPESIKAGEKVLIEAKVTQAGSPVEDANDVEFEVTLEGGGVQAKVPVKHDQGGIYKMEKTFEEAGTYRIVSHVTARGQHSMPLKELTVTE				NA	NA	NA	NA	NA
AK002_02458	537	mtnD	COG1791	Acireductone dioxygenase	ATGGCAGAAATCGTGATTCGCAACACGAACGAACGCATTACTGGGGAAGAAAATGTTCGGGAATTCCTGAATAACCAAGAGGTTGTTTATGAGCATTGGAATATGGATAAACTCCCGGCAGATCTTCAAGAAAATTTCAAGCTGAGTGATGACGATAAGCAGCGTATTTTGGACACTTTTGACGAAGAAATTCGCGACCTGGCTGCAAGACGCGGCTACAAAATTTGGGATGTCATCACGCTTTCCGAGTCCACGCCCAATATAGAGGACCTGCTTAAAAAATTCGAAGAAGTTCACACCCACTCGGAAGACGAAATCCGTGCGATCGTTGGCGGTAAAGGGATCTTCATTATTAAAGGCTCCGACGATGTCGGTTACTTTAACGTAGAGCTTGAGCCGGGCGATGTTATCTCCGTACCGGAAAACACGCCTCATTTCTTCACACTGATGGAGAACAAGCAGATCATCGCGGTTCGTCTCTTTATTGAAGAGAACGGCTGGGTAGCTACTCCGGTAGAAGATCCCCAATTCCAATAA	MAEIVIRNTNERITGEENVREFLNNQEVVYEHWNMDKLPADLQENFKLSDDDKQRILDTFDEEIRDLAARRGYKIWDVITLSESTPNIEDLLKKFEEVHTHSEDEIRAIVGGKGIFIIKGSDDVGYFNVELEPGDVISVPENTPHFFTLMENKQIIAVRLFIEENGWVATPVEDPQFQ				NA	NA	NA	NA	NA
AK002_02459	3441	metH	COG0646	Methionine synthase	TTGAACAAGCCTAGCTTACAAGAAGTGCTTAAAGAACGAATATTAATTCTTGACGGTGCCATGGGCACGATGATCCAGCAAGAGGACCTCTCGGCTGAAGATTTTGGCGGTCCGGAGCTGGATGGCTGCAATGAAATGCTGGTCATTCATCGGCCCGACGTCATTCAAAAAATACATGAACAATATCTTGAAGCAGGTGCCGACCTGATTGAAACCAATACATTTGGCGCAACCTCCGTTGTGCTTGCTGAATACGATATACCTGAACTTGCCCGGGAAATCAACCTGAAAGCGGCTCATCTGGCCCGCGCTGCAGTTGAGAAATATTCCACGCCGGACAGCCCGCGATATGTCGTGGGTGCGATGGGTCCGACAACCAAGACGCTGTCGGTTACCGGCGGCGTGACCTTCGCCGAATTGATCAAGAGTTACGAGGAGCAAGCCGTAGCCTTGATTGAAGGCGGCGTGGATGCCCTGTTGCTCGAAACATCGCAGGATACGCTAAACGTGAAAGCGGGGAGCATTGGGATTCGACAAGCGTTTGATAAGACAGGCGTCACCCTTCCCATCATGATATCCGGCACAATCGAACCGATGGGAACAACGCTTGCGGGACAGAACATCGAGGCGTTTTACATTTCTTTGGAACACTTGAATCCGGTATCCATCGGCCTGAACTGTGCAACGGGTCCGGAGTTCATGCGCGACCATATCCGTTCCTTGTCCGAAATGTCGAGAAGCGCGATCAGCTGTTATCCGAATGCCGGTCTGCCTGACGAGAATGGTCAATACCATGAATCTCCTGAATCGCTTGCCCAAAAAATGGGGGCTTTTGCTGAAAAAGGTTGGCTTAATATCGCAGGGGGATGCTGCGGTACGACACCTGACCACATCCGGGCTTTAAAACAAACGATGGATGGCTTCACCCCACGTCCGCTTGAGGGCGGGCACTTGCCGGCATTGTCCGGCATCGAGCCGGTATATATCGAGCAGGAAAACCGCCCGTATATGGTGGGCGAGAGAACAAACGTTCTAGGTTCGCGCAAATTTAAGCGTTTGATCGTGGAAGGAAAATATGAGGAAGCCTCCGAGATCGCTCGTGCTCAAGTCAAGAATGGCGCCCATGTCATTGATGTATGCGTACAGGATCCGGATCGCGAAGAAGCCGAGGATATGATCCAATTCCTGGAGCTGGTGGTCAAAAAGGTGAAGGTGCCGCTGATGATCGATACAACCGATCCGGCGGTCATTGACTTGGCCCTGCAATATTCGCAAGGGAAAGCGATCATTAACTCCATTAACCTTGAAGACGGCGAGGAGAAATTTGAGCATGTGACTCCGTTGGTGCACAAATACGGCGCTGCGGTCGTCGTAGGGACCATCGATGAGAGCGGTCAAGCGATCCACCGCGACGACAAGCTCAAGGTGGCGCAGCGGTCTTATGATCTCTTGGTGAACAAATACGGCATTTCGCCTGAGGATATTATTTTCGACACGCTTGTATTCCCTGTAGGTACGGGCGACGAGCAGTACATCGGATCAGCCAAGGAAACGATTGAGGGCATTCGCATGATAAAAGAAGCCATGCCCAAAGTGCATACGATCCTCGGCATCAGCAACGTTTCCTTCGGATTGCCGGAAGCGGGCCGTGAAGTGCTGAACTCCGTGTATCTGTACGAATGCACGAAGGCCGGATTGGACTACGCAATCGTAAACACGGAAAAGCTCGAGCGCTATGCCTCCATTCCGGAGGAAGAGCGGCGTCTGGCGGAGGAACTGATTTATCGAACCAATGATGAGACGCTGGCGGCATTCGTCGCCGCGTTCCGGGATAAAAAGGTAGAGAAGAAGGTAAAGGTATCCAATCTGACGCTGGAAGATAGACTTGCCTCTTATGTGGTGGAAGGCTCCAAGGAAGGTCTTATTCCGGATTTGGATGTAGCTTTGACCAAATACGGCGCGCTGGAGATCATTAACGGCCCGCTAATGGCAGGGATGACCGAGGTTGGTCGCTTGTTTAACAACAACGAGCTCATTGTGGCGGAGGTACTGCAAAGCGCCGAAGTGATGAAAGCCTCCGTGGCGTATTTGGAATCCTTTATGGAGAAAAACGAGTCGTCGGTCAAAGGGAAAATCATGCTCGCCACCGTGAAGGGCGACGTCCATGATATCGGTAAAAACCTGGTGGAGATCATCCTGTCCAACAATGGTTACCAAATCATTAATTTGGGTATAAAAGTACCACCGGAGCAAATTATCGAGGCTTACCGTCGGGAGCAGCCTGATGCCATCGGGTTGTCCGGTTTGTTGGTGAAATCGGCGCAGCAGATGGTATCCACCGCCCAGGACTTGAAAAACGCGGGCATTAGCGTTCCGATCATGGTTGGCGGGGCCGCGCTGACGCGGAAGTTCACGAAGACGCGCATCCGCCCCGAATATGACGGAATGGTGCTCTACGCGAAGGACGCGATGGACGGGCTTGCATTGGCCAACCAGCTGAGCGATCCGGTGCTGCGGACCCAAATGGCGGAAGAGATTAAGGCGGAGCAGGAAGCGGATGCAGCGGCACCACAGGTTGTAAAAGTAATGCCGAAGCTGTCAGAAGGACTCCGATCCAAAATATCGACCGAAGCCCCGGTGTATATACCGCCGGATATGGAGCGGCATGTGCTCCGGAATTATCCGATTTCGCACATCCTGCCTTATATCAACATGCAAATGCTGTTGGGACATCATTTAGGCCTGAAAGGATCCGTGGAACAGCTGCTCAAAGCCAATGATCCGAAGGCGGTTTCGCTTAAGGAAACCGTTGACGGTATTCTGGAAGAGGCAGTTCAATCGGGAATCATACAGGCACATGCTATGTACCGTTTCTTCCCGGCGCAGTCGCGAGGAAATGATATTATCATATACGATCCAAAGGATGCATCGAAAATATTGCATACCTTTACGTTTCCAAGACAGCAGGTGGAACCGTATCTGTGTTTGGCGGACTTCCTGAAATCCGTAGACAGCGGGGTGATGGATTACGTCGGGTTCCTGGTCGTTACGGCAGGGCACGGCGTCGGGAAATTGTCCGGGGAATGGAAGGATAAAGGCGACTATCTCCGTTCCCATGCACTTCAATCGGTTGCCCTGGAAACGGCTGAAGGGCTGGCAGAGCGAATTCACCATATGATGCGGGATACGTGGGGATACCCCGATCCGGCAGACATGACGATGAAACAGCGCCTGGGAGCGAGATACCAAGGCATTCGCGTATCCTTCGGATATCCGGCATGTCCGGATCTGGAGGATCAGGAGCCTTTATTCAAATTGATGCAGCCAGAAGATATCGGCGTTCATCTTACCGAAGGTTTCATGATGGAACCTGAGGCGTCGGTATCCGCGATGGTGTTCAGCCATCCGGAGGCTCATTATTTTAACGTGGATAAAGCTTAA	MNKPSLQEVLKERILILDGAMGTMIQQEDLSAEDFGGPELDGCNEMLVIHRPDVIQKIHEQYLEAGADLIETNTFGATSVVLAEYDIPELAREINLKAAHLARAAVEKYSTPDSPRYVVGAMGPTTKTLSVTGGVTFAELIKSYEEQAVALIEGGVDALLLETSQDTLNVKAGSIGIRQAFDKTGVTLPIMISGTIEPMGTTLAGQNIEAFYISLEHLNPVSIGLNCATGPEFMRDHIRSLSEMSRSAISCYPNAGLPDENGQYHESPESLAQKMGAFAEKGWLNIAGGCCGTTPDHIRALKQTMDGFTPRPLEGGHLPALSGIEPVYIEQENRPYMVGERTNVLGSRKFKRLIVEGKYEEASEIARAQVKNGAHVIDVCVQDPDREEAEDMIQFLELVVKKVKVPLMIDTTDPAVIDLALQYSQGKAIINSINLEDGEEKFEHVTPLVHKYGAAVVVGTIDESGQAIHRDDKLKVAQRSYDLLVNKYGISPEDIIFDTLVFPVGTGDEQYIGSAKETIEGIRMIKEAMPKVHTILGISNVSFGLPEAGREVLNSVYLYECTKAGLDYAIVNTEKLERYASIPEEERRLAEELIYRTNDETLAAFVAAFRDKKVEKKVKVSNLTLEDRLASYVVEGSKEGLIPDLDVALTKYGALEIINGPLMAGMTEVGRLFNNNELIVAEVLQSAEVMKASVAYLESFMEKNESSVKGKIMLATVKGDVHDIGKNLVEIILSNNGYQIINLGIKVPPEQIIEAYRREQPDAIGLSGLLVKSAQQMVSTAQDLKNAGISVPIMVGGAALTRKFTKTRIRPEYDGMVLYAKDAMDGLALANQLSDPVLRTQMAEEIKAEQEADAAAPQVVKVMPKLSEGLRSKISTEAPVYIPPDMERHVLRNYPISHILPYINMQMLLGHHLGLKGSVEQLLKANDPKAVSLKETVDGILEEAVQSGIIQAHAMYRFFPAQSRGNDIIIYDPKDASKILHTFTFPRQQVEPYLCLADFLKSVDSGVMDYVGFLVVTAGHGVGKLSGEWKDKGDYLRSHALQSVALETAEGLAERIHHMMRDTWGYPDPADMTMKQRLGARYQGIRVSFGYPACPDLEDQEPLFKLMQPEDIGVHLTEGFMMEPEASVSAMVFSHPEAHYFNVDKA	PGPT0008135_2495	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008135-metH-K00548	NA	NA
AK002_02460	927	rnz	COG1234	Ribonuclease Z	ATGGAACTCTATTTTCTAGGAACAAATGCGGGGGTTCCGACGCTGCAGCGTAACGTGACCTCGATTGCACTGCGAATGCTGGAAGAACGAAGAAGTCTGTGGCTGTTTGATTGTGGAGAAGGCACGCAGCATCAAATATTAAAGTCTCCGCTCAAGCTGTCCAAGCTTGAAAAGGTATTCATTACCCATATGCATGGTGATCATGTATTCGGCTTGCCAGGTTTGCTATCCAGCCGAGGTGCCCAAGGGGTAACATCACCCCTGACGATATATGGTCCCCCAGGCATTAAAGTCTTCATTGAAACTACGCTCAGCATCAGCCAATCGCGCGTTCCTTATACGATGGAGGTCATTGAGCACACCGGTGGCGTGTTGTTTGAGGACGAAAACTTCCTCGTGGAATCGGCCAAGCTGGATCACAGGGCCGAGAGTTACGGCTACCGTGTCGTGGAGAAGGATCTCCCCGGCAGTTTGGACCTGAAACGGTTGGCGGACTATGGACTCAAGCCAGGGCCGCTCTATGGCAAGCTGAAAAGAGGGGAAAGCGTGGAACTCGGCGACGGCCGATGGATTCATGCCTCGGATGTGCTCCTGACACCGAAAAAAGGGAGGGTGGTCACGATTCTCGGGGATACGCGGCCATGCGCAGGCGTGGAGGCTTTGGCCAAGGACGCGGATCTCCTGGTCCATGAGGCCACGTTCATGGAGGATCTGGCGGAACTGGCGCACGAATACTATCACAGTACCGCCAAACAGGCGGCGGAAGCGGCTAAACGGGCTGGGGTAAAAGCGCTGTTCTTGACCCACTTCAGCTCCCGGTATAAGGATATCGATCATTTGCAGCCGCTGCTCAACGAAGCGCGGGAGATATTTGCGAATACGCGATTGGCGGAGGATTTCGGGTTATATCCAATCCAGCGTTCCTAG	MELYFLGTNAGVPTLQRNVTSIALRMLEERRSLWLFDCGEGTQHQILKSPLKLSKLEKVFITHMHGDHVFGLPGLLSSRGAQGVTSPLTIYGPPGIKVFIETTLSISQSRVPYTMEVIEHTGGVLFEDENFLVESAKLDHRAESYGYRVVEKDLPGSLDLKRLADYGLKPGPLYGKLKRGESVELGDGRWIHASDVLLTPKKGRVVTILGDTRPCAGVEALAKDADLLVHEATFMEDLAELAHEYYHSTAKQAAEAAKRAGVKALFLTHFSSRYKDIDHLQPLLNEAREIFANTRLAEDFGLYPIQRS				NA	NA	NA	NA	NA
AK002_02461	789	yutF	COG0647	Acid sugar phosphatase	ATGGAAAAACCAAAAGGATTGCTGATTGACTTGGACGGAACGCTGTACCATGGCCGGAATCGGATCGAGGGGGCCGACCTGCTGATCGAACGGTTGAAAGAACTGCAGGTTCCGTTCCTGTATGTAACGAACAATTCTTCACGCACGCCGGAGCAGGTGGCGGCTCACCTGATGGAGATGGGGATTCCTGCCTTGCCGGAGGAAGTATGCACATCCTCCCTCGCCGCAGCTAAATATATCGCTGAGGAGTCGCCCGGTGCCAAGGTGGCGATGCTCGGCGAAGAGGGACTTCGCGAAGCGCTGTTGTCTGTTGGCCTTACCATCGTGGAGCAGTCCCCTGAATACGTCATTCAAGGAATCGACCGCTCGTTTGATTACGAGAAGTTAACCCGCGCCGTTCGCTGGATTCAGGAGGGAGCTGTGTCGATCTTGACCAATCCGGATCTGCAGCTGCCATCCGATACCGGCCTGATGCCTGGTGCTGGCTCGCTTGGGGCTGCGGTCGAGGCCGCTTCGGGAGTTAAGCCGACGGTTATCGGTAAGCCGTCCTCGATCTTGATGAAGTATGCCTCGGATCGCTTGGGTTTAGCTCCGGAAGAAACTTATGTAATCGGAGATAATATCCGTACGGATATTGCTGCTGGCGTGCATGCCGGCTGCAAGACGGTTCTCGTCATGACCGGAATCACGACCGATCGCAATATGGAAGCGCATATGGAAGCCGCCGGCGTCACGCCAGACTATATATGCCGGGATTTGAACGAAGTGATCAGCCTGCTGTGTTCATGA	MEKPKGLLIDLDGTLYHGRNRIEGADLLIERLKELQVPFLYVTNNSSRTPEQVAAHLMEMGIPALPEEVCTSSLAAAKYIAEESPGAKVAMLGEEGLREALLSVGLTIVEQSPEYVIQGIDRSFDYEKLTRAVRWIQEGAVSILTNPDLQLPSDTGLMPGAGSLGAAVEAASGVKPTVIGKPSSILMKYASDRLGLAPEETYVIGDNIRTDIAAGVHAGCKTVLVMTGITTDRNMEAHMEAAGVTPDYICRDLNEVISLLCS	PGPT0005420_513	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITROPHENYLPHOSPHATE_DEGRADATION,PGPT0005420-nagD|yutF-K01101	NA	NA
AK002_02462	819	mutM_1	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCGGAACTGCCGGAAATGGAGAATTACCGAAGATTGTTATCTCAGAGCATTCTGAATGTGCCGATCACCGATGTGGTCGTGAACCGTGAAAAATCCTTGAATGTGACGATTGACGAGTTTACTTCGGCCCTGAAGGGAAGCAAGGTCATTTTTGTGGAGCGGAGAGGAAAACACCTCATTTTCCATTTGCACAACGGAGGCAGACTGCTGCTGCACCTGATGCTGGGGGGCATTTTGTATCTCGGACGCAGGGATGAGGAACGCCCTTCCCGTTCGACCCAGGTCGAGATCACGTTCGGTGACCAGGTGCTGTATTTTATCGGCCTTCGCCTAGGCTATCTGCATTTTCTAACAGCGAGGGAGACCGAGAATGCCCTAAAAGACCTTGGCCCTGAGCTCCTGGATCGGCGAATGACCAAAGCGCGCTTCGTCGAACTGATTGGAAAACGGCGGGGCGCCTTAAAAACAACGCTGGTCAATCAACAAGTCGTCGCCGGCATCGGCAACTGTTATGCGGACGAGATCGCTTTTGATGCCCGAATCCACCCGCTATCCAAAATTCAGGATTTGCCGGAGGAGTCGCTAGAGCAGCTGTACGACAGCGCCGTCAAATTGATGCACGAGGCGACGGACGGCGGAGGATACATGGAAATGCCCTTTCAGGAAGGGGATGAGCTGACAGGTGCTTATAATGACGAATGCAAAGTGTACGACCGTGAAGGAGAGCCCTGCGTTCGCTGCGGTACGCCGATCGTGAAGGCGGAGCACGCCTCGCGCAAAATTTTCTTTTGCCCGAATTGCCAGCATGAAGTCTAA	MPELPEMENYRRLLSQSILNVPITDVVVNREKSLNVTIDEFTSALKGSKVIFVERRGKHLIFHLHNGGRLLLHLMLGGILYLGRRDEERPSRSTQVEITFGDQVLYFIGLRLGYLHFLTARETENALKDLGPELLDRRMTKARFVELIGKRRGALKTTLVNQQVVAGIGNCYADEIAFDARIHPLSKIQDLPEESLEQLYDSAVKLMHEATDGGGYMEMPFQEGDELTGAYNDECKVYDREGEPCVRCGTPIVKAEHASRKIFFCPNCQHEV				NA	NA	NA	NA	NA
AK002_02463	849	nfo_1	COG0648	putative endonuclease 4	ATGAAGTCTAAAGTCCGGATTGGAAGCCATGTCAGCACACGGGGCGGATTTCTTGCGGCAGCCCAGCATGCAGCCGGGATCGGTTCACTGGCGTATCAGTATTTTCCGAAAAATCCGCGCAGTCTTCACTTGAAGACGCCGGATGTCCGCAATGCTGCGGCCTGTGCGCAGTTTTGTCAGGAGCAGGGTCTCGTTTCGATCGCGCACACGCCTTATCCAACGAATATGGCGGTTGGTTTGACCCGGGGAGAAGAGTTTTATCGATTGACCGTGGATTCCCTGAAGAATGATCTTATGATTGCCGAGGCTTGCGGATCGCTGGGCATCGTTGTACATTTTGGGCATCTCAAGAGCCAGGACGTGCTTGAAGGGTACCAGAACATAATTCGCTGCATGAATGATGTGCTGGCCTCCTGGGCGGGCAGGGCCAAGCTGCTGATCGAGAATCAGGCGGGAGACCATGGAGCTATGGGAATGACGCTTGAAGAGTGCGTAAAGGTTAGACAGCTTGCCGATCACCCGGAAAAAATAGGCTTTTGCCTGGATACCTGCCACTTGTTTGCCGCAGGAGGTTGGGACATATCGAATACGGATGAGCTCCTTGCCAGAGGCAAGTCGCTAGCTTATTGGGAATCGACGGTAGCCGTTCATTTAAACGATTCGAAATATGGAGCCGGCTCAAGAAAAGATCGCCATGCCCGCATCGGGCAAGGCATGATAGGCACAGAAGCGTTGAAGCGCCTGGTTCTGTCACCGGAACTTGCGGGTAAGGCATTTGTCCTGGAAAGTGAAAAAGGAGCTGACGGCACGCATCGGGAAGACATCGCCAAGGTGCTGTCATGGTCCTGA	MKSKVRIGSHVSTRGGFLAAAQHAAGIGSLAYQYFPKNPRSLHLKTPDVRNAAACAQFCQEQGLVSIAHTPYPTNMAVGLTRGEEFYRLTVDSLKNDLMIAEACGSLGIVVHFGHLKSQDVLEGYQNIIRCMNDVLASWAGRAKLLIENQAGDHGAMGMTLEECVKVRQLADHPEKIGFCLDTCHLFAAGGWDISNTDELLARGKSLAYWESTVAVHLNDSKYGAGSRKDRHARIGQGMIGTEALKRLVLSPELAGKAFVLESEKGADGTHREDIAKVLSWS				NA	NA	NA	NA	NA
AK002_02464	339			hypothetical protein	ATGATTCATCTTTATTTAGACGACTGGCGCCCCAATCCGAAAGGATTCGCGCTGGCTCGAAACGGGGAAGAATGTTTGCTGATGCTCCGTGAATGCGAAGTGGACGTTCTGTCGCTTGATTTTGAACTCGGGCATGGCCAAATGAACGGCGGCGACGTCGTTGCGGCCATGATTGCCGAGAATCTACAGGCTAAAGAAATATATTTGCACACCTCAAGCCCGTCGGGCAGAAGAAAAATGTATGAGCTGCTGTATGAGCACATGCCAAAAAGCGTCAAGGTCCACAATGGACCGATGCCCGAATCCGTGCTGCGGGAAGTCGCCCAAGGTTCAAGATGA	MIHLYLDDWRPNPKGFALARNGEECLLMLRECEVDVLSLDFELGHGQMNGGDVVAAMIAENLQAKEIYLHTSSPSGRRKMYELLYEHMPKSVKVHNGPMPESVLREVAQGSR				NA	NA	NA	NA	NA
AK002_02465	348			hypothetical protein	ATGATTGAGGTTACGCAGCGCGAACTGTTGGAGAGGCTAGAATGGCAGGAGCGTCTGATGAAGCGTGACGCGAAGGCGGATCCTGTCATCGTTTTTTTGCATACGCCATTATGCGGTACTTGCGCGGCTGTGCGTAAGATGCTGGATGTCGTGGAGTTTGTGGTGCCCGATGTACAGCTGCTGGCAGCGGACGTGAATTTCCTTCCGGGCATCGTGGAACGGTATCAAATTCGAAGCGTTCCGGCACTGCTCGTGATCCCATCAAGCCCTGGCGCAAACCCTGAAGTGCTTTATCGGATGGGCTCCGTGCAGGATATCGTCAGTTTTGTAAGGAGCGTGAAGCCATGA	MIEVTQRELLERLEWQERLMKRDAKADPVIVFLHTPLCGTCAAVRKMLDVVEFVVPDVQLLAADVNFLPGIVERYQIRSVPALLVIPSSPGANPEVLYRMGSVQDIVSFVRSVKP				NA	NA	NA	NA	NA
AK002_02466	774	ylmA_1	COG1119	putative ABC transporter ATP-binding protein YlmA	ATGATTTCGTTGCAGCACCTGTCGCTCATTCGTGGGAACCGCCACATTTTGAATGATGTCAGCATTGAAATGAAGCCGGGGGAGAATTGGGTGATCCTGGGCAGGAACGGATCCGGCAAAACGACGCTGCTGGAAATGATGACGGGATATATGTTCCCTTCCAGTGGACGCGTAGAAGTGCTGGGCCAAGTATACGGCCAATGTGACGTTCGTGAGGTTCGTAAATCCATCGGTTATATCAGCCAATCGCTGCTGGAGAAATTAACGCTGAGCGACCCGGTGTGGGAGGTTGTCGCAACAGGGGCGTATGCCTTTTTACGCTTTTATCAGGACATTCCGGAAGAGGCCAGAAGTTTAGCCTACAGCCTGCTGAACGAAATGGATTTCGGCCCTTTGGCGGAGCTGCCTCTCGGGACCTTGTCCCAAGGGGAACGGAAAAAAGTGATGCTGGCACGCTCCCTCATGTCCAATCCGAAGATTCTGATTATGGATGAACCGTGTGCCGGTTTGGATTTGTATGAACGGGAGAAGATGCTGCATGAGATTGACCGGCTGAGGCAGCGTAATATTACGGTCGTGTACGTCACGCATCATGTCGAGGAGATTGTCCCTTTATTTACTCATGTGGCGCTTATTAAAGACGGGCGGTTGACAGCCGCGGGACGCAAAGATGAAGTATTAAACCATGAACTTATCAAACAAACTTATGATATCGACGCTCAGCTGGAATGGGATGGCGGACGTCCCTGGATCAAAGTTATTTCTGGAGGTTAA	MISLQHLSLIRGNRHILNDVSIEMKPGENWVILGRNGSGKTTLLEMMTGYMFPSSGRVEVLGQVYGQCDVREVRKSIGYISQSLLEKLTLSDPVWEVVATGAYAFLRFYQDIPEEARSLAYSLLNEMDFGPLAELPLGTLSQGERKKVMLARSLMSNPKILIMDEPCAGLDLYEREKMLHEIDRLRQRNITVVYVTHHVEEIVPLFTHVALIKDGRLTAAGRKDEVLNHELIKQTYDIDAQLEWDGGRPWIKVISGG	PGPT0003760_6326	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK002_02467	1077	rlmM		Ribosomal RNA large subunit methyltransferase M	TTGGACGAATTAAATGTAATGCAGGAACATGAGGAACAGAATCAGAACCATCAGGATTTTCACAGTAAATGGGTATGCACGGCAAATCATGGTTTCGCTCCGTATGCCCAGGAAGAGCTGCGCCGGATGTTTGGCAGCCTAAAAAGCACCATGATGATGCCAGGCGAGGTGTTTTTGATGACACTCGGCAGCTCCGAAGCTGAGGCTAAGCGGCTGATTACGTCAAAGCCGCCTATTTTCCTGCGGCATCTCTTTCCGGTACAATGGGAAATCGCGGCCGAATCCGTAGATGATGCGCTGAAATTGACAGCAGATCATGTGCTGAAGCGGGAGGAGATTAGCCAAAGCCGCGCATCCATCCAAATCCGCAAGACGGAGAACAGCTCATGGACGGAGAGCCCTGCAGCCCTTCGGGACGATTTGCAGCTTCGCTTGGCACCGCTCGAGCTGGAATACACGGTCCAGGCACCCGAATGGATCATTTCACTATTCGCCGCTGACAATGTCTGGTATGCCGGTGTGTCGCGTCCGGAGGACAACCTGTCGGATTGGAACGGAGGCGCAGTCCGTTTTCAGCGGGAAGAGGGTCAAATCTCAAGAGCCAAATTTAAGCTGCTTGAAGCCGAGAAGCAATTTGGGATACCCTTCGATACGTTCCGCAAGGCTGTCGATATCGGAGCAGCGCCGGGAGGCTGGACATCCTTTTTATTGGAGCGCGGCTTGCAGGTTACGGCGGTAGATCCGGCGAAGATGCACCCCTCCCTGGATGGGCATAAAAACCTGCGTGTCATCCACAAGAATGCTGCGGACGTAACGTTTAGAGAGCATGAATTCGATCTGCTGGTATGCGATATGAGCTGGAGCCCCAAACTGATGGCCCGAATGGTGACCGGGCTGCTGCACAGCCTTGAAACGGGCGGCACGGCCGTCGTTACGGTCAAGCTGCTGACCAAGAAGCCAATGGCATTGGTGAAGGAGATCATGTCGGTATTTGAAGCGTCCAGAATGCAGATTCAGGGAGCGAAGCAGTTGTTCCATAATCGGGACGAGATTACGCTATATATGATTAAGTATTAA	MDELNVMQEHEEQNQNHQDFHSKWVCTANHGFAPYAQEELRRMFGSLKSTMMMPGEVFLMTLGSSEAEAKRLITSKPPIFLRHLFPVQWEIAAESVDDALKLTADHVLKREEISQSRASIQIRKTENSSWTESPAALRDDLQLRLAPLELEYTVQAPEWIISLFAADNVWYAGVSRPEDNLSDWNGGAVRFQREEGQISRAKFKLLEAEKQFGIPFDTFRKAVDIGAAPGGWTSFLLERGLQVTAVDPAKMHPSLDGHKNLRVIHKNAADVTFREHEFDLLVCDMSWSPKLMARMVTGLLHSLETGGTAVVTVKLLTKKPMALVKEIMSVFEASRMQIQGAKQLFHNRDEITLYMIKY				NA	NA	NA	NA	NA
AK002_02468	1467	pknD		Serine/threonine-protein kinase PknD	ATGAATCAGCCTTGCAAATTGGTGCATGGGGATGTATTGGGTGAGCGTTACGTCATTGACCGCGTCATCGGCGAAGGGGGCATGAGCTGTGTATATCTGGCCGAAGATCTGAAGCTGCCCGGGAAGCAATGGGCGGTGAAGGAGACTTTGTCTGAACCGGGTATGCAGCGCACGGTTCAGGATGAGGCACAGCTTCTGATCAAACTGAGCCATCCGCGTCTGCCGCGCATCGTCGATTTTTTTCGTGATGAGGACAACGGCTATACCTATTTGGTTATGGATTACATTCAAGGCATGACATTGGATAAATATTTCCGGGGTTACCGTGGAAACGTGAATCCGGACTTCATCATGGAGCTGACGGAGCAGCTGCTGGACGTCCTGGAGTATCTTCACCATCACGAGCCCCAAGTCATATTCAGGGATTTAAAGCCTTCGAACATCATGCTGACCGATCAGCTGGAAGTCCGACTCATCGATTTCGGAATCGCGAGAAGCTACAAGCATGAGAGCGGCGAGGATACGGTCAAGCTCGGCACGGTCGGATTTGCGGCACCGGAGCAATACGGTGGCAGGCAAAGCGATGCCAGATCGGATTTGTATGGATTGGGGGCGCTCCTGCTTTATCTCTCGACCGGCGGCAAATTCAGCGAATGGATCACGGGAGTGGAGCGCCATATTCGCGGCGATTTGCCAAGAGAGTTAGTACCCGTAATCCGAAAGCTGCTTCAATATGCTCCGGAGCATCGATATCAATCGACAGTTGAAGTTCGGTCCGCGCTGAAGCGGCAGCATTCGATTTCCGCGAATCTATCTGCGGTTCAAACCAGCACGGTGCCCGGGACGCTTGTTGCGGCCGTATTGGGTGCATCGTCCGGCGTAGGAACCACGCATAGCTGCATCGCCTTCGGACATTTCCTTGCTTCAAGGTACGGAAAGGTAGCCGTCGTTGAAATGAGCGCCAAATCCACCTCGTTCAGCCGCATACAGGAAATAGCGGAGGGCGGAAGGCTCGGCTCTATCCGCAAATTCGAGATTAACGGGATCCACTTTTGGCGCCAAACAGCGAGGAGTGAAGTGATTTCGCTGCTCGGGGGCAGTTACGATGCGGTTGTATTGGATTTGGGGGCGTACAGGGACAGCGAAAGGCTTGAGGAATTCCTGCGGGCCGATCTGCCGATTGTTATCGGGTCGGGAGCGGAGTGGAGGCGGCATGATGTGGCGACGCTGGCCCGAATGCTGTCCAGGCACCCGCAGCCGGGCCGGATCTATGCCCTGCCCCTTGCCGGAGAAGAAACGATTCAGGAGATGAGGAAAACGCTAGGCACGAATAAGGTTTATGCCTTGCCCCTGCAATTGGACCCTTTCGAAATACCTGACAGCAGTAGGCAGGCATTCGCCCGGCTCTTCCAGGACTACTTGCCGCAGGCTGAACGGAAGCGAAGATTCAGGTTTCTTAAGAATTGA	MNQPCKLVHGDVLGERYVIDRVIGEGGMSCVYLAEDLKLPGKQWAVKETLSEPGMQRTVQDEAQLLIKLSHPRLPRIVDFFRDEDNGYTYLVMDYIQGMTLDKYFRGYRGNVNPDFIMELTEQLLDVLEYLHHHEPQVIFRDLKPSNIMLTDQLEVRLIDFGIARSYKHESGEDTVKLGTVGFAAPEQYGGRQSDARSDLYGLGALLLYLSTGGKFSEWITGVERHIRGDLPRELVPVIRKLLQYAPEHRYQSTVEVRSALKRQHSISANLSAVQTSTVPGTLVAAVLGASSGVGTTHSCIAFGHFLASRYGKVAVVEMSAKSTSFSRIQEIAEGGRLGSIRKFEINGIHFWRQTARSEVISLLGGSYDAVVLDLGAYRDSERLEEFLRADLPIVIGSGAEWRRHDVATLARMLSRHPQPGRIYALPLAGEETIQEMRKTLGTNKVYALPLQLDPFEIPDSSRQAFARLFQDYLPQAERKRRFRFLKN				NA	NA	NA	NA	NA
AK002_02469	1104			hypothetical protein	ATGCCGATTATCAGGAGGCGAAGCCGCAAACTGATATTTGCCGGACTTGCCGGCGCAGCCGTAACTGGGGCTGTATGTGCCGGCGCCATGTTGTATTATGTGCACGGCTCTAAAGAGCAGCGGCACGTGGAGCGCACCCAATACGAGCAGCGAATCGCGGAGCTTGAAGAGACCCAGCTGCAGCAGCTCAATTCGATGCAGGCGGCATGGGTCCCGGTAAGAGATATTCCGCCTGGTCATTTCATAGAGGCCAAGGACATCAAGGAAGTGCGTTTGCCGTACGACGGCACGTCCGGCAATCTCTTCTCGGGCAGGGAAGAGATTGCCGGGAAGGGCGCCAAGATCGAGCTGCTTCGGGGAATGCCGATTACCGGCGCGATGCTCTTTGAAGAGGAGCCGACGCGGCCCGATCTCCGTCACCGGGAGATGAAATCCGTATATCTGCCAAGCGACCTGCGCAAGGGGGATGTCATTGATGTTAGAGTCCAGTTTCCAACCGGACAGGATTACATCGTTTTATCCAAAAAGAAGATCGACAGGCTCCAAAATCCGGCATTTTGGACAACGTTAAGCGAACAGGAAATCTTATTGCTCTCCAGCGCATTGGTCGATGCTTATCTGCATGATGCTACGCTATATGCGCTTACCTATGTAGAACCCGAGCTGCAAGAGAGAGCGATTCCGAACTATCCGCCGAACGCGGAGGTGACGAAGCTGATTGCAAGCAACCCGAATATCGTGAAGAAAGCCGAGAAGCAATTGGAGCTTACGCTCCGAAACACGCTGGAAGACGATTTAAGCAAACTCCAGCCGAGTCAGCAGGCGCAAGTGTCCGACTTGCCTCCTAATTCCGCCTATGCTGGCGGAGCCAGGAGTCCGGATTCTTGGAGCCCGGCATCCAATATAAATCCCCCTGCGAAATCCGCTACCGGAACGAGTTCCGATGGCATTCTCCCGGACGAGGACGTGAATACGGAGGTTCCGCTTCGGGAGGAGAAGGTTTCGGAGGCCGAGCAGATTTTAGGGTCAACCGGGAGGATAGATGCCCGGAACGGCAGTGATCAGACACCGCCAGAGGCTGATTTCATATTCACGAGCCCGTAG	MPIIRRRSRKLIFAGLAGAAVTGAVCAGAMLYYVHGSKEQRHVERTQYEQRIAELEETQLQQLNSMQAAWVPVRDIPPGHFIEAKDIKEVRLPYDGTSGNLFSGREEIAGKGAKIELLRGMPITGAMLFEEEPTRPDLRHREMKSVYLPSDLRKGDVIDVRVQFPTGQDYIVLSKKKIDRLQNPAFWTTLSEQEILLLSSALVDAYLHDATLYALTYVEPELQERAIPNYPPNAEVTKLIASNPNIVKKAEKQLELTLRNTLEDDLSKLQPSQQAQVSDLPPNSAYAGGARSPDSWSPASNINPPAKSATGTSSDGILPDEDVNTEVPLREEKVSEAEQILGSTGRIDARNGSDQTPPEADFIFTSP				NA	NA	NA	NA	NA
AK002_02470	708			hypothetical protein	GTGAAGAGGTGGATATTTTCGGGCATCTGCGACAAGAGCGATATGCTCCTGTACATGTGCAAAATACTAGCCAATGGAGACAGCAGGGTGCTGCTCGTCGATGGCGCGATAGATGCGAAGTACAGACATTGCATTAGCGTAATGCATCCCCAGCTGCCGGTCATGGAGTTTGCCGGTTTCGACGTGGCAACAGGGTTCGGGAGTTATACGTCACTGATGGATTATCTGGAAGAAACGAACGAGAAGAAATACGACTATATTGTGATGGACGTGGAGAAGCCGCAATTTATGGACAAGGATCAGTGGGATACGGCGGATGCCCATGTTTGGGTCAGCGGATTCGAAGTAACGGGATTGCGAAAGAGCGCGGCCTTGCTGGATGAACTAAGAGCCGCTAGAACAGATGACCCGCTGCCGCCTTTCCATCGCGTATACGTACAGGTTATCGAAGACCTGGCGGACGGGTCCTATATTGAAGGCTTTATGGAGGATAGCCGGATTCAATGGCTGGGTCCCCCTGTGAAGATGCCTTGGGATGAATTGTTTTTTGCGCTGAAAATAAAAAACGAACATGCAGGTAGACTGGGCATCAAGCCTTTGTCACGACAGTATAAGCGGTCGCTTACCGAACTGATTCGGATGCTAACGGAGATGGAGCAGCGGCATATCCGCCGGGCGTTTAGGCAAGCAGGAAGGAGGCATGCATGA	MKRWIFSGICDKSDMLLYMCKILANGDSRVLLVDGAIDAKYRHCISVMHPQLPVMEFAGFDVATGFGSYTSLMDYLEETNEKKYDYIVMDVEKPQFMDKDQWDTADAHVWVSGFEVTGLRKSAALLDELRAARTDDPLPPFHRVYVQVIEDLADGSYIEGFMEDSRIQWLGPPVKMPWDELFFALKIKNEHAGRLGIKPLSRQYKRSLTELIRMLTEMEQRHIRRAFRQAGRRHA				NA	NA	NA	NA	NA
AK002_02471	870			hypothetical protein	ATGAGTCTGATTGCTGTATGGAGCCCATTAAAAAGCGGGAGCGGCAGCACGCTGTTGGCCTCGTGTTTACCGATCGTATTGGCGTTTGAATACCAGGTCAAAGTGCTGCTTGCCCATGGTGGACAAGCAGGAGAACGAGTGGAACAGGCCTTTGCGCTGAAGGAGGAAGCGTTCGATTATATGGTGGCGTTTCAGGATACCGGATTGGATGCCCTCGAACGGCTCAATGCAAGCGGGAGGCTGAATCCGGATAATGTCCGCAATTATGCTCTGCCGCTGCTGTCTGATCGGCTGGATCTTTTGTGCGGACCGAAGCCGACGTCGGTCAATGATTTCAGTGCTGCTAGACATGCGGAAGGCGTGAATCGAACTGAACTGATGGTCAAGGTCTTGGCGTCCTCCAAACGTAGTTATGACGTTACCGTAGCGGATGCCGGCAATGGTGTTCCCCGAGCTGCGGATCGTGCAATACTTCAAGCGGCAGACTTGATCATCGTTGGATTGAATCAGAATTTGCATGTCCTGAAGAGAGAGCTTGAGAAGGAAAGGCTTCCTCCGGAGCTGAAGGAAAAAGACTGCTTGTACATGATCGGCAAATATGATCGGGAGAGCAGCTGCACATTGCTAAATATGAAGCGCCGCTTTGGAATCAAAACGATGGCGGTTGGCGTTCCGTATTGCTCCCGCATGACGGATGCATGGAATATGAGTTCGATTATTCCCTACATGCAGCGCAACCGAGGGGGCGCGGACCTGAAGGGTTTGAATTCACTCTATAATGCCGTCCGTCAACTGGCTGATGCGTCGGCTGAACAGCTCGGACTTCCGTCCGGCCGTTCGAAAGCGGGGGGCCTGCATGCTTTTGGGTAA	MSLIAVWSPLKSGSGSTLLASCLPIVLAFEYQVKVLLAHGGQAGERVEQAFALKEEAFDYMVAFQDTGLDALERLNASGRLNPDNVRNYALPLLSDRLDLLCGPKPTSVNDFSAARHAEGVNRTELMVKVLASSKRSYDVTVADAGNGVPRAADRAILQAADLIIVGLNQNLHVLKRELEKERLPPELKEKDCLYMIGKYDRESSCTLLNMKRRFGIKTMAVGVPYCSRMTDAWNMSSIIPYMQRNRGGADLKGLNSLYNAVRQLADASAEQLGLPSGRSKAGGLHAFG				NA	NA	NA	NA	NA
AK002_02472	1911			hypothetical protein	ATGCTTTTGGGTAACGCCTTGAACACGATGTGGATCATCATCATGGTTTTGTTAGTCATGTTGTTTATCTATCTGCGTTATATGGATACCCGTAAACCGGCGGCTGCTATTACGCGGGGCTCGGATCCCTATTCGATCGAAGCCATGACGGCATTTGTTAAGGAAAGCCTGCATCAGCTGACGCACAGCCAGTTGTCTGATTTAGGGCTGCACGAAGAAGCGTATCGCCGCAGGCTGAACAAGCGGAGCGAGTTGCGAAGCGCGCTCAAGGGCTGCGTATCCGGTGATGCGATGGACAAGGCGTACGTTAAGGATTTTTTAAAGCAGCTGCTTGTCAAGGATTTGGGATTGAACGAGTCCAACATTGATGCAGCCATTCCGTTTGAAAGCCTAACCGAATTAACGGCCCAGGATCAATTCGAGATTCTCTTGTACCTGTACCGGCAGCGGCACGGGGAGGATGCTTTATCCGTACTTCTGGAGACATATGATCTTGCGCAGCCTCGCGTCATTCCCGGTTACGGGGAGGGCAGCGTTTATGCGGTTACCGCGGAAGACATTGCTTATATTTATGAATCAGAGCAGCGTCCGCTTCTGTTTCAGGAGAAGCTGGATATCGTCGTTCAGCGCATTTATCAGCAGTACAAAGGATTTTCCGTCGTGGATGAAATCAGGGATCAGCGGATTGACGGGATCAGTGGGGGAGTCAGCGGCGTTCCCGTCGACCGCGACAGCGGACAGGATGCCTTTTACGGACTGGATGATTTTTTGGGGCTAGGTCTTTCGAATGCCGAATTGCCTGCATCAGGCTGTGAGAGCGTTTGGATTTTTTACCGGGGCGTTTCGCTTCATCTTGCTTTTTTATCCTTTGGTTCGATGCTGGAGCTTAAGCGGGTATGTCAAAACATATACAAATATAATCATCCGGGACAGCTGTCGGAAGCCAGCGGTTACAAAGTGAATGAGATGAAGGATGGCTCCAGGGTTGTTGTGGTAAGGCCACCGTTTGCCGAATCCTGGGCATTCTTTGTACGCAAGTTCGATTTGCCCAAGGCTACGCTTGATCAATTGATTACGGGGAGCGGCTCCGAGCTGGTGATCGGTTTATTGAAATATTTGATGAGAGGCAGCCGGATTACGGCGATTACCGGTGCTCAAGGATCAGGAAAAACCACGCTGCTGATGGCAATGGTTGGCCATATCTATGCCTCCTATACCCTCCGGGTTCAGGAGATGGCCTTCGAGCTTCACTTAAGGAAAATCTACAGCCGCAGGAACATTCTCAGCTTCAGGGAAACGGAGCATATCAGCGGACAGGCAGGGCTGGATCTGCAGAAGAAAACGGACGGTACGGTCAATATCCTTGGTGAGGTTGCCAGCGACGAGGTTGCGTCATGGATGATACAGATGTCTCAAGTGGCAAGTCTGTTTACCGTGTTTACCCATCATGCCAAGACATTCAGGGATTTGGTTCAATCCCTGCGCAACTCCCTGCTCAAGAGCGGCGCGTTCAGGCAAGAGCACATTGCCGAGCAGCAGGTGGTCAGCGTGATCAACTTTGATATTCATTTGAGAAGAGACGCTTTCGGAAACCGTTACATAGAGCGAATTACAGAGTGCATTCCGGTGGATAAGGGGGCTCTGCCGCAATTCGAAGCTTCTACGGAAAACAATTGGAAGAGCAGCATGGAGGAGTATTTTCATTTAAGTGCAGAGCATATGCGGAGACTGAACGAGGACCGCTGTTATGTGTCCCGCAATGTGATTGAATACCGGGACGGTGCGTATATTGCTTGCGCCAAGCTATCCGAAATCAGCATTCGCGAAATGACGGAGCAGATGCATCCGGAGGATGCGGAGGAATTCAGAATATTTCTGGACTCGGGCTGGGGGGAACAACGTGGCCTCTAA	MLLGNALNTMWIIIMVLLVMLFIYLRYMDTRKPAAAITRGSDPYSIEAMTAFVKESLHQLTHSQLSDLGLHEEAYRRRLNKRSELRSALKGCVSGDAMDKAYVKDFLKQLLVKDLGLNESNIDAAIPFESLTELTAQDQFEILLYLYRQRHGEDALSVLLETYDLAQPRVIPGYGEGSVYAVTAEDIAYIYESEQRPLLFQEKLDIVVQRIYQQYKGFSVVDEIRDQRIDGISGGVSGVPVDRDSGQDAFYGLDDFLGLGLSNAELPASGCESVWIFYRGVSLHLAFLSFGSMLELKRVCQNIYKYNHPGQLSEASGYKVNEMKDGSRVVVVRPPFAESWAFFVRKFDLPKATLDQLITGSGSELVIGLLKYLMRGSRITAITGAQGSGKTTLLMAMVGHIYASYTLRVQEMAFELHLRKIYSRRNILSFRETEHISGQAGLDLQKKTDGTVNILGEVASDEVASWMIQMSQVASLFTVFTHHAKTFRDLVQSLRNSLLKSGAFRQEHIAEQQVVSVINFDIHLRRDAFGNRYIERITECIPVDKGALPQFEASTENNWKSSMEEYFHLSAEHMRRLNEDRCYVSRNVIEYRDGAYIACAKLSEISIREMTEQMHPEDAEEFRIFLDSGWGEQRGL	PGPT0016025_66	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
AK002_02473	2073			hypothetical protein	GTGGCCTCTAAAGACGTGTTAATCCTTATATTCATTACATCCCTGACGCTGTTCTCGATTACGTTCGGTTTGGTGTCGTGGATGTCAAGAAGACGAGGAAACCGTGGGAATTTTGCCGGAAGGTTCGATGCGGGTGAAGCAAAACCGTTTCGCGGTATATACCGCCAATGGTTCCAATTGGCTTATATGTATGGAGTGAAACTCCCGCTCGTCCAATCGTATATCAAACGGATCAGACAGAGAATCGCGATCATCCATCCTTACGATGAAATTTCGCTTCGGTATGAGACGGTGAAGCTTGCCTGCGCGATTTCAGGGATTATCGGGTTAACGGCCCTGCTGCTGATATGGAGTCATCCGGACCTGGGGTTTATCGTGATCGTCATCCTTGCCGCCGTGGTTATTAACAATATGCTTGTTGAGATGTTCATTAACCGGCTGGAGCGCAAGCTGCTTGTTCAATCGGTTGAATTGTTCTCCCTCGTCCGTCATCACTATCAGCAGCATGGAATGGTCGAGGAGGCTTTGTATGAAGGGGCAGAGACTTCGGAACACGAAATCTCCATACATGCCCATCGAATCTATAATGCCCTCGTATCCCAAGATCCTAATGATGAGCTGGAGCGATATTATGAGGTAGCTCCTAACCGGTATTTAAAGGCGTTTGCGGGCATTTCCCATCTGGTAATGGAGTTTGGCGATCATGCGAGAAAACAAGGCTCAATTTATCTCCTTGGGCTTAGCGGATTGACCAAGGAAATCCAATTGGAAATATTGCGAAGAGACAAGCTTGATTACTTGATGAAGGGCTTGAATGTTATTGCGCTGGCCCCGGTTTTTTTTACGAAACCGATCGAACGGTGGGCGAGAAGCAGTTTTCCGTCGATGGATGAGTTTTATATGAGCAAGCTCGGATTTGTGACCAAGATATCCATTTACGTCATTATCCTGATTTCTTACATCCTGCTCCAGAAGCTCCAGCAAAATCGGGAAACCGATTACCGGGCAGTAGCACGCAAAGTGACGTGGGAAGAAAGAATGTACGGAATTCCTATTATTTGCTGGCTTGCAGGGATCATGACCCCGACCCCAGGCACGATGAAATATGACAGCCGGGTTCGGCTCCTGAAGGAGAGCAATGCGAAAATCAAATTCGAGTGGCTGTATATCAGAAGGGTAACGTTTTTTTTCCTCGGTTTCTTTTTAGCGCTGTCGCTGGCCGTTGGCTTACATGTACAGTCTAGACATCATTTGTTGCATATCCCCGTTCCATTAAATCATTCTCTGTTCGGACAGATGAATGATGTTGAGCGCTTGCAGGCAGAGGAGACTGCCCAGCGGGATCGGGTGATCATGGAGCAGCTGCAAATGTCAACGAAAGCAACGCATGACCAGATTCAACAGGCCGTAAGAGATACAGATACTGTTGGTTTGACCAAGGAACAAATTGAGATTGCAGCCGATCGAATCATGACCAAGCTGAAGCGGTATGATAGCGAGTATTTGAAGTGGTGGGAGCTGCTGCTCTCCTTGATGACAGGTATTGCAGGTTATGGGGCGCCACTGTGGCTGCTGTATTTTCACCGGAAAGTGCGAAACATGGAAATGCGGCATGAAGTATATCAATTTCAGACGGTCATATCGATCCTGCGCGGTATGGAGCGAATCACGGTTGAAGTTATATTGGAATGGCTTAACCGGTTCGCCGTTATTTTCAAGGTTCCTATTCAAAAAAGCCTGCTTCACTATGAACATGGCGCGCAGTTGGCTTTACTGGAGTTGAAGGAAGACGTCTGGTTACCCGAATTTCAACGGTTGGTGGACAAGCTGATCCTTGCGGTGGATAAAGTACCGATCAAGGACGTATTCGACGATCTCGACGGGGAAATGATATTCAGCTTCGAGCAGCGCAAGCAGGAATATGAAGCGATGATCGACACGAAGGCCGCATGGGCGCGGATGATCGGTTTTACTCCGATGTATGCGCTGATCTTTATGTATCTTGTCATTCCGCTGATCGGCATGAGTTTCTCCCAAATGGAAACGTACTATGAGCAAATTCAACGACTATGA	MASKDVLILIFITSLTLFSITFGLVSWMSRRRGNRGNFAGRFDAGEAKPFRGIYRQWFQLAYMYGVKLPLVQSYIKRIRQRIAIIHPYDEISLRYETVKLACAISGIIGLTALLLIWSHPDLGFIVIVILAAVVINNMLVEMFINRLERKLLVQSVELFSLVRHHYQQHGMVEEALYEGAETSEHEISIHAHRIYNALVSQDPNDELERYYEVAPNRYLKAFAGISHLVMEFGDHARKQGSIYLLGLSGLTKEIQLEILRRDKLDYLMKGLNVIALAPVFFTKPIERWARSSFPSMDEFYMSKLGFVTKISIYVIILISYILLQKLQQNRETDYRAVARKVTWEERMYGIPIICWLAGIMTPTPGTMKYDSRVRLLKESNAKIKFEWLYIRRVTFFFLGFFLALSLAVGLHVQSRHHLLHIPVPLNHSLFGQMNDVERLQAEETAQRDRVIMEQLQMSTKATHDQIQQAVRDTDTVGLTKEQIEIAADRIMTKLKRYDSEYLKWWELLLSLMTGIAGYGAPLWLLYFHRKVRNMEMRHEVYQFQTVISILRGMERITVEVILEWLNRFAVIFKVPIQKSLLHYEHGAQLALLELKEDVWLPEFQRLVDKLILAVDKVPIKDVFDDLDGEMIFSFEQRKQEYEAMIDTKAAWARMIGFTPMYALIFMYLVIPLIGMSFSQMETYYEQIQRL				NA	NA	NA	NA	NA
AK002_02474	459			hypothetical protein	ATGAATAATGCATCATCCGCATTAAAGGTTGCAGCAGGCATATTTTTGACTATTGCCCTGATTACGATCGTCGTCATTTTGTTTATTTCGGCCCAGGAGGCAACCAAAACCGCCCAGAACAATTTTTCGGATATACAGACGGAGCTGTCCCAGGCAGCCTTTACCGTGTATGACGGAACGACGATCAGCGGTTCTCAAGTTACGAATGCACTGCGCAAATATAAGGACAAGGATCAGTTCGGCGTTTTCATTGCAACAGGTAAAAATAAAGCAGGGCAATGGTACGGCAACGTACTGGAGTCTGACGGATCGATCCTGAATCCGGATTCCAGGCAAGGGAATATCAACCTCGTCATGGATGAGAAAAGCCCAGAGTATGTCAACCCAAGCGGGAAGTTTAGGGCGACCATCGTGAAAGACAATTCCAACGTGATCCGGGGCATTAAATTCGATCAATAG	MNNASSALKVAAGIFLTIALITIVVILFISAQEATKTAQNNFSDIQTELSQAAFTVYDGTTISGSQVTNALRKYKDKDQFGVFIATGKNKAGQWYGNVLESDGSILNPDSRQGNINLVMDEKSPEYVNPSGKFRATIVKDNSNVIRGIKFDQ				NA	NA	NA	NA	NA
AK002_02475	375			hypothetical protein	ATGCTAGAATTGGCTGCGGGGGTGGCGTTGTTTCTCGGCGCAACCTTGTATGCTTTCAATATTCAGGCAATGGTTGGTAGCGGGATAACAGCCGCGGACCGAATGACTCAAGAGCAGCATGCCGGAGTGACAACCGTAAAGATGACTAACGAGAACGAGAAGCTGACCTATGAAGGAAGCGAAGTCTTGTTTACGCTGCGAGAATTAGAGGCAGGCGTCTTTACCGTTGATGTGGATGGAACGGTGTTCCATTCAGGCAGTCATCCGGAGGAGCTGGATGTTTCGATCATCGACTTGAATGCTCGGTATTATGCGGAGTACATTCGGGGAGCGGATGGGGAAATAGAACGGATCCAGTTTGTAAAAGTGAGGTAA	MLELAAGVALFLGATLYAFNIQAMVGSGITAADRMTQEQHAGVTTVKMTNENEKLTYEGSEVLFTLRELEAGVFTVDVDGTVFHSGSHPEELDVSIIDLNARYYAEYIRGADGEIERIQFVKVR				NA	NA	NA	NA	NA
AK002_02476	555			hypothetical protein	ATGTCAAATTCGGTTTCGAAATGGTTTGCAGCATTTCTTGCGCTCCTTCTGTTATATTTGGTTCCCACTGGCGAGATGGCAAGAAGACAGGATGATCTGTCACGACTCATCGTTTATCAATCCGTTACCAAATTCGTAGACAGTGTTCGCACTAAGGGATATATTACCCCCAACATGTACAATGACTTCCTGCAAGAGTTGGCGGCCACAGGGAACATTTACAATGTGGAGATGGAGCATCATAACAAGAAATACCACCCGGAATATGCCGATCCTTCGGATCCCGGATCATTCCTGAACCGTTATTCCGTTGTATATGATGCTTATTATCAGGATGATCTGATGGGTTATCTGTTCCCGGACTCGAATCTGGATAAAAGCGATGAAGGCCGCCGCTACCGTCTAACTGCCGGCGATCACTTCCAGGTTAGCGTCACTAGCTTGAATCGGACACCCGGATTGGTGATATTCGATGCGTTGACAGGATCCAACTCAGGAGGAACAGCAGCTATCGCATTCCCTTACGGAGGGTTGGTTCTGAATGAAGATTACTGA	MSNSVSKWFAAFLALLLLYLVPTGEMARRQDDLSRLIVYQSVTKFVDSVRTKGYITPNMYNDFLQELAATGNIYNVEMEHHNKKYHPEYADPSDPGSFLNRYSVVYDAYYQDDLMGYLFPDSNLDKSDEGRRYRLTAGDHFQVSVTSLNRTPGLVIFDALTGSNSGGTAAIAFPYGGLVLNEDY				NA	NA	NA	NA	NA
AK002_02477	612			hypothetical protein	ATGAAGATTACTGATCTTGCCATTGTGTTTACTGCCGTGTTCTTCCCCATGTTTCTCATCCTAGGCATGCGAGCCGAGAGCCTGGAGGATGTACGGTTTGCCGAGATGAAATATACGGGTGCTCTGCGCACGGCCGTTCAAGACGGCGGGATGAAACTTAACGATAACGAGACGCAGTCCAAGGAGTCAGCTTATGATTCCGTGAAGTATATGCGTGCGGATAAAGAACAAGCGCTGGAGTCATTTTCCCGGACATTGTATATCAACATGGGGATCGGAGATGACAAGGCTGCACAAGCTGCCTTATGGTGGTATATTCCTGCCATCGTTGTGCTGGACTATGACGGGTATTATTTGTATGTATCACAGCCCTATGTTGACGATGACGGCGAGGGGCTTATAGAGCATCGATGGACTCCCAAAATTCCTTATGCCTGGAATGATGGCAGCGGCAACAGCATTCAGTTTACGCTGGATTCTTACGTTCAGGTATATGAATCCAATTCCTCTATCTGGCATTCTGGATTTCGGAAGGATCTCATTGGCAGAACCGGCGTGCTTTGTTGGATCATGAGGATGTGTTTGAACAAGTCCGGCGGATCACCATCGTGA	MKITDLAIVFTAVFFPMFLILGMRAESLEDVRFAEMKYTGALRTAVQDGGMKLNDNETQSKESAYDSVKYMRADKEQALESFSRTLYINMGIGDDKAAQAALWWYIPAIVVLDYDGYYLYVSQPYVDDDGEGLIEHRWTPKIPYAWNDGSGNSIQFTLDSYVQVYESNSSIWHSGFRKDLIGRTGVLCWIMRMCLNKSGGSPS				NA	NA	NA	NA	NA
AK002_02478	381			hypothetical protein	GTGAATACGGTTCAAGAGCGTCTTGCCTATTACATACAGCGCCACAATCAAGTTGCGCTGCGGAACGGAATCTCTTATACGTTTACGCTGCCTTTGATTTCCCAGGAAGAGTGGGTAAATACGATTGACGATATCGGTATGATGGCTTTCATTCAAGGCATTCCCATGGGCGAACAATATTACAATAACTACGCGCTTGGAGGCGGCCGACTCGTTAAAGCTCCGACCTATTTCGGCGCGGTGGATGACTGGGGGCTCCCCTATTATTATCGGGACGCCTGCTCTTTCAACGATCGGGTGGAGGAGGTGTTTCCTAGTGCCAAGGAAGCAGCGGCAGCCGGTTATCATGAGAAAAGCTGTTATAATCCCGGTATCCCGTGA	MNTVQERLAYYIQRHNQVALRNGISYTFTLPLISQEEWVNTIDDIGMMAFIQGIPMGEQYYNNYALGGGRLVKAPTYFGAVDDWGLPYYYRDACSFNDRVEEVFPSAKEAAAAGYHEKSCYNPGIP				NA	NA	NA	NA	NA
AK002_02479	1554	ybiT_1	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGAGTTTATTGACCGTAGAGAACGTATCGCATAATTTCGGGGATCGTACTCTATTCAAGAATGTATCTTTTCGTTTGCTGGCCAGCGAACATGTCGGTCTTGTCGGAGCAAACGGCGTAGGAAAATCTACGCTAATGAATATTTTGACGGGTCAGCTGCTTAAAGACAGCGGCAAGGTAGAGTGGACGCCGAAAATCCGTTACGGATACTTGGATCAGCATACCAAGCTGACACCGGGCAAGACGGTGCGCGATGTACTGAAGGATGCCTTTCTGCCCCTGCTGGAGCTTGAAAAAGAAATGATGGAAATCACCAATAAGATGAGTGATGCAACCCCTGAAGAGCTGGAGCTTCTGCTCGAACAGATGGGTGAGATTCAGGAGCAGCTGGACATCGGGGATTTCTACATGCTGGACGTCAAGGTTGAGGAAATGGCGAACGGTCTTGGGTTGTCCGTGATTGGCCTGGATCGCGATGTAGCGACATTAAGCGGAGGGCAGCGAACCAAGGTGCTGCTGGCAAAGCTTCTGCTGGAGAAGCCTAACGTTCTTCTATTGGACGAGCCTACCAACTATCTGGATGTCGAGCACATTGAATGGCTGACTCAATATTTGAAGCAGTACCCCTATGCGTTCATTTTGATTTCCCATGATACGGAATTTATGAACCAGGTGGTCGACGTCATCTATCATTTGGAATTTGCAAAATTAACGCGTTATACAGCGAACTACGAGAAGTTTCTGGAAATGGCCGATATCAACAAGAATCAGCATATCGATGCCTACGAGAAGCAGCAGGAGTTCATTAAGAAGCAGGAAGACTTCATTCAGCGGAACAAGGCCCGCTACTCCACGTCCGGCCGAGCAAAGAGCCGGGAGAAGCAGCTGGATCGCTTGGATCGGATTGACCGTCCTGAGGAAGCGGCTAAACCCGTGTTTAACTTCAAGGAAGCCCGCGCCAGCGGTAAAACGGTATTTGAGGGCATTGATTTTGAGATCGGCTACGATCGGCCATTGCTTCCCAAAATGAGCATCATGATCGAACGCGGAGAGAAGATTGCCATTGTGGGATGCAATGGCGTGGGTAAATCAACGCTGCTCAAGACCATCTTAGGGAAAATCCCGGCCTTCTCGGGCAAGACATATCAAGGAGACTTTCTGGTGCCCGCTTATTTCGAGCAGGAAGTACGTCCGGGGAATATCACGCCGATAGATGACGTGTGGAACGAATTCTCACATTTGAACCAACACGAGGTTCGTGCGGCCCTTGCTCGCTGCGGACTCAAAAACGAGCATATTACCCGTCCGATGAAGGCGCTTAGCGGTGGCGAACAGGCAAAAGTGCGTCTGTGTAAACTTCTGATGCGCGAGAGCAACTGGATTCTGTTTGACGAACCGACAAACCATCTTGACGTTGTGGCCAAGGAGGAACTGAAACGTGCCTTGAAGGAATACAAAGGCACCATCCTGTTGGTTTCCCACGAACCTGAATTTTATGAAGATTGGGTAACGAAGATCTGGAACGTCGAAGATTGGTCCAACCAGAACGCTTGA	MSLLTVENVSHNFGDRTLFKNVSFRLLASEHVGLVGANGVGKSTLMNILTGQLLKDSGKVEWTPKIRYGYLDQHTKLTPGKTVRDVLKDAFLPLLELEKEMMEITNKMSDATPEELELLLEQMGEIQEQLDIGDFYMLDVKVEEMANGLGLSVIGLDRDVATLSGGQRTKVLLAKLLLEKPNVLLLDEPTNYLDVEHIEWLTQYLKQYPYAFILISHDTEFMNQVVDVIYHLEFAKLTRYTANYEKFLEMADINKNQHIDAYEKQQEFIKKQEDFIQRNKARYSTSGRAKSREKQLDRLDRIDRPEEAAKPVFNFKEARASGKTVFEGIDFEIGYDRPLLPKMSIMIERGEKIAIVGCNGVGKSTLLKTILGKIPAFSGKTYQGDFLVPAYFEQEVRPGNITPIDDVWNEFSHLNQHEVRAALARCGLKNEHITRPMKALSGGEQAKVRLCKLLMRESNWILFDEPTNHLDVVAKEELKRALKEYKGTILLVSHEPEFYEDWVTKIWNVEDWSNQNA				NA	NA	NA	NA	NA
AK002_02480	174			hypothetical protein	TTGACCCAATTGACGATCACGATCCTGCTCACAAGTTGGATGATGAACCTGAATCTAAACGAGTTTAATCGTTTTTCCTTAAGGATGACCGGCAGCACGCTGCTGGGCATCCTTTTTGGCGTACTTGATCGTATGCGGCTCTCAGTCCTGCTATGGATGAATCCTTTTTTATGA	MTQLTITILLTSWMMNLNLNEFNRFSLRMTGSTLLGILFGVLDRMRLSVLLWMNPFL				NA	NA	NA	NA	NA
AK002_02481	810			hypothetical protein	ATGAATTCGGATAATCCACCAGGACAGGGAGAGGACCTTATTCTCTCCGCCGAGAAGTCGGTTGTACGACGAGGTCAGGTTGTGTATCGACCATGCGGGGAATGGACCCCGTCCGTACACTCCTTAATAAGGCATTTGAAGCAAGCAGGGTTTACGTCCCTGCCCGATATTATTGGCCCGGGTTGGAATGAGGAAGGTCAAGAGACGTTAAGTTATGTAGAGGGCGAATTTGTTCATCCCGGACCTTGGAGCGATGAAGCCATCGTCGCAGTAGGACGATTATTACGTCAGCTTCATGACGCTTCCGCTACATTCTCGCCGGGTCCCAAGGGAGTATGGAAACCGTGGTTTCTGCGTGAACTGGGCGATTCCGGGGTTGTATACAGCCATGGTGATATTGCTCCTTGGAATATGGTTACCCGCGATGGGATGCCTTACGCTTTAATTGACTGGGAATTCGCGGGACCTGTACATCCGCTTGTTGAGTTAGCCCGGGTATGCTGGCTCTTCCCGCAGCTGCACGATGATGATGTTGCCGAAAGAGTCGGCTTGCCGGATGCTAATGCCCGTGCAAGGCAGCTCCGTTTATTGGTTGACGCTTATGGCGTCGAACCTTCTCTTCGAACGGACTTGTTGGACATGATCGTAGAGGTGGTCGTGCGGGAAACGGCTGAAGAAGCCATTGAGCAGCAGGTATCGCCGGAAACGGAAGGTCTGTTGTGGGGAATCGCCTGGAGGGCTCGAAGCGCTGCCTGGATACTGCGTCATCGTAGTATCCTTGAGAAGGCGCTGAATACCCGATTGTATTAA	MNSDNPPGQGEDLILSAEKSVVRRGQVVYRPCGEWTPSVHSLIRHLKQAGFTSLPDIIGPGWNEEGQETLSYVEGEFVHPGPWSDEAIVAVGRLLRQLHDASATFSPGPKGVWKPWFLRELGDSGVVYSHGDIAPWNMVTRDGMPYALIDWEFAGPVHPLVELARVCWLFPQLHDDDVAERVGLPDANARARQLRLLVDAYGVEPSLRTDLLDMIVEVVVRETAEEAIEQQVSPETEGLLWGIAWRARSAAWILRHRSILEKALNTRLY				NA	NA	NA	NA	NA
AK002_02482	1128			hypothetical protein	ATGTCTGGATTACACGATAACAGGGGGAAGGCAAACCTCGAGGGGCACCAAATGAACACTGCCTTGGAGTCCTCGGACGGCAAGGAGGATGCTATAGCGGAAAGAGAGGATCGGTATTCCAGGCAAGAGCGGTTCACGCCATTGGGAAAGGAAGGACAGCTTCGCCTCCGGAACAGCCGCGTGCTCGTTCTCGGCGCAGGGGCGCTGGGAAGCGCCGTGTTGGAGACCTTGGTTCGCGCAGGCGTCGGACACGTGACCATCGTGGACCGGGATTACGTGGAATGGAGCAATCTGCAGCGTCAGCAGCTGTTTACCGAGCAGGATGCCATCAACCGGCTGCCTAAGGCCGTAGCTGCAGCCACGCGATTATCCGAGATCAACTCGGACGTCATCGTGGAGGGTATCGTTATGGATGTACGAGCCCATGAATTGTCGGTGCTGTGCCAAGGCGTTGACTTGATGATGGACGCTACCGATAATTTTGGAACCCGGCTGATCTTGAACGACATCGGTTTCAAGCATGGAATTCCGTGGATTTACGGGGGATGTGTCGGGAGCTCCGGGATGAGTTATACGTTTTTACCGGGAGAAACCCCATGTTTGAACTGTTTGCTTGGAATGATTCCTTTAGGCGGCGACACTTGCGACATTAATGGCATTCTCCCCCAAGCGGTACAGATGGTTGCTGCCCATCAAACGATGGAGGCGCTGAAGGTGTTATCCGGAAACCGCCAAGCCCTAAGGAAAAAGATGCTGTCTTTTGATTTATGGCGTAACGAACGGATGGAATTCGGTGTAGACCGCGCAAAAAAATCGGACTGCTCCACATGCGGCGAGGAACCGACATACCCTTATCTGTCGGCTGAACATGCCGACAAAAGCGAAGTATTGTGCGGCAGGGACACCGTGCAGATCAGGCCGGGCAGACCCATGCAGCTTCAACTGGAGGAGATGGCGGATCGATTGAACAGCCTGCGTCAAGGAAAAGCCACCGTTACCCCCTATATGATCATTTATCAGGCGAGTCCGCACCGTTTGGTTATATTTCAAGACGGCAGAACCCTGGTGCATGGCACATCGGATATCGCCAAGGCTAGATCGCTATATAATCAATACGTTGGCGGTTAA	MSGLHDNRGKANLEGHQMNTALESSDGKEDAIAEREDRYSRQERFTPLGKEGQLRLRNSRVLVLGAGALGSAVLETLVRAGVGHVTIVDRDYVEWSNLQRQQLFTEQDAINRLPKAVAAATRLSEINSDVIVEGIVMDVRAHELSVLCQGVDLMMDATDNFGTRLILNDIGFKHGIPWIYGGCVGSSGMSYTFLPGETPCLNCLLGMIPLGGDTCDINGILPQAVQMVAAHQTMEALKVLSGNRQALRKKMLSFDLWRNERMEFGVDRAKKSDCSTCGEEPTYPYLSAEHADKSEVLCGRDTVQIRPGRPMQLQLEEMADRLNSLRQGKATVTPYMIIYQASPHRLVIFQDGRTLVHGTSDIAKARSLYNQYVGG	PGPT0008935_2	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008935-thiF-K03148	NA	NA
AK002_02483	3363			hypothetical protein	ATGCGCAACAAACTCGTGGCATGGCCTTTAGTCGTAGCCATGCTGGTATCCATTGTATTCACGGCCGGCGGGCCTCCAGCTAAGGCTTCTGCAGCAGGCGGAACAAACCTATCCATCGGTAAAAACGTGACGGCTAGCGGCCAATCCCAAACCTACGGGCCGTCCCACGTAAACGATGGCAATCCAAATTCGTACTGGGAAAGCACCAACCATGCGTTTCCGCAGTGGATACAAGTGGATCTCGGTGCCGCCACCAGCATCAACGAAATCGTTCTAAAACTTCCTGCCAGTTGGGAGCCGCGGACTCAAACGCTGAGCGTACAAGGCAGCTTGAACGGCACGACATTCACAAATATCACAGGTCCGTCCGGCTATGCATTAGACCCTGCCGAAGGAAACTCGGTGACCGTCAGCTTTGACGAAACGAGCACGAGATATGTTCGTTTAAGCGTAACCAACAATACGACATGGCCGGCTGCGCAGCTGTCTGAATTTGAAATATATGGACCATCGGTCTCCCCGCCGACGCCTCCGACGGGAAACAATATCGCGAGCGGCAAACCGATCACCGCCTCCTCAAGCACATTCACGTATGTAGCGGCCCATGCTAACGACAACAACGTCCAAACTTACTGGGAAGGCGGCAGCAACCCCAGCACGCTGACCCTGGATCTTGAATCAAACCATGATATTACCTCCATCGTACTGAAACTGAATCCGTCCCCGGAATGGAGCGTCCGCACGCAAACCATACAAGTCCTTGGGCATGACCAAACTACAACAACCTTTAGTAATCTGGTGTCGGCGCAGTCCTATACGTTCACTCCCGCTTCCGGCAATTTCGTAACGATTCCGATAAATGCAACGGTTAAACGTCTGCAATTGAACATAACATCGAATTCCGGCGCCCCTGCAGGACAGATTGCGGAAATTGAAGTGTATGGCACCGCCGGCGAGAATCCGGACCTTACCATTACGGGTATGTCCTGGACGCCGACTTCTCCGAGCGAAAACGATGATATCACACTGCATGCCACGGTTAAAAACATTGGAAGCTCGGAAGCCGGCGCTACGACGGTCAATTTTTACCTGAATGACGCTAAAGCAGGCTCATCACCGGTAGGGCCGCTTGCAGCAGGAGCTTCCGCCACGGTATCCCTGCAAGCCGGAGCCCAAGCGGCAGCATCGTATGCACTCAGCGCTAAGGTCGACGAGGAAAACAACATCATCGAGCTAAACGATGGGAACAACAGCTATTCCCATTCGTCCCCTTTGGTCATTGGCAGCGTGGAAAGCTCCGATTTGGTAGGAACGATACAGTGGACGCCAACCACGCCTATGGCCGGCAATGCCGTAGCCTTCACCGTCAATCTTAGGAACCAAGGCAACAAAGCCACGGCTAGCGGCTCACATGCAATTTCCGTTGCGCTGAAAAATCCGGCAGGCTCAACGATCCAGAACTTTGACGGTAGCTACCATGGCGCCCTTGCCGCAGGCGCCTCCGCCACCGTCCAAATTCCCGGCACATGGACCGCTGCAAATGGCAGCTATACATTAACAACGTCCGTGGCACCCGATGCTAACGAAGTACCGGCTAAAAGGGAAAACAATGTTAGTCATGCCAACCTAACCGTGTACTCATCACGCGGTGCCAGCAAGCCATATACCCGCTATGATACCGATGATGCCATACGCGGCGGCGGCGCATTGCTAAAGTCAGCGCCAACGTTCGATCAAGCGCTCACGGCATCGGAAGCATCCGGACAGCGTTATGTTGCTCTCCCTTCAAGCGGATCCAACCTCGAATGGACGGTTCGAGAAGGCGAAGGGGGCGCAGGCATCACCATGCGATATACGATGCCGGACTCATCGGACGGCATGGGATTAAACGGCTCGCTTGACGTCTATGTAAACGGTTCGAAGAAGAAGACAGTTCCATTAACTTCCTACTATAGCTGGCAATATTTTTCCAGCGATCATCCGGCAGATGCGCCTGGAGGAGGACGTCCTCTATTCCGGTTCGATGAAGTACATTGGAAACTGGAGACACCGCTTCAGCCTGGAGACAAAATCCGTATTCAGAAGTCTAATGCGGATAACCTGGAATACGGCGTCGATTTCATCGAAATCGAGCCGGTACCTGCCGCTATCTCCCGTCCGGCCAACTCGGTCTCCGTCACGGATTTCGGTGCGATCCCGAACGACAGCCAAGATGACCTAACGGCATTTGAGGCTGCCGTGCAGGCAGCGGCCTCATCAGGCAAAACCCTATACATTCCTGAGGGGACGTTCCATTTGGGCAATATGTGGAAAATCGGCTCGGTCGGCAATCTGATTGATGACATGAAGATTATGGGGGCAGGCATCTGGCACACCAACATCCAATTTACCAACCCGAATGCGGCTTCCGGCGGGATCTCGCTACGAATCGCGGGCCAGCTGGATTTCAGCCATATCTACCTCAACTCGAATCTGCGGTCCCGATATAATCAGAATGCCGTTTACAAAGGATTCATGGACAATTTCGGCACCAACTCCAAGATTCACAATGTGTGGGTGGAGCATTTCGAATGCGGATTCTGGGTTGGCGATTATGCCCATACGCCGGCCAAGATCGCGGAAGGGCTGGTCATTGAAAACAGTCGGATCCGCAATAACTTAGCGGATGGGGTTAATTTTGCGCAGGGGACCAGCCATTCGACGGTGCGCAACAGCAGCATTCGAAATAACGGCGACGATGGACTCGCTGTCTGGACGAGTAACGTGAACGGTGCACCAGCGGGTGTTAACAACACCTTCTCCTATAACACCATCGAAAACAACTGGCGCGCGGCAGCCATCGCTTTCTTTGGGGGAAGCGGTCACAAGGCCACTCACAATTTGATTGTAGACACCGTTGGCGGTTCCGGCATCCGAATGAACACGGTATTCCCGGGATACCATTTCCAGAACAATACCGGCATTCTGTTCTCCGATACCACCATCATAGGCAGTGGTACCAGTAAAGACTTGTACAGCGGGGAGCGCGGCGCCATCGATCTTGAAGCATCGAATGATCCGATCCGCAATGTTACGTTTACCGACATCGATATTCTGAACACCCAGCGCAGTGCGGTACAGTTCGGTTATGGCGGCGGGTTTGAGAACATCGTGTTTAACCATATCCGTATAGACGGTACGGGACTTGACGGAGTAACGACCTCGAGATTCTCGAGCCCTCATCCGGGTGCGGCGATCTACACGTACACGGGCAACGGGTCCGCAACATTCAACAATCTGACCATGCAGAATATCGCTCACCCTGATCTGTATTTCATCCAGAACGGTTTCCATTTAATTTTGAATGAAGCGATTGGGGATTAA	MRNKLVAWPLVVAMLVSIVFTAGGPPAKASAAGGTNLSIGKNVTASGQSQTYGPSHVNDGNPNSYWESTNHAFPQWIQVDLGAATSINEIVLKLPASWEPRTQTLSVQGSLNGTTFTNITGPSGYALDPAEGNSVTVSFDETSTRYVRLSVTNNTTWPAAQLSEFEIYGPSVSPPTPPTGNNIASGKPITASSSTFTYVAAHANDNNVQTYWEGGSNPSTLTLDLESNHDITSIVLKLNPSPEWSVRTQTIQVLGHDQTTTTFSNLVSAQSYTFTPASGNFVTIPINATVKRLQLNITSNSGAPAGQIAEIEVYGTAGENPDLTITGMSWTPTSPSENDDITLHATVKNIGSSEAGATTVNFYLNDAKAGSSPVGPLAAGASATVSLQAGAQAAASYALSAKVDEENNIIELNDGNNSYSHSSPLVIGSVESSDLVGTIQWTPTTPMAGNAVAFTVNLRNQGNKATASGSHAISVALKNPAGSTIQNFDGSYHGALAAGASATVQIPGTWTAANGSYTLTTSVAPDANEVPAKRENNVSHANLTVYSSRGASKPYTRYDTDDAIRGGGALLKSAPTFDQALTASEASGQRYVALPSSGSNLEWTVREGEGGAGITMRYTMPDSSDGMGLNGSLDVYVNGSKKKTVPLTSYYSWQYFSSDHPADAPGGGRPLFRFDEVHWKLETPLQPGDKIRIQKSNADNLEYGVDFIEIEPVPAAISRPANSVSVTDFGAIPNDSQDDLTAFEAAVQAAASSGKTLYIPEGTFHLGNMWKIGSVGNLIDDMKIMGAGIWHTNIQFTNPNAASGGISLRIAGQLDFSHIYLNSNLRSRYNQNAVYKGFMDNFGTNSKIHNVWVEHFECGFWVGDYAHTPAKIAEGLVIENSRIRNNLADGVNFAQGTSHSTVRNSSIRNNGDDGLAVWTSNVNGAPAGVNNTFSYNTIENNWRAAAIAFFGGSGHKATHNLIVDTVGGSGIRMNTVFPGYHFQNNTGILFSDTTIIGSGTSKDLYSGERGAIDLEASNDPIRNVTFTDIDILNTQRSAVQFGYGGGFENIVFNHIRIDGTGLDGVTTSRFSSPHPGAAIYTYTGNGSATFNNLTMQNIAHPDLYFIQNGFHLILNEAIGD				NA	NA	NA	NA	NA
AK002_02484	720	copR		Transcriptional activator protein CopR	GTGGACAAAGTCATTTTGATCGCGGCAGACAATCAAGCTCGGATCCAGACGATAACGGAGATACTAGAACAAGCGGGTTATAAGGTTACAGACGCTGCGAATTATTCGGAAGTGGTTGCCGCTTTGCAGCGCGCAGGCGCAGACCTGCTGCTCATCGACAGCAGACTGCCGGGTATGAACCAATTCAATCTCGTGGAGCGACTGACGGGCAGAGGGGAACAGCTCCCGATCATTGTCATCGGAAGCGACGGTTCTAATGAAGCGATTCATGCTTTGGAGGCTGGAGCCCATGACTACATCCCAAATGACAGGGATGAGAGGGAGCTGTTGGCGCGAATTGCCAATTTGCTGAGGCTTTTTCAGACGGGACGCGCGGAACAGGAGGAGATCATCCGAATCGGAGATCTGGTGATCGATCCTTTGAGCCGCAATGTAATTCGGGAAGAGGAGCCCGTGGAACTGACTCATCGCGAATACGATTTGCTGTTGTTTTTGGCCCGAAGGCAGGGGCAGGTATGCACGCGTGAGGATATTTTAAAACAGGTATGGGATTATGATTTTCATACGGGTACCAACGTGGTCGATGTCTACATTCTCCATTTGAGAGAGAAGATCGATAGAGGGCGCAAGCAAAAACTGCTTCGTACGATACGGGGGGCCGGTTATAAGCTTTTGTCCCAGGAAGAAATCGATGCAAGCAAAAAAGACCGCCTTCCCTGA	MDKVILIAADNQARIQTITEILEQAGYKVTDAANYSEVVAALQRAGADLLLIDSRLPGMNQFNLVERLTGRGEQLPIIVIGSDGSNEAIHALEAGAHDYIPNDRDERELLARIANLLRLFQTGRAEQEEIIRIGDLVIDPLSRNVIREEEPVELTHREYDLLLFLARRQGQVCTREDILKQVWDYDFHTGTNVVDVYILHLREKIDRGRKQKLLRTIRGAGYKLLSQEEIDASKKDRLP	PGPT0002665_350	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_02485	495			hypothetical protein	ATGAATCGACAGAATTGGATTAAGAAGGCCGTAGTCATCAGCTTGAGCGCAACTTTGGGCGTAGGCGCAGTACTAACTGTTGCACCGCCGGCACCTGTTGAAGCAGCATCCGTAAGCACAGGAACTCGAGTTGTTAACTTTGGTAAACAATATATGGGAACACCTTATAAATTCGGAGCATCCACATCCACGACAAGAGTGTTTGATTGCTCTTCCTTCATGAAACATATCTTTAAAAAATACGGCGTGAACCTGCCGCGTACGTCCGCTGCCCAATCCAAGGTCGGCAAGGCCGTTTCGAAATCGAACCTGAGAGCCGGCGATCTGGTATTCTTCTCGAGCGGAAGCCGTGCGAATGGCAGAAACGTAACACACGTTGCCGTTTATATGGGCAACAACAAAATCTTGCACACTTACGGCAAGCCTGGCGTAACGATCTCCAGCCTGTCCGGCAACTGGAGCAAGACTTACCTGAAAGCTCGTCGCGTACTGTAG	MNRQNWIKKAVVISLSATLGVGAVLTVAPPAPVEAASVSTGTRVVNFGKQYMGTPYKFGASTSTTRVFDCSSFMKHIFKKYGVNLPRTSAAQSKVGKAVSKSNLRAGDLVFFSSGSRANGRNVTHVAVYMGNNKILHTYGKPGVTISSLSGNWSKTYLKARRVL	PGPT0023820_615	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
AK002_02486	645	thiN	COG1564	Thiamine pyrophosphokinase	ATGAAACACACTCGCGTCCTGATCTTCACAGGTGGGGAGTTGTCAACGGGATTCCTGAATGAGGTCCAAGAAGGGGATTTCATTATAGGAGCCGATCGCGGCGCTCTCTTCTTGATTGAACATGGAATCAAACCCGATCTGTCCGTCGGAGATTTCGATTCCATTCCGCCCGAGCAGATGGATCGTGTCCACTCTATGAGCGGAAAGGTCATCGATTGTGACCCGATCGATAAAAATTTGACCGATACCGAGCTTGCCTTCGAGCTGGCAATGGAACGCTCGCCCGAATCCATCATGATTCTGGGGGCTACGGGCACGCGCCTGGATCATACGCTGGCGAATATCCACATGCTCATTCGCGGCCTTCAGCATCATATCCCGTGTTCCATATTAGATGAAAACAATTTTATTACCCTGACGGGCTCCAGCTGTCTTGTCGAGAACAAAGGGTTTACATATGTCTCTCTTCTGCCGCTCACCACGGAAGTTACCGGCATTTATCTCGAAGGTTTTCAGTATCCGCTCCAAGATGCCACATTGCGATTGGGGCAGTCGCTCGGGGTCAGCAACAGGCTGGCCGAGGAGAAAGGAACGGTTCGGATCGAAGGCGGTCTGCTGCTCATTATCCAAAGCAAGGATCGCTAA	MKHTRVLIFTGGELSTGFLNEVQEGDFIIGADRGALFLIEHGIKPDLSVGDFDSIPPEQMDRVHSMSGKVIDCDPIDKNLTDTELAFELAMERSPESIMILGATGTRLDHTLANIHMLIRGLQHHIPCSILDENNFITLTGSSCLVENKGFTYVSLLPLTTEVTGIYLEGFQYPLQDATLRLGQSLGVSNRLAEEKGTVRIEGGLLLIIQSKDR	PGPT0009035_1332	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
AK002_02487	654			hypothetical protein	TTGGACATGCATGTGTTTGACGTATTCAGCATCATTGGCACCATTGCGTTTGCCATGTCCGGAGCTTTTGTGGCAATGGAAGAGGAATACGATATTTTGGGGGTTGTGGTGCTTGGATTGGTCACGGCCTTCGGCGGGGGTATTATAAGAAACGTCCTGATCGGCGTGCCGGTTACCACCCTGTGGGGTCAGGGAGATTTAATCATGCTGGCGATGATTTCGGTTTTCGTGGCGTTTGTGCTGCCGCTCGGCTTGATTCAGCATTGGAAGAAAACGGAGGCCTTGTTTGATGCGATCGGACTATCCGCCTTCGCGATTCAAGGAGCATTATATGCTACGCAAATGAATCACCCATTGAGCGCGGTCATCGTGGCGGCTGTGCTGACAGGCAGCGGCGGGGGAATGGTCCGCGATTTGCTGGCCGGGCGGAAGCCGCTCGTGCTTCGCGACGAGATTTACGCGGTCTGGGCCATGGCAGCAGGTGTCGCTATCGGCTTAGGGGTCGCCACCAAGACCTGGCAGCTGTTGACCTTATTTGTTATAGTCATCGTTTTCAGGATGCTGTCCGTTCTATATAAATGGAGATTGCCCAGAAGGTCGCTGCACGCAGCCCAGTCTTCGGCAGCCAGCGGAAAAGAAGTCAGATCCGGTTAA	MDMHVFDVFSIIGTIAFAMSGAFVAMEEEYDILGVVVLGLVTAFGGGIIRNVLIGVPVTTLWGQGDLIMLAMISVFVAFVLPLGLIQHWKKTEALFDAIGLSAFAIQGALYATQMNHPLSAVIVAAVLTGSGGGMVRDLLAGRKPLVLRDEIYAVWAMAAGVAIGLGVATKTWQLLTLFVIVIVFRMLSVLYKWRLPRRSLHAAQSSAASGKEVRSG				NA	NA	NA	NA	NA
AK002_02488	465	yfkJ	COG0394	Low molecular weight protein-tyrosine-phosphatase YfkJ	ATGGTATCCGTTTTGTTTGTATGTTTGGGCAATATCTGCCGCTCGCCCATGGCGGAAGCGGTGCTGCGGCATAAAATTGTACAACGCGGGCTGCAGGATCAAATAAGCGTGGATTCGGCCGGCACCGGAGATTGGCATATCGGCAGCGTTCCCCATGAAGGCACGAGAAAGCTGCTAGACAGCTGGCGAATCAGTTATGAAGGAATGGTCGCGCGCAAAGTAGTCAGCGAGGACCTTGAACGATTCGATTACGTTATCGGCATGGATGATTCGAATGTAGCGAATATCCGCAAGTTAGCGGGAGGCGATCAGGCTGGGATTCTGAAGTTCATGGATTTGCTGCCGAACGAAAAATTGCGCGAGGTGCCCGATCCGTATTTCACCGGAAACTTTGACGAGGTGTACCGGCTGATTGATGCGGGGTGTGACATCTTACTGGACAAAATCATGGAAGAAAAGCTATAA	MVSVLFVCLGNICRSPMAEAVLRHKIVQRGLQDQISVDSAGTGDWHIGSVPHEGTRKLLDSWRISYEGMVARKVVSEDLERFDYVIGMDDSNVANIRKLAGGDQAGILKFMDLLPNEKLREVPDPYFTGNFDEVYRLIDAGCDILLDKIMEEKL	PGPT0014530_6259	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
AK002_02489	729	ybbA	COG2819	putative protein YbbA	ATGACGAATGAACGTTTATTGAAGCGAACCATCGTAAAAGAAGTGATTGACAGCAAGTTTTTGCAGGAGACTCGAACGCTGCGCATTTATCTTCCTCCCGGATACAATGAAATCCTCAGCTATCCCGTCGTTTACTGTCAGGACGGAGAGGAATTTTTCAACTTCGGCCGCATCGCGACCTGGGCCAACCAGCTCATTCTCGAAGAAGGCGTGGAGCCGTTCATCATTGTGGGCGTGGAAGTGAACACCAAGGTACGAACCGAGGAGTACGCGCCGTTCGGCAACCGCTTCGATGCTTACCTGTCCTGCTTCGCCGAAGAGATTATTCCCTTCGTGGAGCAAAAATATCCCGTGCGCAAAGAGCCTGCGGAAAGAGTGCTTGCCGGCGACTCCCTCGGGGGAAGCGTCTCCGTGCATTTGGCCTTGCGTTATCCGCATCTTTTCACAAGAATCATCAGCTTGTCCGGGGCCTACTATGAGAAGACCCAGAACATGATTCAGGAAGAGCGTGATTTGTCCTGGCTCAACATTTACATGATTGTAGGCTTGCAAGAAGACAACTACACAACCGATACAGGTGTCTATAACTTCGTCGAATTAAATCGCTCAACAAAGGCTTTGCTGGAAGAACGGGGTGCTACCGTATCATATCTTGAAAAAGAAGGTCGTCACCTTTGGGGATTTTGGCAAAAAGAGCTCCCTGCTGCCCTTATGTACTTCCTTGGTTAA	MTNERLLKRTIVKEVIDSKFLQETRTLRIYLPPGYNEILSYPVVYCQDGEEFFNFGRIATWANQLILEEGVEPFIIVGVEVNTKVRTEEYAPFGNRFDAYLSCFAEEIIPFVEQKYPVRKEPAERVLAGDSLGGSVSVHLALRYPHLFTRIISLSGAYYEKTQNMIQEERDLSWLNIYMIVGLQEDNYTTDTGVYNFVELNRSTKALLEERGATVSYLEKEGRHLWGFWQKELPAALMYFLG				NA	NA	NA	NA	NA
AK002_02490	1068	pdhA		Pyruvate dehydrogenase E1 component subunit alpha	ATGACCAAGGTTCCTTATGAAGTATATACCGAGGAAGTAGGTACTCTATCTGTACTTTCCCCGGATGGCAAAATCGTAAACAAAGATCTTCTGCCTGAATTGTCGGACGATCAACTGAAAGAAATTATGTACCGTATGGTATTTACCCGTACTTGGGACGACCGCGCCGTAAACCTCGGCCGTCAAGGACGTCTCGGTTTCTACGCTCCTGTATCCGGTCAAGAAGCTACGATGGTAGGCAGTGAGTTTGCGCTTGAGAAAGACGACTTTATCTGCCCGGGCTACCGCGATATGCCGCAAATCGTATGGCATGGACTTCCGCTTTACCAAGCATTCCTTTATTCCCGCGGACATCAGCATGGCGGACAAATTCCCGAAGGCGTTAATGTATTGATGCCTCAGATCATCATCGGCGCGCAAATCCTGCATGCCATGGGTATCGCTATGGGCTACAAATTGAAGAAGCAAAAACAAGTGGTTATTACGTATACCGGTGACGGCGGCTCTTCCGAGGGCGACTTCTACGAAGGCCTGAACTATGCAGGCGTGTACAAACTGCCGGTCATCTTCTTCGTGCAAAACAACGGCTACGCAATTACGACTCCGTTCTCCAAGCAGACAGCAGCGTTGTCTATCGCGCACAAAGCTGTTGCAGCCGGCATCAAAGGCGTTAAAGTTGACGGCATGGACGTTCTCGCCGTGATCAAAGCGGTTCAGGATGCTGCAGAGCGCGGCCGCAACGGTGAAGGCGCAACGCTGATCGAAGCCGTGACATACCGTTTCCGTCCGCATTCCTTGTCTGACGACGCTACGAAATATCGTACGAAGGAAGAAGAGGGCGAGTGGAACGAGAAGGATCCGATCGCGCGTCTTGCGAAGTACCTGGAAGCCAAAGGCCTCTGGACAGAAGAAGATACAGCTCGCGTGAAAGAAGAAGCGAAAGCGAAAGTCAACGAGCAAATCAAAAAAGCAGAACAAACGGAAAAAATGACGGTACCTGGTTTGATCGACAGCATGTTCGAGCAAACGCCGAAGCATTTGGAAGAACAGAAAGCCGATTTCCAATAA	MTKVPYEVYTEEVGTLSVLSPDGKIVNKDLLPELSDDQLKEIMYRMVFTRTWDDRAVNLGRQGRLGFYAPVSGQEATMVGSEFALEKDDFICPGYRDMPQIVWHGLPLYQAFLYSRGHQHGGQIPEGVNVLMPQIIIGAQILHAMGIAMGYKLKKQKQVVITYTGDGGSSEGDFYEGLNYAGVYKLPVIFFVQNNGYAITTPFSKQTAALSIAHKAVAAGIKGVKVDGMDVLAVIKAVQDAAERGRNGEGATLIEAVTYRFRPHSLSDDATKYRTKEEEGEWNEKDPIARLAKYLEAKGLWTEEDTARVKEEAKAKVNEQIKKAEQTEKMTVPGLIDSMFEQTPKHLEEQKADFQ	PGPT0018025_1026	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
AK002_02491	978	pdhB		Pyruvate dehydrogenase E1 component subunit beta	ATGGCACAAATGAACATGAAAGAAGCGATTCGCGACGCCATGCGCGTTGAATTGAGCCGTGACCCTAACGTTGTCATCTTCGGTGAAGACGTAGGTAATGTCGGCGGTGTTTTCCGTGTAACGGAAGGCCTTCAAAAAGAATTCGGGGAAGAGCGCGTATTCGATACGCCGCTGGCAGAGTCCGCTATCGGCGGTTTGGCAGTAGGTCTCGGTATTCAAGGCTTCCGTCCGATCGCTGAAATTCAATTCGTTGGATTTATCTTTGAGGCGCTCGACCAAATCGTCGTTCAAGCAGCGCGCATGCGTTACCGTTCCGGCGGACGCTACAACTCCCCGATCGTATTCCGTACACCATTCGGCGGCGGGGTTAAAGCGGCTGAGCTGCATACCGACGCACTCGAAGGTTTGATCACGCAAACCCCGGGTATTAAAGTTGTAGTACCTTCCAATCCTTATGATGCAAAAGGACTCATGATCGCAGCGATTCGCGACAATGACCCTGTATTCTTCATGGAGCACTTGAACCTGTACCATGCGTTCCGCGCTGAAGTTCCTGAAGGTGATTACACCGTTGAGCTTGGCAAGGCTAACGTGGTTCGCGAAGGAACGGACGTTACGATCATCGCTTACGGCCTGATGGTTCATACTGCTACGAAAGCGGCAGACGAGCTTGAGAAGAACGGAATCAAAGCTGAAATCATCGACCTGCGCACCATTTCTCCAATCGACATCGATACCGTGCTGGCTTCGGTTAAGAAAACCAACCGTGCCATCGTCGTTCAAGAAGCGCAGAAATCTGCCGGCGTAGCCGCAGAAGTGATCGCTCAAATCAACGAGAAAGCGATTCTGCACCTGGAAGCACCGGTGCTTCGCGTTACGCCGCCAGACACCGTGTATCCATTCGCTCAAATCGAGGACACTTGGTTGCCTACTCCGGCGCGTATCGTTGATGCCGTAAATAAAGTATTGAATTTCTAA	MAQMNMKEAIRDAMRVELSRDPNVVIFGEDVGNVGGVFRVTEGLQKEFGEERVFDTPLAESAIGGLAVGLGIQGFRPIAEIQFVGFIFEALDQIVVQAARMRYRSGGRYNSPIVFRTPFGGGVKAAELHTDALEGLITQTPGIKVVVPSNPYDAKGLMIAAIRDNDPVFFMEHLNLYHAFRAEVPEGDYTVELGKANVVREGTDVTIIAYGLMVHTATKAADELEKNGIKAEIIDLRTISPIDIDTVLASVKKTNRAIVVQEAQKSAGVAAEVIAQINEKAILHLEAPVLRVTPPDTVYPFAQIEDTWLPTPARIVDAVNKVLNF	PGPT0019590_2557	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
AK002_02492	1323	pdhC	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	TTGGCAAAATTTGAATATCGTTTTCCAGAGCTGGGCGAAGGTTTGCATGAAGGTGAAATCATCAAAATGCATATCAAGCCGGGCGACAAAGTAACAGACGACGACATCATCATGGAAGTACAGAACGACAAGGCGGTCGTGGAAGTTCCTTGTCCCGTGAACGGTACGGTTCAAGAAGTTTTTGCCAAGGACGGTCAAGTATGCCGTGTCGGTGAAGTGGTTGCAATCATCGATGCTGAAGGCGACATTCCTGAGCAAGAAGCCCCTGCCGAAGAGCAGTCCGCTCAAGAAGCTGACGCAGCGAAAGGCAGCGCAGATACGACTTCTTCCCCGGCTCAAGATGCTCCGGCTGACGCTAAACAAGGCGGAAACGGCGAAGCAGCGACGCCTGCAGCACCTAACCGTGAAGTTCTGGCTACGCCAAGCGTGCGCAAATTCGCTCGCGAGCAGGGCGTTGACATCGCACAAATTCAAGGCTCCGGCAACAACGGAAAAGTGACTCGCGAAGATGTAGAAGCCTTCAAGAACGGTGGCGGCCAAACGGCAGCAGCTCCGGCGCAAGAAGCTGCTTCCGAAGCGAAAGCGGCTCCTGCTGCAGCTTCCGCAGCGGTGGACACTCGTGCAGAAGAAGAGCGCGTACCATTCAAAGGTATCCGCAAAGCGATCTCGAATGCTATGGTTAAATCGGCTTACACGGCTCCTCACGTTACGATCATGGACGAAGTAGACGTAACTGAGCTGGTAGCGTTCCGTACCCGCATGAAACCGATCGCTGAGAAGAAGGGCACGAAAGTTACGTATCTGCCATTCATCGTTAAAGCACTTGTTGCGGCAAGCCGTCAATTCCCTGCTTTGAACGCAATGATCGACGAAGAAGCGAACGAAATCGTGTACAAGAAGTACTACAACATCGGTATCGCCACGGATACAGATAACGGTCTGATCGTACCGGTTATCAAAGATGCGGATCGTAAGAGCATCTGGATGATCGCTGACAGCATCCGTGATCTGGCTGCACGCGGCCGTGAGGGCAAACTGGCTCCTAACGAAATGAAGGGCAGCACGATTTCCATCACGAACATCGGTTCCGCAGGGGGCATGTTCTTTACACCAATCATTAACTTCCCAGAGGTTGCTATCCTCGGTACCGGCCGCATCAGCGAAAAAGCGGTTGTGAAGAACGGCGAGATTGTAGCAGCACCTGTTATGGCATTGTCCTTGAGCTTTGACCACCGTATCATCGACGGCGCAACGGCTCAAAACTTTATGAACTATATTAAACAACTGCTCGCTAACCCTGAGCTGCTTGTTATGGAGGTGTAA	MAKFEYRFPELGEGLHEGEIIKMHIKPGDKVTDDDIIMEVQNDKAVVEVPCPVNGTVQEVFAKDGQVCRVGEVVAIIDAEGDIPEQEAPAEEQSAQEADAAKGSADTTSSPAQDAPADAKQGGNGEAATPAAPNREVLATPSVRKFAREQGVDIAQIQGSGNNGKVTREDVEAFKNGGGQTAAAPAQEAASEAKAAPAAASAAVDTRAEEERVPFKGIRKAISNAMVKSAYTAPHVTIMDEVDVTELVAFRTRMKPIAEKKGTKVTYLPFIVKALVAASRQFPALNAMIDEEANEIVYKKYYNIGIATDTDNGLIVPVIKDADRKSIWMIADSIRDLAARGREGKLAPNEMKGSTISITNIGSAGGMFFTPIINFPEVAILGTGRISEKAVVKNGEIVAAPVMALSLSFDHRIIDGATAQNFMNYIKQLLANPELLVMEV	PGPT0001390_4592	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
AK002_02493	1416	pdhD_2		Dihydrolipoyl dehydrogenase	ATGGTAGTTGGAGATGCTTCTTTAGATATTGATACTCTAGTCATTGGTGCTGGTCCTGGTGGTTATGTGGCGGCGATTCGTGCCGCCCAACTGGGTCAAAAGGTTCTGATCGTTGATAAATCGGAACTCGGCGGCGTTTGCTTGAACCGTGGTTGTATTCCTTCCAAGGCTTTGATCGCTGCAGCTCATCAGTTCGAATCCGCTAAGCATGCCGATGCTTTCGGTATTTCCGTGGAGAACGTAACGGTTGATTTCGCGAAAACACAGGAATTCAAAAACGGCGTTGTCAAAAAAATGACCGGCGGCGTAGCCGGTTTGCTGAAAGGCAACAAAGTGGAAGTTTTCAACGGCGAGTGCATGTTCATCAACGAAAACGAAGCGCGTGTGTTCAATGATCATGAATCTCCGCGTTACCGCTTCAAGAACTGCATCATTGCTACAGGTTCCCGTCCAATCGAACTGAAGCCATTCCCGTTTGGCGGACGCATCTTGTCTTCCACCGAAGCATTGAACCTGCCTGAAGTACCGAAGAGCATGATTGTCATCGGTGGCGGCTACATCGGTGCCGAGCTGGGTCAAATGTACTCCAAATTCGGTTCCAAAGTAACGATCATCGAAGGTCTGGACAGCGTTCTGGCTGGCTTTGACAAAGACATGACAAGCCTGGTTACCAAGAACATGAAGAAAACCGGTATCGAAATTATCACAGGCGCTAAAGCTGAAAGTGCTGAGCAAAACGATAAAGAAGTTACCGTGAAATACTCCGTGAATGGCGAAACCAAAGAAGTAACAGCAGATTACCTGCTGGTTACGGTTGGCCGTCGTCCGAACACGGACGGAGAGCTTGGTCTGGACCTGATCGGCCTCGATATGGATGAGCGCGGATTCGTGAAAGTCGACCATCAAGGACGCACCAGCATTCCTCATATCTTCGCGATCGGGGATATCGTGTCCGGTCTTGCGCTTGCACACAAAGCTTCCTACGAAGGTAAAGTGGCTGCTGAAGCGATCTCCGGAATGCCGTCCGTCGTGGATTACAAATGTATCCCGGCCGTTGTGTTCACGGATCCTGAATGCTCCAGCGTAGGTTACACCGAAGCTCAAGCGAAGGAAAAAGGCCATAAAGTAAAAGCTGGCAAATTCCCTTACGCAGGCAACGGACGTTCCGTATCCTTGAACCATCCGGAAGGCTTCGTGAAAATCGTGGCCGAAGAGGGAACAGGGCTTATTCTCGGAGCGCAAATCGTGGGTCTGGAAGCTTCCAACCTAATTGCCGAGCTCGGCCTAGCTATTGAAATGGGCGCTACGCTTGAAGATGTAGCTTTGACCATCCATGCGCATCCGACGCTGGGAGAGATCGTTATGGAAGCGGCGGAATTGGTAATGGGTCATCCGATCCACATCATTGCCCGTTAA	MVVGDASLDIDTLVIGAGPGGYVAAIRAAQLGQKVLIVDKSELGGVCLNRGCIPSKALIAAAHQFESAKHADAFGISVENVTVDFAKTQEFKNGVVKKMTGGVAGLLKGNKVEVFNGECMFINENEARVFNDHESPRYRFKNCIIATGSRPIELKPFPFGGRILSSTEALNLPEVPKSMIVIGGGYIGAELGQMYSKFGSKVTIIEGLDSVLAGFDKDMTSLVTKNMKKTGIEIITGAKAESAEQNDKEVTVKYSVNGETKEVTADYLLVTVGRRPNTDGELGLDLIGLDMDERGFVKVDHQGRTSIPHIFAIGDIVSGLALAHKASYEGKVAAEAISGMPSVVDYKCIPAVVFTDPECSSVGYTEAQAKEKGHKVKAGKFPYAGNGRSVSLNHPEGFVKIVAEEGTGLILGAQIVGLEASNLIAELGLAIEMGATLEDVALTIHAHPTLGEIVMEAAELVMGHPIHIIAR	PGPT0001380_4563	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
AK002_02494	795	thyA	COG0207	Thymidylate synthase	ATGAAACAATATTTGGAGCTGCTGCAGGACATACTGGATCATGGCGTAGAGAAGGGAGACCGGACCGGAACGGGAACGTTGTCCGTATTCGGAAGACAGCTGCGTTTTGACCTATCCCAAGGGTTTCCGCTAATGACAACCAAGCGGATTCACCTGAAATCGGTCGTACATGAGCTTCTGTGGTTCTTGAGCGGTGAAACGAATATCCGGTACCTAAAAGAGAACGGCGTGCGGATATGGGACGAATGGGCGGATGAAAACGGGGATTTGGGACCTGTCTACGGCTCCCAATGGCGGGCATGGGAAACGCCGGATGGACGCCATATCGATCAGATTGCGGGTGTCATCGATTCGATTAAGAATAATCCCGACTCCAGACGCCATATCGTCAGTGCCTGGAACGTGGCGGAGATTGATAACATGAAGCTGCCTCCGTGCCATTTTGTATTCCAATTCTACGTGGCGGGCGGGAAACTTTCCTGCATGCTTACCATGCGCTCGGTGGACAGCTTCCTCGGGCTGCCGTTCAACATTGCCAGTTATGCGCTGCTAACCCATATGGTTGCCCAGCAGTGCGACCTGGAGCCGGGTGAATTCATCTGGTCGGGCGGCGATGTCCATATCTATTCCAACCATATGGAGCAGGTTAGAACGCAGCTTGAACGTGAACCGTATGCGCTGCCGAAGCTGGTGATCAAGCGCAAGCCGGACAGCATTTTTGATTATACGTTCGAGGATTTTGAATTTGAGGGTTATCAATACCATCCGACCATTAAGGCGACGGTAGCCGTATAA	MKQYLELLQDILDHGVEKGDRTGTGTLSVFGRQLRFDLSQGFPLMTTKRIHLKSVVHELLWFLSGETNIRYLKENGVRIWDEWADENGDLGPVYGSQWRAWETPDGRHIDQIAGVIDSIKNNPDSRRHIVSAWNVAEIDNMKLPPCHFVFQFYVAGGKLSCMLTMRSVDSFLGLPFNIASYALLTHMVAQQCDLEPGEFIWSGGDVHIYSNHMEQVRTQLEREPYALPKLVIKRKPDSIFDYTFEDFEFEGYQYHPTIKATVAV	PGPT0008145_3802	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
AK002_02495	489			IS1595 family transposase ISSsu9	ATGATATCGATGATATGGGCAATGGGCAAGGATCAGGTGATCGGGCTGAACGGCACGATGCCGTGGCGCTTACCGCGGGATATGGCCTTCTTCAAGGAGAAAACCCTCCATAAAACGATCCTGATGGGGCGCAAGACTTGGGATTCCTTTGGCGGCAAGCCGCTGCCTCACCGAAAGAACATCGTGCTGACGAGGGATGAGAGCTTTACGTTGACAGAGGATCAGGGCATCGTGATCCATGACATCGAGAACGCGCTACCCTATTCGAAGAACGAGGAACTGATGGTGATTGGCGGATCGCAGATTTATGAATTGATGCTGCCGAAGGCGGATCGTCTGTACTGCACGTTCATTGACGAGAGCTTTGAAGGGGATACGTACTTTCCCGAAGTGAACTGGGATGAATGGAAGATCGTCGAAGAGGTTCCCGGCATCACGGACGAAAAAAATCCGTATGCCTACCGTTTCGTTACGTTTGAACGGAAATAA	MISMIWAMGKDQVIGLNGTMPWRLPRDMAFFKEKTLHKTILMGRKTWDSFGGKPLPHRKNIVLTRDESFTLTEDQGIVIHDIENALPYSKNEELMVIGGSQIYELMLPKADRLYCTFIDESFEGDTYFPEVNWDEWKIVEEVPGITDEKNPYAYRFVTFERK	PGPT0007945_3279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
AK002_02496	1488	gltB_1	COG0493	Glutamate synthase [NADPH] small chain	ATGTCTACACCAACAGGATTTATGGAATATCAGCGCCAGCTTCCGGTTGACCGGAGCCCGGCTGAACGAGTTAAAGACTGGGAAGAGTTTCATAAACATTTAGAAGAAGATGAGCTCCAGACCCAGGGAGCACGCTGCATGGACTGCGGTACGCCATACTGCCATACAGGAATCGATATGATCGGCGGCACATCGGGCTGCCCGATCCACAACCTGATCCCGGAGTGGAACAATCTTGTATATCGGGGCTTGTGGAGAGAAGCTCTGGAGCGTCTCCACAAAACGAACAATTTCCCTGAGTTTACCGGACGCGTATGTCCAGCTCCTTGCGAGGGTTCTTGTACCGTCGGCTTGATCGGGGAGCCGGTTACGATCAAATCCATCGAGCAGGCGATTATCGACAAAGGCTTTGAGGAAGGCTGGGTCGTTCCGGAGCCGCCCGAGAAGCGCACGGGAAGACGCGTAGCCGTTGTCGGTTCCGGTCCGGCAGGACTGGCGGCAGCAGCACAGCTGAACAAAGCGGGCCATTCCGTCACCGTCTACGAGCGTGCGGACCGCATTGGCGGCTTGTTGACCTACGGGATACCATCCATGAAGCTGGACAAGGGCATCGTGCAGCGCCGTGTCGATCTGCTCGCGGCGGAAGGCGTCGAATTTGTTGTGAACACCGAGATCGGCAAGGATATTCCCGCCAAGCAGCTGATGGAAGATTATGATGCCGTCGTACTCTGCGGCGGTGCAACAAAGCCGCGCGAATTCAACATTGAGGGCAGTGATCTCAAGGGCATTCATTACGCGATGGATTACCTGAACGGAACGATCAAGAGCCTGCTGGATTCCGGTCTTGAAGACGGCAACTACTTGTCGGCAAAAGACAAGGACGTTATCGTCATCGGCGGCGGCGACACCGGCTCCGACTGCGTGGCGACAGCGCTGCGTCACGGCTGCAGCAGCGTTACCCAGTTCGGTACGCATAAACAGGCTCCGCTGCAGCGCGATCCGATTGCGAACCCTTGGCCGCAATTCCCGAACGTGTATACACTGGATTACGCCCATGAGGAAGCCAAAGCGCTGTTTGGCAACGATCCGCGGGAATTCTCCATCATGACTACGAAATTCGTCGGGGATGATGAAGGGAATCTGAAAGAGCTTCATACCGTTCAAATCGAGCGCATTGTAGATGAAACCGGCCGTAAAGTGTATCAGCCGATTCCAGGCACGGAAAAAGCGTTTCCGGCGCAAATGGCGTTTATCGCGATCGGTTTTGACGGACCGGAGCAGACGCTGGTAGAACAGCTTGAACTTGAAACGGACCGTCGTTCCAATGTTAAAGCGCCGTATGGCAAATATACGACGAATGTGGATAAAGTATTTGCAGCCGGCGACATGCGCCGCGGACAAAGCCTTGTTGTGTGGGCGATCAATGAAGGCCGCGAGGTGGCACGCGAGGTAGACAAATATCTGATGGGCGCGACCGTACTGGTTTAA	MSTPTGFMEYQRQLPVDRSPAERVKDWEEFHKHLEEDELQTQGARCMDCGTPYCHTGIDMIGGTSGCPIHNLIPEWNNLVYRGLWREALERLHKTNNFPEFTGRVCPAPCEGSCTVGLIGEPVTIKSIEQAIIDKGFEEGWVVPEPPEKRTGRRVAVVGSGPAGLAAAAQLNKAGHSVTVYERADRIGGLLTYGIPSMKLDKGIVQRRVDLLAAEGVEFVVNTEIGKDIPAKQLMEDYDAVVLCGGATKPREFNIEGSDLKGIHYAMDYLNGTIKSLLDSGLEDGNYLSAKDKDVIVIGGGDTGSDCVATALRHGCSSVTQFGTHKQAPLQRDPIANPWPQFPNVYTLDYAHEEAKALFGNDPREFSIMTTKFVGDDEGNLKELHTVQIERIVDETGRKVYQPIPGTEKAFPAQMAFIAIGFDGPEQTLVEQLELETDRRSNVKAPYGKYTTNVDKVFAAGDMRRGQSLVVWAINEGREVAREVDKYLMGATVLV	PGPT0000640_667	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
AK002_02497	2292	topB_2	COG0550	DNA topoisomerase 3	TTGAAAACGTTGGTCATTGCCGAAAAGCCGGATATGGGACGGAATATCGCTGCGGTCATCGAGCCGCGGGCCAAGAACAACCGTACATATCTTGAAGGTGAGCAATACATCATAACTTGGGCTATCGGACATCTGGTTGGGCTGGCGGAGCCGGATGCATATGATCCGAAGTACAAACGCTGGAATTTACGGGACCTGCCTATCATTCCGGAGCAATTCAAAATCATCCCGAATCCGAAAACCAAGGATCAGCTGAAGGTCATTGGAGAGGTAGCCAAGCGCTGCAGCCATATCGTGAATGCCTGCGATGCGGGACGAGAAGGACAATATATTTTCGCACTAATCCAACAACAATTAAAACTGAAACAGCCTGTAAAAAGATTATGGATCTCGGATTTAACGCCGGAAAGCATTGGCCGCGGCTTTGCGGAGCTCAAGGACGGCGTTGAATTCGAGAATTTAACGCAAGCTGCGCGCGCACGCAGCGAAGCCGATTGGTTGATCGGCATGAATGCGTCGCGTGCCTTTACGACCCGCCACCAGACGTTGCTGTCTGTTGGCCGGGTGCAGACGCCGGTGCTGGCACTGATCTATGACCGGCAGAAGGAGATCGAAGCCTTCGAATCGCAAACGTTCTACGACGTGAAAGCTTTGTTCAAGCAGGATCAGCTGGAGTATACGGGAACCTGGCAGGGAGAGCGGCTGACCTCGCAGGAGAAAGCAGAGACGATTGCAGCCAAGGTCCATGGAAAGAACGGCACCATTACTAAATATGAAGTGAAGGAAACGAAGGAATATCCGTTCAAATTGTATGATTTGACCCTGCTTCAGCGTGAAGCCAATGCCAAGTACGGTTACTCTGCCAAAAAAACGCTGGATCTTGCGCAGGCGTTATATGAACGCCACAAGGTGATTTCCTATCCGCGTACGAACTCCAACTATGTGAATGAACAGAATATCGAAGGCATGCACAAGGCCCTTCATATGCTCAAATCGACCTCGTATGCATCAATGGCCGCAGGAGCGGATTCGAGCCGGGTGCACGTCAACAACAAAGCGGTATGCAATCCGCAGCGGGTTGAGGATCACCATGCCATTCTGCCGACATTAAAGCGGCCGGGCACGCTCAGTAAGGAAGAGCAGCATATTTACGATCTGGTCATCACCCGGTTTCTGTCGCATTTTTATCCTCCGGCCATGTACAAGCAGCATACGGTGCTCACCGAGGTCGAGGGGGAAACATTCAAGACGGGAATCAAGGAGCTTTTGTCGCTTGGATGGAAGGTGTTGATTGCCCAGGATACGGAGAAGAAGAAATCCAAATCTTCCAAGAAGGGGAAAGAGGACGAGGAAGAGGAGAACCAGGAATGGAACGACCGTTCCTTTGACCTTACTCCCGACAAGCCGGTGCAATGCAAAAAATCCGAAGTGAAGGAAAAGGCTACCCAGCCGCCAAAAAGTTATACGGAAGGCACGCTGCTGAAGGCCATGGAAAGCGCCGGTAAGTCCATTGAGGATGAAGCGCTTCGGGATGCGATGAAGGATAGCGGTCTTGGAACGCCGGCAACCCGGGCAGCCACCATCGAGCGTTTGAAAAAGGTCGGATATATTACGATGCAAGGCAAAAAAATCACCGTAACGCAAAAAGGAAGAACGGCGGTGGAGCTGATCCGGCATGCCGGCGTCGAATTGCTGGCTTCGCCCGAGATGACAGGCCAATGGGAGCGGCGCCTCCACCAGATCTCCAAAGGCGAAGCTTCTGCTGACGTATTCATGCAAAACGTGCAGAAGTTCACCGTTTCGATCATAAACAAGGTATCCTCGCAGCGTCCGGCGCCTTCGTCGCTTTTCGGCGGAGATGAGGACAAGTCCAAAGGAAGAGGGAAGCGAAGCGCGTCTAAAGCGGCCCCAGCCTCGAAAGCGAAGGATGAGCGCACGAGCAAGCCCACTCCGAAATCAGCACCTGCCGCTTCAAATGAAGCGCCGTCCGTACGATCTCCCTTGGGGCGCTGCCCAAGACCCGGATGTGACGGGCAAATTATTGAAGGACGCAAAGGTTACGGCTGCGCGAATTTCAAAACCGGCTGCAGTTATGTCATCTGGAAGGAATTTGCCGGTAAACAAATTTCTCATGCGATGCTGAAATCCTTGCTGCTTCAGGGAAAGACCCAAGTGTTATCCTTTAAGAACGAAGACGGCAGCACGTATAAGGGCAGGCTTGTCCTTGCGGCGGGCGGTAACGGGCAGCTGGCCGTTCAAGCCGTGGACTCCAGTGCGGCCGTAAAATCGTAA	MKTLVIAEKPDMGRNIAAVIEPRAKNNRTYLEGEQYIITWAIGHLVGLAEPDAYDPKYKRWNLRDLPIIPEQFKIIPNPKTKDQLKVIGEVAKRCSHIVNACDAGREGQYIFALIQQQLKLKQPVKRLWISDLTPESIGRGFAELKDGVEFENLTQAARARSEADWLIGMNASRAFTTRHQTLLSVGRVQTPVLALIYDRQKEIEAFESQTFYDVKALFKQDQLEYTGTWQGERLTSQEKAETIAAKVHGKNGTITKYEVKETKEYPFKLYDLTLLQREANAKYGYSAKKTLDLAQALYERHKVISYPRTNSNYVNEQNIEGMHKALHMLKSTSYASMAAGADSSRVHVNNKAVCNPQRVEDHHAILPTLKRPGTLSKEEQHIYDLVITRFLSHFYPPAMYKQHTVLTEVEGETFKTGIKELLSLGWKVLIAQDTEKKKSKSSKKGKEDEEEENQEWNDRSFDLTPDKPVQCKKSEVKEKATQPPKSYTEGTLLKAMESAGKSIEDEALRDAMKDSGLGTPATRAATIERLKKVGYITMQGKKITVTQKGRTAVELIRHAGVELLASPEMTGQWERRLHQISKGEASADVFMQNVQKFTVSIINKVSSQRPAPSSLFGGDEDKSKGRGKRSASKAAPASKAKDERTSKPTPKSAPAASNEAPSVRSPLGRCPRPGCDGQIIEGRKGYGCANFKTGCSYVIWKEFAGKQISHAMLKSLLLQGKTQVLSFKNEDGSTYKGRLVLAAGGNGQLAVQAVDSSAAVKS				NA	NA	NA	NA	NA
AK002_02498	738	gph_3		Phosphoglycolate phosphatase	ATGAGTAAAACATCACAGCATATTATCTTCGACATGGATGATACATTAATACATTGCAACAAGTATTTCGACCTGATTCTCGGCGATTATTTCGAATGGATGACCGAATGGTTTCAGCCGTATGGAGTAACCACCCAAGAAGTCCGAGCCAAGCAAATGGAAATCGACGTAGCCGGCATCGACAAGCTGGGATTCGCGAGCGCGAACTTCCCCCAGTCCCTGATCGATACATACCATTTTTTCGGCCGAATTCACGGGAGAGATAGCTCGCCTAAGGAAGAGGAGCTTCTCTACCAGTTGGGTCTCAGCGTATACGAGCAGGAGATTGAAGCCTACCCCGGCATGGTCGAAACGCTGGAGAAGCTTCAAGAGGACGGCCACTGCCTCTATCTCTATACCGGGGGCGAAACCAGAATACAGAAGCGAAAAATCGAACAGATGAAGCTGGCGGACTATTTTAAAGACCGGATTTATATCCGCCAGCATAAAAACATCACGGCGCTTGAGGAGATTCTCGGCATGGGGTCGTTCGTCCGCTCTCATACGTGGATGATCGGCAACTCGCTCCGCACGGATGTCGTTCCGGCATTGACGGCAGGCATCAACAGCATCTACGTCAAGCAGCAGCGCGAGTGGCAGTATAATCTGGTCGATCTGAAGCAAGAGCCGCATAATGTGCTCTATACCGTCTCGGCGTTGACCGAAGTGCCGGAAGTCATTGAAGAGCATTTAACTTAA	MSKTSQHIIFDMDDTLIHCNKYFDLILGDYFEWMTEWFQPYGVTTQEVRAKQMEIDVAGIDKLGFASANFPQSLIDTYHFFGRIHGRDSSPKEEELLYQLGLSVYEQEIEAYPGMVETLEKLQEDGHCLYLYTGGETRIQKRKIEQMKLADYFKDRIYIRQHKNITALEEILGMGSFVRSHTWMIGNSLRTDVVPALTAGINSIYVKQQREWQYNLVDLKQEPHNVLYTVSALTEVPEVIEEHLT				NA	NA	NA	NA	NA
AK002_02499	918			hypothetical protein	ATGAAATATAAAGTTAGTATCGATGTATCCATGGTTTATGAGCTGCTGGGCAGCTTCATGATATATGCAACAAGGAAATGGACCGATAACCTGGATATTGGAAAACAGCTGATAACGGAGATGGATGAGCGTTTGCCGCAGCATGTACGTGTCCAGTTCAGTGGAGCCCGCTCATGGCCGCTCGCGGATTACGATGTCTTATACGCCCTGATCATGCTTCGAGGAGAGCACCTTGAAATCCCTGATTTTCTGGGCTGGATCGAATCTTCCCCGGTGGAGGAGCTTCATGGCCTGCTTCAGCCTCACTTGTCGTCCCTCACGCGGGATGAAACGTCCAGAATTCGAGAAAACTACACACCGTTGATGAAGCTCTGGTATGAGCACTACTTTTCCGAAGTGGAGCCTGACCTGTACCATCTTCTGGAGGAAGATGCCGAGGAGAAACGAATGCTGCTTCCGAAAATGGACGACGAAAATCTGATCGAATATGCTTCCAGCGGAGTCATTCTGGATAACGTGCCGCAAGAAAACGTGGTCTTGTTCCCGGGTACGCATTTTCGTCCGATCAATACCTATTGCTTCTATGATAATGTACTCCTGCTGCAGTACCCTATTGATATACCGGAAGAAGACGAGGATGAGCCGCCCGTCGTTCTCCTGCGCATGACCGAGGCTCTCGCGGATCCGGAACGTCTGCGTCTGCTGAGATATATTGCGGATGAGCCGAAGGCCGTGTCCGAAATGGCGTCCGAATTGGGACAGCCCTATGAGCAATTGATGCACCACCTGATGATCTTGAGGGCGGCAGGCCTGCTGCGCTCCCATCTGAAATCCGAAAATAACGAAAGATTCAGCCTGCGGCCGGATGGTGCGGCCGAGCTGCAAATGTTCCTGGAGACTTACATTCGACTTTCCTAG	MKYKVSIDVSMVYELLGSFMIYATRKWTDNLDIGKQLITEMDERLPQHVRVQFSGARSWPLADYDVLYALIMLRGEHLEIPDFLGWIESSPVEELHGLLQPHLSSLTRDETSRIRENYTPLMKLWYEHYFSEVEPDLYHLLEEDAEEKRMLLPKMDDENLIEYASSGVILDNVPQENVVLFPGTHFRPINTYCFYDNVLLLQYPIDIPEEDEDEPPVVLLRMTEALADPERLRLLRYIADEPKAVSEMASELGQPYEQLMHHLMILRAAGLLRSHLKSENNERFSLRPDGAAELQMFLETYIRLS				NA	NA	NA	NA	NA
AK002_02500	1182	ycaD		putative MFS-type transporter YcaD	GTGACAGAAGCTGTTACCCCCCGTCAAGGGAGAACTCATTATTTTATTTTAATTGCCGTCGTGGTTGCGGCTGGTTTAAGCCAGGGACTGCTATTGCCGGTGCTGGCTATTTTTTTGGAACGGATGGGCATTTCATCCTCCATGAACGGATTGAACGCGGCTGCTTTATATGTAGGCTCATTTGCCATGACGCTGGTTGCGGAACGGCTTCTCGGCTGGGTCGGTTTCAAAAAACTGATCGTATCGGGTCTCGTGCTGGTGATGCTGTCGCTGGTCGCTTTCCCGTTGATTCCGAGCGTAGCCGTCTGGTTTGTACTGCGGGTGCTTGTGGGCATCGGCGATAGCGCGCTGCATTATGCCGCCCAGCTGTGGGTGCTGATGATGTCAACCGTGAAGAACCGGGGGCGGAGCATTTCCTTTTACGGCATGTCCTACGGTCTGGGATTTAGTATAGGGCCGCTCGGCATTCCTCTTCTGAAATACGGCGAAGCGGTACCGTTTTTGATTCTGGCTGTGCTGTTCTTGTTCATTCTGCTGGTCGTTCTATTCAAACTTCCGAATTTGAAGCCGGAAAAAAGCGAGCAAGGAGAGCAGCAGCCGGCCGGCCGCTATCTCAAAAGCTACCGGCTGGCCTGGTTTGCTTTGATTCCCGCGTTTTTGTACGGATACATGGAAGCGGGGATTAACAGCAATTTCCCGGTCTATGGGTTAAGAAGCGGGTTCACTTTAGGCGAAATTTCGACATTGCTGCCCTTTGTCGGCATCGGCGGACTCCTGCTGCAGCTTCCCCTCGGCATTTGGAGCGATAAATTCGGACGCAAGCGGGTGCTGACGATCGCGGGGATCGTGGGGGGCTGCTGTTTCCTGCTGATTCCGGTAGCTGGAACGAATTTCTGGGCAACCTTACTATTACTGACGATGGCCGGCGGTTTGGTCGGTTCTTTCTTCTCCCTCGGTCTGGCCTATGCCGCGGACATCCTTCCCAGGGTTCTGCTGCCGGCGGCCAACGTCGTGGCTTCCTTTCATTTCAATGCCGGCAGTATCGCAGGGCCGAATGCGGGCGGCGCTATCATGGAAACCGGGTGGAACGGGGGAATCTTCGTTTTGCTCGGCGGCTTGTATATTCTGTTTGCGTGCACGGGTTTATGGTTCAAAGGCAACAGCGTTTCACCCGAGAAATAG	MTEAVTPRQGRTHYFILIAVVVAAGLSQGLLLPVLAIFLERMGISSSMNGLNAAALYVGSFAMTLVAERLLGWVGFKKLIVSGLVLVMLSLVAFPLIPSVAVWFVLRVLVGIGDSALHYAAQLWVLMMSTVKNRGRSISFYGMSYGLGFSIGPLGIPLLKYGEAVPFLILAVLFLFILLVVLFKLPNLKPEKSEQGEQQPAGRYLKSYRLAWFALIPAFLYGYMEAGINSNFPVYGLRSGFTLGEISTLLPFVGIGGLLLQLPLGIWSDKFGRKRVLTIAGIVGGCCFLLIPVAGTNFWATLLLLTMAGGLVGSFFSLGLAYAADILPRVLLPAANVVASFHFNAGSIAGPNAGGAIMETGWNGGIFVLLGGLYILFACTGLWFKGNSVSPEK				NA	NA	NA	NA	NA
AK002_02501	720	glnQ_2	COG1126	Glutamine transport ATP-binding protein GlnQ	ATGATTAAAGTGGATCGGCTGAAGAAAACGATGGGTCCTGAACGTACACCGGTGTTAAAGGATATCACATTTCAGATGGAACACGGGGAAATGATCGGTCTGATCGGTGCAAGCGGAAGCGGTAAAAGTTTGCTGATGAGCTGTCTGTCGATGCAGCAAAAATGGGACGGCGGCAAACTGACGATTGACGGCGAAGATATGATGAATCCCGCCGGAAAACGAAGAATTCGACGGGAATGGGCTTATCTCGAGCAGAATCCTTCCCTAAACGTAAATCGAACGGCGCTTAAAAATGTATTGATCGGGCAATCCAGCCAAACGCCGCTGTGGCGGATGGTTACCGGGATGGTCCGGTCTGATGATTATATGGGAGCCATGGATACGATCGAGCACCTGGGTTTGCTGGACAAGGCAAAACGCAAGGCCGGCGAGCTGAGCGGCGGCGAGAAGCAGCGGATTGCCATTGCCCGAGCGCTCGTTCACGGCGCTAAGGTGATTTTGGCGGACGAGCCTGTCACGGGACTCGATCCGGCCTCTGCCGAGCATGTTTTGAAGACGCTAAAAACCTTGTGCGAGGAAGAGCGGCTGACGGTATTTACCGTCATCCCGTTGGAGCTTGCGGAGAAATACTGCACCCGAATCATGGGGCTGTCGGGCGGCCAGCTGGTAGTGGATGTGACCGGAAGACGTTTAACCCATGGCGAGAAGTCAAGACTGTAA	MIKVDRLKKTMGPERTPVLKDITFQMEHGEMIGLIGASGSGKSLLMSCLSMQQKWDGGKLTIDGEDMMNPAGKRRIRREWAYLEQNPSLNVNRTALKNVLIGQSSQTPLWRMVTGMVRSDDYMGAMDTIEHLGLLDKAKRKAGELSGGEKQRIAIARALVHGAKVILADEPVTGLDPASAEHVLKTLKTLCEEERLTVFTVIPLELAEKYCTRIMGLSGGQLVVDVTGRRLTHGEKSRL	PGPT0002520_2095	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041	NA	NA
AK002_02502	1335			hypothetical protein	TTGAAATATAGAGTGATGCAAGCCCTCTTGGCCGGCTTGTTACTATTTATCATAAGCGGCTGTACCTTTATTCAGGATCCGGTGTCTTTAATGAAGCGACCGGATCTGCCGACGGACAAAGCGACGCTGAACGGCGCTATCCAGTCCGCGCTCCAGAAGATCAAACTGGACAACGGCGCTATCATTCGGCCGCGAAGCGACGTCGACAGCAGTTCGATCCGAATTCATGACCTCGACAACGACGGCGTTATGGAAGCCGTCGTCTTCTATCAGACGCCGGATGAAGAGGTGAAAATCCACGGCATGATCATGCAGCAGCAGGGTGATACCTGGGTGAAGAGCCTCGATTTCGACGGAGAAGGGACGGTTTTGGAGTCATTTGATTTCGTTGATTTTACGAACGACGGCAAGGTTGACATCGTAGCCGGTTTCTCCCGCGGTGAAGAGAATCTTCAGAACCTGCTGGCCGTGTATTCATTCTCCGGGGATTCGCTCGAAAAAATCCCGGCTTTGCCGTATACGCACTTCAATATCGGAGACATGAATGGCGACAAGGTCAAGGATATTACGGTGGTATACCTTCAGCAGAAGGAGCTATCGTATATCAGCACCTATCAATACGACAAATTCGAGGATGCTTTCGTTGAGCTGAACAAACTGGATTTGGGACCAAATATCGAAAGTTATTACAATGTTGTCGCAGGTAAAGTGGCCAAAAACAAAGAAGGTATCATCTTGGATGCTTCGGTCGTGTCCAACTCTTCCTATTCCAAGCTCATTATCATGGAGGACAACAAGTTTATTGACGTGCTCCAGGATGAACTGCTTACGTACAAGGAACTGCCGGTCGAGAGCGAGGACGTGAACGATGACGGCATTTTAGAGTTTGGTGTGCTTACAAGGCCAAGCGGCTGGGAAGATCGGCTGATCCTGGACGAAATCCCGTTCTTCACCACGTACTTCCAGTGGGACGGAGAGGTCCGGGAGAGCAACGAAGTAGAAGGGCTTCAATTCGTGCTCCAAAGATACTACGATATGAATAATCGCTTCTATCTGGATTTTCCGCCGGATATGTACAATAAAATTACCATTACGCCGGAATCCAACAAAAATGCTTATCTGAATTTTGTCATGACCGACACGGGAGAGTCCGTCGCAGAAATCAAGTTTTTCTCCACGGCCCAGTGGGGAAAAGCCGAATCCGATTGGGAGATCTTGGTGAAGGAGAAAAACCGCGTCATCGCTTATCGAAGCCATGGCGATCTGAAATTGAGTAAAAAAGATAAAAAGCCAAGCAGCAACAATGTGGCTCCTATCGAAAGAAAGGGGAACTAG	MKYRVMQALLAGLLLFIISGCTFIQDPVSLMKRPDLPTDKATLNGAIQSALQKIKLDNGAIIRPRSDVDSSSIRIHDLDNDGVMEAVVFYQTPDEEVKIHGMIMQQQGDTWVKSLDFDGEGTVLESFDFVDFTNDGKVDIVAGFSRGEENLQNLLAVYSFSGDSLEKIPALPYTHFNIGDMNGDKVKDITVVYLQQKELSYISTYQYDKFEDAFVELNKLDLGPNIESYYNVVAGKVAKNKEGIILDASVVSNSSYSKLIIMEDNKFIDVLQDELLTYKELPVESEDVNDDGILEFGVLTRPSGWEDRLILDEIPFFTTYFQWDGEVRESNEVEGLQFVLQRYYDMNNRFYLDFPPDMYNKITITPESNKNAYLNFVMTDTGESVAEIKFFSTAQWGKAESDWEILVKEKNRVIAYRSHGDLKLSKKDKKPSSNNVAPIERKGN				NA	NA	NA	NA	NA
AK002_02503	699	regX3_1	COG0745	Sensory transduction protein regX3	TTGAGTAAAGTGCTCATATTAGAAGATGAAGAATCCATTCGCAGTTTTATCGTAATTAATCTGAAACGGAACGGCTTTGAGGTGCTGGAGACCGAGAACGGCAATGAGGCCCTTCGCTTGCTGCAAACGACGCCAGACATCGATATCGCCTTGCTCGACGTCATGGTTCCGGGAATCGACGGCTTTGAAGTATGCCGCAGAATCCGGGAAACGAACGAGCGGATCGGCATTATTTTCCTGACGGCAAAAGTCCAGGAGCAGGACAAAGTGTATGCCCTATCCGTCGGAGCGGATGACCACGTAAGCAAACCGTTCAGCCCGACGGAACTGATCGCCCGGCTGCAATCCCTTCTGCGCAGGGTGAACGTTCAGCGTGCAGGTGCCGCCAAGGTATCCTTTCAATCGGGTCCGTTCACGCTGGATCTGATTTCCAAGCAATTCAAAAAGAACGGGCAGCCGGTGGAGCTGACGCCTACGGAGTTCTCGCTGGTCCAGTTCTTCCTGGAAAAAGAAAACACGCCGCTTAGCCGTGATGTGCTGCTTGATCACGTATGGGGCAAAGAATATATGGGCGATCCCAAAATCGTGGACGTGAACATTCGGAGACTGCGCCAAAAAATCGAAGGCAATCCTTCCGAGCCGGAATACCTCCAGACGGTATGGGGACACGGCTATAAATGGAAGGGTCAGGGACAATGA	MSKVLILEDEESIRSFIVINLKRNGFEVLETENGNEALRLLQTTPDIDIALLDVMVPGIDGFEVCRRIRETNERIGIIFLTAKVQEQDKVYALSVGADDHVSKPFSPTELIARLQSLLRRVNVQRAGAAKVSFQSGPFTLDLISKQFKKNGQPVELTPTEFSLVQFFLEKENTPLSRDVLLDHVWGKEYMGDPKIVDVNIRRLRQKIEGNPSEPEYLQTVWGHGYKWKGQGQ	PGPT0002665_1270	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_02504	1455	rcsC_8		Sensor histidine kinase RcsC	ATGATCATCAAAAAAGGCATTCGGCGGCAAATCGTGCTGCACTACTTCCTGGTAGTGTTCATCGCCTTGCTGCTGATTGAGGTTATTTTTCTAATCGCTTTACGATCGTATTATTACGATACGGTGTACAACCATGTGGTGAACCATATCCGTACCGCCAACGATTTCTATCAGCCCTTTCGACTGACTTCGTCGGACAACGTCAATCAGCTGAGCGAGATGGTTCGCCATTTTGAACTGTATAATACGGAGCTTCAAATTTTGAACCCGGCTGGTCAAGTACTCTCAACTTCGACCGGCTTCGAAATAGAGCAGACCATCAAGACCAGCGATGTCACCCAAGCGCTTGCAGGCAATACGAGCCGATGGATCGGCAAACAGCAAGGGACGGGCCAGATCGTGATGGCGGTGTCCCAGTCCGTTTCGAACGGTTTTGAAAATACGTATATTCTCCGTTACGTGACTTCGCTGGAATACGTAAACGACAAGCTGATGAAAATGACGCTGTTTGCCGTCAGCATTGGGGCGGCCGTTCTGGCGATCGTGCTTGCTTTCAGCATTGGGCTGGCCAATTCCATCGTAAAGCCGCTCAACAACATTACCACGGTGTCCGCTCAGATGGCCAAAGGCAAGTTCAACGTACGGATCAAGGGCGATTACAAATACGAGCTTGGCGAGCTTTCGTCGACCTTGAACTACATGGCGCAGGAGATTGTGCGAAGCAATCAGGTGAAGGATGACTTTATCTCCTCGATCTCGCATGAGCTGCGAACGCCGCTCACAAGCATCAAGGGCTGGAGCGAAACGCTTGACTCCGGCGGCTACGATCCGGAAGAAACGAAAATCGGAATGCAGATCATCTCCAAGGAAACCGATCGGTTGATCGGCCTTGTCGAAGAGCTGCTGGATTTCTCCAAGCTCCAGCAGAATGAGATGAAGCTGGTGAAGGGCATCGTGAATTTACGGGAGCTGCTGCAAGAGATCATGCTCAATCTGTGGACGAAAGCCGAGAAGAAGGGCGTTCAGATCAAACTGGAGTCCGACGAGAAGCCGATTATCTATGGGGATGTCAACCGCTTGAAGCAGGTATTCCTGAATATCGTGGACAACGCGGTTAAATTCTCGCATGAGAACGGGGTAATCAACCTGTCCTTCGCGATGGAAGAGAAGTTTGTTATCGTTACCGTACAAGATCACGGGATCGGCATCTCGGACGAGCATCTTCGGCGGGTAAAGGATCGGTTCTTCCAGGTGAATCCTCTTAACGGGGGAACGGGACTGGGATTAGCGATCACGCAGCAGCTCGTTGAGCTTCACGGGGGCACGATGGAAATGGAAAGCGAGCTCGGGCACGGAACAGCCGTGATCGTCAAGCTGCCGCTGCCTGAGGGGAAAATACCGATGGCCGGCGGGTTGGAGAACGGTGAGGAAGACGCAGCCGGGCCGATGGCCTAA	MIIKKGIRRQIVLHYFLVVFIALLLIEVIFLIALRSYYYDTVYNHVVNHIRTANDFYQPFRLTSSDNVNQLSEMVRHFELYNTELQILNPAGQVLSTSTGFEIEQTIKTSDVTQALAGNTSRWIGKQQGTGQIVMAVSQSVSNGFENTYILRYVTSLEYVNDKLMKMTLFAVSIGAAVLAIVLAFSIGLANSIVKPLNNITTVSAQMAKGKFNVRIKGDYKYELGELSSTLNYMAQEIVRSNQVKDDFISSISHELRTPLTSIKGWSETLDSGGYDPEETKIGMQIISKETDRLIGLVEELLDFSKLQQNEMKLVKGIVNLRELLQEIMLNLWTKAEKKGVQIKLESDEKPIIYGDVNRLKQVFLNIVDNAVKFSHENGVINLSFAMEEKFVIVTVQDHGIGISDEHLRRVKDRFFQVNPLNGGTGLGLAITQQLVELHGGTMEMESELGHGTAVIVKLPLPEGKIPMAGGLENGEEDAAGPMA				NA	NA	NA	NA	NA
AK002_02505	528			hypothetical protein	GTGGAATCCGCAGCAATGTTTTCAACGGAGCAGGGGCGGTTTGAACTACGACGGGCAGAAGCCGTGCACGCAGGAGAGATGCTGGCGCTTCTAACGGAGGCGGCCGAGGTGATGGAGCAGCAAGGGCGCAAGCAGTGGAGTCCCTCGCTTTTTTCCCTGGACCTAATGAAACAGTACCTGGAAGAGCGTGAAGTCTTCATCCTGTGGCATGAAGACAAGGCGGCCGGCATGTTTACGCTGCAGTACGGGGATCCTGACTACTGGGGGAAGCGGGACGATCCGTCCTACGGTTACTTGCATCGTCTGACCGTACGCTTCGCTTATCGGGGGCTGGAGCTTGGGAACAAAATGATTTCCTTTGCGGAATCGTATTTGGTTTCCAAAGGGAAACGGGGCTTCCGATTGGATTGCGTATCCCATTTGCCAACGCTGAATCGATTTTACCAGCGTCAGGGATTTCAATTCGTGGCCGAGCAGGATATGGGCGGTCGCAAGGTGAATTTATATGAAAAGAATTTTGTTTCTTGA	MESAAMFSTEQGRFELRRAEAVHAGEMLALLTEAAEVMEQQGRKQWSPSLFSLDLMKQYLEEREVFILWHEDKAAGMFTLQYGDPDYWGKRDDPSYGYLHRLTVRFAYRGLELGNKMISFAESYLVSKGKRGFRLDCVSHLPTLNRFYQRQGFQFVAEQDMGGRKVNLYEKNFVS				NA	NA	NA	NA	NA
AK002_02506	1215	glgC_2	COG0448	Glucose-1-phosphate adenylyltransferase	ATGAAGAAAAAAGACTGTATTGCTATGCTTCTGGCGGGTGGAGAAGGTAAACGATTGGCTCCCCTTACGTCCAGGCTGGCAAAACCCGCCGTTCCGTTTGGCGGACATTATCGTATAATCGATTTTCCTCTCAGCAATTGTGTAAACTCCGGAATCGATACGGTTGGAGTGCTTACGCAATATGAGGCAGAATCATTACACGAACATATCGGCGAAGGCGAACCCTGGGGATTAACACATACAGGACGTGAAGGCATTGCCCTTCTTCCATCCAACAGCACACATCAAGACGGGTACTTGGGAACGGCAGATGCCATTTATAAAAACATTCAATACATCGATGATCAAAATCCAGAGCATGTGCTCATCTTATCCGGGGACCACATTTACCAGATGGATTATCGGGAGATGCTTGAAGCCCATATGAAGCAAGGGGCTCCTGCCACGATCTCCGTGATGGAAGTGCCTTGGGAAGATGCCAGCCGATTTGGCGTCATGAGCGTTGACGATAATCTCAATATCATTGAATTTGCCGAAAAACCGGCAGAACCGCAAAGCAATCTTGCCTCCATGGGCATTTATTTGTTCCGTTGGGACTATCTGAAGCAGCACCTGATCGAAGATGCGTCTGACCCGAACTCCAGCCATGATTTCGGAAAGGACGTCATCCCTAAGATGCTGTCCGGAGAAGAGTCGCTGCTAGCATTCCGCTTTCAGGGCTACTGGCGCGATGTCGGCACCGTAGAAAGCCTCTGGGAAGCCCATATGGATGTGCTTAGCCAAAATGAGCTCGTCCTGGAGAGAGCCGATTGGCCTATGTATACGCGTGCTTGGAAAACCAAGCTGTCGGCAGCACGGACCCGAAATGTGGAGCATACGGACTGCCTGATTCATGATCAATGCACCTTCGAAGGAAAAGCCAAAAGCTCCGTCATCTTCTGCGGATCAGAAATCGGCAAATACTCCATCGTGAAGGATAGCGTAGTCATGCCGAACGCCAGAATCGGCAAAGGCGTCCATATCGAGCACGCCATCATCGGGGAAGGTGCAGTGATCAAGGACGGAGCCGTTGTGAAAGGGGCCCCCGGCAGTGTCGTGGTTGTAGGACCGTACGAGACGGTGCTTCCGAAACCAACGGTTCGTACCCAGCCGGCCCGGCTCCTTCAGGATGTATACGAAAAAGGACGCTTGCGTGCAAATGTCTCTTCATCCTGA	MKKKDCIAMLLAGGEGKRLAPLTSRLAKPAVPFGGHYRIIDFPLSNCVNSGIDTVGVLTQYEAESLHEHIGEGEPWGLTHTGREGIALLPSNSTHQDGYLGTADAIYKNIQYIDDQNPEHVLILSGDHIYQMDYREMLEAHMKQGAPATISVMEVPWEDASRFGVMSVDDNLNIIEFAEKPAEPQSNLASMGIYLFRWDYLKQHLIEDASDPNSSHDFGKDVIPKMLSGEESLLAFRFQGYWRDVGTVESLWEAHMDVLSQNELVLERADWPMYTRAWKTKLSAARTRNVEHTDCLIHDQCTFEGKAKSSVIFCGSEIGKYSIVKDSVVMPNARIGKGVHIEHAIIGEGAVIKDGAVVKGAPGSVVVVGPYETVLPKPTVRTQPARLLQDVYEKGRLRANVSSS	PGPT0025885_2960	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
AK002_02507	2007	glgB		1,4-alpha-glucan branching enzyme GlgB	TTGAACCAAGCAGTTAGGGAAGGAAACATGACTCCGGAACAAGTGTATTTATTTCATGAAGGAACCTGGTTTCACAGTTACCAATGTATGGGTGCACACCTTGCCGCAGAAGAAGGAGAAGAGGGCGTGCGTTTTACGGTGTGGGCTCCGAATGCCAGGCAGGTAGGACTTGCCGGAGACTGGAACGGCTGGGATGGTTCCCAAGACCCGTTATATAGGATGCCCGATTCGGGAATTTGGAGTCGGTTTTTCCCTGGGATGGAGACTGGAACTTTTTACAAATATCAGATCACGGGGCCCTTCGGAGAAACGTTCCTAAAGGCCGATCCTTATGCATTTCATGCCGAAGTACGACCTGCGACGGCATCGGTGGTGACCGACCTCTCAGGATATAGCTGGAATGATGCCGCATGGAGAAGGAAGAACAAATCCCCATATGCCAAGCCGGTGAACATTTATGAAATGCACTTCGGAACCTGGCGGCAAAAAGAGGACGGTTCGTTCTTTACATATCGGGAATTGGCCGATCAGCTGATTCCTTATTTGCAGGAAATGAGTTATACCCACGTAGAATTTATGCCTTTGGCGGAGCATCCCTACGATCTTTCGTGGGGCTATCAGGGCACCGGATTTTATGCGCTGACGAGCAGATACGGAACCCCCCATGATTTCATGTATCTCGTCGACCAGCTGCACCAAGCCGGCATCGGCGTGCTGCTCGACTGGGTGCCCGCACATTTTGCCAAGGATGCCCACGGGCTTCGGCAGTTTGACGGGGCGCCTCTTTATGAATATGAAGACCCCCAAAAAGCCGAGAAACCGGGCTGGGGAACATTGTCTTTCGATTATGCCAAGCCGGAGGTAATTTCATTCCTCATCTCCAATGCCTTATTTTGGATGGATATGTATCATATTGATGGTCTTCGCGTTGATGCCGTGACGAGCATGATTCGTCTTGATTTTGAGAAGCGTGAGGGTCAGTACAGCCTTAACGAGCACGGAGGCTTGGAAAACCTTGAGGCGATATCCTTTCTGCAGGAATTGAATAAAGCCGTGTTTCGATATTACCCGAATGCTTTGATGATGGCCGAGGAGTCGAGCGCATGGGCGGGGGTTACGGCACCTGTGCATGAAGGGGGTCTTGGCTTCAATTACAAATGGAATATGGGCTGGATGAACGACACGCTGTCTTATATTGAACAAGAGTTTGATCAGCGGCCTACCCATCATAATTTACTGACATTTCCCATTTGTTATGCCTATTCGGAGAATTTTACATTGCCGCTTTCACACGATGAAGTCGTCCATGGAAAGAAATCGCTGCTTAATAAAATGCCGGGAAGCTATGAACAAAAATTTGCGGGACTGCGGATTTTGCTTGGATACCAGATCACCCAGCCCGGGAAGAATCTGCTGTTCATGGGGGGAGAGTTCGGCCAGTTTATCGAATGGAAGGATCAGGAGCAGCTCGACTGGCTGCTGCTGGACTATGAAAGCCACCGCAAGCAGTTGGCATATACGGCAGCTCTAAACCGCATGTACGTGGATGAAAAGGCGCTATGGGAGCAGGATCACCGATGGGAAGGCTTTGAATGGCTCAGCGCCGATGATCATGAGCAGAGTGTCGTATCGTATATGAGAATGGGCACCAAGCCCGGCGATACGCTGATCATCGTCATTAATTTTCAGCCAAAGGCATATGACCAATATCGGATCGGTTTGCCGAGAGCGGGGCAATATGTGGAAATTCTGAATTCCGATCATGCCGATTACGGAGGCTCAGGACTGCTGAACGATTGTGAGATGAAAGCGGAGAAGAAGACCTGGCATGGCCAAACCCACAGCCTGGAGATCAAGCTGCCTCCATTAGGCATGGTTGTTTTAAAGAAAAAGCCGCCTCGATCGAGGAAATCGCAAGATCGATCGGACGCGTCGCTGAAGGCGGCAGCGGCAAGAGAGAAAACTGAACAAAAAACGAAACGGAGCAAAAGGGGGAAGCAGGATTGA	MNQAVREGNMTPEQVYLFHEGTWFHSYQCMGAHLAAEEGEEGVRFTVWAPNARQVGLAGDWNGWDGSQDPLYRMPDSGIWSRFFPGMETGTFYKYQITGPFGETFLKADPYAFHAEVRPATASVVTDLSGYSWNDAAWRRKNKSPYAKPVNIYEMHFGTWRQKEDGSFFTYRELADQLIPYLQEMSYTHVEFMPLAEHPYDLSWGYQGTGFYALTSRYGTPHDFMYLVDQLHQAGIGVLLDWVPAHFAKDAHGLRQFDGAPLYEYEDPQKAEKPGWGTLSFDYAKPEVISFLISNALFWMDMYHIDGLRVDAVTSMIRLDFEKREGQYSLNEHGGLENLEAISFLQELNKAVFRYYPNALMMAEESSAWAGVTAPVHEGGLGFNYKWNMGWMNDTLSYIEQEFDQRPTHHNLLTFPICYAYSENFTLPLSHDEVVHGKKSLLNKMPGSYEQKFAGLRILLGYQITQPGKNLLFMGGEFGQFIEWKDQEQLDWLLLDYESHRKQLAYTAALNRMYVDEKALWEQDHRWEGFEWLSADDHEQSVVSYMRMGTKPGDTLIIVINFQPKAYDQYRIGLPRAGQYVEILNSDHADYGGSGLLNDCEMKAEKKTWHGQTHSLEIKLPPLGMVVLKKKPPRSRKSQDRSDASLKAAAAREKTEQKTKRSKRGKQD				NA	NA	NA	NA	NA
AK002_02508	1434	glgA	COG0297	Glycogen synthase	TTGAAATTGTTATTTGCAGCTTCGGAATGCGGACCATACATTAAGACAGGCGGACTGGCGGATGTGATCGCTGCTTTGCCTAAATCCCTGCGCGGCATGGGTGAGGATATTCGAGTCGTGCTGCCGAAATATCGCGGCATTCCGGAAGAATACAGAGAGCGAATGGAGCATGTGGGAGAAACCCGGGTGCGGGTAGGCTGGCGCGAGCAATATTGCGGCATCGAGTCCGTGGTGGAAGACGGCGTAACGATCTATTTCGTGGATAATGAGTACTATTTTGGCAGAGACGGCATTTATGGTTACATGGACGATGGCGAACGCTTCTCTTTCTTCAACCGTGCCGTGCTTGAGGTTCTGCCGGTAATCGGATTCCAGCCGGATGTGCTTCACTGTCACGACTGGCATACCGCCATGATTCCGCTGCTTCTTGATGACGTCTATCGACATGATCCCTTCTATGCGGGGATTCGAACCGTGTTCACGATCCATAATCTGTTGTATCAGGGCGTATATCCGTACGAGGTGCTGGTTGATCTGCTTGGCATTCACAGCCGGCATTTCACGGCCGAAGGCGTGGAGTATTACGGAAACGTGAATTTCATGAAAGCGGGCATCGTTTACGCAGATCACGTAACGACGGTCAGCCCAACCTATGCCACGGAAATCCAGACGGGTTATTACGGGTACGGACTTGACGGACTTCTGTCGGCCCAAGGCTCGAGATTGAGCGGGATTGTGAACGGCATTGATACCAAAAGCTACAATCCGGCGACAGATCCGCATCTTGCCATGAAGTTCCGGAGCGGACTGAACAAAAAAACGCAGAACAAAATCGCCTTACAAGAAGAGCTGAATCTTCCCGTGGCGCCGCATATTCCGTTGATGTCGATGGTAACGCGATTGGTCGATTCGAAAGGACTCGATTTGGTTATCCGCATTCTGGATGAGCTGCTCTACTATGACGAGATTCAATTCGTTGTCCTGGGAACGGGAGATCCTTCCTATGAGCATTGGTTCAGGGAAGCGGCAAATCGCTATCCCACCAAAATGTCGGCCCAGATCCGGTTCAATGAGCCGTTATCGCGGCGTTTTTATGCCGGCAGCGACCTGTTCCTGATGCCTTCCAAATTCGAACCGTGCGGCATCAGCCAGCTGATCGCCATGCGGTACGGCAGCGTACCCATTGTCCGAGAAACGGGCGGACTGAACGATACGGTTCAGGCATACAACGAGTCTACGGGCGAAGGGAACGGCTTCTCTTTCAAGGATTACAATGCACATGACATGATGAACACCATCCGCCGCGCGACCTCCATATATCGCATGCCCGAGCACTGGCGTAAAGTGAGCAAGAACGCTCTGGGCGGGGATTACAGCTGGAACGTTTCGGCGAAGGAATATCAGGAAATCTATCATCAGATCACCAGCCGATAA	MKLLFAASECGPYIKTGGLADVIAALPKSLRGMGEDIRVVLPKYRGIPEEYRERMEHVGETRVRVGWREQYCGIESVVEDGVTIYFVDNEYYFGRDGIYGYMDDGERFSFFNRAVLEVLPVIGFQPDVLHCHDWHTAMIPLLLDDVYRHDPFYAGIRTVFTIHNLLYQGVYPYEVLVDLLGIHSRHFTAEGVEYYGNVNFMKAGIVYADHVTTVSPTYATEIQTGYYGYGLDGLLSAQGSRLSGIVNGIDTKSYNPATDPHLAMKFRSGLNKKTQNKIALQEELNLPVAPHIPLMSMVTRLVDSKGLDLVIRILDELLYYDEIQFVVLGTGDPSYEHWFREAANRYPTKMSAQIRFNEPLSRRFYAGSDLFLMPSKFEPCGISQLIAMRYGSVPIVRETGGLNDTVQAYNESTGEGNGFSFKDYNAHDMMNTIRRATSIYRMPEHWRKVSKNALGGDYSWNVSAKEYQEIYHQITSR	PGPT0025880_2681	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
AK002_02509	1749	nplT		Neopullulanase	ATGCTGTTAGAAGCGCTGTATCATGTTCCTAGAGATAAATGGGCTTATGCTTACGATACACATACCATTCATCTTCGGATTCGAACCAAGAAGAACGACATTGATTCAGTTGTTGCCATGACGGGCGACAAATATGATTGGGACCGTACGTACTTCGAGATCACTATGGAAAAGGCCGCCTCTGACGACATGTTTGATTACTGGGAATGCGGAGTCAGGCCCAAATACAAGAGGTTGTCATACGGATTCCGGATCCATGCGGGAGATGAAACGGTGTATATGGTGGACAGCGGAATCGGATGGGATTACCCCTATCCGCCGGCAGGCTACTTTGAATTTCCGTACATACATGAAGTCGATGTATTCAAAGTACCGGAATGGGCCAAAGAAGCCGTATTCTATCAAATCATGACGGAACGCTTTGCCAACGGGAACCCGGCCATCAGTCCTGACGGAACCGATGCCTGGGGCGGCAAGCCGGAGGTGGACAATTTCTTCGGCGGTGACCTGCAGGGCGTGCTGGATCATCTGGATGATCTGGTTGACCTGGGCATTAACGCCATTTATTTTACCCCCCTCTTCCTCTCTCCCTCCAATCATAAATACGACACGGTAGATTATAAGCAGGTGGATCCGCACTTTGGCGATAATGATCTGTTGAAAAAGGTAGTCGATACCTGCCACGCGAAAGGCATTCGGGTGATTCTGGATGCGGTATTTAATCACTGCAGCGAGGAGTTCCCGCCCTTTCAGGACGTCCTGAAGCATGGCGAGAAGTCCAAATATGCCGGGTGGTTTCATGTGAACCGGTTTCCTTGCGAGATCAAGGACGGCATACCGACATACGACACCTTCGGCTTCTTCGGAAACATGCCGAAATTCAATACCGCCAATCCCGAAGTCAAGGCGTATTTACTGGGCGTCGCCGAGTATTGGATTAAGGAGATCAAGCTTGACGGCTGGCGCCTGGATGTTGCGAATGAAATCGACCATCATTTCTGGCGGGATTTCAGACAGGTTGTCAAGAAGGCGAACCCCGAGGCTTACATCGTGGGCGAGGTTTGGTCCGACTCGTTGATCTGGCTGCAAGGCGACCAGTTCGATTCCGTGATGAATTACCCTTTTGCCGATAAGGTGCTGGAGTTTTTCAACGGCAATATGGACGGGCTCACCTTCGCTAACCGTATCGGCTCGATCCTGATGCGTTATCCGCAGCAGACCAACGAAGTGGTCTTCAACCTGCTTTGCAGCCACGATACGCCCAGGCTGCTTACGCGCGTGGGAGAAGATATCCGGCGCATGAAACTCACCGTCGTATTCCTGTTCACCTTCATGGGCACGCCGTGCATCTTTTACGGGGATGAAATCGGCTTGACCGGGGATGGAGACCCGGATTGCCGCAAATGCATGGAATGGGATCCCAAGAAGCGAAACCAGGAGCTGTATGCATTTTATCAAGGCATGATCGCGCTGCGGAAAGAGCATAAGGCCTTGCGGCAAGGTCGCTTCCGCTTCTTGCAGGCGAATCTTCATGATCCTTGCATCGTGTACGAACGTGCCGACGAAACCATGCATTTTATCGTCTGGATCAACAACAGCGACTCGAAGCGTACCCTATCTCATCCCATCGTCACGACCGATTGGATCGATGCCGAAACCGAAGAGCCTGTAAAACCGGTAAACGGTACGATGCATATCGATTTGGAACCGTACGCGTATCGCATTTTATGCCGGGAATTGAAACATTAG	MLLEALYHVPRDKWAYAYDTHTIHLRIRTKKNDIDSVVAMTGDKYDWDRTYFEITMEKAASDDMFDYWECGVRPKYKRLSYGFRIHAGDETVYMVDSGIGWDYPYPPAGYFEFPYIHEVDVFKVPEWAKEAVFYQIMTERFANGNPAISPDGTDAWGGKPEVDNFFGGDLQGVLDHLDDLVDLGINAIYFTPLFLSPSNHKYDTVDYKQVDPHFGDNDLLKKVVDTCHAKGIRVILDAVFNHCSEEFPPFQDVLKHGEKSKYAGWFHVNRFPCEIKDGIPTYDTFGFFGNMPKFNTANPEVKAYLLGVAEYWIKEIKLDGWRLDVANEIDHHFWRDFRQVVKKANPEAYIVGEVWSDSLIWLQGDQFDSVMNYPFADKVLEFFNGNMDGLTFANRIGSILMRYPQQTNEVVFNLLCSHDTPRLLTRVGEDIRRMKLTVVFLFTFMGTPCIFYGDEIGLTGDGDPDCRKCMEWDPKKRNQELYAFYQGMIALRKEHKALRQGRFRFLQANLHDPCIVYERADETMHFIVWINNSDSKRTLSHPIVTTDWIDAETEEPVKPVNGTMHIDLEPYAYRILCRELKH	PGPT0012200_647	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
AK002_02510	1443	mltF_4		Membrane-bound lytic murein transglycosylase F	ATGAAACGTAAATTTACAGCGTGGATGACCCTGTTCATGGTGGTCGTGCTGTCTTTCGGCAGCCTCGTCCATGCGGAGGGCGAGAAGAAAACGGTGATTCTTGGCACCAGTGCCGACTATGCACCATATGAGTTCCATAAAACGATAGATGGCGTGGATACCATCGTCGGATTTGATATCGATATCGCGAAGGAAATCGCCAAGGATCTTGGCGCAGAGCTCATCATCAAGGATACGTCCTTTGATGCGCTCTTGCCAGAGCTGACGAGCGGCCGCGTGGATTTCGTCATATCGGGCATGAATCCAACGGAAGACCGCCGAAAAAGCATTGATTTCTCGGAGCCTTATTACGCTGCGGAACAATCGGTCGTCGTCCGCAAGGAAGACGCCCAGAAATTCAATACGCTTGAAAGCCTGGAAGGAGCCCGGATCGGGGTTCAGAAAAGCTCCATTCAGGAGTCCATCGCAAAAACGATACCGAATGCCAATGTAGTATCGCTTGATAAAATCCCGGATTTGCTGCTGCAGCTGGAATCCGAGCGCGTGGACGTCGTCCTTGCGGAGTATCCGATCGCAAAGACCAACATGAATGAAGCGACCATGGTCATCACGGATGCCAAGCCGACGGCGGAGAACGACGCATATGCCATCGGGGTTCGCAAAGGAAACGAAGAGCTGCTTGGCAGCATTAATGCTACGCTCGAGCGTTTAAAAGAAAATAACCAGATCCAGAAATTTGTCGACGATGCCAGCGATCTGGCTGCAGGACGAACGGCAGAGAATCTGAATACCTTTGAATTTTTCTGGAAATATCGCGACTATTATGCCAAAGGGATTCAATTTACGTTGCTTATTTCGGCCCTCGGCGTGTTATTCGGATTCATTCTCGGATTGATTATCGCATTAATGCGGATGTCCGGCGTAAAAATCCTTAAGTTTTTGGCTACCGCATATATTGAAATCATCCGCGGCACGCCGATGCTGGTCCAGCTGTTTATTATCCATTACAGCTTGGCGGCGTTTGATATTAAATTCTCACCGATCCAGTCGGGTATTTTGACGCTCTCCATCAACAGCGCTGCCTATTTGGCCGAAATATTCCGGGCAGGCATTCAAGGCGTAGACCGCGGACAGCTGGAAGCGGCCCGTTCACTCGGGATGACGAAGGGCAAGGCGATGCGTCATATCATTTTGCCGCAGGCGCTGAAAGGGGTACTCCCTGCGATCGGTAACGAATTCGTTGTCATTATCAAGGAATCGTCCATCGTATCGTTCATCGGTGTATTCGATATTATGTACCAAGCTCAGATTTTGCGCGGTTCAACCTTTGCCCCGCTGAATCCGCTGCTTGTGGCGGCCATGATCTACTTTATTCTGACATTCGTTCTCTCGAAGCTTCTGGGTGTCTGGGAAAGGAAGTTGAGTGCAAGTGATAACCGTTAA	MKRKFTAWMTLFMVVVLSFGSLVHAEGEKKTVILGTSADYAPYEFHKTIDGVDTIVGFDIDIAKEIAKDLGAELIIKDTSFDALLPELTSGRVDFVISGMNPTEDRRKSIDFSEPYYAAEQSVVVRKEDAQKFNTLESLEGARIGVQKSSIQESIAKTIPNANVVSLDKIPDLLLQLESERVDVVLAEYPIAKTNMNEATMVITDAKPTAENDAYAIGVRKGNEELLGSINATLERLKENNQIQKFVDDASDLAAGRTAENLNTFEFFWKYRDYYAKGIQFTLLISALGVLFGFILGLIIALMRMSGVKILKFLATAYIEIIRGTPMLVQLFIIHYSLAAFDIKFSPIQSGILTLSINSAAYLAEIFRAGIQGVDRGQLEAARSLGMTKGKAMRHIILPQALKGVLPAIGNEFVVIIKESSIVSFIGVFDIMYQAQILRGSTFAPLNPLLVAAMIYFILTFVLSKLLGVWERKLSASDNR	PGPT0020550_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020550-artQ-K17077	NA	NA
AK002_02511	729	artM_2	COG1126	Arginine transport ATP-binding protein ArtM	GTGCAAGTGATAACCGTTAAGGATCTTCATAAATCGTTTGGCAAGCTGGAAATACTGAAGGGCATTGACATCGAGATTGCAAAAGGAGAAGTGGTGGTTGTCATCGGACCTAGCGGCTCCGGTAAAAGTACCTTTTTACGCTGTCTCAATTTGCTGGAAGTGCCGACCAGCGGCGAAATTTCGTTCGAGGGTGAGCTGATCACCGCCAAGAATCACAATATCAATGCTACCCGCGAGAAAATGGGTATGGTGTTTCAGCAGTTTAACCTGTTTCCGCACAAGAAGGTCATCGAGAATATTACGCTTGCTCCTATTCAGGTGAAGGGGGTCTCGGCGAAGGAAGCCGAGGCTACTGCAGACGAGCTGCTGAAATCGGTTGGACTGCAGGACAAGAAGGAGTCTTATCCTTCCCAGCTGTCCGGCGGACAGAAGCAGAGAATTGCCATTGCGCGAGCACTCGCGATGCAACCCCATGTCATGCTGTTTGACGAGCCGACCTCCGCGCTCGATCCCGAGATGGTGGGCGAGGTTTTGGAAGTGATGAAGAAGCTTGCCGAAGGCGGAATGACGATGGTCATCGTGACCCATGAGATGGGCTTCGCTCGCGAAGTGGGAGATCGGATCCTGTTCATGGACGGCGGCAATATCGTGGAGGAAGGCACGCCGGACCAACTGTTCGGCAATCCGACCCATCCCCGTACGCAAGAGTTTTTAAGCAAGGTGTTGTAA	MQVITVKDLHKSFGKLEILKGIDIEIAKGEVVVVIGPSGSGKSTFLRCLNLLEVPTSGEISFEGELITAKNHNINATREKMGMVFQQFNLFPHKKVIENITLAPIQVKGVSAKEAEATADELLKSVGLQDKKESYPSQLSGGQKQRIAIARALAMQPHVMLFDEPTSALDPEMVGEVLEVMKKLAEGGMTMVIVTHEMGFAREVGDRILFMDGGNIVEEGTPDQLFGNPTHPRTQEFLSKVL	PGPT0020555_213	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020555-artR|artM-K23060	NA	NA
AK002_02512	732			hypothetical protein	ATGTTACAACAAATGAAATCTTGGACAAGAAATCGTGGACTTAACAAAAATAATAAAATCGCTGGAAGAACAGCCAAATGGTTTACCATTACAGCCGTGGCACTCGGACTGACTTTTGCCGGAGGCGGACTGCAAGCACATGCAAGCTCCGTGCATGTTGCCAAGAACGGCGATACGTTCTACTTCTTGTCCAAACAGTACGGCGTTAACATGGACAAGCTGATGAAAGCTAACCCAACAATTAAGGCAACGAATATTTACCAGGGGCTCAAAATCAACATACCAGGGACGGTATCGATGAACTCGGCGGCATCCGCGGCGCCCATCGCTCCAGGAAACTCCGGTTTCACGCCAAGCTTGAATGTTATACCGCAGAATAACGTAGTCGAAGCATGGGGCAAGACGTTTAATTACAGCAAAACTTTGTCCGTTAAAGCTACAGCGTATTCCTCTGCTGCAAGCGAGAACGGCGGTTGGGGCGCGGTTGATTATTTCGGGAATTCCCTTAAGCTTGGCACCATCGCCGTTGATCCCAAGGTAATTCCGCTCGGTACCAAGGTGCTTGTAACAGGACATGAGCATCCAGGACTGCCTAAAAAGGCATTTGTAGCAGAAGCACGTGATATCGGCGGAGCCATAAAAGGGAATAAGATTGATATCTTCATCCCAGGCTCCCAATCATCCGTAAATCAATTCGGCATCCAGGATATCAAATTGTTCATTATCGATTAA	MLQQMKSWTRNRGLNKNNKIAGRTAKWFTITAVALGLTFAGGGLQAHASSVHVAKNGDTFYFLSKQYGVNMDKLMKANPTIKATNIYQGLKINIPGTVSMNSAASAAPIAPGNSGFTPSLNVIPQNNVVEAWGKTFNYSKTLSVKATAYSSAASENGGWGAVDYFGNSLKLGTIAVDPKVIPLGTKVLVTGHEHPGLPKKAFVAEARDIGGAIKGNKIDIFIPGSQSSVNQFGIQDIKLFIID				NA	NA	NA	NA	NA
AK002_02513	849			hypothetical protein	ATGTTCAAAAGATGCCGCGCAGGAATCTGCCTGCTGTGGATCCTTTCATTCTTTATCGTTGTGCCGGGCATCCCGGCAAACGCGTCCGCTTTACATAATCTGTCACAACAACCTCAGGATGCTTCCGTCATGTCGGAGTCCAGCCAAGTCATGGATCATTCGAAGCGAAATAAGAGCAAACCATCAGACGGCGCGCCGTCTTTAAGCCAATTGCTGAGAAAATACCCGGACACGTTTCGCGCAAGCGGACCACGGGTCAAACAGGTGGCGCTTACCTTTGATGATGTACCGGACCCCCGATTTACCGGAAAAGTTCTCGATGTGCTGAAAGAACAGCAGGTGAAGGCCACCTTTTTTGCAGTAGGAGACCGTGCCAAGAAACACCCTGAGCTCATGAAACGCATCCATGAAGAAGGACATGCCATTGGGAATCACTCTTACAATCACGCCCAACTGAACAAGCTGAGCCTGGAGAAATTCAAAAGCCAAATTGAGCGTACCAACACGATTTTGAAGTCGCTGACCGGCGTCCACCCGCGGCTGATCCGTCCTCCTTATGGCGATATTAATGAAGAACAGCTTCAATGGGCTCGTAAAAACGGGTACAAAGTAGTGAATTGGAATGTCGATTCCCTCGATTGGAAGGGACTGCAAAAGGAAGATGTCAAAAGCAATATTTTATCTGCGGTCGGTCCCGGCTCGATCATTCTCCAGCATGCCGGAGGCGGCGTGGGATCCAATCTATCCGGTACTATTGAAGCGCTCCCCGACATCATAGCGGAGCTGCGAAACAAGGGGTACAGCTTCGTGACGCTTCCGGATATGTTAAACGTGCCGGAATCGCGATAG	MFKRCRAGICLLWILSFFIVVPGIPANASALHNLSQQPQDASVMSESSQVMDHSKRNKSKPSDGAPSLSQLLRKYPDTFRASGPRVKQVALTFDDVPDPRFTGKVLDVLKEQQVKATFFAVGDRAKKHPELMKRIHEEGHAIGNHSYNHAQLNKLSLEKFKSQIERTNTILKSLTGVHPRLIRPPYGDINEEQLQWARKNGYKVVNWNVDSLDWKGLQKEDVKSNILSAVGPGSIILQHAGGGVGSNLSGTIEALPDIIAELRNKGYSFVTLPDMLNVPESR	PGPT0018645_1834	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_02514	1023	namA_1	COG1902	NADPH dehydrogenase	TTGGCTGACTTGTTTACACCCTACAATTTCAAGAATTTGACCCTCAAGAACCGCATTGTTATGCCACCGATGTGTCAATATTCCGTAAAGGCCGGGGACGGGATTCCGAATGATTGGCATTTTGTGCATTACGTCAGCCGTGCCGTGGGAGGCACTGGCTTAATTATTGTGGAAATGACAGGCGTTCACCCGGACGGACGCATAACGAATCAGGATACCGGGATCTGGGACGACAATCAAATTCCTGCCTATCGCCGTATTGTCGAAGCCGTGCATTCTTATGGAACCAAGATTGGTATCCAGCTCGGCCATGCCGGCCGAAAGGCGCAGGATGCCGAGCCGTCGGTTGCCCCGTCGGCAATCCCGTTCAGTTCCCATTACAAAATGCCGAAGGCACTCTCCACTGCCGAAGTGGAAGATCTCATTCAGGCCTTCAGGGAAGGAGCTCGCCGGGCCGTTGAAGCTGGATTCGACACGGTTGAGATTCATGGCGCGCATGGTTACCTGATCCATCAGTTTCATTCGCCGCTGACGAATCAACGCAGTGACGAATATGGCCAAGATCTCCCTCTGTTCGGTGAACGGGTTGTCCAGGCCGTTAAGGAAGTGCTGCCCGAAGGCATGCCGATCATCATGCGGGTGTCTGCTAAAGAATATGTGGACGGCGGTTATGATGTGCAGTACTGCGCGGAAATCTGCAAACGATACCGGGATGCCGGGGTCGATATTTTTCATATCTCCTCCGGAGGAGAAGGGGTCGTCGGTTCCAATGGCGGTCCGGAAGCGAAGCCGGGTTATCAGGTCGATCTGGCTGCGGAGTTCAAACAACTGCTGAAGGTCCCCGTGATTGCGGTAGGGCTGCTTGATGATTACAATGTCGCCCAAGAGGTGGTTTTGTCGGGCAAGGCGGATATGGTGGCGATTGGAAGGGGCATGCTGCGGGATCCGTACTGGGCGGTTCATGCTGCCAAAGCGCTTGATGAAGAACAGAAAGTTCCGAAGCAGTATGAACGTGGATATTAA	MADLFTPYNFKNLTLKNRIVMPPMCQYSVKAGDGIPNDWHFVHYVSRAVGGTGLIIVEMTGVHPDGRITNQDTGIWDDNQIPAYRRIVEAVHSYGTKIGIQLGHAGRKAQDAEPSVAPSAIPFSSHYKMPKALSTAEVEDLIQAFREGARRAVEAGFDTVEIHGAHGYLIHQFHSPLTNQRSDEYGQDLPLFGERVVQAVKEVLPEGMPIIMRVSAKEYVDGGYDVQYCAEICKRYRDAGVDIFHISSGGEGVVGSNGGPEAKPGYQVDLAAEFKQLLKVPVIAVGLLDDYNVAQEVVLSGKADMVAIGRGMLRDPYWAVHAAKALDEEQKVPKQYERGY	PGPT0005575_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0005575-namA-K09461	NA	NA
AK002_02515	669	liaH_1	COG1842	Protein LiaH	ATGTCCATATTTAAAAGATTGCGTGACTTGACCATGTCCAATATTAACGCCATTATCGACAAGGCTGAAGACCCGATCAAGATGACGGACCAGTACATCCGCGACATGACCGAAGACCTTGAGGATGCCGAGAAAGCGGTAGCTGCCCAAATCGCCATCGAGAAACGCTTCAAAGCCCTTTATGAGGAGCAAGCTGCTCTCGTGGAAAAACGCACGCAGCAGGCTCATACGGCAGCGCAGGCGCAAAACGTTGAGCTTGCCCGCCGTGCGCTGGAAGAGAAGAAGGCAGCTGAAGCCAAGCGCGACGAGTACAAAGCAAGCTACGATCAGAACAAGCTGGCAGCCGACAACCTGCGCGGCAAGCTGGAGGAAATGCGCAAGCAGCTTACAGCGATGAAGAACAAGCGCGAGACGCTGGTTGCCCGTTATAATGCGGCTAAAGCGCAAACCGAGATCAACAAAGCAATGAACGGTTTCGGGTCTGACACGGCTTCGGCCGGGTTGAAGCGGATGGAAGAAAAGATGCTGGCCATGGAAGCGCGTGCCGAAGCAAGCAACGAAATGTCGACGCGCGAGAAATCCCTCGATGAAGAGTTCGAGAACCTCGGCAAGGACAAAGCCGTTGAGGATGAGCTTGCAGCCTTGATGAAGCAATACGAGAACAAGTAA	MSIFKRLRDLTMSNINAIIDKAEDPIKMTDQYIRDMTEDLEDAEKAVAAQIAIEKRFKALYEEQAALVEKRTQQAHTAAQAQNVELARRALEEKKAAEAKRDEYKASYDQNKLAADNLRGKLEEMRKQLTAMKNKRETLVARYNAAKAQTEINKAMNGFGSDTASAGLKRMEEKMLAMEARAEASNEMSTREKSLDEEFENLGKDKAVEDELAALMKQYENK	PGPT0014646_1726	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
AK002_02516	405			hypothetical protein	ATGGATTTTGATATGATCTTGCGTGTATTGCTTTGGACGGCTGTCGGTGGGCTGCTGTTGTTTGTATTGATGTTCGTGGATTCCCTGTTCACGAAATATAACGATCTTGAAGAAGTGAAAGCGGGTAACATGGCGGTAACCACAAGGCTGATCCTCAAGCTGGTCGCCCAAGGGTATATTTTATCCGTGTCGATCGGAACGTCCTATCACCTGCTGGAGGCGATTGTGGTATCGGTCGTTTCGTTTATCATATTGTTTGTTCTCGAAGCGTTGACAGAGCTCATGCTGCGCAATTTCGGCAAGCTGAACCTGGATAAGGGAACCCGCGAGGGCAAAACCGGTTACGGTTTGTTTGCAGGATCGCTGCATGTGGTCGGAGCGTTAATTATTACCGCTTGCTTATAG	MDFDMILRVLLWTAVGGLLLFVLMFVDSLFTKYNDLEEVKAGNMAVTTRLILKLVAQGYILSVSIGTSYHLLEAIVVSVVSFIILFVLEALTELMLRNFGKLNLDKGTREGKTGYGLFAGSLHVVGALIITACL				NA	NA	NA	NA	NA
AK002_02517	501			hypothetical protein	ATGTGGAAAAGAATCAGCAATTTATTTAGCAAGCCCGAGCCGCCCAAGGTAGAGAAGAGCATGCTGCAGCTGGCTCCGGGCGATATTTGCGAAGTGTCTCTGGTTACTTACGAAGTCACGGGCCGCGTGCACAATCGAGGCCGCAACGCGGTCGTCCTGACGCTTCAGGATGGCAGCACCATTGCTTATCTTCACATCGAAGAACGCGAGACGGTTCAATATGCACTCTATGCGCCCATCGATGGACGCCTGGATTCGCCGGATGAGGTGCCGTCCATCATCGATCTGGACGATCATGTGTTTCATTTGGAAGAGGAATACGGTGGACATGTATCGATATCCGGCCGTACTGCATTTATGCAAAGCGGGGAGCAGCATGTATGGCAGTACCAATCGGATGATTACAAGCTGCTGCGAATCGAATGGCAGAATGGACGGTTTATGCTCTATGAAGGCGAGAAAGTGATACCGGGGGACGTAAGGGTTATCCGGGCGACTTAG	MWKRISNLFSKPEPPKVEKSMLQLAPGDICEVSLVTYEVTGRVHNRGRNAVVLTLQDGSTIAYLHIEERETVQYALYAPIDGRLDSPDEVPSIIDLDDHVFHLEEEYGGHVSISGRTAFMQSGEQHVWQYQSDDYKLLRIEWQNGRFMLYEGEKVIPGDVRVIRAT				NA	NA	NA	NA	NA
AK002_02518	732			hypothetical protein	ATGAAGGAACGCTCTTTTTTATCTGTAAAAATCATACTGGTACTGAGTCTGTTCGTATCTTTATTAAGCGGATGCGGAGCGCCGAATATCAAGGACACGTATCCGCTGGAGTCCGTCAATCGGGACGGAAATGCAACATCCTATGTGTATCGGGCAGCTGATAAAAGCGTTCCCGAAGTGGCGGGCGAGCTCATGGCGGCGAATACGCCGGATCAATCGTCTCCTGAGGATACGGAGCGGATGTTCTTGGTGTATGGCGATGAGTATTACCATTTGCAGCAGGATCCCCAGAAGCCGGCCGATACGCTGATCGAAATCGATTCCAAGGAATATGTTCAGCGCAATTACGATTCCAGTTTCCTGCAGGGATACTTGACCGCCGTCCTTATCGGGAATTTGTTTGATTCGATGGGCGGCGGGGGCTATCGCGGCTATACCAGCAAAGATGTGTATAAACCGGCTCAAGGGAACTATAAAAAGCCGACAAGCCAAGATAAGAAGATCGCTCCGCCGTTGACGGTTGACCGGAGCGGGAAAATTACGCGGCGCGGTCAGGATACGGTCGGCACGGGCGGAAGCCTGTTCAGACGGAATCCGGATTCAAGCGGTGACCGCGGCTCGATCAAACGCGGCGAAAGCGGCGGAAGTTTGTTCGATTCGCCGAAGAAATCGTACAAGAAGCCCAAGACCCGGATCGGATCCGGTAAGATTTCCCGAAGGGGCCGAAGGTAA	MKERSFLSVKIILVLSLFVSLLSGCGAPNIKDTYPLESVNRDGNATSYVYRAADKSVPEVAGELMAANTPDQSSPEDTERMFLVYGDEYYHLQQDPQKPADTLIEIDSKEYVQRNYDSSFLQGYLTAVLIGNLFDSMGGGGYRGYTSKDVYKPAQGNYKKPTSQDKKIAPPLTVDRSGKITRRGQDTVGTGGSLFRRNPDSSGDRGSIKRGESGGSLFDSPKKSYKKPKTRIGSGKISRRGRR				NA	NA	NA	NA	NA
AK002_02519	1290	moeA		Molybdopterin molybdenumtransferase	GTGAAAGATCATGAACCGATATCGCCCAAGAAACCAAACCATAAATTCGATCGGCGTGCACTACAGGTATCAGACGCGCAAGCGTTAGCAACTTCTTATGCGGATTGCGGCCAGGAGGAGCTTATTCGGCTGCAGGACAGCGATGGCCGGGTGCTTGCATCCGATGTCGTCGCTCCTCACCCGTTCCCGGCTTTTGCCCGTTCGGGCATGGACGGTTATGCGGTGTCGTCAGCCGATTTGGCGCCATGCGATCAGGGGGAAAAGGTTTGGCTTGAGGTCGTCGACCATATCCCGTGCGGATATGTCTCCTCCGTGCCGATCGTACAAGGCAAGGCTTCCCGTATCATGACGGGCGCCCAGGTGCCCGAAGGCGCAGACGCTGTCGTGATGCTTGAAGCGACGGAGCTTCGCGTGGAGGATGCCGTAACCTATGTAGGCTTTAAGCGTTCCATCGAGAAGGGAAAGAATATTACCCCTCTCGGGTTTGAACTCCAGGAAGGCGATATGATTCTCCGCCGAGGGACACGCATCGGGCCGGGAGAGATTTCGGTCCTGGCTACGTTTGGCATACATAAGGTTGGAGTGTATCGTCAGCCGATCGTGGGAATCTTCTCGACGGGCACCGAGCTGCTCGACATAACCGAGCCGCTTGAGCCCGGTAAAATCCGTAACAGCAACACCTATATGCTTGCATCGCAAATTCGGGAAGCGGGCGGCGTTCCGGTGATCATGGAGGCCATTCCCGATCATATCGAGCTTGCCCGTCAGAAGGTGGAGGAAGCGCTCCGGGATTATGACATCGTGGTTACGACAGGAGGCGTCTCCGTAGGCGATTACGATATTATGGGGGAGCTGGTGACATCAGGCGGATTGGACATGCTGTTTAATAAAGTTACGATGCGTCCGGGCAGCGTGACAACCGCGGCGGTGAAGGAGGGGAAGCTGCTCTTCGCGCTCTCCGGTAATCCGGGGGCATGCTTTGTCGGATTTCTGTTGTTTGTCAGACCTTCGATTCGAAAAATGCTGGGCATGGAGCAGTTGTATTTAACCGAATGGACAGCCGAGCTGGGTTCGGATTATGCAAAGGTGAATAATTTTACCCGTTTTGTCAGGGGCAGCCTCCAAGTGGTAAACGGCAAACTTGTAGCCACGCCCGCCACCCTGGATGAATCAAGTGTCATGATCACGATCAAGGACAGCGACTGTTTGATTGTTATACCGCCAGAGCTTAGAGGAGCGGTTAAAGGCCAAGCCGTGCAGGTGCTCGTTCTTCCAGGGGTCTGGTCATGA	MKDHEPISPKKPNHKFDRRALQVSDAQALATSYADCGQEELIRLQDSDGRVLASDVVAPHPFPAFARSGMDGYAVSSADLAPCDQGEKVWLEVVDHIPCGYVSSVPIVQGKASRIMTGAQVPEGADAVVMLEATELRVEDAVTYVGFKRSIEKGKNITPLGFELQEGDMILRRGTRIGPGEISVLATFGIHKVGVYRQPIVGIFSTGTELLDITEPLEPGKIRNSNTYMLASQIREAGGVPVIMEAIPDHIELARQKVEEALRDYDIVVTTGGVSVGDYDIMGELVTSGGLDMLFNKVTMRPGSVTTAAVKEGKLLFALSGNPGACFVGFLLFVRPSIRKMLGMEQLYLTEWTAELGSDYAKVNNFTRFVRGSLQVVNGKLVATPATLDESSVMITIKDSDCLIVIPPELRGAVKGQAVQVLVLPGVWS	PGPT0008430_1501	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK002_02520	504			hypothetical protein	ATGAAGGTCTTCCAGTTCTGCGGGTATAAGAACAGCGGCAAAACCACGCTCATTGCGGCTCTGATTCCACAATTGAAACGACAGGGCATCAGGATAGCCGTCATCAAGCATGATGGGCATGGCTTTGATATGGACCGCGAAGGGACGGATACGTACAAATTCCGCGAGGCCGGAGCCGAGGGGATTGCCATTGCCTCGCCGGGCCGGACGGCCATGCTGAGGGAAACGGAGCTGGACCTCGATACGTTGATACATATGTACACTGATTATGACATGGTGCTGGTCGAAGGGTATAAGACGATGCCTTACCCGAAACTGGTACTGCTGCGGGGAATGGAGGACAGGGGGCTGCTGGATCAGGTCGAGGAGATCCGGGGCATCGTCGTGAATCCCGACATGCTAAAGGAACCGCCCGGCCTGCAGGAGATTCAGCATCGGCTGGCGGTTCCCTTGTTTACTTGGAATGAGACGGAGCGGATTGCGTCGCTTATACTATCACTGTAA	MKVFQFCGYKNSGKTTLIAALIPQLKRQGIRIAVIKHDGHGFDMDREGTDTYKFREAGAEGIAIASPGRTAMLRETELDLDTLIHMYTDYDMVLVEGYKTMPYPKLVLLRGMEDRGLLDQVEEIRGIVVNPDMLKEPPGLQEIQHRLAVPLFTWNETERIASLILSL				NA	NA	NA	NA	NA
AK002_02521	1083	xerS	COG0582	Tyrosine recombinase XerS	ATGAATATACAAAAAGATATCGACCGCGCTAGACTCGATGAGAAAGCGCCGGCCATGCCTTGGTTTGTGCAGCAATTTATCGACTACAAACTTCCGGATCTCTCCCCCTCCACCCTGCTCGAATATGTAAGGGACTATGAAACGTTTTTCAATTGGCTCCGGTCGGAAGGGCTGTCACAAGCCGCCTCTAACCGGGACGTGACGCTGCTTGAGCTGGAGACGCTGCGCATGGACAGCATCACAGGTTACCGATTATATTTGACCACGCGCCGGGAAGGCACCAATTCCCGAATCACGGTTTCCCGCAAGCTGTCATCGCTTCGCTCCCTGTTCCATTATTTAAGCCAGATTGCGGAGGATGAGGATTTTTACCCGCTCCTTAAACGCAACATCATGGCCAAAGTGGAGATCAAACGAATTCACAAGCCCAAAGATACGGCTGCCAAGTTGAAAGGAAAAATACTGGAAGAAGAAGAGCTTCAGGATTTCATTACTTACATTCACGAAGGATACGGGCATGATGTGGAGAAGAACAAACAGGCTCTCTATGCGCATGAACAGAACAAAGTCCGAGATGCCTGCATTGCCAGCCTTATTCTAAACTCCGGTCTTCGCGTATCCGAAGTGGTCAACTTGAATCTTGCCGACATCGACCTGAACAATAAAATGCTGCATGTGTATCGTAAGGGCAATAACGATGAAACCTTTAAAACCCCGGTCTACTTCCGGGCGCAGGCCAAAGACGACCTCGAGCATTATCTGCAGCTGCGGCAGACCCGCTACAAGGTGCCGAAAAAAGAAAAAGCTCTCTTTGTCGCGCTGCGCAACGGCCAGAATGAAGGACAGCGCATGACGAAACGGGCGATTCAGGCAATGATCATCAAATACGCCAAGCGTTTTGGCAAGCCGTCCCTGACCGTGCACAAGCTGCGGCACTCGTTTGCAACGGATTACTATCTTCAAAATGACATATATAAAACGAAAGAACAATTGGGGCACGCTTCGACCGAAACGACCGAAGTGTATGCCCATTTGACGGACAAAACGATGTCCGAGGCGATTGAGCGGCGTACGGACGAGTAA	MNIQKDIDRARLDEKAPAMPWFVQQFIDYKLPDLSPSTLLEYVRDYETFFNWLRSEGLSQAASNRDVTLLELETLRMDSITGYRLYLTTRREGTNSRITVSRKLSSLRSLFHYLSQIAEDEDFYPLLKRNIMAKVEIKRIHKPKDTAAKLKGKILEEEELQDFITYIHEGYGHDVEKNKQALYAHEQNKVRDACIASLILNSGLRVSEVVNLNLADIDLNNKMLHVYRKGNNDETFKTPVYFRAQAKDDLEHYLQLRQTRYKVPKKEKALFVALRNGQNEGQRMTKRAIQAMIIKYAKRFGKPSLTVHKLRHSFATDYYLQNDIYKTKEQLGHASTETTEVYAHLTDKTMSEAIERRTDE				NA	NA	NA	NA	NA
AK002_02522	504			hypothetical protein	ATGATTTCAGAACGAGCGGAGCGCATGGGAATTGAGCTGGTTCCCAAACGGAAGCAAGCCGTTATCGTAAACTTGATGCAATTGTACTTGTACGATTTTACTAAATATCTGGATATCTCGGTGAACGATCAAGGATTGTTTTTACCCTATCCCGATCTCGATGAGTTCTGGAAAAAGCGGGAACGGAAATATCCGTTTCTGATTACGTTTGATCAACGGCCGGCCGGTTTTGCCTTGATCGAGCGTATGGACAACGCCGCGGAAGCCGACTATTACATGACGGAATTTTTCGTAATGCAAAAATACAGACGTACGGGATTGGGGACTTGGGCCGCGACCTGGCTGTTCGATCAATTCCAGGGACGCTGGAAGGTGACGCAGGTCAGCAGCAATATACCGGCCCAGGCTTTCTGGCGAAAAGTCATCGAGTCCTATACGGGCGGGCGTTATGAGGAATTCGTGGACCCGGTTCGTCATAATCCTTCGCAGTACTTCAATTCCTAG	MISERAERMGIELVPKRKQAVIVNLMQLYLYDFTKYLDISVNDQGLFLPYPDLDEFWKKRERKYPFLITFDQRPAGFALIERMDNAAEADYYMTEFFVMQKYRRTGLGTWAATWLFDQFQGRWKVTQVSSNIPAQAFWRKVIESYTGGRYEEFVDPVRHNPSQYFNS				NA	NA	NA	NA	NA
AK002_02523	774	gno		Gluconate 5-dehydrogenase	ATGTATTTGCCCAGCTTTAATCTGGAAGGAAAAAAAGCCTTTGTAACAGGGGCAGGGCGGGGAATCGGGCGCGCGATAGCCGTAGGCTTGGCGGAGGCCGGATGCGACGTTGGTCTGATGTCCCGTACCCGAAGCGATCTGGAGGAGACCGCGGGTCTGATCGCCGGCTTGAAGAAAGGTCAAGCCTATGTGCTGCCGGGCGATCTTACGATTCGGGAAGAGATGGAGGCGGCGATCCGCGAATTTGTGGACCAGGCGGGGCAAATCGATATATTAGTGAACAATGCCGGCATGAACATTCGTACGCCGGCGCTGGAAGTGACCGATGACGAATGGGACTTAATCGTGCAGACCAATTTGAAATCGGCGTTTGTCGCATCTCAAACCGCTGCCCGTTATATGAAGGAGCAGAGGAATGGAAGAATCATCAACATTTCTTCCGTCGGCGGCCATACCGCCCTACGCACGGGCGTTGTCTATGGATCGACCAAGGCCGCTCTAATCCATATGACCAAGGTGCTGGCGATGGAGTGGGCGCAGTATGGAATCCAGGTTAACGCCGTAGGGCCTTGGTATTTCCGGACGCCGCTGACCGAGAAGCTGCTGAATGACGACACTTACATGCAGGCTATCCTGGACCGGACGCCGCTAAAACGCGTAGGAAACCTGGAAGAAGTGGTGGGGCCCGTCGTTTTCCTGGCTTCCGAAGCCGCCAATTACATGACCGGGCAAACGCTGCTGGTTGACGGCGGGCTTAGCATTTATGGATTTTGA	MYLPSFNLEGKKAFVTGAGRGIGRAIAVGLAEAGCDVGLMSRTRSDLEETAGLIAGLKKGQAYVLPGDLTIREEMEAAIREFVDQAGQIDILVNNAGMNIRTPALEVTDDEWDLIVQTNLKSAFVASQTAARYMKEQRNGRIINISSVGGHTALRTGVVYGSTKAALIHMTKVLAMEWAQYGIQVNAVGPWYFRTPLTEKLLNDDTYMQAILDRTPLKRVGNLEEVVGPVVFLASEAANYMTGQTLLVDGGLSIYGF	PGPT0018070_541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
AK002_02524	888			hypothetical protein	ATGGAACGTAGAACATTTGGACGGACGGATATGCAGGTCAGCGTATTGGGATTCGGCGGAGCCGAGATCGGCAAGTCGGATCAGAAGACGGTTGACCGGCTGCTGCACAACGCGATTGACGCAGGCCTTAACATGATTGATACCGCGGAATGTTACGGCCACAGCGAGGAATTGATCGGCAAAGCGCTGTCGGGCCGCAGGGATGATTATTATCTGTTTACGAAATGCGGGCACGCCTCCGGACTGGACTACCCGGATTGGGATCCGGTAATGCTTGAGCAGAGCATTGACCGGAGCTTGAAGCGGCTGCAGGTGGACCACGTTGATGTCATTCACCTTCACAGCTGCTCTGAGGAAATGCTGCGGCAGGGCGCCGTGATCGAGGTGCTGAAAAAAGCAAAAGAGCAGGGGAAAACGCGGTATATCGGCTATAGCGGCGATTCGACGGATGCACTGTACGCCCTTCAAACCGGCGCATTCGACAGCTTTGAAACTTCGCTGAACATTGCGGACCAGGAGGCAATCGACCTCACGATTCCGCTTGCCATGAAGCAGGGAATAGGGGTTATTGCCAAACGTCCCGTAGCCAACGTAGCCTGGAAGCATGAAACATTAAGCGAACGGGACTATGCCTATCCTTACTGGGTTCGGCTCGGCGAGCTGAACTACGATTTCCTCTCTGACGTTCAGCAAGGCGTTGAGACGGCATTACGGTTCACCCTGAGCACGCCGGGCGTAGCGACGGCCATCGTGGGTACGGCAAATCCAGACCGTTGGGGGCAAAATGCCGCACTGCTCGAGAAAGGGAAATTGCCGGAGGAGGTTTACGAATCCATCCGCGGCCGCTGGAGAGAGGTTGCCGGATCCGACTGGGTGGGTAAGGTGTAG	MERRTFGRTDMQVSVLGFGGAEIGKSDQKTVDRLLHNAIDAGLNMIDTAECYGHSEELIGKALSGRRDDYYLFTKCGHASGLDYPDWDPVMLEQSIDRSLKRLQVDHVDVIHLHSCSEEMLRQGAVIEVLKKAKEQGKTRYIGYSGDSTDALYALQTGAFDSFETSLNIADQEAIDLTIPLAMKQGIGVIAKRPVANVAWKHETLSERDYAYPYWVRLGELNYDFLSDVQQGVETALRFTLSTPGVATAIVGTANPDRWGQNAALLEKGKLPEEVYESIRGRWREVAGSDWVGKV				NA	NA	NA	NA	NA
AK002_02525	1347			hypothetical protein	ATGAAAAGGACTTCCATGTTACTCATGAGTGTCATGCTGCTGCTCTCCATGTTCCTCGCAGCCTGCGGAAACAGCGGTGGCACCAACACTCCTGCCGCTGAAGGAGAAACGCCGAAGACGGAAACAACTCCGCCGGCGGAAGAGAAGAAGGATGAAGCCGCTCCGGTTTCGCTTCGCGTGTTCTCGACCTTCGGAGGAACTGACGCAGCTCGCGAAGCCTTCCAGGCCGCGTTGGATGAATTCACGAAAGAGCATCCAAACGTAAAAATTGATAACGACACCATGTCAGCAAATGATGACGGTTTCAGAACGAAAGTCAACACCGATATGAACAGCGGCAACGAGCCAGACCTGTTGTTCTACTTCATCGGGGCTGACGCAGAAGGGTTCGTCAATGCCGGCAAAGTCGTGCCGCTGAACGAAATTCTCGACGCTGACGCTGACTGGAAGAACGGATTCATTCCTGATGCGCTTGAGCTTGCGAAGCAGAAAGACGGCAACATTTACGCTGCACCTTTGACCGGGTTCTACGAAGGTTTGTTCGTTAACAAAAAAATCTTCGAAGAAAACGGTCTGGAGCTCCCAACCGATTGGGCGAAGCTGACCACCGCCGTTAAGGCATTGGCAGCAAAAGGCATTATTCCTTTGTCCGTACCGTTTGACCAATCGCACTACCTGATTGAGCATACCATTTTGTCTGCGGCTGGCCCTGAAGGACAAAATAAAGGCCTGCTCGATGGCATCGATCCAAACTGGGAAAAAGCTTATGCCGCTATGAAAGAATTGTATGATCTCGGCGCATTCCCTAAAGATGCCGCAACAATCGACCTGAGTATGTCCGGCAACTATTACAGCGAAGGCCTGGCAGCCATGACCATCGAAGGATCCTGGGCCATCGGCGGCTGGAGCGACGATACTCGCGACAATTCCACGGTTGTGCCATTCCCGACGGTTCCTGGCGGCGTGGGCAGCGGCAATGATATCGTAGGCGGATTCGGTTCCGGCTTCTACCTCTCCAAAGCCACTTATGACGATGCAGCCAAAAAAGAAACAGCCATCGCTTTGCTGAAACACCTGACTTCCCCGGCGTCCATTCAAAAAATCGCTTCAGCTAACGGCGGTACACCTGCTGCTGACGTTGAAGTGACCGGATTGCCGCAAGTCGCACTCGACGGCTTCGCTATGGCAGCAAAAGCAGCCTCCATCAGCGCACCTGTTGACAGTAAAGTTTCGCAAGAAACGTTCGGCAACCTTCGTGCCAGCGTTCAGCCTGTAGTAGAAGGCAAGAAAACGCCTACTCAAGCGATCGAAGAAGCGAAGAAAACCGAGGATGCCAACAAAAAATAG	MKRTSMLLMSVMLLLSMFLAACGNSGGTNTPAAEGETPKTETTPPAEEKKDEAAPVSLRVFSTFGGTDAAREAFQAALDEFTKEHPNVKIDNDTMSANDDGFRTKVNTDMNSGNEPDLLFYFIGADAEGFVNAGKVVPLNEILDADADWKNGFIPDALELAKQKDGNIYAAPLTGFYEGLFVNKKIFEENGLELPTDWAKLTTAVKALAAKGIIPLSVPFDQSHYLIEHTILSAAGPEGQNKGLLDGIDPNWEKAYAAMKELYDLGAFPKDAATIDLSMSGNYYSEGLAAMTIEGSWAIGGWSDDTRDNSTVVPFPTVPGGVGSGNDIVGGFGSGFYLSKATYDDAAKKETAIALLKHLTSPASIQKIASANGGTPAADVEVTGLPQVALDGFAMAAKAASISAPVDSKVSQETFGNLRASVQPVVEGKKTPTQAIEEAKKTEDANKK	PGPT0016330_609	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_02526	858	melD_9	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAAGGGTGATCGCAAGTACATTGTGCTGTTTTTATTACCCGCAGCAGCCATCATGACAATCTTTCTATATTATCCGTTCTTTAAGAGTTTGTATCTCAGCTTTTATCGCACAAGCGGCTTTTTCGACAAAAAGTTTGTGGGCTGGGCTAATTATGAGAGACTCGTTACGGATAAGCTGCTTGGCGCTGCAACGCTGCACACGCTGGAAATTATGCTCTATGTTATCGTGTTCCAGGTGGGAATTGCGCTAGTGCTGGCCGTCCTGGTAGATAACATATCCAAGCTGAAAGGGTTCTATCGAACCGTATTCTTCTTCCCGGTGGTTATATCCGGTACGGCTATTTCTTTGTTGTTTGTGCTCTTCTACAACTACAACTTCGGATTGCTGAACAACTTGCTGGCGAATTTCAACATCGAGAAGGTATTGTGGCTGGATGCGAAAAATGCGCTTAAAGCGGTATCGATCCCAACGGTATGGCATTATGTGGGCTTTTATTTCGTTCTGTTCTTGACCGCCATGTCCAAAATACCTTCGGATTATTATGAAGCTGCAAAATTGGAAGGAATCACGGGCCTCAAAAAAACAACGATGCTTACAATTCCGCTTATCATGAGTGACATCAAGGTCGTCATTACCCTTGCCATTACGGGTACGTTGAAGGTGTTCGAGTTCATCTGGGTCATCACAAGCGGCCAGAACGGAACCGAGGTGCTGGGGACGTACATGTACAAAAAGGCCATGGTGGACCAGAACTTTGGTTACGGATCGGCGGTTGCGATATACATGGTGGTCTTTGGCGTGCTGCTTGCGTTGATAGCCAACCGTTTGTTGAAAAGAGACGAGATTACATACTAA	MKGDRKYIVLFLLPAAAIMTIFLYYPFFKSLYLSFYRTSGFFDKKFVGWANYERLVTDKLLGAATLHTLEIMLYVIVFQVGIALVLAVLVDNISKLKGFYRTVFFFPVVISGTAISLLFVLFYNYNFGLLNNLLANFNIEKVLWLDAKNALKAVSIPTVWHYVGFYFVLFLTAMSKIPSDYYEAAKLEGITGLKKTTMLTIPLIMSDIKVVITLAITGTLKVFEFIWVITSGQNGTEVLGTYMYKKAMVDQNFGYGSAVAIYMVVFGVLLALIANRLLKRDEITY	PGPT0016335_2399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_02527	873	ngcG_7	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGGAGCCAACCATCGTCGTTGAACACAAAACTCAGCGCGTTAGGAAGCGTCGGTTTAGTCTAGGCACCACGTTGATGTACGTGATTTTGACAGCGTGGTCCTTAACAACCATCTATCCGTTATTCTGGATCGTGAACAACTCGTTCAAAGTATCCCGCGATGTGATGAATAATTCCTTTGGCATCGCCTGGGAACCGGTGTTTGTTAACTATCAGAACGCATTTGACCGCATTAATATCGGAAGAAGTTATATCAATAGTTTGGTGATGTCCTTCAGCACCGTATTCTTGGTATTATTGCTTGGAGGATTAGCTGCTTACGTGTTGTCCAGGTTCAACTTTCGAGGAAAGCGAACCATTTATTCCATTTTGTATGCGACGCTGCTGATTCCTGCGTTTGCAACCGTGGTTCCGGTCTATGAGCTGCTTATCAAAACCAGTCTGGTCAATACATACTGGGGTTTGATTTTTCCGCAAACGGCAGGCAATCTGACGTTTGCGACCTTGGTTATTGCCGGTTACATGGCAACCATTCCGAAAGAGCTTGAAGAAGCGGCATTCATGGACGGCTGCAACCGGTGGCAGATGTTTGTGAAGATCTTCGTTCCGATCTCTCAGCCCGTATTCGCGTCGGCAAGCATCTTCGTGTTTATGTGGTCGTATAACGATTTGTTCTCGGCATTGATTTTTGTGAACAAAGAGAATGTCCGTCCAATCGTTGCCTTGCTCAATGAGATCAGCTCGCAATACGGAACGGACTTTGGTCTGATGGCGACGGCAGTATCATTGACGGTTATTCCGGTTCTGATTGTATATCTGTTTATCTCGAAATATATCCAGAAAGGTCTGACCGAGGGAGCCGTCAAAGGTTAA	MEPTIVVEHKTQRVRKRRFSLGTTLMYVILTAWSLTTIYPLFWIVNNSFKVSRDVMNNSFGIAWEPVFVNYQNAFDRINIGRSYINSLVMSFSTVFLVLLLGGLAAYVLSRFNFRGKRTIYSILYATLLIPAFATVVPVYELLIKTSLVNTYWGLIFPQTAGNLTFATLVIAGYMATIPKELEEAAFMDGCNRWQMFVKIFVPISQPVFASASIFVFMWSYNDLFSALIFVNKENVRPIVALLNEISSQYGTDFGLMATAVSLTVIPVLIVYLFISKYIQKGLTEGAVKG	PGPT0016340_628	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_02528	939	garR_1		2-hydroxy-3-oxopropionate reductase	ATGAAACCGTCGAAACAACTTCAAGATCAAATGCTCGAAACTGAAACTCGTCAAACGCCGGCAAACGGCAGCCAAACCGCCGTAACGGTGCTGGGGCTCGGACCCATGGGGCAGGCACTGGCCGGTGCATTTATCAGGAGCGGCCATTCCACAACGGTGTGGAACCGGACAGCGGCTAAGGCTGACTCGCTGGTAAAGCAAGGTGCCGTGCTGGCTCCGTCCGTTAAGGATGCGGTGCTTGCCAGTCAGCTTATTATCATCTGCGTACTCAACTATGATGCAGTGAACGCCGTTCTGTCTTCTGAGACAAGTGCTTTGAAAGGAAAAACGCTTATAAACCTGACAGCCGACGTACCTGAACGTGCGCGGGAAATGGCGGAATGGGCTTTCCACAACGGAATTGACTACATCGATGGTGCCATTATGACGCCGATACCTACGATTGGGGAGCCTTCGGCCGTCATTTTGTACAGCGGGCCCGAAGACGTCTATCGCAGCCGTCAGAGTATACTCGACAGCCTGGGCGGAACCGCTTCGTTCCTGGGCGAGGATCCGGGTCGTGCAGCGGCATATGATGTGGCGCTGTTAGATGTGTTCTGGACAGCCATGAGCGGTTACGTACACGCGCTGGCCATTGCACGGGCGGAGAACATCGCTGCGGAAGACATCGCCCCTTATGCACACAATATCATTCGCATTATGCCGGATATCATGACCTATATGGCGCATGATGCGGATCGGGGCGTTTACCCTGGGGACAGTTCCAACCTGATCTCGAATGTAACGAGTATGGAGCACATTATCCACGCTGCCGAACATCATGGAATTGATAGCAGCGTCTTAATCGCAGCAAAAGCAATTGCCCAAAAAGCAATCCATGCCGGCCATGGAGAAGACGGCTTCTCCCGCTTGATCGAGTATAATCTCACCTCGCCATAA	MKPSKQLQDQMLETETRQTPANGSQTAVTVLGLGPMGQALAGAFIRSGHSTTVWNRTAAKADSLVKQGAVLAPSVKDAVLASQLIIICVLNYDAVNAVLSSETSALKGKTLINLTADVPERAREMAEWAFHNGIDYIDGAIMTPIPTIGEPSAVILYSGPEDVYRSRQSILDSLGGTASFLGEDPGRAAAYDVALLDVFWTAMSGYVHALAIARAENIAAEDIAPYAHNIIRIMPDIMTYMAHDADRGVYPGDSSNLISNVTSMEHIIHAAEHHGIDSSVLIAAKAIAQKAIHAGHGEDGFSRLIEYNLTSP				NA	NA	NA	NA	NA
AK002_02529	435			hypothetical protein	ATGAACATCGATGATTCCATTTTAAGCTCGTGCCTGTTTTTTACGTCAAATCGGTTTGCACGTTCCATGACCAAGATGGCGGAGGATGCATTTGCAAAAGCCGGCTTATCCCCAACGTACTCCTATGTGCTGGTGGTGATCCATCAATATCCCGGAATTACGCAGAAAGAGCTTAGCGATAAATTGTCGATTGCTCCATCCACAAGCACCCGATTCATTGATAAGCTGGAGGAGAAACTTCTGGTAAAGCGCAAATCCGAATGGAAAGAAACGCATATTTTCTTGACGGACGAGGGGATGGCGTTATACCAGGAACTGAACCAATATTTTGAAAAGTTATACGGAGAGTATGTCACCCTCTTGGGGAAGGAGCATAGCGAACAGTTAGCGAAACTTCTCCATGAATCCAGCGAATTGCTGAAAAGGGGAATGTAG	MNIDDSILSSCLFFTSNRFARSMTKMAEDAFAKAGLSPTYSYVLVVIHQYPGITQKELSDKLSIAPSTSTRFIDKLEEKLLVKRKSEWKETHIFLTDEGMALYQELNQYFEKLYGEYVTLLGKEHSEQLAKLLHESSELLKRGM	PGPT0016255_1437	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
AK002_02530	636			hypothetical protein	ATGCAGATTGGTATTATCGGTGCGACAGGGAAAGCGGGAAGTCTGATTCTCAAGGAGGCACAAGCACGCGGCCATGAAGTAACGGCGATCGTGCGTGATGCATCCAGAATCTCCGATTCCAGCATAAACATTTTGGAGAAGAACGTGCTGGATCTGACAGGTGCCGACCTTCAGCGGTTCGACGTTGTCGTGAATGCATTTGGCGCGGCTCCTGGGCAGGAGACTCAATATGTGGAAGTAGGCCGGGTGCTGATACAAGCACTAAAAGGCACGGATACCAGACTGTTTGTTGTCGGAGGAGCGGGCAGCTTGTTTGTGGACGAAGCCAAGACGCTTCGACTTTTAGAAACGCCCGATTTTCCGAAAGAATATTATCCGACGGCATTCCATGCCGGCGAGAATTTGAAGGACCTGGAACAAACTTCGGATGTAAAATGGACGTATCTTAGTCCGGCAGCATTCTTTAATCCGGAAGGTCGGCGAACAGGCAGTTATCAGGAGGGCAAAGATCACGTCATTGGCAATGCTAGCGGTAAAAGCTATGTCAGCTATGCCGATTACGTCATTGCGGTGCTCGATGAGCTTGAGCAGCCTAAACATCTCAACGAGCGCTATACGGTCGTATCCGAGGCTTAA	MQIGIIGATGKAGSLILKEAQARGHEVTAIVRDASRISDSSINILEKNVLDLTGADLQRFDVVVNAFGAAPGQETQYVEVGRVLIQALKGTDTRLFVVGGAGSLFVDEAKTLRLLETPDFPKEYYPTAFHAGENLKDLEQTSDVKWTYLSPAAFFNPEGRRTGSYQEGKDHVIGNASGKSYVSYADYVIAVLDELEQPKHLNERYTVVSEA	PGPT0020900_1079	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
AK002_02531	462			hypothetical protein	GTGAGCTCAAGATCCAAAAAGCCGGACTGGTTGACACAGGACTCTTTCTTTAACAACAATTCCTTTCCATTTAAGGATCTGAATCATCTCAATGAGGATTATCAGCTGGATCCGACGATCATTGAGGATTATGTAAAGGATACGATACGAAAAGCGACTGCCGGAAATGAAATTCTTCCCGACCCGCACTCGCTTCGCTATGAAACGTTAGATACTCATAACTTTCTGATCGTGAAATGTTATGTGCCTAAACGCATTCATCCGGAAAATTTATGGATTCAGCTAAACCGGACGCAGATCAAAATCAACGGCTTGCCAAAAGAACAACACCAAACCATATCTTTACCCGTCCCCATTCTACCTGCGCAATCCGTTGCGACTTATAGACAGCCTACGCTTCAAATTAAGATGCCGAAAATGTCTCCCGGCCGCCTGCGTGATATCAATATTCGTTTCTTGTGA	MSSRSKKPDWLTQDSFFNNNSFPFKDLNHLNEDYQLDPTIIEDYVKDTIRKATAGNEILPDPHSLRYETLDTHNFLIVKCYVPKRIHPENLWIQLNRTQIKINGLPKEQHQTISLPVPILPAQSVATYRQPTLQIKMPKMSPGRLRDINIRFL	PGPT0014635_5073	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
AK002_02532	222			hypothetical protein	GTGGTTTCAATTATCGGCAATATGAAAATCGTAAACGTGGGCCCCAGTTCTACGGTATTGGTTGGAAATACAGGAGTCATCGATTTAAACAGCACGACAAAAGCTTATTCCGGCGCCAACTCGTTCACCACCGGGGACAGTATTGGTACGAATATAACAAATAACCAAGCCAACAGTACGAATACATTCGATCCGGACCTTATTGATTCGCCTAATGCTTAA	MVSIIGNMKIVNVGPSSTVLVGNTGVIDLNSTTKAYSGANSFTTGDSIGTNITNNQANSTNTFDPDLIDSPNA	PGPT0025065_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025065-gerPA-K06299	NA	NA
AK002_02533	618	gerPC		putative spore germination protein GerPC	ATGTATCAATACCATATCCAGCAATTGTTCCATTGCCTTCAATCCCAGGCGGAGCAGCTTAACAGAATGGAACAAATGCTAAAGGAAATGCGTAATGAAATAAATCAATTACAGCAGGGCAACCAAAAGTCGACGGATCACGTCGAATATAATTTTGATTTATTGAAAATCGAAAAATTGGAAGGAACCTTAAACATTGGACTGACACCCTCAGATGGGAAGTCTCTGGGGGATATCACCGTCAATGGCCAGCCGGCAGAACAATTCCAGGCGGGAGCTGCCGGAAGAGATCTATACTCAAACATACATCAGCAGGTATCAAGCCACTTGGAGCATGCGGTGCCGGCGCGGCTCGAGCAAATGATTCCTCAGTCCAATCACGAACTTGGAGATCAATATGCTTCGGTGATGATAGAAGATATCCGAAAACAACTCGGAGATCGTATCAACGTTTACTTACAGCAATACCAAACGAACAGCACCGCAATGAATCCGGGTGATGTTGAACAAACGATCGCAAATCAAATGAAAAAAGAAATCGATACGGCAGTCGAGCATCATCTTCATCATTTGCAACAAGGAAAGAGGAATACGAATGAAAATGACGGTCATCAATAA	MYQYHIQQLFHCLQSQAEQLNRMEQMLKEMRNEINQLQQGNQKSTDHVEYNFDLLKIEKLEGTLNIGLTPSDGKSLGDITVNGQPAEQFQAGAAGRDLYSNIHQQVSSHLEHAVPARLEQMIPQSNHELGDQYASVMIEDIRKQLGDRINVYLQQYQTNSTAMNPGDVEQTIANQMKKEIDTAVEHHLHHLQQGKRNTNENDGHQ	PGPT0025075_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025075-gerPC-K06301	NA	NA
AK002_02534	186	gerPD		putative spore germination protein GerPD	ATGAAAATGACGGTCATCAATAAAGAGCTCCGGGTTGGTTCGATCCGTATTACGGCGATCTCCAGCTCATCCGTGCTGTTGATCGGAGATACCCGGGTTATTAATAGCAGTTCCATCTACGACACTCCTTCCGAATCCCTGCAGATCACCCCGCTCGTTCCGTTATCGCCGGGTACCGCACCATGA	MKMTVINKELRVGSIRITAISSSSVLLIGDTRVINSSSIYDTPSESLQITPLVPLSPGTAP	PGPT0025080_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025080-gerPD-K06302	NA	NA
AK002_02535	420	gerPE		putative spore germination protein GerPE	ATGAAGCGCCATGTACTCGTTGATAACGTATATATCATCAATATCTCTAATAGTTCGGCATGCATTTGCGGCGAATCGGGACATATCGATGCCTATACCCGAGCATTGGCGATTCAACGTCAAGTTCCGGTTTTTTTTGAGGACGAAGGCAATTATGAGGACTATCCGATTTTTTCGAGATCCATACCTGCATGGCAGCTTCCGTCAGAAGTAGACTTAGACGTTATACATGACCATAAAACGATTCATGTGGGTTGCCTGGACGTGATAGCGACAGCGTCTGCATCGGTTGTGCAGGTAGGTTCGAACGATACGATGGAATTGGAATCAAGGGTGAAGGCGATCAGGCACTTTATTACGGATGCGCCCCAAGAATTAAAGGATTATAAAGGCGTCATTGTCAGAAAGAGCCCACTATAG	MKRHVLVDNVYIINISNSSACICGESGHIDAYTRALAIQRQVPVFFEDEGNYEDYPIFSRSIPAWQLPSEVDLDVIHDHKTIHVGCLDVIATASASVVQVGSNDTMELESRVKAIRHFITDAPQELKDYKGVIVRKSPL	PGPT0025085_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025085-gerPE-K06303	NA	NA
AK002_02536	228	tlp		Small, acid-soluble spore protein Tlp	ATGGCTAAACCTGATAATCGCGAAGACAATGTCGAACATTTGCAGCAGGCCGTCCAAAACACGATCGAGAACTTCCGTGAGGCGGAAGATTATCTTCAGGAGTTCGGGGATGAGATTCCCGCAAGCGAGAAAGAACAGATTCAAGACCGCAATGCTCGTCGCGAAAAGAGTATTTCCGGCTTCCGGGAAGAGATTAAAGACGAGGCTGCCCACCAGCAAGGAGAATAA	MAKPDNREDNVEHLQQAVQNTIENFREAEDYLQEFGDEIPASEKEQIQDRNARREKSISGFREEIKDEAAHQQGE	PGPT0024940_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024940-tlp-K06434	NA	NA
AK002_02537	1299	hcf136		Ycf48-like protein	TTGATATCTAGACGTTTTATATTCTGGCTCGGTATGCTGATGATGATTGTATTCACGTTAGCAGCCTGTACCTCAGAACCGATAAAACAACAACAGCAAACTTCTACTGTAGAAGACCCTCCTGAATCGATTGAAGATGAAGAAGAAGGTCAGACCATCACACTAGTAACGCCGGATACGGCCATGAAAGCACCTGAGGAAAAAAGCAAATATCAGATACATACACGGTTGACGGATTTCCATCTGCTCAGTGAGTCAACAGGGATTGCTTGGGGGATCACGAACACAGAACTGCGTCTCTATCAAACCCAAGATTACGGTGAGACTTGGGTTGATATCTCTCCATCATCCAATGTCCAATTCGTTGACAAGCTGGAGTATGGGAAAGACATCGTGTTCACGGATAAAAATCATGGTTGGATTATACGAAACAAACAGAGATCGGCCGAAACGATCCTGCTCAATACGACCGACGGTGGCGCCAGCTGGAAGCTCTCTTCGCTTCCGGAGACGGGAGTCGTCACGGCAATGTCCTTCGTTTCATCCCAGCAGGGATGGATTATGGCAAAAGGCGATCTCTCCCGGGGATCGGAAGAGAAGTCGCTGTTTCACACCAGCAATAATGGCGGATTATGGGATGAGATTATGCAGAATACGGAGTATCCAACATCCCGAATTCCGGGAAGCGTCATTCCGCGAACCGGATCCGTCATCGGATTAACGTTCACGGATTCGCTTGTCGGATTTGCGACCATCCGTGAAATGCAATCTTCCAAGTTGTATATAACACGTGACGGAGGACAGAAGTGGAAGTCTTCCGGCCAAGTATTCAAAAGCAAACTGCTGGATGCGTGCGGTTCCGTTTTTGCCGGGACGCCCAAGTATCTGGGCAAAGGCGGTAGCGGAAGCGAGATGTATATACCGGTTACCTGCGTGAAGGAAGATCAGGCGAACTATTTGGGTTACTTTACGGCCGATACGGGGAAGTCATGGAATTTAGTGTCGTTTCCCATGACGGGAAATAGCGGGAAGGGAACCATCCAGCCTGTCTTCCGTCGTCTGCATGACGGATGGAGAATGGTGAACGGCATCGTCTATCATACGAGCGACATGGGCAAGACCTGGACGCCATTCCCTAGAAGCAAGCTGCTGTCCGATAATCTTGCAAAATATCCAAATGTGGTCAAATTGCAATTCACATCGTCGGATGTCGGCTGGATGCTGATTGAAACGACGGACAAAAACCGATCGCGCCTGATGAAAAGCAGTGACGGCGGCGTAACCTGGCAGGGGTTGTAA	MISRRFIFWLGMLMMIVFTLAACTSEPIKQQQQTSTVEDPPESIEDEEEGQTITLVTPDTAMKAPEEKSKYQIHTRLTDFHLLSESTGIAWGITNTELRLYQTQDYGETWVDISPSSNVQFVDKLEYGKDIVFTDKNHGWIIRNKQRSAETILLNTTDGGASWKLSSLPETGVVTAMSFVSSQQGWIMAKGDLSRGSEEKSLFHTSNNGGLWDEIMQNTEYPTSRIPGSVIPRTGSVIGLTFTDSLVGFATIREMQSSKLYITRDGGQKWKSSGQVFKSKLLDACGSVFAGTPKYLGKGGSGSEMYIPVTCVKEDQANYLGYFTADTGKSWNLVSFPMTGNSGKGTIQPVFRRLHDGWRMVNGIVYHTSDMGKTWTPFPRSKLLSDNLAKYPNVVKLQFTSSDVGWMLIETTDKNRSRLMKSSDGGVTWQGL				NA	NA	NA	NA	NA
AK002_02538	183			hypothetical protein	ATGCATACCGATCAAATGACGATAAATTTCCTTCGCTTGTGCTACCATTGCGATGATGCATGTTTATGTCAGACGGAGGAGCAATGCCTGGCTTGCTGGAATGAGCAGGACATGACACCGCAGGACCATGAAATGACGGGACAAGAAGAAACGATGAAATGGATGAGATTGGCTTACGATTAA	MHTDQMTINFLRLCYHCDDACLCQTEEQCLACWNEQDMTPQDHEMTGQEETMKWMRLAYD				NA	NA	NA	NA	NA
AK002_02539	417			hypothetical protein	ATGGGATCGGGGTCAGATTGGATGTTCGATTTTTTCGGCAGCGTTATGCCCGTGTTTTTCATCGTCGTCATCGGGATCATTTTGCTGTCGGCCGGTAAGGGAATCCTGCAATGGAGTCAGAATAACCGACAGCCTTTGCTAGCGGTCGATTCCAAAATTGTGAGCAAGCGAACGGAAGTGAAACATACACAGCAGACGGATGATACGATGTCGAGCCGTACTCGTACCACCTATTACTTGACATTCGAAGTGGAGAGCGGAGATCGCATGGAATTTGCCGTAAACGGCGAGGAATTCGGCATGTGCGCCGAAGGGGACGAGGGACTGCTTCGTTTTCAGGGAACCCGGTACTACGGATTCGTCAGGCACCCCAGAGCGCATCTTCACGTGGTCCGGGGTTATGAACAGCCTAAATAA	MGSGSDWMFDFFGSVMPVFFIVVIGIILLSAGKGILQWSQNNRQPLLAVDSKIVSKRTEVKHTQQTDDTMSSRTRTTYYLTFEVESGDRMEFAVNGEEFGMCAEGDEGLLRFQGTRYYGFVRHPRAHLHVVRGYEQPK				NA	NA	NA	NA	NA
AK002_02540	750	bacC_1		Dihydroanticapsin 7-dehydrogenase	ATGAAATTTCAGGATAAAACGGTCGTGATAACGGGCGCTGCGAACGGGATAGGCCGGGGATTGGCTGAGGCTTATGCGGCTAGCGGAGCTCGAGTGATAGTAAGCGATGTTCATGAAGAGCAGGGCAATCTGACGGCAAACACCTTGAAGGATCAAGGATTTCATGCCGTCTTCATCCCCTGCGATGTGAGGAAGGAAGAAGAGATTAAACGCCTGATGGACCAAGCGGACCAATATGGGGGCACCATCGATATCTTAATAAACAACGCAGGGGTCTCCCGATGGAAATCACCATATGAGCTTACGGTTGAAGAATGGGACGACGTAATCAACACGAACGCCAGAAGCTGTTTTTTGGCTACCCGCGAGGCTGCCGCATATATGAAAAAGAGTGGGAATGGCGGGGCTGTCGTCAATATATCCTCCACGCGTTCCATCATGTCCGAGCCGAATTCGGAAGCTTATGCGGCTTCCAAGGGAGCCATCGTTGCGTTGAGCCATGCCATGGCCGTTAGTCTGGGGCCCGATGGAATTCGGGTAAATTGCATAAGTCCGGGCTGGATTGAAACCGGGGATTATGAAGTGCTTCGATCCGAGGACCATAAGCAGCACCCTGCGGGTCGGGTCGGGATTCCGGCCGATATCGCCAAAGCCTGCTTTTATTTTACCGATCCGGAGAATGACTTTGTAACAGGGTCCCATCTGGTGGTGGACGGCGGCATGACCCGCAAAATGATATATGAACATTAA	MKFQDKTVVITGAANGIGRGLAEAYAASGARVIVSDVHEEQGNLTANTLKDQGFHAVFIPCDVRKEEEIKRLMDQADQYGGTIDILINNAGVSRWKSPYELTVEEWDDVINTNARSCFLATREAAAYMKKSGNGGAVVNISSTRSIMSEPNSEAYAASKGAIVALSHAMAVSLGPDGIRVNCISPGWIETGDYEVLRSEDHKQHPAGRVGIPADIAKACFYFTDPENDFVTGSHLVVDGGMTRKMIYEH				NA	NA	NA	NA	NA
AK002_02541	4404			hypothetical protein	GTGAAACGAATGGCTCTGATTGTACTCATGCTGATTACGGGGCTTCATGGCTTTTTGCCGCCCCCATTGGCATGGGCAGAGGGCGAACGAGATCAGGTACAGGAGGGTTTGCTTGTGAACAGCGGTTTTGAGGCAACGGAGGCGGGGTCCAGCTGGTCAGGCGGAATCAAGCCGGCAAATTGGGGACAGTGGCTTCCAACAGGCTCGCCCATATTGGGAGTAGATTCGGGAATATTCAAGTCCGGGAAACAATCGGTCAGCATCGAAGGTCCCGCAGGAACGGCCAGCCGGGCAGCCATAACCCAGTCCATCCCGGTAGAGGTCGGGAAAACGTATCGGATCAGCGGCTGGGTCAAAACGGAGTCCGTCAGCAATGCCGCGCTCATTCGATATCAAATGAAGCGAACCGGCACCAGCAATGTGCTGGTTCATGTCGGAACGCTCAAGGGCACCCAAGACTGGACCTATATGGAGAAGCTGTTCACCGTTCCGGATAATGCAGCCTCACCGCCCCTATTGACCGTTGAGCTGTTTCTGGAAACCGGAACGGGCAAAGCTTGGTTTGACGATGTGTTGGTTGAGGAGCCGCTTCAATCCATCGCGATCGAACCGGATGTGGCCTATCTGAATACGGGCGAGACCATAACACCTTCCGTCCGTTATGAGCCAGGCTCGTCACCTCCCCCTCAGCTGCAGTGGTCTGCGTCCAATCCGGAAGTCGTGGAAGTGACGGATCAAGGTGACGTAACCGGCCTTTCCACAGGATTTGCAACCGTAACGGCAGTGATTTATGACGGTGCTCATACCTCCTCAATGGCGGTTAGCGTCAATGCGCCGGACACCTTGCTGGTGGACGATTACGAAGGCGAAACGGCTCAAGGCCAAGCTTTGCTCGGGCAACTGTCCGCGCTCGACAGCAGCGGTGCCGACCTTACGTATCTCCTCATCTCCAAGCCTGCGCACGGCATGATTACCGTAAAGGAGAACGGCAGCTTTACCTACTATCCCGACAGCGGCTTTAGCGGAGCGGACCGCTTCCAGTTTGCTGCCCTGCAGGCTGATACGGGCGGCGCCAAATTCGGCCAGGGCACGATCCACGTTACCCCTGTGAATGCTGCTCCCCTGCTGGATTTGGAATGGGGTTATACGACGATGAACACCTCCCTTTCCGGCCAATTCAAGAAAGCGGAGGATCCGGATGGAGATCCGATCGCATGGAAGCTTGAAGCACCGCCCGCACAGGGTACGGTTCAAGTGGATGCCGAGGGTACTTATCGATATGCTCCCAATGAAGACTATCTGGGGTACGACCGTTTTCGCGTATCGGCTGAAGATGGACGTGGCGGACGTACGGAAAGCGATATGCTGGTCTTTGTCGGGCCGACGGCAGATCGAATTTCGGAATCGCTACATGCATCCGCCCGTTCCCATCCCCGTCTTCTCGCATCCATGGACGATTTGAACCGCTCCAAGCAATTGCTGGCAAGCGGAGATCGTTATATGACGGAGTGGATAGAACTCTTGAGAAATCAAGCAGACCCCGTCCTTGCGACTACGCCGCTAACCTACCAACCTAATGGGGGCAATGCCTACATGCTGCGCGACCGCTTGATTCCGACCGCGCTCATGTATCGCTTGACCGGCGAATCCCGTTATGCCGAACGTGCGTGGCAGGAACTGGAGGCGATGACGCACTACCCCGATTGGGGCGGCAGAACCAACAATATCCTTGCCTTGTCCGAATTGTCTTTTGCCGTTGCGTTGGCCTACGATTGGATATACGACGATTTGAATGAAGCTCAGCGAGCCCAATTGAATGCGGCGATTCGGGATCATGCGCTTGCTGTCGCGCTCGATTGGTACCGGGGTGAATTCCGCCATAACGGGGAGCACAATAACATTAACCTGGTAGACAACGGAGGCCTTGGCCTGCTTGCGTTAACCGTTGCGGATGAGCCTGAGACCGAGGATCAGGCTCTGGAAGTCATCCAGAGCACGTTTCAGAAGCTGCAATATGCGCTCCGTCACTATACGGAGGACGGTTCTTGGCCGGAAGGTCCTGCTTATTGGCATTATGGAGGCCAATACTTGGCCATGTATATTCAAGGCTTGAATAAAAGCCTGGGCACCGATTTTGGGCTATCCCTGCTGCCGGGATACGAGGCATCGGGCGCATATCCGTATCATTTGCTAGGCGAAGGCGGCGTGTTCAATTTTTATGATGGCGGCGTCAGCTACAACATGTATGAATCCTTATGGTTCGCCTCGTTCTTCGATAAACCTGAATACGCCTGGTTTATTGGCGATCTGTATGAGCGCAAGGGCTACTTCCACCCTCTGTATCTGGTGTTTTACGAGCCTGGCATGTTTGAAACGGCTCCGACGGAGCTGGATCGTTTCTTCACCGGCATTGAATCGGCCTCCATGCGGAGCGCATGGGATGATCCCTATGCCTTGTTTGCTTCCATGAAAGGCGTTAACGAAACGATGCGAAGCCATAACGATCTGGATGGCGGTACCTTCGTTTTTGACGCGTTGGGCGTAAGGTGGGCATCCGATCTGGGGAACGAATCCTACAGCTTGCCCGGCTTCTGGGATTACAATTATAATCGCTGGACGTATTACCGCAAAAAAACCGAGGGACATAATACCATCGTCATCAATCCCGTCCAGAATCCGATTGTTCAGCAAGAGCCTTACGGCACAGCCGTTACGATAAAAAAGGAATCGAAGCTAAGAGGAGCCTATACGATTCTGGATATGACCGACCTGTACCGGAAAGACGCAGGCGAGATGTTAAGAGGAATGAAACTCTCCGCCGATAGACGCGAACTGGTCGTCCAGGATGAGATGAAACTGAAGCTTCCTTCAGAGCTGTATTGGTTCATGCACACCGGAGCGGACGTGGAGATTGTTGCGAATGGACGCGCCGCCATTCTTTCACAACTGGATAAGCGGCTGTATGTTGAGCTGGTCGAAGGACCGGCCGGTGCCCGGTTCTCCGTCATGGATGCAGCGCCGCTGGCGACCTCCCCGAATCCGGATGGCCAATCCAGCAACGAAGGCATGCGCAAGCTGACCATACACCTGGAGCACGTCCAGAATGTCCGGTTGTCCGTTCGCATGGTTCCTTTATACGCAAACGATCCGATACCTCCAGCGGAGACGGGGTATACTCCTCTGCTGGAATGGACCATACCTGACGGCGATCTGCCCGAACCGGCAGCCCGACCTATGGTTAACCGTTTATTAATGGACGGAATGCCGCTCCATGGGTTTCGTCCAGAATTCACGTATTATGAAGTCGGACTTCCGTTTGATGCTCCCTCTCCGCCTGTGATGACGGCCGAAGCGGAGCATGCCGTGTCCATTGATCAGGCAGAAACGATCCCGGGTACGGCAACCATCGTCATTCAGAACGACGCTCAACCGAATCTGAGCAATAGATATACCATCAAATTCACCCGGAATCCCGCCATAGGCGAACCGCCGGACCATCTAAAATATCAGGTGGAGCAGGTTACCGCGAGCGCCGTTCCCGAATCGGCGAACATTCCGGAACATACCGTCGACGGCAACCTCAGCACTCGCTGGTCCGCGCCGGGCACGGAATACGTACAGCTTGACCTGGGTGAGCTGAAGCCAGTGGGCGCTGTTTCGCTGGCCATATATTTAGGGGATACCCGTAAAAACCGGTTTGATGTTCTTGCCTCCGTCGATGGCGAGGAATGGTCGACCATCTACGAGAATGGGCTGACTTCCGGTACGACTGTACAGCCTGAAACTTTTCTTGTGGAGCAAACGACAGCCCGGTACATTCGGATACTGGGCAAAGGAAATAATGCCAACCCGTGGAATAGCTTCACCGAAGTCGGCGTGTACCCGCTAGCCCCGATCGTAATGCGCGTGGAAGCTTCGGATGAGCTCAAACTGGGCGAATCGGGGCAAATCGAAGCCTGGTACGGCTTTCCGGGCGGGATGCGTGAACAGGCGGAAGAGCTGACGTACACATCCGATGCTCCGGATATCATTCAAGTGAGTTCAACCGGACGGATGAAGGCGATATCTCCGGGAAGCGCTGCGATCTCGGTTAAGGACCAACGTTACGGATTCGTTGAAACGCTCCATGTCACGGCCGTATTCGATGGAAATCAGCCTTTTCTCCGGCTGCTGGGCAAGGATCTAATGACTTCCAAGACAACGCAGCAGCTTCGGGCTGAACTTCTTCACCCCGATGGCCGCAAGGAATCCCTCGCCAAACTCAGCTATCGCAGCAGCAACCCCCATATCATCTCCGTTAACGCACAGGGAGTTGCCCGCGCGAATCAAAGAGGAAATGCCGTTGTCAGCGTAACCGACCGGACGAGCGGCAACACGGATTCCATTGCTATAACCGTCCGTTAA	MKRMALIVLMLITGLHGFLPPPLAWAEGERDQVQEGLLVNSGFEATEAGSSWSGGIKPANWGQWLPTGSPILGVDSGIFKSGKQSVSIEGPAGTASRAAITQSIPVEVGKTYRISGWVKTESVSNAALIRYQMKRTGTSNVLVHVGTLKGTQDWTYMEKLFTVPDNAASPPLLTVELFLETGTGKAWFDDVLVEEPLQSIAIEPDVAYLNTGETITPSVRYEPGSSPPPQLQWSASNPEVVEVTDQGDVTGLSTGFATVTAVIYDGAHTSSMAVSVNAPDTLLVDDYEGETAQGQALLGQLSALDSSGADLTYLLISKPAHGMITVKENGSFTYYPDSGFSGADRFQFAALQADTGGAKFGQGTIHVTPVNAAPLLDLEWGYTTMNTSLSGQFKKAEDPDGDPIAWKLEAPPAQGTVQVDAEGTYRYAPNEDYLGYDRFRVSAEDGRGGRTESDMLVFVGPTADRISESLHASARSHPRLLASMDDLNRSKQLLASGDRYMTEWIELLRNQADPVLATTPLTYQPNGGNAYMLRDRLIPTALMYRLTGESRYAERAWQELEAMTHYPDWGGRTNNILALSELSFAVALAYDWIYDDLNEAQRAQLNAAIRDHALAVALDWYRGEFRHNGEHNNINLVDNGGLGLLALTVADEPETEDQALEVIQSTFQKLQYALRHYTEDGSWPEGPAYWHYGGQYLAMYIQGLNKSLGTDFGLSLLPGYEASGAYPYHLLGEGGVFNFYDGGVSYNMYESLWFASFFDKPEYAWFIGDLYERKGYFHPLYLVFYEPGMFETAPTELDRFFTGIESASMRSAWDDPYALFASMKGVNETMRSHNDLDGGTFVFDALGVRWASDLGNESYSLPGFWDYNYNRWTYYRKKTEGHNTIVINPVQNPIVQQEPYGTAVTIKKESKLRGAYTILDMTDLYRKDAGEMLRGMKLSADRRELVVQDEMKLKLPSELYWFMHTGADVEIVANGRAAILSQLDKRLYVELVEGPAGARFSVMDAAPLATSPNPDGQSSNEGMRKLTIHLEHVQNVRLSVRMVPLYANDPIPPAETGYTPLLEWTIPDGDLPEPAARPMVNRLLMDGMPLHGFRPEFTYYEVGLPFDAPSPPVMTAEAEHAVSIDQAETIPGTATIVIQNDAQPNLSNRYTIKFTRNPAIGEPPDHLKYQVEQVTASAVPESANIPEHTVDGNLSTRWSAPGTEYVQLDLGELKPVGAVSLAIYLGDTRKNRFDVLASVDGEEWSTIYENGLTSGTTVQPETFLVEQTTARYIRILGKGNNANPWNSFTEVGVYPLAPIVMRVEASDELKLGESGQIEAWYGFPGGMREQAEELTYTSDAPDIIQVSSTGRMKAISPGSAAISVKDQRYGFVETLHVTAVFDGNQPFLRLLGKDLMTSKTTQQLRAELLHPDGRKESLAKLSYRSSNPHIISVNAQGVARANQRGNAVVSVTDRTSGNTDSIAITVR				NA	NA	NA	NA	NA
AK002_02542	2334	rhaR_22		HTH-type transcriptional activator RhaR	ATGGGGAAATTGACGACAACCACTGCAAGAAATGAGCGTTCCAATCGCGTATCCGTGTTCGTTACGTTGCTCATGTCCTATCTTGTGGTACTGCTGATCCCAGTCATCGTGTTCTGGGGTCTGTATACCCAAATCGAGCGAATTATGATCGAGAATGCCAACAACTCCAACATGGCACTCATCGAACAGGCCAAGCAGGTCGTGGACAGCCGATTGGATGAAATGCATTTGATTTCCCGAAACATTACTTCACATCCGAGACTGGATGCGCTGTTAAAGGCAGGATCCCCTCAAAACGGAGCGGAGCACTACAATTACTACACCTTCATGCAGGAAATGCAGCGGTACCGAAACAGCAGCAGTTTTATCACCGATTTTTATGTATATCTTGATGAGAGCGATACGGTTCTCAGCCCAACCTTAAAAACGACGTCCAGCGTCTTGTTCTCCGATATCTACGGATATGAAAGCTTAACCTTTCAACAATACCAAGCGGATATACTGCGCGGCGTTCATTTCAACCGGTATCTGCCCGTAACGGAGGTCGGCAAAGGCCTAAACCAGAAACGAATGCTCACATATATGCAAACGCTTCCATTTGGCGAGAAAAACAACCCCAAAGGCGCCCTTGTCATGCTGATCGACGAAAGGCAGATTACAGGCTTGCTCGAGGAGATCGTGAAAACCAACAACGGAACGATATCCATTAAGGATGCCAGCGGTCAAGTGATCCTTCGTGCCGGTGAAACCGGAGTATCCAATATGAGTAAAGCTGAGGATAAGCAGGCCGTCATGACGGTATCGTCCAGATCCGCGCGCAGCGGGTGGGAGTACGTGTCGGTCGTGCCGGAAAAAGTGTTTATGGAAAAGGTGAATATGGTCAAACGAATGGCCGCCGGCGTTCTGGTTATCTGCCTGGCCGCCGGAGTTGCCGCTTGCGCGTACATGACGTACCGGGCGTATTATCCCTTGCGCGACATTATCCGCTTTATCCGCCAATCCCATCCGGTCAAGGAAGGAAAGGTACGCAACGAATATGATTTCATCAAATCCACGATGGCCGATTCCTTTGGCAAGCAGACGGAGATGAAGGAGCAATTGTCGAGGCAAACGCCGGTGATCCGGTCCAACTTTTTGCAGCGTTTATTGAAGGGAAACGTGGATGCGGCCGATATGTCGGAGCATGCCCTGGAATTCATGGGGATATCGTTTCCGTTTCCCGGCTTTGCCGTTGCCCTGATCGAGCTGAGGGATGCCAGCGGGTTCATTCATAACGAACGGGAAAGCGAATGGGCCCTGATCCGCTTTGTCACCGGGAAGGTGGCCGAAGAAATTCATCCCTTTACCGCGTATTCCGTGGATCTGGAGAAGAACCAGGTTGCCATAATTCTGAATATGCCGGAACCTCTGCAGGACAAGGCGGGCGAGCTGTACGATTGGGCGGAACAAGTGAAGCTGGTGATTGAACAGCGCTTCAAATCCGAGATCACGATCGCGATCAGCGATATCCGTTCGGATCTTGGATCTTTGGCCAGCGGATATACCGAAAGCTTGAAGGCGCTGGAATATTCCATTTTTACGGCCTATAAACCGATTTTATTCTACGATGAAATGAAGCAGAAAACGGGGGTGTATTATGATTTTCCCATTGAGACGGAAATTCAGCTCATTAACGCCATGAAAAGCGGGGATACGGATAAGGCTCAGGATATCATTCAAAGTCTGTACCACAACAACTTCAGCGGTCAATCCATCTCGCCCGAGCTCGGCCGACTCATGTTCGCGAACCTGCTCAGCACGATGTTCAAGCTGCTCAATGCCTTAAATTTGAAATACGAGGACGTATTCGGTCAGGCAGGCAAATCGATCGAAGACATTACCGAAGGCAGCACGGTAGAGGAGCTGTACCGGGAAGTGAAATGGATGTTCGGCCAGGTCTGCCTGTACGTCAGAGACCAGAGAGGCGATTCCTCCTCGCAGCTCCTGGATAAGATAAAAAGCTACATTGCAGAGCATCACGACGATGCCATGATCAGCCTGGCTTCCATTGCCGAGCAATTCGATATCACGCCGCCCTATCTGTCGGCCTTCTTCAAGAAGAACAGCGGGACCAATCTGACCGATTACCTGGCCAAAATTCGGATCGAGCGCTCCAAGGAAATGATGCGGGATGCCAAAAATACGATTTCGCACATCGCCCGTTCCGTCGGTTATACCAGCGATGTCGGTTTTATCCGGGTATTCAAGAAATACGAAGGGATCACCCCGGGAAAATACAAGGAAACCCTGCATTCCCTATCATCCACCTTAAGAAATGATCATCTCAATTCTTAA	MGKLTTTTARNERSNRVSVFVTLLMSYLVVLLIPVIVFWGLYTQIERIMIENANNSNMALIEQAKQVVDSRLDEMHLISRNITSHPRLDALLKAGSPQNGAEHYNYYTFMQEMQRYRNSSSFITDFYVYLDESDTVLSPTLKTTSSVLFSDIYGYESLTFQQYQADILRGVHFNRYLPVTEVGKGLNQKRMLTYMQTLPFGEKNNPKGALVMLIDERQITGLLEEIVKTNNGTISIKDASGQVILRAGETGVSNMSKAEDKQAVMTVSSRSARSGWEYVSVVPEKVFMEKVNMVKRMAAGVLVICLAAGVAACAYMTYRAYYPLRDIIRFIRQSHPVKEGKVRNEYDFIKSTMADSFGKQTEMKEQLSRQTPVIRSNFLQRLLKGNVDAADMSEHALEFMGISFPFPGFAVALIELRDASGFIHNERESEWALIRFVTGKVAEEIHPFTAYSVDLEKNQVAIILNMPEPLQDKAGELYDWAEQVKLVIEQRFKSEITIAISDIRSDLGSLASGYTESLKALEYSIFTAYKPILFYDEMKQKTGVYYDFPIETEIQLINAMKSGDTDKAQDIIQSLYHNNFSGQSISPELGRLMFANLLSTMFKLLNALNLKYEDVFGQAGKSIEDITEGSTVEELYREVKWMFGQVCLYVRDQRGDSSSQLLDKIKSYIAEHHDDAMISLASIAEQFDITPPYLSAFFKKNSGTNLTDYLAKIRIERSKEMMRDAKNTISHIARSVGYTSDVGFIRVFKKYEGITPGKYKETLHSLSSTLRNDHLNS				NA	NA	NA	NA	NA
AK002_02543	1632	lipO_13	COG1653	Lipoprotein LipO	TTGAAAACAAACCGGAAACGTATGACGAGGCTGGCCATATTCATGCTGATTGTGGCTATGATTGCAGGGTGCAGCGGAAAAGGCTCGGGAGCCGAGGAGCCTGCCGGCGACAAAGGCAAGGAGGGAACGGGCGTTGCCTCAGGCGGAGAAACGGGGTATCCCGGCCAGCTGACCTATTGGGTATCGCTGAATGCCAACGCATCGGCAACGATGCAGGATATGAACGGCATTGCCGCCTATCAGGAAATGGAGAAATTAACAGGGACCAAGGTTAAGTTCCAGCATCCGCCGGCAGGGCAGGAGGCCGACGCATTCAACATTATGGTCTCGTCGGGCAACTTGCCGGATGTCGTGGAGTATGGCTGGGCCAACGTATCCGGAGGGCCGGATAAAGCGATATCGGACGGTTCGATCATTCGCCTGAATGAGCTGATTGAAGAGCATGCTCCGAACTTATCGAAACTGCTGAACGAACACCCGGAATACAAAAAGCTGATTACGACGGATGATGGAAACATTTACGTTTTCCCGTTCATTCGCGGCGACGAATATCTGCTGACCTTTAACGGCCTTATCATCCGCAAGGACTGGCTGGATCAGCTCAAACTGCAAGTGCCGGAAACAATTGACGAGTGGTATGAAGTATTGAAGGCAATCAAGACCCAGGATCCCAACGGGAACGGCCAGGCGGATGAAATCCCACTCCTGCTTGATATGGATATGACGGGTATCAACCATGCGTTTGTCGGCGCGTGGGGAATTACGACAGGATTTTATCAGGTGGACGGGAAGGTCCAGTATGGCCCTATCCAACCGGAATTCAAATCTTATTTGGAGACGATGAGCAAATGGTATGCCGAAGGCCTGATCGATCAGGATTATGCGGCAACGGACGGGACGCTCAAAGATGCCAAAGTGACCAACAATCAAGTGGGTGCCTTCTCCGGATATATGGGCAGCAGCCTCGGCCGCTATTCCGAGCTCATGCTAAAAAGCAATCCGGACGTCGAACTGGCGGGCGCACCGAACGTTGTGCTGAAGAAAGGGGACACGCCCCTTCTTGGACAGAAGGATTCGCCGTTCAACGGATTTGGGGCCGCTGTGACGAAAGCGAACAAGTTCCCGGCGGAAACGGTGAAATGGCTGGATTACAAATATGGGGAAGAAGGGCATATGCTGTTTAATTTCGGGGTTGAGGGAGTCAGCTACGAGATGAAGGACGGATACCCGACCTATACCGAAGAGGTGATGAAAAATCCGGATGGGCTGTCAATCACCCAAGCGTTGTCGAAATACAACCTGGCCAGTTATTCGGGGCCTTTCGTTCAGGATCGCCGTTACGTCGAGCAGTATTCTGCGCTTCCTCAGCAAAAAGCGGCCATTGAGACATGGATGAAGGCGGAGAACGACCGATTGATGCCGATTATTTCGCCAACGGCAGAAGAGAGCACGCGTTATGCCTCGATCATGAACGATATTAATACGTATTACGAAGAGATGATCAACAAATTCATTATGGGCGTGGAGCCGATCAGCGGCTTCGATCAATTTGTCCAAACGGTACAGGGAATGGGGATCGAAGAAGCGCTTCAGATCCAGCAGTCTGCGCTGGACCGATTCAACAGCCGGTAA	MKTNRKRMTRLAIFMLIVAMIAGCSGKGSGAEEPAGDKGKEGTGVASGGETGYPGQLTYWVSLNANASATMQDMNGIAAYQEMEKLTGTKVKFQHPPAGQEADAFNIMVSSGNLPDVVEYGWANVSGGPDKAISDGSIIRLNELIEEHAPNLSKLLNEHPEYKKLITTDDGNIYVFPFIRGDEYLLTFNGLIIRKDWLDQLKLQVPETIDEWYEVLKAIKTQDPNGNGQADEIPLLLDMDMTGINHAFVGAWGITTGFYQVDGKVQYGPIQPEFKSYLETMSKWYAEGLIDQDYAATDGTLKDAKVTNNQVGAFSGYMGSSLGRYSELMLKSNPDVELAGAPNVVLKKGDTPLLGQKDSPFNGFGAAVTKANKFPAETVKWLDYKYGEEGHMLFNFGVEGVSYEMKDGYPTYTEEVMKNPDGLSITQALSKYNLASYSGPFVQDRRYVEQYSALPQQKAAIETWMKAENDRLMPIISPTAEESTRYASIMNDINTYYEEMINKFIMGVEPISGFDQFVQTVQGMGIEEALQIQQSALDRFNSR	PGPT0017245_1594	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02544	960	yteP_20	COG4209	putative multiple-sugar transport system permease YteP	GTGCAGCTAAAGGAAGAAACAAAACGCATGACGATACAGAGTAAATCCGAGAGCTTCAGCGCAAGAGCAGCGAAGGACTTTCGCCGGAATTCCACGATCTACCTGATGCTGCTGCCGGTTGTGGCGTTTTATGCCGTGTTTCATTACGGACCGTTATACGGCCTGCAGATTGCGTTCAAGAACTTCTCCGCAGGGCTCGGCATCTGGAATAGCCCATGGGTCGGCTTTCAACATTTCAGCGATTTTTTTAACGGATTTTTCTTTGAACGGGTCGTTTCCAATACGATTATCCTTGGCGCGTACGATCTTATCTTCGTATTTCCCGCCTCCATCGTGCTGGCCTTGATGCTGAACGAGGTGCGACATCGGATCTTTAAGCGGACCGTACAATCCATTACGTATATTCCCCATTTCATTTCCGTTGTCGTTGTTGTCGGGATGCTGGTGGATTTTTTGGCGGTGGACGGCCTGATCAACCATATCATCACGTACTTCGGCGGCAAGCCGATTTCGTTCATGCGGCTGCCGGAATGGTTCCGCACCATCTATACCTCGTCCGCCATCTGGCAAGGGATTGGCTGGGGCTCCATCATTTATCTGGCAGCCATCTCGAATATCGATCCGTCCCTGTATGAGGCGGCGAAGGTGGACGGTGCCGGCCGCTGGAAGCAGATGCTTCAAATTACGCTTCCGGGCATCCTGCCGACCGTGATCATTCTGCTTATCTTGCGGATCGGTTCCTTTATGGCGCTGCAGGATGAGAAGATCCTGATCATGTACAACCCGGTCATCTACGAGACGGCAGACGTGATCGGGACTTATGTCTACCGCAAGGGGATACTGGAAGCAAGCTACAGCTTCAGCGCCGCTGTCGGCATGTTCAATTCCTTGATTAACTTTGCGCTGCTCATTGGAGCCAATTATCTCAGCAAGCGGTTTACCGACACGAAGCTGTGGTAG	MQLKEETKRMTIQSKSESFSARAAKDFRRNSTIYLMLLPVVAFYAVFHYGPLYGLQIAFKNFSAGLGIWNSPWVGFQHFSDFFNGFFFERVVSNTIILGAYDLIFVFPASIVLALMLNEVRHRIFKRTVQSITYIPHFISVVVVVGMLVDFLAVDGLINHIITYFGGKPISFMRLPEWFRTIYTSSAIWQGIGWGSIIYLAAISNIDPSLYEAAKVDGAGRWKQMLQITLPGILPTVIILLILRIGSFMALQDEKILIMYNPVIYETADVIGTYVYRKGILEASYSFSAAVGMFNSLINFALLIGANYLSKRFTDTKLW	PGPT0017250_1102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02545	882	araQ_26	COG0395	L-arabinose transport system permease protein AraQ	ATGCGAACTACTAGATCGGTCAGTGAAGTCCTGTTTGATTCTGCGAATGTCATTCTATTGTGTTTGTTATCGATCATAACGTTATACCCGTTTCTCTACGTATTGTTTGCTTCGATCAGCACGCCGGCCGAATTCGTTCAGCACCGGGGCATCCTGCTGTGGCCCAAGGGTTTCTCGCTGGATTCCTATCGGATGGTATTCGAGAACCCGAATATCATCCGAAGTTACCTGAACACGATATTTTATGTGGTCGTCGGCACGACGCTGAACATTCTCATGACGGCTCTCGGAGCCTATGGCTTATCCAGGAAAAACGTGATGTGGAAAGGCGCCATCATGATGCTGATCGTGATGACGATGTTTTTTGACGGCGGGCTCATCCCGAAATACCTGCTCGTGAAAAATATGGGTTTGCTTGATACGTACTGGGCATTGATTATTCCAAGCGCCATGACGACATGGAACTTGATTATTATGCGAACGGCATTTCAAGGGGTACCCGATGCGCTCGAGGAATCCGCGCGGATCGACGGAGCCACCGACTGGACCATTCTGTTCCGGATCATCATCCCGTTATCGCTGCCGGTCATTGCGGTCATGGTGCTCTTTTACGGGGTGTGGCATTGGAATAAATGGTTTGATGCCCTCATCTATTTAAGGGACCGGGACTTGTTTCCGCTGCAGCTGATCCTGCGCGAGATTCTGATCCAGAACGATACCAGCAGCATGATGACCTCGGTAGGAGGGGGAGATCGGATGCCGGTTGGCGAAACGATTAAGTATGCAACGATTATGGTGGCGACGCTGCCGATCTTGTTTCTGTATCCGTTCTTGCAGAAATATTTCGTGAAGGGCGTCATGATCGGCGCCATCAAAGAATAG	MRTTRSVSEVLFDSANVILLCLLSIITLYPFLYVLFASISTPAEFVQHRGILLWPKGFSLDSYRMVFENPNIIRSYLNTIFYVVVGTTLNILMTALGAYGLSRKNVMWKGAIMMLIVMTMFFDGGLIPKYLLVKNMGLLDTYWALIIPSAMTTWNLIIMRTAFQGVPDALEESARIDGATDWTILFRIIIPLSLPVIAVMVLFYGVWHWNKWFDALIYLRDRDLFPLQLILREILIQNDTSSMMTSVGGGDRMPVGETIKYATIMVATLPILFLYPFLQKYFVKGVMIGAIKE	PGPT0017255_2154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02546	1128	ugl_2		Unsaturated glucuronyl hydrolase	ATGTGGGAACAGGCCATCATGGATGCGGTAGAAAAGACCAAGAGGAACATCGGTTTATATCCGATGAAATTCCCTCACATCACGGCGGAGAAGCGATACGAGTGGGGAGAAAGCAATGACTGGATTGAAGGATTCTACACCGGGATGATCTGGCTGTGTTATGAATATACGAAGGACCCGTTGTTTAAGGATACGGCAATCGCTCAATTGGAGGATTACAAGGCGCGGCTGGAAGAGAAGCGGCATCTGGATCATCATGATATCGGATTTCTGTACCTGCCCTCCGCATTGGCCGCGTGGATCGTGGAAGAACATGAAGAGGGCAAACAGCTGGCGCTAAAAGCAGCCGACCATCTGATGCTGCGCTGGCGGGAAGAGGGTCAGTATATTCAGGCCTGGGGCCGGAAGGGCGACGAGAAGAACGGCGGCCGTATTATCATCGACTGCATGATGAACATACCGCTGCTGTGTTGGGCGTATGACCAAACAGGCGACGAACGCTACAAACGCGTGGCCGTCGCGCACGCGGAGAAGAGCCGCCGTTATTTAATGCGAGGGGATGATTCTTCATACCATACCTTCTACTTCCAGCCGTCGGACGGGAAGCCCATCGGCGGTGGGACGCACCAAGGATATCACGACGGCTCCACCTGGACGCGCGGGCAAGCATGGGCCGTTTACGGATTTGCGCTTTCCTACCGTTATACCCGTGATCCGAAATATTTGGATACCGCCGTGCGAGCCGCCCGCTATTTTATCGAGCATTTGCCGGAAGACCATGTCGCCTATTGGGATTTTGACGTTCCGATCGAAGCGGGTACACCTCGCGACAGCTCCGCTTCCGCCATCGCCGCATGCGGGATGCTGGAGATCTTGGAGCACCTGGAAGAGGAAGATGGCAATAAAGGGCTATTGACAGACGCCGTAGAGAAGTCCATGATCTCCCTTGTAAACCGTTATTCCACCATCGGTGAAGCTGCCGAGGAAGGCTTGATCAAGCATGGTTCCTATTACGTCAGAGGCGGGATGGGGCCGGACGATTACATGATCTGGGGGGATTATTATTATCTCGAGGCCTTGCTGCGACTGACCAAAGGGATACCTGGCTATTGGTATGAGAGAGTATAG	MWEQAIMDAVEKTKRNIGLYPMKFPHITAEKRYEWGESNDWIEGFYTGMIWLCYEYTKDPLFKDTAIAQLEDYKARLEEKRHLDHHDIGFLYLPSALAAWIVEEHEEGKQLALKAADHLMLRWREEGQYIQAWGRKGDEKNGGRIIIDCMMNIPLLCWAYDQTGDERYKRVAVAHAEKSRRYLMRGDDSSYHTFYFQPSDGKPIGGGTHQGYHDGSTWTRGQAWAVYGFALSYRYTRDPKYLDTAVRAARYFIEHLPEDHVAYWDFDVPIEAGTPRDSSASAIAACGMLEILEHLEEEDGNKGLLTDAVEKSMISLVNRYSTIGEAAEEGLIKHGSYYVRGGMGPDDYMIWGDYYYLEALLRLTKGIPGYWYERV	PGPT0019355_891	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
AK002_02547	636			hypothetical protein	ATGTTGAAACATGTGAAAACTTCGGTTCTGCTGACCTTGGGTCTGCTGCTTGTACTGGTGTTCCCAACAGCAACGTGGGCGCATTCCAAGCTGGAATCCAGTACGCCCGCCGCGGACGCCAAGATCACGGAAAGCGTGAAGGAAGTCAATCTGTCATTCAATGAAAATATCGATGAAAATTTAAGCACCCTCAAGGTGAAGAATGCGCAAGGCGAAGCGGTAGAAGTATCGGAAGTCAAGGTTAACCAGAACACCATGGCTGGAACGCTGGCAGCACCGCTTCCATCCGGTTCTTACACGGTGGAATGGAAGATCGTTGGCGGAGATGGACATCCCGTTGACGGAACGTATGCTTTCGAAGTCGATGCACCGGAAGCGGAAGCTGCTCCTGAGACTCCTGCCGACACCGAAGAAACGCCTGCGGATACAGGAAATACACCGGATGAAACAGCACCGGCGGATGATACAGCCGCAGGCAACGCAGATCAGACGGCGGATACGAATCAGCAGGCGGAGAACACGCCGGCTAATGACACATCCGAAGGAAACGGGTCGACCGTGTGGATCGTCATTATCGTCATCGTGGCCGTTGTCGCAGGATACTTTGGCATTAAAGCATCCCGGAAGAGAAAGTAA	MLKHVKTSVLLTLGLLLVLVFPTATWAHSKLESSTPAADAKITESVKEVNLSFNENIDENLSTLKVKNAQGEAVEVSEVKVNQNTMAGTLAAPLPSGSYTVEWKIVGGDGHPVDGTYAFEVDAPEAEAAPETPADTEETPADTGNTPDETAPADDTAAGNADQTADTNQQAENTPANDTSEGNGSTVWIVIIVIVAVVAGYFGIKASRKRK	PGPT0004115_182	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004115-pcoC|copC-K07156	NA	NA
AK002_02548	1089			hypothetical protein	ATGTCTTATTATTGGTTAAGCGAGCCGTTTTTATATTTAGCATACGCCATTCTGGCCGGGATCACGGTGCTGTCCCTGGTACCGAAGGCTTATAAGCCGGATATTTCGGTACCAGCCTGGCTCGGGCCAGCGGCGGGGGCAGCCATCATCCTATTCGGATTTGTGCCGCTGCTGCAAATCATCATGTTCTTCAAGGATGATATCGGATTCTGGCAGTCCTTTAACAGCATCATGTTCAAATTCAGCGAGGGCGAGCGTTATGCCTGGATACTGGTTCTTTCGATCCTATTGGGGGTACTGACCCTGATCGTCCGCCGGAAACCCGGCTCTCCCTTACGCTGGCTTATGCCCGCTGTTCTGTTGGGCATTGCCGTCGCCATGTCTTCGTTCAACCACGCTGCATCCCTGTTCGATGGCGCTGGACAGCTTGCTTTCTTCGGCCATTTCACGGTGATGGCCATATGGACGGGAACGCTGCTGCTTACAGGATGGTTCAGCACGGAACATGATCGCTGGAGTACGTTTCTCCGATGGTTCCATCCAGTAGCCATCGCCTGCGTCATCCTTGTCATCGGATCGGGTCTGTTCCTGATGACGGCCGTGACGCCGGAACCCGTAAACAGCTGGACGCTGTCCTACGGTCAAGCCCTGCTGGTCAAGCATATTCTCATTCTGCCGCTGCTGGTGTTCGCGTTCGTTAACGGTTATCTCGTCAAGCGCAAGCTGCGCAGGGATACAAGCTATCGACCTGCGGCATGGGCACGAAGCGAGGGAATCCTGATTTGGCTGATTTATATCGTCACCGGCTACATGAACCAGCAGCCGGCGCCGCACGAGGTCGTGGATACATTGGCGTCATATGGTCCTGCAGCAACGTTTGTTTGGTTCCATCCCGGGTTTACGATCGGTGAATTGGCCTTTACTTGGAGCTGGATCGGGATACTCTGCCTGTGCCTTGGGCTTGGTCTCCTCTGGAATGTCGTGAACGTATTTCGCAGGAACCGGGCAGCAGCCGTCGGGCTGTTAAGCGGGATAGGCGCCGTTGTGCTGATTTATTGCGGTCTGATGTTCTCGGTTACCGCCGTTTAA	MSYYWLSEPFLYLAYAILAGITVLSLVPKAYKPDISVPAWLGPAAGAAIILFGFVPLLQIIMFFKDDIGFWQSFNSIMFKFSEGERYAWILVLSILLGVLTLIVRRKPGSPLRWLMPAVLLGIAVAMSSFNHAASLFDGAGQLAFFGHFTVMAIWTGTLLLTGWFSTEHDRWSTFLRWFHPVAIACVILVIGSGLFLMTAVTPEPVNSWTLSYGQALLVKHILILPLLVFAFVNGYLVKRKLRRDTSYRPAAWARSEGILIWLIYIVTGYMNQQPAPHEVVDTLASYGPAATFVWFHPGFTIGELAFTWSWIGILCLCLGLGLLWNVVNVFRRNRAAAVGLLSGIGAVVLIYCGLMFSVTAV	PGPT0004095_649	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004095-ycnJ-K14166	NA	NA
AK002_02549	345			hypothetical protein	ATGCCGCTAGGGGAAGTTGAACATAGTTTGCAACAAGCGGATGAGATCGTGGCCATAGCTTATTTTGGTGATGATCCTGTAGGATTTGCCTGCGCGCAATTTTTTAAGTCCTTTTGTTACCGGGAGCTTGTCGGCGAGATAACGGAAATGTACATTCAGGAGCGGGCCAGAAGGCAGGGGCTGGCAGGAATGCTGCTCGTTTTTCTGGAGGAACAATTGATCGCTCGCGGAGTGAGAACGGTCAAGGTGCTTACGGGTCATAATAATCACCAAGCCATCGGAGCATATGAGAAATCAGGTTATAAGCGGGAGGATGAAGTGCTTCTGGAGAAAGAGCTGGAGTAA	MPLGEVEHSLQQADEIVAIAYFGDDPVGFACAQFFKSFCYRELVGEITEMYIQERARRQGLAGMLLVFLEEQLIARGVRTVKVLTGHNNHQAIGAYEKSGYKREDEVLLEKELE				NA	NA	NA	NA	NA
AK002_02550	873	rhaR_23		HTH-type transcriptional activator RhaR	ATGAAACGACCGATGGAAACCTATTACGGAGATTATTTTTTTCGGGATGACACCCTGATGTATGTAAATCGTAACGCGGAGAATTTTACTGGTTCTTACCATAACCATGATTTTCTGGAAATTACGTATATTGCTGAAGGAGAAGGCTTCCATCACATGGAGAACTCGGTGCAGCGTGTTCGTAAAGGTCATATGTTCTATATACCGCTCGGAATGCCTCACGTATTTCGGCCTACCTCTTCGAACGGGAAGCCGCTCATCGTGAACAATTGCATATTCTCCGTTAAACTCCTTCCGAAACTGATTGCCTTTGCTTCCGATTCGAGGACAGCCTCCTTATTGAAACAGATGGAAGACGGCTCGCTTGGGTACCGCGCCATTACGGATCGGCATGACCGTTTCGAGAAGCTGTTCGTCTCCCTCTATGAACAATATGCCATGCAAATCAGCGGCTCAGCCGTCTATTTGCATACGCTGCTGTTACAGCTGATCATTGAGTTCAGCCGGGCCATCGAGCATTCGCAGCCTATGACCTCGGAGCCTTCGCATCCCTCTTTTCATGATGTCCTTCAATACGTGGAGGGACAATACATGCATGAGCTCACGCTGACGCGTCTTGCGCAGATCAGCGGCTTCAGCGAACGCCATCTTCAGCGATTGTTCCGCAGATATACAGGCCAGAGCTGGCATCATTATCTGCAGACCGTACGCATTCGAATGAGCCGCGAGCTGCTGAGAACCACGGCAGATAAAATCAGTATGATCGCCGAAAAGGTCGGTTACAAGGACATGCATTCCTTCAACTCGGTATTCAAGCGAAGCACGGGACTCACGCCGGGTCAATATCGCTCAGAAACGCAGCATCATGGATAA	MKRPMETYYGDYFFRDDTLMYVNRNAENFTGSYHNHDFLEITYIAEGEGFHHMENSVQRVRKGHMFYIPLGMPHVFRPTSSNGKPLIVNNCIFSVKLLPKLIAFASDSRTASLLKQMEDGSLGYRAITDRHDRFEKLFVSLYEQYAMQISGSAVYLHTLLLQLIIEFSRAIEHSQPMTSEPSHPSFHDVLQYVEGQYMHELTLTRLAQISGFSERHLQRLFRRYTGQSWHHYLQTVRIRMSRELLRTTADKISMIAEKVGYKDMHSFNSVFKRSTGLTPGQYRSETQHHG	PGPT0017785_102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
AK002_02551	2685			Alpha-L-rhamnosidase	ATGTTCAGCGTAACGGATGTACGATGCGAATATCTTCATCAACCGATAGGTATCGGAGAGCGAAAGCCGCGCATCAGTTGGAGGTTGGCCTCGGACGAAAGAGCCGTCAGTCAAACCACTTATGAGATAGAGGTTTCCATCGAGAATGAATTTGCCCAGCCCTGCTGGACATCAGGGAAAACAGCCTCGTCGCAGTCGGTTCATGTGGAATTAACGGGGCTGAGCGCAACATCATGTAAGCGCTATTTCTATCGTGTGCGTGCTTGGAACCAGGCCGGAGAAATGACGGAATGGTCAGAGACGGCCTACTGGGAGACAGGAAAGCTGGAAGGAGAGCCATGGGTAGGACAATGGATATCTGCACCACGATCCTTGCTGCCTGCTGACGCCGGTCACCTCCCGCTGCTCCGCAAGAGCTTCAGCTTAAAGTCGCCCATTACGAAAGCAAGAATATATGTCACGGCGCTGGGCCTTTACGAACTTGAGCTTAACGGACAGAGAGTGGGAGATTGTTATTTCACCCCAGGCTGGACGAGTTACGATCATACGATTCAGACGCAGACCTACGACGTAACCGAGATGCTGAAATCTGGCCAAAACGCGATCGGCGCTTGGCTCGGTAACGGTTGGTACAAGGGACAGCTGGGGTGGGAGGATCGGCACGCGATTTATGGAGATCGATTAGCGCTTCTGCTGGAGCTGCATATCACGTATGCTGACGGCAGCGAAGAAGTGATGGCAACCGATTCAAGCTGGCAGTCGGCCAAAGGCCCGATCACCATGTCGGAGCTATATCATGGTGAAACCTATGATGCGCGCCTCGAACTGGAAGGCTTCAGTACGGCAGGTTATAATTCCGATGATTGGCATGGCGTGGAAACGATCGACCACGGTTACGACAAGCTGAAGCCCCAGATCAACGAGCCCGTGAGAGCCGTTCAAACGGTGCGGCCCGTGGAATGTCTGACCACGCCCAAAGGTGAAACCGTCATCGACTTCGGGCAGAATTTGGTAGGCTGGGTCCGATTTAGCGTGACCGGTGCGGAGGGCATAACGGTGACGCTGCAGCATGCGGAAATACTGGATGCCGAGGGCAACTTTTATACGGAGAATCTCCGAACCGCTAAACAAACGATTCAATACACGTTAAAAGGCGGCGGAAACGAAATCCACGAGCCTCATTTTACGTTCCAAGGGTTCCGATACGTGCGTTTAGACGGTTTCACGGAAGAGCAGCTGGACCTCCGGCATTTCGAAGCGGTCGTGCTCCATTCGGATTTCGAAGAAACCGGAACCTTTCAATGCTCGGATCCCATGGTGAATCAATTGCAGAGCAATATTCGATGGGGACTGAAGGGGAATTTCCTCGACGTGCCCACGGACTGCCCGCAGCGCGACGAGCGGCTTGGCTGGACCGGCGATGCGCAGATGTTCATCGGGACGGCGGCCTATCTTGCCAACATTGCGCCTTTCTTCACGAAATGGCTGTCGGACCTGGCCGCGGAACAGCGCGATGACGGAGCGGTTCCATTCGTTGTTCCGCATGTGCTCGGCGATGAAGCCTATGCTTCGGCCGCCTGGGGAGATGCAGCGGTCATTTGCCCGTGGACGGTGTACGTCAATTTTGGCGATCGACGGATATTGGAGCGTCAATACGAGAGCATGAAGCGCTGGGTCTCCTACATTCAAGCTCAAGGGGAGCATGAATATCTGTGGAATACCGGCTTCCATTTCGGCGATTGGCTGGGACTGGATGCGAAATCCGGGGACTATGTGGGGGCTACTGAACGGGACTTTATCGCTTCGGCGTTTTATGGTTATTCGGTGGAACTGCTTAGAAAAACGGCGGTCGTATTGGGACGAGAACAAGATGCTGCCCTGTATGCCGAGCTTAAAGAAAAGGTTGTCGCTGCATTCCGTAACGAATTCGTGACCCCGTCCGGAAGGCTAGCGGCGTCGACGCAGACCGCGCACGTACTTGCGCTTATGTTCGGACTGCTGGATGAGGCGGCGGAAAAACGCGCGGCGGACCGTCTTTATGCATTGCTGGAGGAGAGCCGGTTTCATTTAACGACCGGTTTTGTGGGCACACCTTATATCAATCATGTGTTAAGCCGGCACGGCATGCACGATGCGGCGTATAAGCTGCTGCTGCAGCAGGACTATCCTTCATGGCTGTATCCGGTGACGAAAGGCGCCACGACGATATGGGAGCATTGGGACGGCATCAAGGAAGACGGCAGCTTCTGGAGCCGCGACATGAATTCATTCAATCATTATGCATACGGAGCCATCGGCGAATGGCTGTATCGTTCGGTTGCAGGCATACAGACCGTGGAGGATGCGCCGGGATATAAACATATCCGGTTTGCGCCTGTACCGGGCGAAGGCCTGACATGGGCGGAAGGCAAAATCGATACGATGTATGGAACCGTCCGGTCATGCTGGCGGATGGAAGATGATGGCGAGTTTCAGTTGGAAGTGTGCATTCCGCCTAATACGACTGCTGAAATTTGCCTGCCGGGTGTTTTTGACGTTTCAAACGTTATGGAAGGCAGCACGATCCCTCTAAACGAAGCAAAGGGGATCCATTCCGCAGTTGATGGCGAAGCGGGTGTTGTGATTCAAGCGGGCTCGGGGGAGTATACGTTCCGTTATGTATACAACAATCCTAAAGCGAAGTAA	MFSVTDVRCEYLHQPIGIGERKPRISWRLASDERAVSQTTYEIEVSIENEFAQPCWTSGKTASSQSVHVELTGLSATSCKRYFYRVRAWNQAGEMTEWSETAYWETGKLEGEPWVGQWISAPRSLLPADAGHLPLLRKSFSLKSPITKARIYVTALGLYELELNGQRVGDCYFTPGWTSYDHTIQTQTYDVTEMLKSGQNAIGAWLGNGWYKGQLGWEDRHAIYGDRLALLLELHITYADGSEEVMATDSSWQSAKGPITMSELYHGETYDARLELEGFSTAGYNSDDWHGVETIDHGYDKLKPQINEPVRAVQTVRPVECLTTPKGETVIDFGQNLVGWVRFSVTGAEGITVTLQHAEILDAEGNFYTENLRTAKQTIQYTLKGGGNEIHEPHFTFQGFRYVRLDGFTEEQLDLRHFEAVVLHSDFEETGTFQCSDPMVNQLQSNIRWGLKGNFLDVPTDCPQRDERLGWTGDAQMFIGTAAYLANIAPFFTKWLSDLAAEQRDDGAVPFVVPHVLGDEAYASAAWGDAAVICPWTVYVNFGDRRILERQYESMKRWVSYIQAQGEHEYLWNTGFHFGDWLGLDAKSGDYVGATERDFIASAFYGYSVELLRKTAVVLGREQDAALYAELKEKVVAAFRNEFVTPSGRLAASTQTAHVLALMFGLLDEAAEKRAADRLYALLEESRFHLTTGFVGTPYINHVLSRHGMHDAAYKLLLQQDYPSWLYPVTKGATTIWEHWDGIKEDGSFWSRDMNSFNHYAYGAIGEWLYRSVAGIQTVEDAPGYKHIRFAPVPGEGLTWAEGKIDTMYGTVRSCWRMEDDGEFQLEVCIPPNTTAEICLPGVFDVSNVMEGSTIPLNEAKGIHSAVDGEAGVVIQAGSGEYTFRYVYNNPKAK	PGPT0019195_723	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-RHAMNOSIDASE,PGPT0019195-ramA-K05989	NA	NA
AK002_02552	423	cwlJ	COG3773	Cell wall hydrolase CwlJ	GTGGCAGTCATCAAAGCGAACTCGAATGATGTGGATCTTCTGGCAAGATTGATCCGCGCAGAGGCAGAAGGCGAAGGTGAGCAGGGCATGCTCATGGTAGGGAATGTCGGGGTGAACCGGATACTGGGTAACTGCCTGGATTTTCGAAACATCCGCAACATGAACGATATGGTTTTTCAGAGCCCGGGTGGTTTTGAAGCAACACAGAAAGGCTATTTTTATCAACGGGCCAGGGATCGGGATCGTCAGCTAGCCCAAAGGGTCATTAATGGGGAACGCATATGGCCGGCTAGCAACGCGCTATGGTTCTTCCGCCCGGCAGGGGACTGCCCGGCAACCTGGTACAATCAGCAGAACACAGGCCGATTCAAGGCACACTGCTTCTTCACCCCGACATATGCCGATTGCCCGTCCGTTTTTTGA	MAVIKANSNDVDLLARLIRAEAEGEGEQGMLMVGNVGVNRILGNCLDFRNIRNMNDMVFQSPGGFEATQKGYFYQRARDRDRQLAQRVINGERIWPASNALWFFRPAGDCPATWYNQQNTGRFKAHCFFTPTYADCPSVF				NA	NA	NA	NA	NA
AK002_02553	435			hypothetical protein	ATGTACAATCAAGGTGTGCCGCCTGTGAACTTCATGAATGGAGTCCGTTATCCGGGAGTGCCGAACCGCGGGACCGCTGGCTATACGGCAAACGTTCCACCGCAGGTGCCCAGCGGAAGCCCAATGACGCCGGGAGGCACCGTTGTTCCGGCACCGCCGCAATTTGAACAATCTTACGTGGAGAATATCCTTCGATTGAACCTTGGGAAGCAGGCAACGTTTTACATGACGTATGAAAACAATTCGCAATGGAATGCCAAGGTGTTTACGGGCATTATCGAAGCCGCCGGTCGCGATCATATCGTCATCAGCGAACGGACGACAGGGCGCCGGATCATCCTGCTGATGGTGAACCTGGACTATGTCGTGTTTGACGAGCCGCTCAATTATCAATATCCGGGCGTAATCGGAAATCCGCCTCCAACGGCAAGATAA	MYNQGVPPVNFMNGVRYPGVPNRGTAGYTANVPPQVPSGSPMTPGGTVVPAPPQFEQSYVENILRLNLGKQATFYMTYENNSQWNAKVFTGIIEAAGRDHIVISERTTGRRIILLMVNLDYVVFDEPLNYQYPGVIGNPPPTAR	PGPT0025095_163	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025095-gerQ-K06305	NA	NA
AK002_02554	1320			hypothetical protein	TTGAGTGACCCCTTACCGAGTTTGATAAGTTTAACCTTGGTATTGATTCTCGTCCTATTAAACGGATTTTTTGTATCGGCTGAATTGGCTTTTGTTAAAGTGAAGAGCAGCCGGATTGACGCTCTGGTTGAAGAAGGACATAGACGTGCACAATTTGCGCAGAACATACTGAAGAACCTGGACGGATATATATCCGCGTGCCAGTTTGGCATTACCATCGTGTCCATCGGCCTTGGCTGGATCGGCGAGAGAACGATTTCCGCCATGATTACGCCTTGGTTCAACGGAATAGGGTGGAGCAACACAGCCGTTCATGCGGTGTCCTTGGTATTAGCCTTCATCTTGATCGCACTCATGCATATCGTATTCGGTGCATTAGCGCCTAAGACGGTGGCCGTACGCAAGGCGGAACAAATCACGCTGCTGTCCGCAGGCCCGCTGCGGGTATTTTACACCATCATGTTCCCGTTTATCTGGTTTGCCAATGGGCTTTCCAATAACGTTCTCCGCATATTCCGGATGAAGCCGGTGGTTGAACGCAATGTTCATACCGAGGAAGAACTGCGGGATATGATGAAAGAGAGCAGCGAGAGCGGTTTGATGGATAGCACGGAGATGACACTGGTAGACAACATTTTTGAATTTGCCGATACGACGGCAAGGGAGATCATGATCCCCCGTACAGAAATGATCTGCTTATACAACAATCTTTCATTGGAAGAAAATCTGAAGATTGCAAGCGAGGGCATGCGAACCCGTTATCCGATCTGCGACGAAGACAAGGATCATATCATTGGCTTTATTCACATTAAAGATCTGATGCGCGGCTTTGCTGGCGACCAGCTTTCCCTGATTCGCCCGATCATTGCTGTTCCTGAGTCGATCAAGATCAGTGAACTGCTGCGAAGAATGCAGCGTAGCAAGACGCAAATCGCCATTCTTATCGATGAATACGGCGGGACTTCGGGACTCGTGACCCTGGAGGACATAATGGAAGAAATCGTCGGTGAAATTCAAGACGAGTTTGACGAAGAGCGTCCTGGCATTGAAAAGGTGGGGGAGGATGAATACTCCATTGATGGATTGATGCTGATCGATGAAATCAATGACCAATTTGGTCTGAATGTGGATACAGAAGATTACGATACCATCGGTGGATGGCTGTCTGCGCGCCTTGAGGTGCTGCTTCCGCACAAAGGCCAGTCTGTTATATACGAAGACTGTCGCTTTGTGATCGAGGAGACCGAGAATAAACGCATCTCCCGGATACGCCTGATCAGGCAAGAGCAGCAGTTGATACAGGAAGAAGCGGGCGCGTAA	MSDPLPSLISLTLVLILVLLNGFFVSAELAFVKVKSSRIDALVEEGHRRAQFAQNILKNLDGYISACQFGITIVSIGLGWIGERTISAMITPWFNGIGWSNTAVHAVSLVLAFILIALMHIVFGALAPKTVAVRKAEQITLLSAGPLRVFYTIMFPFIWFANGLSNNVLRIFRMKPVVERNVHTEEELRDMMKESSESGLMDSTEMTLVDNIFEFADTTAREIMIPRTEMICLYNNLSLEENLKIASEGMRTRYPICDEDKDHIIGFIHIKDLMRGFAGDQLSLIRPIIAVPESIKISELLRRMQRSKTQIAILIDEYGGTSGLVTLEDIMEEIVGEIQDEFDEERPGIEKVGEDEYSIDGLMLIDEINDQFGLNVDTEDYDTIGGWLSARLEVLLPHKGQSVIYEDCRFVIEETENKRISRIRLIRQEQQLIQEEAGA	PGPT0014013_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014013-yrkA-NA	NA	NA
AK002_02555	498			hypothetical protein	ATGTCGAAAGTACGCAGTCCAAAACGTATAGCTTCAGCACTTGCAGTCAGTGTTTTATTAAGTTTATCCCTGGCAGGAGGGGCTTACGCGGACTCCGCTGCAGACATTGCACCCGGTGCTTTGACGACTCCGCCTCCGGTTGAAATGAATTTGAATTCTTCCATCAGCCTCTTAGCGAATAAATATCTGATCAACTACTATTCTACGATTAGTAAGGCAAGCGGTACCCAAGTGAGCATCAACGGATTTACCGGCGCTGGACAAGCCGTAGATAGCATCGGCATTAATTATGTTCTACAGCGCTGGACAGGGTCGGCTTGGGTGGATGCTGGCAGTGCATATGAAAACGGAACCAACAAGCTTTCGCTTAGCGGCACCAAAAATTTCAACGTTCAGGCAGGCTACTATTACCGTGGCAAAACCATTCATTGGATTAATGAGAACGGTACATATGAGGAAGGGACTTATTATACGAACTCGATATTAGTAGAGCAGTAA	MSKVRSPKRIASALAVSVLLSLSLAGGAYADSAADIAPGALTTPPPVEMNLNSSISLLANKYLINYYSTISKASGTQVSINGFTGAGQAVDSIGINYVLQRWTGSAWVDAGSAYENGTNKLSLSGTKNFNVQAGYYYRGKTIHWINENGTYEEGTYYTNSILVEQ				NA	NA	NA	NA	NA
AK002_02556	819			hypothetical protein	ATGAGCAACGAAAAATACGATGATTGGTTTGATGAGGCCTTTGATGAAGCCTTTGATCGTGCAGCTTCACGTTCCTCACTCCCTACTGACGACGAATCCAAGCGACAATCCTGGCAGCAAGTCAAGCTGCAGGTCGAGAAACTTAACAATCGGAAACAGCGACGCCGCAGATTTCAGTTGGCCGGTATTATCGCAGCTTCCATGGCATTCGGGGCATTCGTGTTCTCCCAGCCTACCGTCACGCAAGCCGTATCGCCAATCTATCAGCAAATCGTGGATTGGGGCAATGGCATTACGGGCCAGATATTCGGCAAGAAAGAGCCCGTCGATCCCAGCAAGGCCCTTACTGCCCCTCCGCCGGATATAAGCCCTACGCCAGATAACGCCGATCAAGTACCGCCCGCTGAATTGGTGGAAACCGAAGACGTTCCCTTTACGGATTCCGACGAATCCTTAATCGAATCGCAAAAGCGCGTATTATTCAAGATACCTGAAGTCGGCTATATTCCGCCAGGCTTTGAGTTCTATGAGGCGACGGGAATCGCGGAAAGCGAGAACGCGCCGATCCTGGATCTTCATCTTCACTACAAGAATGCGGATGAAAAGGTATTCTACATCGATTTAATCGACATGACGGCAGAACGGTCCATCGGCCTTGGAGGAAAGGTTACCGAGACGCTGAAGCTGAAATCTGGAGCCGTAGCCTACCTGACTGAAACCAACCTCCGCTTTTTGCATGACAATGACAAAATATTGGTGAATATTAGCGGATTGTTTTCTCGAGAAGAATTCATTAAAATCGCCAACAGCATACACTAA	MSNEKYDDWFDEAFDEAFDRAASRSSLPTDDESKRQSWQQVKLQVEKLNNRKQRRRRFQLAGIIAASMAFGAFVFSQPTVTQAVSPIYQQIVDWGNGITGQIFGKKEPVDPSKALTAPPPDISPTPDNADQVPPAELVETEDVPFTDSDESLIESQKRVLFKIPEVGYIPPGFEFYEATGIAESENAPILDLHLHYKNADEKVFYIDLIDMTAERSIGLGGKVTETLKLKSGAVAYLTETNLRFLHDNDKILVNISGLFSREEFIKIANSIH				NA	NA	NA	NA	NA
AK002_02557	591	sigM_3	COG1595	ECF RNA polymerase sigma factor SigM	GTGTCCAACCGATTACAGCTCCTCCTTGCAGCAGATTTCGCTGATCTGAGCGAACCTATTCAGGAAGAAATCTATTATGAATTTTATGACCTCGTTTATGGGCAAATACTGTATGTCGTACGGGATCATGCTGCTGTTGAGGATATCATTCAGGAGTCCTTTATCAAAGTGATCACAAGCAAGCCGAAGTTCGAAACGGAAAGCAAGATGCGGGGCTGGCTCCGTGTCGTCGCGAAAAACTCAACCATGAATTATTTAAGAAAAAATAAAAAATACCGTAACCAAGTGGATGTCGATAGTGTTTTTATTAATGAAGAGGACGTGGTAGTTTCTTCCACGAACGTCGAACACCAGGTGGAATCGAATTTGCTGGAGGAATCGATCGGGCAGTACCTCGACCAATTGAAGCCTGAATACAAGCTATTGATTGAGTATCGTTGGAAGCACAGCCTGACCTACAGGGAAATCGCGGAGCTGCTGAATACTCGCGAAGAGATCGTGAAGCAGCGTTTGTTCCGGGCCAGGGAATCCGTTAAGAAAATGCTGTATAGAGAGTGGGGTGAATTGGATGAGCAACGAAAAATACGATGA	MSNRLQLLLAADFADLSEPIQEEIYYEFYDLVYGQILYVVRDHAAVEDIIQESFIKVITSKPKFETESKMRGWLRVVAKNSTMNYLRKNKKYRNQVDVDSVFINEEDVVVSSTNVEHQVESNLLEESIGQYLDQLKPEYKLLIEYRWKHSLTYREIAELLNTREEIVKQRLFRARESVKKMLYREWGELDEQRKIR	PGPT0014960_5897	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_02558	1230			Aminopeptidase 2	ATGTCCAGCTTTGAACAAAAATTGGAACGCTATGCGGAGCTAGCCGTCAAGGTCGGCGCCAACGTGCAGCCGGGACAAACGCTGGTGGTTAACGCCATGATCGATGCGGCGCCGCTGGTGCGCCTGATCGTGAAGAAAGCCTACGAAACGGGTGCCAAGCAAGTGAAAGTCAATTACAGTGACGAGATCGTGAATCGGATTCGGTACGATCTGGCGCCTGACGAAGTTTTTTTGGAACCGCCGACTTATTACGCAGAGGAAGTAACCGAACTTGCCGAACAAGGAGCCGCTTTCTTGACGATCCTCTCCTCGAACCCCGACCTGTTAAAAGGAGTCGATCCCGAGCGTATATCCAATTATCAACGTACATATGGCGCAGCCATGTCGAAATACCGGCAATACCAGCAGGCCGACAAAATGAGCTGGACCGGCATTGCGTACGCTTCCCCCGATTGGGCTTCCAAGGTGTTTCCTGACGTTCCTGCCGACCAGCAGGTGGACAAAATGTGGGACGCGATTTTCCACGCGGTTCGCGCGGACCTGGAAGATCCTATTGGGGCGTGGGAGGAGCATATCCATACCCTTCAGCGCAAATCGGATGAACTCAATGCCAAGAAATATCACAAGCTCCGGTTCACTTCACCTGGAACGGATCTGACAATCGAGCTGCCGGAGGGTCATATATGGGCCCAGGCGGGCAGCCACAACGAAAAAGGCGAGCGCTTCGTTGCCAACATCCCGACGGAGGAAGTATTCACCGCCCCTCTCAAAACCGGCGTCAACGGCACCGTACGCAGCACGAAGCCTTTGAGCTACGGCGGCAACATCATCGACAATTTCTCGATTACGTTCGAGAACGGGCGCATCGTCGATTTTTCCGCCGAACAAGGCCAGGATACTTTAACCCGACTGATCTCCATGGACGAAGGGTCGCATTATCTGGGCGAGGTGGCTCTTGTCCCCCATCGCTCCCCGATCTCGGAAAGCGGCATCCTGTATTACAATACGCTGTTTGATGAAAATGCATCCTGTCACCTGGCCATCGGGAGCGCATATGCCTTCAACCTAGAAGGCGGCAAGACCATGACGTCCGAACAGCTCCAGGCAAGCGGCCTGAACACCAGCATTACGCACGTCGACTTCATGATGGGCTCCAAGGAGCTTCAGATTACGGGAATCACGCATGATGGCAAGGAAGAGCCGGTCTTCATCGATGGTAACTGGGCATAA	MSSFEQKLERYAELAVKVGANVQPGQTLVVNAMIDAAPLVRLIVKKAYETGAKQVKVNYSDEIVNRIRYDLAPDEVFLEPPTYYAEEVTELAEQGAAFLTILSSNPDLLKGVDPERISNYQRTYGAAMSKYRQYQQADKMSWTGIAYASPDWASKVFPDVPADQQVDKMWDAIFHAVRADLEDPIGAWEEHIHTLQRKSDELNAKKYHKLRFTSPGTDLTIELPEGHIWAQAGSHNEKGERFVANIPTEEVFTAPLKTGVNGTVRSTKPLSYGGNIIDNFSITFENGRIVDFSAEQGQDTLTRLISMDEGSHYLGEVALVPHRSPISESGILYYNTLFDENASCHLAIGSAYAFNLEGGKTMTSEQLQASGLNTSITHVDFMMGSKELQITGITHDGKEEPVFIDGNWA	PGPT0020940_1073	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
AK002_02559	1233			Aminopeptidase 2	ATGTCCGATTTCAATACATACCTGGACAAATATGCCGAGTTGGCCGTAAAGGTTGGAGTCAACATACAGGAAGGGCAAACGCTGGTGGTCCATGCTCCTGTCGATTCCGCCGAGTTTACCCGCTTGATCGCGAAGAAGGCATACGAAGCGGGGGCCCGCCTCGTTAAGATCCTGTGGACCGACGAAACGATAACAAGGCTTCAATTCGAAAAAGCTGCGGATGACGTGTTTACCGAAGCGCCAAAATGGTATGCCGGAGAAATGACGGAGCTGGTCGAGAACGGTGCAGCCGTTCTGCACGTGCTGGCCGAGAACCCCGATCTGCTCAGCGGCATCGATTCCGAGCGCATCGGAAACTTCTACAAGGCGCGCGGCGAAGCATTGAAGCAATACCGTGCCTATCAGCAGTCCGACAAGTTCAGCTGGTGCCTGGTCGCAGTTCCTTCGGCTGCGTGGGCCGCGAAGGTATTCCCGGATGTTCCGGAATCCGAGCAGGTCGGCAAATTGTGGGAAGCGATTTTCCACACCGTACGTGTGGACCAGGAGAACCCGGTAGAGGCCTGGAACCAACATCTCGAAGTGCTTGAAGCCAAATCCTCCGTGCTGAACGCCAAGAAATACAAGAAGCTCCACTATGTTGCGCCGGGAACCGATCTTACCATCGAGCTGCCGGAAGGGCACATTTGGGCACAAGGCGATAGCATCAACGAAAGAGGACACTCCTTCGTGGCTAACATGCCGACAGAGGAAGTCTTTACCGCCCCTCTCAAAACAGGCGTCAACGGGACCGTACATAGTACGAAGCCATTAAGTTATGCCGGTAACATCATAAACAACTTCTCCCTTACTTTTGCAGAAGGCAAGGTGGTCAGCTTCAAGGCGGAGCAAGGGTATGAGACTTTGGAGCGTCTTTTGAACATGGATGAAGGTGCCCGTTACCTTGGTGAAGTGGCGCTTGTGCCACATCAATCTCCGATCTCGGAGTCGAACATCCTGTATTACAACACGTTGTTTGACGAGAATGCCTCCAACCATCTGGCGCTCGGCAGCGCTTATGCTTTCTGTCTCGAGGGCGGCAAGGACATGAATCAGGAACAGCTGATTCAGAGCGGCCTCAATACGAGCGTAACCCATGTCGACTTCATGATCGGATCCGGCGACATGGATATTTACGGCGTGACGGCAGATGGCAAGGAAGAACCCGTATTCCTGAAAGGAAACTGGGCATTTTAA	MSDFNTYLDKYAELAVKVGVNIQEGQTLVVHAPVDSAEFTRLIAKKAYEAGARLVKILWTDETITRLQFEKAADDVFTEAPKWYAGEMTELVENGAAVLHVLAENPDLLSGIDSERIGNFYKARGEALKQYRAYQQSDKFSWCLVAVPSAAWAAKVFPDVPESEQVGKLWEAIFHTVRVDQENPVEAWNQHLEVLEAKSSVLNAKKYKKLHYVAPGTDLTIELPEGHIWAQGDSINERGHSFVANMPTEEVFTAPLKTGVNGTVHSTKPLSYAGNIINNFSLTFAEGKVVSFKAEQGYETLERLLNMDEGARYLGEVALVPHQSPISESNILYYNTLFDENASNHLALGSAYAFCLEGGKDMNQEQLIQSGLNTSVTHVDFMIGSGDMDIYGVTADGKEEPVFLKGNWAF	PGPT0020940_963	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
AK002_02560	288			hypothetical protein	GTGTCACAAGTCCGAATCGAGCGTGCGGATATGAAGCGGGATGATGCCGATCAATTCGTGGGATATACCGTATTTTCTATAGATGGACATGCCTCATCCTACGAGATCACCTTCCTGAGCAAGAACGGCCGGGATTGGGATTACAGTTTGAACTTTGCCGGCGAGCCGGGAATCGAGGAGCAGTTTCTCCAGATAGACGAGCGGATCGAAAACGATGACGAGCTGTTTGACGATTTGCTGGATGCAGCCATTGATGCCAGCGAATTCGGGGAATCAGAGGCGGACTAA	MSQVRIERADMKRDDADQFVGYTVFSIDGHASSYEITFLSKNGRDWDYSLNFAGEPGIEEQFLQIDERIENDDELFDDLLDAAIDASEFGESEAD				NA	NA	NA	NA	NA
AK002_02561	1353	ktrB_1	COG0168	Ktr system potassium uptake protein B	ATGAAAAAGAAAGACCTACGCAATCAAATGACGCCTCCTAAATTCTTGGCGATCGGTTTCGCATCGATCACACTGATCGGAACTTTTCTGCTTAAGCTCCCTATCGCTACCGCCGACGGGACTTCGACTCCGCTGGTTGATGCTCTCTTCACGGCGGTGTCAGCCATTAGCGTGACGGGATTAACCGTCGTGGATACGGGCACCCACTGGTCGATATTTGGACAAATTGTCATGCTTATGCTGGTTCAGCTTGGCGGCTTGGGGTTTATGACCTCGGCCACCTGGATTGCATTGATGTTCAACCGCAGAATCTCGCTCCGGGAGCGCATGATCCTTCAGGAAGCGATGGGACAATACCAAATACAAGGCATCGTGGATCTCATCCGAAGAGTGCTGGTCTACACGCTGATCATAGAAGGCGCGGGCGCCTTGCTGTTGACGCTCAGGTTCTCTGCCATCATGCCGCTTTCCGATGCGGCGTACTTCGGCATATTCCAGAGCATCTCCATCTTTAACAATGCAGGCTTTGATCTCTTTGGCCAAATTCACGGACCCTTCTCAGGGTTTGCCACCTATGTAGCGGATCCTATCGTGAATATTATCCTGATGTTCCTGATTTTCCTTGGAGGCATCGGCTTCATCGTTATTTTTGATCTCATCGAGTATCCGAAATGCAAAAAGCTTTCGCTTCATTCCAAGGTTGTCTTGACGGTGACGTCCCTGTTAATCGTGATCGGGGCCGTCATGATCTTTATCCTGGAGCACAGCAATCCCAAAACCTTGGGGCCTCTTTCGTATCCGGTAAAGATCATGGCTTCCATATTCCAATCGATCACTCCTCGTTCGGGTGGCGTCAGCACCTTGGACATTGCGAGTCTTGAGCAATCGTCCCAGTTCTTCATGATTCTCCTGATGTTCATCGGGGCAGCGCCCGGATCGACCGGAGGCGGCATCAAGGTGACTACCTTCGCCGTGCTGATCGGTGCCGTCGTCACGATGATTCAGGGAAAACGCGATGTGGTGCTCTATCGCAACCGCATCTCCCAAGCCCTGGTTTACCGCTCCATTACGCTGACGATTCTATCGCTGCTGCTATTGGTAGGCGCCTCGATGTTCCTGTCCGTTACGGAGTCAGGCGAATTCTTAAGGATTCTGTTTGAAGCCGTATCCGCCTTCGGCACGGCCGGGTTATCCATGGGTCTTACCACCGAGCTCTCCGGGGTTGGCAAGGTAACCATTGCCATGCTCATGTTCCTCGGCCGGCTGGGACCGCTAACGCTTGCCTACGCGCTTAGCCGCAAGAATAACAAGGAGCTGTACCGCCATCCCGAAGGACGAATCACAATCGGATAA	MKKKDLRNQMTPPKFLAIGFASITLIGTFLLKLPIATADGTSTPLVDALFTAVSAISVTGLTVVDTGTHWSIFGQIVMLMLVQLGGLGFMTSATWIALMFNRRISLRERMILQEAMGQYQIQGIVDLIRRVLVYTLIIEGAGALLLTLRFSAIMPLSDAAYFGIFQSISIFNNAGFDLFGQIHGPFSGFATYVADPIVNIILMFLIFLGGIGFIVIFDLIEYPKCKKLSLHSKVVLTVTSLLIVIGAVMIFILEHSNPKTLGPLSYPVKIMASIFQSITPRSGGVSTLDIASLEQSSQFFMILLMFIGAAPGSTGGGIKVTTFAVLIGAVVTMIQGKRDVVLYRNRISQALVYRSITLTILSLLLLVGASMFLSVTESGEFLRILFEAVSAFGTAGLSMGLTTELSGVGKVTIAMLMFLGRLGPLTLAYALSRKNNKELYRHPEGRITIG	PGPT0002735_4188	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
AK002_02562	918			hypothetical protein	ATGAATTCGAACCGAGCACCGATTCCCGTTTTTATCCCGTTATTTATAGGGATTATAGCCATATCCTTTTCATCGATTTTCGTAAAATGGTCCGGCAGTCCCGTTTCCATTCAGGCCATGTACCGATTGGTGATCACGTTTCTGATCATGCTCCCGTTCGCGGGAAAATACGTGCCGGTTATCCGATCGCTGAAGCGCTCCGAAGTGCTTCTGCTGATTCTGTCCGGTGCGATGCTGGCCCTGCATTTTTTGTTATGGATGGGTTCCCTGAAGTGGACGAGCGTAGCCAGTTCTACGATCATCCTGGCCCTTCAGCCGGTATTCGTCATGATCGGCGCCTACATCTGGTTTAAGGAGAAAACGTCGCTGGCGGCCATAGGAGGTATGGCCATCGCCTTTCTCGGCGTGTTCCTTCTCATTGGCAGCAGCGGCTTCAGCGGGAGCAAGGGACATCTGACCGGCGATATCATGTCTTTGCTGGGGACGGCCGCGGTGGCCGTCCATATGCTGCTCGGACAACTGCTGCTCAGACGGCTGCCGTCATTCCTGTACAGCTGGCTGGTTTTTGCGGTAGCTGCTGCCGTATTGGCGGTATATAACGTGGGCATGCAGATTCCGCTGGCCGGTTATTCCGCTCGCGAGTGGGGGATATTCACATTGTTGGCCGTAGTCCCCACGGTATTCGGTCATCTGTTATTCAATTGGCTGATGAAGTATGCGACTGCCTCCACCGTGTCGATGAGCGTTCTCGGAGAGCCGGTTGGAGCGAGTCTGCTGGCTTTTCTCCTGCTGAATGAGTCGATGAATTCGCTGCAAGCCGCAGGCGGAGCGCTGGTGCTGTTAGGGCTGGTATTGTTCTTGAAAGTCGGCAGAAGCAAAAAGCAGCCGGTGGACGTCCAGCCTGAAGCGCTGGGCTGA	MNSNRAPIPVFIPLFIGIIAISFSSIFVKWSGSPVSIQAMYRLVITFLIMLPFAGKYVPVIRSLKRSEVLLLILSGAMLALHFLLWMGSLKWTSVASSTIILALQPVFVMIGAYIWFKEKTSLAAIGGMAIAFLGVFLLIGSSGFSGSKGHLTGDIMSLLGTAAVAVHMLLGQLLLRRLPSFLYSWLVFAVAAAVLAVYNVGMQIPLAGYSAREWGIFTLLAVVPTVFGHLLFNWLMKYATASTVSMSVLGEPVGASLLAFLLLNESMNSLQAAGGALVLLGLVLFLKVGRSKKQPVDVQPEALG				NA	NA	NA	NA	NA
AK002_02563	1137		COG1063	putative zinc-binding alcohol dehydrogenase	GTGAAAGCAGTCACTTATCAAGGCAGACATCGGATCAAAGTGAAGGAAATGAAAGACGCCGTTCTTCGGCACAGCGACGATATCTTGATTCGAGTCACCACCACGGCGATCTGCGGATCTGATTTGCATATATATAACGGCGAGCTGAGGCAGCTTAACGATAATTACATTATCGGACATGAGCCCATGGGGGTCGTTGTGGATGCAGGGCCGGAAGTAAGCAGGGTCAAAGTGGGCGATCGCGTAATCATTCCTTTTATCGTGTCCTGCGGCAAGTGTGTCTTCTGCCAGAATCAAATGGAGAGCCAATGCGATTATGCGAACGAAGCAAAGGATACCGGCGGTTTTTTTGGATACAGCGACGCGTACGGCGGCTTTCAAGGCGCGCAGGCGGAGCTGCTCCGGGTACCTTATGGTAATGTCATGCCTTTTATCATTCCGGAGGATGCCGAGATGGAGGATGAAAAGCTGCTCATGCTGTCCGATGCGCTGCCAACCGCGATCTGGAGCGTGGAGAACGGAGGAGTTAAGCCCGGCGATGTCGTCATTGTCCTCGGGTGCGGCCCGATAGGCTTGTTAACGCAGAAGTTTGCATGGCTGAAAGGAGCGAAGCGGGTCATCGCCATCGACCATGTGGACTACAGGCTGGCGCATGCCAGCCGCACCAATTATGTGGAAACCTACAACTTCGAGAAGATACCCGAGATCGAGAACTATATCCTTGAGATAACCAAGGGCGGCGCCGACGTGGTCATCGATTGCGTGGGCCTGGATGCCAAACGGACCGGCATCGAGATGCTGGGCAGCATGCTGAAGCTTCAGGGGGGCTCCTTGGGGGCTTTTCGCATGGCTGCGAGAATGGTGCGCAAATACGGGACCATCCAGCTCACGGGCGTATATGGGCTTATCTACAATGCATTTCCGCTAGGCGAACTGTTTGAACGCAATATTACGTTAAAAATGGGTCTTGCCCCGGTCATTCATTACATGCCCCGCCTGTATCAAATGTTGAAAGAGGGGACGGTGGATCCTTCGGATATCATTACCCACCGGTTTCCGATGGAGAAGGCTGCCCTTGGCTATGATATTTTCAATGAGAGGAAGGATGGCTGTATCAAAGTCATCCTGAAGCCTTAG	MKAVTYQGRHRIKVKEMKDAVLRHSDDILIRVTTTAICGSDLHIYNGELRQLNDNYIIGHEPMGVVVDAGPEVSRVKVGDRVIIPFIVSCGKCVFCQNQMESQCDYANEAKDTGGFFGYSDAYGGFQGAQAELLRVPYGNVMPFIIPEDAEMEDEKLLMLSDALPTAIWSVENGGVKPGDVVIVLGCGPIGLLTQKFAWLKGAKRVIAIDHVDYRLAHASRTNYVETYNFEKIPEIENYILEITKGGADVVIDCVGLDAKRTGIEMLGSMLKLQGGSLGAFRMAARMVRKYGTIQLTGVYGLIYNAFPLGELFERNITLKMGLAPVIHYMPRLYQMLKEGTVDPSDIITHRFPMEKAALGYDIFNERKDGCIKVILKP	PGPT0006355_1028	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
AK002_02564	864	ygaZ	COG1296	Inner membrane protein YgaZ	ATGAGCAGCACGTCCGGAACGCTTTTTTATTTGTATGGAAAAAAACGATCCCTGGCGTTGACAAGCCAGCAAGAAGTATTCATAGTAATGAAAAATAGAATTGTAGAGGGAGAGAGGAATCGAACACAGATGAGCACCAAGTCAGAACGGCTTCCCGCCGATATCGAGGGAAACCAGGCCAATTCCTATCTTCAAGGATTCAAGGATTGCATACCAACACTGCTGGGATACCTGAGCATCGGTTTTGCGGCAGGCGTCGTCGAGCGTACCGCAGGTTTCAGCCTGCTCGAGATTGCGCTCCTTTCGCTGCTGCTCTATGCGGGCTCCGGACAATTCATAGCCGCGGGGATGGTAGCCGCCGCAAGCCCGGTCTTATCCATTATTGTCACGATATTTTTCGTAAATGCCAGGCACCTGCTGTTAAGCGCGGCGATTGCACCGTATTTTAAAGGGTTGTCCTCGGGAAAAAGCTTCTTCATCGGTTCCCTGCTAACCGACGAAACATTTGGTGTGGCGGCAGCCAAGGCGGCCGAGCAGAAGAGGCTGGGTTACCGGTGGATGGTGGGACTGAATATCACAGCGTATCTGTTCTGGTGTGCAGCGAACGTTGCGGGAGGTCTTGTCGGAGCGTGGATACCGGAGCCGGAGAAGTTTGGCCTTGACTTTGCATTGCCTGGCATGTTTATCGGATTGCTGGCCCTGCAATGGATCAGCCGAAAGAAGTATAAACTGGACTTCATGGTGATTATGGTTGCCGCCGTTTCGGTAATTGCGATCAGTACGATCATGCCGGGAAGCGCAGCGGTCATCGCTGCGATTATGGTTGCGGCTACAGCAGGGATGGTGATCGAACGATGGAAATAA	MSSTSGTLFYLYGKKRSLALTSQQEVFIVMKNRIVEGERNRTQMSTKSERLPADIEGNQANSYLQGFKDCIPTLLGYLSIGFAAGVVERTAGFSLLEIALLSLLLYAGSGQFIAAGMVAAASPVLSIIVTIFFVNARHLLLSAAIAPYFKGLSSGKSFFIGSLLTDETFGVAAAKAAEQKRLGYRWMVGLNITAYLFWCAANVAGGLVGAWIPEPEKFGLDFALPGMFIGLLALQWISRKKYKLDFMVIMVAAVSVIAISTIMPGSAAVIAAIMVAATAGMVIERWK				NA	NA	NA	NA	NA
AK002_02565	327			hypothetical protein	ATGGAAATAAGATGGCATATTGCCATACTGATTATCGGATGCGCTGTCGTCACCCTGATTCCAAGGGTTCTGCCGCTAATGATTCTGAGCAAGCTCCGCATTCCGGAATTGATGATCCGTTGGCTGGATCATGTGCCGATCGCGGTCATGGCGGCGCTATTAGCACAGGAGCTGCTCGTTAGTGACGGACGCGTGGATCCGGGGGGCCATACACTGGAACTGATAGCGGCTGTCCCTGCTTTCCTAACCGCATTTCTTACGAAAAGCCTGTTTGCCACCGTCATTGTCGGGATCCTAACCTTGGTGGGGCTCCGCTTGTTGATCTGA	MEIRWHIAILIIGCAVVTLIPRVLPLMILSKLRIPELMIRWLDHVPIAVMAALLAQELLVSDGRVDPGGHTLELIAAVPAFLTAFLTKSLFATVIVGILTLVGLRLLI				NA	NA	NA	NA	NA
AK002_02566	942		COG1088	UDP-glucose 4-epimerase	ATGAAGATGGTTGTAACCGGCGGAGCAGGCTTCATCGGCTCCCACCTGGTGAACGGACTCGTTAATCAAGGCTATGAAGTCCATGTAATTGATAACCTGACAACCGGAGATCCAGGTCGCCTTCACAGTGAGGCGATTTTACATGTAGCTGACGTTAACAGTCAGCAGACAACGGCATACATCTCGGTGCTGAAGCCCGATGTCGTCTTTCATTTGGCCGCACAGGCCGATGTGCAGCGATCGATCCAGGAACCTCGGCTTGATGCGGATGCCAATGTCATGGGCACGATAAACATACTGGACGCTTGCCGTAAGGCTGGCGTTCGAAAGATCGTGTTTGCTTCGACAGCCGGTGTGTATGGAGACCTCGAGAGATCTCAGCTAACGGAAGACGATCCGGTTAACCCGGTCTCCTTCTATGCGCTATCGAAAGTAGCAGGCGAACAATATATCCGTCTCTATCACCGCTTCTTCGGCCTGCAATACACCATTCTTCGTTATGGTAACGTCTACGGGCCGGGTCAGACCGCGAAGGGAGAAGGCGGTGTCGTGGCGGTCTTCGGCGAACGCCTGTATCAAGGCGGGCCGCTCCCAATATACGGCGATGGTCTGCAGACCCGGGATTTCATTTATGTCAAAGATGTGGTTGATGCCAACCTTGCCTCCATCCTTCATGGTGATCAAAGTGTGCTTCATGTTAGTACCGGCACCGACCATTCCGTCAATACACTCGTCGATCTCATCAGCCGGCTGCACCCAGACCGCATCGATGTCGATTATCTGCCCGCGAAGATCGGCGATATTCGGCACAGCTGCCTGAATAATGAAAGGACTCGGGAGCGGCTGCGGTGGAGTCCGTTGTTCAGCCTGGAAGAAGGCATGGAAGAAACCTACCGTCACTGGCTTGGCACACTAGTTTCCCAAAGTGCCCCTAGCAAATGA	MKMVVTGGAGFIGSHLVNGLVNQGYEVHVIDNLTTGDPGRLHSEAILHVADVNSQQTTAYISVLKPDVVFHLAAQADVQRSIQEPRLDADANVMGTINILDACRKAGVRKIVFASTAGVYGDLERSQLTEDDPVNPVSFYALSKVAGEQYIRLYHRFFGLQYTILRYGNVYGPGQTAKGEGGVVAVFGERLYQGGPLPIYGDGLQTRDFIYVKDVVDANLASILHGDQSVLHVSTGTDHSVNTLVDLISRLHPDRIDVDYLPAKIGDIRHSCLNNERTRERLRWSPLFSLEEGMEETYRHWLGTLVSQSAPSK	PGPT0019015_12	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-GALACTOSE-XYLOSE_POOL,PGPT0019015-uxs-K08678	NA	NA
AK002_02567	1926	ltaS		Lipoteichoic acid synthase	ATGGAACGCTACCTTGAACAAAGGTTGAAATTATGTGTACTCGTTTTTTTGACGCTCTTAGTCAAGCTGATCCTTCTAAGAGTGTTTCTGTTTAATGGGATTGCATGGGGGAAGGTGCTTACCGATGCACTGTCGCTCCTCGCCCTGATTAGCTTTCTGGAGCTGCTCCTGCCGGTCAGAGGGAAAAAGACGGTCTATGTGATCCTAAATGTCGTCTTATCTTTCATCATGTTTGCATCGGCTGTTTATAACGTTCATTTTGGGTCCATACCGACGTATACCGCGCTTGCGGGTATCGGTCAAGTAAATCAGGTACGGGCCAGCATTACGGCTTTGCTAGAGCCGGAGCATTTTCTATTCTTCCTGGACCTGCTGCTCCTGCTGGTCATATGGGCGGTCCGGAAAATACGTTCTCGCTCCCAAAGGGGCTTGCATTTCGGTGGAGCTCGTTCCGGATATTCCGTAACCTACTCACGCAGGCCTGGTCTGATGTGGCGTACTTCCATGACCGTTGTTCTTATCGTAGCGGTTGTTCTGTCCGGACTGATCATTCGCAAAGAGTGGGGAATCGAGAATGAAATCGTGCGGGCGGAGCAAATGGGGTTCATGAACTACCAGGTGTCTGCTGTCGTGCGTAACTCGCAGGAGAAACGTGCGCTGGCCGAGGGAAGTCTGCAGGACACCATCCTGCGGTCCCAGCAGCTGCTGGCGACGTATCCTTACGTCAAGGAAGCACAGGATAAGCCGGACTATTTCGGCGATGCAAAAGGCAAAAATCTGATCATCGTCCAGATGGAGTCCTTGCAGAACTTCCCGGTGGGCCAATCCCTGAACGGCCAGGAACTGACTCCGGTGATGAACGAGCTTGCGGAAGGCGGCCTGTATTTCCCCCACGTCTTCCAACAGATCGGCCAAGGCAATACATCGGATGCCGAATTTGCGGTGAATACCTCGATCTATCCGACAGGAACGGTTGCCATGTCCACCGGTTTCGGAAATAAGGAGCTGCCGGGCCTTCCGCGGCTCTTGAACAAGCATGGCTATGCAACCGGCACATTCCACGTGAATGACGTGAAGTTCTGGGATCGCAGCAAGATGTACCCGGCCCTTGATTTTCAGCATTATTACGACAAGCCGTATTTTACGAATGATAACTTCAATGAATTCGGTCCTTCCGATGAAGAGCTGTTCCGAGTCGGCGTAGACAAGCTGCTGGAGAACCAACAGCAGAATAAACCTACCTATGCCCACTACATCACGGTCTCCAATCATTCTCCGTACCATGTAAAGGATGAATTCGCGAAGATCACCTTGCCGGCCGAGCTGGAAGGGACCCATTTGGGAAACTATCTGAAGTCGGTGAACTATTCCGATTATGCGCTGGGAACGCTGGTAGACCGCCTGAAGCAGAACGGGCTGTGGGATGAAACCGTCCTGGTCGTATATGGAGATCACTTCGGCATCAATCCGGCAGAAGCGAACGCGGAGATGATCTCGTCAACGCTGGGCATTCCTTACCATGAGCGCGTCAGTCGATTTAACATTCCGCTCATCATTCATGTTCCCGGCATGAAGGAAGGGAAGGTCGTTGAGCAGGTGGGGGGACAGGTGGATATTCTGCCTACCGTCGCAAACCTTCTGGGAGTCTCGCTCGATGAGGAGGGGTTTAACGCGTTCGGGCATGACCTGCTTAACGTAGACCGCAACGTTATAGGAATGAGGTATTATTTGCCGACGGGATCTTTCTTTAATAACGACATTCTGTTCGTGCCTGGAGACGGGTTTGAGGACGGTACCGCAGTGTCCCTGAAGACGCTTGAGCCCGTAACGGATTTCGAAAAATACCGCAGCGATTACGACTATATATTGCAGCTGATGAAAATGTCCGATGAGTACGTGAAAATGCTGCCCAAGCGGGCACCGTAA	MERYLEQRLKLCVLVFLTLLVKLILLRVFLFNGIAWGKVLTDALSLLALISFLELLLPVRGKKTVYVILNVVLSFIMFASAVYNVHFGSIPTYTALAGIGQVNQVRASITALLEPEHFLFFLDLLLLLVIWAVRKIRSRSQRGLHFGGARSGYSVTYSRRPGLMWRTSMTVVLIVAVVLSGLIIRKEWGIENEIVRAEQMGFMNYQVSAVVRNSQEKRALAEGSLQDTILRSQQLLATYPYVKEAQDKPDYFGDAKGKNLIIVQMESLQNFPVGQSLNGQELTPVMNELAEGGLYFPHVFQQIGQGNTSDAEFAVNTSIYPTGTVAMSTGFGNKELPGLPRLLNKHGYATGTFHVNDVKFWDRSKMYPALDFQHYYDKPYFTNDNFNEFGPSDEELFRVGVDKLLENQQQNKPTYAHYITVSNHSPYHVKDEFAKITLPAELEGTHLGNYLKSVNYSDYALGTLVDRLKQNGLWDETVLVVYGDHFGINPAEANAEMISSTLGIPYHERVSRFNIPLIIHVPGMKEGKVVEQVGGQVDILPTVANLLGVSLDEEGFNAFGHDLLNVDRNVIGMRYYLPTGSFFNNDILFVPGDGFEDGTAVSLKTLEPVTDFEKYRSDYDYILQLMKMSDEYVKMLPKRAP	PGPT0023375_866	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
AK002_02568	999	bioB		Biotin synthase	ATGACAACACAAACCCATTACGATTGGTTGAAGCTGGCGGATCGGGTCGTGAAAGGACATGAAGTGACCCCGGCCGAAGCCTTGGCGGTTCTGAACAGCGAGGACGGGGAGCTTCTGAACATTATGCAGGCCGCCTACCACATCCGTCGCGAGTATTATGGAAACAAGGTCAAGCTGAACATGATCGTGAACGCGAAATCCGGTCTGTGTCCTGAGGATTGCGGATATTGCTCCCAGTCCATCGTGTCGGAAGCGCCCATCGAAAAATACGCATGGCTGACCAAGGACAAAATTCTGGAAGGCGCGCGAGAGTCGATTCGCCGTAAAGCGGGCACCTATTGCATCGTTGCATCCGGACGCCGCCCTTCCAATCGGGAAATTGATCATGTAGCCGAAGCGGTGAAGGAGATTACCCGGACGACCGATCTGAAGGTGTGCTGTTGCCTGGGCTTCTTGAATGAGGAACATGCGCGCAAGCTTGCCGATGCCGGGGTCCATCGATACAACCATAATCTGAATACTTCCAAAGATAATTACGGGCATATTACGACTACGCATACATACGATGACCGGCTGGACACGGTGAAGCAGGCAAGCTCTTCCGGAATGTCCCCTTGCTCTGGAGCCATTTTCGGAATGGGGGAGAGTTTGGAAGAACGTGTGGAGATTGCGTTTGCCCTGAAATCGCTTGGAGCGGATTCGATTCCATGCAATTTTTTGAATGCGATCGAGGGAACCCCTCTGGAAGGTCGCAAGGAATTGACACCGATCATGTGTTTGAAGATTCTTGCCATGATGCGGTTTGTTAACCCGACGAAAGAGATACGGATTGCAGGGGGGCGGGAAGTGAACCTGCGATCCCTTCAACCCCTTGGACTGTACGCGGCGAACTCCATATTCATCGGCGATTATTTAACGACAGAAGGCCAGGCTCATACGGCCGACTGGGGATTGATTGAAGACCTAGGGTTTGAAATTGAAGAAAACGCGCTGTCATGA	MTTQTHYDWLKLADRVVKGHEVTPAEALAVLNSEDGELLNIMQAAYHIRREYYGNKVKLNMIVNAKSGLCPEDCGYCSQSIVSEAPIEKYAWLTKDKILEGARESIRRKAGTYCIVASGRRPSNREIDHVAEAVKEITRTTDLKVCCCLGFLNEEHARKLADAGVHRYNHNLNTSKDNYGHITTTHTYDDRLDTVKQASSSGMSPCSGAIFGMGESLEERVEIAFALKSLGADSIPCNFLNAIEGTPLEGRKELTPIMCLKILAMMRFVNPTKEIRIAGGREVNLRSLQPLGLYAANSIFIGDYLTTEGQAHTADWGLIEDLGFEIEENALS	PGPT0022120_3034	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022120-bioB-K01012	NA	NA
AK002_02569	390			hypothetical protein	GTGCTGATTGCATCTGCCGCACTGATAATCTTTATATCCGGTCTCTACTACCGGAGGTATGTACCTATAACAGGTTTGCGCTTCATGAAGTGCAGTGATCTTCGTCTGGCACAGAAGGAATGCCCGAATCTGAAAGTGCTTGATGTACGCGATGTGTCCGAATTTATGGAATGTCCGAGGAAAGAGACCATAAACATCTCGCTTGGAAGGTTGCCGTATGTGTGGGAGAAGGAGCTCAAGCCCGATGATTCCGTAGTCATCGTAACGCCCAAGCGCTCGGATGGAATCCTGGCTGCGCGCAAGCTGAAGAAGGCCGGCTTTACTTCGCTTTTTTATTTGCAGGAGGATTGCGCTGCCTGCAATTCCGTGCAGCGTGCATCGATGAATTGA	MLIASAALIIFISGLYYRRYVPITGLRFMKCSDLRLAQKECPNLKVLDVRDVSEFMECPRKETINISLGRLPYVWEKELKPDDSVVIVTPKRSDGILAARKLKKAGFTSLFYLQEDCAACNSVQRASMN				NA	NA	NA	NA	NA
AK002_02570	345	hmoA	COG2329	Heme-degrading monooxygenase HmoA	ATGGATATGTTGATCGAGACTAAAACGATTATTGTTAAAGCAGGCACCTCCAACCTGGTCGTGGAACGTTTCAGCAAGCCCGGACCCATCGAAGAAATTGAAGGATTTATCGATCTGAACGTTCTTGTGAAGAATGCGAAACGTACCGACGAAACGGAAGAAGTTATCGTGATGATCCGCTGGGAGTCGAAAGAAGCGTGGAAACGCTGGGAAACCAGTCCTGCGCACATCCAAGGACATCGCGACAACCGCGGAAAGCCGCAGCCTGAGCATGTTATTAGTTCCAGCCACGGCATGTACGAGGTCATGGCATCCAAAGGGCCGAGACCGGTTCAACAGGCATAA	MDMLIETKTIIVKAGTSNLVVERFSKPGPIEEIEGFIDLNVLVKNAKRTDETEEVIVMIRWESKEAWKRWETSPAHIQGHRDNRGKPQPEHVISSSHGMYEVMASKGPRPVQQA	PGPT0003630_31	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003630-hmoA-K07145	NA	NA
AK002_02571	1254	nrnB	COG2404	Oligoribonuclease NrnB	ATGTATCATCTGTACAGCCATAACGATTTAGATGGCGTCGGCTGCGGCATCATCGCCAAATGCGCCTTCGGTGAAGGAATCGATGTCCGTTACAACTCCATTCACGGATTGAATCAACAAGTTGCAAGGTATTTGAACCGGACCTCCGTACAGGAGAATCCATACGATATGCTGTTCATTACGGATTTGTCGGTCTCTCCTGACATCGAGAAGGATTTGAACGTGTTTGTCGAAGAGGGGGGACAGGTGCAGCTTATCGATCACCATAAAACAGCCCTTCACCTCAATGAACACAGCTGGGGACAAGTGGATGTGACGCATCGGGACGGCCGCTTGGCATCGGCAACCTCGCTGTTCTATGAATATTTAATCGAGCATGGACATCTCGGCAGAAGCGAAGCGCTGGACGAATTCGTTGAGCTGGTGCGCCTCTATGATACATGGGAATGGGAAGAGAGCGGCAAGATCGAGGCTAAGCGCTTGAATGACTTATTCTACATGTTGTCCCTGGACGAATTCGAGAGCAAGATGTCTGAGCGCCTCCGGGAATCGCACGAGGGCTTCTTCTTTGATGAATTTGAACAGAAAATCCTGGACTTGGAAGAGAATAAAATCGAGCGTTACATTCGTCGCAAGCAGCGAGAACTCATTCAAACCTTCGTCGAGGAGCATTGCGTCGGCATCGTTTACGCCGAATCCTATCATTCCGAGCTTGCCAGCGAGCTGGGAACGAGCTATCCCCATCTTGACTACATCGCCATCCTGAACATGGGTGGAAGAAAAATGAGCCTTCGAACCATTCATGATCATGTGGACGTGTCCGAAGTGGCGATGCGGTATGGCGGTGGCGGCCATGCCAAAGCTGCCGGGTGCACCATAACAGAGGATGTGTATCAATTGTTTGCGGCGGACTCGTTTGAGCTGGAACCGATCCGCTTCGATGCATCGCGTAATCAGTTTAATATCAAAGGAAGCGAGTCCGGCGTGCTGTACGAAAGCTGGGGCGAGGATTTGCTGTTTGTTTACGCCTATGCCGGGGAATGGGTGATCGAGTGGAATGGAGAACCTCTCCCATTCCGGTTCAGGTCGTTCGAGGAAGCAGAGCGGCATATGAAGCGTCAGTACGGGGTCTGGTTGTCCCGGGATGACGTATTTGTGAAGATGCTGAAGGAACAATGGATCCGAAACCGTACCCATGAGCGTCCTGGCTTGCCGCCGGATATGGATGAGGAGAAATTAATGGAAGATCTGTAG	MYHLYSHNDLDGVGCGIIAKCAFGEGIDVRYNSIHGLNQQVARYLNRTSVQENPYDMLFITDLSVSPDIEKDLNVFVEEGGQVQLIDHHKTALHLNEHSWGQVDVTHRDGRLASATSLFYEYLIEHGHLGRSEALDEFVELVRLYDTWEWEESGKIEAKRLNDLFYMLSLDEFESKMSERLRESHEGFFFDEFEQKILDLEENKIERYIRRKQRELIQTFVEEHCVGIVYAESYHSELASELGTSYPHLDYIAILNMGGRKMSLRTIHDHVDVSEVAMRYGGGGHAKAAGCTITEDVYQLFAADSFELEPIRFDASRNQFNIKGSESGVLYESWGEDLLFVYAYAGEWVIEWNGEPLPFRFRSFEEAERHMKRQYGVWLSRDDVFVKMLKEQWIRNRTHERPGLPPDMDEEKLMEDL				NA	NA	NA	NA	NA
AK002_02572	1179			hypothetical protein	GTGAAAAAAATGATCGCCGGTTGGGCCCTTGCCCTGCTGACGGCAGGTATCCTCGCTTGGAGTCAAACGCAGAGCCATTCCGAGCCCTCCATTCCCTCGGCGGTTCACAGCAAAGAACTGCTGAAGGATGTTCCCGTACCTTGGTCCGCCACAAAAAACACGATTCGGTTGAATACATCCGATCCAGTAAGTGCAGCCGTACTGACTTCCAAGACGCTGTGGCAGTCCACGAACGTGCACAGCCGTCCACAGACCGTGATCCTCGTGGACTCGGCTCAATGGCCGATCGCGGCTGTCAGCGTCGATCTGACGCAGCTTAGCAAGGGGCCTTTACTCTTCGTTGAAGAAGGGGGAATCCCGAAGGAAACCTTGGAAGAGCTGAGACGGCTGAAGCCGAGGGGAGCGGAGCACAACAAGGGGATTGAGATTATTACCGTCGGCCCGATCTCGGATCAGGTGATGAAGGAGCTGAACGGACTTGAATACAAGGCCGATCACATTCCTGCCGGGGAAGCCGCGGAAGCGGCAGCAGCAATTGATGCCTATGCTTCCAGGGTAAACGGTTCAGTACCGACCTCGGTTATAGTCGGATCGATGGAACGGCCCGACTATACGCTGCCCGCGGTAAGCTGGATTGCCCATATGCCGGAAACGATGCTGTACGTCAGCGAGAAGGACGTGCCCGAAGAGACGGCGCAGGCCCTAAGGCAGCGTAACGGGAAGGCGAATATCTACGTCATCGGACCTGAAAAGGTGGTGTCCCAGGCCGTTGAAGACGAGCTGCGGCAATATGGGAAGGTAACGCGTATAGCCGGGGACGATCCATATGAGAATGCCATTCATTTTGCCCAGTATCATGATCCCGGGACGGGTTTTGGCTGGGGAGTACAATCGCCAGGCTACAGTTTCTCCTTCTCGAGGCCGGACTCGCCGACATTGTCCATTGCGGCCGCTCCATTGTCCCATATGGGTAAACACGCCCCTTTATTGTTTACGGAGCGCGACGGAGTGCCACGCTCGATTACGAAGTATGTTGACTCGATCAGGCAACAGAGTGACGCCTCCAAGGTGGAAACTCCCTATAATCATGCCTGGATCATCGGAGATGAACAGACCCTGACCACCAAGCTCCAGAGTGAGATTGATGAAATTCTGGATACGCCTGCAGGACATGATTAA	MKKMIAGWALALLTAGILAWSQTQSHSEPSIPSAVHSKELLKDVPVPWSATKNTIRLNTSDPVSAAVLTSKTLWQSTNVHSRPQTVILVDSAQWPIAAVSVDLTQLSKGPLLFVEEGGIPKETLEELRRLKPRGAEHNKGIEIITVGPISDQVMKELNGLEYKADHIPAGEAAEAAAAIDAYASRVNGSVPTSVIVGSMERPDYTLPAVSWIAHMPETMLYVSEKDVPEETAQALRQRNGKANIYVIGPEKVVSQAVEDELRQYGKVTRIAGDDPYENAIHFAQYHDPGTGFGWGVQSPGYSFSFSRPDSPTLSIAAAPLSHMGKHAPLLFTERDGVPRSITKYVDSIRQQSDASKVETPYNHAWIIGDEQTLTTKLQSEIDEILDTPAGHD				NA	NA	NA	NA	NA
AK002_02573	288	qoxD		Quinol oxidase subunit 4	ATGTTAAAACAGCTGTTTCCAATTAAGCATGTAGCGGGTTATATATCGTCCCTCGTCCTTTCAGCTGTCGCGCTCGTCGTTCTGCTGGATATGCCGGCAGCTTCGAAAGTGGCCGTTCTGCTGGTCACCGCGATCCTGCAGGCTGCCGTTCAGCTCATGCTGTTCATGCACGTCGGGGAAAGCGAAGACAAAAAGTCCGTCTATATCAACATTGCGTTCGCCCTGTTCGTAGGGCTGGTTACCATCTTCGGAACGCTGTTCATCTTCATATGGGGCTGGTACGCTTAA	MLKQLFPIKHVAGYISSLVLSAVALVVLLDMPAASKVAVLLVTAILQAAVQLMLFMHVGESEDKKSVYINIAFALFVGLVTIFGTLFIFIWGWYA				NA	NA	NA	NA	NA
AK002_02574	597	qoxC		Quinol oxidase subunit 3	ATGAAAATAGATGCCACTCAGCCGCTGGAATATGGAACAGAGGAAAACCGCAATCGTATATTCGGCTTCTGGCTGTTCCTCGGAGCTGAAATTGCGCTCTTTGCTACCTTGTTTACCGTCTACTTCGTTCTCGTGAACCGCTTTGCCAGCGGTCCGAGCGGAGCGGAAATCTTTGAAATTACGCCGGTCCTGCTTGAGACGTTCCTGCTCTTAACGAGCAGCTTCACCATCGGTTTGGCTGTTCATGCGATGCGTCTGGGCCTGAAAAAGCAGATGATGATCTTCATGGTCATCACCCTGCTGCTGGGTGCGGGATTCCTCGGGATCGAGATCTTTGAATTCTTCACCTATGTTCATGAAGGAGTAACGCTCTCAACCAGCGCCTTCTCCTCCAGCTTGTTCACATTGCTTGGCACGCACGGAGCTCACGTTACCTTCGGTCTCCTGTGGGGAACAGCCATTCTGATTCAACTTAAAAAGCATGGACTGGATCATTCCACAGCCAACAAGTCCTTCATCTTCTCGCTCTACTGGCACTTCCTGGACGTTGTGTGGATCTTCATTTTCAGCTTCGTGTATCTGAAAGGACTGATGTGA	MKIDATQPLEYGTEENRNRIFGFWLFLGAEIALFATLFTVYFVLVNRFASGPSGAEIFEITPVLLETFLLLTSSFTIGLAVHAMRLGLKKQMMIFMVITLLLGAGFLGIEIFEFFTYVHEGVTLSTSAFSSSLFTLLGTHGAHVTFGLLWGTAILIQLKKHGLDHSTANKSFIFSLYWHFLDVVWIFIFSFVYLKGLM	PGPT0004035_2584	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
AK002_02575	1944	qoxB		Quinol oxidase subunit 1	ATGAAATGGGACGAATTTTTCGTTACCGGTGATCCGTTAATTTACGGCGCCATGGTGAGTATCGTGCTCGTCTCGCTCGCAATCCTCTTCGGCTTGACCTATTACAAGAAGTGGGGATATATGTGGCGGGAATGGCTGACGACCGTGGATCACAAAAGAATTGGTGTCATGTACATCATCTGTGCATTGATCATGCTGTTCCGCGGGGGCGTCGACGCGATCATGATGCGCGCGCAGACCGCCGCACCGGAGATGAAGTTTCTGACCGGTCAGCATTATAATGAAGTATTCACGACTCACGGGGTCATCATGATCCTCTTTATGGCCATGCCGTTTATCTTCGGTCTGATGAACGTCATCGTTCCGCTCCAGATCGGTGCCCGTGACGTTGCATTCCCTAAACTGAACGCCATCAGCTTCTGGCTGTTCTTCGCCGGAGCGATGCTGTTCAACATTTCCTTCGTTATCGGAGGTTCGCCTGATGCCGGCTGGTCCGCTTACTTCCCGCTGGCCAGTATCGAATTCAGTCCGACGGTCGGCAACAACTACTACTCTCTATCGCTTCAGATTTCAGGGATTGGTACGTTGCTGACGGGCCTTAACTTTATCGTAACGATCCTGAAAATGCGTGCTCCGGGTATGACCCTGATGCGCATGCCAATGTTTACCTGGTCGGTATTGATCACTTGCGTCATCATTATCTTTGCTTTCCCTGTGCTTACGATTGCGCTTCTGCTTATGATGTTCGACCGCATCTTCGGCTCGCAATTCTTCACGATGGCCAACGGGGGCATGGATATGCTCTGGGCCAACCTGTTCTGGGTATGGGGTCACCCTGAGGTATATATCGTTATTCTGCCGGCATTCGGTATTTTCAGCGAAATCATCTCAGCCTTCTCCAAAAAGAACCTGTACGGTTACAGCTCCATGGTATTGAGTATGGCGATTATTTCCGGATTGTCCTTCCTGGTATGGGCTCACCATTTCTACACGATGGGTCAAGGGGCCATGGTCAACGGTTTCTTCTCCATCACGACGATGGCAATTGCCGTACCGACCGGGATCAAAATATTCAACTGGCTCTTTACGCTTCGCAAGGGCCGAATCAGCTTTACGACGCCGATGCTCTACTCGCTTGCCTTTATTCCGATCTTTACGATCGGCGGCGTAACCGGCGTCATGCTGGCGATGGCCAGTGCCGACTATCAGTATCACAATACGATGTTCCTGGTTGCCCACTTCCACTATGTGCTCATTCCAGGCGCCGTATTCGCCGTCATTGCGGGTTTCCATTACTGGTTCCCTAAAGTGTTCGGCTTCCGTCTGAACGAAAAGCTTGGCAAAATCGCATTCTGGTTCATTGCCATCTCATTTAACGTTACGTTCTTCCCAATGTTCTTCCTGGGACTTATGGGGATGACCCGCCGTACGTACACGTATTCGGCCGAAACCGGCTTTGGTCCGCTGAATATGCTGTCGATGGTCGGCGCGGTCGGCCTGGCGATCGGATTCATCCTTCTGGTGTACAACATTTACTGGAGTACACGTTACGAGCCGCGCGACAAAACAGGAGATCCATGGGATGCACGCTCGCTGGAATGGTCGACGCCAAGTCCGGTTCCTGTTTACAACTTTGCGGTAACGCCGAAAGTCAAAGGCCGTGACGCCTTCTGGTTCTCCAAGAAAAACAACGAGCCGCTTTCGGACGAGAAAATCACGAAGATTCACATGCCAAGCAACACCGGAAAACCGTTTATACTGGGCATCGCCTTCTTCTTCCTGGGCTTCTTCCTGGTATTCAGCTGGTGGATTCCATCCATCGTTGCCGGTATCGCGGTATTGATTATTATGGCTACCATGTCCTTCGACCGTGATCACGGGTATTACATTCCGGTTGAAGAGATTGTTCAAACCGAACAGAAACTGCGGGGTGATACGGTATGA	MKWDEFFVTGDPLIYGAMVSIVLVSLAILFGLTYYKKWGYMWREWLTTVDHKRIGVMYIICALIMLFRGGVDAIMMRAQTAAPEMKFLTGQHYNEVFTTHGVIMILFMAMPFIFGLMNVIVPLQIGARDVAFPKLNAISFWLFFAGAMLFNISFVIGGSPDAGWSAYFPLASIEFSPTVGNNYYSLSLQISGIGTLLTGLNFIVTILKMRAPGMTLMRMPMFTWSVLITCVIIIFAFPVLTIALLLMMFDRIFGSQFFTMANGGMDMLWANLFWVWGHPEVYIVILPAFGIFSEIISAFSKKNLYGYSSMVLSMAIISGLSFLVWAHHFYTMGQGAMVNGFFSITTMAIAVPTGIKIFNWLFTLRKGRISFTTPMLYSLAFIPIFTIGGVTGVMLAMASADYQYHNTMFLVAHFHYVLIPGAVFAVIAGFHYWFPKVFGFRLNEKLGKIAFWFIAISFNVTFFPMFFLGLMGMTRRTYTYSAETGFGPLNMLSMVGAVGLAIGFILLVYNIYWSTRYEPRDKTGDPWDARSLEWSTPSPVPVYNFAVTPKVKGRDAFWFSKKNNEPLSDEKITKIHMPSNTGKPFILGIAFFFLGFFLVFSWWIPSIVAGIAVLIIMATMSFDRDHGYYIPVEEIVQTEQKLRGDTV	PGPT0004025_442	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
AK002_02576	1005			hypothetical protein	ATGAACAAAAGAGGGCCGTTATTTGCATTGTTTTTATGCTTTACCTTGCTCTTATCGGGCTGCAGCTCGCTCACGGTATTAGATCCGAAAGGACCGGCTGCCAGAACCCTATCCGATACAATCATATTCTCCATTCTCATGATGGTCGGAATCCTAGCGGTAGTTTACGCGCTCTATATCTACATGCTCACGAAATATCGAGCCAAGAAATCCAACGAAGGTTATGAACCGCCTCATGAAGAGGGCAACAAATGGCTGGAAATTCTGTGGACTGCCATTCCGATCCTGATCGTTGCCGTGCTCTCGGTCGTAACCGTCAAAACGACGGTGGCCGTCGAAAACGTGCCTGAAGGCTACGAGAACCAAGAGCCTCTGGTCATTTATGCTTCCTCTTCGAACTGGAAATGGCATTTCAGCTATCCGGAAGAAGGAATCGAAACCGTCAATTACGTTAACATTCCGACCCATCGTCCGATCGAGTTCCGACTGTATTCGTTCGGTCCGATCACAAGCTTCTGGATCCCTCAGCTTCACGGACAGAAGTACGCGATGAGCGACATGATCACCAAGCTGAACATGGTTGCCGACGTACCGGGTTCGATGATGGGCCGTAACGCGAACTTCAACGGCGAAGGCTTTGCCCATATGGAGTTTGAAGCCCTTGCCATGACCTCTGCCGAGTATGATGAGTGGGTTAAGGATGTAAAGGATACCGCGCCTGAACTGAAGGAAGATGAGTTCAAGAAGCTTCTGGACACCGCACACGTCGGACGAATGACCTTCTCCAACACGCATCTGGAATTCAGTCCGCCGCCATCCGAAGACCATCACCATGGCGGTGACGTCAACGGCAATGAGGAGCATCAGGACCATAAAGACGTCCACCCGGATCCTGCAACAACGGAAGAAACGGAATTTGACAGCGAAACGAACGTGGATCCAAACGAACCGCTGCCGAACTTCCCGGCTGAAGAAAGCCCAAATCATCAACATGATGGACATTAA	MNKRGPLFALFLCFTLLLSGCSSLTVLDPKGPAARTLSDTIIFSILMMVGILAVVYALYIYMLTKYRAKKSNEGYEPPHEEGNKWLEILWTAIPILIVAVLSVVTVKTTVAVENVPEGYENQEPLVIYASSSNWKWHFSYPEEGIETVNYVNIPTHRPIEFRLYSFGPITSFWIPQLHGQKYAMSDMITKLNMVADVPGSMMGRNANFNGEGFAHMEFEALAMTSAEYDEWVKDVKDTAPELKEDEFKKLLDTAHVGRMTFSNTHLEFSPPPSEDHHHGGDVNGNEEHQDHKDVHPDPATTEETEFDSETNVDPNEPLPNFPAEESPNHQHDGH				NA	NA	NA	NA	NA
AK002_02577	1449	norG_2	COG1167	HTH-type transcriptional regulator NorG	ATGTCAGAAGAATGGAAATTGAATAAAGCTTCCGATATTCCGCTGCATCAGCAAATTTATGATTACATGAAGAGCAGAATCATGAACGGGGAATGGCCGGTCGGGACCCGAATTCTCCCGCAGAGGGAGCTTGCCGCCAAATTTCAAGTCAACCGCAGCACCATCGTTTATGCCTTGGGTGAGCTTGCGGCTGACGGTTTCATAGAATCCCGGGTGGGACAAGGCACGGTTATTGTTAACAATACTTGGAGCGTATTGGCCGCCGCGCCCCCGCCTGATTGGAATCAATACGTGAAATCCGGCTCCTATCAGCCAAACATCCATATGATCCAGCAGATCAACCGTGCGGAAACCGATCCGGATGTGATCCGACTCGGTACTGGCGAGCTTTCGCCTGAGCTCCTTCCGACCGCCCAAATGCGGGAGACGTTTAACGGCAGTATGTCCAGCCGTTTCACTTTGGGATATTCGGAACCGAAAGGCAGCCTATACTTAAGGGAAATCATCAGCGATTATTTGAATAAGAAGGGGATATCCGCATCTCCTTCTTCCATTCTTATCGTTTCCGGCGGACTGCAGGGCTTGCAGCTTATTTCCCTGGGGCTGCTGCATCACGGTTCCGCCATCCTGGTGGAGAATCCCACGTACCTGAACTCGATTCATGTATTCCAGTCGGCTGGCATGCAATTGCACGGCATCCCGATGGATGCCAAAGGGATCCGAACGGAATCTATCGGAAGGCTCAAGCGTCAGCACAGAGCCGCCCTGCTCTACACGATCCCTGCCTTTCATAACCCTACAGGCACAATGATGTCTTCCGACAGAAGGACGGAGCTGCTGCAAATCTGTGCCCAAGAAAGATTGCCCGTCATCGAGGATGATGTGTATGGCGATTTATGGCTGGATACTCCATCTCCGCCCCCTTTGAAAGCTTCGGATAAACAAGGACTTGTGCTCTATATGGGCAGCATGTCCAAAACCCTCGGGCCCGGTCTGCGCATCGGATGGGTGGTCGGGCCGGAGCCTGTTATCGATCGGTTGTCTGACATTAAAATGCAGACCGATTACGGCTCCAGCTCGCTGTCCCAGCATGCTGTCGCGGAGTGGCTCTCGAGCGGATCCTATGAGAAGCATCTCGTTCAGATCCGGGCAGAGCTGATGAAGCGCAGAGACTTTACGCTGTCGTTGCTGGAACGATATTTTCAAGATATTGCCCACTGGAATAAACCCCAAGGCGGATTTTATGTTTGGCTCCGCATCGCAAAGCCGATCTCCATTCTTCCGTTATTCGAGCAGGCGTTGAAGGAAGGCCTGCTGCTCAATCCCGGAACTATTTATGACCGTAACGACCAGCAGCATCTGCGGCTATCGTATGCATACGCCGCATACGATCAACTGGAGAAGGGACTTATCCGGCTTGCGGAGCTTATTCGCCTCCATGTGTTGTAA	MSEEWKLNKASDIPLHQQIYDYMKSRIMNGEWPVGTRILPQRELAAKFQVNRSTIVYALGELAADGFIESRVGQGTVIVNNTWSVLAAAPPPDWNQYVKSGSYQPNIHMIQQINRAETDPDVIRLGTGELSPELLPTAQMRETFNGSMSSRFTLGYSEPKGSLYLREIISDYLNKKGISASPSSILIVSGGLQGLQLISLGLLHHGSAILVENPTYLNSIHVFQSAGMQLHGIPMDAKGIRTESIGRLKRQHRAALLYTIPAFHNPTGTMMSSDRRTELLQICAQERLPVIEDDVYGDLWLDTPSPPPLKASDKQGLVLYMGSMSKTLGPGLRIGWVVGPEPVIDRLSDIKMQTDYGSSSLSQHAVAEWLSSGSYEKHLVQIRAELMKRRDFTLSLLERYFQDIAHWNKPQGGFYVWLRIAKPISILPLFEQALKEGLLLNPGTIYDRNDQQHLRLSYAYAAYDQLEKGLIRLAELIRLHVL	PGPT0028960_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK002_02578	618	argO		Arginine exporter protein ArgO	ATGATAGCCGTTATACTTCATGGGTTCATTCTGGCTCTCGGGCTTATTCTTCCCTTAGGCGTGCAAAATGTGTTCGTATTTAATCAAGGTGTTGTTCAACCCCGGTTTATTAGGGCGCTGCCTGTCATGATTACCGCATCGTTATGCGATACGCTGCTGATTTCATTGGCGGTATTGGGCGTATCCGTGATCGTTCTGGAATATGAATGGATCAAACTGACGTTATTTACATTGGGAATCTGCTTCCTGGTCTATATGGGAGCGGCGACGTGGAGGAGTAAGCCTTCAGGTCAGGACCCGGAAAGCGCTCGTTCGTTCTCTCCCAAGAAGCAAATCGTATTTGCCATGTCCGTGTCGCTGCTAAATCCGCATGCCGTTCTGGACACGATGGGCGTCATCGGCACGAGCTCGCTTCAATATGAAGGGGCGGACAAAGTGATCTTTACCGTTGTATGCATCGCCGTCTCCTGGTTGTGGTTTCTGGGACTCGGAATTGCCGGCAGGGCCGCGGGAAGGATGGATCCGTCAGGCAGGCTGCTGTCCGCGCTCAACCGAATATCGGCGGTGATTATGTGGGGTACGGCCGCTTATCTCGTGCTTCGATTGGTTCAGACCTAG	MIAVILHGFILALGLILPLGVQNVFVFNQGVVQPRFIRALPVMITASLCDTLLISLAVLGVSVIVLEYEWIKLTLFTLGICFLVYMGAATWRSKPSGQDPESARSFSPKKQIVFAMSVSLLNPHAVLDTMGVIGTSSLQYEGADKVIFTVVCIAVSWLWFLGLGIAGRAAGRMDPSGRLLSALNRISAVIMWGTAAYLVLRLVQT	PGPT0020651_1399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020651-lysE|argO-K06895	NA	NA
AK002_02579	813			hypothetical protein	ATGAACATTTCGATTGGCGGCTATTCTTTTTATAACACGTTTCTCGACGGCAAAATGGATGTGTTCGGTTATTTGGAGACGGTAAAGTATCGCTACCGAATGGATGCGGTTGATTTGTGGAACGGTTTTTTCATCGATCGAAGCGGCCCCATATACAAGCTTGCCGACGAAAGCTACATACGTAAAATCAGGGAAGCGCTGGATGAGAAGGAGATGAGCGTGGTTAACTTTGCCGTTGACGGGGCTCATCTATGGGATCCCGACCCGGATATGCGGGCGAAGTTGTATGACAATGCGCTTGCCCATCTGGATGCCGCAGAAATTTTGGGGGCCAAAACGGTGCGGATCGACACCGGCGGCGGTTATAAAGAAGCGGAGCCGATGCCGGACGAACAATTCGAATACCTTGTCAAGCGCTATCGGGAATTGGCGGAGCGTGCTGGGGATAACGGCTATACCGTAGGTCCGGAAAACCATATGGGCGCCTCCCTCCTCCCTCGGGAAATGAAGCGGATTGCGGAGGAAGTCCGGCATCCTGCTTTTGGTTTCCTGCTTCACCTAGGAAGATGGAGGGCGGATGAGGCCGAAGGCGACGAGATGGTTGTCCCGTGGACGGTGCATACGCATTTCGATGCGAAGACCGCGGTTCATCCCGATGCGGAGGAGAAGGTGCGCAGCCTGCTCGCCGGGGGCTATCGGGGATATTGGGGCGTCGAATACAACGCGCCGGGCAACCAATACGTGGAGATGGAATGGATCATTGGGAACGTAAAGCGAATTTTGAGTAATGCCAGTCGAGCCAAGCAGAAATGA	MNISIGGYSFYNTFLDGKMDVFGYLETVKYRYRMDAVDLWNGFFIDRSGPIYKLADESYIRKIREALDEKEMSVVNFAVDGAHLWDPDPDMRAKLYDNALAHLDAAEILGAKTVRIDTGGGYKEAEPMPDEQFEYLVKRYRELAERAGDNGYTVGPENHMGASLLPREMKRIAEEVRHPAFGFLLHLGRWRADEAEGDEMVVPWTVHTHFDAKTAVHPDAEEKVRSLLAGGYRGYWGVEYNAPGNQYVEMEWIIGNVKRILSNASRAKQK				NA	NA	NA	NA	NA
AK002_02580	1848		COG1132	putative ABC transporter ATP-binding protein	ATGGCTAAACCGAATCAGGATTCCAAGCATGCCCATCAAACGGACGGACCGGACCTTAGCATGCGAGGCGGCAACGCCATCCGCGGAATGACGATAGCCAAAGCCAAGCCGAAACATACGATGGATACGATACGCCGGATATGGAGCTACATCCGTCCGTTCAAAGGCGGCATGATGGCTGTTTTCGTATTCACGCTTGTAACGACGCTGCTCTCACTGATCGCCCCTTATCTGCTGGGGAATGCCGTGGATCATTACATCATCCCGGGAGACATCAGAGGACTTATGGGGGTATGTGCGATACTTCTTGCCGTTTATGCAGGCACCGCGCTCACGGCATGGCTTCAGCAGCATGTTATGGTGAAAGTCTCCCAGCTGTCCATTCTGGCCATGCGGCGAGATATCTTTGCAAGGCTTCAGGTCCTGCCGCTCCGCTTCTTCGACAGCAAGACGCACGGCGAATTGATGAGCCGCACGACCAATGATATCGAGAATGTCTCCGGTACGTTGAACCAGAGCGTAACCCAGCTCATCTCAAGCGTTCTGTCCCTGATCGGATCGCTTGCCATCATGCTGTACTTGAACGTGTGGCTAACACTGCTCAGCATGGTGACCATTCCGCTCGTCATGCTGTTCACGAAGACGGTGGCAAGCCGGACAAGGAAGCATTTTTCCAAGCAGCAAAGCTTGCTGGGTGAGCTTAACGGATTCATTGATGAGACCGTTTCGGGCCAAAAGGTCGTGCAGGTATATCGCCGGGAACGGCATGCCGCTGCCCAGTTTGATGACATGAACAAAAAGCTGACCGACGCCAGCATCCATGCCCAGATCTATTCGGGCACGGTCGGTCCGGTTATGAACGTGCTGAATAACGTCAGTTTTGCCTTGATTGCAGCGGTTGGCGGCTACATGGCTTTCAAGGATTTCACAACCGTCGGGGTCGTCGTTGCGTTTCTGAATTATTCGAAGCAGTTTCAACGGCCTTTGAACGATCTGGCGAACCAGTTCAACCTGGTGCAGTCCGCGGTTGCCGGGGCAGAACGGGTCTTTGAGATAATCGATACGGAGTCCGAATACCAAGGCAATGAACAGACGAAAAAAGCGGACGATATGTATGGCGAGGTACGATTTGACCATGTGTCCTTCAGTTATAAGAAAGACGTCCCGATTCTGAGGGATGTTTCGCTTACCGCCCGGCCGGGTGAGACCGTTGCGCTCGTCGGCCCGACAGGCGCCGGCAAAACCACCATTATCAATCTCCTCACCCGTTTCTATGAGATTGATGATGGCGTAATCACCATAGATGGCAGCGATATCCGCCAACTGGACAAGGACAGTCTGCGGAGTCAGCTGGGGATCGTGCTTCAGGATGCTTATGTATTCTCGGCATCGATCCGGGAGAACATTCGTTATGGCCGGCTGGATGCCTCGGACCAAGAGATCGAAACCGCCGCCAAGCTAGCCAATGCGCATGACTTCATCATGAAGCTGCCCGATGGCTATGATACGCAGCTCCTCTCGGGCGGAGGCAACCTGAGCCAGGGCCAGCGGCAGCTCTTGACGATTGCTCGGGCCGTGCTTGCCGATCCCGTTATTCTGATTCTCGACGAGGCAACCAGCAGCATCGATACCCGAACCGAGATGCATATTCAGACCGCCATGCGCGCCCTGATGCAAGGCCGGACCAGCTTTGTCATCGCCCATCGTCTGAGCACGATCCGCGAGGCCGACCAGATTCTTGTCATGAATCATGGCGGAATCGCGGAGCGCGGCACACATGAAGAGCTGCTGGCCAAGCGCGGCTTCTACTACGAGTTGTACAACAGCCAATTTAAGCTGACCAGCTAA	MAKPNQDSKHAHQTDGPDLSMRGGNAIRGMTIAKAKPKHTMDTIRRIWSYIRPFKGGMMAVFVFTLVTTLLSLIAPYLLGNAVDHYIIPGDIRGLMGVCAILLAVYAGTALTAWLQQHVMVKVSQLSILAMRRDIFARLQVLPLRFFDSKTHGELMSRTTNDIENVSGTLNQSVTQLISSVLSLIGSLAIMLYLNVWLTLLSMVTIPLVMLFTKTVASRTRKHFSKQQSLLGELNGFIDETVSGQKVVQVYRRERHAAAQFDDMNKKLTDASIHAQIYSGTVGPVMNVLNNVSFALIAAVGGYMAFKDFTTVGVVVAFLNYSKQFQRPLNDLANQFNLVQSAVAGAERVFEIIDTESEYQGNEQTKKADDMYGEVRFDHVSFSYKKDVPILRDVSLTARPGETVALVGPTGAGKTTIINLLTRFYEIDDGVITIDGSDIRQLDKDSLRSQLGIVLQDAYVFSASIRENIRYGRLDASDQEIETAAKLANAHDFIMKLPDGYDTQLLSGGGNLSQGQRQLLTIARAVLADPVILILDEATSSIDTRTEMHIQTAMRALMQGRTSFVIAHRLSTIREADQILVMNHGGIAERGTHEELLAKRGFYYELYNSQFKLTS	PGPT0029030_1310	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
AK002_02581	1737		COG1132	putative ABC transporter ATP-binding protein	TTGCTTAAACTATTTCGTTATTTACGTCCTCACTGGACAGCGGCCCTGCTTGCACCGCTGTTGATGCTGCTGGAGGTCGCCATGGATCTGCTTCAGCCCATGCTGATGGCCAGCATAATCGACCGCGGCGTCATGCAGAACGATACGGCACACATCCTCAGTACAGGGCTGCTCATGCTGGGAGCTGCAGCCATCGGGCTGCTTGGAGGTCTCGGGTGCACGATTTATTCTTCCATTGCTTCACAGCGTTTTGGCGCCGATCTTCGCCGGGATTTGTTCCGCAAGGTGCAGACCCTGTCATTCCGCAATCTGGACGACATCTCGACCGGATCGCTCATCACCCGGCTTACGAGCGATATCGTTCAGCTTCAGACGATGGTACAGATGCTGCTGCGCATCTTCGTACGCTCACCGTTTCTTGCCATAGGAAGCATGATAATGGCAGTGATCATCAGCCCCAAGCTGGCCATCATTCTGGCTATTGCCGTTCCGTTGCTGTTCGTCGTGATGTTTTTCCTGATCCGGGCTACCCTGCCCTTGTTCGCCACCGTTCAGAAGAAACTCGATAAGGTGAATACGGTACTGAAGGAAAATTTCGCCGGAATCCGGGTCTCCAAGGCATTCGTGCGTGCCGGTTACGAGAAGGACCGATTTCATGATGCGAACCAGGACTTCATGCAAGTTTCGGTAAAAACCCAGCGGATCGTTGCGCTCAACATGCCCATCCTGACCATGATTCTGAATGTCAGCATCGTGGCCGTCCTGTGGTTTGGCGGGAAGGATGCTATCGGCGGATCCTTTGAGGTCGGTAGCCTGGTAGCCTTTATTAACTATGTCACGCAGGTATTGTTCTCGGTTTCTTCCGTGGCCATGATGCTGGTACGGATTTCTACGGCCAAGGTCTCCGCTGACCGTATTCAGGAGGTCATGCGTACAGAATCCGAAATTGTGAACGATGTTCATCCGGCAACCGATGCGTACAAGCAAGGAGAGATCATGTTTGACCGCGTTACTTTTTCCTATAACTCGGAGATGCAGAAGCCCGTACTGCGCGACATCAGTTTCAAGGTCCGACCAGGACAGCATGTAGCCATTATGGGTGCAACAGGTTCGGGTAAAACCTCTTTGGTATCCCTGCTCCCCCGTCTGTACGATGTGACCTCCGGGCAGATCCGAATCGACGGAACCGATGTACGGAGAATGGAGCTGTCCGCTTTGCGCGAACGAATCGGCATCGTCCTGCAAGAATCCATCCTTTTTACAGGCACTATAAGGGACAACATCCGCTACGGGAAACCGGACGCTTCCGATGAAGAAGTAATCGCCTCGGCTAAGGCTGCCCAAGCGCATGATTTCATTACTACCATGCCGGATGGCTACGATACCGTGCTTGGACAACGCGGCGTGAACCTGTCCGGCGGACAGAAACAGCGTATATCCATTGCGCGGGCATTATTGCTTCGACCCGCCATTCTGATTCTTGATGACAGCACCAGCGCCATCGATACGGGAACGGAGTCACGGCTTCGGAAAGCGCTGGCCCGTCTGATGAAAGACCGGACCTGCCTTATGATCGCCCAGCGGATCTCATCCGTGATCGACGCCGACCTGATATTGGTGCTGGATGACGGGGAATTGATCGCGAAAGGCACGCACAGCGAGCTGCTTGCTTCCTGTGAAGTATATCAGGACATTTATCGATCGCAATTCGGCAAGGAGGTGTCTTCTCATGGCTAA	MLKLFRYLRPHWTAALLAPLLMLLEVAMDLLQPMLMASIIDRGVMQNDTAHILSTGLLMLGAAAIGLLGGLGCTIYSSIASQRFGADLRRDLFRKVQTLSFRNLDDISTGSLITRLTSDIVQLQTMVQMLLRIFVRSPFLAIGSMIMAVIISPKLAIILAIAVPLLFVVMFFLIRATLPLFATVQKKLDKVNTVLKENFAGIRVSKAFVRAGYEKDRFHDANQDFMQVSVKTQRIVALNMPILTMILNVSIVAVLWFGGKDAIGGSFEVGSLVAFINYVTQVLFSVSSVAMMLVRISTAKVSADRIQEVMRTESEIVNDVHPATDAYKQGEIMFDRVTFSYNSEMQKPVLRDISFKVRPGQHVAIMGATGSGKTSLVSLLPRLYDVTSGQIRIDGTDVRRMELSALRERIGIVLQESILFTGTIRDNIRYGKPDASDEEVIASAKAAQAHDFITTMPDGYDTVLGQRGVNLSGGQKQRISIARALLLRPAILILDDSTSAIDTGTESRLRKALARLMKDRTCLMIAQRISSVIDADLILVLDDGELIAKGTHSELLASCEVYQDIYRSQFGKEVSSHG	PGPT0029025_1413	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029025-efrA-K18887	NA	NA
AK002_02582	933	vanY		D-alanyl-D-alanine carboxypeptidase	TTGAAATTGAAGAAGTGTTTGATATTGCTCGTGATCTTCCTGTTGGTTGGATGCGAGCCCGCACTAACGGAGACGCCAAACGCGAATGATAACGAAGGAACACATAAGGAACAGGAGATGAACGCTGGCTCCGACGCGCAGGCGAATCCTCAATCAGAATATGATAACGATGGAAATAAAGCGGCTCAAACGGTCTCCGTGACAGATGAACAAGTAACCCAGGGGAATCTGGTTTTGGTCAACAAGGATCACCCGCTGGATCCGGCAGCCGTACCGACGGATATCGTGAATTTGTTTGAGGAACAAGACTTAATGAACGGCTACGTGGTTCTTGACAACACGATCCGTTTATCGCGAAGCGTGGCGGAGCATTTCGGCGATATGATTGAAGCAGCGGGAGAAGACGGGGTCAATCACTTCATGATCAGCAGCGGGTACCGGGATGAGAGCGAACAGGAGGCGTTATATCGCGAAAAAGGCGCCGATTATGCTTTGCCCCCAGGCTACAGCGAACATAACCTCGGATTATCCATGGATATCGGATCCACGCAGAAGGCGATCGATCAATCTCCGGAGGGCAAGTGGCTGAAGAAGCATGCTTGGGCGCATGGATTCATTTTGAGATACCCCCAGGACAAGACGGACATCACAGGGATCCAGTATGAGCCGTGGCATTTTCGTTATGTTGGGCTTCCGCACAGCATGATCATGCATGAGCTGGATTTTACGCTCGAAGAGTACCTGGATTATCTAAAGGAGAAAAAAACCTATATGGCAACCGTAAATGGGAAGGCCTACGAAATTGCGTACGTACCCGTCCAGTCGAAAGAAACGGAAATTGAAGTTCCGGCCGGCAGCGAGTATGAGATATCCGGCAACAACATCGATGGCATGATTGTGACGGTGCAGCTCGGCAAGGATGAGAATGAATGA	MKLKKCLILLVIFLLVGCEPALTETPNANDNEGTHKEQEMNAGSDAQANPQSEYDNDGNKAAQTVSVTDEQVTQGNLVLVNKDHPLDPAAVPTDIVNLFEEQDLMNGYVVLDNTIRLSRSVAEHFGDMIEAAGEDGVNHFMISSGYRDESEQEALYREKGADYALPPGYSEHNLGLSMDIGSTQKAIDQSPEGKWLKKHAWAHGFILRYPQDKTDITGIQYEPWHFRYVGLPHSMIMHELDFTLEEYLDYLKEKKTYMATVNGKAYEIAYVPVQSKETEIEVPAGSEYEISGNNIDGMIVTVQLGKDENE	PGPT0024055_277	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024055-vanY|yodJ-K07260	NA	NA
AK002_02583	543			hypothetical protein	ATGAAGCAAACGCCTAAATGGATGGTATTATTTCTGTATGTGTTGTATGTATATGTACTGGTCAAAATCATTCTGTTCAAATTCGGCGACGTGAACATTTCGTTTCTGTGGCAGCAGCTGCAGCGTTCGATCGATAATCCCGAATATATGCAGAATCGATTGCAATTTGCCAATTTTACGCCTTTTAAGTCCATCCATCAAAATATGAAACGGCTCTCAAGCCCACATGACGTGATCAATCTGTTCGGAAATATCGCGATTTTCATACCCAACGGCATATTCGTCAGTGTATTGCTGAAAAACAAGTGGATGGGTTTGCTTGGCGCTTTCGTGACTTCCTTCGGGCTAAGCCTAGGGCTGGAGTGCTCGCAGATTCTCTTTTCGATGGGAAGCTTTGATGTGGACGATTTAATCCTGAATACGGCCGGCGGGGTGATAGGCTGTTTCATGGTCCTTGTCTTGAAAGTAGCCTTTTCGGGAAAACAATCCCATATTGATGAGGGTAGGGGCAAGAAGGGCAAGCCGTTATCCGGGGTGAAGTAG	MKQTPKWMVLFLYVLYVYVLVKIILFKFGDVNISFLWQQLQRSIDNPEYMQNRLQFANFTPFKSIHQNMKRLSSPHDVINLFGNIAIFIPNGIFVSVLLKNKWMGLLGAFVTSFGLSLGLECSQILFSMGSFDVDDLILNTAGGVIGCFMVLVLKVAFSGKQSHIDEGRGKKGKPLSGVK				NA	NA	NA	NA	NA
AK002_02584	384			hypothetical protein	GTGAATAAACGCTGGAAAAGGATCTTATTCGGTTCCATCGGTATGGTCTTTGTCATGTTCGTCATAAATATCGCATTATATATCCATTCGATCGGTTGGAATCATATCAAACTGATGTATTCGCTTCATACCACCGACAAATCCGTCGTTAAGATCGATGATCCTTCGAACGGCCATGGACTGTATCTTACGAAGATGAGGCAACCCGCTGAATGGATTAAGGAGCGGATGCAGCGCGAGGATTGGCAATTTGTTATGCAAGAGGGCGCCGGATATTTTTTTGAAAAGGATGACCAGGATGTCGTGGTGACAACCAAAATATGGCCGAATCGTTATTTTGTCAGAATTTCGGTTCAGCATGACGTCGTGAATTTAGCCGACTGA	MNKRWKRILFGSIGMVFVMFVINIALYIHSIGWNHIKLMYSLHTTDKSVVKIDDPSNGHGLYLTKMRQPAEWIKERMQREDWQFVMQEGAGYFFEKDDQDVVVTTKIWPNRYFVRISVQHDVVNLAD				NA	NA	NA	NA	NA
AK002_02585	1227	nasA		Nitrate transporter	ATGGAGAAGAAAGGATTTTGGCAAAGCGGGCACAAGCCCTCCCTGTTCGGTGCTTTTTTGTATTTCGATATCAGCTTCATGATATGGGGCATGCTCGGACCGCTTGCGGTAGTCATTGCCGGAGATTATCCAATGGATCCGGTGCAAAAGGCAAATCTAGTGGCACTTCCCGTTCTTGGCGGCTCGATACTTCGACTCGTATTAGGTTTCCTTGCCGATCGCATCGGCCCGAAGCTAACGGCTCAGATCGGGATGGTCGTCACGCTGGTCCCTCTTTTGCTTGGCTGGTTATGGGTAGATTCCCTTGATCAATTGTACGTCGTTGCGATTCTTCTCGGCGTCGCGGGGGCTTCGTTCGCCGCAGCACTTCCTCTTGCGGGACAGTGGTATCCCAAAGAACATCAAGGTCTGGCAATGGGTATCGCCGGAGCCGGGAACAGCGGCACCGTCCTGGCGACCCTGTTCGCCAACCGGCTGGCGCAGCATTTCGGAAGCTGGGAGATTGTCTTCGGACTTGCCATCATCCCCATTGTATTTGTCTTTATCTACTTCTCGCTGTTTGCCCGCAACAGTCCGAATCGGCCTGCCCCCAAACGGCTGTCCGAATATGGCAATGTGCTTAAACAGCGCGATGCTTGGGTATTCTGTGCCCTGTACTGCGTGACGTTTGGCGGCTTTGTCGGGCTCGCCAACTATTTAACGATCTTCTTCAACGCCCAGTATGGACTTACCGCGGTTCAGGCTGCGGACATTACAACGATCTGCGTCATAGCAGGGAGCTTCTTCCGTCCTGTAGGCGGCTTTCTGGCCGATCGCATCGGCGGCTCGCGAATGCTGATGTTTCTCTATGCCGGAGCTGCCATTATGCTGATCGGCGTCTCCTTCTTGCCGCCGCTTTGGCTTGTCGTCACGCTGCTGTTTATCGGCATGATGTGCCTGGGCGCGGGGAATGGTTCCGTATTTCAGCTTGTCCCTCAGCGGTTTGCCGGCGAGATCGGCCTGGTTACCGGGATTGTCGGGGCTGCCGGAGGCTTGGGCGGCTACGCGCTGCCGCTGATATTGGGACGATTGTACCAAGCGACAGGCTCATACACCGCCGGGTTCATCATTCTGAGCTTCATTGCCGCCGCATCGCTGGCCCTTACGATTGTGATGCAGCTGAAATGGCGGCGCAGCTGGCTCCGCGGCGTGCCATCCGGCGCGCAGACAGGATCGGCCGAGGCGTGA	MEKKGFWQSGHKPSLFGAFLYFDISFMIWGMLGPLAVVIAGDYPMDPVQKANLVALPVLGGSILRLVLGFLADRIGPKLTAQIGMVVTLVPLLLGWLWVDSLDQLYVVAILLGVAGASFAAALPLAGQWYPKEHQGLAMGIAGAGNSGTVLATLFANRLAQHFGSWEIVFGLAIIPIVFVFIYFSLFARNSPNRPAPKRLSEYGNVLKQRDAWVFCALYCVTFGGFVGLANYLTIFFNAQYGLTAVQAADITTICVIAGSFFRPVGGFLADRIGGSRMLMFLYAGAAIMLIGVSFLPPLWLVVTLLFIGMMCLGAGNGSVFQLVPQRFAGEIGLVTGIVGAAGGLGGYALPLILGRLYQATGSYTAGFIILSFIAAASLALTIVMQLKWRRSWLRGVPSGAQTGSAEA	PGPT0000300_3530	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000300-narK|nrtP|nrt|narU-K02575	NA	NA
AK002_02586	2154	nasD_2	COG1251	Nitrite reductase [NAD(P)H]	ATGAATAGAAAGAAGCTCGTGGTTGTCGGTAATGGAATGGCAGGGATACGATGCGTAGAGGAAATACTCAAGCTTGGGCCGGAGCTTTTCGATATTACGATATTCGGCGCCGAACCTCGCCCCAACTATAATCGGATTCTATTGTCCAAAGTCCTTCAAGGCGAACATTCCCTGCAGGATATTATCCTGAACGACTGGTCTTGGTATGAGCAGCATGGCATCCGGTTATTGACCGGTGAAGCCGTTCATCATATCGATGTCAAAGCCCGCTGCATCGAGACGGTCTCCGGTAAGCGGGAAGGGTATGATGCATTAATTCTGGCAACAGGCTCATCCCCTTTCGTTCCGCCTATCCCCGGGACGGATAAGGAAGGTGTCATTTCATTTCGGACGGTGGATGATTGCACGAAAATGACCGAAATGTCCAAGGTTTACACGAAAGCGGCCGTCATTGGCGGGGGATTGCTGGGATTGGAGGCTGCCCGGGGACTTCTCCATCTCGGCATGGAAACCCATGTGGTTCATAATGCTCCTTATATCATGAACCGGCAGCTGGACCGGACGGCAGCCAATATGCTGCAGCGAGAGCTCGAAAGCCAAGGGATGCGATTCCACTTGGCGATGGATACCACGCGAATCGTTGGCCGAACAAGGGCGCAGGGGCTTCGGTTTATCGACGGAACTCGGCTGGATGCGGATGTAGTGGTGCTAGCCGTAGGGATCAGGCCTAACGTGGAGCTGGCCCAGAGAAGCGGTCTGCTGACGGAGCGGGCTATCCTGGTGGATGACTACATGAGGACGAGTGAGCCGAATATTTATGCGGTGGGAGAATGCGCGGAGCACCGGGGGATTAGTTACGGTCTAATCGCTCCCCTGTATGAGCAAGGAAAGGTGCTTGCCCGGGTTATCTGCGGCCGGCAGGCCGAGCCTTATGGCGGTTCGATTCCTTACTCCCAGCTTAAAGTCTCGGGTGTGGATGTATTTTCGGCCGGCGCGATATCGGGGATCGATGCGGAAACCGCCATTCAGCAATACGATGCCGTAAGCCGCACGTACAAAAAAGTGATCATGCACAAAGGCAGGGTTACGGGTGCCATTCTGTTCGGAGACACGACTGAGGGATCCGCGCTGCTGTCCATGGTGAAGAAGGGCGCGGCTGTCTCGGAGCTTATCCCGCAAGAAGGCATTGTAAGCACGGCGGAAGCAGCTGCACAGACGCTCCCGGATCATGAAACGGTGTGTGCTTGCAACGGCGTGAGCAAAGCGGAGATCATGCAGGCCGTTACCGATCGCAATCTCCAAAGCACGGATGAGGTTAAGCAGCTGACCAGGGCATCCGGTTCGTGCGGCGGCTGCCGGCCTATGGTGGATGCTCTTGTCAAACATGCGCGAAGCGGCAAAAAGAGGGGTTCACAGAGGGGGGCCATAACGCAAGACGAGATTCCCGTATGTGAATGCACGAAGCTGGGGCACTCCTCATTGAAGCAAGCGATTGCCCATGCGGTGAGTCAAGGCTGTCATACGATATCGGATTTCATGCTCCATCAGGGCTGGAAGAAGCCGGGCGGATGCATAGTCTGTCGGCCAGCCGTACGTTATTACCTTGAAATGACGGAGACAGGAAACGGTGACGAACCGTTTCAGAAGACTTGGCATCATGTCTCCGATGCGGATCATGGACTCTACCAAGGCGTTCAGGTATGGATCGGAGACACGGAAGGCTCGAGGATGGAGGCGGCAGGCATACGGCGCATTGGAGAATGGCTTCGCCTTCGCTGGCAAGAGGTATCGCTGCCTTATCCTGTACATGCAGGGGTGTCCGATCGTTTAGCATCGTCCGTCAGCATACTGGTTCAGGGGATCGGAATATCCGCTTCGCCCGCAGGCTGGGAGGTTTATCTCGGCGGACATGCGGACCACCCTGTCCGAGAAGGACAATTGATCGGCGTTGCTGAACGTGAGGAAGATGTAGTGCAGCTCGTATCCGCTTGTTTGCAGTGGTACCGGCAGAACGGCTTGTACGAGGAACCGTTGTGGAAATGGGTGGAACGTGCGGGTGTAACTTCGATCCGGGAGCATGTTCTGGACCACGATCTGCAAAGAGAGCTTGCAGAGATGCTGTCTCGGAGGGAATGGAAGACACAAGCTGGTTAA	MNRKKLVVVGNGMAGIRCVEEILKLGPELFDITIFGAEPRPNYNRILLSKVLQGEHSLQDIILNDWSWYEQHGIRLLTGEAVHHIDVKARCIETVSGKREGYDALILATGSSPFVPPIPGTDKEGVISFRTVDDCTKMTEMSKVYTKAAVIGGGLLGLEAARGLLHLGMETHVVHNAPYIMNRQLDRTAANMLQRELESQGMRFHLAMDTTRIVGRTRAQGLRFIDGTRLDADVVVLAVGIRPNVELAQRSGLLTERAILVDDYMRTSEPNIYAVGECAEHRGISYGLIAPLYEQGKVLARVICGRQAEPYGGSIPYSQLKVSGVDVFSAGAISGIDAETAIQQYDAVSRTYKKVIMHKGRVTGAILFGDTTEGSALLSMVKKGAAVSELIPQEGIVSTAEAAAQTLPDHETVCACNGVSKAEIMQAVTDRNLQSTDEVKQLTRASGSCGGCRPMVDALVKHARSGKKRGSQRGAITQDEIPVCECTKLGHSSLKQAIAHAVSQGCHTISDFMLHQGWKKPGGCIVCRPAVRYYLEMTETGNGDEPFQKTWHHVSDADHGLYQGVQVWIGDTEGSRMEAAGIRRIGEWLRLRWQEVSLPYPVHAGVSDRLASSVSILVQGIGISASPAGWEVYLGGHADHPVREGQLIGVAEREEDVVQLVSACLQWYRQNGLYEEPLWKWVERAGVTSIREHVLDHDLQRELAEMLSRREWKTQAG	PGPT0000450_2486	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
AK002_02587	2121	nasC	COG0243	Assimilatory nitrate reductase catalytic subunit	ATGGTTTATTCGGAATCGCCCGCTGTGGGAGGAGCTGCTGCCGTGGTAGAGACACAATGTCCGTTTTGCAGCGTACAGTGCAAGATGACGGTTGCAGAGGAAGAGAAGAGTATCCCGGGACAGTTCAGGGCCAAGTATAAGGTGGAGGGGATACCGAACCTTGCTTCCGAAGGCAGGGTGTGCGTCAAAGGCATGAATGCGCATCAGCACGCAGCCCACTCGCAGCGGCTGCAACATCCGTTGATCCGTTCAAACGGCGAACTCGTTCCTTGCTCTTGGGATGAAGCGATGGCGGTGATTAGCGAACGATTTCAGGCGATATCCGAGAAATATGGTCCCGATGCCAATGCCGTATACGGCGGCGGGTCCCTGACCAACGAAACGGCCTATTTGCTTGGGAAATTTGCCAGGGTGGCACTCGGTACCCGGTATATCGATTATAACGGCCGTTTCTGCATGTCGGCCGCAGCCTCTGCCGGGAGCAAAACCTTTGGAATCGACAGGGGACTGACGTTCAGGCTGTCCGATATTCCTCTTGCCCGCTGCATCGTGCTGGCCGGCACCAATATAGCGGAATGCCAGCCAACGCTGCTCCCTTACTTCAACCAGGCCAAGGCGAACGGGGCGAAGATCGTCGTCATCGATCCCCGCAGAACCGCAACGGCCGCAATAGCCGATATGCATTTGGCGATCAGACCTGGGACGGACGCCATGCTGGCGGATGCGATGCTGAAGATGATCGTGGATGAAGGTCTCTTAGACGAAGGCTTCGTTCAAGCAAGAACTACGGGTTACGCCGAGCTGAAAACCTATCTGGACAGCTTCGATTTATCACGGGCCGCCGATTTATGCGGATTAGATGTGGAGCTGATCCGGGAGGCCGCCGTATCCTATGCTATGGCGGATACCGGGATGTTGCTGACGGCCCGAGGGGTGGAGCAGCAGACGGATGGCCATCTTGCAGTACGCCGTTATCTGAATCTGGTCTTGGCAACAGGCAAAATCGGGAGGGAGGGCTGCGGATACGGGGCGATCACCGGTCAGGGAAACGGTCAGGGAGGAAGAGAGCATGGGCAGAAGGCCGATCAGCTGCCAGGCTATCGATCGATCGAGAATGAGGAGGACCGGGCATATGTTGCGTCCGTGTGGGGCGTTAAGGCTTCCAGCCTGCCTGGAAAGGGCGTGTCTGCCTACGAGATGATGGAGCTGATTCATGAGGGTGAAATTAAGTCGCTCTTCGTGATGGGGTCCAATCCCGTTGTTTCGAATCCGAATGCCGGGCTTGTGGAGGAAGGCTTGAACCATCTCGAATTTCTGGTGGTTGCGGATATGTTTATGTCCGAAACGGCCCGATTCGCCGATCTTGTCCTGCCAGTAACCTCCTATATGGAAAATGAAGGTACGCTGACGAATTTGGAGGGACGGGTTCTTCTCCGGAAGGCGGGGCGTGAGGCGCCGGGGGAGGCGCGTCATGACTGGATGATTCTGTGTTCGATCGCAGACAAATTGGGCAAGGGTGAATATTTTGACTTTCACGAGCCTGAAGAGATATTTAATGAGCTGAGGCTTGCAAGCAAAGGCGGCATTGCTGACTACTTTGGCATCACCTATGATCGATTGCGCCGGGAAGAGGGAGTATACTGGCCGTGTCCCTCCGAAGAAGAATCGGGGACGGGGCTTCTGTTCCGGCAATCGTTCGCCCATCCAGACGGAAAGGCCGTGTTTTCCGTGACGCCGGGGAATCCGTGGGTGGGGGTGTCCGAGGAGTACCCGCTCATTCTGACCAATGGCCGCGTTCTGTCACACTACTTGACGGGCGTGCAGACTCGGAGAAGTCCTTCCCTGCTTGCGCGCGAGCTTGAAAATTTCGTGGAGATCCACCCGATTACCGCACAGCGTTACCGAATCCGTGACGGGGAGTGGGTAGAAATCGTGTCGGAACACGGACGTTTTTCCGTACGCAGCAGGATTAAAGAACATATAAGAGAAGACATGCTGTTCGTCCCGATGCATTGGGGCGGCGTGCAGAATGTCAATCATGCGACCCGGCCGGAGCTGGATCCGGTCTGCAAGATGCCCGGTTTTAAGACTGCCGCTGTCCGGATACGGTCATTGAGGTAA	MVYSESPAVGGAAAVVETQCPFCSVQCKMTVAEEEKSIPGQFRAKYKVEGIPNLASEGRVCVKGMNAHQHAAHSQRLQHPLIRSNGELVPCSWDEAMAVISERFQAISEKYGPDANAVYGGGSLTNETAYLLGKFARVALGTRYIDYNGRFCMSAAASAGSKTFGIDRGLTFRLSDIPLARCIVLAGTNIAECQPTLLPYFNQAKANGAKIVVIDPRRTATAAIADMHLAIRPGTDAMLADAMLKMIVDEGLLDEGFVQARTTGYAELKTYLDSFDLSRAADLCGLDVELIREAAVSYAMADTGMLLTARGVEQQTDGHLAVRRYLNLVLATGKIGREGCGYGAITGQGNGQGGREHGQKADQLPGYRSIENEEDRAYVASVWGVKASSLPGKGVSAYEMMELIHEGEIKSLFVMGSNPVVSNPNAGLVEEGLNHLEFLVVADMFMSETARFADLVLPVTSYMENEGTLTNLEGRVLLRKAGREAPGEARHDWMILCSIADKLGKGEYFDFHEPEEIFNELRLASKGGIADYFGITYDRLRREEGVYWPCPSEEESGTGLLFRQSFAHPDGKAVFSVTPGNPWVGVSEEYPLILTNGRVLSHYLTGVQTRRSPSLLARELENFVEIHPITAQRYRIRDGEWVEIVSEHGRFSVRSRIKEHIREDMLFVPMHWGGVQNVNHATRPELDPVCKMPGFKTAAVRIRSLR	PGPT0000390_1389	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-NITRIC_ACID_BIOSYNTHESIS,PGPT0000390-nasA|nasC|narB-K00372	NA	NA
AK002_02589	468			hypothetical protein	ATGGTTAACGCGAAAGAGCGGGATTGTTTTATCTGTCGAAAGCATCGGGGAGAGATCCAGCTTCCGGGGGGAGCGATTTATGAGGATGAGCTGCTCTACGTAGGCCATATTTCTTCCGATTCCAACGAAGCTTATCTGGGATATATCATGATCGATATCAAGCGGCATGTATCGGGATTAGCGGAGCTGCAAGACGATGAGTCGGCCGCCGTCGGACGGATGCTGACCCGGGTGAGTCGCGCATTGAAAGCATGCATAGGCGCGGAACATATCTACTCCATCGTGCTGGGAGATCACGTCCCCCATCTGCATATCCATCTGATTCCGCGTTATCCGAATACGCCCACGTCCTATTGGGGGTTTGGAATCAGCGGTTGGCCGGAAGCTCCCCGAGGTGATGCCGCCCAGATCGAAGAAGTGTGTTCGCGAATCAAGCGTTGTATGGCGCAGGATGAGGTTGCTCCATGA	MVNAKERDCFICRKHRGEIQLPGGAIYEDELLYVGHISSDSNEAYLGYIMIDIKRHVSGLAELQDDESAAVGRMLTRVSRALKACIGAEHIYSIVLGDHVPHLHIHLIPRYPNTPTSYWGFGISGWPEAPRGDAAQIEEVCSRIKRCMAQDEVAP				NA	NA	NA	NA	NA
AK002_02590	831			hypothetical protein	ATGAGGCCCCATATCGTGAAGTGGCACGGCAGCTCCAGCATGTTCCTCGACGATCCGCAGACGATTGCGGTTTCCCATGGGGTACTGGGCCGGTATGGCGGCAGCTCCGCAACCGGGGCCGATAAAAACGAAGATGGCGTTTATATCTGGATCGATGCGGAATCTGACATGGAGTTCGCCCTGCTGCTGGATGCCCATGAAACCGATGAGAGTGCCCAGCTCCTCTTATCCTATATCGATGAGGCCGCATCCGAGATCGCCGGCATTCTTCGCGGGCCAATCGAGCAGTGCTTTCGAAACCTGCATGACTATTTGCTGGGCATGTTGACTTCCGAACGCTTTCGTGAGGATTGCAGGGGGATTGCGGGTGAAACTTCCTGTCTGCTATGCTGCAGACGCGAAGAATACTTGTGGTGGTTTAACGTCGGGGATTGCCTGCTCTATCTGCTTCATCCCGAATTGACAGCGCTCGGGCAAACCTTGCTTAATCAACGGAATTTCTACGAATGGATAGGGAAGGTAAACACCTTCGATAAGCAGGTCCCTTGTTATTCCACGGGCGTAAGAGAGCTGCGCTCCGGGAAAAACGTGATTGTATTAAGCACTGATGGCGCTTTAGAAATGGGACCAGTATTTCTGGAACATATCAAACTGCTGTTTGACGCTGATCTGGAAGATGGGGTGAAGGATTTCATGCAAATGTCGCATGAACACGGGATCAAGGACAGCGTCACCATGATTGCATGGCAAGTGGAGCTTGGGCATCATCCCAGCTATCCATCCGTTGGTTCAACACAGGAATTGCATGCAAGGCAAATTGAACTCAACTGA	MRPHIVKWHGSSSMFLDDPQTIAVSHGVLGRYGGSSATGADKNEDGVYIWIDAESDMEFALLLDAHETDESAQLLLSYIDEAASEIAGILRGPIEQCFRNLHDYLLGMLTSERFREDCRGIAGETSCLLCCRREEYLWWFNVGDCLLYLLHPELTALGQTLLNQRNFYEWIGKVNTFDKQVPCYSTGVRELRSGKNVIVLSTDGALEMGPVFLEHIKLLFDADLEDGVKDFMQMSHEHGIKDSVTMIAWQVELGHHPSYPSVGSTQELHARQIELN				NA	NA	NA	NA	NA
AK002_02591	1221			hypothetical protein	ATGTCTAGAGCTCATGACAAACTCCCTGATTATCCGGATAATCAGGGAACAAAGCGAACATTTGAAGATACGTATGATGAATATCGCCCGAGGATCCGGCATTATCTCGCACTGAAATTGAATCCGACGGCGGCAGATGACTTAACCCAGCAAGTGTTTTTAAAGGCAATGGAGAACCTTGATAAGTTTAACGGAACATCCAGTCTGTTCACTTGGATCTTCAAAATTGCTCAAAACACAGTCAAAAACGAATATCGAAGTTTAGCGCGAAAAAATGAAAAACCTTATGACTTTACACGTTTTGAATCGCAGTCCATCTCCCTTGATTTTGCAGGTTATGTTGATATTCGAATCGATATCGGAGCAGCGCTTAAGAAGTTAAGTGAACGGGATCAGCAGATCATATCTTTACGATTTTTTGTGGATTGTACGCTGCAGGAAATTTCCAAGATCGTCGGCATGCGCGAGAGTGCGGTGAAAAACCGATTGTATCGGTCCTTGGCGAAGCTGAAGAAAGAATTAAGAGAATGGGGTGACATCACGATTATGTCGATACTCGACTTGATATCCATTGAAAGTAAAAGTGAGGCGAATCATCATCAGAGCAAGGTGCATCAGGACCTGTTTCAAGAACTCAAGAATAATGTAGAACAGATGGCAGCGAAATATAATCATCAGCCTTCCCGCAAAATCGTTATTGAAATTTATCCCGACCTGCCCACATTCCATCAAGCCGTAGGCGAAAGCGATGCACCTAATTGGTTCATGGGCACGTTCGATAACAACACGTTAAAAATCGTCTCGCCCTTGAACCCGGGACCCGAGCATACCTATCACTCGATCCTCCGGTCCACCCTGCACTTGTATGCGATGTGGTTGATTAGTGATATTAATCCGCTGGCGCCTAGATGGATCCGTCAGGGCATCGGGGGGTACGAAGCTCAGCAGATGTCGGAAGACTTCATTCGAAGCACGACCACCGAAGCTATTCTTAATGGGGTAATTCCAAGCTTCGAGGATCTGAATGATGATTCCTGGGATTTCGGCAAAACAGGATTTCAGTTTTCATATTTGATCGTTGCGTTCATGATTGAAAAATACGGGTTTGATTCATTAAACCGATTCATTCGCAATCCGGATGATTATTACGGCATCTTCCATCTTTCCAAGGAAGATCTTCATGAACAGTGGGCGAAAAATCTCCAGCACCAGCTTCATTAA	MSRAHDKLPDYPDNQGTKRTFEDTYDEYRPRIRHYLALKLNPTAADDLTQQVFLKAMENLDKFNGTSSLFTWIFKIAQNTVKNEYRSLARKNEKPYDFTRFESQSISLDFAGYVDIRIDIGAALKKLSERDQQIISLRFFVDCTLQEISKIVGMRESAVKNRLYRSLAKLKKELREWGDITIMSILDLISIESKSEANHHQSKVHQDLFQELKNNVEQMAAKYNHQPSRKIVIEIYPDLPTFHQAVGESDAPNWFMGTFDNNTLKIVSPLNPGPEHTYHSILRSTLHLYAMWLISDINPLAPRWIRQGIGGYEAQQMSEDFIRSTTTEAILNGVIPSFEDLNDDSWDFGKTGFQFSYLIVAFMIEKYGFDSLNRFIRNPDDYYGIFHLSKEDLHEQWAKNLQHQLH	PGPT0014960_644	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_02592	402			hypothetical protein	ATGCCTTCGAAACGCGTAAGGAAGTCCAGATCCGCTTCCATACCGAGACCGCCGCAGCATTGGGTAGGTCAGCCGGTCGTGGTCGTTCTGAAGGACGGCAGCTATTACGTCGGCGAACTGAATCAGATCCAAGGCGGGGAAGTGACGCTATCAGGGCTCCGGGCCAACAATAAGATGCCGGCTGCGATTGCCCGAAGCGGAGACAAAGCGCAAATATCCGGATTTTTAAGCGACCTCTTTGGCGGTCCTCCAAGCGCTGCGTCAGCCGAAGGAGCCGAGGAGGGAGTGGCGGCTGCACCTGCAGGCCCTCTCGGCTTCCTGGGACAGATCGTGCCTCATATTAAACTGGGCATGAACGTGATAAAAGCCATCATGCCATTAATGGGAGTGTTGAAAATCTAA	MPSKRVRKSRSASIPRPPQHWVGQPVVVVLKDGSYYVGELNQIQGGEVTLSGLRANNKMPAAIARSGDKAQISGFLSDLFGGPPSAASAEGAEEGVAAAPAGPLGFLGQIVPHIKLGMNVIKAIMPLMGVLKI				NA	NA	NA	NA	NA
AK002_02593	912	aacA-aphD_2		Bifunctional AAC/APH	ATGGGACAAAATCCATGGGATGCCGAATGGGAAGTGACGGAGCCGTTAGTCCGGCTCTTGCTTAAACGTCAATTTCCCCAGTTGTCCTCCCTCCCGATCCATGAGATCGGCAGCGGCTGGGACAATACCGTCTATCGCATCGGCGAAGAGTATGTATTTCGTTTTCCCAGAAGAGCATTTGCCATCCCTTTACTTCAAACCGAAGCCAAAATCCTGCCCAAGCTGGCGAATTACATAACGTTACCCTATGCGAAGCCCCTCTTCTTCGGAAAAGAGAACGTAGACTATCCCGCGCCTTTTCTGGGGTATACCTACCTTTCCGGAACGTTTCCAGTGGGTCTTTCAGATGAAGCGCGGATGCAGTCGGCGGCAGCGCTCGCGCGCTTTCTGAAGAACCTGCATGCCTTTCCCGTGGAAATGGCGCAGCAAGAAGGTGTCGCCGTGGACCATCGTAATCTGACCGATCTCGCCGGACGCAGGGATAAAATGCTGGACTTCCTATCCCAGCTAACCCCCCATTTCACGCAAGCAGAAATGAAGGAGATCGCCGACTATTTGCACGGCATTTCCTTGGATCGGGTCAAGCAGCGACATATTCTTATTCACGGAGATCTCCATTTCAAAAACATGCTGGTGGACGAAACAGGCAAGCTTTCCGGCATCATCGATTGGGGCGACGTGAGCATCGGACATCCCGCCTGCGACCTGAGCATTGCTTACAGCTTCTTGCCTCCGGCTTCAAGGGAGGGATTTTTTGAAGCCTATGGCAGCGTGGACGAAGAAACGAAAGTGCTGGCTCGTTTAATCGCCGTTTATATCCCCATGCTCATCTTCATGCAGGCTATCGACGATAAGGATGAAGCCGTTGCACGGGAGGCCAAATCAATTATGAAGCGTGCCATCTCGATTTGA	MGQNPWDAEWEVTEPLVRLLLKRQFPQLSSLPIHEIGSGWDNTVYRIGEEYVFRFPRRAFAIPLLQTEAKILPKLANYITLPYAKPLFFGKENVDYPAPFLGYTYLSGTFPVGLSDEARMQSAAALARFLKNLHAFPVEMAQQEGVAVDHRNLTDLAGRRDKMLDFLSQLTPHFTQAEMKEIADYLHGISLDRVKQRHILIHGDLHFKNMLVDETGKLSGIIDWGDVSIGHPACDLSIAYSFLPPASREGFFEAYGSVDEETKVLARLIAVYIPMLIFMQAIDDKDEAVAREAKSIMKRAISI				NA	NA	NA	NA	NA
AK002_02594	315			hypothetical protein	GTGCCATATTTACGTTTTAAAGGATTTTCAGAAGTTTTCCTCGAAGAAATAACGCCAACCGTGGTTGAAACATTCGCCGGTATTGTTCAAATTCCGAAAGAAATCGTGAAAATCGAACAGCTTCCATATCGGATCATTACAAATACGCCGTTATCCGTCGAAATCCTAATGTTCCAGCGTGCTCAGGAGACCCATGATGCGGTTGCGGCCAGCATTCACGAGATCCTGTCGGAACACGGGTACCGGAATGTACATATATTCTTCGTGATCCTCAATCGGAATCTCTATTATAAAGAAGGCAGGCCTTTAGAATAA	MPYLRFKGFSEVFLEEITPTVVETFAGIVQIPKEIVKIEQLPYRIITNTPLSVEILMFQRAQETHDAVAASIHEILSEHGYRNVHIFFVILNRNLYYKEGRPLE				NA	NA	NA	NA	NA
AK002_02595	945	thiK_1		Thiamine kinase	ATGGACCGACTACAGGGCATTTTGAAGGAATATTACGGTTTGGGTCATCCAGTTATTGTAACCCAGCAGGGCGGTTGGGCTGCGCTTGCTTACAAAGTGAGTAACGGCGCACAGGACTATTTCCTGAAAGTTTATGAGAAAAGCCGGGCCTCCACGCCCAAATGGACTGCGCTGATTGACGATTATGTTCCGATCCTGCTGTGGCTTGAGGAGCATAGCCGTTTAAAGGGCAGCATTCCGGTGCCGATGCTGACGACAGACCAACGTTATCGATGCGAGGATAACGAAGGCATTTATTTGGTGTATGAATATATCGACGGGGACACGATCGCAGACCGCAAGCTGACGGAGAATCAAGTGAGACAACTGGCAGAGATCATCGCTGAGCTCCATCGTTACGGGGCGGATTTTCCGCTGGTGACAAGTGCCATGACGGAAAGCTTTTCGGTGCCTTTTCTTGGTCAGCTAAGGGAGGCGCTGGATACGAAGAAGCCGGTTGACATCGGGGAAGTCGTGAATCCCCATATCGACAGCTTGAAGGGTTTGATGCTTGAAGTGGAAGCGCTGTCCGAAGAGCTGAAGAAACGCGATCTTCGCCTGGCGCTGTGCCACACCGACGTGCATGCCTGGAATCTGATGTCGGATGGTCAGCAATTGATATTGATTGACTGGGAGGGGCTGAAGCTGGCGCCGGTCGAAGCGGATATGATGTTTTTTGTCGCTGAACCCTATTTCGAATCATTTATGAGGATTTATAAAGAAACGCATAGCGATTACGTGATGAACAGCGAGGCGTTGACGTTTTATCAAGGCAGACGTAAATTGGAGGATATCTGGGAGTTCATCGAGCAGCTGCTATATGATGTCCAGAATGACGAAGAACGTGCGTCCACGCTTCACAGCCTAAAGAAAGAGCTTAAAGAGATCACGATGTCTAAATCCTAA	MDRLQGILKEYYGLGHPVIVTQQGGWAALAYKVSNGAQDYFLKVYEKSRASTPKWTALIDDYVPILLWLEEHSRLKGSIPVPMLTTDQRYRCEDNEGIYLVYEYIDGDTIADRKLTENQVRQLAEIIAELHRYGADFPLVTSAMTESFSVPFLGQLREALDTKKPVDIGEVVNPHIDSLKGLMLEVEALSEELKKRDLRLALCHTDVHAWNLMSDGQQLILIDWEGLKLAPVEADMMFFVAEPYFESFMRIYKETHSDYVMNSEALTFYQGRRKLEDIWEFIEQLLYDVQNDEERASTLHSLKKELKEITMSKS	PGPT0028765_109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028765-aph|spcN-K18844	NA	NA
AK002_02596	951	mraY_2	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGAATGGAATTCTGGGTGTATCCGGACTATCGTTCTTGCTGGTGACGCTGTTTACGCCGTTGCTCATCTGGGGTTTGCGCACCTTAAAGCTAACGCAGCCGATCCGGACCGAGCTGCCTCCTGATCATCAGGCCAAACGCGGGACGCCGTTGATGGCGGGCCTTATTTTGTTGATTGGCATTGGAATGTCGCTGCAGTTTCAACCTACGCCGCTGACCGTTTTTTTATGCTCCACCTTTCTTCTGTTCAGCTCAATCGGATTTATGGATGACTTCAAAAAAGCGGCGTGGCAGGACCCGTCCGGAATTTCCGGCCGAACGAAGCTTGTGCTTCAGTTCTTGTTCACTGGGGCATTATTGTATGTCCTGTTCCAGTCCTTCTCACTGACAAGTGATATCGCGCTTTTTAACGGGTTCCAGCTTCACCTGCCGATCAGCGTCTACATTATCATCATGCTGCTGTTCATCGTAGGCTCGGCGAATGCCATCAACTTTACCGATGGTTTGGACGGACTGTTGATCAATGTGGCCATTCCGACTTACTTTTTCTTCTTCCTGATCTCCGATAAACCGGAGGTTCAGATGTTCTCGCTGGTCATGATCGGCTGTCTGCTGGGCTTACTGCTCTACAACATTCATCCGGCCCGGGCTTTTATGGGCGATACGGGATCCCTCGCTATCGGCGGTTCCCTTTCATTCCTTGCGGTGATCGAGAAGGTCGAAATTCTGATTCCCCTGCTGTTCCTGATCTATTTGGCGGAGCAGCTTTCGGTTATCCTGCAGGTATGGTATTACAAACGGACCAAGCTGCGCCTGTTCCGGATGGCGCCGATCCATTTCCACTTCAGTCTCAAGTACGGCTGGAGCGAGAACAAAATCGTGATGATATTCGGTTTTGTCTCCTGGTTTATGGCTCTGCTCTGTTCGGTGCTGGCAAAATACGTCATGTGA	MNGILGVSGLSFLLVTLFTPLLIWGLRTLKLTQPIRTELPPDHQAKRGTPLMAGLILLIGIGMSLQFQPTPLTVFLCSTFLLFSSIGFMDDFKKAAWQDPSGISGRTKLVLQFLFTGALLYVLFQSFSLTSDIALFNGFQLHLPISVYIIIMLLFIVGSANAINFTDGLDGLLINVAIPTYFFFFLISDKPEVQMFSLVMIGCLLGLLLYNIHPARAFMGDTGSLAIGGSLSFLAVIEKVEILIPLLFLIYLAEQLSVILQVWYYKRTKLRLFRMAPIHFHFSLKYGWSENKIVMIFGFVSWFMALLCSVLAKYVM	PGPT0024105_4404	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
AK002_02597	636	xerC_2		Tyrosine recombinase XerC	ATGAGAGGGTGGAAATGTGAGATAAAAGCTTATTGTAGTCAAGTCCATCGATTTCACACTTTTGTACAACAGCAAAATTATGGGATGGGTCACGAGAACATGATTCAGAGTTATTCCTTGTACTTACTTCATAGGAAATGTTCTCATTCCTATGTTAAGCAAGCGCTCAGCGCGATCAAATTCTATGCTCAAAAAGTACTATTGCATGAGGAAACAGTCTCTTATGTTCGCCCTAAGAAAGAAAAGAAGTTGCCGAATGTGTTATCGATGAACGAAGTGATGTTGATCTTAAAAGCACTCCATAATGTAAAACATCGTGCGATCCTATACCTTACCTATTCCTCAGGATTACGGGTAGGTGAAGTGGTCCGGTTGAAAACTCAAGACATTGACTTCGAGCGAAAAACACTTCGAGTTTCTCAAGGAAAAAGGTCGAAAGGATCGTCTTACGCTATTATCCGACACAGCTATGGATATGGTTCAACCGTATTTACAACAAGAAAAGCCCGAGAAATGGATGTTCCCAGGTCAACACCCAGATCGCCATATAACGGAACGAACGGTTCAAAGAGTGTTCGAAGAATCAAAAGTCCGTTAGATCAATTGGAAGAGGAGATTCCGGGAGAGAAATCATAA	MRGWKCEIKAYCSQVHRFHTFVQQQNYGMGHENMIQSYSLYLLHRKCSHSYVKQALSAIKFYAQKVLLHEETVSYVRPKKEKKLPNVLSMNEVMLILKALHNVKHRAILYLTYSSGLRVGEVVRLKTQDIDFERKTLRVSQGKRSKGSSYAIIRHSYGYGSTVFTTRKAREMDVPRSTPRSPYNGTNGSKSVRRIKSPLDQLEEEIPGEKS	PGPT0022000_946	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK002_02598	537			hypothetical protein	GTGATTAACAATCTTGAAATATATGATTTTCTTTATCAAGCAGATGTTTCCGCTCCATTAGCAGTAATGATGTGTGGAGTGGCTGGATCGGGAAAAACAACATTTGCTCAACGATTAGAGCAGAGGGGCTTTGTACGTCTCTCCATTGATGAAGAAATTTGGGCTACAAATGGTCGTTACGGAATTGATTATCCAGTTGAAATCTATGAGCAACTAAAAGTTGAAGCCGAATTAAAGCTGCGTAATGAATTAGTAAATCTTTTGAATGAAAAGCGCAATGTGGTTATTGATTTCAGTTTTTGGCAGCGGAAGAGACGGAATGAATATAAAAAGCTAATTGAAGATGGAGGAGGAGAGTGGAAACTGATTTATTTGAAAGTTCATCCTAATGATTTACGGGAACGACTTCGCATTCGGAGCCAGCGATTCGACGCTAATGCTGCGTTTACAATAACAGAAGAAATATTATCTTCATTCCTCAAGGGTTTTGAAGTGCCTTCTGGAGAAGGGGAAATTATCATAGTAGCTAAAGAATAA	MINNLEIYDFLYQADVSAPLAVMMCGVAGSGKTTFAQRLEQRGFVRLSIDEEIWATNGRYGIDYPVEIYEQLKVEAELKLRNELVNLLNEKRNVVIDFSFWQRKRRNEYKKLIEDGGGEWKLIYLKVHPNDLRERLRIRSQRFDANAAFTITEEILSSFLKGFEVPSGEGEIIIVAKE				NA	NA	NA	NA	NA
AK002_02599	144			hypothetical protein	ATGAAGGCGCGGACATCCAATAACATTATATTCACGCATTGGAGCCTGGCGGCTCCTTGGTCCGCAAGAAGAGATTGGCATGGGAGAGGAATCAGCGGACACATCCGCACCGTTAAGGCTGCTGGCGCAGCCTTAAGTCGGTGA	MKARTSNNIIFTHWSLAAPWSARRDWHGRGISGHIRTVKAAGAALSR				NA	NA	NA	NA	NA
AK002_02600	492			hypothetical protein	ATGGGAATCAAACTCAACCCAGTTACTTATAAAGAGAAGAATACATTATCTAATTTGTATCAATTTTATGAGTATGATTTTAGTCTATATACTAATCGAGAAATTAATAAAAATGGAAGATTTGAAGTAAACATTGATTATTTTTGGGAAGGCGACAACCGATGGAATCCCTATTTCATTGAGATGTCAGGAACAATAGTAGGATTCTTAGTTGTATTGTTTGAGAATTTAGATATCGATCCAGATCCGACACACGTAATCTACGATTTCATGATTTTACAAAAGTACAGAAGGAATGGAATTGGCTATTCGGCTGCTAGAAAGGCATTTGAATTATTCAATGCCAATTGGAAAATTGCACAAATGGAAAACAATACACCAGCAATATCTTTTTGGAGAAAAGTAATAAGTGAATTTACAAATAATAATTATACAGAGAGATTTTGGGCAGAACGAAAGAAATATATTCAAGAGTTCAGTACAAAGAATTAG	MGIKLNPVTYKEKNTLSNLYQFYEYDFSLYTNREINKNGRFEVNIDYFWEGDNRWNPYFIEMSGTIVGFLVVLFENLDIDPDPTHVIYDFMILQKYRRNGIGYSAARKAFELFNANWKIAQMENNTPAISFWRKVISEFTNNNYTERFWAERKKYIQEFSTKN				NA	NA	NA	NA	NA
AK002_02601	678			hypothetical protein	ATGAACAACTCGTTTGAAATTCATACCGAAAATTTAAACAGAAATTTAGAATCAGTTGAGAGATATATGGGAAGATTCAAAGAAAGCATTAAGGGAGACTTAGATGAAGCCTTTGATTCCACTTTTGAAAGCATTAATAATGTATTACCTTTTAAGGATTTGATTTCAAAAGCGTTAAACAAGATTAATCCTCAAGAGCAAAGTAATTACGGTTATTCAGATCAGAAAGAAATTGAGATAACTATAGAAATGAACTCCAACCCTTTATTTGTTACAGATCTACAAAATGAGCTGAGTAAAGCTAATGAATTAATTAAGTTATCCAGCGAAAATGCTTATGCTGAGACAAGAATACATATATACTCGTTGTTCACTTATATCATTGTGATTTTTGAAGATTACCTAAAAAAGGTTTTAAATAAAGAGGAAACCCTCAATGATTTACTGGCAATTGTAAATGATACTTTCAAGTCTAACAATATAAACGCGAACAATTGGTACAGAAACATTAAACGCTTTCAAAGAATCAGGAATCTAATAGTTCATAAAAATGGTGAAAGGAATCCAGGACAATATTTATTATTGACTGTTAATGACGATTTGATCCCATTAATAAGGACCATTAATGAATTTGTAGAAAAATATCGTGCTCTGTTGAAGAGAGTAAATAACAACTAG	MNNSFEIHTENLNRNLESVERYMGRFKESIKGDLDEAFDSTFESINNVLPFKDLISKALNKINPQEQSNYGYSDQKEIEITIEMNSNPLFVTDLQNELSKANELIKLSSENAYAETRIHIYSLFTYIIVIFEDYLKKVLNKEETLNDLLAIVNDTFKSNNINANNWYRNIKRFQRIRNLIVHKNGERNPGQYLLLTVNDDLIPLIRTINEFVEKYRALLKRVNNN				NA	NA	NA	NA	NA
AK002_02602	354	rppH_1		RNA pyrophosphohydrolase	ATGATATCCCAAGCTTTAATAACTAGAAATAATGAAGTGCTTATGGTAAGACAATATGTTCAACGTGGGGATATTGTTTGGAACTATCCAGGTGGTGGAATAGAGGAAGGGGAAACACCTGAAGAGGCTTGTATAAGAGAAGTAAAAGAAGAAACCGGATTTGAAGTAGAGATCATAAAACTACTAAACTACAATAATGACAAATACACATTTAAAGCCGAGATTATTGGAGGAGCACTAGGATTAGATAAATCAAATAAAGATAATGACGATATTATAGAGATAGCTTGGATTAAGATAGAAGATGAAGAAAAATTTGATACATATACAAGACCTATAATAGACCAATTGTAA	MISQALITRNNEVLMVRQYVQRGDIVWNYPGGGIEEGETPEEACIREVKEETGFEVEIIKLLNYNNDKYTFKAEIIGGALGLDKSNKDNDDIIEIAWIKIEDEEKFDTYTRPIIDQL				NA	NA	NA	NA	NA
AK002_02603	498			hypothetical protein	ATGAAGTTTACTAAATTAATCGAAGATTTAGAAATAATTATTGAATATAAAATCAGAGATGCTATAGGGAAAACAATTAGTGAATTAAAAAGAAGGAATATGCTGACAGCAGCATTTGCAAGCGATGATATTATTACTTCTGGATTCATAGAACTAAACAATCAGATTATTAGTAATATTGAGGAATTTAGTAAGTTAAAACTGCTTAAAAAGGCAGAAATCATAGTACTAAAAAATCAAATAAATATAATAATTGAAAATCAAAGTATATTGTTATTCGATGAAGCGACGAAACTTACAAGCTATGAACCAACTTCCTTGAAATTAGAACATTTTAAAAAAGAATCAAAGAGGATTATGAATCTCCAGATTGAACGTTTACTAAGAGAGAAAAAGCAAAAAACAATTAGTTTTTGGTGGGATCTTTCGAAAATAGCACTTACAGCTATCGTTGCTGGATTTATTGGAGGATATATAAAAGACATTTTTTTTAAGTAA	MKFTKLIEDLEIIIEYKIRDAIGKTISELKRRNMLTAAFASDDIITSGFIELNNQIISNIEEFSKLKLLKKAEIIVLKNQINIIIENQSILLFDEATKLTSYEPTSLKLEHFKKESKRIMNLQIERLLREKKQKTISFWWDLSKIALTAIVAGFIGGYIKDIFFK				NA	NA	NA	NA	NA
AK002_02605	846			hypothetical protein	TTGAGTCAAAAAAAAAGTAAGGCATTCTCAAAATTCAAAGAGTTGATTGGACAAAATAATCATTATTTAATAACTATATTGATTGGACTTGATGGTGTAAAAAACAAGTCAGTTACTAAAAATGAAGATTTTCATACAACTTGGGATCCCAAGGATTTAGACTCCACAGTCATTAGAAGTAGACATTTTGCTATTAAAGCCACAATGACGTGGATTGTAGATTGTATAGATACGTATTTTGCTTTATGCAATCGGAAGCCTAATTTATTGCAAGATGAAACATTTATTTCGCAATATTCCAGTGCAGATAAGAGTGTCTATAAAAAGCTTTATGTTTTCGTGAATACTTTACACTTAACCGACCCAGAGGTTTATCTATTAGATTTAGTCATTACCTGGAGAAATAGACTTGTACATTTTTTGGCAAGAACACCTATAAGCGATGACTTAAAAAATAATTTGATACAAAATAGTCAGTATTTTATTGATAATTATCAAGGATTAGATATTACTCGAACTTTAGAGAATTTTAATATTAATGAAGTACCGAAATTTAAAGAGATCACTGCTTTCATTAGAGCTGCAATTAAGCTTGTTGAGAAGATAGATCAACAATTATTAAGAAAGTTAGATAAAGAAACATTTTATAAAGATGTTCTATCTGCATATCTCAGTGATAATTTCTATCAAAAGCTAGATAATATCTGGTCTAAAGATCAAGGCTCTAGAGAAAGAACACTAATAAATATTTTTAAACAAAATGGTATTGTTTTTGATGCCAATAATTCAGAAATAATTAAATATTCTAATATGACGTATAATGATGCGAAAAAATTCTTTTCATAA	MSQKKSKAFSKFKELIGQNNHYLITILIGLDGVKNKSVTKNEDFHTTWDPKDLDSTVIRSRHFAIKATMTWIVDCIDTYFALCNRKPNLLQDETFISQYSSADKSVYKKLYVFVNTLHLTDPEVYLLDLVITWRNRLVHFLARTPISDDLKNNLIQNSQYFIDNYQGLDITRTLENFNINEVPKFKEITAFIRAAIKLVEKIDQQLLRKLDKETFYKDVLSAYLSDNFYQKLDNIWSKDQGSRERTLINIFKQNGIVFDANNSEIIKYSNMTYNDAKKFFS				NA	NA	NA	NA	NA
AK002_02606	639			hypothetical protein	ATGAAGACAAGACTGATAGTAATTGACGGAATGCCTGGGTCAGGCAAGTCAACGACCGGAAGCTTTATAAGTGAAAGACTAAATGAGTTAAATATCTCGAATAGGTTTTATCACGAGCTAGATGATAACCATCCATTACGAATATACGACAAGCAATTTACTTCTTTTAATATTTTCGAAGAAGCAGAATGGTTTACAGCAAAAGTTGAGCAGCTTTTTAATGATTTTGTTAATGAAAGATTAGATAGAGATGAAATCACGATTATTGAGAGTTATGTATTTCAGGATACTATTGGTTTTGCCTTCAATATGCAAATGGATAAACAAAGAATACTGGATCTGACAAAGAAAATACAAGCTATTTTAAGCCGACTAGATCCTGTCCTCATCTTTTATTATCAAGTTAATGTAGAACAAAATTGGAGATGGATTTGTAATATACGAGGACCAGAATTTACTCAAGATCGATGTGGACTTTACTCAGAGAATGATTTTATTGAGGCAGGGAAGTTTTGGACAAGAAATCAAGATTTTGTCTTTAATATTGTTCAGGAATGGGACATTCCAAAGTTAATAATAAAAAATGTAGATTACAATTGGGAAGAATATAGAAACAGAATAATTGATTTTTTGGAGTAA	MKTRLIVIDGMPGSGKSTTGSFISERLNELNISNRFYHELDDNHPLRIYDKQFTSFNIFEEAEWFTAKVEQLFNDFVNERLDRDEITIIESYVFQDTIGFAFNMQMDKQRILDLTKKIQAILSRLDPVLIFYYQVNVEQNWRWICNIRGPEFTQDRCGLYSENDFIEAGKFWTRNQDFVFNIVQEWDIPKLIIKNVDYNWEEYRNRIIDFLE				NA	NA	NA	NA	NA
AK002_02608	492			hypothetical protein	TTGTCAGAAAATAATATTAATGATCGGATTACGGATTGGTTAAATTCTCAAGGATATCCATTGGAGATGAGTGTAGCAGAAGTTTTACAGAACTTGAATTTTAATGTACGCCAGTCTGAATACTATATTGATGAAGAGTCAGCTCAACACAGGGAAATTGATATAGTTGCAAGTCTTCAAAAAGAAGTAGGAGACAAGCTTATTAGAATAAGTTTAATACTTGAGTGCAAGGTCTCGAAAGATAAACCATGGATAATATTCACCTCGAAGAATACTAGAATAGCTACGCCTGGTAGAGTTGCTCAAAGAGCAGGATCAAAGTTTGGTAATATTATTTTGAGAAACTTAGCACATAAGAAAGAAATTCAAGATCTAAATCTATTCAGTTTGCCGGAACGTCCTGGTTACGGGCTGACACAAGCCTTTACAAGTGGTAACGATGTTGCATATAACTCATTTATATATCAGTTTCGAAAGCAACTAGAGCAATAG	MSENNINDRITDWLNSQGYPLEMSVAEVLQNLNFNVRQSEYYIDEESAQHREIDIVASLQKEVGDKLIRISLILECKVSKDKPWIIFTSKNTRIATPGRVAQRAGSKFGNIILRNLAHKKEIQDLNLFSLPERPGYGLTQAFTSGNDVAYNSFIYQFRKQLEQ				NA	NA	NA	NA	NA
AK002_02609	816			hypothetical protein	TTGTTTAGCACTCGAGAGATAGCAACATTAATTTGGGGAGGAATTATTTTATTATGGTTACTTCCAAAGAAAGATATTAGAGATTCAATTGGCGCTGTAGTTATCGCTTTTTTCAAACTATTTAGTCATCTAATAATTTTGTTTACACTCTCATATGTTGTGATCATCTTTATTTTTATTTATATATTTGGCCTTCTTGAGACAGATCTAATTAAAGACTATATTATCTGGATATGCTTCGCACTTTGTCCATTGATATGGAAAGTTACAACTATCAATAATTTCGATATATTAAATTTAATACGAGAATCCTTTAAATTTAGTATCATTCCGATTTTTCTTATCAATGAGTACACTCTAGCTTTGTGGGCAGAGTTGATTATACTGCCAGCAACTGTTTTGATAACTTTACTTATTGTATTCATAGAAAACGACCCGAGTGTAAAGATACTTAAAAAGCCATTAAATATAATATTAAGTATAATCGGAGGAGTAATTTTCTTCATGGCTTTAAGAGGGTTTATATTAAACATTGATGACATTTCAAAGTATACATTTTGGGAAAAGTTATTTCTCAATATTGTAGGTATTCTTCTACATCTACCACTTTTAGTATGTCTCAAGAGGCTTATTATTTATGACCAAATTATTAATAGAACAGCTATTAAAACAAAGAGAAAAAAGATTATTGCATTTATGATCATTTTTATACACCTATCTCTAAAAATCGAAAAATTAAATTCATTGAGGAAAAAGAATTTGAGGGATATAAGTACTTATTCTCAGTTAGCGAATGTGACAAAAGCAGAAAAGTAG	MFSTREIATLIWGGIILLWLLPKKDIRDSIGAVVIAFFKLFSHLIILFTLSYVVIIFIFIYIFGLLETDLIKDYIIWICFALCPLIWKVTTINNFDILNLIRESFKFSIIPIFLINEYTLALWAELIILPATVLITLLIVFIENDPSVKILKKPLNIILSIIGGVIFFMALRGFILNIDDISKYTFWEKLFLNIVGILLHLPLLVCLKRLIIYDQIINRTAIKTKRKKIIAFMIIFIHLSLKIEKLNSLRKKNLRDISTYSQLANVTKAEK				NA	NA	NA	NA	NA
AK002_02610	1155			hypothetical protein	ATGAAAAGAATAGAAACTGCATTAATGCAGAGAAAAATAAGCTCACAACTTGCTAAACAGTTGGTTGGTCGGGGTTATACATTAGGAAAACTAAAACAATTAAGTGAAGATGAATTATTATCTCTAGGGATGACGTCCGAGTCAATATCAATGATACATAACGAGAGTAGGCCACCAATTCCTGAGGGCACCCTTAGGAAACTGTTATATGAATCAAACTATGTATGTTGTATTTGTAAAGATAGAAATGCACCTATAATTATCCACCATATTATTCCGTGGGAGCAATCAAGGTCTCATAATATCGATAATTTAGTTGTTTTATGTTTACTTCACCACGGTGAAGCACACACCAAACATGATCTTAGCATTAACTTAACGGCAGAACGAATAATTGATGCAAAACGAAGATGGCTAGAGGCTGTAAAAGAAAAAAATATAGTGAATGTACAAAAGATAAATAAAACTGAATACTCCTTTTATGACTTTTTTAACGTTAATAGAATATTTGAGCTGGTAGATAGTCTTAATATCGATCCAGATTCATGTAAATATTTCCATAGTGCATTAGAATACGGTTTTATTAATAATTTAGGTTTAATAAGACCGCTTAATAGTTGGTCGGAGAAAAAAATAGATGATAAAACATACTGGATAGATTTCTTTGAAGGTACTTATCTATATCATTACTTGAAGGAACTATTCACAAACATAATTAATAAACAGCACTTTATTTATATAAATGAGATTTGGAATAAATCTGATATCTCCTCAATTATTGCCCCTGGAAGTTTTGTTTTAGTACAAGGATTATTTAGTTTTAAAAGGCAAACTAGAAATAGCACAGGTAATCGACAGATAAAGAGTGTTTACCGTAAGGCAAGGGGGATTAAAATCGAATTTGAAATTGACGCTTTCTACTGCAATAGTGATAGCTCGAGAAGCCACTTATCTGGGAGGAGTGTAAAGACAGTTTATTGTATTGTTAGATCTATAAGTACTATTGAGGAAAATCTTATTATCTCATGTACGGCGCTTGCAATAGGGACCAATTTTGCTAGATTAGATGACCCGGATTATCCATTTCCTACAGTTGCTTATGAGGATGAATTCGAGGAAGAGTTTGAAGATATTAATAATGATGATGCAATTTGA	MKRIETALMQRKISSQLAKQLVGRGYTLGKLKQLSEDELLSLGMTSESISMIHNESRPPIPEGTLRKLLYESNYVCCICKDRNAPIIIHHIIPWEQSRSHNIDNLVVLCLLHHGEAHTKHDLSINLTAERIIDAKRRWLEAVKEKNIVNVQKINKTEYSFYDFFNVNRIFELVDSLNIDPDSCKYFHSALEYGFINNLGLIRPLNSWSEKKIDDKTYWIDFFEGTYLYHYLKELFTNIINKQHFIYINEIWNKSDISSIIAPGSFVLVQGLFSFKRQTRNSTGNRQIKSVYRKARGIKIEFEIDAFYCNSDSSRSHLSGRSVKTVYCIVRSISTIEENLIISCTALAIGTNFARLDDPDYPFPTVAYEDEFEEEFEDINNDDAI				NA	NA	NA	NA	NA
AK002_02611	417			hypothetical protein	ATGATTAACCTAATGGACTATAAAGATCGAAAGGAAATATTAAATTTGCTAGCTGAATGTATGTATCCAGATAATAAACGAGTAATTCAAGAATATGAACGATATAAGAATGATAAATCAAGAATATTACTGGGAAGAATTGAAAATCATGAATTAGTCGGACTTATCGGAATTATTTATCAAACAGATTATGAAATTGAACTAAAACATATAGCAATAAAATCTAACAATAGAAGAAAAGGATTAGGAAAGAAATTAATAATGGAATTTATTGAAGAGAATCTTATAAGAAGAATGGAAGCCGAAACCGATAAGAATGCAGTGAACTTTTACAGAAAGATCGGTTTTAACATTACAAGTTTAGGAGAGAAGTATCCTGGAGTAGAACGTTTTAAATGCACATTGAATAAGGATTGA	MINLMDYKDRKEILNLLAECMYPDNKRVIQEYERYKNDKSRILLGRIENHELVGLIGIIYQTDYEIELKHIAIKSNNRRKGLGKKLIMEFIEENLIRRMEAETDKNAVNFYRKIGFNITSLGEKYPGVERFKCTLNKD				NA	NA	NA	NA	NA
AK002_02612	552			hypothetical protein	ATGACAGGAAGATTAATAAAAATATTTGAGAAGGCAAATAGAAATTTTCTTCAAAGCGATATTGAATTATTAGATTCAAAAGTATCTGAGCGGACACTTTGTGGCGCTCTAATGATTCATTTACATGAGATGATTAAGAAATCAGAGTTTGCAGAGTACAAAGTTGACGTAGAATATAATCGTAATAGAAACGGAAAGGTTAAAACTCATGTAAAAACAATTCATGGACCTAATGATATTGTTGTAAAGATAAACTGTGACTTAATTGTTCATAGTAGAGGGAATAACATAAATCAAGATAATCTAATTGCAATTGAAATGAAAAAATCAAATAGGAAACAAGAAGAGAAAGATAATGATAGATCACGATTAATTGCTTTGACGAAAGATAGCTATGATGATATTTGGTCTTTTGATGGTAAAACTCTACCAGAACATGTTTGTAGATATGTTTTAGGAGTCTATTATGAAGTCAATTACAAAGAAAGAGTCATACTAATTGAATACTATAAAACGGGATATAAATTTGAAGAACACGAAATCAAGTTTTAA	MTGRLIKIFEKANRNFLQSDIELLDSKVSERTLCGALMIHLHEMIKKSEFAEYKVDVEYNRNRNGKVKTHVKTIHGPNDIVVKINCDLIVHSRGNNINQDNLIAIEMKKSNRKQEEKDNDRSRLIALTKDSYDDIWSFDGKTLPEHVCRYVLGVYYEVNYKERVILIEYYKTGYKFEEHEIKF				NA	NA	NA	NA	NA
AK002_02613	768			hypothetical protein	ATGATATTAGAAAAAGTTATAAATAGAATTGCAATACAAAGTGAATATAAGGATTTTATTGATAAGTATATAAATCATATACTTACCGAATTTAAAGGTAAGATTCATAGCATTTATATGTGTGGCTCGATTCCAAAAGGAACTGCTAAACCTTTTAAGTCAGATGCAGACTTTACTATTGTATGTGTAAATCCCAAAGATATTGATTACGAAAGATTGTCAAATATTAAAGACAGGCTTTTGGAAGAATATCCAATAGTAACTAAGATTGATACGATAATTTGCTCGATTGACGATGTATTAAGTAAACCGAATGAGTGGGGTTTTTGGGTTAAGATCATTTGTGTTTGCATGTATGGTCATGACATTGGTGAAAAAGTACCACCGATCATTATTTCTCCAGAGTTCATTCTAGACTTAAATACAGAGACCAAGGAAGAAGTAGATCGTGTACGTCGTTCACTCTCTACTGCTAGCGATCACTCGATGAAAACTAGATATATTAAAGGGTATTCGAAGAGATTAATTCGTGCATTATACTCTTTGGTTTTAACAGATACAGGTGTATGGCAAGATGACATTATTGAGATGAAGAATGCCATAATAAACTATTGCGAGATTGACTCCGCTTTAGTTGAGAATCTGTATGCTTGTTACTTGGATAGTGATGTACTTGTTGAAGAGTTTCTGGGAATTGCAGATGAAGTATATAGCTATTTTGAGAACGCCTTAAATACAATGGCTGCTTCCAGAACTTCCCTCGGCTAA	MILEKVINRIAIQSEYKDFIDKYINHILTEFKGKIHSIYMCGSIPKGTAKPFKSDADFTIVCVNPKDIDYERLSNIKDRLLEEYPIVTKIDTIICSIDDVLSKPNEWGFWVKIICVCMYGHDIGEKVPPIIISPEFILDLNTETKEEVDRVRRSLSTASDHSMKTRYIKGYSKRLIRALYSLVLTDTGVWQDDIIEMKNAIINYCEIDSALVENLYACYLDSDVLVEEFLGIADEVYSYFENALNTMAASRTSLG				NA	NA	NA	NA	NA
AK002_02614	231			hypothetical protein	ATGAAAAGGTTCTCTGTTCAGAAGTCAGAATGGTCTGATAAACGTGAAGAAGACTATAAAAAAGAATGTTTTAATATAGTGTATGAATTTGGTCATAAATTGAATGTAGAGGATGACCGAGTATTTTTAATGATGAGTGAAATGAATATTGAAATATTGAAACCATTAAAGTTCGGTTCATTTTGGTATGAAACATGGCTAGAGATCAGAAAGATTTATAAAATAGATTAG	MKRFSVQKSEWSDKREEDYKKECFNIVYEFGHKLNVEDDRVFLMMSEMNIEILKPLKFGSFWYETWLEIRKIYKID				NA	NA	NA	NA	NA
AK002_02615	633			hypothetical protein	ATGAACATTAGGGGAATTATCCTTGAAGGGTTTTCAAACGCGGGTAAAACATCGCTTCTTAAAGCGATAAAACAATATCAAGCGATTGACGAATCAGCCGAGTTGAGCATCGTTATACTTGGTGAACATTATTCTCAGATTCTGAATAATGTTCATGGGGAGTTTGTTCGATTATCAAGAGATCAACATCTTGAACTATTAAGAGATAGAGTTGATATGCTAAAGAATTTAAATGATTGGGCGATTAATTTAGGACCATTTAAAAGAAAATCTAGAGGACTCTTTTTTGCATTAGAGAGGTTCCATTTAAATCATCGAGTCGCATTCTCGGATTCAGAAGATACAGAAATAACTAGTATTGAGAACGATTTAAATAAAATAGGAGCTAAATGTATCTTGTTAACTATATCTAATGATATTGTTGAAGAAAGAATAATGAGCAGAAATCCATATAACTGGATTAACAAATCAAGAGAAGATATTGATGCGGCGTGCAAAGAATTAATCGAAACCCAAAATAGACTCAGAATTCAATCGTCCAAATCAATGGTACCAACAATTGAAATAAACACTGATAATAAAGAATGGGATAAGTATGCAAGATTAATCATGGAAGAAAATGACTTCGCCTAA	MNIRGIILEGFSNAGKTSLLKAIKQYQAIDESAELSIVILGEHYSQILNNVHGEFVRLSRDQHLELLRDRVDMLKNLNDWAINLGPFKRKSRGLFFALERFHLNHRVAFSDSEDTEITSIENDLNKIGAKCILLTISNDIVEERIMSRNPYNWINKSREDIDAACKELIETQNRLRIQSSKSMVPTIEINTDNKEWDKYARLIMEENDFA				NA	NA	NA	NA	NA
AK002_02616	597		COG3896	Putative O-phosphotransferase	TTGAAGCAAGGACAGATTGTGTTCTTGAACGGAACTTCAAGTGCAGGAAAGACTAGTATTTCTATGGAACTGATCAATCAGAAAGAGATTCTTTTTCATCATTTATCCATAGATGATTTTTTTCATAATTTCAATGATCTTATTAATAACAAATTTCCAGATTTAAAACCAGTAAAAGAATTGGATGATGCAGTTATCGGACAAATAATGTTTGATCCTATAATCTCCATGTACTACGCCACAATTAAACTGTTTTTAGAATATGGTCTGAATGTAATCGTCGATACCGTAATCGAAAATGACAAGTGGTTTAATGATTATCTTGATGTACTTTTTGATTATCCTACATTATTCGTAGGTGTAATATGCTCGAAAGAAGAACTCACAAGAAGAGAGCAAATCAGAGGAGATCGAATGATTGGACTAGCAAATTCCCAGTTCGACAAAGTATATTGCTTTAATGAATATGACCTTGAAGTAAATACTGAAGAGTTGAATCCAACAGAATGTGCGGAAAAGATATTAAATTTTATTAAGTCCGATCAGAATTACTCGGCATTTAAGAAATTAAGTAAAAGAAATGTTAGTAGTTCATAA	MKQGQIVFLNGTSSAGKTSISMELINQKEILFHHLSIDDFFHNFNDLINNKFPDLKPVKELDDAVIGQIMFDPIISMYYATIKLFLEYGLNVIVDTVIENDKWFNDYLDVLFDYPTLFVGVICSKEELTRREQIRGDRMIGLANSQFDKVYCFNEYDLEVNTEELNPTECAEKILNFIKSDQNYSAFKKLSKRNVSSS	PGPT0028040_83	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0028040-cpt-K18554	NA	NA
AK002_02617	654			hypothetical protein	ATGAAAGGTAAGATACTCTTATTATTTTTTATTACGATAGTGTTTTCATCTTGTCAAAATATTAGTCAATCGACTACCTTGAACAGCGAAACAACATCAATAGTGAAATCTGAACTGCCACCTGATGTAGCGAGTACAGGTAATGGAACAGAAACGAAAGAAATAACTGAAGGTCGGGCAGATCCTTCTAACAATGAAATGTTAACCATGAGCATTGGGAACCTTGATTTGAAAGGAGAATTTTATGATGAAATGCTTCGAAATCCTATAGATCATGATTATGAGGTGGAATTTAATGAATTTCAAAATTCCAAAGAGATTATTACAACATTAGAATGGGGGGCGTTTGAAAGCCAATATACAGAGATTTGGGATAATGAGTTAAATCATATATATAAAAAGCTTCTTTCTAAGTTGGATAGAGAACCAAGAGAAGCACTAATCGAATCGCAGAAAGAATGGTTACAGTATCACTTAAGGGAAACAAAATTTGTAGAGAAGTCATTTATTAATAATGGTTACCTTGGATCACAAGGATCGGTAAGCCTAGGCAGGGTTATAAAGGAGAGAATTAGGGAAAGAACAATGCAATTATTTGAATATCAATATTTGCTAGATGGTGAAGTTGAGTTTTTATACCAAAGCAAAAAATAG	MKGKILLLFFITIVFSSCQNISQSTTLNSETTSIVKSELPPDVASTGNGTETKEITEGRADPSNNEMLTMSIGNLDLKGEFYDEMLRNPIDHDYEVEFNEFQNSKEIITTLEWGAFESQYTEIWDNELNHIYKKLLSKLDREPREALIESQKEWLQYHLRETKFVEKSFINNGYLGSQGSVSLGRVIKERIRERTMQLFEYQYLLDGEVEFLYQSKK				NA	NA	NA	NA	NA
AK002_02619	432			hypothetical protein	ATGATAATTCGTGAAGCTGAAACCAATGACGCCGAAGCTATTGAACGACTATATAAAGAGTTGCTTCCAAACAACACAAAAATAAAAGTGTTGGAAGATAGAATAGAAGTAATTAAACAAGATCCTAATAGTTTCTTGTTCATTTGCGAAGTAGACCAAGAGATCGTTGCAACTGCACATCTGCATCTATGTTTAGATGCGTTGATAGAGTCACGACCTTTCGGGGTTGTAGAACGTGTAATTGTATCTGGAAACAGACAAGGTCAAGGTTATGGATCGCTCATTATGAAGCATATTGAAGAGCTGTGTATTTCAAGGGGTTGTGTTAAGGTCTTTTTAACCAGCGGAGCTTCGAGGAAGCAAGCACACGAGTTCTATACAAAGTTAGGTTATGACGGTGATTCGAGTAAAGCCTTTAAGAAGTACTTATAA	MIIREAETNDAEAIERLYKELLPNNTKIKVLEDRIEVIKQDPNSFLFICEVDQEIVATAHLHLCLDALIESRPFGVVERVIVSGNRQGQGYGSLIMKHIEELCISRGCVKVFLTSGASRKQAHEFYTKLGYDGDSSKAFKKYL				NA	NA	NA	NA	NA
AK002_02620	594			hypothetical protein	ATGACGCAAATTGAAGATCATTTTCAGGAGTTCCCTGTTCTTGAAACTGAGCGAACAAGATTAAGAAAGATAAGTTACTCGGATCAGGATGATATGTATGGTTATTGTAGATTTCCTATGGTATCGAGATATACCGTTTGGGACACTCATCAGTCACTTGATGATACAAAAGCATTTATTGAATTTGTGTTAAACCGTTATGACACACAGAAAGTAGGACCTTGGGGGATTGAGCACAAACAAGCCAAGAAACTAATTGGTAGTTGTAGTTTTGTGAGTTGGGATAATCGAAATAAAAGAGCAGAGCTTGGTTATGTATTGTCAAATGAATATTGGAATCAAGGATACATGTCCGAGGTAATTAGAAGAATTTTAGAGTTTGGATTCAATGAATTAGGGTTAGTTCGAATTGAAGCAAGATGCCATCTGGATAATATCGGATCCGCCAGAGTAATGGAGAAGACTGGAATGCGATTTGAGGGGGTATTGAGAAGGCATATCTGGGCAAAGGGTGCATTTCAGGATGTAAAATTGTTTTCAATAATTAAAGACGATTATGCAAGTGAACTCGAAAAAGGTTTGGATAATAGATAA	MTQIEDHFQEFPVLETERTRLRKISYSDQDDMYGYCRFPMVSRYTVWDTHQSLDDTKAFIEFVLNRYDTQKVGPWGIEHKQAKKLIGSCSFVSWDNRNKRAELGYVLSNEYWNQGYMSEVIRRILEFGFNELGLVRIEARCHLDNIGSARVMEKTGMRFEGVLRRHIWAKGAFQDVKLFSIIKDDYASELEKGLDNR				NA	NA	NA	NA	NA
AK002_02621	375			hypothetical protein	ATGCCCAATGTGTCTGTCAGATACATTCATTGGAATGAATTAGAACAACTACTTTTGCTATATAAGCATTTAAATACAGATGATCCAGAACTGAATATATACGAAATACAAGATCATTGGCGAGAGATAATGAATGACAAGCTGATGAAGATTATTGTTGTAGAGCATGAGGGGAAGCTTGTCTCTTCATGCGTTTTAGTTCTTATTAGGAATCTAACTAGGGGCGCAAGACCATATGGCTTGATTGAGAATGTTGTTACACATTCTGATTATAGAAAAAACGGTTACGGGAAATTAGTACTTCAAAAAGCAGTCGAAATTGCTAGGGAGAATGAGTGTTACAAAGTGATGTTAATGACAAGTTCTAGAATGTAA	MPNVSVRYIHWNELEQLLLLYKHLNTDDPELNIYEIQDHWREIMNDKLMKIIVVEHEGKLVSSCVLVLIRNLTRGARPYGLIENVVTHSDYRKNGYGKLVLQKAVEIARENECYKVMLMTSSRM				NA	NA	NA	NA	NA
AK002_02622	1110			hypothetical protein	ATGAAATTATCAACGAACGAGCATTCGACACACGACATTCGACTTGCCCGCTATGCCGCCGTGTCTACTGCCTTAAGTCTGGTAAGTGATGAGCAGCTTAGCAAGCGAGTGGAGAAAGCTACGGTTCTAAATACGGGTATTGGCGGTACAACGGCTTTCTTACAAATTGATGATACACCCGTGTTCGTGAAAATGGTTCCGCTTACGGAACTAGAAAGCCACTCCGAAAATTATATGTCTACTCGAAACGTGTTCAATCTTCCTCCGTATTGCCACTATGGGGTAGGTTCACCAGGTGCTGGAGTGTGGCGTGAGGTCGCTGCCCATACAATGACCACCAACTGGGTTCTGGCGAGACAGTGTGAGAACTTTCCCCTAATGTATCACTGGCGGGTGTTAAAAAGCCCAGAACGGCGTAATCCAATCTCTGAGGAACTTAGCGATGTTTCCAAAATGGTTGAGTTTTGGGGGACTTCAAATATACGGGATCGTATTGAGGCCCTTGAGCAATCCAACTACAATGTTGTACTGTTCTGTGAGTACGTACCTTACAACCTGCATAACTGGCTTACCGAACAGGTCGCTATTGGTGAGAATGCAGCCAATTCAGCGTTTGCCTTGTTGGACTCAAACTTGCTGTCAACGGTCTCCTTTATGAATGCGAACGGATTACTACATTTCGACGTTCACTTTAACAATGTTTTAACCGACGGTCACCGTGTGTATATTTCGGACTTCGGACTTGCAACGTCTTCTCGATTTGAACTGTCAGATTCCGAATTGGAGTTTTTTGAATTGAACAAGACTCATGATGGATGTTATGTGGCAACACAAATAGTGAACTGGCTTGTAGCAGCAATGACTGGTAGGATGAACCGTTCTGAACGAATCGAATTTATACGTCGTTGTGCCGAGGATAACGAATTCCTAGAAGTGATGGATTCTGCAGCGGAGATTATAATGCGGTACGCTCCTATAGCTGTAGTGATCAATGATTTTTACACCAATCTCGTTACGAATAACAGAAATACATCGTTTCCCGTTGAGGAGATTGAACGGGTCTGTATGAAAACTGGGTTCCAGCTGCCCTTCTCGAATCCCATAACATAA	MKLSTNEHSTHDIRLARYAAVSTALSLVSDEQLSKRVEKATVLNTGIGGTTAFLQIDDTPVFVKMVPLTELESHSENYMSTRNVFNLPPYCHYGVGSPGAGVWREVAAHTMTTNWVLARQCENFPLMYHWRVLKSPERRNPISEELSDVSKMVEFWGTSNIRDRIEALEQSNYNVVLFCEYVPYNLHNWLTEQVAIGENAANSAFALLDSNLLSTVSFMNANGLLHFDVHFNNVLTDGHRVYISDFGLATSSRFELSDSELEFFELNKTHDGCYVATQIVNWLVAAMTGRMNRSERIEFIRRCAEDNEFLEVMDSAAEIIMRYAPIAVVINDFYTNLVTNNRNTSFPVEEIERVCMKTGFQLPFSNPIT				NA	NA	NA	NA	NA
AK002_02623	720	apaH_1		Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGAAGCGAACAATTATGATTAGCGATATACATGGATGTATCGATCAATTAAATCAGATGTTGCATCTTATTAAATATAATTCGAAAGATGATCAGTTGATTTTGCTTGGTGATTATGTAGATAGAGGGCCTAATAGTAAAGCAGTAGTTGAAAAAGTAATCGAATTAGTAAGTATGCATAATGCCATTGCTTTACGAGGCAATCATGACCAACGATTGGTTGATTTAATAAATAATGATAGTGCATTGATTCGATCTAAATTTATTGAACATGGGGGAATACAAACCCTCCAAAGTTATTGTGATATTAATAACATGAATAACGAAATCTCTGATGAGATATTGAACCAGGCGAAGGATACAATTAAGACTTTTTTTGGTCACCACATAGACTTTTTAAGTGAATTACCTTTATATCACGAAGATCATGATCACATTTATGTTCATGCGGGATTGAATCCCAATTTTATAGATTGGAAGAACCAGCCAGAATATGATTTTATGTATATTAAGGATGAATTCATTCAACACAGTTTTGAGGATTTAAACAAAAGAGTTATTTTTGGACATACAAGAACTATTGATATCCATGGCACATCAGATATTTGGTTTAGTAAAGACAAGATAGGAATTGATGGCGGATGTGCATATGGATTGCAGTTGAATTGTTTAATTTTTCAAGAAGGATCGTATATAACGGAACAGATAAAGAACTGTTGA	MKRTIMISDIHGCIDQLNQMLHLIKYNSKDDQLILLGDYVDRGPNSKAVVEKVIELVSMHNAIALRGNHDQRLVDLINNDSALIRSKFIEHGGIQTLQSYCDINNMNNEISDEILNQAKDTIKTFFGHHIDFLSELPLYHEDHDHIYVHAGLNPNFIDWKNQPEYDFMYIKDEFIQHSFEDLNKRVIFGHTRTIDIHGTSDIWFSKDKIGIDGGCAYGLQLNCLIFQEGSYITEQIKNC				NA	NA	NA	NA	NA
AK002_02624	567			hypothetical protein	ATGAAGACCATTATTTATATGGTTAGGCATGCCGAGTCACCATATACAGAAGGAAATGAAAGAACTAGGGGGCTTACCCTAGAGGGAAAGATGAACGCAGAAAAAATAACTGAAATATTAAAGGATGAAGGAATAAACATGATTATATCAAGTCCTTATGCTCGAGCAATTCTAACATTGGAGGGGTTGGCCAAAGAGTTAGAAATAGATATTCAGATATTTGAGGATCTTAGGGAAAGGCACTTTTCAGACTATATTATTACTAATGAAGAATTTATGCCCGCTATGAAGAAGATGTTTGATGACCCTGCCTATGCATTGCCAGGAGGAGAGTCTAACACTGTTTGCCAAAATAGATCAGTTGTAGTGTTGAAAAATATCTTAGAAGAACACAAGGGAAAGAAAGTTGCTATTGGAACACACGGGAATGTAATGACATTGATGATGAATTATTTTAATTCGAATTACGGATTGGATTTCATGAATCAAACAAAGAAACCAGACATCTATAAATTAAAATTTAAAGACCTAGTATTAGAAGAAGTAACAAGACTTTGGAAAGAATAG	MKTIIYMVRHAESPYTEGNERTRGLTLEGKMNAEKITEILKDEGINMIISSPYARAILTLEGLAKELEIDIQIFEDLRERHFSDYIITNEEFMPAMKKMFDDPAYALPGGESNTVCQNRSVVVLKNILEEHKGKKVAIGTHGNVMTLMMNYFNSNYGLDFMNQTKKPDIYKLKFKDLVLEEVTRLWKE	PGPT0018030_3992	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
AK002_02625	453			hypothetical protein	ATGGCAAACAACAAATTACTAAGAATGGACAATGTGGGCATCGTCGTAGAATCCCTTGATGACGCAATCTCTTTTTTCGAGGAGATCGGCTTGAAGCTCGAAGGGCGAGCCACGGTCGAAGGTGAATGGGCAGGTCGCGTAACCGGACTGGGTTCTCAGTGCGTCGAAATTGCTATGATGGTTACCCCCGATGGTCACAGCCGACTTGAGCTTTCCCGATTTCTAACCCCACCTACTATATCAGATCACCGGACTGCTCCTGTAAACGCCCTCGGTTATCTACGCGTTATGTTCACCGTGCAAGACATTGACGAAATGGTATCCAGACTCACTAAGCATGGTGCTCAGCTCGTTGGCGAAGTCGTTCAGTATGAGGACTCTTATAGGCTCTGCTACATTCGTGGAACCGAAGGAATTCTAGTCGGTTTGGCGGAACAACTCGGTAACAATTAA	MANNKLLRMDNVGIVVESLDDAISFFEEIGLKLEGRATVEGEWAGRVTGLGSQCVEIAMMVTPDGHSRLELSRFLTPPTISDHRTAPVNALGYLRVMFTVQDIDEMVSRLTKHGAQLVGEVVQYEDSYRLCYIRGTEGILVGLAEQLGNN				NA	NA	NA	NA	NA
AK002_02626	510			hypothetical protein	ATGAACCAAAGACCGTCAGAAGTAGAATACACCGGGGGCTTCGGCGAGTATATCCGGTTGGTGCCGGAAGGCAACATCATCGACATTCTGCTCGCCCAGGAAAAGCAAATGACCGAATTGCTGGCATCGTTGAGCGAAAGCCAGGGCGCATATCGGTATGCAGAAGGAAAATGGACGCTGAAAGAAGTCGTGGGGCACATCGCGGACGGGGAACGCGTCATGACCTACCGTCTTCTCCGGTTCGCAAGAGGGGACCAGACGCCTCTGCCCGGATTCGACCAGGAAGTGTTCATGCCTCCTTTCGGAAGCTGGACAACCGCGCAGTTGGCTGAAGACTACCGGGCGGTACGGCAATCGACGATCACACTCTTACGCGGGTTGCCAGCGGAGGCGTGGTCCCGCAAGGGCACAGCCAACAACGTAAGCATTACGGCGCGCGCCCTCGCGTACGTCATCGCGGGACACGAACTTCATCACATGGGGGTCATCCGAAATCGGTATTTGAGTTAG	MNQRPSEVEYTGGFGEYIRLVPEGNIIDILLAQEKQMTELLASLSESQGAYRYAEGKWTLKEVVGHIADGERVMTYRLLRFARGDQTPLPGFDQEVFMPPFGSWTTAQLAEDYRAVRQSTITLLRGLPAEAWSRKGTANNVSITARALAYVIAGHELHHMGVIRNRYLS				NA	NA	NA	NA	NA
AK002_02627	1029			hypothetical protein	TTGATAAGTAAGTTCAAAATCGAAGATAAACAGCTTATTTTATTCATACAAAATAACTACGGAATTCTTATTAAGGATATTGAATTTATTCCGGTCGGGGATTCGGCGTATTCCTATAAAGTAAATTGTATTGACGAACAACAATATTACTTGAAGTTATTTGATCATCATAATGATAGACAAAGAGAGGGAATACGACGACTAAATTATTACCTGCCTTTGACTTGGGACCTTTATCATCAAGGGTTGTTTATAAACATTACTCATCCAATAAAGAATTGCTTTGGGAGTTTATTTACTAAATTACAAGACATCACTATAGTTTTATTTAATTTTATAGTTGGAGAGACCTTGGCTGAGGCATATCCTTTCTCAGATGAGATTCTTGTAGGAATTGCAAAGTCCGTGGCTACATTAGAACAGATTACTTCGCAAGTGAATCAGACTTTATTACCAAAGGAATCATTTGATATCACTTTCGAATCTGATCTTTTGAGATGTATTTCGATCCTTGAGAAATCAAATCGAAACAATTGCTTAAATCAATCACTGCGAGAGCTTGTTTTATTAAAGAAAGAACAAATTCTTTCTTCCATGAACGTAGTTAGAGAAATCCGGAATTCAGTTTACATCAATTCTAGCCAACTTGTTTTGTGTCACGGTGATATGTGGGGTGGGAATATCATATATCACAATACTCAGTTGTTCTTTTTAGACTGGGAATCGGTGATCTTAGCACCACCCGAGTATAATTTATTTGGCTATATTGGTTCGAGTTTCGACATCTTTATATCTTCCTATATTAAACAGTTGGATCGAAAATTTCAGATTAATCTGGACTTGATTCGCTTTTACTCTTATCGTGCACATCTTCGTAATCTATCTAACTGGATTATGAATATTCTAATTAGAAATAAAGATGAGTCTCAAAGTATTAATGACTTAGACATGATTCGAAACCACTGTTTGAATCGATTTGATCAAATTGAACCCAATATAAGAAACATTAGAAGAGACATAGTAAGTTGA	MISKFKIEDKQLILFIQNNYGILIKDIEFIPVGDSAYSYKVNCIDEQQYYLKLFDHHNDRQREGIRRLNYYLPLTWDLYHQGLFINITHPIKNCFGSLFTKLQDITIVLFNFIVGETLAEAYPFSDEILVGIAKSVATLEQITSQVNQTLLPKESFDITFESDLLRCISILEKSNRNNCLNQSLRELVLLKKEQILSSMNVVREIRNSVYINSSQLVLCHGDMWGGNIIYHNTQLFFLDWESVILAPPEYNLFGYIGSSFDIFISSYIKQLDRKFQINLDLIRFYSYRAHLRNLSNWIMNILIRNKDESQSINDLDMIRNHCLNRFDQIEPNIRNIRRDIVS	PGPT0028765_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028765-aph|spcN-K18844	NA	NA
AK002_02628	477			hypothetical protein	ATGATCCTCATACTCGTTATAGGGACATTATATTTTGTTCTGGGTGATATGAATGGTTTCATGAGTAAGTCAAACTTAAATAAAGAAATTCAGGTAAAACAAATCTCCAGCACGGAGATGTCCAAAGCACTATACACCAGAAAAGGATCAGGTGCATATATCGATTGGATAGACGTTGAATTAAATCAGGATGAAATTAATAATATTGTAAATTGGATTAATTCTGTACCTGAATCAGATCGTGTAGCGTTGAAACAAATACCAGCAAACACCAGCATTAGTGCAGGGATTGTTTTTAAATTAAAGCCCGGAAGAGAAATAAGAATCCAATATGATCTTGAAAAGATTTATATAACAAGAACAGATATATGGACTAGGCAAATGATTTATACAATCGATCAAGAAAACTTAAGGGATTTCTTTGATCAACAACTTAAAGGGTTTTATTTTGGAGAAGACAAGGTAAATAAATCTTGA	MILILVIGTLYFVLGDMNGFMSKSNLNKEIQVKQISSTEMSKALYTRKGSGAYIDWIDVELNQDEINNIVNWINSVPESDRVALKQIPANTSISAGIVFKLKPGREIRIQYDLEKIYITRTDIWTRQMIYTIDQENLRDFFDQQLKGFYFGEDKVNKS				NA	NA	NA	NA	NA
AK002_02629	870	mneS_1	COG0053	Manganese efflux system protein MneS	GTGGAAGAACAACGTTACAAGGATCTAAAATTAGGTGAAAAAGGTGCGATTATCAGCATCATTGCTTATATCTGTCTATCTGCAATCAAGCTATTGATAGGTTACTCGGCGAACTCCGAAGCTCTGCGTGCCGACGGATTAAATAATGCTACCGACATCGTGGCATCCATTGCCGTATTGATCGGACTACGATTATCGCAAAAACCTGCGGACCGGGATCATCCTTACGGACACTGGAAAGCGGAAACGGTAGCATCCTTGATCGCCTCTTTCATCATGATGGCCGTCGGGATCCAGGTGTTGTTCGGGGCCGCATCTTCCATGTTTGAAGGTACCCACGAATCGCCTGATCTCATATCCGCCTGGACCGGTATCGGCTGCGCGTTGGTCATGTACTGCGTTTACCGCTATAACAAGCGTCTTGCCAGCCAAATTAACAGCCAAGCCGTAATGGCGGCCGCGAAGGATAATCTCTCGGACGCTTGGGTCAGCATCGGCACGGTTGTCGGCATCATCGGGGCCCAATTTCAGCTTCCCTGGCTCGACCCGCTGACGGCCATAGTGGTAGGTTTTCTGATATGCAAAACCGCTTGGGATATATTCCGTGATGCCTCTCATCATTTAACCGACGGATTCGATGAGAACATTATCAAAGGCTACAAAGAAACCGTGAAACAAGTGGTTGGCGTCAAAGGGGTCAAAGACATTCGGGCAAGAAATTACGGCAGCAACACGGTGGTCGACATCGTCATTCTGGTCAGATCCAATCTGGACATTCGGGTTGCCCATGATATTTCGGACCAGGTGGAGCATGAATTAAAAGAAACGCACGGCGTTTACGACGTCCATGTTCATATTGAACCGAGTTAA	MEEQRYKDLKLGEKGAIISIIAYICLSAIKLLIGYSANSEALRADGLNNATDIVASIAVLIGLRLSQKPADRDHPYGHWKAETVASLIASFIMMAVGIQVLFGAASSMFEGTHESPDLISAWTGIGCALVMYCVYRYNKRLASQINSQAVMAAAKDNLSDAWVSIGTVVGIIGAQFQLPWLDPLTAIVVGFLICKTAWDIFRDASHHLTDGFDENIIKGYKETVKQVVGVKGVKDIRARNYGSNTVVDIVILVRSNLDIRVAHDISDQVEHELKETHGVYDVHVHIEPS				NA	NA	NA	NA	NA
AK002_02630	1947	tetO		Tetracycline resistance protein TetO	ATGAAGAACATATTGAACATTGGAGTTTTGGCCCATGTTGACGCCGGTAAAACTACGTTAACAGAGCAAATTCTTTATAAGACCGGTATTATTGAACAAGCCGGCTCGGTGGACCATGGCAGTACGACCACGGATTCGCTGGACATTGAGCGGAGACGGGGCATTACGATCAAATCCGCCGCGGTATCGTTCATGCTGGGCGATCTGAAGGTCAATCTCATCGATACGCCCGGTCATGCCGACTTCATCTCGGAGGTCGAGCATTCGCTTAGTGTACTGGACGGCGTCATTCTAGTCATTTCCGCCGTTGAAGGCGTACAATCCCAAACCCGCGTGCTCATGCAGACATTGAAGGAACAAAAGATCCCCACCCTATTGTTCATGAACAAAATCGATCGAATGGGCGCCGACTACCGGAAGGTTTATGCGATGATACGCCATCAGCTTGACGAACATATTTGCGAGATGAGCTCGGTCATGAAGGAAGGCGGCGCAGCCGTTCAGGCGGACGCGGCCGATCCCCACCACGCAGGCTGGGTGGAAACTCTGGCATTGTCCAATGACGATCTGCTGAACGATTATGCCCTGGATATTCCGATATCACAAGAGCGGCTGCAGGAGGAATTGCGGAGGCAAACGCGCCAAGGCAAAGCTTATCCCCTATTTGCAGGTTCAGCAGCCAAAGGACTCGGCATTGAACCGCTGCTTCAAGCGCTCGGTGATTTTTTCCCGGTTAACCATTCGTCGATGCTTCAGCATGAACCGTTATCCGGTTTGGTATTCAAAGTGATCAGACGACCGAATGGAGAGCGGAATGTATACCTCCGCCTGTACGCAGGCATCATCCAGTATCGTGATGAAATTCCGGTGATCTATCAGAACGGACAAACCTCGACGCTCAAGGTGAAGCAGCTGCATGCCCTGCGCCAGGGCAAATCCATTCCGGTCCATGGAATCGGCGCAGGCGACATTGCCATTCTCATCGATGGCGAACTCAAGGTGGGCGACGTCATCGGCAGCGTTTCCGGGAGGATGAAGACGGTTCATTTTCAGAAGCCGCCGATTCAAGTCCGGGTTTCGGCCGTTCATTCCGCGGAGAAACATCAGCTGCATGCCGCCTTAAGCGATCTCACCGAAGAGGATCCGTTTCTGCAATATAGCCAGGATACGAAAACAAGCGAGAATGTCATCCATGTATTCGGCAAAGTCCAGCAAGAAATTCTGCTGGAAACGATTCTGCAGCAGTACGGCATCGAAGCCGAATTTTCCGCGCCGCAGGTGATATGTATCGAGAAGCCTTATGGCACGGGCGAAGCCGTTGAATATATAGGCGAGTGTCCTTTTTATGCAACGGTGGGCATCAGGGTCGAACCTGGCGAGTTCGGTACCGGAATTCAGTACAGGCTGGAAGTGGAGCTGGGCTCCCTTCCCTTAGCTTTTCAGAAAGCAATCAAAGACACGGTATTCGAGGTGCTTCAGGAAGGTTTGTACGGATGGGCCGTGACCGATACGATCGTAACGCTGACGCATACCGGTTACGCAAGCCCGGTTTCGACGGCAAAGGACTTTCGAAGCTTGACTCCTCTAGTCCTCATGGCTGCACTCGACCAAGCAGGGACGGAAGTATACGAGCCCATGAACGTGATTCAATTCATTCTGCCGGAAAACAGCTTAAGCAAAGTACTTTCCAAATTAGCCGCGCTGGACGGCACTTATCAGGAACCTGCGTTCCATAACGGTAGCGTCCACGTTCACGGCACCATTCCGGTACGGACTACCGACTTGCTGAAAGCCGAGGTTCATTCCCTTACGAGCGGTGAAGGCATGCTCACCGTTAAACCAGGCGGTTATACGAAGGTGCAAGCTCCCTTCCCAGTGAATACACGTCGGCAAGTCAACCCGCTGAACCGTGGTGAATATATGCTTCACTTAAACAAGATCATGTAA	MKNILNIGVLAHVDAGKTTLTEQILYKTGIIEQAGSVDHGSTTTDSLDIERRRGITIKSAAVSFMLGDLKVNLIDTPGHADFISEVEHSLSVLDGVILVISAVEGVQSQTRVLMQTLKEQKIPTLLFMNKIDRMGADYRKVYAMIRHQLDEHICEMSSVMKEGGAAVQADAADPHHAGWVETLALSNDDLLNDYALDIPISQERLQEELRRQTRQGKAYPLFAGSAAKGLGIEPLLQALGDFFPVNHSSMLQHEPLSGLVFKVIRRPNGERNVYLRLYAGIIQYRDEIPVIYQNGQTSTLKVKQLHALRQGKSIPVHGIGAGDIAILIDGELKVGDVIGSVSGRMKTVHFQKPPIQVRVSAVHSAEKHQLHAALSDLTEEDPFLQYSQDTKTSENVIHVFGKVQQEILLETILQQYGIEAEFSAPQVICIEKPYGTGEAVEYIGECPFYATVGIRVEPGEFGTGIQYRLEVELGSLPLAFQKAIKDTVFEVLQEGLYGWAVTDTIVTLTHTGYASPVSTAKDFRSLTPLVLMAALDQAGTEVYEPMNVIQFILPENSLSKVLSKLAALDGTYQEPAFHNGSVHVHGTIPVRTTDLLKAEVHSLTSGEGMLTVKPGGYTKVQAPFPVNTRRQVNPLNRGEYMLHLNKIM	PGPT0010355_376	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0010355-otrA|tetM|tetO-K18220	NA	NA
AK002_02631	441			hypothetical protein	TTGATATCACTTCATGTCATAGATAAAGATAATTGGGAGGATTGCATCCGCCTTAAACCCAAACCTGAACAGGAGAAATGGATTGCCCCTAATCTATATTCCATAGCGGAAGCTCAATTTATGGAGGGTTTCGAGACGAGAGCCATTTTCCATGATGATGAAATGATCGGATTTGTTATGTACGGGCTGCACCCGCACGATAACAACTATTGGATATACCGATTTATGATCGACGGCAAATTTCAGGGAATGCATTATGCCAAGCCTGCGATTCGCCTGGTTCTTGATGAGATTCGCCATTCGCCGAATCGTACGGATGATGTTATGCTGTGTTACAAACCCGGGAACGAGCGTGCAAAAAGACTATATACTCAAATCGGGTTTACGGAAGCCGGATTTGCTCCCTGGGGAGATGTGATGGCTAAATATAGTTTTGTATAA	MISLHVIDKDNWEDCIRLKPKPEQEKWIAPNLYSIAEAQFMEGFETRAIFHDDEMIGFVMYGLHPHDNNYWIYRFMIDGKFQGMHYAKPAIRLVLDEIRHSPNRTDDVMLCYKPGNERAKRLYTQIGFTEAGFAPWGDVMAKYSFV	PGPT0007790_2085	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
AK002_02632	567			hypothetical protein	ATGCGGGATTCCGGCGTCATCACCCTTCGCGGGAATCATGATCAGATGATGCTGGATGCCATTCTGCTGGATACGGACGAAGTCAATTCACGCTGGATTCGCAATGGTGCGCGAAACACGATTGAAAGTTATTGCGGCGCCGATTTTTTGGATGGCGATATGGATCGCTCCAGATACAATGAAGGCAAGGCCTACATAAAACGGGAATATGAGCATCATCTATCCTTTCTCGATACGCTGCCCCTGTATTATGAAACAGACACCCACCTATTCGTGCATGCCGGAATCAATCCGGGCGTGGAAGACTGGAAGCAGCAGCCTCCACATGATTTCATCTGGATACGGGAACCCTTCTACAATTATCCTACCGGCATTAACAAAACCGTAGTGTTCGGGCATACCCCGGCCGTCAACTTGCATGACTCGGAGCATATTTGGTTCTGCGGCAATGGGGACAAAATCGGCATCGATGGAGCATGCGTATACGGCAAGCAGTTGAACTGCCTGGAAATCACGGAACAGCTGGAATACCGAACGTATTTTGTCCGGTCCGTGCCTGCGGAGTGA	MRDSGVITLRGNHDQMMLDAILLDTDEVNSRWIRNGARNTIESYCGADFLDGDMDRSRYNEGKAYIKREYEHHLSFLDTLPLYYETDTHLFVHAGINPGVEDWKQQPPHDFIWIREPFYNYPTGINKTVVFGHTPAVNLHDSEHIWFCGNGDKIGIDGACVYGKQLNCLEITEQLEYRTYFVRSVPAE				NA	NA	NA	NA	NA
AK002_02633	483	infC_1		Translation initiation factor IF-3	ATGTTGATGATGAACGAAAAGATAAAAGCACGCGAAGTCGAGCTTACCGGCCTGAACGGCGAGGAGTTGGGTGTCGTCTCCAAGGATGAGGCGCTTGCCCTGGCAAAGCGTCACAAAGCCGATTTGGTGTGCACCTCGTTGTTCAGCAGCCCGCCGCCATGCAAGCTCGTAAGCCGCGGCCAGGCGAAGCAGGAGGCGGTTAAGGCGAAGCAGCAGGTTTCGGGTGGTACGATTAAAGTCAAGGAATTCCGCCTGTCCGTACATATCGAAGAGCATGATTACGACACCAAGCTTTCACAGATGCATAAGCTGCTGGCAGCGGGCAAAGCCGTCCAGCCGGTCATACGCATTCAAGGCAAGGAAGGCGAAGCGGCCCGAAAGCTGCTTGAACGACTCGTTCAGGATCTTGCCGAGGTGGGCAAGAAGGAAACGGGCATTCAGGTCAGCGGCAAACAGGCTGCGGTGAAGCTGCTGCCGATATAA	MLMMNEKIKAREVELTGLNGEELGVVSKDEALALAKRHKADLVCTSLFSSPPPCKLVSRGQAKQEAVKAKQQVSGGTIKVKEFRLSVHIEEHDYDTKLSQMHKLLAAGKAVQPVIRIQGKEGEAARKLLERLVQDLAEVGKKETGIQVSGKQAAVKLLPI				NA	NA	NA	NA	NA
AK002_02635	1689	glnS_1	COG0008	Glutamine--tRNA ligase	ATGAGCAACGATTACAACAGGGGAGCGGAAACGGCGGATTTTTTGACCAGGATGATCAAGGAGGATGTGGAGAACAACGTATATCACAGGCCGGTGGCTACGCGGTTCCCGCCAGAGCCCAACGGTTATCTGCACATCGGCAGCGCTTATGCAATCCACATTAACCATGCCATCGCGAGCCGGTTTAACGGGACATTCAATCTTCGGTTCGACGATACGAATCCGCTGAAGGAAGACATGAAATACGTGGATGCGATCCGGGAGGATATCGAGTGGCTCGGACTGAAGCCGGGCGTTTATTTCGGATCGGATTATGCGTTTCAAATCGCTGAGGCAGCCAGGAAGCTCATCATCAAAGGGAAGGCTTATGTCTGTGATCTCACGCCGGAACAAATGACGGAATACCGGGGGACGCTGACCGAAGCCGGCATGAACAGCCCGTTTCGAGAGCGCAGCATCGAGGAAAATGTATCGTTATTCGAACAAATGCTGGCAGGGGCATTCCCGACGTCCGCGAAAGTGCTCCGGGCCAAAATCGATATGTCTTCGCCCAACATGAACCTGAGAGATCCTGTCTTATACCGGATTATTCATGCCGAGCATTATCGTACGGGAACCATGTGGTGCGTGTACCCGATGTATGATTTTGCCCATCCGATCCAGGATTGGATCGAAGGAATCACCCATTCGCTGTGTTCTGCCGAATTTAAAGACCATCGACCGCTGTACGAATGGGTGCTGGCCGAGCTGGAAGTGACGGAGCCCCCGAAGCAGCGGGAGTTTGGCAGATTGAATATCTCCGGATACGTTACTAGCAAGCGATACCTGAGGGAACTCGTCGAGGGAGGTTTTGTGGACGGATGGGATGACCCCAGACTGCCTACGCTGAAAGGACTTCGGCGACGGGGGGTGACTCCCGAGGGAATCCGGCAATTTCTGGACGAACTCGGTGTGATTCGCGGCAACAGCATGGTGGACTCGGCGATGCTTGACCATTTCATCCGTCAGGACTTGAAGGATCGGTGCCGCAATGCGATGGCCGTCATGAACCCGCTAAAGGTGATCATTACGAATGTTCGGGAAGATTGCACTGAGTTGCTGAGCATACCGAACCATGAACATGTTGAGGCGTTAGGGATGCGGGAGGTTCCTTTTTCACGGGAGCTGTATATCGAACGGGAGGACTTCATGGAGGAGCCGGATCCCGGATTTCATCGGTTATCGCCCGGCAAGGAAGTGCGCTTGAAGGGAGCCTACTTCATCAAATGCGACCATGTCGTGAAAGACCCGGCATCGGGGGACATCACGGAAATTCACTGCACGTATGATCCACTGACGAAGAGCGGCAGCGGATTCAAAGGGCGCAAGGTGAAATCCACGCTGCACTGGGTCTCTGCGAAGCATGGGATTCCGGCGGAGCTTCACTTGTACGATCCATTGTTGAAGGAATCAGCCGAGTTGCTGGAATCGGATAATATCTGGGCGGATCTGCTGAACCCGGATTCGTTGATTCGGGTCAAAGACGCCATACTGGAGCCTTCCATGCAGGAAGCGGCCATGAACCAAACGTACCAATTTATCAGACACGGCTATTTCTGCCTGGATTCCAAGCATGCAACGGAGCAAAGGCTGGTGTTTAACCGGATCGTATCGTTGAAGGATTCATGGAAGAAGACCGGCAAGAATTAA	MSNDYNRGAETADFLTRMIKEDVENNVYHRPVATRFPPEPNGYLHIGSAYAIHINHAIASRFNGTFNLRFDDTNPLKEDMKYVDAIREDIEWLGLKPGVYFGSDYAFQIAEAARKLIIKGKAYVCDLTPEQMTEYRGTLTEAGMNSPFRERSIEENVSLFEQMLAGAFPTSAKVLRAKIDMSSPNMNLRDPVLYRIIHAEHYRTGTMWCVYPMYDFAHPIQDWIEGITHSLCSAEFKDHRPLYEWVLAELEVTEPPKQREFGRLNISGYVTSKRYLRELVEGGFVDGWDDPRLPTLKGLRRRGVTPEGIRQFLDELGVIRGNSMVDSAMLDHFIRQDLKDRCRNAMAVMNPLKVIITNVREDCTELLSIPNHEHVEALGMREVPFSRELYIEREDFMEEPDPGFHRLSPGKEVRLKGAYFIKCDHVVKDPASGDITEIHCTYDPLTKSGSGFKGRKVKSTLHWVSAKHGIPAELHLYDPLLKESAELLESDNIWADLLNPDSLIRVKDAILEPSMQEAAMNQTYQFIRHGYFCLDSKHATEQRLVFNRIVSLKDSWKKTGKN				NA	NA	NA	NA	NA
AK002_02636	864			hypothetical protein	ATGCTAGACAGACAAGAACACAACCCTGATGAACAGGGCCGAATTCAATTGCAATCGGATTGCGAACGCTGCTTTGGATTATGCTGCGTCGCTTTGCCTTTCGCTTCCTCTACCGATTTTGCCATCGACAAAGACGGCGGGACCCCTTGCCGCCATCTGCAATCCGACTTCCGATGCGGCGTGCACAACAGTCTGCGGCAGCGCGGCATGCGGGGATGCACCGTTTATGAATGCTTCGGCGCGGGACAAATGGTTTCACAGGTTACCTATAACGGACGCGACTGGCGGCAGGCCCCGGAGACGGCAAAAGAAATGTTCGACGTTTTTCCGATTATGCGACAGCTTCACGAGCTGTTATGGTATCTGAACGAAGCGCTGAGTTTGCAGCCGGCGCATGGCATACATTCTGATCTTAGGTCGTCGCTGGAAGCGACGAGGAGGTTGACCCAGCTTCCAGCCGCATCCCTGTTACGTCTGGATGTGGCAGCTCATCGCGCTGAAGTGAACCAGCTGCTTCTTCGAACCAGTGAGCTTGTGCGGGACGATGCGCGACGGAAGCATAAAGGGCCGCCCGTGCGTCAGAAGATCGGGGGCCGCGGTGCCGATCTCATGGGAGCAAAGCTTAAAGGAGCTGACCTTCGATACGCCAATCTGAGAGGAGCTTACCTCATTGCGGCGGACCTCAGAGGAGCCGATCTGCGGGCCGCGGATTTGATCGGGGCCGATTTCCGGGATGCGGACCTAAGGGGAGCTAATTTAACGAACAGCCTCTTCCTGACTCAATTCCAGGTTAACGCAGCGAAGGGAGACGCAAGCACCCGGCTACCTTCTTCCTTAGCCCGGCCGGCCCATTGGACGTCTTAA	MLDRQEHNPDEQGRIQLQSDCERCFGLCCVALPFASSTDFAIDKDGGTPCRHLQSDFRCGVHNSLRQRGMRGCTVYECFGAGQMVSQVTYNGRDWRQAPETAKEMFDVFPIMRQLHELLWYLNEALSLQPAHGIHSDLRSSLEATRRLTQLPAASLLRLDVAAHRAEVNQLLLRTSELVRDDARRKHKGPPVRQKIGGRGADLMGAKLKGADLRYANLRGAYLIAADLRGADLRAADLIGADFRDADLRGANLTNSLFLTQFQVNAAKGDASTRLPSSLARPAHWTS				NA	NA	NA	NA	NA
AK002_02637	426			hypothetical protein	GTGAGAGGAATATTATTTGCATTCATTGGGGGTGCCTGCATTACGCTGCAAGGTGTAGCCAATGCACGAATCAGCCAGGATATGGGCACCTGGCAAGCCGCCGCGGTCACGCAGCTGACCGGGTTTTTGATGGCTTTGGTCATTCTGCTGTTCGTCCGGGACGGCAGCAGGCAAGGCTTCGGGCAAGTGAAGCCGCTGTATCTGATCGGCGGAGCGTTGGGCGCACCCATCATATTCAGCGAGGTGACGGCGATTCAGAATATCGGTGTTACATTAACGATATCCGCGTTATTAATCGCCCAGCTATTCTTGACGTTCCTGATTGACAGCAACGGATGGTTCGGCGTGACGAAGAAGAGAATGAGTTTGCCTCAATTCATCGGGATCGGGATGATGATTGCCGGAGTCGTGATTATCAAATTATGA	MRGILFAFIGGACITLQGVANARISQDMGTWQAAAVTQLTGFLMALVILLFVRDGSRQGFGQVKPLYLIGGALGAPIIFSEVTAIQNIGVTLTISALLIAQLFLTFLIDSNGWFGVTKKRMSLPQFIGIGMMIAGVVIIKL	PGPT0009795_2449	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK002_02638	702	yeiL	COG0664	Regulatory protein YeiL	GTGAGGGAAATTCATGATGCCGAGCTCATGCAGGATTTTTTGTTAAGCAACCAAATCAATTCCGTATTTCCCGATGGGCTAAAACCTTATTTGGTGTTATATCATTTTGACCACGGCGACATCATCTGTACGCAAGGCGATCCTGCCGAGATGCTGTACGTCCTGGTTGAAGGGAAAATTAAAATCTTCACGACATCCGCGGAAGGCAAGGCGCTGGTTCTTTCATTCAAAACGCCGCTTGAGGTGATCGGAGACATCGAATACGTTCAGGGAAATCCGATGATCAATACGGTACAGGCCGTGTCGCCCGTCTACATGATCGGCGTGCATTATCGCTGGCTTCGCAAATACGGGCAGGAGTTTCCGCCGCTGCTTCAATTTTTGCTGCGGATCATCACGCGGAAGTTTTATATCAAATCCAATTTCTTGAGTTTTAATTTACTGCACCCGGTGGAGGTGCGACTGGCCAGTTATTTACTGTCCGTGTCGGAGGAAGAGTCGGGCACGTTTGTCATGAGCGACCCGGCCGCATACCATCTGACGGATGTCGCGAATCTGCTTGGAACCAGTTATCGGCATTTGAACCGGGTGATCCAGAAATTCAGCCGTGAAGGACTGATCGTGCGCCGCAAGGGTTCCATTCTGATCAAAGATCGGGAAGCGTTGATGAGTGTCGCCGGCGGCAATATCTACGAAGAATAA	MREIHDAELMQDFLLSNQINSVFPDGLKPYLVLYHFDHGDIICTQGDPAEMLYVLVEGKIKIFTTSAEGKALVLSFKTPLEVIGDIEYVQGNPMINTVQAVSPVYMIGVHYRWLRKYGQEFPPLLQFLLRIITRKFYIKSNFLSFNLLHPVEVRLASYLLSVSEEESGTFVMSDPAAYHLTDVANLLGTSYRHLNRVIQKFSREGLIVRRKGSILIKDREALMSVAGGNIYEE	PGPT0015075_1633	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
AK002_02639	459			hypothetical protein	ATGGTAGCAGGATTGGTATTAGCGCTAATCGCGGGTTCGTTGGTTAGCTTGCAGAACATTTTCAATAACAGGGTGAATGAAAAAACAGGCTCCTGGTCTACAACGACGTTGGTGCTAGGCATGGGCTTTGTGGCTTCGTTCGTCATGAGTCTTGTCGTAGAGGGAAAAGGGACATTCGACATTCAAAACATGGAGCCCTGGTACTGGATCAGCGGAATGATCGGAGTCGGGGTCGTGATCTGTTTGGTACAAGCGACAAGGCTGCTTGGTGCTACATTCGCGATTTCGATCGTTATGACCTCGCAGCTCGGCTTCGCGCTGCTGTGGGACTCTTTGGGCTGGTTGGGCCTGGAGAAGGTCCCGTTTACGAGAAATCAGTTGATCGGTGTTCTTGTGATTATCGGGGGTATACTAGTATTTAAGTTAGGCGGTAAACAGGAGCAGCAAGAGACGGCATAG	MVAGLVLALIAGSLVSLQNIFNNRVNEKTGSWSTTTLVLGMGFVASFVMSLVVEGKGTFDIQNMEPWYWISGMIGVGVVICLVQATRLLGATFAISIVMTSQLGFALLWDSLGWLGLEKVPFTRNQLIGVLVIIGGILVFKLGGKQEQQETA	PGPT0009795_1238	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK002_02640	405			hypothetical protein	ATGATAACGGAAATTGATAAAATCGCTTGGATCCACATCCTGGATGGACGCATACTGGGCGCACGTTCCAAGGGCAAGGACACGTATTACCTGCCCGGAGGAAAACGGGAACCGGGAGAATCCGATATCGAAACCCTGGTTCGGGAAATCGAGGAGGAGCTGTCCGTTCGCATCAAACCGGAGACCGCGGCGAATGCAGGGAGCTTCCGCGCTTCCGCCCACGGCAAATCGGAGGGCGTACGAGTAACGATGTCCTGTTACACGGCTGAATATGAAGGGGAGTTAAGACCGGCTTCGGAGATTGAAGAGCTGGCATGGCTCACGTATAAGGATCGGGCACGGGTCTCCGAGGTCAGCCAGATGATCTTTGACCATTTGCATGAACTGAAAAAGCTGGCGGATTAA	MITEIDKIAWIHILDGRILGARSKGKDTYYLPGGKREPGESDIETLVREIEEELSVRIKPETAANAGSFRASAHGKSEGVRVTMSCYTAEYEGELRPASEIEELAWLTYKDRARVSEVSQMIFDHLHELKKLAD				NA	NA	NA	NA	NA
AK002_02641	1257	mdrP		Na(+), Li(+), K(+)/H(+) antiporter	ATGCCAATACGATTATGGAATACCAATTTAAAGGTTCGATTATTCGGCGAAGCGCTGTTCAATATGCTGTTTTGGATGTATTTCCCTTTCATAACGGTTTATTTCGGCGCTGCTCTAGGCAATCATATCGCGGGAATCCTAATGACGGTTCCTCCGATATTCAGCATCGTCGGCAGCCTGCTCGGCGGCGCTTTAGCCGATCGGCTGGGACGACGCCCCGTCATGCTGCTTGGCGCCTCGCTGCAAACGGTCATGTTTGCGCTGTTCGCTCTGTCGCCTTCGCACTGGACCGATTATGCCGCATTTATCGGCATCGGATTCGGGGGAGCCATCTACAGGCCAGCCAGTTCGGCGATGGTAGCGGATTTGGTTCCCGTTCAAGAACGACGGCAGGTATTCGCAACGTTTACGACGGCAAACAACTTAGGGGCCGTGCTTGGTCCGGCACTTGGAGCCATTTTCTTTTTTCAGTATCGTCAAGAGCTCCTGTGGTCATGTTCAGTCGTATTGCTGGTCTATTTCAACGCGATTTACTTCATTGTTCGGGAAACCTTACCGGCTTCAGCGAGCATTCCGGAGCGAACTGATTCGATCCTTCAGGTATTTAAGGCGCAGTGGAAGGGATATGGCATCATTTTTCGGGATAAAGTGTTTCTGGTATACATACTGGCAGGGATATTTGCCCTTGTGACCATCATGCAGCTGGACCTGTATTTGGCGGTATATGTCATCGATTATGTGCCATCCCAGACGCTGTTCTCCTGGAACGGTCATTCGCTAATGTTAACGAGCACGGAAATTCTTGGGTGGGTGCTGGGCCTTAACGGGCTCCTGTTCGTTCTATTTATTCTTCCGGTAACCAAGTGGTTTCGGAACTGGAAGGAGCGGGACGTATTCGTTCTTTCATCCTTGCTATCCGGTGTAGGCACGTTTGCGCTCGGGCTGAACACCAACATCTGGTTTTTATTCTTCGTAACCATTATTTTTACTTTCGGGGAAATTGTCCGCTCGCCGGTGACCCAAAGCTTTATCAGCCATTATGCGCCGGAGCATGCAAGAGGACAGTATATGGGAGCTGACAGTCTGCAGTTTACGGTAGGAAGATTACTGGCGCCGGTGACGGTATTTCTGTCAGCTTGGGTATCGCCGATGGGCGTATTCGGCATCATCCTGTTATCGGCCTTGATCAGCACGGTGTTGTATATTCTGCTATTTCGAATGTATGTAGAAAAAAGCCATAGCCAGCGTAAGCTTTAA	MPIRLWNTNLKVRLFGEALFNMLFWMYFPFITVYFGAALGNHIAGILMTVPPIFSIVGSLLGGALADRLGRRPVMLLGASLQTVMFALFALSPSHWTDYAAFIGIGFGGAIYRPASSAMVADLVPVQERRQVFATFTTANNLGAVLGPALGAIFFFQYRQELLWSCSVVLLVYFNAIYFIVRETLPASASIPERTDSILQVFKAQWKGYGIIFRDKVFLVYILAGIFALVTIMQLDLYLAVYVIDYVPSQTLFSWNGHSLMLTSTEILGWVLGLNGLLFVLFILPVTKWFRNWKERDVFVLSSLLSGVGTFALGLNTNIWFLFFVTIIFTFGEIVRSPVTQSFISHYAPEHARGQYMGADSLQFTVGRLLAPVTVFLSAWVSPMGVFGIILLSALISTVLYILLFRMYVEKSHSQRKL	PGPT0028575_103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028575-lmrP-K08152	NA	NA
AK002_02642	627			hypothetical protein	ATGAATCGTAAAAAGAAAGGGCCAAGCCGGGTTTGGATGCAACCGGCTTGGTTCTTTACATTTTCATACGAGGCTGGCCGTGGAGGTTTGGAAAAATGTTGTATTTTCGTATTTACAAACCGCCGGTCGGTATATATAATGAAGTTACAAATTCACGGAAGGTTGGTGAAGGCCATGATACCGTTTATAGCCATGTTCGTGTCGCTTCTTTTGTTTCGGGCACTGGGCTTTGCAGGTTGGGAGTATACGAATGATTGGGTTATTTCGCTCAGGTTTGCGGTTGCGGTCATGTTCCTGATTACGGCTTCTGCCCATTGGGGAAAACGTCGAGCCGATCTGATCGCGATGGTCCCGCCGGGGATCCCTTATGCCGCGTTTGTTGTTAGCGTCACCGGGGTGCTGGAGATTGCGGGAGCTATTCTGATCCTTATTCCGGCCACGACCGCCTTCGCCTCTGCAGGCCTGGCTCTTATGCTGCTGACCATGTTTCCGGCCAATGTGTACGCTGCAAAACACCGATTGCCGCTCGACGGCAAGCCGGCCACTCCGATCGGAACGAGAACGCTGATGCAATTCGTGTTCCTGGCGGCGGTCATCATGGCGGGATGGCTTCCGCCTCAGGGGTAA	MNRKKKGPSRVWMQPAWFFTFSYEAGRGGLEKCCIFVFTNRRSVYIMKLQIHGRLVKAMIPFIAMFVSLLLFRALGFAGWEYTNDWVISLRFAVAVMFLITASAHWGKRRADLIAMVPPGIPYAAFVVSVTGVLEIAGAILILIPATTAFASAGLALMLLTMFPANVYAAKHRLPLDGKPATPIGTRTLMQFVFLAAVIMAGWLPPQG				NA	NA	NA	NA	NA
AK002_02643	624			hypothetical protein	ATGAAGCAGGAAGAACGACGAGAGCAGACCAAGCGAATACTGCTAGAAGCCACGGAAGCACTGATACGTGAGCAGGGCGCAAGCCGAACCACGCTCACTGACATCATGAAGCGTTCCGGCTTGTCCAAGGGAGCTATTTTTCATTATGTTTCAAGCAAGGATGAGCTGTTTGTCCTCGTGTTAAGAGCAAGGCTTGCCGAACAGAACGAGCAGTTCATGAACGAGGTGAACAAGCAAGGGGACATTAAACAGTTTGACGGGCCGATGAATGCCATTGCAACCGGCATGTCGAGACTGGAAAGCAGGGACGATGTCAGCAACCTGATCTTGATGTACCTGATCGGCAAAAGCGATCAGCCGGAAATTGCCGACATAGTGGCTGGCTTCTACAGGGAAGCGACGGCCACTTCCAAGGAATGGATTGTTACGGGCCAAGAAGCCGGCGTCATAACGAAATCCATCGATGCGGAACGCACGGCGGAGCTGTTCGAGCTGTTGTCTTTCGGATTGCGGATGCGGGGGCTTATCGGCGTAACAAGCGATGTATTCAGCACGAAGGAATATTCGGATTTCATCATCGATATATTGCGGCCCGGGCATCGGAAGGAGGGGGATGACCGATGA	MKQEERREQTKRILLEATEALIREQGASRTTLTDIMKRSGLSKGAIFHYVSSKDELFVLVLRARLAEQNEQFMNEVNKQGDIKQFDGPMNAIATGMSRLESRDDVSNLILMYLIGKSDQPEIADIVAGFYREATATSKEWIVTGQEAGVITKSIDAERTAELFELLSFGLRMRGLIGVTSDVFSTKEYSDFIIDILRPGHRKEGDDR				NA	NA	NA	NA	NA
AK002_02644	462			hypothetical protein	ATGACGTTATGGTTATTTCTTCACATTGCCGGATGCGTATTATTTCTGGGCAATATCGTCACGGCGGCATTCTGGAAGGTGCGGGCGGACCTGAAAGGAGATCCTGCAGAGATCCATCACACGGTAAAAAATGTCATGTTAGCCGATGCGGTGTTCACGCTTCCAGGCCTGCTGCTGATCATCGTTTCAGGCATAGTGATGGGCATGCAAGCCGGATATGGAATGAGCGGTATGAGCTGGCTTACGGCTTCCTTGGTTTTGTTCGGCATTACGGGAATTCTGTGGGCTGGCATATTGATTCCACTGCAAAAAGGAATGATTCGGCATAGTCTGCAGTCCGTAAAGGATGGAGGAATTTCAGCAAGTTATAAGCGAGCTTCAACGTATTGGGCGGTAGGCGGGACGATAGCAACACTGCTGCCGTTCGTTATTTTATACCTCATGGTTAGCAAACCGTACTGA	MTLWLFLHIAGCVLFLGNIVTAAFWKVRADLKGDPAEIHHTVKNVMLADAVFTLPGLLLIIVSGIVMGMQAGYGMSGMSWLTASLVLFGITGILWAGILIPLQKGMIRHSLQSVKDGGISASYKRASTYWAVGGTIATLLPFVILYLMVSKPY				NA	NA	NA	NA	NA
AK002_02645	2508			hypothetical protein	ATGTCCGTTTATGATCCGCAGCTGGTTCAGATGGTTAAGGCTTATCTGCCGAACGGCGCGGAAATGGTACACATGGGTCATACTGCCAAACATGCTGCCGTTATAACCGCAGATGTCACGGGAGATCAGGTGCCTGAAATCGTTGGAGTCTATCGATTGAATGAAGCATTGTATCTATTTGTGCTGCTTTATCGAAATGGTGGTTACGATGTTGTTGCCAATGTCATGGGACAGGGGTATGGGGTTACTTTACTGACGGCAGCTCCCGTGTTAAACCCTAGCCTGGACCATGTGATCGTAGGCTGGCAGCTTGGCTCTATCTGGTCCAAATTGTCGATCTACGCATGGACTCCGGAGGGATACATGGATATAGCGCCTGCTGACGTAAATTTCAGTTATATCGATATCGTGGATCTGCCCGGTCCGGCGGGCTCGGATGGTCTTGCTGAAATCGCGTTATGGATCCACGATACGGGAGAAGCGTATCGAGTCGAAGTGGTCAGGTGGGACCGAGGAATGTTAGTGCCTGCAACGGATGCTTACCCTTATTATTTTCCTGCCGTCGTTCAGTATTACGAGAGATTGACGCACGAACATCCGGATTACGCTTATTATTGGTACTACTTGGCAGACGCGCAATACCGGGCAGGGATGCAGGAGGCCGCGCTTGTGTCGGTCCGTAAAGCACTTGAGTTCGCAGAGCCTTACCCTTCACGCGAGATTCTGCTTGAGCTTGAGAGCCGGATCAAGGAAATGCTGGCAAGCAGGGGGCAATCGCAGACCCTTGGCCGATTATTTCCGGCATCCGTGAAAACAACGAGCGGAACAAAGTGGGGATACATCGACCGTAGCGGCAGCATGGTCATTCAACCCAAGTATGAGGATGCTCAGGATTTCCAGGACAATGGTCTTGCAGTCGTTGGCGATGACGGCCGTTATGGGCTCATCGACAGGTTCGCCCGTTTCGTCGTGGAGCCCAAGTATCAGTCCATCAGTCCATTCTTGGAACATCGGGCGACCGTGATCGATCGTCAAGGCTTTCAAATGATCAACGAACAAGGGGAAGTGCTGACAAGGCGGAGTTATCCATATATCGCGGGGCTTAGCGAAGGAAGAGCCGTATACTATGTTACCGATTCCGGCAGCGGTGATGGCGCAAACAGCCGATACGGCTACCTCGATGCCGAGGGTCTGGAGGCGATCCCTGCGCAGTATGAGGAAGCGAATGATTTTGCAGGCGGTAAAGCGGTAGTGAAAATTAAAGAAAATCTTTATGCCCTCATCGATCTTCAGGGGCGCCAATTGGCCACCTATCCGTTCGCTTACGTTGGACCGCAAGGTGATGGCATGATAGCCTTCCAGAAGGAAAGCGCCGGGAAGTACGGATATATCGATGAACAGGGGAACGTTGTCATCCCGCCGGCTTACACTTCGGCATTTCCTTTCCATCGCGGCAGAGCTATCGTTAATACATCTGAAGATTACCGATCAATGTATGGCGTCATTAATGTACGGGGGAAATGGGTCATCCAGCCGGAGTATAACGACATCCGGGATTTGAATGAGGACCGGTTTGCGCTCGGGCGCGCGATTGATCCTGCCCAGCCGTATATTGGCTCCATCTATGCCATCGCAGATTGGGACGGAAGGAAGCTGTCCGATTATGTATATCGTGACGTTCTTGAATTCAAGCATGGTTTGGCCTCGGTATATGATGCAATACAGACGTATTTCATCGATCGAACAGGCCAACCGGCGCCGGGATATCCCCGCGTGAACGGCAGCGGTTCATTTACGCTGGAACCAGGCAGCTTGATAAAGGCCATGGTCGATCAGAGGCTGTCGTATCTGGATCGATCGGGCCGCGTCATATGGAAGCAGAATACGGTAATTCCGTTACACCCTCCTTATCAGGTCGTAGAGGAGAAGTATAAACCCAATCCGGATTACTTAGTTTATTATCCTCAGATCGAGGGAATGCGGGATCGGGCTGCCGAGCAAGCGGTTAATAACAAGCTTAAAGACATGTCTCAAGTAAAGTTTATTCCGGCGGACCAGCAGCTGGAATATGCTTATACAGGCGATTTTGACGTCATTTTCTACAAGGAGCAGCTGCTTGTACTCGAGCTGAACGGTTATCATTATCCCTTCGGTGCCGCGCATGGCATGCCGACCCGAACCTTTGCCTTGATTAACCTGGGGAACGGCAGCATGTATTCGCTAAAGGATTTGTTTAAGCCAGGCAGCGATTATGTGCAGGAGCTCAGCCGGATCGTCGGCAAGCAGATCAAGGAAGATCCTCAGTATTCGTACGTGTTCCCGGACAGTTATACGGGAATCGCTCAAGACCAGTCCTTCTATGTGACGGATCATGCGATTCATCTGGTGTTTGCGCCTTACGAGATTGCTCCTTACGCCGCGGGTTTTCCGACATTCACCATTCCGTTTGCACAGATCCAGGATATCATCAATACCGAAGGTGAATTCTGGAAGGCGTTCCATTCCTGA	MSVYDPQLVQMVKAYLPNGAEMVHMGHTAKHAAVITADVTGDQVPEIVGVYRLNEALYLFVLLYRNGGYDVVANVMGQGYGVTLLTAAPVLNPSLDHVIVGWQLGSIWSKLSIYAWTPEGYMDIAPADVNFSYIDIVDLPGPAGSDGLAEIALWIHDTGEAYRVEVVRWDRGMLVPATDAYPYYFPAVVQYYERLTHEHPDYAYYWYYLADAQYRAGMQEAALVSVRKALEFAEPYPSREILLELESRIKEMLASRGQSQTLGRLFPASVKTTSGTKWGYIDRSGSMVIQPKYEDAQDFQDNGLAVVGDDGRYGLIDRFARFVVEPKYQSISPFLEHRATVIDRQGFQMINEQGEVLTRRSYPYIAGLSEGRAVYYVTDSGSGDGANSRYGYLDAEGLEAIPAQYEEANDFAGGKAVVKIKENLYALIDLQGRQLATYPFAYVGPQGDGMIAFQKESAGKYGYIDEQGNVVIPPAYTSAFPFHRGRAIVNTSEDYRSMYGVINVRGKWVIQPEYNDIRDLNEDRFALGRAIDPAQPYIGSIYAIADWDGRKLSDYVYRDVLEFKHGLASVYDAIQTYFIDRTGQPAPGYPRVNGSGSFTLEPGSLIKAMVDQRLSYLDRSGRVIWKQNTVIPLHPPYQVVEEKYKPNPDYLVYYPQIEGMRDRAAEQAVNNKLKDMSQVKFIPADQQLEYAYTGDFDVIFYKEQLLVLELNGYHYPFGAAHGMPTRTFALINLGNGSMYSLKDLFKPGSDYVQELSRIVGKQIKEDPQYSYVFPDSYTGIAQDQSFYVTDHAIHLVFAPYEIAPYAAGFPTFTIPFAQIQDIINTEGEFWKAFHS				NA	NA	NA	NA	NA
AK002_02646	1218			hypothetical protein	GTGGTAACATTTTTTCTTCTTATTATTTATCTTGCCTTCATTAGTTTAGGGCTTCCGGATTCGCTGCTTGGTGTCGCCTGGCCGGCCATGCAGCCGGATATTGGAGCGGCCTTTGAATCCGCGGGTTTACTGTCGATGATGGTAACCGGAGGCACGATCGTGTCCAGCCTGTTCAGCGGAAGCGTGATCGAACGCTTCGGGACGGGGATCGTTACGCTGATCAGCTGTTTGCTGACGGCCAGTGCGCTGCTCGGGTTTTCGTTTGCGCCATCGTTGTTCTGGCTCATTCTGCTGGCGATTCCCCTTGGTTTAGGCGCAGGGGCAGTTGATGCAGGGTTGAACAATTACGTGGCAAACCATTATAAGGCCCATCATATGAGCTGGCTGCACTGCTTCTGGGGCGTCGGCGCAACGTTAGGACCGATCATCATGTCCTATTCCATGGGGACCGACAATGCATGGAGAGACGGATATTATACCGTATCGATCCTGCAATTCGTACTGGTCTTCATCCTGCTGCTCACGTTACCGCTATGGAAGATCGTGGCGAGCCGACATCAGCCTCAAGACATGCAGGACGTACATACGGGAACCGACTCCGCGAGCAGAGGGGAAGCCATGGTCCAGAAACGCGGGAATCCGCTGCAGATCAAAGGGGTAAAGGTTACCTTGCTGGTATTTTTGTTCTATTGCGGTGTGGAAATGACGGTCGGTTTATGGGGAGCAAGCTTTTTGGTAGGGGCCAGGGGGCTGCCATTGGAAACAGCGGCAGTCTGGGTGTCCATGTATTACGGGGGCATTACGGTCGGCCGCTTCATAACCGGATTCGTGACGCTGAAGATCAACAATCTCACCCTCATACGGGCCGGGCAGGTGACGGCTATTGCAGGGGCCGTCCTGTTATTGCTGCCGCTGCATCCCTATCTGTCCCTCATCGGTTTGATTGTCATCGGACTCGGCCTTGCGCCCATATTTCCTTGCATGCTGCATGAAACGCCGGCGCGCTTCGGCAGAGCCCAATCGTCCAGAATCATGGGGTATCAAATGGCTGTTGCCTACACAGGCACAACGATACTGCCCCCGCTCTTTGGGATCGTTGCAGCCCAGATATCCATCGGGTTGTTTCCCATCGTCATCCTGTTGTTTGCTCTGATCATGATGCTGAGCTCCGAAAAGGTCAACGGGATCCTCTATAAAAGCGGGAAGAGCACGGTTTGA	MVTFFLLIIYLAFISLGLPDSLLGVAWPAMQPDIGAAFESAGLLSMMVTGGTIVSSLFSGSVIERFGTGIVTLISCLLTASALLGFSFAPSLFWLILLAIPLGLGAGAVDAGLNNYVANHYKAHHMSWLHCFWGVGATLGPIIMSYSMGTDNAWRDGYYTVSILQFVLVFILLLTLPLWKIVASRHQPQDMQDVHTGTDSASRGEAMVQKRGNPLQIKGVKVTLLVFLFYCGVEMTVGLWGASFLVGARGLPLETAAVWVSMYYGGITVGRFITGFVTLKINNLTLIRAGQVTAIAGAVLLLLPLHPYLSLIGLIVIGLGLAPIFPCMLHETPARFGRAQSSRIMGYQMAVAYTGTTILPPLFGIVAAQISIGLFPIVILLFALIMMLSSEKVNGILYKSGKSTV				NA	NA	NA	NA	NA
AK002_02647	969	degA_2	COG1609	HTH-type transcriptional regulator DegA	ATGTCAAGTATTAAAGATGTAGCCAACTTAGCTGGTGTAGCTGTGGGCACCGTGTCCCGTGTCATTAACAATTCGGGTGCCGTTAAGCCTGCTACACGCAGAAAAGTGGAGATGGCCATACAAGAGTTAAATTATATCCCTAATGAGATTGCCCGAAATTTCAAAATGCGAAAGTCCAAGATGGTAGCCCTGCTGCTACCCAGTATCTGGCATCCTTTTTTCTCGGAATTAGCTTATTACATAGAAGATGAGTTGGATCAAGAAGGTTTTAAGCTCATGCTGTGTAATAGCGGCGGCAAACCTGAGAAGGAATTGTATTATCTTGATATGCTTCAACAAAACAAAGTGGCAGGTATTGTCGGCATTACGTACAACGATATCGAAAACGACGTAAGCAACGACATCCCGATTGTCAGTATAGACAGGCACTTCAACAAGAAAATCACATGCGTAACTTCGGATAATTATGAAGGAGGGCGTCTGGCGTTAAGGGAGCTTGTCAAAGCGGGTGCCCGTAAGCCGGCTTTTATGGGAAGCGTCACATCCGTTTTCAGTGAAACTATGAATCGGAGAGAAGGCTTTATTCATGAAGCTAAAGCAATGGGAGTCGACTATGTTATTTACGAAAAGCCAGACCCCGTTGTAGACGATGAAGCCTATTTTTGCGAGTTTCTAGATAAGTATCGGGATGTGGACGGCATTTTTGCTATTACGGATATGTTCGCTGCCAAGTATATCGAAAGAGCAGGTAGACTGGGCATTCGCGTTCCGGAGGATGTAAAGGTCATCGGATATGACGGGATTCAGGATCATCCGTATTTCCATCCGATATTGTCAACGATCAGACAACCTGTAGAGGAGATGGCGCGTACGACGATCAGGCTGCTCTTCAAAAAGATCGATGGCGAAACATTGGACCGGGAAGTTTATCGTCTTCCGGTCATATTTAGACAAGGTGAAACGACTTGA	MSSIKDVANLAGVAVGTVSRVINNSGAVKPATRRKVEMAIQELNYIPNEIARNFKMRKSKMVALLLPSIWHPFFSELAYYIEDELDQEGFKLMLCNSGGKPEKELYYLDMLQQNKVAGIVGITYNDIENDVSNDIPIVSIDRHFNKKITCVTSDNYEGGRLALRELVKAGARKPAFMGSVTSVFSETMNRREGFIHEAKAMGVDYVIYEKPDPVVDDEAYFCEFLDKYRDVDGIFAITDMFAAKYIERAGRLGIRVPEDVKVIGYDGIQDHPYFHPILSTIRQPVEEMARTTIRLLFKKIDGETLDREVYRLPVIFRQGETT	PGPT0017992_15663	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
AK002_02648	951	yteP_21	COG4209	putative multiple-sugar transport system permease YteP	GTGATTTCACGAGATTCCGGGGGACAACAACCCCTCATTAAAGAAAATCGTAAAACTTGGAGTCGAGTCAAACGCAACTACGAGCTGTATCTGTTCCTGCTGCCGATTATTCTGGTTTATCTCCTGTTCAAGTACTATCCGATGTACGGAGTACAAATTGCATTTAAGGATTTTTCACCGAGCCAGGGCATTTGGGGCAGCGAATGGGTGGGTTTCCAGCATTTTATTGATTTTTTTAATTCTTATAATTTCTGGACCATCATGAAAAATACGCTAACACTCAGTTTCCTATCGCTTGTGTTTAGCTTCCCGGCTCCGATTATTATTGCGATCATGCTGAATCAGATGCTGGGCAAGCGTTACAAGAAATTTATTCAGACCGTCATTTATGCACCGCACTTTATATCTACCGTTGTGCTCGTCGGTATGCTGCATGTTTTTTTATCTCCAAACAGTGGTCTCGTGAACCTCATCATTACCTGGTTCGGCGGGGAACCCATTCTATTCATGGCTGACGAAGGATGGTTCCGTCCATTGTACATTTTGTCAGGCATATGGCAAGAGACTGGTTTCGCTACGATTATTTACCTGGCTGCGCTTGCCGGGGTCAATCCGGAACTGCATGAAGCCGCGATTATGGATGGAGCAAGTAAATGGAAGCGAGTATGGTACGTGGACATTCCCTCGATCTTGCCAACCATTGTCATTCTTCTGATTCTCGCACTCGGGAACGTCATGAGCATCGGTTTCGAGAAAGCATTTCTAATGCAAAGCGATCTTAACTATGCGACTTCGAATATTATACCGACCTATGTATATGAATTGGGGATTCAGAAGGCGCAGTACAGCTTTTCTACGGCAGTCGGACTGTTTAATTCCATCATCAATATCATCCTGATTGTCACCGTCAACCGGGTCGCCAAAAAATTAACGGAAACCAGTCTTTGGTAG	MISRDSGGQQPLIKENRKTWSRVKRNYELYLFLLPIILVYLLFKYYPMYGVQIAFKDFSPSQGIWGSEWVGFQHFIDFFNSYNFWTIMKNTLTLSFLSLVFSFPAPIIIAIMLNQMLGKRYKKFIQTVIYAPHFISTVVLVGMLHVFLSPNSGLVNLIITWFGGEPILFMADEGWFRPLYILSGIWQETGFATIIYLAALAGVNPELHEAAIMDGASKWKRVWYVDIPSILPTIVILLILALGNVMSIGFEKAFLMQSDLNYATSNIIPTYVYELGIQKAQYSFSTAVGLFNSIINIILIVTVNRVAKKLTETSLW	PGPT0017250_1526	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02649	897	melC_9	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	TTGAACCAGTTATTGAAGAGAAAAAGCAGAGGAGACGCATGGTTCGACGCCATCAACTATTTCTTCTTGACCGTAGTCATGCTGATCGTATTATTTCCGCTGTATTTTGTGCTGATTGCTTCATTCAGTGATCCCAATCTCATCTATTCGGGGGAAGTATGGTTATTTCCGAAGGGCTTTACGCTCGATGGCTATGAACGAATATTCAATGACTCCTCCATTTGGATCGGGTATGCCAACTCCCTGCTATACGCGGGTATTGGAACTTTGATCGGAGTAGCGGTTACCGTATTTGCCGCTTACCCGTTAGCCCGTAAGGATCTGGTTGGAAGACCTGTTATCATGTGGTTCTTATTGATCACCATGTTTTTTAGCGGCGGGTTGATTCCTACGTATTTGCTAATCAAGGATCTTCACATGCTTAACACGATCTGGGCACTTGTGATCCCCGGTGCCGGCGGCATCATGAATGTCATTATCGTAAGGACTTTTTTTCAGTCCTCCATCCCGGATGAGATGTGGGAAGCCGCTTCGATCGACGGTTGTTCCAACACCCGATTTTTCTGGAGCATTGTATTGCCTTTATCCAAGTCCATAATAGCCGTCATGGTACTGTATCATGTCGTCGGCTTCTGGAACGGTTTCTTTGATGCTCTGATCTATTTGAACGACGAAAGTAAATATCCGCTGCAACTGGTGCTTCGCAACATTCTCGTCCAGAATCAGGTGAACTCCGGCATGATGGTGGACGTGGAATCCTACGCGGCGAAGATGCGCGTAACGGAGCTGATCAAATACGGCGTCATCATTGTATCCAGTCTGCCGCTGCTGATTCTCTATCCTTTCCTGCAGAAGTACTTTGTCAAAGGCGTTATGATCGGATCGATCAAAGGATGA	MNQLLKRKSRGDAWFDAINYFFLTVVMLIVLFPLYFVLIASFSDPNLIYSGEVWLFPKGFTLDGYERIFNDSSIWIGYANSLLYAGIGTLIGVAVTVFAAYPLARKDLVGRPVIMWFLLITMFFSGGLIPTYLLIKDLHMLNTIWALVIPGAGGIMNVIIVRTFFQSSIPDEMWEAASIDGCSNTRFFWSIVLPLSKSIIAVMVLYHVVGFWNGFFDALIYLNDESKYPLQLVLRNILVQNQVNSGMMVDVESYAAKMRVTELIKYGVIIVSSLPLLILYPFLQKYFVKGVMIGSIKG	PGPT0017255_1241	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02650	1614			hypothetical protein	ATGAAATCTGTATTCAAAAGAGCGGGGATTCTTATGTTAGCCGGAGCTTTTGCGCTGAGTGGATGTTCAGGAGACGCCAAGAATCAGTCGGATAATCCTGATCAGGCTGCGAATTTTAACAAAACGGGTCTTCCGATTGTGAATGAACCGGTATCGTTAAAGATGGTATCCCCGAAGGCAGCATTGGCGCCAGAGTATTCGCAAATGGAAATTTTCAAACGATTGGAAGCGGAAACCAACGTTAAGATTGAGTGGGAGAACATTCCGGACACGGACTTTACAGAGAAGAAAAATTTGCTGCTGGCCAGCGGCAACTTACCGGATGCTTTTTACGGAGCCGGATTCTCCGATTACGAGCTGGTTACTTACGGAGAAGATGGTACCATCCTCCCGCTGGAAGATTTAATTGATCAATATGCGCCTAATCTGAAAGCGCTCTTAGATCGCCGTCCTGACATTAAGTCCTCAATCACGGCACCGGATGGGCATATATACGGGCTGCCTTCGTGGGAAGAGAACAATCTTGGAACAAACCCCTTCTTTCACGTCATCAATAAAAATTGGCTCGACAAACTGGGCCTGAAAATGCCGCAAACATTGGATGAATATACAGAAGCTTTAGTTGCCTTTAAAACACAGGATCCAAACGGCAACGGCAAGGCCGACGAAATTCCGTTAAGCTTTATGCACATGCAGTGGTGTATGGATATTGCTGGCATATTCGGAGCTTTCGGACTTCCGGATAACATGGAACATCGGATCGTCCGCGACGGAAAAGTGATCTTTACTGCTACGCAGCCTGAATATAAGGAAGCATTGAAATATTTCCATGAAAAATGGTATAAGCAGGGCTTGATTGATCCTGAATCGTTCACCCAGGACGCCGCTCAGTATCTGGCCAAAGGGAAAACATCAGCCGAAACACTCGGTTCCTATATCTGGTGGGAAGTCGATGAGGTGGTTGGACCGGAGCGAAGCGAGGATTATGCGTTGCTGTCTCCGCTCAAAGGACCGAACGGGGATCAATTGATCGGTCGCGGCAACGGTGGCGGTCCAGGACGCGGCGCTTTCGTGATTACAAAAGAGAACAAGAATCCGGAAATTACGATGCGTTGGATCGATCAGCAGTATGAGCCCTACATGGCTGCTCAAATCCACTGGGGTCCACTGGATATCGTATTCGAGAAGGACGAGAATGGGAAATTGGTAAACCTGCCGCTTCCCGAAGGGACTTCTGCAGGCGAATTCCGTCAAAAAGTCGCTCCAGGCGCTGGAGGACCAGGTGTTATTACCATCGAAGATTTGGGAAAAGTCGTTGATCTGGAGCCTAGAGCCCAGCAGCGCGTTAAAGACTTGGAAAAATATTACGATCCCTATATGGAAAAGGAAAACTATCCGAGTATCTTCTTCGAGCCGGAGGAACTGGACAAAATCAATCGAATTGAGCCCGAATTGATTAAATATGTCAATACCCAGCGAGGAAAATTCATTGTTGATGGCGGCGTCGATGAGCAGTGGGACAGCTATGTGAAGACCCTGGAGAAAATGGGCTTGAACGAATTGATGGAGATTTATCAAAATGGGCTAGATCGTTATAACGCAAATCTAAAATAG	MKSVFKRAGILMLAGAFALSGCSGDAKNQSDNPDQAANFNKTGLPIVNEPVSLKMVSPKAALAPEYSQMEIFKRLEAETNVKIEWENIPDTDFTEKKNLLLASGNLPDAFYGAGFSDYELVTYGEDGTILPLEDLIDQYAPNLKALLDRRPDIKSSITAPDGHIYGLPSWEENNLGTNPFFHVINKNWLDKLGLKMPQTLDEYTEALVAFKTQDPNGNGKADEIPLSFMHMQWCMDIAGIFGAFGLPDNMEHRIVRDGKVIFTATQPEYKEALKYFHEKWYKQGLIDPESFTQDAAQYLAKGKTSAETLGSYIWWEVDEVVGPERSEDYALLSPLKGPNGDQLIGRGNGGGPGRGAFVITKENKNPEITMRWIDQQYEPYMAAQIHWGPLDIVFEKDENGKLVNLPLPEGTSAGEFRQKVAPGAGGPGVITIEDLGKVVDLEPRAQQRVKDLEKYYDPYMEKENYPSIFFEPEELDKINRIEPELIKYVNTQRGKFIVDGGVDEQWDSYVKTLEKMGLNELMEIYQNGLDRYNANLK	PGPT0017245_1871	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02651	2466	RBKS		Ribokinase	GTGCTTGATGTAATAGCCATTGGGGAATTATTGATAGACTTTACTCCGGTAGGCCGTTCAGTTGGGGGCAACGAGCAATTAGAATGCAACCCCGGAGGGGCTCCGGCTAACGTAGCAGCTGCGCTGTCCCGTTTAGGTGCCAAAGCTGCATTAATCAGCAAGGTTGGTAAGGATCACTTCGGTTCGTTTCTGCACAATACGTTGCTTAGCTGCGAGGTCGACGTGAGTGCGCTTTCGTTTACGGATGAAGCCAAAACAACGCTGGCATTTGTCCATTTGGATGACAGCGGAGACCGATCGTTCAGCTTCTACCGGCAACCGGGAGCGGATACCTTGTTGCGCTCGGAGGATGTCCCGCTCGACAGGATTGGGAACTGCCAGGTGCTCCACTTTGGTTCATTGTCAATGACCCACGAGCCGGCACGTTCAGCAACAAGAGCGGCAGTCGTTAAGGCCCAGGAGGCCAGAGTTTTGCTTTCATTCGATCCGAACATCCGATTTTCGTTATGGGGGAGCAAGGAGGAAGCGAAGCAAAATATCCTGTGGGGCATGAAGCATGCAGATATCTTGAAAATATCAGAAGAAGAGCTTTGCTTTATCACGGGTATAACCGATGTTGAGAAAGGCTCACTCATGTTACAGCAACAATTCGGCATCGCCTTTATTGTCGTTACGATAGGTGAACAAGGCTGCTATTACCGGGTGGCTGCCCATGAAGGTTATGTCCCAGGTTTCAAAGTGAATACCATCGATACGACCGGGGCCGGCGACGCTTTTCTAGGCTGCTTATTATATCAAATACTGGAATGCAACATTTCTTTGAATAAATTAGAAAAACAGCAAATCATTAGCATGCTGACTTTTGCCAATGCTGGCGGTGCATTAGTGACAACACGGAAAGGGGCTCTTCAGTCAATGCCGACGATAGATGAAATCAATAAGATCATGGAGTCACATAAACAGATGGGCGAGAGATTTAGACCGGGAATTCATTTTTCGCCTCCATCCCATTGGATGAACGATCCGAACGGATTATTCTATTACGAGGGAGAATATCATCTGTTTTATCAACACCATCCCTTTAGCAATAAATGGGGGCCGATGCACTGGGGCCATGCGGTAAGCCAGGATCTGATTCATTGGCTGCATGAGCCGATCGCTCTGTTCCCGGACGAGCATGGAGCCATTTTTTCCGGCTGCTGTGTAGTTGACTTTAATAACAGCAGCGGATTTTTTGCGGGCGCCCATGGATTGGTTGCGATTTTTACCCATGCGGACACAAGTCCAGAGACCGGGCAGCCACGCCAGCGGCAAAGCTTAGCTTACAGCAGCGATAAAGGCAGAACGTGGCACAAATATGAGGGGAATCCGGTTCTTGCTGAGCCTGGTCTGGTAGACTTCAGGGACCCGAAAGTGTTCTGGCATGCACAAAGTGAGCGGTGGATTATGACCATTGTCGCGGGAGACCATGTCCGGTTTTATGGGTCAAAAAACTTGCGTGATTGGTCGTTTACCGGGGAATTCGGCCGTGAGGAAGGCTCGCATGACGGTGTGTGGGAATGCCCGGATCTCTTTGAATTGCCGATCGATGACAGCGGGCGTTCCAAATGGGTGCTTATCATCAGCATTGGAGATAACCCCTCCTGTCCGGAAGGATCACGCACGCAATATTTTATCGGAGAGTTTGACGGAAATACCTTCATCAACGATAATTCGCCTGATCATATCATGTGGCTGGATCATGGTCGGGACAACTATGCAGGTGTTACCTGGTCGGATCTACCTGAGCAAGACGGACGACGCGTGATCATCGGATGGATGAGCAATTGGAAATATGCGAACGAGACGCCTACCGGCGCCTGGAGAGGCGCAATGACGCTGCCACGCGTTTTGTCATTGACCCATCGGGATGAGGGCATCGTACTAACCCAAATGCCTGTCGGGGAAATCGAGCAGCTTCGAAAAGAATCGTGGGACTGGAATATGCTCACGGTAGCCCCTGAGTTCCCGTATGTGCTGAAGATGAAGGATGACTTGCTGGAGATTGAAGCGGACATCGATATTCGATCCGCCGGCGAGGTTTATATCAAAATGCAATCGTCCGGGCAAAGTGAGACTTCAATCGGATATGATCCTGTACGCCAATGGCTATTCATCGACCGTTCCAAATCAGGCATGACGGATTTTCACGCGTCGTTTGCGTGTAAGCATGGCGCCAGATTGGTTCCGGATAACGGGAAAATCAGGCTGCGTATCTGGCTGGATCGCAATGCGGTTGAAGTGTATGCGAATGAAGGGCTGGTTGCTCTCACGGATCAAATTTTCCCGGATTCCCCGATTAATGAGCTTTCCATAAGTACGGAATCAGGGCAGGTTGTGCTGAACTCGCTCCATGTCCATGCACTTCAGTCTATTCATGCTTCCAATAACAACATAGGACAGACATCAGGGAGGGATGAAGCGTGA	MLDVIAIGELLIDFTPVGRSVGGNEQLECNPGGAPANVAAALSRLGAKAALISKVGKDHFGSFLHNTLLSCEVDVSALSFTDEAKTTLAFVHLDDSGDRSFSFYRQPGADTLLRSEDVPLDRIGNCQVLHFGSLSMTHEPARSATRAAVVKAQEARVLLSFDPNIRFSLWGSKEEAKQNILWGMKHADILKISEEELCFITGITDVEKGSLMLQQQFGIAFIVVTIGEQGCYYRVAAHEGYVPGFKVNTIDTTGAGDAFLGCLLYQILECNISLNKLEKQQIISMLTFANAGGALVTTRKGALQSMPTIDEINKIMESHKQMGERFRPGIHFSPPSHWMNDPNGLFYYEGEYHLFYQHHPFSNKWGPMHWGHAVSQDLIHWLHEPIALFPDEHGAIFSGCCVVDFNNSSGFFAGAHGLVAIFTHADTSPETGQPRQRQSLAYSSDKGRTWHKYEGNPVLAEPGLVDFRDPKVFWHAQSERWIMTIVAGDHVRFYGSKNLRDWSFTGEFGREEGSHDGVWECPDLFELPIDDSGRSKWVLIISIGDNPSCPEGSRTQYFIGEFDGNTFINDNSPDHIMWLDHGRDNYAGVTWSDLPEQDGRRVIIGWMSNWKYANETPTGAWRGAMTLPRVLSLTHRDEGIVLTQMPVGEIEQLRKESWDWNMLTVAPEFPYVLKMKDDLLEIEADIDIRSAGEVYIKMQSSGQSETSIGYDPVRQWLFIDRSKSGMTDFHASFACKHGARLVPDNGKIRLRIWLDRNAVEVYANEGLVALTDQIFPDSPINELSISTESGQVVLNSLHVHALQSIHASNNNIGQTSGRDEA	PGPT0018745_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOSIDASE,PGPT0018745-fruA-K03332	NA	NA
AK002_02652	2295			hypothetical protein	GTGAGCCAAACATCCGACAATCAGGGGCTGATGATGTATTGGCCATTCGATGAAGGAACCGGAGCCAATGCTGTGGAGAGCATATCTCAAGTACGTGATGATATTCAGTACGTATTTAATCAAGCCGAGTTTACGCAATCCTGCGATCCGCAGTGGAAACCGGGAGTCATGGGAAACGGGCTGCTGTTCGACGGGTACTCGACATACATTTCCCATCGGTTTAAAGAGGGAAATGTGAACCGAAAGACAGAATATCGATCAGCACTGAGTATCGGAGTATGGGTGGCTCCCCGTTCCTATGAATGGGGATTTGAAGGTAAGCTGTCAGCCATCGTGAACCGCTACTACATGGATCGCCAGCAGGGTTATCTACTGGGCATGTTTCGTCATGGCTCCTGGTCCTTCCAAGTCGGGCTGGAAGGAGGAGACTGGAAGGAACTTTGGTCGCCGGACGGTCTTGAACTGCCAAAAAACAATTGGTCTTATATCAATGCTGTGTTCGATGGGCATCAAGGGGAAATGAAATTGTACTTAAACGGCAGCGAAATCGCTTCGGCTGAGCTGCCTAGAAATTCCCGTTTGGCCGAAGCGGTCGACACGGAACTACTCATTGGCAAAAATAATCACAGCAGCCAATGGGCTGGCGAATTTAGCCTTCACATGTTTAGCGGTATCATGGATGAACTCAAAATTTATAATCGCGCTTTGAGCGCGGAGGAGATTGCCTCATCTTATCGGCAAGTGTTGAATGTTGCCTGCGGAGGAGTCCATCCGCAATTAGCGTATGATGAGATCAAATTGGATCGGACACCTTTGCTTTTGGATCGACACAGACCGCAGTATCATGCCAGCCCGCCGGCGCATTGGATGAACGAGCCCCACGCGCCGATCTATTTTGATGGTCAATACCACCTATTCTATCAGCATAACCCTCTTGGGCCATTTTTTTATCACATTCATTGGGGACATTGGGTAAGCGAGGACCTGGTGCATTGGCGTGATCTTCCTGTGGCATTAGCCCCTGAAAAGGATTCGCTCGCACCGGATGGGATCTGGTCGGGAAGCGCGACCTACGATGCAGACGGCCTGCCTGTCTTGTTCTTTACAGCAGGCAATGACGGTGCTTCGCCTAATCAGAGCGTGGCGCTTGCACGAAGTACCTATACCCGGGATGGAGACCCGGATCTGGTTCATTGGGTCAAGCATCCGGTACCGTTGATTGTACAGAAGAAGGGCATGGGCGCATTCGGGGATTTCCGGGATCCGTTCGTGTGGAAGGACGATGACGGGTGGTTTGCTTTGGTCGGGTCCGGGATCGAAGGCGAAGGTGGGGCAGCGCTGGCTTTTGAATCTCAGGATATGCTGAGTTGGACTTACAAAGGAGCATTGTTTAAAGCGGATATTCAGAAGTTTCCTTATCTTGGACCCATATGGGAGCTTCCCGTGCTTCTTCCCCTTGGCAGCGATAAGCAGGGTGTGGACAAGCATCTTTTACTGGTCAGCCCTGTGGGACAGGGAGCGGATGTCGAGGTATTCTATTGGATCGGGCAGCTTGACAAGCAAAATCTATCATTTATTCCGGATCAAGAGGAACCGCAATTGATTGACGTTGGTGATTTTCATTTTACCGGCCCGAGCGGAATGGTTGATCCGAAGACCGGCAGAAGGATCATATTTACGATAGCCCAAGGCGACCGGACGCTCGAACTGGAATATCAATCGGGTTGGGCTCACAACGCCGGTTTGCCACTCAGCGTGTGTTTGAGGGAGGATGGACGGTTAGGGATTGAGCCGATTCAGGAGCTTCAATCGCTTCGGGGCTCCAGAAGGCTATCTCTCCAGGACAAATCATTGGCTGAGGCTAATGAACGGCTTCAGGATGTTCAAGGCGACATGCTTGAAATTCAATTGGAAATGGAACCTGGCAGCGCCAAACGATTCGGTATCAAGATCCGTCGTACACCGGATGGAGAAGAAGAGACCCTGCTGTTTTATAATATGAACCAATCCACGTTCTCTGTCGACCGAACAAAAACCACACTTCACCCGGGAGAAAAGTGCGGAGGGATTCAAGGCGGTAATCTGGAGCTCTTAGGGGAGAATTTAAAGCTTCACATTTATTTGGACCGTTCCATGGTCGAAGCCTATGCCAACGGATTGAAAAGCCTGACGACCCGGGTGTATCCGAGCCGTAAGGATGCTTTGGGACTTGAAATTTGGGGAGACGGCAGTCTGACAGTCAAATCGATGGAAGTATGGGATATGAAGCCCATCTGGGAAGAGAGTAGAATTTGA	MSQTSDNQGLMMYWPFDEGTGANAVESISQVRDDIQYVFNQAEFTQSCDPQWKPGVMGNGLLFDGYSTYISHRFKEGNVNRKTEYRSALSIGVWVAPRSYEWGFEGKLSAIVNRYYMDRQQGYLLGMFRHGSWSFQVGLEGGDWKELWSPDGLELPKNNWSYINAVFDGHQGEMKLYLNGSEIASAELPRNSRLAEAVDTELLIGKNNHSSQWAGEFSLHMFSGIMDELKIYNRALSAEEIASSYRQVLNVACGGVHPQLAYDEIKLDRTPLLLDRHRPQYHASPPAHWMNEPHAPIYFDGQYHLFYQHNPLGPFFYHIHWGHWVSEDLVHWRDLPVALAPEKDSLAPDGIWSGSATYDADGLPVLFFTAGNDGASPNQSVALARSTYTRDGDPDLVHWVKHPVPLIVQKKGMGAFGDFRDPFVWKDDDGWFALVGSGIEGEGGAALAFESQDMLSWTYKGALFKADIQKFPYLGPIWELPVLLPLGSDKQGVDKHLLLVSPVGQGADVEVFYWIGQLDKQNLSFIPDQEEPQLIDVGDFHFTGPSGMVDPKTGRRIIFTIAQGDRTLELEYQSGWAHNAGLPLSVCLREDGRLGIEPIQELQSLRGSRRLSLQDKSLAEANERLQDVQGDMLEIQLEMEPGSAKRFGIKIRRTPDGEEETLLFYNMNQSTFSVDRTKTTLHPGEKCGGIQGGNLELLGENLKLHIYLDRSMVEAYANGLKSLTTRVYPSRKDALGLEIWGDGSLTVKSMEVWDMKPIWEESRI	PGPT0018815_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
AK002_02653	1425			hypothetical protein	ATGAAAGAATTTTTCTATCGACCGGAGAACGCCTGGGTAGGGGATGTTATTCCCTATTATGAAGACGGAGAGTTTAAGCTGTTCTACCTGCACGGTTGGCGGGATAATTATCGGGAGGGCCTTGATCACGGCTGGTATCTTGTTGGAACGAAGGATTTCGTCAACTATCGGGAAGAAGGAGCTTGCAAGATTGAAGGCGGTACTGGTCACATTCTGAAAGTGGACGGCATCTACCATATGTTCTATTGTATATTCCCTGAAGGCAAGCAGTTGGTTTGCCATGCAATCAGCAGCGATTTCAAGACTTGGGAGGCGATCCCCGAGGATACCTTTGCCGCTGATGACCGCATCTATGAACTTTCTGATTGGCGCGACCCCTTCGTATTTTGGAATGAGGAGGAAGATCAATACTGGATGTTACTCGCAGCGATGGCAAAAGGACCAACCAATCGAAAAGGATGCACGGCGCTGCTGTCTTCCAAGGATCTTAAAACTTGGGAATATCGCGAGCCTATGTACGCGCCAAATCTGCACGTGGGAGCACATGAATGCCCCGATTTGTTTCGGATCGGGGATTGGTGGTATTTGGTCTACTCCTCTTATACCGGACGATTTGCGACTTTTTACCGAATGAGTCGTAGTCTGAATGGCCCTTGGATTACCCCGAAGGAAGATACGTTCGACGGGCGGGCTTTCTATGCGGCTAAATCCGTAACTGACGGACAGAAACGCTACTTGTTTGGTTGGAATCCAACGAAAAATGACGACTTATTTGGCTGGAATCCACCGAAGTCCCTTGGCAAGGATTACGACACTTGGGACTGGGGCGGGAATTTGGTTGTGCATGAAATCATTCAGCGTCCGGATGGTACCCTTAGTGTCAAAGTGCCTGGAACAGTCGATGCTGCATTTAAGGAACCGGTGCCCGTGCGTTTTAACCGCGTTGAGGGAGCGTGGATCGATTCAGATCGCTCGCTCTCCTGCGAGACGCCGTATGGGTTTGCTGGCTGCACGACCCGGGCGGATCTCCCAGATCAATGCAAAATATCCGCGAGTGTTTCATTCTCCGAACAAACGCAAGGCGTTGGGTTCATGCTCCGAACCGAGGACACCTTGGATGCGGCCTATTATGTCGCGCTGGAACCGCAGCGAAACCGCCTTACCTTCCGGGGGGCGATTATGCAGTCGGAAGAGGGAGGGAAGACGTTCCCGTATGAGGTAGAGCTGGAGCGTCCGATAGAGCTTATTCCCGATCGTCCTTACGAAATCAAAGTCTTCATGGACGGATCGATTTGTGAAATTTACGTGGATGAGAACATAGCGATGAGTTCCAGAATGTATGATATCGCGCGAGGAAAGCTTGGCTTGTTTGTCAGTCAGGGCAGTGCTCAATTCAGCGATGTTAAAATCGAGACCCGAGGATAA	MKEFFYRPENAWVGDVIPYYEDGEFKLFYLHGWRDNYREGLDHGWYLVGTKDFVNYREEGACKIEGGTGHILKVDGIYHMFYCIFPEGKQLVCHAISSDFKTWEAIPEDTFAADDRIYELSDWRDPFVFWNEEEDQYWMLLAAMAKGPTNRKGCTALLSSKDLKTWEYREPMYAPNLHVGAHECPDLFRIGDWWYLVYSSYTGRFATFYRMSRSLNGPWITPKEDTFDGRAFYAAKSVTDGQKRYLFGWNPTKNDDLFGWNPPKSLGKDYDTWDWGGNLVVHEIIQRPDGTLSVKVPGTVDAAFKEPVPVRFNRVEGAWIDSDRSLSCETPYGFAGCTTRADLPDQCKISASVSFSEQTQGVGFMLRTEDTLDAAYYVALEPQRNRLTFRGAIMQSEEGGKTFPYEVELERPIELIPDRPYEIKVFMDGSICEIYVDENIAMSSRMYDIARGKLGLFVSQGSAQFSDVKIETRG	PGPT0018815_2361	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
AK002_02654	993	ascG	COG1609	HTH-type transcriptional regulator AscG	ATGGCTAATAAAAGGGTTACTTTAGTTCAAGTCGCAAAAGATGCAGGAGTTTCTCCCGCAACGGTTTCCCATTTCCTGAACGGAAACTTTCAGAAAATGGGCTCGGAGACAAAAGAAAAAATCAGTCTTTCGATAACCAAGCTAGGTTACCAAGTGAACCCTGTTGCCAAAAGTCTCATCACGGGCAGAATGCACACAATTGGACTCGTTTTATCAGACAGTACGGACGACGGTTATTTTGAAGACTTATATTTCCTGCATTTTGCCCAAGTCATCAAACATCAATTAAAAGCGTTGGGATATAAGATTATTTTGCTGGACTTTGAAGAAATCTTCATGAATATCCAGATGGTCGATGGAATCATCGTCAAAGCGACCATGGATACGGAAAAATTCATGCCCAGGTTAATGAACCTTAACGTACCGGTCATTACAATCGGACGCCACAATTTATCTTACGGTGCGCACATGCTCCGCGTCGACGACTACCTAAGCGGTCAAACCGGCGTGAACCATTTATTATCCCGCGGCTATCAGAAATTGGTCATATTGACTTATCCGCATGGTCAAGTTCCCGGATTCGATGATCGGCTGAACGGAGCCAGCGAGGCTTTGCGGCAGAACGGCAAACTAACGACGGTGATTACAGGGGATATGACGGAAGCTTTCGGATACGATACCGTAGTTAACTTGGTCCAAAACAGCCAGCTGCCGCAAGCGTTGTTTTGCTTAAATGACATATCCGCCATCGGAGCCTTAAAAGCGTGCAAAGATTTGAACATTTCCATTCCGGATAAGCTCGCCGTATTGGGCGTCGACGATATGCCAACCGTCTCCGAACTGCTAAGCTTATCGACCATACGGCATCCTATCAACGAATTGGCTGAAGCCGCTGCCAAACTGATGATCAAATCGATCGAGTCTGACGGTCAGCGCATCGAACCTGTCGAAGAAGTATTTCCGACAGAACTAATGGTTCGGCGAACCAGCTAG	MANKRVTLVQVAKDAGVSPATVSHFLNGNFQKMGSETKEKISLSITKLGYQVNPVAKSLITGRMHTIGLVLSDSTDDGYFEDLYFLHFAQVIKHQLKALGYKIILLDFEEIFMNIQMVDGIIVKATMDTEKFMPRLMNLNVPVITIGRHNLSYGAHMLRVDDYLSGQTGVNHLLSRGYQKLVILTYPHGQVPGFDDRLNGASEALRQNGKLTTVITGDMTEAFGYDTVVNLVQNSQLPQALFCLNDISAIGALKACKDLNISIPDKLAVLGVDDMPTVSELLSLSTIRHPINELAEAAAKLMIKSIESDGQRIEPVEEVFPTELMVRRTS	PGPT0017992_14265	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
AK002_02655	1089			hypothetical protein	ATGCAATCGATGAATCAACTTTTTGGTAGAATGAAAGGAAAAAGCAGAGCGATTACGGCGGAGAATCCGCATGGCTTAAAAGGTGAAGGAGGCAAAGCAGCCGGCCCGCTTGGGGTTGCTCGCAAAGGTAAAGCTTTTATCTCGTTAGCCCAAGGCGAAACCGCCACACTCGTCGATATTGAAGGCACTGGCATCATTCAGCACATCTGGATGACCGTGACAGACCAAACCGAGACCGGTTGGTTCGTATTGCGTGACTTGGTATTGCGGATGTATTGGGACGATGAAAAATCCCCCTCTGTGGAAGCTCCGCTGGGCGATTTCTTTTGCAACGGCTTCGGCGCCAGAGCAATCGTCAATTCTTTGCCGATTGTCGTGAATCCGGTTGGTGGCATGAACAGTTACTTTGCGATGCCTTTCAAAAAAGCAGCCAGAGTAACTATAACGAATGAACATCCCCAAGAGATCGAGGCGTTTTTCTACCAGTTTGATTATATGCTTGTCGACGAACTCCCGGAGGATACGGAATATTTCCATGCCCAATTTCGCAGAGAAAATCCAACCCAGCTTGGGCAGGATTATACAATTATTGATGGAATAAAAGGAAGAGGGAAATATATCGGCACTTACATGGCCTGGACTTCCTTATCGCGTTACTGGTATGGTGAAGGGGAAGTGAAATTTTATCTCGACGGCGACCAAGAATGGCCTACCATCTGCGGGACTGGTGCGGAGGATTACTTCGGTGGTGCATGGGGCTTCGTGAAATACGATAACGGTAACCCGGTGCATGAACAAACCTACTCCACTCCCTTTATGGGTTTCCCGCACTTCCAAGTAACAGATAATACGAGATCGCATATTTACGATGGAGCTGCTTGCCCGATGCGCGGCTTCTATCGCTGGCATATTCTTGACCCCATTTTGTTTGAAGAGGATTTACGTGTCACCGTCCAACAGATCGGACATGACGGAAAGGCCTTATTTGAAAGAAGTGACGATGTGAGCTCCGTTTGCTATTGGTATCAGACCGAACCGCATCAAGCGTTTCCTACACTACCAGGTGTTCTGGAAAGACGCCCGCGCTAA	MQSMNQLFGRMKGKSRAITAENPHGLKGEGGKAAGPLGVARKGKAFISLAQGETATLVDIEGTGIIQHIWMTVTDQTETGWFVLRDLVLRMYWDDEKSPSVEAPLGDFFCNGFGARAIVNSLPIVVNPVGGMNSYFAMPFKKAARVTITNEHPQEIEAFFYQFDYMLVDELPEDTEYFHAQFRRENPTQLGQDYTIIDGIKGRGKYIGTYMAWTSLSRYWYGEGEVKFYLDGDQEWPTICGTGAEDYFGGAWGFVKYDNGNPVHEQTYSTPFMGFPHFQVTDNTRSHIYDGAACPMRGFYRWHILDPILFEEDLRVTVQQIGHDGKALFERSDDVSSVCYWYQTEPHQAFPTLPGVLERRPR				NA	NA	NA	NA	NA
AK002_02656	834	ngcG_8	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGCTATCCAGAAAAAAAGCTTTATCCTTCCTATTGTACTTTATCGTAATCGCAATCCTGGTTGTCCAAATCTACCCGGTTATCTGGCTGATGTTGTCCAGCTTCAAATCGAGCATCGAGCTAACGACAAAACCATTTTCGCTTCCGACGTTATGGTCATTCGACAACTATGCCGCTGTATTTCGAGATAGCAGCCTGCTGCTCTACATCAAAAACACGGCCATCGTTACGTTCAGTTGCCTGCTACTTATCGTCTTCTTAAGTTCTACAGCTGGCTTTGCTCTCGTCAAAATGCAGTCAAGGCTGAATTCAAAGTTGCTGCTATTCTTTACGATCGGAATCATGATTCCGATTCAGGTTACCTTAATCCCGCTTTTTATTATGTACAAAGAATCTGGGCTGCTGAACTCATATCTGGCGCTGATCCTTCCCCAAGTCGGATTTGCCCTGCCTCTATCGATATTGATCTTCACCAGCTTTTACCGATATGTACCCAATGAATTGATCGAAGCTGCCGTCATCGACGGATGTAATATTTATCAGGTCTTTTTCAAAATCATTTCTCCACTGACCATCAACACCACAATCACTGTTGCTTCCATCAATTTCATTTTCATTTGGAACGATTTTATTTTTTCAAACACGTTTACGAACGACAAACAATATAAAACCATCGCGGTCGGTCTTCAAGAGTTCATCGGTGCTTTCGGAGCAACCGATTGGGGACAGACGTTTGCGGCCATCTGCATCAGTATCATCCCGATCATCGTCACCTACTTGTTACTGAATAAATATGTGATGGCTGGCGTTTCCGACGGTGCTGTTAAAGGATAA	MLSRKKALSFLLYFIVIAILVVQIYPVIWLMLSSFKSSIELTTKPFSLPTLWSFDNYAAVFRDSSLLLYIKNTAIVTFSCLLLIVFLSSTAGFALVKMQSRLNSKLLLFFTIGIMIPIQVTLIPLFIMYKESGLLNSYLALILPQVGFALPLSILIFTSFYRYVPNELIEAAVIDGCNIYQVFFKIISPLTINTTITVASINFIFIWNDFIFSNTFTNDKQYKTIAVGLQEFIGAFGATDWGQTFAAICISIIPIIVTYLLLNKYVMAGVSDGAVKG	PGPT0016340_1548	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_02657	876	lacF_12		Lactose transport system permease protein LacF	ATGAATGTGCTCAAGGACAAGAAGGCATGGTTAATTTTCATCACGCCTGCTTTACTGTTTTATTTAGTAACTGTATTTGTTCCGATCATTCAATCACTGAATTATGGTTTTCAGGATTGGAACGGAATCAAGGACGCGAGTTATATCGGATTAGGCAACTATATTAAAATGTTCCAAGACCCCTATTTCTGGAATGCCGTTAAAAATAACTTGGTGTATGTTGTGATCGTCGTACTCATGCAGGTATTTATCGGGCTGTTTTTTGCTCTATTACTCTCGTACGTCAAAAAAGGAGCCAGCCTATTTAGAACTTTGTATTACTTGCCAGCAGTTGTGGTCACGGTTGCCATCGCTCAGATGTTTCGTAACTTTTATTCACTACAGCCACTAGGCCTACTCAACATGTTTCTAGAAGGGATCGGATTAGGACATTTGCAAAGCGCGTGGTTATCGGATCCGCACACCGCATTGATCGCAGTCTCCATTCCCGAAGGATGGCGTTTTACCGGGATGTACATGGTCATTTTCTACGCGGCCCTGATCGCGATCCCTAAAGAAGTAGAGGAAGCCGCAAAAATCGACGGCGTAAACGGATGGCAGTTGATCCGTCATATCAAATTACCGAGTATAAAGCATGTGCTCAGTTTGGCCCTCATCATGTGCACCACCGGGGCGCTAAGAGGTTTCGATATCCCTTATATCATTGGCGTACAAGGGTCAACAACTGAGTTGGTTACAACTTATATGTACAAAAAAGCGTTCACTAGTATTCAATATGGCTACGGAAGTGCAATCGCCGTATTTATCGTCATCGAAAGCCTACTGGCGGTACTCATTATCCGAGCTATATTCAATTCCAGGAAAGGAGAAGCTTAA	MNVLKDKKAWLIFITPALLFYLVTVFVPIIQSLNYGFQDWNGIKDASYIGLGNYIKMFQDPYFWNAVKNNLVYVVIVVLMQVFIGLFFALLLSYVKKGASLFRTLYYLPAVVVTVAIAQMFRNFYSLQPLGLLNMFLEGIGLGHLQSAWLSDPHTALIAVSIPEGWRFTGMYMVIFYAALIAIPKEVEEAAKIDGVNGWQLIRHIKLPSIKHVLSLALIMCTTGALRGFDIPYIIGVQGSTTELVTTYMYKKAFTSIQYGYGSAIAVFIVIESLLAVLIIRAIFNSRKGEA	PGPT0016335_2068	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_02658	1320			hypothetical protein	ATGACGACAAAAAAGAGAAAAATAACAACGGTTCTCTCGCTTATCGCAATCTTTTCATTAGTTGCAACCGCTCTCGCAGGTTGCGGCGGCTCGGAAAACAATAGTGCTGGAACTAACGGGGATAAAACGATTACATGGTTAACGGCCCGGCCGGAAAACGGAGCAATCATACAAACGGTTCGAGAACTGGCGGATCGCTATTCGGAGGATCATCCCGGATTCAAACTGGATATTCAAGTGACCGCTGACAGACCTTCCTACCTAACCAAATTAAGAACGCTAGTTGCTTCTGGAGAACTTCCTGATTTTATCGACACGGACGCCGATCCGTACGCCCAGGAACTGGCGGATGCCGGAATGCTCGTTGACATGAAGCAATTCCTGGAAGAGCAAGGTTTGTATGATCAGTTCTACGAACCAGCACTGAAATACCAGGAGCTGCCCGATGGTAGCCTGTACCTTCTCCCTTTGGAGTACCATCTGGAAATGACTTGGTACAACAAGAAAATATTTGAGGAAAATAATCTAACGGTTCCGAAAACGATCGATGACATGCTAACCATCAGCAAGGCGCTGAAGGACAAGGGCATTACTCCGATTGCGGTAGATGGTGTTGACGTCTGGCCTGTACTGCGTTACGCAGCTATGATCCCTTTCCGTACCACAGGAAATGAATTTGCACGAAATCTGAGTCAAGGTAAAGCCAAAATGGCCGACGACGTCGGCATGCAAACCGCGAATTTCGTATCCGAGATCGGGCAATACTTCCAGAAAGGGTTCGCCTCGACAGATTATACGACAGCCAAGAATATGTTCCTTAACGGCGAAGCCGCCATGTATCGTATGGGCACTTGGGAAATACCAGCCTTCGTAGACGAAAATTTACCGGAGCAACTCAAGGGCCAAGTGGATTATTTCTATCTACCGACCATCAACAATGCCAAAACACTGAATAACGAATTTTTCGGAAACAGCGGGATCGGACTGGCCGCCACGACCAGCAATTTCGACGAAACAACCAAGGACTTCCTTAGTTACGTCTTAAACAACTATAGCGATGTCTACGTAGCCAAGCAGCAGATGTCTCCGCTTAAATTCACGATTGAAGATGAGTCCAAGTACTCCGAACTATTCCTACGAATCAAAAAGGATATGGATAATTACGGTTCAGAGTTCGCCAAACCATGGGATACCTTGTTGGATGCCGATACCAACTCTGTCATGAGTGACTTGATCATCAAGCTGGCAATGGGGACAATTACGCCGGAAGACTTTTCCAAACAGATTGACGACGCCATTGCCCAAAACGCTGGCAACTAA	MTTKKRKITTVLSLIAIFSLVATALAGCGGSENNSAGTNGDKTITWLTARPENGAIIQTVRELADRYSEDHPGFKLDIQVTADRPSYLTKLRTLVASGELPDFIDTDADPYAQELADAGMLVDMKQFLEEQGLYDQFYEPALKYQELPDGSLYLLPLEYHLEMTWYNKKIFEENNLTVPKTIDDMLTISKALKDKGITPIAVDGVDVWPVLRYAAMIPFRTTGNEFARNLSQGKAKMADDVGMQTANFVSEIGQYFQKGFASTDYTTAKNMFLNGEAAMYRMGTWEIPAFVDENLPEQLKGQVDYFYLPTINNAKTLNNEFFGNSGIGLAATTSNFDETTKDFLSYVLNNYSDVYVAKQQMSPLKFTIEDESKYSELFLRIKKDMDNYGSEFAKPWDTLLDADTNSVMSDLIIKLAMGTITPEDFSKQIDDAIAQNAGN	PGPT0016330_1106	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_02659	1467			hypothetical protein	ATGAAAAAAGTATTTTACAAACCGAAAGACGGATGGGTTGGAGATGTGATCCCTTTCTATGATCATGGAGAGTACAAGCTCTACTATCTCCATGATCAAAGAGTTGGTGGAGATTATGGGAATCATACGACATGGAACCTGATCACCACCAAAAACGGCTTGGATTTTGAAAATTATGGCGTAGTTTTGCCAAACGGTAGAGAAACCGAGCCGGACCGTAACGCATATACCGGTTCAGTGATCAAGGATCGAAACGGTAACTACCACCTTTTCTACACCGGTCATAATCCCAACCCTGAATTTTGCGTTGACGGAAAGCCCTTACAGGTTGTGTTGAAGGCTACCGGTACCGATGGAATCCATTGGACGAAAGATGAAGATTTTAAGCTTTATGGCGATGGAATCATCTATGAGCAATTCGATTGGCGTGATCCGTTTGTTTTTTTCAATGAAGAACGGCAAGAGTACTGGATGCTCGTCACCTCAAGACAAATGAATTCCTCTGAAAGAAGAGGCGGCTGCGTAGCCCTTCTTACATCCGATGATCTTGAAAACTGGCGTTATCGGGAGCCATTTTACAGTCCGGACAAATACATCACCATGGAATGCCCGGATTATTTCAAAATGGGAGACTGGCACTACTTGGTCTACTCGACGTTTAGCGAAAAGTTTGTGACACATTACAAAAAAAGCAAAACTATCGAGGGCGTATACTCTTCACCGATTCTTGACACCTTTGACGGCAGAGGCTTTTACGCCGCGAAGACGGCCACGGATGGCCAGCAAAGATATGCTTTCGGATGGGTTCCTTCCAAGCAGGGAGCAAGTGATTTTGGGGATTGGGAATGGGCTGGAACACTTGTCGTGCATGAGATTTATCAAAATAATGACGGCGATCTACTTGTTCGGATGCCTCAATCGGTTTATGAGCATTTTAATACTGAAGCAGACGTCATTCCAGAATCAGAGAAAAATTGCCGCCACAACGATGAAAGCGGATTCGAACTGGAGTCTCCCGATGGATTGGCTTACCGTGTATTTAATGAAGTGCCTTCCCAGGTTCTAGTCGAAGCAGCGTTTACGGATTGGAAAGATACAAAAGACTTCGGGATTGCGCTGCGAACCGACAAAGATCTTGATAAGGGTTATTTCATTAAATTCGATCCATTTCACAACCGTATCGCTTTTGATATGTGGCCAAGAACCGAACCCGGATTCTTTCAATGGCAAATCGCTGGTGACAAACCTCAGATGATCGAACTGGAAAGACCGTTCTCTTTCTCTGAACAGAACATGATCACGGTAAAAGTGATTTTGGAAGATGATATCTTATGTCTGTATGTAAACGACAAGATCGCGATGACCACGCGTGTCTATAACTTCAAAACTGGCCACCTCGGTTTTTTTGCTAACGAGGGCTCCGTTAAAGTTAGTAAGGTCAAGCTCAAGACAGCATCACTGCGTTAA	MKKVFYKPKDGWVGDVIPFYDHGEYKLYYLHDQRVGGDYGNHTTWNLITTKNGLDFENYGVVLPNGRETEPDRNAYTGSVIKDRNGNYHLFYTGHNPNPEFCVDGKPLQVVLKATGTDGIHWTKDEDFKLYGDGIIYEQFDWRDPFVFFNEERQEYWMLVTSRQMNSSERRGGCVALLTSDDLENWRYREPFYSPDKYITMECPDYFKMGDWHYLVYSTFSEKFVTHYKKSKTIEGVYSSPILDTFDGRGFYAAKTATDGQQRYAFGWVPSKQGASDFGDWEWAGTLVVHEIYQNNDGDLLVRMPQSVYEHFNTEADVIPESEKNCRHNDESGFELESPDGLAYRVFNEVPSQVLVEAAFTDWKDTKDFGIALRTDKDLDKGYFIKFDPFHNRIAFDMWPRTEPGFFQWQIAGDKPQMIELERPFSFSEQNMITVKVILEDDILCLYVNDKIAMTTRVYNFKTGHLGFFANEGSVKVSKVKLKTASLR	PGPT0018815_1793	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
AK002_02660	882	gmuE_1	COG1940	Putative fructokinase	ATGAGGGTTGGTGCGATTGAAGCGGGAGGCACAAAATTCATATGCGGGATTGGCAATGAGAAAGGTGAAGTTCTGGACCGGATCAGTTTTCCAACGGATTTACCCGAACCGACACTTGAGCAGGCTGTGGCTTACTTTAGAGACAAAGACATTGAGGCAATTGGAGTCGGCTCCTTCGGACCGCTTGATCTGGATCGTTCCAGCGTCACATATGGGCAAGTTACCACGACGCCCAAGCCGGGATGGACGGGGTTTGACTTCGTAGGGTATTTGAAACAAAATCTCCCTGTTCCGATCGGTTTCGATACCGACGTGAATGCTGCGGTGTTCGGTGAGGTAAAGTGGGGAGCTGCCAATGGATTGGATAGCTGTGTTTACTATACGATTGGGACAGGTGTTGGTGTAGGTGTATACGCGGAAGGCAATCTGGTTCATGGTCTGGTCCATCCAGAAGGTGGACATGTATTGACCCGGCGGCATCCGAAGGACGATTTTAAAGGGACGTGTCCATTTCATGGCGACTGCCTGGAGGGCATGTCCAGCGGACCTGCGATCGAAAAACGCTGGGGAGTGAAAGGAAACGAATTGCCAGACGATCATGAAGCATGGGATATGGAAGCTTACTATCTGGCGCAGGCCCTTTCGGGGGTGATTGTGCTGTTATCGCCGAAAAAAGTGATTCTCGGCGGGGGGGTCATGCATCAGAAACAGCTTTTTCCGCTCATTCGTAAGAAAGTGGCCAAATTTTTAAACGGATATGTTGCATCCCCAGCCATTCTTGACGATCTGGAGAATTATATTGTCTCACCAGGCTTGGGTGATAATGCCGGATTAAACGGCGCTCTTGCGCTAGGTATTGAAGCTAGTAGCAGGCAAGCATGA	MRVGAIEAGGTKFICGIGNEKGEVLDRISFPTDLPEPTLEQAVAYFRDKDIEAIGVGSFGPLDLDRSSVTYGQVTTTPKPGWTGFDFVGYLKQNLPVPIGFDTDVNAAVFGEVKWGAANGLDSCVYYTIGTGVGVGVYAEGNLVHGLVHPEGGHVLTRRHPKDDFKGTCPFHGDCLEGMSSGPAIEKRWGVKGNELPDDHEAWDMEAYYLAQALSGVIVLLSPKKVILGGGVMHQKQLFPLIRKKVAKFLNGYVASPAILDDLENYIVSPGLGDNAGLNGALALGIEASSRQA	PGPT0017625_3482	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
AK002_02661	1608	rcsC_9		Sensor histidine kinase RcsC	ATGTATCACGTGCTTATAGTAGATGATGAGCCGCGCCATCGCCGCGGCATCGCGGAGATGATCAAGACGCTCAGGCCGGATTATCGTTTGTTTATGGCCAAGGACGGGGCAGAAGCCCTGCGCATCGCTACGGACACCCGGATCGATATTATATTTACGGATATTCGTATGCCCAATATGGATGGCCTTACGTTGATCGAGAATTTAAGGGAACGCAGCGAATCGATGAAAATCGTCATCCTGAGCGTGTACGGGCACTTCGATTATGCCAGACAGGCGCTTAAGCTAGGCGCGTTCGATTACTTGCTTAAACCGTTAGAATTGAGAGATATGTCGGAGATGCTGAACAAACTGGACACCGCCATTGAGAAGGAGCGGATGAGCCTTCAAGACGGAGCGAATCTCCAGGAAAAACTGAATTCAGCTATCCCTGTTTACGAGCAGCACTTGCTCAGTCGCTGGGTACGTTCGGCGGCGAATGAAGACGAGCTTCTGGAAATCGAACGGTTGGTCCCGCTGGGCCAGGTCGGTTATGTCATTGTCGCCAAGCTTTCCAAGTCCGAGATCGATGAGAAATATCATGGCGAGGAATTCGAGGAAGTCAAAGCCAGCCTCAAGGGCTGGATGGGCCAGGTCGCCGAACCGATCGGTCCGACCCTATCCTTTTACCTGGACGGAGACGAGCCTATGCTTGTCTCCGTCATTACACCCGCGCATTCCTTGGAGTGGCTGATGAAGAGGGAGGCTGAGCGGTTAACCGAATTTATCGAGCAGGTTCGCCTGGAATTCGGGCTTACCTTGTCGATAGGCGTGGGCGACGGCGTAGTTGATCTCTACCGCGAAGCTCCCCGTTCCTTCAAGCAAGCTTTGAATGCGCTGGACTTTACGTTTTATTGCGGGAACGGAAAATTTGTCGTTAGAAGTGAAATCGCTTACAATCCACTAAAAACCTCTTTGCCCTGGGGGCCGGACGATTTCGGCATCGCGGCCGCGGTGGCTGGCGGGGATCGGGGCAAGGCGCTGGAGGCGTTGGAATTGTTGGTGCGCCGCCTTCTGGAAGGCGGCTATCCTTCTCCGGCCCAGTTCAAGCGCAGCATGTTGTATGTGCTGGTCAACCTGGTTAAGGCCAATGAAGCTTCATTGCGGAGGGAGGAAGCGGGCAATATCGTTTCCGAGATGGAATTTCGGATTCCGGCTTGTTCCACGCTGGATGAACTCCAGTCGAAAGCGGCCGAGTATATGGGCCGGATCATCGACGGGATCGCGAACCGGAAAAATCATAAAAACGAGCGGATTATCGAGCTGTGCCGGACTTATCTGGCGGAACATTACATGGAGGATCTCTCGCTTGAAACGGTAGCAAGGCGGTTCTTTTTCAGTCCGGCCTATTTCAGCAGTCTCTTTAAATCGCACACGTCCATGACGTTTACCGAGTATTTGCTTCAGATCAGAATGGACAAAGCCAAGGAAATGCTGAAGGACGGGACCTGGAAGATTTCGGAGATCGCCCTCAGCGTGGGCTTCAAGGATGCAGGATACTTTACCCGGATCTTCAAGCGTGAAACCGGCCTATCACCGGAGGAATTCCGCAAGAAAGACCTGCTATAG	MYHVLIVDDEPRHRRGIAEMIKTLRPDYRLFMAKDGAEALRIATDTRIDIIFTDIRMPNMDGLTLIENLRERSESMKIVILSVYGHFDYARQALKLGAFDYLLKPLELRDMSEMLNKLDTAIEKERMSLQDGANLQEKLNSAIPVYEQHLLSRWVRSAANEDELLEIERLVPLGQVGYVIVAKLSKSEIDEKYHGEEFEEVKASLKGWMGQVAEPIGPTLSFYLDGDEPMLVSVITPAHSLEWLMKREAERLTEFIEQVRLEFGLTLSIGVGDGVVDLYREAPRSFKQALNALDFTFYCGNGKFVVRSEIAYNPLKTSLPWGPDDFGIAAAVAGGDRGKALEALELLVRRLLEGGYPSPAQFKRSMLYVLVNLVKANEASLRREEAGNIVSEMEFRIPACSTLDELQSKAAEYMGRIIDGIANRKNHKNERIIELCRTYLAEHYMEDLSLETVARRFFFSPAYFSSLFKSHTSMTFTEYLLQIRMDKAKEMLKDGTWKISEIALSVGFKDAGYFTRIFKRETGLSPEEFRKKDLL				NA	NA	NA	NA	NA
AK002_02662	1782			hypothetical protein	ATGAGACTTAAAAACAAACTGATTGTATCCTACATCGTGCTGATCACGCTGCCCCTCGCCACGTTGGGAACAGGATCCTATTATGCAAGCAAAAATATGATGCTCAAGCTTGCCCGGGATAACGTGACGGAAATCGTGCAAAAAAACAACCAGATCATCGACGAACGGCTGAAAATCATCGAGGACGACAGTCTTTCCCTGATGGTGGAATGCGAATTGTTTCAAATTTTCAACCGCCCCGCCCCGGTCGAAAGTGAACTGCTAGCGACAAATAAACGGGTTACGGAAATTTTGAGCCGCTATTTTTCGCAATCCAGGGATCTGTATTCGATAGAGCTTGTGACCCGGCCTTTTGTTTACGGCAGCAAGGCGCGAAATACGTATCCGCCCGATCATTTTTACGATTCCGAGTTGTACAGGCGGGCGGCCGAGCAAAAAGGGAGGATCGTCTGGGTGCCGACCTACGAATACAGTCGAATGCACCAATTGCCGGATCTGGCCGGCGCCGACATCGAATACCGCTATTTATTTTCCGCCGTCCGGCAGATGAATCCATCCTGCGTTCGTAATGATGCGATCGTGCGGGCCGGGGAAGGGACGGAGAAGCCGATTCTCGTGATGAATTTTCGGGACGATGTCTATGCCGACATTTTCAGGGGCAGCGTTCCGATCCAAGGCGCGGTATTTGTGGTGGCCAGCGACGACGGCACGATCATTTCTCATACGAAAACGGAACTCGTCGGAGGCAAGCTGTCCATTCCCTGGCTGGCCGACCAGCAAAGCCGCGGCGCCGGGGCTTCCTACGTTACGGTGGACGGAAAACGGATGATCGCCTGTTACGCGGTTTCCGGGATCACGGGATGGACCTCAGCCGTGCTGATTCCACCCAGTGCGCTAACGAAGGACATTGGACAAACGATCACCTTTTTCATTATAACGCTGGGCGCATCGCTGCTGCTGTTATCGCTGTTGTTTGCCTATTTGATTTCCATGCGGATTTCCTCGCCGTTAAGCAAGCTGCTGCTTGCGATCAAACGGGTAGGGGGCGGCGACTTCAACGCCAAAATAAAAGTGGATGGGAAAGATGAGCTTGGGCATGTGCTGATGAAGTTCAACAGTATGAACGAGAAAGTTAAACAACTGATCGAAGAAAATTATGTAGTCAAACTAAGGGAGCGCGAAACGGAAATCATGGTGCTTAACATTCAACTTAACCCCCATTTTCTGTACAATACGCTGAATATTATCAACTGGACGGTCATTTACGGGGAGAAGGAACAGGTCGGCAAAATGCTGGTCAGTTTGTCGCGCATGCTGCATTACACGACGGACAACCGTAAGGATTCGATGCCGCTTTCTGCGGACATCGGCTGGCTGAGGGATTATATCGTCATCATGTCCAACCGTTACGAACACCGTTTCCGGGTTGACTTCGACATCGAGCCGGAGCTGATGGAAGCCAGCGTACCGAAGCTGTTCCTGCAACCACTGGTGGAAAATGCGATCATTCACGGATTTGGAGACATGGAGAGCGGCGGACTGATTACGATCTACGGGCGTCGGCAGGAGGAAGATATCGAGTTCTGCGTGGAGGACAACGGCCGCGGGATCACGCCGGAGCGCCTCGAGGAGGTGCTGGTTGAAAACTCCTCCAACATCGGGATCAGGAACGTCGAGAAGCGGGTCAAGCTGCTTTACGGCAGCCGTTACGGCATCAGCATCGAATCCGTTCCGGATCTGGGGACGCGGGTAAAGTTGGTTATCCCGTACCGAAAGCCTTAA	MRLKNKLIVSYIVLITLPLATLGTGSYYASKNMMLKLARDNVTEIVQKNNQIIDERLKIIEDDSLSLMVECELFQIFNRPAPVESELLATNKRVTEILSRYFSQSRDLYSIELVTRPFVYGSKARNTYPPDHFYDSELYRRAAEQKGRIVWVPTYEYSRMHQLPDLAGADIEYRYLFSAVRQMNPSCVRNDAIVRAGEGTEKPILVMNFRDDVYADIFRGSVPIQGAVFVVASDDGTIISHTKTELVGGKLSIPWLADQQSRGAGASYVTVDGKRMIACYAVSGITGWTSAVLIPPSALTKDIGQTITFFIITLGASLLLLSLLFAYLISMRISSPLSKLLLAIKRVGGGDFNAKIKVDGKDELGHVLMKFNSMNEKVKQLIEENYVVKLRERETEIMVLNIQLNPHFLYNTLNIINWTVIYGEKEQVGKMLVSLSRMLHYTTDNRKDSMPLSADIGWLRDYIVIMSNRYEHRFRVDFDIEPELMEASVPKLFLQPLVENAIIHGFGDMESGGLITIYGRRQEEDIEFCVEDNGRGITPERLEEVLVENSSNIGIRNVEKRVKLLYGSRYGISIESVPDLGTRVKLVIPYRKP				NA	NA	NA	NA	NA
AK002_02663	1407			hypothetical protein	ATGAGAGCACAATCCGGCAAATTAAAAGCGATGTTTATTTTCCTAACGATCATGGCGCTGTTTGTAACCGCTTGCGGAACGGGGGGCGGAGGCTCGCAAACAAAAGCGAGCCAAAATGGAGGAGAAAACGTCGGGGCGAACGGCGAAGAAAAAGTAACGCTAAAATTCACGTTCTGGGGCAGCCCGGAGGAAAAGAAAGCGGTCGAATCGGCCATCAAAGCCTTCGAGCAGAAGAATCCGAACATCACCATCAACCCGGTACATATACCGGGCACGGATTTTCTGCAGAAGCTGAATGCCATGATCGCCGGCAACGAAGCGCCGGACATCAGCTATTCGGCCGCTTGGAAATTGAAAATGGGCGAGGAAGGGCTGATCCACAACTTCTTCGATTTAATGAAAGATGATCCGAGCATCAAGAAAGAGGATTACCTGGAGTATGCCTGGTGGAACTGGGACAAGGATAAAAGCGCGGGTCCGTATCAGGCCTCCGTCGTCCCTTCTCTGATGTACAACGCGGATATGTTCAAGGAAGCGGGAGTGGAACTGCCGCCTACCAAAGCGGAAGAAGCGTGGACGTGGGATGAGTTTGTGGACGCTGCCAAGAAGCTGACGCTAGACCGGAATGGGAAGCATCCGGACGATCCAGGCTTCGATCCGAAGAACATCAAGCAATACGGCGTTAAACTGAGCCTCGGTTGGTCGTCTTATATGCCGATGGTTCTCTCAAACGGTGGGGATTATCTGACGGCAGACGGCAAGGAATTCGGGCTGTCCAAACCGGAAGCGACCGAAGCGCTGCAAAGAATAGCCGATTTGATTAACGTGCACCACGTCTCGCCATCGCCGGTCCAGGCCAGCAGCATTCCCGCTCCGGCGACCGCGCTGCAGTCCAAAAAAGTGGCGATGATCATCGACGGCAGCTGGAACCACCTTGATTTGAGCAAAACCAACATGGACTGGGGCGTTGGCGTACTTCCGGTCATCAAGGACTACAAAACGTTTTTCCTCGGCGGTTCCCTGATCATTTTCAAAAGCTCGCAGCACCCGAAGGAAGCGTGGGAGTTCTCCAAATTCCTCACCGATCCTCAGAACGTGCTCGATTTGCACCAAGGTTTATGGATGCCGCAGCTCAATAAATGGTACGAGGATCCGGAATTGATCAACAAGTGGGCTAATGAGGAGCTCCCCGGAAGACCGGCCGGCTTCCAGGATGCCGTGATGCGCTCCACCTATGAACATGCGGAGCCGTCGCCGGAAAACAACGTCAAAAACTTCGTCGAAATCGACGCTGCGGTAGCCGCGGCTTTGGATCAGGTATGGCTCGGCGAGAAAACGGCGGAAGCAGCCATGAAAGAAGTGGAAACCAAAGTGAAGTCGCTAGTACAGGGCACCTATTTGAAATAA	MRAQSGKLKAMFIFLTIMALFVTACGTGGGGSQTKASQNGGENVGANGEEKVTLKFTFWGSPEEKKAVESAIKAFEQKNPNITINPVHIPGTDFLQKLNAMIAGNEAPDISYSAAWKLKMGEEGLIHNFFDLMKDDPSIKKEDYLEYAWWNWDKDKSAGPYQASVVPSLMYNADMFKEAGVELPPTKAEEAWTWDEFVDAAKKLTLDRNGKHPDDPGFDPKNIKQYGVKLSLGWSSYMPMVLSNGGDYLTADGKEFGLSKPEATEALQRIADLINVHHVSPSPVQASSIPAPATALQSKKVAMIIDGSWNHLDLSKTNMDWGVGVLPVIKDYKTFFLGGSLIIFKSSQHPKEAWEFSKFLTDPQNVLDLHQGLWMPQLNKWYEDPELINKWANEELPGRPAGFQDAVMRSTYEHAEPSPENNVKNFVEIDAAVAAALDQVWLGEKTAEAAMKEVETKVKSLVQGTYLK	PGPT0016545_1294	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_02664	933	lacF_13		Lactose transport system permease protein LacF	ATGGGAGCCATCTCTTCCCATACCGGGAACCGTATGCGAAAGAAACGCCGCACACAAAGAGAGCTTTACGGTTGGTTGTTTGCTCTGCCGGCAATTTTGGGCTTGCTGATCTTCACGCTCGGCCCGATGATGTACAGCCTGTACATGAGTTTTACCGACTATACCGGATCGAATTCACCGACCTTTACGGGTCTCGACAATTATAGACGATTGTTCAGCGGCGAGGACCAATATTTTTACAAGTCGCTGGCCGTTACTTTCTATTTCGTGATCCTTAGTGTGCCAACCGGCATCGTTTATTCCTTCTTGCTGGCGATTCTCTTGAATCAGAATGTGAAAGGGAAGTCGCTCTTCCGCACCATCTTCTATCTGCCGTCGATCGTACCGATCATCGCGATCTCGTTTATTTGGCTGTGGCTGCTCAATCCCGATCTCGGTCTTGCCAACGAGCTGCTTCGCTCCCTGGGCCTTCCGGGAAGCCAATGGATTTTCGGTGAGAAGTCGGTTGTGCCTTCCCTGGCATTAATGAATCTGTGGACCACGGGCGGGACGATGATTATTTTTCTGGCGGGTCTGCAGGATATTCCCCGGTCGCTGTACGAAGCGATTGAGATGGACGGCGGATCAAGGCTCGCGAAACTGCGGCATATTACGATTCCGATGATGACGCCGACAATCTTCTTCAACCTGATCATGGGCATCATCAACGGCTTTCAGGTGTTCTCGCAAGCTTATGTTATGACGAATGGCGGACCCAATAACGCCAGCTTATTTTACGTGTTTTATTTGTACCGGGAAGCCTTCCAGTTTTCGCGGATGGGGAGCGCCAGCGCGATTGCCTGGGTGCTGTTCCTGATCATTATGGTGTTGACGTACGTCGTGTTCAGGACATCGAATAAATGGGTTTATTATGAGGGGGATGGTGCGCGATGA	MGAISSHTGNRMRKKRRTQRELYGWLFALPAILGLLIFTLGPMMYSLYMSFTDYTGSNSPTFTGLDNYRRLFSGEDQYFYKSLAVTFYFVILSVPTGIVYSFLLAILLNQNVKGKSLFRTIFYLPSIVPIIAISFIWLWLLNPDLGLANELLRSLGLPGSQWIFGEKSVVPSLALMNLWTTGGTMIIFLAGLQDIPRSLYEAIEMDGGSRLAKLRHITIPMMTPTIFFNLIMGIINGFQVFSQAYVMTNGGPNNASLFYVFYLYREAFQFSRMGSASAIAWVLFLIIMVLTYVVFRTSNKWVYYEGDGAR	PGPT0016535_4285	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_02665	834	ngcG_9	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGAGAGCCAAGGCTTGGTTTGAAAAAGGCCTGATCTATCTGGTGCTTGCCGCCGGGGGGATTTTTAGCCTGCTGCCGCTGGTGTGGCTCGTCCGCAGTTCGCTGATGAATATGGGGCAAATTTTCGAGCTGCCGCCGGTGTGGATTCCTAACCCCGTTCAATTTTCCAATTATAGTGAAGCGCTGACCATCCTGCCTTTTGGCCGGTATTTCGTGAACACCGCGATCATCGTTGTCTTTTCGGTGCTGGGCGTCATCGTAACCAGCTCGATCAGCGCCTACAGCTTCGCGCGGATGAACTGGAGAGGCAGGAATCTGGTGTTCAGCCTTCTTCTGTCTAGTATGATGCTGCCGTACGCGGTGACCCTGATCCCGACGTTTATCGGCTGGAGCAAAGTGGGGTTAACCAATTCCTTCATCCCGCTGATCGCGCCGGCTTGGTTTGGCGGCGGCGCGTTCAACATTTTTCTGCTGCGTCAATTCTATCTCAGCATCCCTCGGGATCTGGATGAAGCGGCTTATGTGGACGGCGCCGGCCATTTCAAGATATTCCGCTCGATCATCCTGCCGCTCACCAAACCCGCGCTGATCGTCGTCGGTTTGTTTTCGTTCTTGGCCGCGTGGAACGATTTCCTCGGTCCGCTCGTTTACTTGAACGACGAAACCAAATATACGCTGGCCCTTGGACTGCAGCAGTTCAAAGGCATGTATTCGGCCGAGTGGCATTTGATGATGGCGGCGGCAACCGTGGTGCTGCTTCCGGCAATTATCGTATTTTTTATCGGACAGCGTTATTTTATCGAAGGCATTACGTTAACAGGGATTAAGGCTTGA	MRAKAWFEKGLIYLVLAAGGIFSLLPLVWLVRSSLMNMGQIFELPPVWIPNPVQFSNYSEALTILPFGRYFVNTAIIVVFSVLGVIVTSSISAYSFARMNWRGRNLVFSLLLSSMMLPYAVTLIPTFIGWSKVGLTNSFIPLIAPAWFGGGAFNIFLLRQFYLSIPRDLDEAAYVDGAGHFKIFRSIILPLTKPALIVVGLFSFLAAWNDFLGPLVYLNDETKYTLALGLQQFKGMYSAEWHLMMAAATVVLLPAIIVFFIGQRYFIEGITLTGIKA	PGPT0016540_7007	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_02666	1158			hypothetical protein	ATGAACCAGTTATATTTGCGTAAGGAAGGAACGTCCCGGCGGCGATCGAGCTGGGATACGACTGGAGGCAATCGGGATTTCATCGCGATTGGGGCCGGGCAAACGGCGGCGATTGCGGAAATCGCCGGCTCGGGCGTGATCCAGCATATCTGGATGACCATCGCGGCCAGGAACAAATACGCGTTCCGCAAAGTATTGATCCGCATGTTTTGGGATGACGAACGGGAACCCAGCGTGGACTCGCCGGTCGGCGACTTCTTCGGAGTTGGGCATGGCGTGGCCAGCCACTATGTCTCCATGCCACTCAACATGATTACGACCCAGGGCGTGATCGAAGATAAGGCCGCCATGAACTGTTTTTTCGAAATGCCGTTCCGCCAGGGGGCACGCATCGAAATCGTCAATGAGTGCGAAGACGAAATCGTGTTGTACTATTACGTGGACTATGTGGAAAAAGCGGTCCCGGACGACAGCTTTTACTTCCACGCCTCGTGGCGCAGGGAGAATCCGACGAAGGGATTGGTGGACTTGTCCGCGCTGAAAACGGAGCACGATCAGCAGGATAAGGCGAATTATTCCGACCAGAAGGTGTATGAGCTGAAAAACCTGACCGGCGACGATAATTACGTCCTGCTAGATGCGGTAGGCGAAGGCCATTATGTAGGTTGCAACCTGAGCATTGACCATCTGAATCCGATGCCGGGTTTTAGTTGGCCCGGCGAGGGGGACGACATGTTCTTCATCGACGGTGAACCTTGGCCGCCCCGACTGCACGGGACGGGGACGGAGGATTATTTCTGCGCCGCCTGGGGGTATCCGGCGGGGAAATATGATGCGCCCTACCACGGCTTGTCACTGTACGCCCCGATCCGTGAAAACGGCGATGCCTGGAAAGAGAGCAATACCATTTCGTTTAACGATTATTCCGGGAAAATGACGCAATACCGGTTTCATATCGTCGATCCCATCATCTTCAGAAAGTCGATCCGCTTCAGCATCGAGCACGGGCACGGAAATAGCCAATCGAACGACTACTCGTCGGTCGCATACTGGTATCAGCGCGAGCCGCATAAGGCTTTTCCGCAGATGCTGCCCGTCTCGCAGCGCTTGCCGATTCCGGAGAAGGAAAGTGCAAGGATGTTCTACCGGACGTTCTAA	MNQLYLRKEGTSRRRSSWDTTGGNRDFIAIGAGQTAAIAEIAGSGVIQHIWMTIAARNKYAFRKVLIRMFWDDEREPSVDSPVGDFFGVGHGVASHYVSMPLNMITTQGVIEDKAAMNCFFEMPFRQGARIEIVNECEDEIVLYYYVDYVEKAVPDDSFYFHASWRRENPTKGLVDLSALKTEHDQQDKANYSDQKVYELKNLTGDDNYVLLDAVGEGHYVGCNLSIDHLNPMPGFSWPGEGDDMFFIDGEPWPPRLHGTGTEDYFCAAWGYPAGKYDAPYHGLSLYAPIRENGDAWKESNTISFNDYSGKMTQYRFHIVDPIIFRKSIRFSIEHGHGNSQSNDYSSVAYWYQREPHKAFPQMLPVSQRLPIPEKESARMFYRTF				NA	NA	NA	NA	NA
AK002_02667	219			hypothetical protein	TTGACGCTAGCCATGGAGAACCAGGGTCATCGGGCCGGTAGCGCGAGCGCAGTCATCGGTTTGCTTCCCTTAATGCTGGGTTCGATGGTGTCGCCGCTGGTCGGGATTAACGAATCCACCGCCGTGCCGATGGGTGCCATCCTGTTCGTCACCTCCGTGCTGGGTGCGGGATCGTTCTTCAAACTGACGAAACCGAAGGGGACGGCAGCGGATGATTGA	MTLAMENQGHRAGSASAVIGLLPLMLGSMVSPLVGINESTAVPMGAILFVTSVLGAGSFFKLTKPKGTAADD	PGPT0029005_2718	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
AK002_02668	1605			hypothetical protein	ATGCGAATACAAAAAATCTTATTCGGCATGCTGTCTCTTGTATTGATCACGGGAATGGGATGCCAGCACCAGCAACCTGCCGAGCAGGATTTGCTGCGGGTAAAATCCGAACAAGGAGCGACGCATAAGAAAGTCATATTCTTGATGATCGACTCCCTAATGGCTCAGGCCATCGATAAGGGCATATCCCAAAAACAGCTGCCTACCTTTCAGACCCTAATTGAACATGGGCAATACTACAAGGATCTTGTCAGCTCTTTTCCTACGATGTCCGTTACGATCGACAGCTCGATGTTAACGGGGGCCTATCCGAACGTCCATGGCGTTCCGGGTCTGTTATGGTATTCGACCGACGATAAAAAATTGATCAATTACGGCACAGGGCCCATGGAAATCCTGAGGCAGGGGATCAATCCGGTCCTGACCGATGCGTTAATCCATCTGAACGGGGAACATTTACATGCGGATTCGCGTACGATCTACGAAGATTTAGCCCGCAGGGGCTTGAAATCGGGGTCGATCAACGGCTTGGTATATCGCGGAACGACCGAGCATACGCTGACGATCCCGGATTGGATACAGGGGCCGACGTCGCTGCAGAAAAATATAAAAGTTAAAGGCCCGGATTTTTTAACCTTGGGAGCTCTGTCCAATCCCTTCGACGGTAACGAGAAATTGCCTGACGATCTCACCGAACGAATGGGGATGAACAATAAATTCGCGATAGGGGCCGTAAACCATCTGATCCAAGCTGATAAGCTGCCGGATTTTTTGTATGTATATCTGCCGGACTTGGACCAGAAGCTTCATAAAAAGGGTCCGTCGGAGCTCGAAGGCGTCAAAAAGGTGGATCAGCAGCTTCAATCCTTATTGCAGTCGTTTGGATCGCCGGAAAAAGCGTTCGAAGAGGCTATATTCATCATCGCCGGGGACAGCGGCATGACGCAGCTTCTTCCACGTGAGCAGCGTTCGGAGATTGATTTGCCTGCTATGCTGAAAGGCATCCGCATATTAAAGCCGGGTGAGGATCTCAAGGATGAAACCGAGATTGCGCTAGCGGTGAATGAAACGATGGCTTACGTATATAAGTTCAAGCCGGACCGTACGCTCCGAAGCTTGGCCGAAATCATAAGCAAGGATGACCGCATTGATTTCGTTGCATGGAAAGAAGACGAATGGATTCACGCCATGCAGGGATCCACGTATATGCAGCTCCAATATAAAGAGAAGGGCAGCCTGATCGACCGTTATAAACAAGCGTGGACCGTGAAGCAGGATGCCGAAGTGCTGGACCTTCAATTGAACGCCCAGACTCGCACTTTGGACTACGGGCAGTATCCGGATGTGCTGGCGAGATTGTCAGGGGCGCTGAACTCCCATAAAGGGCAATTCTTGGTGGTCACGGCTAAACCGGGATACGAATTGGCGGACCGAAGCTCTCCGACCCATGAAGGGGGCGGGGGCCACGGTTCGATTCGCCACACGGAATCGCTTGTTCCGCTTATCATTGTCGGAACGAATGAGAAGCCTCAGTATTTACGTATGGTTGACTTGAAAGCCTATTTGCTTGATTTGCTGGCGAATCACAATCACAAAGCGAAATAG	MRIQKILFGMLSLVLITGMGCQHQQPAEQDLLRVKSEQGATHKKVIFLMIDSLMAQAIDKGISQKQLPTFQTLIEHGQYYKDLVSSFPTMSVTIDSSMLTGAYPNVHGVPGLLWYSTDDKKLINYGTGPMEILRQGINPVLTDALIHLNGEHLHADSRTIYEDLARRGLKSGSINGLVYRGTTEHTLTIPDWIQGPTSLQKNIKVKGPDFLTLGALSNPFDGNEKLPDDLTERMGMNNKFAIGAVNHLIQADKLPDFLYVYLPDLDQKLHKKGPSELEGVKKVDQQLQSLLQSFGSPEKAFEEAIFIIAGDSGMTQLLPREQRSEIDLPAMLKGIRILKPGEDLKDETEIALAVNETMAYVYKFKPDRTLRSLAEIISKDDRIDFVAWKEDEWIHAMQGSTYMQLQYKEKGSLIDRYKQAWTVKQDAEVLDLQLNAQTRTLDYGQYPDVLARLSGALNSHKGQFLVVTAKPGYELADRSSPTHEGGGGHGSIRHTESLVPLIIVGTNEKPQYLRMVDLKAYLLDLLANHNHKAK				NA	NA	NA	NA	NA
AK002_02669	306			hypothetical protein	ATGTCATCAAACCGCTTGATTCATTCCGTTATTTTTTCGCTTAAACACGAGAAAGGCTCGGAGGAGGAGCATCGTTTCCTGGAGGACGGACGAACTGCCCTCAGCACGATTCCAACGGTTCAGGAGTTTAAGGTATTCAAGCAAATCAGTCCCAAAAATACATACGATTTCGGCTTCTCCATGAAGTTTGCGAGCGAAGCCGATTATGAAGCCTACAATGTGCATCCCCAGCATGTTGATTTTGTCGAGAATCGCTGGGAGAAGGAAGTCGAGCAGTTTCTGGAGATCGATTACAGCGAGATATAG	MSSNRLIHSVIFSLKHEKGSEEEHRFLEDGRTALSTIPTVQEFKVFKQISPKNTYDFGFSMKFASEADYEAYNVHPQHVDFVENRWEKEVEQFLEIDYSEI				NA	NA	NA	NA	NA
AK002_02670	1125	hisC_2	COG0079	Histidinol-phosphate aminotransferase	TTGACTAGAGCAGGGGAAGGGGAGCCTCAAATAACGCCGCGGCCGGCGCTAGGACGTCTGAAGCCTTACACGGCGGGTAAACCCATCTGGGAAGTGCAGCAAGAATACGGACTGGATCGCGTCATTAAGCTGGCTTCCAATGAAAATTCGCTCGGTCCTTCGCCAAAAGCATTGCAAGCCATTCAGAATCAGCTGCCTGACCTGCACCGTTATCCCGACGAACGCTCGTCGGTTCTTGCGCAAGCGCTTGGCCGGCACCTGGGATTGGCGGCGAATCAATTCATCGTGACGAACGGCGGAGATGAGCTGATCATGCTGATTTCACGGGCGTATCTGGAGCCTGGCGACGAGATCGTGGTGCCCGATCCGACGTTCAGCGAATACGAGTTTGGCGCATTTCTCATGTCGGGCACGGTCATTAAGGTGCCGCTGCGCGAACCATATGCTTTCTCAGCTGAAGATATGCTGGCCGTCATCACGGAACGTACCAAAATCGTTTACCTGTGCACGCCGAATAATCCTACAGGCACTTACATGCCAGAGTCTGAAATGAGACAGTTGCTCGACAGCCTTCCCTCTCGCGTGCTGGTTGTCATTGATACCGCATACCGCCATTATGCCACGGCTCCCGATTACTCGGACGGCATCGATTTCATCAAGTCGGGATATCCGGTCATCACACTTAACACCTTCTCTAAAATTTACGGGCTTGCGGGCATTCGAGTCGGGTATGGCGCTGCCTCCGAAGGGATCATCCGCACGCTGCTTCAGGTTAAGGAGCCCTTTAACGTGAATGCGTTGGCACAGGCAGCAGCAGCGGCTGCGCTCGGGGATGAAGAACATGTCGATGCATCCCGCCGGATGAATGAACAAGGGAGGAACCAAATCTATGAGGGCCTGAGCCGATTATCGATTCCTTATGTCGAGAGCATGAGCAACTTCATTCTGGCAGAGCTTGGCGAACATGCAGACGACATATACCATCAGCTGCTGGAACGAGGGATCATCGTCCGGTCAGCCAAAGGGTGGGGGCTTCCGCGTCATATTCGGATTTCGGTAGGAACAGATGAAGAAAATCAAGGGTTGCTGGACGCTTTACGCGAGATCCTGGTCCATTCATGGTAA	MTRAGEGEPQITPRPALGRLKPYTAGKPIWEVQQEYGLDRVIKLASNENSLGPSPKALQAIQNQLPDLHRYPDERSSVLAQALGRHLGLAANQFIVTNGGDELIMLISRAYLEPGDEIVVPDPTFSEYEFGAFLMSGTVIKVPLREPYAFSAEDMLAVITERTKIVYLCTPNNPTGTYMPESEMRQLLDSLPSRVLVVIDTAYRHYATAPDYSDGIDFIKSGYPVITLNTFSKIYGLAGIRVGYGAASEGIIRTLLQVKEPFNVNALAQAAAAAALGDEEHVDASRRMNEQGRNQIYEGLSRLSIPYVESMSNFILAELGEHADDIYHQLLERGIIVRSAKGWGLPRHIRISVGTDEENQGLLDALREILVHSW	PGPT0020305_1513	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK002_02671	1080			hypothetical protein	ATGAACAATCTGGCCAATATCCGCCTTGCCTTGAAGTGCCTCATGCTCGCTGCCTTGGTCCCCTTGCTTGCAGGCTGCTGGGATAACAAAGACATTAATCATCGCTCGCTTCCGGTAATCATGGGCATTTCGTTAACCGAAGATAATCAATACAAGGTGTTTCTGGACATTCCGGCCACGAATGATACCAGCACCGTCAATATCGTTTCGGATACGGGCAATACGATCAATGAAATCATCGATCATATGAGCATGAACATGGAGACTCAAGTGGATCTGCTGCATTTGAAAATCGTCATCGTGGATAAAAACTTTGCCCGTAACGGCATGGAAGACATCATATCTGCGTTTAACCGGTCCAGGGACATCTCATCCAAAACGCTGTTTGCGATCAGTGATCAAACACTGGATCAATTCTTTATGGAAATGCAAAAAAAATCGGAGCACAGCAGCAGCATCGTCTATGATTTTTTCGAAAAAAATGCCGGCTGGAATCCCCAATTGGCGGATACTCGCGTATGGCAATTGTTTCGAAGCATTCATTCCTATACGCACGATGTCATCGTCCCGATCATACGTTCAGGCAGATCCACCAGCATCGAATGCTTAGGCTCAGCCATCATAAAGAATGGCAGGATGACAGGCCAAATCGGGCCCGATGAAACGCTTGTCGCCAATGCCTTTTATGGAAAAAGCGCGTTCGGCAAGGTTGAGGTTATGGAGAGCGCCACCGTTCAAATCATTAGCAATCGCCTGACCCATCATAGCTGGATGAAGGACGGAAAGCCTTATCTTCGAAGCCATCTCAAGCTGAAAGTCACCATCTTGGACTCCAGGGGACATCCGACGGAAGAGCAAATCAACGAGAAGGTGGAAGAACTGCTCACCTTAAGGCTGAATCAGATGTTTAAGAAAACGCAAAAAGAACAAGCGGATATTTTGGCACTGGGACAATATTTTAGAAACTACCTGACCCGGGAACAACTGGAGGATTGGAGAACAACGTACTATCCCGATCTGGATTTTAAGCTGAACGTAACGACCGTCGTAGAGAATCGAGGCAATCTTAAGAGACTGTGA	MNNLANIRLALKCLMLAALVPLLAGCWDNKDINHRSLPVIMGISLTEDNQYKVFLDIPATNDTSTVNIVSDTGNTINEIIDHMSMNMETQVDLLHLKIVIVDKNFARNGMEDIISAFNRSRDISSKTLFAISDQTLDQFFMEMQKKSEHSSSIVYDFFEKNAGWNPQLADTRVWQLFRSIHSYTHDVIVPIIRSGRSTSIECLGSAIIKNGRMTGQIGPDETLVANAFYGKSAFGKVEVMESATVQIISNRLTHHSWMKDGKPYLRSHLKLKVTILDSRGHPTEEQINEKVEELLTLRLNQMFKKTQKEQADILALGQYFRNYLTREQLEDWRTTYYPDLDFKLNVTTVVENRGNLKRL	PGPT0014785_199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014785-yfkR-K06308	NA	NA
AK002_02672	1095			hypothetical protein	ATGGATAAGAGCGGTTATCAAGCAACCATCCTGTACGTGGTTTGTCATATGGGGCTTATCTTTTTTCTCTATCCCTCCGATTTGTTTTCAGGCATGGACATGGGACACTGGATCGGAATATCCATAAGCTATGCGCTGCATGCAGCTGCCCTCTATATGTACATTAAAGGCCTGAAGTGGACGGCCCGGAGGAATGTTGTGGATATGTTCCGCAGCACCGGCAAATATCTCGCGTGGATCTTTTTGCTTCCTGCTTTCTTTTACTTTGGCATTGCTATCATCGTAACAATTAGGGCCTATTCCGAGATGTTAACCTTGGTCTTTTTATCGACCACGCCACTGTGGGCGGTCGAGTTCTTATTGATTGCCATTGCTTTACTCATGGCGTGGCAAGGGATGTCCAGCATGGCGCGAACCAGCGTCCTCTTGGTTGTCTTGTTCACGTTTCCCATTTTGTTTGTTCTCTGTCTAGGCTTTCAAAATGTGGATTGGTATTATTTGCTGCCGATCATTGACCCGGAGCAATCCTTGCATTTCATAGCAAAGCCCGATTTTCTGGTCAGTTTATTCGTTTACGCAGGCGGTTCCTTTTTCCTGGGGCTGCTGCCTCCTTCCATACATATCAGCATCAAGAAAATGATGCTGGGCTGCCTTCTTCTGTTGCCCATGTTTCTCTTATCGGTTTATTTGCCGCTTCTAACCTTTGGGCAAGCCACTGCCGAGCTATACCAATTTCCGATGCTGATGACCATAGATACCGTGAATATCACTTGGCTGTTGTTTGATCGGGTAACGATTTTCTTCTTATTGAGTCTGATGGCGTTTGCGCTGCTGTACTTGGGTGTGACATTATGGGTTCTCGTCACGCTTACCAAGGAGGCCATCCCCATCATCCCGAAAATCTACCTGTTGATTGCTCTGACCGCCGGTTTGTTTGCGATATCCTTGGCCATCCCGAACTGGGATTCCCTTAAGAAGCTGCAAGAGTGGATTATTCCTCTGCGATTGTATATATTCCTGGTGCTTCCCCTAATGACGTTTATCATCGGCTGGCGGCACAAGCACAAAGCAAACCGTGCAACGGAGGTAACCTGA	MDKSGYQATILYVVCHMGLIFFLYPSDLFSGMDMGHWIGISISYALHAAALYMYIKGLKWTARRNVVDMFRSTGKYLAWIFLLPAFFYFGIAIIVTIRAYSEMLTLVFLSTTPLWAVEFLLIAIALLMAWQGMSSMARTSVLLVVLFTFPILFVLCLGFQNVDWYYLLPIIDPEQSLHFIAKPDFLVSLFVYAGGSFFLGLLPPSIHISIKKMMLGCLLLLPMFLLSVYLPLLTFGQATAELYQFPMLMTIDTVNITWLLFDRVTIFFLLSLMAFALLYLGVTLWVLVTLTKEAIPIIPKIYLLIALTAGLFAISLAIPNWDSLKKLQEWIIPLRLYIFLVLPLMTFIIGWRHKHKANRATEVT	PGPT0025055_735	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
AK002_02673	1383			hypothetical protein	ATGGAAATGATATCTAGTATCAAGAATTGCGGGGGAGCGGATGCAGGAATGGACCTCAAAGAAAGCCTGGCTGAATATTTCAAAGCGAATGCCGATTATTTCAATGTTGAAATACGATTGCTGCAATATCATGTCCAGGTGATCGGTTTTGATTCATTGGTGGATCTTCCCCAGAGCATCGCATCGCTTCAAACCCAAACCTCGAATCTAACCGAAACCACCATGGCACCAGCAGATATTCTTAAAACTGTGGGCGAGCTTGTTGAACCCAAATTGGAAGTGGTTGTATCCAACATCATGAAGGGCCACCTGATCATTCTGGAGCCCCTGTCCGGGGCCTGCAGCGCCGTTCTGCCGATATCGAAAAATGTCACCCGCTCCGTCACATCTCCCGAAACCGAGAACACATTGTACGGCTCCAGCAGCGCCTTTCTGGAAGATATCAATACGAATATCGGCATTCTTCGTAAACATTGCACCGGATCCTCCTTGCAAGTGGAAACGTACACCGTTGGAAAAAGTCATCCCAAATCCTTATTGTTAATCTATCAGAAAGACCGGATCAAACCCAGGTTATTACAATCCATTCAAACCAAAATCAAAGCGGGTCTGGATCAGGATGTTCATCATATCCAGCAGCTCGAGAAGATGCTTGGCGTCAACACGTGGTCGCTCGTAACCAACTTCAACATGACGGAACTTCCGCAGAATGCAGCCCACTCCCTGGAGCAGGGCAAGGCCGTGTTAATGCTTGACCGTTATCCGTTCGCGATCATTATCCCTAGCCTTGTCATGGATATGTTCTGCATGAAGGACGATCATAATTATCCCCTCCCCTTCATGTACCTGATCCGAATCTTGAGAGTCGTCGGCGTCTTGATCGCGACGATTATTCCCGGACTCTATGTTGCCCTGGTGTCCGTCAACCCTGAAGCTCTTAGGCTTCAACTCGCCCTCTCAATTGCCAACAGCCGGCTGGAAGTCCCTTATCCCGCCTTTGTTGAGACACTGCTGCTGCTTATCGTGCTGGAGCTCATCCTGGAAGCAAGTGTCCGTCTGCCAAAAAGCGTAGGTCCTACCATTACGATGGTTGGCGGCATTATACTTGGCCAGGCTGCCGTATCCGCCAAACTCGTCAGCAACCTGTTGATTATTGTGCTGGCAGGTACAACTATTGCTTCTTCTACGGTGGTGGGATTCCAAAACTCCGTATCCGTGCGAGTGTTCAAGTATCTGCTGATCATACTGTCCGCCATCTTCGGCATGCTGGGATTGCTTGCTGGAATTGTTGTTATCTGTGCTTATATGGGCCATCAGAAAAGTATGGGAATTCCTTACCTATCCTTACCTACATTGAATCAGAAGGATGAGCAAAATGGATAA	MEMISSIKNCGGADAGMDLKESLAEYFKANADYFNVEIRLLQYHVQVIGFDSLVDLPQSIASLQTQTSNLTETTMAPADILKTVGELVEPKLEVVVSNIMKGHLIILEPLSGACSAVLPISKNVTRSVTSPETENTLYGSSSAFLEDINTNIGILRKHCTGSSLQVETYTVGKSHPKSLLLIYQKDRIKPRLLQSIQTKIKAGLDQDVHHIQQLEKMLGVNTWSLVTNFNMTELPQNAAHSLEQGKAVLMLDRYPFAIIIPSLVMDMFCMKDDHNYPLPFMYLIRILRVVGVLIATIIPGLYVALVSVNPEALRLQLALSIANSRLEVPYPAFVETLLLLIVLELILEASVRLPKSVGPTITMVGGIILGQAAVSAKLVSNLLIIVLAGTTIASSTVVGFQNSVSVRVFKYLLIILSAIFGMLGLLAGIVVICAYMGHQKSMGIPYLSLPTLNQKDEQNG	PGPT0014780_308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK002_02674	681	azoR1	COG1182	FMN-dependent NADH-azoreductase 1	ATGGGAAAAATGCTTATTATTAATGCGCATCCGAAGGTGGAAGCAGCCGCCTCTGTCAGCTTACAGGTGCTTCAGCATTTTGTAGAGACGTACACGAAATGGAATCCAGCAGGCCTAATCGAACAGTTGGATTTATACCGCGATCATATACCTGCCATTGACTACAGGGTTCTTGAGGCATGGAGCAAACAGGGAAGAGGGGAGCCGCTTAACGAAGAGGAGCAGCAGATCACGGATCGGATGTCCGTCATCCTGAAGCAGTTTAAGAATGCGCGGAAGTATGTCATTGCCATGCCATTGCACAATTTCAACGTTCCGTCCAAGCTTAAGGATTATATCGACAACATCCTCATAGCGCGGGAGACATTTCGATACACGGAGAACGGTTCGGAAGGTTTGCTAACCGATGGCCGCAGTTTGCTGGTTATTCAGGCAAGTGACGCCATTTACACGAATAATGACTGGTATACCGAGGTGGAATACTCTCATAAGTACCTGAAATCCATGTTTAACTTTATGGGGATCATGGATTATCAGATCATCCGGGCGCAAGGGAATGCCATTCTGGATCGAAGTCAAATTCTGGAGAAGGCCTTTCAGGAAGCCGAAACAGCTGCGAAGGCCTTGGCTATTGCGGAGACTTCGAATAAAGAGCCTATACGAAGTGGATTAGCGGAATAG	MGKMLIINAHPKVEAAASVSLQVLQHFVETYTKWNPAGLIEQLDLYRDHIPAIDYRVLEAWSKQGRGEPLNEEEQQITDRMSVILKQFKNARKYVIAMPLHNFNVPSKLKDYIDNILIARETFRYTENGSEGLLTDGRSLLVIQASDAIYTNNDWYTEVEYSHKYLKSMFNFMGIMDYQIIRAQGNAILDRSQILEKAFQEAETAAKALAIAETSNKEPIRSGLAE	PGPT0006790_198	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK002_02675	1395	gabR_1	COG1167	HTH-type transcriptional regulatory protein GabR	ATGTGGGGAATCAAATTACATCGGAACAGCGAAGTTTCGCTCAAACGCCAAATTTATTTGGCCATAAGGGATAAGATCGTTCACGGGAACCTGCCGTCAGGAGAAGCCGTCCCCTCTTCCCGTCAATTGGCCAGAGATCTGAACGTGTCTCGTGCCACGGTCAACGAAGCTCTGGACATGCTGAACGTCGAGGGCTATGTCGTCAGCAGACAAGGAGCGCCGACGCGCGTCGCCCAAGGCATCGTGCTGGATCCTCCGACTGACGCCGAACCGCGGACGCAGAAAGAAGGCCCTCCTGACTTTGCAGCGGATTTTCGTACGGGCCAGCCAGAACTGAGGTTATTCCCGCGGTACGCATGGCAGCAGATTTCATCGAAAACCCTTGGCGGCATGAGCTCCGCCCTGCTGGGTTATTCGGGTCCCCAGGGCCTGCCGGCGCTGCGCAATGAAATTTCTTTATGGCTGTGTCGCAGCAAAGGACTCAGCGTGGATGCCCAGGATATATACATAACGGCAGGCGCGACGCATGCGCTCAGCATCCTTGCCGATTTGCTCTATCGGGACCGTCAGGAGATATGGTTTGAAGATCCATGCAATATCGAGATGCTGCAGACGTTTATCAATAAAGGGTATCGCATACATCCAGTTCCCGTGGACGAATGCGGCATGCAAACAGATCTCCTGGGCGGCAAATCAAGTGGTCCCGTGTATGTCACCCCCTCCCACCAATTTCCACTTGGCGGTATCCTGCCGGCCGATCGGCGCGCTGCCCTTATTCGTTACGCCAGAAAGAACGACAGCTATATCATTGAGGACGATTATGACAGCGAGTTCAGATATTACGGGGATTCCGTCTCGCCTTTATATGCCCTGGATCCCGATAGGGTGGTCTATGTCGGCACATTCAGCAAGGTTCTATTCCCAGCGCTTCGCATCGGTTACGCGGTGGTTCCCCGTCAGCTTCAACAAAGCTGGAGCCGGTTACGTACCCATACCGATGTGCAGAATCCCCCTTTTGAACAGGCTGCTTTGGCCGAATTTTTACATACCCGGAAATTTGACAGGCATATCGGGAAGATGCGTAAGATCTACGGCGAACGCAGACAGGTCCTTTTGTCTTCATTACATAAACACTTCGGAAATGATTGGCGTTCTTGGGGAGATGCAGCCGGTTTGCATCTTGCTGTAGAGTTTCCCGGGGCTGTCTTTGACGAGGCTTTCAGGCAGAGGATCAGGCAAGATCGAATACGCATCACGCCGCTGGATTATCACAGCATTCAAAAAGGTCTCCACGCCAACAAGCTGCTGTTTGGCTACGGCCATCTTGAGCCTGGAGAGATCCGTGACGGAATTATGCTCCTGCATGCTTATTTAAAGGATCACGGCTACTTATAA	MWGIKLHRNSEVSLKRQIYLAIRDKIVHGNLPSGEAVPSSRQLARDLNVSRATVNEALDMLNVEGYVVSRQGAPTRVAQGIVLDPPTDAEPRTQKEGPPDFAADFRTGQPELRLFPRYAWQQISSKTLGGMSSALLGYSGPQGLPALRNEISLWLCRSKGLSVDAQDIYITAGATHALSILADLLYRDRQEIWFEDPCNIEMLQTFINKGYRIHPVPVDECGMQTDLLGGKSSGPVYVTPSHQFPLGGILPADRRAALIRYARKNDSYIIEDDYDSEFRYYGDSVSPLYALDPDRVVYVGTFSKVLFPALRIGYAVVPRQLQQSWSRLRTHTDVQNPPFEQAALAEFLHTRKFDRHIGKMRKIYGERRQVLLSSLHKHFGNDWRSWGDAAGLHLAVEFPGAVFDEAFRQRIRQDRIRITPLDYHSIQKGLHANKLLFGYGHLEPGEIRDGIMLLHAYLKDHGYL	PGPT0016790_4428	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
AK002_02676	951			hypothetical protein	ATGGGGGCTTTCACGCTGGCAGGAACCTCTGTCATCACGGCGTGGCTGTTGAACGGAAAGTTAGGTGCGTTTACGATAACGGCGGCCAGTTTATTGCTGGCTTTGTTATGCATGATTCCTCTTTGCATGAAGGATTTGAAGAGAACGGTTGGAAGGCTATCATGGGGTGAGTGGGGGGATCTGTTTTTTCAGGCCCTCTTGGGTATGTTTCTGTTTCGGATGCTTCTATTGCATGGCCTTCTTCATACTAGCACGGCAGAAGCCGGAATACTCACGGGGACTACGCCTGCTTTTACCGTGATGTTGGCATTCGTGTTTCTGAAAGAGTCGGTTAGCGGCAGCAAGCTGGCAGGCATTCTCAGCACGGTAGGAGGCATCCTCGTATTACAAGGAATGCTCACGCCCGGCATTTCTTTCAAGGTGCAGCACGTATACGGGAACTTGCTGGTGCTCTGCGCGGCTCTATCCGAATCCGGCTTCAACCTGCTATCCCGTATCGGTTCGGTGAAGCAAACGTCTTCTCCAAATCATGCCATGCATCCTGGAGTCCAAACGACGCTTGTCTCTGCGATCGCTTTCCTATTATGCTTGATTCCCGCTGGTTTCGAGGATCCTTTCACTTCGCTGGCTGCCATCGGATTACGGGAATGGTTCGCACTGATATGGTATGGGCCGATCGTGACGGCCGTAGCGTTCATCATGTGGTATGCCGGCATCAAGCGCTGCCATGTTTCAACAGCTGCCGCTTTTTCCGGCATGATGCCTTTCACGGCTCTATTGTTATCTGTCATCGTACTAAAAGAACCCGCAGGATGGGAGCAGTGGGGAGGAGGCATCCTGGTCGTTCTCGGTATGTTCCTTATTGGCAGGCAGCAGGCCAAAAGCCCTCCATCGGCCAAACAGCTTCAGTCGGAACATGGAAGCCTCGCTGGGAGTGAGGGAATAGGTTAA	MGAFTLAGTSVITAWLLNGKLGAFTITAASLLLALLCMIPLCMKDLKRTVGRLSWGEWGDLFFQALLGMFLFRMLLLHGLLHTSTAEAGILTGTTPAFTVMLAFVFLKESVSGSKLAGILSTVGGILVLQGMLTPGISFKVQHVYGNLLVLCAALSESGFNLLSRIGSVKQTSSPNHAMHPGVQTTLVSAIAFLLCLIPAGFEDPFTSLAAIGLREWFALIWYGPIVTAVAFIMWYAGIKRCHVSTAAAFSGMMPFTALLLSVIVLKEPAGWEQWGGGILVVLGMFLIGRQQAKSPPSAKQLQSEHGSLAGSEGIG				NA	NA	NA	NA	NA
AK002_02677	507			hypothetical protein	ATGGGTATTTTAAGCGGAAACCCTAAAGATGAGCCCATGCATTACGGGGAGATTTTTAGCGTATGGGAAACCTCCATGCTGGCAAAGGGAATGGTGTCCTGCTATGAGGCTTATTTGAATCACGCGGGAGATAAAGACCTTAAAAAAATTCTTCATGATCTGCTGGATCAGGCTAAACTCGAGATTAAAGAATGCGATGAGCTGCTTACCGACAACGGAATCCCGCCTGCACCGGGGCTTCCCGAAAGACCCCCTGTCAAGCTTGAGGATATTCCGGCTGGCGCAAGATTCACGGATCCGGAAATCGCGGCCAAAATCGCAGCGGATACATCACTCGGACTAGTATCTTGCAGCCAAATCATGGGACAATCGATCCGGGAGGATATCGGTGCATTATTTGCTAAATATCATCTCGTCAAGACCGCGCAGGGTGTGCGAATCCTTCAGATGAATAAGGAAAAAGGCTGGCTCATTCCGCCGCCGCTGCAAATCAAGAGACCCGAGTAA	MGILSGNPKDEPMHYGEIFSVWETSMLAKGMVSCYEAYLNHAGDKDLKKILHDLLDQAKLEIKECDELLTDNGIPPAPGLPERPPVKLEDIPAGARFTDPEIAAKIAADTSLGLVSCSQIMGQSIREDIGALFAKYHLVKTAQGVRILQMNKEKGWLIPPPLQIKRPE				NA	NA	NA	NA	NA
AK002_02678	855			hypothetical protein	ATGTATTTTTATAAAGAGGATCTGATCAACCTGATCGTTCCGGATAAACCGGATCCCGCAGCTGCGAAAGTGCTGCAAGAAACGTTAGGCGGCCGATTCGGGGAGATGCGGACGATGATGCAGTTTTTCTTTCAGAGCAGCAATTTTCGAGGAAAGGCAACGCAGTACCGCGACTTGATCCGCGGCGTTTTTTTGGAAGAAATCAGCCATGTCGAATTGGTTCAACATACAATCAACCAGCTGCTTACCGGTGCTGGCGCAGAAGGCGCGGGTAATTCCGGCACGGATGCGGCCCCGCTGAATGAAGCGATTAAACATGCGAATCCGCATCATTTTATTATGGGAGCCCAAAGTTCTTTGCCTGTGGACGCCGCCGGAAATCCGTGGATGGGAAATTACGTGTACGATCACGGCAATCTGGTAGGTAATTTGCTCGATAATGTTGTACTTGAATCTACGGGAGTGCTTCAAAAAACACGAATTTATGAGATGAGTACGAACAAGGCCTTCCGCGAAACGTTGGCTTTCCTCATCGTGCGGGATAATGCACATCAAAATGCTTTTGCAAAAGCTTTGGAGACGCTAGGCGTGGAATGGGGCAAAATATTTCCTGTTCCGAATTATGACATTCATAAATACCCGGAATGTCAGAAGTACGTTGATATGGGCTTCCATAACGCTCAGTTCAATTTCAGGCTGGATGATACACGCATCGGCGAAATTTTTAGCGGTCAAACACCTAGCAGAAACGGCGGAGAATTACAAGTGGTTCAACCGCCGGAGGGTTTCCCGTTACCTGTGATGCCGGAGCTTGCCAACGAGCACGCACCCGGTTTATACGATTTGAATCAGTAA	MYFYKEDLINLIVPDKPDPAAAKVLQETLGGRFGEMRTMMQFFFQSSNFRGKATQYRDLIRGVFLEEISHVELVQHTINQLLTGAGAEGAGNSGTDAAPLNEAIKHANPHHFIMGAQSSLPVDAAGNPWMGNYVYDHGNLVGNLLDNVVLESTGVLQKTRIYEMSTNKAFRETLAFLIVRDNAHQNAFAKALETLGVEWGKIFPVPNYDIHKYPECQKYVDMGFHNAQFNFRLDDTRIGEIFSGQTPSRNGGELQVVQPPEGFPLPVMPELANEHAPGLYDLNQ	PGPT0013240_748	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013240-katN|ctjC|ydbD|yjqC-K07217	NA	NA
AK002_02679	984	thrB_4	COG2334	Homoserine kinase	TTGAGTTTATTTCCTGTCACTTACTCGCTTCTGTCTAAACAAGCGGTAGGGTTACATATCCAACACCATTATGAGATCGGTTCCGTTATGAAAATTCAGTATTTCTTGCGGGGTATGAACGATACGTACGCAGTTGAAACAGATGTTGATAAGTATATCTTCCGCATCTATAGGGCTGATCGAAGAAGCCGGCCTGACATCGAGTTTGAATTGGAATTGCTGCGGTTTCTCCGTGCGAACGGGATCAGCGTGTCAGAGCCCGTTCCGGGAAAAGACGGCGCGTACCTTAGCGGATTTAACGTCATGGAGGGAACCCGGTACGGGGTTCTATTTCAATATGCGGAAGGACAAGAGATGCCGATTCACGCCGCAGCGGACAGTTACCGGTTCGGTAAATCCATCGGCCATATGCATAAGGTGGCGGATCAATTTGAAAGTCGGTTTGCAAGGGAACGGCTAGATATGGAGTTTCTTATAGAGCGGCCTTTATCCATCATCAGATCCTATATGGAGCATCGGTTGACGGATGTTAACTACCTTAGTGAAATGGCAACGGAACTTAAGAAACGAATCTCGGAGCTTAAGGTTCAAGGTTTAGATTGGGGCGTGTGCCACGGAGATTTGCACGGCAATACGAATGCTGCATGGACAGAGGACGGAAAGCTGACCCATTATGATTTTGATTTATGCGGTTACGGCTGGAGAGCTTACGATATTGCGGAGTTTAGGCTGGCCAGAGAAATACATAGCAGACATGACCCGGAGGAAGTCGAAAGATTATGGGACGCCTTTCTGAGTGGGTATTGCAGCGTCAGATCTCTCAGCGAAAATGATCTTGCTGCTGTCCCTGTATTTGTTGCCGTTCGGCAGCTTTGGCTCTTTGGTCTATGTTTTCGCAATTCGGAATTTGTGGGCATTGCCGACATTGATGAAGGTTTTATAGATAGCAAAATGCAGTATTTCAAGAGTTTGGAATATGTCTAG	MSLFPVTYSLLSKQAVGLHIQHHYEIGSVMKIQYFLRGMNDTYAVETDVDKYIFRIYRADRRSRPDIEFELELLRFLRANGISVSEPVPGKDGAYLSGFNVMEGTRYGVLFQYAEGQEMPIHAAADSYRFGKSIGHMHKVADQFESRFARERLDMEFLIERPLSIIRSYMEHRLTDVNYLSEMATELKKRISELKVQGLDWGVCHGDLHGNTNAAWTEDGKLTHYDFDLCGYGWRAYDIAEFRLAREIHSRHDPEEVERLWDAFLSGYCSVRSLSENDLAAVPVFVAVRQLWLFGLCFRNSEFVGIADIDEGFIDSKMQYFKSLEYV				NA	NA	NA	NA	NA
AK002_02680	537			hypothetical protein	ATGAAAGTTACCGTGGAGTTAAGCGATGCTTCCGCCAAATTTATGATTAACAATCTATATCCGCTATATTTGCACGATTTATCGGAGATATGGGGGTGGAAGCCGAATCGATACGGCGTCTTTGAGGATGACGATACTAGAACCTTATATGACCAGAATCAAGTTTTTGATATATGGTGGGAGAAGCCCTTGGTTTTGTTTCCCTATCTGATTCGAGTGGAAGGTATCCCGGCAGGGTTCGCCCTCGTAGCAACCCCGCCGTACACTTTTGGCAGTGAATTTTATATGAATGAGTTTTTTGTTATGAAGCCCTTCCGGGGCAAACATGTTGCTGAGAATGCTGCATCGCAAGTGTTCGGCAAGCATGATGGCAGCTGGGAAGTCCAGACGAATGCCACCGATCGCAATAAGCGGGCGCAGGCATTCTGGAGAAAGACGATGCACAACTATGTTTCGCCCTCTCGCATGCAGGAATTTGTTGCAACGAGGAACGACAAAGAGATGCTGATCTTTCAGTTTGTATCCTCGCGGGAGTAA	MKVTVELSDASAKFMINNLYPLYLHDLSEIWGWKPNRYGVFEDDDTRTLYDQNQVFDIWWEKPLVLFPYLIRVEGIPAGFALVATPPYTFGSEFYMNEFFVMKPFRGKHVAENAASQVFGKHDGSWEVQTNATDRNKRAQAFWRKTMHNYVSPSRMQEFVATRNDKEMLIFQFVSSRE	PGPT0028640_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028640-aac6_I|aacA7-K18816	NA	NA
AK002_02681	582	sigW_7	COG1595	ECF RNA polymerase sigma factor SigW	TTGGATTCGATCGAGGAGTACGTGGGACGTGTTAAGGCCGGTGAGGTGGATTGTTTCGAGCCTATCGTCGAAACGTACAAAAAACAGATTTACATATACTGCTGCCGAATGCTCGGCTGCAAGCAGGATGCGCAGGATGCCGTCCAGGATATCTTCATCAAAGCGTTTACCAAGCTTAATACCTATGAAGCCAAGGTTTCATTCTCATCATGGTTGTACAAGATTGCATACCATCATTGTCTCAATATTCTACGTAAGCGACGGGTTCGCATGCGAGTAAGCCGACTGATCAAACCGGCGGGTTATGCTGATAGCGTGGAAGAGACGCTGGAGCGCAAATGGTTTAGCGAACCGCTGGAATATGCCATGACCAAGCTCTCGGTAGAGGAGCGTAATCTGCTCGTGTTGCGGGTTTTTGAAGATAAACCATTTACGGAGATTGCGCAGATTCTGGATAAGAATCTAAGCGCGGTGAAGAAAAAATATGCTCGGATGAAACAGAAAGTCATCAAGCTGATCCAGGAGAAGGAGGTGACGGGGTTATGCGAGATTCGGGACAGTCGGAGCAAGATCGAATTCTGA	MDSIEEYVGRVKAGEVDCFEPIVETYKKQIYIYCCRMLGCKQDAQDAVQDIFIKAFTKLNTYEAKVSFSSWLYKIAYHHCLNILRKRRVRMRVSRLIKPAGYADSVEETLERKWFSEPLEYAMTKLSVEERNLLVLRVFEDKPFTEIAQILDKNLSAVKKKYARMKQKVIKLIQEKEVTGLCEIRDSRSKIEF				NA	NA	NA	NA	NA
AK002_02682	960			hypothetical protein	ATGCGAGATTCGGGACAGTCGGAGCAAGATCGAATTCTGAGAAGCATGGAATTGCACTCTGTGGATGAAGAAGTTGACGTGACCCCCGCCATCATGCATAAGGTACGTCTAATTCACCGGAAGAAACACGGTAGAAATGGCAATCGGAAGAAAACCTTAATTATTGCAATGCTTACTGCAATTTTGATTCTTTCGTCGCTTAGTGTTTACGCAAGTCAATACTTGATACAGATCAAGAACAAGGAAGGCGAAGTCATTCTGTCGACCATAAAGCCATGGGAATATTCCGAATCGGAATATAACGCCAAACGTGTAAAAGAGACGGAAGAAGAGCTGAGAAAGAGGTTAAAGCCGGGAGAACAGGCGGTGTTTTATATCAAGGACCTGCATATGACTCCACTCGTCAAAGAACAACCTCTGAAATATTTTTATATGTTGACTAAGCATTCGAATTATCAGGAACTCGCAAAAGAAATCGAGGAAAAAAACGCTCCCGTGCTTCTAGAGCCAGATTATGTACCGGAAGGGTATCGATTTGATTATGGACAGATTCAAATTAGGAACGAGCCCGTATGGGGTACACCGGAGTATGAAACTCTTCTGAATGAACTCAAAGAGCAGGCTGAGCAGTCGGATGAAGAACAGGGACTGTTCTTTAAGATTGTTCCTTGGTACAAGATTGCATCTACAGGAATGGAATATCGTAAAGATGAAAACCGGATCAAGATGGTAGCTTTTGCCCGAGAGAAGGGCTCCAAGGCCGGGGTGCCCACAAACCAAGCCGTAAAAATAAAGGTGAAAGGGAAAGAAATGATTCTGTCAGCCAGTCCATCCAGCCCTTCGCGCAGCTTGACTTGGCTCAGCGACAGCGAAGAGGTGCTGTATATAATTACGGATGACCCAAAGGATCCGTTGTCCAAGGATGAGTTTGCGAAGATTGCGGCAGGGCTTATTCCGTAA	MRDSGQSEQDRILRSMELHSVDEEVDVTPAIMHKVRLIHRKKHGRNGNRKKTLIIAMLTAILILSSLSVYASQYLIQIKNKEGEVILSTIKPWEYSESEYNAKRVKETEEELRKRLKPGEQAVFYIKDLHMTPLVKEQPLKYFYMLTKHSNYQELAKEIEEKNAPVLLEPDYVPEGYRFDYGQIQIRNEPVWGTPEYETLLNELKEQAEQSDEEQGLFFKIVPWYKIASTGMEYRKDENRIKMVAFAREKGSKAGVPTNQAVKIKVKGKEMILSASPSSPSRSLTWLSDSEEVLYIITDDPKDPLSKDEFAKIAAGLIP				NA	NA	NA	NA	NA
AK002_02683	783			hypothetical protein	ATGATAAAAAACAAGGTAAAAGTCGCATTACTTCTCGCAGCCACGATGATGGTTGGATCTGTCAACGCATACGCAGCCAGTACCGAAAGCGTATCGATTTCGAAGACGATGTCTGCCAAACCGGAGAAGGGAATCGTTTCATATGACGATCAAATCAAGGACTTGGTCAACAGACTTAAGCCAGGTCAGATGATTGCCTACTATGCTGCCGATCAGGAATTTAACCGGACAGATCAAATCTACTTCGCATCCAAAGGCTTTGCTTTCACTAAGTATACGGATTATTTGGCGAAGTCGAAGGCAATGAGTGCACCGTCCCTGACCAAGCCTTCAATCTTGCCGAAAGGGTACACTTTCAAGAACGCGGTTGTTTACTTAAAGAGTCCTGAAAGAACGTCGAGCCTATACAAGAAGCTGGACAAGGAATTGAAGGGGAAGGCTGCGAACGGCGAGAAGTTCGTGTATTCCGATATCATGAAGGTGAATGAAGCATCCGCCGCGATTCTGAACTATGAAAAAGGCAAAGTAAAGCTTCAAGTCGTAGCGAGTGATATCGTTCCCGAACAGCCGATAGGCGGAACGCCCGTACCGCAGGAGAAACCGAACGAATCCAAGGAAACCATCGTCATTAACGGTGTTGAATGTGTTTACACCGCCGACTCGAAGGGAAGGAATCACCTGGATTGGGTGGATGAGGAGCATCAGATTCGTTATAGCATTTGGGCGGAAGACGTCAAGTCTGATATTCTTCGCTATGCCCGAATTATGCTGGCTCCAAAATAG	MIKNKVKVALLLAATMMVGSVNAYAASTESVSISKTMSAKPEKGIVSYDDQIKDLVNRLKPGQMIAYYAADQEFNRTDQIYFASKGFAFTKYTDYLAKSKAMSAPSLTKPSILPKGYTFKNAVVYLKSPERTSSLYKKLDKELKGKAANGEKFVYSDIMKVNEASAAILNYEKGKVKLQVVASDIVPEQPIGGTPVPQEKPNESKETIVINGVECVYTADSKGRNHLDWVDEEHQIRYSIWAEDVKSDILRYARIMLAPK				NA	NA	NA	NA	NA
AK002_02684	117			hypothetical protein	ATGGGTGAAGTTGCTGGATACAATGGCGGAGGATACGGATCGGTTGGAGCGGTGCTGGTTCTCTTTATTCTCTTGGTCATCATCTTGTCTGCTTTCGGATTCGGATTTGGAGTTTAA	MGEVAGYNGGGYGSVGAVLVLFILLVIILSAFGFGFGV				NA	NA	NA	NA	NA
AK002_02685	1059	trpD_2		Anthranilate phosphoribosyltransferase	ATGATCCACTTATTGAAAGAAGTCGGCCGCGGCAAACGCGGCGCTCGGGACCTGACTTACGAGGAAGCCCTTCAGGCTGCAGCATCGATTCTGGGTGCAGAGGCTACTCCTGCGCAGATCGGGGCCTTTTTCATCGCTGAACGCATCAAGATGGAAAGCGTGGAAGAATTGGAAGCATTCGTGAAGGTCAGTCGTGAATATGCGGACCGTTCGTTTCTACATGCGGGTATCGACTGCGCAGGTCCTTATGACGGCAGAAAGTCTTCTTTTTTCTCGACGTTAGCCACTGCGTTTGTCCTCGCGGCTGCCGATCTGCCCGTTACGCTGCACGGGACTGCATCCCTCCCTCCAAAGTGGGGGATCACCTTGTCGGATATACTCGCAGCGAAAGGAATAACCGGACCGGCATTGGCAAAAGACTCATGCATCAGGGCGGCCAAACAGACGGGCGTATTATATGTAGATGCGGAAGAATGGTGCCCTCCGCTGAAGCACCTTCGCCCGATTCGCGAGGAACTGGGGATGCGGACCGTGCTCAACACGGCGGAAAAGTTCGTCGATTATTCCCATTCCCCGTATTTAACCTTCGGCGTTTACCATAATACGGTCTTTGACCGGTTAAGCCGACTGATCATGAAACTCGATTATCGTAAAGCGATCATTATTCAAGGCAGTGAAGGCTCCGATGAACTATTCATTCACCGGCCCACGCGGACATACCGGATCGAGAACGGTAAGGCCTGCCTGCAGATCATCGATCCCGAGGCGTACGGGCTAGATGTACCGGTTCCGGACATCGGCTGGACTCCTTCCGAACAAGCTGACGCTACGGCGGAGGTTCTGCTAGGCAAAGGGAATCTCGCTTTTATCTACCAGGTGCTGCTGAATGGCGCGGTACGTTTACAGTTGGCGGACAAGGTCAGGTCCGTCGAAGAAGGGATATATACCTGCAAAGCATTGCTGGATTCAGGGAAACCATGGGAGTTATATAACAAATGGTTGTCCTTGCTTACAGAATCCGATGCGGTCTCGTCAATGGGAAGGCATGCCTCGCAATGA	MIHLLKEVGRGKRGARDLTYEEALQAAASILGAEATPAQIGAFFIAERIKMESVEELEAFVKVSREYADRSFLHAGIDCAGPYDGRKSSFFSTLATAFVLAAADLPVTLHGTASLPPKWGITLSDILAAKGITGPALAKDSCIRAAKQTGVLYVDAEEWCPPLKHLRPIREELGMRTVLNTAEKFVDYSHSPYLTFGVYHNTVFDRLSRLIMKLDYRKAIIIQGSEGSDELFIHRPTRTYRIENGKACLQIIDPEAYGLDVPVPDIGWTPSEQADATAEVLLGKGNLAFIYQVLLNGAVRLQLADKVRSVEEGIYTCKALLDSGKPWELYNKWLSLLTESDAVSSMGRHASQ	PGPT0007090_785	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
AK002_02686	624			hypothetical protein	ATGCGTTCATTGCTGGTTATCCACCATCCGGTCCCTGCTTCAGAGCGAAGTGACACAGCTGCCAAGGCGCTTCTTCCGGAATTTATCCTTCGTTCATACGGATATAAGATCCACCTTGCTCGCAATGAGAAGCAAGCGTTGGCCGGAATCATGGAGGCTGACGGAACGGTTCTCCATCTTCCGGTCGCATCGATCAAGCCATGGTGCAGCACCCTTGAACAACAAAAGCGCGTGCCGGTTCTGTGGTGGTGCAGCGATCATGCCGCTTCGCAATCTCTCGAAGCATGTGAAGATGATGTTACAATTGATGGGCTTTTATTCCCCACCATGAAGGAGCATGAGCTGCATTGGACGCTTCATTTTAGTTCAAAGCATTTTTACGAACGTCAACAGTGGCATGACGAAAAAACGCAGCTCCTAGCCCGCATTGAAGAACGAAAATGGATTGATATGGCCAAAGGCATTTTATGCGAAATGAAACAAATTTCGGAATCCGAAGCCTACGATGTCCTGCGCAAACAGGCGATGAATGAAAGAAAAAGAATGGTGGACGTCGCCACCTCGATCGTTAAGCTGTATCAATTGCTGCAAGAGACCGGTTCAGGAGGTGCCAAAAAATCATGA	MRSLLVIHHPVPASERSDTAAKALLPEFILRSYGYKIHLARNEKQALAGIMEADGTVLHLPVASIKPWCSTLEQQKRVPVLWWCSDHAASQSLEACEDDVTIDGLLFPTMKEHELHWTLHFSSKHFYERQQWHDEKTQLLARIEERKWIDMAKGILCEMKQISESEAYDVLRKQAMNERKRMVDVATSIVKLYQLLQETGSGGAKKS	PGPT0000400_124	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000400-nasR|nasT-K07183	NA	NA
AK002_02687	2433	nasD_3	COG1251	Nitrite reductase [NAD(P)H]	ATGACAAAAAAGAAGTTAGTGATGATCGGGAATGGCATGGCAGGAGTAAGGGCTATCGAGCATTTAATCAAGCTTGCGCCCGAAGCGTATGAGATTACGATATTCGGAGCGGAACCTCATCCGAACTACAATCGGATCATGCTGTCATCCGTGCTCGCAGGCGGAACCGATCTGAAGGAAATCATTATTAATGATTGGGATTGGTACAAGGAGAACCGGATCCAATTGCATGCAGGCCATACGGTGAACCGGATCGACACGCTGCATCGCAAAGTATTCTCCGAGCAAGGAGCTGTCGCTCCATATGATGCTTTGATTATTGCGACCGGATCCAATCCGTTTATGCTGCCTTTGCCGGGTGCCGACAAGGAAGGCGTGATCGCATTTAGGGACATCCAGGATTGCGAAACGATGGTGAAGACGTCGCAGCAATATAAGAAAGCGGTGGTCATCGGCGGAGGCCTCTTGGGCCTGGAGGCCGCTCGAGGTCTTCTGCATCTGGGCATGGATGTATCCGTGGTTCATCTGAATCCCTATTTAATGGAACGGCAATTGGACGAGACGGCAGCCAAAATGCTGCAGCGTGAGCTCGAAACACAAGGAATGACGTTTTTGCTGAATAAAAATTCGGAATCGATCTCGGGTCGGAAGCGGGTGAGGGCGCTCCATTTTACGGACGGGAGCAGCGTCGAGACCGACCTGATCGTGATGGCCGTCGGGATCAAGCCAAACGTCTCTTTGGCACAGTCCTCCGGAATTGAGGTTAACCGCGGAATCGTCGTTAACGACTATATGGAGACGAACGTCCCCGGCGTCTATGCGGTGGGCGAATGCGCGGAGCATCGGGGTATCGCTTATGGTCTTGTAGCCCCGCTGTACGAACAAGGAGCGGTACTCGCCAAGCATCTGGCAGGTGTGGAGACGAGTGGATATGCCGGTTCCGTCACGTCAACGAAATTAAAGGTATCCGGTGTGGATGTATTCTCCGCAGGTCATTTTGCAGACCCGGAAGGAACCAGATCCATGCGATATCAAGATGAGGTCGAAGGGGTATACAAAAAAATCGTCGTCCGCGAAGACCGGCTCATCGGGGCTGTTATGTTCGGCGATACGGGGGATGGACCGAAGCTGTTTTCGCTCATGAAGAGCGGGGAATCCATCAAGGGCAGAGAGAAAGAGCTTCTGTTAGGCTTCGCGCCTAATGCAGGCGTTGTATCAACGGAGCAGCGGCTGGCTCAGCTGGCGGATGATGAGATCATTTGCGGCTGTAACGGCGTATCGAAAGAAGCGATCAAAGATGCCATTCTTACGAAGAATTGCAATACCGTCGCATCCGTTAAAGCTTGTACCAAAGCTTCGGGATCCTGCGGCGGCTGCAAACCTCTTGTCGAGGGACTCGTTCAATTATACGCCGGGGATGCTGCCGGGGAGCCGGTAAAAGAAGGGATATGCGGGTGTACTTCGCTGGGGCGGGATGAAATCATCGCCGAGATCACCCGTCTTGGACTGGGTACCGTGAAAGAAGTGATGAACGTGCTGGGATGGGATAATCCGGAGGGGTGCTCCAAGTGCCGTCCATCGCTGAACTACTATCTCGGCATGCTGTTTCCGGAATCCTACGTGGACGAGAAGGAATCGCGTTTCACGAACGAGCGGTACCATGCCAATATTCAGAAGGATGGCACGTATTCCGTGGTGCCTCGGATATACGGTGGGGTGACGTCACCTTCTGAGCTAAAGAAAATCGCCGAGATTGCGGAAAAATTCGATGTGCCGATGGTCAAGATTACGGGCGGACAGCGGATCGATCTGCTCGGCGTCAAGAAGGAGGATCTGCCGAGGATGTGGGAGGAGCTGGATATGCCTTCCGGTTATGCTTACGGTAAAGCCCTCCGTACGGTTAAAACTTGCGTAGGGTCCACGTTTTGCCGATTCGGCACGCAGGACTCCATAGGTATGGGCGTGCGTTTGGAGAAAGAATTTGAGCGGCTGAGCACCCCGGCCAAAGTGAAACTGGCGGTTTCCGGATGTCCTCGGAACTGCGCGGAAGCCACCATTAAGGATTTTGGCGTTGTGGCAATTGATGGCGGCTGGGAACTGCACGTCGGCGGCAATGGAGGCGTTCATGTCCGGGCCACGGAATTGTTATGCATCGTAAAGACCGAAGACGAGGTGGTCGAATGGGCGGGAGCCTTTATCCAATATTACCGCGAGAACGCACAATGGAATGAACGGACGTCGGTTTGGATCGAGCGAGTGGGTCTGGAGCATGTGAAACAAGCATTGGAGAAGAAAGAGGATCGCGACGCTCTTGTTTCCAGAATAAAGCTGTCTTTAAGCAAGCAAAAGGATCCGTGGAAGGAGATTACGTCAGACAGCGGGCTTCGTAAAAATTTCGTGCCTTTGCCTGACGCCGAAGCTGTGACGAAATAG	MTKKKLVMIGNGMAGVRAIEHLIKLAPEAYEITIFGAEPHPNYNRIMLSSVLAGGTDLKEIIINDWDWYKENRIQLHAGHTVNRIDTLHRKVFSEQGAVAPYDALIIATGSNPFMLPLPGADKEGVIAFRDIQDCETMVKTSQQYKKAVVIGGGLLGLEAARGLLHLGMDVSVVHLNPYLMERQLDETAAKMLQRELETQGMTFLLNKNSESISGRKRVRALHFTDGSSVETDLIVMAVGIKPNVSLAQSSGIEVNRGIVVNDYMETNVPGVYAVGECAEHRGIAYGLVAPLYEQGAVLAKHLAGVETSGYAGSVTSTKLKVSGVDVFSAGHFADPEGTRSMRYQDEVEGVYKKIVVREDRLIGAVMFGDTGDGPKLFSLMKSGESIKGREKELLLGFAPNAGVVSTEQRLAQLADDEIICGCNGVSKEAIKDAILTKNCNTVASVKACTKASGSCGGCKPLVEGLVQLYAGDAAGEPVKEGICGCTSLGRDEIIAEITRLGLGTVKEVMNVLGWDNPEGCSKCRPSLNYYLGMLFPESYVDEKESRFTNERYHANIQKDGTYSVVPRIYGGVTSPSELKKIAEIAEKFDVPMVKITGGQRIDLLGVKKEDLPRMWEELDMPSGYAYGKALRTVKTCVGSTFCRFGTQDSIGMGVRLEKEFERLSTPAKVKLAVSGCPRNCAEATIKDFGVVAIDGGWELHVGGNGGVHVRATELLCIVKTEDEVVEWAGAFIQYYRENAQWNERTSVWIERVGLEHVKQALEKKEDRDALVSRIKLSLSKQKDPWKEITSDSGLRKNFVPLPDAEAVTK	PGPT0000450_2136	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000450-nirB-K00362	NA	NA
AK002_02688	321	nasE_2	COG2146	Assimilatory nitrite reductase [NAD(P)H] small subunit	ATGGCGAAACTGCATGTAGGATACGTGAACGAAATCGATCCTAAGGGATCAAGAACCATTGAAATCGGGGGAACGGAAATTGCGCTGTTCCGCTTGTCGGACGGGAATATTCTGGCCGTCGAAAACAAGTGCCCGCATAAAGGAGGCAAGCTTTCGGAAGGTATGGTGTGCGGGAAGCAAGTGCACTGTCCACTTCATGATTGGAAAATCGATCTGTGCAGCGGACAGGTTCAAGAGCCGGACACGGGTCATGTAAACACATATCAGATTGAAGTGGATCCGGCAAACGGCGCGATTTACTTGCTGGATCGTACAGCTTAA	MAKLHVGYVNEIDPKGSRTIEIGGTEIALFRLSDGNILAVENKCPHKGGKLSEGMVCGKQVHCPLHDWKIDLCSGQVQEPDTGHVNTYQIEVDPANGAIYLLDRTA	PGPT0000455_1860	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-DENITRIFICATION|NITRATE_USAGE	DENITRIFICATION-NITRATE_REDUCTION,PGPT0000455-nirD-K00363	NA	NA
AK002_02689	876	focA_1	COG2116	putative formate transporter 1	ATGGATTACGTGAAACCGGATCAGGTGATGCATGACATGATCGAGGCTGGGGCCGCGAAGGCGCGGCTGAAGATTTCGCAGATGCTTATTCGCGGCATACTGTCCGGCGCTATCCTGGCATGCGCCACCACGCTAGCATTTACAGCTTCGACCCAAACGAATATCCCGATGGCGGGCGCGCTCCTATTTCCGGTTGGCTTCGTCATCATTGTAATGCTGGGTTTAGAGCTGGTCACCGGAAGCTTTGCACTCTTACCGTTAGCCGTCCTGCAGAAGAAGGCTTCAACGGCTTCTATGCTAGCGAATTATGGATGGGTCATTCTCGGACATGTGATAGGCTGTCTGATCTATGGGGGGCTCTATGCGCTTACTGCGACCAAGATGGGGACGGATATGAGTCATCCGCTGGTTCGGATGATCATTGAAGCAAGCGAGACGAAGACAATCGGCTACAAGGAGCTAGGCACGAGCGGCTTGCTATTGGTATTGATCAAGGCTATGCTCTGCAACTGGATGGTGACGCTTGGCGTTGTCATGGCGTTTACCTCAAGCTCAACGATAGGAAAAATCGTCGCCATGTGGCTGCCGATCCTGCTCTTCTTCGGCCAAGGATTCGAGCATGCCGTCGTCAATATGTTCGTGATCCCCGCAGGCATGATGCTGGGTGCGAATGTCAGTATGACTGATTGGTGGTTCTGGAATCAAATCCCCGTGCTTATAGGTAACTTTATCGGCGGATCGGTATTTACCGGGGCGATGCTGTACTTTGCCCAATACGGATTCGGTAAGAGACGCGGGGTTACGCGGATGGCGACCGGCTATTCAGGCCGCGGGATAATGGAGGCGACGGCAGTTTCCGTCGAGAAAAGACGATGA	MDYVKPDQVMHDMIEAGAAKARLKISQMLIRGILSGAILACATTLAFTASTQTNIPMAGALLFPVGFVIIVMLGLELVTGSFALLPLAVLQKKASTASMLANYGWVILGHVIGCLIYGGLYALTATKMGTDMSHPLVRMIIEASETKTIGYKELGTSGLLLVLIKAMLCNWMVTLGVVMAFTSSSTIGKIVAMWLPILLFFGQGFEHAVVNMFVIPAGMMLGANVSMTDWWFWNQIPVLIGNFIGGSVFTGAMLYFAQYGFGKRRGVTRMATGYSGRGIMEATAVSVEKRR	PGPT0017240_129	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
AK002_02690	756	sumT	COG0007	Uroporphyrinogen-III C-methyltransferase	ATGGTGTATATCGTCGGCGCAGGCCCGGGAGACCCGGAGCTGATTACGTTGAAAGCCCTCCGGCGTATCCAGGAAGCGGACGTCATCATGTACGATCGGCTGGTGAACGATGAGCTGTTGAATTACGCGAAGAAGGATGCTTTGCTTGTATACTGCGGCAAGGCACCCGGACGCCATTCTCTTCCGCAGGAAAGGATCAACGAGAACATGGTGGCCTTTGCCCTAGACGGTCATCATGTCGTCAGACTCAAGGGAGGCGATCCGCTGATCTTCGGTCGAGGAGGAGAAGAAGCTTGCGAATTGGCTGCACGCGGCATTCCCTTCGAATTCGTGCCAGGCGTTACCTCGGCTGTGGGCGCTTCCTCGTCCTCAGGAATTCCTCTGACTCACCGCGGAGCCAGTACCTCGGTTGCTTTTGTCAGCGGAACGAGCTGCCATGGTAATGAGCAGAGCGTGAGGTGGGACTTGCTGGCGCACAGCGTGGATACGCTTGTGGTGTACATGGGTGTCAGCAGAATGGAAGGCATCTGTAAAGAGATGATCGCTCACGGCAAGCCGCCGTGGACTCCCGCCGCCATCGTCGAGCAAGGAACCTGGGCGGAAGAGAGAATCTTCACGGGTACGCTCGGAACCATCTACAGGATTTCTCATCGGATGAACGTGAAAAATCCGGCCCTGCTGATCATCGGAGAAGTGGTGCGGGTCAGAGAGCAGCTCCTGAAACTGGCGGCGGAGGCGCAGGAGAAGACCGGTTAA	MVYIVGAGPGDPELITLKALRRIQEADVIMYDRLVNDELLNYAKKDALLVYCGKAPGRHSLPQERINENMVAFALDGHHVVRLKGGDPLIFGRGGEEACELAARGIPFEFVPGVTSAVGASSSSGIPLTHRGASTSVAFVSGTSCHGNEQSVRWDLLAHSVDTLVVYMGVSRMEGICKEMIAHGKPPWTPAAIVEQGTWAEERIFTGTLGTIYRISHRMNVKNPALLIIGEVVRVREQLLKLAAEAQEKTG	PGPT0003685_2429	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
AK002_02691	1650		COG3573	KsdD-like steroid dehydrogenase	ATGAAATATGACGTCATCGTGGTAGGAGCCGGCTTATCGGGTCTCGTGGCTACCGCCGAAATGGCCGGGGCCGGCAAACGGGTGCTGCTGCTTGACCAGGAACCGGAAAGCTCTATTGGCGGGCAGGCATGGTGGTCTTTTGGCGGTTTATTCCTTGTCGATTCGCCCGAACAGAGAAGACTGGGAATCCGGGACTCCCGTGAACTGGCATGGCAGGATTGGCTTGGAGCCGCTGGTTTCGATCGGGAGGAGGACGAGGATCTGTGGGGGCGGAAATGGGCTGAGGCCTATGTCGACTTTGCCGCCGGCGAGAAGCGGGCATGGCTGCATTCGTTAGGAATTCGCTTCTTCCCTGTCGTTGGCTGGGCGGAACGCGGCGGATATCTCGCCGAGGGCCACGGCAATTCCGTTCCGCGTTTTCATATTGTGTGGGGAACAGGCCCAGGTGTCGTACAGCCATTTGAGTCCAGGGTCAGAGACGCCATTCGTTCCGGCGTCGTTGATTATCGTCCGCGTCACCAAGCCGATGAGCTGATTACGCGCGAGAATGCCGTCATCGGAGTAAGGGGCTCGGTACTTGCACCGAGTTCGGCCGGCCGGGGCGAAGAAAGCTCCCGCGAGGTCGTCGGCGACTATGAATATTATGCGGAGGCTGTGGTTGTCTCCAGCGGAGGTATCGGCGCCAACCACGAGCTGATCAGGCAGCATTGGCCGTCCCGGCTAGGCAAGCCTCCACGAGCGATGCTCTCCGGCGTTCCCGCGCATGTGGACGGACGGATGCTGGGCATAACGGAGCAAGCCGGCGGGCGGGTCGTCAATCGAGACCGGATGTGGCACTACACGGAAGGGATTAAGAACTGGGACCCGGTATGGTCCAAGCACGGCATCCGGATACTGCCGGGTCCATCGTCAATATGGCTTGATGCCAAGGGGCAACGGCTTCCTGCTCCGAATTTCCCGGGCTTCGATACGCTGGGAACCCTGAAAGCCATTCAGGATACGGGTTTTGACTATTCCTGGTTCCTTCTGACCAGAAAGGTCATTGAGAAGGAATTTGCCCTATCCGGCTCTGAACAAAACCCGGATTTGACCGGAAAGAGCATCCGAAAAGTGCTTGGAAGAGCAGGCTCGGGCATTCCTGGCCCTGTGCAGGCATTTCTGGATCACGGCGAGGATTTTGTTGTCGCCGATTCGCTGCCCGAGCTTGTGGACGGCATGAATAAGCTTGCAGGCAGCGATCTGGTCAAGCTGGACGATTTGAAGCGTCAGCTTGCCGCAAGAGACCGCGAGATGGACCAGGCTTTTACCAAGGACCTGCAGATTACGGCGCTCCGGGGAGCAAGGAATTATATAGGCGATCGCTTGGTGCGCGTAGCCAAGCCGCATAAATTTCTTGATCCGGCCCATGGGCCATTGATTGCGGTGCGCCTGCATATTCTTAGCCGGAAAACACTGGGCGGGCTTCAAACGGATCTATCGGGGAGGGTGCTGAGTGCATCCGGCGATCCGGTTCCCGGGCTCTACGCGGTCGGAGAAGCGGCCGGCTTTGGTGGTGGGGGCGTTCATGGTTACCGTGCATTGGAGGGAACGTTTTTGGGCGGCTGCCTGTTTACGGGAAGACAGGCGGGACGGAGCATTGCAAAGCTGTAA	MKYDVIVVGAGLSGLVATAEMAGAGKRVLLLDQEPESSIGGQAWWSFGGLFLVDSPEQRRLGIRDSRELAWQDWLGAAGFDREEDEDLWGRKWAEAYVDFAAGEKRAWLHSLGIRFFPVVGWAERGGYLAEGHGNSVPRFHIVWGTGPGVVQPFESRVRDAIRSGVVDYRPRHQADELITRENAVIGVRGSVLAPSSAGRGEESSREVVGDYEYYAEAVVVSSGGIGANHELIRQHWPSRLGKPPRAMLSGVPAHVDGRMLGITEQAGGRVVNRDRMWHYTEGIKNWDPVWSKHGIRILPGPSSIWLDAKGQRLPAPNFPGFDTLGTLKAIQDTGFDYSWFLLTRKVIEKEFALSGSEQNPDLTGKSIRKVLGRAGSGIPGPVQAFLDHGEDFVVADSLPELVDGMNKLAGSDLVKLDDLKRQLAARDREMDQAFTKDLQITALRGARNYIGDRLVRVAKPHKFLDPAHGPLIAVRLHILSRKTLGGLQTDLSGRVLSASGDPVPGLYAVGEAAGFGGGGVHGYRALEGTFLGGCLFTGRQAGRSIAKL				NA	NA	NA	NA	NA
AK002_02692	918	ydhF	COG4989	Oxidoreductase YdhF	ATGAAAACGATGAAACTAGGAAGCAGTTCACTGGAAGTACCTGTTGTAGCCGTTGGTTGCATGCGCATAAATTCGCTGGATAAAGCCGAAGCCGAACGTTTCGTGCAATCCGCACTGGAGGAAGGAGCCAACTTCTTCGACCATGCCGACATCTATGGCGGCGGAGCTTGCGAGGAGATTTTTGCAGATGCGATACATATGAATGCGGAAGTCCGCGAGAAAATCATTCTTCAATCCAAATGCGGTATCCGTCAGGGCATGTTCGATTTCTCCAAAGAGCATATCTTGAATTCCGTCGACGGCATCCTCAAAAGACTTCGTACCGAATATCTCGACGTTCTCCTGCTCCACCGTCCGGATGCTTTGGTTGAGCCTGAAGAGGTGGCTGAAGCATTCGATCAGCTCGAAAGCTCCGGGAAAGTGCGTCATTTCGGCGTATCCAACCAGAATCCGATGCAGATCCAGCTCTTGAAAAAAGCAGTGAAGCAGCCGCTCGTAGCCAACCAGCTGCAGCTTAGCATCACGAATACCACCATGATTCAAAGCGGAATCAACGTGAATATGGAGAATGACGCCGCGGTTAACCGCGATGGCAGCGTTCTGGATTTCTGCAGACTGAACGACATTACGATTCAGCCTTGGTCGCCTTTCCAATACGGGTTCTTCGAAGGCGTATTCCTTGGAAGCGACAAGTTCCCTGAGCTTAACCAGAAGATCGATGAAATCGCTGAAAAATATAACGTTACCAATACGACGATTGCCATTGCTTGGCTTCTTCGCCACCCTGCACAAATGCAGCCCATCATCGGAACGATGAATATCAACCGTTTGAAGGACTGCATCAAAGCAGGCGATGTTACGCTGACTCGCGAGGAATGGTACGCCATTTACCGCGCGGCCGGCAACATCCTTCCTTAA	MKTMKLGSSSLEVPVVAVGCMRINSLDKAEAERFVQSALEEGANFFDHADIYGGGACEEIFADAIHMNAEVREKIILQSKCGIRQGMFDFSKEHILNSVDGILKRLRTEYLDVLLLHRPDALVEPEEVAEAFDQLESSGKVRHFGVSNQNPMQIQLLKKAVKQPLVANQLQLSITNTTMIQSGINVNMENDAAVNRDGSVLDFCRLNDITIQPWSPFQYGFFEGVFLGSDKFPELNQKIDEIAEKYNVTNTTIAIAWLLRHPAQMQPIIGTMNINRLKDCIKAGDVTLTREEWYAIYRAAGNILP				NA	NA	NA	NA	NA
AK002_02693	216			hypothetical protein	ATGAAAGCTGAAGCTTACGTCGTGCACGGGCACTTCATAACTCATCCGGTTAGCCAGAAAGTCCAGTCTCTCCTTCATGATTTCAAGCGTAATCCACTCCCCGGCACAGCGGTGTCCCGTATGATGATCTCCGCCGCCTTGAGGGACGAAGTTAAAGGGACTTCCGTTCCAATGTTCGAAGCGATCCGGCTTGAACAGCTCCGGCTGATCCCATAG	MKAEAYVVHGHFITHPVSQKVQSLLHDFKRNPLPGTAVSRMMISAALRDEVKGTSVPMFEAIRLEQLRLIP				NA	NA	NA	NA	NA
AK002_02694	507			hypothetical protein	ATGGCTGCAGAAGTAACCAGGGTGTACAAAGAACAGATCCCGTCCGCGCGCTTGATCGGCAAACGGTATACGGACGAGCATCGAAATGCGGCAGGAAGCTTCACGGACCAATGGGAAGAATGGTTCGCCAATGGCTGGTTCGAAAAGATCAGGCAGCTTGGTTGTTTGCCCGAATCGGAGGGTGCTTCATACGGTCTTATGCGAATGAACGGGATTCAGTTTGAATATTGGATTGGTATGCTTTTCCCGAAGCATATCGAAGTGCCGGAAGGATTTGACCATGCGGATCTGGAAGAAGGCGCTGCGGGGACATGTTGGTTATATGGCAAGGATAACGGGGAGCTATTCGGTATGGAGCCTCATAAACGATGCATGGCGAAAATCGCCGAACAAGGCTGGGGCTTGGGCGAGAACCCGTGGTTCTTTGAACGTTATCATCCAGTCCGTTTCATGACGCCGGATGAGCAGGGGAATGTCATCTTGGATTATGGCGTTTATTTGAAATGA	MAAEVTRVYKEQIPSARLIGKRYTDEHRNAAGSFTDQWEEWFANGWFEKIRQLGCLPESEGASYGLMRMNGIQFEYWIGMLFPKHIEVPEGFDHADLEEGAAGTCWLYGKDNGELFGMEPHKRCMAKIAEQGWGLGENPWFFERYHPVRFMTPDEQGNVILDYGVYLK				NA	NA	NA	NA	NA
AK002_02695	720			hypothetical protein	ATGACGCACCGGTCATCATCCCCATCACAGCCTGCCGTATCGATCATCACCTGTACCAAAAGACCGGAATGCCTGCACAATCTGTTGGAGAATTACGTCAGACAGAATTACAGGAACAAAGAGTTAATCGTCATCTTAAATCATAGCAGTCTCAAGCTATCGGAATATCAAATGGCAGCCAAGTCATATCGCAACGTCAGAATATATAGCAAACCGGAACGATTCTCTCTTGGCAGCTGCCTTAATTATGGAGTAAAGGTCTCCAAACACGGCCTCATTGCTAAATTTGACGATGATGACTATTACGCACCCGATTATTTGCACGAAAGCGTCCGTCTCATGATCAAGACTCGCGCTGATATTGTAGGAAAGAGAGCGCACTTCATGCAGCTTGCCGGGCAAAAAGCTCTTCTGCACCGTTACCCTAACAAGGCCAATCAATGGGTTCCCCTTGTTCAAGGGGCGACCATGCTGGTTAAACGGCATGTATTCGATCAAATATCGTTCCCGAATCAAAATCGCAGCGAGTGCGTCAAATTTTGTGCTGATTGTATAGCTCGTAACTATAGAATATACTCGGGCAGTCCGTATTATTTCTTAGCGAATCGAAGACGCAACTCCAACAATCACACCTGGATCGTCAGTGACAAGAATCTATTAACTCAACATGTTAAAAAGCTGAACGTAGACAATGCAAAGAAATTCGTGAGCAGAGGCTAA	MTHRSSSPSQPAVSIITCTKRPECLHNLLENYVRQNYRNKELIVILNHSSLKLSEYQMAAKSYRNVRIYSKPERFSLGSCLNYGVKVSKHGLIAKFDDDDYYAPDYLHESVRLMIKTRADIVGKRAHFMQLAGQKALLHRYPNKANQWVPLVQGATMLVKRHVFDQISFPNQNRSECVKFCADCIARNYRIYSGSPYYFLANRRRNSNNHTWIVSDKNLLTQHVKKLNVDNAKKFVSRG				NA	NA	NA	NA	NA
AK002_02696	741			hypothetical protein	ATGGCAGCAAGCTTCAACAATTCATCCCAAACGCAAGGCGTATCCATTATTACCTGTACGAATCGCCCTAATTATATTAAAAACTTGTTCCATAATTTCGCTAGACAATCCCATACCAAGAAAGAGCTCATTATCGTTGTCAACGATAGTACTGTCGCCCTCTCTCCTTACCAGCAAATAGCCAGCAAGCATCGAAACATACAAATCTACCGCATGCCGGAGCAAGTCACTTTGGGTGCGTGCCTAAATTACGCCGTAAGCAAAACGAAATACGGCATCGTTGCCAAATTCGATGACGACGACTATTACGCCCCCCATTATTTGTCGGACAGCCTGAAGTCATTAAGAAGATCCAACGCCGATATTATAGGGAAACGTGCACATTATATGTATTTACAAGGCTCCAAAACTCTGATTCTACGGTTTCCTAACGATGAAAATCGAACCGTAACCATGCTGCCGGGGGCTACACTCATTTTTAAGAAGAACGTCTTTAACAAAGTACGCTTTCCGAATCAAAACGTCGGTGAAGACGATCTTTTTTGTACAAGAAGTAAAAGCAAGGGCTTTAAAGTCTATTCCGGTAACAAGTATCATTTTATGGCAGTGCGGCGGAAAAATTCATCTGGTCATACATGGATCATTAGCGATCAGGAACTCATGGCCAAGCACCCTAAAGTTCCGAATGTGCGAGATTTCAAAAAATTCGTACAGCGGACGACCGGAGGCGGTCGAGCATGA	MAASFNNSSQTQGVSIITCTNRPNYIKNLFHNFARQSHTKKELIIVVNDSTVALSPYQQIASKHRNIQIYRMPEQVTLGACLNYAVSKTKYGIVAKFDDDDYYAPHYLSDSLKSLRRSNADIIGKRAHYMYLQGSKTLILRFPNDENRTVTMLPGATLIFKKNVFNKVRFPNQNVGEDDLFCTRSKSKGFKVYSGNKYHFMAVRRKNSSGHTWIISDQELMAKHPKVPNVRDFKKFVQRTTGGGRA				NA	NA	NA	NA	NA
AK002_02697	912	trxB_2	COG0492	Thioredoxin reductase	ATGACCGAGCAATTGCATGATGTCGTTATTATCGGCGGAGGTCCGGCAGGGTTGAATGCTGCGCTGGTATTGGGAAGAGCGAGGAAGGACGTGGTGTTGATTGACGAAGGAAAGCCGCGAAACAGGGTTACGCGGGAAACCCACGGTTTTCTTACGAGAGACGGCACAAGCCCATCGGAGTTTCGCCGCATAGCAAGAGAACAAATTACCGCCTATCCCTCCGTCCGCTTCGTAGAGAATACAGCTGCCGCCGTGGCGGGAGTCGATGGTGATTTCCGGATTACCACGGGAGAGGGAACGATATACCGGAGTAAAAAGCTGCTGTTCGCCGTTGGGAAGAAGGACAGCCCGCTGGATGTTAACGGATTAGCCGACGTATACGGAAAGAGTGCCTTCGTCTGCCCATACTGCGATGGATGGGAATTGAGGGATCAACCGCTCGTCGTCATTGCCAAGGGTGCGGGGGCGCTGCATTTTGCCAAAGTGATCGCAGGGTGGAGCGACCGGTATACCCTCTGTACGAACGGACCGGATGAACTGACGGATGAACAACGGCAGGAATTAAAGGATCATGACGTCCCTCTATTCAACTCCCCGATTCATCGTATTGAATCGAACGAGGGGATGGTGCAGCAAGTCGTATTGGAGGATGGAGCGGTCATTCCGTGCACGGGCATCTTTTTCGCGCCGAAGCTGGTCCCTGGTTCTGAATTGCCGGCGGCTATAGGCTGTGATATCAATGAAGGTGGAAGTGTGGTCATTGATGCCTTCGGTAAAACGAGTGTGCCGGGCGTCTACAGCGCCGGTGATGCAGCCACCGAGATGTATCAGGCCATTGCGGCCGCTTCGATGGGAGCCATGGCAGCGGCCGCCATCAACGGCGAGCTGCTTAACGAACGATGGAATCGTTAA	MTEQLHDVVIIGGGPAGLNAALVLGRARKDVVLIDEGKPRNRVTRETHGFLTRDGTSPSEFRRIAREQITAYPSVRFVENTAAAVAGVDGDFRITTGEGTIYRSKKLLFAVGKKDSPLDVNGLADVYGKSAFVCPYCDGWELRDQPLVVIAKGAGALHFAKVIAGWSDRYTLCTNGPDELTDEQRQELKDHDVPLFNSPIHRIESNEGMVQQVVLEDGAVIPCTGIFFAPKLVPGSELPAAIGCDINEGGSVVIDAFGKTSVPGVYSAGDAATEMYQAIAAASMGAMAAAAINGELLNERWNR				NA	NA	NA	NA	NA
AK002_02698	1737		COG1132	Putative multidrug export ATP-binding/permease protein	TTGAATTCTCGGACCAAGAAATTTTTATCCTATTATAAACCGTACCTGGGGTTATTATTTGCAGATTTGGCATGTGCTTTTGTTGTCTCGGCCATTACGCTGACGCTTCCGCTCTGTATACGATACATCACCATCAACGTGCTGGAAGGGAATTCTCAAAGCCCGCTGATTCAAATCTATGCGGTGGGTGCCGTCATGCTGGCTATGGTCATCATCCATACTCTGTGCGATATGTTCATTTCATACAAAGGACATATGATGGGGGCTTATATGGAAAGTGACATGAGACGAGAGCTGTTTGACCATTTTCAGAAGCTGTCCTTTGGATTCTACGATGAGCACAAAACCGGGCAGCTCATGACACGCACCACCAATGACATTCTGTCGCTGACCGAATTGTATCACCATGGTCCCGAAGATATCGTCATTTCCGTTCTGAAGTTCCTGGGTGCATTCATCATTTTAATGTATATCGACGTGAAGCTTACCCTGATCGTATTTCTCTTTCTCCCGGTCATGGCCGCGTTTGCTTTTTATTATAATAAGAAGATGAACGTGGCGTTGCGGGTAAGCAAGGACCGGATCGAGGATATCAACGCACAAGTAGAGGAATCTCTTTCGGGTATCCGCGTGGTGAAGTCGTTTACGAACGAGCATATAGAGAAGGGGAAATTCGCCTATGCCAACAAGCGGTTCGTTGACAGCAGAAGGGAAGGGTATAAGAGCGAAACGTACTTTCACGAAGGGCTGGTCGGTTTTACCCAACTTATTACGATTACCGTTATTGTGTTCGGCGGAGCCGCAATCGTGGATGCCTCGCTGGAACTGGCGGATTTGCTGACCTTTTTCTTATGCATCGGCATTCTGATCGAACCGATCCAGCGCATGGTTAATTTCGCCAGACTGTACCAGGAAGGCATTACGGGATTTGACAGGTTCATGGAGATCCTTGAGGTAGAACCCGATATCGAGGATGCCGATTTTGCCGAGACGATCACGCAGGTTCAGGGGAACATCGAGTTTCAGAATGTCAGCTTCAGATACAAGGACCGCTATGGATTCGTGCTGAACCAGGTCTCGCTAAACATCAAGCCTGGCGAGTATGTTGCTCTTGTTGGTCCCTCAGGCGTAGGCAAGACCACGCTGTGTTCGCTGATTCCGCGTTTTTATGAAGTAAGTGAAGGACGCATACTGCTGGATGGGCGCGATATCCGGGAGGTTACGCAGCACTCCTTAAGAAAAAATATCGGGATCGTGCAGCAGGATGTATATTTGTTTGCCGGCTCCGTCTTCGATAACATCCGGTATGGAAACATGGAGGCCAGCGAGGATGAGATCATCGCAGCAGCCAAAAGAGCGAATGCCCATGATTTCATCATGGCATTGCCGGACGGTTATGAAACGGATATCGGCCAGCGAGGCGTCAAGCTCTCCGGAGGACAGAAGCAGCGGCTCAGCATTGCGCGTGTGTTCCTGAAGGACCCGCCGATCCTCATATTTGACGAAGCGACCAGCTCCCTGGACAATGAAAGCGAGAGAGCGGTCCAAGATTCGCTGGAACGGTTAAGCGATAATCGAACAACGCTTGTCATCGCTCATCGGTTGACAACGGTTCGGAATGCGCAGCGAATCGTCGTATTGTCCGAAGACGGGATCCAAGAACAGGGCACGCATGAAGAATTGCTTGCCCGTCAAGGCGCTTATGCGAATTTATATCAGATGCAATTGACAATCTAA	MNSRTKKFLSYYKPYLGLLFADLACAFVVSAITLTLPLCIRYITINVLEGNSQSPLIQIYAVGAVMLAMVIIHTLCDMFISYKGHMMGAYMESDMRRELFDHFQKLSFGFYDEHKTGQLMTRTTNDILSLTELYHHGPEDIVISVLKFLGAFIILMYIDVKLTLIVFLFLPVMAAFAFYYNKKMNVALRVSKDRIEDINAQVEESLSGIRVVKSFTNEHIEKGKFAYANKRFVDSRREGYKSETYFHEGLVGFTQLITITVIVFGGAAIVDASLELADLLTFFLCIGILIEPIQRMVNFARLYQEGITGFDRFMEILEVEPDIEDADFAETITQVQGNIEFQNVSFRYKDRYGFVLNQVSLNIKPGEYVALVGPSGVGKTTLCSLIPRFYEVSEGRILLDGRDIREVTQHSLRKNIGIVQQDVYLFAGSVFDNIRYGNMEASEDEIIAAAKRANAHDFIMALPDGYETDIGQRGVKLSGGQKQRLSIARVFLKDPPILIFDEATSSLDNESERAVQDSLERLSDNRTTLVIAHRLTTVRNAQRIVVLSEDGIQEQGTHEELLARQGAYANLYQMQLTI				NA	NA	NA	NA	NA
AK002_02699	825			hypothetical protein	ATGGAGCTTTTATTGGAGTATGGATGGGTACTGTTAGTGCTCATCGCACTGGAAGGATTGCTGGCGGCGGATAATGCGCTGGTCCTTGCCATCATGGTCAAACATTTACCGGAGAACCAGCGCAAAAAGGCTTTATTCTACGGGCTGCTCGGAGCCTTTGTGTTCCGGATCGGATCGCTGTTCTTAATCTCGTTCCTGGTGGATGTATGGCAGGTACAAGCCATCGGCGCACTCTATCTTCTCTACATTTCGATCAATCACACGTTGAAACACTTTATTAAAGGCAAGAAACCGACGGAAGACGCAAAACCGAAACCGGACAAGCCCAAGAAGCAATCCGGCTTTTGGATGACCGTCTTCAAGGTCGAAGTGGCGGACATCGCGTTTGCCGTAGACTCGATCCTCGCAGCCGTTGCGTTGGCGGTTGCATTGCCGCCAAGCGGATTGGCAAACATCGGCGGCCTGGATGGAGGTCAATTCATCGTCATCTTCCTGGGCGGATTCATTGGTTTGATCATCATGCGCTTTGCGGCATCCTACTTCGTAAAATTGCTGCAGCAGCGTCCCGGACTGGAAGTGGCGGCATTTCTGATCGTTGGTTGGGTAGGCGTCAAGCTTGCTGTAATTACCCTTGCACACCCTGATGTAGCCCTAATCGACCATCACTTCCCTGAGAGCTCGATTTGGAAGGCTTCCTTCTACATCGTTCTCGTGCTGATTGCCGTGATCGGATGGTTTGGCTCTTCGAAAGAGAAAGTACAGGATGAAGACAATGCCATTAAGGAAGTGGAAGAACAACAGCCGGGTAAAACGCTGCAAGGCTAA	MELLLEYGWVLLVLIALEGLLAADNALVLAIMVKHLPENQRKKALFYGLLGAFVFRIGSLFLISFLVDVWQVQAIGALYLLYISINHTLKHFIKGKKPTEDAKPKPDKPKKQSGFWMTVFKVEVADIAFAVDSILAAVALAVALPPSGLANIGGLDGGQFIVIFLGGFIGLIIMRFAASYFVKLLQQRPGLEVAAFLIVGWVGVKLAVITLAHPDVALIDHHFPESSIWKASFYIVLVLIAVIGWFGSSKEKVQDEDNAIKEVEEQQPGKTLQG	PGPT0003867_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003867-ykoY-NA	NA	NA
AK002_02700	915			hypothetical protein	TTGAAACCGCTGAAGGCCGATCTTATGATTTTGTTTATCACCATGTGTTGGGGCTCGTCCTATCTATTTATGAAAATGGGACTGGATTCGCTGGGAGCGTTCAATTTGATAGCCCTACGATTTGGATTGGCCTTTATGCTTGCAGGAGCGATTTTTTTCCCGCGCTTGCGCCGGGTTAACCTGAAGACGATCCGTTACGCCATGCTCCTGGGCTTTATTTTGTTTATCATGTTCACTGCCTTGACCTTTGGCTTGAAAACAACGACAGCATCCAATGCCGGATTTTTGATCAGCTTAACGGTGGTGTTTGTCCCATTGATACATACGTTCCTCTTTAGGAAAAAAATAGAGAAGAAACGGATCGTCAGTATTTTGCTGGCCTTAACGGGCATCGCACTGCTGACCATCCAGCTCCCTTTTGCATTTAAGATCGGGGACCTGTTCTGCATAGCGGCGGCATTATGTTATGCGCTTCATATCAATATCGTCAGCACGGCTGCACAGAAGGTCGACGCGTTAAGCCTCGGCATCCTGCAGCTGGGATTTACCGGATTGTATGCGTTCCTCTCGTCTCTTCTCTTGGAAACACCGGTATGGCCAAGCTCCACCGACTCATGGACGGCTGTCCTGGTCCTCAGCGTCGTATGCAGCGGATTGGGGTTCATCTTTCAGACGATCGCCCAGAAGTATACAACCGCCACCCGTACGGGTCTCGTGTTCTCTCTGGAACCTGTATTCGCCGCGCTGTTCGGATACTGGTTTGCCAACGAGGTCATGGATTCCAACCAGTATGCAGGAGCTGCGCTTGTCCTTCTTAGCGTTGTTCTATCCAGCATTGATGTGAACTTCAGGAAACGGTCGGCCATGAATAACAGCCCCGTAGCGTTGGAGTCCTATTCCGCTGAATTCAAGTAA	MKPLKADLMILFITMCWGSSYLFMKMGLDSLGAFNLIALRFGLAFMLAGAIFFPRLRRVNLKTIRYAMLLGFILFIMFTALTFGLKTTTASNAGFLISLTVVFVPLIHTFLFRKKIEKKRIVSILLALTGIALLTIQLPFAFKIGDLFCIAAALCYALHINIVSTAAQKVDALSLGILQLGFTGLYAFLSSLLLETPVWPSSTDSWTAVLVLSVVCSGLGFIFQTIAQKYTTATRTGLVFSLEPVFAALFGYWFANEVMDSNQYAGAALVLLSVVLSSIDVNFRKRSAMNNSPVALESYSAEFK				NA	NA	NA	NA	NA
AK002_02701	870	gltC_3		HTH-type transcriptional regulator GltC	GTGAGTATCAATAAATTCAAAGTTCTATTAAAGGTCGTCGAGCTCGGAAGCTTGACCAAAGCCGCCGAAGTGATGGGATTTACCCAGTCCGGCGTCAGCCATATGATCAACAGCCTGGAAGATGAGTTCGGCTTCTCGCTGCTGATTCGAAACCGTTCAGGCGCGAAGCTGACGACCAATGGCGAGGAGATCGTAAAGACGATGCGGGAAATATTGAAATGGAACGAGCATTTGGAGCAGCAGGTGGCTTCCATTCATGGAATCGAGCTGGGAACCATTCACATCGGTACCTTTACCAGCGTCGGCGTTCACTGGCTGCCTGGGATTATCCAGGATTTCCAACGGGATTATCCCCATATCGAGATTCGTTTGGTTGAAGGAGATTATCGGGAAATTGAGGATTGGATCGCGGAGGGCAAGATTGATTGCGGCTTTCTGTCACTTCCGACGTGGGATATATTCGATGCGATTCCGCTGCATCAAGACCCGATGCTCGTACTGCTGCCAATGGAACATCCGCTTAGCTCCGAGTACTCCATTACGTTAACCCAAATTGAGAATGAACCGTTTATTATGCCCAGCAAAGGCTCCGATTACGATGTGAACCGGGTGCTGGAGAAAGCCCCGACCCAGCCGGATATCAAATATACGCTTGGGGACGATTATGCCATTATGGCCATGGTGGAGAAGGGCCTGGGCATCAGCATTCTTCCCGAACTTGTGCTGCGAGGGCAGCGGCGGAATATACGGCTGATCGAATTGAAGGAGAAGAGCTTCAGATTGCTTGGCATTGCGGTAAGCTCCTTGCGGGAAGTATCTCCGGCAACGAAACGATTCTTGAATTACGTTAAGAGTTATCCCAAGCTGTAG	MSINKFKVLLKVVELGSLTKAAEVMGFTQSGVSHMINSLEDEFGFSLLIRNRSGAKLTTNGEEIVKTMREILKWNEHLEQQVASIHGIELGTIHIGTFTSVGVHWLPGIIQDFQRDYPHIEIRLVEGDYREIEDWIAEGKIDCGFLSLPTWDIFDAIPLHQDPMLVLLPMEHPLSSEYSITLTQIENEPFIMPSKGSDYDVNRVLEKAPTQPDIKYTLGDDYAIMAMVEKGLGISILPELVLRGQRRNIRLIELKEKSFRLLGIAVSSLREVSPATKRFLNYVKSYPKL				NA	NA	NA	NA	NA
AK002_02702	594			hypothetical protein	TTGCAGCCAACCATCCCCGGGGAAGCGGAAGGAAAAAGAGAAGCCATTGAAGCGGTTGTAGAACAAGTCAAAGCAGGAGACAAGCAAGCATACCAAGCGATCATAATCCAGTTTGAGCGGCAGATGTACACGTACTGCTACTATATTCTCAAAAATCATGCGGAGACCGAAGATGCGGTACAAGAGATTTTTATTCGTGCCTATGAACATCTTCATCAGTACAAGAGACAAGTGTCTTTCTCCGCCTGGTTGTATAAAATGGCCTATCATCATTTGATCAATATCAAAAAGAAGCAGAGCCGCTTTTTTAACCTGATCGAGCATTGCAAGGAACAGCAGCCGGTTATGCAAATATCTCAGCACGAGCCGGTTGTGTACGAGCTGTTAAGCTACCTGACAGCAGAAGAACGACACATACTGCTGCTGAAGGCGGTTGAACAGTATACCTTTGAGGAAATCAGCGACATTATGGGAATCAAATCAGCAACGATACGAAAGAAGTATGAACGGTTACGACATAAACTGATGGACCGAATAAGCCAAAAAGGAGAGGTGGCACGTGGGACAATCGCCGAAACAAACGGAATTCGCTGA	MQPTIPGEAEGKREAIEAVVEQVKAGDKQAYQAIIIQFERQMYTYCYYILKNHAETEDAVQEIFIRAYEHLHQYKRQVSFSAWLYKMAYHHLINIKKKQSRFFNLIEHCKEQQPVMQISQHEPVVYELLSYLTAEERHILLLKAVEQYTFEEISDIMGIKSATIRKKYERLRHKLMDRISQKGEVARGTIAETNGIR	PGPT0014960_5764	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_02703	1194			hypothetical protein	GTGGGACAATCGCCGAAACAAACGGAATTCGCTGAAATGAATGCACTAGAAGAAATGATTCGTGAATCGTCTTTATCGAAGAGAAGTATGAGTGATCAAATCATGAACCGAATTGGAGAGCGTGAAATGACAAGATTATCAACCAAACCTAAACCGAATGTTATTAAAAGAACGATACTCGTTGCGTCCGCAGCAGCTGTGCTGGGAGGAACCGTGATCGGTTCGGGGTTTGTATCGCCGGTGATGGCAGCAACCCTGAAGCAAATTCCGATGCTCGGCGTGATATTCGAAGGAACCAGCGAAGATGCAGTTAAAGCTGCTATAGAGCAAGGGATTCTATCCGAACCAAACTTGAGTGTAACTCACGATGGCGTGACGTTGAAGGTAGCTGACGTTCTATATGATGGAACCCGGTTGTCCATTATCCTGGAGCGCGAGGGGGTGGATTTACCGGGTACAGCTTCTCCGTATATTAGCGAAGATGCTACGTTAATTGGTAATCAGGATAGTGAGTATGTTAAGTCGAGAAAAGTAGCTAAGGAAGATCAGGAAAAAGGCTATATCGAAATGCCGCGAATTCTGGTAGACGGACAAGAAGTGGCGATGGGCGAGGGGAACTTTGGAGATTATCCGCAACAGGACAATGCCTATATCGTTGAGCTTACCAAGGGTCTGAAATTACCCGATCAATTCGAGCTGACCATTCAGGCCAACGTAACTCAAGTGAATGAAACCTTTGAATTCAAGGTCCCTGTGAATGTCACTAATAAATCGGTTGTCGTGAAGCCTGACCAGGCTACGAAATCGGATGGACCATTCAGTTATACCGTCAAGCAATTGGATATTTCACCAGTATCGACCCGCTTGGTTCTGGACAGTAAAGGCGAGGTGCCGTCTTCTGCAGAGCAAACAGGCGATTACAGCGCGAGCATGGTCTATTATGAGCTGGTGGATGATCAAGGAAATGTGCTGACTCCGCGGAAGTTTGATTACTTTAACAGCAAGCCGGAGACCGAATATCATATCGATCAACTGTACAGTCCTGTAAACGGAACTCCGAAATCCATCACGATTAAACCGTTTACCCTGACCGTAAACAACAAGGATTGGAGCGTTGTCGGTCAAGGGAAGGACAGCTTCGGAGATAAAACATACCTGCAGGATCTGGAAATGACCATTCCGGTCAAGCCGTAA	MGQSPKQTEFAEMNALEEMIRESSLSKRSMSDQIMNRIGEREMTRLSTKPKPNVIKRTILVASAAAVLGGTVIGSGFVSPVMAATLKQIPMLGVIFEGTSEDAVKAAIEQGILSEPNLSVTHDGVTLKVADVLYDGTRLSIILEREGVDLPGTASPYISEDATLIGNQDSEYVKSRKVAKEDQEKGYIEMPRILVDGQEVAMGEGNFGDYPQQDNAYIVELTKGLKLPDQFELTIQANVTQVNETFEFKVPVNVTNKSVVVKPDQATKSDGPFSYTVKQLDISPVSTRLVLDSKGEVPSSAEQTGDYSASMVYYELVDDQGNVLTPRKFDYFNSKPETEYHIDQLYSPVNGTPKSITIKPFTLTVNNKDWSVVGQGKDSFGDKTYLQDLEMTIPVKP				NA	NA	NA	NA	NA
AK002_02704	621			hypothetical protein	ATGAAAAAAACTGCTCAAATGATTGACACCGAACTAATTAAACCAAAAATCCTATACTATGGAACCCCGGTTATTTTGCTCAACACCCTGAATGAAGATGGCACCGTCAATATCAGCCCCATCTCCTCATCATGGGCGCTGGGAGAACATATTATTCTTGGCATCGGGCTCGGGGGCAAGGCGATTGAGAACCTGGAACGGCATCCTGAATGCGTCATCAATATTCCGGACCCTTCCTTGTGGGAGAATGTCGAACGATTAGCCCCGTTGACAGGGAAACACCCCGTTCCGGACTATAAGCTGAAGAGCGGATTCACATATGAAAAAGATAAATATGCGCATAGCGGATTAACGCCTGCGGATTCCGTCACCGTCAGGCCGTCTCGTATCATGGAATGCCCGATCCAGATTGAAGCCAAGGTGAACCACATTCGGCTGCCTGACGACTCGCCCTTTTTTGCCATTGTCGAAACACAGGCTGTTCAGGTGCATGCCCATCGCAGCATCATTATGAATGAACAACACATTGACCCCGGCAAATGGAGTCCGCTCATCTACAATTTCCGGCACTATTATGGGCTCGGCCCGTCAGTAGGCAAAAGCTTTCGAGCCGAAACCTAA	MKKTAQMIDTELIKPKILYYGTPVILLNTLNEDGTVNISPISSSWALGEHIILGIGLGGKAIENLERHPECVINIPDPSLWENVERLAPLTGKHPVPDYKLKSGFTYEKDKYAHSGLTPADSVTVRPSRIMECPIQIEAKVNHIRLPDDSPFFAIVETQAVQVHAHRSIIMNEQHIDPGKWSPLIYNFRHYYGLGPSVGKSFRAET				NA	NA	NA	NA	NA
AK002_02705	690			hypothetical protein	ATGAATGCGAGTCCGAACATAGCACAGGTAGCCTCACTCGTTAGCGATGCATCGAGAGCGGCCATCATGACCGTCTTATTGGATGGTCGTTACCACCCGGCAGGAGAGCTGGCGTACATGGCAAATATCAAACCGCAAACGGCTAGCTTTCATTTATCCAAAATGGTTGCGGCGAATCTGGTGGCCGTCGAAAAACAGGGAAGGCATCGTTATTACGGAATAGAGAACCAGGAGGTTGCCCGGATCATGGAGACCTTACTATCGATAACGCCTCCCGTTGAAATAAGATCATTCAACCAAGCTTTGGAGCACGAAGCCATTCGCCATGCAAGGACTTGCTACGATCATCTTGCGGGGAGTTTGGGAATACAATTGACGGATTCGCTTCTCAGTGCAGGGATTTTATCCGAAGTGGATCATCAATTTACGGTTACCGAAAAAGGAGAAGGCTTCTTCAAGGCGTTTCAAATCGATCTGGAGCGCGTGAAGAGAAAACGCCGCTCCTTCACGCACCGATGCTTGGACTGGAGTGAAAGACGTCATCACCTTGCCGGGGCGCTGGGCCATGCGTTGTTGGAAAGACTATTGGAATTAGGTTGGGTACAACGCATGCCAAAAACCCGGGCCATTAAAATCACGTCCGAGGGCAAGAAAGGGCTAAACGAAACGTTTCATATTGATATCGAATAG	MNASPNIAQVASLVSDASRAAIMTVLLDGRYHPAGELAYMANIKPQTASFHLSKMVAANLVAVEKQGRHRYYGIENQEVARIMETLLSITPPVEIRSFNQALEHEAIRHARTCYDHLAGSLGIQLTDSLLSAGILSEVDHQFTVTEKGEGFFKAFQIDLERVKRKRRSFTHRCLDWSERRHHLAGALGHALLERLLELGWVQRMPKTRAIKITSEGKKGLNETFHIDIE				NA	NA	NA	NA	NA
AK002_02706	540			hypothetical protein	GTGTCCAAATTGAATATCGGTATTATTTTAGGCAGTACCCGTCAAGGTCGTTTAAGTCCGCAAGTAGGTGAATGGGTTAAACGTATCGCTGACGAGCGCGGAGATGCAAACTACGAAATCGTAGATATCGCGGATTACAAGCTTCCGCTTTTGGGCGAAGCCGACGCGACTGAACAAGCAACGGCTTGGAATACCAAACTTGCAAGTTTGGACGGCTTTGTATTCATCGTTCAGGAGTACAACCACAGTATTTCCGGCTCATTGAAGAACGCACTCGATTATGCCCGTGAGGCATGGAACAATAAAGCTGCAGGCATCGTGAGTTACGGTTCTGTTGGCGGCGCACGCGCTGCCGAGCATTTGCGCGGAATCCTGGGCGAGCTGTCCGTAGCGGACGTTCGCGTACATCCTGCCCTCTCGTTATTCACTGATTTCGAGAACGGCTCCGTGTTCAAACCGGCTGATCTGCATCTTGTCAACCTGAATGGAATGCTTGACCAAGTGCTTGCTTGGAGCGGTGCTTTGAAGACACTGCGTTAA	MSKLNIGIILGSTRQGRLSPQVGEWVKRIADERGDANYEIVDIADYKLPLLGEADATEQATAWNTKLASLDGFVFIVQEYNHSISGSLKNALDYAREAWNNKAAGIVSYGSVGGARAAEHLRGILGELSVADVRVHPALSLFTDFENGSVFKPADLHLVNLNGMLDQVLAWSGALKTLR				NA	NA	NA	NA	NA
AK002_02707	1173	eis_2	COG4552	N-acetyltransferase Eis	ATGGAACTTAGACAATTAAGAACGGATGAATTTGACATCAGCACGAAATTATCCGAATATGCCTTTCAATATACGCTGACGCCGGAGCAGCGAGAGTCCAATCAGAAGCATTTTAAACCAGAGCGATTCTGGGGGATTTTTGACGGGGAAGAGCTGCAGGCGAAACTGACCATCATTCCGCTGCAGGTCTATTTGCAGGGGAACACTTTCGCTATGGGCGGCATTGCGGGCGTGGCAACATGGCCGGAGAACCGCAGACAGGGACATGTCTCGACGCTGCTTAAGCATGCATTGCAAGAGATGAAGGGCAAGGGACAGACCCTTTCCTTCCTGCATCCGTTCTCGATCCCGTTTTATCGCAAGTTTGGCTGGGAATTGTTCGCGGAATATTATAAGTACGTCATTCCGGTGTCCAAATTTCCGCGTAAAGTGGAGGTGCCGGGCCGCGTTGTAAGAGATGTAAACGACATTGCTGTACTGGATGGCATGTATCAGGCCTTTGTCAGCCGGTATAACGGTACCCTTGTGCGCGAAGAGGCATGGTGGACAAGATTCGTCCTACAGGGAGACAATCACAGCGTTGTTTATTATTCTGCCGAGGGCAAACCGACGGGCTATGCGTTATATGAGCTAAAAGACAAAGAACTGGTGTGCGATGAATTTGTTTTCCTGAATGAAGAAGCCCGAAGCGGACTCTGGACTTTTTTTGCGAACCATGATTCCAGGATCGAGCAGGTGACCATGACGATGGTGCCGACGGATGACCAGCTGCCCTATATGCTGCCGGATCCACGCGTTACCCGGGAAACGGTTCCTTACTTCATGGCCCGTATCGTGGATTTACAATCCTTCGTGGAGCAGTATGCATTTGAAGCGGGTCGGGAAGCTGTCCTGACCATCGAGGTGGAGGATTCCGCAGCGCCTTGGAATGCAGGCCTGTGGAGGCTGTCGGTGAATGGAGAGGGGAAAGCGGAGCTATCGGAGCTCCCATCCGATCGAGGGGAGCAGGCGGATTTGTCTACCGACATTCAGACACTGTCGGCCTTGTTTACCGGATATAAAAGACCGCAGGCACTGTATTCCATCCATCGCCTGACCGGGGATGCTAAGGCTGCAGCACAGCTGGAAACGATGATTCCTGCAGGCCAAACCCACCTCATGGATTTCTTTTGA	MELRQLRTDEFDISTKLSEYAFQYTLTPEQRESNQKHFKPERFWGIFDGEELQAKLTIIPLQVYLQGNTFAMGGIAGVATWPENRRQGHVSTLLKHALQEMKGKGQTLSFLHPFSIPFYRKFGWELFAEYYKYVIPVSKFPRKVEVPGRVVRDVNDIAVLDGMYQAFVSRYNGTLVREEAWWTRFVLQGDNHSVVYYSAEGKPTGYALYELKDKELVCDEFVFLNEEARSGLWTFFANHDSRIEQVTMTMVPTDDQLPYMLPDPRVTRETVPYFMARIVDLQSFVEQYAFEAGREAVLTIEVEDSAAPWNAGLWRLSVNGEGKAELSELPSDRGEQADLSTDIQTLSALFTGYKRPQALYSIHRLTGDAKAAAQLETMIPAGQTHLMDFF				NA	NA	NA	NA	NA
AK002_02708	693			hypothetical protein	ATGGATATGTTTATCGATTTAGGAGTCAAACTGATCATCAGCTTTTTCGGGCTATGGATCATCACTTTTGTTACTGGGCGCAAAACCATCAGTCAGCTTACACCGCTTGACTTCTTATCTTCCTTAATCCTGAGTGAAATCGTTGGGGCAAGCCTCTATGATGATAAAGTAAAATTGTCCCATTTGTTATTCGCTCTAGCTTTATGGACAACCATGTCTTTCCTCTTCGAGAAGGCAACCACGCACTTTGTCAAGTTCGGCTATTTAACGGAAGGGCGGGCGGTTCTTCTGATCGATAACGGAAAGCTGAACCAAAAGCTGCTCGATAAATACGACATGGAATATAAACAGCTGCTGTCCATGCTCAGAAGGCAAAATATTTTTTCATTAACCGAAGTCAAATACGCCATTCTGGAAACGGACGGATCGCTATCCGTCATGCGCAAACCAGAATACGAGCCGCCGACGGCCCAGGATCTTGGCATCGAAGCCAAGCCGGATCCCTTTACGGTAACGGTTGTCGATAAGGGAAGACTGCTCGAGGAATCCATGCTGGGCAAGCACATCGAACACAACGAGATTCAATCGAAAGCGCGGGAGCAAGGTTTTGAATCCTTGGAAGATATCGCATACGCGGAATATGGGGATGACGGTAAGTTCTATGTTTTCTCCAAAAAAGAGGTTCAGGATTGA	MDMFIDLGVKLIISFFGLWIITFVTGRKTISQLTPLDFLSSLILSEIVGASLYDDKVKLSHLLFALALWTTMSFLFEKATTHFVKFGYLTEGRAVLLIDNGKLNQKLLDKYDMEYKQLLSMLRRQNIFSLTEVKYAILETDGSLSVMRKPEYEPPTAQDLGIEAKPDPFTVTVVDKGRLLEESMLGKHIEHNEIQSKAREQGFESLEDIAYAEYGDDGKFYVFSKKEVQD				NA	NA	NA	NA	NA
AK002_02709	1911	thrZ	COG0441	Threonine--tRNA ligase 2	ATGTCAATTGTAGTAACGCTGCAGGACGGAAGCAAGAAGGAGTATCCCGCACAAACGACGATGATCCAAATCGCGGAATCCATCCATTCAGGACTGAAGAAAAATGCGGTTTCGGCCAAAGTGGATGGCAAACTTGTGGATTTGAATCATGAGCTTCGTGAAGATGCGGAAGTAAGCATCATTACACTGGATTCCGAGGACGGATTGTACGTATACCGGCACAGTACGGCCCATCTGATGGCTCAGGCCGTGAAACGGCTATACGGCAGTGAATCTGTTCATCTTGGGGTGGGGCCGGTCATTGAGGATGGTTTTTATTACGATATGGATCTGGGGCATTCCATTACGGCCGATGACCTGATTGCCATCGAACGAGAAATGCTGAAGATCGTTCAGGAAGACCTGCCGATCCTTCGCAAGGAAGTGGGGCGTAAGGAGGCTGAACGCATATTCCAAGATGATCCGTATAAAATGGAGCTCATACGTGAACTACCGGAGGACGAGGTTATTTCGGTATATGAGCAGGGCGAGTTCATTGACTTATGCAGAGGGCTGCATCTTCCATCCACCGGCAGAATCAAAGCGTTCAAATTAATGAGTGTGGCGGGTGCTTATTGGCGGGGGAACTCCGACAATAAAATGCTGCAGCGAATCTACGGAACGGCGTTTCCCAAGAAGTCGCAGCTGGATGAGCATTTATTGCTGCTTGAGGAAGCCAAGAAACGGGATCATCGGAAGCTGGGAAAAGAGCTTGGCCTCTTTATGTTTTCGGAAGAAGCGCCCGGCATGCCATTCTTTTTGCCGAACGGGATGATCATTCGCAATGAGCTGGAGCAATTCGCAAGAGGGCTTCAATTCCATCGCGATTACGATGAAGTGCGGACGCCGCTGATGATGAACAAGCGCCTGTGGGAAATGTCCGGTCACTGGGATCACTACAAAGACAATATGTATTTTACGCAAGTAGACGAGACGGAGTATGCGCTGAAGCCGATGAACTGTCCAGGGCATATGTTAGTCTACAAAAACTCTCTGCATTCCTACAGAGAGCTGCCCATTCGCATATCCGAATTCGGTCAGGTTCACCGCCATGAGTTCTCAGGCGCTCTTAACGGCATGATGCGGGTGCGCACGTTCTGTCAAGATGATGCGCATATTTTTGTAAGGCCCGATCAGATCCAGGAAGAAATCAAACAGGTTATCGATTTTATCAGCCAAGTGTATCAAGTCTTTGGCTTTGAATATACAATCGAATTATCGACAAGACCGGAGGATTCCATGGGCTCCGAGGAACTATGGGAGCAAGCGGAGTCTTCGCTGCAGCAGGTACTGGATCAAATGGGACTGCCGTACCGGATTAATGAAGGGGATGGAGCGTTTTACGGACCCAAAATCGACTTTCATATCCTCGATTCCTTAAAGCGGAGCTGGCAGTGCGGCACCATCCAACTGGATTTCCAGTTCCCTGAAAAGTTCGATCTGTCCTATATTGGGGAAGATAATCAGAAGCATCGGCCGGTTGTCATTCACCGGGCGGTGTTTGGATCCATCGAACGTTTTATCGGGATCCTTACGGAACATTACGGCGGAGCCTTCCCGATGTGGCTTGCTCCCGTACAAGTGATGATTATTCCGGTGTCAGATCACTATATCGATTATTCCTTGAAGGTGAAGAAACGTCTGGAGAATGCCGGCATACGGGTGAACGTCGATGTCCGAAATGAAAAGCTGGGTTATAAAATCCGTGAAGCGGGACTGTTGAAAACGCCTTTCACGCTTGTCCTTGGCGAGAAGGAAATGGACTCCGATCACGTATCGGTTCGTAAACGGGGCGAGGGCGAGCTTGGAGAAATCGCGATAGATCAAGTCATTGAACGGCTTCGGAACGAGATAGAGTCAAAAGAATATTAA	MSIVVTLQDGSKKEYPAQTTMIQIAESIHSGLKKNAVSAKVDGKLVDLNHELREDAEVSIITLDSEDGLYVYRHSTAHLMAQAVKRLYGSESVHLGVGPVIEDGFYYDMDLGHSITADDLIAIEREMLKIVQEDLPILRKEVGRKEAERIFQDDPYKMELIRELPEDEVISVYEQGEFIDLCRGLHLPSTGRIKAFKLMSVAGAYWRGNSDNKMLQRIYGTAFPKKSQLDEHLLLLEEAKKRDHRKLGKELGLFMFSEEAPGMPFFLPNGMIIRNELEQFARGLQFHRDYDEVRTPLMMNKRLWEMSGHWDHYKDNMYFTQVDETEYALKPMNCPGHMLVYKNSLHSYRELPIRISEFGQVHRHEFSGALNGMMRVRTFCQDDAHIFVRPDQIQEEIKQVIDFISQVYQVFGFEYTIELSTRPEDSMGSEELWEQAESSLQQVLDQMGLPYRINEGDGAFYGPKIDFHILDSLKRSWQCGTIQLDFQFPEKFDLSYIGEDNQKHRPVVIHRAVFGSIERFIGILTEHYGGAFPMWLAPVQVMIIPVSDHYIDYSLKVKKRLENAGIRVNVDVRNEKLGYKIREAGLLKTPFTLVLGEKEMDSDHVSVRKRGEGELGEIAIDQVIERLRNEIESKEY				NA	NA	NA	NA	NA
AK002_02710	603			hypothetical protein	ATGATCTTCGTCACCGTGTGCGGCCCCAGGGCATGGTATGATTTGAATGTGCCTGTTAAGCGGTACATGTTAATGATGAAGGAGAGAGTATCGTTGCAAACATACCCGAGCAAAGAGGCTTTCATCGCTGAAATTCGACGAACGTATATGCTGTTTGACCAAGAATTTGATGCTGTTCCGGAGGATAAAAAGAATCATCGCATTGGCGAAGTCGACAGAACGCCGCAAGAAATGATCGCCTATCAGCTTGGTTGGCTGTCTCTCGTCATGAGCTGGGAGCGGGATGAACGAGCCGGCACCGAAGTTACGACGCCAGCCCCTGACTATAAATGGAATCAATTGGGGGCGCTGTATCAGCGTTTCTACCAAGCGTATGACGGCTATTCTTTGGAAGAATTGCGTTTTATGCTGAAGCAGAGGACGGATGAATGGTGTGAATGGATCAACCGGTTGACCGAGGAAGAGCTGTTTCGTCCGGGCGTTCGAAAATGGACGGTAACCAGCGCCAACTGGCCGATGTGGAAATGGCTGCACATCAATTCCGTCGCCCCTTTCAAAAGCTTCAGAACCAAGATCAGAAAGTGGAAAAAGTTCGTCGCGTAA	MIFVTVCGPRAWYDLNVPVKRYMLMMKERVSLQTYPSKEAFIAEIRRTYMLFDQEFDAVPEDKKNHRIGEVDRTPQEMIAYQLGWLSLVMSWERDERAGTEVTTPAPDYKWNQLGALYQRFYQAYDGYSLEELRFMLKQRTDEWCEWINRLTEEELFRPGVRKWTVTSANWPMWKWLHINSVAPFKSFRTKIRKWKKFVA				NA	NA	NA	NA	NA
AK002_02711	1122	ugl_3		Unsaturated glucuronyl hydrolase	ATGTGGAGCAATGCGATTCAAGATGCCGTTGAGAAAATCCGGAAGAACATGGATGCCTTCGGGGCAAGATTTCCCCACGTCAGCAGGGACGGAGCTTATTTGCTGAATGACAATGACGACTGGACGAACGGCTTCTGGAGCGGCCTGCTCTGGCTGTGTTATGAATACACAGGCGACGAGGCCTTTAGATTGGGAGCAAAACGAACGGTGGAAGATTTTCGCCGCCGCTTTGCAGAAAAGAAGGTGCTTGATCATCACGATATCGGGTTCCTGTATTCCTTGTCCTCCAAAGCGGAATGGATCGTCGAGAAGGACGAGAGTGCCCGCCAGTTGACGCTTCAGGCTGCGGATCTGCTGCTGAAACGCTGGCGTCCAAGCGGAGGATATATTCAAGCCTGGGGTCCGGAAGGAGACGAACAGGAAGGCGGCCGCATCATTATCGATTGCTTGATGAATCTGCCGCTGCTGTTCTGGGCGGGACAACAAACCGGAAAGTCCCAATATCGGGAAATTGCAATCATGCAGGCGGAGAAGACAAGGCGCTATCTGGTACGGGGAGACGACAGCTCATACCATACCTTTTTCTTCGATCCCCATACGGGGGAGCCGATCGGCGGTGCCACGCATCAAGGCTATACGAACGGTTCGACCTGGACGCGGGGACAAGCATGGGGGGTATATGGCTTCGCGCTGGCTTATCGATACACCGGAGATCACGCATACCTGGATACTTCCAAACGAATGGCTAAATATTTCCTAAAGCATTTACCGGAGGATCATGTCGCCCTTTGGGACTTTGACGCTCCCGTAACCGCCGAGACTTACCGCGACAGCTCGGCTTCCGCCATCGTGGCAGCAGGCTTGCTGGAACTGGTAGGACATTTGGAGGAGGGGGATCCCGATAGAGCGGAATTTGAACAAGGATTGAAGGATTCCATGACCTCGCTGGTCCGCCACTATTCCACGATCGGCCAAGAAGCGGAAGGCCTGCTGCAGCATGGCTCTTATCATGTGCGCGGCGGATTGTCCCCGGATGATTTCATGATCTGGGGAGATTATTTTTACCTGGAAGCTTTAATTCGGCTGGAGACCGGCAGCCAGGGGTACTGGTATGAACGCTGA	MWSNAIQDAVEKIRKNMDAFGARFPHVSRDGAYLLNDNDDWTNGFWSGLLWLCYEYTGDEAFRLGAKRTVEDFRRRFAEKKVLDHHDIGFLYSLSSKAEWIVEKDESARQLTLQAADLLLKRWRPSGGYIQAWGPEGDEQEGGRIIIDCLMNLPLLFWAGQQTGKSQYREIAIMQAEKTRRYLVRGDDSSYHTFFFDPHTGEPIGGATHQGYTNGSTWTRGQAWGVYGFALAYRYTGDHAYLDTSKRMAKYFLKHLPEDHVALWDFDAPVTAETYRDSSASAIVAAGLLELVGHLEEGDPDRAEFEQGLKDSMTSLVRHYSTIGQEAEGLLQHGSYHVRGGLSPDDFMIWGDYFYLEALIRLETGSQGYWYER	PGPT0019355_910	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
AK002_02712	2169			hypothetical protein	ATGAACGCTGATGCCATGGAAGCTTCGGCGAATGCTGTTTTAAAGATTTTGAACCTGAAGGACCCCGCTATGGGTTCGATGCAGGATGCAGACGATCAAGGTCATCGGCACGATTTACTGTGTAAACTGCATCAATACTTCACCTGCCGGAGAACACCCGGATGGTGGATGAGCGGCGAGGATAAGCAGTATACCACCGATTACGTGAAGCAATATTGCGCAGATGAACTGGAAACCGTGATGAAGACAGCGGAAGAAGTGGTACAGCAGACGTTCCTGTTCCGTTTTCCGTGGGATATGGAACGGAGCCAAATTCCCGTTATATTTGAAGGAAGCGTGAATTGGTGCCATATTCCCGATCAAGACGCGGAGTGGGCTTACATGCTGAATCGCCACCGCTATTGGGTGGCGCTGGGACAAGCGTATGCAATGACAGGCGACGAGAAGCATGCGGAAGCGTTTTGCCGCCAGCTCGAAGACTGGATCGATCGGAACCCTGTCCCTGAAGAGCCGACGACGGATACGCTGACATGGCGGCCAATCGAAGCCGGTCTGCGCAGCGCGAACTGGATCAAGGCGCTTCGATACATGATCGGCAGTCCATCCCTGACTCCGTTGCTGCTCGGTAAAGCCCTGATTTCGCTTCACGAGCACGGGGAGTATCTGGCTGCTTCCTTCACCAGCTGGAAGCATATCAGCAACTGGGGTGTTCTGGAAACGTGCGGATTATACCATATCGCACTGTACTTCCCCGAATTTAAGAGCTCGGAACGATGGCGGGAACTAGCGGAAGAGAGACTGAAGGAGACGGCCCGGCTTCAGATCATGGTAGACGGCATTCACTGGGAGCAATCGCCAACGTACCATCATGAGGTGCTGGCTTGTTATCTGGACTGCGTTCACCTCGCCAATCTCAACGGCTTGGAGCTTGACGGCCTATTCCGGCATACGGTACGCGAGATGGCCGAAGCCTCCCTGTACTGGGCAAAGCCGAACCACAGGCAGCCGATGCTGGGAGACAGCGACGACAGCGATATCCGTTCCATTCTGACTTACGCAGCGTGGTTATTTGAGGATCCCGTTCTGCGCTTTGGCGGATATGCTCGGCCGGATTTCGATCATGCCTGGCTGTTCGGCATGGCGGGCATCCGGGATTACGAAGCGATGGTGCCCGCGGAGCCGCCATCCCTGAGCCGAGCTTTTCCCCATTCCGGCCATTATACGATGCGAACGGGCTGGGGCGAAGATGCGCTGTACCTTTATTTTCACTGCGGTCCGCTCGGGGGAGGCCATGGTCACGCCGATATGCTGCACATGGATCTCCATGCATACGGCCGGGATCTGCTCACCGATCTCGGAAGGTATAACTATAGCGACCTTACACCGCTGAGAAAAGCTTTAAAGGAGAGTTCAGCTCATAATACAACGGTTGTCGACGGGATCGGGTTTACCGGGGTCAAGGATACCTGGTCTTTCGACCGGATTGCCGGGCCACTGGGCTGCAGATGGATCAGCAAGCCGGAGTTCGATTATGTCGAGGGGGCGCATGACGGCTATCTCTATGAGAGTGATCCGTTGTATCCGCGCAGAAGAATCATCTTTATCAAGCCTTATTTTTGGCTGCTGATCGACAGCTTGGCGTGCCTTGAGCAGCATACCTTTACTCAGCATTTTCATTTTCCGCACCCGCCAGGAGAAGTCCGGATGGAAGGGGAGTCTTTGATTTGCCGCACAACCACCCTTGGGGAGGCGAATCTATCCATTATCCCCTTAACTGCAGACGGCCTGCGCGGGGAAGTCGGCGAAGGCATGATTTCCCGCGAGTACAACCTGCTGGAACCGAATGCGAATGCGGCTTACTCCCGAATCGGGAAAGGATGCATCAGCATGATGCAAGTGCTGTATCCTCATCGTCCAGGCGATACGGCCTTGCCGCGAGTCCGTAAAGTGCCTGTTTATCGCCATACGGGCGAACGGGTTCATGACGGGCTAGCGGAAGCATGCGGGATTCAGCTGCCGGGTATGGAAGAAGAGTTTATTCTCGTTGTTAGTCACCGTGCGCCGTCCGGTCATTATGACTCTTATGTGGTGGAGGGCATGCAGATCTTCGGGGAGGTTGTGCTGATGACCCTTCACGGCAGCAAAAAGCAAGCAACTGTCATCATTTAA	MNADAMEASANAVLKILNLKDPAMGSMQDADDQGHRHDLLCKLHQYFTCRRTPGWWMSGEDKQYTTDYVKQYCADELETVMKTAEEVVQQTFLFRFPWDMERSQIPVIFEGSVNWCHIPDQDAEWAYMLNRHRYWVALGQAYAMTGDEKHAEAFCRQLEDWIDRNPVPEEPTTDTLTWRPIEAGLRSANWIKALRYMIGSPSLTPLLLGKALISLHEHGEYLAASFTSWKHISNWGVLETCGLYHIALYFPEFKSSERWRELAEERLKETARLQIMVDGIHWEQSPTYHHEVLACYLDCVHLANLNGLELDGLFRHTVREMAEASLYWAKPNHRQPMLGDSDDSDIRSILTYAAWLFEDPVLRFGGYARPDFDHAWLFGMAGIRDYEAMVPAEPPSLSRAFPHSGHYTMRTGWGEDALYLYFHCGPLGGGHGHADMLHMDLHAYGRDLLTDLGRYNYSDLTPLRKALKESSAHNTTVVDGIGFTGVKDTWSFDRIAGPLGCRWISKPEFDYVEGAHDGYLYESDPLYPRRRIIFIKPYFWLLIDSLACLEQHTFTQHFHFPHPPGEVRMEGESLICRTTTLGEANLSIIPLTADGLRGEVGEGMISREYNLLEPNANAAYSRIGKGCISMMQVLYPHRPGDTALPRVRKVPVYRHTGERVHDGLAEACGIQLPGMEEEFILVVSHRAPSGHYDSYVVEGMQIFGEVVLMTLHGSKKQATVII	PGPT0019417_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
AK002_02713	1725			hypothetical protein	ATGTTCAAATTCACCTTCTACAAACGCATTCAGCTGTCTTTCCTTTTGCTGATCTTTATTCCGCTGATCGCGGTTTCTATCATTTCATTTGTTCTGATCCGAAATACGATGGTAGAGAAGCTGCAGCTCAGCAACGAGAATGTCCTGAACGTCATGACCGACGAGCTGAGCAAGACGATTGACGATGTCACGTTTGCTTCCCATTTTATCGTGAACGATACGAATGTTCGCAATATCCTGAAGTCATTTGCAGACACCAAACGGCTGGCTACTTATCAGGATTATGTGCATTTCAGACAAATACAGGACGTGTTCTCCCTGATAAATTCGAAGCCGCTGAATAATAACGTCCGCATGTACCTGGTCAACCGTCAGCAGTTCGTCATCTCTTCCGGCACGGAGGATTTGACCGCAATCAACGGAAGCCTCGACAAGCTGATGGAGCGCGTCGATCTCAGTAAACCTGAAACCCTGCAATGGCTTGGGATGGCCGGCGGCGACTCGGCAGGAAACGGAAAAAGCTATTATATAGCCAGGGTCATCTATGACAGCCGCGAGAAGAGGCAAGTGTCCGTATTGCTCAGCGCCATTTCCGATACGTACTTCAACAAGCTGCTGGGTACGATCGACTTTGGCAAGGTGGCGCTCTTTGACGCTAACGGGGAATTCATCGCAGGCCATACCGGGCTGATTCCGCATCATACGGAAACCAAGGGCAGCGTCCGAACGGACAGAACCATATTGAAATCGAACTGGAAGCTGGCTTACGAGGCCTCGGAGAAAGAGTGGTCGGGGCAGATTTCCAGGACTTTTTATACCGGTCTTGCCGGTGTTCTTCTGCTGTTTCTGGTGTTCTTCGGGATGTCCATCCTGATGGCCAAGAGGCTCCACAGTCCGATTCACAAGCTGCAGCGGGTGGTCCGCCAGTTCGGGATGGGAAACCTGGATGTCAGACTGGAGGTCAAGGGCAAGGATGATATCGCCGAATTGGGGCAGACGCTGAATACGATGCTCGATCAATTGCAGCGGTTGATTCACGATATCGAACAGGAGCAGGAACAGAAGCGGGTGATGGAGCTCGAAGCCTTGTTTATGCAAATCCGCCCCCATTTTTTGATCAACACGCTGAATTCGATCAAATGCAGCCTGATCTTGACGAAGGATACGCTTCACAGCGGCATCATAGATTCCCTGATGAGTTTGCTCCGGGCTTATCTCAAGGTTAATGAGCCAGCCACTTTACGCGAGGAATGCAAGCTGCTGGGCCATTATGTCGACATTATGAAAATCCGCAACGAAATCCCGCTTCATTTAAAGGTTGACCTGGACCCGGAAACCGAGGGGCTTATTTTGCCGAAACTCATTTTGCAGCCTATCGTTGAGAATGCCATCGTCCACGGGCTTGTCGACCATCAGACTCCACGCATTGAGATCCGTTCCCGAAGCAGCCTGGACGGGATCAGGATTGAGATTACAAACAACGGTACAGGGGCCGATGAAGAACTGCTCGAATGCCTGAACCGCAGGCTGGGGCAACCAACCGAAGAGCAGGACGGAGCCTACGAGAGAGTCGGTCTGATGAACGTGGTCCAAAGACTCCGATTGACCTTCGGACCGGAAGCGAGTTTGACGCTCGCCAACCTTCCGCATGGCGGAATGTCAGTTACCCTGTACTTGCCCTTAAGTCATCATCATGGTTTTTTGCCGGAGGGAGAGGAAGAATGA	MFKFTFYKRIQLSFLLLIFIPLIAVSIISFVLIRNTMVEKLQLSNENVLNVMTDELSKTIDDVTFASHFIVNDTNVRNILKSFADTKRLATYQDYVHFRQIQDVFSLINSKPLNNNVRMYLVNRQQFVISSGTEDLTAINGSLDKLMERVDLSKPETLQWLGMAGGDSAGNGKSYYIARVIYDSREKRQVSVLLSAISDTYFNKLLGTIDFGKVALFDANGEFIAGHTGLIPHHTETKGSVRTDRTILKSNWKLAYEASEKEWSGQISRTFYTGLAGVLLLFLVFFGMSILMAKRLHSPIHKLQRVVRQFGMGNLDVRLEVKGKDDIAELGQTLNTMLDQLQRLIHDIEQEQEQKRVMELEALFMQIRPHFLINTLNSIKCSLILTKDTLHSGIIDSLMSLLRAYLKVNEPATLREECKLLGHYVDIMKIRNEIPLHLKVDLDPETEGLILPKLILQPIVENAIVHGLVDHQTPRIEIRSRSSLDGIRIEITNNGTGADEELLECLNRRLGQPTEEQDGAYERVGLMNVVQRLRLTFGPEASLTLANLPHGGMSVTLYLPLSHHHGFLPEGEEE				NA	NA	NA	NA	NA
AK002_02714	1590	cheB_6		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGATGTATAGAGTAATGCTTATCGACGATGACGTTCCCATGCTCAAGGTATTGCAGCAGATGATTGACTGGGAGGCAAACAATCTGCAGATTGCCGGCAGTACGTATTCCAGCGCGAAAGCGCTGCATATGTTTGATGAAGTGAGGCCGGACATCGTCATTACGGATATCGGGCTGCCGCAAAAAAACGGCATGGAGCTGGCAGAACATTTTATTCGCATGAAGCCGGAGGTTCGGATTATCTTCCTGACCTGCCATGAAGATTTTCATTATGCCCAGCAAGCCGTAAAACTGCAAGCAGACGACTATTTGATCAAAGATCAGCTTACGGCCGAGCAGCTGGAACAGAGCCTTGGCAAATCCGTGCACTTATTAAAGACGCGGGCCGGTCTGATTCATCGCGAGGCGGCGAGTTACAACAGTCAGCTCTTTCGGCAGGATTTGCTGCAAAGGGTAATCAACGGCTCGCCTTCCGAGTCCACTTTGGCTTATGCGGGGCAGATCGGCATCTCCTGGACGTATCCATGGTTTATGCTGGGACTGGTCAGCATTCGGCTCTCCAGCTTTGACCAGCGTTTCAGAAAAACGGAGCTGCCGCTGATTTTATACGCAGTCTATAATATCGCGATGGAATTGTCGGAATCGTTTGAAGGCATTACGCCGTTCATGGAACAGGGGAACATTGTGATTCTGCATAACTTCAGGGTGAATCTCGCACAGAATGCCAGCTTGCATCTGCACAATTATTTGCAGCAGCTGCGATATCAATGCGTCCACTTTCTCAAAATTCAACCGAACGTCATCGCGGTTACGGACAAAATGGAATTAAGCTCGATCGGCTCCGTCTATCAGGAAATTCTGCACGGCAGGTGCGAATTTTACGAAAATACCGATTATACGATAACCGAGGTTTCTCAAATCCGGACAAGGTGGTTCCAATCCGCGCCTCAAGGGTTTCTTGACGGCTACGTATCCGAGCTGGAACGGAAACTCATCAAGCAGGATCTAGACGGTATACGATGCACGCTTCAAAAGATCGCCGGTACTGCAAAAGAACTGTCTATTGATCCGGGCGACTTTGCCAGGGATTTGTCCTCCATGCTTCGCGGCATCGAATTGATGATGTCCAGTCTCAAATTCGATGAAGATCTATTCGCCTATCTTGCTTTAGCCCGCACCTTGGAGGATATGATGGAACTGGTGGAGAGAAAGCTGACCCAGATGACGGGAACCCGGCAAACGGGGGCGGGAAACCACGCTCATGAGCCGAAGCTGCAGGTGATCCAGCAGTATATCGATCAGCATCTTGACGATAACATCACGTCGATCGACATGGCACGCTATCTGTTTTTGAATCCGAGCTATTTTTCGCGATATTTCAAACGGATGACGGGGCTGACCTTCACGGATTACGTGCATCAATACAAAATGAAGATGGCCACCAAAATGCTCAGAATGTCCGGGCAAAATCTGGAGTCGTTGGCCATGGGCTTAGGTTATTCGGACCGGACGTATTTTTCAAAAGTGTTTAAAAAATACGTGGGAACCACGCCGAGCGAATACAAAGCCAAATACACCGCGCGTAAATAA	MMYRVMLIDDDVPMLKVLQQMIDWEANNLQIAGSTYSSAKALHMFDEVRPDIVITDIGLPQKNGMELAEHFIRMKPEVRIIFLTCHEDFHYAQQAVKLQADDYLIKDQLTAEQLEQSLGKSVHLLKTRAGLIHREAASYNSQLFRQDLLQRVINGSPSESTLAYAGQIGISWTYPWFMLGLVSIRLSSFDQRFRKTELPLILYAVYNIAMELSESFEGITPFMEQGNIVILHNFRVNLAQNASLHLHNYLQQLRYQCVHFLKIQPNVIAVTDKMELSSIGSVYQEILHGRCEFYENTDYTITEVSQIRTRWFQSAPQGFLDGYVSELERKLIKQDLDGIRCTLQKIAGTAKELSIDPGDFARDLSSMLRGIELMMSSLKFDEDLFAYLALARTLEDMMELVERKLTQMTGTRQTGAGNHAHEPKLQVIQQYIDQHLDDNITSIDMARYLFLNPSYFSRYFKRMTGLTFTDYVHQYKMKMATKMLRMSGQNLESLAMGLGYSDRTYFSKVFKKYVGTTPSEYKAKYTARK				NA	NA	NA	NA	NA
AK002_02715	921	lacF_14		Lactose transport system permease protein LacF	ATGGAGGCTGTACAACAACCAGTGCCCAAGAGCCGGCGGAAGTTTTGGACTCCCAAGCGGAAAGAGGCTTTGATCGGGTGGCTGTTTCTGGCCCCGGAAATCGTCGGGATGCTGCTATTAAACGTGTTTGCTCTTGGATTTTCTTTGTATTTGAGTTTATCCGATTGGGATATGCTGTCGGGTGTGCAGGGGATCGAGTTTACCGGATTTGATAACTACATCAAGATGTTCCATGATCCGACCATTATTCAAGCGATAAAGAACAATTTGATCTATATGGTTCTTACGGTGCCGGTCCCGATTGCCATCGCTCTTGTGCTTTCGGTTTTGATTCATAACAGCGTGTTCTTCAAGAGTTACTTTAAAGTCGCGTTTTTCATTCCTTATATCTCTTCGATTATCGCGGTTGCTGCCGTGTGGAGCGCATTATTCCACCCATCTCTGGGTCCAATCAACCAGTTTCTGATGGATCTCGGGATCAGCAATCCGCCGAAATGGCTGGTCGATCCGAAAACGTCGCTCCTGGCGATTTCGATTATCAGTTCCTGGGCGGGCTTGGGCTACACGATCATTATCTATATGGCCGGGCTTACGAACATTTCGAATGAAATTTACGAAGCGGCGGATATTGACGGTGCCAGTGCAATTAAAAAGTTTTTTGCCATCACGGTTCCGATGCTCCGTCCGACAACCTTCTTCCTGTTGATTACGATGTTGATTGGCTCGTTTAAAGTGTTTGACATCATTGCCTTTTTAACGGAAGGCGGCCCGAACAATTCTTCTACCGTGCTTGTATTCCGCATCTATGAGGAAGGCTTTCAATATTACAACATGGGATACGCTTCGGCCATTTCCTGGCTGCTGTTCGCGATTATCGGTCTGATTACCGCGCTCACCTGGAAAATGAGAAATGAAGAATAA	MEAVQQPVPKSRRKFWTPKRKEALIGWLFLAPEIVGMLLLNVFALGFSLYLSLSDWDMLSGVQGIEFTGFDNYIKMFHDPTIIQAIKNNLIYMVLTVPVPIAIALVLSVLIHNSVFFKSYFKVAFFIPYISSIIAVAAVWSALFHPSLGPINQFLMDLGISNPPKWLVDPKTSLLAISIISSWAGLGYTIIIYMAGLTNISNEIYEAADIDGASAIKKFFAITVPMLRPTTFFLLITMLIGSFKVFDIIAFLTEGGPNNSSTVLVFRIYEEGFQYYNMGYASAISWLLFAIIGLITALTWKMRNEE	PGPT0016535_5145	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_02716	843	araQ_27	COG0395	L-arabinose transport system permease protein AraQ	ATGTACATGCAGCTGCTTCGAAAAAACGCGTCCAAAGTGGTAGTCACCTTTATCATGGGGGCATTGTCCATTGTGTTTCTCGTTCCGCTCATCTGGATGATTTCCGCGGCTTTTAAATATGAGAAGGATGTTATGCGATTCCCGATTCAATGGATACCGGAAAAGGTGAATCTGGCGTACAATTTCAAGATGGTCTGGATGGGAAGAGTTCCCTTCTATGATTTCTATTTTAATTCTTTTAAAATAGCGATTATTACGACCCTAATCACCCTGATTATCTCATCCATGGCAGGTTATGCGTTAACGAAGATTCGATTCAAGGGACGGAATATTGTTTTTATGGCCTTGCTCTCGTTCATGATCATTCCGGATCAGGCAACGCTCATTCCGCGGTTTCTGCTCATTCGCTGGTTTGGACTCTACAATACGCATGAGGCCATCATCTTCATGAGCATGTTTTCGATTTACTTTACGTTCCTGCTGCGTCAATTTATGAACGGGATCAGCGATGAATACTTGGAGGCGGCCAGAATTGACGGAGCGGGTCATCTGCGGACATTTGCTTCCATTATGGTTCCGCTGTGCAAGCCTGTGCTGGCTACGGTGGCGATTATTAAATTCATATGGACGTGGAACGATTACCAGAATCCACTCATCTTCTTGCTGGACAAGGACTTATACACGATTCCGCTGGGGATGACGCTGTTCCGTGATGACTACACCAACAACTATGCCATTATGATGATGGCGTCAGTCTCGGCAATCATTCCGCTGGTCATTGTGTTCATCGCATTGCAAAAGCAGGTTATAAACGGCATTGCTTTGGGCGGGGTAAAAGGTTGA	MYMQLLRKNASKVVVTFIMGALSIVFLVPLIWMISAAFKYEKDVMRFPIQWIPEKVNLAYNFKMVWMGRVPFYDFYFNSFKIAIITTLITLIISSMAGYALTKIRFKGRNIVFMALLSFMIIPDQATLIPRFLLIRWFGLYNTHEAIIFMSMFSIYFTFLLRQFMNGISDEYLEAARIDGAGHLRTFASIMVPLCKPVLATVAIIKFIWTWNDYQNPLIFLLDKDLYTIPLGMTLFRDDYTNNYAIMMMASVSAIIPLVIVFIALQKQVINGIALGGVKG	PGPT0016540_5704	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_02717	1383			hypothetical protein	ATGAAGAAAAAAAGCAAACACAGATTATCCGTCATTCTTAGCACGATCCTGGCGAGCACCCTGGTATTAAGCGGCTGCGGGAAATCCGGGTCAGAAAGCGGTGCCAGCACGAACGGTGGGAGCGGTCAGACGGACAAGCAGGTTACCGTTAAGTATTACAACTGGGATAACGAAGCTCAACAAGCGGGTACGGACGCCATGCTCCAGGAATTTATGGATCAGAATCCGAATATCAAGGTCGAGCATGTGGTTCTGGTTCCCGGCGATTCCGTGGAAATGTTGAAAAAGCTGGATTTCCTGATCTCATCCGGTGAAGCGATCGATGTTATTCAATTCCCAAGCTTGGGCGGAGTTCTCGAACGGGCCTCACGCGGAGCCCTTGCTCCCCTGAACGAGTTCTATGAGCAGGAGAGTCTCGTTCCGGAAGACGAATACTTTGTCAATGCCAAGCTAGAGGACAAGTATTATGGCATGCAGTACACCAAGAGCACAAACTATGTGATGCTCAACAAGGATGCCCTGGATGAAGCGGGACTTGAGGTTCCGAAATTCGGCTGGACTTGGGATGATTACCGCGACTATTCCAAAAAGCTGACCAAGGGCGAAGGCGTTGACAAGCGTTACGGTTCTTACTTCCATACATGGGAGCTTTATATGAACGCTCCGGCGCAAACCATGATGAAGGACCCGTTCGTATATGAGGACGGAACGACCATTCTGGCAGATCCGACCTACAAATACTTCTTCCAGCTCCGCAAAGATATGGAGGAGTCGGATAAGTCGGCCAAACCTTACAGTGACGTGCTTGCCGCGAAGCTGAACTACCGTACTGAATTTTTTAATGAAGAAGCTGCTATGATTCTTACAGGCAACTTTACGGTAGCGGATCCAGGCAATACCGAGCAATATCCGCATGATTTCAAAACAGCTTTCGCTCCTGTACCTGTGCCTCCTGCAGGATCGGAACCGAAAGAGTATGAAGGAAAATATTTCACCAGCGGCAATATGCTGGCGCTGGGTGCCAATTCCACGAACAAGGAAGCATCCTTCAAGCTTATGAGATTCATGACAACGGCCGATTCCGACAACAGACTCGAGTTCTCTGGCTACAAGAAAGCGAATAACGAAGAACTGTTGACAAAGCTGGTTGCCGGTAAAGAGGATAAGTACGATATGGAGTCGTTGAAATATACGCTGTTCAGCGATGAAATCCAGTATCTGGATGCAGCTAAGATCATGATGACGGATACTTCGGAATTGACCAAGATCATTAATGACGGCTTTGCGAAGTTCATGCTCAGCAACGAGCCGATTGATGAGGTTCAACAATGGATGGTCGATGAAGCCACCAAAATCATTAACGAAAAAGGCGTTGTCAAGTAA	MKKKSKHRLSVILSTILASTLVLSGCGKSGSESGASTNGGSGQTDKQVTVKYYNWDNEAQQAGTDAMLQEFMDQNPNIKVEHVVLVPGDSVEMLKKLDFLISSGEAIDVIQFPSLGGVLERASRGALAPLNEFYEQESLVPEDEYFVNAKLEDKYYGMQYTKSTNYVMLNKDALDEAGLEVPKFGWTWDDYRDYSKKLTKGEGVDKRYGSYFHTWELYMNAPAQTMMKDPFVYEDGTTILADPTYKYFFQLRKDMEESDKSAKPYSDVLAAKLNYRTEFFNEEAAMILTGNFTVADPGNTEQYPHDFKTAFAPVPVPPAGSEPKEYEGKYFTSGNMLALGANSTNKEASFKLMRFMTTADSDNRLEFSGYKKANNEELLTKLVAGKEDKYDMESLKYTLFSDEIQYLDAAKIMMTDTSELTKIINDGFAKFMLSNEPIDEVQQWMVDEATKIINEKGVVK	PGPT0016545_1762	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_02718	1254			hypothetical protein	ATGTCCATATCAAGAAATATTAAGGACCAGCTTGTTGTTCCTTCGCCGGAGCAGCTAGCCTGGCAGGACCTGGAGCTCGGGATGTTCTGTCATTTCGGTATCAATACGTTCTGCGACCAGGAATGGGGGGAAGGCAAGGATGCTCCGTCTTTGTTTAATCCCGACCGCCTGGATGCCAAACAGTGGGTCCGATCCGCGAAGGAAGCCGGATTCCGTTATTTCATATTGACGGCCAAGCACCATGACGGCTTTTGCCTATGGCCAACGGCAACGACAGACTACTCCGTAGCCTCGAGTCCGTGGAGGGAAGGCCGGGGCGATGTCGTTAAAGAATGCGCGGATGCATGCCGGGAAGAGGGCATCGGCTTCGGTATTTATGTATCCCCTTGGGACAGGCACGAGCCGAGTTATGCCGACCCGCAACAGTATGATGACTTTTACTGCAGGCAATTGGAGGAACTCTTATCGGGCTATGGCCCGCTAGTGGAAATTTGGTTTGACGGCGCGGGGTCGGAAGGCCGCGAATATGACTGGCCTCGAATCATGGAACTGGTCAAACGATATCAGCCCCGTGCCATGATCTTTAACATGGGGGCTCCTACGATACGTTGGGTCGGAAATGAGGATGGCGTGGCGCCGTATCCTTGCTGGAACACGGCGGATTCTTCGCGGGGCAGCATGTTCAGTGAGGAATCGTTGAAATGGCTGCCCGAGACGCCGGGCTGGGTGCCCGCGGAATGCGATGTTCCGATTCGAAAAGACCGCTGGTTCTGGCATCCGGACGAAGAACACAAGCTGTTGTCCGTGGATCAGCTAATGGACATCTACTATCGATCGGTCGGACATGGGGCGACCTTGCTGCTCAACGTCGCGCCTGACCATCATGGCCTGCTTCCGGAAGCCGATGTACGACGTCTTCTGGAATTCGGCAGAGAGATCCAGTCTCGATTTGGTCATTCCCTTGCCGAAGGCTCGGGATCGGGGGAGATCGCCCAGTTGACCCTTCCCCGGTCATGCGTGATCGATCATGCCGTGATCATGGAGGATATTGCTTACGGGGAACGGGTGAGCCAATATGTGCTGGAAGCCTTCGTTGATGGAGAGTGGCTTGAGCTTACACGCGGCAGCGCGATCGGACACAAGAAAATCGATGCCTTCGCTCCGGTAGCTGCCGACAAGGTGCGTTTACGGGTGCTGAAATCGGCGGCAAGCCCGAGAATCAAAAACATGGCGGTTTATCATTGCGGGCAATAA	MSISRNIKDQLVVPSPEQLAWQDLELGMFCHFGINTFCDQEWGEGKDAPSLFNPDRLDAKQWVRSAKEAGFRYFILTAKHHDGFCLWPTATTDYSVASSPWREGRGDVVKECADACREEGIGFGIYVSPWDRHEPSYADPQQYDDFYCRQLEELLSGYGPLVEIWFDGAGSEGREYDWPRIMELVKRYQPRAMIFNMGAPTIRWVGNEDGVAPYPCWNTADSSRGSMFSEESLKWLPETPGWVPAECDVPIRKDRWFWHPDEEHKLLSVDQLMDIYYRSVGHGATLLLNVAPDHHGLLPEADVRRLLEFGREIQSRFGHSLAEGSGSGEIAQLTLPRSCVIDHAVIMEDIAYGERVSQYVLEAFVDGEWLELTRGSAIGHKKIDAFAPVAADKVRLRVLKSAASPRIKNMAVYHCGQ	PGPT0018775_2883	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_02719	1860	bga_1		Beta-galactosidase	ATGGGAATGCTGACATGGGGAAACGGACAATACTTGTTGGGCGGACAGCCGTACCGGATCATATCGGGAGCGATTCACTATTTTCGTGTCGTCCCTGAATATTGGGAGGACCGGCTATTAAAATTAAAGGCCTGCGGCTTTAATACCGTTGAAACTTATATCGCATGGAATGTGCACGAACCCCAGGAGGGGGAATTTAGCTTTAGCGGTATGGCAGACGTCGCATCGTTTATCGAATTGGCCGGGAAACTGGGCCTGCACGTCATCGTCAGACCCAGCCCGTTCATCTGTGCGGAATGGGAATTTGGAGGGTTGCCGGGCTGGCTGCTTGGTTATGGAGAAATACGTCTTCGCTGCAGCGACCCGCTCTATTTGAGCAAGGTGGATCATTACTACTATGAGCTGATCCCAAGACTGGTTCCGCTGCTGTCTTCTAACGGAGGGCCGATTCTGGCCGTTCAGGTCGAGAATGAATACGGCAGTTACGGCAACGATCACGCTTATCTGGATTATTTGCGTGCAGGACTGGTACGGCGAGGCATCGATGTGCTACTCTTTACCTCCGACGGGCCAACCGACGAAATGCTGCTCGGCGGGACGCTGAACAATGTGCACGCAACTGTGAATTTTGGTTCCCGGGTTGAAGAATCCTTCCGGAAATACCGGGAATATCGTACGGAAGAGCCGCTGATGGTGATGGAGTTTTGGAACGGCTGGTTTGATCACTGGATGGAGGACCATCACGTGCGGGATGCCGCGGATGTCGCCGGCGTACTGGATGAAATGCTGGAGAAGGGCTCCTCGATGAATATGTACATGTTCCACGGGGGAACCAATTTCGGCTTTTACAGTGGAGCGAATCACATCCAGGCCTATGAGCCTACGACGACAAGCTACGATTATGATGCCCCTTTAACGGAATGGGGGGATAAAACGGAGAAATACGAGGCGGTCCGGAGGGTGCTCAGCAAGCATGGGTTTGCGCCGGGTTGTACCTTCCCTGAGCCCGTTCCAAAAGCAGCCTACGGAAAGGTTGCCATGTCTGAAATGGCCGGCCTGTTTACGGAAACCAATCTCCAGCAATTATCAGAGCCGATAAAAAGCGTATGCATTCAGCCGATGGAAAAATACGGACAGTCCTATGGTTTTATCATGTACAGCACATTTATCCAGGGACCGCGGCACGGTCAGCAGCTGCATATTCAGGAGGTTCGTGATCGCGCCCAGGTATTCCTGGACGGTCGTCCGCTTGGGGTCGTCGAACGCTGGAATTCAAAGCCGCTCGATATTACCGTACCCGCAGACGGTGCAAGGCTGGATATTCTCGTGGAGAATATGGGCCGGATCAATTATGGGCCGCTGATTCGCGATCCCAAGGGAATCACGGAAGGCGTGAGAATCGATAACCAGTTCCTGTACGACTGGACGATCCGGACCCTGCCGCTCGAGCCCGAGAAACTGTCATGGCTCTCTTATACGCCGGTTACGCAGGAAGAGCAGGCGTTGCAAGAAGAACCGTCCAAGCCGGAGAGGGACAACGCGGGTCTGCCAGGGTTTTACCGTGGATGCTTCGAGGTGGAGGAGATCGGGGATACGTTTCTTCGCTTTGATGGCTGGACGAAGGGCGTCGCCTGGATCAATGGCTTCAATCTCGGCCGGTACTGGAATGCGGGACCGCAGAAGGCGCTATATATTCCCGGCCCTTTACTGCGCAAAGGGGAAAACGAGCTGGTTCTTTTTGAACTGCACGGCCGTCCCGAATGCTGCGAAGCAGAACTGTCAGATCAACCGGACCTTGGACAGACCGCGGCAGTGGACGAAGCTGTGCTCAATTTCGTTCAGGACGTAGAAGACAAGTAA	MGMLTWGNGQYLLGGQPYRIISGAIHYFRVVPEYWEDRLLKLKACGFNTVETYIAWNVHEPQEGEFSFSGMADVASFIELAGKLGLHVIVRPSPFICAEWEFGGLPGWLLGYGEIRLRCSDPLYLSKVDHYYYELIPRLVPLLSSNGGPILAVQVENEYGSYGNDHAYLDYLRAGLVRRGIDVLLFTSDGPTDEMLLGGTLNNVHATVNFGSRVEESFRKYREYRTEEPLMVMEFWNGWFDHWMEDHHVRDAADVAGVLDEMLEKGSSMNMYMFHGGTNFGFYSGANHIQAYEPTTTSYDYDAPLTEWGDKTEKYEAVRRVLSKHGFAPGCTFPEPVPKAAYGKVAMSEMAGLFTETNLQQLSEPIKSVCIQPMEKYGQSYGFIMYSTFIQGPRHGQQLHIQEVRDRAQVFLDGRPLGVVERWNSKPLDITVPADGARLDILVENMGRINYGPLIRDPKGITEGVRIDNQFLYDWTIRTLPLEPEKLSWLSYTPVTQEEQALQEEPSKPERDNAGLPGFYRGCFEVEEIGDTFLRFDGWTKGVAWINGFNLGRYWNAGPQKALYIPGPLLRKGENELVLFELHGRPECCEAELSDQPDLGQTAAVDEAVLNFVQDVEDK	PGPT0017815_1996	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
AK002_02720	1476	gerAA_1		Spore germination protein A1	ATGATGATGAAGAACTTAACGCCGGGCGAAGCCCCGCAAGAAAATTTGCCGGCATCCCTGACGCAATTTATTGACGATATGAAGAGCCGCTTCGGACAAAGCGGAGATATTATTTACCGCGAGCTTCAACTAGGCGCCATACCCTCGGTAATGGTCTATATTGAGGGGATGGGAGATCCCCGTTATCTAATCGAAGCGATTCATGCCGATATGCCGCTGTTCATGAATCTCCCCGACCAGCGTCCGGAAGAACGGATGAAAATGCTGCAGGAACTGACGATCACGATGGGAAAAGTAGGAGAAGCCCGGACCTTTCAAGAGGTTGAAAAGAAATTGCTCTCCGGCAATACGATCATCTTCATGGATGGAACCGCCACCTCCCTGTATGTGGGGACGGAAACGCTGAAACAGCGGGGAGTGGAGGAAGCCAGCTCGCAATCCGTGGTAAGAGGTCCAAGGGAAGGCTTTACCGAGTCGCTTCGAGAGAATACGGCTTTGGTCCGGCGAAGAATTCAAAGCCCTAAACTGCGCTTGGAAGAGAGAACCGTCGGCGAGCACACAAATACGCAGCTGGCCGTGATGTACATGGAAGGATTATGCGATGTCGATGTACTGAACGAGCTACGCAGAAGACTGGATGGAATCAAGCTGGACAGCGTCCTGGAGAGCAATTACATCGAGGAGATGATTCAGGATCATCGCTATAGTCCTTTTCCTACGGTATATAATTCAGAACGGCCCGACGTCATTGCATCTGCTGTATTGGAAGGGCGCATTGCTATTTTCTTAGAAGGAACGCCCTTTGTTCTGGTGGTTCCCGCCCTGTTCGTCCAGCTGTTTCAATCGAGCGAGGACTATTACCAGCGGTGGGATTTTGCCAGCTTGGTTCGACTGCTTCGATACTTGTGCTTCGGAATAGCGCTCCTTACTCCCTCCCTCTATATTGCGATTACCACGTTCCATCAGGAAATGCTGCCAACCAACCTGTTGACCAGCTTAATCGGACAGCGGGAAGGGGTTCCCTTCCCTGCATTCATCGAAGCGCTGATCATGGAGATTACGTTCGAGATTCTGCGCGAGGCGGGCATTCGGCTGCCTAAATCGATCGGCCAATCCGTCTCCATCGTAGGCACGCTGGTCATCGGTCAAGCCGCCGTGGAAGCGGGTCTCGTATCGGCCGCGATGGTGATCGTTGTGTCCATGACGGCGATTGCGAATTTTGCCCTGCCGGCTTTCAATATCGGAATCTCGGTTCGGATCTTGCGATTCGGGCTCATGGGAATCGCTGCGTCATTCGGATTGTACGGGATGATAATCGGCATGATCATCATCGGCCTCCACCTATGCAGCCTCCAGTCCATGGGGGTTCCGTATATGACCTCATTCGCCCCCATAAGATGGCGGAGTCAAAAGGATGCCTTGTTGCGATTGTCCCGCCACAGCATGAAAAAATACTTGACCAAATCCAAGACATAA	MMMKNLTPGEAPQENLPASLTQFIDDMKSRFGQSGDIIYRELQLGAIPSVMVYIEGMGDPRYLIEAIHADMPLFMNLPDQRPEERMKMLQELTITMGKVGEARTFQEVEKKLLSGNTIIFMDGTATSLYVGTETLKQRGVEEASSQSVVRGPREGFTESLRENTALVRRRIQSPKLRLEERTVGEHTNTQLAVMYMEGLCDVDVLNELRRRLDGIKLDSVLESNYIEEMIQDHRYSPFPTVYNSERPDVIASAVLEGRIAIFLEGTPFVLVVPALFVQLFQSSEDYYQRWDFASLVRLLRYLCFGIALLTPSLYIAITTFHQEMLPTNLLTSLIGQREGVPFPAFIEALIMEITFEILREAGIRLPKSIGQSVSIVGTLVIGQAAVEAGLVSAAMVIVVSMTAIANFALPAFNIGISVRILRFGLMGIAASFGLYGMIIGMIIIGLHLCSLQSMGVPYMTSFAPIRWRSQKDALLRLSRHSMKKYLTKSKT	PGPT0025050_838	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK002_02721	1209	gerBC_3		Spore germination protein B3	GTGTTGGAAAGAAAAATACTTTCAGTCCTGCTCATATTATGCTTGACCTTCACCCCTGGATGCTGGAGCAGAAAAGAACTGAATGAGCTGGCCGTCGTCATGGCGCTTGGCATCGACACCCATGAGAATGGGTATGCCATTACTGCTCAGGTGCTTAATTCCGCCGAGGCCGGCTCCAAAAAAGGCGGATCGATGGGCAGTCTTCCTGCCGTGACCTATAAGTCCGTCGGCAAAACCATACCCGACGCCCTGCAGCGCATGTTGAGCATGGCCCCCCGGATGCCGTATCTGTCCCACGTTCGCGTGTTGGTATTCGGTGAGGATCTGGCCAGGTCAGGGCTCAGCGATGTCCTCGATTATATCTCCCGGAATCATCAGCTTCGAACGGATTTCTTTATGCTCGTCGCCAAGAATGGAAAAGCTGCGGAGATTCTAGAGGTCGTTACGCCATTCGAATATGTTCCGGCGAATTCGCTCTATACCTCCATTCTGATCTCGGAAAAAAAATGGGCGGCGACGGGGAAAGTCACTTTGCAGCAGTTCGTGACGGAGCTAAAGCGCAGCGGGTCAGACCCGGTGTTATCCGGAGTCCAATTAAGCGGCAGTTTAGCCGAAGGCCAGACCATGGAGAACGTGAAGCAAATCAATCCTTCCACGCTTCTTCAGCATACGGGGCTCGGCGTATTCAAGGGGGACCGGTTGGTCGGATGGCTGGGGGAACCTCCCAGCAAGGCCGTCAATTATGTCCTGAATAGAGTCGACACCACGACGGGATTCATTGTATGTCCGGACGATGGTATTGTCGGATTCGCCGTGAACCGGGCGGACACAACGCTGGACGTTAAGCTCAATGCGGATGGAACCCCCGCTTTTTCAGCCGAATTGGAGATCGAGGCCGACGTGAATGCCGTTCAATGCGCGATTGATATCAGTCAACCTGCCGTCATCGACGAATTGGAGAAGGACATCGAGGATAAATATAACGCTAACATTCGGAAGCACATCGGGCTGGTCCAGCAGCGTTATGGAGCCGACGTTTTTGGATTCGGCGAGGTTCTGCACCGTAAATATCCGGACGTTTGGAAAAAATACCGGGATCATTGGGGGGAAAGCTTTAAAACGATGAGTATCCGGGTGGACACCGATGTAGCGATCCGCCGGATCGGATCCATCATACAACCCTTAAACCAAAAGGTGGATGAGCCGTGA	MLERKILSVLLILCLTFTPGCWSRKELNELAVVMALGIDTHENGYAITAQVLNSAEAGSKKGGSMGSLPAVTYKSVGKTIPDALQRMLSMAPRMPYLSHVRVLVFGEDLARSGLSDVLDYISRNHQLRTDFFMLVAKNGKAAEILEVVTPFEYVPANSLYTSILISEKKWAATGKVTLQQFVTELKRSGSDPVLSGVQLSGSLAEGQTMENVKQINPSTLLQHTGLGVFKGDRLVGWLGEPPSKAVNYVLNRVDTTTGFIVCPDDGIVGFAVNRADTTLDVKLNADGTPAFSAELEIEADVNAVQCAIDISQPAVIDELEKDIEDKYNANIRKHIGLVQQRYGADVFGFGEVLHRKYPDVWKKYRDHWGESFKTMSIRVDTDVAIRRIGSIIQPLNQKVDEP	PGPT0025060_123	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK002_02722	222			hypothetical protein	GTGAATTGGCATTGGTTATTCATATTCTTTCTAGCCGTCGTTCTCGTTACGGAAACCCGTCATCTTCTGAAGCTGCGCTCCATCAGGGATATCATCGTATTCTATGCGGTATGGGGAGTAACCTTGCTGGCTTTGATCGGAGATATGATGGAGGTGCCTTATTTAAGGCCGCTGGACTGGATCGGCGCCTTGGTCCAGCCCCTGAGCGGATTGATCTCATAA	MNWHWLFIFFLAVVLVTETRHLLKLRSIRDIIVFYAVWGVTLLALIGDMMEVPYLRPLDWIGALVQPLSGLIS				NA	NA	NA	NA	NA
AK002_02723	1095	yndE_2		Spore germination protein YndE	GTGATCAAATACAAGGATATCGCACCACGGCAATTTTATATACTGGCCTTCGGTTTGACCATCGGTACCTCGATTCTGGTTACGCCTTCCGGATTAGCGCATACCGCCCGGGAAGATGCGTGGATGGCCTCTCTCTTCAGTTTGCTCATTAACCTCCTCATGGTCGTGCTGTATATAGCCATTGCGCGTCTCTATCCCGGCCAATCGATCTTCGAGATACACGAAAAGGTGCTAGGGAAGCTGCTGGGCAAACTCTTCTCGCTGATCTATTTGTTTTATTTTTTGATTCTTACAGGTACTTTACTTGGCAACCTGGGCTTTTTTCTGAGCAGTGAAATGATGCCGGAGACCCCGATCGAGGCCATTCAAATCTTGTTCTTAATAGCGGCCGTCATGTGCGCCAGAATGGGCATCATTCTGTTGGCCCGCGTCGGTGAATTGATGTTTCCGTGGATCGTATTTCTGTTTATGGTCCTTGTCCTCTCGCTTATCCCCCAGATCGATTGGAACCATATCAAGCCGATGCTGGAGGAAGGCTGGATGCCCGTGGCTAAGGCCGGATTCCATTCTTCCATGTTCCAGGAGCTGATTGTGTTAATGGTATTCCTGCCCTTGGTCAAAGGAGAGAAGGAAGGGGAGAGGGCATTGATGCGGGGAGCCGCTTCAGGCGGGCTCGTCCTTAGCATTGCCGTCCTGCTCAGCGTGCTAATTTTGGGGATTGAACAGACGGAGAACAGCACGTTTCCGGCATATGCACTTGCGAAGACGATTAATTTAGGGAATTTCTTTCAACGTGTCGAAGGCATATTGATTACGCTGTGGATCCTGACTTTTTTTATCAAGATTTCTCTGCTGTATCTTTCGATTCTTCAAGGCATGAAAACCGTGTTCGGTCTGAAGGACCAGAATTCGTTAATTTATCCGTTGTCCGTGCTGTTTGTCGTCGTGGCCTGGAATACATACATCAACACCGTTTATGTCGCCGATATCATTCAGAACGTGTGGTCAAGCTATGCGCTCCTCCACTTGATCGTGATTCCCATCGTCCTCTATCTGGTCGGGATAACGCGAACGAAAATCCTCAGCTTGAAATGA	MIKYKDIAPRQFYILAFGLTIGTSILVTPSGLAHTAREDAWMASLFSLLINLLMVVLYIAIARLYPGQSIFEIHEKVLGKLLGKLFSLIYLFYFLILTGTLLGNLGFFLSSEMMPETPIEAIQILFLIAAVMCARMGIILLARVGELMFPWIVFLFMVLVLSLIPQIDWNHIKPMLEEGWMPVAKAGFHSSMFQELIVLMVFLPLVKGEKEGERALMRGAASGGLVLSIAVLLSVLILGIEQTENSTFPAYALAKTINLGNFFQRVEGILITLWILTFFIKISLLYLSILQGMKTVFGLKDQNSLIYPLSVLFVVVAWNTYINTVYVADIIQNVWSSYALLHLIVIPIVLYLVGITRTKILSLK	PGPT0025055_732	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
AK002_02724	783			hypothetical protein	GTGATGAAATCGATTCCCATTCAAGAATTGTCCAAACAGACGGGCATTACGGTAAGAACGCTTCGCTATTATGATCAGATCGGCCTGCTGATTCCGGCAGCCAAGACTCCTGGTAAACACCGGATATACAGCGAGGAGGAGCTAAAGAAGCTGCAGCAAATTCAGTTTCTGAAAAAGCTGGGCTTCAGCTTGCAGGAAATTTCGGATATGATTTCGAACCCGGAATGGAACTGGTCATCCAGTTTGATGAATCAGTTGGACTTCGTGAAGAATGAACAAAACAAGCTGAACCAAATGGAATCCGCGCTCCGGGCCGTCCTGCATAGCATTGCCGTGGAAGGGGAGACAAGCTGGGATGTGATTCAGAAGCTGATCCATCTCTCAGGAAGAGACCCCTCATTAAAGCATGCGTTCCGACAACAAATGTTTGAGAGGCGCGAAGAAGAGCTGCTGGACCTCCTCCCGAATATGAACAGTACAGATCCGGATTCGCTAGAATGGATCGCTCTGCTGGGACAGCTTAAAAAGCGTATGGAGAACGGACCCGGTTCTCCTGAAGTACAGAGGATCATCAGACGCATGGATGAAAAACGCCGGGAGCATTTTGAAGGCGAAGACCCCTTCGTGGATAAATTGTGGGAGATCCGCAAATCTCCTTCGCAGTCCGAGCAGATGGGCTTGTACCCCATTGAGGAAGAGCTTCTTCAGTTTATGGAGCTGGCATTTAATATCTATGCTACAGGAGTGGAAGAAAAACTAGACGAAGAGGGGGAGACATCATGA	MMKSIPIQELSKQTGITVRTLRYYDQIGLLIPAAKTPGKHRIYSEEELKKLQQIQFLKKLGFSLQEISDMISNPEWNWSSSLMNQLDFVKNEQNKLNQMESALRAVLHSIAVEGETSWDVIQKLIHLSGRDPSLKHAFRQQMFERREEELLDLLPNMNSTDPDSLEWIALLGQLKKRMENGPGSPEVQRIIRRMDEKRREHFEGEDPFVDKLWEIRKSPSQSEQMGLYPIEEELLQFMELAFNIYATGVEEKLDEEGETS				NA	NA	NA	NA	NA
AK002_02725	657			hypothetical protein	ATGACAACGGAACTGCTGCTCTCCGTAGGTGCGTTGTCGCTCCTGGATACCTTGAGCCCCGCCACGCTCGGCGTAACGGTTTATTTGCTGTTGACGGAGCGGGATCGGTTGATCACCCGATTATTGGTCTATTTGTTCACGGTGGCAGGCTTTTATTTCTTGGTTGGTGCCGCACTGATGCTCGGTTTGGATGCTGTTCTTCAGAGCGTAACAGGCATCTTTCAGAATCGAACGGTAAGCTGGGTTATGGCTGTTACCGGCGGCGTTTTGTTTGCTGCCAGTTTTTTTGTCCCGACGAAAAAGACGACGGAACCGAGACGTCCAAGATCCAAAAGCCTCGGGGCGATGATCGGGCTGGGTTTCACCACGTCCCTGCTGGAGGTGGCGACGGCACTGCCCTATTTTGCGGCGATCGGGCTGATGACATCGGCCCAACTGACACCGGTTCAATGGGTACCCGTCCTGGCTGCGTATAATGTGATCATGGTGCTTCCTCCGCTCCTATTGCTCGGTGCACACCTTGCATTTGGCCGCATGGTGCAGCCTCCGCTGGAGAAGCTGCGGCTGAAAATCGCCCAGAGCTCCGGATCGGTGCTTTCGTGGGTTTTGTGTATTGCGGGACTGATTTTGGTGCTGAACAGCATAGACAACCTATAA	MTTELLLSVGALSLLDTLSPATLGVTVYLLLTERDRLITRLLVYLFTVAGFYFLVGAALMLGLDAVLQSVTGIFQNRTVSWVMAVTGGVLFAASFFVPTKKTTEPRRPRSKSLGAMIGLGFTTSLLEVATALPYFAAIGLMTSAQLTPVQWVPVLAAYNVIMVLPPLLLLGAHLAFGRMVQPPLEKLRLKIAQSSGSVLSWVLCIAGLILVLNSIDNL				NA	NA	NA	NA	NA
AK002_02726	588			hypothetical protein	TTGAGCACACGGATTTTAGAACGGTTAAGAGAAGAGACGGCACCGCAGCATGAACAAATCGAACAGAATCCATACGCGAAGGCTGCATTCGACCAGACCCTGACGATCGATCAATATCGATCATATTTAGCGAAGTTTTACGGATTCATTAAACCGGCCGAAACGAAGTTTATGGCAGAGGATGCCGTCAACGATATGGGATTGGATATGTCGATGCGGATGAAGTCGGAACATTTGGAAGAAGATCTGATGCATCTGGATATGACTCAGGATGAAATAAATCAGCTTCCGCTGTGCAGCCGGCTGCCCGAGCTGGGCACGCCTGCGCAAATATGGGGGTATCTCTATGTGATGGAGGGGTCCACACTCGGTGGCCAAGTCATCACGAAACAACTGATGAAGTTCTTGCCCGTAAGTCCCGAGTCGGGCATTCGTTATTTCCATGCATACGGTCAAGAGACCAAGCCAAGATGGACCGAATTCCGGGAAGCGCTGCTGTCGAACGGCTTGAATGATTCCGATGAAATCATCGATTCGGCGAAGGAAACGTTCCGTTTGCTGGATGCTTGGATCCGAGATTCGGCATAG	MSTRILERLREETAPQHEQIEQNPYAKAAFDQTLTIDQYRSYLAKFYGFIKPAETKFMAEDAVNDMGLDMSMRMKSEHLEEDLMHLDMTQDEINQLPLCSRLPELGTPAQIWGYLYVMEGSTLGGQVITKQLMKFLPVSPESGIRYFHAYGQETKPRWTEFREALLSNGLNDSDEIIDSAKETFRLLDAWIRDSA				NA	NA	NA	NA	NA
AK002_02727	2289	metE	COG0620	5-methyltetrahydropteroyltriglutamate--homocysteine methyltransferase	ATGGCAAAAAGCAGTGTACTGGGATATCCGCGTATTGGCGCTGATCGGGAATGGAAGAAAGCTTTAGAAGCGTTCTGGGCGGGCAAGCTCGAAGAATCAGAGTTTCACAAGCAACTGCAGGAGATTCGGTTGAATCATTTGCGCAAGCAGCAAGAGAGCGGAATTGATCTGATCGCCGTCAATGATTTTAGTTATTACGATCATATCCTGGACACGGCCACCATGTTCGGCATCGTACCCAAGCGGTTCCCATATGAGGGCGGCATTGTTCCATTGTCTGTATACTATGGGATTGCACGCGGCACGAAGGATGCTACAGCAAGTGAAATGACCAAGTGGTTTAACACCAATTATCACTACATCGTGCCGGAATTGGACGGAGCTGTTCCTGTTCTTACCGAGAATAGGCCGCTTGCAGCCTATCGGGAGGCCAAAGAAAAGCTCGGCATTGAAGGCAAGCCGGTCATTGTCGGTCCGCTCACCTTCCTGAAGCTGTCCAAAGGCTACCAAGCCTCGGAAACGGATGCCTGGCTTGATAAATTGCTGCCGCTGTACGTTCAGATCCTTCAGGAGCTTGCACACGAAGGCGTTCAATGGGTACAGATCGACGAGCCGATCCTGGTTACGAAATTAAGCGAAGCCGATCTGAAGCGATTAGCCACCATCTATGAAACGTTTGCGGCTTCGGCACCCGGCCTCAACATCATGCTGCAAACCTACTTCGAATCGGTGGAAAACTACCAGGACATCATCCAGCTGCCGGTTAGCGGCATCGGTCTTGACCTGGTCCACGGATACAAAGGCAATCTGCAAGCCATCCAACAATCCGGATTTCCGGCGAACAAAGTTTTGGGGGCTGGAATCATCGACGGACGCGGAATCTGGAAGGCGTCGCTTCGCGAAAAGCTGTCGCAATTGGAGGAGCTGACGAAATACGTGGCAGGCGAGCGCTTGATCGTGCAATCTTCGTGCAGCTTGCTCCATGTACCGGTGACGGTAAGCAAGGAAACCAAATTGCAGCCTGAACTAAAGGGCGCTCTCGCTTTTGCAGACGAGAAGCTGATTGAATTGGATCTGCTGACAAAAGCCATCTCCACGGGAGCTGCCCGTATCGAGAAGGAATTGGAACATAACGATCTTGCGCTTCAGGCGCTTAAGCAGTCGGAAGAGCGTAATCGAATCGACGTTCAGCGAGCTGTAGCCGAGGTTAGCGCTCAGAATCCGGCTCGCAGTCTTCCATTCGCGGATCGTCATGTTGCCCAACAGAACAAGTGGCAGCTGCCCATATTCCCGACGACGACCATCGGCAGCTTCCCGCAGTCAGCCGAGGTGCGCAAGGCTCGCCAGGCGTGGCGCAAGGGGGAGTGGAATAACGAGCAGTACGAGCAATTCATTCAGGAGCAGATCGATATTTGGATCAAGCTTCAGGAAGAGATCGGCCTGGATGTGCTTGTGCACGGCGAGTTTGAAAGAACGGATATGGTGGAGTTTTTCGGTGAGAAGCTTGGAGGATTTGCCTTCACCCAGTTTGGATGGGTGCAATCTTACGGATCCCGCTGCGTGAAGCCTCCTGTTATTTTCGGCGATGTGGCATTCGAGCAGCCGATGACGGTAGAAGAAACGAAATATGCACAGTCGAAGACCAGCCGTCCCGTGAAAGGCATGCTGACCGGGCCGATCACGATCATGAACTGGTCGTTCGTACGCGAGGACATCTCGAGGGAACAGATTGCGTACCAATTGGCTTATGCCCTCAGACAGGAAGTCGAAGCGCTCGAGCAAGCCGGCATCGGGATGATTCAGGTTGACGAGCCCGCAGTTCGCGAAGGGCTGCCGCTGAAGGAAGAAGACCAAGCGGAGTATCTTGCATGGGCTGTCAAAGCCTTCCGCATGACGACCTGCACGGTCCAGCCGACCACGCAAATTCACACGCATATGTGTTATTGCGAGTTCCATGACATGATCGATTCGATCGAGGCGATGGATGCCGACGTCATCTCGATCGAAACCTCCCGCAGCCATGGCGAGCTGATCCATAGCTTCGAGGTGAATACGTATAAGCTTGGGATTGGGCTCGGGGTATACGATATCCACAGTCCGCGGGTGCCTCGCGTGGAAGAGATGACCAGCATGATCGAACGGGCGCTGCGCGTATTGGATCCGAAGCTGTTCTGGATCAATCCGGACTGCGGTCTCAAGACGCGCGGGATGGAAGAAACGGTTGCCTCCCTGCGTAACATGGTTCAAGCCACGGAGATCGCCCGTTCGTCCTACTCGCTGAACGTGTAG	MAKSSVLGYPRIGADREWKKALEAFWAGKLEESEFHKQLQEIRLNHLRKQQESGIDLIAVNDFSYYDHILDTATMFGIVPKRFPYEGGIVPLSVYYGIARGTKDATASEMTKWFNTNYHYIVPELDGAVPVLTENRPLAAYREAKEKLGIEGKPVIVGPLTFLKLSKGYQASETDAWLDKLLPLYVQILQELAHEGVQWVQIDEPILVTKLSEADLKRLATIYETFAASAPGLNIMLQTYFESVENYQDIIQLPVSGIGLDLVHGYKGNLQAIQQSGFPANKVLGAGIIDGRGIWKASLREKLSQLEELTKYVAGERLIVQSSCSLLHVPVTVSKETKLQPELKGALAFADEKLIELDLLTKAISTGAARIEKELEHNDLALQALKQSEERNRIDVQRAVAEVSAQNPARSLPFADRHVAQQNKWQLPIFPTTTIGSFPQSAEVRKARQAWRKGEWNNEQYEQFIQEQIDIWIKLQEEIGLDVLVHGEFERTDMVEFFGEKLGGFAFTQFGWVQSYGSRCVKPPVIFGDVAFEQPMTVEETKYAQSKTSRPVKGMLTGPITIMNWSFVREDISREQIAYQLAYALRQEVEALEQAGIGMIQVDEPAVREGLPLKEEDQAEYLAWAVKAFRMTTCTVQPTTQIHTHMCYCEFHDMIDSIEAMDADVISIETSRSHGELIHSFEVNTYKLGIGLGVYDIHSPRVPRVEEMTSMIERALRVLDPKLFWINPDCGLKTRGMEETVASLRNMVQATEIARSSYSLNV				NA	NA	NA	NA	NA
AK002_02728	1443			hypothetical protein	ATGATTGATCACAAGAAACGCAAAAAATTTCCCATGCTATTCTATGTTCTGCTCATTGCCATCATGTTTATTGTCGGATTCAGATTGGTAGTCAACACAGGTGCATCCACGGTGGAAATGATACCGGCATCTTCCGCCAAACGTGCGGAGTCTTATCAGTCACTTCCTGCCACGACAGATCATCAAGGGACATTTCGTATCGTCATCGACCCAGGTCATGGCGGAAAAGATCCCGGAGCTACCGGCGTCAGCGGCGCTTATGAGAAGGAGTTCAACCTGTCCCTTGCTGTACGGATTGCAGCCCTCCTTGAGGAGGATCCTATGTTCGAGCCTCTCTTGACGCGCACGGATGACCGTTTCATTGAGCTGGAAGAACGGGCAGCCATCGCGAATGATTGGAATGCGGACGCCATGATCTCCATCCATGGCAACACGTATACGGACCCCATGACATCGGGAACCGAAACCTTATACCGGCATGAGGACAGCATTCCTTTGGCCCAAACCCTGCAGGAGCATGTAGTGAAGGCGATCGAGCTGCGTGATCGCGGCGTAAAGGAAGAGCAGTTAAAAGTACTGTCTACGCCGACGATGCCAGCCGTGCTGATCGAAGCGGGGTATCTGACCAATGCCGAGGATGAGCGTTTGCTGCTGAGTGATGACGGACAAGAGCTTGCGGCACAAGCCATAGTGGAAGGGCTCAAAGACTACTTTACGGGCACCGAACGACTTTCGTTTGAGCTGCAAGCAAAGGGGGATTTAGATCAACCGTCCGAATCCCCTCTAAGCGGAACCGGGAACCCATCCATGGAGAAGAAGGTGTACTTTAACGGATCTTCCAGAGACGGAAAACAGGTCGCCCTAACGTTCGATGATGGCCCGGATGCCGTTGTTACGCCCCAAATCCTTGATATTCTAAAGGAGCATGATATTAAAGCTACCTTTTTCATATTAGGAGACCGGGCAAAGAGACATCCTGAGACCGTGCAGCGGATCGCGGAGGAGGGACACACGATAGGGAACCATTCCTGGTCGCATCCCAACTTCAAGGAGTTGACCTTGGAGGAAGCGACGAAGCAGATAACGGATACGCAGGAGGAACTGAACGACATTATCGGTTATCGGCCATCCTTGTTCAGGCCTCCTTACGGCGCTTTGGATGCGGACAAGGAGAAGGCTATACAGAATATGGATTTAGCGGTCGTGAACTGGTCCGTGGATACGATGGATTGGTCAGGGGTGTCCGCGCAGGAGATCATGAGGATCATCGACAAGCAGTTGAAGCCCGGAGGCATCATTCTGCAGCATACCGCAAACGGAAAGAATCAACTTGCCAACACGCTTGAAGCCCTGGAGTTGTTCATACCGGATTTGAAAGACCAAGGCTATTCATTCGTCACCGTACCGGATCTGCTGCATTTGCCTGAATCTCAGCCTGAATGA	MIDHKKRKKFPMLFYVLLIAIMFIVGFRLVVNTGASTVEMIPASSAKRAESYQSLPATTDHQGTFRIVIDPGHGGKDPGATGVSGAYEKEFNLSLAVRIAALLEEDPMFEPLLTRTDDRFIELEERAAIANDWNADAMISIHGNTYTDPMTSGTETLYRHEDSIPLAQTLQEHVVKAIELRDRGVKEEQLKVLSTPTMPAVLIEAGYLTNAEDERLLLSDDGQELAAQAIVEGLKDYFTGTERLSFELQAKGDLDQPSESPLSGTGNPSMEKKVYFNGSSRDGKQVALTFDDGPDAVVTPQILDILKEHDIKATFFILGDRAKRHPETVQRIAEEGHTIGNHSWSHPNFKELTLEEATKQITDTQEELNDIIGYRPSLFRPPYGALDADKEKAIQNMDLAVVNWSVDTMDWSGVSAQEIMRIIDKQLKPGGIILQHTANGKNQLANTLEALELFIPDLKDQGYSFVTVPDLLHLPESQPE	PGPT0018645_373	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_02729	699	regX3_2	COG0745	Sensory transduction protein regX3	ATGACAAAAACGAAAATTCTCATTATCGAAGACGAGGAGCCGATCGCCGATCTGCTGGCTTATGGCCTCGCGATGGAGGGTTTTGAAACCCGTACCGCGTCCAGCGGTGCCGCAGGCTTTAGGGAGCTTGCGGCATTTCATCCCGATCTGCTGCTTCTGGATTGGATGCTGCCCGACCAAAGCGGGCTCGATATATGCAAAAAAGTAACAACGGACTATAACATCCCCATATTCATGATTACGGCAAAATCCGACATTACGGATAAAGTGCTCGGGCTTGAATTTGGTGCCGATGACTATATTACGAAGCCCTTCGATCTGAGGGAGGTGGTCGCCCGAATTCGCACGATCCTCCGGCGGCTGGATCAGGCGAACCAGGGGGATAGGGAAGGGGCGCCGGAAGCCGTGATCCGCTTTAAGGGCATCGAGATCGTAACGGAAGAGCGACTGGTCAGGAAAGACGGAAGCCCGGTTGATCTTACGCCGAAGGAATTCGACCTGCTCATGACCATGTACGGTCACCGGGGGAAGATTTATACCCGCTCGGAACTGCTGGATTTAGTCTGGGGTTATGATTTCATGGGGGATACGCGGACGGTGGATACGCATATTCAGAGGCTCCGCAAAAAATTGGATGCCGGCGATCTGATCACAACCGTATTCGGCATCGGGTATAAGTTCGAGAAGCAGGTGGAATAA	MTKTKILIIEDEEPIADLLAYGLAMEGFETRTASSGAAGFRELAAFHPDLLLLDWMLPDQSGLDICKKVTTDYNIPIFMITAKSDITDKVLGLEFGADDYITKPFDLREVVARIRTILRRLDQANQGDREGAPEAVIRFKGIEIVTEERLVRKDGSPVDLTPKEFDLLMTMYGHRGKIYTRSELLDLVWGYDFMGDTRTVDTHIQRLRKKLDAGDLITTVFGIGYKFEKQVE	PGPT0002665_1029	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_02730	1458	sasA_8		Adaptive-response sensory-kinase SasA	ATGATCCGGACCATCAGAGCCAAGTTTATTGTTGGTTTTTTTGTGATCTTCAGTCTGTCGTTCCTCGTACTTAATCAAACCGTCAAGGAGATCATTCGGACAAGCAATCAGAAGATCGTAACTTCCGATCTGGTCGGACTTAAAAACAACAGCAATGTATATGTAAGGCAAGCTTTCCTTATCAATCATTTTACGAACAATAAGCTATATTTCGGGCAGATGGCCGAGGAAATGGTAAATGATTTGAAACATGCTACCTCTAGCCATGTCAGCGCGTACACCGTCGACGGCAAGTTATTGTTCTCATCGGACGAGAAAAGATTCTCGGGACCCTCGGATGCGGATCTTCGCCAAGCGATCGAGGGAAAGACGGCCTATACCATCACCTATGGCCGAAACAGCGGAACCGTTCTCTATTCATATCCGGTTATCATCGACGGAGTCAAGGTCGGCATATTGAGGTTTACTAAGGATTTTACCCTTCTCTACGAACAAAGCGGCCGAATCATGGACATTATTTTTTACATTGCGCTTGCCATATTCGGAGCAGCGTTCCTGTTCTCGTACTTGCTGTCCAGGAATATTACCATACCGTTAGTGAAGCTTACCCGCGCTTCCACTGAAGTAAAGAACGGGAACCTGGATGTTCGAATCCGATTCCGGCGAAGAGATGAAATCGGCGAACTGGCTCTGAATTTCAATGACATGATCGATCGGATCGGTAGCCAGATATCCACGATTGAGCGTGATCGGGATCGCTTGAAGGAGCTTAATGCGCAAGAGAAACGTTTTTTTGACAATGTGACCCATGAACTCAAAACGCCGCTCACCTCCATTCTGGGTTATGCCGAGATCATTCGGGAGAAAGGGGATGACGATCGGGAGTTCTTCGATAAGGGCATGAATCACATCGTTGAAGAGAGCCGACGTCTGCATGGCATGGTGCTAAGGCTGCTGGAAGTATCGCAGCACAACCCTGGTGAAGAGGATGTAGAGCTTGTGGATTCGGGTAAAATTTTGCGCGATGTAGTTGATTCCATGTCGTTCCGGGCGAAGCGCTATAAAAAGAGCATCATTTGCGAGGCAGAGGAAGGGTCCTTCGTGCTTGGCCAGCCAGACCGGTTGCGCCAGCTCTTTATCAATCTTCTGGATAATGCCATCAAATACAGTGCTGCCCAATCGGAAATTACCGTCAAGGCTGAGCGTGCGGACGGAAGCGTTCGTTATACCTTCGATAATCCCGGAGAACCCATACCGGCGGACGAGCTTGCAAACGTCTTTCAGCCGTTCTACTCGGTGAGCCAGAAGCAGAAGGAAGAGGGCAGTGTGGGTCTGGGCCTCAGTATCGTTAAATCCATCGTCGATGATCACGGCGGAACCATCCGTATCATCAGCGAGAATTTTCATACTGTCGTCTACGTTGAAATTCCTTATGTAAAGGCGGAGGCTGTCCAATGA	MIRTIRAKFIVGFFVIFSLSFLVLNQTVKEIIRTSNQKIVTSDLVGLKNNSNVYVRQAFLINHFTNNKLYFGQMAEEMVNDLKHATSSHVSAYTVDGKLLFSSDEKRFSGPSDADLRQAIEGKTAYTITYGRNSGTVLYSYPVIIDGVKVGILRFTKDFTLLYEQSGRIMDIIFYIALAIFGAAFLFSYLLSRNITIPLVKLTRASTEVKNGNLDVRIRFRRRDEIGELALNFNDMIDRIGSQISTIERDRDRLKELNAQEKRFFDNVTHELKTPLTSILGYAEIIREKGDDDREFFDKGMNHIVEESRRLHGMVLRLLEVSQHNPGEEDVELVDSGKILRDVVDSMSFRAKRYKKSIICEAEEGSFVLGQPDRLRQLFINLLDNAIKYSAAQSEITVKAERADGSVRYTFDNPGEPIPADELANVFQPFYSVSQKQKEEGSVGLGLSIVKSIVDDHGGTIRIISENFHTVVYVEIPYVKAEAVQ				NA	NA	NA	NA	NA
AK002_02731	1140			hypothetical protein	ATGAGATATCGATATAAAGGGCTTGTTTTATGCATTGCTATTGCCTTAATTATACTGACAGGCTGTTCAAGCGGACTGCAATCAGAGACCATCATTATCCCCGGCGCGGAACCGGAACAAGCCGTGGACGAGGGAAGCCGGCCTTTCCAAGTGAGGACGATTTATCGAATGCCAGAATCCAAGGAACAAGGTGAATTGCTCGGCTGGTCATCATCCGAGTCGGTGATCGGTCTTTTTTATGTAACCGAAGCAGTAAATGCGGCGAAATTGAGCTTGCAGCGTTTTTCCCCCCCGTACGAGCGAGCCGACCATTTGTTAGAGATTGAAATGAAAAAGTTCTCGTATCAATTGTCCCCCAATGGAAAATATGTTTCAGGAATTGCCAAAACGGAGGAGGGCGTTTTTCTGCAATTGACAGCATATCCGGGCGGGGAGGTGGAAAGCCTCGAAGCTACGACAGAAGCCAATCAGGAGCTATGGTTTGAGGAACCGGCTTGGTCCGGCAACAGCCGGTTCGTAAGCTATATGGTGATGGAATCAAACAAAAGGCAGTCCAGTATCGGGATTTATGATACGCAAGCGGAATCGGCACGCGTTTATCGGTTGAAGGGTCTTGAAACGGAAGCCCTTCCCTTGAAAGTGATTGTCTCGGATGACGGGAAGATGGTGCTCATCGTTCTGGATGAATACGGTCACGGTCGTCGAATTGCTATGGGAGCCGTCAACGGCAATACGATTGATGTTCAGTATGAGCATGAAATCGGGGCAGACCAAGCCGCATGGTTGAACGATGACCAATTCGTTTTTTTAGGAACGGAGGGAACCTTGTACGTATATGACCGCAGAAATCACGAGCTGTCCATTCTGCTGGAGAAGGTGGACAGCTTTGAGTTCTCGCAGGATCGCAAATATGTCGCCTATTCCCAGAACGGGGAGGATACGATTTATGCAGGTAAGCTTCAAGGGAAGAATGTGCTGAGCGCAGAGCCCATCTATCATGGGGTCATACCTTCTAAGATGTATTGGAGTCCGGACCATCGCCGGCTGCTCGTGAACGGCCGCAAAAATTATTCCAAAGAGAAGGGGCCGGTTGCGATCGAACCCACGGATCAACAGCCATTTATAATCGAGTTCAAGTAA	MRYRYKGLVLCIAIALIILTGCSSGLQSETIIIPGAEPEQAVDEGSRPFQVRTIYRMPESKEQGELLGWSSSESVIGLFYVTEAVNAAKLSLQRFSPPYERADHLLEIEMKKFSYQLSPNGKYVSGIAKTEEGVFLQLTAYPGGEVESLEATTEANQELWFEEPAWSGNSRFVSYMVMESNKRQSSIGIYDTQAESARVYRLKGLETEALPLKVIVSDDGKMVLIVLDEYGHGRRIAMGAVNGNTIDVQYEHEIGADQAAWLNDDQFVFLGTEGTLYVYDRRNHELSILLEKVDSFEFSQDRKYVAYSQNGEDTIYAGKLQGKNVLSAEPIYHGVIPSKMYWSPDHRRLLVNGRKNYSKEKGPVAIEPTDQQPFIIEFK				NA	NA	NA	NA	NA
AK002_02732	453			hypothetical protein	ATGAGTGACAGGTCATGGCGTGTTTTTTTTTCAATCGTGGCGTTGATCATATTGTCGGGAGCGGTCTTTTCATTGGTTCAATCCAGAACGACCTACAAGGAGTTGATGGGCAATCAGATCCATGACACGCAGAAGATAGATAAAATTATCATTGAGAGAAGGGGCAGTTCTTACGATGAGGAGCGACTAAGCATTTCCGATCCGGCAACCATTGAACGGATCCTGAGCAGCTTCTCCGATGCGAAGTTACAAAGGATCGACCAATATCCAGGGGGGACGGATTACTGGATCTGGATTGATGTCGAATACAAGCACTATCTAATCCATTATACGGAACCGGATATCGTCCGGATTTCTCCGTATAGAGGCATACATAAGAAATATTCATGGACCTACAGGATCACCAATGGCTATGATAAGTCGATCATTCAAGATCTCTTTAAGGAAGAGTAA	MSDRSWRVFFSIVALIILSGAVFSLVQSRTTYKELMGNQIHDTQKIDKIIIERRGSSYDEERLSISDPATIERILSSFSDAKLQRIDQYPGGTDYWIWIDVEYKHYLIHYTEPDIVRISPYRGIHKKYSWTYRITNGYDKSIIQDLFKEE				NA	NA	NA	NA	NA
AK002_02733	888			hypothetical protein	ATGAAGCTAACCGAACAAAATTTGAGCAAAATGCAGAATATCATCAAGGAGCATCAATTCGAACATGCCGCAGAGTATTTAATCGAGCATACGCGGCAAGGCGTACGATTATCCAAAAAGAAGCTGGAGGACTATGCCAAGTCAAACAACTCGCGCTTTGGAGGTGACCCGGATCTTCCCGAAGAGGTGGAGTGGCCCCTCAATTCGGAGGGAACACCGATGACGTTTCTGGCACAGCTGCAGTTGAAGGATGTGGCAGTCCAGGACGCCACTAGCTCGCTGCCGACAAGCGGAATGCTGTATTTCTTCGTTGGCGTGGATGAACCCGCCTATAACATTGAGCACCGTGTGCTCTATCTACCCGAGGGTCAGAGTTCGGGAGCGGTTCGCCGACGCGCTCCCGAGGAAACCGCGTTAGATGAGGTGTTCACCGGCTACCGTGTGGAAGCCCGAGCCACGCTGGAGCCGCCTAATTACGGCTATGTGGATGATGAGCTCATCGAGGATGACGAGCATGATTATGAATCATACGAGGAGCTGTGCTTCCAATTGACGGGCCTCGATTCCGGCGACGTCGGGACCATCTTTGGCTACCCTTCTACCCAGCACGGCGATTGCGAGTTTGAGGCTGCGCTCATGCTGTTAACCGGTTCGGAGTACAATTACTCTATGGATGCAGCCATGCAGCAGATCACCAAGCATTGCGGCGGCAGCGCGGAACGCGCGCAGCAGGAAATTCAGGATACGGTGCTGCTGCTGGCTGTCGATTCGGACGACGATGTCGGTTTTTGCTGGTGGGATGCGGGGGAACTGCAATTTTTCATTCGAAAGGAAGATCTGCTGGCCAACAATTTCGAGCGTACGTATTGTTCCCTGTACTCAAGCTGA	MKLTEQNLSKMQNIIKEHQFEHAAEYLIEHTRQGVRLSKKKLEDYAKSNNSRFGGDPDLPEEVEWPLNSEGTPMTFLAQLQLKDVAVQDATSSLPTSGMLYFFVGVDEPAYNIEHRVLYLPEGQSSGAVRRRAPEETALDEVFTGYRVEARATLEPPNYGYVDDELIEDDEHDYESYEELCFQLTGLDSGDVGTIFGYPSTQHGDCEFEAALMLLTGSEYNYSMDAAMQQITKHCGGSAERAQQEIQDTVLLLAVDSDDDVGFCWWDAGELQFFIRKEDLLANNFERTYCSLYSS				NA	NA	NA	NA	NA
AK002_02734	732	COQ5_3		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAAGGAGAAGGTTTTGAAGGCATACGACAAGCTGGCTGGGGACTACGAACGGCATGTGGATTCGCAGAGCGGGCACAATGCCTTTTACGAGAGGCCGGCCATGCTCCGGATGCTGCCGAAGAACATGGAGCGGATGACCGTATTGGATGCCGGATGTGCCGCCGGGTGGTATACGGAGCAATTGATTCAACGGGGGGCTAGGGTAACGGCGATCGATCTGAGCCCGTCGATGATTGAAGCCTGCAAAAGGCGAGTGGGCAGTGAAGCGACCATCGCTGCATTCGATCTGACTGAGGCCCTGCCATTTGCAGATGAAGCTTTCGATTACATCGTAAGTTCATTGACGCTTCATTACATTGAGGAGTGGCTGCCAACCTTTCGCGAATTTCAGCGGGTGCTGAAACCAGGAGGCAGCTTGATTTTCTCCGTGCATCATCCCTTTATGGATTTTAAGCATTTTGACCGGCAAGACTACTTTGCACGAGAGCTGCTGACGGAGATTTGGAACAAACCGGAGTCCGGACCCGTCGAGGTCGCTTTCTATAGAAGACCGATGCAAGAAATCATCAACGTGACTTCCTCCTGTTTTAGCATCGAAGAGATTGTCGAGCCGCAGCCGAGCTTAGAGTTTAAAGACAAGCCGGAGGCGGAGGCCTGGATGGCAAAATGGTATGATCGATTAATGACGAATCCTCATTTCTTGATCGTGAAAGCCCGAAATTCAAAATAG	MKEKVLKAYDKLAGDYERHVDSQSGHNAFYERPAMLRMLPKNMERMTVLDAGCAAGWYTEQLIQRGARVTAIDLSPSMIEACKRRVGSEATIAAFDLTEALPFADEAFDYIVSSLTLHYIEEWLPTFREFQRVLKPGGSLIFSVHHPFMDFKHFDRQDYFARELLTEIWNKPESGPVEVAFYRRPMQEIINVTSSCFSIEEIVEPQPSLEFKDKPEAEAWMAKWYDRLMTNPHFLIVKARNSK				NA	NA	NA	NA	NA
AK002_02735	1620			hypothetical protein	ATGGGAACACCTTACTCCGCTGTTATTACGCTGATCGTCACGGCAGGCGTATTGAACATTATCATGGGTCTTTACGTGCTGTCAGGACGCTCGAAGCTTGCAACGGTAAAAACCTTCTTCATCTTCAGCATGCTGGCCGCGATTTATACATTCGGTGCTGCACTCGAATTGTCCAGCCGTTCGCTTCAAGAGATTCAGTTCTGGATCAAGTTTGAATATCTAGGGATGCCGTTCTTGCCGCCCCTTAATTTATTGATCATTCTGACTTATTTGGGCATGGAACGATATTTGAGACCCGGCCTGCTGATTTCAATGTTTGTCATACCGGTCGTAACCCTGCTGCTTGTTATGACCAACGAACTACATCATCTATATTATCGGGATATTCTATTACGGCCGGACGTTTCCGCTTTGAAGGTGGATATCGTAGCCGGACCCTGGTATATCATTCAGGGCGCCTACACTTTCGCCTGCTTGATAGGCGGGGTCGTACTGCTGCTTCGCAGCTGGCGCAAGATGCCATCCTACCGCTTTCAGCTGGGCACGATGCTGGTTGGTCTTGTCCTGCCCCTTATCGGCGATTTTCTCTATCTTGGCGGACTCACGCCCGATGGTATGGACCCGATCCCCGTCATCATGACGTTGACCTCGGCCCTTTATCTCTGGGCATTGACATCCAAGGGTTTGTTTCATGTGGCGCCGATAGCGAGGGATAATCTCTTTTCGAGCATGCGGGAGGGCGTCCTCGTATTGGATCTGGACAACCGTTTGGTTGACTTCAATCCGGCTGCGGCAACCATGATGCCGGAGCTGAGCCCTTCGGCCATTGGAGAACCGTTACATGAGATGTGGCAGCTTCACACCGCAGAGCCCATTTTCGGTATGGGGGAACGGGAAGGTCCGGATAAGGGAGAAGCGGACATTGAAGAGATTCGCTGGCAATTAGGAAATCATTCGCTTCATTATCAGATCAGGTCTTCTACCGTTCGCAACCAGAGAGGGCGAGAGGCTGGACGATTAATCGTCCTGATCGACGTAACCGATAAGGCGCGTCTTCAAGAAGAGCTGCGGCAGATGGCCTACTACGATGGTTTGACTCGAATCTATAACCGCTCGCACTTTATGAAACTCAGTTACGCCCTTCTGAATCAGGCGGTTCGGAATCGTGAGCCACTCGCTTTCCTGCTGTTCGATATCGACCATTTCAAACGGATCAACGATGTTTACGGCCACGATATTGGCGACCAAGCCCTGCAGCACATCGTCGAATTAACGCGGAAGACACTGCGGGCTGAGGACCTGTTCGCCCGTTATGGCGGCGAAGAGTTCGCCGTTGCCATGCCCGGTCACTCGACTTCGGAGGCAACAGCAGCTGCGGAGCGGATCCGTGCCAAGCTGCTCGCGCAGCCGATGACTACGCCGCAAGGACCGCTGATGATTACAGCCAGCTTCGGCGTTGCCGCGGTGAAGACAAGCTCACATAACGGCACAGTCGATGCGGAAGCAGAAGAAGCTTGGTGGGATACTGAATTAAAGAAGGTATTAAAGCAGGCGGATCGCTCGCTATACGAAGCCAAACGCTCCGGTCGTAACACGATTCGGGTGTCGGATGAGGAGTAA	MGTPYSAVITLIVTAGVLNIIMGLYVLSGRSKLATVKTFFIFSMLAAIYTFGAALELSSRSLQEIQFWIKFEYLGMPFLPPLNLLIILTYLGMERYLRPGLLISMFVIPVVTLLLVMTNELHHLYYRDILLRPDVSALKVDIVAGPWYIIQGAYTFACLIGGVVLLLRSWRKMPSYRFQLGTMLVGLVLPLIGDFLYLGGLTPDGMDPIPVIMTLTSALYLWALTSKGLFHVAPIARDNLFSSMREGVLVLDLDNRLVDFNPAAATMMPELSPSAIGEPLHEMWQLHTAEPIFGMGEREGPDKGEADIEEIRWQLGNHSLHYQIRSSTVRNQRGREAGRLIVLIDVTDKARLQEELRQMAYYDGLTRIYNRSHFMKLSYALLNQAVRNREPLAFLLFDIDHFKRINDVYGHDIGDQALQHIVELTRKTLRAEDLFARYGGEEFAVAMPGHSTSEATAAAERIRAKLLAQPMTTPQGPLMITASFGVAAVKTSSHNGTVDAEAEEAWWDTELKKVLKQADRSLYEAKRSGRNTIRVSDEE				NA	NA	NA	NA	NA
AK002_02736	339			hypothetical protein	ATGTTATGGAATGAAATCACGACACTGGAAGAATGGGACCACATTCTGAAAAAATCCTCCGAACGCGGTCAAGTCATTTTGAAGCACAGCACGACATGCCCGGTTAGCGCCAACGCTTTGGCAGAGTTTGAATCTTATTTGAAAAAGACGCCAAACGGCGATGTGGATTACACCTTGGTCAAAGTCATCGAATCCCGTCCGGTTTCCAATAAAATCGCCGAGGATTTGAACGTGAAGCATGAATCGCCGCAAATCATCTACGTGAAGGACCAAGCGAAGTACTGGACGGCTTCCCATTGGGCGGTAACAACGGAGCACATCACAGCCGTTCTGGACTGA	MLWNEITTLEEWDHILKKSSERGQVILKHSTTCPVSANALAEFESYLKKTPNGDVDYTLVKVIESRPVSNKIAEDLNVKHESPQIIYVKDQAKYWTASHWAVTTEHITAVLD	PGPT0015028_92	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015028-ytxJ-NA	NA	NA
AK002_02737	333			hypothetical protein	ATGAAAGATCTGGAAGAACTGACATCCATCGAGGCGATCGAACGATTTATTGAAGATCACACCTTCAGTTTTGTATATGTATCCCGGGAAGATTGCAGCGTATGCCATGCGATACTACCCAAACTTAGAGAACTGTTAACCCAGTTCCCGCGTATCTCGCTGGGCCGTATCCAGGCCGAAGCGGTAGGGGAAATCGCCTCGAAATTTTTGATATTCACCGCACCAGCGCTCCTCCTATTCGTAGAGGGCAAAGAGCTTGTAAGGGAAGATCGATTCGTACAGTTCGGGGAGTTAGAGCGAAAATTAAACCAAATCATGAATTTCGTTAACTAG	MKDLEELTSIEAIERFIEDHTFSFVYVSREDCSVCHAILPKLRELLTQFPRISLGRIQAEAVGEIASKFLIFTAPALLLFVEGKELVREDRFVQFGELERKLNQIMNFVN	PGPT0013055_11501	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK002_02738	1773			hypothetical protein	GTGAGTAAGCCAAAAACGTTCTCTAAAGGAATGCGTTTCAAAAACCTTAGCATTGTTACAAGAAACATGATATGGACGAGTCTCTATATCATGATCACGGGCGCCATCGTCATTGGTGCAAGCTTTTATATCCAGGACAATGTGCTGACCAAGCAGCTGCAATCCGATTCGGGGAAAATCATGGATACTTTGGTCAAGTCCGTATCCGTTCAAGATGCTGAAGCGGTTAAAGGTTCCACCGACCGGAATTCGGACATCCAGAAGAAGCTAACCGGCACGTTTGATGAGCTGTCCGTTACGTATCCTAACATCGCGCAAGGATATATTTTTGGACCTGAGCTGGAGGACGGCAACAAGACCTCGATTATCGCTATGCCTACGGCGGTGCTCGACATGTTTGCCGAAGAGAATTTGAATCTGGGCGACTTATACGAACAGCCGAAGATTCATGCCGACGCGGTCCGTGAAATGATGAAAACGAAAAAAATCGTCTATACCAAAGCGTATACAGACAATTACGGGACGTGGATCACCGTGCTGCATCCCTTCCAGAATTCGAACGGAGAAATTTTCGCTTACATGGGCATCGACGTGGATGCCAGCTTGATCGCCTCCGGGAAGCAGGAATTGCTCACCAACACGCTTTTTGCGCTGTTGATCACCCTGCTGATCGTATTGGCCCTGCAGTACTTCACGATTAGACGCACATTCGCCCCGATTCAGGCTTTAATGGGAGCGCTGGACAAGCTGAGCAAAGGCGATTTCACGGTCCAGTTAAAAGCAGGCGATGATGAACTCGGGCAGGTCAATGCCAAGTTCAATACGACGGTGAATCATATCAATGAGCTTGTTACCACAATCAAATCGGTATCGGAGCAATCTGCTGAGCAGTCCAAGTTCCTCTTCTCGGCCGTGGAAGTCAACAATAACAATTCTTCGGCGATTACCAAGAACATGGAGGAAATGTCCGAACGGGTCGCTGTGCAGAGCACTTCCATTACGGAAAGCGTGGTTTCGCTTGAGGAAATCTCATCCGGCGTATCGACGATTGCCGGCAATACATCGGATTTATCCGAAATATCCATCCAGATGAAGGCGCAGTCGGAACGGGGGAACCACAATGTGGAACAGGTGATTGAGCAGATGAATTCGATTGATCATTCGGTCAAAAATTCGGTGCATATCATCGAAAAGCTGCAGAACCGCTCCCATGAGATCGGACAGATCGTACAGGTTATTACCGAAATCGCTTCTCAGACGAATTTGTTATCGCTCAATGCAGGAATCGAGGCGGCCAGAGCGGGCGAAGAGGGCCGAGGTTTTGCCGTCGTTGCCAGCGAAGTGAAGAAGCTCTCGGAGGAATCGAGAAAATCGGCAGACCAAATCATTGAATTGGTTCGTTACATCCAGGATGAGACGGCATCCGCGGTAGAAGCCATCAGCGAAGGCGAACACAACGTCGTCAAGGGGATGGAGGTTGTCAAAGAAACCGGTGAGCTGTTCAAAGGCATGCTGGTGGCCACGGATACGGTAACCAGCCAAATTCAAGAGGTGTCTGCAGCAACCCAGCAGATGGTGGCCGAGACCGAACAGATCACCGCTGCGATTAAACAACTGGCTGAGCTCGCAGAGAAGAACTCTACCGTGTCGGGCGAGATCCGGATCAGTGCCCAGGAGCAGCAGGCTTCCTTCGCCAAAATCTTCGAATCTGCCGAGCAGATCAATCAGGTGTCCGCCGAACTGGAGGCCCTCGTAAACAGACTGCGAGTGTAA	MSKPKTFSKGMRFKNLSIVTRNMIWTSLYIMITGAIVIGASFYIQDNVLTKQLQSDSGKIMDTLVKSVSVQDAEAVKGSTDRNSDIQKKLTGTFDELSVTYPNIAQGYIFGPELEDGNKTSIIAMPTAVLDMFAEENLNLGDLYEQPKIHADAVREMMKTKKIVYTKAYTDNYGTWITVLHPFQNSNGEIFAYMGIDVDASLIASGKQELLTNTLFALLITLLIVLALQYFTIRRTFAPIQALMGALDKLSKGDFTVQLKAGDDELGQVNAKFNTTVNHINELVTTIKSVSEQSAEQSKFLFSAVEVNNNNSSAITKNMEEMSERVAVQSTSITESVVSLEEISSGVSTIAGNTSDLSEISIQMKAQSERGNHNVEQVIEQMNSIDHSVKNSVHIIEKLQNRSHEIGQIVQVITEIASQTNLLSLNAGIEAARAGEEGRGFAVVASEVKKLSEESRKSADQIIELVRYIQDETASAVEAISEGEHNVVKGMEVVKETGELFKGMLVATDTVTSQIQEVSAATQQMVAETEQITAAIKQLAELAEKNSTVSGEIRISAQEQQASFAKIFESAEQINQVSAELEALVNRLRV	PGPT0015710_13945	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_02739	3729	lgrD		Linear gramicidin synthase subunit D	TTGAATACTACGTTGATGATCGAACAAGGCAAAGAATATTGGTTGAATGAACTGCAGCTACCTTTACCGGGATTCTATCTGTACACCGATGGTCCAGCGCATCTTCAGCATCAAGATTTCGATCGCATGGCGATTCCCCTTCGTATCGAAACCGGTAAAATCCAGCGGTTCCGCGAAGCGTATAACATCAAGCCATGGATGCTGACAAGCTATGCGGTGTTTCTGTACCGCATGACGCACGATTCGGATTTGCTGATCGGCGTGAACAATGAGAAGGGCAATCTGCTTCCGCTAAGAGTGAGCATAAGCGAAAATGATTCATTCGCACGTTTGTATGAGCAAATTTCCGACAAGATGGAACAGATTGAAGCAAGCAGCCTTTCCCTTTCTGACATCGAAGGTTTTATCGGTCAGCCGCTCCATCTGCGGACGATTTACGGCCGGAACGGCAACGGCTATGCCTACGGTGAAAGCGGGCTGAACTGGGTGGTTCAGGAGGAGGAAAGGGATCAATGGACACTTTATGTTTCCTATGCCCAGCCATTGTTCAAAGAAGAAACGATTGAAAAATTCAGCAGGCACTTCGAGCTGCTTGCGGCAGCCGCTCTTGAGCATCAGGAGATGCCGGTTAGCCGTCTGCCTATGCTGACGGAAGAGGACCGGAATGCCTATGCAATCCTTAACGACACGAAGATGGAGCTTCCGGAAGATCCGACGCTTGTGGCGATGTTCGCTGCGGTTGTGGAGAAATATCCGAAGCGAATCGCATTATCTTCCGGCCAGGAGCAGATCACGTACGAACAGCTTGACAGGCAGTCGAACCAAATTTCCCATATGCTCATAGACAAGGGGCTGCGCAAAGGCCAGTTCGTCTCGATATTTATGAAGAGAAGCCTCGATACGATTATCAGCATGCTCGGCGTCCTCAAAGCCGGGGGAGCCTATATCCCGCTGGATCCTTCCCATCCGGAGGAACGAAATGCTTATATTATCGAGGACACGGCATCAAACATCATTCTGACGCATCCGGATTTCACGGCGAAACTGAATGGACTATTGGACCAAGTTCAAACCAAGCCGGAATATTTCTGTCTCGATGACCATGTCTATTCCTATCCGGCAGAAGCTTGCGGCGTGGGCGTGACAGGCGATGATCTGGCCTACATTATTTATACGTCCGGTTCTACAGGCAAACCGAAGGGCGCATTGATCGCCCATCAAGGCGTCGTGAATCTGGCACTGGCCAATCGGAAGAATTTGCAGATGAGTGAACAGGATATTATTCTTCAATATTCCACCTTCAGCTTTGATGCTTCCGTTTACGATATTTTCGGCTCACTGGCTTGCGGCTCTCGACTCCATCTCCTATCGGATGAGCAGCGCTTCTCCATAGACGCCTTTACGGAAGCGGTGGCAGACACCAACGCGACGCGCGTCGCAATATTGCCTACGGTGTTCTTCAATCAATTGGCAGCGTATTTGCCGATGGAGGACACACACAAATACCGTAACATTAAAACGATCGTGGTCGGAGGGGAAGCTTTGGCGGGAGAAACCGTTCGCATGTTCCGGAAGAAGCTTCCGATTCCAATCGTGAACCTTTACGGCCCTACCGAAACGACCGTCGTGGCAACAGGACATGTCGTGGATTATCCGATTTCGGAGGATCTGGCCACCGTGTATATCGGTACGCCTTTTGCCAACTATGAATTGTATATTGTAAACGAACATGATGAATTATGTCCGACTTGCGTAACGGGGGAATTGCTCATCTGCTCGGTAGGCGTAGCCAAGGGATATTTGAATCAGCCCGAGAAGACCAAGGAAGCCTTCATTCTGGATCCGATAACGCCCGAATCAGGCAAACAGTACTACCGTTCGGGCGACTTGGTGCGGTTGCTGCCGAACGGGCAGGTGGAATACCGGGGAAGAAAAGATTCACAGGTGAAAATCAGAGGCTTCCGGATTGAGATCGGGGAGATCGAGGACAATCTGGCAAAGCATGAATGCGTGAAGGATATCGCAGTCATTCCGAGAACGGATGAGGACGGAAGCAAAATGCTGGCGGCATTCTACACGTCCCATGACGGACAGGCCGCCCCCGCCAAGGAATTGGTACATTTCTTAAGCCGGAAAGTGCCGAGTTACATGGTTCCTAAATACATCTGTTTCGTGGAAGAAATGCCGTTGTCCCCGACGGGTAAAATAGACCGCAAGAAGCTGGCTATATACGACCTGTCGATGGAGGCGGAAGAGGATAACTCCCCATACGAAGCCCCGGTTAACGATACCCAACGGGATATCGCCGCAGCCTGGGAAAAAGCGTTGGGACAAACCCAAATCGGCATTCACGACGATTTCTTCGATATCGGCGGCTATTCGCTGAAAATCCTGGAGATTCTGGTCCTCCTTAAGCCTCGATATCCGCAGTTGAAGATCAATGATTTCTTTGTATTTCCAACCATAGCGAAACTAGCGGAGAGAGTTGCGGAATTAGGCAGCCAGGATATCCTCGTCGATCCATTGGTTGAACGGGATCTACCGATTCAGGATTTGGCGGAGTATCCGATTTCTTTCCCTATCAATCATGCTTCGGAACAAGCGGTGTATACCCAGCAGCATATTTTGCTAACCGGCGCAACGGGGTATTTGGGATCTCATTTGCTGCACGAACTGCTGTATCAATCCACCGCAACCGTATATTGCCTGGTTCGGCCGTCAAAGCTGATGGAGCCGTATGTCCGCCTGGAGCAGGTCATGACGGGATATTTTGGCGAAGACATCAAGTCTCGAATGGACAAGCGGGTGATCGCGATTCAGGGCGACTTGGAGCAGGAGTCTCTGGGGCTTGGGTCCGAAGACCTTGCCCTGATTGAAGAGCGCATCGATTCCATCATCCATTGCGGAGCCGAGGTGAAGCATTTCGGGGATGCCGGCTATTTTGCCCGAGTTAATGTTGAGAGCACGGACAGATTACTAGCTTTGGCCCAAAAGAAACCTAATACCCGCTTCCATTTTATATCTACGCTTGGCATTCCGGAGGACCTGGCGCTGGGCGGCCAATGGGAGGCGATCGTTGCCGGAGCGGGCTACGAGGAGTCTTCCATCGAGAATGTCTATACGAACAGCAAGCTGGAGGCCGAGAAGGTGGTCATCAAAGCCGGTAAAGAACGAGGCATTCCGGCAGCGGTATACCGGGTCGGCAATTTGTCCTGTCACTCCGAGAACGGAAGATTTCAGAAGAACATAGACAACAACGCGTTTTATCGCATGCTGAAAGCGATGGTGCTGTTGAAGAAAGCGCCAAGCGTGAAGTGGCAAGTGGATATTACGCCGATTAACTATGCGGGGGAAGCGATTGCTGCGCTGCTGCTTCAGCAAGAGACCGTCGGCCGAGTATTCCATATCTGCAATCCGGTTGCCATTCCTTACGAGGATATGGTGGAGCACTTTAAAGATTATGGATATGACATTTCCTTGATGGACTGGAAGGAATACGAGGCATGGTTATTGGATCCGCAGCAGCCGAAGAACAAGGAAGGCCTGGAGCTGGCCATGGCACAGTTTGAAGGCGACGGGGCGAAGAATTCCGTTTACCGGTACACTTGTCCGCAAACTTCAGAATTCCTCCGCTTCACGGGTGTGAAGTGCGCTTTGCCGGACAAGCCGTTTTTTGAAAAGATGCTGGATTATGCCGCTGGCATTGGATATTTCGTGAAGCCTGAGTAA	MNTTLMIEQGKEYWLNELQLPLPGFYLYTDGPAHLQHQDFDRMAIPLRIETGKIQRFREAYNIKPWMLTSYAVFLYRMTHDSDLLIGVNNEKGNLLPLRVSISENDSFARLYEQISDKMEQIEASSLSLSDIEGFIGQPLHLRTIYGRNGNGYAYGESGLNWVVQEEERDQWTLYVSYAQPLFKEETIEKFSRHFELLAAAALEHQEMPVSRLPMLTEEDRNAYAILNDTKMELPEDPTLVAMFAAVVEKYPKRIALSSGQEQITYEQLDRQSNQISHMLIDKGLRKGQFVSIFMKRSLDTIISMLGVLKAGGAYIPLDPSHPEERNAYIIEDTASNIILTHPDFTAKLNGLLDQVQTKPEYFCLDDHVYSYPAEACGVGVTGDDLAYIIYTSGSTGKPKGALIAHQGVVNLALANRKNLQMSEQDIILQYSTFSFDASVYDIFGSLACGSRLHLLSDEQRFSIDAFTEAVADTNATRVAILPTVFFNQLAAYLPMEDTHKYRNIKTIVVGGEALAGETVRMFRKKLPIPIVNLYGPTETTVVATGHVVDYPISEDLATVYIGTPFANYELYIVNEHDELCPTCVTGELLICSVGVAKGYLNQPEKTKEAFILDPITPESGKQYYRSGDLVRLLPNGQVEYRGRKDSQVKIRGFRIEIGEIEDNLAKHECVKDIAVIPRTDEDGSKMLAAFYTSHDGQAAPAKELVHFLSRKVPSYMVPKYICFVEEMPLSPTGKIDRKKLAIYDLSMEAEEDNSPYEAPVNDTQRDIAAAWEKALGQTQIGIHDDFFDIGGYSLKILEILVLLKPRYPQLKINDFFVFPTIAKLAERVAELGSQDILVDPLVERDLPIQDLAEYPISFPINHASEQAVYTQQHILLTGATGYLGSHLLHELLYQSTATVYCLVRPSKLMEPYVRLEQVMTGYFGEDIKSRMDKRVIAIQGDLEQESLGLGSEDLALIEERIDSIIHCGAEVKHFGDAGYFARVNVESTDRLLALAQKKPNTRFHFISTLGIPEDLALGGQWEAIVAGAGYEESSIENVYTNSKLEAEKVVIKAGKERGIPAAVYRVGNLSCHSENGRFQKNIDNNAFYRMLKAMVLLKKAPSVKWQVDITPINYAGEAIAALLLQQETVGRVFHICNPVAIPYEDMVEHFKDYGYDISLMDWKEYEAWLLDPQQPKNKEGLELAMAQFEGDGAKNSVYRYTCPQTSEFLRFTGVKCALPDKPFFEKMLDYAAGIGYFVKPE				NA	NA	NA	NA	NA
AK002_02740	678			hypothetical protein	ATGAATAACGAACAATGGAAGCAGGCAGAAACCGCGCTGGCTTGTATGGAAGTGATCAAGAACGGCACCAACGACCCGGTAACGATTGAAGGCGAATCGGATGATCTGCGCTGTGTCGGAATCGGCACGGATGCTGCGGTGTTCGTCTATGAACCTTTGCCGGCATATGCTTATAAATTGTATGCTGTGGAGGCGCTGCCCAAGAAGGAAGCGGAGATCAAGGTCTATCAAGAGTTGATGGGCAGTCCTTATTTTCCCGTATTTTATGGGACAGGCGAGCGTTATGTGGCGATCAGCCATGAATCCGGATTAACCTTGTACGATTGCTTGCTCTATGGTGTGCCCGTTCCTAGGCAGGTCATAGAGGATGTCGAAGCCGCACGCTCCTTCGTGCGTAGCAAGGGCTTGAACCCGCGGGACATTCATTTGAAGAATGTACTGCTGCAGGACGGCAGAGGGAAAGTGCTCGATGTATCCGAGTATGTTCAGGATGGCAACGACAAGCGATGGGAGCATCTCGTGTGGGCTTATGACAATGTATATCCGCTGCTTGAGGGCAAGAAGCTGCCGCTCTGGGTATTGGAAGCCGTGAAGAACGGATATTACCGTCTTGATCCGTCCAGCGTGAATATGCAGGAGTTCGCGGATCGGATTGGCAGATTATTTTTCAGAAAATAG	MNNEQWKQAETALACMEVIKNGTNDPVTIEGESDDLRCVGIGTDAAVFVYEPLPAYAYKLYAVEALPKKEAEIKVYQELMGSPYFPVFYGTGERYVAISHESGLTLYDCLLYGVPVPRQVIEDVEAARSFVRSKGLNPRDIHLKNVLLQDGRGKVLDVSEYVQDGNDKRWEHLVWAYDNVYPLLEGKKLPLWVLEAVKNGYYRLDPSSVNMQEFADRIGRLFFRK				NA	NA	NA	NA	NA
AK002_02741	942	glsA	COG2066	Glutaminase	ATGACATCTCCCGACCTCGAAACCATCCGGCAGCGACTGCCGGGCTGGCTGAAAGCAAGCTCGCCATGCTCAGACAGAGGCAAAGTCGCCTCTTACATTCCCGAACTGTCCAAAGCTCCACATGATGCCTTGGGCATTACCCTTCTAAGCGCTCAGGGAGAATCCGTCACAGCCGGGGATTGCGGGCTTCGCTTTACGATGCAAAGCATCTCCAAGGTATTCACGCTGCTCCTGGCACTGATGGACAACGGAGAGGAAACCGTTTTTGGCAAGGTTGGCATGGAGCCGACCGGAGACAACTTCAATTCCATGCTGAAGCTGGAGCTGGTTCGGCCCGGCATTCCCTTCAATCCGATGATTAATGCAGGCGCGATTACCGTTTCTTCCTTGATTAACGGAAACAGCCCGTACGAGAAGTCAGGCAGAATTCTTCAGTTTCTTAAAGAGCTATCCGGGAACGCCGACTTGGATTATGATATGGGCGTTTACCGCTCGGAATCGGATACCGGGAATTTAAATCGTTCCATAGCGTTCTTTTTGAAAGAAAACGGGGTTCTCAGCGGAGATGTTGAAGAGGTGTTGGAGGTATACTTCAGGCACTGCTCCATTGTTGTGGATTGTGCCGATTTAGCCCGAATGGGGTTAGTCCTGGCCTGCAGCGGTTTGGATCCGCTAACCGGCAAAACGCTCATTCCTCGCAGGTATGTTCAAATCGCCAAGACGTTTATGACGACATGCGGGATGTACAACGCGTCGGGCGAATTTGCCATTCAGGTAGGATTGCCGGCCAAAAGCGGCGTTTCAGGGGGCATATTAACATTAGTACCGGGACGCTACGGGATCGGCGTGGTAGGCCCGGCACTGAATGATAAAGGGAACAGTTATGCCGGCGTGCATCTCCTGCAAACCTTGTCCCGGGAGATGGACTGGAGTATGTTCTAA	MTSPDLETIRQRLPGWLKASSPCSDRGKVASYIPELSKAPHDALGITLLSAQGESVTAGDCGLRFTMQSISKVFTLLLALMDNGEETVFGKVGMEPTGDNFNSMLKLELVRPGIPFNPMINAGAITVSSLINGNSPYEKSGRILQFLKELSGNADLDYDMGVYRSESDTGNLNRSIAFFLKENGVLSGDVEEVLEVYFRHCSIVVDCADLARMGLVLACSGLDPLTGKTLIPRRYVQIAKTFMTTCGMYNASGEFAIQVGLPAKSGVSGGILTLVPGRYGIGVVGPALNDKGNSYAGVHLLQTLSREMDWSMF	PGPT0020215_1391	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
AK002_02742	768	yxdL_3	COG1136	ABC transporter ATP-binding protein YxdL	ATGACAACCATATTACAGGCAAAACATGTAGAAAAAACATTCGGCATCCAAGGAAATTCATATACGGCATTGCAAGATATCAATCTTGAGATTCAGGAAGGCGAGTTTGTCGGCATTATGGGACCCTCCGGGGCGGGCAAATCGACGCTGCTGAATATCTTCTCGACGATCGATACACCGACGGCAGGCGATATTACCATTGCCGGGCAACATATCCTGTCGATGAATGAGGAACAGTTATCCGATTTTCGCCGGAATCAGCTTGGATTCATATTTCAGGACTACAACCTGCTGGATACCCTGACCGTCAAAGAAAATATAGTGCTGCCGCTGGCATTGTCCAAGGTGCCTGCCGCGGAGATTGAGAAGCGGGTTAACGAAATCGCCGACACGTTCGGCATTCGCGACATCTTAGGCAAATATCCTTATCACATCTCGGGCGGCCAGAAGCAGCGTACCGCTGCCTCGCGCGCCATCGTTGCCCATCCTAGCCTGATCCTGGCGGACGAGCCGACAGGGGCGCTGGATTCCAAGTCGGCGGCCAGCCTGCTGCAAAGCTTAAAGAAACTCAATGAGTATCATTATTCCACCATCCTGATGGTCACTCACGATGCCTATGCGGCAAGCTTCTGCAAACGCGTCATTTTCATAAAAGACGGTCGGCTGTATCAGGAGCTTCATCGAGAAGACCAATTGCGCAAGGTGTTTTTTGATCAAATACTCGAAGTGCTGGCCGCGCTTGGGGGTGAGCATGATGACACTGTTTAG	MTTILQAKHVEKTFGIQGNSYTALQDINLEIQEGEFVGIMGPSGAGKSTLLNIFSTIDTPTAGDITIAGQHILSMNEEQLSDFRRNQLGFIFQDYNLLDTLTVKENIVLPLALSKVPAAEIEKRVNEIADTFGIRDILGKYPYHISGGQKQRTAASRAIVAHPSLILADEPTGALDSKSAASLLQSLKKLNEYHYSTILMVTHDAYAASFCKRVIFIKDGRLYQELHREDQLRKVFFDQILEVLAALGGEHDDTV	PGPT0010200_117	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010200-bceA|vraD-K11631	NA	NA
AK002_02743	1935	bceB_1	COG0577	Bacitracin export permease protein BceB	ATGATGACACTGTTTAGCATTGCCAGAAAAAACATCCGCAAAAATCTCGCGAATTACTTTTTGTATTTCGCCTCGATGATATTTAGTATCGTCATTTACTTCACTTTTGTTTCATTGAAATATGATACGGCGATACAGTCCGCTGCGGAGGGGTCGACCAAAATCAGTTCGGCCTTTAGCGCCGCCGCCGTCGTGCTGATCATATTCGTGGCTGTTTTCATCTGGTATTCCAACTCGTTCTTTACCCGCAAACGCAAGAAAGAAGTCGGACTATATTCGCTGCTCGGCGTGAGGAAGAAACAGATCGGGCTGATGTTATTTTATGAAAACTTTCTGATGGGCGTGCTGGCTTTGTTGGCCGGGATTGCCCTCGGTTCCGTGCTCGCCAGATTTTTCGTTTCCCTGTTAATGAAGGTGATGGGTTACGACGCGATAGCAAGCTTTTCGATATCCCCCGAGGCCATCATCAACACAACCATCGTGTTCATGATCATAACGCTAATTACATCGTTGCAGGGGTACCGATTGATCTACCGGTTCAAATTGATCGAATTGTTTCATGCGGATCAGGAGGGAGAGCAGGAACCGAAGGCTTCATGGATTACCGCCTTATTGTCGCTGGTATTCGTTGGCACCGGTTACTGGCTGGCCCTGCAGAATTTGCTGCAATCCAAGGTCTGGGCAGCGATGGGATTCATGCTAACGCCGCTCGTCATTCTCATGACGGTGATTATCGGTACGTATCTGCTATTCAGTACCCTGACCGTAACCTTGTTGAAATTATCCAGAAATAACAAGAACAGATTTTGGAACGGGATGAACATCATCAGCATCTCCCAGCTCCTATATCGCATCAAAGGCAATGCGCGTACGCTAACCATCATCGCGGTGCTCAGCGCAACGACGCTAACCGCCGTCGGAACGGCTTACAGCTTTTATTACAGCAATGCAAGCAATGCCTCGCTAGCAAACCCGAACAGCATGACGTTTATTAACGGCGATGGCGGGACAACCAAGCGAATCGACGAGCTGATCGCTTCCTCATCGGACCACGAGCTGTTGTACCATGCAAAAGTGCCTGTCCTTGAATTGGATGCCGATGTCAGCGGACTTGATGCGGCATTCTCGCATGACATGCAGACCTACAGCGCCATATCCAATCAGGATTTTAACGAGCTGGCGAAGTTGCAGGGCCGCAAGGAAGCCATGGAATTGAAGGGTGATGAGGCTGCTGTGCTGGACCCGGCTTATTACGAAGGCATATCGCCGGCATATGTGGGCTCGAAGGTGAAGCTTACGCAGAACGAACAGGAGCATGATATAACGTTTAAGGAATTGAAGAAATTCAGTGTGCTGAACATGGGGACGGTGTACTCCACCATCGTCTTAAGCGATGAGTTATTTGAGAAGTTGGAGAAGGAGACAAAGTCATACAGCCTGGAAGCATACGGCATATCGAATCAGGACCAAGCGAAGCAGTTAACGGAGCAAATTGAGGGCGTCCTGCCGGAAAGCGCGGCATTCGCCAGCTATTATCAGGATTATGCAAGAGGAATGGAATCGTCGGGCCTGTTGATATTTATGGGAGGATTCCTGGGGCTCGTGTTCCTTACGGCGACGGGCAGCATCATATATTTCAAGCAATTAACCGAAGCCAACTCGGACAAGGCAAGGTACCGGATATTAAGTAAAATCGGCGTAAACAAACGCGAGGTCAGAAAGACCATCGCCCAGCAGGTTTTGTTTATCTTCGCGCTGCCGCTCATCGCCGGCATCGCTCACTGCTCGGTAGCATTGATAGCCTTGTCCAGGCTTCTAAACATGAATCTGGTGATACCGGTCGTGATCTGTATGGGCGTGTATACTTGCATCTATCTCATCTACTATGTGGTAACCGTGAATGCCTACTACAGAATCGTAACGAATAACAAATAG	MMTLFSIARKNIRKNLANYFLYFASMIFSIVIYFTFVSLKYDTAIQSAAEGSTKISSAFSAAAVVLIIFVAVFIWYSNSFFTRKRKKEVGLYSLLGVRKKQIGLMLFYENFLMGVLALLAGIALGSVLARFFVSLLMKVMGYDAIASFSISPEAIINTTIVFMIITLITSLQGYRLIYRFKLIELFHADQEGEQEPKASWITALLSLVFVGTGYWLALQNLLQSKVWAAMGFMLTPLVILMTVIIGTYLLFSTLTVTLLKLSRNNKNRFWNGMNIISISQLLYRIKGNARTLTIIAVLSATTLTAVGTAYSFYYSNASNASLANPNSMTFINGDGGTTKRIDELIASSSDHELLYHAKVPVLELDADVSGLDAAFSHDMQTYSAISNQDFNELAKLQGRKEAMELKGDEAAVLDPAYYEGISPAYVGSKVKLTQNEQEHDITFKELKKFSVLNMGTVYSTIVLSDELFEKLEKETKSYSLEAYGISNQDQAKQLTEQIEGVLPESAAFASYYQDYARGMESSGLLIFMGGFLGLVFLTATGSIIYFKQLTEANSDKARYRILSKIGVNKREVRKTIAQQVLFIFALPLIAGIAHCSVALIALSRLLNMNLVIPVVICMGVYTCIYLIYYVVTVNAYYRIVTNNK	PGPT0010195_271	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010195-bceB|vraE-K11632	NA	NA
AK002_02744	366			hypothetical protein	ATGAAAAAAACAATGATCTTCGGCGGCGTTTTAGCCGTCCTCCTAATCGGATTTATCATCTTCATTCAGAACGTGAACTTAAACCGCCTCGGTACGGATCAATATTTTGTGCAGGTTCAAGAAGGTACACGGGTAGAGGATAAATCGGATAACGGAGAAAAATACGTTTACTATGAATACAACCTGGAGGGCTTTGATAAAGAGGGAGCGGCAAAAACATTGACCTTTACAGCGCAGAAAGAGCTGCGTAAGGAAGCTTACTTGCGTGTCTATGTCAAAAAAACAGGCGTCAGCTCCTATCAAGAGGTACAGGCCAGTGAGCTGCCGGGACCAGCCAAGCTGAAGCTTGAAACATTAGGGAAATAA	MKKTMIFGGVLAVLLIGFIIFIQNVNLNRLGTDQYFVQVQEGTRVEDKSDNGEKYVYYEYNLEGFDKEGAAKTLTFTAQKELRKEAYLRVYVKKTGVSSYQEVQASELPGPAKLKLETLGK				NA	NA	NA	NA	NA
AK002_02745	2205			hypothetical protein	ATGATGAATTCATGGAAAAGTAGAACAGCGAATTTGACCAAAAAAACGATTATCGGCTCGCTCGCATTGACTTTGGCGGCGGGCCCGGTCATCGGACCGAGAAGTACGGCGGCCACAGCTGCGCCAGCTTCAACGATTTCACCAATCGTCGTGGATATGGAAGCGCAAGCACCGATTCATTACGATATTCAGGCCAGGCTGAACGAGAAGGACATGACCATGCAGGGGAGCAGCAGGATCACCTATCGAAACACCAGCCAAGATACGCTGAGTGAGCTGGTGTTCCATACATATGCCGATGCTAACCGTTCGGCTTCAACCCAGACGTCCATGTTTAAACGATCGAACGAAGAAATCAGCAAGAACCATCCGGATAAGAAACCGGAGGATTTTCTTGGCGGCATTGATATCGAGAGTGTGACCGCCAGCGGTCAAGCTCTTGATTTCAGCAATAAAGAACAGGCTTTGACTGTCCAATTGAAGCAGCCCTTGCGACCTGGCGGATCGATCACGGTACAATTGGATTTTTCTCTGAAGATTCCGTATGGCTCGCAGCGCTTATCGTATTATCAAGATATGATTAACGGGGCGCACTGGTATCCCGTGATGTCGGTCTATGACGAGCACAAGCATCAATGGAACGCGGCTCCTTACAGCACAACGTTCGAAACGGATTATTATACTTCCGCCGACTATGACGTCCAGTTCAATGTTCCCGACTCCTATGAGGTAGCCATGCCAGGCACGATAACGTCAAGGGAGGTGGGGAACGGACGCAAAGTCGTATCCGCCGCGGCGGAAAATACGAGGGAGTTCGTTTTCTTTGCCAGCCCGAATTTCAAAGTGGACAGCGTTACCCGTGACAGCCTGACAATCGAATATTTTTATTTGGACAACGAGCCGGATAAAAAGCAGATCATTGACCGGTATATTGATCAAGCATTTAAGGCCATTCAATTTTTCGGTGATAAATATGGCGCTTATCCTTATCCCGATTTCCGAATCGTTGAGACGTACGTGGAGGGCGTAGCTATCGAATATTCGAGGGTCATTCAAATGGGACAGGTTCAAGGCCAGGCTGATCCTGCTCAGGATACGGTATTCGTCCATGAAATCGCCCATCAGTGGTTCCACTCGTTAATCGGGAACGATTCGGAGGCGGCATCGTTCCTCGACGAAGGATTTGCCGATTTTTCCAGAGTGTATTTTGCCGAGAAGCAGGGGGATAAACTGAATGGTTTTACATCCATTCGATTTGACGATACTTCGCTGAAGCTTCCCATTGCGTCGACCAACGACGAGGTGGGGGATATGGCCAGTCCGGTTTATTACGATAAAGGCCGGCAAGCGATTTACCAATTGTACCGTTCCGTTGGCGAAGAGAAGTTTGACCACTTGATGAGGGAATATTTCAAACGTTATGTCTACAAAAATGCTACGATTGAGGGACTGCTCCAAACGATAGACGACGTGCTCGGAAAAGAGGCGCGAAACGAAATGTCAGCCGCACTATATCAACCGGGTTTTGTGCTAAAGCCAGAATATCAGCTGACAGAGGAAGAGAAAACCGCCTATATGCATGACCAGTTTCAATTGCTGTATCAATCGGCCTTAACCCAAATTCCAGATTTGCCCTACGAAACGATGAGCCGTATCATGGATAAGGCCCTTCAGGGAGAGCCGCTATCGATCGTTCTGAGCGATCAAGTAAGCAGACGAACACGCAAACAGCAAGAAACCATGGTGAGCCAGCTTGCGGCGTTTCTTGATTTAAGCGGCGTGAAGTATGACATTATTCGGGATCGTAAGATTTTGAAAGAGAAGTTAAAGAATGAACTGGGGACAAGCAATTTGATCCTGATTGGAAACGGTAAATCGAACGGGGTGATACAGGCGCTCAAATCCGGCATTATCGAGCGGGCGAACAAAATGGGCTTTGCCTGGAAGAATTCCATGAATCAACCGACTACAGCCGGGGCTTATGTGATCAAGCATCCATTCAATCAGAATCGTTTGATGCTCCATTATTTCTGGAACGGTGAACAGGTAACAGATGAGGCCATGGAGACGTATATGGCAAAAATGCAGGAATCCATCGGATTCACCAGCGCCTATTATCAGTACTATGTGTTGGACAAGACGGGGAAGGTGTTGTTAGATAAACATGTGGAGAATCCGCTGTCGAAGTTTTTTGCGGTGGAGTAA	MMNSWKSRTANLTKKTIIGSLALTLAAGPVIGPRSTAATAAPASTISPIVVDMEAQAPIHYDIQARLNEKDMTMQGSSRITYRNTSQDTLSELVFHTYADANRSASTQTSMFKRSNEEISKNHPDKKPEDFLGGIDIESVTASGQALDFSNKEQALTVQLKQPLRPGGSITVQLDFSLKIPYGSQRLSYYQDMINGAHWYPVMSVYDEHKHQWNAAPYSTTFETDYYTSADYDVQFNVPDSYEVAMPGTITSREVGNGRKVVSAAAENTREFVFFASPNFKVDSVTRDSLTIEYFYLDNEPDKKQIIDRYIDQAFKAIQFFGDKYGAYPYPDFRIVETYVEGVAIEYSRVIQMGQVQGQADPAQDTVFVHEIAHQWFHSLIGNDSEAASFLDEGFADFSRVYFAEKQGDKLNGFTSIRFDDTSLKLPIASTNDEVGDMASPVYYDKGRQAIYQLYRSVGEEKFDHLMREYFKRYVYKNATIEGLLQTIDDVLGKEARNEMSAALYQPGFVLKPEYQLTEEEKTAYMHDQFQLLYQSALTQIPDLPYETMSRIMDKALQGEPLSIVLSDQVSRRTRKQQETMVSQLAAFLDLSGVKYDIIRDRKILKEKLKNELGTSNLILIGNGKSNGVIQALKSGIIERANKMGFAWKNSMNQPTTAGAYVIKHPFNQNRLMLHYFWNGEQVTDEAMETYMAKMQESIGFTSAYYQYYVLDKTGKVLLDKHVENPLSKFFAVE				NA	NA	NA	NA	NA
AK002_02746	708	walR_4	COG0745	Transcriptional regulatory protein WalR	ATGGCGTTTGATCAAAGGGTACTAGTGGTTGATGATGAAGCTGATATTGTCAGGCTGCTTCAAACCGTGCTGGTCAAGGAGGGCATCGATCAGGTGTACACCGCAGCTACGGCAGAGGAAGCATGGATTGAATTTCAGCAGCGCCAGCCCGATATCGTTATCCTGGATATCATGCTTCCCGACGGAGAAGGCTACGAGGTGTGCAAGAAAATCCGCAGCGTCTCTAATGTTCCGATATTTTTCCTGTCCGCCAAGACGGAGGAGATCGATAAAATCCTGGGTTTTGCCATGGGCGGGGACGATTACATTACGAAGCCATTCAGCCCAAAAGAAGTGGCTTACCGGATTAAAGCCCGATTTCGCAGACCGGAAATGCCTCAGCAAGAGGACAAGCCGAATCGTCTAATTCAGGTAGGACCATTTGAATTAGATGAAGAAAAGATCGAACTGAAGAAGAACGGCAAGGTTATTCCGCTGAAACCGAAGGAGCTTGGACTGCTGACACTGATGCTCAAGCACCCGGGCCAGATCATGAGCAAGGAAAGTTTATATGATCAGGTGTGGGGCGAGGAATTTTTCGGCTTCGATAATACCGTGATGGTGCATATCCGAAGACTGCGGGAGAAAATCGAGGAGGATCCCTCCAATCCGCGTTATCTGCTGACGGTAAAAGGCCTTGGGTATAAGCTTGCGGTAGAGGAAGAATAG	MAFDQRVLVVDDEADIVRLLQTVLVKEGIDQVYTAATAEEAWIEFQQRQPDIVILDIMLPDGEGYEVCKKIRSVSNVPIFFLSAKTEEIDKILGFAMGGDDYITKPFSPKEVAYRIKARFRRPEMPQQEDKPNRLIQVGPFELDEEKIELKKNGKVIPLKPKELGLLTLMLKHPGQIMSKESLYDQVWGEEFFGFDNTVMVHIRRLREKIEEDPSNPRYLLTVKGLGYKLAVEEE	PGPT0013765_410	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_02747	1422	sasA_9		Adaptive-response sensory-kinase SasA	ATGAGGTGGAAGCTTACCGGCAGGTACCTATTCTCCGTTGTGCTGATTGTTGTCATCGTGATTATCATGAATATCATCGTTGTCATCGGTTTGTTTGTTGTGCAATCGATGAATGAGGATTTCTTGACCAACGGCAGTCAAACCTCCGCAGAGACGATTTCCAGATCCTTCGAGGAGTTTATCGTGATTTCCGAATCCGGTGCTTCCGTGAGCGAGAAGGGTAAGGACATTCTGAAGAAGAATGAGGCCTGGCTTCAGGTTTTGGATGAGGATGGCAGGGAAATATACCGTTATCGGGCTCCCGAAGGAGCGAAAACGAAATACACTCCCATGGATATCGTGCAAATTTATAAGTACTTTGAGAAGGACGTGCTATCAACCGTCTTTGTCGGCGAGAAAACATACTCCGATCATCGTTTCAGTTACTTGGTTGGCTTCACTTCTCCGTACTTGGAGCGGCATGTGCTCACGACCGACACTCGAAATTTTGTACAAGCGTTCAAGGTCTTTAGCTTGACCATCATCATCGTTGACGGCTTCATCGCCTTATGTATCGCTTATATCTTCAGCAAGCGGCTGACCCAACCCATGTTTATGCTGATCGACAGCATAAAGCGGCTGGCGAATCGTAATTATCACGTCTATCACCAGCCTAAAGGGGTGTACAAGGAGGTGTTTGCCAACATCAATCTTTTATCCCAAGAGCTGAAAGCAAGCGAGAAAGAAAGAAAAAAATTGGACGCGATGAGGGAAGAGTGGATCGGCAATATCTCGCATGACATCAAAACGCCCCTTGCTTCGATTCAAGGCTATGCCGAAATGATAAAGGATCCGGAGTACCAGTTCTCTCAAGACGAAATAAGGGATTATGCCGGGATCATTGAACGTAAATCCATCTATTTACGAGACGTGATTGAGGATTTGAATCTGTCGACTCGCTTGAGGAACAAAGAGCTGATGCTGAATAAGAAACATATAAACATCGTTAGCCTGGTCCGCAATGCCGTGATCGACACCTTGAACAATCCAAGTTATTCCAATCGGGACATTGACTTTGGCAGCAGTCATGAAGTCATTAAAGTCGAGGTTGACGATATCCTGATCCGCAGGGCGATCAGCAACCTGATTTACAATGCAATCGTTCATAACCGCGAGGATGTTGCAATCAAGGTTCAGGTCGAGAAGAACGAAGATCATATTCTTATTCGGGTGGAGGACAATGGAAAAGGCATTAAACAGGAAGAACTTGGGAGAATATTCGACCGTTATTTCCGAGGGACGAATACGGGAGAACTCCATAAGGGATCGGGGCTTGGCATGGCTATTACGCATGATATCGTCATCGCCCATGGCGGAGAGATCGAGATTCGCAGCGAGGTTGGCCAAGGCACGATAGCGGAAATCAAGCTCCGCCCAGCATAG	MRWKLTGRYLFSVVLIVVIVIIMNIIVVIGLFVVQSMNEDFLTNGSQTSAETISRSFEEFIVISESGASVSEKGKDILKKNEAWLQVLDEDGREIYRYRAPEGAKTKYTPMDIVQIYKYFEKDVLSTVFVGEKTYSDHRFSYLVGFTSPYLERHVLTTDTRNFVQAFKVFSLTIIIVDGFIALCIAYIFSKRLTQPMFMLIDSIKRLANRNYHVYHQPKGVYKEVFANINLLSQELKASEKERKKLDAMREEWIGNISHDIKTPLASIQGYAEMIKDPEYQFSQDEIRDYAGIIERKSIYLRDVIEDLNLSTRLRNKELMLNKKHINIVSLVRNAVIDTLNNPSYSNRDIDFGSSHEVIKVEVDDILIRRAISNLIYNAIVHNREDVAIKVQVEKNEDHILIRVEDNGKGIKQEELGRIFDRYFRGTNTGELHKGSGLGMAITHDIVIAHGGEIEIRSEVGQGTIAEIKLRPA				NA	NA	NA	NA	NA
AK002_02748	351			hypothetical protein	ATGAAACTGCTTGTTAAGTTATTGGTGCATGGGGTTATGATAACGGCTCTGTTGGTTTCCCTAACCGATGCTTCGTTCATCGGGGCCCTATTGACGGCAGTGGGGATCGCCATCGTTGCTTACTTGGTAGGGGATTTATATATTCTGCCTCGCACCCGCAATATGATCGCCACGATAGCGGATGCCGGCTTGGTATTTGTCATGCTGTGGATCATCGGCGCCGCTGCCAACTGGACCATCGATTTCTCGGAGATTCTGCTGCTGGCGGTACTTGCGGGGGCCTTTGAGTATTTCTTTCATAGCTGGATCAGGGGCGAGCATCTTCTAAACAAAAAACAGCGAGCCTCGTAA	MKLLVKLLVHGVMITALLVSLTDASFIGALLTAVGIAIVAYLVGDLYILPRTRNMIATIADAGLVFVMLWIIGAAANWTIDFSEILLLAVLAGAFEYFFHSWIRGEHLLNKKQRAS				NA	NA	NA	NA	NA
AK002_02749	459			hypothetical protein	ATGGTCAATATCAAAGGGAAGCGATCCAATACATTGATTGGCCTTCAAGCATTCTTGGCGATCGGCGCGTTGGCAGGGGGAACCATGCTTATAACGGCTCCTAGTGGTGAACTCATTGGGATGCCCAGCTCATTATTGCAGGACTCTTTCTTTCCTGATTATTTAATTCCAGGCATTCTTTTATTCTGCGTGTTTGGCATCCTGCCTGTGATCACGGCTTCCGGACTGATTCTAAGGTGGGAGTGGAACGCAGCCCAAAGATTCAATATATTCAAAGATAAGCATTGGTCCTGGACCTTTTCTTTATATTCGGGCTTTGAGTTAATCATCTGGATTATGGTTCAGGTGTATATCCTGGATTCCGTTTCCTTCATACACCTGGTTTATGCCATGCTTGGTTTGATGATCCAGATGGCCACGATACTACCATCCGTACAAGCAAAATATACGTTGCAGTGA	MVNIKGKRSNTLIGLQAFLAIGALAGGTMLITAPSGELIGMPSSLLQDSFFPDYLIPGILLFCVFGILPVITASGLILRWEWNAAQRFNIFKDKHWSWTFSLYSGFELIIWIMVQVYILDSVSFIHLVYAMLGLMIQMATILPSVQAKYTLQ				NA	NA	NA	NA	NA
AK002_02750	1797			hypothetical protein	ATGAAAGTGAAAGGTTACCAGAAGCTTGCTAGCCTCTTGGTTGTCATGCTTCTGGTGGGGCTGCATACCCCGGCTTACGGCGAAAATAATTCAAAAAAAGCGACTTGGATATGGCAGACGGACCTGATACGGGATGGCGGCGCAGAGCTGCTTGATTTTTCCCGCGAAGAGGGCATTAATCTGATCTACTTGCAGATCGATCGCCAGCTGTCGTCGGACATTTACGAGGCGTTTATAGAGCGAGCGCATGAGGACCAAATCGCAGTCCATGCCTTGGGCGGAGACCCCAGATGGGCGCTCACCGAGCATCTCGATGATATGCTCGGTCTCGCTGATTGGGTAATCGACTATAACGGGAAGGTTGCTGCAGGTGCCCGATTCGACGGGATTCATCTGGATGTAGAACCATATGTGCTTGCCAATTGGGAAACTGAACAGGGCCAAATCATCACCACCTGGGTACAAAATCTTAAAGCGTTCCTGAGCCTAGCTTCCGGAAAGGGGCTGGAGCTCGGAATCGATATTCCTTTCTGGTTTGACCAATACGCCTTGGCGGATGGAACCGGTCTTAATGAATGGCTGATCGGTGCGTTTGACCATGTTACCGTCATGGCATACCGGAATGAAGTGGAATCCGAGCACGGGATTCTGGACTTGACGCGGTCTGAGCTTGAGCTTGCTGACAGGCTTGGGAAACAAATTCTGATCGGAGTTAATACCAAGGAGATGCCAGGCGAGTCTTACACCACCTTTTATGGACACGGGAAGGACAAGTTGAATCAGAAATTGGATCATCTCTCCAGTGCGCTCGGTTCTTATCCATCCTTTGCCGGTGTCGCAATCCACGATATTCGCAACTGGCAAAGCATGTCTTCTGATGAGATCGTTCCCCCTGGAAGCACGGATCCCATTTCCCCATCACCGGTCCCGGAGCCAAATCCAGTTCCAGAACCCGGTGAAGGCGACCGCGTGCCGGATGCGGATCCAGTGACGCGGGATCCTATGGTAAGAGGCACTTATATATGGGAAGCCCATGAAGTCGTTCAAAACAGTCAGGAAATTCTTGATTTTGCCAAAGAGAAGAAATTGAACTGGCTGTATGTACGCCTTGATCTGGAGCAGCCGTACAGCTCGTACTCGTCGTTTGTTAAACAAGCGGCTGCGGCAGGAATCGAGGTTCATGCCATGGGCGGACATCCGATATGGGCCCTTGAGGAGAACCGGCCGAGAATGATGCGGCTCGTCAATTATGTGAAGAACTACAATCGCGCCGTTGAAGGCGATGAGCGTTTCCATGGCATTCACCTGGACATTGAGCCCTACGTGCTGCCGGCATGGAAAGAGGATTCGCAGCAGGTTATTTCAGAATGGACCGCGAATCTGGATGCATTCGTTACGGAATTGAAAAAGGATTCTTCATTGGAAGCCAGCATGGATATGGCCGTGTGGCTGGATAAATACAAGGTCACTGGAGAAGACATGTCGCTCAGCAAGTGGATGATCAATCGTATGGACCATGTTTCCCTCATGGCCTTCCGGGATGTAGCGGAGGGATCCAACGGCATCGTCGGGGTTTCCAAGGAAGAGATTGCATTTGCCGATGAGCTGGGCAAGCCCATCAAGATATCGGTAGAAATCAAAGCCAGTCATGAAGGCGATCATATCACCTTCCACGAAGAAGGTGCCGCCTACATGGAAGAAGAGCTTGCCAAGCTGCCTGCTTTATTAAAGGATTCACCTTCCTTTACCGGCAGCGTCGTGCATGCTTATGCGTATTGGAAAAGCGCGAAGCCGTAA	MKVKGYQKLASLLVVMLLVGLHTPAYGENNSKKATWIWQTDLIRDGGAELLDFSREEGINLIYLQIDRQLSSDIYEAFIERAHEDQIAVHALGGDPRWALTEHLDDMLGLADWVIDYNGKVAAGARFDGIHLDVEPYVLANWETEQGQIITTWVQNLKAFLSLASGKGLELGIDIPFWFDQYALADGTGLNEWLIGAFDHVTVMAYRNEVESEHGILDLTRSELELADRLGKQILIGVNTKEMPGESYTTFYGHGKDKLNQKLDHLSSALGSYPSFAGVAIHDIRNWQSMSSDEIVPPGSTDPISPSPVPEPNPVPEPGEGDRVPDADPVTRDPMVRGTYIWEAHEVVQNSQEILDFAKEKKLNWLYVRLDLEQPYSSYSSFVKQAAAAGIEVHAMGGHPIWALEENRPRMMRLVNYVKNYNRAVEGDERFHGIHLDIEPYVLPAWKEDSQQVISEWTANLDAFVTELKKDSSLEASMDMAVWLDKYKVTGEDMSLSKWMINRMDHVSLMAFRDVAEGSNGIVGVSKEEIAFADELGKPIKISVEIKASHEGDHITFHEEGAAYMEEELAKLPALLKDSPSFTGSVVHAYAYWKSAKP				NA	NA	NA	NA	NA
AK002_02751	414			hypothetical protein	ATGATTAATTTGGAATCGCGACTGGAGAATATGGAGGACCGTTTCGTAAACATCGATACTTATCTATGCAAACACGATTTTACGTTAGCCAGCAATTGGGATTACAAGCATGGCTATTTGGATAGGCGATTGGATCAGGAGCGGATGGTGTGGCTTCGCATTCCCTTTCACGTAACCAAGGGCAGCTTGGATGGCGAATGCGGCGGATGCCATGCAACGATCAAGCTTGGCCGACCATTTGTCTTCAGGCATATATATAATAAGGGGACCGATAAGCATGCGAGACCACGTTTATTGGGAGCTCTCTTCGATCAATTCCAGTCGCCGATCGACCCTGACGCCTCGGTGGACGATATGTGGGTTGAACAAGCCAGAAAAGTCTTGGACGAGGTGGAGACGGGGTATTTGCATTAA	MINLESRLENMEDRFVNIDTYLCKHDFTLASNWDYKHGYLDRRLDQERMVWLRIPFHVTKGSLDGECGGCHATIKLGRPFVFRHIYNKGTDKHARPRLLGALFDQFQSPIDPDASVDDMWVEQARKVLDEVETGYLH				NA	NA	NA	NA	NA
AK002_02752	3465	lacZ_2		Beta-galactosidase	ATGAATAAAAGAGCTTTATTTAATGATGGATGGACGTTTGCAAAAAGCAGTTTGGACGTTGAAGATTCGGAGAATTTACAATTTCAGCCCGTTGATCTTCCTCATGATTGGCTCATTCATAACACGGAGGATTTATACGAGAACAGCATTGGCTGGTACCGGAAGAAATGGTTGTGGAATAATGACGGCGGTCAGGTCTTCCTCTGTTTTGACGGTGTGTACATGGATTCTTCCGTCTATGTCAATGGTCGTCCTATGGGCGAATGGAAGTATGGCTATTCTTCCTTTGAACACGAGATCACGGATGCGCTCCGGGACGGTGAGAATGTCATCGTCGTAAAGGTTGTGCATCAAAGCCCGAACAGCCGATGGTACTCCGGGGCAGGCATTTATCGGAATGTATGGTTAAAGACAAGGGAATCCAACCACATCATCACGGACGGCGTTTATATAGCGACTAAGCATCAGGAAGATGGATGGCTGGTTGAAGTCGAGACGGAAATGAAGATCGTGGATGATGTGCTGATCAAGCATGTGATTTTGAAGGATGGGCAGATCATCTCCGAGACTTCAGAGCGGGTCGACGCCAATCACACGGGCAGCAGTGCAGGCAGCATCATCAATACGCAAACATTAGCTGTCAAGGATCCGCTGCTCTGGAGTCCGGAAGAACCTAACTTGTATCAATTGGTGACCGAAATGAAGCTGAGCGGAACCAAGCGTTCCACAGTTTCGCAGCATACTATCTTGGAAGCCGTCACTCATAATGTGGGATTCCGACACATTCGGCTGGATCCTCATCAAGGGCTCCTGCTGAACGGCAGCAAATTCAAATTGAACGGCGTATGCGAGCATCATGATCTCGGCGCTTTGGGAGCAGCCTTTAACAAAACCGCCTTGGCGAGAAGGTTTAAGATTCTGAAGGAAATGGGGGTTAACGCGATTCGCACCGCCCATAATATGCCGGCTAAGGAGCTGATGGAGCTTGCGGATGAAATGGGGCTGCTGATTGTATCGGAAGCCTTCGATATGTGGGAGCGGCCGAAGACGCCTTATGATTATGCCAGGTTCTTTCGGGAATGGGTTCAGCGTGACGTGAAGAGCTGGGTTAAACGGGACCGCAACCATCCGAGCCTTATCATGTGGAGCATCGGGAATGAGATATATGATACCCATGCCGATGAGAAGGGGCAGGACATCACAAGAATGCTGATGGATGAGGTTTATGCATACGATCCTAAGCAAAATGCAAGGGTTACCATCGGATCGAATTATATGCCTTGGGAGAACGCACAGCAATGCGCCGATATCGTCAAGGTAGCAGGATATAACTATGCCGAGAAATATTACGAGAACCATCACCGGGAACATCCGGATTGGATCATATATGGTAGTGAGACCGCGTCAATTGTACAAAGCAGAGGCATCTACCATTTCCCGTTCGATAAATCCATCCTGGCCGATGATGACGAGCAGTGCTCCTCCCTCGGCAACAGCTCGACGAGCTGGGGAGCGAAATCGGCGGAGGCATGCATTCTGGCTGAACGGGATATGCCCTTCTCGCTAGGTCAATTCATATGGACCGGGTTCGATTATATTGGAGAGCCTACGCCGTACCATACTAAAAACTCCTATTTCGGACAGATTGATACGGCAACCTTTAAGAAGGACTCCTATTATATCTATCAAGCTGCTTGGACGGATTACAAAACGAAGCCCATGGTGCATCTGCTGCCCTATTGGGATTTCAATGACGGTCAGATGATAGATGTTCGCATCTGCTCCAATGCGCCAAAAGTAGAATTACGGCTCAATGGGGAAACCGTGGGTACGCATGACATTGACCATGCACGAGGAAGAGAACTGGTTGGGTGGTGGAAGATTCCTTACGTCAAAGGCGAATTGAAAGCGATCGCTTATGACGAAACAGGCCGTATCGTAGCCACGGATGCAAGACAATCGTTTGGCGATGCCAGGCGGATCGTTTTGCGCCCGGATAAAGAAGAGCTAAGGGCCGATGGAACAGATCTCATCTTCGTTGAGATCACGATGGAAGATGAGGATGGGCATTCCGTCGAGAATGCCAATAACCGGGTGGAGGTCCATGTCACGGGTGCGGGGCGGCTGCTGGGTCTCGATAATGGGGACAGCACGGATTACGATCCGTACAAAGGCCTAAGCAGAAGACTGTTCAGCGGCAAGCTGATGGCGATCATCGGAGCGACATTGGAGCCCGGCGGAATCGGGATCGAGGTGTCCTCCACAGGTATGGAGCGTCAATCCCTTCATTTGACTTCCATACCCGTACAGGATGATGTGACGCAAGGAATATCCGCAAGCATGAGGAATGAGGAGGGCCCATGCCTGACAGGAAGCAGGGACGAGATTCCGCTTCGCAAGATTGAGCTGATCAGCGAAAAGGGTCAGGTCTTTGATCCGGCGAATCGACAAATGACAGTTCGGGCCATGTTGCATCCACTGACAGCTTCTTATCAGGAAGTCGAATGGGCCGTCGTAAACGATGCCGGCATCGAATCCAATATTGCGAGCGTCGAGGCCAATGGCCATGCTGCCATCGTAACAGCCCTTGGCGATGGAGAATTTCGATTAAGATGCACGAGCCGGAACGGGACAGGTAAAACCCGGCTCATCTCCCAGCTTGAATTTAAGGTCGACGGTTTGGGTGCAGCATACAAGGATCCATACTCCTTCATATCTGCAGGATTATATGATTACAGTCAAGGTGAAGTTGGGAACGGAAACGAAAGAGGCGTAGCCACGAGCAGAGACGGCGAGACGCAGGTCGGGTTCCGGGACATCGATTTTGGCCCCCGTGGCTCCGATACGATCACGATTCCGATATTTGCTCTTTCAAGCGAAGCGTACGCTTTGCAAATCTGGGAGGGCATGCCTGGCGAAGAGGGCAGCTCCCTGCTGGCCGATTGCATTTATCAGAAGGAGTCCAAATGGAACGTGTATCAGGAAGAAACCTACCGATTGTCCAAGAAGCTGCGCGGCATTACGTCGATTTGCTTTGTCCTTCGCCAGAAGGTGCACATTAAAGGGTTTTATTTTCAACCGGGGAATCGAGCCTTTGAGCCCAACTTTGCCGCGGATTGCGACCGGATTTACGGGGATACCTTTACGATAGTGGACAACAGGTTTGTTCAAGGGATAGGAAATAACGTCTCCCTCGAGTTTGACGAGATGGATTTTTCAGCCGACGGTGCATCGAAACTGGTGGTGTACGGCAGATCCGCCTTGGATAAAAATACGATTCATATTCGGTTTGCGCATCTGGATGGCGAAAGCAACCGGCTGGTCGAATTTAGGCAAGCCGACGAATATGAAGAGCAAGTATTCGATCTGGAGCCAGTGGCCGGCAAACAGAAGGTGACGTTCATCTTCCTGCCGGGAAGCCAGTTTGATTTTGGCTGGTTCCGATTTGTGCGAACAGATTCCTAA	MNKRALFNDGWTFAKSSLDVEDSENLQFQPVDLPHDWLIHNTEDLYENSIGWYRKKWLWNNDGGQVFLCFDGVYMDSSVYVNGRPMGEWKYGYSSFEHEITDALRDGENVIVVKVVHQSPNSRWYSGAGIYRNVWLKTRESNHIITDGVYIATKHQEDGWLVEVETEMKIVDDVLIKHVILKDGQIISETSERVDANHTGSSAGSIINTQTLAVKDPLLWSPEEPNLYQLVTEMKLSGTKRSTVSQHTILEAVTHNVGFRHIRLDPHQGLLLNGSKFKLNGVCEHHDLGALGAAFNKTALARRFKILKEMGVNAIRTAHNMPAKELMELADEMGLLIVSEAFDMWERPKTPYDYARFFREWVQRDVKSWVKRDRNHPSLIMWSIGNEIYDTHADEKGQDITRMLMDEVYAYDPKQNARVTIGSNYMPWENAQQCADIVKVAGYNYAEKYYENHHREHPDWIIYGSETASIVQSRGIYHFPFDKSILADDDEQCSSLGNSSTSWGAKSAEACILAERDMPFSLGQFIWTGFDYIGEPTPYHTKNSYFGQIDTATFKKDSYYIYQAAWTDYKTKPMVHLLPYWDFNDGQMIDVRICSNAPKVELRLNGETVGTHDIDHARGRELVGWWKIPYVKGELKAIAYDETGRIVATDARQSFGDARRIVLRPDKEELRADGTDLIFVEITMEDEDGHSVENANNRVEVHVTGAGRLLGLDNGDSTDYDPYKGLSRRLFSGKLMAIIGATLEPGGIGIEVSSTGMERQSLHLTSIPVQDDVTQGISASMRNEEGPCLTGSRDEIPLRKIELISEKGQVFDPANRQMTVRAMLHPLTASYQEVEWAVVNDAGIESNIASVEANGHAAIVTALGDGEFRLRCTSRNGTGKTRLISQLEFKVDGLGAAYKDPYSFISAGLYDYSQGEVGNGNERGVATSRDGETQVGFRDIDFGPRGSDTITIPIFALSSEAYALQIWEGMPGEEGSSLLADCIYQKESKWNVYQEETYRLSKKLRGITSICFVLRQKVHIKGFYFQPGNRAFEPNFAADCDRIYGDTFTIVDNRFVQGIGNNVSLEFDEMDFSADGASKLVVYGRSALDKNTIHIRFAHLDGESNRLVEFRQADEYEEQVFDLEPVAGKQKVTFIFLPGSQFDFGWFRFVRTDS	PGPT0017810_371	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
AK002_02753	777			hypothetical protein	ATGAAGCAAACCCATAAACCGAGGAACAAAAGATGGATCAGGCCATTCATTTGGATATTGTCCATCTTGGCCATCATAATCATCGCAGGACTTGCCATACTGGACTCACTTACTTACGAGCCGCTGGATGAAGCGAAAGCGGTATTTCAAAGCGACACGAGGGTGGCGGTTGAACGCATTCAAGACGGCTATCGCTTCGAGCCTGTAGAAGGGCAGATGATTCAGCCCGACATTATTTTTTATCCGGGCGGATTGGTGGAGCCCGAAAGTTACGCGCCTTTTGCCAAGAGAATGGCAGAGAAAGGGCATCGCGTTTATGTTGCCTCCATGCCACTGAATCTCGCCATATTCGGACAGAACAAGGCGGATTCCTTCATAGCGGAGCATCCAGACAACCGATATGTCATCGGCGGACATTCCTTAGGCGGCGTTTTTGCCGCGAGATATGCCAAGGAACATGCGGATGTCATTGAAGGGGTCTATTTCATGGCCTCATACGCTGACGATGGGGGCAATCTGAACGGATTAAACCTGTCCGCGCTTCAGATTACCGGTACGCAGGACGGCGTTCTTGATCGAACGAAATGGGAGGCTGCAAAAAAGAATCTGCCGGACGCTACCACCTATGTAGAAATTGAGGGCGGAAATCACGGGCAATTCGGAGCTTACGGTATGCAAAAAGGAGACCATGAACCCGCCATCACCGATGCCGAGCAGCTGGACGAAGTGTCGGAGGCCATGGGACATTGGCTTCAGTCTATGGATGAATCCCTGTAA	MKQTHKPRNKRWIRPFIWILSILAIIIIAGLAILDSLTYEPLDEAKAVFQSDTRVAVERIQDGYRFEPVEGQMIQPDIIFYPGGLVEPESYAPFAKRMAEKGHRVYVASMPLNLAIFGQNKADSFIAEHPDNRYVIGGHSLGGVFAARYAKEHADVIEGVYFMASYADDGGNLNGLNLSALQITGTQDGVLDRTKWEAAKKNLPDATTYVEIEGGNHGQFGAYGMQKGDHEPAITDAEQLDEVSEAMGHWLQSMDESL				NA	NA	NA	NA	NA
AK002_02754	2385			hypothetical protein	ATGAATGTGGCATATACAGATTACGCCGATACGGGATATCGGCAGGCTGAGCAGAAGGCTGCTCAGTATTTTGCATCGCTCCATGTACAGGTTAAGGATAAGAGTTATGTGCCTATGCTGACTGAAGACATTCTCATATGGAAAAGAAAGCATGTTCAACGTCAATCATGGCTGTCCTCTATATTGCCGTCGAAGAAAAAGCCGGATAACCGGGATTATCATAGATACATCGGATGGCTCAACTATACAGGCGAATTGGATGATTATTTGGATCGAAGCATCTCCTATATTTATATGAGGGATCTGGGCATGGCGCTGGATTCCACTGATACGAAAGAGAGAATACGACGCGTTGTTGCGAATACCCGAAAACTTCTGGTTCGCTCAAACGGAGCAAAAGAGGGAGACACGCCGGATTTTATGAGTCTGGCGGGATTGTACCGTTGGGCGCAGAAGGAAGGCATTGAAACAGCCGTGATTTGGGTCATCAACAAACTGAAGCATGTAGCCTCCCATATCCCGGACAAGATGGATGCAGAGCAAGCCCAGCGCAAATTAATCAAAATTATCGTTGGGGTTGTCATGCATGTTATGGAAGATTTGAATGGAGAAACATCGCCAGCGGAACGCTCATCGCGTCTTGACGATGCGATCCGACTGGGGTATTCCTACGGGTTAACCTATCCTTTCATAGACGACCTGCTCGATTCAGGGGTTTTGAACGCCCAGGAGAAGGAACAGTACTCCCACATGATACGGCAGGCCCTGCTTACCGGGAAAGTACCAGAACTTGGCCAGTGGAGCGGTAAAAACATGGAGCTCGTTCATTTCGTGCATCAGGAGCTCCGGGATGCATTCGAGTATATTCAAGGACGGCAGCGCCCGGAAACGCAGCAAACTTTTTTCGAGCAGTCCAACGTGTTTTTTCATTCGCAGCATATTGACCGTATCAAGGACCTTGCGAATCCCGATTACACCAATGAAGAATTATATCTGCCGATCATCCTGAAATCCTCTTCCTCGCGATTGATTGTCCGTTCTGTTATAAGCGCTGCGGCGGATGGAGGCTTCGAGGACCGAACGTTCTATTATGGGATCTACAACCAGTTGGCCGATGATTTTGCCGATATGTTCCAAGACTTGAAGGACGGGGCGGTAACACCTTACACTTACTATTTAAAATATCGCGGACAACGCCAGGACCTCATCAATCCTTTTGAATTATACTGGGCAGTGATTTCCCACCTGATTCATAACGTGTACCATTCGGACGCCAAGACGCGAGAAGTGATGCTCGACCGGGCCATCAATGGCCTGAAGCGCTGCAAAGAACGCGTCGGCACCGAGAAATACAATGAAATCATGGATATTTTCGCTTCCGGGAACCCGGAATTCAATCGTCTTATCCAGCACATGGTCTCCAAAGCCGATCAGGTGGATTTCCTTGATAAATTGCTGCGTGATCAGATGGTAACCGTACTTAGAAACGAGCGGAAAGAGAAGGATTATTTTATCGATACGTTTAAATCCGTTCGAGATGAGATTAACCAACATTTGCAAATCGACAAGACTCCCGGCATACCGCCGATGAAAGAGTCGCTGATCGATGCGGCCAATTATTCGCTCGAAGGGGACGGCAAGCGCCTGAGACCCATACTGACTTGGGTAATGGCCGTGAAGGAATATGGACTGCAGGCATCAGCCATCGTGCCGCTGCTGAGATCGCTTGAATACATGCACACCGCTTCCTTGATATTCGATGATTTGCCTTCCCAGGATAACGCCTCTACTCGTAGAGGGCGGCCGACCTTGCATCAGGTTCACGATAGCGCCACGGCGGAAATTACCGGTTTGTTCCTAATACAGAAGGCGATCGAAGAGCAATCCTCCCTGGAAGGGTTTGACCCGAAAACGGTGTTGAAGCTGATACGGTATTCGTCCCAGCGAGCGGGAGATATGTGTTCCGGCCAGGCGATGGATTTGAATTCAAAAGGAAAGGCCTTGTCATTGGAGCAGTTGAATACGGTTTGTTACTACAAGACGGGGATCGCGTTCGAGGCATCGCTGGTTATGCCCGCCATTCTGGCTCAGGTGAAGGAGACGGAAATCGCAATCCTGAAGAAATTTGCTTACCACGCAGGCATTGCTTTTCAGATTCAGGATGATTTGCTGGATGTGCAGGGGAACGTGGAGCAGCTTGGCAAACCCGGGGGACAGGATGCGGAGAACAACACATCGACCTTCGTGAGCATTCTGGGGCAGGAAGGGGCCAGCCGGGAAATGTGGGATCATTATTGCCAGGCGATGGAGGCGCTGCAGGAAATGCCGCGCAATACGGCGTTTCTCAAGCATCTATTGAACTATATGGTAAATCGTGAACGTTAA	MNVAYTDYADTGYRQAEQKAAQYFASLHVQVKDKSYVPMLTEDILIWKRKHVQRQSWLSSILPSKKKPDNRDYHRYIGWLNYTGELDDYLDRSISYIYMRDLGMALDSTDTKERIRRVVANTRKLLVRSNGAKEGDTPDFMSLAGLYRWAQKEGIETAVIWVINKLKHVASHIPDKMDAEQAQRKLIKIIVGVVMHVMEDLNGETSPAERSSRLDDAIRLGYSYGLTYPFIDDLLDSGVLNAQEKEQYSHMIRQALLTGKVPELGQWSGKNMELVHFVHQELRDAFEYIQGRQRPETQQTFFEQSNVFFHSQHIDRIKDLANPDYTNEELYLPIILKSSSSRLIVRSVISAAADGGFEDRTFYYGIYNQLADDFADMFQDLKDGAVTPYTYYLKYRGQRQDLINPFELYWAVISHLIHNVYHSDAKTREVMLDRAINGLKRCKERVGTEKYNEIMDIFASGNPEFNRLIQHMVSKADQVDFLDKLLRDQMVTVLRNERKEKDYFIDTFKSVRDEINQHLQIDKTPGIPPMKESLIDAANYSLEGDGKRLRPILTWVMAVKEYGLQASAIVPLLRSLEYMHTASLIFDDLPSQDNASTRRGRPTLHQVHDSATAEITGLFLIQKAIEEQSSLEGFDPKTVLKLIRYSSQRAGDMCSGQAMDLNSKGKALSLEQLNTVCYYKTGIAFEASLVMPAILAQVKETEIAILKKFAYHAGIAFQIQDDLLDVQGNVEQLGKPGGQDAENNTSTFVSILGQEGASREMWDHYCQAMEALQEMPRNTAFLKHLLNYMVNRER				NA	NA	NA	NA	NA
AK002_02755	795			hypothetical protein	ATGAGTGATCCATTGTATGAGCACCGGTTTTGGCTGCAGATTCTTGGGGACCACTGCCGGTTTATTTTTACTGCGCTGTCGCCTAAGGAAAAAGCGGACATCGCTACCGCTGAATCCTTAATGACTAGATTTGATAGGCTTCTCAGTGAATCTCGGCGACCGGATGCATCCGCATTCATCGCTAAACTGAACGAAGAAGCCCTTCGTGCTTCGCAAGAATTGCGCGAATTCAAGCTGAGTTTATTAGAACGGCAGCTTGCAGGCACCATAGATTTTCTCCTGACCCCGTCCTTTATCAACCACATGGTAAATGAATTGGAGGAATACCTGCGAATTTTGCAGGCCTTGCAAGAGGGGAAGGGAGTGCCGCTGTTCCATCCTTTGCATTATGATATGGTCTGGCTGCAGGATGCATTTGGTCATGCGGCAAGTCTGGCCGCCGATCTGGATTTTGCCGAAAAGCCGTTGATTGCCAAAAGCATGGCGTTCCAAAAGGATTTTGAAGGGTTTTATCTAAAGGCTGTTGAAATGACAGGGTATCTGCGGACCCGCTTGAAGGATTTTCCCGCCCTCCGCAAATTTCATGCCGATATAAACCTGGAAATGAGAGTGTTCATGCACTTTCTGTCGGAACTCGAGGAGCTTGAGCTGCGCGGGGAAGTGCTGGACCGGATCAATCCGCTGATGCCGGATCATATGTATCGGGAAGAATGTTATTATCTGTCCAAGCTGGCTGCTCTGGGCGAAATACAGAGCCCGAACTGCGATCCGACGAAGCCGAGAGTCACTGGTTGA	MSDPLYEHRFWLQILGDHCRFIFTALSPKEKADIATAESLMTRFDRLLSESRRPDASAFIAKLNEEALRASQELREFKLSLLERQLAGTIDFLLTPSFINHMVNELEEYLRILQALQEGKGVPLFHPLHYDMVWLQDAFGHAASLAADLDFAEKPLIAKSMAFQKDFEGFYLKAVEMTGYLRTRLKDFPALRKFHADINLEMRVFMHFLSELEELELRGEVLDRINPLMPDHMYREECYYLSKLAALGEIQSPNCDPTKPRVTG				NA	NA	NA	NA	NA
AK002_02756	1344	rhaR_24		HTH-type transcriptional activator RhaR	ATGCAGACCGGTGAAATCGTTCAACGCGCCATTGATTTTGTCGAAGATCATCTCACGGAACCGCTGGCACTCGAGGAAATTGCCGGCGTGGCAGCCATGTCATTGCCGAATCTCTACCGATTGTTTCACAGTATAACGGGACACCCCGTCAAGGAGTACATACGAAAACGCAGGATCAGCGAGGCCGCCAGCTGTTTGCGCAATACCGATCTGCCGACCCTCGATATCGGGTACCGCTGTGGATTTGAGTCCTACCCGGCATTCATGAAATCGTTTAAAAGGTGCACAGGACTAACTCCAGGAGCATACCGGAAATCTCGGCTGATCTACAGTTTTGAACGGATGAACCTGAATGAACGGACAACATTCATGGGAGAGCAGGATGCCTCTGAACGCTTTCCTGAAGTAAGGGTTACCCGTTTGCTTCCCGGGAAAGGGATTGGTTGTCTGTTTGCTGCCGAGCATGAGAAAGGGATAGAAGCCGCTGCGATCGATCATTTCCGGACGCTTATGTCTTCTCACCATATCGATATCAATGAGCTAAGGCTCTTCGGTTGGAACGTGGATCTGGAGGATGAAAGCAAGCCGTTCGGATATCAATTGCTCGCTGTTGACGTGAAGGAGCGGGCCTGGATGATGAAGCATCCAGAATTGAAAGCCATCGTTCTTGATGGCGGGCTGTATGCCGTGGTCCGAACGCCATCGGTGGCGGAAGACTGCATTCAGAACACATGGGATCGTTTGTTCTCCGAATGGCTGCCCCGCAGTGTGTTTGAGCAAGGAAAGCATGGTTTCATGGAAGAATATGTACTGAACAAGAATCAAATCGTTCGGATGAAGCTTTTCCTTCCCGTGGAACGAAGCAAAATGATGGGAAAGATCGAAATTGTGGAGTTGTCCACGCTTAAGGCGATAGCCTTTCGCAGAAAGGGGCCGGACTGCGTGGAACAAGCGGATGAAGCTTCGATTGCCTGGTTATCTCGTAAGGGGTTTAGGGGTGACTCGCGTATTCGCGTATTCATGCGCTGTGACGACGCTCTGCTGAAGCAAAGCTCCGCCTACGAGATTTATATAGTTCCGCCGGAGGAGTTCCTCCCATCCCTTGAAGATAAGGACGTGCAGGTTGAGTTGGAAGGCGGTCCCTATGCCTGCCTGGAATCAGGTGCCTATGGCACGATGACAGGCGTACTTCATCGAATTTACCGATGGCTCGATGCTTCAAGCGAGTTTACGCCGGATCCAGAACGCCGGTGGTATGCCAGTTACGACCTGGAGGGAGCGTCAGATGATGGAATGATCCAAGCGAAGTGTTATGTTCCGGTAAAAATCAAGCAGCAGACATAA	MQTGEIVQRAIDFVEDHLTEPLALEEIAGVAAMSLPNLYRLFHSITGHPVKEYIRKRRISEAASCLRNTDLPTLDIGYRCGFESYPAFMKSFKRCTGLTPGAYRKSRLIYSFERMNLNERTTFMGEQDASERFPEVRVTRLLPGKGIGCLFAAEHEKGIEAAAIDHFRTLMSSHHIDINELRLFGWNVDLEDESKPFGYQLLAVDVKERAWMMKHPELKAIVLDGGLYAVVRTPSVAEDCIQNTWDRLFSEWLPRSVFEQGKHGFMEEYVLNKNQIVRMKLFLPVERSKMMGKIEIVELSTLKAIAFRRKGPDCVEQADEASIAWLSRKGFRGDSRIRVFMRCDDALLKQSSAYEIYIVPPEEFLPSLEDKDVQVELEGGPYACLESGAYGTMTGVLHRIYRWLDASSEFTPDPERRWYASYDLEGASDDGMIQAKCYVPVKIKQQT				NA	NA	NA	NA	NA
AK002_02757	504			hypothetical protein	ATGAGCAGATGGCCTGTCGGAAAAGAGCTGCCGGAAGGGTATCGACCGTTTAAGGCACCACGCGTACTTAAGATGATCCAAGGAGGCAAAACCATGAACGAATCCATACAGAATACGGACAACCATACACAGGCAAGCCCGATTAAGAACAAGGTGGGCAGCATCTTCATTCCGGTCCGGAATATCGAAGCGTCGCGCAGCTGGTACTGCCGCGTTCTGGGCATACCAGAGGCCGATTGCCAGATTATGAATGGCCATTTATGCCCATTGCCCATGGAAGGTACGGGCGTGATTCTGGATACGATGCCGAAGTGGGGAGGAGACCAGCCCGAGGGAGCGCCGTCTATCGATACTCCCGCCTTTATGCTAATGACAGAGGACCTGGAAGGTTCTTTGGAATATATGAAAAAGCTCGGCGTGGAACTCGTGACGGAAATCGAGCACAATCATTGGTTCGTCGTGAAGGATCCCGATGGGAACAAACTCATGATTTGTCGTGAATAA	MSRWPVGKELPEGYRPFKAPRVLKMIQGGKTMNESIQNTDNHTQASPIKNKVGSIFIPVRNIEASRSWYCRVLGIPEADCQIMNGHLCPLPMEGTGVILDTMPKWGGDQPEGAPSIDTPAFMLMTEDLEGSLEYMKKLGVELVTEIEHNHWFVVKDPDGNKLMICRE				NA	NA	NA	NA	NA
AK002_02758	1233			hypothetical protein	ATGCTAAGAAAAGGAATATGTGTAGTTCTGCTGTTTAGTCTTCTGGTCGTTCTATTGCCTGTGAACAAAACCAATGCGGCGCCGAGCTGGAATTTGGTATGGAGTGACGAGTTTAACGGGACCTCGCTCAACAGATCCAATTGGACGCCGGAAATCGGTACCGGCAGCGGGGGATGGGGAAACAATGAGCTGCAGTATTATACCGATCGCGCGCAGAACGTGCAGGTCACCGGCGGTAATCTTGTCATTACGGCTCAGAAGGAATCCTATGGCGGGATGAATTACACCTCTGCCCGGATCAAAACCCAGGATTTGAAGAGCTTTACTTACGGAAAAGTGGAGGCACGAATCAAGCTGCCGTCGGGCCAAGGCTTGTGGCCGGCGTTTTGGATGCTCGGAAGCAACATCAGCACGGTCGGCTGGCCGAAGAGCGGAGAGATCGACATTATGGAACGGGTAAACCTGAATCCATACGTAAATGGTACCGTTCACTGGGATGCAGGAGGTCACGCCGAATTCGGTCGTGTATCCGGCAATCTGGATTTTTCCCAGTTCCATGTCTACAGCATTGAGTGGGATTCTAAATACATCCGCTGGTTTGTGGACGGTCAGCAGTTCAATGAATTTTATATTGAGAACGGAACGGGCAATACCGAGGAATTCCAGCGTCCGTTCTTCTTATTGCTGAACTTGGCGGTTGGCGGAAATTGGCCGGGCAGTCCAAACAATTCCACGCCGTTCCCTTCGCAGATGCTGGTGGATTACGTGCGCGTGTATCAGGACACGGGTGCATCGAATGTCATCAGCGACGGGATTTACACCATCGCTTCCAAGGCGAGCAGCAAAGTGATGGATGTCGTGGATGTGTCCACGGCCAGCGGCGCCAAAATCCAGCAGTGGACCAACTACGTCGCCAATAACCAAAGGTTCCGGGTGGAAAGCACGGGAGACGGATTCTACAAACTCACGGCCGTGCACAGCGGCAAAGTACTCGACGTGCCGAATTCATCCACTTCGACTGGCGTTCAGCTGCAGCAATGGAATGATAATGGTACGGATGCACAGCGATGGAGGATCATTGATGTTGGCGGCGGTTATTATAAACTTGTGTCCAAAGCGAGCGGGCTTGTAGTCGATGTAGCCAGCGCCTCCACCGCGGACGGTGCTGCTGTCCAGCAATGGACGGACAATGGCACGGATGCGCAGAAGTGGGCTTTCACCAAAATCAATTAA	MLRKGICVVLLFSLLVVLLPVNKTNAAPSWNLVWSDEFNGTSLNRSNWTPEIGTGSGGWGNNELQYYTDRAQNVQVTGGNLVITAQKESYGGMNYTSARIKTQDLKSFTYGKVEARIKLPSGQGLWPAFWMLGSNISTVGWPKSGEIDIMERVNLNPYVNGTVHWDAGGHAEFGRVSGNLDFSQFHVYSIEWDSKYIRWFVDGQQFNEFYIENGTGNTEEFQRPFFLLLNLAVGGNWPGSPNNSTPFPSQMLVDYVRVYQDTGASNVISDGIYTIASKASSKVMDVVDVSTASGAKIQQWTNYVANNQRFRVESTGDGFYKLTAVHSGKVLDVPNSSTSTGVQLQQWNDNGTDAQRWRIIDVGGGYYKLVSKASGLVVDVASASTADGAAVQQWTDNGTDAQKWAFTKIN				NA	NA	NA	NA	NA
AK002_02759	1599	nfdA		N-substituted formamide deformylase	ATGCAACCTGTCCTTTTTACAAACGGCGCTCTTTATTCACCGCACGCTGCAACGACTGCGGATTCGATATATGTAGAAGACGGCATCATTCGTGCCATGGGAAGTGCGGCCGAGCTGCGCTTGCAGTTATCGGGACGGGATTATCAAACGGTGGATTGGGAGGGTGCTTTCGTGCTGCCAGGCCTGGTGGATGCCCATATGCATCTCGGCATGCACGGACTCAAGCTGGGCATGCTGGATTTCACCGAGGCGGCTTCGAAAGACGAGATGCTGGCTATGCTGCGAGCTCGGGCTGCGGTAACGCCGCCTGGGGAGTGGATTATGGGGCTGAACTGGAACGAGAACCATTTTCCGGACCCGGTGATCCCGAATATGATGGAGCTTGACGACATCACAACGGAGCATCCTGTATATCTGACGAGAACCTGTTTCCATGCTTTCCTCGGTAATTCGGAAGCGTTTCGAAGAGCGGGAATCACTGAGGACACGCCCGATCCGGAGTCCGGCGCTTTCGGCCGGGATGCCGCTGGCCGGTTGAACGGCTGCATCTACGAGAATGCTTCGATGCCTTTTACCATGGTCCAGCCGGAGCCTGACCCGTCCAGGCTGAAAGCTGCGATGCTTCAGGCATGCCGTGATGCCCTTCGGCTCGGCCTGACGGCAGCGCATACGGAGGACCTCCGCCTGCTGGGGAGTGTGGAAGCGATGCAGCGGATCCACCGGGAACTGCACGAGGAGGGACTGCGCTTCCGTACCCATCAGCTGATGTTCCATGGCTTTCTTGATGAAATGGAGGAGCTCGGCATCAAGGCAGGCAGCGGGAACGACTGGAATCGCATCGGAGCGGTTAAATTGTTCGCTGACGGAGCGGTTGGAGGAAGAACGGCGCTGCTCAAGGAGCCTTACCATGATGCGCCGCATACCCGCGGATTGGCCATGCATTCGCCGGAGGAGCTATGGGAGATTGTTGGCAGGGCGCGCAGGCTGGGTTATCCCGTAGCTTTTCATGCGATCGGTGACGGCGCGGCAGAGATGATGACGGATGTGCTTGAAATCCATCCGCTAAGCAGAGCCGCCAAGCTTCCCGACCGCTTCATCCATGCCCAAATTGTACATCCCGATACAGTTAAGCGAATGAGCAAGCTGAAGCTGGCCGTGGACCTGCAGCCTCGGTTTGTGGCCAGCGATTTTCCATGGGTGCTGGAGCGCGTAGGTCCTGATCGGACAAGCTGCTTGTATGCATGGAAGAAGTGGCTGCGCACGGGGCTGCCTTGTGCAGGCGGCAGCGACGCTCCCATAGAGCCGCTGAATCCGCTGCTCGGGATTCATGCTGCCATCACCAGACGCAAGCCGGGGGAGGATCACGCAGGGTATTTGCCGGAGGAGAAGCTCAGCCTGACTGAAGCGATCGGGCTGTTTACGCTCGGCAGTGCGGGGGCAGCGGGAGAAGCGGATCAACGGGGAACACTGGAATTGGGCAAATATGCCGATTTTACGGTGGTGGATCGCTGCTTGCATAATGGGATAGATCCGGACGAGCTGCTGGAGACGAAGGTCAGAATGACGGTGATTAACGGGGAAATCGGTTATGCCGAGTAG	MQPVLFTNGALYSPHAATTADSIYVEDGIIRAMGSAAELRLQLSGRDYQTVDWEGAFVLPGLVDAHMHLGMHGLKLGMLDFTEAASKDEMLAMLRARAAVTPPGEWIMGLNWNENHFPDPVIPNMMELDDITTEHPVYLTRTCFHAFLGNSEAFRRAGITEDTPDPESGAFGRDAAGRLNGCIYENASMPFTMVQPEPDPSRLKAAMLQACRDALRLGLTAAHTEDLRLLGSVEAMQRIHRELHEEGLRFRTHQLMFHGFLDEMEELGIKAGSGNDWNRIGAVKLFADGAVGGRTALLKEPYHDAPHTRGLAMHSPEELWEIVGRARRLGYPVAFHAIGDGAAEMMTDVLEIHPLSRAAKLPDRFIHAQIVHPDTVKRMSKLKLAVDLQPRFVASDFPWVLERVGPDRTSCLYAWKKWLRTGLPCAGGSDAPIEPLNPLLGIHAAITRRKPGEDHAGYLPEEKLSLTEAIGLFTLGSAGAAGEADQRGTLELGKYADFTVVDRCLHNGIDPDELLETKVRMTVINGEIGYAE				NA	NA	NA	NA	NA
AK002_02761	1044	asd		Aspartate-semialdehyde dehydrogenase	ATGGTGGGTCAACGTTTTATGCAATTGCTGGATGGGCATCCATGGTTCGAAGTGACCACCATTGCAGCCAGCCGCAATTCGGCCGGCAAAACGTATGAAGAATCCGTGCAGGGCCGCTGGAAGCTCGCTACGCCGATCCCTGAGCAGGTGAAAGGCATTGTCGTGCAGGATGCATCGCAGGTGGAACAGGTTGCCGCAGAGGTTGACTTCGTATTCTGCGCGGTCGACATGAAGAAGAACGAGATTCAGGCATTGGAAGAGGCCTATGCCAAAACGGGCACGCCCGTCATCTCCAACAACTCCGCCCATCGCTGGACGCCTGACGTTCCGATGGTCATTCCGGAAATCAATCCGGGTCATATCGACGTGATTGCCGCACAGCGCAAACGTCTGGGAACAGCAACCGGGTTCATTGCGGTGAAGCCGAATTGCTCCATTCAAAGTTACGTGCCGGCGCTGCACGCTTTGCTTGATTTCAAACCTACGAATGTCGTTGCTTCCACTTATCAGGCGATTTCCGGGGCCGGCAAGAACTTCACCGATTGGCCGGATATGCTGGACAACGTGATTCCGTATATCGGCGGCGAGGAAGAGAAGAGCGAGCAGGAGCCGCTTCGCATCTGGGGAAGCGTTGTGAACGGGGAGATCGTGAAAGCTGAATCCCCATTGATTACGACGCAATGCATTCGCGTTCCCGTAACCGATGGCCATTTAGCTACCGTATTTGCGTCGTTCGAGAACAAGCCGTCGAAGGAGGAAATCCTGGAACGCTGGCAGCAGTTTAAAGGCAGACCGCAAGAGCTGGAACTCCCTAGTGCGCCTAAGCAATTCATTACGTATTTCGAAGAAGAGAACCGGCCGCAGACCAAGCTGGATCGCGACATTGAGCGCGGAATGGGCGTTTCGGTTGGCAGATTGCGCGAGGATTCCCTCTACGATTATAAATTCGTGGGCCTCTCGCATAATACGCTGCGCGGTGCAGCCGGCGGAGCCGTTCTGATTGCGGAATTGTTGAAAGCGGAAGGTTACATTCAAGCTAAATAA	MVGQRFMQLLDGHPWFEVTTIAASRNSAGKTYEESVQGRWKLATPIPEQVKGIVVQDASQVEQVAAEVDFVFCAVDMKKNEIQALEEAYAKTGTPVISNNSAHRWTPDVPMVIPEINPGHIDVIAAQRKRLGTATGFIAVKPNCSIQSYVPALHALLDFKPTNVVASTYQAISGAGKNFTDWPDMLDNVIPYIGGEEEKSEQEPLRIWGSVVNGEIVKAESPLITTQCIRVPVTDGHLATVFASFENKPSKEEILERWQQFKGRPQELELPSAPKQFITYFEEENRPQTKLDRDIERGMGVSVGRLREDSLYDYKFVGLSHNTLRGAAGGAVLIAELLKAEGYIQAK	PGPT0014045_1749	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
AK002_02762	1377	nhaC	COG1757	Na(+)/H(+) antiporter NhaC	ATGGAACGACATCTCAGTTTCTCAAAAAGCATCATTCTTATCGCGTTTATTCTGGCGCTGCTGTTTGTCTCCATCTTTTTGCTGAAAGCAGAGCCGCATCTTCCGCTCTTGGCAACCACCGTCGGTACGGCGGCCTTGCTGCGTTTGTTCGGGTTTTCCTGGAAGCAGCTCGAATCCGCCATCATTCAAGGAATTCAAACGGCGATTATGCCGATTCTCATTCTTTCGCTCATCGGCATTTTGATTGCGGTATGGATGATGAGCGGCACGGTACCGACCATTTTATACTATGGCATGGATTATATCGAACCGCATTATTTCGCCGTGAGCGCATTATATGTGACCATCGTGGTCTCGATGTTCACCGGAAGCTCCTTCACGACAGTCAGTACGGTTGGCGTTGCCTTTATGGGAATTGCGGTAACGACAGGAATTTCTCCGACGCTGGCAGCCGGAGCGGTGATTTGCGGCGCTTGCTTCGGTGACAAAATGTCGCCGCTCTCCGACACCACGAACTTTGCTCCCGCAGTCGCCGGCATATCCTTATTCACCCATATCGGCAATATGATCTACACGACAGTGCCGGCCCTTGTGGTGACAACGGTCTTTTTCCTGCTTGCGCCCACAAGCAACGCGCTGGATTTGTCCTCGATAAATCTAATCAAGGCGGCGCTTCATGACGGATTCCATATTCATTGGCTGACGTTGATGTCGCCGCTTGCCGTTATCGCCTGTTCCGTCAAGCGTATGCCGATCCTGCCGACACTCATCGCAGGCATTGTAACCGGACTGATCGTGACGGCCTTCGTTCAGCAGCAGACAGCCGTCGATGTTTGGTTCAGCGTAATGCAGAGCGGCTACAAGAGCACGGTTGCCAACGAAACCGTTGCTTCCATTGTCAACCGCGGCGGATTGCAATCCATGATGTGGTCCATATCGCTGATCTTGATTGCATTATCCTTGGGAGGGCTGCTTCAGCATTGCGGCGTCATCGAAGCCTTCTTCCGTAAAGTCATGCAGCCGCTGAAGCGCAGCAGCAGCGTGGTCGTGATGACGGGTGCATCTTCCATCGCGGTTAACGGCATGACGGGCGAGCAGTATTTATCGATCCTTTTGCCCGGTCAAATGTTCAAGGAGGAATATACTCGCCGAAACATACCGGCCAAGACGCTGTCACGCACATTGGAGGATTGTGGAACGCTGGTTAACCCTTTAATCCCATGGGGCGTTAGCGGTGCTTTCTTTGCATCAACCCTTGGAGTACCGGTCATCGAATACGCACCTTATGCAACTTTCTTGTGGCTAAGCCCGCTCTTTACGTTTGCATACGCTTGGATACCGCGATTGCAGCGGAATTCGCTTGGCAGGAAAATATGA	MERHLSFSKSIILIAFILALLFVSIFLLKAEPHLPLLATTVGTAALLRLFGFSWKQLESAIIQGIQTAIMPILILSLIGILIAVWMMSGTVPTILYYGMDYIEPHYFAVSALYVTIVVSMFTGSSFTTVSTVGVAFMGIAVTTGISPTLAAGAVICGACFGDKMSPLSDTTNFAPAVAGISLFTHIGNMIYTTVPALVVTTVFFLLAPTSNALDLSSINLIKAALHDGFHIHWLTLMSPLAVIACSVKRMPILPTLIAGIVTGLIVTAFVQQQTAVDVWFSVMQSGYKSTVANETVASIVNRGGLQSMMWSISLILIALSLGGLLQHCGVIEAFFRKVMQPLKRSSSVVVMTGASSIAVNGMTGEQYLSILLPGQMFKEEYTRRNIPAKTLSRTLEDCGTLVNPLIPWGVSGAFFASTLGVPVIEYAPYATFLWLSPLFTFAYAWIPRLQRNSLGRKI	PGPT0013945_1418	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
AK002_02763	729			hypothetical protein	ATGAACCAGTGGATAGGAAATGAGCCAACCGCTAAGGATTTGATGGAGATGCACGCACGGGTTATGTTTACGCATGACCTGGATAGTCGGATACGAACCATTAACGAGCCTTGGCCGGGAGAGGAGCCGGCTCCCCGATTTTTCTTGGGTCGAACGATCGACGATTCAGCCGTTTGCAGGCTTCGTTATGATATTCCGGACAAACTTGCCGAACAACTGACGGCGCTGGTTGAAAATGAACCGTCTCTTAACGAAGATTTTCAAACGAGACCCAAGCACTTCGATGACTACATGAATCTGCTGGCTGCTGATCAATATACGAGCGGACCTTGTTATCGGATTCCTGACATCACAACGTCATCGCCGACCATGCAGGCGGTATCGATCACCGGAGACAATATAACCGAGTATTCGCTCGCCGGTTTGGAATGGCTGATCGCGGAAATCGACTACGACCAGCCTTGTGTCGCGATCATTCAAGATCAGAGGGTGGTGTCGGTCTGCCGGAGTGTTCGCGTTTCTGCGGAAGCGCACGAAGCCGGACTGGAGACGTTAGCCGAATTTCGAGGGAGAGGTTATGCGGCCGCCGTTGCTGCCGGTTGGGCAATCGAGGTGCGGAAGATAGGAGCATTGCCCCTGTACAGTACCTCATGGGATAATGCTTCTTCCCAGAGAGTGGCCGGTAAATTGGCATTGTCCTATTACGGCGTCAACTTCACGATTCGGTGA	MNQWIGNEPTAKDLMEMHARVMFTHDLDSRIRTINEPWPGEEPAPRFFLGRTIDDSAVCRLRYDIPDKLAEQLTALVENEPSLNEDFQTRPKHFDDYMNLLAADQYTSGPCYRIPDITTSSPTMQAVSITGDNITEYSLAGLEWLIAEIDYDQPCVAIIQDQRVVSVCRSVRVSAEAHEAGLETLAEFRGRGYAAAVAAGWAIEVRKIGALPLYSTSWDNASSQRVAGKLALSYYGVNFTIR				NA	NA	NA	NA	NA
AK002_02764	210			hypothetical protein	ATGTTAAGAAAAATCATGAACAAATTTCTCCACTCGACGTCCCACAGTCACGGCCGCAAGCGTTACAGCAGTTCTGCGAAGAATTACGGAAGAAAATACAGCAGCAGCCACGGTTATTCTCGCCGCAAAGGATCGTCATCCGATTACAAACGCAGGCACGGCAACCAAGGTCATGGCTATTATAAAAACAGAAGAGGCAGCTCAAGCTAA	MLRKIMNKFLHSTSHSHGRKRYSSSAKNYGRKYSSSHGYSRRKGSSSDYKRRHGNQGHGYYKNRRGSSS				NA	NA	NA	NA	NA
AK002_02765	852	ybdM	COG0515	putative serine/threonine-protein kinase YbdM	ATGCGCTTTTTATCAAACCTTGGCTCCTTTATCAACGCATGGCGGGATTACCCGGCTGAAGAGAATACAGTGCTGGGGAGTCGCTACACCGTCCAAGAAATGATTGGCGAAGGAAGTTACGGCATCATCTATCAATGTCGGGATCAACAGAGCGGACATGTAGTCGCCGTCAAACAGTCACGGCCGAGCAAAGGCGATTACGCCAAAGAATTGCTGAATCGGGAAGCCGCGATATTAAGCTCCCTTCAGCATCCGCAAATTCCGGCATATCGGGATTTTTTCACGGACAGCCGCCATTCGTATCTGGTCATGTCTTATATGGATGGGGATACGCTGGAGGATTTAATATTCGAACATGGCATGAAATACGGGGAAGCCGAATGTCTCCATATCGCCCTGCAGCTTCTAGAGCTGGTCCGTTACCTGCACGAACAAGGCTATGTTCATCTCGACCTGCGGATTCCCAATGTGCTGTTTAAGGATGGCCGTATCCATCTCATCGATTTTGGGCTGGCACGAAGGATTGGTGAACCCCCTCCTCTCCGGCAGCCTGCCCGAAAGAAGTTCCGGCGCGGCGGCACGAGCTCCTCTGTTCAATATAAAGAGTCGAAAGAAATCGAGGATCTCCGCGACATCGGTCACTTTATGTTGTTCATGCTCTATTCTGCCTATGATCCGGACGACGACCCGAGCGCAATCGGGGAACGAAGCTGGCAGGAAGAACTGCAGCTCTCGGATGAACTCCAGGATATGATCAAACGCTTGCTGCAGTTGAGCAGACCTTACTCCGGTTCCTTGCAATTCATGAACGAGCTCCAGACGCTCGCGAATGCAAAAAAACCGCCCCTCTGA	MRFLSNLGSFINAWRDYPAEENTVLGSRYTVQEMIGEGSYGIIYQCRDQQSGHVVAVKQSRPSKGDYAKELLNREAAILSSLQHPQIPAYRDFFTDSRHSYLVMSYMDGDTLEDLIFEHGMKYGEAECLHIALQLLELVRYLHEQGYVHLDLRIPNVLFKDGRIHLIDFGLARRIGEPPPLRQPARKKFRRGGTSSSVQYKESKEIEDLRDIGHFMLFMLYSAYDPDDDPSAIGERSWQEELQLSDELQDMIKRLLQLSRPYSGSLQFMNELQTLANAKKPPL				NA	NA	NA	NA	NA
AK002_02766	873	rhaR_25		HTH-type transcriptional activator RhaR	GTGGATTTTGCCGTCTTCCATCCCTATGTGCTGTATGCCACCAGATACCCCTTTTCCAAAGGTCAAAGCAATAACAACCGCCACTGTTATTCGTCATCCCTTTATCTCATTACCGAGGGACGGGGCATCGTTCGTACCTGTGGGCGAACGCACATCACCGACCCAGGTTCCCTTGTGTACATACCGGCAGGTCAGCCGCATGATTGGATAGCGGACAGACGGGATCCCATGGTCCATGTGTGCTGTTATTTCGACTGGGCCCATGTGGACCGCAGGCATTTGGCCGATCACCCCAGCGTAATCTGTTATGACATGGCCCAACTGAATCCTTCCTATGTAGGTCCTGCTTTTCCTTACGCCATACCCGAGTTCATGAAAGTAGAGAAAGTCAGCCTATGGAGCGATTGGTTTGAAAAATTCTACACCGGAAACCAGTATGAGAATGAGCATACCTATATGCGCAGCATGAAGACGCAGAGCCAATTCCTGCAATTCATCGAATACTTCCTTGCCTTCGCCCTGCAGGACGAGACGATACCCGATCACAGAATGAACAAGCTGCTGCAGCGATTGGATCAGGATATCCTTCACGGCAATCTGCGGCCGCTGGAAGCATATTATGAGGAGCTCCGGATCAGCAGAGGTTATTTCTTCGAATTGTTCAAGCGATCGACGGGGCTGCCGCCGACGCAATATATTAACCAGTTTCGCATCCATCGGGCCAAGGAGGATCTGCGCAATACGGACATCAGCATCACCGAGATCGCCGAGAAGTTCGGCTTCTCATCCATCCATTATTTTTCGAAGCTGTTCCGTCAGCTTAACGGACTGTCGCCGCTGGAGTATCGGAAACATCAGATGGAAGCCGACTGA	MDFAVFHPYVLYATRYPFSKGQSNNNRHCYSSSLYLITEGRGIVRTCGRTHITDPGSLVYIPAGQPHDWIADRRDPMVHVCCYFDWAHVDRRHLADHPSVICYDMAQLNPSYVGPAFPYAIPEFMKVEKVSLWSDWFEKFYTGNQYENEHTYMRSMKTQSQFLQFIEYFLAFALQDETIPDHRMNKLLQRLDQDILHGNLRPLEAYYEELRISRGYFFELFKRSTGLPPTQYINQFRIHRAKEDLRNTDISITEIAEKFGFSSIHYFSKLFRQLNGLSPLEYRKHQMEAD	PGPT0017485_436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_02767	1560			hypothetical protein	ATGCTGGACAGTCAATGGCTGTTGACGGATGAACAAATCTGCCAGTTTATTATGAAGGGGTATGTGGTGCTTCATAACGAATTGCCGGATCAGCTGCATGCTGAAGTCAGGGACAAAATCAACGCCGTACTGCACGAGGAAGGAAATCCCGGCAATAACATCCTGCCCCGTGTACCCGAGATTCAGCAGTTCTTCGAAACGCCGGTCGTGCAAGGGGCTTTGACGAGCGTGCTCGGACCGGACTACTACATGCATCCGCATCGGCATTGCCATTACAATCAGCCGGGCGATCCGCTGCCCGGGGGCGGACAGTGGCATAAAGACGGTTACTGGTCCAGCATGCGCAGCCACCGACCTTGGTGGGCGATGATTTTTTATTACATGCAGGATATCACCGAGGAAATGGGACCTACCGCCATCATGCCCGGTACCGCATACTACGATAAGTTCGTAGGCGATCAAGGCGAGACGATACTCCCGACCGGCAAAGCGGGAACGATGGTTTTGGTGCATTTTGATTTGTGGCACAAAGCTTCGCTTAATGTGTCAGGCATGGATCGATACATGCTAAAGTTTCAATTCGTTCGATTGCGTGCGCCGGAATCGCCGAGCTGGAATCATCTAGGGACCGAAATGAACCTAACGGGGGGAACCCCTTACGTGCACTGGAATCTTTGGAGGGATGTATGGAACTGGATGCGCGGCGAACCGGGTCAGGAGAACCTCTCGGCAACGGAAGACGAAGTCCCAATCGAGCCATTGGCCGAAGAATTAAAATCCGAGGACGAGGTCATTCGCGCCAGGGCGGCGGATCAAGTTGGAATGTTAGGAGAGAAGGCCGCTTCCTTAGCTCCAGAACTGGGCCGAATGTTGAATGACAAGGAGCCGGTAGCTTTGAATGCCGGTTATGCGCTTGGTCGGCTGGGATCCGCAGGAACCGATGAATTGTTGCGCCTTATGTCCGAAGGTACAAGGCAAATCGCGGAAAGAGCGGCTTACGGACTTCAGAGTGCCGGCGCTGGAGCCGTTCCAGGACTGCTGACACTTCTCGAACATACGGACGAGAAGCGCAGAGCGCTTGCTGCTTTCGCGTTAGGGGCGATTGTGCCTTCGACGCGTGAGGTTGCGTCTGCATTGATCGCATGCTTACAGGACCCGAGCGATTGGGTTCGTCGAAACGCAATCGAAGCGCTGGGCATGATGGGGAGTGAGGCGGGCGAAGTGTGCCAGGCCTTGGCCAGCATATTGGAAGAGTCGATATTGCAAGAGGGGGGCGGAACAGCGGAAACCCGGTATAACGACATCACGCAGCAAAGTTATATCCTGAACAAGCTCGGATATACCGCAGCCTTGTCATTGCTTCGAACGGCCTCGCCAGAGGATGTTCCCATCGTCATCCATTCGCTTGAGCAAGCGCTTCTCAGCAAGGATCGTTACGTCAGGGCGTATGCCTTCGAAACGCTTACCCATCTGCGGACACCCGAGGCGATGGATGTCCTGATCCGATATTACCGACCGGCCAGATGGTGTCCGGACACAACGAAGGCAAGCACGTTCTGA	MLDSQWLLTDEQICQFIMKGYVVLHNELPDQLHAEVRDKINAVLHEEGNPGNNILPRVPEIQQFFETPVVQGALTSVLGPDYYMHPHRHCHYNQPGDPLPGGGQWHKDGYWSSMRSHRPWWAMIFYYMQDITEEMGPTAIMPGTAYYDKFVGDQGETILPTGKAGTMVLVHFDLWHKASLNVSGMDRYMLKFQFVRLRAPESPSWNHLGTEMNLTGGTPYVHWNLWRDVWNWMRGEPGQENLSATEDEVPIEPLAEELKSEDEVIRARAADQVGMLGEKAASLAPELGRMLNDKEPVALNAGYALGRLGSAGTDELLRLMSEGTRQIAERAAYGLQSAGAGAVPGLLTLLEHTDEKRRALAAFALGAIVPSTREVASALIACLQDPSDWVRRNAIEALGMMGSEAGEVCQALASILEESILQEGGGTAETRYNDITQQSYILNKLGYTAALSLLRTASPEDVPIVIHSLEQALLSKDRYVRAYAFETLTHLRTPEAMDVLIRYYRPARWCPDTTKASTF				NA	NA	NA	NA	NA
AK002_02768	2085			hypothetical protein	ATGTCAGCATCAATCAAAAGAGTTCATGTCGTATTCAAGACCCATCTGGACATCGGGTTTACCGATTTGGGAAAGAACGTAATCGAGCGATATATGGAACATTTCATACCCCAGGCCTTGGAGCTGTCCGAACAGCTGGCGAATGAAGAGGGGGACGTAAAATTCGTATGGACGACCGGCTCATGGTTAATCCATGAATTTCTGCAAACGGCTTCTCCTGACATGCGGGCGCGCATGGAAAAAGCCATTGGGGATGGACGCATGGTTTGGCACGGGCTGCCGTTTACAACGCATACCGAGATCATGGATGCCAGTTTATTCGAATTCGGGTTGTCCATTTCGGACGATTTGGACCGAAAGTACGGAAAAAACACGATTGCCGCAAAAATGACGGACGTTCCGGGCCATACCCTTGCCATGGTGCCCCTGCTGGCAAAACACGGCATACAATATTTACATTTGGGCGTTAACATGGTCTCCAAAAATCCCAAGGTGCCGGAGATGTTTGTATGGCGTGCTTCCGACGGTTCGGAGATTATCGTACATTATGCGGATAGTTATGGTAAGCCCTATCGGATGGAAGGGCTGGAGGATGCCTTGTATTTTGCCCATACCCACGATAATCATGGTCCATCCACGATGGAAGAGATCCGGGCATTATTCGAACAGCTGCGACGGGAATATCCAGGGGCGGACATCATGGCCTCGACATTGGATGCTTTTGCCGCGCGGCTTCAAGCCGTGAAAGACCGATTGCCTGTCGTCAGCGAAGAGATCGGGGACTCGTGGATACACGGGATTGCCTCGGATCCTTGGAAAATCGCCCGCTACCGCGAATTGTTAAGGCTTCGGGATCGCTGGATCGAGGCTGGTCGATTGGATAGGGACAGTGAGGCGTACGCTCGATTTTGCAACCGTCTGATGTTGATTCCCGAGCATACTTGGGGGCTGAACAATTCCGTGTATCTCGTCGATTTCGTGAATTATTCCTCGGCTGACCTAGCCGCAGCAAGAGCACGGGATATTGTTGAAAACAATACACGGAAGAAATTCGATTACCTATGCCAGCAGGCAAACGGCACCAGATCGTACAGCCATTACGAGAGTTCCTGGCAGGAGCAGCGGGATTATCTTGAAGAAGCCCTTCAATCGCTGCCCACGACGCTAGCGGCTGAAGCGAGAACCGAGCTGGATCGGATGAATCCGCAGCATACCGTCCTTAACTCGGAGCCGGTGCAGCATAAACAGCCGATCGAAACGAACGAGCTTTACGAATTAGGCCAGTTTCAGGTGAGCTTCGCTGCCGACGGTTCGATTAACCGATTGATGGATCGATCCGGAAAGGCATGGGCGGGAGAGCATCAGAGACTTGGCACTTATATGTATGAAACCTTCGGCCAAGAAAACTACAACCGTTTTTTCAAAGAATACATGACGAATCTGGATATACATCATGGCTGGGCGGATAACGATTTCGGCAAGCCGGGAATCGAGTATGTCAAACCGAGGCCGGAGCATCGGCGGTATACCGCGTCCTTGCGAACACTGCACCTGGAGAGGCATGCCGATTATGATATCGTGACCGCAGAAATGAAGCTGCCGGAGGTTCTCAGTAATCAGTACGGGGCTCCACGACAAATCAACGTACTCTATTCGTTCCATGCGAATGAGCCCGTCATTGAGGTATGCATAAGCTGGATGGGCAAACCGGCATGCCGTCTTCCGGAAGCAAGCTGGTTATCGTTTGTGCCGCTTGTGGATAATCCTAACGCCTGGTCGATGGATAAGCTGGGAATGCGGATATCTCCGTTATCCGTCGTCAAGGACGGCAACCGGAACATGCATGGCGTCAATTCGGGCTTATATTATGAGGGGGCGGACGGAACGGCGGTCATTGAATCCTTGGACGCGCCGCTTGTGTGCCCGGGGGAACCAAGGCTGCTGCAATTCGACAACTCCTATGCTCCGTTGACCGGCGGATTTCATTTCAATCTGCACAACAACGTATGGGGGACAAATTTTATGATGTGGTTCGAAGACGACATGAGGTATCGGTTCCGCTTGAGCCTGCATTCCCATTCGTAA	MSASIKRVHVVFKTHLDIGFTDLGKNVIERYMEHFIPQALELSEQLANEEGDVKFVWTTGSWLIHEFLQTASPDMRARMEKAIGDGRMVWHGLPFTTHTEIMDASLFEFGLSISDDLDRKYGKNTIAAKMTDVPGHTLAMVPLLAKHGIQYLHLGVNMVSKNPKVPEMFVWRASDGSEIIVHYADSYGKPYRMEGLEDALYFAHTHDNHGPSTMEEIRALFEQLRREYPGADIMASTLDAFAARLQAVKDRLPVVSEEIGDSWIHGIASDPWKIARYRELLRLRDRWIEAGRLDRDSEAYARFCNRLMLIPEHTWGLNNSVYLVDFVNYSSADLAAARARDIVENNTRKKFDYLCQQANGTRSYSHYESSWQEQRDYLEEALQSLPTTLAAEARTELDRMNPQHTVLNSEPVQHKQPIETNELYELGQFQVSFAADGSINRLMDRSGKAWAGEHQRLGTYMYETFGQENYNRFFKEYMTNLDIHHGWADNDFGKPGIEYVKPRPEHRRYTASLRTLHLERHADYDIVTAEMKLPEVLSNQYGAPRQINVLYSFHANEPVIEVCISWMGKPACRLPEASWLSFVPLVDNPNAWSMDKLGMRISPLSVVKDGNRNMHGVNSGLYYEGADGTAVIESLDAPLVCPGEPRLLQFDNSYAPLTGGFHFNLHNNVWGTNFMMWFEDDMRYRFRLSLHSHS				NA	NA	NA	NA	NA
AK002_02769	1473		COG2368	4-hydroxyphenylacetate 3-monooxygenase oxygenase component	GTGAACAATGTGCCTATCAAATCAGGGAAGCAGTACATCGAACGGATCGATCGGCAAAACATCAACCTTCGGTATAAAGGGGAGCTTATCCAGGGACCTTTATCCAAGCACCCTGCATTCCAGGGTATCATTCAGACCCAAGCGGAGCTTTACGATATGCAAGGCAAAGCGTGTCATATCGAGCAGATGACGTACCCATCGCCCGATACAGGAGAACGAGTGGGCCTGTCTTTTCTCCCGCCGAGGAATGCCGAGGATTTGCAGAAACGCAGATTGATGATGGAACTTTGGGCCAAGAGGCACAACGGTTTTTTAGGCCGCTCTCCCGATTATATGAACACGGCGATCATGTCGCTGTACACGGCTGCCGATATACTGGAGGAACACAATCCGAAGTATGCTGAAAACCTCAGGGCCTATTACCGGTACTGTCGAGATCATGATATTACGTTATCCCATGCCTTCATTCAGCCCTATGCTTGTAAAATGTCCGGACAGCAAGATGCTGCAGATGACACGATTGCCGCCAAGGTGGTTGAGATCAACGATCAAGGCATGATCATTACCGGAGCTTTCATGATGGCAACGCAGGGAGCCACGTGCGAGGAAATGCTGGTATTCCCGTCGCCTTCGCCCACGTTGTTCCATGATGTCAATCCAACCGCATTCGCCTTTGCGGTACCGAACGATTTGCCTGGAATGACGTTTATATGCCGTGAGAGCTATGGTGCCGCTTCTTCCTATGATTATCCCTTGAGCGCCAGATACGAAGAGATGGACGTTCTCGTCATCTTTGACCACGTATTGGTCCCGCATGACCGGATCTTTTACTATGGGGACGAGGCCTATGCCGGACGTTTATTCGGCGAGAGTCGCTTTCACACCCATATTGCCCATCAAATGGCCACCCGTTATATCGCCAAAACCGAATTTATGCTTGGTTTGCTGGAGAGCTTGGCAGACGAGCAGAACGTTGGGCTCGAGCGCCATATGATCGCGAACGTTTCAAAAATCATTGCATATCTGGAGACCTTCAAAGCCCTGAGGCTGGCTTCCGAACTGGGCGCCAGCCGGGATAAATTCGGTTATTTCGTTCCTTCGGCGGGCCCGCTTACCGCATCCAGCATGTTATTCCCCCAATTTTATCCCGAGATGGTGGAGATGATACAGCTGCTGGGTTCCAGCGGCCTGATTATGATCCCTTCCGAAATGGACTTCCAGTCGGATTCAGGTCCTTACCTGAACCAATATTTAAAAGGCTCCACCACGGAGGCGTGGGATCGAATCGCCTTGTTCCGCCTTGCCTGGGAGCTTGGCGCAGGCTCTTTCGGGGGCCGTCAAACCCAGTTTGAACGCTTCTTCTTCGGAAATGCGCAGACGGTAGCCTATCGCATGTATAACCATTTTGAACAGCATGATCAGCTGCGGAACAGGATTCAGGATTTTATCGCCAAGAACAATACTTCATCATAA	MNNVPIKSGKQYIERIDRQNINLRYKGELIQGPLSKHPAFQGIIQTQAELYDMQGKACHIEQMTYPSPDTGERVGLSFLPPRNAEDLQKRRLMMELWAKRHNGFLGRSPDYMNTAIMSLYTAADILEEHNPKYAENLRAYYRYCRDHDITLSHAFIQPYACKMSGQQDAADDTIAAKVVEINDQGMIITGAFMMATQGATCEEMLVFPSPSPTLFHDVNPTAFAFAVPNDLPGMTFICRESYGAASSYDYPLSARYEEMDVLVIFDHVLVPHDRIFYYGDEAYAGRLFGESRFHTHIAHQMATRYIAKTEFMLGLLESLADEQNVGLERHMIANVSKIIAYLETFKALRLASELGASRDKFGYFVPSAGPLTASSMLFPQFYPEMVEMIQLLGSSGLIMIPSEMDFQSDSGPYLNQYLKGSTTEAWDRIALFRLAWELGAGSFGGRQTQFERFFFGNAQTVAYRMYNHFEQHDQLRNRIQDFIAKNNTSS	PGPT0020455_498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483	NA	NA
AK002_02770	786			hypothetical protein	ATGCGCAATACATTTATCAAAACAATCCTGCCATCCGTCATCATCGGTTCAGTCGTAACAAGTTTGGCTTTATCCGGGTTCCCGAACGGTTCCGGCTTGGATAAGGCGGAAGCTGCCGCAGCATCTTCAGCCAGCCTATCATTTTCGAAGTTTTTGGATAACAACGCCCCTAAACGGACGCTGAGGTCGGTAAACGGGATAAATACGGTCACCAATCTGTCCAGCACGGTTGTGCTCGTCAACAAACAAAGAAATCTACCATCGAATTATGTACCGCAAGATTTGGTCGTACCCCAAATTCCGTTCAGCTTCTCGGGACCAAGCCCCAAAAAGCAGATGAAAAAAATAGCGGCGTCTGCGCTCGAAAAGCTGTTCGCTGCTGCCAAACGGGACGGAATCGACCTCAAAGCCGTATCGGGTTATCGTTCCTATGCAACCCAAAAAGCCATATTCGAGCGTAACGCCAGTATCAAGGGCGAGGCTGTCGCTAACAAAACAAGCGCACGCCCGGGGCAAAGCGAGCATCAGACCGGGCTTAGCATGGATATATCCAGTGCTTCCGTAGGCTATGCCCTGGAGCAGAGCTTCGGGAATACGAAGGAAGGCAAATGGCTGAAGGCCAATGCACCGAAGTACGGATTTATCATTCGTTATGGAAAAGGTCAGGAGAAATTAACCGGATACTCTTACGAGCCTTGGCATGTACGCTATGTGGGCGTCTACATTGCCGGAGAAATTACGAGACAACAGCTGACGCTGGAGCAGTATCTGGGTCAAGCCCGGTAA	MRNTFIKTILPSVIIGSVVTSLALSGFPNGSGLDKAEAAAASSASLSFSKFLDNNAPKRTLRSVNGINTVTNLSSTVVLVNKQRNLPSNYVPQDLVVPQIPFSFSGPSPKKQMKKIAASALEKLFAAAKRDGIDLKAVSGYRSYATQKAIFERNASIKGEAVANKTSARPGQSEHQTGLSMDISSASVGYALEQSFGNTKEGKWLKANAPKYGFIIRYGKGQEKLTGYSYEPWHVRYVGVYIAGEITRQQLTLEQYLGQAR	PGPT0024055_982	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-GLYCOPEPTIDE_RESISTANCE,PGPT0024055-vanY|yodJ-K07260	NA	NA
AK002_02771	564			hypothetical protein	ATGGAAATACGCGATTATATCAAACGAGGGTTTGAGGCCTATTACGCAAAATACAGCGAAATTTCGGAGGATGGGTTCTGCAGGTGGATGCGGCCTGACGTTCCCGCAGAGATGAAGACCGTTGATACAGACGAGGAATGGTCCATATGGAAATTGGTCCCTTCCATTGTGAGCGAAGAGCAGATTAGGGCCATGGAAGCAGAGTATGGATTGAATTTTCCCGAGTGGTATAAAGCATTCATCTCCACGTACCATCATTACTTTGACGTCATACCTGAACAGGCAGTAGACGAGCCGCTGGAGAACGTCAGGAATATGTACAATCCCTTGTTGTGCCGGCTGGGATATCTCCCTTTCACTTGGGATTCCGAATACGGGAAGATCTGGTGTATCGATGTATGTGGAGACGCCGGTGAGGGGATCGAGGCCATCTATGAGATCGAACATGAAATTTTGTTTGACCTGGATGAAGATCGAACGGATCGGGACGAGCTTAAAGAGTCGCTAGTATTTTTGTACCCGGATTTCAAAGCGTATTTTGACGATACGTTCCTGGAGGGCTGA	MEIRDYIKRGFEAYYAKYSEISEDGFCRWMRPDVPAEMKTVDTDEEWSIWKLVPSIVSEEQIRAMEAEYGLNFPEWYKAFISTYHHYFDVIPEQAVDEPLENVRNMYNPLLCRLGYLPFTWDSEYGKIWCIDVCGDAGEGIEAIYEIEHEILFDLDEDRTDRDELKESLVFLYPDFKAYFDDTFLEG				NA	NA	NA	NA	NA
AK002_02772	975	srkA_4		Stress response kinase A	ATGCGAAATGAACAGCTGCAGGACATTTTGAATGAATACGACATCCGGGAACCGGAAATTACCTTTATTCGGCATAATGAAAATCGAACGTATAAGGTAGTAGGCCATGACGGAAGCGCATATCTGATGCGCATTCATCAACCGCTAAAAGATGGCATGGCTGGTCAGCAGCATACCTACGACGGTTTGCTGGGCGAACTGCAAATGCTGGAGCACTTGTCAGGATGGGATCATCTGCTTGTCCAAAGGCCTATGCGTAATCGGAAAGGTGAATTGATCACGATTTTCGAACACGAGGGGAAGCGTTGGAACAGCTCCGTGCTTACCTGGCTGGAAGGAAGAGACTTGCAGAAGGATGACGTAAGCGACCCGGTATTGGTCGAGAAGCTGGGGACTCGCATTGCAGAGTTACACAAATTTTATGGCTCATACAAGCAGGAGGGCTTGGACAAGCGTCCGAGTCAGGGGATAGCCTACAATCTATATATGATTGAAGTTATAAAGCAAGGATTGGCGAAAGATTTGTTTACTTCCTCCGATGTTTCCATTATTGAAGAAACGATATCGCTGGTTAACGCGCGCCTTGTGGACAGTGGTAACGTTGAGGCTTGGGGGCTTATCCATGGTGATTTAAGCTTGGGGAATATCATCATGACCTCAGATGGAGATCTTAGTTTTATCGATTTTGGTTTTTTCGGACCAGGGTACCATTATACGGATGTTGCCATGGGTGCCATGATGGTTCCTTCACAGCTTCGGGATACATTCCTGAAAGGGTATTATGGCAATGATCATACGGGACAACATAAGCTTGTTTTATTAGAAGGCTTCATGCTGCTGGCCATTATCGGCTACTATGTCTTTCAGATGGAGAATGAATCCGTGCATCCATGGATGCGTGAACGAATGCCGAAGCTGTGCGCCGATTTCTGCACGCCTTATTTGTCGGGTGCACGCATATTTTATTCCGTATAG	MRNEQLQDILNEYDIREPEITFIRHNENRTYKVVGHDGSAYLMRIHQPLKDGMAGQQHTYDGLLGELQMLEHLSGWDHLLVQRPMRNRKGELITIFEHEGKRWNSSVLTWLEGRDLQKDDVSDPVLVEKLGTRIAELHKFYGSYKQEGLDKRPSQGIAYNLYMIEVIKQGLAKDLFTSSDVSIIEETISLVNARLVDSGNVEAWGLIHGDLSLGNIIMTSDGDLSFIDFGFFGPGYHYTDVAMGAMMVPSQLRDTFLKGYYGNDHTGQHKLVLLEGFMLLAIIGYYVFQMENESVHPWMRERMPKLCADFCTPYLSGARIFYSV				NA	NA	NA	NA	NA
AK002_02773	606			hypothetical protein	ATGGAGGAAAGCGAACTTCTGCTGCAACAAGAGGCTCTCCAGGAGGAAGCTTCTGAGGTAGCAGATGAACTTCGACTTTACGAGTTATTAAGTCAAGCAGGCGAACCGGTGCGTGTCGGCAGTTCAGCCCTCGGATTGATGGTATGGAGAGACCTGGACATGACGGTAAAATGTTCTCGGCTGAATCAACCATTAACTGCACAAATCGCATCGGAGCTCATGCTGCACGCAGGTGTACGGGAGCTGAAGTTCATCAACGATACCGGAGTTTATAATACGGATCCCCTTTATCCCGATGGATTGTACATCGGCCTTAAGTATATATCTGAGCGTGGGAAGGAGTGGGCCCTGGACATTTGGTTCGTGGATGAACCGGAGAAACAACCTGACTTGAAACATATCATAACGATGCCTGAACGGCTGACTCAGGAACGCCGGGAAGCTATTTTGAGAATCAAAAATCGTTGGGCAAGCCGAGCTGAATATGGCAAAAGTGTGCGAAGCTTCGATATTTATACAGCGGTTCTCGAAGAAAACATAAACACGCCGGAACAGTTTCAAGCCTGGCTGGGCCAAAGGTCCGTGAATAAAGATGAAAGCCCATGA	MEESELLLQQEALQEEASEVADELRLYELLSQAGEPVRVGSSALGLMVWRDLDMTVKCSRLNQPLTAQIASELMLHAGVRELKFINDTGVYNTDPLYPDGLYIGLKYISERGKEWALDIWFVDEPEKQPDLKHIITMPERLTQERREAILRIKNRWASRAEYGKSVRSFDIYTAVLEENINTPEQFQAWLGQRSVNKDESP				NA	NA	NA	NA	NA
AK002_02774	762	COQ5_4		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGGAGATTATCAAGCATAACCAAGACCATTGGGAGCTTAAAGTCAAACAGAATAATCAGTGGACGGTTCCTGTAAGCAGCGAAGAAATCCAGAAAGCCAGAACGGGCGATTGGTCTATTATCGTCACTTCAACCAAGCCTGTGCCCAAAGAATGGTTTCCGGAACTAAACGGAAAGAATGTGCTCTGCCTAGCTTCTGGAGGAGGGCAGCAGGGACCCGTTCTGGCCGCTGCGGGAGCGAATGTAACCGTGCTGGATTTCTCCGAATCTCAATTGGACCAGGATCGCTTTGTTGCTGAACGGGACGGATTGTCTATTCGGACGGTTCTCGGTTCGATGACGGATTTAAGCATGTTTGAATCGGAGAGCTTTGATTTGTTGGTTCATCCGGTATCTAACCTTTATGTGCCTGATATTCAGCCGGTCTGGCAGGAGGCATATCGCGTGTTAAAGCCTGGCGGCATGTTGATTAGCGGCTTTATGAACCCGGTCTTTTATTTATTCGACTGGGAACTGGAAGAACAGGGCACGCTTCGGGTGAAGCACACCCTTCCCTATTCGGAACTGGATTATGCGACGGAAGAAGAAATCGTGCGAAGCGGGGTAGCATTGGAATTCGGACATACGCTGGAACAGCAAATGGGAGGTCAGATTCAATCCGGATTTATGATTGCCGGGTTATACGAGGATTCCTTCGGAGGCGAGAAATTGTTGGACCGTTATGCAAACAGTTTTATTGCGACAAGAGCCATAAAGCTTTAA	MEIIKHNQDHWELKVKQNNQWTVPVSSEEIQKARTGDWSIIVTSTKPVPKEWFPELNGKNVLCLASGGGQQGPVLAAAGANVTVLDFSESQLDQDRFVAERDGLSIRTVLGSMTDLSMFESESFDLLVHPVSNLYVPDIQPVWQEAYRVLKPGGMLISGFMNPVFYLFDWELEEQGTLRVKHTLPYSELDYATEEEIVRSGVALEFGHTLEQQMGGQIQSGFMIAGLYEDSFGGEKLLDRYANSFIATRAIKL				NA	NA	NA	NA	NA
AK002_02775	1221	atzC_1		N-isopropylammelide isopropyl amidohydrolase	ATGAGTACCGCATTTTGGTTAACGAATGCTCGTATAGAGAGCGGCTATGAAGTTCAAGAAGGCGTTATTACGGGAACAAAAACGGAGATTTGCCACGTATTCATAGAGGACGGGAACATCGCGAAGATCGTGTCATCCGACAAGACCATCACGGATTCATGGCCGCGACACGACGTGAAGGGATTGCTGCTTTTGCCGTCCTTTACCGAAAAGCACTGCCATCTGGATAAAACGCTGCTCGGTGACCGATGGCGATCCGTAACGCCGGTCTCCAGCATTTTCGAGCGTTTCGATATCGAGAAAGCAACGCTTCCGGCCCTGGATACCCGGACGCAGGACCGTGCGGAACGACTGCTTCACATGTACCTGGAGTCCGGGGTGACGCACGTACGAACGCATGTCGATATTTATCCGGAAGTGGGTTTGGCTAACTTCGAAGCGGTCCAACAAGCATTGCACGCATTTGAAGGAAAGTTATCCTACGAGATCGTAGCTTTTCCACAGCATGGTTTGCTGCGCTCGAAGTCAAAGGAATGGGTGAGACAAGCACTTCGCAGCGGAGCAGGCTTGGTAGGCGGGGTTGACCCGGCGACGGTGGATGGTGATATCGAAGCCTCCCTGCAGGAAATGGTGGAACTCGCCGTGGAGACGAATGCGGGAATTGACCTGCATTTGCACGATGCCCATCATCTGGGAGCCTTCACCATGAAGCGGTTGGCACAGCTGACCATCGAGGCGGGCCTGCAGGGCAAGGTGGCGATCAGCCATGCATTCGGACTCGGCGATATCCCGACGTCGCAAGCCATCGTAATGGGGGAAATGCTGGCTGATGCAGGGGTTGCCATTATTTCGAGCGTGCCGATCGGTCGCAGCATGCCGCCGGTCGGTTTGCTGCACGAGTGCGGCGTAGAGGTAGCCGTCGGTTGCGATAACATTTTTGACGTGTGGTCGCCTTTCGGAAACGGGGACGTGTTGGAACGAGCGGGCCGGCTGGCTGAGGTGTCCCGATGGGTGGATGAACGCTCTTTGGCACGGACGCTTCAATATATCACCGGCGGCATGACGCCGCTTGGTCCGGATGGCGAGCAGATATGGCCGCAGGCCGGGGACGCCGCCAGCATCGTGTTTGTCGAAGCTTCTTGTTCCGCCGAAGCCGTTGCCAGAAGATCGAAGCGCGTGGCGACGATGTTTAAGGGCAGCATCGTTTCCGGTTCGCTTTAG	MSTAFWLTNARIESGYEVQEGVITGTKTEICHVFIEDGNIAKIVSSDKTITDSWPRHDVKGLLLLPSFTEKHCHLDKTLLGDRWRSVTPVSSIFERFDIEKATLPALDTRTQDRAERLLHMYLESGVTHVRTHVDIYPEVGLANFEAVQQALHAFEGKLSYEIVAFPQHGLLRSKSKEWVRQALRSGAGLVGGVDPATVDGDIEASLQEMVELAVETNAGIDLHLHDAHHLGAFTMKRLAQLTIEAGLQGKVAISHAFGLGDIPTSQAIVMGEMLADAGVAIISSVPIGRSMPPVGLLHECGVEVAVGCDNIFDVWSPFGNGDVLERAGRLAEVSRWVDERSLARTLQYITGGMTPLGPDGEQIWPQAGDAASIVFVEASCSAEAVARRSKRVATMFKGSIVSGSL				NA	NA	NA	NA	NA
AK002_02776	1473	sasA_10		Adaptive-response sensory-kinase SasA	ATGTCGATCAGGATCAAGTTGCTGCTGTCCTTTACCGGCATGCTGGTCATCAGCTTGTTGGTTTTCGTCTTGACTGCCAGTTTGTTTACCGTCGCGGCTACCGGCGACATTCGCGGGGTTCGGGATTTTTATAAAGTTCACTACCAGGTTAACCCGCTGACCGAGCAAGAGGAGTCTATATTCCTTGAATTAAAATATCTTGCCAAGAACGAACCGGACGGTCTGCTGGATCAAGAGCTGCTGAAGGAATATGATTTTAAGCTGAGAACCGTGCGGGCAGGACTGTACGTCCGTAAGGAAAGCCTTCAGGTTTACGAGTCCAATACGATAAACCAGCCTGAGCTGGAAGCGAATCTCCCTCCATTCGACCTGAACAACAATCAAATCCGCAATACGCTGAGCATCGGGGAACGCTTTTATGCTTATGCCAAATTCGACTTCCGGTTCTCGGACGAGACGAAGGGAAGCGTATACGTGATCCGAGAGCGAAGTCCTTTCGGCGAGGTAACACGCAAGCTGTTGCCCATCCTTGTATTGAGTCTCGTTGGCATCATTGTGGTTGCAAACGTGATGTTATACCGCTGGATTACGCGCAGCGTGGTCAAACCGCTTGACTTGCTCCGAAATTCGGCCGAACACATCAAGGAGGGGAATCTTCAGTTTTCCCTGGATATGCATTCGAAGGACGAAATCGGCCTGCTAAACGAAACGTTTGAGAATATGCGAAAGCGGCTGCACGAATCGATTCAGCTCCGGCTCCGGGACGAAGAGAACCGAAAAGAGCTGATCTCCAATATCTCACATGATCTGCGCACACCGATAACGAATATAAAGGGTTATGTCGAGGGCATTCGAGACGGCGTCGCGGATACGCCTGAGAAGATGGATAAATACGTGAATATCATTTACACCAAAACCATCGATCTGGATAAACTCGTGGATGAGCTGTTTCTGTATTCCAAGCTGGATTTGAAGCAGGTGCCGTTTATGTTCGAGCATGTTGATATCATCGGTTTCATCGACGACTGCATCGATGAGCAGCGCTATGTTCTGGAGGAGAAGGACATTCTGCTGGAGTGGAAGGAACGCCCCGGTGATCCTGTCGAAGTCATTGCCGACCTTGAGAAATTAAAGCGAACCGTGCTCAACATCATTGGAAATGCCCAGAATTTCATGGACAAGGGGCAAAAAAACATCGGCGTCTCGATCCGGCTGTCTCCGGAATGGGTAACGGTTGAAATCCGGGATAACGGCACAGGCATCGCACCGGAAGCGATCCCTTATATATTCGAAAGGTTTTATCGGGCCGAGCCATCCCGCAACTCTTCAACGGGCGGCAGCGGTCTGGGTCTTGCGATTGCGAGCCAGATCATTGAAGGACACGGGGGTCAAATCTGGGCTGAAAGCGAGCTTGGCGTCGGAACAAGCCTGTACTATACCCTGAAACGAGCGAACAGGAAGGAGGCGCGGTAA	MSIRIKLLLSFTGMLVISLLVFVLTASLFTVAATGDIRGVRDFYKVHYQVNPLTEQEESIFLELKYLAKNEPDGLLDQELLKEYDFKLRTVRAGLYVRKESLQVYESNTINQPELEANLPPFDLNNNQIRNTLSIGERFYAYAKFDFRFSDETKGSVYVIRERSPFGEVTRKLLPILVLSLVGIIVVANVMLYRWITRSVVKPLDLLRNSAEHIKEGNLQFSLDMHSKDEIGLLNETFENMRKRLHESIQLRLRDEENRKELISNISHDLRTPITNIKGYVEGIRDGVADTPEKMDKYVNIIYTKTIDLDKLVDELFLYSKLDLKQVPFMFEHVDIIGFIDDCIDEQRYVLEEKDILLEWKERPGDPVEVIADLEKLKRTVLNIIGNAQNFMDKGQKNIGVSIRLSPEWVTVEIRDNGTGIAPEAIPYIFERFYRAEPSRNSSTGGSGLGLAIASQIIEGHGGQIWAESELGVGTSLYYTLKRANRKEAR				NA	NA	NA	NA	NA
AK002_02777	696	srrA_2	COG0745	Transcriptional regulatory protein SrrA	ATGGCCACACGCATTCTCATCATTGAAGACGAAACGACCATCGCCCAGTTGGAGCGGGATTATTTTGAGCTGAACGGTTTTGCCGTCGATTTATGCCATACGGGTGACGAGGGCTTGAAGCTTGCCCTTAACGAGGACTACAGTCTCATCATTGTGGACCTTCAGCTTCCCGGCATGAATGGCTACGAGTTGTGCAGCCATATCAGGAAGAACAAGGAGGTCCCGATTCTGATCGTATCCGCCAAGAATGAGGAGATCGATAAAATCCGTGCATTTAATCTCGGTGCCGACGATTACATTACCAAGCCTTTTAGCCCGAGCGAATTAGTCGCAAGAGCCAAAGCCCATTTGATGAGATATGTCAGGCTTCTGGGCAAGCAAAGTCCGAGTCCAAGCTCGGAAATTCATATCCGGGGTCTGGTCATCGACAAAACGGCGCGAAGGGTGTTCGTACGCAATCAGGAAGTCGCGTTTACGACCCGGGAATTTAATTTGCTTGAATTTCTTGCGAGCCATCCGAACCGGGTGTTCAACAAACATGAATTGTTCGAACGGATTTGGGGCATGGATTCCAGCGGGGATATCGCTACCGTCACCGTTCACGTCCGAAAGCTGCGCGAAAAGATGGAGCTGGATCCATCCAATCCGCAGTACATTGAAACGGTATGGGGAGCGGGCTATCGTTTTTCGGTCTGA	MATRILIIEDETTIAQLERDYFELNGFAVDLCHTGDEGLKLALNEDYSLIIVDLQLPGMNGYELCSHIRKNKEVPILIVSAKNEEIDKIRAFNLGADDYITKPFSPSELVARAKAHLMRYVRLLGKQSPSPSSEIHIRGLVIDKTARRVFVRNQEVAFTTREFNLLEFLASHPNRVFNKHELFERIWGMDSSGDIATVTVHVRKLREKMELDPSNPQYIETVWGAGYRFSV	PGPT0014763_90	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ENVELOPE_REMODELLING_REGULATION	CE-ENVELOPE_REMODELLING_REGULATION_FACTOR,PGPT0014763-walR-NA	NA	NA
AK002_02778	1482			hypothetical protein	ATGAAGAAGTATTCGAATAAACTGGCGGCCATGATGCTGGCCGCCGCACTGGGAACGGCGACGCTTCCGTTTCATGTTCTGCAGGCCGACGCTGCACAAGCGCCGCTCGCTGCCCAAGATATAGAGCAAGCCGTTCAGGGGCTGTCCCAGCTGCGCGTGATGCAGGGTTACCAAGACGGCACGATGGGGATAACAAGCCCGATCACACGGGCAGAGCTGGCGAAAATGCTGGTGCTTGCGTTTGGACTTGAAGGCAAAGGGGAGACAGAGTCAAGCTTCACGGATGTGAAATCAAACGCGTGGTATGAGCGGTACGCAACTGAGCTGGTAGCACTAGATATTATGCAGGCACCGGACGGACGTTTTGATCCAAGGGGAAGCGTTACCCATGCCGAACTGGTACAGATGGTGTCTAAGGCTCTGAAACGAGATGCGAAGTCCGTGGATTACTGGGCGGAGCGTTTTTATTCCGAGGAGGGCCATACCACTCGAGGTCAAGCTGCCTATTTGATAAGCATTGCACATGACGCAATTCCGTCGGAAAAAGCAAAAATCACGAGCGTACGCGCACTGAATGCCATCACCTTGATTGTCACCTTTGATGCTCCATTGACATCGGACGATGAGGCGTTTGCCAAAGCCAAAGAAGATTTTCAATTTAACGACGGTCTTGCGCTAACGAATATGCCGCGTCTGAAGACGGGTTCTATTTCCACCTATATCGTCCCAACTTCCGTTCAAAAACCGGATACATCGTATACGCTGACCTATAAAGGGAAAACAGCAGGTACATTTACAGGAAACAGTACGAAGCTGGACATGACCGAGGCTAGACAGGTCACCCAGGATACATTTGAATTGGAGGCGCTCAAGGAGAATGGCGTCGTTGACTACGGTTATGTTATTTCCGCTTATAGCGGAGGCCGCGGAACCAATGCCTTCGTATTGGATGAGAACAACAGCGCCGATGGCAAGGTCTATCAGATCATATCTTCTGGTCAAGCCAGGGATGTTACGATTACGCCTGCAGGCGGACAACCTATCGTGGCCAAATACGTACCCTTCACCCAATCCACCGACGGCAAGCAAGAGCCGAAATTCCGATTGCCGGAAGGCCAGACGTTGACGCCGGGCGTTACCTACACCGTTACTTCGGACTGGGCACAGATCGCCAACCCGTCATTCGTTGCAGGATCGGTTGCTCCGCTGGAAATCATCGGAGCCGAGGCAGTCGGCGACAGTTCCATTGCCATCACCTTGTCCAAGGATCCGCGGGATGAGCTGTTCTCCGGCCGGAGCGTGGAATTGACCGACGCTGACGGCGATCAACGCATTGCGACCTATAAATATTCAAGCCGAACAGGAGCCGTAGGCATATTCGATCTGACGCAAGAAAGTAAATTGAAGCCGGGATCGACGTATACCATCAAACCGGTAGGCGAGTGGGCAGGAGAAACCGATGCGTCCCTGACCGTCAATTAA	MKKYSNKLAAMMLAAALGTATLPFHVLQADAAQAPLAAQDIEQAVQGLSQLRVMQGYQDGTMGITSPITRAELAKMLVLAFGLEGKGETESSFTDVKSNAWYERYATELVALDIMQAPDGRFDPRGSVTHAELVQMVSKALKRDAKSVDYWAERFYSEEGHTTRGQAAYLISIAHDAIPSEKAKITSVRALNAITLIVTFDAPLTSDDEAFAKAKEDFQFNDGLALTNMPRLKTGSISTYIVPTSVQKPDTSYTLTYKGKTAGTFTGNSTKLDMTEARQVTQDTFELEALKENGVVDYGYVISAYSGGRGTNAFVLDENNSADGKVYQIISSGQARDVTITPAGGQPIVAKYVPFTQSTDGKQEPKFRLPEGQTLTPGVTYTVTSDWAQIANPSFVAGSVAPLEIIGAEAVGDSSIAITLSKDPRDELFSGRSVELTDADGDQRIATYKYSSRTGAVGIFDLTQESKLKPGSTYTIKPVGEWAGETDASLTVN				NA	NA	NA	NA	NA
AK002_02779	762			hypothetical protein	ATGGTCGAAGAGCTTGCTCATTATTTAAGCGAATGTGATATTGAAGTTTTGGATTTGGATGGCTTAACGCTCCCTGTCCCAAAGGAAGGGGAGCACAAGATTCTCATCGCTCCCGGCTGCAATCTGGTGGAAATGATGGAGGAAATCTGCGAAGAAGAAACCCTTTCTGAATACGTGAACAAGGAGCTGGAGCAGGTTCAGCGGTTAAGCATGAAAGATGTATTGGGAAAAATCGTGGCTTCGCGATTATCCTATACGGATATTGCGCTGGAACCGGAAGAATTAGAAGGCAAGAGCTTTGAGGAATTATATCGTTCTTATTCATTATTATGGGAAGGCAGCGAAATGCTTAACGAAGAGTTTGGCGAATCGGATGCCGAGCCCTTTGACTGGAATACGTCATGGGTACAGGGAAAGGTGGAAGAGGACGAGCAGGTGATCCTGCTGACGCTGCCGGCCGAAGCCGGATATGAAGCGCCGCTGTGGGTTCCGATGGGAGGTTATAACGAATGTCCGTTGCCCGAGCATCAGTCGGTGTTTTTTAAGCATTTTCAGCAGAAGCATCAGATTAAAATTGTGGCCGTCTCGGAAGATACTTGGATTCTTCAGGCCGGAAAACGACCCCAAACGTTTGATGAAGCATTACGGCTCGCCAAGGAGCATTTTATTTTCTGCCAATATGTCATGGACGGGTTTCCGACGCTTGGACATTATGCGGACTATCTAATGAAGCACGACATCTGGTATTTTTGGTGGGATTAA	MVEELAHYLSECDIEVLDLDGLTLPVPKEGEHKILIAPGCNLVEMMEEICEEETLSEYVNKELEQVQRLSMKDVLGKIVASRLSYTDIALEPEELEGKSFEELYRSYSLLWEGSEMLNEEFGESDAEPFDWNTSWVQGKVEEDEQVILLTLPAEAGYEAPLWVPMGGYNECPLPEHQSVFFKHFQQKHQIKIVAVSEDTWILQAGKRPQTFDEALRLAKEHFIFCQYVMDGFPTLGHYADYLMKHDIWYFWWD				NA	NA	NA	NA	NA
AK002_02780	2118	rhaR_26		HTH-type transcriptional activator RhaR	ATGGCGGAAGTGGAAGGGATGACGCGGCAGCTGGCGATCAATCAAGACCTTAACGTGCTGCTCAACGATCATCTTGCCCAAAGGGATGTTTACGGCATATGGAGAACGATGCGCAATGTGTTGACTTTCGGTCAAACCAACGATTTTCTTCAGCATTACTACATCTATTTGGCGAATTACGACTTGATTGTAACGTCGGGCTCCTCTTATCGGCCGGAGCATTACTACGAGTTTTTTCATTATGACGATCTCAGTTTTGAGGAGTGGAAACAACAGATCCTGGAGAAAGCCCATCGCAGTGAAATCAAACCGCTCTCTTCCTTTTCGGAAAGGGACAACGAAACTTCCGTCATCACGTACATGCAGTCGCTCCCGCTGGACAGCTTCAACGATTCGTCCCCGGCCAAAGTCGTGGTCGTGATTGATGCACGGACGATTGCCGGATTATTCTCGGGGTTAACCGACAACTACGGCGGCTGGGTCCACATCCACGACGGGATAGGGAATACGCTTGCTCTTCAAGGAAACATAGAATCCGATGTAAGCCAAATCATGAACGATCCGGCATTCGATCAGAACAAAACCAGCCAGTTCTACAAGAATGACCTTGTGATCACCACCCGCTCCGATAAGAGCGGTTGGGTCTATCAGGCCGGCATCCCCCGCAGCGCCTTGATGGAGAATGCCGATCAAATTAAACAAGCGTCCTGGTTCATTACCGGGGGCGCCATGATCGTCGGGCTGCTGTTCGGGTTGTATTTGGCTCATCGGAACAGCGTGCCGATCCATCGAATGATTAGCATCATGAAAGAGCAGTTCGGCAGGGATGAGCTGACGGAGCGCAATGAATTCGACTTTTTGAGCGGGAATATTGCCAATATGATCAGCAAAAACAAACAACTGGAAAACGAGCTGACGCGTCAGCTGCCGTTTGTCCGGGATGCTTTCCTGAGACGTCTGATTGCCGGCGAGTTTGAATCGAGGGACGAAATTGCTTCCGCTGCCCAGCAGGCTGATATTGCCTTGCATAACGGAAAGGGCTATGTCGGTATCCTGCAGATCAAAGGATATGCCGGCATGGACAGCGTGGAGATCCTTAACGAGCTTAACGCCGCCCGGCTTCTCATGAAGCAGGCCTTTTCCGAAATCGCCGGGACGCTGCCCATGACGGATCTGGGCTCGGACAAAATGGTGGTTTTGTTCTTTACCGACGAAGATATAGAGCCCGGGCCGGATGAAGAGCTTCGAATTACGGGGTTGATCGATACGCTGACGAAGCAGGTGCTGCATGAATATAAAATGTTCCTCCAAGCCGGTTTCGGCGATCCGTTCGATTCGGTCTCAGAGGCGGGGCAGTCATTTGACCAGGCCAAGCAGGCTCTTGAATACGCCGTTTACATGAATCAAAAAGAGACGGTGTGGTACCGCGAAGCCCGAATCGTCAACACAACGTATTACTACCCGCTGGACACCGAGCAGCGCTTGATCAGCACGATACGGGCAGGGGAGCTGGAAGAAGCCGAGAAGATCGTCAATCTGATCATGGATCAAAATCTCCATCAGCGGGAGTTATCGGTCGAGATGAAGCATCAGCTGGTAGGCGAAATCAAAGGAACGTTCCTTAAGTTAATGGATCAGAAAATTTTTGCGGAATCGGAATGGTTTGAAAACATAAAAAGGCGCATCATCGATATCGGCTTTACCGAGCCGCTGGAGTCGATTCATAACGAAATCCGCGCGATCATGGGAGAGCTGTGCAGATATATTGCCAATAAAAAGAAGGACTCCCATGCCAAGCTGATCAGGCAGATTTATGAATATACCGAAGCGATGTACGCACATCCGGATCTCACCTTATACCGCGTGGCCGAGCATGTGGAGCGGCCGGAGAAATACATCTCCCAATTGTTCAAGGAAGTAACCGGGGTCAATTATTCCGATCATCTGATCAAGTTGCGGATGGATCGGGCGGCCATTCTGCTTGCCGAGACGAACCTCACGGTCGATGAAATAGCGGCTCAGGTGGGCTACAACAGCTCCCATTCGTTTCGCAGGGCATTCAAGCGCCTCATCGGCATTTCCCCGAGCGCTTACCGTCAGTCTCATGAGGTCGGGTAA	MAEVEGMTRQLAINQDLNVLLNDHLAQRDVYGIWRTMRNVLTFGQTNDFLQHYYIYLANYDLIVTSGSSYRPEHYYEFFHYDDLSFEEWKQQILEKAHRSEIKPLSSFSERDNETSVITYMQSLPLDSFNDSSPAKVVVVIDARTIAGLFSGLTDNYGGWVHIHDGIGNTLALQGNIESDVSQIMNDPAFDQNKTSQFYKNDLVITTRSDKSGWVYQAGIPRSALMENADQIKQASWFITGGAMIVGLLFGLYLAHRNSVPIHRMISIMKEQFGRDELTERNEFDFLSGNIANMISKNKQLENELTRQLPFVRDAFLRRLIAGEFESRDEIASAAQQADIALHNGKGYVGILQIKGYAGMDSVEILNELNAARLLMKQAFSEIAGTLPMTDLGSDKMVVLFFTDEDIEPGPDEELRITGLIDTLTKQVLHEYKMFLQAGFGDPFDSVSEAGQSFDQAKQALEYAVYMNQKETVWYREARIVNTTYYYPLDTEQRLISTIRAGELEEAEKIVNLIMDQNLHQRELSVEMKHQLVGEIKGTFLKLMDQKIFAESEWFENIKRRIIDIGFTEPLESIHNEIRAIMGELCRYIANKKKDSHAKLIRQIYEYTEAMYAHPDLTLYRVAEHVERPEKYISQLFKEVTGVNYSDHLIKLRMDRAAILLAETNLTVDEIAAQVGYNSSHSFRRAFKRLIGISPSAYRQSHEVG				NA	NA	NA	NA	NA
AK002_02781	957	yteP_22	COG4209	putative multiple-sugar transport system permease YteP	TTGGCAATCGAGTCGGAGCCTAGTATCCATACCAACACCAGCACCGGCTATTGGCATGTTGCACGAAAGAGTTTGAGGAAGCATTGGCAGATGTACCTGCTCGTGATTCCGCCGCTGCTGTTTTTCCTGATATTTAAGTACTATCCGATGCTGAATGCCGTTCTTGCCTTCAAGGACTACAACGTCATCAAGGGAATATGGGGCAGTCCCTGGGTAGGTTTCAAGCACTTCGAGCTGTTCTTCGAGAATCCGTTATTCTGGACGCTCGTCAAAAACACGATCATTCTCAGCGGTTATCTCATCTTAGCCGGGTTTCCGATTCCGATCGTGCTGGCGTTAATGATTAACGAGATCCGGGGCGGTCGATTCAAAAAGTTCGTCCAGCTGGTTTCCTTTGCGCCGTATTTTATTTCCACGGTGGTCATGGTGTCGATCATCATGCTGTTTCTGGCCCCGCGGCTGGGCTTTGCCAACGTGGCTTTGAATTTTTTCGGTCTGGAGTCCGTGAACTTTCTCGGCGATCCCGGGATGTTTCGTTCCATCTACGTATGGTCCGATATTTGGCAGACGGCAGGTTATAGCGCAGTGATCTATTTGGCGGCATTGGCCGGCATTGACCCGACCCTGTATGAAGCGGCGAAGGTGGACGGCGCCTCGCGCTTCCAAAAGATCCGTCATGTGGATCTGCCGGGCATTGTGCCGACCATCGTCATTATTTTGATACTGAATGTCGGCAATGTGATGGCGCTTGGATTCGAGAAGGTCTATCTGCTGCAAAATCCGCTGAATCAGGTGAACTCCGAAATCATTGCAACGTATGTCTATCGGATTGGGCTGCTGAATGCCAACTACAGCTTTGCAACCGCAGTCGGCCTCTTCAATTCCGTGATCAACCTCATTCTGCTGCTGACCGTGAACGGATTGGCTAAACGAATGACCCATAACAGCATTTGGTAA	MAIESEPSIHTNTSTGYWHVARKSLRKHWQMYLLVIPPLLFFLIFKYYPMLNAVLAFKDYNVIKGIWGSPWVGFKHFELFFENPLFWTLVKNTIILSGYLILAGFPIPIVLALMINEIRGGRFKKFVQLVSFAPYFISTVVMVSIIMLFLAPRLGFANVALNFFGLESVNFLGDPGMFRSIYVWSDIWQTAGYSAVIYLAALAGIDPTLYEAAKVDGASRFQKIRHVDLPGIVPTIVIILILNVGNVMALGFEKVYLLQNPLNQVNSEIIATYVYRIGLLNANYSFATAVGLFNSVINLILLLTVNGLAKRMTHNSIW	PGPT0017250_2965	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02782	906	araQ_28	COG0395	L-arabinose transport system permease protein AraQ	ATGGCAGTTCAACAAGCAGGTACAAGAAAAATCAAGGAGTCCGCTGGTGACCGCATCTTCCTGACAACGGTATACATCGTTCTCTTTCTGGTCGTTATTGCGGTTTTGTATCCGCTGATTTATATCATCAGCAGCTCCATCAGCAGCCCGGCTGCCGTTACTTCGGGCAGGGTATGGTTGTGGCCGGTCGATATTTCGTTCGAGGGCTTTCGGGTCCTCTTTAAAACGCCCGAGATTATGACCGGATACGCAAATTCCATTTTCTACACGACGGCCGGTACGATCATCAGTGTCGTGTTGACCATCATGATTGCCTACCCGCTTTCGCGCAGATCGTTTTTTGGACGCAACGCGTTGATGATGATCATTACGTTTACGATGATATTCAGCGGAGGGCTGATTCCGACTTATATGGTCGTACGGGAGCTTCATCTGATCGATACCCGCTGGGCGCTGCTCATTCCCAATGCCATTTGGGTGTGGCAGGTGATTATCGCCCGATCTTTTTTTCAGTCTTCCATTCCGGACGAATTGCAGGAGGCCAGCGAGATGGACGGCTGCAGCGACATCCGTTTTATCTGGAGCATCGTCCTCCCGTTGTCGAAGCCGATTATGGCCGTGCTCGTGCTCATGTATGCGGTCGGCCAGTGGAATGCGTATTTCGATGCGTTGATTTACTTGAAAAGCGCTGACCTGTTTCCGCTGCAGCTGATTCTTCGAAGCATTATCATTCAGAATAACAGTTCGGGAACGATGGATGCTTTAGCCATGGTTGAGAGGCAGCAGCTTGCCGAGCTCCTGAAATATGCGCTGATTGTGGTTGCCACGCTGCCTGTGCTAGTCATTTATCCGTTTGTGCAGCGCTATTTTGTGCAGGGGATGCTCGTAGGTTCCGTGAAAGGCTGA	MAVQQAGTRKIKESAGDRIFLTTVYIVLFLVVIAVLYPLIYIISSSISSPAAVTSGRVWLWPVDISFEGFRVLFKTPEIMTGYANSIFYTTAGTIISVVLTIMIAYPLSRRSFFGRNALMMIITFTMIFSGGLIPTYMVVRELHLIDTRWALLIPNAIWVWQVIIARSFFQSSIPDELQEASEMDGCSDIRFIWSIVLPLSKPIMAVLVLMYAVGQWNAYFDALIYLKSADLFPLQLILRSIIIQNNSSGTMDALAMVERQQLAELLKYALIVVATLPVLVIYPFVQRYFVQGMLVGSVKG	PGPT0017255_884	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02783	1668			hypothetical protein	TTGAAAAAAGGCCTATTCAGTTTGCTCATGCTGTTATTGGTGAGCAGCATCGTGATGGCAGGGTGCTCAGGCAAAAATACAGAAAGCTCGAGCAGCCCTCAGGGCGGAAGCGCGTCCGGCAGTTCGGACAGCTCAAAACCCGTGGAAATCAGCGTTTTTGCCGTACAGGAATCAGGCATCGATATTCCGGTGAACAAATTTACCAAGCATATCGAGGAACAGTTTAACATTAAATTTAATTGGCAGATCAATCCCTCCGACGGCGCCAAGGAGAAACGCCAAATTTCCCTGGCCAGCGGCGATTATCCGGATGCCTATCTGCTGACGCACTATATCGATGAATTCTCTCAAGCGGATGTGCTCAAATACGGTCAACAGGGAGTGCTCGTTCCCCTGAACGATCTGATTGAACAGCACGGGCCGAACATTAAAGCGGCCATGGAGGCCACGCCGGAAATGAAGGCGCTTGTTACGGCCCCGGATGGGAATATCTACGGACTAGGCGCATACACGGAATGCTTCCACTGCTCCTATCCCAATAAAATGTGGATCAATACCGAATGGCTGAAGAAGCTGAATCTCGAGGAACCGACAACGACCGAGGAATTCAGAAGCATGCTGCAGGCATTCAAAACGCAGGATCCGAACGGCAACGGGAAAGCGGATGAAGTGCCCCTTAGCGGTTCAACGGAGGATTTCGGCGTCCGGATTATCCCTTATTTGATGAACAGCTTCGTTTACGACGACGACCGGAACTACTTGACGATGAATGGCGGCAAGGTTGAGTCCGCGGCGATCACGCCGGAATGGAAGGAAGGGCTCACCTATATCAAATCGTTGTATGACGAGGGATTGATCGATCCGGGCGCATTCACCCAAAATGCGGAGGCGTTCAAGAAAATCGGCGAGAATGCGGACGCTGAAATTCTCGGCGCCGGTGCCGGCATGCACCCGGCCATCTTCGTGAACATCGATCCGGGCAACACCCGTTCGGCGCATTACAATCCGCTTCCGCCGCTAAGCGGACCGAACGGAATTTCATACGCAACCCATGATGCGGGCGGCGTATCACCAGGCGCAAAATTCGTGATCACGAACAAAGCCAGTGAAGAAGCCCGGGTAGCATTGATCAAGATGGTGGACTACATGTTTACGCCGGAAGGCCAAACCAATGCGGCAACCGGCATGAAAGGGATCGATTGGACAGACCCCGAGCCCGGCGATCAAGCGCTCGGCGAGGGCGTGACGCCGATGGTCAAGTCCATTCCGACGAAGGAAGGCGAAGCGCCGCATAATGCGGGTTGGAGCGGAATGGGCCATTTCTATATGCCGAAGGAGTATCGCGATACGTGGGTGCAGGGAACCGATATTTATGCATCCGACGGCTATGAGCGCAGATTGTATAATGCTTCGCTGCTGTACCAAGGACATGAGCCGAAGGAGATCTTTCCGATCTGGTCGATCTGGATCGATCCGAGCGTCATCGATGAAGCCAGCATGCTTCAAACCAACCTTAAAAACTATATTGAGCAGAACCAGCTGCAGTTCATTACGGGCAACAAGGATCTGAACAAGGATTGGGACGCTTACGTCAAAGGATTGAAGGATCTGAAACTGGATCGTTATCTCGAAATTTTGCAGACGGCTTACGATCAATCCGCCAAATAA	MKKGLFSLLMLLLVSSIVMAGCSGKNTESSSSPQGGSASGSSDSSKPVEISVFAVQESGIDIPVNKFTKHIEEQFNIKFNWQINPSDGAKEKRQISLASGDYPDAYLLTHYIDEFSQADVLKYGQQGVLVPLNDLIEQHGPNIKAAMEATPEMKALVTAPDGNIYGLGAYTECFHCSYPNKMWINTEWLKKLNLEEPTTTEEFRSMLQAFKTQDPNGNGKADEVPLSGSTEDFGVRIIPYLMNSFVYDDDRNYLTMNGGKVESAAITPEWKEGLTYIKSLYDEGLIDPGAFTQNAEAFKKIGENADAEILGAGAGMHPAIFVNIDPGNTRSAHYNPLPPLSGPNGISYATHDAGGVSPGAKFVITNKASEEARVALIKMVDYMFTPEGQTNAATGMKGIDWTDPEPGDQALGEGVTPMVKSIPTKEGEAPHNAGWSGMGHFYMPKEYRDTWVQGTDIYASDGYERRLYNASLLYQGHEPKEIFPIWSIWIDPSVIDEASMLQTNLKNYIEQNQLQFITGNKDLNKDWDAYVKGLKDLKLDRYLEILQTAYDQSAK	PGPT0017245_1874	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02784	1146			hypothetical protein	GTGTCGGATTATAACAAAGGCATGGACCGTACCGCATTCATCGTAAATCGCGGAGGGCTGCCTCATGTTAAAGCCAAACTTGCAGGGGAAGAACAGGTGACGGTTGCCTTTCTGGGCGGATCCATCACGGAGGGAGCCGGTGCCTCAGCGGCCGAGAAGACAAGCTGGCGTGCTTTAACGACTTATTATTTAAGAGAACATTTTGGAAGTTCGCGGATTCGCTCCATTAACGCAGGTGTCGGGGGGACGGATTCTTCGCTGGGAGCTCATCGTCTACGCGAACACGTGCTGAGAGTCGGGAACATCGATTTGCTATTCGTGGAATTCAGCGTGAATGACGGGAGCGACCGAGAAGAATCCATCAGAGGAATGGAGGGAATTGTACGCCAATGCCGTCGTCTGTCACCCGGAACGGATCTATGTTTCATTTATACCGGGTCGGAGCGAAACCTGGCCCGTATCCGGCCGTATCCCATTGCCGTTCACGAAGAAGTGGCCGAGCATTACGGCATTCCTTCCGTCGATTTTGCCGCCGGCATTTATGGCATGCTGACTAACGGTGAGGTAGCTTGGTCATCGCTTGCACCTGATGGATACCATCCGAATGATGAGGGGCATGAGATATACGCCGGTTTTTTGCAGGGATATTTGAAGGAGCTGCTGTCGACAGAGGGTGACTCATTGATGCTCAATCATTGCGGACATTTGCCCACAGAACCGCTGCTGGCGGGGAACTACGAATATGCCGAAATGCTCCCATATGAGCTAGCCGATTATACCGGGGATTTTCAAATCCGGGAGCTGCCGTCAGGTTCAAAACTCATGAATTGGCATTATGCAACAGATCACAGGTACTCTGATCATCCGAACGCTTCGTTTACGTTCACCGTGGAAGGACAAAGCGGCGGACTGCTGCTGTTATGCGGACCCGACACCGGAATCTTTGAATACTCGATCAACGGCGGGTCCATCGTACGGGTCAATCCCTTCGACGAGTGGTGCTTGAACGCTTATCGGCCAGTCAGCGTACACTTTCCTAGACTTCAAGCGCGCGGGCCGATTTCGATCATGGTTCGCAATACAGGACTCAAGGATAAGCGAAGCCAGGGTACGGGCATGCGCGTGCTGAAGCTGCTAGCGAATTAG	MSDYNKGMDRTAFIVNRGGLPHVKAKLAGEEQVTVAFLGGSITEGAGASAAEKTSWRALTTYYLREHFGSSRIRSINAGVGGTDSSLGAHRLREHVLRVGNIDLLFVEFSVNDGSDREESIRGMEGIVRQCRRLSPGTDLCFIYTGSERNLARIRPYPIAVHEEVAEHYGIPSVDFAAGIYGMLTNGEVAWSSLAPDGYHPNDEGHEIYAGFLQGYLKELLSTEGDSLMLNHCGHLPTEPLLAGNYEYAEMLPYELADYTGDFQIRELPSGSKLMNWHYATDHRYSDHPNASFTFTVEGQSGGLLLLCGPDTGIFEYSINGGSIVRVNPFDEWCLNAYRPVSVHFPRLQARGPISIMVRNTGLKDKRSQGTGMRVLKLLAN	PGPT0001840_17	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
AK002_02785	1713	glaA		Alpha-1,3-galactosidase A	ATGCCTGGAAATCAAAATACTACAGCTCCGATCACCCTTTCCTTGCGGGATTACGAGGAACCGAATAACCCGGATGCGCAACCTGCCATGAAACGCGCGATAGAAGCCGCCAGGTCAATGGAAGGCTCGGTCATTCTGGACATACCGCCGGGCTGCTATCATTTTTATCCTCAATCGGCCGATCGGGAAGCCTATTATATCTCGAATACAACCAGCGAGGAAGAGAATCCGGATGTGACCAAAACGATCGGGATTTGGCTTAAGGATCTGCACCATGTGACGCTTGAGGGGAACGGCGCTTTGTTTGTTTTCCACGGAAAGCAGACGATGCTTGTGCTCGATGGCTGCACGGATATTGAAATTCGCAATCTGCACTGGGATTACGCCGCCCCGACCGTGACCGAAATGACGGTGGATCGGTGCGTCGAAGCTTATCTTGAGGCAACCGTTCATCCGGATTCACGCTATGATTGCGCTGACGGCAAATTCGAATGGGTGGGCGAAGGCTGGCGTTTTCGCGAAGGACCGATGCAGTTATGCAGTGCGGATTTCGGTGCTGTATGGCGCGTAGATAATTGGCTGGAGCGGGTGGTGTTTACCGAGGAGCTGTCGCCGCGACGGCTTCGGTTTCATTTTGGAAACCAAGGCCCTCCGCACATGGCACCCGGTACAATCGTGCAAATGCGCGACGGCATTCGGGACCAGGTTGGCATGTTGATCACCCGAAGCTCCGGGGTGACGTTCAGCGACGTGGGCCTGCATTTCATGCATGGACTGGGCGTGGTTGGACAGTTCAGTGCCAATCTGACCTTTGAACGCTTGGATCTGACGCCGCGTCCGGAGACCGGCCGCACGGTGGCGGGGTTTGCGGATTTCATTCACCTGTCGGGCTGCAGAGGGAAGGTCTCGATTCGGAATAGTCGGTTTGCAGGGGCCCATGATGATGCGATCAATGTCCACGGCGCTTATCTCCGGATCGTTGGTAGACCAGCCTCCGATCAATTGCTTGTCAGGTTTATGCATCCGCAGACTTACGGATTTTTGGCTTTTCTGCCGGAAGATGAGATCGCGTTCGTGAATGCGGATACGCTGAACCCCTACGCTTTCGGAAGAGTCGCCGCTGTCGGCATGAAATCGCCCCGCGAAATGCTGATCACGTTGGAAAACGCGCTTCCCGCGGACATCGGAGAACGGGACGTGCTTGAAAATATGACGTGGACGCCGGAGGTCGAAATTGTCGGCAATACATTCGCCCGTATTCCCACGCGCGGAATTCTGGCCACGACGCCGCGGCGGATCGTGATTCGGAATAACACCTTTGTGAACATGCAGATGAGCGCGATACTGGTCGCAGCGGATGCATCATCCTGGTACGAATCCGGCGCCGTAACGGATATGAGCATTGCGGATAACCGGTTTGTGAATTGCGGCGGTCCCGGATATGCCGTGATACGGATTGCACCTGAGAATAAACATCATCTTGCAGCGGTTCACCGCAACATTCGGATTGCACGCAACTGCTTTGAAACAACCGGAGAAGATTGGTTAACGGCAAGAAGCACGGAGGGACTGATATTCCAAAATAACGTGATTCGGATGCAGGAAAAGCACGGTCTTGCAGGGAATATCCGTACGGACGAACGCGTCCATTTGGAAGCCTGCATGGGAACGGATATTTCGTGCAATGACGTGGAGTATGACGAATTGAAATAA	MPGNQNTTAPITLSLRDYEEPNNPDAQPAMKRAIEAARSMEGSVILDIPPGCYHFYPQSADREAYYISNTTSEEENPDVTKTIGIWLKDLHHVTLEGNGALFVFHGKQTMLVLDGCTDIEIRNLHWDYAAPTVTEMTVDRCVEAYLEATVHPDSRYDCADGKFEWVGEGWRFREGPMQLCSADFGAVWRVDNWLERVVFTEELSPRRLRFHFGNQGPPHMAPGTIVQMRDGIRDQVGMLITRSSGVTFSDVGLHFMHGLGVVGQFSANLTFERLDLTPRPETGRTVAGFADFIHLSGCRGKVSIRNSRFAGAHDDAINVHGAYLRIVGRPASDQLLVRFMHPQTYGFLAFLPEDEIAFVNADTLNPYAFGRVAAVGMKSPREMLITLENALPADIGERDVLENMTWTPEVEIVGNTFARIPTRGILATTPRRIVIRNNTFVNMQMSAILVAADASSWYESGAVTDMSIADNRFVNCGGPGYAVIRIAPENKHHLAAVHRNIRIARNCFETTGEDWLTARSTEGLIFQNNVIRMQEKHGLAGNIRTDERVHLEACMGTDISCNDVEYDELK				NA	NA	NA	NA	NA
AK002_02786	2436			hypothetical protein	GTGGGAGCAAACATGAAATTGCAGTACGTGAAACCAGCCACGGTCTGGACGGAGGCGCTGCCGATCGGCAACGGACGTCTTGGAGGCATGGTCTACGGCGGCGTGGAGCGTGAAACGATCAGCTTGAACGAGGATACGCTCTGGTCCGGTTATCCCAGGGATTGGAACAACCCGTCTGCACGGGAAGCGCTGCCGGAGATCCGGGAGCTGGCAAGCCAGGGACGTTATATGGAGGCCGATCAGCTAGGGCGCAAGATGATGGGGCCCTATACGGAATCTTACCTGCCGTTAGGAGACTTATGCCTCAGGTTTGATCATGGAGGCGTGTTTCATTCTTACCGAAGAACGCTGGATATCGCCAATGCCGTTCAACGAACGGAATACCGCATCGGCGAGGTGACCTACACGAGGGAATGCTTCGCATCCAGCCCGGACCAGATGATTGCCTTGCGGTTAACCTCGAGTGCTGCGTGCTCGCTGGACTTTCATGCCTATCTGGAAAGCCCGCTGCGTTTTACCGTAAAGACCGAAGAAGATATGTACGCCATGTCGGGATTTGCACCGGAACGCGTCGAGCCCAGCTATGTTTCCTCTGATCGTCCTATCCGTTACGGCGATCCTGAACATACCGCTGCCATGGCTTTCGACGGTCGGTTGGCGGTGGCCGAAACGGATGGCCGCGTGACCATGGACGCAGCTGGCATTCATGTACTGGATGCGAGCGAAGCGGTCATTTACTTCACTGCGGCCACCAGCTTCAACGGATTTGACCAAATTCCCGGTCACCGCGATGGCGGAGATCATCCGGCTGCTGCCGCGGCTATAGCTGCGGGTACCATGAAAGCCGCATGCAGCCAGTCTTGGACAGAGCTGCGCGATCGGCACGTCAACGATTATCGCAGCCTGTTTGACCGCGTCAGCCTTCGATTAGGCGAGACGCTGGCAGCCGGAGATATGGACACGGAGGAGAGAATCGAGCGATTCGGTGCCCGGGATCCAGGCATGGTCGAGCTGCTGTTCCACTATGGCCGCTATCTTCTGATTTCAAGCTCCAGGCCCGGAACGCAAGCCGCCAATCTTCAGGGGATATGGAATGCCTCAACCCGGCCGCCGTGGAGCAGCAATTGGACCTTGAACATCAATGCGCAAATGAACTATTGGCCCGCGGAGGTATGCAATTTGGCGGAATGCCATCAGCCTCTGCTGGAGCTGATCAGAAGCCTGTCGGTAAACGGTGCGGAAACCGCCGCCGTCCATTACGGTACCCGGGGCTGGACCGTTCATCATAATACGGATATCTGGGCCCATACCGCACCGGTCGGCAATTACGGGGACGGCGATCCTTCCTGGGCGCTTTGGCAAATGGGTGGAATCTGGTTAACGCAGCACTTGTGGGAGCATTACGCGTATAGCGGCGATGAAGCTTATTTACGATCGTTCGCTTATCCCCTAATGAAGGAAGCTTCTTTATTTGCTTTGGACTGGCTTATAGAAAACGACGCAGGCCATCTCTTGACCTCGCCGTCGACCTCGCCTGAGCATAAATTCCGCACGTCTGAAGGGCTGGCGGCCGTCAGCGAAGGGGCGACCATGGATATTTCACTCATATGGGAGCTGTTCACCAATTGCATGGAAGCGGCGGACATTCTCGGCGTGGATGAGGAATTCCGGGAGGAATGGAGCAGCAAACGGGAACGTTTGCTGCCTCTGCAGGTCGGCCGATACGGCCAGCTGCAGGAATGGTCCCATGACTCCGAGGATGAGGACGTATTTCATCGGCACACGTCCCACCTGGTCGGGGTTTATCCTGGACGGCAGCTATCTGCGGAAGATAGCCCGGATCTGTTTGCAGCTGCCCAAACCTCTTTGGAGCGTCGCGGGGAGGAAAGCACGGGCTGGAGCCTGGGCTGGAGGGTGGCGCTTTGGGGCCGGTTCGGTGACGGCAACCGTGCGCTCCGGCTGTTAACCAATATGCTGAGATTGGTGCGGGACGGGGACTCGGAGCGTTACGACCACGGAGGTGTGTATGCGAGTTTATTAGGAGCGCATCCTCCTTTTCAGATCGACGGCAACTTCGCAGCTGCAGCGGGAATTGCGGAAATGCTGCTGCAGTCGCATCGCCCCTTACTCATGCTGCTGCCGGCTCTGCCGGATGCATGGCCGGAAGGCGAGGTACGTGGATTGCGGGCACGAGGCGGCTTTGAAGTCGGTATTCGCTGGAAGAATGGAAGACTGACGGAGGCACAGATCATGTCTCGTTTGGGGAATGTATGCAGCGTAAGCATAGGCAATGGACATGGAAATGGGATTGCGGTTTACCAAGGCGATGCCAGCATTCCCGTACAGGTCTCCGCCAAAGGCGTATTTTCATTTGGAACAGAACAGGGCTTAACCTATCGACTGGTCACGGATCCGGCAGGGGCCCCCCGGGCTTGA	MGANMKLQYVKPATVWTEALPIGNGRLGGMVYGGVERETISLNEDTLWSGYPRDWNNPSAREALPEIRELASQGRYMEADQLGRKMMGPYTESYLPLGDLCLRFDHGGVFHSYRRTLDIANAVQRTEYRIGEVTYTRECFASSPDQMIALRLTSSAACSLDFHAYLESPLRFTVKTEEDMYAMSGFAPERVEPSYVSSDRPIRYGDPEHTAAMAFDGRLAVAETDGRVTMDAAGIHVLDASEAVIYFTAATSFNGFDQIPGHRDGGDHPAAAAAIAAGTMKAACSQSWTELRDRHVNDYRSLFDRVSLRLGETLAAGDMDTEERIERFGARDPGMVELLFHYGRYLLISSSRPGTQAANLQGIWNASTRPPWSSNWTLNINAQMNYWPAEVCNLAECHQPLLELIRSLSVNGAETAAVHYGTRGWTVHHNTDIWAHTAPVGNYGDGDPSWALWQMGGIWLTQHLWEHYAYSGDEAYLRSFAYPLMKEASLFALDWLIENDAGHLLTSPSTSPEHKFRTSEGLAAVSEGATMDISLIWELFTNCMEAADILGVDEEFREEWSSKRERLLPLQVGRYGQLQEWSHDSEDEDVFHRHTSHLVGVYPGRQLSAEDSPDLFAAAQTSLERRGEESTGWSLGWRVALWGRFGDGNRALRLLTNMLRLVRDGDSERYDHGGVYASLLGAHPPFQIDGNFAAAAGIAEMLLQSHRPLLMLLPALPDAWPEGEVRGLRARGGFEVGIRWKNGRLTEAQIMSRLGNVCSVSIGNGHGNGIAVYQGDASIPVQVSAKGVFSFGTEQGLTYRLVTDPAGAPRA	PGPT0018650_707	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_02787	1716	treA	COG0366	Trehalose-6-phosphate hydrolase	ATGCAGAACCCAGGAACCCAATCTCAAGATTGGTGGAGAACTTCGACGGTTTATCAGGTATACCCGAAGAGCTTCAACGATACAACCGGCCGGGGTACCGGCGATATACGCGGGCTTATGGAAAAGCTTGATTATATAAAGGGACTTGGCATCGACATTGTGTGGCTCCAGCCGGTGTATGTGTCTCCGCAAAATGATAACGGTTACGACGTCGCCGATTATTGCAGCATCGATCCTGCATACGGGACGATGGACGATTTCGATGAACTTGTTGCCGAATTGAAAAAGAGAGACATGCATTTGATGATCGACATCGTCGTGAATCATTCTTCGACCGAGCATCGATGGTTTAAAGAAGCCATTTCCTCACGCGATAACCCGTATCGCGACTATTACATCTGGCGGGATCCCGCGGAAGACGGCGGCCCGCCGAATAACTGGCAATCCAAGTTTGGAGGTCCTGCGTGGCAGTATGACGAGGGGACAAGGCAATATTACTTGACATTGTTTGACAAGACGCAGGCCGATCTGAATTGGGAGAACGAGAAGGTCCGGGCGGAGGTCGTGGACATTCTCACGTTCTGGGCGGACAAGGGCGTCAGCGGATTCCGGATGGATGTCATCAATCTCATATCGAAGGATCCCGCTTATCCAGACGATGACGGTTCCGTGGCGCCGGGCGACGGACGCAGGTTTTATACGGACGGCCCCCGCGTGCATGAATACATTAAGGAATTGAACGGAAAAGTGTTCAAGCCTTACGATCTCGTCACGGTAGGAGAAATGTCCTCCACAACCTTGGAGCATTGCATTCGTTACTCGAACCCGAAGGAGAACGAATTCTCCATGACGTTCAACTTCCACCACTTGAAGGTGGACTACCCGAACGGGCAAAAGTGGGAGCTCAAGCCTTACGATTTCGAAGAATTGAAGCGGGTGCTTTCCGATTGGCAAATCGGCATGCAGAAGGGCGGGGGCTGGAATGCCCTCTTCTGGAATAACCATGATCAGCCGCGTGCGCTGACCCGATTCACCAATGATTGCGAATACCGCTCGGAAAGCGCGAAAATGCTGGCTACGACGCTTCACGGATTGCAGGGCACGCCATATGTGTATCAGGGCGAAGAGATCGGCATGCCCGATCCGAAATGGAATGACATATCCGAGTTTAGGGATGTTGAATCTCTAAACATGTATACCATCCTCCAAGAGCAAGGAAAAACGCCGGAGGAGGCTGCCCATATCGTCAGGGTGCGCTCGCGAGACAACTCCAGATTACCCATGCTCTGGAATGACGGCGATCAGGCGGGATTTACGACAGGGACGCCTTGGATCAAGATCGATGAGCGGTATCCGCTGATCAATGCGCAAGCCGAAGTGGAAGATCCGCAATCGATCTATCATCATTACCGGAAACTGATTGAAATGCGAAAGAACCTTCCGGTGATGACGGACGGTGTATATGTTCGTCTGGATGAAGGCCATCCCGAAATTTATGCATATGCGAGAACGAACAAGGAGCAGACGCTTGTTGTCATTTCCAATTTCAGCGACCGCGGCGTATCGTTCGAGCTTCCCGAGGAGATGCATGATCATCTAACCGAAAGTCGATCGGTTCAACTGTTAATCGGCAACACAACGGAAGAACCCAAGCTTACGCCAACAGTTGCACTACGACCGTATGCTTCCTATATGTGGCTTATTCACAACAACTAA	MQNPGTQSQDWWRTSTVYQVYPKSFNDTTGRGTGDIRGLMEKLDYIKGLGIDIVWLQPVYVSPQNDNGYDVADYCSIDPAYGTMDDFDELVAELKKRDMHLMIDIVVNHSSTEHRWFKEAISSRDNPYRDYYIWRDPAEDGGPPNNWQSKFGGPAWQYDEGTRQYYLTLFDKTQADLNWENEKVRAEVVDILTFWADKGVSGFRMDVINLISKDPAYPDDDGSVAPGDGRRFYTDGPRVHEYIKELNGKVFKPYDLVTVGEMSSTTLEHCIRYSNPKENEFSMTFNFHHLKVDYPNGQKWELKPYDFEELKRVLSDWQIGMQKGGGWNALFWNNHDQPRALTRFTNDCEYRSESAKMLATTLHGLQGTPYVYQGEEIGMPDPKWNDISEFRDVESLNMYTILQEQGKTPEEAAHIVRVRSRDNSRLPMLWNDGDQAGFTTGTPWIKIDERYPLINAQAEVEDPQSIYHHYRKLIEMRKNLPVMTDGVYVRLDEGHPEIYAYARTNKEQTLVVISNFSDRGVSFELPEEMHDHLTESRSVQLLIGNTTEEPKLTPTVALRPYASYMWLIHNN	PGPT0014095_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PHOSPHOTREHALASE,PGPT0014095-treC-K01226	NA	NA
AK002_02788	2031			hypothetical protein	ATGGCCATTGATCGCAAAAACGTGGAACGCATTGTCGAAGCAGTCGGCGGAAAAGACAATATCGAAGCCGCTACGCATTGCGTAACCCGATTAAGATTCGCCCTTGTGGACGACAGCAAGGTGGATTCCCAAGCCCTTGAAGCGAACGATTTGGTGAAGGGGCAGTTCTCTTCCCAGGGACAATTTCAGGTCGTGATCGGACCGGGTCTTGTAGACCAGGTTTACAACGAAATGATGGATATCACCGGCGGTGCGAGAGTATCGAAGGATGAAGTGAAGAACATTGCGAGCAAGAAGCAAAATCCGCTTCAGCGTGCCATTAAAACGCTTGCGGATATTTTCATACCGATTCTGCCGGCAATCGTCATGGCAGGTTTATTGTTAGGGATTAACAATCTGCTTACGGGACCGGGCATATTCTATGAAGGACAGTCGTTGATTCAGGTCCATCCCGAATGGGCGGATGTAGCCTCGATCATCAATCTAATTGCAAGCACCGCCTTTACCTTCCTGCCTGTCCTGATCGGCTGGTCGGCGGTACGTCAGTTCGGAGGCAATCCGCTGCTTGGAATCGTGCTGGGCCTGATCCTGGTAAACCCGGATCTGCTCAGTGCCTACCAGTATGCGGATGCCAAACTTGAAGGCACGGTTCCGGTTTGGAACCTGTTTGGCTTTGAAGTGGAGAAAATCGGTTATCAAGGCCAGGTGCTGCCGGTCCTTGTCTCGGCTTATATTTTGGCCAAAATCGAGAAGTTCCTGAACAAACGCGTCCACGATTCCATCAAGCTGCTTGTCGTGGCTCCCGTTGCCCTGTTGGTGACCGGGTTCCTCGCGTTCGTTCTGGTAGGGCCGATCACGTTTGCCATCGGCAACGTCCTTACTTCAGGCCTCGTCAGCATTTTTGACTCCTTTGCCGCTCTGGGCGGCCTGATTTATGGCGGACTGTATGCACTTCTTGTTATTACGGGGATGCATCATACCTTCCTTGCGGTGGACATACAGCTCATCGGCAGCGAAGGCGGAACGTTCTTGTGGCCGATGCTGGCGCTGTCCAATATTGCTCAAGGTGCCGCGGCGCTTGCCATGATGTTTATTATGAAGGAACAGAAGGCGAAAGGACTCGCCGTTACATCTTCCATCTCGGCTTTCTTGGGGGTAACGGAGCCCGCCATCTTCGGGGTCAACGTTCGTCATAAATATCCGTTTATTTTCGGTATGATCGGATCGGGGATTGCGGGCGTGCTGCTGGCCGTGAACAACGTCCTGGCATCATCGATTGGCGTGGGCGGGATTCCGGGCTTCCTGTCCATCTTCCCTAACCAGTGGGGCGTCTTCTTCATTGGCATGGCGATTGTAATGATCATTCCGTTCACGGGGACTTTGTTGTTCGGGCGTTACCAGTTGTCCAGGCAGTCTCGACAGGCAACGGAAGGGAATGCTGCTGGAATAGATGGAAAAGCACAAGCTGTTAATACGGAAACGAACGACAGTCTTCCATCCGGATCGTTCGCGTCGACGGAAATGACGAATGGTCCAACGATGGAAGCGTCGAAACAAGCCGCATTAGATATCATGGCACCGATCAAAGGGAAAGTGGTTCCCCTATCAGAGGTACCGGATCCTGCCTTCGCCGATAAACAAATGGGCCAAGGCATCGCGATCGTCCCGTCCGAAGGCAAAGTGTATGCTCCGTTTGACGGCCAAGTCGCCCATTTGATCAAGAAGAGCAAACATGCGATTATTTTGACGGATGCGAACGGAATCCAGATCCTGATTCACGTCGGTATCAACACCGTTTCGTTAAAAGGCGAAGGATTCACGGCACATGTGGAAACGGGTGCGGAGATAAGGAAAGGGCAGCTGCTGCTTGAATTCGATATCGATCGCATTCAGCAAGCCGGATTGCCGGTCATTACGCCCGTCATTATTCCGGATGGGCAAGATCACATTCAGAACGTGACGGAGTTTGAAGGCGAGGCTCTTCCTGGCGAAACGCGAGTGCTTCAGGTGACTCTCGGTAATGGACACTGA	MAIDRKNVERIVEAVGGKDNIEAATHCVTRLRFALVDDSKVDSQALEANDLVKGQFSSQGQFQVVIGPGLVDQVYNEMMDITGGARVSKDEVKNIASKKQNPLQRAIKTLADIFIPILPAIVMAGLLLGINNLLTGPGIFYEGQSLIQVHPEWADVASIINLIASTAFTFLPVLIGWSAVRQFGGNPLLGIVLGLILVNPDLLSAYQYADAKLEGTVPVWNLFGFEVEKIGYQGQVLPVLVSAYILAKIEKFLNKRVHDSIKLLVVAPVALLVTGFLAFVLVGPITFAIGNVLTSGLVSIFDSFAALGGLIYGGLYALLVITGMHHTFLAVDIQLIGSEGGTFLWPMLALSNIAQGAAALAMMFIMKEQKAKGLAVTSSISAFLGVTEPAIFGVNVRHKYPFIFGMIGSGIAGVLLAVNNVLASSIGVGGIPGFLSIFPNQWGVFFIGMAIVMIIPFTGTLLFGRYQLSRQSRQATEGNAAGIDGKAQAVNTETNDSLPSGSFASTEMTNGPTMEASKQAALDIMAPIKGKVVPLSEVPDPAFADKQMGQGIAIVPSEGKVYAPFDGQVAHLIKKSKHAIILTDANGIQILIHVGINTVSLKGEGFTAHVETGAEIRKGQLLLEFDIDRIQQAGLPVITPVIIPDGQDHIQNVTEFEGEALPGETRVLQVTLGNGH	PGPT0014075_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014075-treB-K02819	NA	NA
AK002_02789	738	treR	COG2188	HTH-type transcriptional regulator TreR	ATGACGAACAACATTTATTGGACGCTGTATAAAGACTATGCCGACCAAATCGAAACCGGCGCTTTGCAGCCCGGCAGCAAGCTGCCCTCGGAGAACGAGCTTGCGGCAACCTATCAAATTACAAGGGAAACGGTCCGCAAGGGACTGAATTTACTCGCCCACAACGGTTATATTCATAAGGTTAAGGGCAAAGGTTCGTTTGTGCTCGACACCGGGCGAATGAATTTCCCGGTTACGGGGCTTGTCAGTTATAAGGAAATGGCGGAGCGGATTGGCCGGAAGAGCCGTACGATTGTGTATGAAACGGAATGCGTTCCGGCCGGGGACGCCATCGCGAAAGAGCTGCAAACCCGCCCGGACCGGCTCGTGTGGAAGGTGATCCGATCCAGGGAAATCGAAGGGGAGCGCATCATCCTCGATGTGGATTATTTGCTTGCCGACATCGTGACGGGTTTAACGAGAGAAATTACGGGCGATTCCATCTATCAATACTTGGAGCAGGAGCTCCATCTAAAGATCAGTTACTCGAAAAAAATCATTTCCGTGGAACGAGCTACGACGATGGACCAGTCCTATATGGATCTTGGAAGCGATACCCATGTCGTCGTGGTCCGAGGTTACGTCCACTTGGAAGATACCACGCTTTTCCAGTACACGGAATCCAGACATCGATTGGATAAATTTCAATTTGTGGATTTTGCAAGAAGGGAATCCAATCATGATTTTGGAGACAAATAG	MTNNIYWTLYKDYADQIETGALQPGSKLPSENELAATYQITRETVRKGLNLLAHNGYIHKVKGKGSFVLDTGRMNFPVTGLVSYKEMAERIGRKSRTIVYETECVPAGDAIAKELQTRPDRLVWKVIRSREIEGERIILDVDYLLADIVTGLTREITGDSIYQYLEQELHLKISYSKKIISVERATTMDQSYMDLGSDTHVVVVRGYVHLEDTTLFQYTESRHRLDKFQFVDFARRESNHDFGDK	PGPT0014110_42	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014110-treR2-K03486	NA	NA
AK002_02790	783	bacC_2		Dihydroanticapsin 7-dehydrogenase	ATGGATTTGGGACTCCATGGAAAGGTTGCGTTGATTACCGGGGGGAGCAGGGGGATTGGCCTTGAAACCGCCGTTACGTTTGCAATGGAGGGGGCTAAAGTTGCCATATGTGCAAGAGATGAGGAGCAGTTAAGGGCTGCCGCGGATCATATCAGGCATCTATCGAAATCCGAAGCGTTAACCATCGCAGCGGATGTTACGAAACCTGAGGATTGCATGCGAGCCGTAACCGAAACGCTAAGAAGCTACGGACGGCTCGATATCCTGGTGAACAATGCCGGAACCGCCGCAGCTAAGCCGTTTGAGCAGATCGACGACGAGTCATGGGCATCCGATCTGGATCTCAAGCTGTTCGGCGCGATTCGTTTTTCGCGTGCGGCCGTCCCTCATCTGCGGAATTCCGGCGGCGGTGCGATTATTAATATCACGACATCCTGGGCCAAAACGCCGCCGGCTTCATCCATGCCAAGCAGCGTCAGCCGAGCGGCAGGACAAGCCATGACCAAAGCGATGAGTCACGATTTGGCGAAAGACCATATCCGGGTAAACACCGTATGTATCGGAACGATACGGAGTGCACAGCTTGAGGCGCGTTGGAAACGTGAATCACCTGAACTCACCTGGGACCAGTACGCCAGGGATCCGCGCCATAACATCCCGCTCGGGCGTATCGGCGATACGGAGGAAGCGGCAAAAGTCATCGTATTTTTGGCGTCCGATGCCGCCTCCTACATAACGGGTACTGCCATCAATATCGACGGCGGTTCGGCTCCGTCTTTGTGA	MDLGLHGKVALITGGSRGIGLETAVTFAMEGAKVAICARDEEQLRAAADHIRHLSKSEALTIAADVTKPEDCMRAVTETLRSYGRLDILVNNAGTAAAKPFEQIDDESWASDLDLKLFGAIRFSRAAVPHLRNSGGGAIINITTSWAKTPPASSMPSSVSRAAGQAMTKAMSHDLAKDHIRVNTVCIGTIRSAQLEARWKRESPELTWDQYARDPRHNIPLGRIGDTEEAAKVIVFLASDAASYITGTAINIDGGSAPSL	PGPT0003180_5400	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
AK002_02791	1083	iolG_10		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGTCTAAAGTTTATCGTATTGGAATTATCGGCTGCGGCGGAATCGCAAACGGGAAGCATCTTCCCAGCTTAAGCCGTTTAAAAAACGTGGAGCTCGTGGCATTCTGTGATATTGTCCTTGAGCGGGCAGAAGAAGCAGCCGGCAAATACGGCATCCAGGAAGCTAAAGTGTACAGCGATTATAAAGAGCTGCTGCAGGATCAAAGCATCGATATTATACATGTCTTGACCCCTAATGATTCTCATGCCGAGATTTCCATTGCTTCGCTCGAAGCGGGAAAACATGTTATGTGCGAGAAGCCGATGGCCAAAACGGCCGCCGATGCCAAGCTTATGATGGAAACAGCGAAACGTACAGGCAAGAAATTGACGATCGGATACAATAACCGTTTCCGCGAAGATAGCCTTTATCTGAAACAGGTATGCGAAGCCGGTGAACTCGGAAATATTTATTTTGCCAAAGCGCATGCCGTACGAAGAAGAGCGGTTCCGACTTGGGGCGTCTTTTTGGATGAGGAAAAACAAGGCGGCGGGCCGCTTATCGACATCGGCACGCACGCGCTCGATCTGACGCTCTGGATGATGGATAATTACAAGCCGAAGATTGTACTCGGTACCACATACCATGAACTGTCCCGCAAGGAGAATGCGGCCAATGCTTGGGGACCTTGGGATCCCGAAAAATTCACGGTGGAAGATTCCGCCTTCGGCATGATTGTGATGGAGAACGGCGCAACCATTATGCTGGAATCCAGCTGGGCGCTCAATACGCTTGAAGTCGATGAAGCCAAATGCTCGCTGAGCGGTTCGGAAGGCGGAGCCGATATGAAGAACGGTCTTCGCATCAACGGCGAGAAATTCAGCCGCCTGTATACAAACGAAATCGAATTGAACTCCGGCGGGGTTGCGTTCTATGACGGCAAGAAGGAGCAAGCTCCGGATGTTGAGATGAGAAGATGGATCGAGGCTATCGACCAGGATAAAGATCCTGTGGTAACCCCAGAACAAGCTTATGTTGTATCTCGAATCTTGGAAGCTCTATACGAATCCGCAAAAATCGGCAAGGCCGTTTATCTGGACTAA	MSKVYRIGIIGCGGIANGKHLPSLSRLKNVELVAFCDIVLERAEEAAGKYGIQEAKVYSDYKELLQDQSIDIIHVLTPNDSHAEISIASLEAGKHVMCEKPMAKTAADAKLMMETAKRTGKKLTIGYNNRFREDSLYLKQVCEAGELGNIYFAKAHAVRRRAVPTWGVFLDEEKQGGGPLIDIGTHALDLTLWMMDNYKPKIVLGTTYHELSRKENAANAWGPWDPEKFTVEDSAFGMIVMENGATIMLESSWALNTLEVDEAKCSLSGSEGGADMKNGLRINGEKFSRLYTNEIELNSGGVAFYDGKKEQAPDVEMRRWIEAIDQDKDPVVTPEQAYVVSRILEALYESAKIGKAVYLD				NA	NA	NA	NA	NA
AK002_02792	561			hypothetical protein	ATGGGTAATAATAAGCTCATTAAATCGGAAGGCAGGGTCATGGACATGATATTTATTTATAATGATTATGGCGGAACGCATACAACATCTCTGGCTGCAGCTTATCATTTGAATAAATTGCCGACCAATCGCCAGCTTACGAAAGAGGAGATTCTGGCGGTAGACTATTTCGATAAACTGAATACGTCCGATATGGGTAAACTTATCTTTCACGGTCTGGACGAGAACGGGAACCCCGTGTACACGATTGGACGGGGTTCATCCAAAGTCGTTGTCCCCGCGTTGGAAAATGTGTGCTTGATTCTTCAAGACAAATACCAGAATGACGAACCGATCGTATTCTCCAACACATCGCCTACCGTGCCCATCATCATGACGATCGGGGGATTTTTGTCCAAGAGGCTAAAACTGAGTTTCATCGGCGGTCCGTTATTGGTGGCAGGGGCCAAGCAGTGCTGCAGCACGATCCGCGAGCTGGTCTTATATACAAAACAAACGGCGGCATCGAGGTCCGGCTCGGAGTCCGTTATCGTGATGGAGAACAAGAATTTCTCACCATAA	MGNNKLIKSEGRVMDMIFIYNDYGGTHTTSLAAAYHLNKLPTNRQLTKEEILAVDYFDKLNTSDMGKLIFHGLDENGNPVYTIGRGSSKVVVPALENVCLILQDKYQNDEPIVFSNTSPTVPIIMTIGGFLSKRLKLSFIGGPLLVAGAKQCCSTIRELVLYTKQTAASRSGSESVIVMENKNFSP				NA	NA	NA	NA	NA
AK002_02793	222			hypothetical protein	ATGGTATTGAAACGTTTGTTCACAATCAGCATTTGGATTGTCATTGTGACGTATCTCTTACTCCTGATGATTGGATGGTCCAGAGGAACGTTATCCATTCGTTGGATTATTTTCATGAGCGTCATCACCATCTTGATTATCGCCATATTGTATGGGCTGACCAAACTGATTCGATACTTGGACCGTAAGCTGTATAAAGAGCTGAAACGCATGATGAAATAA	MVLKRLFTISIWIVIVTYLLLLMIGWSRGTLSIRWIIFMSVITILIIAILYGLTKLIRYLDRKLYKELKRMMK				NA	NA	NA	NA	NA
AK002_02794	4161			hypothetical protein	ATGAAGAAGAAAAAGAGCTCGGCTCGGTTATTGCTGGCCATGTTGTTAGCCGCGGCACAGATCGCTTTCATGTTCCCTGCGGTTCCGACCGAAGCGCAAGCAGCGGCCGAGGAGGATTTTGCAAGCAAGCCGTATATGGGCTGGAGCAGCTACAGCCTCCAGGTGTACCATACCGGCAGCTGGATCACGGCGGATCATATTAAAGCGCAATCGGACGCGATGCATGAGAAGCTGCAGCCATACGGATATGAATACATCAATGTAGACGCGGGCTGGAACGGCAGCATGGACGAGTACGGTAGACCCGTTCCCAGTACGACGCTGTACCCGGACGGGCTTCAGGACGTGATTGATCACGTGCACGCCAACGGCCAAAAATTCGGGCTTTACCTGATTCCGGGATTATCCCCGCAAGCCTATGAAGACAATCTGCAGATTTACGGCACCAGCTGCAGGATGCAGGAGATTGCGGCACAGCCGCTGCAAAAATCGGATTATTGGGGGCTCGGATACAAGATCGATTTCTCGAATCCCTGCGCGCAAAAATACATCGATTCGATCGCGGATCAACTTGGCGAATGGGGAGTCGACTTCATTAAGTTCGATAGTGTCACGCCGGGCTCGGGCATATCCGACCTGTCGATGGATGCCCGAGATGACGTGAAGGCCTGGTCCCAAGCCCTCAAGCGGCACGATATTTGGCTCGAATTATCCTGGGCGCTGGATATCCGTTACGTGGATTACTGGAAAGAGCATGCCGACGGCTGGCGCATCGATTGGGATATCGAATGCTATTGCGGTTCGGAGGCGCTTACGACTTGGCCGAGCATCGCCCGATTGTTCCCCAAAGCGGAGCAATGGTGGCGGCATGCCGGGCCGGAGGGTTGGAACGATTTCGATTCCTTGAATGTAGGCAATGGCGAAATGGATGGGCTGACGAAGGATGAGCGCCAATCGGCGATGACCTTTTGGGCGATATCCGCCGTTCCGCTCTACATTGGAGATGACATGACCAAGCTGGACGATTATGGCATCGAGCTGTTGACCAACGAAGAAGTGATCGCGGTTAATCAAGCGGGCCGTCCGGCGCATCCGGTATCCACGGATACCGAACAGCAGGTATGGTATGCGAATAACGGCGACGGCAGTTATACGGTGGGACTCTTCAATCTTGGGGAGAAGAGTGCCGAAATGGTCGTTGACTGGCCGAGCATAGGCTTGGAGGCTCCCGCAGCCGTCCGCGATTTATGGAGCCGGAGCGATCTTGGGATATACAAGGATGGTTATCGCGCCGAATTGCCTGCGCATGGCTCCCGCTTGTTGCGAATAACGGCGCAAGACGGCTGGGTTGCCGTAAATGATGATGATACCGGCATGAGGTATGAAGGAAGCTGGAAGCGTAACGGCGGAATGGAGCTGCCGTCCGATACCCAGAATCTCGTGATTGACGTCAGCGACGAGACGGTAAACGGAAGTACGGTTAGTCCGTCAGCGGCGAATTTCGATAAGGAGGCTTCCAAGCAGCAGGATATCGAGTTAACCGTTCAGTGGAACGATAACAAGGAGGTCAGCCGCATATCCAACGGAGGGCATGATTTGGTGCCGCTTACGGATTATACCGTGAACGGGAATATCATCCGCATCCACAAATCATATCTGGCTGATCTACCAAACGGCACGGCACAGTTAACGTTTACGTTCCCGGCAGGTCCGCACCAACAGCTTGTGCTGACGATACAGGATACGACCGTGCAGGATAGCAGGGTATATCCGCCGGTGATCAGTTATGATCGCAATGAACGGCTGGCTTCGGATCCGTCCGATGTTAATCTGACGCTTGCATTGAACGGGAACGCGCTCACTGCCGTCGCAACCGGCAGCACAACTCTCGCAGCCGGAATCGACTATAAGGTTTCAGCTGCTCAGATGCAGCTGAAGAGGGAATTTCTGAGTTCACTGCCGGTGGGCATGACCGAGCTTATATTTACCTTTACCAACGGACAGCCGCAACGTGCAGTCGTCGTTGTCAGAGATACAGCCGCCGGCGGCGTTATTTCGCTGAACGATGACCACCCCGACATTCATTATACCGGAGCCTGGAACCGAAGCTATAACCGGGGGTTGGGTGATTTCGGCGACGACGTCCACTTTGCCGAGAAGGATGGGGAGTATTTCGAGTACACATTCACAGGGACAGGTATTGAGCTTGTAACAGAACTCGATCCTTCGCAAGGAGAAATGGATATCTATGTGGACGACGTTTACGTCCAAACGGTGGATACTTCGAATGCGGGCAGGTTAGCCCAGCAAACGGTATTCCATCTGTCCGGCTTGGAGTATGGCTCGCATACGGTGAAAGCCGTGAAAAAATCCGGCATTTTCATGCTGCTGGACCAAATCCGGGTTCTTATGCCCGATCTGATTACGCCGTCTGCCGTTCGTTACGATAAAGCGGATTCGGCCGAGACCGAGGTAACCGTCACGGGTGCAACGTACGGATATACGCTGGACAGCATTAAGAATGGCGAAATCGAGCTTGTAAAAGAGCAGGACTATGCGCTGGCGGATCAGCAAGTGATGCTGAAGAAGTCTTATCTGGCTGCTCAACCGAACGGCTTGACACGGCTTTTGTTCTCATTCAGCGGAGGAGCATCGCAGACGCTTGCGTTGACCGTGGAGGATAGCGCAGCCGAACATAGTCTGCTCGAGACGACTAAAGAGTCGTTTGATAAGAACGAGGCTGTGCAGCAGGATATTACGGTAGGTGTGGCCTGGAATGGAAACTCGCTAGCGGGAATATCTCATCGCGGCAGCGATCTGAAACCGGGCACGGATTATTCGGTGAACGGCAATCGAATCGTGCTGAGCAAAAGCTATCTGGCAACCCTGCCGGTTGGCCGGGCACTTCTGCATTTTTCTTTCAGCGGAGGTGCTCCGCAAATCCTGGCTGTCGATGTAGGGGATACAACACCGCCGAATAGCACCATTGTACCGAGTGTGGCAGGCTTTGATAAAAATGCCGAGGTACAGAAAGCCGTTACGGCCACGATGGAGCTCAATGGCAATCAATTGACCGGTATTCGCTATGGGGATTCGGTTCTCCAGGAAGGCACGGATTACATCGTTTCCGGTAATCAGATTACCATTCTGTCGACCTTCCTCAAGCAATTGCCGCTGGGTACGGCGAAGCTTGAACTTGCGTTCAGCTCGGGCAGGCCGCAGGACCTTGCCGTGGTGATCATCGACACGTCCAGAGGGCGTTATGTGACCGTCAACGACGATGATGCGTCCCTGAGGTATATAGGAGCATGGCAGCACAGCAGGAACCGGGGACTGGGCGATTACAAGGACGACGTGCATTTTACGGAAAAGAACGGTGATTATTATGAATTCCGTTTTAAGGGAACGGGCATTGAGTTGATTACGGAGAAGGATAATGCCCAAGGCGATATGGATATCTATGTAGACGGTGATTTCCTGCAGACGATAAGCACCTATGCACCAGAGAAACAGGTTCAGCAAAGCGTATATCATGTGGATGGATTGACAGATGAAGAGCATACGGTGAAAGTCGTGAAAAAGTCGGGCTATTACATGCTGCTAGATCATTTGAAATATCGGGTAACCGATCTGATCGAGCCGGATGCTGCTGCGTTTAACAAAAACGGCCGGAATCCGAAGGATGTCGAGGTCGAACTTCGAGTTGACGAAACTACGCTGACGGCAATCAAGCACGGCGCCGGCCTTCTAAAGGAAGGCAAGGATTATAGCGTATCCAGGGATAAGGTGAAAATCAAGAAATCGTATCTGGCCAAAGCACCGGTCGGAACGAATGTGTTCGAGTTCCAGTTCCGCGGAGACTACCTGAATGACGTGCATGCTACGCCGTCGAACGGCGATTATTTTGAATATACCTTCCAGGGTACTGGCGTTGAGCTGCTGACGCCGAAAGGACCCGGCCAAGGAAAAATCGATCTGTATGTGGACGGCAAATTCATGAAAACGATCAATGCTTATCATGACAGCCGGCAGACCCTCCAGAGCGTCTACCGCCTGAACGGTCTTCAAAATAGCGAACATACGATCAAAGGAGTGAAACGGTCCGGAAATTGGATGATTGTGGATCAATTGAAATTCAGGGTTCCGAAAGGAAACAAATAG	MKKKKSSARLLLAMLLAAAQIAFMFPAVPTEAQAAAEEDFASKPYMGWSSYSLQVYHTGSWITADHIKAQSDAMHEKLQPYGYEYINVDAGWNGSMDEYGRPVPSTTLYPDGLQDVIDHVHANGQKFGLYLIPGLSPQAYEDNLQIYGTSCRMQEIAAQPLQKSDYWGLGYKIDFSNPCAQKYIDSIADQLGEWGVDFIKFDSVTPGSGISDLSMDARDDVKAWSQALKRHDIWLELSWALDIRYVDYWKEHADGWRIDWDIECYCGSEALTTWPSIARLFPKAEQWWRHAGPEGWNDFDSLNVGNGEMDGLTKDERQSAMTFWAISAVPLYIGDDMTKLDDYGIELLTNEEVIAVNQAGRPAHPVSTDTEQQVWYANNGDGSYTVGLFNLGEKSAEMVVDWPSIGLEAPAAVRDLWSRSDLGIYKDGYRAELPAHGSRLLRITAQDGWVAVNDDDTGMRYEGSWKRNGGMELPSDTQNLVIDVSDETVNGSTVSPSAANFDKEASKQQDIELTVQWNDNKEVSRISNGGHDLVPLTDYTVNGNIIRIHKSYLADLPNGTAQLTFTFPAGPHQQLVLTIQDTTVQDSRVYPPVISYDRNERLASDPSDVNLTLALNGNALTAVATGSTTLAAGIDYKVSAAQMQLKREFLSSLPVGMTELIFTFTNGQPQRAVVVVRDTAAGGVISLNDDHPDIHYTGAWNRSYNRGLGDFGDDVHFAEKDGEYFEYTFTGTGIELVTELDPSQGEMDIYVDDVYVQTVDTSNAGRLAQQTVFHLSGLEYGSHTVKAVKKSGIFMLLDQIRVLMPDLITPSAVRYDKADSAETEVTVTGATYGYTLDSIKNGEIELVKEQDYALADQQVMLKKSYLAAQPNGLTRLLFSFSGGASQTLALTVEDSAAEHSLLETTKESFDKNEAVQQDITVGVAWNGNSLAGISHRGSDLKPGTDYSVNGNRIVLSKSYLATLPVGRALLHFSFSGGAPQILAVDVGDTTPPNSTIVPSVAGFDKNAEVQKAVTATMELNGNQLTGIRYGDSVLQEGTDYIVSGNQITILSTFLKQLPLGTAKLELAFSSGRPQDLAVVIIDTSRGRYVTVNDDDASLRYIGAWQHSRNRGLGDYKDDVHFTEKNGDYYEFRFKGTGIELITEKDNAQGDMDIYVDGDFLQTISTYAPEKQVQQSVYHVDGLTDEEHTVKVVKKSGYYMLLDHLKYRVTDLIEPDAAAFNKNGRNPKDVEVELRVDETTLTAIKHGAGLLKEGKDYSVSRDKVKIKKSYLAKAPVGTNVFEFQFRGDYLNDVHATPSNGDYFEYTFQGTGVELLTPKGPGQGKIDLYVDGKFMKTINAYHDSRQTLQSVYRLNGLQNSEHTIKGVKRSGNWMIVDQLKFRVPKGNK	PGPT0022155_1521	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
AK002_02795	807			hypothetical protein	ATGAGAGAGAAGTTACACGTATTGACGGAAGAACAGCTGCACAAATTCGAAACGGAGGGATTTTTAATTGTAAAAGGTCTCTTCCGCGAGGAGGAGCTGTCGGAGATCGGAGCAACGTTTGAGGAGATCAGCCACACGACCGTGCCCGGCCACTTTGAACCTGTGCTGGACGATGAATCCGTTGAACCGCTCAAACGTTATCCCCGCGTTATGCATCCGCACCGCTTCCATGCAACCGCGAAGAAATACATGCTGCATAAACCGGTCATGCAGGTATTGGCCGATTTGTACGGGGAACCGGCGCTCGCCGCCCAAAGCATGTTCTATTACAAACCTCCAGGCTCCCGCGGCCAAGCGCTGCATCAGGACAACTTCTACCTGCAGGTGGAGCCGGGCAATTGCATTGCCGCATGGACCGCAATCGACGCGGCCGATGAAGAGAACGGCGGTTTGCTCGTCGTTCCGAAAACAAGTGATTATGACCTGGTATGCCCGGAGGAAGCCGATTCGAACGAGTCGTTTACCACTCATTTCGTGAAGCCGCCCAAGGATAGAAAGGTCCTCCCCGCGATCATGGACAAAGGGGACGTCCTGTTCTTTAACGGCAACCTGATCCACGGCTCCTACCGCAACAAATCCAACCGGTTCCGCCGCGCCTTCATCTGCCATTACGCCAACGCGTCGGCTACCAAAATCGGTGCATTTTATCGGCCATTGTTCCGGGAAGACGGCACGGAGATCAACCTTGACGTCAATCCGAATGGCGGTCCGTGCGGCATCGAATTCGATACGGCTTATCCCCATTGA	MREKLHVLTEEQLHKFETEGFLIVKGLFREEELSEIGATFEEISHTTVPGHFEPVLDDESVEPLKRYPRVMHPHRFHATAKKYMLHKPVMQVLADLYGEPALAAQSMFYYKPPGSRGQALHQDNFYLQVEPGNCIAAWTAIDAADEENGGLLVVPKTSDYDLVCPEEADSNESFTTHFVKPPKDRKVLPAIMDKGDVLFFNGNLIHGSYRNKSNRFRRAFICHYANASATKIGAFYRPLFREDGTEINLDVNPNGGPCGIEFDTAYPH				NA	NA	NA	NA	NA
AK002_02796	807	araC_6		Arabinose operon regulatory protein	TTGAGAACGCCGGCTGATAGGCATGCCATATCGTTAGAAAGCACCGGAACCATATTCGGCGATCATTTCGAGCAAGACGATTCTTATTGCCTGCGTCGTCCTAACGGAATGCAAGACTGGCTGCTTGTTTACACGCTGCAGGGTGAGGGCTATTTCCGCACGCCTGCCGGGGAGAAACGCTGCGGATCCGGGCAGCTCGGCCTGCTGCGCGCCAACATCGCCCATGAATACGGGACCGTGCAGGGGACGCATTGGAACTTTCTTTGGATCCATTATCCCGGGCTTCCGGAAAACGGGATGCTGCCGAACGAGGAGTTTCTGGTCGAAACCTTGCCCGATGAACGTGTCCGAGGCCGTGTCGAGCTGGCCTTTCGTAATGTGCTGCAAGATTCGCTGGACCGGTTAGAACTGTGGGAAGCTCTGTGCGAGAACGCCCTGCGTGAGATTTTGCTTCTGCTTGCACAGCGGACGAACAAGAGGCTAGATCCCAGAGTCGAGCAAACGCTTGGGTTGTTATCCCGTTCGTTAAAAGAAGACGTCAAAATTGATGCCTTATCCCGCGAGATCGGAATTTCGGGATCCAGGCTGGCGCACTTGTTCAAACAGCAAACGGGATCCACCATTTTGGAGCATCTGAACCAGATGAGGGTTCGCCATGCCGCTTTATTGATGAGCCATTCGGGCCGTACGGCGAATGAAGCTGCCCATGACGTAGGGTTTAACAGTTACAATCATTTTGCCGATCAGTTTCGCAAGCAGTTCGGGGTTTCGCCGAGGCAGTACCGCCAGGCATGCAGGCATCCATGA	MRTPADRHAISLESTGTIFGDHFEQDDSYCLRRPNGMQDWLLVYTLQGEGYFRTPAGEKRCGSGQLGLLRANIAHEYGTVQGTHWNFLWIHYPGLPENGMLPNEEFLVETLPDERVRGRVELAFRNVLQDSLDRLELWEALCENALREILLLLAQRTNKRLDPRVEQTLGLLSRSLKEDVKIDALSREIGISGSRLAHLFKQQTGSTILEHLNQMRVRHAALLMSHSGRTANEAAHDVGFNSYNHFADQFRKQFGVSPRQYRQACRHP	PGPT0017485_774	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_02797	3240			hypothetical protein	ATGAGATTCGCAAAAAGCGGCAAGTACCAGGTCTTTATGCTGGCATTGTGTCTGTTATTGGTTTGTTCGGGCGGCGGTCTCGCCGCTGCTTCCGGGGAGAGCAGGCTTGCTCAGAAAACATACGGAACACCGGAGGAAATTCTCGTTCCCAACAACTATACGGTTGCCGTATTCAACGGTACGGCAGGGAAGGAAGAAGGCCGCAACGTTCTTTATGCGACCAGTAAAGGAAAGCCGGGGCATCTGAACGTGATCGATCTGGAGGATTATAAACTGCTTCGCAGCATTCCGATCGGCCCCTCTGAAAGCTCCTGGGCACATACCACGGCACCGGACGGGACCTTGTTCCTTGCGGCCGACGGCGGCGGAGCCAGGCTGTGGAGCTACTCTCCCGTAACTCACGTGCCAGAGCAGGTTGCCCAATTCGACGGGCAGTCGGTGCCGAACAGCATTACCACGGATGAACAAGGCCGCGTTTATGTCGGAACCTATCCAGGCGGCAAAGTGTATCAATACGACCCGGCTACGAAGCAAACCAAAGATTACGGCCGCGTCATCGGCGTGCTTGACCAGGAATATGTGCGCTCCATTGCTTACCAGGGCGGCAATATTTATGCCGGCACCGCGCATAAGCAGATCGTGCGCGTGAATTTAGCGACCGGTGAGAAAACAAATATCGCGGCTTCCCTGCCGGTTAAAGAAGACACCGTGTATGACCTGAGCACGATAGATAACCGTTATTTGTTTGCCCGATATACGGACGGAAGCGGCATTCCTGGAGAGGCGTTTATCTACGATACACAGACGGAAAGCTGGCTGGATGTTGTGCTGGAGAACGTAACGGGGCTGCACGCGACGGACTCGCTTAACGGAAAACTGTATTATATGTCCGACAAGAAGTTGAAAACGTTTAATCTTGACACGCATGAGGTCGAGTTGACCGGCATGGAGTACAACAGCGGATTTCGGGGAGTAGATTGGGTGGAATTTCCCAATAATCCGGAATACCCGGGCAAAAATCTGGTGACCGTCCGATATGACGGCGGGGTTACGATCATGAACATCGAAACCAAGCAGGTGCACCTGATGCCGCCGGTCATCCCGGGTCTGCCCGGCGTTGTCAACCGGTTGAAAAGCGTATCGGACACTCATTTGATCACCACCGGCTCGCAGGCCCGTTCCTCGCTCGTCGATCTGACCAATAACACCGCAACGCCGTTCAGCATCGGCCAAGCGGATAGCGTTCATGCCGTAGGCAATAAAGTCTATATGGGCGTGTACCCTGAAGGCGGACTGTACGAGTTCGATTTATCGACGGAGCCTGGAATGAACAATCCGAAGAGACTGGCCGTCTTAGGCAACGATCAGGAGAGGCTGGTTGATATCTCCAGTTCCAAAGGCAAGCTCTACATTTCGACGATTTCCGGTTACGGCACTTTGGGCGGCTCGTTGACAGTTTATGATACCGCCACCGGAGAAATCAACGTTCATCGCAACGTCGTCCAGAATCAGAGCGTGCTCAGCACGACGGTTCATGACGGCAAGGTGTTCGGTTCCACCACGATTCGGGGCGGACTGGGCTCCGAGCCGACGGAAGCGGAAGCGAAGATTTTTGTTTGGGATGAAGAGACGCAGCAAAAAATCACCGAGTTTCCGCTCCGCGTTCCGGGACTGGATAAACCGATATTCATCGGAGATCTTTCGGCCGGCCCGGACGGTTTGATCTGGGGAGCATCTTATGAGTATATTTTTGCGATCGACCCCGATACGTATGAAGTCGTGAAGAGCAAAAAAGTGTATCCAAGCTTGAATTTCAGCCAATGGGCGCATCACCCGCTCCGCTGGTCGGAGGATGGTCTGCTTTACGTGCTGTTCAACAACAAACTGACGGTCATTGACCCTGAAACGCTGGAGCATCGGACATTGGCCGACACCTCCAGATTCGATTTACATGTGGACGGAAATCTCTATTTCACAGACATGCAGACCAATACGATTCTGTATCGGATGGAAGTTGACGGAGAGGTCGTGGAAGAACCGCCGCATACGGCTGTTCCCGTCACCAATCCTGGTTTTGAAGAGGAAATGAAGGGATGGAGTCAATTATTCGCTCCAGGCAACGGTTATCGTTATGATCTCAGCACGGAACGCAGTTTCACGGGAACGCACAGTCTGAAGATTACGGACACGCTGAGAACGGCATCCGTTGCCGTACAAAGTGATGCGATTCCCGTCATCCCGGGAGAGGAATATACGGCAGGCATGAATCTCTATATTGAATCGGGCCAGCCGGGCTTTATGTTCCGATTCTTTGACAGCAATAACGCCACGATTTCCACACTGGAAACCCATTTGGATGAATCGCGATTGGCCCAATGGCAGAAAGTGACGCTCAGAGGGAAGGCTCCGGCTAATGCAGCTTATGCGAAACTGATTGCGGTAACTTCCAGATACAATGTGGCAACGGCCTATTATGACGATTTCTTCGTAACCGTAAAAGACAGCGTTCCTCCCGTCTCGACGGTTAGCCTATCGCCTTCTCCCAACGAGAACGGCTGGGTGAATGCCGATGTGTCCTTGTCCATCTCTTCCGACCGCGCGTACTCTATTGCATACGCTGCGGAAGGCGCGCAGCCGATAGAGAAGACCACGGTAAAAGGGAGTGCGGCTCAGCTTCAAATCACTGATGAAGGCGTCACGACGGTTACCTATTCCGCCACCAACTACTCAGGCGTATCTGAGGCACCTGGAACGCTGAACGTGCAGATCGACAAGACGGCTCCCGTCGTTGAATTCACCGGTGAGCGTACGTACACGGTAACCGACTCCGTATACGTTTCGTGCAGTGCCGTCGACAGTCTGTCAGGGTTAGCTGACAATCCGTGTTCTCTTCCGCTGCTCGAGCGTCCTGCCTATTCCTTCGAACCGGGCTCCCATGAAATATCCGTAACGGCAGTCGATCTGGCCGGAAATAAAACGGAATCCGTCTTTCGTTTTGAGGTAGCCGTGACCTATGACAGTTTGTCCGAGCTTGCAGCGCGGTTTGCCGCTGCCGATCCGGGCCTGGCTCAATCGTTGACAAGCAAGCTGCAAGGCGCCAAAGAGGCGGAGGATCGAGGCAACGACTCCGCTAAGCAAGGCAAGCTGAACGCTTTTAACAATCAGGTCAGGGCGCAATCCGGCAATAAATTGACGGCTGAACAGGCGAATGTGCTGGCAAAGCTGGCAGCATATCTATAA	MRFAKSGKYQVFMLALCLLLVCSGGGLAAASGESRLAQKTYGTPEEILVPNNYTVAVFNGTAGKEEGRNVLYATSKGKPGHLNVIDLEDYKLLRSIPIGPSESSWAHTTAPDGTLFLAADGGGARLWSYSPVTHVPEQVAQFDGQSVPNSITTDEQGRVYVGTYPGGKVYQYDPATKQTKDYGRVIGVLDQEYVRSIAYQGGNIYAGTAHKQIVRVNLATGEKTNIAASLPVKEDTVYDLSTIDNRYLFARYTDGSGIPGEAFIYDTQTESWLDVVLENVTGLHATDSLNGKLYYMSDKKLKTFNLDTHEVELTGMEYNSGFRGVDWVEFPNNPEYPGKNLVTVRYDGGVTIMNIETKQVHLMPPVIPGLPGVVNRLKSVSDTHLITTGSQARSSLVDLTNNTATPFSIGQADSVHAVGNKVYMGVYPEGGLYEFDLSTEPGMNNPKRLAVLGNDQERLVDISSSKGKLYISTISGYGTLGGSLTVYDTATGEINVHRNVVQNQSVLSTTVHDGKVFGSTTIRGGLGSEPTEAEAKIFVWDEETQQKITEFPLRVPGLDKPIFIGDLSAGPDGLIWGASYEYIFAIDPDTYEVVKSKKVYPSLNFSQWAHHPLRWSEDGLLYVLFNNKLTVIDPETLEHRTLADTSRFDLHVDGNLYFTDMQTNTILYRMEVDGEVVEEPPHTAVPVTNPGFEEEMKGWSQLFAPGNGYRYDLSTERSFTGTHSLKITDTLRTASVAVQSDAIPVIPGEEYTAGMNLYIESGQPGFMFRFFDSNNATISTLETHLDESRLAQWQKVTLRGKAPANAAYAKLIAVTSRYNVATAYYDDFFVTVKDSVPPVSTVSLSPSPNENGWVNADVSLSISSDRAYSIAYAAEGAQPIEKTTVKGSAAQLQITDEGVTTVTYSATNYSGVSEAPGTLNVQIDKTAPVVEFTGERTYTVTDSVYVSCSAVDSLSGLADNPCSLPLLERPAYSFEPGSHEISVTAVDLAGNKTESVFRFEVAVTYDSLSELAARFAAADPGLAQSLTSKLQGAKEAEDRGNDSAKQGKLNAFNNQVRAQSGNKLTAEQANVLAKLAAYL				NA	NA	NA	NA	NA
AK002_02798	960	yteP_23	COG4209	putative multiple-sugar transport system permease YteP	ATGGACGCCCGATTAAACTCGGCATCCCCACAGCCCGCTCCCAAACCCACCCGGTGGACGCATGTTAAGAGGCAGCTAAAGCGAAATATCGGGCTGTATATCATCATTTCCCCGGCAGTGCTTTACTTTTTGATCTGGCATTATTGGCCGATGTACGGCGTACAAATCGCTTTCAAGGATTTCATGCCCGGACTCGGCATCTGGAACAGTCCTTGGGTCGGGTTCGAACATTTCGAGCGGCTGTTTGACGCCTATTATTTTTGGACGATTCTGAAAAATACGATCGGGATCAGTTTATACGGACTGCTGGTCGGCATTCCCGCACCGATCCTGCTGGCGCTTTTGTTCAACGAGATTCGGAATCGCAAATTCCGCTCATTCGCTCAAAGCATATCCTATGCACCTCACTTTATTTCGGTTGTCGTTGCAGTCGGTATCCTGTTTTTTTTCATCTCGCCTACGAATGGCGTCTTTAACTCCATCCTTGTTTCCTTGGGGAAGGAACCGGTCGATTATTTGGCAGAGCCGTCTAAATTCTGGCATCTCTATGTCTGGTCGGGCGTCTGGCAGGGAGTCGGCTGGTCTTCGCTCATCTACAGCGCAGCCATCTCGGGCATCTCGCCGGACCTGTACGAGGCTGCATATATGGACGGGGCCAGCAAATTTCGCCGAATATGGCATATTACGATTCCCGGTATTGTCCCGACGATCGTAATCCTGTCTATCTTGAGTGCCGGCGGCATCATGAGTGTCGGCTTCGAGAAAATCCTGTTGATGCAAAACGCGATGAACCTGGAAACCTCCGAGGTGATCTCCACTTACATGTACAAGAGCGGACTGCTTAACACCCAGTACAGCTTTTCGGCGGCAGTCGGCCTGTTCAACAATGTGATCAATTTTATCATCCTGATCATCGTTAACGCGGTTGCGCGCAAGGCGGGGGAGACCAGCTTGTGGTAA	MDARLNSASPQPAPKPTRWTHVKRQLKRNIGLYIIISPAVLYFLIWHYWPMYGVQIAFKDFMPGLGIWNSPWVGFEHFERLFDAYYFWTILKNTIGISLYGLLVGIPAPILLALLFNEIRNRKFRSFAQSISYAPHFISVVVAVGILFFFISPTNGVFNSILVSLGKEPVDYLAEPSKFWHLYVWSGVWQGVGWSSLIYSAAISGISPDLYEAAYMDGASKFRRIWHITIPGIVPTIVILSILSAGGIMSVGFEKILLMQNAMNLETSEVISTYMYKSGLLNTQYSFSAAVGLFNNVINFIILIIVNAVARKAGETSLW	PGPT0017250_1092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02799	897	ycjP_2	COG0395	Inner membrane ABC transporter permease protein YcjP	GTGCTGCTGAACATTAAACGAACGCCGGGAGAAAAACTGGCCGATATCATAATACTAGTGCTGTCGATTCTCGTGACCATCGTCATTTTGTACCCGCTCATTTTTGTTTTGTTTGCGTCATTCTCCGATCCGCGCCAAATATGGGACAAGCCGCTGCTGCTCTTTCCGGCAGGCTTCAACCTGGACAGCTATGCCAAAGTATTCGAGAACAGCGAAATATGGAGCGGGTATGCCAATACGCTGCTTTACGCTCTCGTGGGTACCGCGATCAATATCATGATGACGGTATTCGGTGCGTACCCGCTATCCAGAAAGCGCTTTTATGGCAAGGGACTATTCACGCTGCTGTTTGCTTTTACGATGTTTTTCAGCGGCGGGCTGATCCCGCTGTACTTGGTGAACAAGGAGCTTGGATTACTGAATACGATGTGGGCATTGGTGCTGCCCGGTGCGATCAGCGCCTACAACATGATTATTATGAGAACCTATTTTCAGACCCGGATTCCGGTGGAGCTGGAAGAGAGCGCCTACGTCGACGGCTGCAACGACTTCCATATGCTGTTTCGAATCGTGCTGCCATTGTCCTTGCCGATCATCGCCGTGATGATCCTGTTCTATGGAGTGGGTCACTGGAACTCGTATTTTGACGCTATGATTTATTTGACGGACCGGGAGAAATTCCCGCTGCAGCTGATATTAAGAGAAATCCTGGTGCAGAACGACTTTAAGGAAATGGCCGGAATATCGGTCGGCGCCGAATACGCGGATCAGATGATGGTTAAGGAAGGCCTGAAATATGCAATCGTCGTATTATCCGCGCTGCCGCTGCTGCTATTGTATCCGCTGCTGTCGCGATTCTTTGAGAAAGGCATCATGGTGGGAGCTATCAAAGGATAA	MLLNIKRTPGEKLADIIILVLSILVTIVILYPLIFVLFASFSDPRQIWDKPLLLFPAGFNLDSYAKVFENSEIWSGYANTLLYALVGTAINIMMTVFGAYPLSRKRFYGKGLFTLLFAFTMFFSGGLIPLYLVNKELGLLNTMWALVLPGAISAYNMIIMRTYFQTRIPVELEESAYVDGCNDFHMLFRIVLPLSLPIIAVMILFYGVGHWNSYFDAMIYLTDREKFPLQLILREILVQNDFKEMAGISVGAEYADQMMVKEGLKYAIVVLSALPLLLLYPLLSRFFEKGIMVGAIKG	PGPT0017255_1240	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02800	1593			hypothetical protein	ATGAGAAAAAGAATGAATCTTCTGCTTGCTTTCATGTTGACATGCTCGTTGACGCTTGCCGCCTGCGGCGGATCAGGGGGAAAGGCGGAGCCGGAACCAGCCGGAACGGACGGAGACCCCGGAAACATCAAGCTAAGGATCGTCAAACGCGGATATACCGATGTGCATCCACCAGCCGATCAATTATGGATGTGGCAAAAATACGAGGAGATGTCCGGAATCGAGGTTGAGTTTGAGGAGCTGGCCGGTTCCGCCGTAACCGAAAGGAAAAATGTCATGCTCGGCTCCAACGACCTGCCGGATGCGTTCTACCGCATTGCCTTCGGCACCGATGAGCTGATGAAATACGGCAAGCAGGGCTTGTTTGTTCCGCTCGAGGACTTGATTGAACAGCATGCGCCGAATTTAAACAAGCTGCTCAAGGACAACCCGGATATCAGAGGAGCGATTACGATGTCGGACGGACATATTTACGCTCTCCCATACGTCGATTTCTCGAAAGCGTTCAATTCCGTTCGCTTGTATATCCATAAGGATTGGCTGGATGAAGCGGGGCTTGAAGTGCCCAAGACGACCGAGGAGTTCCGCCAAGCGCTCATGAAGGTTCGGGAGAAGGACAGCTCACGCCTCGGTTGGGTGCTTGAATCGCAGTACTGGACCTTCCTGGAGAGCTTTCTGGCCGGCAGCTTCGGCATGGGTGAAGGGGGCGCCAAGGCTTTCGGGCAGTATCTCTATAAGGACGCTGACGGACAAGTGAAGACGACGTTCAACGATCCGAAATACAGGGAGCTCTTGCGTTATATGAGCGATCTGTACAAGGACGGCTCGCTGGCTCAGCAGAATTTCACGACCGGCTACGATTATGCCAAATGGTCTACGGACGGCTCCAACAATTTGATCGGCTCGTTTGTATGGGAAGGGCCGGGATATATCGGCAAGGACGCGGCCGAGAACTATGTGGGCATTCATGCCCTGGAAGGTCCGAACGGCGATAAAGTCGCGGGGGTGCTGGGACCGCCGACCAAAGGGATCTTCGGTTTCGTGATCACCAACAAAAACAAGTATCCGGTCGAAACCATCAAGTGGATCGATTATTTCTACGGTGAAGAAGGGATTAACTTCGCTACCTTTGGGTTGGAAGGAGAAACTTACGAGCTGGTGGACGGCAAACCGAAATACAAGGACGAAATATTGAACTACAAGGGCGGCGTGCAGTTGGGTGCTTTCCAATATGTTGATAATGTGTATGGCGCTTATTATCCTTATGTTGAGCCTGATGACGATCTGCGGATGGCGGCTCGCGGGACGACGGTCGCTGACGAGATCAAAGCGGATCCTGCCGAGCTGGACGAGCTGGCGCCGAAAGAGCTTTGGCCGGATTTTGTTCCCACGGATGACGAAGCCAACCAAACCAGCGCGATTCTGACCGACATCAATAAATACATGGAGGAGATGCGGGTCAAATTTGTTACGGGTAAAGCGAGTCTGGACACGGATTGGGATAACTACGTGAAGACCTTGGACAAAATGGGAGCCCAGCGTTACCTGGAAATCAAAAAAGCGCAGTATGAACGCTATACGAATGTAAAGTAA	MRKRMNLLLAFMLTCSLTLAACGGSGGKAEPEPAGTDGDPGNIKLRIVKRGYTDVHPPADQLWMWQKYEEMSGIEVEFEELAGSAVTERKNVMLGSNDLPDAFYRIAFGTDELMKYGKQGLFVPLEDLIEQHAPNLNKLLKDNPDIRGAITMSDGHIYALPYVDFSKAFNSVRLYIHKDWLDEAGLEVPKTTEEFRQALMKVREKDSSRLGWVLESQYWTFLESFLAGSFGMGEGGAKAFGQYLYKDADGQVKTTFNDPKYRELLRYMSDLYKDGSLAQQNFTTGYDYAKWSTDGSNNLIGSFVWEGPGYIGKDAAENYVGIHALEGPNGDKVAGVLGPPTKGIFGFVITNKNKYPVETIKWIDYFYGEEGINFATFGLEGETYELVDGKPKYKDEILNYKGGVQLGAFQYVDNVYGAYYPYVEPDDDLRMAARGTTVADEIKADPAELDELAPKELWPDFVPTDDEANQTSAILTDINKYMEEMRVKFVTGKASLDTDWDNYVKTLDKMGAQRYLEIKKAQYERYTNVK	PGPT0017245_2242	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02801	1128	purR_2		HTH-type transcriptional repressor PurR	TTGACCAAAGACAATAAACCGCTGTACCGCGTGATGATGGACGAGCTAAAATCGAAAATTTCATCCGGCCTTTACCCTTCCGAGGCCCAGCTTCCTACCGAGGCCGAGCTGAGTACGGCCTTCGGCGTGAGCCGCATTACAACAAGAAGAGCGCTCGAGGAGCTGGAGCGGGACGGGTTCATCTACCGCATTAAAGGAAGCGGCAGCTTTGTCAAACCCCGGCAGCGGGGTCAGGAGCAGCGGTCGGTTGGAACGGAAAGAATGATATCGCTGATCCTGCCTTCCGAAGACGACCGCGGCACGATGGGGTATATTCGCGGCGCTTCGGACTGGCTGAACGCGAACGGCTACTATTTAAGCATTCATCAGAGCGATTATGACTCCCAGAAGGAGCGCGATCTCCTGGAGATGCTGACCCGAAAGGGCATTGCGGCCATTATATTGTATCCGCGGAACGATCATACGAACTACGATATCCTGCATCGGCTGTGCCTTGAAGATTATCCGATCGTGACCATCGATAAATACTTTGACAGCCTCCCGCTCGGGGCGGTCGTTTCGGATAATTGGAGCGGCTCTTATCAAGCCGTATCCCGATTGATTGAGCTCGGACACCGAAAGATTGCGTTTTTGACCGCGGTCAGCATTGAATCCACTTCGTCGGTGCGCGATCGGTATTTCGGATACTGCCAAGCGCTGAAGGACCACGGGCTTCCCCTCGACAGCCGTTATATCAGACTGAACATGAAGGGTTATCGGGAGAAGGTCGGCGTGGAGCAATTTTATAACGAGCTGCTGGACTCTTACAAGACGGAGGGGGTGACAGCCGTTCAGACGGAAAATGATCTGATTGCTGCCAACCTGCTAAACCTCTGTTTGGAGAGGGGGATCCGTATTCCGGACGATATCTCCATCATAGGCTTTGATAATAATCCGGTCACGGAGCATGTGATGATCCCTCTGACTACCGTCGAGCAGAACTTTTACGAGATCGGCCGCCAAGCGGCCGAGCATGTCGTAAACTGGCTGGAGAGAGGGAAACCGACACCGGGCACGGCGCTGATCCCTGTTAAGCTGGTGGAGCGGGATACGACCGCTCCTGCCCCGAAAGCGAGATCGGGCAAGTAG	MTKDNKPLYRVMMDELKSKISSGLYPSEAQLPTEAELSTAFGVSRITTRRALEELERDGFIYRIKGSGSFVKPRQRGQEQRSVGTERMISLILPSEDDRGTMGYIRGASDWLNANGYYLSIHQSDYDSQKERDLLEMLTRKGIAAIILYPRNDHTNYDILHRLCLEDYPIVTIDKYFDSLPLGAVVSDNWSGSYQAVSRLIELGHRKIAFLTAVSIESTSSVRDRYFGYCQALKDHGLPLDSRYIRLNMKGYREKVGVEQFYNELLDSYKTEGVTAVQTENDLIAANLLNLCLERGIRIPDDISIIGFDNNPVTEHVMIPLTTVEQNFYEIGRQAAEHVVNWLERGKPTPGTALIPVKLVERDTTAPAPKARSGK	PGPT0017490_148	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_02802	966			hypothetical protein	ATGAGTACGATTCATATGCTGGTCGGGATACCCGGCAGCGGAAAAAGCTATTATGCCAAACAATTGTGCAAAAGCGAGCGGGCCGTGCTGGTTGCGACGGACGCGATACGCGAAAGATTGTTTGGCAGCGAATCGAAACAGAAAAATACGTATTTGGTATTTGACGAGGCTTTCGCCGAAATCGAACAGGCGCTGAAGTCGGATCGAAACGTCGTATTCGACGCAACGAATGTCAGCCGGGAACGAAGACAGAAATTTCTGAAACGGTTTGGCGATCGACGGGTGGAGTGCCATATTTGCACGACTCCTTATGAAGTGGCCCTGGATAGAGTCAAGAGACGAAAACGCCGGCTTGATGAGAAGATCATGACTAAGTATGCCAAAAATCTTGAATTTCCGGTCATGGGTGAAGGGTTTGTTGATCTGCATCTCGTTCATGAGCCGGGTGAAACTCAGCTGGCAAGAGAGGATTTGGAACAGCTGTTAATGCGCAGACCGGATCACGATGAGTTGTTCGGTTACTTATCGCAATCCCCCTATTTTCAAACGATGCTGGGATTTGATCAAGAGAATCCGTTCCATTCGAGAACGTTGTCGGAGCATACGTTTGCCGTGCTGGTATACATCCAAAATTGCTATGACGGTGAAGGCGATCATCTGCTGGCTATGCAATTAGCGGCTCTGTTCCATGACGCGGGCAAGCCGTTTTGCAAAGTATGGAAGCAGGCTCGAGGATACTATTCCTATTATGGGCACGAGCATGTATCGGCCATCATGGCATGCCATACCTTGAAAGACCTTGGGTATGAGGATGAATTTGTGCTTCATGTCGTCCAACTTGTCAGCTTCCATATGGAAATATTGCATGGAGGAGATGCCGGCGCATCCAGGATATACCATTTGTTAGGCGAGGATTTGCTGGCTCAGCTGTATTTCTTCGCAGAGGCCGATACGTTCGGCAAGTAA	MSTIHMLVGIPGSGKSYYAKQLCKSERAVLVATDAIRERLFGSESKQKNTYLVFDEAFAEIEQALKSDRNVVFDATNVSRERRQKFLKRFGDRRVECHICTTPYEVALDRVKRRKRRLDEKIMTKYAKNLEFPVMGEGFVDLHLVHEPGETQLAREDLEQLLMRRPDHDELFGYLSQSPYFQTMLGFDQENPFHSRTLSEHTFAVLVYIQNCYDGEGDHLLAMQLAALFHDAGKPFCKVWKQARGYYSYYGHEHVSAIMACHTLKDLGYEDEFVLHVVQLVSFHMEILHGGDAGASRIYHLLGEDLLAQLYFFAEADTFGK				NA	NA	NA	NA	NA
AK002_02803	639			hypothetical protein	ATGAAAATGAAATATCCAAGAACGATGCATCTGCCCTGGTCTAGAGGTTATACCGACGACGATAAGATTTTGCGGGCTACCGACCATTTTGCGGGGCAGGAGGTTGTCATTACCGAGAAAATGGATGGGGAGAACACCACCATGTACCCCGATCTCATCCACGCCAGATCCCTGGACAGCAAGGATCATCCTTCCCGTCATTATGTCAAGACGCTGCATGGGGGCATCAAGTATTTGATTCCGGAGGGATACCGTCTCTGCGGGGAAAACGTCTATGCCAAACATTCGCTTTCGTATTCGGCGCTGCCGTCTTACTTCATGCTGTTCTCCGTGTGGAATCAGTTGAATGTGTGCCTGTCATGGGATGAGACGGAGGAATGGGCGGATCGTTTGGGGCTGGTTACGGTTCCTGTCTTGTACCGGGGCATCTGGGACGAGGATGCTGCCAAGGCTTGTTATACGAAGCGATCTTGCTGCGGCGGTGAACAGGAAGGTTACGTGGTTAGGCTGGCTTCCGCATTTGCATATGACGATTTTAAGCATAGCGCTGCCAAGTATGTCCGCAAGAATCATGTTCAAACCGACGAGCATTGGCTGAGCAAACCGGTGGAAGCGAATCATTTGGCTGCAGGAGACTAG	MKMKYPRTMHLPWSRGYTDDDKILRATDHFAGQEVVITEKMDGENTTMYPDLIHARSLDSKDHPSRHYVKTLHGGIKYLIPEGYRLCGENVYAKHSLSYSALPSYFMLFSVWNQLNVCLSWDETEEWADRLGLVTVPVLYRGIWDEDAAKACYTKRSCCGGEQEGYVVRLASAFAYDDFKHSAAKYVRKNHVQTDEHWLSKPVEANHLAAGD				NA	NA	NA	NA	NA
AK002_02804	462			hypothetical protein	ATGAACAATAACAGGATGTTTAGCGTTTCGGCACCGTCTGGCATTAGATTAATGGTTTCCATGCTGCTCTTAATCGTTATTCTTCTTGGAAATATCATGTTGGAACAGGGAGAAAGGGATTTCTTTTATTATGCCTGCATTGTGTGGTTGGTTTTTTGTTCCACCGTATTCATCATCTCCTTCTACAGAACCTGCCTGATGAAACCCGCCGTGATGAAAATGCATCAAGACGGAATCATGATAAACGGAGAAGAAGTGAACGCAGATTCCGTGGCATGTTTATTGATCAACCATGACAGGAAACCGGTGATCGGGATCAAGCCGAAAGGGCGTAAGATCGTACCATTGAAGCTATGTTTTCAGTTCTTGGAGGATCAGACGGAGGGAATCAGGCAGCTTGAGCTATGGGCACAAGCAAGTCATGTGAAGATAACCAAAGGTTTTTTTATGAGATGGTTGTAG	MNNNRMFSVSAPSGIRLMVSMLLLIVILLGNIMLEQGERDFFYYACIVWLVFCSTVFIISFYRTCLMKPAVMKMHQDGIMINGEEVNADSVACLLINHDRKPVIGIKPKGRKIVPLKLCFQFLEDQTEGIRQLELWAQASHVKITKGFFMRWL				NA	NA	NA	NA	NA
AK002_02805	450			hypothetical protein	ATGAATAATATGTTCAATCATTTTGATATGACCCAAATATTAAACCGAATCGACGCATTAAGCCCTCAATCACAACCGTTATGGGGAAAAATGGATGCTGCCCAAATGCTGTCCCACTGCTCCGCGTTCCAAGACATCGCCATGGGCATCACAAACCCGCCAAGAGGCTGGCTAGGTAGGTTGGTAGGGAATTTCGCGAAGCCCGTGTTTTATAATGAAAAACCGTTACCTCGCAACATGTCGACTATTCCGGATATTTTGATTGCGGATCCAAGAGAATTTGAAACGGAAAGAGAACAATTAAAAGGAAAAATAATAGCATTCCAAAAGCACGGACCCGAGAAATGTACCACACATCCTCATCCTTTCTTCGGTAAACTGACCTCAGAGCAATGGGGGAGGGGATTATACAAGCATCTGGACCATCACTTGAAACAGTTTGGCGTTTAA	MNNMFNHFDMTQILNRIDALSPQSQPLWGKMDAAQMLSHCSAFQDIAMGITNPPRGWLGRLVGNFAKPVFYNEKPLPRNMSTIPDILIADPREFETEREQLKGKIIAFQKHGPEKCTTHPHPFFGKLTSEQWGRGLYKHLDHHLKQFGV				NA	NA	NA	NA	NA
AK002_02806	486			hypothetical protein	ATGCCGGGGACGATCACCTTAATCCGTTATAACGGAACCGAAAAACACGCTTTAACAGAATCCAACGCTTTCGCCACGCGAACCGAAGTCAACGGAAAGCCGCAAATCATGCTGTGGTTTGAAACGGAAACGGAGACCGAACCGCTTCAGGTTTACCCGGATCCGGATGAGCTGCTGAGCAATCCGGACGCGGAACTTACGATTTATCTGGATACGCTAAAACTGAATGAGTTTGCACCGCTGGAATTTACGCTTGCCCAGGGCTATAACGAGAACTCCAGAAGCCTGGATGCAAGACTCTATTATTTTGAGCACCAGGAGGTAAATGATAACCGGGGACGCATTGAGTATAGAGGAAATGGCGTATTTTACGTATATTGGACTGGAACGACGATGGACGTCAATTATTATGATGGGAGTAAGCCGGATACCCGGCTGGAATTGGAAGGCGAGTTTACGATGGAGAAATACGTGGAATGGTTATAA	MPGTITLIRYNGTEKHALTESNAFATRTEVNGKPQIMLWFETETETEPLQVYPDPDELLSNPDAELTIYLDTLKLNEFAPLEFTLAQGYNENSRSLDARLYYFEHQEVNDNRGRIEYRGNGVFYVYWTGTTMDVNYYDGSKPDTRLELEGEFTMEKYVEWL				NA	NA	NA	NA	NA
AK002_02807	1809			hypothetical protein	TTGATTAAACGACAAAGACACGAGCATTTTACCGGAAAGTTCAGCAAGTGGGTTTACGGGATCACGTTTAAACAAAGAGTTCGCTTATCCTTCATTATTATGATAACGCTTGCAATTGGAGCGGTAGGCATGACAACCTATTGGATCGCCTCCAAAGAGCTTCAGAAGAACGCTTTCGAATCCAGACAAGAGACCGTGAACAAAACGACTCAGATTCTGGACGACAAATTGGCCGGGATCTCCAATTCGGTTCGTTCCCTGATGTTCAGCTATGCCTTTAAGGAAATGATGCTGGATGTGCAGAGCAACGACATCTCGAATTATTACGTGCATTTGTCCGAGCTTCAGTATGTGTTTTCACAGGTTACCTTTAACGAGCCACTGATCGAAAGCATACTCATTGCTACCCCGATCGGGGATTTTTATCCAGTATCGCAGCGTCGTTCCCAGACCCAGTCCTTTTATGAATCCAGCATGTATTACGACGTGAAGGAGAATTATGGGGGGATCTGGGTTAAGGGGCACACCGACAAATTTTTTACCGGGAACAGCCGAACGCTTTCCTTTGTTACCAAGGGAACGCAGGAGAACGTTTCCAACACCAACGTATTCATCGTGGTGAACGTGAACGAGAGCGGGTTGATCGGCATGGTCAACCAGCATTCTTCGAATGATGACAGCGATTATTTTGTCATTGATTCGAAAGGCGAGGAAGTCATTCGGACCGCCTGGTCGTCCAGCCATAATCTCATGAAAGATAAACCATTCCTGTACAAAGTATCGGAAGGTAACCAAGGTTCTTTTTTTCATCATTTTGACGAAACCGATTACCTGGTGAATTACACCCGATCCGCCGTGGTCAAAGACTGGAGCCTGTTCGGCATTCAGCAGAAGGATAAGCTGCTGGAGCAAATGAACGGAGTCAAGCGAACCACCTTTTATATCATGCTGTTCTTTCTGCTTCTTACCTGGCTGCTGTCCACCAATTTGACGGCAATCCTGCTTAACCCGTTATATAAACTGCAGCGGCTCATGCGGGAGGTTGAGGACAACCGATTGAACGTCCGTTTTGCCAGCCGGTCTACCGACGAAGTTGCGCAGGTGGGTTATCAATTTAACCGCATGCTGGACGAAATCAATCGGCTCATCGATGATGTAAGGCTGAGTGAATCCGGGAAACGTAAGGCGGAGATGCGGGCTTTAACCGCGCAGATGGAGCCGCATTTTTTATACAACACCCTGAATACGATCTACTGCAAATCGGTGCTTGGCGAGAACGATGAGGTCAATGAGATGATTTTGTCCTTGTCCCAGATGTTCCAGTTAGGGCTGAGCGGAGGCAAGGACTGGAACACGCTGGAGGATGAGCTTCTGCATGTGGAGCAGTATTGTCTCCTGCAGCAAAAATGTTATGAGGGGCTGTTTGAGTTTGAAGTTACCGTGACCGACGCTTCGTTGTTAACTTGCCTGATGCCCAAAATTCTATTGCAGCCGATCGTGGAAAACAGTATTCAGCACGGGTTTAGGGACATCGGCTCAGGAGGTCAAATCCACTTGCGTGTTTGCAGGCAGGGCCAGCTGTTATATCTGATCATTGAGGATAACGGAATCGGCATGGATGCGGATAACGTCATGAAGGGGATGCTGGAGCCGCCGGTCTCCAAGAAGGGTTATGCCTTGAATAATATCGTGAACCGGCTTAGTCTCTTTTATGGTGAAGATGCCGGAATCAAGCTGACCAGTCTTCCCGGCAAAGGATCAAGAACGGAAATATGGATGCCGATTAGAGAAGGGGACGTTGAATCATGA	MIKRQRHEHFTGKFSKWVYGITFKQRVRLSFIIMITLAIGAVGMTTYWIASKELQKNAFESRQETVNKTTQILDDKLAGISNSVRSLMFSYAFKEMMLDVQSNDISNYYVHLSELQYVFSQVTFNEPLIESILIATPIGDFYPVSQRRSQTQSFYESSMYYDVKENYGGIWVKGHTDKFFTGNSRTLSFVTKGTQENVSNTNVFIVVNVNESGLIGMVNQHSSNDDSDYFVIDSKGEEVIRTAWSSSHNLMKDKPFLYKVSEGNQGSFFHHFDETDYLVNYTRSAVVKDWSLFGIQQKDKLLEQMNGVKRTTFYIMLFFLLLTWLLSTNLTAILLNPLYKLQRLMREVEDNRLNVRFASRSTDEVAQVGYQFNRMLDEINRLIDDVRLSESGKRKAEMRALTAQMEPHFLYNTLNTIYCKSVLGENDEVNEMILSLSQMFQLGLSGGKDWNTLEDELLHVEQYCLLQQKCYEGLFEFEVTVTDASLLTCLMPKILLQPIVENSIQHGFRDIGSGGQIHLRVCRQGQLLYLIIEDNGIGMDADNVMKGMLEPPVSKKGYALNNIVNRLSLFYGEDAGIKLTSLPGKGSRTEIWMPIREGDVES				NA	NA	NA	NA	NA
AK002_02808	1647	cheB_7		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGACGAATGGATCACCTGTGATTAAGTTATGCATCATTGATGATATTCGAAGCGTGGTCGACATGATCGCACGGAAGCCGCCTTGGAAGGATCATCATATCGAAGTCGTTGGCACGGCACTGGATGGCGAGGAAGGCATCCGCCTCGTGAAAGAGACGAAACCCGATATTGTCCTAACGGACATCCGGATGCCGAAAAAGGATGGGTTGGCCATGACGCAGGAAATTCTCGAAAGTTCTCCTTACACGAAGATTGTCATTCTCAGCGCATATACCGATTTCTCGTTCACGAGACAGGCCATCCGCTTGGGAGCCTTTGATTTTGTGAAGAAACCGTTCTCGATTGACGAAATCATCCAGGTCGTTTTGAAGGCAAAGGCTGCGTACCTGGAAGAACGGCAGGAGCAAAGCAAGGTCTTGGAACTGAAGCAGAACATGATCAAAAGCTTGCCGGTCCTGCAGCAGGAATACTTGTCATTGCTGATCCATCACCGTACGAATCCGGAAGCGGCATATCAGCAATGGCAAGCACTTGGCATCAAGCTTGAGCCACGGCGATTCAATCTCTTTATCGTGGAAGTGGACCGTTTCATGGACAAATATAAGGAGCAGCCAGCACGTGAAGTGGAGCTGATCAGGTTCAGTTTGCGCAATATTTTGGAGGAAACGATTGGAGGGTTTACCCATGGCGTCGTCTTCAGCGAGGCATTGAACCGCTTGATCTGCCTGATCAATTGCGAGGATATGGGGACGGCAGAGCAAATATCGGAGGCTTGCCGGCTGAACATTTTTCAATTTACGCATTCGACTATTTCCATCGGGATCGGCATGTGCGTTCATTCAATCGATGAGCTGCCCGATTCCTATCAGCAGGCTTTGAATGCGCTGGATTATCATTTTTATACAGACGGCAATGGTGTAAGCAGTTATTCCGGCACTTCTGCCGAAGAAAAGACCCTCTTGAATTATTCGGCTTCGACGGAACAAGAATTTCTGTTTGCCTTGCGATCCGGGCACAGGGAAAAATGCCGGCTGATTCTGGAGCAAATATTTAATGATATGCTGCAGCGTGACCCGCTGCCCAAGCCGCAGCAAGTTGAAAACCTATGTTATGAGCTGTCATCCAAGATATGTCGGGTCATGTCGGAGCAGTTCGCTCAGGATCGGGTGAAGAGGCTTGAAGAACAATGGCATGCGGTGAGGAGTTCAGGTGTCGTTTCGTTCCAGATTATGCGGGATACGGTAAAAGGAATCTGCCTTGAAGCTTGTTCATGGGTCGAGCAGGAGCGTATGGATGAATCCACGAAATTGATCTATCAGGCAAAAGATTATATATGCGCGAATTTACATACGAATTTATCGCTGGATCTCTGCGCGAAGCAGTTTAATATCAGCCCCGGTTATTTTTCGAATCTGTTCAAAAAAGTGCTGAATATCTCTTTTCAGCAATTCCTGATCCATCAGCGAATGGAGAAAGCCAAAGAAATGCTGATCGACGACTATCAGGTACAGGAGATCGCACAGAAGCTTGGTTACGAGCATCGCCGCTATTTTAGCGAAATCTTCAAGAAGCATACTAACATGACTCCGTCCGAGTTCAAGCTATATAGTACGGGGAAGCTCAGCACTCCTGTGGATTTGGATTGA	MTNGSPVIKLCIIDDIRSVVDMIARKPPWKDHHIEVVGTALDGEEGIRLVKETKPDIVLTDIRMPKKDGLAMTQEILESSPYTKIVILSAYTDFSFTRQAIRLGAFDFVKKPFSIDEIIQVVLKAKAAYLEERQEQSKVLELKQNMIKSLPVLQQEYLSLLIHHRTNPEAAYQQWQALGIKLEPRRFNLFIVEVDRFMDKYKEQPAREVELIRFSLRNILEETIGGFTHGVVFSEALNRLICLINCEDMGTAEQISEACRLNIFQFTHSTISIGIGMCVHSIDELPDSYQQALNALDYHFYTDGNGVSSYSGTSAEEKTLLNYSASTEQEFLFALRSGHREKCRLILEQIFNDMLQRDPLPKPQQVENLCYELSSKICRVMSEQFAQDRVKRLEEQWHAVRSSGVVSFQIMRDTVKGICLEACSWVEQERMDESTKLIYQAKDYICANLHTNLSLDLCAKQFNISPGYFSNLFKKVLNISFQQFLIHQRMEKAKEMLIDDYQVQEIAQKLGYEHRRYFSEIFKKHTNMTPSEFKLYSTGKLSTPVDLD				NA	NA	NA	NA	NA
AK002_02809	1371			hypothetical protein	ATGAAAATAAGCAAGAAATTCTTCATGTCCGCGATATGCCTGATGCTTTCTGGAAGTCTGGCAGCTTGCGGCAGTCCGACATCCACAGATCAAGGGGCGGAAGCCGGATCCAATGACAAGACCAAAATCACCTATTGGACCGGAGATCGCCATGATTCCGAGTTTGTCAAAGAGACCATCGATACATTCAACAAAACGAACAAGGATAACATCGAGGTGGAACTGGTCATCAAGGGAGACGACTTCGATCAAGCACTGGACATGTCCTTTCAGACTTCAGAGCCGCCGGATGTCATTCGCGTGAAAGAGAACACCATCCAGACGTTTTATAAAAAAGGTTTCCTTGCTCCGATCGACGAGTTTCTGACGGACGAAATGAAGGCAAAGTTCCCGGCGATGGAGGATCTGAACAGCTTTGAGGGAAAACGTTACAGCCTGCCGAACTACGGCACGACCATGCGACTGATTTACAATAAAGAGCTTTTTGCCAAAGCGGGCATTGAGCAGCCGCCAACCACTTTGGATGAGCTGGTCGAGACTGCCAAGAAAATTACGGAAGTGGGAAAAGCCAGCGGAGCTTATGGGTTCGCTCAAAATTTCAAAAATCCTTCCAGTGCACTTGGGCGTTCTGCACGCGTTATCGCAGAGGTGAGCGGTTATGGAGGCTTTGGATATGATTTTAAGACGGCTCGTTATGATTTCAGCGGCTTTAAGCCGATCATGGAAGCCTTCAAGCAAATTAAGGACGACGGAAGCATGCTGCCAGGCGTTGAATCGCTAGATATCGATCCGCTTCGTGCTCAATTCGCTGAAGGAAAAATCGGCATGTACTTATCCTTTTCCGCTGAGGCGGGCGTCTACCAATCCCAATTTCCGGCCAAAATCGACTGGGCCGCGGCACCCGTTCCTTCCATTGACGGTCAATTCAATGGCGCTTCCGGCTTCCTTGGCGGTCAGTGGCTGGCCATTAGCTCGGAGTCGGAGCACAAGGAAGCCGCATGGAAGTTCCTAACGTACATGTACGATGAGTCGATTCTCCAACAGTACCAAGAGAAGGGATTCGGCATATCGATGGTTCCTTCGGTTAGCGCGGTTGCCGCGAAGCCTGAAGTGAAAGGGATCGACGGGTTCCTGCCTAATCAATACGACGGTGTTTGGCCGGTCTATCCGACCGTGCCGGTACAAGGCATGAAGTCGGACGACGCCTTTTTCAAATACATCCTCAGCGGAGGCGATCTGGATTCCATCATCGACGATTTGAATACCCGCTATAATGCCGCTTTGGATGCTGCCATTGCGAGCGGGGAAGTGAAAGCGGAGCCGATGGCGGATTTTAATCCGCTGGATCTTGCCGGACAATACGCTAAATAG	MKISKKFFMSAICLMLSGSLAACGSPTSTDQGAEAGSNDKTKITYWTGDRHDSEFVKETIDTFNKTNKDNIEVELVIKGDDFDQALDMSFQTSEPPDVIRVKENTIQTFYKKGFLAPIDEFLTDEMKAKFPAMEDLNSFEGKRYSLPNYGTTMRLIYNKELFAKAGIEQPPTTLDELVETAKKITEVGKASGAYGFAQNFKNPSSALGRSARVIAEVSGYGGFGYDFKTARYDFSGFKPIMEAFKQIKDDGSMLPGVESLDIDPLRAQFAEGKIGMYLSFSAEAGVYQSQFPAKIDWAAAPVPSIDGQFNGASGFLGGQWLAISSESEHKEAAWKFLTYMYDESILQQYQEKGFGISMVPSVSAVAAKPEVKGIDGFLPNQYDGVWPVYPTVPVQGMKSDDAFFKYILSGGDLDSIIDDLNTRYNAALDAAIASGEVKAEPMADFNPLDLAGQYAK	PGPT0016545_2149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_02810	903	lacF_15		Lactose transport system permease protein LacF	ATGAATAAAGCGAAGAGTGTTGCTTTTTCATACAGCTTTCTGTTGCCGAGCTTTATTCTGACCATGGTTCTTGGCATTTACCCGATCATGTGGGCCATGAGGTATATGTTTTACGATTATAAAGGGTTTGGTGCCGAACGATTCGTAGGATTGGCCAATTTCGAACGTGTCATGAAGGATCATCAGTTTTGGGAATCCGTAGCCAACACGTTCATCTACGCCGGAGGCAAACTTCTGCTCTCGATACCGCTGGCCCTGATCTTGGCTGTTATTCTGAATTGGAGGATCAAAGGCAGAAATTTGCTCAGAGCGATTTTCTTTATGCCGACGATCATAAGCACCGCCGTAATGGCGGTCGTATTTTTTACGATCTTTAATTCCTATAATGGCATTCTCAATCAGTTTCTGATCAAGTACCAGGTCATCGGAAATGCCATCGATTGGCTGGGCGTGGATTATGCCATGCTGACCGTCATTCTCGTAGCAGTATGGGGGGCGATTGGCAATTACATGCTTCTCTTTCTGGCGGGACTCCAAAATATTCCCGAAGATGTCTACGAGAGCTCTGCTCTGGATGGGGCAAACAAATTCCAGCAATTCCGGTACATTACCGTTCCCATGCTGGGGCCTGTCATGCAAATGATCATTATGTTGGCCATTATCAATGCACTAAAAGGGTATGAGAGCATCATGGTGATGACCGACGGCGGTCCGATCGGAAAAACCAATGTCATGTTCCTATACGTTTATAAATTGTTCTTTCCTCCGGCAGGCTCCACGGCATCCACGCAAATCCAGGAATTCGGATATGGCAGCGCGGTAGCTTTTGTTACGGCCGTGATTGTCGGCGTCATTACGATACTGTACTTCTATGGCTCGAAACGCATGAGTCATAACGAATAA	MNKAKSVAFSYSFLLPSFILTMVLGIYPIMWAMRYMFYDYKGFGAERFVGLANFERVMKDHQFWESVANTFIYAGGKLLLSIPLALILAVILNWRIKGRNLLRAIFFMPTIISTAVMAVVFFTIFNSYNGILNQFLIKYQVIGNAIDWLGVDYAMLTVILVAVWGAIGNYMLLFLAGLQNIPEDVYESSALDGANKFQQFRYITVPMLGPVMQMIIMLAIINALKGYESIMVMTDGGPIGKTNVMFLYVYKLFFPPAGSTASTQIQEFGYGSAVAFVTAVIVGVITILYFYGSKRMSHNE	PGPT0016335_1277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_02811	828	ngcG_10	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGAGAATCGCATGGAATACTATACTGTGGGCGTTTCTGTTAATCGTCGCATTTCTGACGCTGTTTCCCGTCGTGATCACCTTGCTCGGTTCTTTTAAAACCAATGCCGAGCTTACGGCTGGGGCCACGTTTCTGCCGGCCGATTGGCAGTTTTCCAACTATATCGAGGCTTGGGAACAGGCGAATTTCTCAACGTACACGCTGAACAGCCTGTTCGTTGCCGGAGCCGCGACCATCGGAACGTTATTGGTGGCTTCCATGGCGGCGTACGTCGTGAATCGAATGAACTTTATCGGTAAAAAGCTATACGTCGGTCTCCAGGCCTTTACGATGTTTGTCGCCATCGGCGCCGTGGTGCTGCGTCCTCAATTCGACCTCATGATTCGCCTTCATCTGCATAACTCGCTATGGGGCGTAATCCTGATATTAATCAGCGCCCATGCTTCCGCATTCTTTATCCTGCTCAGCTTTATGAGCGGGATCCCCAGAGAGTTGGATGAAGCCGCGCGCATCGACGGGTGCTCGCCGGGCAGGACGTTCTGGCGAATCATCATTCCCTTGCTGACGCCCGGGCTTGGCGTGTGTGCTCTGTTTGCTTTTCGCGGGGCATGGAATGAGTATCTGCTCCCGTTTGTGTTTACGCTCAGCAAACCGGAGCTGCAGACATTGACCGTGGGCCTTGCCAATCTAAAGTACGGTGTTGCTGCCGCTTCCCAGACTCACTTCATGATGGCCGGGGCTTGCCTTTCCATACTTCCGATCCTTATCGCTTATATTTTTGCCAACAAATCTTTTATGCAAATGACCGCCGGCTCATTAAAGGGTTAG	MRIAWNTILWAFLLIVAFLTLFPVVITLLGSFKTNAELTAGATFLPADWQFSNYIEAWEQANFSTYTLNSLFVAGAATIGTLLVASMAAYVVNRMNFIGKKLYVGLQAFTMFVAIGAVVLRPQFDLMIRLHLHNSLWGVILILISAHASAFFILLSFMSGIPRELDEAARIDGCSPGRTFWRIIIPLLTPGLGVCALFAFRGAWNEYLLPFVFTLSKPELQTLTVGLANLKYGVAAASQTHFMMAGACLSILPILIAYIFANKSFMQMTAGSLKG	PGPT0016340_1346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_02812	1002		COG2152	1,4-beta-mannosyl-N-acetylglucosamine phosphorylase	ATGAAATCGATTCCTATTGGAAATCTCATCTCAAGTTCCGTGATTCGGCGTCATCCGGATAACCCGATTCTGGATGCGTCCCGCGTTCCATATCCGACCGCGCTTGTATTTAATGCCGGTGTGACCAAATTCAACGGGAAATACGTGATGGTGTTTCGTAACGACTACGGAAGTGTAGAACGCCAGACGCTTGAGCCCCATCATACCACCGACCTTGGCGTCGCCTTTAGCGATGACGGAGTTCAGTGGGAGGTGCAGCCAAAGCCGTGCTTTAAGCTGCATGACCAAGAGATCATTCGGGCGTATGACCCTCGGCTCACCGTTATCGACGGTCGATGTTACATGTGTTTTGCCGTGGACACGCAGCATGGCATTCGCGGAGGCGTAGCGGTAACTGACGATTTTGTGAGCTTTGAAATATTGAGTCTATCAACGCCGGATTTGCGCAACATGGTGCTGTTTCCCGAGAAGATTGGCGGCAACTATGTACGGCTGGAGCGGCCATTCACGGTGTACAGCCGAGGGGGAGTCGATCGGTTTGATATGTGGATATCGGAATCGCCGGACCTGAAGTACTGGGGAAATTCCGGTTTGCTGCTCGCTGTCGAAGACGTCGCGTTTGCCAATGACAAGATTGGTCCCGCGGCTCCTCCAATCAAGACGAAGTTTGGCTGGCTTACGTCTTTTCATGCGGTGGATCTTGATCCTGCAAGAGGCAAGAACGGGTGGGAACCCTCCTGGAAAAAACGTTATACCGCCGGCTTGATGATGCTGGATTTGGATAACCCCAAAAAAATCATCGGTATGTATAAGGAGCCCTTGCTGGCGCCAGAGGTTAGTTACGAGACCGAAGGAGGCTTTCGGAACAACGTGATCTTCCCTGGCGGCATGATACTTGAAGAGGACGGCGAGGTTAAAATTTATTACGGTGCAGCGGACGCGGTGGAATGTTTGGCTACGGCACATATTGATGAATTGATCCAATTATGTCTCAACGATTAG	MKSIPIGNLISSSVIRRHPDNPILDASRVPYPTALVFNAGVTKFNGKYVMVFRNDYGSVERQTLEPHHTTDLGVAFSDDGVQWEVQPKPCFKLHDQEIIRAYDPRLTVIDGRCYMCFAVDTQHGIRGGVAVTDDFVSFEILSLSTPDLRNMVLFPEKIGGNYVRLERPFTVYSRGGVDRFDMWISESPDLKYWGNSGLLLAVEDVAFANDKIGPAAPPIKTKFGWLTSFHAVDLDPARGKNGWEPSWKKRYTAGLMMLDLDNPKKIIGMYKEPLLAPEVSYETEGGFRNNVIFPGGMILEEDGEVKIYYGAADAVECLATAHIDELIQLCLND	PGPT0018740_109	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
AK002_02813	3084			hypothetical protein	ATGACGATATGGAACCTTCTGCAGCATCCTCCAACCCGTTATCGAACGGTGCCGTTTTGGTCCTGGAACGACGATCTGAATAAGAACGAACTCTTACGGCAGATCGAAGAAATGCACGGGGCTGGCATCGGCGGTTTTTTCATACATGCCCGCGGGGGACTTACGGTACCGTACATGGGTGAGGAATGGATGGAGGCCATCCAGGCCTGCATCGAAAAAAGCCAGGAGCTCGGGCTTGAGGTATGGCTGTATGACGAAAACGGCTGGCCCAGCGGTTTCGCCGACGGTAAGGTGCCTGCGCTTGGCCCTGCTTATCAGCAGAAGCGGCTGGCTTATGAATGGGCTCCGTTTACGGACGGAGAAAACGTGACGTTAGCCTATTATGTTCAGAGCGGTGAAGAGCTGCTGTTACTCACTCCGGATGATCCTCGCAGTCCTGACTTTCGTGTATATTACGAGGTCAATCCGTACTATATCGACACGCTAAGCAAACAGGCCGTGAAGGCGTTCATTACGACCATCTATGAAGCTTACTGGGCACATTTCGGCAATGAATACGGCACTGTGCTTAAAGGAATATTCACGGATGAACCGCAGTTTGGACGGGGGGATTTTCCGTGGTCGCTGGAGCTGGAAGAAGCCTTTGAAACCCGGTTTGGATATTCCTTGTTGGAAGCACTTCCGTCACTGTTTCTGGAGACGAAGAATTGTCGCAAGACAAGATACGATTATTGGGCGTGTGTTACCACGATGTTCACGGAAGCCTACGCCAAGCAGATCGGAGCGTGGTGCGGGGAGCGGGGGTGGTCTTCCGCCGGACATGTCGTGGACGAGCAGACGCTTATGAGCCAAGCGACTTCGGTAGGCGATCCGCTGCTCTTCTATGAGTATCTTCAAATTCCCGGTTGCGACTGGCTCGGCCGATCCGTTAGCGAAGAGCCGCTTGTTCCCAAACAAGTCAGCTCCGTTGTGCGTCAACTCGGCAAAAAACAAGCCATCACCGAGAGCTATGGCTGCACCGGATGGAATATTAGCTTTCAGGATCTAAAGCGGATTGGGGAGTGGCAATTCGTTCACGGCATGAATCTCATGTGTCAGCACTTGCAGGCCTATTCCTTAAGAGGGCTGCGCAAAAGGGACTATCCGCCATCCTTGTTCTATCAGCAGCCTTGGTGGGAGCACTATCACCGGTTTAACGATTATTTTGCCCGTTTGTCCATGCTGCTTATGGAGGGAAAGCGGCAGGCCGAGGTACTCCTGCTGCATCCTATTCGGACTGCTTGGATGGAGCAAGCGGGCTCGGACTCATGCAGGATAGAGCCTTACCATCAAGCGTTTGCCCAGTTGTCCCGTTGGATGTGTCAATCGTTCATCGAGCATGATTACGGCAGCGAGGGAATCATGGAACGTCATGGTAAGGTAGCAGGCGGACGATTCATTGTAGGAGAGGCCGGTTATCGGGTCGTTGTCATCCCTCCTTGTGTTACCTTAAATAAGGTAACCGTGAAATTGCTGCATCAATTTATCCTTCAAGGAGGAACATTGATCGCTTTCGAACCTTACCCTTACTTGATCAATGGGGAACGTTGCGAAGACATCATGCGTGTCGTAGACGCTGCAATGAAACCTGATATGAGTCGATTATCTTTGGTGAAGATGCTTACGGATACGGTTTCACCTCCCATTTCTGTAACTGACGGAATGGGGAATCCCATTATCTCGGACATGGTTAACGTTCAGACGCTTGAGCTGGACGGCTCTTATCTTTATTACCTGGTGAATTCCGGAGAAGAGCGCTATCCGGATACGGTGGTGACTATTCATCGAAAGGGTTCGCCTTTTCTTATTCATTTGGAGAGCGGCGCGATCGAGCCGCTGAACCATAAAGCAATGCCCGACGGCATTCGGTTGAACTTGACGCTGCATCCAGCGCAATCCTATATGATTCGGGTTGTCCCGAATCATGAGGAGCTAAACGATTCCGTTACGGCAACAGAACTCGAGCTTCAGCATGCCGGAAGGCAGATTCAACAATTGGATGAGCGGTGGAGAATCGATTATATCGATAAGAACAGTTTAACGCTGGATACGTGCAGGTATCGGGTGGAACAAGGCGAGTGGTCAAAACCACGGCCCCTTATTTTTATCCAGGAAGAGCTGCTGAAGATCGGAGCACCGGTGCAAATCGAATTGGAATTCGAGGTTGCCGTTGCATTTGATCCCTTGATGAAACGGGAATTGTATCTTGTCTTAGAGAATCCGGAGAAAACGAAAATCCAGGTGAACGGAAACGAAGTAGCATCCCATAGTTGTGGCTGGTGGAGAGACGTTGCTTTCAAAAAAGTAGATATTACAGGCGGCCTTCAGCACGGACGAAATACCATCAGGCTTGCGCTCAATTTTTGGAACTCGCCCGAAACGTATGCGGCTTTAAAGCGTGCCAATCAATTTGAATCTGAGGCGAATAAGCTTACGTTTGATTCGGAGCTCGAGAGCGTGTATATCATAGGAGATTTTGCGGTAACCTCGGAATCGCCGTTTGTTGATGGAGGGGATGGTGTCCTTTTTTCGGACGGCCCGTTCATTCTTTCCGAACGTACGCACGAATGTTCGCTGGCAGAAGATTTGGTCAGTCAGGGCTTGCCGTTCTTCACAGGAAGCCTCCGCCTGGCGCAGACGGTTTCCATCTGTCTGGATAACCGTGCTAAATGGCTGTGGCGGTTTGACGCTAGGCCGAATGCAATCGTCACGCGATTAACCATTAACGGACAAGAAATCCACACTTTCTTATGGGAGCCGTACGAAGTTGATATCTCTGAATATCTCATTTCAGGAGAGAACCTGATTGAACTAGAGTTAATCGGAAGCTGCAGAAACTTGCTAGGTCCGCACCATCATGTGAAAGGGGAACCCCTTAAGGTCGGCCCGGACAGCTTTAAGAATAAACCCGGATGGACGGATAAGGACCTTGATCCGGACAGCCCGATCTATCAAAACCGCTATGCTTTCGTTCGTTACGGTTTGTCACATGTTCCAAGCTTGGTTTCCCAGAATATGAAACCGGAGAGGGTACGTCCCGAATGA	MTIWNLLQHPPTRYRTVPFWSWNDDLNKNELLRQIEEMHGAGIGGFFIHARGGLTVPYMGEEWMEAIQACIEKSQELGLEVWLYDENGWPSGFADGKVPALGPAYQQKRLAYEWAPFTDGENVTLAYYVQSGEELLLLTPDDPRSPDFRVYYEVNPYYIDTLSKQAVKAFITTIYEAYWAHFGNEYGTVLKGIFTDEPQFGRGDFPWSLELEEAFETRFGYSLLEALPSLFLETKNCRKTRYDYWACVTTMFTEAYAKQIGAWCGERGWSSAGHVVDEQTLMSQATSVGDPLLFYEYLQIPGCDWLGRSVSEEPLVPKQVSSVVRQLGKKQAITESYGCTGWNISFQDLKRIGEWQFVHGMNLMCQHLQAYSLRGLRKRDYPPSLFYQQPWWEHYHRFNDYFARLSMLLMEGKRQAEVLLLHPIRTAWMEQAGSDSCRIEPYHQAFAQLSRWMCQSFIEHDYGSEGIMERHGKVAGGRFIVGEAGYRVVVIPPCVTLNKVTVKLLHQFILQGGTLIAFEPYPYLINGERCEDIMRVVDAAMKPDMSRLSLVKMLTDTVSPPISVTDGMGNPIISDMVNVQTLELDGSYLYYLVNSGEERYPDTVVTIHRKGSPFLIHLESGAIEPLNHKAMPDGIRLNLTLHPAQSYMIRVVPNHEELNDSVTATELELQHAGRQIQQLDERWRIDYIDKNSLTLDTCRYRVEQGEWSKPRPLIFIQEELLKIGAPVQIELEFEVAVAFDPLMKRELYLVLENPEKTKIQVNGNEVASHSCGWWRDVAFKKVDITGGLQHGRNTIRLALNFWNSPETYAALKRANQFESEANKLTFDSELESVYIIGDFAVTSESPFVDGGDGVLFSDGPFILSERTHECSLAEDLVSQGLPFFTGSLRLAQTVSICLDNRAKWLWRFDARPNAIVTRLTINGQEIHTFLWEPYEVDISEYLISGENLIELELIGSCRNLLGPHHHVKGEPLKVGPDSFKNKPGWTDKDLDPDSPIYQNRYAFVRYGLSHVPSLVSQNMKPERVRPE				NA	NA	NA	NA	NA
AK002_02814	2118			hypothetical protein	ATGTCATTGGTCAAAACATGGTTTCGTGCGGCACTTGGATTTACGCTTGCTGCTGCCTTGCTGGCACCAGCCGTGAATCTACAAGCGGAAGCATCGGAGGGAGGGGCTGCATTTACTCCAGCTACAATCGTAGCCTACGAGCCATCGGAAAGGTATGAAAGCTCCGTCAATTATACGCTCAAAGCGAACGGAGTACCCATCCCGGTGGTGAAGGGGTTCAGCGATTATGACTATGCGCATTTTTCCATGTCCGACGGTCCTGTCACTTACGAGTTAACGATCCTGAATACGGACAAGGTACACGAATACTCCATAAGTCCCAAGAAGCTGGGCATCCAAGCCGATAAGATTGAAGGACGAACCATCACTTTCACGACCCAATCGGACGAGTATTTGATTGTGATGATGAATAACCGCAAGACGCGTATGGTCATCGCGGCGGATCCGCTCGAAACGGATGCACCCGCCTCAACCGGCGAGGGCATTTTCAATATTACATCCGCTCCTTATCATCTTGTATCCTCAGGTTCTTCAGCGGCCGAAGTTTCGGTAAGAACGGGGGCCATTCAGCAGGCGATTGACGATGCCAGTCATTACGGTACCGCTCGAGGAGACGGTGCGCAGGGTATTGTCTACATTCCGGCGGGAACCTATGAAATCGGGAATTTGGTATTAAAAAGTAATACGGCCCTCTACATGGAGCCGGGAGCCACCTTGGTCGGTACAGGACGAACCAGCGATTACACCGAGCACTGGTTTAAGGATTCCATGGGACGACCGGCTACCTGGTGGATCTCAACCGCATTTCAATCCGAGAATATCCGGATCTATGGACGGGGCACGATCGATGGCAACGGGCAAGCGCTGCACGACGACAAAGGAACCAATGGCAAGGGAATGATCAATAACCTCGTTGTTCCGATAGCTACCTCCCATTTTGTCATGGAAGGGATCGTGATTAGAGAATCATCGGGCTGGGCGGTGGTTACGGTACGTTCTAACGATCTTGCCTTCAGAAATCTGAAGCTGTTCAACAGTTTGGGGATGGGGGAAAATGACGGGATCGATATTTGCGAATCCCAAGACGTCGTCGTACAAAATGCGATCGGCATTTCGCTGGATGACCCGTTCTCCACGAAAGCCTGGAAAGAGGATACCGATATCGCCTCGGGCAAAGTGCCATGGCCGGGCAATCCGGAGCCCGTTCGCAATGTGTTATTCGAGGATACGATCGCTTGGACCTTATGCTACGGTTATAAGATCGGACAAGGCGTCATGCAGGATCAATCCAATATCGTATTCCGAAACGGAGTCGTTTATAAAGCGGCTGTGGGATTCGCCATTCATCATAAATACGGCACCGGTGCGGTGAGTGACGTAACATTCGAATCGATGGACGTCGAAGATATCAGCGGCAAGAACGAGGACAATAGCGCATGGATGACCATGTTCACGGTAAATGGAAGCAATAACGGCGTGGGACCCGTCAGAGACGTTAAAGTGAAGGATATTACGGTGCGCGACGCAGGTGAAAGTTTTGCCAAGATCAAGGGTATGGAAGGTGCCGAGATTACGGATCTAATGTTCGAGAATGTTTATATGCCCGGAGCAAGCTTGCCGGCAACTACACTGCACGAGATGAACTTCTTGAGCAAAGAGCATTACGGCGATGTCACGATCAGGCCCGTTCAGAATGAGGAACCTCTGCCAAAAACCAATTTGGCGCTGCACCGTCCAGCCATGGCTTCATCTAATGACGGATTGGAGGACACCGCGCCGTACGTTAACGACGGAAGTTTAACAACGCGCTTCGGTTCGAAGCGGGGAGTGGACCCCGGCTGGATCTATGTGGATCTCGGAGAGACGCGAACGATAAACGAAGTCAGGCTCTATTGGGAGGCCGCTTATGGGAAGAGCTACCGGATTCAGGTAGCCGACGATCCAAGCGATGAGGCGAATTGGAGAGATGTATACAGCACCACGACAGGCAAGGGCGGTCTTGAGACGATAACTTTTGACGAAGCGGACGCGCGGTATGTACGGATGTACGGAACAGTCCGGGCTACAATATACGGATACTCCATTTGGGAATTTGAGGTGTATGGGCCTGAAGAGTGA	MSLVKTWFRAALGFTLAAALLAPAVNLQAEASEGGAAFTPATIVAYEPSERYESSVNYTLKANGVPIPVVKGFSDYDYAHFSMSDGPVTYELTILNTDKVHEYSISPKKLGIQADKIEGRTITFTTQSDEYLIVMMNNRKTRMVIAADPLETDAPASTGEGIFNITSAPYHLVSSGSSAAEVSVRTGAIQQAIDDASHYGTARGDGAQGIVYIPAGTYEIGNLVLKSNTALYMEPGATLVGTGRTSDYTEHWFKDSMGRPATWWISTAFQSENIRIYGRGTIDGNGQALHDDKGTNGKGMINNLVVPIATSHFVMEGIVIRESSGWAVVTVRSNDLAFRNLKLFNSLGMGENDGIDICESQDVVVQNAIGISLDDPFSTKAWKEDTDIASGKVPWPGNPEPVRNVLFEDTIAWTLCYGYKIGQGVMQDQSNIVFRNGVVYKAAVGFAIHHKYGTGAVSDVTFESMDVEDISGKNEDNSAWMTMFTVNGSNNGVGPVRDVKVKDITVRDAGESFAKIKGMEGAEITDLMFENVYMPGASLPATTLHEMNFLSKEHYGDVTIRPVQNEEPLPKTNLALHRPAMASSNDGLEDTAPYVNDGSLTTRFGSKRGVDPGWIYVDLGETRTINEVRLYWEAAYGKSYRIQVADDPSDEANWRDVYSTTTGKGGLETITFDEADARYVRMYGTVRATIYGYSIWEFEVYGPEE				NA	NA	NA	NA	NA
AK002_02815	651			hypothetical protein	ATGCTGAAACTGGAAGCGGCTTTAACTAGATTCATAGAACAACAGGACTTGTATAATCGGGGTTTCGGGCTCTTCACCGATCATGAAATACGGCAGCGGTCCGAGGTCCGGCTGCCCCCCGTGGATGACCGTATCACGCTGTCCCCTGAGCTGACCTATCTATATAGCCATTATGAGATGATTGACGCTATGGCCGAAGGAACCCATAAAATGAAAAACGCGGCGGTTGAGATCGGCGAATCGGCTGTCATTTACTTTGTTTCTCCCGAGCATCTGGTCCGGCAGCAAATGGGCTATCGCTGGATTAGCGATAGGGGGGAAACCATAGAATCGAGCAATTGGCCACCTCATCACGTTGTCATTGCCAATGTGAACGATGATCCGCTGATTGTAGATGTCCAAGCCAGTGGTTCACCCGTATATGCCGCTTTCGAAGGTGGCGAGCCTAAACTGATCGCGAATTCGCTTGCGGATTGCTTTCACGCGCTGTCCATCCTCATTGAAGGCGCTCTGCTTTTTCAAGGTGAAACCAGCGACGAAGAAACTTATGAGACGAAGCCTGATTTTCTCGCCCATGTGATGCCGCCACTGGCGGATCTTTTGGGAAGCGAGCAAATGGATGCCCTGCTGGAATATTTATCGCTTCGATAA	MLKLEAALTRFIEQQDLYNRGFGLFTDHEIRQRSEVRLPPVDDRITLSPELTYLYSHYEMIDAMAEGTHKMKNAAVEIGESAVIYFVSPEHLVRQQMGYRWISDRGETIESSNWPPHHVVIANVNDDPLIVDVQASGSPVYAAFEGGEPKLIANSLADCFHALSILIEGALLFQGETSDEETYETKPDFLAHVMPPLADLLGSEQMDALLEYLSLR				NA	NA	NA	NA	NA
AK002_02816	492			hypothetical protein	ATGAAATATGAATTCAGTATAACGGCTTCGATCTCCGAGCTCGTATGGTATCCGGATGAGCTGTCTGACGAGTTTAAGGTACACCCTAACTTTAAAGCCGTGATGGATCGGCTTGGCATAGCGGTTCCCGTAGAGGAGATCTATGAGCGGTATTTCGATAGCCCGGTGAACTCCGGCCATGTTCTGGTATTCCAGGAGACGGAGGGCCCGGCTTCCTGCATCGTCCTGGATACGTATCGCGATCCGTTGGACCAGCTGGATATGATCCAGATGGGATGGCGAAGCCAAGGCGAAGATCACGAGCTTCGCCGGCTATCCCGCAAATTCTATGATGAATGTGAATTCGCGGTCCGTTATCAGGAAGGTCAATCGGTATTGTCCGAGAAGCTTCGCGAAGATCGATATCCACGGACCTTTCGGTATCATACGGTATTCCAACAGAGAATGAAGCGATACGTCAATTACGCGGATTCCCCTAATTTGAAGGAGTGA	MKYEFSITASISELVWYPDELSDEFKVHPNFKAVMDRLGIAVPVEEIYERYFDSPVNSGHVLVFQETEGPASCIVLDTYRDPLDQLDMIQMGWRSQGEDHELRRLSRKFYDECEFAVRYQEGQSVLSEKLREDRYPRTFRYHTVFQQRMKRYVNYADSPNLKE				NA	NA	NA	NA	NA
AK002_02817	756			hypothetical protein	ATGAATATATCGGAATCTCATATTCGTCCTTTTCCGGCTTACGAGGATGTATTCGAAGGCGACGTGGAGCGGTACCGGAAGCATTTTCTTCCGATTCTTTCCTTGAATCTGAAGTGCCTGTTTCCGGGCGAGGATCAGTGGCTGCACTTTGTGTCCGTCAAAGAAATATACGACGGCAGCGTCGGCGAAGAAACCGTGTCCGAACACCGGCCGTATACCAAGGAGGATATGCTTGGTTTTGATGTAGTGAACGGAAAATACCGCTTCGAAGCGGATTGGAACTACTTTTTGCTCGAGCAGGAACCGGAGCATGAGACGCTGGCAGAAGCGTACGCCGACAATGAGCGGGACTTTATGGCCCGCAAGCGGTTCTATGAAGAGAAGGGGCATATCTTCCCTTACTCGTCTTTTGGTCGTGCTGCCGAATCGGCGGACGCGCTGATTCATGAATACAAGGAAAAGCAGGAGAAGGGGTGGGGATTAAGCTTCCCGAAGATCCATGGACTGCTGGATGATATTGGCTTTATGTCGGAAGAGGCACAACAGGATTTGCAGGAAGAGGGGGAAACTCTTGAGGACTGGCTGCGTTTCGAGCAGACCAATCTGCTGCATGTGCCGCGTACGCCGGAAGGAGAGATTTTTACCTATGTCGGCCGATTGACGGGTTATTACTTTCAGGCGTACGGAGCAGACGCGCTGTACTTGTTCTACTCGAGGGAGCTGGGCAAGGCCGTCGTTTGCTTGGAATATACTTGA	MNISESHIRPFPAYEDVFEGDVERYRKHFLPILSLNLKCLFPGEDQWLHFVSVKEIYDGSVGEETVSEHRPYTKEDMLGFDVVNGKYRFEADWNYFLLEQEPEHETLAEAYADNERDFMARKRFYEEKGHIFPYSSFGRAAESADALIHEYKEKQEKGWGLSFPKIHGLLDDIGFMSEEAQQDLQEEGETLEDWLRFEQTNLLHVPRTPEGEIFTYVGRLTGYYFQAYGADALYLFYSRELGKAVVCLEYT				NA	NA	NA	NA	NA
AK002_02818	882	rhaR_27		HTH-type transcriptional activator RhaR	TTGTACCATTGGAGCAAAAGCGAGGAACGGCTTAATCGTTATGCAGGTCGGTTAGAAGGCGAGAGCCTCTCGTTCCTTGTCCATTACTGGGGAACCGTTCGTCATTTGACGGCCAATTCCTTGCATCGGCATTCTTTCGTTGAAATTTGTTATGTACACGGCGGATCCGGCGTGTATCTCGAAGGCGACAGGACATACCCCTTATATCCTGGGGTCGCTTTCTGTACCCATCCAGGTCAGCTGCATCAGATCAAGGACGTTCACGATCTCAATCTGTTGTTCGTGGCATATGACGCGATGGAGAAACCATCAGCCACCGATGTTACGGCGGCATATTTGGAAGCGCTTCGTCGATGCGCCGTTTGGACCGAGTTTGCCAGTGAATCGCCGGCCATCCAATTATGGAAATCCATGCTGGTGCGTTCGGAAGCCGAAGACTCGCTGCCTGCTTCGCTTCTGCCCAAACTCGCGCATGCGCTGCTCGAATCCTTCCCTGCCCTGTTCGGGGCTGCCCGCAACCTCGATGCGGCTCCGAGCTACTCAACCACGGTGCAGCTTGTCCAAAGAGCAAAACTGTACATTCGAGACAATCTAAGCGGACCATTATCCTTGCCGGAAGTGGCGACATACCTCAACGTGTCGGAGCGGCAGTTGTCCCGCTTGCTTGCGGGCAGCATCCATGAATCCTTTTCTTCCATGGTTCGCACCGAGCGGATCCGGGCAGCCGAGCTTCTGCTGCAGCAAACCCATGATCCCATCAAGCTGATTGCGGAACGAACCGGATTCTCTTCCGTTCATTACTTCACAAGGCTGTTCACCCAATTCAAAGGCATCTCTCCGGCGGCTTATCGTGCCAAATGGTTCTTAGGGGCGGATCATTGA	MYHWSKSEERLNRYAGRLEGESLSFLVHYWGTVRHLTANSLHRHSFVEICYVHGGSGVYLEGDRTYPLYPGVAFCTHPGQLHQIKDVHDLNLLFVAYDAMEKPSATDVTAAYLEALRRCAVWTEFASESPAIQLWKSMLVRSEAEDSLPASLLPKLAHALLESFPALFGAARNLDAAPSYSTTVQLVQRAKLYIRDNLSGPLSLPEVATYLNVSERQLSRLLAGSIHESFSSMVRTERIRAAELLLQQTHDPIKLIAERTGFSSVHYFTRLFTQFKGISPAAYRAKWFLGADH				NA	NA	NA	NA	NA
AK002_02819	783	ectD_1		Ectoine dioxygenase	ATGATTGACGAGAAGGATGTGCAATTTTACAAAGAGAATGGGTATTTGCTGGTCCGGGGCGTTTATAATCAACAGGAAGTCGAAGATATGCGAACGGCCGTTGAAGGGATCATCCAAAGGGCGGCACGCGCCAAATCGGATCAAAACCATGCATGGCAGGGCGATTTCCTGCCGCCTGAACAGCTTAAGAAGCTGGTTCTGAAAGGATTTCACGACGTGCAATATCATGATGCCGCTTTCATGCGTGCCGCGATCCATCCTCGAATGACCGAAGTGCTGAACGGGATCATCGGACCGAACGTGCAGCTGCATCACTCTAAAATGCTGGTTAAGCCCCCATCTAACGGGGCCGCATTCCCCATGCATCAGGATTATCCGTATTTCCCTCATCGGGATCACACGATGCTTGCTGCCAGCGTTCATCTCGACGACGCCGATATGGAGAACGGCTGCCTCTGCGTCGTTCCCGGCTCTCATAAGCAGGGCGTATTGCCGCATGTCGGCGCTTACTATTTGAACCATAAAGAGCATCCTTTATCTTCGGGGACTCCATGTCCGGCCAAGGCAGGCGATGTATTGTTCTTCAATTACCTGACCATCCATGGGTCGGACGTGAACCGGAGCGAGCGTACGCGCCGAAACATCCTGTTCCAATATCGCGATGCTTCGGATGTGCCGACCGCGGATGTTCACTTCGATTGGGGCATGGGCTTAATGGTCAGCGGAACCAACCCGGATTTTAACAATGTGAAGCCGAAGTATGAAATCATCAGTGCGAAATGA	MIDEKDVQFYKENGYLLVRGVYNQQEVEDMRTAVEGIIQRAARAKSDQNHAWQGDFLPPEQLKKLVLKGFHDVQYHDAAFMRAAIHPRMTEVLNGIIGPNVQLHHSKMLVKPPSNGAAFPMHQDYPYFPHRDHTMLAASVHLDDADMENGCLCVVPGSHKQGVLPHVGAYYLNHKEHPLSSGTPCPAKAGDVLFFNYLTIHGSDVNRSERTRRNILFQYRDASDVPTADVHFDWGMGLMVSGTNPDFNNVKPKYEIISAK				NA	NA	NA	NA	NA
AK002_02820	1749			hypothetical protein	ATGAAACTTCAGGCTGCGGGCAAAGCATCGAAATGGTTTGTTTATCAAAAAATCGTCATCGTATTTATCGTATTGTTACTTCCTCTCATCTCGATGAATATTTGGTTGAATTATAAGGGGATGTCCGTCACCAAGGAGTCTATCTTGAACTCCGCGGCCGCGGGGGCCTCCTTCTATTCCAAGCAGCTCGATAAAGAAATGTATTTTATCCGGAATCTGCAGCTGCAGCTGTTAAATGACAAGGATCTGCAGAAGCTTAGTTTCCGAGGCAGCATGCTTGAGGATTACGAAGAGGTGGAGCTCATCGACCAGGTCAGGGATCGGCTGGCAACCTTGATGGTTTCCAGCGAATATGTCGTGAGTGCCGGCGTGTACGTGAAGGATGTCGGGAAAACGATCTCGACCACGACGGGAGTGACCAATACCCCGAACAAGGAAATGGAACGGATATCGTCCATGATGGCGGTCATGCCCAAGCCTTCATTCTATAGGAGCGGCGACCGGATCTTTCTGATCGAAACCGAAAACAACGGGGCTGTCTGGTCATACATCGAGATTTCCCGGCCTAAGCTGCTCGGGGCTTTAAGCGAAATCGCCAAGCTGTATCCGGAATCCGAAGTCCTTCTGGGGAGCAGGGAAGGCAGCACCATCTTGACGACGGCGCCTGCGGCCGATGAGTCAACAGAGATCTTGAATCATGTCCTGGACAAGCCGGATACGGATCGAAATGCGCCGGAGACGGGGGAATTGGGAGGCGTAGACTATTTTATCATTCAGAATGAAGTCGGCTCGCTGGACCTGTCCTTGGTCATGTACGTGAATCAGAATGAAATTACCCGCCCCATAAGCCAATTCATTACCTGGTTCTATACGCTGTTTATCCTCGCCGTGATTGTGATGGTGCTCTATTCGTTCTCGGTCAATCTGATGATCCACAGGCCTTTGTCCAAGCTTGTTAAAGCCTTTCATATGATCGAAACCGATAATTTGAATATCCTGATCGAGTCCAGAACCAAGGATGAGTTTCATTACGTGTTTAACGGTTTCAACAGGATGGCCTTGAAGCTTAAACAGTCGATCGAAGAAAACTATGAGCAAAAAATAGCACTGCAGCACTCGCAGCTGAAGCAGCTGCAATCCCAGATTAATCCGCATTTTTTATATAACAGCTTTTTCAATGTGTATATGATGTGCAAGGTCGGAGATTCGGATAGTGCGGCGGAGCTCTCGCAAAAGCTCGGCAGCTATTATCAATACATCACGAGAAGCGGCTCCGACGAGGTGCCTTTTTATACGGAATACAAGCATGCTCTGGATTACTGCGACATACAGGGCATTCGCTTCTCGAACCGGATTTCGTATGAGCATAGGGAATTTGCGGACATTCCCCAAGGTATCACCGTACCGAGACTTATTGTTCAGCCTATCGTGGAGAATGCGTTCGAGCATGCATTCGAGGATGGCATGGAGGAAGGCATGCTGTACATCAGCGCTGATTATCGGGAGGGCAGACTGCGTATCACGGTGGAGGACAACGGGAATTTGCTTACGAATGAGATGCTGCAGCGTCTGCGCGGCAAGCTTGCCATGGATTCGAAGCATGTGGAGCAAACCGGATTGGTCAACGTGAACAACCGGCTTCAGCTCAAGTATGGGCCCGGCAGCGGATTATCCGTCTCGCGAAGCGTCCATGGCGGTTTGAAGGTGGATTTGATCATTATGATTCATGAATCAGAGGAGGCATCGTGA	MKLQAAGKASKWFVYQKIVIVFIVLLLPLISMNIWLNYKGMSVTKESILNSAAAGASFYSKQLDKEMYFIRNLQLQLLNDKDLQKLSFRGSMLEDYEEVELIDQVRDRLATLMVSSEYVVSAGVYVKDVGKTISTTTGVTNTPNKEMERISSMMAVMPKPSFYRSGDRIFLIETENNGAVWSYIEISRPKLLGALSEIAKLYPESEVLLGSREGSTILTTAPAADESTEILNHVLDKPDTDRNAPETGELGGVDYFIIQNEVGSLDLSLVMYVNQNEITRPISQFITWFYTLFILAVIVMVLYSFSVNLMIHRPLSKLVKAFHMIETDNLNILIESRTKDEFHYVFNGFNRMALKLKQSIEENYEQKIALQHSQLKQLQSQINPHFLYNSFFNVYMMCKVGDSDSAAELSQKLGSYYQYITRSGSDEVPFYTEYKHALDYCDIQGIRFSNRISYEHREFADIPQGITVPRLIVQPIVENAFEHAFEDGMEEGMLYISADYREGRLRITVEDNGNLLTNEMLQRLRGKLAMDSKHVEQTGLVNVNNRLQLKYGPGSGLSVSRSVHGGLKVDLIIMIHESEEAS				NA	NA	NA	NA	NA
AK002_02821	1344	rhaR_28		HTH-type transcriptional activator RhaR	ATGTACAGACTGTTGATCGTGGACGACGAGCCCGTCATCGTGAACGGCTTGGTTCAGCTTTTTCAGGAACAAACGCAATTCGACCTGGATGTATGGAAAGCCTATTCCGCCAAGGAAGCGGTGGAGATCGCCATGAGAGTGAAGCTGGACATCCTGGTCAGCGATATACGAATGCCCCATAAGAACGGGCTTCAGCTGATTGACGAAATTACGTACTATTGGCCGCACTGCCGGATCATTTTTCTGACCGGTTACAGCGAGTTTGAATATGTGCATGAAGCCCTGCGCAAGAACGTGGATAACTACATCCTGAAAACCGAAGGGATCGATCCGATCTTTCATGCTGTCCAAGAGGCTTCCTCCAGGCTGGATGAAGAGAACCGACGCAGAATCCAGGCAGAAAAGGCAAAGATGCATTTTCAAATGGCCGAGCCTCTGCTCAAGCGCGAACTCATACAAAAGGCATTGAAAGGGGAAGCCCTGAGTTCCCTGTTGTCTCAGCCCCGTTATGAAGAGGTGGGGTTCGGTATCGACGCAGATCGGCCGGCATTCCTTCTCGTTGGAAGGATCGGAATGGCCCCGGAGGCCAAGGCGAAGAATGCGGTGCAAGCCGTTCAGATGATGTTTATCAACGACCTGCCCAGCTCGTTTGCCTGCGAGCATGTCGTACTGGATGAAGACTTGCTGGTATGGCTGCTGCAGCCGGGCGAGGAGCTTCTGGACCGTTATCGGAGGTTTGAGCCGGAAGATGTGCTTCATTGGCAGGGCATGATGTCGTATATGAGGGGTATCCTGGAGCAGGTGCAAAATGAGTGCGAAGAGCTGCTTGGCGTTCAGGTTTCTTTCGGGATATCGGGCAATCTTCTGCACCAATGGAACACGGCGGGAGAGCAGCTGCATGCTTTGCGGACCATGCTGCTCAGCAGGGCGGCGCTGGGACAAGAGATGGTCGTTGCCGATATCGAAAAGGCAAAGGAACACGAAGCGATGATACATGGAAACAGCCAGCTGAGGCAGGATGACATGAAATTCGATGTGATCGACCGGATTCACAGGTACATATTGGAGCATTTATCCGGGGACGTCTCGTTGACCGCCATAGCGGAGGAAGTGCATTTTAACCCATCCTATCTTTCGCGCTACTACAAGCAGCTGACGGGTCAAAATCTGCTGGAGTATATTCAGGCGAAAAAGCTGGAAGGGGCGCTTCATCTGATGCAGCATACGAACATGAAATTACAAGAGATTGCCGTGCGGCTCGGGTTTGAATCCCCGTCGTATTTTACGACGTTTTTCAAGAAAAAGATGGGCGTAACCCCGCAGGAATACCGAAATACCCAATAA	MYRLLIVDDEPVIVNGLVQLFQEQTQFDLDVWKAYSAKEAVEIAMRVKLDILVSDIRMPHKNGLQLIDEITYYWPHCRIIFLTGYSEFEYVHEALRKNVDNYILKTEGIDPIFHAVQEASSRLDEENRRRIQAEKAKMHFQMAEPLLKRELIQKALKGEALSSLLSQPRYEEVGFGIDADRPAFLLVGRIGMAPEAKAKNAVQAVQMMFINDLPSSFACEHVVLDEDLLVWLLQPGEELLDRYRRFEPEDVLHWQGMMSYMRGILEQVQNECEELLGVQVSFGISGNLLHQWNTAGEQLHALRTMLLSRAALGQEMVVADIEKAKEHEAMIHGNSQLRQDDMKFDVIDRIHRYILEHLSGDVSLTAIAEEVHFNPSYLSRYYKQLTGQNLLEYIQAKKLEGALHLMQHTNMKLQEIAVRLGFESPSYFTTFFKKKMGVTPQEYRNTQ				NA	NA	NA	NA	NA
AK002_02822	1722	lipO_14	COG1653	Lipoprotein LipO	ATGAAATGGACCAAACTAGCGAAAATGATGTTGATTAGCACGATGACGCTCTCGGTAATGGCGGCATGCTCGAATCAGGGGAACGAATCGGAGGGGACACCGAACAAAACCTCTGCCGAGGAGGCGAACTCCAATACGCCGCCGGATCCTCTCGGCAAATATCCTGAAACGGTAACGGTCACGCAAGTGCTTGGCTACAATCCGCCCGAGGACCCGCGGACGCCGCAAGGGATTACGCCCGAACAGAATGCTTACTTCAAAGACCTCAAAGACATGCTGAATATTGAAGTCCAGTACAAATGGACGGTGCCTTCCAGCCAGTTTGAGCAAAAGTTTTCATTAGCCATGGCTTCGGCCGACCTGCCGGACATTATGGAGCTGGATCAGAAGAACTTCGAGAAGCTGAAGAAGCAGGACATGCTTGCCGATCTCACCCAAGCTTATAACGACTTCGCTTCGCCGGCACTGAAAAAATACATGGAATCCGACGGCGGCTTTGCGATGAAGACGTTTACCTCAGACGGTAAGCTGCTCGCGATTCCCGGTTTCGAGGATCCGTTCCTGTCCACTCAGCTGCTCTGGATCCGCAAGGACTGGCTCGATAACCTGAAGCTGCAGCAGCCGAAAACGATGGATGAGCTGGAGCAGGTTGCTAGAGCCTTTGTGCAGCAGGATCCCGATCAAAACGGCAAAAACGACACCTACGGTATCGCCATGCAAAAGAATCTGTTCTTTTGGGGCTTTGACCTGAGGGGCTTCTTCAATGGATTTGGCGCGTATCCTTCCATCGGGGACAATCAATCGGCCTGGATCAAGGACGACAGCGGCAAGCTGATCCCCGGGCTCATACAACCGGAAGTCAAGACCGCGCTGGGCAAGCTGCAGTCCTGGTACAAGGAGGGAATTCTGGACAAAGAATTCGCCTTGAAGGACGAGAACAAGTCCGTTGAAGATATTACGGCAGGCAAGGTGGGTATTTCTTACGGGGAATGGTGGTATCCGAACTGGCCGTTGAATCTGAATGTTGACAAGGATCCCAAGGCAGACTGGATTGCCCTTCAGATTCCCGGACTCGACGGGCCGGGCAAGTCCATGGTTCCCAAAATCCGCAGCAACAAACTCGTGGTCGTGAACAAAAAAATGAAGAATCCGGAAGCCGCAATAAAAATGATCAACTTCTACATAGAGATGGGCAACAAGAAATACATGGACCAGAATAAAGCGGAAAAAGGATACGTCTATAATTGGTTCAACCCACGGATCTATAATCCGGCTCAAATCGAAACGATCTACACGGAAGTAAACAAGGCTCTCGACGCAAACCAAACGGAAATCACGCTGGATGACGAAAACTACAAAAATGTGGCGGACGTCTTCAAGGCGGCAAAGGATTATCTTGCAGGCAATACCGCGAATGCCTCGAAAGGCGTAAACTGGGGCCAATATTTCAGCCGGGCGGCGAAAGACGGCGGCTGGGGCATGACGCGGCAAATCAAAGAGAATCAAGCTTACGTAAATAACGAGTTCTACGGACTGCCAACGGCAACTCAAGTCGAGAAGGGCTCCCAGCTTGATAAGCTGATGCAGGAAACCTTCACCAAGATCGTCATGGGGGCCTCGCTGGACGAATTCGATAAATTCGTTCAGAGCTGGAAATCGCTGGGCGGGGATCAGATCACCCAGGAAGTCAATGATTGGTACGGCCAGCAGGGCGCCAAGTAA	MKWTKLAKMMLISTMTLSVMAACSNQGNESEGTPNKTSAEEANSNTPPDPLGKYPETVTVTQVLGYNPPEDPRTPQGITPEQNAYFKDLKDMLNIEVQYKWTVPSSQFEQKFSLAMASADLPDIMELDQKNFEKLKKQDMLADLTQAYNDFASPALKKYMESDGGFAMKTFTSDGKLLAIPGFEDPFLSTQLLWIRKDWLDNLKLQQPKTMDELEQVARAFVQQDPDQNGKNDTYGIAMQKNLFFWGFDLRGFFNGFGAYPSIGDNQSAWIKDDSGKLIPGLIQPEVKTALGKLQSWYKEGILDKEFALKDENKSVEDITAGKVGISYGEWWYPNWPLNLNVDKDPKADWIALQIPGLDGPGKSMVPKIRSNKLVVVNKKMKNPEAAIKMINFYIEMGNKKYMDQNKAEKGYVYNWFNPRIYNPAQIETIYTEVNKALDANQTEITLDDENYKNVADVFKAAKDYLAGNTANASKGVNWGQYFSRAAKDGGWGMTRQIKENQAYVNNEFYGLPTATQVEKGSQLDKLMQETFTKIVMGASLDEFDKFVQSWKSLGGDQITQEVNDWYGQQGAK	PGPT0017245_336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02823	891	yteP_24	COG4209	putative multiple-sugar transport system permease YteP	GTGAGAACGCTGAAAAAAGAATATTTACTGCATTTGATGCTGCTGCCGGGAGTCATTGTCACGTTGATTTACGCATACGGGCCCATGGCCGGCCTTGTGATGGCTTTTCAGCAATTCGAGCCGCTGGCTTGGTTCTTCCGCTCGGATTTCGTCGGTTTCGATAATTTCCGCTATGTCTTCGAACTGCCCGATTTCAAGCAGGTTCTGTGGAATACCATCGTGATTTCCGTATTCAAAATGGTTTTGTTTCTACTGGTGCCCCTGATATTGGCACTGCTCCTCAACGAAGTCACGCGAAGATGGTTTTCGCGCTTTATCCAATCCGCCATCTTCCTGCCGTTCTTTCTGTCCTGGACCGTGCTCGGCGGCGTCATCATCGAATTGTTCTCCTTGAATGGTCCGGTGAACGGCCTTCTGGGCGCGCTCCATATGGAACCGATCATGTTCATGCTGGATAATAACTGGTTCCGCGGGATCGTCATCGGATCGGATGTATGGAAAGGGATGGGTTACAACATGATCGTCATGCTTGCAGCCATCACCGGAATCCATGCGACGCTGTATGAGGCAGCAGAAGTAGACGGAGCCGGAAGATGGAAGCAGATGATTCACATCACGCTGCCGGGCATGGCGCCAATTCTCATTTTGCTTGGCGTGTTGAGCCTTGGCGGCATTCTTAACGCAGGTTTCGAGCAGATCTTGATCATGTACAACCCGACGGTTTATGAAGGGGCGGATATCATTGATACCTTCGTTTATCGACTGGGCATGTTCAGCCAGCAGTTCGGTCCTGCCGCCGCCGTCGGTTTCTTTAAATCCGTCATCTCTCTGGCGCTCGTGGCCGTGACGTACTATGCGGCTTACAAATATAACAATTATCGGATCTTTTAG	MRTLKKEYLLHLMLLPGVIVTLIYAYGPMAGLVMAFQQFEPLAWFFRSDFVGFDNFRYVFELPDFKQVLWNTIVISVFKMVLFLLVPLILALLLNEVTRRWFSRFIQSAIFLPFFLSWTVLGGVIIELFSLNGPVNGLLGALHMEPIMFMLDNNWFRGIVIGSDVWKGMGYNMIVMLAAITGIHATLYEAAEVDGAGRWKQMIHITLPGMAPILILLGVLSLGGILNAGFEQILIMYNPTVYEGADIIDTFVYRLGMFSQQFGPAAAVGFFKSVISLALVAVTYYAAYKYNNYRIF	PGPT0017250_2749	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02824	888	lacG_4		Lactose transport system permease protein LacG	ATGCATAAACCAACGATCAGCAGAAGGCTGTTTGTAATCACGAATACGCTGGTGCTGTCCCTCATCACCTTGCTCGGTATCATTCCGTTCATTCATTTGCTCTCGATTTCGTTAAGCTCGAATACGGCCGCAATGGCGGGAGAAGTGAGACTCTGGCCCGTGGGCTTTAACCTGGACGCTTACCGGTACTTGGGCGAAAAGGTAGAGTTTTTCCGTTCGTTCCGCGTCTCGCTAACCCGGGTCGTGTTGGGGACGGCAGTGAATATGCTTCTGGTATTCATTACAGCGTACCCATTATCGAAATCGAATCATCAATTTAAGTTCCGTACGCCGTACGTGTGGTTTTTTGCCATAACGATGTTTTTCGGCGGGGGATTGATTCCCACGTACATGGTCGTGAAGAACACCGGACTCATCGACTCCGTGTGGGCTTTGATTCTGCCCGGAGCGCTTAACGTATGGAACATGGTTCTGATGCTGAACTTCTTCAGGACCATCCCGAAGGAGCTGGAAGAGGCGGCAACGATTGACGGTGCGGGACACTGGAGAATATTATGGCGAATTTACCTGCCGGTTTCGCTGCCGTCCATTGCGACAATCGGTCTGTTCACCATCGTGGGGCACTGGAATGCTTGGTTTGATGGTATTCTGTACTTGAATTCGCCGGAAAAATACCCGCTGCAAACCTATTTGTCCACCCTCATTATGTCAATCAATTCCCAAATGACCTCGATTTCGATCGAACAGATCAAGGCGATGGAGAATTTGAGCGAAAAAACGCTTCGAACGGCCCAAATCTTCATGGGCGCACTGCCGATCATGGTCGTGTATCCGTTCCTGCAGAAGTATTTTGTCAAAGGGATGACGGTCGGAAGCGTGAAAGAATAA	MHKPTISRRLFVITNTLVLSLITLLGIIPFIHLLSISLSSNTAAMAGEVRLWPVGFNLDAYRYLGEKVEFFRSFRVSLTRVVLGTAVNMLLVFITAYPLSKSNHQFKFRTPYVWFFAITMFFGGGLIPTYMVVKNTGLIDSVWALILPGALNVWNMVLMLNFFRTIPKELEEAATIDGAGHWRILWRIYLPVSLPSIATIGLFTIVGHWNAWFDGILYLNSPEKYPLQTYLSTLIMSINSQMTSISIEQIKAMENLSEKTLRTAQIFMGALPIMVVYPFLQKYFVKGMTVGSVKE	PGPT0017255_1701	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02825	1287	iolG_11		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAATAAAGTAAAGGTCGCCCTGATCGGTGCCGGGCTGCGGGGCATCAATTATTTGGAATATGCCCTGCAGCATCCCCATGAGCTGGAGGTGGTTGCGGTCGCAGAACCGAATCGGCAGCGGAGGGAACAGTTTCAAGCGAGGCATGGGCTTGAAGACGCGGCATGCTTCGAGAACTGGAATGATTTTTTTACAGCACCCAAGGTCGCGGACGCCGTGTTCATATGTACCCAGGATAAGCAGCATTTCGAGCCGACAATGCGGGCGCTTGAGGCCGGCTACCATGTGCTTTTGGAAAAACCGATGTCTCCGGATCCCGAAGAATGCATCCGGATGGGTGAGATGGCTTCGCAGGCCGGTTTGGTATTTTCGATCTGTCATGTGCTTCGGTACGCGCCGTTTTTTTCCACCATCAAGGAGCTGCTGGAGCGAGAGGCTATCGGCCGATTGATGTCGATTCAGCATAACGAGAACGTGGGTTATTGGCATCAGGCGCACAGCTTTGTGCGGGGGAATTGGCGGCGGACGGAAGATTCCAGCCCAATGATACTGGCCAAGTCCTGCCATGATCTTGATATGCTGCTCTGGCTTGCCGATTCGGATTGCGTCCGGGTGTCCTCCTTCGGCTCCTTGAGCCATTTTACGGCTGCACAGGCACCGGAAGGCGCACCGAAGCGCTGTTTGGACGGATGTCCGGTCTCGGATGAGTGCCTCTATTATGCACCTGATCATTATTTGACCGAGGACACGAATTGGCCGACCTCGGCGATCAGCGACGATATGAGTTATGATGCCCGATATCAAGCGCTGCTGGAGGGGCCGTACGGCAGATGCGTATACCATTGCGACAATGACGTGGTGGATCATCAGGTCGTCAATATGGAGTTTGCCAACAGCGTGACGGTCGCCTTCACGATGAGCGCGTTTACGCGAGATGTCAGCCGCACGATTAAGCTGATGGGAACCCGCGGGGAAATCCGCGGAGCCATGGAGAAGAACGAAATAGAGATCATTCACTTTGGCAGCGGGAAGGTCGAGCGAATTTCTTTTGCGGACCGGGGCGGCCATGTCGGCCACGGCGGAGGAGATATGGGTCTGATCAAGGATTTTCTGAGATTGGTGCAAACGGGAGGAAACAATCAAGGACTTACATCGGCAAGCCGTTCCGTTCAAAGCCACCTTATGGCATTCGCGGCTGAACAGTCGAGAGTGGATGGAAGGATCATCAATCTAAATGAGTTTGCGCAGCAGTTCAGCGAGCCGATCAGAACGATGTCCGGAAATTAA	MNKVKVALIGAGLRGINYLEYALQHPHELEVVAVAEPNRQRREQFQARHGLEDAACFENWNDFFTAPKVADAVFICTQDKQHFEPTMRALEAGYHVLLEKPMSPDPEECIRMGEMASQAGLVFSICHVLRYAPFFSTIKELLEREAIGRLMSIQHNENVGYWHQAHSFVRGNWRRTEDSSPMILAKSCHDLDMLLWLADSDCVRVSSFGSLSHFTAAQAPEGAPKRCLDGCPVSDECLYYAPDHYLTEDTNWPTSAISDDMSYDARYQALLEGPYGRCVYHCDNDVVDHQVVNMEFANSVTVAFTMSAFTRDVSRTIKLMGTRGEIRGAMEKNEIEIIHFGSGKVERISFADRGGHVGHGGGDMGLIKDFLRLVQTGGNNQGLTSASRSVQSHLMAFAAEQSRVDGRIINLNEFAQQFSEPIRTMSGN				NA	NA	NA	NA	NA
AK002_02826	540			hypothetical protein	TTGAAATATCTGAAAGATGTCCAGGAACCGGGAATGGGGACCTGGTATTTTGAAGTGGATCTCGACGGAACGGCTTACAGGCAGATGGTTCATGAAGAGGACGGCAGCTGGATCACGTCGAACCGAAAGCATGAGTCCCGTCATTTCTTGCTGGCGGAGCATCCACTTGATCCGAAAGAACCCTATTATGAAGAAATCAGTCAAGCTGCATTCGAAGAGCTCTGGCAGAAGCAGCTTCTTGCCGGGATGGAGGACTGGCAGCGGATCCAGCGCATGTTTCCTATCGGCGCACGAGTAGAAGGCAGGATCGAGGCCTTTTTTCCGCAAGGCACTTTGATTCATTTGCTAGAGCCGCATGCGGTCGGTTTGACGGACACCTCCGCTCTGGAAGCCGGTACCCCTCCCGAATGGATGTACCCTCGATATCGTGTGGTTGCCGAGGTATCCGGTTACGACCAATCCAATCAATGGGTTCTTCTTGCCCATGCAGAAGTTCTGGGAAGTCAGGATGACGAAGCTGAATCCGGTCAAGTAATATAA	MKYLKDVQEPGMGTWYFEVDLDGTAYRQMVHEEDGSWITSNRKHESRHFLLAEHPLDPKEPYYEEISQAAFEELWQKQLLAGMEDWQRIQRMFPIGARVEGRIEAFFPQGTLIHLLEPHAVGLTDTSALEAGTPPEWMYPRYRVVAEVSGYDQSNQWVLLAHAEVLGSQDDEAESGQVI				NA	NA	NA	NA	NA
AK002_02827	1158		COG3424	Alpha-pyrone synthesis polyketide synthase-like Pks18	ATGAAGCAAACAAACGGTAGATCCGATGTCGCGATTCTCGGGATGGGCACGGCATTGCCGGTGCATTCCGTAGCTCAGTCGGATATCGCAGAATTAATCGCATCCACGCTGCAGGACAGACCCGATCTGGCCCGCTTTGCCCGAAGAGTATTTCGATCCTGCGGAGTCGAAACTCGTTATACTTGCGAATCCAACTATCTGGATCCCTTGGAGAAGTGCCGATATTTGCATTCCCATGACGCGTCCGTCATTCCGACAACCGAAGAGCGTATGGATACATATAAGAGAGAGGCCCTCCCGCTTGGCGTGGAGGCTGCCGAGAAGGCATTGAAAGATGCCGGCATGTCTCCAGATCGAATTACGCATCTCATTACGGTCAGCTGCACGGGTCAATACCAGCCGGGGATGGATGTTCTGTTGATTCGGAAGCTGGGGCTTTCACCGCGGGTCAATCGCTTGCCATTAATCTTCCAAGGCTGTGCCGCTGGTCTTAAAGCAATCCAAATGGCGCGGGATGTTGTGAGTGGAGCGCCGGGTTCGCACGCGCTGGTCGTGTGCGTCGAGCTTTGCACGCTTCACTTCCAGCCGGTTCGGGAGAGGGAAGCATTGTTTGCGGCCTCATTCTTCGGCGATGGTGCCTCGTCCTGTGTCATCGGTCAGCCGGAAGCAGAGCATCAGCATTATGTGGAGCTCGGCACGGGATATTCCATCCTGCTCCCGGATTCAACGGAGGATATGACGTGGGAGGTAGGCAATACGGGCTTTGATCTTTTCCTGTCGCCGCGTATTCCCAAATTGCTTGGTACTCATCTGGAGGATGAGCTTCGTGTTCTGCTGGGAGGCGACAAGCTTCCGGAATTATGGGCGATCCATCCGGGCGGCCGGGGCATCGTAGATTCAGTGCAGGAAGTAATGCGCTTGACCGACGAGCAAACCAAATACAGCCGGGAGATTCTAAGAACGGCAGGCAATCTTTCCTCCGTGACGATTATGTTCGTGCTGAACGCGATGCGCCAGAAGATGAAAGAACGGAATGAAGCTTCGACGGAAGGAGTAGCCATGGCTTTCGGACCTGGCTTAACGGCGGAGCTTATGCGTTTTACCTATGTAAAGGCTTATGCGCCAACGGTTAAGGAGCAGGACCATGTCCTTCTTTAG	MKQTNGRSDVAILGMGTALPVHSVAQSDIAELIASTLQDRPDLARFARRVFRSCGVETRYTCESNYLDPLEKCRYLHSHDASVIPTTEERMDTYKREALPLGVEAAEKALKDAGMSPDRITHLITVSCTGQYQPGMDVLLIRKLGLSPRVNRLPLIFQGCAAGLKAIQMARDVVSGAPGSHALVVCVELCTLHFQPVREREALFAASFFGDGASSCVIGQPEAEHQHYVELGTGYSILLPDSTEDMTWEVGNTGFDLFLSPRIPKLLGTHLEDELRVLLGGDKLPELWAIHPGGRGIVDSVQEVMRLTDEQTKYSREILRTAGNLSSVTIMFVLNAMRQKMKERNEASTEGVAMAFGPGLTAELMRFTYVKAYAPTVKEQDHVLL				NA	NA	NA	NA	NA
AK002_02828	714			hypothetical protein	ATGTCCTTCTTTAGAACGCTGTCCATCCGGGCACAAGAAGATGAGCTTATGGATGACTTCTCCATGGGCGGAGAAGAGCTGAGCGAAGCGCTCCGGCATTTAAGGCGGTTGAATCGCATATTCGCGGCACCGGGCCCGACCTTGGACGGCGTGGTGAAGCTCTGGAAAACGATCGGCTGTCCGTATACCCTTAGCATCATGGATGTTGGCGCGGGTTCCGGCGATGTGAACCGGAAGCTGCTCCAATGGTCGGATCAAATGGGCGTGGAGCTGAGCATTACCTTAGTCGATGTGACGGAAGAAGCCTGCGAAGAGGCGAGACGGCTGTTTCGTCATGAACCGAGGGTTCATGTACGTCGCGCGGACGTTAAGGAACTGCCTGATGCGTCGGCTGATATCGTGACCGGATCCCAGTTCATCCACCATTTTCAGGGACAGCAGCTCATGGAGATCGTGTCGCATATGCTGCGAACCTCCGTTCATGGCGTCGTCATTAACGATATCCATCGGCATCCTGTGCCTTACGCGGCCGTCTGGATCACAACGCGTCTCATCTCACGCAATCGTTATATTCGTCACGATGGGCCGTTATCGGTTGCCAAGGGGTTTAAAGGGAGAGATTGGAGAGAACTGAAAGAGCAGCTTAATCACGCCACTTTGACCTATCGATGGAAGCCATTGTTCCGCTATTCCGTTGTTATCCCAAAACGATAG	MSFFRTLSIRAQEDELMDDFSMGGEELSEALRHLRRLNRIFAAPGPTLDGVVKLWKTIGCPYTLSIMDVGAGSGDVNRKLLQWSDQMGVELSITLVDVTEEACEEARRLFRHEPRVHVRRADVKELPDASADIVTGSQFIHHFQGQQLMEIVSHMLRTSVHGVVINDIHRHPVPYAAVWITTRLISRNRYIRHDGPLSVAKGFKGRDWRELKEQLNHATLTYRWKPLFRYSVVIPKR				NA	NA	NA	NA	NA
AK002_02829	1152	menJ	COG0644	Menaquinone reductase	ATGTCAAAGCAAGCCGATGTGTTGGTCATCGGCGCGGGAGTTGCCGGTACGAGCTGTGCCCTGCAGCTTGCCAAGCAGGGGCATCGTACGATCCTGCTGGATCGCCAATCCTTTCCGCGCCACAAAACCTGCGGCGAATTCATGTCCCCAGAGACCCGAGAGATGCTGGAATATCTGGGTGTCCATCTTCAAGTCCAGGAGGTGAACCCCGCTGCGATGGATCATGCCTCAATCGTGATGCCTCATGGCGGCGTCATCACCGCACCGTTACCGGGTAATGCCACCGGCATCAGCCGTTACGAGCTGGATCGCCTATTGCATGAGAATGCCTTGAGCGCGGGTGCGGAGATTGTAACGGGGTCTACCGTGACCGAGATCCGGAAGCGGGGCGATCAACGATATGAAGTCGAAACGAGGCAAGGGAACGAGCAGGTTCGGTATGAGGCAAGAGCCGTCATTGGAGCCTACGGAACTAAGAAACCGCGCGGTGTTGCTTCAGCCGAAACATATCGCGATGATACCGTGTATGTCGGCGTAAAGTCGCATTTTGCCGGCATCACAGTGCCTTCCAGGGTAGAGTTGTATTTTTGCGAGGGCGGTTATGTCGGGATATCGCCGGTCGAGAATGGGAAGGTCAACGTGGCTGCATTGCTGACCTTGAATTCGGTACAAGGAAGCGGCAAATCGGTACCCGAAATTCTCAAAGCCGCATCACGCTCGAACAACAGGTTAACTGAACGGTTGGCTGAAGGAGAGCCGGTTGAGGGCACCCAGGTATCGATCGCCCCGCTTCGTTTATCCGACAGACCGGAACCGTGGTCGCAATATCCGCACATCGGCGATGCCATGCTGATGCTTCCGCCGCTTTGCGGAGACGGAATGTCGGTTGCCCTGCGTTCATCTCTGCTGTGCTCCGGCTGGACCGACAAATATTTAAACGGAGAAATCAACTTCGCTCAATGGCAAAATCAGTACACGCACGAAGCCAATCGCACCTTTGCGCAGCTGCTTCGAAGGGCGAGAAGAATTCAGAATCTGGCTTTTGCCAAAAGCAATCGCTTCTATCCCGGTATCGTACGGATGATCCCCGGACTGGCTTCCTATATCGTCAAAGCCACCCGTTTATCCGAATCGGGCATGGGCACCAGATAG	MSKQADVLVIGAGVAGTSCALQLAKQGHRTILLDRQSFPRHKTCGEFMSPETREMLEYLGVHLQVQEVNPAAMDHASIVMPHGGVITAPLPGNATGISRYELDRLLHENALSAGAEIVTGSTVTEIRKRGDQRYEVETRQGNEQVRYEARAVIGAYGTKKPRGVASAETYRDDTVYVGVKSHFAGITVPSRVELYFCEGGYVGISPVENGKVNVAALLTLNSVQGSGKSVPEILKAASRSNNRLTERLAEGEPVEGTQVSIAPLRLSDRPEPWSQYPHIGDAMLMLPPLCGDGMSVALRSSLLCSGWTDKYLNGEINFAQWQNQYTHEANRTFAQLLRRARRIQNLAFAKSNRFYPGIVRMIPGLASYIVKATRLSESGMGTR				NA	NA	NA	NA	NA
AK002_02830	546			hypothetical protein	ATGCAGGACAAAAATACGGCTAAACCGCCTTGTATCCTTCGAAACACCCTTGATTTCCAGTTCCAAATCGCTTGGCAGATGCTAGATTTGCATCTCACGGGCCTTCAGGACGAGGAGTTTTTTTGGCGGCCTGCCTCGAAGGGGCTTCATGTTTATCGAGAATACGGAATCTGGCGCGCGGAATGGCCGGAATCCGAGGAATACGATATCGGCCCGCCCAGCATATCCTGGTTGACATGGCATATCACCTACTGGTGGACGATGGTGCTGAACCATTCGTTCGGAAACGGGTCGATGACCCGCAACGATATCCATTCTGCTGGGAGCATTCAAGAGGCCAGAGAGCGGATTAACGATTTGAGACTGCGATGGGAACGTGAAGCGGCGGCGTTGACGGACGATGCGTTTCTTTCGACGGAACGAACCATGTGGCCTTTCACGGATCAACCCTTTCATAAGCTGGCGGCCTGGCTTAATGTCGAGCTGATGAAAAATGCGGCTGAGATCGGCTATGGTCGATTCCTATATGCTGTAAACAGGAAATAA	MQDKNTAKPPCILRNTLDFQFQIAWQMLDLHLTGLQDEEFFWRPASKGLHVYREYGIWRAEWPESEEYDIGPPSISWLTWHITYWWTMVLNHSFGNGSMTRNDIHSAGSIQEARERINDLRLRWEREAAALTDDAFLSTERTMWPFTDQPFHKLAAWLNVELMKNAAEIGYGRFLYAVNRK				NA	NA	NA	NA	NA
AK002_02831	798			hypothetical protein	ATGCGCATACAATATGACCGTTTTCCGAATGGCGCCAAGAAGGCACTGACGCTTAGCTTTGATGATGGCCGCGAATATGATCGGAAATTGGTCAAGAAGCTGAATGAGTACGGAATACGGGGCACGTTTCATTTGAACAGCGGAACGCTTGGCAAAGACGGATACATCGAACCTTCGGAGGTCGCATCCTTGTACCGGGGGCATGAGGTATCCGCGCATACCGTGGATCATCCCTTCCTCGAGCAAATACCTACCGAACAAGTGGTGGAGCAGGTTGTAGAGGACCGGAAAGCGTTAGAAGCTCTGGTTCATTACCCCATTAAGGGAATGAGTTATCCGTTCGGCACTTACAGTGAACAAGTAATCGGCCTTTTAAGATATGTCGGCATGGAATACGCTCGCACGGTAAACAGTCATGGCTCGTTTCATAAGCCCGATGATTGGCTTCGTTGGCATCCGACTTGTCATCATAAAGAAATGGTGGAATACGCGGAGAAGTTCGTGGATATGCAGCAGATTTTCTCTAGAATGACCATCCTGTACGTGTGGGGCCACAGTTATGAGTTCGAGAACGACCGCAACTGGGATCTCGTCGATCGGTTCGGGGACATGATCGGCGGCCGGAATGATATCTGGTATGCCACGAATGCCGAGATCTATGCATACTGCAGTGCGTTGGACCAACTTCGTTTCTCGGCAGATAGCCGGATGATCCATAACCCCAGTGCCTTAAACGTATGGATTAGCGCAGATGGCGAGCCTTTAGAGATCAAAGGTGGTCAGATGGCGCGATTGTAG	MRIQYDRFPNGAKKALTLSFDDGREYDRKLVKKLNEYGIRGTFHLNSGTLGKDGYIEPSEVASLYRGHEVSAHTVDHPFLEQIPTEQVVEQVVEDRKALEALVHYPIKGMSYPFGTYSEQVIGLLRYVGMEYARTVNSHGSFHKPDDWLRWHPTCHHKEMVEYAEKFVDMQQIFSRMTILYVWGHSYEFENDRNWDLVDRFGDMIGGRNDIWYATNAEIYAYCSALDQLRFSADSRMIHNPSALNVWISADGEPLEIKGGQMARL	PGPT0018645_3120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_02832	447			hypothetical protein	ATGCCAAATGTTCAAACGTTTAAAGCTACCGCCCAATTGAAAGAAGGGGTAAAAGTCATAACGAAAGCAAGACAATTCGAGTTTGTCATTGATGAGCCTCAAAGTCTCGGCGGTACCGATACCGGAATGAATCCCGTCGAAGCCTTGCTTGCTTCCTTGGGTGCATGCCAATCGATCGTAGCCCGCGTTTATGCGCCGAAATTCGATGTGGTGCTCGAGGATTTCAGGGTAGACGTCGAAGGCGACTTGGATCTGGACGGATTTTTTAACCGCTCCGAGGTACGCCCCGGATACTCCGACATTCGATATACGTTTTACATCAAGACACCATCGCCCGCCGATAAGGTGGAGTCGTTCGTGGCATTCCTGGAGAGTAAATGCCCTGTGGGCGATACGATTGCTGCGCCGGTGAATCTTAAGCTGAATCGCATCGTCATCGAAAACTGA	MPNVQTFKATAQLKEGVKVITKARQFEFVIDEPQSLGGTDTGMNPVEALLASLGACQSIVARVYAPKFDVVLEDFRVDVEGDLDLDGFFNRSEVRPGYSDIRYTFYIKTPSPADKVESFVAFLESKCPVGDTIAAPVNLKLNRIVIEN				NA	NA	NA	NA	NA
AK002_02833	399	mscL	COG1970	Large-conductance mechanosensitive channel	ATGAATTTGTTAAAAGAATTTAAAACCTTCGCACTCAAGGGTAATGTGCTGGATTTGGCCATCGGGGTGATCATAGGGGCGGCCTTCGGCAAGATTGTATCCTCGCTCGTGAGCGATATCATTATGCCGGTGATTGGCTTGCTTCTTGGCGGAGTGGATTTATCAGGGCTGAAGGCTACCATCGGGGACGCAACGCTGACTTACGGGGTCTTCCTTCAAACCGTCGTGGACTTCCTGATTGTCTCCTTCTCGATATTCATGTTCATCCGAACGCTCAACCGCTTCAAACGCAAAGAAGAGACCAAAGCCGAAGAACCGCCGGCTCCGTCGAAGGAAGAAGTTTTGTTGGCTGAGATTCGCGATTTGCTGAAACAGCAAAACCAGGCCTCCGAAAAATAA	MNLLKEFKTFALKGNVLDLAIGVIIGAAFGKIVSSLVSDIIMPVIGLLLGGVDLSGLKATIGDATLTYGVFLQTVVDFLIVSFSIFMFIRTLNRFKRKEETKAEEPPAPSKEEVLLAEIRDLLKQQNQASEK	PGPT0013771_2332	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
AK002_02834	129			hypothetical protein	ATGACTGAATTAGAGGTTGTAGATGTTTATGTGAACCTGTCGAAACGGGGAACACTAGACAAGGTTCACATCATAACCAATCAGATACCGGAACTTTATCCTTCTATATTCATATACAGGCATGCTTAG	MTELEVVDVYVNLSKRGTLDKVHIITNQIPELYPSIFIYRHA				NA	NA	NA	NA	NA
AK002_02835	1497	expZ_1	COG0488	Nucleotide-binding protein ExpZ	ATGTCATTAATTAATGTAACGAACCTAACCTTTGCTTATGAAAGCAGTTATGATCCTATATTCGAGAATGTGAGCTTTCAAATCGATACCGATTGGAAGTTAGGATTTACCGGAAGAAACGGCAGAGGGAAAACCACGTTCTTGAACCTGCTGCAGGGCAAGTATGAATACAGCGGGAATATTTCGTCCGCCGTGAGCTTCGACTATTTCCCTTACCATGTCGAGCACAAGGAATATCTTACCCAGGATGTAATCGAAGAGATTTATCCGGAGTATGTTCATTGGCAAATCGTGCGCGAGCTTAACTTGCTGAAGGTATCGGAAGATGTTCTGTATCGGCCTTATGCATCATTGTCGAACGGAGAACAAACCAAAGTGATGTTGGCGGCGCTCTTTACCAAAGAGAACCGCTTCCTGTTGATCGACGAGCCGACCAATCATCTTGACATGCATGCGAGAAAATCGGTCAGCGACTATCTCAACAAAAAAAGCGGGTACATTTTGGTATCTCACGATCGAGCATTCCTGGATGACTGTGTCGATCACATCCTGTCCATCAATAAAACCAATATCGAGATTCAAAAGGGCAATTTCTCCGCGTGGTGGGAAAATAAAAAGCGACAGGATCAATTTGAGCTTGCCAGTGACGAGAAACTCAGGAAAGACATTAAACGATTAACCGATTCTGCCAAAAGAACGGGAAATTGGTCGCATGAAGTAGAAAAAACGAAAAACGGCACCAGAAATTCCGGCTCCAAAGTCGATAAAGGGTATATTGGCCACAAGGCAGCCAAAATGATGAAACGCTCCAAAAACCTGGAGCAGCGGCAACAATCCGCTATTGAGGAAAAATCGAAGCTCCTTAAAAACATCGAGAGCTCCGAGAGTCTTGCGATTTCCCAGCTCGAGTATCACAAAAAGCAGCTGGTCGAGCTGGAGAATGTATCCATTTCGTATGGCTCCAAGACGGTGTGTGAGAACGTAAGTTTCACGATCGAACAAGGGGAGCGAATTGCCCTTTCAGGTAAAAACGGATCAGGAAAATCCAGCATCCTGAAATTAATATGCGGAGAAGATCTGCAGTACACGGGACATCTCAGCAGGGATCGTCAGCTGAAAATATCCTATGTATCCCAGGACACGTCCCATCTTCGGGGCAGCTTGTCGGATTATGCCACGAGCAGCGGAATTGACGAGAGTCTGTTTAAATCCATTTTGCGGAAGCTCGATTTCTCGAGGCTCCAGTTCGAAAAGGATATTTCGACATATAGCGGGGGACAGAAGAAGAAGGTCCTGATCGCCAAAAGTCTTAGTGAGCAGGCTCATTTGCATATTTGGGATGAACCGCTTAATTTTATTGACGTTATTTCCCGTATGCAAATTGAAGAGCTATTGCTGGAGTATGCACCAACCATTCTGTTTGTGGAGCATGATCGTGCATTTTGCGAAAATGTCGCAACGAAAATCGTTGAGCTTGAAGGCAATCAAGAAGCATAA	MSLINVTNLTFAYESSYDPIFENVSFQIDTDWKLGFTGRNGRGKTTFLNLLQGKYEYSGNISSAVSFDYFPYHVEHKEYLTQDVIEEIYPEYVHWQIVRELNLLKVSEDVLYRPYASLSNGEQTKVMLAALFTKENRFLLIDEPTNHLDMHARKSVSDYLNKKSGYILVSHDRAFLDDCVDHILSINKTNIEIQKGNFSAWWENKKRQDQFELASDEKLRKDIKRLTDSAKRTGNWSHEVEKTKNGTRNSGSKVDKGYIGHKAAKMMKRSKNLEQRQQSAIEEKSKLLKNIESSESLAISQLEYHKKQLVELENVSISYGSKTVCENVSFTIEQGERIALSGKNGSGKSSILKLICGEDLQYTGHLSRDRQLKISYVSQDTSHLRGSLSDYATSSGIDESLFKSILRKLDFSRLQFEKDISTYSGGQKKKVLIAKSLSEQAHLHIWDEPLNFIDVISRMQIEELLLEYAPTILFVEHDRAFCENVATKIVELEGNQEA	PGPT0027950_94	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027950-lsa-K19350	NA	NA
AK002_02836	375			hypothetical protein	ATGATTAGCAAAGTTGGTCAAATTATGGTGTATGTATACAATCAGGATCAAGCCGTGAAGTTTTGGACTGAGATGCTAGGATTTGAAGTTATCGCTGAAGAGAACAACGGTGAAATGAGATGGATTGAAATCGCTCCAACGAAGGAAGCAGAAACAAGCATCATTCTGCATGATAAGGAACTCGTAGCCAAAATGTCGCCAGAATTACATTTGGGCACACCGTCCTTAATGTTGTTCACGGAAAATTTCGATGCGCTGCATCGTCATTTAACCAGCCACAATATCACGGTCGGCGAAGTGGTACATTTGCCTTCCGGCAGAGTCTTCAATTTTGCGGATGACGAAGAGAACTATTTTGCTGTCATGGAAAAATAA	MISKVGQIMVYVYNQDQAVKFWTEMLGFEVIAEENNGEMRWIEIAPTKEAETSIILHDKELVAKMSPELHLGTPSLMLFTENFDALHRHLTSHNITVGEVVHLPSGRVFNFADDEENYFAVMEK	PGPT0013300_5607	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
AK002_02837	1143	hcnC	COG0665	Hydrogen cyanide synthase subunit HcnC	ATGTCACACATGAAGAAAGTCATAGTCATAGGGTCTGGAATTTTGGGGGCATCGGCCGCCTATCAGTTAGCCAAAATGGGAGCGGAAGTCCTCGTTATAGACCGCAAAGATCAAGGGCAGGCTACGGATGCCGCAGCAGGAATTATATGTCCCTGGCTGTCGCAGAGGCGGAATCAGGCATGGTACCGATTGGCCAAAGCCGGCGCACGCTTTTATCCTGAGTTCATAAACGAGCTTATCAGCGAGGGCGAGACAGACACGGGCTACGCTCAAGTCGGCGCCCTGAGCATTCATGAAGATGTGAACAAAATGAGTAAGATGGAGGAGCGGGCCCATGCTCGAAAAGCGGACGCTCCGGAAATCGGAGAGATCACACCGCTGAATGAGGAAGAGACCCGTGAACGGTTTCCTTTGCTCCAGGAAGGCTATCATTCCGTTCATATCAGCGGCGCTGCCCGTGTCGATGGTCGGGCGCTGCGAGATGCGTTGATCCGATCAGCGCAAAGGCACGGAGCCGAGCTAATAAACGGGAATGCCGAGCTGCAGTATCAGGCGAGCCGCGTAACTGGAGCCGTAGTCGGATCCAAGCGCTACTCGGCTGATGAAGTCATCGTCTGTGCCGGCGCCTGGGCAAAACAACTGCTGCAGCCTTTAGGCATTCATTTTCAGGTTCACTATCAGAAAGCGCAAATCATGCATGTAGAGGTGTCCGATCATCCTGATACAGGAGACTGGCCGGTGATCATGCCGCCTTCGGATCAATATTTGCTCGCTTTCGATAACCGAAGGATCGTGATCGGGGCGACTCACGAAAATGATATCAAGGACTACGATACGAGGGTGACCCCTGGCGGCATGCAGGAAATCCTGAATAAAGGATTAGCATTGGCGCCTGATTTAGCGGACAGCACGTTTCAGGAGGTGCGAGTCGGTTTTCGTCCGTTTACGCCCGGCTTTCTTCCCGTCATCGGCCCAGTTCCCGAGTGGGAAGGGCTGATGACGGCAAACGGGCTGGGAGCGTCCGGACTAACGATGGGGCCATTTCTAGGGTATCAGCTGGCAAAGCTGGCGCTCCGCATGCCGCTGGATATCGATATCCGCGATTATGATGTTCGTAAAGCCATGGAAGAAGCCCAAATTTGA	MSHMKKVIVIGSGILGASAAYQLAKMGAEVLVIDRKDQGQATDAAAGIICPWLSQRRNQAWYRLAKAGARFYPEFINELISEGETDTGYAQVGALSIHEDVNKMSKMEERAHARKADAPEIGEITPLNEEETRERFPLLQEGYHSVHISGAARVDGRALRDALIRSAQRHGAELINGNAELQYQASRVTGAVVGSKRYSADEVIVCAGAWAKQLLQPLGIHFQVHYQKAQIMHVEVSDHPDTGDWPVIMPPSDQYLLAFDNRRIVIGATHENDIKDYDTRVTPGGMQEILNKGLALAPDLADSTFQEVRVGFRPFTPGFLPVIGPVPEWEGLMTANGLGASGLTMGPFLGYQLAKLALRMPLDIDIRDYDVRKAMEEAQI	PGPT0020315_3748	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
AK002_02838	492			hypothetical protein	GTGCCAACTACAAAGAAAGAAAATTTCTATTTTGGTATGATGATGTGTGTGGGAATGGTCATCATGATGACCACCTACAATCTGATCACGAACGGATTGATCGGAAACATATCGCTTGCAGCCGTACTCCTGCAGTTTGTTCTGGGCTTTATGATTGCCTTCCTGCTGGAGCTGTTTGTTGTCGGCCCTGCAGCCAAAAAAATCGTATTTTCCATTACTCGCAACAAATCCAGCAAAATGATCATGATCGTGGCAATGGCCTTTTTTATGGTGATTGGGATGGTGACTTTTATGTCCATGTACGGTCTGGCGTCCTCTTACTATGCCGACGGCCTGCCTGGTGAATCGCTGCTTGGAAGCTACTTCTCCATTTTTATTAAAAATTTTGTGTTTGCGCTGCCGCTTCAACTCCTCATTGTAGGCCCGATCGTGCGGTTCCTGTTTGGCAAGCTGAAAGCCAACCGCATGAACGAATCCCTAACGACCGTCTAG	MPTTKKENFYFGMMMCVGMVIMMTTYNLITNGLIGNISLAAVLLQFVLGFMIAFLLELFVVGPAAKKIVFSITRNKSSKMIMIVAMAFFMVIGMVTFMSMYGLASSYYADGLPGESLLGSYFSIFIKNFVFALPLQLLIVGPIVRFLFGKLKANRMNESLTTV				NA	NA	NA	NA	NA
AK002_02839	609			hypothetical protein	TTGCCACGTACAAAGGAACAATACGAAGAAATGCGTAACGCAACCAGACAAAAAATACAATCCGCCGGAATGCGGCTTTTTGTTCAAAAAGGGTTCGGCTCCACGAATGTGCAGGACATAGCGGATGCAGCCGGTATCAGCATCGGGCTTTTATACCGGCATTACAAAACAAAAGACAGCTTGTTTAATGAACTTGTTGAATTTGCGCTTAACGGCTTGACCCAAATCATCCAAACCTTCGAAGACGCTGATTCACCGAAAAAACTCATGACGCAGTTTGTTGACGAAATTTATCACGATATGCAGGATGGGGAAGAGCTTGCCAATTTGCTGATTCTCATGAATCAGCTGTTCTTCTCCGGTGATGGAGCCAATCGGAAACAAGCTGAGGTTTTAGAGGTAAATGGTCGGCTGTTGCGTTCTACGGCCGCACTTATTAAGAAGGGACAGGAGTCAGGCGATTTCCGTTCCGGAGATCCCCAGGAAATGGCCGTGTTGTTTTATTCGGCATTGCAGGGCCTGGCTGATATGAAAGTGATATTGAAAAACAACTTCGTTATGCCATCACCGAGCGTACTCACATTATTCCTGTTCAAGGAGGGAGAGTGA	MPRTKEQYEEMRNATRQKIQSAGMRLFVQKGFGSTNVQDIADAAGISIGLLYRHYKTKDSLFNELVEFALNGLTQIIQTFEDADSPKKLMTQFVDEIYHDMQDGEELANLLILMNQLFFSGDGANRKQAEVLEVNGRLLRSTAALIKKGQESGDFRSGDPQEMAVLFYSALQGLADMKVILKNNFVMPSPSVLTLFLFKEGE				NA	NA	NA	NA	NA
AK002_02840	594			hypothetical protein	ATGTTTACAGTTAGGAAAGCCGATCAATTAGAAATGGATGTAAGAATTCAAATGTCCCGTATTTTTGCAGATGGGTTCTCGCAATGGCTTGGATATTTCTCTAAAGATAAGGAGCAAATCGCCAGAGCCTTTGCCCACATGTTTAACCTGGACCAATTTTATGTTGCCGTTGCCGGCGACAAAGTGGCTGGAATGGCTGCATGTTCGGACGGCACCTCTTTATCCGTGAAACTCAACAAAAAAGAGCTGCGAGAGCATTTGGGATTATATAAAGGCAGCCTTGCGCACATGTTTTTGAAAAAGGAATTTGAAACGCCACTTGCGAATCCGTCTCCGATGAAGTGTTCGATTGAGTTTGTGGGGACGGCCGCGGAATATCGTGGACAGGGGGTAGGGTCGCTGATCATAGGCCATATTCTTGAAGCTGCCCCATACCGTGAGTTTTTAATAGAAGAGGTAGCCGATACGAATATACCAGCGATGAAACTCTACGAAAAGATGGGTTTTAAGGAATACAAACGGACCACGATTCCCCCAAAGAGAGCAGGAAAAATAGGCATTAATCATATCGTATCTCTAAAGCAAGTAAAATGA	MFTVRKADQLEMDVRIQMSRIFADGFSQWLGYFSKDKEQIARAFAHMFNLDQFYVAVAGDKVAGMAACSDGTSLSVKLNKKELREHLGLYKGSLAHMFLKKEFETPLANPSPMKCSIEFVGTAAEYRGQGVGSLIIGHILEAAPYREFLIEEVADTNIPAMKLYEKMGFKEYKRTTIPPKRAGKIGINHIVSLKQVK				NA	NA	NA	NA	NA
AK002_02841	3186	cypD	COG0369	Bifunctional cytochrome P450/NADPH--P450 reductase 1	ATGACACAAACCAAGGAAGTGCCTCAGCCTAAAACCTACGGTCCGCTCGGCAATCTGCCGCTGCTGGATTCCGCCGCTCCGGTCCAATCGCTTGTGAAGGTTGCCTCCGAGCTCGGACCGATCTTTCAATTTCAATATCCGGGCGGACGCAAGGAACTGTACGTTTCGGGACATGAATATGTCAAGGATGCTTGTGACGAGAAGCGGTTTGATAAACGAATCTGGGCACCGCTGCAGAATGTCCGCCCATTCGCAGGGGATGGATTGTTTACGAGCGCCACGCAGGAGCCCAACTGGAAAAAAGCCCATAACATTTTGCTCTCCAGCTTCAGCCAGCGCGCGATGCAAGGCTACCACACCAAAATGGTCGATATCGCCATGCAGCTGATCCAGAAATGGGCTAGGCTCAATCCGGACGAAACCGTGGACGTTCCTGCCGACATGACGCGCTTGACGCTGGATACGATCGGCCTCTGCGGATTTAATTACCGGTTTAACAGCTTTTACCGCGAAGACAACCATCCATTTATCGACAGCATGGTGCGGGCGCTGGATGAGGGCATGAACCAGCTTCATCGTCTGGGCATCCAGGACATGTTTATGATTAAAAAGAAACGGCAGTTTCAAGAGGATATCCAGTTCATGTTCTCCCTTGTGGATGAGCTCATCCAAGATCGCAGAAAGCACGGCGGAGAAGAAGGGGATTTGCTGGCGCATATGCTGGAAGGCGTCGATCCCGATACAGGCGAGTCTCTTGATCATGAGAACATCCGTTACCAGATCATCACCTTTCTGATCGCCGGACATGAGACGACAAGCGGGTTGCTGTCCTTTGCCATTTATTATTTGATGAAAAATCCGGAAGCCTTGTTTAAGGCGGTCAGCGAAGTGGACCGCGTACTGAAAGATCCCGTTCCGACCTATAACCAGGTGAGGGAACTCAAATATGTCCGCATGGTACTCAACGAGTCGCTGCGCTTATGGCCAACGGCGCCTGCTTTCTCCTTGTATGCAAAGGAAGATACGGCGATCGGGGGAACCTATCCCATGAAGAAAGGGGACAGCGTGACCGTCCTAATCCCAGGGCTCCATCGGGACTCGCGGGTGTGGGGGGACGACGCGGAAACGTTCAGACCCGAACGCTTCGAGGATCCGAGCCAGGTGCCGCATGACGCCTACAAACCGTTTGGTAACGGCCAACGAGCCTGCATCGGGCAGCAGTTTGCGCTGCAGGAAGCAACCCTGGTGCTTGGTTTGGTTCTCAAATATTTCGAACTGATCGATAACCAGCCTTATGAGCTGAAAGTGAAGGAAACACTCACTCTGAAGCCGGAAGGGTTCCGCATTCAGGTTCGAAGCCGTCAAGGCGGGACGGCTCTCCTGGTACCGGGTGGCGGTCAAGTTGCTTCGCTCGAATCGAAGAAGCGGGATGATGCCAAGTCCGATCCTTCGGCGGCATTTGCCCATCATACGCCGCTTCTCGCATTGTATGGCTCAAATCTGGGCACGGCTGAGGGAATTGCCAGAGAGGTGGCGGATGCTGCGAAGCACCAAGGGTTCGACAGCCAGGTGGGCACACTGGACGAATATGCAGGAAAACTTCCGAAGGAAGGCGTTGTAGTCATCGTCACTGCATCGTACAACGGCCAACCGCCTTCCAATGCCAAGGCATTCATGGAATGGCTGGAGACCGCGAATGAATCCGAAATTGAGGGCGTTCGTTACGCGGTATTCGGGTGCGGAGACCATAACTGGGCAAGCACGTATCAGCGAATTCCCCGCTACATCGACGAGCAGCTTGCACTCAAAGGGGGACAGCGTCTGCTCCAGCGCGGCGAAAGTGATGCAAGCGGCGATTTTGAGCGGGAAGTCGATGAGTGGACGGAGCATTTATGGCCGGATTTGATGCAAGCACTCGGATTGCCGGTTACGGCGGTCCATGCGCAGAAACGAAGTGCCTTGTCCGTTGAGTTCGTCCAGGGGGCGGCCGCCGTTCCGCTGGCGGAAACCTACCGCGCCGTGACGGGGCGTATCGTGCTTAGCCGCAATCTGCAGTATGAGGGCAGCGGAAGGATCACGCAGCATATCGAAATCTCGCTCCCGCCGGAAACGGAATACTGCGAAGGCGATCATCTGGGGGTGCTTCCGGTCAATCCGGAGACACTGGTTCAGCGAGTACTTCGAAGATACAAACTGAACGCGGGCTCCCACCTTATTTTGTCTGCAGAAGGAAGAAGCGGCGCGCATTTGCCGACCGGCATACCCGTCCGCCTTGACGATCTGCTGTCCCGCAGCGTGGAACTGCAGGAGCCGGCTACAAGGGCGCAGATACGGGAAATGGCCGCTAGCACGGTATGTCCGCCGCATGCCAAAGAGCTCCAAGAACTGATAGAGGAAGCGAGCTATCAGGCCGAAGTTCGGGCCAAACGGATCACCATGCTCGACCTGCTGGAGCGGTATGAAGCCTGCGAGCTGCCGTTTGAACGGTTTCTTGAGCTTCTGCCGCCATTGAAGCCGAGATATTATTCGATATCCTGCTCACCGAAGGTTAGCCGGAATACGGCAAGCATCACGGTTAGCGTCGTTCGGGACCGGGCATGGAGCGGCAAGGGAGAATATCGGGGCATTGCTTCGAACTATTTGGCCGAATTGGAAACGGGCGCGGAGGTCTTGATGTTTATACGCTCTCCCGAGTCGGGTTTTGCGCTGCCGAAGGATCCGGCCACGCCCATGATCATGATCGGACCAGGCACGGGCGTTGCACCGTTCAGGGGATTTATCCAAGCGAGACAAGCGCTTCGGGAGGCAGGTCAAGAGCTGGGTGCCGCGCATCTGTACTTCGGCTGCCGGAATCCGGAGCAGGACTTCCTGTACCGCGAGGAGTTTGAGCGGGCAGAGCAGGAGGGGCTGGTCACTTTGCATACGGCTTTCTCGAGGGTAAGCGGAGCGGAGAAATGCTATGTTCAGCATTTGATGAAACAAGACGGAATGTTATTGCTGTCGCTGCTTGAGGGCGGAGCGCAAATGTACATTTGCGGCGACGGCTCCCGGATGGCTCCGGAGGTGGAACAAACGCTGATTCGTTCCTATCAGGAGCGTCATGGCGTGAATGCTGAAGATGCTGCTGCCTGGCTGTCGGGTTTGGAGTCGTCAGGACAATATGTAAAAGACGTCTGGGCTGGTTGA	MTQTKEVPQPKTYGPLGNLPLLDSAAPVQSLVKVASELGPIFQFQYPGGRKELYVSGHEYVKDACDEKRFDKRIWAPLQNVRPFAGDGLFTSATQEPNWKKAHNILLSSFSQRAMQGYHTKMVDIAMQLIQKWARLNPDETVDVPADMTRLTLDTIGLCGFNYRFNSFYREDNHPFIDSMVRALDEGMNQLHRLGIQDMFMIKKKRQFQEDIQFMFSLVDELIQDRRKHGGEEGDLLAHMLEGVDPDTGESLDHENIRYQIITFLIAGHETTSGLLSFAIYYLMKNPEALFKAVSEVDRVLKDPVPTYNQVRELKYVRMVLNESLRLWPTAPAFSLYAKEDTAIGGTYPMKKGDSVTVLIPGLHRDSRVWGDDAETFRPERFEDPSQVPHDAYKPFGNGQRACIGQQFALQEATLVLGLVLKYFELIDNQPYELKVKETLTLKPEGFRIQVRSRQGGTALLVPGGGQVASLESKKRDDAKSDPSAAFAHHTPLLALYGSNLGTAEGIAREVADAAKHQGFDSQVGTLDEYAGKLPKEGVVVIVTASYNGQPPSNAKAFMEWLETANESEIEGVRYAVFGCGDHNWASTYQRIPRYIDEQLALKGGQRLLQRGESDASGDFEREVDEWTEHLWPDLMQALGLPVTAVHAQKRSALSVEFVQGAAAVPLAETYRAVTGRIVLSRNLQYEGSGRITQHIEISLPPETEYCEGDHLGVLPVNPETLVQRVLRRYKLNAGSHLILSAEGRSGAHLPTGIPVRLDDLLSRSVELQEPATRAQIREMAASTVCPPHAKELQELIEEASYQAEVRAKRITMLDLLERYEACELPFERFLELLPPLKPRYYSISCSPKVSRNTASITVSVVRDRAWSGKGEYRGIASNYLAELETGAEVLMFIRSPESGFALPKDPATPMIMIGPGTGVAPFRGFIQARQALREAGQELGAAHLYFGCRNPEQDFLYREEFERAEQEGLVTLHTAFSRVSGAEKCYVQHLMKQDGMLLLSLLEGGAQMYICGDGSRMAPEVEQTLIRSYQERHGVNAEDAAAWLSGLESSGQYVKDVWAG	PGPT0006740_272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0006740-cpxB-K14338	NA	NA
AK002_02842	372			hypothetical protein	GTGCGGGAAAGCGAAACCTGTGTACCGACTGGCGTGAAACCCCAAGACACCGGCTTTGGATATACATTGTCCTTAATCGGCGGCAAGTATAAAATGATCATCCTGTACTGGCTGTCGGAAAAAAAGGTCATGCGGCATAATGAGCTGAAGCGAAGCATCGGCTCCATATCCTTTAAAACGCTTAGCATCATGTTAAAGGAGCTGGAAACGGATGATCTTATCGTTCGGACGGAATATCCCCAGGTTCCCCCGAAAGTGGAATACACTTTATCCGAACGCGGACTTTCTCTCATACCTGTGTTACACATGATGTGCGAATGGGGAGAGAAGAACAGTTTGAGCGCTCCGGAAGGTGTACAGCGTGAAGCTTGA	MRESETCVPTGVKPQDTGFGYTLSLIGGKYKMIILYWLSEKKVMRHNELKRSIGSISFKTLSIMLKELETDDLIVRTEYPQVPPKVEYTLSERGLSLIPVLHMMCEWGEKNSLSAPEGVQREA				NA	NA	NA	NA	NA
AK002_02843	564	ywrO_3	COG2249	General stress protein 14	TTGAAAACACTCGTTATCGTAACGCATCCGAACATAGAAGCATCGCTCATCAATAAGCGCTGGGTAGAAGAACTCCGGCAATACCCGGATAAGTATACCGTTCACGAATTACACAAGGCGTATCCGAACGGAATCATTGACGTGGAAAAAGAGCAGCAGCTCATAGAATCGCATCAAAATTTAGTTTTGCAATTCCCCGTCTATTGGTTTAGCTGCCCGCCGCTCCTTAAACAATGGCTGGATGATGTTTTGACTTATGGTTGGGCTTATGGTTCGAAAGGAGGCGATAAACTAAAGAAACGCAAAGTCGCATTAGCCGTATCCGCCGGCATTAAAGAGGAAGATTATCGGGAAGTCGGAAGGTATCGCCACACCTTGGAGCAGCTGCTGGCTCCGTTTGAGACGACGTTCTTATATTGCGATGCCGACTATCGCTCGTTCTATGCTTTCTACGGGCAGGAGAAGGAACCTGGCGGAAACGCGCCGGACATGGAGCCGTGGCCGCCCCAAAGCACATTGGATATAAGCGCCCGGCAGTATTTAAAGTTCTTAGACAACCTATGA	MKTLVIVTHPNIEASLINKRWVEELRQYPDKYTVHELHKAYPNGIIDVEKEQQLIESHQNLVLQFPVYWFSCPPLLKQWLDDVLTYGWAYGSKGGDKLKKRKVALAVSAGIKEEDYREVGRYRHTLEQLLAPFETTFLYCDADYRSFYAFYGQEKEPGGNAPDMEPWPPQSTLDISARQYLKFLDNL	PGPT0009455_2411	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
AK002_02844	816	zupT	COG0428	Zinc transporter ZupT	ATGGTAGACTTTTTTATGAATTTCAATCCCATTATCCAAGCATTGCTGGCCACCTTGTTTACCTGGGGGATGACGGCGTTAGGTGCGGCTCTTGTTTTTGTTACAAGGACATTGAACCAGCGCTTGCTGGATAGTATGTTGGGGTTTGCCGGTGGCGTCATGATTGCGGCCAGCTACTGGTCATTATTGGCACCGGCCATCGAACTGTCGGAAGGCAATCCGATCGGGAACTGGTTTCCGGCTGCGTTCGGATTTTTATTAGGCGGAGTATTCATATGGGGAATCGATAAGATTCTACCCCATCTTCACCCCAATTCTCCTATGGGAGGAGCGGAGGGGTATAATCCGAGAGTCAGGAAAAGAAGCACCTTGCTGGTTCTGGCCATCACGCTGCACAACATTCCGGAAGGATTAGCGGTGGGGATCGCATTTGGGGCTCTTGCGAACGGGGGAACGGAGGCATCCCTGGTGGGAGCCTTGACACTGGCACTGGGCATCGGCATTCAGAATTTCCCGGAGGGTGTAGCTGTCTCGATGCCGCTGCGCGGTGACGGAATGTCGCGGAGAAAAAGCTTTTTCTATGGACAGTTCTCGGGAATGGTCGAACCTATTGCCGCGGTAATAGGCGCGGTCGCCGTAGCTTTCATTGAACCCATGCTGCCGTATGCCTTGAGTTTTGCGGCCGGAGCCATGATCTTTGTCGTAGCCGAAGAGGTGATTCCAAGCTCGCAGGAAAAAGGCAACAAGGATTTGGCTTCGATGAGTTTGATGTTTGGTTTCGTGTTAATGATGATTTTGGATGTAGCACTGGGATAG	MVDFFMNFNPIIQALLATLFTWGMTALGAALVFVTRTLNQRLLDSMLGFAGGVMIAASYWSLLAPAIELSEGNPIGNWFPAAFGFLLGGVFIWGIDKILPHLHPNSPMGGAEGYNPRVRKRSTLLVLAITLHNIPEGLAVGIAFGALANGGTEASLVGALTLALGIGIQNFPEGVAVSMPLRGDGMSRRKSFFYGQFSGMVEPIAAVIGAVAVAFIEPMLPYALSFAAGAMIFVVAEEVIPSSQEKGNKDLASMSLMFGFVLMMILDVALG	PGPT0004250_1141	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK-NICKEL_TRANSPORT,PGPT0004250-TC_ZIP|zupT|ZRT3|ZIP2-K07238	NA	NA
AK002_02845	1179			IS110 family transposase ISHaha5	ATGCAGCCAGTAGTAGGAATAGACGTGGCCAAAGGGGTTAGCGTTATCCAGGCCTTTATCGGTCGCGAAAAACCCTTCGGGAGGATGGAGAAGCTTCATCATGGGCCGGAAGGTTTTGAACAGCTAGGGGAACTGTTAGGAACACTCAAACATAAAAGTGGCGTCGAGCCCGTTGTTGTCCTTGAGGCGACCGGACATTACCATCGAAGTCTGGTAGGGTATCTTAAACGCAGTGGATGGACTCATTACATCGTCAACCCTCTGCAAGCCAAACGATCGAAAGGCACGCAACTTCGCAAGGTGAAAACAGATGCAGCAGATGCATGGTATTTGGCTGAGATGTACTACCGAGGGGACGTTAAAGCGCATCGAGAGTGGGAGGAAACCTACACCGAACTTCAACACTTAACGAGGCAACATGAGTTTGTAACCGCGATGTACGTACAGGCCAAGTTAAACAGCAGAGCTTTGCTTGAGCAGGTGTTTCCGGACTTCATCGGATTATTTCATAATTTGTATGCGACCACATCATTAAAAGTGCTAGAGCGATGTTTGGAGAATAAGGTCGAAGATGTGGGTGATCTCATCCTTGAATGTGTAGGTAAATCCCACTCCAAAGGATGGATTACGGAGAAAACAAAACGGTTGAAAGAACTCTTGTTGGGCTGGAAAACACAAGAGAGGAGTCAATCCCAGAGCATAGCGTTGACTAGCATGGTCTCCCTGCTGTTGGAATTCGATAAGCAGTTAAATTATTTGGAAAAGCAGATGGAAGAACTGGCTAAGGAGTTGCCTGAAGTGGAATTGATCCAAAGTATCCCGGGTGTAGGGAACAAACTTGCGGCAGCCATCGTGGCAGAGCTTGGCGATGCAAGTCAGTTCAAGGATGCGAAGCAACTTGTAGCCTACGCAGGATTAGATCCGGGGATCTACAGCTCAGGAAAATTCACGGCTACAAGCAACCGGATCACGAAACGAGGCTCAAAAAGACTACGGCGAGCACTCTATCTTGCCGTACAGTGCGGAATTCGCAGACGTGCAAACCGCAGGATAAGTGATTACTACGACAAAAAAAGAAAAGAGGGCAAGCCCTACAAGGTGGTCGTGATCGCTTGCGCCAACAAGCTTCTCCATCACATTTATGCCATCCTAAGTAAAAGCGAACCCTACAAAGCCTAA	MQPVVGIDVAKGVSVIQAFIGREKPFGRMEKLHHGPEGFEQLGELLGTLKHKSGVEPVVVLEATGHYHRSLVGYLKRSGWTHYIVNPLQAKRSKGTQLRKVKTDAADAWYLAEMYYRGDVKAHREWEETYTELQHLTRQHEFVTAMYVQAKLNSRALLEQVFPDFIGLFHNLYATTSLKVLERCLENKVEDVGDLILECVGKSHSKGWITEKTKRLKELLLGWKTQERSQSQSIALTSMVSLLLEFDKQLNYLEKQMEELAKELPEVELIQSIPGVGNKLAAAIVAELGDASQFKDAKQLVAYAGLDPGIYSSGKFTATSNRITKRGSKRLRRALYLAVQCGIRRRANRRISDYYDKKRKEGKPYKVVVIACANKLLHHIYAILSKSEPYKA	PGPT0030635_1260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
AK002_02846	966			hypothetical protein	ATGAAGAAGAGAACAGGATATTTGATCGTGGCAGTCGGTGTGCTGCTGTTGATCTTTACGATGAACCCAAGGAACATTTTTTCGGATATTCAATTCGGCTTTTCCTTTGACACCAAGAAGATAAATGAAGAGCAAACGCTTGATGCGAATGATTACCGAGATTTGACGGTAAAGACCGGAAGCATCAACATACATGTCGTCCCAGGAGCAACGGATCAGATCACAGCCCGTCTGAATGGAAAGGTAAGTTCGAAATATGCCGACCAGGTGAAACTGCAGGTTGAGCCGAACGGCGATTCGCTGACGCTTGGCGTCGAAGAAGATCATGGCATCAATCTGGGCATAAGCATTATGGATCTTCAGTTAACGGTGGAGTTACCGGAAAAGCAATGGGCAGCGGCTCAGATTGAAAGCGGGAGCGGCGAAATCGAGGTGGAAAACATGCTGGGCGATACGGTCACAGTCAAGGCAGGCAGCGGCAATGTCAATGTCCAGCAGGTGAACGCCGGCGAGCTAACGGTGCATACCGGCAGCGGCAATATCGAAGTTGAGGAGGTTGAAGCCAAATCGGTGGCGCTGCAATCGGGGTCCGGCGAAATCTCGGCAGACGGCTATCATGCCGAACAGCTGAGCTTTCAAAACGGCAGCGGCAACGTTGAGCTGAGTGATGGAGAAGCGGCTTTGCAAGGCAAGACGGGATCCGGCAATATCCGTGTGGATGCGGATCGGTTGATCCATAATGCGGATCTGCGAGCCGGCAGCGGGAACGTCAGCATTGACCTGGATGAAGAGCCTTCATCGCTGGAAGTGGATTTCCAGGGAAGCTCCGGCGAGGGGAAAATAGAGTGGGATGGAATGCGTTATGAGGTTAAGGACGAGGACAAGGGAAGACTGAAGGGAACGCTCGGCAGCGGCGAGGTGCTGCTGAAGGTTCGCACGGGCTCCGGGAACTTCAGGCTGGAATAA	MKKRTGYLIVAVGVLLLIFTMNPRNIFSDIQFGFSFDTKKINEEQTLDANDYRDLTVKTGSINIHVVPGATDQITARLNGKVSSKYADQVKLQVEPNGDSLTLGVEEDHGINLGISIMDLQLTVELPEKQWAAAQIESGSGEIEVENMLGDTVTVKAGSGNVNVQQVNAGELTVHTGSGNIEVEEVEAKSVALQSGSGEISADGYHAEQLSFQNGSGNVELSDGEAALQGKTGSGNIRVDADRLIHNADLRAGSGNVSIDLDEEPSSLEVDFQGSSGEGKIEWDGMRYEVKDEDKGRLKGTLGSGEVLLKVRTGSGNFRLE	PGPT0028810_32	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028810-liaG-K11621	NA	NA
AK002_02847	792			hypothetical protein	ATGCTTCCGATTCAATTGCATGAAATACCCCAATCGATCATAGATGAAGTAGGTACGGTATCCAAGCTGGATTTTCCAAGACAGGGCCATACTTCGGATGTAGGAATCCTGGATAACGAACAGGGGCGCTTTATCCTAAAGCGAACGATGGGAGAGCATTACAGCTCGTGGCTGGCACAAGAAATCCGCGTTCTGCATTCCCTGCAAAAGACATCGTTGCTTGTCCCTTCGGTTTACAGGTTTGTGGAAGATAAAGAAAACAATCAATCGTGGGCGCTGTTGAAGTTTTTCGAGGGTGAAACATTAAGGCAGGCACTGGTCCGCGAGAAGAATTCGGAAAAAAAGCATGAGATGATATTCAATTTCGGTGCGATTTTGTCCGCGATTCACGCTACGCCCTGCCCTGAAGAAATGAGGGGAGAATCCCCTTGGCTGGATGATATGCTTCTCCGTGCGGAATATAACCTAAGACATTACAACGTTGATGGAACCGCTGAATTATGGGATTCGTTGAATAGGAACAAACCCCAGACTATAACCAACACCTTAATTCATGGTGATTTCACGATTGATAATGTTTTGGTTCGCAACGGAAACATTACGGGCATCATTGATTGGAGCGGCGGAGCTCTTGGTGATCCGAGGTATGATGTGTCTTTGGCGATACGTCCTAAACCGAACGCGATTGAAACCGAATCGGAAATCGACGTTTTCTTTGAAGGATATGGAAGAGGAAGGATTAGCGAGTCGGAGTTCAAGTACTTTGAAGAAGGATTATATGCATTTTTCTAG	MLPIQLHEIPQSIIDEVGTVSKLDFPRQGHTSDVGILDNEQGRFILKRTMGEHYSSWLAQEIRVLHSLQKTSLLVPSVYRFVEDKENNQSWALLKFFEGETLRQALVREKNSEKKHEMIFNFGAILSAIHATPCPEEMRGESPWLDDMLLRAEYNLRHYNVDGTAELWDSLNRNKPQTITNTLIHGDFTIDNVLVRNGNITGIIDWSGGALGDPRYDVSLAIRPKPNAIETESEIDVFFEGYGRGRISESEFKYFEEGLYAFF				NA	NA	NA	NA	NA
AK002_02848	2046	dap_2		D-aminopeptidase	ATGAAGCCGAAGAAACAAAGCAAGTCAAGAACCATTCGTGTATTGGCAGCCTCCATGCTGTCCGCCAGTCTGCTGGCTTTCCCCGTCGATATTCATTCGGCAGCGGCCAAATCCGCAGAAGTCCCAGTCGAATCCCGGCATGCGGGGGCACCGGTACTAAGCTCTAACGAAGTCAAGGCATTCGCTGACGCTTATTTTGCCGATCCCCAGGTTTCGGACATGCTGGCAGGCGCACTAGTAGTGGTCGTGCAAGACGACAAGGTGCTGTTGAATACGGGCTACGGTTACGCCGATCTTGAATCCAAGAAGAAGATTGATCCCGATCGCACCTTGTTCCGCATGGCGTCGATATCAAAATCGGTTACCGCAATGGCGGTGATGCAGCTGGTCGAGAACGGACAAATCGACCTGAAGCAAAACATAACCGAATACATGCCGGATGTGAAGATCCCTAACCATACCGGCGCCCCCGTCACCGTTGAGCATTTGCTGACGCATACGTCAGGCTTCGATTTTACGGACAGCTACTCGGTTCCGCCTCACATCATTCAGAAGGGCGAGATTCCGCTCGCCGACTTCATCCGGGTGAATGCTCCGGCTGTGGTTCGTACGCCTGGTGAAGTTTACCGGTATGACAATCTGGCATCCTCCATGCAGGGATATATTGTCCAAAGCGTATCCGGAGAGCCATTTGAGGACTATGTCAAAAAGGAAATATTCGCCCCGCTGAACATGAAGCATGCCGCATTTCGAATGAACGACGATATCATCGCGAATCTTGCCACAGGATACAATGTCGATCAACATCCGATAAAGCCTTACGAGAACGTGCCCACCATCGCACCTGAAGGCGGCATGTTCGCCAGCGGTACCGATATGGCCAATTTCATTACTGCCCATCTGAAAGAGGGCCAGTTCGGATCCGCCCGCATCCTGAAGGAGGAGACGACGCGATTAATGCACAAGACGCATTATGATGCCGCTGGCATTCCGTTGACGTCTTACGGCTTCGAGTCGTTCATGCACAACAGCCATAACGGCCAAACGGTGATTGGCAAAGGCGGCGATTTGGAGGGCTACCATTCCTGGCTTTGGCTGCTTCCCGACCAGAATGTCGGTGGTCTGATCGTTGTTAACAGCGACAAGAGCGCTTCGATCCGCAGCGAATTTTTCGTCGCGTTCATGGATCATTTTTATCCGAAAAAGCAAGGCTCAGAGAGCCCGTTCCCACTCCATCAGGAGCAGCTGCAGAAATTTGAGGGCCTATACAGAAGCCTGAGGACTCCGATTATCGCTACGGATGTGACTGCCGGACAAGGCGAGCTGCTGGTTAAAGATGCCATGGGCGAGCATAAACTCAAACCGGTCGGACCGCTGCGGTTTGTGGATGAGAACGGTGTACCCGCTGCGTTTAAGGAAGATGCTAACGGTGATGTTGCGTATATGTATTACACGGCCATGGACAGCATGTCCGAGAAACTCCCGAAGCCTGCTCCTTACCACGACGTCCCTGAAGAAAATCCTTATTCCAAGGACATCTACTTCGCTCAGTCTCTCCAGGCTTTTGGGGATACAGGACAATCCAGCTTCCGGCCGGATGAACCGATCACCCGCGCGGAGTTTGTCAGCGTCATCAGCAGGCTGGCCGGCATGAAGCCTAGCGAAAGTGTAAGCATATTCAAAGATATGCAAGGGCACCCGCTCGCTGGTTATGTGCAGAATGCTGCGGATATGGGCGCCGTGAACGGCAAGACGAACCAGAATTTCGAACCCGATCAGCCGATCACGCGCCAAGAGGCTGCAGCTATCATATGGCGGACTGCACATCACGCGCTTGGCGCGAAGGCCGTCCCGGCCAAACTCCGTACGAAACCGGCCGCGTGGGCGGATGAAGCGGTGCAGTTTATGGTCGGAACCGGCATGCATGGTCCCGAAGTGACCAAGGATGCAAACGGTGCGGCCGATTACCGGCCAACGGACAATCTTCTGCGGAAGGAAGCGGCGGCCATCTACTCGAAACTGATTCAGCAGGCTTTTGGTTTTTAA	MKPKKQSKSRTIRVLAASMLSASLLAFPVDIHSAAAKSAEVPVESRHAGAPVLSSNEVKAFADAYFADPQVSDMLAGALVVVVQDDKVLLNTGYGYADLESKKKIDPDRTLFRMASISKSVTAMAVMQLVENGQIDLKQNITEYMPDVKIPNHTGAPVTVEHLLTHTSGFDFTDSYSVPPHIIQKGEIPLADFIRVNAPAVVRTPGEVYRYDNLASSMQGYIVQSVSGEPFEDYVKKEIFAPLNMKHAAFRMNDDIIANLATGYNVDQHPIKPYENVPTIAPEGGMFASGTDMANFITAHLKEGQFGSARILKEETTRLMHKTHYDAAGIPLTSYGFESFMHNSHNGQTVIGKGGDLEGYHSWLWLLPDQNVGGLIVVNSDKSASIRSEFFVAFMDHFYPKKQGSESPFPLHQEQLQKFEGLYRSLRTPIIATDVTAGQGELLVKDAMGEHKLKPVGPLRFVDENGVPAAFKEDANGDVAYMYYTAMDSMSEKLPKPAPYHDVPEENPYSKDIYFAQSLQAFGDTGQSSFRPDEPITRAEFVSVISRLAGMKPSESVSIFKDMQGHPLAGYVQNAADMGAVNGKTNQNFEPDQPITRQEAAAIIWRTAHHALGAKAVPAKLRTKPAAWADEAVQFMVGTGMHGPEVTKDANGAADYRPTDNLLRKEAAAIYSKLIQQAFGF				NA	NA	NA	NA	NA
AK002_02849	780	menH_6		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAACTTATTCATGAAGGAGAGCGGAAACATTCATGCGTCAAGGATGATCGTATTTTTGCATGGGGGCGGGGTAAGCGGCTGGATGTGGAATAAGCAGCTTCCCTCTTTTAAGGATGATTACTGCCTGGTTCCCGATTTACCCGGACACGGTGGCAGCTCCGCCAACGGGCCCTTTTCCATAAAACGCACTGCAGCGCAGATCAATGAGGTCATCTCGAGTATGGCGGACGGAAGGGAAATTGTTGTATTCGGTTTTTCCTTGGGGGCGCAGATTCTCGTGGAAATGATGTGCCAACGACCTCAACTCATCGATTACGCAATCGTAAACAGCGCTTTGCTTAGACCGATGCCGGCTGCCCTGAAGCTGATCGAACCTTCTATACGAATGACCTTTCCGCTGACCAAATACCGATGGTTCTCCAGATGGCAGGCAAGCACGCTGTACGTGAATCGGGATGATTTTGAACAGTATTATACGGAATCCCTGCATATGCCTTCGGAGCTGCTGGTTTCGGTCCTCAAGGAAAACATGTCCTATTCAATCTCTCCAAGCATCAAAGAATCTTCGACGAAGGTATTGGTTACGGTCGGGGAGAAGGAAAGAGCCAGTGTTAAAAAATCAGCCAGGGACCTCGTGCAGCTATCCAACCGTGCGGAGGGGATCGTGTTTCCCGGTATCGGGCACGGCATACCGCTTGCCGATCCGGCATTATTCAACCGCGTAACGGGGAAGTGGCTGAACACCGGGGAACTGCCGGAAGATCTTTCTCAGGTGTAG	MNLFMKESGNIHASRMIVFLHGGGVSGWMWNKQLPSFKDDYCLVPDLPGHGGSSANGPFSIKRTAAQINEVISSMADGREIVVFGFSLGAQILVEMMCQRPQLIDYAIVNSALLRPMPAALKLIEPSIRMTFPLTKYRWFSRWQASTLYVNRDDFEQYYTESLHMPSELLVSVLKENMSYSISPSIKESSTKVLVTVGEKERASVKKSARDLVQLSNRAEGIVFPGIGHGIPLADPALFNRVTGKWLNTGELPEDLSQV				NA	NA	NA	NA	NA
AK002_02850	849			hypothetical protein	TTGCTGCCGATCGGGGAATTCTCCAAACTATGCGAAGTATCGACGAAGACGCTTCGGTATTACGATGAAATCGGATTAATTCATCCGGATCAGATCAATCCGGAAAACGGGTATAGGTATTATTCCATCGGTCAGCTAAAGAGAATGCTCTATATTAATCGGTTGAAGTCTTACCATTTTTCACTGGACGAAATCAAAGAAATCTTAGCGGGGGAACCGGGTCACTCGGATGAGAAGCTTTACACGGCCCTTCACCGCAAGCGTCGGGAAGTCCAGCACAAATTAGACATGTATCATCATGCCCTGAACCAGATGGACCAGGATATCCTGAGCCTGGAAAAGGGCATCGACGTGATGTCGTACCTGAACCGAATTGAAGTGCAGCTTGTGGATCGGGCGCCAATGAATCTTCTTTTCATGTGCCAGATGATGAGCAGGGATGATTATGCTCTGGGTTATGGCAGGTATTTTAGCGGATTATATGAACAGATTGCCAAGGAGAAGCTTACATTGGTTGGTACGCCCATGACGATTTATCACAGTTCGGAATACAATCCCGCAGGCAATGACACCGAGTTTGCCCTCCCGGTCAAGGAGAGAGCTATTGGAACGAGGGAACTGGGGGGAGGACTATGTGCCAAGTCTGTTTGGAAGGGTTCCTATTCGGATTTGACATCGGTATATGCCAGGCTCAGGGAATGGATAGAAGAAGAGGGATACGCATTGAGCCAATCCCCGTATGAAATCTATGTAACCGATCCGAATCAAGCCACGGCGGCCGAGCATTTGGTTACCGAGGTCTATTTTCCCGTGTCGAAAAAACAAATGAAAAATGCGAGGTATCTCTAA	MLPIGEFSKLCEVSTKTLRYYDEIGLIHPDQINPENGYRYYSIGQLKRMLYINRLKSYHFSLDEIKEILAGEPGHSDEKLYTALHRKRREVQHKLDMYHHALNQMDQDILSLEKGIDVMSYLNRIEVQLVDRAPMNLLFMCQMMSRDDYALGYGRYFSGLYEQIAKEKLTLVGTPMTIYHSSEYNPAGNDTEFALPVKERAIGTRELGGGLCAKSVWKGSYSDLTSVYARLREWIEEEGYALSQSPYEIYVTDPNQATAAEHLVTEVYFPVSKKQMKNARYL	PGPT0003907_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003907-bmrR-NA	NA	NA
AK002_02851	1023	nylB		6-aminohexanoate-dimer hydrolase	ATGAAGAGAGAGTATTGGCCAACGATGGCATGGCAAGCCGCTGCCCCTGAAGCCTTGAGATTGGATGCCGGCAAGCTTTCGGCCCTTGATGCTTTGATCCCATCCGAATACGGCAACATCAACGGTATAGCCGTGGTGAGAAACGGATATATCGGATATGAGAAATACGATCATGGTTACGGCCCGGAGGATACCCACCACGTGGCATCGGTCACCAAGAGCATTCTATCCGCCCTCATAGGCATTGCCATCGGTGCCGGCTATATTGACAATTCGGATCAAAAGGTGCTGGATTTCTTCCCCGAATATGAACACAAGTCCGCTGATCGGCAAATTCAAGACATTACGCTTCGCCATCTTCTTACGATGACGGCCCCTTATCCATTTGAGGACTGGCGCGAGCCATTGGACAAAATGTGCATGCAGCCTGATTGGGTAGCATATACGCTTGATATGCTGGGGGAAGGAGGAACCCTGGGAGCGTTCAAATATTCCACCGCAGGAGTGCATCTGCTGTCAGCCATTATCACCCGCACCACCGGAAAAAGCGCACGCGCCTTTGCGAACGAACACTTGTTTAAACCGATTGGCATGACCGAAATCCCGGATCATGACATGGGATCATTCGGATTTGATCATTTATTCGGTAAAGACGTCAGGGGATGGGTCAAAGACCCTGGCGGCAACACCACGGGTGGATGGGGCCTTACGTTAAGCCCGCGCGATATGGCGCGTTTCGGTTTTCTGTACCTGAACCGCGGCCTATGGGACGGACAACCGATTATACCGGGAGATTGGATAGACCAATCAACGGCGATGAACGCTAACCAATACGGTTATTTGTGGTGGCTGAGGGATGAGGACGGAATTTATACATATTCGGCCGTAGGCGATGGAGGCAATATCATCTGCTGCATTCCGGAAAAAGATATGGTTGTAGCGATTGCATCGTCCTTTATCGCCAATCCGCGGGATCGATGGACCTTGATAAAGGAAGGCGCGCTATCCGCTGTCATAGAATGA	MKREYWPTMAWQAAAPEALRLDAGKLSALDALIPSEYGNINGIAVVRNGYIGYEKYDHGYGPEDTHHVASVTKSILSALIGIAIGAGYIDNSDQKVLDFFPEYEHKSADRQIQDITLRHLLTMTAPYPFEDWREPLDKMCMQPDWVAYTLDMLGEGGTLGAFKYSTAGVHLLSAIITRTTGKSARAFANEHLFKPIGMTEIPDHDMGSFGFDHLFGKDVRGWVKDPGGNTTGGWGLTLSPRDMARFGFLYLNRGLWDGQPIIPGDWIDQSTAMNANQYGYLWWLRDEDGIYTYSAVGDGGNIICCIPEKDMVVAIASSFIANPRDRWTLIKEGALSAVIE				NA	NA	NA	NA	NA
AK002_02852	468			hypothetical protein	ATGTATGAACGATTGGCTGAGAAACTGGAAAGCACGACAGCCGTGAAATGGTTTCCCGGACGCGGCGCGAAAGAGGAATGGATCGCCGAGGCAGAAACGGAGCTGGGATTCAGCCTGCCGCCTTCCTATCGCTGGTGGCTCAAGAACTACGGCAGTGCCACGCTGAGCGGGACGGGCATTCTCATGTTAGCTCCTCCGGATGTGAGGGAATATGTCGATACGGATATTCTATACATACATCGCCTGAATCAGGAAGATGAGGAGTGGCGAGAGCAATATCCGCACAGGCTGGATCTGTTCGTGCCGAACGAGGACGAGCTGTATTTTTTCGATACGTCCGCCAAAGATGAGCAGGGGGAGTTCCCTGTCATGCGTTATGATCTTATGAATGATTTGATCGAGGAGTATGCTCCGTCATTTGCAGGATTTTTGGAACAATTGATTGACAAACGCAGTGCGGTATATTGA	MYERLAEKLESTTAVKWFPGRGAKEEWIAEAETELGFSLPPSYRWWLKNYGSATLSGTGILMLAPPDVREYVDTDILYIHRLNQEDEEWREQYPHRLDLFVPNEDELYFFDTSAKDEQGEFPVMRYDLMNDLIEEYAPSFAGFLEQLIDKRSAVY	PGPT0027635_87	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
AK002_02853	1986			hypothetical protein	ATGCGTTTTCGTCAGGTTCATCTCGATTTCCATACATCCGAGGCCATTCCCGGCATCGGAAGCCGGTTTTCAAAACTCCAGTTTCAGAACATGCTGCGCGCGGGGCATGTCGATTCCATCACCGTGTTTTCAAAATGCCATCACGGCTGGGCTTACCATCCGAGCGAAGCCAATGAAACGCACCCGCATCTCTCATTCGATCTGCTGGGCGAGATGATCTCGGCTGCCCATGAAATCGGCGTCAAGACGCCGGTGTACTTATCCGCGGGGCTGGACGAAAAGCTGGCGCGGCGCCATCCCGAATGGCTGATCCGCGACGCGGAAGACCGTACGCGCTGGGCGAGAGATTTCATGACGCCCGGTTACCATGAATTTTGCTTCAACACGCCATACCTGGACATCTTGCTGGCGCAAATCCGCGAAGTAGTTTCCAGGTATGATGCGGACGGCATTTTCCTTGACATCGTCGGAATCCGTCAATGCCGGTGCCAGCATTGCGTAGCCGCGCTGCGATCAGCCGGTCATGACCCTCGCGATGAAGCTGCCGTTGCCGCGTTAGGCGAATCCACCTACCTTAACTATGCCCGCCGCGTACGAGAAACGATCGATGAGATCAAACCCGGTCTGCCGGTATTCCATAACAGCGGCCATCAACGTCGCGGCCGCCGCGACCTTGCTCAAGTCAACAGCCATTTGGAACTCGAATCGCTTCCTACCGGAGGTTGGGGTTACGATCACTTTCCGCTGTCCGCACGCTATGCACAGACGCTAGGCATGGACTATCTCGGCATGACGGGCAAATTCCATACCTCCTGGGGCGAATTCGGCGGATACAAGCATCCGAACGCGCTGCGCTTCGAAACGGCGCTCAGTCTCGCCCATGGCGCCAAGTGCTCGATCGGCGACCAGCTTCATCCATCGGGTCTCATGGATGAAGCAACCTACGCCTTGATCGGCACAGCCTATGCGGAAGTGGAAGCGAAGGAGCCTTGGTGCAGCGCGACCTCTTCCGTGGCCGACATCGCCGTCCTGTCGCTGGAGGCTGCTTGGGAGGCTTGTCCGGAAGCACGGAAGTCGGATGACAGGAACAACCTGGCGGATGCCGGTGCGGTACGCATCCTGACCGAAGGGCACTACCTTTACGACATCGTGGATGCAAGTGCTGATTTTGGCCTCTACAAAGTGCTGATTCTGCCGGACGAGGTACCGATATGGCCCGAATTGGAAGAGGACATCCGTGCATTCACCGCGGGTGGAGGAAAAGTTCTTGCCTCGGGTCGTTCGGGTTTGAATGAGGCAGGCGACGCGTTTACGCTGGATCTCGGATTGAACTGGCAAGGCCAGAGCCCCTACCGTCCATCTTATTTCCGCCCGGACTTTGTTCCCGGTCCTCTCATGCCTGCATCGTACGTGATGTACGCTGAAGGACAGCTGGTTGAATTGAACGGCGGCCAAACGCTGGGCAGCCGGGAGAATCCGTACTTCAACCGCGATGTGTTCACGTTCTGCTCGCATCAGCACACGCCAAGCGCCGGAGAAGACGGCGGCCCGGGCATGATCGAGAGCACAAACGGCATCTACATCGCTTGGAATGTGTTCGGCGACTATGCGGACAACGGCCATCTCATTCTGAAGGAGATGGTATTGCATGCGATCGACCGGCTCCTGCCACAGCCTACTATTCGCTGCGATTTGCCGGCACGGGGCATCGCGACGCTGCAGTATCAGCAGGATGAGAATCGTTATATTAATCACCTTCTCTTTGCCTCTCCTGTCCTGAAGGGGCGCGTTGAAGTCATTGAAGACATCGTGCCGCTGCGGGACGTTTCCGTCCGCTTGCGCCTGCCTTCAGCGCCTTCGATCCAGCGGGTCTATCTGGCCCCCTCGATGGATGAGCTTCCATACACGATTGGGAGTCAGGGGGAGATCAACTACTCGGTTCCTAGTCTGGATAATCATCAAATGGTTGTGCTGGAACTGGCGTAA	MRFRQVHLDFHTSEAIPGIGSRFSKLQFQNMLRAGHVDSITVFSKCHHGWAYHPSEANETHPHLSFDLLGEMISAAHEIGVKTPVYLSAGLDEKLARRHPEWLIRDAEDRTRWARDFMTPGYHEFCFNTPYLDILLAQIREVVSRYDADGIFLDIVGIRQCRCQHCVAALRSAGHDPRDEAAVAALGESTYLNYARRVRETIDEIKPGLPVFHNSGHQRRGRRDLAQVNSHLELESLPTGGWGYDHFPLSARYAQTLGMDYLGMTGKFHTSWGEFGGYKHPNALRFETALSLAHGAKCSIGDQLHPSGLMDEATYALIGTAYAEVEAKEPWCSATSSVADIAVLSLEAAWEACPEARKSDDRNNLADAGAVRILTEGHYLYDIVDASADFGLYKVLILPDEVPIWPELEEDIRAFTAGGGKVLASGRSGLNEAGDAFTLDLGLNWQGQSPYRPSYFRPDFVPGPLMPASYVMYAEGQLVELNGGQTLGSRENPYFNRDVFTFCSHQHTPSAGEDGGPGMIESTNGIYIAWNVFGDYADNGHLILKEMVLHAIDRLLPQPTIRCDLPARGIATLQYQQDENRYINHLLFASPVLKGRVEVIEDIVPLRDVSVRLRLPSAPSIQRVYLAPSMDELPYTIGSQGEINYSVPSLDNHQMVVLELA				NA	NA	NA	NA	NA
AK002_02854	897	rhaR_29		HTH-type transcriptional activator RhaR	GTGCTGTGCTTAGAATTCGCCATACCGCCGCTGCCGCAATTCGTTACGGCCGGACATGCCGTATGGAAGCCGGGAGACAGGCATTTCGCCCGCACCTTCGGCGTTTATGACCTGCTTCTGGTTACGAAAGGAACGTTCTATATGACCGAAGAACAGACGGAGTATGAGGTCGGCGCGGGAAAGCTGCTGGTGCTGGAAGCGGGACTGCCGCATGTCGGGCACCGAGCCTGCTCGGAGCATACGGAGATTTATTGGGTGCATTTCATCCATGGGCATCCGGCCGTTCACATCCGTCGGGAAGATATCCCCTGGTCGAACCTGCTATCCAAGGGCACGGTCGAAGACATTGAGCCTTCTCCGCAGCAGCGCATGTACTTGCCGAAGTTTGCACCCTTCGAGGTGCAAACCGTGGAGCCGATGCTGCGCGGATTGAACGATACCCACAACAGACTGAACGGGGAAAATGCGCTCCAGCTCCACCTTTTGCTGACCGAGCTGTTTGCAGCGCTGCAGGCTGGCTGCGCCCGGACGTCCGAGCCGGAGCCTTCCGTCCGGCTGGCCCAGGCCGCCGCATCCTATTTAAACGAACATTGGAAGGAGCCGTTTGAACGGGCCGCGCTGGAGGAAAAGCTCCACTTCCAAGCGAGTTATATCGCAAGATGCATGAAGAGGCATATCGGCAAAACGCCACTGCAGTACGTGCTGCACCTGCGCCTGGAGGAGGCCAAGAAACTGCTTGGCGGCACGGTGCTTGGCATTTCCGAGATCGCGGAACGCGTGGGAATACGCGATTCGAACTACATGACGCGCCTATTTACCGCCAAGGTTGGCATGACGCCAGGTGCTTATCGGCAGATGCTTCGGCAGAAGAGGGATGGCGATGGGCGGGTCACCTGA	MLCLEFAIPPLPQFVTAGHAVWKPGDRHFARTFGVYDLLLVTKGTFYMTEEQTEYEVGAGKLLVLEAGLPHVGHRACSEHTEIYWVHFIHGHPAVHIRREDIPWSNLLSKGTVEDIEPSPQQRMYLPKFAPFEVQTVEPMLRGLNDTHNRLNGENALQLHLLLTELFAALQAGCARTSEPEPSVRLAQAAASYLNEHWKEPFERAALEEKLHFQASYIARCMKRHIGKTPLQYVLHLRLEEAKKLLGGTVLGISEIAERVGIRDSNYMTRLFTAKVGMTPGAYRQMLRQKRDGDGRVT				NA	NA	NA	NA	NA
AK002_02855	2310	rhaR_30		HTH-type transcriptional activator RhaR	ATGAACTTGCTGCAAACCCTCCGCTCTCGCAAATATTTGCAGCGGATTATCCTGAGCTTTATGCTCGTCGTCGCCATGCTCGCCATAGCCTCCCTCTTTCTGAACGCCGCCGCCCGTGACAAAGTGTTGAGCCTCCAGCATGAAGCCGACGTCAAGCTGCTCACCCAAATCAACTACAACATCGAGAACATGAACGGGATCGTGAAGGATTTGGCGGTATCGCTGTATAACGACGAAGAGCTCATCGCACTGAAATCCGGGGCGGATTATAAGCAGAGCATCCTGAAGATTGAACGTTTGAACCGCACGGTTGCTGCTTCCCCGTACTTGCACTCCGCCGTTTTTTATAACGGCAAACAAGGCCGTTTTTTCTCGTCGCTGAGCCATGATATGGATACGCGCGTTCTTTACGGCGCACTGGAAGATTACATGGACGCTCGTGCGGACCTGCCGAAGCTGCAGCTCATTCCGCTCGATCTCGACGGGGAGAACGAAGGCATCGACGTGTTCGCATTTTTCATATATGATGGGCCGAGCCTCGGTTCCGTCAATCGGAACGCGCTCATCTTGACCGTGAAGCCGGGGTGGATGCTGGATAATGTGAAAGCGCTTAATCGGGTCGCCGAACGGGAAAACGACGTCCTGTTCGTTACGGACGGCGATGGTCAAGTGCTGATGGCGGGCGACCGCAAGCTACCGCCCGGGCTGGACATCAAGAGAGATTTACTCGGACGGATGGGCTCGGCAAACCATACACCGGACTCCTTCATCCATCAACAAGGCGATAAGAAATATAAGGTCACCTATTTAAGCAAAGGCTTAAACGACTGGCAGATCATCAGCCTTCAAGACTATGACGACGTGCTGGGCAGCGTCCGCCAGATGCGGTGGACGGAAATGGCCGTGACATTGTCCGTGGCCATGCTGGCTTTGCTGCTGTCCGTACTGATTTCGCTCCGGCTATACAAACCGGTAGGACGCCTGCTTACGCTGGTGCCCTACGATGGACGTGGAGACGCCAAAGCCAAGGATGAGCTGTCCCTGATCACGGAGAACGTAACGGAAATGATCGGCAAGCTCAGAGGATTGGAACAGGAGCGGGCCACGCAATGGAATATCGCCAAGTTATATCATCTGCGGAGCCTGATCGGCACAAGCGACAGCATGGACGAAGCAGCGTTTATGCGGATGAAGGAGCAGTACGGGATCGATATCGCGCATCCGTCACCGCTTCGACTTGCGCTTGTGCAGCTCGACGACCTGCAAAGCCAGGTTCTGCAGCCGGTTCCCCGGGCGGAAGAGCTCTATTCCTTCGCCATCGCGAATATCGGCCAGGAGTTGCTGCGCCATGGCGGCTCCTGCGAGGCGGCGGATATGAAGAGCGGCCATCTCGTTTTTGTTGTCGGGGGCGATTCCGGTCACCTCGAGTCCTTGCACGAACATTTCCGTGAACTTCAGCAAACCATTCTCCGCTTCTATCGGATTACGTTCACCGTAACGCTAAGCGATACCTTCGAGGATTATCGCCAGCTTACGAAACATTACAATCTGGCGCTGCGGCATTCCAACTATCGCATGATATTCGGTAAGGGCGCGGTGATCCGGCCGGATATGATCCGCAGGAACGAGCGGAACGAATCGCTTACCATTCCGAAGGAACTGGAACGCCGGCTGACGGAGGGCTTAAAGGGCGGCAATCCGGAAGAGACGGAGCAAGCGATTCGTAGCTGGAGGGAGCATCTTTCCGAGTTTAGCTTTGACGGCATGTTTTCGGCGCTGCTGCATTTGACCATGACGCTCAGCCATACGCTTGGTGAAATGAATAATAACAACTTGAACCCGGTGTCGGTCAATCTGCAGGCGATCAACCGCCGCATTCTCGAAAAAGAGACGCTGGACGAGATCGAGTGCGTGCTACTGGACGTCGTGCGGGAGGTGTTCGAGCAGCGCAGGAGCGGACGCGAGGATAAAAACCGGCTGCTTGCGGATACCGTCAAGGAAATGATCGATAAGCATTATGCCGATCCGGACCTCAACGTACAGAAGATCGCCGATATGCTGAAGATGAGTTCCGTCTATTTGGGGCAAGTGTTCAAGGCTCAGGAAGGTGCGACGGTAGTCGACCAGATCAACGCGACTAGGCTTGCCCGTGCCCAGCAGTATCTGGAGCAGCAGCAATTGACCGTGGCGGAAATCATGGAGAAGGTAGGCTTCGGCAATGAAAGCTATTTCTATCGGCTGTTCAAGCGCCGGTATGGAACGACCCCGAAAGAGTACCGCCTGAAATGCGCCATCGAGCGCAGTACTTAA	MNLLQTLRSRKYLQRIILSFMLVVAMLAIASLFLNAAARDKVLSLQHEADVKLLTQINYNIENMNGIVKDLAVSLYNDEELIALKSGADYKQSILKIERLNRTVAASPYLHSAVFYNGKQGRFFSSLSHDMDTRVLYGALEDYMDARADLPKLQLIPLDLDGENEGIDVFAFFIYDGPSLGSVNRNALILTVKPGWMLDNVKALNRVAERENDVLFVTDGDGQVLMAGDRKLPPGLDIKRDLLGRMGSANHTPDSFIHQQGDKKYKVTYLSKGLNDWQIISLQDYDDVLGSVRQMRWTEMAVTLSVAMLALLLSVLISLRLYKPVGRLLTLVPYDGRGDAKAKDELSLITENVTEMIGKLRGLEQERATQWNIAKLYHLRSLIGTSDSMDEAAFMRMKEQYGIDIAHPSPLRLALVQLDDLQSQVLQPVPRAEELYSFAIANIGQELLRHGGSCEAADMKSGHLVFVVGGDSGHLESLHEHFRELQQTILRFYRITFTVTLSDTFEDYRQLTKHYNLALRHSNYRMIFGKGAVIRPDMIRRNERNESLTIPKELERRLTEGLKGGNPEETEQAIRSWREHLSEFSFDGMFSALLHLTMTLSHTLGEMNNNNLNPVSVNLQAINRRILEKETLDEIECVLLDVVREVFEQRRSGREDKNRLLADTVKEMIDKHYADPDLNVQKIADMLKMSSVYLGQVFKAQEGATVVDQINATRLARAQQYLEQQQLTVAEIMEKVGFGNESYFYRLFKRRYGTTPKEYRLKCAIERST				NA	NA	NA	NA	NA
AK002_02856	1026	yteP_25	COG4209	putative multiple-sugar transport system permease YteP	ATGTTGAAGAAGATAACACTATCGGGCTCTATGGGCGCGGAACCGGCGAACCGATCGGGAACCGGGCCCGACCCGGATTCAGAACCAGCGGGCACTCGCCCAAAAAAATCGGCGCTTCGCAGGGAGCTTCGCCATTTTCGAAACAACCGCGAGCTGTTTCTCTTATCCCTGCCGGGGATTCTGTACAAGCTGATCTTTGCCTATATTCCATTGGTGGGATTGATCATCGCCTTCAAGCATTACCGCTACGATCTCGGCATATTCGGCAGTGAATGGGTAGGTCTGGAAAACTTCCGTTATTTGTTCTCGACCGATACGGCTTGGCGGATCACGCGCAATACGGTGCTGTATAATGCCGCTTACATTGCAGCTACCACGGCCGCTGCGCTGCTATTGGCCATTCTGATGAATGAGCTCAGGGCGAAATGGAGCAAATTTTATCAGACCGCGCTGTTTCTGCCCCACTTTCTATCCTGGGTGCTGGTCGGATACGTGGCATATGCCTTCCTGAACCATTCTGACGGTTTCATTAACCGCACCTTGCAAATGTTCGGCATGGATCCGATCAGTTGGTACCAGACGGCCGAGGCATGGCCGGCCATTCTCATTCTTGTTCATTTATGGAAGGCAGTCGGTTTCAACACGCTTATTTATTTTGCGGGCATTATCGGCATTAACAGCGAGTATTACGAGGCCGCCCGGATCGACGGTGCGACGAAATGGCAGATGGCCATGAGAATTACGGTCCCGCTGCTGGCTCCGCTGGTCATCATTCTGCTGATTTTGTCCATCGGCAACATGTTCCGCGGCGACTTCGGACTGCATTATTTCATTCCGAACAACTCCGGCTTCCTGTACGGATCCACGGATATTATCGATACGTACGTGTACCGCGCACTTCGCGAGATCGGTAATGTCAGCATGTCGGCGGCCACAGGCTTCTATCAGTCGGTTGTCGGTTTCGTGCTCGTGCTGGCGGCGAACGGGATCGTGCGCAAAATCAATCCAGAGCATTCCCTGTGGTAA	MLKKITLSGSMGAEPANRSGTGPDPDSEPAGTRPKKSALRRELRHFRNNRELFLLSLPGILYKLIFAYIPLVGLIIAFKHYRYDLGIFGSEWVGLENFRYLFSTDTAWRITRNTVLYNAAYIAATTAAALLLAILMNELRAKWSKFYQTALFLPHFLSWVLVGYVAYAFLNHSDGFINRTLQMFGMDPISWYQTAEAWPAILILVHLWKAVGFNTLIYFAGIIGINSEYYEAARIDGATKWQMAMRITVPLLAPLVIILLILSIGNMFRGDFGLHYFIPNNSGFLYGSTDIIDTYVYRALREIGNVSMSAATGFYQSVVGFVLVLAANGIVRKINPEHSLW	PGPT0017250_121	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02857	885	araQ_29	COG0395	L-arabinose transport system permease protein AraQ	ATGCCGAAGAAATTCGAACTATCCAAAATGTTGATCCATCTGCTGTTCATCCTGCTATCGCTGGCCATCGTCCTGCCTTTTCTGCTCGTTGTCGCGGTTTCGCTGACGGACGAAGCGTCGCTTACCGACAAGGGCTATCAGTTTTTTCCCGAATCGTTCAGCCTGGAGGCTTATCGCTATCTTCTGGACGCACCCGACATTTTGCTGCGGGCATACGGGGTCACGATCACGGTGACCGTCATTGGAGCACTGGCAGGGCTTTTGCTCACCGCGATGACCGCATACGTCATCTCGAGACCGGATTACCGCTACAACAGGATAACGACGTTTTACGTGTTCTTCACGATGCTGTTCAGCGGCGGGCTCGTCCCTTCCTATATTCTCATCACCCAATACCTGCATTTAAAGGACAGCTTGCTTGCACTAATCCTGCCGGTTCTGCTCTCGCCCTTCAACATCATGGTCATGAAGGGATTCATGTCCAAAATTCCGCTTGAAATCGTGGAATCCGCCAAAATCGACGGGGCAAGGGAACTGCGTATCTTTTTCCGGATCATATTGCCGCTATCCACGCCTGCCTTGGCCACGCTGGGTTTGCTTATCTCGTTCACGTACTGGAACGAATGGTTCAACGCCATGCTGTATATCGACGATCCCGACAAGGTGCCGCTGCAGCTGCTGCTTGTGCGAACGCTGGGCAGCATCGAGTTCATAACCTCCAATTCGGAATTTTCGCAGCAGCTGGGCATCGATTTATCCAGCTTTCCGAACAACTCGGCAAGAATGGCGATCGCGGTGCTGGCCGGCGGGCCGATGCTGATCATCTTTCCGTTCTTCCAGCGGTTCTTCGTGAAAGGGCTTACGGTTGGCTCCCTTAAGGGTTAA	MPKKFELSKMLIHLLFILLSLAIVLPFLLVVAVSLTDEASLTDKGYQFFPESFSLEAYRYLLDAPDILLRAYGVTITVTVIGALAGLLLTAMTAYVISRPDYRYNRITTFYVFFTMLFSGGLVPSYILITQYLHLKDSLLALILPVLLSPFNIMVMKGFMSKIPLEIVESAKIDGARELRIFFRIILPLSTPALATLGLLISFTYWNEWFNAMLYIDDPDKVPLQLLLVRTLGSIEFITSNSEFSQQLGIDLSSFPNNSARMAIAVLAGGPMLIIFPFFQRFFVKGLTVGSLKG	PGPT0017255_1902	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02858	1527			hypothetical protein	ATGAAAAAAAGATTATTCGGATTGCTCGCGGTCATCCTGATCGCCCTGTCCGCGCTTGCCGGCTGCGGAGGCAGCGGCGGGAAGAGCGATACGGGCAGCGGAACGACCGGCACGCAAGGATCGACGCCGGAGGCGAGCGGCGCTAGCGGGCTTGAGCCCGCAGAGCTGACTTGGTATTATCCGCTGCTGCAGCTGCAGCCGGACCAGAAGAAGGTCGAAGAGGAGATCAACAAAATCGTGAAGGAGAAGCTGAACGCCACCGTCAAGCTGATGCCCGTCGCAATCGGGGATTACGTGCAGAAGATGAATACCGTACTGGCGGCAGGCGAGAAATTCGACATTCTCTGGACCGGTTACATGCTGAAACCGGAAGAGCTTGTACGGAAAGGGGCTATTCAACCGCTGAACGGGCTCTTGGATGAGTATGCGCCGCAGCTGAAGACGGACGTCCCTCAGGTGATGTGGGATGGCCTCTCGGTGGACGGGGAAATTTACGGCATCCCGAATCAGCAAATCAACGGGTCAAGATACGGCTTTATCGTGCAGAAGCGGTTTGCCGACAAATACGGCTTGGATCCTACCACGATCAAAACAATAGCGGATATTGAGCCGTTCCTTGAGCAAATCAAGCAGAACGAGCCGGGCATCATTCCGATCGGCCTGTTCGGCGGCTCGTTTGTCAACCCGCAGGCGCATGACGATCAATATTGGGTCGTTCCGGGGCTTGATGATCATTTCTACATCAAGACCGATGACCCGTCCTATACGCTCCATCGCTATCCGGAGGAGGAGCTGGACAATTTCCGCCTGGCCAGCAAATGGTATAAAGCCGGGTACATCCACAAGGACGCGGCCACGGAAAAAATGACCGACTACCAATCCAAGGGCCAGATCGCCGTCGAGTTCGACGTCACGCTGAAGCCTGGAGTCGAAGCAGAGGTCAAGCCGAAGAACGGCGGCAACGATGTCATCATCATCCCGCTCAGCGATTGGTTCTCCAACGGTTATTCGGCGACGACCAACCAGTCGATCAGCCGCACTTCGCCGAATCCGGAACGGGCCATGATGCTGCTCAATCTGATCAATACCGACAAGGAGCTCTACAACTTGATGATCAACGGCTTAGAGGGCGTGCATTATGAGAAGCTGAGCGGGGAGTATATCAAAGCTATGCCGGATTCCAGGTACCGTCCGAACATGGATTGGGTCTTCGGCAGCGTCTTCAATTCCTACCTGAAGGAAGGCCAACCGGAGAACATATGGGAGGAAACGAAAAAAATCAACGAAAGCTCTGAAATCAATCCGGTCGGCGCCTTCAAGTTCAATTCCGAGCCGGTCAGCACGGAAATCGCGAACCTGAATGCCGTATGGGGCGAGTACAAACGCGGACTCGTGACCGGAACGCTCGATTTCGAGGAGACCTGGCCCGTTCTTTACGGCAAGCTGAAGGAGGCGGGCGAAGATAAATACGTGGAGGAGGTGACGCGTCAGTTCGAGCAATTCCTGAAAGATAAGGGCTTGAAGTAA	MKKRLFGLLAVILIALSALAGCGGSGGKSDTGSGTTGTQGSTPEASGASGLEPAELTWYYPLLQLQPDQKKVEEEINKIVKEKLNATVKLMPVAIGDYVQKMNTVLAAGEKFDILWTGYMLKPEELVRKGAIQPLNGLLDEYAPQLKTDVPQVMWDGLSVDGEIYGIPNQQINGSRYGFIVQKRFADKYGLDPTTIKTIADIEPFLEQIKQNEPGIIPIGLFGGSFVNPQAHDDQYWVVPGLDDHFYIKTDDPSYTLHRYPEEELDNFRLASKWYKAGYIHKDAATEKMTDYQSKGQIAVEFDVTLKPGVEAEVKPKNGGNDVIIIPLSDWFSNGYSATTNQSISRTSPNPERAMMLLNLINTDKELYNLMINGLEGVHYEKLSGEYIKAMPDSRYRPNMDWVFGSVFNSYLKEGQPENIWEETKKINESSEINPVGAFKFNSEPVSTEIANLNAVWGEYKRGLVTGTLDFEETWPVLYGKLKEAGEDKYVEEVTRQFEQFLKDKGLK	PGPT0017245_2923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02859	3774			hypothetical protein	ATGAAGAAGCTTGTGCTTGCGGCACTGGCGGCAAGCTTGTTGTTCGCGCTGTATCCATTTCTGCCGGCCGCCGAGACGGCGTCGGCTTATGGAAATCCGCACGGGACGGCTTTTTACGTAGCCTTGGACGGAAATGACTCGAACAAAGGGACGATCAACAAACCGTTCCGAACGTTGGAAAAAGCACGTGACGCCATTCGGGCGTTGAAAGCGAAGAAAGGGCTGCCTCGAGGCGGCGTCACGGTCTATCTTCGGGAAGGCCGGTACGAGCGCGCATCCAGCTTTGAGCTGGGTTTGCAGGATTCGGGGGAGGCGGGGAAGCCGGTAACCTATACGGCCTATCCGGGCGAAACGGTCGTCTTGTCCGGTTCCAAGCAGCTGGAGAAATCCGCATTCGTTCCGGTAGCCGATCCTGCCGTACTGAACCGGATGATTAGCGAAGAAGCAAGAAACGAAGTGCTGGTCGCCGATCTGGCCGGCCTCGGCATAACCGATTACGGCGAGATGAGCCGGCACGGTTATTACTTGGCCAACGATTTGAGCAAGGTGCCGCCGATGGAGTTGTACGTGGGCGGGCAAGGGATGACGCTGGCACGCTGGCCGAACGAAGGAACCGTCCAAATGGACGAAATCCTCGATCCCGGACCGACGCGGAAAGATCCGAACGGGGAGGTCCATTCAAGAGGCGGGACCTTTACGTATACGTATGACAGACCGCAATACTGGACACAGGCGGACGACATCTGGCTGGATGGCATTTTCGGCTACAGCTGGGAATGGTCCTACAACAAAATCGCTTCCATCGACACCGAAGCCAAAAGCATAACGCTCAGGTACGGGGAAATGAGCGGCATTTTCAAAAATTGGTACCCGGATTTCCATTTCGCGCAAAACCTGCTGGAGGAGATCGATATGCCCGGCGAGTATTACATCGACCGACAGGCCGGAAAGCTCTATTTTCTACCGAATGCCGAATTTATGACCGCGAATCCTTCCATTGAAGTGACGATGCTGAAGACGCCGATGATCAATGCATTGGACGCATCATATATCGATTTCTCGGAGCTGATCCTGGAGAACGGGCGCGATTCGGCGGTCGTCTTCATGGGCGGAAGCCATATGCGCGTCCTCCATAGCGAAATACGCAACTTCACCAACAGCGGCGTGCTGGTCAACACCCAGAGCCGGTTCCATTATAACGACTTTACGGGGGTTCCCGGAACTGACCACAAGATCGAGTACACCCACATCCACCATATCGGGGGAACCGCCGTCACGCTCACCGGAGGCGACAAGACAACGCTCGAGCCGGGCAACAACGCCGTGGAGAACTCGCACATTCATGATTTTGCCTATTACCATAAGGCTTACAATCCGGGCGTCCTCTTGTCCGGAGTGGGCAACCGCATGTCGCACAACGAGCTGCATGATGCTCCTCATCCCGGGGTGCTGATCTTCGGCAATGATCATCTTGTAGAGTACAACGACATTTATGACGTTTGCAAAACCTTCTCGGATCTCGGCGCCATATACATGAACGCGGGCGAAACGCCGCAGCAGCGGGGCACCGTCATCGGCCGCAATTACTTCCATAACATCGGCGAAGCCAAGCCCGGCGTGGAAGGGGTATATCCCGATAACTTCACGATGGGACTGAAGATCGACGAGAACATCTTTTATAAAATGGGCAACTCGGCGATCAAAAACAACGGCGGCGCGCATATTTTGACCCGCAACAATATATTCGTGGACAGCAAGATTCCGTACGACTACGCGGATTTGTTTCTCGGCGACGAGCCGGACGATCAGGTTCCGCTGAATTACATGCCGAAGTGGGAGGCGCTGTTCGAGGCTAACAACGACTTCATCGGGACGCCGTATCTGTCCAAATATCCGGAGCTGGCGAATTTTTTCACGGAAAACCGCTATTATCCGGACACGAACACGTTCCACGGCAACGTCGTATACAATCCGACAGTTCCGCGAAGCTCGACAACCAATGCGGAAGGTGCGTACGACAAATTCAATCTGGTCCAATATGAGGATAACTGGGTTACTAACGAGGATCCTGGTTTCGTCAATCTGGCGGGAGGCGATCTGTCGCTGCGTCCGGATGCGCAGGTATTCCAGGCCATCCCCGGCTTCCCGGATATTCCGTTTCACGAGATCGGCATTAACGGGAAAGCAGGTACCACGAGCAGCCCGGACAGCTACCCGGTGCAAAACGTGGTGGTTTATGACAACCAAATCACGGTAGACCGTTGGAAAACAGTGAAGCTGCGCACGGCGGTCCTCCCATGGAACGCGGATAATCCGAAGCTGGTCTTCACGTCGGTTGATCCCGGTGTCGCCACGGTCGATAATAACGGCATCGTCACGGGTCAGGCGGTGGGCCAAACGGTCATCACCGTGGCGTCGGCGGAGAATCCGCAGCTCACAGCAGCGGTGGACGTCACGGTCGAAGCCGGAGACGGCGTCATGGATTTCACGAATTTCGAGTCGGGGGCGAACGGCTGGCCGCAGGACGCGAACCGCAGCATCGTCAAAGAAGGCGACAACCGCTGGTATAAAATACTGAACGGGGCTACCGCACTCAGCGAGAAAACCTTCGCCGAATATGAGCTGAGCTTCAAGCTGAAGACGCCCGAATCGATCGGTGAAAACGCTACGCTGTACGTGTTCGATCGCCAGGCGAGCAGCGGCTCGACCCGCGTCGGTTACAAAACACGTCCGGACGGATCCTCCTCCTGGCTGCTGTATAACGGAGACTGGACCGTGCTGCGCGAAGAGAAGCTACGCGGCCACGACCTGCAGCCAAACACGGAATACGAGATCAAGGTGCTGGTCAAAGGCGGCGATGTCAGCGTATACGTGGACGGCCAAATCCGTCTCAAGGCAGCCGATCCGGGCCATAATGCGGCAGGCAAGGTCGGATTCTATGTCAACAACGTCAGCCACATGCTGTTTGACGACATCCGGTTCAAGGCGCTGAGCACGGAGCTGGCCGGCATCATACCGTCCGAGCGCGAAATACGGCTTGCCGCCGGCGAGCAGCATCAGGTGCAGGTAACGCTCGATCCCGTGGATACCCCGGATAGCGGCATTACTTGGCAATCCGCCGATCCATCCGTGGCGGAGGTAAGCGATACGGGCGTCGTCCATGCCGTATATGAAGGACAGACCATCATTACCGCAGTGTCCGTCGTCAATCCGCTTATCAAGGCGGATATCGCGGTGACCGTTTCGGGGATCATGCACGAAACCGACTTCGAATCGGGCGGCAACGGCTGGCCGGTAGACCCGAACCGCAGCATCGCGGCGGATCCGGACGGCAATCGCCGATACAAAATTTTGAACGGTGCCACGGGTCTGCTGGACCGCGTCTTTGAAGCGTATGTACTCGAATTCAAGCTAAAGACCCCGTCGTCGATGCCGGAGGAAGGAACCTTTTATATTTTCGACCGTCAGGCGGGCAGCGGTTCGACCCGGATCGGCTATCGATCCCGTGCGGACGGAACCTCGTCCTGGATCCTGTACGATTCGGCATGGCAGAAGATCGCCGAGACCTCTTTGCCGAATCGCGACTTCCTGTCGGACACGGAATATGCGGTCAAGGTCGTCGTGAAGAACGGGGATGTCGCGGTTTACGTGAACAACGAGCCAAGACTTGCCGCTTCGGACCCGAATCATCAGCCTTCAGGCAAAGTGGGCTTCTATGTCAGCGGATTCGATTATATGCTGTTTGACGATATCCGCTTCTCGGTGGTGCCATAA	MKKLVLAALAASLLFALYPFLPAAETASAYGNPHGTAFYVALDGNDSNKGTINKPFRTLEKARDAIRALKAKKGLPRGGVTVYLREGRYERASSFELGLQDSGEAGKPVTYTAYPGETVVLSGSKQLEKSAFVPVADPAVLNRMISEEARNEVLVADLAGLGITDYGEMSRHGYYLANDLSKVPPMELYVGGQGMTLARWPNEGTVQMDEILDPGPTRKDPNGEVHSRGGTFTYTYDRPQYWTQADDIWLDGIFGYSWEWSYNKIASIDTEAKSITLRYGEMSGIFKNWYPDFHFAQNLLEEIDMPGEYYIDRQAGKLYFLPNAEFMTANPSIEVTMLKTPMINALDASYIDFSELILENGRDSAVVFMGGSHMRVLHSEIRNFTNSGVLVNTQSRFHYNDFTGVPGTDHKIEYTHIHHIGGTAVTLTGGDKTTLEPGNNAVENSHIHDFAYYHKAYNPGVLLSGVGNRMSHNELHDAPHPGVLIFGNDHLVEYNDIYDVCKTFSDLGAIYMNAGETPQQRGTVIGRNYFHNIGEAKPGVEGVYPDNFTMGLKIDENIFYKMGNSAIKNNGGAHILTRNNIFVDSKIPYDYADLFLGDEPDDQVPLNYMPKWEALFEANNDFIGTPYLSKYPELANFFTENRYYPDTNTFHGNVVYNPTVPRSSTTNAEGAYDKFNLVQYEDNWVTNEDPGFVNLAGGDLSLRPDAQVFQAIPGFPDIPFHEIGINGKAGTTSSPDSYPVQNVVVYDNQITVDRWKTVKLRTAVLPWNADNPKLVFTSVDPGVATVDNNGIVTGQAVGQTVITVASAENPQLTAAVDVTVEAGDGVMDFTNFESGANGWPQDANRSIVKEGDNRWYKILNGATALSEKTFAEYELSFKLKTPESIGENATLYVFDRQASSGSTRVGYKTRPDGSSSWLLYNGDWTVLREEKLRGHDLQPNTEYEIKVLVKGGDVSVYVDGQIRLKAADPGHNAAGKVGFYVNNVSHMLFDDIRFKALSTELAGIIPSEREIRLAAGEQHQVQVTLDPVDTPDSGITWQSADPSVAEVSDTGVVHAVYEGQTIITAVSVVNPLIKADIAVTVSGIMHETDFESGGNGWPVDPNRSIAADPDGNRRYKILNGATGLLDRVFEAYVLEFKLKTPSSMPEEGTFYIFDRQAGSGSTRIGYRSRADGTSSWILYDSAWQKIAETSLPNRDFLSDTEYAVKVVVKNGDVAVYVNNEPRLAASDPNHQPSGKVGFYVSGFDYMLFDDIRFSVVP				NA	NA	NA	NA	NA
AK002_02860	687			hypothetical protein	ATGCCATTCATGCAACGATGTTTATATAGGGCCGAGGGAATCGAGGGAAATATCCGTTCCCGGCTTCGCGGGGAACGGTTTATTCAAACGGTCGAAGATACGATGAAGCGGGAGGGCGTATCCCGATTAAGCTTGTTTGCGGATGGACGCCGGTTGTTTCTTTATTATGAATGCCGAGGCGAGCAGGTCCTTCCGGAAATACTGCTGCCGGAAGCCAATCCGTGGCTGGCCGTTTGGCCGGGAGGAGGAGCGGAACGTCGATGGGCGGCCATGTCCGATATTTTTCATTACCAAGCCCCCGCTTCGGAGCAGCATTGGAAGCGTAGGAATAATGACAGCGTGCCGTATGGAAGGATCGCCCGGCTGAAGCCTGAAGAGACAGCCAGCTACGTATACTATCATTATCAGTACCAGGAAGAACGGCCGGGCGATGGGGACAAGTACGGGATCATCGGCCTGCATGAGAATATGCTCTTTTTCTATTCCGAGCTTCCCGCTACGCTTGAGCCAGCGCCTTACAAAGGGAAGCTGAATACTTCGCTTCGGCCGGATGATTGGGCGGCGGCGATGGATCCGCACTTTATCAAGTGGGAGGAGTCGCCGAGCGGACAGGAGATCTGGCGGGAGCTGGAGCTTGTACGGGAAGTGCGCATCTCCGACGAAAGGCAGGGTACAAAGCATGCGTAA	MPFMQRCLYRAEGIEGNIRSRLRGERFIQTVEDTMKREGVSRLSLFADGRRLFLYYECRGEQVLPEILLPEANPWLAVWPGGGAERRWAAMSDIFHYQAPASEQHWKRRNNDSVPYGRIARLKPEETASYVYYHYQYQEERPGDGDKYGIIGLHENMLFFYSELPATLEPAPYKGKLNTSLRPDDWAAAMDPHFIKWEESPSGQEIWRELELVREVRISDERQGTKHA				NA	NA	NA	NA	NA
AK002_02861	4218	lacZ_3		Beta-galactosidase	ATGCGTAACCGATGGTGCCTGAACGGAGAGTGGGACTTCATGGCGCTGTACGGTCAGCCGCAGTGCCGGCAGCTTCCGGATGAGATCGTCTACGAGCCGGAGCCCGTCCTGGTCCCTTCCAGCTGGAGACGGTCGTACGAGCAGCCAAACGGCAGAACGTTCGGCGAAATTCGCGAACACGGATATGCTCCGATGAGTCTCTACAGCTATCCCAAGGCGTGGGACGCCGCGGAAGCGGGCGTTCTGCACCGCAGCTTCCGGATCCCCGAACACATGGCCGGTCAGCGGATCGTGCTGCGGCTGGACGGCATTATGCAAAAAGCCGTCCTATTTCTCGACGGGGCGGAAGTCGCGGTATGGGAGGACGGCTACCTGCCGCTGCGGCTCGATATTACGTCAAGCGTAGCGCCGGGCCGTGAGCATCATCTCCATGTCCTATGCGGGAGCTTCGACAGAGTGAAGCTCCCGTCCGGCATGGAGAAAGTGACGGGATTGACAGGTTCATGGTTTGGCAATGTCGCCAGAGGGATATGGCAGGATGTCTATCTGGAAAGCTACCCGGTTCTTTCACTGGAGGATGTAACCATTTGTACGTCCGTGCGTAAGAAGCGCTTGGAGCTTACGGTTATCGTCGGGACGGCAGAAACGGTTGCAGATCTTGGGCCGATCCACGTGAGGCTGAGCGTGCGGGAGCTTGGCATATTGCGACAAGATGGAGAACATTCGGAGGCAAGGGATGCCGATTCGTCAGGCAGCGGCACCCATCGATACGGGGCTCAAGATGCGAAGCCACAGCAAGCTCAGGGGCGTGGAATTGAAACGGAAAGGCTCCTCGTGGAGAGAAGGACAGGAGGCAGACCGGAAGCCGAAGACAAGCCGGCCGTTCCGGTCCTCCAGGCGGAGCAGCCCGCTGAACAGGTCGATCTCTCGGCTGCCGGGATGCTTCGGTTGTGCGAGAACGAACGCGGCGGAGCGGTTTATCGCGCCTCCTTCACCCTGGATTGGCAGGATGCCAAGCTGTGGAATCCAGACACGCCATTCCTTTATGTCGCGGTGCTTGAACTTGTAGCAGGTGAGCAGGTACTCGACCGGAGCGAACAGGTGTTCGGTTTCCGAGAATTTTGGTGCGACGGTCCGCAATTCATGCTGAACGGGATCCCGATCCAACTACGCGGCGATTCGTGGCATTTTCAAGGCGCACTTCAGCAGACGGAGACGTATATCCGTAATTGGTACCGGATGTGCCGGTCTGTCGGGATCAACAGCATCCGTCTGCATGCCGAACCATATCCGGAAGATTATGTGCGGATTGCCGATGAGGAGGGTATGCTGATCATCGACGAAACGGCCATATACGGATCGGGCAAATCCATGCTCGCCGACCATCCCGAATACTTGGACCATTGTCGAATGCATGTTCAGCGGCTCGTTCGGCGCGACAAGAATCATCCTTCGGTCATCATGTGGAGCTTGCAGAACGAAATGCGCTGGGTAGACGGCCGGGACGGCTACAAGTCGCATATTCCCGGCTTCATGGAGGCTATGCGCAAACTGGATCCCACGCGGCCGATCATCGCAGAAGGAGACAATCGGCTGCTGTCCAAAGCGCATACGGAGGTGGAAAGCCGTCATTACAACATCGACGGCACCATTGCTCAATGGGACCGTTCCGTCCCTTTGACCTTTGGCGAACACGGTGGATGGTGGTACATATGCCCGCAGAATGCCAGCATGTACGCAGGGCTGCAGGCCTATCGCGGTACGGACGAAAGCACGGCCGGGCTGGCGCTAAAGGAACGCCTGTTTGTGGAGTATGCGCGGCGGCAAGGCGTCTCGGGCATAGCCACGTTTAATTTCGCTCATTATTTCATGCGCTCGATGCCGGAGAACGACGTCGCAGCTCCGCCGTTGGAACCAGGCCTGCCCGGCGTTAGCCCCAAGACGATCCCGGCCTATTCGCTGACGATCAACAACGGTATGCTCCCGGATCATCCGATGCACCTTCCTAATCCGGCTTTCGCCATCATGGCGGAGGCGTTGAAGCCGGTTACGATGTTCGCGGCCGAATACAACGGCTGCTTCTACGACGACGCGCCCATCACGCGCAGCTTTGACGTCTTCAACGACACGTTGTCTGCACAAGACGTGCGGATTGAATGCGAGGTCATGCAAGGGGAGACGATCGTGCTTGAGCGTATCTTCACGTTCCGTCAAGAGCCGGCCGAGCTAAAGGCCTTTGAAATCACGTGGACTCCGATCCCCGTGGAAACGGAAGGGACTGCATTGCTGAAGGCCACTCTGTTTCATGGCGAACGTCGGATGTTTGAGCTGCGCAAGCAATACCGGCTTGTCCAGGGAAGCTTGCTTCATGATCCTGTCGAAGTCGGCCGCCCGGCGGCTTACTGGGGATCTGAAGAGGATTATATCCGGATCCGCCGGCTTGTACCCGGCTGCGGACGGGCGAACCGCGACGCGATCGCCTTGCTGTCGTCCGATGATTTGCTGATTGTTGGCAGCAAAGCGGAGGATCCGGACGGCAGGCTGGAAGCGGAGCTTAAAGCCTTCGTTGCGAGGGGCGGACGTCTGCTTCTGCTGGAGCAGACCGGCCTGTCGCTCGGTCGGCTTACGCTGACGCGCAGGCCGTTTCTGCGCGCCCATGCGGGGGATTACCGTCATCCGGTGCTGAAGGGCTTGAGCGACAAGGACCTGATGTTCTGGCACGAAGACCTGCGTGAAGAAGGGCCATTGCCGATCATACGCGCAGCGTTCGAAAAGCCGGTCCATGGCGATTTCACCCTGCTGCTGGAGTGCAGCGCCGGCGATTTCGGCGACGGGGGGGATCTTTGGTCGCCGCTGCTGGAATATCGGAGCGGGAGCGGCATGTTTCTGGCCAATCAGCTTGAGATCATGGCCAATCTAGACCGAGTTCCGCAAGCGTGTCTGCTGCTGCGCAATCTGCTGGCTTATGCAGGGCGAGCCGAGGAAGCTGCCGTCCCGGCGATGCGGACGGCAGGAGCGCTGGTAAGCCCTGGCGGGACAGCGGCAGCGTTCCTCGACCGACTTCGGCTGCGCCATAAGGTGCTGGATGCCTCAGCGGTGATAGGTGAAGCTGCGGAGCGCGAATTCCCCGAGCAATCCTTCGGCCTGCTCGTGGCCGAAGCCTGCCTGCTTGGGTCGCCTGGCGCAGCCGAGGCCGTCAAGCGCTATGCCGAAGCCGGCGGGCATGTGCTTGTCCTGCCGGCGGACAGCAGTCAGCAGGACACGCTTGCCCTCTTGTTGGGCCGGCCGGTACGCGTGGAGCCGCACGAGGCCTACCATTTAGCGGCAGATTACTCCCACGACGCCGTGCGCGGCTTTAGTCCGGTTGACTTGTTCGGCTTCGATAAAGTATTCCTTTCGCCGCGTGATGTCGTGAACCGGCCGCTGGCCAGTGATCGGCTGGAAGTGCCGGGCACGGCCGATGCTTGCGTAAGCATCGAGGGAACTGCCTGGAAGGACTATTTCGTGAATGGTTACACATCCGAATACAGCCGTCTTGCGCTGGTTGAAATCAACCGCAGGAACGCTCGCCGACCCGGTGCTTTTCTCGTTGAAGAGAGGATAGGGGCGGGTTCCATTCTCTGTTCGCAGCTTCACACTGATCTTGACAGTGACAAAGCGCTGCGATTGTACGCTCGTCTGCTGGCCAATCTGGGCGCTGCCTTCGATGACCGCTTACTGGTGAGCGAGAAGGATGACGGCGCATGGGCCGTGGAAGCGGTTATGGCGCTGTCTTGCCCGCCCTACGTCGATTACGAAGCCATGAAGACGTATTATACCGATCCCGAATATTCGCTGAATAATTTGGGAGAAGGCCTGTACGGCTGGATGCAGAAAAAAGAGCGGAGGTCCGAGGACGGAAAGATGCGGATCGCCCATGCCGCGAATGAGCCATGGTTCTTGAGCTGCTTCGTACAGGTGCCTGATGGAACCGAGACGTTCCGCAAGGGATGCATGAGAATCCAATCGGATGTACCGTACGCCATTTTTTTGAACGGCGAGTTTATACCGGAGCCAGAGCTTGAGCTTGTCCTGAAGAGCGGCCTTAACCGGCTGATCGCGATTCTCCATGGAAACGGCGGGAATATGGACTTCGGTATGGTCTTTCTGCACGCGGATGGATCATACATGAAGGATTTGGAATACCGCATGACCCTGGACGAAGTCGAGCCGAAATAG	MRNRWCLNGEWDFMALYGQPQCRQLPDEIVYEPEPVLVPSSWRRSYEQPNGRTFGEIREHGYAPMSLYSYPKAWDAAEAGVLHRSFRIPEHMAGQRIVLRLDGIMQKAVLFLDGAEVAVWEDGYLPLRLDITSSVAPGREHHLHVLCGSFDRVKLPSGMEKVTGLTGSWFGNVARGIWQDVYLESYPVLSLEDVTICTSVRKKRLELTVIVGTAETVADLGPIHVRLSVRELGILRQDGEHSEARDADSSGSGTHRYGAQDAKPQQAQGRGIETERLLVERRTGGRPEAEDKPAVPVLQAEQPAEQVDLSAAGMLRLCENERGGAVYRASFTLDWQDAKLWNPDTPFLYVAVLELVAGEQVLDRSEQVFGFREFWCDGPQFMLNGIPIQLRGDSWHFQGALQQTETYIRNWYRMCRSVGINSIRLHAEPYPEDYVRIADEEGMLIIDETAIYGSGKSMLADHPEYLDHCRMHVQRLVRRDKNHPSVIMWSLQNEMRWVDGRDGYKSHIPGFMEAMRKLDPTRPIIAEGDNRLLSKAHTEVESRHYNIDGTIAQWDRSVPLTFGEHGGWWYICPQNASMYAGLQAYRGTDESTAGLALKERLFVEYARRQGVSGIATFNFAHYFMRSMPENDVAAPPLEPGLPGVSPKTIPAYSLTINNGMLPDHPMHLPNPAFAIMAEALKPVTMFAAEYNGCFYDDAPITRSFDVFNDTLSAQDVRIECEVMQGETIVLERIFTFRQEPAELKAFEITWTPIPVETEGTALLKATLFHGERRMFELRKQYRLVQGSLLHDPVEVGRPAAYWGSEEDYIRIRRLVPGCGRANRDAIALLSSDDLLIVGSKAEDPDGRLEAELKAFVARGGRLLLLEQTGLSLGRLTLTRRPFLRAHAGDYRHPVLKGLSDKDLMFWHEDLREEGPLPIIRAAFEKPVHGDFTLLLECSAGDFGDGGDLWSPLLEYRSGSGMFLANQLEIMANLDRVPQACLLLRNLLAYAGRAEEAAVPAMRTAGALVSPGGTAAAFLDRLRLRHKVLDASAVIGEAAEREFPEQSFGLLVAEACLLGSPGAAEAVKRYAEAGGHVLVLPADSSQQDTLALLLGRPVRVEPHEAYHLAADYSHDAVRGFSPVDLFGFDKVFLSPRDVVNRPLASDRLEVPGTADACVSIEGTAWKDYFVNGYTSEYSRLALVEINRRNARRPGAFLVEERIGAGSILCSQLHTDLDSDKALRLYARLLANLGAAFDDRLLVSEKDDGAWAVEAVMALSCPPYVDYEAMKTYYTDPEYSLNNLGEGLYGWMQKKERRSEDGKMRIAHAANEPWFLSCFVQVPDGTETFRKGCMRIQSDVPYAIFLNGEFIPEPELELVLKSGLNRLIAILHGNGGNMDFGMVFLHADGSYMKDLEYRMTLDEVEPK	PGPT0017810_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
AK002_02862	1146	ugl_4		Unsaturated glucuronyl hydrolase	ATGGACTGGAACGCTATCATAGAACAAACCTTGCACACGACCAAAGCGAATATCGCCCGGTTTGAAGATCGGTTTCCGCATGTCGGAAACGGAAACGGCAAATACCAACTGGTGGATCATACGGATTGGACGGAAGGATTTTGGCCGGGAATCCTGTGGCTGAGCTGCGAGTACGGTGAGGATTCCAATATCCGTGAAGCTGCAGTCCGATGCACGCATTCATTTCAAGCAAGATTAGCGGAGCATAAAAATCTGGATCATCACGATATCGGTTTCTTGTATTCTTTATCCGCCCTGGCGCAATGGATGGTTGAACGGGACGAAGCGGCCAAGATCACGGCTCTTCAGGCGGCTGATGCGCTCATGAGACGATGGAGGCCCACGCTTCAGCTTATCCAGGCATGGGGCCCTGAACATGACCTTCAAAACGCCGGCCGGATCATCATCGACTGCTTGATGAATTTGCCTTTGTTGTGCTGGGCAACCGAACAGACAGGGAGATCGGCATATGCCGAAGTCGCCCGTATTCATGCTGACAAAAGCCTGAAGTTCCTGGTTCGCGGTGATGCCTCATCCTATCATACCTTTTATTTTGATCCCGAATCGGGGGATGCCGTGCGCGGAGGTACCCACCAAGGATTTCAGGATGGTTCGACGTGGTCGCGGGGGCAGGCTTGGGGCATTTATGGATTCGCGCTGGCCTACCGTTATTTCGAAGAACCGCAATACTTGGACACGGCGATTCGAATGGCGCGTTATTTCATCGACCGCCTTCCGGATGATCATGTCGCCTACTGGGATTTCGACGTTCCGCCAACGGCACTCACGCCTAAAGACAGCTCTGCTTCTGCGATTGCCTCTTGCGGGATGCTGGAAATCGCCGACCAGCTGTCAAGCGATGATCCCCGCAGGGAATTTCTCCTTGATGCCGTTCGGCGTTCCATGGATTCCATGGTACAGGGATATTTTACGAAGGGTAATCCGGACGAAGAAGGCTTTTTGCGGCATGGTTCGTATTTTGTCAGAGGGGGAATTGCGCCGGACGATTTTGTCATCTGGGGCGATTATTTCTTCCTGGAAGCGCTCATGCGTTTAAACAACGGGCGGCCCGGCTACTGGTACGAACCCAAGAGGGAAAAACAATAG	MDWNAIIEQTLHTTKANIARFEDRFPHVGNGNGKYQLVDHTDWTEGFWPGILWLSCEYGEDSNIREAAVRCTHSFQARLAEHKNLDHHDIGFLYSLSALAQWMVERDEAAKITALQAADALMRRWRPTLQLIQAWGPEHDLQNAGRIIIDCLMNLPLLCWATEQTGRSAYAEVARIHADKSLKFLVRGDASSYHTFYFDPESGDAVRGGTHQGFQDGSTWSRGQAWGIYGFALAYRYFEEPQYLDTAIRMARYFIDRLPDDHVAYWDFDVPPTALTPKDSSASAIASCGMLEIADQLSSDDPRREFLLDAVRRSMDSMVQGYFTKGNPDEEGFLRHGSYFVRGGIAPDDFVIWGDYFFLEALMRLNNGRPGYWYEPKREKQ	PGPT0019355_737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
AK002_02863	1230			Cytochrome P450(MEG)	ATGAATCATGAAATCATCTCCTTAGAGGAAATCACGCAATTCCGTTCACCGATCGAAGAATTCAATCCTTATGAATGGTACAAACACAAATTGCAGCATGAGCCCATCGTTTATAATCAGGCGACCCAAACCTGGAACGTCTTCCGGTACGATGACGTCAAGAGGGTTCTCAAGGATCATGAATATTTCTCTAGTGTAAGAACACGGACGATGATCAGCGTTGGCGCCGATAATGACGAAGGCCAGAAAATGAGCAAAATCAACCTGCAATCCGACCCCCCGGAACACCAAAAAAGCCGTGCCCTGATATCCGCCGCTTTCACCCCTCGCAGCTTGAAGCTCTGGGAGCCGCGCATTCAAGAGATTGCAGACCAGCTTCTGCAGGAAATGGGTGAAGCCCATGTCATTGATATCGTCCAACATTATGCCAGTGCGCTGCCGACAATCGTCATAGCGGATCTGCTCGGAGTCCCTTCCGAAGACCGGTTATTATTCAAGGAGTGGGTAAACCATCTGTTCCTTCCCCTGCCCAAAAACCATTCGGAAGATGTACAAGAACTGAAACGTCATGCTGCCAAGGAATATTACAACTATCTCTATCCTCATATCGTCCAAAAAAGAGCCAATCTCGCGGACGATATCATCTCCGACCTCATTCAAGCCGAGGTGGACGGGGATCGGTTATCGGACGATGAGATCGTCAGAACGACGATGTTTATCCTGGGCGCAGGCATTGAAACAACGACTCATCTGCTAGCCAATACGTTTTATTCCTTCTTATATGACAACAACCAAATTTACGGGGAAATCCAGGCTAACCGCGAGCTTCTTCCCAATGCCATCGAGGAAATGCTCCGCTATCGGTTTAACATTGCAAAAATGGATCGAACCGTCAAACAGGACAATCATGTACTCGGCGTGGATATGAAACAAGGGGATCTCGTCGTCGCTTGGATGAGTGCTGCCAATATGGATGAAGAGGTATTTGAGGATCCCTTCACCTTGAACATCCACCGTGCCAATAACAAAAAGCATCTAACCTTTGGGAATGGCGCTCACTTCTGCCTGGGTGCTCCGCTAGCACGGCTGGAAGCAAATATTGCGATAAGCAGGTTCATGGATTTCTTCCCGCGCATTGAACCCGTTCCTGAATTTAAACTGGAAGATAACCTGAGTCCTTCTGCGGCAGGACAAATGTTGACTCAGCTTCCTATCCGTGTTCATCGGTAA	MNHEIISLEEITQFRSPIEEFNPYEWYKHKLQHEPIVYNQATQTWNVFRYDDVKRVLKDHEYFSSVRTRTMISVGADNDEGQKMSKINLQSDPPEHQKSRALISAAFTPRSLKLWEPRIQEIADQLLQEMGEAHVIDIVQHYASALPTIVIADLLGVPSEDRLLFKEWVNHLFLPLPKNHSEDVQELKRHAAKEYYNYLYPHIVQKRANLADDIISDLIQAEVDGDRLSDDEIVRTTMFILGAGIETTTHLLANTFYSFLYDNNQIYGEIQANRELLPNAIEEMLRYRFNIAKMDRTVKQDNHVLGVDMKQGDLVVAWMSAANMDEEVFEDPFTLNIHRANNKKHLTFGNGAHFCLGAPLARLEANIAISRFMDFFPRIEPVPEFKLEDNLSPSAAGQMLTQLPIRVHR	PGPT0006750_18	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION-CYTOCHROME_P450,PGPT0006750-cyp106A2|yjiB-K21113	NA	NA
AK002_02864	510			hypothetical protein	ATGTATCTTGAACTTCTCATTCTGATCCAAATCGATAAATCCCCGAAACACGGGTATGAAATAAAAAAAGAAATACAGAAAGATCTCGGTTATTTGATGGACGTGAATCACAACATGTTATACCCGACATTACGAAAATTTACGGATGAGGGATTTGTTCGTAAACAACGAAATGAGCAGGTAGGCAGACCGAATCAGTATGTATATGAAATTACAGAAGCAGGGAGGGAACAAATCGCAAACCTCATTAACGAATTCACCGAAAAAGATGCAAAACATCAAATCGAATTCATGGTTAGAGTGTCCCTGTTCGATCGCATTTCGAAGGAGGACCGGAATCGGATTTTACATAGGAGAAAGAAGGACTTGGAGGAGCTGCTGTCAGATATCGAGAGGAGACTGGATAAAGGCGGGGACGAGTTGTTCCGAGACGAGGTTCTACTATATTCGGTCTCACAGGTGCAAGGCGAATTGGCGTGGATCGATAGGCTGGTCAGCAGATTAACCTGA	MYLELLILIQIDKSPKHGYEIKKEIQKDLGYLMDVNHNMLYPTLRKFTDEGFVRKQRNEQVGRPNQYVYEITEAGREQIANLINEFTEKDAKHQIEFMVRVSLFDRISKEDRNRILHRRKKDLEELLSDIERRLDKGGDELFRDEVLLYSVSQVQGELAWIDRLVSRLT				NA	NA	NA	NA	NA
AK002_02865	639			hypothetical protein	TTGAGCGCAAAACAATGGATCGCAAGATGGGATACGGAGCAAACCACCGAAGTCAATCAGGCTGTGGCTGCGGTTACAGGCAAACATAATATGCATAAAAAAGAACGGAGATTCCCTTCCTCTCCCTTTGGATTGACAGATGCAGGGCAAGAGGATTTCCGAGGTGTCACTTTGAGCGAGATTATCCAGTACCTGGATGTTCAGCATGTTGATTTATCTTTTGCCAAGTTTATGGACGGAACGGGTCTGAACTCATCCAGGTTCACGCATTGCCGCTTTGATGGAATGAAACTTGGCGGTTCGTTTGTGACGCGTCATTTCAATCATTGTTCGTTTCGAAAAACAAATTTAAAAAAAGCCCGGATTGGAGAAAGGTTTGAGGATTGCGATTTTACCGGAGCCAATTTAAGTCACGCCATCGCACGCGACGCGGCCTTCGTTCGATGTAACTTCTCCAATGTTAATTTTCGCGGAGCACATCTGATGTACTGCCTCTTTGAAGAATGCAGCTTCAATGAAGCAATCTTTCATAACGGCTCCTTATCCGGAAGCCGGTTTGTAAGTGAAACAGAAGCTCTACCGGTTTGGGATAATACGATTATGGAGCATGTCAAGATCAACGGAAAACCCTTTGCTTAA	MSAKQWIARWDTEQTTEVNQAVAAVTGKHNMHKKERRFPSSPFGLTDAGQEDFRGVTLSEIIQYLDVQHVDLSFAKFMDGTGLNSSRFTHCRFDGMKLGGSFVTRHFNHCSFRKTNLKKARIGERFEDCDFTGANLSHAIARDAAFVRCNFSNVNFRGAHLMYCLFEECSFNEAIFHNGSLSGSRFVSETEALPVWDNTIMEHVKINGKPFA	PGPT0028050_310	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
AK002_02866	1656			hypothetical protein	ATGGATCAGACACTGGAAACACTTTTGGGCGAAATGAAACAGGAGATCGACAAATGGATGGCCTATATCAGCGATAAAAACGCGGAGGACATCGTAAAGCGTACTTCGCTGCAGATCGGGATTCACGACTATGCGCTGCTCGAATATGACAAGGGCAGGGTGAGCATGACGGATCATGACCTGGACTTATCGATGCCGATAGACAGGGGGACACCTGGTGAGCCGCTGACCGAAGAACATGTGCGAGAGCACATCGTTCCTGAGCTGTCCACTTATATGCAGCATAAATTGGACGAGATGCCGAGCTCTTTAATCGATTATCAGTTTACGTTTAACGGCAAGTTTCGAGTGCGTGAAGGCGACCTGAACCTTTGCATTCTTACATATGCAGATGAGACAAAGAAGAAGCAATTACGGGAACGAATCGCAACCTATATTGCCAATAAGCTAGAAGCGGGAACCTATCCGACGAAACCGTTGGAGACGTTTTTCCTGTCCAGGCACATCCTGGACGAGGAACTGTTTCCTGACGCAGATCCTGCATGGATCATTGCCGTTTTTGAGCGGGTTCAGCAATTGAACAAAGGGAACCAACATCTCGCAGAGCATCGTGCTTATCTAGTTAAGGCTTTGCGGAATTGGGCTGAGCAGCATTGGCTTCCGCGTTATTTCGATAATATCGGAACGCAATGGCAGCCAGAATACAAGAAAAAAATCGACATTCATTTGGAAAATACCGAGCAGGGTCCAATCGAACTGCTGATTTACGCGGCCATCCTGATTCTGAAATACGAGCCCTCTTATAGCAGAAGCACAGGATTGGCTATGTTGAATTGCGCCAAAGAACTCGGGAGCGAACGGGCCAGACGATTGATTAAGGAAGGAAGCGGGACCTTCGCCAAGGAAGACGTCTGTTTGCGTGACGAAATGGTGGACTGCACGGCCAACGATGTGTTTGCCGAGGTCTCCATAGCCATTAAGCAGGAAACGGGGGAGAGTTATGCTCGCGCGCTCCGGTTTCTGACACGCCTCCTCAGCTTGGGATTCCCGAAAAGCTATCAAATCAAATTGAAATCCTCGGTCAAGCAGTGGCTGCCGATCAAAGGATTGGCTAAGTCGGGAACGCATCGGTTCTTCGCCAACGCTTTGGAATACCCGGAATTCTATCCCTTCATGGTGGTGTATGCCAAAGCAGCGATGGAGCCGTTTGAATGGTATGCGGATACGGAAGGGGAGAAAAACTGCATGCCGGGAAGCTATGCCGTCTTTGGCCTCGGATTGATGGATGAAAAGTTTTTCCCGCTGGTGGAAGAATACATGGGCAAAGTCGATGACGAACACCAATCCGTTCAAAACCATTTCACGGTTGCTTTTAAAGAGCGGCATGGTGTTCGTACAGAAACCATTCCAACCTTGATAAAGTGCATGCTGCACTGCACCGATTCGATGAAACTGAAGATCCAATCGGACATGGAACACGATCTCAACGTCAGGCTGCTGCTCGATCAAGTTCGCAGCCTCCCGTATTACCAGGTGGAGCATATCGTATATTTGATCTGGGGCGGTACGGACAAGCTGAAGAAGATAGCCGCCAAAGCCGAAGGGGAGAGGGCGCAGTGGCTCACCGAGCTGGCGGAGGCCGCCGGTCGGAAGTAA	MDQTLETLLGEMKQEIDKWMAYISDKNAEDIVKRTSLQIGIHDYALLEYDKGRVSMTDHDLDLSMPIDRGTPGEPLTEEHVREHIVPELSTYMQHKLDEMPSSLIDYQFTFNGKFRVREGDLNLCILTYADETKKKQLRERIATYIANKLEAGTYPTKPLETFFLSRHILDEELFPDADPAWIIAVFERVQQLNKGNQHLAEHRAYLVKALRNWAEQHWLPRYFDNIGTQWQPEYKKKIDIHLENTEQGPIELLIYAAILILKYEPSYSRSTGLAMLNCAKELGSERARRLIKEGSGTFAKEDVCLRDEMVDCTANDVFAEVSIAIKQETGESYARALRFLTRLLSLGFPKSYQIKLKSSVKQWLPIKGLAKSGTHRFFANALEYPEFYPFMVVYAKAAMEPFEWYADTEGEKNCMPGSYAVFGLGLMDEKFFPLVEEYMGKVDDEHQSVQNHFTVAFKERHGVRTETIPTLIKCMLHCTDSMKLKIQSDMEHDLNVRLLLDQVRSLPYYQVEHIVYLIWGGTDKLKKIAAKAEGERAQWLTELAEAAGRK				NA	NA	NA	NA	NA
AK002_02867	489			hypothetical protein	ATGGGCGCGAGCCAGCGAGCGGAATGGATCGTTTCTATCAAGCCGCGAATTCTGGCCGCCCAGGGAAACGCCACCGGCGAAACGCTGGAATGGATGAAAACGGATAAGAAGCCGCTGGAATTCAACAACCATTTCGACGCAGTCAGCAGAAGATACATCGGAGTGCTCAAGGAGTTGTTTCCCGAGTTCGAGTACGGATGGTTTGATTATTATCTCGACCATGTGCCGAACTACATGCCTTATATGACGCCGGACAACATTACGATGATTTCGGTCGGCGCACACTCCAAGCATAAGGAAATTGCGCTTAAGCTGATCGAGAAGGCCCACACGGATCGTACATACTACAATCTCCTGCTGTATGGCGTGGAAGGGGAGAACTACAATCTGGAGGGGGATTACATCAGCTACGCGGGCATCAAGTCGGAGAACAATAAGCCGGGCTGGACGGGATTGTATGACGGCAGCATGAGCCAATCGGAAAAATAA	MGASQRAEWIVSIKPRILAAQGNATGETLEWMKTDKKPLEFNNHFDAVSRRYIGVLKELFPEFEYGWFDYYLDHVPNYMPYMTPDNITMISVGAHSKHKEIALKLIEKAHTDRTYYNLLLYGVEGENYNLEGDYISYAGIKSENNKPGWTGLYDGSMSQSEK	PGPT0017245_2645	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02868	168			hypothetical protein	ATGGAGGCAGTCAGATCGCATTACATCGTACCGCTGTCCGTCGGCATGTCCGAAGGTAGCGATGCTGATCTTGCGCTTGCGAGGCAGCAGATGAGCGAAGCTGGATTCCCGAGCTTCATGGAGGAGCTGCAGAATCAGCTGGATGCATTCGCTGCCATGAAACGATAG	MEAVRSHYIVPLSVGMSEGSDADLALARQQMSEAGFPSFMEELQNQLDAFAAMKR	PGPT0017245_2645	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02869	1371			hypothetical protein	ATGACGAATTCCAATAGAAACCTTAATGCTGAACCAGAACGCATCGAACGCATCCCTACAACCCTTACCGGTGATGGTGCCTGGTGCTGGTTTGCCGATCCGAGGGCGCTGCGACATGTCAATGCCTCAACGGGCAGCGACAAGACATACATCGGGTACATCGATGTTGCGGGCAGCATCCAGGCGGTTCAATATGATCATGTGTCCCAAGAACGAAAGCAAGTGCGAGTGCGAGCAGGTTTCCAGCAGGATGACCATAATAATCCGACGTTTTTGGCACTGCCCGACGGCCGGGTGATGATTTTTTATTCCGAGCACTCGACAACCCCATATTTTTATTATCGCGTCACAGCCCGTCCTGACGATCTAGAAACCTTAGGGCCTGAAAAAATCATCGCTACCACGGGATATGGGAACACCACCTATCCTTCTCCCTTCGTGATGACGGATCAGCCCGGTTATTTCTATCTGCTGTGGCGGGGCATGAATTGGCACCCGACCGTCGCTAGGTACACGCTGCCGGATCCGGATGGCGACGTCACTTGCGACATGGAACCGAAACAGATCGTGGATTCCAGGGGTTCTGAACAAGAAACCGGAAAAAGGCCGTATGCCAAGTACGAAACGAACGGCAAAGACAAAATTATGATGTCGTATACCTATACACATCCGGACAATATGATTCCGAATTCATTGTACTATTCGTATTTGGACGTGAATACCCTGACGCTGCATGGCGCTGATGGACATCAGCTCGCAGATCTGAACCGCGGGCCGCTGAAGCTGGATAACAAAGAAACCGATCCGGCCCACTTGGTCGATCGCCAGCCGGGCATACGCAACTGGAACTGGGATATAGCCGTCGATAAAGAGGGATACCCGGTGATCTTGTTTGTTAGGATCAATGGGGATAAGGATCGCCACCATTATTGTTACGCTAAGTGGTCCGGCTCCGATTGGCGGATTACACCGTTGGCGGATGGCGGACGATGGTTCCACCAAAATGATCAAAGAGAATTATGCTATTCCGGGGGCATGACGCTGGATCATAACAACCCTTCCACCGTGTACATGTCAATCCCTGTAAAGGGTACATACGGTGAGGTTTTCGAAATTCATCAATGCGTCATTGCGCATGACGGGACGATCGCCGAAATAAACCAAGTCACCGAAAACTCGACTCATAACAACGTTCGACCTTTCGTTGTCCGCCATGCAGCTCTGGGCGAAGCGTATGATTTGATATGGATGCACGGGGATTACTACTATTGGGATCATTCGCAAGGGCGATTGGGTTATACGACGGGGCTGCGAACCTTGTGTGAAATCGTAGCGATTGAAGACGAAGGGAAGACCGATCCTTCGGCATAA	MTNSNRNLNAEPERIERIPTTLTGDGAWCWFADPRALRHVNASTGSDKTYIGYIDVAGSIQAVQYDHVSQERKQVRVRAGFQQDDHNNPTFLALPDGRVMIFYSEHSTTPYFYYRVTARPDDLETLGPEKIIATTGYGNTTYPSPFVMTDQPGYFYLLWRGMNWHPTVARYTLPDPDGDVTCDMEPKQIVDSRGSEQETGKRPYAKYETNGKDKIMMSYTYTHPDNMIPNSLYYSYLDVNTLTLHGADGHQLADLNRGPLKLDNKETDPAHLVDRQPGIRNWNWDIAVDKEGYPVILFVRINGDKDRHHYCYAKWSGSDWRITPLADGGRWFHQNDQRELCYSGGMTLDHNNPSTVYMSIPVKGTYGEVFEIHQCVIAHDGTIAEINQVTENSTHNNVRPFVVRHAALGEAYDLIWMHGDYYYWDHSQGRLGYTTGLRTLCEIVAIEDEGKTDPSA				NA	NA	NA	NA	NA
AK002_02870	639			hypothetical protein	ATGCAATTCGAACAACAGCAAAATCATCAGAACATGGAAACCGGCATGATTCCACCGCAATTGAACCATGGCGGTCATGAAATGTTCGATGTCCACGAGGTACTGGCAGGAGCCATCAACACGATGAACACGTATACCATGCTGAGCGGACATGTGCAGGATCCGGAGCTTCGGGATATCTTGCAGCGTCAAAAGCAATTTATGGCGGATGAATATAATATCACCTTAGAATGCTTCAAAACAGGACAAGATCCATCCAAGTCGACGCAAAGCTATAAAATGAAGCAGGGGAACGACTTCATCTACGGCATGAAACCGGGACAACCGAAAAAACCGATGCAGTCCACTGCCGAGATCAATGATGAAACCGTCGCGCTCAGCATGCTGAACGCCGTGAAATCCGGCGCTACCATGAAAACGAATGCAGCGATGGAATCCACGAATCCGGTTGTGCGCCGCGTTCTAGCGGATTCCCTTCCCAATTGCATCGAAATGGCGTATGAAATTTCGCTGTATCAAAACAAGCACGGCTACTATCAAGTGCCGCAGCTGCCTCAGCAAGATATGCAGTACATGCAGAATAGCTACGCCACGGCTCCGATCCAGTCGCAAATGCCAGGTAAAATGGCTCCTCACTAA	MQFEQQQNHQNMETGMIPPQLNHGGHEMFDVHEVLAGAINTMNTYTMLSGHVQDPELRDILQRQKQFMADEYNITLECFKTGQDPSKSTQSYKMKQGNDFIYGMKPGQPKKPMQSTAEINDETVALSMLNAVKSGATMKTNAAMESTNPVVRRVLADSLPNCIEMAYEISLYQNKHGYYQVPQLPQQDMQYMQNSYATAPIQSQMPGKMAPH				NA	NA	NA	NA	NA
AK002_02871	1623	btr_1	COG0614	HTH-type transcriptional activator Btr	ATGGAGGAAACGCAATATTCGCTGTTGGGAGTACGGTACATAAAGCAAGGTCACGCCGAAGAGCCAGTCGGGGGTTTCATGGAGACGCATACCCTATACCTGATCCATAAAGGCTCCGGCGACTTATATTTGAACGGAGGAAAGCACCGACTGAAGGCGAAGGCTGTCTGTTATTGTCCGCCGGGTTCGATTGCCGATGTTCGCCGGACGACGTCCTCGCCGGCCCCGCTGGAGGTTTACGAATTGCGGTATGAAGTATGGGATCTCGAGGAGAGCACTGGGTGCAACAAAGTCTACATCAAGAATTTGTCTGCGCTGATGGACACCGGCAAACTTCCCTTCGCCGCAACGCACGAAGCTCTTGTACTGATTCAAGAACTAAGCCAACGAATGCAAGATCAAGGAGAAGTCGGGGGTCTTGCAGCTCGTCTATGCATCGACGCGGTATTCAAACAGTTATTGAGTGTGCTGCTACGATCAACGGACGATAAGAATCGGGAAGAGGATTGGCTTGAGCGTATGAGACTTACGGTGGATTATATGGAGAAGCACTATCACATAGCCTTGACGCGCAACGACATGGCAAAGAGAGCGGGATTTACGCCGGAGCACTTTTCCGTATCGTTCAAAAAAGCAACGGGCTCCGGTTTCACGGAGTATTTGACGCGGCTGCGACTAGAGAAAGCCAGAGAGGCATTGCTTGACGGCGACGATCGCAATCTCGACCGCATCGCACGGGAGGTCGGTTACCAAGACGGTATGTATTTAAGTCGGAAATTCAAGCAGCATTTCGGTCACTCTCCACGCGATTATATGCTGCGGCCAAAGCGCATTGTAGCGCTGCAATACCTGGGCCACCTGCTGGCGCTCGGACTTATGCCCGTGGGAACGTCATCGAATCTGCTGCGCGCCCGCCCCTACAGGGGAATGCTTAAGCATGTAGTGGATATCGGAGATGCCAAATCGCACCATGCGATTGCGTCCGTGCAGCCTGATCTGATCGTTACGTCCGGACCCAACAGCGAGCCTTTGTCCCAGCTTGCTGCAACCATCTCGCTTCCTTGGGGGCAGGAAGACCCTTTGGACGAGTTGCTTCGGTTAGGCAGAGGGCTGAATCGCGAGAGAGAGGCGAATAACTGGATTTCTGCGTTTCGTGCGAAAGAGGAAGCTGCAGCCTCGTTAGTCGCTGACAGAATCCGTACTAATAACGCGACGGCAGTTGTACTGGAGTTTTGGCAGGACCGGTTATGGGCGGTCAATATCGCCTATGGCAGAGGCCTTCGCAATTTGTACCGGACCTTTTCCTTTCGGCCGCCGGAGCCGCTGACTGATTACGTCCTGGGAGAAGGAATCGGCTTGGAATTAACGCCGGATATGCTTGCCGCGCATGCGGCGGATTATATATTCGTAACCGTGTGGGAAGCGGGTGGAGGTGCAGCATATGCGAAACGGGTTATGAACAGCAAGGAATGGAGGAGCCTTCCCGCCGTTCGCAACGGCAACGTGTTCTTACTTGATCTGGAGCTGTTTAAGCATAATGACCCGTTAGCGTTGGAGCAGCAATTGAGCATCCAAACCGAACTTCTTACAAATGTCCATACAACCGCAAACGGAGCGCAATAG	MEETQYSLLGVRYIKQGHAEEPVGGFMETHTLYLIHKGSGDLYLNGGKHRLKAKAVCYCPPGSIADVRRTTSSPAPLEVYELRYEVWDLEESTGCNKVYIKNLSALMDTGKLPFAATHEALVLIQELSQRMQDQGEVGGLAARLCIDAVFKQLLSVLLRSTDDKNREEDWLERMRLTVDYMEKHYHIALTRNDMAKRAGFTPEHFSVSFKKATGSGFTEYLTRLRLEKAREALLDGDDRNLDRIAREVGYQDGMYLSRKFKQHFGHSPRDYMLRPKRIVALQYLGHLLALGLMPVGTSSNLLRARPYRGMLKHVVDIGDAKSHHAIASVQPDLIVTSGPNSEPLSQLAATISLPWGQEDPLDELLRLGRGLNREREANNWISAFRAKEEAAASLVADRIRTNNATAVVLEFWQDRLWAVNIAYGRGLRNLYRTFSFRPPEPLTDYVLGEGIGLELTPDMLAAHAADYIFVTVWEAGGGAAYAKRVMNSKEWRSLPAVRNGNVFLLDLELFKHNDPLALEQQLSIQTELLTNVHTTANGAQ	PGPT0003170_136	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003170-btr|ybbB-K21701	NA	NA
AK002_02872	960	yxeB_1	COG0614	Iron(3+)-hydroxamate-binding protein YxeB	ATGCAGTGGCTTAAAGAATTGAAACTGGCTCTGATCGGAAGTCTGGTCATCGTTTTGGTAGCATGTGGGGACTCGGGGCAGCAAAGCGAGAAGGTGGTGGACCAAGCGGGCCAACAACCAGCAGCAACGCGCAAATTCGAAACGGTCATGGGAGAGATCGAGATTCCGAAGGAACCGAAGCGAATCGTTGCGACGCAATATCTGGGCCATCTGTTGACCTTGGGCGTTAAGCCGGTCGGGGCAGGTACGGCCAGCTTGAATCAATATTTTTTGCAGGACCTGACGGACGGAATCGAGGATATCGGCGATGATCAAGCGGCGCTTGAGAAAATCGTGTCCCTTGATCCCGACCTTATCATTCGGCCTTCAGACAAGAATTATGAACAATTCGCCAAAATCGCACCGACGATTGTCATTCCATGGGGAGCTAAGGATTTGTATGCAGAGCTGCGGGAATTCGGCGATTTTCTCGGGAAATCGGAGGAAGCCGAGGAGGCAATCCGGCATTACGAGGAGAAGCTGGCGGAGGCCAAAACCAAGCTGAACGGCGTGGTCAAGGAAGGAGAGACCGTTGGCGTTTATGAGATTTGGGCGAAAAACTTCTGGGTTGTGGGAGAAAGCTTTGGCCGCGGAACCCGTAATCTCTATTCCGGTCTTGGCTATCAGCCGCCTGAAGCCGTGAAAGGGCAGGTCGTAAACGGAGGCGCAGGCTTGGACATTTCGCTGGAATCGCTGCCGGACATGGCCGCAGATTACATGTTTGTGACCGTCTACGATGCGGACGGGGGTGGGGATCGAGCCAACGAGATATTGGAGAGTGCGCTGTGGAAATCCCTTCCGGCTTACAAAAACAACCGCATTTACACGCTGGATATCAACCAGTTCTCCGCAGGCGACCTGATCTCGCTTGAAAAGCAATTGGAGATTCAGACGAATCTGCTGCTCGGCAGCGTGAAGTAG	MQWLKELKLALIGSLVIVLVACGDSGQQSEKVVDQAGQQPAATRKFETVMGEIEIPKEPKRIVATQYLGHLLTLGVKPVGAGTASLNQYFLQDLTDGIEDIGDDQAALEKIVSLDPDLIIRPSDKNYEQFAKIAPTIVIPWGAKDLYAELREFGDFLGKSEEAEEAIRHYEEKLAEAKTKLNGVVKEGETVGVYEIWAKNFWVVGESFGRGTRNLYSGLGYQPPEAVKGQVVNGGAGLDISLESLPDMAADYMFVTVYDADGGGDRANEILESALWKSLPAYKNNRIYTLDINQFSAGDLISLEKQLEIQTNLLLGSVK	PGPT0003765_7841	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
AK002_02873	1500	mqo1		putative malate:quinone oxidoreductase 1	ATGAGCAACATGGACAAAAAAACAGACGTAATTTTGATTGGTGCCGGCGTCATGAGCGCGACATTGGGAGCCTTATTGAAGGAGCTAGTGCCCGAATGGGAGATCAAAGTGTTCGAGAAACTCGCAAGCGCGGGGGAAGAAAGCTCCAATGAATGGAATAATGCGGGGACCGGACATTCCGCACTATGCGAGCTTAACTATACGTCCGAAAAACCTGACGGATCTATAGACATCAGCAAAGCGATCAACATCAACGAGCAGTTTCAGGTTTCAAGGCAGTTCTGGTCTTATCTGGTAAGCAGCAATCTGATTCGCAATCCGCAGGACTTTATCATGCCTATACCTCATATGAGCTTGGTTCAAGGCGAAAAAGACGTGGCTTTTTTGAAAAAACGTTTTGAAGCGCTGTCAAATCATCCTCTCTTTCAAGGGATGGAATACTCCGAGGATCCCGAGCAGCTGAAGGAATGGATTCCGCTTATTATGGAAGGGCGCACATCAAACGAACCGTTAGCGGCAACCAAAATCGATTCCGGGACGGACATTAACTTTGGCGCTTTAACGCGCATGCTGTTTGAGCATCTGAAGAACAAAGACGTGGAGGTCAACTACAAGCACAGCGTGAAGGATATCAAGCGTACTCCCGATGGCTCATGGAAAGTAAAAGTGTCGGATATCGATAACGGCAGAACCGAGTTCCATACGGCCAAGTTCGTTTTTATCGGCGGCGGAGGCGGCAGCCTGCATTTATTGCAAAAAACCGGCATCCCCGAATCCAAGCATATCGGAGGGTTCCCGGTAAGCGGACTGTTCATGGTCTGCAAGAATCAAGAAGTCGTTGCACAGCATCATGCCAAGGTATACGGAAAAGCCAAGGTCGGCGCACCTCCGATGTCGGTGCCCCATCTGGACACAAGATACATCGATAACCAAAAAGCACTGCTCTTCGGTCCGTTTGCCGGCTTCTCGCCGAAGTTCCTAAAAACGGGTTCGAATTTCGATTTGATCGGTTCCGTCAAACCGAATAACGTCTTTACGATGCTGGCGGCAGGGGTTAAAGAAATGGCGTTGACCCGATACCTGATCCAGCAGGTGGTGCTATCGAATGAGAAGCGTATGGAAGAGCTGCGCGAATTCATCCCGAACGCGAAGAGCGAGGATTGGGAAATCGTCGTGGCGGGCCAACGCGTTCAAGTCATTAAGGATACGGCTAACGGAAAGGGCACGCTGCAGTTCGGGACCGAAGTGGTTAGTGCCGCGGATGGTTCGGTCGCAGCCCTGCTCGGTGCTTCGCCCGGCGCTTCGACGGCCGTTCACGTGATGCTTGAGGTATTGCAGAAATGCTTCCCGGAGCAGATGAAGGAATGGGAACCGAAAATCAAGGAAATGATTCCTTCTTACGGGATGTCGCTTTCGAAGAATCCGGCCCTCTTCGAAGAAATTCAAGATACGACTTCAGAAACGCTAGGTTTAAGCTTAAAAGCACTGGTGCATAGTTAA	MSNMDKKTDVILIGAGVMSATLGALLKELVPEWEIKVFEKLASAGEESSNEWNNAGTGHSALCELNYTSEKPDGSIDISKAININEQFQVSRQFWSYLVSSNLIRNPQDFIMPIPHMSLVQGEKDVAFLKKRFEALSNHPLFQGMEYSEDPEQLKEWIPLIMEGRTSNEPLAATKIDSGTDINFGALTRMLFEHLKNKDVEVNYKHSVKDIKRTPDGSWKVKVSDIDNGRTEFHTAKFVFIGGGGGSLHLLQKTGIPESKHIGGFPVSGLFMVCKNQEVVAQHHAKVYGKAKVGAPPMSVPHLDTRYIDNQKALLFGPFAGFSPKFLKTGSNFDLIGSVKPNNVFTMLAAGVKEMALTRYLIQQVVLSNEKRMEELREFIPNAKSEDWEIVVAGQRVQVIKDTANGKGTLQFGTEVVSAADGSVAALLGASPGASTAVHVMLEVLQKCFPEQMKEWEPKIKEMIPSYGMSLSKNPALFEEIQDTTSETLGLSLKALVHS	PGPT0001440_1156	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
AK002_02874	1017		COG2152	Beta-1,4-mannooligosaccharide phosphorylase	ATGAAAATCACCCGGCATGCGGAAAATCCGATAGTAGTGCCTGGACTCTACGATTGGAGAAAGGTGACGGTATTCAATCCGGCCGTCATTATCGATAACGGAAAATTCTATATGATTGAACGGACGGCAGGATCCCTGACTCCCTGCAAGAACTACCTGGGTTTGCTGGAAAGCACGGACGGCGTGCATTTCACCCATGTGCTGGACGAACCGGTGGTAACGCCGGACCAGCTTGGATTCCCCTATGGCAGCATCCAGGACCCGCGAATCGTCAAGATCGACGACACCTTTTATTTGAACTATGCTTTGCGCCCGTGCGCCATGAACTATTATCCGACGGGAGCGGGCATCCCCGAACGCTCGATTCCCGAATATCCGGACGGCTGGGGCGAAGAGGAAGGCCATTGGCTGACGCGTTCCGGGATCCTGACGTCGAAGGATCTCATTCATTGGGAGTACCTGTGCGATACAACGCCGCTTGATATCAATGATCGCGACAACATTCTGTTCCCGGAGAAAATCAACGGCAAGTATGTGCTGCTTCGCAGACCGGAAGAATACGTAGGGGAGGAATACGGAACCGAAAAAGCGGCCATGTGGATCAGCTACTCCGAAGACTTGGTGCATTGGGACGAGCCGAAGCTGTTGGCAAAAGCCGAGAACAACGATTGGGAGTTTAAAAAAATCGGCGGCTCGACGCCTCCGGTGCGGACGGACAAAGGCTGGCTGGTGCTCTACCACGGCGTAGACCAAGATACGGTGTATCGCGTGGGGGCTTTGCTGCTGGATCTGGAGAATCCCGAGAAAATCATTGCCAGAACCCGCCGGTTCATTATGGAGCCGGAGACGTATTATGAAAAATTCGGCTATCAGATCCCGAACGTCATTTTCCCGACAGGCAATGTGGTCAAGGACGGTCTCCTCTATATCTATTACGGCGTAACCGATACGGCAATTGCCCTTGCGACGGTACCATTAGATGATTTGGTGGATTATATTTTGAACGAACCGCAATAA	MKITRHAENPIVVPGLYDWRKVTVFNPAVIIDNGKFYMIERTAGSLTPCKNYLGLLESTDGVHFTHVLDEPVVTPDQLGFPYGSIQDPRIVKIDDTFYLNYALRPCAMNYYPTGAGIPERSIPEYPDGWGEEEGHWLTRSGILTSKDLIHWEYLCDTTPLDINDRDNILFPEKINGKYVLLRRPEEYVGEEYGTEKAAMWISYSEDLVHWDEPKLLAKAENNDWEFKKIGGSTPPVRTDKGWLVLYHGVDQDTVYRVGALLLDLENPEKIIARTRRFIMEPETYYEKFGYQIPNVIFPTGNVVKDGLLYIYYGVTDTAIALATVPLDDLVDYILNEPQ				NA	NA	NA	NA	NA
AK002_02875	1296	msmE_4	COG1653	Multiple sugar-binding protein	ATGAAAACGTCTAAGAAGCTTAGAACGATGCTGCTCACCGGAACAGCTGCGCTGCTGCTCATGTCAACCGTCGCTTGCGGCTCCGGAGAGAAAGACGCTGCAGAACCGGAAAAGGTTACCTTGAACATCATGCATCCATGGACATCGCCGAACGTGGATAACGAGGTGTACAAAGAGCGGATCGCGGAGTTCGAAAAACAGCATCCCGACATTATCATCAAGCAGGACGGGGTAGCGGCTACGGAGTATAAAACGAAGCTGCGCACGTTGGCTGCCGCCAACAACCTGTCGGATATCAATGTCGTATGGCCTGGTGCCGACCTGGCTCCTCTGGTAGCCGGGGATCTGCTGATGCCGCTGGATGACCTGATGGATAACTGGAAGAATATTTTGCCGGAGGACGCATTGGCCGGATTTAACCAGAACGGCAATCAATTCGCCGTGCCGACCAAACAAACCTTCGTGGACATTATTTATTACAATAAAGAGATGTTCGCCGGGGTCGGTTATGACCAATTTCCGGCTACCTACGACGAATTCATCGATGCGGTGAAAAAGCTGAAGGAAGCCGGCATTACGCCGATCTCCTTGGGCAACAAAGAGAAATGGCCGCTTCAATCGTCCTTCTTGTCGATTATCGGGGACCGTTACGTAGGCAGTGACTTCTTGCAGAAAATTCTGAACAAGGAAGCCAAATTTACCGATCCCGAATACGTGAAAGCGATTGCCGTCATCGACGAACTGTCCAAGCTGGGAGCATTCAATACGGATGCGAACAACATGGATTCCGTCCAAGGGCAGGACTACTTCATTCAAGGCAAGGCAGCGATGCATATCTCTTCTTCTACCGTTGACGGAAGAATCCGCATCAACAACGAGGAAGGGGACAAATTCGGCATTGCGCTTTTCCCGAGCGTCCCTGGCGGATCCGGCGATCCGGTGAAAAGCGCGGGCGTCGTTCAGTACGGCATCTCCATTAAAAAAGGATTGAGCGATGAAAAGAAAGCGGCTGCCGAGGAATTCATTAAGTTTTTTGTCAATGAGGACCTGTACAAAGATCTGATCAGTAAAGGCGTTGTTGTACCGGCCAACGTTGAAATTCCTGAAGATGCGAGCCCGTATCTCAAGGAGATGCTGGAGTTGACCAACAAGGGAACGGCACCGGTGTTCGACAGCGTCATTCCGACGCAAGTTACCGACGTCATGCAGAACGGATTGCAGGCTCTGACCATCGGCAGAGGGACGCCGGAGGAGCTCGCCCAAGAGGTTCAGGAAGCTTTCGACAGCATGAAGTAA	MKTSKKLRTMLLTGTAALLLMSTVACGSGEKDAAEPEKVTLNIMHPWTSPNVDNEVYKERIAEFEKQHPDIIIKQDGVAATEYKTKLRTLAAANNLSDINVVWPGADLAPLVAGDLLMPLDDLMDNWKNILPEDALAGFNQNGNQFAVPTKQTFVDIIYYNKEMFAGVGYDQFPATYDEFIDAVKKLKEAGITPISLGNKEKWPLQSSFLSIIGDRYVGSDFLQKILNKEAKFTDPEYVKAIAVIDELSKLGAFNTDANNMDSVQGQDYFIQGKAAMHISSSTVDGRIRINNEEGDKFGIALFPSVPGGSGDPVKSAGVVQYGISIKKGLSDEKKAAAEEFIKFFVNEDLYKDLISKGVVVPANVEIPEDASPYLKEMLELTNKGTAPVFDSVIPTQVTDVMQNGLQALTIGRGTPEELAQEVQEAFDSMK	PGPT0016330_1736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_02876	873	ngcF_5	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGCATACGCTTAAGCATACGAAATGGGCTATATTCTTGGGCTTGGCGCCAGCACTCATTATCTATATATGTATTGCCATATTTCCCATCGGCTTATCGGTATATTATTCATTAATGAACTGGGACGGAATCACGCCCATGCGTTTTATCGGGCTGGACAATTTCGTGGATATTTTCAAGGACGATATTTTTTGGCTGTCCGTTAAGAACAACATCATTATCATGTTTACCGGAATAGCGGGTCAGATCCCGCTTGGCCTGCTGCTGGCCCTGCTGCTGAATCGCGGGCTTAAGGGCTCCAGTTTCTTCCGGACCATCGGATTCCTGCCGGTCGTCATTTCATCGGTTATGGTATCCCTTATCTGGGGCATGGTGTACAACACGGAATACGGAATGCTGAATAACCTGCTTAGCGCTGTGGGTCTTGAGAGCTGGCAGCAAAATTGGCTGGGCGATCCGTTCTGGTCCATGATTTCCATCAGCATCGCTTATATATGGCAAAACTGCGGTTTATTTATGATCATTCTATTGGCCGCATTGCAGAATATCCCCGATGAAGTCAATGAGGCGGCTGCCCTGGACGGGGCGACCGGACTAAGCCGAATCATGCGGATTACGATCCCGATGATCCGAGGAACATTGCTCGTCTCCGTAGTCTACAGCATCAGCAATTCGTTCCGCGTGTTCGATCTGATCCAGATCATGACGGGCGGCGGACCGGCACATGCGACGGAGGTTATGACCGTCTATATGTACAACAACTCGTTTATGAATATGAGATTCGGCTACGGCAGCGCGGTATCCGTATTGATTCTGCTGTTTAGCCTTATCGTCATCACGATCGTAAATCGATTGGCGAGAGAAAAGGAATAG	MHTLKHTKWAIFLGLAPALIIYICIAIFPIGLSVYYSLMNWDGITPMRFIGLDNFVDIFKDDIFWLSVKNNIIIMFTGIAGQIPLGLLLALLLNRGLKGSSFFRTIGFLPVVISSVMVSLIWGMVYNTEYGMLNNLLSAVGLESWQQNWLGDPFWSMISISIAYIWQNCGLFMIILLAALQNIPDEVNEAAALDGATGLSRIMRITIPMIRGTLLVSVVYSISNSFRVFDLIQIMTGGGPAHATEVMTVYMYNNSFMNMRFGYGSAVSVLILLFSLIVITIVNRLAREKE	PGPT0016335_2194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_02877	831	ngcG_11	COG0395	Diacetylchitobiose uptake system permease protein NgcG	ATGTACAGACAAACGAAATGGTTCCATTTATCGGCATACACTTTTTTGGGGATATTCGCTATTATTAATATAATCCCTTTCTTTTGGATGATCGTAGATTCGTTCAAAACCGAGCAGGAATATGCGGCGAACCCGTTCTCCATACCGACCGAGCTGCAGTTCTCCAATTACGCGAAGGCATGGGAAGTGGCGAATATGGATACCTACTTCCTTAACAGCATCATCGTAACGGTCGTATCGTTGGTCGTGACGGTCCTTCTCGGATCGCTTGCGGCGTACTTCTTGGCAAGGTTCAATTTTAAGCTGCGCGGTGCAACTTACGCGATATTTCTGCTGGGCATGGTCGTTCCGATTCATGCGACCTTGATTCCGATTTTCTTGATCATGCGGAATCTGCATTTGCTGGATACCCACTTATCGCTGATTCTTCCTTACACGGCGTTCCATTTGTCCTTGACGATCTTTATCCTGGAGGGTTTCATGAGAGGGTTTCCGAAGGATTTGGAGGAGTCGGGCGTCATGGACGGCGCGGGCGTATTCAAGATTTTCTGGTCGATCATATTACCGATCACGCGTCCGGCGATTTCAACCGTCGTGATCTTGAACTTTATCTATAATTGGAACGAGTATTTGTTCGCACTCGTCTTGATCAGTTCATCGTCGCTGAAAACATTACCGCTTGGCCTTGCCAACTTTGTCGGCATTGAGACGGCCAGCCTTACGCTGCAAATGGCTGCGTTGACGATCGCGCTTATACCGATCATTATATTTTACCTGCTCCTGCAAAAGCAACTCGTTAACGGCATGACGGCAGGCGCAGTTAAAGGTTAA	MYRQTKWFHLSAYTFLGIFAIINIIPFFWMIVDSFKTEQEYAANPFSIPTELQFSNYAKAWEVANMDTYFLNSIIVTVVSLVVTVLLGSLAAYFLARFNFKLRGATYAIFLLGMVVPIHATLIPIFLIMRNLHLLDTHLSLILPYTAFHLSLTIFILEGFMRGFPKDLEESGVMDGAGVFKIFWSIILPITRPAISTVVILNFIYNWNEYLFALVLISSSSLKTLPLGLANFVGIETASLTLQMAALTIALIPIIIFYLLLQKQLVNGMTAGAVKG	PGPT0016340_1631	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_02878	1824			hypothetical protein	ATGCGCAGCAGTTTGGGCTGGATCGGGAATTATGGTCTGAAACAGAAGGCTCTGGTCATTTTCCTCTTTTTTGTCATTCTGCCTACGCTGGGGGTCGGCGTCCTCGCCCAAGACAAGCTGAACGAAGTGCTGCGCGGCCAATTTATCCAATCAAGCCAGCGCAGCCTGGAGATCGTAACGAACCAGCTGGAAGAACAAACGGCCATGATCGAGGATATAGCCGATTATTTGATATTGAGCAATGACATGCGCCAATACCTGCGCCTTGACCCACCGCCAGAGCGCGGGAGGGCGGAGCAGTTGAAGCAGAATCTCGAAGGATTCCTGACGTTTCAGCTCATGTCCAAAAACTATATCAAATCGATTTCGATCACCGGGTTTAACGGCAATTCCATTGAGATGGGCGAGCCGATTCACGGTAACGAAGAGTCTTGGTACCGGCTGGCGGACGAGCATAAAGGCGGAATCGTGTGGAGCAACGGTTATCCTTCCACCAGCGGCTGGTATGGTGAAGTAAACCTCGTCTCATTGTTCCGGGTTCTGAACTCCTATGACGAGATCACGCTGCCCCTGGCTAGGCTCGTCATCCGCATGGACGAAGCCAGTATTCTTAAACAGCTGCAGCGGGGGTTGACGCGGGACGAAGGCATAGTGTTCGTTGTGGATGCCGAAGGACAAATCGTACTGCCCTCCAAAGAATTGCTATCCTTAGATATCGGCGATGGGAAAGCGATTACGGATATCATAACCGCCGGGACGATGGGCTCTTCCACATACCGACACGACGGGGAAGCGTATTTGACCTTTCATCAACGGATGGAGAATACCGATTGGACGATCGTTTCCATGGTACCCAAGGCTGCGCTGGATCAGGATGTACGCGGCGTATCCATCTTGATGCAGGTCATTCTCATCGGGATTCTCCTGTTGGGTTTATCGGCCTTGATCGGATTCCACTATACGATTATCAGGCCGATCCTGCGCCTGAAGATTGAGACCAATCGCGTAAAGCTCGGCGATTTCAATGCTCGGGTACCCATTCGTTCCAAGGATGAGATCTCCGAGCTGAACCGCAGGTTTAACGATATGGTCTCAACGATTCAGGAGCTGATCGAGCATAAATACAAGCTGGAACTGCGGGAGCGCGAATCCGAGCTGCGCCTGCTGCAGGAACAGATGGACCCTCATTTTCTCTATAATACGCTGGATATGATCCGCTGGACCGCCAGGCTGGAGAAGGCCGTCGAGTCCAGCCAGCTCATCGAAATTTTGTCCCGATTCCTGCGTTCCAGTCTGAACAATGGCCATTACGAGACCAGCCTTGCTAAGGAAATGGAATTCGTACGCTCCTATTTGTATTTGCAGCAGAGACGGCTGGGGAGTAAACTGAAATATGCGCTATACATGGAATATGATCTGGCGAATTCGCTTACCTTGAAGGCTACCATTCAGCCTTTGGTCGAGAATTTTCTCAAGCATGGCCTTGATCGGCGCGAGCCGGTTGCCAGGATAACGGTCATCGCGTATAAGCGGGTGGATGAGATTTGGATCGACGTGCAGGATAACGGCCGGGGAATGGATGATTCTACTTTGGAGGAAGTCAGGGAATCCCTGCGAAACGGAGTCCAAGCCGGCCGCACACGAGGTGCGCTCAGCAATATTCATGAACGTTTATACCTATTTTTCGGAGAACGCTACGGACTGGAAGTGATTGAGGCTTCATCGCAAGGAACCTTGATTCGCCTCAAGCTTCCATATTCTGAAACCTACGGTGGTGAATCGTACGATGCAACACGTGAAGACAGTAAAAATGCTGATCGTTGA	MRSSLGWIGNYGLKQKALVIFLFFVILPTLGVGVLAQDKLNEVLRGQFIQSSQRSLEIVTNQLEEQTAMIEDIADYLILSNDMRQYLRLDPPPERGRAEQLKQNLEGFLTFQLMSKNYIKSISITGFNGNSIEMGEPIHGNEESWYRLADEHKGGIVWSNGYPSTSGWYGEVNLVSLFRVLNSYDEITLPLARLVIRMDEASILKQLQRGLTRDEGIVFVVDAEGQIVLPSKELLSLDIGDGKAITDIITAGTMGSSTYRHDGEAYLTFHQRMENTDWTIVSMVPKAALDQDVRGVSILMQVILIGILLLGLSALIGFHYTIIRPILRLKIETNRVKLGDFNARVPIRSKDEISELNRRFNDMVSTIQELIEHKYKLELRERESELRLLQEQMDPHFLYNTLDMIRWTARLEKAVESSQLIEILSRFLRSSLNNGHYETSLAKEMEFVRSYLYLQQRRLGSKLKYALYMEYDLANSLTLKATIQPLVENFLKHGLDRREPVARITVIAYKRVDEIWIDVQDNGRGMDDSTLEEVRESLRNGVQAGRTRGALSNIHERLYLFFGERYGLEVIEASSQGTLIRLKLPYSETYGGESYDATREDSKNADR				NA	NA	NA	NA	NA
AK002_02879	1575	rssB_14		Regulator of RpoS	ATGCAACACGTGAAGACAGTAAAAATGCTGATCGTTGACGATGAACCGGTAATCTGTCAGGGCTTGCACTATACCATTGACTGGGCGGATTATGGAGTCGAGGTCGTCGCCGAGGCTTATGACGGCAATGAAGCATTGCAGGTGGTGCAGGAACACGAGATTGATCTGGTTCTGACGGACATCCGAATGGAGGGAATGGACGGGCTTCAGCTTGCTAAGGAGCTGAAGCTCCGTCACCCTCAGGTTCGAGTCATCATGATCAGCGGTTATGAGGAATTCGAGTATGCTCGCCAAGCCATCAAGCTTGATGTAACCGATTACTTGCTGAAGCCCGTCGATATTGACGAATTGGTGGCCGCCGTGACCGGAATCGTAGAAGACATACGCAACCAAGATACCCGTGTCGACGGATCATCGAAGAATGCCGAGCTGTGGCTTTCCGAAATGGCAGCGCATTATGAAACTTCATTGGCCAAGGCGTTGCCCGGCGATTTAGTAAACGGTGCCGAATATAAACTCATGGCTACGCAGCTGGAGAAGTTTTCGAACCTTGCAGCTTCCGTATCGGAACAGGATTTAACGATGCTGCAGCATGTATGGATCCGAACGGTTCGTGAAAGCCTCGAAACCAGCGGAATTCGTCAAGTATCCGTGTTTGTGCATAAAAATCTGCTGTTGACCCTGCTGATGACGGATCAGCCGCGCCCGAAGCGGCAGTGGGATGAAATTCTGCAGGCGATGCTGGATGCCTGGCCGGGAGAGCATCGTTTGTATGGCGCGGTATCGGATGCTTACGCTTCCCTGGACCAAACGGCAGCCGTATGCTCGGAGGTGCGAGCGTTACTGCCTTATTATGCCTTGGAACAGCGCCCATTGCTGGATCGCGAATATAAGACCGAGGTGGATAACGGCCGGGCCAAGCACGATTTCGACAGTGCCGATATGGTCTCGAAACTGTCCGTGGCATTATTCAAGCAGGATGCCGATATGCTGGAAGAGCTAATCGACGGCATGTTCCGATTTTTCCGGGATCAGCGGTACCTGTTGACGGATATGGTGAACGTATGTGATGAACTGTCCATCATGCTGCGGCAGCGACTTCGTCAAAGCGGCCTGACCCAGCTGGAGCATGGCCTGGAGAGAACGATCGACCTGGAGGTGTTCAATCATCCCGACGCGATTCGTCTGGCGATATCCACGGAAGTGTTTGATCTGCTGCAGCTGATCGACAGGATCGGCATCGACAGATCGTTCTGGATCATTGAGAAGGCCAAGAAGTATATGGCGGATCATTATCTGAGCGACCTGAAAGCGTCGGAAGTGGCAGCGTATTTAAAGATTACGCCCAGCTACTTCAGCAATATTTTTAAACAAAGCACGGGAAAAAGCTTCAGCGAATACATGAACGAATTGCGCATCAACGAGGCGAGAAAGCTGCTGCTGACGACGCAGGACAAGGTGTTTGAGATTGCCGACCGCGTCGGCTACAAAGAATACAAGTATTTTGTATCCGTCTTCAAACTGTACACGGGCATGACGCCCAAGAAATATCGGGTCTTGAATATCAAAGAATGA	MQHVKTVKMLIVDDEPVICQGLHYTIDWADYGVEVVAEAYDGNEALQVVQEHEIDLVLTDIRMEGMDGLQLAKELKLRHPQVRVIMISGYEEFEYARQAIKLDVTDYLLKPVDIDELVAAVTGIVEDIRNQDTRVDGSSKNAELWLSEMAAHYETSLAKALPGDLVNGAEYKLMATQLEKFSNLAASVSEQDLTMLQHVWIRTVRESLETSGIRQVSVFVHKNLLLTLLMTDQPRPKRQWDEILQAMLDAWPGEHRLYGAVSDAYASLDQTAAVCSEVRALLPYYALEQRPLLDREYKTEVDNGRAKHDFDSADMVSKLSVALFKQDADMLEELIDGMFRFFRDQRYLLTDMVNVCDELSIMLRQRLRQSGLTQLEHGLERTIDLEVFNHPDAIRLAISTEVFDLLQLIDRIGIDRSFWIIEKAKKYMADHYLSDLKASEVAAYLKITPSYFSNIFKQSTGKSFSEYMNELRINEARKLLLTTQDKVFEIADRVGYKEYKYFVSVFKLYTGMTPKKYRVLNIKE				NA	NA	NA	NA	NA
AK002_02880	2325			Beta-xylosidase	ATGGAGAAATATCGGAATGCTGCGCTCCCCGTAGACGAGCGCGTAGAGGATTTGTTGTCCAGAATGACGCTGCGGGAGAAGGTCGGGCAGCTGAACCAGCACTTGTACGGCTGGATGGCATATCGGCGAAGCGAAGGGAGCAAAACGGAGTTTGAACTGACCGACTTATTCAAGGAGCATGTGGAGTGGGGGGCCGGCATGGGGGCGCTGTACGGTCTGTTCCGGGCGGACCCTTGGTCCGGGGTGACCTATGAGAACGGGATTCCTACGCAGGACAACGCGAAGGTAGCGAATGCCATCCAGCGTTACGTGATCGAACACAGCCGGCTCGGCATTCCCGTCCTGCTCTCGGAGGAATGTCCCCACGGCCATCAAGCGCTTGACGGAACGCTTCTGCCCGTCAATACGGCCATCGGTTCCACCTGGAATCCCGAATTAATTGAAGGCGCCTATTCCCATGTGGCCTCCGAGATCCGCAGCCGAGGCGCGCATTTAGGTTTGGTCTCGGTACTGGACATCCTGCAGGATCCGCGGTGGGGACGCTCCGAGGAATGTTACGGAGAAGATCCTTACCTGGCTGCGCGAATGACGGAGGCGGTTGTGTTTGGCATGCAGGGAAGAAACCCGGAAGAATGGAAGAGTCACGATAAGGCAGCTGCCGTGCTCAAGCATCTATGCGCACAAGGAGCAGGGCAGGGCGGACGGAACGCAGGCCCGGTTCCCGCAGGCGAGCGGGAGCTGCGGGAAATTCACCTGCCTGCCGCAGAGGCGGGGATCAAGGCAGGAGCGGCTGGCGTTATGGCGGCCTATAATGAACTCGACGGCATTCCATGCCATGCCAATGATAAGCTGTTAACCGGCATTCTGAGAGATGAATGGGGATTTGATGGGATTGTCATGGCGGATGGAACGGCCATCGACCGTTTGGTGTCCATTACGGGAGACTATGAGTCGGCAGCGGCGCTTGCACTCTCATCCGGGGTCGATCTAAGCCTATGGGACAAGTCGTTCACGACGCTTGAACAAGCGGTGAAACAAGGGAAGGCCGATATGGAGAGCATCGACCGCGCGGTTGCACGAGTACTTGGCCTGAAATTCCGATTGGGTCTGTTCGAGCAGCCGTACGTTGAGGAGAGCTTGGCTGCTTCGACCGTGAATAATGCAGCCGCCAGAGAGTTGAATGTTTCCGTCGCAAGAGAAGCAGTTGTGCTTCTTAAAAACGACAAAAGCGTACTGCCATTGAATCAAGGAAGTATCAAACGGCTGGCGGTCATCGGTCCTAATGCGGACCGTCTCTACAACCAGCTCGGGGACTACACCAGCGTTCAGCGCGAGGGCAGTGGAGTCACGGCGCTTCAAGGCATTAGGATGGCCGCTCCCGAAGGCACGGACATTGTCTTCGCCCCTGGGTGCAGCGTTCGAGGCATGTCCACCCAGGGCTTGCCTGAAGCAATCGAAGCGGCCCGTTCCGCGGACGCGGTCGTGCTCGTGCTTGGCGGCAGCAGTGCTCGTCAATTCGGGGGCATGTTTGATAATAACGGCGCAGCGATCGTAGCGGAGGGGGATCCGACGGAAATGGACTGCGGGGAAGGAGTCGATCTAGCCGAACTTCGCTTAGGCGGGATACAGGAGCAACTGGTTCGGGAAATTCACGCGATCGGCAAACCGGTGATCACCGTGCTCATTCAGGGACGTCCGCTCGCCGTCGGCGAGGTGGCCGAGCTTAGCGATGCCTTGCTGTGCGCTTGGTATCCCGGCAGCGAAGGAGGCCGTGCCATCGGAGAAATCCTGTTTGGCCAAGTGAACCCGAGCGGAAAGCTGCCCGTCTCGATTCCGCGCTCCGTAGGTCAATTGCCGGTTTATTATAATCAGAAAAACGCAGGGCGCCCTCGTCCCTATGTCGATATGCCGTCCAAACCGTTATATCCGTTCGGATTCGGCTTGAGTTACAGCTCGTTTGAATATCGATCGCCGGCCATCTCCCAGAATGACGTGACGCTTGACCAGCTTCGCTCCGGAAGTCGCGTCGAGGTGTGCGTGGAGGTGAAGAACAGCGGTAAGCTGAAGGGGGACGAAGTCGTACAGCTTTACATACAAGCCGATCAATCAGGGATTACCCGCCGACTTCGAGAATTGAAGGGATTCAAGAAGGTCATGCTGGAGCCCGGGGACAGCACCACCGTTACGTTCCAGCTCGGCTTCGAGGAACTGGCTATCTGGAACCGCAACATGGATTACGATGTCGTCCCTTGCCGAGTCAGCATCGTAGTAGGCGGCCACTCGGATTGGGAGAGCGGCGTTGTTGAGTTGAAGGTAAAAGCCTGA	MEKYRNAALPVDERVEDLLSRMTLREKVGQLNQHLYGWMAYRRSEGSKTEFELTDLFKEHVEWGAGMGALYGLFRADPWSGVTYENGIPTQDNAKVANAIQRYVIEHSRLGIPVLLSEECPHGHQALDGTLLPVNTAIGSTWNPELIEGAYSHVASEIRSRGAHLGLVSVLDILQDPRWGRSEECYGEDPYLAARMTEAVVFGMQGRNPEEWKSHDKAAAVLKHLCAQGAGQGGRNAGPVPAGERELREIHLPAAEAGIKAGAAGVMAAYNELDGIPCHANDKLLTGILRDEWGFDGIVMADGTAIDRLVSITGDYESAAALALSSGVDLSLWDKSFTTLEQAVKQGKADMESIDRAVARVLGLKFRLGLFEQPYVEESLAASTVNNAAARELNVSVAREAVVLLKNDKSVLPLNQGSIKRLAVIGPNADRLYNQLGDYTSVQREGSGVTALQGIRMAAPEGTDIVFAPGCSVRGMSTQGLPEAIEAARSADAVVLVLGGSSARQFGGMFDNNGAAIVAEGDPTEMDCGEGVDLAELRLGGIQEQLVREIHAIGKPVITVLIQGRPLAVGEVAELSDALLCAWYPGSEGGRAIGEILFGQVNPSGKLPVSIPRSVGQLPVYYNQKNAGRPRPYVDMPSKPLYPFGFGLSYSSFEYRSPAISQNDVTLDQLRSGSRVEVCVEVKNSGKLKGDEVVQLYIQADQSGITRRLRELKGFKKVMLEPGDSTTVTFQLGFEELAIWNRNMDYDVVPCRVSIVVGGHSDWESGVVELKVKA	PGPT0019110_3210	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
AK002_02881	561			hypothetical protein	TTGAGAGAACGAATCGTCGAGGCGGCAAGCAAGGAAATCCGGAGAAGCGGATTGCGATTTACGATGGGTGAACTGGCCAAACAGCTGGGGATGAGCACGAAAACCCTGTATGGCGTTTTCCCGTCCAAAGATGAGCTAATTGCCGAAATTCTCGCGGGGGCGATCGATGAGCTTCAGCATAAAGAGAAGGAAATCATGAATAACGCGAGCCTCAGCACATTGGAGAAACTAAGACGATGTCTAATTCTAATCCCGGCCGATTTTAAGTTTATCGAGCTAAACCTCATCACGGAGCTGCAGCGTTATTATCCTGACCAATGGAACCGTCTGGACCAATTTCTAAATGAGCAATGGGGCAGCATCGCCGAATTATTTCAGGAAGGCATTCGTCAAGGCTTGCTCCGGCCGTTTAACGCCAAAATATTCATTGATCTGTATGTAGGGGGCTTTTATCGGTTAATGGAGGACTCGGCGGCAAACAGGAGCAGCATGACTCTTCAGGAGGGCCTGCGCGATATGGGAGAGATTCTTTTGGCCGGTATCATCAAGAGGGAAGCTTGA	MRERIVEAASKEIRRSGLRFTMGELAKQLGMSTKTLYGVFPSKDELIAEILAGAIDELQHKEKEIMNNASLSTLEKLRRCLILIPADFKFIELNLITELQRYYPDQWNRLDQFLNEQWGSIAELFQEGIRQGLLRPFNAKIFIDLYVGGFYRLMEDSAANRSSMTLQEGLRDMGEILLAGIIKREA				NA	NA	NA	NA	NA
AK002_02882	405			hypothetical protein	TTGAGCAAAACATTAAAAGGTTTGTTCTTAGTGACGGATATCGGATTTATTATGTATTGGGTCATTACCGCATTGGCCTTAATTCCTAATGAGTATTTATATCAGGATTATACCAATGAGCTGTTGGTTGTTTGGAATTGGTCGTTCTTTCCGCTGGACATATTCATATCCGTTACCGGGATGTATAGTCTGTACTTACATAAACGAAGAAATGCGAAATGGAAAAATCTCGCCTTAATTTCGCTTACCCTGACGTTTTGTTCCGGGCTGCAGGCGATCGTTTTTTGGATCATCAAGTCGGATTTCGATCTCATGTGGTGGGTGCCTAACCTGTACCTTTTGCTGTATCCGTTGTTTTTCATTCCTAAACTGCTTGAGACAAGGGAAGCATTCGCTGAATCTTAA	MSKTLKGLFLVTDIGFIMYWVITALALIPNEYLYQDYTNELLVVWNWSFFPLDIFISVTGMYSLYLHKRRNAKWKNLALISLTLTFCSGLQAIVFWIIKSDFDLMWWVPNLYLLLYPLFFIPKLLETREAFAES				NA	NA	NA	NA	NA
AK002_02883	993			hypothetical protein	ATGTTTGACGTTCAAGGGCTGAGCCTTAAGAAAAGGCAAATCAAATTACTTACGTCCTTCATCCTTGCAATGCTTATCTTTTGTATGTCCGGTTTGCCCGCGTTCGCGGCAACCCCAGAGAAAACCGTCAACGCTTCGGCAACGCTTGCCTACAATTTGAAGGGACTTCAACACAACGTGGCTGTTCAGAAAGCCTACATCGCGGATAAATATCTGTATGTCACGCAGCGTTCCAAGGGAACCTGCTATCTTTCAAGATTGCTCATTAACGGCAAGGACGCTACTTTTGTAGATAAAATGACCGTCACCAATACGGGGCACTGTCAAACGCTGGATATGTATACGTACAATGGCGTCAATTATTTCTATTTCAGTTCCAAAGCAGACCCTTCAACCGATTATTACTGGTCGCTCCAGGTAGCGAGACTGCAATATTCGGCGGGCAAGACGGTCGATTATACGGATCTGCATCGCTTTACCTATATGAATTACGCCAATAAAACGGGGGCAAGGCTGGGCGAGACCTACCGGGTTGATGGCGGCGGCAACAGCACGCATACGGTGTTCCGCGTTCAGACGAAGGAAGGGACCGTGACTTGGTCCATTTATGACACGGTTGCGCTCAATAAGCTGCTCGACAGCAATGAACAGGTGCGGATGGACAGCGCAGCCGCGGTGAACGCAGCGGTTGGCAGCTTCACGCAATCGGGCAGCGGCATCGTCAGACCGAATGGATCTTTCCAGGGGGCGGATATGCTCGGCCAAACGAAAATCTATACGTCAGGCGGAGCCGAAGGCGAAACTCCGCAGATTGCCATGATGTCGAATACCGGGACTTTCAAAACCCTCGTGAAAATCACGAATGTAGGTAACCATGAAATCGAGGGAGTCCAGACCAAGAACGGCAACGTTTATTTTACGATCGTTACGGATCCGGTCAATAAGCAGAATACGCAGAAGGTATATTACGTTCCGGATAGCATTTTTAATTGA	MFDVQGLSLKKRQIKLLTSFILAMLIFCMSGLPAFAATPEKTVNASATLAYNLKGLQHNVAVQKAYIADKYLYVTQRSKGTCYLSRLLINGKDATFVDKMTVTNTGHCQTLDMYTYNGVNYFYFSSKADPSTDYYWSLQVARLQYSAGKTVDYTDLHRFTYMNYANKTGARLGETYRVDGGGNSTHTVFRVQTKEGTVTWSIYDTVALNKLLDSNEQVRMDSAAAVNAAVGSFTQSGSGIVRPNGSFQGADMLGQTKIYTSGGAEGETPQIAMMSNTGTFKTLVKITNVGNHEIEGVQTKNGNVYFTIVTDPVNKQNTQKVYYVPDSIFN				NA	NA	NA	NA	NA
AK002_02884	819			hypothetical protein	ATGAAAAAAAGCTTCAAATCGCTGATCGCTTGCTTGTTCATCATTCCTCTGTTTGCAACGGGCGTCATGGCAGAGGGAAAAGGTCAAGGCAAGGAAGTAGGCACCACCGTGATGTCTTACAATATCCATCATGGGGCAGGAATCGATGGTCAGCTGAGCCTGCAAAGAATTGCGGATGTGATCCGCGATTCCGGCGCTGAAATTGTCGGCCTTCAAGAAGTGGACCGGAATTACGGGGAACGAAGCGATTTTAGAGACCAAGCGAAGGAATTGGCCGGTTTGCTCGGCTATCATTACGCCTACGGCGCGAATCTTGATTTGGAACCGGGGGAAGGACAGACGAACAACCGTCAATACGGGACCGCCATCGTGAGCAAGTATCCGATACTCCGATCCGAGAATACATGGTTAAGCAGCTTCGGGAAGGAGCAGCGCGGCGTTCTTCATGCCGTCGTTAATCTGAAGGGGATCCATGTGGATGTATACAACACGCATCTCGGGCTGGATGTCACCAGCAGAACGGCACAGGCTCAGGAAATCATTGACCTTGCTTCTGGCTCTCAGGGACCTGCGCTTCTCCTGGGGGATTTAAATGCGGAACCGGACAGTTCAGAGTTTCGATTACTGTTAGACAGCGGTTTGTTCGTAAACAGCTTTGAGGGGATAGACGATGCTTATACGTTCCCTGTAATCAATCCGTCGGCAACTATCGATTATATTTTGACTTCCCCTAACGTCCGGCATGCCAATCAACGCGTGATCCAAACCGAAGCATCGGATCACCTGCCGATTGCAGCCGATGTGGTATTCAAGCGATAG	MKKSFKSLIACLFIIPLFATGVMAEGKGQGKEVGTTVMSYNIHHGAGIDGQLSLQRIADVIRDSGAEIVGLQEVDRNYGERSDFRDQAKELAGLLGYHYAYGANLDLEPGEGQTNNRQYGTAIVSKYPILRSENTWLSSFGKEQRGVLHAVVNLKGIHVDVYNTHLGLDVTSRTAQAQEIIDLASGSQGPALLLGDLNAEPDSSEFRLLLDSGLFVNSFEGIDDAYTFPVINPSATIDYILTSPNVRHANQRVIQTEASDHLPIAADVVFKR				NA	NA	NA	NA	NA
AK002_02885	1413			hypothetical protein	ATGATTACTTGGAGATTACCGCTGGTTGTATTGACTTGCTTAAGCATGGCTGTAACAGGCTGCATGCAGAGCAGCAGCGGGCAGGGCACGGACGGCATATTTTCGCACTCGGCAGCATCGAAAATGGCCGTTACAGGTGCAAAGACAAAGCTTAAATTCTGGTCGACGGGGCGGCATGATGCGAACTATATCAAAGAGGTGATTCATCGCTATAACCAAGAGAATCCCGATAACATTGAGGTTGAGATGACCGTGATGGCGGATGATTTTGCCCAATCATTGGATTTGTCTTTTGCCAGCGAACAATCACCCGACATCTTCACCCCGATCGATCTCGCTGAAATGACCCGTAAAGGCTATGTGGAACCATTGAACGAGTATATAACGCCCGTAATCAGAAGCAGGTTCGGGAAGCAGGCCTTTATCGAAGGATATAACGTATTCGATCAGTGGATATACAGCCTTCCTAACAGCGGATCCACCTTACGGCTTATTTATAATGTTGAGCTGTTTGCGCGGGCCGGCATCAACTCTCCTCCGAAATCTCTTGACGAGTTAGTGGAGGCTGCAAGGAGAATCACCGAGATTGGAAAAGCAGACGGCATTTACGGGTTTGCGCTGCCCTATAAAATTCCGGCCAGCGCCCTTGGTCGCTCCGCCGTTCCGATAGCTGAAATAAGCGGTATCAGCGGCGATGGTTATGACTTTTCAACAGGTGCCTATGACTTTTCAGGATTAAAACCGATTATTGGCGCATTCCGGGCCATGATGGAGAATGGCAGCACGCTGCCGGGAGCTGAATCCCTGGATATCGATCCGCTCCGGGCGCAGTTTGCCGACGGTAAGATCGGGATGTATCTGTCCTATTCTTCGGAACCCGGCATTTATAAATTTCAATTCCCGGCAAAGATCAAATGGGAAGCGGCGCTTCCCCCGTCGATTGACGGAACCTATAAAGGAGTGATCAATCAGGGAGTCGGAGCGACGAGATGGCTATCGATCAGCAGTCAATCGCAGCATAAGGGGGAAGCATGGAAGTTTCTCAGCTATATGTACAGCGATGAAGTCCTGATCGGGTACCAGGAAGCCGGACTTGGCATTCTATCCGTCGAATCGATAGCCAAGAAAGCCAAGAGGCCTGACATCGAGGGCATCGACGGCTTTATTCCAGGCGATTATGACGGGATATGGCCTGCGTCGCCTCAAGGATTCAAACCCAAAGGAATGGAATGGGAGGACGAATTCGTAAAGTACATCATGATCGGCGGAGATCTTGATCGATTGGTTGAAGATTTGAACGCGCGTTACAATGCCGCATTGGATCAGGAACGGGCTGCCGGCAGAGTGAATATGCAAGCCATCCCGGAGTTTGATCCGCTGCATCCTCAGGATCGTCTTATGGCAAATGATTGA	MITWRLPLVVLTCLSMAVTGCMQSSSGQGTDGIFSHSAASKMAVTGAKTKLKFWSTGRHDANYIKEVIHRYNQENPDNIEVEMTVMADDFAQSLDLSFASEQSPDIFTPIDLAEMTRKGYVEPLNEYITPVIRSRFGKQAFIEGYNVFDQWIYSLPNSGSTLRLIYNVELFARAGINSPPKSLDELVEAARRITEIGKADGIYGFALPYKIPASALGRSAVPIAEISGISGDGYDFSTGAYDFSGLKPIIGAFRAMMENGSTLPGAESLDIDPLRAQFADGKIGMYLSYSSEPGIYKFQFPAKIKWEAALPPSIDGTYKGVINQGVGATRWLSISSQSQHKGEAWKFLSYMYSDEVLIGYQEAGLGILSVESIAKKAKRPDIEGIDGFIPGDYDGIWPASPQGFKPKGMEWEDEFVKYIMIGGDLDRLVEDLNARYNAALDQERAAGRVNMQAIPEFDPLHPQDRLMAND	PGPT0016545_802	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_02886	1764			hypothetical protein	ATGCTCTACCGACTATCGTTCAGACGCCGAATTTGGATCGCGTTCATGCTAATCGTTATTTTTGCAGTCACCACCGTAGGCGCGCTTAGCTACGTCATCGCCGAAGAAGTCGTGAAGGACAACGCTTATCAGCTTAGTCAGGATACGATCGATAAAACTTCCAAGGTATTGGATGAGAAGCTGAATCATATCACGCAAGCGGTTTACTCGATGATGGTCAACACGGCTTACCGAAGAGCGCTAGGGTTGGACAGCAGCTATTCGGACTCGGAGAATTACTATACGCATCTGTCCGGGCTGCAATCGACTTTTGTACAGACCAAGCTCACTGAACCTCTTATCGATTCCATTCTTATCGCAACGCGTGAGGGAGACTATTACCAGACGAGTCAGCAGCGTAACTTCTCCCATTCGTTTTATGATTCGGCGCTCTATACGTATATCAAAATCGAGCGGCGCAAGTTATGGGTGGCCGGTCATGAGGATCTTTTCTTTGCCAGCAGGGAGGAGGTCATTTCCTTTGTAATGGAGGGCATCCCATCCCATTACATCGATGATAGTTATGTTGTAGCGAATGTCAAAATCGACTCGATTCGATCATTCATCGTTTCGGAGGACACCAATCGTAAGCCTTTCCTTCTCCTGGCCTCATCCGATGGGAGCGATGTCTTAATCGAAGATTCCGTCATAACGGATAAGTTGAAGCAGGATCCTAAGTATATGGATGCTTTAACAGATGAGCAGGGAAGCTTCGAATATTCGGATCAAGGCGATGAATACCTGGTTAACTTTACTAGGCTGGGTGGAGTGAAGGAGTGGACGCTATTCAGCTTTCTGCCTAAAGCTGAATTGATGAAGCAGATGGATAGCATTAAATTGACGATTCTCGGGGTGATCACGGGCTGTTTGCTTGTATCTTTTGCTTTTGCGAATATGCTGACACGGTTGCTCGTAAGACCTTTAAGCCATCTGCAAACATTAATGAAACGGGTGGAGATGAACGATCTTAACGTCCGTTATGAAAGCGAATACAATGACGAGATCACGCAGGTCGGTTATCGCTTTAACCGGATGCTGGAAGAGCTTAATCACATGTTTGACGTCGTGAAGCAGGCAGAGACGGATAAACGTCAGTCCGAGATGAAAGCCCTGCAGGCTCAAATTGATCCCCACTTTCTATATAACACGCTAAACACGGTTTATTGGAAAAGCCAGCTGAATCAATTGGAGGATGTTCAGGAAATGGTGCTGTCCCTGTCACAGCTGTTCCAGCTCGGCCTCAATCGAGGCAAGGAGATGACGTCAATTGAGCACGAGTTACTCCACGTTGAGGAGTATTTAAAAATTCAGCAGAAATGTTATGAAACGCTGTTTACCTATTCCATCGAGGTCGATCCCCTGGTCGATATGCAGCAGCCGATCCTAAAAATCATGCTGCAGCCGCTGGTTGAAAACTCCATCCTGCATGGCTTTAATGATCGCAATGAAGGCGGAATTATTCGGATCCAAGTAAAACAGGATGATACCCAGCTATCCTTCATCGTGGAGGATAACGGATTGGGATTTAGCGAAAATAGCGCAGCCGATCCAGAGCTTCGACACCCGGCAGCCATTGCTTCATCGGGTTATGCGCTGCATAATGTTCGATTGCGATTACAACTTCAGTATGGAAGCACGGCTGGCTTGCATATGGAAAGCGAACCTAACCTATGTACTCGGGTCTCGATCATCATCCCCCGTTTACCACTTCCCGAAGGGAGTTGA	MLYRLSFRRRIWIAFMLIVIFAVTTVGALSYVIAEEVVKDNAYQLSQDTIDKTSKVLDEKLNHITQAVYSMMVNTAYRRALGLDSSYSDSENYYTHLSGLQSTFVQTKLTEPLIDSILIATREGDYYQTSQQRNFSHSFYDSALYTYIKIERRKLWVAGHEDLFFASREEVISFVMEGIPSHYIDDSYVVANVKIDSIRSFIVSEDTNRKPFLLLASSDGSDVLIEDSVITDKLKQDPKYMDALTDEQGSFEYSDQGDEYLVNFTRLGGVKEWTLFSFLPKAELMKQMDSIKLTILGVITGCLLVSFAFANMLTRLLVRPLSHLQTLMKRVEMNDLNVRYESEYNDEITQVGYRFNRMLEELNHMFDVVKQAETDKRQSEMKALQAQIDPHFLYNTLNTVYWKSQLNQLEDVQEMVLSLSQLFQLGLNRGKEMTSIEHELLHVEEYLKIQQKCYETLFTYSIEVDPLVDMQQPILKIMLQPLVENSILHGFNDRNEGGIIRIQVKQDDTQLSFIVEDNGLGFSENSAADPELRHPAAIASSGYALHNVRLRLQLQYGSTAGLHMESEPNLCTRVSIIIPRLPLPEGS				NA	NA	NA	NA	NA
AK002_02887	1650	cheB_8		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAGCGTTATATCGACAACGATATGCTTCATTGACGATATTCAGAGCGTGGTCGACGGCATATCCAAGCAAATCAGCTGGGAACGTCATGGAATCACGGTAAGCGGAACGGCCATAAATGGAGAAGACGGATTGAACCTGATCACATCAAGCAAACCGGATATCATCGTGACCGACATTCGAATGCCGAAGCTCGACGGTTTGGAATTGACCCGGCACGTCAAAGAATTGTTGCCTCGCAGTAAGGTCATCTTGATGACGGGTTTCAGCGATTTCGAATATGCGAAGCAAGCCGTTCAGCTTGGAGCGTTCAACTTTATTACCAAGCCCTTTTCGCTGGCCCATATTGAGGAGATTGTTGTAAAGGCCAAAGAAGAGATCGAGGCGCTGCGAAACCAAGAGCATCATATCGCCGATTTGGAGCAGCGGGTTCAAGAAAGTATGCCGTTTCTGCGTCAGGAATTGTTTGCATGGCTGCTGCATCATAAGGTGAATGAGCAGGAAGCGAAGCAACGGTGGGAATATGTTAAGCCTGATTTGGAGCCCAGGCATCTGCTCGTTATGATTCTTGAAATCGACGGTTTGGACGAAAAGTATCGGAATTCGCCGATGAACGAACTCGAGCTTGCCAGGTTCGCGTTGAAAAATATTACGGAAGAGACCATCGCTTTATATACTAGGGGGCTGGTATTCCGGGACTCGGTAAACCGTCTGGTTGCGGTGTTGAATGCGCCGTTATCAGATTCAGCGGCAGCAATAGCGGAGGCGTGCTGTCACCATGTGAGCGTATATACATCTTTAACGGTATCCATAGGAATTGGCAGAATCGTCTCGTATATCCACGACTTGTATGCATCGTATGATCAAGCTTTGCATGCACTGTCGTATCATTTTTATACCGGCGGCAATGGGGTGATCTCTTATGAAGAGGTGGCTAACACGGAAATGTCCTTGCCGCGCAGCATTCGAAGTGCAGAACAGGAGATGGTGTACGCAATACAATCCGGTAACGTCAGTCATGCCATAACGACGCTCGATCACATCCTCGACGAGTTTAAGGACAGGCCACCGCTTCCCAAACCGGAATATTTCATCAGCCTATATTATGAGCTGGCATATATGATGCTTAGGGCGATACAAGAGAAGGTACCGTTGAATGAATTGGCCGATTTGAGCTCGATCGTTCGAGAAGGAAGGGTGAGCTCCGAGAGATCCTTGGCGGACATGAGAAGGGTGCTGCATCACATCGTAACGCTGGGCTGTGAACACATCGAGAATCAGAGCCGTTCCGCGGCCGTGAAAATCATTCAGGAAGCCATTCAATATGTAAAATCCAATTTGGATCGGGACATCAGCCTTAGTGCTTGCGCGAAGGCGGTTCACCTGAGCCCCAGCTATTTTGCCGGCTTGTTCAAGAAAGTGACGGGGATGGCATTTAGTCATTATGTTACCCAAATACGGATCGAGGAGGCTAAGCGGCTGCTCTTGGAGGATCGGCCGATTCAGGAAATTGCAGAGTCTCTTGGTTATGCGGAGCGCCGATATTTTAGCGACGTTTTCAAAAAGTATACGCAGATGACGCCATCGGAGTTTAAGCAGGCGCACCTAGACAACAACTTTCCATTGCAAAAGGAGGGAGTTCGTGAATAG	MSVISTTICFIDDIQSVVDGISKQISWERHGITVSGTAINGEDGLNLITSSKPDIIVTDIRMPKLDGLELTRHVKELLPRSKVILMTGFSDFEYAKQAVQLGAFNFITKPFSLAHIEEIVVKAKEEIEALRNQEHHIADLEQRVQESMPFLRQELFAWLLHHKVNEQEAKQRWEYVKPDLEPRHLLVMILEIDGLDEKYRNSPMNELELARFALKNITEETIALYTRGLVFRDSVNRLVAVLNAPLSDSAAAIAEACCHHVSVYTSLTVSIGIGRIVSYIHDLYASYDQALHALSYHFYTGGNGVISYEEVANTEMSLPRSIRSAEQEMVYAIQSGNVSHAITTLDHILDEFKDRPPLPKPEYFISLYYELAYMMLRAIQEKVPLNELADLSSIVREGRVSSERSLADMRRVLHHIVTLGCEHIENQSRSAAVKIIQEAIQYVKSNLDRDISLSACAKAVHLSPSYFAGLFKKVTGMAFSHYVTQIRIEEAKRLLLEDRPIQEIAESLGYAERRYFSDVFKKYTQMTPSEFKQAHLDNNFPLQKEGVRE				NA	NA	NA	NA	NA
AK002_02888	2253			hypothetical protein	GTGAATAGCCGCATGGAGGAAGCCATTGATTGGCCGGCGTTTATGTCCAGGCACGACATGTTATGGTCGACGCGTCCGATCAGCTGGGATGAAGGGGCGTTTCTTGGAAACGGCATGCTGGGCGCGATGATATATAGCGAGGAACACCGGGATAAACGGAACGTGCTGCGCTTTGTGCTTGGACGGTCGGATATCACCGCATCACGCCCGGGTAATCGGGATTTTCCGGTGCGCGTGCCCATTGGCGAGCTCGCTTTGGAGCTGGAGGGCTGGATTTATCAGCCCTGCGAAATCCGATTGGATTTATGGAATGCTGAGCTTAGAGCGGTTATACCGACAACCAAAGGGGAGGTCAGGATTCGCGCGCTGATTCATGCAACGGCTCCGGTGCTTCTTGTGGAGCTGGACGCAGATGAAGGGGAGCACGATGCGAAGCTGAAGTGGTACGCTTACCCGGAGGTTGACCCCGTATTGAAGAATGCGGACGGGATTAATCTCAACCAGTATATTCCCGAAACCACTGTTCAGCATTTGAAATCCGCCGAGATATCGATCGGCGTCCAGGAATATGGCAGCGGGGAAGGCTGCACTACAGCTTGGCTTACTTGCCGCCCTGATCCGACCGAACGAAAGTTGGGGAACTGGAACAGGCAAGCCTGTATCTTAACCGTCATGAAAGGGGTGGATAATACCGCTTCCGATCAAGCGGTTCAAGTGCTTCGGGCTGTCCCCCTCTCAACCATCGGTTGGGAAGCCTGGCTGCATGCCCATCGCCAATGGTGGCATCATTATTACCCGGAGAGTTTTATATCCATACCGGATACGCAGCTGGAGAGCTTTTACTGGATACAGATGTATAAGCTGGCTTCTGCGACCCGTGCGGACTCACTCCCTATCGATAATCAAGGTCCGTGGCTCACTTCCACGCCATGGCCGGGGTTATGGTTCAATATGAATGTTCAGATGAGTTATTCCCCGATCTATACGGCGAATCGTCTCCATCTCGGCATGTCGCTGATTCGCTCATTGCAGGAGCATCAGGAGCAGCTGATCCGAAACGTTCCCGAAGTCTACCGTAAGGATTCGGCAGGACTCGGCCGGAGCTCCAGCTATGACCTGCACAGTCCGGTCACGGATGAGGTGGGGAATTTAACGTGGGTCATGCATAACTGCTGGCGGCACTGCCGTTATGCCATGGACGACAATATGCTGCAAGACGTGGTCTATCCACTCCTGCGGCGCAGTGTGTGTTTATATTTGCATCTTCTTGAGGAAGGGCGGGACGGCCGACTTCATTTACCACCGACGGTTTCGCCTGAATACGGCTCCTTCAAGCAGTTGAAGAGTGCCGATGCCCATTATGATTTAGCCCTGCTGCGCTGGGGATGTGAAACCTTAATCCGCATCACGGATAAGCTCGGCATTCACGATTCGCTGCATGATCGCTGGCGGGAGGTCCAGGACCGATTGGTACCCTTTCCGGTCGATAGTTCCGGTTATATGATCGGCGAGAATCAGCGCTTGGATTTTGGACACCGGCATTTCAGCCATCTGCTGGCAGCATTTCCGCTGCGTCTCGTAGGCGATACCGAAGAGGAGAGGGAGCTTATTCTTCGATCGCTCCGCCATTGGATCGGACTCGAAGGAGATTTGCGCGGATTCAGCTTCACCGGAGCAGCCTCGATTGCGGCCATACTCGGACTAGGCGATGAAGCACTGGCGTATTTAAGAAGCTTAATGCATCTCATCAAGCCGAACACCATGTATAAAGAGGCGGGACCGGTCATCGAAACGCCGCTCGCGGGGGCGGAGTCGATCCATGATATGCTGCTCCAGAGCAGAGGGGAGCGAATCTGCGTTTTCCCTGCTGTTCCAAAGGAGTGGCCGGAGGCGGTATTTCATCAGCTGCGATCGGAAGGCGGCTTTCTTGTGAGTGCTGTTCGGGAGGAGGGGCGTACCGCTTGGATACATATTTGCAGTCTTGCGGGTGGATCGTGCCGAATCGTATCGGATATGGTTTCATCACCGGATGCCGGCTTGGTATTGGAGATCGGGGGCATGTCCACAGTATGTCCGATCCAGGCGGACGGATCGATCCATCTGGTTATGCAGGCGGGAGAAGAAGCTTATATATACAGCGATCATTGGAGCGGATCTTCGCCTTTCAAGATCTCGCCCATCCCTGCAGAGAAGGGGAAATGCAATATGTTCGGCAGCCGCAAGCCATGGAGGCTCTATGGAATTCCCCGTTAA	MNSRMEEAIDWPAFMSRHDMLWSTRPISWDEGAFLGNGMLGAMIYSEEHRDKRNVLRFVLGRSDITASRPGNRDFPVRVPIGELALELEGWIYQPCEIRLDLWNAELRAVIPTTKGEVRIRALIHATAPVLLVELDADEGEHDAKLKWYAYPEVDPVLKNADGINLNQYIPETTVQHLKSAEISIGVQEYGSGEGCTTAWLTCRPDPTERKLGNWNRQACILTVMKGVDNTASDQAVQVLRAVPLSTIGWEAWLHAHRQWWHHYYPESFISIPDTQLESFYWIQMYKLASATRADSLPIDNQGPWLTSTPWPGLWFNMNVQMSYSPIYTANRLHLGMSLIRSLQEHQEQLIRNVPEVYRKDSAGLGRSSSYDLHSPVTDEVGNLTWVMHNCWRHCRYAMDDNMLQDVVYPLLRRSVCLYLHLLEEGRDGRLHLPPTVSPEYGSFKQLKSADAHYDLALLRWGCETLIRITDKLGIHDSLHDRWREVQDRLVPFPVDSSGYMIGENQRLDFGHRHFSHLLAAFPLRLVGDTEEERELILRSLRHWIGLEGDLRGFSFTGAASIAAILGLGDEALAYLRSLMHLIKPNTMYKEAGPVIETPLAGAESIHDMLLQSRGERICVFPAVPKEWPEAVFHQLRSEGGFLVSAVREEGRTAWIHICSLAGGSCRIVSDMVSSPDAGLVLEIGGMSTVCPIQADGSIHLVMQAGEEAYIYSDHWSGSSPFKISPIPAEKGKCNMFGSRKPWRLYGIPR	PGPT0018650_1354	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_02889	2331	rhaR_31		HTH-type transcriptional activator RhaR	ATGTTCAGCACCCTTCGCAAATATAACCGCAGCGTCATTGCGGCATGGCTGTTCTCTTATATTACCGTACTCATGGTGCCTGTCCTGATCAGCTTTGTGCTCTATTCGATCTCGTACCATCAAGTAAGGAGCGAAACCAACCGGGCAAACGGTTTACTTCTTCAGCAGATGGAAATGTCCATTGACAGCAAGCTGAAGAGCCTTGAGCGATTAAGCCTGGAAATTGCGTTAAACAAGGAGATTTCTGCATTTTCCAGCGCGGAGCTCCCGCTTCGCGATCCTCAATATTATGACGTGTTTAAGATATCCGAAAGCCTGCGAACGTATAAAAATGCGAACGATTCCATCGAAGATATCTACGTCATGTACCTGAACAGCGATACGGTTATTTCGACGTTTGATCACACGAACGGCAGGGGCCTCTATCAAAAGCTGAGGCAGCTGGACGACACCTCCTATGATCAGTGGACGGATTTTTTCGAGCAAAGATATGTAAACGATTACAAACCCATGGTGTTTAATGACGGCATGGAGAGCTTCCCGCTCGTCGTGTTCGCCCATTCCCTCGTATTCAACTCTCCGGCCCAGCCTTCGGCCGTTGTCCTGTTCTTGATCAAGGATTCGAAACTAATCGAGAGCGTTCCCCAGCAAAAGGGTGCCAATATGTTCATTATAGATGCGGAAAGCCGGTACATCGCTGCATCCGACAAGGATTTGGCCGTACCTGCAAATCTGCGTTATGAACATTTGCAAGGAGACAGCGGAATGATCTATATGAAATCGGATGCGGGGCAGACCGCGCTTTCCTATATTACGTCCCAAGTCACCGGTTGGAAATATGTATCGGTACTCCCGGCGGCTTTGTTTAATGAGAAAATGAAAAATTTACGCCTTTTGACATGGCTCAGCATAGCCCTATGCCTGATCATTGGAGGCTTGGTCACGGTATTGTTATTACGCCGAAACTATATGCCGGTTCAACTGATGCTGCATAGTTTATCCAAGCAATTCGGCATCAGATTTGACCGCGGGGCCAATGAATACGCATTCCTGGAGGGGGCGATTCAACATCAATTCCATGAAAAAGCAGATATACAAACGCAGCTTCGCAAGCATGGCAATACGATTCGAGCTCATTTGCTGCGGCGCCTCCTGAAGGGGTACGCCGATCATGATCAATCGCTCCAGAGCGCCCTCCCAGCCCACGATATCCGGTTTCGATCGGAGCGATCTGTTGTCATGTTGATATCGATCGATCATTTTGGCAAGTTTGAGCAGTTTGGCATCCGTGGGCTCCCGGATCAGAAGCAGCAAATGCTCTATTTCGTGCTGACGAATGTCCTTGAGGATACAGCATCCAATGAAGCGGTCGCGTTTACAACGGAAATGAACGATGTGCTTGCTTGTATTGTTAACTTTAGAGCGGAAATCCCTGAGGAGCAGGAGCCATCCGTTCTGAACCGAATGCTGGCCGAGGTCCAGGATTTCATGGGCAAACATATCGAAACGGAGCTTACGCTGGCCGTAGGACAGGTTCATACGGGCTTGCACGGCATCGCTCAATCTTATCAAGAAGCTCTTACCGCGCTTGAGTACCGCATTGTGATAGGTAGCGGCCAGTTTATCCAATACAGCGATACTCTGATGAGTAAAGGTACGCAATCCCACCGTTTTTATTATCCTCTAAGTGTTGAGCAGCAGTTCGTGTATGTGGTGAAAAGCGGGAACTACGACAAAGCGGAAGCGATTCTTGACGATATTTTTCAAGCCAATATTACCAAGCATCCGGTTTCGGTTCCACTTGCCAAATGCCTGATGTTCAACTTGGCAAGCACGATGCTGAATACCCTTGAGGAAGTGAAGGCGGGAAGCAAGCGAACATGGGAAGACCATTACATTGAAGTGAATCCATTGCTCGAATGCGATCATGTTCCGGAGATGAAGGATCGGATGAAACAAATGCTCGGGGATGTCTGCGAATGGATTCTGGCCGAGAAACGGGATCATCATCGTTATTTCATCGAAGATGTCCGGCGGTATATCGAAGAGAACCTTCATGACCCGAGTTTGAATATATCGATGATCGGCGATGCTTTTCAGCGGACCCCGTCTTACGTCTCAAGACTCTATAAGGATTACACCGGAGAAACCTTGCTGGATTCCATCAACCGTCTTCGTGTGGCTGAGGCGAAGGAACTGCTGGCCCATGGGAAACTTACCGTAAATGAAATCGCGGGCCGAGTCGGTTACGCGGATGTCAGCACTTTTCTGCGAATCTTCAAAAAATTCGAAGGCGTCACCCCCGGAAAATACCAGAAAACCGCGCTGTAA	MFSTLRKYNRSVIAAWLFSYITVLMVPVLISFVLYSISYHQVRSETNRANGLLLQQMEMSIDSKLKSLERLSLEIALNKEISAFSSAELPLRDPQYYDVFKISESLRTYKNANDSIEDIYVMYLNSDTVISTFDHTNGRGLYQKLRQLDDTSYDQWTDFFEQRYVNDYKPMVFNDGMESFPLVVFAHSLVFNSPAQPSAVVLFLIKDSKLIESVPQQKGANMFIIDAESRYIAASDKDLAVPANLRYEHLQGDSGMIYMKSDAGQTALSYITSQVTGWKYVSVLPAALFNEKMKNLRLLTWLSIALCLIIGGLVTVLLLRRNYMPVQLMLHSLSKQFGIRFDRGANEYAFLEGAIQHQFHEKADIQTQLRKHGNTIRAHLLRRLLKGYADHDQSLQSALPAHDIRFRSERSVVMLISIDHFGKFEQFGIRGLPDQKQQMLYFVLTNVLEDTASNEAVAFTTEMNDVLACIVNFRAEIPEEQEPSVLNRMLAEVQDFMGKHIETELTLAVGQVHTGLHGIAQSYQEALTALEYRIVIGSGQFIQYSDTLMSKGTQSHRFYYPLSVEQQFVYVVKSGNYDKAEAILDDIFQANITKHPVSVPLAKCLMFNLASTMLNTLEEVKAGSKRTWEDHYIEVNPLLECDHVPEMKDRMKQMLGDVCEWILAEKRDHHRYFIEDVRRYIEENLHDPSLNISMIGDAFQRTPSYVSRLYKDYTGETLLDSINRLRVAEAKELLAHGKLTVNEIAGRVGYADVSTFLRIFKKFEGVTPGKYQKTAL				NA	NA	NA	NA	NA
AK002_02890	1662	lipO_15	COG1653	Lipoprotein LipO	ATGGTACATCGTATGCTGGCCAAAGACAGCTTGCTGAGAAATTTGAAGTCAGGATTGACCGCCGTATTGTTAACTAGTTTGCTGCTTGCGGGTTGTTCGTCAGGGAGTAAGGAGAATACGCCGGAGGCAAAGCCGAACGACGGCGGGAAGGATGCGTCAACCGCAATCGGTTCATCGTATCCGCTGAACACAACCGAAACGATCACGTCTTGGGAAATCTTGAACATGAATGCCGTAACCTTCTATTCCAATCTTGCGGATACCCCGTTCGGGAAGGCGCTTGTCGACCAAACGGGAGTACAGGTCGAGTACATTCATCCGAATGATCAGCAGACCGTCGAGCAATTCAATCTGATGATTGCCTCCGATGAGCTTCCGGACGTCATTGAATATGATTGGACCGGAAGAAGTGCTGGCTCTTATCCGGGCGGACCGGAGAAAGCCATCCAGGACGGCGTGATTCTGGAACTCAATGATCTGATTGATCAATATGCGCCCAACTTGAAGAAGAAACTCGAAGCGGACCCGACGCTTGATCGCATGGTCAAAACAGACAGCGGCAAGTATTATGTATTTCCCATGATCCGCAATCCGTCCGGGCTCGTCTTCCGCGGGCCCATGATCCGCCAAGATTGGCTGGAAGAGCTTGGGCTGCCCGTGCCGACGACCATAGAGGAATGGGAGAAGACGTTGATCGCCTTTCGCGACGAAAAAGGAGCCACTGCGCCGCTTAGCGTGACGTATACCGGCGGAAATTTTGAGATTCGCGATGCCTTCATCGGGGCTTACAAAACATCGAACTCCTTCTATGTAGATGATGAAGGAAAGGTAAAGTATGGGCCTATGGACCCGCAGTACAAGGATTTCCTGGCCTTGTTCCGCAAATGGTTCGCGGAAGGGTTGTTTGACAAGGATTTTGCGCTCACCGATACAAAAGCATTGGATAACAAGATCTTGACCGGGCAGACCGGTGCAACGGTACATCTCCTCAGCGGCGGCATGGGCAAATGGATGGACGCCATGAAGGAGCAGGATCCGAAATTCAAGCTGGTCGGCGCTCCATATCCAACGCTCAATCCGGGCGAAATTCCCTTTATCGGACAACGGGACTTCAAGTACAATCCGGGACCGAGCAAAGCCATCACAACGGCTGCGAAAAATCCGGAGCTGATCGTACGCTGGCTTGATTATGCTTACAGCGAAGAAGGCTCGTTGCTCTATAACTTTGGCATTGAAGGGGAGAGCTATGTGATGGAGAACGGTGCTCCGGTGTATACCGATTTGATTAAAAACAATGAGAAGTACAGTCTGCAGCAGATGGTATCGCAGTATTCCAAGCCGAATGGTCCATACGAAGCGGATGAACGTCGGAACTGGAATACGTTCCCTGAGCAGGATGAGGCCGTGAAAGTATGGGCGAAGACGGATGCCGAGAAGCATATACTGCCTGGCTTCCTGACGCCAACCGCCGAAGAAAGCAAGGAGCTTGGCAAGATTCTTACCGAAGTAAGCAACTATAAAGAGGAAATGTTTGTCAAGTTCATTGTCGGCAAGGAGCCGATGGAGAGTTATGACAAGTATGTGGAGCAGCTCAAGAAGCTGGGTATTGAGCGGGCGGTTGAAATCTATCAAAGCGCACTGGATCGATACAACAGCCGATAA	MVHRMLAKDSLLRNLKSGLTAVLLTSLLLAGCSSGSKENTPEAKPNDGGKDASTAIGSSYPLNTTETITSWEILNMNAVTFYSNLADTPFGKALVDQTGVQVEYIHPNDQQTVEQFNLMIASDELPDVIEYDWTGRSAGSYPGGPEKAIQDGVILELNDLIDQYAPNLKKKLEADPTLDRMVKTDSGKYYVFPMIRNPSGLVFRGPMIRQDWLEELGLPVPTTIEEWEKTLIAFRDEKGATAPLSVTYTGGNFEIRDAFIGAYKTSNSFYVDDEGKVKYGPMDPQYKDFLALFRKWFAEGLFDKDFALTDTKALDNKILTGQTGATVHLLSGGMGKWMDAMKEQDPKFKLVGAPYPTLNPGEIPFIGQRDFKYNPGPSKAITTAAKNPELIVRWLDYAYSEEGSLLYNFGIEGESYVMENGAPVYTDLIKNNEKYSLQQMVSQYSKPNGPYEADERRNWNTFPEQDEAVKVWAKTDAEKHILPGFLTPTAEESKELGKILTEVSNYKEEMFVKFIVGKEPMESYDKYVEQLKKLGIERAVEIYQSALDRYNSR	PGPT0017245_1343	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02891	969	yteP_26	COG4209	putative multiple-sugar transport system permease YteP	ATGGCGAAACTTCCGCCTCCGACACGCACGTCAATTCCTTCAAACACGGCAGGACTGAATCCTCGAAACTGGGGCTTGCTGAAGGACATTAGAAAAAATCGTTTCCTGTACATCATGTTGATTCCGGTACTTTTATATTTCGCGGTTTTTCATTATTTTCCGATGTATGGGGCGTCCATTGCTTTTAAAGAGTTCTCCCCACGTCTTGGTATCATGGGAAGCCCATGGGCCGGCTGGGAGCATTTCGAATCGTTTTTCAACGGCATTTACTTCTGGCGTGTTGTCAAGAATACGCTGTTAATCAGCTTTTATGAACTGCTCTTTGGCTTTCCGGCCCCCATTATATTGGCGCTCCTGCTGAACGAGATCAGAAAAACCGCATTCAAACGCACGGTTCAAACCATAACCTACATGCCGCATTTTATTTCGCTGGTCGTTGTTTGCGGCATCATTAAGGAATTCACGATGAGTGACGGATTAATGAACGATATCATGGCCTTTTTCGGATGGGAACGGGTCTCCCTTCTGCTGGAATCCGAATATTTCCGGACTCTTTTCGTAACCTCCGGAATTTGGCAGAACATCGGCTGGGGGACCATCATCTACCTTGCCGCCTTGGCCGGTATCGACCAAGAACAATATGAGGCCGCGAAGATCGATGGAGCCAACCGGTGGAGGCAAATGCTGAACGTGACGCTGCCGGGGATAATGCCAACCATAGTCATTCTGTTCATTCTTGAGATCGGCAGGCTGATGAACGTCGGCAGCGAGAAAATCATTCTGCTCTATAACCCGTCAATCTACGATACCGCAGACGTCATTAGCTCCTATGTGTACCGGGTCGGGCTGCAGGAATTCAATTACAGCTTCAGCTCGGCAGTAGGGCTGTTCAATTCGGCCATCAATTTCACGCTTGTTATCGGCTCAAACTGGCTGAGCCGCAGGATGAACAAAACCAGCTTGTGGTAG	MAKLPPPTRTSIPSNTAGLNPRNWGLLKDIRKNRFLYIMLIPVLLYFAVFHYFPMYGASIAFKEFSPRLGIMGSPWAGWEHFESFFNGIYFWRVVKNTLLISFYELLFGFPAPIILALLLNEIRKTAFKRTVQTITYMPHFISLVVVCGIIKEFTMSDGLMNDIMAFFGWERVSLLLESEYFRTLFVTSGIWQNIGWGTIIYLAALAGIDQEQYEAAKIDGANRWRQMLNVTLPGIMPTIVILFILEIGRLMNVGSEKIILLYNPSIYDTADVISSYVYRVGLQEFNYSFSSAVGLFNSAINFTLVIGSNWLSRRMNKTSLW	PGPT0017250_1822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02892	891	araQ_30	COG0395	L-arabinose transport system permease protein AraQ	ATGGAATGGAGAGCTGGGCATCGATCGGTCGGCGAAAAGCTGTTTGATATGTTTAATTACGCCTTGTTGACCATCATCACATTATGTACGTTGTATCCATTGATCTACGTACTGTTTGCTTCCTTGAGTGATCCAACCCGATACATGCAGCATTCGGGGATTCTGTGGAAGCCGCTGGATATGACGTTAAACGCTTATCGGCTCGTGTTTGATAATCCAATGATTATTCAAGGATACATGAATACGTTCCTTATCGTTTCTGGCGGCCTGGTGCTTAATATTACATTGACCGCGTTCGGAGCGTATGCGCTGTCCCGTAAGGGATTGCGATATCGTAAGCAGCTGATGCTGTTTATCGTATTTACGATGTTCTTCAGCGGCGGCTTGATTCCCCTGTATTTTACAGTAAAAGGCTTGGAGCTAACCAATACGCTGTGGTCCTTAATTATTCCACAGGCCATATCTGCTTTTAATCTGATTATCATGAGAACGGCTTTTGAGGCGGTGCCGGATAGTCTGGAGGAATCGGCCAAGATCGACGGAGCCAATGAATTTGTTATCTTATTCCGAATCATGATGCCGCTCTGCATGCCGGTTATCGCCGTCATGCTGCTGTATTACGGCGTCAGTCACTGGAATTCATGGTTTCAGGCCATGATCTATCTGCAGGATCGCTCCTTGTATCCGCTGCAGCTCGTCCTGCGGGAGCTGCTGCTTCTGAACGATGCAAGCTCTATGGCAAGCGGTGCGAGCGGCGGGGAAGTCGCCGTCATCGGCGAGACGCTGAAGCATGCGACCATTATCGTGGCGACGGTCCCGATTCTGCTGGTTTATCCGTTTCTGCAGAAGTATTTTGTGAAGGGCGCACTAATCGGTGCCATTAAAGGATAA	MEWRAGHRSVGEKLFDMFNYALLTIITLCTLYPLIYVLFASLSDPTRYMQHSGILWKPLDMTLNAYRLVFDNPMIIQGYMNTFLIVSGGLVLNITLTAFGAYALSRKGLRYRKQLMLFIVFTMFFSGGLIPLYFTVKGLELTNTLWSLIIPQAISAFNLIIMRTAFEAVPDSLEESAKIDGANEFVILFRIMMPLCMPVIAVMLLYYGVSHWNSWFQAMIYLQDRSLYPLQLVLRELLLLNDASSMASGASGGEVAVIGETLKHATIIVATVPILLVYPFLQKYFVKGALIGAIKG	PGPT0017255_1488	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02893	1125	ugl_5		Unsaturated glucuronyl hydrolase	ATGAGTAAACTAGAGACCCGCCCACATCTCGACTTGGATCTGTGGTGGAATGGTGCTCGCATGAAGGTGGACCGGATATTGGCCAGAAGACCTGATCTTGCACCGCATGCGGCCAAGGACGGAGAATATGACGGATTGACGTTGGATAACTGGATTTCGGGATTTTGGCCGGGAATGCTTTGGATTATTTACGATATGACCGGAGAGACGAAATATCGGGAAGCGGCATGGGATTGGGATATTCGGATGGAGCGCTTGACGCTGGAAGAAAGCCGCTTTCATCATGATGTGGGATTTCAGTATTTGCCTACCTCCGTCATGAAATACAAGTTAACCGGCGATGCAGACGGAAAAAGGCGGGGGCTTGCGGCTGCCAACTTTCTGGCAGGGCGGTTTAACCTGGCCGGCCAATACATCAGGGCATGGAACAAGGATCTTCCCGGCTGGGCCATCATCGATTGTCTCATGAACTTATCCCTATTGTACTGGGCTGCCGAAGAAGGAGAGGACCCGCGATTCCGGCACATCGCAAATGCCCACGCGAACATGGCATTGCGGCATATGATCCGTGCCGATGGCTCCACCTGCCATGTTGCCGTATTTGATCCGGAAAGCGGAGAGCTGCTGGAGTATAAAGGCTGGCAGGGCTATGCCCCGGATTCCTGCTGGTCCAGAGGAAATGCGTGGGCGTTGTATGGGATGGCCAACGCTTACCGATACACAAACAATTTAAATTACTTGCAAGCCGCGAAGCAGGTAGCTCATCATTTTATAGCCTCATTACAAGAACATGGGGTTCCGCCATGGGATTTCCGCGTACCGGATCCCGAAACCGAGCCGTGCGACACTTCGGCCGCGGCCATTGCCGCTTCAGGATTACTGGAGCTGACTGCCCTGACAACCCCGGAGATAGGCGCTGTGTACCGGAAAGCCGCAGAACGAATAATCGCGGTTTTGTCAACAGAGTATGCAGCTTTCCAGGCGCCTGAGCATGAGGGGATCCTGTTTGGCGGAACCGGCCATAAGCCGGCGGATACCCATATCAATGTATCGCTTATATATGGGGATTATTATTACATTGAGGCACTCGCGAAGCTTCGGGGCTGGGCCCATCGCGTATTCTGA	MSKLETRPHLDLDLWWNGARMKVDRILARRPDLAPHAAKDGEYDGLTLDNWISGFWPGMLWIIYDMTGETKYREAAWDWDIRMERLTLEESRFHHDVGFQYLPTSVMKYKLTGDADGKRRGLAAANFLAGRFNLAGQYIRAWNKDLPGWAIIDCLMNLSLLYWAAEEGEDPRFRHIANAHANMALRHMIRADGSTCHVAVFDPESGELLEYKGWQGYAPDSCWSRGNAWALYGMANAYRYTNNLNYLQAAKQVAHHFIASLQEHGVPPWDFRVPDPETEPCDTSAAAIAASGLLELTALTTPEIGAVYRKAAERIIAVLSTEYAAFQAPEHEGILFGGTGHKPADTHINVSLIYGDYYYIEALAKLRGWAHRVF	PGPT0019355_986	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
AK002_02894	2238			hypothetical protein	ATGAATCGGATCGAGAGCACGGTAACGGCTAGCAGCTACCAACCGGGCACGAATTACGTACCGGGGAATGTGTTGGACGGGGTATGGGGTGAGGACGCGGAGAGCCAGCAAAGCCGCTGGTCCGCTTCCGGTCAAGGACAATGGCTGCAGTTCGATCTGGGCATGGAACAGACGGTCACGTATGTGAATATTGCTTTTCTGAATGCCAGAGAGCGTCTGTCCAGTTTTGAAATATTAGCTTCGAATACCGAAGATTTCCAATCCAGCACCGTTGTGTTTGAACGACAGTTCAGCCGGCAGCTGCAACCGGAAGACAGCCTATTGCAAACTTATGTATTACAGAGTCCGGTGAAAGCCAGGTATTTGCGGTTGATCGGATATGGCAATAACGCCGGCGGCAGCTCGGGAAACTGGAACAGCATCATGGAAGTAGAGCTTTACGCAGGGAAAGTGCCGGGTGAATCACCGGAAGAGCCACAACCGCCACTTCCTCCTAACGCTGGCGAAGAGAAGGAGGAGGACGTGAAGCCTCCGGAGCTGAAGCGAGTATCGGTTCGTACGGCGGAACAACTCCAGCAGGCGCTGGATCAGGCCGTGGCCGGCACGCTGATTGAATTGAAGGATGGGACCTATGAGCAGAACGGTCCATTTATTGTGAAGGATAAACACGGCTCTGCTGCCTATCCGATTCGGATAACCGGGAAGTCCGGCAAAGCCGTCATCAGCGGCAATAGTTACATGCACATTGAAAATTCGAGTTATGTTGAAGTTAGCGGGCTCACGTTCCGGAACGGGATCGGCGATGAGAATGGAATACAGACCTTGACTGACCGTGGGTTGGCACATCGGGCGCTTACGGGTGTACACCCGGGCATTCAATTGGAAAGCTCAAGCCGGATATCCATATTAGGCAACAGCTTTGCCTTGAATGAAACAGGCCAGCCTTATCGATTCAAGGCTCAAAACAGGAATGTATGGTGCCTGCTCGATGTCGAGGACAGCTGTCGGTACAGCGGTGATCAGTATGATCCGAATGGCGAAGTATATGAGGGGTTAACGCCATTTGAAGATCCGAAGCTGATAACGGACAATGGCACGCACCGACATTATATCCGGGTCGAAGGAACGAGCAGCCATAACCGGATCGCTTATAATGATATTGGACCTAAGAAGGGTTTTGGCGCAGTCGTGATATATGATGGCGAAGGGCATAGCGGGCAGCATATATCGCAATACGATGTTATTGAATACAATTATTTTCACGGAATCGGTCCGCGGGTAACCAACGGGCTGGAGGCCATCAGGCTCGGTCTTTCCAGTACTTCCCTCTCCTCCGGATATATTACGATTCAGCATAATTTGTTCGACGGGTTTCATGGCGAAGACGAAGTAATATCGGTGAAGAGCAGTGACAATATCATACGGTATAACACGATTCGCAATTCATACGGCGGGATCGTGTCACGACACGGAAACCGCAACAGCTTCTACGGCAACCATCTCATCGGCGATGGGGTGACACCGGGCAGCAGCGGGTTCCGGATATACGGCAACGATCACAAAATCTATAACAATTACATGGAAGGTCTTACGGATAAAGTGATTCGCCTTGATGGCGGAACGCATGACGGCGGGCCGGAAGGCAGTACGAATCCGGTGGTGCGCTGGGGTGGAAGCCAGGAACAAACCGCGAGGCTGGGGGACCTGCCGGCCGAGCAAAGGACTGAACTTCTGCGCGGCCACTGGAGGCAGTACAACGTACAGATTTACAACAATACCATCGTGAATGTCGGCAACCAAACGACGACCTTCAATCTCGGCGGCAGAACCTATCAGCCCGTAGGGACTAAGATTTACAACAATTTGATATTCAGCCATGCAAGTACGATATTCCATGAAACCGATGCGGTTATTCAAGCACCCGATCAGGAGCGGGTGGAGTACAAGGGGAATAAACTCGAGGGGAATGCACCGATCTCGAACAATCCGATCGTGGACAGAGAGATGAACAAACAAGACCTTCGTTTGGTGCGCAGCAAGGACGGACTTATCCGGTTATCCATCTATAGCCCAGCCGTTGACGCTGCCCTGGCTCCTTATGCTGCAGCGGAGGACATGGATGGACAGCTTCGGTATATCCCGGACGTGGGTGCGGATGAGTATGCCTCAGGTAAACAGCGGTCCAATCCTCCGCTCACTGCCCGTGATGTCGGCCCGGACGCCTGGATAAAAAAATAA	MNRIESTVTASSYQPGTNYVPGNVLDGVWGEDAESQQSRWSASGQGQWLQFDLGMEQTVTYVNIAFLNARERLSSFEILASNTEDFQSSTVVFERQFSRQLQPEDSLLQTYVLQSPVKARYLRLIGYGNNAGGSSGNWNSIMEVELYAGKVPGESPEEPQPPLPPNAGEEKEEDVKPPELKRVSVRTAEQLQQALDQAVAGTLIELKDGTYEQNGPFIVKDKHGSAAYPIRITGKSGKAVISGNSYMHIENSSYVEVSGLTFRNGIGDENGIQTLTDRGLAHRALTGVHPGIQLESSSRISILGNSFALNETGQPYRFKAQNRNVWCLLDVEDSCRYSGDQYDPNGEVYEGLTPFEDPKLITDNGTHRHYIRVEGTSSHNRIAYNDIGPKKGFGAVVIYDGEGHSGQHISQYDVIEYNYFHGIGPRVTNGLEAIRLGLSSTSLSSGYITIQHNLFDGFHGEDEVISVKSSDNIIRYNTIRNSYGGIVSRHGNRNSFYGNHLIGDGVTPGSSGFRIYGNDHKIYNNYMEGLTDKVIRLDGGTHDGGPEGSTNPVVRWGGSQEQTARLGDLPAEQRTELLRGHWRQYNVQIYNNTIVNVGNQTTTFNLGGRTYQPVGTKIYNNLIFSHASTIFHETDAVIQAPDQERVEYKGNKLEGNAPISNNPIVDREMNKQDLRLVRSKDGLIRLSIYSPAVDAALAPYAAAEDMDGQLRYIPDVGADEYASGKQRSNPPLTARDVGPDAWIKK	PGPT0019415_43	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-ALGINATE_METABOLISM	CE-EPS-ALGINATE_BIOSYNTHESIS,PGPT0019415-algL-K01729	NA	NA
AK002_02895	1236	gerAC		Spore germination protein A3	ATGAGTAAGAGAGTAAACGCCGGCTTTAACCTAAAATTCATGATCCTTCTTCTCCTCTGCTCACTTCTGACAGGCTGCTGGGATCGGATGGAGATTGAGGAACGAGCGGTCGTTCTAGGTATATCAATCGACACGGCCGGCAAGGATGCCGAGATTCGTGAAGATGAGATTTCTCATCTTCGAGGGAAATATCCCGCACCGCAACAAGAAATGATCCAGTTATCCGTTCAAATCGCTCTTCCCGGCAGAATACCGCTCGGACCCGGCGAAGGCGGTGCTTCAGGAGAAGGCGCCCAAGAAACCGTGTGGGTACTGGATGTTGTAGGACATACCGTCGATGATGCGATGATGAATCTCCAGCAGCAAATATCAGGCAAATTGTTTTTTGGACATCTCCGCGTCATCGTCGTTTCTGAAGAGTTTGCCAGAAAGGGGATGGAGAATTTAAACGACTATCTCCACCGAAACGCGGAAGTTCGCCGTATGGCCTGGCTGATGGTATCCAAAGGGAAAGCGAGAGAACTGATGGAAGCTGCCCCGAAGCTGGAGCGCGTCCCGGCATTGTATTTGTCCTCCACGCTGGACGATGCCGTTAAACATGGCAAGTTCCCGAGCGACTATATCGGAACTTTCTGGAACAATTCGTCGAAGAAGGGCCAGGAAGGATTTCTGCCTTACATCCAAATCATGAAGGGCGATAACGTGGAAATCAGCGGCATGGCTTTTTTCAAAGGCGCCACACTGGTCGGCGTGACAAAACCCTTTGAAATTGCCGGATACTTGGTCATCAAGGGAATCAGTCCGGCAGGATATCGGGGAATCATCCATGTTGGAGACGACTCTCAGGTCGTCACCATTCATGCAACGAACCGGGAATCGGAAATCAAGGTGGACATCAAGAACGGCCTTCCTCATTTTACGATCACGGCAGTGACGGAAGTGAATGTCGAAGAGAAAAATACGGAAGTCCTCCCGCTCAATAACTCGCATATTCTTGAGGAAATCGCGCGGGAGAATGAACGATCCGTTAAAGAACTCATGCTCGGACTAATCCAAAAAACGCAAAAAAAAGAATCCGATATTTTCGGATTCGGCGAATTGGTACGAGCCAGAAAACCATCGTATTGGAATACCCATGTCAAAACCGCGGACCAATGGAGTGAAATTTATAAACATACAACCTTTGATTTTCGTGTGACATCGAAAGTCCGTAGAGTCGGCATGAAGGCGGAATGA	MSKRVNAGFNLKFMILLLLCSLLTGCWDRMEIEERAVVLGISIDTAGKDAEIREDEISHLRGKYPAPQQEMIQLSVQIALPGRIPLGPGEGGASGEGAQETVWVLDVVGHTVDDAMMNLQQQISGKLFFGHLRVIVVSEEFARKGMENLNDYLHRNAEVRRMAWLMVSKGKARELMEAAPKLERVPALYLSSTLDDAVKHGKFPSDYIGTFWNNSSKKGQEGFLPYIQIMKGDNVEISGMAFFKGATLVGVTKPFEIAGYLVIKGISPAGYRGIIHVGDDSQVVTIHATNRESEIKVDIKNGLPHFTITAVTEVNVEEKNTEVLPLNNSHILEEIARENERSVKELMLGLIQKTQKKESDIFGFGELVRARKPSYWNTHVKTADQWSEIYKHTTFDFRVTSKVRRVGMKAE	PGPT0025060_120	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK002_02896	210			hypothetical protein	ATGATCGGGGAAATTTACAGCGGTTATTTGGATGTTGCCATTCTGATCTGGCTCTTCTGCGGCTTGTTCAATCTGATCATCGACATGAATAAGTACAGACAATCGAACATGACCAAGGAAAAAAAAGTATCCCTTGTGCTGGGTTGGATCAATATCAGTATCGTAACGGTTTGGTTTCTGGTTATCGTCCTTGTTAAAGTCTTCGTGTGA	MIGEIYSGYLDVAILIWLFCGLFNLIIDMNKYRQSNMTKEKKVSLVLGWINISIVTVWFLVIVLVKVFV				NA	NA	NA	NA	NA
AK002_02897	1095	yndE_3		Spore germination protein YndE	ATGAATGAACAGCGCCAAATCACGGTTCTGCAGGCCTCTGCCATTACGATCAGCACCATCGTGGGAGTAGGCGTTCTTGCACTCCCTTTGTCTGCGGTCAAGGCTGCGGATGCCGGGGCTCCGCTCGTTACTTTTTTGGGAATGCTGCTGGCGTTTGTCGGACTTTTCTTCATGACCCGGCTCGGCATGCGGTTTCCGAACGACTCGTACGTGGAGTACAGCGAAGTTATCATCGGTAAGTGGTTCGGTCGAATCGCAAGCTTGGTCTCGATTGCGTTTTTTGCGGTTTTGACCTCTCTGGTCGCCAGAGAATTCGGCGAGGTTGTCGTTACGGCCGTCCTGAAGAATACACCGCTGGAGATTACCGTACTGGTCATGCTTCTGCTGGCTGCATTTTCTTCTCGCCGGAATATTATGACCTTTGCGTATATCCACTTATTTTACAGCCCCTTTATTCTGATACCTGCGCTTTTGATCGTCGCCCTTTCGTTAAAAAATGCGGACTTGGTCAATGTTCTCCCTGTATGGGGGAATGAACCCGGAGGCATACCGGCAGGCATTATTACGCTCTCCACCGTGTTCCAAGGCTATTTTATTATGATGATGGTCATTCCGGCCATGTGCAAACCTGAAAGAGCGATGCGGTCCAGCCTATGGGCCATGGTGGTAACCGGCGCTTTGTATATTTTGATCGTGGCTGCAACGGTGGGCGTGTTTGGAGCCGAGGAAACCAAAAAGCTGTTATGGCCGACACTGGAGCTTGCCAAGGCAACTTCATTGCCTGCCAATGTACTGGAACGTTTGGATGCAGTCTTTTTAGCCGTTTGGGTAACGGCTGTATTTACATCCTTGTTCTCTTGTTACTACTTTACGGTCTACTCGATAAGCAAGCTATTCCGGTTAGCGGACCATGGGATGTTGTCCTTCTTCATCCTCCCCTTTCTGTTCGTATTGGCCATGCTGCCCCAAAGCTTGATTCAATTGAATGAAGTGAACAGCATGATATCCAAATATGGACTGCTGATTACTATCGCGTATCCCGGAATCCTGCTGATCATCGCCATCCTGCGCAAAGTAAGAGGTGCAGCCAAATGA	MNEQRQITVLQASAITISTIVGVGVLALPLSAVKAADAGAPLVTFLGMLLAFVGLFFMTRLGMRFPNDSYVEYSEVIIGKWFGRIASLVSIAFFAVLTSLVAREFGEVVVTAVLKNTPLEITVLVMLLLAAFSSRRNIMTFAYIHLFYSPFILIPALLIVALSLKNADLVNVLPVWGNEPGGIPAGIITLSTVFQGYFIMMMVIPAMCKPERAMRSSLWAMVVTGALYILIVAATVGVFGAEETKKLLWPTLELAKATSLPANVLERLDAVFLAVWVTAVFTSLFSCYYFTVYSISKLFRLADHGMLSFFILPFLFVLAMLPQSLIQLNEVNSMISKYGLLITIAYPGILLIIAILRKVRGAAK	PGPT0025120_284	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311	NA	NA
AK002_02898	1629	gerBA_3		Spore germination protein B1	ATGCCATTTTCTACATGGTCGGGTTCGAACGAATCCCAAATCGAAGTCTCTTCCCATTCAAATGATGCGAGTTCAGAGGGCCGGAACGTATCGGAGAGCTTAGAAGAGACCACTTCCGAAATCAAGAAAATTCTGGGCGATAACGACGATTTTATGATACATCCCTTCCATGTGTTCGGGCAGCATCCGGCCGTGTTGTTTTATTTCTCCGATATGACGGATCACGCCGTCATTAATAATACTTTATTAAGACCACTTAAATATGGCCCTCGCCATCTCGATGTTTCGGACCTCCCTCGCCATGCGTTGATGGACACTTTGATGAAGGATACGCTTTATCACAGCGAAGGATACTCGGAACGAAAAATCTCCGTGCTCACCGACAATCTTCTTAGGGGACAGTCTGTCGTAGCGATCGAAGGGCTGGACGAGGCCATTATCATTGATACACGAAAAATAACGCAGCGTTCGATAGAACAGCCGGCGACGGAACAGGTGATCCGCGGGGCCCGGGAAGGATTCATCGAGACGCTCGGCACCAACATTTCCCTGCTCCGTTACCGGCTGCAAACACCGGATTTCCGCGTGAAATCCATGGAGATCGGAACGAAAACGAAATCCAAGGTTGCGGTCTGTTACATGGATGGCATCACCAATCCCGGAATCGTTAAAGAAGTGAATAAGCGCCTGGACGCCATTGAAATCGATGCCGTGCTGGATTCGGGGTATCTGGAACAGTTTATCGAAGACAATCATTGGTCTCCGTTTCCGCAAATCCAGTATACGGAGCGGCCCGACAAAGTCGTGGCAAATCTGCTGGAAGGCCGAGTGGCCATTCTGGTCGACGGTTCCCCGCTGGCCTTGATCGCTCCAACCGTATTCAGCCAGTTCTATCAAACAGTGGAAGATTATACCGAACGATTTCTATTGATGAGTGCGATCCGGCTGTCCCGTCTGGTGGCTTTGGTATTTTCCTTGGTTTTTCCCTCGTTGTATGTGGCGATCATCTCCTTTAATCCTGAGCTGATTCCCACGGAGTTTGCGGTCGCCGTCGCAGGCGGACGTGCAGGCGTCCCTTTTCCGGCGATGGTCGAAGTGCTCGTTATTGAAATTTCGATGGAGGTTTTGCGGGAAGCCACGATCCGGTTGCCGCAGCAGGTGGGCGGCGCTTTATCCATTGTCGGCGTGCTCGTCATCGGGCAAGCCGCGGTATCTGCCGGGTTCGCTAGTCCGATTACCATCGTCATCATTGCATTAACGACCATCGGATCTTTCGCAACGCCGGCCTACAACGCGGCGCTTGCGCTCCGTCTGCTGCGTTTTCCGTTGATCATATTAGCCGGGATCTTCGGCTTGTACGGCGTCATGGTCGGCATCATTCTGATTGCCAATCATCTTTTGTCGCTTAAATCGTTCGGGGTTCCGTATCTAAGCCCATTCGTTCCCGGCAACTTTCAAGGCATGCGGGATCTTCTGACTCGCGGACCGCTGTGGAAGATGAAGGACAGGCCTTCCTTTCTCCATCCGCTGAACACGTCAAGGCTCGGTGATCAAATGAAGGAGCAGGTGGATCATTCCTCAACCAATATCATGAATCCCGTCCAACCTAATGACGAGAAAGGTCGATAA	MPFSTWSGSNESQIEVSSHSNDASSEGRNVSESLEETTSEIKKILGDNDDFMIHPFHVFGQHPAVLFYFSDMTDHAVINNTLLRPLKYGPRHLDVSDLPRHALMDTLMKDTLYHSEGYSERKISVLTDNLLRGQSVVAIEGLDEAIIIDTRKITQRSIEQPATEQVIRGAREGFIETLGTNISLLRYRLQTPDFRVKSMEIGTKTKSKVAVCYMDGITNPGIVKEVNKRLDAIEIDAVLDSGYLEQFIEDNHWSPFPQIQYTERPDKVVANLLEGRVAILVDGSPLALIAPTVFSQFYQTVEDYTERFLLMSAIRLSRLVALVFSLVFPSLYVAIISFNPELIPTEFAVAVAGGRAGVPFPAMVEVLVIEISMEVLREATIRLPQQVGGALSIVGVLVIGQAAVSAGFASPITIVIIALTTIGSFATPAYNAALALRLLRFPLIILAGIFGLYGVMVGIILIANHLLSLKSFGVPYLSPFVPGNFQGMRDLLTRGPLWKMKDRPSFLHPLNTSRLGDQMKEQVDHSSTNIMNPVQPNDEKGR	PGPT0025050_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK002_02899	666	rspR_2	COG1802	HTH-type transcriptional repressor RspR	ATGCCTGTTCCTAAGAATTATGTCTCTCCCGTACGGATGACCGCAAAGGAAAGAGCCTTCTCCCAAATTCAACGGTGGATTATCGATGGCACCCTTCAACCCGGCGAGAAATTGCTCGACGCCGAATTGGCGGAATCGCTTGGCGTAAGCCGAACGCCCATCCGGGAAGCTTTTCAACTGCTTGAAGTACAAGGACTCGTGTCCACGCACCCCGGGAAAGAAACAAAAGTTACGGCCATTGAGAGGGAAGATATCTTTAAGATGTATTCGACCATGGCCGCTCTTCAAGCCTTGGCCGCCGAAGTGACCGCTACCATCATTGTTCCGGAGCAGATCCAGCAATTGCGGGCGATGAATCTGGATTTTGAAAGTGCCATGAAGAGCGGGCAAGCTTATCAAGCCATGGAGTTGGATGAACAGTTTCATAATTTCATCGTGGAGTTGTCAGATAATCCTTATGTCGCTGCATACAGTGCCTCGCTTCAGATGCATATCCGACGGTTTAAGTACGTGTTCTTAAAACAGCCGATTGCTGCCACACAGGCTTCAGTCGATGAGCATGCCTCGATCATCAGCGCTTTCGAGCAGAAGGACCGTGATCGGGCGCAAGCTATGATGAAACAAAACTTCATGCGTCCCATGCAGGAACTACACGGGTTACTCTAA	MPVPKNYVSPVRMTAKERAFSQIQRWIIDGTLQPGEKLLDAELAESLGVSRTPIREAFQLLEVQGLVSTHPGKETKVTAIEREDIFKMYSTMAALQALAAEVTATIIVPEQIQQLRAMNLDFESAMKSGQAYQAMELDEQFHNFIVELSDNPYVAAYSASLQMHIRRFKYVFLKQPIAATQASVDEHASIISAFEQKDRDRAQAMMKQNFMRPMQELHGLL				NA	NA	NA	NA	NA
AK002_02900	1692	ilvD_2	COG0129	Dihydroxy-acid dehydratase	ATGACAGACAAAAAAGATTTACGCATTCGCAGTAAGGTAATCAGTGAGGGCGTCAACCGGGTACCGAACAGGGCGATGCTGCGGGCTGTTGGTTTCACGGATGCGGATTTTAAGAAACCGATGATTGGCGTAGCCAGCACTTGGAGCGAAGTGACCCCTTGTAATATGCATATCGACAAGCTAGCCATAGAGGCCAAGCAAGGGGTACGCAATCATGGCGGCGCTCCGCTTATTTTCAACACGATCACGGTTTCGGATGGCATTTCAATGGGACACGGCGGCATGCTGTTCTCCCTGCCCAGCCGAGAAGCCATCGCAGATTCGATTGAGATCGTGACGGGGGCCGAACGTTTCGATGGTCTGGTGGCGATCGGCGGTTGCGACAAGAATACGCCCGCCTGCCTGATGGCAATCGGACGGATGAATCTTCCTGCGGTTTATGTTTACGGCGGTACGATACAGCCCGGGAAGCTCGATGGCAAGAACGTGGATATCGTCACGGCTTTTGAAGCGGTCGGGCAATATCATGACGGAAAAATGACGGAGGAGCAGTTACATAAGGTGGAATGCAGCGTCTGCCCGGGACCGGGCTCTTGCGGGGGCATGTATACAGCCAATACGATGGCCGCTGCGGCAGAAGCCATGGGGATGAGCCTGCCCGGTTCCTCTTCCACTCCGGCTATTTCACCAGACAAAGCAGCGGAATGCGCTGCGGCTGGAAGGCAGGTCATCTCCTTGTTGGAGCAAGAAATCTATCCTAGGGACATCATGACCAAAAAAGCATTTGAGAATGCGATAACCGTCGTCATGGCTTTGGGCGGTTCAACCAACGCGTTCCTGCATTTGCTTGCCATCGCTCATTCGGTTGGCGTAGATTTGACGTTAGACGACTTCGAGCGAATCCGTTTGCGAGTTCCCCACCTTGCAGACCTGAAGCCAAGCGGACGACATGCTATGCAGGACTTAAACGAAGTCGGCGGTGTACCGGGCGTCATGAAATTATTGCTCGCCGAGGGGCTTCTGCATGGCGATTGTCTGACGGTCACAGGCAAATCATTGGCAGAGAATCTGGCGGAAGCTGCGCCGTTAGAGGGCAGCCAGGAAATCATTCGCCCCATCGATAAGCCGCTGAAGCCGAACGGGCCATTGGTTGTATTAAGAGGCAATCTCGCGCCAGAAGGTGCGGTTGCCAAAATGTCGGGTATGAAGAAGCTGCGTTTTGTCGGACCTGCCAAGGTGTATGACAGCGAGGAGGATGCAACCAAAGCGATCGTGAGAGATGAAATATGCAAGGGCGACGTGTTAGTCATTCGTTATTGCGGTCCTAAGGGCGGCCCGGGTATGCCGGAGATGCTGTCGGTCACGGCACTCATTGTAGGCAAGGGTCTCGGCGGAGAGGTTCCGCTGATTACCGACGGCAGGTTCTCTGGCGGCTCGCATGGGTTCGTTGTCGGTCACGTTGCGCCTGAAGCACAGGTAGGTGGGCCGATCGCGCTGCTGAGGAATGGAGACATGATCACGATCGACAGCGAAACGCAAGAAATGACGTTCGACGTATCGGATTCCGAATTGGCTGCAAGGGCACAAGCATGGCAGCAGCCTCCACTCAAAGTTTCCACGGGCGTATTGTACAAATATGCAAAATTAGTGTCCTCAGCATCGAGAGGCGCGGTTACCGACTCTGCAGAATAA	MTDKKDLRIRSKVISEGVNRVPNRAMLRAVGFTDADFKKPMIGVASTWSEVTPCNMHIDKLAIEAKQGVRNHGGAPLIFNTITVSDGISMGHGGMLFSLPSREAIADSIEIVTGAERFDGLVAIGGCDKNTPACLMAIGRMNLPAVYVYGGTIQPGKLDGKNVDIVTAFEAVGQYHDGKMTEEQLHKVECSVCPGPGSCGGMYTANTMAAAAEAMGMSLPGSSSTPAISPDKAAECAAAGRQVISLLEQEIYPRDIMTKKAFENAITVVMALGGSTNAFLHLLAIAHSVGVDLTLDDFERIRLRVPHLADLKPSGRHAMQDLNEVGGVPGVMKLLLAEGLLHGDCLTVTGKSLAENLAEAAPLEGSQEIIRPIDKPLKPNGPLVVLRGNLAPEGAVAKMSGMKKLRFVGPAKVYDSEEDATKAIVRDEICKGDVLVIRYCGPKGGPGMPEMLSVTALIVGKGLGGEVPLITDGRFSGGSHGFVVGHVAPEAQVGGPIALLRNGDMITIDSETQEMTFDVSDSELAARAQAWQQPPLKVSTGVLYKYAKLVSSASRGAVTDSAE	PGPT0001875_3792	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
AK002_02901	2400	yesS_5	COG2207	HTH-type transcriptional regulator YesS	TTGTACATATCCATTTATACGGTCCAGTTGATCCTGTTCTTTACATTCCATGCCAAGAAGGAGCAGACGATATTGGGAACATTCAAATCCAAAATACTCATATACAGCTTGCTGCTGGGATCCTTTCCGACGATTCTTATCGGATTCTTCTCTTATTTCATCGCCGCCAAAGATGTGGAGGAGAAGGTGAACGAGGGCAATATGCATCTGCTGAACCAGACTCGGATGAGGGTGGAGCAGGTGCTCGATTCCATGCAAAGAACCGCCTTGCAGTTTGAGAACTCCTCGCTGCTGAAGTCCGTGATGGACAGCAAGTTAAGCGGACAGGATTTTATCAAGGTCCGGGAACTGACGAAGGAAATGTTCAACCTGCAGACGCAGACCATTTTAAACCAGGTGTACGTCGTCAATCTAAAACATGAATGGGTCGTGGATTTAAACTCACTCAAACCGCTGGAGGGCGTGAACAGAGCCGAATTCGACCGGTATCTGGATACCCATGAAAGCATATTCTGGGCAGCGGGATCTGGGGAAATCTCGCAGACCGCGAATCCTGTGGAGACGGATCACTGGAACAGTGCCGAACAAACGGCGACAACCCTTCGGCTGGTACACAAATTACCGCTTCTGTCGAAGAGCGCCGCTCCGTCCGGCATTCTGATTCTGCAAATCACCGCCAAAGATATCCGGAGCATGCTGGAACCCGTCAATTTGCGGGCCAGCCAATATATCCTGAACGAGCAGGGAGAAGCGTTCCTGTCGCCAATTCAGGATCGGGAGGCTTACCGCTCGATCAACGGAGAGGTCTTCGCAAGGATTGGGCAGTCCGGTGAACCCCAAGGCGCATTTCACGCAGAGAGCGAAGGCAATAAGGTGAGCGTGCTGTACGCCAAATCGGATTATAACGGCTGGACCTATGTATCCGTCGTATCGCTGGATAAAGTGACCGATCAGACGGGAAAGATTGCGCTGATTACAGCCGCAGCCTGTTTCGGGATTATTGTGACCGTGCTGATCGCTTCCTGGTTTGGCAGCCGCAGGATGTATTCGCCAATCCGCAAACTCCACGAGTTCGCGACGAACGTTCAGCCGCAGCAGACCGATGACTACCGGAAAGATGAGTTTGAGTCCATCCGGGAGAGCTTGACCTCCCTTGCCGTTTCAAGAAACGAGCTGGACAAACAGATGAAATCCCAGACGGTGCATCTACGGGAATTCTATGTCCTGAAGCTGTTTACCGAGCAGATGTCCGGAGCCGATGACCAATACGCTTCCGAACGCTACGGGTTTCCAACGGGCTGGGGAAGTCTCGGCGTGCTGCAGCTTGAGTTGGATAACCTTCAACAATCGCGGTTTCAGGAACAGGACCGGGAGCTTCTTCTGTTTGCGGTCAGCAATATCGTGTCGGAAGCCTTGCCCGTAGAGGCGCGTTTCAGTCCGATCGTGCTGAATCATTCCCAGGTAACGCTGTTAACCAGTAAAGAGGAGAGTGCCGAAGCTGGTCTAGCTATGTTCTATGAGACCGCTCAGCATATCAAAGCCAAGGTTCATGAATACCTCGGGCTCGAATGCAGCATCGGCATCAGCCACCCGTTTAAGCGGTTGTCCGATGCGAAGCGTGCCTACAAAGAAAGCAGTGCGGCACTCAAACTGCGATTTATTCTCGGGTCGAATATCATCGTGCGTTATGCCGATATTGAGGATCAAGGCAATACTGAGAAGACGGTATACACGAAATTAAGGCTGATCGAGGATCAGATGATGCTTGCCATGGAAGAACGACAGCTTGAACAGGTGGAGCAGCTGTTTCAGCGTTATTTGGATAAATTGCTGTGCAAGGACGGGTTTCATCAAGAGCATCATTTATTGCTGCTGCAGCTGGCGTCCAGGACCGTTGGCATAGCCCAGGAGCAAGGACTGTCGATGCAGCAAGTATGGAATGGCGAAGAGGAGCTGAAGCATCTGTTCAGGCTGCAGACACGAACCGAAATTGCGAGCTGGTTCCACTCCAGGTTGTTTAAGCCTGTAATCGGAATTTTGGAAGATATGGCCGATAAACAGTTCGTGAACATCACCCGCCGAATCGTCGATATCGTGCAGGAGCAGTTCGGTCAAGATATTTCGCTCGACTATTGCGCGGCGGTCATGAATTTTAATCCGGCTTATATCAGCCGTGTATTTAAGAAAGAAATGGGCGTCTCCTTCAGTGAATACATAAGCGAGTACCGAATGAATATCGCCAAAAATCTACTGGCCACGACCGAGATGAAGGTCTCGGAAATCGGCAGGAAAGTGAGCTACACGAATATTAGCGCCTTTATCCGTACGTTCCGTCGTACGTTTGGGTTAACTCCCGGCCAGTATCGGGAGCAGCTCAACAGTGAAGAAGGGAAGGGATGA	MYISIYTVQLILFFTFHAKKEQTILGTFKSKILIYSLLLGSFPTILIGFFSYFIAAKDVEEKVNEGNMHLLNQTRMRVEQVLDSMQRTALQFENSSLLKSVMDSKLSGQDFIKVRELTKEMFNLQTQTILNQVYVVNLKHEWVVDLNSLKPLEGVNRAEFDRYLDTHESIFWAAGSGEISQTANPVETDHWNSAEQTATTLRLVHKLPLLSKSAAPSGILILQITAKDIRSMLEPVNLRASQYILNEQGEAFLSPIQDREAYRSINGEVFARIGQSGEPQGAFHAESEGNKVSVLYAKSDYNGWTYVSVVSLDKVTDQTGKIALITAAACFGIIVTVLIASWFGSRRMYSPIRKLHEFATNVQPQQTDDYRKDEFESIRESLTSLAVSRNELDKQMKSQTVHLREFYVLKLFTEQMSGADDQYASERYGFPTGWGSLGVLQLELDNLQQSRFQEQDRELLLFAVSNIVSEALPVEARFSPIVLNHSQVTLLTSKEESAEAGLAMFYETAQHIKAKVHEYLGLECSIGISHPFKRLSDAKRAYKESSAALKLRFILGSNIIVRYADIEDQGNTEKTVYTKLRLIEDQMMLAMEERQLEQVEQLFQRYLDKLLCKDGFHQEHHLLLLQLASRTVGIAQEQGLSMQQVWNGEEELKHLFRLQTRTEIASWFHSRLFKPVIGILEDMADKQFVNITRRIVDIVQEQFGQDISLDYCAAVMNFNPAYISRVFKKEMGVSFSEYISEYRMNIAKNLLATTEMKVSEIGRKVSYTNISAFIRTFRRTFGLTPGQYREQLNSEEGKG				NA	NA	NA	NA	NA
AK002_02902	972	yteP_27	COG4209	putative multiple-sugar transport system permease YteP	ATGAAATCTAATCAAACTCCGGCTGCGGCAGGCCCGCAAGTAAAAAGGGAACTGAGTCTGGAGAAAAGAAGACTATTACTGAGGGACCTGGTCAGGGACAGGTGGATGTATCTGATGCTGCTGCCCGGTGTGCTGTATTTTATCGTATTTAAATATGTTCCGATGTACGGGGTGACGATGGCTTTTCAGGATTACAAGCCGCATACCGGATTCTTTGGCAGCCCGTGGGTCGGGTTCAAGCATTTCGAGCGCTTTTTCAGTGAGCCGCAGTTTTGGATGCTCTTTCGAAACACCATTATTTTAGCGTTATATAATCTGATCTTTTTCTTTCCGCTGCCGATTATATTGGCGCTCATGCTGAATGAGTTAAGGCGGGAACGCTTCAAACGATTTGTACAAACGTTGATCTATATTCCGCATTTTGTATCCTGGGTTGTCGTTGTAGGTATTTTCTATATTCTGTTTACGACCGAGAACGGCCTTCTCAATGAGATCATTTACCAGATAACGGGCGAGAAAATCGCATTCTTGCTGGAGAAGGATTGGTTTCGGACGATGATTGTTTCCCAGTCGATCTGGAAGGAAGTGGGCTGGGGCACCGTGATCTTTCTTGCCGCCCTTGCAGGCGTTGATCTGCAGCAGTATGAGGCCGCGCGGATCGACGGAGCCGGACGCTGGCGCCAGCTGTGGCATATCACGCTGCCGGCCATCCGAAGCACGATCATCATTTTGCTTATTCTTCGTTTAGGCAACTTCCTGGACTCGGGCTTCGAGCAAATCTTCCTCATGATCACGCCGACGAATCGGGAAGTGAGTGAAGTATTCGACACGTACGTGTACACCAAAGGGATGACGCAGGCCCAGTACAGTTACAGTGCCGCAGTCGGCCTGTTTAAATCCTTTGTCGGATTGATTCTGGTTCTCGGATCAAACTGGATGGCCAAGCGATTCGGGGAAGAAGGCGTGTACTAG	MKSNQTPAAAGPQVKRELSLEKRRLLLRDLVRDRWMYLMLLPGVLYFIVFKYVPMYGVTMAFQDYKPHTGFFGSPWVGFKHFERFFSEPQFWMLFRNTIILALYNLIFFFPLPIILALMLNELRRERFKRFVQTLIYIPHFVSWVVVVGIFYILFTTENGLLNEIIYQITGEKIAFLLEKDWFRTMIVSQSIWKEVGWGTVIFLAALAGVDLQQYEAARIDGAGRWRQLWHITLPAIRSTIIILLILRLGNFLDSGFEQIFLMITPTNREVSEVFDTYVYTKGMTQAQYSYSAAVGLFKSFVGLILVLGSNWMAKRFGEEGVY	PGPT0017250_657	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02903	873	araQ_31	COG0395	L-arabinose transport system permease protein AraQ	GTGCGTCAAGATCAAACCTGGGGCAATCGCCTGTTTGATATCATTAACCATTCGGTATTATTCATCGTTGCGATCGTGTGTGTCCTGCCATTCGTGTATGTGCTGGCGGTATCCTTTGCCAGTCCGGCGGAAGTCGCCAAAGGCGGGTTGATTCTATGGCCCAAAGAATGGTCGCTCGTATCGTATCAATATATTTTCTCGTCGGATACACTGCCGCGAAGCTTGCTCGTGTCGATCTATATAACGGTTGTAGGAACGCTGATCAACCTGGCGTTTACGTCGCTGATGGCTTATCCGTTGTCCAAGCCTCATCTCCGGGGGAGAAATCCCATCCTTCTCGGTGTATTGATCACGATGCTCTTTAGCGGTGGCATGATTCCAACGTACTTTGTCGTGAACGGATTGAATCTGACCAACACGTTATGGTCTTTGATGATCCCCAGTGCCATCAGTGCGTTTAACCTGATCGTGCTGAAGAACTTCTTCCAGCAGATTCCCGACGGACTGGAGGATTCCGCCAAAATCGACGGCTGTAACGACCTGGGAGTCCTGATACGGATCGTGCTTCCCTTGTCCCTTCCGGCCATGGCGACATTTGGTTTGTTTTATGCGGTTGCTCACTGGAACACGTTTTTCAATGCGATTCTGTACATCAATGATAACGAGAAGTGGCCGATTCAGGTCCTGCTAAGGGAAATCGTGATTTTGGCACAGAGCCGGGTGGGGGATTCCAGCTTTGACGAAATGGACGTGCAGCCTTTAACGATCCGTATGGCGGTCATCGTCTTTGCCACCGTGCCGATTCTGCTCGTGTATCCTTTTCTGCAGAAGCATTTTGCTAAGGGCGTTATGCTGGGCTCTGTGAAAGGTTAA	MRQDQTWGNRLFDIINHSVLFIVAIVCVLPFVYVLAVSFASPAEVAKGGLILWPKEWSLVSYQYIFSSDTLPRSLLVSIYITVVGTLINLAFTSLMAYPLSKPHLRGRNPILLGVLITMLFSGGMIPTYFVVNGLNLTNTLWSLMIPSAISAFNLIVLKNFFQQIPDGLEDSAKIDGCNDLGVLIRIVLPLSLPAMATFGLFYAVAHWNTFFNAILYINDNEKWPIQVLLREIVILAQSRVGDSSFDEMDVQPLTIRMAVIVFATVPILLVYPFLQKHFAKGVMLGSVKG	PGPT0017255_2611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02904	1494	lipO_16	COG1653	Lipoprotein LipO	ATGAAGAAAAGATGGATGACAACCGTGATGGCGATGCTGGCGGGGATGATGGTTGTAACGGCTTGCGGAGACAAGAGCGACGGGAGCGGGGTTAATGGCGACGGACCTTATCCGCTCACCCTGGTGGTGAACCAGGTGGGAGAAATACCTGACCCGAACAATCCGATGGAGGAAAAAATACGCGAATACACGAACACGGACCTGCGGATTCAGTGGATACCTTACTCCGCATATGACGAGAAGGTTAACGTCATGGTCGCTTCCAATGAGCTTCCGAAGCTGATCAAGCTGAACTATACGCCAACAACCATCAGCTCGCTCGAAGCCGATCTGTTCTGGGATATCACAACCCATTTGAAAAATTACCCGAATTTGGCCGCACAGCCGCAACCCTATTACGATAATATCAGCGTGAACGGCAAAGTATACGGGATCCCTCTGTTCCGGGACATGGGCCGGGCGATCGTCAGCTACCGCAAGGACTGGCTCGATGCAGCCGGCTTGAAGGAGCCGGTGACCCTGGACGATTGGTATGAAATTATCCGGTACAGTACGGAAGAGGATCCCGATGGCAACGGAAAAAGGGACACTTACGGAATGATGCTGGACAAAGGTTATAACCAGGGTACGGCATCAACATTGACCCGGCTTGCCGTTTCCCAAGGCGCACCTAATAAATGGGGCATTGACGAGCAGGGCAATTTCTATCCGGAGTTCGAATCCGAGCAGTTCTTCGAGGTTATGAAGCTGTTCAGAAGATTGTATGAAGAGAAGCTCATCAATCAGGATTTCGCCGTGGTGGATTCCTCCGAGCTCAATAAGGTGTATGAATCGGGCCGCGCGAATATCCGGATCTCCGGCGGTAACGGCCAATCGCTGCAAACCAAGCTGGAGAAGGTCGTTCCGGAAGCGGTTGTCGACGTATCGGCGCTGAAAGGACCTGAAGGCGTTCGGGTTCCGGGGGAAAGCGGTAATACCGGCTTTCTGGCGATCCCGAAATCGACGGTCAAGTCTGAAGAAGAGCTGGCTAAAGTGCTGACCTTCGTTGACAAGCTGCTGGATCCGGAGATGGTTAATGTCATTAATAAAGGTATCGAAGGCGTCCATTACGAAGTCGAAGGCGATTATACCGTAACGATCGATGCGGATAAGGACGCTCAGGAGGTCAAGCCTTATCGCGATACGTTTCCGCAACGGGGAGATTTGTACAACATGGAGAAGAAACCGAAAGGAACGGAGCTGTTCAACAAAAATAAACAAATCGTGTACGAGAACGAGAACTATATTGTGCCGAATCCGGCGCTTACCTTGAAATCCAATACGTATAATGAACGCGGCGGCGAGCTGGAGCAGATCATCACCGATGCGCAAACCAAGTTTATTATGGGACAGATTGACGAGGCCGGCTGGAAGGCCGAAGTGGAGAGATGGAGAAAGAGCGGCGGCGATCAAATGGCTGCGGAATATAAAGAGTCCTACAAGTATCAAGAATAG	MKKRWMTTVMAMLAGMMVVTACGDKSDGSGVNGDGPYPLTLVVNQVGEIPDPNNPMEEKIREYTNTDLRIQWIPYSAYDEKVNVMVASNELPKLIKLNYTPTTISSLEADLFWDITTHLKNYPNLAAQPQPYYDNISVNGKVYGIPLFRDMGRAIVSYRKDWLDAAGLKEPVTLDDWYEIIRYSTEEDPDGNGKRDTYGMMLDKGYNQGTASTLTRLAVSQGAPNKWGIDEQGNFYPEFESEQFFEVMKLFRRLYEEKLINQDFAVVDSSELNKVYESGRANIRISGGNGQSLQTKLEKVVPEAVVDVSALKGPEGVRVPGESGNTGFLAIPKSTVKSEEELAKVLTFVDKLLDPEMVNVINKGIEGVHYEVEGDYTVTIDADKDAQEVKPYRDTFPQRGDLYNMEKKPKGTELFNKNKQIVYENENYIVPNPALTLKSNTYNERGGELEQIITDAQTKFIMGQIDEAGWKAEVERWRKSGGDQMAAEYKESYKYQE	PGPT0017245_3195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02905	1434			hypothetical protein	ATGATGATGACTGCACTGGCACGAGTCCGTCCCGAGGAGGTGGGTATTCCTCCATCAGCCATCCTCCGCTTTATGGAGGATATGACGGAAAGGAATATGAACCTGCACAGCTTTATGCTGCTCCGGCATGGCAAAGTGGCTGCTGAAGGCCACTACTACCCTTTTCGGAAGGATGCAAGGCATCCGATATTCTCCGTCAGCAAAAGCCTGACTTCTGCAGCCATCGGTATCGCCATTGGAGAAGGGCTAATCTCCCTGGAGGACAAGGTCATTGCATTTTTTCCGGATAAGCAGCCGGAGGCCGTACACCCGTATACGGCCAGCATGACCATCCGGCATCTGCTGAGCATGCAAACCGTTCACCGGAAATCCACCAATAAGGAGGCCCGGGATATCGTATTCGAATATCTTCATACGCCTCCAAGCCATCCCCCGGGTACCGTCTTTGCTTACGATACGACGGGTACGCATACGCTGTGTGCCATCCTTCAACGAGTCACGGGAACCACCGTGCACGAATATCTCGAAACACGCTTGTTCCAGCCCCTCGGGATGCAGGATATCGAATGGGAGACCTGTCCGCTCGGCATTAACCAGGGCGGCAGCGGAGCTTATTGCACGCCCGAGGATATGGCCAGGTTCGGCCAGCTGTATCTGCAGGACGGATTCTGGAACGGAATCCGGATTCTGCCGGAGGGCTGGGTAGAACAGAGCACATCCAAAGCGGTCGATAACTCCAGTGCCGGAATTCTGCTGGAAGGTCGAAGCGGGTACGGATACCAGTTCTGGCGGGCCAGGCGTCAAGCCTACTGCGCCTTCGGCGCGGGCGGACAATTCATCCTCGTCATGCCTGACCAAGATGCCGTTTTCGTCTCAACGGCCAACACCATGTTGAACCGGGACGAGCACCAAGGGATACTGGATAGCGTTTGGACGCATCTGGTTCCTTCCATGGAGGCGTTCTGCCCCCATGATGATGCCGGTTATCAACGGATGCAGCAGCGGCTGAGCGCTTTGAAGCTCCATCTGCCGAAGGGAAGCTCCACTTCCACAGCAGCCGCGGAGGTCTCTGGGCGGCATTATCGCCTCTCACCTAACGAGCCGGGATGGTTGGCTTGTCGCTTTACGTTCAGTGAGCAACAATGTGAGCTCATCTTCGTACATGAAACCGGTCGTCCCGGGGTTTTATGCTCCATGAATGATTGGGATATCGGTCCTGATCCCTTTTATGGCCTTCCCTCCGCCTGTGGTGCCGTATGGGCAGACTCGTCGACTTGCTTGATCCAGATTCAACTGCTGGAGGTGCAGCAGATGTTTATCCTGACCTGCCGTTTCGACCGCGATGGTCTTGTGCTGCAAATCAAGCCGGCAGGGGCGCTCAGAACGAATCATTTGGACCTCGTGCTCATCGGAACGATAATCGATGCTCCATGA	MMMTALARVRPEEVGIPPSAILRFMEDMTERNMNLHSFMLLRHGKVAAEGHYYPFRKDARHPIFSVSKSLTSAAIGIAIGEGLISLEDKVIAFFPDKQPEAVHPYTASMTIRHLLSMQTVHRKSTNKEARDIVFEYLHTPPSHPPGTVFAYDTTGTHTLCAILQRVTGTTVHEYLETRLFQPLGMQDIEWETCPLGINQGGSGAYCTPEDMARFGQLYLQDGFWNGIRILPEGWVEQSTSKAVDNSSAGILLEGRSGYGYQFWRARRQAYCAFGAGGQFILVMPDQDAVFVSTANTMLNRDEHQGILDSVWTHLVPSMEAFCPHDDAGYQRMQQRLSALKLHLPKGSSTSTAAAEVSGRHYRLSPNEPGWLACRFTFSEQQCELIFVHETGRPGVLCSMNDWDIGPDPFYGLPSACGAVWADSSTCLIQIQLLEVQQMFILTCRFDRDGLVLQIKPAGALRTNHLDLVLIGTIIDAP				NA	NA	NA	NA	NA
AK002_02906	927	pemA		Pectinesterase A	ATGAAAATCACGGTAGATCCCAGCGGACAAGGCGACTTCGTGACGGTACAGTCCGCTGTTGACTCGATTCCCGAGCAGGCCGATTCCCTTGTCATCCTCGAAATCAAAAAGGGTGTGTATCGCGAGAAAATCACGATCCCTTCATCGAAGCCAGCTATTCGCATGATCGGCGAAGGAGCCGAAGAGACGATTCTTACCTATTCGGATAACGCCCACACCCTGTGGGAAGATGGGCAGCCCCTTGGCACCTTTCGCAGTGGAAGCTTGTATGTCTACGCCGACGATTTCAGCGCCGAACAATTGACCGTCCGCAACGATTCCGGACCTGGAACGGGCCAGGCTGTCGCCGCCTTTATCGATGCCGACCGGGTATCCTTTCAGCATGTAAGGCTCGAAGGCGATCAAGATACGCTCTATGTATCCGGCGGACGTCATTACTTTGCCGAATGCTTTATCGAAGGAGATGTCGATTTTATATTTGGGCCGGCAGCGGCCGTATTCGACCGGTGCATGATCCGCTGCAAGCGGTCCGGCGGTTACCTGACCGCAGCCAATACGCCGAAGGAAGCGGAGTTCGGCTATGTCTTTCTGGACTGTACTATATCGGGGGCACCCGGCGTTGAGAACGTATACCTCGGCCGGCCGTGGCGCGATTACGCCAATGTGGTGTTCATCCGATGCGAGATGGACGGCTCGGTTCATCCGCAAGGCTGGCATAACTGGAACCAGCCGGATCGCGAGCAGACATCCCGTTATGCCGAATACAACAGCCGCGGCCCCGGAGCAGCTCCTTCCCTGAGGGTTTCGTGGTCTAGGGACCTTACCGAAGCCGAGGCTAAACGATTTACGATTGAACAAGTGCTCAGTGGGCAAGACGGTTGGTGTCCGCCTTACGCACCAGGTTCATCTAAGCTGACGAAAGGTTGA	MKITVDPSGQGDFVTVQSAVDSIPEQADSLVILEIKKGVYREKITIPSSKPAIRMIGEGAEETILTYSDNAHTLWEDGQPLGTFRSGSLYVYADDFSAEQLTVRNDSGPGTGQAVAAFIDADRVSFQHVRLEGDQDTLYVSGGRHYFAECFIEGDVDFIFGPAAAVFDRCMIRCKRSGGYLTAANTPKEAEFGYVFLDCTISGAPGVENVYLGRPWRDYANVVFIRCEMDGSVHPQGWHNWNQPDREQTSRYAEYNSRGPGAAPSLRVSWSRDLTEAEAKRFTIEQVLSGQDGWCPPYAPGSSKLTKG	PGPT0001855_4562	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
AK002_02907	1131	yteR_2	COG4225	Unsaturated rhamnogalacturonyl hydrolase YteR	TTGAAACAAGAGAGCAGATGGTCCGTCCTTACGGCGGATACCATTCTCAGTCAAGCGGACAGCGAGGGACTTCACTCTGAAATTGCCCGACGGTGGGCGTATGTACCTGGGATGATGCTCATGGCGATCGCCCGCACAGGGGATTGTTATAGCAAGGATGCTTATATTGATTTCATGAAAAGGCATATGGATCTTTTTGTTCAAGCGGATGGGGACATTCGGGGATATCGCATCGAAGAATATAATCTGGACCAGATCAACCAGGGGAAAAATTTATTTGCTCTGAGCGCCAGATTTCATGACTCTCGATATGAAAAGGCTTCACACACGCTTGCCGCCCAGCTGATCGGCCAGCCCAGGACGACGGACGGCGGGTTCTGGCACAAGAAAGTTTACCCGTTTCAGATGTGGCTGGATGGGCTCTATATGTCTTCGCCATTTCTGGCGCAATATGCTATAACCTACAACCGACCTGAATGGTTCGACGAGGTAGCCCATCAGCTTCTGCTGGTGGAGCGAAGAACCCGGGATCGCAAAACGGGGCTCTTGTATCACGGATGGGATGAAGCGAAGGAACAGGTATGGGCCGATCCGGAAAGCGGCCGTTCCCCGCATTATTGGAGCAGGGCCTTAGGCTGGTATGCAATGGCGCTGGTGGACAGTCTCGAGTATTTCCCGGTGGATCATCCGAAGCGCGGTACGATCATGGGCATATTCGAACGGTTAAGCCGGGCGCTGGGACGGTATCAGGAGAAAGAGAGCGGGCTGTGGTTCCAGGTGCTCGATCAAGGCTTCCGGGAAGGCAATTATCTCGAAACCTCCGGCTCCTCGATGTTTATTTATGCATTGGCCAAGGGAGTGCGGCTCCAATACCTGGAACAGCCTTCAAGATCCATTGCGGAAAGGGCTTACGAAGGTTTGGTACAGCGGTTTGTCGAGGTTAACGATACCGGCGTGCATCTACATTCCATATGCCATGGAGCGGGGCTCAGCGATGACCGCAACGGCTCTTACGAATATTACATCAGCGAGAAAGTGGTGTCGGACGCCCAGATCGGCGTCGCGCCTTTCATCCTTGCAAGTCTGGAAATGGAGCGGTTAGAAGATTCAAGGGTAGGAGGTTCTTTATGA	MKQESRWSVLTADTILSQADSEGLHSEIARRWAYVPGMMLMAIARTGDCYSKDAYIDFMKRHMDLFVQADGDIRGYRIEEYNLDQINQGKNLFALSARFHDSRYEKASHTLAAQLIGQPRTTDGGFWHKKVYPFQMWLDGLYMSSPFLAQYAITYNRPEWFDEVAHQLLLVERRTRDRKTGLLYHGWDEAKEQVWADPESGRSPHYWSRALGWYAMALVDSLEYFPVDHPKRGTIMGIFERLSRALGRYQEKESGLWFQVLDQGFREGNYLETSGSSMFIYALAKGVRLQYLEQPSRSIAERAYEGLVQRFVEVNDTGVHLHSICHGAGLSDDRNGSYEYYISEKVVSDAQIGVAPFILASLEMERLEDSRVGGSL	PGPT0018255_779	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
AK002_02908	1587			Beta-xylosidase	ATGATGCACTCATCATCAACAATGCAAGCATTACAGAACAAACCGTGGCCGTCGGATCAGGAAGACGGAACGTTCGTGAACCCGGTGCTTCATGCGGATTATTCGGATCCGGATGTGATCCGGGTAGGGGAAGATTTCTATATGACAGCCTCCAGCTTCGGCCATCTGCCGGGACTGCCGATTCTGCATTCGAAGGATTTAATTAACTGGAGGATCATGAATCATGTGCTGCCCCGGATGGAGCTGCCGGGCTATGACGTCCCGCAGCATGGGAACGGCGTCTGGGCTCCGGCCCTTCGATTCCATGACGGGAAGTACTGGGTGTTCTATGGGGATCCGGATGTCGGCATCTTGATGAGCACAGCTAGGGACCCGGCAGGCAGCTGGACGCCATTGCATCTGGTTCAAGAGGGAAAAGGCTTAATCGACCCGTGTCCGTTCTGGGACGATGACGGCCAGGCTTACCTGGTTCACGCGTTTGCCAAAAGCAGATGCGGCATCAAGCATCTATTACGAATGTGCCGGATGTCCCCGGATGGAAAACAGCTGCTGGATGAAGGTCAGATCGTCTTCGACGGGACCGAGCGCCATCCGACGATGGAGGGCCCGAAGCTGTATAAACGGAATGGCTACTATTATATCTTTGCTCCTGCCGGAGGAGTATCTACGGGTTGGCAGACCGTGCTTCGGTCTAACTCGGTCTTTGGCCCCTATGAGGACAAAATCGTGCTGCATCAAGGCGATAGCCCGATTAACGGTCCGCATCAAGGCGGCTGGGTGGAGCTGGCATCGGGCGAATCGTGGTTTATGCATTTTCAAGACAAGGGAGCTTACGGACGAATAACACATCTGCAGCCCATGCGCTGGGTGGATGATTGGCCGCAGATCGGGATCGACACGAATGGAGACGGGATCGGCGAACCGGTTCTGCGTTATCCGAAGCCAAATGTCCTTGGGGAGCATACGATTCAGGCTCCGGACGATTCGGACGAATTCGAAGGCGCAACGCTTGGCCTTCAGTGGCAATGGCAGGCCAATCCGAATCCGGACTGGTACGCATTCGAGAAGGAAAGCCATTTGCGATTATTCTCTTTTCCCGTGCCGGAGCACCGGCCTTCGCAAACGATCTACGATGCCCCTCACTTGCTGCTGCAGAAATTTCCGGCCGAAGAATTTCAAGCAGAAGCCAAACTGGATGGAACGTCACTGAGGCCCGGTGAACGGGCGGGTCTGATCATATTCGGACGAACCTTCGCCTATGCCGGCGTTCGGATGAAGACGGACGGATCCGGGATGGAGATTATTCGGTCCGAAGGGAATGAGATGGAGGAGAATGTCGTTTGGTCCGGCGGATGGAATGATGGAAAGATTACGATTCGGGTCACGGTACATCCTGGTGCGAAATGCCGCTTCGATTATGCCGCAGCTGACGATCGTTACATGCCGTGCGGGGAAGAGGATTTCGTAGCGGAAAAAGGTCACTGGGTCGGAGCCAAGGTTGGCTTGTTCGCGGTAAGTGAGGCGGATCATCCAGACAGAGGGTATGTGGATGTCGACTGGTTTAGGGTTGGAAGAGCAGAGATATAG	MMHSSSTMQALQNKPWPSDQEDGTFVNPVLHADYSDPDVIRVGEDFYMTASSFGHLPGLPILHSKDLINWRIMNHVLPRMELPGYDVPQHGNGVWAPALRFHDGKYWVFYGDPDVGILMSTARDPAGSWTPLHLVQEGKGLIDPCPFWDDDGQAYLVHAFAKSRCGIKHLLRMCRMSPDGKQLLDEGQIVFDGTERHPTMEGPKLYKRNGYYYIFAPAGGVSTGWQTVLRSNSVFGPYEDKIVLHQGDSPINGPHQGGWVELASGESWFMHFQDKGAYGRITHLQPMRWVDDWPQIGIDTNGDGIGEPVLRYPKPNVLGEHTIQAPDDSDEFEGATLGLQWQWQANPNPDWYAFEKESHLRLFSFPVPEHRPSQTIYDAPHLLLQKFPAEEFQAEAKLDGTSLRPGERAGLIIFGRTFAYAGVRMKTDGSGMEIIRSEGNEMEENVVWSGGWNDGKITIRVTVHPGAKCRFDYAAADDRYMPCGEEDFVAEKGHWVGAKVGLFAVSEADHPDRGYVDVDWFRVGRAEI	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
AK002_02909	843	rhaR_32		HTH-type transcriptional activator RhaR	ATGATTGACCGGCTGCAGCCTAAATACCACATCGGAGATCATGATTTCTCCATCCAATACATGTCGCGAAACGGTTCCAGCAGCATGCCGCGCCCCCATGAGCATCCCTACTTCGAGCTGTACTACTTGCTCAACGGGGAGCGAGTTTACTTCATGGACGATAACGTGTTCACCGTCAAAAAAGGGGATCTGATGATCGTGAACCCGCATGATCTGCACTCGACGGCAAGCTCCGATAAGCTGACCTTCGAGCGGGTGCTGATCGGCTTCTCCAGAGCCTTCATCGAACAGGGGGACGCCGGCGTCGCCAATCTGCTCGATCATGGGACGTCCAGGCTCGTTCGTATTCCGCTGAAGCATCAGCCGGAAATCGAACGGCTGCTGCACTCCATGCTGGCTGAATGCCAATCGGAGCAGACTCACTACAGCTCATTGGTTCGCTCGCTGATGAACGAGCTGCTTATCCGCCTCCACCGGATCGAGACCACGCTGCAATCCCAAACCCATGAATACGAGCATCCGATGCATCAAAAAATTTCGGAAATTGCCCAATATATCAAATCGAATTTCCATGAAAAGCTTACGCTGGAGCAGGTCGCCAAGCAGTTTTACATCAGTCCCTCTTACCTCAGCAGGGTATTCACCAGGCTGACAGGCTTTCACTTTCGTGAATACGTGCAGGTGGTACGAATTCGCGAAGCCCAAAAAATGCTCGTGAGCAGCCGGGAATCCGTGCAAATCATCTCCGAGCAGGCCGGATTTGAGCATATTGCCCACTTCAATAAAACCTTCAAAAAAATAGCGGGTACGACTCCTCTCCAGTATCGCAAGCGTCACGGATAG	MIDRLQPKYHIGDHDFSIQYMSRNGSSSMPRPHEHPYFELYYLLNGERVYFMDDNVFTVKKGDLMIVNPHDLHSTASSDKLTFERVLIGFSRAFIEQGDAGVANLLDHGTSRLVRIPLKHQPEIERLLHSMLAECQSEQTHYSSLVRSLMNELLIRLHRIETTLQSQTHEYEHPMHQKISEIAQYIKSNFHEKLTLEQVAKQFYISPSYLSRVFTRLTGFHFREYVQVVRIREAQKMLVSSRESVQIISEQAGFEHIAHFNKTFKKIAGTTPLQYRKRHG	PGPT0017485_576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_02910	2304			hypothetical protein	ATGCCATTAACTTCAGAAACCTTGATATGGTTCGACCAGCCTGCCCAGAACTGGAACGAGGCTTTACCGATTGGGAACGGAAGACTTGGCGGCATGGTGTTTGGGTCCGTCATGCAGGAAAAAATCCAGTTTAACGAGGATTCGGTATGGTACGGAGGGCCGAGAGACCGCAACAATCCGGATGCGCTTTTGCATCTTCCCCTTATCCGCAAGCTGCTGTTCGAAGGGCGGCTGAAGGAAGCCCACCGGCTGTCGGAGACGGCTTTTTCCGGGACGCCGCGCAGCCAGAGGCCATATATGACGGCAGGCGATTTCTGCATTCAGGTCGATCATCCGCAAGGCGAGTTGTCCCACTATCGCAGGGAGCTGGATCTTGAAAAGGCGATCGCCGTGACGTCATACCAATACGGAGGCGTTACCTTCACCCGGGAAGTGTTTTGCAGCTATCCGGACCAGGTGATGGTCATCCGGCTTGAAGCCGATCGACCGGGTGCTCTGACCTTGACATCGCGATTTGAGCGGCAGAAAGGGAAGCACATGGATGCAGTCCATCGGGCTGGCACGGACACGGTGGTCATGACGAATGATTGCGGAGGGAAGGATGGGCTTACCTACAGCGCTGCTGCAAAAGCCATAGCTGTCGGCGGAACCGTACGCGTTGTCGGCGAGCACCTGCTGGTGGATCAGGCCGACGAAGTCGTCATTATTCTTGCCGCAGCCAGCACCTTTCGCGCGGACGATTCGAAATTGCGCTGTAATGAGCTGCTGGAACATGCAGCGAACCAGGGCTATGCCGCTTTGAAGAAGCATCATATCGCGGATTATCAGCCGTTGTTTGGGCGGGTAAGGCTGGACTTGGGAGCTACTGCGGATCGGGAGCACCATTTGGTGCCGACGCCAAAGCGGCTTGAGCGTGTCCGGGCGGGAGATGACGACGCAGGCCTGTACACGCTGTATTTTCACTTCGGAAGATATCTGCTTATTGCCTGCAGCCGCCCCGGATCGCTCCCGGCCAATCTCCAGGGGATCTGGAACGATTCCATGACTCCGCCCTGGGACAGCAAATTTACGATCAACATCAACACCCAGATGAATTACTGGCCGGCGGAAAGCTGCAATCTGCCCGAATGTCATGAACCGCTGTTTGAATTAATTGAACGCATGAAGGACAACGGGCGAGTAACGGCACGAAAAATGTACGGCTGCCGCGGATTCGTCGCCCATCATAACACCGATATTTGGGCTGACACCGCGCCCCAGGACATTTATCCACCGGCTACCCAATGGGTGATGGGCGCCGCATGGCTGACCCTTCATCTCTGGGAGCATTACAAATTCAATCCGAATCCGGATTTCTTGAGAAGAGCCTATGAGACCATGAAGGAAGCGGCTCTCTTCTTCACCGACTTTCTGGTGGAAAGTCCTGAAGGATACCTCGTGACGAATCCGTCCGTTTCGCCGGAGAACCGTTATTTGCTGCGGAATGGCGAATCCGGAACGCTCTGTTACGGACCGTCCATGGACACGCAAATCATATCGGAGCTGTTCAGTGCCTGCATCCAGGCAAGCCTGGAGCTGGACATCGACGAAAGTGCTCGCCAAGAATGGGCGGCCATCAAGGATCGTTTGCCGGAGATGAAGGTAGGAGGGCACGGGCAGCTGCAGGAATGGCTGGAGGATTACGAAGAGGCCGACCCCGGGCACCGGCACATCTCCCATCTGTTCGGTCTTCATCCCGGAACGACGATCAGTCCGGACTCGACGCCGGACTTGGCGGAAGCTGCCCGGGTTACGCTTCGGCGGCGTCTCGCTCACGGCGGGGGACATACCGGCTGGAGCCGGGCCTGGATCATCAACTTCTGGGCGCGGTTGTTGGACGGCGAACAGGCCTATGTTCATCTTAAGGAATTGCTGAGGCAATCGACGCTCCCCAATCTGTTCGACAATCATCCGCCGTTCCAAATCGACGGCAACTTCGGGGCTGCCGCGGGAGTCGCCGAAATGCTGATCCAGAGTCACCTGGATCACATCCGTCTGCTGCCGGCGCTGCCGGATGCCTGGCCTCAAGGGCGCGTAAAGGGACTTCGCGCCAGGGGAGGCTTCGAGGTAGATATCGATTGGAGAGACGGGAGCCTTGCGGAAGCGATGATCACTTCGGTAAGCGGTCAGAAGCTTCGTGTCCATGCGAAGCCATCCGTACGGGTCACGACCTCGGATGGAAGGGAGGTGCCGATGGAACGTCATGGCCATGTCATCGAAATGGCTACCGAAACAGGCGGAAGGTATTTTGTCCAACCGATATAA	MPLTSETLIWFDQPAQNWNEALPIGNGRLGGMVFGSVMQEKIQFNEDSVWYGGPRDRNNPDALLHLPLIRKLLFEGRLKEAHRLSETAFSGTPRSQRPYMTAGDFCIQVDHPQGELSHYRRELDLEKAIAVTSYQYGGVTFTREVFCSYPDQVMVIRLEADRPGALTLTSRFERQKGKHMDAVHRAGTDTVVMTNDCGGKDGLTYSAAAKAIAVGGTVRVVGEHLLVDQADEVVIILAAASTFRADDSKLRCNELLEHAANQGYAALKKHHIADYQPLFGRVRLDLGATADREHHLVPTPKRLERVRAGDDDAGLYTLYFHFGRYLLIACSRPGSLPANLQGIWNDSMTPPWDSKFTININTQMNYWPAESCNLPECHEPLFELIERMKDNGRVTARKMYGCRGFVAHHNTDIWADTAPQDIYPPATQWVMGAAWLTLHLWEHYKFNPNPDFLRRAYETMKEAALFFTDFLVESPEGYLVTNPSVSPENRYLLRNGESGTLCYGPSMDTQIISELFSACIQASLELDIDESARQEWAAIKDRLPEMKVGGHGQLQEWLEDYEEADPGHRHISHLFGLHPGTTISPDSTPDLAEAARVTLRRRLAHGGGHTGWSRAWIINFWARLLDGEQAYVHLKELLRQSTLPNLFDNHPPFQIDGNFGAAAGVAEMLIQSHLDHIRLLPALPDAWPQGRVKGLRARGGFEVDIDWRDGSLAEAMITSVSGQKLRVHAKPSVRVTTSDGREVPMERHGHVIEMATETGGRYFVQPI	PGPT0018650_1105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_02911	1572			hypothetical protein	ATGATCAAGCTAACAGAAATAGCGATAAGCCCTGATTTGCCCTTGATCCCGGAACATACGGTAACAATTTCAGACTATGGCGCGGTAGGAAACGGTGTATATGACAATACCCGAGCATTTCATCAAGCGATCGAAGCCTGCGCAAAGGCAGGAGGCGGCACGGTGGTCATCCCTCCGGGGATATGGCGCACCGGTCCGATCAAGCTGCAGAGCCGGATTGAGCTTCACGCCTCAGCCGGTGCCCTCGTTGTGTTCAGCAAGTTTTTCGAAGATTATCCGCTCCTGATGTCCACGTATGAGGGCAGGCAGATGTTTCGCTGCCAGTCTCCGCTCGATGGCGAAGGGCTGGAGGATGTCGCGATCACCGGGAGCGGGATTTTTGACGGAAGCGGCGAAGCCTGGAGGCCCGTTAAGCAAGGGAAGCTGACGGAAAGCCAGTGGGAGCGCTTAATACAATCCGGCGGCGTCGTGGATGACCAGGGATTATGGTGGCCAACGCCCGCTGCTCGGGACGGTCAGGAGACCCTGGACCGTATCGAACAGACAGGCAGCGAGGAATCACAGGATTATGAGCCCGTCAGAGACTACTTGAGACCCAATCTGCTCAGCTTGAGAAACTGTAAGCGGATCCTGCTCAGCGGTCCCACCTTTCAAAACTCCGCAGCCTGGTGCCTGCATCCTTGGGCATCGGAGCAGATCACCATTCAAAACATTACCGTCCGCAATCCGTGGTATGCCCAGAACGGGGACGGTCTGGACATCGATTCGTGCAAATACGTAACCGTTGAAAACAGCTCGTTTGATGTAGGAGACGACGCGATCTGCCTGAAGTCCGGCAAAAATGAGGCCGGGCGCTTGTTGGGAAAGCCGAGCGAGCGAATCCGCATCCGGAACTGCACCGTTTATCACGGCCACGGCGGCATCGTGGTCGGCAGTGAAATGTCCGGAGGCATTAAGGATGTATACGTATCCGATTGCACTTTTATCGGCACCGATATCGGCATTCGCTTTAAAAGCTGCCGCGGGCGCGGCGGCGTTGTCGAGAACATCTTGATTGAACGAATTCGGATGCGGGATATCGACGGGGATGCCATCTCCTTCAATTTATATTACGAGGGGAAAGCCGGCTCCGGCGAATACCAAGAGGAAGTAATGCTGCCCGTTACCGAGGAAACCCCCGTGTTCCGGAACATTGTCATTCAGGATATCGTGTGCAGCGGCGCGCATACTGCGCTCCTCATCAACGGCCTGCCGGAGATGCCGGTGGAGAACTTGACGGTGAAGCGGTCCGCCATCACAAGTCGGGAAGGCATTGTATGCCGAAATGGACAAAACCTGAGCATTCAGGACATGGTCCTTCGCACTCAGGATAATCCGCTGCTTCTTTTTCACCAAAGCCGAAATGTTCAAGTGGCGAATGTCAGCGGAGAAGGCGGTGCGCTGGACGACCGCCAGTTGGTGGTGACTGGGGAACGGTCCAGCCAAATCGAATGCTCGGGGCTGAAGGCCGATAAGGCTAGGGGGATCGAGATCTCTTCTGAAGTGGAACCGGGGGAGGTCGTGATCAAGTAG	MIKLTEIAISPDLPLIPEHTVTISDYGAVGNGVYDNTRAFHQAIEACAKAGGGTVVIPPGIWRTGPIKLQSRIELHASAGALVVFSKFFEDYPLLMSTYEGRQMFRCQSPLDGEGLEDVAITGSGIFDGSGEAWRPVKQGKLTESQWERLIQSGGVVDDQGLWWPTPAARDGQETLDRIEQTGSEESQDYEPVRDYLRPNLLSLRNCKRILLSGPTFQNSAAWCLHPWASEQITIQNITVRNPWYAQNGDGLDIDSCKYVTVENSSFDVGDDAICLKSGKNEAGRLLGKPSERIRIRNCTVYHGHGGIVVGSEMSGGIKDVYVSDCTFIGTDIGIRFKSCRGRGGVVENILIERIRMRDIDGDAISFNLYYEGKAGSGEYQEEVMLPVTEETPVFRNIVIQDIVCSGAHTALLINGLPEMPVENLTVKRSAITSREGIVCRNGQNLSIQDMVLRTQDNPLLLFHQSRNVQVANVSGEGGALDDRQLVVTGERSSQIECSGLKADKARGIEISSEVEPGEVVIK	PGPT0027780_1	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
AK002_02912	2214			hypothetical protein	ATGAAAGCAGCAAAATGGTTGAAGCAAATGCTTGTCTTCACGATGCTGTTTACCGGTTTATCCGGCGGAGGTGCTTATGCTGAGGAAAATCCTGAATCCCCAGCCCCGGCAAATCCCCCGCAAACGCCTGCATTTCCGGGGGCCGAAGGCGGTGGGAAATATACGACCGGCGGCCGGGGCGGCGAAGTGTACGAGGTAACGACGCTTGCCGACTCGGGACCGGGGTCGCTTCGTGACGCTGTCAGCGCCGGTAACCGGACCGTCGTATTTAAAGTCGGCGGCGTGATTCAGCTGAAATCCCCACTGAAGATTCTCGGAGACAACCTGACGATTGCCGGTCAAACGGCGCCGGGCGATGGGATTACGGTTATCGGGCATCCAACGACCTTCGATGGAAACAACCTGATCATCCGTTACATGCGCTTCCGGCTGGGCGATATGAATGAAACGGAAGCAGACTCTTTTGGCGGACGGTACAAGAAAGACATTATCATTGACCACTCCTCGTTCAGCTGGTCCGTTGACGAAGTGCTCAGCCCTTACGGCAACGAAAATGTCACCGTGCAGTGGTCGATCATCGCCGACGCCATGCATATTAGCAGACACGTCAAAGGCAGACACGGGTACGGCGGGATATGGGGCGGAAAGAACACCAGCTTCCATCATAACTTGATCGCTCACAATTCCAGCCGCAACCCTGCGTTTGACAGCACGGCCGGCAACTCCCATGATTTCCGCAATAACGTGGTATACAATTGGGGTTTCTTTGCCTCGTACGGAGGCAAAGGCGCAGTTACCAATATCATCAACAATTATTACAAGCCGGGTCCGGAAACGGAAGTCGTTCGGTTTATGAATGCGGAGAGCACCGGAAGTTACTTTATCGACGGCAACGTCATGGACGGGTATCCGGAATATACGCAGGATAACTGGTCCGGCGTTCATAAATACCCAAATTACGTGATGCTGGAAACTCCCGCTTCCTTTGCCAATCCATTGCCGATCGAATCCGCCGAAGAGGCTTATGAAGCGGTCATGCAAAGCGCCGGAGCCACCCTGCCTAAGCGGGATGCCGTCGATGCCCGGATCATCCAGGATGTGATCCACCGAACCGGCATGCATATTAACTCCCAGAATGAGGTGGGCGGATATCCGCTCGTGGAGCCGGTTGTTTCCAGAATAGAAGATGACGATCAAGATGGAATGCCGAATGATTGGGAGATCGCCCACGGGCTGGATCCGAAAGATCCGAGCGACCGCAATATGACCAATAACGAAGGATTTACGAATCTGGAGCTGTATCTGAATTCCATACCAGGAAACGGATCGGCCAATCCCTCAGCGGTCATTACCGCCCCGGCAAACAACACGGTGGTAAAAGCCGGCTCGAACGTCACGATTGAAGCGTCCGTTTCCGATGAAGACGGCAGCGTTACCAAGGTGGAGTTTTACCGGAACGGAGAAAAGGTTGGGGAGGACGAAAGCATGCCGTTCCGCTATCAGTGGACGGATGTTGCGGATGGCACCCATTACTGGGCCGCAAAAGCGATCGACGATACAGGCACGATGGCATTCTCAACGAGCGTGGTCGTTCATGCGAACACTAAAGGGAGCATCAGGCCTTGGAAATCGGCCGATGTCGGCAGTCCGGGAATTCCGGGACACACGCAGCTCGGCGGCGCGCCTGGCGAGGTGACCGTCAAGTCCGCGGGTGATATCGGCGGCACGAAGGACGTCTTTCATTTTGCATATCAGAAGGTAAAGGGAGATGCTGAAATCGTTGCCCGGATTGAAAGCATCACTCCCACGAATGAGGAAGCGGAAGCCGGCATCATGTTCCGCGAGAGCCTGAAAGAGGATGCCTCGTTCGTTTCCCTTGTCGTCCCTTATATTCGCACGGGGAAAAGAGGCGTAACCCTTAGTCGAGCCGAGGAGGGCGGCGAGGTCGCGAGGATTCAGCCGGATCAGGAATTTCAGCTGCCATACTGGATCAAGCTTGTCCGCAAGGATAATCAATTCACATCGTTCGTTTCTCAAGATGGAACCAGCTGGACCACGGTTGGAAACGTCCAAGTCGATTTGCCGAAGCAAGTCTATGTCGGGCTTGTGGCGGATGCGGCTAAAGTTAACAATGAGACGTGGAAATACAATACTTCCACATTTTCCAATGTAAATATCTCGGCGAAAACAGGCATCGGTCCGAAGGCCGAGTAA	MKAAKWLKQMLVFTMLFTGLSGGGAYAEENPESPAPANPPQTPAFPGAEGGGKYTTGGRGGEVYEVTTLADSGPGSLRDAVSAGNRTVVFKVGGVIQLKSPLKILGDNLTIAGQTAPGDGITVIGHPTTFDGNNLIIRYMRFRLGDMNETEADSFGGRYKKDIIIDHSSFSWSVDEVLSPYGNENVTVQWSIIADAMHISRHVKGRHGYGGIWGGKNTSFHHNLIAHNSSRNPAFDSTAGNSHDFRNNVVYNWGFFASYGGKGAVTNIINNYYKPGPETEVVRFMNAESTGSYFIDGNVMDGYPEYTQDNWSGVHKYPNYVMLETPASFANPLPIESAEEAYEAVMQSAGATLPKRDAVDARIIQDVIHRTGMHINSQNEVGGYPLVEPVVSRIEDDDQDGMPNDWEIAHGLDPKDPSDRNMTNNEGFTNLELYLNSIPGNGSANPSAVITAPANNTVVKAGSNVTIEASVSDEDGSVTKVEFYRNGEKVGEDESMPFRYQWTDVADGTHYWAAKAIDDTGTMAFSTSVVVHANTKGSIRPWKSADVGSPGIPGHTQLGGAPGEVTVKSAGDIGGTKDVFHFAYQKVKGDAEIVARIESITPTNEEAEAGIMFRESLKEDASFVSLVVPYIRTGKRGVTLSRAEEGGEVARIQPDQEFQLPYWIKLVRKDNQFTSFVSQDGTSWTTVGNVQVDLPKQVYVGLVADAAKVNNETWKYNTSTFSNVNISAKTGIGPKAE	PGPT0022155_1963	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
AK002_02913	699	scdA	COG2846	Iron-sulfur cluster repair protein ScdA	ATGAGTTCATTCACGCTTCAGAGCCAAGTATCCGATATTGTGACATCCATCCCGCAAACCGCGGATTTATTTCGATCCCTCCGCATCGATTTTTGTTGTGGCGGCCAGGTGCCTTTGGAAGAGGCAGCCAAGCAGCGTCTTTTGGATCCAGCCGACGTTCTGGAGCAGGTTCGGTCCGTAGAGAGCAAGTTTGCCGATTACCAGGAAAGCCGTCCCGCTTCATTGAAGGAATCCGAACTGATTGATCACATCCAACAAAAACATCATGCCTTCCTCCGTGATGAATTACCGGCATTAACGCCCTATGTAACGAAATTGGCCCGTGTGCATGGAGAGCATCATCCCGAGCTGCTTCGCGTGCAGGAGCTCTTCTCGGAATTGAAAAAGGAGCTGTTAGAGCATACGAAGGACGAGGACGAGCATGTATTTCCGCTCATCTTGAAATTTGTGGCGGACCCTAGCCACCAAGCGGCAGCAGAGCTTAAGCCGCACGTATCCGAACTGGAAGATGAACATGCTCATGCCGGCAGCTTGCTGCAGGAGCTCCGGGACGTAACATCCGATTTCGAGCTTCCGGCTGATGCCTGCGGTACGTATCGGCTTGTCTTTCAACGGTTAGCCATGCTTGAAAAGGACACCTTCGAGCATATCCATCTGGAAAACAACATATTGTTTGAGCGGCTGCGCCAAGCGGTATAA	MSSFTLQSQVSDIVTSIPQTADLFRSLRIDFCCGGQVPLEEAAKQRLLDPADVLEQVRSVESKFADYQESRPASLKESELIDHIQQKHHAFLRDELPALTPYVTKLARVHGEHHPELLRVQELFSELKKELLEHTKDEDEHVFPLILKFVADPSHQAAAELKPHVSELEDEHAHAGSLLQELRDVTSDFELPADACGTYRLVFQRLAMLEKDTFEHIHLENNILFERLRQAV	PGPT0012950_462	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
AK002_02914	870	yfmS	COG0840	Putative sensory transducer protein YfmS	ATGAGCAATGTAACTGAGGAACAAACGCAGCACGAGATGATTGGGGCCTTTGTCAAGGTAGCTCCACTTTTGAAAAGTCTTACGAATGATGACATCACGATTGGCATTTACGACACGGAGAAGCTCATCATCAACATTCCGGGAAGAACCTTTTCGCTGAATGTCAAACCTGGGGACCCGCTCGTGGAGGGGGACATCGTAACCGATGCCATCCGCAATAATAAAGCTATATCGGCAGTCGTTCCGAAAGAGCTGTTTGGATTTCCGCTTGCTGCACGGGCGATCCCGCTGCATGACGAGTTTGGCAGGGTAATCGGCGGCGTAGGCATGGGTACAAGCCTCGAAAAAGCGAATATGCTGTTTGAGATGGCCGAGAGCTTTTCCGCGATTGTCGAGCAGACCACCGCATCCATTGAAGATATTAGCCAATCCATCGCCCGCCTTACCGATCGGGTATCGGACGTAACCGGCCAAATGTCGGAGGTTAGCTCCAGTGCGCAGCAGATCGGCAAGATATCCACCGTCGTGAAGGAAATTTCGGATCAGAGCAGCATGTTAGGCCTTAATGCTTCGATCGAAGCGGCAAGGGCAGGGGAAGTCGGTAGGGGATTCTCGGTCGTTGCCGATGAGATTCGGAAGCTGGCGACAAGCTCCAAAGAAAACGTGGACCAGATTAATGGCATCACCAAGCATATACAGGATTTTCTACAGCGGCTAAATCATGCTTTTGACGATATCCACACGCTGACCGATACCCAGTCAAGGACGATTCAGGAGTTCTCGGCAACGATTCATGAGATTAGCATCAAGGCAGAGGAACTGGCACAGGTTGCTGAAGAAACCTTGTATTCCAAAGAAAATAAGCAATAG	MSNVTEEQTQHEMIGAFVKVAPLLKSLTNDDITIGIYDTEKLIINIPGRTFSLNVKPGDPLVEGDIVTDAIRNNKAISAVVPKELFGFPLAARAIPLHDEFGRVIGGVGMGTSLEKANMLFEMAESFSAIVEQTTASIEDISQSIARLTDRVSDVTGQMSEVSSSAQQIGKISTVVKEISDQSSMLGLNASIEAARAGEVGRGFSVVADEIRKLATSSKENVDQINGITKHIQDFLQRLNHAFDDIHTLTDTQSRTIQEFSATIHEISIKAEELAQVAEETLYSKENKQ				NA	NA	NA	NA	NA
AK002_02915	723			hypothetical protein	TTGGAATTTTTTGAAAGCCAAGAAACGCTGACGTCCATCCAATGGATCTTAAGAGGCATCGTTAGCTTTGTTTTTTTACTTTTAGTAGCGAAAGTAATGGGACAGCGTTCCATTTCTCAATTAAGATTTCTAGATTTCATTATCGCTCTCATTCTCGGCAATATAATAGCTCACCCGCTCTCAGACGAGGAACTGGGCTTGGAAGGATCAATGATCACCACCATCGTGATCATTGTGCTGTATGTCGCGGCGACATGGCTGAGCCTGAAGTGGCCGTTCATCAAACGTTATCTAGATCCGCCACCCATCACGCTCGTTAAAAATGGTCTCATCCAATTCCATAACCTGTCTAAAGCAAGGATCTCCGTCGATTATTTATTCTCCGAGCTTAGAAAAGAGAAAGTAGAGGATATACAGAAAGTATCGCTGGCTTTGTGGGAACCGGGGGGAACCATTTCCGTATTCGTGGACACTCCATACCAACCGGTTACTCCGTCTGATATGAACATAGTGACCCAACCATTTACGATCTCGAGGCCGATTATCGTGGATGGAAAAATCGATATGCTGCTCCTTCAGGAAATCGGAAAGGATCTTGATTGGCTCAAATTAAAAGTAACGCCTGCTCATAAGAATATTCAAGATGTGGCATTAGCGACCATTAACGATAAAGAAGACGTGCGCTTCTATTCCAAGCAAGATAGCCAGTATACGCATAAATAA	MEFFESQETLTSIQWILRGIVSFVFLLLVAKVMGQRSISQLRFLDFIIALILGNIIAHPLSDEELGLEGSMITTIVIIVLYVAATWLSLKWPFIKRYLDPPPITLVKNGLIQFHNLSKARISVDYLFSELRKEKVEDIQKVSLALWEPGGTISVFVDTPYQPVTPSDMNIVTQPFTISRPIIVDGKIDMLLLQEIGKDLDWLKLKVTPAHKNIQDVALATINDKEDVRFYSKQDSQYTHK				NA	NA	NA	NA	NA
AK002_02916	882	cntK		Histidine racemase	ATGAAGCAGAAGATCGATTTTGTGAAATGCAATCCCACGCAGAACATGACGATTCTCATTAACACCAAGCTTCCGCCCGATGAACATAAACGCGTCGCTGCTAAAATCATGTCATACGACAATGTTTATGCTGAGCAGGTTGGTTTTATCGAACAATCCATGAAAGATGATGCGGATGCGTTTCTGCGGATGGCAGGAGGTGAATTTTGCGGGAATGCTTGCATGGCCCTAGCGGCATACCTGGCTGAGGTTCAGGGGATAAAACGACATCTAACAACCGAGTTTCGGCTAGAGGTTTCAGGGGCGGAGCGGTTAGTGTCATGCCATATAACAAAAAACAAGGAGGATTATCGCTGCAGGGTCAACATGCCGCTTCCGGTAAGAATTGATCAAACGGTCCTTCAAGACGGATGCTCCCTTGTTGATGCGGTTGTCGTTCGATACAAAGACTTTGTTCATTTTGTGATTGAAGTGGAGCGCTTCGATGCGCAAATGAACAGCAGCATGTTGGCCATGGCCAAGCACATCGGACCCTTTCTCGATGCAAGAATGGTCGGAATCCTGTTATACAACTCCCGCATTAGGGAACTGACTCCGCTCATTTATGTACCGGAGCTTAATAGCGCGGTGTGGGAAAGAGGTTGCGGATCCGGCACCGCTTCCGTAGGCGCCTACTTAGCTTGGAAGCATAAGAGGGGTGTCGAGGCTTCCATCAAACAGCCCGGAGGAACGATTCATGTAAAGGCCCTATTTGATCAAAACCGGTTGACGCATCTGGAAATCGAAGGGGCCGTTGGCATTGCAGCTCAAGGCATCGCATTCATTGATCTGGATGAAGACCATATTGCGGGGGTGGGAAATCGTGAAACTAACCATGTTTGA	MKQKIDFVKCNPTQNMTILINTKLPPDEHKRVAAKIMSYDNVYAEQVGFIEQSMKDDADAFLRMAGGEFCGNACMALAAYLAEVQGIKRHLTTEFRLEVSGAERLVSCHITKNKEDYRCRVNMPLPVRIDQTVLQDGCSLVDAVVVRYKDFVHFVIEVERFDAQMNSSMLAMAKHIGPFLDARMVGILLYNSRIRELTPLIYVPELNSAVWERGCGSGTASVGAYLAWKHKRGVEASIKQPGGTIHVKALFDQNRLTHLEIEGAVGIAAQGIAFIDLDEDHIAGVGNRETNHV				NA	NA	NA	NA	NA
AK002_02917	810	cntL		D-histidine 2-aminobutanoyltransferase	GTGAAACTAACCATGTTTGATCAATCCTTGGCTGAATATTTAACAAGGTTTAAGTACTATGCAGACCGCTGCGATGATATTTCCCGTCACCGAACGGAGCTGGAACGTCTGGTCGATGATTATTCAGCATTTATTACCGACCAGTCCAACTCCAACATATGGGAAGAGCTGGAGCGGCAAGGAGCTGGAGGTTTAAACGGGCTTGCGGAGGAATTGAGAGCGTATTCGGCACGCAGCGTAGCGACTCTGGAGAAATATCGCGCATTGAAATTGATCAAGGGAGACACGGGGATCACCGATTATTTCAGGAATATCGAAGAATGCATCGAGAAAGAGTTCGGAAGCTTCCAAGTGACTTCGAAGTCGATCGTACTGCTGGTTGGATCCGGCGCATTTCCGATGACGGCTCTATTGATTGCCAAGCGAACGGGAGCCGAGGTGATCGGCATCGACATTGACGATGAGGCCATTAGGCTCGGGGTAAAGGTTATCGAGACATTGGGCCCGGAGCTGAAGATCCGGCTGGAAAACACGCCGGTAGAATACCTTGATTACATAAAAGAGGTCACCCACATCATTTTTAGCTCAACGGTTGCCGAAAAGTACGACATGTTGCAGCGGTTACATCCACTAACGAATGAAGAGGTCGTTGTGGCCATGAGGCACGGAAACCGATTGAAGTCTTTATTCAATTACCCCATGAAAGAAACGGATGAGGACAAATGGAAACTCGTTGATACGGTATTGCGCCGAAACGATATATTCGACATCGCGTTGTACAAAAAAGCATCATTGCACATGGCAAATTGA	MKLTMFDQSLAEYLTRFKYYADRCDDISRHRTELERLVDDYSAFITDQSNSNIWEELERQGAGGLNGLAEELRAYSARSVATLEKYRALKLIKGDTGITDYFRNIEECIEKEFGSFQVTSKSIVLLVGSGAFPMTALLIAKRTGAEVIGIDIDDEAIRLGVKVIETLGPELKIRLENTPVEYLDYIKEVTHIIFSSTVAEKYDMLQRLHPLTNEEVVVAMRHGNRLKSLFNYPMKETDEDKWKLVDTVLRRNDIFDIALYKKASLHMAN				NA	NA	NA	NA	NA
AK002_02918	1296	cntM		Staphylopine synthase	GTGAGGGATATGAAGCGAGTCCTGTTATTGGGAACGGGTCCTGCCGCCTTGCAGCTGGCAGTGATCCTTAAGAAAGGGTTCCATTGTCATTTGGGCATTGCCGGTCGGGCATCGGTCCGTTCCGCGGATTTTTTTGAATCGCTTGCGGCCAGCGATCAAAGGATTCGCGTAAGCATCCAAAACGTAAAGCATCTTGCCATGGAAGGCGAATGCCGCTTGGACGAAGTATACCGAGGCTTTGAAGCCATCGAAGGCCAGTGGGATACCCTGATTTTGGCAGTGACCACCGACGCTTATATGGAAGTCATGCGACAGATCGACCAAGACGTTCTACGAAAAATCAACAGCTTGGTGCTGATCTCGCCTACATTCGGTTCCAACAGCTTGATAGCCGGTTTTATCAGGCAGTTCAATCCGGCTGCGGAAGTCATAAGCTTTTCTACATATATCGGGGACACCAGGTGGGTGGATGACCGGGTTTCCAATCATGTCATGACGACGGGGGTCAAGAAAAAAGTCTATATCGGCTCGACGCGGGGCCGCTCAGATTTTGTCGACAGGCTGTGCGGTCTGTACAAGCTATCGGACATTGAAGTGGAATTCATGAGGACGCCCCTGGAGGCAGAAGCGCGAAATATTTCGTTATATGTCCATCCCGCTTTGTTCATGAATGACTTCTCATTACACGCCATTTTTGACGAATCGGGTTCTCGCAAGTATGTCTATAAGCTTTTCCCTGAAGGTCCCATTACGCAGGATCTGATCCGCAATATGTTAGCCCAGTGGAAAGAAATAATGAACATCTTGGATCGATTAGGGATGAGACGCATCAATTTGCTGAAGTTTATGACGGATGATAACTATCCGGTGAGAAATGAGAGTTTATCACGCCGGGATATCGACAGCTTCGAACACTTGGAAAGCATTCATCAAGAGTATTTATTGTATATCCGTTACGCCTCATTGTTAATCGATCCCTTCTCTCAGCCGGATCCCGATGGTAAGTACTTCGATTTCTCGGCGGTGCCGATCCGGCGTTTGTTCATCAATCTGGAAGGCTGCCTGGATATCCCGAGAATGCCCAAGGAGGACTATTATCGGATCAAGATCATACAAGGCATCGCCAGCTTCTTAAAGGTGGATTGTCCAACCATCGATCGGTTCATTTCAGCATATGAAGCCAAAATCGTCAGCGTGGCACTTGCTCATAAGGACCAGCCGTTGTCCGGTGCCTTCGCGGTTCAGAGCTTCGGAGAAGATCTGGCCTTGATATGCAAGGACATAACAAATACATGA	MRDMKRVLLLGTGPAALQLAVILKKGFHCHLGIAGRASVRSADFFESLAASDQRIRVSIQNVKHLAMEGECRLDEVYRGFEAIEGQWDTLILAVTTDAYMEVMRQIDQDVLRKINSLVLISPTFGSNSLIAGFIRQFNPAAEVISFSTYIGDTRWVDDRVSNHVMTTGVKKKVYIGSTRGRSDFVDRLCGLYKLSDIEVEFMRTPLEAEARNISLYVHPALFMNDFSLHAIFDESGSRKYVYKLFPEGPITQDLIRNMLAQWKEIMNILDRLGMRRINLLKFMTDDNYPVRNESLSRRDIDSFEHLESIHQEYLLYIRYASLLIDPFSQPDPDGKYFDFSAVPIRRLFINLEGCLDIPRMPKEDYYRIKIIQGIASFLKVDCPTIDRFISAYEAKIVSVALAHKDQPLSGAFAVQSFGEDLALICKDITNT				NA	NA	NA	NA	NA
AK002_02919	1605	cntA	COG0747	Metal-staphylopine-binding protein CntA	GTGAAAAGAAAAACCGTAATCATATGGATGATTTTGTGCACGATGGCGCTATTGGCAGCCTGCGGAGAGACGAAACAGGAAAACAAAGCCGCATCGGCTGTCCGGGATGAATTAATCTATGCGACAGCAAAAGATATTCATGATATGAACCCGCATTTGTACACGGGGTCTATGCCGGCTCAGGGCATGGTATACGAGTCGCTGGTGGAGAACACGAAGGATGGCATCAAGCCGCTGCTTGCGGAATCTTGGGACCTTTCCGAAGACGGGCGGACCTATACCTTTCATTTAAGAAAAGACGTGAAGTTTCATGACGGAGAACCGTTTAATGCCGAAGCCGTCAAATTGAACATCGACGCCGTACAGCAAAATGCCGAAAAACATGCCTGGATTAAGCTGTCGAGCAAAATCAAAAACGTGAAGGTCGTGGATGAATACACTGTCCAATTGATCTTAAGCGAAGCTTATTACCCAACGCTGGTCGAATTGTCCATGACGCGGCCGTATGTATTCCTATCGCCGAAGGACTTCATTCAAGGGGAAACGAAGGATGGCGTTAACGGCCATAACGGTACAGGTCCTTACAAGTTCACGGAGCATAAAATCGATGAGTACGCCGTCTTTACCGCCAATGAAGAATACTGGAACGGTGCGCCGATAATCAAGAAAATTACGGCCAAGGTGCTGCCTGCCGGCGAGACGACGTTTCTGGCCATGCAGAAAGGAGAGGTGAACTTCGTATTCACCGATGATCGGGGGGCAGACAGCATCGACGTGCAAGCGATGAATCAACTGGTTGACGCCGGAACCTATCAGCTTGTACGCAGCGAAGCCATGAATACGAAAATGATTGTCGCCAACAGCAGCAAATCGGACAGCCCGGTAAGCGAAACCGCGGTGCGTGAGGCAATCTGGTATGCAATCGATCGTGAAACGATCAGCAAGGACATATTCGAAGGAACCGAAGCCGAGGCGAACAGGCTGTTCTCGTCCAACGTGAACTATGCGGATGTCGAATTGAAGGAACGCGGCTATGATCCGGGAGCGGCCGAGTTAATCTTGGAACAAGCCGGATGGAAAAAAGGCAGCGGCGCTGAGGCCAGGACGAAGTCCGGACGGCAGCTGGCCATGAACTTATATTATGACAGCAATTCATCTTCGCAAAAAACACAGGCGGAATTCATTCAGCATGCGCTAATGCAGAACGGGATCAAGCTGGATATCATCGGCGAAGAATCGAGTTCGATCGCGAATCGAAGGTCTACGGGCGATTACGAGTTATTGTTTAATCAGACCTGGGGATTGGCGTATGACCCCCAAAGCACCATCGCTGCGTTCACTTCCGAAGCTTCATATCTGCATACAACCAAAGGGATCGCCGAAGCGGATCATCTCTATGACCGGATACAGCAGGTTATGGTGTCGACTGACGAGGAGGCCAGAAAGGCGTTGTATGCCGAGATCATGCGGACGGTTCACGATGAAGCCGTATTTATCCCGATTTCGAGCGGGAGCGTCACGGTTCTCGCACCGAAGGACTTGAAAGGCATTACGTTCAAGCAAACCCAATTTGAGCTGCCTTTTGAACAAATGTATTTCGAATAG	MKRKTVIIWMILCTMALLAACGETKQENKAASAVRDELIYATAKDIHDMNPHLYTGSMPAQGMVYESLVENTKDGIKPLLAESWDLSEDGRTYTFHLRKDVKFHDGEPFNAEAVKLNIDAVQQNAEKHAWIKLSSKIKNVKVVDEYTVQLILSEAYYPTLVELSMTRPYVFLSPKDFIQGETKDGVNGHNGTGPYKFTEHKIDEYAVFTANEEYWNGAPIIKKITAKVLPAGETTFLAMQKGEVNFVFTDDRGADSIDVQAMNQLVDAGTYQLVRSEAMNTKMIVANSSKSDSPVSETAVREAIWYAIDRETISKDIFEGTEAEANRLFSSNVNYADVELKERGYDPGAAELILEQAGWKKGSGAEARTKSGRQLAMNLYYDSNSSSQKTQAEFIQHALMQNGIKLDIIGEESSSIANRRSTGDYELLFNQTWGLAYDPQSTIAAFTSEASYLHTTKGIAEADHLYDRIQQVMVSTDEEARKALYAEIMRTVHDEAVFIPISSGSVTVLAPKDLKGITFKQTQFELPFEQMYFE	PGPT0004405_165	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004405-nikA|cntA-K15584	NA	NA
AK002_02920	933	cntB	COG0601	Metal-staphylopine import system permease protein CntB	ATGGGAAGTTATATAGCTAAACGATTATTGCTGTCCGTTCCGATTCTGCTTATGATTTCATTCTTGACCTTTCTATTGATCAACCTGTCGCCCATGGATCCTGCCGAAGTGGTGCTCCGCGCCCAGGAAGTTCCCGAAATCACGGAGGAACTGATCGCTAAGACGCGTGAAGAGCTGGGACTGAATCAACCCTTCCTGAAACAATATGCCGACTGGGTGATGGCCTGTCTTCAATTGGACTTCGGGGAGTCCTACGTCACGGGACAATCCGTGTGGTCCTTGATAAGTCCGGCGTTTCTCAACACGTTAAAGCTAACGCTGGTTTCGTCGATCATCATTATCGTCATGTCCGTCATCTTGGGGGTTATCTGCGCATTAAACGAAGGCAAAATGCTGGATCGAACGGTAAGAGGCGCCTCTTTCTTTCTGACGGCGATGCCTTCTTATTGGCTGGCTTCGATCATGATCTGGTATTTCTCCGTCCGGCTGGACCTGCTGCCGACCAGCGGCATGGACTCCTATCAAAGCTATATTCTTCCCGTAACGGTCATATCGGTGAGTTATGTCGGCATTTACTTCAGAAACGTAAGAAGCTCCATGCTGGGCCACTTGCATGAAGACTATGTGGTTTATGGGAGAGCTTGCGGTTTGCCCGAGAGGAAGATTACGAAACATATTCTCAGAAATTCGCTGCAAGTCGCCGTATCCATCTTTTGCATGGCGATCCCTATTATACTGGGCAGTACCGTAGTCATTGAAAATGTATTTGCATGGCCGGGACTTGGGCGACTGAGCGTGAAATCCATCTTGAGCAGGGACTTTCCGGTCATTCAGGCCTATGTCCTGATCCTGGCTGTAGCCTTTGTCTTATTCAACACCTTGTCGGACATGATCAATGCTGCGTTCAATCCGAAATTAAGGAAGGAAATCTGA	MGSYIAKRLLLSVPILLMISFLTFLLINLSPMDPAEVVLRAQEVPEITEELIAKTREELGLNQPFLKQYADWVMACLQLDFGESYVTGQSVWSLISPAFLNTLKLTLVSSIIIIVMSVILGVICALNEGKMLDRTVRGASFFLTAMPSYWLASIMIWYFSVRLDLLPTSGMDSYQSYILPVTVISVSYVGIYFRNVRSSMLGHLHEDYVVYGRACGLPERKITKHILRNSLQVAVSIFCMAIPIILGSTVVIENVFAWPGLGRLSVKSILSRDFPVIQAYVLILAVAFVLFNTLSDMINAAFNPKLRKEI	PGPT0004410_307	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004410-nikB|cntB-K15585	NA	NA
AK002_02921	888	cntC	COG1173	Metal-staphylopine import system permease protein CntC	ATGAGAGCACTGAAAAATCTGAGCAGAGACAAGCTGGCCAGCCTGTCACTGCTCCTTATTGCCGCAATCGTAATCTTGGGGCTGTTCGCCCCTGTATTCGCGCCGCACGATCCGAACCATGTCGATATGAAGCTGCGCTATGCCGGCTCGTCCTGGGCGTATTGGTTCGGCAACGACCATTTGGGGAGATGTGTCCTGTCCCGGCTGATTTATGGCATACGTCCCAGTATTTTATGGGTTCTGGCCGCATTGTTGGCATCGGTAGGCGTAGGTGCGGCCGTTGGATTCCTGGCAGGCTACTTCAGAGGCAAAACGGACGCGGTTCTGATGAGAATTTGCGATATTATGCTTTCTTTTCCCGGGTATGTCATGACGCTCGCGGTTGTCGGCATTCTGGGTGCAGGCCTTGAGAACATCCTGATTGCCTTTGTTGCTATGAAATGGGCGTGGTTTGCCCGCGTCATCCGAACGTCGGTCCAGCAGTATGCCGAAATGGATTATGTGAAGTTTTCAAAAGCAGCCGGCATCAGCAATCGTAGAATCATTATGAAGCATATCGTTCCCGTAACATTCTCGGATATTGCCGTCATTGCCAGTGGTTCGATGTGTTCCATGATATTGCAAATCTCCGGATTATCCTTCTTGGGGCTGGGCATCAAGGCCCCTCACGCCGAATGGGGGATGATGCTGAATGAAGCGAGAGAGGTTATGTTTTCACATCCCGAGCTGATGTTGGCGCCCGGCTTGGCGATCGTCATTGCCGTATCGGCATTTAATTTTCTGGCGGATGGGCTTCAGGTCGCGCTGGATCCCAAACGAATGAACTCCGGCAAGCAGTCGCGAGTTGCAGAGGTGGAGAAACCGAATGTTGAATATGCTAGAGGTTAA	MRALKNLSRDKLASLSLLLIAAIVILGLFAPVFAPHDPNHVDMKLRYAGSSWAYWFGNDHLGRCVLSRLIYGIRPSILWVLAALLASVGVGAAVGFLAGYFRGKTDAVLMRICDIMLSFPGYVMTLAVVGILGAGLENILIAFVAMKWAWFARVIRTSVQQYAEMDYVKFSKAAGISNRRIIMKHIVPVTFSDIAVIASGSMCSMILQISGLSFLGLGIKAPHAEWGMMLNEAREVMFSHPELMLAPGLAIVIAVSAFNFLADGLQVALDPKRMNSGKQSRVAEVEKPNVEYARG	PGPT0004415_43	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004415-nikC|cntC-K15586	NA	NA
AK002_02922	810	cntD	COG0444	Metal-staphylopine import system ATP-binding protein CntD	ATGTTGAATATGCTAGAGGTTAACCATTTGAGGGTATGGGACGCGAATGAGGGCAAAGAGATCATCCGTGACAGCTCTTTTCAGTTAAAGCCCCAAACCTGCCTGGCCATCGTAGGGGAAAGCGGGAGCGGAAAATCCCTTACGTGCAGATCGATCATCCGATTGCATAAGCCCTGGATTCGTCAATCCGGGGAGATTCTGTTCAAAGGCGAGAATTTGAATCAACTTTCGGATAAAGAAATGAGAAGAAGAAGGGGTAAACAGATTGGGATGATCATGCAGAACGGTATGGGAGCGTTTGATCCATCTTCCGTAGTCGGCGTTCATTTCCAAGAGACGTTGAAGGCGCATTTCGGCTGGAGCAAGAGCCAAGTCGAAACCACGATGAAAAAAGCGATGGAGAGCGTCATGCTCAATCATCCGATCGAAACCATGAACAAGTACCCTTACCAACTATCGGGCGGCATGCTGCAGCGCTTGATGATTGCGCTCACGCTGGTTCTTTCGCCCGACATCGTGATCGCCGATGAGCCGACGACGGCACTCGATACCATCTCGCAGTACGAGGTCGTTGAACAATTCATCCAGCTCCGCGAGCGAATGGGAGGCTCCATGATTTTTGTGTCCCACGACTTGGGGGTCGTGAAGAAGATTGCCGATGAAGTAATGGTCATGAGAAACGGCGTTATTGTAGAAAGCGGGAGCGTTGAAGAGGTATTATCGGCACCGCGGCATCCCTATACGCAGTACCTGGTTTCTACCCGTCTTGAGTTGAGCAACCATTTCAACGAGATTATGAGGGGGGAGTAG	MLNMLEVNHLRVWDANEGKEIIRDSSFQLKPQTCLAIVGESGSGKSLTCRSIIRLHKPWIRQSGEILFKGENLNQLSDKEMRRRRGKQIGMIMQNGMGAFDPSSVVGVHFQETLKAHFGWSKSQVETTMKKAMESVMLNHPIETMNKYPYQLSGGMLQRLMIALTLVLSPDIVIADEPTTALDTISQYEVVEQFIQLRERMGGSMIFVSHDLGVVKKIADEVMVMRNGVIVESGSVEEVLSAPRHPYTQYLVSTRLELSNHFNEIMRGE	PGPT0004420_163	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004420-nikD|cntD-K15587	NA	NA
AK002_02923	747	cntF	COG1124	Metal-staphylopine import system ATP-binding protein CntF	GTGCTGAAGGTAGAGAACGTACATAAATCTTACCGGGTAGGCGGCCTGTTCTCGAGGAAAAAGCAGCAAATTCTGCACGAGGTAAGCTTCGAATGCGGAAGCGGCGAGTGCCTTGGCATCATCGGCGAGAGCGGAAGCGGAAAATCTACCCTTGGACGATTGATTTTGGGTATTGAACAACCGGACCAAGGGGCCGTCTTATTCGAAGGAAACGATGTGAGGAATCGTCATGTGCGTTCCGGCAATATGAGTGCGGTTTTTCAGGATTATACGTCTTCGATAAACCCGTTCTATACCGTGAAGGAAGCCGTCATGGAGCCCTTAACGGCGCAGGGTCCGGTACGCTCCGACCAAGACGCCCGAGTCGATCGTTTGCTGCATCAGGTCGGGTTGGACGCTTCCTACAAAACGAAATATGCGCATGAGTTATCCGGCGGAGAGGCGCAGAGAGTCTGCATTGCCAGAGCGATTGCCACGGAGCCCAAGTGCATCGTGCTCGACGAGGCGATCAGTTCTTTGGACGTATCCGTACAGATACAGGTCCTCCGCTTATTGAAGGAGCTTAAAGACATCTATCAGATGAGTTACGTCTTCATCACGCACGACATTCAAGCTGCCGCTTATATTTGCGATAGGGTTCTTATTTTCAGAAGCGGCAAGGTGGAGGAGACGATCGACGTCAAGCAATTAAAGCATGTTCAGTCGGATTATGCCAAAAAATTAATGGAGCATTTGATTACGTTCTAA	MLKVENVHKSYRVGGLFSRKKQQILHEVSFECGSGECLGIIGESGSGKSTLGRLILGIEQPDQGAVLFEGNDVRNRHVRSGNMSAVFQDYTSSINPFYTVKEAVMEPLTAQGPVRSDQDARVDRLLHQVGLDASYKTKYAHELSGGEAQRVCIARAIATEPKCIVLDEAISSLDVSVQIQVLRLLKELKDIYQMSYVFITHDIQAAAYICDRVLIFRSGKVEETIDVKQLKHVQSDYAKKLMEHLITF	PGPT0004425_295	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004425-nikE|cntF-K10824	NA	NA
AK002_02924	1215	cntE_2		Staphylopine export protein	GTGAGTGGAGCGATGTCTTGGCCGTTTTTGCGTTTATATATGCTGGCCCTGCTTTATTTCAGCGCCAATGCCTTACTTAACGTCATCATTCCGCTTCAAGGAGCCGCCTGGGGAGCCAGCAGCACAACCATCGGTCTCGTCATGGGAGCTTACATGCTGACAACGATGTTCTTTCGGCCCTGGGCCGGGCATTTGATCCAAAAGCATGGGCCCGTTAAGGTGCTGCGCCTGGTTCTGTTGGTAAACGGCACTGCCCTGATTCTGTACACTTGTACCGGATTAGGGGGATACCTCATGGCTCGAATTTTGCAAGGCATTTGCACGGCTTTTTTTTCGATGGCATTACAGATCGGCATCATGGATGCGCTGCCTGAGAAGGAGCGTTCGCAAGGCATTTCATTTTATTCATTGTTCACTTATATCCCGGGCGTGATCGGTCCGGTTCTCGCATTAGGCCTCTGGCAGACGGGCGGCATGGATTCATTCACGCTTATTCTTGTTGCGATCGCCATTTGTACAGGTTTGTTCGGGTACAGCGTCAAGATGGACGAAGAAAAGGCTCCATCGGAACAAGCGACAAGCCGTTCGGGCGTGTTCCATTCCTTCGGGCAAATCGTTAAGAATCGGTTCCTGTTCCGATGCAGTGTCTTGATGCTGTCGGCATCCATCGTATTCGGAGCGGTCACCACGTTTATGCCTTTATACGGTGAGCAGCTGAACAGCGGCAGCGCCGGCATTTACTTGATGCTTCAGGCTGCGGTCGTTGTCGCTTCGCGGTTTGTCCTGAGAAAACGAATTCCGTCCGATGGCAGATGGCATTCATGGTTTATCATGGGTACCATGCTTCTTGTAACCCTGGCTTCGGCATGCATCAGCCTGTCTTCAGAGTTGGGAAGCATGCTGCTGTACGCAGGCGCCATTCTTATGGGCATGGCCCAGGCGCTGCTGTACCCTACGTTAACGACTTATTTGTCATTTGTATTGCCCTCGTCCAATCGCAATGTGTTAATCGGTTTGTTTATTGCGATGGCCGATTTAGGCGTATCCTTGGGCGGGGTCGCGATGGGACCGATCGCCGATTATTTGTCCTACTCCACCATGTACATGATCTGTGCAATTTTAAGCATGATGATGGTTATTTTCGCTTACGAGCGAAAAGGAGGCTTGGCTGCTTCAAACTCCAGCCATATCAGGGAGAGAGAAGGGGATGTTTAG	MSGAMSWPFLRLYMLALLYFSANALLNVIIPLQGAAWGASSTTIGLVMGAYMLTTMFFRPWAGHLIQKHGPVKVLRLVLLVNGTALILYTCTGLGGYLMARILQGICTAFFSMALQIGIMDALPEKERSQGISFYSLFTYIPGVIGPVLALGLWQTGGMDSFTLILVAIAICTGLFGYSVKMDEEKAPSEQATSRSGVFHSFGQIVKNRFLFRCSVLMLSASIVFGAVTTFMPLYGEQLNSGSAGIYLMLQAAVVVASRFVLRKRIPSDGRWHSWFIMGTMLLVTLASACISLSSELGSMLLYAGAILMGMAQALLYPTLTTYLSFVLPSSNRNVLIGLFIAMADLGVSLGGVAMGPIADYLSYSTMYMICAILSMMMVIFAYERKGGLAASNSSHIREREGDV				NA	NA	NA	NA	NA
AK002_02925	693			hypothetical protein	TTGCCTGCACTGGCTGCGAATCACAGCCGCCATGTCGTGATCATGGGCAACAATGCAAGCCCTCAGGATATGCAAACCTACTTGCAAGCCCATAGCCCCGTAACGAAACATGTGGCCTTCGCTTTTCAATCGATCGCTGGCTGGAGAGAGAATGGCCTTGTCATTAGCGTGCGCGGCCCAAGAATCAAAATCAATATCGGAGGATTAGGCGAGGATCTGTCTTGGCGGCCGTTCATCGATCAGGCTTTGGCAAACACCAAATATGCATGGACCTACCAAAACAATATGAATGAGTGGCTGAAGAGTCATTATGTCATGATCTTGGCTTTGAATTCCATTGCTTCTACATATAACGGGAATTTGCGCAGAGCCGCCAAAGACAGGAAGCTTCTTCACCTTGTCATCCATGCTATGGATGAGGGGCATCAAGTATTGGAGAAAAACGGGTTCACGGTTACGCCAGCCGCTCAAAAGCAGTTCGCCCGCAAAAACAGAAAGCTCTTATACATTCTATTGAAGATGATGCTGTCTATCCCGATCAGCAGAATTCTGTTAAGTGATAAGGCGGTGTCGGCCAACGAGGTAACAGCGCTGCAGCAAGCTTTTGCCGATTTAAAGAAAAGCGCGAATATGGCGACGCCGCATTGGGATGAGCTTCAACAATATTTCCCGCCTGAGCGGCAGAGCTCATAG	MPALAANHSRHVVIMGNNASPQDMQTYLQAHSPVTKHVAFAFQSIAGWRENGLVISVRGPRIKINIGGLGEDLSWRPFIDQALANTKYAWTYQNNMNEWLKSHYVMILALNSIASTYNGNLRRAAKDRKLLHLVIHAMDEGHQVLEKNGFTVTPAAQKQFARKNRKLLYILLKMMLSIPISRILLSDKAVSANEVTALQQAFADLKKSANMATPHWDELQQYFPPERQSS	PGPT0008745_2011	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
AK002_02926	714	walR_5	COG0745	Transcriptional regulatory protein WalR	ATGCCCAGAAACATACTTGTGGTCGATGATGATCCGGATATCGTAGACATGCTGAAACTCTATTTAGACGCAGAAGGATATGCGACTTTGGCAGCCTTCGACGGGCTTGCAGCGCTTGAGCATCTCCGAAGCCAACGCGTCGATCTCGCTCTGTTCGATATCATGATGCCGGTCATCGACGGATACCAGCTGCTCCGCACGATTAGACAGGATTATAAAATCCCGGTCATTCTCGTATCGGCCAAAAATCAGGAGCTCGATAAAATCACGGGCCTCAAGCTCGGAGCAGACGATTATGTTTCCAAACCGTTTAGCCCGATGGAAGTAATGGCAAGAATTCAGGCCCAGTTAAGACGGTCCTATGAATTCAATGAGCCGTCGGAACCTGACCCGGTTTCCGTCACCCGCATCGGTGATTTGGTGCTGGATCATCGCGAATACATGCTGTATATCAAAGGAAAGCCCATTTCGCTCAGCGCGATCGAATATAAATTGTTAAACCTGTTTATGGGAGAACCGGGGCGCGTATTTACGAAACGTCAAATGTTTGAGCATGCCTGGGACGAGTTGTACCTGGCCGACGATAACGCCGTTATGGTGCAGATTAGCAGGCTGCGGGACAAAATCGAGACCAATCCGAGAAACCCTGTTTATATCAAAACTATCCGCGGCCTCGGCTACCGGTTTGCCAAGAAAGATGAGTTAGACACATGA	MPRNILVVDDDPDIVDMLKLYLDAEGYATLAAFDGLAALEHLRSQRVDLALFDIMMPVIDGYQLLRTIRQDYKIPVILVSAKNQELDKITGLKLGADDYVSKPFSPMEVMARIQAQLRRSYEFNEPSEPDPVSVTRIGDLVLDHREYMLYIKGKPISLSAIEYKLLNLFMGEPGRVFTKRQMFEHAWDELYLADDNAVMVQISRLRDKIETNPRNPVYIKTIRGLGYRFAKKDELDT	PGPT0028485_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028485-vanRC|vanRE|vanRG-K18349	NA	NA
AK002_02927	1158	sasA_11		Adaptive-response sensory-kinase SasA	ATGAAAACGCCTAATCGTTTACAGCGTTCGCTGATCGGACAATACTTGTATTTCTTTGTTATGATTGCCATCATTGCGGCGTTATCGTTGTTTCTATTGAATGCGCAAATCATGAATTATTTTCTCGATTCAACCGGGCAGATAAAGGTGGAGGAGACTCAGAAGGGCCATTCGCCCGCTACGCCAGAGGAGAGCTACAGCGATCAACAAGAGCGCGTATTTTATAAAATGGCTCTTCAGACCCTGCTTCTGTTTCTCGTTTTGTTTGCGATCACCGTGTATGCGTTCGGAAGAAGGACCGCTTCGAGGCTCACGACTCCGCTCAGCTCCATAGCCGACGGCATTCGAAACATTGCCCAAGGTCAATACCGCAAAAGGCTAAACTTCAAAGCAAGCTATGAGCTCGCGCAGATCCAGGACGATTTCAATGATATGGCAGAGCGTCTCGAGCGGATGGAGCGGGAAAAGCAGGAGCTGGAAGAAAGCAAGCAGCGCATGCTGATCGACATCTCCCATGACTTGAAGACACCGTTGACTACCATACGGGGCTATATCGAAGCGCTGGAGGCGGGACTCGTGGATACGGAAGAGAGAAGACGCCAGGTGTTGCGTTTGATATCCGACAAAGCCAGTCTGATGTCGGAGCTGATTGACGGCATCTTTGACCTGTCCAAGCTGGACAGTGCCGATGTTCCTTTCTCCGTTGAATTCTCCGACATTACGGAATTTACGAGGAAAATCGCGGCCGAATATTATGAGGTTTTCGAAGATAAACAGCTTGTTTTCCGTTACGATATTCCCGATCGGGAAATGAAGGTCCCGTTCAACGCGATCTGGTTATACCGGGCGGTTTCCAATATGCTGTCCAATGCATGGAAATACAACCCTCCCGGCACAACCGTGGAATTGAAATTGGTAATCGCAGAGAACGGGGTTGAGATTCACGTTGCGGATGATGGCGCCGGTATCCCGGAAGCCCTAAAGGATAGGGTGTTCGAAGCTTTCGTTCGCGGAGACAAGGCACGGACAAGCGATGGCGGCACGGGACTCGGTCTGGCGATTGCCAAACAAGTGGCAGAGAAACATGGAGGAAAGATCAGGCTTACCACAACAAACGGGCAGACGACATTCGTTCTGTTTCTGCCGAGCAATATGTAA	MKTPNRLQRSLIGQYLYFFVMIAIIAALSLFLLNAQIMNYFLDSTGQIKVEETQKGHSPATPEESYSDQQERVFYKMALQTLLLFLVLFAITVYAFGRRTASRLTTPLSSIADGIRNIAQGQYRKRLNFKASYELAQIQDDFNDMAERLERMEREKQELEESKQRMLIDISHDLKTPLTTIRGYIEALEAGLVDTEERRRQVLRLISDKASLMSELIDGIFDLSKLDSADVPFSVEFSDITEFTRKIAAEYYEVFEDKQLVFRYDIPDREMKVPFNAIWLYRAVSNMLSNAWKYNPPGTTVELKLVIAENGVEIHVADDGAGIPEALKDRVFEAFVRGDKARTSDGGTGLGLAIAKQVAEKHGGKIRLTTTNGQTTFVLFLPSNM				NA	NA	NA	NA	NA
AK002_02928	2259			hypothetical protein	GTGGAAATACAAAAAGAGAAAGAGAACGAGAAGGGCATTGCCATTATACAAAGAATCGTTGCAAACCGGAAACGTATGCAGCCTTTAACTCCTGGATGGAAGGGAGCGTCGCTTGGACTAGGAGGCATCGCCTTCATTCTAATCCTGATCCAGGCCGATTATTTATTGACGGGGCACGGTTTCATAAAATATATCGCGGGCACGTTTTTGTTTGTCTTAGCGATTGCAATGATAAGCGGCTTGACGGCGTTGCTGCTGCACGGGGTCAAGAAACTGCCAAGCCGCTATATTTGGACGTTGACAGGCTCACTGACCTTGCTTGTATTCTGCTTCATCGTGCCGCCGAAAGTATCGGCCGTGTTCATTGCATGTTTGGCCTTTGTTTTTTCTTTATTTGGGGCATTGCTTTATAAAATTGCAGCCGGAAGCTACAGGCAAGTCTCAAAAGGAAGGAGAATCGGCGCCTTGGCCTGCTTGTCCTTGATCGCCATCGTGATCGGAGCGGGCAGCTTCTGGCTGATTCGGGAGGGAGATGAAGCCGCTCCGACCGTCACGTTACAACAGCTGAAAACCTCAAGCCGGTATGAAGACTCGACGATGAACAATCCGGCAGAACAAGGCAACTATCCCGTCCAAAGCCTATTATACGGCAGTCCTGACAACTACCGGAAAGAGTTTAATCAAAGCGGTTCGCTGACGACCAAAACGGTGGATGCGACCGAGTTTGTCGACAAATGGTCCTCAGGGCGAACGAAGTCGCTTGGATTCGGACCGGATGCCCTGCCGTTAAACGGAAAAGTATGGTATCCCGAAGGGGAGGGCATATTTCCGCTGGTCCTGATTGTGCATGGAAACCACTTAATGAACGATTATTCCGATCCCGGTTACGAATACCTCGGCAAATTGCTCGCGAGCAAAGGGTATATTTTCGTCTCCGTGGATGAAAATTTCCTGAATGCCGCTCCATACGAGGACCTTTTTCTGGTTAGCGCCCTCCAACGTGAAAATCCGGCAAGAGGTCTGCTGCTGCTGGAGCATTTGAAGACTTGGAAGGGCTGGAACAGCGCTCCGGACAACCCGTTTTATCAAAAGGTCGATATGGAACGAATCGCCCTCATCGGTCATTCCAGGGGAGGCGAAGCCGTCGCGATTGCGGCTGCCTTCAACAAACTCGGCAATCACCCGGATCACGGCCATATCAAGTTTGACTATAACTTCTCGATCCGCTCTCTCATTTCCATTGCGGGAACGGACGGGCAATATCAGCCGCAAGGCAAACCGCTGCCGCTGCAGGACGTGAATTATCTCTCTTTGCATGGAGCTCATGATATGGACGTCAACAGCCTGGATGCTGCCAAACAATATCATCGGATTCGTTATACCGAAGGCAAAGATTATATGAAGTCGATGATTTATGTCTATGGGGCCAACCATGGCCAGTTCAACGGAGGCTGGAACAGAGGGGATGGGGCAGGTCTTGCGAATCGTCTCTTTAATCTTCGTCAAATCATGCCGCGGGAAGAGCAGGAAACGATTGCCAAGGTGTTTATTTCCGGTTTTCTCGATGCAACGCTTAAGGACCAACGTCAATATCGGGAGATGTTCACGGATTTGGGTTACGCCAAGGAATGGATTCCCGACAACCTGTACGTCGGCAATGTTTACGATTCGGGGACGACCATGATTGCCGATTTTCAAGAAGACATCGATCTGCAGAGCACGACGCTGCCTGGAGGCAGCCTGATGGGCGAACATCTCCGGGTATGGAAGGAGGAGAAGGTAAGGACCAAGCATGGCTTGGCCGATTACAGCGCGGTTCGCTTAGGCTGGGACACGAGAGGAGAATCCGAACCTGCATCCTTCACGGTCACGCTGCCGGAACGCGGCATGGAAACGGGAACGGAAAGCTCTATCGTATTTTCGATGGCGGACGCCCGTGGAAAAGACGCGAGCGGCGACCCGAACGAACTGATCAATGCAACGGTTTCCGTTGAAGACAAGAAAGGCAATCAGGCAAGTCTTCCCCTCAGCCACATATCCAAACTGCCGCCTGTTATAGAAGGTAAACTTCTCAAATGGCCGTTTTCGAATTCCGGGAACATTTCGGAGCCCGTATTTCAAAGCTATGACTTCCCGTTAAGCGATTTTGAACAATTGAATCCGGACTTCAACCCGCAGCAGCTAAGCAAGGTCCGTATTCAATTCAACCTGACCAAGCGGGGAACCGTGCTGCTGAGTGACATAGGGGTCCGATCCTAA	MEIQKEKENEKGIAIIQRIVANRKRMQPLTPGWKGASLGLGGIAFILILIQADYLLTGHGFIKYIAGTFLFVLAIAMISGLTALLLHGVKKLPSRYIWTLTGSLTLLVFCFIVPPKVSAVFIACLAFVFSLFGALLYKIAAGSYRQVSKGRRIGALACLSLIAIVIGAGSFWLIREGDEAAPTVTLQQLKTSSRYEDSTMNNPAEQGNYPVQSLLYGSPDNYRKEFNQSGSLTTKTVDATEFVDKWSSGRTKSLGFGPDALPLNGKVWYPEGEGIFPLVLIVHGNHLMNDYSDPGYEYLGKLLASKGYIFVSVDENFLNAAPYEDLFLVSALQRENPARGLLLLEHLKTWKGWNSAPDNPFYQKVDMERIALIGHSRGGEAVAIAAAFNKLGNHPDHGHIKFDYNFSIRSLISIAGTDGQYQPQGKPLPLQDVNYLSLHGAHDMDVNSLDAAKQYHRIRYTEGKDYMKSMIYVYGANHGQFNGGWNRGDGAGLANRLFNLRQIMPREEQETIAKVFISGFLDATLKDQRQYREMFTDLGYAKEWIPDNLYVGNVYDSGTTMIADFQEDIDLQSTTLPGGSLMGEHLRVWKEEKVRTKHGLADYSAVRLGWDTRGESEPASFTVTLPERGMETGTESSIVFSMADARGKDASGDPNELINATVSVEDKKGNQASLPLSHISKLPPVIEGKLLKWPFSNSGNISEPVFQSYDFPLSDFEQLNPDFNPQQLSKVRIQFNLTKRGTVLLSDIGVRS				NA	NA	NA	NA	NA
AK002_02929	1026	graS_3	COG0642	Sensor histidine kinase GraS	ATGAGTTTTTTAGAATACATCAAGGACAAACGTTATTTTTTGTTGCTGTACGCGGGGATGATGGGCTTCATTTCGATGATCATTGCCCTATCCGTCAGCCGAGGTCACGCCTTAGACAGCATTCTTTATATTCAAATCGTTTGTTTTGCCTTCACCGCAGCCTACTTACTGATTGGCTATGTTTATCGCAGATCCTATTACCGCAAGCTGCAGGAGCTGATCGATCTTGACCGGGAAGATTGGCCTGTCGCTGCCCCTGAACCACAAAATTCGCAGCAGCGGCTGTATCTCGAGCTTTTTGCCAAATTGCATCGGCATCATGAAGGAGAACTCCGGAAACTTAATGAAGAAAAAATAGATCACCAGGAATTTATCATGTCCTGGATTCATGAGGTAAAGCTTCCGATTGCAGCAAGTCGTCTGCTCATGGACAACAGCATGGGGGAAACGGCAGATTCCCTGGCCGATAAACTTGAGGATGAACTGGATAAAATAGAAAATTACGTGGAGCAGGCACTGTACTACTCTCGAATCGATTCTTTTTCCAAGGATTATTTCATCACGGAAGAACCGTTGGAAGCGATCATTAAAACCTGTGCGAAAAAATTCGCCAAGACGTTTATCAATAAACAGATTCGGTTACATATGGAGGACATTCGGCAAACCATCCATACCGACCGCAAATGGCTTGGATTTATCCTTGATCAAATCGTTTCAAATGCGTTGAAATATACGGACGAAGGCGGGAACATTGCATTTACGGTGGAAGAAGACCGTAAAGAAAAGCGGTTGAATATTGTAGATTCGGGGATCGGGATCCAGCCGGAGGACCTTCATCGAGTATTTGAGAAAGGATTTACCGGATCTATCGGAAGAAGCCATCCCAAATCGACCGGCATGGGACTTTATCTTGCAAAACAATTGGCGCATAAGCTGGGACATCATTTGTCTATCCGATCGGAGGCTGGAAGGCATACAATAGTCACGATTCATTTTCCGAAAACGGATACGTACTACCGCTTATAA	MSFLEYIKDKRYFLLLYAGMMGFISMIIALSVSRGHALDSILYIQIVCFAFTAAYLLIGYVYRRSYYRKLQELIDLDREDWPVAAPEPQNSQQRLYLELFAKLHRHHEGELRKLNEEKIDHQEFIMSWIHEVKLPIAASRLLMDNSMGETADSLADKLEDELDKIENYVEQALYYSRIDSFSKDYFITEEPLEAIIKTCAKKFAKTFINKQIRLHMEDIRQTIHTDRKWLGFILDQIVSNALKYTDEGGNIAFTVEEDRKEKRLNIVDSGIGIQPEDLHRVFEKGFTGSIGRSHPKSTGMGLYLAKQLAHKLGHHLSIRSEAGRHTIVTIHFPKTDTYYRL	PGPT0027745_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-CptA-CptB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027745-toxin_cptA|ygfX-K19168	NA	NA
AK002_02930	672	graR_3	COG0745	Response regulator protein GraR	ATGAAAATCATGATCGTAGAGGATGACCCGACCATTCGCGGGATGATCCAGTTAGCTTTAACCAAATGGAGCCTGGAATCGGTCAGCGTCGATAACTTTGACCAGGTCGCGCAATGCTTTATTCATGAACAGCCTCATCTTGTGATCATGGATATCAACTTGCCGTCGTATGATGGATTTTACTGGTGTCAAAAGATTAGGGAAATCTCCAATGTGCCGGTGCTCTTTCTTTCTTCCCGCGATTCGCCCATGGATGTTGTCATGTCGGTGAATATGGGCGGGGACGATTATATTCAGAAGCCGTTCCATATGGATGTGTTGACCGCTAAAGTCAATGCGCTGCTGCGCCGAACGTATTCCTATTCGGACATGCAATCCAACGTGTTCGAGCATGAGGGGGTCGTGTTCCTTCCGGACAAAGGGACGATCACTTATGAAACCGAACAAGCGGAGCTTACCAAAACCGAAGTCAGTATATTGAAGATCCTGATGCAGCAGAAGGGAACCGTTGTAGACCGCAAGAAAATCATGCGTCATCTTTGGCAGGATGAAAGCTTCGTGGACGAAAACACGTTAACCGTCAACATCGTCCGCTTGCGCAAAAAACTGGCCGGCATCGGCAAGGAAAACTGGATTGTAACCAAGAAAGGGCAAGGTTATAGGATCCCATGA	MKIMIVEDDPTIRGMIQLALTKWSLESVSVDNFDQVAQCFIHEQPHLVIMDINLPSYDGFYWCQKIREISNVPVLFLSSRDSPMDVVMSVNMGGDDYIQKPFHMDVLTAKVNALLRRTYSYSDMQSNVFEHEGVVFLPDKGTITYETEQAELTKTEVSILKILMQQKGTVVDRKKIMRHLWQDESFVDENTLTVNIVRLRKKLAGIGKENWIVTKKGQGYRIP	PGPT0010230_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010230-bceR-K11630	NA	NA
AK002_02931	768	bceA_1	COG1136	Bacitracin export ATP-binding protein BceA	ATGAAAATGGTAGTGAACGCGGCTCAGGTTCGAAAGGTTTATGGCGTAAAAGGAAATGTCTATACCGCCTTGGATGATATCGATTTGTCCGTGCAGGAGGGAGAGTTCGTAGGAATCATGGGGCCGTCGGGCGCAGGCAAATCGACGTTGCTCCATGTGCTGGCGACGATCGATCAGCCTACCTCCGGAGACGTTGTGATTGACGGGATGGACGTGCTGAAGATGGATGAGGAACAGCTATCCGCTTTTCGCCGGGATAAACTGGGATTCATTTTTCAAGATTACAATTTGCTGGACACGTTAACCGTGAAGGAGAACATCCTGCTGCCCTTGGCGCTGGCCAAGATGAATGTCAAAGAACTGGAGTTTAGAGTGGGGGAGATCGCGGACAAATTCGGCATCACCCCGATTCTGGACAAATACCCGTATCAGATTTCCGGAGGGCAAAAACAGCGGACTGCGGCTTCACGCGCCATGATTTCCGGCCCCAGCCTGCTGCTGGCCGATGAGCCGACCGGCGCTCTGGATTCGAAATCGGCGACCGACCTGCTGGAGAGCCTGAAGGACTTGAATGAATATGATCAGGCAACGATTCTGATGGTCACCCATGACACGTTTGCGGCAAGTTACTGCAAGCGGGTGCTGTTTATTAAGGACGGTCGCATTTTCACGGAACTGACGAAAGGCGAGGCATCCCGCAAACACTTTTTCAAAAAAATACTGGATGTATTGACCGTACTGGGGGGAAATGCAAGTGACCTTGTTTGA	MKMVVNAAQVRKVYGVKGNVYTALDDIDLSVQEGEFVGIMGPSGAGKSTLLHVLATIDQPTSGDVVIDGMDVLKMDEEQLSAFRRDKLGFIFQDYNLLDTLTVKENILLPLALAKMNVKELEFRVGEIADKFGITPILDKYPYQISGGQKQRTAASRAMISGPSLLLADEPTGALDSKSATDLLESLKDLNEYDQATILMVTHDTFAASYCKRVLFIKDGRIFTELTKGEASRKHFFKKILDVLTVLGGNASDLV	PGPT0010200_69	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010200-bceA|vraD-K11631	NA	NA
AK002_02932	3189			hypothetical protein	GTGACCTTGTTTGACATCGTGAAAAAGAACATGAAAGGGAACTTCAAAAACTACGCCATCTATTTCATTTCCATCCTGTTCAGCGTCATCATCTATTATACGTTTCTTTCTTTGCAGTACAGCCAAGAAATTACGAGTTCAATCGAATCGTCACAGAGCATGCAATCCGTTTTTATGATGGCGTCCATCTTATTGATTGTGTTTGTTGCCGTCTTTATCCTATACTCCAACCGTTTTTTTTCGAGACAGCGTAAAAAGGAAGCAGGCTTATACGCGCTGCTTGGTTTGCCCAAAAAAAAGATCGGGAAAATGCTGTTTTATGAAAACCTGATCATTGGGGTGACGGTTTTAATCATAGGAATCATGATCGGCACATTGTTGTCCAAGCTGTTCGCCATGATATTAATCAAGCTGCTGGGGACGACGGTACAGGTAGGCATGGCTTTCTCCCTTCGCGCGCTGGTTCATACGCTTATCGTGTTCATGGTGATTATTTTGGCGACGTCGATCCAAGGCTATCGATTGATCTACAGCTTTAAACTCATTGAATTGTTTCGCGCGGAGCAGAAAGGGGAGCAGGAACCGAAAGCGTCGTTTCTATCGGCGGTGGGTGCAGTTCTCTGCCTGGCTGCTGGATATGGATTCGCCTTCCGCGATTTTTCCGTCAACGAAGAAATTCTTGTCAATCTGAGCGTGATGACCGTTGGTATTATCGCCGGAACGCTTCTGCTCTTTTCCTCCTTGGTCATTGTCTTGTTGAGAACGGCCAAGGAGAGAAAGCGAAGTTACTATAAAGGCATGAATCTGGTCATCATCTCTAATTTGGTGTACCGGATTAAAGGAAACGCTCGTTTGTTAAGCGTCATTTCCCTGTTATCCGCAGCAGCTCTGTGCGCTTTCAGTGTCGGATTAGGTGCGTATTTCACTTTTGACAAAACATCGAAGCTCACGGCTCCGTTTAGCTACATGTATATTGCCCAGGACCATGCGTTTAATCAGAAGGTAGACGATATCATACGCGGGGATGAAGCGCATCCGATTATAGCGCAAATGACGATTCCGGTGCTGGAAACTAAAGGGGAGGCTTCCGATCCGGAGATCCTTCCGGAGAGAATGATCGAAGCAGACAAAACCCCGCTTAAAGTGGTTTCGATCGATCAATACAACCAGGTGGCAAAGGCGTTGCGATTCCCTGCTCTTGATCCGATCGAACAGGATGAAGCCGTTGCGATCCGGCCTATGTATACGGACTATGAATGGTCCGATTACGAAGGCGAAACGGTCGGCATCGAATTGCCTGATCAACGGCTAACCCTTGCTTTTGCAGGGATGACCGTAGAACGAATCATCAATTGGAGTTATCCGGATGTAATGATTGTTGTAAGTAACGGCACCTATGACAATATCGAGGCGCAAGTTTCGCCGACCCGCTATGTCGGGTATGCCGTGCAGGAACAGAAGACGACGAAGCACACGGCCGATGCGCTGGCGGCGCTGAAGACGCCGGAATCGAACTTGTCTTCGTTTTATTCTGAATACCGGCTTGGAATCGAAGAAGCGGCCTTTAATGTGTTTATATTAGGATTTCTTGGACTTGTTTTCGTCATGGCGACAGGAAGCATGATCTATTTCAAACAATTGACAGAAGCGGCAACAGACAAACCTCGGTTCGATATTCTTAAAAAAATCGGCGTAAGCGGAAAAGAAATCAGTATGGCCATCATCAAGCAGAACGCCTTCATTTTTGCTTTGCCGCTCGCGATTGGGCTTGCCCACTACATGGTCATCCTGCAATTGTTGAAAAGGTTATTCAGCAATATGGCAGGCGCCAGTCTCTTGCTGCCCATCCTGATCTGCGTCGCTGTGTTTGTCCTGATCTATTCGGTTTATTATGTGCTCACGGTCAACTCCATCAGCAGGATCGTCCATGGAAAAGCGGCCCCCGTGGCAAGAATTGCAGCTATAGCCATTACTTTCTGTCTTCTTGTACTGATTGGCATATTCTTCGGCACGGAAACCCCAGCAACGCAGGATGAAAGGGGCCCGGCAGAGAAAATCCAGTTACAGCTTCCAAAGCCTACTGGAAAATACGCTGTGGGTACGATGGAAATGCACTTCAAGGATGACAACCGGGTGGACCCATGGAAACAGGACAGAGACAGGGAGCTGATGGTCAGCATATGGTACCCTGCTTCGGGGAAAAGCGAGCAGAAGGCTTTGTACATGCAGCCCGAAGCAGCAAAGTATTACGATGAAAACACGATCTCCACAATCGGGTTGGATTCCGGCAGAGTCGATCTATCCGGTATCGGCACACACTCTTGGGTGAATGCACCTCCAGTGAGCAACGCCGATAGGTGGCCGATCCTCATCTACACACCCGGCGGGTCTGTTCCAAGAAACTTCGGGACGGCTGTAGTCGAAGACTTGGCCAGCAGAGGTTATGTGGTGGTTGCAGTCGATCATACGTATGAAGCCTCTGCGGTCCAGTTTCCCGATGGACGTGTGGCCACGGAGTCATTACCGCCTTTCAGTGCAGAAACGGTTCTGAAAATGCTGGAGGTAAGAGTGGATGATATCCAATATGTATTGGATCAACTCGAACTCATAAAGGAAGGCCGTCATCCAGGCGATCAGACTTTACCCGCGGGACTTCAAGAAACATGGGACCTGTCAAAGATCGGAATATTCGGACATTCCGCAGGCGGGGCTACCGCTGCTCAGGTGATGTATGAGGATGACCGGGTCGACGCCGGCATCGATATGGATGGAACGATGGGGCATATGCCCGATAACCCGCTCCCGGTGGCGCAGCACGGTTTGGATCGTCCTTTCATGCTCATGAATTCAGGCTACAATAAGGAGGGCGAGGTTGATTCCCATCTAACCGCGATGGACCGTCAATCGTTCTGGCAGCATTCGACCGGCTGGAAGCTCGATTTAAGCATACCTGAGGGAGCACATTATACGTTTACAGATTATCAGTCGCTCCTTCCACAGCTTCAAGAGAAGCTGAGCCTTTCGCCGCGAGTTGTCCAGCAATTTATCGGGACAGCTGAACCCGAACGGGCGATCGCCGCCCATCGAGCGTATGTCGCTGCCTTTTTCGATTATCATCTAAAGGGTGCATCACAGCCGCTGCTGAACTCCCCATCTGCAGACTATCCTATGGTTGATTTTATTAAATAA	MTLFDIVKKNMKGNFKNYAIYFISILFSVIIYYTFLSLQYSQEITSSIESSQSMQSVFMMASILLIVFVAVFILYSNRFFSRQRKKEAGLYALLGLPKKKIGKMLFYENLIIGVTVLIIGIMIGTLLSKLFAMILIKLLGTTVQVGMAFSLRALVHTLIVFMVIILATSIQGYRLIYSFKLIELFRAEQKGEQEPKASFLSAVGAVLCLAAGYGFAFRDFSVNEEILVNLSVMTVGIIAGTLLLFSSLVIVLLRTAKERKRSYYKGMNLVIISNLVYRIKGNARLLSVISLLSAAALCAFSVGLGAYFTFDKTSKLTAPFSYMYIAQDHAFNQKVDDIIRGDEAHPIIAQMTIPVLETKGEASDPEILPERMIEADKTPLKVVSIDQYNQVAKALRFPALDPIEQDEAVAIRPMYTDYEWSDYEGETVGIELPDQRLTLAFAGMTVERIINWSYPDVMIVVSNGTYDNIEAQVSPTRYVGYAVQEQKTTKHTADALAALKTPESNLSSFYSEYRLGIEEAAFNVFILGFLGLVFVMATGSMIYFKQLTEAATDKPRFDILKKIGVSGKEISMAIIKQNAFIFALPLAIGLAHYMVILQLLKRLFSNMAGASLLLPILICVAVFVLIYSVYYVLTVNSISRIVHGKAAPVARIAAIAITFCLLVLIGIFFGTETPATQDERGPAEKIQLQLPKPTGKYAVGTMEMHFKDDNRVDPWKQDRDRELMVSIWYPASGKSEQKALYMQPEAAKYYDENTISTIGLDSGRVDLSGIGTHSWVNAPPVSNADRWPILIYTPGGSVPRNFGTAVVEDLASRGYVVVAVDHTYEASAVQFPDGRVATESLPPFSAETVLKMLEVRVDDIQYVLDQLELIKEGRHPGDQTLPAGLQETWDLSKIGIFGHSAGGATAAQVMYEDDRVDAGIDMDGTMGHMPDNPLPVAQHGLDRPFMLMNSGYNKEGEVDSHLTAMDRQSFWQHSTGWKLDLSIPEGAHYTFTDYQSLLPQLQEKLSLSPRVVQQFIGTAEPERAIAAHRAYVAAFFDYHLKGASQPLLNSPSADYPMVDFIK	PGPT0010195_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010195-bceB|vraE-K11632	NA	NA
AK002_02933	1050	yfmC	COG4594	Fe(3+)-citrate-binding protein YfmC	ATGTACTTCAGATTCAACCAACGCAAGAAAACAGCTTATGTCGTAGCTGTCAGTTCATTTCTCTTATTCTTCACATTCATCATGTCAGCTTGTGGGGGGAATGAGACTTCCAGCAGTCCGGAAACCAAGCCGAGTGACAATGCATCGCTACCGGTACAGTCCGATACTGATACTTCCGCAGGTCAGGAAGATTACATAACATTCCAGGATGCGACGGATCGCACTATTACGCTTCAGCAGCAGCCCGAGCGCATCGTCGTGCTATCTCCTGAATTCCTTGATCTATTATACGAAGTCGGCGGAGAGGCAGTAGGACGGATGGAAGCGGCCGGCGTTTCCATTCCCGAACAGGCTGAAGCGATATCGTCTGTCGGCAGCGTCAGCCAGATCAACCTGGAACAGGTTGTAGCGCTCAGACCCGATCTGGTTATCGGGCAGGCTCGGTTTCATAAAGAGCTTGTGCAATCGCTGGAGAGCAGCGGGATTCCTGTTGCCCTGATGAGTCTGTCAAGCTATGAGGATATGAAAACCAAAGCCGGATGGATGGCGAAGATAGCGGGTACGGAAGCGCAGCTCCCGGAAAAGCTTGAAGCTCTGGAGGTTCGAGTAAACGAAATCGTGGAAAAATTACCGGATGAGGAACGTACCTTTATCAACATGAACGTTACGCCGGGCGGAATCTCGATACAAAAGAACGGCACATCGGGTCTAGAAATAGCGAAGATGTTGGGTCTGACCAACGCTGCCGAGAATCTGGAATCGTCGCCTAACAGTCCAACCACGACGCCGTACAGCATGGAGACGCTTGTGAAACAGGATCCGGATTACATCTTTTTGATTATCCACGGACAAAAGACCGTTGGCGAGAAGAAGATTAAAGAGGAGCTTGAGAACAATCCGGCATGGGCCTCCATCGGGGCCGTCAAGGAACACCACGTCATTGTCGTACCATCCGATCTGTTTCTTACCAACCCGGGGCTTCACTATGATGAATCCCTGGCGTATTTAGCCAAGCTGGTGTATCCGGAGATCTATGGTGATGTTGAATAG	MYFRFNQRKKTAYVVAVSSFLLFFTFIMSACGGNETSSSPETKPSDNASLPVQSDTDTSAGQEDYITFQDATDRTITLQQQPERIVVLSPEFLDLLYEVGGEAVGRMEAAGVSIPEQAEAISSVGSVSQINLEQVVALRPDLVIGQARFHKELVQSLESSGIPVALMSLSSYEDMKTKAGWMAKIAGTEAQLPEKLEALEVRVNEIVEKLPDEERTFINMNVTPGGISIQKNGTSGLEIAKMLGLTNAAENLESSPNSPTTTPYSMETLVKQDPDYIFLIIHGQKTVGEKKIKEELENNPAWASIGAVKEHHVIVVPSDLFLTNPGLHYDESLAYLAKLVYPEIYGDVE	PGPT0003765_3316	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
AK002_02934	990	fpuB_2	COG0609	Petrobactin import system permease protein FpuB	ATGTTGAATAGGTCGGTCCGTCATGCATCCCTGATCATTATTTTCACGATCGCCGCAGCTTCGGCGTGCTTGATCAGTATAGCTACCGGTGCCGTCATGATTCCGCTTCGGGACATTGTCACGGGTATCCTGCATCATGAGCTGCCTGGGATGAACCGGGATATTATCTGGAATATCCGGCTTCCGCGGACGCTTGTCGCGATGCTTGTAGGCGCGAACCTCGCGGTTTCCGGTGCGCTTTTGCAAGGCGTCATGCGCAATCCGCTCGCTGACCCCCACATTATCGGAGTCTCCAGCGGCGCCGGACTATTCGGGATTTTCCTGCTGGTGGTTGTACCGCAATATGATTACTTACTGACGCCCGCAGCATTTCTCGGAGCGACTCTCGCCGCGTTCATTATCTATCTTTTGTCTTGGAAGGATGGCGTTAGCCCTCTGCGGATCGTTCTGTCCGGCGTCGCTGTCTCCGCATTCTTGGGGTCCGGGATATCGGCGATGCTTACCTTTTACAGCGACCGCGTGCATGGCGCTTTAATCTTCATGGTCGGCGGGCTTGCAGCGAAAAGCTGGCCGGATCTCTCGACCATACTTCCTTACTCGCTTATCGGTCTTCTTCTGGCGATGATCTACTCCAAGCAGATGAATATTATGATGCTGGGTGAGGTTAATGCACGGAATTTGGGGACGCGGGTTGAGCTGTCCCGTTTAATGATAACCGCAATCGCCACGCTGCTCGCAGCCAGCGCCGTCAGCATCGCGGGTTTGCTGGGGTTCGTCGGTCTGATCGTTCCCCACATCGCCAAGCTGCTTGTTGGCGGAGATTACCGGATTCTCATTCCGTCCTCTGCATTGCTGGGCGCTGCCGTTCTGACGTTCTGCGACACGCTGGCTAGAATGATGTTTACACCGATTGAGCTTCCGGTCGGAATCATCATGGGGGTATTGGGAGCACCCTTTTTCCTTTATCTGTTAAGGAGGAGGAAAGCATGA	MLNRSVRHASLIIIFTIAAASACLISIATGAVMIPLRDIVTGILHHELPGMNRDIIWNIRLPRTLVAMLVGANLAVSGALLQGVMRNPLADPHIIGVSSGAGLFGIFLLVVVPQYDYLLTPAAFLGATLAAFIIYLLSWKDGVSPLRIVLSGVAVSAFLGSGISAMLTFYSDRVHGALIFMVGGLAAKSWPDLSTILPYSLIGLLLAMIYSKQMNIMMLGEVNARNLGTRVELSRLMITAIATLLAASAVSIAGLLGFVGLIVPHIAKLLVGGDYRILIPSSALLGAAVLTFCDTLARMMFTPIELPVGIIMGVLGAPFFLYLLRRRKA	PGPT0003770_8915	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
AK002_02935	786	fpuC	COG1120	Petrobactin import ATP-binding protein FpuC	ATGACACGTTTGGAGACTCGCGATCTTTCGCTGAAATACCAGGATAAGTTTGTGATTCAACATCTGGGTATCTCCTTCGAGAAAGGATTCGTGTACAGCATTATCGGTCCGAACGGCTGCGGGAAGAGCACGTTGCTTAAAGCGCTTGCGCGCCAGCTGAAGCCCGCAGGAGGGCAGGTTCTGCTTGACAGCAAGCCGTTATCCGATTTAAACGGGAAGGACGTGGCCCGGCAGCTGTCCTATATGGCCCAATCGCAAGAGCCCATAGAAATCACGGTGAAGGAATTGGTCGGATATGGAAGAACGCCTCATCAGCCTTACTGGAATCATGTCAGCGTCAAGGACCGCGAGATCACGGAATGGGCATTAGAGGCAACCGCTCTTACGCCTTATGAGGATAGACTTCTGCATACGCTGTCTGGCGGGGAAAGACAGAGAGCGTGGATTGCTATGGCTCTGGCTCAGCAGCCCGGCGTGCTGCTCCTGGACGAACCGACCACATACCTGGACATTGCCCATCAGCTGGAGGTTTTGGAGCTGGTTCGGGGATTGAATCAACAATTAAATATGACCGTTATCATGGTTCTGCATGATATTAACCACGCTTCAATCTATTCCGACTATATCCTGGCGATGAAATCAGGGAAGGTGGAAGGCTATGGCTCACCATCCGAGGTTTTGACGCCGGATCTGCTGGGCAGGGTGTTTGGTGTTGAAGCTTCCGTGGAAACCGATCCGGTTCGCGACAAGCCGATTTGCCGTATTACCGGATTAATCAAGAAATAA	MTRLETRDLSLKYQDKFVIQHLGISFEKGFVYSIIGPNGCGKSTLLKALARQLKPAGGQVLLDSKPLSDLNGKDVARQLSYMAQSQEPIEITVKELVGYGRTPHQPYWNHVSVKDREITEWALEATALTPYEDRLLHTLSGGERQRAWIAMALAQQPGVLLLDEPTTYLDIAHQLEVLELVRGLNQQLNMTVIMVLHDINHASIYSDYILAMKSGKVEGYGSPSEVLTPDLLGRVFGVEASVETDPVRDKPICRITGLIKK	PGPT0003760_5131	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK002_02936	930	bchI	COG1239	Magnesium-chelatase 38 kDa subunit	TTGGAACATATAGATCATCAATATCCTTTTACAGCCATTGTTGGTCAATCCCGAATGAAGTTGGCCCTCATTCTGAATGTCGTGAATCCGAAGCTCGGGGGTGTTCTGATACGAGGGGAAAAAGGAACGGCGAAATCAACGACAGTACGTGCCTTATCGGGGCTTGTGCCTGATCTGAACGTTGTTAATTTGCCGGTTAGTGCGACGGAAGACCGGGTTGTCGGTGCTTTAGACATCGAGCATGCAATCAAGAAAGGAGAAAAGAAATTCGAACCCGGATTGCTGGCTGCGGCTCACGGCCATATCTTATACGTCGATGAGATTAATCTGTTAGATGATCATATCGTGGATGTGCTTCTGGATGCGGCTGCGATGGGGGTTAATACCGTTGAGAGAGAAGGCATTTCCTATTCCCATCCGTCACGGTTCCTTTTGGTAGGGACGATGAACCCCGAAGAAGGGGACCTGCGACCGCAGCTATTGGACCGGTTTGCGCTGTCGGTGGAGATCGGCGGGGAAAGGGACGTTCAAGAGCGCACGCTTGTCATCCGCAGACGATTGGAATATGAACGGGACCCTGCTTCATTTGCTGCGCGATATGAGACGGAGCAGAAGAGAGTATTGAACCAGATTCTGCAGGCGCGAGACCGTCTGGGCCATATCCCCATCTCGGACGATATGCTTGAGCTGGCAGCGAAAATCGGCATTGCACTGGAGGTGGAGGGACACCGTTCCGATATCACCCTCATCAAAACGGCGGTTGCCCTGGCTGCCTGGCAAGGGAAGGAAACTGTAAGCCTAGATCATATGCAAGAAGCGGCGCACTTGGTTTTGCCTCATCGCATGAGACGGCAGCCGTTTGAAGATACCGGCGGCATTGAGCAGCGATTACAGACGATACTGACTTCAGTAGAATGGGTACCGTCATGA	MEHIDHQYPFTAIVGQSRMKLALILNVVNPKLGGVLIRGEKGTAKSTTVRALSGLVPDLNVVNLPVSATEDRVVGALDIEHAIKKGEKKFEPGLLAAAHGHILYVDEINLLDDHIVDVLLDAAAMGVNTVEREGISYSHPSRFLLVGTMNPEEGDLRPQLLDRFALSVEIGGERDVQERTLVIRRRLEYERDPASFAARYETEQKRVLNQILQARDRLGHIPISDDMLELAAKIGIALEVEGHRSDITLIKTAVALAAWQGKETVSLDHMQEAAHLVLPHRMRRQPFEDTGGIEQRLQTILTSVEWVPS				NA	NA	NA	NA	NA
AK002_02937	1965			hypothetical protein	ATGATAACGGAAGAAAGGAAGAGCGCTGCCCCGGTGTATCCATTCAGTGCCATTCTGGGCCAAGAGAAGGCCAAACGAGCGGTGCTGCTCTATCTTGTCAATCCAGCGATCGGAGGCATACTTGTTAACGGCCATCCCGGGTCAGGTAAAAGCGTCCTGCTGCATGCGGCCTCTTCTTTGGTCAAGCCGCGCCGAATCCTATCCGTTCCCGTCAACGTTACGGCTGACCGGCTGCTCGGCGCTTTGGATTTGGCAGCCGCCATGAAAAGCGGAAAGCTAGCGCTTGCTCCGGGATTGCTGGAAGAAGCCGATGGACAGCTCCTGCTTGTAGACCATATGAATCTACTGTCTGAAGCGATCTTGAAGGAGATCGTCAGCACGCTGTCTACGGGCTCGATCTCTGTGCAAAGAGAGGGAATATCCATGGTTCGGAGTAGCCGTTTTATGCTGCTTGCAGCAATGGATCCCAATGAAGGCCGGGTATCGCCTCCCCTTCTGGACCATTTTGGTTACTGCGTTACGTTGGACGATATTCACGATTCCATAGCAAGAGCAGAAATTATTCAGCGCAATCTGCAGTTTGAGCATGATCCGTTCGCATTCCGGAACCGATATCGGCCACAGGACGAAACGCTGCGTCTTCGCGTCGAAGCCTCCGCACAAGCACTTCCCCAAGTTCAGGTGAGCGCGGACATGATTCAATTGTCAGCCTCCATCGCCAGAGAAGCGGGAATCAGCAGCTCCAGGGGCGATCTCAGTCTGATTGAAGGGGCCAAAGCTGCCGCGGCTTGGGATGGGCGTTCCGCGGTAACCGCCGCCGACATCCGGGAGATAGCTGAATTTGTGCTTCCCCACAGAATGACACATGTAATGGAGAAGCCCCGTGCTTCTAGCAGCGGCTCACCTGAACAGAATAACAGTAAACAGCCGGAACATTCGCTTGAGGATCATGCCCGCTCCTCTCCAATGCCTCCACAGAAAAGTCACGAACCGAAACGGAATCCCCATCATCCGGGCAACGCTTCTTCTGATAAACAAGATGTGGCCAGCCGTACGGTAGAGCAGCATGCGGATGATCGACAGCACGTACCAGAAGGTTTGGAGGAACGGGTGCTGCTGCCAGACGAAACGTTTACAATGAAGCCGTTGCAGCTCGAGGGGAAGCGCAAGATTGAACACGAGGGATCGGGAAAACGAAATAAATCCCGGGCCAACCAGAAGAAAGGGAGAGCTATGGGGTATATGTACCCGGGCAGGAACCTGCGAACCGACGTGGCTTTGGATGCCACGATCCGCGCAGCGGCTCCCTATCAAGCAATCAGAACAAAAAAAGACGAGGTGGCAGTTGCCATTGAGTTGGATGATTTGCGTCAAAAGAAAAGAGAGAACCGGGTAGGGGCAACCTTGCTGTTCGTCGTTGACGCCAGCGGGTCTATGGCGGCTCGTAAGCGAATGACCGCCGTCAAAGGCGCTATTCTGTCACTGCTGCAGGATGCTTATGAGAAAAGAGACCGAATCGGTATGATCGCCTTCAGAAACAACGAAGCCGAGCTGATCCTTCCGGTGACGCGCAGCATCGAAGCCGCGTCCAAGCAGCTTCGGAGCATTCCCACAGGGGGAAAGACGCCTCTGGCAGACGGGCTTGCCAAAGCGTACAAGGTGCTTCATTCGGAGAAACGCAGAAATAACGATACGCTCCCGGTCATGATCATCGTAACGGATGGCCGTGCCAATGAAAGCTCCATCGGATTAACCGTGTATGCTGACATTTGGAACGAATGTCTGGAAGCGGCTAAGCTGATCCGCGCTGCCGGGATTCGTTCCCTGGTGTTAGATACGGAGCAGGGATTTGTCAAATTGGGACGTTCGAGGGAACTGGCTGACGCTTTAGGCGCTGAATACAGATTACTTGACCGCGTAGATGACGAAGGTATTGCGCGGGCTGTCCGCACCACCATGAAATGA	MITEERKSAAPVYPFSAILGQEKAKRAVLLYLVNPAIGGILVNGHPGSGKSVLLHAASSLVKPRRILSVPVNVTADRLLGALDLAAAMKSGKLALAPGLLEEADGQLLLVDHMNLLSEAILKEIVSTLSTGSISVQREGISMVRSSRFMLLAAMDPNEGRVSPPLLDHFGYCVTLDDIHDSIARAEIIQRNLQFEHDPFAFRNRYRPQDETLRLRVEASAQALPQVQVSADMIQLSASIAREAGISSSRGDLSLIEGAKAAAAWDGRSAVTAADIREIAEFVLPHRMTHVMEKPRASSSGSPEQNNSKQPEHSLEDHARSSPMPPQKSHEPKRNPHHPGNASSDKQDVASRTVEQHADDRQHVPEGLEERVLLPDETFTMKPLQLEGKRKIEHEGSGKRNKSRANQKKGRAMGYMYPGRNLRTDVALDATIRAAAPYQAIRTKKDEVAVAIELDDLRQKKRENRVGATLLFVVDASGSMAARKRMTAVKGAILSLLQDAYEKRDRIGMIAFRNNEAELILPVTRSIEAASKQLRSIPTGGKTPLADGLAKAYKVLHSEKRRNNDTLPVMIIVTDGRANESSIGLTVYADIWNECLEAAKLIRAAGIRSLVLDTEQGFVKLGRSRELADALGAEYRLLDRVDDEGIARAVRTTMK				NA	NA	NA	NA	NA
AK002_02938	3711	cobN		Aerobic cobaltochelatase subunit CobN	GTGAAAATCGCCGTTCTGACGACATCGCATGCAGCGATGAGGGATTTGTCGCAGCTATATAAGAAATGGGACGCATCTTTTCGCAGTCGTCTAGCGTTATCCGTGTTTAATCTAGAAGGAACTTTGTCGGATGAAGAATGGAAGCGGCTGAAAGCAAAGGTAAAGGAAGCGGAGTTTATTATTCATGATCCGCACGGTACGCCGGCTCAAACCCTTTCCCGCATTCATGATCTTTGTGAAGGTCTTGAGGCGCAGCAGGTGATTTTAGGAGGGAATGCGGATGGGATTCAAGATTTGTTCCGATTGGGCTCGCTGCGTTATGAAGATATTGCCGGCAGCGGTCAACGGGGGGATCCGTCGGCTTCTTCCGCTCGGATTGATATAAATCAAGATCTTGAGCATTATCGAACCTTACTTGATTACTGGAAACATTCAAGTATCGACAATTTGGAGCATATGCTGGGCTATATCGCTACAACATGTGGCTATATAACGGATTGGCCGCCGGTGGAACCGCCTTCTGTTCTAGAGACGTTGGGTATATACGACCCGTTATTGAAGCGACCGTATGAATCTTTAAAGGCGTATCAGAGCTTGACGCCCGTTCGGACCCATTTGCCGACGGTAGCCGTGCTATTTATGGGGTACAGCTATCCGCTCCATACCGGTGAAATCGTAGGCGGTATCATTCAGGACCTTCGGAAATTTGCGAATGTCCTACCCATCGCACTCACTTCCTTGGTACGCGTCGATCCACAAAGGCTGCGAAGTTTGCTGATGCAAGGAGGCTCCCAGGGCGGGAAGATCGATCTGATCGTAAATTTTGTTCCGTTCCGGCTCGGCGCGGGGCCAACCGGAGGGAAAAGCGATGAGATCCTATCCTTAATAAAGGAAGTTGAAGCGCCGATGTTCCATCCGTTCTTCTTAACGCGAAGGGAACGGGAAGAATGGGAAGGATCGTTGCAAGGTTTATCGCCGTCCGAATTTTTGGTCCAAATGATGCTGCCCGAACTCGACGGGAGCATCGACATGCTTCCGATTGCCGCATTATCCGGACGTGAATACGATGAGGGAATGCAGCTTCATACGAAGGAACTGCGGATCATAGAGGAGCGGGCACAGCGATTGATTAGCCGAATAAAGCGATATTTGGACCTTCGAACCAAGCAGCCGTCGGAAAAGCGTATCGCCATCATCGGCTATAACTATCCTCCCGGAGAGGGGCATTTATTTCAGGCATCGTTTCTGGATACGTTCGAATCCATATCCCGAATCGCGACAGCGATGAAAGATCACGGCTACACGACAGAGGTTTTTACCGGAGCTGAATTAAGGGAACGCTTCCTTCGGGAAGGAGCGGTCAATTCCGGAGTCTGGACGGACGAGCGTTGGTCCGTTGAGCTTCCAACGTACGACAATAAGGCTTATGAGCAGAATAATAAAGTGTTTGCCAATCGCAAGGATGAGCTTATTCAGCAGTGGGGAGAGGCGCCTGGCAATATCATGACGACGGAGGAGGGAGCATTCAAAATCCCCGGCTTGCTCAATGGAAACCTGTTTATCGGGGTCCAGCCCAGCCGGGGCGTTCACGAGCATCCCGAGGCTGCTTACCATGACAAGAGCCTTCTTCCGCACCATCAATATCTGGCATTCTATCAATACATTCGGGACGAATTTAAGGCGGATGCCATCCTGCATGTAGGAACCCACGGAACCCTTGAGTTTCTGGAGGGGAAAGAGAGCGGAATGTCCGGTGATTGTTTGCCGGATGCCCTGATCCAAGATCTTCCGCATTTCTATATGTATTACGTTGGAAATCCGTCCGAGGCAATGATCGCGAAGCGAAGGTCGCATGCTGCCTTGATCGGTTACCAATCCCCGCCCTTCGCGACAAGCGGATTATATGGTGAATATGCCGGGCTTGAAGCGATGCTGCACGAGTACCGGGAAACGGAACGGCTGAATCCAACGCGTGTTCCCGACATAAAGAAGAGGATATGGGACCAGGCGGCATCGCTTTCTATGGAAACGGACGATTTGGAAGAGCTCGAAATCGAGCTGTATCGGATTCGAAGATCCGTGATCCCGAACGGTTTGCATGTCGTCGGCGAGGGCTACAACCATGAAGAAGCGGCAGGGCATATGAAAATGATTTTGAGCCATGAGCAGGGAATGCTTGGATCGCTGCAAAGAGTATTTGCAACATCCATGGCTTGGGATTATGACAGCCTGCTGGAAAACCGGGACATTGAAAGACTGCAACTGCTGGATGAGTGTGTAGGAAATGCCGTGTTATCCTTCATTCATAATGAAACCATCCCTGAGCCTCCACAGTTGCCGGATGAAATGAAGGCACGCTGGAACGACATCTGGAATCACGGGTTAACGGCATATCACTCCACCAAAGCGGATATGGAGCTTAAGAACCTGCTGCGGGCGCTGGATGGGGCGTATTTGCCGGTTAGCCTAGCCGGGGACAGCGTTCGTAATCCGGAGGTTTTGCCGTCCGGAAATAACCTGGTTCAGTTCGATCCGCGATCCATTCCAAGCCGGACGGCAGCTGCGACCGGTTTGAAAATTGCCGAGAATACCTTGAAGCTGTACTACGAGGCCCATCAAAAATATCCTGAAACGACGGCACTCGTGATGTGGGGGCTGGAAACTTCGCGAACCCAGGGAGAGACGTTAGGCCAGATTCTGGCTTATCTGGGCGTCAGGATCAAAGAACGGGGACATTCCATGCATATGGGATATGAAATCATTCCACTTTCCGAACTGAACCGACCGCGAATCAATGTAGTCGTGCATATCTGCGGATTTTTCCGCGATATGTTTCCGGACCAGCTATTCATGCTTCATCGCATTTTTAAAGAAGTATCCGAGCTGGATGAGCCGATGGATCAAAATGGGTTCAAACAGCACTCGGAGCTGCTGTACCGACAGCTGCGCAATGCCGGCGCCGGGCACGACGAGGCTTGGGATTTGGCGTGCGCCCGCATTTACGGTCCTGCCGAAGGAGAATATGGAACGTCCATAACCAAGCTGATCGAGACCAAACAGTGGGAAGAGGAAAGCCAAATAGGCGCATCATTTATGAGCAGCCTGAAGCATGTATATAGCTCCAACTACAGGGGCAAGGAAATGCTTGAGCTGTATAAGGCCAACTTGGAGGCCGTGGATATCGTTTCGCAAATTCGGAGTAATCATGAGCACGAAATTACGGATTTGGACCATTATTACGAATTTTTCGGAGGGTTGGCGAAATCGGTAGAAATCGTTAAGGGCAGTCGAGCGGAAATGTATATCACCGATACCACGCGCGAGCAGGCATTAACGGAAGAAGTACGCAAATCGATTCAGCGAGGCGTTCGAACCCGCTTGCTTAATCCCAAGTGGATGGACGGATTGCTGAAGCATGACTATCACGGTGCACAGAACATAGCCGACCGAACGGAAAATTTGCTTGGTCTGGCAGCGACAACGAACCAGGTGGATTCCTGGATCTTCTCTTCGGTTCACAAGGAATATGTTGCGGACGAACAGCGCAGCAAGCAAATGCGGGACAATAACCGTTCTGCATATCACAGTATGCTGGAAACTCTGCTGGAGAGTCATCAACGGAATTATTGGAACGCGTCGGAGGATGAATTGGGAATGTTGCGTGATCGCTATTTGGAGATTGAAGGGGATCTGGAAGGCCGTAATACCTAG	MKIAVLTTSHAAMRDLSQLYKKWDASFRSRLALSVFNLEGTLSDEEWKRLKAKVKEAEFIIHDPHGTPAQTLSRIHDLCEGLEAQQVILGGNADGIQDLFRLGSLRYEDIAGSGQRGDPSASSARIDINQDLEHYRTLLDYWKHSSIDNLEHMLGYIATTCGYITDWPPVEPPSVLETLGIYDPLLKRPYESLKAYQSLTPVRTHLPTVAVLFMGYSYPLHTGEIVGGIIQDLRKFANVLPIALTSLVRVDPQRLRSLLMQGGSQGGKIDLIVNFVPFRLGAGPTGGKSDEILSLIKEVEAPMFHPFFLTRREREEWEGSLQGLSPSEFLVQMMLPELDGSIDMLPIAALSGREYDEGMQLHTKELRIIEERAQRLISRIKRYLDLRTKQPSEKRIAIIGYNYPPGEGHLFQASFLDTFESISRIATAMKDHGYTTEVFTGAELRERFLREGAVNSGVWTDERWSVELPTYDNKAYEQNNKVFANRKDELIQQWGEAPGNIMTTEEGAFKIPGLLNGNLFIGVQPSRGVHEHPEAAYHDKSLLPHHQYLAFYQYIRDEFKADAILHVGTHGTLEFLEGKESGMSGDCLPDALIQDLPHFYMYYVGNPSEAMIAKRRSHAALIGYQSPPFATSGLYGEYAGLEAMLHEYRETERLNPTRVPDIKKRIWDQAASLSMETDDLEELEIELYRIRRSVIPNGLHVVGEGYNHEEAAGHMKMILSHEQGMLGSLQRVFATSMAWDYDSLLENRDIERLQLLDECVGNAVLSFIHNETIPEPPQLPDEMKARWNDIWNHGLTAYHSTKADMELKNLLRALDGAYLPVSLAGDSVRNPEVLPSGNNLVQFDPRSIPSRTAAATGLKIAENTLKLYYEAHQKYPETTALVMWGLETSRTQGETLGQILAYLGVRIKERGHSMHMGYEIIPLSELNRPRINVVVHICGFFRDMFPDQLFMLHRIFKEVSELDEPMDQNGFKQHSELLYRQLRNAGAGHDEAWDLACARIYGPAEGEYGTSITKLIETKQWEEESQIGASFMSSLKHVYSSNYRGKEMLELYKANLEAVDIVSQIRSNHEHEITDLDHYYEFFGGLAKSVEIVKGSRAEMYITDTTREQALTEEVRKSIQRGVRTRLLNPKWMDGLLKHDYHGAQNIADRTENLLGLAATTNQVDSWIFSSVHKEYVADEQRSKQMRDNNRSAYHSMLETLLESHQRNYWNASEDELGMLRDRYLEIEGDLEGRNT	PGPT0009280_1148	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009280-cobN-K02230	NA	NA
AK002_02939	1293	mtnB_2		Methylthioribulose-1-phosphate dehydratase	ATGAATCAGGAATTTGTGCATCCGGCAGATCAGCTTCTTCTCTTTATCAATCGCATTTACAACCATGGGATGACAACCACGTCGGGAGGCAATTTGTCGATCAGGGACCATAACGGGGATATATGGATTACGCCAGCGGGAGTGGACAAAGGGTCGCTTAACCGGTCGGATATGGTATGCGTGAAGGAGGACGGCAGGGTAGAGGGAATTCACAAGCCTTCCAGCGAATTTCCCTTTCACCGGCTCATCTATCAAGCCCGCCCGGATTTGAAGTCGATCATTCATGCCCATCCGCCTGCACTGGTATCGTTCAGCATTGTAAGGCGCATTCCGGATACAAGGCTGCTTCCGAACGAAAGGCAAATCTGCGGCGAGATCGGAATCGCGCCTTATGCGCTTCCTGGAAGCGAGCAGCTCGGGGAGAACATTGCAGCCGTCTTCAAGCAAGGGATCGACACCGTCATGCTGGAGAATCACGGGGTCGTGGTCGGGGGAGAGGACCTATTTCAAGCGTTTCGTCGGTTCGAAACCCTCGACTTCTGTGCACGCCTAGAGATTGAGGCGCGTCGAATCGGTAAACCGGTCCTGCTTACCGATGAGGATTACGAAACCGTGCGCAACAAAAGCACGCTGCAGATGGATACGTTCATCCGCGATTCCTGCACGTCGGAAGAAAAAGAGCTGCGCCGCGATTTGTGCGGATTGATGAAACGCGCGTATAAACAGGGATTGTTCACGAGCACGCAGGGCACCTTCTCCCATCGATTGCAAGGAAACGATTTTGTCATCACGCCATATGGCAAAGACCGCAATCATCTGGAACCGGAGGACCTCGTCCGCATCGAGAACGGCAAGTCGGAAGCGGGCAAACAGCCGAGCAAATCCGTTTTCCTCCATGAAGCGATCTATAACACGCAGCCGCATGTCCATTCGGTCATCATCGCGCATCCTCCCAACATTATGGCATTTGCGGTCACCGACACGGCCTTCGATTCGAGGACGATTCCGGAAAGCTATATATTGCTTCGCGGAACGCCGAAGCTCCCCTTTCATGCGGTGTATAATGAGCCTGAGCGTACCGCTTCGCTGTTTAAAGCCAATACGCTGATTGCCATTGTGAACAATAACTGCGTAATCGTTGCCGGTCAAAGCCTGCTCAACGCTTTTGATCGATTGGAAGTTGCGGAGTACAGCGCGAAGTCCATTTTGTCGGCAAGAACGCTAGGCGATGTTATCCACATCGATGATGAACGGATCCGCGAGCTTGAAGCAGCATTTCATCTGGAATCATGA	MNQEFVHPADQLLLFINRIYNHGMTTTSGGNLSIRDHNGDIWITPAGVDKGSLNRSDMVCVKEDGRVEGIHKPSSEFPFHRLIYQARPDLKSIIHAHPPALVSFSIVRRIPDTRLLPNERQICGEIGIAPYALPGSEQLGENIAAVFKQGIDTVMLENHGVVVGGEDLFQAFRRFETLDFCARLEIEARRIGKPVLLTDEDYETVRNKSTLQMDTFIRDSCTSEEKELRRDLCGLMKRAYKQGLFTSTQGTFSHRLQGNDFVITPYGKDRNHLEPEDLVRIENGKSEAGKQPSKSVFLHEAIYNTQPHVHSVIIAHPPNIMAFAVTDTAFDSRTIPESYILLRGTPKLPFHAVYNEPERTASLFKANTLIAIVNNNCVIVAGQSLLNAFDRLEVAEYSAKSILSARTLGDVIHIDDERIRELEAAFHLES	PGPT0017430_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628	NA	NA
AK002_02940	1989			hypothetical protein	ATGAAAGCACGGGGTATCCATTGGAAGCAGCCGTTTGCCCTAATTACCATGACGGCCATTCTACTTGCCTTATTCCCTTTTCCCCGCCTTACTTGGTCTGCAGAAGCTGCCTCTGCCTCTATCGTTGTTGACGGCGATCCGAGCGACTGGGAGGGCATTCCGGCCCTATCCACGAATACGGGAACGGCTCAAATCTTAAAGGCTTCCCATGACGACAAGAATCTTTATCTGCTTGTTCAGGGCTCCGGCCTTAGCACTACGATGGGAAGCTTCTGGTTGAATACGGACGGGAATGCTTCTACCGGATATCAAGCTTTTGGCTGGGGCACGACAGGCGTTGAGTGGCTTCTCGAGAACCAATCCTTATACCGCTACTCAGGCAATGGAAGCAGTTGGAGCTGGAATTTCTCATCGTCTCTGACTTCTTCTCAATACGTACGTTCCTCATCTGTGATTGAAGCAGCGATCCCTCTTTCTACGCTTGGACTTGGCGCAGGCAGCAGCGTGAGCATCGGCTATCTGGATAACAATTCGGATATGCACCGCCTGCCGGCACAGAACCAGCCGCTTCCGGTCTATACCTTACAAGCACATAATCCGGGAGGCCAAATGATCGAATTCTATCCAACCGAGCTGAATGATCCGCTGAATAACCCGTTTAAAGGCTGGGCTCCATCCGCAAAATCTACCAATTACCCTCAACCTCACCGACTGGTATATGCCGGCGTGACTTGGAAGGAGTTTGAGCCGACGAAGGGCAATTATGATTTCAGCGCGATTGAAGCCTCCAATCATTTCGACTATTGGAAAAGCCGCGGCGTCAAGGTAATCCTTCGCTTTATTCTGGACAGTCCTTCCGGCGTGGCTCACCGGGATATCCCGGATTGGCTGTACAACGACATGGCAAGCCTGGGACAATCGCCGGGCAAGGCCTATCGCGACGATACTGGAGGCATGGGAGCCGGCAACAACACGGGCTTCTCTCCTAATTACAGTTCCGACTATCTGATCGCCAGGCACAAACTTGCAATCGAGGCGATTGCGGACCATTACGACTCCCCGGATAGCCCGATCGCTTTTGTGCAAATCGGTTCGCTCGGACATTGGGCGGAATTCCATACCTGGCCTTATGTCGGACCGAACGGGGAAAGCAACTATACGGGGGCATTCCCTCCGAACAGCATATCCAACCAATATATCCAGCATTATATCGATGCCTTTGCCGATCAGGAGGATTACACGCAGCTATTGATTAGACGCAGCGTAGAGCTTGCCAAGAATAACAACAAGGGTTTGATTCTGGGAATGTACAATGACGTCTTCGGCGATCAGCCGAGCTTCGATTCCGATTGGGGCTGGTATACAGGCACCCAGAACGGATATTGGGATGACATCGGCCAGCAGCAACCCGCACATGCAAACTTTTGGGATACGCGCGTCTCCGGCGGCGAATTCTATGGCGGTGCTTATGGCATGAATGCTGCGCTTACGTCAGGCAGCGGCTTCAATGAGACCCTTCGGCAAACCGAGCTCAGCAAGCCAAGCTGGCTGGGACCGAATTCTCCGGCTTCCCTGGCGGTGGGGAATCCATTGCAAGGCAACATCGATACGCTCAAGAAACGAATGGGTTATCACTTTGTCGTGAACAAGGCTGGATACCCGCAAGAAAATAGCGGAAGCACGCTCGAGGTATCCGTCACGGTGGAGAATAAGGGGGTTCAACACTTCCCGTTCAATTGGCCTCTTGAAATCCAGCTGCGCAGCGGCGGCCAGATCGTGGCACGCCAAACCACATCGGCGGACTTAACGACCTGGAGAACAGGGCAGCACACGGTCACAGGCTCTCTTCCTACGAATACACTGCCGAGCGGTACTTATGAATTAGCCATAGCGATTCTCGATCCATCGACGAACCAGCCGGCCGTTGATTTCGCTAACACAAACCGGCTTTCAGACGGAGCATATAAGATCGGTTCATGGACCAAATAG	MKARGIHWKQPFALITMTAILLALFPFPRLTWSAEAASASIVVDGDPSDWEGIPALSTNTGTAQILKASHDDKNLYLLVQGSGLSTTMGSFWLNTDGNASTGYQAFGWGTTGVEWLLENQSLYRYSGNGSSWSWNFSSSLTSSQYVRSSSVIEAAIPLSTLGLGAGSSVSIGYLDNNSDMHRLPAQNQPLPVYTLQAHNPGGQMIEFYPTELNDPLNNPFKGWAPSAKSTNYPQPHRLVYAGVTWKEFEPTKGNYDFSAIEASNHFDYWKSRGVKVILRFILDSPSGVAHRDIPDWLYNDMASLGQSPGKAYRDDTGGMGAGNNTGFSPNYSSDYLIARHKLAIEAIADHYDSPDSPIAFVQIGSLGHWAEFHTWPYVGPNGESNYTGAFPPNSISNQYIQHYIDAFADQEDYTQLLIRRSVELAKNNNKGLILGMYNDVFGDQPSFDSDWGWYTGTQNGYWDDIGQQQPAHANFWDTRVSGGEFYGGAYGMNAALTSGSGFNETLRQTELSKPSWLGPNSPASLAVGNPLQGNIDTLKKRMGYHFVVNKAGYPQENSGSTLEVSVTVENKGVQHFPFNWPLEIQLRSGGQIVARQTTSADLTTWRTGQHTVTGSLPTNTLPSGTYELAIAILDPSTNQPAVDFANTNRLSDGAYKIGSWTK				NA	NA	NA	NA	NA
AK002_02941	1023	melR_1	COG1609	HTH-type transcriptional repressor MelR	ATGAGTACGATTCGGGATGTTGCTAAACTTGCAAATGTATCCACAGCCACCGTGTCCAGAGTGTTAAACAATGATACGAAGTATAAAATCACGGACGAAACCCGGGAAAGGGTTTGGCAAGCCGTTACGCAGCTCAACTATAAAATCGCATCAGGGCCCAAGCGCAAGGTTTCTGCTCAGGATCCGGCCGAAAGCAAATCGCATATCAAAATCGGATGCGTCTTAAGCGTCACCAAGGATAAATACAACGATCCCTACTTCATGTCGATCTTATCCGGCGTGGAAGAACGCTTGCTTGGTGCCGGTTACAACATGTCCTTTATCCGGACGGGAATTGAATTGAACGACAGCAAGATCCTGTTTAATACATTTAGCGAACCGATTACCGGCCTCATTCTCATGGAATCGCTCGATCATGAGACCTACGAATATATTCGCAAGCAGGTCCCGTACATCGTAGGTATCGATACGGAACGCGGGGATATCGACAATGTCGGCTACGATCATTACAATGTCGCTTCGATGGCCGTCAGCCATCTCATTGAAAAAGGCCATACCCGAATCGGATATATCGGGGGAAGCGGATTATCGAGCAATCTCAAAGACAGCCGCCGTTATCGGGGCTACTACGCAACCATGCATGCTGCCGGATTGTCGGTCAATCCCGATTGGGTGATTGATTGCATGTGGGATGAGGCGGTCTGCATCGAAAAAATCAATCATCTATGTACAACCCGAAATTTCCCGACTGCCTTCTTTGCCGGCAGCGATTTAATGGCTATGGCCGCCCTCAACGGCCTGTATAACAACGGTATTTCCGTTCCTGACGAAGTAGCGGTTATTGGGCTATCCAACATTGAGGTATCCAAGTATTCCAATCCGCCGCTGTCTACGATCGATGTGCCGATGAAAGAAATCGGCATGGTAGCTGTCGATAACTTAATCGACCGAATCAACGGAAACAAGCTGCTGCCCAAAAAGGTGATTTTGCCTACCCGCTTGGTGGCACGCAGCTCAACTTAA	MSTIRDVAKLANVSTATVSRVLNNDTKYKITDETRERVWQAVTQLNYKIASGPKRKVSAQDPAESKSHIKIGCVLSVTKDKYNDPYFMSILSGVEERLLGAGYNMSFIRTGIELNDSKILFNTFSEPITGLILMESLDHETYEYIRKQVPYIVGIDTERGDIDNVGYDHYNVASMAVSHLIEKGHTRIGYIGGSGLSSNLKDSRRYRGYYATMHAAGLSVNPDWVIDCMWDEAVCIEKINHLCTTRNFPTAFFAGSDLMAMAALNGLYNNGISVPDEVAVIGLSNIEVSKYSNPPLSTIDVPMKEIGMVAVDNLIDRINGNKLLPKKVILPTRLVARSST	PGPT0017992_8285	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
AK002_02942	1365			hypothetical protein	ATGAACAAGAGAGTAACGGTTTACCCAATGATATCGGATGAAATGTTGACCAATCCGGGCATCGGCTTTACCACGGCGCCGGGCTTGATGGGAGATCCGGAACGGATTGTTGATAACCGGGGGGAAGCGCAGCGCAAGTATAAGTTTGCGGAAGACAGCAGGACGTACAATCATCCGGACAGCAAAGTATTTTTCTGCAGCGTTCGTTGGCGTGACATCGAAACGGATAAAGGGAGTTACGACTGGAGCGTACTGGAGGAAAAGCTGGATTACGCCAAATCATTAGGCTGTACTGCCGTGGTGCGCTGTTCGCCGTACGCATTAAGCGAAGAGGATGATATCCCGTCTTGGTTCCGGGCCGAATATCCGGAAGAGCCCGAGTTTCCGTTCTGGAGAGTAGACCCTCTGACTACACCCTATGCCGAGCATTGGTCTGATTTCATCAAGGCGTTTGCCGTCCGCTTTGACGGCCATCCGCTTATCAGCTCGATCGATTTGACCATAGTCGGAGCCTGGGGGGAAGGCGGCGGAACCGAATTTCTGACGACTGACGCGATTAAGCAGATAACGGATGCTTACTTGGACGGTTTTAAAATAACGCCTCTCCAGGCACTGCTGCATGATCCGCTGTCGATCCGGATCATAAATGAACGCAAAGCCAAAGTCGGATTTCGCGTGGATTGTTTGGGGGATATGGGCGGCTTTCATGGCGATCAATGGTCGCATATGACCGATTTCTATCCGCAAAATATTCAAAATTTTGAGATGGGCGATGCCTGGGAGAAAGCGCCGATCCTGTTCGAAGCATGCTGGCATATGAATGACTGGTATCTGCAGGGCTGGGATATCGACTATATCATACAGGAAACGCTCAAGTGGCATATTTCATCCTTTAACAACAAAGGGACGGTAGTGCCGGAACCCTGGAGAGAGAAGGTCAAGGCTTGGATTAACAAGATGGGCTACCGCTTCGAATTAAGGAAATTCGCGTACGATTCGATAGCGGACGTTGGCGGAGAGCTAAACATCGAAGCGTTGTGGGCTAATGTCGGCGTCGCTCCGATTTATCATCGTTATCCGCTGGCGGTGAGGTTAACCGGCCAATGTCGATCGTATACGCTTCATAGCAGTGAAGACATCAGGGAATGGCTCCCGGATGAGGATATTGCTTGGATAGAAAGGTTTTCGCTTCCTAACGATATGCCGGCGGGCGAGTATATGCTGGAAATTGGCATCGAAACCGGCGTGAAGGAAATCGGGAATATCCAGCTGGCAATCACGGGATATCAAGACGGCTTTTACCCGATGGGTAAGCTATTCGTCGAAAGGGGGAGGCAGGCTAATGGAAAGGCCGATGAATTATAA	MNKRVTVYPMISDEMLTNPGIGFTTAPGLMGDPERIVDNRGEAQRKYKFAEDSRTYNHPDSKVFFCSVRWRDIETDKGSYDWSVLEEKLDYAKSLGCTAVVRCSPYALSEEDDIPSWFRAEYPEEPEFPFWRVDPLTTPYAEHWSDFIKAFAVRFDGHPLISSIDLTIVGAWGEGGGTEFLTTDAIKQITDAYLDGFKITPLQALLHDPLSIRIINERKAKVGFRVDCLGDMGGFHGDQWSHMTDFYPQNIQNFEMGDAWEKAPILFEACWHMNDWYLQGWDIDYIIQETLKWHISSFNNKGTVVPEPWREKVKAWINKMGYRFELRKFAYDSIADVGGELNIEALWANVGVAPIYHRYPLAVRLTGQCRSYTLHSSEDIREWLPDEDIAWIERFSLPNDMPAGEYMLEIGIETGVKEIGNIQLAITGYQDGFYPMGKLFVERGRQANGKADEL				NA	NA	NA	NA	NA
AK002_02943	1326			hypothetical protein	ATGGAAAGGCCGATGAATTATAAAGAAGTAACAGCGATCTGTGATTTTGATTATCTGCCTGATGGATTGGAAGCTAAATATGATCGCTATCTACCGGATGGCGAGCCCTATCTCATACCAAGGGGCTTCTTGAATGGAATCTTTGAGCGATATCAGACTCCCGAGGAGACTCGGCAATGGATTGAACAGGGGATTTTAGCGATAGAGGAAGACGCCGTATTGTTTCATTTTACCAAATTTTTGGTGGAGGATCTGTGCTCGGCGCGCAATCGCTGTGATGAAGCCCATTATACCAATATGACGCCCGCATGCATGAAGAAGTACGGCGAATTATATTCGTTTTTGTTGCTGCTCGCCTGCGTGGTGCCCTCCATGAAGATGCTGGAGAAGCGTTCCGTACCCCTAACCTATTATGAGGACATTCCGCATCAACCGCTGAAGCTGCAAATGGAAAAATTGGCACTGCAGGGCGATGCCAAGGTTCATGATTTCCCGTGGGTGATGAATTTCTATACCTGCTCCATCTTTCTGTTGGACCGCTTCTATTTTATTCCGTACCGATTCGAGGATTCCTTCACCATGTTCCGCCATAGGAATACGCAGGAAGTGCTTGCCCTTCGCCATCCCGGAGAGGATTTCCGCAGCGATGGACAGCAGAACGGAATCAACGATGTTTATGATTCGCAAGGCCGCTTCACATCGGAATGGCAGGAGAATGCCGAATTCATTATAGCGAATCGGATCAATCCCATGGGATTCGTCGAAAGAGAAACGACACCGATCTTAAAGAAGGACTGGGATACCGTGCTTCAAAAAGGGGATACCCTGTTGGCGCTTCACATTCCTTCCGGGCCCGGGTACACGCCGGACAGGCTGAGGAATTCCATGGCGATGGCCATCGAGTTCTATGATCGATATTTTCCGGAATTGCCCATCAGAGGCTTCTGGAGTTCAAGCTGGCTTTATGATACCAGGCTCTCGCTCGTTTTGGACAATGAAAAAAGCAATATCGTCCACGTTCAACGGCAGTTTTATAATTATCCCACCGATGAAGGGGACGGCATGCTGCGCTATGAAGTCTTTGGAGACCGGAATGCTGATCCGGCGTTGAACACCGGCGAATATCCGACCTCGCTGCAAAGAGCGGCAGCTGAGTATATGCGGACCGGGGCCAGATTCAATACGTTAAGCATGATCGTGCTGACGGAAGATATCAGCCGGATTGGCAGCATGCCTTATATAACCGACGCAGATATAGAGTTGTTCCGCGGAACCGTTGACAGCCATTTACAAAGGAGCGAAGAGGATGGGGAAATATTCGCTTGA	MERPMNYKEVTAICDFDYLPDGLEAKYDRYLPDGEPYLIPRGFLNGIFERYQTPEETRQWIEQGILAIEEDAVLFHFTKFLVEDLCSARNRCDEAHYTNMTPACMKKYGELYSFLLLLACVVPSMKMLEKRSVPLTYYEDIPHQPLKLQMEKLALQGDAKVHDFPWVMNFYTCSIFLLDRFYFIPYRFEDSFTMFRHRNTQEVLALRHPGEDFRSDGQQNGINDVYDSQGRFTSEWQENAEFIIANRINPMGFVERETTPILKKDWDTVLQKGDTLLALHIPSGPGYTPDRLRNSMAMAIEFYDRYFPELPIRGFWSSSWLYDTRLSLVLDNEKSNIVHVQRQFYNYPTDEGDGMLRYEVFGDRNADPALNTGEYPTSLQRAAAEYMRTGARFNTLSMIVLTEDISRIGSMPYITDADIELFRGTVDSHLQRSEEDGEIFA				NA	NA	NA	NA	NA
AK002_02944	1092			hypothetical protein	ATGGGGAAATATTCGCTTGAGAGCTACGAGAAATACAAAACCGTCAAAATCAGGCCGAAGCCCTTGTCGGTCAAGGAGTACGATACAAGCCACGGTCGATTCGAATACGCGGCTTTTTCATGGAAGGAACTAGAACCAGCGCGAGGAGAGTATAAGCTCGGAGGGATCGACAAGGTATTGAAAGCGATTACGAATCCTGTTCTTCTCCTGACGCCGGACCTGCCAGAATGGGCGAAGGATAACCACGAAGCATGTTATGCGGCATTGATTCGAAAAGTCGGCAGTATGATGGATTCGGATCAACGCCTTGCGGCCGTTTTGATCTCGACCTTGGCAAACAGCAAGGAAGAATGGAACGCCTATATCGATTCCTTTGGATCCCAGGTGCTGCTTGCAGATTTGCAGAATGAACCGCTGATTCAATATTTAAAGGAGCGCGGCCGCGGCTTTGGTTTGCTGGTGAAGTGCAGCGAGGAGAATTGGATCGAATGCTGCGAAGCCTTTGCCAAACATCATTTGCAGCGGGTATGGAAGAGTTACCCGGTGTTCCTCCATGTGACCGATGAAGCTGGCGGTTCCCATATCAGACGGGAGGCCTTTCGCTGGCATGCCGGGATGTCCAACGTAAGCCTAGGGCTTGGTTACAACCTTGCTTTACGTCGGCTAACCTACCCGGAAACGGTGTCCGGCAGCGGGAGCCTGCCGCTGCGATTCTGGTTCGTAAACTCGGGAAGCTCAAGAATCTATCGGGAATTTCAGCTGCGGCTGCAGCTAAAGCAGGAAGACGTGTCCTATGAATTTCCGCTGCACGCGGCCACGCATTCCTGGTTAACCGGCGACCTTGTCCATAACGAGATCGTACACTTGCAGGACATCGCGGCGGGAACCTATTCGCTTGGCATAGCGCTCTGCTTCGAAGACCGTTCTTCACTGACGCTGAATATACAGAACCGGCAACTGGATGGTTTTTATGAGATGGGTACGATACAAGTCGAAGCCGCCCGCGAGGATTCGCTCAAGAATATATGGGACACCTATTATCCGGAAGGATATTATCCCCTGGAAGATCCCCAGATGCCGGGACAAGAATAA	MGKYSLESYEKYKTVKIRPKPLSVKEYDTSHGRFEYAAFSWKELEPARGEYKLGGIDKVLKAITNPVLLLTPDLPEWAKDNHEACYAALIRKVGSMMDSDQRLAAVLISTLANSKEEWNAYIDSFGSQVLLADLQNEPLIQYLKERGRGFGLLVKCSEENWIECCEAFAKHHLQRVWKSYPVFLHVTDEAGGSHIRREAFRWHAGMSNVSLGLGYNLALRRLTYPETVSGSGSLPLRFWFVNSGSSRIYREFQLRLQLKQEDVSYEFPLHAATHSWLTGDLVHNEIVHLQDIAAGTYSLGIALCFEDRSSLTLNIQNRQLDGFYEMGTIQVEAAREDSLKNIWDTYYPEGYYPLEDPQMPGQE				NA	NA	NA	NA	NA
AK002_02945	1224	yteT_5	COG0673	Putative oxidoreductase YteT	ATGATCTATTCAAGGCACGCTTGCCAAAGCGAGGAAATTGTGGCGGTCATCGAGCCGGATGCCGGCAGAAGAAAGGCAGCGGCGGATGAGTTTCAGATTCCGTTGGAGAAACAATTTGCATCCGTGGATGCGTTTTATGCAATGGGGAAAATTTGCGATGCCGTCATCATCTCTTCCATGGACAAGGACCATTACGAGCAAACGATGATGGCGCTTGATCTTGGCTATGATATTTTGCTTGAGAAGCCCATTTCACCAAGTCCGGTAGAATGCATGAGAATTCAGGAGAAAGCTAATGAAAAAGGCCGTAAGGTGATTGTATGCCATGTGCTCAGATATACGAACTTCTTTGCGGAAATTAAGAAAATCATCGATAGCAATGAACTCGGGAAAATCGTGACCATACAGCACAACGAGAACATCGGCAATTTCCATATGGCACATTCCTTCGTAAGAGGCAATTGGAGAAGAAGCGATCTGGCGAGCCCGATCATCATGCAGAAATCCTGTCATGACATGGATATTCTATCCTGGCTTGTGGACAGCGGGGCGAAACGTATCTCATCGTATGGGAGCCTTACGTATTTCAAAGAGGAGAATGCACCGGCAGGCAGTGCGGAACGATGCCTCGATTGTAAGGCAGCCGCGAACTGCCGATTCGACGCAAGAAAAGCCTATTTGCCGATCAGGGGCCAATGGCCCGCTACCGTCATTTCGGCGGATCAGAGCGAAGAGGGACTGCTCCAAGCGCTAGCAACGAGTCCTTACGGACGCTGCGTATATCGGCTTGACAATGATGTATGCGACCATCAAGTCACCCTGATCGAGTTCAAAAACGGGGTAACGGCAACGTTTAATTTAAGCGGATTCACCAACAAAATGTACCGTACGCTCAAAATCATGTGCGAGCATGGGGAAATCCGAGGCGACGATAACTTGAACATTATCGAAGTCACCCGCTTTAACTCCAATATGGCAGAACCCGTACACCAAACCGTCATTCGGCCGGCAACGGTGAGCGGCGGACATAACGGCGGCGATACCGGTCTGATGAATGATTTCTTGGAGAATCTGGGGAATGCCGACTTCAGCAGCAGATCCTCCATCGACATGTCCGTTGAAAGCCATATGATGGCCTATGCCGCGGAAGAGGCGAGAATTACCGGTACCGTGATCGATCTGGATGAACTAAAGATGAAGCTGCAGCAAGGCATTACAGCATAG	MIYSRHACQSEEIVAVIEPDAGRRKAAADEFQIPLEKQFASVDAFYAMGKICDAVIISSMDKDHYEQTMMALDLGYDILLEKPISPSPVECMRIQEKANEKGRKVIVCHVLRYTNFFAEIKKIIDSNELGKIVTIQHNENIGNFHMAHSFVRGNWRRSDLASPIIMQKSCHDMDILSWLVDSGAKRISSYGSLTYFKEENAPAGSAERCLDCKAAANCRFDARKAYLPIRGQWPATVISADQSEEGLLQALATSPYGRCVYRLDNDVCDHQVTLIEFKNGVTATFNLSGFTNKMYRTLKIMCEHGEIRGDDNLNIIEVTRFNSNMAEPVHQTVIRPATVSGGHNGGDTGLMNDFLENLGNADFSSRSSIDMSVESHMMAYAAEEARITGTVIDLDELKMKLQQGITA				NA	NA	NA	NA	NA
AK002_02946	867	yteP_28	COG4209	putative multiple-sugar transport system permease YteP	ATGTGCGTACCCGCGCTGATCGTGCTGATCATGTTCTCCTATATCCCGTTTGCCGGGATATGGATGGCGTTTACCGACTTCAATGTGGTCGACGGCATCTTCGGCAGCAAATTTGTGGGTCTGGACAACTTCAAATACTTTTTTTCGGAAAACAGCATGGGATGGAAGGTTACCTATAACACGCTGTACATCAACTTTTTCGGTCTCATCTTAGGCATTATCATTCCTGTTAGCATTGCCATTCTGATCAATGAAATCCGGCATAAAGCCTACAAAAAGATCGCGCAAAGCATGATGTTTTTTCCCTATTTCATATCCTGGGTTGTCGTCGGTGCGATTCTGTACGGAATCTTCTCCACGGATGTGGGCGTGGCGAATCATATTTTGAAGTTCTTCGGTGCAGAGCCGATCTCCTGGTACTCGGAGCCAAAGTATTGGAAGTGGATCATCATTCTGTCGAGCGTCTGGAAATGGAGCGGTTACAGTTCCATTGTCTACATGGCGGCGATGTCCAATTTTGACGGGAGCTTATACGAAGCGGCCAAGGTGGATGGCGCTAACAAATTGCAGCAAATTCTTTACTTGACCGTGCCCATGCTGAAGCCAACGATCATCGTTTTGAGCTTGCTGAGTGTCGGACGAATCTTCTACGGGGACTTTGGGATGATTTACGGTATCGTTGGCAACAACCCGGTCCTGGCTGAAGAAGTAACGGTCATCGATACCTACGTTTATCAGTCGATGCGTACGCTGGGCTTTTCTTACTCGACGGCCATCGGGCTATTCCAGTCATTGATGGGCTTGATCCTGATTACGGCTGCTAACAAATCCGCTAAGAAAATAAACGACGGAGAGGGTCTATTTTGA	MCVPALIVLIMFSYIPFAGIWMAFTDFNVVDGIFGSKFVGLDNFKYFFSENSMGWKVTYNTLYINFFGLILGIIIPVSIAILINEIRHKAYKKIAQSMMFFPYFISWVVVGAILYGIFSTDVGVANHILKFFGAEPISWYSEPKYWKWIIILSSVWKWSGYSSIVYMAAMSNFDGSLYEAAKVDGANKLQQILYLTVPMLKPTIIVLSLLSVGRIFYGDFGMIYGIVGNNPVLAEEVTVIDTYVYQSMRTLGFSYSTAIGLFQSLMGLILITAANKSAKKINDGEGLF	PGPT0017250_2058	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_02947	897	araQ_32	COG0395	L-arabinose transport system permease protein AraQ	ATGATGGAAAAGAATAGATTGCTTGGCGATAAATTGGTGATAGGCTTTGCCTATGCATTCATTGGCTTATTCGCACTCGTTTGTCTGTATCCTCTTGTATTAACGTTAAGCGTGTCCTTTTCTTCGGAACAGGCCGTTGCGAGAAACGGATATTCGATCATCCCTCTGAGCCCCAGCTTGGATACATATAAATATATCTTTGTTAATAGTGGAATGAAACTGCTCAAATCCTACGGCGTTACCCTATTTGTAACCACTGTGGGGACGTTCGGGGCTCTGTTGATTACCAGCATGATTGCATTTTCCCTATCTATCAAAAAGCTGAAATACCGCAACGTGCTCGCTTTCATTAGCAACTTTACGATCATCTTTTCGGCCGGCTTGATACCGTGGTACATGGTCAGCGTCAATTATTACGGGTTGAAGAACAGCATTCTGGCTTTGATCCTGCCGTCCATATTCAGCGTATGGAACATGTTTCTGATGCGAACGTACTTTGCAAGCATTTCTCCATCTTTATATGAAGCGGCCGAGATGGACGGCGCCAATTATTTTACGATCTATGTCAAAATAGCCCTTCCGTTAAGCAAAACCGCACTGCTGACGGTAGGTTTAATGTATGCGCTTCAATATTGGAATGATTGGTGGCATGCGCTGATCTTCATTAACGAACGCGATTTGTTTCCGCTGCAGTATTTCCTCTACAACATTCTGTCGAACGTCAATGCGATAAGTTCCGGACGAATTCCGTCAGGGGCATCAGGCAACATCACATTGCCTGCCGAAACCGTGAAGATGGCCATTACGGTCATCACGATCGGTCCGATCATTTTCCTGTATCCTTACATTCAAAAATACTTCGTGCACGGGATTATGGCCGGAGCGGTAAAAGAATAG	MMEKNRLLGDKLVIGFAYAFIGLFALVCLYPLVLTLSVSFSSEQAVARNGYSIIPLSPSLDTYKYIFVNSGMKLLKSYGVTLFVTTVGTFGALLITSMIAFSLSIKKLKYRNVLAFISNFTIIFSAGLIPWYMVSVNYYGLKNSILALILPSIFSVWNMFLMRTYFASISPSLYEAAEMDGANYFTIYVKIALPLSKTALLTVGLMYALQYWNDWWHALIFINERDLFPLQYFLYNILSNVNAISSGRIPSGASGNITLPAETVKMAITVITIGPIIFLYPYIQKYFVHGIMAGAVKE	PGPT0017255_1252	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_02948	1458			hypothetical protein	ATGAAAGCAAAAAAAATGCTGATCTTGTTGGTTTTATTGATCGCATCCGTTTCGGTAATGGCAGGATGCAGCGGCAAAAAAGAGGGGGCAGCCGCGCTCGAAACCGTCACGATTTTGTATCCGGGGGAACGAAGCGATCGCATGAACGAATTTTTAAACAATGAATTCGCAGAGAAAATGGCTGCCGATCTCGGTCTAAAGGTCGAAGTCATATATGTGCCGTGGGCCCAGTATTGGGAACAGAAAGATATCATGCTGGCCGCAAACGAACCGATCGATTTATATTGGGATGGTCTTCCGGATCTTTCTACGATCGTCAACAAGAAACAAGCCATGGTTCTGGATGATTTAATCCAGGAATATGGTCAGGATATGTTGAAAGTTTTGCCGATGGAACAGCTTCAAGGCGCAACCATCGATGGGAAAATTCACGGCATTCCGTCGGCCTATGCACCGTCCTCGGCCATGTACCAGCTGGTTGCCGTCCGCCAGGATATTCTGGAAGCCGTGGGGATGACCGACGTGAAGACACCCGACGATTTAAAAGAATTCGCAACCAAGGCGAAAGAGAAGTTTCCTGAAATGAAAGGTCCCGCCGACATTATCTTTAAACCGTTGACTCGATACTTTACCGATGAACAATATAACTGGATCGCCGTCGAAGATTTGGTTGTATTCGGGGAAGACAGCAAGAAAGCATACAGCTATTATGAAACGGAAGCATTCCAGGAAGTGGCGAAATTTAACCGGGGAATGTATGAAGCAGGATTATACACAGAGGATTTGACCATCAAGTACAACGAGAGAGACTCCCGCATGCAGACCGGCCTATATTTATGGGTGGAAGGATCTCTGGGCAAGGAAATGGAAATCGTCGATGCCATCAAAGCCAATGCCCCGGATGCCGAGGTTAAGACCTACCTGCTAGCCGAGGATAAGCCGCGTTATGTAACCGCCACAGGCGGGGAAGTTCTGGGCATTCCAGTCAATGCTCCGAATCCGGAAGGAGCCATGAGGTTTGTGAACTGGATTTATAAATCCAAGGAAAATTACCAGTTTGCTCTCTATGGCGTCGAAGGCAAGGACTACGAGATCGTGGACGGAAGAATCAATAAGCTCACCCCGAGCGAATTCTTCTATGAATGGATGTTTAGAAACCAGAATTACCAATTGTTCGGGCCGAACGTGGCCCAGGAATCCATCGATCAATATAAGAGCTGGGATGATCAGGCTGTTCGATCCGAATCCTTGGGATTCCGATTCAATAACGAAAAGGTTAAGTTGATCGAGACATCCTTGAAAGAAGTCGCAGGCAAAGATCTAGCTGCGATCCGTTCCGGATTTGTCGATTTTGAGACAGAGTATCCCAAAGCCATCCAGAAGCTGAAGGCGGCTGGGATTGACGAGTATGTCGCCGAGATACAGCGTCAGCTGGATGAATTCTTGGCAGGCAAATAA	MKAKKMLILLVLLIASVSVMAGCSGKKEGAAALETVTILYPGERSDRMNEFLNNEFAEKMAADLGLKVEVIYVPWAQYWEQKDIMLAANEPIDLYWDGLPDLSTIVNKKQAMVLDDLIQEYGQDMLKVLPMEQLQGATIDGKIHGIPSAYAPSSAMYQLVAVRQDILEAVGMTDVKTPDDLKEFATKAKEKFPEMKGPADIIFKPLTRYFTDEQYNWIAVEDLVVFGEDSKKAYSYYETEAFQEVAKFNRGMYEAGLYTEDLTIKYNERDSRMQTGLYLWVEGSLGKEMEIVDAIKANAPDAEVKTYLLAEDKPRYVTATGGEVLGIPVNAPNPEGAMRFVNWIYKSKENYQFALYGVEGKDYEIVDGRINKLTPSEFFYEWMFRNQNYQLFGPNVAQESIDQYKSWDDQAVRSESLGFRFNNEKVKLIETSLKEVAGKDLAAIRSGFVDFETEYPKAIQKLKAAGIDEYVAEIQRQLDEFLAGK	PGPT0017245_3336	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_02949	483			hypothetical protein	ATGAACATACACGCTTCTATGAATCATAAGCCTGTCATTGTATCGGCTAATTACGGGGAGGTCGACGGGCGGTTTGCCGGCGCCACAGATGTTAGGGCGTTATCCCTCGGACTGTCTCAAGGTAATGAGGAAGGCCAGGCAAATGTTGCCGCGAGAGTATGGAGAGATGCGGACGGGCATGCAACCGAACAATCGTTAGAGCTTCCGATTCATCGCATTCTGGATTTGTCTATTCTCGTTTGCAGCGCACTGGCGCATTTTAGCGAAGCCTATCGATACGAGCAGCTCTATGATCCGCAGAATCCCGTGATCGACCGGATCGGACTGCAGGGAAGCGCCATGACGGTAGCCGTATGCACGGACAATGAACAGATCCATGAGGATATCAGGCTGTTCAACGGGGCTTTGAGCGATAACGGCGAGATGATTGGTGAAAGGCTGCGGACATTAACCAGAGCGTTGAAAGAATTGGGGTACGAATAA	MNIHASMNHKPVIVSANYGEVDGRFAGATDVRALSLGLSQGNEEGQANVAARVWRDADGHATEQSLELPIHRILDLSILVCSALAHFSEAYRYEQLYDPQNPVIDRIGLQGSAMTVAVCTDNEQIHEDIRLFNGALSDNGEMIGERLRTLTRALKELGYE				NA	NA	NA	NA	NA
AK002_02950	2220			hypothetical protein	ATGCAAGAACAGAATGACAATGAATATTACGTGCTGTCTCCCGGGAGAGCATTGACCGAAGAAGAAAAGAGCCTTATCTGGACAAAATCGTTAACGCATAAAGTAAGTGAGGAAGAACGGCGAATCTCGAATGAAATTAAGCGGAATTGGGATCGGGGCGAGATGAAAATCGCCAATGTTTTGTTAGAAGGCGATGCCGGATCCGGAAAGACGCAGCTCGCCAAAGCTTTGTCCGCGAACTTCAGGCTCCCTTACACCAAAGTCACATGTTTTGCCGATATGGATAAATCGGATATTATCGGAGCCATTTTACCGGTCATTACTTCCGATCAAATGGAGCACTTGGAACCTGCCGATCAGGCCGCCTTGAAAGCCTTATACGAAAATGACGGCTTCCAATGCTCGACGGAGATTCTAATGGAGGCTTTAGGAATTTCGCGGGAGCATGCTTCAGCCAAGATGAAGCATGTATTGAAGCTGGCCGCGAATGCCGCAGAGAATAAGGCGGTAGAATATCGATTTTACGCTTCCGAGATCGTCAGAGCCTTTCAGAAAGGCTATCTGCTGGAAATACAGGAACCGAACGTGATACGTGATGCTGCCGTATTAATGGCGCTGAATTCCGCGCTGGAGCCTGGCGGCACGCTGAATCTGCCGATGGGTATCGTGCACAGGCACCCGGATTTCATTGCGGTGATCACGGCCAACCGCAGTTATGCGGGATCCAGGCCGCTAAATGAAGCATTGCGAGACAGGATACAGCATTCGGAGAAAATGGATCTGCCTACCAAGGAGATGATGATGGAGCGCGCAAAGGCCAAAATCGGCTGCGGGGACGATGAAATGCTGGACATCCTCGCAAGGGTCATCATTCTGTTGGACAAAACAGCCCGGGCCAATGCCATTAAGGGGGTTGCCGGCATGCGTTCCTATTTCTATTGGGCGGATGCCGTGGCACAGGGGGCTTCTGCAAGAGAATCCCTTTATCACAAAGTGATCTACAAGATGACGACCGATCCGGAAGAAATCAAACTGCTGGAAGATACGCTGGTAGGCCAAGGCCTGTTGGGGTTATTGGACGAAATTCCGGTTGAACCCCCAAGCAAACGAAGAGAGGATGCCGTGGAGTTCACAACCTGGGACATCGATATGGATGTTGACTCCAAGATGGATCAGCAAGCCGGGGAAGAAGGGATCCGATTAAAAAAATCCGCTGAGAGCGAAGGCAGCACATCCGTTTCATCGGATGAATCAGCGGAGATGGAGAGCACGGATTCGGGCGAGGAGGGCACGCCGAATTATCACCAGGCTAATCCTGAGCCCATGTCGGAAGAGGAGAAGCAGGAGGAACGGGATTTCCGCAAAAAGCTGAATCGGATTTCCAGAGAAATCGTATCCGATTCCCTTCATCGGTCGGTAAAGCTGATCGTTCATCGTCCTGATTATGATCCGAACCTACAGGAGGAGTATGGGCGGTTAAGTCAGGGACTTATGCCGGTTATACGAGAAATCGCCAGAAAAACGCTGCCGCTCTTGGAGCACGAAATCACCGCGGAGTATGCCAAAAACCAATACTATGGATCAAAATTTCAGGCAGACAGCGTAGCCTACCGGGACTTCAGGTTATTTGCCAAGAAACGTCCTCCGACGGAATCCCCTGGTCTTGTGGTCGGACTGAGGGTCGATGAATCCGCATCGATGGCTGCGTTCGGCAGATTGGAGGCAGCCAAGCGTGCGGTCATCGCGGTCTATGAATTTTGTCAGATTTGCCATATTCCTGTTCTGATCTACGGCGATACGGCCGATGTGTCCCGCTTGGAGCAGATGTCGATCTTCGCTTATGCCGACTATGATCATCCGGATGTTCGCGATCGCTTCAGGCTGATGGGAATCCGCGCGAGAAGCAACAATCGGGATGGTATGGCATTAAGGATCATGGCGGAACGGCTGGCAGCTTCACCGAAGCAGACCAAGCTGTTAATCACCATCAGCGACGGGCAGCCTAAGGCGATGGAGGACTATACCGGAAGCCTTGCCATTCAAGACATGCAGCAGACCTTATCCGACTATGAAAGAAAAGGAGTCAAATTTCTGGCGGCCGCCATCGGGCAAGACAAGGATGTCATTAGCCGGATTTATGGAGCCGAGAGGTTTCTGGATATTACCAACCTGAATGAGCTGCCCGCAAAATTAGTGCGCATCATTTCTCGGTATTTATAA	MQEQNDNEYYVLSPGRALTEEEKSLIWTKSLTHKVSEEERRISNEIKRNWDRGEMKIANVLLEGDAGSGKTQLAKALSANFRLPYTKVTCFADMDKSDIIGAILPVITSDQMEHLEPADQAALKALYENDGFQCSTEILMEALGISREHASAKMKHVLKLAANAAENKAVEYRFYASEIVRAFQKGYLLEIQEPNVIRDAAVLMALNSALEPGGTLNLPMGIVHRHPDFIAVITANRSYAGSRPLNEALRDRIQHSEKMDLPTKEMMMERAKAKIGCGDDEMLDILARVIILLDKTARANAIKGVAGMRSYFYWADAVAQGASARESLYHKVIYKMTTDPEEIKLLEDTLVGQGLLGLLDEIPVEPPSKRREDAVEFTTWDIDMDVDSKMDQQAGEEGIRLKKSAESEGSTSVSSDESAEMESTDSGEEGTPNYHQANPEPMSEEEKQEERDFRKKLNRISREIVSDSLHRSVKLIVHRPDYDPNLQEEYGRLSQGLMPVIREIARKTLPLLEHEITAEYAKNQYYGSKFQADSVAYRDFRLFAKKRPPTESPGLVVGLRVDESASMAAFGRLEAAKRAVIAVYEFCQICHIPVLIYGDTADVSRLEQMSIFAYADYDHPDVRDRFRLMGIRARSNNRDGMALRIMAERLAASPKQTKLLITISDGQPKAMEDYTGSLAIQDMQQTLSDYERKGVKFLAAAIGQDKDVISRIYGAERFLDITNLNELPAKLVRIISRYL				NA	NA	NA	NA	NA
AK002_02951	1140	yhhT_2	COG0628	Putative transport protein YhhT	ATGGAGCAACCTCGCATTTGGCCGGATCGGTTCAAGCGCTTTTTTCTAAACAATAAGTTTGTTCTGCTTTTGCTTGTTCTGTTGCTGGTCGGTTTAAACGTCATGGTATTAAGCAAAATCTCGTTTGTGCTGCATCCGATCGCGGTTCTGATCAAGACGATCGTGCTGCCGATCATTTTATCCGGAATCCTGTATTATTTGCTGAATCCCTTGGTGGATATGATGGAAAAAAGGAAAATCAAGCGCGGATGGTCCATCCTGATATTATATCTGTTGATTGCCGGAATTTTGACGGTTGTGGTGCTGGCGGTCATTCCGGTGCTCCGCACCCAGATTATGAGTCTGATTGACAATTTCCCGACGTACAGCGAGAAGGTCAGGCAGCAGTTTGAAGAGCTGACCGGCAGCCAGTTGTACAGTCAGCTGCAGGAGGCCGTGAACATCAACTCCCAGGAATGGTGGGGCACGATAACGCAGAAAGCAACCGAAATCCTGAACTCGACATGGAGCAAGGTAGGCGGTTTCCTTGGCGCGTTTACGGAGATTGTGTTGTCGATCATTACGGTTCCTTTTGTCCTGTTCTATATGCTGAAAGACGGCAAAAAGCTTCCTCAGAAAATCTTGTCGTTCCTGCCGAACCAGAGTCGTTCGGGGATCCTGCATGTGCTTCAAGATATCAATCACCAGATCAGTTCGTTCATCCGCGGTCAGATTATTGTCAGTGTCTGCATCGGTATTCTGCTGTACATCGGGTACATGATCATCGGCCTGGATTACGCGCTTATTCTTGCCATTATCGCCTCGTTCACCAGCGTTGTCCCTTATTTGGGGCCTGCCATTGCGATCACGCCCGCGTTGATTGTGGCTCTGGTCACTTCTCCGGTGATGCTGCTGAAGATGGTGGCGGTATGGACGATCGTGCAGTTGATCGAGGGCAAATTCATCTCTCCGCAAATTATGGGCAAAACGCTCAAGATTCATCCGATTACGATTATCTTTGTCATACTGACTGCCGGTAATCTGTTCGGCGTGGTTGGCATTCTGTTGGCCGTTCCCGGCTACGCTGTTCTCAAGGTTTGCGTAACCCATATATTCGAATGGTTCAAGAACACATCGGGATTATACGATCCTCGAAAATAA	MEQPRIWPDRFKRFFLNNKFVLLLLVLLLVGLNVMVLSKISFVLHPIAVLIKTIVLPIILSGILYYLLNPLVDMMEKRKIKRGWSILILYLLIAGILTVVVLAVIPVLRTQIMSLIDNFPTYSEKVRQQFEELTGSQLYSQLQEAVNINSQEWWGTITQKATEILNSTWSKVGGFLGAFTEIVLSIITVPFVLFYMLKDGKKLPQKILSFLPNQSRSGILHVLQDINHQISSFIRGQIIVSVCIGILLYIGYMIIGLDYALILAIIASFTSVVPYLGPAIAITPALIVALVTSPVMLLKMVAVWTIVQLIEGKFISPQIMGKTLKIHPITIIFVILTAGNLFGVVGILLAVPGYAVLKVCVTHIFEWFKNTSGLYDPRK				NA	NA	NA	NA	NA
AK002_02952	363	nsrR		HTH-type transcriptional repressor NsrR	TTGTCCAAAATCATGTCCAAGCTGAGACAGGACGGCATCGTGCGTGCCGTGCCGGGGGTAAACGGAGGTTATGAGCTGGCAAAGCCGGCCCGGCAGATTACATTTTTAGAAGTGATCCAGGTGATCGAAGGAAGGCAGCAGCTGTTTGAATGCTCTAATCTCAATTCGCAGCAGCATCGATTGCTGACCGAAGAGAAGCCTAGCGACAGGAACGAAGATAAGCCGGGTGCTTGCGTATGTCTGGTCAAACAGGTGATGGACGGTGCGGAACGGCAGTTGAATCAATACTTGGAGGAGCAAACGATCCAATCGGTATTGGATGCTGCTTCCAAACGCGGCAGCTGCTCGACTAACAAGGAGTGA	MSKIMSKLRQDGIVRAVPGVNGGYELAKPARQITFLEVIQVIEGRQQLFECSNLNSQQHRLLTEEKPSDRNEDKPGACVCLVKQVMDGAERQLNQYLEEQTIQSVLDAASKRGSCSTNKE				NA	NA	NA	NA	NA
AK002_02953	1122			hypothetical protein	ATGCTGCTTCCAAACGCGGCAGCTGCTCGACTAACAAGGAGTGACGAAACAGTTGAACTTCGCTTCGGAGGGATCCTTATCGATAAGCTATACGAGAAATTGCAAGGGTTTGGGGAAAGAGAGAATTGGCTTTTACTCCGTCGGTTGCTGAACACAGCGGTCCAGGATGCCACGAACGTCGGACATGAAGAGAAAAGGGATGCTGAGCGATTGTACAAGCTGATCGAACACCATGCAGAGATCGTTCACCATGAGCGGCTGCAGGAGGAGAATCTCCAAACGCATGTCCATATCATTTTCAGTCTCTCGAATGCCGGTTCATTAAAAGTGGCGCTCAGTCAAGTGGGGAAACGAGAGAAATCCCGCGTATTAGCATTTAATGACTGCTTTTCCACTGGCCCTATCAGGGATTTAAGCACAGCGGAAGGGCAGCAGCGAAGGGAAATCTGGTTGATGGAACATGACAGAGATTCCTACTTCTACAACATCATAAACAAAGACCACCAAATCGAACGCATGATTAAGATGTTAAAAACCATATCGGAGAGCAAGACCGTGGTCATATGGTGCGCGGATAACGCTCATGATCAAACCGGGCTTCGCTTTGCATCGTACTTGCTGAGGGAGCGGAAACGCCCGATTCATGTGGTGAACGTGACGCAAATTCTCAAAGAATCGAGTTTGCAGCAGAATAAGGGCGAGACTCCAGTCTATCAATCAAGGATCGAGCGAGGGACCTACATCGAAATCGTCAAGAACTGCGGTGATGGGATCCCGCTGGATTCGGATCTAAGGAAAAGGTACGAATCCGAATGGCTGGAGCTGGCAGGACAGGATCATGTCCTTCGATTCTGGGAAGAGGACAGGGTCATCGGCTGCGAAGAGGATCGAATGGATGCACTTATCTTACAATCGGTCGCTGAACTGCAAGAGCAGCACCATTCTGGTGATCTGGTTAAAGCAGGAGATGTCTTAGATAGTATATTCGAAATTTCACGCCAATACGTAAGTTATTCTTATATCATGTATAGGATCTGGTTTTTAGTCAGTGAAGGTATTCTGACGTTCAAGGGGTTACCTGGCTTTCCCCATCAATTTTCGATAGGTTTGCCTAAAGCTTAA	MLLPNAAAARLTRSDETVELRFGGILIDKLYEKLQGFGERENWLLLRRLLNTAVQDATNVGHEEKRDAERLYKLIEHHAEIVHHERLQEENLQTHVHIIFSLSNAGSLKVALSQVGKREKSRVLAFNDCFSTGPIRDLSTAEGQQRREIWLMEHDRDSYFYNIINKDHQIERMIKMLKTISESKTVVIWCADNAHDQTGLRFASYLLRERKRPIHVVNVTQILKESSLQQNKGETPVYQSRIERGTYIEIVKNCGDGIPLDSDLRKRYESEWLELAGQDHVLRFWEEDRVIGCEEDRMDALILQSVAELQEQHHSGDLVKAGDVLDSIFEISRQYVSYSYIMYRIWFLVSEGILTFKGLPGFPHQFSIGLPKA	PGPT0013440_193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
AK002_02954	126			hypothetical protein	ATGGGCGGCTTTTTTGATTTGAATGGAAAATCCATTCGCATCTTGGCATGGTTTTCCTTGGATTTGTTGCAACCGCAGGTTATTTACAGTAAACTGACTGTTACAACTTGTTATACGGAAGGATGA	MGGFFDLNGKSIRILAWFSLDLLQPQVIYSKLTVTTCYTEG				NA	NA	NA	NA	NA
AK002_02955	237			hypothetical protein	ATGACCATACCTTCATTGCATAGAATTAATGAACTGAGCCGCAAGCAGAAGACCGAAGGTCTGAGCCAAGAAGAATACACTGAACAGCAGCAGCTTCGTCAGGAATATTTGCAAGCCATCCGAGGGCAGGTTCTCTCGACCATGTCTACGCTGAAAGTTGTGGACCCGAATGGCGAGGACGTTACCCCGGAGAAACTGAAAATAACGCAAAAACAGAATACGTCAAAGCTCCATTAA	MTIPSLHRINELSRKQKTEGLSQEEYTEQQQLRQEYLQAIRGQVLSTMSTLKVVDPNGEDVTPEKLKITQKQNTSKLH				NA	NA	NA	NA	NA
AK002_02956	1320			hypothetical protein	ATGAGAACGATCGAGGAGAAGCTGCAGGAGCATCAGCAGACCCTGATTTCCGTACAGGCCCCGCCAGAACTTGAAGGGCGACTGCGGCATGCGCTTGAGCTAGTTCCCGCCAAGAAAAAGGACCGGAATCGAGCTTTTGCATGGGTTGCATCCATAGCTGCGGCACTACTCCTGATTGTCGGTACCTATCAATATCCTGCGTTTGCTTACTATGGCGTCAAGCTGCTGGATAAAATCGAACTGAACTCACTTAGCTTTTCTGAAGTTACGGAGCAAGGGTATGGACAAACGGTCGGCAAAAGCAAAACGCTGGATGACGGTACGGTCATAACCATTAATGGAGTCATCGCGGACGATAACGCCTTTCTCATGTATTACAGTATCGATCGACCCGCCGGCAGCGTGCTTTCCGACAACGGTTCTTTTCGTTACAACGTTGGTGGAATACAAGGCTTCATGACGGATTCCCGTCCGAGAGAAGGAAGCGGCAATTATAGCAAAGACGAGACTCGGTACGAAGGCGTGTATAAATTCGAGCCGGTCAGCCCATTTTCCAGAACATTAACCGTTACCTTCAGTGAGTGGCTGGATAACGGGGAGAGGGCAGCTTATCCGGTCTCCTTCAAGTTTGAAGCGAACCAAGCGATGAAAAGTATGATTAAGGAGGATATTTCAAAATCCGTTTCGGTTGATCAGGGAACTGTCCACTATGACTCGATTACGGCTTCACCAACTTCTACCATCGTGAAGGGTCATTACGAATTTGGGGACGAGGGATTTCCCAGATTTCCTGGCAAAACCAAGCTTTATGTCAATGGCACGGAAGTGAAATTTTGGGGAATGCGGTCGGATCGATACGCCGAAAAGGGTATCCCAGGATTTGAACTGGAATACGACGTCCTTCCTACAGATCAAATAGAGACGATTGAAATCGTTCTTAAAACTTTCGATGGATATCAGAAAGTAGCAGAACCCATCTCCCTTGCGTCACCGTCTGATCAATCGATCCAGGTTGGCAATGAGAAGTTATGGCTACGAAGCGTCACGAAAACCGATGCCGGTTATGATATCGTGATAGCCAGAAAACAATTTACCATCTTGGAAACGGATCAATTATCCGTACAAACGGGCGGGAAGAAGGTTCCTGTATCGTCCATATCCAGATCACGTCCTTGGGATTTGAAAAACGGCAATATCCTATGGGAGCAGACGTATTCATTTGACACAACGAATAGGCCGGAATTCCTGTTGCTGGATGGATACCGTTACATTAAAACCTATGATCAAACCGTATCTATCCCAATAAAAACCCAAAAATGA	MRTIEEKLQEHQQTLISVQAPPELEGRLRHALELVPAKKKDRNRAFAWVASIAAALLLIVGTYQYPAFAYYGVKLLDKIELNSLSFSEVTEQGYGQTVGKSKTLDDGTVITINGVIADDNAFLMYYSIDRPAGSVLSDNGSFRYNVGGIQGFMTDSRPREGSGNYSKDETRYEGVYKFEPVSPFSRTLTVTFSEWLDNGERAAYPVSFKFEANQAMKSMIKEDISKSVSVDQGTVHYDSITASPTSTIVKGHYEFGDEGFPRFPGKTKLYVNGTEVKFWGMRSDRYAEKGIPGFELEYDVLPTDQIETIEIVLKTFDGYQKVAEPISLASPSDQSIQVGNEKLWLRSVTKTDAGYDIVIARKQFTILETDQLSVQTGGKKVPVSSISRSRPWDLKNGNILWEQTYSFDTTNRPEFLLLDGYRYIKTYDQTVSIPIKTQK				NA	NA	NA	NA	NA
AK002_02957	645			hypothetical protein	ATGAAAAAAAGGAAATCATTATACCGGCTGCTGGCCTGTGTCAGCCTGGTATTTATTCTATACGCCCTGGTCAAAAACTATTGGATCGATCCCGGTGCTGCTGGTTTTTTAAGCCGTAAAACCGGGCTGAAGCGGGAGCTGAATCTTCCGGTCTGGTTGAATGTCATGTACGTTCATGTTGGATTTGCATGTCTGGCCATGGCGACGGGCTTGATCAACTTTTCCAATCGTATGTTTGAAAAAAGCCTACGGTTCCATCGTTTCAACGGCTACGTCTACCTCGTGTCCGTACTGCTGGTTGTCCTGACCTCCGGATATATGGCGCCTTACGCCACCGGCGGAAAAATCAGCAGCATGGGATTCAACGCGCTCAATCTGATCTGGCTGTTTGTCACCATTATGGCGCTCATCCAAATCAAGAGGAAACGAATCGACCGGCACCGGAACTGGATGATCCGGAGTTACGCCTTCTGCTTCACGAACCTGTTGATTCATCTTATCACTTCTCTTGTTCATCAGGGTTTCGGCATGGTTTACGCCACAAGCTACACCATTGGCCTATACGGCTCTATTGCGCTGCTGATCGTGATTCCTGAAATCATCATCAGAACGAAACGAACCGAAAAAAACGAACTCATTCCTTGA	MKKRKSLYRLLACVSLVFILYALVKNYWIDPGAAGFLSRKTGLKRELNLPVWLNVMYVHVGFACLAMATGLINFSNRMFEKSLRFHRFNGYVYLVSVLLVVLTSGYMAPYATGGKISSMGFNALNLIWLFVTIMALIQIKRKRIDRHRNWMIRSYAFCFTNLLIHLITSLVHQGFGMVYATSYTIGLYGSIALLIVIPEIIIRTKRTEKNELIP				NA	NA	NA	NA	NA
AK002_02958	1038			hypothetical protein	ATGCTAACTGTACAAATCGTGTTATTTGATGGTTTCGACCTGCTGGATGCCATTGCGCCTTACGAGGTTTTTAGCGCGGCTGCGTCGTATGCAGAGCATGAGTTAAACGTGAAATTGGTCACCGCAGAAGGGTCAAGGACTGTGGCTAGCGGCGTTAACGGATTAAAAATTGAAGCCAGCAGCCGACTGAATCCGGAATGCGCGGGCATCATTCTCGTACCAGGAGCGTCGGGCGAGGTCGACGGTGATGGCCCCTATTCGATCCCAGCTATTTTGGGCCGGGCCATGAATACCGAATTGACCGGTATGATCGGGCAGGCGCTCGACCGGCAGGACATCATAGTCGCTACCGTATGCGGCGGCTCGCTGCTGCTGGCCATGGGAGGGCTATTGGAAGGGAGAACTGCGGTAACGCATCACCTCGGCATGGGTTTGCTTGATGCAACCGGGGCAGTCCCGATCAAGGCACGCGTCGTGGACGACGGCAACCTGGTTACCGGCGGCGGTGTCACATCCGGGCTTGATGTTGCGCTGTACCTGGTGGAACGAGAACTTGGACCTCGTATCGCACACGCGGTAGAGCAATTATTCGAGTACGAACGAAGAGGAACGGTTTGGAAGGGGATCGGCCTCGCACCAAGCACGCAAAAAGCTTTGCCGGCCGACAACGAACTGATCACAGCAACAAACCATGGGGTGTTGAGTAACGCAGCCTCGGATCATCAACTCACGCAGGCTTCTATATTCGAAGGGGATTGGGATACGGTCATTGCTACGCCCGTCGGGAAAATGGAAGTCAGGTTATCCATATCGGCAAGGAACGACATCATTGAAGGTACGGCAAAGCAAGGAGATGAAACCATCCAATTCAGGAGCCCTGTGTTCCAGAACGACAAGCTGGCCTGGTCGCTTCCCATCACGAAACCCATGCGCCTGAACCTGAAATTCGAAGTTACCGCGGACGGTGATGTTATGACCGGAAGCGCCAAGGCCGGCATGCTGCCGGCATCCAAATTAACAGGAACACGGGTTTCCTAA	MLTVQIVLFDGFDLLDAIAPYEVFSAAASYAEHELNVKLVTAEGSRTVASGVNGLKIEASSRLNPECAGIILVPGASGEVDGDGPYSIPAILGRAMNTELTGMIGQALDRQDIIVATVCGGSLLLAMGGLLEGRTAVTHHLGMGLLDATGAVPIKARVVDDGNLVTGGGVTSGLDVALYLVERELGPRIAHAVEQLFEYERRGTVWKGIGLAPSTQKALPADNELITATNHGVLSNAASDHQLTQASIFEGDWDTVIATPVGKMEVRLSISARNDIIEGTAKQGDETIQFRSPVFQNDKLAWSLPITKPMRLNLKFEVTADGDVMTGSAKAGMLPASKLTGTRVS				NA	NA	NA	NA	NA
AK002_02959	222			hypothetical protein	ATGGGATTGGAAAACGACGGGTTTTCGTTTTTTCCTTTCGGCGTTTTGTTTTGTCTTACGCTTTTTTGTATAGCAGCTGTTCGAATCTACGCGATTCGTCATCGCTACAAAAACGGAAATCTGCAGGACAGGGACATTGCTTTGATGTTGAAGAACCGATTGGCAAAGGGTGAGCTGGACGAGAAGGAATATCGCATGCTGAAAGAGCTTCTGACCAAATAA	MGLENDGFSFFPFGVLFCLTLFCIAAVRIYAIRHRYKNGNLQDRDIALMLKNRLAKGELDEKEYRMLKELLTK				NA	NA	NA	NA	NA
AK002_02960	687	ompR		Transcriptional regulatory protein OmpR	ATGAGCGGAGACAATACGATACTCGTTGTAGACGATGACCAAAGCATCGTCGAACTATTAAGGGACTTTCTTGAGAATGACAGCTTTCAAGTGAAGACTGCTTGTGATGCGGAGGAGGCGTGGGCCATATTCCAACAGTATCCCATTCATTGCATGGTTCTGGACATCATGATGCCGGGACAAAATGGATTTGAGCTGTGCCGCCGGATAAGGGCGGAGAGCCATGTTCCGATTCTCTTTTTGAGTGCCCGCAGCGACGACGTGGACAAGATCCGGGGGCTGACGCTCGGCGGCGACGATTATATCGTCAAAACGGCTTCGCCCGGGGAGATCGTTGCCCGCGTGAAAGCCGTACTGCGGCGCTCCGCGACCCGGCAGCCAGTGGAGGGCAGGGTGTTGGATTACGGCCGCCTCCGGTTGAATTTGTCCACAAGAGAAGTGGTCGTGGAAGGCAATAACGTCGTGCTCACGCCGAAGGAGTTCGAACTGCTGCGATTATTCGCCGAGCATCCTAGACATGTTTTCACCTATGACCAGCTGCTTGCGAAATTTTGGGACGGGGTGGGCGACAGGCATACGATCCGCGTCCATCTCAGCCGGCTACGCGAAAAAATCGAAGCCGATCCGAACCAGCCGCAATTCCTCGTGAACGTGTGGGGAGTAGGCTATCGCTTTGAGGGTGGTTGA	MSGDNTILVVDDDQSIVELLRDFLENDSFQVKTACDAEEAWAIFQQYPIHCMVLDIMMPGQNGFELCRRIRAESHVPILFLSARSDDVDKIRGLTLGGDDYIVKTASPGEIVARVKAVLRRSATRQPVEGRVLDYGRLRLNLSTREVVVEGNNVVLTPKEFELLRLFAEHPRHVFTYDQLLAKFWDGVGDRHTIRVHLSRLREKIEADPNQPQFLVNVWGVGYRFEGG	PGPT0012985_1401	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OSMOLARITY_SIGNALLING,PGPT0012985-ompR-K07659	NA	NA
AK002_02961	1335	sasA_12		Adaptive-response sensory-kinase SasA	ATGAAGACGCTGCGCATTCGTACCTTTACCATGCTTTGCTTTTTCTTTATCCTTCTGTTACCGTGGATCTTTTTTGTCACTGTCCATTTCATGGAGACCAAGACACTCAGCTTCGAAAAAGGGCGTCTGCAAAATGAGACGCTGCAAAGTAATTTATCGGAAATAATACACTTCATTGAAGCAGGCTCCGGCCAATGGACGGAACCGACTTGGCAAAATCAATTGAAAACGGCGCTGCATGAAGCGAAAATGGATGCTCTTATTCAATCCGCGGAAGAGCGGGAGCTGTATCGTTCTAATCCGGAACGCAGCGGTACGTCTTTGTCAACGGAACGATTCTCCGTCATCAAGGATGGTCAATTGCTGGGTAGGGTAACTCTGTATTTGCCAAGAACCAATGAAAAACAGGTCATGTCGGCATTTGCGGGACTGCTGCTTGCTATCTTGATTGTCGGAATGGGAATGAGACGGTTCGTGCTCAAACCGCTTGAGAAGATGGGGAATGCAGCCAGGCAAATCGCGACAGGCGATTGGAACGCGCGGTTGCCCTCATCCAGGGTCGCCGAAATCGCCGAAGTACGCGATGGATTCGAAGTGATGGTGAAGGGGCTTGAGAAATCCTATCAAAAACAAGCCGAATTGGAACAGGAACGCCGATTCGTGATTGCTGCCGTTGCGCATGATTTGCGGACGCCGTTGTTTGCGTTGCGGGGTTATTTGGACGGCTTGGAACAAGGAATCGCTCAATCCCCGCAGATGGTCGCCAAATACGTAGCGGTATGCAAGGAAAAATCGGTGCAGTTGGATCGTCTCGTGGAGGATCTTTTCACATTTACGAGGATGGAATATTTGGAGGCGGAACTTAGCGGCAGCATCGTTGATTTGAAAGATGTTATCCAGAATTCGATGGACAGCCTGCGGCCGCTGGCGGCTGACAAACAAATTACCATTGCTGAACAATCCATGGGCGATTGTCTCCTAAGCGGCGATGCGCATTTATTGGAGCGCGCCATGAATAATCTCATGGACAATGCCGTCAGACATACACCCTTGGATGGTGAAATTGCTGTGCGATGCTGCAAGGACGGCAACCGGATCAGGTTTACGATACGCGATACCGGACCGGGCTTCTCCGGGGAAGAGCTGGAGCGCGTTTTTGAACCCTTGTACCGTGGGGAAGCGTCTCGAAGCCGATCAACTGGAGGCAGCGGTTTAGGGTTGACCATTTCACAAAGAATCATAAGGCGGCACGGAGGTGAAATAACCGTCAGCAACCATCCGGAGGGAGGAGCGCTGCTGGAAGGATGGTTACCTGCCGCAACCTCCGAACAATAG	MKTLRIRTFTMLCFFFILLLPWIFFVTVHFMETKTLSFEKGRLQNETLQSNLSEIIHFIEAGSGQWTEPTWQNQLKTALHEAKMDALIQSAEERELYRSNPERSGTSLSTERFSVIKDGQLLGRVTLYLPRTNEKQVMSAFAGLLLAILIVGMGMRRFVLKPLEKMGNAARQIATGDWNARLPSSRVAEIAEVRDGFEVMVKGLEKSYQKQAELEQERRFVIAAVAHDLRTPLFALRGYLDGLEQGIAQSPQMVAKYVAVCKEKSVQLDRLVEDLFTFTRMEYLEAELSGSIVDLKDVIQNSMDSLRPLAADKQITIAEQSMGDCLLSGDAHLLERAMNNLMDNAVRHTPLDGEIAVRCCKDGNRIRFTIRDTGPGFSGEELERVFEPLYRGEASRSRSTGGSGLGLTISQRIIRRHGGEITVSNHPEGGALLEGWLPAATSEQ				NA	NA	NA	NA	NA
AK002_02962	1092			hypothetical protein	ATGGAGAAGATCGGTAAATACCAAATCATAGCCATGACCATCTTGTTTATGATCGGCAGCACCCCATTGTATGAGCTGGGGATTGAAGCTAAACAAGATGCTTGGTTGGTCGTGCTGGTTGCCATGCTCGCGGGATTGCTGCTGTTGTGCGTCTACCTCTATATCCAGAACAAAAATTCGGAGCATGGACTTCCCCAAATTCTAAATCGGCATTTCGGGAAATATTTGGGCTCCCTTATTACTGCAGCCTATATTGTTTATTTTGCATATGAATCCATGCGAAATACCCGCGAGTTCGCGGACATCATCAATATCTCCTTTCTCCCCAGCACGCCGCTGTTCATCCTGATTCTCTTGATGGTCTTGCTGTCCGGTTATGCCGTTTGGAAAGGCATTGAGGTATTCTTTCGCGTCACCGAGTTTCTGCTTCCTTTTACGATAATCGGATATATCTTGATCGTTCTCATGTTCATCGGTTCGAAGATCATTCACCTTGAGCGCCTTATGCCCATGCTTGAAAACGGAATCCGGCCGGTGCTGCAAGCAGCTTTGCCGGAGGTGGTTAGTTTTCCGTTCGGTCAAATCGTGGTCTTTCTCATGTTTTGGAATCATCTCGATGACAAGAAAACGCTGTCCAAGACATCCTTGTCTTCCTACATATTCGTAGGCATCTTTTTAATGATATTCAACATATTAAATCTTGCGATACTGGACCCCTCCATAACGAGCATATCGACTTTTCCGCTGCTCCGGTCGGTTCGTCTCATCGAAATCGCCGATTTTCTGGAGCGTTTGGACCCGTTGATCATCTTACTGATCTATATCGGCATTTTCGTAAAAATGACCGCATTCTACCTTGGTGCCGTACTCGGTCTCTCCAGCCTGATCAAAATCAGCCATAAAAAAACCACCGTGATCGTGGGTGCTTTCATTTTTACCATATCGTTCGCTTCGCCGAACTTTATTTATCATATCTGGATCGGGTTCGCTCAAAATTTGAAATACCACTTTCCCATCTTTCAGATCGGACTGCCATTGCTTCTTGCTTTGATTATATTAATCAAAGGAGGTCGTTCATCCAAATCCGGCTGA	MEKIGKYQIIAMTILFMIGSTPLYELGIEAKQDAWLVVLVAMLAGLLLLCVYLYIQNKNSEHGLPQILNRHFGKYLGSLITAAYIVYFAYESMRNTREFADIINISFLPSTPLFILILLMVLLSGYAVWKGIEVFFRVTEFLLPFTIIGYILIVLMFIGSKIIHLERLMPMLENGIRPVLQAALPEVVSFPFGQIVVFLMFWNHLDDKKTLSKTSLSSYIFVGIFLMIFNILNLAILDPSITSISTFPLLRSVRLIEIADFLERLDPLIILLIYIGIFVKMTAFYLGAVLGLSSLIKISHKKTTVIVGAFIFTISFASPNFIYHIWIGFAQNLKYHFPIFQIGLPLLLALIILIKGGRSSKSG	PGPT0025055_800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
AK002_02963	1218	gerBC_4		Spore germination protein B3	ATGAACCGGAAGCTAAAACTCCTGATTCTCATGATGACCGCCTCGTTGCTTCTCAACGGTTGCTGGGACAGTAAAGAGTTAAACTCGCTTAGCATTGTCTCGGCGACGTCCATAGACCGCAGCGAAGACGAATGGATCATCTCCTTCCAAGTCGTCATTCCGCAGTCCATCGCCACTCAGACCGGGGGTGGATCCGGGGGAAGTCAATCTCCGATCACCATCTTCTCCACCAGGGGCAAGACCATTCGCGAAGCCATGCAGAATGCGAATTTAGAAGCGCCGCGCGCGTTGTTTTTCGCCCATAACTCCATATTGATTATCAATGAACAAGTCGTTCGGAACGCAGGCGTACAACAAATCCTTGATTTTTTCCTCCGCCCCATGGAAAGCCGGGAAACCATGTCGGTTCTGCTGACCAAGGACAAAGCCTCCAATCTGTTGGAAGTGCTTATTCCTTTGGAGAAAATATCGGGCAATGCGATTCAACGGGTCATTACGCAAGGGCAAGAAAATCTGTCCCAGGTGAAAAATATTAAATTGATCGATTTTGCATCCATGGTCGCCAATCCGTACCAAAGCGCCATGGCACCCGAGTTGAGAGTGTCCGGCAATCAAGAGGAGCAATCCACCTTGGATGCATTAAAGTCGACCCGCAATCAAGCGGTACTCAAACTTGGGGATTTGGGCGTATTTCGGGGAGACAGACTGGTCGGATGGATGAAGCGAAGAGAAAGCAGAGGCGTCGCTTGGCTTTCGAACAGCGTCAAAAACCTGATCATTGTTACCCCATGCAGCGATCAAGACGCTACCCGGTTATCGAGTTACCGCGTCACCCATTCCTCGACCCGGGTAGACCCCAAAATGGTCAACGGTTCTGTCAACATGTTGGTCCATATTCAAACCAAGGGGGCTCTTGATGAAACCAGCTGTACGATGGATTTGACGAAACCGGAAGTCATTTCGAAACTCGAGGAAGCGATAGCCGAGCAGATCAAGGAAGAAGTCTTGACTACATGGAAAAGGATGAAGGATTTGAATGTGGATGTGGTTGGTTTTTTGGACATGATTCACAGAAGATATCCGGCAGCCAGCAAACGCCTTTCAAAGTTGGAACAGCCGCTTCAGGAGCTGGAACTCGACCTGAATATTGAAGTCAACGTGGAGCACACGAATATGATCAATAAACCCTTCTCGAATCTGATTGAACCCAATGAATAG	MNRKLKLLILMMTASLLLNGCWDSKELNSLSIVSATSIDRSEDEWIISFQVVIPQSIATQTGGGSGGSQSPITIFSTRGKTIREAMQNANLEAPRALFFAHNSILIINEQVVRNAGVQQILDFFLRPMESRETMSVLLTKDKASNLLEVLIPLEKISGNAIQRVITQGQENLSQVKNIKLIDFASMVANPYQSAMAPELRVSGNQEEQSTLDALKSTRNQAVLKLGDLGVFRGDRLVGWMKRRESRGVAWLSNSVKNLIIVTPCSDQDATRLSSYRVTHSSTRVDPKMVNGSVNMLVHIQTKGALDETSCTMDLTKPEVISKLEEAIAEQIKEEVLTTWKRMKDLNVDVVGFLDMIHRRYPAASKRLSKLEQPLQELELDLNIEVNVEHTNMINKPFSNLIEPNE	PGPT0025060_263	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK002_02964	1599	gerBA_4		Spore germination protein B1	GTGGCCTTTTTTAAACGAACAAAGCAACCCCCATCGAATACGGCCCTGCTTCATCCTAACGAGCAAACGAAGCAATCCGCCGAAGCCTCTCGTCTATCCGACCGCTTGGATCAGAATTTACATAGAATCCGGGAACAAACCGGCCATAGCCGGGATATCATCATTCGCACCCTAAGTCATATGCTTGGAAGCGAACATACCCTGGCCGTTATTTATATCGATGGATTGGTTGATACGCTCACCATCAATCACTCGATCATGCAATCCTTAACCTCAAAGGATTACGACGAAGAACTGCATACCTCTGACCCTGCAGAAATCTTGTCCATTATCAAAAACCGTTTCTTATCCATTGGCAGCATCAGCGATTTGGAGCATATGGAGCCATTGATCTCTGCCCTCCTTGAAGGCAATACTGTCATTCTCATCGACGGATCCTCTCATGGCGTTATCGCCAGCTCTATCGGAGGAGAAGAACGCGGAGTAGAAGAGCCTCAATCCCAGACCGTCGTTCGCGGCCCGAAGGAAGGCTTCACCGAAAATATCCGCACGAATACCGCCTTGATCCGTCGGAAGATTAAAAGCCCAAACCTCTGGATCGTGGATCGCAAGATTGGCCGCGTCACCCAAACGGATGTTGCCGTTATGTATTTGAATGGCATCGCCAATGATAAGATCGTACAAGAAATATTGAATCGTTTAGACCGGATCGATACCGACAGCATTCTGGAGAGCGGGTATATCGAAGAGTTTATACAAGATACAACATTCACCCCCTTTCCGACCATCACCAATACGGAGCGACCCGATGCTATCGCCGGTGCGATCCTGGAAGGGAAAATCGCCATTTTGGTTGATGGGACACCGTTTGCGCTGATTGCTCCCATCACCATATTCAAATTGTTTCAATCGAGCGAAGACTACTACCAAAAGTTCGATATCGCCACTTTTTTGCGCCTGTTGCGCATCATTTCCTTTGTGGTGTCGATGCTTCTTCCTTCGCTTTATATTGCCATCTCCACGTTCCATCAAGAAATGCTGCCAACGACCCTGCTAATCAGCCTTGCAGCACAGCGGGAAGGCATCCCTTTTCCCGCCGTTGTCGAGGCCTTGGCCATGGAAATTACGTTCGAAGTATTAAGGGAAGCCGGTGTGCGCATGCCCAGGGCGATGGGTTCTGCGATATCCATCGTAGGCGCATTAGTACTGGGTCAAGCCGCTGTACAGGCAGGTTTAGTGTCTGCTGCCATGGTGATCATCGTTGCATTTACCGCCATCGCGAGCTTTGTTGCGCCTTCCGTGAGCATAGCCAACTCCGCCAGACTGCTTCGATTCGGTTTTATGATATTGGCGGCAACTTTAGGGCTCTTTGGGATTATGGCAGGATTACTTGCCATGCTGATCCACCTAGCCGGCTTGCGATCATTCGGTTTGCCGTATCTTACGCCGTTCGCTCCATTTATCCCGTTAGACCAAAAAGACGTGCTGGTGCGAGTTCCATGGTGGGCGATGGTGACAAGACCCACCTTAATCAATCGTAAAAACGTGAAACGGCAAAAAATGAACCAGCGTCCATCGCCTTCCGATGGTAACAAGTAG	MAFFKRTKQPPSNTALLHPNEQTKQSAEASRLSDRLDQNLHRIREQTGHSRDIIIRTLSHMLGSEHTLAVIYIDGLVDTLTINHSIMQSLTSKDYDEELHTSDPAEILSIIKNRFLSIGSISDLEHMEPLISALLEGNTVILIDGSSHGVIASSIGGEERGVEEPQSQTVVRGPKEGFTENIRTNTALIRRKIKSPNLWIVDRKIGRVTQTDVAVMYLNGIANDKIVQEILNRLDRIDTDSILESGYIEEFIQDTTFTPFPTITNTERPDAIAGAILEGKIAILVDGTPFALIAPITIFKLFQSSEDYYQKFDIATFLRLLRIISFVVSMLLPSLYIAISTFHQEMLPTTLLISLAAQREGIPFPAVVEALAMEITFEVLREAGVRMPRAMGSAISIVGALVLGQAAVQAGLVSAAMVIIVAFTAIASFVAPSVSIANSARLLRFGFMILAATLGLFGIMAGLLAMLIHLAGLRSFGLPYLTPFAPFIPLDQKDVLVRVPWWAMVTRPTLINRKNVKRQKMNQRPSPSDGNK	PGPT0025050_289	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK002_02965	552			hypothetical protein	ATGAAAAAAAGGCTTGAAACACGGATAGAAGGGGACTGCATTGTGCTCCGTCCCGTAAGGGAAGATGAATTCGATGTATACTTCGAATTATTGCAGGATGCGGAGTCTAACCGATTAACGGGAACGCAGCAGACGTTCACCAAGGATTCGATTGCGGCTTGGATTCATAACATCGGCTACGCCCATGAGGATCGCCTGGATATGATGATTGCGGAGAAGGAAACGGACGAATTAATCGGAGAAGTGGTCCTGAACGAAATCAACCTCAACAATCGCAGCGGCAATATCCGCATATCGATCTCCGGTCGGCACAGCAATAAAGGATACGGCACGGAGGCCTTGAAGCTTATGCTGCGTTATGGTTTCGAAAGTTTACGTCTGCACCGTATCGAGTTAGGCGTATATGCGTTTAATCCGCGGGCCATCCATGTCTACGAGAAGCTTGGCTTCGTACGGGAAGGTACCCTGCGAGACTCGCTATATTGGGACGGAACATTCCATGATATGATTGTAATGTCGATTCTGGAGGAAGAATATCGGCAGCTGCCATAG	MKKRLETRIEGDCIVLRPVREDEFDVYFELLQDAESNRLTGTQQTFTKDSIAAWIHNIGYAHEDRLDMMIAEKETDELIGEVVLNEINLNNRSGNIRISISGRHSNKGYGTEALKLMLRYGFESLRLHRIELGVYAFNPRAIHVYEKLGFVREGTLRDSLYWDGTFHDMIVMSILEEEYRQLP				NA	NA	NA	NA	NA
AK002_02966	867			IS3 family transposase ISBth8	GTGACGAGTAAAGCTGCTAGATTTCAGATCATAGAGGACTTGCGAGTACGCCATCGTCTTGTTTGGCTCTTGAAGTTAGCCGCGGTTTCCCGTTCAGGCTATTACAAGTGGAGAAAGAGCTTGCAAGCGGCAAAAGAACGTAGACAAAAGCAGCATGAATTGGAATCCCATCTGCTTGCCATCCATCGCATTCATCCCTACTTTGGTTATCTTCGAATGACGGTAGCTTTACGGAGGGAAGGCATTAGGGTCAACCACAAAAAGGTGTATCGATTAATGAAACAATTAGAAATCTGTTCTGTCATTCGGAAGAAGCGTCGATTCTTTGGAAAACAAGCTTCCGTGGTGAATCCGAATCGGCTTCAACGCCAGTTTAAGGCGGATACGCCACGAACTAAACTGGTCACAGATATTACCTATATTCGTGCTGGAGAACAATTTGTGTACCTGTCTGTGATTCAGGATTTATACAATAACGAGATTGTAGCTTGGCATTTATCGGAACGAAATGACCTCGCTTTGGTTCATGAAACGCTGGATAGACTCCGTCAGCACGTGGATGTGAGTGGGGTAATCCTACACTCAGATCAAGGATTTCAATACACGTCAAAACCATTTAACCGTAAACTGAAACAACTCGGCATGCTAGGCAGTCACTCTAGGCGAGGAAATTGCCTGGACAATGCCTGTATCGAGTCTTTCTTCTCTCATTTGAAGAGCGAGAAAATATACTTGAATGAGGCAGCAAACAAAGCTGAGGTTGAACAGCAAGTGAGTGAATACATTCTGTTCTATAACCAGAACCGATTCCAGAAAAAATTAAACGACCGTTCCCCGGTAGAATACCGGGAAACGGCCGCAGCTTAA	MTSKAARFQIIEDLRVRHRLVWLLKLAAVSRSGYYKWRKSLQAAKERRQKQHELESHLLAIHRIHPYFGYLRMTVALRREGIRVNHKKVYRLMKQLEICSVIRKKRRFFGKQASVVNPNRLQRQFKADTPRTKLVTDITYIRAGEQFVYLSVIQDLYNNEIVAWHLSERNDLALVHETLDRLRQHVDVSGVILHSDQGFQYTSKPFNRKLKQLGMLGSHSRRGNCLDNACIESFFSHLKSEKIYLNEAANKAEVEQQVSEYILFYNQNRFQKKLNDRSPVEYRETAAA				NA	NA	NA	NA	NA
AK002_02967	324			hypothetical protein	TTGCCTAACGAAGGGGATTTTTTCATGGCTAAAAAAGGACAAACTTACCAACGGTACTCCTTGGAATTAAAATTGGAGGCGGCCCGACTGGTCAATGAAGAACATATGAGTATTCGTGAAGTAGCAAAACGTTTAGGTATTCAAAATAAATCTCAAGTACAAGTATGGGCGGCGAAAACGAAACGTGGAATGAGCCTAGAACCTGCCACATCCAAACGGGGACGCCCCAGAACGAAGTTTTCCAGTATGGAAGAAGAGATGGCATACTTGCGAGCGGAGATTGAATATTTAAAAAAGCAGTATCCAAATCTGCACAAGGAGTGA	MPNEGDFFMAKKGQTYQRYSLELKLEAARLVNEEHMSIREVAKRLGIQNKSQVQVWAAKTKRGMSLEPATSKRGRPRTKFSSMEEEMAYLRAEIEYLKKQYPNLHKE				NA	NA	NA	NA	NA
AK002_02968	657	axe2_2		Acetylxylan esterase	ATGGAGAATCAGAGAAAAATCATATTATTTCAGGGTGATTCGATAACCGACGGCAATTGGGGAAGAAATCAGGACCCTAATCATATTTTGGGACACGGCTACGTCTATCTCATAGCAGCGCAGCTCGGATTGGAATTCGCCCAGAGACAGCCGCTATTTATAAATCGCGGGGTCAGCGGCAACCGCGTATCGGATTTATATGCTAGATGGAACGAAGATGCCTTTAGCTTGAAGCCTGATCTCATCAGTATTCTGGCAGGTGTGAACGATGCAGGCTGTATCCTTCAAGGTCAGCCCCAAGGAGCAACAGACCGTTTCGAACGAATCTATCGCCAGCTGTTGAGCGAAACAAGGGAAGTTCTCCCGGAAACCGGCCTGGTGCTGTGCGAGCCTTTTGTTTTGCAAACGGCGGCTACCGCGAATGGATGGGATCAATGGCGCAGCAAGATCGATGAATACGGTTCAATCGTACGGCAGCTGGCAGAGGAATATCACACGCTTTTTGTTCCATTGCAGGAAGTATTCAACCAAGCAGCCCAAAACGTTGCGGCGGAATACTGGTTATGGGACGGTGTTCATCCTACGGCAGCGGGACACCAGTTGTTGGCCAGGGAGTGGCTAAAGACCGTCCAGCAAAGTGACTTGGCTATCCGATGA	MENQRKIILFQGDSITDGNWGRNQDPNHILGHGYVYLIAAQLGLEFAQRQPLFINRGVSGNRVSDLYARWNEDAFSLKPDLISILAGVNDAGCILQGQPQGATDRFERIYRQLLSETREVLPETGLVLCEPFVLQTAATANGWDQWRSKIDEYGSIVRQLAEEYHTLFVPLQEVFNQAAQNVAAEYWLWDGVHPTAAGHQLLAREWLKTVQQSDLAIR	PGPT0001840_1697	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
AK002_02969	1053			hypothetical protein	ATGAAGTCTCATGTATCCGACCGGATTAAACTCCCTCCGGGATTTTGGACAGGATTAAGACAAATGGGGATTGCCGCTGAGGACGTGGCCCGCAAAGCGCGCTTGCCGCTTACGATCATCACTGGAGCGGAAGTCACCACCGCCCAATACTTCGCGATTTGGCAGGCGTATTCCGATCTCGTGGGTGATCTGGCCAAAGGCATCGTCGAGCTTGCAACCGTTTTTGAAACGGCGAAGTACCCGCCAACCGTCTTAGCGACTTACCACGCTCGTGACTATCGCGAGGCTTTATATCGAATGTCCCGGTACAAACAGCTTTGCCCCCCTGAAGGTTTGCGTATCACCGAGGAGGGCGAGCTCTGCACGATTGATCTGGAGTGGGGGAACAGCCTGCAGACCGGTCCGCCGATGCTGGTCGGAATCACGCTGGCATATCTGCTTGAGCTCGGACGCCGGGGGACAGGTCAACCGTTGAGGGCACGACTCGTGGAATTTTCCGAGCCTATGGGCGATGTAGAGACTCTTGAAGCTTTTTTTGGCTGCCGAATCCGGTTCGGCGCAGCACGCAATCGGCTCTCGCTGCTTCGACAAGATCTGGATCGTCCCTTTATCTCTTACAATGAAGAACTGCTGGAGATTCTGACTCCCGCCCTGGACCGATCGCTTGATGAACGGCGGAACAGTCGTTCCGTTTCCGATGTGGTCAAATGGTTCTTGAAACGCTGCCTCATCGGAGGGCGTCCCGACATTCACGTTGTCGCGAAAGAAATGGGAATGAGCGACCGTACCCTGCAGCGCAAGCTGACAGATGAAAACACGAGCTACAAGCAGCTGTTGACACAAGCCAGACATGAGCAGGCGATCGAGTATTTGGCAGACCCTTCTATCGATATTAAAGAAGTGGCGTTTATGATTGGTTATGCAGACCAGAACTCATTCTACCGCGCGTTCCGCATGTGGGAAGGCGATACCCCTTCGAATTGGCGCGCTGCCAACATGGATACCCGCTCGATGGCAGCTATTCGGCCTGAATTTCCGAATCTTCAGGAATGA	MKSHVSDRIKLPPGFWTGLRQMGIAAEDVARKARLPLTIITGAEVTTAQYFAIWQAYSDLVGDLAKGIVELATVFETAKYPPTVLATYHARDYREALYRMSRYKQLCPPEGLRITEEGELCTIDLEWGNSLQTGPPMLVGITLAYLLELGRRGTGQPLRARLVEFSEPMGDVETLEAFFGCRIRFGAARNRLSLLRQDLDRPFISYNEELLEILTPALDRSLDERRNSRSVSDVVKWFLKRCLIGGRPDIHVVAKEMGMSDRTLQRKLTDENTSYKQLLTQARHEQAIEYLADPSIDIKEVAFMIGYADQNSFYRAFRMWEGDTPSNWRAANMDTRSMAAIRPEFPNLQE				NA	NA	NA	NA	NA
AK002_02970	795	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGGATATGGAATTAAACAATAAAACAGCGTTGGTTACAGGCTCTACAAAAGGAATAGGCAAGGCGATTGCCATTGAACTTGCCAGAGAGGGAGTCCATGTTCTCATTAACGGACGAAATGATGAAGAGGTTGAACGAACCGTACATGAAATAAAATCGAAATTTCCGAATACCTCTCCGCAAAAGGCAACCGCCGATTTGGTGGATATCGGTCAACGAGAGGCTCTATTCGAAAAATACCCTCATGTTGATATTCTGGTTAACAATATGGGGATATACGAAATCATGTCGTACGAGGACGTTGACGATGAAGTATGGGAGACATACTTCCGCACCAACGTGCTTGCTGCAAACGGATTAACCAAATTTTATTTGCCTGGCATGCTGAAGAATGATTTTGGCCGCATTATCTTTATGGCGAGTGAAGAAGCCGTGATGCCTTCCGGACAAATGCCGCAGTACTGCATGACAAAATCCATGCTGTTATCCTTGGCCAAAAGCTTGTCCAAATTAACGAGAGGAACTGAAGTTACCGTCAATACGATCATGCCGGGACCGACTCTCTCCGAGAACGTGCAGCATATTATCGAAGGTATATACGCGAATGAAGATATGACCTTTTCGGAAAAAGAGAAGGCATTCATGGCTGCGAACCTGCCTCAATCTGAAATTCAACGATTCATTAGGCCTGTTGAGATTGGTAGACTGGCAACATTTCTATGCAGTCCCTATGCTTCTGCGTTTAAAGGTTCTCCTATTCGTATGGATGGGGGAATGGTTCCGACCATTTTCTAA	MDMELNNKTALVTGSTKGIGKAIAIELAREGVHVLINGRNDEEVERTVHEIKSKFPNTSPQKATADLVDIGQREALFEKYPHVDILVNNMGIYEIMSYEDVDDEVWETYFRTNVLAANGLTKFYLPGMLKNDFGRIIFMASEEAVMPSGQMPQYCMTKSMLLSLAKSLSKLTRGTEVTVNTIMPGPTLSENVQHIIEGIYANEDMTFSEKEKAFMAANLPQSEIQRFIRPVEIGRLATFLCSPYASAFKGSPIRMDGGMVPTIF	PGPT0003180_3518	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
AK002_02971	738	tatC1_1	COG0805	Sec-independent protein translocase protein TatCd	ATGACCGAGCAGGGACAGGAGCAGGAGCTGCATCTATTAGAGCACTTAACGGAGCTCCGTAAGCGGATCCTCATCACATTGGGCACCTTCTTGGTGGCCCTTTGTGCCGCTTTTCTATATGTGGAACCGCTGTACGAAATGCTGACTCGCGACGTTGAAGGGCAGCTCCAAGTGCTGGGACCGACGGATGTGATATGGGTATACTTCATGATTGCCGGCGTGATCGCCCTTGCGGTGACGATGCCGGTAGCCGGTTTTCAAGTATGGCGATTTGTCGTCCCCGGTCTGAGCACCGTGGAACGCCGGGCTTCCTTGGCGTATATCCCCGCAATCGGGGGACTCTTTCTCGCAGGCCTGGCCTTTGGCTACTTTATCGTATACCCTATGGTCCTGTCCTTCCTGGATTCGCTCTCGAATCATTTCATTACGGCCTATACCGCCGAAAAATACTTCCGCTTCATGATCAATATGACCGTACCGTTCGGCGTTCTGTTCGAAATGCCGGTTGTCATCATGTTCTTAACGTCGATCGGCATTCTGAATCCGCTGCGATTATCGAAAATGCGGAAAATTGCCTATTTGCTGCTGACGATTGCAGCCGTCACCATAACGCCGCCGGATTTTGTGTCGGATATTCTCGTCATCGTGCCGCTGTTCCTCTTATATGAGATCAGCATCGGACTGTCTCGCATGGTGTACCACAAAAGGCTGAACAAGCTGGAGCTGATAAGCGAGTAA	MTEQGQEQELHLLEHLTELRKRILITLGTFLVALCAAFLYVEPLYEMLTRDVEGQLQVLGPTDVIWVYFMIAGVIALAVTMPVAGFQVWRFVVPGLSTVERRASLAYIPAIGGLFLAGLAFGYFIVYPMVLSFLDSLSNHFITAYTAEKYFRFMINMTVPFGVLFEMPVVIMFLTSIGILNPLRLSKMRKIAYLLLTIAAVTITPPDFVSDILVIVPLFLLYEISIGLSRMVYHKRLNKLELISE	PGPT0029295_4248	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
AK002_02972	186	tatAd_2		Sec-independent protein translocase protein TatAd	ATGCCTCTAGGAAACATCGGCGTGACAGGATTGATTCTCATCTTGTTGATCGCCTTGATTATCTTCGGCCCTTCGAAGCTGCCTGAACTAGGACGGGCCTTCGGCCGAACGCTCAGCGAATTCAAGAACTCCACGCGGGAACTGGTTTCAGCGGAAGATATCCAAGACGGAGACAAATTGAAATGA	MPLGNIGVTGLILILLIALIIFGPSKLPELGRAFGRTLSEFKNSTRELVSAEDIQDGDKLK	PGPT0029290_4745	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
AK002_02973	681			hypothetical protein	ATGAAACCATTTTGGAGCAGGTGGAAAGGTCCCCTCTTGGGATCCGTACTGCTTCTTTCATTAACAGCCTGCTTGAATCAAACAGATAATCAACAAAATGCGCAGTCCACCCAGCCAGGTAATGCCGACTCCGTTCACCTGCACAGTGCCGATGTGATTCCGAGCTATCATGGGCCGAAAACCGAAACAACCAACGTCCAAGGCAAAACCACAAGCGGTATGGGCATGTCCGTGTACAGCATGATCGGTTCATCCAGCCTGCATGAAGGCGGCGTCTCTTCCCATGTACAGTCACGACTTGCAGGTCAAGGCATTGACGGAGTGAAAGCTTTTGTCCTGAATGACACGATTGTCCTGGCACGCGCAGAATCAAAGGTTTCTTCCAACCACTATGACAGCATGCAGAAGAAGGTGTTAAGTCAGACGGAAGGAATGTCGGGCAAAGGTGAGCCGAACGAAGGTGTAATGGGAGTCAAGGCCGTGGACAACGATAATATGTCGCAAGCCAAAGAGCAAGTGAAGAAGATGTTTAATGAAGAAGTGCAAATTCTAACGGTGACCAATCCGCAAGCACCTGCGCTGATTGACCGCATTGCCACGAAGCTGCATGATTCACCGCGCGACGAGTCGATAGCCAGGGATATTTCGGAGCTGCTTCGGATGGCTTCGGATAAAAAATAG	MKPFWSRWKGPLLGSVLLLSLTACLNQTDNQQNAQSTQPGNADSVHLHSADVIPSYHGPKTETTNVQGKTTSGMGMSVYSMIGSSSLHEGGVSSHVQSRLAGQGIDGVKAFVLNDTIVLARAESKVSSNHYDSMQKKVLSQTEGMSGKGEPNEGVMGVKAVDNDNMSQAKEQVKKMFNEEVQILTVTNPQAPALIDRIATKLHDSPRDESIARDISELLRMASDKK				NA	NA	NA	NA	NA
AK002_02974	762			hypothetical protein	TTGAGCGAACAAGACCAACAACAAACCAAACCAGCGAAGCCTGACGGCTCGCAGACGATGTCACGGCGGAAGTTCCTGAGAAACTCCGGTTATGCCGTGGGAGGTGTCGTGCTGGGCGGTGTACTCGGATATCTTCTGCCAAAGCAGAAAACTCCGCCTGCAGCACCGGCGCCTGCGCAGAATGAAAACAACTACAACCAAGCGTTAATGTTCTTTAACCAAGAACAATATAGGATCACGGAGGTAGCCGTAGAGCGCATTTTTCCGGCGGATGACAATGGTCCTGGAGCCAAAGAGCTGGGCGCTGCATTTTTCATCGACCACCAGCTGGCCGGTGATTGGGGTTTCAATGCAAGAGATTATATGCAGCCCCCTTTCTATGTTGGAGAGAAAACGCAAGGCTATCAGGGCCGATTAAGACGGCGAGAGATATTCTACATCGGTCTCCGCGAGATTCAAAACTACAGTCAGAAAAAGTATCAAAAAGACTTCCCGAGCCTGGCGCCGGAGGAACAGGATGCCGTGTTAACTGCCTTTCAGAACGACGAGGTCAAATTGACAACAATCTCGGCCAGCGGGTTCTTCAACCTGCTTCGCAGCAGCACATTGGAAGGAGTCTACAGCGATCCCCTATACGGTGGCAATAAAAATATGCAGGGCTGGACGATGCGCCAATATCCGGGTAACCAAATGGCTTACACGAATATTATTGAGAAGAATTTCACCGTCATCCCGCCGAAGAGTTTAAAGGACCACCTATAA	MSEQDQQQTKPAKPDGSQTMSRRKFLRNSGYAVGGVVLGGVLGYLLPKQKTPPAAPAPAQNENNYNQALMFFNQEQYRITEVAVERIFPADDNGPGAKELGAAFFIDHQLAGDWGFNARDYMQPPFYVGEKTQGYQGRLRRREIFYIGLREIQNYSQKKYQKDFPSLAPEEQDAVLTAFQNDEVKLTTISASGFFNLLRSSTLEGVYSDPLYGGNKNMQGWTMRQYPGNQMAYTNIIEKNFTVIPPKSLKDHL	PGPT0001305_113	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0001305-EC_1_1_99_3G|gadh3-K06152	NA	NA
AK002_02975	1713			Gluconate 2-dehydrogenase flavoprotein	ATGGCCAAAAAATTACCGAAAACGGATGTTGTCATTATCGGCGTCGGCTGGGCTGGCGGGATTATCGCCTCGGAATTGACCAAGAAGGGTTTATCCGTCGTCGGTTTGGAAAGAGGCAAAGAAAGGGTAACGGAAGACTACTACATGGCTCACGATGAGCTCCGTTACGCGCTTCGGTACGATTTAATGCAGGACCTTTCCAAAGAAACGATTACCTTTCGCAGCACCGAAAAAATACGTGCACTGCCGATGAGGCAGTACGGGTCGTTTCTGTTAGGGGAGGGACTGGGAGGAGCCGGCGTGCACTGGAACGGGCAAACGTTCCGTTTCCTGCCCTACGATTTTAAAATCCGGAGCATGACGGAAGAGCGTTATGGGAAAGATAAAATACCGCCGGAAATGACGATCCAGGACTGGGGCATCACCTACGATCAGCTCGAGCCGTATTTTGATAAGTTCGAGAAGACGACCGGCATCTCGGGCGAGGAAAACCCCTTGGCAGGGAAACGTTCGAATCCGTACCCTACGCCGCCCATGCTCCACACGCCATCCATGAAGATGTTTGCGGATGCTGCGAAAAACCTGAAGCTCAATCCGTATACGGTTCCTTCTGCCAATCTGTCAGAAAGCTACACGAATCCGGATGGCATATCAAGAGCCGCATGCCAGTATTGCGGATACTGCGAGCGGTTTGGCTGCGAATACGGAGCGAAAGCGGATCCTGTCGTTACCGTAATTCCTGTTGCGAAAAAAACCGGAAAGTTCGAAATCCGAACCCATTCTTATGTTAGAAGAATTCTGCATAAGGGCGGAAAGGCAACGGGCGTCATGTACACGGACCTCACGACCGGAGAGGAAATCGAACAACCGGCGGATATCGTAGTATCCACGGGATACGTATTTAACAATACCCGTTTGATGCTCCTCTCTAAAATCGGCAAACCATACGACTCGTCCAGCGGGACGGGCGTGATTGGCAAAAACTATGCCTATCAGGTGATCAAGGGGAATGCCGCCGGATTTTTTGAGGATAAATTCAATCTGTTTGCCGGTGCGGGAAGCCTAGGTATGGGTCTGGACGATTTTAACGGCGACAATTTCGATCACTCGGACTTGAAGTTCATTCATGGGGGGAACATTGCCCACACCATAACCGGACAAAGACCCATTCAAAACAATCCGGTTCCGGAAGAATCACCGCGCTGGGGAAAAGAGTTTAAGGCGAATTCCTTGAAGTATGCAAACAGCGTGCTGTCCGTAGGCTCTCAGGGCTCATCAATGCCTTTCCGGCATCACTATCTGGATTTGGATCCAACCTATAAGGACGCATTCGGAGACCCGTTGATTCGAATCACGTTTGATTTCGAAGAGCAGGACCGCCAGTTGGCCAGGTACCTTTCCGATCGCTGCGCGGAGATTGTGCAGGAGATGGGAGGCCAGAACATTATGAAATTGAAGGAACTGGGACCTTACGAAATTACGACATACCAATCGACTCATAATACCGGCGGGGTCATTATGGGAGAGAACCCTGGCAATTCGGCCGTCAACAACTACATGCAAATGTGGGATATGGAAAATTTATTTGTGGTAGGCGCATCCGCTTTCCCGCATAATAGCGGCTATAATCCGACCGGGACGGTCGGGGCTCTTGCTTATCGCACAGCGGAGGGAATTGTGGAATACAGCAAAAAAGGCGGGCTGTTAGTATAG	MAKKLPKTDVVIIGVGWAGGIIASELTKKGLSVVGLERGKERVTEDYYMAHDELRYALRYDLMQDLSKETITFRSTEKIRALPMRQYGSFLLGEGLGGAGVHWNGQTFRFLPYDFKIRSMTEERYGKDKIPPEMTIQDWGITYDQLEPYFDKFEKTTGISGEENPLAGKRSNPYPTPPMLHTPSMKMFADAAKNLKLNPYTVPSANLSESYTNPDGISRAACQYCGYCERFGCEYGAKADPVVTVIPVAKKTGKFEIRTHSYVRRILHKGGKATGVMYTDLTTGEEIEQPADIVVSTGYVFNNTRLMLLSKIGKPYDSSSGTGVIGKNYAYQVIKGNAAGFFEDKFNLFAGAGSLGMGLDDFNGDNFDHSDLKFIHGGNIAHTITGQRPIQNNPVPEESPRWGKEFKANSLKYANSVLSVGSQGSSMPFRHHYLDLDPTYKDAFGDPLIRITFDFEEQDRQLARYLSDRCAEIVQEMGGQNIMKLKELGPYEITTYQSTHNTGGVIMGENPGNSAVNNYMQMWDMENLFVVGASAFPHNSGYNPTGTVGALAYRTAEGIVEYSKKGGLLV	PGPT0001300_582	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0001300-EC_1_1_99_3A|gnd-K06151	NA	NA
AK002_02976	381	cccA		Cytochrome c-551	ATGTTCAAAAAAGGGTTACTGTTTGTACTGCTATTGACAACTTTTGCTTTTGCAGCGGTAGCATGCGGCGGCAATAATACATCCGAGCCTGCTCCAGCTCCTGCAGAAAACGGCGGGCAAGCTCCGGAAGGAGCAACCGGCGGGGATGCCACCAACGATGAAGCCATGTCACTGTACAATGCCAACTGCATGGCTTGCCATGCTACCGATTTAGGCGGAGGCGGAAGCTTTCCCAGCCTGCAAAACGTAGGATCCAAATATGATGCCAGCCAAATTGCCGGCATCATCACGAATGGGCGCAATGGAATGCCGGCATTCCAAGGCAAGCTGACGGAAGACGAAATTAATGTACTGTCCCAATGGTTGGCTGCCAAAAAATAA	MFKKGLLFVLLLTTFAFAAVACGGNNTSEPAPAPAENGGQAPEGATGGDATNDEAMSLYNANCMACHATDLGGGGSFPSLQNVGSKYDASQIAGIITNGRNGMPAFQGKLTEDEINVLSQWLAAKK				NA	NA	NA	NA	NA
AK002_02977	723			hypothetical protein	TTGAGAAATATGACAGAAGCATTTGTATCCCCCTATAGTACCTGTTCCCTGGATTGCAGTTCGGTCGTTTGTTTTTTTGCCGGTGTTCTGACCTATCGGAATAACTTTGAAGACGCAGCCAGCGAGATAGCCCGAAGATACCCAAATGCCAAAATTGTGATGATCTTTCCTTACGGGATGGCCAACGGCAGGGAGGGGGCCGCTTTATTCCGTCTGTTGGCCCGGCAGCTTACTCAAGTCGGCTATGATCTGGCGCGTGAGTGCTCCCTTCGAGTAATCAACGCTGCGGAGATCCTCCGCGACCATGCCGCAGGCTGCGACCGCCTGATCCTGATTGGGCACAGTGCTGGAGGCGTAGTTGCCTACCGGACAGGATTATATATGAAAGAGAAGTTTGGATTGCAGGAAGTTCAGGTGTTTGCCGTGGGGTGTCCCAAATTCTATTTGAAGGATATCCCCTACAATAACCGGTTTACATATATCACGGGCCAGAAAACGGACAGGATCACCCAAATCGGCAGCTGGCGCAAACCCGGTTCGAGAGTGTACCGGGGAAGGCCGGGGCGCGAGATTCAATTGGATTTTAATCCGAATCATCAAGGATGGCGGTTTCATGCGTCCTATTTTCTGAAATCGGCCTGGACCGATTCGAACCAAACGTTCCGTACCAATTCGGAAGACCTGGTCTCCAAAATCCATGAATTGGACTCAGAGAATGAATAG	MRNMTEAFVSPYSTCSLDCSSVVCFFAGVLTYRNNFEDAASEIARRYPNAKIVMIFPYGMANGREGAALFRLLARQLTQVGYDLARECSLRVINAAEILRDHAAGCDRLILIGHSAGGVVAYRTGLYMKEKFGLQEVQVFAVGCPKFYLKDIPYNNRFTYITGQKTDRITQIGSWRKPGSRVYRGRPGREIQLDFNPNHQGWRFHASYFLKSAWTDSNQTFRTNSEDLVSKIHELDSENE				NA	NA	NA	NA	NA
AK002_02978	1353	yvbW	COG1113	putative amino acid permease YvbW	ATGGCAATACAAGATGGAGATTCACTACAGAAGAAATTGAGGCCAAGGCATATCAGCTTTATGGCTATGGGCGGCGTCATCGGCACCGGCATATTTAAGGGAAGCGCCGAGACGATCGGTCTCGCCGGACCTGGGGTGATTTTCTCTTATATCTTTGCGGGACTGCTGCTGTTGGTCGTGATGGGTGCCATGACGGAGATGGCTACGGTATATCCGGGTCGAAACATGAAGGACTTTGTTCGGCAAGCGTTCGGAGAGCGGGTATCCTTTGTCATGGGCTGGATGTATTGTTTTATGTGGCTGTCGGTTTGCGTGATCGAAGTGATTGCGGCAGGCAGCTTTCTGCAGTACTGGTTTCCCGACGTACCGCTGTGGATGCTGAGCCTGGCAAGCGCAGCGCTCATTATTCTCATCAATATGATGAGCGTCGGAAGCTTTGGCGAAGTAGAGTTCTGGCTTGCTGGCATCAAAATCGCCATGATTATTATCTTTATCGTGCTCGGGAGCTTACTAATGTTCGGAGTGATTCCGAGCTCCGCTCCCCCGTACCTTCACAATTTCACAGCGCACGGCGGGTTCCTGCCAAACGGATGGTTCGCCATCTTTTCCGCCTTGCTGGTCGTTACCTTTTCGTACGGCGGCTCCGAGCTGATCGGACTCACATTGACCGAAACCGAGCATGCGGACAAAATCCTGCCGAAAGTCGTGCGCAATTTTATTTTACGGGTGATTTTGTTCTTCACGCTGCCGATTCTGATTATATGCGGATTGATTCCGTGGAACCAGCTCGGCGGAGAGACGAGTCCTTTTGTTCAAGTGCTGTCGGCTACCGGGCTTCAGGGTACGGCCCACATCATGAATTTTATTCTCGTGACGGCCGTGCTGTCGGCAGCCAATTCCGGCATCTATGGCGCGACGCGCATGATTTATTCCATGGCAGCCGCCGGAGAGGCGCCCAAGAGCCTGGCTAAAACCACGAACAAAGGCATACCGCTTAATACGCTGAAACTCTGCGCGATCATACTATTAGCAGGTTCCTTGCTTGGATTGATCGCGCAAGACCAGCTGTTCCGGGTTTTGATGGCGGTCCCAGGCTTCGTCGTTGTGCTGGTATGGATCTGCATTTGTTTCTCGCAGCTGAAACTCCGCAAAGCTTATCCGAAGCAGCCCAGCTTTAAGGTATGGGGGTTCCCCTACATTACCGGGGTAACTGCCCTCTGCTTGTCAGTGATCGCGGTCCTGTTTCTGATTGACGGTCAGAACCGGGTCAGCATCAGCGTATGTCTGGCCGTACTGCTGCTACTGGTTGTTTGGTCCATCATGAAATTCAAAAAAGAGAGCAGAGTCGGATAA	MAIQDGDSLQKKLRPRHISFMAMGGVIGTGIFKGSAETIGLAGPGVIFSYIFAGLLLLVVMGAMTEMATVYPGRNMKDFVRQAFGERVSFVMGWMYCFMWLSVCVIEVIAAGSFLQYWFPDVPLWMLSLASAALIILINMMSVGSFGEVEFWLAGIKIAMIIIFIVLGSLLMFGVIPSSAPPYLHNFTAHGGFLPNGWFAIFSALLVVTFSYGGSELIGLTLTETEHADKILPKVVRNFILRVILFFTLPILIICGLIPWNQLGGETSPFVQVLSATGLQGTAHIMNFILVTAVLSAANSGIYGATRMIYSMAAAGEAPKSLAKTTNKGIPLNTLKLCAIILLAGSLLGLIAQDQLFRVLMAVPGFVVVLVWICICFSQLKLRKAYPKQPSFKVWGFPYITGVTALCLSVIAVLFLIDGQNRVSISVCLAVLLLLVVWSIMKFKKESRVG	PGPT0000815_2107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK002_02979	1092			hypothetical protein	ATGGGTTTGATCGTACATAAATTTTGCAGTCTGAAATGGCTGTTCATAGCCGGATTCTTCGTCTTGATCGTGGTGACGATCCTTTTAATCGCAAAGCCTGCATTTACACAAACACATCATGAAGACGATTATATCGCGACAGTTGACGGAGTAGAGATTCATGTAAGCGAATTTCAAAGAGCCATCGATGCCAATCGAGCCGGTATCATCAAGTATTTCCATGAAAAATATGATGCTGCACCGTCGGCAGCTTTTTGGACTACGCCATACGGAGGTAACGAGATTCCGCTCGAGTTGATCAAAAAGAAGGCGCTCGAAGATAGCATCAATCAAAAAATTCGACAGATCCTTGCCAAAGAGCAGGGAGTGCTCCCCGATATCAGTTACGCCGGTTTTATGCAAAATTTCAACCTTGAAAATCAGAGAAGGCAACAAGCCATCAAGAATCATCAGGTAATTTTCGGTCCTGCTCAATATACGGAGGAAGCCTATTATGAATACGTGATGGCGAACACGGTCTTATCGGTCAAGAACCATCTGATGGAACATGACTGGAAGCCGAGTGAACAACAGCTGATCACGTTTTACGAGGCGAACAAGAGAAGGTTGTACCATGCACCCGCAACGGTGAAGGTACGACAATTATCGTTATCTTTTCTGGATGCCAATCGGAATGTCGATACACTTCTCAAAACGCAGGAGAAACGGAAGATCGAGACGGCTAGGGAGAAAATCTCATCCGGGGTTTCTTTTGAGCAAGCCGTAAAGGACATTAAACAAGATGACCGGGTTACGGAGCAGGTCTATAACTTGGATAGTTACAGACACAATGTCAGAAGTCCGGTAGCCCAAGCTTCGGCTGACCTTCTTCCAGGAGAGGTAAGCGAAATTATTGAAGAGAACGGCAGCTTCTATCTCATGCTGTGCATGGAGAAAGATCAGTTAGGTTCCAAGTATCTGGGATTTGACGGTATAAGAGAACAAGTGTTAAAGGACTATATCGATAACCAATATGAGGAGTACGTACGTCAGCGGTTAACCGATGCGAAGGTTGTATTGAATGAGGAGTTGTACAGAAAATTCCTGATGTAA	MGLIVHKFCSLKWLFIAGFFVLIVVTILLIAKPAFTQTHHEDDYIATVDGVEIHVSEFQRAIDANRAGIIKYFHEKYDAAPSAAFWTTPYGGNEIPLELIKKKALEDSINQKIRQILAKEQGVLPDISYAGFMQNFNLENQRRQQAIKNHQVIFGPAQYTEEAYYEYVMANTVLSVKNHLMEHDWKPSEQQLITFYEANKRRLYHAPATVKVRQLSLSFLDANRNVDTLLKTQEKRKIETAREKISSGVSFEQAVKDIKQDDRVTEQVYNLDSYRHNVRSPVAQASADLLPGEVSEIIEENGSFYLMLCMEKDQLGSKYLGFDGIREQVLKDYIDNQYEEYVRQRLTDAKVVLNEELYRKFLM				NA	NA	NA	NA	NA
AK002_02980	3216			hypothetical protein	TTGAGCCAATCGTTTTTCAAAAAGCTTATCTGTATGGTTTCGATTTTTTCTTTCGTTTGCAATTGGGTTACCGTTTCACCGTCGACCGCTTTAGCTGCGGGAACCACTTATTATGTGGACAACACAGGGGGAGATGATGGGAATAATGGCACAAGTCAAGACTCTGCATGGAGATCGTTGGATAAAGTGAACGCGACTACCTTTGCCCCAGGCGACAAAATCTTGTTCAAAGCCGGGGAGAGTTGGAACGGCAGACTGTGGCCTAAAGGTTCAGGTTCAAGCGGAAATCCGATCATTATCGATATGTACGGTTCCGGAAGCAAACCATTAATCGCAGGAATTACGTCCGAACTGGAAGCCGTATTTTTGAAAAACCAGGAGTACTGGGAAATCAACAACCTAGAGGTAACAAACAGCTCGCCGCTGCCTTTTGATCGAGATTGGGAGAATCCGCGGGGCCAAAGGCGCGGTGTTTATATCTTGAATGAGGAAGCTGGTTTATTAAATCACATCTATATCAAAAACATGAACATCCATGATGTCGATGGATCGTATACCACACGCTCCGGGGGGATTATTTTCGATTCGGTTGGGTCGATGACACCCAGTGCTTTTAACGATGTTCTCATTGACGGAAATATACTGACGGACGTGGATGCCTATGGCATATACATTGGCTCCAATTGTATCTTGCGCTACGGAATGGGCGATTTATGGCCTTGGGTACCTAAACCATACGGGCCTTGGACGCCGTCTACTCAAGTGAAAATATCCAATAATACGGTCATCAGAGCAGCAACGGGCGGCATCGCGTGGAATGTCACCGATGGAGCGGTAGTCGAGCGCAACACCGTCCAACAAGCTACGTATTTGGCAACCAACGCTTCCATTTGGTGGGCGTATGCGGACAATAATCTCGTTCAATTCAACGAATCGTTTGCCAGCGTGAACGGTGCGGAAGACGGGCATGGCTTCGACGTGGATGCAGGAAACATCAATTCGTTGGTTCAGTACAATTACAGTCATGATAACGCTGGCGGCTTTATGCTGTTCGTAAACGACACGTACTACACAATCAATACCATCGTTAGATACAACATTAGCCAAAACGACAGAAAAAGCATATTCCGATACAGCGGTTCCATTGATAACGTCTATAACTACAATAATACGATATACGTAGGGAAATCATCCGGCAACCCGGTCATGAGCGATTACTTCACCAAGGCATCGGGTGCTCCGCGCAACATTCATAACTATAATAATGTGTACTACAGCGTCGGCGATAAGGGATGGGACTTGACGGGCCAGACGTTTGACTACAACGCATATTACGGAGGGAACACACTGGTGCAGGCCGATGCCCATAAGATAACGGACGATCCAAGATTCGTTGATCCCGGTAGCGGCGGGAATGGCATGGATACAGTACATGGGTACCAATTGCAAGCGAATTCGCCACTCATTGGAGCAGGCATTCGCGTAAGCGATAACGGAGGGCGGGATTATTTCGGCAACCCGATATATAATGGCGCTCCCGATATCGGTGCCCACGAATACGAGGGCAGTGTGCCACCAGCCGGGAACATGCCTGATCCGATCGTCATCGTTCCGAAACGTCCAGCCAGCACACCTGTTGACAATCTGGCTACGCAGGCAGCTGCTAGTACGACATTTGAATCGTCCTCTTCAGGTCCGATCGAACATATCATCGATAATGAATACGACACGGCATGGGAAACCGGCATTACGCCTTCATTTCCGAACCATATCACGCTCGATTTCGGCGTGCAAACGCTGATGGCCAACCAATTGAAGTTAAATACTAGATACGGGCAAGAATGGGGAATCACGAACTTTGATCTTGAATACAACAATGGTTCGGGATGGATTCCCCTGCGTACAAATATTAATCTGAATTGGGATCTGAACACGGGGGCAAACGAGATCAAATCCGTGGAATTTCCACTTACTCGATTCTCTAAAATCAGGTTGAAGGTTCATGACGGTGCTAACCAATCGGGGCGAATCGCACTGAACGAGCTTGAATTGTATAACAATCCTGAACTTTCCAAAGATATGGTCACCACAACCTTTGCTACGGGGGCAGGCACCATTACCAGCATCATCGACAACAATTTGAACTCTGCATGGGGAAGTACCGGTGATATTACCTTCCCAGGTTATATTACCCTTGACTACGGCAATCATAGCGTACCGGTCAACAAGGTTACGTTAGTTACGTTTTTTGGAATCGGCCAAGGCATAACTAATTTTGACGTGGAGTATTTCGACGGTAGCCGCTGGGTAACGGCTTTATCTGACGCATCGATCGAATGGGAGTTTAATGACAGCACCAAAGAGCACCAGAGCGTTTCTTTTCCAACGGTAAACGCCTATAAACTTCGACTAAAGGTGAATGACGGGAATCGGATATGGGGGAACATTGCATTAAATGAACTCATTGTTGAGCATACCTCTAATAACGTCCCCGTTATAGGCATTACGTTGGACAAACCGGAGCTCGTGTTTAATTCCTCTTCCGGACGAAGCGTAGAGCTCCAAGCAACGGTTTTGCCGGATCATGCAACCAATAAGAATATGACATGGAGCACGAATCAAGAGCGGGTGGCAACGGTAGACGATCATGGCATCGTGACTGCAGAAGGGGAAGGAAGGGCTATCATCACGGCCACGACGGACGACGGTGATTTTCAAGCTTCCAGCCATATTACGGTGGATTGGACGGCTCCGGAGATTACGATAAACCAAGTCGCATCCTCCGAATTCAACACGGGTGCGTTTCAACCCGAATTTGAAATGGCCGACACGCTGTCGGGTATCGACCAAGCAAAAACCGAAGTCATGCTGGATGGGAAGGTCATAACGGATCTAATGGATATAGCTTTATATAAATTTGAGCTGGGTACACATACATTTACGATAAAGGCTATGGACTTAGCAGGGAATGCATCTACACAATCCGTAGACTTCCAAGTGAAAACAAGTTATGCCTCTCTTGAGGAACTGGTTCAACGTTTCGCAGACGAGGGAACAATCAACAACAAAGGGATTGCTAACAGTCTGCTGAAAAAATTGCAAAAACAAAACCTGAGCAGTTTCATTTCAGAAGTACATGCACAAAAAGGGAAGTTTATCTCCACCGAGATTGCGGAATATTTGATATGTGATGCAGCAACGCTCCATAATCCATAG	MSQSFFKKLICMVSIFSFVCNWVTVSPSTALAAGTTYYVDNTGGDDGNNGTSQDSAWRSLDKVNATTFAPGDKILFKAGESWNGRLWPKGSGSSGNPIIIDMYGSGSKPLIAGITSELEAVFLKNQEYWEINNLEVTNSSPLPFDRDWENPRGQRRGVYILNEEAGLLNHIYIKNMNIHDVDGSYTTRSGGIIFDSVGSMTPSAFNDVLIDGNILTDVDAYGIYIGSNCILRYGMGDLWPWVPKPYGPWTPSTQVKISNNTVIRAATGGIAWNVTDGAVVERNTVQQATYLATNASIWWAYADNNLVQFNESFASVNGAEDGHGFDVDAGNINSLVQYNYSHDNAGGFMLFVNDTYYTINTIVRYNISQNDRKSIFRYSGSIDNVYNYNNTIYVGKSSGNPVMSDYFTKASGAPRNIHNYNNVYYSVGDKGWDLTGQTFDYNAYYGGNTLVQADAHKITDDPRFVDPGSGGNGMDTVHGYQLQANSPLIGAGIRVSDNGGRDYFGNPIYNGAPDIGAHEYEGSVPPAGNMPDPIVIVPKRPASTPVDNLATQAAASTTFESSSSGPIEHIIDNEYDTAWETGITPSFPNHITLDFGVQTLMANQLKLNTRYGQEWGITNFDLEYNNGSGWIPLRTNINLNWDLNTGANEIKSVEFPLTRFSKIRLKVHDGANQSGRIALNELELYNNPELSKDMVTTTFATGAGTITSIIDNNLNSAWGSTGDITFPGYITLDYGNHSVPVNKVTLVTFFGIGQGITNFDVEYFDGSRWVTALSDASIEWEFNDSTKEHQSVSFPTVNAYKLRLKVNDGNRIWGNIALNELIVEHTSNNVPVIGITLDKPELVFNSSSGRSVELQATVLPDHATNKNMTWSTNQERVATVDDHGIVTAEGEGRAIITATTDDGDFQASSHITVDWTAPEITINQVASSEFNTGAFQPEFEMADTLSGIDQAKTEVMLDGKVITDLMDIALYKFELGTHTFTIKAMDLAGNASTQSVDFQVKTSYASLEELVQRFADEGTINNKGIANSLLKKLQKQNLSSFISEVHAQKGKFISTEIAEYLICDAATLHNP				NA	NA	NA	NA	NA
AK002_02981	996	rutD_1		Putative aminoacrylate hydrolase RutD	GTGGCACAAACTGAGAAAATGAATACGAGGAACGGGACGAAATCCAAGAAAGCACGAAGTATAGTGCTTAAAATCATTGCAGCAATCGTTATTGCCATCATTCTTTTTCTGGGCATTGTTTATATCAGCAATGTGATCAGCAGCCATTCCGAAGCGAAGCGAATAGAGCCCTATGGCCAACAGGTATCTGTCGATGGCAAAAATATGAATGTATATGTTCAAGGAGCAGGCGAAGAAACGATTGTACTCCTTCCAGGTGCCGGAACAGCAGCACCCGCTCTTGATTTTAAGCTGCTGATCGATGAATTATCTCCATTTTATAGAGTTGTTGCCATTGAGCCTTTTGGTTATGGCTTAAGTGATGGAACCGATAAAGAACGAACCGCGGATAACATCGTAAGTGAAGTCCATGAAGCTCTGCAGCAGCTTAATATTAACCGTTATACGCTCATGGGCCATTCCATTGCAGGCATTTACGGAATTGATTATGTGAGCAAATATCCAAACGAGGTAATAGCTTTTGTCGGCATTGATAGCAGTGTTCCGACACAACCAGGCATGGACGTTACATTCCCAATGAAAAAGTTTGCGTTTCTTAAACAATCAGGTCTTATGCGATTGATGATGAAACTCGGTCCCGATCCCTATGCTGCTCTAGCATTTGATGATCATACCAAAGAACAAATGAGATTGATTACGAATAAAAACGCGTTAACCGCCACGATATTTAACGAGATGGAGCATATTCCCTCTAATTTTAAAGGGGCACAAGATTTAACCTTCCCTAAAGATCTTCCGCTTCTTCTCTTTGTACAAGCGGATAATCCGGACTTTCCAACCTGGATTCCATTACATGAAGAGCAGGTAAAGGATTCTGACCACGGAAAAGTAATACCCCTTGAAGGAGAACATTATCTGCATCATACCAAGTACAAGGACATTGCAGAAACCTTTAGCGAATTTATCAAAGAAGTAAAAGGGGGGCCAGCCCTTTAA	MAQTEKMNTRNGTKSKKARSIVLKIIAAIVIAIILFLGIVYISNVISSHSEAKRIEPYGQQVSVDGKNMNVYVQGAGEETIVLLPGAGTAAPALDFKLLIDELSPFYRVVAIEPFGYGLSDGTDKERTADNIVSEVHEALQQLNINRYTLMGHSIAGIYGIDYVSKYPNEVIAFVGIDSSVPTQPGMDVTFPMKKFAFLKQSGLMRLMMKLGPDPYAALAFDDHTKEQMRLITNKNALTATIFNEMEHIPSNFKGAQDLTFPKDLPLLLFVQADNPDFPTWIPLHEEQVKDSDHGKVIPLEGEHYLHHTKYKDIAETFSEFIKEVKGGPAL	PGPT0019765_22	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
AK002_02982	924			hypothetical protein	ATGAAAAAACGTTTTATAGCTGGAATAGTAGCAACGGCGATTTTGATTCCAACCGCAGCATTTGCTGCACCTACCCTGATTGAAATGCTGACCAGAACGCCGATGACCATTGAACAAGTCAAGACGGATGAGATTGGCAAAGCTACCCTTGAGAAGCTGTACCGCGCATTTCCCGAAACCAAAAAGTTTGAGATCATCGATGCAAGCACCGTTCAAGGTGTCCAAACCAGCATCATCCTCCAGGAAAAAGGAGGAACCGGCAAAAAGATAGCCCTTCATACCAACAGTATGACGGGTGAGATCGAACACGTGATTCAAGAGAATTGGGAGCCTAAGGAGAAGCCGCTCACGGCTTTAACCGAACAGGAAATCAAGTCGAAGGTCGATCATCTGATCCATGCGTTATACGGCAGCATCAAAGCGTATGAGTTTGCTATGGAGCCAATGGAGAACCCGGATCAGAAAACGTTGATGCTGAATTACACCCAAAAGGGATCAACAGTCCCCTTCTACCAGGTACTGGTTCAGGACCAATCCATCAGTCTTTCGCTGATTGGAGGTGAAACGTCGTCATCAGACGATAAAGTAGAAGGTTTCTTCACTACGAATGGCAAGCCTGATTATTTTGCAGATGCCTTTTTGAATGACGACAAACTTTTTTCCTTACTAAACATGAGCCCAATTGAATTAAAACAAGAATTAGCTAAAGGTAAATCCGTAGTGGAGATTGCAGCATCCAAAAATGTCTCGAAGCAGCAGGTTGTGGATGTCATTGCACAATCACAGGTTGATTTGCAAATCCAAAGCGAAGCGAATGGCGAACCTCCTGCCAACAACCTTTCAAATGATCAAATGTTAAAAGCTATTGAACCGAAAGTATTGCAAGTTATTGAATACAAAACGGTAACGCCATCGAAGAAATAA	MKKRFIAGIVATAILIPTAAFAAPTLIEMLTRTPMTIEQVKTDEIGKATLEKLYRAFPETKKFEIIDASTVQGVQTSIILQEKGGTGKKIALHTNSMTGEIEHVIQENWEPKEKPLTALTEQEIKSKVDHLIHALYGSIKAYEFAMEPMENPDQKTLMLNYTQKGSTVPFYQVLVQDQSISLSLIGGETSSSDDKVEGFFTTNGKPDYFADAFLNDDKLFSLLNMSPIELKQELAKGKSVVEIAASKNVSKQQVVDVIAQSQVDLQIQSEANGEPPANNLSNDQMLKAIEPKVLQVIEYKTVTPSKK				NA	NA	NA	NA	NA
AK002_02983	576	sigW_8	COG1595	ECF RNA polymerase sigma factor SigW	ATGCAAAGTGAATATATGTTCCAATTACTCAAACAAATGAAAGACGGTGATCAACTGGCATTTCATACGATGTATGATGCCACCTATCAGGACGTCTACCGGACCGTTTCCTTTCTGGTGGATCATCCGCAGGACCGGGAAGATGTCATGAATGAGATTTATATGCAAATGTGGACGTCGCTGGCCAATTACGATACGAACCGACCTTTCCATTTCTGGCTGCATGGCCTCGTCATCCGTCAAGTACAAAGATTTCGAGTCAAGCGCTGGCGGAGATTCCGAATCTTCGAGCGCATTCGTGCCTTCTCCCGGGAAGAGTCGCATTGGGATCAACCTTCGGTGTTGATGGACGGGACGAACCAAATGATATCGCAGGCCATTCACAAACTGACGGATAAACAGCGAACGGTCATTATCCTCCGCTTTTTTCACGACTATACGCTGGAGGAGATTGCGACCCTACTCGATATTCCGCTGGGTACCGTCAAGTCCAGATATCATGCGGGCATCCAGGCGCTTCGAAAAAACATATGGAATCTCCCCCCGGAAAGGATGGAAAAGATCAATGACTATTGA	MQSEYMFQLLKQMKDGDQLAFHTMYDATYQDVYRTVSFLVDHPQDREDVMNEIYMQMWTSLANYDTNRPFHFWLHGLVIRQVQRFRVKRWRRFRIFERIRAFSREESHWDQPSVLMDGTNQMISQAIHKLTDKQRTVIILRFFHDYTLEEIATLLDIPLGTVKSRYHAGIQALRKNIWNLPPERMEKINDY	PGPT0014960_6963	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_02984	183			hypothetical protein	ATGCTCGACAACTTGGAAAGCGACTACGACTGCTCCAAAGCCGGCGACGATCTCCATCAACTTAAGCAAGAGCTTGCTGCGTTGCGGGGACAAGGCACTGGAGACTCGGAAACGCAGGAACGATTGAACCGATTGGAGAATCAAATCTCCTTCATCATGAACAAGTGCGACATTCATCATTAA	MLDNLESDYDCSKAGDDLHQLKQELAALRGQGTGDSETQERLNRLENQISFIMNKCDIHH				NA	NA	NA	NA	NA
AK002_02985	804	phnE_1	COG3639	Phosphate-import permease protein PhnE	ATGAGCAAATCATGGAACGACGTCGTTCCCCAACCGAAAAAAAGCCGCCTCCGCTTACTGATCTACGCCCTGCTTGCCGTTGTTTATATCTGGGCCTTTGCGGGCATTCCGTTCTCCGGGATCAAGGAGACCGCCGGTCAGGTGACGAAGGCCATATTCTCCGGTTTGTTTTCGCCGGATTGGGATTTTGTCTACTTGCCAGGCGGAGAAGATCTGCTTCGGGGCTTGCTTGATACGCTGGCCATTTCCATATTGGGGACGGTCATGTCGGCATTGATCTGCATCCCGTTCGCTTTCTGGGCCGCAGCTAACATGAGCCGGACGGTATTCGCTTCCGGCTCCGGCAAAACGCTGCTCAGCTTGATCCGCGTTTTTCCCGAAATCGTGATGGCGCTGCTGTTTATCAAGGCGGTCGGGCCCGGATCTTTTGCCGGCGTACTCGCATTAGGTCTGCATTCCGTCGGCATGCTAGGCAAGCTGTTCTCCGAAGAGGTGGAGCAGATTGATACGGGTCCGACCGAGGCACTGATCGCCGCGGGGGCGACGCGGCTGCAAATGGTGCGATTCGCCGTGCTGCCGCAGGTGCTGCCGGGTTTTCTCTCGTATATCCTTTACCGTTTCGAGATTAACCTCCGCTCCGCCACCATCCTCGGGGTCATCGGCGCAGGCGGCATCGGCACACCGCTCATTTTTGCGCTGAGCTCACGGAACTGGGACCGCGTCGGCATCATTTTGCTCGGCATCATCGTGATGATCACCGTGGTCGATTTCATTTCGGGATCGCTCCGGAAAAAGCTGGTTTAA	MSKSWNDVVPQPKKSRLRLLIYALLAVVYIWAFAGIPFSGIKETAGQVTKAIFSGLFSPDWDFVYLPGGEDLLRGLLDTLAISILGTVMSALICIPFAFWAAANMSRTVFASGSGKTLLSLIRVFPEIVMALLFIKAVGPGSFAGVLALGLHSVGMLGKLFSEEVEQIDTGPTEALIAAGATRLQMVRFAVLPQVLPGFLSYILYRFEINLRSATILGVIGAGGIGTPLIFALSSRNWDRVGIILLGIIVMITVVDFISGSLRKKLV	PGPT0002530_2450	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
AK002_02986	825	phnE_2	COG3639	Phosphate-import permease protein PhnE	ATGAAGATGGAACTCGATACGGCGCCATTCGAGCAACCGGGGCAGCCTCCCCTGCTCCGTCCGAAACCACCGGGCAAACTAAAGCATTACTTAACGGCGGCTTTCCTGCTGCTTCTGGTATGGGGCAGTTCGCTTCAGACGGATGCTACCTTCAAGGAGCTTGTGGAAGGTCTGCCGAACATGCTCGACCTGCTGCGGGAAATGTTCCCGCCGAGGTGGAGCTATCTCGACAACATCTGGCAGGCGATGCTGGAGACGATACGCATGGCGCTGATCGGGACCACGCTTGGCGCCTTTTTGGCGGTTCCGGTGGCGCTGCTATGTGCAGGCAATCTGATCAAGAGCCGCTGGATCACTTATCCGATCCGCTTTTTGCTGAACTTGGTCCGTACGATTCCGGACCTGCTGCTCGCCGCTTTTTTTGTCGCGATACTGGGACTCGGTCCACTGCCGGGAATCTTTGCCCTATCCGTTTTTTCGCTGGGCTTGATCGCGAAGCTCACCTATGAAGCGCTGGAAGCAATAGATCCCGGTCCTCTGGAGGCCATGACTGCAGTCGGTGCAAATCTGGCACAGTTGATCGTGTATGGCGTCTTCCCGCAAATTCGGGCGCATTTCGCTTCCTTCACCTTGTACACGTTCGAAATCAACATCCGTGCCGCTGCCGTACTCGGTCTGGTAGGGGCCGGCGGTATCGGTCATTATTATGAAGTGACGCTCGGCTTCTTCGAATATGACAAAACATGCATGATCATCATCTTCACCCTGGTTATGGTCTTACTGATCGATTACCTTAGTACGAAATTGCGGGAGAAATGGATATGA	MKMELDTAPFEQPGQPPLLRPKPPGKLKHYLTAAFLLLLVWGSSLQTDATFKELVEGLPNMLDLLREMFPPRWSYLDNIWQAMLETIRMALIGTTLGAFLAVPVALLCAGNLIKSRWITYPIRFLLNLVRTIPDLLLAAFFVAILGLGPLPGIFALSVFSLGLIAKLTYEALEAIDPGPLEAMTAVGANLAQLIVYGVFPQIRAHFASFTLYTFEINIRAAAVLGLVGAGGIGHYYEVTLGFFEYDKTCMIIIFTLVMVLLIDYLSTKLREKWI	PGPT0002530_1741	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002530-phnE-K02042	NA	NA
AK002_02987	774	phnC	COG3638	Phosphate-import ATP-binding protein PhnC	ATGATTGAAATTCGCAATGTTTCAAAAACATACGCTAATGGAACCAAGGGATTACATCATATAAATCTGACGATCGGCCGCGGCGAGTTCGTGGCGATCGTCGGGTTGTCCGGTGCCGGTAAGTCGACCCTGCTGCGGTCGATGAATCGGCTTCATGACATTAACGAGGGTGAAATCGTGATCGGCGGCCAATCGATAACATCGGCCAAGGGCAAGGAGCTGCGCCGCATCCGTCGGGATATCGGGATGATCTTTCAGAGCTTCAACCTGGTGAAGCGCTCTTCCGTGCTTCGCAATGTGCTGGCCGGACGCGTCGGCTACCATTCCACCCTGCGCACCCTATTGGGCCGTTTTCCCAAGCCCGATATGGACTTGGCCTTTCAAGCGCTGGATCGGGTAGGCATTGTCCAAAAGGCGTATGCCCGCGCGGACGAGCTGTCCGGCGGACAGCAGCAGCGGGTTGCAATCGCCCGCGTGCTGGCGCAGGAGGCCAAGATCATTCTGGCGGACGAGCCGGTGGCTTCCCTGGATCCTTTAACCACAAAGCAGGTCATGGATGATCTGAAACGGATTAACGCGGAATCCGATATTACGACCATCGTGAATCTGCATTCGATCGATCTGGCTAGGCAGTACGCTACGCGGATTATCGGTATGCGCGCCGGAGAAATTGTTTTTGACGGCCCCGTGTCGGACGCGACGGACGAGCGATTTACGGAAATATACGGACGGCCATTCGGCAAGGATGGAATATTGGAGGAAACGGCGGTATGA	MIEIRNVSKTYANGTKGLHHINLTIGRGEFVAIVGLSGAGKSTLLRSMNRLHDINEGEIVIGGQSITSAKGKELRRIRRDIGMIFQSFNLVKRSSVLRNVLAGRVGYHSTLRTLLGRFPKPDMDLAFQALDRVGIVQKAYARADELSGGQQQRVAIARVLAQEAKIILADEPVASLDPLTTKQVMDDLKRINAESDITTIVNLHSIDLARQYATRIIGMRAGEIVFDGPVSDATDERFTEIYGRPFGKDGILEETAV	PGPT0002520_1566	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002520-phnC-K02041	NA	NA
AK002_02988	990	phnD	COG3221	Phosphate-import protein PhnD	TTGAAAAAATGGATGAAATTCACGATGCCCCTGCTCTTATCCGTCGCTGTCTTCAGCGGATGCGGAGGGAATGCCGACACCGGCGGCAAAGCCGCTGCCAACGCGAGCCAGGAGAAATCGCAAGGTACGAATGCGGACAGCAGCCCAGCATCGGAACCGACCGGATACGTCCCTGAAAAATTGACGGTGCAATTCGTCCCTTCCCAGAATGCGGACACGCTTGAGGCCAAAGCTAAACCGCTCGAGAAGCTATTGTCCGATAAAGTCGGCATCCCGGTAGAGGTTAGCGTATCGACCGACTATAACACCATCGTAGAAGCAATGGCTTCCAAGAAAGTGGACGTCGGCTTTCTGCCGCCCACCGCCTATGTATTAGCCAAAGAGAAAGGCGCTGCCGAAGTCATTCTTCAGGCCCAGCGTTTCGGCGTTAAGGATGAAACCGGCGAACCGACGGAAGAGCTTGTTGATTTTTATAAGGCGATGCTGATCGTGAAAAAAGACGCTGCCATTCAATCCGTGGCTGATCTGAAGGGAAAGAAAATCGCCTACCAGAACGTCTCGTCTTCTGCCGGCTATGTATGGCCGGCTGCGGTCTTGATGGATAACGGAATGGATCCGCTGAAGGATGTTCAGCCGGTTACGGTCAAAGGTCATGACCAGGCAGTGCTTGCCGTGCTGAACGGCGATGTCGACGCGGCAGCCATCTTCCAGGATGCCCGCAATGTCGTCAAGGGGGATTACCCGACCGTGTTTGAAGATACGCGTGTGCTGACCTATACCGAGAAGATTCCGAACGATACGATCAGCGTGCGTTCCGATATGAACCCCGAATGGGTGGAGAAGCTGCAAAACGCGTTTATCGAGATCGGACAAGACGAGGAAGGCCACAAAATCATTTCCGAAATTTACACGCATGAAGGTTATGTCAAATCGGACGACACTCAATTTGAGATTGTCCGGGAATATGGCGAAAAGGTAAAGACCGAGTAA	MKKWMKFTMPLLLSVAVFSGCGGNADTGGKAAANASQEKSQGTNADSSPASEPTGYVPEKLTVQFVPSQNADTLEAKAKPLEKLLSDKVGIPVEVSVSTDYNTIVEAMASKKVDVGFLPPTAYVLAKEKGAAEVILQAQRFGVKDETGEPTEELVDFYKAMLIVKKDAAIQSVADLKGKKIAYQNVSSSAGYVWPAAVLMDNGMDPLKDVQPVTVKGHDQAVLAVLNGDVDAAAIFQDARNVVKGDYPTVFEDTRVLTYTEKIPNDTISVRSDMNPEWVEKLQNAFIEIGQDEEGHKIISEIYTHEGYVKSDDTQFEIVREYGEKVKTE	PGPT0002525_723	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_TRANSPORT,PGPT0002525-phnD-K02044	NA	NA
AK002_02989	1623	yfkN	COG0737	Trifunctional nucleotide phosphoesterase protein YfkN	ATGAAATCGACGATCACAAGAACGATCGCCGTGCTGGCTACCAGCGACCTGCATGGGCATCTGTATCCAACCGATTACCGAACCCGGGACGAACGGGATATCGGACTCGGCAAGCTGGCGTCCCTGATCCGTGATGAACGGCGCAGACATCCGGACTTGCTGCTGATTGATAACGGAGATGTGATTCAGGGATCCCCGCTGGCTGCCTATGCATTAAAAAACAATGCCGAGATACACCCCATGATTGCGGCTATGAATGGACTGGGTTATGATGCGGCGGTGCTGGGAAACCACGAATTCAATTATGGTATGGGAACCGTGGACAACGTCGTGCGAAGTTCCGTGTTCCCTTGGCTGTCAGCAGGCATCCGACTGCAGGGCAGCAAGAAGCCGGCTTTCGGACGGCCTTACCTGATCAAGGATCTGAACGGCATCAAGGTGGCGGTTCTAGGCGTGACGACGCACTATATTCCGAAATGGGAAAACCCGTTTCACATCCAGGGTCTGGAATTCCATGATGCATTGGAAACCGTCAAGGAATGGGTGCCGCGCATCCGAAGGGAAGAACGGCCCGATGTGATGGTTGTGGCATACCACGGCGGATTCGAGCGTGATATGAAGACGGGGGAGCCGACGGAAAATCTGACGGGAGAAAATCAGGCCTATGCGATGTGTGCTGAGGTGGAGGGCATCGATGTGCTGATCACCGGGCACCAACATCGCCTGCTGGGTACGCATTTGCATGGGGTGGCGGTCGTTCAGCCAGGCTGCAACGGCCAGGCTATCGGCAAGATCAGCGTTGATCTCGTTCGGGAACAAGAACGCTGGGCCATCGTGGAGAAACGAGCCGAGCTGCTGCGACCGGAGCACGGGACGGCGGCCGATAAGACCGTGCTTTCTTCCAGCGGGGACCTCGAAGACCGGACGCAGGCATGGCTCAACGAAACGATTGGACGCGTTCACGGCAGCATGAGCCTGAGCGATCCGGCAGCCTGCCGGCTTGCGGAGCATCCTTTTATCGAGTTCATTCATCGCGTGCAGCTTGAATTTGCAGGGGTTAACGTTTCCTGCGCGGCTTTACTAAGCGAAACTTCCAAGGGCTTCGGAGAGATCATTACGAGGCGGGATATTCTTACGAACTTCATGTTTCCGAATACCCTGGTCGTGCTGCGCCTGACCGGCAAAGACATCCGGGCCGCGCTGGAGCAGGCGGCCTGCTATTTCGTGGTCGGCCCGAACGGGAGCCCTGCCGTAAATCCGGCATATTTGGAGCCGAAACCCCAGCATTATAACTATGACATGTGGGAAGGCATTGAATATACGCTAAACATTGCGGAGCCCCCGGGATCCAGGGTGATCAATCTGAAATACAACGGAGTGGATCTCCCGGACGAGAAGGAGCTGGATGTGGTCATGAACAGCTACCGGGCTAGCGGAGGAGGAGACTACGTGATGTTCCGGGGCAAGAGAGTGATTCGCGAAATTCTCATCGATACCGCAGAGTTAGTGGAGGAGTATATATCGGGACGTGGGTTCATAACGGCTTCATGCAATCACAATTGGAAAGTGGTCGTTGAAGCCAATGCCCCGCTTCCAAAGATCGCAAATAAAATCTTGTATTGA	MKSTITRTIAVLATSDLHGHLYPTDYRTRDERDIGLGKLASLIRDERRRHPDLLLIDNGDVIQGSPLAAYALKNNAEIHPMIAAMNGLGYDAAVLGNHEFNYGMGTVDNVVRSSVFPWLSAGIRLQGSKKPAFGRPYLIKDLNGIKVAVLGVTTHYIPKWENPFHIQGLEFHDALETVKEWVPRIRREERPDVMVVAYHGGFERDMKTGEPTENLTGENQAYAMCAEVEGIDVLITGHQHRLLGTHLHGVAVVQPGCNGQAIGKISVDLVREQERWAIVEKRAELLRPEHGTAADKTVLSSSGDLEDRTQAWLNETIGRVHGSMSLSDPAACRLAEHPFIEFIHRVQLEFAGVNVSCAALLSETSKGFGEIITRRDILTNFMFPNTLVVLRLTGKDIRAALEQAACYFVVGPNGSPAVNPAYLEPKPQHYNYDMWEGIEYTLNIAEPPGSRVINLKYNGVDLPDEKELDVVMNSYRASGGGDYVMFRGKRVIREILIDTAELVEEYISGRGFITASCNHNWKVVVEANAPLPKIANKILY	PGPT0021400_1587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021400-cpdB-K01119	NA	NA
AK002_02990	501			hypothetical protein	ATGTATAGAACCGTTGCCGATTTCATCACGGAATGGAAGAACGAAGCCGCTCTAACGCAAAGGATTTTAGACAGTTTGACGGATGAATCCTTACAGCAGCAAGTATATCCTGAAGGGAGGACGCTCGGAAGGATTGCATGGCACTTCGTAACGAATATTCCTGAATACTTGTCTGAATTTGGCCTTGTCATCGATCAGGTACCAAATTCAGCAGAAGTACCTGCAGCGAAGCAAATCTCGGAGACGTTTAAGCTTCTAAGTTCCGACGCAGCAAAAGCAGTTGAAGAACAATGGACGGATGAGACGTTAACGCAGGTACAGAATGCTTTCGGTCGTCAGGAATCCAATGCTACCATCTTCATGGGATTGATCAAGCATATTGTCCACCATCGGGGACAGGTTACCGTTCTGATGCGACAAGCGGGTTTGAATATCCCGGCGGTATATGGCCCTTCTAAGGAAGGGTGGATACAAATGGGAGTGGAACACCCGCCGCTGTGA	MYRTVADFITEWKNEAALTQRILDSLTDESLQQQVYPEGRTLGRIAWHFVTNIPEYLSEFGLVIDQVPNSAEVPAAKQISETFKLLSSDAAKAVEEQWTDETLTQVQNAFGRQESNATIFMGLIKHIVHHRGQVTVLMRQAGLNIPAVYGPSKEGWIQMGVEHPPL				NA	NA	NA	NA	NA
AK002_02991	936	xerD_2	COG4974	Tyrosine recombinase XerD	ATGTACTATACCGAAGTTTTTGAGCACTATGAGCGGGAAATGAAGCTGTTTCTCTCCTATATGAAGGATCGCGAATACGCCAAGGATACACAACAAGCCTATCTTCATGATATCAAGCACTTCCTGAACAGCCTTGAGGGGAAACCCATCACGGAAGTCACGGACATTGATGTGATGTATTATCTGACGCAGGTGCGGGAAAGCGGTGCCGGCGCGCGATATCGAAATCGCTGCCAGTCCGCCATCCGTCTCTTCTATAAAGTCATGATCCGTTTCAAATTGGCGAGCATCAATCCTGCCATGGATATCGAAAAAGCCAAGGTGGAGAAGAACCGTCAGCCTACCTATCTTCAAAAGCCGATTCTGGATGCTTGCCTGAATGGAATTGAAGGAAGATATAAAATCCGCGACGTGACCATCATCGCGCTTATGGCTTATGCGGGTCTTCGGGTTAGCGAGATCGTGAAGCTGAACCTATCGGACTTTGATATGGAGAACTCCAGCATCGCAGTGCTGGGTAAGGGCAATAAATGGAGATACATCCCCCTCCCCGCCGAATTGAACAAGCTGCTGCATATGTACCTCGAAGAACGGATGGTTCCCAGAAGCACAAAGGATAACGCCTTCTTCGTATCGCAGTTTCGGCGCAGAATCAGTAAACGCATGGTGCAGACGATAGCCGAGAAGACGTTTGAGGCGATGACCGAGCAGTTTCCGCAGTTATCCGGTCAATCTCTATCCGCTCATAAGTTAAGACACTCCTTTGCCACCGAGCTGCTGCGCAACGGGGCTGATCTGCGTGCTGTGCAGGAGCTCCTCGGACACGAGGATATATCCACCACGCAGATTTATACCCATGTGCTGGATGAGACAAAAGAACGCGCCATGAACAAAATCCGCCCGGCGATCCCCCTTCTCTTCTCGACTAAGCCGTAA	MYYTEVFEHYEREMKLFLSYMKDREYAKDTQQAYLHDIKHFLNSLEGKPITEVTDIDVMYYLTQVRESGAGARYRNRCQSAIRLFYKVMIRFKLASINPAMDIEKAKVEKNRQPTYLQKPILDACLNGIEGRYKIRDVTIIALMAYAGLRVSEIVKLNLSDFDMENSSIAVLGKGNKWRYIPLPAELNKLLHMYLEERMVPRSTKDNAFFVSQFRRRISKRMVQTIAEKTFEAMTEQFPQLSGQSLSAHKLRHSFATELLRNGADLRAVQELLGHEDISTTQIYTHVLDETKERAMNKIRPAIPLLFSTKP	PGPT0022000_3641	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK002_02992	1125			hypothetical protein	ATGACGACAGTCCAACAGCAAGCAGCCAAGCGAGCCATGATCGAATGGCTGGCTAATGAACGAGAGCTTGGACATAAGCCCAGCAAAATCGAATTAGCAGGAGAATTCAATCTCCATGGCATGCATTACTACATATTCAAATATAAGAAGACCATGCTTGGTAAATGGCTGGTTGGCGTGTGCGGCGGTTATGAACATGCCTCGGACACCGAGCATTGCGGTCATGTATTCAGTGAGATGCAGCCTTATTATCCTGCTACCGCGGAGGAGCAAGCGATATCCATGGTCAATATGATCCGGGAGTATTGGATGCAGCAGGCGGCGCAGTATGAATCGGCGGAGAATCCAGAGGATAACGCGACAGATAACCAAACGTCATCCGGCATATTCAACGGCTTCGTGCTGTTGAACTCGCCCGAATGCGATCTGGAGCAGATCAGAGCTAATCTACTGCGCGATTGGAGCATCTCCTGCTCCCCCGAAAACAGCAGCGCCGAAGAGGAGAAGGAAGGAATGCTGGTCTTTGAGGCGGAGGGCTGCATGATTGCAGTCAGCTTCGTCGATGCCCCGGTGCCGGATGGCGAGGCCGAGCATTACGCTCAAGGGAACTACCTGTGGCCCGAGGCTGCCGAGGTCACCCAAACCCATGTCGCCCAGCTTATTCTGGCCGTGCTTAAGCGCTCCGCGTCTCCGCTGGATAGCGGCAAAGTGTTCGCCAAACTGGCGGCCAGCTGTCTGAAGCTGCCGAATGCCGTCGGGCTCTATTCGTCCGGCACCGTATTTCAGCCTGAGTTCTATATCGAGATGGCCGAGACGATGAAGACCGAGGATCTGTTTCCCCTGTTAAATCTCGTATATTTTGGTCTAGTTGGCACCGAAACCGGAATTAACGGATATACCTATGGGCTCAGAGCCTTCGGCAAGGACGAGATCGAGGTGCTGGACAGCCAGGCTACCCCTGCCGAGCTCCGTGAATTCCTGATGGACATTGCTTTATACATCGTGGAGCAGGACGTCACGCTAAGGGACGGGGAAACCATCGGCTTCTCCGCGGAACAGAAGCTTCCGATTACCCGCTCCGAGGGCGTGTATATTCCTGATGATACTCTTAAAATCAAGTATTGA	MTTVQQQAAKRAMIEWLANERELGHKPSKIELAGEFNLHGMHYYIFKYKKTMLGKWLVGVCGGYEHASDTEHCGHVFSEMQPYYPATAEEQAISMVNMIREYWMQQAAQYESAENPEDNATDNQTSSGIFNGFVLLNSPECDLEQIRANLLRDWSISCSPENSSAEEEKEGMLVFEAEGCMIAVSFVDAPVPDGEAEHYAQGNYLWPEAAEVTQTHVAQLILAVLKRSASPLDSGKVFAKLAASCLKLPNAVGLYSSGTVFQPEFYIEMAETMKTEDLFPLLNLVYFGLVGTETGINGYTYGLRAFGKDEIEVLDSQATPAELREFLMDIALYIVEQDVTLRDGETIGFSAEQKLPITRSEGVYIPDDTLKIKY				NA	NA	NA	NA	NA
AK002_02993	483			hypothetical protein	GTGAAACTTGCAAGGATTTCATATGAACAGAAGAGCGTATTGCGCAGCCTCATGGAGTTATATCAATACGATATGAGTCCGTATGAGGATGACAGCGATAATGACGTTAACGAGCACGGTCTTTACGATTATAAGTATTTAGACCATTACTGGACCGAAGAGGGACGCCACCCTTACTTTGTCAAAGTATCCGGGAAGCTTGCCGGATTTGTGTTGGTGAGGGAAATCGAAGCCTCAGATCTTTCAGATCCCGGTTACTCCATGGCAGAATTTTTTATTCTTAAGAAATACCGCAAGCAGGCTATCGGCAAACAGGCGGCTTTCCAAGTATTCGAGTGGTTCAGGGGGAAGTGGAGCATCGCTTGGTTGGAAAAAAATCTGCCGGCGCAAAACTTCTGGACAACGATCATCTCGGAATATAAGGCGGGCGAATATTCGGAAACCACGTATGCAGGCAACCCTGCCATCGAATTTTATTCCTAG	MKLARISYEQKSVLRSLMELYQYDMSPYEDDSDNDVNEHGLYDYKYLDHYWTEEGRHPYFVKVSGKLAGFVLVREIEASDLSDPGYSMAEFFILKKYRKQAIGKQAAFQVFEWFRGKWSIAWLEKNLPAQNFWTTIISEYKAGEYSETTYAGNPAIEFYS				NA	NA	NA	NA	NA
AK002_02994	507			hypothetical protein	ATGCAGGCAACCCTGCCATCGAATTTTATTCCTAGTGCCAGCTCTTACGAAAAGTTCTTGTTAAGCGTATCGGACGATTGTATTATGGAAGGAAAAGTAGCCGGAGATGATCTTATGAGCAAGATTCAATTCTCAGCACAAGTTCGATTGGTATCCGATATTTCCCGATCCAAGCAGTTTTATGAAGAGGTGCTCGGTTGTGAAGTGAACGATGTTTGGGCGGTCAGGGATAATTTTGCGCTCGGTTTCAAACTGATTCAGGCGGCAGCGATTACGGACGTTAACCCGAATCCGGCAGGCAAGGACCAACAGACGCCATGGGATACATACGCTTATGTGGATACGCACCAAGAATTAGATGAATTATATGAAGAATTGACCTCCAGCGGGGCCGAAGTGGTACAGGAGCCTGTGCTCATGGAAGCAGATTGGGGCGTGTGGAAGGATTTTGCGATCAAAGATCCGGATAATTACGTGATTGCTTTTGGCTCCGGTAAAAGGAATTGA	MQATLPSNFIPSASSYEKFLLSVSDDCIMEGKVAGDDLMSKIQFSAQVRLVSDISRSKQFYEEVLGCEVNDVWAVRDNFALGFKLIQAAAITDVNPNPAGKDQQTPWDTYAYVDTHQELDELYEELTSSGAEVVQEPVLMEADWGVWKDFAIKDPDNYVIAFGSGKRN	PGPT0013300_4027	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
AK002_02995	426			hypothetical protein	ATGGACATCGATACAAAGCAGGTTTTGATTAGCAGCGACCCTTCCCTCCTGAATATGGACGTCATTGTACAATTTTTGCGTCAAAGCTATTGGGCTAACGAACGCTCCGATGAGAAAATCAAGAAATCGCTAGAAGGCTCAACATGCTTTGGAGCCTATCTCGACAACCGGCAGATCGGATTTGCAAGGGTCGTGACCGACGACGCAACCGTGTATTGGTTATGCGATGTGTTTGTGGATGAGTCTTACCGTGGGCATGGCATAGGAAAGAAGTTAATCGAAACGATTACCACCAGCGATGACTACCGAAATTTATTCGGCATCTTGTCGACCCGGGATGCTCATGGCCTATACGAACAATATGGATTTGTCCGCGATCATGGAAAAACATTGACTCGATTGCCGGACTTTCTGAGAAAAGCTTAA	MDIDTKQVLISSDPSLLNMDVIVQFLRQSYWANERSDEKIKKSLEGSTCFGAYLDNRQIGFARVVTDDATVYWLCDVFVDESYRGHGIGKKLIETITTSDDYRNLFGILSTRDAHGLYEQYGFVRDHGKTLTRLPDFLRKA				NA	NA	NA	NA	NA
AK002_02996	597	tmrB		Tunicamycin resistance protein	ATGATTATTTGGGTGAACGGCGCATTCGGCTCGGGTAAAACCCAGGCTGCGCATGAGCTGCAGCGAAGAATACCGAACTCGTACGTGTACGATCCGGAAAATGCAGGTTATTTCATTCGCGATAATCTTCCGAAGGATGCCACACGCGATGATTTTCAGCATTATCCGATGTGGAGGGAGTTTAATTACTCCATGTTTAAGCATATGGACCAGGAATCCGAACAATTGATCATTGCTCCGATGACCATATCAAACGCGGCATATTTCGATGAAATCGTTGGGAACCTGAGACGGGACGGCGTGGTTGTCCAGCATTTCACGTTGTGTGCTTCCAAGGAAGTCCTGCTAAGACGATTGCGGAGCCGAGGGGAAGGTGCGAATTCGTGGGCAGCGCAGCAAATCGATCGGTGCATGAGCGGATTCTCGAATGAAGTGTTCCAGCGTCATATCGATACCGATCATCTGTCAATCGACGAGGTGGTAGAAACCATCGGTGCTTTGGCCGATGTGAAGTTATTGCCCGATAACCGCAGCAATAGCCGGAAGAAATTCGACCGTTTAAAAACCAAGTTTGCGCACATTCGGTTTTTCGGGTAA	MIIWVNGAFGSGKTQAAHELQRRIPNSYVYDPENAGYFIRDNLPKDATRDDFQHYPMWREFNYSMFKHMDQESEQLIIAPMTISNAAYFDEIVGNLRRDGVVVQHFTLCASKEVLLRRLRSRGEGANSWAAQQIDRCMSGFSNEVFQRHIDTDHLSIDEVVETIGALADVKLLPDNRSNSRKKFDRLKTKFAHIRFFG				NA	NA	NA	NA	NA
AK002_02997	972	mntA	COG0803	Manganese-binding lipoprotein MntA	ATGAAGAACAAGAGGACTAGTAGAGGCAGGATATTCATGGGGGCAGCCATTCTGGGTATATTGCTGGTATTATCCGCATGCGCATCGGGAGAAGCGAAGCAGGACGGCGCGGCAAGCGAGCAGCAAGATAAGAAAATACGCGTGGTGACAACCATTGGACAAATTGCGGAACCCATCTCCGTTATCGGAGGAGATCGGGTGGAGGTGCTGAGCTTGATGGGACCTGGCGTCGATCCGCATTTATATAATGCCACTCAAGGCGATATCAAGAAGCTGGATAGCGGGGACGTTATTTTCTATAGCGGTCTTCATCTGGAAGGCAATATGACGGAAATCTTCGAACAGATCGGAAAAAACAAACCCGTGCTCGCGATAGCGGACGCCATTCCGAAGGATCAGTTGCTTCAGGATGACACGCAGGCGACCGATCCTCACGTATGGTTTGATATCGATCTATGGAAGACCTCCTTGGACTCTGCAGTGGAAGAGCTAAAGTCGCTGTCTCCCGCCGATGCCGACTATTTTGAAGAGAACAAGCAGAAGTATTTTGCGCAATTGGATGAGCTGAAGGCGGAGGCGAAGGATAAGCTGGGGCAAATACCGGAAGAGCAGCGGGTCATGGTTACCGCTCATGATGCCTTTGGGTATTTTGGCCGTATGCATGGTCTGGAAGTCGTTGGTCTTCAAGGCCTGAGCACCGAGGATGAAATCGGCCTCTCGGATATTAACGGCACGATCGACCTACTGCTGGAGCACAAGGTGCCCGCCGTGTTCGTCGAATCCAGCGTCAACCCGGCATCGATCAATGCCGTCATTGAAGGAGCTGCCAAGAAAGGGCTAGACATTAAGCTTGGAGGCGAGCTCTTCTCCGATGCCATGGGCGAGACGGGAACGACGGAAGGCACTTATATCGGAATGTACCGTCATAATGTCGAAACAATCTATCATGCGCTAACAGGAAGTGGTGAATAA	MKNKRTSRGRIFMGAAILGILLVLSACASGEAKQDGAASEQQDKKIRVVTTIGQIAEPISVIGGDRVEVLSLMGPGVDPHLYNATQGDIKKLDSGDVIFYSGLHLEGNMTEIFEQIGKNKPVLAIADAIPKDQLLQDDTQATDPHVWFDIDLWKTSLDSAVEELKSLSPADADYFEENKQKYFAQLDELKAEAKDKLGQIPEEQRVMVTAHDAFGYFGRMHGLEVVGLQGLSTEDEIGLSDINGTIDLLLEHKVPAVFVESSVNPASINAVIEGAAKKGLDIKLGGELFSDAMGETGTTEGTYIGMYRHNVETIYHALTGSGE	PGPT0003835_144	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003835-troA|mntA|znuA-K11707	NA	NA
AK002_02998	729	mntB	COG1121	Manganese transport system ATP-binding protein MntB	ATGTCTGTACTTGAAGTTCAAGATCTCCATGCATCGTATCGAAAAAATAAAGTGCTTCACGACGTGTCCTTCAACGTGGAGCAGGGCTCGTTAACCAGTATCGTCGGGCCGAACGGCGCCGGCAAATCCACCTTGCTGAAGGTCATGCTGGAGCTTCATCCGAAGCTGTCGGGGAATGTTTCCTTCTTCGGGTCCAGCTTAAGCAAAACGAAAACTCGCGTCGGCTATGTGCCGCAGCGGGGATCCGTGGACTGGGATTTCCCGACCGATGCGCTGGATGTCGTCATGATGGGGTTATACGGACGGGTGGGGTGGCTGAAACGGCCAAACAAGAGTCATAAGGAAAAAGCGATGGCATCGCTTGATCAGATGGGCATGGCAGACTTTGCCGACCGGCAGATCAGTCAGCTCTCCGGCGGACAGCAGCAGCGCGTATTTCTCGCAAGGGCGCTCGTTCAGGATGCCGATCTCTATTTCATGGATGAGCCGTTAGCTGGAGTCGATGCCGCAACCGAGCGGGCAATTATGACAACCCTGAAGGATCTGAAAACGGCGGGCAAAACCGTGATGGTGGTCCATCATGATCTGCAGACGGTTGAAGATTATTTCGACCATGTGCTGTTGTTGAACCGTACGGTCATTGCGCACGGGAAGACGGAAGACGTCTTCACGAAGGATCAAGTTTACCGCGCATACGGCGGTTCACTTCGCTGGATGAAGGAGGCGTAG	MSVLEVQDLHASYRKNKVLHDVSFNVEQGSLTSIVGPNGAGKSTLLKVMLELHPKLSGNVSFFGSSLSKTKTRVGYVPQRGSVDWDFPTDALDVVMMGLYGRVGWLKRPNKSHKEKAMASLDQMGMADFADRQISQLSGGQQQRVFLARALVQDADLYFMDEPLAGVDAATERAIMTTLKDLKTAGKTVMVVHHDLQTVEDYFDHVLLLNRTVIAHGKTEDVFTKDQVYRAYGGSLRWMKEA	PGPT0003845_441	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003845-troB|mntB|znuC-K11710	NA	NA
AK002_02999	939	mntC	COG1108	Manganese transport system membrane protein MntC	ATGCTCCAATCATTATTATCGCCGAATACGCAGTGGGTATTGTTAAGCACGTTAATTCTCGGCATGGCAGCCGGCATGATCGGCTGTCTTGCCTATTGGAAGCGGCAGAGCTTGATGAGCGATGCATTGTCTCACGCGGCGCTGCCGGGTGTGGTAATCGCATTTGCTTTGACGGGAAGCAAGAACCTGCTGGTCATGATTATCGGGGCAGCCGCCAGCGCATTAATCGGGGCCTGGATGATCCAGTGGATTCGGACCTCCAGCCGCATTAAAGAGGATACGGCGATGGGCATGATTCTATCCGTGTTTTTCGGTTTGGGCATTATGCTGCTGACGATCGTGAACCGTACGGCCGGCGGGAATCAAAGCGGACTGGATAACTTTATATTCGGTCAGGCAGCATCCATGGTTCGCAAGGATGTATTCACGATGTTAATCCTGGCTGTTCTGGTCATTCTCGTTGTCTCGATTGGTTTTAAAGAATGGAAGCTATTTCTGTTTGATCCCGATTTTGCCCGGGGGTTAGGGATGAACAGCCGCCTGATGAATTCCTTCTATATGGGGGTGCTCGTACTTGTCATCGTCATCGGCATTCAGGCCGTCGGTGTTATATTGATGGCGGCCATGCTGATCATTCCGGCTGTCAGCGCAAGATATTGGACTCAATCCTTCAAAATGATGGTCATTCTGTCGGCTGTATTTGGAGGCGGCGCCGGGTTTGTCGGTACGCTCGCAAGCACTCTGGGAAAGGGATGGCCTACAGGGCCGTTCATCGTTGTAGCATCCTCCGTGTTGTTCACGATCTCTCTGGTCTTCGGGGCAGAGAAGGGTCTGCTGCTTCAGGCTCTACAGCTCCGCTCCCAGAAAAAACAGCATGTCGAAGCGGGTAGTCAAGCCGTTATAAGTTCCCGGATATCCGAGAGGGGGAGCAATCAATGA	MLQSLLSPNTQWVLLSTLILGMAAGMIGCLAYWKRQSLMSDALSHAALPGVVIAFALTGSKNLLVMIIGAAASALIGAWMIQWIRTSSRIKEDTAMGMILSVFFGLGIMLLTIVNRTAGGNQSGLDNFIFGQAASMVRKDVFTMLILAVLVILVVSIGFKEWKLFLFDPDFARGLGMNSRLMNSFYMGVLVLVIVIGIQAVGVILMAAMLIIPAVSARYWTQSFKMMVILSAVFGGGAGFVGTLASTLGKGWPTGPFIVVASSVLFTISLVFGAEKGLLLQALQLRSQKKQHVEAGSQAVISSRISERGSNQ	PGPT0003840_301	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003840-troC|mntC|znuB-K11708	NA	NA
AK002_03000	903	mntD	COG1108	Manganese transport system membrane protein MntD	ATGACGTATACCGCATGGATCTTACTCACAGCCTCACTCGTCGGATTGTCCTGCGGCATCGTCGGCGCGTTCCTGATTCTGCGCAGAATGGCAATGATGGCCGATGCCATCAGCCACACCGTGCTGCTCGGCATCGTAACGGCGTTTATCGTTACCCGAGAACTCAGCGGTCCGCATATGCTGATCGGTGCGATCATAGCCGGCCTGCTGACGGCGGTACTTGTTCAATGGTTTCATTCCAGGGGCGTGCAGCAGGACGCATCCATCGGCGTTGTTTTTACAACCTTGTTTGCCATTGGCGTCATTCTAATTGCGACACAGGTTGGCAACGCCCATCTAGATACAAAGCATGCGCTCATGGGCGAAATCACGTTTGTGCCATGGGACGTGATGCACGTTCCGCTTCTAGGCGAGGTACCGAAAGCGACCTTCATGCTGGCAGCCGTTCTCTTGGTCGTGCTTATCGTGATTCTGGTATTCTATAAGGAATGGAAGATCACCTCCTTTGATCCGGCACTTGCGGCCAGCATCGGCATTCCCGTCGTGCTCATGCATTATGTGTTCATGTCGCTCGTCTCCATCACAACTGTGGCATCTTTTGATGCCGTAGGGGCGATCATGGTGGTGGCTATGCTAATAACACCTGCCGCAGCTGCTTATCTGTGGACCGATAAACTCTCCATCATGCTGGTGCTAAGCGGGGCCTTTGGCGTCATATCGGCATTCATGGGCTATTATATCGCGGTATGGCTGGACACCTCCATTTCGGGATCCATGGCATTCGCAACCGGAATCGTATTTATCATCAGCTTTCTGTCATCTCCGCGACATGGCGTGCTTTCCCGTTATATTCATAAGTTCAAAACGCATGACAGGGAAGAGAAACTGGATGGAATTTCTTAA	MTYTAWILLTASLVGLSCGIVGAFLILRRMAMMADAISHTVLLGIVTAFIVTRELSGPHMLIGAIIAGLLTAVLVQWFHSRGVQQDASIGVVFTTLFAIGVILIATQVGNAHLDTKHALMGEITFVPWDVMHVPLLGEVPKATFMLAAVLLVVLIVILVFYKEWKITSFDPALAASIGIPVVLMHYVFMSLVSITTVASFDAVGAIMVVAMLITPAAAAYLWTDKLSIMLVLSGAFGVISAFMGYYIAVWLDTSISGSMAFATGIVFIISFLSSPRHGVLSRYIHKFKTHDREEKLDGIS	PGPT0003850_298	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-MNT-ABC_TRANSPORT_SYSTEM,PGPT0003850-troD|mntD|znuB-K11709	NA	NA
AK002_03001	534			hypothetical protein	ATGCAGTTAGAGTCCCCTAGACTGACGATCCGCGATTTCCGGGAAGAGGATTTTGCGAGTATTCATGCCTATGCTTCAGATCCAAGAGTGACCGAGTATACGATGTGGGGACCCAATACGGAAGAAGATACATGGAAATATATAGGGGAAATCCGCCAAATGATAGAGCAGAGCCCCCGTGATAGCTACGAGCTGGCGATCGTATTAAAGGATGGCGGTTCGTTGATCGGTGGCGTAGGGCTTCATCGATCCGATACGAATGCCGAGCTTGGATACTGTCTGAATCCCGCTTATTGGCGGCAGGGTTATGCTACCGAGGCCGCTAGGGTCATGTGTCGCTTCGGCTTCGAGGAACTGGGAGTCAACCGGATCTATGCCACCTGTCGGCCGGGAAACGTCGGGTCTGCTAGCGTCATGCGTCACATCGGGATGAAGCAGGAGGGGCATCTACGGCAGCACTTATGGTTTAAAGGCCGTTATCATGATTCCTATTTATTCTCCATCCTGAAAGAAGAATTCGACGACAGAAAATGA	MQLESPRLTIRDFREEDFASIHAYASDPRVTEYTMWGPNTEEDTWKYIGEIRQMIEQSPRDSYELAIVLKDGGSLIGGVGLHRSDTNAELGYCLNPAYWRQGYATEAARVMCRFGFEELGVNRIYATCRPGNVGSASVMRHIGMKQEGHLRQHLWFKGRYHDSYLFSILKEEFDDRK				NA	NA	NA	NA	NA
AK002_03002	510	nudF_2	COG0494	ADP-ribose pyrophosphatase	ATGGTAAATAGCGAGTTATTGATCCGCCATAACGGAATATCGATTTACGAGGAAACGTCAGGCAAAGTGTATTATACCAAGGAAAATTATGTGTCCGTTGTTGTTCTGGCAAAGGATGGCGATCAACTGCTGCTGATCCGTCAATACCGAGCGGCCGTGGATGATTATGTTATTCAGCTACCTGGCGGCGGAATAGGCGAGGAAGAGGAACTGGAATCGGCAGCTCGACGTGAAATGCTGGAGGAAACAGGCTTCATCTGCGGTAAGCTTCACTACCTAGGCAAGCTGTACCCGGCGTCCTGGAGGTGCAACGAGATCGCGCATGTCTATTATACCGATGAGGTAATAAGCCAATCGGGCCAACAGCTCGAGGGATACGAGCGCATTGACGTGGTACGAATGAGCGTCACGGACTGCTGGCGCGGGATAAAGGAGAATAAGCTGCAGGATTCCGAACTGATTTTTGCCATGATGCAGGGCTTGCTTAAGGGATTTATTCAGCCATCATAA	MVNSELLIRHNGISIYEETSGKVYYTKENYVSVVVLAKDGDQLLLIRQYRAAVDDYVIQLPGGGIGEEEELESAARREMLEETGFICGKLHYLGKLYPASWRCNEIAHVYYTDEVISQSGQQLEGYERIDVVRMSVTDCWRGIKENKLQDSELIFAMMQGLLKGFIQPS	PGPT0021525_3859	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
AK002_03003	108			hypothetical protein	ATGGATTTTGTTGAGATTTTCATCGTTAGAATGGATGCCATGCTTCAAGAGATGAGAGCGTTGAGAAAAGAAATCCAAGAGATCCAAGCCAACACACATATTCGATAA	MDFVEIFIVRMDAMLQEMRALRKEIQEIQANTHIR				NA	NA	NA	NA	NA
AK002_03004	945			hypothetical protein	ATGGGAAGGCACTTGCTGATCTATGACGTGCCCTGGTGGATCCTGGGCAAGAATGCCAAAATTATTCAGCAATATCATCCATCGTTGGACCTCATGTCTATGAGCGAATTGGATCTCTATCTTGGACACAAAAGCAGTGGAGAGTTGAATCGCCAATATGATCACATATCCGCCATGTGTCTTGGCATTGCGGCTTATTGCGTTTTCAAGAATATCCGCATCGATTCAGCGGCAGCCGTCTCCTATTATTACTTCAGTAAGCACTATGAAACCTATAGGGAATGGAAGGATGAACTCGTTCCCGATCCTGACTTTCTCAGGCTGGTTATTCCTAGAATCGGAAAGCTAGGCGCTATCAATCGGAGACTGGCTTCAATCTTGCAGGCCTTAGCACCAAGCGCATCTGTGGAGTATATCGGTCATTTCGTGGATGACCAATTGTTTCAGCCATTGCCTCTAGCTCGAATAGACAATGCTCCATTCGTGATCGGATGGGCCGGAGATCCCTCGAAAACCTCTAAAAACTACAATACTTTGTATATGCGAATTAAAGAGCATTTCAAGAGTGACGAAGGAATCGCTTTTATCGAAACTTCTGGAGCTTACGCTTATGAAAGCATGCCGGGTTTTTATCATAAGTTGAACTTGTTGTTGAACACGGGAGCCAATGAAGGAAGCGGGGCTACTGTGCTGGAAGCGTATGCTTGCGGGGTCCCCGTTCTTTCCACGAATGTCGGGAATGCAAAAGATGCAGCTCACCCGGCTGCCCATGGACTGATTCTGGATAGCGACTCTCCCGAAGATTTTATACACAAGATTAACTATTGGAGAAATCGGACGGATGAGCTTCGAGAAATCGGGTTAAGGTGCAGGAGCCATATAGAGTCAGGTTGGAGGATTGAACATGCGATGAGCCGATGGCTCCGCGTTTTGTTCCAAATTTAG	MGRHLLIYDVPWWILGKNAKIIQQYHPSLDLMSMSELDLYLGHKSSGELNRQYDHISAMCLGIAAYCVFKNIRIDSAAAVSYYYFSKHYETYREWKDELVPDPDFLRLVIPRIGKLGAINRRLASILQALAPSASVEYIGHFVDDQLFQPLPLARIDNAPFVIGWAGDPSKTSKNYNTLYMRIKEHFKSDEGIAFIETSGAYAYESMPGFYHKLNLLLNTGANEGSGATVLEAYACGVPVLSTNVGNAKDAAHPAAHGLILDSDSPEDFIHKINYWRNRTDELREIGLRCRSHIESGWRIEHAMSRWLRVLFQI				NA	NA	NA	NA	NA
AK002_03005	684			hypothetical protein	ATGTTTGACCAAGTTTCCGTTCTGATTCCCTACCAGTCGGATCATGGCGGGCCGAGGGATGCTGCGCTCAAGTGGGCGCTGGATTTCTACTCACGGACGATGCCGGGCATAGAAGTATGTATCGGTGAAGTCTCCGGTTATCCATTCAGCAGGTCGAAAGCCATTAACCGCGCAGCCCGCCAAGCAACCAGGGATGTATTCATGATTGCTGACTGTGATATCGTATATGATCCCAACCTCGTGCTGGAAACGATATCTTACGTGAATGACCGTCAATGGGTTATCCCGTTCAGTCGTATTTTACGACTGCCGGAGGACATCTCGCATATGATCCTGTCTCAAACAGCGGATTGGCCGATCCCTACGATACTGGGAAATAGAGATGAGAACAGCGCTTATTATCTGGGAGGGTTGAATGCATTAAAACGAAATGCGTTTGATGCGGTGGGGGGATATGATGAACGGTTTATCGGCTGGGGCGGGGAGGATGAGGCCTTCGCATACGCAATGGACACCCTTATCGGTACCCACGTTCGATTGGACGGAGAAATGGTGCATTTCTGGCACCCATTTGTTGGACCAGAAGGCAATCCCCATTATGAAACCAACTATGCCTTATACAAACAATACAAGGAGGCAAGGGGGGATGTTCAGTCTATGCGCAAACTGATCGGTAGAGGTTAA	MFDQVSVLIPYQSDHGGPRDAALKWALDFYSRTMPGIEVCIGEVSGYPFSRSKAINRAARQATRDVFMIADCDIVYDPNLVLETISYVNDRQWVIPFSRILRLPEDISHMILSQTADWPIPTILGNRDENSAYYLGGLNALKRNAFDAVGGYDERFIGWGGEDEAFAYAMDTLIGTHVRLDGEMVHFWHPFVGPEGNPHYETNYALYKQYKEARGDVQSMRKLIGRG				NA	NA	NA	NA	NA
AK002_03006	765			hypothetical protein	ATGAAGCTGTCGGTCATTGTACCGGTTTTGAATGAAGAAACGTTCGTTCCCTTATATATCGAAAGCGCGAGTCGTTTTGCTCATGAAATCATTATTGTAGATGGAGGAAGCACAGATGACACTTTGAGGCATATTGAGCGCCTGCAGGATCGTTATTCAATCCGGTTGTTTCGTTTGCAGCAGAATGGAATGCCTTACACCGATGATTGGAATGAATCCCAAGTACGCAATTTCCTGATCGATCAAGCTCAAGGAGACTGGATTATGAATCTGGATATCGATGAATTGATGGATGATCGTTTTCAAGAAGCGCTGCCGGAGCTTATGGCCAACGCTGACGTGGATATATATCAGTTCCCGTTCGTCAATTTTTGGGGAGATCCGTGGACAATTCGAGTGAATAGCCCAGGGGATGAGCGATGGTCCAATGATATAACGAGAATGTGGAGGGCGAATAAAGGGATTCGTTATCGTGATGAGAAGCATCATTGCACGCTTGAAGCGGCAGAGGGGCAGAGCATATGGAGTATTCCAAGAGGGCGAAGCGATGTGAATATATACCATTATCATTATGCTTTGGGACGTAAGATCAAATTTAATGACAACCGGAGAAAAGACGTTAATTTACTTGAAAATGAAGGCGTGCCCGATTGGAGTTTTAAGCATTCGGAATACGAGATAGCCACAACTCCCTTTCAAGGTCGTCATCCAGAAGTCATTCGGCGTTACTTAAAGAAAATGGAAAAAGAGCCTCATTCAAATTAA	MKLSVIVPVLNEETFVPLYIESASRFAHEIIIVDGGSTDDTLRHIERLQDRYSIRLFRLQQNGMPYTDDWNESQVRNFLIDQAQGDWIMNLDIDELMDDRFQEALPELMANADVDIYQFPFVNFWGDPWTIRVNSPGDERWSNDITRMWRANKGIRYRDEKHHCTLEAAEGQSIWSIPRGRSDVNIYHYHYALGRKIKFNDNRRKDVNLLENEGVPDWSFKHSEYEIATTPFQGRHPEVIRRYLKKMEKEPHSN				NA	NA	NA	NA	NA
AK002_03007	2601			hypothetical protein	TTGAATAAAATCACGAACAACCGGCGCAGATCTTCTACGAATCGCACGAGTCCCCGTCAGATAAAGCTTCGGAAATCGAACTATAAATGGATCAAAAAGAAACGGTCAGTTCAGCCGGTACCTCCGATTTCCCTATCACATACAACTCACCAACAATCCGTCACCCCTTTTGAATACGAAGCTGCCCCTGCCCCTGCTGCGCCCCAGGTAACGGGGATTATCGCACCCGGGATAGCGCCGTTATACGACATTATTCGTTTTCCCGTCATTGATTGGCAATTCAGATGGCAGCGGCCGCAGCAATTATCCGAACAGTTCGCTCAACAGGGGCATCGTGTCTTCTATGTAACGACGGAGATCACCGGTTTGCGCAAGGAAGAGGCTTCCAAAGAAGAGGTAGGACGTTTTGTCTCCATCAAGAACATCGATCGAAACGTTTGGCTCGTTACTTTGTGCGCGCATAAACCTCTAAATCTATATAAAGATGAGATGAGCAGCTGGGATATCCAGTACCTAAAATGGTCCATAGAGCACGTACGAGACAAATTCGGGATATCCCAAGCGGTATCGATTGTCGATTTACCGTTCTGGACTCCTCTTGTCACGGCCATGGAGCAACATCATATCGTGTATGATTGCATGGATCATCATGCGGGTTTCTCGACAAATGATCCTGCCATGCTCCATCAGGAGGAACGCCTGCTTCGGGAGGCCGGGCTTGTCGTAACGTCCTCACAGCATTTGTACGATTGGGCTATTGAGTATAATCCATCTACGGTCCTTATCCGCAATGCCGCTGATATCTCTCATTTCTTAAAGCCGCCTGAACAATCGTTGACGGAGCTGAACTCCATAAAGCAGCCGATTATCGGTTATTACGGGGCGATATCCGACTGGTTCGATATACGCCTGATCGAAACAGTGGCCCGAAACAGACCCGAATGGGCATTCGTTCTGATCGGACACACCTTTGGTTGTGATACCACTGACGTCGAGAAGCTGGACAACGTCATACTTTTGGGCGAGAAGCCCTATCACGAGCTGCCTATCTATTTACATCGATTCCAGGTTGCGTTAATTCCTTTCATGAAGAATATGCTCACCAAGGCTACAAATCCTGTCAAACTATACGAATATCTTGCAGCTGGAAAACCAGTCGTATCTACCGACCTGCCAGAGGTTGAAGCCGTCGCTTCCGATATGGTCTCCATTGCAGATACGCCGGATAAATTCGAACAGGCGATTCTTGAAGCACTTCAGGAATCCGGTACCGAGCAGATCAAACGAAGGCAAGAATTCGCCCGTCATAATAACTGGGTCCAAAGATACCAGGTTCTGAACGACTACATCACCCAGCATCTGTTCCCTAAGGTTAGCGTCATTATCGTCGTTCACAATAAATGGTCTTACACCGAGCAATGTCTCCGCAGTTTGCTGCAAAAGGGACATTATCCAAACCTGGAAGTTGTTATCGTCGATAATGCCTCGACGGATCAAACTTCTTTCCACCTTAAAGCTCTTAACAACCCGCTAGTTAAAGTTATTTCGTCTCCGGAAAATCTTGGTTTCTCCGCAGGGAACACACTCGGATGCCTGGAGTCAACAGGTGAGTATATGATCCTGCTTAACAACGATACGCTTGTACCTGATGGCAGCTGGATTACCCGATTGCTCCGGCCATTTCACGAAGACCCGCAAATCGGAATGACGGGCCCGATGTCCAATTATGTGGGTAATGATCAAGCACTGGATCATTTCATCGGCGACGCGGTATACGGTGCCGATGTTCGTTGGTTGCATGATTTCTATGAGCTGTACCATCAGAATATCAGATATACCGATTTGCTTGGATTTTTCTGTGTAGCCATGAAGCGCAGTGTATGGGATAAGGTTGGCTCCCTTGATCCGGCCTACGGAATTGGCATGTTCGAGGATGATGATTACTGTGAACGGGTACGCAATGCAGGTTACCGTCTGGCTATCGTCGAGGATGCTTTTGTATATCATTACGGCAGCGCCACCATTAAAGAGCTGAAGCCCCAGGCATACGATTCGTTGTGGGAAAAGAACAAGGCATACTACGAGCAGAAATGGAACAAATCCTGGAGATTACCGAAAGGTCCTCACAGCCTGTTTCATTTGGCGGATCATCCGCAGGAAATCGCCAATCGGATTCATGTGACAGGGAAGAAGTTCGCTTTGGTTCTGGGTGATAAAGTATGGGATACCCATTCCAGACGCTGGCAGAAAATCGTCATGGGATTGACGGAGGATGAGAACTTGTATGTCATCGTATATGCGCATGAATACCATGGCAATCCGATCATCGGAACTCGCAAGGTGGGTCCAAGACTGTATTTCACAAACCGGATCGATTTATTCTCACAAGTCACATTTGATCATGTAATATACTGCGGTTCAACCGATGTTTACCCCTACCTGCGTTCCGACCATTTTGTAGCGGATTCGCTTTGTTATCATGATCATCGGCTCAAAGCTCTTCTATCCAACTTACCCAATATCAAGGTGTTGGGAGATGCTCTCGTGACTCACACCGTACGTAATGTCATGTCTCTTACAAAGGATATATCGACCGTATAG	MNKITNNRRRSSTNRTSPRQIKLRKSNYKWIKKKRSVQPVPPISLSHTTHQQSVTPFEYEAAPAPAAPQVTGIIAPGIAPLYDIIRFPVIDWQFRWQRPQQLSEQFAQQGHRVFYVTTEITGLRKEEASKEEVGRFVSIKNIDRNVWLVTLCAHKPLNLYKDEMSSWDIQYLKWSIEHVRDKFGISQAVSIVDLPFWTPLVTAMEQHHIVYDCMDHHAGFSTNDPAMLHQEERLLREAGLVVTSSQHLYDWAIEYNPSTVLIRNAADISHFLKPPEQSLTELNSIKQPIIGYYGAISDWFDIRLIETVARNRPEWAFVLIGHTFGCDTTDVEKLDNVILLGEKPYHELPIYLHRFQVALIPFMKNMLTKATNPVKLYEYLAAGKPVVSTDLPEVEAVASDMVSIADTPDKFEQAILEALQESGTEQIKRRQEFARHNNWVQRYQVLNDYITQHLFPKVSVIIVVHNKWSYTEQCLRSLLQKGHYPNLEVVIVDNASTDQTSFHLKALNNPLVKVISSPENLGFSAGNTLGCLESTGEYMILLNNDTLVPDGSWITRLLRPFHEDPQIGMTGPMSNYVGNDQALDHFIGDAVYGADVRWLHDFYELYHQNIRYTDLLGFFCVAMKRSVWDKVGSLDPAYGIGMFEDDDYCERVRNAGYRLAIVEDAFVYHYGSATIKELKPQAYDSLWEKNKAYYEQKWNKSWRLPKGPHSLFHLADHPQEIANRIHVTGKKFALVLGDKVWDTHSRRWQKIVMGLTEDENLYVIVYAHEYHGNPIIGTRKVGPRLYFTNRIDLFSQVTFDHVIYCGSTDVYPYLRSDHFVADSLCYHDHRLKALLSNLPNIKVLGDALVTHTVRNVMSLTKDISTV				NA	NA	NA	NA	NA
AK002_03008	399			hypothetical protein	GTGAGGAGATACTGGAACCGAAGCCAACCAAAAGATTGCAAATTCATTGTTGGCAAGAGAAAACATAAGCGTGCTAAAAAGCCGATAACGGTTCTGAGCAAGCTAAATCGGTTGCGCCGGAGATTGATTCATAGCATATCTCAAATCAAATTACAGATCAGACGACTTACCATACGGGTAAACGCTCTTCAGAAGCAAGTGGAGGATTATGGCTATGCGGATTGGAATAATGTCATTGCTTATTTAAGTTCGCGTCTGAATACTCGAATAACCATCGAAACTCCGGCAGGTTCGATTTTCGGTTCATTGGTGTCCATTGGGGAAAATTATATTCAAATCTCGGAGCCTAACGGAAGTATTGCCATAATACCGTTGAGCAGTGTTTTATCTATTGAATAA	MRRYWNRSQPKDCKFIVGKRKHKRAKKPITVLSKLNRLRRRLIHSISQIKLQIRRLTIRVNALQKQVEDYGYADWNNVIAYLSSRLNTRITIETPAGSIFGSLVSIGENYIQISEPNGSIAIIPLSSVLSIE				NA	NA	NA	NA	NA
AK002_03009	201			hypothetical protein	ATGGATTTTTCGGAGATACTGGCAACTTTCCTCGGACGGACAGTAGAGGTTATCCAGGCCAATCAGTTCCTTCAAGGACAGCTATTATCGGCAGCAGGCGGGTTGATCACAGTTCAGGTTGTAAGCTCAAACTATTTGCCATCCTCAAGGCAGGTCACCATCATCAATGATAATATTTCATTAGTTCGCATACTTCCTTAG	MDFSEILATFLGRTVEVIQANQFLQGQLLSAAGGLITVQVVSSNYLPSSRQVTIINDNISLVRILP				NA	NA	NA	NA	NA
AK002_03010	1308			hypothetical protein	ATGCTGGTGTTTATTCTACCTGGATTAAATCCTCATTTAAGCGAAAACACCGTATCCACGGTTTTGCGCGTTTTTTCAAATGCCTGTCCTATCGTGATTCAAAACGAACAGGAGTCTGCAGCAACAATGAACGATGCGCTGTCCGATAACCTGTATTCGCCATGGTTCATGACGCTCTATGCCGGAGATACTGTACAGCCTAAGGCGGAGAAAGAAATCGAACGATGGCTGCAAACTTACGCTGACAGCTCCGCTGGCTTTATACTGACTTCCGTAACCAAAACAGACCCGCCAGCTGTATTTCCCAAAAGACCTGTTCCAACCTTTACTACTCCCCGCGGCCCCCTGTTATGGCGTACGAACATCGTGATGAATGGACAGAAACCGGGTTTTACCAGTAATGATCAGCTGCCGTTTCAGAAATATGTGTTGATCGATAAACAGATCCAGCTATCAAGCCACTATGAATGGACGGAAGTAGATTCTGACGGGATCTCATACCATCATCGCGCTGCTCCTCCCTGGATGAAGGAAGCAGAGGAATGGAACGCAATCTCTCCGCTTCTTCACGCTCCATCCCGCGTTCAGACTATCAATGAAAAACAAAGCTCTCCTATAGTTACCATTGCGCTGTGCACATTTAACGATGGTGAATACTTGCCGTGGGCTATTCGCTCCGTATTGTCACAGACGATCACAGATTGGGAGCTGATCATAGTTGATGATCATTCAAGTGATGATACTCCAAGCATCCTGGCGGGATTACCGATAGATAAGCGTATAAATAAAGTGAGCCTACATCAAAATCTGGGTAAGGCTCATGCCCTGAACATAGCGCTTCAAATGGCCAGGGGGGCCTGGTTTCTTGAGCTGGATGCCGATGATTGGCTGTCACCAGATATTCTGGAAGTTCTTCTACAAGAAGCTAAGAGGGAGCCGAATGTTGGTGTACTGTATGCGAATCATTTTGAATGGGTCGAGCGTTTGAATAAACAGCTCCTTTACCAGGGGGTCCGAACCGGGCCTTCCCATTTGTCCGCGGAGCGACTCCTGGCAGAAGCTATGGCAGTAGCCCCAAGAATGTTCAATGTCTCTGTAATTGAGCAGCTAGGAGGATGGAACACCTCGGTTCCATTCGAAGGACGTCTATACGAAGATATCGAGATGTTATCCAAGGTTTCAAGCTTCCATCCAGTTTACATTCCTCAACCGCTATATCATAGAAGAATTAGGAGCTCAAGCATGACGCATCGGCATCTTAATCACTATGAGAAATGGAAGAACTCGATGAGCGATATTTTGAAATAG	MLVFILPGLNPHLSENTVSTVLRVFSNACPIVIQNEQESAATMNDALSDNLYSPWFMTLYAGDTVQPKAEKEIERWLQTYADSSAGFILTSVTKTDPPAVFPKRPVPTFTTPRGPLLWRTNIVMNGQKPGFTSNDQLPFQKYVLIDKQIQLSSHYEWTEVDSDGISYHHRAAPPWMKEAEEWNAISPLLHAPSRVQTINEKQSSPIVTIALCTFNDGEYLPWAIRSVLSQTITDWELIIVDDHSSDDTPSILAGLPIDKRINKVSLHQNLGKAHALNIALQMARGAWFLELDADDWLSPDILEVLLQEAKREPNVGVLYANHFEWVERLNKQLLYQGVRTGPSHLSAERLLAEAMAVAPRMFNVSVIEQLGGWNTSVPFEGRLYEDIEMLSKVSSFHPVYIPQPLYHRRIRSSSMTHRHLNHYEKWKNSMSDILK				NA	NA	NA	NA	NA
AK002_03011	1812			hypothetical protein	ATGAAATCGACTCAGAGTCATATCATTCGGCAAGCCCAAGACTTTGCTCGCGCCGTACACGAAGGGGATGCAAGCGGCCACGACTGGTGGCACGTTCAGCGTGTCACCCGCATCGCCCGAATACTGGCTCATCTTGAAGGCGCCAACGTATACATATGTGAGTTATCGGCAGTCCTCCATGACGTAGCCGACGAGAAATTAAACGAATCAAAAGAAGCAGGTTACGAGCGGGTTCGCCATTGGTTGAAACAAGCCGGCGTAGAAGCATCTGATCAGGAGCATGTGCTGGGGATCATCGGTACGATGTCTTTCTCAGGCGGAACAGGGAGTACTATGCAAACGCTGGAAGGCCAAATTGTCCAGGATGCGGATCGGCTTGATGCGATGGGGGTTATCGGAATCGCTCGTACTTTCGCATATTCCGGATGGAAAGGACAGAGTATGTACGATCCGTCTGTTCCACTCCGCGAGCATATGACCCTGGAGGAATATCGAAAAGGAAAGAGCACGGCCATTAATCATTTCTCTGAAAAGCTCCTGAAGCTGAAGGACCGGATGAATACCGAATCGGCCAAGCTGCTTGCAGATGGTAAGCATCAAAGCCTTGAGCTCTTCCTCGAGGCGTACGATAAAGAATGGGCGATGGGGAATGAAGCCTACCTGCGGGAATCGCCGATTCATCGCGGGAACGTATCGCGAATCCATATTGCCTTTGATGAGTCGACGGCAGGATCGCTCAAGATCATGCTGCTGTCGAAACCCGGTGAAATCGTAGTGACATTAGGCGATAATCTTATGGCCGGACCGCTTCCGAACGATCATGATTTCGCCCGTTCGTTCTCCACCCGAAAGCAGTGGTTTGAGGAACGATATAGCACCGCGTATACGGAAGACAGAAAATTAACGATGCTGCAGGCAGCGTTCGCGTGGCTGACCTGCCCTCAGCAGATAAAAGAAATGCCATGCCTGATATGGGCCGGCGATTCCGCGGCGGAACAGCTGGGCCTGCGAAGATTGCTGTCCTTAATGACGGATCATTCCGAGGTAAGATTGGTGAATGCGACAAGCGTGCTTCATCAGCAAAATCCAAATCAGCGGTTCAAAGGAACATTTGAAATGAACGCGAACCAGCTGCAGCACGTTCTGGATGCAGCTGAGCCGGTTCCATTGTCGCCGCAAGCGCAGGCGGGCTATCGCGCAGACTGGGAGCGCCTTTTGAGCGAAGACGGGTTCCTTCGGGTGCTTCAAGGTGATATGCTGTGCACCGTTCCAGAATCTTACTACGATGAAGAAATTCTGAAAACCGTATACCGCCTTGAAGCCAGGCATGGATTCTTCAAGAAATCCGCTCGGGTTATTGGCGAGGTCATCGGACAGGGGGAATTAACCGTTTCCGACTTTTTCATCGAGTACCGCATTCGTCATCTGATTCAGACAGGTGCTTTAACTTACTCCGGCGAGCTGGATGCCATGCGGTACTACAGCGTCTCGCTTGTGGATGCATCGAGTCCAAAGGAGCAGTGGAGTCATGAACAACGCCTGGCTAAGGCTGCGAAGCTGAAGTCGCTGCTAAGTGAGATGATGGAAATGAATCTTGCGGAGACAGGCATTATGGAGGAATTGCGGCAGCTAGATGCAGAAAGCCTAGGATTATCTGAATTCTCCGGCTCGGAAGCCTTAACGGGCAGCATGCAAACTGAAATCGATTACCTGTTGAGCACTTATGAGGATCATAGAATACAACGAGTGTCTTTGATGCGCTCCCTGGAAAAGGCGTTAATCCAAATCGATGAAACGGCTCCTAAAGAATAG	MKSTQSHIIRQAQDFARAVHEGDASGHDWWHVQRVTRIARILAHLEGANVYICELSAVLHDVADEKLNESKEAGYERVRHWLKQAGVEASDQEHVLGIIGTMSFSGGTGSTMQTLEGQIVQDADRLDAMGVIGIARTFAYSGWKGQSMYDPSVPLREHMTLEEYRKGKSTAINHFSEKLLKLKDRMNTESAKLLADGKHQSLELFLEAYDKEWAMGNEAYLRESPIHRGNVSRIHIAFDESTAGSLKIMLLSKPGEIVVTLGDNLMAGPLPNDHDFARSFSTRKQWFEERYSTAYTEDRKLTMLQAAFAWLTCPQQIKEMPCLIWAGDSAAEQLGLRRLLSLMTDHSEVRLVNATSVLHQQNPNQRFKGTFEMNANQLQHVLDAAEPVPLSPQAQAGYRADWERLLSEDGFLRVLQGDMLCTVPESYYDEEILKTVYRLEARHGFFKKSARVIGEVIGQGELTVSDFFIEYRIRHLIQTGALTYSGELDAMRYYSVSLVDASSPKEQWSHEQRLAKAAKLKSLLSEMMEMNLAETGIMEELRQLDAESLGLSEFSGSEALTGSMQTEIDYLLSTYEDHRIQRVSLMRSLEKALIQIDETAPKE				NA	NA	NA	NA	NA
AK002_03012	1077	hsaA		Flavin-dependent monooxygenase, oxygenase subunit HsaA	ATGTTATTTACGGAGCAAGAGATTCAAACCATAAGAGAACAAGCGCTTGGGATGGACAAGCATAGACAAGTAACTCCCGACGTGCTGAAAACCATATATGATCATCGTTTGTTTCACCTGTTTGTTCCCGACGAGCTGGAAGGAAGGATGACCCCTCTGCCGGATGCAACGCGTTTCTTCCAAGAAAGTGCCCGCATCGACGGCAACCTGGGATGGCTGGTTACGATAGGAGCAGGCGGAGGATTCTTTGCCGCACTGATGAGTCCAGATATCAGCCGAAGGGTGTTTGCGCGCCGCGAAGCGGTGATTGCGGGCAGCGGCATGCCGACAGGTACCGCCAGACAGGTGGACGGCGGTTATATCGTGACTGGCAGCTGGAAGTATTGCAGCGGGTCTACCTATGCTACGACCTTTACGGCCAACGCAGTTGTTGAACAGGGTTCAACGCTACAAGATGCCCCTGGCGAGCCGACTGCGGATCAGGGCGAACCCGAGATCCGGTCATTTATCATGAATCCTGACCAGATCGAAATCCAGCAGGATTGGAATGCCTTTGGCCTTCGGGCAACAGGGAGCCACACCATATCCGCTGTTGAGGCATTCGTTCCGGATGAGATGACATTCTCGCTTACGGAAACGAAAGGGTATGAGAACGAGCCGATTTATCGCTATCCATTCCTTCCGTTTGCTCAAGTATCCTTTGCCGGTGTTGCAGTCGGGATCGCGGAGCATTTCCTTGAAGCTGCGGAATCGCTCGCGGTTAAGCGGGGAAGTTCTTCCTATGTGTTCGGGAAGCTGAATGAATATCAAGCGGCATTGCATCTATCGATTGCTGATTTTTATAAGAGGGTAGAAGCGTCGTGGGCAGAGCTGATGGCGAACGGTGCCTTATCGGATGCCACGGAGGCACAGGTTACGGCCCAAAGCATCGAAACAGCCCAAGCTGCGTTATTCTGCGGCCAGCAGCTGTTTCCGCTGTTCGGTTTATCTGCTGCGATGGAAGATGCCGAAATCAATCGCTGCTGGAGGGACCTACAGACGGCCTGCTCGCATGCGCTGCTGAGAACCTATGAATAA	MLFTEQEIQTIREQALGMDKHRQVTPDVLKTIYDHRLFHLFVPDELEGRMTPLPDATRFFQESARIDGNLGWLVTIGAGGGFFAALMSPDISRRVFARREAVIAGSGMPTGTARQVDGGYIVTGSWKYCSGSTYATTFTANAVVEQGSTLQDAPGEPTADQGEPEIRSFIMNPDQIEIQQDWNAFGLRATGSHTISAVEAFVPDEMTFSLTETKGYENEPIYRYPFLPFAQVSFAGVAVGIAEHFLEAAESLAVKRGSSSYVFGKLNEYQAALHLSIADFYKRVEASWAELMANGALSDATEAQVTAQSIETAQAALFCGQQLFPLFGLSAAMEDAEINRCWRDLQTACSHALLRTYE				NA	NA	NA	NA	NA
AK002_03013	1713	ureC	COG0804	Urease subunit alpha	ATGACAACAATCGACCGCGCGACCTATGCCAGCATGTATGGACCTACGACAGGGGATCGGGTCAGGCTTGCCGACACCTCCCTCTGGCTTGAGATTGAGAAGGATTATACCGTTTATGGGGATGAATGCGTCTTCGGCGGCGGTAAAGTGATACGTGACGGCATGGGACAGCATCCGCTCGCGACCCGCGCGGAAGGGGCGCTGGATCTGGTCATAACGAATGCCATCATTGTGGATACCTGGGGAATTGTGAAAGCGGACATCGGGATTAAGGACGGGTGCATCAGCGGCATCGGAAAAGCAGGAAATCCGCTGATGATGGATGGTGTCACCGATGGCATGATCATCGGTGTGGGCACGGAAGTCATCTCCGGAGAGAACTTGATCGTAACGGCCGGCGGCGTGGATTCGCATGTGCATTTCATCAGTCCGCAGCAAGTCGAAATCGCGCTCCAAAGCGGGATCACTACATTCGTTGGCGGAGGCACCGGTCCCGCAACGGGCACCTTGGCAACCAATTGTACGTCGGGGGTATGGAATTTGCAGCGAATGCTGCAAGCGACCGATGCACTGCCGATCAATATGGTTCTTCTGGGACGAGGAAACAGCAGTCGTCCTGAAGCGCTGGCCGAACAAGTCCATGCCGGGGCGGCTGGACTCAAAATCCACGAAGACTGGGGCAGCACGCCCTACGTCATCGACAAATGCCTGAGCGTTGCCGAAGAACTGGATGTGCAGGTCAACATCCATACCGACACATTGAACGAAGCCGGTTATGTTGAAGACAGTCTGCGCTCCTTTAATGACCGGGCGATTCATACCTACCATACCGAAGGTGCGGGAGGCGGTCATGCGCCGGATCTGCTGCGGGTTGCCTCCATGCCGAATGTCCTCCCCTCCTCGACCAGTCCGACCATGCCATATACGGTGAATACGGTTGACGAGCATCTGGATATGCTGATGATCTGCCATCATCTGGATCCGCGTATACCCGAGGATGTTGCCTTCGCCGCGTCACGGATTCGTGCGGAGACGATCGGAGCGGAAGATATTTTGCATGACATCGGGGCGATCAGCATGACCAGTTCCGATTCGCAGGCAATGGGGCGGGTTGGTGAGGTCGCTATCCGTACATGGCAAACGGCCGACAAAATGAAACAGCAGCGCGGCCCGCTCGGGCCGGATTCCAAGTCGGACAATTTCCGCATCAAACGATATATTGCCAAATATACCATTAACCCGGCCATGACCCATGGGATATCCGATTATGTCGGTTCCGTCGAGGTAGGAAAAATGGCTGATCTCGTACTTTGGAAACCCGCCTTCTTCGGAGCTAAACCGGAGATCGTGCTGAAGAGCGGCATGATTGTCCACGCCGTCATGGGAGATCCCAACGCTTCCATCGCTACACCGCAGCCGTATATGTATCGGCCGATGTTCGGCAGCTATGGCGGCGCTCAGGCAGCGCTAAGCGCCACCTTCGTATCCCAAGCTTCCCTGCAATTAGGGACGCTGGATCCACTGGGATTGCGTAAACAGCTCCTGCCTGTAAGGAACTGCCGAACCGTGAGAAAGGCGGATCTTGTTCACAATGGGGAGACGCCGGAAATCATGGTTGATCCGGCGACCTATGCCGTAACCGTTAACGGCGAGAAGCTGACAAGCGCCCCATCGTCTCATTTGCCGTTATCCCAACGCTATTTCCTGGTATAA	MTTIDRATYASMYGPTTGDRVRLADTSLWLEIEKDYTVYGDECVFGGGKVIRDGMGQHPLATRAEGALDLVITNAIIVDTWGIVKADIGIKDGCISGIGKAGNPLMMDGVTDGMIIGVGTEVISGENLIVTAGGVDSHVHFISPQQVEIALQSGITTFVGGGTGPATGTLATNCTSGVWNLQRMLQATDALPINMVLLGRGNSSRPEALAEQVHAGAAGLKIHEDWGSTPYVIDKCLSVAEELDVQVNIHTDTLNEAGYVEDSLRSFNDRAIHTYHTEGAGGGHAPDLLRVASMPNVLPSSTSPTMPYTVNTVDEHLDMLMICHHLDPRIPEDVAFAASRIRAETIGAEDILHDIGAISMTSSDSQAMGRVGEVAIRTWQTADKMKQQRGPLGPDSKSDNFRIKRYIAKYTINPAMTHGISDYVGSVEVGKMADLVLWKPAFFGAKPEIVLKSGMIVHAVMGDPNASIATPQPYMYRPMFGSYGGAQAALSATFVSQASLQLGTLDPLGLRKQLLPVRNCRTVRKADLVHNGETPEIMVDPATYAVTVNGEKLTSAPSSHLPLSQRYFLV	PGPT0000965_1043	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
AK002_03015	645	ureA	COG0831	Urease subunit alpha	ATGCATTTAACCTACCAGGAGAGAGACAAATTAATGCTTTTTCTGGCAATGGAATTAGCACAAAAACGATTAGACCGAGGGTTGAAGTTAAACTACCCGGAAGCGGCCGCACTCATTTCGGGTTTTGTTGTCGAAGGTGCTCGTGATGGTAAGTCCGTAGCCGAATTAATGAAGGAAGCCCGTCATGTGCTGTCGGCGGATCAAGTGATGGACGGCGTCGCCCATCTCCTCAGGGAAGTTCAAGTCGAAGCTACCTTTGTGGATGGCACCAAGCTGGTCAGCGTTCATGACCCGATTCAAGGCGCTCCGTCCTCTTCCGGCATTGTTGCAGGTGAATACGACCTGCGAGACGAGCCGATTCAGCTTGTGCCGGACCGGCCCCGCATTACGCGTGAGGTTACAAATAGCGGCGACCGTCCGATTCAAGTAGGATCGCACTTCCATTTTTACGAATGCAATTCCGCTTTATTATTCGAACGAAACGGAACGCAAGGATACAGGCTCGATATCGCCTCCGGTTTGTCGGCAAGATTCGAGCCGGGAGACACCTCGAAGGTGACGCTTGTTCAAATTGGCGGGAGCCAGGAAATTCATGGTTTTGCAGGTCTGACGAACGGAAAAACCAATGGGATGGTGAGCTTATGA	MHLTYQERDKLMLFLAMELAQKRLDRGLKLNYPEAAALISGFVVEGARDGKSVAELMKEARHVLSADQVMDGVAHLLREVQVEATFVDGTKLVSVHDPIQGAPSSSGIVAGEYDLRDEPIQLVPDRPRITREVTNSGDRPIQVGSHFHFYECNSALLFERNGTQGYRLDIASGLSARFEPGDTSKVTLVQIGGSQEIHGFAGLTNGKTNGMVSL	PGPT0021645_255	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021645-ureAB|ureA|ureB-K14048	NA	NA
AK002_03016	1104			hypothetical protein	ATGTTAAAAAAATATGCATGCTTGCTCCTGCTCTTGTGCCTCCTTCCTCTGGCGGGTTGCGGTGATCAACGCATTTTGGAAGATCTGGGGTTCATTCAGACGACCAGCTATGACATGCTGCCGGATGGCAACTTAGCCATTTCGGTCTCCATTCCGCAAGCGGATCCGGAAACTTCCGCTAAACGGGAAGTGCTGACGGCAACGGCCAAGAGCAGCAAAGAAGCAAAGATGGTTATGTCCAGACAAACCGGCATGCTGCTGGTCAGCGGGCAATTGCGCAACGTGCTGTTCGGGCGTTCGATGGCGGAACACGGGCTGCACGGACATCTGGATACCTTGTACAGGGATCCTGCCATATCGTCTCAGGTAAAAATAAGCGTGGTTGAAGGCAATGCCGGCGAACTGTTAATAGACGATTACAAGCAGCATCCGCGAACAGGACGGTATATCGATATGCTGCTTGAAAAGGAAGCGCTCGGCCAGACCATTCCCAAGGTCACGCTGTTCAACTTTGCCAGGGATTATTTCGATCAGGGCGTTGATCCGGTTGCCCCGATGATTAAGAAGCATGACAAGAACTACATTACGACGAATGGAATTGCGTTATTTAAAGATGATCGCTATGTAGCTAAGATCGAGCCGCAGGATGCATTGATTTTCTCCTTTCTGAAGGGCAAGTTCAGAGAAGGTCAACTTAACATTGATCTGTCGGATGGGGATAAGAATGAAGTCGTCATGTTCAGTTCATTGATCAGCTCTAGAAAAGTCAAGGTTGTACGTGGAGACCGAGGCATTGACAAAGTGATATTTAATGTTAAGGTTTCCGGGTCCGTTCTGGAATACATCGGCGATGCCAGGTTAAGCAATGACCGCGAACGGCATGAGCTGGAGCAGCGAATCAGCCAGTATATATCGAAAAAAGCCGATGCCATGGTCTCGCTCATGAAACAGCATCAGATTGACAACCTCGGAATCGGCAGGTACGTCCGTAACCGGATTGGCTATGAGCAATGGAAGAGGATGGACTGGCGGCAAGAATTGCAAAAGCTGCAGGTCGAATGCTTAATTGACGTTCACATCAAAGAATACGGAAAATTTAGATAA	MLKKYACLLLLLCLLPLAGCGDQRILEDLGFIQTTSYDMLPDGNLAISVSIPQADPETSAKREVLTATAKSSKEAKMVMSRQTGMLLVSGQLRNVLFGRSMAEHGLHGHLDTLYRDPAISSQVKISVVEGNAGELLIDDYKQHPRTGRYIDMLLEKEALGQTIPKVTLFNFARDYFDQGVDPVAPMIKKHDKNYITTNGIALFKDDRYVAKIEPQDALIFSFLKGKFREGQLNIDLSDGDKNEVVMFSSLISSRKVKVVRGDRGIDKVIFNVKVSGSVLEYIGDARLSNDRERHELEQRISQYISKKADAMVSLMKQHQIDNLGIGRYVRNRIGYEQWKRMDWRQELQKLQVECLIDVHIKEYGKFR	PGPT0014785_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014785-yfkR-K06308	NA	NA
AK002_03017	1089			hypothetical protein	TTGAAGGAAAAACTATCCCAATTTCATACCGCGATCCTCATCTACATGATTCAAACGGGTGTCTATGTATTCAGTATTACGCAGGTGGAGGCCCAATATTTTGGCACAAACGGATGGCTCATTACGATCCCGGCTTCGATTCTGGTCTGCCTTAACATTTATCAGATATATTGGGTGTACCGGTTGGGCGAAGGGCAGTCGATATTCGACATATTGGAGAAAAGCATCCCCAAATTCATACTGGCCCCCTTCTATCTGGCGATCAGTACGGTATGGGCTTTAATCGGCTGTCTCGTTGCCAAGCAGTACGTGCTGATCTTTCAGATGTTTGCGTTCCCGACAACAAACCCAATGGTATTTAAGATAGCGATTGATATCCTTGCTTTCATGCTGCTGACCAAGGGATTGTACAATATCTCCAAAGCTTCCACGGTCTTTTTTTGGTGTACCATTTGGATGAGTTTGCTTCTGCTGTATTATGCAGGGGAGTTTCGAATCGAGAGATTAACGCCCTATATATTTAAAGACAGTTCCAACATGTTGGAAGGATTCTTTCAAATCTATTTGGCTTACTTGGGTTATGAGTTATGCTTACTCTTGTTTCCCTATACCGATAAGAAAACCAAATTGTTCAGGGCTGTAATCTATGGGAATTTGATACGTACGGTATCCTATACCATTCTGGGTTTTGTTTCGTTCGGCGTCGTTGGCAGCGATATGTTGAAAGTCATGCTATTCCCGTTACTGGATTTGCTGGCGTATATCAAACTTCCGTTTATCGAGCGAATCGAGAATCTATTCTACGGTTTCTTCCTGTTTACGACCCTCATTACGCTGGTGCTTTATTTCTGGGCAGCGGGCGAAAGCACCCAAAGAGTCTTTCCGAAAATCAAGATCAATGTCCACTATTTCTTCATCATACTGGTAGCCCTGCTGATATCCTACATTCCCACCGTATTGAACCGCATCCGGGAGTGGCTTCTGTTTCTGGGGTACATCCAAATCGGGTTTGCTTATATCATGCCGTTTATACTCATTGCGCTGCTGCTTTGGCAGCGCAGAAAAAGGCAGCGTGATGCACAATGTTAA	MKEKLSQFHTAILIYMIQTGVYVFSITQVEAQYFGTNGWLITIPASILVCLNIYQIYWVYRLGEGQSIFDILEKSIPKFILAPFYLAISTVWALIGCLVAKQYVLIFQMFAFPTTNPMVFKIAIDILAFMLLTKGLYNISKASTVFFWCTIWMSLLLLYYAGEFRIERLTPYIFKDSSNMLEGFFQIYLAYLGYELCLLLFPYTDKKTKLFRAVIYGNLIRTVSYTILGFVSFGVVGSDMLKVMLFPLLDLLAYIKLPFIERIENLFYGFFLFTTLITLVLYFWAAGESTQRVFPKIKINVHYFFIILVALLISYIPTVLNRIREWLLFLGYIQIGFAYIMPFILIALLLWQRRKRQRDAQC				NA	NA	NA	NA	NA
AK002_03018	1506	gerAA_2		Spore germination protein A1	GTGGGGATGAAACAGATATTAAAATCTATTTTTGTGGTCACTCATGAGCATTCTGAAACCGGCCCATCGCTATATAATCAACAGGATCCCAACCCCCAGGAAGAAGTTTCGCTGACGCTGAAGCATGTCGCGGATCAGTTTGACGATTCGGCCGACTTTGTCCATAAGATCTATCTTCATGGGCGCCTTCATGTTATGTATTTCAGCCATTTGGTCAATGAGGATCGGCTGGAACGGGATCTGCTTCCTCCCATTTTGAATTCCGAAAACCCGCTCGATTTGTTGACGGAGCAATCCCAGTATGAGCTTGTAACGGATTCGAAAACCTATGTGGAAGGTATTCTTAGCGGTATGGCCGCTTTTTATTATGAAGATCAAGCTTTCATGATCGATGTTATTTTCCCGACATCCCGGACGGTGGCTGAATCCGAAACGGAATCCATCATTATCGGACCGCACGAGGCGTTTACCGAACAAGCCTATACGAATCTGTCCTTGATCCGGAAGAGAGTGCAAAGTTCTCATCTCAAGGTCATCAAACTATCCGTCGGCGAGGTTACGAAGTCGGATATCTATGTTCTGTATATCCAAGACATCGCGAACGAGAGATATGTCAAAGAAGTCATTAAACGGATCGAGGATATTGAGATTGACGCCATACACGATACAAACATGCTGATTCAATGCATTGACGATAATCCGTATTCGATTTTCGCGCAATTTTTAACCTCTGAGCGGCCGGATACCATCGCCTCCAAGCTGGTTTCCGGTCGAACCGTAGGTATTATGGACGGGAGTCCCACCGCTTTCAGCGCGCCCGCCAACTTTTTTGAATTTTTCTCGTCATCCGACGATTATTACCAGAGGTGGAGCATTGGTACGGCGACCTTGTTCTTGAGGTTTGCAGCCCTCATCATCACGGTGACACTGACGGCCCTTTACGTTTCGGTTACCTCTTTCCACTATGAGATGATTCCGGAGAATCTAATTCTGACGCTGACGGAGTCCAGAAGCAAAGTGCCGTTTCCCCCCATTTTTGAAGCGCTGCTTATGGAGACTACGATTGAGCTGCTGCGGGAGGCTGGAGCCAGGCTGCCTACCAAGATTGGACAAACGATCGGTATCGTAGGCGGTATCGTCATCGGGCAGGCGGCGGTTCAAGCGGGATTAACCAGTAATATTCTGATCATCTCCGTCGCCTCCTCGGCTATTGCTTCCTTCGTCATTCCAAACTATGTCATGAGCGCGTCCTTTCGCCTGTTCCGATTTGGACTCATCGTTATGGCCGGTTTATGGGGGAATCTGGGATTGGCCCTTGGCTTGGCCTATATGGTCATTCACTTAAGCGGCTTGACAAGTGTCGGCTCCTCTTATTTATCACCTATCGCTCCATACGAGCCCTATGATTGGAAAGACGCATTTCTAAGACTTCCCTTTTCCACGTTGGCCAAGCGGCCAACCCAAGTCAAAGCCAGAAACAAGGTCAAATTAAAAATGAAAAGGTGA	MGMKQILKSIFVVTHEHSETGPSLYNQQDPNPQEEVSLTLKHVADQFDDSADFVHKIYLHGRLHVMYFSHLVNEDRLERDLLPPILNSENPLDLLTEQSQYELVTDSKTYVEGILSGMAAFYYEDQAFMIDVIFPTSRTVAESETESIIIGPHEAFTEQAYTNLSLIRKRVQSSHLKVIKLSVGEVTKSDIYVLYIQDIANERYVKEVIKRIEDIEIDAIHDTNMLIQCIDDNPYSIFAQFLTSERPDTIASKLVSGRTVGIMDGSPTAFSAPANFFEFFSSSDDYYQRWSIGTATLFLRFAALIITVTLTALYVSVTSFHYEMIPENLILTLTESRSKVPFPPIFEALLMETTIELLREAGARLPTKIGQTIGIVGGIVIGQAAVQAGLTSNILIISVASSAIASFVIPNYVMSASFRLFRFGLIVMAGLWGNLGLALGLAYMVIHLSGLTSVGSSYLSPIAPYEPYDWKDAFLRLPFSTLAKRPTQVKARNKVKLKMKR	PGPT0014780_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK002_03019	783			hypothetical protein	ATGCTGGGCACCCTTTTATTCGCTAGCATACTGTCGCTCGGGGTTACACCCATTAATGATCAGGCGACTATGGAATCTTCGGAGTTTTCGTTTCAGCAGGCCATTTTTGAAAGCGGTGCCGAGCTTGTAGAGGAGGCGATAAGGGCTTGCGAGAAGCGTTTCGGCAGAGAAATCCAGCTCCCGCCGCAAGTGCCCGCCGTAGCTTTTACGCATCAATATGGTCGTTGTTATGGCACGCATGCCGGACTTGACGAGCATTTGGAGATCCATTATCGAAACGAATTCAAACCCGAGAACGACTACAGGATCGAGTTATATCCCCTTGAGAATAGACAGCAGCTGGAGCACCTATCGTTTCAAGCATTAGAATTGACGGAGCAGACAGCCGCTAAATTCTACAAGGGTCCGTTCAATACGCTGCAGCTGTTGGTTTTTGAAAAGGCGGATTGGCAATATCTCTTAACTACAGCCAATCGAGCTTCCACGGAAATCGGACAGCGTGAACTGACCGAAATTGCGCAGTCTTTGATTCATGCCGTGAACAGAAGAGAGCCTGCCTACGCCAAGTGGGGAACCTTAGCCGTGACCGAAACGAAGCGTAAATATAATATGGACGTCGTGGACTACCTGTATATGGGCAGAACCAAGATATCCAGCGTTTTGGCGGAGGAGAAGTTCAAGCTGTGGCTTAAGAAAGGGAATGTTGAATTCGGCGTGTATGTCACGATTTCATATCATCCGGGAACCGATCAGATTCTATCGATACGTTATGAGGAAATTTAG	MLGTLLFASILSLGVTPINDQATMESSEFSFQQAIFESGAELVEEAIRACEKRFGREIQLPPQVPAVAFTHQYGRCYGTHAGLDEHLEIHYRNEFKPENDYRIELYPLENRQQLEHLSFQALELTEQTAAKFYKGPFNTLQLLVFEKADWQYLLTTANRASTEIGQRELTEIAQSLIHAVNRREPAYAKWGTLAVTETKRKYNMDVVDYLYMGRTKISSVLAEEKFKLWLKKGNVEFGVYVTISYHPGTDQILSIRYEEI				NA	NA	NA	NA	NA
AK002_03020	1566	sasA_13		Adaptive-response sensory-kinase SasA	TTGTCGTTTTTAGTCCTTAAGCTCCTATTTGTTCCCTTGATATCGATTTTTATTATGGTATCGTCGGTTTATCTCGGTTATCACACGTCCATTCCTATGATGCTGCTCACGGCAACTTTGTTGTACGTTTCCGTTGTTTTTGATCGTAAGTACGAATGGCTTCGTTATGTTCATTTTCTGTTTCTTGGGGCGTTTCACTATGTAAGTCAATTAAACTGGTGTATCCTCCTGTATTACATACTGATCATTAATACCATTCATAAAAAGGAACGATTTAAGGAAACGATGCCGCTGTGCTTCCTGATCATTCTTCAGTATTCCTTAATCCGTCTGACTTACGTGCCGTTTACGAAATACAATGTTCTGGTCTCTGTGTTTGATTGTTTGGCTTCCTTTGTGATTGTGATTTCATTCCACTTTGTAAACTTTCTGGAATCGGAGAAGAAGAAATTATATAAGCAGAACGATTACTTAACGTACCATGATGCATTAACCGGTCTTTTGAATTATGACGGGTATTTGAATAAAGTCCAGCAGCTCATTGAGGTGAACAAGCCGTTTCAGCTGGTGCTTCTCGATATCAACAACTTTAAATCGTTAAATGCGAAGGACATTTCCACCGCAAATGAGATACTGATCAGATTCTCGCGTGCTCTGCGGAGATTGTTCCTGAACGATATGCTGGCCGCCTCGCGCTATGCAGGAGACCGCTTCGCCGTACTGCTTCCGGAGCATGTCAACATCGACAGCACCATGTTCAATTTTGAGCATATCGGCGTACAGGTGACGTATAGCATTACTTGCTACCCGCATGAAGCATTAACGTATCAGGAGATCATCAGCACGGCGGAGGACCGGATTTTTCAAATGCGCCGCAATTCCTGGATGAGAAGCCAGGAGGAGATGATCCGAACGGAAAAAATGAAGATGGTGGGGGAGCTCGCTGCCGGAATGGCCCACGAGATACGCAATCCGCTGACTTCGATTAAAGGCTTTATACAGCTTTCCAAAAACCAAAGTTATAATATACAGCCCTGGTATGAGGTTATCATGGGGGAAATCACGCGGGTAGGGGAGCTGACGGCTGAATTTTTACATTTTTCAAAGCCGCATGCCAGCAATATGAGAGTTGAGTCCCTAACGGATTGCATGACGCGCGTTTACTCCTTATGTGAATCCGAAGCGGCCTCGCACGGACATGTGTTTCTGCTCGATTTAAGCGATGAGCCGATCCATATCGTGATGGACCGGGACAAGATCATCCAGGTACTGATCAATCTGATTCGTAATTCCTTCCAGGCGATGGAAAATACCGGTTCCGTTCGAATCTCGCTTAAAGCAGATGAGGGGATGGCCGTTGTTCAGATCGAGGATACTGGCAAAGGAATTGCCGACGAAAATCTAGCCAAAATTTTCGATCCGTTCTATACGACCAAGGAAGAAGGGACGGGGCTCGGGTTGTCCCTGTGTCAGAAAATTGTAGAAGATCATGGCGGAAGAATTACGGTGCATAGCGAACTGGGCATTGGCACAACGTTTACTTTGCGCATCCCGCTAGCCTCGTAA	MSFLVLKLLFVPLISIFIMVSSVYLGYHTSIPMMLLTATLLYVSVVFDRKYEWLRYVHFLFLGAFHYVSQLNWCILLYYILIINTIHKKERFKETMPLCFLIILQYSLIRLTYVPFTKYNVLVSVFDCLASFVIVISFHFVNFLESEKKKLYKQNDYLTYHDALTGLLNYDGYLNKVQQLIEVNKPFQLVLLDINNFKSLNAKDISTANEILIRFSRALRRLFLNDMLAASRYAGDRFAVLLPEHVNIDSTMFNFEHIGVQVTYSITCYPHEALTYQEIISTAEDRIFQMRRNSWMRSQEEMIRTEKMKMVGELAAGMAHEIRNPLTSIKGFIQLSKNQSYNIQPWYEVIMGEITRVGELTAEFLHFSKPHASNMRVESLTDCMTRVYSLCESEAASHGHVFLLDLSDEPIHIVMDRDKIIQVLINLIRNSFQAMENTGSVRISLKADEGMAVVQIEDTGKGIADENLAKIFDPFYTTKEEGTGLGLSLCQKIVEDHGGRITVHSELGIGTTFTLRIPLAS				NA	NA	NA	NA	NA
AK002_03021	1251	bcr_1		Bicyclomycin resistance protein	ATGTCGATTTCCACCAAAGAAACCGGTTCAGCCATGGTCCTGACTCGCGGAAAGAGGCTCCAGTTTGCCTTGATTCTCGGATCCCTCTCGGCATTTGGACCGCTCTCTGTTGACATGTATTTGCCTGCACTGCCTAAACTTTCGGAAAGTTTAGGGTCGCCGGCATCGTTAGCCCAATTAAGCTTAACGGCATTTTTGCTCGGCCTGGCGCTTGGACAACTCGTAGCCGGACCGCTCAGCGATATACGGGGGCGAAAAGCACCGCTGATCATATCCCTGATTATTTATTCGGTAACCTCCTTACTGTGCGCATTTGCACCGACGATTTGGGTTCTGGTTGCGCTTCGATTCGTGCAGGGAGCAAGCGGAGCAGCCGGCATCGTCATATCCAGGGCGGTTGTGCGGGATTTGTACACCGGCTCGGAGCTGACCAAATTTTTCACATTGCTGATGCTGATCAACGGATTGGCTCCAATTATCGCTCCTGTATTCGGAGCCTTTATCCTGAATTTTGTATCTTGGCGCGGCGTATTCGTCGTCCTGTTTCTGATTGGATTGCTGATGCTGCTTGCCGTATGGTTTGGTCTTCCGGAAACGTTGAACAAGGAGAATAGAGCCAGCGGCGGGATCAGGCAAACCTTTCAAACCTTCGGAACGCTGGTTCGGGATCGCGTGTTTATCGGATATGCGCTCTCCCAAGCGTTCGTATCGGCCGCGATGTTCGCGTATATCTCGGGATCGCCCTTCGTGCTGCAGGATATCTTCGGGGTGTCTCCTCAAACGTACAGCCTATTCTTTGCCGTTAACGGGGTTGGTATCGTACTATTCTCCCAAATTACCGGCAGATTGGCTTCCCGCACAGGAGAAACCAAACTTCTGACGACGGGACTTCTTATTGCAGCCTTTGGCGGCACATCGCTGTTTGCCATTACATGGCTTGGCGGCGGACTGTTTCTCATAGCACCGATGCTGTTCCTGATCGTCTCAGCCGTAGGGATGGTTAGCGCAACGACAACATCACTGGCGATGCAGAAGCAGGAAGCCCATACCTCAGGCAGTGCATCCGCATTACTCGGCTTGCTGCCTTTGCTATTAGGCGCCGCTGCCAGCCCTCTTGTCGGGCTTGGAGACGGAACGACGGCAGCTCCTATGGGCACCGTCATCGGGATTGCGGAATTGCTGGCCGTCAGTTCGTTTCTGTTTCTCGTCATGCCTATTAGCCGCAGGAAAGAGACACAAGTCTCTTTATAA	MSISTKETGSAMVLTRGKRLQFALILGSLSAFGPLSVDMYLPALPKLSESLGSPASLAQLSLTAFLLGLALGQLVAGPLSDIRGRKAPLIISLIIYSVTSLLCAFAPTIWVLVALRFVQGASGAAGIVISRAVVRDLYTGSELTKFFTLLMLINGLAPIIAPVFGAFILNFVSWRGVFVVLFLIGLLMLLAVWFGLPETLNKENRASGGIRQTFQTFGTLVRDRVFIGYALSQAFVSAAMFAYISGSPFVLQDIFGVSPQTYSLFFAVNGVGIVLFSQITGRLASRTGETKLLTTGLLIAAFGGTSLFAITWLGGGLFLIAPMLFLIVSAVGMVSATTTSLAMQKQEAHTSGSASALLGLLPLLLGAAASPLVGLGDGTTAAPMGTVIGIAELLAVSSFLFLVMPISRRKETQVSL	PGPT0029005_916	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
AK002_03022	936			hypothetical protein	TTGAAATGGATGTCGGTCATAAGCCTACTGTTCATGCTCCTGCAAGGGACTGAACCGGAGAACGACAATTTAACGATTACCCAGGAAGGCAAAGTCATGGAAAGCGTGAATCGAAGCGAACATGCGCTTGATGTGTTCCCGCTGCTGGATATGGACAAATACGATCAATGGGTGGATAAACTTGATCGCAAGACCTATATGGAAGCCCGAAATGCCAAGATTGGCAGCAGCGGACAGATAATTCCTGGTCAGAACGGCCATCGACTGGACCGACGCAAGCTATTGGAACAATACTACTCGTATTGGTACGGCACAGGGGCTGTTTCCTTCGAAGCGCCGAGGTATCCAATATACCCGAAGGTGGATACCGAGCTTCTGGCTTCCATTCGCGTCAAGCCGATCGGCTACTATGTAACCTATTTTAATTCCAATAACAAAAATCGTTCCCATAACATCGCGTTGGCTGCTCAAGCGATTGACAGCGCAGTCGTATTCCCCGGAGAAACGTTCTCGTTCAATCAGGTCGTCGGCATGAGAACGGTGGATAGGGGGTACAAACGTGCCGGCGTTATCGTAAGAGGCGAATTGTCCGAAGGAGTGGGGGGCGGAATCTGTCAGGTTTCTTCGACTCTGTATAATGCGATTGACCGTGCAGGTTTGCAGATTGTGAAGCGCTACTCTCACAGCCGGAACGTCCCTTACGTGCTGCCTGGCCGAGACGCTACGGTAAGCTGGGGAGGCCCGGATTTTGTCTTTGAGAACGCCTATAATCAACCCATCCTCATTCGGGCATTCGGGAACGGGGGAAGAATGACCGTAGCCATATACTCTTCGGAACTCATTGAATATAAGCCGCGCAATGTACCGAGCATATCCAACAGCCTGCCGGAGGAGACCAGTGACACCAAGCATAATCCGGTAAGCGGCGGCGATTAA	MKWMSVISLLFMLLQGTEPENDNLTITQEGKVMESVNRSEHALDVFPLLDMDKYDQWVDKLDRKTYMEARNAKIGSSGQIIPGQNGHRLDRRKLLEQYYSYWYGTGAVSFEAPRYPIYPKVDTELLASIRVKPIGYYVTYFNSNNKNRSHNIALAAQAIDSAVVFPGETFSFNQVVGMRTVDRGYKRAGVIVRGELSEGVGGGICQVSSTLYNAIDRAGLQIVKRYSHSRNVPYVLPGRDATVSWGGPDFVFENAYNQPILIRAFGNGGRMTVAIYSSELIEYKPRNVPSISNSLPEETSDTKHNPVSGGD				NA	NA	NA	NA	NA
AK002_03023	822			hypothetical protein	ATGAGTAACCATTCGATTCATCATCATGGTGCCGGAATATTCGAAGGCGCTGCTGTGTGGCACCCTTGGGAATGGATTTTGAGTTTCTTCCTCGCTGGCCTAATTCTGCTCTATTGGACAGCTGCTGCGGTTTCCAATCGACGCCACCGCATATGGCCTGCCCATCGTTATGTTTGCTGGATTGCGGGATTGACCTGCATAGGTTTGTCGCTGGCAGGCCCGTTGGCCCGGCTTGCCCCTGCGAATTTCCCGGTGCATATGCTTGGGCATTTGCTGCTCGGCATGCTCGGGCCCCTGCTGATTGCGTTTTCTGCTCCAATGACGCTTCTGCTTCGGTCAATCAGCGTGCTGTTCGCTAGAAGGATAAGCCGATTGCTTAAGAGCAAGCCCGTCCATTTTATCGCACATCCGTTGGTGGCAACCTTGTTGAATATCGGCGGATTATGGACCCTCTATACCACCGGGTTGTTCACGGCCATGCATCAAAATTTAATTCTTCATATAGCCGTTCATTTTCATGTGTTTGCAGCCGGATATCTATTTACGGTTTCTTTGATGTACGTGGATGTGGTTCCCCACCGTCGAAGCTTTCGGATTCGTGCGTTCATCCTGATCATTGCCATGGCGGGACACGGGATACTCTCCAAATACTTATATGCCCATCCGCCCGACGGCGTCCCTTCAGAGCAGGCAAAGCTTGGTGGAATGCTGATGTATTACGGCGGCGATGCCGTTGATCTCGTTCTCGTGTCGTGGTTGTGCATGCAATGGTATAGGTCGTCCCGTCCGCGGCCGGCATCGTTTCATCCAATCTCGGATTAA	MSNHSIHHHGAGIFEGAAVWHPWEWILSFFLAGLILLYWTAAAVSNRRHRIWPAHRYVCWIAGLTCIGLSLAGPLARLAPANFPVHMLGHLLLGMLGPLLIAFSAPMTLLLRSISVLFARRISRLLKSKPVHFIAHPLVATLLNIGGLWTLYTTGLFTAMHQNLILHIAVHFHVFAAGYLFTVSLMYVDVVPHRRSFRIRAFILIIAMAGHGILSKYLYAHPPDGVPSEQAKLGGMLMYYGGDAVDLVLVSWLCMQWYRSSRPRPASFHPISD				NA	NA	NA	NA	NA
AK002_03024	495			hypothetical protein	ATGAAGTCTTCTAAAACCCATAAAAATCAAACACAGCGCTCAAACTACGCCGAACGCAACCTGTGGGCCGGCATCTTGTTCGGGTTAGGGCTGGTCGGATTCATCGATGAGGTGGTATTTCACCAATTGCTGCATTGGCATCATTTCTACGATAAGTCTACGAGCGATATCGGCCTTGTCTCTGATGGTCTGTTTCACGCGTTCAGCTGGTTTGCTACCATCGGCTCCTCGTTCCTGATTGCCGATCTGCACCGAAGGAATGCGTTTTGGGCTAAACGATGGATTGGAGGCATTCTGTTAGGCGGTGGCGCTTTCCAGCTGTACGACGGCATCATCCAGCACAAGTGGATGCGACTGCATCAGATTCGTTATTACGTCGATATAAGACCCTACGACTGGGTCTGGAACCTGATTGCTGCCGGCATGATCATCGCTGGCATCATACTCATTGTACGAACTCGAAACCGCGTTCCTTCCCGGAAGGCCGCATCCTAA	MKSSKTHKNQTQRSNYAERNLWAGILFGLGLVGFIDEVVFHQLLHWHHFYDKSTSDIGLVSDGLFHAFSWFATIGSSFLIADLHRRNAFWAKRWIGGILLGGGAFQLYDGIIQHKWMRLHQIRYYVDIRPYDWVWNLIAAGMIIAGIILIVRTRNRVPSRKAAS				NA	NA	NA	NA	NA
AK002_03025	1194	pksS	COG2124	Polyketide biosynthesis cytochrome P450 PksS	ATGAATGTGAACGAATCTCTGAAAAATGCGTTGTTTACCAAGGAATTTACCCATAATCCTTATCCGGTGTACGAGAAATTGAGGCAAAGCGATCCCATTATGAATCTGCAATTTCCGGATGGTCGTCATGGGTGGCTGATCAGCAGTTACGCTGAAGCCGTCGAAGCGCTCAAGGATGGCCGGTTCAGCAAGGACGTCACGAAGGCAATGGGCGCGGAACAGACCAGCGTATTCAGCACGAACATGCTGTTCTCCGATCCGCCGGATCACAAACGGCTTCGCGGATTGGTCCAGAAGGGTTTCACGCCGCAGAGAATCGCGGATATGCGTAGCCATATTCAAGAGATCGCGGACGGCCTGTTGGATGCCGTCTCCTCCAAAGACACCATGAATCTTATTGACGAATATGCCTTTAAGCTTCCCATTATAGTAATCAGCGAGATTCTCGGCGTACCTGCCGAGGATCAGGACAAGTTCCGGGTATGGTCCAATTCCATCATCGGCGCTTCCAATCAGGAAATGAACGAGCAGGTCGTCCAGCATATGAACGAATTCATCGCTTATTTGAGGGACTGGTTCGCCAAGGTTCGCGAACAGCCCGGCGACGATATGATCAGTCAGCTGGTCATTGCCGAGAACCAAGGCGACCGCTTATCCGAACAGGAGTTATACGGCGTCGTTACCCTGATGATCATAGCCGGTCATGAAACGACGGTGAACCTGATCGGCAATGGCGTGCTTGCATTATTGGAGCATCCCGAGCAGCGGAAGCTACTGCAGGAACAACCGGAACGGATTCATGGCGCCATTGAGGAAATGCTTCGCTACAACGGTCCCGTTGAATTCAGCACTTCCCGATGGGCCGCGGAGGACTTGGAATTTCACGGCGTCCATATGAAAAAAGGCGACTTGGTTGTCATCGCCCTAAATTCCGCTAATCGCGATTCCGCACAATTCGAGGATCCCGATCTGTTCGATATCACCCGGGAGAAGAGCCAGCACTTAGCCTTCGGCAAGGGAATACACCTCTGCCTCGGAGCACCGCTCGCCAGGCTGGAAGGTGAAATCGCGATTAACACGCTCCTTCGCCGCTTTCCCGATTTCGAGCTTCAGGGCAATTTCGACGAGCTGGAATGGAGGCCGGGTATGATCGTGCGCGGCGTGAAGGAAATCCCCATTTCACTTCGTCCTTAA	MNVNESLKNALFTKEFTHNPYPVYEKLRQSDPIMNLQFPDGRHGWLISSYAEAVEALKDGRFSKDVTKAMGAEQTSVFSTNMLFSDPPDHKRLRGLVQKGFTPQRIADMRSHIQEIADGLLDAVSSKDTMNLIDEYAFKLPIIVISEILGVPAEDQDKFRVWSNSIIGASNQEMNEQVVQHMNEFIAYLRDWFAKVREQPGDDMISQLVIAENQGDRLSEQELYGVVTLMIIAGHETTVNLIGNGVLALLEHPEQRKLLQEQPERIHGAIEEMLRYNGPVEFSTSRWAAEDLEFHGVHMKKGDLVVIALNSANRDSAQFEDPDLFDITREKSQHLAFGKGIHLCLGAPLARLEGEIAINTLLRRFPDFELQGNFDELEWRPGMIVRGVKEIPISLRP	PGPT0010175_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACILLAENE_METABOLISM,PGPT0010175-baeS|pksS-K15468	NA	NA
AK002_03026	1650			hypothetical protein	ATGAGAAGAAGAACGCTATCCACGAGTTTGATCATTTTGTTATTAGGCACGATGCTCATGGCTTGTTCGTCCGGAGGCGGCAATGCGGGCGAAACCAATAAGGGAGAGGGAGCTGCGGGAACGAACCCTAGCGGTACAACCGAAGCGGAGGCAGCAACTTATCCGATCCAAACGGATAAGAAGCTTACGTATTGGGGCGAGATTAACGGCAATCTGATCGGGGTCAAAAATTCGCACAGCGAAATTCCGTTTTTTCAAAAATGGCAGGAGAAAACCGGGGTTCCGCTGGAATTCACAGCTCCGCCTACGGGTCAGGTCCGGGAATCCCTGAACGTCATGCTCGCTTCCGGGGATTTGCCGGACATGATTGAGTACAACTTCATTGGAGACTTTCCGGGGGGGCCGGAAAAAGCCATTAATGACGGGTACATCCTCAAGCTGAACGATCTGATCGACAAATATGCGCCCAACTTGAAAAAGTACCTGGAGGAGAACCCGGATATCGACAAAATGGTCAAAACCGACAGCGGCAGCTATTATGTATTCCCGTTCATCCGCGGGGATGAGTACCTTCGCGTCTTCCAGGGACCGATCATCCGCAAGGATTGGCTTGACGAGCTGGGACTTCCGGTTCCGGAAACGATAGATGAGTGGACGACAACCTTACGGGCGTTCAAAGAGAAGAAAGGGGCAGCCGCTCCGTTCTCGGTGGTGAGCAAGCCAAGATTTTTCAACGATTCCGGGAATGGCGCTTTTATTGGAGCGTTCGGCGTGAATCGCGGTTTCTACCAGGAAGACGGGCAGATCAAATTCGGCCCTTCGGAGGCCGGGTTCAAAGAGTATTTGAAACTGTTCCAGGATTGGTACAAGGAAGGACTCATTGACAAAAACATCGCAACAGCCGATACCAAAGCCGTTGATGGAAACATGGCGTCCGGCGCTACCGGGGCTACCGTCGGGAACGCCGGGGGAGGCATCGGGAAGTGGCAGCCGCTGGTAGAGGCAAACGATCCGGATGCGGTCCTAGTAGCAGCCCCGTACCCGGTGCTGAATAAGGGCGACGTGCCGAAATTCGGCCAACGCAACCAAGGCTATGCCTCGGAGGGGACGGTCGCTATCACGACCGCGGCGGAGGATCCGGAGCTTGCCGTTCGCATGCTGGATTACGGCTACAGTGAGGAAGGACATATGTTCTTCAACTTCGGAGAAGAGGGCGTCAGCTACAATCTGGAAGGCGACGATCCGAAATTCACGGATCTGTTAATGAAGAACCCGGATAAACTGGCTCCGGCGCAAGCGATATCGCTGTATGCCCGCAGCAGCTATAACGGACCGTTCGTTCAGGACAAGCGTTACGCGGAGCAGTTCTTTGCCTTGCAAACCCAGCGGGACGCGATTGAAGTGTGGAAGAATACGGATGCAGCCAAATACAGCCTGCCGCCGATTACGCCGACGCCGGAAGAGAGTTCCGAGTACGCAACGATTATGAACGACATCAACACGCTCGTGGACGAGATGACCATCAAGATCATTCTGGGGAACGAATCGGTGGATGAATTCGAAGGCTATGTGGCCAAAATGAAGTCGCTGAATCTCGATCGTGCCATCGAGATTCAGGCCGCAGCGCTGGAGCGTTACAACAACCGGTAA	MRRRTLSTSLIILLLGTMLMACSSGGGNAGETNKGEGAAGTNPSGTTEAEAATYPIQTDKKLTYWGEINGNLIGVKNSHSEIPFFQKWQEKTGVPLEFTAPPTGQVRESLNVMLASGDLPDMIEYNFIGDFPGGPEKAINDGYILKLNDLIDKYAPNLKKYLEENPDIDKMVKTDSGSYYVFPFIRGDEYLRVFQGPIIRKDWLDELGLPVPETIDEWTTTLRAFKEKKGAAAPFSVVSKPRFFNDSGNGAFIGAFGVNRGFYQEDGQIKFGPSEAGFKEYLKLFQDWYKEGLIDKNIATADTKAVDGNMASGATGATVGNAGGGIGKWQPLVEANDPDAVLVAAPYPVLNKGDVPKFGQRNQGYASEGTVAITTAAEDPELAVRMLDYGYSEEGHMFFNFGEEGVSYNLEGDDPKFTDLLMKNPDKLAPAQAISLYARSSYNGPFVQDKRYAEQFFALQTQRDAIEVWKNTDAAKYSLPPITPTPEESSEYATIMNDINTLVDEMTIKIILGNESVDEFEGYVAKMKSLNLDRAIEIQAAALERYNNR	PGPT0017245_1711	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03027	924	yteP_29	COG4209	putative multiple-sugar transport system permease YteP	ATGAACGATCGTCAGTCCTTCAAGAGCCGGTTCATCCGGGACTTCGTGATGAACAAGTATTTGTACATCATGATGATTCCCGTCATCGGCTATTACCTTATTTTCCATTACGGTCCGATGTACGGCGCGATCATTGCCTTCAAAGACTATTCTCCGATGAAGGGGATTCTGGAAAGCGATTGGGTCGGACTCAAGCACTTCGAGGAATTCTTCAACAGCTATTATTTTCTGCGCGTCTTAAAGAACACCATTCTCATCAGCCTGTATACGCTGGTCTTCGAATTCCCGGCACCGATCATTCTGGCGCTGTTGATCAATGAAGTGCGCAAGAAGAAGTTCAAACGGGTCGTCCAGACGATAACCTATATGCCTTATTTCATATCACTGGTCGTAATCTGCGGCATTATTACGGACTTCACGAACGCCGACGGATTAATCAACCGGCTGTTCATGTTGCTGGGATACGACGGTCAAGCCATGCTGCAAAAGCCGGAGCTGTTCAGGCCCATCTACGTCCTGTCCGAAATATGGCAGCGAATCGGTTGGGAATCCATCATCTATATCGCCGCCTTGATGAGCATCGACTTGGAGCAGTATGAGGCCGCTCGCATGGATGGAGCGAGCCGCATCAAGCAGATGTTTTACATCACGCTTCCAGGTCTCTTGCCCGTCATTACCATCATGTTCATACTTCGGATGGGCAATATGCTGAACGTCGGATTCGAGAAAATCATTCTCCTCTATAATCCGGTCACGTATGAAACGGCTGATGTCATCTCTTCCTTCGTGTACCGCAAGGGATTGCTGGAATTCGGATGGAGCTACAGCTCCGCGGTCGGTTTGTTCAACTCGGTTATCAATCTGGTGCTCCTCATTTCGGCGAATTACATCAGCCGCAGGGTGAGTCAAAACAGCTTATGGTGA	MNDRQSFKSRFIRDFVMNKYLYIMMIPVIGYYLIFHYGPMYGAIIAFKDYSPMKGILESDWVGLKHFEEFFNSYYFLRVLKNTILISLYTLVFEFPAPIILALLINEVRKKKFKRVVQTITYMPYFISLVVICGIITDFTNADGLINRLFMLLGYDGQAMLQKPELFRPIYVLSEIWQRIGWESIIYIAALMSIDLEQYEAARMDGASRIKQMFYITLPGLLPVITIMFILRMGNMLNVGFEKIILLYNPVTYETADVISSFVYRKGLLEFGWSYSSAVGLFNSVINLVLLISANYISRRVSQNSLW	PGPT0017250_2123	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03028	882	araQ_33	COG0395	L-arabinose transport system permease protein AraQ	TTGAAGAAGGAAAGCGGTTGGTTCGATCGGATATTTAATGTCGTTAATTATACATTTCTGATTTTGCTTGTCATTGCCACGTTGTATCCGCTGCTCTATGTATTGTTTGCGTCATTCAGCGACTCGTCACAGCTGTTGGCCAACAAAGGGTTATTATGGAAACCGGTCGGCTTCAGCCTGGATGCCTACAAGAGCGTCCTTGCGAATCCCGGTATCGGCATCGGCTTTCGGAACACGTTGTTCATCGTGGTGTTCGGCGTCATCGTCAACCTCTTCATGACGGCTCTTGGAGCTTATGTGCTGTCCCGCAAAAACGTGATGTGGAACAAAGTGTTCATGTTCTTTATCGTATTCACGATGTTTTTCGGCGGCGGGCTGATTCCGTTGTATTTAATCGTAAAAGGAGTCGGCCTGCTGGATTCCTTGTGGTCAACGATTCTGCCGTTCGCCATCAGCACGTTCAATCTGATCATCATGCGAACGTCCTTCATGGGCATCCCGGACAGCTTGGAGGAATCGGCCAAGATTGACGGAGCCAATCACTTCACGATTCTGTTCCGAATCATTATTCCGTTATCCATGCCTGTCATTGCCGTGATGATTCTGTATTATGCGGTGGATAAGTGGAACGGCTGGTTCTACGCATCGGTGTTTATCAAGAGCCGCGAGTTGTTTCCGCTTCAATTGGTGCTGCGCGAAATCCTGATCGCCAATTCCACGGAGAGCATGTCGGCCGGCGCATCGGCGGGGGATCGGTTCCAGATCGGGGAAACCATTAAGTATGCAACCATTATGGTAGCTACAATACCGATTCTGTGCATTTACCCGTTCTTGCAGCGATATTTCGTCAAAGGCGTCATGGTCGGATCATTGAAAGGTTAA	MKKESGWFDRIFNVVNYTFLILLVIATLYPLLYVLFASFSDSSQLLANKGLLWKPVGFSLDAYKSVLANPGIGIGFRNTLFIVVFGVIVNLFMTALGAYVLSRKNVMWNKVFMFFIVFTMFFGGGLIPLYLIVKGVGLLDSLWSTILPFAISTFNLIIMRTSFMGIPDSLEESAKIDGANHFTILFRIIIPLSMPVIAVMILYYAVDKWNGWFYASVFIKSRELFPLQLVLREILIANSTESMSAGASAGDRFQIGETIKYATIMVATIPILCIYPFLQRYFVKGVMVGSLKG	PGPT0017255_2059	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03029	1122	ugl_6		Unsaturated glucuronyl hydrolase	ATGAATAAGGTAATGGTGAATAGGCAGGAAGTTTGGAACCAGATCAAGAGCAAAACGGATCGAATGATGGAAGCGATCGGGAACAAATCTCCGCACGCAACCGGCGCGAACGGCATCTACGACGACATGAGGCTAGATTGGTGGACATCGGGTTTCTGGCCGGGAATTCTATGGATCGTATACGATATGACCGGCGATGAGAGATACAAGAATGCAGCTTGGGATTGGGATGCACGACTGTCGGAGCGCTTCCTTGAGAATCACTATTTCGACCATGATGTAGGCTTTCAATTCCTGCCGACCGCAGCGATCAAATACAAGCTGACGGGAGATGCGGATGCCGCCCGGCGCGCTTTGTTCGCAGCCAATTTTCTGGCGGGCCGGTTCAATGCCCAAGGCAGTTTCATTCGGGCGTGGAACGGCGATAAGCACGGCTGGTCGATCATCGATACCATGATGAACCTGTCCTTGCTGTTCTGGGCATCGGAGGAAAGCGGCGATCCCCGGTTCGCTCATATCGCAAGAGCCCATGCGGATATGGTGATGAAACAATTCATAAGGGAAGACGGTTCCGTCCATCATATCATCCGGTTTGACCCGGTGACCGGTGAACGAGCAGAAGCCATCGGAGGACAGGGGGCAGCGCCGGATTCCGCTTGGAGTCGGGGTGCGGCATGGGCCCTATACGGTTTAACGAATACGTATAGATATACGGGAGACCCGGCCTATCTGGGAGCCGCGCAGCGCGTCGCTGACTTCTTCATTTCCAGCCTGTCCGACCATGTCGTGCCTCCTTGGGATTTTCGGGCGGGGCAAGAAGGAGAAGAGGAGATTCCACGGGACAGTTCGGCCGGCGCAATCGCCGCATCGGGACTGCTGGAACTTGCGCACGCACTGCATGAACCGGAAGGAGGGCTGTACGGGGCTGCAGCAAGACGCATCTTATCAATGCTGCACGAATGTTACGGAACTTGGAACGACCCTAAGCATGAAGGCATTCTGCGCGAAGGCACCGGCCATAAACCGGCAGGGCAGAACGTGAACGTGTCCCTCATTTACGGCGACTATTTTTACGTGGAAGCTGTTGCGAAATTAAACGGCTGGCAGCATCGAATATTCTAA	MNKVMVNRQEVWNQIKSKTDRMMEAIGNKSPHATGANGIYDDMRLDWWTSGFWPGILWIVYDMTGDERYKNAAWDWDARLSERFLENHYFDHDVGFQFLPTAAIKYKLTGDADAARRALFAANFLAGRFNAQGSFIRAWNGDKHGWSIIDTMMNLSLLFWASEESGDPRFAHIARAHADMVMKQFIREDGSVHHIIRFDPVTGERAEAIGGQGAAPDSAWSRGAAWALYGLTNTYRYTGDPAYLGAAQRVADFFISSLSDHVVPPWDFRAGQEGEEEIPRDSSAGAIAASGLLELAHALHEPEGGLYGAAARRILSMLHECYGTWNDPKHEGILREGTGHKPAGQNVNVSLIYGDYFYVEAVAKLNGWQHRIF	PGPT0019355_919	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
AK002_03030	2454	yesS_6	COG2207	HTH-type transcriptional regulator YesS	TTGTCAATCGAATTGAACTTTTTATCTATATGCCAAAGCAAGCTCTTGCCGTATAATAAACACCTGATCTACACACAGACAATATACGAGGATATGGGTGATGAGCTGTTGCTGAGCATTCAATATTTATGGCAGAAACGGGAAAGCATTATCGTGACCTGGCTCGTATCGTACAGTGCCGTTTTGTTTGTCCCGATTCTGATCAGCCTGGTCATTTACGCGCAGGCAAACGATACGCTGAAGAGCGAAATTCATCGGGCTAACGATTCCTTGCTGAAGCAGATGCGATACACCATCGATACGCAGATCGATCTCATGAAGCGGCTCAACATGGAGATGACGTGGAGCCCGACACTTCAAACGCTGATGTATTCCAATCAACCGGCTAAGGAAGCCCCCTATACCGCTTACCAATTGGTCAAGGAGTTTCGCTTATATAAAACGTCTTACGCATCCATCGACGAATTCTATGTGGTGTGGAAAAAAGACAACTCCGTTCTACGTTCAGGCAATATCCGGGATATGAAAACGGCATTCCATACGATACATAATACGGGAGCGCTAGCTTATGACGCATGGAGGGAACGGATCCTCGGCGCGGGAACGAATCAATTTATGCTCCTGCCGCATCTGAATGCGGCTCCGGCCGAATCTTCCATCGCTTACGTTACTCAGCTGCCGCACGATCTGAATGGACAGGAGACCGGAACGGTCGTGGTAATGGCGGATACCGGCCGGTTTCAGGAAGCGATTGAGAGCATATCGGGTTTTAGCGGCGGGACGCTGATGATCCTGAATCAGCACAACGAGATACTGATGAGCAATCGACCGGGATCGGAGGAGATGATGCCCTTTATGGACGGAAGCCGGGTTCTGCTGGATCAATCGAGGGCCGGCGAATCAGAGCTGTTTTACATGGACTCCTCGGTGTCGGATTTGAAGTATGCCTTAATCATCCCCAGCGGATTGTACTGGGAAAAAGCCGTCTATGTCCGAAATTTCACCTATATCAGCATATTGGTAAGCCTGATCGGCGCCGGCGTGCTGACCTGGTTCTTCATGCGTCGGAATTATTCGCCGATCCAGCAGCTCGTGGAATCGTTGAAGGACAAGGGCACGCAGAACGTGCCCGCTGAACGCAACGAGCTTCGGTTTATTCAGAAGGTCATCATGAACACGAGATCGGAGAATAACGAAATTGCCCAGCAGCTGCAAAAACATCAGCATGTGCTCCGGTCCAATATGATCAACCGGCTGTTAAAAGGAAAGCAGGACACGCTGGTTCCTTACGAAGAAGCCTTCCGATCCTTTCAAATGCCGCTCCATTCCAGCGAATTCGCCGTCATTCTGTTCGTGATCGAGAATGAGGAGAATCTGTATGCAAAGCTGCCGGGCATTGATATCAATGAAAGAAATAAATTGATCTACCTCATCATCTCCAACGTTGTGGAGGAGTTATCCCTTCAGCAGGGCCATGCCGGGTACGTAGCCGAAGTAGACGATATGATGGTCTGCCTGGTGAATTTGAAAGCGGATTCTCCCGACAGGCATCACGATTTGCATACCATTGCGGCGGAAGCCCAGCGTTTCTTGGACCGGTATGACATGGAATTGACGGTCTCCATCAGCGGACTACATTCGTCATGGATCGGCATTGCGGAGGCCTATCAAGAAGCCGTCGATGCGATGGAATATAAAATGGTGCTCGGCAAGAAAGGTATCATTACCTATAAAGACATTCGAAGCGATGCATTAGAAGAAGATTCGTTCGGGTACGATTATCCCCTTCAGGTGGAGCAGCAGTTGATTAACTTCATTAAGGCCGGAGACATCGGCCAGGCTAGCGCCTACATGCAAGAGATCACGCAGCGAAATTTCGATAAGCCGGTGATGTCGCTGACGTTGGCGAGATGTCTTATATTTAATCTCGTCGGCACGATGATCAAGACCATGAATGAGCTGGGCGACAGCGAGAACAGTACATTGGCCAACTATTCGCAGCGGATTGACGACATCCTAGCTTGTGACACCATTCAGGAAATGCAGACAGCCTTGCAGGCTCTGCTTGAGGAAGTTTGCGCTTACGCCGCAAAGAAGCGCGTAAACAACGTATCCCAAGAGCGGGAGGACGCCATCCGCCATCTCGTCGAGCAGGTTACGTCATACATTGCGTGCAATTATGATGATGCGAATTTGAACGTCAACGCGATCGGCGAGCATTTTGAACTGAAGGGCAGTTATTTGTCCAAGCTCTTTAAGAATCAAACAGGCGAAGGCCTGCTCGACTGCATTCATAAATGTCGGATCCAACAAGCCAAAGAAATGATCCGGCACAAGCAGGAATCGATCAACGAAATATCCCGCTTGGTCGGTTATAACGATGCGGCGACTTTTATCCGGGTATTCAAGAAATACGAGGGCATTACGCCCGGCAAATACAAAGAGATCCATTAA	MSIELNFLSICQSKLLPYNKHLIYTQTIYEDMGDELLLSIQYLWQKRESIIVTWLVSYSAVLFVPILISLVIYAQANDTLKSEIHRANDSLLKQMRYTIDTQIDLMKRLNMEMTWSPTLQTLMYSNQPAKEAPYTAYQLVKEFRLYKTSYASIDEFYVVWKKDNSVLRSGNIRDMKTAFHTIHNTGALAYDAWRERILGAGTNQFMLLPHLNAAPAESSIAYVTQLPHDLNGQETGTVVVMADTGRFQEAIESISGFSGGTLMILNQHNEILMSNRPGSEEMMPFMDGSRVLLDQSRAGESELFYMDSSVSDLKYALIIPSGLYWEKAVYVRNFTYISILVSLIGAGVLTWFFMRRNYSPIQQLVESLKDKGTQNVPAERNELRFIQKVIMNTRSENNEIAQQLQKHQHVLRSNMINRLLKGKQDTLVPYEEAFRSFQMPLHSSEFAVILFVIENEENLYAKLPGIDINERNKLIYLIISNVVEELSLQQGHAGYVAEVDDMMVCLVNLKADSPDRHHDLHTIAAEAQRFLDRYDMELTVSISGLHSSWIGIAEAYQEAVDAMEYKMVLGKKGIITYKDIRSDALEEDSFGYDYPLQVEQQLINFIKAGDIGQASAYMQEITQRNFDKPVMSLTLARCLIFNLVGTMIKTMNELGDSENSTLANYSQRIDDILACDTIQEMQTALQALLEEVCAYAAKKRVNNVSQEREDAIRHLVEQVTSYIACNYDDANLNVNAIGEHFELKGSYLSKLFKNQTGEGLLDCIHKCRIQQAKEMIRHKQESINEISRLVGYNDAATFIRVFKKYEGITPGKYKEIH				NA	NA	NA	NA	NA
AK002_03031	1653			hypothetical protein	ATGAAGCTGCAGAGAGAATGCTCACGGATAGCATTGATGGTTGTATTCATTGCGCTCACCAGCCTGTTGACGGCATGCGAACAGTCAGGAACGGATTCGGTCGATAAGACCAGTAACCGATCGGCTCCTTCTAAACAGCAAGCGCCCCACATTCCTGCTATGAATGAACAGTTGACATTAACGTACTGGGCAGAGCTGAACGGGAATGCCGCAAGCATCAAGTCCAGCTTCAACGAAGTGCCTTTCTTTCAGGAGTGGCAGCACCGAACCGGAATCAAGCTTCATTTCATCCAGCCGCCGACCAACCAAGCGAAAGAAGCGATCAACGTCCTGCTTACTTCCGGAGAGCTGCCGGACATGATTGAATACGAATGGATCAACTACCCGGGCGGGCCGGAGAAAGCGATCAATGACGGCTATATTTTGCGGCTCAACGACATTATCGATCAATACGCACCCCATCTGAAGCAGTACCTGAACGAGCATCCGGATATCGACATGCAGATCCGGACGGCTAACGGGAGTTATTACGCTTTTCCGTTCATTCAAGGAGACGACGAGCTGCGTACCTACCAAGGCCCGATCATCCGTAAGGATTGGCTGGACGAGCTTGGACTTAAAGTGCCAACGACGATCGACGAATGGCATACGGTCTTGACCGCTTTCAAGGAACGGAAGGGTGCTGAAGCACCGCTGACTTTCCTGGGCGTACCGAATCCGCTGTTCGGCATCGAAGGCGGCGGCTTTATCGGAGCTTACGGTATCAAGAAAGGGTTTTACCACGAGGACGGCAAGATTAAATTCGGAGCCCAAGAACCGGAATATAAGGAATTTCTGACGTTGTTCCGCGATTGGTATGCGGAAGGCCTCATCGATAAAAATCTGGCTGCGGTCGATTCCGAAACGCAGGATATGAGCATGATCATCGGCCGCAGCGGTGCAAGCATATGGAATGCAGGCGCAGGCATCGGCACCTGGCTGCCTATTCTGCAAGGAAACGACCCATCGGCGGAGCTCGTTGCGGCGCCTTATCCTGTCCTGAATAAAGGTGACCGACCGAAATTCGGCCAGCTCGCCCCAGCTATAGGCTCCAGCGGGGGAGTCGCAATCTCCAGCAACAGCCAGCACGTCGAGGAGGCGGCTCGCATGCTGGATTACGGTTATGGGCCGGAGGGTCATTTGCTGTTTAATTTCGGCATCGAGGGAGTCAGTTATGTGATGAAGGACGGCTATCCCGCGTATACCGACACCATCTTGAAGAATCCCGATAAGCTGGCGCCTGCCCAAGCTCTCGCGATGTATACCAGAGCCAGCTACTTCGGCCCGTTTGTGCAAGATACGCGTTACATGGAACAGTACTATAATTTGCCGGAGCAGAAGGAGGCGGTTCGATTATGGTCCAGCACAGATGCGGCGCTGCATAGCTTGCCAACACTGCCCAAAACCGAGAAGGAAAACACGGAGATGTCGGTCATCATGCAGGAAGTGAACAAGGTTGTGGATGAGATGTCGCTGAAGATTATTTTTGGCACGGAACCGGTCGAATCCTTTGATATGTTCGTGGAACAGATGAAGTCGCTCCAAATCGATCGCGCCATACAGATCCAGCAGCAGGCTTTAGATCGCTATAATCAGGCCGTTTCTGCCAGGTAA	MKLQRECSRIALMVVFIALTSLLTACEQSGTDSVDKTSNRSAPSKQQAPHIPAMNEQLTLTYWAELNGNAASIKSSFNEVPFFQEWQHRTGIKLHFIQPPTNQAKEAINVLLTSGELPDMIEYEWINYPGGPEKAINDGYILRLNDIIDQYAPHLKQYLNEHPDIDMQIRTANGSYYAFPFIQGDDELRTYQGPIIRKDWLDELGLKVPTTIDEWHTVLTAFKERKGAEAPLTFLGVPNPLFGIEGGGFIGAYGIKKGFYHEDGKIKFGAQEPEYKEFLTLFRDWYAEGLIDKNLAAVDSETQDMSMIIGRSGASIWNAGAGIGTWLPILQGNDPSAELVAAPYPVLNKGDRPKFGQLAPAIGSSGGVAISSNSQHVEEAARMLDYGYGPEGHLLFNFGIEGVSYVMKDGYPAYTDTILKNPDKLAPAQALAMYTRASYFGPFVQDTRYMEQYYNLPEQKEAVRLWSSTDAALHSLPTLPKTEKENTEMSVIMQEVNKVVDEMSLKIIFGTEPVESFDMFVEQMKSLQIDRAIQIQQQALDRYNQAVSAR	PGPT0017245_750	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03032	2667			hypothetical protein	ATGAGAAGAAAATGGCCCTTCCTAGTGTTGGCGCTGACGTTAGCTGTTGGAATGTCCGTACCGGCAACGAATGAGGTTCAGGCATCGATGAAGGCTCAACAACCATCGCAAGGGAGCGCAAGTGAGGGGATGTCATTGGACAAGGATGGCAGAAGCCGACTCTATCCTAAGAACTGGTATCCGGGATATCGAGATGAGCAGGGAAGATTTTTGCATGACTTTTCCTATGCCGGTTATCGGCGCGGGGAAGAAGAGATTCCAAGAACGAAAAAGAACAAGCGGATCGATGTGACAAAAGCGCCGTATCATGCGGATTCGTCCGGCGGCAGCGATGCGACGGCGGCTATTCAAAAAGCGATCGATGACGCTTCAGCGCTTGGTGGAGGTGTCGTGTATCTTCCAAAAGGCACTTATCGGGTGGCGCCGCAGCCCGGTAAAGATTATGCATTGAACATATCGGCAAGCCATGTTGTCTTGAAAGGCGACGGCATGAACAAGACCCATATCTATAATGCGCAGGAAAACATGAAGAACAAGGATATCATCCGTGTCAGCAGCGGAGATTGGAAGAAAACAGGGGCTGCCACGAAGCTTCGAAAATCCCTTACCGATCCCACCGCGCTCTTGCCCGTTGAGGATACCAGCGGGTTCGCGGTGAACGATTACGTGGTGATCACGTTCGAAACGACCCCGGGTTTCTTGTCTGAACTCGGCATGCAGAACAAATGGTCTTCCCGTCTCGGCAAGGTAGAGCCGTTATTCTACAGGCAAATCGTTGCCGTGGATTCCTCGAATAAAACCCTAACCCTGGATATTCCTACCCGGTATCCGTTGAAACTCCGAGACCATATTACCATTAGCCGGACGGAAGATCCGATCGCCGAAATCGGCTTGGAGGATTTCTCGATAGCCAACGTTCAGAATCCCAAGCCGGGGCTTGGCGAGGATGATTTCAAGGTCATCGGAACGGCCGGATATGAAAGCGACAATGCCAAAGCAATTAATGTCGTGGCTGCGGCCAACAGCTGGATTCGGAATATCAGCACCTATAAGCCCTCCGGCAATACAGACTATCATATACTGTCCAAAGGGATCATACTGGACCGAACCAAAAATGTCACCGTCGATAATGTGACGATGCAGTACCCGCAGTACCGGGGGGCAAACGGGAACGGTTACTTATATCAGTTCATCGGCAATGATAATCTCATCAAAAACAGCAAAGCGGTTGGAGCCAGGCACAGCTTCACGTATGCCAACTTCTCCGCGAACGGGAATGTGCTGCAGGGTGCGTACTCCGAAAATCCTTCGCTGCTGACCGATTTCCACATGTATCTCAGCATGGCGAATCTCATTGATAATCTGGTCGTAAACGGTGATGCGATATCGGCGATAACACGAGACTACGGCTCATCGGAGACCAACCGACATGGTGTCGTTACCACAGAGAGCGTATTCTGGAATACGACCGGCCAGGCGGCGCACCGGAGCAAACCCGGCGTCATCGTAGAATCAGAGCAATTCGGTAACGGATACGTGATCGGAACCAAAGGCAGCGTCACAGGCGTGAACGTCCATATTGTCGGTTCCATTCCGGATGCTAACACGCAGCCGTTTGATATGGCTGAGGGAATCGGCGAAGGAACACGTCTGTCGCCACAGAGCTTATATCAAGACCAATCGAAGAATCGAATGGATCAGATCAACCTGGGCTTGCAGTCCCTGCTGATTGATGGAGAGGCCATACCAGGCATGCAGTTCTTAAGAACGGAGTATGCGCATACGCTGCCATATGGAACAACGGAGCCTCCCGTCATTGCAGCAACGCCTTTTTCCAAGGATGCTAAAATCAGCATTAGGCAGCCGCGCGGAGCTGACGGCACAGGCGAGATTATCATAACGTATCGCGGGCATACCCGGAAAGTAAAGGTGAATTTTAATGTAGCGGCGACGCCGGTCTTGCCGGAGAATATCTCGATTACACCGAACAAAGCCGTTCCGGGGTGGAGAGTCGCCGGAAATGCAATTAGTGCCGGGCGGAGCGGTGAACTGGCATCCTATCTCACGCTTGATAACGGGGAAGTGGTCCAAATCTCGGATTTGAACATTCCCGTAACGTACACATCAAGTGATGAAACGATCGGACATATGGAAGGGAATACATTCCACGCAACGAAAGCAGGCATGGTCGACATCATTGCGAGATGCGTTTTTCAAGGCGTGACGGTTGAAGCACGTGAACGATTCGAAGTCAAAGAACCGATGGTGGAACCGGAGGGACCATTGGCCGCCGTAGCAAAGGTAACCGCTAGCGCTGACGACGGCAACCTGCCGATTCACACGCTGGACCGCGACCCGGATTCCAGGTGGTCCGCGGATGGCAAAGGGCAATATCTGCAGTTGGAGCTGGAGCAGCCAACGCTGGTGGATCAGGTCAGCATTCTGTTCTACAATGGGCATACGCGATCGAATGCTTTTGATCTCGAAGTATCAACCGACGGAGTCAACTACCAGAAGGTGCTCAGCAGCGTTTCCAGCAAGAAACAGGCAACATACGAAACCTTTGCCTTTGCGCCGGTTCAGGCGAAATACATTCGTTATGTCGGTCAAGGGAATGAGATCAACACCTGGAACAGCATCGTCGAAATTTGGGTTCATGGAGAATAG	MRRKWPFLVLALTLAVGMSVPATNEVQASMKAQQPSQGSASEGMSLDKDGRSRLYPKNWYPGYRDEQGRFLHDFSYAGYRRGEEEIPRTKKNKRIDVTKAPYHADSSGGSDATAAIQKAIDDASALGGGVVYLPKGTYRVAPQPGKDYALNISASHVVLKGDGMNKTHIYNAQENMKNKDIIRVSSGDWKKTGAATKLRKSLTDPTALLPVEDTSGFAVNDYVVITFETTPGFLSELGMQNKWSSRLGKVEPLFYRQIVAVDSSNKTLTLDIPTRYPLKLRDHITISRTEDPIAEIGLEDFSIANVQNPKPGLGEDDFKVIGTAGYESDNAKAINVVAAANSWIRNISTYKPSGNTDYHILSKGIILDRTKNVTVDNVTMQYPQYRGANGNGYLYQFIGNDNLIKNSKAVGARHSFTYANFSANGNVLQGAYSENPSLLTDFHMYLSMANLIDNLVVNGDAISAITRDYGSSETNRHGVVTTESVFWNTTGQAAHRSKPGVIVESEQFGNGYVIGTKGSVTGVNVHIVGSIPDANTQPFDMAEGIGEGTRLSPQSLYQDQSKNRMDQINLGLQSLLIDGEAIPGMQFLRTEYAHTLPYGTTEPPVIAATPFSKDAKISIRQPRGADGTGEIIITYRGHTRKVKVNFNVAATPVLPENISITPNKAVPGWRVAGNAISAGRSGELASYLTLDNGEVVQISDLNIPVTYTSSDETIGHMEGNTFHATKAGMVDIIARCVFQGVTVEARERFEVKEPMVEPEGPLAAVAKVTASADDGNLPIHTLDRDPDSRWSADGKGQYLQLELEQPTLVDQVSILFYNGHTRSNAFDLEVSTDGVNYQKVLSSVSSKKQATYETFAFAPVQAKYIRYVGQGNEINTWNSIVEIWVHGE				NA	NA	NA	NA	NA
AK002_03033	2310	yesS_7	COG2207	HTH-type transcriptional regulator YesS	GTGAAATCCGTTTCGGGAGAGAAGGCAGGGCTGTTGTTTCGATTTTTTATACCGTATGCCGTCATTCTGGTAGGCTCCCTATTGGTTGGATGGTTTGCTTATGGGAAAACCTCGGAGCTGATTGAAAACGAGACGGTAAAGAGCACTTCTGCGGCACTGCAGCAAATTCAGGAAGCGCTGGATCAGCGATTTGCCGAAATCGAGAACATCGCACGGCAGATGTCGAGCGAATCCAAGATCCAATCCTTTCAATTCGAGAAAGAACCATTTGCCGGCACAGGCCCATACCGTCTGTGGGATTTGGAGAAGAGCTTGTTTAATTACAAACTGTTTAATCATTTCATCGTGGATTATTACATCGCGTACAAGAACAGCAGCATGGTCATCTCTCCCCGCAAGGTGTATACGTCAGACCAGTATTATCGTTTGCTGCTGCGTTATGAAGGCCAATCGTTAAGCGAATGGAGGCAAGCATTGTTCGGGCAGTATCATTATAAAACGTATATGCCGGGACATTCGGTTGTTTATGAAGGCAAACCATACTCCGTCGTGAGTTATATGCAATCCTTCGGGAACAAAAGCAGCAGCGGGGTCGTTACGGTCCTGATTAACAATAGGCAGATCCAGGACATGCTCCGCAAAGTCGATCCGGAACAAGAGGGCTTTGCCTATATAGCCGATCCTAATGGAAACCTGATCAGCTCCATCGGTTTGAAAGAACAGGATTTTATGAAAGCGCTTCCCATAAAAAGTGGCGATACCCATATCCGATGGGATGAACAGGAGATGCTTGTGACGCAATCCACATCCGAGTACAACGGATGGAGCTATGTATCCGCCCAGCCTAAATCCGTGGTGCTCCAAAAGGTATATTATATCAAGCAGCTGACGTTAACCATCTTCGTTACAGCTCTGCTGCTGGGGTTAGGCGTGGCCGGTTATTTGGCATATCGAAGCAGCAGGCCGTTCCTCAAAATCCTTCAGCTGCTGCCTTCAACCCGATCCGAAACAGCTCACGCTGCTTCGCGTAACGCCGTTGATTATATCGGCCATTCCGTTTCCGAGCTGGTTGAAAGCCATGATTCGCTGAAGGAGCGGTTGGAAGAGCAGATTCCGATGCTGCGAAACGTTCTGGTAGACCGTCTTCTGAAAGGGGGCTTCACGTCGATGCAGGAGCTGGAGGCTGCCATGGATCACGCGCAGGTCCAGCTCCGGGGATCACACCATGCGGTGGCGCTGCTTCATATTCGAGGTTACCATGAGCCATTCATGGAAGAGATGCTGATGGAGCTCGATATTGTCAAAATCAACATCCGCGACCGGATTCAATCATTATGCGGAGAAGGGGCGCTGCTGCATGACTTTGGAGAAAATCAATTGGTTCTGGTCCTGTCGGGAACGGCAGCGGACAAAGCGGAATTCACGATAAAAATGCGTGCACATCTACAGTCGATTTATGAACATTTGATTGGAATTTCCGGCACGGGCCTGTACATGGCCGTAGGCGAGTTCCGGTCCAATATTGCCGAGCTGTATCGTTCCTACGGAGAGGCCAAGTTTGTTCTGCATCATGCGGGATGGAGCGAGAAGTCTCCTATCTTTTTTCATGCCGAGATGGAAATGCCGGCCTTTTCCTATTATTACCCGGCAGACGAAGAGATGCGGTTAATCCAGCTTGTGAAGGCCGGCAATCTGGATGAGACAAGGCAGCTTTTTCGGCAGATCAAAGAGAAGAACAAGTCGGATCGGCAAATGCCTATGGCCGTCGAGAAGCTCCTTGTCCAGGAGCTTAGCGGTACCCTGATGAAGTGCAACGAACAGACAGGGAATGCTGGAAGCCACAGAACGGAGGAAACGGATGCCGTCATCCGAGCGTTAAATCCCGAGTTATCCCCTGCTGAAGCCATGAATATTCTCTATGCCGCTTTCGTTCGCCTCTGTCAGAAGAACGAGGAGAGGAAGAAGAGCCATAATGCTCATTTAACGAACCGGCTGCTGAGCTATATCGAGAAGCACTATGGGGAGAGCGATCTGAGTTTATCCGCGCTCGCCCGGGAAACCCACACTTCCGAAGCTTATGTATCGTACTTCTTCAAGGAGCAGACGGGTTTGAATTTCTCGGAGTATCTTGAGAAGCTCCGAATGGATGAGGCAAAACGGGAGTTGGCGACAAGCGACAAGCCGGTCAGCGACATCGCTGCAGCTTGCGGCTATTTGTCGCTCAACACCTTCAGCCGGGCGTTTAAACGCGTAAACGGGATAAGCGCCACCGAGTACAGACGCCTTCACCGGGCCGGAGATTATGCTTAA	MKSVSGEKAGLLFRFFIPYAVILVGSLLVGWFAYGKTSELIENETVKSTSAALQQIQEALDQRFAEIENIARQMSSESKIQSFQFEKEPFAGTGPYRLWDLEKSLFNYKLFNHFIVDYYIAYKNSSMVISPRKVYTSDQYYRLLLRYEGQSLSEWRQALFGQYHYKTYMPGHSVVYEGKPYSVVSYMQSFGNKSSSGVVTVLINNRQIQDMLRKVDPEQEGFAYIADPNGNLISSIGLKEQDFMKALPIKSGDTHIRWDEQEMLVTQSTSEYNGWSYVSAQPKSVVLQKVYYIKQLTLTIFVTALLLGLGVAGYLAYRSSRPFLKILQLLPSTRSETAHAASRNAVDYIGHSVSELVESHDSLKERLEEQIPMLRNVLVDRLLKGGFTSMQELEAAMDHAQVQLRGSHHAVALLHIRGYHEPFMEEMLMELDIVKINIRDRIQSLCGEGALLHDFGENQLVLVLSGTAADKAEFTIKMRAHLQSIYEHLIGISGTGLYMAVGEFRSNIAELYRSYGEAKFVLHHAGWSEKSPIFFHAEMEMPAFSYYYPADEEMRLIQLVKAGNLDETRQLFRQIKEKNKSDRQMPMAVEKLLVQELSGTLMKCNEQTGNAGSHRTEETDAVIRALNPELSPAEAMNILYAAFVRLCQKNEERKKSHNAHLTNRLLSYIEKHYGESDLSLSALARETHTSEAYVSYFFKEQTGLNFSEYLEKLRMDEAKRELATSDKPVSDIAAACGYLSLNTFSRAFKRVNGISATEYRRLHRAGDYA				NA	NA	NA	NA	NA
AK002_03034	873	yteP_30	COG4209	putative multiple-sugar transport system permease YteP	TTGTACGCGCTTTTTTTGCTCCCGTTATTGTACATCATCATATTCAAGTATGTGCCGATGTACGGCGCGCAGATTGCGTTTAAAGAGTTCAACGTCACGAAAGGAATCAACGGCAGCCCATGGGTCGGATTTGCCCAGTTCGAACGTTTCTTCCAATCGCATGAATTTTGGCGTTTGCTTAAGAATACGTTCTCGATCAGCTTATACACGCTGATAGCCAGTTTTCCGTTTCCCATTCTGCTCGCGCTTGGTTTGAATTATGTAAGAAACCGGCGTTTCAAGAACACCGTCCAGATGGTTACATACGCGCCTTATTTCATCTCTCTGGTCGTATTGGTGGGTTTGATGCTGCAGTTTATGGACCCGAGAACGGGACTCATCAATACGATGCTCGGTTGGATCGGCGCAGGTCCGTATCATTTCATGGCGGAGGCCTCCTGGTTTCAGTCGATCTACGTGTGGTCCCATATTTGGCAGAACGTCGGGTTTTCCTGCATCATCTTTTTGGCAACGCTTTCAGGCATTGATCCGGCACTCCATGAAGCAGCCGTCATAGACGGCGCTTCGAAGATGCAGCGGATGCGCCATATTGACCTGCCGGGCATTATGCCCATCGCCATCATTCTGCTCATTTTGAATACGGGTCAAATGCTGGAAACCGGCTTCGAGAAAATCCTGTTAATGCAGAATGCGCTGAATTTGCGATCATCCGAGGTCATCGACACGTATGTGTACAAGGTTGGGCTGGTATCCCAAGCGATGAATTTCTCTTATGCCACGGCGATTGGCTTGTTTAAAGCGATCATCGGCTTCGTGCTGCTGCTGATCGTGAATCAGACGGCCAAAAAGCTGAAGCAGGAAAGTCTTTGGTAA	MYALFLLPLLYIIIFKYVPMYGAQIAFKEFNVTKGINGSPWVGFAQFERFFQSHEFWRLLKNTFSISLYTLIASFPFPILLALGLNYVRNRRFKNTVQMVTYAPYFISLVVLVGLMLQFMDPRTGLINTMLGWIGAGPYHFMAEASWFQSIYVWSHIWQNVGFSCIIFLATLSGIDPALHEAAVIDGASKMQRMRHIDLPGIMPIAIILLILNTGQMLETGFEKILLMQNALNLRSSEVIDTYVYKVGLVSQAMNFSYATAIGLFKAIIGFVLLLIVNQTAKKLKQESLW	PGPT0017250_2833	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03035	897	araQ_34	COG0395	L-arabinose transport system permease protein AraQ	ATGCAATCACCTGCCATGAAGGAATCCGGCTCGGACCGCGTTTTTACGGTGGTGAACTACGTCATTTTATCCGTTTTCTTAATCGTTGTGTTATATCCGTTGATTTATGTCGTCAGTGCTTCGTTCAGTTCCAGCAGCGCGGTTTTGTCGGGAAAGGTATGGCTGTGGCCCGTCGAACCGACGCTCGAGGGGTACCGTGCGGTGTTCAAAAACACGATGGTCGCCAAAGGCTTCATGAACACGCTGTTCTATACGCTGGCAGGCACCTCGATTAATCTCATTCTGTCCGTCATGGCGGCTTACCCGCTATCACGCAAAGATTTTCGGGGGCGCGGCCTGTTCATGCTGCTGTTTGTGTTCACGATGCTGTTTAATGGGGGACTGATACCGACCTACCTGCTGGTGAAGGATCTCGGCATGATTGACACGGTATGGTCGATGCTCATTCCCGGCGCGCTGTCGGTGTGGAACGTCATCATCATGCGGACCTACTTCCAGACGACAATCCCTACGGAATTGCTGGAGGCTTCGCAGCTGGACGGCTGTACGGATTTCCGGTTCCTGTGGCGCATCGTGCTGCCGCTTTCGGGTCCCATCCTGGCCGTTATCGCTTTATTCTATGCCGTCGGCCACTGGAACCAATATTTCAACGCCATGATCTATTTAAAAAGCGCGGATTTGTACCCGCTGCAGCTGGTGCTCCGCGACATTCTGGTGCAGAACGAGGTCAATATCGAAATGCTCGGAGACGCCAAAACCGCGGCGGCCCGGCAAGGGCTGCGGGAGCTGCTGAAATATTCGCTGATCGTGGTGACATCGGTTCCGCTGCTGATCGTTTATCCGTTCCTGCAGAAGTTTTTTGTCAAAGGGGTCATGATCGGTTCGTTAAAAGGATAA	MQSPAMKESGSDRVFTVVNYVILSVFLIVVLYPLIYVVSASFSSSSAVLSGKVWLWPVEPTLEGYRAVFKNTMVAKGFMNTLFYTLAGTSINLILSVMAAYPLSRKDFRGRGLFMLLFVFTMLFNGGLIPTYLLVKDLGMIDTVWSMLIPGALSVWNVIIMRTYFQTTIPTELLEASQLDGCTDFRFLWRIVLPLSGPILAVIALFYAVGHWNQYFNAMIYLKSADLYPLQLVLRDILVQNEVNIEMLGDAKTAAARQGLRELLKYSLIVVTSVPLLIVYPFLQKFFVKGVMIGSLKG	PGPT0017255_1237	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03036	1671			hypothetical protein	ATGAGAAAAAGAACGCGGGTTATTATGGGTGCTATCACCGCATTCAGTATCCTTCTTGCAGGCTGTACCGGGACACAGGGCCCGAAAGGCGCGGATGAAGCACAAAATACGGGTACCGATACAATCGCATTGTCCGAACCGGGAACCTATCCGCTGGTTCAAGAGAAAACCACTTTGAAGGTGATGGTGCGGGGAAATCCGCTGGTCGAGAATTTCGAAACGAACGATTTCACTAAATGGTACGAAGAAAAAACGAATGTGCACATCGAGTGGGAGGTCGTTCCGGAGCAGAGCATGCAGGAAAAGCTGAATCTCGTTCTTGCCAGCGAGGACTATCCCGATGTCATCCTGGGATTGAACATATCGCCGGCGCAGCAGATGATTTACGGCTCGCAGGGCGCCTTTCTTCCGTTGAATGATTTGATCGAGAAGCAAGGTCCGAACACCAAGAAATTGTTCCAGGATAATCCGGAGATCCAATCCACGATTACCGCGCTGGACGGCAATATCTATGCGCTTCCGGAAGTGAATGAATGCTACCACTGCTCCATGAGCCAGAAAATGTGGATTTATGAGCCTTGGCTGAAGAAACTCAATCTGAAGATGCCGGAAACCACCGATGAGCTGTACGAGGTGCTGAAGGCCTTCAAAGAACAGGACCCGAACGGAAACGGAATCCAGGATGAGATTCCGCTGTCGATCTCACCGAAATCCTGGAGCTCCTCCATCGATGCGTTCCTGTTGAATTCTTTCATTTATAATCCGGTTTACGGTTCAAGTTACAAGCATATATTCATAAAAGACGACAAGCTCGACGTCGCCTTCAACAAACCGGAGTGGAGGGAAGGGTTGCGGTATATGAACAAGCTGTATGCCGAGGGACTGCTCGCTCCGGAGTCATTCACGCAGGATGACAATCAGCTGATCCAGATCGGAGAGAATCCCGATACGGTCATTCTGGGTGCTTCAACCGGCGGCCACCAGGGTATATTTACCCAACTCCTCGGCGAAAGCGGCAGATGGTTGGAATATAAGACGGTGCCGCCGCTCAAAGGACCGAACGGCGTTCGCTATGCGGCTCTCGATTCCACCGGATTAAACCCGGGTGCGTTCGTCATCACGAAAAAGGCCAAGCATCCTGAGCTTGCCCTGCGCTGGGCAGATGGCCTGTACGAACGGGAACATACGCTGCGCAGCGTCTATGGCCGTCCGGACCAGGAATGGAGGGAAGCAAAGGACGGAGAGGTCGGCATCAACGGGGAGCCTGCGGTCTGGTCTGAGCTAAAATCATACGGTACGGTGCAAAATATTGCCTGGATTCAAACCGGCCCGAGTTTGCGGACAAATGATTTCCGCCTGAGCGCCGTTGCCAAAGGAGACGACGATCTGGAAGTCGTATTGTACAACGAGACGAAAAATAAATACGAACCTTACAAACCAACCGATGTCAGCACCGTTCCGCCGTTGTTTTTGACAAACGAGCAGGCGTCCGAGGTAGCGGATCTGTCCAAAACGATCAACGATTACGTGGATGAAATGATGGCACGCTTCGTGATTGGCGATGCCGATCTGGATAAAGACTGGGACAGCTACGTGAAGCAGCTGGAGGCCATGAATGTGGCCCGCTATCTGGAAATCTACCAGGAAGCTTACGATGGAAGAAGCAAATAA	MRKRTRVIMGAITAFSILLAGCTGTQGPKGADEAQNTGTDTIALSEPGTYPLVQEKTTLKVMVRGNPLVENFETNDFTKWYEEKTNVHIEWEVVPEQSMQEKLNLVLASEDYPDVILGLNISPAQQMIYGSQGAFLPLNDLIEKQGPNTKKLFQDNPEIQSTITALDGNIYALPEVNECYHCSMSQKMWIYEPWLKKLNLKMPETTDELYEVLKAFKEQDPNGNGIQDEIPLSISPKSWSSSIDAFLLNSFIYNPVYGSSYKHIFIKDDKLDVAFNKPEWREGLRYMNKLYAEGLLAPESFTQDDNQLIQIGENPDTVILGASTGGHQGIFTQLLGESGRWLEYKTVPPLKGPNGVRYAALDSTGLNPGAFVITKKAKHPELALRWADGLYEREHTLRSVYGRPDQEWREAKDGEVGINGEPAVWSELKSYGTVQNIAWIQTGPSLRTNDFRLSAVAKGDDDLEVVLYNETKNKYEPYKPTDVSTVPPLFLTNEQASEVADLSKTINDYVDEMMARFVIGDADLDKDWDSYVKQLEAMNVARYLEIYQEAYDGRSK	PGPT0017245_1000	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03037	873	iolE_3		Inosose dehydratase	ATGAGGGTTGGTGTGAGCACCTACAGCTTGCTGCCGGCTATCCGTGCAGGCGAGATGACGGTGCTGGATGTGGTGGATTGGATCGCGGAGAACGGCGGACAGCACATGGAGATCGTGCCCTATGGTTTTACGCTGGAGGACAATCCCGGACTTGCCGATGCCGTGCGTGAACGGGCGGCCGAAGCCGGCATCGCATTATCCAATTATTCCATGCCCGCTAATTTCGTCCAGGAGAACAGGGACGACTTCAATGCGGAAGTCGAACGGATCAAGCGCCACGTGGATACGGTCAGCCGGCTGGGAATGAAGCATATGCGGCATGACGTAACAGCGTTCACGCTGCCGCCGGAGAAGATGGGCATCGATTACGTGGAAACCCATTTGGACATGATCGTGGAAGGCTGCCGTCAAATCGCGGATTACGCTGCCCGGTTCGGCATCACGACCACAATCGAGAACCATGGCGTGAGCGTGCAGGCAAGCGACCGGGTACAGCGCGTGCTGCAGGCAGTCGATCGTCCGAACTTCAAGACGACCTTGGATATCGGCAATTTTCTATGCGTTGACGAGGAGCCGCTCGTCGGCGTGAAACGCAACTTGCCGCTGGCCTCGCTCGTCCACGTGAAAGACTTCTATTATCGTCCGTTTGATCAGGATCCGGGCGGGGGGAATTGGTTCAGAACCTCCCATGGCAATTACCTACGAGGCTCCATCTTCGGGCAGGGGGATCTGGATGTGCGGCGAATCCTTCGACTCATTAAAGAATCCGGTTATGACGGGGATATTACGCTGGAATTCGAGGGCATGGAGGAGTGCAGGGAAGGAACCCGATTGGGTTTGGACAATCTGAAGCGGTTATGGGAGGAAGCGTGA	MRVGVSTYSLLPAIRAGEMTVLDVVDWIAENGGQHMEIVPYGFTLEDNPGLADAVRERAAEAGIALSNYSMPANFVQENRDDFNAEVERIKRHVDTVSRLGMKHMRHDVTAFTLPPEKMGIDYVETHLDMIVEGCRQIADYAARFGITTTIENHGVSVQASDRVQRVLQAVDRPNFKTTLDIGNFLCVDEEPLVGVKRNLPLASLVHVKDFYYRPFDQDPGGGNWFRTSHGNYLRGSIFGQGDLDVRRILRLIKESGYDGDITLEFEGMEECREGTRLGLDNLKRLWEEA	PGPT0016785_1654	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
AK002_03038	630			hypothetical protein	ATGAACCAAACTACCGTTCCTTATAACGAGATTGAACCTAAGCTGCAGACCGGAGATATTCTGCTCGCTCATGGGGTAGCCAAGGGAAGTCTTCGAATTGAAGCACTGGAACATTGTCCGTGGTCACATGTTGCAATGGTCGTACGCGCTCCGAACGATGAAGTGCTGTTATGGGAATCCACGTCGCTCGATAATCTGGAGGATACGTGGTTACATATCAAGAAATCAGGTCCTCAGCTCGTGAAGTTACGCGATCGATTGTCAACCGATGTCAGCAACCATTACGATACGATGTTTGCGATCCGTCATCTGCATGCAGATCGAACACCCGAAATGTACGAGCTGCTGGATCATTTTATCGAGCAGGTGCATGATGCCGTGTTTCCGGATAAAAAACAGATGTATTGGGAGATCATCGAAGGCAAGTTCGGCATCACTACTTCGTTCCGCGACTTCTTCTGCAGCAAGCTTGTAGCGGAAACCTATATCCAACTAAAGCTGTTGTCCCCCGCTAAAGCACCCAACAGTTACGAACCCAAAGATTTTACATCCAAGCGACATCTTCGCTTGCTGGGGAATGCCCGGTTAGGCGATGAAATTTATATCGATGTTGCGTCCATTCTCGCATGA	MNQTTVPYNEIEPKLQTGDILLAHGVAKGSLRIEALEHCPWSHVAMVVRAPNDEVLLWESTSLDNLEDTWLHIKKSGPQLVKLRDRLSTDVSNHYDTMFAIRHLHADRTPEMYELLDHFIEQVHDAVFPDKKQMYWEIIEGKFGITTSFRDFFCSKLVAETYIQLKLLSPAKAPNSYEPKDFTSKRHLRLLGNARLGDEIYIDVASILA				NA	NA	NA	NA	NA
AK002_03039	3054	rcsC_10		Sensor histidine kinase RcsC	GTGAGCGTGCAGAACGGTGAGCTTCAGCTTGAAGGGTGGGATTTCGGCACAGACGGATCCATTTCGCTGAACGGAAAGTGGGCATTTTATTGGAACCAACTGCTGGATCCGGACGATCTGAAACAGGGGGCTTCTCCTGCCGTAAGCGCATACGTCGATATGCCCGAGTATTGGACGAATTATACATTGAACGGCAGAAAGCTTCCAGCCGACGGATATGCAACGTATCGTTTGACGATTAGCGGGCTTGATTCTGAAGAGCCGATTGCACTCAAACTGAGAAACATCTATTCGTCATACGCCCTATGGGTCAACGATACCCTGGCGGCATCGGCCGGTAAACCTGAAACTACGCACGAGGCATCCATTCCGAAATATGGTCCGTCTGTAGTCGTACCCGTTAAGCCGGACTCGGACGGACGATTGACGCTTCTGGTTCAGGTCGCCAATTATACGTATCCCAAAGGCGGGATTAATAACGCTATTGAGCTTGGAGATGCCAAGCAGCTGCAGCAGGAGAAGTCGGTAGAGCTTGTAAGAGACAGTCTTGTGATCGGTTCACTGCTGGTGATCGGTGTGTATCATATTATCTTGTACGTGCTCAGGCGCAACGACGTAACTCCGCTGTATTTCGGATTGTTCTGTATGTGCATTGCCGTTCGAACGATGCTGGTGGGTTCAAGATTTATACTGGAAATATTCCCAGCGTTCTCATGGGTTTGGTTTGCAAAAGTATCGTATTTAACGATTTACGTCGGCGAATTATTTTTGATCTCATATATATATCACTTGTTTCCCCAATTTCTATCCCGCAAGGTATGGCGTTTGACGCAGTTTTTCACGATATCTTTGACCTTACTGGTGCTTACAACAGATATCCGGGTGTATGATTATTCACTGATCCCATTTCAGATCTATTCCATCGGGCTTGTTCTCTATGCCGTCTATGCATCCATTCGGTTAGCAAGGCAAAGACAAGAAGGGGCTGTCCTCCTCATCCTCGGATTCAGCCTGATTTTCCTGACAGCGGTCAATGATACCTTAAACCGTAAAGGAGTCTTTACTACGCCAGCGTTGCTGCAGTTCGGTGTGCTCGGATTTGTATTTTTGCAGGCATTATTGCTGTCCATGAAATCCTCCCGGGCATTTTTCCAAGTGGAGCGATTATCGGAGCGTTTGTTGACATTAGACAAACTGAAGGATGAATTTTTGGCGAAAACCTCGCATGAGCTGCGTACTCCGCTGCATGGCATTATCGGTCTGGCCGATGCCTTGATCGACGGAAGCTCCGGCAAACTGCCATCGCCTGTCATCGATCTTTTGCGGCTCATGAAGGTCAGCGGCCAGCGGCTTGCCCATTTGGTAAACGATATATTGGATTTCTCAAAGCTCAAGCACCAGGAGATCGGTTTGGTCCTCGTGACGGTTAACTTGCGTCTGGCCGTCGAGCTGACCCTTCAAGTGCTCAACCCATTGGCCGAGAAGAAAGGGCTCCAGCTATCCCATCAATTGCCGGACGATATGTACGTGATGGCAGACGAGAATCGATTGCAGCAAATATTGCATAATTTAATTGGCAATGCGATCGCTTACACGGAAACCGGGGCGGTTACCGTCACGGCAAAGAGGCTGCAAGGACAAGTTTCGATTCAGATAACCGATAGCGGAATCGGCATCGCAGAAGCTGATCTGGACCGTATTTTTGAATCATTCGAGCAGATTAATCCTCTGGATCGATCTCAACAAGGCGGTACGGGGATTGGGCTCTCGATTACTAAGAAGCTAGTCGAACTGCATGACGGAAGGATTGGAGTAACCTCCGGTCTTGGCGAAGGCTCGACGTTCAGCTTTACGCTTCCTATGGCTGGCGAAGGAAAGCCGAAGAGCCCTCCTCTGCCTGTCGCAGATTACATTCCGACAGAGTCATTCTCACATTGGGAGATTGTTGAGCCTGAGCGGGAGGCAGCCCACTCCAATAAACAACTGCCTTCTGTGCTCATCGTGGATGACGATCCGATTAACGTCCAGGTACTCTTGCAGTTCCTGGCAGGAAAGTATTCACTCAGGTCGACATGCAGCGGGCAAGAAGCCCTGGAATGGATCCAGAATGGATACAAACCGGACATCGCGCTTCTGGATGTCATGATGCCGTACGTATCCGGACTTCAGTTAGGAGAAGAAATACGCAGGCATTACAATTCAGGGGAATTGCCAGTCATCTTCCTCAGCGCAAAAAGTCAAATGACGGATCTGATTGCCGGTTTCGAACACGGCGGTAATGACTATCTTGCGAAACCTGTCGACAAGCAGGAGCTGTTGGCACGCCTTGAACTGCATCTCCAGCTGGCACGCTGGAATGCAACGCTGGAACGCGAAGTGGAGGCGAGGACCATTGAACTTGAGCATTCTTTGGAAGAACGGGCCAGAGCATTGTCGGAGATATCCGTGCTCGCCGAGCGGAACCGAATTGCCGGCGATATTCACGATCACGTAGGACATATTCTAACAGCCAGCGTCGTTCAGTTAGAGCTCGGTCTGAAAATGTCTTCCCAAAACGCACCGGAATCGACGGAGAAATTGAAGCACGCGTCCGATCTGCTCCGCAAAGGGCTTCATGAAATGCGGAAATCCGTGCATATGCTTGCCGAGGAAGCGGCTGGTTCTGCAACGTTCCGGGACTCCTTGCTGCAAATCATTAACGACTCCCGGCAATATGCTGAAGTCAACATAGAGCATAGAATTGAAGTCTCCGACGGCAGTCTTGAGCCGGAGGCCGAGAAGTTGATCCGCCATGCCTTGCAGGAGGGGATCACGAACGGTATTCGTCACGGTCAATGCACGTTCTTCCGGTTTGAGTTGATCGAGACAGAAGACGCTATCCAGTTTACGCTCGAAAATAACGGGCTGCCCTTTACGTCCGAACGGCTTGGATTCGGATTGACCATGATGCGGCAAACGACCCGGCGAAGGGGCGGCACCTTCCAGGTCAGCACGAAGGATGGAGCAGGCTGTGTGTTATTACTCACCATGCCCCGCTCCGCGCTTAAGGAGTGA	MSVQNGELQLEGWDFGTDGSISLNGKWAFYWNQLLDPDDLKQGASPAVSAYVDMPEYWTNYTLNGRKLPADGYATYRLTISGLDSEEPIALKLRNIYSSYALWVNDTLAASAGKPETTHEASIPKYGPSVVVPVKPDSDGRLTLLVQVANYTYPKGGINNAIELGDAKQLQQEKSVELVRDSLVIGSLLVIGVYHIILYVLRRNDVTPLYFGLFCMCIAVRTMLVGSRFILEIFPAFSWVWFAKVSYLTIYVGELFLISYIYHLFPQFLSRKVWRLTQFFTISLTLLVLTTDIRVYDYSLIPFQIYSIGLVLYAVYASIRLARQRQEGAVLLILGFSLIFLTAVNDTLNRKGVFTTPALLQFGVLGFVFLQALLLSMKSSRAFFQVERLSERLLTLDKLKDEFLAKTSHELRTPLHGIIGLADALIDGSSGKLPSPVIDLLRLMKVSGQRLAHLVNDILDFSKLKHQEIGLVLVTVNLRLAVELTLQVLNPLAEKKGLQLSHQLPDDMYVMADENRLQQILHNLIGNAIAYTETGAVTVTAKRLQGQVSIQITDSGIGIAEADLDRIFESFEQINPLDRSQQGGTGIGLSITKKLVELHDGRIGVTSGLGEGSTFSFTLPMAGEGKPKSPPLPVADYIPTESFSHWEIVEPEREAAHSNKQLPSVLIVDDDPINVQVLLQFLAGKYSLRSTCSGQEALEWIQNGYKPDIALLDVMMPYVSGLQLGEEIRRHYNSGELPVIFLSAKSQMTDLIAGFEHGGNDYLAKPVDKQELLARLELHLQLARWNATLEREVEARTIELEHSLEERARALSEISVLAERNRIAGDIHDHVGHILTASVVQLELGLKMSSQNAPESTEKLKHASDLLRKGLHEMRKSVHMLAEEAAGSATFRDSLLQIINDSRQYAEVNIEHRIEVSDGSLEPEAEKLIRHALQEGITNGIRHGQCTFFRFELIETEDAIQFTLENNGLPFTSERLGFGLTMMRQTTRRRGGTFQVSTKDGAGCVLLLTMPRSALKE				NA	NA	NA	NA	NA
AK002_03040	651	lnrK_2	COG2197	Transcriptional regulatory protein LnrK	ATGTCAAGCATAAGCATACTCATTGCAGAGGATCAGACCATTGTCCGTGAAGGCCTAGAGACCATTATCAATATGGAGCCCGAAATGGAGGTCGTTGCTACGACGGACAATGGGCAGACCGCTTGCGAGCTGGTGGAGCAGTTGCGTCCTCAGCTTGTGTTAATGGACATCGAAATGCCGGTTATGAACGGAATTGCGGCAACGCACCAGATTAAGCAGTCCAATCCGGACACGATCGTGCTGATCCTCACGACGTTCACCGAAGAGGATTTCATTATAGAGGCACTCGCTAAAGGAGCATCCGGATATTTGCTTAAGGACTTTACGTCCCATAAAATCATCGCCTCGATCCGCGAGGCGATTCGTGGCGAGCTGATGCTCCCTTCGAAGGTGGCTGCAAAGTTGGCGGCCCGGTTAAGAACGACCGGAGTTCCACAGATTCCAGTGCAGAACTATAATCTGACCCCCAGGGAATTGCAAATTGCAAAGCTGATGACGGAATATAAGAACAACCGCGAAATCGCCGATATGTTATATATCACGGAAGGTACGGTTCGTAACTACATCAGCGTCATCTATGAGAAAATCGGCATGAATGACCGGACCAAGGCTATTCCGCTGCTCAAGCAGGCACTTAGGGATCCGGATTGA	MSSISILIAEDQTIVREGLETIINMEPEMEVVATTDNGQTACELVEQLRPQLVLMDIEMPVMNGIAATHQIKQSNPDTIVLILTTFTEEDFIIEALAKGASGYLLKDFTSHKIIASIREAIRGELMLPSKVAAKLAARLRTTGVPQIPVQNYNLTPRELQIAKLMTEYKNNREIADMLYITEGTVRNYISVIYEKIGMNDRTKAIPLLKQALRDPD	PGPT0014870_176	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
AK002_03041	483			hypothetical protein	ATGCATATGAAAACCGGCGTGGAACAGTCCGTATATGCCCTGGTTCTGCTCAACATGCTGCCAGACAGAGCGGTGTTGCCCGGGGAAGCGATAAGCCAGCAGCTGGGAACTTCCGTGACCTATTTTCAGAAATTGTTGAGAAAGCTGGTAACCGCTGATCTGATCACGTCCGTTCCCGGCATCAAGGGCGGTTTCAGATTAAAGAAGAAACCTGAGGATATCCGAGTATACGACGTTTACCTCGCGGTGGAAGGACAGCAGTCCCTATACTCGTCCCACGGAATTCTCGTGGACATGCTCGACTTGCAAAAAGAAGAGAGCTGCTGCCTGCTATCCGATTTGATGGAAGAAGCCGAGTCTTCCTGGAAAGCTGTATTAAAGCGAGAGACTATTGCTTCGTTGTCGGAGGAAATGCGCGGAGAACGCTTTAAGGACAAGGTTAGCGCCTTGGAGGAATGGATCGGCAGCAAAATGGTCATCTAA	MHMKTGVEQSVYALVLLNMLPDRAVLPGEAISQQLGTSVTYFQKLLRKLVTADLITSVPGIKGGFRLKKKPEDIRVYDVYLAVEGQQSLYSSHGILVDMLDLQKEESCCLLSDLMEEAESSWKAVLKRETIASLSEEMRGERFKDKVSALEEWIGSKMVI				NA	NA	NA	NA	NA
AK002_03042	993			hypothetical protein	ATGAGATTAAGCGTACTGGATCAAGCTCCCGTCACCAGCGGCAACACGGCGGAAAGCGCATTGATGAAAGCCGAAGAGCTGGCTGTTCTGGCCGATGGATTGGGATACAGCAGAATGTGGATGGCCGAGCATCATGGAGGACATACGTTTGCCAGCTCCGCACCAGAAGTGACGGCCGCCCGGCTTGCGGCAAAAACCGAGCGGATACGCATCGGCACCGGCGGCGTCATGATGATGCATTATTCGCCGCTGAAGCTCGCGGAAGTATTTAAGACGTTAAGCGCATTTACGCCCGGAAGGATTGATTTCGGCGTAGGGCGAGCGCCAGGCGGCGATACGAGTGCCATGTACGCTCTGTCCGAAGGGCGGCAGCTGATGCTTCATAACATGTATGACAAGCTCTCCGTCACCATGCAGCTTCTTCGCGACCAGGTGCCGGAAGATGAACTGTATGCCACGAATGCCGCCGCGCCTACGGGAGTCGCCCTGCCCGAAGTGTGGCTGCTCGGCTCCAGCGGCAACAGTGCGCTGCAAGCGGCACAGATGGGGATCGGTTACTCCTTCGCACAATTCTTCAACGGAGCGATGAGCATAGACATATTGGACCATTACCGAGATAACTTCCAACCATCCCCGTTCATGGAGGAGCCTGAAATTAACGTATCCTATATGGTGACAACAGCGGAAACAAAGGAAGAAGCGGAGTATGAAGCGCTGCCGCAGGATATTTTCCGGCTGATGATGAGCAAGGGCCGGATTACGCAGCTGATGACACCCGAAGAGGCTCAGAATGTATCTTTAACGGAAATTGACCGGATGGCGATCCAGGAAGGGCGCAAAATTCATCTGGTGGGAGCGGTAAAAGACATCGCGGCCCGCTTACAGGAAGAGCAAGCGCACTACGGATTCCAGGAAGCGATGATATGCAGCATTCCGCATTCGCAGGAAAAGCGGCTGGAGGTGTATCGCCTGCTCGCACGTGAACTGCTGTAA	MRLSVLDQAPVTSGNTAESALMKAEELAVLADGLGYSRMWMAEHHGGHTFASSAPEVTAARLAAKTERIRIGTGGVMMMHYSPLKLAEVFKTLSAFTPGRIDFGVGRAPGGDTSAMYALSEGRQLMLHNMYDKLSVTMQLLRDQVPEDELYATNAAAPTGVALPEVWLLGSSGNSALQAAQMGIGYSFAQFFNGAMSIDILDHYRDNFQPSPFMEEPEINVSYMVTTAETKEEAEYEALPQDIFRLMMSKGRITQLMTPEEAQNVSLTEIDRMAIQEGRKIHLVGAVKDIAARLQEEQAHYGFQEAMICSIPHSQEKRLEVYRLLARELL				NA	NA	NA	NA	NA
AK002_03043	738			hypothetical protein	ATGCCTTTTACATTCGCGCATTCCGTCATCACGATGCCGTGGTGGAAGAAGAAGTCGTTACCGGTGTCCGCACTCATTATCGGGTGCATGGCGCCGGATTTTGAATATTTCATCCGCTTTCGGGCGGCCGGCGTGTGGGGACATGAGGGTCCGGGTATTCTTTTATTCAATCTCCCCTTGATATTGCTGCTGTACGTTGTGTTTGAGAAGGTCATACGTCCGGTTCTGCACGTCTATTTACCTTCATGGTTCCCGTACCGCTGGCAGCGGGATGGCAAGCTTCCAGCCTCTCCAACTGGGTGGATGGCCGTAATCCTCTTAGGACTGGCAGGCGTTGGCACTCATCTGCTCTGGGATCAGTTCACGCACAAGGGAGCATGGATCGTCAATCAGATTCCGCTCCTCACGGAAATGCTGCATATCGGTACCGTACAAATTCCGGTGTATAAATTAGGCCAGCACGGCAGCACCCTATTAGGCTTGGTCCTGACCGCATGGTGGGTTCACCGTCATTTGTACGTATCGCCCACGAAAAGAGCCCATGCGAATCCGGTTAAAACCTTTTGGTGCGTATTCGTTGCGGTCTATATCCTCGTGATGTTCACAGCCATGATGACGGTTGCCGGAGGGGAGGGGCTGTCTTTTGTATTGCAGCTTGTCGTCCCGGCCATTAGCAGCTTTCTGATCGCACTGCTTGTAACTTGTCTCCTATTTTGGAATACGGCCAGGCGAAAATAA	MPFTFAHSVITMPWWKKKSLPVSALIIGCMAPDFEYFIRFRAAGVWGHEGPGILLFNLPLILLLYVVFEKVIRPVLHVYLPSWFPYRWQRDGKLPASPTGWMAVILLGLAGVGTHLLWDQFTHKGAWIVNQIPLLTEMLHIGTVQIPVYKLGQHGSTLLGLVLTAWWVHRHLYVSPTKRAHANPVKTFWCVFVAVYILVMFTAMMTVAGGEGLSFVLQLVVPAISSFLIALLVTCLLFWNTARRK				NA	NA	NA	NA	NA
AK002_03044	855			hypothetical protein	ATGGTAACCATTGAGCAGTACACCCTTAAGGGGATCCATTTCTTAAATGAAGATGCACTTATGATTCATGAGCAGGCGGGATTGTATGGCGTGTTAGACGGGGTATCCTCCATAGTTCCTTACCTCAGCGACAAGAAGGAAACGGGAGGGTACCTTGCTGCTCAAGCAGTGAAGAACTATTTTGAATCATTGGATCAAGTGGAACAGCTTGCGGAGCATACTGCGGCAGCAAACGATAAGTTAAGAGAACTCATGCAGCAAGCCCATGTCGATATGGAGAAAAAAGACGGGCTCTGGGGAACGGCTCTTGCTCTCGTACGAATTCAGGAGGAACGCGTAGAATTTCTGCAGACCGGTGACTGCATGATCCTTGCCGTTTACCAGGACGGGGAGGTTCGGCCGTTAACCTGGAGACAAGTGGCTCATTTGGAAACTCCAGCCATCGCGAAATGGGAGGAAGGCGTGAATCAGGGACTGACCCGTCAACAAGAACTCCATGGCACGGTAATAGATATCATTAGGGAGAACCGCTTTAAGAGCAACGTGAATGGAGGCTACGGCGTCTTGAACGGGGAACCCCGTGCCGTTGATTTTCTCGAATACGGAAAAATCAATAGATCCCGATTAGCCCATCTAATTCTATTAACGGATGGTTTATTCTGGCCTGTGAACGATGTGCCGAGCGATCGACCCTATTGGGACTACATCGCGCAGCGTATACTCTTAAACGGCCTTGAACAGTATACGCATGAATTACAGGATATCGAAGAGGCTGACCCGGAGTGCTTAACCCATGCAAGATTCAAGAAATCCGATGACAAGACGGGCATGGTGCTTCATTTTAACGACCTATAG	MVTIEQYTLKGIHFLNEDALMIHEQAGLYGVLDGVSSIVPYLSDKKETGGYLAAQAVKNYFESLDQVEQLAEHTAAANDKLRELMQQAHVDMEKKDGLWGTALALVRIQEERVEFLQTGDCMILAVYQDGEVRPLTWRQVAHLETPAIAKWEEGVNQGLTRQQELHGTVIDIIRENRFKSNVNGGYGVLNGEPRAVDFLEYGKINRSRLAHLILLTDGLFWPVNDVPSDRPYWDYIAQRILLNGLEQYTHELQDIEEADPECLTHARFKKSDDKTGMVLHFNDL				NA	NA	NA	NA	NA
AK002_03045	1200			hypothetical protein	ATGCCTAACCATCAAGATGTAAGCGGGTATCCGCGTTCTGAAGCTTCCGTTCGTCCCTTCCACGTACACTTCCCTCAAAAGGATATCGACGATTTGCGGGCACGTATTGCGAATACGCGTTGGCCATCCCAGTTACCTGGAGGCGACTGGAAGCGAGGGATTCCGGTTGCGTATCTTAAGGAGCTCGCGGATTATTGGCTTAAGGAATATGACTGGCGCGAATATGAGCAGAAATTAAATGCGTTCCCGCAATTTATGACGGACATTGATGGACAGCCGATCCATTTTCTACACGTACGTTCCCCTGAGCCAGATGCCTTGCCATTGATCATGACGCACAGCTGGCCGAACACCGTTGCTGAATTCATGAATATCATCGGTCCTCTGAGCAATCCAAGTGCGTATGGAGAAGATCCGAAGATGGCATTTCATATCGTGGCACCTTCAATCCCCGGGTTTGCCTTTTCACCTTTTCCGCAAGGGGCCGATCAATCACCGTGGAGCATCAAACGTGTTGCCGGCATATGGGCCGAGTTGATGCACAGACTAGGGTATGATGTTTATGGTGCGCACGGTAACGATGCCGGTGCCTTAGTCTCTCCGGAGCTGGCTATCCTGGATGCTGAACACATGATCGGTGTACATATTACAGGAGGTCTGGGCATCCCCATGGGAGATCCGAGCGAACTGGAAGGAGCTAGTGAAGAAGAGCTAGCGGAAGTGACTCATTTGGCTGAGCTGTTTGCAGGAGGTAGTGGTTATGCCCCTTATCTGTCCAATCGGCCGCAGACGCTCAGTTACGGATTTCACGATTCCCCGGTCGCTGCGCTTGCATATCTTGCCGAGCGCTATAAGGAATTTGACGGATGGCCCAAAAACAAGGATGTTATCCCCCGGGAACCTATCCCTGCAGATTTGCTCCTTACAAACGCCACCATATATTGGTTGACGGAGACTGCAGCCTCCTCGTCTTGGACGTATTATGATGGGGCAGCCGGGATGCCGACAGATCAAACAAAGGTACCGACAGGGGTTTCCCACGGAGGAGGTTCAATCTTCCGGCGCATTGCCGAAGCCAAAAACAATATCGTGCATTGGTCGAATCTGGAAAGCGGCAGCCATATGGTTGCCATGTCCGATCCGGAGTCACTCGTTAAGGATATAAGAGCGTTTTTCAGCATGCTTCACCGCCAATCATAA	MPNHQDVSGYPRSEASVRPFHVHFPQKDIDDLRARIANTRWPSQLPGGDWKRGIPVAYLKELADYWLKEYDWREYEQKLNAFPQFMTDIDGQPIHFLHVRSPEPDALPLIMTHSWPNTVAEFMNIIGPLSNPSAYGEDPKMAFHIVAPSIPGFAFSPFPQGADQSPWSIKRVAGIWAELMHRLGYDVYGAHGNDAGALVSPELAILDAEHMIGVHITGGLGIPMGDPSELEGASEEELAEVTHLAELFAGGSGYAPYLSNRPQTLSYGFHDSPVAALAYLAERYKEFDGWPKNKDVIPREPIPADLLLTNATIYWLTETAASSSWTYYDGAAGMPTDQTKVPTGVSHGGGSIFRRIAEAKNNIVHWSNLESGSHMVAMSDPESLVKDIRAFFSMLHRQS				NA	NA	NA	NA	NA
AK002_03046	171			hypothetical protein	ATGGGCCGAGGAGTGCAACGCAAACGAAGACAGCAAGGAAAATCCAACAAAGCTACGGTTAAACAATTGGCGTTTATCGCAGCCATATTGGTATTAATCGCCTCAGCCATAGGCCTCTACGTTGCTTATGATGACTTGTTTGAGGATGAAGGTGTGGAAATTATCGTGTAG	MGRGVQRKRRQQGKSNKATVKQLAFIAAILVLIASAIGLYVAYDDLFEDEGVEIIV				NA	NA	NA	NA	NA
AK002_03047	1200			hypothetical protein	ATGAAAAACTGGATCAATATCCTAAAATTAATATGGTTAACGGTTATGCTCAATATGTTAACGGGCTGCTGGGACATCAAGGAGATACAAGACATGAATTACATCACCGCCATCGGCATCGATCAAGAAGACGGTGATTTTGTTGTTTACACCCAGATGATGGATTTTACGTCCGTAGCCAAAAGCGAAACGGGAAAGTCGGAAAAGCCACCGCAAGTATGGACTTCCAAAACTAGGGGCAAAACCTTTGACATGGCGGTCAATGCCATCTATGATTCAGCGCAGATGCGTACAAGCTGGAGCCATATCTCTTGTATTATCATCAGTGACACCGTCTTGAAATCGAAAGTTCTAACCAAATTGGATACGATCGGCCGATATCAGGAAATTCGTATGACGCCCTGGGTATTTGGAACAAAAGACTCCATCGAACAATTATTTAATGTTCCTGCTTTCTTCAATCTCTCCCCGTTAAATACGTTAGCTCATGAACCTTCGGAAGAGTATAGACAGAAATCCTATATCGTACCGATTCGATATTTTGATTTCATGGCGCTGATCACCGAACCGGCCAGCACGGTACTCCTTCCTAATCTATCGATCGATAAAGGGACCTGGAGCCTGAAACAAAAAGAAAATCCGAAACTTGTGATTAACGGAGTATACGCTATATCCGAGGTCGTATCGAAAGGTTTTTTTACCAGCGACAAGCTCACCGGTCTACGCTGGATGGAAACCGATACGAAACGCTCCCACGTCATGATTACAAATAAGAGCGGTGAGTACGCAGGGATCGTCGTTTTGTCGAATCCTAAAATTCGCAAGAAAATGAACATTGTCAACGGAATGCCTCAATTCCGCATCAACGTGAAGTTAAATGGTAACGTGGTAGAAGCGCTCGACGACATGAATAAGACCGAAATGGAAAAAAGGGCGGCCGCGGAAGTACGGGAGGAGATTATATCTACGTTTAAGAATGGAATTGCTTCAAAAACAGATCTGTACAGCTTGGAGCACGTGTTGTTTAAGAAAGACACCCGACTTTGGAAAAAAATTCATCAGTCGTCTCTCCCATCGATGGATGCAGGTTCTTTGGAAACGGTACATGTCGAAGTCCATCTGGATCATACCGGCATGAAACTGCTCCCCCATCAAGATGGCCCCACTGCGCCTACGACCAAAATAGAGGCTGACTCCTGA	MKNWINILKLIWLTVMLNMLTGCWDIKEIQDMNYITAIGIDQEDGDFVVYTQMMDFTSVAKSETGKSEKPPQVWTSKTRGKTFDMAVNAIYDSAQMRTSWSHISCIIISDTVLKSKVLTKLDTIGRYQEIRMTPWVFGTKDSIEQLFNVPAFFNLSPLNTLAHEPSEEYRQKSYIVPIRYFDFMALITEPASTVLLPNLSIDKGTWSLKQKENPKLVINGVYAISEVVSKGFFTSDKLTGLRWMETDTKRSHVMITNKSGEYAGIVVLSNPKIRKKMNIVNGMPQFRINVKLNGNVVEALDDMNKTEMEKRAAAEVREEIISTFKNGIASKTDLYSLEHVLFKKDTRLWKKIHQSSLPSMDAGSLETVHVEVHLDHTGMKLLPHQDGPTAPTTKIEADS	PGPT0025060_464	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK002_03048	1530	gerXA_1		Spore germination protein XA	ATGTCAAACTACAGAACTCGAAATAGCATGTTCCGCCGAAAAAAGAAACAACCCCCGTTCGACGTGGACCGTGAGCCCGCATCCGACGCTTTGGATGAGGAAGCCCTGCGATCCATGTTTGCCAATTCCGCGGATGTCATCATCAAATCTTTCCCGGGAAAGCATGAAGATGCTATCCCCGTAGTGCTGCTGTATAGCGAAGGAATGGTTGATGCCATGGTGATGACCCAATATGTGCTGCCGGATCTGGAAGAAAAACTGGAACACTTCAGGGATTGGGAGCCTTTAGCCAGAGAACTGGATAAATCGATGGAATGGAGCAAATTGAAGCAGCCTGCCGATGTCGTTAAGCTCCTGTTCGCGGGACGTATGATCCTATTTTTTTCACGAGAGAAATGCTTTTATTCCATCGATATCGCCTCGCTTCCCAATAGACAACCAGAAGAGTCCAATACGGAGGTCTCCATTAAAGGGGCTCGAGATGCATTTACGGAAGATATATACATGAATGTGGCACTCGTACGAAAAAGATTGCGAACGGCTACGCTCCACAATGAGCAAATGATGATCGGCGATCGCAGCCAGACCCGGGTAGCCCTTCTGTATATTTCCGATATCATACGACCCGAAGTCATCAACGAGGCAAAAATGCGCTTAAAAGGCATCCAAGTCGATGCGCTAGTAACCAGCGGTCAGCTGGAGGAGGCACTTTCCGATTCGACCCTCTCCCTGTTTCCGCTCATGGATTACATTGGAAGGCCGGATTTTGTCGTGGAATGCTTGCTTAGAGGTCGTTTTGTCATCCTTGTGGACGGGTCGCCGATGGCATTGATTGCGCCTTGCAACTTGCTGGAGTTGTTAAAATCGCCGGAAGACTCCTATTTTCCTTACCACTTTGTGGTATTTGAACGGCTTCTAAGGTTATTAGGCTTATCTCTCGCCATTATGCTGCCGGGATTTTGGGTTGCGCTGACAAGCTACAACATGGATCAGCTCCCATTTCTGCTGCTGGCAACCGTTACCGTTTCCCGTTTCGGGCTCCCATTGTCCGGTCCGATGGAAATCTTATTGATGCTGGGCATGTTCGAATTATTTAGGGAAGCCGGGGTCAGGCTGCCTAAAGCCGTTGGTCAAACCATTGCAGTATTAGGAGGTCTCATTATCGGGGATGCTGCCATACGTGCGGGTCTGACATCGCCGACCATGCTCGTAGTCTCCGCGACGACGGCAGTTGCAACCTTTACTTTGGTCAATCAGACGCTGAGCGGAACGGTCAGCATTATTCGGCTGTATGTGCTGATATGGTCTTCCTTGCTCGGCATGCTCGGATTCTTTATTGGACTGTTCAGTCTCCTTGCATACCTCTCCGTATTGGAATCCTTCGGACTTCCGTATCTTGCACCTCTATCGCCGCTGACCTTCAAGGATTTGATGAATTCCCTCTTGAAAAAACCGTGGGCTTTCAACAAAAAACGACCGGAAATGCTGAACAATATTGATAACACTTCTGAAGAAAGGGAACCTACGTGA	MSNYRTRNSMFRRKKKQPPFDVDREPASDALDEEALRSMFANSADVIIKSFPGKHEDAIPVVLLYSEGMVDAMVMTQYVLPDLEEKLEHFRDWEPLARELDKSMEWSKLKQPADVVKLLFAGRMILFFSREKCFYSIDIASLPNRQPEESNTEVSIKGARDAFTEDIYMNVALVRKRLRTATLHNEQMMIGDRSQTRVALLYISDIIRPEVINEAKMRLKGIQVDALVTSGQLEEALSDSTLSLFPLMDYIGRPDFVVECLLRGRFVILVDGSPMALIAPCNLLELLKSPEDSYFPYHFVVFERLLRLLGLSLAIMLPGFWVALTSYNMDQLPFLLLATVTVSRFGLPLSGPMEILLMLGMFELFREAGVRLPKAVGQTIAVLGGLIIGDAAIRAGLTSPTMLVVSATTAVATFTLVNQTLSGTVSIIRLYVLIWSSLLGMLGFFIGLFSLLAYLSVLESFGLPYLAPLSPLTFKDLMNSLLKKPWAFNKKRPEMLNNIDNTSEEREPT	PGPT0025050_532	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK002_03049	1086			hypothetical protein	ATGGCCGCTACTAAAAAGATTTCCCTGCTCGACGTTTACTTCATCATGCTGCTGTCCCTGGGCATCACCAATCACGTTGTCCTGATCCCGCTTCTTCTGCAGAAAGCGGGCCGGGACGCATGGATGGGCACACTGCTAACTATAATCCTGCATATTGGCTGGGTGTACATCTTGTTTTTCATTATGAAGCGGACCCGTCAACAATCCATTTTCGCATGGTTCAAAGACAGCTTCGGGCCCGTGATTGGCTGGATCTTCGTTAGCATAACAACGCTCTATTTTTTCTGGATGACCATGGTCATCATAAGAGAAACGACGACATGGATTCGGGTCACCTATCTGCCGTCAACGCCCAAAACCGTCATTTCGCTCACCATTATGCTGCTGTGCGTTTATGTAGCGAACAACGGTATTCGCTCGATCGCCATCATCTCCGGAATCCTGCTTCCGATTGTATGGGTATTGGGGCATTTTGTGGCCTTGTCGAATCTGGAATATAAGGACTATTCATTGTTGACCCCCCTATTCCTGGAAGGTTATACGCCCATGCTCAAGAGCATGCTCGTGGCCGGCGGCGGATTCATGGAGATGATTGTGCTGATCTATCTTCAGCATCACATGAAACGAAGAATGAAATATCTCTCGATCGTCATATTGTCTATTTTGCTGGGAGGGCTCACCCTCGGACCGTTGATGGGAGCTATCGCCGCATTCGGGCCAATTCCCGCGATGGAATCCCGCTATCCTGCCTACGAGCAGTGGATGCTGGTCACCATTACGAAATATATAACCCATGTCGATTTTCTGGCTTTGTACCAATGGATATCGGGGACATTAATCCGTATTTCGCTGTTCCTGTTTATCATGGCGGACGGTATTCCCTTTAAAAAACCCAAACGGCGCTTGTGGTATGTGTTAGGGATGGGTGTTGCCATATCTATCATCTCGTTGATCCCGGTTATCGATCGGCAAATCGAATTATTCGTGTTGGGCAAATATTCGCCGTCCTATCTGGTCTTCCTCTCCGCACTGACGCTGTTGATTGCCATTGCTGTCACATTTCGAGCAAATACCAAAGGTGGGTAG	MAATKKISLLDVYFIMLLSLGITNHVVLIPLLLQKAGRDAWMGTLLTIILHIGWVYILFFIMKRTRQQSIFAWFKDSFGPVIGWIFVSITTLYFFWMTMVIIRETTTWIRVTYLPSTPKTVISLTIMLLCVYVANNGIRSIAIISGILLPIVWVLGHFVALSNLEYKDYSLLTPLFLEGYTPMLKSMLVAGGGFMEMIVLIYLQHHMKRRMKYLSIVILSILLGGLTLGPLMGAIAAFGPIPAMESRYPAYEQWMLVTITKYITHVDFLALYQWISGTLIRISLFLFIMADGIPFKKPKRRLWYVLGMGVAISIISLIPVIDRQIELFVLGKYSPSYLVFLSALTLLIAIAVTFRANTKGG	PGPT0014775_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014775-yfkT-K06309	NA	NA
AK002_03050	2058			hypothetical protein	ATGGCCCGTAGATTCACGATTCTCTGTTTAGCCATCCTTTGTGCTTTTTCATTAAGCGGCGGCGCAGCTTATGCTTCGGGAACGGATGCACGGCCAGCCAAACCCGACGGCTCCAATAACCGCGAGCTGCCAAGTTTCAAGAAACCGAAGCATTTGGATGCCGCAGATATTTATGATGCTCCAGGTGACATTAAATTGCTGTTAGGGACCTTGCAGGGAATCGTTAACAGGGAACAGCCCCGAATCTATTTGATTGAGTCCCAGGAAGAAGGGAAAATGACCTGGCTTGAAGATATAAACGTGCCTTATACGCTTCATGAAGATTATTGGGACGTATTCGCTGCTTATCAAGGCGAAGCCAAAGGCATGATTGTTTATGATCCGGAAGTTCCCGACACGATTAATGTCGCCACCACCCTCGCAGGACTGAAAAAGGCTGTCGTTGCCAGCCCGGAGCTGGCCGCCAAATTGTCCAAAGCCCCTTATAACTTGAAGACGCTGGACGATCTGCGCGGCAAATTCGATAACCGGCTCGAAGCTTACACCTGGCAGTACGAGAATCTGTGGAAACAGACGAATCATCAGATGTTAGTCGGACTGGATCCGGATACGGCGATCCGAATTCCTTCGGGTCTGCCGGAATCGTTCGTGACGATTGCAGAGGAGAAGGAGCAGATTCGCGATGCAAGCAATCGTGATGCTTACCAGCTTGATTTATCCTCCCTCTTGGGAAAATCAGAGGTATATCTTCGGTTCGACGATGCTTTCACCCAAGATGGCTGGGGCCCTGCCGTACACGAAGTAACGGTTAAGGCCGACGGCAACGTGATTGCGAGTTTCATCGCAGGTACACCGGAAGAAGAGACCTATCTATATGATCGGCAAAATTCCAAGTTCAGTGAAGGACAGGGCGGTCACCGCTTCGCCGATAACGGCAGTTATTTTGTGTACGAATTCACCCCTCCTGCCGGAACCAAGAACCTGACCGCCGAAGTGGATATGTGGAACCAGTATAAGGTTTCAGCTGGAAATATCCGTCCGCTATCCGCTGAGCAGCAGGAACCTTATGGTTACTTAAGAGATTACGCCGTAGCCAACAAAGCGATGGTCTTCTGGCTGGATTCCAATGTGCCTGAGCAAAAAGCGCTGTTCGAAAAAATCCTGTCTGATGTGAAGCCGGGAACCCCGTATCTCGGCTGGTTCAGCAACGATGTGGAAGGCGAGTTCAGTTCCGTCGAGATCGCTTCCCGTTATGGCGTTTATGTTCTGGCGGCCGACTGGTTCAGCAATCTGACCGTCTTTTCGGGAACCAAGCCGAATTTCAAACTGGCGAAAACACCTCCACAGCCGGACCTGGAGAACAAGATTTACGTAACGTATACTTTTACGGAAGGCGACAACTTCCAATACAATCAGCATCGCATGCGCGTCATGTGGGATGACCCGGCTCGCGGCAAAGTTCCGATCAACTGGACCTCCAGCCCGCTGCTCTATGAAGGTGCTCCAGCGATATTGAATTATTATCTCAACTCGGCAACAGAGAACGATTTGCTGATTGCCGGGCCGTCCGGTGCAGGATATTTTTACCCAAGCCCTTGGCCGGATGCAAGCTTTCAGCAGTTCTTGCGGTCTACCGAGAAATACCTGAAAAAGACGGGAATGACGATTCCTTATGTTCTGAATCGAGTCGACAGTCAGAATGTGCCGTTATCTCCGTTTAAAGCAAAAGCATATGAGGAGGAATATAACGTACCCGGTTTATTTATTAGCTATGAAGACAGATACGGGGTTGAAATCGTTGGCGACAGCCTGCCCGTGTCAACGATCCGCGGGATCAGCACCGTGCAGGACGGATTGCAGGTCCTGAATGAGGCCAAAGCGAATTGGGACGGCAAGTCACCGCTCTTCGTTTCCCTCGGCATGCTTGCCTGGAGTATGACTCCATCGGATGCGCTGGCTCTAACCGAACAGCTTGGAGCAGACTTCAAAGTTGTACGCGCCGATCACTATTTCTCTTTGATCCGTGAAAGCTACGGCTTGCCGGCAAGCAAGAAATAA	MARRFTILCLAILCAFSLSGGAAYASGTDARPAKPDGSNNRELPSFKKPKHLDAADIYDAPGDIKLLLGTLQGIVNREQPRIYLIESQEEGKMTWLEDINVPYTLHEDYWDVFAAYQGEAKGMIVYDPEVPDTINVATTLAGLKKAVVASPELAAKLSKAPYNLKTLDDLRGKFDNRLEAYTWQYENLWKQTNHQMLVGLDPDTAIRIPSGLPESFVTIAEEKEQIRDASNRDAYQLDLSSLLGKSEVYLRFDDAFTQDGWGPAVHEVTVKADGNVIASFIAGTPEEETYLYDRQNSKFSEGQGGHRFADNGSYFVYEFTPPAGTKNLTAEVDMWNQYKVSAGNIRPLSAEQQEPYGYLRDYAVANKAMVFWLDSNVPEQKALFEKILSDVKPGTPYLGWFSNDVEGEFSSVEIASRYGVYVLAADWFSNLTVFSGTKPNFKLAKTPPQPDLENKIYVTYTFTEGDNFQYNQHRMRVMWDDPARGKVPINWTSSPLLYEGAPAILNYYLNSATENDLLIAGPSGAGYFYPSPWPDASFQQFLRSTEKYLKKTGMTIPYVLNRVDSQNVPLSPFKAKAYEEEYNVPGLFISYEDRYGVEIVGDSLPVSTIRGISTVQDGLQVLNEAKANWDGKSPLFVSLGMLAWSMTPSDALALTEQLGADFKVVRADHYFSLIRESYGLPASKK				NA	NA	NA	NA	NA
AK002_03051	1035	araR_3	COG1609	Arabinose metabolism transcriptional repressor	ATGGACCAGTTTCATGTCAGCAAGATCACGGTTGCCAATGCACTGACGGGATTAGCGAATGAGAAATTGATTGCCCGCGTGCCGGGCAAAGGAAGTTTTGTTGCAGAAGAGGCGGACTTCTTACCCGGAGCGCAGCCGTCGGCTTCGTCACACAAGGGAAGAGAGAGGACGCTGGCAACGGGCATGATTGGCGTGATTATGCCCACCATTCATGATTACTTTGCCATGAGACTCATTGAGGGGATCGAGCAGGCTCTGAGTGACGAAGGTTACCGCAGCATGATCATGCTGACCGACGGCAAACTCGACAAGGAAAAAGACGCCATCAAGGATCTGAAGGCTCTCGGAGCCGAAGGCCTGCTGATTTTCCCGATCGACGAGGAGAACTACAACGAGGAGATACTGGGCATGAAGCTGTCCGGTTTTCCTTTTGTGTTGATCGACCGCTATTTGCCTGGTGTCGAGACCCATTATATTGCCGCCGATGGAAGGCGGGGCACCAGGCTCGCCGTTGAGCATTTATGGGAGCTTGGGCACCGGGATATCGCCATCTGCTCGGATTCTCCACTTCAGACCGTTACGGTTCAGGAGCGGATCGAAGGGTATATCGATGCATTGAAGGACAAAGGCGCGCTCATCAATCCGGCGCATATGATTACGGATTTCAAACCGCTGAACGTGCTTAAGGATGCGGAAGCCCACCCGTTATACCGTTACATCCGAAATCGCATGGTAACCGCCTATATTTCGCTTAACGGGAGACTGGGCGTGCAGATCTATCAGATGGCAAAGCAAGCGGGGCTCAAGGTGCCTGAGGACGTATCGATCGTCAGCTTTGACGATCCGACTTCCATCGTGGAGGAATTCAGCATTTTTACCCATGTCAAGCAGTTTGAGCGGGATATGGGATATCAAGCCGCCGGAAAGCTTCTGGAAGTGCTGCGCGGCTCAGGTGAAGCCAAGAGTTACAGCAAATTGCTGATTGAGCCCGAGCTTGTGATCCGCCAAACTTCCGGCCAAGTTCCACGAACTTAA	MDQFHVSKITVANALTGLANEKLIARVPGKGSFVAEEADFLPGAQPSASSHKGRERTLATGMIGVIMPTIHDYFAMRLIEGIEQALSDEGYRSMIMLTDGKLDKEKDAIKDLKALGAEGLLIFPIDEENYNEEILGMKLSGFPFVLIDRYLPGVETHYIAADGRRGTRLAVEHLWELGHRDIAICSDSPLQTVTVQERIEGYIDALKDKGALINPAHMITDFKPLNVLKDAEAHPLYRYIRNRMVTAYISLNGRLGVQIYQMAKQAGLKVPEDVSIVSFDDPTSIVEEFSIFTHVKQFERDMGYQAAGKLLEVLRGSGEAKSYSKLLIEPELVIRQTSGQVPRT	PGPT0017490_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_03052	2232			hypothetical protein	GTGCCGAGAGATCGCAGGGAAGAACGAACCGGGTTTCAAGAGTCTGCGCCGTATCACCCCGACTATGATCTTCAGACAGACTTCGTGATGGTTTACGGGATTGACGAAACCATGCCTGAGCGGATTCGGAAATGGAAAGAGAAAGGTTACGTCGTCCATCTCATGACCGGAGTCGCATGGGGGCAATACAACAGCTACCTGGATGGGGAGGTAGACGGCGCAGCCCATTGGGATGAAGCCCAGATGGATCGCCATGGGGAAATGATCCTGCATGGCAAGCAACCGGTCATTCCTTACATGGTGCCTACGATTTCCTTTGGCCGCTTTATCGCGGACCGAATACGCATCGCGGTGGATGCGGGCGTGGAGGCCATTCATCTGGAAGAGCCAGAATTTTGGGTGAACGGAGGTTATTCGGAAGCGTTCAAGCGGGAATGGCAGCTGTATTACAAGGAGCCATGGATTCCGCCACATGCTTCACCGGACGCACAATACCGGGCTTCCAAATTGAAAGCGTATTTATATGCTCGCGTGCTCGACCGGTTATGCGCAGAGATGAAGGATTACGCGTTAAAGCGCTATGATCGGATTCTTCGCTTTTATGTTCCGACCCATAGTCTGATCAACTATACCCAATGGCGGATCGTCAGTCCGCAATCGGCGCTCGTGGAGCTACCGTCCATAGACGGGTACATTGCTCAGATCTGGACGGGGACCTCCCGGACGCCGAATGTATATGAAGGGCTGCGCAAGGAACGTACGTTTGAAACCGCTTACCTCGAATACGGCGTGATGCAGGAGCTGGTTCGGGGAACGGACAGACGCATGTGGTTCCTGCATGATCCGATCGAAGACAATCCGAACCACACGTGGGCGGATTACAAGCAGAACTATCTAAAAACCGTGGTCGCTTCATTGCTGCATCCCGGGGTCTCCCATTATGAAGTCTCGCCATGGCCGCGGCGAATCTTTAAAGGGACTTACCCTTCCGAGGACGGCTCTGGCAAAGAGTCCATCCCGTCCGACTATGCAACGACGCTGATCCAGGTCATGCATACGCTCGGCAATATGGACCAGAAAGTGAACGAACCGGAGGAAGACGCCTTGCAAGTCGGCGTTCTCATCGCAGACTCGGCCATGTTTCAACGAATGAAGCCTGAGCCGGAGGCGCCAGATGCCGGGAAATATGACGGCACGGACCCCGAAGGATTTCAGGAATCGGGGGACACGGAGCTTCTCGATTTCTCTCCTTTTTACGGTCTGTCGCTGCCGCTGTTGAAGCATGGCATCCCGGTGCGCCCGCTTCAGCTTGATAACGTAAGGCGATATCCGGGTTATTTGGCTCCTTACCGCGTCCTCGTATTGAGCTATGAATTCTTCAAGCCGGAATATCCAGACCTTCATAATGCTCTCGCGCAGTGGGTGCGGGACGGCGGCGCCCTAATCTATGTCGGCGATGACAGCGACCCGTACCATAAAGTACGCGCTTGGTGGAACAAGGAGCTCGGGGGCGGATCATTCAGCTCGAAGTATAATTCCCCGCGGGAGCATCTGTTTGAGCAGCTTGACCTGAAGGAAGCAGCGGAAGGTATCCATCAGGCAGGAAAAGGCGTCGTATGCTGGCTGAATCAGCATCCGGCCGACCTGACCTTGTCGAAGGAAGGGGCAGACCGGCTGCGCCGCTCCGTTCAGGCCACGATGGAGGCACTTCTCGGCACGGAATCGCGGTGGCATTCCAAGCATTATTTCAAGCTGTTGCGCGGTCCTTATATCATCGCTTCGGTTCTGGAGGAGTCGGTCACCGATGAAGAACTGACGATCTCAGGTCCTGTCGTGGACTTGTTCGATTCGAAACTCTCCGTCCATGATCAGATTACGATAAGCCCCGGGAAACAAGCGCTTCTCTATGATGTTGAAGCCGGACGTCCTTCCGGAGGCAAGGTTTCCGTCATCGCAGCCTCTTCCAGAATCGAGGAGCTTGAACAATCGGACGCCGGGTTCCGATTCACGGCCAAGGGACCGGCCAATATGCAGGCCAGCGCGAGGCTGTATTGTCCGACCGAGCCGGCATCCGTTCAGTACGTCATCGGGAATCAAACGATGCCTGCCGTCTGGGTATGGGATACGGAGTCGTTAACCGTCCTGCTGCAGTACGAACATGGCGCCGCGAACCAGGCCGTGATTCAGGTTGATTGGAATACCCAATCCGTGCCGGAACCTGCAGCCGACTGA	MPRDRREERTGFQESAPYHPDYDLQTDFVMVYGIDETMPERIRKWKEKGYVVHLMTGVAWGQYNSYLDGEVDGAAHWDEAQMDRHGEMILHGKQPVIPYMVPTISFGRFIADRIRIAVDAGVEAIHLEEPEFWVNGGYSEAFKREWQLYYKEPWIPPHASPDAQYRASKLKAYLYARVLDRLCAEMKDYALKRYDRILRFYVPTHSLINYTQWRIVSPQSALVELPSIDGYIAQIWTGTSRTPNVYEGLRKERTFETAYLEYGVMQELVRGTDRRMWFLHDPIEDNPNHTWADYKQNYLKTVVASLLHPGVSHYEVSPWPRRIFKGTYPSEDGSGKESIPSDYATTLIQVMHTLGNMDQKVNEPEEDALQVGVLIADSAMFQRMKPEPEAPDAGKYDGTDPEGFQESGDTELLDFSPFYGLSLPLLKHGIPVRPLQLDNVRRYPGYLAPYRVLVLSYEFFKPEYPDLHNALAQWVRDGGALIYVGDDSDPYHKVRAWWNKELGGGSFSSKYNSPREHLFEQLDLKEAAEGIHQAGKGVVCWLNQHPADLTLSKEGADRLRRSVQATMEALLGTESRWHSKHYFKLLRGPYIIASVLEESVTDEELTISGPVVDLFDSKLSVHDQITISPGKQALLYDVEAGRPSGGKVSVIAASSRIEELEQSDAGFRFTAKGPANMQASARLYCPTEPASVQYVIGNQTMPAVWVWDTESLTVLLQYEHGAANQAVIQVDWNTQSVPEPAAD				NA	NA	NA	NA	NA
AK002_03053	3075			hypothetical protein	ATGCCATACGAACCTATAAGGCCTGAGCCGTTAAAACAAATGCTAAACAAACTCCGGGAAGCCATATATGAGCCGGTTGCCGAGTTGGACGTGACGGCATGGGTTACGCCTGAGCCTGTATCGTACATGGATCGCAAGACAGGAACGAAAATGACGCTTGTCCATGGCCAGCGATGGGGCAGCTTGTGGGACTGTGCCTGGTTCCGTTTTGCCGGCAGCGTTCCGGAGCATAGCCGGAAGGAGGACCTCGTCCTCCTGCTGGACATCAACGGCGAGTTGTGTTTGGCGGATCCGAACGGATCGCCAGTACAGGGATTGACCACCGTGAATTCGGAATTCGATTTTTCCTTAGGGCTCCCCGGCAAGCGTGTCGTCCGGCTTCATGACATGTTCTTGACCGGATCCGATATTGAAGTATGGGCCGATGCGGGCAATAACGATCTCTTTGGCAAATACCAGGGAGGAACTTTGAAAGAAGCTGTCATCGCCATCTGCCGGGAAGATATCCGGAGCCTATATTACGATGTCGAGGTACTCTTGGAAGCTGCCGAGCACCTCCCGACGGGATCCGCGCGCAAAGAGAGAATCTATCAGGCGCTGTATGACGTTTCGCTGCGGCTCACGGATTTCTCGCCGGAGCGCATCGCGAAGGCGAAGAAGAAGCTGGCTGAACCATTGAGCCTGAAGGGCGGCGATCCTGTCTTAACAATCAGCGCCGTGGGTCACGCGCATATCGATTTGGCCTGGCTGTGGCCGATCCGCGAAACGATCCGGAAAGGCGCCAGAACGTTCTCGACCGTGCTTCGCATGATGGAACGCTACCCGGACTACGTGTTCGGCGCAAGCCAGCCCCAGCTATATGATTGGATGAAGCAGCATTATCCGGCACTGTATGAACAGATCAAGGAACGGGTGCGTGAAGGAAGATGGGAACCGCAGGGAGCCATGTGGGTAGAATCGGATACCAATGTGCCGGGCGGGGAATCACTGGTTCGTCAGATCTTGTACGGCAAGCGATATTTTCAACAAGAATTCGGGTTGGAGATGAAATCGCTCTGGATGCCGGACGTGTTCGGTTACTCCGCCAGCCTGCCGCAGCTGCTCAAGAAGTCCGGCGTGGATTACATGATGACCCAGAAGCTCTCTTGGAGCGAGTACAATCGGCACCCTCACCATTCCTTCCTCTGGGAAGGCATCGACGGCTCCGCCGTTCTGACCCATATGCCTCCTGAAGATACGTACAACAGTCCGGCAGCCCCACGTTCCATCGCCAAGGCAGAGCGGGAGTATTTGGATAAGAACGTATCCGGCCATGCCTTGATGCTCTTCGGCATTGGAGACGGCGGCGGAGGTCCGGGCGAAGAGCATTTGGAACGGCTGGCTCGCGAGAAAAACCTGCTCGGTTTGTCTCCCGTCCAGCAAGAGCCTTCGTGGAAGTTCTTCGAACGGTTGAATGAAGAGCGGGAGTCGTTCCAGACATGGCGCGGGGAGCTCTACCTGGAGAAGCATCAAGGAACCTTGACCAGTCAGGCGCGGAGCAAGCGTTACAACCGGAAGATGGAGAAAGCGCTGCGCGAGCTGGAGTTTGCTTCCGTGCTGGCAGCCCGGCTGGGGCGGGCTTATCCATCCGAGACGCTGGAGACGATCTGGAAGGAAGTCCTCCTGTATCAGTTCCACGATATTCTTCCGGGATCTTCGATCAAGCGGGTATACGATGAATCGCTGGTGCGGTATGAAGAGCTGCTTGGGCATACGGAGACCATGATTGCCGATACCTACAGCTATTTAGCTAATCATATAGCACACAATGAAACGGCTTCCGCGCAAACCGTCATCTTCAATTCGCTGCCTTGGGAGCGACGAGAGTGGCTGCGCATGAACGGACGCTGGCATCACGTGCAGGTTCCATCGATGGGATACGCCGTTTTATCGAATGACGCCGGCCTGGAAACGGAAGAAGAAGCCGCATCCTCCTCAGAAATCTTGACTAAAACGCCAGGGGCGGACGCAGACGCTGCGGCTGAAGGACGAAGCCTGGAGAACGACAAGGTCATCGTGACATTCGACCCGAACGGAGCAATTCTATCGGTTCTGGATATAGCGGATAACCGCGAAGTCATCCAGCAGGGACGATTAGGCAACGATCTTCGCGTATATCATGACGTCGGGGACGCATGGGATTTCCGCCATGACTATGCGGCGAATCCGGGTACACCGTTACACCTGCTGAGCATGCGGGAGCTTCGGGACGGTCCGAGAATCGGGCTTGTCTTCGAGTACGGTTACGGGGAGTCCTCGCTGACCCAGACCGTCGTGCTAACGGCGGGCAGCCGGCGAATCGATTTCGAGACGGACGTCGATTGGAGGGAGAACGGCAAGATGTTAAGAACGTCGTTCCCCGTGAATGTACGCACGGACCAGGTTCACTGCGAAATCCAGTTCGGCAGCCTGAGCAGACCGACCCACCGCAATACGTTGTGGGATTTTGCGAAGGATGAGATCTGCGCACATCAATGGGTGGACTTATCGGAGCCGGATTACGGCGTCGCGCTGCTCAATGATTGCAAGTATGGCCATCGCGCCATCGATAACGTGCTGGATCTCCATCTGCTCCGCAGCAGCTCTTATCCCGATCCGGAGGCAGATCGCGCGGAGCATCGTTTCACGTATTCGTTGTATCCGCACCAAGGGAATCATGTGCAAGCCGAAATCTACCGAAGAGGCCATGAACTGAACGTCCCGCTTCGCACGATGTCCTTGCCTGAGGTATCGGATCAGGTGACAACAAAGCTGCCTCCATCACAATCGTTTATCTGGCCTGATCATCCGCACATCATGGTAGAGTCCGTCAAAAAAGCCGAGGATGGCGACGATGTCATCGTTCGTCTGTATGAAGCTTCAGGAACGCACGCGAACACGTCGCTTCGGCTTGGGTTTGAAGCCGCCGAGGCCTGGATCGCTGATCTGATGGAAAACTGCCTTACGCAGCTGCCGATGAACGATCCGTCCGAGGTCACGCTATCGTTCACGCCGTTTGAAATCATCACGCTGCGCCTGAATGTACCAGAACTATAG	MPYEPIRPEPLKQMLNKLREAIYEPVAELDVTAWVTPEPVSYMDRKTGTKMTLVHGQRWGSLWDCAWFRFAGSVPEHSRKEDLVLLLDINGELCLADPNGSPVQGLTTVNSEFDFSLGLPGKRVVRLHDMFLTGSDIEVWADAGNNDLFGKYQGGTLKEAVIAICREDIRSLYYDVEVLLEAAEHLPTGSARKERIYQALYDVSLRLTDFSPERIAKAKKKLAEPLSLKGGDPVLTISAVGHAHIDLAWLWPIRETIRKGARTFSTVLRMMERYPDYVFGASQPQLYDWMKQHYPALYEQIKERVREGRWEPQGAMWVESDTNVPGGESLVRQILYGKRYFQQEFGLEMKSLWMPDVFGYSASLPQLLKKSGVDYMMTQKLSWSEYNRHPHHSFLWEGIDGSAVLTHMPPEDTYNSPAAPRSIAKAEREYLDKNVSGHALMLFGIGDGGGGPGEEHLERLAREKNLLGLSPVQQEPSWKFFERLNEERESFQTWRGELYLEKHQGTLTSQARSKRYNRKMEKALRELEFASVLAARLGRAYPSETLETIWKEVLLYQFHDILPGSSIKRVYDESLVRYEELLGHTETMIADTYSYLANHIAHNETASAQTVIFNSLPWERREWLRMNGRWHHVQVPSMGYAVLSNDAGLETEEEAASSSEILTKTPGADADAAAEGRSLENDKVIVTFDPNGAILSVLDIADNREVIQQGRLGNDLRVYHDVGDAWDFRHDYAANPGTPLHLLSMRELRDGPRIGLVFEYGYGESSLTQTVVLTAGSRRIDFETDVDWRENGKMLRTSFPVNVRTDQVHCEIQFGSLSRPTHRNTLWDFAKDEICAHQWVDLSEPDYGVALLNDCKYGHRAIDNVLDLHLLRSSSYPDPEADRAEHRFTYSLYPHQGNHVQAEIYRRGHELNVPLRTMSLPEVSDQVTTKLPPSQSFIWPDHPHIMVESVKKAEDGDDVIVRLYEASGTHANTSLRLGFEAAEAWIADLMENCLTQLPMNDPSEVTLSFTPFEIITLRLNVPEL	PGPT0018760_976	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018760-mngB|ypdB|manA-K01191	NA	NA
AK002_03054	927	yteP_31	COG4209	putative multiple-sugar transport system permease YteP	GTGAACAAGTCACGTTGGACAAGCAACCGAATATTCAAACGAATTTGGCAGCACAAGCTCTTTTACTTGTTCATGCTGCCCGGCATCGTCTGGTTTTTTCTATTTTCCTATGTGCCCTTATACGGAATTCAAGTTGCCTTCAGGGACTACACCTTCATAGGCGGATTTACAGGCAGCCCTTGGGCCGGGTTCAAGTACTTCGAACAATTCTTCAATTATTATCAGTCCGGGGACATCATCCGCAACACGGTCATCATCAGCCTCATGAAGCTGCTGATCGGATTTCCGATGCCGATCATTCTTGCGCTCCTGCTGAATGAAGTGCGGAAGATGAAATTCAAGAAGACGATTCAGACCCTGTCTTACTTGCCTTATTTCGTTTCCTGGATCGTGGTCGTCACCTTGATGCAGCGGCTGCTGACCCCATACGGCGGTCCGGTCAATGACCTCTTGGGGTCATTCGGGGCCGAATCGATCCAGTTCCTAAACAATCCAACCTGGTTCTACCAGATGATTGTAGGTTCCGATATCTGGAAGAACATCGGCTGGAATTCGATTATCTTTATGGCCGCCATTGCGGGCATCGACCAGCAGCTTTACGAAGCTGCCAAGATGGATGGCGCGGGGCGCTTCAAGCAGATGTGGCACGTGACGCTTCCAGGTATCCGCAATGTGGCCATCATCTTGTTCATTCTCGCGGTGGGCAATCTGATGAGCGCGGGGTATGAACAGCTCCTGCTCCTGAACGGACCGGCGACTGCCAGCATGGGCAGCGTTCTGGACGTGCACGCCATCAATTCCGGTATCCGGGAAGGACGCCTCAGCTATGCCGCGGCCGTCGGGCTATTCCAAAGCATCATCGGGCTCATCCTGGTTCTGACGGTCAATCGGATCGCCCGCAAAGTCAGCGATGTATCCCTGTTCTAA	MNKSRWTSNRIFKRIWQHKLFYLFMLPGIVWFFLFSYVPLYGIQVAFRDYTFIGGFTGSPWAGFKYFEQFFNYYQSGDIIRNTVIISLMKLLIGFPMPIILALLLNEVRKMKFKKTIQTLSYLPYFVSWIVVVTLMQRLLTPYGGPVNDLLGSFGAESIQFLNNPTWFYQMIVGSDIWKNIGWNSIIFMAAIAGIDQQLYEAAKMDGAGRFKQMWHVTLPGIRNVAIILFILAVGNLMSAGYEQLLLLNGPATASMGSVLDVHAINSGIREGRLSYAAAVGLFQSIIGLILVLTVNRIARKVSDVSLF	PGPT0017250_2059	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03055	897	araQ_35	COG0395	L-arabinose transport system permease protein AraQ	ATGAATCGAAAGTGGTCTTTCTTCTCGGTGTTTAACTACACGTTTCTCGCTTTGATCGGCTTCTCCATGATCTACCCGTTCATTTACATTTTGGCATATTCCTTGAATGACGGGAAAGATTCGATGATGGGGGCCATCTATTTCCTTCCCCGTAAATTCACGCTGGAGAATTATGCTCAGGTGTTCGATAACGCCCGCATATGGAAGGCATACCAAATTACGCTTATGCGCACCGTGCTCGGAACCTTCCTGCATGTGGTGCTGTGTACGCTCATGGCCTATGCGCTTTCCAAGAAGACGCTGCCCGGCCGTTCCTTTTTCACTTTCTACATCTTTTTGCCGACGATTTTCAGCGCCGGGTTCATCCCGTTCTTCATTACGCTGCAGAAGCTGCATCTGATCAACACCTTCTGGGTGTACGTGCTGCCGATGCTGTTCAATTTCATGCACATCGTGATCATCCGCACGTTCCTGCAAGGCATACCCGAGGAGCTGGAGGAATCCGCCCGCATTGACGGTTACGGCGATTTTCAAATCTTCGCTCGGATCATTCTGCCGCTCTCGGGACCGGTGCTGGCAACCATCTCCCTCTTCATCGGGGTGGCCCATTGGAATGATTGGTTCTCGGGCGCATACTACGTATCCAACAAAGACTTGATCCCGGTGCAGACCTTATTGCAAGAAATGCTGACCGAAGCAGAAGCATTATCCAATTCGATGCAGCGCGCAGCGCAGCAAGGTGGTCAGACGGTGGGCGGAACCAGCGGGGCAGGCGCGACGCCCGAATCGCTTCGCATGGCCTTGCTTGTCATCACGGTCTTCCCGATCCTGTGCATTTATCCGTTCCTGCAGCGATATTTCGTAAAGGGGGTTATGATCGGTTCGGTTAAAGGTTAG	MNRKWSFFSVFNYTFLALIGFSMIYPFIYILAYSLNDGKDSMMGAIYFLPRKFTLENYAQVFDNARIWKAYQITLMRTVLGTFLHVVLCTLMAYALSKKTLPGRSFFTFYIFLPTIFSAGFIPFFITLQKLHLINTFWVYVLPMLFNFMHIVIIRTFLQGIPEELEESARIDGYGDFQIFARIILPLSGPVLATISLFIGVAHWNDWFSGAYYVSNKDLIPVQTLLQEMLTEAEALSNSMQRAAQQGGQTVGGTSGAGATPESLRMALLVITVFPILCIYPFLQRYFVKGVMIGSVKG	PGPT0017255_1257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03056	1659			hypothetical protein	TTGAAGAGGATTTGGTCGAAAGGCGTATCCGCATTGCTCGTGTCCATCATGGTTGGAGGTTTGCTGATCAGCTGCACGAATTCATCAGGGAACGGAGATAACGGGGAAGGCGCAGAAGGAGAGAATTCATACAAACTCAAAATATTGCACAATTGGAACGGCTCAAACGGTTCCGATGCCATCACGCCGGTGGAGGAAGTCATCAAAGAGAAGACGGGCGTTACGCTGGAGTGGGAATATACCAAGGGCAGCGAGACGGAGAAGGTCAATCAGATCTTCGCGACCCAGGATCTGCCCGATATCTATACCGGACCTGCCTGGGGCGGGGAGCTGGACGGGATCATCAAGGCGGCCAAAGAAGGACAATTGGTCGATATCTCCGACAAATTGAAGGATTATCCGAACTTGTCCAAATCCATCGCGGAAGAAAATGTGCCGCCGGCATTGTATGAAAAAGCGATTAACGCTTACGACGGCAAAAAGTATCTGCTGCTGCAAAATCAGCCGGCGACCAACGAAGACGGGATGGACTGGCTCTACGGCTTCTATGTGCGCAAAGACATCGCCGAGAAGGTTGGCGTAGATCCGCAATCCGTCGTGACGAAGGACGATTTCTATAATTTCCTCAAAAAAATCAAGGATGCCAATCTGCAGGAGAACGGCCAGCCGGTCTTTCCGCTGGGCGGTTTCAGCAACGGCTGGGCCGTCGGCATCGGCAACACCATGTTTTATTCCGGAGCGAGTTACGTCGACAAAGGCGACGGCACGCTTGAGCATAACTTCTTCACGAAGGGCTACGAAGAATATACGCTGTTCTACCGGAAATTGGTTGAAGAGGGGCTGATGGATCCTGAAGCCTTCACCCAGACGGACCCGATCGCCAAGGAAAAAATCAATCAAGGCCGCATCGCCATCCTGGCCGCGCACTATCCGGCGATCCTGGATGCTTCCAAGGAGTATGTCTCTTCGCATCCGGGCAGCGACTACATTCCGCTCGGCCCTCTGGAGCGCGCTGACGTTGAACCGGACAGGCCCGTGGATCTCGGAATTCAGGGCAACAACGTGACGGCGATCACCAAGAACTGTAAAGGGGCTTGCGTCGATGCTGCGCTGAAATTCCTGGATTTCATGGCTTCCGATGAAGGCTTCATGCTGGCTAGGTACGGGGTGCAGGGGGTTCACTGGGACATGAAGGACGGCAAGCCTGTTGCGAATCAGGAATGGTTTGACAAATTCAGCACGGATACCAACATGAAGCTGCGCAAGAATGAAGGCATCAGTATCGGCCTGGAATCGCTGACAGGGCTTGACCGCATCAATTCCGCTGCGGGAGGAGACATCTGGGCGGAACAAGAAAGGCTGGACGCGATGGAGAATGCTCGCAAAATCCTTCGTCCGAACGGCATTCAGGTCATTACGGCGTACAACCCCGGCGATGTCATCACCAAAGCGCCGGAATGGGAAATGCTGAAGCCTTCGATGGATCGGATGGGCGATGCGTGGAAGGAAGCGGTTTTTGGCAAATCGGATGAAGCCGCCATGAGCATTATCAACGAACTGCGGGAACAGCTCCGAAAGACCGGATACGATAAGGCGATGCAGTTCACGAACGAAAATCTGAAAGGGAAAGACGTCGTGACCGTTCAAATGCCGAACTAA	MKRIWSKGVSALLVSIMVGGLLISCTNSSGNGDNGEGAEGENSYKLKILHNWNGSNGSDAITPVEEVIKEKTGVTLEWEYTKGSETEKVNQIFATQDLPDIYTGPAWGGELDGIIKAAKEGQLVDISDKLKDYPNLSKSIAEENVPPALYEKAINAYDGKKYLLLQNQPATNEDGMDWLYGFYVRKDIAEKVGVDPQSVVTKDDFYNFLKKIKDANLQENGQPVFPLGGFSNGWAVGIGNTMFYSGASYVDKGDGTLEHNFFTKGYEEYTLFYRKLVEEGLMDPEAFTQTDPIAKEKINQGRIAILAAHYPAILDASKEYVSSHPGSDYIPLGPLERADVEPDRPVDLGIQGNNVTAITKNCKGACVDAALKFLDFMASDEGFMLARYGVQGVHWDMKDGKPVANQEWFDKFSTDTNMKLRKNEGISIGLESLTGLDRINSAAGGDIWAEQERLDAMENARKILRPNGIQVITAYNPGDVITKAPEWEMLKPSMDRMGDAWKEAVFGKSDEAAMSIINELREQLRKTGYDKAMQFTNENLKGKDVVTVQMPN	PGPT0017245_1202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03057	2016			hypothetical protein	ATGACAACGAATTTCAGACCTCCATCCGTGCCGCTGGTTACCGTAGATCCTTATTTCAGTGTATGGTCCGCTGCAGACCGTCTATATGATGACCATACCCGGCATTGGACGAACAATATTCAGGGCATGACGGGAGTGGCCATCATTGATGGCGCGCCGCGGCGATTTATGGGAAAAGTTATCACACACACGGAGGAGCCGTCCGAAGGACTTGAGCCTGAAGCGCTTGAGCAAACCGATCTGACGGTTGAGCCCGTAACGACCCGGTATACGTTTCAAGGGGGAGGCATTGAACTTCAAGTTCAGTTTACCACCCCGCTCTTGCTGGATGATCTCGATCTGTTATCCCGGCCCGTCACCTATCTGACCTTTCACGTTCGTTCATTGGATGGGCAAGGGCATAACGTAAAGATTTACATCGATGTAACGGGCGAATGGTGCGTCAATACGCTGGATCAGCAGGTGAGCTGGGAGCACCGCGTGATCGACGGACGATTGAATACGATGTCGATGGGTACAGTCGAACAGCCGATCCTGCAGCTTGCCGGCGATGACACACGAATCGATTGGGGGTATATGGTGCTGGCGGTGCCGCGTTCATCGCGGATACAGACGGTGATTCATTCGGCAACGACCCGGGAGCAGTATGTTAGGACAGGTCAATTACCTGCCCAAGATGATTCGCAGAAGCCGCGCCCCGTCTCCGATAACGTTCCCGTCTTGGCAGCCGAATTCGAATGCGGGACCGTCGGGGATGAATGGGTATCCGAATATCTGATGCTAGCGTATGACGATATCCATGCGATCGAATATTTCCGCAAGCCTTTGGATGCTTATTGGAAGCGAAACGGATGGACTTTTCATGACATGCTGATAGCGGCAGCCGATCAGTATGAAACGATCATGCAGCGATGCGAGAGATTTAACCGGGAGCTCATGACGGAGAGCCAAGCCGCAGGAGGCAATCGGTACCGGGATATTTTGGCGCTGACCTATCGGCAGGCGATTGCCGCGCATAAACTGGTTGCCGACGAAGCGGGACGTGTGTTGTTCTTTTCCAAGGAGAATTTCAGCAACGGATGCATCGCGACGGTCGATGTCAGCTACCCGTCGATTCCATTGTTCCTGAGATATAACCCTGAACTGATCAAGGGCATGATGCGTCCCATTTTTAAGTATGCGATGAGCGAGGATTGGACGTTCGATTTTGCGCCTCATGACGTGGGCACGTACCCGAAAGCCAACGGTCAGGTGTATGGCGAGAACAAGCTCGAGTATCAGATGCCGATTGAGGAATGCGGTAATATGCTCCTGATGGCGGCTGCGGTATGCAAGTATGAAGGCAATGCGGATTTTGCCAGGGAGCACTGGGAGCCACTTACCGCATGGGCAGGGTATTTGCTGAAGAATGGACTCGATCCGGACAATCAGCTGTGCACGGATGACTTCGCCGGACATTTGGCGCATAATGCCAATCTGTCCATCAAGGCGATCTTGGGCATTGCCGCTTACTCCTACATGTGCGATCGACTCGGTCTAGAGGAAGGCGCAGCTTATCTCGAAGCTGCACGGAACATGGCCAATGAATGGATGTCCATGGCTGATGCTGGCGACCATTATAAGCTTACGTTCGACAGCGCCGACGATTCCTGGAGCATGAAATACAATCTGGTGTGGGATCGGCTGCTGGCGTTCAACCTGTTTCCAACAGAAGTGGCTGCACGGGAGCTGGAGTATTACCAGCATCATCAGAATCGTTACGGCCTTCCCCTGGACAGCCGCGATACGTATACGAAATCCGATTGGCTGGTATGGTGTGCAGCCATGTGCACCACGCAGGCCGGGTTTGAGTCCATGATCGCGCCCCTATGGGATTTCATGAATGAAACCTCCGCGCGTGTTCCGGTGACCGATTGGTATGACACCATCAGCGGCAAGCAAATGAACTTCCAGAATCGCTCCGTCGTCGGGGGATTCTTCATTCGATTACTCATGTCAGGATCCAGATCAAATTAG	MTTNFRPPSVPLVTVDPYFSVWSAADRLYDDHTRHWTNNIQGMTGVAIIDGAPRRFMGKVITHTEEPSEGLEPEALEQTDLTVEPVTTRYTFQGGGIELQVQFTTPLLLDDLDLLSRPVTYLTFHVRSLDGQGHNVKIYIDVTGEWCVNTLDQQVSWEHRVIDGRLNTMSMGTVEQPILQLAGDDTRIDWGYMVLAVPRSSRIQTVIHSATTREQYVRTGQLPAQDDSQKPRPVSDNVPVLAAEFECGTVGDEWVSEYLMLAYDDIHAIEYFRKPLDAYWKRNGWTFHDMLIAAADQYETIMQRCERFNRELMTESQAAGGNRYRDILALTYRQAIAAHKLVADEAGRVLFFSKENFSNGCIATVDVSYPSIPLFLRYNPELIKGMMRPIFKYAMSEDWTFDFAPHDVGTYPKANGQVYGENKLEYQMPIEECGNMLLMAAAVCKYEGNADFAREHWEPLTAWAGYLLKNGLDPDNQLCTDDFAGHLAHNANLSIKAILGIAAYSYMCDRLGLEEGAAYLEAARNMANEWMSMADAGDHYKLTFDSADDSWSMKYNLVWDRLLAFNLFPTEVAARELEYYQHHQNRYGLPLDSRDTYTKSDWLVWCAAMCTTQAGFESMIAPLWDFMNETSARVPVTDWYDTISGKQMNFQNRSVVGGFFIRLLMSGSRSN				NA	NA	NA	NA	NA
AK002_03058	3309			hypothetical protein	GTGAACAGCCTTCATGTTAAGGAAGAAATCGAAATGGATCTCATGCGGTTGAAGCAGCAATTCCAGAATCCGGACGCAACGTACCGCCCGCAGCCTTTCTGGTTTCTGAATCATGAGCTCAAGGAAGCGGAGCTGGAAAGTCAGATTCAATCGATGTTTGAAGCGGGCGTCGGAGGCGTTGTTCTGCATGCGCGCCATGGAATGCAAGCCTCATACCTGTCGCAGGCCTTTATGGAAGCTTTGGAATTCTGCACCGTGGAATGCCAAAAACGCAATATGGTCGTCTGGCTGTACGATGAGGATAATTGGCCAAGCGGGACGGTGGGCGGCAAGCTGACTCGCCAGCATCCGGAATTTCGCATGCGTTACTTACGAGTCGAGGAAAAGAGATATATCGGCGGTTCCGGGCAAGAAAGCTTGAAGCTGGATTTTGCACGCTATGAGAACAATGAGCTGATTGCCATTTTGGCCTATCGTGCCGTCGAGTCTGACGGGGAATGGCTGCTCCATGAAGCATCCGAGGATCTCACGCATGAATGGGGACGGGATTGGACGCCGCCGAATGCGGAAGACTCTTATGTCGTGCTGGCCTGCTGGTCCTGTGAAATTGCGGAAGGCATTACGTTTGCCAATGGGTACTACTTGGATACGTTGAATCCGGAGGCGGTCCAGGCGTTCATCCAGATGTCCTATGAACCGTTTCTGTCTTTGCAGAAATATTTCGGAACGACGATACAAGGCGTTTTTACCGACGAGCCGGGGCTCATGATCCACGATGGTTTCTTCGGTGTGGAAGCGATCCGGACGGCTGTTCACGATGTAGGCGCTACCCTGCCTGGCATGGTTTTTGCTTGGTCTGAAGGAATGGGTGAGCGGTACCGGCAAGAGAACGGGTATGATCTTATCCCACGATTAGGCGCTTTGCTATATAACATGGCAGACGGCAGCCGGGCAACGAAACAGCAATATTATGATACGATTACGCGCTGGTATGTGGAGGGCTATCATCAAGCGATTTCCTCATGGTGCGAAGGGCATGGACTGCTGTACATCGGCCATACGCTGGAGGAGCCGGTCTGGGGGCAAGCCAGGTCGCAGGGCAACCAGACGCGCGTCCTGCAGCAGTTTCACTATGCAGGCGTGGATTATTTAACACCCGGCATCGGCACCAAAGAGAATCCTCATCGGATCGTGTCCGTGAAGACGGCGGCTTCCGTAGCCGGGCTGGATAATAAAGAACGCGTGATCTGCGAGGCCTTTGGCGCCAGCGGTCACGGCTATTCCATGCGTCAAAGGCGGCTCGATGCCAATTTCATGGCTTTCCTGGGCGTTAATCTGTTTATCCCGCATGCGTTCTATTATTCGTTTGCGGGGTATCGGAAAACCGATTTTCCTCCAACAGAGTTCAAACATGCGCCGCATTGGCCGCATTATCGCGCTTTTGCCGATTATATCGGTCGATTGAGTCTGCTGGGCACGAGCGGTAAACGTACACCGGAGGTTCTTCTATTATCGCCTATTCATACGGTGTGCGAAAATATGTTCGCATCTGGACAATCTAACCGGTTTCCTTCATCCGATACCTTGTTCTCGCTTTTGTCGGATCGCATGCTGCGCCATTCCATTGATTATGACTATGTTGATGAGTGTCAGCTTCGCGATGCGGACCTTGTTGATGGGGAAGGGATTCGATTTAGCAACGATGGGAACGTATATTCGGTTTTGGTTATGCCCGAGGTGGAAGTCATGTCGAGGGACATTGCCGTTCTACTGGTTGCCTATGCTAAGCAAGGCGGTACGCTGGTTGCCGTAGGAGCAATTCCGCGGCATAGCGAGACCGTGCGTCAGGACCCGGAGCTGGCAAAGCAAATGCATGAGCTTTTTAGCCCGAATCCTCAGCATGGGGTTTTACGCCCCGTTGGCAAAGGGTATGCTTTATTTTATTCGTTGGAGGAAACGGACCACGAAGACACATGGATCGAGGATCATCTCGATCCCGGAGAAAAGCGGATACTTGCCGATCCAGAGATGTCCGGAGGCCGTATAAAGGAGCAAGCTCCAGATCTGCTCGAGCCCTTGTGTGAAACGGTAAGCAGGTTATTAATGAAAGCTTCTGCCTTACGATGGAAGCTGCTTGAAGGACAATATGAGGATTTGATCTATGTAGAACGCGTGTTCGGTAACCGTGTATTTGTATGGTTTATGAACTGGACGGAGCATGGCGTTGCCATGAAGCTTGACGCAGGAGAAACCGGGCACCTTATTGAAGAGTGGGACCTGGAAAGCGGGAACATACACCAGTTAGCCAGAGATTCCGTTCTTACCTTTGCACCTGGAGAACTGCGAGTTCTATCGGTCGATCCTGAGGTGAGACCGGTTAGTGATACGGAACAAATGTTCGCAGAGGTGCAAAAAACCGAGGATATTATCGTTCTCGAAGATAAGTGGCGTTTCCAATCACTTGAACCTAACGTTTTATTACTGGACCAGTGGCAGGTCACGCTGAATGACCGAAACTCCAGGATGAATGCCACGATGCCTGGGCAAGTGAACACATACCGTACCACGTTTACCGTGACGCAGGCATTGATCGAACAATTGCTATCACCGAGTGGACGAGATCGTTCTAATTCACCAGATGTCCGTCCATTGCCGAGGCTTGAGTTGATTCTGGACGATGTGGATCAGAAAATACCGGCCCATATCGGCTTCCTGCAGCGCAGGCGCAATGTTGAAATCTTCGTGAATGGGGTCAGGCAGAATGCACTGAAGCCATCCGATTGGCAGGATTCAAACTATGCTTGCCTGGATATCACGGCTCATTTGGTGGCGGGCGAGAACGAGCTCGAGATATTGACGGTTTCCTTATTGGAGCCGATGCCGGCAATTTCATTCCCAGCCTATTTGATTGGGCCGTTTGAAATAGAAGATGGGGTGAGGTTAAACGCATGTTCGGAACATATGTTTGGTTCTTGGGCTTCTGCCGGCTATCCTTATTTTGCGGGGGCGGGTGATTACTCTCAGCAGGTAGACCTGACGGAGGTCAGCTTAGCTCCGGACGAGGAGTTGTGGCTGGAAGCCGAAGATATTAGGGAGACGGCTTGCCTATATGTGAATGATACAAACGCTGGCATCCGGCTGTGGCCTCCGTATCATTGGAACATCACGCCGTATGTGGAACAGGGGCTCCATCAGCTTACCATACGTGCAGCCAATACGCTGGAGAACCTGTATGGCAAGAATGCTTTGCCTTCAGGGGTGAATGGACAGGTGAAGCTGGTACGTCGAACTTTATCCAAAGAAATGTAA	MNSLHVKEEIEMDLMRLKQQFQNPDATYRPQPFWFLNHELKEAELESQIQSMFEAGVGGVVLHARHGMQASYLSQAFMEALEFCTVECQKRNMVVWLYDEDNWPSGTVGGKLTRQHPEFRMRYLRVEEKRYIGGSGQESLKLDFARYENNELIAILAYRAVESDGEWLLHEASEDLTHEWGRDWTPPNAEDSYVVLACWSCEIAEGITFANGYYLDTLNPEAVQAFIQMSYEPFLSLQKYFGTTIQGVFTDEPGLMIHDGFFGVEAIRTAVHDVGATLPGMVFAWSEGMGERYRQENGYDLIPRLGALLYNMADGSRATKQQYYDTITRWYVEGYHQAISSWCEGHGLLYIGHTLEEPVWGQARSQGNQTRVLQQFHYAGVDYLTPGIGTKENPHRIVSVKTAASVAGLDNKERVICEAFGASGHGYSMRQRRLDANFMAFLGVNLFIPHAFYYSFAGYRKTDFPPTEFKHAPHWPHYRAFADYIGRLSLLGTSGKRTPEVLLLSPIHTVCENMFASGQSNRFPSSDTLFSLLSDRMLRHSIDYDYVDECQLRDADLVDGEGIRFSNDGNVYSVLVMPEVEVMSRDIAVLLVAYAKQGGTLVAVGAIPRHSETVRQDPELAKQMHELFSPNPQHGVLRPVGKGYALFYSLEETDHEDTWIEDHLDPGEKRILADPEMSGGRIKEQAPDLLEPLCETVSRLLMKASALRWKLLEGQYEDLIYVERVFGNRVFVWFMNWTEHGVAMKLDAGETGHLIEEWDLESGNIHQLARDSVLTFAPGELRVLSVDPEVRPVSDTEQMFAEVQKTEDIIVLEDKWRFQSLEPNVLLLDQWQVTLNDRNSRMNATMPGQVNTYRTTFTVTQALIEQLLSPSGRDRSNSPDVRPLPRLELILDDVDQKIPAHIGFLQRRRNVEIFVNGVRQNALKPSDWQDSNYACLDITAHLVAGENELEILTVSLLEPMPAISFPAYLIGPFEIEDGVRLNACSEHMFGSWASAGYPYFAGAGDYSQQVDLTEVSLAPDEELWLEAEDIRETACLYVNDTNAGIRLWPPYHWNITPYVEQGLHQLTIRAANTLENLYGKNALPSGVNGQVKLVRRTLSKEM				NA	NA	NA	NA	NA
AK002_03059	1602			hypothetical protein	ATGCAGCTAAAGAAGAAAACCATCATGGTTTTGGCGCTCAGCTTGTCCATCCTTTCGCAAGGCATGGTTGTTCATGCGAAGGCGGATGGGTCTAAGTTTAAGCCGGAAAGCAACGGCAAATGGATGACAGGGGAGTATCACGCGCATACGTATCAATCCGATGATGCCAGTCAATCCTTGCAGGAATTGCTGGACAACGGGTTCGATAAGTACGGCCTGGATTGGATCGCCGTTTCGGACCATCTTAGAGTTTCTAAACGGGATGATGAAGGAAATCCTCTTGCCGCCGGACCTGTTCCGTTCTCCCAAGGAATGGCACTGTACCAGATTCCCAAGATCCAGCAGCTTCAGATAGCAGGGAAATACAAGAACAACATTATCTTTTCGGGTTTTGAATGGGACATGCCTACATACGAACATGTGGGAGTCGGCATTATAGCAGGCGCATTGGGTTCAGAGTCGAGCCTTAAGGCAGCCCGTCAGTTCGAGTATCTATTTACGGATCGGGATGAAGCGATGTTTGATCCCAAAGACGTCGCCGATTGGAAAAAAACAGGCAGCCGGGCTTCTACGACGTCCGAAGATGCCCGAACGGCACTGGCCTGGCTCCAAAAAAACTACGCCAACAGCAGTTATGCATTGCTCAACCATCCTTCCAGAAAAACCGTTTATACGATCGCTGACATACGGGATTTCAACAACATCGCGCCGAATGTCGTATTCGGGATGGAGGGAATGCCCGGGAATCAGATGGAACCTGATCGTGGGGGGCTAAATTTAACTACGCCGGAAAACAGAACCTATGGTGGCGCTGATTACATGATTGCCAAAGTTGGCGGCGTATGGGATGCGCTGCTCGGCGAAGGACGCGAATTTTGGAACTTTGCGAACTCGGATTCTCATTTTGAGATAAGTGATAACCGTTTATACTCCAGCGGTTATTGGCCCGGACAATACGCCAAGAATTACACATGGGTGAACGGAAAGGATATGCAAAGCGTGCTGAACGGCATGCGTTCAGGCAAATCGTTCTCCGTGCACGGCGATTTAATCAACGCCTTGGATTTCCGCGTTCGCCATGGAAATAAGCAGGCCGAGATGGGGAGTAAACTTCAAGTGAAACAAGGGAATCCTATCGAAATTACGATCCGATTCAAAAGCCCGAAACAAAATAACAACGGCGACCCCGTAGCCGTGGATCATGTCGATTTGATCTCGGGTGATGTCACCGGTAAAGCACAACCAGGTACGGCGGCATACAGCAAGAGCACCAACGATTCGACCAAAGTGGTGAAACGGTTTACGAGCAAGGATTGGACAACCGATCGGGATGGATACAACGTGATCACATATCGGACGAAAGCTACAAAGGACCAATATTTCCGGTTAAGAGGAACGAACCTTGGCGTGAATGTTGCCGGTGAAACCAGCCATGGCGATCCGCTCATGGATCCGAAAACGGACATTGAAGACAACGAGCAGCGATTTGCGGAAATAAATAAACGGAATTACAGCGACCTGTGGTTTTATTCTAATCCGATCTTTGTCAGCGTTGACGATAAGCCGGTTAAAGCTCCTAAACAACTGGCGAAGCATTCGTAA	MQLKKKTIMVLALSLSILSQGMVVHAKADGSKFKPESNGKWMTGEYHAHTYQSDDASQSLQELLDNGFDKYGLDWIAVSDHLRVSKRDDEGNPLAAGPVPFSQGMALYQIPKIQQLQIAGKYKNNIIFSGFEWDMPTYEHVGVGIIAGALGSESSLKAARQFEYLFTDRDEAMFDPKDVADWKKTGSRASTTSEDARTALAWLQKNYANSSYALLNHPSRKTVYTIADIRDFNNIAPNVVFGMEGMPGNQMEPDRGGLNLTTPENRTYGGADYMIAKVGGVWDALLGEGREFWNFANSDSHFEISDNRLYSSGYWPGQYAKNYTWVNGKDMQSVLNGMRSGKSFSVHGDLINALDFRVRHGNKQAEMGSKLQVKQGNPIEITIRFKSPKQNNNGDPVAVDHVDLISGDVTGKAQPGTAAYSKSTNDSTKVVKRFTSKDWTTDRDGYNVITYRTKATKDQYFRLRGTNLGVNVAGETSHGDPLMDPKTDIEDNEQRFAEINKRNYSDLWFYSNPIFVSVDDKPVKAPKQLAKHS				NA	NA	NA	NA	NA
AK002_03060	1674	rnjA_1	COG0595	Ribonuclease J1	ATGAATATAGCTGAAAAGAAACTGCTGGTCGCCGCGCTTGGCGGTGTGAATGAAATTGGCAAAAACATGTACTTCATACAGTACGATCAAGATATTGTGGTGATTGATTGCGGCTCGAAATTCCCTGACGAAAACCTGCCCGGCATCGACTTGATTGTACCCGACTTCACCTATTTGCTGGACAACGCGGATAAAGTCAGAGCCCTTGTCGTCACTCATGGACATGAAGACCATATTGGTGGAATTCCCTATTTACTGAAGCAGCTGCCGATCCCGGTGTATGGGACGAAGCTTACGATTGAGCTGATTAAAATCAAGCTTAAAGAGCATCGTATTCTGCGTAATTCCGAGCTCCACACGATCGATGCGAATTCCACTATTCAAGCGGGTGCCATCCATGCCTCTTTTTTTTCGACCAGTCACAGCATTCCGGATTGCGTGGGCATCGTTTTTCAAACTCCGGAAGGCAATGTCGTCCACACGGGAGATTTTAAATTCGACATGTCTCCTGTGAAGGGACCTTATCCTGACCTGCACCGAATGGCAGAAATCGGCAAGCAGGGCGTGAAGGTGCTGCTATCGGAAAGCACAAACGCCGAAAGACCCGGGTTTACCCCTTCGGAACGCTTGGTTGGCGGTCATATCCTGGAGGCTTTCGCCCAGGCCAAACAGCAGGTATTCATCTCCACATTTGCTTCGAACGTCAACCGTGTCCAGCAGATCATCGATGCCGCGGTAGAAACGGAACGGAAATTGATTCTGCTCGGCCGGAGCATGGTTAATGTCGTTGCGGTGGCCAAGGAGCACGGGTATCTCAACATGCCCGATGATTTGCTGATCGATGCTGGAGACAGCGAGCGTTATCCGCCGGACCAAATCGCAGTGTTATGCACGGGAAGCCAAGGGGAGCCTATGGCAGCCTTATCGCGGCTAGCCAACTCCAAGCATCCCCATATCGAAATTCTGCCGGGCGATACCGTCATTATTGCGGCAGGGGCGATACCGGGTAATGAGCGGAATCTGGCTCATGTCATCGATAATTTATATGTGCTGGGAGCCCAGGTCATTTATGGATCGGGTGTAACTTCTGGGATGCATGTATCCGGACATGGCAGCCAAGAAGAATTGAAGTTGATGCTCACCTTAATGAAACCGGACTATTTGCTCCCCGTTCACGGTGAATTCCGAATGCTCTATCAGCATCGTCAGCTGGCAGAGTCCGTGGGGATCCCGAATGAGAACGTGTTTATCGTTCAGAATGGCGATACGATACAAATCCAGCAGGGAATGGCATCGTTAGGTCCTAAAATCCCTTCAGGCAACAGCCTAGTGGACGGATTGATGATCGGCAACGTAGGCAATATCGTTTTGCGGGACCGCAGGCAGCTGTCCTCCGACGGGATGCTCATTATCGTCACCACGCTCAGCAAAACGGAAAAGCAGATGGTGGCCAAGCCCGAGCTTATATCCCGGGGTTTTATCTTCGTGAAAGATTCGGAGGAATTCATGGGTCAGATCCACGATATCGTCTCGTCTTCAATGAAGGATTTGACTGAAACCGGATCCACCCAATGGAATCTGATCAAGCAAACCTTGAAGGATCATGTCGGCAAATTCATATACAGTGAGACCAAGAGACGGCCGATGATTCTGCCCATCATTATCGAAGTTTAA	MNIAEKKLLVAALGGVNEIGKNMYFIQYDQDIVVIDCGSKFPDENLPGIDLIVPDFTYLLDNADKVRALVVTHGHEDHIGGIPYLLKQLPIPVYGTKLTIELIKIKLKEHRILRNSELHTIDANSTIQAGAIHASFFSTSHSIPDCVGIVFQTPEGNVVHTGDFKFDMSPVKGPYPDLHRMAEIGKQGVKVLLSESTNAERPGFTPSERLVGGHILEAFAQAKQQVFISTFASNVNRVQQIIDAAVETERKLILLGRSMVNVVAVAKEHGYLNMPDDLLIDAGDSERYPPDQIAVLCTGSQGEPMAALSRLANSKHPHIEILPGDTVIIAAGAIPGNERNLAHVIDNLYVLGAQVIYGSGVTSGMHVSGHGSQEELKLMLTLMKPDYLLPVHGEFRMLYQHRQLAESVGIPNENVFIVQNGDTIQIQQGMASLGPKIPSGNSLVDGLMIGNVGNIVLRDRRQLSSDGMLIIVTTLSKTEKQMVAKPELISRGFIFVKDSEEFMGQIHDIVSSSMKDLTETGSTQWNLIKQTLKDHVGKFIYSETKRRPMILPIIIEV				NA	NA	NA	NA	NA
AK002_03061	951	lacF_16		Lactose transport system permease protein LacF	TTGTCATCCACCCCAGAAGGGAAATGGACTGCGGAACATGGAAAATGGGCAAAACGAAAGTTCAGATTTACGCGCAATGACTGGATGGGCTATCTATTCAGCGCCCCTCTGATTATCGGCGTCATCGTATTTGCCATTTATCCCATGTTTGCCGCACTGTTTATGAGTTTTCATCAGACATCCGGGCTCAATTTATCCGGGAACTGGGTGGGCCTGAGCAACTATCGTTACGCATTAGAGGATTCCTTATTTTGGCAAGCGCTTACAAATACGTTCGTCATGGGGATATGGTCCGTATTGCTAGGGATCGCGCTTTCGTTTGTTCTGGCAAGCCTGATTAATAATCTGAAATGGCATCTGGGACGCAATTTTTTCAAAGCGGTCTATTTTCTGCCCAACGTCGTGTCCGGCGTTGCTACAAGCTTGTTGTTCTCCTTCTTGTTTTTCCCCTCCAAGGAAGGGCTGATCAACTTCGTGATTGGATTGTTCGGCATCGATCCGGTCGGCTGGTTCACGAACCCGGAAGTTGCGCGTTACAGTATCGTGCTGATGAGCTTGTGGGGTGCACTAGGGTATAACACCATTATTTTTCTGGCCGGTTTGCAAAGCGTCCCGCGGGATCTCTATGAGGCAGCCGAGGTCGACGGTGCAGGCACGTACCGGAAATGGTGGTATATAACGATTCCATACTTGCGTCCGATCTTTGTGTTCATGCTCATCATGGGAACCATCGGCGGAATGAAGCGGTTTACGGATGTATGGTTAATCGGCGGAACCGCAGGTAATCCTGGGGGAAGCTTGATGACCGTGGTGCTGTATATTTACCGAAATGCATTTCTCTCTTCGCAGATGGGGCTGGCTACGGCCGTATCCTATCTGTTATTCGTCATCATACTCATCTTAACCGTGTTCCTCATGCTGCTCAACCGACGTAAAGACAGCTTGGATTAA	MSSTPEGKWTAEHGKWAKRKFRFTRNDWMGYLFSAPLIIGVIVFAIYPMFAALFMSFHQTSGLNLSGNWVGLSNYRYALEDSLFWQALTNTFVMGIWSVLLGIALSFVLASLINNLKWHLGRNFFKAVYFLPNVVSGVATSLLFSFLFFPSKEGLINFVIGLFGIDPVGWFTNPEVARYSIVLMSLWGALGYNTIIFLAGLQSVPRDLYEAAEVDGAGTYRKWWYITIPYLRPIFVFMLIMGTIGGMKRFTDVWLIGGTAGNPGGSLMTVVLYIYRNAFLSSQMGLATAVSYLLFVIILILTVFLMLLNRRKDSLD	PGPT0016535_2530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_03062	870	araQ_36	COG0395	L-arabinose transport system permease protein AraQ	ATGAGCAGTTCAGCCTTGCCCAAGGAGCATGTGCGCCGTAAACGTATCACACCTCAACAGCTGATCCTGACACTGGTTCTGTTGGTAGGTTCATTCATCATGATAGTGCCATTCTTATGGATGCTGGTAACGAGCTTCGATTGGGCTGCACGATTAAACATTTCGTTTCCACCGAAAATATGGCCGGAGGAGCCTTCGATCCGAACCTATGAAGCCGCTTTCACCAACATCAATATGTTTCGATATATCGGCAATTCCACGCTTGTCAGCGCAGGGGTCATTATCATCAGCTCGTTGTCCGCACTATTATCCGGTTATGCCTTATCCAAGCTTCGCTTCAAAGGAGCTAATTTCGTACTGCTGCTGGCGTTAAGTACGATGATGATTCCGTTCGAAATGACCATGATTCCGCAGTATCTTTTGTTCAGTAAACTTGGGTTGGTCGACAATTATCTGGCATTTTATTTGCCGGCCATGAACTATGCGTTCGGTACTTTTTTAGCCAAAGCGTTCTTTGATCAATTGCCCAGCAGTTTAAGGGAAGCGGCCGTACTGGATGGAGCTAAGGAAATTACGGTATTCAGCCGGGTTTATCTGCCGCTGTGTACGCCGATTATCGCCACCATGATCATTCTGCTGTTCTTGGGCGTATGGAACGATATGCTGTGGCCGCTGCTGATCTTGAAATCGGCTGCCAAGTACACGATCCAGATCGGTTTAGCCATGTTTACGTACAACAACGGTATTAACCAACAGCCATCCATTATTATGGCGGCCACAACCACGAGTCTCATTCCGGTTATCGTCGTCTATATGTTCCTGCAGCGCTATATTATCGAAAGCATTGCGCTGTCCGGTATCAAGCAGTAA	MSSSALPKEHVRRKRITPQQLILTLVLLVGSFIMIVPFLWMLVTSFDWAARLNISFPPKIWPEEPSIRTYEAAFTNINMFRYIGNSTLVSAGVIIISSLSALLSGYALSKLRFKGANFVLLLALSTMMIPFEMTMIPQYLLFSKLGLVDNYLAFYLPAMNYAFGTFLAKAFFDQLPSSLREAAVLDGAKEITVFSRVYLPLCTPIIATMIILLFLGVWNDMLWPLLILKSAAKYTIQIGLAMFTYNNGINQQPSIIMAATTTSLIPVIVVYMFLQRYIIESIALSGIKQ	PGPT0016540_3744	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_03063	1380			hypothetical protein	ATGAAAAAAGCTGTGCTGCTGATCCTGTCATTCGTGCTGGTGTTTACATTGGCGGCTTGTTCAGGCAGTTCAGGTAAAGATGTGACAGGCGGCGTTACAATTGAAAAAGTATCGGATATGGAAGGAACGGTTCGCGTTGCGCTGGCAGGCTGGCAGCTGGATAACGGGATCGATGCGCTGACAGGCAACCCGACCATCGGACTCAACGAATATTTGGATAAAACGTTCAAAAAAATGTATCCGAACATCAAACTGGAGGTTTATCAAATCCCTTGGGAGAACGTAAAAGCCAAACAAACGGCCATGCTGCTCTCCGGCGATGCGGATGTCTTGTATACCGGGGGAGCCTTTGCATCGCAATGGTACCAAGAAGGGCTGCTGCGTGACCTGGACGACTTGATTGCAAAAGATACTTCGTTTGACCCAAGCATCTATTTGGAAGGCATTATGAATAATTCCTACAGCACCAAGTCGCCGGACGGAAGCAAACAATTTGGAATTCCTGCCGTTCTTGGCCGCCGGATGACGATTTATGATAAGAAGCTGTTTGAAGACTGGGGCGTTGAAACACTCTCGGCACAGCCGGGACCGGATGAAATTCTGGAGAAAGCCAAGCAGATGACCGGCAAAAACCCGAAAACCGGTGAAGACAATTTCGGTTTGTATTGGAGCGGCAACTCATTAAACGGATCTACCTTTGTTGCATTAACCCTTGCATATGGCGCCAAAGGAGCGGAAGGGTCACTGAAGGATATCAAGAACATCAAGTGGCACCTGAATTCTCCGGAAATGGTCAAAGTGCTGGAATGGCTGAAGGAGGCCGCACAGCTGCCACCGGCCGGGTTCGTGAATGCCCAGGGTGCCGAGAATTTCGGGCTCGAGAAAAACAATATTGCCATCGCGCTGGATTCCACCGGCGGCTCCACGATGAGTGAATACCGGTCGAAGCAGAACAAGGAGCTGCTGGACCGTTTTGAACCTGTGCTGAACATGGGTCCTAAAGGCGAAGGCTGGGTGGCGGTTGACCCGTTCATCATGGCAAAGAACGCCAAAGATGTGGATGCATCATGGGAAGTATTAAAGTTCTTGACCAGCTACATGACGCAAAAATACATGTATGAGAACTTCTCCAGTACCCCGACACTTAAAAACGCTGATTTCGTAACTCCGGAGGATAAGTTTGTGAAAAAAGCTCTCGAAATCGCAGATGTTGGCCACTCGGAGCTCATGGATGAAGCCAATCCGTTCTATATGAGCGACATCGCTCCAGCCATAAACGGATTTATCAGCCAGGCGGCGTCCGGTAATGCTCCGGATATTCAGAAGTTTCTGGATGATCTGCAGGCTCGTGCCGAGAAGTGGTCTGCGAATCTGAAGTAA	MKKAVLLILSFVLVFTLAACSGSSGKDVTGGVTIEKVSDMEGTVRVALAGWQLDNGIDALTGNPTIGLNEYLDKTFKKMYPNIKLEVYQIPWENVKAKQTAMLLSGDADVLYTGGAFASQWYQEGLLRDLDDLIAKDTSFDPSIYLEGIMNNSYSTKSPDGSKQFGIPAVLGRRMTIYDKKLFEDWGVETLSAQPGPDEILEKAKQMTGKNPKTGEDNFGLYWSGNSLNGSTFVALTLAYGAKGAEGSLKDIKNIKWHLNSPEMVKVLEWLKEAAQLPPAGFVNAQGAENFGLEKNNIAIALDSTGGSTMSEYRSKQNKELLDRFEPVLNMGPKGEGWVAVDPFIMAKNAKDVDASWEVLKFLTSYMTQKYMYENFSSTPTLKNADFVTPEDKFVKKALEIADVGHSELMDEANPFYMSDIAPAINGFISQAASGNAPDIQKFLDDLQARAEKWSANLK	PGPT0016545_1785	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_03064	969	yteP_32	COG4209	putative multiple-sugar transport system permease YteP	ATGAGGTTTTTGATTAAAACTGAAGTGCAACAACCACACCAAGAAAAGCCGGCTGCCGCCCGTTCCCTCTCCCGTGCCAGAACGCTCTGGAAGAACTGGGAGCTGTATCTGCTCATCCTTCCTGTTGTGGTATATTACATTATTTTTCATTATGTACCCATGTATGGAGTGCAGATCGCCTTTAAAGACTTCATCGCATCAAAAGGGATTACCGACAGTCCTTGGGTAGGCTTTAAACATTTTGAACGCTTTTTTGACAGCTACTATTTTGAGAGATTGATTATGAACACCCTGGAGATTGGACTTTATGAGCTAGCGGTGGGCTTCCCTGTCCCTATTCTGCTGGCACTCATGATCAACGAGGTAAGAAGTAAGCGCTTTAAAAAGACCATTCAAACGGTAACCTATGCCCCCCACTTTTTGTCTACTGTCGTGCTTGTCGGTATGCTATTCATCTTCCTGGATCCGAATTCCGGTATGATCAATACGATCATCCGATTGTTTGGCGGTGACCCGGTTGCCTTCATGACTCAACCCGGATGGTTCAAGACCATTTATGTCTTTTCAGGTGTCTGGCAATCCATGGGCTGGAGTTCCATCATTTATTTAGCCGCCCTAACCGGCATCGATCCGCAGCTTCATGAAGCAGCCAAGGTGGACGGCGCCTCTCGTTTAAAACGAATATGGCACATCAATCTGCCTGGCATTATGCCAACTATTATCATTTTGCTTATTATGAATGTCGGCTCCATTATGGCTATAGGGTTTGAGAAAGTCTTCCTTATGCAAAATGATCTTAACCGGGACAGCTCAGATGTTATCGCGACATATGTGTACCGAAGCGGGATTTTAGGCGCCCAGTACAGCTTCTCTGCTGCCATCGGACTGTTTAATTCGATTATAAACTTCATTTTGCTCGTTACGGTCAACTTCATATCCAAAAAGGTGGGACAAACAAGCCTATGGTAA	MRFLIKTEVQQPHQEKPAAARSLSRARTLWKNWELYLLILPVVVYYIIFHYVPMYGVQIAFKDFIASKGITDSPWVGFKHFERFFDSYYFERLIMNTLEIGLYELAVGFPVPILLALMINEVRSKRFKKTIQTVTYAPHFLSTVVLVGMLFIFLDPNSGMINTIIRLFGGDPVAFMTQPGWFKTIYVFSGVWQSMGWSSIIYLAALTGIDPQLHEAAKVDGASRLKRIWHINLPGIMPTIIILLIMNVGSIMAIGFEKVFLMQNDLNRDSSDVIATYVYRSGILGAQYSFSAAIGLFNSIINFILLVTVNFISKKVGQTSLW	PGPT0017250_814	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03065	885	melC_10	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGGTAAAGGAATCTGCGGGCGACCGCCTCTTTGACATCATCAACTATATTCTTCTGGCCATCGTACTGATCATTGTTCTGTACCCTCTCATCTTTGTGGCCGTTGCGTCTATCAGCAACCCGGCTGCCGTTGTGAAAGGAGAGGTATGGCTTCTGCCCAAGGAAATAAATTTCACGGGTTATGAAAAAGTATTTGCGAACAAGGAAATTCTGAACGGTTATATGAACACAATTCTCTATACCGTTGCAGGCACGATCGTGAATGTTGGGATGACCATATTGGCTGCCTATCCCCTGTCGCGAAAAGATTTTCGCGGGCGGAATATCTTCACTGCGCTTTTTGTTTTCACCATGTTCTTTAGCGGCGGTTTAATTCCAACTTATCTGATCGTTAAGGACCTCGGGATGACCAACACGATGTGGGCACTGATTATCCCTAATGCGGTGGCTGTCTGGAATATAATTATTATGCGCACCTTCTTCCAGCAGAGCATTCCATTTGAAATTCAGGAATCGGCCCAAATTGACGGCTGCGGTAACTTCAAAATTTTGCTGAGAATCATCCTACCTCTCTCGATGCCGATTTTGGCTGTCATGACCCTTTTTTACAGTGTTGCTCACTGGAACTCCTTCTTCAGTGCATTAATCTATCTGACAGAGAGGGACAAATACCCGCTTCAGCTTTTTCTTAGAGAAATTCTAATTCAGAGCAATATGCAAGATATGATTCAGACTAGTGAGGAGTCGCTAGCCAAAACGATTATGGAGGCGGAGTCGATCAAATACGCACTTGTCATTGTGGCCAATCTGCCCATTTTACTACTGTATCCATTTCTTCAGCGCTATTTTGTTAAAGGCATGGTCATCGGAGCTATCAAAGGTTAA	MVKESAGDRLFDIINYILLAIVLIIVLYPLIFVAVASISNPAAVVKGEVWLLPKEINFTGYEKVFANKEILNGYMNTILYTVAGTIVNVGMTILAAYPLSRKDFRGRNIFTALFVFTMFFSGGLIPTYLIVKDLGMTNTMWALIIPNAVAVWNIIIMRTFFQQSIPFEIQESAQIDGCGNFKILLRIILPLSMPILAVMTLFYSVAHWNSFFSALIYLTERDKYPLQLFLREILIQSNMQDMIQTSEESLAKTIMEAESIKYALVIVANLPILLLYPFLQRYFVKGMVIGAIKG	PGPT0017255_1907	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03066	1638	lipO_17	COG1653	Lipoprotein LipO	ATGAGAAAGTCCATGAATCTGTTTCAATCCGGTCTCAAAGTAACGCTGGCTGCCATCATGTCTTTTTCCATCCTGGCGGGCTGCAGCGGCGGAGGTTCTGATGGACCTGCGGAGGGAGAAGCTCCAGAAGCTTCAAACAACTTTAACCCAACGGGTCTGCCGATTGTTAAGGAACCCGTCACGTTGAAGATGATTGCCGGCAAGGCGCCGACCACGGCACCCGACTGGAACACGACAATGCTATGGCAGGAATATGATAAAATGACCAACATCAAAGTCGAATGGGAAATGGTTCCGAATGACACGATGACGGAAAAGCGTAACATTTTGCTTGCTGGCGGCGATTATCCGCACGCCTTTTTCACGGCAGGCATTCCGCTGGCTGATCTTCAGAAATATGGTCAACAGGGCATTTTCATCAAACTCAATGATTTAATCGATCAACATGCACCAAATTTGAAAGCGCTTTTAGAAAAATACCCTGACGTAAAAAAAGGACTTACGATGCCGGACGGCAACATCTACTCCTTCCCTGGCGTTTACGACCCCGAATTTAAATCTGTGCTCTCTTCTGCAAAAATGTGGGTCAAACAAAGCTGGCTGGATGAACTTGGCCTGAAGGAGCCTCAAACGACGGATGATTTTTACAACATGCTGAAAGCTTTTAAAGAAAAGGATCCGAACAAAAACGGACAACAGGACGAAATTCCTTACATGGGTGTCGGCGTCGATAGCCTGATGAACTATTTAAAGGGCTCTTGGGGCCTCAGCAATCACGGAATCCGTAATGCCAATGTAGATCTCCAGCCGGGAACCGAAGAACTCCGCTTTATTCCAACCGACCCGAAATATAAAGAAATGTTGGAGTACATGAACAAGCTGTATAAGGAAAAATTGATCGGAGAGGACGTTTTTACTGTCCAAGCTAATCAATATTATGCTAAGGGTGCGGAAGGTGTTTATGGAGCAACCATAACGACGAGTCCTTATACTTTGATGAACCAGGATGATTATATTGGAGCCACCGCATTAAAAGGGCCGCACGGCGACCAAATCTGGGCTGCAATCGGTTCACCCCTTGCTACTCCTGGTGCTTTTGTCATTACCGACAAAAATCCAAACCCGATTGAAACGGTTCGCTGGATTGACTACCTGTACGGTGAAGATGGCAGCAAAATGTTCTTCATGGGCTTTGAAGGAAAATCTTATAATGTCACGGCAGACGGACAGTTTGAATATACGGATGAAATCACCAAGAACCCGAGCGGACTTACATTCGAGCAAGCATTGATTAAGTATGTTGTATGGCCGGGCGGCGGTTATCCGAATGTTGTCCAAGAGAAATTTTTCAAGGGTGCGGAGAGCCGGCCGGAAGCAGTTGAAACCGCTGAAAAATACGATCCATATGTTCCTGAAGAAGTATGGCCCGCCTTCTCTTTTACAGCCGAGGAAAATGAGGATATGGGCACGCTGGGAGCAGACATCAACAGCTACGTAACAGAGATGAGAGCCAAATTTGTTTCCGGCAGCGCCTCCTTCGATGAGTGGGATAACTACGTAAGCACTATAAACCAAATGGGCCTAGAGCGCTATATGGAAATTTACAAGAATGCGTATAATCGTTATAAACAGGATTAA	MRKSMNLFQSGLKVTLAAIMSFSILAGCSGGGSDGPAEGEAPEASNNFNPTGLPIVKEPVTLKMIAGKAPTTAPDWNTTMLWQEYDKMTNIKVEWEMVPNDTMTEKRNILLAGGDYPHAFFTAGIPLADLQKYGQQGIFIKLNDLIDQHAPNLKALLEKYPDVKKGLTMPDGNIYSFPGVYDPEFKSVLSSAKMWVKQSWLDELGLKEPQTTDDFYNMLKAFKEKDPNKNGQQDEIPYMGVGVDSLMNYLKGSWGLSNHGIRNANVDLQPGTEELRFIPTDPKYKEMLEYMNKLYKEKLIGEDVFTVQANQYYAKGAEGVYGATITTSPYTLMNQDDYIGATALKGPHGDQIWAAIGSPLATPGAFVITDKNPNPIETVRWIDYLYGEDGSKMFFMGFEGKSYNVTADGQFEYTDEITKNPSGLTFEQALIKYVVWPGGGYPNVVQEKFFKGAESRPEAVETAEKYDPYVPEEVWPAFSFTAEENEDMGTLGADINSYVTEMRAKFVSGSASFDEWDNYVSTINQMGLERYMEIYKNAYNRYKQD	PGPT0017245_1512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03067	2319	rhaS_5		HTH-type transcriptional activator RhaS	ATGCGCATGATCAAAAGCCAGCGATTCTACCGATATTTTTTGTCATACATATTAATAACGGTAATTTCTCTGTCGATCATGAGCGGTGTAGTATACAACCTGGTATTAAGTTCTATGCGTGATGAAGTCCGCCACGCCATGATAAATTCACTCGATCAGTTCCGGAATGCCCTGGATCAGAGGATCCAAGAAATGGACCGGATGGCGCATCAGATTTCGAAGCATACAGATCTCACTCCGTTTAAAACAACGTCAACAGGCTACGGCGCCTACCTAGCGATCGATGAATTGAAACAGTTCCTCACCACCAACCGTTTTATTTCGGATATTGTCATCCATTATAACAGCCGCAAAGTAGACACCCTCTATGCCGCCAGCGGGACCTATGATATTAACCATTTTTTCAACGATATCTTTCGTTTTAAAAATTGGGACCAAAATCAATTTCTAATTGATAGCGCTTCCATATTATCGCCAGTCATGCGTCCAATGGATGCATTGCTCGTAAATCAGGTTGCAGAACAGAACTATGTCGTTTATTCGGTCCCATTGGTAGCCAGTGCCGATACTCCTTACGGTACAGTCATGTTTCTTATTCCTGAAAAATCTTTTAACCAGCTTGCCGCTAATGTCCTTGGCGATTATAACGGTTCCGTGTATATTTTGGGTGACCAGGGCCAGAATCTCTATACCTATAACCGCGGCACAGCTGATGCCGGCCTGATGAATACTTTAACAGGTATGATGCCCGGAACCCAAAACCCCTGGAGCATTAATCATATACATTACCAGAATCAGGAGTACACGGTTACCAAAAAGGATTCCACAGCAAGGAACTACCGCTACCTCGCAGCCCTTCCATCGGATCAGATTATGTATAAAGTGGATCAAGTAAAAGACATTTATAACCTGACGGTATTTGGCATCTTTATTTTCGGTGTGGCTTTAGCCACTGCCCTATCGGTTCGGAATTATAAACCACTTCAGAAGCTTATGGGTGTGATTGCTGCCCAAAATCCGGCTTCACAGCTGCCTACACCGTCAGGCAAAAAGGACGAACTGGATGTTATCTCAACCGCTGTCGCAAATATGATCCGCGAAAATGAAGGGATGATCCACCAGCTGCATCATCAAGCTATTTCACTCCGGGAACAATTCGTACTCTCTTTGATCCGGGGAAAATACAAGACTAGAGAAGAAATTAATAGCTACCTGCATTCCGCAAACCTGCCGATGTATGATCCATTCTTTGCCGTCTTTTTGTTATATATCGATGATTATGAATCATTCCGTGCAGAATATTCAGACACTATGCAAAGCCATCTTAAAGACAGCCTCATAAAGGTCCTGGAGGAAGGGGACGACGGTATCGGTCAAGGCTGCGGCGCAGAGCTCTTAGACGGACGCAGCATGGTCTTCGTATTGAATTTGAAAGACGGCCAGGATACAGAAGCTATTCTGCGTGAATACGCCGAACAAGTTATGTCTCTCATCCGGCATTATTTCCGATTTACCGTCACAATTGGTGTTGGATGCACTTATCCGGAGGTTAATCAGATTTCACAGTCCTTTATCGAAGCAAACCATGCTGCGCGCTATCGGCTGATGCATGGCGGCTGTCGGATCATTTATTACCCTGACATTGACCAAAACCATGTAACCAAGCGGTCTTATCCTGTTGAGATTTTGGATCAGTTGGTAAAATCCATTCGACAGGGCGATCAACTGGCGGTGATAGATGCGGTTCAAAAAGCCATGACATACATCCGTGATCAGAACATGAGTGTGGAAGTCGCTTTGTTTATCTGCTTTGATATCGTTAATAATGTGGCCAAAACGCTCATGGAGTTGGAGATCGAACTTGATGAAGCAACCAACGAGACATTAGGTAAACTATTCGTTCCCCATCTGGAAACGATTGAGGAGTTGGAGCGATTAATCACTGACATCTGCCTTCGAGTCTGCATTACCACCAGCAGTAAGAAAGAAAGCGGGAATACAGAACTGCTTGATGAGATTAAAGCATATATTGAGGAAAACTACAAAGACCACTCACTCTCTCTAAAATGCATTGCTGACCAGTTCGGCATATCGGCTTCTTATGCTACTCGATTCTTCAAAAACCAGACCGGTGAACCCCTAATGCGTTATATTGATTGCTTGCGAATGCAGGAGGCTAAGCAGTTGTTAAAAACAACTGACCTTACGCTGAAAGATATTCTCTACGAGGTTGGTTATATTGATTCCACTAACTTTATTCGTAAATTCAAACGAAATGAAGGTCTGACGCCTATTCAGTACCGCAATCTTATGAATTAA	MRMIKSQRFYRYFLSYILITVISLSIMSGVVYNLVLSSMRDEVRHAMINSLDQFRNALDQRIQEMDRMAHQISKHTDLTPFKTTSTGYGAYLAIDELKQFLTTNRFISDIVIHYNSRKVDTLYAASGTYDINHFFNDIFRFKNWDQNQFLIDSASILSPVMRPMDALLVNQVAEQNYVVYSVPLVASADTPYGTVMFLIPEKSFNQLAANVLGDYNGSVYILGDQGQNLYTYNRGTADAGLMNTLTGMMPGTQNPWSINHIHYQNQEYTVTKKDSTARNYRYLAALPSDQIMYKVDQVKDIYNLTVFGIFIFGVALATALSVRNYKPLQKLMGVIAAQNPASQLPTPSGKKDELDVISTAVANMIRENEGMIHQLHHQAISLREQFVLSLIRGKYKTREEINSYLHSANLPMYDPFFAVFLLYIDDYESFRAEYSDTMQSHLKDSLIKVLEEGDDGIGQGCGAELLDGRSMVFVLNLKDGQDTEAILREYAEQVMSLIRHYFRFTVTIGVGCTYPEVNQISQSFIEANHAARYRLMHGGCRIIYYPDIDQNHVTKRSYPVEILDQLVKSIRQGDQLAVIDAVQKAMTYIRDQNMSVEVALFICFDIVNNVAKTLMELEIELDEATNETLGKLFVPHLETIEELERLITDICLRVCITTSSKKESGNTELLDEIKAYIEENYKDHSLSLKCIADQFGISASYATRFFKNQTGEPLMRYIDCLRMQEAKQLLKTTDLTLKDILYEVGYIDSTNFIRKFKRNEGLTPIQYRNLMN				NA	NA	NA	NA	NA
AK002_03068	753	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCAAAACAAATCTGTTGCCTTAGTCACCGGGGCTAATCAAGGAATTGGTCTTCAGATCGCAAAGGATCTCGTGGCACACGGCTTCACTGTACTGGTCGGGTCGCGCAATATAGAACGCGGCGAGGCTGCGGCCAAGGAGGTTGGGCCGGATGCACACGCGCTCCAGCTCGACGTGACGGATCAGGCTTCGATCGCCGCAGCGGCGGAGCGCATCCGGAGCGAAATCGGACGTCTCGACGTGCTCATCAACAACGCGGCCATCTCGCACGCGGGCAAGCCGGGCAGATCGCCCGAGGAGATCACGAAGTCGAGCCTCCCGAGCAACGTGTCTCTCGATGAAGTGCGTGCGGTGTGGGAGACCAACGTATTCGGCGTCCTCGCCGTTACCCAGGCGATGCTACCGCTCCTACGCGAGGCGCCAGCAGCCCGCATTGTCAACGTGTCGAGCGGCGTTGGCTCGCTGACGTTGAATTCGGACCCGTCGTTCCCCTTTCGTTCGCACTTCAGCCCTGTCTACCCTGCGTCCAAGACAGCTCTCAACGCTATGACGCTCGCCATGGCTATCGAGCTGGAGCCGACTGGAATCAAGGTCAACGCCGTCTCCCCGGGCTACACCAAGACGAAATTCAACAACTATACGGGCACGGAGACTGTCGAGGAGGGCGCCAGCGAGGCGGTTCGCGTTGCGCTCCTTGGCTCGGAAGGCCCGACAGGTACGTTCACGCACGCAAACGGAACGTACCCGTGGTAA	MQNKSVALVTGANQGIGLQIAKDLVAHGFTVLVGSRNIERGEAAAKEVGPDAHALQLDVTDQASIAAAAERIRSEIGRLDVLINNAAISHAGKPGRSPEEITKSSLPSNVSLDEVRAVWETNVFGVLAVTQAMLPLLREAPAARIVNVSSGVGSLTLNSDPSFPFRSHFSPVYPASKTALNAMTLAMAIELEPTGIKVNAVSPGYTKTKFNNYTGTETVEEGASEAVRVALLGSEGPTGTFTHANGTYPW				NA	NA	NA	NA	NA
AK002_03069	348	ytcD_4	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAAAGTTTATTACTGTAACCTTGAAGTTACGTTGGAGGTAATTGGAGGGAAATGGAAAGGACTAGTTTTATATTATTTGATACATGGTCCAAAACGAACGAGTGAGTTAAAGCGGCTTGTGCATAATATTTCTCAAAAAATGCTTATCCAAACCCTTAGAGAATTGGAAGCTGATGGACTTGTAAGCAGAAAAATGTTTAATCAGGTCCCTCCGAAGGTCGAATATTCGACCACAGAGCTTGGGCAATCGCTTGAACCGATTCTAAGAGCGCTTTGTCAATGGGGTGACGGTTATGCCGATAAAACATTCACTGAAGGAGAAGTGCAAATTTTGCATATCGATTAA	MKVYYCNLEVTLEVIGGKWKGLVLYYLIHGPKRTSELKRLVHNISQKMLIQTLRELEADGLVSRKMFNQVPPKVEYSTTELGQSLEPILRALCQWGDGYADKTFTEGEVQILHID				NA	NA	NA	NA	NA
AK002_03070	546	yyaP_3	COG0262	putative protein YyaP	ATGAGAAAAGTAGTTGTATCTGAGTTTGTATCGCTGGATGGCGTCATGGAGAATCCGCAGTGGACGATCCAATTCCGTAGTGAGGAAACAAAGCAATTCAAGTTCGATGAACTGAAAGCAAGCGACGCTCTTCTGCTTGGACGCGAAACGTATGTTAATTTTGCAGCGGCTTGGCCTAATTTGATCGAGCAGGAAGGGGAATATGGCCGGATGATGAACGGTTACCCCAAGCACGTGATTTCAACAACTCTGGAAAAAGTGGAATGGAACAATTCTTCGCTGATCAAGGGCAATATCACGGAGGAAATATCCAAGCTGAAACAGCAGCCTGGTAAGGATATCTTGGTATTTGGCAGCTGCGCGCTCGTTCAAACGCTGATGCAGCTTGACCTCATCGACGAATATCGGCTCATGGTTTTCCCAGTTGTGCTTGGAAACGGAAAACGTCTCTTTGGAGAAGGGATCGATAAGAAAGTGCTGAAACTGGCGGAAACAAAGACATTCGGTTCAGGTGTCGTTGTTCTGACTTATCTTCCGGCAAGATAA	MRKVVVSEFVSLDGVMENPQWTIQFRSEETKQFKFDELKASDALLLGRETYVNFAAAWPNLIEQEGEYGRMMNGYPKHVISTTLEKVEWNNSSLIKGNITEEISKLKQQPGKDILVFGSCALVQTLMQLDLIDEYRLMVFPVVLGNGKRLFGEGIDKKVLKLAETKTFGSGVVVLTYLPAR				NA	NA	NA	NA	NA
AK002_03071	648			hypothetical protein	ATGAAAAAACAATTAGCTATTACGGCCTTAGCGAGCGCACTGGTTCTTGGCGGTGGCGGTTTTGCTTACTATTCATATGCTTCTGGAGCGGAGCAAGAAGTACAAAAAGATGCTGTTGAAGCGTCCTCACCGTTGGAGCAAACCACTAACAGCTCAGTTGGGGATGATTCTGTATCTACAGGCCAAGAAACAATTGAAACTAAACCTGAAACAACAGTTGGTCCTGGGATACCGCATGAAGGGTTGGTTGATATTACAGAAATACCAGCAGAGGATATACACATTCCGCTTTCAGGCGATATAGCATCACTCCAATCTACAGGATTGACTCAAGAGAATGTCCAAGCATTTCAGAATGAGTACGGACTTCATATTATGTCCTTATTCAGATCTGCAGATGGAGACGAAATACTTGTAAACCAAACTGATACGACAAAAGATATCCCATATGTCATTGAGAGCTTAAAAGATGATTACTCCCTTGAAACAGTTGAAACAACCGAAGTTAATGGCATATCAACGCTGTATGTCGACGGGGAAGCTAGAAAAGTTGTGCATCTGATTACGAATGACCACCTGTTCAGTATAATTTCCAACACTGCCACAATTGATGAACTGATGGATATCGCAAAACAAATACATGAATAA	MKKQLAITALASALVLGGGGFAYYSYASGAEQEVQKDAVEASSPLEQTTNSSVGDDSVSTGQETIETKPETTVGPGIPHEGLVDITEIPAEDIHIPLSGDIASLQSTGLTQENVQAFQNEYGLHIMSLFRSADGDEILVNQTDTTKDIPYVIESLKDDYSLETVETTEVNGISTLYVDGEARKVVHLITNDHLFSIISNTATIDELMDIAKQIHE				NA	NA	NA	NA	NA
AK002_03072	867			IS3 family transposase ISBth8	GTGACGAGTAAAGCTGCTAGATTTCAGATCATAGAGGACTTGCGAGTACGCCATCGTCTTGTTTGGCTCTTGAAGTTAGCCGCGGTTTCCCGTTCAGGCTATTACAAGTGGAGAAAGAGCTTGCAAGCGGCAAAAGAACGTAGACAAAAGCAGCATGAATTGGAATCCCATCTGCTTGCCATCCATCGCATTCATCCCTACTTTGGTTATCTTCGAATGACGGTAGCTTTACGGAGGGAAGGCATTAGGGTCAACCACAAAAAGGTGTATCGATTAATGAAACAATTAGAAATCTGTTCTGTCATTCGGAAGAAGCGTCGATTCTTTGGAAAACAAGCTTCCGTGGTGAATCCGAATCGGCTTCAACGCCAGTTTAAGGCGGATACGCCACGAACTAAACTGGTCACAGATATTACCTATATTCGTGCTGGAGAACAATTTGTGTACCTGTCTGTGATTCAGGATTTATACAATAACGAGATTGTAGCTTGGCATTTATCGGAACGAAATGACCTCGCTTTGGTTCATGAAACGCTGGATAGACTCCGTCAGCACGTGGATGTGAGTGGGGTAATCCTACACTCAGATCAAGGATTTCAATACACGTCAAAACCATTTAACCGTAAACTGAAACAACTCGGCATGCTAGGCAGTCACTCTAGGCGAGGAAATTGCCTGGACAATGCCTGTATCGAGTCTTTCTTCTCTCATTTGAAGAGCGAGAAAATATACTTGAATGAGGCAGCAAACAAAGCTGAGGTTGAACAGCAAGTGAGTGAATACATTCTGTTCTATAACCAGAACCGATTCCAGAAAAAATTAAACGACCGTTCCCCGGTAGAATACCGGGAAACGGCCGCAGCTTAA	MTSKAARFQIIEDLRVRHRLVWLLKLAAVSRSGYYKWRKSLQAAKERRQKQHELESHLLAIHRIHPYFGYLRMTVALRREGIRVNHKKVYRLMKQLEICSVIRKKRRFFGKQASVVNPNRLQRQFKADTPRTKLVTDITYIRAGEQFVYLSVIQDLYNNEIVAWHLSERNDLALVHETLDRLRQHVDVSGVILHSDQGFQYTSKPFNRKLKQLGMLGSHSRRGNCLDNACIESFFSHLKSEKIYLNEAANKAEVEQQVSEYILFYNQNRFQKKLNDRSPVEYRETAAA				NA	NA	NA	NA	NA
AK002_03073	324			hypothetical protein	TTGCCTAACGAAGGGGATTTTTTCATGGCTAAAAAAGGACAAACTTACCAACGGTACTCCTTGGAATTAAAATTGGAGGCGGCCCGACTGGTCAATGAAGAACATATGAGTATTCGTGAAGTAGCAAAACGTTTAGGTATTCAAAATAAATCTCAAGTACAAGTATGGGCGGCGAAAACGAAACGTGGAATGAGCCTAGAACCTGCCACATCCAAACGGGGACGCCCCAGAACGAAGTTTTCCAGTATGGAAGAAGAGATGGCATACTTGCGAGCGGAGATTGAATATTTAAAAAAGCAGTATCCAAATCTGCACAAGGAGTGA	MPNEGDFFMAKKGQTYQRYSLELKLEAARLVNEEHMSIREVAKRLGIQNKSQVQVWAAKTKRGMSLEPATSKRGRPRTKFSSMEEEMAYLRAEIEYLKKQYPNLHKE				NA	NA	NA	NA	NA
AK002_03074	771			hypothetical protein	ATGAATGGTAAGAACAAGTTTAATATCGTATTTGTTTTAGCAATAATGATTTTTATTGTCTCTTCAACACCTGCCCATGCCCAAAATATGGGGCAATATTATCACAAAGGGAATGCTTATAGCAGTTATTACGACAGTGGAAATCAAGCTATAAATGGCTGGAGTACCGTCGTTATGGCTACTTCATCAAGAATGGCTAGTCAGGGCAGTCTAGGGTACACATCGATTCAAGCCTGGGCAAGACTTGATACACTTAAAGCTCAATATAGTCCTTATTATGCGCCAGCAGTTGCAGCCATAGAGACCAAGATGAAAACAACTACAACAAATAGCGATAGAGACTTTTATTTAATCCAAACTAATCCAGGTCATAACGTTAAGAAACATTCGGTGGATACATTTATTTTTGATTTAATTGATTATAAAATTCCTGGGGTGAGTTTGGTTGGCAAACTAGCTGAAAACTATGCGAATGGTTTTACTTCTGGTACAGAACAAAATTTATCAAATCCCAAAAATGGTACCTTAACTTTTTTAAACCCTACTAACGCTAGTTTATCAAACAATATTAGTTGGAAGGATGCTAATAAAGTTATAGGCTCCAAAAATAATTCTGGGGCAGCTGCTGAATTTCACTTCACTGTGGCTGATGGAAATCAAATTAACGTTGCACCTCAAGCTCGAGTACAGTACGGATTATATACAGCCAACACCATAGTTCCTATTAAATTGTGGTCAAATTATGCGTATGTGAACCACACGTTGAACTAA	MNGKNKFNIVFVLAIMIFIVSSTPAHAQNMGQYYHKGNAYSSYYDSGNQAINGWSTVVMATSSRMASQGSLGYTSIQAWARLDTLKAQYSPYYAPAVAAIETKMKTTTTNSDRDFYLIQTNPGHNVKKHSVDTFIFDLIDYKIPGVSLVGKLAENYANGFTSGTEQNLSNPKNGTLTFLNPTNASLSNNISWKDANKVIGSKNNSGAAAEFHFTVADGNQINVAPQARVQYGLYTANTIVPIKLWSNYAYVNHTLN				NA	NA	NA	NA	NA
AK002_03075	522			hypothetical protein	ATGACGAAGAAAAAATATTCTAAAATCATCATAGTCATTGTCGTTTTATTGATTATTGCGTCAACTATTATTTTAATTGAAAACTCAATCAGTAAGAAAGAAGCTGAGGTTAATTCGAGTTACTACACTGGTTTTGTTTCAAGAGTACAGAAATTGGATGATACACTTGCTCAAACCAGTGAGATAGAGTCTAATAGAGAAATTGAGCAAATGTTTGATGTGTATACTTCCATTATTTTAGTGAATGACCGACTAACTCTTCTTAAAGAAAACACTAAAAGTTTCCCTGATATAAATGTTCTCATCAATGACTTTTTAATATTTAGAGATGAATATGGTTATCTTGTAAAAGATCAATTAGAAGGTAATCGTGTAGATTCCGATGTACACATAAAAGTGGTTAAACAGATCAAATTATTCCTGAATAACTTGCCAAAAGAATACGAGCATTCTAAGGCATTTTCTGATCAGTTTAGTGCTGCTGCTGATCATATTAAGCCATTACTACATCTTAATTTCTAA	MTKKKYSKIIIVIVVLLIIASTIILIENSISKKEAEVNSSYYTGFVSRVQKLDDTLAQTSEIESNREIEQMFDVYTSIILVNDRLTLLKENTKSFPDINVLINDFLIFRDEYGYLVKDQLEGNRVDSDVHIKVVKQIKLFLNNLPKEYEHSKAFSDQFSAAADHIKPLLHLNF				NA	NA	NA	NA	NA
AK002_03076	894			hypothetical protein	ATGAAGAAAAAAATGTCTGAAAATAAAGGGATGCTGCAGAATGGCAGGAATTTAAGGGCTCGGAGTTCATTTTGGCGCTTTCCAATCGTCTGGATGATTGCGGGGGCTATCGGCATTATTCTCATCGATACGTTATTCAGGCAGCTGTCAGCGCGAGTAGAGGGGACAGTTTCCCTTGTTTGCACACTAGTGATGGGATCTCTAGCCATCTTAGTTTATAAGCTCACGCTGACATACCTGGCGCGGCGGTCCACTCCAGAGATATCCAGACAGCGCGCAGGGATGGAAACGGTTTTGGGCGTACTAACCGGGGCGATTTTTATCACAGGGTCCGTTTTTATTATTATGGCTCTGGGAGGGTACTCCTTTCAGTGGGCAAGTTCTGCGGATACGAGTTCTGTTCTAATCTCCTCCCTTGAAGCAGCCTTAGGGGCAGCCATTGTCGAGGAACTTATCTTTCGTGGACTTATGTTTCAAGCCATTGTTCAATTGGGGGGAAGACCGCTCGCGCTTGCTGTGACCTCTCTATTCTTTGGAGTTGCCCATCTTGGAAATCCAGGGGCAACATTATGGAGCGCGTTCGCCATAGTCTTGGAAGCGGGTGTTCTGCTCGGGGCCGCCTTCTTGTGGCGGCGGAACTTGTGGTTTACCATGGGACTGCATTTTGCATGGAACGCTATTGAAGGCTTGCTTGGCATTCCTGTTTCCGGACACCCTGCTGCCGGTCTCTTTACTGTAAAGGTGAATGGTGCCGCACTTCTCACAGGGGGCCACTTTGGACTCGAGGGCTCTATTGTTCCGGTTGTAGTCAGTCTTCTGATTTCCATCCCTATGCTAATTGGGACTGCACGGAAACGAGGGGATGTGGCCCGGAACCTTCCTGTATCAAAGTAA	MKKKMSENKGMLQNGRNLRARSSFWRFPIVWMIAGAIGIILIDTLFRQLSARVEGTVSLVCTLVMGSLAILVYKLTLTYLARRSTPEISRQRAGMETVLGVLTGAIFITGSVFIIMALGGYSFQWASSADTSSVLISSLEAALGAAIVEELIFRGLMFQAIVQLGGRPLALAVTSLFFGVAHLGNPGATLWSAFAIVLEAGVLLGAAFLWRRNLWFTMGLHFAWNAIEGLLGIPVSGHPAAGLFTVKVNGAALLTGGHFGLEGSIVPVVVSLLISIPMLIGTARKRGDVARNLPVSK				NA	NA	NA	NA	NA
AK002_03077	645	lnrK_3	COG2197	Transcriptional regulatory protein LnrK	ATGGTAAAAATTAAAGTGCTACTTGCAGATGATCAAGAGTTAATTCTCGAGAGCTTACATATCGTCCTGTCCATGGAAGAGGATTTGGAAATTGTCGGTTTAGCCAAGAATGGGGAAGAAGCATTGAAGGGCTGCGAGCAGTTTATGCCGGATATTGTGTTGATGGATATCAATATGCCAGTCATGGACGGCGTTGCCGCAACGGCCTTGATTAAAGAACGAATACCTGCAACCAAAATCATCATGCTGACTTCCTATAAGGAAGTAGAATATGTGTTAGCCGCGTTAAGCTATGGAGCAGAAGGATATCTGCTCAAAGCCCTTCATCCCAAAGACCTGGCTGCAGGCATACGGGTGGTTCAGGCGGGAGGGACTTTAATCTCGCAGGAAATGGCGAGTAAAATGATCAAGAGCATCAACAATACCACCTCTACGAAAAATAATGAATTCGGGCTTACTGCCCGTGAAATAGAAGTGCTGCATAAGCTGGCTTCTGGCCTGCGTAATCAAGACATTGCCGAGGCGCTGTATCTTAGTGAAGGGACGGTTAAAAATTATATCTCAACGATTTATTCGAAGCTGAATGTGAAAGGAAGGCGGGAGGCCGCCCGTAAAGCCCGAGATTCGGGAATTATGGATCATTAA	MVKIKVLLADDQELILESLHIVLSMEEDLEIVGLAKNGEEALKGCEQFMPDIVLMDINMPVMDGVAATALIKERIPATKIIMLTSYKEVEYVLAALSYGAEGYLLKALHPKDLAAGIRVVQAGGTLISQEMASKMIKSINNTTSTKNNEFGLTAREIEVLHKLASGLRNQDIAEALYLSEGTVKNYISTIYSKLNVKGRREAARKARDSGIMDH	PGPT0017900_18	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
AK002_03078	1155	lnrJ_1		Sensor histidine kinase LnrJ	ATGGATTGGGGTATATTCGCTCTTCGTTTATACCATTATATTTTGCTGCTGTCCCGGGTTTTGGCAGTAAATGAGTTTTCGAACCGAACGGTATTAAACGTAATCTGGCTGAGCATAGCTCTTGTCGTCCCGTTGCTGTTTTGGTTTCCTGGGCGCCGGATGAACAAAGTCTGGTTTTGCATATTGGAGCTATTGCTTGGCGGTTCTTATTATGTGAATTCTGTCATTCATCCGGATCTGACTTCAAAAGCGGACTATTTACTGCCGAGTCTTACAATGGGGTACTTATTGACTAAGCAAACCCTTTGGATCATTCCCGTAGTTGTTTTCATTCCTTTTTCCTTTCAGTCTTACCTAAGGTTATCTTGGGAGCAAACCCTAAGCATCGGAGCAGACAATCTGCTGTTCTGCTTCATCGGCATGTGGGCAAGCTTCGTCGCCAATGCATATGATCAGAAGAATAAACTGGTAGCCGAAGTGGAGCAGCAAAATAAGTTGTTAACTCACTACACGGCCGAGATCGAGAAAATGACTTTGCTTGAAGAGCGCAACCGCATGTCCAAGGAGCTTCATGATACACTGGGGCATTCCTTTATCTCACTTATTCTGAGCCTTGATGCTTCTATTGCCCTTATGGATAGCAAGCCTGCCGAGGCCAAAGATCGGTTATTTCGCTTAAGAACATTGGCTGAGAAAAATCTCGACGAAATGAGAAACATCGTACACGAGATGGGGGAAGAAGAGGAATCAAGTCTGATCCGACAGGTTGAATCCCTTGCGGTCCGTTTCCGGGAGCACACGGGTACGGCCCTGACTTTGAGTCTGCCGGAGACAGAGCGGTCCATACGTTTTGAGGTACGGCAAGCGGTCCTTCGGGTCATCCAGGAATCCTTTACAAACGCACTGAAACATGGAAAAGCATCTCAACTGCATCTGGAGCTTAGATTATCTGAGAGCAATCTGCAATTGTCCGTTCGAAATGACGGCAAACCGATCGACAAGCTAAATTATGGCTTCGGCTTGACCACGATGCATCACCGGGTCGAGCGGTTGGGAGGCAGCCTACACCTAACATCTGGAGAGGGAACTCCAGCGATAACCGAAGTCAGATGCGAAATCCCGCTGAAGGGAGTGATTCCACATGGTAAAAATTAA	MDWGIFALRLYHYILLLSRVLAVNEFSNRTVLNVIWLSIALVVPLLFWFPGRRMNKVWFCILELLLGGSYYVNSVIHPDLTSKADYLLPSLTMGYLLTKQTLWIIPVVVFIPFSFQSYLRLSWEQTLSIGADNLLFCFIGMWASFVANAYDQKNKLVAEVEQQNKLLTHYTAEIEKMTLLEERNRMSKELHDTLGHSFISLILSLDASIALMDSKPAEAKDRLFRLRTLAEKNLDEMRNIVHEMGEEEESSLIRQVESLAVRFREHTGTALTLSLPETERSIRFEVRQAVLRVIQESFTNALKHGKASQLHLELRLSESNLQLSVRNDGKPIDKLNYGFGLTTMHHRVERLGGSLHLTSGEGTPAITEVRCEIPLKGVIPHGKN				NA	NA	NA	NA	NA
AK002_03079	2106			hypothetical protein	ATGAAATTGCAGTATAAGCTTGATTCTGTCGAGCCGCCATGCGGTCAGGCCAACCATTTCCTGGACGAGGGAACGAACCAGTTGAAGTATGAATACAATGGGCTAACGATCATTTCAATTCAGCTTCCCGGCGAGGGCAACCAATATTACCGCCGTGTTTCGGATGGGAATCTACAGACCCATCCTTTCATTCAACAGTTGTATCTGGCCTTTGATGAGCCACAGACTGTACGCGTGCGATTCGAACTTAGCCGTGATGCATTAAACATGCGGCCCCGGCGTGCGGGAGATGGAGAAGCGATACTTGGGCAGAGTGGGAGGCCGACCCTATACGGCGCCAATGGATTGTACGATGTGCTGCAGGATTTGTTGATCGACTGGCACGGCGGCGAATGGCAATGGGTTCATGACCGGATTCAAAGTACGGAGGACGGGAATTCCTTTGCTGAAATCGATGTTAAAGTCGGCACCACGCCGTGGGTCATCAATCTGCGCATGCAATATTACCGTAAGCATCTGAATTTCACTTACCATAAGCCATGGGAATGGCGGCCAGACTTAAAACCTGTGGCAGGATGGTGCTCATGGGAAGCATATCGCTTTGACATTCGGGAGGAACATGTTATAGATGCAGCCCGCTTTGTCAGTGAGCACTTCAAGGCTTATGGGCTTGAATACGTGCAGTTGGATGACGGCTACCAGCTTCCTCTGGTTCCGCCTGAAGCCACTGGTATTGTTGCTGATTCGTGGCTGACAACCAATGAAAAGTTCCCCTCGGGACACGCAGGCTTGGTATCTGGGATTAAAGCCTATGGACTGCAGGCGGGGATTTGGACGAATGCGGTTGTGACCAATCCGGACTTTGCATCTTTAGGGAATGCTTGCATCAAGGATGCAGATGGAAGACCGATTAAGGGCAAGTGGATTCAGTATGTGCTGGATTGCTCTCCCGAAACACTGGCCAAGCATGTGGCTCCTTATTATAGAGGTTTGAGGGATGCCGGGTACACTTACTTTAAAACCGATGCTATTCGTCACTTGATATTTGACGGACTGCATGAAGCGGTTCGGGCTGGACTGATTACAAACGATGAGGCGCAGGCGAAATTCAGAGCTTTTCTGGAATGCGCGAAGGAGCATATTGGCGAGGATGCATATCTGCTCTCCTGCTGGGGTGTGCTTAGCGAGGCCGTGGGTCTTGCCGACGCCTGCCGTGTAGCTACGGACTCAAGTCCGAGCTGGCCGGCAATCCGGATGCAGCTGGTGGAAACGGCGCGCTGGTTCCATACGCATCGGATCCTCTATCTGAATGATCCGGACCATGTCTGCGTCCGGGCACCGCTGGAATGGGCCAAGTCGGTTATATCCCTCGTTTCGCTGACGGGAGGCCTGCTGATGATCAGCGACAAGCCGGAACATTATAATGATGAGAGAATCAACATGATCCAGCGCAATCTTCCTCCGCTTCAAACGGTTACCGCGGAGACGGGAGCGCTCGATCTGAGCATTCCCGCTTTTGCCTGGACACGTGATAAGGGCGATGGAGATAATCTGAATAAAGCGGAAATTCATCCATTTAATACCTTGTGGGCTATTCATATGCAAACGAATGACAGAAGCTGGTGTGTAGCCGGTCGATTTGCTACAGAGGCTCTACAGGCCTCATCTGTGGAAATGGAGAAGCTGGGACTCGAACCGGACCGGGAGTATGCGGTATTCGATTTTTGGCAGAAGCAGTACCTGGGCAGGTATACCGCTTCAATTCCGTGTCGAGAACTTGAGATAGGCAGCTGCCAGTTGCTGGCTGTCCGCCCGGTGATCAGGCATCCGATGTTGATTGCATCTTCGCGTCATGTAAGTATGGATGCGGTCAGTGTAGAAGCGGAGCAATGGCAGCACGGAGAGTTGACACTAAAACTGAAGGGCGTGACCGGTACAGCAGAGCAATATTGGATCTATGTCCCTGATCATTTTGCAGTTGCCGATCAAAGCGTCACAGGAGCCCGTTGCCAGATAACGCCAGAGGGGGAAACCTTAAGGATCACCGTTCATTTTGACCAGGAAAAGGTTGATGTGACGCTTGCATTCACAGAGCCCACTGCCTAA	MKLQYKLDSVEPPCGQANHFLDEGTNQLKYEYNGLTIISIQLPGEGNQYYRRVSDGNLQTHPFIQQLYLAFDEPQTVRVRFELSRDALNMRPRRAGDGEAILGQSGRPTLYGANGLYDVLQDLLIDWHGGEWQWVHDRIQSTEDGNSFAEIDVKVGTTPWVINLRMQYYRKHLNFTYHKPWEWRPDLKPVAGWCSWEAYRFDIREEHVIDAARFVSEHFKAYGLEYVQLDDGYQLPLVPPEATGIVADSWLTTNEKFPSGHAGLVSGIKAYGLQAGIWTNAVVTNPDFASLGNACIKDADGRPIKGKWIQYVLDCSPETLAKHVAPYYRGLRDAGYTYFKTDAIRHLIFDGLHEAVRAGLITNDEAQAKFRAFLECAKEHIGEDAYLLSCWGVLSEAVGLADACRVATDSSPSWPAIRMQLVETARWFHTHRILYLNDPDHVCVRAPLEWAKSVISLVSLTGGLLMISDKPEHYNDERINMIQRNLPPLQTVTAETGALDLSIPAFAWTRDKGDGDNLNKAEIHPFNTLWAIHMQTNDRSWCVAGRFATEALQASSVEMEKLGLEPDREYAVFDFWQKQYLGRYTASIPCRELEIGSCQLLAVRPVIRHPMLIASSRHVSMDAVSVEAEQWQHGELTLKLKGVTGTAEQYWIYVPDHFAVADQSVTGARCQITPEGETLRITVHFDQEKVDVTLAFTEPTA				NA	NA	NA	NA	NA
AK002_03080	96			hypothetical protein	ATGTGCGAGTTTAAAAAGGTCGGTTTTGATCATGAAGTGAATCAGGAAGCGGGCTTTTTAGACAACCTCTTAAAAAATGAAGGAGGCTGTAAATAA	MCEFKKVGFDHEVNQEAGFLDNLLKNEGGCK				NA	NA	NA	NA	NA
AK002_03081	897	araQ_37	COG0395	L-arabinose transport system permease protein AraQ	TTGGAGCAATCGTTCTTGAAGCCCAGCCTCAGGAGCAGGGTATTCGACCTATGCAATGTGGTTTTTATGCTTGCTTTGTCTTTTTTGATGGTATACCCGTTTATCAACCTGCTGGCCCTATCTTTAAACGACGGGGCTGATGCGGCGCGAGGGGGCATTTATTTCATTCCCCGCCAGTTTTCGCTGGACTCCTATATGCTGCTGTTTCAAAATACACAACTGCTCTCGGGATTAGGCATTTCCATTCTCAGGGTTGTTGTCGGAACAACGACCTGTGTATTTACGACCGGCTTGCTGGCTTATATCGTAACGATCCGTGGTTTTTCAGGGCGAAGAATGATGCGACTGTTGTTTTTATTCACGATGTATTTTGGCGGGGGGCTCATTCCGACTTACATGCTGATGATGAAGCTGGGCTTGATTAACACATTTCAAGTCTACTGGATTCCAAGCCTGTTAAACGCTTATTACATGCTTATTATGGCGTCCTATATGCAGAATTTGCCGGAGTCGCTTTCTGAATCAGCACGAATCGATGGGGCAGGGGAACTTCTCATTTATTTTCGCATTATCTTTCCGGTCTCTCTTCCGGTATTCGCCTCCATTGCCGTGTTCAGCTCGGTGGGACATTGGAATGCCTGGTTTGACGTGATTTTGTACAATTCGAACGGAAACTGGGATACGCTGCAGGTTTACCTTCGCAGGCTACTGCTTGAGGTCGAGGCTTTGCAGCAGGTTGCCGACCAGCAGCTTGCGTACAGCAAGTACCGTAATATTTCTCCACTGACGCTGCGTGCGGCAACCTCTATGGTGGTGACGCTGCCCATTGTGTTCGTCTATCCATTTTTTCAAAAGTACTTTGTTGGGGGCATTACGCTTGGTGCGGTAAAGGGATGA	MEQSFLKPSLRSRVFDLCNVVFMLALSFLMVYPFINLLALSLNDGADAARGGIYFIPRQFSLDSYMLLFQNTQLLSGLGISILRVVVGTTTCVFTTGLLAYIVTIRGFSGRRMMRLLFLFTMYFGGGLIPTYMLMMKLGLINTFQVYWIPSLLNAYYMLIMASYMQNLPESLSESARIDGAGELLIYFRIIFPVSLPVFASIAVFSSVGHWNAWFDVILYNSNGNWDTLQVYLRRLLLEVEALQQVADQQLAYSKYRNISPLTLRAATSMVVTLPIVFVYPFFQKYFVGGITLGAVKG	PGPT0017255_1250	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03082	963	yteP_33	COG4209	putative multiple-sugar transport system permease YteP	ATGAATGATCCAATGCTTAGACACACCCCCGAGACTGGAGTTCGCTCAGCGAAATGGGCATCTTGGAAGAGAACATTGTACCGGGAGCGAAATCTGTGGCTCATTTGCCTTCCGTTGATCGCATGGGTCATCCTGTTTAATTATGCACCGATGTACGGGATACTCATGGCTTTTGTTGACTATATACCGGGCAAATCTATTTTATCGAGCGATTGGGTGGGACTTAAGCATTTTAAAGCATTTTTTGATTCTCCCGATTTTGGTTATGTTCTGCGCAATACGCTGGCCATTAGCGGATTAAATATCCTGTTCGGATTTCCTGCACCCATTATATTGGCTCTTCTGCTCAATGAGCTGCGCAAAAAAAGGTTCAAGCAAGTGGTTCAAACCATATCCTACCTGCCGCACTTTATATCCTGGGTCGTCGTAGCCAGTGTTTTATTTACACTTCTCGGCAACGAAGGCATTCTAAATGATATTCTGCTCCGTTTGGGATGGATCGACAAGCCGGTCTCTTTTCTGGGGGAAGGAAAATACTTCTGGGCGATTATCACGTCTGCAAACATATGGAAGGACGTCGGATGGTCAACGATCATTTATCTGTCTGCCATGGCTGGTGTGGACTCAGAGGTTTATGAAGCCGGCAGGGTGGACGGATTAGGGCGCCTGGGGGCGATGTGGCATATTACGCTGCCTGGCATTCGAACGACGATTGTATTGCTGTGGATTTTGGGAATCGGCGGCATTTTGAATGCGGGATTTGAACAACAGCTGTTGATCGGTAACGCACAAACCCGCGAATACTATGAAGTCATTGATACGTATGTCTACAAATACGGTATCCAGCTGGGCAACTATTCCTACGGGGCCGCCGTAGGACTGATGAAAGCCGTTATTGGCGTAAGCCTGGTGTTCGGTGCGAACCGAATTTCTAAGAAGGTGCTCGATACTTCAATATTTTGA	MNDPMLRHTPETGVRSAKWASWKRTLYRERNLWLICLPLIAWVILFNYAPMYGILMAFVDYIPGKSILSSDWVGLKHFKAFFDSPDFGYVLRNTLAISGLNILFGFPAPIILALLLNELRKKRFKQVVQTISYLPHFISWVVVASVLFTLLGNEGILNDILLRLGWIDKPVSFLGEGKYFWAIITSANIWKDVGWSTIIYLSAMAGVDSEVYEAGRVDGLGRLGAMWHITLPGIRTTIVLLWILGIGGILNAGFEQQLLIGNAQTREYYEVIDTYVYKYGIQLGNYSYGAAVGLMKAVIGVSLVFGANRISKKVLDTSIF	PGPT0017250_1473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03083	1674			hypothetical protein	ATGAAGAAGGGTATGATCTTGGTGCTGGTATGTGCTCTGGTATGGACGATGCTGTCCGGATGCTCCAAAAGCAATAACGAGGGGGAATCGGCTGTAGATCCAGGCCAACCTGCAGCTGAAACCGGCGGTGAAGAAAAGACAAACGAATATGGCTGGAAAGTTCCGAACAAGGCCTTGGAGATCAATTTTTATGCGGGGCAGGATAATCCGGAAACGGTAAAAGAGAACAGTGTAATGATGCAAAAGTTCCTTCTGGAGAAGTTTAACGTGAAGCTGAATAAAATTGTTTACGACGTAGATATGAACGAGAAGCTGAATCTAATGCTTGCCTCAGGTGATTATCCCGAAGTCATTACAGGCCTAAGTGACGAGCAGGCTGCCAAGTGGATCGCACAGGGCAAGGCGGTTGAACTCAGCCAGTATGTTGATAAAGCTGCGCCTAATATAAAAAGTCAGCTGGGCGATCTATATAAGACTTTTCTTAATTCGAAAGGTGAATTGTATGCGCTTCCAAGTTATTGGGGCATCCTGCCGATACCAGGCGCGTCAGCCCATATCCGCTATGATTGGTGGAAGGAAATGGGGTCGCCTGATTTTAGTACACCGGAGGAGTATTATCAGGTTCTGAAAAAGATGCAGGAGGCGCATCCGAAGAACAGTAAGGGTGAAAAAACGTATGCTTTATCCGGATACTCTCCGATGTATACGACAGTGGTTCCGACCCTGGCTGGAATGTGGGGGTTGAAAGCCGGCTATAAAATTGCGGAAGACGGTACCAATACGCACTGGGTCAACACGTCAGAGGGGCTTGAATTCACCAAGTTCATGAATCAGATTTATCGTGACGGGATGCTTGACCCGGATAGCTTTATCAATACTTTCGATGATTGGAAGGCGAAGTTTTCGGCTGAACGGATCATGGGTCATATCGGTTCTTGGTGGGTGTCATGGAATGCCGGTCATGAGGTATGGCAGAAGGCGAATAAAGATTGGACCGATGAGCAGCGTTTCATTCAAGTGAAAGCAAAAGCAGCGTCCGCAGCATCAGCGAACCTGACTGCCCTGAATGGCAGAGGTTCTTATCGTACAATCATTACGGACAAAGCGAAAAACCCGGAAGACATCATGAAGTGGTTCAACTTCTCGATCACGGATCTTGGAACCCGAATTATAGGGTGGGGAGTTCCGAATATAGAACAGTCGGTATGGACCTACAAGGACGGAAAAATCGAATGGGTAGATGCCATGAAGAAGCGCATAATTGATGGCACTTATGATTTTAAAAATAGCGACCTGGTTGGACAAGGGGTCTTCACGCTGGTTGAAGGCATTGGGACGATGAAGGATGACGGAAAAAGCACCTATTGGTTTGACCAGAACTTTAACAACGAGGCGAAGTGGAAGAAGCTGATGAACGATAATTTAAAAGATACGATTTATGATAATACGATGGGCGTGATCCAGATTCCAGGTAACGATCCCCTTGCTGTGACCAACACGCAGATCGATGAGCTGCTGGAGACGCTTTGGGCAAAGTCGGTTATGGCGACTAGCGAGGCTGATGCCGAAGCCAAGTTCACCGAGATGCGCGATAAGCTGAATAATGCGGGTCTGCATGATATCGAGGGGTACCGTACCAAGGAATATCAGAGACGAATGAAGGAATGGAAGTAG	MKKGMILVLVCALVWTMLSGCSKSNNEGESAVDPGQPAAETGGEEKTNEYGWKVPNKALEINFYAGQDNPETVKENSVMMQKFLLEKFNVKLNKIVYDVDMNEKLNLMLASGDYPEVITGLSDEQAAKWIAQGKAVELSQYVDKAAPNIKSQLGDLYKTFLNSKGELYALPSYWGILPIPGASAHIRYDWWKEMGSPDFSTPEEYYQVLKKMQEAHPKNSKGEKTYALSGYSPMYTTVVPTLAGMWGLKAGYKIAEDGTNTHWVNTSEGLEFTKFMNQIYRDGMLDPDSFINTFDDWKAKFSAERIMGHIGSWWVSWNAGHEVWQKANKDWTDEQRFIQVKAKAASAASANLTALNGRGSYRTIITDKAKNPEDIMKWFNFSITDLGTRIIGWGVPNIEQSVWTYKDGKIEWVDAMKKRIIDGTYDFKNSDLVGQGVFTLVEGIGTMKDDGKSTYWFDQNFNNEAKWKKLMNDNLKDTIYDNTMGVIQIPGNDPLAVTNTQIDELLETLWAKSVMATSEADAEAKFTEMRDKLNNAGLHDIEGYRTKEYQRRMKEWK	PGPT0017245_464	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03084	1062	rssB_15		Regulator of RpoS	ATGTTCAATATCATCACAGTTGACGATGAAAAAATGATCAAACGGAGCCTGCGGGCTTTGATCGAGCGTGCGGGTACAACTTACAGCGTCATCGGTGAAGCCACCAATGGGAGAGAAGCGCTGGAGCTGATACATTATCATCCCCCTCATCTTCTTATCACGGACATATGCATGCCGGAAATGGACGGGCTGGAGCTCATTGCTGAAGTCAAACAGCGTTATCAGCAGATGGAGATTATCGTCATATCAGGCTACGGGGAATTCAGCTATGCACAGCAGGCGCTCCGTCACAATGTCACTGATTATTTACTGAAGCCGATCCATCCGGACGAGTTTCTGTCAACGCTGCAGCGAATCTATGAAAGGCATGAGAGAGACGCTCAGCGATTAGCAGGCCGCAGCCAACAGATGTGGAGTTTCTTGGCTCATACAGAACAAATCATCCAATCAATATGGACTGTGCAAGAGAAGGGACTCCATGAAGAACTCGAACAATTCCGTCTTAAGGTAGAAGCATCCGGTATGGATGCTGTTTTGGCTAAACAGATTTATGTCGATCAGCTGGTTTATATATCGCAGAAGGTATCGGAAATGAGCGGCCTGTCTTTGAAGCCGGCTTCAGCCATGGAGCCCGAGCAGCACCATTCATTGGAGAAGCTATACGAGAAATTCCAAACCGCATGTTTGGGTATGCTCACGGAGGTTATTCAACTCCGGAACCTGGGGCAGTCTCTACAAATCCGGAAGGCGATCCGATATATTAATGCGAACTTTCAGAACAGTGACTTGTCCCTCGTAAGTGCAGCAGACAGCGTCTCGATGTCGGTTACGTATTTCTGCCGTTTTTTTAAAGAGGAAACAGGAATGAGCTTCATGAAGTACGTGACGGGTCTTCGCATGGAAAAAGCCAAGCAGCTGCTAACAAATCCGGAGAATAGGGTTCACATTGTGGCGGAACGGATTGGCTATTCGGATTATCATCATTTTGCCAAGGCATTTAAAAAAAATACCGGCATGACACCGAGCGAGTTCAGAAACACACACGTATTCATGGATATATAA	MFNIITVDDEKMIKRSLRALIERAGTTYSVIGEATNGREALELIHYHPPHLLITDICMPEMDGLELIAEVKQRYQQMEIIVISGYGEFSYAQQALRHNVTDYLLKPIHPDEFLSTLQRIYERHERDAQRLAGRSQQMWSFLAHTEQIIQSIWTVQEKGLHEELEQFRLKVEASGMDAVLAKQIYVDQLVYISQKVSEMSGLSLKPASAMEPEQHHSLEKLYEKFQTACLGMLTEVIQLRNLGQSLQIRKAIRYINANFQNSDLSLVSAADSVSMSVTYFCRFFKEETGMSFMKYVTGLRMEKAKQLLTNPENRVHIVAERIGYSDYHHFAKAFKKNTGMTPSEFRNTHVFMDI				NA	NA	NA	NA	NA
AK002_03085	1746			hypothetical protein	ATGAGATCCTTTTCGCTAAGCAAAAAGATTATCGTTATGTTTGTCATTCTATGCATACTGCTGACAGGGGTGGGATTTTACTGGTATCGCATGACCACGCTGACGATTCAGGACAACACAATAAAATTGAGCCGACAAATTACGAATCAAATGAGCAGCCGCGTGGATACATATTTTATGGAAATGGTTAAACTGACGCTGCCCATGACAGCCCAAAGCGCATCTGCCCAATTTTTGGACAAGTCTGGCGAAGGGCCGTATGAGCGACTGCTCTATTCAAGACCGGTCAACAAAATGATCTACAATGTCATGGTTGGTCGGCCGGATATTTACGGAATATCGATCGTATCACAGGAAGGGGTTGCTACTTCAAGCTACAGCAATTTATTCGCGCAGAAACGGTTTCCGCAAATTGTTCAGAGATTGGAACAACCGGGGAATTTCGAGATCGTGGGCATGGAACAATATAACGATGTCAGGCTGCTAACGATGGCCGTGAAATTTTTCAGCCCGGGTACACAGCATTGGGGTGTTCTCATTGTGGATCTCAGCCTGAACAATATAAGCAGCATTGCAGAAGACGTGACTTTAGGCGACACAGGTTTTGTATGGATTGCAGATCGCGAGGGGCGGTACTTGTATTATCCCGACCATCGCAAATGGAGAGAAAACATCCCTGAGTCATATTGGAAGCGTATTCAAAACAGCAGTGAAGGCGGTGATATTGAGCATGCCACAGGTGAAGAAATGCTTGTTACCTACGGCAGGTCCGAATTAACCGGCTTCATATTCTTCTCGGAAACGCCTCTGGCCGAGGTGAACCGTGATTTGGTCAAGCTTAGGAATACGACCATTATCATTGGGTCTGTCGCCCTCACAGTGGGGATTGTGGTTGCGTTATCGGTTTCCTTTTCATTATCGAGGTCTATTATTGTACTGCAGAGGCTCATGAAGCAGGTGGAGATTGGGAATATTGACGTCCACGCTCCTGAGAATAAAAGAGGGGAGATCGGATATTTATACCGCCGATTTAATGCGATGGTGAACGAAATCAACAATTTGATTCTCACGGTAACTGCTTTACAGGTGAAGGAGAAGGAAATGGAGCTCAAACAGCTGGATTCCAAAATGCAAGCACTCCAGTACCAGATCAATCCTCACTTTTTATACAACACACTCGAAATTGTGAATTCTTACGCGATCGTTGAAAATATTCCGGTGATTAGCCGGGTCGTGCATTCTTTGGCGCGAATCTTCCGTTATAGTGTAGAAAACCATGCCAAAACCGTCCCACTGTCCGTAGAGCTGTCTCATATTAATGACTATCTAGATATTCAAATGGAGCGTTTTGAAAACCTGCGGGTCCATATTGAAATGGATGAAAGCTTAGTAAGCCGGATCATGGCTGTACCAATGATGCTTCAGCCCTTGTTGGAAAATGCATTCAGGCACGGCTATCAGAAACATAAGTTGGAACCCGGATCCTTGCATATTCGTGCTGAACGGCACCTTGAGCTCTTTATTATTGATGTGGCGGATAACGGCCATGGGATGGAAACAGAGGTCAGGGATTATTATAATCGTCTGTTTCAAGGTGGGATTGAACATGAAACATTGGATGGAGCACGCTTAGGCCTATGGAATGTCCACAGCAGAATCCAACTGTTTTATGGACACGCCTGCGGACTGCATATTGTCCGTTCGGATATGAATGGTACAGTGATCCGTATTACGCTACCCCTTTAA	MRSFSLSKKIIVMFVILCILLTGVGFYWYRMTTLTIQDNTIKLSRQITNQMSSRVDTYFMEMVKLTLPMTAQSASAQFLDKSGEGPYERLLYSRPVNKMIYNVMVGRPDIYGISIVSQEGVATSSYSNLFAQKRFPQIVQRLEQPGNFEIVGMEQYNDVRLLTMAVKFFSPGTQHWGVLIVDLSLNNISSIAEDVTLGDTGFVWIADREGRYLYYPDHRKWRENIPESYWKRIQNSSEGGDIEHATGEEMLVTYGRSELTGFIFFSETPLAEVNRDLVKLRNTTIIIGSVALTVGIVVALSVSFSLSRSIIVLQRLMKQVEIGNIDVHAPENKRGEIGYLYRRFNAMVNEINNLILTVTALQVKEKEMELKQLDSKMQALQYQINPHFLYNTLEIVNSYAIVENIPVISRVVHSLARIFRYSVENHAKTVPLSVELSHINDYLDIQMERFENLRVHIEMDESLVSRIMAVPMMLQPLLENAFRHGYQKHKLEPGSLHIRAERHLELFIIDVADNGHGMETEVRDYYNRLFQGGIEHETLDGARLGLWNVHSRIQLFYGHACGLHIVRSDMNGTVIRITLPL				NA	NA	NA	NA	NA
AK002_03086	183			hypothetical protein	ATGTCTAAGTTTCTCAGCTATCTCGGCGGAGTCATTGGTGGTTTCGGCCTGATTTACGTCCCAGTTTCGGAATTACTGCCAAGCCTGGAACCTGTACTTGACACAGCAGGCATCATATCTGTGATTGTGTTCTCCATCGCCTTAATCGTTAATGGTGTGCGTTCCTTGATAAGCAAAGCGTAA	MSKFLSYLGGVIGGFGLIYVPVSELLPSLEPVLDTAGIISVIVFSIALIVNGVRSLISKA				NA	NA	NA	NA	NA
AK002_03087	375			hypothetical protein	ATGAAATTTCTGTGCTTGGGTTACTTGGAGTCAGATAAAATGGATGCCCGCCCAAAGGATGAGATTGATGCTATAATGAACGAATGTCCGCCCCACCTAGAAAATTTCTACAAGAGCGGCCAAGTGATTATCGATGCTGGTCTCGCATCCGAAACGAAATGCTTACGGCGGGCGAATGGGAAAGTGAAGGTTATGGACGGTCCTTTTATCGAAACGAAGGAGATGATCGGTAGTGCTTTTCTCATAGAAGCACGGGACATGGAGGAAGCTATCCGGATTGCTTCCTTACATCCAACTGTACAAGTGGCATCAGGCGAGCAGTTTGGATGGGGGATTGAGATCCGGCCGATCAATTACTTTGAATCGAGAGACTAG	MKFLCLGYLESDKMDARPKDEIDAIMNECPPHLENFYKSGQVIIDAGLASETKCLRRANGKVKVMDGPFIETKEMIGSAFLIEARDMEEAIRIASLHPTVQVASGEQFGWGIEIRPINYFESRD				NA	NA	NA	NA	NA
AK002_03088	873			hypothetical protein	ATGGATATAGATACGGAGAAGTCCAGACATAGAATCGTAATGGGAGAAATTGAAGCACTGCGGATGAAACGACAGCAACAGCTAGCAGACCGACCTCACCCGTCCTTGAAAAGATTTACTCAACAAGAGCTGAACGACGAGGCTTTTACTTCTTATAAAAATCTGCTGGTTGGACGTACCCGCCGCATACCGGATCGTCAGACGATTATAAATATTGCAGAATATCTTGAGTGTACATCCGACGAGCGTAACGATTTGCTTTTGGCTGCTGGTTATCTTCCGATCCAGACCGAATTGGAGGGGAGGGCGTTGGAGCGTGCATTGGAGTGGGCTCAGCAAACGATGAGGAGCATTCCTTTTCCCGCCATGATCGTAACACACACACAGGACATCAAGGGGGTTAACGAGCCGTTTCGTCATTTGTTCGATATCCCTCTCGACCGTTCATATGACGGTTTAATGAATAGGATCGATTTTCATTTTAATTCCGATTTGCCTATCCGGCCTCGCTCCACTTTCGACAACGTGTCGTTTGAGCAGTGGAAGGTGCACGCGATAAACGGGATACACGCCTTCAAGAGGGAGCACATGCTCTCGCGTTATGATGCGTGGTATCAAAAATTGTTTGATAGAGTTCAGAAAGAGGACGAATATCTTAATGAACCTGCTTCAAGTGCAAATGCTGATCAGACACAAACCATATTAGCCAGAATGGAAAGCGACGGCGAGCTTGTTCCCATTCGGTACAGACAGGTTTCGATTTCCGCGGGCAGCCGGGTATATCCGCAAGTTGAGGTTTTCCTGCCGGTAGATTCTGCCGCTCGTACAGTTTTCGAGAACCTGGGATGTCCAGCTGATTGTGCATTCTTCTAA	MDIDTEKSRHRIVMGEIEALRMKRQQQLADRPHPSLKRFTQQELNDEAFTSYKNLLVGRTRRIPDRQTIINIAEYLECTSDERNDLLLAAGYLPIQTELEGRALERALEWAQQTMRSIPFPAMIVTHTQDIKGVNEPFRHLFDIPLDRSYDGLMNRIDFHFNSDLPIRPRSTFDNVSFEQWKVHAINGIHAFKREHMLSRYDAWYQKLFDRVQKEDEYLNEPASSANADQTQTILARMESDGELVPIRYRQVSISAGSRVYPQVEVFLPVDSAARTVFENLGCPADCAFF				NA	NA	NA	NA	NA
AK002_03089	942			hypothetical protein	ATGATTCGTACCATTGTAGTTGATCCGCTTGCTCCGTCATATTTAGCGTTCAAGGAAGTTGATGCCCCGCAGGCTAAGCCTTGGGAAGCGCTCGTGCAAGTGAAGACCGTCTCTCTCAATCGTGGTGAAGTGAAAGACGCTAAGGATCAGGAAGCTTCCAGCCGCCCCGGCTGGGATTTCGCGGGAAATGTCATCGAGCCGGCCAAGAGCGGCGAAGGTCCCCAAAAAGGGGCCAGGGTTGTTGGTTTACTCCCGATGGGAGCTTGGAGCGAGCAAGTTGCCGCCCCCGTATCGATGCTTGCCGAAATCCCGGAAAAGCTAACTTTTACGGAGGCGGCGACCCTCCCCGTAGCAGGACTCACAGCGCTTTATGCACTCCGCAAAGGAGGCATGCTGCTTGGCAAACGCATTTTCATTACAGGCTCTACCGGCGGGGTTGGGCTATTCGCTCATCAGCTTGCGGCCCAATCCGGCGCATTCGTTGTAGGTACGGCAAGCACGGAAGAGAAGGCCGATCTTGTTAGGGAGGCAGGATCCGACGAAGTAATCATTGGATATTCCGCAATTTCATCAGCCCGGAAATTCGGGCCGTACGACCTGATTATCGATTCAGTAGGCGGCAATACACTGTCGGTGTTGCTGCCGCAGCTAGCGCCCCAAGGGATTTGCGTTGCGGTAGGATTTTCTTCTTCAAATACCGCAACGATCGATATGATGAATCTGGTGACCAGCGGAGGAAGAACCTTGTACGGCTTCTTTCTAGGCGAGGAACTCACTCGTCAATCAGCCGCGGACGATCTGAGTTTGCTAGCCCGGCTGGTCACAGATAAGCGGTTAATCCCCCGGATCGAAGTGGAGGCGCTTTGGACCGAAATTGATATCGTTGCCCGTAATATGATGGAACGGAAATTCTCCGGCAAAGCCGTTCTTCACATAGGTTGA	MIRTIVVDPLAPSYLAFKEVDAPQAKPWEALVQVKTVSLNRGEVKDAKDQEASSRPGWDFAGNVIEPAKSGEGPQKGARVVGLLPMGAWSEQVAAPVSMLAEIPEKLTFTEAATLPVAGLTALYALRKGGMLLGKRIFITGSTGGVGLFAHQLAAQSGAFVVGTASTEEKADLVREAGSDEVIIGYSAISSARKFGPYDLIIDSVGGNTLSVLLPQLAPQGICVAVGFSSSNTATIDMMNLVTSGGRTLYGFFLGEELTRQSAADDLSLLARLVTDKRLIPRIEVEALWTEIDIVARNMMERKFSGKAVLHIG	PGPT0013255_9587	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK002_03090	375		COG0789	putative HTH-type transcriptional regulator	ATGAAGTATTTTTCTATTAGCGAAGTTTCAGACATGTACAATATTCCAGAATCAACGTTGCGTTATTACGAAAAAAAAGGACTGCTGCCGCTAGTTGAGCGTGATGAAGCAGGCAGGCGGTTATTTTCAGAAGTTCAAATGGCGCTTCTTCAAACCGTAATTTGCTTAAAAAATACTCGAATGCCAATAAGGGACATTAGGCAGTATATGGATTGGATCCAAGAAGGAGACACCACAATTGAACGCCGACTTGAAATGATGAAGAAACACAAACAGGCCGTGCTGGATGAGATTTCATTAATGACAGATTCTTTGCAAGGTATCGATGAAAAAATAAAGCGCTACACTAATCGGGTTGGGGAGGAACGATCATGA	MKYFSISEVSDMYNIPESTLRYYEKKGLLPLVERDEAGRRLFSEVQMALLQTVICLKNTRMPIRDIRQYMDWIQEGDTTIERRLEMMKKHKQAVLDEISLMTDSLQGIDEKIKRYTNRVGEERS				NA	NA	NA	NA	NA
AK002_03091	762	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAATCTTTCAGGGAATACAATACTTATTACAGGTGGAAGTGCTGGAATCGGATTAGCTTTTGCAGAAAGGTTTATAAATGCAAGTAATAAAGTCATCGTTACTGGACGGCGAGAAAATGTACTTCAACATGCGAAAGAAAAACTTCCAAGTCTTGTAACTCATGTAAGTGATTTAAATAAGGAATCCGAGCGTACAGCATTGTTTGATTGGGTAACAGCGAACTATCCAGAAGTGAGTGTGTTAGTTAATAATGCAGGGATCCAACAACGTTTTAACGTGTTGAAAGCAGATGCGAAGAACAATTGGAGCTATTTCAATAAAGAAATCATAACGAACCTTGAAGCACCTCTCCATCTCTCTATGTTGTTCGCTCCGTTTTTTGCAACAAAAGAATCGGCGACGATCCTTAACGTAACATCTGGGTTAGCTTTTACACCATTTGCGATGGCTCCGATCTATTCAGCAACGAAAGCGGCACTTCATTCGTTTACGATGAGTCTAAGACATCAGCTTTCGGATACGTCCGTTGAAGTCATAGAAGTTGCTCCTCCGGCAGTTAATACAGATTTAGGCGGTGCGGGATTGCATACGCATGGCGAACCATTGGATGCCTTTACGGATGCTATCTTCAACGAATTAGCAAATGGCAAACAGGAAATTGGATATGGTTCTTCTGTAGCCCGCTTGCGCATGTCACGAGATGAAATCGACGAATACACAGATAATATGTATAAGGCCAAGAAAAACACCGTTGAATAA	MNLSGNTILITGGSAGIGLAFAERFINASNKVIVTGRRENVLQHAKEKLPSLVTHVSDLNKESERTALFDWVTANYPEVSVLVNNAGIQQRFNVLKADAKNNWSYFNKEIITNLEAPLHLSMLFAPFFATKESATILNVTSGLAFTPFAMAPIYSATKAALHSFTMSLRHQLSDTSVEVIEVAPPAVNTDLGGAGLHTHGEPLDAFTDAIFNELANGKQEIGYGSSVARLRMSRDEIDEYTDNMYKAKKNTVE	PGPT0013220_235	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0013220-dltE-K14189	NA	NA
AK002_03092	471			hypothetical protein	ATGGAACCCCTAATTGTGCTCATCGTTGTCACCCTTGCCGTTTTCGTTGCGGGAGCGGCGGGAATACGACGTTTACGTTCTTGGCCGGTTGCACTTCGGGCGGGAGTTTCCGCCATGTTTGTGCTGACCGGTACGGTTCATTTTGTTTGGATGCGGGAGGAACTTATAAGTATGGTGCCGTCCAGCTTGCCCTATCCCGGCCTAATCGTTACGATCACGGGGATATTGGAGTTGACAGGAGCTATCGGATTGTTGTGGCGCGCAACTGCGCCATGGGCAGCTGGAGGGCTCTCGCTACTATTGATCTGCATGTTCCCCGCAAATGTTCATTATGCCCTATCAGGACTCGCGACTAAACCGGAAGATGCTTTAATTCCCCGCACCCTGATGCAAATCGTCTTTCTGTCCGCGCCCCTTGCCATCATGATATCTTACTTCCGTCGTCGTCCTGTGCGGCGAAACCTAACATAG	MEPLIVLIVVTLAVFVAGAAGIRRLRSWPVALRAGVSAMFVLTGTVHFVWMREELISMVPSSLPYPGLIVTITGILELTGAIGLLWRATAPWAAGGLSLLLICMFPANVHYALSGLATKPEDALIPRTLMQIVFLSAPLAIMISYFRRRPVRRNLT				NA	NA	NA	NA	NA
AK002_03093	804	uppP_1	COG1968	Undecaprenyl-diphosphatase	ATGACTGAGGTAATTAAAGCAATAATACTTGGCATAATAGAGGGGTTAACAGAATTTTTACCAGTATCGTCTACTGGACATCTTATTTTAGCAGGCAATTTACTTAACTTTGAGGGAGACGCCGCAATAACTTTTAAAATCGTTATACAATTGGGTGCGGTGATGGCAGTTCTAATTCTTTATTGGAAAAGATATTTGGAGATTGGTACTAATCTGATTAGATTGGATTTTTCCCCAAGTAAAGGCTTAAATGTAGTTCATATGATTTTGGCTATGTTACCAGCATTAATTATATATCTTCTCTTCAAGGACACGATAAAAAGCCAATTATTCGGCCCAACCCCCGTCTTGATAGGTCTAGTTGCAGGTGGCTTGTTGATGATCATCGCTGCACGCAGTAGTAGAACTGAAAGCGCTGATACGATGGATGGGATAAATTATAGACAAGCTTTCGGGATTGGACTGTTCCAATGTTTGGCTTTGTGGCCGGGATTCTCGAGATCGGGTTCAACGATTTCAGGTGGTCTTTTGCTTGGTACTAGCCAAAAAGCCGCCGCAGATTTTACGTTCCTTATTTCCGTGCCTGTTATGTTTGGTGCAAGCTTGTTGGATTTGTACGATAGTAGCGATTTGCTGAATTCTGAGGATTTCTATCTAATGATAATTGGCTTTACGACATCCTTTCTTGTGGCAATGATTGCAGTAGTGACGTTCATCAAACTGATTAAGCGACTTCGATTGGAATGGTTTGCTCTATACCGTTTTGTCTTAGCAGCGCTCTTCTATTTAATCGTCATACAGTAA	MTEVIKAIILGIIEGLTEFLPVSSTGHLILAGNLLNFEGDAAITFKIVIQLGAVMAVLILYWKRYLEIGTNLIRLDFSPSKGLNVVHMILAMLPALIIYLLFKDTIKSQLFGPTPVLIGLVAGGLLMIIAARSSRTESADTMDGINYRQAFGIGLFQCLALWPGFSRSGSTISGGLLLGTSQKAAADFTFLISVPVMFGASLLDLYDSSDLLNSEDFYLMIIGFTTSFLVAMIAVVTFIKLIKRLRLEWFALYRFVLAALFYLIVIQ	PGPT0024165_3856	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK002_03094	570			hypothetical protein	ATGAATAAGCAACCTGAAATGACGGACAAAACGAGGCAAACCTTTATTAATGTATTCTGCGATTTGTATTGCCACAAACCAATTGAAAAAATATCCGTTCAAGAGATTGCCAAGCAATCAGGATATAATCGCAGCACCTTTTATCAATACTTTACGGATATTTATGCGTTGTTGGATTTCGTTGAAGAGCGTGTCTTAAAATCCATTCACGAGGAAATGGCAAGCAGGGAGCTTTCTACGCATACTTTACAAGATGCGCTTCAATGCTTGGAAAGTACAGAAGATATTTCTGTCCTAAAAGCTCTCCTCGGTGACTATGGTTCTGTTCATTTTGTTGAACGCCTGAAAAGAGAAATTCCCTTTGAAAAATTGATTGCAGACTTCCCAACAAATGATGTCTTAGCGCCATACCTGGTTGAGTTTTACATATCAACATTACTATCTTTGTTTCGCCTTTGGATACGCAACGGAAAAGATTTATCGTCGGAAGAATTGGTCAAGCTAATCGATAGCCTATTTGCAAATGGGATAAAACCGTATTACATCTTTGGCACGGTCAATGAAGGGTAA	MNKQPEMTDKTRQTFINVFCDLYCHKPIEKISVQEIAKQSGYNRSTFYQYFTDIYALLDFVEERVLKSIHEEMASRELSTHTLQDALQCLESTEDISVLKALLGDYGSVHFVERLKREIPFEKLIADFPTNDVLAPYLVEFYISTLLSLFRLWIRNGKDLSSEELVKLIDSLFANGIKPYYIFGTVNEG				NA	NA	NA	NA	NA
AK002_03095	930			hypothetical protein	ATGAGAATTTTATTCTTCGGTCGAGGCGTCATATCTACCCAATATGCTTGGGCATTCGAAAAGGCAGGGCATACCGTTGAGTTTTACGTTAGAAAAGGGAGAAAAGAAACCTTCGGAAGCCATATCGCGCTTGAAATGTGGGACGCACGAAAAGGGAAACAGCTCATAAATGAAAACTGGAACGTCACACTACATGAGGAGATATGGCCAAATTACGATCTCATTATTGCGAGTGTCAACACGGAGCAACTTCCATCAGCAGCACAGCTCCTATCGACTGCCGCCGGGAACACCCCGATCCTCATCTTCAATAATCTTTGGCAAGACTTAAAATCAGCGATCTCGCCATTGTCTATGAACAAGGTGGTCTTTGGATTTCCAGGAGCAGGGGGCGGCATCACGGACAATAAGCTTAGAGGCGGCTTTTTGAAAATGATATTTCTGGAGAAACCACGGGCAGGCACGGAACAGATGAACAACCAGATCAAAGAACTATTTGAAAGTGCCCATTTTAAAATCAGTTGGATCAAGGATATGCAAAGCTGGCTATGGAATCACTTTGCCATGAATGCGGCGATGGAGGCCGAGGTGTTAAAACGCGGAAGCTTTCCAGCACTTATGAATCATAGTGACTCCTTCGCAAATGTTGGTAAGCATATGAGGGAAATGATGCCCATACTTAAAGCAAGAGGCGCAAAGATGGACGCGATTACTCTACTGCTGACCAAGATTCCACCGGCACTTCTCGGCCCGCTTTTTAACAAGGTTATTTTTGCAAAGGGCAGCTTACCGCGACTTTTCGTCGAATACAACAACAGTAAAGCAGGTTTTGCGGTACTTGAAGTTGTGAGAGAAGCAAAAAAGTTAGGCATACCTTTGCCGCATCTTACGATGGCATTTGAAAATACTGAATATGCAAAAGAAATATAA	MRILFFGRGVISTQYAWAFEKAGHTVEFYVRKGRKETFGSHIALEMWDARKGKQLINENWNVTLHEEIWPNYDLIIASVNTEQLPSAAQLLSTAAGNTPILIFNNLWQDLKSAISPLSMNKVVFGFPGAGGGITDNKLRGGFLKMIFLEKPRAGTEQMNNQIKELFESAHFKISWIKDMQSWLWNHFAMNAAMEAEVLKRGSFPALMNHSDSFANVGKHMREMMPILKARGAKMDAITLLLTKIPPALLGPLFNKVIFAKGSLPRLFVEYNNSKAGFAVLEVVREAKKLGIPLPHLTMAFENTEYAKEI	PGPT0008745_3106	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
AK002_03096	687	tetR		Tetracycline repressor protein class B from transposon Tn10	ATGAAAAAACAGCAACCTCAGATTTCGGAGGATAGGATTTTGGAAGCCTCGTGGGAGTTACTTGGTGAGGAGGGGATCGAGAAATTCAGCATGAGACGATTGGCCGTTAGGCTAGGGATTCAGGCTCCCTCTATATACTGGTATTTTAAGAGCAAGCAGAATCTCTACCAGCGTCTGGCCAACCAGGTATCGAAAATCATTCTGGAGGAGTACCACTCCGAGGGGGACTGGAAGGAGCAGCTGAAGGGACTTGCGGTAACGGTCCGAAGCGTGCTCAGCCGGTATCCTTGCTCCACGCAGCTCATGATGTCGACGCTGCCCCACGAACCGGACATCATCCGGTTCACCAACCGTATGCTGCTCTGCGTGGAATCGACGCCGCTTGAGCAAGAGCAAAAAATACAAACGGTTCTTACGATTATGAATTATGTCTTCAACTTCGTTCTGGATGATTATGAGCACCAGCGCAATGTCTCCGCGATTCTTAAGGACCATGGAGCGGGAGCGCTTCCGGGTGAGGAAATGACTCGCCTTCTGGATTCCATGAGCGAGACGGATGCGGGACTGTTCCGGAGAATGTTCACGAACGGGCTGTTCGAACTAATGGGTACCGACAAGGCGTTCGAATTCGGCTTGAAGCTGATTCTGCTCGGGATTGAGCAGGTGATAAAGGAGCAAGAGAAGTAG	MKKQQPQISEDRILEASWELLGEEGIEKFSMRRLAVRLGIQAPSIYWYFKSKQNLYQRLANQVSKIILEEYHSEGDWKEQLKGLAVTVRSVLSRYPCSTQLMMSTLPHEPDIIRFTNRMLLCVESTPLEQEQKIQTVLTIMNYVFNFVLDDYEHQRNVSAILKDHGAGALPGEEMTRLLDSMSETDAGLFRRMFTNGLFELMGTDKAFEFGLKLILLGIEQVIKEQEK	PGPT0027886_149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027886-tetR-K18476	NA	NA
AK002_03097	1353	mepA_1		Multidrug export protein MepA	ATGGATGCAGAAAACCTCCATTACTTTGAAAAAGCCCCGGTCGCAAAAGCCGTAGCTCACTTCGCTGTACCTATGATGCTAGGCACGTCAATGAGTGTCATCTATTCCATCTTGAATGCCTATTTCCTTGGTACACTTGACAATACCGCCATGTTAACCGCACTCGCATTAACCTTGCCGTTATTCGCAATTATTATGGCGCTAGGCAACTTGATTGGCATGGGTAGCGGTACATTCATCTCCCGTTTGCTGGGTGAGAAAAAATATGATGATGTAAAGCATGTATCTTCATTCGCTTTTTACAGCAGTTTGGTTCTCGGTCTGATTGTGATGGCCATCGGTCTTCCGTTGATCGATCCCATCGTTTATGGTCTGGGGGCAACGCCTGACTCCTTCGGATTCACGAAGGACTATGTCACGATTATGCTTATCGGTTCACCAATCATCGTATTATTCTTCACGCTGGAGAATATCGTGCGCTCGGAGGGTGCAGCCATCACATCGATGATCGGTATGATTCTCAGTGTGGTCGTCAATATTATTCTCGATTCGTTCGTCATCTTCGTTTTTCATTGGGATGTGATTGGTGTAGCGTCTGCTACGGTCATTTCCAACTTGGTTGCTAGTGTATTCTACGCCTTCCATATTGGATACAAGAGCCAATTCTTAACCGTCTCCGTAAAATGGTTCAAGGCTTCCAAGGAGATTCTGAGCAATGTATTCAAAATCGGAGTTCCCGTCTTTATTATGAGTATCTTTTTGGGTGCAATGTCGCTCATCTTAAATCGTTTTCTTATTGAATATGGAGATCCAGCCGTAGCGGCTTACGGAATTTCATCACGTTTATTGCAATTTCCTGAGTTTATTCTGATGGGCTTATGCGAGGGAGTCGTACCGCTCATTGCCTTTTCTTTTACAGCGAATAAATTACGGATGAAGCAAACCATTGGATTTACGATCAAAACGATTGTGGCGTTAGCCGTCGTATTCGGTGTCATCGTCTATCTGATTTCCGACCACTTAATCGGTTTATTTACGAATGACCCGCAATTAATTGAAATGGGCAGCTACATTTTGCATGTGACATTCTTATCCTTGTTCATTACAGGAATGACCACGTTATTTACGGGGATTTTCCAAGCAACAGCGCAAGGAACGGCCGCGTTTATTATGTCCATTATTCAAGGAGTTACTCTGATTCCTGTGCTCTATATCGCCAATTGGATGAACGGCTTTCACGGGGTGATCTGGTCGCTCGTCATTGCGGATGTCGTCGCATTCCTTGTCGGTGCCATCATGCTGTATGTTTTGCGGAACAAATTGCAGCCGGATTTTGATAATTTAGTACAGTAG	MDAENLHYFEKAPVAKAVAHFAVPMMLGTSMSVIYSILNAYFLGTLDNTAMLTALALTLPLFAIIMALGNLIGMGSGTFISRLLGEKKYDDVKHVSSFAFYSSLVLGLIVMAIGLPLIDPIVYGLGATPDSFGFTKDYVTIMLIGSPIIVLFFTLENIVRSEGAAITSMIGMILSVVVNIILDSFVIFVFHWDVIGVASATVISNLVASVFYAFHIGYKSQFLTVSVKWFKASKEILSNVFKIGVPVFIMSIFLGAMSLILNRFLIEYGDPAVAAYGISSRLLQFPEFILMGLCEGVVPLIAFSFTANKLRMKQTIGFTIKTIVALAVVFGVIVYLISDHLIGLFTNDPQLIEMGSYILHVTFLSLFITGMTTLFTGIFQATAQGTAAFIMSIIQGVTLIPVLYIANWMNGFHGVIWSLVIADVVAFLVGAIMLYVLRNKLQPDFDNLVQ	PGPT0028985_194	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MepA,PGPT0028985-mepA-K18908	NA	NA
AK002_03098	717			hypothetical protein	ATGAAATTGATAAACAAAGCTACAGCTGTTATCCTGCTGAGTATTTTGCTAACGATGGCGATGACGGGCTGTTTGTCCAATGGGGCCAAGTCGCCAGAAGCGGTGCAGAACTCGGCTGAAAAAAACACGCCCGACGAACAGGCCAAAGGCGAAGGAGCATCCAATTCTACTGCGCCTGCTTCAGAAAATTCGGAAGGACAAAGTGCTGAAGCTATTAAGGAAGGTTCCATGGAGAAGGAAGGCAATGTGGTGCTGAAGGAGCTTGCTTTTGTCTATAATGAGCACACCATTGCGATTTCGGATACAGCCAATGAAGATCAGATGGAACAGATGCTGGGCAAACCGGAAAACCTGAAATCTCATACGTACCGTGCCGGCGATGGAACAAACATGGATACGTTAATCGGTTTTACAGAAAAGGTTTATACGTATCCTGGTCTGGAGATTAAAACAATCAGTATACCGGAGGGGAAACAAGACTCCATCTTTCATATCGAAATTACAGATCCTAAGTACGCGACAGTGCGAAACATTAAAACAGGAGATAGCCTGGATACACTCAAAAACGCCTACCCTGAGGGGAAACTGCTTGGTGATGGAGCCCCTAATGAGGAGGATGACTTCCGTTACGAGCCATCCAATTATGTGGATGTGATGTCGTTTCATATCAAAGATGGCAAGGTGGAGAGCATTCAGATCTACAGCCTCCTGGACTAA	MKLINKATAVILLSILLTMAMTGCLSNGAKSPEAVQNSAEKNTPDEQAKGEGASNSTAPASENSEGQSAEAIKEGSMEKEGNVVLKELAFVYNEHTIAISDTANEDQMEQMLGKPENLKSHTYRAGDGTNMDTLIGFTEKVYTYPGLEIKTISIPEGKQDSIFHIEITDPKYATVRNIKTGDSLDTLKNAYPEGKLLGDGAPNEEDDFRYEPSNYVDVMSFHIKDGKVESIQIYSLLD				NA	NA	NA	NA	NA
AK002_03099	1389	sasA_14		Adaptive-response sensory-kinase SasA	GTGCTGTCCTTTGGCATCATCATTTTTGCGGTGAATAAAGCCATCGATCACTACAGCTTCATTACCATTGAAAAACAGATGATGGAGAAGGCGGATCTGTCCGAGTTGTCGTTCCGTGAGGTGTTGGCACAGCATAGATCATCGACAGGAGAACCGCAGACAGAAGAAATCGTCAGACTTGCTCTGGAGAAGCTGAAAGCTTCAGGCAAGGAAGTACGCATCTATGATAGCTCCAAGCAGCTGCTGGGCTTGGCTGTGGATGGCATCATCATTAATGATGGCAAACCTCTTATTTTTGAAAAGAATATCGAGAAAGCCCTGAGCGGCAGTTACGCCTACACCGTAACGGAAGATCATCTGCTTTATTTTGCCACTCCCATTCAGGATCAATACTACCAAAACGCTTATGTGTATGAGTTCGTGGAGGACATTTCCTACTTTTATGCGATTATGGATCAAATCCGTTATGTCCTATTTGCGGGTGCAGGCGGATTTATTGTACTGATTACGTTATCCAGTCTGTGGATTGCCCGCAACACAACCAAGCCGATTAAGCTGTTGCTTGGCGCTGCGCAAAGTTTCTCTAGACAGGAGTTTCGGAGAGTTCATCTAAACCGGAAGGATGAGCTGGGCATGCTGGCGGATGGGCTGGATTCCATGGGGCGGCAGCTTCATGATTACATTCAGTACCAGAAACAATTTGTCTCGAACGTATCTCACGAGCTAAAAACACCATTGGCTGCCATTCGTGGTTTCTCTCAATACTTGGTTGAAGGGGAGAACGAGAACAAGGAGCTGCAAAAAGTCTATGCTCATCTGCTGCAGGAATCGGATCGGCTGACGCGCTTGATTAATGAACTGTTGTTGCTATCCCGATTCGACAAGGCTGGTTCTAACGAACTGGAAGTAGAGAAGACGGAAATGAACGAACTGATTCAGCAAGTCGCAACGAGTCTGGGTGCCAAGGCCAAAGAGAAAGGAATCGAGATTATGTTCAGGGAGGCGGAGGCGGAAGCGGAACCGGAGGATAAGCTTCTGACGAGAGTCCACGCCAACGTGAATCCAATGCTGATGTCCCATGCGATCGCCAACCTTGTGGACAATGCCATCAAATATTCAGGCAGTCCATCGCTAATCGAATTGAAGCTTACACATACGCCAAGCGAGGTCGTTATACGAATACGTGATCAAGGTATCGGTATCGCGGGCGATGAGCTGGAGAGAGTGCAGGAACGCTTTTACCGGGCGAAAAATGCAAGCACAGCGAACGGTTCAGGTCTTGGACTTTCGATTTGCAAAGAGATTGTAGAGCGGTTTAATGGATATATCGACATGGAAAGCCAAATCGGGGAAGGAACGACCGTTACGATCGTGTTACCCCGTGCGTAA	MLSFGIIIFAVNKAIDHYSFITIEKQMMEKADLSELSFREVLAQHRSSTGEPQTEEIVRLALEKLKASGKEVRIYDSSKQLLGLAVDGIIINDGKPLIFEKNIEKALSGSYAYTVTEDHLLYFATPIQDQYYQNAYVYEFVEDISYFYAIMDQIRYVLFAGAGGFIVLITLSSLWIARNTTKPIKLLLGAAQSFSRQEFRRVHLNRKDELGMLADGLDSMGRQLHDYIQYQKQFVSNVSHELKTPLAAIRGFSQYLVEGENENKELQKVYAHLLQESDRLTRLINELLLLSRFDKAGSNELEVEKTEMNELIQQVATSLGAKAKEKGIEIMFREAEAEAEPEDKLLTRVHANVNPMLMSHAIANLVDNAIKYSGSPSLIELKLTHTPSEVVIRIRDQGIGIAGDELERVQERFYRAKNASTANGSGLGLSICKEIVERFNGYIDMESQIGEGTTVTIVLPRA				NA	NA	NA	NA	NA
AK002_03100	708	walR_6	COG0745	Transcriptional regulatory protein WalR	TTGAAGAAAATACTTGTCATTGACGATGAAGCCGCAATCAGGGATTTAATTGAGCTCGTACTGAGAAGAGAAAACTACGTCGTTCAAACGGCTGAAAACGGAAAAATAGCCCTGCAGCTGCTGGATGCTTTTGGACCGGACCTGGTGGTGCTTGACTTGATGCTGCCTGACTGCTCCGGATATGACCTGTGCAAGGAAATCACCGGGAAACGTGCCGTTCCTGTGATCATGCTCTCTGCCAAAAATGAGGTGATCGATAAGGTGCTGGGACTAGAGCTAGGGGCGGAAGATTACATGACCAAACCCTTTGACAATCGTGAATTGCTCGCTCGGATCAAGGTGATTCTGAGAAGAAACGAGAGCAAGGAGGAATCAAGTGAAGGAACAGAAGTGAAATCTACACGCATCATTCATGAAGAGCTGACATTTGATCTGGAAAGCCGAAGGGTGCTGAAAAACGGTGTACCCGTGTCTTTAACGGCCAAAGAGTTTAAAATTCTGGAAACGTTACTCAAAAGGCCGGACAAAATCTTTACCCGGGATGAGCTGCTGCAGATCGGATGGGGATATGACTTTATGGGAGACAGTCGCAGTGTGGATATGACCATCATGCGATTACGGAAGAAGCTGGAGGATAACGCGGACGAACCGAAGTATGTCAGGACGATCTATGGATTTGGCTATCAACTTGGAGGTGGCGAGGCCTGA	MKKILVIDDEAAIRDLIELVLRRENYVVQTAENGKIALQLLDAFGPDLVVLDLMLPDCSGYDLCKEITGKRAVPVIMLSAKNEVIDKVLGLELGAEDYMTKPFDNRELLARIKVILRRNESKEESSEGTEVKSTRIIHEELTFDLESRRVLKNGVPVSLTAKEFKILETLLKRPDKIFTRDELLQIGWGYDFMGDSRSVDMTIMRLRKKLEDNADEPKYVRTIYGFGYQLGGGEA	PGPT0013765_409	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_03101	660			hypothetical protein	ATGCCAAAAAGTACTTTCTTTCGTTTAGATGAAGCAAGGCGCGAGGAAATATCTAATAGCGCTATGCATCTTTTTGTTGATCATCTTTACGAGGATATAACTATGAAGATGGTTTTGGATCGTATGTCCATGCATCCCGGAACATTTTATCGGTATTTTGAAGACAAAGATGACCTATATTGTCTCTTAATACGTAATGTGACCCAGAAAAGAGCTGCGTTTTTTAATAACAGTAATGAAGATTCCCTCCTCCAGTTTTTCCTTACTGGCTTATTTGGTAACGTTAATGGCATTGTGACCGAGCCACTGAATGAGTTGGAAATCAAACTCACTGAAACACTTTTATACATTCCTGAGAACATTTTGCTTAAAATATATCTGAATGTGCTAAAGGGGGAGTCATTCCCCTTAATCAAGGATATTTTACGCCGAATGAGGGTTGATGGATATCTCCGACCTGATATTGACGACGACCTGATTTCTTTTATGTTTGAGTCGATGCAGTTTAATTTAGTCATGTTTTTTAGGGAATTCGATATTAAGGACTCTAAGCTGCAACATAAGATTAGCAAGTATTTTGCTGACTTTATGAGTCATGGGCTGCTTGAAGATCATAAATATACTGAAATGGTTAGCGATCTCAAGAAAGCCAAGGAGTAG	MPKSTFFRLDEARREEISNSAMHLFVDHLYEDITMKMVLDRMSMHPGTFYRYFEDKDDLYCLLIRNVTQKRAAFFNNSNEDSLLQFFLTGLFGNVNGIVTEPLNELEIKLTETLLYIPENILLKIYLNVLKGESFPLIKDILRRMRVDGYLRPDIDDDLISFMFESMQFNLVMFFREFDIKDSKLQHKISKYFADFMSHGLLEDHKYTEMVSDLKKAKE				NA	NA	NA	NA	NA
AK002_03102	1137			hypothetical protein	ATGAAAACTTTTGACGCATTTCCGGAACCAATCGGCAGCTATGCTGTCGGTCGAACCCAGATGGATTTTGAGTATACGGCATCAGATCATTCAAAAAGAGAACTGACGGCGTTTGTGTACTATCCGTCCGACAGTAGCGAAGGTAAGACTACATCAACGTACATGTTTCCTGAAGTCTACGAAATGCTTGATGAGCAGCCACTTCTCGCTCCGTTGAAGGATGCTTACTCTATAGATATCAAGACCCAGTGTTACGACGATCTTGCTCTCTCCGGGAAGGAAAAGCGCTATCCGGTATTATTCTATGTTTGCGGCGGGGGCGGTTCTCCAGAATGGGGTACCGTGATCTGTACTGACTTGGCAAGCATGGGATATGTTGTGGTAAGCATCGGGCATCCGAATAGCACGATGTATAAGCGTAAAGATGGGCGCCTGTTTAATGTATCAAAGGATTTTTCGGATGTCATTATGGCGTTTTCTGAAGATCCAGAGATGATGGCGTTGGCTGGTAAGATGAAGATGCGGCCTGACGATGAAACAGCCATTGAGATGTGCCAAAACGTGCTTACACTGCCGATACTTGCCAAGTTAACAGAGTATAGCGAATTACAGGCAGAAGATGTAAGGTATATAGCCGATTATCTTTATAAACTGGACTCTGGAGAGCTGAATTCCATCTTTAAGGGCAGATTGTTGCTTGACATCGGCATGGGCATAGTCGGACATTCTTATGGAGGGCCTACGACGGCGATGGTTTGCCGGGACGACGACCGGTTCGCCTGCGGGATTGGCTTGGATAGCGGTGCGTTCGGCCTTCAGGGCAGCGACCTTAAGAAACCCTTCTTGCTACTGTTTTGCGAACCTAACTATAACATGAATGCGATAATTGGCGCTAACAATAGCATGGAAACCTATTATTTCTCTGTTGATCGTGTTGCGCATTTAGATTACTGCGACATCGTGTTTACCAGTGTTAATGAGGAACTCAGAGGCGAACGGGATGCTATGGAGATGCGAAATCTTGTTACAGACTACACGAAGAACTTTTTTGATCATTACATACTGCAGAATGCTGCAAGCGTGGAAAGTCTGGCATACGATGGCGTGGACTTGATCAAGAAGACCAGCAACAAGTGA	MKTFDAFPEPIGSYAVGRTQMDFEYTASDHSKRELTAFVYYPSDSSEGKTTSTYMFPEVYEMLDEQPLLAPLKDAYSIDIKTQCYDDLALSGKEKRYPVLFYVCGGGGSPEWGTVICTDLASMGYVVVSIGHPNSTMYKRKDGRLFNVSKDFSDVIMAFSEDPEMMALAGKMKMRPDDETAIEMCQNVLTLPILAKLTEYSELQAEDVRYIADYLYKLDSGELNSIFKGRLLLDIGMGIVGHSYGGPTTAMVCRDDDRFACGIGLDSGAFGLQGSDLKKPFLLLFCEPNYNMNAIIGANNSMETYYFSVDRVAHLDYCDIVFTSVNEELRGERDAMEMRNLVTDYTKNFFDHYILQNAASVESLAYDGVDLIKKTSNK				NA	NA	NA	NA	NA
AK002_03103	3129			hypothetical protein	TTGAAAGCGGTTTTATGGGATAGGAAAAGATTCAGGTATTTGCTGTTTTGTCTCGCAGTGCTGCTGATGCTGCCGCAATGGAACGGAGCGGCTATGGCGGCAGGGGAACCGCCAGATAGGGCGGTTTTGGCATCCCGACAGGAGGGAAAGGATATGTCTGATTTCTACAATGTTATCATGCAGACAGGGGCCGACCCTTGGGTTTACAAGCATACGGACGGCTACTACTACAATGTGTTTGTCAATGCCAGCGGCATCATGATCCGCAGAGCGAAGACGATTACCGGCATTGATGCGGGCGAGAGAAGCTTAGCCTGGACACCGGTTAAAGGTACCATGTACAGTTCCAATGTTTGGGCGCCTGAGATGCACTATCTCAAAGATAGCGATGGCCTATTCAAATGGTATATCTACTTTGCAGCCGACGACGGAACCAATGCAAACCACCGCATGTACGTGCTGGAGAACGCCAGTGATAATCCGATGACGGGAACCTGGGAGTTCAAAGGGAAAATTACCGATTCCACCGACCGTTGGGCAATTGACGGCACTGTGCTGACTTTAAATGAGGATCACTATTTTATTTGGTCCGGCTGGGAGGAAACCGACGGAAGCTTTCAAAATTTATATATCGCAAAGCTGAGCGATCCACGGACCATCAGTTCGGAACGGGTCCTGATTTCAACGCCTGAATATGACTGGGAAACTTCCCCGGGGAGGATCAATGAAGGGCCCGAGGTCACTGTAAAGGGTGACACGATCAATCTGATCTATTCGGCCAATGGAAGCTGGACAGACAGTTACTCCCTCGGGTTGATCACGGCCAAGATTAGCGACGATTTAATGAACCCTGGCTCCTGGGTAAAGCGGGATAAGCCGATCTTTTCTAGCGCCAATGGTGTTTACGGCCCTGGCCACCATAGTATCGTCTCGTCTCCTGATGGTGTGGAGGACTGGATCATTTACCATGCTGCCCGCTGGCCGGGGTCAGGCTGGACCCGCAAAGTCTACGCACAGAAATTCACTTGGAATGACGACAATACGCCGAACCTGGGAGAGCCGGTAGATCCGAACATACCGATTGCCATACCTTCCGGCGAGCCGATGCGGAAGCGCTATGAAGCGGAACATGCGTTGCTGGTGAAGGATCCGATTGGAGAAACTTCTCCGGCTGTCCGGCGGGAAAGCACGGCATCAGGCGGGATGAAAGTCGCGAGAATTAAGAACGCTAATGATTATGCCCAGTTTACAGTAAATGTGCCGGAGGCGGGATTCTATAACCTGTCCGTGCGCAATGCCAACGGCTCCCCCAATGCGGCGGATGCCTCCCATATATTGTCGGTGAACGGCAGCTCCGGTGCCAAATTGAACATCGTCTATTCTGGTCCGAATCGTTGGGGAGCCTCCACGGCGAAAGTCTTCCTTAAGGAAGGCGACAACATCATCCGCTTCTCGAAAGGGAGCAATCTGGCCGAGATCGACAGTATGGATCTATTTAAGCTGGATACATCGGATATTTTATTTGAATCCCCGGGATTCACCCTGGGGTTGAACGAAACCCGCCGTTTGCCCCTGTATACGGTAACGGGCGCTACCTATACCGCTATCGATACAGGTGCTGCCTTCAGTTCTTCCGACACGAAGGTAGCCATTATTGATGAAGGGGATCAGATTAAAGCTGTCGGGGCGGGCAGTACGACAATTACCGCGACTTATAATGGGAAAACAACAACGGCCGCGGTAACCGTAGTCGCAGAGCCCAGATCAGTGCAGTCTTTTGACATGAGCGGATTGGACAGCGTCCTGACCAGCGGACAGCGAAGCCTCCCATTACAGGTAACTGCTCGCTATAACAATTATGAAATGAAGAATGTGACAGCTGATGCTCAGTATACCAGCAGCGATCCCGGGGTGGCCCGGATTGATACTGTCTCGGTCACCCCTTCGGTATACGCAGATAAACCGGGTACAGCTCTTATTACAGCCGAATACAACGGCAGCAAAACGGCAATCCATTTGACGGTAATCAAGGCTTCTGACGCGGTTCAGGTGGTTTCCGAATTGAGGACTCCTTCCGGAGTGACTCCTGATTCGCCCAGCGTTGTGGATGTTGTATACAATAGCGAGTTGATGACGGCGGAAGTTGTCAGCTGGAAGCCGGAGGGAATGGACTTCAGCTCTCTTGGTACGGTTCAGGTGCCAGTCATTCTGAAGGTGGATGGCCGAGATATTCCTTCCACTGTATCCGTAGTAGTTGTTGCAGGATGGGGCCTTGATGACATTGTGGACCAGCTCCGCAATAGACTGGCGAATTTCTCTTATCCGTTGGGCACTGGGTTAGGCAACTATAGCCAATCCAAGTATGACGCTTTTGTGTCCGAGGTGGATAAAGCGGAGGAGATGGCCTCCAACCCGGATCTGAGCAAAGAGCAGTTTGACGGGCAGCTGGATAATCTCGCTCAAGCGGAAGAGGCTCTGTTAGCTTCACTTAACCTCGTACAGGATGGCGTTGCCTATAACGCTTACCGGGATTTCTCCGGCGATACGGTAGGCAAATACCCTTACGGTATCACCACCGAAGATCTGACCAATGGAGCTACCGCAACGGTAAAGGAAGAGGATGGGAATAAATTTCTTCGACTGACCACGACCGCTACCTCGGGCAAGGCAAACCTGTTCCTGCCATATACAGGGGAGGTAAAAGCGGAGGGGGATCAGCGCATCGTCATCGAATATCGCGCCAGATTAAACAGCAGCTTCCAATACGCGAATGGCGCCATGATGAGAAACGACAGCGGTACCGGCAATTATTCGATGGTCACTGCTTTTGATACCGGTAAGTTTATTGTACAGAACGGCGGATCCAAGAAAGCAGTCCAAAACGTGTCCTACAATACATGGTACAAAATCAAAATGGTGGCCAACTGGGATAACAAAACCTACAACGTCTACCTCGACGATGTTCCGGTAGCTACGGATTACAATTTCCGCCATACAGGCGGTGACAAGCTGATCGGACAACGGTTCGGGATCGACGGATACGCCAATGCCTCCATCGATTTTGATGATTTCAAAGCTATGGTCATCTTCCCATTCGATGGGCCCATGCCTATTCAGGAAGAAAGGTAA	MKAVLWDRKRFRYLLFCLAVLLMLPQWNGAAMAAGEPPDRAVLASRQEGKDMSDFYNVIMQTGADPWVYKHTDGYYYNVFVNASGIMIRRAKTITGIDAGERSLAWTPVKGTMYSSNVWAPEMHYLKDSDGLFKWYIYFAADDGTNANHRMYVLENASDNPMTGTWEFKGKITDSTDRWAIDGTVLTLNEDHYFIWSGWEETDGSFQNLYIAKLSDPRTISSERVLISTPEYDWETSPGRINEGPEVTVKGDTINLIYSANGSWTDSYSLGLITAKISDDLMNPGSWVKRDKPIFSSANGVYGPGHHSIVSSPDGVEDWIIYHAARWPGSGWTRKVYAQKFTWNDDNTPNLGEPVDPNIPIAIPSGEPMRKRYEAEHALLVKDPIGETSPAVRRESTASGGMKVARIKNANDYAQFTVNVPEAGFYNLSVRNANGSPNAADASHILSVNGSSGAKLNIVYSGPNRWGASTAKVFLKEGDNIIRFSKGSNLAEIDSMDLFKLDTSDILFESPGFTLGLNETRRLPLYTVTGATYTAIDTGAAFSSSDTKVAIIDEGDQIKAVGAGSTTITATYNGKTTTAAVTVVAEPRSVQSFDMSGLDSVLTSGQRSLPLQVTARYNNYEMKNVTADAQYTSSDPGVARIDTVSVTPSVYADKPGTALITAEYNGSKTAIHLTVIKASDAVQVVSELRTPSGVTPDSPSVVDVVYNSELMTAEVVSWKPEGMDFSSLGTVQVPVILKVDGRDIPSTVSVVVVAGWGLDDIVDQLRNRLANFSYPLGTGLGNYSQSKYDAFVSEVDKAEEMASNPDLSKEQFDGQLDNLAQAEEALLASLNLVQDGVAYNAYRDFSGDTVGKYPYGITTEDLTNGATATVKEEDGNKFLRLTTTATSGKANLFLPYTGEVKAEGDQRIVIEYRARLNSSFQYANGAMMRNDSGTGNYSMVTAFDTGKFIVQNGGSKKAVQNVSYNTWYKIKMVANWDNKTYNVYLDDVPVATDYNFRHTGGDKLIGQRFGIDGYANASIDFDDFKAMVIFPFDGPMPIQEER	PGPT0019091_49	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
AK002_03104	1830			hypothetical protein	ATGAAGATCAGTAGACTGAAATTGAAGCATCAGATATGGCTTATCTTTTTTTTCTCCATCATCATTTTTACTGTCATGGAATTTTATTATTATTATAGTTTCTCTAATTTGACCCAGAAGAGAGCCGCCCATTACAGTAACCAGATGATAGAACAAACACGCCGCAAAATTGATTCTGCATTTAGTGATATCAGGGTCAGCACCAGCATTGCGGTCAATAGCAGACGGGTTCAGGAATTTTCTGTAGTGGATGATGATTACCAAAGGGCGTTTAATAGCGGTCCAAATGCATTGGATCTCATGGAATATATGAGATCCTTTAATTCGTATGTGGACGGAATTGTAATTAATGATATTCGGGGAAGACGGCTTTACAGTTTGGCATCAGCAAGCGGAGATATTTTTTTTCTCAATCGTTACGATACCTTTATCCAGAAGTATAAGGAAGATCCCTCACTGCGGGACAAGGGGATGTTCACCTCGATTCTAAAAGACGACAGAACAGGAACGGAACAGTTCTTTTATATAGCGCCGATTGTGGAGGCCATCGGGGGAATCTATTTCTCCCAAATTACGGGTTACTGTACCGTTTTGGTCAATATGGACAAAATGCAAGGGCTTGTAGAAAATACGGAATTAACGCCCAACTCTACCTTATACATTCTGAATAGCCGGGATGAGGTGATTGCTTCCACCAATTCCAATGCCCGAGGTGCGTTATTCAGAGATGTTCTGTCTATGGATAAGGGCCTCCTGCTTAAAGGGGTCAAAACAACGATCGATGGGGAGGATATTCTTGTCCAGGTTAAGGGTTTGGAGCAGGCAGACGGGTGGCGGGTAGTGAGTATGATTCCAGTGCAAGAGCTTACCGCAGACATGAACCCTATACGGAAAATCAGCATTATCGTGGGGATTGGGATGATTCTAAGCATGCTTATCATGGGCAGTTTCTTTATGAACAATCTGATGCGTCCGGTGATGGGACTTGTTCTGGATATGAAGAGAGTGGGGAGCCGGGACATGGGCTTCCGCATTAAAGTCCGGTCTACCAATGAAGTAGGCATGCTGGCCTGCGACATTAACCGGGTAATCAATGAAAGGGAAGAGATGGCAAGAGATATGATCAATACCCAAGCCAGATTATATGAATCTGAGCTGAGTCAAAAACAGGCGGAGTTTGCTGCCCTGCAAAGCCAGATCAACCCCCATTTTCTCTATAATACGCTCAATTGCATCAGCAGCATCGGATTGGAATACGGAAGCAGGGAGATCGCGCAAATTGCATCTTGCATGTCCAAAATATTCCGGTACAGTATAAGAAAAGATGATCTTGTACGGATAAAGGAAGAGCTGGACTGTATTCAGGCTTATATGAACATTATCGCCATCCGGTACGAGAATAAATTTATCATCGACATCGATGTGGACGAGGGACTCCTGGAGATGCAAACCCCCAAGATGATTCTCCAACCCATTGTGGAGAATGCGGTCTATCATGGGCTGGAGCGGATGGATCAAGGGGGCCGGCTTCAAGTTACCGGGAGCATTGATGCGCATGGGGACGTGTGCTTCCAAATCACGGATACCGGGAAGGGAATGGACCCGGAGCAATTGGCTTCCCTTCAGGCTAAGCTGGGCATGGCATCCCCGGAACCTGCACCAGATGGCCAACCTGCTACAAGCATCGGACTTTCCAATATCCATAACAGGCTTCGGCTATTGTTCGGAGAGGGTTACGGGATCGCTATAGAAAGCCAGCTCGGCCATGGGACGACCGTGACCGTGAGGATTCCAAAGCTGTTAAACAACCGCAAACATTCGGAAGAGTAA	MKISRLKLKHQIWLIFFFSIIIFTVMEFYYYYSFSNLTQKRAAHYSNQMIEQTRRKIDSAFSDIRVSTSIAVNSRRVQEFSVVDDDYQRAFNSGPNALDLMEYMRSFNSYVDGIVINDIRGRRLYSLASASGDIFFLNRYDTFIQKYKEDPSLRDKGMFTSILKDDRTGTEQFFYIAPIVEAIGGIYFSQITGYCTVLVNMDKMQGLVENTELTPNSTLYILNSRDEVIASTNSNARGALFRDVLSMDKGLLLKGVKTTIDGEDILVQVKGLEQADGWRVVSMIPVQELTADMNPIRKISIIVGIGMILSMLIMGSFFMNNLMRPVMGLVLDMKRVGSRDMGFRIKVRSTNEVGMLACDINRVINEREEMARDMINTQARLYESELSQKQAEFAALQSQINPHFLYNTLNCISSIGLEYGSREIAQIASCMSKIFRYSIRKDDLVRIKEELDCIQAYMNIIAIRYENKFIIDIDVDEGLLEMQTPKMILQPIVENAVYHGLERMDQGGRLQVTGSIDAHGDVCFQITDTGKGMDPEQLASLQAKLGMASPEPAPDGQPATSIGLSNIHNRLRLLFGEGYGIAIESQLGHGTTVTVRIPKLLNNRKHSEE				NA	NA	NA	NA	NA
AK002_03105	1443	rhaR_33		HTH-type transcriptional activator RhaR	ATGTACAAGGTCATGATTGTAGATGATGAGCCGTGGGCAATTAAAGGAATCCGCAACGCCTTCGATTGGGATAAATATGGATTTGAAATTATCGGGCAATTTAAAAGCGCTTACAAAGCATGGGATGCCATAAAAGCGGATAAACCAGATTTGGTATTTACGGACATCCGTATGCCTGAGATATCCGGACTGGAACTGATGAAGAGGGCCAAAGTAGAAGGGCTGGACATTGAGTTTGTCATCGTAAGCGGATATGCGGAATTTGAATACGCCCAGAAAGCGTTGCGCTACGGCGCGCTGGATTATTTCCTGAAGCCTCTGGATATCGATAAGGCTGACCCCTTCATTGCGAAGCTGGCCATGCATTTCTCCCGAAGAAGCACCGCACGGAACCAACTCCTTCTGGATGCGCTGACCTCGGCGAATGAGGACGCGATAAAGAGCTTACTACCGCTTCCCGATGATGCAGCTGTGTATTATTATCAGGTGTTGACCATCTATTTCGAGGGAGAACATAAAAATATAAGGAACATGCTTTCTTTGGAGGGAAAGCCTGTTCATGTTGTGGAAGTTGAAGCTGGAGCCCGAAAAATGCTGGTTGTCCTGATGACGGAGCATAGGGACTATCTGGAAGGACATTCGGATAAGTGGGCTCTGAATAAGACGGGCATCCATGTTATGGGCGTCAGCAGCATCTCTAATCAACTAAAGCACATGAGCAAGCTGATTAAAGAAGCAGACCTGTCCGCTTCCCAGGTTTTTCTTGAAGAAGCTGGGGGCGTCGTTCACTACGAGCCGAAGCTTCATCTGGTGAAGCCATGTATCGATGAAATCCACCACATCCTACAGGGAAATCAATTTGACGATGTGGATGCGTACATTAAAGGGCTGCAGGCATATTTCAGGGATCATCATCTGGGCATGTCTGAGGTTGTTTACCTGTGGAATCAAGCCGTCGGGATCCTTATAAAAGCATATTCTGAGGAATTGAAGGATATGGAACTGGAATTCCTGAATTATTCCGAGATCAAGGAACGATTTGAACACTTTGAGTCGCTATGCAGCTTTTTACATGAGGTTCTCGACTCCATCAGGATAGGAAACAGCCGCTCTTTGCAGGAAGGGGACATCCAGTCCTGCTTCAACAGGATGATAAATTATATCAACCATCATTTTGAGCAGAAATTGTATTTGAAGGATTTATCTGCCCAGTTCTTCATTAACCAGGTGTATTGCTGTCAATTATTCAGAAAAAATCTGGGCAAAACCTTCTCTGAATATGTGTCGGAGCTGAGAATCAAGAAAGCCCGTGAGCTCCTGAAGCGTACGGATCTATCCATTGAAGAAGTGGCCATAAAGGCCGGGTATGTCGATTATTATTATTTCAATAAAGTGTTCAAGAAGCATTGCGGGATGACCCCCGCCAAATTCAGAAAAAGTTGA	MYKVMIVDDEPWAIKGIRNAFDWDKYGFEIIGQFKSAYKAWDAIKADKPDLVFTDIRMPEISGLELMKRAKVEGLDIEFVIVSGYAEFEYAQKALRYGALDYFLKPLDIDKADPFIAKLAMHFSRRSTARNQLLLDALTSANEDAIKSLLPLPDDAAVYYYQVLTIYFEGEHKNIRNMLSLEGKPVHVVEVEAGARKMLVVLMTEHRDYLEGHSDKWALNKTGIHVMGVSSISNQLKHMSKLIKEADLSASQVFLEEAGGVVHYEPKLHLVKPCIDEIHHILQGNQFDDVDAYIKGLQAYFRDHHLGMSEVVYLWNQAVGILIKAYSEELKDMELEFLNYSEIKERFEHFESLCSFLHEVLDSIRIGNSRSLQEGDIQSCFNRMINYINHHFEQKLYLKDLSAQFFINQVYCCQLFRKNLGKTFSEYVSELRIKKARELLKRTDLSIEEVAIKAGYVDYYYFNKVFKKHCGMTPAKFRKS				NA	NA	NA	NA	NA
AK002_03106	1602			hypothetical protein	GTGTATAAGGGCTTAAAGAAGAAAGCAGCAATTCTATTTAGCACAGTGCTTCTAGCCGTAGGAGTGGCAGGCTGTGGTGGCGCAGGCAATAACAATGGGGAGACGGTATCAAAAGGGTCCAACGCATCGGAAACGGGCTCCGGTTCCCCAGTAACCTTGACAGTGGAAGTGTTTGACAGAGGTATTCAGGGACAACCGGACTTGAACAACAACACGTGGACCAAATATGTCAATGAAAAATTCGGAAAGTCTAATAACGCCATTGTAAAATTTGTTCCTGTCCCCCGTTCCCAAGAAGTCGACAAGCTGAATGTGTTGATGGCTGCCAACGAAGCTCCTGATATTTCCTTCACCTATGACGGGAATACCGTAACCCGTTTCGCAAAAAGCGGTGGCCTCTATACACTGGATGAATTGTTGGAGAAGCACGGCCAGCAATTAAAGTCTTATCTGGGCGAGAACGTTCTTTCCTACGGGAAATATGAGGGCAAACAAATCTCGATCCCAGGCAAGCGGACTCTGATCGCTTGGAACGGCATGTTTATCCGCAAGGATTGGCTGGATAAGCTGGGAATGCCTGTTCCAACGAATCGGGATGAATTATATAATACCCTCGTTGCTTTCCGTGACAAGAACCCGGGTAATGTGGATGGCGTCATTCCGTGGGCAACTGCTGCTTCCGGCATGAACTACACCTTTGGCAACCTGATTCCTTCGTTCTGGGGTCCGATGTCGGAGGAGGAATTCGTTACCACCACCAATTGGCTGAAGCCCGGCACCAAGGATGCGTATAAATGGCTGAACAAACTGTACAATGAAAAGCTGATCAGCCCCGACTTTGCGCTGGATAAAACAACCAAACAAGCGGATGCCGATGTGACCAACGGCAAGGTAGGCTTCTACGCCGCCAACTGGGATTATCCACTATCACAAAAAATTCGTGAACCCCTAAAACAAAATGCACCTGATGCCAACTATGTTGCTGTAGATACCTTCAAAAACGATGAGGGGAAATACCTGAAAGAGATGTACAACGAAAACGGGATTTTCTCCTTCATCCCGAAAAGCAGCAAGAATGCGGAGCTGGCCATAAAGTATCTGAACTGGATGGCTGATCCGGAGGTGATGTTCTTCCTTCAGTTTGGCGAAGAAGGCGTCAACCATAACCTTGTAAACGGCATCCCGCAAGGGATTGCGCAAACCGGCGAAAATATGCAAACGAGCAATCTGAATATGGATTATACTCTAATTGTAAACGGTGCAGAGCTGGGCGATACCGAAAAGAATGTCCGAACGTACGCAGCAGCCTTAGCAGCCGGAGATCAGAGCTATGAAAAACTGGCTGTCGATTCATACAAGATCAATACGACGGATGGTTATACAGGCTTCTATTACGGCGTCTCGAACGAAGCTAGTATCAAGTACGGCAAAACGTTGGGTGACATGAACAAGCAAATGAGTGATAGGCTGGTCGTTGCCAAGCCGGCAGAGTTCGACGCCTTGTATGACAAGCTGGTGAAGGAATATATGGACGCCGGCGGTCAGGCTGTTCAGGATGAGAATATTAAGAACTACAGAGAAATCAAAGCACAGAGCAAGTAA	MYKGLKKKAAILFSTVLLAVGVAGCGGAGNNNGETVSKGSNASETGSGSPVTLTVEVFDRGIQGQPDLNNNTWTKYVNEKFGKSNNAIVKFVPVPRSQEVDKLNVLMAANEAPDISFTYDGNTVTRFAKSGGLYTLDELLEKHGQQLKSYLGENVLSYGKYEGKQISIPGKRTLIAWNGMFIRKDWLDKLGMPVPTNRDELYNTLVAFRDKNPGNVDGVIPWATAASGMNYTFGNLIPSFWGPMSEEEFVTTTNWLKPGTKDAYKWLNKLYNEKLISPDFALDKTTKQADADVTNGKVGFYAANWDYPLSQKIREPLKQNAPDANYVAVDTFKNDEGKYLKEMYNENGIFSFIPKSSKNAELAIKYLNWMADPEVMFFLQFGEEGVNHNLVNGIPQGIAQTGENMQTSNLNMDYTLIVNGAELGDTEKNVRTYAAALAAGDQSYEKLAVDSYKINTTDGYTGFYYGVSNEASIKYGKTLGDMNKQMSDRLVVAKPAEFDALYDKLVKEYMDAGGQAVQDENIKNYREIKAQSK	PGPT0017245_2096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03107	897	dasC_7	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGGTGAGGGTGGCGAGCAATAAGCGCAAGATGAAAAAAATGACTGTAGCGGATATGGCCATCATTGTATTTATCGTGGCATTGTCCTTCACATGTATCGTACCGTTCCTGTACATGATTGCGCTTTCTTTCAGTTCCAACGAAGCGATTATTTCTCAAAAGGTAGGACTGTGGCCAGTAGACTTCACAGCAGAAACGTACAAAACCATATTGAGCGATATGGATATGCTATATACGCTTGGATACAGTATTGTGCTTACGATATTCTACACTTTGGTATGCATGTTCCTGACCATATGTGCAGCGTATCCGTTAACGAAGAAGCGGCTGAAGGGAAGAAACTTTATTTTGACGGCGTTGGTCTTCACCATGTATTTCAGCGGCGGTTTAATTCCCTCCTATATTCTGGTTAAAAACCTGGGCATGATGAATTCGGTCTGGAGCCTGGTTTTGCCGGGTGCCATGAGCGTGTTTAATATGATCATCCTGAAAACCTTCTTCAGCAATCTTCCGGAGAGCCTGGAGGAATCGGCAGCCATTGATGGGTGTTCGGATCTGGGCATTCTCATCAAGATTGTGCTCCCCCTTTCGTTGCCATCGATCGCCACATTAAGCCTTTTCTATGCGGTGGACAGATGGAATGGATTCCAGGATGCGCTGTTCTACATAACGAAAAAAGAGCTGTACCCTATGCAGATGAAGCTATACCAGATCATTTCGGCCAATCAGCAGTTGGATAGCCAACAAGGAGGGGAAGGAAGTGTCGGCTCCTATATTGTCCCTGAGTCTTTGAAAGCGGCCAGTGTCATGTTTACAACGATTCCGATTTTGCTGATCTATCCTAAACTGCAGAAGTATTTCGTGGATGGTGTGATGACTGGGGCTATCAAGGGGTGA	MVRVASNKRKMKKMTVADMAIIVFIVALSFTCIVPFLYMIALSFSSNEAIISQKVGLWPVDFTAETYKTILSDMDMLYTLGYSIVLTIFYTLVCMFLTICAAYPLTKKRLKGRNFILTALVFTMYFSGGLIPSYILVKNLGMMNSVWSLVLPGAMSVFNMIILKTFFSNLPESLEESAAIDGCSDLGILIKIVLPLSLPSIATLSLFYAVDRWNGFQDALFYITKKELYPMQMKLYQIISANQQLDSQQGGEGSVGSYIVPESLKAASVMFTTIPILLIYPKLQKYFVDGVMTGAIKG	PGPT0017255_1248	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03108	951	yteP_34	COG4209	putative multiple-sugar transport system permease YteP	ATGAAAGCGGTTTTAGACAGCTCCCGAAAGTACGGCGCAACAAAAAGGAAAAAAAACTTTCTGTACTACATCAAAAGAGACGGTCTGTTATATTTTCTTTTGTTGCTGCCTATGGCCTATATCCTGATTTTCAAGTATGCTCCCATCTATGGCCTTGTGATGGCATTCCAAGATTACAACATTTTTGAAGGAATTGGAGGGAGCGAATGGGTAGGACTGGATGTGTTCCGTTTTATTTTTGAGCAGGACAGCTTCTACCGTGCATTGAAGAATACGCTGGTCCTGAATGTTCTGGACTTGATCGCGGGTTTTCCAGCGCCCATTCTTCTGGCGATTTTGCTCAATGAAGTAAGACAAGCAAATTTCAAGAAAATGACCCAGACCGTGTTGTATCTGCCCCATTTTTTGTCCTGGGTTATTATTGGCGGTATGGTCTATCTGATGTTTTCTAACGGCGGCATGATCAACAATTTCCTGTCGAGCTTTGGTTTGGAGAAGATCGAGTTTCTGTCGCAGAAAACACCTTGGTTGATTACTTATATTGCCGTTGGCGTATGGCAAAATATCGGATGGGGCACCATCATTTATTTGGCGGCCATAACCGGAATCAATAGGGAGTTGTATGAGGCCTCCGATATTGATGGCTGCAGCAGGCTTCGCAAAATGTGGCATATTACACTGCCTGGCATTAAGTCAACCATCAATATTTTGTTGATTCTCCAAATAGGAAGAATGGTTTCTATCGGATTTGACCGTCCCTTTGTGATGGGGAATTCACTGGTTAGCGATTACTCTGATGTTATCAGTACTTTCGTGTATAGAGTTGGTATTAGTTCGGGTGATTTCTCCCAGGCAACGGCGGTAGGATTGTTCCAATCCGTGGTCGGCCTGATCCTGCTGTTATCTGCAAACTTTGTTGCGAAAAAATTAGGCGAGGATGGGATATGGTGA	MKAVLDSSRKYGATKRKKNFLYYIKRDGLLYFLLLLPMAYILIFKYAPIYGLVMAFQDYNIFEGIGGSEWVGLDVFRFIFEQDSFYRALKNTLVLNVLDLIAGFPAPILLAILLNEVRQANFKKMTQTVLYLPHFLSWVIIGGMVYLMFSNGGMINNFLSSFGLEKIEFLSQKTPWLITYIAVGVWQNIGWGTIIYLAAITGINRELYEASDIDGCSRLRKMWHITLPGIKSTINILLILQIGRMVSIGFDRPFVMGNSLVSDYSDVISTFVYRVGISSGDFSQATAVGLFQSVVGLILLLSANFVAKKLGEDGIW	PGPT0017250_1470	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03109	1242	iolG_12		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	GTGAAGATTTGTCGCACCGCGCTGATCGGGATCGGGGGATTCGGCGCTGAACATGTGAAAGTCATGCAGAAGCTGGTCGAAGAGGGTAGCCTGCAGGTTGCTGCTTTTGCGGAGCCGAATGTCGGCGCTCATCAGGAGTCTTACGGCAAGCTGACCGCGCTTGGGGCCGTCCATTATATAGACTACGTGCAGATGCTCACGCTGCATCCGGATATCGATTTCGTCGTCCTCGTCACGCCGATCTCCTCCCACAAGCCGATGTGCATCCAGGTGATGCGGATGGGCTTTCACGTGCTGGTGGAGAAGCCCCCGGCGGTAACGATTCAGGACTTGGACGAGATGATCGCGGTGCAGAGGGAGACCGGGCGCTTGTGCCAGGTGAACTTCCAGAATACGTCGGGCCAGGCATTCCGAACGCTGCTGGAAAGGATCGGCTCCGGTGTGCTCGGGCAGGTGGAGCATGTGGTCGGCATTGGCATGTGGAAACGGCTTCGCTCTTACTACGATCGAACCCGCTGGGCCGGCAAACTGGTCAGCGACGGCCAGTATGTGCTGGACGGGACGTTCAACAATCCGTTCGCTCACTTGCTGCACCATAGTTTGCTGGCGGCCGGAGGAGGCGCCGCAGACTTGTACCCGGAATCGGTGCAGGCCGAGCTTTACCACGTCAATGGCATCGATGGGGACGATGTCTCCTGTATTCGCGCCGTTATGGCTAACGGTGTGAGCGTTCATTTTTACGCCATGCTTTGTCACGAAGTCAGCGAAGTGCCTTCGATTGCCGTGTACGGAACGCGAGGGGAAGCGCATTGGAATTACCAGAACAAGTTGACCATTCGCGCACAGGACGCCGAAGAGGATTTGGCGTTTGGTCCGACTGATTTGATGTGCAGCATGTATCTGAACCTAATGGAAGCGATCGAAACCCCAGGGAAACCACTCTTCTCGCCGCTCAAGGCAAGCCGAGGCTTCGTGCTGGTATCCAACGGCGCCTTTGAGTCGGCTCGCGCCGTTCGTGCCATTCCCGGCCGATTCGTGACCGAGCGGGAGGATGGAGATTCCACGGTGCGCCTGCTGCCCAGCTTGTCCGAGAAGATGAGAGACGCGGCAGCGAAGCGGCAACTGTACAGTGAATATCCGCTTCCTTGGGCGACGCCGACCCGGCTGTTCCGGATGGAGGGCTACAACCGATTCGAGCTGCCTGCCACTATGCGCACAAATAACGGTAGACCGACCAATTAG	MKICRTALIGIGGFGAEHVKVMQKLVEEGSLQVAAFAEPNVGAHQESYGKLTALGAVHYIDYVQMLTLHPDIDFVVLVTPISSHKPMCIQVMRMGFHVLVEKPPAVTIQDLDEMIAVQRETGRLCQVNFQNTSGQAFRTLLERIGSGVLGQVEHVVGIGMWKRLRSYYDRTRWAGKLVSDGQYVLDGTFNNPFAHLLHHSLLAAGGGAADLYPESVQAELYHVNGIDGDDVSCIRAVMANGVSVHFYAMLCHEVSEVPSIAVYGTRGEAHWNYQNKLTIRAQDAEEDLAFGPTDLMCSMYLNLMEAIETPGKPLFSPLKASRGFVLVSNGAFESARAVRAIPGRFVTEREDGDSTVRLLPSLSEKMRDAAAKRQLYSEYPLPWATPTRLFRMEGYNRFELPATMRTNNGRPTN				NA	NA	NA	NA	NA
AK002_03110	822			hypothetical protein	ATGGAACCGCTTCGTTCCATAGACAGACTCAGCTTGAACCAGATTACGACCGATCGGCTGAATATGCGTGAGGCCGTGGAAGCATGCGTTCGCGCCGAAGTGCCTTGGATCGCGCTGTGGCGGCATAAAGTGGCCGAGACCGGCCTGGCCGAGAGCAAGCGGCTTGTGCGGGACGCGGGCCTGCGCGTCTCCAGCCTGTGCCGTGGGGGTTATTTTCCGGCGGCCACCGCGCCTGCGCGCAAAGAGCGGATGGACGACAATCGCCGCGCTGTCGAGGAAGCGGCCGAGCTCGGCACCGATGTGCTCGTGCTCGTTTGCGGACCGGCGCCAGACCGGGATATCGATTTCGCCCGCAAGACGGTCGAAGAAGCGATCGCGGAACTTGTGCCGTTCGCCCGCTCGCACGGAGTCAAGCTCGGCATCGAGCCTTTGCACCCGATGTACGCCGCTGAACGCTCCGTCATCAATACGCTGGCGCAAGCCAACACGCTCGCGGAGCAGCACGACCCGCAAGACGTCGGCGTCGTCGTCGATGCGTTCCACGTCTGGTGGGACCCCGAGCTGTACGCGCAAATTGAGCGGGCCAGGGGGCGTATACTCGGCTTCCACGTCTCCGATTGGATCTTGCCGGTACCCGACCTGCTGATGGGCAGAGGGATGATGGGGGACGGCGTTATCGAGTTGCGCCGGATGCGTCATGCCGTTGAAGCGGCCGGTTACGTGGGGGCGATCGAGGTGGAAATCTTCAACCGGCAGGTATGGGATATGCCGGGAGACGAGGCGCTCACGCTCATCAAGGAACGTTATTTGCAGCATGTATGA	MEPLRSIDRLSLNQITTDRLNMREAVEACVRAEVPWIALWRHKVAETGLAESKRLVRDAGLRVSSLCRGGYFPAATAPARKERMDDNRRAVEEAAELGTDVLVLVCGPAPDRDIDFARKTVEEAIAELVPFARSHGVKLGIEPLHPMYAAERSVINTLAQANTLAEQHDPQDVGVVVDAFHVWWDPELYAQIERARGRILGFHVSDWILPVPDLLMGRGMMGDGVIELRRMRHAVEAAGYVGAIEVEIFNRQVWDMPGDEALTLIKERYLQHV				NA	NA	NA	NA	NA
AK002_03111	1170			hypothetical protein	ATGGCCAAATCGTTGCTCCTCCCCCGCGCAGGGGGAGCGTTGTATGAATATACTCCGGGCAAAGCAGGCTCGTTCTCCGTGCCGGCCAAGCCGTTTACGGGCCGCATCGCCTTCTCGGCCGCCCATGTCGTCTGCGATCCGTTTGCGGACGCAGATCCGCTGCATCAATCGCAGATTGATTGGAACTTGACGCTCTCCTACCGGCACCATCTGTGGTCGCTCGGTCTGGCCGTGGCGGAAGCGATGGATACCGCCCAACGCGGCATGGGCCTCGACTGGAACCGCTCGAAGGAGCTTATCCGCGCTTCGATCGCGGAAGCGCGCTCGGTCGGTGGCAAAATCGCCTGCGGCGCGGGAACCGATCATCTGTTTCCGGGACCGTCGATTACGATCGCCGACGTGGAAGCCGCCTATGAAGAGCAAGTCGGCTTCATCGAAGGCGAGGGCGGTCAAGTCATTCTGATGGCGAGCCGCGCGCTTGCCGCCTGCGCGAAAGGGCCCGAGGATTACCAGCGGGTGTATGGGCGCATTTTGGGACAGGTGAAACAGCCGGTCATTCTGCATTGGCTCGGCGACATGTTCGATCCCGCTCTGGCCGGCTATTGGGGATGCAAGGACGATCTGGACGAGGCGATGGACGTTTGTTTGCGCGTCATTCGGGCAAACACAGAGAAGGTCGACGGGATTAAAATCTCGCTGCTCGATGCCGGCAAAGAAATCAAGATGCGCCGGCTGCTGCCGGAAGGCGTCAAGATGTACACCGGCGACGACTTCAACTACCCGGAACTGATCAAGGGTGATGAGCAGGGCTACAGCCATGCGCTGCTCGGCATATTCGACGCGATCGCGCCGGCCGCCGCCCAGGCGCTTCATGCGCTAGACGCAGGGGATCTGGTCAGTTATGAGGCGATTATGGAGCCTACCGTTGCCTTGTCGCGTCATATTTTCCAGAAGCCGACGTACGCCTACAAGACGGGAATTGTGTTCATGGCCTACTTGAACGGCCGCCAACCGCATTTCCGCATGATCGGGGGAGCGGAGGGATCGCGCTCGATCGTCCATTTGGCCGAGCTGTTCGTGCTTGCCGACAGGGCCGGGCTATTGGCCGATCCGGAGCTTGCCGCCGAACGGATGAAGCCTGTCTTGGCGCTGGCGGGTATTCGGCCGTAA	MAKSLLLPRAGGALYEYTPGKAGSFSVPAKPFTGRIAFSAAHVVCDPFADADPLHQSQIDWNLTLSYRHHLWSLGLAVAEAMDTAQRGMGLDWNRSKELIRASIAEARSVGGKIACGAGTDHLFPGPSITIADVEAAYEEQVGFIEGEGGQVILMASRALAACAKGPEDYQRVYGRILGQVKQPVILHWLGDMFDPALAGYWGCKDDLDEAMDVCLRVIRANTEKVDGIKISLLDAGKEIKMRRLLPEGVKMYTGDDFNYPELIKGDEQGYSHALLGIFDAIAPAAAQALHALDAGDLVSYEAIMEPTVALSRHIFQKPTYAYKTGIVFMAYLNGRQPHFRMIGGAEGSRSIVHLAELFVLADRAGLLADPELAAERMKPVLALAGIRP				NA	NA	NA	NA	NA
AK002_03112	1152	xdh		D-xylose dehydrogenase	GTGGCAGTTCGCAACATCGGCATTATTATGAACGGCGTTACCGGACGGATGGGAACCAACCAGCATTTGGTCCGTTCGATTCTTGCGATTCGAAAGCAAGGGGGCGTCGCGCTACCGGACGGAGACGTCATCATGCCCGACCCGATTCTGATCGGACGGCAGGAGAGCAAGCTGCAGGCGCTGGCCGCCGCCCACGGCGTCGAACGTTGGAGTACCGATCTTGAAGCATGCCTCGCCGATCCGTACTACGAAATTTATTTCGACAGCCAGACGACGGTGCGCCGCGCCGAAAGCATCAAGCAGGCGATCGCCGCGGGAAAGCATATTTATTGCGAGAAGCCGACGGCCGTCGATTTGGAAGGGGCGCTTGAACTGGCCCGCATCGCCGCTGAGGCCGGGGTGAGAAACGGCGTCGTGCAAGACAAGCTGTTTTTGCCAGGATTGCTCAAGCTGAAACGCTTAAACGACTCTGGCTTCTTCGGGCGTATCCTGTCCGTGCGGATGGAATTCGGCTATTGGGTGTTCGAGGGCGACTGGCAGCAGGGTCAGAGGCCATCGTGGAACTACCGCAAGGAAGACGGCGGCGGCATTATCGTCGACATGTTTGCACACTGGCGCTATGTTCTCGAGAATTTGTTCGGGGAAGTGAAGGCTGTTTCCTGTCTTGCCGCTACGCATATTCCGAAACGTCTGGATGAACAGGGCGTTCCGTACGATTGCACGGCGGACGATGCGGCGTACGCCATATTTGAACTGGAAGGCGGCATTATCGTGCAGGCCAACTCGTCCTGGGCGGTGCGCGTAGACCGCGACGATCTGCTCACGGTTACGGTCGACGGCACCGAAGGCAGCGCCGTGGCGGGTTTGCGGGACTGCAAGACGCAGCATCGGGTCAATACGCCGAAGCCGGTATGGAATCCGGACATTCCGAACCCGTTCCAGTTCCGTGACCAATGGGTGGAGGTGCCGGACAACGCATCATACGACAACGCGTTCAAGGTGCAATGGGAACTTTTCTTGAAGCATGTCGTCATCGGCACGCCGTTTCCGTGGGATTTGCTCGAAGGCGCGAAGGGCACCCAGCTTGCCGATCTCAGCTTGCAGTCGTGGCAGGAACGCCGCTGGATCGACGTGCCGAAGCTGAGCCTGTAA	MAVRNIGIIMNGVTGRMGTNQHLVRSILAIRKQGGVALPDGDVIMPDPILIGRQESKLQALAAAHGVERWSTDLEACLADPYYEIYFDSQTTVRRAESIKQAIAAGKHIYCEKPTAVDLEGALELARIAAEAGVRNGVVQDKLFLPGLLKLKRLNDSGFFGRILSVRMEFGYWVFEGDWQQGQRPSWNYRKEDGGGIIVDMFAHWRYVLENLFGEVKAVSCLAATHIPKRLDEQGVPYDCTADDAAYAIFELEGGIIVQANSSWAVRVDRDDLLTVTVDGTEGSAVAGLRDCKTQHRVNTPKPVWNPDIPNPFQFRDQWVEVPDNASYDNAFKVQWELFLKHVVIGTPFPWDLLEGAKGTQLADLSLQSWQERRWIDVPKLSL				NA	NA	NA	NA	NA
AK002_03113	837	rhaR_34		HTH-type transcriptional activator RhaR	GTGACGATGAAATGGATCGACTTGTCCAGGAATGCGATAGACTTATACGAGCAGAAACATAGGGGCGGGCATCACGTGTCCGAGCACTATCATCAGACGCACCAGCTGCTATTTGTGCTGGAAGGGGAAGGCACGATCCGGCTAGGGGGTGAGGTTCGGAAGCTGACGGTCGACGATACGGCGCTGATCGTTCCGTATTCCGTCCACTCCGTCATGTCCGACTTCAGGCTGACCTTGTTAGTGTTGGCGTTTGACGAGGCAGTGCTCGATCCGGATATGAGGGAGCAGCTGCTCCACGCCTACTTTCCGGCCTCCTGCCTGATGAAGCCGGGATTGTTTGCTGCGAGCGAACTGCGTCAGCTGCTGAGGAAAATGCTGTTCGAGCAGTCCAGGGAGCTGTCGCCGCTCGTCCGGCTTTCGCTCAAAGTCCAGCTGTCCCAGTTGCTGCTCTTGCTGGTTCGATCGTCCGGAACGGAGGCCGCCGGAGCGGGCTCCGGCTCCAACAAGCTGCGCGCCGAGAAAATTCGCAGCTATATCGATTCGAAGTATTTTGATCCTCTGACCGCGGGGGACATCGCCTCCAAGCTGGACATCAGCACGCGGCACGTGAACAACATCTTCAAGGAACGGTACAACATGACACCGATGCAATATTTGACCGAGGTACGCATCCGCGTCGCCCAGAAGTTGCTGGTGGAAACGGGTAAGGACATTATTTCGATCTGCTTCGAGGTCGGCTACGATTCCGTGTCTACGTTTTACCGGTCGTTCAAAGCTGTCGCCAAGCTGTCGCCAAAAACGTACCGGGAGCTGAACGCGCCCGAGCATGCTGAGTAG	MTMKWIDLSRNAIDLYEQKHRGGHHVSEHYHQTHQLLFVLEGEGTIRLGGEVRKLTVDDTALIVPYSVHSVMSDFRLTLLVLAFDEAVLDPDMREQLLHAYFPASCLMKPGLFAASELRQLLRKMLFEQSRELSPLVRLSLKVQLSQLLLLLVRSSGTEAAGAGSGSNKLRAEKIRSYIDSKYFDPLTAGDIASKLDISTRHVNNIFKERYNMTPMQYLTEVRIRVAQKLLVETGKDIISICFEVGYDSVSTFYRSFKAVAKLSPKTYRELNAPEHAE				NA	NA	NA	NA	NA
AK002_03114	180			hypothetical protein	ATGTTAAAGCATATTCACCGTTTCCAACTAGAAAGCGCCATGCAAGATAAACTTTCAAATAGGGGACCGCAAAATTTTGAACGGATGGGCCCGTTTACACTCAGACGCATCCTTGGATTTGCTACGTTGATTTTGTCAAATGTTGTATCGAAGCCGCAGATCGCGCTAAAATGGCTTTAA	MLKHIHRFQLESAMQDKLSNRGPQNFERMGPFTLRRILGFATLILSNVVSKPQIALKWL				NA	NA	NA	NA	NA
AK002_03115	147			hypothetical protein	GTGCATGAAGGGAATCTAATGGGCAATGGAGCGACCAGCGCTGAGGTTGATTACCGGTATACGCCGGCCAACTATGTGGATGTAATGACGTTCCATATCAAAGATGCAAAGATTGACCGTATTCGCATAAACACGCTTTTGGACTGA	MHEGNLMGNGATSAEVDYRYTPANYVDVMTFHIKDAKIDRIRINTLLD				NA	NA	NA	NA	NA
AK002_03116	1227			hypothetical protein	ATGAGAAAATTGCTAGTATGCACGTTAGCTATCATGCTAAGTTTAGCTGCGTTTAGCCCCGCTATTTACGCTTCTGAAGTCCAAGTATCCGTGGATGGGCGTGATGTACATTTCCCGGATGAGCACCCATATGTCGATCAGAGATCCAACCTTACGATGGTTCCACTTGCTTTTTTATCCGACAAGCTTGGAGCTGCTACGAAATGGGACTCAAAATTAAAACAAATCACGATCACGCTTAACCGTGACACTGTTATTTTGGTGATTGGCGATCACCATGCACTGGTGAACGGTAAAAGAGTAGACTTTGAAGGGTCGGCAGTGCTCAAAAACGGCCGCACGATGGTTCCGTTGCGTTTTATAAGTGAAGCCCTGCATGCTAATGTGGAGTGGCAGCCCACGCGCAATCTGGTGAGCATTATGACCTCCGTGGCCAATGTTCCGAAAGGAACATGGATATGGGACAGTCACATCATCAAACAAGATCAAGAGAAAATTATAAGCTTCGCAAAAATGAAGGGTGTGACATCTATTTACCTTCAGGTGAATAGAGATATCGATCCAGCGATATATGAAGGTTTTATACGAAAAGCCAAAAGCGAAGGAATTCAAGTGGAAGCACTTGAGGGGCGTCCCGAATGGGTCTATAAGTCTAAGCAGGAGGATATTCGAAAATTCATCACGTGGGTTAAAACCTATAATTCCTTTGTTGGCCCGGAAGCAAGCTTTACAGGACTGCATTTCGATATTGAACCTTATGCGCTAAGCGAATGGACAAAGGACAACAAGGCGATTATTGAAAGCTGGATGGACAATTTGAGACTGATCGAGAAAGAAACCAGAGGGAGCGGCTTGAAAATTGCTATCGATGTTCCGTATTGGCTGAATACGATTAATGTTCCGGGGAAGGATTACAGTATGAGCGCATGGTTGCTCGAGAAGTTCGATTGCCTCGTCATAATGAATTATCGGAATCATGCATTAGGCAGCAATGGAATTGTGGAAAATGCGCAGGCCATGCTGAGAGAAGCATCCACTCTGAAGAAGAAAGTGGTTGTTGCTGTAGAAACGGTCAAAAGCACAGAGGGTCCGCGGGTCTCATTCTTTTCCATGAGCAATGAAGTGATGGAAAAGGAGCTTCAATCTGCCCATAATCAATTGGCTCGCTACGCAAGCTATGCCGGCTTTGCCGTTCACGATTTTAAAAGCTGGCAGGACATGAAATAA	MRKLLVCTLAIMLSLAAFSPAIYASEVQVSVDGRDVHFPDEHPYVDQRSNLTMVPLAFLSDKLGAATKWDSKLKQITITLNRDTVILVIGDHHALVNGKRVDFEGSAVLKNGRTMVPLRFISEALHANVEWQPTRNLVSIMTSVANVPKGTWIWDSHIIKQDQEKIISFAKMKGVTSIYLQVNRDIDPAIYEGFIRKAKSEGIQVEALEGRPEWVYKSKQEDIRKFITWVKTYNSFVGPEASFTGLHFDIEPYALSEWTKDNKAIIESWMDNLRLIEKETRGSGLKIAIDVPYWLNTINVPGKDYSMSAWLLEKFDCLVIMNYRNHALGSNGIVENAQAMLREASTLKKKVVVAVETVKSTEGPRVSFFSMSNEVMEKELQSAHNQLARYASYAGFAVHDFKSWQDMK				NA	NA	NA	NA	NA
AK002_03117	678			hypothetical protein	ATGGATTTGCTGGAACAGTACCAGTTAAAGTTTATTGCTCAAATTTATACCCATGGTAATCATAGTGTTTCATTTGAAGAGCAGTTACTGCGAGCGAAACATTTTTCCCCAGTAAAAATTGTTTCGCACAGTGCGCAAGACTGCATGCCGTTCCGAGATCAGCTGCGGTTCTTTGGCAGAGCCGTAATGCTGGAAGCCGAGCTGGGTGTCCAGGTCGCTCACGAAACCCATCGAGGGCGGGCCATGTTCACACCCTGGAATACGGCTAGATTGCTGCAGCATTTTCCGCAATTAAAGCTTACAGCAGATTTCAGTCACTGGTGTGCTGTGTGTGAATCGCTTCTCGAAAACCAGGTGTACAATGTAAAGCTCGCGATCTCAAGGTCCGTCCATATTCATGCCCGTGTCGGCTATGCGCAAGGACCGCAAGTTCCGCATCCGGCCGCTCCCGAATACCAGCAGGAACTCTTAACTCATACCCGTTGGTGGCACGAGATTTATCAACATCGTAGTAAAGAGGGAGCAGAGTGCTTGTCGGTTACGACCGAATTCGGCCCGCCAAATTATTTGCACACATTGCCTTTCAGCAATGAACCTGTGGCGAATTTACGGGAGGTGTGCGACTGGATGAGACAATTTATCGCTGCTGAGATTGCACGCGAATCCTTCAATGAGTAA	MDLLEQYQLKFIAQIYTHGNHSVSFEEQLLRAKHFSPVKIVSHSAQDCMPFRDQLRFFGRAVMLEAELGVQVAHETHRGRAMFTPWNTARLLQHFPQLKLTADFSHWCAVCESLLENQVYNVKLAISRSVHIHARVGYAQGPQVPHPAAPEYQQELLTHTRWWHEIYQHRSKEGAECLSVTTEFGPPNYLHTLPFSNEPVANLREVCDWMRQFIAAEIARESFNE				NA	NA	NA	NA	NA
AK002_03118	852			hypothetical protein	ATGGTAAATCATCATGATGTACGTGTGAATTGTCTTCCATCGGAGCGGGATGTTGCTTTTTTTGACGAGAATGGTTATTGGATGTCTCCGGTCATCTTCTCGCAGGAAGAGCTTGCTCAGATTAAGGAACATCAAGACAAGATGTACAAAGGTGAATACGAGACGGGGAGAGAACCGGTATGCAATTGGTTGGAAGGTCAGAATAACCCGAAAGCGTTGCGGAAAACGGATAACTCTCATTGGTCCGACAGGACGCTTCGTCAGGTTGCGACCGACCCTACCATCGGAGCCATTGCCGCCAAACTGATGCATGCCGATGCGATTCGGCTGTTTCACGACCAACTGCTTTATAAACCGGGCAGAGGTAATGGTACAGAAACGGCTAATGTGGGCTGGCACCAAGATTATTCGTATTGGCAATGCTGTAAGGAGCCGTCGCTCATTACTGCGTGGGTGGCATTTACCGATGTGGACTTGTCCAATGGGTGTATGCAAATGGTGCCGCGAAGTCATAAATGGGGGCTTCTGAACGTGAGTGATTTCTTCGAGCAAAACATGGAGAAGCAGCAGGAAACGATGGATATTCCGGAAAATGAAAGCTTCACTACAGTTCCGATGGTGATGAAAGCCGGTCAGGTAAGCTTCCACCACGCGCTGACCATTCACGGCAGCGGACCTAACATAACCGAAGGCGCTCGCCGCTCGATGGCTGTACATTTGATGACGGGGAAGACGAGATACACCTACACTCCAAGAGGAGATGGCCATTTTAATGCGCAAATGATGGCAGGTAAAGATGGAGAGCTATTCGAAGGTGAAGCCTGGCCTGTGCTTTATGAGGCCAAGTTCTAA	MVNHHDVRVNCLPSERDVAFFDENGYWMSPVIFSQEELAQIKEHQDKMYKGEYETGREPVCNWLEGQNNPKALRKTDNSHWSDRTLRQVATDPTIGAIAAKLMHADAIRLFHDQLLYKPGRGNGTETANVGWHQDYSYWQCCKEPSLITAWVAFTDVDLSNGCMQMVPRSHKWGLLNVSDFFEQNMEKQQETMDIPENESFTTVPMVMKAGQVSFHHALTIHGSGPNITEGARRSMAVHLMTGKTRYTYTPRGDGHFNAQMMAGKDGELFEGEAWPVLYEAKF				NA	NA	NA	NA	NA
AK002_03119	891	rhaR_35		HTH-type transcriptional activator RhaR	ATGGAGAAGAAACGTTCCACCAAATATAACACACCAAAGGATTCACGTTTGCTTGAATCAGACAAAGAAATTCGTTTCGAGCTTCCTTACGAGACCGAATTTGAAAATTTATCTTATATCGGAGTCGTTTTATACGAAACATGGCATGTGCCCGGTCACCATCATGAACATTTTGAACTGTGTTATGTAGAAAGTGGGCAAGGGTGGTTTACGATAGACGGATCTTACTACACGGTTAGTCAGGGAGATCTTTTTATAACGAAACCAGGCGAAAGTCATCAGGGAGCTGCCGCTGGAGACTTGCCGTTTAGGTTGTATTACCTTGGCTTTAATCTCGAGCAGATGAGAAGCTTGGAAGTGGAATATTACAAAATCGGTTTTAATCGGGTGGAGAAGGACGAAAATGGTCTCATAAAAAGCATATTCGATAACATTTTTGATGAACTGCGCATGAAAATCTTTTTAAGTAAAACGATGGTACAAGGATTGTTTATCCAATTGCTTGTCTCCATAGTACGAATCTATAAGGCCTCATCGCAAGAAAGAAATCATGGAGCGAAAAAACTGCCTTCGGACATTATCGAAGTATTAAACTACTTGCATGCTGAAATTCGTGCCGATCTTACAATCAATGACCTTGCGCATCAGTTCCATATCAGTCGTTCACATCTGGCCCGGGAATTTAAAGAGCATTTGGGGGTAACCATCGGGGAGTATATTCGTTCACTCTGTTTGGACAAGGCGAAGCACTTGCTGCTTGAAACCGGCGAATCGGTAAGTTCCATCGCCGTGAAGCTGCATTTCACATCGATCCATACGTTCAGCATATTCTTTAAGCGGCACAGTGGAAAATCCCCCCTCGAGTTCCGAAATCACAATACCTCTCGTTGA	MEKKRSTKYNTPKDSRLLESDKEIRFELPYETEFENLSYIGVVLYETWHVPGHHHEHFELCYVESGQGWFTIDGSYYTVSQGDLFITKPGESHQGAAAGDLPFRLYYLGFNLEQMRSLEVEYYKIGFNRVEKDENGLIKSIFDNIFDELRMKIFLSKTMVQGLFIQLLVSIVRIYKASSQERNHGAKKLPSDIIEVLNYLHAEIRADLTINDLAHQFHISRSHLAREFKEHLGVTIGEYIRSLCLDKAKHLLLETGESVSSIAVKLHFTSIHTFSIFFKRHSGKSPLEFRNHNTSR				NA	NA	NA	NA	NA
AK002_03120	183			hypothetical protein	ATGGGCAAGCTCTTCACACAGCCGGTTGAGAGGAGTATTCAACCGATCATTAAGCTGATGGATAATCCTCCATCCCAGCCCCTCATCGCCTGGGACCGAACCAAGCCCGTTGATCTCGATCTCCCGACGCTTAGCAAGAAGGACGCACTAAAATTATATCAGTTGACCAAGCATATTCTTTAA	MGKLFTQPVERSIQPIIKLMDNPPSQPLIAWDRTKPVDLDLPTLSKKDALKLYQLTKHIL				NA	NA	NA	NA	NA
AK002_03121	807	yokD_1	COG2746	SPbeta prophage-derived aminoglycoside N(3')-acetyltransferase-like protein YokD	ATGGAGGAGCAGGCAAAACAGCCGAGAATGATTTTAACGAAGCAAGACCTTATCGAACAGCTTGGACGGTGCGGGGTGTCAGCAGGACAGACCTTAATCGTCCATACTTCTTTGAAAAGCCTCGGCTATGTTGTAGGCGGTGCGGAAACGTTCATCCGCGCGCTGCTCACGCTCATTGGAGAGCAAGGGACGGTGATGGTGCCGGCGCAAACGTGGAAAAATCTTGATCCGGTGACCGGCGTTCACTGGGATGCGGAAGAGGCTTGGTGGCCGATTATCCGGGAGCAATGGCCCGCTTATGATAAGGCGATCACTCCGGCGATCGGGATGGGCGTTGTTGCCGAGATGCTCCGCACATGGCCGGGAGCAAGGCGCTCAGACCATCCGGCGCGGTCTTTCGCGGCCGTCGGCAAGCATGCGGAGTATTTGACGGAAAGCCATGATTTAAGTCATGTTTTTGGCCAAGGCTCCCCTCTCGACAAGCTGTACGAACTGGATGGCTATGTACTGCTCATCGGTGTCGGGCATGAGAAAAACACCTCGCTCCATCTCGCAGAAACCAGGGCCGATTATCCCGGAAAGACGTATACGGAAGAAAGCAGCGCCATGATCATTGACGAGGAGCGTAGGTGGGTAACCTATACGACGCAAGAGGTTTACGATCGGGATTTTGTCCCGCTTGGCGCCGAATTCGAGCAGAAGCACCGTGTCGCGGTGCATCAGGTAGGGGACGCGTTTGTCAGGTTGATCCGCCAAAGACAGCTGGTTGACTGGGCAGCCACATGGATGAAGCGTAACCGGGTGTAA	MEEQAKQPRMILTKQDLIEQLGRCGVSAGQTLIVHTSLKSLGYVVGGAETFIRALLTLIGEQGTVMVPAQTWKNLDPVTGVHWDAEEAWWPIIREQWPAYDKAITPAIGMGVVAEMLRTWPGARRSDHPARSFAAVGKHAEYLTESHDLSHVFGQGSPLDKLYELDGYVLLIGVGHEKNTSLHLAETRADYPGKTYTEESSAMIIDEERRWVTYTTQEVYDRDFVPLGAEFEQKHRVAVHQVGDAFVRLIRQRQLVDWAATWMKRNRV	PGPT0028625_386	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028625-aacC-K00662	NA	NA
AK002_03122	4194			hypothetical protein	GTGAAAACCAGACGAAGTTTGACTGCTTTGCTGCTTGTCCCGGTCATGCTGTTATCGTTAATATCGTCTGTGAATGCGGAGGAGGCGGGCAGAGAAAGCACCGGCTTTTATAATCTGGCCCAAGGGAAAACGTACACATGGTCGGAACAGCCGGAGGGCGCTTTCCCGGATGACGGGACGAAGCTGACGGACGGCAATGCCGCCGACCCCTCGCGTGACAGCGGCAACTGGGTGGGCCACCGCAACAAAAAATCCCGTTCGGTTGTGTTTGATCTAGGCGAGCAAAAGACGGTTCAGGAGGTGAGCGCGCGTTTCCTGCACGATTGGCCGATCAACGAAACGCTTGTGCCGCTCACCGTTTCGTTCTACGCGTCGGACGATGGGGTGAGCTGGGGCGTATTGTCTCATAATGCAACTCAGTTGTTATGGGGCGATCAGACCAACATCGAGACATTTGCTTGGGACGGCAGCCCTGAAACTGGAGCTGTCAAGCGTGGCGATTATACCGAAGGACTCGTATACGCTCGGTACGTGAAAGTGGTGTTCTCCATGCATCCGAGGGCATGGAGCATGATCGACGAGGTGACGATTACCGGTGCGGATGGCTTGATCGTTGGAGCGCAGCCGGTACAGCCTGAGCCTTACGCCCTCCTGCAGCCTGGAGATGCTACTGGCGGGATTCAAAATCTGGGCTTGCTGTATAACGGACACTACGCGGACGGCACAGGAAATTGGACGAAGGAACGGGCTATCCCTAATATCAGCTATGTGAACGAGCAGGGAGAGCCTGTCGATTGGCTGTTCGATGGCGTGCTGTATCTGGGCTTGACATCGGATAACGGCAGAGGCTTCGGAGCGGCGGAAGCGGCCGGCAAAGCCAGAAAACAGGAATGGGAATGGTATTTGGATAAAACGTTTAACGCTGGCGGCGATATGAGCGCGTTGAACGAGGCGACGGTCGAGGCAGGCGTGAAGCTTAGCGAGCCCGACCATAAGACGAAGGTTGTTCTGATGATTCCAGAACCGGGCGAGTATCAGTCCGACTTCGGTAGCATTAACGGCGAGGAATTGAACTTCGATGTAGGTGCGGTCGGCGATGCCGCATCGCTGGATAACAGGGCCAAAGCGATTCAGTGGTGGGTCGATGAAGTGCAAGCCAGATGGACGGCTGCGGGCTACTCGAACCTGGAGCTCGTCGGCATGTATTGGCTGGAGGAACAAATCAGCACGCATGCGACCGGGCCGGAGATGGTCAAGAGAGCGAGCGACATCGTTCATAACGCAGGCCTGAAGCTGTTCTGGATTCCTCATTTTATGGCCTATAAGGCATTCATGTGGAAGGATGTCGGCATTGATGCCGTATCTCTGCAGCCGAACTATTTCTTCGAGAAACTGGACCCATCGCGTCTGGAGGATACAGCGGATATGGCGAAGCGGTACGGCATGTCGCTGGAGCTGGAATTCGACGACCGGATGATCAACGACGCCGTCTTCCGCGAGCGGTTCATCGAGTACTTGAACAGCGGCGTGGATACCGGTCTGATGCAGCATGGATATAAAGCTTACTATCAAGGCAACAACGCTGTATACAACGCGGCGAAAAGCACAGACCCCGCTACCCGCGTGCTTTACGATTGGCTATACCAATTCTCTAAAGGCACTTATCAGAAGCAAGACGCTGCTCCGCCTGATGTTGTAGCGCTCATGAACGGGCAGCCGATCTCGGAGCATACGATCGTGTCTGATACGACACAGGCTGCCTTCACCTGGACCATTCCGGGAGATGGCGGGAGCGGGATCGTTAAAGTTACGGCCAAGTATGACGGCAAGCCTTATACGGAAGGAACTGTTATAGATCTGACGGGTAAGCCGGGCAAGCATGTGTTGGAGCTGACGGTGGCTGCTGCCAAATCCAAGACGGTTAATTTCGTAATAGAAGCTCGTTTGGGCGCTGAAGGCCTATTGGCTCTTGTTGATAAGTACGCGGACAACAAGCAGCTTAGCAATGCCGATACGGTACGCGCTATGCGCAGCGCCTTGATCATGATGGAGCGTACGCAAGAGAGCGACCCTGAGCAAGCCAGGGACTATTTGCTGGCATTCAATGCGAAGCTGGAAGAAGCTAAAGGCCTTGAGTTCGTAACGGAAGGCGCTTATACGGCGCTGAAGGAAGGCGTGTATTACGAGGCTGGCAGCATCGCACAAGACAAAGAAGCAGAGGCATCCTCGACGGAGGCCGCAGGTCTGGAGCCTGCGAAGGCGCTCGACGGCGCACCGGCCACGCGTTGGGCGAGCGAAGTGCGCGATACGGCTTGGTTCCAGGTTGATCTGGACAGCCAGCAAACCTTCGATACGATCCGCATCGATTGGGAATATGCGCGCGCGGACCAATACCGTCTGAGCATCTCGGATGATAAGCAGACGTGGGAGCCTTTGAAAGTCGGCAACAATGGCGTGGTGAAAGCTGCCGACGGCAAGAACACCCTGGTATTCCCTGCGACGACGGCAAGATACATCAAGTTTGAAGGATTGAATCGGGCAACGTTTTACGGTTACTCCTTCTATGAATTCGGCGTGTACGATCTTGCCCCGCAGCAAGAGCTAAAGACGTTGGACGGCATACAAGCCGCTGTGGACGCTTCCACGAAGAAAGTCACGATTGACGGTTTGGTCATGAACGGCAAGAAAGAACATGTGTATGTGAAAGTGCTTGACCCAAAAGGCAACATTCAATATACCGGTCAGACGGGCACTGAGGATGACGGAAGCTTCCGCATCACCCTTACGTTGACCGGAGAAGAGCAAGGGAAGTATACGGTCGAGCTGGAAACGGATGACATGACGACTCCCGAGCTGGTAACCTTCGAATACCGCAAGCCGCCTACGAGTGGTGGAGGCAATGGAGACAATGGAGGCAATGGTGGTGGCAGCGGTGGCGGCGAAGGAGGTAACGGTGGAGGCAGCGGCGGTGGCAGCGGTGGAGGCGGTCAGGCGCAAGATCCGTATTCATTGCAAGCGGACGGTTCAGTCAAAGCCGTGCTTGTCCCGACGATAAACGGCCAGCAAGCTGCCGCTGCGGTCGGGGCATCGGATCTGAATGCCGCCATTCAGAGGGCAGTGGCCGACAGCAAAGGCAATAAACATGTTCATGTTGAATTGAAGTCGTCGAACGCGGCTGGGAGCTATGCTTTGGAGCTTCCGGCGGCTAATCTGACGAACCAGTCTAATCTGATTCTGCATATCTCCACGCCGTACGCTCAGCTTGTTTTGACTGGCGACATGCTGGCAGGAGTCAAGGAGAATGCTGGAAAGCTGCTCGTAATCGTAAGCGATTATGCGGGCGAGTATCGCAGTAACGAAGCGGCCGGGCGGATCGGCAGCAGGCCAATCGTAGAAGTTGCATTGCAACTGGACGGTGAAGCTCTGTCTTGGAAAAATGCGAAGGCACCGATTTCGATTGCCATTCCGTATTCGCTTCAAGCGGGAGAGCAATCTGTTGATCTGCAAGCTTTCGAGCTGATGGGCGACAGCGCGGCGGCAATGAATGGCGCGTCTTATGACAAAGACAAGGATATGCTGCGATTCTCCATCGACCATGTCGGCGTCTATGCTATCGGCGGCAAGAATCCGGCAGCATTTACCGACCTTGGCAAGCATGAATGGGCGCGCGAGGCGATCGAGAAGCTGGCCGAAAGAGGCATCGTCAAAGGCACCTCGATCGAAAAGGGCACGTTCAACCCCGCAAATCAGGTAACGCGAGCTGATTTTATCTTGATGCTGGTGAACATGCTTGACCTGCGTGCCGAAAACGCCTCGACGTTCGCCGATGTGAAGCCGAATGATTATTACTACGATGCGGTGTCCATCGCCAAGCAATTGGGAATCGCTTCAGGAGTGAACGAAGTTAACTTCGCACCTCGTGATTCAATCACCCGCCAGGATGCTATGGTTATGCTGACCCGAGCGCTGCAAACGACGGGGGCAATAAAGCCGTCCGCATCCGGTGGGGCGCTTGAGGGCTTCCGTGATGTGAGCCAGATTGCGCCATATGCTGCGGACAGCGTGGCAACGATGTTCGAGTATGGGCTGGTTACGGGCTCTAACGGCTACATGAAGCCGAAGAGTACGACCAGCCGGGCTGAAGCGGCAACGTTCTTGTATCGCGTTCTTCAATTAATCGAGGAGCAGCAGTAG	MKTRRSLTALLLVPVMLLSLISSVNAEEAGRESTGFYNLAQGKTYTWSEQPEGAFPDDGTKLTDGNAADPSRDSGNWVGHRNKKSRSVVFDLGEQKTVQEVSARFLHDWPINETLVPLTVSFYASDDGVSWGVLSHNATQLLWGDQTNIETFAWDGSPETGAVKRGDYTEGLVYARYVKVVFSMHPRAWSMIDEVTITGADGLIVGAQPVQPEPYALLQPGDATGGIQNLGLLYNGHYADGTGNWTKERAIPNISYVNEQGEPVDWLFDGVLYLGLTSDNGRGFGAAEAAGKARKQEWEWYLDKTFNAGGDMSALNEATVEAGVKLSEPDHKTKVVLMIPEPGEYQSDFGSINGEELNFDVGAVGDAASLDNRAKAIQWWVDEVQARWTAAGYSNLELVGMYWLEEQISTHATGPEMVKRASDIVHNAGLKLFWIPHFMAYKAFMWKDVGIDAVSLQPNYFFEKLDPSRLEDTADMAKRYGMSLELEFDDRMINDAVFRERFIEYLNSGVDTGLMQHGYKAYYQGNNAVYNAAKSTDPATRVLYDWLYQFSKGTYQKQDAAPPDVVALMNGQPISEHTIVSDTTQAAFTWTIPGDGGSGIVKVTAKYDGKPYTEGTVIDLTGKPGKHVLELTVAAAKSKTVNFVIEARLGAEGLLALVDKYADNKQLSNADTVRAMRSALIMMERTQESDPEQARDYLLAFNAKLEEAKGLEFVTEGAYTALKEGVYYEAGSIAQDKEAEASSTEAAGLEPAKALDGAPATRWASEVRDTAWFQVDLDSQQTFDTIRIDWEYARADQYRLSISDDKQTWEPLKVGNNGVVKAADGKNTLVFPATTARYIKFEGLNRATFYGYSFYEFGVYDLAPQQELKTLDGIQAAVDASTKKVTIDGLVMNGKKEHVYVKVLDPKGNIQYTGQTGTEDDGSFRITLTLTGEEQGKYTVELETDDMTTPELVTFEYRKPPTSGGGNGDNGGNGGGSGGGEGGNGGGSGGGSGGGGQAQDPYSLQADGSVKAVLVPTINGQQAAAAVGASDLNAAIQRAVADSKGNKHVHVELKSSNAAGSYALELPAANLTNQSNLILHISTPYAQLVLTGDMLAGVKENAGKLLVIVSDYAGEYRSNEAAGRIGSRPIVEVALQLDGEALSWKNAKAPISIAIPYSLQAGEQSVDLQAFELMGDSAAAMNGASYDKDKDMLRFSIDHVGVYAIGGKNPAAFTDLGKHEWAREAIEKLAERGIVKGTSIEKGTFNPANQVTRADFILMLVNMLDLRAENASTFADVKPNDYYYDAVSIAKQLGIASGVNEVNFAPRDSITRQDAMVMLTRALQTTGAIKPSASGGALEGFRDVSQIAPYAADSVATMFEYGLVTGSNGYMKPKSTTSRAEAATFLYRVLQLIEEQQ				NA	NA	NA	NA	NA
AK002_03123	4305			hypothetical protein	GTGGGTTTACGGCAGAGGGTTATTTTTTTAGTTATATTTGTTACCGCTTTCATTATGGTGACCACCCTTTCGGAGAGGTCCAATGCCGCAACAGGGAATATGGCTCTAGGGAAGACGGCTTATTCGTCGTCGAACGAAGTGGATTTTTTCGGACCTGAGAAAGCGGTCGATGGGGGCACCGAACATGCAAGCCGCTGGTCTTCGGAAAGAACGGACGATCAGTGGTTTTACGTTGATCTGGGCGAGCCTGTAGAAATCGGAAGAGTAATCATCAACTGGCAGACTCCGGCGGAGCAATATCAAATTCTCGTATCCGACGATGCGGTATCCTGGCGGAGCGTATTCGCGGACAACCGCGTGCTCGTCGCATCCGGGCCGGGTGAAGATACGATCGAATTCGAGCCGACAGTGGCGCAATACGTCAAGTTTCAAGGGGAGACGCGACGTCCTATTGAGGGCGTTTATTACGGATATTCCTTCTGGGAATTCGAGGTATACAAAGGCAGACCGCAACTGCAGCCAATCATGGACGCGGTGAAAAACAGCATCGTCGTTTCCGAAGGGGACACCCTGCTGAATCTGCCCGCTGTACCGGAAGGTTATACGCTGACGCTGGTGAACACGGACAGCTTGCCGGTGATCGACGTGCAGGGCAATATTCATGCGCCGCTTGTCGATACTCAGGTTCAGCTGCTGCTGCAAATCCAGAGCGATAGCGATCCGACATATCTCTTAACGGATAATGCGCTAGTCACCGTACCCGGTCTCTACGAGCAGACGAGCGATCGGAACCCGGAGCCGCGCGTCATTCCTTCTTTGCGTGAGTGGCTGGGCGCAACCGGCGAGTTCCGCTTGTCGGACAAATCCAAAATCGTCATTCGCGCAGATGATGAAGCGGCTCTGCGGGGGACGGCTGACATTTTGCAGCAGGACTTGTTGGATTTAACGAAGTTGTCACTGACAGTTGAGGTTGGTTCTCCTCAAGAGGGAGATATCTATTTGATGCTGGATGCCGCGCAAGCGGGGTTGGGGAAAGAGGGATATGAGCTGAATATCGGCGAGTATGCTTCTGTTGCTGCGTCCGAGCAGACGGGAGTCATGTTCGGCACGAGAACGATCTTGCAGCTGCTCGGCCACGCTGCCGATCATAAGGCGATGCCTAAAGGGCAATCGCGCGATTATCCGAAATACCCAGATCGGGGCTTTATGCTCGATGTCGGCCGCAAGTTTTATACGATCGAGTTTTTGCAGGACTATGTCAAGCTGATGTCCTACTATAAGATGAACCGGTTCCAGATTCACCTGAACGATGATGTCGGCGATGTCGGTTACTTCCGTCTGGAGAGCGAGAAATTTCCGGGAGTGACGAGCAAGGACGGCTATTATACGAAGCAGCAATTCAGAGACTTGCAGCTGCTTGGGATGGAATACGGCGTAAACGTCGTGCCGGAGATTGATACGCCGGGCCACTCCGGCGCGTTCATTGCCTACGATTCCCGGTTGGGCAGCAACAATCAGCTGGATATCAATCGTCCAGAGACGCTCGACTTCATTAAAGCACTCTTTGACGAGTATCTCGACGGCAGCAATCCGACCTTCGTCGGCCCGGACGTGCACGTCGGCACGGATGAATATTTCGGCGACGACAAGGAGGCGTTCCGCAGGTACGCGGATATGCTCCTTAACCACATTAACAGCAAAGGCAAACGCGCCCGTCTATGGGGCAGTCTGTCCGCATACGACGGCACGACGCCGGTCAGCAACAATGCGACGATGGACATCTGGTATGAGCCGTACGGAAGCGCTCAGCAGGCCGTGGAGCTCGGCTACGATATTATCAATACCAATACGAATTTGCTCTACATCGTTCCGCAGCTGTACCGCAGCTATTTGAATTACGATTTTATTTACAACGAGTGGGAGCCCAACGATTGGCTGGAGACGAAGCTTCCTTATGCACATCCGCAGGTCAAAGGCGGCATGTTCGCGCTCTGGAACGATGTGTCCGTAGAGAAAGGCGTATCCATGGCGGACTCGCATCAGCGGATCTTGCCTTCCATGCAAGTGCTGGCGGAAAAGCTGTGGAGAGGCAACCGCATCGATCGGAACTTCGCAAGCTTCCAGGCGGATGCCGCAAGGTACGTGGACCCGCCGGGTGTTCATCAGTCACACAAGCTTCAAATCGACAATGAGCGGCATCTCGTGCTGGATTATACCTTCGACGAAGGCTTCGCGGACCGTTCGGGGAACGGCTTTGACGGCAACGCGGTGAATGCAGGCACAGAGAAGGGAATCTTCGGTCAAGCGTTGAGGCTAAACGGCGGGGCCAGCTACGTGGAAACGCCGCTTCGCACGCTTGGTTTCGGCTGGACGATGTCCATGTGGATAAAACCTGACGCTGACAACCCGCAAGGAGCTGTGCTGCTGGAATCTCCGGACGGACAGCTGAAATACAACATTGGGGGCAGCGGCAAAATCGCCATCACAAAAGAAAATTACGTCAGCGAATTCAATTATAAGCTGCCGACCGATCGCTGGACCCATGTCATGATGATCGGCGACGACACGGGGACCTCCATCTTCATTAACGGCAGTGAATATACGGCTACTCTCAAAGACGGCTCCAAACTGGAAACATTCGTTCTTCCGGCAGCCAAAATCGGCAGCGAAACGAATGCTTTTAAAGGCTTGATTGACGAACTCATCGTAAGGAACACCTACTTGGATCTGCTTGGTAATTTGGCTTTGCATAAGCAAGCTGAATCCTCGCAACCGGAATCCTCATCCTACACGGCGGATAAAGCGGTGGACGGCAGAGGGGATACCAGATGGTCCAGCGAATGGGTGGACGATACCTGGTTCATGGTGGATCTAGGTGAAGTGAAGAACATTGATGCTGTATCTATTTTGTGGCAAACGGCTTATGGTTCGAAGTACCGCATTCTCGTGTCCGAGGACAAGGAGAACTGGACGAACGTTGTGAAAGACAACAACGGGGAGATTAACGGAAAGCCGGGACGAGTCGTGACTACCTTCCAGAGCACGCCAGCCAGATACGTGAAGTTCGAAGGCGTGTCCAGAGCTACTATGTTCGGCTATTCCTTTGAGGAATTTGAAGTGTACGGCGAGGAATATAAGCTCGGCAATCTACGGCCGATTATCGACCTGTTGACGGCTATCGAGGCCGACAAGCTTGTGGAGGACAATTACTCTCCTGAGGGCTGGGCCCAGCTTCAGCAAGCGATTGGGCAAGCGACCGCGGCTATTCAAACCGCCCAGCTGTCTCGTCCTGAGGCCGAACAGGCGTATGCAGGGCTGAGCATTGCGCGTGATCGTCTAACAATCGAAGACGTAATGGATCTGATCGAGCTTAATGTAAACGGAAGTATCGCATCCAACCTTTACCTCCCGCAGAAAGGGCAACTCGGTACGCGCATCGTCTGGAGCAGCTCAAAACCCGACTACCTGAATGCGAATGGACAGTTGTTGAAACGTCCGTCAAGCGGGTCAGGCGACATGGAAGTCGTTCTGACCGCGACGATCAGCAAGGGAGCTGCATCCGCGGAGAAAACGTTCAAGATCAAAATCAAAGCGCTGCCTGGCTCCGGCGGCGGAGGATGGGTTCCGACTCCAGTAACTCCTGATCGGGAAGAAGGCCAAAACGGCGGTTCGAATACGGGAGGTGAAGATCCAAGCAATGGCAATCAGAACGGCAGCGGCAACGGCGGGGAGTCCGGCGGATCGACAACGGTTCGGCTGAACGATATTGCGAGCCATTGGGCAGAAGCGTCCATCAAACGGGCGGTTGAGCTTGGATTCGTAGCGGGCTACACCGACAAGACGTTCAAGCCGAATAAGACGGTCAGCAGAGACGAATTCGTCGTCATGCTCGTCAAAGCGTTGAAGCTGCAAGATGCGAACAGTTCGCTGGACTTCGCGGACGCAGGTTCGATTCAAGCCTGGGCGAAGCCGTATATTGCGCAAGCCTTGGAATCCGGCCTGATCAGCGGCTATGCGGATGGGACCTTCCGACCGAAGGTTTCGATTAGTCGAGCAGAACTGGCAGCAATGATTGTTCGTGGCTTGGGTCTGAAGACTGCAAAAGGGCATGAGCTCTCTTATGCGGACGCGGATCAAATCCCGGCTTGGGCGAAGCCGTACGTGGCAGCAGCCCAGGAGGCGGGAGTGATGAACGGTCGAGAGGACAACCGGTTCGCGCCGGCCGCCTCGGCGACGAGAGCTGAAGCCGTGACCGTTATTCTGAATATGCTTGATGCGCTTGCGGAGTTGAAGGAACAGGAGTAG	MGLRQRVIFLVIFVTAFIMVTTLSERSNAATGNMALGKTAYSSSNEVDFFGPEKAVDGGTEHASRWSSERTDDQWFYVDLGEPVEIGRVIINWQTPAEQYQILVSDDAVSWRSVFADNRVLVASGPGEDTIEFEPTVAQYVKFQGETRRPIEGVYYGYSFWEFEVYKGRPQLQPIMDAVKNSIVVSEGDTLLNLPAVPEGYTLTLVNTDSLPVIDVQGNIHAPLVDTQVQLLLQIQSDSDPTYLLTDNALVTVPGLYEQTSDRNPEPRVIPSLREWLGATGEFRLSDKSKIVIRADDEAALRGTADILQQDLLDLTKLSLTVEVGSPQEGDIYLMLDAAQAGLGKEGYELNIGEYASVAASEQTGVMFGTRTILQLLGHAADHKAMPKGQSRDYPKYPDRGFMLDVGRKFYTIEFLQDYVKLMSYYKMNRFQIHLNDDVGDVGYFRLESEKFPGVTSKDGYYTKQQFRDLQLLGMEYGVNVVPEIDTPGHSGAFIAYDSRLGSNNQLDINRPETLDFIKALFDEYLDGSNPTFVGPDVHVGTDEYFGDDKEAFRRYADMLLNHINSKGKRARLWGSLSAYDGTTPVSNNATMDIWYEPYGSAQQAVELGYDIINTNTNLLYIVPQLYRSYLNYDFIYNEWEPNDWLETKLPYAHPQVKGGMFALWNDVSVEKGVSMADSHQRILPSMQVLAEKLWRGNRIDRNFASFQADAARYVDPPGVHQSHKLQIDNERHLVLDYTFDEGFADRSGNGFDGNAVNAGTEKGIFGQALRLNGGASYVETPLRTLGFGWTMSMWIKPDADNPQGAVLLESPDGQLKYNIGGSGKIAITKENYVSEFNYKLPTDRWTHVMMIGDDTGTSIFINGSEYTATLKDGSKLETFVLPAAKIGSETNAFKGLIDELIVRNTYLDLLGNLALHKQAESSQPESSSYTADKAVDGRGDTRWSSEWVDDTWFMVDLGEVKNIDAVSILWQTAYGSKYRILVSEDKENWTNVVKDNNGEINGKPGRVVTTFQSTPARYVKFEGVSRATMFGYSFEEFEVYGEEYKLGNLRPIIDLLTAIEADKLVEDNYSPEGWAQLQQAIGQATAAIQTAQLSRPEAEQAYAGLSIARDRLTIEDVMDLIELNVNGSIASNLYLPQKGQLGTRIVWSSSKPDYLNANGQLLKRPSSGSGDMEVVLTATISKGAASAEKTFKIKIKALPGSGGGGWVPTPVTPDREEGQNGGSNTGGEDPSNGNQNGSGNGGESGGSTTVRLNDIASHWAEASIKRAVELGFVAGYTDKTFKPNKTVSRDEFVVMLVKALKLQDANSSLDFADAGSIQAWAKPYIAQALESGLISGYADGTFRPKVSISRAELAAMIVRGLGLKTAKGHELSYADADQIPAWAKPYVAAAQEAGVMNGREDNRFAPAASATRAEAVTVILNMLDALAELKEQE	PGPT0012150_36	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
AK002_03125	1167			hypothetical protein	ATGACAAATACAAGACCTATTATTTCCGAGGAAAGCACAGAAATTCAGCCGTTCCGTATCTCCGTAGCGCAAGACGATCTAGAGGACCTTCGGTATCGTTTATCTCGGACTCGTTGGCCGGAAAAGTTAGGTGAAGCGGGCTGGAAATATGGGGTATCGCTGGATTATGTGAAAGAATTAGCACTCTATTGGGAGAAAGAATACGATTGGCGTAAATTCGAAGCTCGCCTGAATGAGTATCCTCAATTCACTACGAATATCGATGGTGCCAACATTCATTTTTTACATGTTCGTTCGCCAGAACCAGACGCATTTCCACTACTGCTTACCCATGCATGGCCTAGCTCGATTGTCGAGTTCTTGGAACTCATCGGTCCGCTTAGCGATCCGCGCAATCACGGTGGCGATCCGGCTCAAGCGTTTCACCTAGTCATTCCTTCCGTTCCTGGATTTGGGTTTTCAGGGCCAATTCTTGAATCGGGATGGGATATCGCTCGTATTTCAAAAGCATGGGATGTCTTAATGAAGCGTTTGGGATATAAGGAATACGGTACCCACGGCAGCGATTGCGGTGCACTTGTATCCAGAGAACTCGGCATTCTGAAGCCGGAGGGTCTTCGTGGCATTCATGTACTGCAGCTGTTTTCGTTCCCTTCCGGAGATCCGGCAGAGATGGCTGACTTAACGGAAGAAGATCAGCGAAAACTTCAATTCCTTGCCAATTTCCATGAACGGGCAGGCTTTAATTCGATTCAATCCACACGCCCGCAAACACTCTCCTATGGGCTAACAGACTCGCCGTCAGGTCAGCTTGCTTGGATTGCCGATTTATTTTGTGGCTTTGGTGACCATGTGGATTTTATCGACAGGGATGCATTTCTGACGAACGTCACCTTGTATTGGTTGACCAATACGGCGGAATCATCTTCTCGCTTGTATTATGAGAACGCGCACAGCCAAAGTCAGGAGCCGCAGGGACCGAATACGACACCGACAGCAGTGGCCGTGTTCGGAGATGATTTCAAATCTATAAGACGCTTTGCTGAACGTGACAACACGAATATTGTGCAATGGTCAGAATTTGAGCGCGGAACCCACTTTGCCGCAATGGATGCACCGGATCTTCTAATCCCTGATATTCAGTCTTTTTTTCGGAGATTCCGTTGA	MTNTRPIISEESTEIQPFRISVAQDDLEDLRYRLSRTRWPEKLGEAGWKYGVSLDYVKELALYWEKEYDWRKFEARLNEYPQFTTNIDGANIHFLHVRSPEPDAFPLLLTHAWPSSIVEFLELIGPLSDPRNHGGDPAQAFHLVIPSVPGFGFSGPILESGWDIARISKAWDVLMKRLGYKEYGTHGSDCGALVSRELGILKPEGLRGIHVLQLFSFPSGDPAEMADLTEEDQRKLQFLANFHERAGFNSIQSTRPQTLSYGLTDSPSGQLAWIADLFCGFGDHVDFIDRDAFLTNVTLYWLTNTAESSSRLYYENAHSQSQEPQGPNTTPTAVAVFGDDFKSIRRFAERDNTNIVQWSEFERGTHFAAMDAPDLLIPDIQSFFRRFR				NA	NA	NA	NA	NA
AK002_03126	672			hypothetical protein	ATGATACCAACTAATCCAAAATTTATTCTAATCATGTTGACAATGCTAGGAGTATTTCATTCAACTACTCCTGTCTTGCCGATTATACATGACCAAAGCAATCTTGAGATTGCAATTTACCCTGAGCGTCACAAATTACTTGTACGAGAACATGGACAAATAATTAAGACCTACTCTGTAGCAGTCGGTAATCCTTCAACACCGACTCCAGTTGGAGATTTTAGAGTTGAATATAAAGGTACCAATTGGGGACCCTCATTTGGTCCACGTTGGATAGGATTGAATGTACCGTGGGGCAATTTTGGAATTCACGGTACGAATAAGCCCTATTCAATTGGTCAACACCTTAGCCATGGTTGTATCCGAATGCATAACAAGGATGTCATTGAACTGTACGAATTAATTCCGATTGGAACCAAAGTAACGATATACGGTCATGTACTTGGAGAAGACAATCAAAACCCGAGGGATTTAGCTGAAGGGGATGTTGGTGGAGATGTGCAGCTTATTCAATCCCGACTAAAAAGTGCAGGATATTACAATGGGGAATGCGACGGGAAGTTCCGCTTCAATACAACCGAGTCACTTAAGAAATATCAGAGTGATCATCACCTTATTCCAAATGGTGTTGTTTCTAGTAAAGAATATGAAGAGTTAGGTTTGGTTGAATAG	MIPTNPKFILIMLTMLGVFHSTTPVLPIIHDQSNLEIAIYPERHKLLVREHGQIIKTYSVAVGNPSTPTPVGDFRVEYKGTNWGPSFGPRWIGLNVPWGNFGIHGTNKPYSIGQHLSHGCIRMHNKDVIELYELIPIGTKVTIYGHVLGEDNQNPRDLAEGDVGGDVQLIQSRLKSAGYYNGECDGKFRFNTTESLKKYQSDHHLIPNGVVSSKEYEELGLVE	PGPT0023745_552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
AK002_03127	1698	msbA	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGAGAGAAGCTTTATTAAAGAATAAGGGGCTGATCACGCTTACCGTGTGCTTTAGCCTCATTGTCTCGTCAGGAAGCGTGTTTGTCGCTATATTACTGCAGAGAATCATTGATGCCGCTGTAAAAGGCGACATGGGGCTTTTTCAACAAACTTTGATCGTCTCCATCATTTATGTACCTTTGCTGGGCCTTTTTGGGTATCTGTATTCCATCTGCAGCAAGGCATTGATTCGGGGCTGGACGGTAACTCTACGGGAAAGAGTATTTCGGGGGATTCTAAGAAGAAATTTTGAAGAATTCTCGAATACCAATACGTCTGACTATCTGTCCGCCCTGTCCAACGATATCAAGCTAATCGAAGAAAACTATGTCCAGCCTCTTTTGATCACGCTGCAGAACATCATCATTTTTGTCGCATCCCTCCTCATCATGCTTTTTCTCAGTCCGCTGGTTACTGGGATTCTGGTCGGCTGCATGATATTGATGTTCACGGTTCCTTCCCTTTTCGGTAAGGCCCTGCAAAAGAGACAAATAGCCGTTTCCTCACAAATGTCTGTATTCACTTCAAGGCTTAAAGATATGCTTTCCGGCTACGAGGTCATTAAGTCTTACTCCATGGGCAACCATGTGGAAAAGAAATTCGCGCAAGAGAACGAAACCGCCGCCAACACCAAATTTTCGGCTGACCGCACGCTTGCCCTTAATGAAGGCGTGTCCGAAATTCTCGGCAGCTTAACCCAATTTGCCGTCGTCTTCATCGCCGCCTTCTTGATCCTTACAGGCAAACTGTCAGCAGGAAGTCTTGTCGCTCTTGTTCAACTAAGTAACGGGTTTGTTGGCCCTGTCATGATGATCATGCAGAATATGCCAAGAATTCAGGGTGTCAAGCCGGTAGTGAAGCGAATCGATGCTCTGGCTGATTATGAGGAAGCCTCTTTCAAAGGGGAGATCGAACCCAGATTCCACGACAAACTGCAGGCTGCCGGGTTAGGCTTTGCCTATAAGGAGGGGAGGAGCGTGCTTTCAAATATTGATCTGATCGTGCTTAAGGGTAAAAAATATGCGCTCGTCGGACCAAGCGGCTGTGGCAAGTCCACGCTGGTCAAGCTGCTATCAGGCTGCTATGCGGGCTACCATGGAACGATTACATATGACGGTATCGAGCTCAAACAGCTGGATAGGAACCGCTTACAGAAATTGACATCGACCATCCATCAGCAGGTGTACATGTTTGATACAGACATACGGGAGAATATTTGCTTATATGAGGCTTTTTCAGAGAAAGAGATCCAGTCTGCCGTTCAAATGAGCGGGATTGACAAATTGATTGCGCAACTGCCGAACGGGTTGTCGTCTGCCGTCGGAGAAAACGGCTCCAACTTTTCCGGAGGTCAACGCCAAAGAATAGCTGTTGCGCGGGCGCTGATTCGAAACATGCCGATTCTAATTCTTGACGAGGGCACCTCGGCTGTGGATATGCAGACTGCTTATGAAATCGAAAAGAGGCTGCTGGATGTCCCGGACCTAACATTGATCACGATCACCCATAACATGAATCCAGACTTACTAAGTTTATATGATCAGATCATATACATGGAAGAAGGACACATAGTTGAAATGGGCAGTCTCGAGGAACTGCTTGAACGGGGTGAGGGGTTCCGCCGATTCTTCACTTTGGAAAAATCCGTAGCAGAATAA	MREALLKNKGLITLTVCFSLIVSSGSVFVAILLQRIIDAAVKGDMGLFQQTLIVSIIYVPLLGLFGYLYSICSKALIRGWTVTLRERVFRGILRRNFEEFSNTNTSDYLSALSNDIKLIEENYVQPLLITLQNIIIFVASLLIMLFLSPLVTGILVGCMILMFTVPSLFGKALQKRQIAVSSQMSVFTSRLKDMLSGYEVIKSYSMGNHVEKKFAQENETAANTKFSADRTLALNEGVSEILGSLTQFAVVFIAAFLILTGKLSAGSLVALVQLSNGFVGPVMMIMQNMPRIQGVKPVVKRIDALADYEEASFKGEIEPRFHDKLQAAGLGFAYKEGRSVLSNIDLIVLKGKKYALVGPSGCGKSTLVKLLSGCYAGYHGTITYDGIELKQLDRNRLQKLTSTIHQQVYMFDTDIRENICLYEAFSEKEIQSAVQMSGIDKLIAQLPNGLSSAVGENGSNFSGGQRQRIAVARALIRNMPILILDEGTSAVDMQTAYEIEKRLLDVPDLTLITITHNMNPDLLSLYDQIIYMEEGHIVEMGSLEELLERGEGFRRFFTLEKSVAE				NA	NA	NA	NA	NA
AK002_03128	1053			hypothetical protein	ATGAATCTTAATTTTCAATTCGAACTAGATCCGGTTTTTGAAACGCTAGGTCTTCTGTATCACAGTAGACATGCCGATAAGGTCAAAGAAGCAAGCATTAGTGAACTCAATAAATTCGGTGTGGATGGAGAAATATTTTATAATAAGCATTTGAAATCGTTTGACCAATTCATTCGAGCCTTTTTAAAACATAGGGAATGGGATGAACAAGCTGAGTTTTTCTTTGGTGATGATGACGACCAATTTTTCCATATGCTCGTTCGCGTCGTATGCGAGAATCCAAATTGGATGACCGCACCCAATATGATGCGTGAAGAGGCAGTCCGACTCGAGATGCTAGAGCTGATTGCCAGAGATGAGGAAGTCCATGCGGCTTTACCTGAGAATCTCCGGCTTGAAAACATACAAACACTAGATGAGATCATTTCCTTCTTGGACAAAACTCCTTTCGATGAAAAAATGAAGTGGAAGCTAATGATCCTGGTAAACGATCCCCTCGAGCGGATTCAGACGCTGACGGCTATTGTGAATCGTCACCTAGCGGCATTTGAACGGGCGCGGCTGGAGATTCAGAAACCGCTGGACAAACTTATACAAAAGCATCGACAGACTGTGCAAAAGCAAGAGGGGGGCCACTTTTTTAAATTTGTTGAGGTATTCGAATACCAAAAAGCCTGTGTATATCCAACCTTGATCATGCCGTTGAGTCAGATCTTGTACAGGGATTATTGTTATTACGGCCTTTTGGTCGATGCACTGCCGATTCAGAATACAAAGAATGACGGCTCCGAGGACTTGCTTCTTCTCAGACTAAAGGCGATGGGGGACAAGAGTAAATTACAAATTCTGGCTTCCCTCAAAACCAGTCCGAAATACAATCTCGAAATCGCCGAACATCTGGGGTTGACGGCTGCTACTATGTCCCACCACATGAATGTACTGCTCGCTTGTGGATTGGTCGCGATCGAAAAGAAGAACGGAAAAGTGTATTACCACCTTGACCAAGAAAAAATTAAGAGTTTCCTTGGTGATTTAGAGCAGTTTCTGCTCTGA	MNLNFQFELDPVFETLGLLYHSRHADKVKEASISELNKFGVDGEIFYNKHLKSFDQFIRAFLKHREWDEQAEFFFGDDDDQFFHMLVRVVCENPNWMTAPNMMREEAVRLEMLELIARDEEVHAALPENLRLENIQTLDEIISFLDKTPFDEKMKWKLMILVNDPLERIQTLTAIVNRHLAAFERARLEIQKPLDKLIQKHRQTVQKQEGGHFFKFVEVFEYQKACVYPTLIMPLSQILYRDYCYYGLLVDALPIQNTKNDGSEDLLLLRLKAMGDKSKLQILASLKTSPKYNLEIAEHLGLTAATMSHHMNVLLACGLVAIEKKNGKVYYHLDQEKIKSFLGDLEQFLL				NA	NA	NA	NA	NA
AK002_03129	321	pspA_1	COG0406	Phosphoserine phosphatase 1	ATGCAAATTATTTTGATTCGTCATGGTGAATCTGAAGCTGATATATTGAGAGTTCATGAAGGTAGAGCCGATTTTTCACTAACTGAATTAGGTCGGAAACAAGTAAGATTGATGGCTGATAAAGTAAAAACACAATTTCCTCCCGATTTCATTTGGGGAAGCACCTTAAAAAGGGCAAAAGAAACTGCATCTACACTTGCTGAAACGATTGGGTGTGACATCCAATTTGAAGATGACTTAATGGAACATAATAATGGGATATTGGCAGGCTTATCCTTTGAAGAAGCAAAAAAATTTCCCACCCCCAAAGAACTGCATTGA	MQIILIRHGESEADILRVHEGRADFSLTELGRKQVRLMADKVKTQFPPDFIWGSTLKRAKETASTLAETIGCDIQFEDDLMEHNNGILAGLSFEEAKKFPTPKELH	PGPT0018030_3753	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
AK002_03130	1278			hypothetical protein	ATGAAGTCATCAGATTTGACCCGTCCTTTTTATTTCCTGTGGACGACCCAAACCGCGGCGAATGCAGCTGATGTGCTTTACATTATGGCGCTTACGGTGCTGGTCCTTGATCGGACCGACTCTCTCGTATCTGCGGCACTGATGCCGCTGATGCGCAGTGGGGCTCAAATGCTGAGTAGCCTGATTGCGCCTCTGCTGATCAATCGTTTCAAGTTGTCCAATCTTCTTTTATTGTCGCAAGTGGGGCAATTCCTGCTGTTCGTTTGCCTAGCCGTTTATTTACAGCTTAGCGGAGAGGCTTCATCGCTTGTTTTGGTATTTTCACTCGTATTTGTGATGTCCTTTCTCGACGGATGGACAAACCCGGCCCGAAATGCACTTATACCACGTCTAGTAATGCGTGAGCAAGGTCTGCTTAAAGCCAACGGACTGATTAGCGTCAGCGATCAGATTGTGCAATTCGCAGGCTGGGGATTAAGTGGCATCGTCGTTGCATTTATGGGAGCTAGCCCTACGTTGTTGCTGACGGCTGTTATTTATGGTTTTGCCGCGGTATTTACGCTGGGCGTCAAAGAACCTACGGAATTGGAACTTGGAGACAAGGAATTGGATGCGCCCACTGACAAAATATTGGCACTTGGCACATCCAGATGGCATACTCTAACCGAAGGCTGGAAAATGATATGGAAAACGCCTCGCCTGCGGGTGCTTACCTTTATGGACATCATCGACATGCTTGGCGCTTCGATTTGGGTAGGCGCCTTTACCCTTGCTTTCGTTCAAGTTGCACTTGGACAAGGCGAAGAATGGTGGGGATTTATTAATGCCGCTTATTTTGCAGGGACCATAGGTGGTGGGCTGCTGGTACTGGCACTAGCACGGGCCATAGGTAACCGCTATCTAGCGGTGATGATGATCGGCATGGCCGGTTATGGGGTTCTGACCGCACTTTACGCGCTCAATACAGAGCCCTACGTTGCGCTTATTTTCGTTATGTTGATGGGGCCTTTCGCGGAGCTCTCCGTTATTAACCGGCGCACCTTAATTCAGCACAGCGTAGCCAAACTTTTGCTGCCCAAGGTGTTATCTGCCCAAGCTTCACTTATGCATCTAGTATTTTGCATTTCGCTGCTAGGCATGGCTTCGCTTGCCGAATACATCGGGATTGTGAACCTCTACCTGTTCGCGGCCGGCCTGACCATGCTAGCGCTCTTGGTAGGCTTGTTGAGTCACCGGGCTTTCCGGGACAGAGCCGCTCATGGCAGAACAATCGGTTAA	MKSSDLTRPFYFLWTTQTAANAADVLYIMALTVLVLDRTDSLVSAALMPLMRSGAQMLSSLIAPLLINRFKLSNLLLLSQVGQFLLFVCLAVYLQLSGEASSLVLVFSLVFVMSFLDGWTNPARNALIPRLVMREQGLLKANGLISVSDQIVQFAGWGLSGIVVAFMGASPTLLLTAVIYGFAAVFTLGVKEPTELELGDKELDAPTDKILALGTSRWHTLTEGWKMIWKTPRLRVLTFMDIIDMLGASIWVGAFTLAFVQVALGQGEEWWGFINAAYFAGTIGGGLLVLALARAIGNRYLAVMMIGMAGYGVLTALYALNTEPYVALIFVMLMGPFAELSVINRRTLIQHSVAKLLLPKVLSAQASLMHLVFCISLLGMASLAEYIGIVNLYLFAAGLTMLALLVGLLSHRAFRDRAAHGRTIG				NA	NA	NA	NA	NA
AK002_03131	783			hypothetical protein	ATGGGCAAAGGGCTCGCCATTTACTATTTACGCCAGGGCAGCAGAGTGACGGTGACAGGCAGCAACCGTCTCCGGGGTAAGGAATTTCTAGACGAGGCTGCACGACTTGGCGCCGCAGAACGGGCATCCTTTATTCAAGCTGATCTATTATCATTGTCTGAGAACCGCCGGGTCATTCAAGAGGTTCAACAACACCATGCATCGCTTGACGGACTGGTGCTTACAGCGATGCAACAATTTCCTAAACGGAAATTGACTCCGGATGGTTTTGAAAGCACTTTTGCGCTCTATTATGTCAGCCGATTTATTCTGAGTTATGGTTTAACGGAATTGTTGGAGAGGGGGATCAATCCGGTCATTGTAAGCATCGGAGGCACTGGAATGACGAAGGGAGCCGTTCACTACGATGACCTTACACTTCAACAGGGGTATGGTCTGCTGAAGGCGACTCTGCAGGGAGGACGGGCGAATGATCTGCTGGGGGTTGCGTATGCTGAGAACCACAAGACCGGGAAGACACGTTTCATACTTAACCATCCCGGATATACCCATAGCGGTACGAATCATTTGGCCCAGCCTTTCAAGGGAATATTGCGCGTTATGGGCAAGCTCTTCGCACAGCCGGTGGAGAGGAGTATTCAACCGATCATTAAGCTGATGGATAATCCTCCATCCCAGCCCCTCATCGCCTGGGACCGAACCAAGCCCGTTGATCTCGATCTCCCGACGCTTAGCAAGAAGGACGCACTAAAATTATATCAGTTGACCAAGCATATTCTTTAA	MGKGLAIYYLRQGSRVTVTGSNRLRGKEFLDEAARLGAAERASFIQADLLSLSENRRVIQEVQQHHASLDGLVLTAMQQFPKRKLTPDGFESTFALYYVSRFILSYGLTELLERGINPVIVSIGGTGMTKGAVHYDDLTLQQGYGLLKATLQGGRANDLLGVAYAENHKTGKTRFILNHPGYTHSGTNHLAQPFKGILRVMGKLFAQPVERSIQPIIKLMDNPPSQPLIAWDRTKPVDLDLPTLSKKDALKLYQLTKHIL				NA	NA	NA	NA	NA
AK002_03132	597			hypothetical protein	ATGGGTATAGTGAACCCGAATGATCCTCGTGCAAAGCGAACGAGGAAATATATTCAGAAAGCATTTACGGATTTGCTTGTAGAAATGGACTTCGAAGACCTCTCGATTCAGGATATTATGGATCGTGCTGAACTGAACCGAGCCACCTTTTATAACCATTATCAAGATAAATATGAATTGCTTGAGTTAACCATGACCAGCGCATTTACGGAGATTCTATCAACACGGATTCCTCCCGGTACGCAAATGCAGGGCACAGAGCTGTTGCGCAATCTGATGCTGGCAGTCTGTGAGTGGCAGATTGAAACGACGAAGCAGCTGAATGCACGGCGAACCCTTTCGCAGGCGATGGAGGACAATGCCAAGCAACAACTTTACAATGTCATCATCTCTTGCATGGCGCATGTCAAAGATCTACCGGCGGAAGAGCAGCGTAGAATGGAATGGGTAGCAACGATGATCAGTTGGTCAATTTATGGGGTGGTTGTGAAGTGGAGTCAACGGCAGGAAGAGCCGGTGGAACAATTCATCGAGCATGTGCTGCCCTTCCTGATGTCGAACTTGCGTACGCTTAATCTGCAAGACTCACAAGAGTAG	MGIVNPNDPRAKRTRKYIQKAFTDLLVEMDFEDLSIQDIMDRAELNRATFYNHYQDKYELLELTMTSAFTEILSTRIPPGTQMQGTELLRNLMLAVCEWQIETTKQLNARRTLSQAMEDNAKQQLYNVIISCMAHVKDLPAEEQRRMEWVATMISWSIYGVVVKWSQRQEEPVEQFIEHVLPFLMSNLRTLNLQDSQE				NA	NA	NA	NA	NA
AK002_03133	432	nhaX_2	COG0589	Stress response protein NhaX	ATGTTTGACAAAATTATGGTGGCCATTGATAAAGGTGAAATAACGAACAAACTCCTTGATGCAACCGTTGAAATAGCCCATAATAAACAAACTCAAATTACCTTGGTAAATGTCAGCCAGGATTATGTGTCGAACGGAATGACATATGTACCAGAGAATTTTTTGGAAGACATACTGAACGAAATGGAAAAAGCGAGTTTGGAGCAGTTGCACCAAGCCAAATCTAAATTAAAGTCTGCGGGGATTAACCCGAAAACTGTTCATCTTAAGGGAGATCCTGGGTATGAAATATTGAATTATGCAAGGGAAACCGAGCAGCAACTTATTATTATCGGAAGCCGTGGGCTAAGGGGCGTAAGAGGAATGATGCTTGGAAGTGTCAGCCACAAGGTTTCGCAGTTATCAAGTTGCCCAGTCCTCATTGTACATTAA	MFDKIMVAIDKGEITNKLLDATVEIAHNKQTQITLVNVSQDYVSNGMTYVPENFLEDILNEMEKASLEQLHQAKSKLKSAGINPKTVHLKGDPGYEILNYARETEQQLIIIGSRGLRGVRGMMLGSVSHKVSQLSSCPVLIVH	PGPT0002681_9	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002681-yxiE-NA	NA	NA
AK002_03134	1233	yycB_1	COG2807	putative transporter YycB	ATGCCGAAAAAACATAATAAAAAATTCGTGCAATCCTCAATAGGACTGATCATTCTCGGCATTATTGTTATTGCAGCTAATTTACGTACTCCCTTAACCTCAGTCGGTCCTTTAGTGAGTCTTATAAGGGATGACGTTCATATTTCAAATACATTAGCAGGCCTGATCACAACGGTACCCTTGCTCGCCTTTGCTTTATTATCGTCTCTAGTACCAAAATTAGGACGAAGATATGGGGTTGAGCGTATCATTTTGATTGCTCTAATCTTTCTGACTGCTGGTATAGTAATACGTTCATTATCTGGCGCACTTAATCTGTTTATTGGGACAGCTGTTCTTGGATTCGCAATTGCCGTATGCAATGTATTATTGCCAAGTATAATCAAAAGGGATTTCCCAAATAAAATTGGCTCCATGACGGGTGTTTACTCCATTTCAATGAATTTATGTGGAGCAATCGCATCGGGAATCAGTGTACCGCTAGCCGTGAACGCAGGTCTAAAATGGCAGGGAGCATTGGGAATATGGGGGATTCTAAGCTTTGTTTCGATCCTCTGTTGGATACCCCAATTAAGAAATCAAACAAAACAAACAGCCACGACGAGTCAAAGGATGGTCAGCTACGATGTGAATGTTTGGCGATCCCCGCTTGCCTGGCAGGTAACCTTGTTTATGGGTATACAGTCCATGGTTTTCTATGTGTTGATCGCTTGGTTGCCTGAAATTTTAAAGCAGCAAGGAATTGACTCCAACCAATCAGGATGGTACCTCTCGATCATGCAGTTAGCCATGCTTCCATTTACCTTTATTGTCCCCGTAATTGCTGGGCGCATGTCTAACCAACGTTTGTTAGTGGTCATTACAACCATTTTGCTTCTGTCGGGAACGCTCGGACTTCTTTACGGGAGCTCCCATATCATTCTGTTGTGGATCATCTTACTCGGAATTGGTGGAGGCTTCGCCTTTAGTTTGTCCATGATGTTATTCGGGTTACGTACTGAAAATGCGCATCAAGCAGCGGAACTGTCTGGCATGGCCCAATCGATCGGATATCTTCTTGCCGCAATCGGTCCAGCCCTTATAGGATATCTGCATGATGCGACAAATAGTTGGAACCTGCCGCTTTTCATTCTGCTAGGGGCTTCGGTCTTACTCTTTTTAGTAGGTATAGGAGCAGCAAGTAATCGTTTTGTAGGTAGCCGAAATAGTTACCAGCTGCCACGGAAAGGATGA	MPKKHNKKFVQSSIGLIILGIIVIAANLRTPLTSVGPLVSLIRDDVHISNTLAGLITTVPLLAFALLSSLVPKLGRRYGVERIILIALIFLTAGIVIRSLSGALNLFIGTAVLGFAIAVCNVLLPSIIKRDFPNKIGSMTGVYSISMNLCGAIASGISVPLAVNAGLKWQGALGIWGILSFVSILCWIPQLRNQTKQTATTSQRMVSYDVNVWRSPLAWQVTLFMGIQSMVFYVLIAWLPEILKQQGIDSNQSGWYLSIMQLAMLPFTFIVPVIAGRMSNQRLLVVITTILLLSGTLGLLYGSSHIILLWIILLGIGGGFAFSLSMMLFGLRTENAHQAAELSGMAQSIGYLLAAIGPALIGYLHDATNSWNLPLFILLGASVLLFLVGIGAASNRFVGSRNSYQLPRKG	PGPT0005211_951	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
AK002_03135	561	sutR_1	COG1396	HTH-type transcriptional regulator SutR	ATGGATGAAATCGATGAATCAAAACAAATTGTATTACAAATCGGCGGTGCATTGAAAAAGTACAGAAAAGAAAAAAACATGACCTTAGACGACTTATCGGAATTAACGGGCGTAAGCAAACTTACTCTGGGAAATATCGAACGTGGCGAAACAAATCCAACTTTGGCAATTATATGGAAAATTTCAAAAGGCATATCTTTACCGCTATTGGCTTTGTTCAAATCAGAGAACCCTGTTAGTTTGTATCGAGCAGGCGAAGGATTACGGTTTTCTAATGATGAAAAAAATTGGATCATCGAACCAATCTTTAAAAGCAACGATATTGAAATGTGTCGGGCATACTTACAGCCAAATAGCTCGTATTACCCAGAAGGTCATCATGAGAATACAACTGAAATTGCGACAGTAATGGCTGGTTCCATTGAGATACAAGTCAATGGAGAGATTTACACATTGAATCAATATGATACGATCAGTTTTCGTGCGGACTGTCCTCACTCTTATACCAATCATACGAAAAGCGAAACAGTGCTCCATATATCCTTAAAATATGGTTTCTAA	MDEIDESKQIVLQIGGALKKYRKEKNMTLDDLSELTGVSKLTLGNIERGETNPTLAIIWKISKGISLPLLALFKSENPVSLYRAGEGLRFSNDEKNWIIEPIFKSNDIEMCRAYLQPNSSYYPEGHHENTTEIATVMAGSIEIQVNGEIYTLNQYDTISFRADCPHSYTNHTKSETVLHISLKYGF				NA	NA	NA	NA	NA
AK002_03136	660			hypothetical protein	ATGGATAATACGGAAAACAAAAAAATCCGCAAAGGCTCTTCAGACAAACGAGCTAAAATTATTGCAGCGGCACGAGAACTGTTTCTATCAGATGGGTTTGATCGCTCCAGCGTCGATGCGGTCGCAGCTAAAGCGGGGGTTTCCAAAAGGACCGTTTATGATTATTATGGCGACAAACAGAACTTGCTGCTTGCTGTTGTGGAAGAAACCAGTCGGGCGGTTCTGGACATGATCAAGCAAGGGATATCAGACTACCTCTGGGAATTCGAGGATCTGGAGCAGGCGCTCGTCTTATTCTGCGAACAATTCGTAGCTTCTGCGAACGGTTCGTCCGATTACAGCGCTCTGATTCGCCTGGTTACAATGGAAGCCGCCAACCTGCCAGCCTCGTTTTTAGAAAAGCTGGATAACGCAACGGAAGAGGGGATTATCAGGAGGTTTACCGAGTTTGGACAAAACGGACTGCTCGATGTACCAGACCCTGTAATGGCTACAAAGCACTTCGCTGCCTTAACGTTTTTATTGGTATTTGATCAACCGATAAAAGCAGGCAATTTGGAGGAGGAACAAACCAAACGTATCATCTCCGAAGGCGTACGCGTCTTTCTTTGCGCTTATGGAAAACGCACCGTTCAAAACGAAAATCAACTATCAAACTGA	MDNTENKKIRKGSSDKRAKIIAAARELFLSDGFDRSSVDAVAAKAGVSKRTVYDYYGDKQNLLLAVVEETSRAVLDMIKQGISDYLWEFEDLEQALVLFCEQFVASANGSSDYSALIRLVTMEAANLPASFLEKLDNATEEGIIRRFTEFGQNGLLDVPDPVMATKHFAALTFLLVFDQPIKAGNLEEEQTKRIISEGVRVFLCAYGKRTVQNENQLSN	PGPT0028895_616	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028895-mexL-K18301	NA	NA
AK002_03137	1569	tetX	COG0654	Flavin-dependent monooxygenase	ATGAAAACCGTGCAGTCTTTTGTTGATGTTCTCATTGTCGGGGCCGGACCAACAGGGCTTACACTTGCCTGCGACCTTGCCCGTCGAAACGTCGACCATCGTATTATTGAACGAAGCGCCTTATATAACGTAGCGTCTCGCGCCAAAGCAATCCAGCCCCGCTCGCTAGAGGTCGTCGATGATTTGGAGGCCGTTCGTTACATTATTGACACAGGTGTCGTGGATTTGCCTGTTCGTTATTATACCGCAGATGGCAGGAGTGTGGATAAGCCGGCGATTACCGTTGCAGCCAGCGCTGAACTCGAGACACCCTATCGTGATCCGGTCTGGATTGCTCAATTTGATGTGGAAAAAGCATTGCGCGACCGCTATGCGGTGCTTGGCGGCCAAATCGAGTTAGGCTTAGAAGCTGTATGGCTTGTTCAGGATTTGGATGGTGTAACGGTAACCGTGAATACACCGCAAGGAGAAGAGCAAATTCGCGCTCGTTATGTAGTCGGCGCTGACGGGGGCAAAAGCAATATCCGCAGGTTTATCCATTTGCCGCTGGTTGGAGAAACACACGAACATGAGCGGTGGTATCTTGGCGATGTACGATTGGAAGGGCTGGATCGTGACCGTATCCATATCTGGACCTCTCCAGAGGGGATGGTCGGGGTGACGCCGATACCAAGATCCGACATTTGGCAGCTGCAGGCTACCATTCCGGCAGACATCGAAGAACCAGAGCAGCCGACGCTAGAGGTGTATCAAGCCATGTTTGACCGTCGCGCAGGAGCCGGACGTGTTCGGCTTACGGATGCCTCCTGGCTGTCCATCTATCGGATCAACGTCCGCATGGTTGAATGTTACCGTAACGGCCGGGTTTTCCTTGCCGGCGATGCCGCTCATGTTCATTCGCCGGCCGGCGGTCAAGGCATGAATACGGGGATGCAGGACGCATACAACCTCGGATGGAAGCTGGAAGCCGTCGTTCGCGGAGCTGACACCGCCTTGCTCGACACGTACGATGAGGAGCGCCGCCCCGTAGCTCAAGCCGTGCTCGAGGACAGCACGAAAAAAATGGGTGGGGTCGTAGAGACGGCCACTGAACGCGGAGCGTTATCCCAATCCTTGAGCACCATATCCGACGATCTGACGAGCGGACTTCTCATTTCCTATCGGTCAAGTTCTCTTACCCACCCGTCTGTTCAACTGAATGTTACCCGTTCATTGCCCGGGGATCGTGCTCCTAATGCCGAGGGTCTGCAAGGTTCAGGGTTTGCAGGAAATGTATTTGACCTGTTGCGCGGCCCACACTGGACGCTTTTGGCTTTTGTAAACCGCACAGATCATCTTTCTTTGGAGAACTTCACCTACGACGAACTCCATGTGCATTGCATCCTGCCATCGCATGTGGAGGGAGCGGAAGGCATAATCGACGCAGCAGGGAATGCCTATCGAATTTACGATGTGGCAAGCGAAGAACTCGTATTGATTCGTCCCGACGGTTACATCGCACTGCGTACCTCCATTGATGATACCGTATCGATCTTGAATTACTTGAATTTCATTTATCGCGAAAACTGA	MKTVQSFVDVLIVGAGPTGLTLACDLARRNVDHRIIERSALYNVASRAKAIQPRSLEVVDDLEAVRYIIDTGVVDLPVRYYTADGRSVDKPAITVAASAELETPYRDPVWIAQFDVEKALRDRYAVLGGQIELGLEAVWLVQDLDGVTVTVNTPQGEEQIRARYVVGADGGKSNIRRFIHLPLVGETHEHERWYLGDVRLEGLDRDRIHIWTSPEGMVGVTPIPRSDIWQLQATIPADIEEPEQPTLEVYQAMFDRRAGAGRVRLTDASWLSIYRINVRMVECYRNGRVFLAGDAAHVHSPAGGQGMNTGMQDAYNLGWKLEAVVRGADTALLDTYDEERRPVAQAVLEDSTKKMGGVVETATERGALSQSLSTISDDLTSGLLISYRSSSLTHPSVQLNVTRSLPGDRAPNAEGLQGSGFAGNVFDLLRGPHWTLLAFVNRTDHLSLENFTYDELHVHCILPSHVEGAEGIIDAAGNAYRIYDVASEELVLIRPDGYIALRTSIDDTVSILNYLNFIYREN				NA	NA	NA	NA	NA
AK002_03138	927	bcrA_2		Bacitracin transport ATP-binding protein BcrA	ATGGAAGAAATTATTCGAACCGTTAACCTGACAAAGCAATACGGAAATAAAGTCATTGTAGATCGCGTTTCGATTTCCGTTAAAAAAGGTGAAATCTATGGATTCCTGGGGTTGAATGGCGCAGGAAAAACGACAACCATTCGAGCTCTTCTTGGAATGAGTAAGCCTTCTTCCGGAGAAGTGTATTTGTTTGGTCAGCGCTGGGAGAATGGGAATCCCAATTTGTCGAGACGAGTAGGTTATATGGTGGAAGTTCCTTATGCCTACCCTAACTTTACGGTTAGGGAAAACTTGAGTTTGATGGCCAGGTTGCGAGGATTACCGGTTCCGAGGGCAGTTAACGAAATTATGGAGCAATTGAATCTGACCCAATATGCGGATAGTAAGGCAAGAGATTTGTCACTTGGTAACGCGCAGAAACTTGGATTGGCCAAAGCGTTAATTCATAAGCCGGACGTTCTGATTCTTGATGAGCCAACCAATGCGCTTGATCCAGCCGGAATTGTCGAGATAAGGGTAATGCTGAAAGCTCTAGCTTCTCAACAAGGGGTTACCGTGTTTATCTCGAGCCATATCCTTGAGGAAATGTCCAAAATGGCTTCTCGAATCGGCATTATTCACAAAGGCGTATTGCTTGAAGAACTGACAACAAAAGACTTTGAAACCATTCGCCGAAAGCAGTTGATGATCGGGGCGAAGGATACTCGGAAGGCTCAAGCTATTCTTTCAGACTCCGGGTATGCGGTACATTCGACTTCGAATAACTGCCTTGCACTACCGGATGATCATGCCGTGAAGCATCCCGAACATATTGCGAAATTGCTTGCTAATCACGAAGTGCCGCTCACCATGCTTAACGTTGAAGAAGAGAATTTGGAACATTATTTTCTCAAAGTAATCGGAGCCCAGGAGGGAAAACGAAAATGA	MEEIIRTVNLTKQYGNKVIVDRVSISVKKGEIYGFLGLNGAGKTTTIRALLGMSKPSSGEVYLFGQRWENGNPNLSRRVGYMVEVPYAYPNFTVRENLSLMARLRGLPVPRAVNEIMEQLNLTQYADSKARDLSLGNAQKLGLAKALIHKPDVLILDEPTNALDPAGIVEIRVMLKALASQQGVTVFISSHILEEMSKMASRIGIIHKGVLLEELTTKDFETIRRKQLMIGAKDTRKAQAILSDSGYAVHSTSNNCLALPDDHAVKHPEHIAKLLANHEVPLTMLNVEEENLEHYFLKVIGAQEGKRK	PGPT0006725_6712	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03139	711	bcrB		Bacitracin transport permease protein BcrB	ATGAGACCATTGTTGACAGCCTGTAGCGTTGAAATTTACAAATTGCGTCGATCCTTTGTTTTATGGGGCACGCTTCTGTTTATATTGTTTGTCATTACGTTGTTCTTGGGGCAGCCCGATTGGCCTTCTTTTTTTGAACGGACTGCGTTTTTGTATGCATCCGTGTTTGGGCTGCTGGGGTTTGGATTGGTGACAAGCTGGACATTTGGCCGTGAGTATTCTGAGCGGACGCTCAAAGATTTGCTCGTTTTGCCCATATCGCGCGGTAAAATAGCGATTGCCAAATATGTCGCAATTATTTTCTGGTGTTTTGTTATGATGTTGATTAGCTTTGCTTATGCCTTAGTACTTGGTTTTGCTATTGGACTTCCTGGCTTTTCGTTTGCGATTGTACAACATTATTTATTCCTAATACTTATCATTGGCTCTCTCCACCTATTATTAAGTGCCCCTCTTGCCCTATTGGCCTGTATATCGCGCGGTTATCTTGTGCCGATCGGCTTTGCTTTTACAACTTTGATGTTGGCATTGGTATTCGGGTCTACTACCATTGGCACGTATCTGCCCTGGTCTGTACCTGCTTTGCATTTGGAGGAAAACGGCGTCGCATCATTTCCCTTGGCAGGAATCAGTTATTTTCTGGTATTTATAATTGGCCTGGCAGGCTTCATTGGGACGGTTAAATGCTTGCAAAACAGGGAGCAACGATGA	MRPLLTACSVEIYKLRRSFVLWGTLLFILFVITLFLGQPDWPSFFERTAFLYASVFGLLGFGLVTSWTFGREYSERTLKDLLVLPISRGKIAIAKYVAIIFWCFVMMLISFAYALVLGFAIGLPGFSFAIVQHYLFLILIIGSLHLLLSAPLALLACISRGYLVPIGFAFTTLMLALVFGSTTIGTYLPWSVPALHLEENGVASFPLAGISYFLVFIIGLAGFIGTVKCLQNREQR	PGPT0006730_24333	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03140	831	nfo_2	COG0648	putative endonuclease 4	ATGCTTCTTAAAGCCAGTAAAGAAGCAGCTTCCTATGGTGCAAATACATTCTTAGTCTACACCGGTGCTCCACAAAATACGAAAAGAAAACCAATCTCTGATTACAATATTTCAGAGGGTCATTTACATATGAAAATGCATGGAATCAGCAATATCATTGTTCATGCCCCCTTTTTGGTCAATCTGGCCAATTCAGTAAATAACCAGGTATTCAGCCACAGCATAGCCTTTATGCACGATGAAATAGAACGAACAAGAGCATTAGGTTCCAAACAGATTGTTATGCATCCCGGATCGCATGTTGGTGTGGGGTTAGAGAAAGGACTTAATAAGATAATTGAAGGTCTTAATGAAGTTCTAACACGAGATGATAAGGTTCAAGTCTCGTTAGAGACGATGGCTGGAAAAGGAACGGAATGTGGCTATCGCTTTGAGGAGCTGGCACGTATTATAGACGGAGTAACATATAATGAGAGTCTCTCAATTTGTCTTGACACTTGCCACATTCATGACGCTGGGTACGATATTATCAATGACTTTGATGGCGTTCTTGATCAGTTTGATCGCATAATTGGGTTAGAACGATTAAAAGTACTCCACATTAATGATTCCAAGAATGAGCGCGGATCTCGTAAGGATAGGCATGAGAATATCGGTCATGGATTTATAGGTTTGCGTTCTTTGGACTATATTGTCCATCATCCTCAGCTATCTGAATTGCCCAAACTTCTTGAAACCCCATCTATCGGACCAATTAAATACAAGAACCCTCCCTATAAACATGAAATCGCCTTGCTAAGAAGAGAAATAACAGAACCAATCAAGAAGTAG	MLLKASKEAASYGANTFLVYTGAPQNTKRKPISDYNISEGHLHMKMHGISNIIVHAPFLVNLANSVNNQVFSHSIAFMHDEIERTRALGSKQIVMHPGSHVGVGLEKGLNKIIEGLNEVLTRDDKVQVSLETMAGKGTECGYRFEELARIIDGVTYNESLSICLDTCHIHDAGYDIINDFDGVLDQFDRIIGLERLKVLHINDSKNERGSRKDRHENIGHGFIGLRSLDYIVHHPQLSELPKLLETPSIGPIKYKNPPYKHEIALLRREITEPIKK				NA	NA	NA	NA	NA
AK002_03141	624			hypothetical protein	ATGGCTAAAAAATTGAATATCTTTTTATCTTTTCTAATATCTATTATCATCGCGTTCAGCTGCGGTGTGTATTTCTCGGAAGACTTGGGTTATAGTCGGAGTGAACCAACTATAGTTAAAGCTGGGCAAACAGTGGATGCCGAAAACGAACCTTCCAACGGAAATGGCGAAAAAGGCGCAACGATTTCCACGGCTCAGAATCAAGGAGGTAACGAAACGGCCAACGACGAACCCGAAGCTACCCGAGTGACAGCGGAAAATCGTTTCAGTGACCCAAGAGAGTTCAGATACAGTGTCAATTCAGCGGACGGTATCACGCTGACGTGGCTCGTCGATAATTTGACCGGCAAAACGATCAACTACTATACCGTGAAGGTCAGCACATTTAATCCCGTAGGAGACCCTTCGTATGATGAGCACTCCGGAAAGAACTCATTCAATCTTCAATATGTCGGTCCGGTCATACCGGGGTTAGAACTCGGTGTGTTTGAGCTCTTCACGTATCAAGGTGCTTTGGATTCAATACGTATCGACGAAGTTGACCTGGAATACGCGGACGGCACCAAAGAAACCGTCGTCTACAATCGCACGACTAAGGACGATAGCGGGCTCAATAATAGATAG	MAKKLNIFLSFLISIIIAFSCGVYFSEDLGYSRSEPTIVKAGQTVDAENEPSNGNGEKGATISTAQNQGGNETANDEPEATRVTAENRFSDPREFRYSVNSADGITLTWLVDNLTGKTINYYTVKVSTFNPVGDPSYDEHSGKNSFNLQYVGPVIPGLELGVFELFTYQGALDSIRIDEVDLEYADGTKETVVYNRTTKDDSGLNNR				NA	NA	NA	NA	NA
AK002_03142	642	azoR2	COG1182	FMN-dependent NADH-azoreductase 2	ATGGCAACAGTTTTGTATATTACGGCAAATCCACACGATCATGAAAAATCATACAGCATGTTAGTAGGTAATGAGTTTGTACAGGCTTATCGATCTGCCAATTTGAATGATGAGGTAATTCATCTTGATCTATATAAAATGGATATACCACAACTTGATACTGATGTTTTTAACGGATGGGACAAACTGAAGGCGGGCACTACATTTGAAAAATTGACGGAAGCAGAGAAAACGAAGCTGAGCCGAATCAATGAATTGGCTGATCAATTTGTTGCTGCAGATAAATATGTATTTGTTACTCCAGTTTGGAATTATTCGTATCCACCCGTTATGAAGTCATACATTGACTCCATTTGTATAGCGGGCAAGACCTTCGAATATTTACCAGATACTGGCCGAATCGGCTTGTTGAGTGATAAAAAAGCCGTCCATATCCAAGCTAGCGGTAGCTTCTTGTCACCAGGCTCAGATGATGCAGATCTAGAAATGGGTCATCGCCACCTGAAAGTCATTATGGATTTCGTGGGGATTCCTAGTTTTGAGGGGATTTTTGTTGAGGGAATGGCTGCAAAAACCGATCAGGAACCCGAGATTAAAGTAAAGGCGATACAACAAGCGCGCGAAATCGCTTTAAATTTCTAA	MATVLYITANPHDHEKSYSMLVGNEFVQAYRSANLNDEVIHLDLYKMDIPQLDTDVFNGWDKLKAGTTFEKLTEAEKTKLSRINELADQFVAADKYVFVTPVWNYSYPPVMKSYIDSICIAGKTFEYLPDTGRIGLLSDKKAVHIQASGSFLSPGSDDADLEMGHRHLKVIMDFVGIPSFEGIFVEGMAAKTDQEPEIKVKAIQQAREIALNF	PGPT0006790_700	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK002_03143	255			hypothetical protein	TTGGCCGTGTCGGCATGGCGTGAGACGCAATACTTCAATGACTCCGAGCGTTCTACACTTGCGCTCAGTGAAGCTGTTACCCGACTCAATGACCGAGTGGACCCAGTGTCGGATGAGATCTTTAACGAGGCAGCCCGACACTTCGATGTGCAGGCATTGGCCACGCTGATCGCCGGGATTGCTACGGCCAATCTCTGGAATAGACTAAACGTCTCTACAAGGCAGATCGTAACAGTTTCCGAGGGCAAATATTGA	MAVSAWRETQYFNDSERSTLALSEAVTRLNDRVDPVSDEIFNEAARHFDVQALATLIAGIATANLWNRLNVSTRQIVTVSEGKY				NA	NA	NA	NA	NA
AK002_03144	867	sigJ_2		ECF RNA polymerase sigma factor SigJ	ATGAGCGAACAGGATTGGTTGGCAAATACATTCGAAACGCATCGGAAGAACCTTCAGGTTGTTGCTTATCGAATGCTTGGATCATTAAGCGAGGCGGAAGACGCGGTACAGGAGTCTTGGTTGCGTCTTAGTCGTGTGGATGCAAGAGGCATTGAGAACTTAGGGGGATGGTTGACCACCGTTGTTTCGCGTGTATGTCTCGATATGTTACGATTGCGTAAATCTAGGCGCGAAGAATCGATCGAAGCTCATTTGCCCGATTCTTTCAACAGCCAAGAGAATATAAGCGACCCTGAACAAGAGGCCATATTAGCTGATTCTATCGGTGTTGCACTATTAGTCGTGCTCGATAATTTGAAACCTGCGGAACGCATTACGTTCGTGCTGCACGATGTTTTCGCCATGCCTTTTAATGAAATTGCTCCTATTGTAGGAAAATCGGAAGCCGCGACAAGGCAGCTTGCGAGCAGGGCTCGTCACCGGGTTCGAGGGGTGAAAGCATCGGAAGTCGACATTGCTCATCAACGCAAAGTTGTTCAAGCTTTTCTTGCTGCTGCGCATGCAGGCGATTTCGATACGCTAATAGCTGCGCTTGATCCGGACGTTATACTTCGTGACGATCGTCAAACTGAATCTTCAAGAGTAACGCGAGGAGCGATCGCTTTAGCCAAACAAGTATCGGGACGTGCACAGAAAGCAGCCCAACTAGCCTTGGTGAATGGAACCGTAGGAATCATTGCGGCCCCTCAAGGAAAATTGCTTTATGTACTCAAATTTACGATAAGTCACGGGAAGATTGCCGAGGTCGACCTAATCTCCGATCCAAAACGCGTACGCCAGCTTGATCTGGCGGTGTTGAGTAATTGA	MSEQDWLANTFETHRKNLQVVAYRMLGSLSEAEDAVQESWLRLSRVDARGIENLGGWLTTVVSRVCLDMLRLRKSRREESIEAHLPDSFNSQENISDPEQEAILADSIGVALLVVLDNLKPAERITFVLHDVFAMPFNEIAPIVGKSEAATRQLASRARHRVRGVKASEVDIAHQRKVVQAFLAAAHAGDFDTLIAALDPDVILRDDRQTESSRVTRGAIALAKQVSGRAQKAAQLALVNGTVGIIAAPQGKLLYVLKFTISHGKIAEVDLISDPKRVRQLDLAVLSN	PGPT0014960_1935	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_03145	828			hypothetical protein	TTGAAAAAGTTATTGATTAGCATATCGACGGTCATGATCTTTTTTCTTGCGAACGTCATTCCAACACAAGCATCAGGCAATGAAATAATCGAGCATGGTATTCTAAAGAACAATCGAGTGCTGATCCCTATACGGGCAGTATCTCAGAACTTGGGTATCGATGTGAAATGGAACCAATTTCAAAAAACAGCTCAATTGACCAAAGGCGAGACCGTAATCACACTTGCGGTTCAATTCAAAAGGGCCTTAGTAAACCACGACCGCGTTGATTTTGATGCTCCGGTTGAGCTCATCCAAAACACAACTTATGTACCTTTAAGGTTCGTTAGCCAAACCATGGGAGCAGATGTGAAGTGGGATCAGAAAACCAAAGAAGCCACCGTTATCCTCGATGGCAAGCAAGTCGTCGTTAAGTTGATGAAGCCGAAGTATCAAGTACCTACCAACCAACGACTAAGTGATTCTCGTATTGCGCGGTTATCGGAGAAATTGAACGAGGCATCTGATCTATCGAAAGTGAAACAGGTTCGCACTTACTTCAAACCTTTTTTTACGGATCGTCTAATTCAGCAAATCATAGAGCAGGAAGGGCTTCACTTTAAAGAAATGAATTTTGATATGAATACGGCAACGGTAAACTATGCAAGCAATACTAGCGCGATCCTTATTCAATCCTATATTCCAGGAAATATATTAACGGGCGAGCTGCATTATGTTTTTGATCGGGAAGCGCACATTATTTATGCTAATGGAGCTTGGAAGGTGGACAAGGTAAGCGATCATTTGAGACAGATCCCTAATATGAGCCTGGAACCCGATCATCAGTAG	MKKLLISISTVMIFFLANVIPTQASGNEIIEHGILKNNRVLIPIRAVSQNLGIDVKWNQFQKTAQLTKGETVITLAVQFKRALVNHDRVDFDAPVELIQNTTYVPLRFVSQTMGADVKWDQKTKEATVILDGKQVVVKLMKPKYQVPTNQRLSDSRIARLSEKLNEASDLSKVKQVRTYFKPFFTDRLIQQIIEQEGLHFKEMNFDMNTATVNYASNTSAILIQSYIPGNILTGELHYVFDREAHIIYANGAWKVDKVSDHLRQIPNMSLEPDHQ				NA	NA	NA	NA	NA
AK002_03146	450			hypothetical protein	ATGTATACGGTCAAAGAAGCCGCTCAGATCACGGGGCTCACTGAGCACGCCGTGCGCTTTTATACGGATAAAGGTCTGGTGCCAAGCGTACAGCGCAATGAGAATAATATTCGATTATTCGACGAAGAATCGATCAACTGGCTGCATGGCATCAAATGCCTCAAGCAATCCGGGATGCCGATCGATGTCATAAAAATGTATATCGATTTATGTCTCGAGGGGGATTCTACCATTCCACAACGCTATAGACTCATGATGGAGCATAAAGAAGCAGCGCTCGCTAAGCTCGAAGAAGCCAAACAGCACGTTGCCCATTTGGAAGAGAAGACAGCACTGTATCAGGCCATTCTGGAGAACCGCTCTCCAGACACGATGAATCCCGCCCACTGGGGCAGAATTCAGCATATGCATGGGGACGTGTTTTACTCGCGCTCTGCTCGTAAGGCGTGA	MYTVKEAAQITGLTEHAVRFYTDKGLVPSVQRNENNIRLFDEESINWLHGIKCLKQSGMPIDVIKMYIDLCLEGDSTIPQRYRLMMEHKEAALAKLEEAKQHVAHLEEKTALYQAILENRSPDTMNPAHWGRIQHMHGDVFYSRSARKA				NA	NA	NA	NA	NA
AK002_03147	852	yvgN_2	COG0656	Glyoxal reductase	ATGCAAACTGTAACTTTGAACAACGGTGTGAAAATGCCGATCCTAGGCTTCGGTGTCTACCAGATTCCCGATGCTGATGAGTGCGAAAACGCGGTGTACGAAGCGCTGTCGGTCGGTTACCGCTTGATCGACACCGCCGCCGGTTACCTTAACGAGGAAGCGGTCGGACGCGCGATCAAGCGCAGTGGCGTACCGCGTGAGGAGCTGTTCATTACGACCAAGATTTGGGTTCAGGATGCCGGCTACGAGAGTGCCAAGCTTGCATTTGCAAAATCCCTGAAGAAGCTGCAGATTGACTATCTCGATTTGTACCTGATTCACCAGCCGTTCGGCGATTACTACGGCACATGGCGCGCGATGGAAGAACTGTATCGTGACGGCAAAATCAAGGCCATCGGGGTTAGCAACTTCATGCCCGATCGTCTGATGGACCTCATTGTGCATAACGAAATTGTGCCCGCCGTCAACCAGATTGAAACGCACCCATTCTACCAGCAGACAGAGAGCGCTGCTTTCGTAAAGGAGCAGGGCGTGCAACATCAGTCGTGGGCGCCGTTCGCTGAAGGACGAAACAATATGTTCGGCAACGAAGTGCTGACCTCGATCGCGGAAAAACACAACAAATCCGTCGCCCAAATCGTATTGCGATGGCTTGTTCAACGAGAAGTGGTTGTCATTCCAAAGTCAGTACGAAAAGAGCGGATCGTCGAAAATTTCAACATTTTTGATTTTGAGTTGGGCGCGGTCGATATGGAACACATTTCCACTCTCGATACTCGAGAGAGCCTATTCTTATCGTACCGCGATCCGGGAGTCGCCAAGATGATGGGCAACTGGAGAGTCGAACTGTAA	MQTVTLNNGVKMPILGFGVYQIPDADECENAVYEALSVGYRLIDTAAGYLNEEAVGRAIKRSGVPREELFITTKIWVQDAGYESAKLAFAKSLKKLQIDYLDLYLIHQPFGDYYGTWRAMEELYRDGKIKAIGVSNFMPDRLMDLIVHNEIVPAVNQIETHPFYQQTESAAFVKEQGVQHQSWAPFAEGRNNMFGNEVLTSIAEKHNKSVAQIVLRWLVQREVVVIPKSVRKERIVENFNIFDFELGAVDMEHISTLDTRESLFLSYRDPGVAKMMGNWRVEL	PGPT0001320_548	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
AK002_03148	666			hypothetical protein	ATGAGTCAAACCGTAAATAAATTTGAAAAAGAAATAACAAAAAGAGTACGGATGAAATACCTCTTACATTTACCAGATCATCATGAAAAAGAATCCTCAATTAAGTGGCCTTTAATCTTATTTCTTCACGGGGCAGGTGAACGTGGAGATGATCTGGAGTTGGTAAAAGCACATGGAATTCCTATGATAGCAGAACGCGATCCTTCTTTTCCATTCATTACGATTTCTCCTCAATGCCTGGAGGATTCTTTTTGGAATGCTGAACAAGACGGATTGATGGCATTAGTAGATGAGATCATTGCAAACTATAACGTAGATCCAGATCGGATATACTTGACGGGGCTAAGCATGGGTGGTTATGGGACGTGGCACTTAGCAGCAGAATATCCAGGAAGGTTCGCAGCAATCGCTCCAATATGTGGTGGAGGTAACCCCAACCGGGTACATGAACTAATAGGAACACCCACCTGGGCATTCCATGGCGCTAAGGATGATATAGTGCCCATTGCGGAATCAAAAAAAATGGTAGACGCACTTCGCGAAAACGGTGGAAATGTCTCTTTCACCATTTATCCTGAGTCGAATCATGACTCCTGGACAGAAACATACAATAATCCGGAACTATATAGCTGGTTTCTAGGTCATTCTTTAATGATAAGGAAATGA	MSQTVNKFEKEITKRVRMKYLLHLPDHHEKESSIKWPLILFLHGAGERGDDLELVKAHGIPMIAERDPSFPFITISPQCLEDSFWNAEQDGLMALVDEIIANYNVDPDRIYLTGLSMGGYGTWHLAAEYPGRFAAIAPICGGGNPNRVHELIGTPTWAFHGAKDDIVPIAESKKMVDALRENGGNVSFTIYPESNHDSWTETYNNPELYSWFLGHSLMIRK				NA	NA	NA	NA	NA
AK002_03149	927			hypothetical protein	ATGAAGAAATTGGTATTACTTTCTTTTGCTGTTCTATGTTCTTCGCTTTTGTTACTTCCAACCAATGAGGCAGCCGCAGCAGTAAAAAGTCCAAAAGGAACACAAGTTGTTGTGAATAATATTGACTTAGATTCAAAAGATATTCTCATTATGAACAATCAGGTATTTTTTAGTCTGACTTCACTCAAAGGTTTAGGTGGCTTAACGTTTGCCTGGAATAATACTACTAAGCAAGTGACAGTGAAGGGGGGCGACACAAACTTGCAGTTGACTATGAATAATAAAGTAGCACAAAAAAATGGAACTTCAGTTTCATTAAGTACTGCTCCATTTATTCAAAACGGTAAAACAATGATTCCCTTACGTTTTGTTGCAGAAGCGTTGGACGGTTCGGTAACTTGGAATCAAAAGACCCAAACGGCGTTTGTTTCAAAACCAAGCACGAAACTGCTGACTGACTTTAAGAGTAGTGCATTAAGCACGGCCAGAAATGCTGCAATCAATCTTCCTAGAGTTTCACAGCTCACGGAGGACTTTGAACCATTTATGGAAGCATCCAGTCTTCAGTATTATTTTCCGGAAAACACCAATGACCGATTCATCGAGGTCAATAATAATGTAATCCGCTATTATAAAATTACGAAGAACACAGCTTACCTTAAGTGGCAAGCATTCATTAGCGAAAAGACCACTACGCAAAATAACCTTTATTTCATAAACCGCGCCTTTTCAAAAGAGAATGGTTCCCTACCAAATTTTAAAGATACGACATTCGCCAACTTTCGCTGGATGCCTCATATTACTTCTACTGGATATGGTTTAATCACTAAGGAGAATTGGAATGATGTTGTTTTTAAACAAGCCGAACTGCCTCAAGTAAATCTAAAAGAAAACTATATTATTGTTGACATTCCAGAAGAAAAATAA	MKKLVLLSFAVLCSSLLLLPTNEAAAAVKSPKGTQVVVNNIDLDSKDILIMNNQVFFSLTSLKGLGGLTFAWNNTTKQVTVKGGDTNLQLTMNNKVAQKNGTSVSLSTAPFIQNGKTMIPLRFVAEALDGSVTWNQKTQTAFVSKPSTKLLTDFKSSALSTARNAAINLPRVSQLTEDFEPFMEASSLQYYFPENTNDRFIEVNNNVIRYYKITKNTAYLKWQAFISEKTTTQNNLYFINRAFSKENGSLPNFKDTTFANFRWMPHITSTGYGLITKENWNDVVFKQAELPQVNLKENYIIVDIPEEK				NA	NA	NA	NA	NA
AK002_03150	1806	cheB_9		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGGTTTTGTTCGATATGGTCAAGCAATGGTACTGGTACGACTGGCTCATGTTCATAATCCGCCTGATAACCAGCATTTCTCTCGCGTTTACGACAATAAGTCTGCAACAATATTTCACGCTGCCGATTATGGTCCTTGTACTATGGCAGTTGATTGCTTTTTCCGTTCCATGGCTTTGCTTGCAGCTCGATTATAAATACTACCTGTTTACCGAAATCGTGATCTCGGGCGGGTTGTGTTTGTATCTGGCTTCATTTTTTCCGCAAGCCTACATAGCATTCCTGCTGTATGCATTTTTTATTGCTGCCCACAGCGCGCATAGGGCCTATCTCTGGTCAGGGCCTGTATCGATATTGCTCCTGCCCGCCATAATCAAGCAGCTTGCAGAGCAGAGTGAATACTTGGTCATGGCCGTTCACATCGGGATGGCGTATATCTTCGGGTTCTCCTTTCATTTACTCGTGCTCAACCATCGTCAAGGCGAAACGATTCGCGAGCAAAATGCGGTGTTGGAGCAGTACCTGTCCCAAATCGAGCGTATCACGCTTGCCGAAGAACGGAGCCGGCTGTCCAAAGAGCTTCATGATACCGTCGGTCATGCCTACACTTCGCTCATTATGGGACTGGAAACGTTGCGTCCTCAGATGGCAACGGATACGGGAACCGAAAGTCTCGATTCCCTATTGAACCTGGCCCGCCAAAATATGGAGGAGGTCAGAGGCTACGTGCATCAAATCGAATCGCCGCATGAGGCGCTCCCGCTGCTTCAATCTTTGAGGAAGCTGGCGGTGGAGTTTCAGGAACATGCCAAGGTGCGGGTTACTTTTCATGCCTACGGGGAGGAATACCCTGTAATGAAGCAAGCGAAGACAGCACTCTACCGCTGCCTGCAAGAGTCGTTGACGAATGCCGTGCGCCATGGACACTCGACAGAGATTAAGGTTTCCATGCAATTCGAGCCCCAGCAGACGAGACTGGAAATTCATGATAACGGCCGCGGGATGGAGCATGGAAGGGAGGGCTTTGGCCTCAGCGCCATGAAGGAGCGGGCGATGGCTTTGCAAGGTCATGTGGCCGTCTATACGGAGCGGGGAAAAGGCACTCTCGTTACCTGCACGCTACCCAGACAAACGGAGCTTAAGGATGAAGTCATCCGCCTGTTGGTCGTCGATGACCACTCCGTAATCCGTGAAAGCTTGCGGACATTGCTGGAAGAGCAGCAGGATTTTCAGGTTGTCGGGACGGCAGAGGATGGCGAGCAAGCGATCGAGCTGTGCAGGCAGGTTAGGCCGCAGCTGGTGCTTATGGATGTTGAAATGCCGAATGTGGATGGAATCTCCGCATCCCGTGCGATAAAAGAATCGTGGCCCCACATCCGGATTCTGATTCTCACCACGTTCGAGGATACCAAACAGGCTCTGGAGGCAATGCGAAGCGGGGTGGATGGATACCTATTGAAGTCCATGCAGCCGTTAGAGCTGGCTGAAACGATTCGCACCGTCCACCGCGGGGGCACGCTGATCGATCAGGGCATGTCGCACAAATTATTTGCCCAACTGGAAGCGGACAATGGCGGTGATGATCCTTCGTCAATCAAAGTGTCCTCGGCCTATGATTTAACGCCGCGGGAGCTTGAAATTTTACAGTTCGTGTCCGAAGGGCTGCGATATAAAAGCATTGCTTCCAAATTGTATTTATCCGATGGTACGGTTCGAAACTATGCGTCATCGGTTTATATGAAGCTGGGGGTTCGCAACCGGGAGGAAGCGGTGCAAAAAGCCAGGGAGGCTGGGCTTCTGGAATAA	MVLFDMVKQWYWYDWLMFIIRLITSISLAFTTISLQQYFTLPIMVLVLWQLIAFSVPWLCLQLDYKYYLFTEIVISGGLCLYLASFFPQAYIAFLLYAFFIAAHSAHRAYLWSGPVSILLLPAIIKQLAEQSEYLVMAVHIGMAYIFGFSFHLLVLNHRQGETIREQNAVLEQYLSQIERITLAEERSRLSKELHDTVGHAYTSLIMGLETLRPQMATDTGTESLDSLLNLARQNMEEVRGYVHQIESPHEALPLLQSLRKLAVEFQEHAKVRVTFHAYGEEYPVMKQAKTALYRCLQESLTNAVRHGHSTEIKVSMQFEPQQTRLEIHDNGRGMEHGREGFGLSAMKERAMALQGHVAVYTERGKGTLVTCTLPRQTELKDEVIRLLVVDDHSVIRESLRTLLEEQQDFQVVGTAEDGEQAIELCRQVRPQLVLMDVEMPNVDGISASRAIKESWPHIRILILTTFEDTKQALEAMRSGVDGYLLKSMQPLELAETIRTVHRGGTLIDQGMSHKLFAQLEADNGGDDPSSIKVSSAYDLTPRELEILQFVSEGLRYKSIASKLYLSDGTVRNYASSVYMKLGVRNREEAVQKAREAGLLE				NA	NA	NA	NA	NA
AK002_03151	588			hypothetical protein	ATGGCAAGAACCGTCGCCTGTTTTGTTCAAAACGGCTATTTCCTGCTGTTTGCTTTCGTCACCGGATTGTTTTACTTCTGCTTTTATCTGGTTGCCATTATTCTGGGTTTGAGTCTTTCGTTTACTGTCGTGGGCGTTCCTCTCCTGGCTAACCTTTTGCGAACGACAACTGCCTTCCTGCAATTCGAACGAGTACAAACCAAGATCTATATGGATATCACGACCGAGCCTTGTATTAAAGCCGTCAACCCGAAAGTGTCCAACTGGCTCCAAGCGAAAAAGGAATTGCTGAACCGACGCAACTGGATCACTATTGGCTGGCTGATGTTGAAGTTTCCGGTAGGGATTTTAAGTCTGATCAGTGCGGCCTTACTCTATGTGGCGCCGCCTGTATTGATTGCGGTCCCGTTCCTCTATTCGTTTATCGACCTTTCCTTTATGGGCGCAACGGTAGACACGTTTGCCAAAGCTATGATGGTATCGGGCACAGGGGTCGTACTGATGATGATGAGCTACTGGCTTGCGGACCGCTTGGCACGCTGGATAGGCGGCTACACGCGTCTAATGATCAAGCATGTGAACCGGTAG	MARTVACFVQNGYFLLFAFVTGLFYFCFYLVAIILGLSLSFTVVGVPLLANLLRTTTAFLQFERVQTKIYMDITTEPCIKAVNPKVSNWLQAKKELLNRRNWITIGWLMLKFPVGILSLISAALLYVAPPVLIAVPFLYSFIDLSFMGATVDTFAKAMMVSGTGVVLMMMSYWLADRLARWIGGYTRLMIKHVNR				NA	NA	NA	NA	NA
AK002_03152	1341			hypothetical protein	ATGAAAAAGAAAATGGGTATCGCAATTGCTGCTTCGATGATCACACTGGCTGGTTTTACAGGAAATATTCATGCAGCTTCGAAAGTAGGTGCTTCTCTTATAGCTCACTACAACTCAAATCAAAATGCCGAGCAGATAAACTGGTTAGAAAAGCATGCCATGCCATTAAAGTCAACGGATCCAACAGCATCTCTTCAGGATTTAAGACCGCTTAAGGATATGATCGGATCAGCTACAATTGTTGGTTTAGGCGAAGCGACGCATGGAGCTCACGAAGTTTTTACCATGAAACATCGCATTGTTAATTATTTGACAGCTGAAATGGGCTTTAAGGCCTTAGTGTTAGAAGAGGGATGGGACAGAGCATTGGGACTCGATCGCTATGTTCTTACGGGTAAAGGGGACCCAAGCCAATATCTAAATCCTGTATTTAACACGAACGAAATCATAGATCTGCTTCAATGGATACGCCAATATAATGCTGATCCAAAGCATAAATCCAAAATACGGATCATCGGAATGGATATCCAAACCGTAAACGAGAGTGTTTATAACAATATCCTAGCGTATGTAAAGAAATACGATCCAAAACTTGTCTCTCGCTTCGAACAAAAGATGAAAGGCCTTATTCCTGTAACCAAGGATTTAGATACCTTTGGCGGTCTTAAGAAAGAAATGAAAGCACGGTATGTTTCGGATGCGAAACAAATCAGCGCTTTATTAGAGCAAAATAAAAATAAACTGAATGGAAAATCCCCAGAGTTCGCATGGATCAAACAAAATGCCCGTATTATCGAGCAATTTACGACAATGACAGCCGCATATCCTGATAACCTGGAAGACTTTTATTTGAAACACGATATTGCCATGTATGAAAATGCAAAATGGACAGAAGAACATATAGGAAAAACAATCGTGTGGGGCCATAATGGGCACATATCGAAAACAAACATGATCCCTTTCGTATACCCTAAAGTAGCTGGGCAGCATTTAGCAGAACATTATGGAAAACGGTATGTATCCATTGGAACATCCGTCTATGAGGGACGTTACAATGTTTACAACAGTAACCAAGAATACGGACCCTATGGAACATTAAAATTAGATGACCCGAATAGTTTCAACTATACCTTTGGACAAGTAAAATACGACCAGTTTTTTGTTGATTTACGTAAGGCAAGCGGAGTGACTAAAACTTGGCTAAACGAGCAACATCCCATTTTTGCCGGAGTAACAACGGTAGGTCCAGATATCCCAACAACTGTTGATTTATCATTAGGTAAAACATTTGACATCCTCGTTCAAATTCAAAAAGTGAAGCCATCTCAATTGAATCAATAA	MKKKMGIAIAASMITLAGFTGNIHAASKVGASLIAHYNSNQNAEQINWLEKHAMPLKSTDPTASLQDLRPLKDMIGSATIVGLGEATHGAHEVFTMKHRIVNYLTAEMGFKALVLEEGWDRALGLDRYVLTGKGDPSQYLNPVFNTNEIIDLLQWIRQYNADPKHKSKIRIIGMDIQTVNESVYNNILAYVKKYDPKLVSRFEQKMKGLIPVTKDLDTFGGLKKEMKARYVSDAKQISALLEQNKNKLNGKSPEFAWIKQNARIIEQFTTMTAAYPDNLEDFYLKHDIAMYENAKWTEEHIGKTIVWGHNGHISKTNMIPFVYPKVAGQHLAEHYGKRYVSIGTSVYEGRYNVYNSNQEYGPYGTLKLDDPNSFNYTFGQVKYDQFFVDLRKASGVTKTWLNEQHPIFAGVTTVGPDIPTTVDLSLGKTFDILVQIQKVKPSQLNQ	PGPT0027980_139	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027980-ereA_B-K06880	NA	NA
AK002_03153	1992			hypothetical protein	TTGAAAATAAGGATTAAACATGTGATGCTTTTGGCAGTTAGTATTGTTTGGGTTGTTATCTTAGTCGGGTGTGGCAACGACAATGAGTTAACGATTGATCAAGTAGACGTTATGGCCAAGGTAATGGCGGACGGGGATTTATATGTGGAAGAGCTATTCACTTACACAGTACAAGGAGAGTATGAAAGAATTCCTAGATATATGGATAATTTCGGGGGAGCGAATATTGAATTTTTTGAAGCTTACGTACCACCGAATGACCGAGAGCTCGGTAATCTTGGTTATGTTAATTTGGAGCGTTATCCGGTCTTTTTAAGAACTAAATCAGGTTCTTATTACATCGAATTACAAGTTAAAGATGAAACGAGGCAGATCTATTATCGCTATAGGCTTGATCGAGAAGCTGTGAAATATGACGATCGTGGAGAGCTGGATTGGACCGTACTCAAAGATAACAGGTTTGATCATCACAACGTAACCGTTAGGGTATATACAGAACAGCCTGCAAAAGAGAATTTAACTGGATTTGCTTACGATCGCTCAAGAGGCAGCTTGACAGAAGTAAACAATCGTTGGATCAGGTACGAAAACACGCTATTACCTGAAGGGGATAGTGCGAGGCTGAAGGTGTATTTCCCCCCAGAGGTGCTGACGGAGAGGGAAACAGAAGAGCCCTCAGCCTCACTCTCGGAACGACTATTAGATGAACAGAAGCTTCAGCAAAGATTCGAAAAGCGTGAACATTTACTGAATGCGGGTCAACATATCAGCCGCTGGCTGACCTATGCAGCCATAGCAGGTATCGTTTATTATGCCCTTTCGCTGCGAAGGATCTCATCCTGGTGGAGTGGTAGGCGGATCAGCTTCGAAGATCTCTCAGCGATGGATCCAATCGATATGATTTACCTTTTCCGGAAAGGAAAGCTCCGACTTGCAGATGGGCTGGCCGGTGTATTTTCGCTGCGCCGTAAAGGCATGGTGAGTGTTTCCTTAGTGCCATCAGGTATGCGATTCCAGGAAGATTCGAGAGCGCCGAAGAGGCTTCCCGAGTTTACATTCAAGGGTAATCGTACAGCCCTGAAAAAACCAGACCGTTACTTGCTTGGTTGGCTGTCTCACGGTACGACTGTCCTGAACCTGGATAAATTTTCTGGCCCTACGAAAACAGAGCGCAGGAATAAAGCGACTATGGGTAAGTACATAAAGCGCATGAGAAGTCTTAAAAAGGGACTGAACCGCTGGCAGGAGCTTGTGGAGACTGAGAATAGCAAAGGGATCATCTACAAGGAATACGCGGCGAGAAAAGTCATCATACCGGCTCTAGCTCTCATACATCTGGTTTTGCTCATTTATCTGTACATTGCAGACGTAACAACTTGGGGATGGGTAGGAGTATTGGCCATTATTTTGGGCGGCGGACTCTTGTTGGCTTCTTTTCGCTGGCGCCTCAAAAGATACATCATCATCTTTTTGGTCGTTTGCTTTTTCGTTGCAGCTCCAATTTTGTATGGTCCCTTGGTAGACGAATACTTGAACTTCGTAATTCTTTCGTTTTTACTTGTTGGGTTTTTACCCCGAGGAGCATTAGATCGGCGTTCGGCAGCTTACCGAAGCGCTATAAAGCGGTATCGACGAAAGCTGGCTAGAGGCGGACATGACGTAGGAAGGGCTGGTAATAACATCAAATGGCTGGAAAAGATGAGGGAAGATGCGCTATTACTTGGTGTAGGAGAACGTTTTATGAGGAATGTAAGCAAAGAAAACCCGGATTTTACTTTCTCAGAGGCTTCTTCTCTGTTTGATAACGATGTGGATACCGCTATCGATTATGTCTTTAATCGTTCTTGGAAGGGAATACCTGGGAGGACATCTTACGGGAGAACTTGGAGCAGTAATAGTGACAGTGGAGCAGACGGGGGGAGCTCATACGACTACAGTAGTGACGGTGGCAGTGATGGAGGTTCGGGAGATGGCGGTGGGGGAGGAGATTGA	MKIRIKHVMLLAVSIVWVVILVGCGNDNELTIDQVDVMAKVMADGDLYVEELFTYTVQGEYERIPRYMDNFGGANIEFFEAYVPPNDRELGNLGYVNLERYPVFLRTKSGSYYIELQVKDETRQIYYRYRLDREAVKYDDRGELDWTVLKDNRFDHHNVTVRVYTEQPAKENLTGFAYDRSRGSLTEVNNRWIRYENTLLPEGDSARLKVYFPPEVLTERETEEPSASLSERLLDEQKLQQRFEKREHLLNAGQHISRWLTYAAIAGIVYYALSLRRISSWWSGRRISFEDLSAMDPIDMIYLFRKGKLRLADGLAGVFSLRRKGMVSVSLVPSGMRFQEDSRAPKRLPEFTFKGNRTALKKPDRYLLGWLSHGTTVLNLDKFSGPTKTERRNKATMGKYIKRMRSLKKGLNRWQELVETENSKGIIYKEYAARKVIIPALALIHLVLLIYLYIADVTTWGWVGVLAIILGGGLLLASFRWRLKRYIIIFLVVCFFVAAPILYGPLVDEYLNFVILSFLLVGFLPRGALDRRSAAYRSAIKRYRRKLARGGHDVGRAGNNIKWLEKMREDALLLGVGERFMRNVSKENPDFTFSEASSLFDNDVDTAIDYVFNRSWKGIPGRTSYGRTWSSNSDSGADGGSSYDYSSDGGSDGGSGDGGGGGD				NA	NA	NA	NA	NA
AK002_03154	405			hypothetical protein	ATGATAAAACAACAACTGTTATTTAAATTCAACAGATTCTCAGCAAATGAAGTTTTGAAAGCATGGGAAAACGCGGATAAATCAAAAGATGTAATACTATTAGAATCCGCCCATTCGGATTGGTCAATAGAAGTAGACGGTATCCAAAATATCTCTCATCAAATGTTTGAACACTTTCTATCTAAATTGGATGTATTTGATAATGGAGTGCAGCTTTATTGTAAAGAGGTCTATGAAAACAGTAATTTTAAAATAGAACATTTTATCGTGTCATTGCAGTGGATTTCATTACATGAAAACTCAATTACACTGGGATATTGGGGAGATTATGTAAACGTAGAGTTAAGATCCATCATAGAGTGTGACAATGGAATCTGGAAGCAGATAGACATCTATTATCAATAG	MIKQQLLFKFNRFSANEVLKAWENADKSKDVILLESAHSDWSIEVDGIQNISHQMFEHFLSKLDVFDNGVQLYCKEVYENSNFKIEHFIVSLQWISLHENSITLGYWGDYVNVELRSIIECDNGIWKQIDIYYQ				NA	NA	NA	NA	NA
AK002_03155	606			hypothetical protein	ATGATAAACATAATTGAAGAGCTTAAGAAGATGTCCCAAAAAAGAGGGTATGAAAATAAAGACGATTTTCAACAGCTGCTGGAAAGATGTAAGGATATAACGTTGTCAAATGAAGATGTTGAATTTTTAATAGAACTGTATTTTAAGGCTAAAAATTTGTACATTCGCAACACAATATTGAAAGCACTTGTGTTCTGTGAAGATATTGATTTAAAGGAATTCTTCTTAAAAGCGTTTAAAAAAGAGCGCTACCTGGATATGAGATTGACTGCAATTCGAGGCTATGCAAAGTATGCAACTGAGAAAGAAGTAGAGAAACTGATGACTAAATTCATAGAAATTCTGATGAAGCGTCCTGAAAGCACGCCTTATAACTATCAAGAATATGAACTGCTTCGTTCTGCTTTTGGGCTGCCGTATTTAGTAAATCAATATGGATATGCTTGTTTTGTCCAGGCATATGAGCAGGAAGAAAAACAATATAATGCCATGCCAGATGCTTTCAAAGGTCATTTTACTTTAAATGAAAGAGGGGATATTGTCCAACTTCGCTCATTAGGAGAAAGCAAGAAGACGCTTGATGATTTTTGGAGCAGAGGTAATTGA	MINIIEELKKMSQKRGYENKDDFQQLLERCKDITLSNEDVEFLIELYFKAKNLYIRNTILKALVFCEDIDLKEFFLKAFKKERYLDMRLTAIRGYAKYATEKEVEKLMTKFIEILMKRPESTPYNYQEYELLRSAFGLPYLVNQYGYACFVQAYEQEEKQYNAMPDAFKGHFTLNERGDIVQLRSLGESKKTLDDFWSRGN				NA	NA	NA	NA	NA
AK002_03156	1398	katA_1	COG0753	Vegetative catalase	ATGGACGGTAACAAAGCTAACAATCAGGCAAACGGTCGAAGCTGGCAGAGAGACAATGCTCAATCACAATGGAGCGTTATGCAGTCGCCGGAACACCATTCGCAGACGGTGGGTGAACGGGGACCGATTCTGGAACAGGACAGCATGCTGCATGAAACACTTGAAACCTTTGTCCACGAAAAGATATTAGAGCGTCCGGTCCACGTGAAGGGGTTTGGTGCCATGGGTTATTTTGAAACCCTTCACTCGATGGCCGCTTATACGAACCTGTGCTTCTTGCAGCAGCCGGGACAACGGGTACCCGTTACAGTTCGTTTCTCACTTGCAGTCAGCAATAAAGGGACACCAGATACATCCCGCAACGTGCGTGGATTCTCGACGAAATTTTATACCGAGCATGGCGTATTCGACCTGCTCTGTAATCATATCCCTGTGTTCCTCGTACGAGACCCGATCCGGTTCCCTGAATCAATTCATGCTTTCCTGCCATCACCAGTTAACAATCTCATCGATCCGAATCGATTCTGGGGTTTCATTGCTACAGCGCCAGAGGCAACCCATTTCGTTGTACGTCTGTACTCGGACGAAGGGACGGTCAAGAGCTTCCGCCATACGCCAGGACACAGTGTTAACACCTATGTTTGGAAAAACGCACAGAACGTTCGCTTCTACGTCAAATATCGCTGGATTCCGTTGGCTGGAGAGCAATATATCGATGCGCAAGAAGCAGCTCGTTTGGCCTGCGAGAACCCGGATTATTCGGGTAAAGATCTGTATGACACGATTGCCAAAGGCACACCAGTCCAATACGGGCTGTATGTGCAGTTGATGAACCCACAGGATGAGGCGATGCTGTCGTTCGATCCGCTGGATGACACGAAAGTGTGGGATGTGAATCTTTTCCCTCCGTTGCCAGTGGGTCGACTCGTATTGGATACGAACCCTACTAATTATCAGGAGCAGATCGAGAAGCTGGCATTCTCCCCGTCAAATCTTCTGGATGGTGCCGAGCTGTCCGATGATAAAATGCTGCAAGGTCGCAGCAATATTTATTGGGATTCACAGCGGCATCGCCTTGGATCGAATTTCCGCAAAATTCCGATTAACCATCAAGCAAACTGGTCACCGACTGAACAGGTAACGAGCGGGGCAGGTCGCTATGTAGCCGGACGGCTCGTTCGATCCGATATTCCGAAAGCCGATAATTTCACGCAAGCGGGACAATTCTACCAATCGCTCACACAAGTTCAGCAGGATCATCTTGTTCAGAACCTCGCTGGTGACTTATCGGCGGTTTCTCATGAGATTCAGAGGGTTGTGTTAGGCTATTTATTCCAGGCAGATGCAACATTAGCCGATAGGGTAGCTCGTCAGATCGCCGCACCGAAGAAGGGATGA	MDGNKANNQANGRSWQRDNAQSQWSVMQSPEHHSQTVGERGPILEQDSMLHETLETFVHEKILERPVHVKGFGAMGYFETLHSMAAYTNLCFLQQPGQRVPVTVRFSLAVSNKGTPDTSRNVRGFSTKFYTEHGVFDLLCNHIPVFLVRDPIRFPESIHAFLPSPVNNLIDPNRFWGFIATAPEATHFVVRLYSDEGTVKSFRHTPGHSVNTYVWKNAQNVRFYVKYRWIPLAGEQYIDAQEAARLACENPDYSGKDLYDTIAKGTPVQYGLYVQLMNPQDEAMLSFDPLDDTKVWDVNLFPPLPVGRLVLDTNPTNYQEQIEKLAFSPSNLLDGAELSDDKMLQGRSNIYWDSQRHRLGSNFRKIPINHQANWSPTEQVTSGAGRYVAGRLVRSDIPKADNFTQAGQFYQSLTQVQQDHLVQNLAGDLSAVSHEIQRVVLGYLFQADATLADRVARQIAAPKKG	PGPT0014380_5489	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK002_03157	1077			hypothetical protein	ATGATGCAGAAAAGCGACGGAATGAACTATGCCCCGAAGGGGAAGCCCAGTCCGGTGGTGAAGCCGGGCGAATTTATCATCGCCGCTGTTGCGCTCGACCATGGACATATTTACGGTATGGTGAACGGGTTGATCGAAGCGGGAGCAACGTTAAAGTGGGTATATGACCGCGACCCTGCCAAAGCCGAGGCATTTGCGCGGACCTTTCCTCAAGTCAAAATAGCTTCATCCGAAGACGAGATATTCTCCGATGATGACGTTCACCTGATCGCAGGGGCGGCTGTTACATCGGAACGCTGCGCGCTCGGACTTAGGGCCATGGATGCAGGTAAAGATTATTTTACGGATAAAGCGCCGTTTACGACGCTTACGCAACTGGAATCGGCCAGAGCAAAAGTTCGCGAAACCGGAAGAAAGTATATGGTGTACTACAGCGAAAGGCTGCATGTGGAATCGGCGGTTTATGCCGGACAGCTTATCCAGCAAGGCGCGATTGGCCGAATAGTCCAAGTGACAGGGTTCGGTCCGCACCGCCTGAATGCACCTTCCCGGCCGGAATGGTTCTTCCAAAGGGAACGCTACGGAGGAATCCTGTGCGATATCGGCAGTCACCAAGTTGAACAATTCCTCTTTTATGCCGGCTGCGAGAAGGCGGAGGTGCTCCACAGCAAAGTCGGTAATTACCATAGTCTTGAATACCCGGAGCTTGAGGATTTCGGCGACGCTACGCTGTTAGGGGATAACGGAGCCACGCATTATTTCCGAGTTGACTGGCTCACACCGGACGGGTTAGGTACTTGGGGGGACGGTCGTACGCTCATTTTGGGTACGGAAGGATACATCGAGTTAAGAAAGTATATCGATATCGCTCGCGACCGAGCCAGCGATCATGTTTATCTAGTCAACAAAGAAGGAGAGTATCATTTTCAAGTGTCCGGTAAGGTTGGATATCCCTTCTTCGGCGAACTGATTCTCGACTGCTTGAATCGAACTGAGAACGCCATGACCCAAGCGCACGCTTTTATGGCGGCAGAACTGTGTCTGAAAGCGCAACAGAAAGCTATGCGGATAACGTAG	MMQKSDGMNYAPKGKPSPVVKPGEFIIAAVALDHGHIYGMVNGLIEAGATLKWVYDRDPAKAEAFARTFPQVKIASSEDEIFSDDDVHLIAGAAVTSERCALGLRAMDAGKDYFTDKAPFTTLTQLESARAKVRETGRKYMVYYSERLHVESAVYAGQLIQQGAIGRIVQVTGFGPHRLNAPSRPEWFFQRERYGGILCDIGSHQVEQFLFYAGCEKAEVLHSKVGNYHSLEYPELEDFGDATLLGDNGATHYFRVDWLTPDGLGTWGDGRTLILGTEGYIELRKYIDIARDRASDHVYLVNKEGEYHFQVSGKVGYPFFGELILDCLNRTENAMTQAHAFMAAELCLKAQQKAMRIT				NA	NA	NA	NA	NA
AK002_03158	1161	gfo_4		Glucose--fructose oxidoreductase	ATGTTAACGGTTGCGATTATAGGTACGGGTGCAATTTCGCCCAGTCATATCGAAGCCTATCTGCAGTTTAAGGACCGCTGTAAAATTGTTGCCTTATGCGATCTTTACCCAGAGAAGGCTGAAGTGAGGCGGGAGCAGTACGGACTGGAAGCTAAAATCGTACACGATTATAAGGAACTGCTTCAAGACGGAATCGATCTCGTGTCCATTTGTATGCCCCCGTACGTTCATGCGCAGGTTGCGGTCGATTTCCTGAATGCAGGAAGCCATGTCATTGTAGAGAAACCTATGGCAGCGTCGCTTAAGGAATGTGATGACATGATTGAAGCGGCACGGAAAAACGGCAAGGTGTTGTCCGTGATCGCCCAGAATCGATTCAGAAATCCGATTATGAAGCTGAAACAAGTGCTGGATAGCGGTCTGGCCGGCAAGATTCTGCATGCCCAAGTGGATTCTTACTGGTGGCGGGGCCATTGTTATTACGATTTATGGTGGCGCGGCACTTGGGAGAAGGAGGGGGGGGGCCCTACGCTGAATCATGCCGTACATCATATCGATGGATTGCTGTGGATGCTTGGTCGTCCTAGCCACATACAAGCTTACATGGCTAACGTCGCGCACGACAATGCCGAGGTTGAGGATTTATCCATCGCGATGATGAAATATCCGAATGGAGCTTTGGGACAGCTAACCAGCTCGGTCGTCCACCACGGAGAAGAACAGCAATACATCTTCCAAGGAAAGTATGCACGGATTTCTGCCCCGTGGCGGGTAACGGCTTCCACTTCCTTGCCGAACGGCTTCCCTGAACGCGATTTGGAACTGGAAGAAAAAATTCAGAAATACTATGACGAAATGCCGGATTTGCCGTACGAAGGTCATACTGGTCAGATCGACAATGTGTTGAGCGCGATCGAGCATGGAACGCCCGTGCTCATCGACGGAGAAGACGGTCGCAGCACTTTGGAGTTGATCATGAGCATCTACAAATCCGCAAGCATGGGAGAGAACGTGCAGCTCCCGCTACAAAAGAATGATCCCTTCTATACGCAAGAGGGTGCTCAACAAAACGTTCCTTATTTTTACCAAAAGGGCAAGAGCATTGAGAATTTTGAGGATGGGAAGATCACGACAGGAAGCAATTATGGCGAAAAAAAATGA	MLTVAIIGTGAISPSHIEAYLQFKDRCKIVALCDLYPEKAEVRREQYGLEAKIVHDYKELLQDGIDLVSICMPPYVHAQVAVDFLNAGSHVIVEKPMAASLKECDDMIEAARKNGKVLSVIAQNRFRNPIMKLKQVLDSGLAGKILHAQVDSYWWRGHCYYDLWWRGTWEKEGGGPTLNHAVHHIDGLLWMLGRPSHIQAYMANVAHDNAEVEDLSIAMMKYPNGALGQLTSSVVHHGEEQQYIFQGKYARISAPWRVTASTSLPNGFPERDLELEEKIQKYYDEMPDLPYEGHTGQIDNVLSAIEHGTPVLIDGEDGRSTLELIMSIYKSASMGENVQLPLQKNDPFYTQEGAQQNVPYFYQKGKSIENFEDGKITTGSNYGEKK	PGPT0022715_67	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
AK002_03159	870	rhaR_36		HTH-type transcriptional activator RhaR	TTGTCATTGGTTGCAAGCAACTACAGTATCTCTCCCTTGTACTTTGCCTATAGACGTAAAAGCGAAAATTACGAGCATAAAGAGACTTTCCATTCCCATCTTGGCCTTGAAGTGTTGCTCATTCATCAAGGAAGGGGAACCATGATCGTTAACAACAACAGCTATGAGATTAAGCCGGGCATGCTTTGTATATTTCAGCCCTGTCAACTCCACCACCTAAAGCTTGAATACGACGATCATCAATGCTTCGAACGTTCGATTGCGATTTTTGAACCGACCGTGTTTGAGGCATATTTTAAACAGTGGCCCGCTCTCCATGAATTTTACAATTATATTTATCTAGGCAATCTTCCTTTCCCTTGTTTATATGAGGTCGACGACCCTTACCTGGACGGTGCATACAAGAGCATGAACGATCGATTCCCGACGCTGTCCAACACGGAAAAATATGAAGAAATTTCGCTGTTTCTTGTTGCACTTTTTCGCTCCTTGAAACCAATCTGGGATAAGCGGAGAGAACGGAGTTCAACTTACCAAACCCGTAAAAATCATCGGGTGGAGCACATCTTAACCTGGATTGAAACGAATTATACGATTCCTTTCCGATTGGACGATATGGCGAAGTCGCTGCATCTATCTCCCTACCATTTGTCACATCTCTTTAAAGAAGCGACAGGGATCAGCATCACGGAATACATAGCAGCCCGAAGGATTCATCAATCCATACAGCTCCTAACAACGACAAAAAAACCGATCTCGCTTATTGCGGAGGAGATCGGATTAACGAATAGCTCTTATTTTTGCAAATTCTTTAAGACGCAAATGGGAATCACGCCGCATCAATATCGAAAAAAATGGACGAGTACTTAA	MSLVASNYSISPLYFAYRRKSENYEHKETFHSHLGLEVLLIHQGRGTMIVNNNSYEIKPGMLCIFQPCQLHHLKLEYDDHQCFERSIAIFEPTVFEAYFKQWPALHEFYNYIYLGNLPFPCLYEVDDPYLDGAYKSMNDRFPTLSNTEKYEEISLFLVALFRSLKPIWDKRRERSSTYQTRKNHRVEHILTWIETNYTIPFRLDDMAKSLHLSPYHLSHLFKEATGISITEYIAARRIHQSIQLLTTTKKPISLIAEEIGLTNSSYFCKFFKTQMGITPHQYRKKWTST	PGPT0017485_378	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_03160	1083			hypothetical protein	ATGAACGAAATCATAAAGAAGAAGCTGCTGGACAAAAATGAACTGCTGATCAACATGGTGATCGAACGCGCAAGAAGAGATTTTCTAGACGATATCGCAATTATTGGGCTTACAGGTTCGTTTAGCACCGGGGACTTTCACGAAAAGAGCGATCTTGATTTAATTATCATAAATAATACAGAAAGAGGATGGGGAATATCCGATTGCTTCATCTTAGAGGACGTTGGCTATGACATCTATTGCACACCATGGGATACAAGAATACACGCACAATCCATTTTAGAGAGTCCCAACGTATCGAGCCTAACCGAGCTCAAAATTCTCTATTATGGAAAGCCTGAGGATTTGGAGAAATTGAACGACTTTAGGCAAAAAGCTCTTGATGCGCTTGCGGAGCCGATAGGAGAAGCGTGTCTTAATCGAGCAAAAAAATGGATCGATCTGGCTAAGCAAGCGTACAGCGATACGATGCTGGGTGATAATATCGGTTCAGTGAGACATGCATCTGCCGACGTTCTGTACAATCTGGTCAATGCCTTGGTCAGTATGAATAACACGTGCATCAAACGAGGAATCAAGCGTTATTTAGAAGAAATACGCTCGTATCGCTATGTTCCAGATGATCTCGAATCCTTATACATGTCAGTCATCGAAGCTCATACCATTGAAGATATCCGAATTGCCACATTTAATATGTTGAACAGCGTTACGAGGTTACATACAAAGATGTGTGATAACTTCATTGTTAAACCCGCTCCGACTTTTGATAATCTGAGGGGAACTTACGAAGAATTGTGGTGCAACTACCGCAATAAAATCTTGAACAGTGTTAAAACGAACGATGCCTCTTATGCCTTTCTTTCGGCCTTTGGAGCACAAGGATATCTTGATGAAATGGCTGCGGAGAAAGGAACCAAGAAATTTGATCTCATGCAGTACTTTGATGCAAGTGATTTACCAGTAATGAAAGAGAAGTTCCTTGAAATGATGGATGAATATGTAGACGAATATGGTAAGGTCGGTAGAGAAGTCGAACGTTTTACAACCTTCGAGCAATTATATGACCATTATATCAATCATTGA	MNEIIKKKLLDKNELLINMVIERARRDFLDDIAIIGLTGSFSTGDFHEKSDLDLIIINNTERGWGISDCFILEDVGYDIYCTPWDTRIHAQSILESPNVSSLTELKILYYGKPEDLEKLNDFRQKALDALAEPIGEACLNRAKKWIDLAKQAYSDTMLGDNIGSVRHASADVLYNLVNALVSMNNTCIKRGIKRYLEEIRSYRYVPDDLESLYMSVIEAHTIEDIRIATFNMLNSVTRLHTKMCDNFIVKPAPTFDNLRGTYEELWCNYRNKILNSVKTNDASYAFLSAFGAQGYLDEMAAEKGTKKFDLMQYFDASDLPVMKEKFLEMMDEYVDEYGKVGREVERFTTFEQLYDHYINH				NA	NA	NA	NA	NA
AK002_03161	372			hypothetical protein	ATGATGATAGCAAATCCGTTCATTGTAGTGGAGAATTGCAAAGACGAAATCAAGTATTATCAAAGCGTGTTTGGTGGTGAGATTGCCATTCTTCGCAAGCAAGGGGAAGAGGTGCTTAACGCGGACCTGCATGTAGAGGGGGTAACCCTTAAGTTTGCTGATACTCAAGCGGCAAAGCCGGTAATGAAAGGCGATTATGTGAGAGTTTTCTTAAGAATCGAGACGGAGGAAGCGTTCCAAAGGATCTACGGAGAATTTGCGGCCGAAGGGATTATTAACTCGGAAGCATATGAAGCTCCGTTTAACGGACTATTGGCTATCGTTACCGACCGAAACGGCGTGTGCTGGGTGCTGTCCTATTATCGAACATAA	MMIANPFIVVENCKDEIKYYQSVFGGEIAILRKQGEEVLNADLHVEGVTLKFADTQAAKPVMKGDYVRVFLRIETEEAFQRIYGEFAAEGIINSEAYEAPFNGLLAIVTDRNGVCWVLSYYRT	PGPT0030505_3480	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_03162	207			hypothetical protein	ATGAGAAATGATTATGAAACTCCTGAAAAAACAAGAGAAAGACTAAGACAAGAAGAACTGGAAAACAATCCATTTGGTCATATGAATCACGGAAATGGTAGGTCTCAGTATGGTTTAGTCGATTTAGTAGGTAGTTTAGGTTGGAAAGGCACTGTAGTATTAATCATTGTTATTATTGTTGGTCTTATAATTGCCCAATATTTTTAA	MRNDYETPEKTRERLRQEELENNPFGHMNHGNGRSQYGLVDLVGSLGWKGTVVLIIVIIVGLIIAQYF				NA	NA	NA	NA	NA
AK002_03163	207			hypothetical protein	ATGCAAGAGCAAAGCGATGGGTTTTTTCGTCTTCATTGCACCTGTTATAGTTGCAGAAGAGAGTTTTATGTCATTGAGGGGACTCAAGATTACGACCGTGTGAAACGAAATTCTAAAGGAATGCATGTCTGCGAAGATTGCAAAGACAGGATCGAGCTTGAAGCACGACTACAGTTAGGGAGACGACTGTTGACCGGCAGAGATTAG	MQEQSDGFFRLHCTCYSCRREFYVIEGTQDYDRVKRNSKGMHVCEDCKDRIELEARLQLGRRLLTGRD				NA	NA	NA	NA	NA
AK002_03164	609	betI_3		HTH-type transcriptional regulator BetI	TTGCCGAAAGTCGTGGACCATGAACAAAAGAGAAAACTGATCGCAGAATCTGCATGGAATATTATTAAAGAAAAAGGTGTCGAACATGCGTCAATCCGTGCCGTTGCAGGTGCGGCAGGGTTGTCACCGGGCGCATTGCGGCATTATTTTTCAACACAGGATGAGCTGTTGTTATTTATCGTGGATTATTATTTGACAAGAGGAGTTGCCAGAGCAGAAGAGCGCCTGGAAATAAGCCCTATTCCGATGAATGCAGCGAGGGAAATTCTGTTACAACTGCTCCCTTTAGATGCGGAAAAACGAACTGCCAGCGGCGTCTGGTGGATCTTCGCCATCCGATCCCTCACGAGTTTGGCATTACAAGCTAAAAAAGACGAGCTCACGGACGGACTCCACTACCTGACTAAAGCCGTCCTCGAAATTCTAGATGAGGCGAAACTTCTCCCCTCTTCGGTAGACATTCAACTCGAAACCTTAAGATTGGCCGCGATTGTCGAAGGTTTGACGATACTCGCATTGCTCCGCCCGGAGCTATACACACTGGAGACCGTTGAGCAGATCGTCAGCCGCCATCTTCAGGAGCTATGCTCGCAAGCAACGGATGGATGA	MPKVVDHEQKRKLIAESAWNIIKEKGVEHASIRAVAGAAGLSPGALRHYFSTQDELLLFIVDYYLTRGVARAEERLEISPIPMNAAREILLQLLPLDAEKRTASGVWWIFAIRSLTSLALQAKKDELTDGLHYLTKAVLEILDEAKLLPSSVDIQLETLRLAAIVEGLTILALLRPELYTLETVEQIVSRHLQELCSQATDG				NA	NA	NA	NA	NA
AK002_03165	1005	gapA1		Glyceraldehyde-3-phosphate dehydrogenase 1	ATGATGGCAATTAACATCGCAATTAACGGTTTTGGCAGAATTGGCAGACTTGCATTTCGGCAGCTTTTTGATACTGAAGGATATAGAGTTGCAGCCATTAATGATCTTACAAGTCCGCAGATGCTTGCGCACTTGCTGCAGCATGACACCACGCAAGGGCGTTATGATGCCAAGATTTGCTATAGCGATAACAGCTTGAACGTGAACGGTGTAGATATTCCGATCTATGCCGAAAAAGACCCCGGAAAGCTCCCGTGGAAAGAACTGCAAATAGACGTTGTTCTGGAATGCACGGGCTTCTTCGCATCAAAAAAAGCGTCAGCAGCACATATTGAAGCAGGTGCCAAAAAGGTGCTTATCTCCACCACCGCCGGGAACGATGTTCCCACTATTGTTTTCGGTATCAATGAACATACGTTGTCTAAGGACGATACCATTGTTTCGGCTGCTTCCTGTACGACGAACTGCCTTGCGCCAATGGCGTATTTCTTGAACGAGCTTGCACCACTCAAAAAGGGATTTATGACGACCATTCACGCTTACACAAACGACCAGAATACCTTGGATGGACCCCATCCCAAAGTTGACCTGCGGCGGGCGCGTTCTGCGGCGGGCAATATCATCCCGACCTCAACCGGTGCAGCAAAGGCAATCGGGCTAGTGATCCCGTCCTTGGATGGCAAGCTGGATGGAACATCGCAAAGGGTGCCGGTCATGGCGGGCTCACTGACAGAATTAACCGCAGTGGTAGGCGGCTCCGTGACAGCAGAGCAGGTCAATACGAAGATGGAACAGTCCCAATCGAAGGAATATGGGTATACAGATGAACAGCTTGTTTCGTCTGATATTATCGGCATGACTTACGGCAGTTTGTTTGACGCAACACAGACAAAGGTAACAGAGCTAGGAACAGATACATTGGTGAAAATTGCTGCGTGGTATGATAACGAGAACTCCTTTACCACCCAGTTAATACGCACTGCAAAATACTTAGCCCAATTATAA	MMAINIAINGFGRIGRLAFRQLFDTEGYRVAAINDLTSPQMLAHLLQHDTTQGRYDAKICYSDNSLNVNGVDIPIYAEKDPGKLPWKELQIDVVLECTGFFASKKASAAHIEAGAKKVLISTTAGNDVPTIVFGINEHTLSKDDTIVSAASCTTNCLAPMAYFLNELAPLKKGFMTTIHAYTNDQNTLDGPHPKVDLRRARSAAGNIIPTSTGAAKAIGLVIPSLDGKLDGTSQRVPVMAGSLTELTAVVGGSVTAEQVNTKMEQSQSKEYGYTDEQLVSSDIIGMTYGSLFDATQTKVTELGTDTLVKIAAWYDNENSFTTQLIRTAKYLAQL	PGPT0018000_6687	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
AK002_03166	855	rhaR_37		HTH-type transcriptional activator RhaR	ATGCCACAAATTGACCGCCATAAAAACAGAACGGTAAATATCGAATTTGTAGCTGCCGAGGATTTTGCACATATTCCCTACCCGGAGCGGTTTACTCTCGTTTTTGTTACGAATGGAAGTATAAAAGGGATATTTAACGAACGCCCGGTCACTATTTCAGCACCAGCGATTCTTTGTTTGTCTGCAGAGGATACGATACAAGTTATAGAAAAACACAACGCTTCAGCATCATCATTTTGTTTTCATCCGGATTTTCTTAACTCGACTCCCCATTCTGAAACAGAAGATTACTTTCCGTCCGATTTGAAAATACAAACAGGTCTTTCGCTGTTTCGTAAGTCTCCTGAACGAACTGGGATACCTCGCATAACCGAGAAGGCATATCCACAATTATTTGAGTGGTTCTTTGTGCTTGGCACAGAAGTGTATGCCCAAAGCGATGCACTCTGGGCATGTAGAATAAAAAAATATTTTATACAAATATTGGGGGTTCTTGAAGATTTAAACCGTCACAGCGAGCAATCACCTGTAGATTTAGTTCTGGAATATATACACACCCATTATTCGGATAAAATCATCCTGGAAGATTTAACAAAATGCGCGTACTTGAACCGCGTTTCGCTTAATAAGATGTTTCAGGAAAGATGCGGGTGCACAGCGATGGGTTACTTACTGTCGCACCGCTTGAAGGTTGCGGGGAATCTGCTGACTCATACAGATATGAGCTTAAATGAAATTGCACGTGCTACCGGATTTGAGTATGACACTTACTTCATAAAACAATTTTCGGCTAAAAAAGGCATGTCACCAACAACATATCGGGAAATCTCCCGCAAGTTCTCTGCTGCCCAATAA	MPQIDRHKNRTVNIEFVAAEDFAHIPYPERFTLVFVTNGSIKGIFNERPVTISAPAILCLSAEDTIQVIEKHNASASSFCFHPDFLNSTPHSETEDYFPSDLKIQTGLSLFRKSPERTGIPRITEKAYPQLFEWFFVLGTEVYAQSDALWACRIKKYFIQILGVLEDLNRHSEQSPVDLVLEYIHTHYSDKIILEDLTKCAYLNRVSLNKMFQERCGCTAMGYLLSHRLKVAGNLLTHTDMSLNEIARATGFEYDTYFIKQFSAKKGMSPTTYREISRKFSAAQ				NA	NA	NA	NA	NA
AK002_03167	1086	pbuE_2	COG2814	Purine efflux pump PbuE	ATGATTGCTGTGGACTTGGGAGTATCAACTTCCGAAACTGGGTTACTGGTGACTGTGTTTGCTCTTGCCGCGGCCATTGTCGCTCCGATTTTGATTGCAGTGACGATCAATGCAGATCGGAAGAAGCTGCTGATAGCCACCCTAAGTGTATTTATTGCCAGCAATGGATTTATGTTTGTAGATCTTCCTTATGAAATAGTACTATGGGTACGAATTATACAAGGAGCTAGCGGAGGAATCGCAACCGTAGTGGCCATGGCAGTAGCGACACGACTCGTTGAAAAAGAAAAAGAAGGCAATGCTATCGGTATTATTTTGATGGGACTTAGCAGCTCGCTGGTGCTTGGTGTTCCCATGGGCACATTTTTTAGTGAGATGTTTGGCTGGAGAGTTCTATTTATCTTAATTGGTTTATTAAGTGTTTTTCCATTACTTATCATCTATAAAAAGGTTCCGGCAATCAAAGAAGAAGAAAAGGTTACCCTCAGAATGCAGGTCTCCATTTTAAGGAATTCATCCATTCTGACCGCCTTGGTTATTACTTTATTGTACATCGGCGGCTATTCTACACTGTTCACTTATATTACGCCTTTCTTGCAGGCTACATCTTCTCTTTCCATAGCCCAAATTAGCGGTGTTTTATTCCTGGCGGGAGTTTGCAGCTTTGTCGGCTCAAGAGTGGGTGGACAATTGGCAGATGCAAAGGGATCGAAGTTTACCATATGTCTCGGGCTCCTGTTACAAGGGGCGACTCTTCTTTTATTCGCTCTAGCCGGTGTCCATCTCTTGGTATTAATTTTGAATTTAATGATTTTTATGTTAGCAACGTGGAGTATTTCCCCTGCCCAGCAACTATATTTGGTTACTCTAGCGCCTCGAAATCCAGACATCGCCCTTAGCGTAAATACCTCGTTCATCCAATTTGGTTTTGCATTGGGATCTGGATTAGGCGGGGTTGTCATCAGTCGCACATATGTCCTGTATTTAAATTGGCTGGGTTTGGCCGCTGTAAGCATAGCTTTACTTCTTTCCATCTTGTTATTTAAAAAAATGAGCAATAGGATTAAAACTCCTATGGCTACTTAA	MIAVDLGVSTSETGLLVTVFALAAAIVAPILIAVTINADRKKLLIATLSVFIASNGFMFVDLPYEIVLWVRIIQGASGGIATVVAMAVATRLVEKEKEGNAIGIILMGLSSSLVLGVPMGTFFSEMFGWRVLFILIGLLSVFPLLIIYKKVPAIKEEEKVTLRMQVSILRNSSILTALVITLLYIGGYSTLFTYITPFLQATSSLSIAQISGVLFLAGVCSFVGSRVGGQLADAKGSKFTICLGLLLQGATLLLFALAGVHLLVLILNLMIFMLATWSISPAQQLYLVTLAPRNPDIALSVNTSFIQFGFALGSGLGGVVISRTYVLYLNWLGLAAVSIALLLSILLFKKMSNRIKTPMAT				NA	NA	NA	NA	NA
AK002_03168	606			hypothetical protein	TTGTTCAAAATCAGTGCATTTTCCAGGCTAAGCAAGCTCTCCCTAAAAACACTGCGTTATTACGACCAGATTGGCATACTTAAGCCGAGAAAGGTAGACCACGATACGGGTTACCGGTACTATTCTGCAGATCAGCTTCTTGAGCTCAATCGAATTTTAATTTATAAGGAATTGGGTTTTACATTGCCCCAAATCACACAGCTGCTCGAGGAAGATATTACATTAGAGAATATTCAAGGCATGTTTAAGCTGAAAAGAAGCGAAATTCAGCAAAAAATCGATTCGGAACAAGCCAAACTTGTCAGGATTGAGGAGCGTATGCAGCTTATAGAAAGAGAGGGGCAATTCGAAACTGGCCAAGATATACGAATCAAATCCGAAGGTGCACAAACATTTCTTTTTCAAAAAGCATACGGAAGAGAAGAAGACATACCAGGGTTATTTCATCAATTGGATCTGTTATTAACAACGGAAATTCGCCAGTTGATCCAAGGCCCTCAAGTTGTTTTGTGGAAAAACATAGACGGAAAAGAGGAAGAGTTTGAGTTTGATGTCGGTTATTTCTTAACCTGTGAGCTCCAATCATCTCTAGAGCCTTGGCACTAG	MFKISAFSRLSKLSLKTLRYYDQIGILKPRKVDHDTGYRYYSADQLLELNRILIYKELGFTLPQITQLLEEDITLENIQGMFKLKRSEIQQKIDSEQAKLVRIEERMQLIEREGQFETGQDIRIKSEGAQTFLFQKAYGREEDIPGLFHQLDLLLTTEIRQLIQGPQVVLWKNIDGKEEEFEFDVGYFLTCELQSSLEPWH				NA	NA	NA	NA	NA
AK002_03169	576	yyaP_4	COG0262	putative protein YyaP	ATGAGAAAACTTGTTCTATTCTTGCACGCATCGCTTGACGGTTTTGTAGAAGGGCCGAACGGTGAAATGGACATTGGCTGGGTTGCTTACGATGCTGATTTGGAGAAGCACGCAAAAGAAATTCTGAGTACTGCCGACACTGTCATTTGGGGACGTGGAACTTATCAGATGATGCACAGTTACTGGCCATCTGTGCCCTCGAACCCATCAGCTTCGCAGCATGAACTTAATCATGCCGAGTGGATCGAAAAGACAGCCAAAATTATTTTTTCCACGACGCTGGAGAAAGTCGAATGGAACAATTCCAGACTGGTGAAAGAAGATGTCGAGGAAGAGATCAAAAACCTCAAACAGCAGCCAGGCAAGGATATGGTCATCCTCGGCAGTCCTAGGTTCGCACACTACCTTATGCAGCTTGATTTAATAGATGAGTATAAAATTACGGTTTCTCCCGTCCTGATCGGCAGCGGGTTGCCGTTTTTCCAAGGTCTCAGGGAGAAGATCAATCTTAAACTTATCGAAAACAAGACATTTGATTCTGGAGCCATAGGCCTCGTTTACCAGACGATTAGATGA	MRKLVLFLHASLDGFVEGPNGEMDIGWVAYDADLEKHAKEILSTADTVIWGRGTYQMMHSYWPSVPSNPSASQHELNHAEWIEKTAKIIFSTTLEKVEWNNSRLVKEDVEEEIKNLKQQPGKDMVILGSPRFAHYLMQLDLIDEYKITVSPVLIGSGLPFFQGLREKINLKLIENKTFDSGAIGLVYQTIR				NA	NA	NA	NA	NA
AK002_03170	756	yueD		Benzil reductase ((S)-benzoin forming)	TTGAAACATATATTGATTACAGGTACATCAAGAGGTATTGGTGAATCGTTGGCTAATCAATTAATCGATAAGAACCATCACCTTATATGCATTTCTAGAACTTCGAACCAACGGATTATCGATCTAGCCAAGGAGAGGGACTGCAGAATTGATTATTATAATTTTGATTTAACAAACATTGGCGAGATTGATCAACTGTTCGAAGACATCTTCCGTCAAATTGAGCTTTATTCCAACGATGATGCGATCTATCTTATCAATAATGCTGCCATGTTGACTCCTGTGAGCCAAATTGAACGGATAGAAACGGATCAAATAATTGAAAACATCCATTTAAATCTATTAGCACCAATGATAATAACAGCTAACTATCTTAAACGTACCAAAGATATGAATGTGGACAAAAGAATTCTAAATATATCCTCAGCATCCGCAAAATATTTATTACCCTCACAAAGCTGTTACAGTACTGCAAAAGCCGGCCTTGACTCATTTACGAAGAGTATAGACATTGAGCAAAAGCTCGTGACATATCCAGCAAAAGTAGTCGCTGTATATCCAGGTATGATCGATACCAATTTACAATCGGAAATTCGATCCGTAAGCAATGATCTTTTCCCTTATGTTAATGAATTCATTCGACTTTCTGAGGAAGGGAAGCTACAAACGCCTGAATACACTGCGCACAAATTAATAGAGATTCTGCTGAGCGAAGATTTTGGTAAGGCTGTTGTTATAGAAAGCATGGATCAATAA	MKHILITGTSRGIGESLANQLIDKNHHLICISRTSNQRIIDLAKERDCRIDYYNFDLTNIGEIDQLFEDIFRQIELYSNDDAIYLINNAAMLTPVSQIERIETDQIIENIHLNLLAPMIITANYLKRTKDMNVDKRILNISSASAKYLLPSQSCYSTAKAGLDSFTKSIDIEQKLVTYPAKVVAVYPGMIDTNLQSEIRSVSNDLFPYVNEFIRLSEEGKLQTPEYTAHKLIEILLSEDFGKAVVIESMDQ				NA	NA	NA	NA	NA
AK002_03171	654			hypothetical protein	TTGACAATACATTATGATAATCCTTATAATGGCATTAATTCAGATGAAGGGAGCCTGAAGGTTATCAAGAAAAGAGAGATTACATCAAGTCATATCGTCCAAGCAGCATATGAGCTGTTTGCAGAGCATGGGATAGAGAGAACGAGTTTGGGCTTGATTTCTAAAAAAGTAGGCATAACCAAATCCTCTATATACTACCATTTTGCAACAAAGGAAGAGTTGATCAGCCGAACATTTGACTATATTTTTAGGGATCATTATTTTGCTGCTTACTTTGATGCTGAATCCGTTAATAAAGACAATTTTGTAGAGACGATGATTCGGGGCGGTTTAAATATGCTGCCAAGCGATGATGAAGAGTATCGTTCAACATTAAGAGTGCTTAGTGAGTTCACCATGCTAGCCGAGCGTGATGAGCAATTTAGGGCTCCCTTATTGAAAGTTCAACAAGATTTTATCAATGGTTTCTATAATTTATTATCAAAAGGCAGTGATCTGGGTCTAATTGAACCTACAAAAATCGAAGTCAGTGCTAAAATTCTTGCCCTTCTTATTGATAATTTGTCTAGATGTAAGATGATGAAGATGGATTTGGAGTATCAGATGATTTGGGAAGAGACTGTTAATAGAATCATTATTCGAGAAAATACATAG	MTIHYDNPYNGINSDEGSLKVIKKREITSSHIVQAAYELFAEHGIERTSLGLISKKVGITKSSIYYHFATKEELISRTFDYIFRDHYFAAYFDAESVNKDNFVETMIRGGLNMLPSDDEEYRSTLRVLSEFTMLAERDEQFRAPLLKVQQDFINGFYNLLSKGSDLGLIEPTKIEVSAKILALLIDNLSRCKMMKMDLEYQMIWEETVNRIIIRENT				NA	NA	NA	NA	NA
AK002_03172	231			hypothetical protein	ATGGAAGAAGGGCTGGAAGGCATTACGGGAATTACTTGTATTTACGTACCAGTAAATGATGTTTACGAGTCTATTAAATGGTATCAAAAGAATTTAGGGTACCAACCTGCAACCAACGATCGTGTTGAGCCTGGGATGGTGATGGCTGTTTTGAATTTGCTGACCCTGACGGTAACATATGGGAAGTTTGGCAGCCTTAATCGATTAATCAGATCAATTTCGCTAACGTGA	MEEGLEGITGITCIYVPVNDVYESIKWYQKNLGYQPATNDRVEPGMVMAVLNLLTLTVTYGKFGSLNRLIRSISLT				NA	NA	NA	NA	NA
AK002_03173	675			hypothetical protein	ATGAAATTATTACTCACATCTGCAGGCATTAATAACAAAAGCATACACAACGCGCTAGTTGACATGCTGGGCAAGCCGATCGCCGATTGCAACGCTCTGTGCATTCCCACCGCGATGTACGGACACCCCTGGGTAGGCCCCGGCGTCAAAGCATGGCAGTTCATCAGCGGGAATTCCGAGAATCCAATGGTCGACCTAGGCTGGAAGTCCGTCGGCGTGCTGGAACTCACAGCGCTGCCAAGCATCGACAAAGACCGCTGGGTACCGCTAGTAAGGGAGACGGACGTCCTTCTGGTTGCGGGCGGCGACGCCCTCTACCTGTGCCACTGGATGCGGCAGTCCGGACTGGCAGACCTCTTGCCGTCTCTGCAGACAGTTTATGTGGGACTGAGCGCCGGGAGTATGGTGATGGCACCTAACATCGGGGAATTCTTCGTTGGCTGGACTCCACCCACTGGCGGCGATGAAACGCTGAGTTTCGTTGATTTTGCAATATTTCCGCATCTGGACCATGAAATGCTGCCGAGAAACACCATGGCTGATGCAGAGAGATGGGCCGCCGGGATGCAAGGGCCAGCGTATGCGATCGATGATCAGACCGCCATCAAAGTGATCGACGGAGTGGTTGAAGTTGTCTCCGAAGGGAATTGGAAACATTTTTCGCACCTCCTATAA	MKLLLTSAGINNKSIHNALVDMLGKPIADCNALCIPTAMYGHPWVGPGVKAWQFISGNSENPMVDLGWKSVGVLELTALPSIDKDRWVPLVRETDVLLVAGGDALYLCHWMRQSGLADLLPSLQTVYVGLSAGSMVMAPNIGEFFVGWTPPTGGDETLSFVDFAIFPHLDHEMLPRNTMADAERWAAGMQGPAYAIDDQTAIKVIDGVVEVVSEGNWKHFSHLL				NA	NA	NA	NA	NA
AK002_03174	759			hypothetical protein	ATGAGTGTCCCTTCTATTAGAAAAAAAACACAAATCCTTCGTGCTGAACTGGATAAATTAGTTACATTACCATTGATATGGCTCACTCTTATGGGTACATTCATTCTTAATTTAGGATTAGCCGCAGCTTTTACGTCTATTGGTCTACAAGGGGCAATAGGATCGCAAAGTATACTGAATATTGGGTTTGCTTCGATGGAATATCTTCAAGCAGGATTCATTATACTTGGGATCTTAGCTACTTGCTCAGAGTATACCGGTGGACAGATTCGAACTACGTTAGCTGCGATCCCTTGTCGTGGGATCCAACTATCCATGAAGCATTTGGCATTGGCAATCATAACCGTTCCCGCGGCCTTTATTATCGCTGCATCCGGTGTACTATATACTTATATGATGATGAGAGACACAGCAGCAGTGATTGGTTTAGATACCATGGTAGAAGCATTGGCAGGTGCAGCAGGCTATCTAACATTAACCACACTTCTCAGTGCAGCTATAGGTGCTTTATTAAGACGAACCACCCCTGCTTTAGTGGTACTGCTTGGTTATTATTTCATTGTCAGTCCATTATCGAGAGATTTTCTACCTAGTATTACAATGTATTTTCCGGATACGGCAGGATATTATATGTATATGCCGCCGTCCTCTGATGAAAGAAATGTCCTTTCACCAATGCAAGGGACAGGGATTTCAATGATATGGACACTGAATTTTATTATAGCAGCTATTGTATTTTACCGTAAACGTGATGCCTGA	MSVPSIRKKTQILRAELDKLVTLPLIWLTLMGTFILNLGLAAAFTSIGLQGAIGSQSILNIGFASMEYLQAGFIILGILATCSEYTGGQIRTTLAAIPCRGIQLSMKHLALAIITVPAAFIIAASGVLYTYMMMRDTAAVIGLDTMVEALAGAAGYLTLTTLLSAAIGALLRRTTPALVVLLGYYFIVSPLSRDFLPSITMYFPDTAGYYMYMPPSSDERNVLSPMQGTGISMIWTLNFIIAAIVFYRKRDA	PGPT0006730_20874	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03175	750			hypothetical protein	ATGAGAGCATTCAACGCGGAACTATCTAAATTGTTCTCCCTGCCGGGCATTTGGCTTGCCTTTCTTGTTGGAGCATTTTCTCCTGCGGTCATAGCCGCCTTAGACAGTATAGCGCAAAAAGAGGAGATTATAGCTGGAGTTAGCACACGGCTATTGGAAGTTGGCTATATTGGATTAGCCCTTGGTGTACAAGGTGTCATCATCCTTGGTGTGCTTGCTGTCAGCAGCGAGTATTTAACAGAGAGCAGTGAATCTGGCGGAGGACAACAGATTACAACAAGTTTAACGGTTGTTTCGTCAAGACTTCATTTTTTGCTGGCAAAAGCAGGTGCTGTGACAGTAATCAGTATACTGCTTTGTATCGTTGCTATAATGACAACTGTGTCAGCTACGCATCTTGTTCTTGGTGAGCATACCCCTGCATTAGAATGGTCGAAGCTGCTCGGTGCAGTTTGTTACTGGACATTCACTGCTCTATTAGCATTCGGGATTACTGTACTGACTAAGAATGGCACGATTCCGCTTGCTGTGCTCATCATAAATACATCCGTTGTTTCATTTAGTTTCCTGCTTTCTAAGGTTACAAAGTTAGCGTTATACTTACCGGATCGGGCTGGCCTTGAAATGTTTATGTTTCTGAGCGACAGATTTCTCACTCCGTTCACAGGCGGTATAGTCATGTCAGCCTGGGTAGTCGTTCTTTTCATTGCTGCAGCTATTGTATTCCATAGGAGGGACGTTGCAGCATGA	MRAFNAELSKLFSLPGIWLAFLVGAFSPAVIAALDSIAQKEEIIAGVSTRLLEVGYIGLALGVQGVIILGVLAVSSEYLTESSESGGGQQITTSLTVVSSRLHFLLAKAGAVTVISILLCIVAIMTTVSATHLVLGEHTPALEWSKLLGAVCYWTFTALLAFGITVLTKNGTIPLAVLIINTSVVSFSFLLSKVTKLALYLPDRAGLEMFMFLSDRFLTPFTGGIVMSAWVVVLFIAAAIVFHRRDVAA	PGPT0006730_22076	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03176	714	bcrA_3		Bacitracin transport ATP-binding protein BcrA	TTGCTTACCATTAATAACGTAGTCAAACATCGCGGAACTCAAGAAATCTTATCAGGTATCAGTTTTAAAGCGAGACCTGGCAGAGTGACTGGTTTTTTAGGTCCGAATGGGGCAGGTAAAAGTTCTACACTTCGCATCCTGCTTGGATTAGATCGTGCCACATCAGGGAGTGCACTCATAAATGGCAAGCCATTCTCAGAGTTACATAATCCTCTAGCGACAGTAGGTGCTGCACTTGATGGATCTGGGGCCCATCGTATGCGAACAGGGCGGGCACACTTGCGCTGGATTGCTTGTGCCGCAGGATTGTCTCGCTCACGTGTCGAGGAAGTTTTGGAAATCGTAGGTCTTACTAATGCAGCTGACAAAAGAGTTGGAAATTATTCGCTTGGTATGGGGAGAAGACTTGGAATGGCCGCTGCACTACTGGGTGATCCCCCAATATTGGTACTAGATGAACCCGTAAATGGGCTCGACCCGGAAGGAATTCGTTGGATCCGGACATTCTTGCGTAAACGGGCCGAGTCTGGCAACACGGTGTTACTATCCAGTCATCTTATAGGAGAGCTTGCAGAGACAGTCGATGATGTGGTCATTATTAAGCAAGGAACAATCGTTGCAGATGGAACATTGGATGAAGTAATAGGTAACCATTCCACGCTGGAAAAAGCTTTTTTTGCCCGGACATCTGAACATGCAGGTGGTGTTGTATGA	MLTINNVVKHRGTQEILSGISFKARPGRVTGFLGPNGAGKSSTLRILLGLDRATSGSALINGKPFSELHNPLATVGAALDGSGAHRMRTGRAHLRWIACAAGLSRSRVEEVLEIVGLTNAADKRVGNYSLGMGRRLGMAAALLGDPPILVLDEPVNGLDPEGIRWIRTFLRKRAESGNTVLLSSHLIGELAETVDDVVIIKQGTIVADGTLDEVIGNHSTLEKAFFARTSEHAGGVV	PGPT0006725_26238	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03177	1011	sasA_15		Adaptive-response sensory-kinase SasA	ATGAAGCAAAATAGATCATTATTTCGTCGTTTTCTAAAAGTACATTTTCTATTTATCTTTTTTCCTCCGATTATGATTATTTTCATCAGTGCGTTTTTTGGGGTTTCAGATATCCATGATAAAAATGTAAATGCGTTAAATCTGTTTTACGTTACCGTACTAGTGTTTGGTTTTATTATTGTCGCATTCGTGATCTTATCCTGGCGGTTCTTCTTGAAACTTCAAAAACGTCTCGCCCGCTTACAAGAAGTCATGTCATTATCAGCTAAAAACAACTCATTTCCTAAAACCATATCTGTTCAAAGTGATCATATGGATGAGATAGACCAGTTAGGAAGTTCTTTTAATTGGATGATTCAGCAGCTTGAAGACAGTCGCAAGCGAGAATATGAAGAGGAGTTATTACGACATCGACTCATTGCGAATTTATCTCACGACTTACGAACGCCGCTTACCATTTTGAGAGGACATGTCACCCGCTTAAATAAAGAACCCATGAGTTTAGAAGGACAAAACTCGTTAACAGAGATCAACCATACGATTACAAGAGTCGGAGATCTAATGGATGATTTACTGTCCTATACATTGCTTACCTCAGGAAAACATCCTTTTGTGCCCGTTTCAACAGATATTGGACGTCTAGTAAGAGCATCTGTTGCTGCGTGGTATCCTGTATTTGAAGAAAAAGAAATTCAGCTTGATGTTGATTTACCGGGAGAGGAGACTTTTTATTGGGAAGCAGATCCTAATTGGATGAAACGGGTTTTGGATAATTTATTTCAAAATATTCTACGCCATGCAGCAGAAGGGAAATATGCAAATATTGTGGTTGATATAGAAAAAGAACAGATCATTATTGCAGACAGAGGTCCAGGCTTGGATAACTCTTCCTATGAGCATGGGGCAGGGATTGGTTTATCGACTTCAAATTACATGTTGAAAAAAATGAAGCTGAAAGCTGACTTTACATCAAATGAAAATGGCACAAGAGTAGTTATTGGTAGAGCGTAA	MKQNRSLFRRFLKVHFLFIFFPPIMIIFISAFFGVSDIHDKNVNALNLFYVTVLVFGFIIVAFVILSWRFFLKLQKRLARLQEVMSLSAKNNSFPKTISVQSDHMDEIDQLGSSFNWMIQQLEDSRKREYEEELLRHRLIANLSHDLRTPLTILRGHVTRLNKEPMSLEGQNSLTEINHTITRVGDLMDDLLSYTLLTSGKHPFVPVSTDIGRLVRASVAAWYPVFEEKEIQLDVDLPGEETFYWEADPNWMKRVLDNLFQNILRHAAEGKYANIVVDIEKEQIIIADRGPGLDNSSYEHGAGIGLSTSNYMLKKMKLKADFTSNENGTRVVIGRA	PGPT0003985_1338	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
AK002_03178	678	regX3_3	COG0745	Sensory transduction protein regX3	TTGAAAAGAAGCGTGTTATATATTGAAGATAACGAGAAAATAGGCAGTTGGGTAAAGGAAGAATTGGAGCAGCGAGGGTTTTCAGTTCAGTGGCTGCTAACTGGTGAAGGAGCCGAAAAAGAAGTCAATCAGCACGAAATCGTTATTTTGGATATCATGTTACCCGGTTTAGACGGATTTACTGTGGGAAGACGATTAAAGAAGACAGCTCCTGCTATTCCTATTTTGCTGTTAACTGCTCGAACATCGATAGATGATAAAGTAGATGGTTTGCAATTTGCTGATGACTACTTAACGAAACCATTCCACACGGATGAATTAGTTGCAAGAATAGAAGTATTAATCCGTCGTAATGGTGGAACAAAACCCGATCGCATTTCATTAGGAAATCAGATTGAAGTAGATCCAGAAGGTCAAATGATATTTGATAAACACACAGGAGAAGAAATAATATTAACAGGGAAACAGCATCAAATCTTAATGTACTTCTTACGCCACCCTAATCAAGTTTTAACAAAAGAACAAATTTATGAAGCTATTTGGGAAGAAGCTTATATAACAGGCGATAAAACACTAATGGTGCATATCCACCGACTGCGTCAAAAGCTGGAACGCCATCCCGATTCCCCGGAGATTATTGAAACGTTGAAGGGAATTGGCTATAGGGTGAAATTATGA	MKRSVLYIEDNEKIGSWVKEELEQRGFSVQWLLTGEGAEKEVNQHEIVILDIMLPGLDGFTVGRRLKKTAPAIPILLLTARTSIDDKVDGLQFADDYLTKPFHTDELVARIEVLIRRNGGTKPDRISLGNQIEVDPEGQMIFDKHTGEEIILTGKQHQILMYFLRHPNQVLTKEQIYEAIWEEAYITGDKTLMVHIHRLRQKLERHPDSPEIIETLKGIGYRVKL	PGPT0002665_1705	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_03179	597	yyaP_5	COG0262	putative protein YyaP	ATGAGAAAAATTATTGTGCTTGAACATGTCTCCCTTGATGGCGTCATACAAGCCCCAGGAGAGCCAGACGAAGATGTCAGCGACGGTTTCGCATATGGCGGGTGGTCAGCGCCATATTCTAACGAGATCGTTGGAACGCTACTGAGAAGGCAGATGAACATGCCGTTCGATCTGTTGTTAGGGCGCAAAACCTATGAAATTTGGGCACCGTATTGGCCGCAACATGCGGACGTATGGCCGAGGGCCAACCAGGCTAACAAGTACGTCGTCTCGAACACCATGACATCTGGCGAATGGCAGCCGTCCGTATTTTTAAGTGGAGATATTGTGGGGAAAATCACTCAAATCAAGCAACAGCAAGGGCCAGATTTGCATGTTTGGGGAAGCGGTGATCTCGTTCAGACGCTTATCAAGCATGATTTGGTCGATGTGTTCTGGCTGATGATATATCCAATAACGTTGGGCAGTGGAAAGCGGTTGTTTGCTGGAGGCACTACCCCGGCGGCATTTAAGGTGACGGAAAGCAAAGTCGCCCCGAATGGCGTTATTGTCGTGAATTACGAGCGTGCAGGCGCAATCACAACCGGAAGTTTATGA	MRKIIVLEHVSLDGVIQAPGEPDEDVSDGFAYGGWSAPYSNEIVGTLLRRQMNMPFDLLLGRKTYEIWAPYWPQHADVWPRANQANKYVVSNTMTSGEWQPSVFLSGDIVGKITQIKQQQGPDLHVWGSGDLVQTLIKHDLVDVFWLMIYPITLGSGKRLFAGGTTPAAFKVTESKVAPNGVIVVNYERAGAITTGSL				NA	NA	NA	NA	NA
AK002_03180	390			hypothetical protein	ATGGAACAGACCTGGAGTATACGACTCATACGCTTTGCGGCGCTCTTCGGCATTCTCGGGACCTTTATCGGGTCCCAAATGTCCGGCAATATGGATTATTCCATGCGGCCGATTCATGCACATATTTTGCTGGTAGGATGGCTGTCGGTGTTTGCCTGGGGGATCTTTTACAAGGTAAACAAGGTGAGATATAAAAAGCTGGTGGCCATCCACGGCTGGCTGGCCATGCTGGGCGCATTCGGCTTGACGTTTGGCATGTGGATGTACAATTTAAACCCGTTCCAATGGGATGAGACCTTTGTGATGATCTTCTTTATTGTGGGCGGTTCGCTCTTATTATTAGCCTTCTTGCTGTTCGCCATTATTACATTCTTAACAGAAAAAGAGTAG	MEQTWSIRLIRFAALFGILGTFIGSQMSGNMDYSMRPIHAHILLVGWLSVFAWGIFYKVNKVRYKKLVAIHGWLAMLGAFGLTFGMWMYNLNPFQWDETFVMIFFIVGGSLLLLAFLLFAIITFLTEKE				NA	NA	NA	NA	NA
AK002_03181	1392	hssS_1		Heme sensor protein HssS	ATGAGGACATTATACCGTGAGTTTATTTCAGCCATTCTGCTCATTTTAGGAATCAGCATGCTGATCGGCTTTGTCCTGGCTAACGTGGTTTACGTCGTATTTACCAAGGACGAGATGACCCAGCAAAATCTAGAGGTGGCCGAGCAAATTGTTCATGTTCTAGAGAACATGCATATGGTCGATCATGCTGTTCAACCTTTTTTGCAGTCCATCGGACAATTAGGGTACCAGATTTATTTCGTTGATCCATCCGGAGGAGGGACTACCTTTGGACAGTCTTTTGAACAGAGCAGTCTCCCTCGCCAGACGCTGGAGCGGGTGCTGCAAGGAGACCGCTACATGGGCAAAGAGGGGACATGGGATCAGTTCTGGATGATGGGTCATTTCTCCAATGATATAAGAAATACAATCGGTCTGCCCGTTCGGATCGACAATGAACCCCACGCTTTATTTGTAAAACCGGACAGCCAAATTTTGTTCTCTGATATTCATATGATGCTGGCGGGATTCATCGTTGCCATTGCCCTTGTAAGCGTACTGGGGGTTATCATGATGGCTAAACGGCTGACTCACCCGATATCCGAATTGTCCGAGGCGACCAAAGCGATAACCAATGAAGATTTTACGTACGCCTTGAATATCAGTCGGCAGGATGAGATTGGCCAGCTGGCCGGCAATTTCTTGAACATGCAGCAGCAGCTTATGCATAATGATATCGCCAGGAAGTCCTTTATCAACAATGTATCTCACGATTTTCAATCACCCTTGATGAATATTCAGGGCTACGCGGATCTGCTCCTCAGCACGGGCCTGAATGAGAAGGAACGGCTCCAATACGCTGGCATTGTCAATGATGAAGCCCGAAGATTATCGAATTTAACGAAGCAGCTTCTGCTGATTACCTCTTTGGACCAATCCGGGTATCCCGTAAAAAAGAGCCCTGTTCGTCTGGATCTGCAAATTAAGGAATCCATCAAGAAACACCAGTGGAGCCTGCAGGACAGGAATCTGACCATTTCATACAAACTGGATGAGGCAGTATTGTTCTCGGACCGCGAGCTGCTTGCCATCGTGTGGGATAATCTCATTACTAACGCTATTAAGTATAATCAGCCAAACGGCCATGTCTTTATTACCTGCAGCATAGAGTCGGATATGATCCGGCTAGCGTTTCAGGATACCGGCGTTGGCTTGTCTGAAGAATCAGCTGAACAGGTGTTTGAACGCTTCTACCGGGTGGATACTACTCGCAAAAAAGACGGGACAGGCCTCGGCTTGTCCATTGTAAAAGAAGTCGTTACATTATTAAACGGAACCATATCGCTCAAGAGCGAACTCGGAAAAGGAACCACCTTTACCGTCATGTTTCCTCAGGAAGGAAATGATAATTAG	MRTLYREFISAILLILGISMLIGFVLANVVYVVFTKDEMTQQNLEVAEQIVHVLENMHMVDHAVQPFLQSIGQLGYQIYFVDPSGGGTTFGQSFEQSSLPRQTLERVLQGDRYMGKEGTWDQFWMMGHFSNDIRNTIGLPVRIDNEPHALFVKPDSQILFSDIHMMLAGFIVAIALVSVLGVIMMAKRLTHPISELSEATKAITNEDFTYALNISRQDEIGQLAGNFLNMQQQLMHNDIARKSFINNVSHDFQSPLMNIQGYADLLLSTGLNEKERLQYAGIVNDEARRLSNLTKQLLLITSLDQSGYPVKKSPVRLDLQIKESIKKHQWSLQDRNLTISYKLDEAVLFSDRELLAIVWDNLITNAIKYNQPNGHVFITCSIESDMIRLAFQDTGVGLSEESAEQVFERFYRVDTTRKKDGTGLGLSIVKEVVTLLNGTISLKSELGKGTTFTVMFPQEGNDN				NA	NA	NA	NA	NA
AK002_03182	672	hssR_2		Heme response regulator HssR	ATGAAAATTTTAGTGGTGGATGACGATTATGATATCCTGCAGCTCGTGACGATTCATCTGACCCGCGAAGGCTATGAGGTTTTACAGGCCCAAAACGGCCAATATGCCCTTAAGCTTCTAGAGGAGACTGAGGTGAACCTCGCCATTGTGGATGTCATGATGCCCGGGATGGACGGTTTCTCCTTAACTAAAATTTTAACCAAAGAGCTGGAAATCCCCGTCATTCTGTTGACTGCAAAAGGGCAGCTGTCCGATAAGGAGCAGGGATTCAGATCAGGCTCCGAAGACTACCTTGTGAAGCCGTTTGAGCCGAAGGAATTGCTGTTTCGGGTGGCCGTGGTTCTGCGCCGCTATGGACGTGCTCTGGAGAGCGTCTTAAAAGTTGGTAACGTCAAAATCAACCGGAATGACTTTGAGGTCATCATTAATGATGAAACGATCCTCTTTCCTTTAAAAGAATTTGAGCTTCTCACAATGCTCGCAACCCGGGTAAACAAGGTCACACCTCGGTCGCTGCTGCTCGAACAGGCATGGGGCGAAAATTATGAGGGGCATGAGATGACGTTAAATACGCATATGAACCGGATCCGCGAACGGTTGAAGCGATACGGCGCGGCAGTCGAAATCCAAACGATCAGGGGCATCGGCTATAGATTAGAGGCTGTTGAATGA	MKILVVDDDYDILQLVTIHLTREGYEVLQAQNGQYALKLLEETEVNLAIVDVMMPGMDGFSLTKILTKELEIPVILLTAKGQLSDKEQGFRSGSEDYLVKPFEPKELLFRVAVVLRRYGRALESVLKVGNVKINRNDFEVIINDETILFPLKEFELLTMLATRVNKVTPRSLLLEQAWGENYEGHEMTLNTHMNRIRERLKRYGAAVEIQTIRGIGYRLEAVE	PGPT0028965_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
AK002_03183	2118	apeX_1	COG2409	Apo-petrobactin exporter	TTGAGAAAAATACTAAGTCCCATCACCGACTGGGTATCAACCAAGCGGGGGATGTGGATTACCATTGTGGTCTGGCTGGTAGCCATGATCGGCTTAAGCGCAGGCCCAAGGCTGAGTGAATACAAGGTGACTAACTTTCAGTCACTCCCTGATGAGGCACAATCCATCATAGCGGAGAACAAATTGGAGGAAAATTTCCCCAATCAGCAGGGAGCGCCAGGCATTCTCGTATTTCATAACGAGTCAGGCGCCATCCATGTCAATGAAGTTAAACAGATCTTGAAAGGCATTATTTCGGCAGATATCGAAGGGGTCGATTCCATTGTCGATATCAGCGCACTGCCGCCACAGGCACTGGCAGGCTTCACATCGGAAGACGAATCCACCATAATAGTCCCGATGAGTCTTGAGGCTGGACTTGGCAACAGCGAATACTCCGAAATTAATGATAAGGCCTCAGAGATCGGCAATGAAATTGCGAAGGATCTCGACACCATATTTTATATTACGGGACCCGCCGGAATTGCTGGTGATACGGTCAAGCTGTTCGAGCAGGCTGACGTTGTCCTGCTGTTGGCCACGATTGGCATCATCCTGATATTGTTGATTGTCATTTACCGTTCCCCGCTGCTGGCGATTATTCCGCTGCTGGCCACCGTCATTGTATATCAGGTGGTGAATCAATCTGTAGCTTTGATGGGCGCAGCCGGACTCGAGATTAATAACTCGACGACCTCTATAATGAGCATCCTGCTCTTTGCGGCTGTAATCGACTACTCGCTGTTCGTATTTTCGCGCTACCGTGAGGAACTGAACAAACATGAAAGCAAATATACCGCTATGCAGTACGCCATGCGTGCAACCGGAGAGCCTGTGTTTTTTGCCGGCGGTACCGTGCTGGCAGCCATGCTTATTTTATTTTTCACAGACTTCCGTGATTATCAGAACTTTGCACCGGTGTTCGGGCTGGCCATGTTTATTATTATGCTGGCTTCTGTGACCTTGGTTCCAGCCTTGTTTACTCTGTTTGGTCGTAAGGCATTCTGGCCTAAGGTACCTAAATACGGCCAGGAGCATGAGATCAAACACAGGATATGGGGGCCAATCGCCAAATTTGTAGTGAACAAGCCGCTTTTAACAGGCGGAATCGTTGTTGTCTTTATGATTATTACGGCGCTGAATGTGTTCAACCTGAAATATGAGTTTGACACCGTTAAAAAGTTTCCTGAGGATTTACCTTCCCGCGTCGGTTACGAGATTGTGGAATCCAAATATAACAAGGGAGAGCTTGCACCTTCCACTGTCCTTCTGGAATCCGAGACGGCACTGTCCGAAGATCAGATCGGCCAATTTATAGAGAAGCTGAACAGCCACGAGGAAATCAGCTCGGTACGTTCGTCCGGCATCAAGGAGGATTATACTGCGGCCAAGTTCAGCGTCGCGCTGACCATGAATCCGTATTCTACCGAGGCCATTGATTTTGTCGAAGAGCTTCGGTACCAGTCCGATGCCATACTAAACGAATTGTCCTTACAGGGAGATGTTTACTACGGCGGCGTGACAGCCAAACTAGTTGATGAGCGAGCTGTTAACAATAGTGATATTATCAAGGTGGTTATTTTAGAAACGATTCTGATTCTGGTACTGCTTATCGCACTCACCCGTTCATTAAAAATGTCGATTTACATGATGGCGACCATCCTGATATCTTACGTATCCGCTCTGGGGCTCGGCCTGTTCCTGGTGGATGCTCTGTTCGGATACGAATCCATCAGCACCCGGGTTCCGGTGTACGCGTTTATTTTCCTGGTGGCGCTCGGCATTGACTATAACATCATTATGATTTCCCGTTTCCTCGAAGAGCGAAAAACGAAGAATGTAAAGGAAGCTCTTGAAGTTGCTATTCGTAATACAGGCGGCGTCATTTCCTCGGCAGGTGTCATATTAGCCGCTACATTCGCGGCTCTGACAACGATGCCGATTGCGGATCTTTTCGTGTTCGGGTTTATGGTGGCGATCGGTATACTCATAGATACATTCCTCGTCAGAGGGATGCTGCTTCCATCCTTAATTTTGTTCTTTGAAAAAGATAAGGATCCGCAAACACGTTCATCTTAA	MRKILSPITDWVSTKRGMWITIVVWLVAMIGLSAGPRLSEYKVTNFQSLPDEAQSIIAENKLEENFPNQQGAPGILVFHNESGAIHVNEVKQILKGIISADIEGVDSIVDISALPPQALAGFTSEDESTIIVPMSLEAGLGNSEYSEINDKASEIGNEIAKDLDTIFYITGPAGIAGDTVKLFEQADVVLLLATIGIILILLIVIYRSPLLAIIPLLATVIVYQVVNQSVALMGAAGLEINNSTTSIMSILLFAAVIDYSLFVFSRYREELNKHESKYTAMQYAMRATGEPVFFAGGTVLAAMLILFFTDFRDYQNFAPVFGLAMFIIMLASVTLVPALFTLFGRKAFWPKVPKYGQEHEIKHRIWGPIAKFVVNKPLLTGGIVVVFMIITALNVFNLKYEFDTVKKFPEDLPSRVGYEIVESKYNKGELAPSTVLLESETALSEDQIGQFIEKLNSHEEISSVRSSGIKEDYTAAKFSVALTMNPYSTEAIDFVEELRYQSDAILNELSLQGDVYYGGVTAKLVDERAVNNSDIIKVVILETILILVLLIALTRSLKMSIYMMATILISYVSALGLGLFLVDALFGYESISTRVPVYAFIFLVALGIDYNIIMISRFLEERKTKNVKEALEVAIRNTGGVISSAGVILAATFAALTTMPIADLFVFGFMVAIGILIDTFLVRGMLLPSLILFFEKDKDPQTRSS				NA	NA	NA	NA	NA
AK002_03184	384	adhR_1	COG0789	HTH-type transcriptional regulator AdhR	TTGTTGACTATAAGGGAAGTTACTGAATTGACAGGGATGGCGGCTCCCACACTTCGATACTACGAGAAGGAGGGGCTGCTTCCACATGTGAAGAGAAATGAAAATGGGAAGCGGTTATATGACGAAGATGATATAAGCTGGATTCACTTCGTTACTGCGCTTAGAGCTACAGGAATGCCGATTGCTCAAATTCAGAAGTATGTATATTTGTATAAGGAAGGGGATTCGACGATTTCGGAACGAAAAATGATGATGCTTCATCATAAAAAAGAAATTGAGAAAAGCATAAAGGAACTTTATATTAACTTGGATAAAATAAACTATAAACTTGCTCTATATGATGTAATAGAATCTCAGATTGAACGAACCAACATCAAAATTTGA	MLTIREVTELTGMAAPTLRYYEKEGLLPHVKRNENGKRLYDEDDISWIHFVTALRATGMPIAQIQKYVYLYKEGDSTISERKMMMLHHKKEIEKSIKELYINLDKINYKLALYDVIESQIERTNIKI				NA	NA	NA	NA	NA
AK002_03185	756	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAATAATATCTCAATCGTCACCGGTGGTAGCCGTGGACTTGGTCGCAATACTGCCATCAGTATTGCGCGTCATGGCGGTGATGTCATCTTGACCTATCGTAGCCAAGCAGAAGAAGCAATGTCTGTTGTTGCTGAGATCGAATCTTTGGGTCGCAAAGCAGTGGCATTACAACTTGATGTTGGTAATATTGCCAGCTTTACGGCCTTTGTTGAGACAGTTCGTTCGACCCTGCGGTCTACTTGGGATAGTGCCACTTTCCATCATCTGGTGAATAATGCTGGCCACGGAGAAATGATAGACTATGCCGAAACTACAGAAGCTCAGTTCGACGGCCTGTTCAATGTGCATGTCAAAGGCGTATTTTTCTTGACTCAGGCTCTTCTGCCGCTTCTTGCAGATGGTGGTCGTATTGTGAACTTCTCATCGGGACTCACTCGCGTCTCTTTTCCTGGATTCTCCGCCTATTCTGCCGCAAAGGGCGCGGTCGAGATTCTAACCATCTATTTGGCCAAAGAACTGGGTCACCGAGGTATTACCGCTAATACCATTGCACCTGGAGCAATCGAAACCGATTTTCTGGGAGGTTCTGTACGTGACATACCTGCTTACAATGACACGTTTGCCTCGATGACTGCCCTTGGTCGAGTCGGCGTACCCGAGGACATTGGTCCTGTAGTGGCCAACCTACTAGGATCCGACAATCGCTGGGTTAATGCGCAGAGAATCGAAGTCTCGGGTGGTCAGAACATCTGA	MNNISIVTGGSRGLGRNTAISIARHGGDVILTYRSQAEEAMSVVAEIESLGRKAVALQLDVGNIASFTAFVETVRSTLRSTWDSATFHHLVNNAGHGEMIDYAETTEAQFDGLFNVHVKGVFFLTQALLPLLADGGRIVNFSSGLTRVSFPGFSAYSAAKGAVEILTIYLAKELGHRGITANTIAPGAIETDFLGGSVRDIPAYNDTFASMTALGRVGVPEDIGPVVANLLGSDNRWVNAQRIEVSGGQNI	PGPT0003180_8318	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
AK002_03186	939			hypothetical protein	ATGGAAAACTCTGTAGTTAGACTAGCAGAACGAATTGCAAGCGATTTTCTTCTGGAACAAGTAAAATCTTCATATCAGATCTTAGGCAAGGGCATCACAAATCAGGTTTGCGTAGTTGAAACGGAGAGTCGCAAAGTTGTTGTCCGCATGAACGATAAAGATACATTTCCAAGCTATATTAAAGAAAAATGGTGTATCGAGCAAGCAGCCGCAGTTGGCGTTCCTGGACCTGAGGTATTGTTCATTGGTATAGTTGATGAAACCGCTTATATGATCCAAGCATTTATTGAAGGGGACAACGGGCTAGACAATACTGTTCCCACGTCCGATGTTTGGAGGAAACTGGGCGAATATGCCAAGCTTATTCATTCGATCCAAGTGAAGGGATACGGAGGTAATCTGATTGATCCACTCCAGGGTGATTTTCAATCACCTTCTCATGCCGGATCAGACGGCAGTTGGCAAGGGTATGTGCAGTATAATATCAATAGTTTGACAGAGGATGACCCCTTGATTGAGCTTGGAGTAATCACTCAGATGGAATCGCAGAAAGTAAGAAAACTGTTTGAAAATTTGAAGAGTGAACCGTTCCACTTCGGTTTAAACCATGGGGATATCTCTTTAAAGAATACGATTGTCAATCAGTCGAGCCAAGTTATATTGCTGGATTGGAATGCAGAAGTTAACGTGGTACCGCATGCAACTGTTGCACAATTAATGCATTACCAAATCCTGGGATTAGAAGAAAGCGCAAGTGTTGAGGAATTCAAAGCGTTCATGGACGGGTACGGAATAAGTGAAAAAGACCTTTCTGAAACGAGGCATTTGCTGCTATTAAGGGCTTTCGATAATCTCAGGTGGGCTATTGATCGGAGTCCTGATCTGATCGAACCCTATGCTGCTTTTGCGAAACAAGTCATTGACATGATTATGGATTAG	MENSVVRLAERIASDFLLEQVKSSYQILGKGITNQVCVVETESRKVVVRMNDKDTFPSYIKEKWCIEQAAAVGVPGPEVLFIGIVDETAYMIQAFIEGDNGLDNTVPTSDVWRKLGEYAKLIHSIQVKGYGGNLIDPLQGDFQSPSHAGSDGSWQGYVQYNINSLTEDDPLIELGVITQMESQKVRKLFENLKSEPFHFGLNHGDISLKNTIVNQSSQVILLDWNAEVNVVPHATVAQLMHYQILGLEESASVEEFKAFMDGYGISEKDLSETRHLLLLRAFDNLRWAIDRSPDLIEPYAAFAKQVIDMIMD				NA	NA	NA	NA	NA
AK002_03187	606			hypothetical protein	ATGAGCCTATCGGCAACAATCAGCAATTTGGAAAACGGCAAACATCAGCACATCGTCGTTTATGGAACGAGTCTAACCGAAGGCGGCGCTTGGGTCAGCGGATTAAAGGAAATTCTGGATCGCCGGTTTCCGGGACAAGTTAAGTTGACCAACAGCGCCAAAGCTGCACAATGGTCGGGCTGGGGACTTGAACATTTGGAGGAACGTGTAATCGCTTTCGCTCCCGACGCCGTTTTTCTGGAATTCGCTATAAATGACTCGTATTTGCCTTATCAGACGAGCATTACGAAATGCGGTGAAAACCTGAATGCTCTTATTGATCGATTACGTGCTGCCAACAAGAATTGCGAAATTCTGTTGATGACCATGAATCCGCCGGTTCGGGAACACCTAGAAATTCGTCCTCTGATTGAGCAATATTATCAGGTGTACAGAGATACGGCTCGCTTGCGCGGACTTTTGCTCATCGATCATTACCCGGTTTGGCGGAGAATGTTAGACGAGAACCCCGCCGAATTCGACCGGCTTATTCCGGATGGAATTCACCCTTCGGACGAGGGCTCGACTACAATAACGCTTGCCGAAATCGAGAAGACCTGGTTGTAG	MSLSATISNLENGKHQHIVVYGTSLTEGGAWVSGLKEILDRRFPGQVKLTNSAKAAQWSGWGLEHLEERVIAFAPDAVFLEFAINDSYLPYQTSITKCGENLNALIDRLRAANKNCEILLMTMNPPVREHLEIRPLIEQYYQVYRDTARLRGLLLIDHYPVWRRMLDENPAEFDRLIPDGIHPSDEGSTTITLAEIEKTWL	PGPT0001840_2297	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
AK002_03188	900	rcsC_11		Sensor histidine kinase RcsC	ATGATCTATGTAACGATCACTGCAGTTCTGCTAATGTTCATTTTTCTCCTTCGTCTTGCGTGGATCAAGAAAGAAATGAGACGTTTATCGGTCCAGGTCGAACGCTTTCATCAAGGCTTGAGCGGGAAGAAGGTCGATATTGCTTTACTGGACAAAGATATCGAAGAGCTCGCTGGAAATATCAATCAATTAATCGATCTGGCGGTCCAGTCGAACAGGGATCGAATACGCAGTGATCGCGAATTGAGACAAGCGATCGCTAATATGTCCCATGATTTGAGAACACCGCTAACGGCTATTATCGGATATACCAAATTATTGGAAGTCAGTTCTGTCACGGACGAGAAACGACAGGAATATATGTCTATTATCAGAGCCACTGCTGATCGATTACATACCTTACTGCATGAGTTTTTCGAGTTGTCTCTTGTGCAATCTACAGAGTATCACCTTAAGCTTGAACCGGTACAAATAAATGCATTGTTGTGGGATGTGTTGACCGGTTTCTATGATCAATTTATTGAGAACCAAATAGTACCGGACCTTCAAATAACGGATGAACCGCTCATTGCCGACGTGGATCAGTCAGCAGTCGAACGTGTATTCGAAAATTTAATCAGTAATGTGATCCGTCATACGACAGGCAATGTAGCGATTAGTTTGAAGGAGAATGAGGGGAATATTCTGCTTATCATCAGGAATCAAGCGGACAACTTAAGCGAGAAAGACATAGACAAACTGTTTGATCGCTTCTACACAGCGGATCGGTCAAGATCGAGCCGCAGAACTGGTTTGGGGTTATCCATTGCTTATAGTCTCATGTTAAAGATGAACGGGCGATTGACTGCTAGGCTCCAAGATGGATGCTTGGAGATGAGATGCGAGTGGAAGCGAAGCTGA	MIYVTITAVLLMFIFLLRLAWIKKEMRRLSVQVERFHQGLSGKKVDIALLDKDIEELAGNINQLIDLAVQSNRDRIRSDRELRQAIANMSHDLRTPLTAIIGYTKLLEVSSVTDEKRQEYMSIIRATADRLHTLLHEFFELSLVQSTEYHLKLEPVQINALLWDVLTGFYDQFIENQIVPDLQITDEPLIADVDQSAVERVFENLISNVIRHTTGNVAISLKENEGNILLIIRNQADNLSEKDIDKLFDRFYTADRSRSSRRTGLGLSIAYSLMLKMNGRLTARLQDGCLEMRCEWKRS				NA	NA	NA	NA	NA
AK002_03189	765			hypothetical protein	ATGATTAATTTATTACGTGCGGAGCTGTTCAAACTCAGCAAGAATAAAGTATTCTGGACACTGACCATCACGGTAACCGTTGTTTTTGCCCTCATGCACTATTTAATCACCATCGGATGGTGGAAGATGAATAACTTGTTCATGGATGCGGGACTGGAGCAGTTCTCATCCCTTGCGCTGGCTACAACCCCGTTCTACTTCATGTTATTCTTGTGCACATTGGCCGGATTTTTTGTTGCGAATGACTTTACAATAGGGGTCGTCAAGAACATGGTCATGAGCGGGAATCGCAGAAGTCATATCTTTTTAGCTAAGCTCGTCATATTGGCACTCGGTTCCGTGATTCTGGCTGTGGTGTGCCCGTTAATTGTAATCATGGGCGGAAAGCTATTGTTTGGATTTGGCGAAATGACAAACCCGTCGGCATTGGGCTACTTGGCAAGAGCACTGGGTTTGTTCCTCATTCATTTGATGGCCCTCGTTGCCTTGTTGATGCTGATCGCGCTGCTTGTGGAAGATAGCGGGAAAACCATTATAATCTCCGTCGTAATCGCATTATTCATTTCCGTAGCAGAAGTTCTGAGACCGCTACCGGGGATCTTGGAAACATTGTATCATTATTCGATATTCCATCATCTTATTGATTCCTTCCGAATCAGGACGTCCGACGCTGATATTATCCAGTCTTTGTCGGTTGGAATAAGCACCCTTCTAGTTCTGATGTTGTGCGGGAATTTGGTGTTTAACAGGAAAGAGATTAAATAA	MINLLRAELFKLSKNKVFWTLTITVTVVFALMHYLITIGWWKMNNLFMDAGLEQFSSLALATTPFYFMLFLCTLAGFFVANDFTIGVVKNMVMSGNRRSHIFLAKLVILALGSVILAVVCPLIVIMGGKLLFGFGEMTNPSALGYLARALGLFLIHLMALVALLMLIALLVEDSGKTIIISVVIALFISVAEVLRPLPGILETLYHYSIFHHLIDSFRIRTSDADIIQSLSVGISTLLVLMLCGNLVFNRKEIK	PGPT0006730_19746	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03190	924	bcrA_4		Bacitracin transport ATP-binding protein BcrA	GTGAAGGAATCTGTTTTGACAACGATCGACTTGACAAAGAAATACAAAGAACAGACTGCCCTTGATCGTGTTAACATGGTTATCGAAAAAGGTGATATATACGGTTTTATCGGGCAGAACGGGGCAGGCAAAAGTACGTTGCTGCGCATGGTGACCGCGCTGGCCCGGCCAACGAGCGGAACCGTAAGCTTGTTCGGGGAAAGCAATGAAGCGGGGTTGATTGAAGCCCGAAAGCGCGTAGGAGCGATCATTGAAAGCCCGGCATTACATCCCGATATGTCGGCCCACGATAATCTGGAAGTCCATCGATTGCTCCGGGGGATCCCTGGCAAGGCGTGCATAGCGAAGACGCTTGCGCTCGTCGGACTGCAGGATACGGGGAAGAAGAAGGTAAAGAACTTTTCACTCGGCATGAAGCAGCGATTGGGGTTGGCTATCGCCTTGCTGGGTGACCCGGAGCTGCTTATACTCGATGAACCGACGAATGGCCTTGACCCAGGAGGCATCGTGGAGCTTAGAGAGCTGGTCAAGAGGCTGAATCGCGAGATGGGACTAACGATTCTGATTTCCAGCCATATCTTGAGCGAGCTTCATCAGATGGCAACGAAGTACGGCATTATTCATAGAGGCAGACTGTTAGAGCAATTGACCCATGAAGATTTAAATGAGAAGTGCAGACAGCATCTTCGTATCCGGGTCGATGATCCAAGCAAGGCAGCAACGGTTCTCGAAATGGAACTGGGCACACCCGATTATGAAGTTTTGCAGGATGGCACGATCAAGCTTTACAGCCTCGATCACGATGTCAGAAGGGTATCAATGGCTTTGACAAGCAGCGGTCTGGTCATCGAATATTTTGCGCCAGGCGGGGATGACTTGGAAAGTTATTTTACCAAACGGGTCGGGGGAGAGCTTCATGATTAA	MKESVLTTIDLTKKYKEQTALDRVNMVIEKGDIYGFIGQNGAGKSTLLRMVTALARPTSGTVSLFGESNEAGLIEARKRVGAIIESPALHPDMSAHDNLEVHRLLRGIPGKACIAKTLALVGLQDTGKKKVKNFSLGMKQRLGLAIALLGDPELLILDEPTNGLDPGGIVELRELVKRLNREMGLTILISSHILSELHQMATKYGIIHRGRLLEQLTHEDLNEKCRQHLRIRVDDPSKAATVLEMELGTPDYEVLQDGTIKLYSLDHDVRRVSMALTSSGLVIEYFAPGGDDLESYFTKRVGGELHD	PGPT0006725_11792	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03191	1452	dap_3		D-aminopeptidase	ATGAAAAAGATTTTAATCGCAATAATAGCAACAATAACGCTTTTGGCCCCGTTTCTGTATTTTCCTCCGTCAACCCATGCCGCGTCTGTTCTCGACAAGGGCGCAGTGGACGACTATGTTGAACGTTATTTGAATCGAAACGGGCTGCCAGGCGCCTCGATTGTTATCGTCAAGGATGGCGGGATCGTCCATGCGCAAGGCTATGGGCATGATTCCGAAGGAAAACCCCTGACGGAGCATTCCTTACTAAGAATCGGTTCCGTCTCCAAATCATTTACCGCCTTTGCCGTACTGCAGCTCATAGATGAAGGAGCTTTCGGACTGGACGATCCGATCGTCCGGCATTTGCCCGACCTGAAGATGAACGACCAAAGAGTCGGTCAAGTCACCATCCGCCATCTGCTTAGCCATACTTCCGGAATATCCAACCCGACCATCGTGTCCAAGGCGGATACCTTGGAAAAAGGCGTCAAGCGTGTGCACCAGTGGCAGCTACAGTCCGATCCCGGTGAGGGGTACTCCTATAGCAATGCGAACTATTGGATCCTGGCATGGCTGGTGGAGAACGTAAGCGGCATGGAGTTCGCTGCGTATCTAGACACGAAGGTGTTCTCTCCGCTCGGCATGGACGATTCCCTCTCGCCCGTGAACTCTGGCGATTCGGTTCCCGGGCTGCCGCACGGGTATGTCACGGCCTTCGGAACGGCAATTTCCATATCCGAGATGGAACGAATGTTCACCGGTTCGGGGGGAATCGTAACGACAGCGGCGGATATGGGAGAATGGCTTGCGATGCACACCCGTAACGGCGTAAGCGCATCCGGAGAAAGATTATTATCCGAATCCTTGCTGGGGGATTCCTATTCCCCGCAACCCGGAAGCGAGCATTATGGACTAGGCTGGTCGCTCAGCGCTTCGGATATCGCGCCGAAACGCGTGCAGCATAGCGGAGCCTTATCCAGCTATCAGGCTCAACAAACCATCGTACCAGAGAGCGGCTATGCAGTAGCGGTCATGCTTAATAGCTTCACCACCACTTTCGAGCATGCGTATGCGATAAGCGACGGCATTATCCGACTCACCGAAGGACAAGCGCCCACAGTGAAGACACCAATACCGACAATTATTGATTTCTCCGTTGGATTGCTGACGTTGCTGTATGCTGGTTTGGGAATCAGAGGGATCCTGTTCGGCAAGAAGTGGTCCGATCGACGCCGACACTATTCAGCTCTACGCTATTATCTGCGGTTAATCCCGCAAATCATTCCGATCGCGGGGATCGGTTGGTTACTGTTTATCGTCCCGGAATTGCAGGATAACAGTACGACGATCCTGGATGTATTCCGCCTGTGGCCGGCCTTGGCGATTCTATTGTTCGTCATCTTCCTATGTGCCGTGTCCATCACCGGGACACGAATGTATCATCGGATCAGAGGGGGTATCTCCCAGTGA	MKKILIAIIATITLLAPFLYFPPSTHAASVLDKGAVDDYVERYLNRNGLPGASIVIVKDGGIVHAQGYGHDSEGKPLTEHSLLRIGSVSKSFTAFAVLQLIDEGAFGLDDPIVRHLPDLKMNDQRVGQVTIRHLLSHTSGISNPTIVSKADTLEKGVKRVHQWQLQSDPGEGYSYSNANYWILAWLVENVSGMEFAAYLDTKVFSPLGMDDSLSPVNSGDSVPGLPHGYVTAFGTAISISEMERMFTGSGGIVTTAADMGEWLAMHTRNGVSASGERLLSESLLGDSYSPQPGSEHYGLGWSLSASDIAPKRVQHSGALSSYQAQQTIVPESGYAVAVMLNSFTTTFEHAYAISDGIIRLTEGQAPTVKTPIPTIIDFSVGLLTLLYAGLGIRGILFGKKWSDRRRHYSALRYYLRLIPQIIPIAGIGWLLFIVPELQDNSTTILDVFRLWPALAILLFVIFLCAVSITGTRMYHRIRGGISQ				NA	NA	NA	NA	NA
AK002_03192	696	mprA_1	COG0745	Response regulator MprA	ATGAATGGAACTATAAAAATATTGGTTATCGAAGATGATAATGAAATTAACCAGTTATTATGCGAAATCATAACCAATAGCGGATACGTACCGCAGCCGGTTTTTTCCGGCACAGAAGCATTGTTGTATTTGGCCAATGATCGGGAGTGGAGCATGGTATTGCTCGATCTGATGCTTCCCGGTCTTGCCGGGGAAGAAATCCTTCGGAAGTTGGGTCCGGATCGCCGCCTGCCGGTTATCATTATATCGGCCAAAAACGAGCAGCAGTCCAAAGTCGCCGTGCTAAGAATGGGAGCGGACGACTACATTACTAAGCCATTTGATGTGGAAGAGGTAGCGGCCAGACTCGACATCCATCTCCGCAGATATAGACGTGCAGCAGAACCCGATCTGATCCGTCAATTGACGTACAAGGACATTCATTTGGATAGCGATACGAAGGCGGTCACGGTTAACGGTTCCGGTGTGGTGCTGACTGCGAGGGAATTTACGGTGCTGGAACTCCTCATGTCTTATCCGAAGAAAGTATTTACAAAGCAGAATCTATTTGAAGCGGTGTGGGGAGACGCCTACTTGGGTGATGACAACACAATTACGGTACATATGAGCAACTTGAGAAAGAAGCTAGCGCAGGCAAACCCGGAGGCCGAGTATATTGAGACTATATGGGGTATGGGATATCGGTTGAGAGGATGA	MNGTIKILVIEDDNEINQLLCEIITNSGYVPQPVFSGTEALLYLANDREWSMVLLDLMLPGLAGEEILRKLGPDRRLPVIIISAKNEQQSKVAVLRMGADDYITKPFDVEEVAARLDIHLRRYRRAAEPDLIRQLTYKDIHLDSDTKAVTVNGSGVVLTAREFTVLELLMSYPKKVFTKQNLFEAVWGDAYLGDDNTITVHMSNLRKKLAQANPEAEYIETIWGMGYRLRG				NA	NA	NA	NA	NA
AK002_03193	438			hypothetical protein	ATGCAGGACCTTAGAAACGAGAGACAAAGCGGAGTTGCCAAGGCGTCTCAACAGCACGCGGTGTGTAGTGCTTGCGAATATAATCGACAGCTTTATGATTTGGTAAGCCATCAATCACAGCGAGACAGGCTAATGCAGTACCCGTTCGTCCAATCCCTCCCCCGCAGGCGATTTCAACCCGTTCAACTTCAGAGCGAGTCCATGCTTCGCGAAGCGCGTCGGCGGCTGCAAGCTTGTTTTTTGGCAGCCAGAAGTCCGGCCAAGGAATCCAGCGGCTATCCCAGGCAACCGGCGCTGGTGGTCGCCCGAGCAGATAGAGTGCAAAAGTGGGCTCAAGACCTTGGGGAAGAGGATGCCTTAGTGCTCGGCCGCGGACAAGTCGACCTGAAGGAAGGCGCAGCACGCCTGGCGATTCGGGGTTCCAGGTATCATTCATAA	MQDLRNERQSGVAKASQQHAVCSACEYNRQLYDLVSHQSQRDRLMQYPFVQSLPRRRFQPVQLQSESMLREARRRLQACFLAARSPAKESSGYPRQPALVVARADRVQKWAQDLGEEDALVLGRGQVDLKEGAARLAIRGSRYHS				NA	NA	NA	NA	NA
AK002_03194	2262			hypothetical protein	ATGACGAATAACCAATATATTAAAGCTTTTACGACAATATCATTTATATTCTTGTTTGCTTTTATCAGCCTTTATATCATTGTTCCTCCAAGTCCAGATAAGAAGACGGATATCTCGAAAAATTTCTCCGCGGATCGAGCTGTCCAACACTTAAATCACTTAGCAAAGACTGCTCATCCAAGCGGATCAGTAGAAAATGAAAAAGTAAGAAATTATCTTGTAAAACAACTAAAATTAATGGGACTACAACCAGAAATAGAGCATTCCAATCATGCTTCTCTGTACCCCAAAATGTTAACTGGCGGAGATATGTACAACGTCCTTGTTAAACTTGAAGGTACTGGAAGTGATCATGCAATGATGATGTCTGCACACTATGACTCCGTTCAACAAGGACCAGGAGCTAGTGATGATGGAAGCGGAGTAGCCGCTTTATTAGAAACCATACGTGTATTAAAATCAGCTCCTCCTTTAAAGAATGATATCTATTTTGTGTTTACGGATGGTGAAGAGCAAGGACTAATGGGAGCAAAGGAATTTTGGACGAAATCAAAGCATAAACAAAAAATGGATCTCATCATTAATTTCGAGGCAAGAGGAACAAGTGGTCCGTCGATCATGTTCCAAACCAGTGATGAAAACGGTTGGATGGTAAAAGAATTTGCCAAAGCAGCCCCACGTCCCGTTACCTCATCCTTACTAGGAAATCTATTTGAAATCATGCCAAACGACTCGGACCTAACGGTTTCCAATGAAAATAAAATACCCGGACTGAATTTTGCGTATGGTGATGGATGGACCGAATACCATACACCAATTGATGATGTCAAACACCTAGATATACGTTCGTTAGAGCACCAAGGGCGAAACGCCTTAGCAATGGCTAGGCACTTCGGTCAATTGGATTTACATGATATTAAGAAAGAGAATGCAGTGTATTTTAACTTTTTTGGCGTCGTCATTTCCTACTCCTATTATTGGGTCTATCCCCTTACAGGACTGATTCTGCTTTTATATGCAATGGTTACGATCCTTGCAGTCAAGAAAAAGTGCGCCACTTACAAAGGGTTAGGAATAAGTTTGCTAGCAATCCTGTTAGCTGTCATTTCTTCGATCCTCGCAACGGTACTGATTTGGAGGGGGGTAAACGCTTTTTGGGCTGAAAAAATGACCTTATTTAGTGGCGCAATATATGACAGCTCTTTTTATCAGTGGGTATTTCTATTAATCACTGCTTCAATCTGTCTCCTGATCTGGAGGAAATTTCGTTCGGTAAATGAATGGGAAATGACTTTGTCCGCAATCTTTCTTGGTGTCCTATTTCTCATCTTGTTAACACAATTTCTACCAGGTGCTAGCTATCTGTTTACTTGGCCATTACTTGTATCCCTATTGATGCTTGGGTGGGGAGTATGGAAGAATAAAATGGATACAATAAGCACCAATACATGGATGTTATCCCTTACATCCTTCTTACCAGTAGTACTGTTCGTCCCACTGCTTAAGTTACTGTTTACCTTTTTTCCGGTTAGTTTTGTACCTTTTCTCATGTTACTTTTGGTTTGGCTCTTAGCTTTGTTATTCATGCAAAGTAAACAGCTAATCCAATTAGGACAATGGGTGCCTTATACCCTGTTAGGAATCGCGGTAATCATATTATCGATTAGTTTTTTCAGGGCTAACCCAAGCGCAGATCTACCTATAGATAGTAACTTATTCTATGTCGTGGATCAGGATAAAAAACAAGCACAGTGGGTTACAACCCAGCCACCAGATGATTGGACGAAGAAATATATAGCTTCAACGAATATATCCAATATTAAATCTATCTTACCGTTTAATTATGATAAAAAAGCATGGGTAGGAATTGCACCTGTACGAAACTATCAAATGCCACAAATAAAGCTAGTAAATAGAGAGACAAAACAAGGAAATAAAATCATTCATTTTCGATTTACAGGTGGAACCGATGTGCAAAACATGTATCTGTCCATACCTGGTGGTCGCGTTCAAAAAATAAAAGTTGGTGAAGAAACCTTTACCATAGCTAAATCAATGGAAACTTTTTATTACAAACAAGCAGGTATTCCAAAACAAGGTTTGGATGTCTTTGTAGAAATTAAAGGGAATCAGCCTGTAGAGTTTACATTTGGTTCTGAACAACATCCGGATCCAGAAATTCGTTCCAAACGTCCGCCACATCTAATTACAAGTGGACTGTTTGACGAAAGTATTTTTGTGATTAAACGTGTAACTTATTAA	MTNNQYIKAFTTISFIFLFAFISLYIIVPPSPDKKTDISKNFSADRAVQHLNHLAKTAHPSGSVENEKVRNYLVKQLKLMGLQPEIEHSNHASLYPKMLTGGDMYNVLVKLEGTGSDHAMMMSAHYDSVQQGPGASDDGSGVAALLETIRVLKSAPPLKNDIYFVFTDGEEQGLMGAKEFWTKSKHKQKMDLIINFEARGTSGPSIMFQTSDENGWMVKEFAKAAPRPVTSSLLGNLFEIMPNDSDLTVSNENKIPGLNFAYGDGWTEYHTPIDDVKHLDIRSLEHQGRNALAMARHFGQLDLHDIKKENAVYFNFFGVVISYSYYWVYPLTGLILLLYAMVTILAVKKKCATYKGLGISLLAILLAVISSILATVLIWRGVNAFWAEKMTLFSGAIYDSSFYQWVFLLITASICLLIWRKFRSVNEWEMTLSAIFLGVLFLILLTQFLPGASYLFTWPLLVSLLMLGWGVWKNKMDTISTNTWMLSLTSFLPVVLFVPLLKLLFTFFPVSFVPFLMLLLVWLLALLFMQSKQLIQLGQWVPYTLLGIAVIILSISFFRANPSADLPIDSNLFYVVDQDKKQAQWVTTQPPDDWTKKYIASTNISNIKSILPFNYDKKAWVGIAPVRNYQMPQIKLVNRETKQGNKIIHFRFTGGTDVQNMYLSIPGGRVQKIKVGEETFTIAKSMETFYYKQAGIPKQGLDVFVEIKGNQPVEFTFGSEQHPDPEIRSKRPPHLITSGLFDESIFVIKRVTY				NA	NA	NA	NA	NA
AK002_03195	867			IS3 family transposase ISBth8	GTGACGAGTAAAGCTGCTAGATTTCAGATCATAGAGGACTTGCGAGTACGCCATCGTCTTGTTTGGCTCTTGAAGTTAGCCGCGGTTTCCCGTTCAGGCTATTACAAGTGGAGAAAGAGCTTGCAAGCGGCAAAAGAACGTAGACAAAAGCAGCATGAATTGGAATCCCATCTGCTTGCCATCCATCGCATTCATCCCTACTTTGGTTATCTTCGAATGACGGTAGCTTTACGGAGGGAAGGCATTAGGGTCAACCACAAAAAGGTGTATCGATTAATGAAACAATTAGAAATCTGTTCTGTCATTCGGAAGAAGCGTCGATTCTTTGGAAAACAAGCTTCCGTGGTGAATCCGAATCGGCTTCAACGCCAGTTTAAGGCGGATACGCCACGAACTAAACTGGTCACAGATATTACCTATATTCGTGCTGGAGAACAATTTGTGTACCTGTCTGTGATTCAGGATTTATACAATAACGAGATTGTAGCTTGGCATTTATCGGAACGAAATGACCTCGCTTTGGTTCATGAAACGCTGGATAGACTCCGTCAGCACGTGGATGTGAGTGGGGTAATCCTACACTCAGATCAAGGATTTCAATACACGTCAAAACCATTTAACCGTAAACTGAAACAACTCGGCATGCTAGGCAGTCACTCTAGGCGAGGAAATTGCCTGGACAATGCCTGTATCGAGTCTTTCTTCTCTCATTTGAAGAGCGAGAAAATATACTTGAATGAGGCAGCAAACAAAGCTGAGGTTGAACAGCAAGTGAGTGAATACATTCTGTTCTATAACCAGAACCGATTCCAGAAAAAATTAAACGACCGTTCCCCGGTAGAATACCGGGAAACGGCCGCAGCTTAA	MTSKAARFQIIEDLRVRHRLVWLLKLAAVSRSGYYKWRKSLQAAKERRQKQHELESHLLAIHRIHPYFGYLRMTVALRREGIRVNHKKVYRLMKQLEICSVIRKKRRFFGKQASVVNPNRLQRQFKADTPRTKLVTDITYIRAGEQFVYLSVIQDLYNNEIVAWHLSERNDLALVHETLDRLRQHVDVSGVILHSDQGFQYTSKPFNRKLKQLGMLGSHSRRGNCLDNACIESFFSHLKSEKIYLNEAANKAEVEQQVSEYILFYNQNRFQKKLNDRSPVEYRETAAA				NA	NA	NA	NA	NA
AK002_03196	816		COG5285	putative protein	ATGAAGACAGCCCATTTGGAAATAACGAAATTAATGGAGCAATTTCATGAACAGGGGTATTTGGTTATACCAGATATTTTGTCGCAGGAACAGGTGAGCCGGCTGAATGCCGCGATCGACGAAATTGTCTTGATGGAACCAGAAGCGCTTTCACATAATATTTATAACAGCGTAGAACGCCATGCCGAGATCGCTGCATTAATCGATCAGCCTGCCATTCTTCCATTAATCGTTAATTTGCTTGGCCACAACATTCAGCTTCACATCTCCCACCTCACGATCAGACAACCGAATCCAAGCGAAGCCCAAACGGCCACGCACAGCTTTATCGATTGGCATCAAGACGGTCCGCATCCGCAGTTTCCTGTCATTAACGGCTTGACAGCAACCTATTATATTAAGGTTTGCTATATTTTGAGCGATATGTCGGAGCCGGATCGCGGCAATACGAAAGTGATTCCGGGCAGTCACAAGCAGCCGTACAACCCGAATCACAAGGATGTGCGCCAGCAGCTTGACGGGGAGGTACAAGTGTGCGGAAAACCAGGTGACGTCTTCGTGTTCGCCCAAAACTTGTGGCATGCTGGTTCGCCGAATCGTTCCGCATTCACAAGAAGGCAGCTGTTCCTCGGCTACAGCCCGATCTGGATGCGTCCAATCGACTATCATTCGGCGTCTGAGAGCCTGCTGAAGGACGCCGATCCGATACGCCGCCAGCTGCTTGGGCAGATCAGCGACAATAAATTCAATTATTACGTTCCGCAGGATTCGATGGTGCCTCTCAAATCCATGCTGATCCATCCATCCACCCAGTAG	MKTAHLEITKLMEQFHEQGYLVIPDILSQEQVSRLNAAIDEIVLMEPEALSHNIYNSVERHAEIAALIDQPAILPLIVNLLGHNIQLHISHLTIRQPNPSEAQTATHSFIDWHQDGPHPQFPVINGLTATYYIKVCYILSDMSEPDRGNTKVIPGSHKQPYNPNHKDVRQQLDGEVQVCGKPGDVFVFAQNLWHAGSPNRSAFTRRQLFLGYSPIWMRPIDYHSASESLLKDADPIRRQLLGQISDNKFNYYVPQDSMVPLKSMLIHPSTQ				NA	NA	NA	NA	NA
AK002_03197	798	rhaR_38		HTH-type transcriptional activator RhaR	ATGGAGTTCAGCCGATTTCTGGATCCCGATCTGCAATACCATGTCTACGTGAAGGATACCCCTCAATTTCAGAAAACGCATGATACGTATGATCATTGGGCGTTGTTCATCGTCGAAGAAGGCGCTTTCAATTACAGAATGGGCAGCCAAAGCGGAAGGGCGGTCAAGGATGACATCGTGTTATGCCCGCCCGATCTAACCTTCTACCGGCAAACGGATGGTTTATCGTTCCATCTCATGGGGTTTCAATGGATCAATTCCCTAGAGGAGCCGCCGCGAGCGGCGGACTTTCCGACTTTCGGCAAACTTCGGCTATTGAACAACAAACGCTTCCAATCCACCCTCTCTCAATTTCGCGAAGCCCAATACTTGCATGCAGGGATTGGTCATACGTACAAGAAACATCTTCTCAGGGATCTGCTCTATTTGCTTCAGATCGAGCAATCCGAGCAGCATACGATGACCTTGTTCAGCGAGGATCCGACCCTTGGGCGAGCCCTGCATCTGCTTCAGCAGCAAGCAGAATTCGGCCTATCGTTGAAGTCGGTCGCTGTGGAGCTTGGTCTAACCCAGGTTCAGCTGACAAGACTGTTTACACGCGAGTTCCGCATAACGCCAAGCGCCTACGCGACTAATCTTAGAATGGACAAGGTGAAGCAGCTCCTTGTTTACTCTTCGCTTACCCTTGCCCAAATCGCTGAGCACTGCGGATTTACCGACGAACATCATTTAAGCAAAAGCTTCAAAAAACTGTGCGGCGTCAATCCTTCGTCGTACCGAAAAACACATAGCGTATGA	MEFSRFLDPDLQYHVYVKDTPQFQKTHDTYDHWALFIVEEGAFNYRMGSQSGRAVKDDIVLCPPDLTFYRQTDGLSFHLMGFQWINSLEEPPRAADFPTFGKLRLLNNKRFQSTLSQFREAQYLHAGIGHTYKKHLLRDLLYLLQIEQSEQHTMTLFSEDPTLGRALHLLQQQAEFGLSLKSVAVELGLTQVQLTRLFTREFRITPSAYATNLRMDKVKQLLVYSSLTLAQIAEHCGFTDEHHLSKSFKKLCGVNPSSYRKTHSV				NA	NA	NA	NA	NA
AK002_03198	1539	lipO_18	COG1653	Lipoprotein LipO	ATGAAGAAATTAGGGACTTTGCTAGTAGCCGTTTCATTAGTGGGGGCCATGCTTACGGCTTGTTCGGGGGGGAACAGCAGCGATAATCCGGGGAACCAAACGGGCGCTACAGCCAAGCCCGGAGCGGAAACGACGGAACAGCCTAGCGGCAAACCGGTTAAGCTCGACATTATCGAGACGGGGAACAATCTTCCGTCGCCCGATAAAGACATGATTAAGCAGGAATTGGATAAGGCGCTGAATATCGACCTGAACTTGACCGTGTATCCAGCAGCGGACGATTACAACAATCAACTAAACGTTCGGATGTCCTCGGGGAACTTTCCCGACCTGTTCATGGTCGACCGGCAGCAGCTAATTCAATTTTCCAAGCAAGGGCTGCTGCTCGATCTGACGCCGTATATGGATAAATTGGAGCAAACGGTAGCATTCATTGGGGAGGACAGCGTCAAGAAGGGGATGGTCGACGGGAAAGTATATGGCATCTCCAAATCTCCGCAAATCCCTTACAACACCTTATGGATCCGCAAGGATTGGCTCGACAAGCTGAAGCTGGAAGTGCCGACCACCGTGGAACAGTTGGCTTCCGTAGCGGAAGCGTTCACGAAGAACGATCCGGATGGAAATGGCAAGCCGGACACCTTCGGTCTAACGGGGGGCAAGTTGAGCGCATTCTCGACCGTTTTCGGAGCCTTCGGCGTCGGAATGCCAGGCAACTTCTACGAGAAGGATGGCAAAGTCGTCAATTCGCTGCATGAACCGGCAATGAAGGATGCTTTGGCCTTTATTAAGGACATGATTGGATCCGGATCGGTTGATCCGGAGCTGCTCGCCAATAGCGGATTGCAGCATCAAGAGAAGGCGATCAAAGGGCAGGCAGGCATCGTCTATATCGATTGGCCGAACATGACGAAGGAGCAGTTCGTGGAACAGATCAAAACCGTTAATCCGAATGCGGAATGGCTGCAAATCGCCGCTCCTTCGGGTACAGGAGGACAATTCGACGGTTCATGGGATATCGGCGCGGCGCCTGGGAGGTATGCCATTCCGAAAGCGCTTGAGAAAGACCCGGAGAAGCTGCAGCGGGTGTTCGATCTGCTCAACTATATTTCGAATCCGGACGGAGGCTCGCTGCTCGTGCAGTTCGGGGTGAAGGATACGCACTTCACACTTGAGGACGGCAAGCCGTTGATGACGGACAAAGCGGGCGAGGTTGGCCATTCTTGGCTGTACCAATTCACCGGCAGACCGGAAATGGAGTATTTGCAAGCGAAGTTCGCCGCACAATCGGCTGCAATCGAATTCGCGAACGATCAACCCCGTATTGAAGCGTTGAACGGATTTATCGACAATCCGGAAGGGTATAACCCAGCCGATGCGAACCGGTACATGGAAGAGGAGATCGCGAAGTTCATCTACGATAAACGTCCATTGACCGAATACGATGACTTTATCAAGACGCTGGAAACGTCTATGAACTACAAAGCGTTAGTGGACAGCGCAATGGAACAGCTCAAGGCGCTCGGTTACGGGGGCTAA	MKKLGTLLVAVSLVGAMLTACSGGNSSDNPGNQTGATAKPGAETTEQPSGKPVKLDIIETGNNLPSPDKDMIKQELDKALNIDLNLTVYPAADDYNNQLNVRMSSGNFPDLFMVDRQQLIQFSKQGLLLDLTPYMDKLEQTVAFIGEDSVKKGMVDGKVYGISKSPQIPYNTLWIRKDWLDKLKLEVPTTVEQLASVAEAFTKNDPDGNGKPDTFGLTGGKLSAFSTVFGAFGVGMPGNFYEKDGKVVNSLHEPAMKDALAFIKDMIGSGSVDPELLANSGLQHQEKAIKGQAGIVYIDWPNMTKEQFVEQIKTVNPNAEWLQIAAPSGTGGQFDGSWDIGAAPGRYAIPKALEKDPEKLQRVFDLLNYISNPDGGSLLVQFGVKDTHFTLEDGKPLMTDKAGEVGHSWLYQFTGRPEMEYLQAKFAAQSAAIEFANDQPRIEALNGFIDNPEGYNPADANRYMEEEIAKFIYDKRPLTEYDDFIKTLETSMNYKALVDSAMEQLKALGYGG	PGPT0017245_2809	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03199	861	araQ_38	COG0395	L-arabinose transport system permease protein AraQ	ATGGTAAGAGGCCTCGATGATAAAATTTTTAACGCTATCATATACGTCATTCTCGGAATATGCGGACTTGTCGCCATTCTGCCGATCCTTTATGTCGTATCCGTATCCATCACTCCGTTCGGAGAAGTACTGCGCAACGGCGGATTCATATTGTTCCCGAAAGAAATTACGTTTTCCGCTTACCGCACGCTGCTGACGGAGTCCAATATTCCGAAGGCGTTCCAAATAACCGTCCTCATTACGGTGATCGGAACAGCGGTCAATCTCGTCTTGACCGGACTGATGGCGTACCCGCTCAGCCGCCGGAATTTGCCGGGAAGAAACTTTTTTCTGCTCATGATCGTGTTCACCTTGTTGTTCAGTGGAGGACTTATTCCGACCTATCTGGTCGTTAAGTCAATGGGGCTGCTCGATTCTATCTGGGCGATGATTTTGCCAAATGCAGTCTGGAGCTTTAACGTTCTTATTATGAAAAGCTTTTTTGAAGGGCTGCCGGAGGAGCTGTTCGAGTCGGCCCGAATGGATGGAGCGAAAGAGTTCCGCATCCTGCTGCAAATCGTTACGCCGCTTTCCCTTCCTGTATTGCTGACGGTTGGATTGTTTTACCTGGTCGGCCATTGGAACGAGTTTTTTCAAGCGATTTTTTATGTGACCGATCGCACGCTGTATCCGCTGCAGGTCGTCGTCCGTGAAATTCTGATGCAAAGCCAGCAGCCGCTGGAGAACGCGGAAAATATGATGCCGACGCAGACGATGCAGATGGCATCCGTCATGATTGCGAGCTTGCCGGTCATCGTGATCTATCCGTTTCTTCAAAAGCATTTTACAAAAGGGATGCTGCTTGGTTCGATTAAAGGTTAA	MVRGLDDKIFNAIIYVILGICGLVAILPILYVVSVSITPFGEVLRNGGFILFPKEITFSAYRTLLTESNIPKAFQITVLITVIGTAVNLVLTGLMAYPLSRRNLPGRNFFLLMIVFTLLFSGGLIPTYLVVKSMGLLDSIWAMILPNAVWSFNVLIMKSFFEGLPEELFESARMDGAKEFRILLQIVTPLSLPVLLTVGLFYLVGHWNEFFQAIFYVTDRTLYPLQVVVREILMQSQQPLENAENMMPTQTMQMASVMIASLPVIVIYPFLQKHFTKGMLLGSIKG	PGPT0017255_2857	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03200	969	yteP_35	COG4209	putative multiple-sugar transport system permease YteP	ATGGAAGCCAATCATAGCCTAACGCCAGCCCCTCGGATACGGTTATCTCCGCGGACAAGGCTGCTCATGTTTTTAAAGTTAGCCTGGCGGTTTAAAGCCTTTTACGTCATGCTGCTGCCCGGCATTATTTATTTTGTCATATTTCGGTACTTCCCGATGTACGGAGTCATTATCGCTTTCAAAGATTTTGCGATCCTGGACGGCATAACGGGCAGCTCGTGGGTTGATCCGTGGTATAAGCATTTTCAGAGCTTTTACGAGTCGCCTTACTTCAGCCAGCTGCTAACCAATACGCTGTTGATCAGCCTCTACAAGCTGTTATGGGGGACGCTGCCGCCGATCATGCTGGCCATACTGCTGAACGAATGCCGCGTTCGCTGGCTGAAGTCAATTGTACAAACGCTGACCTACATGCCGCACTTCTTGTCTTGGGTCATTATTTTCGGTATTCTTTTGACGCTCTTCTCCCAGAACGGTGGTCTCATCAACCGCTGGATTGTGGAAGCGGGGGGAAGCTCGATCCCGTTTCTGACCTCGACGGAATATTTCCGCAGCATACTGGTTGGATCGGAGGTATGGCAAAATCTCGGCTGGGGTGCGATTATCTATTTAGCCGCGATGGCGGGCATCGATCCGACGCTTTACGAGGCGGCGAAGGTGGATGGTGCGAGCCGAATGCGAATGATCTGGCATATTACGCTTCCTGGCATTAGAAGCATTATCGTCCTGCTGTTCGTTCTGAAGCTTGGCCATCTGCTTGACGCAGGCTTTGATCAAATTTACATTCTGTACAATATTCAGGTATACCCGGTTGCGGACATCATCGACACATGGGTTTACCGAACCGGTCTGCAGCAGCTTAATTTCAGTTTGGCGTCGGCAGTCGGATTGTTCAAATCGGTCATCGGACTCATCCTTGTGCTAGGTGCCAACCGTGTGGCGAAGAAATGGGGTGAGGGCATATGGTAA	MEANHSLTPAPRIRLSPRTRLLMFLKLAWRFKAFYVMLLPGIIYFVIFRYFPMYGVIIAFKDFAILDGITGSSWVDPWYKHFQSFYESPYFSQLLTNTLLISLYKLLWGTLPPIMLAILLNECRVRWLKSIVQTLTYMPHFLSWVIIFGILLTLFSQNGGLINRWIVEAGGSSIPFLTSTEYFRSILVGSEVWQNLGWGAIIYLAAMAGIDPTLYEAAKVDGASRMRMIWHITLPGIRSIIVLLFVLKLGHLLDAGFDQIYILYNIQVYPVADIIDTWVYRTGLQQLNFSLASAVGLFKSVIGLILVLGANRVAKKWGEGIW	PGPT0017250_813	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03201	1788			hypothetical protein	ATGACGAAACTGTTTCATTGGTATGCCAGCCTTGGTCTCGCTACCAAGCAGTTTATTTATTTGTTCATCGTGACGCTGCTGCTCGTTCAAGTGCTTGCATGGCGAAACCTCAACGAGGCTGAAAGTCTGCTTCAGAATCAAGTCATTCGCGATGCAGAGCTGCTCGTCAGCCGGACGAATCAATATATCGATGCAAGTTTGGACAATGTGGAAAATATGCTGCTGCTACTCTCGACCCGCGCCGATTTGCTGGAGGAAGGGAATGAGGTGGCAGCCGTCGAGACGCTTCGCAAGTTTGCGGGAATTAACAACTCCATCGCCAGAACTTTGTACATGATTCGAGCTGACGGCCAAGTATTTGCAAGCTCACAGGTCGTTTATGACATCATCGGCAATCCAAATCTGAATCAACTCTATGAGCTGGCGCTTATTAACTACGGGGCCATTAACGTGAGCGAACCTTATGATTCGCCAATGTCGGGGCGAACGCTTGCTTACGTACTGCCTATTGCGGATGCTGGCAAAAAGGTGAAGGGTGTCGTAGTCGCCGAACTTAATCTCGATTTGCTCACGGAGCGTATTGCGCCGATGATCTATCAATCTTATATACTGTTCACGAAGGAAGGCAGCGTCATTAATCGGCTGGATTCCCGCGATAAGCTGCTCCCCTTCCAAGCCGCCTCGTATCCGCCGAAGCTGGAGGAGAGCTTTCGCGGGCAGCTCGCCTTGCTCAAAGTCGGCGTAAGCGGCATAGAAGGGGATGGGGATTCCTTGAATCCGCTCGTTGCCGTGAAGTCGACCAAAAACCGTCTAGGTTGGTCGCTTGCGGCGTTCATCGAAGAGGATTATTTCTATCAGGACCTTCAGAGGCTGAACAACAACTACCGGACCGCGAGTATCGTATGGATCATTATGCTTCTGATCAGTGCGTATCTGCTCAGCCGATCGTTCACACATCCGATTCGCCGATTTGTCGAGAAGATGGACCGTCTTAACAACTTTGAGGTTGTGGCGAAGCTGCCTGTTACGAGAATGGACGAAATCGGCAGGCTAACGCAGAGCTACAATGCCATGCTCGAGAGGATTCAGAGCCTGCTCCAAAAGACGAAACATGCGGAGGAGCAGAAGAAGGAATACGAGCTGAAGATGCTGCGAAGCCAGATTGCGCCCCATTTTCTGTATAATACCCTTGCCTGCATAAGCAGCTTGGCAAAGCAGCAGCGCATCGACGAGCTGCGCGATACGATTCGTTCACTGGTCAAGCTGTTAAGCTTCAGCTTCGACAAGCAATCAGAATACGTATCCCTTGAGGAGGAGCTGGAAGGGCTGCGAATGTACATGCATATTCAGCAGGTGCGCTTTGGGGAACAATATCAGTTTAGGATTGATATCAATCCTGACCTTCTGCAGTATCGCATACTTAAGCTTACGCTGCAGCCGCTCGTAGAAAATGCACTCTTCCATGGACTAACGCCGAATCACGGCGGGCTTATCGTCGTGAATGGCGGGCTGAGGAAGGGGATTCTGAGACTCTATGTGCGCGATAACGGGATAGGCATCAGGCAGGAGAAGCGGAGGAGGCTGCTGTTGGAAAATCAGGACGGTGGGCAGGGCTCCATGTACCGGTTTACGGGCATCGGGCTGCGGAACGTACATGAGCGGATTCGGATCCATCACGGTGAGTCGTACGGCTTGCGGATCGGAAGCGCGGAAGGGGCAGGTACTGTTGTCCGCGTCGATATGCCCGTCCTGACGGAAAGCGACGAACGATTAGGTATTTGGCGTTAA	MTKLFHWYASLGLATKQFIYLFIVTLLLVQVLAWRNLNEAESLLQNQVIRDAELLVSRTNQYIDASLDNVENMLLLLSTRADLLEEGNEVAAVETLRKFAGINNSIARTLYMIRADGQVFASSQVVYDIIGNPNLNQLYELALINYGAINVSEPYDSPMSGRTLAYVLPIADAGKKVKGVVVAELNLDLLTERIAPMIYQSYILFTKEGSVINRLDSRDKLLPFQAASYPPKLEESFRGQLALLKVGVSGIEGDGDSLNPLVAVKSTKNRLGWSLAAFIEEDYFYQDLQRLNNNYRTASIVWIIMLLISAYLLSRSFTHPIRRFVEKMDRLNNFEVVAKLPVTRMDEIGRLTQSYNAMLERIQSLLQKTKHAEEQKKEYELKMLRSQIAPHFLYNTLACISSLAKQQRIDELRDTIRSLVKLLSFSFDKQSEYVSLEEELEGLRMYMHIQQVRFGEQYQFRIDINPDLLQYRILKLTLQPLVENALFHGLTPNHGGLIVVNGGLRKGILRLYVRDNGIGIRQEKRRRLLLENQDGGQGSMYRFTGIGLRNVHERIRIHHGESYGLRIGSAEGAGTVVRVDMPVLTESDERLGIWR				NA	NA	NA	NA	NA
AK002_03202	1545	rssB_16		Regulator of RpoS	ATGGTCATAAAGCCGCTTGGCGTATTGATCGTCGAAGATGAAATTCCTCTGCGCCAAGAGCTTCGGATCTTTCCATGGGAGGCGTGCGGAGCCGAATGGATAGGGGAAGCGAGCAACGGGTCGGAAGCGATGCAGCTATGTGCTGAGCGCACGCCAGATGTCGTGATAACGGATATTACGATGCCGGTTATGGACGGCATTGCTCTCATACGTGAACTCCGGAAGCGGCACCCGAACGTTCAGATCATATTGTTAACCTGTCACAGCGATTTTCATTACGTACAAGAAGCGCTCCGTCTTGGAGCGCTTGAGTATATCTTGAAGGTGTCATTGGAGGAAGAAGAGCTTAAACAGGCGATGGACAAAGCGAGAGCTGCGGTCGTCAAGGAGCGCATGGTGCACGAGCATGCGAGAAGGGAACAGAGGCAGCTGCAAGCCGCCTTATTCGGCAAGCTTCTTCACGGGCAAGAGCCAACCGGCTCCGATTGGCAATCGATGACGCTAAGCGTAGATCGTCCAATTCGACTGGTACGACTTCAGCTAGACATTCCTCCATTAGGCTATTTGCCTGTGAAGGACACGGTTCAACAGAGGCTGACCGAGGAGGAAAAAAGGGATCCAAACTGGCTGACTTGGCTGACGGTACGGGAGCGGGAATATTTTGTTCTGCTTGAAGGCAGAACTCCTACCGATGCTGTTCTTGAGTCACTCCGCACGTTCGTTCAACACTTGACGGAGCTATTGAATCGGAAAGAGACCAAGCAGGAGCACTGCGCGACAGTATCTGCCCTATTTAGCCAACCGCTCACATCGAAGGAAGAAATTGCATCGGCGCTCGCCTATTCAAACGAGTGGAAAGTTGCGCTGTTTTACGACCGATGTCCCGAGGAAAGCGCTGTGTACGCGCAGCATTCGTTGCCTCTAACGGATCTGACGGAAAAGAAAACGAAGGAATTAAACGAGATGCTTAGAAAAGCATCATTGTCTCCTGCGAGCTTAAAGGAATGCTTGCTTGGCGAGTTCAGGGATTGGTGCATCGCAGAGCGAGTGAAGCCAAGTCAACTGAAGGAACGGATACTCCATTGGCAGGTTGATTGGCACAGGCAGCAAGAGGGCGCTGAGTTAAGCGCAGCCCGAATGGGGATTTTAATGGACGCAGGAACGTTAGCTGAGATGATCGCCAATATTGTTGAGGATATGGAAGCTGCCGAGCTAGGGAAGTCGCGTTCGCGCTTTGAGATTCGTTTGGCCGTGCAATGGATCAAAGACCATCTCAAGGAGCCGATTTCGCTGCCCATTATCGCAGAGCAGGTAGGGCTGAGCCCACATTATATCAGCAAATTGTTTCGCGAGGAAACGGGGAGTACGGTCAATCAGTATATAACCCGTCTTCGTATGGAGAAGGCGATTGAGCTTCTTAGGCATTCGAATAAGAAGGTATATGAGGTCGCGGAAGAGGTCGGCATTCCGAGCTACCGCTATTTTACCGTTACGTTTCGAAATTGGACCGGGGTATCGCCGACGGACTATAAACGGAATGGCTGA	MVIKPLGVLIVEDEIPLRQELRIFPWEACGAEWIGEASNGSEAMQLCAERTPDVVITDITMPVMDGIALIRELRKRHPNVQIILLTCHSDFHYVQEALRLGALEYILKVSLEEEELKQAMDKARAAVVKERMVHEHARREQRQLQAALFGKLLHGQEPTGSDWQSMTLSVDRPIRLVRLQLDIPPLGYLPVKDTVQQRLTEEEKRDPNWLTWLTVREREYFVLLEGRTPTDAVLESLRTFVQHLTELLNRKETKQEHCATVSALFSQPLTSKEEIASALAYSNEWKVALFYDRCPEESAVYAQHSLPLTDLTEKKTKELNEMLRKASLSPASLKECLLGEFRDWCIAERVKPSQLKERILHWQVDWHRQQEGAELSAARMGILMDAGTLAEMIANIVEDMEAAELGKSRSRFEIRLAVQWIKDHLKEPISLPIIAEQVGLSPHYISKLFREETGSTVNQYITRLRMEKAIELLRHSNKKVYEVAEEVGIPSYRYFTVTFRNWTGVSPTDYKRNG				NA	NA	NA	NA	NA
AK002_03203	2253			hypothetical protein	TTGAAGTTTGAATTAGTAAAATCCGACATTACCGTTATTGGCGGAGGCCTGGCCGGCGTATGCGCTGCCGTTGCAGCGGCACGTCTTGGCCAAACCGTGTCGCTCGTGAACAACAGACCCGTACTCGGAGGCAATTCTAGCAGCGAGGTACGGGTGTGGGTATGCGGTGCTACGGCGCATGGTACGCAGCGTTACGCGAGAGAAACCGGCATCATGGGAGAAATGTTCGTCGAGAATCAATTCCGGAACCCGGATGGAAATCCGTATTTATGGGATCTCGTCGTACTCGAGACGGTCCGAGCAGAGCCGAACATTGCCTTGTTTCTCAATACGGATGTGCACGAGGTCGAAGCGGAGGGCACGGAGGAGGAGCGCATCATGAAGTCGGTCACGGGCTGGATGATGGGCTCCGAGCGGAAAATCCGGTTTGAAAGCGATATGTACATAGATTGTACAGGAGATGGCCTTGCGGGTTTTCTGGCAGGCGCTAAATATCGGATCGGCCGCGAGGCCGCAGAGGAATACAACGAGGACTGGGCACCTGAGACGGCGGACGATATTACGCTTGGCAGCACGCTCCTGTTCTATACGAAGGAAGCCGATCGGCCGGTCAAGTACATTCCGCCGAGCTTTGCGAAGGACATTACGCAAACGGCGATCCCGATGAAGCGGGTCATTCGCAGCGGCGACTCAGGCTGCCACTATTGGTGGATCGAATGGGGCGGCGAGCTGGATACGGTGCATGATAATGAACGAATACGCGATGAGCTCTGGTCGGTCATTTACGGGGTATGGGATTATATCAAAAACTCCGGCAATTTCGATGCCGATTGCATGACGCTGGAATGGGTCGGGTCGCTCCCTGGCAAACGGGAGTATCGCCGATTCACAGGAGATTATATGTTGAACCAAAACGATATTATCGAGCAGGTGCCCTTCACCGATCGCATCGCCTTCGGAGGCTGGTCGATAGATCTTCATCCGCCGCAAGGCATGTATTCGACAGAGAGCGGTTCAAAGCATTTATTTTCGGACGGCATCTATCATATTCCATTTCGATGTCTGTACTCCAGCAACGTCACCAATCTGATGTTCGCAGGCCGCGATATCAGCGCAACTCACGTCGCATTCGGTACGACGAGGGTAATGGCAACCTGTGCCGTCATCGGCGAAGCAGCCGGAAGCGGTGCCGCACTGTGCGTGCAGAAAGGGATATCGCCGAGTGTGTTGCACCGTGAACATATGAACGACCTGCAGCAGACGATGCTCAGGCAGGATGCTTCGATTATCGGGATCGCGGCAGACGACCCTTACGATCTCGCCAAATCGGCCCGAATTACGGCATCCAGCACAATGACCAAAGTGTCGCTGACGGACTCAACCTATACACACCCGTTGGACAAAGAACTGGGCATCCTGTTTCCCGTGAATCCCTCGCTTGAATCAGTGGCGCTGCTGATCGATGCGGCAAAGGCTGCTACTCTTGAAGTGGAGCTGTGGCATACGGAAAAAGGTGAAAATTACGTGCCAAAGCAGATGGTGGCTGAAGCATCGGTGTCAGTAGCCGAAGGTACCAGGCAGTGGGCTAAGCTGGACTTAGTTTGGCAGCCCAATGCACCCTGCAATGCATTCCTTATTATTAAAGCAAACGAAGCGATTCATCTTCACGGATCGGATTCTCCGATGACCGGCGTGCTGTGCTTTGAGAAAGGGCCAAAGCCGATCGTCTCGACTCTTTTAGAGGATCGTCAGCCGGATCAGCCGGTCGTACAGTGGAGCATGCGCCGTTGGAACCGCAAGCCGCTATGTCTGCAGGTTACGCCAAATACGGAAGCGTACGCTGCCGCAGCGGTGACGGACGGGTATATTCGGCCGTTCGCCGGTCCGCATTTATGGATGTCCGAGCCGATGTCTCCAGGCAAACCGGAATGGCTGCAGCTGGAGTGGGCTGAAGTGCAATCGATCGCCGAGATCCACGTCACCTTTAACGACGATGTTAATGAAGACTTAATAAATTTGCACCATCACCGCACCGCTTTCGAAGCGATTCCCGAGCTCGTCCGAGCTTATCGGATAGAAGCGCTCATCGGTGAGGAATGGGTCACACTGGCTGAAGAGAAGCACAACCATAAGCGCAAAAAAGTGCATAAGCTCAGCCGTTCCATCTCGTCGCATACGATTAGACTATGGATCGACGAAACGAACGGAGGACCACGCGCGGAGGTTGCCGAAATAAGAGTCTATGCTCTATAA	MKFELVKSDITVIGGGLAGVCAAVAAARLGQTVSLVNNRPVLGGNSSSEVRVWVCGATAHGTQRYARETGIMGEMFVENQFRNPDGNPYLWDLVVLETVRAEPNIALFLNTDVHEVEAEGTEEERIMKSVTGWMMGSERKIRFESDMYIDCTGDGLAGFLAGAKYRIGREAAEEYNEDWAPETADDITLGSTLLFYTKEADRPVKYIPPSFAKDITQTAIPMKRVIRSGDSGCHYWWIEWGGELDTVHDNERIRDELWSVIYGVWDYIKNSGNFDADCMTLEWVGSLPGKREYRRFTGDYMLNQNDIIEQVPFTDRIAFGGWSIDLHPPQGMYSTESGSKHLFSDGIYHIPFRCLYSSNVTNLMFAGRDISATHVAFGTTRVMATCAVIGEAAGSGAALCVQKGISPSVLHREHMNDLQQTMLRQDASIIGIAADDPYDLAKSARITASSTMTKVSLTDSTYTHPLDKELGILFPVNPSLESVALLIDAAKAATLEVELWHTEKGENYVPKQMVAEASVSVAEGTRQWAKLDLVWQPNAPCNAFLIIKANEAIHLHGSDSPMTGVLCFEKGPKPIVSTLLEDRQPDQPVVQWSMRRWNRKPLCLQVTPNTEAYAAAAVTDGYIRPFAGPHLWMSEPMSPGKPEWLQLEWAEVQSIAEIHVTFNDDVNEDLINLHHHRTAFEAIPELVRAYRIEALIGEEWVTLAEEKHNHKRKKVHKLSRSISSHTIRLWIDETNGGPRAEVAEIRVYAL				NA	NA	NA	NA	NA
AK002_03204	843	rhaR_39		HTH-type transcriptional activator RhaR	ATGATGTTAAATCGAAGCCCCATCCTATATCCTAGTCTAATGCATCATGTCTTTTGGAATCATAAGAAGCAATTTCAATACAGCGTGGACACCTACGGACATTGGGTTCTATTTGCGGTGGAGGGCGGCAGCTTCCGTTATGGGATCGGCGATAGCGAAGGTACGGCGCAGATGGGCGACGTCATCGTTTGTCCGCCGGGCATCGATTTTCATCGCGACGTTATCCATGCGCCGTCCTTTCATTTCATCGGATTTTCGTTAGGCTTTATATCGGGAGAGGCGGTTGAAGGGCAAGAGGCAGTGCAGGACGTCCACCATCGTTTAGCGGCTTCTGCCTACAAGCCCGCCGTCGCGCATAAGGAGAGGTTTGCCGATAATTTGAGATATTTCAAGAGGCAGGACGAAGCTGCCGCGGAGATCGATCAGCGGAGCTATTGGCAAAACCATGCGCTGAACGATATTTGGCTCTTTTGTTTGCAGTCGATAGCGGTCGGTGTGGTTGGCGAAGACAAAAAACCTGCCGATCCTCTGATGGAACAAGCACGGCTCTATATCCAGCAGAACGCCTATAAGGACATGAGCTTACTAATGCTTGCGGACGAGCTGGGCATCAGTCCCGTTCAGCTCACCCGCAGATTCAACCGAAGTGTGGGGATGACTCCTTCACGCTATTTAAGCCATATTAGGCTGGAGCAAGCAAAGTCCTTGCTCGTCGATACCCATCTGAATTTAGAGCAGATCGCATTAGCTTGCGGCTTCAACAATGGGTTCTACCTCAGCCGCGTGTTCACGAAGCTGATGAAAGTCAGTCCTTCCGCTTACCGGAAAACGAACCGGGTCTAA	MMLNRSPILYPSLMHHVFWNHKKQFQYSVDTYGHWVLFAVEGGSFRYGIGDSEGTAQMGDVIVCPPGIDFHRDVIHAPSFHFIGFSLGFISGEAVEGQEAVQDVHHRLAASAYKPAVAHKERFADNLRYFKRQDEAAAEIDQRSYWQNHALNDIWLFCLQSIAVGVVGEDKKPADPLMEQARLYIQQNAYKDMSLLMLADELGISPVQLTRRFNRSVGMTPSRYLSHIRLEQAKSLLVDTHLNLEQIALACGFNNGFYLSRVFTKLMKVSPSAYRKTNRV				NA	NA	NA	NA	NA
AK002_03205	708			hypothetical protein	ATGACCTATGAAGAAATCATGCAGGCATTGGCTGGAATGGGCAGTGAGCAGACGAAAAACACTTATAATCGCCATGGTGCGAAAGAGCCGTTCTTTGGCGTCAAAATCGGGGACATGAAGAAGCTCGTTAAGCATGTGAAAAAAGACCAAGCTCTCGCTTTGCAGCTGTATGAATCCGGCAACTACGATGCGATGTATCTAGCGGGACTTAGCGTCAATCCGAAGACGATTACCAAAGAACAATTGCAGCATTGGGTGGCGGGAGCCAATTGGCATTCGCCTGCCGAGTATACGGTAGCGAGAGTAGCGGCAGAAAGTCCTTTTGCGCATGACCTGGCGTTGGAGTGGATAGATTCGCTGGAGGAACTAATCGCTGTAAGCGGATGGAGCACATATGCCAATTATGTATCGATTGCGCCAGACGAAGTGCTCGACATGGAGGAGATACGCAGTTTTCTCACAAGAGTGCGCGACACCATCCACGGCGAGCGCAACTGGGTCCGATATGTAATGAATACTTTCCTTATTTCGGTCGGCGCATACGTTGAGGCGTTAACGCAGGAAGCGAAGGCAGTCGCAGAGTCGGTCGGCAAAGTGCATGTGGATGTCGGCAATACTGCATGCAAAGTGCCGCTTGCAACGGAATATATCGGCAAGATCGAGGCGATGGGCCGAATCGGCAGCAAGAAAAAGACCTGCATTTGTTAA	MTYEEIMQALAGMGSEQTKNTYNRHGAKEPFFGVKIGDMKKLVKHVKKDQALALQLYESGNYDAMYLAGLSVNPKTITKEQLQHWVAGANWHSPAEYTVARVAAESPFAHDLALEWIDSLEELIAVSGWSTYANYVSIAPDEVLDMEEIRSFLTRVRDTIHGERNWVRYVMNTFLISVGAYVEALTQEAKAVAESVGKVHVDVGNTACKVPLATEYIGKIEAMGRIGSKKKTCIC				NA	NA	NA	NA	NA
AK002_03206	1260	xyoA	COG0277	putative xylitol oxidase	ATGGAAGATAAACTGAACTGGGCCGGGAATTATCGCTATCGTTCGATGGAGTTGCTTGAGCCTAAAAGTCTAGAAGAAGTTAAGGACCTAGTAGTTAGCCGCACAAGCATACGCGTGCTTGGCTCGTGTCACTCTTTTAACGGGATTGCCGATACCGGGGGCAGCCATCTTTCGCTTCGAAAGATGAATCGGGTAATCGATCTCGACCGTGTACAGAGTACCGTAACCGTCGAGGGTGGTATTCGGTATGGCGATCTGTGCCGCTATCTAAATGATCATGGCTATGCGCTGCATAATTTAGCATCGCTGCCGCACATAAGCGTGGCTGGCGCCGTGGCAACAGCCACGCACGGCTCGGGCGATCTGAATGCAAGCCTGGCGTCTTCTGTACGTGCTATCGAGCTAATGAAATCGGACGGAGAAGTTACGGTGCTCACGCGCGGGACAGACCCCGAGTTCGATGGGGCGGTTGTCGGACTCGGCGGACTGGGAGTCGTCACAAAGCTTAAATTGGATTTAGTACCTTCGTTTCAGGTAAGTCAGACCGTATATGATCGTCTTCCTTTTTCTGCACTGGATCATGGCATAGACGAAATCTTATCTTCCGCATACAGTGTCAGCTTGTTTACGGACTGGGCAGAGCCCATATTCAATCAAGTGTGGGTAAAACGAAAGGTGGGAATAAACGGGGAAGATGAGACATCTCCCGATTTCTTCGGGGCTTTACCAGCTCCGGAAAAACGGCATATGGTACTTGGCCAATCTGTGGTGAACTGCAGCGAGCAGATGGGCGATCCTGGACCATGGTATGAACGGTTGCCTCATTTCCGCATGGAATTTACCCCCAGCGCGGGCAACGAACTGCAAAGTGAATATTTTGTTCCGAGGCGGCATGCGGTCGAGGCAATGCGTGCGCTAGGCAAACTGCGTGATAGAATTGCGCCTCTGCTCTTTATCTCCGAGGTTCGAACAATTGCATCGGATACCTTCTGGATGAGCCCATGCTACCGGCAAGACAGTGTTGGGTTGCATTTTACATGGAAGCCGGATTGGGAGCGCGTGCGCCAATTACTTCCGCTTATAGAACGTGAACTCGAACCGTTTGCAGCACGCCCGCATTGGGCGAAGCTGTTTACGATGGAGTCGGAAATGATACAAGCTCGGTATGAGCGGTTAGCGGATTTCCGTCAGCTGCTACTTCGATACGATCCAATAGGGAAGTTTCGAAATACGTTTCTGGATCATTACATTATGCATTGA	MEDKLNWAGNYRYRSMELLEPKSLEEVKDLVVSRTSIRVLGSCHSFNGIADTGGSHLSLRKMNRVIDLDRVQSTVTVEGGIRYGDLCRYLNDHGYALHNLASLPHISVAGAVATATHGSGDLNASLASSVRAIELMKSDGEVTVLTRGTDPEFDGAVVGLGGLGVVTKLKLDLVPSFQVSQTVYDRLPFSALDHGIDEILSSAYSVSLFTDWAEPIFNQVWVKRKVGINGEDETSPDFFGALPAPEKRHMVLGQSVVNCSEQMGDPGPWYERLPHFRMEFTPSAGNELQSEYFVPRRHAVEAMRALGKLRDRIAPLLFISEVRTIASDTFWMSPCYRQDSVGLHFTWKPDWERVRQLLPLIERELEPFAARPHWAKLFTMESEMIQARYERLADFRQLLLRYDPIGKFRNTFLDHYIMH				NA	NA	NA	NA	NA
AK002_03207	1716	rhaR_40		HTH-type transcriptional activator RhaR	ATGTACAGACTGCTGATTGTCGATAACGAAGAGATCATAGTGAATCATCTTTATGAAATTTTTCGAGGATTTGATCATTTGGATCTCGATGTCTATAAAGCCTACGGTGGAGAAGAAGCCATCGAGTGGCTCAACCGCACAAGAATTGATATCGTGTTGACCGATATCGATATGCCCCATATCGACGGTCTGCAGCTCATGGAGGAGATTTATCGAAGCTGGCCTCAGTGCAGAGTAATTTTTTTAACAGGGCACAGTGAATTCAGATATGTATACAAAGCGATTCAGTATCAGGATGTCAGCTATATCTTAAAGACCGAAAATATCGACAAAGTGATTCAAGTGGTTGAAGAGACCGTATCAAAAATCCGCCAGGAAATCAAAACGGAAGATCTGATCCGGGAGGCCAAAGAGCAAATTAACATCGCGCTTAATTTGTTTCAAGAAGATTATCTTCTAGACATGTTAAAAGGTAATCGTGGAATACTGGCCAATCAAGCACAGTTTGAAGAAATGTCGATCCCGCTGAATGTTCAGTGGCCGGTTGCCCTGGTCGTGGGCAAGATAGATAAATTCTCTGACTCAACCGGTTATATGCAGAAGATGCAGCAAATCTATGCCGTACGTCAAATCATGCAGAGGTATTTAGCCACCCGTGTGAATTTTATGATTGTGCTCGATGACAGCCACAGATTTGTGATTTTTATTCAGCCTAAGGAGTCGTTGTCCGCTACCGGTACTGTGAATGAGGAAACGATCCAGCAGACGTTCAATAAAACAGTATCGTTTCTTAAAGGAATATTGGAGGTCATCCAGTCAGCATGCCAAGAAAATATCGGAATTCCGATCAGCTTTACGATCGGCAGCCAAGCGGATGGGTGGGAATCGGTTTCCAATAAGTATCACTCGCTCCACCACTTGCTCAATTACCGGATCGGACTCGAAAATACAGTTCTTCTTATCGATGATGTGGTTCATGATGAATCCGATGAGGCAGGCAATGTTCAGGGTTTGAAGGAAGAGGATCCCGAAGGAGCAAGGCTTGCGCGGGTGCTTAAGTCCAACGATCTTTCGCTTATCGAGCAATATCTGGAGGCAGGACAAAGGAGCAAGTATTTTGAAGCTTTGGAGCTGCTTCTTGGTCCTATCAGAGACGTTCGCACGAAAAATAATGCCTTTGCCCAGGAAATTTATTACACCGTGTCCCTGTATTTGATGTCCTATATCAATCGATGGGCACTTAATGAGAAGATTGAAGCTCAGGTGGGTCAAAACAGACTGATGCGGATCGATTTTTTTGACACCTGGAGCGAAGCTTCCTTATTTTTGACGGAGTTATCGTCTGTGTTGTTCGACATGCAAAAAGTAGAACAGAAAAAACGAGCGGATCATATCATCGATTTTTTACAGGAATACATTCGCAATCATTTGGATGAAGACCTGTCGTTGGTACGATTGGCCGAACAAGTATATTTGAATCCGTCATATTTATCCCGCATCTACAAACAGGAAACCGGAAACAATTTGACGGAGTTTATTGACTTCACCCGTCTGATGCAGGCCAAGCATTTACTTAAAAACGAGAATCTCCGAATCGGTGAAGTTGCCCGCCGTGTGGGCTACGAAACCGCATCCTCCTTTACTCGTTTCTTTAAAAAGGCTACCGGCTGTTCACCGCAGGAGTACAAGGAAAAACATATGATCCAAAAGCCATAG	MYRLLIVDNEEIIVNHLYEIFRGFDHLDLDVYKAYGGEEAIEWLNRTRIDIVLTDIDMPHIDGLQLMEEIYRSWPQCRVIFLTGHSEFRYVYKAIQYQDVSYILKTENIDKVIQVVEETVSKIRQEIKTEDLIREAKEQINIALNLFQEDYLLDMLKGNRGILANQAQFEEMSIPLNVQWPVALVVGKIDKFSDSTGYMQKMQQIYAVRQIMQRYLATRVNFMIVLDDSHRFVIFIQPKESLSATGTVNEETIQQTFNKTVSFLKGILEVIQSACQENIGIPISFTIGSQADGWESVSNKYHSLHHLLNYRIGLENTVLLIDDVVHDESDEAGNVQGLKEEDPEGARLARVLKSNDLSLIEQYLEAGQRSKYFEALELLLGPIRDVRTKNNAFAQEIYYTVSLYLMSYINRWALNEKIEAQVGQNRLMRIDFFDTWSEASLFLTELSSVLFDMQKVEQKKRADHIIDFLQEYIRNHLDEDLSLVRLAEQVYLNPSYLSRIYKQETGNNLTEFIDFTRLMQAKHLLKNENLRIGEVARRVGYETASSFTRFFKKATGCSPQEYKEKHMIQKP				NA	NA	NA	NA	NA
AK002_03208	1689			hypothetical protein	TTGATCGCGTCCTTCTTATTGGCGATCGTCCTAATTATTTTCTTGGGCATCTATATGTACAATTGGAGCCTGAACACCGTAAAAAATGAAATTATTAATTCTTCGACTGCACAGGTTTCGTTTTACCTTACAAGCCTGGAGGAGGAGATCGAACGCATTAAAATTTTGCAGCACGAAAGCTTGACTGATGAATACCTGGGCAAACTCGCGGTACGGTATTCCATCATGGACGAGTATGAAATCATGGAAAGCATGCGAAAGCTCCATCAGCGTCTCGTCACTATTCATAACAGCAGTTCCTACACCTCGAATGTAAGCGCACACATCTTGCCGATTCAAAAAACCATTTCCTCCACCGCTACCGTAAGCCCGATCGATATGGACAAATTGGATCAGATTCGCGTTCCGGCGGGGGAAACTGGCGCGCAGCTGGTGCAATACAAGAATAATCTTTACATAACCACTCTTCATGCCGGTAATGCCGGCTTGCCTCAAAAGTATATGATCGAGATTGAACTGGATATGGCTGCGTTTCAAGAGGCGTTGGGCCAGTTTCATACCTACGACAACAGCGGATCCTTTTTAATTGATCTCACACACGATATCGTCATTAGCGGCAAAGGCAACGATGCAAATGTACGCTTACAAGATTTGGTGGGAAACTACCATGAACTTAAGAGCGGGAACGTCACATACAGCAACATAAACGGTCAGAAAATGTATGTGGTGTCTGTCAAATCGGATTATTTGAATATCCTCTTACTGCGTTATATTCCTCAAGAGCTCATCTTTGTGCCGCTGCGGGATTTTTATATCTGGCTGTGGGTATTCACCGGTGCAGGCGCATTGATTATGTTGTTTTACTCCATCTACACCTATAACTTAATTCACAAGCCCATGCGTAAGCTTGTCGGATCGTTCCGACACGTCGAGAGCGGAAATTTTAACGTCTCGATCCACGTAAACAGCAAAAACGAGTTCGGTTATCTTTATCAAGGCTTTAATTCGATGGTACAGAACGTATCTGCTTTAATAGAGCAGGTATACAAGCAGAAAATTCTAAACCAGAGAGCGGAGCTAAAGCAGTTGCAATCGCAAATTAGTCCGCATTTTTTATATAACAGTTTGTTTTTGATTAACACGATGGCTAAACTAGGGGACGATAATTTAATCCCCTTTACTAAGCTGCTAGGTGATTATTTTCAGTTTATTACAAGAAATGCTTCGGATTTTTTGCCGCTGCGTGAGGAAATGGAGCACGCACGGACCTATAGCGAGATTCAGTTCATGCGATTTCCAAGCCGGTTGACGATCCAATTTGAAGATCTTCCGGATGAGGTTAAGGAAATACAGGTGCCTAGATTGATTCTTCAACCGATTCTTGAAAATGCATTCAAATATGCTGTGGAGCAAACCAAGGTCAAAGGCTTGATCACAATCCGCTTTCAGCAGGACGACCGCGGATTGCGTATTATCGTAGAGGACAACGGAACGGATCTGTCGGAGTCCAAATTATCCGCACTCCAAAAGCTCCTTTACGATACGTCCAATATCGAGACCTCAGGACTGATTAACATTCATCGCCGGATTCGGTTGATATATGGTGACGAACACGGCCTGATTTTGGAACGAAGCGCGATGGGCGGCTTGAAGGTGACGCTGCAACTTGACCCGAAAGCGAGTGTGTAA	MIASFLLAIVLIIFLGIYMYNWSLNTVKNEIINSSTAQVSFYLTSLEEEIERIKILQHESLTDEYLGKLAVRYSIMDEYEIMESMRKLHQRLVTIHNSSSYTSNVSAHILPIQKTISSTATVSPIDMDKLDQIRVPAGETGAQLVQYKNNLYITTLHAGNAGLPQKYMIEIELDMAAFQEALGQFHTYDNSGSFLIDLTHDIVISGKGNDANVRLQDLVGNYHELKSGNVTYSNINGQKMYVVSVKSDYLNILLLRYIPQELIFVPLRDFYIWLWVFTGAGALIMLFYSIYTYNLIHKPMRKLVGSFRHVESGNFNVSIHVNSKNEFGYLYQGFNSMVQNVSALIEQVYKQKILNQRAELKQLQSQISPHFLYNSLFLINTMAKLGDDNLIPFTKLLGDYFQFITRNASDFLPLREEMEHARTYSEIQFMRFPSRLTIQFEDLPDEVKEIQVPRLILQPILENAFKYAVEQTKVKGLITIRFQQDDRGLRIIVEDNGTDLSESKLSALQKLLYDTSNIETSGLINIHRRIRLIYGDEHGLILERSAMGGLKVTLQLDPKASV				NA	NA	NA	NA	NA
AK002_03209	879			hypothetical protein	ATGCCTGTAAAAAAGAGGCTGGATTGGTTTGTTGTGTGCAATAGTATATTCTTGATCGCAGTCGGAATGCTGTGTCTGATTCCGATGATACACATCCTGGCCGTGTCATTAAGCTCCAGCGCTGTCGCTGCAACAGGAACCGTAACCCTGTGGCCGAAGGAATTTACGTTGAAATCCTATGAATTTGTCGCACATCGTTCAGCCTTTTGGCAATCGATGCTCGTTTCCCTGGAGCGCATCGCATTGGGAGGGACGCTGAATCTCGTATTGATCGCTACAGTCGCATATCCGCTTTCGAAAGAAAAGGGAGAATTCCGGCTGCGCACCTTTTATTCATGGGCCTTTTTTATTACAATGATATTTGGGGCTGGATTAATTCCGACGTATATGGTTGTCAAACAGCTCGGGTTGATCGACACGATCTGGGCGCTGGTCTTCCCAACTGCGATTCCTGTATTCAGTGTCATTTTGCTGTTGAATTTTTTTCGAGCAGTGCCAAAGGAACTGAGTGAGGCCGCGTTTATCGATGGTGCCGGACATTGGCGAACGCTGTGGCAGATTTACGTTCCGGTATCCTTACCGGCTCTTGCGACCATTCTGCTATTTTCACTGGTCACGCACTGGAACAGCTGGTTCGATGGGTTAATCTATATGAACGATCCCAGCCATTACCCGATCCAGAGCTACATTCAGACGATCGTCGTTCAGCGCTCGTTAGCCACGATGACGCCGGAAGAGGCCAAGCTTATGGCGGACATTTCGGATAAGACGCTGCGTTCGGCCCAGATTTTCCTTGGAGCTCTGCCGATCATCTGTGTGTATCCGTTCCTGCAGCGTTTCTTTGTCAAAGGAATTGTACTCGGGAGCGTGAAGGGATAA	MPVKKRLDWFVVCNSIFLIAVGMLCLIPMIHILAVSLSSSAVAATGTVTLWPKEFTLKSYEFVAHRSAFWQSMLVSLERIALGGTLNLVLIATVAYPLSKEKGEFRLRTFYSWAFFITMIFGAGLIPTYMVVKQLGLIDTIWALVFPTAIPVFSVILLLNFFRAVPKELSEAAFIDGAGHWRTLWQIYVPVSLPALATILLFSLVTHWNSWFDGLIYMNDPSHYPIQSYIQTIVVQRSLATMTPEEAKLMADISDKTLRSAQIFLGALPIICVYPFLQRFFVKGIVLGSVKG	PGPT0017255_2346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03210	876	yteP_36	COG4209	putative multiple-sugar transport system permease YteP	TTGCCTCTGCATGTTATGATTTTGCCGGGTTTTCTTTTTTTGCTGGTATTCAATTACCTTCCCATTGGCGGAATCATTATTGCGTTCCAAAAGTTTATACCGGCGAAAGGTTTGTTCGGCGATCAGGACTGGATTGGTCTGCGCAACTTCGAATATGTGATGAACCTGCCGAGCTTCGATAACATCATGTGGAATACGTTTTATATCGCGATGATGAAAGTGATTCTTGGACTGCTTGTGCCCATTGTGATTGCGATTCTTTTAAACGAGGTCCGGCATATGGCATTGAAGAGAGGAGTGCAGACCGCGATTTACTTGCCCCATTTTTTATCCTGGGTAGTATTGGGCGGAATCTTTATCGAAATTCTGTCACCGAATGACGGCTTGGTCAACCGGGCACTTCAATCGTTCGGGATTGAACCGATCTTTTTCCTTGGTGACAATCGTTGGTTCCCAAACACCATGATTCTGACGGACGTATGGAAAGAGTTTGGATACGGGACCATCATCTATCTGGCTGCGCTTACAAGCATCAATCCGAATCTGTACGAAGCGGCACAGATTGACGGAGCGAACCGCTGGAGGCAAACGCTACACGTGACGCTGCCTGGGATGCAGATGGTTATCGTATTGCTTATGGTTCTTAATTTGGGGAATTTGCTGAATGCCGGATTTGACCAAATTTTTAACATGTACAGCCCGATGGTATATGAAAGCGGGGATATTCTCGATACCTTCGTATACCGCATCGGTCTGCTGGATGCGCAATTCGGCGTTGCAACCGCAGTGGGATTATTTAAGTCCGTTATCGCACTTGTTCTCGTGTCCGTCTCCTATTACATCGCGTATAAAGTTGCGGACTACAGGATTTTCTAA	MPLHVMILPGFLFLLVFNYLPIGGIIIAFQKFIPAKGLFGDQDWIGLRNFEYVMNLPSFDNIMWNTFYIAMMKVILGLLVPIVIAILLNEVRHMALKRGVQTAIYLPHFLSWVVLGGIFIEILSPNDGLVNRALQSFGIEPIFFLGDNRWFPNTMILTDVWKEFGYGTIIYLAALTSINPNLYEAAQIDGANRWRQTLHVTLPGMQMVIVLLMVLNLGNLLNAGFDQIFNMYSPMVYESGDILDTFVYRIGLLDAQFGVATAVGLFKSVIALVLVSVSYYIAYKVADYRIF	PGPT0017250_2522	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03211	1710			hypothetical protein	ATGAAACGAAGGGTTTATCCGAAAGTCGTCCTCATCTTAGCGACAATACTTTTAACAGGAGTGATCACCGCATGTAGTTCCGACTCAAACAATCAACAGTCAACCAATCCGTCAGGAAGCAGTTCAGGCCAATCATCTGAAGGGGGAGCCACCGCAGCGGAAGGACCGTTCGGCAAATATGAAGAACCGCTCACGATTCGATTTGCCCGCGATGTAGACAACGATATGCAGGATAACATCATACCCAAAACACCTGGCGAAACAGTGGAAGACAACCGATGGTTGAAAGCGTTCTCGGAAAAACTGGGAATCAACGTAAAATACGATTGGACGGTCAGCGGCGGGGATGCTTATACCCAAAAGGTTAACGTAACGTTGACATCTGGGGATATTCCGGACATGATCCGCGTCACAGCCGCACAAATGAAACAGATGGCTGAAGCAGATATGATCGAGGATCTCACACCGTACTGGAACGAATATGCTTCTGACCAAATGAAGGAGCTGTACGCGGTGCAAGGGCCTGCGGTCCTCCAGGCCGCTACGGTTGATGGTAAGATGGTGGGCCTTGGTCCGCCGGAGGGATACGGAGACGGCGTATTTATCTGGCTTCGTGCCGACTGGTTAGAGAAGCTTGGGCTTTCAGAGCCCAAAACGATGGATGATGTGATTGCAATCAGTAAAGCGTTTACCACGCAGGACCCGGACGGGAACGGGGTCAATGACACCTACGGTCTAGCAATTACGAAGGATCTGTACGGTGGAGCCATGGGGCTGGAAGGTTTTTTTGCCGGCTACCACGCGTACCCGAACATGTGGATCGATGATGGATCGGGAAATCTGGTTTGGGGCAGTACGCTTCCTGAAGTAAAGGAGGGATTGAAAGCGCTGTCTTCAATGTATAAGGCTGGTGAAATCGATAAGGAATTCGGAGTTAAGGACGGCGGCAAGGTGGCTGAGACGATAGCCGCCGGCAAGGTGGGCATGGAGTTCGGGCAACAATGGAATCCGATGTACCCGCTCATCAGCAACTATCAGAACGATCCGGGTGCAGATTGGAAAGGCTACGCCTTGGTTTCGGTGGACGGGGAACCGGTGCTGTCACCGCAGAAATTTGCCGCATCGGAGTTCTGGGTCGTCAGAAAAGGATTTTCCAATCCGGAAGCCCTGGTGAAAATGTTTAATTTGCACATTGAGTTGAACTGGGGAGAAAGCGGAGATTTCGATTATTATTATATGCCTTCCGCCAATGACAGCGTTGGCGTGTGGAAATATTCGCCGGTACAACCCTATCCACCATTTAAAAACGTGAATGCGTTCCAGGAAATCGAGGAGGCACGTAAGAATAAAACCTTGGATCAGCTAACCGGTGAGGCACTGTCGATTCAGAAAAATATGGAAGCCTTTAACAATGGAGAAACCACTTTATGGGGATGGCCTAAAATTTATGGGGAAGACGGCGTGTTCCAGCATAGCGTGAAGTACCTCGAGAACGACCATTTCATGCTTGAGGCGTTTGCCGGACCGCCTACCCAAACTATGGCGGAAAAGCAGTCCACACTAAAAGCACTGGAAACCGAGGTATTTGTCAAAATCATTATGGGTGCCACTTCGATTGATGAGTTCGACAAGTTCGTAGAGAATTGGAATACGCTTGGGGGAGCCGATATGACCAAAGAAGTCAATGAGTGGTACGCATCTGTAAAATAA	MKRRVYPKVVLILATILLTGVITACSSDSNNQQSTNPSGSSSGQSSEGGATAAEGPFGKYEEPLTIRFARDVDNDMQDNIIPKTPGETVEDNRWLKAFSEKLGINVKYDWTVSGGDAYTQKVNVTLTSGDIPDMIRVTAAQMKQMAEADMIEDLTPYWNEYASDQMKELYAVQGPAVLQAATVDGKMVGLGPPEGYGDGVFIWLRADWLEKLGLSEPKTMDDVIAISKAFTTQDPDGNGVNDTYGLAITKDLYGGAMGLEGFFAGYHAYPNMWIDDGSGNLVWGSTLPEVKEGLKALSSMYKAGEIDKEFGVKDGGKVAETIAAGKVGMEFGQQWNPMYPLISNYQNDPGADWKGYALVSVDGEPVLSPQKFAASEFWVVRKGFSNPEALVKMFNLHIELNWGESGDFDYYYMPSANDSVGVWKYSPVQPYPPFKNVNAFQEIEEARKNKTLDQLTGEALSIQKNMEAFNNGETTLWGWPKIYGEDGVFQHSVKYLENDHFMLEAFAGPPTQTMAEKQSTLKALETEVFVKIIMGATSIDEFDKFVENWNTLGGADMTKEVNEWYASVK	PGPT0017245_424	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03212	1488	abf2_1	COG3534	Intracellular exo-alpha-L-arabinofuranosidase 2	ATGGCGTTACTGTTCATCGATTCAGGGCGGAAGTACGGAAAAATCAACAAGAATGTTTACGGGCATTTTTCAGAGCATTTGGGACGAGGTATTTATGGCAGCATTTTTGTCGACGAAAACAGCCCAATTCCCAATATCCGCGGGATACGCACCGACGTTGTTGAGGCATTGCGGCATATCCGGGTGCCGGTGCTGCGCTGGCCAGGCGGATGCTTCGCTGAATATTACAATTGGAAAGACGGCGTAGGTGCTGAGCGCAAGCGCATCGTGAATGCAGGCTGGGGCGGCGTCGTGGAGGACAATTCATTCGGCACCCACGAGTTTTTGGATCTATGCGAGCAGATCGGCTGCTCGGCTTATATCGCCGCCAACGTCGGCTCCGGTACCCCTAGAGAAGTGAGCGAATGGATTGAATACATGACCTTTGACGGAGACTCGCCAATGGCCAACTGGAGGCGCCAGAACGGCAGGCACGAACCGTGGAAGGTTGAATATGTCGGCATCGGAAATGAGAATTGGGGTTGCGGCGGGCAAATGCGGCCGGAATATTATGCCGATGTGTACAAGCAATTCAACACTTATGTTCGCAATTACGGCAATCATCGGATTTTCAGGGTTGCTTGCGGTGCCGACGGCAACGATTATGCCTGGACGGAAACCTTGATGCGCGAAGCGGGCACCAATATGAATGGATTGTCTCTGCATTATTACACCATGCCGGGATATTACAAATCTGACGAATATCCCGAGGAGCGCAAAGGTCCAGCTCTGGAGTTCGACAAACCGACCTATTATCGCACCCTGCGCCGAGCGTTGTATATGGATGAATTAATTACCCGGCATAAACATGTCATGGATCGCAACGACCCCAAAGGGAAGGTGTCGATCATTATCGACGAGTGGGGAACCTGGCATGAGGTGGAGCCTGGGACTCACCCGGCATTCTTGTTCCAGCAAAATGCGATGCGAGACGCCATTGTCGCCGGAGTGTCCCTGAATATATTTAACGCCCACAGCGATCGGGTTCAAATGGCCAATCTGGCGCAGCTGGTCAATGTTCTCCAATCGGTCATCCTGACGGAAGGCGAGGATATGGTGCTCACACCGACGTACCATGTATTCGATCTCTATAAAGGGCATCAAGATTCGACACTGATCGAAAGCTATATACAACCGCAGCTGACGGGGACAACCGAAGCCGAGGTGCCGGCTCTGCACGTCAGCGCATCGAAACGGGCGGACGGCCGCGTTCACGCCACAGTGGTGAACTTGTCCGCAGATGAGTCCCAGCAGCTCCTTTGCGTGTTAGATGGTCAAGCGTTTTCCTCTGCCGAAGTTCGTTACATATCTGGGACCATGACGAGCCACAACGCGTTCGGACATCCCCCACAAGTCGAAATAAGAACGATGCCGGTTATTCCCATTAAGGACAACCGTATGGATATGCACCTTCCTGCCTGCTGCGTTGCTGAAATCGTATTGTCTTAA	MALLFIDSGRKYGKINKNVYGHFSEHLGRGIYGSIFVDENSPIPNIRGIRTDVVEALRHIRVPVLRWPGGCFAEYYNWKDGVGAERKRIVNAGWGGVVEDNSFGTHEFLDLCEQIGCSAYIAANVGSGTPREVSEWIEYMTFDGDSPMANWRRQNGRHEPWKVEYVGIGNENWGCGGQMRPEYYADVYKQFNTYVRNYGNHRIFRVACGADGNDYAWTETLMREAGTNMNGLSLHYYTMPGYYKSDEYPEERKGPALEFDKPTYYRTLRRALYMDELITRHKHVMDRNDPKGKVSIIIDEWGTWHEVEPGTHPAFLFQQNAMRDAIVAGVSLNIFNAHSDRVQMANLAQLVNVLQSVILTEGEDMVLTPTYHVFDLYKGHQDSTLIESYIQPQLTGTTEAEVPALHVSASKRADGRVHATVVNLSADESQQLLCVLDGQAFSSAEVRYISGTMTSHNAFGHPPQVEIRTMPVIPIKDNRMDMHLPACCVAEIVLS	PGPT0018655_1765	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
AK002_03213	1590	xynB	COG3507	Beta-xylosidase	ATGAATATGATCACGAACCCCATTCTTCGCGGTTTTCACCCCGATCCCTCCATATGCCGGGCGGAGGAAGATTATTATATCGCCACGTCCACCTTTGAATGGTTCCCGGGCGTACGGATTCACCATTCCCGGGACCTGGTTCATTGGAAGCCGATAGAAGCTCCGCTGACCCGGATATCGCAGCTGCATATGGAAGGCAACGTCAACTCCGGAGGAGTATGGGCTCCCTGCCTTAGCTATGACAACGGCGTGTTTTATCTGATCTACACGGATGTCAAAAGCCGGGTCGGCGCTTTTAAGGATACCCATAATTACCTTGTGACGGCGACGAATATCGAAGGCCCGTGGTCCGAGCCGGTGTATCTAAACAGCAGCGGGTTCGATCCTTCCTTATTTCATGATGAGGACGGACGCAAGTGGTTGGTCAATATGATCTGGGATCACCGTAAGGGAAAGAACCGGTTCTCGGGCATCGTACTCCAGGAGTATTCCGTTCAGGAACAAAAACTGATCGGGCCCTCCGTGAACATATTCAAAGGCACGGCATTAGGGCTGACGGAAGCGCCTCATCTGTATAAATACAAGGATTTATATTATTTAATAACGGCTGAAGGAGGAACCGGTTACGAGCATGCAGTGACGGTAGCGCGCTCCCGCACGTTACAAGGACCTTATGAGGTCGATCCTGCCAATCCGATCCTTACTTCATATGGCAGGCCGGATATAAAGCTGCAGAAGGCCGGCCATGGCAGCCTCGTCGAGACACATACCGGCGAATGGTACATGGCCCACCTGGTCGGCAGGCCCGTCAATGGGCAGTTTTGCACACTTGGCCGTGAGACGGCTCTTCAGCTGTGCATTTGGAGCGAGGACGGCTGGCTGCGGCTTGCGAGCGGTGAACGATATCCCGAGGTTCGGGTGCCTGCACCGAAAATCAAGCCACATCCTTTTGAACAGGCACCGAAAATGGACCACTTTGATCAAGCCATACTCCGGAGCGATTGGAATACGCTTCGTATTCCGCCGGACTCAACGTGGCTGAGCCTTGCAGAACGTCCCGGGTACTTGCGCCTGCGCGGAATGGAATCGATGAGCTCAACGCATAGGCAAAGCATGGTCGCCCGAAGATTGCAGGCTTTTGCGTGCGAAGCCGAAACTTGTCTGGAGTTTGCACCGGACCATCCGCAGCAAATGGCAGGGCTGATTCTGTATTACGATACGAAAGACTATCTTTATTTACGGGTAACTTATCACGAAGAGAAAGGACTGTGCCTGGGAATCATTCAGTCCAGATACGGGGTTTACGATGAGCTGCTGGAGGATATCCCGCTGAAATCGGTGAACGGGATCCGGTTAAAGGTTGTGGTCGATCATGACCGTGCCTGCTTTTACTATGCGTTACAGGATGATCCGTCCTGGCATCGGGCAGGCGGATGGTTCGATATCACGAATCTGTCCGATGAATCTCCTGAATATATCCGGTTTACGGGAACCTACATCGGCCTTTGCGTCCAGGATCTTGGCGGGACCCGGAAACATGCTGATTTTGATTACTTTGTATACAAAGAGACGAACAGCACAACGGTCTAA	MNMITNPILRGFHPDPSICRAEEDYYIATSTFEWFPGVRIHHSRDLVHWKPIEAPLTRISQLHMEGNVNSGGVWAPCLSYDNGVFYLIYTDVKSRVGAFKDTHNYLVTATNIEGPWSEPVYLNSSGFDPSLFHDEDGRKWLVNMIWDHRKGKNRFSGIVLQEYSVQEQKLIGPSVNIFKGTALGLTEAPHLYKYKDLYYLITAEGGTGYEHAVTVARSRTLQGPYEVDPANPILTSYGRPDIKLQKAGHGSLVETHTGEWYMAHLVGRPVNGQFCTLGRETALQLCIWSEDGWLRLASGERYPEVRVPAPKIKPHPFEQAPKMDHFDQAILRSDWNTLRIPPDSTWLSLAERPGYLRLRGMESMSSTHRQSMVARRLQAFACEAETCLEFAPDHPQQMAGLILYYDTKDYLYLRVTYHEEKGLCLGIIQSRYGVYDELLEDIPLKSVNGIRLKVVVDHDRACFYYALQDDPSWHRAGGWFDITNLSDESPEYIRFTGTYIGLCVQDLGGTRKHADFDYFVYKETNSTTV	PGPT0018665_1425	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
AK002_03214	1977	yagF	COG0129	D-xylonate dehydratase YagF	ATGCACGAACAGATTATGTCGATTATGGGGGAGAAAGATTCAAGCGGTTACGATATTATAACGCATGCTCCCGGGGCGGCGGGACGTCTGCCTTTAACGGATGATTTGCTGCGTCACGCTCCGAGCGGCGACTTGTTCGGCATGTCCCAGAATGTCGGAATGGGCTGGAAGCCCGGGGAATTGAACGGAAAACAGTTTCTGATCCTGAGCACGCAGGGCGGAATTCGCAATGAGGACGGCAGTCCTGCAGCCCTCGGTTATCATACGGGCCATTGGGAGGTCGGCCTGCTGATGAAGGCTGCGGCGGAAGAGATATCAAGCCGCGGAGGGATCCCGTTTGCCGGATATGTCAGCGATCCTTGCGACGGCAGATCACAGGGAACGACAGGTATGTTCGACTCGCTGCCGTACCGAAACGATGCCGCTCTCGTGTTCCGCAGACTGATTCGCTCCCTGCCGACGCGCAAAGGGGTGATCGGCGTCGCCACCTGCGACAAAGGTCTGCCGGCGATGATGTTAGCGCTTGCGGGCATGCCGCAGCTGCCGGGAGTAATCGTTCCCGGGGGCGTCACCCTTCCGCCTGTCGATGGAGAGGACGCCGGCAAAATTCAGACGATCGGCGCACGATACGTCATCGGCGAGCTCTCCCTGGAAGCGGCGTCGGAGCTCGGCTGCCGGGCATGCGCCACCCCGGGAGGAGGCTGCCAGTTTCTAGGTACGGCGGCAACGGCCCAGGTCGTCGCCGAAGCGATGGGCATGACGGTGCCGCATGCCGCGCTTGCGCCTTCCGGGCAGCCGATCTGGATCGAAATGGCTCGGCAATCCTCACGCGCACTGATGGTCATGGAGTCCGAAGGGCTGAGAATGGCGGATATTGTCACGGATGCGGCGATTCGCAATGCGATGGCCGTCCATGCCGCGTTCGGCGGATCTACCAATCTGCTGCTCCACATACCCGCCATTGCCCATGCAGCCGGTTTGACCATGCCTGCGGTGCAGGACTGGATCCAGGTTAACAAACATGTGCCGAGACTGGTCAGTGCCTTGCCTAATGGCCCAATCTTCCACCCGACCATACGGGTTTTTCAGGCCGGAGGCGTGCCCGAAGTGATGCTCCACCTCAGGCAGCTGGGCGTGCTGGATGAGTCCGTGCTTACCGTAACAGGTACGACGCTGGGCCAGGTGCTCGACTGGTGGGAATCGTCGGAACGCCGTCATCTGCTGCGGAAGCAGCTGAAAGAGAAGGACGGGGTTGACCCGGACGGTGTCATTATGAGCGTGGAGCATTCGCAGCGTCTTGGCATTACTTCTACCGTGACGTTTCCAACCGGGAATATCGCTCCGGAAGGCTCTGTGATCAAATCCACATCGATCGACCCTTCGGTACTGGATGACCATGGCGTGTATCGTCACAAGGGCAGGGCAAAGGTGTTTACAACCGAACGCGAAGCGATCCATGCGATCAAGACCGGCGGCGTTCTGGCCGGCGACGTCGTCGTACTTCTCGGGCGGGGTCCGTCAGGGACCGGGATGGAGGAGACTTACCAGCTGACGTCTGCGCTAAAGCATCTGTCTTTCGGCAAATACGTGTCGCTCATTACCGACGCCCGGTTTTCCGGTGTTTCCACCGGGGCATGCATTGGCCATGTTGGTCCCGAAGCGCTGGCAGGCGGGCCGATCGGCAAGCTTCGGAACGGTGACTTGATCAATATCGTCGTGGATCGCAACTCGCTGGAAGGCAGCATTAACTTTGTCGGTGCGGGGGAAATCGAGGTTTCGCCGGAGGAAGGCGCTCTCATCCTGGCACAAAGGCCCTTCCATCCGGATATGCGCCCTGACGAAGCTCTGCCGGATGATACCAGGCTGTGGGCAGCGCTGCAGTCCGTCAGCGGAGGGACATGGAGAGGGAATGTGTACGATGTGGAGCGGATCATAACCGCTCTGGAAGCCGGTAAAAAAGCACTGGGCTGGTCCTGA	MHEQIMSIMGEKDSSGYDIITHAPGAAGRLPLTDDLLRHAPSGDLFGMSQNVGMGWKPGELNGKQFLILSTQGGIRNEDGSPAALGYHTGHWEVGLLMKAAAEEISSRGGIPFAGYVSDPCDGRSQGTTGMFDSLPYRNDAALVFRRLIRSLPTRKGVIGVATCDKGLPAMMLALAGMPQLPGVIVPGGVTLPPVDGEDAGKIQTIGARYVIGELSLEAASELGCRACATPGGGCQFLGTAATAQVVAEAMGMTVPHAALAPSGQPIWIEMARQSSRALMVMESEGLRMADIVTDAAIRNAMAVHAAFGGSTNLLLHIPAIAHAAGLTMPAVQDWIQVNKHVPRLVSALPNGPIFHPTIRVFQAGGVPEVMLHLRQLGVLDESVLTVTGTTLGQVLDWWESSERRHLLRKQLKEKDGVDPDGVIMSVEHSQRLGITSTVTFPTGNIAPEGSVIKSTSIDPSVLDDHGVYRHKGRAKVFTTEREAIHAIKTGGVLAGDVVVLLGRGPSGTGMEETYQLTSALKHLSFGKYVSLITDARFSGVSTGACIGHVGPEALAGGPIGKLRNGDLINIVVDRNSLEGSINFVGAGEIEVSPEEGALILAQRPFHPDMRPDEALPDDTRLWAALQSVSGGTWRGNVYDVERIITALEAGKKALGWS	PGPT0017565_47	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017565-yjhG|yagF-K22396	NA	NA
AK002_03215	1467	aldHT		Aldehyde dehydrogenase, thermostable	ATGACCGCATTTCAGGTTGAGCAGATATACAGGAACTATATCAACGGAGAATGGATGAAGGCGGCGTCCGGAGAAACCGAACCCAGCATCAATCCGGCGAATCGGAATGAGGTAGTCGGTTATGTACCGGTTTCCGGTATAGAGGATCTGAACCGTGCTGTCGCAGCGGCCAAAACAGCTGGCCGAGCCTGGCGGAGATTAACCGGCGCGGAACGCGGCAATGTTCTGTTCAAAGCGGCGAATGTGCTGGAACGCCGGGCCGAGGAAGTTGCCGAGGCGATGACGAGGGAAATGGGCAAGACGCTAGCCGAAGCCAAGGGAGAGACGATGCGCGGCGTCGCGATCCTAAGATATTACGCCGGTGAAGGGATGCGAAAAGTCGGCGATGTCATTCCTTCGACGGACAGCGAAGCACTGATGTTTACGACTCGGGTACCGCTTGGTGTTGTGGGCGTGATTGCTCCATGGAATTTTCCCGTAGCGATTCCGATTTGGAAGACGGCCCCGGCTTTGATTTACGGCAATACGGTTGTATTAAAACCGGCACAGGAAACGGCGGTCACAGCGGCTAAAATCATGGAATGCTTTGAGGAAGCGGGAATTCCGGCAGGGGTTCTCAATCTTGTATGCGGCAGAGGATCGGTGATCGGATCTGCGCTTGCCGAGCATCCGGATGTCAATGGGATTACGTTCACCGGTTCCAACGAAGTCGGAAAACGGGTCGGCGCCGCCGCATTGGGCCGAGGGGCCAAATATCAGCTTGAAATGGGCGGCAAAAATCCGATCATCATTGCAGCGGATGCCGACCTGGACTTGGCAGTCGAGGCCACCATCAGCGGCGGCTTGAAATCCACCGGCCAAAAATGCACCGCCACCAGCCGGGTCATCGTTGAACGAAAAGTATATGAAGCCTTTAAAGAAAAGCTCCTTTCGCAAATCCAAGAGATCCAGCTGGGCGACGGCATGTCTTCCGAAAGCTGGATGGGCCCGTGCGCGAACGAAGGACAGCTCGAAACGGTGCTGAATTATATTCAAAAAGGACAGGATGAAGGTGCCGTACTGCTGACCGGCGGAAAAAGAGCGGACGCTCCAGGGCTTAAAGAGGGATTCTATGTCCAGCCGACCGTATTTGAGCGAGTCGAACCGCATATGTCCATAGCCCGGGAAGAAATCTTCGGCCCTGTGCTTACGTTGATCGCGGCGGATTCCCTGGAGGAAGCCATAGAGACTGCCAATGACAGCGACTTTGGCTTGAGTGCCTCCATCTATACGCAAAACGTCGGCGCAATGCTGTCATTCATCCGGGATATGGATGCCGGATTGGTCAGGATCAATGCGGAAACGGCCGGCGTAGAGCTGCAGGCGCCGTTCGGCGGGATGAAGATGTCAAGCTCGCATTCCAGGGAACAGGGTCAAGCAGCGATCGAGTTTTTCACTTCCATCAAAACGGTCTTCGTGAAGTCATAA	MTAFQVEQIYRNYINGEWMKAASGETEPSINPANRNEVVGYVPVSGIEDLNRAVAAAKTAGRAWRRLTGAERGNVLFKAANVLERRAEEVAEAMTREMGKTLAEAKGETMRGVAILRYYAGEGMRKVGDVIPSTDSEALMFTTRVPLGVVGVIAPWNFPVAIPIWKTAPALIYGNTVVLKPAQETAVTAAKIMECFEEAGIPAGVLNLVCGRGSVIGSALAEHPDVNGITFTGSNEVGKRVGAAALGRGAKYQLEMGGKNPIIIAADADLDLAVEATISGGLKSTGQKCTATSRVIVERKVYEAFKEKLLSQIQEIQLGDGMSSESWMGPCANEGQLETVLNYIQKGQDEGAVLLTGGKRADAPGLKEGFYVQPTVFERVEPHMSIAREEIFGPVLTLIAADSLEEAIETANDSDFGLSASIYTQNVGAMLSFIRDMDAGLVRINAETAGVELQAPFGGMKMSSSHSREQGQAAIEFFTSIKTVFVKS	PGPT0006875_6807	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK002_03216	876			hypothetical protein	ATGCGAATTATTCGATTTCTAGACGGACAACAGAAGCGGCTGGCAGCCGTTACGGATGATGAAAGAGCCTATCGTCTGCCGCAGCCGGATTTTATGACGTTGATCCATCAAGCCAGGGAGCGCGGGATTTCACCTGTCCAACTTGTTGAAAGCGCTGTTACACCGGCAAACGAGCTGGCTGGCGATTGGACTTCGCTGCACCTTATCACGCCAGTGGAAGCACCCGAAGTATGGGCGGCCGGCGTTACGTACCAACGAAGCCGGGAAGCACGAAATTATGAAGCCACGGATGGAAAGCTGGATGCATTGACATTCTACGATAAAGTTTATGACGCAAAGAGGCCGGAGATCTTTTTCAAATCCACGGCCGCCAGGACCGTCGGACCGAATGAGACTGTTACGCTGCGCAGCGATTCCACATGGCAGATCCCAGAGCCTGAGCTTGGATTGGTGCTTGACGCAGATGGCAGCATTACGGGCTACATCGTCGGCAATGACATGAGCTGCCGCGATATCGAAGGGGAGAACCCGCTGTATTTGCCGCAAGCAAAGATATGGCGCAAATCCTGCTCCATCGGACCGGCCATCCGGCTTGCGGAAACGGTGCAGAATCCATATGCATTCAGCATCGTCTGCGAGATTTACCGCAAGGGGCGTATGGTCGTTAAGAGCGAGGGCAGTACGAGTGAATTAAACCGAAAGCTGGATGAGCTGGTCTCCTTTCTGGCAAAGGACAATGACTTGTTCGCGGGTACGGTGCTTTTGACAGGCACCAGCATTGTGCCGCCTAATGATTTTACGCTTGAGCCCGGGGACCGGATTGAAATAACCATTGGCGGCATCGGTACGCTGGTGAATCCTGTCATTTCAAACTAG	MRIIRFLDGQQKRLAAVTDDERAYRLPQPDFMTLIHQARERGISPVQLVESAVTPANELAGDWTSLHLITPVEAPEVWAAGVTYQRSREARNYEATDGKLDALTFYDKVYDAKRPEIFFKSTAARTVGPNETVTLRSDSTWQIPEPELGLVLDADGSITGYIVGNDMSCRDIEGENPLYLPQAKIWRKSCSIGPAIRLAETVQNPYAFSIVCEIYRKGRMVVKSEGSTSELNRKLDELVSFLAKDNDLFAGTVLLTGTSIVPPNDFTLEPGDRIEITIGGIGTLVNPVISN				NA	NA	NA	NA	NA
AK002_03217	870	mtrA		HTH-type transcriptional regulator MtrA	ATGTTTTCAGAAGCCGCATATTTAGGTCGTCTGCCCGATGTTCGCATGTCGTTTCAATTACTGGGACTGCATGCAAGAAAAGTGGATTCCCGCTGGACCTATCCGTCCCACGAACATTCCATGTACGAAATTCACTGGATGCTGGACGGCGAGATGAACATGGTGGTAAACGGACAGCTGCACAGGCAGTCCGTTGGAGACTTGTTGTTCATCCGCCCCGGTATGACCCATTCCTGCACCGGCGCCGGTCCGCAAGGTTTCACTTACTTTTCCGTCCATTTCAGCGTCCACGATACATCCTTTTGCAGAGAACTCAACCGCTGCAAGGACATTTATTATCCGGCTGATTCGGCTTTAACCCAGGGACTGTCCTCTTCGCTGTCTACATTGTATAATCTGGCAACAGAGCATTTATCCAGCCCGCTGCCGGCCTCCAAACAGATGAAGATCCATGCCGCCGTATTCGAATTGCTCGGCTCGTTGGTCGGACAGCTGTCTCAGACCCCATCCGTCGCCCTATCCCGAAAAGAAACCATCGCCCGTCAGATCGCGGAGCAAATCGAGGACTCCGTAAGATATATCCATCTTCACAGTGAAATTCAGGAGAGCGAGCGAACCTGGATCCAAGACATCGCCAAGTCGCTGAACCTTAGTCCGTCGCAAGTCAATCGGATCTTTCGGGAGGTTCACGGCAGAGCACCGCGCAAGTTTTTATCCGAAACCCTCCTGAACGAAGCCCAGCGACTGTTGAAGCAAACCGACCTAAGCATTGACCATATTGCGATGATGCTGGGGTATAAGACCAATGCGCATTTTAGCCGCCAATTCAAGCGGTGGACCGGGATGGCGCCCAGTGAATACAGAAACTGA	MFSEAAYLGRLPDVRMSFQLLGLHARKVDSRWTYPSHEHSMYEIHWMLDGEMNMVVNGQLHRQSVGDLLFIRPGMTHSCTGAGPQGFTYFSVHFSVHDTSFCRELNRCKDIYYPADSALTQGLSSSLSTLYNLATEHLSSPLPASKQMKIHAAVFELLGSLVGQLSQTPSVALSRKETIARQIAEQIEDSVRYIHLHSEIQESERTWIQDIAKSLNLSPSQVNRIFREVHGRAPRKFLSETLLNEAQRLLKQTDLSIDHIAMMLGYKTNAHFSRQFKRWTGMAPSEYRN				NA	NA	NA	NA	NA
AK002_03218	2274			hypothetical protein	ATGATTAACAAAAACGGTATAGCTGGCGTAGAACAAAAGCAGCGATTATGGTATCTCCAGCCTGCCACAGATTGGAACGAGGCTTTGCCTATTGGGAACGGCCGGTTGGGTGCCATGATCTTTGGGGGAATAGCCGAGGAAAAGCTTCAGCTCAATGAAGATTCCGTATGGTATGGAGGTCCGCGTGATCGCAATAACGAAGACGCCCTGCCGCATTTACCGGTAATCCGCGAGCTGGTTATGAATGGGCGTCTGCATGAGGCGGAGGCACTGGCGGGAATGGCAATGGCCGGACTGCCCGAATCGCAGCGGCACTACTTGCCGCTCGGCGATCTTCTGATTTCGTTCGATCGTCATGAAATGGCCAAGGATTATGAGCGGGAACTGGATTTGGAGCACGGCGTATCCCGGGCCAGTTACCGGATTGGAGAGATCCGATATACCCGTGAGTTGTTTGCCAGTTACCCGGATCAGGCGATCATCATGCGGATTTCGGCTGACAAACCGGGGGCGGTATCTTTAAAGGCAAGGTTTAATCGTCGAAATTGGAGATACATGGAGAAGACAGATAAATGGGACCAGCAGGGACTTGTGATGCAAGGGGAATGCGGCGGCAAAGGAGGCAGCTCGTTTTGCGCCATCGTGAAGGCGCTTTCAGAAGGCGGAGTATGCAAGACTATAGGTGAATATCTTTTGGTTGAAAATGCTGATGCGGTAACGCTGCTGCTTACCGCGGGTACGACCTTCCGGCATCCTGATCCAGAGCTTTACGGCAAACGACGGTTGGAGGAATTGAGCCAAGTTTCCTATACTGAGCTGCTGGTCCGACATATTAAAGATTACACTGAACTGTTCGGGCGGGTGACCCTAAGTCTGTCGGAAAGCCCGGGAAAAAACACGCTGCCGACCGATGACAGGCTGAATCGGTTCCAACATGGCGAGGAAGACCACGGCCTGATCGCGACCTATTTTCAATTCGGCCGATACTTGCTTATTTCCTCCAGCCGGCCGGGTTCTTTGCCTGCGAACCTTCAAGGCATCTGGAACGATAGCTATACTCCGCCATGGGATAGTAAATTCACGATCAATATTAACACGCAAATGAACTACTGGCCGGCAGAAAACTGCAATCTGTCCGAATGCCATGAGCCATTATTCGATTTGATCGAAAGGATGCGTGAGCCCGGGCGGGTCACGGCCAGCGTCATGTATGGCTGCCAGGGATTCACGGCGCATCACAATACGGACATATGGGCGGATACAGCGCCGCAGGACACTTATCTTCCGGCTTCATTCTGGCCGCTCGGCGCCGCCTGGCTGTGCCTGCATTTGTGGGAGCATTACCGTTTCAGCCAGGACCGTTATTTTCTGGGACAAGCCTATGAAACGATGAGAGAAGCGGCAGTCTTTCTGCTCGATTATTTAATCGAGGATAACGAAGGTGGTCTGGTGACTTGTCCGTCCGTCTCCCCCGAGAACAGCTACAGGCTGCCCAATGGCGAAACAGGTGTTCTCTGTGCCGGGGCCACGATGGATTTTCAGATTATCGAAGCGCTGTTTGAGGCTTGCATCCGCAGCGGAGAAATCATCGAGAAGGATGAGGCGTTCCGCGAGGAGCTCGCTGCCGCCTTGAAGCGGCTGCCCAAACCGCAGATCGGCAAATATGGGCAAATTCAGGAGTGGATGGAGGATTACGAGGAAGTGGAACCGGGACATCGCCACATCTCCCATCTGTTCGCGCTTTATCCGGGCGAAGGTATTAACGTGGATTCCACGCCGGAGCTCGCCGCAGCGGCTCGGACGACTTTGGAACGAAGGTTGGCTAACGGCGGCGGACACACCGGCTGGAGCCGGGCGTGGATCATCAACTTCTGGGCACGACTGTTGGATGCCGACAAAGCTTACGAAAACGTTAGAGCGATGCTTCACTACTCAACGCTGCCTAACCTTTTCGACAACCATCCGCCGTTTCAAATCGATGGTAATTTCGGCGGCACAGCGGGCATTGCCGAGATGCTGCTGCAAAGCCACGATGGTTTGATCCGTCTGCTACCCGCTTTGCCTAACAGCTGGAGCGATGGGGAAGTCAGAGGGCTGCGGGCACGAGGCGGCTTCACCTTGAATTTCACCTGGACGAAGGGACAGGTTACTGAAGTGGTCGTGTCCTGCGCAGTCTCCGGTCCATGCCGTATAAAAGCACCTGGACTTGACCCTGTTTCGTTTACAGGGGAAGCCGGCCGCTCCTACACGTTCACCAAGAAAAGGGATGAGTGA	MINKNGIAGVEQKQRLWYLQPATDWNEALPIGNGRLGAMIFGGIAEEKLQLNEDSVWYGGPRDRNNEDALPHLPVIRELVMNGRLHEAEALAGMAMAGLPESQRHYLPLGDLLISFDRHEMAKDYERELDLEHGVSRASYRIGEIRYTRELFASYPDQAIIMRISADKPGAVSLKARFNRRNWRYMEKTDKWDQQGLVMQGECGGKGGSSFCAIVKALSEGGVCKTIGEYLLVENADAVTLLLTAGTTFRHPDPELYGKRRLEELSQVSYTELLVRHIKDYTELFGRVTLSLSESPGKNTLPTDDRLNRFQHGEEDHGLIATYFQFGRYLLISSSRPGSLPANLQGIWNDSYTPPWDSKFTININTQMNYWPAENCNLSECHEPLFDLIERMREPGRVTASVMYGCQGFTAHHNTDIWADTAPQDTYLPASFWPLGAAWLCLHLWEHYRFSQDRYFLGQAYETMREAAVFLLDYLIEDNEGGLVTCPSVSPENSYRLPNGETGVLCAGATMDFQIIEALFEACIRSGEIIEKDEAFREELAAALKRLPKPQIGKYGQIQEWMEDYEEVEPGHRHISHLFALYPGEGINVDSTPELAAAARTTLERRLANGGGHTGWSRAWIINFWARLLDADKAYENVRAMLHYSTLPNLFDNHPPFQIDGNFGGTAGIAEMLLQSHDGLIRLLPALPNSWSDGEVRGLRARGGFTLNFTWTKGQVTEVVVSCAVSGPCRIKAPGLDPVSFTGEAGRSYTFTKKRDE	PGPT0018650_1261	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_03219	747		COG4753	putative response regulatory protein	ATGAAACTATTAATTGTAGATGATGAGCCGATTATTCTTGAGGGATTAGTCAAGGTCATCAAGGACGCGGCTCCGCTCGGTACGGAGGTGCGCGAGGCAGGCGACGCTTTTGAAGCACTTGAAGTCATGACGGGGTTTATGCCGGATGTTACGGTTACGGATCTTCATATGCCGGAAAAAAGCGGATTCGAGTTGATGGAGGAGGCGAAAGGAAACGGACTTTGTACGCGGTTTATTATTCTGACAGGCTATGACGAATTTGAATACGTTAGAAGAGCACTGCGCAGCGGCGTGGTGGATTATTTACTTAAACCGCTGGACAAAGACGAAATTGCAAAACTGCTAGCACGTATCGATGATGAACTGCCTTCCGAAGCTGATTCGGACTGTGAAAGGCACACGAAACGCATTCTTGCTTATACGCAAACGAATTTTATGAACGATCTTTCCTTGGATCACCTTGCCGATTTGATGAACCTTCATCCGAATTACATCAGCAGCCTGTTCAAGAAGGTGACAGGGGACACGTTTGTGAATTATTTGAACGCATTTCGTATCAAGGAAGCGCAGAAATTGCTGAGGACGCATCGGCATCTTTCCGTAAGCGAGGTCGGTCGGCGGGCCGGGTTTGAAAATAAACATTATTTCACCAAAGTCTTCAAAAAGTATACAGGGATCACACCAGGTGCCCACCGTGAAAAAGATGATATGGAAAGTATAGAGATGGATTCAAAAGAAAGATGTTAA	MKLLIVDDEPIILEGLVKVIKDAAPLGTEVREAGDAFEALEVMTGFMPDVTVTDLHMPEKSGFELMEEAKGNGLCTRFIILTGYDEFEYVRRALRSGVVDYLLKPLDKDEIAKLLARIDDELPSEADSDCERHTKRILAYTQTNFMNDLSLDHLADLMNLHPNYISSLFKKVTGDTFVNYLNAFRIKEAQKLLRTHRHLSVSEVGRRAGFENKHYFTKVFKKYTGITPGAHREKDDMESIEMDSKERC				NA	NA	NA	NA	NA
AK002_03220	1608			hypothetical protein	ATGAAGGCGGATCTGACCCGGATCGAATCCATCCACCGCTTGCTGCAATATAATCCGTATGTGACGGACTATCTGAGCGGAGCTTATGAATCTGATTCCGAAAGCATCTACGCATACAACCGTTATATCAGCCCGATCATGACACAGTCGCTGTTTGCCAATCCGGAAATCGAGTCGCTTCGAATTTATAAGACCAAGGCACAGGTGCTTCGAATCACCGACCGGTTTCTCGAGATATCGTCCCTTGATTCGAAGAACAAGGAGTTAGTAAGTTTGCTGAAACCCGGTCAAGGAGCATGGATTGTCCCCGATCCTGGAGCTCAGGAACCGCGGCTTGTTTTTTATCAGTACATATATAACCCGGAGTTTACCGAGATCGTCGGACTTCTTGAGCTGCGCATCGGCAGGGGTCTCATGCAGAAATTTTACAAGGCCATCGGCATGGAAGGAGACTGGGAAGCGATTCTGTTACCGTTTGGTGCGGCGATAATTGAGGATACGACTGCCCGAATGGATGAGGAAACCCGGAAACTGCTTGGAGCAAGCGACACGGAGCCCTATTATATTAATCGGAAAACGATCGTGAATCATCTCTCCATTGAGGAGCTTGGGGTCCGACTCTTCGTTGTCGGAAAGGTAGACGTCGTGTTTCATACGATTAAACGCAAGGAAATCATTCTGATTTCAACCGTTGTTGTTTTTTTGGCGGCACTGTCGCTAGCGTATTATGTACTTGCATCCACGATCACAAAGCGCATTCTTCGCCTGGCTAGACACATGCGTAACCTGAACGACAACAATATGAGACCGTACATCAGCAAGCACGATAATCCGAACCGCCAGGATGAAATCGGGTTTCTGATCACGACTTACAATTCGATGATTCAGCGGATGGACGAATTGATTAACAATGTCCACCGAGCCGAGTTGCGAAACAAAGAAGCTGCATATAAAGTGCTTCAAGCCCAAATCAAACCGCATTTTCTATATAATACGCTTGAAACCATCAGAATGCTGGCCGAGTCAAATAACGATAAGGAAATAGCTGATATTTCCTTCTGGTTCGGGAGGCTGATGCGTTACAGCTTGTCTTCCAAGGAGGATCAAACGGTTCTCGCCAAGGAAATCGAGACGGTCATCTTCTATCTTAATATACATAAGATGCGGCTCCGAAACAGACTTAGCTACATGATTGACATCGACGTTGACGCGGATCAAATCGCTTGTCCCCGGTTTATACTTCAGCCCTTGATTGAGAACAGCATCATCCATGGGGCTGCAGCAACGCTTCGCCCCGTTCATATCAGCCTTCATGCTTCAGAAACCGCCGATGAAATTCGGATCTGCATTTCGGACAATGGAATAGGGATTCCGGAAGACAAGCTGTCAAGACTTCGTTCAATGCTAACGGAAGGAGACGATATCCATCCCAGCAAAGAGAACGAGGGGGGCGGGGTTGGCCTGATTAACGTGAGCGAGAGGGTCAAATCCTTTTTTGGCGGTGCTTCACGACTGGTTCTTGATAGTGAGCAAAGCCAGGGAACACGTCTCACGATCATCATAACGAAAGGGGCGGCGGTCAACGATGAAACTATTAATTGTAGATGA	MKADLTRIESIHRLLQYNPYVTDYLSGAYESDSESIYAYNRYISPIMTQSLFANPEIESLRIYKTKAQVLRITDRFLEISSLDSKNKELVSLLKPGQGAWIVPDPGAQEPRLVFYQYIYNPEFTEIVGLLELRIGRGLMQKFYKAIGMEGDWEAILLPFGAAIIEDTTARMDEETRKLLGASDTEPYYINRKTIVNHLSIEELGVRLFVVGKVDVVFHTIKRKEIILISTVVVFLAALSLAYYVLASTITKRILRLARHMRNLNDNNMRPYISKHDNPNRQDEIGFLITTYNSMIQRMDELINNVHRAELRNKEAAYKVLQAQIKPHFLYNTLETIRMLAESNNDKEIADISFWFGRLMRYSLSSKEDQTVLAKEIETVIFYLNIHKMRLRNRLSYMIDIDVDADQIACPRFILQPLIENSIIHGAAATLRPVHISLHASETADEIRICISDNGIGIPEDKLSRLRSMLTEGDDIHPSKENEGGGVGLINVSERVKSFFGGASRLVLDSEQSQGTRLTIIITKGAAVNDETINCR				NA	NA	NA	NA	NA
AK002_03221	1566			hypothetical protein	TTGAAAATATCTAAGAAGAGCTATAAACTGCTCGCTGCGGCACTATCGGCGGTGCTTGCGTGTACGCTGCTCTCCGCCTGTGGGAGCAGCGGCGGTGGAGTTTCGACCGCGAAGCAGGATGGTGATTCTTCGACAACAGCAGGCGGTGTGAAGGAAATGTCGCTGTTCATCGATGCGCCATGGTATCCGGTTAAGGAGTGGAAAGGCCCGGTAGCAGAGAAAATTACAGAGGAGACGGGTGTCAAGCTGAATGTAACTGTCGCAACCGACGATAAGCAGCTGCCGCTGATGATTGCCTCCGGAGATTTGCCGGACCTCGTCTTCACGTATGCTAACATTGATCGGATGTCGGATTCGAAGCTGTCCTACCCCTGGAATGAGCTGATCGAGAAATATGCGCCGGGTTTCAAAATCGATAAAACGAGAATAGCGATCCATACGATGGACGACGGCAACTTCTATACGGTTCGAAATGCTTTTGCGACGCAGGAAGAAATGGCTCAAAGTAAATATTCCATTGGCAGCGATGGCAATCCAGGGATTGCCGTTCGGGAAGATATTCTGAAGGAACTCGGCAATCCACCGATTCAATCGCTGGACGATTTCGTAAAGGTTTTAGGCATGGTCAAGGAGAAGCATTCCGATTTGGTCCCGCTAGTCCTGGATAAAGAATGGATCGAGCAGTACTTTATGCAGCAGTTCGGCACAGAGGCTCTCATCGACGGCTGGTATGAGAGAGACGGATTAGTCGATTATGCGATCAGACAACCGAAGATGCTGGAGTATTTCAAGTTCATGAACAGCTTATATCGCAATGAATACATTCTCGCGGAAAATTTTGCTTTTGCAAATGATCAGATTGATGATCAATACGTGACAAGCGGCAAAGCCTTCGCCCACGGTTATACCGTTTCCGCTGCGGAGGCGGACAACAATAAAATCAAGAGTAACGGGGACTCGTTTACGTTAAAAATGCTTCCGAGCGTTTTGTCGAAGGATGCTAAAGCCGTGAGTACGGGTTTGGGATTTGCTGGTACTTTTATCACGAAGAAAAATAAGGATCCGGAAGCATCCATCAAATTTATTGAGTACTTGGCGAGCGACGAAGGCAAAAAACTGACCATGTTTGGAGTCGAAGGCGAACATTGGACATGGAATGAAGCGGGTTATCCCAACCTCAAATACGACCCTTCCGATGCCGACTTCGTTAACGGCAACGGGATAAAATGGTGGTACCTATACAACGATGGAGTCACCGAAGGCATGCTGTCCTATGTTCCGGGATCGCAGAAGACACAGGCTTTAATGGAAACTAAGGCCGTAACTACCTACAAGCCGGCGATCGGTCTTATTCAAACGCAGCCGGATTCCCAAGAAAAGACGCTCAAGACAAAGATCGACGAGATGATTAAAAATGAGAAGGTGAAAATTTATTTGGCCAAATCCGAGGAAGAGGCGGTTGCGAATTATGAAAATATGGTGAAGACTGCCGAGAATATGGGCTTGCAGGAGCTTGTCGATTGGGCAAACGAAACATACCAGAAGAAGAAAGATTTATTCGAGTAA	MKISKKSYKLLAAALSAVLACTLLSACGSSGGGVSTAKQDGDSSTTAGGVKEMSLFIDAPWYPVKEWKGPVAEKITEETGVKLNVTVATDDKQLPLMIASGDLPDLVFTYANIDRMSDSKLSYPWNELIEKYAPGFKIDKTRIAIHTMDDGNFYTVRNAFATQEEMAQSKYSIGSDGNPGIAVREDILKELGNPPIQSLDDFVKVLGMVKEKHSDLVPLVLDKEWIEQYFMQQFGTEALIDGWYERDGLVDYAIRQPKMLEYFKFMNSLYRNEYILAENFAFANDQIDDQYVTSGKAFAHGYTVSAAEADNNKIKSNGDSFTLKMLPSVLSKDAKAVSTGLGFAGTFITKKNKDPEASIKFIEYLASDEGKKLTMFGVEGEHWTWNEAGYPNLKYDPSDADFVNGNGIKWWYLYNDGVTEGMLSYVPGSQKTQALMETKAVTTYKPAIGLIQTQPDSQEKTLKTKIDEMIKNEKVKIYLAKSEEEAVANYENMVKTAENMGLQELVDWANETYQKKKDLFE	PGPT0017245_1891	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03222	888	melC_11	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	GTGCTGAAGAGCCAAAGACAGAAGGATATTCTCTTTGATAGCTTTATTTATATTGTGTTGTTTATGATGGCGCTCATCTTGCTGTACCCGTTCTATTATGTATTCATTGCCTCGTTTAACAAAGGCTCCGATACACTCTTGGGAGGCATATATCTATGGCCCCGAAGCGTCACTCTGGAGAACTACAAAATTTTCCTGGAAGATCCAAAGTGGTATGGTGCCTTTTTGATCACGGTTGCCCGTACAGTTTCTGGCACGGCTTTGGGGTTGCTGCTGACAAGCCTGGTCGCTTATGCCCTTTCACAACGTGATTTGTTGTTCAGCAAAACGTATTTTACAGTCATCATTTTCGCGATGTATTTTTCGGGCGGATTAATACCCTATTATGTCGTGCTGCGCTCGATCGGACTGCTAAATTCATTTGCGGTTTATATCGTGCCGTCCATGCTCAACACGTTCTTTCTGCTCATTGCCATCTCGTTCTTCCGCGAAATTCCCGGCGAACTGAAGGAGTCAGCCCATATAGACGGCGCTGGTGAACTCAAGATTTTTTTTCGGATCATTCTGCCTGTATCGACGCCGGTACTCGCCACGATGGCTTTATTCATGGGTGTCGGTCAATGGAATTCTTGGCTGGATTCTGCTTATTTCGTTCAATCCGAGAACTTGAGAACGCTTACTTTTCGGATGATGGAAGTGATCAACAAGAGCAACTCGCCTATGGATTCTCTTGCCGTTGCAAACAGCGCTTCGGCCTCGGCCGGAGTGACGAGCTTCTCGCTGCAGGTGACGGCGATGGTCATTTCCATCGTTCCGATCATATGCGTATACCCCTTTTTGCAAAAATACTTTGTGCATGGAATTATGCTAGGCTCAGTGAAAGGGTAA	MLKSQRQKDILFDSFIYIVLFMMALILLYPFYYVFIASFNKGSDTLLGGIYLWPRSVTLENYKIFLEDPKWYGAFLITVARTVSGTALGLLLTSLVAYALSQRDLLFSKTYFTVIIFAMYFSGGLIPYYVVLRSIGLLNSFAVYIVPSMLNTFFLLIAISFFREIPGELKESAHIDGAGELKIFFRIILPVSTPVLATMALFMGVGQWNSWLDSAYFVQSENLRTLTFRMMEVINKSNSPMDSLAVANSASASAGVTSFSLQVTAMVISIVPIICVYPFLQKYFVHGIMLGSVKG	PGPT0017255_1995	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03223	984	yteP_37	COG4209	putative multiple-sugar transport system permease YteP	ATGGAACTGAATAGACAGCTTACGAGCCCCACCGCAGGAGTAGGTCGGCGATCGCAATTATGGAAGCGGTTCAAAAAGCAAAAAGTACTTCATGTATTTGTCGGGCTAGGCATGATTTTTCTGATGATTTTCTCGTACACGCCGATGTTCGGTATTCTCATGGCGTTTAAGGACTACAGCATTTCAAATGGCATTAAGGGAATCTTCACTAGTGAGTGGGTCGGGCTGCGATATTTCGATGAATTCATCAACGATTATCAGTTTGCCACGTTAGTCCGCAATACGCTGGTCTTAAGCTTTCTGAAGGTCATCTTCGCTTTTCCAGCTCCAATTCTGCTTGCAATCCTGTTGAACGAAGTGAAAAACATGGCGTTCAAGCGATTCGTGCAGACCATCAGTTACTTGCCGCATTTTATTTCATGGGTTGTTGTTGTTGGGGTATCTTACGCCTTCCTATCCGCGGATGTTGGGATGGTAAATAGAGCACTGACAGAAGCCGGTTTCATTGATAAACCGCTTCATATTTTGACGAGTCCCAATTATTTCTGGGGACTTGCTGTCGGAAGTGCAATTTGGAAGGAAATGGGCTGGTGGACGATCATCTTCTTGGCTGCCATAGCGGGAATAAATCCTTCGCTTTATGAAGCTGCTGAGATTGACGGTGCCGGCAGGCTGGCACGGATTCGTTATATTACACTTCCAGGTATGAGAGGGACGGTTGTTGTTGTGCTGGTTCTGACGATCGGCAGCATACTCGGAGGCGGTCTGGTCGGTTCAAACTTCGAGCAGGCATATCTGTTTGGCAACAGCATCAATAATCCGACATCGGAGATTGTCCAGACCTACGCTTTCAAAGTCGGCCTGAGTGACGGGCGTTTTTCATATGCGGCGGCGATTGATCTTATTCAGTCCGTCATCTCGGTAGTCTTGATTTTTTCCAGCAACTTCATCGCTAAACGTGTGTCGGGGTCAAGCTTATTCTAA	MELNRQLTSPTAGVGRRSQLWKRFKKQKVLHVFVGLGMIFLMIFSYTPMFGILMAFKDYSISNGIKGIFTSEWVGLRYFDEFINDYQFATLVRNTLVLSFLKVIFAFPAPILLAILLNEVKNMAFKRFVQTISYLPHFISWVVVVGVSYAFLSADVGMVNRALTEAGFIDKPLHILTSPNYFWGLAVGSAIWKEMGWWTIIFLAAIAGINPSLYEAAEIDGAGRLARIRYITLPGMRGTVVVVLVLTIGSILGGGLVGSNFEQAYLFGNSINNPTSEIVQTYAFKVGLSDGRFSYAAAIDLIQSVISVVLIFSSNFIAKRVSGSSLF	PGPT0017250_632	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03224	420			hypothetical protein	ATGGATTTGATTATTGAAAAAACTAGAGATCTTAATGCAAGTAAGAAAGCTGTTTGGAAGGTATTGACTGATCCTGATTACATTAGAGATTGGTTAGGTGTACATATTGAAACGGATTGGAGAGAAGAGAGTCCGATCACATTTTCATTCTCATGGGACGGACAAAACCTTACCGATAAGGGACATATATTGAAATTCAAGGAACCGGACACTTTCTCTTATGATTATTGGAGTGGTTTTTCGGGAACTCCAGACACTCCAGAAAATTACTCAATTATTACGTTCCAATTATTAGGTAATCACGATAGTACAACACTTGTTTTAACGCACCGTAACTTTTCAACACCAACGATGTATGAGCACTCGGATAAAAACTGGGAAGAGACTTTAGACAAAATAAAGCTATTAGCAGAAAAGTGA	MDLIIEKTRDLNASKKAVWKVLTDPDYIRDWLGVHIETDWREESPITFSFSWDGQNLTDKGHILKFKEPDTFSYDYWSGFSGTPDTPENYSIITFQLLGNHDSTTLVLTHRNFSTPTMYEHSDKNWEETLDKIKLLAEK				NA	NA	NA	NA	NA
AK002_03225	552	yyaP_6	COG0262	putative protein YyaP	ATGGGACGTATAATTCTGATGATGAATGTGACACTGGACGGCTGCTGTGACCACACGCAGGTGATTGCGAATGAGGAACTCCACAAGTATACGATGGACCTGATGGACGAGTCTGATGGTCTGCTTTTTGGACGTGAAATCTACCAGTTGATGGAAAGTGCGTGGCCAGCCATTGCCAGTAGCGGTGACGGACCTCAGTTCTTGGTCGACTACGCACGCATGCTCGATCGGAAACCCAAGTATGTCTTCTCGCGGACGCTGAATCACTTGTCGTGGCAGAACTCTTACCTGTTGAAGGGGCCTGTTTCAGAGGAGGTGCCACAGCTTATGGCAGAAGGGAAGAACCTAGTCGTTAACGGCGGTCCCGGCCTTGGTTCCACCCTGGCACAACTAGGCTTAGTGGATGAGTATCACTTCCTGGTACAGCCCATCGTTGCCGGACGTGGCCCCCAATTATTGGGGGGAGTTCATGATCGACTGAATCTAAAGCTGATCGAGACCCAACCCTTCAGCTCCGGCGTCGTGGTGCACCGCTACACGTCCGTTCGTTAA	MGRIILMMNVTLDGCCDHTQVIANEELHKYTMDLMDESDGLLFGREIYQLMESAWPAIASSGDGPQFLVDYARMLDRKPKYVFSRTLNHLSWQNSYLLKGPVSEEVPQLMAEGKNLVVNGGPGLGSTLAQLGLVDEYHFLVQPIVAGRGPQLLGGVHDRLNLKLIETQPFSSGVVVHRYTSVR				NA	NA	NA	NA	NA
AK002_03226	585			hypothetical protein	ATGAAAAATTCACCTACTACTTCTGATGACATCCTGATTTGTGCTCGTTCTTTGATCATCGATGGCGGCTACAACGGTTTTAGTTATGCCGACATCGCTGACGTGGTTGGGATTCGTAAGGCGAGCATCCATCACCATTTTCCAAGCAAGGTCGATCTGGTTCGAACACTGGTTGCAAGGTATCGGGAAGAAGCTGAAGCGGGGATGGAGAATATTGAACTCCATGTACCCGATGCTCTTGAACAGCTTCGGTTTTACGTTAGCTATTGGAAAGCCTGCATCGCAGACGCTAGTGCTCCGATTTGTGTCTGCGCGTTGTTGGCAAGCCAGCTCCCCGTCCTGCCCGAGGAGGTTGCCATGGAGGTCAGGGAGCATTTCCGCTATCTGTCAACGTGGTTGACATCCGTGCTGGATCGCGGATCGCGGCTTGGGCAACTTCAACTTAGAAGTACCCCCCATGCCGAGGCCGAAGCATTCATGGCTACGGTTCACGGAGCTATGCTTTCGGCGCGGGCCTATGGCGATCCGAATATGTTCAGCTTCGTGACAGACCCGCTATTGGAGCGACTCGCACTTCCATTGTGA	MKNSPTTSDDILICARSLIIDGGYNGFSYADIADVVGIRKASIHHHFPSKVDLVRTLVARYREEAEAGMENIELHVPDALEQLRFYVSYWKACIADASAPICVCALLASQLPVLPEEVAMEVREHFRYLSTWLTSVLDRGSRLGQLQLRSTPHAEAEAFMATVHGAMLSARAYGDPNMFSFVTDPLLERLALPL				NA	NA	NA	NA	NA
AK002_03227	513			hypothetical protein	ATGTTTGGAATTTCACCACTCGGCTGGGTGCATACGCTCAGCAGCTTGCCCGCCATTCCGCTGGCTACATATATGTTTGCTCGCTACGGACGGATTGTCCCTAGGTCAAGGCTTGGTGTCGTCTACTTCATTTCGATGATGATCGGCGCCATCACGGTATTCCCCATCGCTCATCAGTCGGTAAGCTATGTCATTAGCACAGCAACGATCCTGCTGCTGCTCGGCGGATACGGCGTCGGGCGTATTACAAGCTTTGGGCGTTCCGGCAAGTACCTTGAGACAATCTTCCTCAGCCTGACGGCGTTTCTGTTGTTGTTGCCGACTGTTACTGAAATCCTGACCCGTGTTCCAGACGGCAACCCCTTAGTCACCGATCTAAGTTCGCCAGTCTTACTTGGTGCTCAAGCCACTCTCCTCGTCATTTTTATCGTTGGTTTGACAGCACAAATCATCCATTTGCGCAAGCAAAACAGACTGGATACTTTCGACTCGTCAACCGAGATGTCTGCTTAA	MFGISPLGWVHTLSSLPAIPLATYMFARYGRIVPRSRLGVVYFISMMIGAITVFPIAHQSVSYVISTATILLLLGGYGVGRITSFGRSGKYLETIFLSLTAFLLLLPTVTEILTRVPDGNPLVTDLSSPVLLGAQATLLVIFIVGLTAQIIHLRKQNRLDTFDSSTEMSA				NA	NA	NA	NA	NA
AK002_03228	642	resA_2		Thiol-disulfide oxidoreductase ResA	ATGTCATTAACTCAAGCATTAGCCACTGTAAAACAGGAATTTATAGCGCATACCCCTTTGGAGATCCAAGCGGAGATGTTCCGACAGATCCAGGAGCAACAGGAGTCCGGCATAGCTTACGGTCGACAGGAGGGGCAGAAGGCCAAGGATTTCACACTCAAAAATGCTTTGGGAGAATCGGTTAACCTCTATGATGAACTGTCCAAAGGACCTGTTGTCCTAACTTTCTACCGGGGCGGATGGTGCCCGTTCTGCAACACTCAGCTTAAGAGCTATCAGAAGCTGCTTCCGGATATTGAAGCCCTTGGGGGTCAGCTCATCGCAGTCAGCCCACAAAGTCCGGACAACACGCTTTCCCAGCAAGAGAAAGAAGAGCTGTCCTTCCAAGTGCTCAGCGACACAAACGGTCTCGTGGCCGCTTTCTATAATATTCTTTACGACGTTCCGGACTACATCCAGGACATTATGAAACAAATAGGCATGGACCTAACGGAATACAATGCGATGAACCGCTGGGTCCTGCCGATCCCTTCCACCTTCATGATCGATGAATCTGGAATTATCCGTTCCGCCTATGTCAATCCGGATTTTATGCAGCGATTGGATCCGGAAGACATTCTGCATGAGTTGAGAAAGCTTTAA	MSLTQALATVKQEFIAHTPLEIQAEMFRQIQEQQESGIAYGRQEGQKAKDFTLKNALGESVNLYDELSKGPVVLTFYRGGWCPFCNTQLKSYQKLLPDIEALGGQLIAVSPQSPDNTLSQQEKEELSFQVLSDTNGLVAAFYNILYDVPDYIQDIMKQIGMDLTEYNAMNRWVLPIPSTFMIDESGIIRSAYVNPDFMQRLDPEDILHELRKL				NA	NA	NA	NA	NA
AK002_03229	525			hypothetical protein	ATGAGCAAAGGGAAAATCGTGTTTTTGAACGGAGTAACCAGTTCAGGAAAAACATCTATTGTAGACGCTATTCAATTAAAATCGGACGAGTTTTATTATGTTGTTGCAAACGATCTTTTTGAAAATACAATTGGCGACCACTATCTTCGAGAAGACTATTGGAAATATTTAAGTGATGCCATTATTATGATGTATCATACCGCCAAACTATTTTCTGACCATGGTAAAAATGTGCTTATCGATGGCATCTTGGTAGAAAGACCTGAGTTAAAGCCGCATTATGAAAAAGTTAAGGACATATTTGCTGGGTACCCCTTTTATATGGTTGAAGTGTTTTGTCCCTTGGAAATTTGCCGCCAAAGAAATATTGAACGTGGAGATAGAGCTGAAGATCAATCAGACTTGCAAAACAAAATGATGGCAAAAGATATACAGTACGACTGTACTGTCAACACACACGTAAATTCTTCAGAAGAATGTGCAGATTCGATTCTAAAATGTTTGCATGGTAGGTCTGAGGATTAA	MSKGKIVFLNGVTSSGKTSIVDAIQLKSDEFYYVVANDLFENTIGDHYLREDYWKYLSDAIIMMYHTAKLFSDHGKNVLIDGILVERPELKPHYEKVKDIFAGYPFYMVEVFCPLEICRQRNIERGDRAEDQSDLQNKMMAKDIQYDCTVNTHVNSSEECADSILKCLHGRSED	PGPT0028040_241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0028040-cpt-K18554	NA	NA
AK002_03230	459			hypothetical protein	ATGAAACTAGTTGCTTTTTTTCCTTATCGAAATGATGTAAGGAAAGTCCTGATCCCTTATTTAAACCAATTGACGGAAGAACAGTGGTATGCAACGCATCCCGACCATCCCAACTCTATCGCCTGGATCGTTGAGCACATCGCGCGCAGCGAAGACGAATGGATTAACGTGATTAGTTCTAAGGGAAAATGTCAACTTCCGCAGTCTTTGGATCACTCGCAGCAAATTTTACAGGCCTATATCGACATTCGGAACCAAACGGAGCTCAAGCTCAATTCCATGGTTTACGATGAATATGAACCAGCCATACAGCTCCCTCGTTTTTCAGACGGTTGGGAACCGCCTTCGGCGCCGACACTGCGATGGATCTTCCATCATGTTTTCGAGCATGAGTCGTACCATGTCGGTCAAATCGGCGTCATCGCACGTCTGAACGGATTCCCCGGTCCCCTTTTCTAA	MKLVAFFPYRNDVRKVLIPYLNQLTEEQWYATHPDHPNSIAWIVEHIARSEDEWINVISSKGKCQLPQSLDHSQQILQAYIDIRNQTELKLNSMVYDEYEPAIQLPRFSDGWEPPSAPTLRWIFHHVFEHESYHVGQIGVIARLNGFPGPLF				NA	NA	NA	NA	NA
AK002_03231	210			hypothetical protein	TTGCGTAAAAAAGGTAGGAACGTAACAGGTATTGTATTCGCCGTAATTTACTGTGTTGTTCTTTTTGAGATTTTAATTGATGCACCCCCTGGTGAAGCTCCAAATAATCCGCCTTGGGCATACGCAATGATTCCACTTGGGGCTGTTGCAATCACCTTTCTCTTTGATTATGTGATCAAGTTCGATTTCTTCAAAAAAAAGAAAGAGTGA	MRKKGRNVTGIVFAVIYCVVLFEILIDAPPGEAPNNPPWAYAMIPLGAVAITFLFDYVIKFDFFKKKKE				NA	NA	NA	NA	NA
AK002_03232	870			hypothetical protein	TTGAAGTACATTAGGACGATTATGATGATAGTAGGCGGCATCTGCTTGTTGGGCATTGGCTGTACAGTTCAGAAACAAGAATCGGAGATTACCCTAAGCGAACTCAAACAATCCGATAACAATATTCGCGTACCACATAATGAGCGACTACATATGTCTACTGATCAGAGGTGGGTTGAGGAAGAGGGGCATCAGTCTGATCTGATTCGCCTTCAATGGACGGCGGAAAGGGCTAAACCTGCCATCGTGTGGCTCGACGAGAAGGGAATGAACAAAACGGCGATCATATCGCATGACAAGGCTAACAATCCGGAGCAGCACGACCATAAGCATATCTCATTCGAAACCACGATGTCGCCAACGGGTGAATATCCGAACCAACTGTTTACCCGGTTTGAAATTCCTTACGATACTGACGTTAGCGAGATTCGTACGCATTCTTCCAACTTCAATGTAATGAGCGGCATATTGCGAGTCGCAGGGGAAAAAGGGACTAACCGGGATATCCAGTTCAGTGTAGCCGGCAAGGAAAATGAGACGATAACGAGATGGGCCCTTCGGGCAGATAGTTCCGAAGAACCGGGGGACAATTCCGGAGCCGACATGCAATTCGTTCGTTATGACGATGACGGCAACGTCATTGATTCCCCGCTAACCATAAAGCGCAGCAGTGGTAATGTCGGTATAGGTACGAATGACCCCGATACCAAATTAGATGTAAACGGGGATATGCTTCGAATCCGGGACAAATTTACGCCTGCCTCATCCACAGATGCCTGTAGTCAGGGTCAGATAGCATGGGACGACGATTATGTATATGTTTGCGTTACCGAAAACAAGTGGAAAAGAACAGAGCTCTCGTCGTGGTAA	MKYIRTIMMIVGGICLLGIGCTVQKQESEITLSELKQSDNNIRVPHNERLHMSTDQRWVEEEGHQSDLIRLQWTAERAKPAIVWLDEKGMNKTAIISHDKANNPEQHDHKHISFETTMSPTGEYPNQLFTRFEIPYDTDVSEIRTHSSNFNVMSGILRVAGEKGTNRDIQFSVAGKENETITRWALRADSSEEPGDNSGADMQFVRYDDDGNVIDSPLTIKRSSGNVGIGTNDPDTKLDVNGDMLRIRDKFTPASSTDACSQGQIAWDDDYVYVCVTENKWKRTELSSW				NA	NA	NA	NA	NA
AK002_03233	930			hypothetical protein	ATGTCGGTTCTGAAAAAACGTAAGTGGATTTTATGGTTGTCAGCTTTAGTCCTGATCGCTGCAGTTCCAATAACAATTTTCATGCAAATCATCATTCATTCAAATATACCAGAACTTGCGGAAGGCAGCATTGAGCAGCGGTATGCGCAGAAAGGAAGCTATCATGTAAAGGTAGAAGAAGTTAAGAGAATGAGTGGGGAGGCTTTATTTAGAGTATACTACCCGGCATTTCAAGAAGACGAATCCTATCCTATTATTTCATGGGGGAATGGAACAGATGCCACGCCAGATCGTTATGATGAGCTCTTAACTCATCTAGCTAGCTGGGGATTCATAGTAATAGATTCGTATAGCAAGACAACAGGAACTGGCAAAGAAATTGTGGAGGCTATTGATTATTTGAAAAATGAAAACGAACAGGCAAACAGCTTGTTTTATCAAAAAATACAAATGGAACATATTGGTGTGGCTGGACATTCTCAAGGGGCTACAGGGGTTATTAATGCACATACCAACTATAAAAGTGGTTCGTTGATTAAGACGGTTGTTTCCATCGCTCTCCCGGATTTGAAGCATTGTGATCCAGAAGATGTGTACGATACAGCACGTATTACCGCCCCTTTTCTCATTATGGGAGGTACACGAGATTTTCTAATCTCACCGGTATCAACGAATCAATTAGCCTTACATAATACTCATCCGAACACGCCTGTTATGATGGGGATGGCAAAAGGTGCCGCTCATACAGCGATTGAAGGTAATGGTGGCAATCATAGGGGGTACTTGACGGCTTGGATGAGATATCGGCTGTCTGATGATCAGGAAGCGATGAAGGCATTTCATGGGGATTCTTCCGAGATGATGCATAATGCAAATTGGGTGGACGTTGAACAAGCTAATATGGATGATCATAAATTCGTGAATCCATAA	MSVLKKRKWILWLSALVLIAAVPITIFMQIIIHSNIPELAEGSIEQRYAQKGSYHVKVEEVKRMSGEALFRVYYPAFQEDESYPIISWGNGTDATPDRYDELLTHLASWGFIVIDSYSKTTGTGKEIVEAIDYLKNENEQANSLFYQKIQMEHIGVAGHSQGATGVINAHTNYKSGSLIKTVVSIALPDLKHCDPEDVYDTARITAPFLIMGGTRDFLISPVSTNQLALHNTHPNTPVMMGMAKGAAHTAIEGNGGNHRGYLTAWMRYRLSDDQEAMKAFHGDSSEMMHNANWVDVEQANMDDHKFVNP				NA	NA	NA	NA	NA
AK002_03234	903	melR_2		Melibiose operon regulatory protein	ATGACTAAGCCGCTGCATGAGACTATTTTGTATCCCGACGATGCGTTTCCTTATATCATGTACACGCATACGATTCATAAAAGTATTCCCGAAGGAAGAGGATTCAACGATCTGCATTGGCACGAAGAGCTGCAGATCACGTTGGTGACGAAAGGAAAACTGAGTATTCAAGTAAATGGGACGGATCATGAGCTGGAAACCGGTCAGGCGATTCTGATCAATAAGGGAGTTCTTCATGTGGCGAATCAGCTAACGCATGACGGTCAATATGTGAGTTTCAATTTTCCTGAAAAACTGCTCGCCTTTCACGCGGACAGTGCCATGGAAAAAAATTATGTGTTCCCTTTTACCAATTCTTCTTTCGTTTCGCTTGTGATCATAGGAGACTCGGAGTGGGAGAAGCAGGTATTGGACATGCTTTGGGAAATGAGAAAGAAGTTTAATATAAGAAAAAACTGGGGATGGGAGTATGAAATTTCGATTCAAACCGTACAGCTGTGGTACATCTTGATCTCCAATATATCCGTCTCTCCCATGGAAGCACCGAAACACGTGAAGCGGCAACAGGAGAGACTGCAATTCATGCTTAGCTTCATACATCAAAACTACTCGTTTCCTGTAACGCTTCAAGAAATTGCCGATGTTGCGCATCTGAGCATCTCGGAGTGTACCCGATGTTTTAAAAAAACGGTTCATATGACCCCCTACGAGTACTTGATCAAATACCGGATAAAGAAAAGCAGCGAATTATTAATATCAACGGACGACACCATAACCGAGATAGCCCGCAGGGTAGGGTTCAATCATGTCAATCATTTTATTCAGTCTTTTAAAAAGTACCACGAAAGAACACCCAGAGATTTTCGAAAGCTTAGAGCTGAAATGAAACAGTCCAAAGTTTAA	MTKPLHETILYPDDAFPYIMYTHTIHKSIPEGRGFNDLHWHEELQITLVTKGKLSIQVNGTDHELETGQAILINKGVLHVANQLTHDGQYVSFNFPEKLLAFHADSAMEKNYVFPFTNSSFVSLVIIGDSEWEKQVLDMLWEMRKKFNIRKNWGWEYEISIQTVQLWYILISNISVSPMEAPKHVKRQQERLQFMLSFIHQNYSFPVTLQEIADVAHLSISECTRCFKKTVHMTPYEYLIKYRIKKSSELLISTDDTITEIARRVGFNHVNHFIQSFKKYHERTPRDFRKLRAEMKQSKV				NA	NA	NA	NA	NA
AK002_03235	912			hypothetical protein	TTGAAAACAAATAAATCATCGCTACCGCTACATCCTTATATACTGCTATTTATCGCTATTCTGTCGGTATCCGTATCTTCGATCATGATCAAATCTTCGGATACACCAACCGCTGTAGCCGGTATGTACAGACTTTATCTATCGGCAATCATAATGCTTCCGTTTGTCCCCTGGAAAACACTCCGCTCCTTGAAACTGGACTCAAAGGATTGGGGAAACGTTGTATTAGCCGGCCTGCTTCTGGGACTGCATTTCCTGTTTTGGATGGAGTCGTTGGTATATACCTCCGTGGCGAGTTCCATGGTAATCCTGGCGCTACAGCCTTTGTTTGTGATGATCGGTTCGTACTATATGTTTAGGGAACGAGCGAGTGTGTTGACCGTTCTCTGCTTGGTTGCCGCCTTGTTTGGCTCGCTTATTATCGCTTGGGGAGATATTGGTGTTTCAAGAGAGGCATTGATCGGGGACGGTTTGTCACTGATAGGAACCATACTGGTGTCGGCTTATATGCTGGTCGGACAGAAAGTGAGCCAAAAAATCAATGCAAATCTATACAGTGTTGTCGTCTTCTTTACTGGGGGGAGTGTCCTGCTCGTCTACAGTTTGTGGAATCACCATTCTTTGACCCATTACAACGCTTCGGATTGGACATACTTCCTTCTGCTTGCGATCATTCCCACGATCTTTGGCCAATATGTTTTCAACGTGCTGCTTAAGTCCATTGGTGCTACAACGGTATCCGTAGGCATTATCGGCGAACCCGTTTTGGCCATTATGCTGGCTTATCTGTTTTTGGGAGAAACGATCTCCGCATTTCAATTCGTAGGTGGAATGATTACGCTTCTGGGCATGCTGACCTATTTTTGGCTGCAAACCTTAAGATATTCAGCTCACAAAAATCTTTCGCATTGA	MKTNKSSLPLHPYILLFIAILSVSVSSIMIKSSDTPTAVAGMYRLYLSAIIMLPFVPWKTLRSLKLDSKDWGNVVLAGLLLGLHFLFWMESLVYTSVASSMVILALQPLFVMIGSYYMFRERASVLTVLCLVAALFGSLIIAWGDIGVSREALIGDGLSLIGTILVSAYMLVGQKVSQKINANLYSVVVFFTGGSVLLVYSLWNHHSLTHYNASDWTYFLLLAIIPTIFGQYVFNVLLKSIGATTVSVGIIGEPVLAIMLAYLFLGETISAFQFVGGMITLLGMLTYFWLQTLRYSAHKNLSH				NA	NA	NA	NA	NA
AK002_03236	786			hypothetical protein	ATGAAAAAAACAATACTCGCACTAACACTTTCTTTAGTGTGTACATTACTGATCGGTAATCCAGCGATAAGCTTCGCTAATAATTTATCGAACACGATTGACAATGGAAAAATCGAAAATGGACGAATGCTGATTCCATTACGTGCTGTTTCAGAGAAATTCAATTCAGAAGTAACTTGGAACCAGGCAAAAAAAAGCATTACGATTATTCGTGGCAAACGAGAGCTATTGCTGCGTGTTGATTCTCGCACAGCTTTATTAAATAACGCTGCTTTCAGTCTTGATGTGCCAGCAAAAATCTATAAAGGAACGACTTATGTGCCCGCACGTGTTTTTGCTGAAGCTTTTGGCGGAACCGCGCTGTGGTCCAAACAAGAACGAAAAACAACCATTACGATCGGTCTGCAACAGGTCTTTATCCATACCGAGCCGCAGAAGTCTTGGAGAATGAGTCAAGAGAGAATAAACGTACTTAATGAAAAGATAAATGAAGCCACCGATCTCTCAAGCTTTTCCCAAATCCGAACACATTTCAGACCTTATTTCACGGGCTCATTTATAAACAAGATCATTCACAGTAATGGCATTAAAAATAACGCTATACTAACAAAAAAGGCCGATATTACCTACAGTGGTACCACAGCGGCGAGAATGCACCAATCGGCTTACTTTGAAAGCGGTCCTATCAATCTTGAGCTCGTTGATCGCTTTGTATTCTATAAATTTGAAGATAACCAATGGAAGGTAGACGATGTGAACGTGGGCAGACAAATTATAGAGCCATAA	MKKTILALTLSLVCTLLIGNPAISFANNLSNTIDNGKIENGRMLIPLRAVSEKFNSEVTWNQAKKSITIIRGKRELLLRVDSRTALLNNAAFSLDVPAKIYKGTTYVPARVFAEAFGGTALWSKQERKTTITIGLQQVFIHTEPQKSWRMSQERINVLNEKINEATDLSSFSQIRTHFRPYFTGSFINKIIHSNGIKNNAILTKKADITYSGTTAARMHQSAYFESGPINLELVDRFVFYKFEDNQWKVDDVNVGRQIIEP				NA	NA	NA	NA	NA
AK002_03237	1422			hypothetical protein	ATGAATAAGGTTTTATCAGGGCTTGTATTCGTTTTGGTAATGATGCTCAGCTTACCGGGACAGGCATCTATGGAGCAGGCTTCCTTGGAAGTAAGTTTTCAGGATGAGCAGTTGGAGCAAGCAATAAAAGAAATTATAAAAAAGGATGAAAATGCGGCTGTTACACAGAAAGATATGGAATCATTAACATTACTTGATCTTTCAAGACGAGAAATTAAAAGCATTCAAGGCTTGCAATCTGCTTCGAATTTGAAATATCTTGACTTGTCCAATAATGAAATTGACGATATTACGCCACTCAAGTCATTGACTAAGCTTCGCGAACTTGATATTGCGGACAATCAGATCGCTTCAATTCAGGAGTTGTCCGCCATGACGGATTTGGAAATGTTGATCGTAAACCGGAACCAAATTTCGTCGATTGATGTGATCAAGCAGCTTGGGCGTCTGCATTCATTCGAAGCGAACGATAATCAAATCTCGAACATTACGGCATTATCAATGGCCACAGAATTAACATGGTTACAACTGAACGGGAACCAGATCGCGAAAATTCAGCCCTTGAGCCGTTTAACCAAGCTAAAGAATTTGGAACTAGCGAGCAATCGATTCTCGGACCTGAGTCCACTTAAGCCGCTCTCCAAAAGTTTAATGAGCCTTAACATCGGAAACAATCGAATTTCGGATCTCCGTGCGCTTGAAGGAATGACGCTAATGAGGGTTCTTTCCGCGGACAACAATCAGATCAAGAAACTAGACCCACTGAAAAAAATGTCTAGCCTGTCTTCCTTGAGTCTAAACTCTAATTTGGTTTACAACCTTGAGCCTTTGAAATCCCTAAAGGAACTTCAATATTTATATCTAAAGGATAACCGTGTATGGAGTTTGGATCCCATTCGAAATCATTCGTTCGATACTCATTATGACACGGGAGCGCTAAGATACGCGTTGCAATTAAGCGGTAACTATTTGGATTTAAGAAGTACGACTAAAACGTATCAGCTTCTCAATAAGCTCGGTGGAGATGGATCCGTCTATTCCCAACTGAAAGCCCAGCGATTAGTGATCGGGAGTAGAACTGCTTACGTAGGAGAGAGTTCTTTTAAGTTAAGCGAAGCCCCGTTTATTGCATCGAGCCGCACCTATGTCCCGATTCGATTTGTATCCGAGCGATTGGGTTCTAAGGTAGGGTGGAACCAAAGCAAACAAGAGGTAACGATCAGCAAAGACAACACAACGATCCGTTGGAAAGTGAATGAAAAGAAAGCAAACGTGAATGGAAAAACCGTTTTATTTGATACGCCTTTACTGTTGAAGAAGAATAGTTCATTTGTACCCGTACGCTTCGTGTCCGAACTGTTAGGATCTCCCGTAGAATACATGGCGAATCCCAAAACGGTAATCATATTTGAGCAAAAATAG	MNKVLSGLVFVLVMMLSLPGQASMEQASLEVSFQDEQLEQAIKEIIKKDENAAVTQKDMESLTLLDLSRREIKSIQGLQSASNLKYLDLSNNEIDDITPLKSLTKLRELDIADNQIASIQELSAMTDLEMLIVNRNQISSIDVIKQLGRLHSFEANDNQISNITALSMATELTWLQLNGNQIAKIQPLSRLTKLKNLELASNRFSDLSPLKPLSKSLMSLNIGNNRISDLRALEGMTLMRVLSADNNQIKKLDPLKKMSSLSSLSLNSNLVYNLEPLKSLKELQYLYLKDNRVWSLDPIRNHSFDTHYDTGALRYALQLSGNYLDLRSTTKTYQLLNKLGGDGSVYSQLKAQRLVIGSRTAYVGESSFKLSEAPFIASSRTYVPIRFVSERLGSKVGWNQSKQEVTISKDNTTIRWKVNEKKANVNGKTVLFDTPLLLKKNSSFVPVRFVSELLGSPVEYMANPKTVIIFEQK				NA	NA	NA	NA	NA
AK002_03238	2487			hypothetical protein	ATGACTATGAACAAGAAATGGGGATCCGTCCTGCTGACAGCAGTATTGCTGATTTCCTCGATTTCTGCGGTGCAGGCTAAATCGCCTGCTCCGGGAGTGGAGGATACGCAATTCCGCAATCTTGCGGCCGGCCTCCCATATGAATGGTCTGAGGAGCCAGAAGCGTCGCATCCTGACGGCGATTACAAACTTACGGATGGAAAATATGGCACGTTGGATATGAATGACCCGGCATGGGTAGGGCATCTGCGTGGAAAAACGCGGGAAGTCGTCTTTGATCTCGGTGAGGAAAAGTCAATCGGAAAGATTACCGCTCACTTCTTCCAAGATTATCCTACCAACTCAATCCTCGTGCCTTTGACCGTATCGATGTATGTCTCCGACGATAAAGAACATTGGGGCCTGCTGTCCCATAACGCCACCCAGCTGCTCTGGGGGGAAGGACCGCCAAGGCAGGAGAACTTTGAATGGGACGGCAGCCGGGATGGAATCAAAGGCGGGAATACGGACGGCAAGCTGGCTTATGCGCGTTATGTTAAAGTAACCTTTACGATGCATCCTTCGCATTGGGAATACATTGACGAAATCGAAATTATAGGTACGGATGGCAAGGCTCAGGGGGCGATAAAGGTTCCTGCCGAACAGCCACGTTTTTTGGAGCCGGGGGAAGCTACAGCCGGTATCCGGAACCTGAATCTGCTGTATAACGGACAATATGCAGATGGGTTGGGCGATTGGAACAAGGAACGGATCATCCCTAACATCAGTTACGTAAATCAAGACGGCGAGCCTGTCGACTGGCTTTTTGATGGGATATTATATCTCGGACTGGCTTCGCCTGCCGGCCGCGACTTCGGTGTCGGACAGACGATCCTGGAGGACTGGAACTGGTATTTGGATAAAACCTTCGCAGCCGCGGGGGATATGCAGCAGTTGAATGAGGCTACAGTGGAAGTCGGAGCCAAGCTGAACCAGCCTGATCATAAAATGAAGGTTGTGCTCATGATTCCGAACCCGGGGGAATACGTAAACGACTTTGGCGACGTTGACGGTGACGGGGTATCCGAAAGCTTTAACGACTCGGTTGTCGGCAAAGAGAAAGCGCTCGAAAACCGGATAAAAGTGATGCAGTGGTGGCTGGATCAGGTTCGCCAAAGATGGCAGGAGGCGAACTATTCCAATCTGGAGCTTGTCGGCATGTACTGGCTGGAAGAACAAATCAGCACAAGCGATACAGGCCCGGATTTGCTCAAAGCTGTAAGCGGCAAAGTTCATGACATGAACTTGAAATTTTTCTGGATTCCTCACTCTTTGGCTTATAAAAGCTTTATGTGGAAAGAGGTAGGGTTTGATGCCGTGGCGCTTCAGCCTAACTATTTCTTCGGCGGAATGGATTCCGACCGCTTGGAGGATGCCGCGAATCTGGCCAAGCAATATGGGATGTCGATCGAGCTTGAGTTCGATGACCGGATGCTGACGGAGGGCGTATTCCGCGATCGTTATATCGAATACTTGAACAGCGGTGTTGACACCGGCTTGATGCAGAATGGATTTAGGGCGTATTACCAAGGTAATAATGCCGTTTATAACTTAGGGGTAAGCAAGGACCCAAGCTTGCGTTTAATGTATGACTGGCTGTACCAGTTCTTGAATGGAACGTACACGATTGACAGCAGCCCGACGCCGGAGACAATGGAAGAGCTTGTACGCAGTTACGTCGCGTCGAACGAAATCAATTCGGTTTTTGGCAATGAGTTATTGTACCGTTTGCAAAACATCAAGCTGCTTCTGGAGCAAAACAAGCCGAAGGACGCCGTAACGTATATGCAGGATTTCCTCGCACACATTCACGACCCGGCCGTGCAAGCACAAGGGTTGATTTCGGCACCGATAGCAACGGTGCTTGATACCTATGCCCAAGTTCTCATGGGAATTTGGTCAGACGACTGGGGCCTCGGCAATTTGGCTCAAGGACTAAGCTATACCATTTCACGACCGCCGAACAGCAGCTATCCCGATTCTGGGAATGAACTGACGAACGGCCTATTCGGCGGAACGGATTTCAGCAACGAGCAGTGGCAGGGCCATGCGGGAAGCACCTACCCTGAAGAACGAAGCCGCACCATCACATTGGATTTGGGCCGCAACAAATCGATCGGATCAATCAGAGCCCATTTTCTTCAGGATCAAGGACCCGGCATCTATTTCCCTCAGAACGTTGATTTTTCCGTTTCAACGAACGGCCAAACCTGGAGCACGCTGGCAACCGTTTCAACACCACCGGCACTTGATGCTGCCTCTGCCGAATTCGTGAGATGGAGCGGGTCAGCAGACGGCGTGCCGGGGAAAGCGGGAGCCGATAAAGTATACGCCCGCTACGTCAAGATCGAATTCCCGGTCAACGTCTGGGTCTTCCTTGATGAAATCGAAGTTCTCGGCATTGACGGCAAGGCGAATGGAGCCGTCGTTTTGCCGCCGACGCCGTAA	MTMNKKWGSVLLTAVLLISSISAVQAKSPAPGVEDTQFRNLAAGLPYEWSEEPEASHPDGDYKLTDGKYGTLDMNDPAWVGHLRGKTREVVFDLGEEKSIGKITAHFFQDYPTNSILVPLTVSMYVSDDKEHWGLLSHNATQLLWGEGPPRQENFEWDGSRDGIKGGNTDGKLAYARYVKVTFTMHPSHWEYIDEIEIIGTDGKAQGAIKVPAEQPRFLEPGEATAGIRNLNLLYNGQYADGLGDWNKERIIPNISYVNQDGEPVDWLFDGILYLGLASPAGRDFGVGQTILEDWNWYLDKTFAAAGDMQQLNEATVEVGAKLNQPDHKMKVVLMIPNPGEYVNDFGDVDGDGVSESFNDSVVGKEKALENRIKVMQWWLDQVRQRWQEANYSNLELVGMYWLEEQISTSDTGPDLLKAVSGKVHDMNLKFFWIPHSLAYKSFMWKEVGFDAVALQPNYFFGGMDSDRLEDAANLAKQYGMSIELEFDDRMLTEGVFRDRYIEYLNSGVDTGLMQNGFRAYYQGNNAVYNLGVSKDPSLRLMYDWLYQFLNGTYTIDSSPTPETMEELVRSYVASNEINSVFGNELLYRLQNIKLLLEQNKPKDAVTYMQDFLAHIHDPAVQAQGLISAPIATVLDTYAQVLMGIWSDDWGLGNLAQGLSYTISRPPNSSYPDSGNELTNGLFGGTDFSNEQWQGHAGSTYPEERSRTITLDLGRNKSIGSIRAHFLQDQGPGIYFPQNVDFSVSTNGQTWSTLATVSTPPALDAASAEFVRWSGSADGVPGKAGADKVYARYVKIEFPVNVWVFLDEIEVLGIDGKANGAVVLPPTP				NA	NA	NA	NA	NA
AK002_03239	1275	yteT_6	COG0673	Putative oxidoreductase YteT	TTGAGAACATTAACGGCTGTACTATTAGGCGCAGGCAGTAGAGGAAGATACATCTATGGACCGTATGCGGAAAAATTTCCGAATGAGCTGAAATTTGTTGCTGTAGCCGAGCCGGATGATGAACGCAGACAGCGTTTTGCAGAGATTCATCAAATCGCCGAAGAGCATGTTTATCATTCATGGGAACAAGCATTCGAGCAGGGAAAAATAGCCGACGTGATGATCATCTGCACGCTTGATCGGATGCATTATATACCGACAATGAAAGCGTTGGAGCTTGGCTACCATGTCATGCTGGAGAAGCCGATGTCACCGAATGCACGGGAATGCATCGAACTGGAGCAAGCGTCCCTTAAGTTTAAGCGTTTGCTGGTGGTCACGCATGTGCTTCGCTATTCCCCGTTCTGGTCGGGCATCAAGAAATGCATCGAGGATGGGGAGCTGGGTGCAATAGGCACCATTCAGCTGACAGAGAACGTAGGCTATCACCATATGGTTCATAGCTACGTACGCGGCAATTGGCGCAATTCCGAGGAAACAAGCCCGATGATTCTGGCCAAATCCTGCCATGACCTGGATCTCATCTCCTGGCTGATGGATGAACCGTGCACAGCGGTCAGCTCCTTTGGCTCATTGCTTCATTTTAAAGCCGAGAACGCGCCGGAGGGTGCAACAGACCGCTGCATCGATGGTTGCGAGGCGGAGAGGGAATGTGCCTTTTCAGCGATTAAAATGTATTTGGAGCAGCCTGCCGATCATTGGGCGCGCTATATGACGCATGATTTATCACAGGAAGGCATTATCCGGGCGCTCAAGGAAGGACCGTTCGGCCGCTGCGTCTATCGCTGCGATAACAATGTGGTCGATCATCAGGTCGTCAATATGGAATTTGTCAGCGGCGCTAATGCTAACTTTATTATGTCGGGATTAACCCAAAGCGGTACTCGCCGTGTGCAGATTATGGGCACGCAGGGAGAGATCATTGGCGACATGGATAAGGGCTCATTTACGCTGTACCGCTATGCGACGGGCGAAGAGATTGAAATTAAATGCAGCGTGCAGGGCGACGGCCACGGCGGAGGCGATGAGCGCATGGTGAGCTCTTTCCTCAAAAATGTACATAAGTTCGACCCCAACCCGTCTCAAGGCCTTACATCGGCTACCGCTTCCTTACAAAGCCATTTGATTGCCTTCGCTTCCGAACGATCCCGTTTGCAGCAAGGCAGAAGCATCAAGCTGACCGAGATGTATCAGAAGGAGGAAGCGGGCGTTTAA	MRTLTAVLLGAGSRGRYIYGPYAEKFPNELKFVAVAEPDDERRQRFAEIHQIAEEHVYHSWEQAFEQGKIADVMIICTLDRMHYIPTMKALELGYHVMLEKPMSPNARECIELEQASLKFKRLLVVTHVLRYSPFWSGIKKCIEDGELGAIGTIQLTENVGYHHMVHSYVRGNWRNSEETSPMILAKSCHDLDLISWLMDEPCTAVSSFGSLLHFKAENAPEGATDRCIDGCEAERECAFSAIKMYLEQPADHWARYMTHDLSQEGIIRALKEGPFGRCVYRCDNNVVDHQVVNMEFVSGANANFIMSGLTQSGTRRVQIMGTQGEIIGDMDKGSFTLYRYATGEEIEIKCSVQGDGHGGGDERMVSSFLKNVHKFDPNPSQGLTSATASLQSHLIAFASERSRLQQGRSIKLTEMYQKEEAGV				NA	NA	NA	NA	NA
AK002_03240	1683	cheB_10		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGTACAGGCTATTAATCGTGGATGATCTGCCGATTATTGTAGATGGTCTTCTGGAGTTGTTCGAGAAGACGGAGCATTTGGAGCTTGAGGTCATGAAAGCCTATTCCGGCGAAGAGGCCCTTGAGGTGCTGTCCCATCATCGGATGGACATTGTGATTTCGGACATTAAGATGTCCGGCATAGAGGGCATCGAGCTGCTGCAGGAAATCAAATCGCAGTGGCCGGCGTGCAAAGTTATTTTATTGACCGGGTTCAATGATTTTCACTATGCGAAGAACGCCCTAACATTCGGCGCCTTTGATTATTTGCTGAAAGTGGAAAGCGACGAGAAGATCATTCATACCGTTGAACGGGCGATAGAGGAAATAGAAGAGGAACAGGGTCAGGCTCAAATGATCTTGCGGGCCCAGTCCAAAATGAGAATAGCGATGCCTTCCCTGCAGAAGGAATATATCTGGGGTTTATTACAAGGCAAGACGATGACGGGGCAGCAGCTTCGGGACGCTTTTGCGGAAATGGACATTCCGCTCGACGCATCGCTGCCCGTCTATTTACTGATTGGCCGGATCGATGCCTGGAAGGAAATGTTCACGGCGCCGGACAAGGCTTTGCTCGCTTACGCCCTTCAAAATATCGGCGATGAGTATTTATCCGCCCATGTGCGCTGCTTCTCCGTCGTATTTGATATGAACAAAATGGTATGGATCTTTCAGCCTAAAGCCAGTCCGGAGATAACGGCGGATACCCGTACGATGGAATGGACCCGGGCATACCGCTATGTGAGCGGCAATTTGGAGACGATCCAGGCGACCAGCAAAAGGCTGCTGAACCTCTCCGTATCTTTTCTTATTGGCAGCGAGGCTGTCCCATGGAATCGGCTGTCGGATCGTTTTCATGCGATGAAATACGGTCTTATGCAAGGCCATGGCTTGTTCCATGAGGTCATCATGACCGATCAAGATCTTCAGAAGTCCGAAGAAAAAGAGAAGGCGAAAAGCTATCATGACAGCTTTTTTCACGCTCGCGTACAGCTGCTGATGAGCTGTCTTGAAAATAATCACCGCGAGCAGTTTAATCATCTGTTTGTTGAATTGACAGATATCTGGAACGATCCGGATACTCCTTATGAGCGCAAGGTTGAGTTGTACCATTTCCTATCTGCGGTATTTCTGGCACATTTGCACAAAAATAAAGATATGCGAGACTATATGAACACCCAGATTAATTTGGATCTGCTGTTCCGCCAGGAGGAGACCGCTTCATGGACGGAACTGATTCCATACTATTGGCAAATTGCGGACAGCTTTTTTGAATGGAATGCGCTTCGAGGGACGGAACTGCCGGCGGAGGTCGTCAATAAGGTGCATCGTTATATAGAGGAGCATATTGCGGATGATATTTCCCTAACCGCGATCGGGGATTATGTCAGCTTGAATCCATCCTATCTCTCAAGGCTATACAAACAGATCACGGGAATTGGTCTTTCTAAATACGTAAATGATTACCGCAATGTCATTGCAAAAGATATGCTGCTCAATACATCCATGAAGGTCAATGAAATCGCCGCCAAGCTCGGTTACAATTCAGCGCTTGCCTTTATCCGCTTCTTTAAGAAGCAAAATGATATGACGCCGCAGGATTTTCGGACGGCCCGTACCGAAACGATGCAGCAAGGTCAATAA	MYRLLIVDDLPIIVDGLLELFEKTEHLELEVMKAYSGEEALEVLSHHRMDIVISDIKMSGIEGIELLQEIKSQWPACKVILLTGFNDFHYAKNALTFGAFDYLLKVESDEKIIHTVERAIEEIEEEQGQAQMILRAQSKMRIAMPSLQKEYIWGLLQGKTMTGQQLRDAFAEMDIPLDASLPVYLLIGRIDAWKEMFTAPDKALLAYALQNIGDEYLSAHVRCFSVVFDMNKMVWIFQPKASPEITADTRTMEWTRAYRYVSGNLETIQATSKRLLNLSVSFLIGSEAVPWNRLSDRFHAMKYGLMQGHGLFHEVIMTDQDLQKSEEKEKAKSYHDSFFHARVQLLMSCLENNHREQFNHLFVELTDIWNDPDTPYERKVELYHFLSAVFLAHLHKNKDMRDYMNTQINLDLLFRQEETASWTELIPYYWQIADSFFEWNALRGTELPAEVVNKVHRYIEEHIADDISLTAIGDYVSLNPSYLSRLYKQITGIGLSKYVNDYRNVIAKDMLLNTSMKVNEIAAKLGYNSALAFIRFFKKQNDMTPQDFRTARTETMQQGQ				NA	NA	NA	NA	NA
AK002_03241	1731			hypothetical protein	ATGAAAAGTATATTCTTATTACAGGATTCCTCCATATTCAAAAAAATAATGGCTGCCTTTTTGGCAGCCTTACTGCCGCTTATGGCAATTACCTGGATGATGAATGAGCAAGGGGCCGATCATATCCGCAGTGAAATATCCGATTCGATTTTGAATACGACAAGGTTTTATTTAGAATCCCTGGATCAGGAAGCAGACCGGATCAGCCGATATTTGCCTAACTACGTCATGGACAGGGATTTGATGGAAGTGGCGGCGACAGGCGAGCAGATGAACTCCTATGAGCGGTCGTATAAAATATTGGATATTCAGCACCGCCTGGATTTAATGAAAAATTCCAGTCCGTTCATTCGCGAGGCGAAGGCGTACATTCCGCTAATCGAGCGCACTGTGCTGAGCAACAGCTTTGAAACAAAGCTGAATGCGGAAGAATATGAAGCGATGCAGCCGGACAAGAAGCTTTATACGGAGCCCTTTATTTACTGGCAGGACCGACTGTTTATTACGATGCAGTACCCTGCAAGCAAAAAAAACCCGCTCTATGTGGTAGGCGTAGAGCTCTCAACCGGCAAAATTAAAGAAACCTTAGCGCAAATCGGCAATAGCAGGGGAGGCCAGACCGTATTGTTTAATCTGGAGCGCGGCTGGGAAATCAATAGCGGCTCCGACCTTGAATTACATGATCTGATGAAGCAGCTGGCTTTTGAGAAGCAGGCAGCGAAAATAGATGAAGGCTATGATACGGTTCATTATAAAAACAAGCGCTTTCTAACCGTATTCAAGTATTCCAGTCTCTGGAATTCATACACGGTAACTTGCATACCGGAAGAGATGATTCTCGGTTCATTGCAGGTATATAGGGCATTGTTTTGGTGGGCTTGCGCGCTTGCTGTTTGTATTTTTTTATTTTTTACCTATTTTATCATCCGATTAATATACCGTCCGTTGTTAAAGCTGGTGCGTTCCTTCCGCCGCATGCAGCAAAACGAGCTGGAGCCGATCTTGATCGACCGCAGGCAGGATGAGTTCGGCTATTTATACCAGGCTTTTAACGATACCGTGAAATCTTTGAAAACACTGATTGAGGAAAATTATGAGCAGCAAATTCGCAATCAGCGTTCGGAGCTGAAGCGATTGCAATCGCAAATAAATCCTCATTTTTTATATAATTGCTTTTTCGTGCTTTGCCGCTTGATTAAATCCGATACCCAGAAGGAAAAAGCCTACCAGTTCTGTTTGTACATCGGGCAATATTTTCAGTTCATTACTCGCCATCATGATGACGACATTCTGCTGGAGATGGAGCTTGAGCATTCCCGCACTTATGTGGAGATGCAGTCGATTTGTTACGGAGATCGAATCCAAGTGCTGTTTGAAGCCGAAGCCCAGCCGATTGAAGTCCCCCGATTGATTTTGCAGCCGATTATTGAAAATGCTTATAAGTACGCCCTCGGCAATATGCGCGGCAAGGGCGAGCTATGGGTGCACAGCAAGCTGGGAAATGATGCTTTGTACATTTATGTAGAGGATAACGGCGAGTTCATTACGGACGAGGAGATCGAAGCGCTGGGCAAGAGGCTGCGTTATTCAACGAACCAGATGGAGGAGACAACCGGCCTGTTTAATGTTCATCGCAGAATTCAGCTTCGTTATGGAGAAGAGTATGGGATTACCGTATCACGTTCTGAGCTTGGCGGGCTTCAAGCTATTATTAAACTGAGTTTGAGCTAA	MKSIFLLQDSSIFKKIMAAFLAALLPLMAITWMMNEQGADHIRSEISDSILNTTRFYLESLDQEADRISRYLPNYVMDRDLMEVAATGEQMNSYERSYKILDIQHRLDLMKNSSPFIREAKAYIPLIERTVLSNSFETKLNAEEYEAMQPDKKLYTEPFIYWQDRLFITMQYPASKKNPLYVVGVELSTGKIKETLAQIGNSRGGQTVLFNLERGWEINSGSDLELHDLMKQLAFEKQAAKIDEGYDTVHYKNKRFLTVFKYSSLWNSYTVTCIPEEMILGSLQVYRALFWWACALAVCIFLFFTYFIIRLIYRPLLKLVRSFRRMQQNELEPILIDRRQDEFGYLYQAFNDTVKSLKTLIEENYEQQIRNQRSELKRLQSQINPHFLYNCFFVLCRLIKSDTQKEKAYQFCLYIGQYFQFITRHHDDDILLEMELEHSRTYVEMQSICYGDRIQVLFEAEAQPIEVPRLILQPIIENAYKYALGNMRGKGELWVHSKLGNDALYIYVEDNGEFITDEEIEALGKRLRYSTNQMEETTGLFNVHRRIQLRYGEEYGITVSRSELGGLQAIIKLSLS				NA	NA	NA	NA	NA
AK002_03242	885	lacG_5		Lactose transport system permease protein LacG	GTGGTTATTAAACCGTCATTCGGAAGAAGGGCTTTTCTAGTTTGCAACCTAGTCTTTCTAGCGTTTATATCTTTTTTATGCTTAATGCCGATCCTTCATATTTTGGCGATTTCGTTTAGCTCGGGTTCGGCGGCGGCAGCCGGCAAGGTTGCGCTGTGGCCTGTAGAGTTTACAACGGCGGCTTATGATAATGTGTTCGGCAAGCCTGAGTATGTAAGAGCCTTTGGCATTTCGATTCAACGGGTTGTTGTCGGGACGGTATTAAGTATGTTGTTAACGATTATTACAGCTTATCCTTTATCCAAGGATCGCAATACGTTTCGTCTAAGAACCGTCTATGCATGGATATTTGTTTTCACGATTTTGTTCAACGGCGGACTCATTCCTACCTATTTGACAATTAAAAGCTTGGGACTTATTGATACTCTCGGAGCGTTGGTGCTACCTATGGCAATTAACGTGTTCAACGTCATCCTGCTATTGAACTTTTACCGCAATCTGCCCAGGGAGCTTGAGGATGCTTCACGGATTGACGGAGCCGGGCATTTTGCAACGCTTTGGAAAATATATGTTCCGCTATCGTTGCCCGCACTGGCAACAACGGGGCTGTTTACGATGGTAGGGCATTGGAATAGCTGGTTCGATGGCATGCTTTATATGAATCATCCGGAAAATTACCCGCTGCAAACCTTCTTGCAAACCGTTATTATTAAGATGGATTTCCGATTTCTTAAATCAGAAAATGTGGAACTCATGCTGCAGCTGTCTGACCGTACAAGCAGGGCGGCACAAATCTTTGTTGCGGCTTTCCCGATTCTTATTGTCTATCCATTCTTGCAGCGGTTTTTCATCAAGGGCATTGTGATGGGAAGTGTAAAAGAATAG	MVIKPSFGRRAFLVCNLVFLAFISFLCLMPILHILAISFSSGSAAAAGKVALWPVEFTTAAYDNVFGKPEYVRAFGISIQRVVVGTVLSMLLTIITAYPLSKDRNTFRLRTVYAWIFVFTILFNGGLIPTYLTIKSLGLIDTLGALVLPMAINVFNVILLLNFYRNLPRELEDASRIDGAGHFATLWKIYVPLSLPALATTGLFTMVGHWNSWFDGMLYMNHPENYPLQTFLQTVIIKMDFRFLKSENVELMLQLSDRTSRAAQIFVAAFPILIVYPFLQRFFIKGIVMGSVKE	PGPT0017255_2229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03243	906	yteP_38	COG4209	putative multiple-sugar transport system permease YteP	ATGAATAGTCTGACGCGCATGTGGAAGAAGGAATGGCCGCTTCATTTGATGTTGCTGCCGGGTTTAGCTATGATTGTTATTTTTAGTTACATTCCTATGACAGGAATCATGATGGCTTTTCAAAAATATGTGCCGAATAAAGGGTTGTTCGGCTCCCCGATTATCGGATGGAGGAACTTCCAGCTGTTAATGGATTATCCGGATATCGGCCGCATCTTCTTTAATACGGTATACATTGCTGTAATGAAAATCGTTGCCGGTTTGTTCGTGCCAATCACGATAGCAATTTTGCTTAATGAATTGCGTAGAGAATGGATGAAAAGAACGTTCCAAACCCTGGTCTATCTGCCCCATTTCTTATCCTGGGTGCTGCTGAGCGGGATTTTGGTCGATATTTTGTCTCCTTCCTCCGGCATATTGAACCAGCTGCTTGGATGGTTCGGCATGAAGCCGATTTTCTTTCTTGGCGACAATAACTGGTTCCCTTATGTCATGGTCATCTCCGATGTATGGAAAGAATTTGGATTTGGTACCATTGTTTATTTGGCAGCACTGACAGGAATTAATCCTACGCTTTATGAAGCCGCTCAAATCGATGGTGCGGGCCGCTGGAAACAAACGCTTCACGTGACGCTGCCGGGCATGATGCCGATCATCGTTCTTATGCTGACGCTTAATATCGGCAATGTGCTGAATGCGGGATTTGATCAAATCTTTAACCTGTACAGCGCGCCGGTTTATGAAAGTGCCGATATCATTGATACTTTTGTCTACCGTATGGGGATCCAGCAAGCCCAGTTCGGATTTGCCACAGCTGTCGGCTTATTGAAATCCGTCGTATCCTTTATTTTCATTTCCGTATCCTACGTACTCGCATACCGACTAGCGAATTACCGTATTTTCTAA	MNSLTRMWKKEWPLHLMLLPGLAMIVIFSYIPMTGIMMAFQKYVPNKGLFGSPIIGWRNFQLLMDYPDIGRIFFNTVYIAVMKIVAGLFVPITIAILLNELRREWMKRTFQTLVYLPHFLSWVLLSGILVDILSPSSGILNQLLGWFGMKPIFFLGDNNWFPYVMVISDVWKEFGFGTIVYLAALTGINPTLYEAAQIDGAGRWKQTLHVTLPGMMPIIVLMLTLNIGNVLNAGFDQIFNLYSAPVYESADIIDTFVYRMGIQQAQFGFATAVGLLKSVVSFIFISVSYVLAYRLANYRIF	PGPT0017250_2535	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03244	1674	lipO_19	COG1653	Lipoprotein LipO	TTGAAGAGCAAAAAGGCACTTGCAATGATCTCCTTGACGCTTGCATTGGCGATTACAGGCTGCGGCTTCAAAACGTCGTCTGAGCCAAACCAACCACCTGGAAATTCCAAGGAACCAATCCAAACGCCAGGCACAGGAAACAGCAATGATATCGTTGAGGTTTCAACGGTTTCGCCAAGCGATCCTTACTTGAAATTTGACGAAGGTGAAGACTTCGACAAAAACTCAGTTTATGACGTTTATGAAAAAGATATCGGTGTCAAAATTACAAACAAGTGGATTGCCGATGTAAGCCAATTTAAAGAGAGAGTAAAAATTGCGATCGCATCCAACGATCTTCCGGATTTCTTGCTTGTAAACGCCGCACAGCTTAAAGAGCTTACTGAAGCGGATATGATTATGGATTTGACAGAGATTTATGATCAGCATGCTACGGAAGAGACGAAAAAGTTTCTGACCATGGACGGCGGCATGCAGATGAAAACTGCGATGATCGACGGGAAAATGATGGGGATTCCAAGCTCATACAACCCGTTCAACTATCAATACTTGTTCGTTCGTACAGACTGGCTGAAAGAACTTGGCTTGCCTGAGCCTAAAACAATGGATGATTTCATAAAAATCGCCGAAGCGTTCAAAACCAAGAATCCTGGCGGCACAAAACAAGCTTACGGTATTGCGGTCAGCAAAAATCCATTTAGTATCGAGACAGGCGTTACCGGTCTGAGAGCGTTCTTGAACGGCTATCACGCTTATGAAAACATTTGGATGGAAGATGGGAACGGCGGTTTGATGAACAGTGATATCCAGCCCGAGATGAAGCAGGCGCTTGCAGCGCTGCAAGACATGTTCAAAAAAGGGTTGATCGATCCTGAGTTTGCGGTTAAAGATACGGAAAAAGCCGCTGAGCTCATCTACGACGGCAGCATCGGCATGGTATTTGGTGCTTCCTGGACACCGGCGCAGCTTGTGCAGGGCGCTGTGAAAGACGGGAAGGTTGTTCAAGAATGGGGAGTGTTCCCTATCCCTTCCGTAGACAACAAGCCTACATTGAATCAAATTGGTCTTGGTGTTGACGAGTACTATGTGATCTCTAAACAAGCCAAGCATCCTGAAGGCGTTATCAAATTGCTGAACCAATGGATCGTCGTTGATAATACGATGAATCCGACAGATGAGCAAAAAATCTATCTGTATGGTAAAGACAAACAAGAAAAAGGCAACAACTACTGGCTGCTGAACCCGCTTCGCGTAGGCAAACAGATGGATAACAACGGCGAAATTCTGCCGAAAGCGATCGAAACGAAAGATCCTAGCATTCTTCAAACTGCAGACCAGAAGGGTCGTTATGAACGTGCGATGAAATTTATCGATGGTAGCGATATCAATATGTGGTGGGAAGTGCTGATTTCGGGGCCGAACGGAGCGGTATCGCATAACCCAAAAATCCAGCAAAACAAAGAATACCTGCAAAACAAATTCTACGGCGCACCTACGCCGACGATGGCAGACCGTCAAGAAATTTTAACGAAGAAACGTGATGAAATATTCATCAAAATCATAATGAACCAAGTATCCGTAGACGAATTCGATACATTCGTTGAAGAGTGGAAGAAGCTTGGCGGCGATGAAATCACGAAAGAAGTTAACGAGTGGTATCAATCGATGAAATAG	MKSKKALAMISLTLALAITGCGFKTSSEPNQPPGNSKEPIQTPGTGNSNDIVEVSTVSPSDPYLKFDEGEDFDKNSVYDVYEKDIGVKITNKWIADVSQFKERVKIAIASNDLPDFLLVNAAQLKELTEADMIMDLTEIYDQHATEETKKFLTMDGGMQMKTAMIDGKMMGIPSSYNPFNYQYLFVRTDWLKELGLPEPKTMDDFIKIAEAFKTKNPGGTKQAYGIAVSKNPFSIETGVTGLRAFLNGYHAYENIWMEDGNGGLMNSDIQPEMKQALAALQDMFKKGLIDPEFAVKDTEKAAELIYDGSIGMVFGASWTPAQLVQGAVKDGKVVQEWGVFPIPSVDNKPTLNQIGLGVDEYYVISKQAKHPEGVIKLLNQWIVVDNTMNPTDEQKIYLYGKDKQEKGNNYWLLNPLRVGKQMDNNGEILPKAIETKDPSILQTADQKGRYERAMKFIDGSDINMWWEVLISGPNGAVSHNPKIQQNKEYLQNKFYGAPTPTMADRQEILTKKRDEIFIKIIMNQVSVDEFDTFVEEWKKLGGDEITKEVNEWYQSMK	PGPT0017245_933	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03245	849	rhaS_6		HTH-type transcriptional activator RhaS	ATGAAACTTCATATTGCCTATGACCATCCCATTGCTATCAATGCTTTCGAATGGACACCTGCCACTTATCGGCAGCCGCCTCATGTGCACGCAAGTCTGGAGATCGGCCTCTGTTTAACAGGCAAAGGCTATTTTTACTTTGGCAACAAACAATATGCAGCGAAACCTGGCGACTTATTTCTGGTCAATAATGAAGAACGGCATATTGCCCAATCTGCCCCCGACGACCCGAGCCGCTATCTTTTTATTAACTTTGATCCCGCGCTGCTGCTAGCGGAAGAGCCCGGTCTGCTGCTGCCATTCTCCTATCGCTCCACTCATTTTTGCAATCATATTATGGGCGGCTCGCCCCTCGCCACACTGCTTACGCCTTGGGTGCTGGCTATAGCGGAAGAGCTGCGGGAGAAATCCCCGGGTTATGTGGTCATGGCCAAAAGCGCGCTCATTCAGCTGTGCGGCCGTCTTCTTCGACATTACAACGGTTTGCTAACCGATGAGGAGCGTCATCATATGGTACATTCCGTTCGCCAAGCGCAATCGTTGGCCGCTTTGGTCGAGCATCGTTACCACGAGCCGGTTAGCTTAGGGGAATTGGCTGATGAACTTGGTTTAAGCGTCTCGCGCGCGAGCCGGGCATTTCTGGAAACGACCGGTTATCGTTTCTCGGAATATGTTTCCTTGCTTCGTGTCCAGGCTGCCAAGCGTGAATTGGCAGGAACGGACAAAGCTGTTGCTGATATTGCATTCGAATGCGGTTTTCAAAGCTTGCCGACCTTTTACCGCGTATTTAAAGAGAATGTCGGTCTGTCCCCGGTCCATTATCGGCAATCTATGGGGATTACGGAGTGA	MKLHIAYDHPIAINAFEWTPATYRQPPHVHASLEIGLCLTGKGYFYFGNKQYAAKPGDLFLVNNEERHIAQSAPDDPSRYLFINFDPALLLAEEPGLLLPFSYRSTHFCNHIMGGSPLATLLTPWVLAIAEELREKSPGYVVMAKSALIQLCGRLLRHYNGLLTDEERHHMVHSVRQAQSLAALVEHRYHEPVSLGELADELGLSVSRASRAFLETTGYRFSEYVSLLRVQAAKRELAGTDKAVADIAFECGFQSLPTFYRVFKENVGLSPVHYRQSMGITE				NA	NA	NA	NA	NA
AK002_03246	1383			hypothetical protein	ATGACGAAATGGATTGGACTGAGGGAAATAGTTCGCGACGAAATAAAACAGCGCGGAGAAGAAGGCTGTCATGTAGAGGGGATGACCGAACGTCTGGAAGCAGCCGGCACAAACGAAGCAAAGCTTATGGAAGTATACCAGGCTTTAATGGCTCTTGAACCGCATGCGGATTTCAAGTATTTCGAGCCGTCGGAATTGGAGGCCATTCGCGCCGAACGTCCGGATGGACCGAGACTCCTGTCCGGAAACTGGGATGAGCTTAAATGGCAGGATAAATTTCATGGTGCGTGGCTCGGCCGTTCGGCTGGCTGCGCGCTCGGAAAACCTCTCGAGGCTCCTGCATTCATGCAAGGCTCGGGCGGAAGACCCGGCTGGCACAATATTAAGTTGTGGTTCGAAGGCGCAGGGCAATGGCCGATTCGCCACTATACACCGGGCGATTCAACTGCAGAAGCCGAGTACGGTATCGAGATAGCAAGGTGGAGCAGCTTGGCCAGCTGCCGGGATAACATTCGTTTTATGGAAACGGACGATGATGTTCGATATACCGTTCTCGGTCTGCTCATGCTTGAGGAACGCGGATTTGATTTCAACTCCTGGGATGTAGGCAAGCTGTGGCATCGTCATTTGTCATTCGGGCAGGTATTCACGGCAGAAGCTCAGTCCTATCTTAATTTCGCTCGTGTCACTTCACATATTAGCGGCGATCGGCCAGATGACTGGGAGAAACATATCCTCTGGGGGCGTTCTTATTTGAATCCCTACCGCGAATGGATCGGCGCCCAAATCCGTGTAGACGGCTATGCATACGGTGCTGCCGGCCAGCCCCAGCTTGCAGCTGAGCTTGCTTGGCGTGACGCTTCCTTCTCCCACGTGAAGAATGGGATTTACGGCGCCATGTTTTGCTCGGCAATGATTGCCGCCGCATTCGTTGAAAGTGACATGAAGCGAATTGTTGAGATCGGATTGAGTGAAATTCCGAAACGCAGCCGACTTGCAGAAGATATCGCATTAGCGGTCAACATTGCTGAGGAAACGGAAGACACATTAGAATTGGTGAGTAAAATATGGGAAGCGTTTAAGCACTATCACCCGGTTCATACGAACAATAATGCTGCATTATGCGCGGCTGCGCTCATTCATTCCGGAGGCGATTTTGAAAAAGGCATTACGACAGCCGTGCTTGGAGGCTGGGACACCGATTGCAATGGCGCCACCGTCGGCTCCATTCTTGGCGCATCGCTTGGAGCGGCGGCACTTCCTGAGAAGTGGATCTCGCCGCTAAACGATACGTTGTATGCCGATGTCAGTGGCTTCCACCCCATTGCCATCTCCGAATGCGCTCAAAGAAGCTATTGGGTCTTCCGAAAATTGCAGCATTAA	MTKWIGLREIVRDEIKQRGEEGCHVEGMTERLEAAGTNEAKLMEVYQALMALEPHADFKYFEPSELEAIRAERPDGPRLLSGNWDELKWQDKFHGAWLGRSAGCALGKPLEAPAFMQGSGGRPGWHNIKLWFEGAGQWPIRHYTPGDSTAEAEYGIEIARWSSLASCRDNIRFMETDDDVRYTVLGLLMLEERGFDFNSWDVGKLWHRHLSFGQVFTAEAQSYLNFARVTSHISGDRPDDWEKHILWGRSYLNPYREWIGAQIRVDGYAYGAAGQPQLAAELAWRDASFSHVKNGIYGAMFCSAMIAAAFVESDMKRIVEIGLSEIPKRSRLAEDIALAVNIAEETEDTLELVSKIWEAFKHYHPVHTNNNAALCAAALIHSGGDFEKGITTAVLGGWDTDCNGATVGSILGASLGAAALPEKWISPLNDTLYADVSGFHPIAISECAQRSYWVFRKLQH				NA	NA	NA	NA	NA
AK002_03247	459		COG3279	putative HTH-type transcriptional regulator	ATGAAAATTTCACTCGACATCGACCCGCGCAACGAAGAAACCACGGTGACGATTCACTGCAAAGAATTGACCCCAGCCATCCAGGAGATCCTCGAGTACCTCAATAAGAATGACACGGATTTGATCGTCGGAAAAGATGGAGAGAACCAGCACTTAATTAAGCACGAGGAAATACACTACTTTCGTACAGAAGGCGATGTGGTCACAGCCGCCACCTCAGAAGGAATCTTTAAAGTAAAAGAAAAATTATATGAGCTCGAGAACTCCCTTCCCTCCCACCGGTTTATCAGGATCTCAAAGTCCGTCATTGCAAACCTCTATGCAATGAGCCATTTCGAACCATCATTTAACGGGACCCTTTGTGTTCACTTTAAATCAGGTGAAAAAGAATATGTTTCGCGACATTACATTGGCCGAATTAAAGAAGTTTTAAGAATGAACAGGGGGGAAACGAAATGA	MKISLDIDPRNEETTVTIHCKELTPAIQEILEYLNKNDTDLIVGKDGENQHLIKHEEIHYFRTEGDVVTAATSEGIFKVKEKLYELENSLPSHRFIRISKSVIANLYAMSHFEPSFNGTLCVHFKSGEKEYVSRHYIGRIKEVLRMNRGETK				NA	NA	NA	NA	NA
AK002_03248	411			hypothetical protein	ATGAATGCATTTTTTTTCAGAAGCATGATCGGTATATTCTTCGGGGCCTTTATTGCTGTAATGACTACAAGTGCGCTTATTTATTTTGGCGGACAATCGACAATAGACGGAATGCATTTTATTAAAAATGCATTGGGTTATATATTCTGCGGCTGGCTGTTTACTGTCACCCCCCTCTACTTTGAAATCCGCTCACTTGCCCTGCCCATGCAGACCGCTCTGCACTTTCTAACAGTCACCATACTCTACTTTATATTAAGCCTATGGGTTGGCTGGATTCCGTTTGATGTAAAGAATTTTTTGATATACCTGGCAATCTCTATTTTCGTTTATGCCATCGGATGGATTGGGTTTTATCTTTATTTTAAAAATGAATCAAAAAAGCTGAATAACGATCTTAGAAAGCATTGA	MNAFFFRSMIGIFFGAFIAVMTTSALIYFGGQSTIDGMHFIKNALGYIFCGWLFTVTPLYFEIRSLALPMQTALHFLTVTILYFILSLWVGWIPFDVKNFLIYLAISIFVYAIGWIGFYLYFKNESKKLNNDLRKH				NA	NA	NA	NA	NA
AK002_03249	912	lnrL_5	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGGAGAGTGTCATTACAGTTCACAATTTATCGAAAAACTTTGGCGTGACCAAGGCAGTAAAGAATCTTTCCTTTGATGTTTACAAAGGTGAAATCTTCGGGATTATCGGACCGAACGGCGCAGGGAAAACGACCACCCTCGAAATCCTGGAAGGAATCTCCGATCCAAGCGAGGGAGCGGTTGAAGTCCTTGGACTTGTCCCCAATAAGCAGCTTCGGGAGTTAAATAAGAGAATTGGTGTCCAGTTTCAAGCCACTTCGATCCAGAAGAAAATGAAAGTAAAAGAAGCGCTGGATCTCTTTTCTTCATTTTACGATAACGCTACGCAGAAAGATCATTTCATAGAATTGCTTGGCTTAAACGAAAAGCTGAACGTAAAATTTGATGACTTATCCGGCGGATGGAAACAGCGGGTAACTCTTGCTTTAGCCACTCTCCATGAGCCTGAAATCTTATTTCTTGATGAGCCGAGCATGGGTCTTGATCCATCGGCAAGGCGGGAAATGTGGTCTTTGATCCGGCTGTTACGGGACCGTGGAAGTACGATTGTGGTGACCACGCACTATATGGAAGAAGCTGAGCAGCTGTGCGACAGGGTCGCGATGATATACAGCGGCCAATTAAAAGCTTTAAACTCCCCTCGTGAATTATTAAACGAAGGTGCTGCTAATTGTCTTACCTTTATCAGTGAAGGACTCGCCCCCGAATATCTAAGCTCGCTTCCCGGCGTGGAGCGCGTTGAAAAGAATCAAGACGAATTCAAAGTGTTTTGTGATGACCAGCAGACAACGGCTTATCACATTTTCAGTTACTGTCAGGAAAAAGGCATCCCATTGTCCAGCTTCAGGTTTGAGAAAGGCTCTCTCGATGATTTATTTATCCAGTACCTGGAAAAGGAGAAAATCGGATGA	MESVITVHNLSKNFGVTKAVKNLSFDVYKGEIFGIIGPNGAGKTTTLEILEGISDPSEGAVEVLGLVPNKQLRELNKRIGVQFQATSIQKKMKVKEALDLFSSFYDNATQKDHFIELLGLNEKLNVKFDDLSGGWKQRVTLALATLHEPEILFLDEPSMGLDPSARREMWSLIRLLRDRGSTIVVTTHYMEEAEQLCDRVAMIYSGQLKALNSPRELLNEGAANCLTFISEGLAPEYLSSLPGVERVEKNQDEFKVFCDDQQTTAYHIFSYCQEKGIPLSSFRFEKGSLDDLFIQYLEKEKIG	PGPT0006725_13631	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03250	741			hypothetical protein	ATGAAGGCAATCGTAAAACTCGCCAGTTTAGAAACGAAAATGTTCTTTAGAGACCGTTTAAGCATGTTTTGGACATTCCTCTTTCCCGTTGTGATGATTGGACTGTTTGGATCCATGTTTGTTGGAGATAACATGAGCAAAAGGGCTTTTGCGGAATATTTTGTTCCTTCGTGGATTGGCGTCAATATCGTAACCACTTCCTTTTTTACACTGGGAACTGTTTTAACCAATTACCGGGAAACGGGCGTATTAAGAAGATATCAATCAACACCGCTCCAGCCATGGAAAATCCTCGCCGCCCATACCTTTCAAGGAACCGTCATCTTTGCTATATCCGCCATGCTCCTGATGGTCTTTGGCATGCTGCTCTACGATTTGACCCTGCCGGCCTACATCGGAAGCACCCTGCTTTCATTGCTTATTAGCATCCTCGCCTTTTTCCCATTTGCTTTATTCTTGACCTCATTAGCAAAAAACACTCAGGCTGCTTCCGCAATCAGTTCATTATTTCTAAACCTGATGCTGTTCCTGTCAGGAGCGACATTCCCGCTGGAAATGATGCCGACGGTTCTTCAATATGCAGCGAAAATACTACCGCTCTATTACGTCATTCAGTTGCTGCGGGGGACGTGGACAGAAGCGCCAATTACGGAGTATGGCTTTGAAGCTGCTGTTTTGATTGGCATTGCCATTGTATCTGTTGTGCTTGCTACACGGTTTTTCCGGTGGAGCGGGAAATAG	MKAIVKLASLETKMFFRDRLSMFWTFLFPVVMIGLFGSMFVGDNMSKRAFAEYFVPSWIGVNIVTTSFFTLGTVLTNYRETGVLRRYQSTPLQPWKILAAHTFQGTVIFAISAMLLMVFGMLLYDLTLPAYIGSTLLSLLISILAFFPFALFLTSLAKNTQAASAISSLFLNLMLFLSGATFPLEMMPTVLQYAAKILPLYYVIQLLRGTWTEAPITEYGFEAAVLIGIAIVSVVLATRFFRWSGK	PGPT0006730_22569	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03251	369	ytcD_5	COG1733	putative HTH-type transcriptional regulator YtcD	ATGAAAGAGTATTGCAAATTTGAATCAGCGCTTGATATTTTGGTGGGGAAATGGAAGCCCGTCATTTTACTTCAACTGATTTCCAACGGTACCATGAGATTCAGCGAGCTTCAAAAATCGATACCGGGTATAAACAAAAAAATGCTTACCCAACAGTTAAGAGAGCTTGAGTATAACGATATTGTACATCGAGAGGTTTATAACCAGGTCCCTCCAAAAGTAGAGTATTCAATTTCCGAGTATGGCAAAGGTTTAAGCACGGTGCTAAAGGCATTGAACAATTGGGGAGCGGCTCATATGGAGCATATGAATACGCTCTATGGAGTAGATCGTTTCAGGTATGAAACCGGGTCAACCGATTATAAATGA	MKEYCKFESALDILVGKWKPVILLQLISNGTMRFSELQKSIPGINKKMLTQQLRELEYNDIVHREVYNQVPPKVEYSISEYGKGLSTVLKALNNWGAAHMEHMNTLYGVDRFRYETGSTDYK				NA	NA	NA	NA	NA
AK002_03252	354			hypothetical protein	ATGAATATCGCATTATGGATCATTCAAGGGCTTGCTGCGCTGGGGTTTGTTTACTCAGGATGGTTAAAGGCGTTTCAGTTTGAAAAAGCCAACGCGTCTTGGGGATGGGTGAAAGACGTTCCCAAAGCGTTCGTCGTCTTTATTGGGGTAGCAGAATTGGTAGGAGCTTTCGGACTCATTCTGCCACTAGCGATGTATATCGCGCCCATATTGACGCCTATTGCCGCTGCAGGTCTTGCCACAATCGTTCTTCTTGGCGCCTTATACCATGTTGCACGCAAGGAGCATCGAGAAATAGGCGTAAACGTTGTCTTCTTTGTGTTAACTGTATTTATTGTGATCGGTCGTTTTTAA	MNIALWIIQGLAALGFVYSGWLKAFQFEKANASWGWVKDVPKAFVVFIGVAELVGAFGLILPLAMYIAPILTPIAAAGLATIVLLGALYHVARKEHREIGVNVVFFVLTVFIVIGRF	PGPT0028505_5255	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
AK002_03253	597	betI_4		HTH-type transcriptional regulator BetI	ATGAATGGTTTTGAAAAGCGGACGCAAGCGAAGAAAAATCAAGTCTTTGAGGCAACTTTTAACTTGTTGAATACCGAAGCCGGCATAGAAAATGTAACAGTGGATGAGATAGCTAGACATGCCAATGTCGGTAAAACGACGATATTTAAATATTTTGGGAGCAAGGAAAACCTGATCCATGAGGTGTTTAAATATTTTTTAACTCAAATGGGGGAAAATGCCCGAAAAATCATGGCCGATAATAAACCCTTCGAAGAAACGATCATTGCCATGAGTCAGATCAAAATTCATTTTCTGGAGAAGATCAACAAGCAGTTTTATTTCGATTTAATGGATTATTTTACGAAGAAGGACGATAACGGATTATCACTGATGATGCAGGAGTACGTCAACGAAAGCTACAGTCTTATGTTGGATTTATTTCATCGTGGGCGCAAAGAAGGCAAGGTTGATCTGAAATATTCGGATGAATTTCTTCTGATATATTTCCAGGCCCTGGTTGAAGGGATATCCAGCCCGCATATCTACCAAAGGATACTCCCTTATACCGCCCAGTGGACGGAATTGCTGGTAAAAGGGATTGCGCCAAGCAAATAA	MNGFEKRTQAKKNQVFEATFNLLNTEAGIENVTVDEIARHANVGKTTIFKYFGSKENLIHEVFKYFLTQMGENARKIMADNKPFEETIIAMSQIKIHFLEKINKQFYFDLMDYFTKKDDNGLSLMMQEYVNESYSLMLDLFHRGRKEGKVDLKYSDEFLLIYFQALVEGISSPHIYQRILPYTAQWTELLVKGIAPSK				NA	NA	NA	NA	NA
AK002_03254	882		COG1131	Multidrug efflux system ATP-binding protein	ATGACAAACATTGTAAAGGTGCAAGGCTTGCAAAAAAGCTTCGGGAAGTTCAAAGCGTTGCAAGACGTATCATTTACGGTAAATGCCGGGGAAGTTGTCGGATTTATCGGGCCGAACGGCGCGGGGAAATCCACAACAATTCGTACGTTACTTGGGATTATCCGTCGGGATGCCGGGGAAGCGAAGATCTTTGGCAAGGATGTATGGAAAGACAGCCTTGAGATTCATAAACGAATTTCTTATGTTCCTGGGGATGTGGCGCTTTGGGGCAGCTTAACTGGCGGCGAAATCATTGATTTATTTATGAAATTGCATGGCGGCGGAGACAAAAATAAACGCGACTATTTGATTAAACGGTTTGAATTGGATCCGAAGAAGAAAGCCAAGGGCTATTCCAAGGGAAATCGGCAAAAAGTCGGCCTGATTGCGGCTTTGGCCGTTGACTCCGATTTGTATATTTTCGACGAACCGACTTCCGGTCTTGATCCGCTGATGGAAGCCGTCTTCCAGGATGAGGTCGAAAAAATCAAGCTTGCGGGAAAAGCCATCTTACTGTCCTCTCATATTTTGAGCGAAGTGGAACGGTTGGCCGATAAAGTGGTCATCATTCGCCAAGGCAAAGTGGTTGAAACCGGGACATTGGATGAGTTGCGTCACTTAACCCGTTCGACGGTAACGATGGTAACGCAAGACAATGTGGCTATAATGGCATCCGTTAACGGTGTCCATGATTTCAAGCAATCCGGCAATCAAGCGACATTTTCCGCGGATAACGAATGTATCAATGAAATTTTGTCCGAAGCGGCAAAGTTGGGCGTCAAGAAGTTTGAGTCCGTGCCGCCTACGCTGGAAGACTTATTCATGCGTCATTATGAAGTCTAA	MTNIVKVQGLQKSFGKFKALQDVSFTVNAGEVVGFIGPNGAGKSTTIRTLLGIIRRDAGEAKIFGKDVWKDSLEIHKRISYVPGDVALWGSLTGGEIIDLFMKLHGGGDKNKRDYLIKRFELDPKKKAKGYSKGNRQKVGLIAALAVDSDLYIFDEPTSGLDPLMEAVFQDEVEKIKLAGKAILLSSHILSEVERLADKVVIIRQGKVVETGTLDELRHLTRSTVTMVTQDNVAIMASVNGVHDFKQSGNQATFSADNECINEILSEAAKLGVKKFESVPPTLEDLFMRHYEV	PGPT0006725_17492	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03255	1614		COG3559	Multidrug efflux system permease protein	ATGCAAGAAAAATTTGCGCGATCGCATGTACTATTCGTCCAATTTCTGAAACGTGATTGGAAAAAAATCATCATCTGGATTTTAGGTTTAGGCTTGTTTTCAGCCGGATTTGTTCCTGCTTTTGAAGAAATCGGCAAGGGGCAAGGTTTGCAAGGAATGTATGAAACCTTGCAAAATCCTGCCATGATTTCCATGGTTGGTCCGACACCGGTTGAGATATCAGCAGATTATACCTTGGGCGCGATGTATGCGCACGAAATGTTGTTATTCTGCGGTTTGTTTGCGATGATTATCGCTGCATTGCATGTAGTAAGCCATACTCGCAAAGAAGAAGATCTTGGGCTTACTGAACTCGTCCGTTCCTTCCAAGTGGGCCGTCAAGCCAACTCGCTTGCGGTAATTGCCGAAGTTCTAGTGATCAATATGATATTAGCGCTTGTGATTGGCGGAATGATGACTAGCTATGGAGCAGATACGATTTCGGCCGAAGGAGCCTTTTTGTTTGGCGCATCCATCGGGATGGCCGGGATCTTGGGCGCCGTGATTGCCTTAGTCATGGCACAAATAATGCCGACTTCATCCGGTGCAACCGGTTCATCACTCGGAATTATAGGCTTGCTTTATATTTTTCGCGCCGGTACGGATGTGTCGAATCCTGATCTCTCCATGATCAATCCGATGGGTTGGACGTATCTAACCTATCCTTTTACGGAAAACCATTGGCTCCCCCTGATTGTGGCGATAGTCTTCAGCGTCATAGTCGTGATCATCGCTTTTGCCCTTGAAGGCCGCCGAGATATGGGAGCCGGTTATTTGCCCGAACGTGAAGGACGGGAATCGGCAAAAAAATCGTTGCTGTCCGTATCCGGCCTGTTTACGAAGTTGAATAGAGGCGTAATGATCAGCTGGTTGATTGCTTTCGTCATCATGGGAGCAGCCTATGGTTCGATTTATGGAGATATGCGAACATTCCTTGAAAGCAATGAAATCATGAATCAAATGTTTGCTATATCCGGCGTTTCCATAGAAGCAGCCTTTACCGGGACCATAATCATGGTCATGATGGGATTGGTTTCCATTTTGCCGATTGCGATCGTAAACAAATTATTCACGGAAGAAACGCGGCGGCATTTAAGCCAGCTTTATGCTACAAAAGTGACGCGAGCTCAGCTCTATTGGATTACTGTCATATTGGCCAACGTTGCTGGAATCGTGGGTATTTTGCTCGCTTCAAGCGGTCTTGGCGGGACAGCCATTGCTGCCATGGGTGACGGCTCGCCCATGAATATGGGGGATTTTCTCGTCGCTGGTTATAACTTCCTGCCCTCCGTGTTGTTTTTTACGGGACTTGCCGCTTTGGCTTTAGGTTGGACACCAAGACTAGGCAAAGGCGTATATGCTTACCTCGGCTATTCCTTTGCTCTAAACTACTTTGGCGGCATTTTGGAGTTGCCGGAATGGTTCTCGAAAACAGCCGTTCAAAGCTGGATTCCACGGATGCCGGTAGATCCGTTTGATGCTGCAACGTTTATTGCAATCACAGCAATCGGTATTGCCTTCATGGTTTTGGGCTTTGTGGGATATCGCAAACGGGATATGATTGAAGGAGCTTAA	MQEKFARSHVLFVQFLKRDWKKIIIWILGLGLFSAGFVPAFEEIGKGQGLQGMYETLQNPAMISMVGPTPVEISADYTLGAMYAHEMLLFCGLFAMIIAALHVVSHTRKEEDLGLTELVRSFQVGRQANSLAVIAEVLVINMILALVIGGMMTSYGADTISAEGAFLFGASIGMAGILGAVIALVMAQIMPTSSGATGSSLGIIGLLYIFRAGTDVSNPDLSMINPMGWTYLTYPFTENHWLPLIVAIVFSVIVVIIAFALEGRRDMGAGYLPEREGRESAKKSLLSVSGLFTKLNRGVMISWLIAFVIMGAAYGSIYGDMRTFLESNEIMNQMFAISGVSIEAAFTGTIIMVMMGLVSILPIAIVNKLFTEETRRHLSQLYATKVTRAQLYWITVILANVAGIVGILLASSGLGGTAIAAMGDGSPMNMGDFLVAGYNFLPSVLFFTGLAALALGWTPRLGKGVYAYLGYSFALNYFGGILELPEWFSKTAVQSWIPRMPVDPFDAATFIAITAIGIAFMVLGFVGYRKRDMIEGA	PGPT0006730_1152	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03256	3081			hypothetical protein	ATGAATTCCTGGATTAAAAAAACGGCCATCCTGTTCACTTATTCCTTAACTTTAAGTTCACTTGTACCTCTCGCTTCTGGATCTGCCCAGAGCTCCACCATGATGGTCTCCAATTCCTCTCCCGTCATTAACAACGCGGGCTTTGAAACCTTGGGAAGTGGTACTGAAATACCGGGCTGGACCTATTATTGGTCACCGCTGACTGATGAATATTCCATCTCGATCACAGATTCCAAAAGCTATGAGGGAAACTACGCTTTAAAGATGGTCGATGGAGGGCCAAAGTCACTGGGGTTAATCAGTTCTTCTTTTCCGGTCACGGAAGGAAGCCGTTATGTCACCTCCGTGAAAACCTGGCTGGAACAGGGCTCGGTGGCGATGATTGTATATTACTACGATGCCGATAATAAGGAAATCAGCAACAGCCGCTCCTCCCTCTCCTCCGTAAGCAGCGATTGGTTGGATTTTTCGCATGAAAGCGTCGCGCCAGCCGGTGCCGTTACAGCCAAGATTATGCTGTACTCCGGTACTGCCGGCTACAGTACCGCCTATTTCGACCATATGACCGTGTCCGCATCCACTGCAGCAGATATCCCCGTTGCCTTCGGGGATCCGATTGATCTGGGGGCAGCGACGAAAACGGTCAAAACCAGCGGGGCCGCCATGGCGAATGGCGAGGTTTACTTTGCAACGAATGGAACGCCTTCGACCTTCTATGCTCTGGATGCCGCAACCGGCGAAGTCATCTATTCCTCTCCGGTCCATGGCGTGAACACGGTATACGGTGTAGCAGCCGGTTCCGACGGCAATGTTTACATATCCGGCGTGGAGAACGGAATGCTGTATCGTTATTCCCCTGCCGCAAAAACATTGGAGTCTGTAGGCGTCAATCCATCTGAAAAGCTGGTCTGGGATTTGGCAGCCACCTCGGACGGCAAAATTTACGGAGCCACGTACCCAAACTCCAAAATCTTCGAGTATGATATTGCCTCCAATCAATTCCGTGATCTCGGAAGTGTTCGTGAGGACGTCATGTACGCTCGAGGAATCGGTGTGACCGAGCAGTATATCTATGTCGGGGTGGGAAACCCTGCTTATTTATACAAGATTGATCGTCATACAGGTGAACAATCTGAAGTCAAGCTCCCGAACTCAGGAGCCAATGACATGATCGCCGACATCTGGTCGTATAATGGAAAGCTGTTCGTACGGTCCGGTGCTACTACCCTGTTTATTTTGGATGAAGAAACCGAAGAAGTGCTTCAATCTCTCCCTTGGCCTTCTCCAACCCGTTTTGACAGTATGATCTCCCCTCCTTCCCCACTGGACAGAGATCTGGTGTATTTCCGGAATGTAGTTAACAGTGAACTAGTCACCTATAATACGGCAACCAATGAAATCATCCCTTTAGAGGGTGTCGTTCTGCCAAATTCAACGGTGCGGGCCTATGATTGGGTTACTCCTCAAACCGGGCATAAAGCCGGCAAAACCTTGCTGGCCATGGTAACAGAAAAGCTGGAATACGTATTATTTGATCCTGAAGATCGGTCTGTCGAAACCATTATGCCTGAAATTGAAGCGGAAGGCATTGATATTCAGAGCATGGAGATGGGGCCGGAAGGGAAACTGTATATGGGAGGCTTCCATACAGCCTTATCCATCTTTAATCCAGTTTCCAATGCGTATGAACTACAGGAACGTGTCTTTCCTCAAATCGAAGGGATCGGCTTTTTAAACGACAAAGTATATTTCGGCACTTATGGGGGCGCTGTCATCTATAGATATGATCCCTCTCAGCCATACAAGAAAGACGTCAATCCTTCGCTCGCATTCAATATTGAGGATGGTCAGAGCAGGCCGTTCGCTTTCGCATCAGGCGACGATCAGCTGTTCATCGGAACGATCGCCGATTATGGTCTCGTTAAAGGGGCATTGACCATGTATGATGAACCAACCGATACTTGGACCACCATTCCGGATATTGTGGAGAATCAAAGCGTGATGTCCGTTGCCTATAAAGACGGTCTGGTCTATGGAGGAACAACGATCCATGGTGGCGGAGGCTCGACCCCCGCAGCTTCGGAAGCCAAAATGTTTATTTTTGATCCCAAAACCAAAAGCAAAGTCAAGGAGTTCTCTCCTGCGATCCCCGGCATGACATCCCACCAGCTGATCGGTGACCTGAAGGAAGGGCCAGACGGGCTTTTATGGGGTGTGACTTGGGGGAAAACAGCTTCAGGAACCACCGTATATTCGGTCTTCGCCATGGACGCAGTAACACAGGTGATCAAAAAGAGCAGGCTGTTATATCCGAATACCCCGTCCGGAAGTACATGGAGACCTTATTTTCTCCGTTTTGGCGACGATGGTCTGCTCTACACCACGGTCGGTCGTACTCTAACGGTGATCAATCCGGAAACAATGGATTCCAAAAAAATAGCGGACAGCGTCAACCTCATGACCTTGGCAGAAGATGGCGGAATTTATTATGCGGAAGGCTCCCATCTCAAGAAGCTGCCAATTGCCTTAAAAGAAGTCGCATTGAATTTGGATGAATCGTTACTCACTGTTGGAGATCAGGCACAGCTTATGCTGAGCGGAACCCTGTTTAATGGAAAATCCGCAGACTTGGCCCAAGCTTCGATCAACTACAAGAGCTCTGACGAAGGCATCATCACCGTTTCCGATTCTGGTACCATACAAGCTGTCGGTGCCGGGAGGGCAGAACTACAGGCCACGGTTGTTTTGAACGGTATCACCGTGCTCTCCAACTTGGTAGTGGTTGAAGTCAATGCAACTGCGGAACAATTATCAGAGAAACTTCAACAGGAATTCAATCTTCGACTGGCTTCGGGCGAGATTCTTAAGCCGCTCGCGAATCAATTGGCGAACAGCCTGAAGCAGACCGAACATCAATTGCTCAAAAAACACACGACTCAGGCCATCCACCATCTTGAGAAATTCACCCGAGATCTTGCGGATCCGAAAATGAATGCCTATATCGTTCCGGCAGCCAAAGAGGCATTGCTGCTCCAGGCTGCGGACCTGCTGAATATCTTAAATCAACAATTGGACAGCTGA	MNSWIKKTAILFTYSLTLSSLVPLASGSAQSSTMMVSNSSPVINNAGFETLGSGTEIPGWTYYWSPLTDEYSISITDSKSYEGNYALKMVDGGPKSLGLISSSFPVTEGSRYVTSVKTWLEQGSVAMIVYYYDADNKEISNSRSSLSSVSSDWLDFSHESVAPAGAVTAKIMLYSGTAGYSTAYFDHMTVSASTAADIPVAFGDPIDLGAATKTVKTSGAAMANGEVYFATNGTPSTFYALDAATGEVIYSSPVHGVNTVYGVAAGSDGNVYISGVENGMLYRYSPAAKTLESVGVNPSEKLVWDLAATSDGKIYGATYPNSKIFEYDIASNQFRDLGSVREDVMYARGIGVTEQYIYVGVGNPAYLYKIDRHTGEQSEVKLPNSGANDMIADIWSYNGKLFVRSGATTLFILDEETEEVLQSLPWPSPTRFDSMISPPSPLDRDLVYFRNVVNSELVTYNTATNEIIPLEGVVLPNSTVRAYDWVTPQTGHKAGKTLLAMVTEKLEYVLFDPEDRSVETIMPEIEAEGIDIQSMEMGPEGKLYMGGFHTALSIFNPVSNAYELQERVFPQIEGIGFLNDKVYFGTYGGAVIYRYDPSQPYKKDVNPSLAFNIEDGQSRPFAFASGDDQLFIGTIADYGLVKGALTMYDEPTDTWTTIPDIVENQSVMSVAYKDGLVYGGTTIHGGGGSTPAASEAKMFIFDPKTKSKVKEFSPAIPGMTSHQLIGDLKEGPDGLLWGVTWGKTASGTTVYSVFAMDAVTQVIKKSRLLYPNTPSGSTWRPYFLRFGDDGLLYTTVGRTLTVINPETMDSKKIADSVNLMTLAEDGGIYYAEGSHLKKLPIALKEVALNLDESLLTVGDQAQLMLSGTLFNGKSADLAQASINYKSSDEGIITVSDSGTIQAVGAGRAELQATVVLNGITVLSNLVVVEVNATAEQLSEKLQQEFNLRLASGEILKPLANQLANSLKQTEHQLLKKHTTQAIHHLEKFTRDLADPKMNAYIVPAAKEALLLQAADLLNILNQQLDS				NA	NA	NA	NA	NA
AK002_03257	1794			hypothetical protein	GTGATACTAAAAAAAAGAAGAGACCGGATGTTCTTTGTATTTATCAGTGTATTGTTTATCCTCATTACTGCAGGATGTTTTGCATCACAGGAGGCTCATCAGCTTGAGCAAGTGAAAGAGCAAGTGAAAGAGCAAGTGAAAGAGCAAGTGAAAGAGCAGAAGCAGGGGCAGGAGTACGACCAAGGAAGTGGAATGAAATTTTCCAGCCTTTCTGAACAGAAGATCGAGGATATCGCTAAGCTCAGTAAGGTATGGGGATTGGTGAAATATTACCATCCTAAGGTTGTATCTGGGGAAATAAATTGGGATTATGAGCTTTTTCGTGTGATGCCTTCTATTATAGATGAAAATTCGGATGTGAACTCAATCCTCTATGAGTGGGTTCATACGTTAGGTAATGAGAGCATTTCCGGGGATCTTGAACAGCAATACCAGTTTTCCGATGATTCCATACAAATCAGTCCAACCACAGATTGGTCCAAGGATGAGGAATATCTTGGAACAGATCTGAGTCTTGAATTATCAAAAATTTTAGATTCTAACATTTCAGAACGAAAAAATGCATACGTTAGCTTTAATGATGAATCACCCTTAGGGATTATGCATAATGAAAACGCTTATACTAATATGAAATTTGATGACACGGGCTACAGGTTGCTTGGTTTATTCCGCTATTGGAATATTATCGAATACTATTTTCCTTATAAAGATGTCATCGAAGAGGATTGGGATCAAGTGCTTATAGATTTTATTCCTAAAATGATAGATGGATCTGATTATCATTCCTATTTCATGACATTAGCAGAACTAACAACTAGAGTACACGATTCTCATGTTTATTTGAGTGGCAAAAATAGAGAGTCCATTACTGAGTATTTTGGAACGTATCGGCTTCCCGTAAACTTTGTTGAAATTAACAATCAGATTGTTATAAGTACAGTCCATAACAAATGTGGACTTGAGGTCGGAGACATTGTACTAAAAGTAGGTGATAATAATATTGATGAATTATTAGAAGATAGAAGAAAATACATCTCACAATCACGAGAAGACACGTCAGGACATGTCTATAATGCAATATTCCGAACTCATCAAAAGAATATGGACGTTACTGTCATTCGACAGGGAAAAACAATGAACATAAGTGCGACGAGCAGCCTAGAAGAGAATAATTACTTTGTTTATACGAAATCACAAGCAATGGAGAACGGAGAGATCTACTATATTAATGCCGGTCTGTTGGAAGATGGCGAGATTGATAGCATCATGAAAAAATGGTGGGACACTAAAGGTCTGATTGTTGATCTTAGAAACTACCCTTCTAGCTCAGTTGACTATAAATTGGCCCAATATCTGATCCCTTCTGAGGAAGAGTTTGCCAAAGTATCACTTCCTAATCGTGCAGTACCAGGTGAATATTATTTTGAACCTCTTACCTCAGGGAAGCCTCAACGGACAGATGACGAGGTTTTTAAAGGGAAAATTGTGATTCTAATCAATGAACATACGATTAGTAACGGTGAGTTTACAACGATGTTGCTTAGAAAAACAGAAAATTCAATAGTTCTTGGGAGGCCAACTGCTGGAGCGGATGGCAATGTATTTAATATTACTCTTCCAGGAAATATAAAAACTGGCATAAGTGGAATTGGTGTATTTTATCCAGATAAAAAACCAACGCAAAGAATAGGAGTGCAGCCTGATATTCGTCTTGATCCAACCATTGAAGGAATGATGGAAGGTGGGGACGAGTATGTTGAGAAAGCCGTAGAAATAATTAAAGATGGTGATTAA	MILKKRRDRMFFVFISVLFILITAGCFASQEAHQLEQVKEQVKEQVKEQVKEQKQGQEYDQGSGMKFSSLSEQKIEDIAKLSKVWGLVKYYHPKVVSGEINWDYELFRVMPSIIDENSDVNSILYEWVHTLGNESISGDLEQQYQFSDDSIQISPTTDWSKDEEYLGTDLSLELSKILDSNISERKNAYVSFNDESPLGIMHNENAYTNMKFDDTGYRLLGLFRYWNIIEYYFPYKDVIEEDWDQVLIDFIPKMIDGSDYHSYFMTLAELTTRVHDSHVYLSGKNRESITEYFGTYRLPVNFVEINNQIVISTVHNKCGLEVGDIVLKVGDNNIDELLEDRRKYISQSREDTSGHVYNAIFRTHQKNMDVTVIRQGKTMNISATSSLEENNYFVYTKSQAMENGEIYYINAGLLEDGEIDSIMKKWWDTKGLIVDLRNYPSSSVDYKLAQYLIPSEEEFAKVSLPNRAVPGEYYFEPLTSGKPQRTDDEVFKGKIVILINEHTISNGEFTTMLLRKTENSIVLGRPTAGADGNVFNITLPGNIKTGISGIGVFYPDKKPTQRIGVQPDIRLDPTIEGMMEGGDEYVEKAVEIIKDGD				NA	NA	NA	NA	NA
AK002_03258	210			hypothetical protein	ATGTCGTGTACAATTTTATCAAATATGATAAATATAATAGCCCCCCATTTTTACAAACGCTACAGCGATATCTTTGAAGGGGGAAGGGAATTCGTTGAAGGTTACTCCGGCAAAGGCTTCAGCAATGTTGAGGAAGGATTAGTAATCTATCGGATCAACATACACCCCAGCCTAGGAGAATATATAGGCTGGGCTTTTTATTTGCACTAG	MSCTILSNMINIIAPHFYKRYSDIFEGGREFVEGYSGKGFSNVEEGLVIYRINIHPSLGEYIGWAFYLH				NA	NA	NA	NA	NA
AK002_03259	273			hypothetical protein	ATGAACTTATCAATCTTAGCTTTTATTTTTGTTGGGATCATCACTATCTATGCTATTGCATTTACAATGATAATTAAGCTACTTGGCCGGAAATTTAAAGACAAATCCAATATGTATTTTCTATATGCATCGATTATCTTGGTTATCCAATCATATCTTATAATTAAGGATTTTTTAGGAAAACAGCCTCTAAGTTCAGTCAATACTTTATTCTTCTTAATGGCGTTCATGCTGATTTTCCAAGGAATAAAAAGAAAAAAATCAAATATGTAG	MNLSILAFIFVGIITIYAIAFTMIIKLLGRKFKDKSNMYFLYASIILVIQSYLIIKDFLGKQPLSSVNTLFFLMAFMLIFQGIKRKKSNM				NA	NA	NA	NA	NA
AK002_03260	1425	cheB_11		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGATCCATGTTCTCATCGTAGACGACGACAAGCTTGTACGTAAGGGACTGATGTCTTTTTTGCCATGGGAATCGTTCGGAATGAGAGTTGTAGGCGAAGCTGCCAACGGGGAGAAGGCGCTCGATTTTCTGAAGGCGAATCGGGTAGATCTGTTAATGACCGATCTGGCCATGCCGGTGATGTCGGGCATCGAATTAATTCGGGTTGTGCGCAAGCAATATCCGAATATCGCGATCGCCGTGCTGACTCTTCATCAGGATTTTGAATACATCCAGGAAGCGCTTCGACTGGGTGCCATTGATTACATTGCCAAGGTAGAGCTTGAAAAAGAACAGTTCGAAGAAGTGTTTCAGCGCATTCACTCCCGCATTGTGGAAGTGAAGCAGAAGCACAAGAATGAGTCGGATTCGATAGTAGCGGCTTGTTCTTGCGATACGGCCTATGCGCTATTGACGTACCCGGATGAGCCATTAACAAGCAGAATGGTAGCGGATTGCGTTTCATTGGGCTGGATAGCCGAAGCGGATGGATCCGTTCTGATGTGGCTGACGGATCTTTCCAAGGAGGTTCAGTCTCATGGCAATGACGATGAAGACCCGTTGCCGCCGATTCCAGACGGAACGCGCAGCACCGGATGGCATATGGTACGACTACGGCATACAGCCGATTTATCTCCATCCGAGCTGCTTCAACGAATACGGGCCTACAGGAGCAGAGATTTTTTCTACGACTGTGACGGCAATGAGCCCTATCCGATCGAGAAGTCTGTCATGGAGCTGACGGCGGAACTTCCTGAACCGGGAGAAGAAGAGACCGCCACTGTGAAGGAATTACTGCACGCCTTCACCTGGGTCCATGACGATGAAGCCTTTGATAAGCTTTGTAGTCGATTGAAAAAACTGCGTATACCCGTCTCCAAGCTAATGCAATGGATCTATGGCTGTATGGTTGACTGGAACCGGCTTTATAGAGCGATACAACCTGATGATATCAAGATGCCTGATACATTTACGTGCTGGCGGGAGGTTGCGGACTGGCTGAAACAATTCAGGGAAAATGGGATAACGCTGTCAGGCAGCCTGCAGTTGAGCCCCGAAGTGAGCGGCAGCATTATGACGGCGGTCAAAATCGTGCACGACGAACTTGAGTTTCCGTTATTCGCTATCGATGTCGCGAAGCGGGTCAATCTGAGCCGAAGCTACTTCTATCAATGTTTCAAAGAAATCGTTGGCTATTCCTTCAATGAATATCTGCGCAAGGTACGGATCGATAAGGCGAGGGAATACCTGGAACAGACGGCCAGGCCAATTGTCTGGATTGCCAAGCAAACCGGATACGAGGATGAGAAATATTTCAGCAGAACTTTTCGAGAGCAGACAGGCATGCTGCCGAGCGAATATAGACAGCGGTATAAGGCGAGGTAG	MIHVLIVDDDKLVRKGLMSFLPWESFGMRVVGEAANGEKALDFLKANRVDLLMTDLAMPVMSGIELIRVVRKQYPNIAIAVLTLHQDFEYIQEALRLGAIDYIAKVELEKEQFEEVFQRIHSRIVEVKQKHKNESDSIVAACSCDTAYALLTYPDEPLTSRMVADCVSLGWIAEADGSVLMWLTDLSKEVQSHGNDDEDPLPPIPDGTRSTGWHMVRLRHTADLSPSELLQRIRAYRSRDFFYDCDGNEPYPIEKSVMELTAELPEPGEEETATVKELLHAFTWVHDDEAFDKLCSRLKKLRIPVSKLMQWIYGCMVDWNRLYRAIQPDDIKMPDTFTCWREVADWLKQFRENGITLSGSLQLSPEVSGSIMTAVKIVHDELEFPLFAIDVAKRVNLSRSYFYQCFKEIVGYSFNEYLRKVRIDKAREYLEQTARPIVWIAKQTGYEDEKYFSRTFREQTGMLPSEYRQRYKAR				NA	NA	NA	NA	NA
AK002_03261	1746			hypothetical protein	ATGAAACCGGAAAAGGATTGGAAGTCCCGCCTGAAGCGATTGACCTTGAAAAATCGAATTCTTTTACTGTTTGCCGCAGCAACATTGATCCCTTTCATCTGCACCTGTTATCTGTCATACAACACCATTACATCCATTCTGAATACGAAGCTGCAATCCGGCATTCAAAGCAATTTAAAGCAGGTCCGATTGTCGCTTGAGAACACGCTGGACAACCTGAATCACGTTTCCCAACAACTGACCTTTAAGGGGAACGTCGGTAGGCAGCTTGAGAAGTTTTTGATGGCGAAGCAGCCGTATGATCGGAGTTATCTGACGGATGAAATCAAAAACCAGCTGAATCTAATCACGTTCACCAATCCCAATGTCGGATTAACGCTGTATTATCTACGCGACGATCAGACCACTCTTTTTGAGAATACAGGCATGAAACAGCCATTCGATATCGATGACCTTCCCATCCTAGCAGCGTATTATGGCATCACCTATTTTGGACCGCATATCAGTAAAGATCGATTCAACAATCAGTATGTGCTTTCCGCCTTGAGAAAGGTTGATTTGCCGGAGAGGGAGGATGCCTATGTCTACATTGAGTCCGGTTTCAAGCTGACGCAGAGCATTCTTGATTTGGATGAAGTCAGCAAGCATACCAATCATTTAATACTGGACAACAACGGAAGAATTTCATACAGCGAGCTTCAAGATATCTTTCCTGAAAATTCATTTTTTTCGGACTCTCTAGCGCCTTCCCTGGTGACAGGTATTACGTCCGACTATTATTGGTATCGACAAGTCAGCAATCAGGGCTGGAGTGTGGTCTCGCTTATTGCTAAATCCGACTACAACCGCGAGAAAAATCGCTGGATGATACAGATGCTGGGGCTGGCGCTGCTGTTCGCTGTAGTTAGTCTGTCGATTGGCTGGCTTCTATGGAAAATGGTGTACCGGCCGCTGTCGCGCTTTAATAAGGAGATCAAATCGATTGCGGGCAGCAATTTTAATGCGGCTGCCACGCAATCGCGCATCCCGGAATTTGAGATGGTGTTAAACCAATTTCAACATATGAAGGTTCAGATTACGCAGCTGTATTCTGAAGTCAAGGCCAAGGAGAAGCGCAGAGCGGATCTGGAGATCGAGAAGCTGCAGTATCAGATTAATCCGCATTTTCTGATGAATACGCTAGATACCGCGCACTGGCTAGCCGTTATGAACGGTCAGGAGGAGATCGACAGGCTTGTCACTTCGTTAAACAAACTGCTTTACTACAATCTCCGCAAAGGCAACAGTGTCGCGACCATCAGAGATGAGATTGATTCACTGAAGCAATATCTCATTCTCCAGCAGATTCGATACAATTTTCAGTTCGATGTCAATATTCACGTGGACGACGCATTACTCGAAGTGACGGTTCCTAGATTCATTCTGCAGCCGTTGGTTGAAAATTCGCTGTATCACGGGCTCGATGATAACGGCAGAATCGAGGTGGTGGTTAGAAAGAATGACAGACTTGAGATCGAAATTCGAGATAACGGTGGGGGGATCTCTGAGGAAAAGATTGAGGCATTGCTTGAGCAGGAACAGACTGAGCGCCATCGAGTGGGGATGGGAATCGGACTGAATTATGTCAAACGAATGTTAGAATTTCATTACGAAGGGAAAGCGAGTCTTACGGTAACAAGCGAGCTTGGCAAAGGTACCCGCATCATCATTTCGATACAAATCGAGGAGGAGAATTTAACGAAATGA	MKPEKDWKSRLKRLTLKNRILLLFAAATLIPFICTCYLSYNTITSILNTKLQSGIQSNLKQVRLSLENTLDNLNHVSQQLTFKGNVGRQLEKFLMAKQPYDRSYLTDEIKNQLNLITFTNPNVGLTLYYLRDDQTTLFENTGMKQPFDIDDLPILAAYYGITYFGPHISKDRFNNQYVLSALRKVDLPEREDAYVYIESGFKLTQSILDLDEVSKHTNHLILDNNGRISYSELQDIFPENSFFSDSLAPSLVTGITSDYYWYRQVSNQGWSVVSLIAKSDYNREKNRWMIQMLGLALLFAVVSLSIGWLLWKMVYRPLSRFNKEIKSIAGSNFNAAATQSRIPEFEMVLNQFQHMKVQITQLYSEVKAKEKRRADLEIEKLQYQINPHFLMNTLDTAHWLAVMNGQEEIDRLVTSLNKLLYYNLRKGNSVATIRDEIDSLKQYLILQQIRYNFQFDVNIHVDDALLEVTVPRFILQPLVENSLYHGLDDNGRIEVVVRKNDRLEIEIRDNGGGISEEKIEALLEQEQTERHRVGMGIGLNYVKRMLEFHYEGKASLTVTSELGKGTRIIISIQIEEENLTK				NA	NA	NA	NA	NA
AK002_03262	1701			hypothetical protein	ATGAAAAACATGTCAAAAACGTTAGCGCTGTTACTGGCCTGTTTTCTCGTTCTAGCAGCTTGCAGCAATACAACGAATAACACGCCGGCTGCACCGGAGAAAAGCGCGGAGTCAAGCGAACCCGCCGATCCATTTGGCCGCTACGAAGAACCTGTCCAGATCAGCATCAGTATTGAAATCGATCCCACCGATAATGAATTGCCTCCTGGCGACACGCCGCTCAACAATCAATACACTCGTCAGATTAAGGAAGCGCTTAATGTGGACGTCGATCATCAATTTGCTGCCTCTGGGCAGAATCTTCGTCAGAGAATTAGTCTCGCTATTGCAAGTAACGATTTGCCGGATGCTATGGTCGTCAATGCCGTTGAGCTGCGCCAATTGGTCGAAGCCGACCAAATTGCCGATTTAACGGAGGTGTATGAACAATATGCATCCCCGGATATAAAGACAATCATTGAAAACACCAACGGTGCTGCCTTAGATGCGGTAACATTCGATGGCAAAATGATGGCCCTTCCGGGTGTGCAAGCCAATGCCGATGGCATTCACCTCTTGTGGATCCGGCAGGACTGGCTGGATAAGCTGAACCTTGAACCGCCAACCACGATGGCAGAACTTGAGGAAGTCGCCCGTGCTTTCGTCGAAAAAGATCCTGATGGTAACGGTCAGCGCGATACGATTGGGATCACCGGACCTGAAAGTGGTGGCAAGCTGTATGCGAACTTCCTTGAGTCGAAGAACAATTTATACGGTTTTGACGCAATCTTCTCCGCGCATGACTCCTTCCCTGGATACTGGCTCGAGGGCGAGGATGGCAGCCCTGTATACGGCTCAATCCTGCCGGAGACTCGTGAGGCGTTAGCTAGTTTAAGAGATTTGTATTCCAAGGGACTTATTGATCCAGAGATGGGGGTTCGTAACAAAGCAGATGAGCCCATTATCGCCGGAAAATCCGGAATGTTCTTTGCGCCATGGTGGATGGCTTACGGCCCGCTAACCAATGCCGTAAAAAATGATGCCGAAGCCAATTGGCAGGCTTATGCTCTGCCTTTGAATCAAAATGGCGAATTTAGACCACATGCTGCTACACCTTCTACTGAGTTTGTGGTGGTTCGGAAAGATTACGAGCATCCGGAAGTTCCTATGAAATTGCTAAACAATCTGTTTAAAAACGAGCAAGAGAACACCTTTGACCCGAGCAAAGGCGGTCCTGGTTACTACCCGCTCCGCGTGGTATACGCACCATCCGACGAAATTGAATTTACAGTCAAAGCCCTCCGTGATGTGCTGGCAGGCAATAAAACCGCCGAGGATTTTGCAAATGACAAGGCCTACAAACTGCTGCCTTCGGACATCGCAAGCATCAAGACGATCAAAAACGAGCCTTACGATTCTATGGATCTTTCAACATGGAACCCTGAAGCGAACTGGGGAGCATGGACTCGATCGTACTCCATCATGGTGGGCGGCAGGCCGCTGGTTGATACCGAGTTTGAGGAGGTGCCCAGTCTTCTGTATGAGCAGACACCGTTAATGGAGAGCCGTTGGGTGAATCTGCGCAAGTTAGAGGACGAAACTTTCCTGCGCATCATCATGGGTGCTGCTCCACTGGAGACATTCGACTCCTTCGTCGAGAACTGGAAACGTCAAGGCGGCGACCAGATTACCCAGGAGGTTAAGGACGCGCTTGCGCAGTGA	MKNMSKTLALLLACFLVLAACSNTTNNTPAAPEKSAESSEPADPFGRYEEPVQISISIEIDPTDNELPPGDTPLNNQYTRQIKEALNVDVDHQFAASGQNLRQRISLAIASNDLPDAMVVNAVELRQLVEADQIADLTEVYEQYASPDIKTIIENTNGAALDAVTFDGKMMALPGVQANADGIHLLWIRQDWLDKLNLEPPTTMAELEEVARAFVEKDPDGNGQRDTIGITGPESGGKLYANFLESKNNLYGFDAIFSAHDSFPGYWLEGEDGSPVYGSILPETREALASLRDLYSKGLIDPEMGVRNKADEPIIAGKSGMFFAPWWMAYGPLTNAVKNDAEANWQAYALPLNQNGEFRPHAATPSTEFVVVRKDYEHPEVPMKLLNNLFKNEQENTFDPSKGGPGYYPLRVVYAPSDEIEFTVKALRDVLAGNKTAEDFANDKAYKLLPSDIASIKTIKNEPYDSMDLSTWNPEANWGAWTRSYSIMVGGRPLVDTEFEEVPSLLYEQTPLMESRWVNLRKLEDETFLRIIMGAAPLETFDSFVENWKRQGGDQITQEVKDALAQ	PGPT0017245_541	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03263	891	yteP_39	COG4209	putative multiple-sugar transport system permease YteP	ATGCGTATGAAAGGCTTCGCCAAACATTATTATCTGATGCTGATCCCGGGATTTCTATGGCTGTTCGTCTTCAGCATCGTTCCAATGTTCGGCATCATCATTTCGTTCCAATATTTTAATCCAGGCAAAGGTATCCTGGGCTCGGATTGGGCAGGGCTTGAGCACTTCAAATATATGTTATTGCTGAAGGATACACAGGAAGTCTTCAGCAATACGCTTGTCATCGCGTCCATGAAGATTGTCGCCAATCTGATTGCGCCACTGTTGTTTGCACTCATGCTCAATGAACTGCGTCTGATGATTCTTAGACGCTGGATTCAGACTATCGTCTATCTGCCCCACTTTTTGTCTTGGGTTATTCTGGGGGGCATTGTACTCGATCTGTTCTCCTATAACGGACCCGTCAATCAACTGACTGCATTGTTCGGATTCCAGCCCAAACTGTTCTTTGCCGATTCCCAGCTGTTTCCGTTCCTCGTTGTCGGCAGTGACGTCTGGAAGGAATTCGGTTTTGGCACCATTATCTATCTTGCCGCGCTTACCGGGATCAACCCGGCACTGTACGAAGCTGCCAACATCGATGGAGCAGGACGCTGGAGAAGTCTCTGGCATATCACGCTGCCCGGGATCCGCACGACAGCAGTATTGCTCACGGTTCTCAGCTTGGGTAATGTGCTTAACGCGGGCTTTGACCAGATCTTCAATCTGTACAACCCGCTCGTCTATTCTACAGGTGATATTATTGATACCTGGGTCTATCGAACAGGTTTGCTTAACCTGCAATATGAACTTGCGACCGCCGTCGGCCTGCTGAAGTCCGTTGTGGGTTTCCTGCTGATATCCGTCTCGTATTATCTGGCTTACCGTTTTGTTAACTATCGCATATTCTAA	MRMKGFAKHYYLMLIPGFLWLFVFSIVPMFGIIISFQYFNPGKGILGSDWAGLEHFKYMLLLKDTQEVFSNTLVIASMKIVANLIAPLLFALMLNELRLMILRRWIQTIVYLPHFLSWVILGGIVLDLFSYNGPVNQLTALFGFQPKLFFADSQLFPFLVVGSDVWKEFGFGTIIYLAALTGINPALYEAANIDGAGRWRSLWHITLPGIRTTAVLLTVLSLGNVLNAGFDQIFNLYNPLVYSTGDIIDTWVYRTGLLNLQYELATAVGLLKSVVGFLLISVSYYLAYRFVNYRIF	PGPT0017250_2690	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03264	891	melC_12	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	GTGGTCAGAGACCGGACGTTCGGCAACCGTGTGACGGATATTATACTAATTGTTGTCCTGATAGGCATTACTTTGTCATGCATCCTGCCGATCTGGTACACCCTCTCCCTTTCGCTTAGCTCCAACTCTGCCGCTGCGGCCGGTAAGGTCTGGCTATGGCCGGTCGATTTCAATCTCAACGCATACGCCCAGATTCTTAATGACCAACAGTTCTTCCGGTCCTTCTGGATCTCGACCCAGCGAGTGCTGTTGGGGGTTATGCTCAATTTTATCATGGTTGTGCTCATGTCTTACCCGCTCTCGCGGACAGCGAGAGAGTTCAAGGGACGCAATGTGTTCATGTGGATTCTCATTTTCACGATGTTGTTCAACGGCGGTCTGATCCCGCTGTATCTGACGGTCAAAGAGCTCAACATGCTGAACAGCATCTGGGCACTTGTCCTGGTCGGCGGTGCGCAGACACTCGTCTTCAACGTCATCCTCACGATGAACTTCTTCCGCAACCTGCCCAAAGAGCTGGACGAAGCCGCCCTTGTCGACGGCGCGGGACCATGGTACATCCTGTACAAGATCTATATCCCGCTGGCCGTGCCGGTGCTGGCGACCGTCTCGCTGTTCAGTATCGTGTATCACTGGAATGAATTCTTGTACGGTCTGATCTTCATGTCCCGTGAGCAGTTCTATCCACTCCAAACGTATATCCAGCAGCTTGTCGTCTCGGTCGATCCATCGACGATGTCCGAGGATCAGTACCGTCGCTTGTCTGAGTTATCCAACCGGACACTCGATGCCGCCAAGATCTTCATCGCCATGCTGCCTGTCCTCATCGTCTATCCGTTCCTCCAGCGCTTCTTCATTCACGGAATTACGCTGGGTTCGGTTAAAGAGTAG	MVRDRTFGNRVTDIILIVVLIGITLSCILPIWYTLSLSLSSNSAAAAGKVWLWPVDFNLNAYAQILNDQQFFRSFWISTQRVLLGVMLNFIMVVLMSYPLSRTAREFKGRNVFMWILIFTMLFNGGLIPLYLTVKELNMLNSIWALVLVGGAQTLVFNVILTMNFFRNLPKELDEAALVDGAGPWYILYKIYIPLAVPVLATVSLFSIVYHWNEFLYGLIFMSREQFYPLQTYIQQLVVSVDPSTMSEDQYRRLSELSNRTLDAAKIFIAMLPVLIVYPFLQRFFIHGITLGSVKE	PGPT0017255_1446	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03265	387			hypothetical protein	ATGAAAACGATCGATATCATGAAAGAAAATTTGATGTTTATTCTTGGACTTGGCGCATTAGCTCTAGTGAGACCCATAATGAAGATGACGGGGATCATGGATCTGATCGGACAACAATTCGGCAGCATTCTCATGACGATCCTTATCTCCTTAGCTTGGCTGGTTATCGTATTAATTAAGAAACCCGCTTCTCCAGTGGTCATTCTTATTTTTGCGGGTATGAGTTATGCCTTATATGCCGTCATCCTTAGCGGCATAGTCTCTCCGCTTCTTGATGGAAAATTACAAGGTCCATTAACTAATCCGTTTGCTCTTGTAAGTGTCTTTGCTATAAATGCGATTTGGGGATTCATCGTTGGATTCATTGCCAAAACACTTCGTCGTTAA	MKTIDIMKENLMFILGLGALALVRPIMKMTGIMDLIGQQFGSILMTILISLAWLVIVLIKKPASPVVILIFAGMSYALYAVILSGIVSPLLDGKLQGPLTNPFALVSVFAINAIWGFIVGFIAKTLRR				NA	NA	NA	NA	NA
AK002_03266	210			hypothetical protein	ATGGCCGTTTTCCGTTACATATTCCGTTTCTCTGAAGTTGCTGACGTCTGCGCCGATGATAATTACATTGTCAAGGATTCGAGAGATGGCGGGAAGAGATATCAGTTATATCAGACGTTAACGACGAAGTGTTTTGGCAATGAATCCAACGATGAATCCCCAAATCGCATTTATAGCAAAGACACTTACAAGAGCAAACGGATTAGTTAA	MAVFRYIFRFSEVADVCADDNYIVKDSRDGGKRYQLYQTLTTKCFGNESNDESPNRIYSKDTYKSKRIS				NA	NA	NA	NA	NA
AK002_03267	879	rarD	COG2962	Protein RarD	ATGAACAATGGGTTGGTTAACGCTATTATCGCGTATATCATGTGGGGGGTTCTCCCGCTTTATTGGAAGTTGTTTGAAAATGTGCCGGCAGGCGAAATTCTGTCGCATCGGGTTGTCTGGTCGTTCGTCTTCATGGGTATTCTCGTCGCCGTCCAGCGACGCTGGGGAGACATGAAGCGGGTTGCGGCTAGCCGCTCGCTCCTGCTGTCGCTCGCCGCCAGCGGACTGCTGATCGCTGCGAATTGGCTCATTTTCATCTGGGCGGTCAACAACGGCCATGTTGTCGAGACAAGTCTCGGCTATTATTTGAATCCGTTGCTGAACGTACTGTTAGCGGTCGTCTTCCTTCGTGAAAAGCCTAACCGCGGCCAATGGCTCGGGATTGCCATCGCTGGTGCCGCGGTGCTCATCATCGCCATCGACTACGGGCGGTTCCCGTGGGTCGCGATCTCGTTGGCCGTATCGTTTGGCTTGTACGGCCTCGCGAAGAAAAAGATCGTGCAGGACGCTTCTGTAGGCTTGTTGTCGGAGACGGCTGTAATCCTGCCCGTTGCGCTCGGTTACTGGATCTATTTGGCTGCCGTGGGCAAGACGACGGCATGGACGCTGCCTGCGCCGGTGTTCGTCGAGCTGCTTCTTTCCGGCGTGGTAACGGCGCTGCCGCTGCTCTTCTTTGCGCGGGCGGCGGCCCGGATGGCGCTATCCACGCTCGGCTTCGTACAATACATCGGGCCGACGATCATGCTGTTACTGAGCATATTCGTGTTCAAGGAATCGGTCTCGCCGGTTCTGCTTATCGGCTTCGCGCTCATCTGGACAGCGCTCGTTGTATACGCTGTGGCATCGGTTCGCAGCACGAAACTCGCGAAGGCGAGCTGA	MNNGLVNAIIAYIMWGVLPLYWKLFENVPAGEILSHRVVWSFVFMGILVAVQRRWGDMKRVAASRSLLLSLAASGLLIAANWLIFIWAVNNGHVVETSLGYYLNPLLNVLLAVVFLREKPNRGQWLGIAIAGAAVLIIAIDYGRFPWVAISLAVSFGLYGLAKKKIVQDASVGLLSETAVILPVALGYWIYLAAVGKTTAWTLPAPVFVELLLSGVVTALPLLFFARAAARMALSTLGFVQYIGPTIMLLLSIFVFKESVSPVLLIGFALIWTALVVYAVASVRSTKLAKAS	PGPT0003906_2744	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
AK002_03268	369	rsgA_2	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGCGGTATCTGACACAAACCAGGCAGAGCGGCGGCCAGCCGGTCATCATTCTGACCAAGGCTGATCTCGCCCCAGATTATAATCTCCTGCTCGCAGAAGTCACACAAATCATCCCCGATGTACCGGTTCACGCGATCTGCAATCATACAGGCCTGGGGATGAACGAACTCGATCCCTACTTGATGCCTGATAAAACGGTCGTCTTTCTCGGCATGTCCGGCGTTGGTAAATCGTCTTTGTTCAATGCGTTGATAGAACAGGACGTAATGAAGGTTCAGGCAATCCGGGAGGTCGACAGCCGGGGACGGCATACGACAACGCACCGTCAGCTGTTCATGCTGCCCTCCGGTACGATGGTCATTCATTGA	MRYLTQTRQSGGQPVIILTKADLAPDYNLLLAEVTQIIPDVPVHAICNHTGLGMNELDPYLMPDKTVVFLGMSGVGKSSLFNALIEQDVMKVQAIREVDSRGRHTTTHRQLFMLPSGTMVIH	PGPT0009020_938	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
AK002_03269	1323	rsgA_3		Small ribosomal subunit biogenesis GTPase RsgA	ATGCGTGAGCTTGGGATTGATGCAGACGAAGGCCTACACGCAAGCTTTACCGATGTGGAGGCATGGTTCCCGCAGTGCCGATTTACGGATTGCCGCCATCAGGCCGAGCCGGGCTGTGCTGTTCTTGCCGCGCTTGCCGACGGTTCATTGCCGCGTGAACGGTGGGAGCATTATGTGGCCCGGCAGCATGAGAACAAGCATGTCCAGGATAAAACCAGCTACCTCATCGACAAGAGAGCTCGAAACAAAACGAACGCCATGTGGAGCAAGCAAACGAAAAAAAACGGAGGATGGAGGATGGAAGATATGAATATTCAATTCGAAACGCTGATCAATGCCTTGAGCCGACAGTTCAAGAAGGATATCATCTCGGCCGACTGCCAAACCAAGCCGTTACAGGGCGGAACTGTGGGAAATGTGTACCTGGTAACGGGGATCGCCGATACCGCGGATGGCGAAAAATGGCCGTACCGTATCGTGCTCAAAATCCAGCAGAAATGGGAGCGTTACGGCGATCCCGGTTCATGGCGCCGGGAATATGATCTTTATGCGTCTGACTTGGGAGCGACGTTCTCGGATGCCTTCCGCTGGCCGACATGTTATCACGCCGAGATCAATGCCGAGGAAAATGAATTCCAGCTGTGGCTGGAATATATCGATGGCGTAACCGGTTTAGATTTGACCGTTGACATGTATGAACAGGCTGCGCTGGAGTTAGGACGCTATCAAGGCAAGCTGTATGCGGAGCAGCCCGCTGTGCTGCAGAGCCTGACCAACCTGAGCCATGCGGATCTCATGAAGAATACGTATCTCCATTACCGGTCTTGGCCGGTCGTCTACGATTATATACGCTCGGAGAACTGCGATTTCCCGCAGCACGTGCGGCAAATGATCATCGACATCGATGAGCATGCAGACGAGATTCTCGATCGCATCGAAAAATTGCCTCTCGTGCTATGCCACCGGGACTTCTGGGTGACCAACCTGATCTATGCCGACGAGAAAATCGCACTCATTGACTGGGATACATCCGGATGGGGCTACCTGGGCGAGGATCTCGCAAGCCTGATTGCGGATGAAGCGGATATCGATCACATGGTCGAAAACTACCAGCGATGTGTCCCCGCGTATTACAAAGGCTTTTCAGAATATGCGGATGTTCCCCCTATCACCGAACATTGCGTCTACGAGCTGATCCTTCTCGGCTTCGGATACAGGCTTGTGGAGTGGTATCTCCACACAGAGGACGATGACGAAAAGACGAAGCATTTCCATACGCTCCAAAAAATCTATGAAATGAAGACCACCCCTGTACTGGGTTGA	MRELGIDADEGLHASFTDVEAWFPQCRFTDCRHQAEPGCAVLAALADGSLPRERWEHYVARQHENKHVQDKTSYLIDKRARNKTNAMWSKQTKKNGGWRMEDMNIQFETLINALSRQFKKDIISADCQTKPLQGGTVGNVYLVTGIADTADGEKWPYRIVLKIQQKWERYGDPGSWRREYDLYASDLGATFSDAFRWPTCYHAEINAEENEFQLWLEYIDGVTGLDLTVDMYEQAALELGRYQGKLYAEQPAVLQSLTNLSHADLMKNTYLHYRSWPVVYDYIRSENCDFPQHVRQMIIDIDEHADEILDRIEKLPLVLCHRDFWVTNLIYADEKIALIDWDTSGWGYLGEDLASLIADEADIDHMVENYQRCVPAYYKGFSEYADVPPITEHCVYELILLGFGYRLVEWYLHTEDDDEKTKHFHTLQKIYEMKTTPVLG				NA	NA	NA	NA	NA
AK002_03270	2832			hypothetical protein	GTGAGAAGCAAGTGGAGGAGCCGGATTGCCGCTGCCCTAACAGTCATCATGATGTTCGCAAGTATCGAGTGGGCAAAGTCGATCACGTATGCAGCAGACGAAGGATTGACAAACGTTATGATCAACGGCGGCTTCGAGGATTCTGAAGAAGATGGACGCTTGCCGGGCTGGCAGCCCGATGAAGACGCTGCTGTCATTACAGTAAGTGAGTCCGTGTACACAGACGGGGAACGAAGTCTTCAAGTGGAACGCCTGTCGCTCGGCGCAGGCTACGGAGTTGTGAGCGATGCATATGCCGCCCAACCATTCGGCAATGTCATCATGACAGCAAGCGTGCTATCGGATGAAGGACAAGGCGGCAAAGCAGACCTCAGGTTTTATGATGCAGGCGGTAAGCTTGTCTCCGTAGTGAGTGGCCTGGTCGGTGAACCATCGGGCAAATGGCAGAGTTTAAGAGTGGCTGCTTCTGCTCCGAAAAATGCAGCGGAGGTCAGGGTAGCCTTTGATTTTAATGGTGACCGAACCGGCAGATATTTCGTGGACAGCGTCACATTGGAGTCGCAGGCTTCCTTCCCGTACTTAACGAATTTAGGACCGCAATCTTCAAGTTTAACCTTAATGACGGCTGCATTCGGTAAAGATAGGAATGGTCAGGATGCTTTGTTTACGGTCGCACAGGGTGATCCGGCACAACTCATCGTGATGGATGTTGCTTCGAAAGAAGTGAAATCCACTCATCCACTTGTTGCGCTTGACGGGAGCAACGTTTCGGCAGCTTGGGCGATTGTGACAGCCTCCGACGGAAAGGTATACATCGGAAGTACGCCGAACGGAACGTTGTTTCAATATGATCCGGCAGAGGATAAGCTGCGTGCCATCGGGAAACCTGTTCCTACCGATACCGTCATCTGGACGCTTGTAGCCGGGGAAGATGGCAAAGTGTATGGAGGAACAGGATATTCCCAATCGCTGTTTGAATATGATCCCGTTACCGACCAGACTCGAATCCTTAAATCCTTCAAGACTTCATCGAAAGAGGCTCATATCCGCAGCCTTGCTTACGATTCCGATCGTCAAATGATCTATGTGGGGGGAGCCGACGTCGCTAAGCTTTATCAATACGATCTTGCTAGCGGCACGTCGATTGCGCTTCATCATCCTGAATTTAACGGTAAGACTTCGGTTTACGATCTCCAGTATGCAGGAGGTAAATTATTCGTGCGCGTGGATCCCGGACCGGTAATGTTCGTGTATGATCCCGATACCGCTAGCTGGCTCGTTAACAATAATACAGCCTATAATGCACGAGGATTTTCACCGTTATCGCCTGACGGCGGAGAGGTATTCTACACCTATTACGAAACCCTTCCAGGTGGCACGCAGCAATGGTCTCTCTATTCATACGACTTGAGAACGGGAGTTTACGGCTCGCTGGGTGTCGATGTCAAAGGAGCAGGCGTAGCTTTTGGTTATGTACAGCTGGACGAGGCAAAGTATCCGGGCTGGACATTAGTCGGATTGGCCGGAAATGGCGGAAGAGCATTTTATTACAATCTGGAAACCGGTTTGATTGAAACGCCAGAGCTTCCATTTCCGGCACAGTTTGTGGAATTGTTTAACATCGGGAAAAGCACAGACGGGCAGATACTGTCCTCTGGCTTCATTTCAGGAGGGGGAATGGGAATTTACTCGCCAACCCGTAACGAGACCGAGCATTATCCTCAAATCGGCCAAGTCGAAGGATTCGGTTCCTTGAACGGGAAAATGTATCTCGGCGTTTATCCTAGAGCGACTATCTTTGAATACGATCCAGCCAAACCATGGAATCGAACGGACCCATCAGAACCGAATAATCCGCTGCGGCTTGGTCAGCTGGGTTCAGAGCAGGACCGGCCCGTTGCCATGCTCGGGGTCGAGGAAGAAAACCTGTTATATATCGGTTCTTATCCAATCGCAGGCAAAACAGGCGGGGCTCTTACCGTCTACAATCCCGTTACCGGAACGTTTGATGTGAAACGTGACATTATATCCGGACATTCGATCAATTCGTTGCTTTACAAAAATGGAAAGTTGTTTATGGCCACCGGCTCGATGACAGGTGGAGAGGGGAAGCTTGCCATTTACGATACAGCATCCGGCCGAGTAGAGATGGAACAGATACCTGTTGCGGGCAAAAAAGCAGTAACCTCTTTGATATGGGGCCCGGACGGTAACATTTGGGGAATGGCGCTAGGGTCTCTGTTTATCTATGATCCGGAGCGCCAAGAGATTATTTACAGCGAAGATATGTTCCCTGCAGCAGATTATGCACACAGCAATCCCCGCTTAACCGTTGGAACCGACGGCAATGTGTATGGTACCATTTATACGGGATATGTTGCTGACCATACGTACACTAGCAAAATGTTTAAGATTGACGCTGCAAGCAAATCGCTGTCCATCTTGTTGGAGAGCAATGCGGAAAAACTGGCCCAGGACGATTTTGGCAACTTATATTTCAAATACGGTAGCGAGCTGATGAAGTATAGCGATCCGAATCTGGTCGTGCAGCTAGACAAAGTACAGCTTGAGGCTGAATCGCTCCAGCTTCACCCGGGAGATGAAGTCGGTTATTCCTACAAAGTATCCCTTGATAAAGGAAGAACGACTAAGGAGTTATCCGGCGCAGCCATTGAGTATTTGAGCAGCCGTCCGGACAAGGCGGAGATCGACCCGAAAGGAAAGATTATCGCCAAGCATCCGGGGCAAGCCGAGTTGTCGATTCGAATTACATTGAACGGGGTAACGGTTGAATCCAATAAAATCAAGGTGAAAATAACCGGCCCTTTTTAA	MRSKWRSRIAAALTVIMMFASIEWAKSITYAADEGLTNVMINGGFEDSEEDGRLPGWQPDEDAAVITVSESVYTDGERSLQVERLSLGAGYGVVSDAYAAQPFGNVIMTASVLSDEGQGGKADLRFYDAGGKLVSVVSGLVGEPSGKWQSLRVAASAPKNAAEVRVAFDFNGDRTGRYFVDSVTLESQASFPYLTNLGPQSSSLTLMTAAFGKDRNGQDALFTVAQGDPAQLIVMDVASKEVKSTHPLVALDGSNVSAAWAIVTASDGKVYIGSTPNGTLFQYDPAEDKLRAIGKPVPTDTVIWTLVAGEDGKVYGGTGYSQSLFEYDPVTDQTRILKSFKTSSKEAHIRSLAYDSDRQMIYVGGADVAKLYQYDLASGTSIALHHPEFNGKTSVYDLQYAGGKLFVRVDPGPVMFVYDPDTASWLVNNNTAYNARGFSPLSPDGGEVFYTYYETLPGGTQQWSLYSYDLRTGVYGSLGVDVKGAGVAFGYVQLDEAKYPGWTLVGLAGNGGRAFYYNLETGLIETPELPFPAQFVELFNIGKSTDGQILSSGFISGGGMGIYSPTRNETEHYPQIGQVEGFGSLNGKMYLGVYPRATIFEYDPAKPWNRTDPSEPNNPLRLGQLGSEQDRPVAMLGVEEENLLYIGSYPIAGKTGGALTVYNPVTGTFDVKRDIISGHSINSLLYKNGKLFMATGSMTGGEGKLAIYDTASGRVEMEQIPVAGKKAVTSLIWGPDGNIWGMALGSLFIYDPERQEIIYSEDMFPAADYAHSNPRLTVGTDGNVYGTIYTGYVADHTYTSKMFKIDAASKSLSILLESNAEKLAQDDFGNLYFKYGSELMKYSDPNLVVQLDKVQLEAESLQLHPGDEVGYSYKVSLDKGRTTKELSGAAIEYLSSRPDKAEIDPKGKIIAKHPGQAELSIRITLNGVTVESNKIKVKITGPF				NA	NA	NA	NA	NA
AK002_03271	957	drrA_3		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGATGAAGCTGATCTATCAATTAGAGCATGTGAATAAAACATACAAAAAAGGAAAGGTTGTCGCCAATCAAAACATAAGCTTCGACGTTCAACAAGGGGAAATTCTCGGTTTGCTCGGTCCGAATGGAGCGGGCAAATCCACGCTAATTAAGCAGATGGTAGGCCACCTTGCTCCCACCTCAGGTACGGTACGCTATAAAGAAACCATCGTGCAGACGCAAACAAAGCGAGTTGCCCAGGAGGTCGCCTACTACTCACAAGAGCCTCACGCCCTGACCAGTTTGAAAACCTGGGAAGCTCTGTATTTTACAGGAAGATTGCGTGGGTTGACGAAGGAGTCCGCCTTAAAGCAAACAGAGGAATTGTTGGAACGCTTTAGTATGCAAGACCTCCGTCACAAGCTGTTGAAAAACGTTTCCGGCGGACAAAAGCGTTTAATCGGGATCGGTACTTGCTTGATCGGCTTTTCCCCCGTCATGATCCTGGATGAACCGACAAATGAACTAGATCCTAAAAAGAGAAGGCTCGTATGGGATCTGATTCAGGAACGCAATCGCCAAGGAGTAACCGTAATCTTGGTAACACACAACGTGCTGGAGGCCGAACAGGTCGTGGATAGAGTTGCTGTCGTAAACCACGGCAAGCTATTGGCCATCGATCATGTCGGTGTCTTAAAACAAAGGGTCGATCAACGGATGAAGCTGGAAATTACGACTTCCTTTGGCGAAAGCGATTATGTTTGCCGAAGCTTAAGCGCTCTGGGGCAGTGGACCAAAACGGGAGAAAATCGAATCCGGACACTGATCGAGAAGCAAAACGCCAGCTACGCGATCGACTGCCTCACTGAGCTGCAATTACCGATTGAAGAATACTCGTTGGTCCCTCCGAATCTGGAAGATGTCTATTTTCATATTGATGACGATCAGGATAAGCCTGCCCAAGCGGAGGTGGTCTAA	MMKLIYQLEHVNKTYKKGKVVANQNISFDVQQGEILGLLGPNGAGKSTLIKQMVGHLAPTSGTVRYKETIVQTQTKRVAQEVAYYSQEPHALTSLKTWEALYFTGRLRGLTKESALKQTEELLERFSMQDLRHKLLKNVSGGQKRLIGIGTCLIGFSPVMILDEPTNELDPKKRRLVWDLIQERNRQGVTVILVTHNVLEAEQVVDRVAVVNHGKLLAIDHVGVLKQRVDQRMKLEITTSFGESDYVCRSLSALGQWTKTGENRIRTLIEKQNASYAIDCLTELQLPIEEYSLVPPNLEDVYFHIDDDQDKPAQAEVV	PGPT0006725_6343	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03272	834			hypothetical protein	ATGGAAAAGATAAAACCATCCATGCAAAGCCATGACTTGCAGCTGCAAGAAGCCGTCTTTCTCCAAGGGCACGAACAGCAGAGCATAATCCAGCGCAGAATCACGGAATGGCTGATCTTAGCCCGCATTCAATTTACGATCATCCGCGAGGCATGGGTTTGGATTTTCATCATGGCATGCATGTTTCCGTTAACGACGCTGTTGTTTCTCAAATTCTTTACGGTCGACCCAACGCCGGCTGTCATGACACGTATTATTACGGGGAATATGCTATTCGGCTTAATCGTCATGGGACTCAATTCCATGGCTCAAGAGATATCCTGGCAGAAGCATCAAGGCCATTTCACGTACTATTCGTCTCTGCCGATCGCCAAGGTAAACTTCATCTTCGCTAATCTGCTGCGCGGCTTGATCATGTGCGTACCGTCTTTTATTATCCTGGCGATGATTGGTCAACTTGCTTACGGCATTCAATTTCACTACAGCTGGGGACTTGTACCTGTATTGCTGCTCACCGTCTTTAGCGTGGTTGGCGCGGGTGTACTGATCGGCTTCTGGTCACCTAGCCATCAATTGACCAACATGCTGGTCCAGGCGCTCATGATGTTCATCTCGTTTTTGACGCCTGTCATGGTGGATATGGATCAATTGCCTATGATCTTGCAATGGTTCTCTTACATCTTCCCAACCACTTACGCCGCTGAGGCCATGCGGGAGGTATTGATATCGGGCTGGTCCGGCTCTGTCGCCTGGAACACACTTGTTCTCTTGTTTTTCTCGCTGATCTCCATCGTATTGATCTTGAAAAAGGTTGATTGGCGTGTTGAGCAGTAA	MEKIKPSMQSHDLQLQEAVFLQGHEQQSIIQRRITEWLILARIQFTIIREAWVWIFIMACMFPLTTLLFLKFFTVDPTPAVMTRIITGNMLFGLIVMGLNSMAQEISWQKHQGHFTYYSSLPIAKVNFIFANLLRGLIMCVPSFIILAMIGQLAYGIQFHYSWGLVPVLLLTVFSVVGAGVLIGFWSPSHQLTNMLVQALMMFISFLTPVMVDMDQLPMILQWFSYIFPTTYAAEAMREVLISGWSGSVAWNTLVLLFFSLISIVLILKKVDWRVEQ	PGPT0006730_12577	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03273	927			hypothetical protein	ATGAACATAAGAACATTGCGTTCAGACCATATTTATCAAAAAGTTGCCCAAGCTTCGCCCGAGGAAAAGCTTGAATTATTCAGAAACGAAATGATGGCTCCCTTTATGAAACAATGGCAAATTCAACAGATCCCTTTTCGAGCGGAAGAAGCGAACGGTTTTGACGTTATTACGTTTAATAGCATAATGCATCGATCTCCTGATCAGATTACCCCGCAGATTTCACATGAGGTAGAGCTGATTTCGTCAGATTCTTTTTGGTTAGAGTGTGAGCACGCCGTAAGGAAAAGCCTCCAACAATTTATGGAACATGAAATAAACCTTCCTGTTTCCGAATATTTATTTACCATTCAACTAGGGAATCCGGAAAGCCGTGCCTTAACCATAAACGAAGGTTATAGCGGCTTTGGGGGCATTCCCGGGTATATCTGGGGTACAATCTTGCCCAATGCCTACACGATTCCTCGAATGAAGGCTGCGCTCGCGCACGAGTGCAACCATAATGTGCGATATCAATTTATTCAGTGGGATCACACCGTTCATTTGGGCGAGCTCATTGTAAGTGAAGGATTAGCCGAAAACTACGCTACGTTCATGTTTGGAGAAGAATTGCTCGGCCCTTGGGTAACGAAAACAGACGCAGAAACACTGAACAGGCGCATAAAGCCTGTGCTTAAAGAGCAATTGCATTTAACGGGTTTTGATAATATCGCTACGTATCTTTATGGTGACGAGATCGCCAAACTTCAAAAGTTTAAACCGGTCAACATGCCTTATAGTGCCGGATACGCGTGCGGATATTATCTAATCCAATATTATTTAAGGAAAACAGGTAGAACGATTTTCGAGGCCACCATAACGCCTGCCGCTGAAATATTAGACGAAGTAAAAGAATTTTGGAATGAAGACACGGTGATCAGCTCTTAA	MNIRTLRSDHIYQKVAQASPEEKLELFRNEMMAPFMKQWQIQQIPFRAEEANGFDVITFNSIMHRSPDQITPQISHEVELISSDSFWLECEHAVRKSLQQFMEHEINLPVSEYLFTIQLGNPESRALTINEGYSGFGGIPGYIWGTILPNAYTIPRMKAALAHECNHNVRYQFIQWDHTVHLGELIVSEGLAENYATFMFGEELLGPWVTKTDAETLNRRIKPVLKEQLHLTGFDNIATYLYGDEIAKLQKFKPVNMPYSAGYACGYYLIQYYLRKTGRTIFEATITPAAEILDEVKEFWNEDTVISS				NA	NA	NA	NA	NA
AK002_03274	1050	rutD_2		Putative aminoacrylate hydrolase RutD	TTGGCTAGACTTGCATTAGCGGACCCCATGGCCAGTGTACAGATAGACAAGAAGGAGCTGAAGAGTTTGACGCAACCAGCAGGAAAGGAAGTAAGGAATAGTACAAAAACAAAGAGAGTACTACATATTTTGCTTAAAATAATCGTCGCAGTAGTTATAGCCATCCTGCTTTTTATCGCCACCGTGTATTCCGTAAATAAAATCAGCAGTCATGCAGAACTAAAAAGATTGGAGCCATACGGTCAGCATGTAGCTGTAGATGGAAAACAGATGAATGTTTTCATTCAAGGTCAAGGTGAAGAAACCATTGTGATTCTTCCCGGTTATGGAACAGCGGCACCTGCACTTGATTTTAAGCCGCTCATATCAGAGTTAACCCCTTATTATAAAGTCGTCGTGATTGAACCATTTGGTTACGGTTTGAGCGATCAAACCCAGAAGGAGCGCAGTACTGCAAATATCGTAAGTGAAATTCACGAAGCGTTACAAAGTCTCCAAATCAATCGTTATATCCTCATGGCTCATTCCATTTCGGGGCTCTATAGTCTGGATTATGTGAACCAATATCCAGATGAAGTGCGTGCGTTTATCGGGCTGGATAGCAGCGTTCCGTCACTGAGCGAACAGAAGATTGATTCGTCAGACACAGAACCGGTTAAATGGTTCCGCAACTTGGGCTTCGCCCGGTTACAATTGAAACTAAGCACTGGCCCTTATGAAGGACGGCCGTATGATCAACAAACCAAAGAACAATTGAACATTATGATACGCAAAAACATGTATAACAACACGCAATTAAATGAGGCAGTGAGCATGTATTCCAACTTTAAAGCAGCAGAACAGATGAATTTTCCTCCCGATTTACCTATTCTTTTCTTTGTTCAAGCGAATCACCCTGTGACGGACCAATGGATCCCCGAGCATGAGAAGCAATTAGAGGAATCTGTACATGGCGAAATGGTTTTATTGGACGCGGGACATTATTTATATCGTTCTCATCCAAAAGAAATCTCGGACAAAATAAGGGATTTTACAGGCGGGATAAAATAA	MARLALADPMASVQIDKKELKSLTQPAGKEVRNSTKTKRVLHILLKIIVAVVIAILLFIATVYSVNKISSHAELKRLEPYGQHVAVDGKQMNVFIQGQGEETIVILPGYGTAAPALDFKPLISELTPYYKVVVIEPFGYGLSDQTQKERSTANIVSEIHEALQSLQINRYILMAHSISGLYSLDYVNQYPDEVRAFIGLDSSVPSLSEQKIDSSDTEPVKWFRNLGFARLQLKLSTGPYEGRPYDQQTKEQLNIMIRKNMYNNTQLNEAVSMYSNFKAAEQMNFPPDLPILFFVQANHPVTDQWIPEHEKQLEESVHGEMVLLDAGHYLYRSHPKEISDKIRDFTGGIK	PGPT0019765_20	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
AK002_03275	411			hypothetical protein	ATGGGAGAAGCGAAGGTTCTAACAAAAGCGAAGAATAAGGCAAGAGAAATTAAACGGAATGTTTTTGTTTTGTTCCTGGCCTATAAAGATCCAAGAGTACCTTGGTACGCAAAGTTGTTTGCGGTGTTAGTGGTTGCCTATGCTTTCAGTCCGATCGATTTGATACCGGATTTCATACCCGTTTTAGGTTATCTTGATGATTTGATTATCGTGCCTTTAGGAATTACGATCGCCCTTAAAATGATTCCACAATCGGTTATTGATGAATGTAGAGCTAAAGCGGAGGAGATCAGGAAGCAGGGAAAACCGAAAAACTGGGTGACCGGCGCGTTATTCATTTTGAAATGGGTATTAATCGCCGTATGGGTCGGAAGCATCTGCTATAAATTTTTCACTTACGGTAGGTTATAA	MGEAKVLTKAKNKAREIKRNVFVLFLAYKDPRVPWYAKLFAVLVVAYAFSPIDLIPDFIPVLGYLDDLIIVPLGITIALKMIPQSVIDECRAKAEEIRKQGKPKNWVTGALFILKWVLIAVWVGSICYKFFTYGRL				NA	NA	NA	NA	NA
AK002_03276	207			hypothetical protein	ATGGTGCGTTCTCAGATTTGGACGACACGACTTCACGAGCAGTCTGATGTCTTTCTTCACCACTTCCCAGAAAAAGAAGCAATCATTCGCACGCTGCTACATTGGATAGATGAACCGCCTAAGGACCGTGAGGTTGTGTATGAGTCGTTTAAGTTTGAGGGGGAGTGGGCGGGTGCCAACTTTTTAAATGAAGCCAAAACTCACTGA	MVRSQIWTTRLHEQSDVFLHHFPEKEAIIRTLLHWIDEPPKDREVVYESFKFEGEWAGANFLNEAKTH				NA	NA	NA	NA	NA
AK002_03277	459			hypothetical protein	ATGGGTTTGTTTGGATTACTGCTCGTTTTGCATATATTGGCTTCGATCGCCATCATTGGCCCAGCTTTCGTGATGCCCATCATTCGAAGATCCGCTAGAACCGTTGGCCAGCTGCACTTTACTTTTGGTATAACGACCAAACTTGCCATCATACCTAAAATGGGCGGAATTCTACTTATTATAACCGGTGTTTGGCTTATGATCATAACCAAGATGGGGATATCCCAAATGTGGCTGAATGCGTCCATCCTTTTATCGCTCCTCATGATCGTCCTCATCGACGGATGGATCGAGCCGCGTTTGAAAAAGATCATCAAGCTCATATCTGAAAATCAAGGCCAGAGTAATGAAATACCCGCCGAGTTCGGACTGCTGATCAAAAAGATCGTACCCATCGAGACGGCAGCACAGCTCATGATGATTGCCATATTGGTGCTTATGGTCGTAAAGCCTTTTTAA	MGLFGLLLVLHILASIAIIGPAFVMPIIRRSARTVGQLHFTFGITTKLAIIPKMGGILLIITGVWLMIITKMGISQMWLNASILLSLLMIVLIDGWIEPRLKKIIKLISENQGQSNEIPAEFGLLIKKIVPIETAAQLMMIAILVLMVVKPF				NA	NA	NA	NA	NA
AK002_03278	729			hypothetical protein	ATGAACATTATTGTTTTTGGAGCGACGGGGAATACGGGGAAAAGAGTGCTGGCACAAGGAATAAAATTGGGACACAAAATGACCGCGTTTGTGAGGAATTCTGAGAAGCTATATGATCAACTAGGTCAGCATTCCGCAAAGCATGTGAAGGTGATCGTGGACGATATGTTGAACCCAGTGAGCGTCAGTGAGGCGCTTGCGCATCAAGACGCCGCTATTATTGCGGCTGGTCATGCGGGCCAGGGGGAAGAGTTTGTTGGTATCGTCGATAACATTATAAGCCAATGTGAATTGGAGCCTAGTTTCTCTGGGCGGGTATGGGTCATGGGAGGAGCCGGTCTGCTGGATATTCCATATACCAATCTGATCGGCAACCATTTACCCGGCTTCCCGCCCGAGTATATAAATCACAACCTGAATTTCGAAAGGCTGCAACGGACTGGGCTCGATTGGTCCATGATGTGTCCGGGAACCATGATGGATTCAAGAGAGCATCCCGAACCGGTTCATCTACATGTAACAACGGAAACCTTGCCCGTTCCGATGTCGGAGACGATCAAGGAATATTCCGAGGCAGAAATAGCCGGTCATTTGTTCAGCCGATTTCAAGAGCTCAATGTTGCTTATGACGATGTTGTAATGTGTATGCTCAACCATCTTGAGCTCGGAGGAGCATTTAAAAGGAAAAGGGTCGGGCTAGCCTATCAAAGCAAGATTTCGGTGCGCTGA	MNIIVFGATGNTGKRVLAQGIKLGHKMTAFVRNSEKLYDQLGQHSAKHVKVIVDDMLNPVSVSEALAHQDAAIIAAGHAGQGEEFVGIVDNIISQCELEPSFSGRVWVMGGAGLLDIPYTNLIGNHLPGFPPEYINHNLNFERLQRTGLDWSMMCPGTMMDSREHPEPVHLHVTTETLPVPMSETIKEYSEAEIAGHLFSRFQELNVAYDDVVMCMLNHLELGGAFKRKRVGLAYQSKISVR	PGPT0020900_17	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
AK002_03279	333	ytcD_6	COG1733	putative HTH-type transcriptional regulator YtcD	ATGATTCATCAGCGTGAATGTCCAGTCGAAACACTCCTGCATGTTTTAGGCGGCAAATGGAAGCCCTTGATTTTATGGCATTTGATTGAATCCAAAAAGCGCTTCAACGATCTGGAAAAGCTTATACCTGATGTTTCACAGAAAATGCTTTCCCAACATCTCCGAGATTTAGAACATGAAGGCATAGTTGATCGAACGGTCTACCCTGCTATCCCTCCAAAAGTAGAATATTCCCTTAGTGAATACGGCAGAACATTGATTCCTGTAGCGGAAGTCATGTGTGCTTGGGGAGAAAATCATAATAAGCGTAAATATGAAGAGCCAGCGTCATAA	MIHQRECPVETLLHVLGGKWKPLILWHLIESKKRFNDLEKLIPDVSQKMLSQHLRDLEHEGIVDRTVYPAIPPKVEYSLSEYGRTLIPVAEVMCAWGENHNKRKYEEPAS	PGPT0028512_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028512-yodB-NA	NA	NA
AK002_03280	303			hypothetical protein	ATGCGGAATCTTCAGGAATTAAGCGAGTTGGGCGTTCCTTTATACTCGGAATTCGGACCTCAAGGCGGTTTTCACGTATTGGGGGAGGCGAATCTGCCATCCATTTCATTTACCGATGACGAAGCTGCAGCCATTTTCTTTGCCGTTTACGCCTTGCGCCATAATATTGATTTTCAATATAAAACAGAGTTTTTTACGGCGTTGAACAAGTTTTATAACATGATGCCAGAAGATGTCCGAAATTTATGCCGCAAGATGTCCCAAGAGGCAGAACATTCTGCTAATGGGAAAAACAATTACTGA	MRNLQELSELGVPLYSEFGPQGGFHVLGEANLPSISFTDDEAAAIFFAVYALRHNIDFQYKTEFFTALNKFYNMMPEDVRNLCRKMSQEAEHSANGKNNY				NA	NA	NA	NA	NA
AK002_03281	1005			hypothetical protein	ATGGGACAGACTTATGTACCTAAGGCCAAACTAAGAGAAGGCCGTTTTTATGTAACGGTAGAGCAATACAAGCACTATCACAGGGATGGTTACCTTATTGTTGAAGGACTGTTGGATGCGAAAGAAATAGAACAATACGCAGCGTGGGCAGAGAGACTGCGGATTGAACATGAGGGGAAACGTGAAGAGGCATCTAAGGAAGATAAGGATCCTCTCAAATCGGAGTTTGCCGAGAAAACGAGGGTTCATATGTTCTCTCGCGTCCATCCGGAAGGGGAGCAGCTGATGCTTCATCCCCGGATTTTGGATGTGCTTGAGGCGCTTATTGGGCCCGATGTCTATGCTCTGCAATCGATGATGTTCTTTAACCCGCCGGGAAAAGGGGGGCAAGGTTGGCATCAGGATGCTTATTACATCAAGACCCACCCCGACACATTAATCGGAGCCTGGATTGCCCTGGAGGATGCCGATGAAGAGAATGGGTGCTTGTGGGTCGTTCCCGGTTCCAATCACGAACCGATCTACCCACCACCAGGGGATAACGGCGGCAGTGTTCATGCTAAAGAAGCATTCACCGATCTCCATTCCGTGGAGAATGTCAGTCATCTCGACGATGAGGTCAACACGTTATCCAAAGTGGTGTCCAATTATCCGGCTCCCATTCCAGTGCGAATGAAGCCTGGAGATGTGCTATTCTTTGATTCCCATTTATTCCATCGTTCATATCGGAACCGAACGAAGGACCGTTATCGCCGCTCCTATGTGTGCCATTATTGTAACGCTCGGTCGTTCGTTCCGTGGGACCATGACGGTTATGAAGGCGAAAGCGGGAATTACCGCCAGATATTGGCCCGCGGCCGGACGCATCTTGCTTATGCGGAACCGATATTTGATACCCCGGTAGATATTACGCAGCACGATGAGATACCCGAATCATCCAGCGTGACGTTGATGGGTATGGATGACGGCATGATGCTGCCGGTCGTACAAGAGAAAAGAGAATAG	MGQTYVPKAKLREGRFYVTVEQYKHYHRDGYLIVEGLLDAKEIEQYAAWAERLRIEHEGKREEASKEDKDPLKSEFAEKTRVHMFSRVHPEGEQLMLHPRILDVLEALIGPDVYALQSMMFFNPPGKGGQGWHQDAYYIKTHPDTLIGAWIALEDADEENGCLWVVPGSNHEPIYPPPGDNGGSVHAKEAFTDLHSVENVSHLDDEVNTLSKVVSNYPAPIPVRMKPGDVLFFDSHLFHRSYRNRTKDRYRRSYVCHYCNARSFVPWDHDGYEGESGNYRQILARGRTHLAYAEPIFDTPVDITQHDEIPESSSVTLMGMDDGMMLPVVQEKRE				NA	NA	NA	NA	NA
AK002_03282	894	rhaS_7		HTH-type transcriptional activator RhaS	TTGTCGCTAACGCTGCCCGCGCTTCATGTCATGGGGGATATCACCGTCAACAAGGGATCCGTTCTGGGGGTGCGAACGATTGATGATTTCGAATTGGTATTCTTTCCGACGGGTTCCCGAACCGTTTACGAAAACGACCGGGGCGAATTTCTGCTGGATCGGCCCGGCATTGTATTCACCTGTCCCGGAGAGCCGCATAGGTACCGGTTTGATCCGCTCGTTCCCACCAGGCATTTATATGTCCACTTCGAATATGCAGCGTTCCGGGAAACCTTCTGCAGACAAGACGATAGCCGAGGGGAATGCCAGGACTGGTCGGTGATTGCCGGGGGAAGTCTTGTTCCCTCCCTGTTGAAACAAATGCTCAAAATTGTGCATGTAAAACCCCGCGGCTGGCAAAGAAGAGGAGCCATTTTGCTGCTGAGCGTTCTGGAGGAATGGCAGGCGATCGATGAAGACGATTCGCGCTCTTCGATGAACCTGCCTGCCCCGATTATCAAGGCATTGGATTATATGGAACAACATCTTCATCACCAGATTACCATTGAAGAGATTGCCGGCAGTTCCGGCTGGACTCATGAGCACTTTACCCGAATGTTTGTCCGCTGGATTGGGATCCCTCCCCAGAAGGCCTTGATGGAACGCCGTCTACGGAGAGCGGAACAGCTATTAATCCAAGCGGAGCGAACGATCAAACAAATCGCTTACGATGTCGGGTTTGCCGATGAGCACTATTTCTCACGCATGTTCAAACGGACACGTGGCGTCACTGCCGTGGAATTCCGCGATCGATTTGCGGATCCGTTATTTCGTCATTTGGCCATGACCGAAGAGGAGGAGTCCGCTTATCCCTTGAACCGGCATTTTGTCGCTCTGAATCAGGAGCGGACATGA	MSLTLPALHVMGDITVNKGSVLGVRTIDDFELVFFPTGSRTVYENDRGEFLLDRPGIVFTCPGEPHRYRFDPLVPTRHLYVHFEYAAFRETFCRQDDSRGECQDWSVIAGGSLVPSLLKQMLKIVHVKPRGWQRRGAILLLSVLEEWQAIDEDDSRSSMNLPAPIIKALDYMEQHLHHQITIEEIAGSSGWTHEHFTRMFVRWIGIPPQKALMERRLRRAEQLLIQAERTIKQIAYDVGFADEHYFSRMFKRTRGVTAVEFRDRFADPLFRHLAMTEEEESAYPLNRHFVALNQERT				NA	NA	NA	NA	NA
AK002_03283	318			hypothetical protein	ATGAAGGGAGTGGGATTTAAGATGACTAGAACATTAGGATACACAGAATTTGTACCGCTAAATTTGAAAGCTGTATTTACGAGTGTAGATTTAAGCGTAAAGAAAGTAACTACTAATATCATCTATCAAGATCAGACAATTGCCACCTTCATTTTTAGCTTACCTGCAAATATAATTTTAGAAAGCGGAGATATTAATAGCATGAGAGGCTTACAAGAAGTTGATATTGATGAAGAGTATGTGGTTTGGAGACTTAAACCAATATGGCACTCGATATTGGAACATGAGATTTCCGAGCCCGATGATTTTCTTGTTTAG	MKGVGFKMTRTLGYTEFVPLNLKAVFTSVDLSVKKVTTNIIYQDQTIATFIFSLPANIILESGDINSMRGLQEVDIDEEYVVWRLKPIWHSILEHEISEPDDFLV				NA	NA	NA	NA	NA
AK002_03284	324			hypothetical protein	ATGAGAATACAAGATATCATCGAAGGCAAAAAAGAGTGGCGAGCGCACGTGGCGCGTGTCAAAGCGCTCCCGCAAGATTATCAGATTGTTTATAAGGAGATTCAAAAATATCTCTTTAAGGTCGGCCCTGTCGAACTAACCGACGGGACGGGGATACTCTCGGGGATTATCGATCTTTTTGAAGAGGGCGCGGCCGTGGGAAAAGGCGTTCTCGAAGTAACGGGCAGTGACGTAGCGGCTTTCTGCGACGATCTTATTAAAGATTCAAAAACTTACGCTGATATCTATCAAGAATCATTAGACCAAAAAGGTAACAAGGCATGA	MRIQDIIEGKKEWRAHVARVKALPQDYQIVYKEIQKYLFKVGPVELTDGTGILSGIIDLFEEGAAVGKGVLEVTGSDVAAFCDDLIKDSKTYADIYQESLDQKGNKA				NA	NA	NA	NA	NA
AK002_03285	348			hypothetical protein	ATGAATTTTTGGGAAAAAATCACCGGCAGCGACATGACTAAACAATTTAAAACTTTTGAATCACGAGCCAAAAAGCTGCCAGCTGATTATCAAGCGGCATGGAAAGAAATTAATGCCAATCTTTGGCCGCACTCCGATTTCACCGGTCGCAACCTCATGCCGATTCTTGACGGTGTGCTTGGCCTGCTCGAAGAATCGGCTGCGGAAGGTCAGAATGTCCAAGAGGTTTTGGGTAACGATATCAAAGGCTTCTGTTCAGCGTTGGCCGGCGAAGAAGGTGCAAAATCTTTTCGCGACAAGTGGCGCGAGCAGCTCAACAATAATATCGCTAAAAAATTAGGTGAATAG	MNFWEKITGSDMTKQFKTFESRAKKLPADYQAAWKEINANLWPHSDFTGRNLMPILDGVLGLLEESAAEGQNVQEVLGNDIKGFCSALAGEEGAKSFRDKWREQLNNNIAKKLGE				NA	NA	NA	NA	NA
AK002_03286	1275			hypothetical protein	ATGAACCAAGTGATGACAAAAGAACCTTTGCTCATCGGCATGCTGGATATACGGGCGGCAGGTCCACGCTGTAAAATGCTGCTCGGCGACTTAAACGGAGATGGCCGGATGGAGATGCTGCTCGTGCAGCCCGACAACCGCCAGGACGTTCGTTATATTCCCCATCAAGTGCAGTGCCTCACTGCGTTCGATCTGGAGGGGAATCTGCTCTGGCAGACGGGAAAGCCGGATCCAGGAGCAGGCAGTCATGGCTCGGATTATCCCGCACAAATTGTCGATATCGACGGAGACGGCCGTTTGGAGGTGCTGTGTGTTATGGACAGCCGGCTCATCGTCATCAACGGGCACGACGGAAGCGTTAGGTCTTCCCATGAGCTCCCGGACCCTGAGGCGCACGACTGCATAATCATTGCAAATTTGACGGGCGGCCCGCATGGACGAGATTTCATTCTAAAGGATCGTTATCACCGCATGTGGGCAATGGACCGGAACTTCAATTTGCTCTGGACGCACGAGGGCAACCCTGGCCACTTCCCTTGGGCATATGATCTGGACGGTGATGGATACGATGAAGTGATGGCCGGTTATACGCTGCTGGACCATGACGGCACGCCGTTATGGAGCTGCCGTGAATTGGATGATCACGCCGATTGCATTTGGATCGGTGATGTAAATGGCGACGGAGAGCCGGAGCTTGTAATCGGAGGCAGCGTAACGGTCATGTATGACCGTTACGGCAAGGAATTATGGCGCTACGAAGGCTCAATCGAGTCACAGCATTTAGCTCTAGGGCGCTTCCGAAGCGACTTGCCGGGAATGCAAATTGCCGGACTGGATCGACTCGTGAGAGAGGACGACGGTAAGGGCTTAATTGGCAAGGACGCCTTGTTCCTGCTGGACAGCAGCGGACAAGGGGTGTGGAAAGAAGACCGTAAGACACCCGGCTGGCTTACGATCATCGAGCCCTTGAGCGGGTGGGCAGAAGGCGCCCCAGACTATATTTTGGCATACCGTCGCGGTGGGGGCATCTTCCCAACATTGTATGACGGTCATATGAACGCCGTCGTGGAGTTTCCTTCCGAGGGTTATGCCGTCCATGCCGACCTATGGGGCAGCGGTACGGAGCAAGTCATTATTTACAACAGCGAAACAGCGTCCATATTTTCGAGCAAACCTGCTGATCTGAGCGAGCTCCCTTCGGGTATTCCGCAGCCGCAGCCGAAACGCTTGTCCAACTCGACATTGTATCCGGGCGGGGAAGTTCCTCTGTTCTAA	MNQVMTKEPLLIGMLDIRAAGPRCKMLLGDLNGDGRMEMLLVQPDNRQDVRYIPHQVQCLTAFDLEGNLLWQTGKPDPGAGSHGSDYPAQIVDIDGDGRLEVLCVMDSRLIVINGHDGSVRSSHELPDPEAHDCIIIANLTGGPHGRDFILKDRYHRMWAMDRNFNLLWTHEGNPGHFPWAYDLDGDGYDEVMAGYTLLDHDGTPLWSCRELDDHADCIWIGDVNGDGEPELVIGGSVTVMYDRYGKELWRYEGSIESQHLALGRFRSDLPGMQIAGLDRLVREDDGKGLIGKDALFLLDSSGQGVWKEDRKTPGWLTIIEPLSGWAEGAPDYILAYRRGGGIFPTLYDGHMNAVVEFPSEGYAVHADLWGSGTEQVIIYNSETASIFSSKPADLSELPSGIPQPQPKRLSNSTLYPGGEVPLF				NA	NA	NA	NA	NA
AK002_03287	798			hypothetical protein	ATGTCGAACATTTTGTTGTGCTTTCCGGAAGGGCGGCACAAAGCGTTAACGATGAGTTACGACGACGGCCGCTTCGCCGATCGGCGGCTGGTAGACATATTTAACCGGTATGGGCTTAAAGGATCTTTTCATATCAATTCCGGACTACTCGGAACGCCGGATAGGGTGGGTGCAGATGAGGTCAAAACGCTCTATGATGGTCATGAGGTGTCGGCGCATACGCTGACCCATCCGACGATCGCTCGCTGCCCGAACGAGCAAATCGTGCACGAAATCATGGAAGATCGGCGTCATCTGGAACGTATCGTGGGCTATGCGGTGCGAGGGATGTCGTATCCGAACGGCTCTTACAATCGCAGAATCAAAGAGATGCTGCCGGGTCTCGGCATAGAATATGCAAGAGTCGTTGCCGGTTCAGGGCAATTCGGAATGCCGGACGATTTTCTGGAATGGCAGCCGACATGCCATCATAATCGTGAGCTGATGAAGCATGCGGAAACCTTCGTCAGCTTGCACAAAAAACAATACCTATATCTGATGTACGTATGGGGCCACAGCTACGAATTCGATAATGATAACAATTGGGAGCTTATGGAACAGTTCGGCACCTATATGGGAGGCCATCCGGATATTTGGTATTGTACAAACATTGAGTTTGTTGATTACGCCAAGGCATTCGAAGGACTGAAGTTTGCAGCTGACTTGGATTTCGTCTACAACCCTTCAGCGTTAAGCGTTTGGTTGAACGTGGACGGAGAGATCGTCGAAGTGAAAGGCGGCAAGCAAATCAAGTTGTAA	MSNILLCFPEGRHKALTMSYDDGRFADRRLVDIFNRYGLKGSFHINSGLLGTPDRVGADEVKTLYDGHEVSAHTLTHPTIARCPNEQIVHEIMEDRRHLERIVGYAVRGMSYPNGSYNRRIKEMLPGLGIEYARVVAGSGQFGMPDDFLEWQPTCHHNRELMKHAETFVSLHKKQYLYLMYVWGHSYEFDNDNNWELMEQFGTYMGGHPDIWYCTNIEFVDYAKAFEGLKFAADLDFVYNPSALSVWLNVDGEIVEVKGGKQIKL	PGPT0012156_476	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
AK002_03288	2268			hypothetical protein	ATGAAAACCGTCCATGAGCAGCACGAATATGAAGCAAAGAAGTTATACGGGGTGCAGCTGGAATATCTGAACCGGGGGTTGGTTGCAGCTGCGACAACGGAAGGAATATTTCTCAGCTGGAGATTGCTCGGGAATGAAGTGACCGGCTATAGCTGTAACGGAATGATCGGCACCCATTTTAACCTGTATCGCAATGGCGCCTGTATCGCAGCTATCCACGACAGTACCAACTATTTGGACCCCGGCGGGACGCTAACATCGGTTTATTATGTTTGTGCGGTTGTGGATGGACGGGAAGTTGACCGTTGTGCCGACGTCACTCCCTGGGTGGGTCCATACTATGATTTACCTTTGCGAAAACCGGCTGACGGAGTCACGCCGACTGGCCAAATCTATACCTACGCGGCAAATGATATGAGCGTCGGGGATGTAGATGGCGACGGTGAATATGAGTACTTTGTGAAATGGGACCCGTCCAATGCAAAGGATGTATCGCATTCCGGCTACACCGGTCCGGTATACATCGACTGCTATAAGCTGGACGGAACGCTGCTCTACCGGATTGAGCTTGGTGTGAACATTCGGGCGGGTGCTCACTATACACAGTTTCTGGTCTATGATTTTGACGGAGACGGGAAAGCCGAGCTGATGTTTAAGACAGCACCCGGTACAAAGGTCATAAGGTACGATCAGGAAGGAAGAGTATCCTCTGAAACCTATATAACCATGCCTCGGGAGGATATAGCTGCCGGGTACAGTCATCAGGACGACTATCGAATGAGCAGTATGGACTACTATAAGCATATTGTCCATATGTTCATGCGCTGGCACTCGCATGAGGAGGTCGTGGCGAAGCGATGGCCCTCCACGCTTGAAGAGTGCTTCGGGATCGAGCGTCGTTACACTTATCCATTGTCAAGGGAGGATGCGGAGCAGCTTGCCGATTACTTCCTCGACGTGTATGCTCCCCGTCGGAGCGGGCGCAACAACTTGAGGTCATTTGAGGGATTCATTCTTGATGGGCCAGAGTATTTAACCGTGTTTCTTGGACAAACAGGCGAAGAATTGGAGACGATCCACTATAAACCGGGACGGCATGACGATGGCCTGATGTGGGGGGATTACTCGTGGAATCGCATTGAGCCAGGCAATCGTGTGGATCGATTTCTAGCAGGGGTAGCCTATTTGGACGGTAAACAACCGTTTGCGATCTTTGCTCGCGGCTATTATACTCGAGCTGCTGTTGCAGCCTACGCTTGGGATGGAACACGCTTGAAGGAGAGCTGGTTCGTTGACAGCGGCTGGGTTTCGATGAATAATCCTTTTCATGATACGCTTCGTCAGGAAGACGGCCGAAATGAGAATTTTGGCAGCCTAGCTAAACAAGGGGCGCATTCCTTAAGCATTGCAGATGTGGATGGAGACGGCTGCCACGAAATTATTTACGGAGCCGCTACCATTGACCATGACGGATCCATTTTATACAGCTCCCGGGGCATAATGCCACCGGAAAGCAAGGCACCTGGTAAAATCGCCAAGCTTGGTCATGGCGACGCCCTTCATGTAGCGAACGTTGATCCAGACCGGCAGGGATTGGAGATTTTCATGGTGCATGAAAGCGGCGACTCGGGACCTTACGGATACACGCTGCGTGATGCGGCTACCGGCGAGGTATTTTACGGCGGCTTCGCAATCGATGACGTGGGGCGCGGGATGATCGGACAGGTTGATCCGACCCATAGGGGACTTCAAATATGGTGCAGCGAGGGTTATGAAAGCGATGAAGCCTTCGGTTTGAGGACATGTAAAGGAGACCAAATTGCAAAACAGATTCCGGGCACGAACATGAGTATCAAGTGGTCGGCCAACATGACAACCCAGATCATTAACGGCAGCTTTGACGAGCCTGTTACGATCGACGATTGGAAACAAGGCAGGCTGCTTACAGCAGAAGGTACGGTTTCCAATAACGGAACGAAGGGAAATCCTTGCCTTGTCGCTGACGTTTTCGGAGATTGGAGAGAAGAGCTGCTGGTCCGAACAACGGATAGCTTGGCGATTCGGATCTACCTGAGCACCGAGGTAACAGACCGCAAATTGTATACGTTAATGCATGATGCGCAGTACAGAACCGGTATCGCATGGCAGAATGTCGTATATAACCAGCCCTGCTACGCAAGCTTTTATTTTGCATCCGACATCGATTGGGCGAAGGTTCCAATCCCAAGTCTATATCTACCCCGTGTATGCGAACGTAATTGCAACTAA	MKTVHEQHEYEAKKLYGVQLEYLNRGLVAAATTEGIFLSWRLLGNEVTGYSCNGMIGTHFNLYRNGACIAAIHDSTNYLDPGGTLTSVYYVCAVVDGREVDRCADVTPWVGPYYDLPLRKPADGVTPTGQIYTYAANDMSVGDVDGDGEYEYFVKWDPSNAKDVSHSGYTGPVYIDCYKLDGTLLYRIELGVNIRAGAHYTQFLVYDFDGDGKAELMFKTAPGTKVIRYDQEGRVSSETYITMPREDIAAGYSHQDDYRMSSMDYYKHIVHMFMRWHSHEEVVAKRWPSTLEECFGIERRYTYPLSREDAEQLADYFLDVYAPRRSGRNNLRSFEGFILDGPEYLTVFLGQTGEELETIHYKPGRHDDGLMWGDYSWNRIEPGNRVDRFLAGVAYLDGKQPFAIFARGYYTRAAVAAYAWDGTRLKESWFVDSGWVSMNNPFHDTLRQEDGRNENFGSLAKQGAHSLSIADVDGDGCHEIIYGAATIDHDGSILYSSRGIMPPESKAPGKIAKLGHGDALHVANVDPDRQGLEIFMVHESGDSGPYGYTLRDAATGEVFYGGFAIDDVGRGMIGQVDPTHRGLQIWCSEGYESDEAFGLRTCKGDQIAKQIPGTNMSIKWSANMTTQIINGSFDEPVTIDDWKQGRLLTAEGTVSNNGTKGNPCLVADVFGDWREELLVRTTDSLAIRIYLSTEVTDRKLYTLMHDAQYRTGIAWQNVVYNQPCYASFYFASDIDWAKVPIPSLYLPRVCERNCN	PGPT0018715_48	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_RHAMNOGALACTURONAN_ENDOLYASE,PGPT0018715-yesW-K18197	NA	NA
AK002_03289	735	yesU		putative protein YesU	ATGACAACGGGTCAACCAACCGAAACAGGGGCCATGCATGCTGCTAAAAGCCCGCTTATTCCCGAAAGTTGGCGCGCGATATATGCAAACCCGCTCGCCAAGCCCGAGCATGTCGCGGATTTTCGGATGGAGGGAGAAGCAGCCGTTACGTTTCCTTTAGGACGGATGCGGCTCGAAAGCGTCCGCGACGAGGCGGAGGGACAGCGCGCCAATTTCGTGCTGTGGTGCCCGGAGGATTTTCCGGCGGACGCTGCTATCTCATGGGATTTTTGGCCGGTCCGCGAGCCGGGCCTGGCGATTATGTTTTTTAGCGCAAGCGGCACGGAAGGCAGGGATTTGTTCGATTCTTCAATCAAGCCACGGACAGGAGAATACGACCAGTATCATCACGGCGAAATGAATGCCCTTCATGTTTCTTACTTTCGGAGGAAGTGGGCGGAGGAGCGGAAGTTTCAAACATGCAATTTGCGTAAAAGCTACGGTTTCCAGCTGGTCGCGCAAGGTGCCGACCCGATTCCAAGCGTCATGGACGCTGTCGGACCATACAAGATGCTCATCGTCAAGGACGGCCATCGCATTACGTTTGCCATTAACAGCCTTCCGGTTTTCTCGTGGGAAGACGACGGCGAGACGTACGGGCTTCCGATCGCTGGCGGAAAGCTTGGTTTCCGCCAGATGGCGCCTATGATTGGAGAATATGCGAATTTAACCGTTTATGCCGAAAGCAAACCGTAA	MTTGQPTETGAMHAAKSPLIPESWRAIYANPLAKPEHVADFRMEGEAAVTFPLGRMRLESVRDEAEGQRANFVLWCPEDFPADAAISWDFWPVREPGLAIMFFSASGTEGRDLFDSSIKPRTGEYDQYHHGEMNALHVSYFRRKWAEERKFQTCNLRKSYGFQLVAQGADPIPSVMDAVGPYKMLIVKDGHRITFAINSLPVFSWEDDGETYGLPIAGGKLGFRQMAPMIGEYANLTVYAESKP				NA	NA	NA	NA	NA
AK002_03290	2601			hypothetical protein	ATGAACGACACGCGAGTCACACTGCGTTGGTTAAAGGCAGCCGCAGATATTCCGGCTGGGGTGACATGGGGAATGCCGTGGAAGGAGGGAGAGCATTCGCGGGACGATCGGTTGTCGCTGCACATGGAGGACGGCACCGCCCCCGCACTTCAAAGCTGGCCGACTGCTTATTGGCCGGACGGCAGCGTCAAATGGACGGCGCATGCAGCCGCTTTTCAGGCTGGTGCACCACGGGCATACTCCATCGTGAAGGGAGATCCCGAAATTTTCAAGGCAGCGGCTTCGTTATCCGTACGTGAGACGGAGGATGGCTTTACCATCGACACGGGCGTTCTTTCCTTTCGGGTACCGAAAAAGGGCAACCAAATGATCGCGGATGTTCACCGTAATGGCGTCAGCATCAGCTCCTGCGGCGAGTTGATTGCCATCAAGGAAAGCATAAGCGAGCTGACCGGCAGCCGAACGATCCGGGAAGAACGATATCATTCCCAAATCTACGAGGCGAAGGTGGAGCAGGCAGGTCCGGTACGAGCGGTCGTCAAGCTGACAGGCCGACACCGGGCCGTAAACGGAACCGGTGAATGGCTTCCTTTTTCGCTTCGCCTGTACGCTTACGCCGGTCTGGAGTCGATCCGGATCGTGCATACGTTTTTTTATGACGGCAATCCGAATCAGGATTTCGTGAAGGGACTCGGTATCCGTTTCAGGCTGCCGATGCGTGGGCCGCTGTACAACCGCCACATTCGGTTCGCAGGTGATACCGGTTTTTTAAGCGAATCGCCGAAAACGCTCCATTCGCGGCGCACAAAAGGCAAATATTTGGAGCTGTTCAAGCGTCAGCTCAACGGGGAAACGCTGACCGACGAAGACATGGACGACGAATACTTCATGAGCCTGCTTGGCGACTCCGCATGCTGGGACGGCTTTAAGGCGACACAGTTCTCAGCCGACCATTACTTGATGGCCAAGCGGACCAAGGCAGGCTGCAGCTGGCTCAAAGCCGCCGAAGGCCGCAGATCACGCGGGGTCGCGTACGTCGGCGGACCACGCGGTGGTTTGGCTCTTGCGATCCGTAATTTCTGGCAAAAGCATCCTTCCGGCTTGGAGGCACACGGCCTTACAGAGGACGAGGCGCAGCTGACCGCCTGGTTCTGGTCGCCGGAAGCGCAGGCCATGGACATGCGCCATTACGATACGGATACGCATGTTGAGTCTTCTTACGAAGGCGCAGAAGAATTGCGCGCAACACCTTACGGCGTCGGCAATACGAGCGAGCTGACGATCTGGTGCCGGACGTCGACGCCGTCGCCGTTTGAGTTAGAGGCATATGCGAGCTATAACGAATCGCCGCCGCAGCTTGTATGCGAGCCTACTTATTTACGAAGCCAGGGCGCATTCGGCATCTGGAGCTTGCCGGACCGGGGAACGCCCGCCAAGGCCCGCCTTGAAGAGAAGCTGGACGGCATCATCGCCTTCTATCAACGGGAGGTCGAGCAGCGGCGCTGGTACGGGTTCTGGGATTACGGCGATTTCATGCACAGCTACGATCCGGCCCGTCACGTCTGGAATTACGACCTCGGCGGCTGTGCGTGGCAGAATACCGAGCTGGTTCCGAACATGTGGCTGTGGCTGATGTTTTTGCGCTCCGGACGCGAAGATATTTTCCGGATGGCGGAGGCGATGACACGCCATACGAGCGAAGTCGACGTCTATCATTTCGGTGAATACGCCGGGCTCGGCTCCCGGCATAACGTCGTCCATTGGGGCTGCGGCTGCAAGGAAGCCCGGATCGGCATGGCCGGCCTGCACCGATACTATTATTATTTGACGGGAGACGAGCGGATCGGTGACATGATGGACGAGGCGAAGGACGCTGATTATACGACCGTTCATATCGACCCGATGCGCGCCTATTTTCCGAAGGACGAGCATAAGACACATATCCGGGTCGGTCCGGATTGGGCGGCATTCAGCTCCAACTGGATGACCCGCTGGGAGCGCAAAGAGGATACGTTTTACCGCGACAAACTGCTTGCCGGCATTCAATGCATTAAACAGGCGAATTTCGGTCTGATCTCCGGTCCGACTTACGGTTATGACCCGAATACCGGCTTGCTCACGTCGATGGGCGACGACAATTGGGGCCGCCATCTGGCGTTATGCATGGGCGCGCCGCAGGTGTGGTTCGAGCTGTCCGGCATGCTGAAGGATAAGCAGTGGGATGAAATGATGGCCGATTTCGGTGTTTTCTATAATCTCTCGCAGGAAGAAAAGGATCGGATTACGGGCGGTGCGATCAACACGAAACGGTTTGAGCATCCCGTCCTGACGCTGGCCCTCGTCGCTTACGGCGCTTGGTACCGTAAGGATAAACGTACAGCCGATTTTGCCTGGTCGACGCTGCTGAAGCATCCTTTTGCCACGACCGACCTCAAGAAAGACGGAGCTGATGTTACGTACGTTGACGAGCTGAAGGAGATTGAATGGATGAACACGAACGAGGCGTCGCAATGGTCGCTGAACACGATCATTAGCCTGGAATTGATCCCCGATGCATTGCCTGACCATACAGCCTCCGCCCGCCAGGAAGCTAATGCCTAA	MNDTRVTLRWLKAAADIPAGVTWGMPWKEGEHSRDDRLSLHMEDGTAPALQSWPTAYWPDGSVKWTAHAAAFQAGAPRAYSIVKGDPEIFKAAASLSVRETEDGFTIDTGVLSFRVPKKGNQMIADVHRNGVSISSCGELIAIKESISELTGSRTIREERYHSQIYEAKVEQAGPVRAVVKLTGRHRAVNGTGEWLPFSLRLYAYAGLESIRIVHTFFYDGNPNQDFVKGLGIRFRLPMRGPLYNRHIRFAGDTGFLSESPKTLHSRRTKGKYLELFKRQLNGETLTDEDMDDEYFMSLLGDSACWDGFKATQFSADHYLMAKRTKAGCSWLKAAEGRRSRGVAYVGGPRGGLALAIRNFWQKHPSGLEAHGLTEDEAQLTAWFWSPEAQAMDMRHYDTDTHVESSYEGAEELRATPYGVGNTSELTIWCRTSTPSPFELEAYASYNESPPQLVCEPTYLRSQGAFGIWSLPDRGTPAKARLEEKLDGIIAFYQREVEQRRWYGFWDYGDFMHSYDPARHVWNYDLGGCAWQNTELVPNMWLWLMFLRSGREDIFRMAEAMTRHTSEVDVYHFGEYAGLGSRHNVVHWGCGCKEARIGMAGLHRYYYYLTGDERIGDMMDEAKDADYTTVHIDPMRAYFPKDEHKTHIRVGPDWAAFSSNWMTRWERKEDTFYRDKLLAGIQCIKQANFGLISGPTYGYDPNTGLLTSMGDDNWGRHLALCMGAPQVWFELSGMLKDKQWDEMMADFGVFYNLSQEEKDRITGGAINTKRFEHPVLTLALVAYGAWYRKDKRTADFAWSTLLKHPFATTDLKKDGADVTYVDELKEIEWMNTNEASQWSLNTIISLELIPDALPDHTASARQEANA				NA	NA	NA	NA	NA
AK002_03291	2325	yesS_8	COG2207	HTH-type transcriptional regulator YesS	ATGAATGGATGGAAGACGTTAATGGCCCGCTTATCCGGCAGATCGAGCAGCTTCTATAGGAAAAGCTTCATCATGTTCTTGTTCGTTGCCGGTATTCCCGGCATCATAACGGGGGTTCTCGTTTATTCGATGGCGGGTGGTAAGCTGGAAAAGGAGCTGTTGAAGCTCCATAATAACCAGATTGAGCAGCGGTCGCAGAACCTGAATAAACAGCTGTCCAATCTCGAAATGATGCTGGCGCATTGGGCATTCGATACGAGCTTCGATTATTCGCTCAGCGATCGAGACTTCGTGCGCGATTTCGAGAAGACCCGCGATATTACGAATACGCTGCTCGTCATGCAGGGCTCCAATACGATGATTCGTAACGTCAGCCTCTATTTGCACGGAAGCCAGCCAGTATTGTTTTATCCGGAATATTCCGCTTTGAATGACGCAAGTGTCATATCGCTATACGACCGTCTGCTCGACGAGGGAAAAACGACTTATTGGACACAGTTAACGCTTGATCCCGATCAGCCGGGAAAACGGGAATTGACGTTTGTACATCTTGTTCCCGGCGGCAGCCAAAAACCGATGGGGGCTTTGATCGTTCGCTTGGACAACGAACAAGTTTCGGAGGCGCTGCAGACCATTACACCTTATGCCGACGGCGAAAACTTTCTCATGGAGCCGGGCGGAGATATATACGTATCCGCGAACGGGAGCTCGATCGACTCGACGTTTGTAAAGGCAGTCAGAAGCGAGGTCGAGTCAAACGGGAACAAGGAAGGTTCGTTTCTTTATGAATGGAACGACAAAACCTATGCGGTCACGTACGGTTATTTCGCACGAATTATGGATAACTGGCTGTACGTGTCGGCTTCGCCGATCACCAATATTACGGCCCCGGTCGTTTTTATCTCCAAAGTCATTTTGACGGTTAGCTTGAGCGCTCTCTTGCTGGCAATGCTGCTTGCTTGGCTTGCATCGATCCGCATGTACTTGCCCGTCAAACGGTTGATGATGAATTTGCTGCCGACTGCCTCCTTGGCGGGAGGAGGCCGGGAGGACGAGTTCACGCTAATTGAGCGGCAATGGCAGCATTTAAACAGGGAGAGTCGAGAGCTGAACGCAAAGCTGCTCGAGCAGCTGCCGCACGTGAAGGAAAGCTTTCTCCATCAACTGCTGCAGGGCTATTTGTACGCCTATACGGAGGAGGATCTGCGGTCAAGGATGGAGCGTTATAAATGGCAGGTATGCGGCAAGCAGTTTATCGTGCTGTACGTACAGCTTACCGGAATTGCGAGCATGGAAGGGAAATTCAAGTTTGGCGACGAGGGACTGGTCACCTTTGCGTCCGTCAACATGATCGAAGAGCTGGCGGATTCGTATTTCGAGCAAAGCAGCACGATCAACTTCCATGATCTTGGATCGGGAGTGCTGCTGATCTTGCCGGAAGGGGAGCCATATGCGGAAGCAATCAAATCGTTCAGCGAAGAGCTGGCACAGACGGTTAATCGTTTGCTGAACATGGTGGTGACGGTGGCGATCAGCAGGGGTACCACTCGTGTGAGCGACATCCCGCTCGCATTTGAGGGTGTGAAGCACGCAGCCAGCTTCCGCAAATTCGATAACGACAACCAGATCATCGAAATGGAAGAGCTGAATTTTGAGGATTCGTCCGAATCGCAGTATCCGTTTACGTTGGAAAGAGAAATTCTTCAGGCGCTTCGGACCGGGCAGGAAGCGGACGCCCATGCCTTGCTCGTCGAGTTCCAGAAAGCGCTGTCCGCTAAAGGTGCTAAAGCGATAGACGTTCAGCAGGGAATGCTTCATTTGCTAGGTTCCGTTCAGCATGCGATTCTAGTATCCGGCATTCAGCCGAATCGCCTGTTCAAGGGTGCCAATCTGTATGAGCAGCTTTCCCAGATCAAAGAGCCTGCAGGTGCAAGGGAATGGTTTCAAGTGAAGGTGATCGCACCCTTCATGAAGGAGCTGACGAGCAGGACGGATGGCCAGGTAAAACGGCTGATCGAGCAAGCCATGATTTATTTGCAGCAAAACTATATGCGTGACATTTCGCTCGACAATTGCGCTGAACACATCGGCACGAACCCGTTTTTCCTGAGCAAATCATTCAAACAGGTAACGGGCAAAAACTTTATCGATTATTTGACCGAGCTGCGCATGGATAAAGCGAAGGAGCTTCTTCGGGAATCGGAGATGAAAATTAACACGGTCGCCGAACAAGTCGGATATCGGCACAGCTATTTTAATCGGATCTTTAAAAAGCTCGAGGGCATGACGCCCACCCGTTACCGTGAACTAAGCCGGGCGGAGTAG	MNGWKTLMARLSGRSSSFYRKSFIMFLFVAGIPGIITGVLVYSMAGGKLEKELLKLHNNQIEQRSQNLNKQLSNLEMMLAHWAFDTSFDYSLSDRDFVRDFEKTRDITNTLLVMQGSNTMIRNVSLYLHGSQPVLFYPEYSALNDASVISLYDRLLDEGKTTYWTQLTLDPDQPGKRELTFVHLVPGGSQKPMGALIVRLDNEQVSEALQTITPYADGENFLMEPGGDIYVSANGSSIDSTFVKAVRSEVESNGNKEGSFLYEWNDKTYAVTYGYFARIMDNWLYVSASPITNITAPVVFISKVILTVSLSALLLAMLLAWLASIRMYLPVKRLMMNLLPTASLAGGGREDEFTLIERQWQHLNRESRELNAKLLEQLPHVKESFLHQLLQGYLYAYTEEDLRSRMERYKWQVCGKQFIVLYVQLTGIASMEGKFKFGDEGLVTFASVNMIEELADSYFEQSSTINFHDLGSGVLLILPEGEPYAEAIKSFSEELAQTVNRLLNMVVTVAISRGTTRVSDIPLAFEGVKHAASFRKFDNDNQIIEMEELNFEDSSESQYPFTLEREILQALRTGQEADAHALLVEFQKALSAKGAKAIDVQQGMLHLLGSVQHAILVSGIQPNRLFKGANLYEQLSQIKEPAGAREWFQVKVIAPFMKELTSRTDGQVKRLIEQAMIYLQQNYMRDISLDNCAEHIGTNPFFLSKSFKQVTGKNFIDYLTELRMDKAKELLRESEMKINTVAEQVGYRHSYFNRIFKKLEGMTPTRYRELSRAE				NA	NA	NA	NA	NA
AK002_03292	1596	lipO_20	COG1653	Lipoprotein LipO	ATGAAGAAAAAGACAATGAAGGCGAAGCGTGCTTCCACATTCCTAATTCTAGGCACGGTTTGCATCGTATTGCTGGCAAGCTGCTCGTCCGGCAAAAACAACGGGGGCGCAGACTCTTCCAACAATTCGACGGCAGCTCCTCCTGCAAGCGCTTCCACAGAAGCGCAAGAAGCGTTTAAGCTGAACATCATGCTCCCTATTTTTAAAACGAACTATCCGAAGGACGACAGTCCCGTAGCGGCCGAGCTCGAGAAGCTGACGGGTACGGACATTCATTTCGAATGGGTGCCTAACGCTTCGTATGCCGACAAATTCAACATTACGCTCGCATCCGGCAATTTGCCGAAAATCATTTACGTACCCGACTCGAAGGGTCCCAGCTTCGTGAGCGCAGTGAAATCGGGGGCGTTCTGGGATTTGACCGACAAGCTCAAAAATTATCCAAACCTCGGCCAGGCCAGTGAAGTCATCCTGAACAACTCCTCGATTAACGGCAGAACGTACGGCGTATATCGCGGACGCGAGCTTGGCCGCAACGGCGTTTATTACCGTCAGGATTGGCTGGAGAACGTCGGCCTTGAGCAGCCGAAAACGATCGATGATTTTTACAACATGCTGAAAGCGTTCAAAGAGAAGGATCCGGACGGCAACGGCAAGGACGACACCTACGGACTGGTTATGGTGAAATGGACGGCCGGCTGGGGAGCGGGCTTCGACCAGATCAAACTGTGGTTCGGTGCACCTAATGTATGGGGTGAGAGGGACGGCCAGCTCGTACCGGAGTTTGAATACGACGAATATCTCGAAGCGCTCAAGTTTATGAAAAAGCTGTATGACGAAAAACTCGTCAACCAAGATTTTGCCGTCATGGACTCGGCGAAGTGGACGGATCCGCTCGTTAACGGGCAAGCCGGCGTGATTATCGACGTCGTGGACGGAGCGGCTCGAGTTGATGACAAAATCAAGGCGGCGAACGTGGCAGCAGGTACAGACTCAAGAGAGCATTACATGGACGTGTTCGGCGCCGTAACCGGTAGGGATGGACAAATTCGTACGCTGCCTACCTCCGGTTTTGCTGGCCTATTGGCCATTCCGAAGTCGAGTGTAAAGACCGAGGAGGAGGTCGACCGCATTTTGAAATTTCTAGACCAGCTGAACGAGCCTGACCTGCAGACACTGACCAGCTTCGGGCTTGAAGGCGTGCATTATACAAAAATCGATGATACAACACTGGAAAGAAGCACGGATTCGGTGCTCCTCGAGTCGGAAGTCGAAGGACTAAACCAAATGGTACCTTACATTCCGGAAGGCAAAGGACTGCAGGTGGCTCAGACGCCACTTCGATTAAAGCAAACAGAGGTCCAAATGAAAAACCGGGAAACGATCGTCACCAATCCGGCGGAGCCGTTTATTTCTGAGGTGTACTCGCAAAAAGGACAACAGCTAGGCAATATTATTAACGATGCCCGCATTAAATTCATCGTCGGCCAAATCGATGAGCAAGGCTGGCGCGATGCAATTGAATTGTGGAAAAAATCAGGCGGGGACGATTACGTTAAGGAAATCAACGAGCTGTACGCAGCATCCAAATCCTAG	MKKKTMKAKRASTFLILGTVCIVLLASCSSGKNNGGADSSNNSTAAPPASASTEAQEAFKLNIMLPIFKTNYPKDDSPVAAELEKLTGTDIHFEWVPNASYADKFNITLASGNLPKIIYVPDSKGPSFVSAVKSGAFWDLTDKLKNYPNLGQASEVILNNSSINGRTYGVYRGRELGRNGVYYRQDWLENVGLEQPKTIDDFYNMLKAFKEKDPDGNGKDDTYGLVMVKWTAGWGAGFDQIKLWFGAPNVWGERDGQLVPEFEYDEYLEALKFMKKLYDEKLVNQDFAVMDSAKWTDPLVNGQAGVIIDVVDGAARVDDKIKAANVAAGTDSREHYMDVFGAVTGRDGQIRTLPTSGFAGLLAIPKSSVKTEEEVDRILKFLDQLNEPDLQTLTSFGLEGVHYTKIDDTTLERSTDSVLLESEVEGLNQMVPYIPEGKGLQVAQTPLRLKQTEVQMKNRETIVTNPAEPFISEVYSQKGQQLGNIINDARIKFIVGQIDEQGWRDAIELWKKSGGDDYVKEINELYAASKS	PGPT0017245_2150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03293	885	araQ_39	COG0395	L-arabinose transport system permease protein AraQ	ATGGCCAAGCATTACAGAACTGCGGCCGGTGTCACGTTCGACGCTGCCAATTATATCGTGCTAACGTTGTTCGGGCTGGCTGCCGTGCTCCCTTTCATTTACGTGATTGCGGGCTCCTTTGCATCGGACGCGGAGTTAACGTCAAGAGCGGTATTTTTCATACCCAAAACCTTTACTTTGAATGCTTACGAGTTTATTTTTTCGACGGATACGATCATGAAAAGCATCGGCGTTTCCGTCTACATAACGGTCATCGGCACGCTCGTCAACTTGTTTTTCACGGTCACGATGGCCTATTCCTTGGCCAAGAGAGGATTGTACGGCCGGAATCTGGTGTTGAATCTCGTCATCTTCTCTATGCTGTTCGGTGGGGGGATGATACCGACTTATCTGGTCGTCAAGGAGCTGCACCTGCTTGATTCGCTTTGGGCACTCATGCTGCCTGGCGCGATCAGCGCATTTAACCTGATCATCGTCAAAAACTTTTTCCAGGAAATTCCGAAGGAGATCGAGGAGGCCGGCCGGATCGACGGCTGCTCCGAGCTTGGCCTCTTAGGGCGGATCGTGCTGCCGCTTTCAATGCCTGTCCTCGCTACATTTACGTTGTTTTACGCCGTCGGGCATTGGAACGACTTCTTTGCGGCACTGCTGTATATTAACGATCCGGAAAAATGGCCGCTGCAGGTCATGCTGCGCCAGATCGTTCTGCTGTCGCAAGCGGCCGCAGGCGATTTGAACTCGATGGACCCTAATTTTGTGAAGCCGCCGGATCAATCGATCAAAATGGCCGTGATCGTCGTCGGCACGATTCCGATCTTGTGTGTGTATCCGTTCCTGCAAAAGCATTTCGCCAAAGGCGTCCTGCTTGGCTCGGTGAAAGGCTAA	MAKHYRTAAGVTFDAANYIVLTLFGLAAVLPFIYVIAGSFASDAELTSRAVFFIPKTFTLNAYEFIFSTDTIMKSIGVSVYITVIGTLVNLFFTVTMAYSLAKRGLYGRNLVLNLVIFSMLFGGGMIPTYLVVKELHLLDSLWALMLPGAISAFNLIIVKNFFQEIPKEIEEAGRIDGCSELGLLGRIVLPLSMPVLATFTLFYAVGHWNDFFAALLYINDPEKWPLQVMLRQIVLLSQAAAGDLNSMDPNFVKPPDQSIKMAVIVVGTIPILCVYPFLQKHFAKGVLLGSVKG	PGPT0017255_1812	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03294	963	yteP_40	COG4209	putative multiple-sugar transport system permease YteP	ATGAAGCAAGCTACGGCTCGAAGGGATTTCCCGCAACCGTTCAAGCGGGCGGATCACCGCACAAGCTTCGCGGCAAGGCTTCGCAGGGACAAATGGCTATACCTGTTGCTGCTCCCCGGCTTGCTTTATTTTTTGGTTTTTAAATACGTGCCGATGTGGGGGGTCATGCTGGCATTTCAAAACTATCAGCCGTTTACCGGATTTTTGAAAAGCGAATGGGTGGGCTTTGAGCATTTTCGCCTGTTTTTTAACAATCCCGAGTTTATGATGCTGCTGCGCAATACGCTGTTGTTATCATTTTATAATCTCATCTTCTTTTTTCCCGCTCCGATTATATTGGCACTCCTGTTAAACGAGGTAAGGCTTTCCTTCTTCAAGCGCACGATTCAAACGATGATTTACGTTCCGCATTTTATTTCGATGGTAATCGTGGCAAGCCTAACGTACGTGTTCCTAACCACGGAAGGCGGCACCGTCAACGAGCTGCTTTTCCAATATACGGGGAACAAAATCCAATTTCTGTCCGATCCGTCATGGTTCCGCCCCGTTATTATTTTGCAGACGATCTGGAAGGAATGCGGCTGGGGAACGATTATATTCCTGGCGGCGCTGGCGGCCGTTGACGTGGAGCAGTACGAGGCGGCGACGATTGACGGGGCAAACCGCTGGAGGCAAATCTGGCATATAACACTGCCGGCGATCCGCAGCACCATCGTGATTCTTTTGATTTTGCGGATGGGCAGCGTGCTGGACAATGGCTTCGAACAAATATATTTGATGCTGAATCCGCTCAACCGCTCGGTAGGCGAAGTGTTCGACACCTACGTATACGCGATGGGCATCACGCAAGGCGCTTTTAGCTACAGCACGGCTGTCGGACTGTTTAAATCGGTTGTCGGCGTCACGCTTGTGCTCGGTACGAACTGGCTGGCGAAAAAGTTCGGCGAATCCGGGCTGTACTAA	MKQATARRDFPQPFKRADHRTSFAARLRRDKWLYLLLLPGLLYFLVFKYVPMWGVMLAFQNYQPFTGFLKSEWVGFEHFRLFFNNPEFMMLLRNTLLLSFYNLIFFFPAPIILALLLNEVRLSFFKRTIQTMIYVPHFISMVIVASLTYVFLTTEGGTVNELLFQYTGNKIQFLSDPSWFRPVIILQTIWKECGWGTIIFLAALAAVDVEQYEAATIDGANRWRQIWHITLPAIRSTIVILLILRMGSVLDNGFEQIYLMLNPLNRSVGEVFDTYVYAMGITQGAFSYSTAVGLFKSVVGVTLVLGTNWLAKKFGESGLY	PGPT0017250_1008	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03295	285			hypothetical protein	ATGAAGTCGCCATCAGGCGGCTTTTTTGTTTTAGTTATAAGAGCTTTCCGAGCTGAGGACAAGACTAAAATGCCACAGCGGGAATATCAACTGCTCGAAGAGGAGCCGATGTTCGAAGCACGGTTGACCCAAACGGACGCAAACCAACATTTTTTTAGCCCGCTATCCACGTCTTACCACTCGTTTGCCGACTTTGCACTTTCTTTAAAAATGCCGAATATCAAGGCTTTTTTACTCTTCAAAAATGTCTCATTGCCGGAAAAGAAAGCGCTGCTGCATAATTAG	MKSPSGGFFVLVIRAFRAEDKTKMPQREYQLLEEEPMFEARLTQTDANQHFFSPLSTSYHSFADFALSLKMPNIKAFLLFKNVSLPEKKALLHN				NA	NA	NA	NA	NA
AK002_03296	1179			IS110 family transposase ISHaha5	ATGCAGCCAGTAGTAGGAATAGACGTGGCCAAAGGGGTTAGCGTTATCCAAGCCTTTATCGGTCGCGAAAAACCCTTCGGGAGGATGGAGAAGCTTCATCATGGGCCGGAAGGTTTTGAACAGCTAGGGGAACTGTTAGGAACACTCAAACATAAAAGTGGCGTTGAGCCCGTTGTTGTCCTCGAGGCGACCGGACATTACCATCGAAGTCTGGTAGGGTATCTTAAACGCAGTGGATGGACTCATTACATCGTCAACCCTCTGCAAGCCAAACGATCGAAAGGCGCGCAACTTCGCAAGGTGAAAACAGATGCAGCAGATGCATGGCATTTGGCTGAGATGTACTACCGAGGGGACGTTAAAGCGCATCGAGAGTGGGAGGAAACCTACACCGAACTTCAACACTTAACGAGGCAACATGAGTTTGTAACCGCGATGTACGTACAAGCCAAGTTAAACAGCAGAGCTTTGCTTGAGCAGGTGTTTCCGGACTTCATCGGATTATTTCATAATTTGTATGCGACCACATCATTAAAAGTGCTAAAGCGATGTTTGGAGAATAAGGTCGAAGATGTGGGTGATCTCATCCTTGAATGTGTAGGTAAATCCCACTCCAAAGGATGGATTACGGAGAAAACAAAACGGTTGAAAGAACTCTTGTTGGGCTGGAAAACACAAGAGAGGAGTCAATCTCAGAGCATAGCGTTGACTAGCATGGTCTCCCTGCTGTTGGAATTCGATAAGCAGTTAAATTATTTGGAAAAGCAGATGGAAGAACTGGCTAAGGAGTTGCCTGAAGTGGAATTGATCAAAAGTATCCCGGGTGTAGGGAACAAACTTGCGGCAGCCATCGTAGCAGAGCTTGGCGATGCAAGTCAGTTCAAGGATGCGAAGCAACTTGTAGCCTACGCAGGATTAGATCCGGGGATCTACAGCTCAGGAAAATTCACGGCTACAAGCAACCGGATCACGAAACGAGGCTCAAAAAGACTACGGCGAGCACTCTATCTTGCCGTACAGTGCGGAATTCGCAGACATGCAAACCGCAGGATAAGTGATTACTACGACAAAAAAAGAAAAGAGGGCAAGCCCTACAAGGTGGTCGTGATCGCTTGCGCCAACAAGCTTCTCCATCACATTTATGCCATCCTAAGTAAAAGCGAACCCTACAAAGCCTAA	MQPVVGIDVAKGVSVIQAFIGREKPFGRMEKLHHGPEGFEQLGELLGTLKHKSGVEPVVVLEATGHYHRSLVGYLKRSGWTHYIVNPLQAKRSKGAQLRKVKTDAADAWHLAEMYYRGDVKAHREWEETYTELQHLTRQHEFVTAMYVQAKLNSRALLEQVFPDFIGLFHNLYATTSLKVLKRCLENKVEDVGDLILECVGKSHSKGWITEKTKRLKELLLGWKTQERSQSQSIALTSMVSLLLEFDKQLNYLEKQMEELAKELPEVELIKSIPGVGNKLAAAIVAELGDASQFKDAKQLVAYAGLDPGIYSSGKFTATSNRITKRGSKRLRRALYLAVQCGIRRHANRRISDYYDKKRKEGKPYKVVVIACANKLLHHIYAILSKSEPYKA	PGPT0030635_1260	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-TRANSPOSASES,PGPT0030635-tnp-K07486	NA	NA
AK002_03297	807		COG0500	putative methyltransferase	ATGAACCTGAAGAAGGACAACAAGATATTGCGCAAGTCATTTGAGCAATCCGCGAGCTATTATCAAAGGGCGCGTCCGGATTACCCGGAAGAATTGTTCGATGAATTAATTCAGGCGGCCAATTTGCATGCAGGTGATCATTTGTTGGAAGTGGGCTGTGCTACAGGTAAGGCTACTCTTCCGTTAGCCAGGCGTGGATTTAAAATCACGTGTGTAGAACTTGGTGCTGAGCTCGCTATAGTTGCCCGTCAAAACCTTGTCGGCATGGACGTCGACATAATCACGGGAAGTTTCGAAGATTGGCAGCCAGAGATGGAGAGAGAGTTTGATTTGGTATTCGCTGCAACGGCTTGGAAATGGGTTGATCCCGAAGTTCGATACATCAAGGCATGGCAAGCCCTTCGTCCAGGCGGACATCTGGCATTTTGGAACGCAGATCACGTTTTTCCAGAGGGTGGGGACCCATTCTTCCGTGAAATTCAAACCGTGTACTATGAAATCGGCGAGGGTAAATCAGTAGACCATAACGAATGGCCGCGACCAGGAGAACTACACGAGCAAAGATATGAGATAGAGAAAAGTGGGCTGTTTGAGGTTGTTCATGTTAGACACTTCGACTGGGAGCGCATTTATCATGTTGATGAGTACATTAAACTCCTCGAAACTTTTTCCGGACACATCCTTATGGAGGAATGGAAACGCGACAAGCTCTTCAATGAAATCCGAATTCGCCTTAAAAGCCGTCCAGAAAAGTCGGTTCGTCGCCATTGGGGCGTTGTTCTCCATGTAGCCCTTCGAAAGGATTGA	MNLKKDNKILRKSFEQSASYYQRARPDYPEELFDELIQAANLHAGDHLLEVGCATGKATLPLARRGFKITCVELGAELAIVARQNLVGMDVDIITGSFEDWQPEMEREFDLVFAATAWKWVDPEVRYIKAWQALRPGGHLAFWNADHVFPEGGDPFFREIQTVYYEIGEGKSVDHNEWPRPGELHEQRYEIEKSGLFEVVHVRHFDWERIYHVDEYIKLLETFSGHILMEEWKRDKLFNEIRIRLKSRPEKSVRRHWGVVLHVALRKD				NA	NA	NA	NA	NA
AK002_03298	1149	menC		o-succinylbenzoate synthase	ATGAACATTACCGGTATACAATCTGACTGGAAAGTGGAAAAAATCGAATTCGCCAAGTTAACGGGTGAACGAGCCAGAAGCGCGGGGGCAAATGGCAGAATCGGCGTCCATGGCAAAAGCTGCACTGTGGATATCGCCAGAATTACGATCGATGGACAAACAGGTTACGGCAGCTCGATTCATATGACACCGGAATGGGCCGAAGACATAATAGGCCGCCGATTGCTTGATTTATTCGATGACCGGGGCAGACTGCGCGAAGCGTATCGATTGCAATTGGAATATCCTGTGCTCGATTGGTTAGGACAGAGACAAGGCAAACCAGTGTATGACTTAGTGTCCGGTGCCCACTTGGAAAGGGGAGCCCCATTGGCTGTCCCTTGCTATGATACCTCTCTGTACTTCGACGATTTGCATTTGCCGGATGAGAGGACCGCGGTCGCGCTGATGCAAGAAGAAGCAATGCAAGGTTATGCGAAGGGCCAACGTCATTTTAAGATTAAGGTTGGCCGAGGCGGACGCCATATGCCGCTCTGGGAAGGGACGAAACGAGATATCGCGATCGTGCGCGGGATCTCGGAAGTGGCAGGTCCCGCAGGCAAGATCATGATCGATGCGAATAATGCCTATAATTTGAACTTAACCAAAGAGGTCTTGGCGGCTTTATCGGATGTGAATCTATATTGGCTGGAAGAAGCGTTTCATGAGGATGAAGCCTTGTACGAGGACCTGAAGGAATGGCTCCTGCAACGTGGGCAGAATGTGCTTATCGCGGATGGGGAAGGGCTTGCCTCACCTCATCTTATTGAATGGGCGACTCGCGGCCACGTGGATGTACTGCAGTACGATATCATCTGGCCCGGTTTCACGCATTGGATGGAATTAGGCGAGAAGTTGGATGCCCATGGTTTACGGTCTGCGCCTCATTGTTACGGCAATGCTTATGGTATTTACGCGTCAGGACATTTGTCAGCCGCAGTGCGGAACTTCGAATTTGTGGAATATGACGACATTACAATTGAAGGAATGGATGTATCAGGCTATCGTATCGAAAACGGAGAGATTCATATTCCGGCAACGCCTGGTTTCGGAATCGTCTTCGACGATGAACTTGTAACAAACCTTGTAAAGCGATCCGGCTGGTCCTAA	MNITGIQSDWKVEKIEFAKLTGERARSAGANGRIGVHGKSCTVDIARITIDGQTGYGSSIHMTPEWAEDIIGRRLLDLFDDRGRLREAYRLQLEYPVLDWLGQRQGKPVYDLVSGAHLERGAPLAVPCYDTSLYFDDLHLPDERTAVALMQEEAMQGYAKGQRHFKIKVGRGGRHMPLWEGTKRDIAIVRGISEVAGPAGKIMIDANNAYNLNLTKEVLAALSDVNLYWLEEAFHEDEALYEDLKEWLLQRGQNVLIADGEGLASPHLIEWATRGHVDVLQYDIIWPGFTHWMELGEKLDAHGLRSAPHCYGNAYGIYASGHLSAAVRNFEFVEYDDITIEGMDVSGYRIENGEIHIPATPGFGIVFDDELVTNLVKRSGWS	PGPT0017805_441	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LYXONATE_DEGRADATION,PGPT0017805-LRA3_like-K12661	NA	NA
AK002_03299	1038	yfhA_2	COG0609	putative siderophore transport system permease protein YfhA	ATGAATCGTTTATCTTTGTTCCAACGTTCCAGGCAAGGCAGCTACAAGCTGACCAGCCAGCGTCCCTTGCTGACGCTATCGCTCCTATTAACCGTGCTGCTTACCGTATTTATATTGGGCGCTTGTCTCGGTAATACTTGGGAGTCGCCGCTCCAAGTGCTGCAAACCATCATCGGCATAAATGGGGATTCCGCCTTCGTGATTGGCACGCTGCGTTTGCCTCGCCTAGTGCTCGCGGGTTTGGCGGGGGCGGGTCTCAGTATGGCAGGTGCCATCTTACAAGGACTCATACGCAATCCGCTCGCCGCACCGGACGTGCTGGGAATGACGGGAGGAGCTTCCGTTGCCGCGGTTGCCTTTATTGCGTTGACGGGAGGAGCCATCGGAATCGGATGGCTACCGGTCGCCGCTATGTTCGGAGCGCTACTATGTTCCGGATTGGTTTACGTGCTGGCCTGGAAAAAGGGTGTTGCCCCCACACGGTTGGTGCTGATCGGGGTAGGCATGTCGGCAGGTGCCAGCTCACTGACCATGCTGCTTCTAGCATTTAGTTCCATCACTTCGGCCAGCAAAGCCTATATATGGCTCACCGGCAGCGTATATGGAGCTACTTGGAACCAAGTGCTAACGCTATTGCCGTGGACGGTGCTCTGCGGCGGGATCGCCTGGTTGAATGCTCGCCATTTGAACATTCACACGCTTGGGGAAGGGATCGCAACCGGCATCGGCGCGGCTGTGCAGCGACAACGCCTATGGCTGCTTCTCATTGCCGTGGGACTTGCCGGATCATCGGTCGCTCTGGTCGGAGCCGTGGGGTTTATCGGCCTGATTGGACCGCATATCGCTCGAAGAATGGTCGGAACTTCTTATGGCGTCTTACTGCCGGCTTCTGCTGTTATTGGCGCACTTTTGCTGTTGTTGGCCGATGTGGCAGGCCGTACTTTGTTTCAGCCGCTCGATGTTCCGGCAGGCGTATTCACGGCGGCTATCGGTGCTCCTTTTTTCATCATGCTGCTTGCGCGTCAACGACGTATGTGA	MNRLSLFQRSRQGSYKLTSQRPLLTLSLLLTVLLTVFILGACLGNTWESPLQVLQTIIGINGDSAFVIGTLRLPRLVLAGLAGAGLSMAGAILQGLIRNPLAAPDVLGMTGGASVAAVAFIALTGGAIGIGWLPVAAMFGALLCSGLVYVLAWKKGVAPTRLVLIGVGMSAGASSLTMLLLAFSSITSASKAYIWLTGSVYGATWNQVLTLLPWTVLCGGIAWLNARHLNIHTLGEGIATGIGAAVQRQRLWLLLIAVGLAGSSVALVGAVGFIGLIGPHIARRMVGTSYGVLLPASAVIGALLLLLADVAGRTLFQPLDVPAGVFTAAIGAPFFIMLLARQRRM	PGPT0003770_5091	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
AK002_03300	1026	yfiZ_2	COG0609	putative siderophore transport system permease protein YfiZ	TTGAAGCCGCTTTTTCAACGAAATGGCAGTAAACTGCTGGGCCTCGCCGCCGCCATGCTGCTATTGGCCGTCGCCTTCATCGCCAGCATCGCGTTCGGGACAACGCCGATCAAACCGTCCACGACGCTCGAGTCCTTACTTCGTTATGACTCCGCCGACAACGAGCACGTCATCATCGTGACGACGCGGGCACCGCGTGCCGCCTATGCGCTTGCCGTCGGAGCTTCGTTGGCAGTCGCGGGGGCCTTGATGCAGGCATTGACTCGAAATCCGCTGGCTTCGCCCGGATTGTTCGGGATCAATGCCGGGGCCGTGCTTGCGGTTGTGCTGGCTCTGACGCTGCTGCCGTTGACGGCCCTTTCCCAGCTTGTCTGGGCCGCTTTTGCGGGTGCGGCCGCGGCAGCGCTGCTCGTTTACTGGTTAGCTTCGCTAGCGGGAGGCGGACTGACGCCGATTCGGCTGGTTCTGGCCGGTTCGGCGCTGAGTGCGCTTTTTGGCGCGCTGACGCAGGGCGTGCTGGCCCTGGATGAGTCCGGACTGCAAAACGTGCTTTTCTGGTTGGCCGGTTCGGTCGCCGGAAAAGAGATGACGATGCTGCAGCAAGTGTTGCCTTATATGACGGTTGGCGGAATTACGGCATTGGCGTTGTCCTATCCCTTAACCATTCTTGGGTCAGGGGACGACGTGGCGAAGGGGTTGGGACAGCGAACGGGATTCGTTAAAATGCTTACTGCGGCGGCCGTCGTGCTCCTGGCCGGAAGCGCAGTGGCTGCAGCAGGAGCTATTGGATTCGTCGGTTTGGTCATGCCGCATTTCGCGCGTTATTTGGCCGGAACGGATTATCGTTGGGTCGTGCCATACTCTGCGGTACTAGGGGCAATCCTGCTGCTCTTGGCCGACCTGGCCGCCCGGTTTCCGGTGCAACCCGGGGAGCTGCCGCTGGGAGTCGTCACAGGTCTCATCGGTATGCCGTTCTTCATCTACATTGCTCGCAGCGGACTACATGCGAGGGAGGGCACCGGATGA	MKPLFQRNGSKLLGLAAAMLLLAVAFIASIAFGTTPIKPSTTLESLLRYDSADNEHVIIVTTRAPRAAYALAVGASLAVAGALMQALTRNPLASPGLFGINAGAVLAVVLALTLLPLTALSQLVWAAFAGAAAAALLVYWLASLAGGGLTPIRLVLAGSALSALFGALTQGVLALDESGLQNVLFWLAGSVAGKEMTMLQQVLPYMTVGGITALALSYPLTILGSGDDVAKGLGQRTGFVKMLTAAAVVLLAGSAVAAAGAIGFVGLVMPHFARYLAGTDYRWVVPYSAVLGAILLLLADLAARFPVQPGELPLGVVTGLIGMPFFIYIARSGLHAREGTG	PGPT0003770_5288	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
AK002_03301	1023	yfiY_2	COG0614	putative siderophore-binding lipoprotein YfiY	ATGTTTTTCAATGTTCACTTTACGCTTCGAAGAAGCTTCGGAATCATCATGCTTACAACTTGCTTGGTCGCGATGGCCGTACTGGCCGGATGCGGCCAAACCGACGGCGGAGGCGCATCCTCACCGCCCAACGCCCAGAGTGCGTCCGCGGGGGAAGGGGCCTCCCGGACCGGTACGGCAGAGGCTGAACGGAATATTCAGCATGCCATGGGGGACACGGTTGTGGCGGGAACGCCGATAAAGGTCGTCACGCTGTTCCAAGGAGCGACCGATGCCGCGCTGGCGCTTGGCGTGAAGCCGACCGGTGCCGTCGAAGCTTGGATCGAGCAACCGTGGTACAACTATATTCGGGAACAGATGGAAGGCGTCGTTAATCTTGGCTCGGAGAACCAACCCAATCTGGAAGAAATCGCTGCCCTCAAGCCCGACGTGATCATCGCGTCCAAAACGAGACATGAAGAGATCTACAGCCAGCTTAGCGGCATCGCGCCGACCGTCATGACCGAAGAAGTACATATCTGGAAGGAGTCGCTTGCGCTGACTGCCGAAGCCTTGAACAAGAAAAAGGAAGAACAGGCGTTTTTGCAGCGCTGGGAAGGCGAAGTCGCCGACTTCAAAGAAAAAATGGGAGACAAGCTGAAGATGGAAGTCGGCATCCTGGATTTCCGCGCAGACCATGCGCGCATCGTTCACACCGGTTTCTCCGCCTTGGTTCTGGATGAGCTCGGCATCACGCGTCCGATGGAACAAAAGGGAGAAGAATGGGGCGTCAAATTGGTGTCAAAGGAAAACATACCGCAGATGGACGCCGACATCCTGTTCGATCAAACGAGCACTTCCCGCGACGATGGGCGGCTGGATCTGCGCAAGGAGTGGACGGAGCATCCACTGTGGAAGAATTTGCGCGCGGTTCAAAACAATCGCGTGTACGAAGTGGACACCGCGGTTTGGAATAACGGCTCTGGTCCGCTAGCGGCAGAGCAAATGCTGATCGATCTCAAAGAAATTTACGAATTGGAATAA	MFFNVHFTLRRSFGIIMLTTCLVAMAVLAGCGQTDGGGASSPPNAQSASAGEGASRTGTAEAERNIQHAMGDTVVAGTPIKVVTLFQGATDAALALGVKPTGAVEAWIEQPWYNYIREQMEGVVNLGSENQPNLEEIAALKPDVIIASKTRHEEIYSQLSGIAPTVMTEEVHIWKESLALTAEALNKKKEEQAFLQRWEGEVADFKEKMGDKLKMEVGILDFRADHARIVHTGFSALVLDELGITRPMEQKGEEWGVKLVSKENIPQMDADILFDQTSTSRDDGRLDLRKEWTEHPLWKNLRAVQNNRVYEVDTAVWNNGSGPLAAEQMLIDLKEIYELE	PGPT0003765_7267	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
AK002_03302	801			hypothetical protein	ATGAATTACCTGGTTCCGTTAGGAATGGAGGAACTTGCAGTCCTTCAACAAAAATACGGATTTAGGGTAGCTGCTTCGTCATATAGCGAAGATGAAAGCGAAAGCATCCCGGGCAACGAGGGTATGATTCCATTGAACGCATTGTTGGATCCGGGCGGTTGCACCGCTTACCTTGACGGGTTGGCCGCCCGTCTCGGCACGGATTCCCGGCCGATCGCTGCCTCCATGTTCGCCAAGCGGTATGCCGCGATTGCGGTTATGCCTTATTTCCATGCGCTTACTTGTTATGACAAGGCGTTGGAGCTGACTTTTCAGAGCATGCGACTGCGCAGCGGCAAGCACTGGCTGGACGGGATTACGTTCGATCTTCCACTTCGGGCAGTTCCGTGCACGGAGCGGAGAGAGGCATGGCGTTCTCACGCCGCCGAAAGTTTGATCCGGCACCATTTGAGTTCGCTGTGGCAGTCTCTGTCCAGCTGCTCGGGATTGCCGATGGCGATCATTTGGGAGAACATGGCGGTCCGAATTTATTCGCTGTACGAGAAAAAGCTGCGGAACTGCGGCGAAGTTTCGGCAGCTAGGATCGAAGAAGATTTTTGGTTTTTGCTCCATGAGCTTCCTGCCGAGGCTTTCATGCAGCGCAGGCAGCCTTTCGCGCGTTTTTACGGCGACGGTGCGCCACCCGAGGAGGCGCGGAATCATGGATCAGGGGGGACACGCACTAGATTGACCTGCTGTCTATATTATCGGGTTTCGAAGGGCGGCGAATATTGCGACGCTTGTCCAAAGCATGCCCGTTAA	MNYLVPLGMEELAVLQQKYGFRVAASSYSEDESESIPGNEGMIPLNALLDPGGCTAYLDGLAARLGTDSRPIAASMFAKRYAAIAVMPYFHALTCYDKALELTFQSMRLRSGKHWLDGITFDLPLRAVPCTERREAWRSHAAESLIRHHLSSLWQSLSSCSGLPMAIIWENMAVRIYSLYEKKLRNCGEVSAARIEEDFWFLLHELPAEAFMQRRQPFARFYGDGAPPEEARNHGSGGTRTRLTCCLYYRVSKGGEYCDACPKHAR				NA	NA	NA	NA	NA
AK002_03303	1845	rhaS_8		HTH-type transcriptional activator RhaS	ATGAGGATGAAAGATCAGATGATGCTTTGGGACAGCGCTTCCTTCCAAATTTCAGATATTCGCCGCAGGCGCCTGCAGCCGAAAGAGCGGCTGGAATACCGTGCACCGGCGGAGCTGTTTCTTGTATCAACTGCGGGGAAGGCTCGAATTGAAACGGAAGGCTTCAACCTTTGGTCGGTGGATGCGTCGATCGTACATCTTGGCAAAGGGGCCGAGTTTCGGATCGCTGAAGCGACGGACAATTATGAATACTTTCTGATATTATACAAGGCATTGTTGCCGGATGGCCTGCCGAAGAGCCTTGATCAACCTCAGCTAGCCGTCAGGCAGTTCCATTCCAGTTATGCGATTCCGGTCGTAATGAATGCTGCATACCGCAAATTGGTTCGCGAGATGGAGCAAATTTGGGGGCAGGAACAGGCGCTGACCCGTTTGGAGGCAAAACAGCAATTTTATGCGTTCGTACATTTATTCTTGTCGGAGATGGAGCAGCTGGAAGCGGGGAGAGCAGTGCACGATGAAGATCCGGTCGAATCGACCGTGCAATATATGGAAGCCCACTACGCCGAGCCGTGGACGCTCGCTTCGCTGGCAGAGCGGCTTGGGACCAATACACGCAGGTTGCAGCGTGGCTTCAATGCCCGCTTTGGACATAGCCCGCTCGAGCATCTGATCGAAATCCGTTTGAAACGGGCAAAAAAGCTTCTTGAAAATAGCGAGCTTCCGATTTCGAATATCGCGGACGAGGTCGGTTATCCGGACAGCTATTATTTTAGCAGGCTATTCAAAAAGTACGTCGGCTTGCCTCCAAGCGATTATAGGGTGAATCGTAAAAATGAACAACGTATGACGGACATGAACTGTCGGATTTCTCCAGCATTGCCGTCGCATACGATCATTGTCCCGACGGACTGGGCTAGGTATGATCAGAGGGGGAGCGTGTTACAGGATTTTCAAACGCTCCTGACCATGACCTTAATGTGCACCGGAGGGCTAGCCCATGTCGAAGGGAAAGTTCGTGTGCCCCATTTGCGCGGCGTGCTTGAATTAGAAAGGATACCCGAGCGTATCGCCGTGCTTGATTACCAGTATGTCGACCAGCTTCTCGCTCTTGGCGTTCAGCCGATCGGCAGCGTGGTTTGCAGTGTCGAGGTGCTCGGCCTTCCGATTGACTTGGCCAGACCATTGAAACGCATGGCCCATTTAGGATCGAAGGAAGTACCCGATCTGTCCGCGATTACGGCAATCGAGCCGGACTTGATTATATGCACGGGGTTTCAGGAGCATCGCTTCGAGGAGTTGTCCGTCATCGCCCCGACGATCATGCTCGATCGCAATGAAGATTGGCGGCAGTCGCTGCTTCGACTCGGCGCTTTGTTAGATCGCCAGGTTCGGGCGTTGAGCGAAATCGATGCTTATGGGGCCAAGCTGAATACCATTCGAACCCGCCTGCAAGCGGCGGGGGATGCGCAAACGGTCGCGCTCATCCGGCCGCGGGACGGCAAAATCCGGCTGCACAGCGAAAAACATCGCACGGCGCGCCTGCTGTACGATGACCTTGGACTGTCGGTGCCGCAGCTTCCCGGTATGAGTCAAGGAACCAGCTCGATGATTCCCTTGGAGACGCTGCCGGAATTGAAAGCGGACCGATTGTTCGTGCTGACGGACGACACGAATCGGGAGCAGACCCGCATGTACTTGCGGAGCGAAGCCTGGAATAGCACCCGCGCCGTTCGCAGCGGCCAGGTCCGCCATGTTCACACGGCCCTATGGATCGGCTATTACGGCCCGCTCGGAATGAATAGGGTTGTGGACGAAATTGCAGCGGCAATATTGCCGAATTAG	MRMKDQMMLWDSASFQISDIRRRRLQPKERLEYRAPAELFLVSTAGKARIETEGFNLWSVDASIVHLGKGAEFRIAEATDNYEYFLILYKALLPDGLPKSLDQPQLAVRQFHSSYAIPVVMNAAYRKLVREMEQIWGQEQALTRLEAKQQFYAFVHLFLSEMEQLEAGRAVHDEDPVESTVQYMEAHYAEPWTLASLAERLGTNTRRLQRGFNARFGHSPLEHLIEIRLKRAKKLLENSELPISNIADEVGYPDSYYFSRLFKKYVGLPPSDYRVNRKNEQRMTDMNCRISPALPSHTIIVPTDWARYDQRGSVLQDFQTLLTMTLMCTGGLAHVEGKVRVPHLRGVLELERIPERIAVLDYQYVDQLLALGVQPIGSVVCSVEVLGLPIDLARPLKRMAHLGSKEVPDLSAITAIEPDLIICTGFQEHRFEELSVIAPTIMLDRNEDWRQSLLRLGALLDRQVRALSEIDAYGAKLNTIRTRLQAAGDAQTVALIRPRDGKIRLHSEKHRTARLLYDDLGLSVPQLPGMSQGTSSMIPLETLPELKADRLFVLTDDTNREQTRMYLRSEAWNSTRAVRSGQVRHVHTALWIGYYGPLGMNRVVDEIAAAILPN	PGPT0003765_101	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
AK002_03304	489			hypothetical protein	ATGGGAATGTACGGATATTACGTTGCTATGGATGATAAACTTGTGCAGCAAATCGCTGCAGGCGAAATTGAATTGGCGAATTTGAAATTAGACGATTATCCCGGGCTGGACATCGATAGAACCTGGGAGGCGATTCACTACTTGCTATGTGGAGATATCGCCGATGGAGAGCCCCCTCTTGGCTATGTTGTTCCGATAACATCAGACAAAGGCATCGAATTTGGCTCATTCGGGGCATTTTTCTTGCGCGCCGAGCAAGTTGCAGAAGCGCTTCAGGCTATGTCTGAGCTGGATGAAGAACAGCTCCGCTTGCGTTATGATTTCCCGACCATGATCAAAGAGGAGGTTTATCCGCTTGAGCCTGGCATGGTTTCAAACGAGGATGGCGACGCGTTCTTTGACTTCATGCTGCAGCATTTTAACGAAATCCGGCGTTTTTACAGCCAAACTGCAGCCGATAGCAAAGGTCTCATTTTCTACATTTTCTAA	MGMYGYYVAMDDKLVQQIAAGEIELANLKLDDYPGLDIDRTWEAIHYLLCGDIADGEPPLGYVVPITSDKGIEFGSFGAFFLRAEQVAEALQAMSELDEEQLRLRYDFPTMIKEEVYPLEPGMVSNEDGDAFFDFMLQHFNEIRRFYSQTAADSKGLIFYIF				NA	NA	NA	NA	NA
AK002_03305	432			hypothetical protein	GTGTCGAGTACTTGTAATAAATGCGGAGCCCGTCTCCCAACGGGGAATACATGTCAATCGATTTTCAACGAATTTATGGCACTTGAATTCACTGATCCTAGCTATGGACGGGTTCATTTTCTCACGGTTGCATCTTACATGGTTCAGCATGAAGGTTATAGCGATGAGATGTATGTCTGGATCCAAACCGCATTAAGGAAGCATCTGGAAGAGGGCTACCCTACGGAATTGATTCGCCAAGACATGAACAGAGGACCAGGGAGCACCAAGGGGATTCGAAGGCCAGTGAATGCGCCGCCTCTCCCCAAGGTGGCTTGGACCATGACGATTGCCGACGTGGCTGCACAGATGAATGATGCCGAAAGCTATTGTAAGCTCATTGAGCAATGGGGACGTACGACGCTTAAAGAGATGGGACCGCTTGTTTTATGA	MSSTCNKCGARLPTGNTCQSIFNEFMALEFTDPSYGRVHFLTVASYMVQHEGYSDEMYVWIQTALRKHLEEGYPTELIRQDMNRGPGSTKGIRRPVNAPPLPKVAWTMTIADVAAQMNDAESYCKLIEQWGRTTLKEMGPLVL				NA	NA	NA	NA	NA
AK002_03306	900	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGTTCCATGGATTATCAGCATTTCCACTGACCCCAATGAATGAAACAGGAATTAACGAAAATGAATTTGTGAAGCTAATTGAGCGATTGGCAGCAGCAGGCGTAGACTCCATCGGGGCACTGGGTTCGACAGGTAACTATGCCTATCTAAGCCGGGAGGAACGTTTTCGGGTTTTGCAGCTTGCGGTCGGTTACGCTGAGGGCATTCCCGTGATGACAAGCATAAGCGCATTGCGCACGATTGATGTGCTTCGTTTGGCAGAAGACGCACAAAGAGCAGGAGCAAGCGCGGTGCTGTTGGCTCCTGTTTCTTACCAAGCATTAACGGATGAAGAAGTATACTCCTTATATAAACATGTGACATGCTCACTCTCTATCCCGCTTTGCGTTTATGATAATCCGGGGACTACGCATTTTCATTTTAGCGATGAACTGCATGGCCGAATTGCTGAGCTCCCCAGTGTACGTTCAATCAAGATCCCTGGAGTGCCGTCTGAACCTGAAGCAGCCAAGACACGAGTAAGCCATCTTCGCGAGCTCATTCCTTCCAGCGTAACCATCGGAGTAAGCAATGATCCGTTTGCAGCCACCGGCTTGAATGCAGGTTGTGAAGCTTGGTACTCGGTGCTGGGAGGCTTATTTCCAAAGACATGCATGAGGATGACTCGATTGGCTTTGGAAGGCTTTGCTGACGAAGCCAATCGCCTTTCTAAACAGCTCGAACCGATTTGGACGTTATTTCGCCAATATGGTAGTCTTCGCGTTGTAGCTGCAGCAGCAGAAATGGATAACTTGATTTCAAGTCCCAGCCTGCCTCTTCCGTTACAACCACTGAATCCTTCAGCCAGAGAGGATTTGAAGTCCATACTTGTAGACATTAAACTTATGGAAGCTTCTTGA	MFHGLSAFPLTPMNETGINENEFVKLIERLAAAGVDSIGALGSTGNYAYLSREERFRVLQLAVGYAEGIPVMTSISALRTIDVLRLAEDAQRAGASAVLLAPVSYQALTDEEVYSLYKHVTCSLSIPLCVYDNPGTTHFHFSDELHGRIAELPSVRSIKIPGVPSEPEAAKTRVSHLRELIPSSVTIGVSNDPFAATGLNAGCEAWYSVLGGLFPKTCMRMTRLALEGFADEANRLSKQLEPIWTLFRQYGSLRVVAAAAEMDNLISSPSLPLPLQPLNPSAREDLKSILVDIKLMEAS	PGPT0002080_4148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK002_03307	900			hypothetical protein	ATGAAATTATGGCACTATGCATTGATCGTTTTTTTAGGAGGCTGCAGTTATGGGGTTTTGTCCACCTTTGTTAAATTGGCCTATGCAGCAGGTTTCACCGTGTCCGCAGTAACCGGAGGACAGTATCTGTTCGGCGTTGTGCTCTGTTGGCTTGCCGTGTTATTTATCAAAAAGAAAAAACTGACTCGAATCCAAGCTTCAAAGCTTATCCTTTCTGGAATTCCCTTCGGGTTAACGGGCATATTTTATTATCAAGCCCTACAAACGTTAAGCGCCTCTCTAGCAATCGTTATTTTGTTCCAATTTGTTTGGATCGGAGCCTTGTTGGAGTGGGTATTCCACAAGAAAAAGCCAACCAAGACGAAACTCATTTCCATCGCCTTGCTTCTGGCGGGTTCCGTGTTGGCAGCCAATATCCTATTCCAAGAACCCATAGTGTTATCATGGCAGGGATGCCTCTGGGGAATGCTTGCGGCATCGTCCTTTTCCGCATTCGTATTTTTGAGTGGGTCGGTCGAAAAGGAAACGCCTCCCATTTTAAAAAGCGCCCTACTTTCCACGGGAGGCGTATTGACCGTATTTATCGTTTTTCCGCCAACGTTTTTATTGGACTTGGATGTATTTGTGGGGATCATTCCTTACGGATTGGCACTGGGTATATTCGGAGGCGTCCTCCCCCCTCTTCTGTATTCGATTGGAATGCCGCATGTCGGTTCGGGATTGGGAACCATTCTTACGTCATCCGAATTGCCGGTTGTCATCGCCATGTCCTCATTAGTTCTAGGAGAAACCATAAGCTGGTCTCAGTGGATTGGTGTGATCATCATTCTGGGCGGAATTTTTTATAGTAATATTCGATTACGTACTCGGAACAGAGAAGCTTTGACAACCACTGTGTAA	MKLWHYALIVFLGGCSYGVLSTFVKLAYAAGFTVSAVTGGQYLFGVVLCWLAVLFIKKKKLTRIQASKLILSGIPFGLTGIFYYQALQTLSASLAIVILFQFVWIGALLEWVFHKKKPTKTKLISIALLLAGSVLAANILFQEPIVLSWQGCLWGMLAASSFSAFVFLSGSVEKETPPILKSALLSTGGVLTVFIVFPPTFLLDLDVFVGIIPYGLALGIFGGVLPPLLYSIGMPHVGSGLGTILTSSELPVVIAMSSLVLGETISWSQWIGVIIILGGIFYSNIRLRTRNREALTTTV				NA	NA	NA	NA	NA
AK002_03308	486	yizA	COG2318	putative protein YizA	ATGTTGAAGCTATTCGAGTATAACTGGCAAGTTCGCCAAGATTGGTTTGACTGGTGCGATACAGTGAGCGAGGATGAGTTGTTGAAACAACGCACCGGTGGCATAGGAAGCATTCTCTACACACTGCATCACATCGTGACCGTTGAATATGCTTGGCTGTGCATGGATTTGCAAGGAAAAGAGCTGGATATCCCTTCGTTCGAGGATTGTGCCAGCGTCCAAGGATTAAGAGATTATTCGGCCCGAGCCCACGCGGAAATTGCACCCTTCGTCTACGATTGGAATGATAGCTTGGAAGATCGCATCATGGTCGACACGAACCAGGACGGGGAACAGGAAAGATTTACATTCGGTGAAGTGATGCGTCACGTGATCGCCCATGAAATTCATCATATCGGTCAATTGTCTATCTGGTCACGAGAAATCGGAAAGCAGCCGGTTACTGCAAACTTGATTCATAGAGGGTTATTCGATATTAAATGCTGA	MLKLFEYNWQVRQDWFDWCDTVSEDELLKQRTGGIGSILYTLHHIVTVEYAWLCMDLQGKELDIPSFEDCASVQGLRDYSARAHAEIAPFVYDWNDSLEDRIMVDTNQDGEQERFTFGEVMRHVIAHEIHHIGQLSIWSREIGKQPVTANLIHRGLFDIKC				NA	NA	NA	NA	NA
AK002_03309	942			hypothetical protein	ATGGCAATATCGAAAGAGCTGCAGACGCCGTTATGGATGAAAATGCGTCGTATATGCGGCTATGGAGCAGCCATATCGGTGTTGCCGTATCTACTGATCAAAATCGCTTGGACTTTAGGTTTCTTCATGCCGACCGAACAAATGGGCGATGTTAGCTGGCGTGCGATCAACGCAGCTACCGTAGTGCTCGCAATGATCGGAATCCTGCTGGCGCTGGCGTTCAGCATGCCATGGGGCGAACGTCTTCCTGCTTGGCTGGTTGCCATCCCCATTTGGATGGGTACGGGTCTGCTGGTTCCTATGCTGCTCTTGGCACCGGTACTAGGACCGGCAGCCATGACTCGGGATAAGGAGGCAGGCGCCGCCGATGTTTGGGTTTATGAACAGCTCTTCGTCATGATATCGCTGGTTGGTGTCGGCATTTGTTTGCCTCTTGCCCTAGCAGGTTACGCCCGAACACGCTGGCCGGAGGCCTTCGGCACATTCATTGATTATCGTGATTTATCCGGGAACACTTTGAAGCTGCAGCAAACATTGGCCAAGTTTGTTGGAGTTGGCTGTATTCTGCTCGGCACCATCAAGGTGTATTGGGCTGCGGGAGGGACCTTTGGCATTGACCCGGCAAGAGTGGATGAACGCGATGTGTGGTGGCACCTGCTGACGTTTAGTACCGGAGCATGGTCTATCGCTGGAGCGTGGGGAGCTCGGGTTCTAACTTCGAATAACGGATCGCGAAGGTTCCTCCCCCCGATGGCAACGGTATGGATTTCGTCGGGAATGTTATTCTCATACAATCTCTTTTCCGCCATACGCACGGACTCCCAATTTTCGCCGGAGTACCCGTTGCTGCGGACGTTGACCACGGAAGCGGGGATTATTTTGGGGATCATAATGGTAATGATCATTCTTCTAGTGCTGAACGATCGGCGGCGAGTCTTGTAA	MAISKELQTPLWMKMRRICGYGAAISVLPYLLIKIAWTLGFFMPTEQMGDVSWRAINAATVVLAMIGILLALAFSMPWGERLPAWLVAIPIWMGTGLLVPMLLLAPVLGPAAMTRDKEAGAADVWVYEQLFVMISLVGVGICLPLALAGYARTRWPEAFGTFIDYRDLSGNTLKLQQTLAKFVGVGCILLGTIKVYWAAGGTFGIDPARVDERDVWWHLLTFSTGAWSIAGAWGARVLTSNNGSRRFLPPMATVWISSGMLFSYNLFSAIRTDSQFSPEYPLLRTLTTEAGIILGIIMVMIILLVLNDRRRVL				NA	NA	NA	NA	NA
AK002_03310	1341	sasA_16		Adaptive-response sensory-kinase SasA	ATGAGGATGCGCACCTCGTTAATGAGCAAATACCTGGCTCTGATGATGACCGCATTGCTGCTGTGGCCGGTCATTCCAGCGATGTTTTATTTACCGGGTTACCTATTCAGCGAGCATTCGATGTATCGTCCGGAAGAGATCACTCGTAGGTGGCAAGAGGAGGCCATCAAGCTGAAAGGTGCAGGAACTGGGAAGATTCGAGCCCAACTGGGCGAGTTGAGCATGGAATATCCGGAAGCAGAGATGTTCTGGGTCGACTCGTCGGGTAGAACGAATGCGATCAAGGTCACCTCGAACGATATCCCGGCGCAATGGAGTTATGAGGATATGCTCTCGCTTCAAACACAGGATAGCAACCAGGAAGCGTTTACCTTGACGGCCCTCATCGGAAACGATCCAAAACAAGGCTTTATGGTGATGAGGCTTCCCGAATCTCATATTATATCTGCGGAAATGTCGTTTCCAGAAAACATGCCGTTAGCCATTATGTTCTTCACCGTCTGTCTATGCTTCTTGGTACTGTCATTTCTGTTCTTCGTGAATCTTCGAAAAAGATTGATTAAACTTCGATCAGCGATGAACTTAAGCGGGAAGAGCGGCTTCCCGAATGAAGTCGTTATTAGCAAGGAAGACGAGATTGGAGAACTTGAAGGCGCCTTTAACCGGATGGTCTGCGAGCTTAAAGAAAGTCAGCAGCGGGAGCGGGAGGAGGAGGAACTGCGTAAGCAATTCATTTCGAATATATCCCACGATCTTCGCACTCCGTTAACTATCATTCGGCAGCATGTTCATTCCGTTCGAAGTAATCCTGCTGCTTCCCAGGAACAGACGTCGCTTTCTATCATTGATCACAAGCTGGATGAAGTCGACAAGTTGATGGATAACCTGCTGTCATACTCACTGCTATCGGCGGGGAAGTATCCCATTAACATCCAATCGATCGATATCACTGAAGAAGTTCGTAACCGCGTGGCCGAATGGTATCCGATCTTCGAGGCAAAGGACTTTAATGTTGTTGCCGAGCTGCCTGATTGCCCGATCCTATGGAATGTAGACCCCGTGTGGCTTCATCGGATCATGGACAATGTGTTCCAGAACGTGGTGCGTCATGCTGGGGCAGGCCGATACATCGGCATTCACATCACGGATTATCCAAATCAGGCTATTATCGTACAAGACAAGGGTTCCGGCACTTGTAACGAGTCTCCTGAAAAGGGAGCTGGAATTGGATTGTCCATTGTATCCATGATGACTAGGGAGATGGGTTTGCATTGGGAGTTGAAGTCCGACGCAAACGGAAGCTCGTTTTATCTTTGGAAGGATAGCGGCTTGAGCGTATAG	MRMRTSLMSKYLALMMTALLLWPVIPAMFYLPGYLFSEHSMYRPEEITRRWQEEAIKLKGAGTGKIRAQLGELSMEYPEAEMFWVDSSGRTNAIKVTSNDIPAQWSYEDMLSLQTQDSNQEAFTLTALIGNDPKQGFMVMRLPESHIISAEMSFPENMPLAIMFFTVCLCFLVLSFLFFVNLRKRLIKLRSAMNLSGKSGFPNEVVISKEDEIGELEGAFNRMVCELKESQQREREEEELRKQFISNISHDLRTPLTIIRQHVHSVRSNPAASQEQTSLSIIDHKLDEVDKLMDNLLSYSLLSAGKYPINIQSIDITEEVRNRVAEWYPIFEAKDFNVVAELPDCPILWNVDPVWLHRIMDNVFQNVVRHAGAGRYIGIHITDYPNQAIIVQDKGSGTCNESPEKGAGIGLSIVSMMTREMGLHWELKSDANGSSFYLWKDSGLSV				NA	NA	NA	NA	NA
AK002_03311	171			hypothetical protein	ATGAAGACATTCACGATCTTGTACATGGAAAACGATCAGGAAATTAGCACCTGGTCCAGAAACCTTCTATGCGGACAAGACTATGAGGTAATCTGGAGAACAGGGCTGGACTCCCGGTCCCCTCAAATGATGAAGACGATTCGCCGCGTCGGATACCGAGTGAGAACATGA	MKTFTILYMENDQEISTWSRNLLCGQDYEVIWRTGLDSRSPQMMKTIRRVGYRVRT				NA	NA	NA	NA	NA
AK002_03312	2592			hypothetical protein	ATGAATATTGTCTACAAACTTGCCATCCGGAATTTAAAGCAAAACAAGAGACGAACACTCGTGACCATCATCGGCGTCATCATTTCGGTTGCCATGGTGACCGCTGTCGCTACGCTTGTGTTCTCCTTCTCGGATTTAATGATCAGGCAAACCATCGCGGATAGCGGGGAGTGGCATGTTCAATATCAGGATGTTACCAAAGAACAGCTTGCGGCGATACAAGCCGATGAGGCAACCCAAACCGTTGCGATTACAAGGGATCTTGGATATGCCCCATTAGAAGGGGGACAAAATCCCAACAAACCATACTTGTTCATCAAGGAATATGATGCGCAAGGTTTCACACAATTTCAGGTTGAACTAAGCAAGGGGCGTCTACCCCGTACGGACAAGGAAGTCGTTATCTCCGAGCCCGTTGCAACGAACGCCAAAGTGAAGTACGAAATCGGCGATCGTCTAGCCCTTCGCATCGGCGAACGATTCGAACAAGGGGGCGATCATCCCTTGGATCAGACCGAACCGCTGCGTAGGGAAGACGGCACGTTGACTGAAACGTTGCAGCATATCGAGACAAAGGTTTATACGGTGGTCGGCTACATCAAGCGTCCCGTATGGGAAACGGCTTGGGCGCCGGGTTATACGATTATCAGCTATGTCGATGAAAACTTTATCGGGTCAACCGATCAAGTGAATGCGGCGGTGGTCTTGCAGAAAATCAAACCGTCCTTGTTCGCTGATGCGGAAAATGTGGCAAAGAGGAACGACATCGAATCGGTCCAATACAATAACGACTTGCTGCATTATTACGGCTTGTCCAAAAACAAAGAATCGTACAGCATGATGTACACTTTATCGGCGATCCTGATGGCGGTCATTATGATCGGCTCGGTTTCGCTCATCTATAATGCTTTTGCGATATCCGTCTCGGAACGTTCCCGTCATTTAGGGATGCTCGCGAGCGTCGGGGCTACGAGAAGGCAGAAGCGAAATTCAGTGCTTTTTGAAGGTGTCATTATTGGCTTGATCAGCATTCCGATTGGCATTCTATGCGGTCTTGCCGGGATCGGAATCACCTTTTGGTTCATGAACCCGATGATTGAGGGGGCATTATGGAGCAGTGAAAAGCTGACGGTCATCGTCACGCCGTTATCACTCTTGATTGCCTGTGTTGTTTCGATGCTGACGATTTTCATCTCGACGTATCTTCCGGCGTTCAAAGCATCCAAGGTTTCCGCCATGGACGCGATTCGCCAAACGTCCGATGTTAAGCTTACGGCGAAAGCCGTGAAAACGTCGAGGCTCATTCGCAAGCTCTTCGGCATCGAAGCGGAAATCGGATTGAAAAACTTAAAAAGAAACAAACGGAGATATCATGCCATTGTATTTTCACTTGTCATCAGCATTGTTTTGTTTTTGACGGTATCGTTTTTTACCGCCGGCATGAAACAATCCCTGGAACTGTCGCAGGAAGGCGTCAATTATGATATTCAAGTGTCGTACAGCAACGGAAAAAGAATAGACGACCGGTTGCTGCAATCGATTGTATCCTTAGATGGTGTAACGGAATACAACCTGATTCAAGAGTTCTATAAGCAGGCTTGGGTCGATGAAGCGTACATCGCCGAAGAATTGCAAGAGATGGTTAAGAAGGATAAGAGTTTACTGCAGGACGGAAAATACCCTTACGAGATTAAGATCCATGCATTGGACGATTTGAGTCTGCAAGCCTATGCCGATGCCGTCGGCGCAAAATACGAACAGCTTAGGGATCCGGATCATCCTGCCGCGATCGTGATGGATACAATCCGCTACCAAGATATGGATGCCGGGAAATATGTCCAAACGAAGGCCGTGTATACGAATGTCGGTCAAAATTTCGAACTAACGAATAGCTATAAAGATAATGCGGAAGAAACGAAGGTAAGCCGGGTGACCGTTGCCGCGCTGACGGATCAAGCTCCTATGGGGATGAGCGGGGCAGGCGTAGGTGGGTTAAATATGATCGTGTCGGAACGCATCATGGATCAATTGGCAGACGACGAGGAACTGGCTAACGTTCAGACATACCTCTATTTGAAAAGTACGGAGCCGATGAGAACACAGCAGGAAATCGAAGAGATGTTTGAGACCAATCTGAATGTCTACAATGTATATCAATCCAGAAAAAGCGAAGAACAACAGATTCTATTGACGGCCGTCTTTTCTTACGGTTTTATCGTATTAATCTCCGCGATTTCCATTGCGAATATTTTTAATACCATCTCAACGGGCTTATCCCTTCGTAAGCGAGAAATTGCGATGTTAAAATCCGTTGGCATGACGCCAAAGGGCTTTGCGAAAATGATGAATTATGAGAGTGTTTTTTATGGAGTCAAGTCGCTGCTGTTCGGGCTTCCCGTCAGTTTCGTCGTGATGATTCTAATGTATAGGTCATTTGCGAACAGATTCAGCTACGGATTCACCGTTCCCTGGCTAAGTGTGCTTTCTGTTGTCGTCGCCGTATTTGTTATTGTCGTTTCTGCGATTATTTTTTCCAGCAGGAAATTAAAAAAGGAAAACATTATTGATGCTTTAAAGCAGGAGAATATATAG	MNIVYKLAIRNLKQNKRRTLVTIIGVIISVAMVTAVATLVFSFSDLMIRQTIADSGEWHVQYQDVTKEQLAAIQADEATQTVAITRDLGYAPLEGGQNPNKPYLFIKEYDAQGFTQFQVELSKGRLPRTDKEVVISEPVATNAKVKYEIGDRLALRIGERFEQGGDHPLDQTEPLRREDGTLTETLQHIETKVYTVVGYIKRPVWETAWAPGYTIISYVDENFIGSTDQVNAAVVLQKIKPSLFADAENVAKRNDIESVQYNNDLLHYYGLSKNKESYSMMYTLSAILMAVIMIGSVSLIYNAFAISVSERSRHLGMLASVGATRRQKRNSVLFEGVIIGLISIPIGILCGLAGIGITFWFMNPMIEGALWSSEKLTVIVTPLSLLIACVVSMLTIFISTYLPAFKASKVSAMDAIRQTSDVKLTAKAVKTSRLIRKLFGIEAEIGLKNLKRNKRRYHAIVFSLVISIVLFLTVSFFTAGMKQSLELSQEGVNYDIQVSYSNGKRIDDRLLQSIVSLDGVTEYNLIQEFYKQAWVDEAYIAEELQEMVKKDKSLLQDGKYPYEIKIHALDDLSLQAYADAVGAKYEQLRDPDHPAAIVMDTIRYQDMDAGKYVQTKAVYTNVGQNFELTNSYKDNAEETKVSRVTVAALTDQAPMGMSGAGVGGLNMIVSERIMDQLADDEELANVQTYLYLKSTEPMRTQQEIEEMFETNLNVYNVYQSRKSEEQQILLTAVFSYGFIVLISAISIANIFNTISTGLSLRKREIAMLKSVGMTPKGFAKMMNYESVFYGVKSLLFGLPVSFVVMILMYRSFANRFSYGFTVPWLSVLSVVVAVFVIVVSAIIFSSRKLKKENIIDALKQENI	PGPT0013350_2138	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK002_03313	684	yxdL_4	COG1136	ABC transporter ATP-binding protein YxdL	ATGGAAATTTTAAAAATCGAGCATCTGTCTAAAATATACGGCACAGGCGAATCGGCGGTAAAGGCGCTTGACGACATTTCTTTTTCGGTTCAAAAAGGCGAATTCGTCGCGATTATCGGCCCGTCCGGATCGGGAAAATCAACCCTTCTTCATCTGCTGGGAGGCGTCGATCGACCGACGAGCGGCAAGGTTTTCGTTGAAAATACGGACATCTATGCATTGGATGAAACGCGTCTGGCCATCTTCCGGCGGCGGCAAATCGGACTGATCTACCAGTTTTTCAATCTGATTCCCACCTTAACGGTGAAAGAGAACATGACGCTGCCGCTCTTGCTGGACAACCAACAGGAAGATAAGAAGCAGTTCGATGGGCTCGTAAAGACGCTAAATTTGGAGCGTCGTTTAAACCACCTGCCTAATCAGTTATCCGGCGGACAGCAGCAGCGGGTTTCGATCGGCAGAGCGATCATCAGTAACCCTGCCATCATGCTGGCAGACGAGCCCACCGGGAATTTGGACAGCAAAAATAGCAGCGAGATCGTCGATTTGTTGAAAATGTTGAATAAAACCTATCATCAGACGCTGATTGTCATCACTCACGACGAACGAATCGCTTTACAGGCCGACAGGATCATTTCAATTGTAGACGGGAAGGTTGCCAAAGACGAGGTGATCCGTCGATGA	MEILKIEHLSKIYGTGESAVKALDDISFSVQKGEFVAIIGPSGSGKSTLLHLLGGVDRPTSGKVFVENTDIYALDETRLAIFRRRQIGLIYQFFNLIPTLTVKENMTLPLLLDNQQEDKKQFDGLVKTLNLERRLNHLPNQLSGGQQQRVSIGRAIISNPAIMLADEPTGNLDSKNSSEIVDLLKMLNKTYHQTLIVITHDERIALQADRIISIVDGKVAKDEVIRR	PGPT0013345_13009	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_03314	939			hypothetical protein	ATGCAATCGAAGCAACAGCGTAAGCTTATTTTTGCCATCACGATATTTTACACCCTGTTTATTCTTTATTTTTTGTTTTTCGCTTTCGGCAGGGTAGGTAAGGCAGATCAAATCAAGGGGTACACCTTTATTTTTTTACCGGACGATTTTTTTAGGCTGCCAGGTCTATCCGACCTTCTACATCCGACCTTGATGGATTTAGTGGGTTTCGGGAACGTCGCCGCTTTCATTCCTTTTGGCATATTGATTCCGTTGTTATATCGGACTAGCTTTGTCCGCTTTATGACATTGTTTATCCTATCCATCCTCCTGCTGGAGACGATTCAGGCACTAACTTTCCTCGGCAGCTTCGACATGAATGATGTTATACAGAACTCATTGGGCGCAGCCGTCGGCTTCGGGGCGTACAAACTTGGATTTCGCACAAAAAACTACTGGAGAAATATTGTTTATATGGGTTTATCAAGTTTAGTCCTCATGCTCGGGGTGTGGGGGGTCTTCGGGATCTTTGACCAAGCGTTCACCAAAGAAATGGGTCCCTTTGTAGCGATAAACGATTTAAGGGATAGTACGGGGAATCCTTCAACAGGAAACAAAACGGCCAGTTTTGAGATTGGCGGTCAAGACGTGGAACCCCAATATAATGTGTACAGTTTCGAAGGCAAAAACAAGGAAACGTACAGGTACACGCTAGGCAATAAGAAGGAGGTGTACCTCTTCTTGAATTATGGAATTCCCGATCAGGAGGATTCCCGAGGCAGCATTAGGGTTACCACCGATGGACATGAGTTCCTGACCGTATCTGTAGAAGCCGGACGCCATGAGCCGGAGATGAGCTCCATTTATTTCCCTCAGGCCAATGAGCTTACGATAACCATTGATGGAAATGTAACCCTGTGGGATGTTGGATATAAAGAGATGGTATATAGCTGGAATTGA	MQSKQQRKLIFAITIFYTLFILYFLFFAFGRVGKADQIKGYTFIFLPDDFFRLPGLSDLLHPTLMDLVGFGNVAAFIPFGILIPLLYRTSFVRFMTLFILSILLLETIQALTFLGSFDMNDVIQNSLGAAVGFGAYKLGFRTKNYWRNIVYMGLSSLVLMLGVWGVFGIFDQAFTKEMGPFVAINDLRDSTGNPSTGNKTASFEIGGQDVEPQYNVYSFEGKNKETYRYTLGNKKEVYLFLNYGIPDQEDSRGSIRVTTDGHEFLTVSVEAGRHEPEMSSIYFPQANELTITIDGNVTLWDVGYKEMVYSWN				NA	NA	NA	NA	NA
AK002_03315	1002	sasA_17		Adaptive-response sensory-kinase SasA	ATGCTGCGCAATCGAGAAATTAAGATGTTATTGTTCGTCATGGGTTCAGTCAGCCTAGCGGCGATTGTTGCAGCTCTTATGATTTCTCCTGCCGCCGCGGTGCTCGTTTTCTTTCTATCGATTTTGCTCATTGGCGGCAGCTTGTTATTTACGAAATGGAGATACCGCGAAATTGAAAAGCTGTCCGTCTATTTGCGGGAGATTAGCAGCGGCAATGATACCCTGGACGTACGGGACAATCAAGAAGGCGAGCTTAGCATCCTAAAGAATGATATTTACAAAGTGACGCGCATGCTGTCGGAGCACCGGTCGCTATTGCAGCGGGACAAACTTCAACTGACGGATGCCATCTCCGATATTTCGCATCAGCTCAAAACGCCGCTCACCTCCATGACCGTCATGGCGGATCTTCTAAGTGCCCCTGACCTGCCTCCGGCCAAAAGAACGGAGTTCACCCACCATATTCGCATCCAGCTTGAACGGATCGACTGGCTTGTTTCTTCTTTATTAAAGCTATCGAAAATGGACGCGAAGACCATCCCATTCAAAAAAGATCGAATACCCATGAAAAGCCTTATCCAAAAAGCATTAGAGCCGGTAATGATTCCGATGGATATTAAGGGACAGACGGTTTCCATCGAGGGGGATGACAACGTCTCTTTTGTCGGCGATTTCAATTGGACTGCTGAAGCGGTTATCAATATTTTGAAAAACGGAGTGGAGCATACGCCTGAAGGCGGTGCAATCGCCATCTCATTTTCCGAAAACGCGTTATATACGGAAATCGTCATTGTCGACAACGGAAAAGGCATTCCGAAAGAAGATTTGCCGTATATTTTCAAACGTTTCTACAAAGGAAAGAATGCTAGCGAAGGGAGCATCGGCATAGGGCTTGCGATGGCACAGAGCATCATTGCCAGTCAGAACGGCGTGATCGATGTGACAAGCGACGCCGAGAAGGGTACGCGGTTTCGGATTAAATTTTATAAGCACGTGATTTAG	MLRNREIKMLLFVMGSVSLAAIVAALMISPAAAVLVFFLSILLIGGSLLFTKWRYREIEKLSVYLREISSGNDTLDVRDNQEGELSILKNDIYKVTRMLSEHRSLLQRDKLQLTDAISDISHQLKTPLTSMTVMADLLSAPDLPPAKRTEFTHHIRIQLERIDWLVSSLLKLSKMDAKTIPFKKDRIPMKSLIQKALEPVMIPMDIKGQTVSIEGDDNVSFVGDFNWTAEAVINILKNGVEHTPEGGAIAISFSENALYTEIVIVDNGKGIPKEDLPYIFKRFYKGKNASEGSIGIGLAMAQSIIASQNGVIDVTSDAEKGTRFRIKFYKHVI				NA	NA	NA	NA	NA
AK002_03316	690	walR_7	COG0745	Transcriptional regulatory protein WalR	TTGGATATGAAATTCTTGTTAGTGGAAGATGATAAAACGATTGCGTCCGGTCTGGAATATTCGCTGCAGCAAGAGCGCTATTCAACCGTTATTTGCCATGATGTCGCATCTGCAAAACAGGTGCTCGCCGAAGACATCGACCAGTTCGCTTTATGCTTGTTCGATTTACAGCTTCCGGACGGAAGCGGCTATGAATTGTGCAAGATGGTGAAGGAGCGGCGTGACATTCCGGTCATCTTCTTAACGGTGATCGACGATGAGGTTAATGTCGTGATGGGGCTTGATATGGGAGCCGATGATTATATTACGAAACCTTTTCGGGTTCGCGAACTTCTTTCGCGGATCAAGTCCGTCTTGCGAAGATATCAAAAGCCGTCCCAAGTTAACAGCATCATGGATATTGATGATATCCGCATCAATACGCTGGAAGGGAAAGTGTTCAAGAACGGAGCCGAGATTGCGTTGACCGCTTTGGAATATCGCTTATTGCTCATCTTTGGCAATCATATCGGACAGGTTCTCTCAAGAAATCAGCTTTTGGAGCAAATTTGGGATGTGGCCGGCGATTTCGTGAACGACAATACGTTAACCGTTTATATTAAAAGGCTGCGGGAAAAGCTGGAAGATGATCCTGGACATCCGACATTGATCAAAACCGTACGCGGACTGGGATATAAGGTTGGTGATTAG	MDMKFLLVEDDKTIASGLEYSLQQERYSTVICHDVASAKQVLAEDIDQFALCLFDLQLPDGSGYELCKMVKERRDIPVIFLTVIDDEVNVVMGLDMGADDYITKPFRVRELLSRIKSVLRRYQKPSQVNSIMDIDDIRINTLEGKVFKNGAEIALTALEYRLLLIFGNHIGQVLSRNQLLEQIWDVAGDFVNDNTLTVYIKRLREKLEDDPGHPTLIKTVRGLGYKVGD	PGPT0013765_878	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_03317	1242			hypothetical protein	ATGGGTACAAAATCGGCATGGAATTGGATTACGCTATGGGCATCGTTATTATTTGTCGTGATACTCGGCTTTTCCCGGCTCTCCTACGGCATGTTTTTGCCCGGGATCCAGAGGGTCATCGGGGGGAGCTATGGACAGTTGGGTATTCTCGGCACCGTCAACTTTATCGGCTATCTAGTCGGGACATTGTGTCTTTCCCCGTTGATTTCGCGGTTTCCAGACCACAAGCATGTCATTAATCGGATGACGTGCTTATTGCTCGGATTGACTTTAATCGGCTCGGCATTTAGTGATCATTTTACCCAGCTTGGACTTTGGCGGTTCGTCATAGGCTTGTTATCAGCTTTCGCTACCGTGTTAGTCCTGTCCATTGCAATGGATGCCGTTCGACCCGAGGAACGGGGAGTGGCATCGGGTCTTATATGGCTGGGCGGATCTGCCGGCATTCTAGTGTCAGGTTTATTCGCCCCCTTTACCATAGATCCTTCACACTTGCAGGGTTGGCGGTATGCTTGGGTGATCATGGGCGTATTCGGTGTAATTGCCGCGCTTGGTTTCGAGTGCGTTGTTACCAGAGAGAGGGGAGTCGTAAAAATACCCGCGCAGACCGAATCGGAGTCACGGGACCAAGAAGACGATCATGTGTATCGTCTCCTGTTGAACTCCAATAAGCTCTTGTTCCTAATCGCTTCTTATTTCTTCTTCGGCTGGGGATACATCATCTATTTCACGTATTTGATTCCCTATCTGGTGAACCAAGGCATTCCATCCCTCTATGCCGGGCTGGTATGGTCCGGTATCGGATTCGCGGGTATGTTTAACGGATGGATCGGAGGCAAAGCTATTGACCGCTGGCCGAGCGGGTATACGCTGGCTTCGGGATTAACCTTAGGAACGATCGGAGCGTGTGGGGTAATCACTAATAATATGTTCTTTACTGTACTTGGAGCCACCACGATTGGGCTGGTTTCCTTTATTACTCCGCCGCTGATGACAACTGCGCTTCTTCGTCGTCATGTCCCTCACCACGCGTATGCGCCAAGCCTCAGCATAGCCACTGCCTTTTTTGCCTCTGGGCAGATCATCGGTCCCATCGTTGGAGGCTTGATCGTCGAACAATACGGCTTGCCATTCGGCGTGGCATCCAGCGCCATCTTTATGGCGATTGCCGCTGCGTTGGCTGCATGGTATGGACTACAGCAACGAAAGCTTGAGATTCGTCATTTGCCTGTCCGTGGTTGA	MGTKSAWNWITLWASLLFVVILGFSRLSYGMFLPGIQRVIGGSYGQLGILGTVNFIGYLVGTLCLSPLISRFPDHKHVINRMTCLLLGLTLIGSAFSDHFTQLGLWRFVIGLLSAFATVLVLSIAMDAVRPEERGVASGLIWLGGSAGILVSGLFAPFTIDPSHLQGWRYAWVIMGVFGVIAALGFECVVTRERGVVKIPAQTESESRDQEDDHVYRLLLNSNKLLFLIASYFFFGWGYIIYFTYLIPYLVNQGIPSLYAGLVWSGIGFAGMFNGWIGGKAIDRWPSGYTLASGLTLGTIGACGVITNNMFFTVLGATTIGLVSFITPPLMTTALLRRHVPHHAYAPSLSIATAFFASGQIIGPIVGGLIVEQYGLPFGVASSAIFMAIAAALAAWYGLQQRKLEIRHLPVRG				NA	NA	NA	NA	NA
AK002_03318	1086			hypothetical protein	ATGTCTAATTTGGTCATTACTCGCGGCAATCCGGCGCTTTCTCACTGTGCCTTTACGTTTGATGACGGACCGATGCGGCTTCCTGTTGACGCATGGCTGGATGCTTTGGAGCAGGGAGGCGCGTGCGGAACGTTTTTTTTAACGGGCGAATGGTTTGATCGGTATCCGGCGAAAGCAAGAGAAATGATAGCCAGGGGCCATGAGCTTACCACGCATACCTACCATCACCGCAGAATGGCAGACGTGACCAAAGCCGTATTCTTCGAAGAGTTGAAACGGGCTGAGCTTGCTTATCAAGAAGCAACGGGAAGGCCGGTTCCGACTTTCATGCGGTTTCCTTACGCCTCCTATCGGGATGAGAATTTGGAATGGCTTCGGGAGTGGAACTATCTGGTCATCGAGGGGGTGGATACGGTTGACTGGTCGGGACCGCCAAGCGCGCAGCTTATGGAGCGGGTGATACCTAAGCTGGATAATGGGACGATTTTGATGTTTCATGCCAATGAAATCGCCAAAGAAACGCCGCAGGCCGTAAAATCGCTTGTACACCATGCTCACGCCAAAGGACTTGATATGATCACCGTATCCGATCTGCTTCGTGCCAATGGCATCAGGGCAGGCGAACGCAGCTGGCAAGTCCGCTTCAAACCGACTCTCCCGAACTCTTTCCAAAGTGAGCAATGGAAGAGCGTCGCCGACGAGGATGAATTGCGGAAGCTGGCCGCCGATTCACTTGAATGGGGGAACCCGAAAGCTCCGAGGGGGTCAGGCGCTTACGGCAAATGGCTGCAAGCGCTCTCCATGCAGTCTCCGTCGGACGGTGAAACTCGTTTTGTCGCCCGCAGCTTTGCCGGCCGGCACTGGGCATACGTGCGTGCTTCGACCCGCGGCGGCGCGCTGATACTGGAGGACTTCGCCACGAAGGAAGCGCATGCGGATGCTATAGTCTATATTCTGCAATGGGCGGCTCACGAGGCATCAACCCTAGGCTGCGAATGGATCACCAGCACACAGGACATGCGCCGGATTCACAAGCTGTGCGAACAGATGGGCGTCGAAGCCGAGATTGTATTGCTGGAAGGGTAG	MSNLVITRGNPALSHCAFTFDDGPMRLPVDAWLDALEQGGACGTFFLTGEWFDRYPAKAREMIARGHELTTHTYHHRRMADVTKAVFFEELKRAELAYQEATGRPVPTFMRFPYASYRDENLEWLREWNYLVIEGVDTVDWSGPPSAQLMERVIPKLDNGTILMFHANEIAKETPQAVKSLVHHAHAKGLDMITVSDLLRANGIRAGERSWQVRFKPTLPNSFQSEQWKSVADEDELRKLAADSLEWGNPKAPRGSGAYGKWLQALSMQSPSDGETRFVARSFAGRHWAYVRASTRGGALILEDFATKEAHADAIVYILQWAAHEASTLGCEWITSTQDMRRIHKLCEQMGVEAEIVLLEG	PGPT0018645_1029	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_03319	897	cmpR_2	COG0583	HTH-type transcriptional activator CmpR	ATGGATCTTCGAGCTTTAAAGACCTTTGAGGCTTGCGTGCGTCTTGGACATTTTTTGAAAGCCGCCGAGGAACTCCAATATGCTCCTTCTACGGTAACCCTTCAGATACAGCGTCTCGAAGCGGATCTTGGCGTTTCTTTGTTCGTGCGCGACGGAAAACGCGTGATTGTGACCGAAGCCGGCCGATGGCTCTATCATGAGGCCTCGGCTTTACTGAAATCGGTCGGAACCATGAGGCAGACCGTCTCGGAAATTGCAACGGGAGATAACGGCTCGGTGCGTTTTTCCTCTATCGAGCCAGTCGCAAGCCAGCAGCTAGCGGCCGTGATAGCCCGTTTCTGCAAGACTCGGCCGAAAGTGGAGTTAACCATGGAAGTAGGCGGCAGCAGATCCATTGCGGAGAGGGTTCGAGCCGGCGAGCTCGATTTTGGTGTCTGCTCGGCCCCACCTTCGAAGCTCATGCTGGAGTTTGAGCCGTTGTTCGAAGAAAGATTAGGCGTCATGTTAAATATGAATCACCCATTAGCCGATCGAGATAGCATCACGGCGAGCGACCTCGCAGGGCATACCATTCTAGTGAAAGAACCGACTTGTATCTATCGGGAGCTTTGGGAAACGGCGATTTATGAGGCTGGGGAGAACCTGTTCTCTTGTATGGAGGTTGGAAGCTTCTTTGTCATTCAACATATGGTCAAGGCCGAGCTCGGTATCGGGATTGTTCCGATATACAGCGGTCTGGAACAGGAAGGCTCCTTGGTTATACGACCTATAGCCGATTTGAATCCTGTCATTGCGATAGGCATCGCTTATAAAAACAAAAAAGTCCTAGGAAAGGCAGCTTTATTGTTAATGGAGGCCATTCGGAGCATCCGCGAACCCAAGCCTGCGCTTATATAA	MDLRALKTFEACVRLGHFLKAAEELQYAPSTVTLQIQRLEADLGVSLFVRDGKRVIVTEAGRWLYHEASALLKSVGTMRQTVSEIATGDNGSVRFSSIEPVASQQLAAVIARFCKTRPKVELTMEVGGSRSIAERVRAGELDFGVCSAPPSKLMLEFEPLFEERLGVMLNMNHPLADRDSITASDLAGHTILVKEPTCIYRELWETAIYEAGENLFSCMEVGSFFVIQHMVKAELGIGIVPIYSGLEQEGSLVIRPIADLNPVIAIGIAYKNKKVLGKAALLLMEAIRSIREPKPALI				NA	NA	NA	NA	NA
AK002_03320	717	glpQ_4	COG0584	Glycerophosphodiester phosphodiesterase	ATGAAAAAGCATATTAAAGGCATGGCACACCGGGGGTATCCAAGTAAATACCCTGAAAATACGTTAATATCTTTTCAAGCAGCTTGCGATTTGAATTTCACTCACCTGGAGCTAGATGTTCAATTAAGCAAGGATGGCGTTCCGGTGGTCATCCATGATCCTTCTGTCGATCGTATGACTGACAACGGTGTGGGGCAAGTGAAGGACTTGACGCTGGCCGAGCTGAAGCAGCTGACGATTAACGGGACGGAGCGCATTCCAACCTTCGAAGAAGCGCTCGATTTATTAAAGGACCGGATCATCGTTGATATTGAATTGAAGCAGATGGGAGATCTATACCCGGGGATGGAACAGCTTGTGCTGGATATGGTCAAGAAAAAAGGAATGCAGGAGCAGGTCTTCATCACATCTTTCGACCACTATTGCCTCGAAAGAGTGAGACAGCTTGACGATACAATCGGCCTTGGCTTGATCAACATTGGGGCTTCGCCGGCATTTTTTCCATTTGCCAAAGAAATCCATTGCGGCTACATGTCGATTGAACATCAACATATTACGGAGCCTTTCATCCAACGCTGTGCAGAAGAAGGCATTCAGCTCATCTCCTGGACAGTTAATCAAGAAAGCGACATGAAATTGGCAGCCCAATATCCTTCCTTGCTTATCTGCACGAACGAGCTGGAACTCTGGGCGAAGGTATCCGGCCAGAACGGGTAA	MKKHIKGMAHRGYPSKYPENTLISFQAACDLNFTHLELDVQLSKDGVPVVIHDPSVDRMTDNGVGQVKDLTLAELKQLTINGTERIPTFEEALDLLKDRIIVDIELKQMGDLYPGMEQLVLDMVKKKGMQEQVFITSFDHYCLERVRQLDDTIGLGLINIGASPAFFPFAKEIHCGYMSIEHQHITEPFIQRCAEEGIQLISWTVNQESDMKLAAQYPSLLICTNELELWAKVSGQNG	PGPT0018470_7900	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_03321	483	pchR		HTH-type transcriptional regulator PchR	ATGGATTACCCTGATCGTATCAAGTCCATCATTTATGAACAGCTGCTTCACTTCTCTCATTTGCATGAACAGCGAATGGAGCTGGAACTTAAAGAAATCAAAGAGATGGTCCAGCTTCATCAACTGAAAGGCGTACCTGGAAATTTATCGACCATCCATGTCCTGGATTGCATCGGCCAACATGAACCGATCAATCATTCTGCGATTGCCGAAAAATTAAAATTGTCGAAGGCAAGCATTACCAAGATCACCAAGAAGCTGCTTGCGCTTGACCTTATTCATCGGACCCAGCTTAACGACAATCGCAAAGAGGTCTATTTTCGTCTAACGCCCCTAGGAAAGCAGCTGTTCGAATTGCATCGGGCTTTGCACGAAGCAGAGGAGCGGCGCTTTATGCGATTTTTGGACGATTACTCCGAAAGCGAGCTGCAGACGATATTGAAGTTTTTTCAAGGGATGGCCCGGTATATAAGCGAGAGATAA	MDYPDRIKSIIYEQLLHFSHLHEQRMELELKEIKEMVQLHQLKGVPGNLSTIHVLDCIGQHEPINHSAIAEKLKLSKASITKITKKLLALDLIHRTQLNDNRKEVYFRLTPLGKQLFELHRALHEAEERRFMRFLDDYSESELQTILKFFQGMARYISER				NA	NA	NA	NA	NA
AK002_03322	1032	fbiB		Bifunctional F420 biosynthesis protein FbiB	TTGAATATTCCCCAAACGATAAGAGAACGCAGAACCATCCGGAGATTCAACACAACGACGGTAGCGCCTGAACTGGTCGTATCCTTGTTGAACGATGCGGTCAACCTGTACGAAGACAAAGGTACGCCCCGCTGGCGCTGTCTTTTCGCAGGTACGCCGAAGTCGCGTGATAGATTGGTGGAGAGCATGATGACCAAGATGAAGGAAAACCGATTCGTTAAGCTCATGCCCCCTAAAATGATTGATTTTTTCATCAAACGAGTAACGGATATTCCCGCACACCTGATTTTCATCGCGGAATCCGCCTCCGATCGGCGACAGAGCGACGAAAACTTCGCTGCAGTTTGCAGTGTGATGCAAAATTTTCAGCTGCTTGGCTGGGAACGAGGATTGGGGGCGCTATGGGACACAGACCCCATGTTTCAAAGCGAGTCATTTCTTGCGGAAATCGGTTTGCAGGAAGGTGAAAGGTTTGCCGGGATTTTGCACATTGGATATTTCGATAAAGCGCCGAGAGCTCGAAGAAGAACGCCGGCCGAGCAGAAATGGACCGCCATCGGCGAAGGCCGACAAGCGGAAGGGCTTCGGTCGGAAAGCGGCCGGATTTCAGCGCAAAGCATTCTGGAAGTGCTGAATGACGCTGTCTGGGCCCCGAATGACGGACTAAGAGAACCGTGGCGCTTTATCTATGTGACGGGCAGCGAAGCGGCCGCAAAGCTCTCGAATTCGGAAGGATATACATCATCGGCTTTTCTCCTGATGGTCGCAGAGCATGAAGAGGATCCCCACAAGCAGGAGGAGGATTATGCGGCGATATGCTGTTTGATCCAGAACGTACAACTATTGGTTAAATCCAAGCCGTGGAACGTACGCCGATCGATACCGGAATGGATTTATGACCAGGATCAGTACAAAGGGTTCGGCATTCAGCCGGAGGAGCGGGTTGTAGCAGTGCTGGAGCTAGGAGAAAACGATCGATCGTTGCAATCGGAACCGTCTCCTCCCCCGCTCCTTAACCTGACGCATCTATGA	MNIPQTIRERRTIRRFNTTTVAPELVVSLLNDAVNLYEDKGTPRWRCLFAGTPKSRDRLVESMMTKMKENRFVKLMPPKMIDFFIKRVTDIPAHLIFIAESASDRRQSDENFAAVCSVMQNFQLLGWERGLGALWDTDPMFQSESFLAEIGLQEGERFAGILHIGYFDKAPRARRRTPAEQKWTAIGEGRQAEGLRSESGRISAQSILEVLNDAVWAPNDGLREPWRFIYVTGSEAAAKLSNSEGYTSSAFLLMVAEHEEDPHKQEEDYAAICCLIQNVQLLVKSKPWNVRRSIPEWIYDQDQYKGFGIQPEERVVAVLELGENDRSLQSEPSPPPLLNLTHL				NA	NA	NA	NA	NA
AK002_03323	426			hypothetical protein	ATGAATAAGGTGATCGGTGTAGAAACAAGCATGAAAATAAATACCCGCCCGCTAGGGAAAACGGTTGCTTATTGGTCAGTCACAGGACTGCTCGCAGCAGCTATTATGTTAAGTGGTATCGGACAGTTGATGCAATTTGGGGGAAACCTCGAATTAGTGACGAATCTGGGCTATCCATTATACGTATTGACCATTCTCGGAATATGGAAAGTGCTTGGAGCCATCGCTCTCCTCGTCCCAGGTTTACCTCGACTTAAAGAATGGGTTCACGCCGGCATCTTCTTTTTAATGACGGGCGCGGCATTATCTCATGCATTTGCTAACGATTATGGGGATTACGGGTTTAATCTTATCCTACCGCTTTCTTATGCGGCACTTAATATCGTTTCGTGGGCGCTTCGGCCACCGAAGAACCGCTTATCTTAA	MNKVIGVETSMKINTRPLGKTVAYWSVTGLLAAAIMLSGIGQLMQFGGNLELVTNLGYPLYVLTILGIWKVLGAIALLVPGLPRLKEWVHAGIFFLMTGAALSHAFANDYGDYGFNLILPLSYAALNIVSWALRPPKNRLS				NA	NA	NA	NA	NA
AK002_03324	489			hypothetical protein	GTGTCCAATATCGTTGATTTTAAAAATGTATCTTCAACTGGTTTAGAGTCTTCGCCCGTAGCAGAAGCGCTTGCTGGTTTACGAGCGAATGAAGCCCGTTACTTTATGAACAAGTATAAGCATGCATTTACGGTTGTACCAGCTAGCGAGAGCCAGGAGACCCTGAATTATGTGAACCGAATATTGAAAGAAGAGCGTGATCTTGAGTTTGCGGCCAAACCCTTGGAAACGTCACGTTTTCAAGTGGAAAACATTCAATTTGCCTATGTTTTTTACGAGAATGGTCTTGGGTTAAACGTAATGTATACAGTGGATGATCCTAAGAAGCGAGCCGTTGGTTTTAAGCTTTCGGAGGGGATGGAGGTGCCCGAAGAGTTAGAAGGGAGGTTTAAGTTCGCTAGGCAGAAGTCGAAACTGGCAGGAACGATTCGAGGCTCGTTTTTTGTAATCAAGAGAGATTATGATGAAGAGGTGGAAACCAATGAATAA	MSNIVDFKNVSSTGLESSPVAEALAGLRANEARYFMNKYKHAFTVVPASESQETLNYVNRILKEERDLEFAAKPLETSRFQVENIQFAYVFYENGLGLNVMYTVDDPKKRAVGFKLSEGMEVPEELEGRFKFARQKSKLAGTIRGSFFVIKRDYDEEVETNE				NA	NA	NA	NA	NA
AK002_03325	480			hypothetical protein	ATGACAAATTACATCCTCGAGGAAAAAGACAGCTTTATCGTTTTAGGGATTGGAACTGAGCTTCAGAGCGACTACACCGACTATGCGGGCATTAACAAGGAGAAGGCCGACTTTTGGAAAGCCGTGAAGCAAGACGGAAGGTTGGACACATTAAAGGCCATCGCCGCAAATGACTACATTTTTGCCGTAAACGAAGCGGTGAACAACAAAATGATGTACTACGCCGGCGTCATGACAGAGGAATCGGTGCCCGAAGCAACCCGCGTTATCCAATTTCCTAAAGGGGAATACCTCGTTGTAAAAGGGGAGGGGCAGTCGGCTGATGAATTGAGTCAATTGCTTGCTGGCATCGCCTTTGGTCAAGTATTGCCGGAAGCCAACAATTTCGCGTATGTCGGCGGTCCAAATGCCATGGTGGATATGGGACAGCGAAACGGCCAAATATTAGGCGAAATGTGGATTCCTGTTGTTCGGAAATAA	MTNYILEEKDSFIVLGIGTELQSDYTDYAGINKEKADFWKAVKQDGRLDTLKAIAANDYIFAVNEAVNNKMMYYAGVMTEESVPEATRVIQFPKGEYLVVKGEGQSADELSQLLAGIAFGQVLPEANNFAYVGGPNAMVDMGQRNGQILGEMWIPVVRK				NA	NA	NA	NA	NA
AK002_03326	5898			hypothetical protein	ATGAAGCGAAAATGGATCGCTGGTTTATTGTCCGGCATATTGATTGGCAGCAGCTTGTTTGAGCTTGCGCTTGCAAGCACCCCGGTTTATGCGGCCCCTTCGGGAGCAATGCCGGTGTTGATCTCGGAAGTTTATCCCGATGACCGGTCGAATCAGCAGATGATCGAAGGCGCGGGCGGGGCCGACCTGTTCGAATATGTGGAGGTTTACAATCATTCGGGAGCGCCGATCTCGTTTAATGACGAATTCAACATGCGTTACGACTACAATACGGGCGTGAAGACGTTAACGGTAACGGACACCGTTTACGGCAAGCCGGATGGGGTGGTCATCCCGGCGAACAGCCCGGCCGTGCTCTGGGTGGAACGGACAAGCTCATCCATTACCGGAGCAGCCGCTGCTTTGACGGAATCCGATTTCCGCCGGTATCATTCGGTTCCCGACCATGTACCGGTATTTAAGCTAAGGGGACAGGATGGTCTCAACAATACGGACCGAGGCTTATACATAACCCGAAAAGGCGACGATGCCGCCGTGATCAGCGGCTTCTACTATACTGCCGACGATGTCGGCGACGGCAAGAGCGTGCATCTTCAGCTGCCTCCCGGCGGTTCAGCGATGATTCCTTACGCCAGGGAAGCTGCGCCTTCCGCCGGAATGGTCGACTCGGGTCAGCTATCACCTCTCGACAACCGCGCGCCGGAAATCAATCACATTCCGGTCGGCTCTGCCGAAAGGACACAGCCGCTGACCGTCAGCGCAAGCGTCTATGATGCGGACGGAGATGCGATGGTAGTTAAGCTGTACTACAAAACGGCAGTCAATAGTCCCTACAGCCAGATCGACATGATTGATCGCGGCGGTGATCAATTCGATGCGGTCATTCCGGCCGATCAGTTGACCGGGGATAAGCTGCAGTATTATATCGAGGCAGCGGATGGGCTTCAGCAGTCAAGATCTGTCGATTATGAAACGGCTTTAACTGGAGCCGGTGCAGGCGGGGACGTACCGCGTATTCTGATCACCGAAATTCTTCCGAACCCGGCCGGGGATTACCGGTGGGGAAGCGGCAACCAGTACGAATACGTTGAAATCTACAATAACTCGGATCAGGTTTTGGACCTCAAGGATTACACCCTCTGGTATCTATATCCGGGCACAACTGCGCCTAAGAGCTGGAAGGTACCGGATCATACCTCAATCGAGCCGTACAGCGCAGCCGTTATCTGGTTCGCGAAGGAGGCCGTGGCAAACGGCAAGGGATTTACCACGACGGCGGACTTCAATCTTCATTTTAACAGCACGCTGAACGACAACGATATTATTTTCTACGATAATTCGAAAGCTTCGGATTTCAATCTTCCGAATTCGCTGCATCGCGGGATTGCCTTGTCCGCGCCGGGACAGGCCAATTCGTACATCGTACAGGCCTGGTACGATCCCAGCACTCCGGACAGCCCGGACAGGCTGGTCAACGACGTCCGCAATGCGGTCGTTCGATATGCCTATCCGGATACAGGAACGACCATGAAACGTCTGGATAATCGGATGTACGCCAATCCTGGCAGCATTGATCCCGTCCAGGTGCCGTCTGTTGCAGGCGTCGACATGATTGCCCCGTCGCTGCAGCATGAGCAGACCGCCTATAATTTGGGCCAGGGACAGGCTTATCCGGTTTCCGTGATCAGCGATGAGTCTCTTGCTTCCATCGAAGTGCTGATTGGAGCGGCTACCGAGGAGCCGACAGCGTTTACGGACAAGCATGCGCTGACGCTTGCATCCCAGGAAAACGGCCTTTACGTCTACCAAGGCTCGATTACGCTAAAAGAGATCGGTGTCTATCGGTATATCATTGAAGCTGCCGACGGCAGCGGCAACCGCACTCGGGTTCCATATAACTCCCGGGGCGGCTTGCTAACGGTTAACGAAGAGAATACGGGAACGGAGCTGCCGGAGCCGGGGGTGTCCTTATCAAACGGCAGCATGATTAGCGGAAAGTTTTCCTTCTATGCTTACGGCTCCCGGGCTGAAGACGACATCGAAGTTCGCTTTGACGCCAATCCGTTGCCGCTTCGCAAGGCACTTCCGGATAAGGTACAGCTGGGTATGCAGACCCGGGGGATCGATCAGATTTACCAAGCGTCGGCAAGCGCGCTGGATGCAAGCGCGGAGACGGTATTTTTCAGCCGCATCCTGCCCAAATACATCGACGGCGCCTGGTCGATGTTCGATATGGCTCCTGACCTCTTCGTCACCGGGACAACGGTTTCCGTGCATACCGGAAATGAGAATGCGCCATATCAAGTCAAAGACCATGACAAGGTATTCGGCAAGAACAACCATGATGATTTTGAAGTGATGAATCTACATCTTGTGCTGCCGGACGGTTCGGTGGTCAAACCGGATAAGGTACTGAACTACCTAGGCAACCTTGGGCAATCGACCGTGGATTACCGGGAGGATACGTACTACGGATTCGGCGATGCGGATTACGGCAGCAACCCGAACAAGCCGATGATCAGCGACTTCCACTTTCCGATTCCGGAGGACAAGTTCACGGCAAGATATGCCGAACTCGACACCGCTTCGGTAAAGGACGGGGTATATCCTCTGAACATGTCGATGAACGGTCAAGTCTTCAAGACCATCGACGTGACTGTGGACAACACCGCACCCGAGATTGAAGGGATATCGTATGGGGAAGGGCAATTATTGACTGACGCCCTGCAGCTCAAAGGGCCGTTCATGCTGGATGTGGTCGCTTCAGACAATTTAACAGGCGTAACGGGCATTGCGGCGGAGCTTGATGGCGAGCCAATCACGCTACCTTATGAAACATCTTCCACGCTGCTTGCGCCGGGCGAGCATACTCTGAATGTGACCGTACTCGACGGGGCCGGCAATTCGGCGGAGATCTATCGCACCTTCATGATCGAAGAGGAGAAACCTCTTCTTCCGGGCGAGGTTTCCCCAGCCGATTTCGCGGAGAATGTGGGTTTGAATCCGAGCCTAAGAGCACGACTCAGCGATCCGAGCGGAGATTCGATGGACGTTCGCTTCTTGGAAGGGGATAAATACGACTTTGCCCGAGAAGACGGGATCGAAGGCCATTTCAACGTTGCAGACCGGGAGCCTCCGCTCGTGCTGGCTCCGGACGGAGAGAAAGGGATCGGCAAGGAGGAGGCCGAGAAAATGGCTTACCCGGACGGAGAGTATCTTATCACGGATACGGATTCCGGGTTCCCTTATCATCGATTCGAAATCGAGCTGGACGAAGCATGGTCGGAACAGGATACCGTAGAGATGCACTGGCAAGGGCGCACGCTTCCGGGCCGTATCGTGACACTGTATGCTTGGGATTATGAGACCGGCAAGTGGACGGCACTGAAGTCGGCCACCGGTGACGAAGCCGAATCCGACATCGTCTTGACAGCGGAAGTGGATCCTAGCCGTTACGTGCGAAACGGCAAAATCCAGGCCATGGTCCAAGATGAAGTGAAGAGCGCGAATGCGCCGTTCAACATTTTATGGTTTACGGACACGCAGTATTACGCGGAATCGTACCCGGACATTTTCGATAAGCTGGGCGATTGGATCACGGAAGAATATAAGAAGGGCTTGTTCAGTTATGTCATCCATACCGGCGACATCGTGAACGTGGCCGACGACGAAAAGCAGTGGGCCGTAGCCGACCGCAACTTGAAGAAGCTGGACGAAGCGGGCGTACCGTATGGCGTGCTGGCGGGCAATCACGACGTCATCATTGACGGCGTGGATTACTCCTTCTACGGAAAGTATGTCGGGGCCGACCGGTACAAGAACAACCCATGGTATGGCGGTGAAATGGATAACAACCGCAACCATTACGACCTCGTATCGTTCGGAGGCCACGACTTTATTTTCCTCTATATCGGTTTTGGACTGGAGGATACGCCGGAAACGATCGCTTGGGCCAACGAGGTGCTGAAGAAGCATGCGGACCGCATCGCCATCGTGGGCATGCACGCATATCTGGAAAGCAACGGCACCCTATCCAATATGGCGCAGCGCGTTTTTGACCAGGTCATTGCGCCGAACAAAAACGTGCAGCTGGTGCTAAGCGGACATTATCATGCTGCCAACCGGGTCGTGAAAACGGTGACGCATCCGGACGGATCTACAAGACAGGTCATCGAAATGCTGGCGGATTATCAGGGAGGGCCGAACGGAGGAAACGGTTATCTTCGTCTGTTGAAATTCGATCCAACCTCCGGCACGCTGGACGTGGATACGTATTCGCCTTACTTGGACGATTATAATTTCTTTGACGAAGCCATTGAGGATTTTACGGAGCCGTTTGCGTTCAGGGATATTCAAAAACGGGTGGCAACCGATTATTTTGCGGTCAACGTGTACAAAGATACGCTGATCGGCGAGCAAAAAGACGTGAAGTCCGGAGAAATTGCTTCTGCCGTATGGAATGGACGAGAAGCCGATGAGACGTATTATTGGTATATGGATATTACCGATGAATTCGGCGCAAGGCAGCTTAGTCCAATCTATCGTTTTACGACCTCAAAGAAATCCTCTCCTCCAGGTGGCGGCAATAACGGCGGCGGAAACAATGGGGGTGGCGGCCATAACGGAAACAACGGAAACAACGGCAATAACGGAGGCGGCAGCAATCAAACGGGCCCTAGCAAGCCAGGCGGCACACCGCCGACCACTGGAGCTTCCAGACCGGGAACGATTACGGCGGAAGTCGCGATAAACGGTCAGAAGGCTCAGGCAGCCATCAGCGAAATGGAGCTCAGCGAAGCCTTCGAAAGCGTAACAGCAGATGGGCGGGGAATTAAGACGGTCACGATTCAACTGGACGAAAGCGCACGAACGTTCAACGGCGAAATCGTCATCCAGGTACCGTCAGCGTACTTGAACCGGAACCACGCGCGGGAACGGATCGAAATCGTTACCCCGCAGGCAACCGTGACGGTGCCTTCCAATATGCTGAACAATCTGAAGGAAGCAGGGCAGTTCACGGGCCTCGTGATTCGTCCGGGCAATCAAGGCGGGCTTTCCGGGGACCGACTTACCGGAATTGGGAACAGACCGATCGTCGAGCTGCTACTGCAGATCGATGGCAAGACGGTAAAGTGGCCGGGAAGCAGCACACCTGTAAAGGTATCGCTCCATTATGAGGCCAAGGCTGAGGAACGATTGGATCAGCTAGTCGCGTGGGAACTGGATACAATGGGATCCGTATCAACTATCCTAAACGGTTATTACAATGCAGAGCTTCGCACCCTGAATTTCGATACAAGCAAACTTGGCATGTATGCGATCGCATATAAGCAAGTATCTTACCGGGACGTGGACCCCAGCAGCTGGTATGCAGACGCCGTTCATTACCTCTCTGCCAGAGACGTTGTAAAAGGTGCAGGCGGAGGGCGATATCTTCCGCAGGAGAAGATCAGCCGGGCCGATTTCCTGGTCATGGCCATGAATGCCTTCGGCTTCAAACCAGGGAAAACGGATGATGCCATGAATTTTGCCGATGCGGGGAGCAGGTATTATACGCCGTATTTGTCCGCTGCGAAGCAGCTGGGACTGGTCCGTGGAACGGGAGATAACCGGTTTAGACCGGAGGACTCGATCACGCGTCAGGATATGGTCGTCATGCTCCATGCGATGATGGAAGCGGCCGGAAGCGAGTTGCCGGGCGGAGGAGACGGCACGGATCGTTATTCCGATGCGAAGGACGTATCCGGTTATGCGCGAGAAGCGATGGACTTCATGCTTGAAGCCGCATTGATTCAAGGCACAGGCAGCGGCAAGCTGTCTCCAAAGGCCGTTACCAATCGGGCAATGGCAGCCGAGCTGATGTACAATTATCTGGCCAAAAGCCGGGAAGCCTCATAA	MKRKWIAGLLSGILIGSSLFELALASTPVYAAPSGAMPVLISEVYPDDRSNQQMIEGAGGADLFEYVEVYNHSGAPISFNDEFNMRYDYNTGVKTLTVTDTVYGKPDGVVIPANSPAVLWVERTSSSITGAAAALTESDFRRYHSVPDHVPVFKLRGQDGLNNTDRGLYITRKGDDAAVISGFYYTADDVGDGKSVHLQLPPGGSAMIPYAREAAPSAGMVDSGQLSPLDNRAPEINHIPVGSAERTQPLTVSASVYDADGDAMVVKLYYKTAVNSPYSQIDMIDRGGDQFDAVIPADQLTGDKLQYYIEAADGLQQSRSVDYETALTGAGAGGDVPRILITEILPNPAGDYRWGSGNQYEYVEIYNNSDQVLDLKDYTLWYLYPGTTAPKSWKVPDHTSIEPYSAAVIWFAKEAVANGKGFTTTADFNLHFNSTLNDNDIIFYDNSKASDFNLPNSLHRGIALSAPGQANSYIVQAWYDPSTPDSPDRLVNDVRNAVVRYAYPDTGTTMKRLDNRMYANPGSIDPVQVPSVAGVDMIAPSLQHEQTAYNLGQGQAYPVSVISDESLASIEVLIGAATEEPTAFTDKHALTLASQENGLYVYQGSITLKEIGVYRYIIEAADGSGNRTRVPYNSRGGLLTVNEENTGTELPEPGVSLSNGSMISGKFSFYAYGSRAEDDIEVRFDANPLPLRKALPDKVQLGMQTRGIDQIYQASASALDASAETVFFSRILPKYIDGAWSMFDMAPDLFVTGTTVSVHTGNENAPYQVKDHDKVFGKNNHDDFEVMNLHLVLPDGSVVKPDKVLNYLGNLGQSTVDYREDTYYGFGDADYGSNPNKPMISDFHFPIPEDKFTARYAELDTASVKDGVYPLNMSMNGQVFKTIDVTVDNTAPEIEGISYGEGQLLTDALQLKGPFMLDVVASDNLTGVTGIAAELDGEPITLPYETSSTLLAPGEHTLNVTVLDGAGNSAEIYRTFMIEEEKPLLPGEVSPADFAENVGLNPSLRARLSDPSGDSMDVRFLEGDKYDFAREDGIEGHFNVADREPPLVLAPDGEKGIGKEEAEKMAYPDGEYLITDTDSGFPYHRFEIELDEAWSEQDTVEMHWQGRTLPGRIVTLYAWDYETGKWTALKSATGDEAESDIVLTAEVDPSRYVRNGKIQAMVQDEVKSANAPFNILWFTDTQYYAESYPDIFDKLGDWITEEYKKGLFSYVIHTGDIVNVADDEKQWAVADRNLKKLDEAGVPYGVLAGNHDVIIDGVDYSFYGKYVGADRYKNNPWYGGEMDNNRNHYDLVSFGGHDFIFLYIGFGLEDTPETIAWANEVLKKHADRIAIVGMHAYLESNGTLSNMAQRVFDQVIAPNKNVQLVLSGHYHAANRVVKTVTHPDGSTRQVIEMLADYQGGPNGGNGYLRLLKFDPTSGTLDVDTYSPYLDDYNFFDEAIEDFTEPFAFRDIQKRVATDYFAVNVYKDTLIGEQKDVKSGEIASAVWNGREADETYYWYMDITDEFGARQLSPIYRFTTSKKSSPPGGGNNGGGNNGGGGHNGNNGNNGNNGGGSNQTGPSKPGGTPPTTGASRPGTITAEVAINGQKAQAAISEMELSEAFESVTADGRGIKTVTIQLDESARTFNGEIVIQVPSAYLNRNHARERIEIVTPQATVTVPSNMLNNLKEAGQFTGLVIRPGNQGGLSGDRLTGIGNRPIVELLLQIDGKTVKWPGSSTPVKVSLHYEAKAEERLDQLVAWELDTMGSVSTILNGYYNAELRTLNFDTSKLGMYAIAYKQVSYRDVDPSSWYADAVHYLSARDVVKGAGGGRYLPQEKISRADFLVMAMNAFGFKPGKTDDAMNFADAGSRYYTPYLSAAKQLGLVRGTGDNRFRPEDSITRQDMVVMLHAMMEAAGSELPGGGDGTDRYSDAKDVSGYAREAMDFMLEAALIQGTGSGKLSPKAVTNRAMAAELMYNYLAKSREAS				NA	NA	NA	NA	NA
AK002_03327	1269	codA	COG0402	Cytosine deaminase	ATGATTATACAGAACGCAAAATTGCGGGGTAAAGAAGGTTTGTGGAATATCGTCGTGAAAGACGGTAAGTTTGAGCTAATCACGCAGTCGCTGGAAGCAACGGCGAATGAGGAAGTCATTGACGTGGGCGGCTCGCTTGTGCTGCCGCCGTTCATTGAACCTCATATTCATCTGGATACAACGTTAACGGCAGGCGAGCCGGAATGGAATTTAAGCGGAACGCTGTTCGAAGGCATTCAGCGTTGGTCTGAACGCAAGGCATTCCTTACGCATGAAGACGTCAAAACGCGCTCCAAAACGGCACTGAAGTGGCAGATGGCACAAGGCATCCAGCATGTTCGGACGCATGTGGATGTCACAGATCCAAGCTTGACTGCGGTAAAAGCGATGCTTGAAGTGAAAGAAGAAATGGCACCCTACATCGATATTCAGCTTGTCGCTTTTCCGCAGGAAGGCATTCACTCCTACCCGAACGGCGCGGAATTGCTGGAGGAGTCGCTGAAAATGGGCGTTGACGTGGTTGGGGGCATTCCGCACTTCGAATTCACGAGGGAATATGGCGTTGAATCGATGAAGGTTGCGTTTGACCTCGCTGAAAAATACGACCGTCTCATCGACATCCATTGCGACGAGATTGATGACGAGCAATCCCGTTTCGTGGAAGTCGTCGCCAAAGAAGCCTACGAACGCGGGCTGGGCTCTCGCACCACGGCAAGCCACACGACGGCGATGGGCTCGTACAATGATGCATATACCTACAAATTGTTCAGATTGCTGAAGATGGCGGACCTTAATTTCGTCTCCAATCCTTTGGTCAACATTCACCTGCAGGGACGATTTGACACGTATCCGAAAAGAAGAGGCCTGACTCGCGTGAAAGAGCTGCAGGAAGCTGGTCTTAATGTGTGCTTCGGTCACGATGATATCTTTGATCCATGGTATCCGCTAGGCACGGGCAACATGCTGCAGGTGCTGCACATGGGCATCCATGCTTCCCAGTTGCTCGGTTACGATCAAATCGTGAATTCGATCGATCTCATTACGAAAAACAGTGCAAGAACGCTGCATATCGAGGACGTGTACGGTATTGAAGAAGGCAAGCCTGCGAACTTCATCGTTCTTGAAGCCGAGAACGAATATGAGGCTATACGCAAACAGGCCGGGGTGCTCTACTCGTTCAGAGGCGGCCGCAAAATCGCCGAAACGAAACCGCGGGACACGTCAATCATTCTTGAGGGCGGTTCGGAGAAGGTCACTTTTAATAAATGA	MIIQNAKLRGKEGLWNIVVKDGKFELITQSLEATANEEVIDVGGSLVLPPFIEPHIHLDTTLTAGEPEWNLSGTLFEGIQRWSERKAFLTHEDVKTRSKTALKWQMAQGIQHVRTHVDVTDPSLTAVKAMLEVKEEMAPYIDIQLVAFPQEGIHSYPNGAELLEESLKMGVDVVGGIPHFEFTREYGVESMKVAFDLAEKYDRLIDIHCDEIDDEQSRFVEVVAKEAYERGLGSRTTASHTTAMGSYNDAYTYKLFRLLKMADLNFVSNPLVNIHLQGRFDTYPKRRGLTRVKELQEAGLNVCFGHDDIFDPWYPLGTGNMLQVLHMGIHASQLLGYDQIVNSIDLITKNSARTLHIEDVYGIEEGKPANFIVLEAENEYEAIRKQAGVLYSFRGGRKIAETKPRDTSIILEGGSEKVTFNK	PGPT0021315_1080	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
AK002_03328	1278	codB_2	COG1457	Cytosine permease	ATGAGCAAACAAGATCAAGAGTTTTCGTGGCAAGCGGTACCGAAAACGCAAAGAAACCATTTTTGGAAGACGTTATCCGTCATGTTAGGGTTTACTTTCTTTTCGGCAAGCATGCTGGCAGGGGGGACATTGGGCGTCGGCTTGACGTTCATGGAGTTTATTGGAATCGTCCTTGCGGGTAATTTGGCACTCGGTATCTACACAGGAGCGCTGGCACATATCGCTGCAAAAACGGGCCTTTCCACGCATTTGCTGGCAAAATACGCGTTCGGTGAGAAAGGGTCGTACCTGCCATCATTCCTGCTTGGCTTCACGCAGGTCGGATGGTTCGGCGTCGGCGTGGCCATGTTCGCAATTCCGGTTGCCAAAGCGATGGATTGGAACGTGTATCTGTTGATCTTCCTGTTTGGTCTCGCCATGACGGCATCGGCCATCTTCGGCATGAAGTCCCTGGTCATTCTGGGTTATATCGCGGTTCCGGCCATTACCATTCTCGGCAGTTACTCCATGTTCAAAGGCGCGGATATGCTGGGCGGTCTGCAAGGCTTGCTCGATTACACGCCTGAACAGACGCTCACCGCGGCAGCGGCACTGACCATTTGTATCGGCTCATTCATTAGCGGTGGAACCTTGACGCCCGATTTTGCACGGTTCTCCCGGACATCGAGGCAGGCGGTTACCGCCACGGTCATTGCGTTCTTCCTGGGGAATTCGCTCATGTTCCTGTTCGGTGCGGTTGGCGCCATGGCTTATAACCTGGCAGATATCTCGGAGGTCATGTTCCTGCAAGGACTGATCATTCCCGCGATCATCGTACTGGGGCTGAATATTTGGACGACCAATGATAACGCTCTTTACGCTTCCGGACTGGGATTTGCCAATATCACCAAAATATCGAAAAAATTCTTCGTAATCGTAAACGGCATCGTGGGTACCGTATTGGCCATGTGGATGTACAACAATTTCGTCGGTTTCCTTAATGTGCTGGGCGCGGCGGTACCGTCCATCGGAGCCATCATCATCGCGGACTACTTTTTTGTGAAGCGCAGAAACTATAAGCCGTTTGCCGACATGACTTTCAAGAAGGTAAACTGGATAGCGATGCTGGCTTGGGCTATTGGCGTGGCGTTCGCCCAGCTTGCTCCAGGCATAACGCCATTGAACGCACTAATCGGTACGGCGGTGGCCTACATTGTGTTGATGCTGATCGCTTCTGCGAAAGAATCCAAAGAAAAGGGGAAAAACAATGATTATACAGAACGCAAAATTGCGGGGTAA	MSKQDQEFSWQAVPKTQRNHFWKTLSVMLGFTFFSASMLAGGTLGVGLTFMEFIGIVLAGNLALGIYTGALAHIAAKTGLSTHLLAKYAFGEKGSYLPSFLLGFTQVGWFGVGVAMFAIPVAKAMDWNVYLLIFLFGLAMTASAIFGMKSLVILGYIAVPAITILGSYSMFKGADMLGGLQGLLDYTPEQTLTAAAALTICIGSFISGGTLTPDFARFSRTSRQAVTATVIAFFLGNSLMFLFGAVGAMAYNLADISEVMFLQGLIIPAIIVLGLNIWTTNDNALYASGLGFANITKISKKFFVIVNGIVGTVLAMWMYNNFVGFLNVLGAAVPSIGAIIIADYFFVKRRNYKPFADMTFKKVNWIAMLAWAIGVAFAQLAPGITPLNALIGTAVAYIVLMLIASAKESKEKGKNNDYTERKIAG				NA	NA	NA	NA	NA
AK002_03330	486			hypothetical protein	ATGCAGCTTGCAATGGGCGGGCTACGGAAAATATACGATATCGAATTTACGGCCGCTTGCCTGCAGTCAAAGCTTGATGATAAAGACCACGGGAAGGGACGAATGAAACGGGTAACAATCGGTATTGGATTTATGATCATTGTAGTTTTATCCGTATTGCTGGCTGTGGGCCTACCTGGAGGGGGAATTGGATTTGCAGTTATTTCGCAGCTTTTCACTGGGTTTGGCATCGGTCTGGCACATCCAACCACCGGAGACATTGCGCTGCAGCACGCAAAAGCAGGGGAAGAGGGGGAAATATCCGCCAGTCTTCAATTTACAGATGCCTTTAGTCCTGGCTTGAGTATTGGAATCGGCGGAGCCCTCGTTGCGATTAGTCAGTCGCTGAATTTGGGTATATTAACGGGGATCTTATTGGCTTTGTCCCACCAATTTATCTTCGTGCTCTTGAGTTTTACGATATCCTTCCGCATCAAAGATACTTAA	MQLAMGGLRKIYDIEFTAACLQSKLDDKDHGKGRMKRVTIGIGFMIIVVLSVLLAVGLPGGGIGFAVISQLFTGFGIGLAHPTTGDIALQHAKAGEEGEISASLQFTDAFSPGLSIGIGGALVAISQSLNLGILTGILLALSHQFIFVLLSFTISFRIKDT				NA	NA	NA	NA	NA
AK002_03331	264			hypothetical protein	GTGAGATATATTAATGCTTCTGTCGTCTTGCCGGAAGAACTAGTTGAACAATTACAGGAATATGTCCAAGGCGAATACCTCTATATACCAGCCGGAAAAAATGAATTTAAAGTCTGGGGAGAGCTGTCGGGCGCACGAAAAGAGATTAACCAAAGAAATGATGCTATTGTGGATGCGTATTTATCTGGCGCTTCAGTCGAGGAACTGTCAGAATCATTCTTTTTATCCACCTATGCTATCAGAAAAATAATTTATCAGAAATAA	MRYINASVVLPEELVEQLQEYVQGEYLYIPAGKNEFKVWGELSGARKEINQRNDAIVDAYLSGASVEELSESFFLSTYAIRKIIYQK				NA	NA	NA	NA	NA
AK002_03332	1041	cfr		Ribosomal RNA large subunit methyltransferase Cfr	ATGAAGCATTTATCTAAGTATGAAAAAATACGTAAGATCTTATCGGCTCTAAATCAACCGAATTATAGATATTCGCAAATAACAGAGTCAATCTTCAAGAACAAGATCGGAAATTTCGAAGCAATGAACAATTTGCCTAAGCCTTTAAGAAATGAATTAATCAAAGAGCTTGGAAACAATGTGTTAAGCATCACACCAAAAATGGAGCAGAAATCCAACCAAGTAAGCAAAATTCTGTTTGCTGTCCCAGGCGATGAATACATTGAATCCGTAAGGTTAAGTTATCAAACGGGCTGGGAATCCTATTGTATCTCTTCGCAGTGCGGTTGCGGATTTGGTTGTACATTTTGCGCTACGGGAACACTCGGTTTGAAGAGGAATCTCACAACGGATGAAATAACGGATCAACTGCTTTATTTTACTTTGAATAACCATCCCTTGGACAGTGTGTCTTTTATGGGGATGGGTGAGGCACTTGCAAATCCGTATGTATTTGATGCTTTGCATGTGCTGACGGATCCTAAACTTTTCGGTTTAGGACATCGAAGAATTACGGTTTCTACCATAGGTTTAATACCTGGAGTAAAAAAGTTGACGAAGGAATTTCCACAGATTAATTTAACGTTCTCGCTTCATTCACCATTTCATGATCAGAGAAGCGAGTTAATGCCCATTAACAATCATTTTCCATTAGAAGAAGTTATGACCGTGTTGGACGAGCATATTCAGCAAACAAAACGAAAGGTTTACATTGCTTATATCCTGCTAAGGGGTATCAACGATTCAACTAAACATGCTGAAGCCGTTGCTGATTTGTTGCGTGGAAGAGGGCCATGGGAACATTTATATCACGTCAATCTAATTCCATACAATTCCACTGATGCCACATCACAAAGTTTTGTAGAGTCGGATCAGAACAGCATCAATATGTTCCTTAGAATCTTGAAGTCAAAGGGAATCCATGTCACCGTGAGGACCCAATTCGGATCGGACATCAACGCAGCATGCGGCCAACTATATGGATCAAACGGTAACATTTAA	MKHLSKYEKIRKILSALNQPNYRYSQITESIFKNKIGNFEAMNNLPKPLRNELIKELGNNVLSITPKMEQKSNQVSKILFAVPGDEYIESVRLSYQTGWESYCISSQCGCGFGCTFCATGTLGLKRNLTTDEITDQLLYFTLNNHPLDSVSFMGMGEALANPYVFDALHVLTDPKLFGLGHRRITVSTIGLIPGVKKLTKEFPQINLTFSLHSPFHDQRSELMPINNHFPLEEVMTVLDEHIQQTKRKVYIAYILLRGINDSTKHAEAVADLLRGRGPWEHLYHVNLIPYNSTDATSQSFVESDQNSINMFLRILKSKGIHVTVRTQFGSDINAACGQLYGSNGNI	PGPT0027930_27	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-PHENICOL_RESISTANCE,PGPT0027930-cfr-K15632	NA	NA
AK002_03333	492			hypothetical protein	TTGAAGAGTTTTGTGAAAAATTCTGGCCGCATCACTATGATGTTGTTCATTGCATGTAGTGTCGGTTGCAGCGCAAGTGAACAAAGCAATCCACGCACCCCAGAAGAGATAGCAACAAAGGAAGCTGTTGAGTCCATGAATATGAACCCCCAGGCTGATTCAGGAACCGAAGAATTAAGCCAAGCTGGAGAACGGTATGGGTCTAATATTATGTACTCCATTAAGATGTATCTCGAAAGACCGGAAGTTTCTCAAGCATTTCGCAATCAACTTGCCGAAACGATAGAGCTTGGATATGACTTGTATCGAAAGAAGGACATTCCGGAGTTCGAATCTTTGGTAGTCCATATAAAAAATGATAATCGATCAGAGGTAAAGGAGATATATGAGAAACTTATAACGATTTACCCTCTACCCACCAGAACAATCAAAGGCGCAAGCTTCAACAGCACTAACGATGAAACAGTAAAGGCCGTTGAATCCTATTTTTGA	MKSFVKNSGRITMMLFIACSVGCSASEQSNPRTPEEIATKEAVESMNMNPQADSGTEELSQAGERYGSNIMYSIKMYLERPEVSQAFRNQLAETIELGYDLYRKKDIPEFESLVVHIKNDNRSEVKEIYEKLITIYPLPTRTIKGASFNSTNDETVKAVESYF				NA	NA	NA	NA	NA
AK002_03334	438			hypothetical protein	TTGCCTAAGCACATAAAGATCTACGCACCAATACTTATTATTATCATCTTTATAAACGTTGCGGTGTACAGGCATTTGGAAAACCAGGCATCTGTTAGATACAACAGCCTCCATTCCCTGTATCAGCTGAAGAACGACTCGGCATTTGCCTATTTAGTGAAGCACGCTTCTGAAACGATTCCGCTTGCTGATACGCTGATGGCGATTTGCGAGTCGAAGGAAAATGAAGATCCTGCCAAGATACGGCAATGGATCGATAAGGCGAAGATCCAAGCGGAGGAAATCGATGAGCAGCTATTAATGATCATTGAATTTAGCGATACCTTCCCAAACAACGCGGTTCCCAAGCTTTCAGTTAATAATACGGCAATGACAACGGATACCCAGGAGGACCTGTTTATTCTCGCTTTTCAGGCAAGGACATGGCGACCGTTATAA	MPKHIKIYAPILIIIIFINVAVYRHLENQASVRYNSLHSLYQLKNDSAFAYLVKHASETIPLADTLMAICESKENEDPAKIRQWIDKAKIQAEEIDEQLLMIIEFSDTFPNNAVPKLSVNNTAMTTDTQEDLFILAFQARTWRPL				NA	NA	NA	NA	NA
AK002_03335	1008			hypothetical protein	GTGAAGCAGCTTCCATTAACGGACGAGTGGTTTCACGGTGCCGTGTCGCTCGAACACCGGGAGGATGGTATCAAGCCATGGCGGATTCCTTACATGGATTACGAGCTGTACCCGCCTGCGGGAATCGATGGCAAAGCCGAGATATGTGCCGGTATTCGCCTGCGGCTGCGGACGGATTCCACCGAGGTGGCAGTCTCTTTTGCCTCGCTTGCGGACGCCGCCGCCATGGATTGCGTTGTAGGAGGTAGACTATGCCAGACGCTCAGCCTGCCCGGCGGAGCAGTAGAAGCCTTGTTCAGCGGACTTGAGGACGGGATCAAGGATGTGGAAATTTGGCTCCCTCAAAATATAGGAATGACCTTAACCGGCCTGCGGATTGGGGCTCAAGCTATCGGAGTCCCGCTGCCGGACACCCGGCCCCGCTGGATTACGTACGGGAGCTCCATTACACAGTGCGTCGGGGCTTCCAGCCCTTCCCGCGCTTGGCCTGCCATTGCCGCCGAAGCCTGCGGCTTCAGCTTGACCAATCTCGGCTTCTCGGGCAACTGCCACATGGAACCGATGATCGGGCGTCTGATTCGCGACTTGCCGGCCGATTTTATCTCGATATGTGCAGGCGTGAACATCTATGGCGGGGGCACCATAAGTCCACGTATGTTCAAGCCGCTGCTGATTGGACTGCTGGAGACGATACGCGACAAACACAGGGATATCCCGCTGCTTGTCATTTCTCCGATTTATGGCACCGTCCGCGAAACGCAGCTCAATTCGTTGGGTTTCACCCTGCCCATCATGCGGGAATTCATCCGCGAGACCGTGGAGCTGCTAAGGGCTCGAGGCGATCGCCAGTTGTTCTATCAGGATGGCTTGAACTGGTTCGGTCCGGAGGATGAAGCCTTTCTGACGGATGGTCTGCACCCTGGAGCCGAGGGGTATGAGCTGCTGGGCCGGCGTTTCCGTGATCTTCATGAAATTGCGTTACGGGCTGTACATCGAAACGCGGAGTGA	MKQLPLTDEWFHGAVSLEHREDGIKPWRIPYMDYELYPPAGIDGKAEICAGIRLRLRTDSTEVAVSFASLADAAAMDCVVGGRLCQTLSLPGGAVEALFSGLEDGIKDVEIWLPQNIGMTLTGLRIGAQAIGVPLPDTRPRWITYGSSITQCVGASSPSRAWPAIAAEACGFSLTNLGFSGNCHMEPMIGRLIRDLPADFISICAGVNIYGGGTISPRMFKPLLIGLLETIRDKHRDIPLLVISPIYGTVRETQLNSLGFTLPIMREFIRETVELLRARGDRQLFYQDGLNWFGPEDEAFLTDGLHPGAEGYELLGRRFRDLHEIALRAVHRNAE				NA	NA	NA	NA	NA
AK002_03336	1377			hypothetical protein	ATGAAAGGACATATTACGTTGCCATCCGCCAGCATTCCGGTTGCCCGCGAGGTGGATGTGCTTGTCATCGGCGGAGGTGCTTCCGGCATCGCCGCCGCCATTGCCGCTGCGAAAGGGGGGGCGCAAACGATGCTGGTGGAGCAGCGAGGGTTCCTTGGCGGCATGGGCACGGTTGCGCTCGTTCCGGCTTTTTGTCCCTTTACGGATAAGCGGAAGCCGATTATCCGCGGTCTCGGCCTTCAATTGATGGAACGGATGAAGCAGGCATGCGATCCTCAGTACCGCGAGGAATATCAAGAGATGCTGGATTGGGTGCCGATCGATCCCGAAGTGCTGAAGCGGGTTTATGATGATGCCATTCTGGAAAGCGGTGTGACGCCGCTGTATCACACCTTTGTTTACGATGTTGTCCGGTCTGAGGACCGCCGGAAGGTTGAAGGTGTCGTTGTCGTTAACAAAACCGGACGGTCTTTCATCCCCTGCAGGTATATTATCGATTGCTCGGGAGATGGGGATATTGCCGCACTGGCGGGAGCTCCTTTTCAGAAGGGCGGGGAAGCGGGCGAGCTTCAGCCCGGCAGCATGTGCTATTTGCTTGCGAATGTAGACCGTCCAAGGTTCAAACAGTACTTGGAGGAGAGCGGGGATACGGGCCAACTGCACAAGACGGTGGAGCTGGCGATCGAGGACGGCGCGCTGCCGGAGGGCCGCAAGTCGATCTCCGGCCTTGCTTGGGTCAGCGACTATTTGGTTGGCGTCAACTTCGGCCATGTATTCGGCGTTGATGGCACCCTTGCCGAGGATTTGACGCGGGGGGCGATTGAAGGGCGCCGCACGGCGGAACGCCAGCTGCAGTTCTTCCGCCGCTACGTGCCGGGCTTTGAGCACGCCCATATGGTAGCGAGCGGGGAGCAGCTCGGGATCCGGGAGACGCGACGGATCGAAGGGGACTATATCCTGACGGTCGATGACTTCCTGGCTGCGCGCTCCTTCCCGGATGACATTGCCCGCAACGCGTACTACATCGATATTCATCTCGCCAACAGCAAAAGCGAGATGACCTTTAATCACCTTCCGCCAGGGGTTTCACACGGCGTACCGTACCGGATCATGCTGCCGGTTGGCATCGACAACCTTTGGGTTGCCGGACGCTGCGTATCCTCGGACCGAGCAGTGCAAGGCTCCCTTCGGGTGATGCCGAACTGCTTCTCCATGGGTCAGGCCTCGGGAACGGCGGCTGCATTGGCGCTGCGGGACGGTACCGGCTCGCGCGGCATTTCCGTAGCCGAGCTTCAGCAGCGGCTGCTGGAGCAGGATGTATGGCTGGGAGAAGATTTCATTCCGGCTGATAAGCAGAAGGAAGGGAATGCGCCGTGA	MKGHITLPSASIPVAREVDVLVIGGGASGIAAAIAAAKGGAQTMLVEQRGFLGGMGTVALVPAFCPFTDKRKPIIRGLGLQLMERMKQACDPQYREEYQEMLDWVPIDPEVLKRVYDDAILESGVTPLYHTFVYDVVRSEDRRKVEGVVVVNKTGRSFIPCRYIIDCSGDGDIAALAGAPFQKGGEAGELQPGSMCYLLANVDRPRFKQYLEESGDTGQLHKTVELAIEDGALPEGRKSISGLAWVSDYLVGVNFGHVFGVDGTLAEDLTRGAIEGRRTAERQLQFFRRYVPGFEHAHMVASGEQLGIRETRRIEGDYILTVDDFLAARSFPDDIARNAYYIDIHLANSKSEMTFNHLPPGVSHGVPYRIMLPVGIDNLWVAGRCVSSDRAVQGSLRVMPNCFSMGQASGTAAALALRDGTGSRGISVAELQQRLLEQDVWLGEDFIPADKQKEGNAP				NA	NA	NA	NA	NA
AK002_03337	1014		COG2152	1,4-beta-mannosyl-N-acetylglucosamine phosphorylase	ATGAGAGATTCAATCGTGGGACCTTTGTTTTCCAGCCCGATCATGACCCGGCATGCCGCGAATCCGATTCTGACTCCGGGTGATGTGCCCTACGGTCCGGCGATGGTCTTTAATGCCGGAGTTGCCAAATTCAAAGGCAAATATGTGATGGTTTTTCGCAATGACTACGGTGATGAACTTAAAGGGATTGTTGCTCCTCATCATACGACGAATCTTGGTCTGGCCTTCAGCGATGACGGCATAAGGTGGGATGTGCAGCCTAAGCCGTGCTGGTCTTGGCATGATGAAGAGATCATCCGCGTGTATGACCCGCGTCTAACGGTAATCGGCGAACAATGTTATATGTGCTTTGCGGTCGATACCAAGCACGGGCTGCGCGGCGGCATCGCCGTCACCGAGGATTTCCGATCCTTCGAGGTGCTGAGCCTGTCGCTGCCGGACAACCGCAACATGGTATTGTTCCCGGAACGGATCGGGGGCAAGTACGTCCGGCTGGAGCGTCCGATGCCTGTATACAGCCGGGGCGGGATAGACCGCTTCGACATGTGGATGAGCGACTCGCCTGACCTGAAATACTGGGGAAACTCCAAGCTGCTGCTGGCGGTTGAAGATGTAGCTTATGCCAATGACAAGGTTGGCCCCGGCGCTCCGCCCGTCAAAACGGACAAAGGCTGGCTGACCCTGTTCCATGCCGTGGACATCGATCCCAGCAGGGGCAAGAACGGCTGGGAGGACAGCTGGAAGAAGCGCTATACGACCGGTATTTTACTGCTGGATCTTGCCGATCCCAGCCGGATCATCGGCAGGGCGGAGACGCCGCTGCTTGCCCCGGAAGCCGATTACGAGACCGATGGGGGCTTCCGCAATCATGTTATTTTTCCGGGAGGCATGATTCTGGAAGAAACCGGGGAAGTCAAAATCTACTACGGCGCCGCCGATACCGTAGAATGCCTGGCAACTGCGCATGTAGACGATTTGCTGGATCTCTGTCTGAAAGGCACAGTCCATAAGTAA	MRDSIVGPLFSSPIMTRHAANPILTPGDVPYGPAMVFNAGVAKFKGKYVMVFRNDYGDELKGIVAPHHTTNLGLAFSDDGIRWDVQPKPCWSWHDEEIIRVYDPRLTVIGEQCYMCFAVDTKHGLRGGIAVTEDFRSFEVLSLSLPDNRNMVLFPERIGGKYVRLERPMPVYSRGGIDRFDMWMSDSPDLKYWGNSKLLLAVEDVAYANDKVGPGAPPVKTDKGWLTLFHAVDIDPSRGKNGWEDSWKKRYTTGILLLDLADPSRIIGRAETPLLAPEADYETDGGFRNHVIFPGGMILEETGEVKIYYGAADTVECLATAHVDDLLDLCLKGTVHK	PGPT0018740_80	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
AK002_03338	903			hypothetical protein	ATGAACGAACAGGTATTCCCCCAACAGCCGGATGCGCGCGGCAAAAACGCCGCCCGCCCGCCTTCCGGTCACACAGGCAGAATTGTGGGCCGTACGGTGATGTGGCTGTTCTTATTGATAACGGCGATACTGACATTGTTTCCCCTGTTGATGACATTGTCCGGTTCGCTCAAGACCGGCGCCGAAATGATGACCGGTGGCAGCCTGCTGCCGGCCAAGCTGCAGTTCGTCAACTATGCCGAAGCCTGGAAGCAGGCTAATTTTGCCCGCTATACCTGGAACAGCGCTTTTGTCAGCATTATGGTTACCGCAGGCACCCTGCTGGTAGCTGCCATGGCGGCTTATGTGGTGGACCGTCGCCATTTTCCCGGCAAATCCCTGTATGTGACGACGCAGGCGTCGATGATGTTTATATCCGTCGGTGCCATTGTGCTGCGCCCGCAATTCGATTTGATGGTCGCGCTGAACCTGAATACCACGCTGTGGGGCGTGATCCTGATTCTCATCAGCGCCCATTCCAGCACCTTTTTTATGCTGCTGGGTTTCTTCAAAGCGATTCCCCGCGAGCTTGACGAAGCGGCCATGGTGGACGGCTCCGGGTTCGTCCGAACCTTCTTCCGGATTATTCTCCCGCTCCTGACACCAGGGCTTGGCGTGGCCGGGCTGTTTGCTTTCCGCCATGCCTGGAACGAATACATTCTGCCGCTGGTGTTCACGATGACGAATCCGCAGCTGCAGACGCTCACCGTCGGGCTGGCGAATCTTCGTTACGGTTCTTCCGCGGCCATGCAGATCCATTTGATGATGGCGGGAGCATGCCTGTCGATCCTGCCGATGCTTCTCGCTTATATTGTGGCGAACAAATCCTTTATTCAAGTGACGGCGGGTTCAGTCAAAGGTTAA	MNEQVFPQQPDARGKNAARPPSGHTGRIVGRTVMWLFLLITAILTLFPLLMTLSGSLKTGAEMMTGGSLLPAKLQFVNYAEAWKQANFARYTWNSAFVSIMVTAGTLLVAAMAAYVVDRRHFPGKSLYVTTQASMMFISVGAIVLRPQFDLMVALNLNTTLWGVILILISAHSSTFFMLLGFFKAIPRELDEAAMVDGSGFVRTFFRIILPLLTPGLGVAGLFAFRHAWNEYILPLVFTMTNPQLQTLTVGLANLRYGSSAAMQIHLMMAGACLSILPMLLAYIVANKSFIQVTAGSVKG	PGPT0016540_2149	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_03339	900	lacF_17		Lactose transport system permease protein LacF	GTGAGTATGAAATGGAAACGGCTGGGGGAGAATGCTCTGTTTCTGTCCCCCAGCATCATTTTGACGTTGGCTCTGGGCATCTATCCCTTGTTATGGATGCTGCGTTATATGTTTTATGACTATGCGGGATATGGCGATGCGCTGTTCGTTGGTCTGGACAATTTCCGTCGCCTGATGCGCGATGCGATGTTCTGGGAATCGGTTGGCAATACCTTTATCTATGCCGGGGGCAAGCTGCTGCTGACGCTGCCGTTGTCCCTGCTGCTCGCGGTCATCCTGAACGGCAAGATGCGGGGCGGAAATCTGCTGCGCGGGATCTATTTTATGCCGACGATCATCAGCACCGCGGTTATCTCCGTGGTGTTCTATACGATCTTCAATTCCTATAACGGGATGGTAAACACCGTATTGATGAAGCTGCATCTTGTCTCGCAGCCCATCGACTGGCTCGGCCCAAAGCATGCGATGCTTACGGTCATTCTTGTGGCGGTATGGGGCGCGGTCGGTAACTATATGCTGCTGTTTCTGGCCGGATTGCAGAGCATTCCGCAGGATTTGTACGAAAGTGCGGCCATGGACGGCGCGAATGCCGGAAGACGGTTCTGGAGCATTACGCTTCCGATGCTGGCTCCGGTTGCCCAGTTGGTCATTATGCTCGCGATTATCGCATCCCTGAAAGGCTATGAGAGTATTATGCTCATCACGGAAGGCGGACCGATCGGCAAAACGGAGGTCATGTATCTCTATCTGTACAAACTGTTGTTCCCGGTATCCACGGGTTCTCCTGTCGAGCAGCAGCTAGGATACGGCAGCGCCGTAGGCTTCGCCACCGCTGTTATTGTGGGAGCGATCACGGGCTTGTATTTCTTATTAAGCCGTAAAATGAATAAGTTGTATTAG	MSMKWKRLGENALFLSPSIILTLALGIYPLLWMLRYMFYDYAGYGDALFVGLDNFRRLMRDAMFWESVGNTFIYAGGKLLLTLPLSLLLAVILNGKMRGGNLLRGIYFMPTIISTAVISVVFYTIFNSYNGMVNTVLMKLHLVSQPIDWLGPKHAMLTVILVAVWGAVGNYMLLFLAGLQSIPQDLYESAAMDGANAGRRFWSITLPMLAPVAQLVIMLAIIASLKGYESIMLITEGGPIGKTEVMYLYLYKLLFPVSTGSPVEQQLGYGSAVGFATAVIVGAITGLYFLLSRKMNKLY	PGPT0016335_1282	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_03340	1533			hypothetical protein	GTGCCTGCTGCAGGAGACCATAGAATTCTATCCCTTGAGAGTGAATTTGCCTCACTCCTTTTCCGAGAACGGGATTCTATAATAAAAAACGAGCTCACAATACAAACGTTAATCAAAGGGGTAGAATGTATGCGAAAAAAATGGTTAAGTCTCGGCTTGAGCCTCATTCTGGCAGCCGGAATCGCAGGCTGCGGCGGGAACGACAACAGCAGCAATGGCGGCACGACGAATGGCAAGTCTGACGGTGGAACGGCAGCACCATCAACCGAGACGGGCCAACCCGTACAGCTTAAATACTGGACTGACGACCGTCATGACCAGGAGTATATCAAGGAATTGATCAACAAGTTCAATGAAACTAACGAAGATAACATCCAGGTGGAACTTACGGTCATGTCCGAGAATTACGCGCAAAGCGTCGACATTGCCTTCTCCAGCAACCAGGCGCCGGATGTGCTGCGTCTCAAGAGCGCCAATACGTCCGGATTCGTCAAAAAAGGGTATCTCGCCCCAATTGACGAGTATCTGACCGATGACTTGAAAGCGAAGTTCGGCAGCCTGCTGATCGACGATGTTAACCGTTTTGACGGCAAGGTGTACTCGCTCGCCAATACCGGCCTCACCATGCGCCTGGTCTACAACAAGGATCTCTTTACCAAAGCGGGCATCGAGAATCCTCCGAAGTCGCTGCAGGAAATGGTGGAGGATGCCAAGAAAATTACCGAAGTCGGCAAAGCCGAGGGCATCTATGGTTTTGCGCTGAACTTCAAAAATCCGAAGCAAGCATTTGACCGTTCCGTCCGGGAGATTCTTTCCTTGAGCGGTTATCAGGGACTTGGCTTTGATCTGAAAACAGGCCAATTCAATTTCGAGCCTTACTCGCAGGTCATTGAATATTTCAAGCAAATGCATAAAGACGGAAGCATTCTGCCTGGCGCGGAAGCGCTGGACATCGACCCGCTGCGCGCCCAATTCGCCGCAGGCAAAATCGGGATGTATCTATCCTTCTCGACGGAGCCCGGCGTGTACATGGATCAATTCCCGACCGAAATCAACTGGGGGGGCGCATTGGCTCCAACGCTGGACGGTCAGATCAAGGGAACTTCCGAAATCGTGTCCGCCGGAACGTGGCTCGGCATCAGCGCCCAATCGGCCAATAAGGAAGCGGCTTGGACATTCATGCAGTATATGTACGGCGATGAGGTTCTGAAGACCTATCATGAAAAAGGCTTCGGTATTGCCATAGTGCCAAGCATTGTAGAACAGGCTAAAGATCCGGAGATGGGTGGCATGGAAGGCTTCCTGGTCGGGGAACACGACTCGCTCTGGCCAGCTTCGCCAAACGTTACTCCGGAGGGTACCACCTATGCGGACGCTTTCTTCAAATATATCCTTACCGATGAAGACCTGAAAGCGATTACGGAGGATTTAAACACAAGATACAACGCCGCATTGTCCAAGGCGGTGGAGAAAGGCGAGGTCACTGTAACGCCGAACCCTGCCTTTGATCCAACCAAACCGCAGGGAGAATAA	MPAAGDHRILSLESEFASLLFRERDSIIKNELTIQTLIKGVECMRKKWLSLGLSLILAAGIAGCGGNDNSSNGGTTNGKSDGGTAAPSTETGQPVQLKYWTDDRHDQEYIKELINKFNETNEDNIQVELTVMSENYAQSVDIAFSSNQAPDVLRLKSANTSGFVKKGYLAPIDEYLTDDLKAKFGSLLIDDVNRFDGKVYSLANTGLTMRLVYNKDLFTKAGIENPPKSLQEMVEDAKKITEVGKAEGIYGFALNFKNPKQAFDRSVREILSLSGYQGLGFDLKTGQFNFEPYSQVIEYFKQMHKDGSILPGAEALDIDPLRAQFAAGKIGMYLSFSTEPGVYMDQFPTEINWGGALAPTLDGQIKGTSEIVSAGTWLGISAQSANKEAAWTFMQYMYGDEVLKTYHEKGFGIAIVPSIVEQAKDPEMGGMEGFLVGEHDSLWPASPNVTPEGTTYADAFFKYILTDEDLKAITEDLNTRYNAALSKAVEKGEVTVTPNPAFDPTKPQGE	PGPT0016545_1355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_03341	1626	cheB_12		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAGCAATCCTGAGGCGATCAGTCTCTGCATTATCGACGATATTAAGAGCGTGGTGGACGGACTGACCGCGATGAACTGGGAAGAGCAGGGGATTCGGGTCGCAGGTGTATCGAGCAATGGGGAAGAGGGGCTTACGCTGATTGGCGGGCTGCGTCCGGATCTGGTTATTACCGATATCCGGATGCCGATTATGGACGGGTTGAGCATGCTGCGTTTGGTGCTGGAAGAGAACCCCAGCTGCAAGGTCATTCTGATCAGCGGCTATGCCGATTTTGAATATGCGCAGCAGGCGGTGCAGCTGGGGGCGTTTGATTTTGTGGTGAAGCCCTTCACAGAAGAAGATATGATGTCGGCTGTGCTGCGAGCCAAAGCAGAGGTTATGGAAGAGAGGTCCAAACGGATAAGTTTGAGGGAAATGGAGAACAAGCTTCGCGAGAGCATGCCGGCGCTGCGACAGGAATACTTTGCGCTGCTCATAAGCCACCGCACTTCATGGGAAGAGGCCTCGGAACGGTGGGAGTTTCTGAATATTGAGCTGGAGCCGCGCGGCTTCGTCGTGATGCTGATTGAAATTGATCGTTTCCGGGAGCAGGTTGCCGAGCAGTCCGTGAAGGAGATGGAGCTGATCCGGTTCTCGCTGTTGAATATTATGCAGGAGACGCTTGCCCAGTATGCGCACAGCGTTCTTTTCCGTGCCCGTCATGATCAGTACCTGGCCGTACTGAACGATTCAGGACCGTCCAGTCCGATCGAAATTGCCGAGCAATGCTGCCGGAATATTGAACGGTACACCAAGTTTACGGTCTCGGTCGGGGTCGGCGGCAGGGTGGAGGAGATCAGCGGGCTCCCGGATTCCTATCGCCAAGCTCATCGGGCGCTCTCCCATCACCTGTTCACCGAAGGCAATGCCGCCATTGAGTATGACGATATCCACCAGAGCGGAAGCCAGGAGCCGCTGGCACTGGAACACAAGGACGAGCTGCTGCTGGCCCTTCGTTCCGGAAATGCTGTCCGGACGGACGCGTTTCTGACCGCGATTTCGGAAGCGCTGCAGAAACGGATTTCCCGGCAAAATCCGGATTATCTCCTCAGCCTGTACGATGAGCTGGCTGCTTCAGCGATCCGCACGCTTTACGAAATGGTTCCCTATTCGGAGATACAGCCGATGATTCAGAAATTCAGATCGGTACAAGGGACGGCGGGGCTACCGCTGGCCTCTTTGCAGCGTCATCTGCATGCCTTGTGCACGGAGGGAGCCGAGCTGGTTCGCCGGAACAGCTTATCCGAAGGGCAGAAGGTTATTTATAATGCCATAGGCTACATCAAGGGCCGCTTGTCCGAGGATATTACCGTTGGCGAATGTGCCGCGCATGTGCATCTAAGCGCCAGCTACTTTTCCAGCTTATTCAAGCAAGTAACCGGAATGACGGTCACGCAGTATATCACCTCGGAACGCATTCAAAAAGCGAGACTGCTTCTGGTGGAGGGGGCGCAGGTGCAGGAGGTGGCTGCGGCGGTAGGTTATGAGGAGCGCAGATATTTTAGCGAGATGTTCAAGAAGATCACCGGCCAGACACCGTCGGAATTCAGGGCGGGCTATCACATGGAGTCGCCGGAGGCTTGA	MSNPEAISLCIIDDIKSVVDGLTAMNWEEQGIRVAGVSSNGEEGLTLIGGLRPDLVITDIRMPIMDGLSMLRLVLEENPSCKVILISGYADFEYAQQAVQLGAFDFVVKPFTEEDMMSAVLRAKAEVMEERSKRISLREMENKLRESMPALRQEYFALLISHRTSWEEASERWEFLNIELEPRGFVVMLIEIDRFREQVAEQSVKEMELIRFSLLNIMQETLAQYAHSVLFRARHDQYLAVLNDSGPSSPIEIAEQCCRNIERYTKFTVSVGVGGRVEEISGLPDSYRQAHRALSHHLFTEGNAAIEYDDIHQSGSQEPLALEHKDELLLALRSGNAVRTDAFLTAISEALQKRISRQNPDYLLSLYDELAASAIRTLYEMVPYSEIQPMIQKFRSVQGTAGLPLASLQRHLHALCTEGAELVRRNSLSEGQKVIYNAIGYIKGRLSEDITVGECAAHVHLSASYFSSLFKQVTGMTVTQYITSERIQKARLLLVEGAQVQEVAAAVGYEERRYFSEMFKKITGQTPSEFRAGYHMESPEA				NA	NA	NA	NA	NA
AK002_03342	1755			hypothetical protein	TTGGAGTATCTCCGCAGGCAATCGTTCCGCAACAAACTCAAGGTCGCTTTTCTGGCTGTCATCGTGCTTTCTGTCCTGATGACCGGAGGGTTGTCTTATTATATCTCGGCTGCCACGCTGGAAAAGAATGCGCTGAAGCTCACGCAGGATACGGTGGTCAGATCCGCGCAGATCGTGGATGAGAAGCTGAACAAACTGATGCTGATTATGATGACGTTTATGATCAGCCAGCCTTTTTACGACATGCTGAAGGATGCCGCCTCCGGGGATGCCAGCAGATATTACACGCATCTGAACGATCTTGATAACGTTTTCTCGCAGGCGCGGATCGCCGAGCCGCTTATCCAATCGATCTACGTATTTACGCCGATTGGCGAATTTTATCCTTCGTCCATGAACCGCAATCGGCTCACCGAATTCGAGGATACCGTTCTGTATGCGCGCATCGAACAGGAGAAAAAGAACCTGTGGGTGGAGGGTCATGAGGATATGCTCTTCTCCGGCAAGGAACGCGTCATTTCGCTTATTCTGGAGCCGATCTTTGACACCCCGGTCAGCGGTGTTTATATTGTCGTGAATATCCGTGAGGACGGTTTCCGCAAGCTGGTCCAGGGGAACACCGCGGAAGGGGCGTCCAGCTTCTTGCTGAACGCTGATGGAGAGGCGGTTTACCCCGTGAAGGAACCGCTGGTCAGGCAGGCGGTGGAGACGGGTAATTTGAGTGGCATGATGAGCCGCTCGGAGGGAAGTCAGCCCTTTGAAATGGAAGGCCAGACCTATCTGCTTAATTATGCCCGTCTCGGCATTGCGGATTGGACCATGACCACCATCCGTTCCCGGGCCGACGTGCTCCAGGACATGGTGTATGTCAAATGGCTGATCGCCGGGGTTACGCTGGCTGCTTTTACTGTCACCACGTTGATTTCGGGTGCATTTTCACGCTATTTGCTAAAACCGCTGCAAGGGCTGCTGAAGGTGATGAAGCGGGTCGAGAACAACGATCTGACCGCCCGTTTTGAGAGCGGCAGCGGAGATGAGCTGGCTCAGGTGGGATTTCGGTTTAACCGGATGCTGGAACAGATTGTGGTGTTGATTGATGAGGTAACGGAAGCCCAGACGCATAAGCGAACTGCAGAGATCAAGGCGCTGTCGGCGCAGATGGACCCGCATTTTCTGTACAACACGCTCAACACCATCTACTGGAAATTGAAATTGAAGCAGATCGAGCCGTCGCAGCAAATGGTCATGTCGCTCTCACGCCTGTTCCAACTCGGATTGAACAATGGCCAGGAAATTACGACACTGTCGAAAGAACTGGAGCATGTTCGCCAGTATTTGGAACTGCAGTTAAGCTGCTATGAAGGCTTATTCTCTTATGAGATCCATGTACGCGAACCGGAGGCGTCATCGCTTTCGATTCCGCGCATCATTTTGCAGCCGCTGGTGGAGAACAGCATTTTGCACGGTTTTCGCGATCTGCAGAACGGCGGCCTAATCGAAATCGAGATTAGCGGGGATGAGAAACGCTGGACGATAGCCGTACGTGATAACGGAAAGGGAATGGACCAGACCCAAGTGCGCGAACTCTTTTTGCAGGAGTCAAAGAAGGGATATGCGGTGTCCAATCTGATCCGGCGGCTCCGGCTCTATTATGGGGACGGTGCGGAATTTCGCGTAGACAGTGCGCCGGAGCGCGGAACCGAAATACGGATTTCATTGCCCAAGAAAGGGGAGCATTTGGATGAGCAATCCTGA	MEYLRRQSFRNKLKVAFLAVIVLSVLMTGGLSYYISAATLEKNALKLTQDTVVRSAQIVDEKLNKLMLIMMTFMISQPFYDMLKDAASGDASRYYTHLNDLDNVFSQARIAEPLIQSIYVFTPIGEFYPSSMNRNRLTEFEDTVLYARIEQEKKNLWVEGHEDMLFSGKERVISLILEPIFDTPVSGVYIVVNIREDGFRKLVQGNTAEGASSFLLNADGEAVYPVKEPLVRQAVETGNLSGMMSRSEGSQPFEMEGQTYLLNYARLGIADWTMTTIRSRADVLQDMVYVKWLIAGVTLAAFTVTTLISGAFSRYLLKPLQGLLKVMKRVENNDLTARFESGSGDELAQVGFRFNRMLEQIVVLIDEVTEAQTHKRTAEIKALSAQMDPHFLYNTLNTIYWKLKLKQIEPSQQMVMSLSRLFQLGLNNGQEITTLSKELEHVRQYLELQLSCYEGLFSYEIHVREPEASSLSIPRIILQPLVENSILHGFRDLQNGGLIEIEISGDEKRWTIAVRDNGKGMDQTQVRELFLQESKKGYAVSNLIRRLRLYYGDGAEFRVDSAPERGTEIRISLPKKGEHLDEQS				NA	NA	NA	NA	NA
AK002_03343	3075			hypothetical protein	ATGCTTACCATTACAAGAAAAACAGTTAGTCTGTTGGTCGTGCTTGCCGTAATGATCACAGGATTCTCACCCCGAACAGCGGATGCAGTAGAAATCGATAGCTATTCAATTTCTTCAATGGATATGACGGATGCCGCTGATCCGGCATCTTTGGCACAGACCGCCGCTGATCCGGCCACGATACAAAATTACCCGATGCCATCCATCTATACCGCATCCAGCGTGTTTTCGTTGAAAGCGAATAACGAAGCGATTCCTGTAATCAGTTATCTGGCTGATTATGATTATGCTCAATTTTCTTTTTCCGGCACGGTCCGTATCGAAGTTACCAATAATGTGCCGATTACATCATACTCCATCAGTCCTCAGGCTAAAAATATCGAAGGCACGGTCAACGGGAACAAGCTAACGTTCTATCTTTCATCCTCAACCTATGTCATCGTGAAAATCAATGACCAGAGGAAGAAGATTGTGATCGCAGCAGATCCCTTGGAGACGGATATTCCCCCGTCCACAGGTGCCGGGATTTATAATGTGACGCAGTCGCCATACCATGCGGATAACACGGGTACAACGCTGGCATCGGGTCCGATTCAGCAGGCGATCGATGACGCCCATCAAGCCGGCGGCGGCGTTGTATTCATACCGGCCGGTGTTTATAAGAGCGGGAACCTGACATTAAAAAGCAACGTAACCTTTTACCTGGCCGGCGGCGCCGTCATTGTCGGCACGGGCAAAGGGGAAGACTACGTGATTGATTTTCGCAAGGATTCACGAAACGCGGATGGAACGTATTTTATTCGTACTGCCGTAGATTCCACCAATATTACGATACGGGGACGGGGAACCATTGATGGAAAAGGCATTGCGATGCGAGAGCGAAAGATGCCGGCGCCGAATAAGAATGAAGGGTTCCTCAATAACCTGCTCGTTCCGATCGCAACATCCAATTTTACTTTTGACGGACTAATATTGCGGGATGGCGGTTTCTGGTCGTTTATGGTGGTTCGTTCCGACAATGTGACCATAAACAATCTTAAGGGATTCCAGGATTTATACAAAATCGAGAATGACGTTATCGATATCAATGAGAGTCAGAACGTGCTTGTTCAGCATTCGATTGCCATATCAGATGATGACACGTATTCCACTAAAACCTGGCTGCAGACGGGGATGTCCAAAGACTGGCCGGGCGAGCTTGAACATTTGGAGAATGTGGTCTTTGATGACGCTTTTGCATGGACAAGATGCGCGGCTTTCAAGATTGGCATGGGTGTAGCCCAGCCGCAAATCGGCGTAACCATCCGAAATTCGTATGTGTATCAAAGCGCCCGAGCATTGCTTATTGATCATGGATACCAACTGAATACCCTCCCGGAGGAAGGTTATGCCCAAAATATTACGTTTGAAAATATCGACATCGAACGCGTCGGCATCAATCAATTCGGGAACTATTGGCTTGGAGTGTCCACCAGCACTTCCGGCGATGTAAGCAATGTTGTAGTCAAGAACATCAATGTTCGCGAGACCGGCACCCAGAAATCCAGAATTTCCGGGAATGCCACGAAAGGCGGAAGGGTTAACGGCGTCACGTTCACGGATGTTTATGTTGGAGGCAAACTTGCAACAACCCTGGACGACTTGAATGTTACCGTTAATAACAATGTATATGGTATCGTTTTTGCCAATTCCAAACCGCCGCTATTCAGCGACAATTTCGAAGATGGAAATACGGCGGGGTGGACGTCGATGTCCGGCGGCTGGACCGTCCCGACAGTCGGCACGAATCACGTGCTGTCCAGCGGAAATCAGACAACCACCTCCCTGATTACCGCTAATAGCGGGGGTTCATGGACGGATTACGTTTATGAAGCCAGATTAAGAATGCCCATCACCAATGCCAACGCGGGCATGGTCTTCAGGGTGCAGGATGCAAACAATTATTATATGTATCGCATTCATTCATCGAATCAACAGCTGGAGTTGTTCAAATCCGTGAATGGACAGCTGACGCTTGTAAACAGTATGCCGTTCACGGCCATTGAGAAACAGTGGTATAAGGTTAAGGCGGTTATACAAGGGAACACGATTTCCTGTTACGTGGATGGAGAATTAAAGATGGAATGGACCAATCCTGCAACCGAATTGACGGCTGGGGGGATCGGATTCCGGACCACCTCGGCCGGCGTCCATTTTGACGATGCCGTGGTTAGTCTCCTCAATAAAGCGCCTGAGGAGATTGCCCTTTCACACAACAGTGTTGTTGAAAACACGACGGCGGGAGGCATGGTCGGAACCTTTTCCACCAGCGACCCTGATGCGGAAGAAACATTTTCTTATATGCTGATAGCAGGGGCAGGGGATGTGGACAACGGCAGCTTCACCATTTCGGACAATAAGTTGTTCCTAGCCGTAACGCCTGATTACGAAGCCAAGGATAGCTACAGCATCCGGGTGAGGAGTACAGACTCAGGCGGACTGTATGTTGAGAAGACCTTTACGATCCATGTCACGGACGTGAATGAACCTCCCGTGAATCCGGATCCTATGGTCATTGTATTCAGCGACGATTTCGAAGATGGAAATGCCGGAGGATGGACGTCTGCTTCAGGTTCCTGGGATGTAACAACGGACGGCACAAAAGCCTTGATTCAGAATCAAGCTGCCACTGCAGTCATTGCTGCCGGCGATTCGTGGACGGATTATACGTATGAGGCCAAAGCGAAAATGCCCATCACCAATTCCAACGCAGGCATTCTCTTCAGGGTACAGGATGCGGGTAATTTCTATATGTTCCGAATCCATTCCGCAGCCCAAAAGCTGGAGTTGTACAAATCCGTGGACAACGTCATGACCCTTGTATCCAGTACCCCGTTTACAGCTCAGGCGAACCAGTGGTATACGATGAAGGCTTCTATTGAAGGGAACGCAATAAAAGGTTATGTGGATGGAGAATTAAAAGTGGAATGGACCAATCCCGAGACGGAACTGACAGCAGGAAAAATAGGATTTCGGACCACTTCGGCAGGCGTAGCTTTTGATGATGCTGTGGTACTGGCACCTGATTCGATCTAA	MLTITRKTVSLLVVLAVMITGFSPRTADAVEIDSYSISSMDMTDAADPASLAQTAADPATIQNYPMPSIYTASSVFSLKANNEAIPVISYLADYDYAQFSFSGTVRIEVTNNVPITSYSISPQAKNIEGTVNGNKLTFYLSSSTYVIVKINDQRKKIVIAADPLETDIPPSTGAGIYNVTQSPYHADNTGTTLASGPIQQAIDDAHQAGGGVVFIPAGVYKSGNLTLKSNVTFYLAGGAVIVGTGKGEDYVIDFRKDSRNADGTYFIRTAVDSTNITIRGRGTIDGKGIAMRERKMPAPNKNEGFLNNLLVPIATSNFTFDGLILRDGGFWSFMVVRSDNVTINNLKGFQDLYKIENDVIDINESQNVLVQHSIAISDDDTYSTKTWLQTGMSKDWPGELEHLENVVFDDAFAWTRCAAFKIGMGVAQPQIGVTIRNSYVYQSARALLIDHGYQLNTLPEEGYAQNITFENIDIERVGINQFGNYWLGVSTSTSGDVSNVVVKNINVRETGTQKSRISGNATKGGRVNGVTFTDVYVGGKLATTLDDLNVTVNNNVYGIVFANSKPPLFSDNFEDGNTAGWTSMSGGWTVPTVGTNHVLSSGNQTTTSLITANSGGSWTDYVYEARLRMPITNANAGMVFRVQDANNYYMYRIHSSNQQLELFKSVNGQLTLVNSMPFTAIEKQWYKVKAVIQGNTISCYVDGELKMEWTNPATELTAGGIGFRTTSAGVHFDDAVVSLLNKAPEEIALSHNSVVENTTAGGMVGTFSTSDPDAEETFSYMLIAGAGDVDNGSFTISDNKLFLAVTPDYEAKDSYSIRVRSTDSGGLYVEKTFTIHVTDVNEPPVNPDPMVIVFSDDFEDGNAGGWTSASGSWDVTTDGTKALIQNQAATAVIAAGDSWTDYTYEAKAKMPITNSNAGILFRVQDAGNFYMFRIHSAAQKLELYKSVDNVMTLVSSTPFTAQANQWYTMKASIEGNAIKGYVDGELKVEWTNPETELTAGKIGFRTTSAGVAFDDAVVLAPDSI				NA	NA	NA	NA	NA
AK002_03344	831		COG2513	putative protein	ATGGACATGATAAAACAGCTTGAAAAGCTTACCGCCTTTAAAAAGCTTCACTCTAATTTCTTTATTTTGCCCAATGCATGGGATGCTGCAAGCGCGAAAACTTTCGAGAAGTGCGGCTTCAAGGCCATTGGCACGACAAGTGCCGGCATAGCGGATTCCCATGGGTATGCGGATCGGAATATGCCCTTCGATCGGATGCTGGATACGGTCCGCAGGATCGTGCAAACCGTGGATATCCCGGTTACCGTGGATATGGAAGACGGGTATGGACAGACGCCTGATGAAGTCGCAGAATCGGTTAAGCAGGTGATCAAGGCAGGCGCGACTGGGATTAACATAGAAGACAGCAGCATGGATCGACAAGCGCCGCTGCATGATATTTTGCTCCAGCAAAACAAATTAGCCGTGATCCGAGGGCTGGGGAATGCCATGGGGTATCCTCTCTTCATCAATGCACGGATCGATGCTTACTGGATCAAGTCTATGCCGTCTGCTGGGAGGCTTGAAGAGACGATCAAGCGGGCCCATGCCTACCAGGAAGCCGGGGCAGATTGTATTTTTGTCCCCGGAATCCAGGAAATCTCCGACATCCAAACACTGCGCCATGAAATAAGCTGTCCGATCAATGTATTGGCCGGGCCGGGAATGCCTTCCGCAAAAGAACTTGAAGCGCTGGGGATTCAGCGTATCAGCACCGGCTCAGGACCTTTTCGCGCCGCAATATCGCTTCTGCATCGCATGGGCCATGAAATTTTGGAGGAGGGAACTTTTGAGCACATGACTTTGGGAGTCCTTTCTTACGACGATTTATCGGAAAAGCAGCCTTGGTAG	MDMIKQLEKLTAFKKLHSNFFILPNAWDAASAKTFEKCGFKAIGTTSAGIADSHGYADRNMPFDRMLDTVRRIVQTVDIPVTVDMEDGYGQTPDEVAESVKQVIKAGATGINIEDSSMDRQAPLHDILLQQNKLAVIRGLGNAMGYPLFINARIDAYWIKSMPSAGRLEETIKRAHAYQEAGADCIFVPGIQEISDIQTLRHEISCPINVLAGPGMPSAKELEALGIQRISTGSGPFRAAISLLHRMGHEILEEGTFEHMTLGVLSYDDLSEKQPW				NA	NA	NA	NA	NA
AK002_03345	498			hypothetical protein	ATGAATGACAAAATAAATGAATTTATGATTTGGGCTGAAGAAAACGGTTGGACGATAACTAAGAATGAGGATCATCAATTACATTTAGCTGGCAGCTTGTTATCAAGATATAAGGAAATCCCTAATGATTATTTGGAATTTTTAAGTGTTGTAAAACGATGCATCACACCTGATGAGAAGACCTGGTTTCTATGCGAGGATGAATACAATAATCGCTCCGAGGCTGAATTTAAATGGAATGAATTTGAAATGCTCAGTTTGGAGGCAGCAAGGGACGATGAACTATGGAAATCAGAAATAACTGCGTGGTGGGATTCCTACCTGCCGATCGTGATGTCAGTTGATGGAGGGTATTCCTTCTATGCGATTGATTTAACCAATGACATTGGTGCTATCGTGCGCGGATATGAACCTGAATTTGAAGAAGTTGAACAAGCGGCACATAATCTTGAAGAGTTTTTGGAATTGATTATGTCGAACTCAATAGAGTTCCAGTGA	MNDKINEFMIWAEENGWTITKNEDHQLHLAGSLLSRYKEIPNDYLEFLSVVKRCITPDEKTWFLCEDEYNNRSEAEFKWNEFEMLSLEAARDDELWKSEITAWWDSYLPIVMSVDGGYSFYAIDLTNDIGAIVRGYEPEFEEVEQAAHNLEEFLELIMSNSIEFQ				NA	NA	NA	NA	NA
AK002_03346	570			hypothetical protein	ATGAAAATCGAGCATGTCGTTCCAGCAAAATCGAGAGAGGATCTAAGGATTTGGCTGCTGAACCATGGCACGACCGAGAAGTCTTGCTGGGTCCTAGTTAGTATGACGCCAACCCCTGATATGTTGTTATATTTGGACGTCGTTGAGGAAGCTTTATGCTTTGGATGGATTGATGGCATGAAAAAGAAAATATACCAAACCGAGCTGGCCCAGAGACTGTCTCCTAGAAGTAAAAAAAGCTCCTGGACCGAATTGAATAAAGAACGTGTCCGCCGCCTCGAAAAGTTGGGCTTCATGAGTGACGAAGGCAGGAGGGTTCTTCCTGACATGGATCCCGGTTCTTTCAGAATAGATGGAGTGATAGAACAAAGGCTAAAGGAGGAAAAACAAGTATTTGAGAATTTCATGGCATTTCCGGATCTTTATAAAAGAGTTCGGATTGACACGATACAAAGCTATAAGAATCAGCCGGAATTATTTAAGGGCAGATTAGACAAATTCATAACCAACACAAGAGAAAACAAAATGTACGGTCAATGGAACGATCATGGCCGTCTGCTGGATTATTAA	MKIEHVVPAKSREDLRIWLLNHGTTEKSCWVLVSMTPTPDMLLYLDVVEEALCFGWIDGMKKKIYQTELAQRLSPRSKKSSWTELNKERVRRLEKLGFMSDEGRRVLPDMDPGSFRIDGVIEQRLKEEKQVFENFMAFPDLYKRVRIDTIQSYKNQPELFKGRLDKFITNTRENKMYGQWNDHGRLLDY				NA	NA	NA	NA	NA
AK002_03347	465			hypothetical protein	ATGTCAGCTATTGCCTATTTGAACTTTGATGGAATCGCCGGAGAAGCGATTGAATTTTATTCGGAGGCTTTACAGGCGAACGAGGTAAAAAAAGTGAAATTTAAGGATTTTCCGCAGGATCCAAACTATCCATTGCCAGAAAATGAACTCAATATGATCATGGAGTCCTCGGTACAATTTGCAGGCGGGAAAATCATGATGTCGGATATTTTGCCCTCCATGAAGGCGGTAACGGGTGAGTTGGTGAAAGGAAACAACATGCTTATTAGTCTAATCATGGAGGATAAACAAGCATTGGAAGAATACTTTAACCAATTGTCTGTTGGCGGCCATGTTGTGATGCCATTATCCAATACTCCTTGGTCTTCGTGCTTTGGAATGCTGGTTGATAAATTCGGAGTTGCCTGGAAATTTAATCGTGACGCAGACCGCTTCCTGGATAAAGTCATTTCAAACAAACAGTAA	MSAIAYLNFDGIAGEAIEFYSEALQANEVKKVKFKDFPQDPNYPLPENELNMIMESSVQFAGGKIMMSDILPSMKAVTGELVKGNNMLISLIMEDKQALEEYFNQLSVGGHVVMPLSNTPWSSCFGMLVDKFGVAWKFNRDADRFLDKVISNKQ	PGPT0030505_655	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_03348	909			hypothetical protein	ATGGAGAAGGTTGAGAGATTAATATCCATTATCATGATATTGCTGAAAAAAGATATCGTTTCAACAAAAGAATTCGCACAATTATTCAACGTTTCCAAAAGAACGATTCTTCGCGATATGGAAACACTGAGCTTATCCAATATCCCCATCTATTCTGTTCATGGAATTCATGGCGGATACGGTATTATGGATGAATACAAGGTGGATAAGCGACTTCTAAACAGCTCCGACTTAGAAAATATATTGACTGCGCTCGGCGGATTGGAACAAATTCTAATTAGCGAGGAAGTTGAAATCACGATTAAAAAAATGGAGGCCATGGTTCACCCCATGTCACTGAAAGGTTCAGTCCGTCTATCATTTTATGATTGGGAGGGTCGGTCCGATATTCTTCAAACCTTGAAGACATGCCAAGAATCGATCATAGGGAAAAAGTTAATTTCATTTGATTATATAGATAAAAATGGCATGATAACGAATCGAATCGTCGAGCCGTATCAGCTTCATTTTAGCGAAATCAGTTGGTATTTGAAGGGATTCTGTTTACATCGCCAGAGCTATAGAACATTTAAATTATCCAGGATCGATAATCTCAATATGAATGAAGAAACCTTTAACCCGAGAGATTATGCATTAGAACAAGACGCAGCCAGTTATCAGCCGCAATTAGTCGCCATTAAAGCGTTGATTGCGCCCGGCATAAAAGATCAGTTTATTGAAAGGTACGGTCGAAAGAGTATTGAAAGTCATAGTTCTGAATATTTCCTGGCTACCATCCAAATTCCTCGGAACCCTATTGGATTTCAGTTTTTAGCAAGTTTCGGTACAAATCTAGAAATCGTAGAACCGAAATCATACGTAGAGGAGTTTCGCAATTATTTGCTTAAAATGGTCGATAAATATTCTTAA	MEKVERLISIIMILLKKDIVSTKEFAQLFNVSKRTILRDMETLSLSNIPIYSVHGIHGGYGIMDEYKVDKRLLNSSDLENILTALGGLEQILISEEVEITIKKMEAMVHPMSLKGSVRLSFYDWEGRSDILQTLKTCQESIIGKKLISFDYIDKNGMITNRIVEPYQLHFSEISWYLKGFCLHRQSYRTFKLSRIDNLNMNEETFNPRDYALEQDAASYQPQLVAIKALIAPGIKDQFIERYGRKSIESHSSEYFLATIQIPRNPIGFQFLASFGTNLEIVEPKSYVEEFRNYLLKMVDKYS				NA	NA	NA	NA	NA
AK002_03349	1425			hypothetical protein	TTGTTGCGTAGAAGAAATGAATTTCATGAGCGTTATGAACGCTTTGTCCAGGAATTAAGGAATGAAATCGTTGCCGGTGTTCTTCAGCCGGGTGAATTTATTTTGCCGGAAAACACGCTTAGCCAGAAATATGAAATGAGCCGGGTATCGATCCGGAAGGCGCTGGATGAGCTGGTGAACGAAGGATTGATCGAGAAAATCGCGGGCAAGGGCAACCGGGTGAAGGTGCCGGATGAGGACAGAACGCCTGTCGTGCTGAGACTCGCCTGGTTCTCTTCTTCTTATGAGATTCCGATTATCGAAAAAATGATCGAGGCGTTCGAGCGGAAGCATCCGTTCGTTCAGGTGGAGATGGTGCTGTATTCCGAGGATTTCTACACCGAAACCATCATCCGGTCCATTGAGGACGGTCAAGGGCCTGATCTGTTTATCATGTCGGATCAGCATTTCCGGGAATGGACCGAAAGCGGGCGCACGAATCTGCTGACAGGGTATGTTCCACCCCGTCTGATGGAGGAAGGGGTCAGCTATCCGCGGGTCTTCGAGCTGTTCAATCATGAAGGCGGCATGCTCGCGGCGCCGTTTGTGTTCTCACCGGTAGTCATCTGTTATAACCGATCGATCTTCCGTCAGCACGGCCTGTCTCACCCCGTCAGTCTTGGCGACTGGCAGCAGCTGCTGGAGGTGGCCAAAGCCAGCACCTCGGCCCCGAACGAAGACGGAATGACCGATCATTACGGCTTCTGCTTCTCTTCGTCCCCCAACCGCTGGCCGGTCTTCCTGCTTCAAAATGACGGCAGCATCATGGCTGCAGACCGCAGCCGGAGCACGATGGCGGACGAACGGAACATCGAAGCGCTGGAGTTTTGCGTCTCGCTGATGTACAAGGAGCATGTGTCGCCGATCTTTTCCCATGGCAGCAGCCATTTAGCCGAAAGCCTGTTTATGAAGGAACGGGTTGCGATGATCATGTCCACTTATTATTTCATGAATGAATTCCGCGACCATTCCATCGACTGGGATGTGATGACCTTGCCGAAAGGGACCAAACCCGCCACTATACTGCTAGGCGGGGGGCTGTCGATCAACGCTGCGAGCAGTCATCGGAATATCGCCGAAAAACTCGTGGATTTTATGACGGGCGAGGAAGCACAGAAACTGCTAAAACAGTACGGATGCACCATTCCGGTGTTGCGGTCTGTTGCCGAAGATGACAGCCTGCTGAATCCGGACATTCATCCGCAGCACTATAACCGTTATCTCGAGGTGCTGCCGCATGCTTATCCGCTGCATATCCTTAACATGAACCAATCTGAAATATTGACGCTGCTGGATGAACTGAATCTGCTGTGGGCCGGCATGGAAACCCCGGCGGATACCTGCACCCGGATCGAGCAGCTCTTCAACTCCCGGCTGGGCTCTTGA	MLRRRNEFHERYERFVQELRNEIVAGVLQPGEFILPENTLSQKYEMSRVSIRKALDELVNEGLIEKIAGKGNRVKVPDEDRTPVVLRLAWFSSSYEIPIIEKMIEAFERKHPFVQVEMVLYSEDFYTETIIRSIEDGQGPDLFIMSDQHFREWTESGRTNLLTGYVPPRLMEEGVSYPRVFELFNHEGGMLAAPFVFSPVVICYNRSIFRQHGLSHPVSLGDWQQLLEVAKASTSAPNEDGMTDHYGFCFSSSPNRWPVFLLQNDGSIMAADRSRSTMADERNIEALEFCVSLMYKEHVSPIFSHGSSHLAESLFMKERVAMIMSTYYFMNEFRDHSIDWDVMTLPKGTKPATILLGGGLSINAASSHRNIAEKLVDFMTGEEAQKLLKQYGCTIPVLRSVAEDDSLLNPDIHPQHYNRYLEVLPHAYPLHILNMNQSEILTLLDELNLLWAGMETPADTCTRIEQLFNSRLGS	PGPT0016545_736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_03350	1029			hypothetical protein	ATGACTCGCTTTAATGGGGAAATTGTGCCGCTGTTAGAGGGAATCCATACCCTTGAGGCCTGGATGGAGAAGGAGTCCAGGCTGAAGGCACGCTGGCTGCAGCTGCTGGGAGAGCCCCCGGAGCCGGTTGATTATAAGCCGAGAGCCGTCGCAGACAGCGGGGGCTTCCGGGTGCTTTCCGTGCATGAGGAAGAAGATCACACAAGACAGGCGATCATGTACGAATCACCGGACGGGGATTCGATCCCGGCTTATCTGTTGCTCCCTTCAGGAACGCCTGCTGTAGGAGGATTCCCCGCTGTACTTGCCTTTCACCCGACAACCGAGAATGGAAAAGACGATGTATGTCTGGCTTCCGGACGGGTAAACCGGCAGTATGGTCTAGAGCTGGTACAGCGCGGCTTTGCCGTGCTGGCTCCGGACTCCATTACGTTCGGTGACCGAATCTATGAAGGGGAAGCGCCGTTTCAAACGGCTCCATTCTATCAACGGCACCCTGCGTGGACCGCAGTCGGTAAAATGATCTCCGATCACATGGTAGGGGTCGACGTGTTGTCCTCGCTGCCACAGGTGAATCCACGCCGCATCGGCGTCATCGGCCACTCGCTGGGCGGCTATAACGGCTGGTTTCTGGCCGGAATGGATAAACGCATCAAGGCCGTCGTCTCGAGCTGCGGATTTACGATGTTCCGCGGCGATCCGGAGCCGAACCGCTGGGGCCTTCGGGAATGGTTTTCCCATATCCCATCCATTACAGACAGTTTGAGCAGCGGCTCCCTGCCGTTTGAGTGGCATGAAATCGCGGCGCTTGCAGCTCCGGTGCCGATGTTGATGTGGTCCGGAACGCGAGACCCGATTTTTCCGAACTGGAGAGAGATTGTCACGGGATTAGGGGAACTGGATGGTTTGTATGATTTTTTGGGTGCTTCATCTGCTTTCGAGTGCTGGTTCGGTCATGAAGGGCACGACTTTCCGCCGGATATCCGGCAGCGAGCCTATGCTTTTCTTGAAAAACAGCTTGCGGAGTAA	MTRFNGEIVPLLEGIHTLEAWMEKESRLKARWLQLLGEPPEPVDYKPRAVADSGGFRVLSVHEEEDHTRQAIMYESPDGDSIPAYLLLPSGTPAVGGFPAVLAFHPTTENGKDDVCLASGRVNRQYGLELVQRGFAVLAPDSITFGDRIYEGEAPFQTAPFYQRHPAWTAVGKMISDHMVGVDVLSSLPQVNPRRIGVIGHSLGGYNGWFLAGMDKRIKAVVSSCGFTMFRGDPEPNRWGLREWFSHIPSITDSLSSGSLPFEWHEIAALAAPVPMLMWSGTRDPIFPNWREIVTGLGELDGLYDFLGASSAFECWFGHEGHDFPPDIRQRAYAFLEKQLAE				NA	NA	NA	NA	NA
AK002_03351	1908			hypothetical protein	ATGCGAAAAGCGATGAATAATACGGAAGAAGTGAACGACAGCAAGGCAACGGGGACGATGGGGGTTTTTGAGCGGATCGGCGTACCCGTTGATGTCGACGAGAGCAGATCCGCGGCGGTGTGCCGGAGAGCCGACGGGACCGAGCGCATCGTAATCGCAGCCCGGGGATATGTGCTGATCGCGGATCCGGGAACAGGAAACAGCACCCAGCTTTATTTTCCAGGGGGCGAGGGCCAGTACCCGTTTGCGTCGATCAGTGATTCCCGAGGATGGTTCTATACGGGAGCAGGCCGCTATTTTTACGTTATCGATCCGTTCACCCCGGCTTTTGTCGGGCAGCACCGGGTACCTGAAGGGGAAGAGGGAGCCGGCTTTGCATTTGCCGTGGATGGAGATGGTCGGGTCTACGCTACAACTTACCCGGGAAGCTATCTGATGGAGCTCGATGCTTCGTCAAACTCCTCGCGAACCTTATGCAGGCTGGATGCCGAGAGGAAGTATGCCATGACGCTCGCCTGCGGAAGCGGGGGAAAGGTCTATGCCGGACTGGGCACGACGTCGCCGGCCATCGCCTGCTTTCATAAGGAAACCGGAGTGTTGGAGATCGTTCTGGAGGGGTCGCCGGATACGACGGGCAGCGGTGCCGTTCACCAAGGCTGCGACGGCGCCGTTTACGGCTGGCTGCCATCCGGAGAGAACGGAGACGGCATATGGTACCAGCTGGGCGAGCGGGGGGCAGAGCAAGTAGCGGCGGCGGAGGTCAACCTGTCCCTGTATAAGGGGGCAGGTTACAACAAGCTGCACCGGGACCTTGATGCCGGTCGAGTGCTGCTGAAATGGCAGCTGTCCGACAGGCAGATCGAAATCATGGAAGCGGACGGAAGCCTGAGCCGGATTCCGCTTGCCTATAAGGGAGGCGGAACGTCACTCTCTCCGCTGTTCGGAGGTCCGGACGGCATTCTTTACGGCACTTCCAATCACCCGCTTCATCTGTTCACGTACGATACCGAAGCCGGGCATCTGACCGATTGGGGCGGCGATATCGTGGAGCGGGGAGGCGGCGGCAATATTGCCGCTTACTCGGCTCAAGGCAGCATCCTCGTGGGTGCGGCTTATGCCGGCGGCATGGTCCATCTATTGGATACGGCGAAAGAATGGTGTACGGAACCTGGACCTCATCGGAATCCCCGGCTGATTTATGATAATGCCGCTGTCCACAGGCCGAGATGCGCAGCCGCGCATCCGGACGGCCGCCATGTGTTGTACGGCGGCTTTCCCGGTTATGGTGCGGCCGGCGGCGGGCTCGGCATCGTGGATGTGCTGGCAGGTCGGGTGGAGATGCTGGAGAACCGGGAAATCGTCAGCGGGCAGAGTACGATTTCGCTTGCCGTGCTGCCGGATGGCAGGGTATTCGGCGGCACCAGCATCGAGACGCCCGGCGGCGGGATCAGCACGGCCGAGGAAGCGGTGATGTATGAGTTGAATTGGCCTGACCGACAAGTGATTCGGCGCTGGGTGCCGGTTCCGGGCGCCAGGGAAATCGCTCAGCTGATTTCCGGGCCAAACGGGCTTCTCTATGGCTTGACCTCGGAATCGGTGTTCTTTGTTTACGATGCAGGACTGCAAAAGATCATTCATTGCCGCGGTCTTTCTTCCTGGGGAGGTATTGTCCGGCAGGGACTGCTCATGATAGAGCGAAAGGGGCATCCATTCCTTCTGGGTCTGCTGAGCGGGGCTTTGTTCACCGTAAATACGGTGAATATGCAGCCGGAACTGCTGGAAGTGCTTCCGGTCGAAGCGACCAGCGGAATCGCCTGCCTGAATGGATACGTGTATTTCGGTTCCGGTGCTGAGCTGTGGCGGTATCGGATGGAAGAGGAGGGTGATTACTTTTATGACTCGCTTTAA	MRKAMNNTEEVNDSKATGTMGVFERIGVPVDVDESRSAAVCRRADGTERIVIAARGYVLIADPGTGNSTQLYFPGGEGQYPFASISDSRGWFYTGAGRYFYVIDPFTPAFVGQHRVPEGEEGAGFAFAVDGDGRVYATTYPGSYLMELDASSNSSRTLCRLDAERKYAMTLACGSGGKVYAGLGTTSPAIACFHKETGVLEIVLEGSPDTTGSGAVHQGCDGAVYGWLPSGENGDGIWYQLGERGAEQVAAAEVNLSLYKGAGYNKLHRDLDAGRVLLKWQLSDRQIEIMEADGSLSRIPLAYKGGGTSLSPLFGGPDGILYGTSNHPLHLFTYDTEAGHLTDWGGDIVERGGGGNIAAYSAQGSILVGAAYAGGMVHLLDTAKEWCTEPGPHRNPRLIYDNAAVHRPRCAAAHPDGRHVLYGGFPGYGAAGGGLGIVDVLAGRVEMLENREIVSGQSTISLAVLPDGRVFGGTSIETPGGGISTAEEAVMYELNWPDRQVIRRWVPVPGAREIAQLISGPNGLLYGLTSESVFFVYDAGLQKIIHCRGLSSWGGIVRQGLLMIERKGHPFLLGLLSGALFTVNTVNMQPELLEVLPVEATSGIACLNGYVYFGSGAELWRYRMEEEGDYFYDSL				NA	NA	NA	NA	NA
AK002_03352	1239	per_1	COG0399	GDP-perosamine synthase	GTGGCAGCGTTAGCGATCCATGGAGGGGCGCCGGTCAAGACCGGTCCTTTTGGCACAGGCAAAAGATTCGGGGAAGAGGAGGCCGCGCATCTGCTCGAAGCGCTGGAGCAGAACACGCTGTTTTATCATTTCGGCACCAAGGTTAAACGGTTTTTGACCGATTTCAATGCGATGTACGGCCGGGAATACAGTGTAGCGACATCCTCCGGCACCGCGGCGATTCATGTGGCGCTGGGCGCGGCTGGCGTCTCCGTAGGGGACGAGGTCATTACAAGCCCGATTACGGACCAGGGAACGCTGATCGGCATTCTGTACCAGAATGCGATTCCCGTGTTTGCCGATCTGGAGCCTTACACTTACAATCTGGATCCGGCCTCGATCGAAGCCTGCGTTACGCCGAGAACGAAAGCGATCCTTGTCGTCCATCTGGCGGGATATCCGTGCGATATGGACCCGATCATGGAGATCGCGAGAAAGCATGGCATCAAGGTCATTGAGGATTGCGCACAGGCTTATCTGACCCGGTATAAGGGGAGGCTGACCGGCACCATTGGCGATTATGGCTGTTTCAGCACGAACGATTTTAAGCATATCTCCACCGGGGACGGAGGCATGGTGCTGATCAATTCGGGAAAGCGCGAGGATTACGAAACCGCTCACGCTTTTGCGGACAAAAACTACCGCCGTCTCGGCACCACGGTTGACCGGGGAACCAGCTATATTGCGCCGAATTACCGGATGACCGAGCTGCAGGGAGCCGTCGGAATCGCCCAGCTCAAGAAGCTGCCCTGGATATGCGGGCGGCGTCAGCAATATGGCGACCGGCTCAATGAAGGATTGCAAGGAATCCAGGGCGTCATTCCGCCGCAGGTCGACCCGGAGCATGACTGTACATACTGGTTCTACATGCTGCGACTTGACTTGAATAAGCTGACCTGCAGCCGTGAAGAGTTCTGCAGGGCGCTGGAGGCAGAGGGAATCCCCAACCGTGCCGGCTATATCCCGCAGGTATGCTATTTGCAGCCGCTGTTCCAGAACCGGCAGGCTTATCAGGGGAGCCATTTTCCGTTTGACGGCAGCAGCGTCTCTTATGAGCCTGGCCGTTGTCCTGTCGCGGAGGCGATATTAGACACGACGGTGCAGATTCCGATGAACGAATTCTACACGCCCGAGGATATTGAGCATATCATTCAGGCGGTTGCCAAGGTAGGCGCTTATTATGCGAAAAGCGATGAATAA	MAALAIHGGAPVKTGPFGTGKRFGEEEAAHLLEALEQNTLFYHFGTKVKRFLTDFNAMYGREYSVATSSGTAAIHVALGAAGVSVGDEVITSPITDQGTLIGILYQNAIPVFADLEPYTYNLDPASIEACVTPRTKAILVVHLAGYPCDMDPIMEIARKHGIKVIEDCAQAYLTRYKGRLTGTIGDYGCFSTNDFKHISTGDGGMVLINSGKREDYETAHAFADKNYRRLGTTVDRGTSYIAPNYRMTELQGAVGIAQLKKLPWICGRRQQYGDRLNEGLQGIQGVIPPQVDPEHDCTYWFYMLRLDLNKLTCSREEFCRALEAEGIPNRAGYIPQVCYLQPLFQNRQAYQGSHFPFDGSSVSYEPGRCPVAEAILDTTVQIPMNEFYTPEDIEHIIQAVAKVGAYYAKSDE	PGPT0022785_232	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010	NA	NA
AK002_03353	1704			hypothetical protein	ATGGAAAAAACAGCGAAAATCGGTCTGTGGTTTAACAGGCAGTCGGCGGAATACTTCTGGGGACACGGCCAGGACCTGTTTCAGCTTTATGTGGAGGAGGTGCTTGGTCATGCGGGCATTCCTTATGTAAGGTTTGATGATGCCGAAACGCTCGAGTCATATGAACCCGATATCATCGTCGTACTGCACCCGGGGGAGAAGGAAGAGGACCTGAACCGATTGGAGCAGTGGGCCCGCCGAGGAGCGACGCTCATCAGTTACGGCGGATTGAACCGTATGGCCGGACAGATGGGCTGTACCCGGTCTGTCATCCGGGATGCGGTGTATGGGGACCTGACAGGGCTAAGCTATGCGCAAGGCATACCGGTTCTAAGGGCGGTAAGCAGCGATCCGTGGATGGTGTCGGAGAAGTCCGTCATCCCGGTTCAAGCGGATGGCGTTCTGCGCCGGCTCCGTAAAGCTGGTGCTGAGGCAGCCGCAGCCGTTCTGGAGTTTTCGCTAGGTGTCGGCCGGCTGATCCGCTGGAATGTGGACATCCCCGCGAATATCGTTCTGCTTCAGCAGGGCGGCGGCCCGGTCGTCCAGGACGGCATCCCCGCACCGGACGGTACGGGAGCGGTGGACGAAGGCATTTTGAAGGCCGATGACCGGTGTGAGTTGGACTGGAATGAAGACCGCTCGGTGACGGAGACCGGGATGCCGTACTTTGATACGCCGTATGCAGACTGGTGGCGCGAGGTGATTGTCCGTCAGCTGATGGAGGAAGCAGTTGCGCTGGGAATGACGCTTCCGTTTCTGGACTATTGGCCGGAAGGCGTCAATCAGGTGGCCATGATCTCGCACGACAGCGACTTCAACATAGAGGAGGCGGCCCAAACGACTCTGAGCGTGCTTCAGGAAAACGGCGTCCGCTCGACCTGGTGCATGATCGAACCGGGCTACTCCCCGTCGCTCTACAAAGAAATTCAGGCTGCCGGGCATGAGCTGGCATTTCACTACAATGCTTTGGAGCAGGAGAAGGGGATATGGAGCGCCGAGGAATTTGCCCGTCAACTGAACGTAATCCGGAGCACCAGCGGCGCGCCGATCATTTCGAACAAGAACCACTATACCCGCTTTGAGGGCTGGGGAGAGCTCTATGTATGGTGCGAGCAGAACGGCATCGAAGCGGATCAAACTAGAGGGCCGAGCAAAAAAGGAAATGTCGGCTTTCCGTTCGGTACCAGCCATCCGTATTACCCGATCGCTCGTTCGGATGACCGCAACCGGCTATACCGTGTGCTGCAGATCGGCTTTCTTACCCAGGACCTGGAGCATCCCACGCTTTCGGATGCGTCGGTGATTGCCCCGTTTCTCGAAAAGGTGGCGGAAGTCCGCGGCGTCGCCCATTTTCTGTTTCACCAGCAGCACATCCATCATCTAGGGAACGTTCGGCATGCGTTTTCGCAAGCGGTCGAAACCGCGAAGCGGCTCGGTTATGCGTTCTGGACGAGCGAGGAGATCACCCGCTGGGAGCAGGCCAGACGAGCTGCGGTGCTCCGGGTAGGCGCAGACGGTACCCTCATCACCGAGAATCTTCCGCAGGGAGCGGTAGTGAGCCAGCCGTTGGATGCGGTGGCGGACCCGTCAGCTACGCAAGCGGTCATTCGCTTTGGGCGGCCGTGTACAGGAGCGGCGAGCATTATGAAAGCAGCAGCCGAATAA	MEKTAKIGLWFNRQSAEYFWGHGQDLFQLYVEEVLGHAGIPYVRFDDAETLESYEPDIIVVLHPGEKEEDLNRLEQWARRGATLISYGGLNRMAGQMGCTRSVIRDAVYGDLTGLSYAQGIPVLRAVSSDPWMVSEKSVIPVQADGVLRRLRKAGAEAAAAVLEFSLGVGRLIRWNVDIPANIVLLQQGGGPVVQDGIPAPDGTGAVDEGILKADDRCELDWNEDRSVTETGMPYFDTPYADWWREVIVRQLMEEAVALGMTLPFLDYWPEGVNQVAMISHDSDFNIEEAAQTTLSVLQENGVRSTWCMIEPGYSPSLYKEIQAAGHELAFHYNALEQEKGIWSAEEFARQLNVIRSTSGAPIISNKNHYTRFEGWGELYVWCEQNGIEADQTRGPSKKGNVGFPFGTSHPYYPIARSDDRNRLYRVLQIGFLTQDLEHPTLSDASVIAPFLEKVAEVRGVAHFLFHQQHIHHLGNVRHAFSQAVETAKRLGYAFWTSEEITRWEQARRAAVLRVGADGTLITENLPQGAVVSQPLDAVADPSATQAVIRFGRPCTGAASIMKAAAE				NA	NA	NA	NA	NA
AK002_03354	1596	lipO_21	COG1653	Lipoprotein LipO	ATGTTAAAGAAACGCAGACTTACCGCAGTGATGGCGGCCTTGCTCTCCATCAGCGTGGCAGCATGCGGCGGCCAGCAGAAAGCGGAGGAGAAACCTGGAACGACCACTCGGGGTGAGGAAAAACCGGCACAGACAGAGCAGACGTATGAGATCACAACGATTGATTTTCGCTACGGTGATCCGCCACCGACTTCAAGTCCGGGGCTTGACATGATCAATGAGAAATTTAAAGTCGACTACAAGCCGGTTTTTGTGCCGAATACCGCCTTTGATGAGAAGATCAACGCTGTGTTCGCCTCAGGTAAAATACCCGATGCGATCGGACTTATGTCGGCTGACATCAAGAACCGCTACAATAAATTTGCGAAGCAAGGGGCTTTCCTGGACATCGAGCCTTATATCCAGGAGTATCCGTCGCTTAAAGTGGTGCCTGATTTCATCTGGGATGCCATGCGGGTGAACGGCAAGATTTACGCCATCCCGCAGTATTCTCCGAAGTATCAGGTGGTGACGGTCATCCGTAAGGACTGGCTCGACAAGCTGAACCTGAAAACACCAACGAACTATGAGGAACTGAAAGAAGTGGCGCTGGCATTCACGAACGGAGATCCGGACGGCAACAGCAAGAAGGACACCTACGGGATCGCCATCGGCCAGGACGTTAACCCGAACTTCAACCAGGGACCGTATTGGGACCCGGATGCCTGGTACCACCAGGATGCGCAGGGCAACTACATCCCAGGCATTATCGGTGAAGGCCGCCAGGAGTTCATTACGATGCTGTCTGAGCTCTACAAGCAGGGAGCGATGACGAAGGACTACGCCATCCTGAACTGGGGAGACACCAACAAGGAGTTCTATTCCGGTAAAGCAGGCATCTTTATTGGAACGCCGCGCGGCATGTCGCAGGATTACATGAACGGCCTGCTCAGTATTCATCCGGATGCCCAGTTTATCAGTCTTGGCCCTTTCGAGGACAAATACGGCAACAAAGGGCTTACGTCCGGGGCGGGCTACAACGGAATTACCGTGCTGAGCGCCAAACTTGCCGATGAGCCGGAAAAGCTGAAGAAGATTTTTGAAATGATTGATTTCGGCCGCCAGTTCTATCCGCAGGATCAGCGGAATGATAAAAACGCCGATTTTGATTGGTGGTCGGGCAAAGTCGGTGTAGGTTATGACATGAAGGACGGCGTGCAGGTCAACAAGGAGAATTTCGCATCCGACGGACTTGCGCCTTCCACTTATTTTGTTGATAACACTTCGTGGGCGCCTCAGGATTTCGATAATGATTACTCCATTACGTATCAGACCAAGCAGCTGGTCGATCTGGTGGAGGAGATCGAATCCATGTATAGGGAAATCAAGCTTTATGCTAACCCAATCAATGGCCTGGAGTCGCCGACCGACAACTCGAAGGGCGCCGAGCTGAGAAAGTATGTCATGGATGAGCAGGTAAAAATGATTGCAGGCACCCGTCCGGTTTCGGACTGGGATAAACTGGTCCAGGAGTATCTGGACAAAGGCGGTGCCCAGGTCATCCAGGAATACAACGCGAATATCAAAGAGAAGGATCCGAAGGCACTGTTTAAGTGA	MLKKRRLTAVMAALLSISVAACGGQQKAEEKPGTTTRGEEKPAQTEQTYEITTIDFRYGDPPPTSSPGLDMINEKFKVDYKPVFVPNTAFDEKINAVFASGKIPDAIGLMSADIKNRYNKFAKQGAFLDIEPYIQEYPSLKVVPDFIWDAMRVNGKIYAIPQYSPKYQVVTVIRKDWLDKLNLKTPTNYEELKEVALAFTNGDPDGNSKKDTYGIAIGQDVNPNFNQGPYWDPDAWYHQDAQGNYIPGIIGEGRQEFITMLSELYKQGAMTKDYAILNWGDTNKEFYSGKAGIFIGTPRGMSQDYMNGLLSIHPDAQFISLGPFEDKYGNKGLTSGAGYNGITVLSAKLADEPEKLKKIFEMIDFGRQFYPQDQRNDKNADFDWWSGKVGVGYDMKDGVQVNKENFASDGLAPSTYFVDNTSWAPQDFDNDYSITYQTKQLVDLVEEIESMYREIKLYANPINGLESPTDNSKGAELRKYVMDEQVKMIAGTRPVSDWDKLVQEYLDKGGAQVIQEYNANIKEKDPKALFK	PGPT0017245_2178	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03355	876			hypothetical protein	ATGAAGCAAAAATCCATCGCGGACCGCTTGTTCGGCGGCGTGAATATCACTCTGCTGCTTGTCATATCCGCAGTCATGCTGTTTCCGTTTGTATATTTGTTCTCGGTTTCATTTTCCTCGTTCGAGGATTTTCTGGGCAGCAAACTGCTGCTCTGGCCGTCCAAATGGACGACCGACGCCTATGAATATATCTGGGCCTCCAGGACGTTCCGGCAGGCGCTGCTGAACACGTCGCTGGTTACCGTGCTCGGTACCATCGTCAATCTGTTGTTTACGGCGACGATGGCATACGCCTTGTCAAGACCGATCGTCGGCCAGCGTACCGTCATGTTTATGGTCGTATTTGCGCTCTTGTTCTCGGCCGGCATGATTCCGACCTATCTGGTCGTCCAGGAAACGGGGCTGCTTGATTCCATCTGGTCGCTTATTTTGCCGGTGGCCATCGCGCCCTTCAACCTGATTGTCATCCGCCAATTTTTCATGAACATACCAAGCGATATGATCGAGGCGGGCATCGTGGACGGCGCGAATGACCTGCAGATTTTCGGGCGCATCATCCTGCCGCTCTCGAAGCCTGCGCTGGCGGCTTTCAGCCTGTTTTATGCGGTCACGCACTGGAACAACTATTTTGCGCCGATTCTGTACATCAATGATCCGGCCAAATGGACGATACAGGTCGTGTTGAGACAGATTGTGGTGGTGGGGGAAACGACGGGCACGCTCGGGGGAGATAACATGTTCCTCGATAATCCGCCGCCTCCCGAAACGATTCAGATGGCCGCCATTCTGATGGCGACCCTGCCGATCCTGATCGTGTATCCGTTCCTGCAAAAGCACTTTGCCAAGGGCGTCATGCTGGGCGCCGTCAAGGGTTGA	MKQKSIADRLFGGVNITLLLVISAVMLFPFVYLFSVSFSSFEDFLGSKLLLWPSKWTTDAYEYIWASRTFRQALLNTSLVTVLGTIVNLLFTATMAYALSRPIVGQRTVMFMVVFALLFSAGMIPTYLVVQETGLLDSIWSLILPVAIAPFNLIVIRQFFMNIPSDMIEAGIVDGANDLQIFGRIILPLSKPALAAFSLFYAVTHWNNYFAPILYINDPAKWTIQVVLRQIVVVGETTGTLGGDNMFLDNPPPPETIQMAAILMATLPILIVYPFLQKHFAKGVMLGAVKG	PGPT0017255_2408	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03356	963	yteP_41	COG4209	putative multiple-sugar transport system permease YteP	ATGGAAACCGTGATATCGGAGGTCAATCCATCCGCTCCCGCCAAAAAGAGCGCTTGGAAGCGAATCCGGACCCGAATGTGGAGGGACCGTTATCTGTACCTGCTGCTGCTGCCGGGCCTGCTTTACTTTATCGTGTACCGGTATCTGCCCATGCTGGGCATATCGCTTGCCTTTAAAGAATACAGCCCGTTCCGGGGGTTCGCGGAGAGTCCTTGGGTCGGATTCGCAAACTTTGCCCGGATTTTCGAAAGCCCGGAGGTTATCCAGGTTATATGGAATACGCTGACCATTTCCTTTTTGCAAATCGCGTTCGCATTTCCGGCGCCGATCATTCTGGCCATCATGCTGAACGAGGTGGCAAATCCGCTCTTGAAAAGAGGGCTGCAGTCCATCGTTTACCTGCCGCATTTTCTGTCTTGGGTCGTGGTGGTCGGCATCGTGACGATCTTTTTCCGCAACGAGGGCTTGATCAACGACGTGCTGCGCGAATGGTTCGGCTTGCAGCAGACGATCCCTTTTCTCACCGAGCCCGATTATTTCCGAGCTTTTCTGATTTTGGAGGTCATCTGGAAGGAAGCCGGCTGGGGAACGATTATTTTCCTCGCGGCGCTGGCAGGCGTCAACCCGGCTCTTTACGAGGCGGCCGTCATGGACGGCGCAGGGCGCTTCCGCCAAATCTGGCATATTACGCTGCCCGCTATCCGCAGCACGATCATTATCATGCTGATCATACGTCTGGGCGACGTGCTGGAGGTCGGCTTCGAGCAGGTGTTCCTTCAGCTGAACGCCTTTAACATGCACATCGGCAATACGCTCGACACCTTCGTGTATTACAAGGGGATCCAGCAGTCGGACTACAGCTTCTCCACCGCGGTCGGCGTATTCAAGGGTCTGGTCGGTCTTGTGCTGGTTATGGCCGCCAACAAGCTGTCCAAGCGGTTCGGCGAGCAGGGCGTATATTAG	METVISEVNPSAPAKKSAWKRIRTRMWRDRYLYLLLLPGLLYFIVYRYLPMLGISLAFKEYSPFRGFAESPWVGFANFARIFESPEVIQVIWNTLTISFLQIAFAFPAPIILAIMLNEVANPLLKRGLQSIVYLPHFLSWVVVVGIVTIFFRNEGLINDVLREWFGLQQTIPFLTEPDYFRAFLILEVIWKEAGWGTIIFLAALAGVNPALYEAAVMDGAGRFRQIWHITLPAIRSTIIIMLIIRLGDVLEVGFEQVFLQLNAFNMHIGNTLDTFVYYKGIQQSDYSFSTAVGVFKGLVGLVLVMAANKLSKRFGEQGVY	PGPT0017250_1064	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03357	2523			hypothetical protein	TTGTTGCTGCGGATGGAATTTATTAAGCCCTCGCTGCTGGAGCCCGGGGAGGAACATCGGCTTAACTTCATGCTTATGCACCCCTGCGGAAGAATGGAGCCGCAATCGGATACGGCCTTTAGCATGACTTGCAGCGACCCGGAGATCGTTGAGGTGAACGGCAGCGTGATCACCGGGTTAAAGCCGGGCGAGACCGAAATTGCCGTAGACTTTCTGGACGATAGATTTTCAGAGTTTAAATGGAAGGTTCTTGTAAGGCCGGCTGGTCAACCTTCGAAATTGAAGCTGAAGGACCGTCCGAGGATTTTGTTTTCGATCGATGAGCTCGCGGATTTTCGGGATCGGGTTAAGCGGGATGAAGGCAGTTCTGCGAGGGAAATCGATGCATCCGGGCTATGGGCCGGATACTTGGCAAAAGCGGACGACTATGTGGAGGAAGATAGCTTCGAGGTGCTGTATCCGTCCATAACGGATCAGTGGAAGGTTGCGATGCCCCTAACGGAGCCTAATCGAGTACCAGAACCGCAAGGCCATACCTTCTTCCCGTTCTGGACGATGTATGCCAGAGCGATAGAGGATCGGCTGGTCGTCATGTCCACGGCCTTCCTGGTGACGGAAGAGAGAAAGTATGCGGTTCGAGTGAAGCAGCATCTGTTGTCCTTGGCCTCATTCGGAAAATGGTATGAGTTCGACGAGCGGGGCGCGGAAGGAAATCTGAGCAACGCCCATCTGCTGCTAGGCGCTTCGTGCGCCTACGATGCCATTCACAGCTTGCTGACGGAAGAAGAGCGGCGATCGATTCGCCAAGCCATTCTGGAAAAAGGGCTGCATCCGCTGGCCATCGATATCGGAAGCTGTGATATGCACAACATCGTGGCAGCTAAGCAGGTGGCGATGGTGTACGGCGCGGCGGCCATTATGGATGAGAACCCGTTTGCGGCCAAGTATCTACAAGCAGGACTTACTTATCTTCAAAGCTATCTGGACCGAAAAGGGGTGTCCGGAGAAACAGAGGGGCTGCTGTACGACAATGTGGCTGCGCGCCATGCCTGGATGGCGGCGGATCTTTATCGGAGAATCAGCGGCGATGACAGGCTGGTTCAGCATCCGTATTTGCGGGAAGAGCTTCCTGAACGTTTTTTTCGGCTGCTGGCACCGGGAAAAGAAAGCTCGTTCCCGAATCTGTCGGATTCGTTTTACAAGCTCGATATCGCTTTCCTCATGGCCATGACAGCTACCCATTACGACCATCCGGCAGCGGCTTGGTACCTGCACAAGCATGCTGCAACGCATCATGCATCGCTTCTTTATTTACGGAAAGAGACCTCACCTGCAAGTCCTACGGAGCTGTACGGCAAGCGCGCTTCCGCGGTATTCCGGAGCGTAGGCTGGGCCGCCCTGCGGTCGGGATGGGGCGATGAGGATCATCTGCTGTGCTTTACCTCAAGCAGCTCGGCGAAGGACCATAATCACAAGGACCATAATCACAAGGACCAGAACAATCTGGTGATCAATGTCGGCGGAGAGTGGCTGTTGACCAATCCCGGCTACCAGGATTATGTACCTGGTCCGAAGGCGGATTACACTACCGGCACGGTGGGTCATAATTCGCTGCTCGTCAATGGTCAGGGGCAGATCCGCCTGGGTGGAGGGGGTCTCCGGGAGGAGTTGTTGCTCCCGTCATTTGAGGCGGTTGTCGGGGACGCTGCCGAAAGCTATGGCGGGCTGCTGAAACGCTACCGGCGATCTGTTCTACATATCGATTCGTCATATTACTTCATCGTGGATGACGTGGAGCTTCATCAGGAATCGGATGAGGCCGAGCTGCTGTTTCATACGACTTCGGCGGTTCTCGATGGAGAAGAGCCCAAGGCTCCGGGCGAGAATCTGGGAAGTGAATCCGTTGTATTCCAGGGACAAAGCGCCGCACTGCAGCTCATGTTTCCTTTTCCTAAGGAGAAGGTGCTCACCCTCCGCGAGTACCCCGGTGCTGAAACTTATGGTCCTTATGTAGCTGTCGGTGGCACGCGAGGGAAGAGACGGCGGTTCATCACGCTGATCAATCCACGGGTCTATTACGACGAGAGGTTGACCATCCATCAGAAGGAGCAGGAAAGCGGAAGCCTGACTGCCGGGTTAACGGTGGAAAGGCCGGGCGGGGGGGAGGATATCTGGCTGTTCTGCGCTGACGCTGTGGAAGCCCGCTACCGGGGCATGTCCTTTCTGGGAGAAGCCGCCCGCATATCGGGTAGCGGCCTGCTTAATTTGTGGAAGGCTGAACGGTTGTGCGGCGGGGACATCGATTTTGAAGCGGAGCTGCCTCTGAGTCTATACAGGGATGCCCGCCGTTCAACCTGCATTGTGCATAATCCCCACCCAGTGGAGGTCTCCTTCAAGCTGAAGCAGGTAACTGCTGGCGTGGAAGTCGAACAAACCGCACCGCCCGGCTATTATGAATGGAATCTTATGGATATCGACAGAGGTGGTCGGGCCGAAGGGAGAGAGGCTGTATGGAAACCGTGA	MLLRMEFIKPSLLEPGEEHRLNFMLMHPCGRMEPQSDTAFSMTCSDPEIVEVNGSVITGLKPGETEIAVDFLDDRFSEFKWKVLVRPAGQPSKLKLKDRPRILFSIDELADFRDRVKRDEGSSAREIDASGLWAGYLAKADDYVEEDSFEVLYPSITDQWKVAMPLTEPNRVPEPQGHTFFPFWTMYARAIEDRLVVMSTAFLVTEERKYAVRVKQHLLSLASFGKWYEFDERGAEGNLSNAHLLLGASCAYDAIHSLLTEEERRSIRQAILEKGLHPLAIDIGSCDMHNIVAAKQVAMVYGAAAIMDENPFAAKYLQAGLTYLQSYLDRKGVSGETEGLLYDNVAARHAWMAADLYRRISGDDRLVQHPYLREELPERFFRLLAPGKESSFPNLSDSFYKLDIAFLMAMTATHYDHPAAAWYLHKHAATHHASLLYLRKETSPASPTELYGKRASAVFRSVGWAALRSGWGDEDHLLCFTSSSSAKDHNHKDHNHKDQNNLVINVGGEWLLTNPGYQDYVPGPKADYTTGTVGHNSLLVNGQGQIRLGGGGLREELLLPSFEAVVGDAAESYGGLLKRYRRSVLHIDSSYYFIVDDVELHQESDEAELLFHTTSAVLDGEEPKAPGENLGSESVVFQGQSAALQLMFPFPKEKVLTLREYPGAETYGPYVAVGGTRGKRRRFITLINPRVYYDERLTIHQKEQESGSLTAGLTVERPGGGEDIWLFCADAVEARYRGMSFLGEAARISGSGLLNLWKAERLCGGDIDFEAELPLSLYRDARRSTCIVHNPHPVEVSFKLKQVTAGVEVEQTAPPGYYEWNLMDIDRGGRAEGREAVWKP				NA	NA	NA	NA	NA
AK002_03358	900			hypothetical protein	ATGGATTACACTTCCCAGGCAGAAGCGGCTTTCGAAGTAAAACGGTGGCCCAAACATACCCTAGCGGCGGGTCGACGCCATTCCGTGGCTCTTCAATCGGACGGCACGGTCACGGCCGCAGGAGATAATCATTACGGCCAATGCGATGTCAGCAGCTGGCGCGATATCGTAGCGGTCGCGGCCGGGAATGTTCATATGGCAACGAACACGGGGAATGCTCATACCATCGGTCTTAGATCGGACGGTACGGTGGCGGCTGTAGGTTGGAATAAGCATAATCAATGCGATGTCAGCGGGTGGCGCGATATGGTTGCGGTTGCGGCGGGCTGGCGCCGCACCGTCGGTCTTCAATCGGACGGCGCAGTGGTGGCTGCGGGACGAAATAATGAAGGTCAATGCAGTGTAGGCGGCTGGCTTGACATAGCGGCGGTCGCCGCAGGTGACTGGCATACGGTCGGTCTAAAAACGGACGGCACGGTAACGATCGCGGGGAATAATCGGTACGGCCAATGCAATGTAAGCAGCTGGCGCAACATCGTGGAGGCATCGGCGGGCTACCTTCATACCGTCGGGCTTCAATCGGACAGCACGGTGGCCGCTGTAGGTTTAAATAAGCACGGACAGTGCGATGTAATCGGTTGGAGCGGCATAGTGGCGGTCGCGGCGGGGAGTTATCATACCATCGGTCTTAAATCCGACGGTACGGTCATTGCCGCGGGCTGGAATAAGCATGGACAATGCAATGTAAGCGGCTGGCGCGACATTGTAGCGGTAGCGGCGGGATGTGCTCATACGCTCGGCCTTCAATCGGACGGCACGGTCGTAGCCGTGGGTGATAATGAATATGGCCAATGCGATGTGAGCGAATGGCGCGGCATCCAGCTGCCCGGCAGGTATTAA	MDYTSQAEAAFEVKRWPKHTLAAGRRHSVALQSDGTVTAAGDNHYGQCDVSSWRDIVAVAAGNVHMATNTGNAHTIGLRSDGTVAAVGWNKHNQCDVSGWRDMVAVAAGWRRTVGLQSDGAVVAAGRNNEGQCSVGGWLDIAAVAAGDWHTVGLKTDGTVTIAGNNRYGQCNVSSWRNIVEASAGYLHTVGLQSDSTVAAVGLNKHGQCDVIGWSGIVAVAAGSYHTIGLKSDGTVIAAGWNKHGQCNVSGWRDIVAVAAGCAHTLGLQSDGTVVAVGDNEYGQCDVSEWRGIQLPGRY				NA	NA	NA	NA	NA
AK002_03359	696			hypothetical protein	ATGGAGAAAGGGGATTATGCTTTAGCATCCTATCGTAACCTACAGCCCGGCGAATTCATTACGTTCGGCACGTATCCGCAGTCCGTGGACGGCAAAGAACAGGCGATTACTTGGCGTGTTCTTCAAAACTCAGGAAGCCAGCTGTTGGTAATGAGCGAGTATATTTTGGACTGCAAGAGGTATCACGGCAAGAGTGCGGATCTGACGTGGCGTGATTGCATGGATATATCGTGGCAGGACTGCGACTTGCGCGAGTGGCTGAATCATGAATTCTATAACGTCGCATTCAATGCTTCGGAGAAAGAACTCATCAAGACGACGCATTGCACGGACAATGGAAAGGGCTGCCCGGATACGGAGGACAAGGTTTTTCTGCTCAGCGTTGCCGAAATAAACGATGTATCTGAGACTCACGGCAAGGATTGGAGACGCGCTGTCGGAACCGATTATGCCAAAGCGAAAAAGCCCGATGGATGCAGCTTATATGTATATGATAAAACGAACAAAGACAACTATGTCATCATAGACGGCAAAGAAGCCGGCTGCTCCTGGTGGTGGTTGCGAACGCAAGGAAACAAGCCTTCACGTGCGTTTTTTGTAGGGACAGGCTGCAGTGCTCGCAGCTATGGAAATAACAGTATAGACGGTTATGGCATACGCCCTGCTTTAAATTTGGATCTATCCGAGATGGAATAG	MEKGDYALASYRNLQPGEFITFGTYPQSVDGKEQAITWRVLQNSGSQLLVMSEYILDCKRYHGKSADLTWRDCMDISWQDCDLREWLNHEFYNVAFNASEKELIKTTHCTDNGKGCPDTEDKVFLLSVAEINDVSETHGKDWRRAVGTDYAKAKKPDGCSLYVYDKTNKDNYVIIDGKEAGCSWWWLRTQGNKPSRAFFVGTGCSARSYGNNSIDGYGIRPALNLDLSEME				NA	NA	NA	NA	NA
AK002_03360	702			hypothetical protein	ATGGACAGAACCTTTACTCCGAAACAGATGGCCAAGAAACTTAATGTCAGCACCACTACCTTGCGAAGATATGAAAATCTCGGCCTGGTGCCTGACGTACCTCGGACTTCAAGCAACAGAAGATATTACACGCCGCTCCATGATCAAGCATTCCTTGCTTTACGATCCTTGGTTCAAGGATTCGATCTGCCTATCGCCTACGAGGTCATGAGTTTATTAAAGAAGGGGCATGTTGAACAAGCACTTTGGATGATCAATGTGCAACAGTACAACATTCAGGTAGAGAAGCAACGAGTCGAGGAGATTATGGGGCTCATCCATCAAACCGATTTCTCCAAGTATAGAAATATTCAGGTCACGGATGAAATGAAAATCGGGGAGGTCGCCATGATTGCTGGCGTTAACCCCTCCGCTATTCGACATTGGGAAAAGGAGGGGCTTATTCGCGCTAAGCGAAACGCGGAAAACGGATATCGAGTCTTTACGTCTCAGGAATTAAAAAAGATTATTGTGCTAAGCAGTTTAAGGAAAACCGTCTTTTTCATTGAAAGCATGAAACAGCTGCTTGAAGCTTTAGAGACACATGATCTAACTACGATTGAACGCTCCTTCAAAGTGGCTCTTCAGAAGCTGAATGAGCAACTGGAAAAGCAAATGAATGGCATATCCGAAATGATGAGATACATACAATTTTTCAAGTAA	MDRTFTPKQMAKKLNVSTTTLRRYENLGLVPDVPRTSSNRRYYTPLHDQAFLALRSLVQGFDLPIAYEVMSLLKKGHVEQALWMINVQQYNIQVEKQRVEEIMGLIHQTDFSKYRNIQVTDEMKIGEVAMIAGVNPSAIRHWEKEGLIRAKRNAENGYRVFTSQELKKIIVLSSLRKTVFFIESMKQLLEALETHDLTTIERSFKVALQKLNEQLEKQMNGISEMMRYIQFFK				NA	NA	NA	NA	NA
AK002_03361	750	drrB_2		Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB	ATGAAAAGCAAAACAGGGGTATTATTGGGGCGTTTAATGCGCAACATCATGAGAAGCCCGGATACGATTATCACGGTGGCGATTACGCCGATAATGATGATGCTGTTGTTTGTCTACGTATTTGGCGGCGCCATAGAGACAGGTACGGCCAACTACGTCAATTATTTATTGCCGGGAATTTTGCTGATGGCTATCGCATCCGGCGTCTCTTATACTGCCTTCCGGCTGTTCGGAGATGTAAAGAGCGGGCTGATGGCGCGTTTCATTACCATGCCGATCAAGCGCTCGTCGGTATTGTGGGCTCATGTGTTGACATCGCTTGTTTCCAATGCGCTAACGGTCGTGGTGGTTTTCCTCGTCGCTCTATTGATGGGTTTCCGTTCCGGCGCTAATATCCTGGATTGGCTCGCGGTAACAGGGATACTCGGGTTGTTTACGCTGGCGCTGACATGGCTGGCGGTCATTCCCGGCTTGACAGCAAAGACGATGGAAGGGGCGACGGCCTTCTCGTACCCGCTGATATTCTTGCCGTTTATCAGTTCGGCCTTTGTCCCTACCGAAACCATGCCTAAAATTGTCCGTGCGTTCGCTGAGAACCAGCCCGTGACTTCCATCGTGAATGCGATTCGTGCCCTCTTGCATGAAGGATCTGTCGGCAACGATATCTGGATCGCGCTTGCCTGGTGCGTCGGCATCATGGTCATCGCTTACTTTTTCGCCAATAAAGCCTTTAAGCGCCAGTTAGGATAA	MKSKTGVLLGRLMRNIMRSPDTIITVAITPIMMMLLFVYVFGGAIETGTANYVNYLLPGILLMAIASGVSYTAFRLFGDVKSGLMARFITMPIKRSSVLWAHVLTSLVSNALTVVVVFLVALLMGFRSGANILDWLAVTGILGLFTLALTWLAVIPGLTAKTMEGATAFSYPLIFLPFISSAFVPTETMPKIVRAFAENQPVTSIVNAIRALLHEGSVGNDIWIALAWCVGIMVIAYFFANKAFKRQLG	PGPT0006730_22072	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03362	762	drrA_4		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGAGCAATGCGGCGATTTCTGTAAAAGGATTGAAAAAATCCTTTAAAGACAAGGAAGTCTTAAAAGGGGTGGATTTTGAAGTGCGGCGCGGCGAAATTTTCGCGCTGCTGGGCTCCAATGGAGCCGGCAAGACGACGACGGTCAACATCCTCTCGACGCTGATGAAGCCCGATGGCGGCACAGCTAGTATTTGCGGCTCTGACGTCCAGCGTCAACCGGATCATGTTCGTCAGAGCATCAGCCTGACTGGGCAGTTTGCAGCTATTGACGGCATGAACACAGGAAGGGAAAACCTGATGATGATCGCCAAGCTCAGGGGAGTTTCCAATACTGCACAAGTCGCCGACAATCTGCTTGCAAAATTCAGCCTGACCGATGCGGCGGGCCGCCGGGCGGACCAATATTCCGGCGGGATGAAGCGCCGGCTTGACATCGCCATGAGCCTGATCGGGAGTCCAGCCGTCATTTTTCTTGACGAACCGACCACAGGACTTGACCCTGAAGCACGCATTGAAGTCTGGAATACCGTCAAGGAGCTTGCCGGCAGCGGCACAACCATCTTGCTGACGACCCAGTACCTGGAGGAAGCCGAACAACTGGCGGACCGTATCGCCATCCTGCATGGCGGAAAAATCATCACGACCGGCACCCTTGCCGAACTCAAAGAGATGTTCCCACCGGCAAAAGTAGAGTATATCGAGAAGCAGCCGACATTGGAGGAAATTTTCCTCGCAATCATCGGCAAAAAGGAGGAAATGTAA	MSNAAISVKGLKKSFKDKEVLKGVDFEVRRGEIFALLGSNGAGKTTTVNILSTLMKPDGGTASICGSDVQRQPDHVRQSISLTGQFAAIDGMNTGRENLMMIAKLRGVSNTAQVADNLLAKFSLTDAAGRRADQYSGGMKRRLDIAMSLIGSPAVIFLDEPTTGLDPEARIEVWNTVKELAGSGTTILLTTQYLEEAEQLADRIAILHGGKIITTGTLAELKEMFPPAKVEYIEKQPTLEEIFLAIIGKKEEM	PGPT0006725_22792	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03363	342			hypothetical protein	ATGATGGAAATATTCAAAAAAATGATCGGCGATAAAAAAGAGTACAAGATGATGATGGCACGCGTTGAAGCCCTGCCGGAAGACTACCAGTATGTATTTAAGAAGATTCAAAATTACATGTGGAATTTCTCCTCAGGCAACGGGATGGATATGCTGCATATGCAGTATGAATTAATCGAATTGTTCGAAGCCGGTGCGGCGGAAGGCAGACCAGTGCTGGAGATCACTGGGGATGACGTGGCATCCTTTGCCGACGAGCTGGTTGCTAACGCTAAAACCTATGTCGCGAAGTATCGTGAAGATTTGAATCAGAGCATCATGAAACGATTGGGTAAGAAATAA	MMEIFKKMIGDKKEYKMMMARVEALPEDYQYVFKKIQNYMWNFSSGNGMDMLHMQYELIELFEAGAAEGRPVLEITGDDVASFADELVANAKTYVAKYREDLNQSIMKRLGKK				NA	NA	NA	NA	NA
AK002_03364	321			hypothetical protein	ATGGAAAATTTAACTGAAATGCTGAAGGGTTCGCTGGAGGGCTGCGTGCTTGAAATCATCAGCCGCCATGAAACCTATGGCTATGAGATTACCCGCCGATTGAACGATCTTGGATTTACCGAAGTCGTGGAAGGGACGGTCTACACCATTCTCGTGCGATTAGAGAAGAAGAAACTGGTGAACATCGAAAAAAAACCGTCAGACATGGGACCGCCCCGCAAGTTTTACACGCTTAATGAAGCGGGCCGCCAGGAACTTGAGTTGTTTTGGGAAAAGTGGGATTTTGTATCATCAAAAATCAACGTCTTGAAGTCGACGTAG	MENLTEMLKGSLEGCVLEIISRHETYGYEITRRLNDLGFTEVVEGTVYTILVRLEKKKLVNIEKKPSDMGPPRKFYTLNEAGRQELELFWEKWDFVSSKINVLKST				NA	NA	NA	NA	NA
AK002_03365	864	rhaR_41		HTH-type transcriptional activator RhaR	ATGAGAAGGTTTCATTTGAATTGGTTTACGAACGATGAGCAATTTAAGTTCTTTATTCAATACGGCCGACATGAGGAGGATATGTATGTGCATCGCCATGCCGATTTCTCCGAACTCGTTATCGTTTTGCACGGGAATGCCACCCATATCGTCAACACAGAGGAATCGTTTATTAAGAAAGGGGACGTCTTTGTCATTAACGGCACAACCTCCCATGGATATAAGGATCCGCATGAGTTTCGGATTTGCAACATCATGTATAGGCCCGAAATGCTGGAATCGGCAGGTCCTGAGTTCAAAAGATCGAACGGGTATCAGGCGCTTTTCGTTCTTGAACCGTATTACCGCAGTATCAACCATGCCTTGAGCAAGATGAGCCTGCCGATCTCAAGTCTGGATTACGTATCCTCCGTTGTTGACTTCATGATTGAGGAATACGCGAACAAGCTGCAGGGCTACCAGACCATCCTGCGGTCGCGATTTATGGAGCTCGTCGTCCAGCTGTCACGGCAGTATGAAAAGCAAGAGCGTCAAGGAGCCCAAAGTAATTTGATGCATTTGGCCAAAGCCATTTCCTTTATGGAGGATCACTATTTGCAGCCCATTTCCCGTGACGAAATTGCGGCCAAATCCAATATATCCGTCAGGCATTTGAATCGGATATTCCAATCCTATTACCAGACAACGCCTTTCGCCTATCTCCTGCAGCTCCGCTTGGAGCATGCATGCAGGCTGTTAAAGACGACTAACCTGCCGATATCGGACATTTCTTATCAGAGCGGATTCAATGACAGCAATTATTTTACCCGTCAGTTCTCGAAGATCTTTGGGCAGTCTCCAAAAGCATACCGAACAAATAGGTAA	MRRFHLNWFTNDEQFKFFIQYGRHEEDMYVHRHADFSELVIVLHGNATHIVNTEESFIKKGDVFVINGTTSHGYKDPHEFRICNIMYRPEMLESAGPEFKRSNGYQALFVLEPYYRSINHALSKMSLPISSLDYVSSVVDFMIEEYANKLQGYQTILRSRFMELVVQLSRQYEKQERQGAQSNLMHLAKAISFMEDHYLQPISRDEIAAKSNISVRHLNRIFQSYYQTTPFAYLLQLRLEHACRLLKTTNLPISDISYQSGFNDSNYFTRQFSKIFGQSPKAYRTNR	PGPT0017785_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
AK002_03366	1434			hypothetical protein	ATGCAAGCAAGAGGAGATTTGGGGAACGGCACTTATAGAAACCCGATTTTGGCCGGTGATTATGCGGATCCTAGCGTGGTCAGAGTCGGAAACGATTATTATATGACGCACTCCAGCTTTAAGTTTGCGCCGGGATTATTGATTTGGCACTCTGAAGACTTGGTGAACTGGGAACCCATCGCCAAAGCGTTAACCGATTATGCCGGCGATATTTGGGCGCCTGATTTGACGTACTACAAAGACCGGTTTTATATCTATGCTCCCATCAATGAAGAGATCATGGTGCTGACGGCGATGCATCCACACGGACCTTGGAGCGATCCGCAAAAGGTGGGGGTGCAAGGAATTGACCCGGGACATGTCGCGGATTCCAATGGAAACCGGTATTTGTTTTTTAGCGATGGTTATATGGTAGAACTGGCTGAGGACGGTTTGTCGGCTGTGGGCACTCCGCGCAAAGTGTACGACGGCTGGGCGTTTCCGAAGGAATGGGTCGTGGAAGGAAACTTTATGGAGTCTCCCAAGCTAACGTTTCATAACGGATATTTCTATCTTACCGTGGCGCAAGGAGGTACCTCGGGGCCTTCGACCAGCCATATGGTCGCTTCTGCGCGATCCAAGGAGCCATGGGGGCCATATGAACACTCCCCCCACAATCCGATTATCCGAACGCAAAGCCGGAATGAACGATGGTGCTCCAAAGGGCACGGTTCCTTGGTTGACACCCCGGACGGCGGCTGGTGGATCGTTTATCATGCGTACGAAAAAGGATACTACACACTCGGCAGGCAAACGCTGCTCGAACCGCTGGAATGGACGGAGGACGGATGGTTCCGCGTCCCGCTTCATTGCAAGACAGATGAGCCTATTCCAAAACCGCCGGGAGATGCCGTTCCGCATGGCATGACTTACGGTGAATTTCAAGAAGCGTCCGGCGGGCTGGGGTATCCGTGGAGCTGGTATCAATCCAGCAATGATATTCAATATACTCTGCAGAAGCAAGCGATAACGATCCAAGCTGCTCCCGAGGTGGCGCCCCTGGTTATGATGCCGGAAGACCATTCTTATGCGGCGCAGGTGGAGATTGAGCTCTCCGAAGAATCGGAAGCCCAGTTATTATTGTTCTATAATGGATCGACGTATAGCGGATTCGGCATATCCCAAGAGGGGCTTTATGGGATTATTCGCGGCTGGGAGACGCCATCAAAGCCTTTTCCGCATCGGCGTGTCATCGTTCGGCTTGAAAATAACGAGCATGAAGTCGTCTTCTATTACAGTGCGGATGGATCGGTATGGAATAAATTTGAGCATTCATTCGAAACCTCAGGCTGGCATCATAACACATTGGGCGGATTTCTTGCATTGCGAATCGCTCTTTGGGCGAAAGGTTCCGGCGAGGTTACGTTTAGAAACTTTATCTATCAGAAGCTGTAA	MQARGDLGNGTYRNPILAGDYADPSVVRVGNDYYMTHSSFKFAPGLLIWHSEDLVNWEPIAKALTDYAGDIWAPDLTYYKDRFYIYAPINEEIMVLTAMHPHGPWSDPQKVGVQGIDPGHVADSNGNRYLFFSDGYMVELAEDGLSAVGTPRKVYDGWAFPKEWVVEGNFMESPKLTFHNGYFYLTVAQGGTSGPSTSHMVASARSKEPWGPYEHSPHNPIIRTQSRNERWCSKGHGSLVDTPDGGWWIVYHAYEKGYYTLGRQTLLEPLEWTEDGWFRVPLHCKTDEPIPKPPGDAVPHGMTYGEFQEASGGLGYPWSWYQSSNDIQYTLQKQAITIQAAPEVAPLVMMPEDHSYAAQVEIELSEESEAQLLLFYNGSTYSGFGISQEGLYGIIRGWETPSKPFPHRRVIVRLENNEHEVVFYYSADGSVWNKFEHSFETSGWHHNTLGGFLALRIALWAKGSGEVTFRNFIYQKL	PGPT0018665_1915	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
AK002_03367	3153	rcsC_12		Sensor histidine kinase RcsC	GTGACAACCATACCCGCTAAGAACCACAAACGATTTCAAATTATCAAAATACTCCCGCATTTTGCGGCATTTGTCGTTTTTTTGAGCATGCTGCTGGGGATCCGTTGGCTCTGGCTTGAAACCTATGCCCCTCCTGCAGATCAACCGAAAGTCTCCAATGGCATACTCGATTTGAGAGGCTGGGATCTGTTGGGCTCAAAATCCATCAACTTGGACGGAGAGTGGCAGTTCTACGCCGACATCCTGGCTAAAGAGCAGGAAATGGAGCCTTCTCATGAGTTTTCCTACGTAAATGTACCTGGGGACTGGAATAATGATCGTACGAATAAGGCAAACACTTCGTTTGGCAGCGGAACGTACCGGCTTCGCATATTGCTGGATCGCCCGCTTTCGGCCCCTATTTCGTTCTGGATCCAGGAGATTCAATCCGCGGCTACCGTGGACATCAACGGCGAAACGGTAGCTTCCATGGGAAGGACGGGCGAGCCCGGCCAAGCCTCCTATCTGCCGAACCGTACCTCTTTCGTTGTCGATTATGTTCCCGACCGGGACGCTAGAGAGCTCGATCTGATCATACGCGTGGCGAATTATGAGCATCCTTACCTAGGCGGAATCGCAAAGCCGATCAAGCTGGGATCGCACCAGGCAATCCAGGATGAGCACGGCGTTTCCGTTGATCTTCAGCTGATTATGTTTGTCGTCCTGATGCTGCACGGACTGTACGCCTTCATTCTATACATATTCAATCCGCGGGAAAGGTCGCTGCTCGATTTTTTCCTGCTGCTAGTATCGGCCGCTTTAACCGTCGTAACATCCCACGACAGTCTCCTGTTGAAATGGGTGCCTTTAAACTATGAATGGGAGGTCAAAGCAACCTTTCTCTCCTATTCGTGGCTGTCGTATTTCATATGGAAGCTGAGCCGCACCTTTACCGACCGGAAACGTAACGTATGGTTTATCACATTCAGCACGCTTCTGGCTCTATATACGGTCGTGGTCTTTGCCGCTCCTGTGTCTTGGGTTCACTGGCTCGTAGAATACCGGGTGTTCGGCGCCTTTTACCTGCTGCCGATGCTGCTGTCGCTGTTCCTGTTTACCCGAATGGTCTTTAACAGCCAGGATGATTCCATATTCCTGTTGCTGTCGGCCAGCGGCGTGCTGGCAAGCGCCCTATGGGGAGCGCTTAATAAATATTGGGAGCTCCCAGCCGTGTATTATCCGGTTGACGTGCTCGCGGCCATCATCGGATTTTCGGCCTATTGGTTTAAGCGATACTTCCGCAACCTTCATCAAATCAGCAAACTCAACGATAAGTTGAAGCACGCGGATCAAATGAAGGACCGGTTCTTGGCCAACACGTCTCACGAGCTGCGCACGCCGCTGCACGGAATCTTGAATATCGCCATAAGCCTTGCTGAACGGGAGAAAGAAACCCTCGGCAAACAGAGCAGCGAGGATTTGAACCTGTTGATTACGGTCAGCCGTCGAATGTCGCATTTATTAAATGATCTGCTGGATGCCGTCCGTCTTCAGGAGAAGCAAATTCAGCTGCAGCCGAGCCGGGTTTCCCTGGTTTCCGTCGTGAACGGGGTATTCGATATCGTAAAATTTATGACGGACGGCGCGCCCGTTCAGTTCAAGATGAATATCCCCGAAACCCTTCCTGCCGTACAGGCGGATGAAAAACGACTCGTTCAAATTTTGCTCAATCTGATTCACAACGCCATCAAATACACGGAGAAGGGCTCCGTTACCGTCTCCGCCTCTACCAAGGGCAGTAAAATGACGATCACGGTAACGGATACCGGGATCGGGATGGACCCTCAAACGCTAAACCGTATTTTTCTTCCGTACGAACAGGGGAATCAAGGGTTAAATGACGCGAAGGGGATCGGCCTAGGGCTTAGCATCAGCAAGGAGCTCGTTGAGCTGCATGACGGCCAGCTGACGGTCGAATCGGAATTAGGGAAAGGAACGACTTTTGCATTCACACTCCCGCTTGCGGACACAAACGCAGAGTATTCTGCTTCGCAGCAGGTTCCCGTACCCGTTGTAGACACAGCTGTATACAATGAAATCGCGGCCAGCTGGGACGTCGCAACAGAAGGTACCCCTATGCAGGTACCAACGAAGTTATGGTCGAAAGAGCATCCCGTCCGTATCCTGGCCGTGGATGACGATCCTGTAAACCTGCGCATCCTTGCCGGCATTCTTTCGGCAGAGCCGTACAACCTGAATGTCGTTGCCTCGGCTGCCGAAGCGCTTGAGCTTCTCGGCTCGCAGCCGTGGGATCTCCTCATAGCGGATGTCATGATGCCGGAGATGTCCGGCTACGAGCTCACCCGCACCGTAAGGGAGCGCTTTAACTCCTCGGAGCTGCCCGTACTGCTGCTGACGGCTCGAGGCGAATCGGCCGATGTGTATGCCGGCTTCCAATCCGGCGCAAATGATTATGTGACGAAGCCGGTTGATCCTGTAGAATTGAGATACCGCATCCATTCCCTGATCACGCTGAAGCATACGGTGGATGATCGTCTGCGCATGGAAGCAGCCTATTTGCAGGCACAGATCCACCCTCACTTTTTGTTCAACACCTTGAATTCGATTATGGCGCTTAGCGAATTGGACATCGATCGCATGCGAAGCCTTGGCGAGGCTTTCAGCTCCTATCTGCAGATCAGCTTCCATTATCGGAATCAGGATCGGCTGGTACCGCTGCAGCAGGAGCTTGAGCTTATCCAAGCCTATTTATACGTAGAGAAGGAACGGTACGGGGAACGCCTGAACGTAATCTGGGAAGTTGATTGGGATCTCAACGTCCTCATCCCGCCGCTGGCGATCCAGCCATTATTGGAGAATGCGGTTCGGCACGGCATTATGAAGAGGGCCAGTGGCGGCACGATACGGATCAGAATTGCGATGCAAGAGGACATTATCGTCGTTGAAGTGACGGATAACGGGCTTGGGATGGAACCCGACCAGGTTGCCCAACTCCTGAATGCACCCGACCATCGAACAGGCGGCATCGGTCTCTACAACACGAATCGTCGTCTGCTCCAAACCTTTGGCAGCGGGCTGGTCATCAAGAGCACGATGAATCAAGGCACTACGGTTTCTTTTCAAATTCCGGTGCAGCTCCCATTACATTCTTAA	MTTIPAKNHKRFQIIKILPHFAAFVVFLSMLLGIRWLWLETYAPPADQPKVSNGILDLRGWDLLGSKSINLDGEWQFYADILAKEQEMEPSHEFSYVNVPGDWNNDRTNKANTSFGSGTYRLRILLDRPLSAPISFWIQEIQSAATVDINGETVASMGRTGEPGQASYLPNRTSFVVDYVPDRDARELDLIIRVANYEHPYLGGIAKPIKLGSHQAIQDEHGVSVDLQLIMFVVLMLHGLYAFILYIFNPRERSLLDFFLLLVSAALTVVTSHDSLLLKWVPLNYEWEVKATFLSYSWLSYFIWKLSRTFTDRKRNVWFITFSTLLALYTVVVFAAPVSWVHWLVEYRVFGAFYLLPMLLSLFLFTRMVFNSQDDSIFLLLSASGVLASALWGALNKYWELPAVYYPVDVLAAIIGFSAYWFKRYFRNLHQISKLNDKLKHADQMKDRFLANTSHELRTPLHGILNIAISLAEREKETLGKQSSEDLNLLITVSRRMSHLLNDLLDAVRLQEKQIQLQPSRVSLVSVVNGVFDIVKFMTDGAPVQFKMNIPETLPAVQADEKRLVQILLNLIHNAIKYTEKGSVTVSASTKGSKMTITVTDTGIGMDPQTLNRIFLPYEQGNQGLNDAKGIGLGLSISKELVELHDGQLTVESELGKGTTFAFTLPLADTNAEYSASQQVPVPVVDTAVYNEIAASWDVATEGTPMQVPTKLWSKEHPVRILAVDDDPVNLRILAGILSAEPYNLNVVASAAEALELLGSQPWDLLIADVMMPEMSGYELTRTVRERFNSSELPVLLLTARGESADVYAGFQSGANDYVTKPVDPVELRYRIHSLITLKHTVDDRLRMEAAYLQAQIHPHFLFNTLNSIMALSELDIDRMRSLGEAFSSYLQISFHYRNQDRLVPLQQELELIQAYLYVEKERYGERLNVIWEVDWDLNVLIPPLAIQPLLENAVRHGIMKRASGGTIRIRIAMQEDIIVVEVTDNGLGMEPDQVAQLLNAPDHRTGGIGLYNTNRRLLQTFGSGLVIKSTMNQGTTVSFQIPVQLPLHS				NA	NA	NA	NA	NA
AK002_03368	906	gltR_1	COG0583	HTH-type transcriptional regulator GltR	ATGGAATTACGCCAACTGATTACGTTCCGCACGGTGGCGTCCACATTAAATTTCAGTCGTGCTGCGGAAGTGCTGAGCTACGTCCCTTCCAACGTCACGATGCAAATGAAGGCATTGGAGGATGAGCTGGGGGTTCGCCTGTTTGACCGTTTGGGCAAGCAGCTCGTACTCACAACGGCGGGTAAACGCTTTTTAACACATGTCCAGAGTGTTCTTGACCAATTGGAAGAAGCTAAAACCGTCGTTCATGACAACGAAGTTCTAAGCGGCACCCTAACGATAAGTGCCAATGAGGTGATTTGCGCCTATCGGCTTCCGGCTGTGTTTCAGTTATTTCGTTCGCGCCATCCGGGCGTGCGTCTCATCTTCCGCTCCGTTCCCAATCAAGAGCTCAAACAAACACTCTTTGAAGGAAGCGCGGACGTCGTCTTTATGCTGGACGAACCCATTCGCTCAAGCGGACTTGCCGTGGAACCCTTGCTGGAAGAAACGTTCCGCTTATTCGCCGCTCCAGACCACCCGCTCGCAAAACGGACTGTGCTGCGGCTCGAAGATTTTCACGAAGAAGTGTTCTTGACGAATGAAAAGGGTTGTCCCTATCGAACCATGTTTGACCGGTCCTTTGAAAAAGAGGGCATTGACAGTATTACGTATTTAGAGTTTCAAAGTGCCGAAGCCATTAAACAATGTGCCATTTCGGGAATCGGCATTGCCTTTCTTCCTGAAATCGTAGCGGAAGCCGAAGTTGAACGAGGCGAACTGGTTGCCCTTCCATGGCAAATTCCGGATTTGCACGTGTATACACAAATGCTGTGGCATAAGGACAAGTGGCTTTCACCCATCATGATGTCGTTCATAGAAGCGGCAAGGGAACTTCTTGCTTCAGAGGAGGATAATAGGTCATAG	MELRQLITFRTVASTLNFSRAAEVLSYVPSNVTMQMKALEDELGVRLFDRLGKQLVLTTAGKRFLTHVQSVLDQLEEAKTVVHDNEVLSGTLTISANEVICAYRLPAVFQLFRSRHPGVRLIFRSVPNQELKQTLFEGSADVVFMLDEPIRSSGLAVEPLLEETFRLFAAPDHPLAKRTVLRLEDFHEEVFLTNEKGCPYRTMFDRSFEKEGIDSITYLEFQSAEAIKQCAISGIGIAFLPEIVAEAEVERGELVALPWQIPDLHVYTQMLWHKDKWLSPIMMSFIEAARELLASEEDNRS				NA	NA	NA	NA	NA
AK002_03369	1020	metXA	COG2021	Homoserine O-acetyltransferase	ATGGATTATGAAATTTTTGATTTGGGTGACGTAACCTTGCAATCCGGAGTGACGTTACCGGATGCTTTTCTTGCTTATAAGACATATGGACGATTAAATGAGAAGAAAGATAATGTCATCGTCTATCCAACTGCTTTTGGAGACCAGCATATACAGAATGAATGGTTGATTGGAGACGGAATGGCATTGGATCCGCGAGAATATTTCATCATCGTTCCAAACCTGTTGGGTAACGGATTATCTTCCTCCCCCAGCAACACGCCTCCCCCATTCGACCGGGCTCAATTTCCGCAGGTAACCATCTATGATAACGTTATATTTCAGCATCGGCTGGTGACCGAAAAATTCGGCATTCACAAGATCGCTCTTGTCGTTGGGTGGTCCATGGGAGGCATTCAAGCATTCCAATGGGGTGCAAGTTATCCCGACATGGTGGAGCGAATCGCCCCTTTTGCCGGCGTTGCCAAGACTTGGCCCCAAACATACGTGGTCCTGGAAGGAATGAAAGCTCCGCTCATGGCTGCAGTCGGCTTCGATTCGAGCAAACTAAACAAGTTGACTACAGAAGACATGCGCGCCGTCGGTCGCGTCTATGCTGGGTGGGGCGTATCGCAGGCGTTTTATAGGGAGGAACTTTATCGTGAGATGGGTTTTGACTCTTTGGCAGATTTTATGGCAGGCGTCTGGGAAGACAGCTTTATGAAGATGGATCCGCACAATGTCCTGGCCATGTTATGGACAGGTCAACATGCAGACATAAGTGCGAACCCCTCCTATGACGGAGATTTCGATAAAGCGCTCAAAAGCATTTCGGCGCTTGCCTGCATCATGCCGGGTAGCACGGATCTCTTCTGCCCGGCGGACGACAATGAATACGAGGCTAATCTTATACCTCATGCTCTATTTAAGCCCATTGAGTCGATCTGGGGTCATTTTGCCGGACGCGGAATCAACAGCGCCGATAATCAATTTATAGATGATAACTTAAAACGCTTGTTAGCGCTTCGTACTAACGAATAG	MDYEIFDLGDVTLQSGVTLPDAFLAYKTYGRLNEKKDNVIVYPTAFGDQHIQNEWLIGDGMALDPREYFIIVPNLLGNGLSSSPSNTPPPFDRAQFPQVTIYDNVIFQHRLVTEKFGIHKIALVVGWSMGGIQAFQWGASYPDMVERIAPFAGVAKTWPQTYVVLEGMKAPLMAAVGFDSSKLNKLTTEDMRAVGRVYAGWGVSQAFYREELYREMGFDSLADFMAGVWEDSFMKMDPHNVLAMLWTGQHADISANPSYDGDFDKALKSISALACIMPGSTDLFCPADDNEYEANLIPHALFKPIESIWGHFAGRGINSADNQFIDDNLKRLLALRTNE				NA	NA	NA	NA	NA
AK002_03370	531			hypothetical protein	ATGTCGAACTCCGTTGAGTTGGTGAAACCTACAGCTGCATATAAGAGGGAGTATCTGTCTTTTTACGAAGATTGGATGTCGGATGAACAGGATATTACCCCGTGGGTAGTGAGGAAAGATCCTTCTGATTTTGATACCATGATCGAATTTTTATATGCGGAAGATACAGAAGAGAAGCTACAGAACAAGAGCTTTGTCCCTCATTCTACGTACTGGCTTATCGACAGCTATTCAAAAAAAGTAATGGGTGCAGTCAATATTAGACACAGACTTAATGAAAAACTCTTGAATAGCGGCGGGCATATCGGTTACGGAATACGTCCGTCGGAAAGAAGAAAGGGCTATGCTTCCGTACTCTTAGCATTAACCCTTGAAATCACGAGAGATATGGGACTAAACAAAGTGCTGCTGGTTTGTGATAAAGGAAATTTGGCATCGGAAAAAACGATTTTGAAGAATGGTGGTCAGTTTGAGTCGGAGTATGTGGAGGAGAATGGGAACGTTGTAAGACGATTTTGGATATTCTTATAG	MSNSVELVKPTAAYKREYLSFYEDWMSDEQDITPWVVRKDPSDFDTMIEFLYAEDTEEKLQNKSFVPHSTYWLIDSYSKKVMGAVNIRHRLNEKLLNSGGHIGYGIRPSERRKGYASVLLALTLEITRDMGLNKVLLVCDKGNLASEKTILKNGGQFESEYVEENGNVVRRFWIFL				NA	NA	NA	NA	NA
AK002_03371	789			hypothetical protein	ATGAGGTTACCCGTACATGAACGATTCATTGAACAGGCAATAGCGTATTTTCGCCAAGATCAACGATTTGCTGGTTTGCTCGCAGGCGGTTCTATGGTGTACGGCGCGATGGATGAGTACAGTGATTTAGATTTAATTGTGGTTTATCGTAATGAATTCCGAAGTGAGATCATGGAACAACGGCTTCAAATTGCTGAAGGGCTGGGTAACCTGCTGTCGGCATTCACGGGGGAGCATGTTGGTGAGCCTCGTTTGGTTATTTGCCTATACGGCCCCGATCCGCTTCATGTCGACCTCAAATTTGTACACCCGCAAGAACTCGAATCTCGAATCGAAGATCCGAGAATTCTATGGGAGAGAGGTTCTGACATTACAACGATACTGAACAAAACGACGATGTCTTTTCCTAACCCTGATCCGCAATGGATTGAAGACCGCTTTTGGGTATGGGTTCATTACGGTGCAACTAAATTAGGGAGAGGCGAATGGTTTGAAGTAATAGATCTTTTAACATTTATGCGAAGCGCCGTCTTGGGGCCGCTCATTCTCATGCGTAACGGCCAGCAACCGCGAGGGGTTCGAAAATTAGAGAAATACGGTGTCCAGGAATTAGAGGAGCTGAAAGGAACGATTTCCCTCCACAACTTTGATAGCTGCTACCAGGCTTTAAAGAATACGATAGCGTTGTACCAAAGCTTACGCCAGGCATCGGAAATTGTAACCAAAACGGAAGCAGAACGTATCTCTATCAAGTTTCTTGACCATGTCTATTCAGCCAAATCTCAATAA	MRLPVHERFIEQAIAYFRQDQRFAGLLAGGSMVYGAMDEYSDLDLIVVYRNEFRSEIMEQRLQIAEGLGNLLSAFTGEHVGEPRLVICLYGPDPLHVDLKFVHPQELESRIEDPRILWERGSDITTILNKTTMSFPNPDPQWIEDRFWVWVHYGATKLGRGEWFEVIDLLTFMRSAVLGPLILMRNGQQPRGVRKLEKYGVQELEELKGTISLHNFDSCYQALKNTIALYQSLRQASEIVTKTEAERISIKFLDHVYSAKSQ				NA	NA	NA	NA	NA
AK002_03372	270	rpsN2	COG0199	Alternate 30S ribosomal protein S14	GTGGCGAAAAAATCGAAAGTCTTGAAAGAACTGAAAAGACAACAGATGGTTGCTAAATACGCGCAGAGGCGTAAGGAACTGAAAGAGAAGAGGGACTACGGAGCTCTCCAAAAACTGCCCCGCGACTCCTCCGCGACCAGGCTTCATCATCGCTGCGCGGTCAGCGGCAGGCCAAGAGGTTATATCAGTAAATTTGGCGTTTCTCGCATTGTTTTTCGGGAGTTGGCCCATAAGGGGCAAATTCCTGGTATAACGAAGTCCAGCTGGTAA	MAKKSKVLKELKRQQMVAKYAQRRKELKEKRDYGALQKLPRDSSATRLHHRCAVSGRPRGYISKFGVSRIVFRELAHKGQIPGITKSSW				NA	NA	NA	NA	NA
AK002_03373	1128	znuA	COG0803	High-affinity zinc uptake system binding-protein ZnuA	ATGAAGAGATTTAAGCGAGTATTAACCCTACTATCCCTATCCGCAGTATTGGCTATTGCAGGCTGCGGCTCGGGTAAACCGACGGTTTCTCATGATGGAAACGGGTCTTCCGCCAGTAACCAGACGTCTGATGCTTCCACAACGGAAGCTACAAAGCTGAAAGTTAAAACCAGCTTCTATCCCATGTATGAATTTACTAGACAGGTAGCGGGCGATCTGGCAGATGTGGAGAATTTAGTTCCTCCAGGAATTGAAGCGCATGATTGGGAGCCGACACCCCAGGACATGGCGGGGATTTCCGATGCCGATGTGCTGGTGTATAATGGCGCCGGCATGGAAGGCTGGGTCGATCAGGTTCTGGAGAGCACCGGGGTATCGGCAATTGAGGCCAGTAAGGGAATAGAGATCATGGAAGGTACCGGTCATTCTCATGATCATGGTGAAGAGGGGGATCACGGCCACGATGATCATGCCCATGATCATGCTGAAGAGGGCGATCACAGCCACGATGATCATGCCCATGATCATGCTGAAGAGGGCGATCACAGCCATGATGAGCATGCCCATGATCAAGAGGAAGAGGGGCATCACCATGACCACGGTGGACTGGATCCGCATGTATGGCTCTCGCCGGCCATGGCTGTCAAACAAGTGCGCAACATCGAGGCAGGTTTGGCCGAAGCAGCTCCGGAACATCAAGAGGCATTCAAAGCAAACGCAGATGCTTATGTTAGTAAACTGGAGGCATTGGACAAGGAGTTTCGAGACGGACTGAAAAATGCCAAACGAAAAGACTTCATTACGCAGCATGCTGCGTTCGGGTATCTAGCCAGAGAATACGGTTTGACTCAAGTGCCGATTGCAGGCTTATCTCCGGACCAAGAGCCCTCGGCTGCTCAAATGGCTGAAGTGATCGAATTTGCCAAGGAGCACAATGTAAAAACGATATTCTTTGAAACGCTTGTGTCGTCAAACGTTGCAGAGACGATAGCCTCTGAGATCGGCGCTTCGACTTCCGTACTTAATCCAATCGAAGGATTAACCGAGGAAGATATCGCGGATAACCTTGATTACATTGCCATTATGCGTCAAAACCTCGACGCTTTAACAAAGGCATTGAATGAATAA	MKRFKRVLTLLSLSAVLAIAGCGSGKPTVSHDGNGSSASNQTSDASTTEATKLKVKTSFYPMYEFTRQVAGDLADVENLVPPGIEAHDWEPTPQDMAGISDADVLVYNGAGMEGWVDQVLESTGVSAIEASKGIEIMEGTGHSHDHGEEGDHGHDDHAHDHAEEGDHSHDDHAHDHAEEGDHSHDEHAHDQEEEGHHHDHGGLDPHVWLSPAMAVKQVRNIEAGLAEAAPEHQEAFKANADAYVSKLEALDKEFRDGLKNAKRKDFITQHAAFGYLAREYGLTQVPIAGLSPDQEPSAAQMAEVIEFAKEHNVKTIFFETLVSSNVAETIASEIGASTSVLNPIEGLTEEDIADNLDYIAIMRQNLDALTKALNE	PGPT0004220_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
AK002_03374	867	znuB_2	COG1108	High-affinity zinc uptake system membrane protein ZnuB	ATGGCGATGCTCGGTTACGAATTCATGCAGCGCGCGTTTTGGGCAGGAGGCCTGATCGGCGTGATCGGTCCCGTTCTGGGCGTGTTTTTAATGCTCAGGCGCCAGGTTCTCATGGCGGACACACTCTCTCATGTATCCTTGGCGGGAGTCGCATTGGGTTCTTTTTTGAAACTGAATCCCGCACTCAGCGGTTTTGCAATGGCTATTGTCGGGGCACTTGTGATTGAACAGCTTAGGAGAGCGTATCGTACATACACCGAGGTTCCGGTTGCCATAATTATGACGTCCGGGCTTGCTCTGTCGGTGGTCCTGATGAGCTTGAATCAAAATCTGAGCAAGAGCTTCAGCTCCTATTTGTTCGGGTCGATTGTTGCGGTTAGCGATACGCAGCTTCGGCTTATTGCGGTGGTAGCAGCAGTAGGGATCATCTTTTTTGTTGGTTTGCGCCGGCCGCTTTATAACTTTGCTTTTGATGAGGAGACCGCTGCGGTATCCGGTATGCGTGTCTCTCTCCTGTCTTTTTTATTCGCCGTGTTTACGGGAATGACGGTTGCCGCCGCAATGCCGGTAGTCGGCGTGTTGTTGGTTTCGGCGTTAATTGTGCTGCCGGCCTCGATCGCACTGCGGATGGCAACAGGTTTTTTAGCAGCCATGGGGATCGCCGTCGTTGTTGGGCTGAGCGGTGTTTTTTCGGGCCTTGCTGCTTCATACTATCTCAATACGCCGCCAGGAGGTACCATTGCCCTGATTCTATTAGGATTTCTAATCATGGCCGTAATCTTTCAAAAATTGCTTCGGTTACAAAATCGAAGATTGATACAAAAAATAAATAGAAATAGGAGTCATAAGAATTATGAAGAGATTTAA	MAMLGYEFMQRAFWAGGLIGVIGPVLGVFLMLRRQVLMADTLSHVSLAGVALGSFLKLNPALSGFAMAIVGALVIEQLRRAYRTYTEVPVAIIMTSGLALSVVLMSLNQNLSKSFSSYLFGSIVAVSDTQLRLIAVVAAVGIIFFVGLRRPLYNFAFDEETAAVSGMRVSLLSFLFAVFTGMTVAAAMPVVGVLLVSALIVLPASIALRMATGFLAAMGIAVVVGLSGVFSGLAASYYLNTPPGGTIALILLGFLIMAVIFQKLLRLQNRRLIQKINRNRSHKNYEEI	PGPT0004225_633	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
AK002_03375	708	znuC_2	COG1121	High-affinity zinc uptake system ATP-binding protein ZnuC	ATGTTATTGTCTTCCATGCGCGACGTTATGTTTGGATACGGGGATCAAGCTGTCGTTGAGAATTTGTCGCTCGACATTCATAGCGGACAATTCATCGGTATATCCGGTCCAAATGGCGCCGCAAAATCAACTTTGCTGAAATTGATGCTTGGTTTGATAAAGCCCTGGAGCGGGTCCATCGTTTTCAAGCGAGTATTGGAGGACGGATCCAGGATATCTGTCGGATATGTTCCGCAGCAAGTGACCTCGTTCAACGCAGGCTTTCCCAGTAAAGTGATTGAGCTTGTACGATCGGGCCGTTACGGACGACTCGGATTGTTCAAGCGTTTCACATCCGTAGATTATGAGATCGTTGAGCGAAGCCTGAAGGAAGTGGGGATGTGGGAATATCGTCATCGGAGGATCGGCGAGTTATCGGGAGGGCAGAAGCAGCGAATATGCGTTGCCAGAGCATTGGCCCAGCAGCCGCAGGTATTGATCCTTGACGAGCCTACGACAGGGATGGATGTGTCGAGTCGTACGGATCTGTACCGACTATTAAACGATTATGTCAAGGACAAAGGCAACACGGTCATTATGGTTACCCATTCGCTTGATGAAATCGGTCCATATCTGGACCAGGTCGTCCAGTTGGAGCGAAAGGAGAATGAGGGATGGCGATGCTCGGTTACGAATTCATGCAGCGCGCGTTTTGGGCAGGAGGCCTGA	MLLSSMRDVMFGYGDQAVVENLSLDIHSGQFIGISGPNGAAKSTLLKLMLGLIKPWSGSIVFKRVLEDGSRISVGYVPQQVTSFNAGFPSKVIELVRSGRYGRLGLFKRFTSVDYEIVERSLKEVGMWEYRHRRIGELSGGQKQRICVARALAQQPQVLILDEPTTGMDVSSRTDLYRLLNDYVKDKGNTVIMVTHSLDEIGPYLDQVVQLERKENEGWRCSVTNSCSARFGQEA	PGPT0004230_2473	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
AK002_03376	813	ftsH_3		ATP-dependent zinc metalloprotease FtsH	ATGAGCAAAAGCAATGCAAGCCAGCGTATTCCGCGTGCCAAAGGGATCGATATGGCAACCGTGTATTCACCTAAGGAGTGCGGCAAAAAAGCGAGGCACCTGATATTGCCGGATTTCAATCAGAGAATTGTGGATGAGTTTATAGCCATTTTAGGGATGAGGGAGGAATTCGAGGAGCATCACGTACCGATTCCTAACAAGATCGTCATGTACGGTCCTCCGGGAACAGGAAAAACCTTAACGGCCTTTTATATGGCCAGCCTACTGGAGCTTCCACTCGTCCTGGCTCGTCTGGATGCTATCATTCATAGTCATCTGGGCGAAACGGGGAGCAATATTCGCAAAATCTTCGATTATGCAGACACATTTCCCTGCGTTCTTTTCCTTGATGAGTTCGATGCCATTGCCAGGACGAGGGACAGCAACGATGAAGTGAAGGAGATGGCCCGTGCTGTTAATACATTGCTGCAGTGTTTGGATGATTTTGGGGACAAGAGCATCATGATGGCGGCCACCAATTTGGAGAAGGAATTGGACCAGGCAATATGGCGCAGGTTCGATACTAAGATGACGTATTCCCTGCCGGACTTTGGCAGAAGGCAGCATTATATCGAAATTCTTCTCGGAGATTTCCGGTGTGAGGCGTCAGCGTTGACGGGGGCATGTGACCTGCTTGCAGGGTGCAGCTTTGCCGACATGGAGCAAATAGTATTGAAAGCAAAGCGAAAAGCCATTATTGAACGGCAACCGCTGCTGAAAAGCCATATAAAAGATTCCTATGATGAATATAAACCTGATCTGGCGAAGCTTTAA	MSKSNASQRIPRAKGIDMATVYSPKECGKKARHLILPDFNQRIVDEFIAILGMREEFEEHHVPIPNKIVMYGPPGTGKTLTAFYMASLLELPLVLARLDAIIHSHLGETGSNIRKIFDYADTFPCVLFLDEFDAIARTRDSNDEVKEMARAVNTLLQCLDDFGDKSIMMAATNLEKELDQAIWRRFDTKMTYSLPDFGRRQHYIEILLGDFRCEASALTGACDLLAGCSFADMEQIVLKAKRKAIIERQPLLKSHIKDSYDEYKPDLAKL				NA	NA	NA	NA	NA
AK002_03377	249	rpmE2	COG0254	50S ribosomal protein L31 type B	ATGCAAAAAGGGATACATCCAACATTTCAAAAAGTCATATTCCTAGACGCGAGCGTTGGCTTTTCATTTCTTAGTGCCTCCACGAAGACTTCGACAGAAACGATGGAGTGGGAAGACGGTCATACCTATCCCGTGATTCGCGTAGATTCCAGTTCGGCTTCACACCCTTTCTTCACGGGCAAGCAGAAAAATACCGAAATCGGCGGGCGTGTCGATAAGTTCAAGAAACGATTAAGTTATAAACGGTAG	MQKGIHPTFQKVIFLDASVGFSFLSASTKTSTETMEWEDGHTYPVIRVDSSSASHPFFTGKQKNTEIGGRVDKFKKRLSYKR	PGPT0014325_2067	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
AK002_03378	519	paiA	COG0454	Spermidine/spermine N(1)-acetyltransferase	GTGACCACAACTATAGAAAAGTGCACGATTGAAGATCTGGGCTTGCTTCAAGAAATAAGCATTAAAACATTTAACGAGACTTTTAAGGATCAAAATTCGCCTGAAAATATGAAAGCCTACTTAGATAGAGCTTTCCATTTGAATCAATTGGAAAAAGAATTATCGAATATCTTTTCGGATTTCTATTTTATTTACGCTAATGGGGAAATTGCAGGATATTTAAAAATAAACACCCATCATGCTCAGTCCGAAGCAATGGGCGATGATTGCCTAGAGATCGAGCGGATCTATATCAAGCAAAGCTTTCATAAACAGGGGCTTGGCAAATATCTAATGAATAAAGCCGTAGAGATCGCGTTGGAACGGAATCTAAGGAAGATCTGGCTAGGGGTTTGGGAAAAAAATGAGAATGCCATTACCTTTTATAATAAAATGGGGTTTGTTCAGACGGGGACCCATACTTTCTATATGGGGGATGAAGAGCAAATCGATCTTATCATGACCCAAGCACTCAAATAA	MTTTIEKCTIEDLGLLQEISIKTFNETFKDQNSPENMKAYLDRAFHLNQLEKELSNIFSDFYFIYANGEIAGYLKINTHHAQSEAMGDDCLEIERIYIKQSFHKQGLGKYLMNKAVEIALERNLRKIWLGVWEKNENAITFYNKMGFVQTGTHTFYMGDEEQIDLIMTQALK	PGPT0007785_873	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
AK002_03379	453			hypothetical protein	ATGAAGGACGTTCTCCGTGAGATTGGTATGATCGCCAGGTCATTGGATTCGATAAGCAATATTGAGTTTAAGCAATACGACCTGACAAAAGGACAGTATTTGTACCTCGTGCGAATATGTGAACACCCAGGAATTATTCAAGAAAAGTTATCTGAAATGATAAAGGTCGACCGAACAACAACGGCTCGGGCTATAAAGAAGCTTGAGATGAATGGGTTTATTGATAGAAGAGAAGATCAATATAACAAAAAAATCAAAAAACTGTTTCCAACGGAGAAAGGGAGCAATGTGTATCCTTTAATAAAAAGGGAGAACGATTATTCCAATTTGGTTGCACTATCCGGATTCTCTGCAAGTGAAGTAGAAGTCATGTTTGAGTTTATCCAAAGAGTCCGACACAATGTGGAAAAAGACTGGGAGTTTGTTAAAAAGGGTAACAAGCGACACTATTGA	MKDVLREIGMIARSLDSISNIEFKQYDLTKGQYLYLVRICEHPGIIQEKLSEMIKVDRTTTARAIKKLEMNGFIDRREDQYNKKIKKLFPTEKGSNVYPLIKRENDYSNLVALSGFSASEVEVMFEFIQRVRHNVEKDWEFVKKGNKRHY				NA	NA	NA	NA	NA
AK002_03380	186			hypothetical protein	ATGGTTAACATCAACAGCTGGCTTGGACAACTGGCTCACAATTATTTGCTGATTGTCATTGCTGCCATCGTCTTTTTGGGCATCAAATCCATTCTCGGTGTATTAACTTACAGACATTACAATAAAGAACTGCGGCACTTACACCAAAAAGTAGATCTCCTGGTAAAAAAGTTCCACAAAAAATGA	MVNINSWLGQLAHNYLLIVIAAIVFLGIKSILGVLTYRHYNKELRHLHQKVDLLVKKFHKK				NA	NA	NA	NA	NA
AK002_03381	309			hypothetical protein	ATGAATCAACGTTTTCGGATCACGAGATCCATGCAACCCAACGCTGGCGATCAGGAGATTTCATTGGAAGAATGCCAACTATATTTTTCAACCAAAGCTGATTTTATTTATCAGACGGAGCTCACTGTGAGAGGGGAAGAGAGCACCATGTCGGTAGAGGGCGATTTCTTTATGTGGAAACATGGGGAAGCCTTGATTCCATTCAGGCACTACATGGGAGAGCTGTATGTCGCCGTTTCCCATCAAGACCTTGTGCCTCTCATGATCGAAATTGCAACTGATTTGCGGGCGGATATCGTAGAAGGGTAA	MNQRFRITRSMQPNAGDQEISLEECQLYFSTKADFIYQTELTVRGEESTMSVEGDFFMWKHGEALIPFRHYMGELYVAVSHQDLVPLMIEIATDLRADIVEG				NA	NA	NA	NA	NA
AK002_03382	615	phoP_2	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGCATAAGATACTAATCGTGGACGATGAGGCGGATCTTCGAAAGCTGCTGACTGATTACTTTGAAATTAATGGATATTTTGTCATGACGGCCAAGAACAGCCGGGAAGCTATGCAAAAAGTGGAACAAGGACCCGATATCGTGTTGCTCGATATCAACATGCCTGAGGAGAACGGCCTTGAAATATGCGAAAGAATTAGAGGTTTTGTTTCGTGCCCTATCTTATTTTTGACCGCTCGAATCGAAGATGCCGATAAAATAGCCGGCTTTCGGGCAGGAGGCGATGACTATATCCTGAAACCTTTCAGTATTCGCGAGCTTGGCGCCAGGGTGGAAGCGCATTTGCGAAGGGAACAGCGAATCCTAACCAAAGCCTCGGTGAGGTTTAACCTTGATTTGGTCATTAATTATACGGCCCGGGAGCTTTATTTCCAGGATATACGAATCCCTTTGGCCAAAAAAGAGTTCGACATTATCGAATTGCTGTCCATGAATCCCGGCATGGTATTCGAGAAGGAGCGAATGTACGAGAAAATTTGGGGCCTGGACGAAGAAGGCGATAGCAGCGTCATCGCGGAGCATATTCGGCGAATTCGCAACAAATTCAAGGAATAA	MHKILIVDDEADLRKLLTDYFEINGYFVMTAKNSREAMQKVEQGPDIVLLDINMPEENGLEICERIRGFVSCPILFLTARIEDADKIAGFRAGGDDYILKPFSIRELGARVEAHLRREQRILTKASVRFNLDLVINYTARELYFQDIRIPLAKKEFDIIELLSMNPGMVFEKERMYEKIWGLDEEGDSSVIAEHIRRIRNKFKE	PGPT0011710_185	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011710-nisR|spaR-K20488	NA	NA
AK002_03383	1083	sasA_18		Adaptive-response sensory-kinase SasA	ATGGCTAAACTCGTAAATAGGCTGCTGCTAGAAAGACTTAATTTGCTGCAATCGTTCATCCTGTTATGCATTCTCACGCTCTTGGCCGTACTGGCCATGATCACCTTGGAATTTGCCTGGGCGGAGATCCTGCGGGAGCGTTTTGGAGAGCCCGATTGGTTGCTGCCCTCCCTCGTCGCGGCGGTGCTGTTGACGGTAGCCGCAGGAATTGTCGCCATGGCCGTTCTATTTTACAGTTGGAAGCTAAAACGACCGCTGACGATTCTAATGCAAGCATCCAAGAAGATCTCGGCCAACGATCTAAGCTTCAGTATCTCCTATGGCAGCCGGGACGAGATGGGCGAGCTGATCGCCGTATTTGAAAACATGCGCTCACAATTGGAAATCAATTTAAAGTCGCTCTGGCGTTCGGTCGAGGAGCGCAAGCAGCTCAATGCAATTTTTGCCCATGATCTGAGGACGCCACTGTCTGTGCTGAAAGGATACGCCGAGTTTCTCGCCACCTATGTTCCCGAGAAGAAATTGTCGGAAGAGAAGATTCTGGATCTGATCCATACCATGAACCTTCACATCGTTCGCTTGGAGAACTATGCGGAGGCCATGAGCTCGATTCAGAAGCTGGAGGATACCCCGGTGCATCGCGATCCCGTGAATATCATCCCTTTCACGGCTTTGTTGAACGACAGCGCCAAACAAATAGCTAGTCAATTCGGCATTAACTTTGCCTCTTCCATTGATAACGCTGATTGTGAAATCAGCCTGGATGCTAATGTCGTCATGCAGGTATTCGAGAACCTGGTAGCCAATGCGGCGCGTTACGCAACCAGTCAGGTGAACGCTCGTTTTATCATTCGGGAAGCCTCTATGGATATTGCCGTCACGGACGACGGACCCGGTTTCTCGAACGAAGCCCTAGACAAGGCAGCTCTTCCTTTTTACCGCGGGGATATGTGGGATGCAACCGAACATCGCGGACTAGGATTGTATGTTTGCAAGGTGCTTTGCGAAATACATGGCGGGAGCTTGCAGGTCGAAAACGGACCTCAAGGCGGCGGGTGCGTTACCGCAAGTTTTGGATCATAG	MAKLVNRLLLERLNLLQSFILLCILTLLAVLAMITLEFAWAEILRERFGEPDWLLPSLVAAVLLTVAAGIVAMAVLFYSWKLKRPLTILMQASKKISANDLSFSISYGSRDEMGELIAVFENMRSQLEINLKSLWRSVEERKQLNAIFAHDLRTPLSVLKGYAEFLATYVPEKKLSEEKILDLIHTMNLHIVRLENYAEAMSSIQKLEDTPVHRDPVNIIPFTALLNDSAKQIASQFGINFASSIDNADCEISLDANVVMQVFENLVANAARYATSQVNARFIIREASMDIAVTDDGPGFSNEALDKAALPFYRGDMWDATEHRGLGLYVCKVLCEIHGGSLQVENGPQGGGCVTASFGS	PGPT0011705_358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0011705-nisK|spaK-K20487	NA	NA
AK002_03384	1479	flp		Protein flp	ATGGCGAAAACAATACAAAGAATGTTTACCGTAATTACCTGCCTGCTGCTATCTTGGACCGTGATGGCGGAGTCCGTATCTGCATGGGAGGTCCAAGACCGCACGGAACTTTGGCGGGACATTGACGAATACATGAGCCGGAGCATGAAGGCCAACCATATCGAAGGTGCGTCCTTGTCGATTTCCTTAAACGATAAGACCTTCTATGCCAAAGGTTATGGTACGTTTGGTGAAAACCAAAGCATAACGGACGAAACCCCTCTACCCATTGCTTCGCTTAGCAAGTCCTTTACCGCATTAGCCGTACTGCAGTTGGTGGATAAAGGCCGGATTGATCTGGATGAGGCTTACCTTTCCTATTTTCCCGAACTGACGCCACAGGATCCCCGAGTTCATGACATAACGGTCCGGCATTTATTGAATCAAACCAGCGGCCTGACGGATGGAACCAATCCCGATATGACGAGGACTCCGCAATTCCAAGCACTGCAAGAGGCGAACCGGTTATTAAACGAGGTTGAACTCGCCCATAAACCTGGAACAACTTACAGCTACCACAATCCCAATTACGTGCTGTTGGCGAACCTCGTGGAAAGCATCAGTGGAGAGCGATTTTCGGATTACCTGAATCGTCATATTTTTAAACCCCTGGGTATGAACCATACCTACAGTGTCAGCACGACACATCAAATCAATGAGAATGAAGCTATCCCGCCGGGTCATTACTCGATTCTGGGCCGCTCCGTGAGTCGCTCGGAGCCGCTGTGGTTTATTGACGGTCCCGCAGGGATCGTTTCAACCGCGGAAGACATGTCCAGGTGGATGATTGCCCAATATAGCGGCAACCTTCTTCCCCCGGCGCTGATGAATCAATTTCATTCAGCCGGAGAAGCTTCGCCGTACGGCATGGGTTGGCTCGCAGACCATGATCCATCGCGCGGCCGAACGATCTCCCACAGCGGCATTTTCTGGACGTACAAATCGGAAGAAACGGTTTATTTGGACGAGCAGATGGGGATCGCGGTGATGTTTAATTCGGGATTGAACGCATTTGTGAATTACTCGGGAATCATCGATGGGGTCGCGGCTATGATGAGGGGAGAACAGCCCAATATCTCTTTTCTTAACGATCGAAACATGTCTATGATCATGATGGCGTTGATTCTCGCAACGCTTGTATGGGGCGCCTATGCTTCTATTCGTATTCGTCGGAAGAAAAAACGCCTTACGATCGGCATGTTCATTCTCATAACGGTCATTAGGCTGATTCCGGTCCTCATCCTCTTGTCTCTCCCCCCATTGCTGACGTTTATCGGCGGAGGGCGCGTGCTGCCATGGTCCGGTCTTTGGACTACCCTATCGTCACCGATCATCTGGCTTGTTGTATGGTCGCTTGTCAATCTCGTGCATGTGGCTTGCTATTATAACGTCTATGCTCGTTACGTTAAGAATAGCCAATCCATGGCTAACAACCCATAA	MAKTIQRMFTVITCLLLSWTVMAESVSAWEVQDRTELWRDIDEYMSRSMKANHIEGASLSISLNDKTFYAKGYGTFGENQSITDETPLPIASLSKSFTALAVLQLVDKGRIDLDEAYLSYFPELTPQDPRVHDITVRHLLNQTSGLTDGTNPDMTRTPQFQALQEANRLLNEVELAHKPGTTYSYHNPNYVLLANLVESISGERFSDYLNRHIFKPLGMNHTYSVSTTHQINENEAIPPGHYSILGRSVSRSEPLWFIDGPAGIVSTAEDMSRWMIAQYSGNLLPPALMNQFHSAGEASPYGMGWLADHDPSRGRTISHSGIFWTYKSEETVYLDEQMGIAVMFNSGLNAFVNYSGIIDGVAAMMRGEQPNISFLNDRNMSMIMMALILATLVWGAYASIRIRRKKKRLTIGMFILITVIRLIPVLILLSLPPLLTFIGGGRVLPWSGLWTTLSSPIIWLVVWSLVNLVHVACYYNVYARYVKNSQSMANNP				NA	NA	NA	NA	NA
AK002_03385	1230	bcr_2		Bicyclomycin resistance protein	ATGAAATATAAAGCTCAACAAAGTTCTCTCGGTTTTGCCCTAATCTTGGCGACATTTTCGGCATTGGGGCCGTTTACGGTCGATATGTACCTGGCATCGCTTCCGCAAATCGCTGTATTTTTTGGAACAAGCGCAGCCGCGGTTCAAGCGAGTTTAACCACCAGCCTGTTAGGATTAGGATTGGGACAGTTGATTATGGGGCCTTTAAGCGACATGTATGGAAGACGTCCGCCTTTGCTGACCTCCATGATCTTGTACATCTTTTCCTCGATTGGATGCGCTTTTGCGCCAAGCATTGAGTGGTTCATATGTTTAAGATTCATTCAAGGGGTTGCGGCGTCGGCCGGACTCGTGATTTCGCGAGCTATTGTCCGCGATCGGTTTCGCGGCGTAGAAATGACGAAGTTTATCGCGCTCTTAACGATGATCAGCAATGTGGCACCGTTAATTTCGCCAACGCTCGGAAGCGCGGTCATGTCATACAGCTCATGGGGAAGCGTATTTCTGTTCTTGGGGGCGCTAGGCATAGCACTGACCGCGATAACCTTAGGAGGGTTAAAGGAAAGCTTACCTGTACAGCAGCGAGTTCCAAGCAGTTTCAGCACGTTGATAAAAAATTATAACAGCTTGTTCCGGGAGCGGTCGTTTATGGGATATGCACTAGTTAACGGCATACTGTTCGCAGGCGTCTTCGCTTATGTGGCGGGTACCCCGTTTATTTATCAGAACATGTACGGCGTGTCGCCACAAATGTTCTCGATCCTCTTTGCGTTGAATGGCCTTGCGATCATTGCGGGATCACAATTCGTTAAATTGTTTGCAGGCCGGGTACCGGAAAACCGGCTATTCAGGATCGGATTAATCATTGCATTCATATCTTCTGCAGCGGTCTTGTTCGTCGTATTGGTACATGGAGCATTGTCTGCCATGTTTATCTCGATCTTCTTATTCGCTTTTTCCATTGGGATCATTGGGCCGATCTCCTTTACGTTAGCCATGGAGTCGCAGGGGCATATTGCAGGCAGCGCTTCCGCCGTGCTCGGCTCCTTACAATTCGCATTAGGCGCCGTTACGTCTCCGCTTGTGGGAATGGCGGGCGAAAATTCCGCGATTCCTTTTGGAGTTGTCATCTTTTCCACCAGTGTGTTATCTATTGCCGCCTATCTCATCCTGATTCAAGGGGGACAAAGATTAACCGGCGGTGAAACCAGCTCTGAATCCAGCATGTGA	MKYKAQQSSLGFALILATFSALGPFTVDMYLASLPQIAVFFGTSAAAVQASLTTSLLGLGLGQLIMGPLSDMYGRRPPLLTSMILYIFSSIGCAFAPSIEWFICLRFIQGVAASAGLVISRAIVRDRFRGVEMTKFIALLTMISNVAPLISPTLGSAVMSYSSWGSVFLFLGALGIALTAITLGGLKESLPVQQRVPSSFSTLIKNYNSLFRERSFMGYALVNGILFAGVFAYVAGTPFIYQNMYGVSPQMFSILFALNGLAIIAGSQFVKLFAGRVPENRLFRIGLIIAFISSAAVLFVVLVHGALSAMFISIFLFAFSIGIIGPISFTLAMESQGHIAGSASAVLGSLQFALGAVTSPLVGMAGENSAIPFGVVIFSTSVLSIAAYLILIQGGQRLTGGETSSESSM	PGPT0029005_1793	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
AK002_03386	1050	adhC2	COG1064	NADP-dependent alcohol dehydrogenase C 2	ATGATGAATGCTAATGCACGTGCTGTATTCGGTCCGCAAGGTCCGTTCCAACTAACAACAATTGAGCGCAGGGATCTTAAGCCGCATGATGTGCTCATTGAAATCAAATATGCAGGAATTTGCCACTCGGATATCCATACCGCTCGCGGAGATTGGGGGCCGGTCCAATATCCTCTCGTACCGGGACATGAAATCGCCGGCATTGTCGCCCGGGTTGGCTCGGATGTCACAAAGTATACGGTTGGTGACCGAGTAGGCGTCGGCTGCATGGTTGATTCCTGCGGAGAGTGCGAGAGCTGCCGCAGAGGAGAGGAGCAATATTGTCTGAATGGACATACGGGTACTTACGCAGCTACCGACAGATATGGTCAGTATACACAAGGAGGCTATTCCTCCCATATCGTCGTAACGGAGGATTTCGTCGTACGCATTCCTGACGGCATTGCTCTTGATGCCGCTGCACCGCTCTTATGTGCCGGAATCACAACCTACTCGCCGCTTCGCCATTGGGGTGCCGCTCCTGGCAAGAAGATCGCAGTTGTTGGATTTGGCGGGCTCGGCCACATGGCTGTAAAGCTGGCTCATGCCATGGGAGCCGAAGTCACGGTTTTATCACAGACCTTGAAGAAGAAAGAAGACGGTTTGAAGTTAGGCGCAGACCATTATTATGCTACCAACGATCCAGAGACATTTAACAAGTTGGCCGTCACGTTTGATCTCATCGTGAATACGGTGAGCGCGAAGATTGATTTGAATGCTTATCTCTCGCTGCTGGCAGTGGACGGTACCTTGGTCAACGTCGGTGCACCGCCGGAGGCATTGCCTGTTCAAGTATTTTCTCTAATCCCGCATCGTCGGTCGTTTGCTGGATCGGCAATCGGCGGCATTCGAGAAACGCAGGAAATGCTGGATTTCTGCGCTGAACACCACATAACGCCTGAGATCGAGGTCATTTCCGCAAATCGGATTGATGAGGCTTGGGAACGCGTGCTGGCTTCGGACGTCCGGTATCGATTTGTCATTGATATCAGCACGATGGAGAACGAATAA	MMNANARAVFGPQGPFQLTTIERRDLKPHDVLIEIKYAGICHSDIHTARGDWGPVQYPLVPGHEIAGIVARVGSDVTKYTVGDRVGVGCMVDSCGECESCRRGEEQYCLNGHTGTYAATDRYGQYTQGGYSSHIVVTEDFVVRIPDGIALDAAAPLLCAGITTYSPLRHWGAAPGKKIAVVGFGGLGHMAVKLAHAMGAEVTVLSQTLKKKEDGLKLGADHYYATNDPETFNKLAVTFDLIVNTVSAKIDLNAYLSLLAVDGTLVNVGAPPEALPVQVFSLIPHRRSFAGSAIGGIRETQEMLDFCAEHHITPEIEVISANRIDEAWERVLASDVRYRFVIDISTMENE	PGPT0024430_1731	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0024430-yahK-K13979	NA	NA
AK002_03387	549			hypothetical protein	ATGGCAAAAGTGGATCGTAGAATCCTAAAAACGCAGGAAGCCTTAAGAAAAGCCGTCATTGAATTGATGGCCGAAAAAAACTTCGATGACATAACCATTCAAGACATCGCAGACCAGGCAAATTTGAATCGCGGCACGATTTATTTGCATTATCAAGACAAGTATGATTTATTGAATCAAATCATGGAGGCGCACATTCAGGAATTAAAAGAGATGGATACATGGGCGTGTGAAATGGAATGGGCGGATGCTCTCGTACCGTATTTCGAATATTTTGAAAAGAATTATGTGCTTTTTTCAACCATGTTAGCGTCCAAAGGCGCCCCTTCCTCTTTCAGAACGCGGCTGCTTACGTCTTTCATGGAAGGATTCAAAGGTGAGATCGACAACCAGAGCGGAAAAAATGCGGAATTACACGAAGATGTGATGCTGCAATATGCCGGGACTGCTTATGTCGGGGTCATTGAATGGTGGATCCGAAATGGAATGCCCTACTCGCCGCAAGTCATGGCCAAACAAGTGGGTACTTTGTTAGATAGAAGCCTTTAA	MAKVDRRILKTQEALRKAVIELMAEKNFDDITIQDIADQANLNRGTIYLHYQDKYDLLNQIMEAHIQELKEMDTWACEMEWADALVPYFEYFEKNYVLFSTMLASKGAPSSFRTRLLTSFMEGFKGEIDNQSGKNAELHEDVMLQYAGTAYVGVIEWWIRNGMPYSPQVMAKQVGTLLDRSL				NA	NA	NA	NA	NA
AK002_03388	777	udh	COG0451	Uronate dehydrogenase	ATGAAACGCAAACTATTGATAACCGGAGCGGCAGGCACCATAGGGAACGTAATCTACATGGGGCTGCAAAAAGACAGCCGGTATGACATCATCGGTGCGGATATAGAGGCGGACGATAGGCAGGGTATCGTGCAGCTGGACATCGTGGACGAGGCGCGGCTGGCAGAGCTTACGCAAGGAGTTGATACGGTGCTCCATTTTGCCTGGATTAAGGACAACGGGGATTTCCTCGGTAAGGTACTGGAAGGAAATGTGACCGGCGCGTACAAGTTGTTTGAGGCAGCAGTGCAGAATGGCGTTCGCCGTATGATATTTGCCAGCTCCAATCATGCGACCGGTTATTACAAGGTTTACGAAAAGGTAGAGCCGGACGATCCGTACCGCCCGGATAGCTTTTACGGACTCAGCAAATGCTATATCGAATTGCTGGGGCGGCTTTATTCCGATCAGGGCAAAATCTCTTCCATTAATATTCGAATCGGCAACTTCCCCGGAGACGATCGACCTCATTCAGAGCGTGCGGGGCATATCTGGATATCGGAACGCGATATGCTTCAACTGATCGTTTGCTGCATTGAAGCAGATGACAAACTACCGTATTTGAACTTGTACGGCACCTCCGCCAATACGGATAACTATTATAACATCGATTATCTGGAAGGATTAATCGGATACAAACCTCAGGACGACGCGGCAAAGCTGCTTGAGTTAGCCAAGGCGGCGGGAAGCAAAGTACGTCAGGACGAGACGGTCTATCAGGGAGGCCAGCAACAATAA	MKRKLLITGAAGTIGNVIYMGLQKDSRYDIIGADIEADDRQGIVQLDIVDEARLAELTQGVDTVLHFAWIKDNGDFLGKVLEGNVTGAYKLFEAAVQNGVRRMIFASSNHATGYYKVYEKVEPDDPYRPDSFYGLSKCYIELLGRLYSDQGKISSINIRIGNFPGDDRPHSERAGHIWISERDMLQLIVCCIEADDKLPYLNLYGTSANTDNYYNIDYLEGLIGYKPQDDAAKLLELAKAAGSKVRQDETVYQGGQQQ	PGPT0018290_738	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLACTURONATE|GLUCURONATE_DEGRADATION,PGPT0018290-udh-K18981	NA	NA
AK002_03389	642			hypothetical protein	GTGAAAAACAAATGGTTGCTAGCGTTAACCCTAGCGTTCGTAATTAGCATGACTCAGGCTGTAGCGCCCGTACAAGCCATGGTGGGCGAGAATCCGGATTGCATAAGTCCCAAAGTAGTCCAATTGAAAGGCGAAATGGAGAAGGTTTGGATCGACCATACGATATGGACAAGAAGCTATATCGTGAGTGCCATATCTAATCGTCCTGATCAGAAGGACGTTCTGGACCGGCTTATGCGAAACCAGCAGGACATTGGCAACGTGATCAAACCTTACTATGGGGAAGCCGCCGGGAATAAGCTTGCCGATCTAATGAGAGAACATATTCGGATTGCAGTGAAAATCGTGGCTGCGGCCAAGGCCGGCAATCAGTCGGAAGTGGACAAATTAGAGGCGGATTGGCACAGAAACGCTGACGATATCGCCAAATTCTTAAGCGCAGCGAATCCGAACTGGCAGTTTAAGGAGCTCCAGGATATGTTGTATACGCATCTCCAATTGATTACGGAAATCGTCGTTAGCTGTATCAAGGGAGATTGGAAAGCGGATATTGCTGCAACCGACAAAAACGAGATCCACATGATTCATTTAGCGGATATTCTGACAGAAGGCATTGTCAAGCAATTCCCTGAGAAATTCTAA	MKNKWLLALTLAFVISMTQAVAPVQAMVGENPDCISPKVVQLKGEMEKVWIDHTIWTRSYIVSAISNRPDQKDVLDRLMRNQQDIGNVIKPYYGEAAGNKLADLMREHIRIAVKIVAAAKAGNQSEVDKLEADWHRNADDIAKFLSAANPNWQFKELQDMLYTHLQLITEIVVSCIKGDWKADIAATDKNEIHMIHLADILTEGIVKQFPEKF				NA	NA	NA	NA	NA
AK002_03390	633	vat		Virginiamycin A acetyltransferase	ATGCAATATGGGCCAGACCCTAACGCAATCTACCCGAATGAGGCGATTAAAAGTATTTGCTATATTAAAAACGTAGTGACACGCCCCAATATTATTGTCGGCGACTATACCTATTATGACGATCTAAACGGCGCCGAAAAATTCGAAGAGCATGTCACGCATCACTATGAATTTATTGGAGACAAGCTGATTATCGGGAAGTTTTGCGCTATCGCAAAGGGGATTGAATTCGTCATGAATGGCGCCAACCATAGAATGGGCAGTGTTACTACCTATCCATTTAACATCATGGGCAACGGTTGGGAGAAATCGACTCCGGCACTGGCCGACTTACCCCTTAAAGGCGACACCGTCATTGGCAACGATGTCTGGATTGGTCAAAACGTCACCGTTATGCCCGGTGTACACATCGGCGACGGAGCTATCATAGCAGCCAATTCGGTTGTTGTAAAAGATGTCCCCCCTTATCATATTGCAGGCGGGAACCCTTGCAGGGTTATTAAGAAAAGATTTGATGACGAACTCATTGACCATCTCCTTGCCATCCAATGGTGGGATTGGCCTGCTCGGAAAATTTTTGACCATCTTGAAACGTTATGCAGCGGAGATCTGACTGAAATCAAGGAAATATAA	MQYGPDPNAIYPNEAIKSICYIKNVVTRPNIIVGDYTYYDDLNGAEKFEEHVTHHYEFIGDKLIIGKFCAIAKGIEFVMNGANHRMGSVTTYPFNIMGNGWEKSTPALADLPLKGDTVIGNDVWIGQNVTVMPGVHIGDGAIIAANSVVVKDVPPYHIAGGNPCRVIKKRFDDELIDHLLAIQWWDWPARKIFDHLETLCSGDLTEIKEI	PGPT0028000_636	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028000-vat-K18234	NA	NA
AK002_03391	1377	yifK	COG1113	putative transport protein YifK	ATGAAAAACAATGAACTAAAGAGGGGGCTCGAAGCTCGCCACATTCAGATGATTGCTTTGGGCGGCACCATCGGTGTCGGGTTATTTATGGGTTCGGCAAGCACGATCAAATGGACAGGACCATCGGTGATGCTTGCGTATGCTATTGTAGGGATTTTTATATTCTTCATTATGCGCGCAATGGGGGAAATGCAGTACATAGAACCGAGCACGGGATCGTTTGCGACCTTTGGCCATAAGTACATTCATCCCTTGGCGGGCTATGTGACGGCCTGGAGCAACTGGTTCCAATGGGTGATCGTCGGGATGGCGGAGATCATTGCCGTTGGGACCTACATGAAGTACTGGTTTCCGGATTTGCCCGCTTGGATACCAGGGCTCGTCGCCATGGCGATTCTCGGTGCAGCCAACCTGTTCTCCGTGAAATCGTTTGGTGAATTTGAGTTTTGGTTTGCCATGATTAAAATCGTAACCATCGTCTTGATGATTGTTGCCGGGCTCGGTCTGATTTTGTTCGGATTAGGCAATGGCGGAAATGCGATCGGATTTTCCAACTTGTGGCAGCATGGGGGCTTTTTTACCGGCGGATGGTCAGGCTTTTTCTTTGCTCTCTCGTTAGTGATCGGAGCCTATCAAGGCGTCGAGCTGATAGGGATTACGGCAGGTGAGGCCAAGAACCCGCAAAAAACGTTAAAGAGCGCGACGCAAAGCATTATCTGGCGCATTTTGATCTTCTATATCGGCGCGATTTTTGTGATTGTTACGGTCTATCCTTGGAATCAGCTGCAAGCCCTCGGCAGTCCGTTCGTTGCCACGTTTGCGAAAGTCGGCATTACTGCGGCAGCCGGAATCATCAACTTTGTTGTCATCACCGCCGCCATGTCGGGCTGCAACAGCGGGATATTTAGCGCAGGACGCATGCTTTATACATTAGGAGTCAATGGACAGGCACCGATAATATTTACGAAGCTGTCCCGTAACGGCGTGCCCCTGCTGGGAACGATCGGCGTACTCGCGGGGTTGGGCCTTGGCGTGTTATTAAGTTATATCGCACCGGAAAATCTGTTTGTGCATGTGTACAGCGCAAGCGTGCTTCCCGGCATGGTGCCGTGGTTCGTCATTTTGATCAGTCAAATCAATTTCAGAAGAACCAAGGGGAGTGCCTTGGATGATCATCCGTTCAAAATGCCTTTCGCACCGGTGACCAACTATGTGACGATTGCCTTTTTGCTTATGGTGCTGGTCGGTATGTGGATCAACGATGAAACTCGGATTTCCCTGATTACAGGCATTGTTTTCTTGGGTATTGTCGTGATCAGTTATTATGCTTCCGGGGTTAACAAGGCACAAAAAAACCATGAGTCAAGCAACAAATGA	MKNNELKRGLEARHIQMIALGGTIGVGLFMGSASTIKWTGPSVMLAYAIVGIFIFFIMRAMGEMQYIEPSTGSFATFGHKYIHPLAGYVTAWSNWFQWVIVGMAEIIAVGTYMKYWFPDLPAWIPGLVAMAILGAANLFSVKSFGEFEFWFAMIKIVTIVLMIVAGLGLILFGLGNGGNAIGFSNLWQHGGFFTGGWSGFFFALSLVIGAYQGVELIGITAGEAKNPQKTLKSATQSIIWRILIFYIGAIFVIVTVYPWNQLQALGSPFVATFAKVGITAAAGIINFVVITAAMSGCNSGIFSAGRMLYTLGVNGQAPIIFTKLSRNGVPLLGTIGVLAGLGLGVLLSYIAPENLFVHVYSASVLPGMVPWFVILISQINFRRTKGSALDDHPFKMPFAPVTNYVTIAFLLMVLVGMWINDETRISLITGIVFLGIVVISYYASGVNKAQKNHESSNK	PGPT0000815_1801	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0000815-TC_AAT|yifK-K03293	NA	NA
AK002_03392	879	cpdA_2		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	TTGAACAAGCGGAATCAAGAAGGAGGAAACCGGAACGAGGACGTGCTGCTCCGATTTCAGGTTATCACCGATACGCACGTGAAGGCGGACCCCGGACATACCTACAATTGTAATTTGGCGAGGGCACTAGAAGATATTAAACGAATGGTGCCGGACAGTGACGGCGTTATGCACGCAGGCGATTTAACCGACCAAGGGAGTACGGAGGAATATGCGGAGTTTCACAGAATATGGCGGGAGCATGGCGCAGGATTGCCGGTCAGTTATTTTGCTACAGGCAATCACGATGTCGGTCTGGGGCATTGGCCTTCACGTTTGGGAGCTTATCTGGATGCCACGGGGATGAGCGGACCCTATCACGATCATTGGGTTAACGGGTACCACTTTATCTTCCTCGGAACCGAGGAGGGGCTGGAGCTGTTTGCTTCCTTGTCCGAAGCTCAGCTGACATGGCTCGACACTAAGCTAACGGAGAGCAAGAACCCGGCTCAACCGGCTTTCGTCTTCCTGCATCAGCCGCTTAAAGACACGGTTGCAGGATCTTATGAGTCGCAGCGGTGGTACGGCGTTGCTCAGGACGAAGCGCTCAAGAAAGTTCTGGCTAAGCACCGGCATGCCATTCTGTTCACGGGGCATACTCACTGGGAGCTGGAAGCGCAGCATACGATGTTCGATGGACAGGAACAACTGCCTTATATGTTTAACGGATCCTCTGTCGCTTACCTATGGACGGATAAAGACGAGCATAAAGATGGGAGTCAGGGGCTGTTCGTCGAGGTTTATGCAGATCGTGTAATCGTCAGAGGCCGGGATTTCGCTGCAGGCAAGTGGCTGGAGAATGTCCGGTTTGAATGTAACATCCCTGAGCAATCCGAATAA	MNKRNQEGGNRNEDVLLRFQVITDTHVKADPGHTYNCNLARALEDIKRMVPDSDGVMHAGDLTDQGSTEEYAEFHRIWREHGAGLPVSYFATGNHDVGLGHWPSRLGAYLDATGMSGPYHDHWVNGYHFIFLGTEEGLELFASLSEAQLTWLDTKLTESKNPAQPAFVFLHQPLKDTVAGSYESQRWYGVAQDEALKKVLAKHRHAILFTGHTHWELEAQHTMFDGQEQLPYMFNGSSVAYLWTDKDEHKDGSQGLFVEVYADRVIVRGRDFAAGKWLENVRFECNIPEQSE	PGPT0021595_671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-OTHER_QSR|BF_RELATED_SYSTEMS	CE-QSR|BF-cAMP|VFR_SIGNALLING_PATHWAY,PGPT0021595-cpdA-K03651	NA	NA
AK002_03393	819			hypothetical protein	ATGGCGCATGCGGTATGGAATATGTTGGCAAAGTCGAGTGGGAATAAGCAGTTGTTTTTATTTATGATATATATCCCCACCACGCTTATGCTGCTCCCGGGCTTTATGATCGAAATCGTCACAGCGAATCCACCCATGTCAGGTTATCTATTGTTATTCCTATCCGTGCTCATTCAAGGGGGATATGCCTATTTCTTGTCCAAGTCCTTAACCTATGGCGACCTATCCCAGGTCTACCCGATGATGAGAGGCATTTCCACATTCTTGTTGCCTCTTTGCGGAGTCATTCTCCTGAACGAGCGGTTATCCGTCTGGGGATGGCTGGGACTCGGATTGATTGCATTTGGCTTCTTTCTATCAAGCGGCATCTTTATGAGGAAGCAAAGATTTCATGCCCCTCACAGGGTTCTTTTCTATACTGCAGCCGTGGGGTTTTGCACGATGGCATATGTGATGGTAGACAAAGTGAATCTGCAGCATTTTTCGCCAACGCTGCTTTTGGAAATATCCAATATCGGATTTATGCTTGGGCTGGCCCCGTTTATCCGTTTTGGCGAAATCGGCTGGGTAAGAGAGATAAGAGAACATGGAAAATGGCTTGCGGTTGGCGCGATTCTTTCTCCAGGCTCATATTTGTTGTTCTTGTTTGCCATGAGTATGTCCCCATTAATATACATAGCGCCTCTTCGGGAAATTGGAACCGTATTCGGCACTTTGCTGGGCGTATTGCTGCTGAAGGAAGGTCAAGGAGGGCTGCGGCTCATATCGGCCGGCATTATCTTTATCGGAATCTTACTCGTAGGCATGCTGGGCATATGA	MAHAVWNMLAKSSGNKQLFLFMIYIPTTLMLLPGFMIEIVTANPPMSGYLLLFLSVLIQGGYAYFLSKSLTYGDLSQVYPMMRGISTFLLPLCGVILLNERLSVWGWLGLGLIAFGFFLSSGIFMRKQRFHAPHRVLFYTAAVGFCTMAYVMVDKVNLQHFSPTLLLEISNIGFMLGLAPFIRFGEIGWVREIREHGKWLAVGAILSPGSYLLFLFAMSMSPLIYIAPLREIGTVFGTLLGVLLLKEGQGGLRLISAGIIFIGILLVGMLGI				NA	NA	NA	NA	NA
AK002_03394	768	glpR	COG1349	Glycerol-3-phosphate regulon repressor	ATGCTTGCACATGATCGGCATCAACAAATCATGAAACTGCTTCACGAAATCCAATCGGTCAAGACAACGGATTTAATTGCGCAATTCGGAGTTTCTTTCGAGACGATTCGAAGAGACCTGGAATATCTGGAACAAGAGGGCTTCTTAAAAAGGGTTCATGGCGGGGCAACCTTGCCGGCAACGGACTATCAGAAAGAACTGCCTTTTACCGTGCGGGAAATGAAGAGGCTTCAAGAGAAACGGGAGTTGGCCCAGATTGCCCTCCGCTACGTGGAAGAAGGGCAATCCTTGTTCATGGATGTAAGCACCACCAATACCGAATTCGCCAAGGCATTGATGACCCGCTTTGATCGATTGACGATACTGACCAATTCCTTTCAGATCGCATCGATACTTATGGAGAAACCTCATTTCACGATCATCTTTGTCGGTGGGGTGGTACGTAACTCGGAACATTGCGTGGTCGGCGATTTTGCCGAATCCTTTGTCACTCAGTTTCATGCCGACCTTTTCTTTATGAGCGTGAGCGGCATATCCCTGACCGAAGGCTTGACGGATTATGGGTTAAGCGAGATTCAGTTGAAGAAGAAAATGCTGGCCCGGGCACACAAGGTCATCGTGCTTGCAGACAGCAGTAAGTTTAACGCGGTTTCGCTCACACCGGTCTGCGGATTGGATCAGATTGAACGGATTGTGACGGACTCCGGGCTAGGGCAAGATGTCCTTAAACTATATCAGGAGGCAGGAGTCAACATCGATTTCCAATAA	MLAHDRHQQIMKLLHEIQSVKTTDLIAQFGVSFETIRRDLEYLEQEGFLKRVHGGATLPATDYQKELPFTVREMKRLQEKRELAQIALRYVEEGQSLFMDVSTTNTEFAKALMTRFDRLTILTNSFQIASILMEKPHFTIIFVGGVVRNSEHCVVGDFAESFVTQFHADLFFMSVSGISLTEGLTDYGLSEIQLKKKMLARAHKVIVLADSSKFNAVSLTPVCGLDQIERIVTDSGLGQDVLKLYQEAGVNIDFQ	PGPT0017590_8	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK002_03395	987			hypothetical protein	ATGTTTCATGAGCGCTTTGCTCTCAGCGGTAGGAATTTGAAGATTTTTACGTCTTTCATTCTCGCCATTCTTTTACTTATCATGCCGGTCCTGCCGGCTGCAGCTGCATCACCAGGCAAAACCGTGAATGCTTCGGCTAAACTCGCCTATAATCTTAAAGGGCTTAAGCACAATGTGGCCGTACAAAAAGCATATATTGCAGACAAGTATGTTTACGTTACGCAGCGGTCTAAGGGTACATGCTATCTTTCCAGGCTCCTTATTAGCGGGAAAGACGCGAAGTACGTAGACCAAATGACCGTCACAAATACCGGCCATTGCCAAACGCTTGATATGTATACGTACAAAGGGGAGAATTATTTCTACTTCAGTTCCAAGGCCGATCCTTCTACTAAGCAATTCTGGTCCCTCCAAGTGGCAAGACTAAAATACAAGGCGGGATCAAAGGTCGATTATACGAAGCTGGACCGGTTCGTCTATATGAATTATGCAAACAAGACCGGCAAACGATTAGGCACAACCTATAGGGTCGACGGGGGCGGCAACAGCAAATATACGTTCTTCCGCGTACAAACCAAGGAAAAGACCGTTACCTGGTCCATTTACAGCACAGCGTCCCTGAACAAGCTTCTGGACAGCAAAAAGCAGGTTCGAATGGACAGTGCCGCCGCGGTAAAAGCGAGCATAGCGAGTTTCACTCAATCCGGCAGCCGTATTATTAGACCGAATGGATCGTTTCAGGGTGCAGATATGCTGGGGAACTCCAAAATTTACACCTCGGGAGGCGCCGAAGGCCAAACCCCGCAGATCGCCATGATGACCAGCTCGGGAGCCTACAAGAGCCTTGTAAAAATTACGAATGTGGGAAAGCATGAAATCGAAGGCGTTCAGACCAAGAACGGGAAGGTTTATTTTACGATCGTGACGGATCCCAAGAACAAGAAAAACACACAGAAAATTTACTATGTGCCGGATACGATTTTTTAA	MFHERFALSGRNLKIFTSFILAILLLIMPVLPAAAASPGKTVNASAKLAYNLKGLKHNVAVQKAYIADKYVYVTQRSKGTCYLSRLLISGKDAKYVDQMTVTNTGHCQTLDMYTYKGENYFYFSSKADPSTKQFWSLQVARLKYKAGSKVDYTKLDRFVYMNYANKTGKRLGTTYRVDGGGNSKYTFFRVQTKEKTVTWSIYSTASLNKLLDSKKQVRMDSAAAVKASIASFTQSGSRIIRPNGSFQGADMLGNSKIYTSGGAEGQTPQIAMMTSSGAYKSLVKITNVGKHEIEGVQTKNGKVYFTIVTDPKNKKNTQKIYYVPDTIF				NA	NA	NA	NA	NA
AK002_03396	420			hypothetical protein	ATGAAGTTCCGAGACATGAAAAAAAGCCGCTGTGTTTGGTATTATCCCCTTTTAGTAGACAAGAGAAAAAAGACATCTGTTAAGATGGACTTAATCTTGCCTAACGAAGGGGATTTTTTCATGGCTAAAAAAGGACAAACTTACCAACGGTACTCCTTGGAATTAAAATTGGAGGCGGCCCGACTGGTCAATGAAGAACATATGAGTATTCGTGAAGTAGCAAAACGTTTAGGTATTCAAAATAAATCTCAAGTACAAGTATGGGCGGCGAAAACGAAACGTGGAATGAGCCTAGAACCTGCCACATCCAAACGGGGACGCCCCAGAACGAAGTTTTCCAGTATGGAAGAAGAGATGGCATACTTGCGAGCGGAGATTGAATATTTAAAAAAGCAGTATCCAAATCTGCACAAGGAGTGA	MKFRDMKKSRCVWYYPLLVDKRKKTSVKMDLILPNEGDFFMAKKGQTYQRYSLELKLEAARLVNEEHMSIREVAKRLGIQNKSQVQVWAAKTKRGMSLEPATSKRGRPRTKFSSMEEEMAYLRAEIEYLKKQYPNLHKE				NA	NA	NA	NA	NA
AK002_03397	867			IS3 family transposase ISBth8	GTGACGAGTAAAGCTGCTAGATTTCAGATCATAGAGGACTTGCGAGTACGCCATCGTCTTGTTTGGCTCTTGAAGTTAGCCGCGGTTTCCCGTTCAGGCTATTACAAGTGGAGAAAGAGCTTGCAAGCGGCAAAAGAACGTAGACAAAAGCAGCATGAATTGGAATCCCATCTGCTTGCCATCCATCGCATTCATCCCTACTTTGGTTATCTTCGAATGACGGTAGCTTTACGGAGGGAAGGCATTAGGGTCAACCACAAAAAGGTGTATCGATTAATGAAACAATTAGAAATCTGTTCTGTCATTCGGAAGAAGCGTCGATTCTTTGGAAAACAAGCTTCCGTGGTGAATCCGAATCGGCTTCAACGCCAGTTTAAGGCGGATACGCCACGAACTAAACTGGTCACAGATATTACCTATATTCGTGCTGGAGAACAATTTGTGTACCTGTCTGTGATTCAGGATTTATACAATAACGAGATTGTAGCTTGGCATTTATCGGAACGAAATGACCTCGCTTTGGTTCATGAAACGCTGGATAGACTCCGTCAGCACGTGGATGTGAGTGGGGTAATCCTACACTCAGATCAAGGATTTCAATACACGTCAAAACCATTTAACCGTAAACTGAAACAACTCGGCATGCTAGGCAGTCACTCTAGGCGAGGAAATTGCCTGGACAATGCCTGTATCGAGTCTTTCTTCTCTCATTTGAAGAGCGAGAAAATATACTTGAATGAGGCAGCAAACAAAGCTGAGGTTGAACAGCAAGTGAGTGAATACATTCTGTTCTATAACCAGAACCGATTCCAGAAAAAATTAAACGACCGTTCCCCGGTAGAATACCGGGAAACGGCCGCAGCTTAA	MTSKAARFQIIEDLRVRHRLVWLLKLAAVSRSGYYKWRKSLQAAKERRQKQHELESHLLAIHRIHPYFGYLRMTVALRREGIRVNHKKVYRLMKQLEICSVIRKKRRFFGKQASVVNPNRLQRQFKADTPRTKLVTDITYIRAGEQFVYLSVIQDLYNNEIVAWHLSERNDLALVHETLDRLRQHVDVSGVILHSDQGFQYTSKPFNRKLKQLGMLGSHSRRGNCLDNACIESFFSHLKSEKIYLNEAANKAEVEQQVSEYILFYNQNRFQKKLNDRSPVEYRETAAA				NA	NA	NA	NA	NA
AK002_03398	660	modB	COG4149	Molybdenum transport system permease protein ModB	ATGAATTGGAACGAATTCTGGTTACCGATTAAACTGTCACTACAGGTTTCCGTACTGTCCAGCCTAACGGTTGTCCTGATTGGAGTGGCTGCTGCCTGTTGGATGTCACGCAAATCCTTTAAAGGCAAAACGATTCTTGAGACCGCCTTTATGCTCCCGTTAGTTCTTCCGCCAACCGTGGTTGGTTTTGTGCTATTAGTCATACTAGGTCGAAAAAGCTGGTTTGGACAATGGATAGAATGGCTCTTTGCCGCGCCCGTCATTTTTTCTTGGTGGGCTGGCGTGATCGCTTCGGTCGTCGTAGCCTTCCCGCTGGTCTACCAAACGATGAAGGTAGGATTTTCTTCTGTCCATCGGGATGTCGAGGAAGCAGCTCGATCAAACGGAGCTAATGAGTGGCAGGTCTTCAGGTATATAACGCTTCCTTTGACTTATCGCTCGTTGGTAACTGCCTATATTCTTGGATTTGCTCGTGGACTTGGTGAATTCGGAGCAACGTTAATGATAGCAGGCAATATTCCGGGCAAAACGCAGACCATTCCTACGGCCATATTCGTTGCAGTTGATGCGGGCAATACGACGATGGCATGGGCTTGGACAGGATCCATGATCATGATTTCCTTTATAATGTTGCTTCTTACGAGGCGAAGTGATCAATAA	MNWNEFWLPIKLSLQVSVLSSLTVVLIGVAAACWMSRKSFKGKTILETAFMLPLVLPPTVVGFVLLVILGRKSWFGQWIEWLFAAPVIFSWWAGVIASVVVAFPLVYQTMKVGFSSVHRDVEEAARSNGANEWQVFRYITLPLTYRSLVTAYILGFARGLGEFGATLMIAGNIPGKTQTIPTAIFVAVDAGNTTMAWAWTGSMIMISFIMLLLTRRSDQ	PGPT0008440_2862	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
AK002_03399	840	modA	COG0725	Molybdate-binding protein ModA	ATGATTAAACCGGCAAAGATTAGCGTGGTTTTATCTCTTGTATTAACCATGATATTAGTAATAGCGGGTTGCGGTACGGCAGCAAAAGACCATACCGATTCTCAAGCTGCGGATAAGAGTACGCCAACTTCGGCAGCAGCAAAAACGGTTGAATTGACCGTATCTGCGGCAGCAAGCATGACAGATGCTCTAAAGGAAATCCAGGAGGATTATAAAACAAAGAATCCAAATATCACATTGAATTTTAATTTTGGCGCATCCGGCGCATTGCAGCAGCAGATTGAGCAGGGAGCACCAGCCGACTTGTTCCTGTCAGCCGCAGCCAAGAACATGGAAGTGCTCGTGGATAAACAACTGATAGATGCAAATCAACAAAAAAATGTACTTAACAACGAGTTGGTGGCTGTCGTGTCTGCGGATGGAGAAGTACCGGTTGCAAGCTTTGCCGACTTGTCCAAGTCCGAAATAAAGAATATTGCCATTGGCATTCCTGAAAGTGTGCCTGCGGGAAGTTACGCTAAAGAGGCACTTACAAAAACGAACTTCTGGGATTCGCTCCAATCCAAGATCGTACAAGGTAAAGACGTACGTCAAGTTCTTCAATATGTAGCAACGGGTAATGCAGATGTCGGGTTTGTGTATAAAACGGACGCATTAACCTCTGACAAAGTGAAGATTGCTTTTGCTGTGGATCCCGCAACATACACGCCTGTTGAATATCCGATTGGAATCGTAAAGGCAACGAAACATCGAAAAGAGGCTGAGGATTTCTACACTTATTTGCAGACTCAAGAAGCGCTGGACGTCTTTGTGAAGTACGGATTCTCCGTTCTGAATTGA	MIKPAKISVVLSLVLTMILVIAGCGTAAKDHTDSQAADKSTPTSAAAKTVELTVSAAASMTDALKEIQEDYKTKNPNITLNFNFGASGALQQQIEQGAPADLFLSAAAKNMEVLVDKQLIDANQQKNVLNNELVAVVSADGEVPVASFADLSKSEIKNIAIGIPESVPAGSYAKEALTKTNFWDSLQSKIVQGKDVRQVLQYVATGNADVGFVYKTDALTSDKVKIAFAVDPATYTPVEYPIGIVKATKHRKEAEDFYTYLQTQEALDVFVKYGFSVLN	PGPT0008435_412	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
AK002_03400	951			hypothetical protein	ATGTCCAATGACATGTCTTATACAACGGAGGAAATTGCCAAGCTCTTAAAAATATCCAAACTTACCGTGTATGATCTGATCAAAAAAGGGGAGCTGCCCTCTTATCGGGTCGGCAAACAAATGCGGGTGGATGCTGCTGACCTGGAGGCCTACAAACAAAGGACGAGAACGGTTCCGGTATCCAACCAACCTGTTGAGGCGCTTTCGCCTTCACCTATTCAACCGCCTACATTCACCAGTGGGAATCGCCCGATCGTCATTACCGGACATGACATTAGCCTAGATATCTTGGCCAAACATATGGAACAAACAATCCCCGCCATTCGGCCCTTGCGTTCATTTGTCGGCAGCCTCGACAGCTTAATCTCTATGTACAGAGGCGAGTCTGATATCGTCAGCACGCACCTCTTGGACGGAGATACCGGTGAGTACAATCTTCCGTATATTCGAAAGCTGCTCGTTGGTTCTTCCTATGTGGTCGTCAATCTTCTTTCTAGAAGCGCAGGGTTATATGTCCAGCCGGGGAACCCCTTCGGTCTTAAAGGGTGGTCTGATTTAGACCGTTCCGGGCTGCGATTCGTGAATCGCGAGAAGGGATCAGGCGCCCGCGTATTGCTCGACGAACAGCTCCGCCTTCACGGAATCAATCCGGAGCAGCTTTCCGGCTATGATCATATACAGACTAATCATCTCGGTGTGGCGACGAAAGTTGCTACCGGTGAAGCCGATGTTGGCGTTGGAATTGAGAAAGCAGCCTCGATAATCGGTCAAATTGATTTTATTCCTTTGATTCAGGAGCGTTATGATCTTGTGATACTTAAAACCACGTGGAGTCAGACCTGGATTCCCGCCCTTTTGCAAATTCTGCAATCGGGCACCTTCCAAAAGGAGCTGCGTTCGATTCCGGGGTTTGATGTATCCCGTACAGGAGAGGTCCTGTTTGAGACTTGA	MSNDMSYTTEEIAKLLKISKLTVYDLIKKGELPSYRVGKQMRVDAADLEAYKQRTRTVPVSNQPVEALSPSPIQPPTFTSGNRPIVITGHDISLDILAKHMEQTIPAIRPLRSFVGSLDSLISMYRGESDIVSTHLLDGDTGEYNLPYIRKLLVGSSYVVVNLLSRSAGLYVQPGNPFGLKGWSDLDRSGLRFVNREKGSGARVLLDEQLRLHGINPEQLSGYDHIQTNHLGVATKVATGEADVGVGIEKAASIIGQIDFIPLIQERYDLVILKTTWSQTWIPALLQILQSGTFQKELRSIPGFDVSRTGEVLFET	PGPT0008430_287	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK002_03401	384			hypothetical protein	ATGAAAATCATTGTAACCAGTATATTCGTGCAGGATCAAGACAGGGCAGTGGAGTTTTATTCAGAGAAGCTCGGATTTGTTATAAAGGAGGATGTTCCTGTCGGAGAATTCAGGTGGATAACGCTTGTTTCGCCCGATGTTCAAGACGGTACTGAGCTTTTGCTCGAACCGAATGAACATCCTGCTGCAAAGGAGTATCAAAAGAAGATCTTTGCCGAAGGCATCCCGGCAACCATGTTTGGCGTTGAAGATATTCGCAAAGAGTACGAGCGGTTAAGGGGAAAAGGCGTGAAGTTTACGATGGAACCGACAAAAATGGGCGAACTCACAATAGCTGTCTTTGACGATACCTGCGGGAACCTTATTCAGATCGTGCAGAAGTAA	MKIIVTSIFVQDQDRAVEFYSEKLGFVIKEDVPVGEFRWITLVSPDVQDGTELLLEPNEHPAAKEYQKKIFAEGIPATMFGVEDIRKEYERLRGKGVKFTMEPTKMGELTIAVFDDTCGNLIQIVQK				NA	NA	NA	NA	NA
AK002_03402	315			hypothetical protein	TTGACAAGCAACCCTGGGGTTGCTTATAATTGGACTATGAAGTGGGACAAAGACGCAATATTCAAAGCACTTGGTGATCCAACTCGGCGGCTTATGTTAGACGAATTATCCGAACGTAATGAGCTGACGTTGTATGAACTTACGGTACGTCTCATCATGAAGCACAACCTTTCCATTTCGCGGCAAGCGATAGCTAAACATCTTGCTGCATTGGAGGATGCCGGACTGGTCATAACAAAGCGTAAGGGGAAATATCGAGTCATTATCTTTAACAACGAACCACTGAAGAATTTGCTGAAAGGATGGATAGAGTAA	MTSNPGVAYNWTMKWDKDAIFKALGDPTRRLMLDELSERNELTLYELTVRLIMKHNLSISRQAIAKHLAALEDAGLVITKRKGKYRVIIFNNEPLKNLLKGWIE				NA	NA	NA	NA	NA
AK002_03403	2616	rphC		rifamycin-inactivating phosphotransferase RphC	ATGCGTTCTTTGGTTCTCGATTTTCAAGACATGGAACAAAACCAGCTGTTGCTCGTTGGCGGAAAAGGAATGAATCTAGGGGAATTAGCAAAAATCGAAGGAATACACGTACCGGAAGGATTTTGCGTTACAACCGCGGGATATCAAAAAGCCATCGAACAAAACGAAACCTATCATGATTTGCTGGGACAGCTAGCCATGCTAAAAGCAGAGGATCGGGAGCGAATTGGTGAAGTCAGCAGGAAGATCAGGCAAATCATTATGGACGCAGAGATTCCTGCCGACGTCGTGAAAGCCGTAACTCATTATCTCTCTCGGTATGGCGAGGAACATGCTTATGCCGTTCGTTCCAGTGCGACAGCTGAAGATTTACCTCATGCCTCCTTTGCCGGTCAACAGGACACCTATTTAAATATCATCGGGACAGAGGCCGTCTTGCAGCATATCAGTAAATGCTGGGCATCCCTATTCACGGATCGCGCCGTGATCTACCGGATGCAAAATGGATTTGACCACAGTCAAGTTTATTTATCCGTTATCGTTCAAAGGATGGTTTTCCCGCAGGCTTCAGGGATACTATTCACAGCAGACCCGATGACATCCAATCGAAAGCTGCTCTCCATCGATGCCAGCTTTGGACTTGGAGAAGCGCTGGTCTCCGGTTTGGTATCTGCCGATTGTTACAAAGTACAGGATGAGGTCATCGTCGATAAGAGGATAGCCGCCAAAACATTGGCGATCTATGGACGACAGGAGGGCGGAACGGAGACCCGGTCGATTGCCCCCGATCAGCAAAAGATCCAAACCCTTACCGAACAACAAATTTTACGGCTGGCACGCATCGGAAGACAGATTGAAGCTTATTTCGGCCGGCCGCAAGATATCGAATGGTGCCTGGCCGATGACGTGTTTTATATCGTTCAGAGCCGGCCGATCACGACGTTATACCCGATCCCTGAAGCGAGTGATCAAGAAAATCGCGTCTATATCTCTGTTGGTCATCAACAAATGATGACGGATCCCATGAAACCGCTGGGATTGTCTTTTTTCCTGCTAACGACTCCTGCACCCATGCGCAAAGCTGGCGGAAGATTGTTTGTTGATGTCACACATCATCTGGCATCGCCTAACAGCAGAGAATTTTTATTAAATAGCATGGAACAACACGATCCGCTCATGAAAGACGCACTTATGACCATCATAGATCGAGGAGATTTTATAAAATCGTTACCCGATGATAAAAAAGAAGCGAGCCCCGTTAAAAGCAGTAATGCTATGCCGCCTGCCGGTGCTCCCCCACAATTCGAAAACGAGCCGACAATCGTTAATGATCTGATTCAACGAAGTCAAACATCGATCGAAGAGTTAAAACATAACATCGAGACGAAATCTGGGACGGATTTATTTGATTTCATTGTGGAAGATATCCAGCAATTGAAGAAGATTCTGTTCGACCCGCAAAGTTCGGCTGTCTTTATGGCTGCCATGAATGCTTCATCATGGATCAATGAAAAAATGAACGAGTGGCTAGGTGAAAAAAACGCAGCAGACACGCTTTCTCAGTCTGTACCCCATAATATTACTTCGGAAATGGGTCTGGCGCTGCTCGATGTCGCAGATGCGATTCGTCCTTATCCGGAAGTCATTGATTATTTGCAGCAAGTCAAACACGATGACTTTTTGGATGAGCTGGTTACGTTTGATGGCGGGCGAGAAGCCCGAGACGCGATCCGTGATTTTCTCAGCAAATACGGGATGCGATGTGCCGGAGAAATCGATATCACTAGAACACGTTGGAGCGAGAAACCCACTACGCTCATCCCATTGATTATGGGTAACATCAAAAACTTTGAGCCTAATGCCAGCCATCGAAAGTTTGAGCAAGGGCGACAGGAAGCGCTGAACAAAGAACAAGAACTCCTGGAACGATTAAGCCGATTACCGGATGGTGAACGAAAAGCCGCAGAAACCAAACGAATGATCGACCTTATCCGGAATTTCATTGGTTATCGGGAGTATCCGAAATACGGCATGGTTAATCGCTACTTCGTATATAAGCAGGCTTTACTGAAAGAAGCCGAACAACTTGTAGAAGCGGGCGTTATTCATGACAGAGAAGATATATATTATCTCTCTTTTGAAGAGCTTCACGATGTCGTACGCACAAATAAACTGGATTACCGAATGATCAACAAACGAAAAGACGAATACAAATTATATGAAAAACTGACTCCTCCGCGTGTGATCACATCGGATGGCGAGATCATTGTTGGTGAGTACAAACGGGAAAATATTCCTGCTGAAGCCATTGTAGGGCTGCCAGTTTCTTCGGGCGTTATTGAGGGAAGAGCACGTGTCATCTTAAACATGGAAGACGCTGATCTGGAGGAAGGAGACATCTTAATCACTGCCTTTACGGACCCTAGCTGGACGCCATTGTTTGTATCCATTAAAGGATTGATCACCGAAGTGGGCGGACTGATGACCCACGGGGCCGTTATTGCGCGTGAATATGGATTGCCTGCCGTAGTCGGCGTCGAGAATGCAACCAAAAGGATCAAGGATGGACAGCGCATTCGCGTGAATGGAACAGAGGGGTATGTGGAAATATTATAA	MRSLVLDFQDMEQNQLLLVGGKGMNLGELAKIEGIHVPEGFCVTTAGYQKAIEQNETYHDLLGQLAMLKAEDRERIGEVSRKIRQIIMDAEIPADVVKAVTHYLSRYGEEHAYAVRSSATAEDLPHASFAGQQDTYLNIIGTEAVLQHISKCWASLFTDRAVIYRMQNGFDHSQVYLSVIVQRMVFPQASGILFTADPMTSNRKLLSIDASFGLGEALVSGLVSADCYKVQDEVIVDKRIAAKTLAIYGRQEGGTETRSIAPDQQKIQTLTEQQILRLARIGRQIEAYFGRPQDIEWCLADDVFYIVQSRPITTLYPIPEASDQENRVYISVGHQQMMTDPMKPLGLSFFLLTTPAPMRKAGGRLFVDVTHHLASPNSREFLLNSMEQHDPLMKDALMTIIDRGDFIKSLPDDKKEASPVKSSNAMPPAGAPPQFENEPTIVNDLIQRSQTSIEELKHNIETKSGTDLFDFIVEDIQQLKKILFDPQSSAVFMAAMNASSWINEKMNEWLGEKNAADTLSQSVPHNITSEMGLALLDVADAIRPYPEVIDYLQQVKHDDFLDELVTFDGGREARDAIRDFLSKYGMRCAGEIDITRTRWSEKPTTLIPLIMGNIKNFEPNASHRKFEQGRQEALNKEQELLERLSRLPDGERKAAETKRMIDLIRNFIGYREYPKYGMVNRYFVYKQALLKEAEQLVEAGVIHDREDIYYLSFEELHDVVRTNKLDYRMINKRKDEYKLYEKLTPPRVITSDGEIIVGEYKRENIPAEAIVGLPVSSGVIEGRARVILNMEDADLEEGDILITAFTDPSWTPLFVSIKGLITEVGGLMTHGAVIAREYGLPAVVGVENATKRIKDGQRIRVNGTEGYVEIL				NA	NA	NA	NA	NA
AK002_03405	465			hypothetical protein	ATGGCTTATATCGTTGATTTTAAAAATGTATCTACGGTTGGTTTGGAGTCTTCGCCCGCAGCGGAAGCGCTTGCTGGTTTACGAGCGAATGAGGCGCGTTACTTCATGAACAAATATAAGCATGAATTTACGGTTGTACCAGCCGGCGATAGCCAGGAGACTTTGGATTATGTGAACCGGATATTGAAAGAAGAACGAGATCTTGAGTTTGCGGCCAAACCTTTGGAGACGTCGCGTTTTCAAGTGGAAAACATCCAATGGGCTTTCGTCTTTTATGAGGATGGCCTCGCGGTCAATGTCATGTATACGGTTGATGATCCTAAGAAGCGGGCTGTCGGTTTTAAGCTTTCGGAGGGGATGGAGGTACCGCAGGAGTTGGAAGGGAAGTTTAAGTTTGCAAGGCAGAAGTCCAAATTAGCCGGAACCATTCGGGGCTCGTTCTTTGTAATTAAAAAGGAATACTAA	MAYIVDFKNVSTVGLESSPAAEALAGLRANEARYFMNKYKHEFTVVPAGDSQETLDYVNRILKEERDLEFAAKPLETSRFQVENIQWAFVFYEDGLAVNVMYTVDDPKKRAVGFKLSEGMEVPQELEGKFKFARQKSKLAGTIRGSFFVIKKEY				NA	NA	NA	NA	NA
AK002_03406	480			hypothetical protein	ATGGGGAATTATACGCTTGAGGAAAAAGACAGCTTTATCGTATTAGGTATTGGAACCGAACTTAAAAGCGATTACACGGATTATGCCGGCATCAACAAGGAAAAAACGGAATTTTGGGAGTCGGTGAAGCAAGACGGAAGACTGGACACCTTAAAGGCCGTAGCTGCTAATGATTACATTTTTGCCGTGAACGAGGCAGTCAATAACAAGATGATGTATTATGCCGGCGTCATGACGGAGGAGTCGTTACCAGAAGCTACTAGGGTAATTCAATTTCCTAAAGGCGAATACCTCGTTGTAAAAGGGGAAGGGAAAACCGCGGATGAGCTGGGCCATAAACTTACCGGCATTGCCTTTGGTCAAGTATTGCCGTCTGCCAAGGATTTTGCCTATGTCGGCGGGCCGAATGCAACGGTGGAGATGGAAGAGCGGGACGGCTTCGTATGTGGCGAATTGTGGATTCCCGTCGTAAGGAAATAA	MGNYTLEEKDSFIVLGIGTELKSDYTDYAGINKEKTEFWESVKQDGRLDTLKAVAANDYIFAVNEAVNNKMMYYAGVMTEESLPEATRVIQFPKGEYLVVKGEGKTADELGHKLTGIAFGQVLPSAKDFAYVGGPNATVEMEERDGFVCGELWIPVVRK				NA	NA	NA	NA	NA
AK002_03407	963			hypothetical protein	ATGAAAAAAGTTGAGCGGATTAATACCATCATGCGGTATATCAACAACCGCGCCCACTTTACCATTTCTGAAATTATGCGCGAATTTAACATTTCTCGCTCGACGGCGATTCGAGATATTCGAGAAATCGAAGCCATGGGGATGCCGCTTGTCGCTGAAGTTGGCAGGGATGGGGGTTATTTTGTCATGAACAACTCCGTCCTGCCCACGGTCCGCTTTACCGACACTGAAATCAAAGCCTTGTTTATCGCCTTTATGGCCACTCGAAATCAACAGCTCCCTTATCTAAAGAGTCGCCATTCTTTGGCTGAAAAATTACTCGGCCTCATCTCGGAGAACCAGCAAGACGATCTTGTTCTACTAAATCAAATATTGCTGTTTGAAGGAACCAATCCTCATAATCCCGACTTGCTTGATCTGTCCGACCTGCCCCATCCGATGTTAGAAAAACTCATCCAACTCCTTCTGCTGGACAACTATTTATTGGTTTCCGTCCAGGAAGAGAAGGAAATAAAGTCTTATCCCATTTATCTCCTGCACCTTTATCGTGAAAAAAGCTTATGGTTAATTGAAGGCTTTGACTTAGCGGAAGAAAAGAGACGGATTATTCCTGTCGACAATCTCTCTGACATAAAACGATTCCATACGAAAAAAAGGGTTGGCAAGAAAAAGATCTTAGAGCAGCTGAGTAAGCAGGAAGAGTTCATCAACCTTGTCCTTGATCTTGGTCCAAAGGCGATAGCCCAGTTCAAAAAGTACCATCCCGTAAAGTTTTCCATTGCATATACGAATCCTTACCAAACCACAGCCGTTCTTAAGGCTTTTATCGATGTGAACAAGGTGGAAGAATTGACCGAAATCACAAATTGGCTGCTATTTCTAGGTGGGGATATCAAGGTTAGGGAGATACCTGAACAAGTCGTAGAAGGTTTGAAAGAAAGATTCAGCTTATACTGTCCATAA	MKKVERINTIMRYINNRAHFTISEIMREFNISRSTAIRDIREIEAMGMPLVAEVGRDGGYFVMNNSVLPTVRFTDTEIKALFIAFMATRNQQLPYLKSRHSLAEKLLGLISENQQDDLVLLNQILLFEGTNPHNPDLLDLSDLPHPMLEKLIQLLLLDNYLLVSVQEEKEIKSYPIYLLHLYREKSLWLIEGFDLAEEKRRIIPVDNLSDIKRFHTKKRVGKKKILEQLSKQEEFINLVLDLGPKAIAQFKKYHPVKFSIAYTNPYQTTAVLKAFIDVNKVEELTEITNWLLFLGGDIKVREIPEQVVEGLKERFSLYCP				NA	NA	NA	NA	NA
AK002_03408	624			hypothetical protein	ATGCATAAAGTAATTGAACCCAAAATCCTTTACTTCGGGACTTCGGTTGTGCTCATCAGCACAATGAACGAAGACGGTACGTCCAACCTGTCTCCGATGTCGTCAGCCTGGTGGCTCAACCAATCGTGTATGCTGGGTATGAGCAGAAAATCGAAGACGGTTCAAAATTTGATCCGTGAACGGGAGTGCGTACTTAGTCTTCCGTCGGTTGACTTGATTCCTGCTGTGGATCGGCTGACGCTGTTGACGGGGAGCAACCCAGTCCCTGATTCTAAAGCAAAAAGGGGCTACAGGCATGAGGCGGATAAATTCGGAGTCGCTGGCTTAACACCACTTCCATCCCTAATCGTTCAGGCTCCGCGCGTCAAAGAATGCCCTGTGCAGCTGGAAGCCAAGCTTGTGAAGCTCCATGCATTTGAAGAACCAAGCTCGCTGGTTGCCATAGAAGTTCGAATTGAAAAAATCCATATCGAAGAAGAACTTCTTGTGACTGGTAACCCCAATTATATTGATCCTGCGAAATGGAATCCGATGATTATGAATTTCTGCGAATATTTCGGTCTGAGCGAGCAATTGTCTGCATCAAAATTGGCGCCGGTATTCGGACCGGATCCCGTAAAATAG	MHKVIEPKILYFGTSVVLISTMNEDGTSNLSPMSSAWWLNQSCMLGMSRKSKTVQNLIRERECVLSLPSVDLIPAVDRLTLLTGSNPVPDSKAKRGYRHEADKFGVAGLTPLPSLIVQAPRVKECPVQLEAKLVKLHAFEEPSSLVAIEVRIEKIHIEEELLVTGNPNYIDPAKWNPMIMNFCEYFGLSEQLSASKLAPVFGPDPVK				NA	NA	NA	NA	NA
AK002_03409	744			hypothetical protein	ATGAATTACGAGCATAAAGTACAGAGGGAGATAGCCGACTGGGAACGCCAGATGTTCAAACCGCCGGGTTGGCTGGAAAAAACATCGAAAACCATTGGCAGCCGGATTAATCATTGGATTCCCCCGAAGGTGCACACCATCATCACGACCACCATACGATCGATCGTGCGTACGGCACTGTTCGGTGCGGAATATACGCCTAGCCGGTCGGTCCAGCGTACTCTGGAACTGGAAGCTGCCGATCAAGAAGCGAAAGAGTTGTTTGCTCTGTACCAAAAAATCGCGGTTGCCGAAGGAGCGGGTACCGGAGCCGGCGGCATCATGTTCAGCATGGTAGACTTTCCGGCTTTAATCGCGATCAAAATGAAATTTTTGTTCGAGCTGGCGCATGTTTACGGTTATGACACCAAACACTTCTCCGAGCGGGTATTCATCCTCAAGGTATTTCAAATGACGTTTTCGGGGCCCGAAAACCGTGCCAGACTGCTCGATTCCGTCAAGCGTTGGCATATTGAAAAGGAACAATGGCGCTCCGATACCGAATATGCCCGGAATATGGACTGGGAAACCTTTCAGATCGAGTATCGAGATGCCATGGATTTCCGGAAAATGCTGCAGATGGTGCCCGGGATCGGCGCTTTCGCAGGCGCATGGGCGAATTACACCATACTTGAGGAGCTGCGCCAATTCGCCATGAACGCTTACCGCGTGCGCAGATTGCACGATTTCGAGGGATTGGGTTAA	MNYEHKVQREIADWERQMFKPPGWLEKTSKTIGSRINHWIPPKVHTIITTTIRSIVRTALFGAEYTPSRSVQRTLELEAADQEAKELFALYQKIAVAEGAGTGAGGIMFSMVDFPALIAIKMKFLFELAHVYGYDTKHFSERVFILKVFQMTFSGPENRARLLDSVKRWHIEKEQWRSDTEYARNMDWETFQIEYRDAMDFRKMLQMVPGIGAFAGAWANYTILEELRQFAMNAYRVRRLHDFEGLG				NA	NA	NA	NA	NA
AK002_03410	879			hypothetical protein	ATGCAGAAGGGAATGCGTTACCTGTTGGTTCTGTCGCTGCTGCTGACCAGTTGGTCCGTTTTCGGTACGAGAGCCGAAGCTGCGGACTATACACAGGGCGTTGAATTATCCGGCGGCGCAGCCACCGTATGGTTCAAATCCGCCGTCAACACTAGCTGGGTCGATGTCCATTATCGAGTGAACGGCGGCGAACAGCAAAATTTCAGAATGTCTTACCATGCCGGAAAATCCCGATATGAGCAGGCCATCACAGGCATTGCCGCCGGCCACGTGATTACGTATTCGTTTACTTACAATAACGGGATCCCTGCCTATGACACCGGTGTATTTTCTCACACTGCCGGTTCCACGCCGCCTCCCTCTTCTTCCGGCTCCATATATGACATTCTTCCATCCACTATCCCCATGCCGCCAAACGGTGCCGTCTCGGTCAAGATCTTGAACGGGACCCATGGCGCTTATACCGACCAGCAAATATACTGGGGCGTTCTCGGCATCAATCCCGTCAACAACCAGTGGAGCTATTTGGACCTTAACGGCAATCTGATCCCGATCTCCAGCGCCTTGAATGATGCGCCAGGACATTTAACCAAGAACGGCATCAACTACGCCAACATTTATCATAAGGTCAGCGATGCTTCTTGGGTCACATTGCCCCAGATCACATCGGGCCGAATGTTCCTTAGCGTCGGCACTCCTCTGTACTTGAAGACCTTTAACGATGGATTCGCCGGCCCCGATCTGAACAATCCGACCGACCCAAACCGCGATATTTATTTTGATTTCGTTGAATTCACGATTGACGCCGCCGGCTACCACGGCAATACGACACGCGTCGGATGGATTCGGGTTCCCCCTTCAGCATCGTCTGGTCAATAA	MQKGMRYLLVLSLLLTSWSVFGTRAEAADYTQGVELSGGAATVWFKSAVNTSWVDVHYRVNGGEQQNFRMSYHAGKSRYEQAITGIAAGHVITYSFTYNNGIPAYDTGVFSHTAGSTPPPSSSGSIYDILPSTIPMPPNGAVSVKILNGTHGAYTDQQIYWGVLGINPVNNQWSYLDLNGNLIPISSALNDAPGHLTKNGINYANIYHKVSDASWVTLPQITSGRMFLSVGTPLYLKTFNDGFAGPDLNNPTDPNRDIYFDFVEFTIDAAGYHGNTTRVGWIRVPPSASSGQ				NA	NA	NA	NA	NA
AK002_03411	405			hypothetical protein	ATGAAAAAATCTGTAGAATCCGTATCAACCCGAACAACTGAAAGTTTTGAAGCTTTTAAGCAGGCATTAGAAACAGGGCATACAGCGGATTTTCTTGATAAGGTTACAGATGGTTTTCATTTCTTTGTTCCGCTCCCGCTAGATGGGTGGGATCACAAGCAGCAAGGCAAAGAGCGGTTCGAGGAATTGGTCAGGTTCGAGCGCTCCGTATTTCAGATGCAGCTGATTCCGCTCGTCTTGATTGAGAATGCGGATCACGGGATGGTGGTATTTCGCTCAGAAGGTTTGTTGAATGGCCGGTCTTTTAGTAATGAGCTTGCCATCGTATTCGAGTTCGAGGGAGAGCGGATCGCCTCCTTCCGCGAGTATGTAGGTATGCCGTTAAAAAACTATGAGGCCCCCTAA	MKKSVESVSTRTTESFEAFKQALETGHTADFLDKVTDGFHFFVPLPLDGWDHKQQGKERFEELVRFERSVFQMQLIPLVLIENADHGMVVFRSEGLLNGRSFSNELAIVFEFEGERIASFREYVGMPLKNYEAP				NA	NA	NA	NA	NA
AK002_03412	468			hypothetical protein	ATGTCCGAAGCGATAATCAATACGGCGAAGATTGGACGTCAAGTGGTGCTGCAGCAGGTGCAGGCTATACCGGAGGAGCGGTTCGACATACAAACTTCAGGATTTAACAACACCATCCGTTGGAATGTCGGCCATATCATTTATTGGATGGATACGTATACTACCCTGAGCTTTGGTTCCCCATCAGCCATACCGGACTCGTATGCTTTACTGTTTAACTCCGGGACCAAGCCCTCGGAATGGAAGGTGGCTCCTCCATCGAAAAAAGAGCTGGTCGAGATGTTAACAGCTCAGCTTTCACGCCTATCTGTGCTGAATTCGGATATGCTGGACGAGAAGCTTTCAACTCCGTACGTCATGGGACCGTTCCAATTCAGTACGGCTGGGGAGCTGTTCAACTTCGCGCTGCTTCACGAAGCCATTCACCTCGGAACGATATCAAGCCAGCTAAAGGTTCAGACGCGCTAA	MSEAIINTAKIGRQVVLQQVQAIPEERFDIQTSGFNNTIRWNVGHIIYWMDTYTTLSFGSPSAIPDSYALLFNSGTKPSEWKVAPPSKKELVEMLTAQLSRLSVLNSDMLDEKLSTPYVMGPFQFSTAGELFNFALLHEAIHLGTISSQLKVQTR				NA	NA	NA	NA	NA
AK002_03413	903	cynR_2		HTH-type transcriptional regulator CynR	ATGGAGTTAAAACAACTGCAATATTTTATGGCTATATGCGAAGAGCTTCACTTCTCGAGAGCAGCAGAAAAAATGGGAGTCAGTGCTCCCAACGTAAGCCAACAGATCAGGAGATTGGAAGAGGAATTAGGGGTTCTGTTGTTTGATCGCGTGGGAAAAACCATTATTCTTACGGACGCTGGAGCTATTCTTCATGAACATGCTGCCGCCGTGTTCGGGCATCTGCAGCAAGCGGGCGATGCCATTGCCGATCTGAAGCAGATGCAAGGTGGATCGCTATCGATTGGGGTCTTGCCCGGTGACGCGGATCTCATGTTTAATGCCTTGCTGCTGGATTTCCATCAGACCTATCCCACCATCTCGCTGTCCCTTCTGGAAACCATGAAGGTAACGGAACAAGTTTTGGACCGAAGCATCGATATCGGCGTAACCATCGGACCCGTTATCGATGAACGTCTCACTTCAATTCCCCTGTTTCACGAGGAATTCTCATTGGCTGTGCATAGGGACGATCCTCTTGCCGGGGAGAACTTCATCCCCTTGAACAGGCTGCGCTCCATGAATATGGTCATGTTTCCACCCGATCATCAATGCCGCAAGCTGATCGACCGCTTCTGCATGGACAACGGCTTTGCAGTGCAGCCTCATATGGTGACAACAACATTATCCTCCCTCCTCCAGATGGTACAGAGCGGAGTTGGCGCGTGCGTTCTGCCGCGACTTTTACTGGATAATCTTCGGAATACAGAAATCAAAGTCGTGCATCTAAGGAATCCTACGCCTTCTCAGGACATTTGTCTGATCTACCGCAGCGACAGATTTATGGGATATGCCATGCGCACATTCATCAAAAATTTGAGGGCTTACATCGAGGCAGCCATCCGTCATTCGAAGTCTTCATAG	MELKQLQYFMAICEELHFSRAAEKMGVSAPNVSQQIRRLEEELGVLLFDRVGKTIILTDAGAILHEHAAAVFGHLQQAGDAIADLKQMQGGSLSIGVLPGDADLMFNALLLDFHQTYPTISLSLLETMKVTEQVLDRSIDIGVTIGPVIDERLTSIPLFHEEFSLAVHRDDPLAGENFIPLNRLRSMNMVMFPPDHQCRKLIDRFCMDNGFAVQPHMVTTTLSSLLQMVQSGVGACVLPRLLLDNLRNTEIKVVHLRNPTPSQDICLIYRSDRFMGYAMRTFIKNLRAYIEAAIRHSKSS	PGPT0012965_2135	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
AK002_03414	396			hypothetical protein	ATGAGGTCTTTAGGGTCGTTGAATGTTGATGTAATTACATTGTTTGTGGAGGATTTGCACAATGTGAAGGTGTTCTATCAAGAAGTCTTTGGTTTTTCCGCTGTTTATGAGGACGATGTTTCTGCGGTGTTCAATTTCGGAAATATGAGCATTAACCTCCTGAATATCTCCGAAGCCCACGGTCTGATCCATCCTGGAACAGTCGCGAGCCGAGAATCCGGATCTCGGTTCCAGTTTACTATCCGGTTGGATGATGTAGATGCAGTATGCAGCGAATTGAAAACACGCGGCGTTACCCTGCTTAACGGTCCAATGGATCGGCCATGGGGTGTCCGAACCGCTGCCTTCACAGATCCGGCAGGGCATGTATGGGAGATTGCTCAGCAAATAATTTGA	MRSLGSLNVDVITLFVEDLHNVKVFYQEVFGFSAVYEDDVSAVFNFGNMSINLLNISEAHGLIHPGTVASRESGSRFQFTIRLDDVDAVCSELKTRGVTLLNGPMDRPWGVRTAAFTDPAGHVWEIAQQII	PGPT0013300_3495	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
AK002_03415	1365	lysN_1	COG1167	2-aminoadipate transaminase	ATGATCTATGCCGAGGTCATGAAGAGCATCGAGCAGCAAATCGATAATGGAGGGTTGAAACCCGGGAAGAGGCTGCCATCCATACGGGCGTTAGCCAAGCAGTTCGACTGCAGTGTGAATACCATCATCAAAGCATATTCAGAATTGGAAAAAAAACATAAAATCTATTCCGTCTCGAAAAGCGGTTACTATGTTGTAGAGCGGGTGCCTTTCGGACATTCAGGTTCAGCTAACACGGGAGTCATAGATTTTCTGTCAGCTGGCCCCGACAAGAATGCCATGCCTTACCGGGACTTTCAGCACTGCATCAATCAAGCTATCGAAGGTTATAAAGAGGAGATGTTTACCTATTCGGAGATCCAAGGGCTGCCTTCGTTAAGAGAGGAGCTGGCCCGGCATCTGCGAGAACTGCAAGTGTTTACGGTTCCTGACCGAATCTGCGTGGTATCCGGGTCACAGCAAGCGATTCATCTATTGATTTCGCTTCCCTTTCCTAATGGCAAAAAAAATATCTGCGTAGAACAGCCTACTCATGTCAGTATGATCGAGTCGATCAAGGTTCAGCAGGCCACGACTTACGGAATCGAAATAACGGAGAGAGGAATCGACATGGAACGGCTGGAGCATCTGTTCAAATGCAACGACATTAAATGTTTCTACACCGTGACCAGGTTTCATAACCCGACAGGCTGCAGCTATTCCAATAAGGAACGACGAAAAATCGTGGAGCTGGCCCAAAAATACGACGTTTACATTATCGAGGACGATTATCTAGGCGATCTCGATCCTGACAAGAACCAGGATCCGATGTTTGCTTACGATCCATCCGGAAGGGTCATATATATCAAAAGCTTTTCCAAAGTAATGCTGCCCGGCTTAAGATTGGGGCTTGCTGTTATTCCGAACTTCCTGCGTGAATCATTCCTTAGCGCCAAATTCGCTACCGATCTCCATACCCCGGTCCTTATGCAAGGGGCTTTGGAAATTTACTTGAAGAGCGGCATGTTCAAGGCTCATATCCAGCGCATGAGATCCGTCTACAGCAGGAAAGCGGCCTTATTGCAAAAGGCTTATCAAGAGAAGCTGCCGTCAAGCGCCGCATATTCGGTTTCTCAATCGGGATTCTATTCAACGATCCGGTTACCTGGTCTGCTTAAGGCCGGGATGTTGATTGAGGATTTGAAGAAGGAAAACGTATACGTAGACGATGCCCGAAAAATGTATCTTCCCGAGTTTGCCCAGGATTCGGTGATTCGCTTAAGCGTTTCGCAGGTAGAGGAGGAGCACATCGTAATCGGAGTCCAAACCATAGCTCGCGTTATAAAAGAGCAACTTAACAAAATGCCGCAAGTGAAATTTATATGA	MIYAEVMKSIEQQIDNGGLKPGKRLPSIRALAKQFDCSVNTIIKAYSELEKKHKIYSVSKSGYYVVERVPFGHSGSANTGVIDFLSAGPDKNAMPYRDFQHCINQAIEGYKEEMFTYSEIQGLPSLREELARHLRELQVFTVPDRICVVSGSQQAIHLLISLPFPNGKKNICVEQPTHVSMIESIKVQQATTYGIEITERGIDMERLEHLFKCNDIKCFYTVTRFHNPTGCSYSNKERRKIVELAQKYDVYIIEDDYLGDLDPDKNQDPMFAYDPSGRVIYIKSFSKVMLPGLRLGLAVIPNFLRESFLSAKFATDLHTPVLMQGALEIYLKSGMFKAHIQRMRSVYSRKAALLQKAYQEKLPSSAAYSVSQSGFYSTIRLPGLLKAGMLIEDLKKENVYVDDARKMYLPEFAQDSVIRLSVSQVEEEHIVIGVQTIARVIKEQLNKMPQVKFI				NA	NA	NA	NA	NA
AK002_03416	810	ybxI	COG2602	putative beta-lactamase YbxI	ATGTTACAGATGAATAAGAAAAACCGCCTATCCGCTTTTATCTTTATATTTCTTGCAGTCGTTTGCTTGTTCGCATACTCGCCAAGTGCCGATGCAAAGCCAAGCTCCCATGGGCTTGAACTGGAACAAATCTTCCGGAAGTCCCACGCGACACTGGTCCTCAAGAATTTGAAGACCGATCAAGTATACACATTCAATTCTGAAAGAAGTAAACAGCGGTTTACTCCGGAATCCAGCTTTAAAGTGGCAAATGCCCTCATCGGTTTGGAAGTCAAGTCTGTTGCTGACGAATACGAAGTCAAAAGATGGGACGGTATCGTAAGAGAGTTTCCGGTTTGGAATCGGGATCACTCACTCGCTTCGGCTATGAGGGAATCAGCGATTTGGTATTACCAGGCGATGGCTCGCGATATCGGCCAAGAGCTGATGCAGAAATACGTGAATCGAATCCATTATGGTAATCGCGACATAACCGGAGGCATCGATACATTCTGGCTGAACAGCAGTTTGAAGATCTCTGCCGTAGAACAAGCGGAATTTATCGAAAAGCTCGTTGAAGAGAATTTGCCCTTTCAGAAGAAAACGATGAAAACGGTCAAGCGGATGATGATCGACGATGAACAGGATGAATATACAATTCATGGAAAAACCGGTTCGAGGCTGTCCGATATGGGGCTTGGCTGGTATGTCGGATATATCGAAACGGAGAAAGAGACCTGGGTGTTCGCAACGAATGCAGCCGGCAGCGGTACATTCGCAAAGCAATTAACGCTGACAACATTGGAGAAGATGAAGATCTTGAATAATTAA	MLQMNKKNRLSAFIFIFLAVVCLFAYSPSADAKPSSHGLELEQIFRKSHATLVLKNLKTDQVYTFNSERSKQRFTPESSFKVANALIGLEVKSVADEYEVKRWDGIVREFPVWNRDHSLASAMRESAIWYYQAMARDIGQELMQKYVNRIHYGNRDITGGIDTFWLNSSLKISAVEQAEFIEKLVEENLPFQKKTMKTVKRMMIDDEQDEYTIHGKTGSRLSDMGLGWYVGYIETEKETWVFATNAAGSGTFAKQLTLTTLEKMKILNN				NA	NA	NA	NA	NA
AK002_03417	879	bioH		Pimeloyl-[acyl-carrier protein] methyl ester esterase	ATGACACTTGAAGTGAAAACTGCTTTGTTACCTAATGGAGAAACGCTGAGTTATAGAGAAAGAACAGGTACGGAACCCTGCATGCTGTTGATTCACGGGAATATGGCTTCTTCGGAGCTGTGGGAACCCTTGTTGACGCATGCCGATATGACCCAACGCTTCATCGCTGTAGACTTGCGTGGTTACGGCGAGTCCAGCTATCAGAATCCCATTGGTGACATGAAAGACTTTTCCTCGGATCTGCATCAATTCGTAGAACAGCTTGGTCTGCGCCATGTTATGGTTATGGGCTGGTCGAATGGTGGAGGCATCGCCATGCAGTTTGCGGCAGATTATCCAGATCGCGTAAGAAAGTTGATTCTGCTTGCCTCTATCTCGACTAGAGGATATGCAGCCGTGAATTCCGATGGAGATCGTCTGAAGACTAAAGAGGAAATAGTCAAGGACCCAGGACTTGCCATGACGTTTCAAGCAAATCAGAGGCAGGACCGGGCTTACTTTGCTCAGGCGATGGACTACCTTTTGTTTCATGAACGTGAGTCTGATGCTGCCACCCGTGTGAAGTACATCGATGCCTGCATGAAGCAGCGTAACATGGTGGATGCTGCCGATGCCGCAAACCGATTCAATATCAGTTCCGTATCCAACGGACTCGCGGATGGAACAGGAGAGTTGGAGCGTATTCAATGTCCGGTCCTCGTCATTTGGGGCGTTAAGGATTTGATTACCACGCAGCAGATGACGGAAGAAATCAAAGAAGACTTTGCAAGTCATGGAAAGCCAGTTCAGTATGTATCCTTGGATGCAGGGCACTCCCCGCTAATCGATGATTTACATGGATTGGCCGCTGCCGTCCAAGCATTCATTGCTCAGCCATAG	MTLEVKTALLPNGETLSYRERTGTEPCMLLIHGNMASSELWEPLLTHADMTQRFIAVDLRGYGESSYQNPIGDMKDFSSDLHQFVEQLGLRHVMVMGWSNGGGIAMQFAADYPDRVRKLILLASISTRGYAAVNSDGDRLKTKEEIVKDPGLAMTFQANQRQDRAYFAQAMDYLLFHERESDAATRVKYIDACMKQRNMVDAADAANRFNISSVSNGLADGTGELERIQCPVLVIWGVKDLITTQQMTEEIKEDFASHGKPVQYVSLDAGHSPLIDDLHGLAAAVQAFIAQP				NA	NA	NA	NA	NA
AK002_03418	699			hypothetical protein	ATGTTGAAATTAATCGAGCTGGAATGGAAGAAGCTGGATCGTAAGAAAGTGATCGGTGAAGCGATTACGTATTGGATCATTCTTATGTTCTTGCCGGTATTTTTTCTCAAGGTCGTTTTTGCCGATATGCCGATGATTCGTTTTGGAGAAAGTTATGCTGCCGCTCTGGAACTGATGATACCCATTCAGATGGGGTTTATATTGTTCGGAGCGTCCCTGATCAATCATGTATTCATTGAAGAATATAAGAATAAGACGATGGCTCTTTCATACGGATATCCGCTCAGCCGAAAAAGGCTCGTGATGGCCAAGGTGCTGTTCATTGTGTTGGCGGTTTTCTTCGGTACGCTGGTGTCCTTCGTACTTGGCGGTGTTACGACTTATGCGCTCAACCAAGTGATGGATGTCATCCCGGGAACGCCGACGGCAACTGACCTGGCGAATTATGCGATCCGAATGACCTTACACTCCATCGTTGTCGCGCTTGCCTCATTGATTCCGCTATTTTGGTTCGGGATATGGAAAAGAGCTGTCATCCCTACGGTCATTTGCGCCGTCTTCCTGATGCAGTTCCCTAATTTTCTCGGATTGCTGCGGATTACGCTGCATCCTGACTTTTTATATGCCATTTTCAGCGTATTGGGTGTGGCAAGCGTCATTTTATCGGTTAAATTCGTGAATAAACTAGGGGATTTGTAA	MLKLIELEWKKLDRKKVIGEAITYWIILMFLPVFFLKVVFADMPMIRFGESYAAALELMIPIQMGFILFGASLINHVFIEEYKNKTMALSYGYPLSRKRLVMAKVLFIVLAVFFGTLVSFVLGGVTTYALNQVMDVIPGTPTATDLANYAIRMTLHSIVVALASLIPLFWFGIWKRAVIPTVICAVFLMQFPNFLGLLRITLHPDFLYAIFSVLGVASVILSVKFVNKLGDL				NA	NA	NA	NA	NA
AK002_03419	936	bcrA_5		Bacitracin transport ATP-binding protein BcrA	GTGAACACGGTGGTGGTCTTCGTGAATTACGTTATTCAAACTTCGGATCTGAGCAAAACCATAAAAGGGATGTCCATTGTATCGCGTGTCAATCTCAATGTGAGAAAGGATGAGATTTATGGCTTGCTGGGTCCAAACGGCGCGGGTAAAACAACCATCATGAAAATGCTGACGGGACTCATTCTTCCGACCTCCGGCGCGATCATGCTGTTTGGCAAGAATTTTTCAGAAACCTCCAAAGAAGGCCTCAAGCGGGTCGGGAGCATTATTGAATACCCGATATTCTTCGAGCACATGACGGCCATGGAGAATCTCCAAATTCATTGCGAATACTTGGGCTATTATGATAAGAGAGCTATACATCAAGCCCTGGACCTGGTCCAATTGGAAGGAATCGAAGATAAAAAAGTGAAGGATTTCTCGCTCGGCATGAAGCAGCGTCTTGGCATCGCCAGGGCCGCCATCACCAAGCCGGAATTGATCGTGCTGGATGAACCCACGAACGGACTGGATCCGATCGGCATTAAAAACATGAGGGATTTGATCCGAACACTGAACCAGGAATATGGGATTACATTTGTCCTGTCCAGCCATATCTTAGGGGAAATTGAGCAGGTTGCCGATAGGATCGGCGTCATTCAACGCGGTCAATTGGTCGACGAAGTCACGTTGTCCGATATTCGAAAGCAGCGTACCGATTATATTGAACTTATGACCTCGAATGTGCAGAAAGCCGCCTTTTTACTTGAGCATGAGCTTCGTATATCCAATATCAAAATCGTACAAGATCAGCGAATCCGAGTCTATGATAAGGACGTATCGACCAGTCAAATTACCAAACTGCTGATTGCGCATGAAATTGAAATCGAGGAGATCCAAAAATATAACAGTACATTGGAAGACTATTTCTATCATCAAATTCAGGGAAAGGAATGA	MNTVVVFVNYVIQTSDLSKTIKGMSIVSRVNLNVRKDEIYGLLGPNGAGKTTIMKMLTGLILPTSGAIMLFGKNFSETSKEGLKRVGSIIEYPIFFEHMTAMENLQIHCEYLGYYDKRAIHQALDLVQLEGIEDKKVKDFSLGMKQRLGIARAAITKPELIVLDEPTNGLDPIGIKNMRDLIRTLNQEYGITFVLSSHILGEIEQVADRIGVIQRGQLVDEVTLSDIRKQRTDYIELMTSNVQKAAFLLEHELRISNIKIVQDQRIRVYDKDVSTSQITKLLIAHEIEIEEIQKYNSTLEDYFYHQIQGKE	PGPT0006725_13265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03420	939	rcsC_13		Sensor histidine kinase RcsC	ATGGTCCTTCTTTTATCCGTCATCATTGCGCTATTGGTTGCAATCATCGCATGGCTATTTGTTTCAAAGAAGAAACAAAATCAAAGCATCCTCGAGACAGCGAATAAAATCTCCGATATTCTGGACCAGGACACAGCAGAGAAAGTGTTGGTGCCCACGGGCGACGATGCCGTCAGGCAGCTGCTCACACAGATTAACCGTCTGCTGGATAACAAACAGAAGGTATTTGCGGATTATGCCAGAACGAAGGACAGCCAAAAGAAAATGATCTCAAACATGTCCCATGATTTGAAGACGCCGCTGACGGTCATTCTCGGCTACACGGAAAAACTGAATCAGAAGAATACGTTGACCGCGCAAGACGAGGAGCAAGTCATTCAACGTTTGAATGAAAAAGTAAACAGTCTGATCGCCTTGCTTAATCAATTCTTCGACCTTGTCAAAATCGAGTCGGAGGATTATGATATTCCGCTTAGCAAAATATCATTGAGCGAGGTTTGCCGGAACAGTGTTCTTGAGTTTTACGACCTGCTGGCTTCGAGAAATCTTCGAGTTGAGATCGACATTCCGGAGCTGCCCTTTTATTTCCTTGGCAACAAGGATGCGCTGCATCGAATATTGAGCAACCTCATATCGAATTCCATCCGCTATGGAAGCGACGGAGGCGTGTTCGGGGTGACGGTTCGGGAAGAAGGAGAATACGTGGCCGTAGACGTGTGGGACCGTGGCAAAGGGATCGCTGAGGTTCATCACGAACGCGTATTCGAAAGGCTCTATACCCTGGACGATGCCCGGAACCCGCAATTTCAAGGAAGCGGGCTGGGACTCAGTATCTCCAAGCGCCTAACGGAAGAAATGAACGGACGAATCAGTCTAAGCAGCTCGGAGGCTGACAAAAAGACCATTTTCACATGCAAATTTAAGCAATTAACCTACTAA	MVLLLSVIIALLVAIIAWLFVSKKKQNQSILETANKISDILDQDTAEKVLVPTGDDAVRQLLTQINRLLDNKQKVFADYARTKDSQKKMISNMSHDLKTPLTVILGYTEKLNQKNTLTAQDEEQVIQRLNEKVNSLIALLNQFFDLVKIESEDYDIPLSKISLSEVCRNSVLEFYDLLASRNLRVEIDIPELPFYFLGNKDALHRILSNLISNSIRYGSDGGVFGVTVREEGEYVAVDVWDRGKGIAEVHHERVFERLYTLDDARNPQFQGSGLGLSISKRLTEEMNGRISLSSSEADKKTIFTCKFKQLTY				NA	NA	NA	NA	NA
AK002_03421	699	walR_8	COG0745	Transcriptional regulatory protein WalR	ATGCAAAAACGCATTCTGCTCGTTGAAGACGACAACGACATCAATCAGTTGATTGAAAGCCAGCTGAAACAGGATCATTACAGCGTTGCATCTGCACGCGACGGCGAGGAAGCACTCGCGCTTTTTCAAAAAGAGAAGTTCGATCTGATCTTGCTCGATTTGATGCTCCCTAAGGTAAACGGCATGGAGCTGCTCAAACATATTCGAGAGACCAGCAAAGTTCCTGTTTTAATTATTTCTGCGAAAGGCAGCGACCTCGACAAGGCCATGGGCCTTGGGTTTGGCGCGGATGATTATATAAGCAAGCCTTTCTCCATGATCGAATTAACAGCCAGGGTTCAAGCTGCCATTCGGAGGGCAACGTTATACGCGGAAACGGAAAGCAAACCTGCCGAACCCCCCGTCATTGCATTTAAGGATCTCGTCCTGGACTTGCATTCGTTCTCCGTAAAAGTCAAAGGGAAAAGCGTGCCGCTCACCGCGAAGGAATTCCATATTTTGAAGCTGCTCCTAACCAATCACAGCAGGGTATTCACCAAGGAGCAAATCTATCAGCTCATTTGGGAAGAAGATTATTATGGGAATGAGAACGTGATTAATGTACATATTCGGAGACTCCGGGAAAAAATCGAAGAGGATCCGTCAGGTCCGCAATACATTCGGACGATTTGGGGAATCGGATATAAAATGGGGGATTAG	MQKRILLVEDDNDINQLIESQLKQDHYSVASARDGEEALALFQKEKFDLILLDLMLPKVNGMELLKHIRETSKVPVLIISAKGSDLDKAMGLGFGADDYISKPFSMIELTARVQAAIRRATLYAETESKPAEPPVIAFKDLVLDLHSFSVKVKGKSVPLTAKEFHILKLLLTNHSRVFTKEQIYQLIWEEDYYGNENVINVHIRRLREKIEEDPSGPQYIRTIWGIGYKMGD	PGPT0013765_169	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_03422	1107		COG2220	putative protein	ATGACCATTTTCCTGATATGCGCAGCTTTAATTTTATCCATTGCATTGTTTCTGAGATATTATCTGCCATTCGGCCAAAGAGTATCTAGGGAGAAACGAAACGAATTTCGCAATCTCCCGAATTTTGACCGCAAACGTTTTGTGAATCCAATCCATACCTCCATGAGGATGGGAGCAGCGGACTTCAAGTCACTATTACGCGATTACATGAAACGTAATCCCAATCGGAAGCCGACTTCTCCATTACCGATTAAGCGAGTAGATCCCGCAAGTATACAACAACAAGCCCTAACACGTGTGACGTGGTTTGGACATTCGGCATTCATGCTGGAAATCGAGGGGAAAACGCTGCTGTTCGACCCTATGTTAGGAACGTCGCCATCCCCAATCCCTGTTTTTGGGAATCAACGTTATAGCAGGGATATTCCTATTGATCTGGACAAGCTTCCTCCCATTGACGCCGTCGTTTTGTCTCATGATCATTATGATCATCTGGATTTCAGTTCCATCCAGAAGCTAAAGAAGAAGGTTAAGCATTTTTATGTGCCGCTTGGCCTTGGTGGTCACTTGGAGCGCTGGGGGATCCCAAAATCGAGTATTACCGAACATAATTGGTGGGATGCATCCGGGTTGGACGGTCTACAACTCATCTGCACGCCAGCGAGACACTTTTCAGGGCGAAGCCTGTTTGACCGCGATTCGACCTTGTGGTCGTCTTGGGTCATTATCAGCAACAAGAGCCGAGTGTATTTCAGCGGGGATAGCGGGTATGGTCCTCATTTTCAAGAGATCGGTGAAAAATACGGACCATTTGATGTGACGCTCATGGAATGCGGTCAATATGACAAGCGTTGGGCGAACATTCATATGATGCCTGAAGAGACGGTGCAGGCTCATCTGGACGTGAAAGGGCAATTGTTGATTCCGATCCATTGGGCAGGGTTCACGTTGGCCTTGCATGACTGGAATGAACCAATCGAACGCGTGACTACGGCTGCTAAACAAAAGCACGTGCACATACTTACTCCTCTAATTGGGGAGTCGTTAGTAATAGCTCCATCGGAATATTCAACGGAGCCTGATCATGCTGTCGTTTGGTGGAGATAA	MTIFLICAALILSIALFLRYYLPFGQRVSREKRNEFRNLPNFDRKRFVNPIHTSMRMGAADFKSLLRDYMKRNPNRKPTSPLPIKRVDPASIQQQALTRVTWFGHSAFMLEIEGKTLLFDPMLGTSPSPIPVFGNQRYSRDIPIDLDKLPPIDAVVLSHDHYDHLDFSSIQKLKKKVKHFYVPLGLGGHLERWGIPKSSITEHNWWDASGLDGLQLICTPARHFSGRSLFDRDSTLWSSWVIISNKSRVYFSGDSGYGPHFQEIGEKYGPFDVTLMECGQYDKRWANIHMMPEETVQAHLDVKGQLLIPIHWAGFTLALHDWNEPIERVTTAAKQKHVHILTPLIGESLVIAPSEYSTEPDHAVVWWR				NA	NA	NA	NA	NA
AK002_03423	549	betI_5		HTH-type transcriptional regulator BetI	GTGGAAGCCATTTTTGATGCAACAATTCAATTAGTGAATGAGATTGGTTTTGCGGAAACGTCGATTTCCAAAATAGCTAAAAAAGCTAATGTATCGGCTGCAACGATCTATATTTATCATGAGAATAAGGAGGATCTGCTGCTTAAAACTTACTTAAAAGTGAAGGGCAAAATGAGTAAGAGCATGTTACAGGGATTCGATGATACGCGATCCGTTAAAGAACGCTTTGAATCGATCATCCGCAAGTATGTTGAGTTTATACATACGCACAAAGACTATTTTTTATTTTTAGAGCAAATCAAGGCTTCTCCATTACCCCAGAAATGGTGTTTGGACGATACCGCAAGCCTATTCCAGCCTATTTTCGAGATGTTTGAAACGGGAAAGAAGCAGAACATATTGAAAGCGGAAGATGTGGATATGTTGATCGTATATTCGATCTTACCCGTAGCCGAATTGGCGAAATCACATCTGAAGAACGGAGCCCGATTGGGTAATCGGGAATTGGAAGCAGCTATAGTTATGAGCTGGGATGCAGTGAAAGCTTAA	MEAIFDATIQLVNEIGFAETSISKIAKKANVSAATIYIYHENKEDLLLKTYLKVKGKMSKSMLQGFDDTRSVKERFESIIRKYVEFIHTHKDYFLFLEQIKASPLPQKWCLDDTASLFQPIFEMFETGKKQNILKAEDVDMLIVYSILPVAELAKSHLKNGARLGNRELEAAIVMSWDAVKA	PGPT0014365_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AcrEF-TolC,PGPT0014365-acrR1-K18136	NA	NA
AK002_03424	396	adhR_2	COG0789	HTH-type transcriptional regulator AdhR	ATGGCGGTGACGATTAAAGAAATCAGCGAAAGGTTCGGGCTTTCCCAGGATACCCTGCGCTATTATGAGCGCATTGGGTTGATTCCTCCTGTAAACCGGAACAAAAACGGTATCAGGGATTACACGGTGGAAGACATCAAGTGGGTCGATTTTGTTAAATGCATGCGTCAAAGCGCGGGGCTTCCGGTCGAGGTGCTGATCGAGTATGTTTCGCTTTTTCAACAAGGGGACGACACACTCGAAACGCGAAAGGGATTGTTGATGGAACAGCGTAATCGACTTGGGGAGAAGATCGAAGAAATGACAAACACACTGACGCGTCTGAACGATAAAATCGCAAGATATGAACAGACCATCATGACAAAAGAAAATGCGCTCAGGAAGCAGGCAGACTAA	MAVTIKEISERFGLSQDTLRYYERIGLIPPVNRNKNGIRDYTVEDIKWVDFVKCMRQSAGLPVEVLIEYVSLFQQGDDTLETRKGLLMEQRNRLGEKIEEMTNTLTRLNDKIARYEQTIMTKENALRKQAD				NA	NA	NA	NA	NA
AK002_03425	981	yajO_3	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGAGTATGTGAAACTAGGGAACACCGGTCTCGACGTATCCCGGATCTGTCTTGGATGCATGGGATTTGGCGTAGCCGAGCGCTGGATGCATCAATGGGTGTTGAATGAAGAGAGCAGCCGTCCTATTATTAAAAAGGCACTGGAGCTTGGCATCAATTTCTTTGATACGGCGAATGTCTACTCGGACGGTACAAGCGAGGAAATTGTCGGCCGCGCCTTGAAAGAATATGCGAATCGCGACGAAATCGTCCTGGCGACAAAGGTTCATTTCCGTATGCACGAGGGACCCAATGGGATGGGGCTGTCCCGGAAGGCAATCATGAGCGAAATCGACAAGAGCCTCAAGCGGCTGGGTACCGATTATGTTGATCTGTACCAGATTCATCGATGGGATTATGATACGCCTATCGAAGAAACGATGGAGGCGCTTCATGATGTGGTGAAAGCCGGAAAGGTTCGCTACATCGGAGCTTCAGCCATGTATGCATGGCAGTTTCTCAAGGCCCAGCATACCGCTGAAAAGAATGGCTGGACCCGTTTCGTTTCGATGCAGAACCATTACAACCTCATTTACCGCGAAGAAGAGCGCGAAATGCTGCCGCTGTGCAAATCCGAAAAAATCGGCGTGATCCCGTACAGCCCTCTCGCATCGGGACGATTGACGCGCGATTGGTCAGAGACGACGCATCGCTCCGAAACCGACATGACTCAGAAAGCCAAGTATGATGCCACGGCGGATGCCGATCGGGCCATTGTGGAACGGCTTGCAGGCATTGCGGAAGAGCGTGGCATTCCCCGTGTTCAAGTTGCGCTCGCCTGGCTGCTGCAGAAAGAACCGATCACGGCTCCCATTGTCGGCGCGACCAAAATATCTCACCTGGAGGATGCCGCAGCCGCGCTTACGGTCAAACTCACGCCGGAGGAGATGGCTTCCCTGGAAGAGCCGTACATACCTCACCGGGTTGTGGGTGCCTTATAG	MEYVKLGNTGLDVSRICLGCMGFGVAERWMHQWVLNEESSRPIIKKALELGINFFDTANVYSDGTSEEIVGRALKEYANRDEIVLATKVHFRMHEGPNGMGLSRKAIMSEIDKSLKRLGTDYVDLYQIHRWDYDTPIEETMEALHDVVKAGKVRYIGASAMYAWQFLKAQHTAEKNGWTRFVSMQNHYNLIYREEEREMLPLCKSEKIGVIPYSPLASGRLTRDWSETTHRSETDMTQKAKYDATADADRAIVERLAGIAEERGIPRVQVALAWLLQKEPITAPIVGATKISHLEDAAAALTVKLTPEEMASLEEPYIPHRVVGAL	PGPT0017540_740	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
AK002_03426	1308	rfnT		Riboflavin transporter RfnT	ATGTATTCGAAAAAAGACATGACGAAGCTGCCGGCTTCGCTGCAAGGCTATGTGGATTCACCCGAAAAACAACGTAAATTGTACCGGCGGACACTAAACATCGTTGTTGTTTCACAAATTTTCGGGGGCGCTGGTCTTGCGGCAGGCATTACCGTAGGGGCGCTTTTGGCTCAGGATATGCTGGGAACCGACAACTTTACGGGTATACCAACGGCACTGTTTACGTTAGGCTCAGCTGGTGCGGCCTTGCTGGTTGGCCGTCTTTCCCAACGATATGGACGCAGTTTGGGATTGGGACTCGGTTTTCTGACGGGAGGCATAGGAGCGATTGGAGTCGTATTAGCAGCCATGTTGAATAGCCTGACTCTGCTCTTAATCTCATTATTGATATATGGCGCAGGCACCGCAACGAATTTGCAGGCACGTTATGCCGGGACGGACCTGGCTAACTCTAAGCAACGAGCAACCGCAGCTAGTACGGCCATGGTATTCACTACCTTTGGTGCAGTAGCAGGCCCGAATCTAGTGAATGTCACTGGCGATTTCGCCCTGTCGGTGGGGATACCGAGTTTGGCCGGGCCCTTTTTATTGGCAGCTGCAGCATATATCCTTGCGGGCATCGTTTTGCTAATTTTTCTACGTCCCGATCCTTTGTTGGTAGCAAATGCTATAGCACTGCAGGGAAAATCGGATAAGCATGCCGCTTCGGCAAAAGAAATGGGTACTGCAGGATCAGGAAAGCGTGGAATCGCAATCGGCGCTGTGGTTATGATCTTAACGCAAATTATCATGGTAGCAATTATGACTATGACGCCCGTACATATGAGACATCATGGTCATGGACTAAGCGAAGTGGGTCTTGTCATTGGTTTTCATATCGGATCGATGTATCTTCCATCCCTGATTACCGGTATCCTGGTCGATAAAATCGGACGTAAGGCAATGGCTATGGCTTCTGGAGTTACGCTACTGCTTGCAGGGGTCATTGCCGCCATAGCACCGGCTGATTCCATGACCGTATTGATTGTCGCCCTATCTCTTCTAGGGTTGGGATGGAATTTTGGCTTGATCAGCGGAACGGCATTGATCGTAGATGCAACAACCTCAACAAACCGTGCGAAAGTGCAAGGGTCTGTTGACGTATTGATTGCCCTTGCGGGGGCATCAGGTGGTGCCCTTTCAGGTATGGTGGTTGCTCATTCCAGTTATGCCACACTTTCATTTGCCGGGAGCATACTCGCCCTGCTTCTGATCCCGGTTATGCTATGGCAAGGTCAGGATAAAAACGAAAAATCCATCTCTTTCTAA	MYSKKDMTKLPASLQGYVDSPEKQRKLYRRTLNIVVVSQIFGGAGLAAGITVGALLAQDMLGTDNFTGIPTALFTLGSAGAALLVGRLSQRYGRSLGLGLGFLTGGIGAIGVVLAAMLNSLTLLLISLLIYGAGTATNLQARYAGTDLANSKQRATAASTAMVFTTFGAVAGPNLVNVTGDFALSVGIPSLAGPFLLAAAAYILAGIVLLIFLRPDPLLVANAIALQGKSDKHAASAKEMGTAGSGKRGIAIGAVVMILTQIIMVAIMTMTPVHMRHHGHGLSEVGLVIGFHIGSMYLPSLITGILVDKIGRKAMAMASGVTLLLAGVIAAIAPADSMTVLIVALSLLGLGWNFGLISGTALIVDATTSTNRAKVQGSVDVLIALAGASGGALSGMVVAHSSYATLSFAGSILALLLIPVMLWQGQDKNEKSISF				NA	NA	NA	NA	NA
AK002_03427	678			hypothetical protein	ATGAACGAAAGAGAGCTTAAAGACGAATTATACAGGGAATTTACACGAATTGGAAAATGCCTTTCCAGTCCAAAACGTTTAGAAATTCTGGATGTTTTGACACAAGGACCAAAATCCGTAGAAGCTATATCGAAAATTACATCCATGTCTATAGCGAATGTCTCTCAACACTTGCAGACACTCCATTATGCCAAACTAGTCGATTATAAGAAACGAGGGAATTTCGTTATTTATGAAATCGCTGATCCTGCAGTCTTGCACTTTTTAGACTCTCTGTATGGTTTATCTGAAAAACAACTAATTGAAGTCCAGCATATTAAAAACGAATTCCTGGGTCAGCTATCGGATATAGAAGAAGTATCGTTTGAAGAACTCATGAGCCGCATGGAAGCAGGGGAAGTGACGCTGATCGATGTTCGTCCACAGGACGAATATGAAGCTGCTCATATTCCTGGCGCTATCTCGATACCTATAGAAGAGCTGGCCGAACAGCTACATGTATTGCCTGAGAAGGCCAAAGTCGTAGCCTATTGCCGAGGTCCTCACTGTTTAATGTCTGTCAAAGCCATCGAGATACTAAAGTCCAAAGGAATCGATGCGGCTCGCTTAAGCAAGAGGGTTCAGGACTGGGAAGCATTTACGAATAAGCGAAACAGCGAAGAGCAGGCCATTTCGTGA	MNERELKDELYREFTRIGKCLSSPKRLEILDVLTQGPKSVEAISKITSMSIANVSQHLQTLHYAKLVDYKKRGNFVIYEIADPAVLHFLDSLYGLSEKQLIEVQHIKNEFLGQLSDIEEVSFEELMSRMEAGEVTLIDVRPQDEYEAAHIPGAISIPIEELAEQLHVLPEKAKVVAYCRGPHCLMSVKAIEILKSKGIDAARLSKRVQDWEAFTNKRNSEEQAIS	PGPT0004735_12	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_03428	594			hypothetical protein	ATGACAAAAGGTGAAAGGAATACAAAGATTGATCCGTATTTTAATAAGCTTAAAAAGTGGAAGGAAGAGTTCGGGCTATTGAGAGAAATTGCGCTGGACTGCGGGCTGACCGAGGATTTTAAGTGGATGCATCCTTGTTACACGTTCGACGGTAAAAATATCGTGTTGATCCACGGTTTTAAGGATTATTGTGCGCTTCTGTTTCACAAAGGCGCATTGTTAAAAGATCCCCATGGGATCCTGATCCAGCAAACGGAGAACGTTCAGGCCGCGCGCCAGATTCGGTTTACCAATGCTCAAGATATAGATGAAATGCAACTGATCGTGAGAGCCTATATTACGGAAGCCATTGAAGTGGAGAAAGCCGGTCTGCAAGTAAATTTTAAAAAGAATACGGATTACACCATACCTGTAGAGCTGGAGAATAAGTTCGAGGAAATGACTAACCTAAAAGAGGCTTTTGAAGCATTGACGCCAGGTCGGCAGAGAGCGTACATTCTGCATTTCTCTGCACCCAAGCAAGCCAAAACACGAGAGTCAAGGGTTGAAAAATATATCCCGCATATCCTGAATGGTAAGGGATTAAACGATTAG	MTKGERNTKIDPYFNKLKKWKEEFGLLREIALDCGLTEDFKWMHPCYTFDGKNIVLIHGFKDYCALLFHKGALLKDPHGILIQQTENVQAARQIRFTNAQDIDEMQLIVRAYITEAIEVEKAGLQVNFKKNTDYTIPVELENKFEEMTNLKEAFEALTPGRQRAYILHFSAPKQAKTRESRVEKYIPHILNGKGLND				NA	NA	NA	NA	NA
AK002_03429	2415	helD_2	COG3973	DNA helicase IV	ATGGAAGCAAAAGAATGGCAGACAGAACAAGAACGGCTGGAACAGGTCAGGGAAAAGCTGAAAGCAAGGATTGGCGAGTTGGAACCTGTGGTTACCGGGCTAAGCGACCAGGCCGCTGAGATACGCAGACGATTCTGGGAAGAAGTAACGGTGAACACAAGCACGGATGAAGAATTCGAAGAAACATTCTATACGATCAAACAACAGGCCGCGATATTATCCGAACGGGAACGCCGGCAGCGGCTTCTGACCCAGCAATGGAAGAACTTCAATCAGTTGTTGCCTTCTCCCTATTTCGGGCGCGTCGATTTTCTGGAAGACGGCATGAACCTGAGCGAGCAGATTTATATCGGCGTATCATCCTTCATCGATGAAGATGGAATGAACTTTCTGGTGTATGATTGGCGTACTCCCATCGCAAGTCTTTACTACGACCACTCCCCAGGCGCGGCCTCATACATCACGCCGATGGGGCAGATTTCGGGTAGGATGGAGCTGAAACGGCAGTATCAGATTCACAATGGTCAAATTCGAAATATGTTTGATGCGAACCTGACGATCGGCGACGAGCTGCTCCAGCAAATGCTTGCCAAAGGCGCAGATTCACAGATGAAAAGCATCGTATCCACCATTCAACGGGAGCAAAACGCCATCATCCGAAACGATCGCAGCCGGCTTCTGATCGTACAGGGCGCGGCCGGCAGCGGGAAGACCTCTGCGGCCTTGCAGCGCGTGGCGTACTTGCTGTATAAAAACCGCGATTCGCTGAAGGCTGACCAGATCGTTCTTTTCTCGCCGAATCCGATTTTTAATAGCTATGTATCCTCTGTTCTTCCCGAGCTCGGAGAGGAGAACATGCAGCAGACGACGCTGCAGGAATATCTCGAATACTGGCTGGGTCCATCCTTGCGACTGGAGGATCCCTTTGATCAGATCGAATATGTGCTGACCGCACAATCAACCCCGAATTACGAGACACGTCTTCAGGGAATTCAATACAAGGCATCGGAGTCTTTCATGAAAGCCTTGCAGAATTATGCGCAGTGGCTGGGCCGGGAAGGGATGCTATTCAAAGGCATTCGATTCCGGGAGCGTGATCTGATTACGGCGGAGCAAATGAGGACCCAATTTTACAGCTACGAGCCTTCCTTGAGCTTGGCCAATCGGGTCGAGCAGCTACAGAAATGGCTGATGAAGGAGTTATCACTACTGGAACGCAAGGAGCTTAAGGCGTCCTGGGTAGTCGAGGAGCTGAGTTACCTCGATACGGAGCTCTATGCGGAGGTGTTCGACGAGCTGCACAAGGATCGGGAAGTCTTTGACATTGCCGAGCATTACGCCGTAGTGAACGAGATAAAAAGCAAAAAACGCCGGGGAGATGAAGGCGACTTTGACTTCGCCGGACGGGAAGAGGAATTGCTCAGCCAGCGGATCGTGAAGAAGAGCTTCAAACCGCTGAGGCAAACCGTGAGGAAATTATCGTTTATCGATGCCCATGGCATATACGTCCAGTTGTTCGGCGATGTAGCTGCATATCGGGAAAAAACGAAGGAGTCCGATGTCCCTGCAATGTGGCCTGAAATCTGCAAGCAAACCAAAGAAAAGCTGGATCGGCTCGAATTATTCTATGAGGATGCGACTCCTTATTTGTATTTAAAAGAATTGATCGAAGGCGTTCGGACGAACACCGAGATTCGGCATATCTTCGTCGATGAGGGACAGGATTACTCGCCGTTTCAATACGAGTATCTCAAAAAACTATTCCCTCGTGCCCGCATGACGGTACTCGGCGATTTCGGGCAGGCGATTTTCATGCAGTCCACAAAGCTGCAAGGGGACGATTCGCCTCTGCTTCGGCTTTATGGTGAAGCCGATACAAGCTTGATTCGTCTAGTGCGCAGTTATCGTTCTACACGGGAGATCGTGGAATTCACGAAAGAACTGCTTATCGATGAGTCGGACATCGTACCCTTTGAGAGGAGCGGACCGAAGCCTGTTCTTGCTAGGTTTGAAGGCAGAGAGAGACGTGATGCGCAGTTGCTGAAAGACATCGCGGCACTTAAAGCCGAAGGCATCGACTCTATTGCCATCATTACGAAGACTGCGGCCGAAAGCCGGCAAGCATTGGAATCATTACAGTTGCAGGGATGCGAAGCCTTGCAGCTCATTACGAAGGAGACCGTCACCTATCAAAACGGGGTGATGGTTATCCCCGTATATCTGGCAAAGGGCATCGAGTTCGATGCGGTCTTAGTCTATGATGCTTCGTCTGAAGCCTACGGCAGGGAAAATGAACGCAAGCTTCTTTATACGGCCTGTACGCGGGCCATGCACCGCTTGCATCTTTACGCGACGGGCGAGTGGTCTCCGTTCGTGCAGGCAGTGCCTGAGCGTTTGTATGAGAAAACAACATAA	MEAKEWQTEQERLEQVREKLKARIGELEPVVTGLSDQAAEIRRRFWEEVTVNTSTDEEFEETFYTIKQQAAILSERERRQRLLTQQWKNFNQLLPSPYFGRVDFLEDGMNLSEQIYIGVSSFIDEDGMNFLVYDWRTPIASLYYDHSPGAASYITPMGQISGRMELKRQYQIHNGQIRNMFDANLTIGDELLQQMLAKGADSQMKSIVSTIQREQNAIIRNDRSRLLIVQGAAGSGKTSAALQRVAYLLYKNRDSLKADQIVLFSPNPIFNSYVSSVLPELGEENMQQTTLQEYLEYWLGPSLRLEDPFDQIEYVLTAQSTPNYETRLQGIQYKASESFMKALQNYAQWLGREGMLFKGIRFRERDLITAEQMRTQFYSYEPSLSLANRVEQLQKWLMKELSLLERKELKASWVVEELSYLDTELYAEVFDELHKDREVFDIAEHYAVVNEIKSKKRRGDEGDFDFAGREEELLSQRIVKKSFKPLRQTVRKLSFIDAHGIYVQLFGDVAAYREKTKESDVPAMWPEICKQTKEKLDRLELFYEDATPYLYLKELIEGVRTNTEIRHIFVDEGQDYSPFQYEYLKKLFPRARMTVLGDFGQAIFMQSTKLQGDDSPLLRLYGEADTSLIRLVRSYRSTREIVEFTKELLIDESDIVPFERSGPKPVLARFEGRERRDAQLLKDIAALKAEGIDSIAIITKTAAESRQALESLQLQGCEALQLITKETVTYQNGVMVIPVYLAKGIEFDAVLVYDASSEAYGRENERKLLYTACTRAMHRLHLYATGEWSPFVQAVPERLYEKTT				NA	NA	NA	NA	NA
AK002_03430	828			hypothetical protein	TTGGAGGGAATACTCATTAGTAACGTTACCCTGAATGAAGCGATGATCATGTTAAAGAAGACGAGCCGGACTTTTTATATTCCCATAAGTTATTTGGAATTGGGATTAAAGGAGGCTGTTACATCTGCCTATCTATGCATGAGGGCAATTGACGAAATCGAGGACCATAAAGAACTCACGGACGAAGTGAAAGTGAAACTGCTGCTGGGCATTCATGATATATTCAAATCCGAGGATACGATGGTAACCCGAACACAGCATTTGCTTTCACCTTACCAAGAAATACTACCGGCCGTTACGATGCAGATCGATGACTGGGCGCATCTTTGTCCGTCGTCATGTGCCCCAATCGTATATCGCTACATCGCCAAGATGTCGTTGCATATGGCGCAGTGGGTTCAAAGCGGGTGGAATATCCATACGGAAGAGGATTTGGACAGATATACCTATAGCGTGGCTGGGATGGTTGGAGAATTGTTATCCGAGCTTTGGCTCTGGCATGACGGGACGCAGTCTGATTCAACCAAAGCAATTGCCTTCGGAAGAGGACTACAAGCGGTAAATATCCTTCGCAATAGAGAAGAGGATCTTCATCGTGGCGTCGACTTCTATCCGGATGGTTGGGGATTTAAGGAGATGCAGCAATACACACGCCGCAATTTACAAATTGCCGATTCTTATATTGCCGATTTGAAGGATGGTCCAGCATTGAAATTTTGCAAAATTCCATTATCTTTAGCTCATGCCACAGTAAATCTTATATCTGCTGGCGGAAGCAAATTAACGAGGGATGCCGTACTGAAAATCGTGAATCGCGTAACCGGTTAA	MEGILISNVTLNEAMIMLKKTSRTFYIPISYLELGLKEAVTSAYLCMRAIDEIEDHKELTDEVKVKLLLGIHDIFKSEDTMVTRTQHLLSPYQEILPAVTMQIDDWAHLCPSSCAPIVYRYIAKMSLHMAQWVQSGWNIHTEEDLDRYTYSVAGMVGELLSELWLWHDGTQSDSTKAIAFGRGLQAVNILRNREEDLHRGVDFYPDGWGFKEMQQYTRRNLQIADSYIADLKDGPALKFCKIPLSLAHATVNLISAGGSKLTRDAVLKIVNRVTG				NA	NA	NA	NA	NA
AK002_03431	363			hypothetical protein	ATGTTCCTCATGACACTCATGTTGTATGCGATCATCTTCATTTGCGGCTACGTTTGGATCAAAAAAAAGCTGAAGGTCTCCTCCACGTCAGACGGACTGCTATATAAGCATATCAATCGATTTCATTTGATTGGAGAGATCATCCTAGTAGTCGCTTCCCTCATTGCTATCTTCGTTATGAGATATGTATTGGAATGGAGAGTGTGGGCTCATCAGGATGTTATTCTTGTTGTTGCAATTCTGCATGCGTTCCGTTCCCTTGTAGAAAGACACTATATGAAGGACACCAAACAACATTTCCTCAGTGCTTATGCAAGTGTTAGCGGTTTACTGCTCTTTCTTGGCCTGGAGCTATTTGCATAA	MFLMTLMLYAIIFICGYVWIKKKLKVSSTSDGLLYKHINRFHLIGEIILVVASLIAIFVMRYVLEWRVWAHQDVILVVAILHAFRSLVERHYMKDTKQHFLSAYASVSGLLLFLGLELFA				NA	NA	NA	NA	NA
AK002_03432	1251			hypothetical protein	TTGACTAGGCACGATAAAAGCACCCAAGCACCAAGCCTGCTTCGCAATCGGTTCCTGCAGACGATTTTATTATCCAGCGTGCTCCTGCAGATCGGGATATGGGTACGTAATTTTGCTATTCTCCTGTACGTTGCGGATCGAACGAATAATGATCCATATGCGATCTCGTTAATCAGCGTAGCAGAATTCGCTCCTATTTTTGTTTTTTCGTTCATCGGGGGTACATTTGCCGACCGCTGGCGGCCTAAGCGAACAATGATCTGGTGCGACTTGTTATCCGCGGTATCGGTATTCGTTGTCCTTCTGACCTTACATTACGGTTCTTGGCATTCCGTCTACCTCGTTGCGTTTATCTCGGCTATCCTTTCACAATTCTCGCAGCCGTCAAGCATGCGTTTATTTAAGTATCATGTGGCTGAAGAACAACTGCAGCAAGGGATGGCGTTATTCCAATCGCTGATGGCCATCTTCATGGTGCTTGGCCCTATGCTTGGTACCTTCGTTTACAGCACGTTCGGCCTTGAAACATCGATTGCGATCATGGGCGCGGTTTTTCTGCTGTCCGCACTCGTCCTTGTTCGTCTGCCCGAGGATAATATGAAGCCGCAGACCATCGCCGCCAAAGGCCAGTTCCGTAAAGATTTCGTTGAGGGCTTCCGCTATGTTTGGCAAAGCCAGGTGCTGCGAATGCTTGGACTCGCGTTTGTTCTCGCAGGACTTGCGGTCGGCGTTGCTCAAGCCCTCAACCTGTTTATCGTAACCGAGCGGCTGGGCAGGAGCGAGGAGTTCCTGCAATACCTGCTGATGGTGAATGGTGCAGCCATGCTGATCGGCGGCGGGATCGTAGCCGTCTTTGCGAAGCGGGTACCGCCGCAATTACTTCTTGCCATAGGCATGCTGTCTGGCGCCGTCTGCACGACAATTGTCGGGTATTCGACGAGCATTCCGTTGACACTGACCGTTCAATTTCTAAATGGGCTTGTGTTCCCTTGCATTCATATCGGGATCAGCACGATGATTCTGAAATGGTCCAATGCTTCCATCGTCGGACGGGTGAACGGGGTTTTGAATCCGATGTTCGTTGGCATGATGGTCATTTCGATGTCTTTCGCCGGCGCGTTAAAGGATGCCTTCACACTGAGCACGATCTATAGCGGGGCAGGACTATTATTCCTTCTTGGCTCACTGGTCATGGTGCCGATCATGAATCAAAAAGCGCCGGATCACGGACATCTTGCACATCAAACCTAA	MTRHDKSTQAPSLLRNRFLQTILLSSVLLQIGIWVRNFAILLYVADRTNNDPYAISLISVAEFAPIFVFSFIGGTFADRWRPKRTMIWCDLLSAVSVFVVLLTLHYGSWHSVYLVAFISAILSQFSQPSSMRLFKYHVAEEQLQQGMALFQSLMAIFMVLGPMLGTFVYSTFGLETSIAIMGAVFLLSALVLVRLPEDNMKPQTIAAKGQFRKDFVEGFRYVWQSQVLRMLGLAFVLAGLAVGVAQALNLFIVTERLGRSEEFLQYLLMVNGAAMLIGGGIVAVFAKRVPPQLLLAIGMLSGAVCTTIVGYSTSIPLTLTVQFLNGLVFPCIHIGISTMILKWSNASIVGRVNGVLNPMFVGMMVISMSFAGALKDAFTLSTIYSGAGLLFLLGSLVMVPIMNQKAPDHGHLAHQT	PGPT0027965_770	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK002_03433	885			hypothetical protein	ATGATTGAAATTACCACCGAACTTGTACGCCGGTTAATCCATAGTCAATTCCCCCAATGGAAGGATTTAACCATCAAACCAGTGGAAAAAAGCGGACACGATAATCGTACCTATCGGCTGGGTAACGATATGACCGTTCGTCTGCCAAGTCACGAACGCTACGCTTCAGCTGTCGAGAAAGAGCTGACATGGCTCCCGGTCTTCAAACCCCAATTGTCCTTGCCCATTCCGGCTCCGGTTGCAAAAGGAGAGCCTACGGAAGAGTATCCTCTTCCATGGTCGATCAATCGATGGATTGAAGGCGAAACCGTAACGCATGCCAACATTCGGGATGTTAACGAATTTGCCGAAGACCTCGCTGCATTTTTGAAGGAGTTGGAGGCGATCGACGCAAGCGGCGGCGTGCCGGCAGGCACCCAAAATTTTCATCGCGGAGGAAACCTTGCCGTCTATGACAATGAGACCAGATCCATAATCGAAACTCTATCCGACGAATACGATCAAGCGCTTTTGACGGAAATTTGGGAACTCTCCCTTACGACAAAATATCAATCCGCACCGATGTGGCTGCACGGCGATGTTGCTGTAGGCAATCTGCTCGTAAAGGATGGACGGCTGTGCGGCGTTATCGACTTCGGGACTATGGGTGTCGGCGATCCTTCAAGCGACCTCGTGATGGCATGGAACTTTTTTGACGACGACAGTCGCCGGATTTTCCTAAACCGCATGAATTTTGATGATAACACCGTTCATCGCGCACGAGGATGGGCCTTGTGGAAAGCACTCATCACCTTCGATTGGAATGAGCGTGGCTCGGAAGCCTCGAATTGGGGGAAGCACGTGATGGATGTCATTATCCGAGATTATAAAAAGCATGGCGCGTGA	MIEITTELVRRLIHSQFPQWKDLTIKPVEKSGHDNRTYRLGNDMTVRLPSHERYASAVEKELTWLPVFKPQLSLPIPAPVAKGEPTEEYPLPWSINRWIEGETVTHANIRDVNEFAEDLAAFLKELEAIDASGGVPAGTQNFHRGGNLAVYDNETRSIIETLSDEYDQALLTEIWELSLTTKYQSAPMWLHGDVAVGNLLVKDGRLCGVIDFGTMGVGDPSSDLVMAWNFFDDDSRRIFLNRMNFDDNTVHRARGWALWKALITFDWNERGSEASNWGKHVMDVIIRDYKKHGA				NA	NA	NA	NA	NA
AK002_03434	879	draG	COG1397	ADP-ribosyl-[dinitrogen reductase] glycohydrolase	ATGGACAACAAATATTTCGACCGCATCAAGGGTGGACTATACGGGGTGGCCGTGGGCGACGCTTTGGGCGGGACGACGGAGTTTATGAGTACGCGGGAGATCGAAGCAAAGTATGGTTATTTGACGGAAATCATCGGCGGCGGGGTCTGGAATCTGGAACCGGGAGAAGTGACCGACGATACGATGATGACGCTTTGCGTCGCGGCAGGCATTATCGAGAATCCTGCAGAGCCGATGGAAGCGATCGGGCGTTTCTTTATGGAATGGTATCAATCGCGGCCCAAAGACATCGGGAATATCATCCGGCATGTTTTTCAAACCTACGACGGGGATTGGCTCGAAGCGGCTTTTGTTGCGCATATGGATATGGGGCAAAGCGGCGGGAATGGATCCCTCATGCGCTGCCTGCCGGCGGCACTGGCCTATAATGATCTGGCGGATATGGAACGAGTGACGATTCTGCAGTCGAGGATGACGCATTACGATCCAAGGTGCACCGATGCCTGCCTCATGTACAACCGAATCGCGCGGCGCCTTTTACAGGGTGAAAACTTAAGGGCTGCCGTCATGGGCGAGGTGGCGGGAAGCGAATACGAACACAGGATTGAAGCCGAGCCCGATTGTCCGGCGAGCGGTTTTGTGGTGCATACCTTCCGCTGGGTACTGCATATTTTGCTCAACACATCCGATTTTGCAGGAGTCGTACAGAAGGCGGCCAATCTAGGGAATGATTCCGATACGATCGGCGCCATCGCCGGCGGGCTGGCAGGTATTTACTACGGGTATGAAGGCATACCAGCCCGATATGCGGAAGCGATCCTCATTAAAGATCGGCTCGACGGGACGGTTTCGCAGCTGTATACGTTGAAAACGTCTTAA	MDNKYFDRIKGGLYGVAVGDALGGTTEFMSTREIEAKYGYLTEIIGGGVWNLEPGEVTDDTMMTLCVAAGIIENPAEPMEAIGRFFMEWYQSRPKDIGNIIRHVFQTYDGDWLEAAFVAHMDMGQSGGNGSLMRCLPAALAYNDLADMERVTILQSRMTHYDPRCTDACLMYNRIARRLLQGENLRAAVMGEVAGSEYEHRIEAEPDCPASGFVVHTFRWVLHILLNTSDFAGVVQKAANLGNDSDTIGAIAGGLAGIYYGYEGIPARYAEAILIKDRLDGTVSQLYTLKTS	PGPT0001065_798	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001065-draG-K05521	NA	NA
AK002_03435	417			hypothetical protein	ATGACAGTCAAACTTACCCCTTATTTAAATATGGAAGGGAATGCAAGGGAAGCTATCCGCTTCTATGAACAAGCATTAGATGCCGAAGTCCTTTCCATCATTACATACGGAGACATGCCGGAAATGCCGAACACATACACGGATGCATTAAATCAGCTAGTCGCACATGCGAAGCTGCGGATTGGCAAAGCTGAACTGATGTTCTCGGATGCACCGATCGGCACCTCGATTCCGAAAGGCAAACAGGTCACCATCTGCATTTCAACGAACAGCGTGGAGACATCCAAACGATTTTTTGAAGCCTTGGAGCAAGAGGGTCAAGTGAATATGCCGTTCGAGGAAGCCCCTTTTAGCCCAGGCTTTGGCGATGTAACCGATAAATTCGGCGTGACCTTTCAGATTTATACTGAGGTTTAA	MTVKLTPYLNMEGNAREAIRFYEQALDAEVLSIITYGDMPEMPNTYTDALNQLVAHAKLRIGKAELMFSDAPIGTSIPKGKQVTICISTNSVETSKRFFEALEQEGQVNMPFEEAPFSPGFGDVTDKFGVTFQIYTEV	PGPT0030505_2599	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_03436	510			hypothetical protein	ATGAAACTGAAATTTACGCACGTAAAAACGGTGGAAGCAATCGCTGAGGTTGCCCGACTGGCGGCAAAAATTTGGCGCGAATATTACGTATCCATCATTTCAATGGAGCAGATCGAATACATGATCGGCAAATATCAAGCAGTCCCGGCGATTACGGATCAGATCCGGCATCAGGACTACGAATATTACTTGATCCATTCGACTGACTCCTCCACCGTCGGTTATATGTCGGTCAGACAAGAAGAGGACAAGCTCTTCCTGAGCAAGTTTTACATTAGCAAGGAGCACCGCGGACGCGGCTATGCCAGTCAAGCGATGACATTCCTGGAAAAGCTGTGTAAAGACCGAAGCTTGAGCCATATTTGGCTGACGGTTAATCGACATAATGAATCCAGTATCACCGTATATGAGAAAAAAGGCTATCGAACCGTGCGGGAACAAATCGCGGATATCGGGAATGGATTTGTAATGGACGATTACATTATGGAAAAGGAAATTTCGGTTTCATAA	MKLKFTHVKTVEAIAEVARLAAKIWREYYVSIISMEQIEYMIGKYQAVPAITDQIRHQDYEYYLIHSTDSSTVGYMSVRQEEDKLFLSKFYISKEHRGRGYASQAMTFLEKLCKDRSLSHIWLTVNRHNESSITVYEKKGYRTVREQIADIGNGFVMDDYIMEKEISVS	PGPT0007785_1211	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
AK002_03437	894			hypothetical protein	TTGAACGATTTTTTTAATGAAGCCCTATGGGAACAAGCTTGGAAGGAACATGGCGACACCGTCATCAACAAAATGAAAAAAGCTGGAATTGAACCGGCCCGAGCGTTTGATCATAAGGCCCGGATCTTCAATGAGCAATCATTTAATGAAGAAGGGAGAAAAAGGACTTCGCGCATCATGAACTGGCTTGAAGGGCAAGGCATCCGATTCGATAATGCCTCCGTTCTGGATATCGGGGCCGCTTCGGGCGTGTTTTCGGTTCCGTTTGCGGAGCGCGGGGCGGATGTAACGGCCGTGGAGTCTTCGCTGCCATTGATCGATCTGCTGAAAGAGAATATAACAAATTTTCCACAGGATCAGGTGAAGATCGTTCCCGAACGTTTTGAAGATATTGACGTACAGGCCAAAGGATGGAGCCAGGCGTTCGATCTCGTTTTTCTCTCGATGTGCCCGGTCATCGTGGATTGGCAGAGCGTGGAGAAGGTACTGCAATGCGCCCGGGAGTTTTGTTATATCAGTATGCCCGCAGGTTCCACCGAGATCAGTCTAATGAATGAAATCTGGCCGCTCATCACCGATCAGCCTTACCGATCGAAACATATGGAATTCGGGTATTTGCTTCACCTGCTGTATCTCAAAGGGTATTCCTACGAGTCCCTTGTAACGCGGGAAACGAAAACGACGGAAGTCTCAAGCGAAACTGCGCTGCAGGAAATCATGAACTGGCTTCGCGGTCATGGTGAAGCCCTAGATGATCAGAAGCGGAAATTGATCACTGATTATTTGGAGCAAGCGTATCCGTCCGGCAAAGTCACCATCCGGCAGAGTGGGCGTTACGGCAAGGTATTGGTTCGATTGCAGGATGAACGCATGTACTCGGGAGAACGGACTTAA	MNDFFNEALWEQAWKEHGDTVINKMKKAGIEPARAFDHKARIFNEQSFNEEGRKRTSRIMNWLEGQGIRFDNASVLDIGAASGVFSVPFAERGADVTAVESSLPLIDLLKENITNFPQDQVKIVPERFEDIDVQAKGWSQAFDLVFLSMCPVIVDWQSVEKVLQCAREFCYISMPAGSTEISLMNEIWPLITDQPYRSKHMEFGYLLHLLYLKGYSYESLVTRETKTTEVSSETALQEIMNWLRGHGEALDDQKRKLITDYLEQAYPSGKVTIRQSGRYGKVLVRLQDERMYSGERT				NA	NA	NA	NA	NA
AK002_03438	1722	hepA	COG1132	Heterocyst differentiation ATP-binding protein HepA	ATGAATGAGCTGGCAATTCTAACAAAAGCGATGATTGAGGAACGAAAGGATATTGCCATGGCGATCATCGGCGGATTCATAGCCGGCATCGCAGGAGTATGTCTCTTTTCACTTAGCGGATACCTCATTTCGCAGACGGTTTTTGCCCCGCCGCTCTATACCTTGATTGTGCTGACGTCTCTGGTGAAAATCCTGGGTCTGCTGCGGGCGGGCAGCCGTTATGCAGAACGCTTGTATTCCCATCGGGCGACGTTTTCACTGCTCAGCCGTTTGCGCACATCTTTTTTTGCCAAGCTTGTTCCGTTAACGCCAGGGATACTGGGCAAGAAGCGGAGCGGTGAGCTGCTCGCGCGGATCGTAGGGGATGTGGAAAGCCTGCAGCATTATTTTTTGCGCGTTGCTTATCCGCCTATCATCGTTGTTATGGTGTTTTTGGCGACGGTGTTGTTTACTTCCGCTTTCTCGATCTGGATTGCCTGTTTGTTTGTGGCGGGGATGCTGGCAACGGCTTTTGTGGTTCCAGCGCTGGTATTGCTTGGACAGAGAAGAATTCATGGTCGCGTTCGCCGGCAGCGGGCGGCATTTTCCACGGAAGTGACCGAACTGCTCTACGGGTTCCGTGATTTAAAAGTATATGGGCAGCTGAAGCAGCGAGAGAAGCTGCTGCAGCATGCCTCGGCAGTTTTATCAGCGGAGCAGCAGGCATCTGCCGTGCACCTGCTGCGAGGGCAATCGCTGCATACTTTTGTGACGTATCTCATTTCTTGGGGCGTGCTGATTCTCGGTGCTTATCTGATTATGGACGGCTCCCTTGCCGGCGTGTTTCTCGCCATGCTGGTCATGGCTTCGCTTACGGTGTTCGAAGAGGCGGCGCCAATGGCCACGCTGCCGGCTTATAAGCAGGACAGCGAGCACGCGGCCAAGCGGCTGGCGGAAATCGTTCATGCTGCCGATGTGATGTCGCCGCAGCCGAGCGGCTTTCTATCCGGCAACGAAGCCGTTTCGGTGGAGCTGCGCGGGGTTTCGTTCCAATATGAAGATGAATGGCGTCCTGCACTCCAAAACGTGTCCCTCCATTTTCCCGCTGGTTCCAAAACGGCCATTGTCGGACCGAGCGGGTCAGGGAAAACAACGATCGTCGAATTGCTGCTCAAGCTGCGTACCCCTACAGAAGGCGAGATTCGTTTGCATGATGTTTCGATTCAGGAATTGGATGAAGCGAGCATTTGGCAAGCGTCGAATGTAGTGCTGCAGCACAGTCATTTCTTCCGGGGAACCATTCGAGACAACCTGCTGCTGGATGCCGAACATCACGACGACCATGAGTTGTCCACTATACTGGATAAAGTCCAACTGCCGAATCAATCTCTGGACGCTGCGGTATATGAGAAGGGCGAGAACTTGTCCGACGGAGAAAAGCAACGGCTGGCCTTGGCGCGGGCCATGCTCCGGAAAGGGCGTTTGTGGCTTTTGGACGAACCGACGTCTTCATTGGATTACATCACCGAGCAGCGCGTTTTCAGACAATTGCTGGCGCAAGCGCAGGATGATACGCTTATTCTCATATGCCATCGGCTGACCGGCTTGGAAGAAATGGACCGGATCGTGGTTATGGATCAAGGCAGAATCATGGAAGCAGGCTCGTATTCGGAGCTGATGGAGCAAAAGGGCTACTTCTATGAAATGAAGCAAATTGAGCGGCAAATGATAGGCGAAGCCTGA	MNELAILTKAMIEERKDIAMAIIGGFIAGIAGVCLFSLSGYLISQTVFAPPLYTLIVLTSLVKILGLLRAGSRYAERLYSHRATFSLLSRLRTSFFAKLVPLTPGILGKKRSGELLARIVGDVESLQHYFLRVAYPPIIVVMVFLATVLFTSAFSIWIACLFVAGMLATAFVVPALVLLGQRRIHGRVRRQRAAFSTEVTELLYGFRDLKVYGQLKQREKLLQHASAVLSAEQQASAVHLLRGQSLHTFVTYLISWGVLILGAYLIMDGSLAGVFLAMLVMASLTVFEEAAPMATLPAYKQDSEHAAKRLAEIVHAADVMSPQPSGFLSGNEAVSVELRGVSFQYEDEWRPALQNVSLHFPAGSKTAIVGPSGSGKTTIVELLLKLRTPTEGEIRLHDVSIQELDEASIWQASNVVLQHSHFFRGTIRDNLLLDAEHHDDHELSTILDKVQLPNQSLDAAVYEKGENLSDGEKQRLALARAMLRKGRLWLLDEPTSSLDYITEQRVFRQLLAQAQDDTLILICHRLTGLEEMDRIVVMDQGRIMEAGSYSELMEQKGYFYEMKQIERQMIGEA				NA	NA	NA	NA	NA
AK002_03439	1821	cydD_1	COG4988	ATP-binding/permease protein CydD	ATGAAGAAAAAAACGGGACTGATCTCCCAGCAAATGTCCGCGCAAAGAAAACCCCTTGTTCTCCTGGGGGGCGTGTCGCTTGCGCTCGGTGCCGCCATCGTGGGCCAGGCCGTGCTGCTCGCGGAATCGGTGGAGAAGATATTTGTGCAGCGTGCTTCGTTGTCGTCGGTTGCCTTCATTCTTGTTATTCTGCTGGGCGTCATGGCTGCGCGTACGCTGCTGTCGTACGGCAATGGACGAATCGGTATGCAGATGGCTGCCCGGGCCAAAACGGATATGCGGGCGGCCGTGCTGCGAAAGCTGACCAAGGCTTCCATGCCGACGGCGCTTCGCGGGCAAACAGGCGGAAAGGTGAGCGTGGCGCTGGATGCCGTGGATGAGGCGGACAGTTATTTCAGCCAGTATGTGCCGCGAATGATGGAAGCTGCCATCATTCCTATTTTAATCTTAGCCGTTGTATTTACGCAGCATATGAATTCCGGGTTCATTATGCTGGTTACCGCTCCCTTTATCCCGATATTCATGGTATTGGTGGGGCTCAAAACGAAGAACAAATCGGAGGAGAAATTCGCGCAGCTGGCCGAATTTTCCGGCACGTTTCTCGACTCTCTGCAAGGACTCGTTTCGCTGAAGCTCTTCGGCCGTGCTCGTCATCATCAGCAGGACATCGAACGCAGCAGCCTGGGGTACCGGGATGCGACGATGGACATTTTGCGAATTGCGTTCACCAACACCTTCATGCTGGAATCCATCGTCATGCTCGGCATTGGCATCGTTGCGCTTGAGCTGGCGCTTCAGCTCCTGGTCTTCAAATCGCTTTCCTTCCACACCGCCTTTTTGATCCTGCTGCTGGTGCCCGAGTTTTATAGTTTGTTAAAAAACACGGGAACCGCCTTTCACGGGGGCCGCACCAGTATGGGGGCGATCCGTAAGGTGGAAGAGATGCTTGAGGAAACTCAGGATGAAGAAGCGGCAACCTCTCGACGTGAGGGTACTGATCATAGGGAGGGAACAGGCGAGTTAGATTGGACGACTGCAGTGGACAAGCCAGGGACAGCCGGTGGGGGGTTCATTCAAATGCCCCCGACCATCGAGCTGAGGGACATCCGGTTTCAGTATGCGCCGGATTCCTTCGAGCTTGCGGTGGGTTCCGCATCGTTTGGACCAGGGGAGCATATTGCGATTGTCGGTAAAAGCGGATCCGGCAAAACAACCTTGCTGCATCTCGTGGCCGGGCTGCTGAAGCCGGTATCAGGTGAAGTGCTGGTGAACGGAAGGGCGCTTAATTCAGACGATGAGGCTTCATGGTTTGATCATGTCAGCTACATTACCCAGCATCCATATATCTTTGCCGGCACGTTTGGCGAGAATATTGCGATTGGCGCGGGCAGGGATGTCTCTAGAAATGACGTCGAGCAGGCGGCTGAAGCTGCCGGACTTGCTGCGGTTGCAGCCGAGCTCGAGCAGGGCTATGACACCTTCGTTGGCGAAGGGGGCAGGGGGTTGTCAGGCGGCGAGAAGCAGCGGCTTGCGCTGGCGCGCGCTTTTTTGAAGCGGCCAGCCGTCATTTTGTTTGATGAGCCTACGGTGGGATTGGATCTCCACACCGAACGCGTGCTGCAGCTGTCCATTGCCGAGCTTGCAAGCAAAGCGACCATGATTACCGTGGCGCACCGCTTGTATACGATAAAAGATGCCGACAAGATCCTGTTTATGGACAACGGAGCCCTGCTTGGCTGCGGGCGCCATGAAGAGCTTCTTGTTCGGCTGCCGCAATATGCCGAAATGGTGGATGCCCATCGGAAAGGGAGGTTCGCATGA	MKKKTGLISQQMSAQRKPLVLLGGVSLALGAAIVGQAVLLAESVEKIFVQRASLSSVAFILVILLGVMAARTLLSYGNGRIGMQMAARAKTDMRAAVLRKLTKASMPTALRGQTGGKVSVALDAVDEADSYFSQYVPRMMEAAIIPILILAVVFTQHMNSGFIMLVTAPFIPIFMVLVGLKTKNKSEEKFAQLAEFSGTFLDSLQGLVSLKLFGRARHHQQDIERSSLGYRDATMDILRIAFTNTFMLESIVMLGIGIVALELALQLLVFKSLSFHTAFLILLLVPEFYSLLKNTGTAFHGGRTSMGAIRKVEEMLEETQDEEAATSRREGTDHREGTGELDWTTAVDKPGTAGGGFIQMPPTIELRDIRFQYAPDSFELAVGSASFGPGEHIAIVGKSGSGKTTLLHLVAGLLKPVSGEVLVNGRALNSDDEASWFDHVSYITQHPYIFAGTFGENIAIGAGRDVSRNDVEQAAEAAGLAAVAAELEQGYDTFVGEGGRGLSGGEKQRLALARAFLKRPAVILFDEPTVGLDLHTERVLQLSIAELASKATMITVAHRLYTIKDADKILFMDNGALLGCGRHEELLVRLPQYAEMVDAHRKGRFA				NA	NA	NA	NA	NA
AK002_03440	1017	ythB_1	COG1294	Putative cytochrome bd menaquinol oxidase subunit II	ATGATCAGTTACGAGTTGATAGGCATTTCCGTGCTTTGGCTGTTTTTGTACGGCTATTTGATTGTGGCCTCCATCGATTACGGCGCCGGATTTTTTGCCTTCTATGCCCGCTTGACGAAGCAGGACCATCTGCTCAATCGTTTGATCTCTCGTTATTTGTCCCCGGTTTGGGAGATCACGAATGTGTTCTTTGTCTTTTTCTTCGTTGGCATCGTCGGTTTTTTTCCAGATACGGCCTATTATTATGGTTCCGCGCTGCTTGTGCCGGGAAGCATCGCCGTCATTCTGCTGGCCATCCGCGGGTCCTTCTACGCGTTTGAGAACTACGGCTCTAAAGAAAACATCGTGTATCTGTTTTTATACGGGGCCACGGGATTGCTGATCCCGGCATCGTTGTCGGTGGCACTGACCCTTTCCGAGGGCGGCTTTATCGTGGAGGAAGGCGGGGCCGTTTCTTTAGAGTACTTGTCGCTGATGACAAGCCCGTTGTCGTGGAGCATCGTTGCATTGGCCATTGTATCGGTGCTGTTTATCAGTGGTTCGTTCTTGTCTTATTACGCTTCCCGGGCGGACGACCAGCCTGCGCTCAAGCTGATGCGGACCTATGCCCTGTTCTGGAGCATGCCAACCATCATTGCCGCGCTAACGGCATTCATTTATCTCTCTCAACATAATGAGCGGCATTTTCAAAACATGATGGACTTATGGTGGCTGCTGGCGCTTTCCGTTGGTTTTTTCATGATATCCGTATGGCTTCTATACAGCGGGCGGCGCTACGGACTGGCCTTTATTTGCGTGATGCTTCAGTTTTTCTGTGCCTTTTTTGCTTATGGCATTGGACAATATCCGTATATTCTGGATCCGTATATTACCATTCAAAGCGGTGCCACGCATGAGTCGATGGGCGTTGCGCTGGTGATCGCCTTTATCGGCGGACTGTGTCTGCTGATTCCGTCCCTTATACTGGTCTTCAGGCTATTCCTGTTTGATGCGGATTATGTAAAAGGCAAAAAATAA	MISYELIGISVLWLFLYGYLIVASIDYGAGFFAFYARLTKQDHLLNRLISRYLSPVWEITNVFFVFFFVGIVGFFPDTAYYYGSALLVPGSIAVILLAIRGSFYAFENYGSKENIVYLFLYGATGLLIPASLSVALTLSEGGFIVEEGGAVSLEYLSLMTSPLSWSIVALAIVSVLFISGSFLSYYASRADDQPALKLMRTYALFWSMPTIIAALTAFIYLSQHNERHFQNMMDLWWLLALSVGFFMISVWLLYSGRRYGLAFICVMLQFFCAFFAYGIGQYPYILDPYITIQSGATHESMGVALVIAFIGGLCLLIPSLILVFRLFLFDADYVKGKK	PGPT0026705_2756	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
AK002_03441	1356	ythA_1	COG1271	Putative cytochrome bd menaquinol oxidase subunit I	ATGGTCGTAGATACGGTGCTGTGGAGCAGATGGTTAACAGGGTTGACCTTGGCATTTCATGTCATATTCGCCACGGTCGGCGTCGGTGTTCCATTAATGATTGCAATTGCCGAATTCGTCGGCATACGAAAGAAGGATTCACACTACATTCTTATGGCCAAGAGATGGACGAGAGGATTTGTCATTTCCGTGGCCGTCGGCGTCGTAACCGGAACGGCGATTGCCCTGCAGCTGGCATTGGTATGGCCGAACTTTATGCAGTTGGCAGGAAACGTGATCGCTCTTCCGTTATTCATGGAGGTTTTTGCGTTCTTTTTTGAAGCTATTTTCCTCGGCATTTATTTATACACGTGGGACCGCTTCCGCAATCCGTATATTCACTGGCTGCTAACGTTACCCATTGTGGCAGGCGCAAGCATGTCCGCTTTTTTTATCACGTCGGTGAACGGTTTTATGAATCAGCCTGACGGCTTCGTTATGGAAGCCGGTCACTTTACGGCGGTTGATCCGCTGCAGGCGATGTTTAATGCGGCAACGCCCTCCAAGGTGTTCCATGTATTATCCTCGGCCTACCTGACGGGGGCAGCCCTGCTGGCGGGCATTGCGGCTTATATTATCCTCAGAAAAGGCGCGTCGGCGTATTACAAAAAAGCGTTGAAGCTGATGATGGGCGTGGTGCTGGTCTTCAGTTTGCTGACCACTATTGCCGGCGATATGTCCGCAAAGTTTTTGGCGGAGCATCAACCGGAGAAGCTGGCGGCCGCAGAGTGGCATTTTGAAACGGAACGCGGCGCGGATCTGATCCTGTTGGGCTGGCTGAACGCCGAGCAGAAGGTCATGGGGGCTCTTCACATTCCGAAGGCGCTCAGCTTCCTGGCCTTTGGCGACTTTAATGCCGAGGTGAAGGGGCTGGAGGAGTTTCCGCTCGATGAGCGCCCTCCGCTGCTCGTGCACTATTTGTTTGATTTGATGGCCGGCATCGGCTTTGTGATGCTCGGCGTTGCGTTCTTGTATTTCTTGTTCGTGATGTGGAAGAAACGAAACGAGCTCAACAAGTGGCTGCTTCGGGCCATTGTTCTTAGCGCGCCGCTGGCGTTCTTAGGGGTAGAGCTGGGCTGGTTCTATGCCGAAGTCGGTAGACAGCCGTGGATTATCCGCGGATACATGCGGGTTGAGGAAGCTGCCACCTCCTCGCCGAATGTGAGGATTCTCTTTTTCCTTTTCCTCCTTCTGTATATCGTGCTGGGCGTCATGTGTATTTTTGTACTGCGGCGCTTATTCCGTAACAAGCCGGCAGAAGCCGAGCTTGAAGAACTGTCCAAAGAGAAGCAAATTCATTCCATGGAAAAAGGGTGA	MVVDTVLWSRWLTGLTLAFHVIFATVGVGVPLMIAIAEFVGIRKKDSHYILMAKRWTRGFVISVAVGVVTGTAIALQLALVWPNFMQLAGNVIALPLFMEVFAFFFEAIFLGIYLYTWDRFRNPYIHWLLTLPIVAGASMSAFFITSVNGFMNQPDGFVMEAGHFTAVDPLQAMFNAATPSKVFHVLSSAYLTGAALLAGIAAYIILRKGASAYYKKALKLMMGVVLVFSLLTTIAGDMSAKFLAEHQPEKLAAAEWHFETERGADLILLGWLNAEQKVMGALHIPKALSFLAFGDFNAEVKGLEEFPLDERPPLLVHYLFDLMAGIGFVMLGVAFLYFLFVMWKKRNELNKWLLRAIVLSAPLAFLGVELGWFYAEVGRQPWIIRGYMRVEEAATSSPNVRILFFLFLLLYIVLGVMCIFVLRRLFRNKPAEAELEELSKEKQIHSMEKG	PGPT0026700_4295	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
AK002_03442	408	bdbC		disulfide formation protein	TTGTTTTTTGCATGGACGGTCGCCACAGTGGCCACTACCGGAAGTTTGTTTCTAAGTGAAGTTTGGCATTTTACGCCTTGCGTCTTATGCTGGTACCAAAGAATTTTCATGTATCCATTAGTCATTGTGCTGGGAATCGCAGCTTACCGGCAAAAAACAGATATCGTGCCGTACGTCCTGCCACTGATTCTCATTGGGGGAGGGATATCGACATACCATATCGTCATCCAAAAACTTCCGCACGATCTGAGCGCGGCAGCATGCGGGCCGGTGTCCTGTATGGACGACTACTTGAATTGGTTCGGTTGGTTGACCATACCGATGCTGGCACTCGCAGCATTTATACTCATAACCTTTGCATTGCTACAGGCTAAGCGCTCACAGAAACAAGAAGCCGTTCAAGGATGA	MFFAWTVATVATTGSLFLSEVWHFTPCVLCWYQRIFMYPLVIVLGIAAYRQKTDIVPYVLPLILIGGGISTYHIVIQKLPHDLSAAACGPVSCMDDYLNWFGWLTIPMLALAAFILITFALLQAKRSQKQEAVQG				NA	NA	NA	NA	NA
AK002_03443	408			hypothetical protein	ATGAAGACCAGATGGGGGATTGCTCTGCTGCTGATCTGCACGATCGCGGCCATCCTAATGTTTCGACAGGTTCAGGATCGTACTCCAACGGAGGATCTTTATGCCGATGGACAGCTGCGTATGGAAATACAAACCGTTTCGTCTGCTGCTGAACCCATGCAGGAAACCGTTTTCGAGCTCTTCGTGACCGAGCTTCCCGAGAAGCCGATTACCGATGCTGACATTGAACTCCACATCGCGATGCCGGATATGTTTTGCGGGGTGTTCCCCGCAGAGATCGTCGAATCCAAGCCAGGCGTTTACAGCGCGACGGCAATCCCTGTGATGCAAGGCCTCTGGGAGGCCGAAGCCGTTCTGCGTTGGGAAGATCGCCATGTCAAAGTAAGGACGCTGTTCAAAGTTCGCTAA	MKTRWGIALLLICTIAAILMFRQVQDRTPTEDLYADGQLRMEIQTVSSAAEPMQETVFELFVTELPEKPITDADIELHIAMPDMFCGVFPAEIVESKPGVYSATAIPVMQGLWEAEAVLRWEDRHVKVRTLFKVR				NA	NA	NA	NA	NA
AK002_03444	687			hypothetical protein	ATGGCCTTGACCGGAAGCGGATTACCGTTAGTGGCATTGGCAGGATTAATGGGGGCGCCGCATTGTCTGGTCATGTGCGGGGGAATCGTTTCTTCTCTGGCACTTGGAAACCAAAGCTCTCCGCTGAAATCCGTGTTGGCTTACAATGCGGGCAGAGTTATCACCTACATGGCCATTGGCGGTTTTATGGGAGTGGTGGGCTCCTTCCTGGATGTGGCCGGCAGCTTTGTCGGCTTCCAAGGAGCAGCCAGCATCATTGGAGGAATGCTCATTCTGCTGTGGACCTTTCGCCGCTACACATTGCCCATATATAACGCTCATCTGCCGAGACATCCATTTTTTCAGAATAAATTGGCACGGCTTGGTCAGCGTTATGAGATGCTTGCGACTTTTTTAACCGGCATTCTGCTTGGCTTTCTTCCATGCGGCTTAACCTATGCGATGCAGATGAATGCAGCGGCATCCGGATCCGGCCTGGAAGGTATTATGATTATGCTGGTGTTTGGACTTGCGACATTTCCGATCCTGTTCGTGGTGGCGATGTCTGCCGGCAGCCTGACGAAAAAATGGCGCAGGGGCATGCGCAAATTCGGCGGATTTTTAGCTTTCCTGATGGGAATCCTGTCTATTTTAAAAGGACTAAGCGCCAATGGCTGGATACCGGGCATTCACCCGTGGCTATGGTAA	MALTGSGLPLVALAGLMGAPHCLVMCGGIVSSLALGNQSSPLKSVLAYNAGRVITYMAIGGFMGVVGSFLDVAGSFVGFQGAASIIGGMLILLWTFRRYTLPIYNAHLPRHPFFQNKLARLGQRYEMLATFLTGILLGFLPCGLTYAMQMNAAASGSGLEGIMIMLVFGLATFPILFVVAMSAGSLTKKWRRGMRKFGGFLAFLMGILSILKGLSANGWIPGIHPWLW				NA	NA	NA	NA	NA
AK002_03445	2211	copA_1	COG2217	Copper-exporting P-type ATPase	ATGAAACTGGAGCAATTACAAGTAAGTGGTATGACATGCGCGGCTTGCGCAACCCGAATCGAAAAAGCGCTTCGCAAGGAGAAGGGGGTTCAAGCTGTTCATGTCAGTTTGGCTTTGTCTCGGGCTACCGTTCACTATGAACCGAGGGAAATTGGAATGCAGGCGATCACCGCCAAAATTGCAAAGCTCGGCTATAAAGCAACGGGCAAGCTCTCGCATCCCCAAGCAGGAATAGAAGCCGAAACTCGCGCCTATCGCACCCGGTTCGCGATCGCTGCGTGTTTGTCCATTCCGCTTTTGTGGGCGATGCTGGCCCATATTTTCATGTGGTTTCAACCATGGACGCCGAATTTATTCATGGAGCCCATGTTTCAATTCCTGATTGCGACGTTACTTCAGTTTGGCGTGGGCTATCCATTTTATTACGGCGCTTATCAAGCCTTCATCCATCGCAGCGCTAACATGGATACCTTGGTTGCCATCAGCACGTCCGTTGCTTACTTCTACAGCCACTACGCGATGTTTCATGCCGCACACGATTCCTCTCACCCCACCCTGTATTTCGATACGATTGCCATGATTATGACCGTGGTTTTGTTAGGCAAGTGGCTGGAGACCATGGCCAAGGGAAAAGCGCTGAAACAACTGAGTGCCTTGTATTCGCTTCAGGTGAAGCTGGTTCGGGTGTTGCGACAGCATGGCGAAGAATGGATTACGGCAGATCAGGTACAAACAGGGGACTGCATTGTGGTGAAGAGCGGAGAATGGATATCCGTTGACGGTGTGGTTCATTCGGGAACGGCGGATGCGGATGAATCGATGATGACAGGCGAAAGCAGGGCGGTGACCAAATGCAGCGGAAACCGCGTATATGCCGGAACCCGTTGTTTGGTCGGGAGTCTGCATATCATGGTCGATAAGAAGCATAAGGAAACCCGACTTTCCCAGATGATTACACTGATCGAAGCCGCGCAGCAGAGCAAACCGGCCATTCAAAGAACGGTTGACCGTATTGCGGCGGTTTTTGTACCGGTTATGCTGGGCTGTGCGGCGGTAACATTTGCAGGATGGCTATTGTTTTCCCATGGCCCTGATCTCTCTGAAACCGCAATGCGTCACGCGTTATCTGTTTTACTGGTCGCCTGCCCCTGTGCGCTTGGACTGGCAACCCCGATTTCCATCCTGATTGCAACCGGATCATCTGCCCAAAAGGGCATTCTGTTCAAAGAGGCGCGCTCCCTGGAAAGGTTGCGGCAAATCGATGTCGTATTGCTGGATAAGACGGGAACGCTGACCGAAGGCTTGCCGCAGCTTGTTGCCATCCAAGCGGCCGGACAACGTGACGCCGATGTACTTCGTTTGACCTCGGCTCTAGCTTCTCTGTCCATGCATCCACTGGCGCAAGCCATTGTGAAAGCGGCGAAAGACCAACAGGTCCTCATTCCGGAAGCAGCCTCGTTCCACGAACGGCCGGGAAAGGGAATGGAAGGCGATGTGGAAGGAAACAACGTATGCGTGGGGAACCGGAAATGGCTGGAGGAAATGGGCATTCGCTTTTCGGAGGATAAAAGGTTTGGATTACATCAGGAAGCGGCCTCCGGTCATATAAGACTTTATATAGCCATGAACGGGACATGTATCGGTACGTTTGATATGGCTGACAAACTCAGACGGGATGCGCGAGGCGTCGTGCAAGAGCTGAAGCAAAAAGCCGAAGTGTGGATGGTAACTGGCGATGAGGAGCGAACGGCGCTGACCGTGGCTGCCGCGACAGGCATTGAGCTGGTACGCGCCGGCATGCTTCCTGAACAGAAGCTTGCGTTCATACGCGAGCTCCAGCAGCAAGGTCGTTCCGTGGCCATGGTCGGCGACGGCATCAATGATGCGGCTGCGCTGGCCGCGGCCGATGTCGGCATCGCCATGGGCGGCGGAACGGATGCAGCCAAACAGGCAGGAGACGTCGTCCTGATCGGAAGCAGGCTGTCCCTAATTCCGGAAGCCTACACCTGGAGTCGTTATACGATGCGGAATGTTCATCAGAATCTACTCTTTGCACTATTGTATAACGTCCTGACCGTACCTTTGGCTGCATTCGGATATTTGGACCCGCGCATCGCATGCATTGGAATGGCGGCAAGCTCGCTGCTGGTTGTCGGTAACTCGCTGCGGCTCCAGCTGTGGGGAAAACGGGGGGCGAGAGCATGGCCTTGA	MKLEQLQVSGMTCAACATRIEKALRKEKGVQAVHVSLALSRATVHYEPREIGMQAITAKIAKLGYKATGKLSHPQAGIEAETRAYRTRFAIAACLSIPLLWAMLAHIFMWFQPWTPNLFMEPMFQFLIATLLQFGVGYPFYYGAYQAFIHRSANMDTLVAISTSVAYFYSHYAMFHAAHDSSHPTLYFDTIAMIMTVVLLGKWLETMAKGKALKQLSALYSLQVKLVRVLRQHGEEWITADQVQTGDCIVVKSGEWISVDGVVHSGTADADESMMTGESRAVTKCSGNRVYAGTRCLVGSLHIMVDKKHKETRLSQMITLIEAAQQSKPAIQRTVDRIAAVFVPVMLGCAAVTFAGWLLFSHGPDLSETAMRHALSVLLVACPCALGLATPISILIATGSSAQKGILFKEARSLERLRQIDVVLLDKTGTLTEGLPQLVAIQAAGQRDADVLRLTSALASLSMHPLAQAIVKAAKDQQVLIPEAASFHERPGKGMEGDVEGNNVCVGNRKWLEEMGIRFSEDKRFGLHQEAASGHIRLYIAMNGTCIGTFDMADKLRRDARGVVQELKQKAEVWMVTGDEERTALTVAAATGIELVRAGMLPEQKLAFIRELQQQGRSVAMVGDGINDAAALAAADVGIAMGGGTDAAKQAGDVVLIGSRLSLIPEAYTWSRYTMRNVHQNLLFALLYNVLTVPLAAFGYLDPRIACIGMAASSLLVVGNSLRLQLWGKRGARAWP	PGPT0004090_6957	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
AK002_03446	897	rhaR_42		HTH-type transcriptional activator RhaR	ATGGATTGGCTTATGAGGATGAATCGGGCATTGGATTACATCGAGATGAATTTATCCGAAGAAATTGAATTGGGTGAAGTGGCTCGTAAAGCTTGCTGTTCGTCACATCAGTTTCAGAGAATGTTCTCGTTCATAACGAATGTGACACTCGCGGAATATATACGGCGAAGACGTCTCACCCTTGCGGCTTTTGAATTGCAGAATAGCGACGCCAAAGTCATTGATATTGCCCTGAAATACGGGTATGAATCACCGGTTTCTTTTGCGCGGGCTTTTCAAATGCTGCATGGTGTCAATCCAGCAATAGCTCGTCAAGAAGGGACCGCTCTAAAGGCGTATCCTCGGATTTCCTTCCTCATTTCAATCAAAGGGGCAGAGGCTATGAATTATCGTATTGAAACGAAGGAAGCCTTACAGATCTTTGGAATCGAAAGAGTGTTTCCAATAAACGGAGATGGCGAAGCGGTGGCTTCGCCCGCAGAATTCTGGAAGGAAAGCCATGCTAATGGCGAGGTTGAAAGACTTGCTGTCCATGCAGGCGACTTGCCTTCTTTTTTAAGCAAGGATTTATATAAAGTACATGCGGTTTGCAGTTACAGAAAAACGGAAAATGACTCTTATCCGTACATGTTGTGCGCATTTAAAAGTGACTCCAGTGATACAAACGGATACACGAACATAACGATACCCGCGCATACTTGGGTTGTTTTTTCATCGGATCCATTCACGTGGGACAGCTTTGATGAGATCATCGAGACGTTATATCGACGATTCTTCTCAGAGTGGCTTCCTACGGCGGGTTATGAACAAGTCGATGGAATGGAATTTGAAATCTACGGCGGTAGAGACGGTCTTAATTACGTTGAACTATGGATCGCTGTAAGGAAGATAGCTTAA	MDWLMRMNRALDYIEMNLSEEIELGEVARKACCSSHQFQRMFSFITNVTLAEYIRRRRLTLAAFELQNSDAKVIDIALKYGYESPVSFARAFQMLHGVNPAIARQEGTALKAYPRISFLISIKGAEAMNYRIETKEALQIFGIERVFPINGDGEAVASPAEFWKESHANGEVERLAVHAGDLPSFLSKDLYKVHAVCSYRKTENDSYPYMLCAFKSDSSDTNGYTNITIPAHTWVVFSSDPFTWDSFDEIIETLYRRFFSEWLPTAGYEQVDGMEFEIYGGRDGLNYVELWIAVRKIA				NA	NA	NA	NA	NA
AK002_03447	369	fra	COG5646	Intracellular iron chaperone frataxin	ATGGAGGTTTTTGCAGATTTTTTAGCGAAAATCGATAACCCGCAGCATCGGGCGAGAACCGAAGAAGTTTTGGGGTGGGTCGCTGAGAAATTTCCGAATCTGATGCCGAAAATTGCGTGGAATCAGCCAATGTTCACTGACCACGACACATTTATCATTGGCTTTAGCGTTGCCAAACCTCACTTGGCGGTTGCCCCTGAAAAGGCAGGGATACATCAATTTTCGGATGAAATCGTCCAGGCCGGCTATGATCACACCAAGGAGCTTGTCCGCATTCGGTGGGATCGTCCGGTTGATTACTCATTGCTAGAGAGAATGATCGAGTTTAATATGCTGGATAAGGCAAACTGTACGACGTTTTGGCGCTGA	MEVFADFLAKIDNPQHRARTEEVLGWVAEKFPNLMPKIAWNQPMFTDHDTFIIGFSVAKPHLAVAPEKAGIHQFSDEIVQAGYDHTKELVRIRWDRPVDYSLLERMIEFNMLDKANCTTFWR				NA	NA	NA	NA	NA
AK002_03448	705	benC	COG0543	Benzoate 1,2-dioxygenase electron transfer component	ATGGGTTTTATTAAAGATTTTCTATCCATATTCCAAAAGCGGGAATTGATATTTATAGAGAGCAGCAAAGAATCGGAAGATGTGTACACTTTTTCATTCGAAAAAGGACACGATTTAACATGGAAAGCAGGGCAATACGGTTTATTCAGCATTACGCATAAAACCATGAAGAATGCTACAAAGCCATTCAGCATCAGTTCTGTTCCCACAGAGAACGTTGTTAACATAACAACGCGCATCGGGGACAACCCAAGCGATTTCAAAAGGGCGCTGCTGGAATTAAAACCAGGCATGCATTTGAAAATGGGCGGTCCTGTAGGTTCCTTTCATTTGGATCCTGAGAGCCCCTCGCTCCTGATCGCGGCCGGAATCGGAATAACGCCTTTTCGGTCCATCTTAAAGCAGGCGGCAGCCGGGAATGGTGAGTTGAAACCCATCCACCTTCTCTATTTAGATAGCAAGAAGTCCTATCTGTATAAAGATGAACTTGATGCAATCGCCAATCATCCTTCGATCCAGGGATCTTATCTTGATTCAAGAAATGATTTAGATCAGGAAATCGACAAGTTCATCGCCCGGCATAAGGGACATGGCAAATATTTGGTTGCGGGACCGAAGTCCATGGTAGAGTCGGTTACTGCGTACTTGCAAAGTAAGAATGTGTCCAAGCGGAATATCAAAAAGGATGCTTTTTTTGGATATTAG	MGFIKDFLSIFQKRELIFIESSKESEDVYTFSFEKGHDLTWKAGQYGLFSITHKTMKNATKPFSISSVPTENVVNITTRIGDNPSDFKRALLELKPGMHLKMGGPVGSFHLDPESPSLLIAAGIGITPFRSILKQAAAGNGELKPIHLLYLDSKKSYLYKDELDAIANHPSIQGSYLDSRNDLDQEIDKFIARHKGHGKYLVAGPKSMVESVTAYLQSKNVSKRNIKKDAFFGY	PGPT0005255_432	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005255-benC_xylZ-K05784	NA	NA
AK002_03449	2256	uvrA_3	COG0178	UvrABC system protein A	ATGAGCGAAACAAATCAGGAGTATATCGTGCTCTCGGGTGCGAGGGAAAACAATCTTAAGAACGTATCCCTGCGCATTCCCAAGCGGAAGATCACGATTTTCACCGGTGTATCCGGATCCGGCAAATCGTCGATTGTCTTCGATACGATCGCCGCAGAATCCACGCGACTGCTGAATGAGAACTTCAGCATGTTCGTTCGTACGTTCCTGCCCCGCGTTCCCCAGCCGGATACGGACGCAATCGAGAATCTGAGCATGGCCGTTATCGTGGATCAGAAGCGGCTTGGCGGCGGTTCCCATTCCACGATGGGCACCATTACCGATATTTCTCCCATTCTCCGTCTTTTATTCTCCCGAGTGGGTCAGCCCCATATCGGACCCGCGCATCTATTCTCCTTCAACGATCCGCAAGGCATGTGCCCGGAGTGCAACGGAATCGGTCGCAAGCTTGGCGTCGACATGAGCAAGGCGGTGGACATGACCAAGTCGCTAAATGAAGGCGCTCTGATGCTGCCGGACTATTCGGTAAACGGCTGGGAGTGGAACATGATACTGCAATCGGGCGATTTTGATCCGGACAAAAAGCTGAGCGATTATTCCGATGAGGAATTGGAGCATCTCCTGTATGCCAAGGCAAGAAAAGTAAAGATGGATTTCGCCGGTAAGGCAACGAACATTACGGTGGAAGGCGTCATGGAGAAGTTCACCAACAAATACATCAAGCAGGATGTAAAAACGAAGTCCGAACGCACGCAGAAAGCGGTGATGCCATTTATCACGGAGGGTCCGTGCCCCAGCTGCCGCGGCGCAAGACTCAGCCAAGCGACGCTGAGCTGCAAAATCAATGGACTCCACATTGCGGAGATGTCCGCCATGGAAGTGGGCCAGCTGATTCGCGTTATACGCGAGATCGATGATCCGATCGCGGCACCGATCATCAAATCGTTAACGGAACGTCTGCAGCATCTGGTGGATATCGGCTTGGATTACTTGACGCTGGACCGCGAGACGGATACCTTGTCGGGCGGCGAGTCGCAGCGCGTCAAAATGGTCAAGCATCTGAGCGGCAGCCTCGTGGATGTCACTTACATCTTCGATGAGCCCAGCGTTGGCTTGCATCCCCGCGATGTGCACAGGTTAAATGAACTGCTTCAGAAGCTGCGCGACAAGGGCAACACCGTGATTGTCGTTGAGCATGATCCCGATGTGATCAAGGTGGCGGACCATATCGTCGACGTTGGGCCCTACGCCGGCAGCCGCGGCGGTACCATCGTATATGAGGGAAGCTACTCCGGACTTCTGGAGTCTGCTACTTTAACAGGGACCCATATGAAGCGGCCGCTCCAGCTGAAGCACGACTGCAGGCAGCCATCCGGCAAGCTGCCCATCAAGGATGCTACGCTGCACAATCTAATGAACGTGAGCGTTGATATCCCGACCGGAGTGCTGACCGTTGTTACGGGTGTCGCCGGCTCGGGTAAAAGCACCCTGATCAACCAAGTATTTCTCAGCCAGCATCCGGATGCAATCGTCATCGATCAATCGGCGGTAGGCGTATCCACGCGCTCGAATCCAGCCACGTATACGGGCATAATGGATGATGTTCGTAAAGCATTTGCTTCGGCAAACAAGGTGAACCAGGGTTTGTTCAGCTTCAACTCGAAGGGAGCATGCGAGAACTGCCAAGGGCTTGGCGTATTGTATACGGACCTTTCTTTCCTCGACAGCGTAAAGCTGCCATGCGATGTATGCGGAGGAAGACGCTTTAAGGATGAGGTGCTTGAGTACAAACTGAACGGCAAATCGATTGCCGAAGTGCTGGAGATGACGGTCGAGCAGGCTCTGGACTTTTTTGAACTCAAAGAGGTTGTTCGCAAGCTTCAGGCCATGAGCGATGTAGGATTGAACTATATTACGCTCGGCCAGCCGCTCAGCACGCTCTCGGGCGGGGAGTGCCAGCGCATCAAGCTGGCAAGCGAGCTGCATAAGAAAGGCAGCATTTACGTGATGGACGAGCCGACCACCGGTCTGCATATGTCGGATATCGGCCACCTGCTGGAGATCATGAACCGCCTTGTGGATGCCGGCAATACGGTGATTGTCATCGAGCATAACCTCGAGGTGATCAGCCAAGCGGACTGGATCATCGACATGGGACCGGACGGAGGCAGCAAGGGCGGGCAAGTGGTGTTCGAGGGCACGCCGGCGCAGATTGCTCAAGCGGAGCAGTCGATTACGGGAAGATACTTGATGTAA	MSETNQEYIVLSGARENNLKNVSLRIPKRKITIFTGVSGSGKSSIVFDTIAAESTRLLNENFSMFVRTFLPRVPQPDTDAIENLSMAVIVDQKRLGGGSHSTMGTITDISPILRLLFSRVGQPHIGPAHLFSFNDPQGMCPECNGIGRKLGVDMSKAVDMTKSLNEGALMLPDYSVNGWEWNMILQSGDFDPDKKLSDYSDEELEHLLYAKARKVKMDFAGKATNITVEGVMEKFTNKYIKQDVKTKSERTQKAVMPFITEGPCPSCRGARLSQATLSCKINGLHIAEMSAMEVGQLIRVIREIDDPIAAPIIKSLTERLQHLVDIGLDYLTLDRETDTLSGGESQRVKMVKHLSGSLVDVTYIFDEPSVGLHPRDVHRLNELLQKLRDKGNTVIVVEHDPDVIKVADHIVDVGPYAGSRGGTIVYEGSYSGLLESATLTGTHMKRPLQLKHDCRQPSGKLPIKDATLHNLMNVSVDIPTGVLTVVTGVAGSGKSTLINQVFLSQHPDAIVIDQSAVGVSTRSNPATYTGIMDDVRKAFASANKVNQGLFSFNSKGACENCQGLGVLYTDLSFLDSVKLPCDVCGGRRFKDEVLEYKLNGKSIAEVLEMTVEQALDFFELKEVVRKLQAMSDVGLNYITLGQPLSTLSGGECQRIKLASELHKKGSIYVMDEPTTGLHMSDIGHLLEIMNRLVDAGNTVIVIEHNLEVISQADWIIDMGPDGGSKGGQVVFEGTPAQIAQAEQSITGRYLM				NA	NA	NA	NA	NA
AK002_03450	399			hypothetical protein	ATGAGCTTAACATTGTCTATGGATTTTCCGTTCAAGACATCGATCGAGAAGCTGTGGTTAGCCATCACTGATTCAAACCAGCTTGCCAAGTGGATCACGGAAAATGATTTTAAACCCGTCGTAGGGCACCGATTTCAGTTTCGCCATGAGCCGTCCGAATGGTGGGATGGGATTGTTGAGGGCGAAGTGCTTATCGTGGATGAGCCGAATCTTCTATCCTATACCTGGGCCACCGGTGAGGAAAGACATACGGTAACCTTGACGCTGCAGGATTTAGGAAGCGGAAAGGTTAACCTTCATCTCGAACAAATCGGATTTTCCAACGTTCACGGGCTTGAGGGGGCTAAGCATGGATGGAGTGCATGGGTCGTCAAGCTTGAAAAGGCATTGGCAGATTAA	MSLTLSMDFPFKTSIEKLWLAITDSNQLAKWITENDFKPVVGHRFQFRHEPSEWWDGIVEGEVLIVDEPNLLSYTWATGEERHTVTLTLQDLGSGKVNLHLEQIGFSNVHGLEGAKHGWSAWVVKLEKALAD				NA	NA	NA	NA	NA
AK002_03451	330			hypothetical protein	GTGAACGAGAACTACCAGTCTCGCGATGTGTTTAACGCCATTGCAGACCCGACCAGGCGCCAACTGATCCATCTGTTGGCGGAAGCCGATGAGCTGCCGCTGCATGAGTTAACGGCACAGTTTCCAATGGGCCGTACTGCGGTGTCCAAACATTTAACCATACTTAAGGAAGCCGATCTGGTACATGACCGAAAAGTCGGCAGAGAAACGCGTTTCAGGCTTAACGCCTCGCCGCTCCGAGAGGTTCAAGATTGGGTGGCTTTTTACAACAAGTACTGGAATGCCAACATGCTGCGTTTAAGCCAGCTATTAGAGGAGGAAGATGAATGA	MNENYQSRDVFNAIADPTRRQLIHLLAEADELPLHELTAQFPMGRTAVSKHLTILKEADLVHDRKVGRETRFRLNASPLREVQDWVAFYNKYWNANMLRLSQLLEEEDE	PGPT0004735_3488	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_03452	777			hypothetical protein	TTGGAATCACTTTGGTTGGAGTATGCCTGGGCATTACTGATTCTTATCGGTTTGGAAGGTTTGTTATCGGCGGATAATGCCCTTGTGCTGGCGGTTATCGCGAAGCACTTACCGGAGGAACAAAAGAAGAAAGCCATCAATTACGGAATCATCATGGCCTTTGTATTTCGCTTCGCCGCCCTGTTTGCGATATCGTTTATCGCGAACGTCTGGCAAATACAGGCGATTGGAGCGGCTTATCTCCTATACCTCGGATTAAAGCACATCATCAAAGCCCGTTTTGGCAAGGAAAACAAAAATATTCGCGAGGACATAAAGAAAGATGCCGCGGGAAAAGGCTTCTGGCCGACCGTTGGAAAGATTGCGGTTGCGGATCTCGCTTTTGCGATTGATTCCATTCTTGCTGCTGTGGCTCTGGCACTGGGCCTCCCGGATTCGCCGCTACCGGATTTCGGCGGGATGGACGGAGGACAATTCCTGGTTGTCGTGCTTGGCGGGATCGCAGGGCTTGTCCTGATCAAATTCGCGGCCACATGGTTTGTGAAGCTGCTTGCTCAACGGCCGGCACTGGAGACCACGGCATATGCCATCGTGGCATGGGTCGGCGTCAAGCTCGCTGTGATCACCCTGGCCCATGAAGATATTGGCGTGTTGGCTCATCATTTCCCGCACAGCACAGGCTGGACCGTCGTTTTCTACGGGGTCTTGGTCGCGATAGCCCTTCTCGGTTGGTTTGCCCCCTCGAATAAAAGGCACACTCAACCTGATCCGCTTTAG	MESLWLEYAWALLILIGLEGLLSADNALVLAVIAKHLPEEQKKKAINYGIIMAFVFRFAALFAISFIANVWQIQAIGAAYLLYLGLKHIIKARFGKENKNIREDIKKDAAGKGFWPTVGKIAVADLAFAIDSILAAVALALGLPDSPLPDFGGMDGGQFLVVVLGGIAGLVLIKFAATWFVKLLAQRPALETTAYAIVAWVGVKLAVITLAHEDIGVLAHHFPHSTGWTVVFYGVLVAIALLGWFAPSNKRHTQPDPL	PGPT0003867_2	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003867-ykoY-NA	NA	NA
AK002_03453	447			hypothetical protein	ATGAAGATTAAGAATCTATATTATTTAATTGCCGGTATTCTTGCCGTACTTTTTGCCATTACGCATGCTTGGAACGGGCAATCCGCTGTACTGCCGATCCTTCACGCGAGCGAGATCCCCTTGGATTCCGAGATCATATTCACGTATGTCTGGCATATCATCACAGCGGAGAATCTGGTCTTCGGTATCGCGTTCATTTGCATGGCATTCCAAGGCGAACGATCGAAAATCCGGGCCGTTGCATGGATGATCGTATCTCTGTTGATCGTACGACTGATGGTCATTTTAGGCATAACGGCAGTTCAAGATGTTTCGGCATTAACGGACACGGTAGTCGATTCGGTTGCCATCGTAATTTATGTCATCTTCATCCTATTGGGCATTAGAATGAAACCAAAAGGGCTCAAGGATTCAACGCTAATGACAAGTAAGCGATCCCGGCCCTGA	MKIKNLYYLIAGILAVLFAITHAWNGQSAVLPILHASEIPLDSEIIFTYVWHIITAENLVFGIAFICMAFQGERSKIRAVAWMIVSLLIVRLMVILGITAVQDVSALTDTVVDSVAIVIYVIFILLGIRMKPKGLKDSTLMTSKRSRP				NA	NA	NA	NA	NA
AK002_03454	333			hypothetical protein	ATGGATTTAATGAATATTCAAATCCTGCAGTTTGCTGACTTGTCGCTTAACGAAATCAAGGGGAAGTTTGGATTCCACAGAATGGAGGATGTTGACCCAGCAGAATGCCTGAAGGTAGCTTCGTTCCTTGATGCCAAGAATGCGGAAACGCGCGAGAAGATTGCTCATCTGGAAAAGGTCAGTCAATTGCTTGAGTTAGCAGCCGAAACGCTAAGGGACCTTAATCATGAAAGCGACCGGCGGCTGGCATCGTTCGTTCGGGAGATTTACCAAACGATTCGCAGGAAGGAGAATGGAATATCCGAGGAGGGATGTCTTGGACATGAAGATTAA	MDLMNIQILQFADLSLNEIKGKFGFHRMEDVDPAECLKVASFLDAKNAETREKIAHLEKVSQLLELAAETLRDLNHESDRRLASFVREIYQTIRRKENGISEEGCLGHED				NA	NA	NA	NA	NA
AK002_03455	105			hypothetical protein	ATGGCTCACCAGAAGAGAAGGAAAGAAGCTGCCTGGAAGTCGCGTAAGCAAGAACAGCATCCCCATGGTAAAATCAAATCGCTCAAGGAACTGTCCAGCGAATAG	MAHQKRRKEAAWKSRKQEQHPHGKIKSLKELSSE				NA	NA	NA	NA	NA
AK002_03456	873			hypothetical protein	ATGGACAACAAACAAATGCGCATGTTGAAAAAGCTGTATCACCATACCAATTACAACTATGACCGGGAGCGTGAGGTAAGCGTATATAATACAGAAACACTTACTGCGGCAGAGCAGGAGCTGCTGCAAGCCAGCGGATGGGTCGTAAACGATCTGCAGTATATTCGGCATGACGAAATCATAGGCCGACTGGTCGAGCTGCGTTCGAACGTTCGCTTGACCTGGTCCAGCATTGGCAATGCCTTTGTTGCAGGGGTGGGTGGAAGCTGGCCCCGAGGCATATCCACGCTGGCCAGTTATCACGCCATGATTCATGCACGCCCCCACGCTTACGAGGAACCCGAATGGCTTCGGGCTTGCAAGGTCTGTGGCTTCAGCCACAGCCATGAAGGCTGGGACAATCTGTCTTACATACGTTACGCGATGCATTTAGGCAACAATTACAGCGGATCAAGCTTCGGCGCATACGTGGATATGGCCGAAATGGTCGAACTGCTGGAGCAAGAGCCCGTTGAGGCAACGGACAATGACAAGCACGCCTTCAGACAGCTGCTGCAGAGCTTGGACCGGGCCGAGGCTGGCGAAACGCCAGGGCAGTATGAGAAGCGGTTAACCGGCGAAAAAATCTTGAAGGGTCACGCCGGCATTCGCCGTGGCATGCTCCAGGCGCTAGCCAGGGTCGGCGTGCTCCCCAACCGCATCCTGGAGCTCTCTCCGGACCGCTGGACGGACACGGCAACAATCATCCATGCCGAGTTTGAACTGGACAACACCAAGGGCCGTTCCGACATGGAGATGCCTTGGGCAGGCTGGCAAGGCAGCTTGGGCGTCGATTGGAACAAGGCCCGCGCGATTTTCGGCGATTGGGTTTGA	MDNKQMRMLKKLYHHTNYNYDREREVSVYNTETLTAAEQELLQASGWVVNDLQYIRHDEIIGRLVELRSNVRLTWSSIGNAFVAGVGGSWPRGISTLASYHAMIHARPHAYEEPEWLRACKVCGFSHSHEGWDNLSYIRYAMHLGNNYSGSSFGAYVDMAEMVELLEQEPVEATDNDKHAFRQLLQSLDRAEAGETPGQYEKRLTGEKILKGHAGIRRGMLQALARVGVLPNRILELSPDRWTDTATIIHAEFELDNTKGRSDMEMPWAGWQGSLGVDWNKARAIFGDWV				NA	NA	NA	NA	NA
AK002_03457	921			hypothetical protein	ATGACTAAAAAAACGAAAACGATACGCCTGTTAATGCCGCAATGGCAAGGGGGGAACAACCCCAACTACTCTTTTGGAGCCGAACTGCTTGCTTGGCTGGCTCCGGATAATGATCAACCCCTTATCCATGTTCCCGTCCAAGCCTATGATGGAACGCCTCTTGAAAACGAGAACGGTATGAATGGCAGAACACAGCTGCTCGAACAGTTAAAGGCGGCTCATCATCTGATCCATGCCCATAAACCGGATCGCATTGTCATGTTTGGCGGCGACTGCTTGGTCGAACAAGCTCCTTTTGCTTATTTGAACGAACGATACGACGGGGAGTTAGGTTTAATCTGGATCGATGCTCACAGTGATTTGGTGAGATATGTAGGCTATGATAACGGGCATACGGTACCCCTGGGGAATCTGTTGGGAGAAGGGGATGAGGAGTTTGCCAAACATGTGAACATCCCTCTAAAACCCGAGAACGTCTTTATTGCAGGATTAGCAGCGCCTACCGAACAAGAAGCCAAGGTGATCTCGGAAGGATTCCAAAAGCTAGGCATCGGTTTTGCGGAGCAGGACACAGACATGATTCAAAGGCTGGGCATTCGAACTGCTGGCACCGAGGAGTTGAAGAACAGTACTGCGCCTATTAAAGCGTGGATTAAAGAACGCGGCATTAAGCACCTGGCGATTCACCTCGATCTGGACGTGCTTGATCCCAAGGCATTCCGGTCTTTGCTGTTCGCGAACCCTGAAGAACCCTTCAATTTATCTCCTCAGGGAACCATGCAATTGCCGCAGCTGCTTCATCTGCTGAAGGAACTGTCTGAAGAGACTGATGTCGTGGGTTTAGGGATCACGGAGCATCTGCCATGGGATTCTATCTATTTGAAGAAACTACTGGCTGAAATGCCTATTTTAAATAACTAA	MTKKTKTIRLLMPQWQGGNNPNYSFGAELLAWLAPDNDQPLIHVPVQAYDGTPLENENGMNGRTQLLEQLKAAHHLIHAHKPDRIVMFGGDCLVEQAPFAYLNERYDGELGLIWIDAHSDLVRYVGYDNGHTVPLGNLLGEGDEEFAKHVNIPLKPENVFIAGLAAPTEQEAKVISEGFQKLGIGFAEQDTDMIQRLGIRTAGTEELKNSTAPIKAWIKERGIKHLAIHLDLDVLDPKAFRSLLFANPEEPFNLSPQGTMQLPQLLHLLKELSEETDVVGLGITEHLPWDSIYLKKLLAEMPILNN	PGPT0020100_1246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
AK002_03458	342			hypothetical protein	ATGAGCATGGCTGAATTTAAAGGTAAAGTTAAGAATATTCAAGATACGCCTTTTGGTTATACGGTGTCCGTGATCGGCGGCAAATGGAAAATGGTCATTATCTACCTTCTTGCAGAAAACCAAACGGTTCGCTTCAATGATCTGAAGAGACAGATCGGCGCCATTACTTACAAAACATTGAGTTCGCAGCTTAAGGAATTGGAGGCGGATGGACTCGTGAAACGGAAAGAATACCCTCAAGTCCCCCCTAAAGTCGAGTATAGCCTCACGGATAAAGCGGTAACGCTATTACCCGTTTTGGAAGGGTTATGCGAGTGGGGAGTAAAGAATCAATACGATTAA	MSMAEFKGKVKNIQDTPFGYTVSVIGGKWKMVIIYLLAENQTVRFNDLKRQIGAITYKTLSSQLKELEADGLVKRKEYPQVPPKVEYSLTDKAVTLLPVLEGLCEWGVKNQYD	PGPT0012970_179	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
AK002_03459	840	pkn1		Serine/threonine-protein kinase Pkn1	ATGAGAAAGCTATGCTTGTTTCTTTTTATAGCAGCAATGCTTGTGATCGGCGCTTGTTCGCAGGATAAACTTGATAAGAAGGAAGATCTTGTGTTCGTAGAAGGCGGGCCTATTAAGAACAACAAGTCCAACTACGCTGGACAAAGCGTGTCGTTATCAAGCTTCTATATCGGCAAATATGAGGTCACTCAAAAAGAGTGGGAAGAAGTCATGGGGAGCAATCCATCGGAATTCGTTGGAGATCAACTGCCGGTTGAAATGGTGAGTTGGTATGACGTTGTGGAATACTGCAATCGAAGAAGCATACAGGAAGGATTCGAACCGTATTACAACATCCACAAGAATAAGAAAGACGCAAATAATAAGAATGATAATGATCATATAAAATGGACCGTCGCGATCAATGAGGGAGCTGACGGCTATCGGTTGCCTACTGAAGCGGAGTGGGAATATGCTGCTAGCGGAGGGCAGGCGAGCAAAGGCTACGCATACAGCGGAAGCCATAATGCCGACGAGGTTGCATGGTATTGGAGAAACGCCGGAGATCAATACTTATCCGGAGATTGGAACTGGCCCGTCATCGAGAACAACCATAATCAAACCAAACCGATCGGCACCCAGAAGCCCAACGAGTTAGGCATTTACGATATGTCAGGCAACGTTAGGGAGTGGTGCTGGGACTGGTATGGCGACTCGAACAGCCAAAGCGGCACCTTTCGGGTGGTGAAGGGCGGCGGCTGGATCGGCGACGTCAGCAACAACGAGATCTCGTTCCGAGGCAAATTCGATGCCAATGGCTTTGGTCCGGATCAAGGTTTTCGGGTCGTTCGCGGAGCGTAG	MRKLCLFLFIAAMLVIGACSQDKLDKKEDLVFVEGGPIKNNKSNYAGQSVSLSSFYIGKYEVTQKEWEEVMGSNPSEFVGDQLPVEMVSWYDVVEYCNRRSIQEGFEPYYNIHKNKKDANNKNDNDHIKWTVAINEGADGYRLPTEAEWEYAASGGQASKGYAYSGSHNADEVAWYWRNAGDQYLSGDWNWPVIENNHNQTKPIGTQKPNELGIYDMSGNVREWCWDWYGDSNSQSGTFRVVKGGGWIGDVSNNEISFRGKFDANGFGPDQGFRVVRGA				NA	NA	NA	NA	NA
AK002_03460	636			Endo-1,4-beta-xylanase Xyn11E	ATGATTAAGTTTAGTAAAAAGGTAATGACGCTGGTGCTGGCAGCTTCCATGAGTTTTGGTTTGTTTGCAACAACCTCAAACGCAGCGACGGACTACTGGCAGAATTGGACCGATGGCGGCGGAACGGTCAATGCCGTTAACGGCTCCGGAGGCAATTACAGCGTAACGTGGCAAAATACCGGGAATTTCGTTGTCGGCAAAGGCTGGAATACAGGATCGCCGAACCGGACGATTAACTACAATGCCGGCGTCTGGGCGCCGTCCGGCAACGGGTATTTGACGCTCTACGGCTGGACGAGAAACTCGCTGATCGAATATTACGTCGTTGACAGCTGGGGTACTTACCGGCCTACCGGAACGCATAAAGGCACCGTGACCAGCGATGGGGGCACCTATGACATCTATACAACGATGCGATACAACGCGCCCTCGATTGACGGCACACAAACATTTGCCCAGTATTGGAGCGTTCGGCAATCGAAGAGAGCTACAGGCGTAAACTCCAGCATCACGTTCAGCAACCACGTGAACGCATGGGCAAGCAAAGGAATGAATCTGGGAAGCAGCTGGTCTTACCAGGTATTAGCGACAGAGGGCTATCAAAGCAGCGGGAGCTCCAACGTAACGGTGTGGTAA	MIKFSKKVMTLVLAASMSFGLFATTSNAATDYWQNWTDGGGTVNAVNGSGGNYSVTWQNTGNFVVGKGWNTGSPNRTINYNAGVWAPSGNGYLTLYGWTRNSLIEYYVVDSWGTYRPTGTHKGTVTSDGGTYDIYTTMRYNAPSIDGTQTFAQYWSVRQSKRATGVNSSITFSNHVNAWASKGMNLGSSWSYQVLATEGYQSSGSSNVTVW	PGPT0018625_2267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCANASE,PGPT0018625-xynY|xynZ|xynD|xynA-K01181	NA	NA
AK002_03461	696			hypothetical protein	GTGGTTATGCAGGAACTGGAGGCACTCGGCAAGGAACGGATTAAGAAAACCTATATGAGCAATGGTGCACACGAGCCGCTTTTTGGGGTTGCTACTGGTGCCATGAAGCCGTTAGCAAAGAAAATCAAGAAAAATCAACCTTTAGCAGAGCAGCTTTACACCACCGGCAACTATGATGCGATGTATTTTGCCGGCATTATTGCAGACCCCATGATCATGACGGAAGCAGATTTCGATCGTTGGATGGATCGTGCCTATTTTTATATGCTGTCAGATTATGTGGTTGCCGTGACTTTGGCCGAAACGGAAATTGCTCAAACAGTTGCCGATAAGTGGATCGCTAGCGGTGAAGAGCTTAAAATGTCGGCAGGCTGGAGCTGCTACTGCTGGCTTTTGGGTAATCGTGCGGACGCTGCATTTGATACCGTCAAGATCGAGAGCATGCTCGAACAGGTGAAAAACACGATCCACGACTCCCCTGAACGAACGAAATCCGCTATGAACAATTTTGTATACACCGTAGGGGTTTCTTATTTGCCAAGCCATGATAAGGCGGTAGAAATCGCGAAGGCCGTCGGCCCAGTCGAAATCAAAAGGGACAAGAAGAAGAGCAGCATCCTGCTGGCTTCCGACAATATTCAAAAAGAGATCGAGAGAGGGAAGATCGGATTTAAACGCAAATATGTAAGGTGTTAG	MVMQELEALGKERIKKTYMSNGAHEPLFGVATGAMKPLAKKIKKNQPLAEQLYTTGNYDAMYFAGIIADPMIMTEADFDRWMDRAYFYMLSDYVVAVTLAETEIAQTVADKWIASGEELKMSAGWSCYCWLLGNRADAAFDTVKIESMLEQVKNTIHDSPERTKSAMNNFVYTVGVSYLPSHDKAVEIAKAVGPVEIKRDKKKSSILLASDNIQKEIERGKIGFKRKYVRC				NA	NA	NA	NA	NA
AK002_03463	1464	expZ_2	COG0488	Nucleotide-binding protein ExpZ	ATGGAATTCTTGATCAAAGCAAAAGATATGGTAGTGGAATATTCGGGACGAGATGTTCTGGACATTGATGAACTGGAGCTTTACAGCTATGATCGCATCGGACTGGTTGGCGTGAACGGAGCAGGCAAAAGCACACTGCTAAAAGCGCTGCTGGGGGAAATTCCTTTGTCCCATGGTAAAGTTATTCGGGAAGGCAGCTTCCATTATATTCCCCAGTTGGATGATGTCATTGTGCAGGAGATTCAAGATTACGCTTTAATCGGCAAGCTGGGAATCGAGCACTGTGACGCGGAACATATGAGCGGCGGTGAAGAAACACGGCTAAAAATAGCCCAGGCGCTCTCCGGAGAGGTGCACGGAATTTTTGCCGATGAACCGACGAGCCACCTGGATCGGGATGGCATAGACTTTCTGGTCCACCAGCTTAAATATTACTCCGGCGCCTTACTCATCATCAGTCACGACCGTTATTTCCTTGACCAGGTCGTCGACAAGATCTGGGAGTTGAATGAGGGGAAAATCACGGAGTACTGGGGCGGTTATTCCGATTACCTGCGCCTTAAGGAAGAGGAGCGGCATAGTCAGGCTGCAAAATATAAGCAGTTTACTGCGGAACGGGAGCGGCTGGAGAAAGCCATTACCGAAAAGCTTAGCCAGGCTCAAAAAGTGGATCAAAAGGCTAAAGGCGCTCCAAGAAAAAACAGCTCCGATGGCGGCGGCCGCCTGGCTCATCAAAAATCGACGGGCAGCAAACAGAAAAAGCTCCATAATGCCGCTAAAAATATGGAGCATCGAATCGAGGCACTTGGTGAGGTAAAGCCTCCTGAAGCCATGCGATCCATTCGTTTCTGGCAAAGCAAAGCCTTGGAGCTTCATCATCCGTTTCCAATTACTGGAATAGACATTTGCAAACAGTTTGAAGGCAAGGCGATTTTCGAGGAGGCCTCCTTCCAATTTCCATTGGGTGCCAAGATCGCGGTCACCGGTGCGAATGGATCTGGCAAAACGACGCTTTTCAAGATGATACTCCATCGTGAGCATGGTATTTCCGTATCCCCTAAAGCGGAAATCGGCTATTTTGCCCAAACGGGTTACAAGCTTGACCGTGATCAAGGGGTTATGGAGTTCATGAAGGAAGACAGTGATTATGAAGTGTCGGACATTCGCGCCGTTCTGGCATCGATGGGATTTTCTCAACAGGATGTACGCAAGGCTTTATCCGTGTTGAGCGGCGGAGAAATCATGAAATTGCAGCTTGCCAAAATGCTGTTAGGACGGTACAACATACTGCTGATGGATGAACCCAGCAATTTTCTGGATCTTCCTGCGGTGGAAGCGCTGGAACAATTAATGAAGAACTATGCGGGAACCATCATATTCGTATCGCATGATGTCCGTTTGATCGACAATGTAGCCGATACCGTATATGAAATCAAGGACAAAAAAATCATTCAGAGGGTATAA	MEFLIKAKDMVVEYSGRDVLDIDELELYSYDRIGLVGVNGAGKSTLLKALLGEIPLSHGKVIREGSFHYIPQLDDVIVQEIQDYALIGKLGIEHCDAEHMSGGEETRLKIAQALSGEVHGIFADEPTSHLDRDGIDFLVHQLKYYSGALLIISHDRYFLDQVVDKIWELNEGKITEYWGGYSDYLRLKEEERHSQAAKYKQFTAERERLEKAITEKLSQAQKVDQKAKGAPRKNSSDGGGRLAHQKSTGSKQKKLHNAAKNMEHRIEALGEVKPPEAMRSIRFWQSKALELHHPFPITGIDICKQFEGKAIFEEASFQFPLGAKIAVTGANGSGKTTLFKMILHREHGISVSPKAEIGYFAQTGYKLDRDQGVMEFMKEDSDYEVSDIRAVLASMGFSQQDVRKALSVLSGGEIMKLQLAKMLLGRYNILLMDEPSNFLDLPAVEALEQLMKNYAGTIIFVSHDVRLIDNVADTVYEIKDKKIIQRV	PGPT0027940_328	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027940-msrA|vmlR-K18231	NA	NA
AK002_03464	222			hypothetical protein	ATGGCCATAATAATCAATATCGATGTGATGCTGGCTAAACGAAAAATGAGCGTTACGGAGCTTTCTGAGAAGGTTGGAATCACGATGGCCAATCTCTCCATATTGAAGAACGGAAAGGCAAAGGCGATACGATTATCGACTTTAGAGGCGATTTGCAAGGCTTTGGAATGTCAGCCCGGAGATATTTTAGAATATCGAATGGACGAAGACCGTCTTGAATAA	MAIIINIDVMLAKRKMSVTELSEKVGITMANLSILKNGKAKAIRLSTLEAICKALECQPGDILEYRMDEDRLE	PGPT0014940_1114	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
AK002_03465	483			hypothetical protein	ATGAAACAAGTTTCAACGCTCTTTTTAAAGGTGGCTGTTATTCTTATCGGTATTCCGATTCTTGCTTTGTGCATCTTTTTGGTGCCGGAGATCGCGAATTTTGCTGCCGAGCTGTATCCGGATATGAGTTATATTAAATATCTCGTATTCATCGATTTTTATGCCGCGGCGATCCCGTTTTACTATGCGCTGTATCAAGCCTTTAAGCTTTTAAGTTATATTGATAAGAACAAGGCGTTCTCGGAATGGTCCGTACGAGCTTTAAAGAGTATAAAATACTGTGCAATCACAATCAGCAGCTTGTTCGTGGTTGGCCTGCCGCTGTTCTATCTTGTCGCGGAGAAAGACGATGCCCCGGGCATCATCTTGATCGGATTGATCTTGATTTTCGCCTCCATGGTGATTGCCGTTTTTGCCGCCGTCCTTCAAAGGCTGTTACAAGAAGCGATCGATATCAAATCGGAAAACGACTTAATAATCTGA	MKQVSTLFLKVAVILIGIPILALCIFLVPEIANFAAELYPDMSYIKYLVFIDFYAAAIPFYYALYQAFKLLSYIDKNKAFSEWSVRALKSIKYCAITISSLFVVGLPLFYLVAEKDDAPGIILIGLILIFASMVIAVFAAVLQRLLQEAIDIKSENDLII				NA	NA	NA	NA	NA
AK002_03466	459			hypothetical protein	ATGCGGGTGAGCAAGCGCTTTTGGTATGTCTTTTTGGCAATCTGCGTCCTGCTCCTGCTTAGCGCGACGGTATATTCGGCAAGTCAAAACCGCACCTCGTTCAAGGAGCTGGTTCTTGATCAGTTGAAGGAGTCCGGCGCGATCCGTGAGCTGGACATTGTAAGAAACCGGAACCGCCCGAACGAGCAGCGGCTGAAAATGACGGATCAAGCGGAGATTGACCGCATCGTGAACAGCTTCTCGGATCTCAAACTGCGTAAGAACAGCGTAAGGGATCACAGCGGCGACGAATATGAGATCCTGTTGAGTACCGAAAACGGGCCGACCTTCACGCTAGTCGTTTATAGTCCGGACCATATACGGATTTATAACCATTCGAGCAAGCATAAAAGATACGGCAAGGAGTATAAAATCGTAAGCGATTTCGCTCCAGGTAACCTTGAATCCTTGTTCCGGTGA	MRVSKRFWYVFLAICVLLLLSATVYSASQNRTSFKELVLDQLKESGAIRELDIVRNRNRPNEQRLKMTDQAEIDRIVNSFSDLKLRKNSVRDHSGDEYEILLSTENGPTFTLVVYSPDHIRIYNHSSKHKRYGKEYKIVSDFAPGNLESLFR				NA	NA	NA	NA	NA
AK002_03467	2619			hypothetical protein	ATGAAGAGATCTTACACGACGGAAAGGCGGTACTTGCAAAAGGGATTGAGTTTGTTCTTCGCGGTTGTCATGCTGGCTAGTGTCGGATTATGGCCAGCTTCGAAGGTCGAGGCAGCAGATACTTCGGTGACCTCGATGGATTACTTTTCGGCGGCTGACGGACCGGTCATCTCCAAATCAGGAGTCGGACAGGCCAGCTATGGCTTTGTTATGCCCATATTCAACGGAGGCGCAGCTACTTGGAATGATGTAGCCCAAGACGTGGGCGTCAAAGTGAAAGTGGGCGGCAGCTGGGTCGATATCGATAGTGTGAGCAGCTTTATTTATAATCAGAATTGGGGACATTGGAGCGACGGAGGATTTACAGGTTATTGGTTCACGCTTTCTGCAACGACGGAGATTCAGCTGTACTCGAAAGCGAATGGGGTTACCCTGGATTACAGGCTGGTGTTTCAGAACATTAACAAAACCACGATCACGGCCATGACGCCGACCCAAGGGCCGCAGATTACTGCTAGCTTTACGGGGGGCGCCGGTTTTACCTACCCTACGTTCAATAACGATCCGGCCGTGACCTATGCAGCCGTCGCTGATGATTTGAAGGTGTATGTGAAGCCTGTTAACAGCAGTGCTTGGATTGACATCGACAACAACGCTGCAAGCGGCTGGATCTATGACCAAAACTTCGGACAATTCACGGACGGAGGCGGCGGGTATTGGTTTACCGTAACGGAGTCGATCCACGTCAAATTGGAATCGAAAACGTCCGGAGTTAACGTCGTGTATACCATCACTTTTAATGAAGCCGTACGAAATTCGTATGTCATTACGCCTTATGAGGGAACGACCTTTACGGCAGATGCTAACGGTTCTATCGGCATTCCGCTGCCTAAGATTGACGGGGGAGCGCCGATAGGTAAGGAGCTTGATAATTTCGTTTACCAGATTAACGTCAACGGGCAGTGGGTTGAGCTGGGGAATTCCGGCCAGAGCGGATTTACATACGCTGCCAATGGCTACAACAACATGTCCGATGCGAATCAGTGGGGATACTGGGCCGATTATATTTACGGCCTGTGGTTTCAGCCCATCCAAGAAGATATGCAGATCCGGATCGGCTATCCCTTGAACGGGCTAAAGGGAGGCAGCGTGGGCAGCAATTACGTTAACTACACATTGATCGGCAATCCCGATGCTCCTCGTCCGGATGTAAGCGACCAAGAGGATATTGCTATCGGGACACCAAGCGACCCGGCCATCCAAGGCATGAATCTCATTTGGCAGGATGAATTTAACGGCACGACATTGGACACAAGCAAATGGAACTATGAACAAGGTTACTATCTCAATGATGATCCAAACACCTGGGGCTGGGGCAACGCGGAGCTGCAGCATTATACCGATAGTGCGCAAAATGTGTTCGTGCAGGACGGGAAGCTGAACATCCGCGCATTGAACGATCCCAAGTCTTTCCCACAAGATCCAAACCGGTATGCCCAATATTCCTCCGGTAAGATTAACACGAAGAATCATTTTACCCTGAAGTACGGACGAGTCGACTTCCGTGCGAAACTGCCGACTGGCAATGGCGTATGGCCGGCACTATGGATGTTGCCGCAAGACAGCCCTTACGGAACATGGGCAGCATCCGGCGAAATCGACGTGATGGAAGCAAGAGGGAGATTGCCAGGCTCGACGAGCGGTGCCGTGCACTTCGGTGGAACATGGCCGGCGAACCAACATATTTCTGGCGAATATCATTTCCCGGAAGGGCAGAACATCAACAATGATTATCATGTCTATTCCGTCGTATGGGAAGAGGACAACATCAAATGGTATGTGGATGGCAAGTTTTTCTTCAAAGTGACGAATGAACAATGGTACTCCTTGGCCGCGCCAAACAATCCGAACGCACCTTTCGATCAGCCTTTCTACCTCATCATGAATCTGGCGCTCGGCGGAAATTTTGACGGCGGCATTTCCCCGAATCCGTCCGATATTCCTGCTACGATGCAGGTCGATTATGTGCGGGTTTATAAAGAAAACGGCAGCGGTAATCCTGGAAATGTGCCGGTTACCGGCGTCACGCTGAATCCAACCACCGCACAGGTGGAAGTGGGTCAGAGTCTTCAGTTAAACGCCGGCATAGCGCCCTCCAATGCAACGAATAAGCAGGTGACTTGGACCGTTTCGGGTGCGAGTGCTGCCTCTGTGAGCCAGGAAGGCGTCGTGACGGGGCTCGCTCCGGGTACGGCAACCGTTACGGCTACGACCGTCGACGGCCAGAAAACCGCTTCTTCCACGATCACGGTGGTACCGGCGCCATCCACCGTGATTGTCATCGGCGATGAGGTGAGGGGACTGAAAAAAATCGGCAATGACCTGCTGTTCTATATTAACGGCGCTACCTTTGCCGATCTGCATTACAAGATCAATAACGGCGGGCAGCTGAACGTAGCCATGACCCCAACGGGGAACGGCAACTATACTTACCCTGTAAACAATCTGAAGCAAGGGGACACCGTCGAGTACTTTTTCACCTATAACCCGGGACAAGGAGCCTTGGATACCCCTTGGCTCACCTATATCCATGGCGTGACCCAAGGAACGCCGGAGTAA	MKRSYTTERRYLQKGLSLFFAVVMLASVGLWPASKVEAADTSVTSMDYFSAADGPVISKSGVGQASYGFVMPIFNGGAATWNDVAQDVGVKVKVGGSWVDIDSVSSFIYNQNWGHWSDGGFTGYWFTLSATTEIQLYSKANGVTLDYRLVFQNINKTTITAMTPTQGPQITASFTGGAGFTYPTFNNDPAVTYAAVADDLKVYVKPVNSSAWIDIDNNAASGWIYDQNFGQFTDGGGGYWFTVTESIHVKLESKTSGVNVVYTITFNEAVRNSYVITPYEGTTFTADANGSIGIPLPKIDGGAPIGKELDNFVYQINVNGQWVELGNSGQSGFTYAANGYNNMSDANQWGYWADYIYGLWFQPIQEDMQIRIGYPLNGLKGGSVGSNYVNYTLIGNPDAPRPDVSDQEDIAIGTPSDPAIQGMNLIWQDEFNGTTLDTSKWNYEQGYYLNDDPNTWGWGNAELQHYTDSAQNVFVQDGKLNIRALNDPKSFPQDPNRYAQYSSGKINTKNHFTLKYGRVDFRAKLPTGNGVWPALWMLPQDSPYGTWAASGEIDVMEARGRLPGSTSGAVHFGGTWPANQHISGEYHFPEGQNINNDYHVYSVVWEEDNIKWYVDGKFFFKVTNEQWYSLAAPNNPNAPFDQPFYLIMNLALGGNFDGGISPNPSDIPATMQVDYVRVYKENGSGNPGNVPVTGVTLNPTTAQVEVGQSLQLNAGIAPSNATNKQVTWTVSGASAASVSQEGVVTGLAPGTATVTATTVDGQKTASSTITVVPAPSTVIVIGDEVRGLKKIGNDLLFYINGATFADLHYKINNGGQLNVAMTPTGNGNYTYPVNNLKQGDTVEYFFTYNPGQGALDTPWLTYIHGVTQGTPE				NA	NA	NA	NA	NA
AK002_03468	1212			hypothetical protein	TTGGCAACTTGGTTTTTGATTATCATTTATCTGGCTTTTATTAGTTTGGGACTACCCGATTCTTTACTAGGATCCGCCTGGCCGGTGATATGGCCCGACATTGGGTCTTCCGTCGGCTCTGCAGGCATCGTGTCCATGGTTATTGCAGGAGGAACCATTGTTTCGAGTCTGGCAAGCGGCTCTATGATAAAGCGGTTAGGAACAGGGAGAATCACCCTGTTCAGCTGCTTCCTGACTGCAGGAGCTCTGCTTGGTTTCTCCTTGGCTCCCTCTATGGCTTGGCTTGTCGTTTTGGCCATTCCACTGGGTTTAGGGGCGGGTGCTGTGGATGCTGCTTTGAATCATTATGTTGCTGAGAATTATAAGGCGCATCATATGAACTGGTTACATTGCTTTTGGGGTGTCGGGGCAACAATGGGGCCCATTATTATGTCCTCTTACATTGCAGATCATAACTCCTGGAGAAGCGGATATACAACTGTATCCATAATCCAGTTCTCGCTTGTAATCATTTTGCTCATTACGCTCCCGTTATGGAAACGCGTCGCAGCAATGCGGGAGATTGACCGGCCGCAAGCCGAAAGCGTAGTCGATAATGAAAAGCGCCAACAGGAGCAGATCGTAAAAACAGGCATATTTCGAATCAGAGGCGTTAAACCAACACTTACGGCATTTTTATTCTATTGTGGAGTCGAAACCACGGTGGGGTTGTGGGGAGCTAGTTACCTTGTCGGTGCTAAACATATTTCAGCCGATACGGCTGCCATATGGATTTCTTTATATTACGGAGGTATTACGCTAGGAAGACTGATTACCGGCTTTATCACGCTGAAGGTTGCCAATCGTCTGTTGATCCGCTATGGACAGCTCATCACCATTCTAGGTGGGATTATCCTTGTGCTACCTCTTAGTGCTTCCTTTTCTCTGACGGGATTTATGCTGATTGGACTTGGCCTTGCGCCCATTTATCCTGGACTTCTTCATGAAACGCCTTCTCGGTTCGGAAAAGAACATTCGGCCAAGCTGATGGGTTATCAAATGGCCGTCGCCTATACGGGGACCACGCTGCTTCCCCCCATGTTTGGATTGGTCGCTTCGCAGACAAGCATCGGATTGTTCCCATCCGTTGTCCTTGCCTTCCTCATCTTCATGTGGCTGAGCGCCGAGAAAGTGAACCGAATTTTGAGCAGTGAAGCGAAACAAGTGCCGTAA	MATWFLIIIYLAFISLGLPDSLLGSAWPVIWPDIGSSVGSAGIVSMVIAGGTIVSSLASGSMIKRLGTGRITLFSCFLTAGALLGFSLAPSMAWLVVLAIPLGLGAGAVDAALNHYVAENYKAHHMNWLHCFWGVGATMGPIIMSSYIADHNSWRSGYTTVSIIQFSLVIILLITLPLWKRVAAMREIDRPQAESVVDNEKRQQEQIVKTGIFRIRGVKPTLTAFLFYCGVETTVGLWGASYLVGAKHISADTAAIWISLYYGGITLGRLITGFITLKVANRLLIRYGQLITILGGIILVLPLSASFSLTGFMLIGLGLAPIYPGLLHETPSRFGKEHSAKLMGYQMAVAYTGTTLLPPMFGLVASQTSIGLFPSVVLAFLIFMWLSAEKVNRILSSEAKQVP				NA	NA	NA	NA	NA
AK002_03469	1023			hypothetical protein	ATGAAAAAAGCAAACGCTAACTTAATGAAAGAAATCAATTTAAATATTGTCCGCAAAGCCATGAAGCGAGTAGAAACGGCGACGAAGCCCCAATTGGCCTCATTGACCAAGCTGAGTGTGGTTACGGTGAATTCGTTGGTCAAGGAGCTGTATGAGCTTGGGGAATTGTTTGAAGACGATATCGTTCCGTCCAACGGCGGGAGGCCCGCGCTAACCTATAGATATAATTATAATTTCAGCCTGGCTCTTGTCGTTTATTTGAAGGAGAAACAGGGAGAAGAGCTGATCTCGGCAACCGTCGTGAATTTGGAAAATGATCAGTTGGCCAAAGAAGAATACACCATGCCTGTATTTGATCGACAGCGCTTCTATGAAATCATTGAGCATTACATTGGGCTTTATCCCTCCATCAAGGTGATTGGTATCGGCATTCCGGGACAGGCCGTCAATGGAGAAATTACGGTAAGCAGTCATCGAGAATTAACCGGGTTTCGCATGATTGAAGAGATCGAATCTCAATTTGGGCTGCCCGTAATGGTCGAGAATGATGTGAATGCTGCCATTAGCGGTTATTCGATGAAGGAGGATTTGGAAGGTGACCAGTGCGTGCTAGGCATGTACTTCCCTATGAAATATCCGCCTGGCCTAGCTATTTATCTCGATGGGAGGATCGTTAAAGGGAAGAACGGCATGTCGGGCGAGATCAAATTTCTGCCCATTGGCCTGGATTGGAGTCAAGACATGACAACGGAGAAGTTTGTGCATGCTGTGTGTAAAATCATACATACTGTTAATGCCGTCCTGGCACCTGACAAAATCGTGATATATCAATACCGAATGGAGGCGGAAGCCTGGTCTCAGGCTTGGGAAACTTATCGGCTTCAACATCCCATGCCTTCTTATCCTGAAGTGGTGTTGAAGCAGACGTTTCAAGAGGACTTTGAAGCAGGCATGCGCTGGCTAACCCTGCAAGAATTGGAACCGACCCTTGATCTTGCAGTTGACCGGAACCCTCGGAATTGA	MKKANANLMKEINLNIVRKAMKRVETATKPQLASLTKLSVVTVNSLVKELYELGELFEDDIVPSNGGRPALTYRYNYNFSLALVVYLKEKQGEELISATVVNLENDQLAKEEYTMPVFDRQRFYEIIEHYIGLYPSIKVIGIGIPGQAVNGEITVSSHRELTGFRMIEEIESQFGLPVMVENDVNAAISGYSMKEDLEGDQCVLGMYFPMKYPPGLAIYLDGRIVKGKNGMSGEIKFLPIGLDWSQDMTTEKFVHAVCKIIHTVNAVLAPDKIVIYQYRMEAEAWSQAWETYRLQHPMPSYPEVVLKQTFQEDFEAGMRWLTLQELEPTLDLAVDRNPRN				NA	NA	NA	NA	NA
AK002_03470	1257	entS_2		Enterobactin exporter EntS	ATGTCAGAAACCGAAGATGCTCAGAAAATCCATTGGAAAAGGAACATCATTCTCTTTTTAAGCAGCCAAACACTTTCGCTGTTCGGGTCTGCCTTGGTTCAATATGCCATTATGTGGCACATTACGCTGACGACGCAGTCGGGCATCATGATGACGCTGTATATTATTTGCGGATTCATTCCGACGTTCCTGCTGTCGCCTTTTGCCGGGGTATGGGCGGACCGCTTCAACCGTAAAACGCTCATTATGATCGCGGATTCTATGATCGCGGTGGTTACGCTGATGTTGGCCATTACGTTTATGCTTGGCTATCAGGCGGTTTGGCTGCTGTTTATCATTTCCGCCGTACGCGCGCTCGGGGCCGGGATTCAGACTCCAGCGGTCGGAGCCATATTGCCTCAAATCGTGCCGCAAGATAAGCTGACGAAAGTAAACGGTATTAACGGCAGCCTACAAGCGCTGATCATGTTCGTAGCGCCCATCGTCAGCGCGGGATTGCTCACTGTAGCAACGATCGAGGCGATTTTTTTTATCGACGTAGTTACGGCTGCGATCGCGATCTTTACATTGTTTGTCTTTCTCAAAATTCCGCTGCACAAAAAGGCGTCGGACACCCAAAGCACGGGTTATCTGGACGACTTCAAAGAGGGCTTGGTCTACATTAAACAGCATGCTTTTCTCAAGTCGTTTTTTATCTTCTTCGCCTTTTTCTTCGTGCTTATGGCGCCTGCTGCCTTTCTGACTCCGCTGCAGGTTACCCGCAGCTTCGGGGACGATGTATGGCGCTTGACGGCAATCGAGATCGCGTTTTCCGTCGGCATGATGGCTGGAGGGGGGATCATTGCTTCCTGGGGCGGCTTTAAAAATAAAGTGTACACGATGGCTATAGCCAGCTTCGTCATGGCCGTGTCCACGTTTGCGCTCGGCATTGTGCCTGTATTCTGGATTTACTTGGCCATCATGGCTGTATTCGGAGTAGCGATGCCCATATTTAATACGCCAACGACCGTCATGCTGCAGGAGAAGGTGGATGAAAATTATCTGGGCCGTATATTCGGTGTCTTCGGGATGATTTCGACTTCCATGATGCCCATCGGGATGCTGATATTCGGTCCGCTTGCCGACGTGGTCAAAATCGAATGGCTGCTGATCGGTACGGGGCTGTTGATGCTAATACTTACTGTTTTCTTCATGCGCAATAAGCGATTGGTTGAAGCGGGCATGCCGCTGCCGCAGGAAGAAGCCTCACCGAATTAG	MSETEDAQKIHWKRNIILFLSSQTLSLFGSALVQYAIMWHITLTTQSGIMMTLYIICGFIPTFLLSPFAGVWADRFNRKTLIMIADSMIAVVTLMLAITFMLGYQAVWLLFIISAVRALGAGIQTPAVGAILPQIVPQDKLTKVNGINGSLQALIMFVAPIVSAGLLTVATIEAIFFIDVVTAAIAIFTLFVFLKIPLHKKASDTQSTGYLDDFKEGLVYIKQHAFLKSFFIFFAFFFVLMAPAAFLTPLQVTRSFGDDVWRLTAIEIAFSVGMMAGGGIIASWGGFKNKVYTMAIASFVMAVSTFALGIVPVFWIYLAIMAVFGVAMPIFNTPTTVMLQEKVDENYLGRIFGVFGMISTSMMPIGMLIFGPLADVVKIEWLLIGTGLLMLILTVFFMRNKRLVEAGMPLPQEEASPN	PGPT0027965_660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK002_03471	1218			hypothetical protein	ATGAATGCAAATGGACATGCAAAGGGAAAGTTGGAGATCACCGCATCGCCCTGGATTATGTTGATTCTTGCTGTTGCGTGCGGCTTGATTGTTGCCAATCTTTACTATACGCAGCCTTTAGTTGAGTCCATCAGCTCATCTATTGGATTATCTTCAGGAGCAGCGGGGGTCATCGTCACGCTGACCCAAATCGGCTACGGGATCGGCTTGCTGTCCATCGTTCCTTTGGGAGATTTGCTCGAAAATCGCAAATTGGTGGTTACGCTGCTGATTCTGACGGCCGTGGTTTTAATCTTTGCTGCCGCAGCCCGAAACGCCGCTTTGTTTCTTGCCGCCTCCTTGTTTATCGGCGTGGGGTCCGTTGCGGCCCAGATCTTGGTCCCATATGCAGCGCATCTCTCCCCGGAGGAGACGAGAGGACGTAATGTCGGTAATGTCATGAGCGGGCTGCTGTTAGGAATCATGCTGGCCCGTCCGGTTTCGAGTTTGGTGGAAAATTATTTCGGCTGGCACGCTATCTTTCTGATTTCATCCGCCATTCTCTTCGTATTGGCTCTGGTTTTGATCAAAGTATTGCCGGCAAGAAAGCCGCAGACGTCCGATCAATATCCGGCTATCATCTCATCCATGCTGCGGCTGCTGAAAACGACGCCGATTCTACGTCGCAGGGCGCTGTATCACGCTTTTCTGTTCGGGACGTTCAGTCTGTTCTGGACAACGGTTCCGCTTGTATTAACAAGTCCGCTGTATCATTTTTCCTCTGCAGGCGTTGCGTTGTTTGCTTTGGCGGGGGTATCAGGCGCGGCCGCCGCGCCTCTTGCCGGCCGTTTTGCGGATAAGGGCCTGATCCGGCCTGCAACCGGAATATCCATCGTGCTGGTGATACTATCCGGACTTTTGCCGATCGTGTTTGCCGGCGATTCTCTGCTCTCTATCGTAATCCTGGTGCTCGCCGCCATCCTGCTGGATATGGGCGTGTCCGCCAATTTGGTGTTGGGACAACGCGCGATCTTCACTTTGGGAGCCGAGGTACGGAGCCGGCTGAACGGCTTGTATATGGCGATCTTTTTTGCCGGCGGGGCCATAGGCTCCGCAGCAGGGGGATGGGCATACGCTATGGGCGGCTGGAAAGCGGCAATGTGGCTAGGCGTTCTTTTTCCGGCCTTGGCATTGATCTACTTTCTGACGGAACGCAAGGTGGAGCGCGGCAGCAAATAA	MNANGHAKGKLEITASPWIMLILAVACGLIVANLYYTQPLVESISSSIGLSSGAAGVIVTLTQIGYGIGLLSIVPLGDLLENRKLVVTLLILTAVVLIFAAAARNAALFLAASLFIGVGSVAAQILVPYAAHLSPEETRGRNVGNVMSGLLLGIMLARPVSSLVENYFGWHAIFLISSAILFVLALVLIKVLPARKPQTSDQYPAIISSMLRLLKTTPILRRRALYHAFLFGTFSLFWTTVPLVLTSPLYHFSSAGVALFALAGVSGAAAAPLAGRFADKGLIRPATGISIVLVILSGLLPIVFAGDSLLSIVILVLAAILLDMGVSANLVLGQRAIFTLGAEVRSRLNGLYMAIFFAGGAIGSAAGGWAYAMGGWKAAMWLGVLFPALALIYFLTERKVERGSK				NA	NA	NA	NA	NA
AK002_03472	585	comR_1		HTH-type transcriptional repressor ComR	ATGGGACGGACCAAAGAATTTGACCGTGAGCAGGTGCTTCGCAAAGCGATGATCGTTTTTTGGGAGAAAGGGTACGAGGGGGCAAGCATACCGGATTTATTGCAATCCATGGAATTAAGCAGATCCAGCATGTACGAAACGTTTCAGGATAAACAGACGCTTTATTATGAGGCCATCCAGCAATACAAAAAAATGTCGCAAAAAAAACGCGATCTGATGAACCAAGCCCCTTCTGCGATCACCGGGATCCGCCAATATTTTGAGCTGCATATCACGAACGCGTTTGCGACGCACGGTGAAGCTTATCCGAACGGATGTCTGATTACGAACGCTTCCGTGGGTCTGGATGCCATGGATGAGCCCTTGCAGAATACGATTCGCCAGAGCTTTACGGAGCTCGAGCAGCTGTTCTACGAGAAATTAAAAAAGGGACAGGAAACGGGTGAAATTTCCCCCGAGAAAGACATAAAAATGTTATCGTTCCTGCTGCTTAATCTCAATCACAGCATCAATGTGATGGCCAGGATACAAAGCGACAGCGATAAGGTCCGCGGCATGATGAACGCCGTTATCGAGTCGCTGTAA	MGRTKEFDREQVLRKAMIVFWEKGYEGASIPDLLQSMELSRSSMYETFQDKQTLYYEAIQQYKKMSQKKRDLMNQAPSAITGIRQYFELHITNAFATHGEAYPNGCLITNASVGLDAMDEPLQNTIRQSFTELEQLFYEKLKKGQETGEISPEKDIKMLSFLLLNLNHSINVMARIQSDSDKVRGMMNAVIESL				NA	NA	NA	NA	NA
AK002_03473	1317			hypothetical protein	ATGGCACAACTCGAGCGGAAGATCAGCACATCGGTTTTCAAACGATACATTGAGCATTCGGAACAAAGCTCGTACATTGAAATTCCGTTCCAAATGCCACCGGATGTCGAAGAAATCCACGTAAGCTTTCTGGTGGATTCCCATGGCGGCGCCCCCGCCGAAGCGGTTATTGATCTAGGAATACGGGACGCGGAGATAGTAAGAGGCTGGAGCGGAGGGGCTCGTCAGGAATTCAATATCGGTCCGAATACAGCCACTCCGGGTTATCTGCCCGGACGGTTGGTCACAGGTGAATGGGCTATTCTCCATAATGCCTACAAGGTGCCCGCTCAGGGTTGTTTGGTCACGATCGAAATCGAATTTACCTACAAGACATGGCGCTGGCTGAAGGGAGACCTTCACACGCATAGCGTTCATAGCGACGGCTCTTATACGCTGGAAGAAAATGCGGCCATCATGGAAAGCCTGGGCTGCGATTTTATGGCTATGACCGATCATAATACGAGCAGCCAGAACCTTGCTTATCCGAGAGGGACCTCTGTGCTTATGATACCGGGTACGGAGTTTACGACGAATTATGGTCATAGTAATTTCCTTGGCGTGACGAGCCCCATGGATGATTTTCGCGTATCGGGCATATCCGATGTTCGCGAGAAGTTTCGAGTCGCCCGCGAGCGGGGGGCCAAGATTGTGCTGAACCATACGCACTGTGATCACTGCCCGTGGGAGTGGGATTTCGATGTGGATTACGACGGGGTAGAAATTTGGAACGGGCCATGGAGAGAGCACAACAGACGCGCGCTTTCTTGGTGGCAGGAACAGCTTGTCGCAGGGAGACGCCTGGTAGCCGTAGGCGGAAGCGATGTGCATCGCCCGGATTCCTATGTGAAGCATGCGATGCCATGCGTATGGGTCTGGACCCATGAAAAAACGGTGGAAGGCGTTCTAAACGGTATTAAGGATGGCCGCGTCGTGATTACCAATTCGCCTGACGGCCCTTTTGCCAACCTTCAGTGCGGTGACTACGGCATTGGTGATGAAGTGCCATATGAGCAAGCCGTTCACGAGGTGGTCGTTCAACTGGATGATTTAATGGCGGGCGATCTGATTCGCCTTTACAGCGAGCGGGGTCTTGAGGAAGAAACCGCTGTGGACTCGGAAGGTGGAGTTATACTAAATTTTGACGCTAAGCATAGAAGCTTCTTACGGGCAGAGGTTTGGCGGCAGTTCGGACAGGCGGCTGGCATGTCGATGGCGGCCGTGACAAACCCCATCTATTTTGCTTCGAATGGAGGTACGGTGAAAATAACGGATTAA	MAQLERKISTSVFKRYIEHSEQSSYIEIPFQMPPDVEEIHVSFLVDSHGGAPAEAVIDLGIRDAEIVRGWSGGARQEFNIGPNTATPGYLPGRLVTGEWAILHNAYKVPAQGCLVTIEIEFTYKTWRWLKGDLHTHSVHSDGSYTLEENAAIMESLGCDFMAMTDHNTSSQNLAYPRGTSVLMIPGTEFTTNYGHSNFLGVTSPMDDFRVSGISDVREKFRVARERGAKIVLNHTHCDHCPWEWDFDVDYDGVEIWNGPWREHNRRALSWWQEQLVAGRRLVAVGGSDVHRPDSYVKHAMPCVWVWTHEKTVEGVLNGIKDGRVVITNSPDGPFANLQCGDYGIGDEVPYEQAVHEVVVQLDDLMAGDLIRLYSERGLEEETAVDSEGGVILNFDAKHRSFLRAEVWRQFGQAAGMSMAAVTNPIYFASNGGTVKITD				NA	NA	NA	NA	NA
AK002_03474	867			hypothetical protein	ATGAAATCGATGAATAAAATAAGCCTGCCTGGCCGTTTGTTTGATACGATCAATGTTCTGTTCCTCCTTTTGCTCGTTTTAACTATGGTTATTCCGTTTATAAATACACTCGCGCTTGCATTCTCATCCAATTTTGCTTCCATGCAGCCGGGGATCATACTCTGGCCCAAGGAATTCAGCCTCGAGGGATTCTCCACCGTATGGAACCGCATGAAGCTTTATTTGCCTTTTACGAACAATGTCATTGTGACCGTTGTCGGTACCTTAGGTCATGTCTTCCTAAGTTCCATGGCGGGCTATGTCCTGATACAGAAAGGTCTTCCCGGAAAAAAGTGGATGTTATCCGCGATCCTGCTGACGATGATGATTCCAAGCGAGGCGATCATGATCCCGCTGTATATCGTGAATCAGGATTTAGGACTGCTTAACACGCTGTCCTCATTGATACTTTCGGGTTTCGTCTCCGGCTTCAGCGTCGTGCTCATGCGAAATTTCTTTTTGAGCGTTCCCTACGAGATGTCGGAATCGGCCCGGATCGATGGTGCGGGGGATCTTCGGATCTTCTTTACGATGTATTTGCCGCTTGCGAGCGCAGGACTGGCAACGGTCACGCTGTTTGAGTTTGTCAGTCGCTGGAACCAATTCACGCCGGCTGTGCTCTATATTAACGACTCGTCCAAATATACGCTGCAAATCGCGCTGAAATCGCTCATCGTCGATACCGATTCGACCTCGAGCAATTTCATGATCACGACCAATGTCCGAATGGCGGGGATTGTCATTGCCTTGCTCCCGCTCATCATCATCTACCCATATGTGCAAAAATATTTTGTCAAAGGAATGTTTGTCGGCGCAAATAAAGAATAG	MKSMNKISLPGRLFDTINVLFLLLLVLTMVIPFINTLALAFSSNFASMQPGIILWPKEFSLEGFSTVWNRMKLYLPFTNNVIVTVVGTLGHVFLSSMAGYVLIQKGLPGKKWMLSAILLTMMIPSEAIMIPLYIVNQDLGLLNTLSSLILSGFVSGFSVVLMRNFFLSVPYEMSESARIDGAGDLRIFFTMYLPLASAGLATVTLFEFVSRWNQFTPAVLYINDSSKYTLQIALKSLIVDTDSTSSNFMITTNVRMAGIVIALLPLIIIYPYVQKYFVKGMFVGANKE	PGPT0017255_2792	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03475	873	yteP_42	COG4209	putative multiple-sugar transport system permease YteP	GTGAAAGCCATATTCAAATACAAAACCCTATATTTTATGATGCTTCCCATCTTGGCCTATTTCCTCATCTTTTCCTTTTATCCGCTGGCTCGGGGACTAGCCATCAGCTTTCAAGATTACCGGCTGATCGGAGACCGGCCCTTTATCGGTTTCGATAACTATCTGAGGGTACTGAAGGATCCGGTATTTTGGGAAGTTTTTCAGAATACGATTGTGATCGGAGCCGGAGGCTTTATCATCAACTTCTTTTTGCCGCTGATTCTTGCGCTCTCCTTAAATGAAGTGGCTTCCGCCTGGTTCAAAAAAATGACCCAGATGATCGTCTATTTACCTCATTTATTCTCTTGGGTGGTCGTAGGGGGGATGTGGATTCTGCTGTTGTCTCCGGATACAGGCATCGTGAACCAGATCATTCAGCTATTCGGCGGCCAGTCGGTCGGGTTCCTCTCTTCGGATCGTTATGCCCGCATCGTCATGATCCTTACTTCAGGTTGGAAGGAGATGGGGTATACCTGCATTATGTATTTGGCCGCCATCGTAAACATTAATCCCTCGCTGTATGAGGCTGCTAGCATGGACGGCGCCAGTCGATGGCAGAAGGTCCGTTACGTTACCGTTCCGATGCTTCGTTCCATCATGAAAGTGGTCATCATGTTAAATGTATTGGGTATCCTGCGTTTATTCGATCAAATATTCGTGATGAGTAATGGCGCCATTGCCAAGAAAGTTGACGTCATTATGATGTACACCTATCAAAAAGGGATATTGGAATTTAGCGTTGGACCTGCAACGGCGGCCGGCTTCCTGGTGATTTTGGCAACATTCACGCTGACGTATGTAACAAGAGCGGTGATCCGCTACGATGAAGGGTGA	MKAIFKYKTLYFMMLPILAYFLIFSFYPLARGLAISFQDYRLIGDRPFIGFDNYLRVLKDPVFWEVFQNTIVIGAGGFIINFFLPLILALSLNEVASAWFKKMTQMIVYLPHLFSWVVVGGMWILLLSPDTGIVNQIIQLFGGQSVGFLSSDRYARIVMILTSGWKEMGYTCIMYLAAIVNINPSLYEAASMDGASRWQKVRYVTVPMLRSIMKVVIMLNVLGILRLFDQIFVMSNGAIAKKVDVIMMYTYQKGILEFSVGPATAAGFLVILATFTLTYVTRAVIRYDEG	PGPT0017250_2835	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03476	1431	lipO_22	COG1653	Lipoprotein LipO	TTGGTAAAAAGAAACAAGATCATGAGTGCAATCATGGCTGTATCTCTGTTCGGCGGGCTGCTTGCGGGGTGTTCCCCGAACGCAGGCAGCAGTACACAGGAAGGCGGCAATGCCGCGTCCCAGGCTGCATCGAATGCCGAAGAACGCACGCTCAAAATCATGACGGGTGTCATCGGCGGCAAAACGCCTGAAGAGAACACGCAGTTCGAGCAGGAAATCGAGCGTCTAACCGGTATCAAGGTAACGATGAACAAGCCGGCGGCTGACTATGACCAGAAGCTGCTGGCAGCCATCGCTTCCGGGGAAAAGTTCGATCTGCTGCAGATCAGCAAAGAAAAAATGTCCACTTTTATAGATCAAGGAATCCTTACGCCGTTGACCAATCAAGTGAACGGCTCCAAGGTGCTTTCGGATCCCAATGTCATTCCCGCCAAGGAGTGGGAACAAGTCAAGACGAAGGATGGCGAGATCTACGGCGTGTTCACCAAGTACCAAGGCGGAACGATGCCGATCGTTCGCAAGGACTGGCTGGACAAATTAAATCTGCCCGAGCCTGAAACCCTGGACGATTATTACAACGTCCTCAAAGCTTTCACCGAACAAGATCCGGACGGCAACGGCAAGAAAGACACGTACGGACTCAGCACGGCCGGCATGTACGAACTGCAGGGCTTCTTCAGCGCCGCAGGCCTGAAACAACGATACGTGGAAACCGCTGACGGCAAGCTGGACGTTCCGTATTCCACGGATGCGGCCATCCCGGTTTATGAATGGCTGAACAAGCTGTTTGAGGAAGGCATTCTGGATCCGAACTTCACCACGAATGACACCGGTAAAATGCGCGACCTATTCCTTGCGGACCGCGTTGGCATGATTACGTATTGGGACGCTTGGGTAGGCATGCTGAACAACACGCGTCATGAACAAGACCCGAATACGGAATTCGAAGCGAAGGGCTTGCCTGGTGCTGCCGATGCAAACGGCAACCACATGCTGCGCAGGGGCGATCCGGACGTATGGGTTATTCCCGTGAATGCGGAGCATCCGAAAACAGCCTTCGAATTCATTGAATGGTGGCATTCGGAGGAAGGGATTACCCTGGGCAGTCTAGGGATCAAGGATGTGGATTACACGGTTGACAACGGCAAGTATACGCTGACGCAAACCGGCAAAGAGCATGCTTCCGACCATGGCGTTCCTTTCTGGTACAACCGTAACGTCGAAGCGCCTTTCGGTAAACTCCCGGGCGTGCAGGAAGCGCAGGATCTCGTCGATCAATACGCTGCTTTGGAATTAACGCCTTCCCATTGGGCGGATGCCGAGAAGATCATCAATGAACATTCCTTCAAAGCGATCATGGGCGAGGTGCCGGCAGCCGACGCCGTAAAGAAAATGCGGGAAGCACTGAAAGCCGGCGGGTATATCGATTAA	MVKRNKIMSAIMAVSLFGGLLAGCSPNAGSSTQEGGNAASQAASNAEERTLKIMTGVIGGKTPEENTQFEQEIERLTGIKVTMNKPAADYDQKLLAAIASGEKFDLLQISKEKMSTFIDQGILTPLTNQVNGSKVLSDPNVIPAKEWEQVKTKDGEIYGVFTKYQGGTMPIVRKDWLDKLNLPEPETLDDYYNVLKAFTEQDPDGNGKKDTYGLSTAGMYELQGFFSAAGLKQRYVETADGKLDVPYSTDAAIPVYEWLNKLFEEGILDPNFTTNDTGKMRDLFLADRVGMITYWDAWVGMLNNTRHEQDPNTEFEAKGLPGAADANGNHMLRRGDPDVWVIPVNAEHPKTAFEFIEWWHSEEGITLGSLGIKDVDYTVDNGKYTLTQTGKEHASDHGVPFWYNRNVEAPFGKLPGVQEAQDLVDQYAALELTPSHWADAEKIINEHSFKAIMGEVPAADAVKKMREALKAGGYID	PGPT0017245_3414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03477	1014	rbsR_1	COG1609	Ribose operon repressor	ATGGCTACCATTGATGACGTCGCCAGAATGGCTGGAGTTTCCAAGGGGACCGTGTCCAGTGTGTTCAGCAAAAAAAGGCCGATCAGCCAACAAGTGACGGAACGGGTACTGGAGGTAGCCCAAGAGCTGGGATATTTTCCGAATCACCTGGCCCGGAGCCTGGCGATCAAGCGAACGATGAGCATCGGCCTCAAGATACCTCTCCCGCCTGATGGGACGATGACGGCATTCGATACTCAGCTGATAAACGGTGTCATTAAGGAATGCTCCAAGCAAGGGTACCGCCTAGTTCTGGACACCTTGCCCGAGCAGGAGGATCCCACATTATATTCGCAGGATCCTGTCGATGGCGTCATTCTGCTCAACCCCCGGAAAAATGATTTGCGAATTCAACGGTACCTGATGATGGGCACTCCTTTAGTGCTGGTGGGGCGGTCGGACCCTTATGACGATACGATCAGTTACGTGGATAACAACAATACCAACGTGGCTCAACAGGTTGGAGATTATTTGCTCCGGGGCGGACATCAAACCGTGCTCTTCCTGAATGCATCCTCCGATATGACCGTGTCCTATGATCGAAAACATGGCTTGGCGGAGGCATATAGCCAACACGGCCTGCCGATGCCCGAAGAGTATGTGGTGTACTATGACCACAAGCTGCATGCCAACGGCACGGAATACGGATATATGTCCATCATGAACACCTATGGAAACATGAACTATACGGCAGTCATTACGGATACGGATCGAGTGGCGCTTGGCGTGCTGAGGGCTGCCAGGGAGCTGGATATCGAGGTGCCCGAACAGCTATCGGTCATCGCTCTCAGCAATGATGCTATTCTGGCTCAGGATATGAATCCAAAGCTGACATCCGTGGAATTGTCGGCAGAGACGCTCGGAGCGGAAGCGGCCAAGCTGTTGTTCGAGAAAATAAGCGATAAACGTATCCACAGGCAAATCATCATACCCGCACAGCTGGTTGTAAGGGAATCCTGTAAATTTCTATCTTAA	MATIDDVARMAGVSKGTVSSVFSKKRPISQQVTERVLEVAQELGYFPNHLARSLAIKRTMSIGLKIPLPPDGTMTAFDTQLINGVIKECSKQGYRLVLDTLPEQEDPTLYSQDPVDGVILLNPRKNDLRIQRYLMMGTPLVLVGRSDPYDDTISYVDNNNTNVAQQVGDYLLRGGHQTVLFLNASSDMTVSYDRKHGLAEAYSQHGLPMPEEYVVYYDHKLHANGTEYGYMSIMNTYGNMNYTAVITDTDRVALGVLRAARELDIEVPEQLSVIALSNDAILAQDMNPKLTSVELSAETLGAEAAKLLFEKISDKRIHRQIIIPAQLVVRESCKFLS				NA	NA	NA	NA	NA
AK002_03478	411			hypothetical protein	ATGAAAGACATGAATGAATACGATACCTTTATTCAAATAGCCGAAGACTGCCCTGTCAGCGAGGCTGTCATTCCGAAAGCAAAAGGCGAGTCTAAGACCATACCGGTGATTCAGTATGAGATGCTATCGAACCACCCATACCAATACACGCAAGAGGATGTGTTGTTCGAAGTGTTTGCTGAGCGCAATCATATCTCGGAAACGGAAAGGGAAGCCGCTCGCGAGAAGTTTTTTTCGAAAGGGCAGCCATGTCTCCGAACCTCGTCCTTAGGAAAGCGCTATGGCTGGGGGATTCATCATGACGCTGAAGGGAAAGTCGCGATCTATGCTGTAGAGTCAGACGAATACCTCAGATTCATGAACGATAACAGCATAACTCAATGTAAAGCGATGCGCTCAAAGAAAGCCTAG	MKDMNEYDTFIQIAEDCPVSEAVIPKAKGESKTIPVIQYEMLSNHPYQYTQEDVLFEVFAERNHISETEREAAREKFFSKGQPCLRTSSLGKRYGWGIHHDAEGKVAIYAVESDEYLRFMNDNSITQCKAMRSKKA				NA	NA	NA	NA	NA
AK002_03479	885	garR_2	COG2084	2-hydroxy-3-oxopropionate reductase	ATGACAATCGCACCGAAACAAACGACCGTAGGATTTATCGGCTTGGGCGTAATGGGCCACAGTATGGCGGGGAATATTCGGAGCGCCGGCTACTCGCTTCACGTTTACACGCGAACCGCCTCCAAGGCGGAGCGGCTGGTGTCGGACGGCGCCGTTTGGCACGATACTCCGGCAAAGTTGGCGCAGGCCTGCGACGTAATCATTACGATGGTGGGTTACCCGAAGGATGTCGAGGAACTCTATTTAAAGCCGGAAGGACTGGTGGCGCATGCTAGGGAAGGGACATATCTGATCGATATGACGACGTCCAGTCCGCAGCTTGCCCGCCGCATTTATGAAGTCGCCTGTTCGAATGGGCTCCATGCTATGGATGCTCCGGTCTCTGGCGGTGACGTGGGTGCTCGTGAAGCGAGGCTGTCCATTATGATTGGCGGGGAAGAGGGAGACGTCAAGGCGGTGCAGCCGCTGCTGTCGACGATGGGAAGCAATATCGTCCACCAAGGGCAAGCCGGCGCCGGGCAGCATACGAAGATGTGCAACCAGATCGCCATTGCCTCTAACATGATGGGAGTCTGCGAGGCGATGGCCTATGCGGAGAGCGCCGGATTGGATCCCGAAACCGTGCTCAAGAGCATCGAGAGCGGAGCGGCGGGCAGCTGGTCTCTTAGCAATCTGGCTCCGCGCATGATTGCTGGGAATCTGGAGCCGGGTTTCTATATCAAGCATTTCATCAAGGATATGGGAATCGCACTGGAATCCGCTAAGGCGATGAACTTGGTTACACCGGGCTTGTCCCTAGCTGAATCGCTGTACAGCCAGCTGGCCGAGAAGGGATTTGAGGATAAAGGCACGCAGGCTTTGATTAGATATTATATGGGTGAATGA	MTIAPKQTTVGFIGLGVMGHSMAGNIRSAGYSLHVYTRTASKAERLVSDGAVWHDTPAKLAQACDVIITMVGYPKDVEELYLKPEGLVAHAREGTYLIDMTTSSPQLARRIYEVACSNGLHAMDAPVSGGDVGAREARLSIMIGGEEGDVKAVQPLLSTMGSNIVHQGQAGAGQHTKMCNQIAIASNMMGVCEAMAYAESAGLDPETVLKSIESGAAGSWSLSNLAPRMIAGNLEPGFYIKHFIKDMGIALESAKAMNLVTPGLSLAESLYSQLAEKGFEDKGTQALIRYYMGE	PGPT0018170_960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
AK002_03480	2337	yesS_9	COG2207	HTH-type transcriptional regulator YesS	GTGAAGTCTCTTTGGCAGCATATTCAGGCATCGTTCCTCCGCTGGTTCTCCGCGAACCGCTATCTGAAGCGTCTGATTTGGCTCGGATGTCTGTCGGCCGTAATTCCGGTGATCCTAGCCGGAAGCGCGTACTATCATTTCTCCATGAAAAAGCTGACGGTCCAATTCCAGGAAAATAATATGGCGTCCTTGATGCAGCTGAAGGATCGCGTCGAAAATATCATAACGAGCATCGAGCATGAATCGCTTCAGCTTGCCAGCGGTCCGCTGATTCGCAGCGCGCTGGAAAATCCCGAATATGAGACGGACTACATGCAGCAATTGGATATGCTCAAGCTGTTTCAGCTGCACAAAAATACCAATAACCTGATCGAAGACATCCTGTTTTATGATGTTCGGCACAGGCTGCTCCTGTCGCATTCCTATGGCCTGGTCCACCTGGACGGCTATAAAGGAAAAGAAGATATTGAGCAAGCCCTGGCGAGGGAAGGCGGAGCGAGGTGGATGCACCTCCCGATATCGTCGGAGAACGGATACATCTCTTACGTCCGCCATCTTCCCGTTATGGTGCAGGGCCAACCGAGAGGCACCATCCTAATACAGGTAAAAGAGGAATCGCTTCGCAGCCTTTTGAACAATTATTCCCTTTCCCTGGAGGAGCAGTCGCTGGCCATTCTGGACTCCGATCACCGGGTCCTGCTGCATACGGATGGACGCAGCGAGATCGGCAAAACCGCGGATGAAGACGCCATTTTGAAATCTCTGGTAGAGAGCGGGGAAACGTCCAGCCATGACGTGATGACCGGGGAGGACGGCAAGGAACTGATCGCTTTTTACAAGACGTCCATGGGCCGTCTATACGTGTCCCGGATGCCGGAGCGGGAGATGATCGAGCAATTGAGGTGGATTCGCGTCCTGCTCGTCATGTCGGTGTCCGTCTTCATGCTGATCGCGGTATTGCTCACCTGGTTTTCGTCCAAAATCGCGTACAATCCGATCCAGCAGCTACTTCGTTACGGGGAGCATTTGAGAAGAAACGGCAGGAGCGGGGTGGATAGCTCCGTCAAAGAGAATGAAATCGAGTACATCCGCTCCTCCCTTAGCTACTTGAACGAGCAGGCAGAATCCCTGAACAGCTATATTCGAAAAATTCAACCGGATTTACGGGAACGGTTTCTGCAGCGTTTGCTGCTGTCCGGAAGCTCTTGGCGGTACGGCATACTGGAGGAGGGGTGCGCGAAGCACAAGATCCCGATGAACAGACCATATGCTACGATGGTGGTGAAAGTCGAGAATCCGGTGAAAAAACGATTCTTGCCTAACGAAGGTCCGGTTATCGTGTTTGCGGTCAAAAACGTCATGTCCGAGCTTCTGGCAAACAACCGGCAGCTGGAGGGCTACGTGGTGGACCGGGAGGATCGTGAAGCTGCGGCGATCCTGAGGCCGGGAGAGTCCGGGGCTTCCTCCCAGGAGTTCCGAAGCCTCCTCGCATGTTATGCGGAATCCGTCAGCCAGTCCCTGGTGCGCTATCTTTCTTTCTCCGCGTCCATCGGCATCGGCAATACTGGTGCATTGAGCCGGGCGGCAGAATCCTATAAGGAGGCGCAGCTTGCTCTGCAATATCGCTTGTTCCATGATGCGGATACCGTACTGTTCTATGAAGACATGATCCGCATCGAGCGTAATCCCGTGTTCATGTATCCGAAGGACATCGAATCGGAGATGATCGAATATTTGTGGAACGGAGATCTGCCGAAGGCCGAGGCGTCGCTTCATGAATTTTCCCGGCGGATTCGGGTGTCGGAATCGTACAACGTGACCTCCCAGAGCTATTACGTGCTGCTCTCGGCCATTGTCCAGTCGATGGAGGAGAAAGGTCCCGGCGTGCTGGAGCTGCTGGGGGGTAATCTGTTCGATCAGCTGAAGGAGAACCAGACCTCCCGAGAAATGCATGACTGGTTCATCGGCGTCCTGTTCCCGCTGTACCAGGAAATCAGCCATGACCTGCGCACCCGATCCACCCGCCTGATCGTTCAGCGGGTATGCGGCCATATCAGCCGTCATCCCGATGGTGCTCATTCACTGGCGGAATGCGCCGAGCTGGTGGGTGTGAGCCCGTCGTACCTCAGCCGGCTGTTCAAGAAGGAGATGGGCGTATCCTATGTCGAATATGTCATGAACTTCAAAGTGCAGAAGGCGAAACAGCTGCTAAAAGACACGGATTACACGGTCATGGAGATTGCTGAAATCGTCGGTTATTCCGAACGGAACCTGAACAGGGCCTTTCAGCGTTTCGTGCAGATGTCTCCACGGCAGTATCGGCTATCGGTAAGATAG	MKSLWQHIQASFLRWFSANRYLKRLIWLGCLSAVIPVILAGSAYYHFSMKKLTVQFQENNMASLMQLKDRVENIITSIEHESLQLASGPLIRSALENPEYETDYMQQLDMLKLFQLHKNTNNLIEDILFYDVRHRLLLSHSYGLVHLDGYKGKEDIEQALAREGGARWMHLPISSENGYISYVRHLPVMVQGQPRGTILIQVKEESLRSLLNNYSLSLEEQSLAILDSDHRVLLHTDGRSEIGKTADEDAILKSLVESGETSSHDVMTGEDGKELIAFYKTSMGRLYVSRMPEREMIEQLRWIRVLLVMSVSVFMLIAVLLTWFSSKIAYNPIQQLLRYGEHLRRNGRSGVDSSVKENEIEYIRSSLSYLNEQAESLNSYIRKIQPDLRERFLQRLLLSGSSWRYGILEEGCAKHKIPMNRPYATMVVKVENPVKKRFLPNEGPVIVFAVKNVMSELLANNRQLEGYVVDREDREAAAILRPGESGASSQEFRSLLACYAESVSQSLVRYLSFSASIGIGNTGALSRAAESYKEAQLALQYRLFHDADTVLFYEDMIRIERNPVFMYPKDIESEMIEYLWNGDLPKAEASLHEFSRRIRVSESYNVTSQSYYVLLSAIVQSMEEKGPGVLELLGGNLFDQLKENQTSREMHDWFIGVLFPLYQEISHDLRTRSTRLIVQRVCGHISRHPDGAHSLAECAELVGVSPSYLSRLFKKEMGVSYVEYVMNFKVQKAKQLLKDTDYTVMEIAEIVGYSERNLNRAFQRFVQMSPRQYRLSVR				NA	NA	NA	NA	NA
AK002_03481	2097			hypothetical protein	ATGACGAAGGTTAAAGAGGAACGCTTCTGGTGGCACAAGCCGCTGCGCGTCATCCAGCCCAACATGCAGGTCCGGGATACCACCTGCATCGACCCGCCCCGGTTAGCCGCACAGCTGAAGGAGATGGGGGCTAACGCGATGGTTTTCAATACGGGAGGTATATATGCCTGGTATGATACGCAGGTTCCGTACCATACCGTGAACGGATATCTCCCGGAGGGGCGCGATCTCCTCGGAGAGCTTGTCACGGCCTGTCACCTTGAAGATCTTCGCTTTATAGCCCGGTTCGATTTCAGCAAAGCGGATGACAGCGTGTACCTCCGGCGGCCGGAATGGTTTGTTCGCAAAGAGAGCGGCCGTCCGGAAATCATCGGGGCCGAACGGCCCGGACCGTGGCCGCTCTTGATGTCGACCTGCATCAATGGCGGCTACCGCAATGCGGATGTCGCGGTTCCGGTGCTCCGGGAGGCACTGTCGCGGTATCCGATCGACGGTATTTTTTTCAATAACCCCGGTTATGTGTTCTGCCGCTGTGAGCGGTGCCGTCGCAAATACGCGGAACGGTACGGCAAAGACCTCCCGGACTCCCCGCAGGAGATGGAGCCGGGTTTTGCTGCAACATGCTTCGATGACAATATGGAAGCGATGTATGGCCTGATCAAGCGGGAGAGGCCGGAGGTGCCCATGATTCTATACTACAACCTCCACCGCGACAATCTGTCGAAGCGCGTTCAGATCACTGATATGCTGTGTACGGAGCCGCAGGATGTGCTATCGCTCGGCCACGCACGGATCCCTGAATTCTGGAAGCCGGCTCTCAGCATCAAGGTGGGGAGGTCGGTTCCGGGCAGGCCGGCTCCGTTTGGCATCGTGCATTCCTGCCCGGGCATGGACTGGCGCCATACCGGGCTTCCGGTAGCGGAATACCGCTTCTGGCTGGCCCAAATTCCGGCCAACGGCGGTCAGATCTGGCATTCCGTCACGGGCATACCCGATACGATCGAAGACAAGCGGATTTTGAAGATCGTAGCCGAGCTGAATCATCATGCCGCCAAGCTGGATGCTTATATGGACGGGGCCGTATCGGCTGCGGAAACCGCCCTGCTCTGGAACGAGCGCGGCGAGGCGCAGAGCTGGGCCGAAACGATGATAAACCGGCAAATCCCGTTTGACGTGCTGCTTCCCCAGAGCAGGAAGGATTGGGAGCTGGGCCGCTACCGCGTTGTACTGATTCCCGAGGGAACGGGATTTACCCCGTCCTTGATCAACGACTTGCGTTCGTACGTACATGGTGGGGGACAACTGCTAACGGAAGGGGCGCTTCCTTCCGCTGCAGCCGATGCCGGCGTAAAGCCGTTACATGACCTGCTCGGCATTTCGGATGAAGTCTTCAAAAGCGAATACCTGATTGCCTCCTATTTGCGGTTTCAGGAGCTGCCTTGCGAGATCAATCCGCTTCAACAGGGAATGGATACGACTTCGTTGATCGCACACCGCGGTTATGTGACCTATGCTCATCCGCGGAATGACGGGGTACGGGTGCTGGCGACGCTGGTGCCGCCGTTTTCTCCGCAGGAAAGCGTGGGAGCGCCGCCGGAACGGGCATCGTTGCCAGTATCCCGTACCGAACTGCCGCTTGCGCTGGAGCATTCGTGGGGTGCCGGCCGCGCCATGTATTTCACGTTCTCGCTGGGTACGCTGCTTCGTGAATTCAAGCTGCCCGAGCACGAGATGCTGCTGGCTAACGCAATCGACCATTTGCTCGACGGGAAGCCGCAGCTGTCGGTAACGCCGTATCCCGGACTGCAGGCGACCCTCTTCCGAAGCGGCAGTGATCTGCTGCTCCACTTCGTGAACGGAGCCGGCCGCCGGCCGCTTGCAGCTGCGCTGCCTCTGCACGACATCGAGGTCCGGCTGAGACCGGGGACTAGTTGGCCTACGGGTAACGGCTTTAAACTAGAAACGCTGATCAGCGGAGGCTGTATAGAAGGATCCTCAGCGAACGACGTATTGAACTTCACCTTGCCGCGGCTGGAGGTTTGGGAGTGCATCCGGATCCCGCTGAATCCCACCGTTACCGCTGTTGGGGAAGGATAG	MTKVKEERFWWHKPLRVIQPNMQVRDTTCIDPPRLAAQLKEMGANAMVFNTGGIYAWYDTQVPYHTVNGYLPEGRDLLGELVTACHLEDLRFIARFDFSKADDSVYLRRPEWFVRKESGRPEIIGAERPGPWPLLMSTCINGGYRNADVAVPVLREALSRYPIDGIFFNNPGYVFCRCERCRRKYAERYGKDLPDSPQEMEPGFAATCFDDNMEAMYGLIKRERPEVPMILYYNLHRDNLSKRVQITDMLCTEPQDVLSLGHARIPEFWKPALSIKVGRSVPGRPAPFGIVHSCPGMDWRHTGLPVAEYRFWLAQIPANGGQIWHSVTGIPDTIEDKRILKIVAELNHHAAKLDAYMDGAVSAAETALLWNERGEAQSWAETMINRQIPFDVLLPQSRKDWELGRYRVVLIPEGTGFTPSLINDLRSYVHGGGQLLTEGALPSAAADAGVKPLHDLLGISDEVFKSEYLIASYLRFQELPCEINPLQQGMDTTSLIAHRGYVTYAHPRNDGVRVLATLVPPFSPQESVGAPPERASLPVSRTELPLALEHSWGAGRAMYFTFSLGTLLREFKLPEHEMLLANAIDHLLDGKPQLSVTPYPGLQATLFRSGSDLLLHFVNGAGRRPLAAALPLHDIEVRLRPGTSWPTGNGFKLETLISGGCIEGSSANDVLNFTLPRLEVWECIRIPLNPTVTAVGEG				NA	NA	NA	NA	NA
AK002_03482	1542			hypothetical protein	ATGAAAAATACATCAAGTAAGGGAAGCTCGCAGAAATACTGGACATTCTGGCTCGCAGCCCTCATGACCGTAGTCATGCTGGCCGGATGCGGCGGCGAGAAGCCGCAGACCGCCGGGGGACCGGAAGCGGAAGACACGGACGGCAAGCCGATGACAATCAAAATGTTTGCCGGGCTCTATAACGAGATCCCCGACATGAACAATGACTATTGGAAGGAATGGGAGCGGCGCACCAACGTCAAGCTGGACGTGGAATGGGTGCCGTCGGGTGATTTGGACACGAAGCTGGATTTGCTTCTGGCTTCCGGTGATTTGCCCGAGGTCGTGGCATATCAAAACCCGATCCGCCCCACGCTGATTACGGCGATTCAGAACGGCGCGTTTTGGGATTTGACCCCGTTACTTGGGGATCTCAGCGAGTATCCGAACCTGAAAAGCAATCTCGCCCCGGATGCACTGAAATATTTGTCGGTGGAGGGGAGCATCTATGCGGTGCCGCGGTCCCGGTCCAGGATCGACGGCGGGTTGAAAATACGAGAGGACTGGTTGAAGCAGCTGGACATTCCGATTCCTACCGATTTCGACGAGTATAAAGAAGCGTTGAAGAAGATCGTCGATGCCGATATGGATGGCAACGGGAAGAAGGATACGGTAGGTCTCCTATATATCAATAACCCACCCGCATCATTCCAGGCCGGTTTCGGCGTATACAATCCGACCTATACCGATGACGGCGGGCTGATGAGTCCGTCCCTTACGCCTCAGTACGTCGAGATGGTGGAATGGCTGCGTGGTCTGTACGCAGATGGCCTAATGTCCAAGGAATACGCGGTCATGAAGGAAAGCCAGGCTGAAGAGCTCTTCAAGACGAACCGAGCCGCTTCCTATGGCCGTCCGATCTGGTGGGATCATGAATGGGAGCAGGCCATGAAAAAATCCGGTCAACCCGGCGCGAAAATCCTGAACGTGACCTTGAAGGGACCGGGCGGGGATTATGCGGTCGGTTTGGAAACCGGCGTTGCCGGCGGCTTCTATATTTCCAAGAAGGTGCCTGAAGAGAAGGTGAAGCAGCTGCTGAAATATTTTGACCAGACGGCTTCCCAGGAAATGACTGATTTTGCTTACTACGGCATCGAGGGTGTCCATTATACCGAGAAAGACGGGCAGAAGGTGCTGACGGAGCAGGGGGTCAAGGAAGTCAATACGACGAGCAAGGGTGCGGGCGTACTGGCTTATGCCAAGTGGGGCAAGGTGATTAGCGCTTCCGGCGATAAAGCCTTTAACGATGCCAAAATCAAAGAGGTGGAAAATTACGACGAGATCGGAAAAATCGACCACTATCGCGTCATCACGTCCGAGGGCTGGCGCAGCACATGGCCTAAATACAGCGACGAATATGCTTCCATGGTGACAAAGGCGATTGTCGGGCATATTCCAATGGAGGAGTTCCGCGCATACGTCGATAGGCTGAACAGCCAGCCGGACATTCAGGAAGCGTACCAACAAATGGCGGAGGCTTACAAGCAGTTCAACGGGGAGTAA	MKNTSSKGSSQKYWTFWLAALMTVVMLAGCGGEKPQTAGGPEAEDTDGKPMTIKMFAGLYNEIPDMNNDYWKEWERRTNVKLDVEWVPSGDLDTKLDLLLASGDLPEVVAYQNPIRPTLITAIQNGAFWDLTPLLGDLSEYPNLKSNLAPDALKYLSVEGSIYAVPRSRSRIDGGLKIREDWLKQLDIPIPTDFDEYKEALKKIVDADMDGNGKKDTVGLLYINNPPASFQAGFGVYNPTYTDDGGLMSPSLTPQYVEMVEWLRGLYADGLMSKEYAVMKESQAEELFKTNRAASYGRPIWWDHEWEQAMKKSGQPGAKILNVTLKGPGGDYAVGLETGVAGGFYISKKVPEEKVKQLLKYFDQTASQEMTDFAYYGIEGVHYTEKDGQKVLTEQGVKEVNTTSKGAGVLAYAKWGKVISASGDKAFNDAKIKEVENYDEIGKIDHYRVITSEGWRSTWPKYSDEYASMVTKAIVGHIPMEEFRAYVDRLNSQPDIQEAYQQMAEAYKQFNGE	PGPT0017245_2688	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03483	882	araQ_40	COG0395	L-arabinose transport system permease protein AraQ	GTGAGCTTCGTTATCCGAAAAAAAGGGCTAAGCTTGTTCGATTGGGTCAACTACAGTCTAATCACCATGTTCTCGGTCGCATGCTTGTTTCCGTTTCTTTACGTGTTCAGCGTTTCCTTTACGGATCCCGAGGTCTATGTTCCGCTTAAATTTTATTTGTTTCCCGAGCAGTGGTCCTTGGAGTCCTACAAATACATTCTATCTACCAACAGCTTTATGAATGCGTTTAAGAGCACCGTTTTCATTACGGTCGTCGGTACCGCGCTCAACATCGTCGTTTCCTTTACGATGGCCTATGCGCTGACGAAACGGTCCATGCCCGGCAACCGCTGGGTAATGGGGCTCGTCATCTTCACGCTGGTGTTCAGCCCGGGCATCGTGCCCAACTACTTGCTGGTCAAGGAACTAGGTCTGTTGAATTCCTACTGGTCCATGATCTGGCCGGGCCTGACCAACGCCTGGAGCTTGATCGTCATCAAAAGCTTTCTGGATTCGCTTCCATCCGAATTGGAGGATTCCGCGAAAATGGACGGCTGCTCGGATATGGGCGTGTTTTTGAGGATGATAATTCCGTTGTCGATGCCGGCGATCGCCACCTTCACCCTGTTCTTTGCGGTCGGGCATTGGAACGCCTATTTTAACGCCTTGATTTACTTATCGGATTCCAGCAAGTGGACGCTTCAGCTGTTGATTAAAACGCTGGTCATCGATTCCAATTCGGTGGCGGTGGCCCAAGCCGGGGCAAGCGACGAAAATGTGGTGCCGCAGGAGACCATACGGATGGCCTCAATTGTACTCGCGATGGTACCGATCTTGGTTGTTTATCCGTTTCTGCAAAAGCATTTTGCCAAAGGAGTCATGCTGGGATCGATTAAAGGCTGA	MSFVIRKKGLSLFDWVNYSLITMFSVACLFPFLYVFSVSFTDPEVYVPLKFYLFPEQWSLESYKYILSTNSFMNAFKSTVFITVVGTALNIVVSFTMAYALTKRSMPGNRWVMGLVIFTLVFSPGIVPNYLLVKELGLLNSYWSMIWPGLTNAWSLIVIKSFLDSLPSELEDSAKMDGCSDMGVFLRMIIPLSMPAIATFTLFFAVGHWNAYFNALIYLSDSSKWTLQLLIKTLVIDSNSVAVAQAGASDENVVPQETIRMASIVLAMVPILVVYPFLQKHFAKGVMLGSIKG	PGPT0017255_2055	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03484	978	yteP_43	COG4209	putative multiple-sugar transport system permease YteP	ATGTCAAAGCCTAAATCTGCTATACCTGCCCAAGGGGCTAACGGTGTCATCAAGCCGGGCCTAACGCTTCGCCCGGGCAGTCTCGCGTCCCGGATCGTCAAGCACCGGGTCATTTATTTACTGCTGCTGCCCGGGCTCCTCTTCTTCTTGCTGTTCAAAATCGCTCCGATGTGGGGGATGCTCCTGGCCTTTAAAGATTATAATCCGTTTCTTGGCTTTGCCGGAAGCGAATGGGCTGGATTTAAGCACTTTGCCGATCTGTTCTCTAGCTCCAACTTCTACATTATGTTGCGGAACACGTTTGCAATCAATATGATCGCGCTGATCTTCCATTTTCCGCTCCCGATCCTGCTAGCCCTGATGCTGAATGAAATCAGGCATGAGAGCTTCAAGCGCTTAAACCAGTCCATAGTTTACCTGCCGCATTTCCTGTCGTGGGTCGTCGTGGCCAGCATGACGTTCTTTCTGTTGTCGACGGACGTGGGGATCGTCAATAAACTCATCGCCGAAAGCGGCAGGGATACCGTTTCCTTTCTGTCCAATCCCAATTACTTCTGGGGACTGCTGACGGCGCAAAGCATGTGGAAGGAGGCCGGATGGGGAACGATTATCTTCCTGGCGGCCATGGCGGGCGTGGATCCCCAGCGCTACGAAGCCGCTGTCGTGGATGGGGCGGGCAGGTTCCGCCAGATCTGGCATATCACACTTCCGGCCATCCGGCCAACGATCATCATTTTGCTTATACTTCGGCTGGGCAGCATGGCCGACACTGGATTCGAGCAAATTTTACTGATGATGAATCCGCTGGTGCGCTCGGTGGCGGAGGTGTTCGATACGTACTCCTACACGCACGGCATTCTTCAAGGGAAGATCAGCATTGGGGTGACGGTCGGCATGTTCAAGGGACTGGTGGGGCTCGTCTTGATCGTGGCCGCCGACAAAATCGTAAAACGGCTTGGCCATGAAGGCATTTATTAA	MSKPKSAIPAQGANGVIKPGLTLRPGSLASRIVKHRVIYLLLLPGLLFFLLFKIAPMWGMLLAFKDYNPFLGFAGSEWAGFKHFADLFSSSNFYIMLRNTFAINMIALIFHFPLPILLALMLNEIRHESFKRLNQSIVYLPHFLSWVVVASMTFFLLSTDVGIVNKLIAESGRDTVSFLSNPNYFWGLLTAQSMWKEAGWGTIIFLAAMAGVDPQRYEAAVVDGAGRFRQIWHITLPAIRPTIIILLILRLGSMADTGFEQILLMMNPLVRSVAEVFDTYSYTHGILQGKISIGVTVGMFKGLVGLVLIVAADKIVKRLGHEGIY	PGPT0017250_510	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03485	2118			hypothetical protein	ATGAAATGGTGGTCAACGAACCGTCTTCGATTGATTCAAAATAATCTTCGCGAGACGGACGCCGATATGGATGTGGATCTTTTGATTCGCGAGCTCAAGTCGTTCCAAGCGAATGTGCTCATGATGAATGCCGGGGGCATATTTGCGTTCTATCCATCATCGCTTATGCATCAATATGTAACGCCTTATTTAACCAAAGACCTTCTGGGGGAAGCGGTAGAAAAAGCCCATGCCAATGGAATGCGATTTATTGCACGGTTCGATTTCAGTAAAGCGCATGAATCGTTGTGGATGCGGTATCCCGAATGGTTTTACCGGGACCGGGAGGGGAGGGAGGTCAATTATCACGGCATCGTTCATACGTGCCTGAATGGAGCCTATCAGCAGGTGAAGTCGCTGGAGAGCATTCAAGAAGTACTGGAGCGTTATCCGGTGGATGGGATTTTCTTCAATATGTTCGGCTACCAGCATTGGGATTACAGCGGAAATTTCTATGGACCTTGCTATTGCCCAAACTGCCGCTTGCGGTTTCGCGAAGTGACCGGTGAAGATTTGCTGGCGTATACCGGGCCCGAACATCCCATGCACGAGCTGTACCGGTCCTTCCAGGAACGGACGTCAAGGGAAGTGTTGGAGCGCATTCACGGATTCGTGAAATCGCTGCGACCCGATGTAGCCATTAGCACGTATCACCCACACCGGGTCGATATCGTCCGCAAGGAATCGAATACGTCGCTGACAAGGTGCAGCCCGCCTTGGCTGTATTCAGCCTCGGAGAATGTCGCGTCCATACAAGACAGCTGGAATGACAAGCTGATCAGCAACTGCAGCATTAACGCTATAGACCTGACCTACCGATTCACAGGAGTATCCGAGAATGAAAATGCGATCCGTTTATATCAAAGCATCGGAAGCGGATCGGGGCTGGATTTCTGCATCATCGGGGCATTTGAAGGATATCCGGACCGGGCAAGCTTCGAAACGGTAAAGGAGATTTTCCGATACCATGCGGAGCACGAAGAGCTCTTCGGACAGCTCGGTTCCATGGCCGAAGTGGTGCTCGTCAAGCCAGCGGCCCCCGAAGCGGCAGCGGAGTATCACGGTATGTTCAAAATGTTAAAGGAAGAGCACGTCCTCTTTGACGTGGTGATGGAAGAACAGCTGGTGGCTATGGAGTCCAAACTATTGCTTATGCGAGCGGTTATTCTTCCCGGCGTTCAGGGATTGTCGGTGAAGGCGGCGCGAACGCTGCATCAGGCGGCGGATGCCGGCGCGGTGCTGGTCGCAACGGGAACCGCGCTAGAGCGACAGCCGGAGCTGCTTAAGGAGTGGTTTGGGGCCTCGTTCACCGGCGTGAAACAATCGAAACCTGGCGCTTATCTGGACGTTTCGGACAAGTCGCATTTCCCCGGCGTTGCCCATGGCCGGGACTGGATCGTCGCCGGCAGAAGCTTTGCCCGCGTTGCCTTTGACCCGGATACAACCGAGTGCCGATTGCCATTCATCGAGCCTTCCACGTTCGGGCCGCCGGAGCGTGCCTACGGTCACCGCATCGGAACAGATTACGGTTTGGCGCTGAACAGGCGGGTCGGCAAGCAGGGAACTATCCGAACCGGCGTGTATATGCCTTGGAATCCCGGCGAGCTCTACTATCGCCACGGGTTCGAGGACTACAGGCAGGTAATGGCAGACGTGCTACATGACATCGTGCCGAATCGGGTTGCTGCTACGAACGCGCCCCCATGTCTAGAGTTGTTCGTTCACCGTTTGAAGGAGGGCGGATGCCTGGTCCAGCTGCTGAATCTATCCGGATATAACGGGACGACTTTTATGAATCCGCTTCCATTATATGATGTTCAGGTGGAACTGACCGTTGACCGCGTGGACGAAACCGCTGCAGCGAGTGCTTCGGATTCTTGGCCGCAAAAGTGGCGGCTGCCGAGAAACGCGGAAGCGAGGGGTAGGCTGCTCCGTGCCGATTCCGATGCGCTGGTGGAAACCTCGCAAGATCGCGTGACGGTGACGCTGCCGCAAATCGGCCGCTATGAAGCGGTTTGGCTTCAGGCCGTGCCTGTCGGCGATCGAAAGGAGTTGATCTCCAGCGATGTCAAAGCCTAA	MKWWSTNRLRLIQNNLRETDADMDVDLLIRELKSFQANVLMMNAGGIFAFYPSSLMHQYVTPYLTKDLLGEAVEKAHANGMRFIARFDFSKAHESLWMRYPEWFYRDREGREVNYHGIVHTCLNGAYQQVKSLESIQEVLERYPVDGIFFNMFGYQHWDYSGNFYGPCYCPNCRLRFREVTGEDLLAYTGPEHPMHELYRSFQERTSREVLERIHGFVKSLRPDVAISTYHPHRVDIVRKESNTSLTRCSPPWLYSASENVASIQDSWNDKLISNCSINAIDLTYRFTGVSENENAIRLYQSIGSGSGLDFCIIGAFEGYPDRASFETVKEIFRYHAEHEELFGQLGSMAEVVLVKPAAPEAAAEYHGMFKMLKEEHVLFDVVMEEQLVAMESKLLLMRAVILPGVQGLSVKAARTLHQAADAGAVLVATGTALERQPELLKEWFGASFTGVKQSKPGAYLDVSDKSHFPGVAHGRDWIVAGRSFARVAFDPDTTECRLPFIEPSTFGPPERAYGHRIGTDYGLALNRRVGKQGTIRTGVYMPWNPGELYYRHGFEDYRQVMADVLHDIVPNRVAATNAPPCLELFVHRLKEGGCLVQLLNLSGYNGTTFMNPLPLYDVQVELTVDRVDETAAASASDSWPQKWRLPRNAEARGRLLRADSDALVETSQDRVTVTLPQIGRYEAVWLQAVPVGDRKELISSDVKA				NA	NA	NA	NA	NA
AK002_03486	1767	uidA_1	COG3250	Beta-glucuronidase	ATGTCTAGCTCGCACAAATATATAAAGGACTATCCCAGACCTCAATTGGTACGCGAGGAATGGGTAAATCTGAACGGGGAATGGGATTTTCGCTTCGACGATGCTCTGGAAGGAGAAAGCGCCAAATGGTACGAACGCCTTCAGGCTGACCGTAAAATCACGGTGCCTTTTGCATATGAAACGAAAGCAAGCGGCATCGAGGATGAAACATTTCATCCTTGCGTATGGTATGAACGAAGTGTAGCCGTACCTGCGGAGGTAGAAGGCAAACGGATCATTTTGCATTTTCAAGCGGTCGATTACGCGGCGACCCTGTGGGTCAACGGCAGCAAAATCGGCATGCATGAAGGCGGATACGCGGCCTTTTCCTTCGACATTACGGAAGCAGTCGAGTATGGACGCGAGAACAGGATTACCGTACAAGTCGTGGACGGCAACAGCTGCACGCAGCCGCGCGGCAAGCAGCGATGGATGAAGGACAACTTCGGGTGCTGGTACGTGCAGACGACTGGAATATGGCAAACCGTATGGATGGAATACGTGAATCCGATTCACATCAGCCGGGTGAAGATAACGCCGGAACTGGAACGCGGGTCGGCGAATTTCGGTTATGAACTGGGCAATGCCGCGCACGGCTACGACGGGTTAACCCTCCAGACCATCATCCGGTTTGACGGGAAGCTGATCCGTTCGAGTGAAACGAGCGTGGAACGCGGAACGGTAACGGTCGATGTGAGCGTCGTAAACGAAGCTGTGGGCGAATGGAAAGTCAAGCCGTGGCATCCGAACCATCCGAATTTATACGACGTCGAGATGATCCTGAAGCAAAACGGAAAGCCGATCGACATCGCTTATTCTTATTTCGGCATGCGGAGCATTCGGATCGCGGGGGATCAAATCATCTTGAACCATACGCCGATTTATCAGCGTCTGCTGTTGGATCAAGGATACTGGAACGATACGCATCTGACGCCTCCGTCGGAGGAAGCGCTGCTGGAAGACATCGACAAAACGATTGCACTCGGCTTTAACGGCGTGCGCAAGCATCAGAAGCTGGAGGATCCCCGTTATTTATATTGGTGTGACCGCAAAGGATTGTTGGTGTGGTCGGAAATGCCGTCGACTTACGAATTCGGAGACGATGCGGTCGAGCGGTTCACGCAAGAGTGGATGGACGTCGTCCGGCAGCATTACAACCACCCCTCTATCATCACCTGGGTACCGTTCAACGAGTCTTGGGGAATTTCCGATATATCGACCAATCGCAAGCAGCAGCAATTTACGGAATCAATCTATCATCTGACCAAGGCTTTCGACCAGATGCGGCCAGTGATCGTGAACGACGGCTGGGAGCATACCGTTTCGGATATCATTACGCTCCATGATTATGAAGAAATCGGTGCTATGCTGGAAGAGCGGTATCGGGACAAGGATGCGCTGTTAGGCAACCAAATCGCGCATAATACACATCGTTATCCATTCGCGCAGGGTTACGGCTATCGAGGCCAGCCCGTCATCATCAGCGAATACGGCGGCATCGCTTTTACAAGCGAAGAGGGCTGGGGCTACGGCAATCAGGTTCGCAGCGAGGATGAATTCATGAAACGGTACGAAGGAATCACACAAGCGATCAAGAATTTGCCTTATGTGTGCGGATTCTGTTATACGCAAATTACGGACGTGCAGCAGGAAGTGAACGGCTTGCTGACGGAAGACCGCAAACCGAAAGTAAGCGTAGAAGCGATCCGAAGCATCAATCTGGCATGA	MSSSHKYIKDYPRPQLVREEWVNLNGEWDFRFDDALEGESAKWYERLQADRKITVPFAYETKASGIEDETFHPCVWYERSVAVPAEVEGKRIILHFQAVDYAATLWVNGSKIGMHEGGYAAFSFDITEAVEYGRENRITVQVVDGNSCTQPRGKQRWMKDNFGCWYVQTTGIWQTVWMEYVNPIHISRVKITPELERGSANFGYELGNAAHGYDGLTLQTIIRFDGKLIRSSETSVERGTVTVDVSVVNEAVGEWKVKPWHPNHPNLYDVEMILKQNGKPIDIAYSYFGMRSIRIAGDQIILNHTPIYQRLLLDQGYWNDTHLTPPSEEALLEDIDKTIALGFNGVRKHQKLEDPRYLYWCDRKGLLVWSEMPSTYEFGDDAVERFTQEWMDVVRQHYNHPSIITWVPFNESWGISDISTNRKQQQFTESIYHLTKAFDQMRPVIVNDGWEHTVSDIITLHDYEEIGAMLEERYRDKDALLGNQIAHNTHRYPFAQGYGYRGQPVIISEYGGIAFTSEEGWGYGNQVRSEDEFMKRYEGITQAIKNLPYVCGFCYTQITDVQQEVNGLLTEDRKPKVSVEAIRSINLA				NA	NA	NA	NA	NA
AK002_03487	2352			hypothetical protein	ATGGAAATATACAATGAAATGTATGCCAATCCCTTTCCGTCGTTGGAGGAAGAATGGGAGGATTACGGCAACGGGGATCCGTATGTGCTGCGGCATGACGGCCGCTATTATCTGTATGTGAGCACGAAGGATCATCGGACGGGAATCAAGGCTTGGGTGTCGGATAATCTGGTCGATTGGAGCTATGCGGGTCTTGTAACGGAAGATCCCGTATCGACCGGGGCCTATGCCCCCGAAGTGATCTACTCGAACGGGTGGTTCTATCTATACACTTCTCCTGCGGGAAGGGGACATTACGTGTTCCGAAGCGAATCGCCGACAGGCCCGTTCGAAAGAATCTCCGAGAACGTCGGGATGAGCATCGACGGCTCGGTGTTTATCGACGATGACGGCACCTGGCTGTTTACCCATGCTGGGACGTCGGGCATTGTCGGCGTTCCGATGGAAGGACCCGCCGAATTCAGCGTCGGTCAGACGATTCCCGGGCCCTATCTGGGGCATTGGACGGAAGGATCCATGATCATCAAGCGGAACGGTACCTATTACATGACATATACCGGCAATCATGTATTCAGCAAAGGCTACCGCATTCATTATGCCGTGTCGCATGATTCGCCGCTAGGCCCATACAGCATTCCGGCCAACAATCCGCTCGTCATCAGCACCAAGCCGGACTTTTACGGGCTCGGCCACAGTTCGACGGTGATGGGACCCGATCTGGATTCCTATTATCTTGTCTATCATAACTTGACGGGAAGATCCCAGGAAGGCCCGCCAGTCCGTCGCATGAACATCGACCGTCTGGTATTCAACGGAGACAAGATGGAGATTCTGGGTCCTACGAATTACGATCAGCCTATCCCGAGAGGGCCCGTCTTTGCCGATAGGCTGGACGCAGATGCCATTGATGAGAACCGGTGGGAAGCGGCGAAATCGGAAGAAGGCGGTCGAATCATCAGCAAGGCGAGCACGGATCGCATCTATACGGCGGAATATAACCTGGTGCCGTCGAAGACGCGGGTCGCCGCATTGTTTGCCTATGAGGAGGCCAACCGTTTTGGGTTCGCCGAAATCGATCCTGAACTAAACCGGCTATCCTTGGGCAGGATGGACGATGGCAACCGTAAAGTGCTCGGCACCGCGGAGCTTCCGGAAGATTCGGATTGGTCGAAACTGCACACGATTCGTATCGAACGAGGGAACGAGCGGCTTCGCATTTACCTGGACGGTATTCTGAAGCTGGATGAATCGGCGGAACCGTTCGGACCTGGCCATATCGGGTATCAGTACGATGAAGGCGCTCCGGGATTGTCGTATACCGCATTCTCGAATCAAGCCGACGGCAGCAGTGACTTCGAAACGGCCAAGCCGCTTCCCGGAAGCATGGAAGCCGTGCATTATCTTAGCGGCGAAGGCAGAGGATATGCGGTCCGCCAACCGACGGAAGCCGCCGTTTGGCGTCAATCGGACGGAACCGAGATCCGGCAGGCGGAGGATGGGAGCTATTCGGCTGCGCTTACGGAAAAAGGCGACTGGCTGCGTTATGCAGTCAACGTTTCGGAATCCGGCACCTATGCGCTGGACTTGTCGGTCAAGGCTGACGCTGGGCCGGCAACCTTTAAGCTGCTCGTGGACGATCAAAAAGCCGGAAGCTTTAAAGTTGACAGCAGTCATGACGCCAGCAGCGAGCCTTGGATTAAAATTCGGGTTGGATCTCTAAAGCTAGAAAAAGGATTACATAGCCTTGCGATTCAACTGGACAACGGGCAGCTGGAGTGGAAAACGATGGATTTCGAGCTGGTCGACGAACAAACGTTCAAAGTAGAACGTCTGCTGGAACAAGCAAGCTCAGAGGATGTTCACGGACCATGGATCGAAACCGCCGGCAGTTATGCCGGAGCAGCCGATGCCGATGCCAAGATGTACGGAGGCAGCCGCCTTTGGTCCAACTACCGCATCAGGACGACCGTAACGCTGGGCGATGATCCGTCCGGTCAAGCGGGCGTACTCTTCCGGGTGACAAACGAGTCGGATTTCAGGGATCAAGTGAGCGATTCGCTGATGGGATATTTTCTCGCGGTTACCGCCACGAAACTTGAACTGTACAAACATAATTACGATTCCGAGCTGCTTCAAAGCATCAAAATGGAGCTGGAACGGAACAAGCCCGTCAGCTTGCGCATAGAAGCAGTTCACGGCACGATCCGCGTCTTCGTAGAGGATGGAGAAGAGCCTGTCCTGACGTATGACGATCCCCAGGCCTTCATGCAGGGGAGGGTCGGCATTCGATCGGTTCATGCCGAACAGATCGGGCTTGGCGATTTAACGGTAGAATCCATAGGAACCAAATAG	MEIYNEMYANPFPSLEEEWEDYGNGDPYVLRHDGRYYLYVSTKDHRTGIKAWVSDNLVDWSYAGLVTEDPVSTGAYAPEVIYSNGWFYLYTSPAGRGHYVFRSESPTGPFERISENVGMSIDGSVFIDDDGTWLFTHAGTSGIVGVPMEGPAEFSVGQTIPGPYLGHWTEGSMIIKRNGTYYMTYTGNHVFSKGYRIHYAVSHDSPLGPYSIPANNPLVISTKPDFYGLGHSSTVMGPDLDSYYLVYHNLTGRSQEGPPVRRMNIDRLVFNGDKMEILGPTNYDQPIPRGPVFADRLDADAIDENRWEAAKSEEGGRIISKASTDRIYTAEYNLVPSKTRVAALFAYEEANRFGFAEIDPELNRLSLGRMDDGNRKVLGTAELPEDSDWSKLHTIRIERGNERLRIYLDGILKLDESAEPFGPGHIGYQYDEGAPGLSYTAFSNQADGSSDFETAKPLPGSMEAVHYLSGEGRGYAVRQPTEAAVWRQSDGTEIRQAEDGSYSAALTEKGDWLRYAVNVSESGTYALDLSVKADAGPATFKLLVDDQKAGSFKVDSSHDASSEPWIKIRVGSLKLEKGLHSLAIQLDNGQLEWKTMDFELVDEQTFKVERLLEQASSEDVHGPWIETAGSYAGAADADAKMYGGSRLWSNYRIRTTVTLGDDPSGQAGVLFRVTNESDFRDQVSDSLMGYFLAVTATKLELYKHNYDSELLQSIKMELERNKPVSLRIEAVHGTIRVFVEDGEEPVLTYDDPQAFMQGRVGIRSVHAEQIGLGDLTVESIGTK	PGPT0018665_78	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
AK002_03488	837	araQ_41	COG0395	L-arabinose transport system permease protein AraQ	GTGAATCGAAAAAAAATGACGGACCTCTGGTCATTGCTGTTGCTGCTTTGCGGTTCGATCTTTATGATCGCACCGTTCATATGGACGATCTCGACTTCGTTAAAGGATAAGCGAAACGTATTCGAAATTCCTCCTGTGTGGATCCCGGATCCGATTTCGTTCAGCAACTATACAAAGGTGTGGCAGGAATCGCCCTTACTTCACGGATTCATGAACAGCTTGATCATCGTGGTGATTGTTCTGACCATCGGCATGCTGGTATCCGCGATGTCGGCTTATGCATTCGGTAAATTCCAGTTTCCATACAAGGGCGTCCTGTTCATGGGATTGCTCGGAACGATGATGATTCCATATTCGGTCGTGATGATTCCGCAGTATGTTGGTTTTTCCAGGCTCGATTGGGTGGACACCCTGCTGCCGCTCATCGTCCCGGGTCTGTTCGGCAACATCGTCGTCATTTTTTTCATACGGCAATATCTGCAAAGCGCGATGCCGACCGAATTGATCGAAGCGGCGAAGATCGACGGCTGCAGCTTTCCGGGCATCTTCTTCAAGATCGCGCTGCCGATCATGAAGCCGGCGCTCGCCGCCCAAGCCGCCCTCGGCTTTATGGGCATCTGGAACGATTTTCTCGGCCCGCTGATTTACCTGCATACGCCCGAGAAGCAAACGATTCAAGTACTGATTGCTTCCATGCAGGCGATGTACATCGGCCAGTCGGATTATCCGATGATCATGGCCGCAGCCATCATTGCCATGGTGCCGGTGATTATCGTGTTCTTTTTCTGCCAAAGGTACTTTATCGAATCGATGGCAATCAGCGGAATCAAGGGGTGA	MNRKKMTDLWSLLLLLCGSIFMIAPFIWTISTSLKDKRNVFEIPPVWIPDPISFSNYTKVWQESPLLHGFMNSLIIVVIVLTIGMLVSAMSAYAFGKFQFPYKGVLFMGLLGTMMIPYSVVMIPQYVGFSRLDWVDTLLPLIVPGLFGNIVVIFFIRQYLQSAMPTELIEAAKIDGCSFPGIFFKIALPIMKPALAAQAALGFMGIWNDFLGPLIYLHTPEKQTIQVLIASMQAMYIGQSDYPMIMAAAIIAMVPVIIVFFFCQRYFIESMAISGIKG	PGPT0016540_3303	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_03489	894	lacF_18		Lactose transport system permease protein LacF	ATGGGTACCAAGCTTGGCGGGTATCGCAGAAGAGAACTGGCATGGTTGTATTTGTTCGTCGCTCCGCCGGTTCTCGGGTTTCTTTTGTTCGGCCTTGTGCCGATCTTGTTCTCGATATATATCAGCTTTCACAAATGGGATATGTTGTCCGACCCGCAGTGGATGGGACTCTCTAATTATAAAGAGCTCCTTAGCGATGAAAAAGTGTTTAAATCGATGTACAACACGGTGTTTCTAATGATCGGCATTCCGATCGGCATGGTGCTGTCGCTCTTGCTGGCGATTTTGATGAACCGCAAATTCGCGGGCATCTCGTTCATGCGGACGATCTATTACCTTCCGGTCATCTCGCCGATTATCGCGGTATCACTGTTGTGGCAGTGGATATTGAATCAGGATTACGGGCTGCTGAACAACTTCCTATGGGAGGTGTTTGGGATAACCGGGCCTAACTGGCTGGGCAAGCCGGAGTGGGTGAAGCCTTCCCTCATCCTGATCGGGCTGTGGGGCGGAATCGGCGGAAATATGGTGCTGTATCTCGCGGGACTGCAATCAATCTCCTCATCGTATTATGAGGCTGCGGAAATCGATGGCGCCGGGGCATGGCACAAGCTGACGCGAATTACGATTCCACTGCTCACGCCGATCCATTTTTTCGTCATCGTTATGGGCCTCATAGGCGCATTCCAGTCGTTTAGCCAAATTTACGTGCTGGCGGTAGACGGCGGACCGGAATACAGTGGCGCCACGGTGGTCTATTATATTTTCCAGCATGCGTTCCAGTACTTTAACATGGGTTATGCCAGCGCGGTTGCCTGGGTTCTGGGCATTATTATCTTTATCGTCACGCTGGTTCAATTCAAGCTATCCAATCGATGGGTTTACCAAGACTAG	MGTKLGGYRRRELAWLYLFVAPPVLGFLLFGLVPILFSIYISFHKWDMLSDPQWMGLSNYKELLSDEKVFKSMYNTVFLMIGIPIGMVLSLLLAILMNRKFAGISFMRTIYYLPVISPIIAVSLLWQWILNQDYGLLNNFLWEVFGITGPNWLGKPEWVKPSLILIGLWGGIGGNMVLYLAGLQSISSSYYEAAEIDGAGAWHKLTRITIPLLTPIHFFVIVMGLIGAFQSFSQIYVLAVDGGPEYSGATVVYYIFQHAFQYFNMGYASAVAWVLGIIIFIVTLVQFKLSNRWVYQD	PGPT0016535_5139	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_03490	1386			hypothetical protein	ATGAAAACGAAGAGCAAATTTGCAGGTATGGTGATGCTGCTGCTGGTGTTCGCGTTATCCGCTTGCAGCGGGGGCAGCAATGGAACAAACGGAGGGGCTTCTTCAAGCAACCCGGACGCGACAAAGCCAAGTCAGGAAGCCTCCACTGGTACGGACCAGAAGGAACCCGTCACGATTGAGTTTATGGGACACGGCAATCCGAACGAAAAAAAGATTTTCGAAAAGCTGATCGCTTCCTTCGAGGAGAAATATCCGCACGTTACCGTTAAATACACTTCGGTGCCGCCGGGTGAATACTCGCAAAAGATGACGACGCTGATCAGTTCAGGCAAAGTGCCGGACGTATTCTATGTCGGCGGTCCGGAATTTTACCGTTTTGCCGAAGCCGGCACCCTTCTCAACATCCAGTCTTACCTGGATCAAACGTCGCTCTTTAATTCCGATAACGTATGGAAGCAGGCAATGGATCGCTATCGCTACGATGGAAGCAAGGTAGGAGCTGGTGACTTGTATGGGTTGCCAAAGGATGTAGGTCCGTGGGCTTTTGTCTACAATAAAGATTTGTTTGACAAAGCGAATGTGCCGTATCCTTCGGCCAAAGCCGGGGAATGGACTTGGAATGATATGCTGGAAGCAGCCAAAAAGCTGACGGTCGACAGTAACGGCGACGGAAAGCCAGATCAGTACGGAGTAGGCGCATACAGCCTGGAGTCTGCGGTATGGGCGAACGGTGGAGAATTTATCGACTACGAAACCGGAACGGTAAAAGTGAACGAGCCTGCATTTTACGAGGCGATGCAATTTGTGGCCGACCTGAACCAGAAGCATAAGGTCAGCCCGAATCAGGAAGCCGAGCAAGCGATGAATGCATATACCCGCTTTATTAACGGTCAGCTTGGCATGTTCGCGATGGGCCCATGGGATCAACCTGCATTCTGGGAGCTTCCTTTTGGCTGGGATATTGCGGCGTGGCCGGCAAGCCCGCACACGGGACAGACGGCAACCTGGCTTGGCTCGATGGGATTTGCCGTATCCGCGAAATCCAAGCACCCGCAGGAAGCCTTCGACTTGGCGGCATTCCTGTCTTTGGATGAGCAAGGGCAGCGAGAAAACTACCAGCTTGGCCAAGCGGTTCCCAACTTGATCAACATGGCAGAAGGCGAATTTAAGGAAATGGACAAAGGACCGCAGACGCGCCAAGTCTTTCTGGACATTATCCAAGATTACGGTCGTCCTAACGTCATAGCCTTCTCAAAGGACACGCAATGGTACGATACGTTTAATCAGAACGCATACAAAGTTTGGAACGGTGAGATGTCAGCGAAAGACTTTACGGCGCAGATCCAGCCGAAGATGCAGGAACTGTACGACAAAGGCAATAAATAA	MKTKSKFAGMVMLLLVFALSACSGGSNGTNGGASSSNPDATKPSQEASTGTDQKEPVTIEFMGHGNPNEKKIFEKLIASFEEKYPHVTVKYTSVPPGEYSQKMTTLISSGKVPDVFYVGGPEFYRFAEAGTLLNIQSYLDQTSLFNSDNVWKQAMDRYRYDGSKVGAGDLYGLPKDVGPWAFVYNKDLFDKANVPYPSAKAGEWTWNDMLEAAKKLTVDSNGDGKPDQYGVGAYSLESAVWANGGEFIDYETGTVKVNEPAFYEAMQFVADLNQKHKVSPNQEAEQAMNAYTRFINGQLGMFAMGPWDQPAFWELPFGWDIAAWPASPHTGQTATWLGSMGFAVSAKSKHPQEAFDLAAFLSLDEQGQRENYQLGQAVPNLINMAEGEFKEMDKGPQTRQVFLDIIQDYGRPNVIAFSKDTQWYDTFNQNAYKVWNGEMSAKDFTAQIQPKMQELYDKGNK				NA	NA	NA	NA	NA
AK002_03491	1077	araR_4	COG1609	Arabinose metabolism transcriptional repressor	TTGAAATCGTTGCCGCTATACAAAAAAATCCAGGAAGACATCAAGCGGCTGATCGCCATCGGCAAGCTGCGGGAAGGAGACCGGGTCCCTTCCGAGAAGGAATTGTCCGAACGTTATCGCGTCAGTCAAATTACAAGCAAGAACGCGCTGGTCGGACTCATGGAGGAAGGCTTGCTCGTCCGGATCCAGGGCAAGGGTACCTTCGTGATGAGCAGGCCGGAGAACGCTTCGGCACTCGATCAGTTGGGCGAATGGTCGGAAGGTCCGGGCAGAAGCGGGCGGATCGGCCTCGTACTGCCCACGATGAAAACGAAAGTGGACCAGCGATTCTTGGACAACATCGAGAAATATGCGACCGCCGCCGGCTTTGAACTGATGCTGAGAATTACGCGAGAATCCCAGCTCGAGGAGTCCAAGGTCATCTCGTCCTTCCTGAACCAGGGAGTGGACGGCATCATCATTTTTCCGGTTGAAAACGAGACATACAATGATTCGATTTTAAGACTGTCGCTGGACCGTTTCCCTTTTGTCCTGATCGACCGGTTTTTGAAGGAAATCAAGACGTACAGCGTAAGCTCGGACAACGTAAACGGTACCAAGGAAGCCGTAGAGTATTTAATTAACAATGGCCATTCGTCCATCGCGTTCATCTCACCGGAGATTACGAATACCGTGACGGACGAGAGAGCCCATGGGTTCGAGCAGGCTTTTCTGGAACGCGGGATGTCGATCGACAAAAGCTTATGGTGCCTAATCCCGTTAGAGGAGATCGCCTCGGGCAACTCCGTCGATAAAATCAGGGAGTTTTTAGACGGCAATCCCGAAATTACCGGCATCGTTACGGCCAATACGGAGCTTTGCCGAAGTGTTTATAAAGCGGCGGTTGCATCCCGAAAGCACGTACCGGAGGATCTCGAGCTGATTACGTTCGATCCGCCTGATTTGCCGCACGTGCCGTTTATCCGCCAAAACGAGGAGGAAATGTGCCGCCTGACCGTGGAACTGCTGATCGAGCAAATTGAAGGCGCCTTTGAGGCGAGAAGGGTTATGGTGCCGGTCATGCTGGTAAAAGAATGA	MKSLPLYKKIQEDIKRLIAIGKLREGDRVPSEKELSERYRVSQITSKNALVGLMEEGLLVRIQGKGTFVMSRPENASALDQLGEWSEGPGRSGRIGLVLPTMKTKVDQRFLDNIEKYATAAGFELMLRITRESQLEESKVISSFLNQGVDGIIIFPVENETYNDSILRLSLDRFPFVLIDRFLKEIKTYSVSSDNVNGTKEAVEYLINNGHSSIAFISPEITNTVTDERAHGFEQAFLERGMSIDKSLWCLIPLEEIASGNSVDKIREFLDGNPEITGIVTANTELCRSVYKAAVASRKHVPEDLELITFDPPDLPHVPFIRQNEEEMCRLTVELLIEQIEGAFEARRVMVPVMLVKE	PGPT0017490_547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_03492	1056	araR_5	COG1609	Arabinose metabolism transcriptional repressor	ATGGAGCATCCATTATATAAACAAATACAGAACGATATACGGCGCAGTATTCAGAGCGGCGAGCTTCCGGCAGGTGCCTTGGTACCGTCGGAGAAGGAGCTGGCGCAGCGGTACGGCGTAAGCCAGATCACATCCAAAAACGCGCTCAACGGTTTGGTGGAGGAAGGTTTACTGGTTCGTTACCGGGGAAAAGGCACCTTTGTCCGGGAGCAGGGTTCTTCGGAAGTGCAGCAGCCCGGGAAGGACATGAAAAAGACGATCGCGATCATATTGCCAACGATGAAAACCAAGATCGACCAACAGCTGCTGGACGGCCTGGAGCGCTACTGCGCGGAAAGAGAATATGATCTGTTGATCCGTATCTCACGCGAATCGCAGGAGGTAGAATCCCGGGCGATCGAGCAGTTCCGGGAACGGGGAGTCGACGGCTTCTTGATATTTCCGGTCGAGCAGGAGAGCTACAATAACGCAATTTTACGCTTGTCGCTTGACCGGGTACCCCTGGTGTTGGTCGACCGTTTTTTGAAGGAAATCCGGACCTACAGCGTCAGCTCCGATAATTACGAGGGCGTACGCGAAGCTATATCCGGTTTGCTTGCGGAGGGGCACAGGCGCATTGCCTTCCTGTCGCCGGAGATTACGAATTCGGTTACGGACGAAAGAGCCAAAGGCTTCGAAGCCGCATTTCTGGAGCAGGGCTTGCCGATAGACAAAAGGTTATGGTGCTTGCTGGATTTGGTTACGATTCAGGAGGGACACGGACCGCAGGAGGTCCTTCGTTTTCTGCAGGGCTGCAGTGATGTAACCGCGGTCTTTTGCGTGAATGCGGAGCTGGCCCGCTATGCCCATTACGCCATGCGGGAAATTTGGCCGGCGACGGAGAGAAAACCGCAGCTCGCCGCCTTTGACGATCCGGATATTGAAGACATTCCTTATATCCGGCAGCAACCGGACGAAGTATCCCGGCGTGCCGTCGATCTGCTGTCGGAACAGCTGGCCGGCAAGCACGAGCCACGAAGGGAGGTCGTCCCGGTCCAATGGGTTTGGCCGGAATGA	MEHPLYKQIQNDIRRSIQSGELPAGALVPSEKELAQRYGVSQITSKNALNGLVEEGLLVRYRGKGTFVREQGSSEVQQPGKDMKKTIAIILPTMKTKIDQQLLDGLERYCAEREYDLLIRISRESQEVESRAIEQFRERGVDGFLIFPVEQESYNNAILRLSLDRVPLVLVDRFLKEIRTYSVSSDNYEGVREAISGLLAEGHRRIAFLSPEITNSVTDERAKGFEAAFLEQGLPIDKRLWCLLDLVTIQEGHGPQEVLRFLQGCSDVTAVFCVNAELARYAHYAMREIWPATERKPQLAAFDDPDIEDIPYIRQQPDEVSRRAVDLLSEQLAGKHEPRREVVPVQWVWPE	PGPT0017490_536	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_03493	1602			hypothetical protein	ATGGAACGGAACAAACGCTTTTGGAAGAAACCGCTTGCCTTTATCGTGATGCTTGCGCTTGCTTTAACGTCGTTTCCGTTGTCGCCGGCTCATGCGGCCTCATCCGGTATGGCATGGGCTTCGCAGAAGATTGCTGTCTATACGCCGCCTTCAGGAGGCGTATGGTATCCTCGGCTGCTCAAACTAACGCCGAGCGAATGGCTCGTATCGTTTGACACCAACGCCGGCGGAGGGAACACCCGTATCGTGGTTTCCCGTACGCAGGACGGCGGCTACACTTGGAGCAATCCGGTTACGGCCGTTTCAAGCAGCGCCGGCAATGTGGGTAACGGACAAATGTTGAGGCTGCCGAGCGGTGAAATTTGGTTAGCCTACCGTCATGTCGTGCAGAGCGGCTCGACCTATGATATCCAGCTAAACGTCCGGCGGAGCGTCGACGGCGGGTATACTTGGAGCGATTTGCCGGGAGGCTTGATCGGAAGTTCAACCGCCTCCAGTTTTAAAGGTCTATGGGAGCCGCATTTGGAAATGATTAACGGCACGATCGCCGTTCTTTATGCAGATGACAGTCCGGCGACGGTAGGTACGACCGGGCGGCAAAATTTGTACATGAAAACGTGGAACGGAAGCGGCTGGGGCAGCCGGATTACGGTCAGCGACGGCGTTGCCGCCGGTTCTCGCGATGGCATGCCGGTCATCACGCGGATGCAAGACGGCCGCTATATGACCGTATTCGAAGCGTCGGACGTTGCAGGCCACCCTTTTGTCATTAAATATAAAATATCCCCGGACGGCTTGAACTGGTCGGTTCCACGCCAAACGCTGTACGTGCCGGTCGGCAACGGCAAAAAAGCCGGCGCTCCCTTTGTCGTAACACTTCCCGACGGCCGTCTGATGACCGCATTCCAAACCGATGAGAGCAGCGCCAATACAGGAGATCCCTACACTTCGATGTTTACCATGATCAGTTCCGACAACGGCGCGACATGGCAGTACAAAACCAACGTTTTTCCGGTATCCGATACGAAGTCTTCCAATTGGAATTCCCTGATGACCGTCGATTCGACCCGCGTCGCAGCCGTGACGAGCGCGACTGATCCGGTTAGCGGAATCTATCTGCGCTTTGGCTATACCGTTACTCCTTCGCAGACAAATCTCGTTAACAACCCCGGCTTTGAAACGGCGAACGTAGCTGGCTGGACCACGTACGGCGACGATTACCCGAACCGCATTCTGATTCACGGAGCCAATGACGGCGTCGGGCTTCCCGCCGCGGAAGGCTCATACTTTGTTGGACTTGCGGGCATCAGCGGGCCTGCAACCGCGTATGTCGGCCAGACCATTACCGGTCTCGATAACGGTACGTATACGATGCGGGCCCGCATGCGAAGCAGCGGAGGCCAGAACAGCTGCGTCATGGAAGTGAAGGACTATGGCGGCGGGATGCGCCAAACGGGCTGCCCGGTAACGACGGCGTGGACGCCTGTCACGATCTCGAATATTCAAGTGACGGCGGGCAAGGCAACGATCGGGTTTTACGTGTCGAACTCCTCCTCTTCCCAGTGGGCAGATATCGATCAGGTTGAGTTTTTTCGGAACTGA	MERNKRFWKKPLAFIVMLALALTSFPLSPAHAASSGMAWASQKIAVYTPPSGGVWYPRLLKLTPSEWLVSFDTNAGGGNTRIVVSRTQDGGYTWSNPVTAVSSSAGNVGNGQMLRLPSGEIWLAYRHVVQSGSTYDIQLNVRRSVDGGYTWSDLPGGLIGSSTASSFKGLWEPHLEMINGTIAVLYADDSPATVGTTGRQNLYMKTWNGSGWGSRITVSDGVAAGSRDGMPVITRMQDGRYMTVFEASDVAGHPFVIKYKISPDGLNWSVPRQTLYVPVGNGKKAGAPFVVTLPDGRLMTAFQTDESSANTGDPYTSMFTMISSDNGATWQYKTNVFPVSDTKSSNWNSLMTVDSTRVAAVTSATDPVSGIYLRFGYTVTPSQTNLVNNPGFETANVAGWTTYGDDYPNRILIHGANDGVGLPAAEGSYFVGLAGISGPATAYVGQTITGLDNGTYTMRARMRSSGGQNSCVMEVKDYGGGMRQTGCPVTTAWTPVTISNIQVTAGKATIGFYVSNSSSSQWADIDQVEFFRN				NA	NA	NA	NA	NA
AK002_03494	1305			hypothetical protein	ATGAATGATTGGAGACCGGATTGGAATCGAAGGCTGGCTGATCCGCCATATAAGAACCAGCGTTTCCGGACGGATATGATGGAGGCTGTGGAGGAACGTCTTCAGGCTGTTGAAAAGAAACGATTCCGCAGGGATTGGAACCGAGCTATCGGTGCCTTTGTTCCCGTATTGCTGCTCTTGTTCGGGGTTGGAATCTGGTTCGGTTACCAGGCTGTACCTAACGCTAATACGGTAAGCCCAGGTCCGGTTGTACCAAAGGGCGGGACGTTCCAATCCAGCTTCGTATCCGGGTCAGGAGGCGATTTCGATTGGTGGAACCTTGCGGATCGTGAAGTCTCGCAGGAGAGCGACCGTACGATCTTGAAGCTGGCAACAGCGCTTTTAAAGCGGGAGATAGGCATCTGGGGCGGCCCGACGCCGGACATCTGGGAGCATCCCGAGGTGAAATGGCCGCTCGAACGCTATGATGTATCCAGTCCCTGGGTATATGAAATATACGTAAACGAGATTACGACAGATGCTGAACAAACGGTATACAAGCTCCGTCTGCTGCTCCGGGATTCGATTCCGATGGTGTATGAGGAAACGATAGATGTCACGATTCGTAATGATACTCACCAAATCTCGCAAATCCAACTAATAAGCACTGACGAAACGGGAACGCCACGGGACGATTTCGAGGCTGGAGACGAACAAGGAACAACCGTTACTTTAAAGGAAGATGCAGCCTTGGATCTGAAGATTACGGGTACTCTGTTCAAGGAGGCAGGAACCATTCGTTCGGTCAATGTGCAATATGGCGACACGGAACGAACCTTTGCAGATTGGAGCAGCGTGAGTAACGAATCCTATTATCCGGAAACCGCGATACTGTCCGCAAACAGCAGCGGGAAGGAGAAGGATATATTGGCAATCGTTTTGACAACCGATTACGGAACAGGGATGCGCGAATCCGCATTGAAACTTCTTACCGACGATCTCATCGAAGTGAAGGCAGCCGACCCGGTGCTTGCGGCACAATCCAGACTAAGCTACCATATGACGGCGGAAGACGGGAAAAGGATATTTCAACTTACGTTGAGCGGCGTAACCCGCAGCTTTGAATACAATGAGGAGGACGCCGGGTTTTGGCTGGACCAGCCCGCGCTTGGCAGCATTGTCAGGTATTCCGTGGAAGAAAACACCCTCTATGCTTCGGTGCCGATCCAGGTATCGCCGGGCAACTTCCCGGCAGAGGTCCGGCTGCGCTACGAATACGACGGGACCGCCTTTCTTGTGGCGGAGGCAACAGTAGAGGAGATGTAA	MNDWRPDWNRRLADPPYKNQRFRTDMMEAVEERLQAVEKKRFRRDWNRAIGAFVPVLLLLFGVGIWFGYQAVPNANTVSPGPVVPKGGTFQSSFVSGSGGDFDWWNLADREVSQESDRTILKLATALLKREIGIWGGPTPDIWEHPEVKWPLERYDVSSPWVYEIYVNEITTDAEQTVYKLRLLLRDSIPMVYEETIDVTIRNDTHQISQIQLISTDETGTPRDDFEAGDEQGTTVTLKEDAALDLKITGTLFKEAGTIRSVNVQYGDTERTFADWSSVSNESYYPETAILSANSSGKEKDILAIVLTTDYGTGMRESALKLLTDDLIEVKAADPVLAAQSRLSYHMTAEDGKRIFQLTLSGVTRSFEYNEEDAGFWLDQPALGSIVRYSVEENTLYASVPIQVSPGNFPAEVRLRYEYDGTAFLVAEATVEEM				NA	NA	NA	NA	NA
AK002_03495	552	sigM_4	COG1595	ECF RNA polymerase sigma factor SigM	ATGCAGCATTCCGCGGAGCTGAAAACTTCGGACATTCGGATGCTTATGGAATCCTACGGGGAGGACGTCTGGAACTATGCTTACGTCATAACTAGAAACACGCACACGGCGGATGATGTCGCGCAGGATGTGTTTATTAAAGCCTATCAACATTTTGCTTCCTTTCGGGGGGAGGCTTCCGTCAAGACCTGGCTTTTGAAAATCACGCGCAACACCGCGCTTTCCTATCTGAAGCGAGCGTTCCTGCGCAGAGTGGTGCTGATGGGCGAGCAATCTCCCGGCACCGGGCAGAAGGGGACCATGCGGACCCCGATTTCGCCATCAGCCGAAGCGGAATATTTGGAACGGGCAGAGGCCGATGAATTGTGGAAGCAGGTACTGAAACTGCCAGCTAAATTTCGAGATCCGCTTGTGCTTAGTCTGCATCATCAGCTATCCATAGATGAAATATCCGCCATTACAGGCCTTTCGCCAGGCACGGTAAAGTCCAGAATATACAGGGCCAAACAGAAGGTGGCCGCCGCATGGAAAGGAGCGATCGGGGATGAATGA	MQHSAELKTSDIRMLMESYGEDVWNYAYVITRNTHTADDVAQDVFIKAYQHFASFRGEASVKTWLLKITRNTALSYLKRAFLRRVVLMGEQSPGTGQKGTMRTPISPSAEAEYLERAEADELWKQVLKLPAKFRDPLVLSLHHQLSIDEISAITGLSPGTVKSRIYRAKQKVAAAWKGAIGDE	PGPT0014960_9266	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_03496	171			hypothetical protein	TTGGCAAAGAGCAAACAACAGCAGGAAGCACATGGGATCGGACAAGTCGAGCAGCAGCTCAATCATCAAATGGAGGCTGCCGAAGAAATTCAAGGAACGCCGAAATTGGACCGGGAAATCAAAAAAGCCGCTAACCGGCAGGCTGATCCATTAGATGACCTTTCGGAATAA	MAKSKQQQEAHGIGQVEQQLNHQMEAAEEIQGTPKLDREIKKAANRQADPLDDLSE				NA	NA	NA	NA	NA
AK002_03497	180	sspH_1		Small, acid-soluble spore protein H	ATGAACAAACAAAGAGCGATTGAAATTTCGGAATCGGCCATTATGAAACATGTAACTTATCAGGATACTCCCATCTATATCCAGCACGTGAATGAGGATGAAACCGCCCGGGTCTATCCGATCGGCAACTCGGAGCAGGAAATGACCGTCCCTTTATCCAGTCTCACGGAGCATCCGTAA	MNKQRAIEISESAIMKHVTYQDTPIYIQHVNEDETARVYPIGNSEQEMTVPLSSLTEHP	PGPT0024895_177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024895-sspH-K06425	NA	NA
AK002_03498	969	cpdA_3		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGAGAAAGTCATTGCATTTTAAGTCGAATGGCACGTTTAAGATCGTACAGTTTACCGATACGGAGTTTTGTGAACCGGATGAGGAAGAACTACAGATGAAGGCCATGATGAAGAGAATACTGGAGAAGGAGCAGCCGGATTTGGTGATTTATACCGGGGATGTCATTGCAAGCAATAAAAGTCCGAATCCCGTTCAAGCTTTTAAAGATGCGGTATCGGTCCCCGAAGAAATGCAAATTCCATGGGCGGCCGTGTTCGGCAATCATGATTCCGAAGCTGCTGAAATGACACGTGAGCAGCTGCACTATCTCCAGCTATCACATCGGTACTGTTATGCACAGCCCGATCCGCCGAATGTCCATGGGGTAGGCAATTATGTGCTTGAAATTCTGGACGGGCTTCACCAGCCAGCTGCCGCCTTGTTTTTTCTGGATTCGGGGAGCTACTCACCGCTTGAGCATCTGCGGGTTGGATTCTATGACTGGATACGCCGAAGTCAGATCGCATGGTATACGGAAGCGTCTCATCGTCTGACCGCTCGAAACGGAGGTGAGCCCCTCCCTTCACTCGGCTTCTTTCATATTCCTCTGCCGGAGTATAAGGACATCTGGGATTTCTCGGTCTGTTACGGACAGAAGTTAGACGCCTATTGCTGCGCACCGCTCATCAACACCGGATTTTTTGCGGCCATGCTGGAAATGGGCGATATCATGGGAACTTTTGTTGGCCATGACCATGGGAACGATTTCTGGGGGACGCTGCATGGAATCCGTCTTTGTTATGGTCGTACGTCCCGCAATGCTTATCTGGATCGACCATTTCAACCCGGAGCAAGGGTGATCCAATTAACGGAAGGCCAGCGGAGCTTTGAAACATGGCTTCATCTAGAAGATGGAACCATCGTTCATGATCAGCCCGCGCATATACCCGAAGGGCGAGCTCTTAAGATCGAATCGACTATAGACTGA	MRKSLHFKSNGTFKIVQFTDTEFCEPDEEELQMKAMMKRILEKEQPDLVIYTGDVIASNKSPNPVQAFKDAVSVPEEMQIPWAAVFGNHDSEAAEMTREQLHYLQLSHRYCYAQPDPPNVHGVGNYVLEILDGLHQPAAALFFLDSGSYSPLEHLRVGFYDWIRRSQIAWYTEASHRLTARNGGEPLPSLGFFHIPLPEYKDIWDFSVCYGQKLDAYCCAPLINTGFFAAMLEMGDIMGTFVGHDHGNDFWGTLHGIRLCYGRTSRNAYLDRPFQPGARVIQLTEGQRSFETWLHLEDGTIVHDQPAHIPEGRALKIESTID				NA	NA	NA	NA	NA
AK002_03499	1164	nagA_3	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGAACAACAAAATCATTCAACATGTCAAAGTCCACCTGCCTCATCAAATACTTCCTTCTGCAACGGTTTGGATTTCGAACGGAAAGTTGAAGAGAATAGAACCAACGCAAGAAATTGAAACCATCGAAGGCGATGATGAACGGATTGATGGAAACGGGATGTGGCTTATACCGGGGATGATTGATGTTCATATCCATGGGGCCAATGGGTATGACATGATGGACGGAACCGAGGACAGCATACAAGAAGTGTCACGCGCTTGTGCGGCAACCGGCTGCACCTCGTTTCTGGCAACTTCCGTGAGTTCAACGATAGAGGATCTGTTGAACATGATTCGCAGCGTAAAAGGTGTCATCGGGCGAGAACAAGGGGCTAAGATTGCCGGCATTCATCTGGAAGGCCCTTATTTGAATCCCAAGCGTAAAGGGATGCAAAACGAGAAATATCTTCGCCACCCGAATCTGGAAGAAATGAAGTTGATTTTTAAGGAAGCGGGTTCGCTCATTAAAATGGTAACGATCGCCCCGGAATTGCCTGGAGGCTTGGAGCTTATATCCTTCCTGAAAGAGCACGGCGTCGTGATCGCCGTAGCTCATTCCGATGCCACTTACGAGGAAGCAAAGCTGGCTTTTACAGCCGGAGCGAGTCATGTAACCCATTGCTTTAACGGCATGAGACCGATTCACCATCGAGATCCCGGACTGATTGTAGCCGCGTTCGAAGAACCGCATGTAAGCCTGCAAGCGATTGTCGATCAAGTCCATCTTCATCCGGCCATTGTCAGATTAATGCATCGTCTCAAAGGGCCGGAAGGCATGGTGCTTATTACGGATGCGCTTCAGGCGATGGGATTAGGTGATGGGAATTATATGTTTGGTGGTCATCAGGTCACCGTTTCCGAGGGGATCGCCAGGCTCGCGGATGGCACTTTAGCATCGAGTACCGTGACTATGAATGAAGCGTTGCGTCTGACCGAAGCCAACGGCATTTCGATGGAGAATGCCGTGCGCATGGCTTCAACAACGCCGGCCCATATTCTAGGTTTATCTTACAAAGGAAAAATCGAGGTCGGATACGATGCGGATCTCGTTCTGATGGATGAACGGTATCAAGTGCAGTGGACGATGATTGAGGGAAACATTGTACCGATGAAGGACACGTAA	MNNKIIQHVKVHLPHQILPSATVWISNGKLKRIEPTQEIETIEGDDERIDGNGMWLIPGMIDVHIHGANGYDMMDGTEDSIQEVSRACAATGCTSFLATSVSSTIEDLLNMIRSVKGVIGREQGAKIAGIHLEGPYLNPKRKGMQNEKYLRHPNLEEMKLIFKEAGSLIKMVTIAPELPGGLELISFLKEHGVVIAVAHSDATYEEAKLAFTAGASHVTHCFNGMRPIHHRDPGLIVAAFEEPHVSLQAIVDQVHLHPAIVRLMHRLKGPEGMVLITDALQAMGLGDGNYMFGGHQVTVSEGIARLADGTLASSTVTMNEALRLTEANGISMENAVRMASTTPAHILGLSYKGKIEVGYDADLVLMDERYQVQWTMIEGNIVPMKDT	PGPT0018860_1429	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018860-nagA-K01443	NA	NA
AK002_03500	786	glcR_2	COG1349	HTH-type transcriptional repressor GlcR	GTGTTCCAAGAGGAACGACTCGTAAAAATCCTGGATTATTTAAAACAACATAAAACGATGAGTGTTGGCGAGATCTGCTCGTTTTTTCAAGTGTCGAGGGATACCGCACGCAGGGATATTGTCAGATTAGTTCAAGAAGGAGTGGTTGTTCGAACACATGGAGGAGTATCCTTGCCTGATCTGCAAAAGGAACTGACTTCTTATCAGGAACGACTTATTGATGAGCCCGCGGGCAAGAACGTGATTGGCGAGCATGCCGCTAAACTGATTCGGGACCACGAAACGGTGTTTTTGGACGTATCTACGACCGTACAATTTGTTGCGGAGCATATTCAAGCCAAACAGATAACAGCGGTTACGCACTCCATAGATAATGTAGGGATACTTTCCAAACGAGAAGATCTGAGCATCTACGTGCTCGGCGGTTATCTGCATACCCAAAATCGATTATTATACGGTCCTTCCGTCATCGATAAAATAAGTGAAATCCGTGCCGACAAAGCGTTCATCGGTGCAACGGCAATCCGGCCAGACGGACTCTATTATCCATATGAAGAAGATGTCCGGGTGAAGAGGGAAATGGCCCGGCGCTCGGATCAGGTCATACTTGTTGCGGATCATACCAAATTCACGGTGAAATCAAGGTTCAAGCTGGACTTTGATCATGTGGATATTATTGTAACCGATCAATCGATTCCCGTTGACATACAAGAAATATTAGACCAGAAAAATATTACGCTAATAGAATGCCAGACTCATAACCCACAGGACGGAGTTGAGCAATAA	MFQEERLVKILDYLKQHKTMSVGEICSFFQVSRDTARRDIVRLVQEGVVVRTHGGVSLPDLQKELTSYQERLIDEPAGKNVIGEHAAKLIRDHETVFLDVSTTVQFVAEHIQAKQITAVTHSIDNVGILSKREDLSIYVLGGYLHTQNRLLYGPSVIDKISEIRADKAFIGATAIRPDGLYYPYEEDVRVKREMARRSDQVILVADHTKFTVKSRFKLDFDHVDIIVTDQSIPVDIQEILDQKNITLIECQTHNPQDGVEQ				NA	NA	NA	NA	NA
AK002_03501	474			hypothetical protein	ATGTACAAACTCACTTTAACAACGGCTAAGAAGTTGTTGGAAACTGCTGAACACCAAGCACGACAAATGGGTCTTAATTCTGATGTAGCGATCGTCGATGAAGGGGGGAACCTCATTGCTTTCCATCGGATGGATAACGCGAGAATAGCAGGCATCGATATCGCCATTGGCAAAGCGTGGACCAGCGTAGCGATGCAAATGCCGACGGCGAATTTAGCGCAATCTGCGCTTCCGGGCGGAGCTACATTTGGCATTAATACAACGAATCAGGGTAGAGTCGTTATCCTTGGCGGGGGGATTCCGCTCGTTCACGAAGGCAGGGTTGTCGGCGGCATTGGTGTAAGCGGAGGAACTAGCGCACAAGACATCGATGTAGCCAATGCCGCTGTGCAGGCGTTCGAAAATATGAGATATCAAGAAAATCAATATTTAAGTGCACGGATTGGCACAATCCAGCAGTCATTTACTTATTAA	MYKLTLTTAKKLLETAEHQARQMGLNSDVAIVDEGGNLIAFHRMDNARIAGIDIAIGKAWTSVAMQMPTANLAQSALPGGATFGINTTNQGRVVILGGGIPLVHEGRVVGGIGVSGGTSAQDIDVANAAVQAFENMRYQENQYLSARIGTIQQSFTY				NA	NA	NA	NA	NA
AK002_03502	1029			hypothetical protein	ATGAGAAAATTGAAGAAAACATTGAAAATTATCGGTGTAACACTAATAGTGCTACTCATAACAGCCCTATTTTTTCCTACATGGACATCGTCCATCAAAGGCGAAAATAGTATAAGCATATTAGAACAAGTAGAGATCAATGGAAGCAAGCAAGAAATGATGATACGCGGCAATGACAAGGATAATCCTGTGATTTTATTTGTACACGGTGGACCTGGAGCCCCGGAGATACCATATGTCGATACATACCAGGACCTGTTGGAAGCCCGATTCACGGTTGTTCATTACGACCAAAGGGCAAGCGGAAAATCCTATCATTTTTTTGAGGATTACGCTGATCTTTCATCGGAACTGTTGGTAAATGACTTATTGGCTATAACGGATTATGTTTCGGAACGCCTTGGCAAAGAAAAGGTAATCCTCATGGGACATTCTTATGGCACGTACATTGCTACTCAGGCGGCCCAAAAGGCACCCGAAAAATACGAGGCTTACGTGGGGATTGGTCAGATGGGGGATACCGTAACAAGCGAGATGGACAGCTTGACCTACTTAATCAGCCAAGCTCAACAGGCCGGCAACGCGGAAGACGTCTTATATCTGCAAGGACTAACCGATAAAATAAAAAAGGGCGAAATGTTCACTCCACGAAATTATGTCATTCAATACGGAGGAGCTTCAAGACTTATTGACAGTCCCGACGGCGATAGCCTTGGGATGCTGTTAAGCAGCGAGTATAACTTAATGGACGTCATTCGATATAACGTCGGGATATCTTTTTCTCAAAGGGTTTTGTTGCAGGAAGTTATAGAACATCCGCTGCCAACACTTGTAACGAAACTTGAAATACCGTGCTACTTTATCATGGGCGATTATGACTATATGACGTCCTCCCATGCAGCAAAAGAATTTTTCGATAAGCTTGAGGCCGATCAGAAGGAGTTTATCGCGTTTGATCAATCTGCCCATTATCCGCAATTTGAAGAGAAGGAAAAGTTTTTTGAATGGGTATCCGAGACATTTCTTTAA	MRKLKKTLKIIGVTLIVLLITALFFPTWTSSIKGENSISILEQVEINGSKQEMMIRGNDKDNPVILFVHGGPGAPEIPYVDTYQDLLEARFTVVHYDQRASGKSYHFFEDYADLSSELLVNDLLAITDYVSERLGKEKVILMGHSYGTYIATQAAQKAPEKYEAYVGIGQMGDTVTSEMDSLTYLISQAQQAGNAEDVLYLQGLTDKIKKGEMFTPRNYVIQYGGASRLIDSPDGDSLGMLLSSEYNLMDVIRYNVGISFSQRVLLQEVIEHPLPTLVTKLEIPCYFIMGDYDYMTSSHAAKEFFDKLEADQKEFIAFDQSAHYPQFEEKEKFFEWVSETFL				NA	NA	NA	NA	NA
AK002_03503	918			hypothetical protein	ATGGAATCTAATCAGAGAATCCGTTTGGCAATTGAAGAATCGATCCAATTCCTTGAATCTACTTCGCAATGGGAGACGGCTCACGGCGAGAACAGCCGCCATAAATGGGATGGAGCTTGGTGGCATATGGCCGCTCTATACGAAATGGGAGAGGTGAAACTGATCCCGGAATCGGTTATCGCCAAGGCTAAACATCTACTCGAAACCAAGGTTTGGCGGACCTTCGTCATTACAGCCGATGACCAGCCAACCAAAGATAGTGACCGGTTGAAGATGGATTGCTGTCATTGTGAACTTGCCGTATTCTATATGATTATGAAAGCGTACGGCTGTGATGTGGACACGGAGCTGCCCTGGATTCGCGAATGGCTCTTAAAGCATCAGCTGCCCGACGGCGGATTGAACTGCGAGCCGGAAGCTTACATTCATTCAAGAAAAAGCTCTATCATTTCAACGCTTCCCCCGCTGGAAGCGATCTTATGGCATACAGACCGTGAATTCACCGAACAGGAAGCCGCTTTTTTGGATGAAGGCGCCCGGTATTTGATCGAGCATCGTCTAGTGTGTTCGAAACAGCATGGCGGCGTTCTGGACATGGATTGGCTGAAGCCTTGCTTTCCGCGTTTTTTTGAATATGATATCCTACGCGGGATGTCCTTCTTGGCAGAATGGTCCCGGCGCAGAAACAAAGCGCTGCCGGTCGACCTGCTTGTGGAAGGTGTGGAACGATTGAAGATTTACATCGAAGCGGATGGCTTGCGGATCGGCAGACAGGTCCATGGTCCACATGGCCCTTGGGGTGGGCAAACCTTCCCCTTGTTAGAAGCATTAGCCGGACTGGGTGAGGTCTCGCCTTATTTAACCGGACAATTGGATCGAGTTATCGAACGGTTGGGACCGGAATATGCCTACGCATAA	MESNQRIRLAIEESIQFLESTSQWETAHGENSRHKWDGAWWHMAALYEMGEVKLIPESVIAKAKHLLETKVWRTFVITADDQPTKDSDRLKMDCCHCELAVFYMIMKAYGCDVDTELPWIREWLLKHQLPDGGLNCEPEAYIHSRKSSIISTLPPLEAILWHTDREFTEQEAAFLDEGARYLIEHRLVCSKQHGGVLDMDWLKPCFPRFFEYDILRGMSFLAEWSRRRNKALPVDLLVEGVERLKIYIEADGLRIGRQVHGPHGPWGGQTFPLLEALAGLGEVSPYLTGQLDRVIERLGPEYAYA				NA	NA	NA	NA	NA
AK002_03504	510	maa	COG0110	Maltose O-acetyltransferase	ATGAAAACAGAAAAACAAAAGATGCTGGATGGAGAACTATATATCGCTTCCGACCCTGAACTAATGCGAGACCGGGCATATGCAAGGCGAATGACACGGCAGTTTAACCAGACTACGGAGATGGAAGATCAACAGCGAATTCAAATATTGAAAGCCTTGCTGGGGTCAACAAGCGATAACATAGGAATGGAGCCCAACATTCGTTTTGATTATGGCTACAACATACACGTAGGCGAGAACTTCTTCGCGAATTTTGATTGTACCATCCTGGATGTGTGTGAAGTGCGAATCGGCGATAACTGCATGTTCGGCCCAGGCGTTCATGTGTATACGGCAACGCATCCGGTGGACCCGTTCGAGAGAATTAAAGGGCCGGAATATGGAAAGCCGGTAACCATCGGAAACAACGTATGGGTCGGAGGACGTTCAACCATCAATCCAGGCGGTCACGGTAGGCAACAATGTCGTGATTGCTTCGGGGGCGGTGGTTACCAAGGACATACCGGATAA	MKTEKQKMLDGELYIASDPELMRDRAYARRMTRQFNQTTEMEDQQRIQILKALLGSTSDNIGMEPNIRFDYGYNIHVGENFFANFDCTILDVCEVRIGDNCMFGPGVHVYTATHPVDPFERIKGPEYGKPVTIGNNVWVGGRSTINPGGHGRQQCRDCFGGGGYQGHTG	PGPT0018611_752	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661	NA	NA
AK002_03505	1032	nagK		N-acetyl-D-glucosamine kinase	ATGAACTCCATTACAAACAACACCATGTTGGTTAAACAAATGAATCAGGAGAAAGTTCGCCAGGCGCTCATAGCGATGAGAACGGCTACGAAGGCCATGGTTGCGCAGGCTACCACCTTAAGCATCGCCACTTGTAATCATATTCTTAACGAGTTGCTGGATGCTGGCGAAGTGTTGGAAGTGGCTATGGATGACTCGAAGGGCGGGCGTCCAGCCAAAATGTACCAGTATAACATGCATCATTCATATATTATTGCTGCCGTTATCAAAACCGAAGCGGGATCCCGCTCTCTTACATATGCAATCGCCAATTTGGCCGGGGAGATTGTAGACCAAGGGTATGAAGAACACAATCGAATAGATCCCGCCTTCATCGATCGGGTAATCGAGAGGCTTATCTTGCAATATCCGCAAATCCGGGCGGTTGGGATCGGCGTCCCCGGTGCAGTCGACCAGGGGGTTATCAATGTCAGTGATATACCGGAACTGACTAACGTTCCTTTGGAAGCGTTCATTCGCGAGAAGCATAAGGTTGAGGTCATTCTTGAAAACGACATGAACTTGACCGTATATGGCTTCTACCATAAACAAGGATATGATGAGAAACAGACGGTTGCCGTCGTAACTTTCATCGATGGCAGCTTACCCGGTGCGGGCATGATGGTGGATGGGCGTATTCATCGAGGTTTTACACGATTTGCGGGCGAAATTGCTTTTTTGCCATTAGGCATATCCCAAGAGGCTCAATTCCAACAGCTGCACGATCGGAAAACTTTTCATGTACTGGCTGCGCGTTCAGTGGCAAGCCTGATCGCCATATTAAATCCAGAAACGATTGCTTTGACTGGGAGCCTGATGCAGCCTGCTGATGTGAATATCATCCGGCAGGAGTGTCTGAAGTATATTCCGGACATGCACATGCCTCAAATGATATTGCTAGAACATCCGGATCAGGACTATATGTACGGGTTAATTGCCCGAACCTTGGAAAGCCTTGCTTATTCGCTTGAGCTTGTGGAGAAGGGGAAGTGA	MNSITNNTMLVKQMNQEKVRQALIAMRTATKAMVAQATTLSIATCNHILNELLDAGEVLEVAMDDSKGGRPAKMYQYNMHHSYIIAAVIKTEAGSRSLTYAIANLAGEIVDQGYEEHNRIDPAFIDRVIERLILQYPQIRAVGIGVPGAVDQGVINVSDIPELTNVPLEAFIREKHKVEVILENDMNLTVYGFYHKQGYDEKQTVAVVTFIDGSLPGAGMMVDGRIHRGFTRFAGEIAFLPLGISQEAQFQQLHDRKTFHVLAARSVASLIAILNPETIALTGSLMQPADVNIIRQECLKYIPDMHMPQMILLEHPDQDYMYGLIARTLESLAYSLELVEKGK				NA	NA	NA	NA	NA
AK002_03506	132			hypothetical protein	ATGACAGCGGCCGAGATGCTTTCGATGATCAGCGCAGGCAGCTTTTTTGAAAATGTCTTCGGAATTTTCCAACATGATCCTAATAATGAAAATGCAATGTATATTAGAAGGGCTAGCAGACACTTGAAATAG	MTAAEMLSMISAGSFFENVFGIFQHDPNNENAMYIRRASRHLK				NA	NA	NA	NA	NA
AK002_03507	585			hypothetical protein	ATGGATAAGCAGACGTATGCACGGTATCTGCTCAACCTGATGGATGAAGAAGCAGATTCCGATGAGGCCGTGATTGAAGAAGCAGCGTTATATGGATATTTTCAAATGTATATGCCTAGCGGAAATGGGGTGGAGGCCACCTTTGAGCCGCTTGAGGATGGACATGCTTACTTGCGGCGGATTTCCCGGATTTACGAGATGCTGGACCCGGCGGATTTTACCAGAGGAACGGTGCCTGCCTATTTTAACGGCAAAGGGGAGGAGGCATCCGAGGATGCATTGAGAGGGTATGGCGAGCAGTTTATTCGGGAGTTAAAGCAGCTGCTGGATACTTTTGCGAAATGGGAACGTGCAGCGGAAGCGGTCGCCTACCTGGATGGAATCGAAAAAATCGAGCTTCTTCCTCCAGGGAAAATCGACACCGTTCGCGAATCCTATGATCCCGATGTCTATGAGGCGCTGTCCGAAGTGATTATAGAGCACAAAAATGATGAGGAGCCTATAGAGATTCTGGATGAGGCTTATTATTCGATTGCCTGCGATTACTGGACTCCTACTATTTGCAATGGCACCGTTACGGGCTAA	MDKQTYARYLLNLMDEEADSDEAVIEEAALYGYFQMYMPSGNGVEATFEPLEDGHAYLRRISRIYEMLDPADFTRGTVPAYFNGKGEEASEDALRGYGEQFIRELKQLLDTFAKWERAAEAVAYLDGIEKIELLPPGKIDTVRESYDPDVYEALSEVIIEHKNDEEPIEILDEAYYSIACDYWTPTICNGTVTG				NA	NA	NA	NA	NA
AK002_03508	2274			hypothetical protein	ATGAACGTTACCCACAGCAAACCTCTAGCGAAGAAGGGACTCCGTCATCTATGTCTCGCCATTTGCGTCACATTGCTGACTACGGTTTTCTTCTCGACAAGCGCCTCGGCGCAAATCGGCAAAACCTACAGCGACCCTATCGATTTGGGCTCCCCGATGCAGAGCGTTGCCATATATGACGGGGCCTTTGGCATACAGGACGGACGGGAGGTTATTTATACGACGGTGTCCGGCAAGCCGGCTATTTTTCATGTCATTGATCTCAAAACTAAAGAGGTGCTAAGCACGCATCCGCTAACGGGTTCCGAAAGCTCGTGGACGCATTTGACGACCCCGGACGGCACGGTGTATATCGGAGGCAACGGCACGCTGTACGCCTACTCTCCGGTCACGAAACAGCTGAAAAATCTGGGCGGCATCGGTGAGCAGGTTGTGTACGGCCTGTCCCACGATGAACAGGGTCGTGTCTACTTCGGTTCTTACCCGAATGCGAAAGCGGGCCGCTACGATCCAGCTACAGGGGAAATGAAGGACTACGGCATCGTAGGCACGGGCCAAAGCTACAGCCGTTCCACGGCATATCATGGCGGATATCTGTACGTCGGCATCGGGATTGAAGGCAGCATTGTAAAAGTGGACGTAGCGACTGGGGAGAAGGAAACCATCCAGCTTCCGTCCTATAACGGAGCGGTAGACATCGGCATGGTGAACCAGCTGGACGTTGCGGGCAAATATTTGGTTGCCGGCATCGGCAAAGGCAACAGCGGGCTTCTGTTCTATGACCTTGAGCTGCAGCAATGGAGCGATACCTACCATCTGAACAATAAAGGCATCCGCCTCTCTTACGGGCCGGAGGGCAGCAATAAAATCTATTTCGTCCAGAATAACCATCTGATGGAAGTGGATTTGAATACCCTTGCTGCTGTTGACACCGGCGTCGTGTACGGAACGTTCCTGCGCAATACGGCCTGGGTGGAGGTGCCGAACGATCCGGATCTTCCGGGTGTTTCGCTTGCAACCGTTCAATTCGGAGGCAGCGTCGCTTACATGAATCTGACGACCAAGCAGGTCAAAGCCGTACCTTATCCGGTGAAAGGCAATCCGATTCCTGTTCAAACCATGGAGAACGGTCCGGATGGACGGCTGTTTATCAGCGGTTACCCTGGCGGCACGGGGTCCGCGTATTCCATCCACACCGGAACCTTCGAGACCTTCCCGATGGGTCAGTCAGAGGGCATGGTCGCCATGAACGGCAAGATGTATATGGGCGTATATCCGGGTGCGGATATTTTCGAATACAATGCGGAGAATCCGACCCAGCGCAAGAGCCTGTTCAAAATTACCGGTCAGGACCGTCCGTTCATCATGAGAGCAGCGGAAGGTAAACTGTTCATCGGCACCATTCCGGACTACGGCAAGCTGGGCGGCTCCCTGACGATCTATGATCCGGCGAACGGCAGCCAGTACACCGAATACAAGAACGTCATCAACAATCAATCGATTGTCGGCATTGCGGTAAAAGACGGCAAGGTATATGGCTCAACCACCGTTGCTGGCGGGCTGGGCATCACTCCTTCCGAACCGGCTGCCAAAATGTTTGTCTGGGATATCGCGACGGGCAAGGTGGAGAAGGAATGGGTTCCTTCTATTGAAGGTGCTTCTCCTACGCCGCATATTATTAGCGGAACCAGCTTCGGTCCGGACGGACTGCTGTGGGCGGCTTACGACGGAACGCTCTTTGCCGTAGATCCGGATACCCAGGAAATCGTAAAAAGCAAAACGATTTACGAAGGCGTGGAGAAATACGGCAACTGGCGTCCGGTGTATATTCGCTGGAGCGAGGACGGCCTCATGTATCTGACGCTTGCCGGTCACGTCACCGTGGTTGACCCGGAAACGATGGAGCATCAGACGCTGGCGGAATCCCAGCATGTGAATCTTGGACACGACGGGGATATTTATTACACGAACGATACGCGATTGATGAAGATTGAAGTGTCGGATGCTGCAGCATCGGATACGATTGGGTCTCTGATGGACGATATTCAGTCCTGGAAGCAACAAGGCGATATCAGCCATCCGCTGAGCCAACAGATCGGCAATGCGCTCAAACAGGCGGAGCTGAAGCAGAAGCAAGGGAAGCAGGAACAGGCGGTGAAACACCTGAATGATGCGCTCAAGCACCTGAATAAATCTAAAATCGGCGGGATTACCGAAGAGAAGCATTCGGAAGTGGAGCAGCGCATTCAAGCGTTCATTGATGGATGGTCCTGA	MNVTHSKPLAKKGLRHLCLAICVTLLTTVFFSTSASAQIGKTYSDPIDLGSPMQSVAIYDGAFGIQDGREVIYTTVSGKPAIFHVIDLKTKEVLSTHPLTGSESSWTHLTTPDGTVYIGGNGTLYAYSPVTKQLKNLGGIGEQVVYGLSHDEQGRVYFGSYPNAKAGRYDPATGEMKDYGIVGTGQSYSRSTAYHGGYLYVGIGIEGSIVKVDVATGEKETIQLPSYNGAVDIGMVNQLDVAGKYLVAGIGKGNSGLLFYDLELQQWSDTYHLNNKGIRLSYGPEGSNKIYFVQNNHLMEVDLNTLAAVDTGVVYGTFLRNTAWVEVPNDPDLPGVSLATVQFGGSVAYMNLTTKQVKAVPYPVKGNPIPVQTMENGPDGRLFISGYPGGTGSAYSIHTGTFETFPMGQSEGMVAMNGKMYMGVYPGADIFEYNAENPTQRKSLFKITGQDRPFIMRAAEGKLFIGTIPDYGKLGGSLTIYDPANGSQYTEYKNVINNQSIVGIAVKDGKVYGSTTVAGGLGITPSEPAAKMFVWDIATGKVEKEWVPSIEGASPTPHIISGTSFGPDGLLWAAYDGTLFAVDPDTQEIVKSKTIYEGVEKYGNWRPVYIRWSEDGLMYLTLAGHVTVVDPETMEHQTLAESQHVNLGHDGDIYYTNDTRLMKIEVSDAAASDTIGSLMDDIQSWKQQGDISHPLSQQIGNALKQAELKQKQGKQEQAVKHLNDALKHLNKSKIGGITEEKHSEVEQRIQAFIDGWS				NA	NA	NA	NA	NA
AK002_03509	1359			hypothetical protein	ATGGCTAAGTCCGACCGGTATACGTATCAAAATAAAATGAAGCACATGGTCACCGACCTGCGCCAACAAATTAAACGCGGCACTTACGCTCAAGGCGAATATCTACCATCGGAGATGACCCTGATCGAGCTGTATGGACTGAGCAAAAATTCCGTCCGGCAGGCGCTGGATCAGCTGGTTCAGGAAGAATTGATCGTGAAAGTGCCCCGCGTAGGCACCCAAGTAGTTGCAGCTTCCCGGCAAACCCGTAAGATTCGTTTCGGTTTGTACCCTTCCCTATATGCAGAGGCCGAAATGGAATATGTGCTCGCCTTATATCATGAGCGGCATCCGGAGATAGCTGTGGAGATTGTGGACCTTCCCTACGAACATCCGGAAAGCATCGCCAATCTGATGAGGCTTGGCATTGTGGATGTGCTGTCCGTCAACATCCAGGATATGATGCATTTTCAGGAGAACGGCAGTACCGGTCTGTTTCATCGTCAAGAGCCGCGCGCGTCTACATATACTTTTTTGCACGGCCCGTTCATGGATGCCGAAGGCCGGCTGGCGGCGCAGCCGTTCATTCATTCTCCCGTGCTCTTGGCCTACAATAAAGTGCATCTGCGGGAAAAGCGCCAGTTCGAGCCGGACAGCAGTTGGGGCTGGGACGATCTCCAGCGAATGCTGCGTGAGCTGAGAAGCCCCGGGCGCTACAGCTTGGCCCTGCAATTGTACTCGTTGAACCGCTGGCCGATATTCCTCATGCAGCGAAGGGGCAATGCGGAGATCGATGCTTCGTGGAGCCGTGCGGTCGAGGGGCTGTCTTGGCTTCGCGGACTGATTCACGAGGACGGCATGTTCCCGCTGGCCTTGGCCCAAGGCGCTTTTGAAGCAGAGAAGCTGTTCCGCGAGCAAAAGGTCTCTGTCATTCTGACGACCTATTATCTGCTCAACCAGCTGAAGGAAGCCACCTTTGAGTATGACGTGGCGCCTCTGCCGCATTTTGATCATGGGACAACCCTTCTATTGGGCACCGGAATCGGGGTCAGCGCGTGCTCCAAGGAGCGGGAGCTGGCTCAGAGCTTTGCCGATTTCCTAGTCTCTGACGAAGTGCAGGAATACATTCGCAGGCATACTTACAGCATTCCGGCGAACCGTTACATCACCGAGAACGTAGATCCGGAGATGGAGGGACGGCCGTCCCGCCTCAATCTGCACCGAGAAATTGCCCCGCTGTATAAGACCTGCAGAGATGTAGGACTTAGCCTGGACGAGATGCTGCTGTTCCGGGAACGGCTGAAGCAATATTTCTCCTACCTTGTAGACGAAGGGGAACTGATATCCGTGCTGCTGAGCAGGAAAACGGCAGGGACCTAG	MAKSDRYTYQNKMKHMVTDLRQQIKRGTYAQGEYLPSEMTLIELYGLSKNSVRQALDQLVQEELIVKVPRVGTQVVAASRQTRKIRFGLYPSLYAEAEMEYVLALYHERHPEIAVEIVDLPYEHPESIANLMRLGIVDVLSVNIQDMMHFQENGSTGLFHRQEPRASTYTFLHGPFMDAEGRLAAQPFIHSPVLLAYNKVHLREKRQFEPDSSWGWDDLQRMLRELRSPGRYSLALQLYSLNRWPIFLMQRRGNAEIDASWSRAVEGLSWLRGLIHEDGMFPLALAQGAFEAEKLFREQKVSVILTTYYLLNQLKEATFEYDVAPLPHFDHGTTLLLGTGIGVSACSKERELAQSFADFLVSDEVQEYIRRHTYSIPANRYITENVDPEMEGRPSRLNLHREIAPLYKTCRDVGLSLDEMLLFRERLKQYFSYLVDEGELISVLLSRKTAGT	PGPT0016545_2708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_03510	930	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGTATCAGATCATTACCGACGGCAATTGGCCGGTTATGCTAACGCCGTTCACGGAGCAGAACGAAGTGGATTACGAGGCCTTGGAGCGGCTTATCGACTGGTATATCGACCGGGGAGCCGACGGCCTGTTTGCCGTATGTCAATCCAGCGAAATGTATACTTTGACTCTGGAGGAGCGCGTATTGATCGCAGCCTTCGTCAAAGCGAAGGCTGCCGGCCGGGTACCGGTCATTGCATCGGGTCATGTATCAGATGCGTTTGAGGATCAAGCAACGGAGCTGAACGCCATGGCGGAAACCGGCGTCGACGCCGTCGTGTTAATCACGAACAGGCTCGCAGCTGCCGAGGAATCCGATGATGTGTGGCTGGCGAATCTCGATAAGCTGCTCGGGCGATTACCAGAATACGTCCCCCTCGGATTGTATGAGTGTCCAGCCCCGTATCGGCGGCTTCTGACGCCCGAGATGCTGAAGAAATGCTCCGATACCGGACGCTTCCGGTTTATCAAGGACGTGAGCTGCGACCTTCAGCTGATCGGGGATAAACTCAAGGCGGTCCGGGGCGGAAGTCTGAAAATCTTCAACGCCAATACGGCGACGCTTCTGGACAGCTACCGGCTCGGCGCTTTCGGCTTCAGCGGCGTGATGGCCAACTTCCACCCCGAGCTGTATACATGGCTGTTCCGGAATTGGGAAAGCCAACCGGAAGCGGCAGGGGAACTGTCTGATTTTCTCAGTGTGTCGTCATTTCTTGAGAAGCAGCTCTACCCGGTGAATGCCAAGTATTACCTCATGCTGGAGGGCATACTGACAAACTATCGCTGCCGTTCGAGAAATCATGAGGAGTTCAGTGCCACCCAACGGCTGGAGATCGAGCAATTATACCGGGTGTCCAAACAATATGCCCGGAAGTATCCCATTTTGGCTTAA	MYQIITDGNWPVMLTPFTEQNEVDYEALERLIDWYIDRGADGLFAVCQSSEMYTLTLEERVLIAAFVKAKAAGRVPVIASGHVSDAFEDQATELNAMAETGVDAVVLITNRLAAAEESDDVWLANLDKLLGRLPEYVPLGLYECPAPYRRLLTPEMLKKCSDTGRFRFIKDVSCDLQLIGDKLKAVRGGSLKIFNANTATLLDSYRLGAFGFSGVMANFHPELYTWLFRNWESQPEAAGELSDFLSVSSFLEKQLYPVNAKYYLMLEGILTNYRCRSRNHEEFSATQRLEIEQLYRVSKQYARKYPILA	PGPT0002080_1671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK002_03511	969		COG0111	Hydroxypyruvate reductase	ATGAAGGCGAAGAAAGTGTTAGTAACGGCTACGAATTACTCCAAACTGTGCGCGGATGCGAAGCGGCTGCTCGAAAGCCATGGATGCGAGATCATCGAGAATCGTTTCGGACGTCCGCTAACGTTCGAGGAACTGAAGGAAGTGGTGGGATCGGTCGACGGCGTCATTGCCGGCGTGGACACTTGGAATGAGGAGATATTCAAGCTTGCGCCGCAGCTTCAAGGCATCGCCCGTTTCGGCGTTGGCGTGGACAATATCGATTTGGAGGCTGCAAGGAAATACGGAATACAAGTAACCAATGTACCTCGAGGCAATGCCAACGCGGTAGCCGAGCTGGCGATCGGATTGATGATCTCGGTCCGTCGGCACATTCCCGCGCTGGATCGATCGACGAAGAACGGCAGCTGGGAACGCTTTGTCGGCTCCGAGCTTGCTGGTGGAACAATCGGCCTTCTAGGGTTCGGGAATATCGCCCAGCTCACCGCGAAGAAGTTGAAGGGCTTTGATGTCGAAATTATCGCTTATGATAAATATCCAGATACGGCTAAAGCGTCGGAATACGGCGTTACAATGACAACTTTCGAGCAGGTGCTGGCGCATAGCGATATCGTCAGCATGCATTTACCCAGCTTGAAAGAGACGCACCATATTATGAATGACAAGGCTTTTGCCAGGATGAAACCATCCGCCATTTTCATTAACACCGCGAGAGGAGCCGTCGTGGATGAACAGGCGCTTTCCCGGGCACTGTTGTCCGGAGTCATCGCCGGGGCGGCCATCGATGTCTACGAGTCCGAGCCCGTATCCGCTGACCATCCGATTCTTCAGATCGGGAACCTGATAACGACGCCGCACACCGCAGCCGAGACTTTCGAGACGTACACGCGGGTCAGCATGATTACCGCTCAGGCATTGCTGGATATATTCGAAGGAAGGGAACCGCCAAATATACTGACTGCAAAAGGATAA	MKAKKVLVTATNYSKLCADAKRLLESHGCEIIENRFGRPLTFEELKEVVGSVDGVIAGVDTWNEEIFKLAPQLQGIARFGVGVDNIDLEAARKYGIQVTNVPRGNANAVAELAIGLMISVRRHIPALDRSTKNGSWERFVGSELAGGTIGLLGFGNIAQLTAKKLKGFDVEIIAYDKYPDTAKASEYGVTMTTFEQVLAHSDIVSMHLPSLKETHHIMNDKAFARMKPSAIFINTARGAVVDEQALSRALLSGVIAGAAIDVYESEPVSADHPILQIGNLITTPHTAAETFETYTRVSMITAQALLDIFEGREPPNILTAKG	PGPT0009155_6403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
AK002_03512	828	ycjP_3	COG0395	Inner membrane ABC transporter permease protein YcjP	ATGAAGAATTCGCTCGGCAAGCAAATTACGGTATACTCGACGCTCGCGCTGCTGCTAATATTCGCGCTCTTCCCTTTATATTGGATGGTGATCACCTCCTTCAAATCCAACGGAGAGATCTATTCCATGACGCCTACGTTTTGGCCGAAGGAATTTCTCGGAACCGCCTACGATAAGCTGATCAACGAAAAGGGCTTTATGACGAATATCAAAAACAGCATGTTCGTCTCATTGATCGTATCCTTGTTCTCGATCACGGTCAGCATGCTGGCTGCGTATGCGATCTCCAAGCTCAGGTTTCGAGGAAGAAGCTTCATCTCCAAAAGCATTCTCTATGCGTACCTGATGCCGAGAGCCGTTCTGTTTATCCCGCTGTACATGCTGGTGACGGCCATCGGCATCAACAATTCCATTTACGGCCTCATGCTGATTTATCCGACGATCACGATTCCGTATGCTACGTGGATGCTCATTTCCTATTTTAAATCCATCCCGGACGAAATCGAGGAAGCGGCCATGATCGATGGATGTTCGCGAATCCGTACGATGACCAAGATCATTTTTCCGTTATCGGCTCCAGGCATTGCGGCTACCTTCATTTTTTCGTTCACGTTGTGCTGGAGCGAATATTTGTATGCTTTGGTTGTTGTCACAAAAAGCGCTGACAAGACGATCACGCTGGGACTTTCGGATATGATCGTCGGCGACGTCTTCGCATGGGGACCCCTGATGGGTGGCTCGATTATTGCATCGATTCCGGTCATCGTGATGTATCTGTTTACATCAAAATATATGGTAAGCGGAATGACGGTAGGAGGAGTTAAATAA	MKNSLGKQITVYSTLALLLIFALFPLYWMVITSFKSNGEIYSMTPTFWPKEFLGTAYDKLINEKGFMTNIKNSMFVSLIVSLFSITVSMLAAYAISKLRFRGRSFISKSILYAYLMPRAVLFIPLYMLVTAIGINNSIYGLMLIYPTITIPYATWMLISYFKSIPDEIEEAAMIDGCSRIRTMTKIIFPLSAPGIAATFIFSFTLCWSEYLYALVVVTKSADKTITLGLSDMIVGDVFAWGPLMGGSIIASIPVIVMYLFTSKYMVSGMTVGGVK	PGPT0016540_7865	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_03513	927	melD_10	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAAAAGCTTGGAAGTCCAAACAACACCGGAGAAAACCCGGGCACCTAGAATGGAACGAGGGGATACGAGCAGCAGGCTGGCTTATCTTCTCATGAGTCCGGTGCTAATATATTTGCTGGCTGTCATGGCGCTCCCTTTTTGCTGGGCGGTCTATCTTAGCTTGACGAATAAAGTGGTCGGCGTTCCCGAAACGTTCATCGGCCTGCGAAACTATACGGAGCTGTTTACCGATTCCGTGTTTTGGAAGGCGGTATGGAATACGGTTGTCTTTACGATGGTGGCCGTCATTTTGAAAGCGGTGTTCGGGATGATTATGGCGCTCGTGCTCAACGAGAATATCGTTGCTCGAAACTTTTTCAGGGTGATGCTGTTTCTTCCATGGACCATTCCGACGATCGTCTCCGTATTTACCTGGCAGTGGATTTATTCCGACGTCGGCGGCGTGCTGAATGCCATGCTCCTCAAAACAGGGCTCATCGACAGTCCCGTCGGCTGGTTGGCCACACCGGACCTGGCCATGTTCTCGGTCATTCTCGTCAACGTGTGGCGGGGCATTCCGTTCATGGGCATTGCCATATTGGCCGGCCTGCAGACGGTGTCCAAAGAGATGTATGAAGCCGCTATGCTGGATGGAGCGGGAGCGATTAAGCGCTTTTTCTACATGACGCTCCCCTCGGTAAAAGAAGTGACCATTCTGTCTTCCGTCATCACCACCATCTGGACGCTGAACGACTTCGAGATTATCTGGCTGCTGACACGCGGCGGCCCGGACAACGGCACGCAGGTGCTATCCACGCTTAGCTATACCGTCGGCTTTCTGAACATGAGTCTCGGCAAAGCAATTGCGATTTCCCTCATTACGCTGCCGCCGCTGATCATGCTGATCCATTATGTGACCAAGCGTTCGCTGGCGTCCGACAAGTAA	MKSLEVQTTPEKTRAPRMERGDTSSRLAYLLMSPVLIYLLAVMALPFCWAVYLSLTNKVVGVPETFIGLRNYTELFTDSVFWKAVWNTVVFTMVAVILKAVFGMIMALVLNENIVARNFFRVMLFLPWTIPTIVSVFTWQWIYSDVGGVLNAMLLKTGLIDSPVGWLATPDLAMFSVILVNVWRGIPFMGIAILAGLQTVSKEMYEAAMLDGAGAIKRFFYMTLPSVKEVTILSSVITTIWTLNDFEIIWLLTRGGPDNGTQVLSTLSYTVGFLNMSLGKAIAISLITLPPLIMLIHYVTKRSLASDK	PGPT0016535_4665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_03514	1329			hypothetical protein	ATGATGAAGATGAAGAAAAACTCCATACGATGGGTAACGGCAGCTTTAGTCATGATATTGATGGCAGGATGCAGCGAAGGGGGAACGGCTGGCAGCGGATCAGGGAATGCCGAGCCTGGCAAGGAAACCCTGACATTCTGGATGAAGAAGCAGATGTTCGAAGAGCAAAACCAGATGATCCAAGAGAGGGCAAAACAGTTCGGGGAAGAGCATGGCGTGAATGTCAACGTGGAGTTTATTGCGTACGAGGACTTTTATCCGAAATGGTCGGCAGCCATCGAATCGGGTACTACACCGGACGTCTCCTTCTTCGGCTACCAGGAAGTCGGTCAATTCTATGCCAAGGACGTTCTTGAGGATGTTACCGATGTTGTGGGCAGCGTGGAGAACACAAACGGGGAAATACAGGACAGCCTGAAAACCTCCGTGACGTTCGAGGACAAGTTATACGGAGTGCCGTTCTGGACCGAGTCCACGGCTTTATACTATCGCAAGGACATGCTTCAGGCAGCCGGTTACAGCGAGCCGCCTGGAACCTGGGAGGAATTCCGCGAAATGGCGAAGGCACTCACGGATTCTTCCAAAGGGATATACGGCGCAGGACTCGGGTACGGGAAAGGCAATTCCGATGCCGAATGGCTGACCCGGGCGATCATCTGGTCCTATGGCGGTTCCCTCGATACCGAGGACGGCAAGAATGTAGCGGTGAATACGCCCGAAACTCTTCAGGCGGTTCAGTTGATCAGGGACATTTTCATCGAAGATAAGGTAACGCCTCCAAGCTCCATCGGATGGGATGACAGCGGCAACAACAAATCGTATTTAAGCGGCCAATCGGCCATGATCTTCAACGTCGGCAGCTTGGCTGCGACGATCAAGAACGATAATCCCGAATTGTACGAGAATACGGGGATCGCCATGCTGCCCGCAGGACCGAAGGGAGCGGTAGTGCCTGGCATTAGCAACAATCTAGGCATATTCAAGGCTTCTGCGAACAAGGAGCTTGCCAAATCCTTCATCGAATATATGACGGACAAAGCGTGGTACGGCCAGTGGGTGCAGAATGGAGCTCCATTGACCGGTCCGATTTATACGGACCTGGCAAACGAATCCGTATGGCAGGAGGAGAAGAACAAAGGATTCGTCGACTCCATCGCACATTTCGCTTTCCTTGGATACCCTGCGGAGTATAGCCCGAAGGCTGGAGAGATTTATAACCTTCGATATGTCAACGACGTCTTCCAAAAGATGCTTCTGGATTCCGGCTTCACGGCTCAACAAGCTGTGGACGAATTACAGAGCAAGATCGAGGCGGTATACGCGAAGTAG	MMKMKKNSIRWVTAALVMILMAGCSEGGTAGSGSGNAEPGKETLTFWMKKQMFEEQNQMIQERAKQFGEEHGVNVNVEFIAYEDFYPKWSAAIESGTTPDVSFFGYQEVGQFYAKDVLEDVTDVVGSVENTNGEIQDSLKTSVTFEDKLYGVPFWTESTALYYRKDMLQAAGYSEPPGTWEEFREMAKALTDSSKGIYGAGLGYGKGNSDAEWLTRAIIWSYGGSLDTEDGKNVAVNTPETLQAVQLIRDIFIEDKVTPPSSIGWDDSGNNKSYLSGQSAMIFNVGSLAATIKNDNPELYENTGIAMLPAGPKGAVVPGISNNLGIFKASANKELAKSFIEYMTDKAWYGQWVQNGAPLTGPIYTDLANESVWQEEKNKGFVDSIAHFAFLGYPAEYSPKAGEIYNLRYVNDVFQKMLLDSGFTAQQAVDELQSKIEAVYAK	PGPT0016545_4315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_03515	1647	rssB_17		Regulator of RpoS	TTGTATACATTGCTGATCGTTGATGACGAAGCAAGCGTGGTAGAGGGGCTTGCGCATACGATACCTTGGCAGAAAATCGGGATCGAGGAGGTGCGCAAGGCATACTCCGCTTTCGAAGCGCTGGAAATACTGCAGACGCAGCCGGTCGACATCATGATTTCCGACATCACGATGCCGCGGATGAACGGTCTCGAGCTTGTCGAGATCACGAAATCGAAATGGAAGAATGTCAAAACGATCCTGCTGTCCGGGTATGCCGATTTTGCATACGCGAAGGAAGCCATTACGCTTGGCACTTATGAGTACCTGCTAAAACCCGTCAGCGACGAAGTCGTTCTGGAGAAAGTAGGCGGAGCAGTGGAATCGCTGCGGCAGGAGCGTGAATCCAGCGAAACCTATCATCGCGCGGTTCAGGCTTTTCGGGTTAATCTTCCACATATTCGAGGCGAATTCCTGAATCAGCTGCTTCAAGGCATGAAATCACCAGAGAACGTTTGGGCCGAAAAACTGGAGCTGCTTGAAATGAAATCCGCCATCGGAAACCAAGCGGCTTTGATGCTTGTACGTATGGAGGACCGTCTGACGGAAATGAGCCCCTATGACTCCTCCATCATGGAGTACGCGATCGGAAACATGGCGGACGAGATCTTCGGGGAACGGTTTCGATTGTGGCGATGCAGGGACATACATGGATATCTCGTCTTTTTTGTTTTTGAAAGCGATGATTCGGCGGCTAGGATGCACCCTTATGAGCATACGGAGGAGAATGAGCTCAAGCATTTCGCTGCACAGCTGCAGATGAACGTCAGCCGTTACCTGAAAGGAACAATCTCCGTCCTGATAGGAAAGCGAGGTTCCTTCCCGGAAGATGTCCGAAAGCTGTATCAAGACAGTCTTTTCGCTTTGCGCCGCCATATCGGCAGCCACAGTGATATGTTCGTTTTCGCAGAAGATGAGGAGGAGCTGCATCCGGTCCGTTCCTTGCAAAAATGTTATGAGCCTCCGCTGCTCCATCATCTGTTGGAATCCGGCAGTTGGAAGCAAATCCAAGAGAAACTTGAGCAGATCCTGAAGGAATTGTCGCTCGCGCACAGCCAATCGCAAGAGCATGTAATCGAAGCCTTTTTCTTTATATATTCCTCGCTAAGCGCATATGCGCACAAGAACGGACGCAGTCTTGCCGATATCGTCGGAGCGTCCCTTGCGGATGTAACGGGACTCTCGCAATGCACGACTGCGGCCACGCTCGGCAAATGGGTGGGCCAAGTTCTGCCTCTTCTGGAGTCAAGCGCCGAACAGGCAACGCGCAGCGACCGGAGCGCTGCCGTATCCCGGATGAAACGGTTCATACGGGATCATCTGTCTCAGGATATTTCCCTGCAAGCCATCGCGGACCATATGTATATGCATCCGGTTCACGTGTCCCGCCTCTTTAAATTGGAGACCGGATTCAACGTGAGTGATTATGTGCTCCGGTTGAAAATGGAGCAAGCGGCCGAGCTGCTGGCCGACCACTCCTTGAAGAACTTCGAGATTGCCCTGAAGCTGGGATACCACAACCCGAACTATTTTATTCGGGTGTTCAAAAAGTATTATTCCGTGACGCCGCAAGAATACCGAAAGAGCTTGGAAACCGGAATGCCGTAA	MYTLLIVDDEASVVEGLAHTIPWQKIGIEEVRKAYSAFEALEILQTQPVDIMISDITMPRMNGLELVEITKSKWKNVKTILLSGYADFAYAKEAITLGTYEYLLKPVSDEVVLEKVGGAVESLRQERESSETYHRAVQAFRVNLPHIRGEFLNQLLQGMKSPENVWAEKLELLEMKSAIGNQAALMLVRMEDRLTEMSPYDSSIMEYAIGNMADEIFGERFRLWRCRDIHGYLVFFVFESDDSAARMHPYEHTEENELKHFAAQLQMNVSRYLKGTISVLIGKRGSFPEDVRKLYQDSLFALRRHIGSHSDMFVFAEDEEELHPVRSLQKCYEPPLLHHLLESGSWKQIQEKLEQILKELSLAHSQSQEHVIEAFFFIYSSLSAYAHKNGRSLADIVGASLADVTGLSQCTTAATLGKWVGQVLPLLESSAEQATRSDRSAAVSRMKRFIRDHLSQDISLQAIADHMYMHPVHVSRLFKLETGFNVSDYVLRLKMEQAAELLADHSLKNFEIALKLGYHNPNYFIRVFKKYYSVTPQEYRKSLETGMP				NA	NA	NA	NA	NA
AK002_03516	1737			hypothetical protein	ATGAAGCGGTTAAGAACAAGTACGTTTGCGAAGCTTACGACATTGCTGGCGGTCCTGGTTATTCCCATTATTTTGCTGTATGCCTACTCCCATCAGGTCAGCATCAACGTCGTCCGTTCGGCTGTGGAGGAGGGCCAGCGGAACCGACTGACGTTTTTCATGAGTCAGATGGACACCATGATCGACCAGCTGACGAAATATTCGGTGATCGCGAGCAATGATGACGGGATTAAGAGTTATCTGGCGGAGCGCTCAGATAGCACTCCCATGGAACGAATCGACAGCCAGCAGCGGATCACGGATATGTTGAACATGCAGATTGCAACTAGCAGCTGGGACAGCCAAATCCTAATGTACCTGACGCAGTATCGTGAATTGCTGACAACCGACTTGTCGGCAAGGTATGATGCCGAATATTTGGCTCATGCCCATAAGCGGAACTGGACTTATCATCGGGATTCGCAAGGACAAGCTTTTTTTAGCTGGATGAGAACGTCCGCTTCTACGCAGGATCTGATCGTGGAGGTCCGTTTCACCGACCAGAATCTGGTCAATATGCTGAATCGGTTGAAACAGGACGGGGACAGCGAGCCATTCCTGTATGCACCTGACGGAACCGTTATTGCCAACAGCACATCGGTCGAAGAAACGATACAAATGGCCGCCGGCACCTTGAACGAATTGCAGCTTGGGGAAGAGGGCAGCCGAATCGTGCAATCGGGGCGGGGCAAATATGTAATGAATTACGTCTTGTCCAGCAGTTTGGGCTGGTATCTGGTGGATTTCGTCCGGCTGGACAGCGTATATTCCCCGATCACCTTAAGCAGCGCCCTCTTTTATATTTCCGTATCGCTCCTGCTTGTTCTTGTCTTACTGCTGACCTTGTTGTTGTACCGTAATGTGCAGCGTCCGATTTCCCGCCTGCTTCATGCGGTGAGAAGGATCAGGGACGGTCAATACATGACGCGCCTGAAGGATGTGCCGAAGAACGAATTCATGTATCTGTTTCACTCCTTCAACAACATGGCAGAGCAAATCGAGGAGCTCATCGAACGGGTGTACAAAGAGTCTTTGCGATCCAAGGAAGCCACGCTTAAGCAGCTCCAATCGCAAATTAACCCTCACTTCCTGTATAACTGCCTGTTCTACATCAAAAACATGGCCAATCTTGGCGATAAGGAAGCTGTCGTGGCCATGGCCCTGAACTTGGGGGAGTATTACCGGTACACGACGCGACTGGAAAAACCGACCGCGCCCCTTGAAGAGGAAGTGAAGCTGGTTGACAATTATTTAACGATTCAGATGCTGCGGCTTCAGCGACTAACCTTCGAGATCGAAGTTCCTGACAACATGATGCAGCTCGAGATTCCGCGTCTTCTGCTTCAGCCTATCGTGGAGAATGCCGTCATCCATGGTGTTGAGGATCAGTTGGATTTCGCGATGATTCATATTTCCGGTGAAATCGAAGGGAGTCGATGCAGGATCAGAATTGACAACAACGGCCAGGGCATGGACGTAGGCATCATCGACAAGTTGAATCGACAGGTCGAAGAGCCTTTGAACGAAAGCGGAGGATTCGGTCTATGGAATATTCATCAGAGACTGGTCACCCGGTACGGCAAACATGCGGGCTTGACCTTTTCAGAATCGCCGTCAGGAGGACTTCGCGTGGAAATATGCTGGGAAATACCGAGTAGGGAAGGGAGGGATAACGTTGTATACATTGCTGATCGTTGA	MKRLRTSTFAKLTTLLAVLVIPIILLYAYSHQVSINVVRSAVEEGQRNRLTFFMSQMDTMIDQLTKYSVIASNDDGIKSYLAERSDSTPMERIDSQQRITDMLNMQIATSSWDSQILMYLTQYRELLTTDLSARYDAEYLAHAHKRNWTYHRDSQGQAFFSWMRTSASTQDLIVEVRFTDQNLVNMLNRLKQDGDSEPFLYAPDGTVIANSTSVEETIQMAAGTLNELQLGEEGSRIVQSGRGKYVMNYVLSSSLGWYLVDFVRLDSVYSPITLSSALFYISVSLLLVLVLLLTLLLYRNVQRPISRLLHAVRRIRDGQYMTRLKDVPKNEFMYLFHSFNNMAEQIEELIERVYKESLRSKEATLKQLQSQINPHFLYNCLFYIKNMANLGDKEAVVAMALNLGEYYRYTTRLEKPTAPLEEEVKLVDNYLTIQMLRLQRLTFEIEVPDNMMQLEIPRLLLQPIVENAVIHGVEDQLDFAMIHISGEIEGSRCRIRIDNNGQGMDVGIIDKLNRQVEEPLNESGGFGLWNIHQRLVTRYGKHAGLTFSESPSGGLRVEICWEIPSREGRDNVVYIADR				NA	NA	NA	NA	NA
AK002_03517	1308			hypothetical protein	ATGAAGTTTGCAGGACGTTTCTGCATGGTGTTATGGATTGTCGTCATCATGGTGTCGGCAGCCGGATGCATGGCGGGGAGGAACGGGGCCGACAGCAGAATGTCTCACCAACCGGAACGCCCGTTTGACAATGTGCGGATTACCGCATATATGGCTAAAAATCCGGTTGCGGACATCCTTCGCGCCCATCTTCCCGAATTTGAGAAGCAGACGGGTATCAAGGTGGATTTTCAAGCGTTGACCAATGAGCAGCTCAGCCAAAAGATGTTCGTACAGATGACGGTAGGTAGCGAAAGTCCCGATGTGTTCATGATCCGGCCGTTGGAAGAGCTAAGTCTGTATGAGAATAACGGCTGGTTAACGCCCTTGGAATCGTATGCCGTATCGGACCCGCGTTACGACTTCGCCGATTTCTCTTCAACGGCGCTGGAATCGGTAACGGTGAACGGGAAGCTGCTTGCCGTCCCGCTATCGACGGAGCAGCAGATTCTATACTATCGCAAGGACCTGCTTGAGAAAAAGGGGATCGAAGTCCCGCAGACCTTAGAAGAGCTGGAAGCAGCGGTTAAACAGGTGCATGATCCCGAGCATGGCATGTACGGATTTGTCGCTAGAGGGCAGCGAAGCGCTCTCGTAACCCAGCTATCGTCATTTGTATACTCCGAGGGCGGTAATTTTCTAAGCGCAGATAAAGCGGCATTGAACACAAAGGAAACGCTCAAGGGGATTCAGCGATACGTTAGGCTGCTCGGAAACTATGGACCGCCCGATGCGCTCAGTTACAGCTGGCCGCAATCCGCAGATCTCTTTGCGCAAGGAAAGGCGGTATTTTTCACCGATGCCAGCGCGATCTACTCCCTGCTAGCGCAATCGGGATTAGCTAAGGAGAAGATCGGGTATGCGCTCTTTCCGGCAGGTGATGCCGGTCGCAAGCCGTACAGCACCACTGCATGGGCCATTGGCATCAATGCGAATTCTGCCCGCAAGGATGCAGCCTGGGCTTTCATCGAGTGGGCTTCGGGCAAGGACATGGTGCTGCAAGCCCAGAAGATCGGTAATCCGGGAGCACGGAGCTCGCTGTGGCATGACAAGGAAGGAATCTCCGGCTTTCCGGATGAGCTGATTCCGGTGATCAATGAATCCATTCCGATCGGAATGAGCTACGACCGTCCAAAAGTCATTCACGTGAAGGAAGCACGGGACATTATCGGCGGTATCGTGGTGAAGGGACTTATCGGTGAAGATGTCGGAGCTGCCGCGGAGTCGGCAAACGTCCAATTGCAAGAACTGATCGACAGCGAGAAGTAG	MKFAGRFCMVLWIVVIMVSAAGCMAGRNGADSRMSHQPERPFDNVRITAYMAKNPVADILRAHLPEFEKQTGIKVDFQALTNEQLSQKMFVQMTVGSESPDVFMIRPLEELSLYENNGWLTPLESYAVSDPRYDFADFSSTALESVTVNGKLLAVPLSTEQQILYYRKDLLEKKGIEVPQTLEELEAAVKQVHDPEHGMYGFVARGQRSALVTQLSSFVYSEGGNFLSADKAALNTKETLKGIQRYVRLLGNYGPPDALSYSWPQSADLFAQGKAVFFTDASAIYSLLAQSGLAKEKIGYALFPAGDAGRKPYSTTAWAIGINANSARKDAAWAFIEWASGKDMVLQAQKIGNPGARSSLWHDKEGISGFPDELIPVINESIPIGMSYDRPKVIHVKEARDIIGGIVVKGLIGEDVGAAAESANVQLQELIDSEK	PGPT0016545_5814	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_03518	942			hypothetical protein	ATGAAAAAAACAGTCATCCTGCTAACCAGCGCGGCCCTGATGTTTGCGACCGCCGCAGGCACGATCTCAGCCAAACCAAGCAACACGCCCCCCGGCAAGACAAGTAACGCGGCATCGCCAAAAGGACCAAAAGAAAAAGAAACTCGTAATGACAAGTTGCAAACCGAGGAAGTCGAGTCCTCTGATAAGTCCAGCCAAGTAGAAGACCAAGCTCAGGAATCCACAACGCCGGAAACAGAGCAAACAAACGATCCTTCCTCCGATAAAGTCGATTCCAAGAACAATGGTCACAAAGGATACAAAGGTTTACTAAATGCCATTCAAAACGTTGAGGATAAACCGGCAGGCGCCGTTCTAGCCAATATATTGCTTACCGAATATGCGGCCGAGTTAACGGACGAGCAACAAAAACAGCTTGAGGCCATTATTGAAAAGGACAAGGCGTTAGAAGCGGCGGCGGATATGCTCGAAACAAACGGCAGCGTGACTGAAGCCGTATATTTGCAAGAAGAAGCCATCAAAGCCAATTTTAAAAACCTGGATCTTTACAAAACCATGGGAAAGCTCAGTGAAAAGGCGGGTAAAAAGAATGGAGTTAAGCTGTATGTGAACGGCGAAGCTTCGGACACCGAACCGTTTGTTAAAAAAGGCAATACATATGTTCCTTTTCGCGCCATAGCCGAGGCTTTGGAGGCCGAGGTTATATGGAATCCTGAAAAGCGCTCCATCACCGTCTCGAAGGACGGAGTGAGCATCCAACTCCTGGTCGGCAGTAAAACAGCGACCGTCAATGGCAAGAAAATTTCGCTGAATGCCCCAGCTACTGTTACCAAGGGCAATACGTATGTGCCCGTACGCTTTATAAGCGAGGCCTTGAATGCAACCGTCAAGTGGGAATCGGAAAGTCAGACCGTTGTTGTCTATGAAGAGAAAGCAGAATAG	MKKTVILLTSAALMFATAAGTISAKPSNTPPGKTSNAASPKGPKEKETRNDKLQTEEVESSDKSSQVEDQAQESTTPETEQTNDPSSDKVDSKNNGHKGYKGLLNAIQNVEDKPAGAVLANILLTEYAAELTDEQQKQLEAIIEKDKALEAAADMLETNGSVTEAVYLQEEAIKANFKNLDLYKTMGKLSEKAGKKNGVKLYVNGEASDTEPFVKKGNTYVPFRAIAEALEAEVIWNPEKRSITVSKDGVSIQLLVGSKTATVNGKKISLNAPATVTKGNTYVPVRFISEALNATVKWESESQTVVVYEEKAE				NA	NA	NA	NA	NA
AK002_03519	822	mshD_2		Mycothiol acetyltransferase	ATGCTAACGACACAACAGCTAAACGACATTGAGCGATTGCAAGCCGAGTGCGAACTTCATGACCATGTCCAATTAAAGCTGAATTGGGAAATGCTCAGAGAACGCAACATGGGGAATCTGGATTTTTTTCATTATGAGGAAAAGGAACTTGTAGCGTTTCTAGGGCTATATCCTTTTGGCTCGACCGTCGAAGTATGCGGCATGGTAAAGCCTGCCGAACGACGAAAGGGGCATTTCCAGCGATTGTTTCATCTCGGAATGGAACAGGTAAAACTCGCCGGATACAAGAAAATCTTGTTGAACGCGCCAGCGGGATCCGATGCGGCTAAGGCTTTTTTGCATCAACTAGGTGCGGAGCATTCTTTTTCGGAGCATCAAATGACGTGGCAGGAAATGCCGCTTGAGGATTCGGACGGTATTCTTCTGAGGCAGGCAACATGGGAAGATTATGAAACAAGCGTGCGCTTATCCGTGGAAGCATTCGGATTGGACGAAGAGGATGCCAGAGCGATGGAGAGCCATCATTTTGCTGATAATACGGGTATGTTCATGATTGACGTAAACGAAGAAACGGTCGGGAAGCTTCGAATCAGCCGCGAAGAGGGGCAGGCGTGGATCTATGGTTTCTCCATATTGCCAGAGTATCAAGGCCGGGGAATAGGCAGAAAAGCGTTGCGACGAATCGTGAAGGAACAGAGCTCTGCCGGATACTCGGTACACTTGGAAGTCGAAACGAAAAACGACAATGCGCTGAGGTTATACGAGTCGGTTGGATTTCAAGCAGTGCACGCACAAGATTATTATCAATATGAATGCAGATGA	MLTTQQLNDIERLQAECELHDHVQLKLNWEMLRERNMGNLDFFHYEEKELVAFLGLYPFGSTVEVCGMVKPAERRKGHFQRLFHLGMEQVKLAGYKKILLNAPAGSDAAKAFLHQLGAEHSFSEHQMTWQEMPLEDSDGILLRQATWEDYETSVRLSVEAFGLDEEDARAMESHHFADNTGMFMIDVNEETVGKLRISREEGQAWIYGFSILPEYQGRGIGRKALRRIVKEQSSAGYSVHLEVETKNDNALRLYESVGFQAVHAQDYYQYECR				NA	NA	NA	NA	NA
AK002_03520	1491		COG3119	Arylsulfatase	ATGAATTCGACTCAACGCCAGGGAAGGCCGAATGTGCTGCTCATTACGGTCGATCAGATGCGCTTTGATTGCCTTAGCATAGCAGGTCACCCTGTGGTGGAAACGCCCAATCTGGACGAGCTTGCAAGGAGCGGCGTAAGGTTCAGCCGTGCGTATTCTGCCACACCCACCTGCGTACCTGCAAGAGCGGCGATCTTCACCGGCCAATCGCAGCGCGTTCACGGCCGCGTCGGCTATCAAGACTGCGTCCCGTGGAATTACAAGGAGACGCTGCCTGGGGAATTGGCTAAAGCCGGTTATCACACGCAGTGTATCGGTAAGATGCATGTTTACCCTGCACGCAATTTGCTGGGGTTCCACAACGTAATGCTTCACGATGGTTACCTGCATCACAACCGCAATAACCACGGCATTCCGATGCAGGAGCATTACGATCAAGTTGACGATTACTTGCAGTGGCTCCGCGAGAGGGTGCCGGGCGCCGATATGACCGATCTTGGTTTGGACTGCAATTCATCAACCGTCGCTCGTCCTTGGCATTTGGCGGAAATGCAGCATCCAACCAACTGGGTGGTAACGCAGTCGATTGATTTTTTGCGGCGACGGGACCCCGGGAAGCCGTTCTTCCTGTGGATGTCATTCGTCAGGCCGCATCCTCCGTTCGACCCTCCGCAGGCCTACTTGGATCTGTATGAGGATGTCGATATTCCGGAGCCGCCGGTTGGCGATTGGGCGGAGACGGAGGACCCGGATCTTGCAGGATACTCCCCTATAACGGGGCGGGGGCTGGTCCCGAAACGCCGTCTGCGTAAAGCGATGGCTGCCTATTACGCCCTGATCACGCATATCGATCACCAAATCGGACGTTTTTTGCAATCATTAAACGAATATGGGGAGCTAGGCAACACGGTGGTCCTGTTTACTTCCGATCATGGCGAGCTGCTGGGGGACCATCATTTATTCCGAAAGTCTCTTCCGTACGAAGGCAGCACCCGCGTGCCGTTTATCGTCAACGATCCCGGCAACCGTTTAGGCCTGAAGAGCGGCACGGTTTCAGATCATGTCGTGGAAATGAGGGACATCATGCCCTCGCTGCTGGAAGCGGCCGGCGTGCCTATACCGGAAACGGTCGAAGGCGAGAGCATCTGGAGACTAGCGTCAGCAGGAAGGGATGGAGGAAGCAAGCAGGATTGGCGTCCCCATCTTCATGGAGAGCACGCTCAAGGGCTTCAGTCCAATCATTGGGTTACCAACGGAAAGGAGAAATACATCTGGTTCTCCCAAACGGGCAAGGAGCAGTTCTTCGATCTGGTTGAAGATCCCAATGAGCTGCACAACGCGATCGGGGACGAAGATCGGCAGGAACGAATCCGGTATTGGCGTTCGGCCCTCATCCAAGAGCTTGAGGGACGCGAAGAGGGTTATACGGATGGCCAGCAGCTGATCACCGGCCGAAAGCCGGTAGCCGTATTATCCCATATTTTGAAATAG	MNSTQRQGRPNVLLITVDQMRFDCLSIAGHPVVETPNLDELARSGVRFSRAYSATPTCVPARAAIFTGQSQRVHGRVGYQDCVPWNYKETLPGELAKAGYHTQCIGKMHVYPARNLLGFHNVMLHDGYLHHNRNNHGIPMQEHYDQVDDYLQWLRERVPGADMTDLGLDCNSSTVARPWHLAEMQHPTNWVVTQSIDFLRRRDPGKPFFLWMSFVRPHPPFDPPQAYLDLYEDVDIPEPPVGDWAETEDPDLAGYSPITGRGLVPKRRLRKAMAAYYALITHIDHQIGRFLQSLNEYGELGNTVVLFTSDHGELLGDHHLFRKSLPYEGSTRVPFIVNDPGNRLGLKSGTVSDHVVEMRDIMPSLLEAAGVPIPETVEGESIWRLASAGRDGGSKQDWRPHLHGEHAQGLQSNHWVTNGKEKYIWFSQTGKEQFFDLVEDPNELHNAIGDEDRQERIRYWRSALIQELEGREEGYTDGQQLITGRKPVAVLSHILK	PGPT0006785_76	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-ORGANOPHOSPHATE_DEGRADTION,PGPT0006785-pehA-K01130	NA	NA
AK002_03521	846			hypothetical protein	ATGCCAAGAATCAAAATTGAATTGCTGAATCGTGAACAGAATGTGAGGGTGGAAGGTGACCGTCATTCGCAATCCTCCCATGACCGCGTGATGGAGCGGGAAGACGAGGATTTCACTTATCTGGCTTGTCAACAGCTGGAGTACGCCGCCGGCGACAAATTTAGAATTACGACGGAGCACCCGAATCGGTATTTGGTGGTTCAGTTGGATGAGGCACTTTTTCCGTCCCTGGTATATGTCAAGGGCACCAGCTGGGAATACGAAATTCCATTGTCGTTCAAGCAAGCCTATCCAGAGAAGGCATTTACGGGGACAAAACATTATGTTTCGGTACGCTATGCGGCGGAAAGCGAAATTACCCAATATCGAAATCTGGCATTGAATACCCATGACCAGAAGCATGATTCCAACGCTTACCCGCATGCTCACGCCAACGTGGAAACCAGAAATGATCCTACCTTCTTTGCACGCAATGCGATCGACGGCATTTATGCCAACTGCAATCACGGCTCCTATCCGTATCAATCCTGGGGAATTAACCAGCAGGCGGATGCGGAGCTGACGCTGGATTTCGGGCGAACGGTTGAGCTTGACCGGATCGGTCTTGTTTTACGCGGCGATTTCCCTCATGACAGCTGGTGGAAGGAAGTCACGATTGCATTCTCCGACGGTTCAACGGAGCAGCTCTATCCCGTGAAAAGCCGAAGCATCCAGTATTTTGATATCCAACCCCGCAAAGTGGAATGGTTAGTCCTCAAACGATTGATCAAAGGCGATGAGGCGCTTTTTCCGGCATTAACACAGCTTGAGGCCTATGGCAAAAACGTAGACGTAACGGAGAAGTAA	MPRIKIELLNREQNVRVEGDRHSQSSHDRVMEREDEDFTYLACQQLEYAAGDKFRITTEHPNRYLVVQLDEALFPSLVYVKGTSWEYEIPLSFKQAYPEKAFTGTKHYVSVRYAAESEITQYRNLALNTHDQKHDSNAYPHAHANVETRNDPTFFARNAIDGIYANCNHGSYPYQSWGINQQADAELTLDFGRTVELDRIGLVLRGDFPHDSWWKEVTIAFSDGSTEQLYPVKSRSIQYFDIQPRKVEWLVLKRLIKGDEALFPALTQLEAYGKNVDVTEK				NA	NA	NA	NA	NA
AK002_03522	693	ygeA		L-aspartate/glutamate-specific racemase	ATGAAAACAATTGGACTCATCGGAGGCATGAGCTGGGAGAGCACCGTGATGTACTATCAGATTATAAATGAGGTCGTAAAGGAACAACGAGGTGGACTGCATTCCGCAAAAATTTTGTTATACAGCGTGGACTTCCAAGAAATCGAAGAATGCCAGGCCGTTGGGAATTGGAACAAGAGCGCAGAAATTTTAGGAGATGTTGCCGTAAACCTTGAAAGGGGTGGTGCGGATTTTATCGTAATCTGCACCAATACGATGCATAAGGTTGCTCCAATCATTCAGCAAAGAATCCGTATTCCCATTATTCATATTGCAGATGCCACTTCGAAGAAGCTCATAGAAAGCGGCATAGATCACGTAGCTTTGCTTGGAACCAAATACACGCTGACTGAGGATTTCTACAAGGAAAAACTGATTGCAGCCGGCATTCATGTCCTGATTCCTGATGAAGATGACATACTACTTATCAACCATATCATTTATGACGAATTGTGCTTGGGTATTATTTCTCAACAATCCAAGAACGAATATTTGCGTGTGATCAACCAATTACAGAAGCAAGGTGCCCAGGGAGTCATACTTGGCTGTACAGAGATTGGTCTTCTTATTAAACAGGAAGATACGAATATCCCTGTTTTTGATACGACTCAGATTCATGGAACAACAGCAGCTCTATTTGCACTTGAAAAATAA	MKTIGLIGGMSWESTVMYYQIINEVVKEQRGGLHSAKILLYSVDFQEIEECQAVGNWNKSAEILGDVAVNLERGGADFIVICTNTMHKVAPIIQQRIRIPIIHIADATSKKLIESGIDHVALLGTKYTLTEDFYKEKLIAAGIHVLIPDEDDILLINHIIYDELCLGIISQQSKNEYLRVINQLQKQGAQGVILGCTEIGLLIKQEDTNIPVFDTTQIHGTTAALFALEK				NA	NA	NA	NA	NA
AK002_03523	654			hypothetical protein	ATGAAAATCCAAGTAGGAGAACAACAAATCGAATGTCATGTAGAATACGGTCCACGCAAAAAGCTATCGATCCATGTCCACCCATCGGGTTTGGTAACGGTGAAGGCACCGAATCGTACAAGCGATGAGATGGTGATCAACGCCGTAAGGCGGCATGGGAGTAAAATCGTGAAGCAATTGCAAGAGATCGAGGCAGCCCGAACGGCTCCGAAGGTCAAGGCATACGAGGATGAGGGCAAATTCCTTCATCTTGGGCAGTATTATTCGCTTCATGAGTTAATCGAGACGGACGGGCGAGCGGAAGAGGAGCTTCAACGGGATCTGAAGAAATTTTACTTCGCAAGCTGCAAGAAGGTGATCTCGGAACGCATCCGAATTTATCAGAAGCAGCTGAAAGTCACGCCGAGATCCTTCATGATCGAGGAGTCCAAAACGAAATGGGGCAGCTGCAGCTCGGCGAAGCATCTCACTTTCAACTATCGCCTCGCGATGGCGCCCATCGAGGTCATTGATTATGTGGTCATTCATGAACTCTGTCATCTCTTGCATATGAATCATGACCGATCCTTCTGGCGATGCGTCGGCAGCGTGATGAAGGACTACAAAGATAAGGAAGCCTTCCTTGCGAAATATGGACATGCCATGACTTTGTAA	MKIQVGEQQIECHVEYGPRKKLSIHVHPSGLVTVKAPNRTSDEMVINAVRRHGSKIVKQLQEIEAARTAPKVKAYEDEGKFLHLGQYYSLHELIETDGRAEEELQRDLKKFYFASCKKVISERIRIYQKQLKVTPRSFMIEESKTKWGSCSSAKHLTFNYRLAMAPIEVIDYVVIHELCHLLHMNHDRSFWRCVGSVMKDYKDKEAFLAKYGHAMTL				NA	NA	NA	NA	NA
AK002_03524	918	hprK_2	COG1493	HPr kinase/phosphorylase	ATGAAGTCGATCACCGTTCAAAGTCTTACGGAGTTAGTTCATTTGGAAGTGCTTGCTGGCGCCAATCGCATGGATCGAATGATTACCCGTCCGCAAACGCACAGACCGGGTCTGGAGTTTGTCGGGTATTTCGATTTTTTCCCGATGGAGCGAGTGCAGGTGCTCGGCCGTAAGGAGATTAACTATTTATTGACGCTTAGCATAGAAGAACGCAAGCTGCATATCGGGAATATCGTCAAATATCACCCGCCGTGCTTTATTGTCACCTCAGGACAGCAGGAGATCCCTTATCTGACTCTATTCTGCAATCAGGAAGGCATACCGTTGTTGAGGACAACCGAGACGACAACGGAGTTTATTGCCAAGTTGAACAGTTATTTGGTGAAGACGCTGGCTCCGGAGATGTCGATCCATGCGGTGTGCGTGAATGTATCCGGCATTGGGATCCTGCTCCGGGGGAAATCCGGTATTGGCAAAAGCGAAACGGCCCACACCCTTATCCGCCGGGGCCACCGGTTTGTGGCGGACGATATCGTGGTGCTCAAAAAGCTGGGCCCTTCGACTCTTCTTGGAACGCATAATGAGACAACCCGGGAGTTTCTGGCGCTGCGAAGCATCGGGTTGATCAATGTGGTGCGTCAATACGGGCGCACGGCTTTTCAAGATGAGACACGAATCGTGCTCGACATTGAATTGGTGCCTTGGCGTGAAAATTCCCTAAACAACGAGCTGGAGGCCGTGCCTCAATTTACGGAATATCTAGGCATCCAAATTCCTCATATCGAGGTTCAGCTACAGCCGGGGCGCGACGTAGCCAGTCTGATCGAGGCGGCGGCCAACAATTGGTATCTTAAACAACTCGGCTACAGTGCGGCCGAAGACTTTATGAAACGAATCGAAAACGAGATGCAATCGTGA	MKSITVQSLTELVHLEVLAGANRMDRMITRPQTHRPGLEFVGYFDFFPMERVQVLGRKEINYLLTLSIEERKLHIGNIVKYHPPCFIVTSGQQEIPYLTLFCNQEGIPLLRTTETTTEFIAKLNSYLVKTLAPEMSIHAVCVNVSGIGILLRGKSGIGKSETAHTLIRRGHRFVADDIVVLKKLGPSTLLGTHNETTREFLALRSIGLINVVRQYGRTAFQDETRIVLDIELVPWRENSLNNELEAVPQFTEYLGIQIPHIEVQLQPGRDVASLIEAAANNWYLKQLGYSAAEDFMKRIENEMQS				NA	NA	NA	NA	NA
AK002_03525	1365	tolB		Tol-Pal system protein TolB	TTGCAAACTGTTTCCCATGGTATCGTCCAAGAGTGGATTGCCTACACATCGAACCGCGGCGGATCGTTCGACATATGGCTGTACCGCCCTCGGGACGGTTTTGATTTTCAACTTACTCAAGGGCTCGGCGCGGAATTTTCGGTTCCCTATTGGTCGCCCGACCGGAGGAGAATCGCATTCATCGGTATCGGCAATGTGGTCCATGTGCTGGATACCTTATCGTTCACAGTAGCAAGAATTGATCAAATCGAACCGTACACGCTGCTGGACTGGTCTCCCGATAGCCGGTCTTTGGCGTATGTCAAGAATGATCGGATCGTCATTTATGATACGGCCTCACATCGAAGCTATTCCATCCCGGAGACTGGAGCAAAGGATGCCCAGTGGTTCCCTTCGGGCATGGAGCTTCTATTTGCGTCTCCTGATTCTGGCGGGGTTATGCAGCTCTACCGCATTCGGACCGATGGCACGGAACGGAGACAAATCACACATCTAACGGACGGACCGCTCCACGACGTTCGGATTTCCCCGGATGGAACCTTCGCGCTGTATACATCCCCTGGAGCAAGCATCTCCATGATTTCGACGGTGGATTTGGCAAACGGCACCATCTATGCATTGGAAGGCGGCCCACTCGCGAAAAACTATTTTCCCGTGTGGTCTCCTGATTCTAAAAGCATCGCTTACAGCGCAACAACCTACATCGAGCCAAATTACTATTCGCTCATCCAGATTGACAGCCGTACCGGTCAGGATCAAAGGACGGTTGCAGTTTCCAACTGTTTCGCCACGCCCGTCGATTGGTCGCCGGACGGTGCCAAAATCGCCTATTTGTCCGGGTGCACCGTTGAAGAATTCGCTAGTCAGCTTTGGATCGTCGATATCAGGGAACAGATGCCGATGAACGTCGTTAGCGGAGGCCGGATTACTGCCTTGCAATGGTCCCCAGGCGGCAGAAAAGTTCCGAAAAGCATGTTCACAAGCCTTGTATACCGGGTGTCCTTCCCGTATCCCGCAAATTGGCGGCCGGTCAGTGAAGAGAGATACGAGGGCTTCGACGGTTTCTTCCAGGTATCCGCGATTTCGTCCGGCGACCGGATTGCCGATGTATGCAGCTCCGAAGCTTTTCATCCATTAATGCCTTACGGTTCTTCTCCAAGGATTGTCCCTGCTATGATACAAAATCAAGAAGCGTGCTTCATTTATCCTTCAGCTGACCAGCCAACGGAGATGAATAACCAAGCAGCCCTTATTGTGAGATATCCAAGCCCTGTCCAAATCGGGGAAATGTTCTACCCATATTTCATCTTGTGGGCAGACGTTAACCATATCCGTCAAATCGGCGCGAGGCTGTCGTTCATCTAG	MQTVSHGIVQEWIAYTSNRGGSFDIWLYRPRDGFDFQLTQGLGAEFSVPYWSPDRRRIAFIGIGNVVHVLDTLSFTVARIDQIEPYTLLDWSPDSRSLAYVKNDRIVIYDTASHRSYSIPETGAKDAQWFPSGMELLFASPDSGGVMQLYRIRTDGTERRQITHLTDGPLHDVRISPDGTFALYTSPGASISMISTVDLANGTIYALEGGPLAKNYFPVWSPDSKSIAYSATTYIEPNYYSLIQIDSRTGQDQRTVAVSNCFATPVDWSPDGAKIAYLSGCTVEEFASQLWIVDIREQMPMNVVSGGRITALQWSPGGRKVPKSMFTSLVYRVSFPYPANWRPVSEERYEGFDGFFQVSAISSGDRIADVCSSEAFHPLMPYGSSPRIVPAMIQNQEACFIYPSADQPTEMNNQAALIVRYPSPVQIGEMFYPYFILWADVNHIRQIGARLSFI				NA	NA	NA	NA	NA
AK002_03526	330	csaA	COG0073	putative chaperone CsaA	ATGGCAACCATCGATGATTTTACCAAGCTGGATATTCGCGTCGGGACGGTCGTGGAAGCAGAGCCTTTCCCGGAAGCGCGCGTTCCCGCCATAAAAATGAAGATTGATTTCGGCCCGCTGGGGATCAAGCGTACAAGTGCACAGATTACGAATCGCTATGACGCGGATAGCGTTGTAGGAAACCAAGTAGTGGCCGTCGTCAATTTCCCGCCTAGACGCATTGCCGGCTATCAATCTGAGGTGCTTGTGCTCGGCGGCGTACCGGAGCAGGGGGACGTGGTGCTTCTGAAGCCGGATTTCGATCTGCCGAATGGAACGCCCATCGCTTAA	MATIDDFTKLDIRVGTVVEAEPFPEARVPAIKMKIDFGPLGIKRTSAQITNRYDADSVVGNQVVAVVNFPPRRIAGYQSEVLVLGGVPEQGDVVLLKPDFDLPNGTPIA				NA	NA	NA	NA	NA
AK002_03527	876			hypothetical protein	ATGATCACGCATAGCGAGGTAAAAGCGTATTTGAACCGATTAGGCATATCCGAAATCAAGGCTCCGACAAAGGAATATTTATTCGAGCTGCATAAAGCGCACGTGGCAAGAATTCCTTGGCAGACCCTGGATATTTTTGCCGGAAAACCGACTCCCATGGATATCCAAAATTCGGTACAACTGCTGATCCATCAACGAAGCGGTTATTGTTTTCATTTGAATGGAGCTTTTACCGCTCTTCTTCGAGCCTTGGGGTATGCGGTTAGTTGGCATAAGGCCGGCGTACAGCCCTTAGGACAAGAGCCCCGGATTAACGGCTTCCATCTCGGGTTAACGGTCAGCCTCATGAACGTAGAGATTGGGGAAGAAGAGTCTTGGGTTGTCGACGTTGGTCTCGGGGATATGCCATGGGAGCCGATCCCATTGAAATTCGGGAAATACGTACAGGGGCCTTTCACGTACGTGCTTGAGCCGTCTTCCGTAACGGATCAGGGCTGGCGGTTGATTCATGATCCCCAATATTCCTATGTAGGGGTAGATTACGCGCCTGAGGTTGTAAACAGCTTGGAATTATTTAAAACAAATCATGAATTTTACAGCCGATCGCCGGAATCCCCTTGGATGGATCTATTGGTTGTGAGGCAGCGGCACGATGTGGGCATGAACGAGCTCAAAGGCTGCATTTGGAAAAAATGGAACGGCAGCATTCTGGACACCGCAGAGGTCTCGTCGAAATCGGAGTGGCTCGAGATCCTGGCGGACGTATTTAACGAGCCGCTCGTCAACTATTCCATTCTAGAACGGGATCTGATTTGGGCAAAGGTGTGCAAGCAGCATCAGAAATGGTTGAGGCTTTTGGAAGATCAACGATCTTAG	MITHSEVKAYLNRLGISEIKAPTKEYLFELHKAHVARIPWQTLDIFAGKPTPMDIQNSVQLLIHQRSGYCFHLNGAFTALLRALGYAVSWHKAGVQPLGQEPRINGFHLGLTVSLMNVEIGEEESWVVDVGLGDMPWEPIPLKFGKYVQGPFTYVLEPSSVTDQGWRLIHDPQYSYVGVDYAPEVVNSLELFKTNHEFYSRSPESPWMDLLVVRQRHDVGMNELKGCIWKKWNGSILDTAEVSSKSEWLEILADVFNEPLVNYSILERDLIWAKVCKQHQKWLRLLEDQRS	PGPT0019890_112	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
AK002_03528	1425	gabR_2	COG1167	HTH-type transcriptional regulatory protein GabR	TTGTTTGATATCCTTTTACCTGAGCAGAGCGAGTTTCCGTTATACCAGCAGTTATACCTTCAACTTCGTGAGGGTATCCGAAACGGCGCAATTCCCGACGGACAACGATTGCCATCGGTACGATCCCTCCAGCTTCAGCTCAATATAAGCAAGACGCCGATCGAGACGGCTTATCAGATGCTGACAGCAGAAGGGTATGTGATCAGCAAACCAAGGTCGGGGCTTTACGTCCTGAATCCCTACAAGGAATTCCCATACTCCCAACAGCATCAACAGCCGCCCTCCATGACCACGATGTCAGTCATCCATTACCACGCGCATACCAATCCCAATGTCATCGATTTTAATCCAACCCGATTAGATCAAGCTGCCTTTCCGGTACGAATTTGGAATAAAATGCTCAAGGAAGCGCTGGACCACCATTTATGCGAGATCGGAATGTATGGGGATCCACAAGGCGAATACGCCCTTCGGCGCGTGGTTTCCGAATATCTGCGGAATTCCAGAGGGGTCAATTCAACGCCGGATCAAATTGTCATTGGTGCCGGAACGGCATATAGCATAGGCCTACTCTCCAGGATGCTGAAAGGGATGAAGCATGTTGCCGTCGAGGAACCGGGTTACAGCCTGGTACGGGATCAATTCCAGCTGAATAGCTGCGAGATTCTTCCGATATCGCTTGGCGATAAGGGGATCTCGCTTGACCGATTGGAGCAAAGCCATGCAGAGCTCGTGTACGTAACGCCTTCTCACCAATTCCCGACGGGAAGCATTATGCCGTATCCGGAGCGGGAACGATTGCTGGAGTGGGCGAATGCGAAAAATGCATACATCATCGAGGATGATTACGACGGCGAGTTTCGCTACCAAGGCAAGCCGATTGCTTCGCTGCAAGGATTGGATGATAACGGACGGGTGATTTACGCCGGCACCTTCTCGAAAGTGCTCACCCCCGCACTGCGAATGAACTATCTGGTTCTTCCACAGGCACTGCAGCATCAATTGACCCAAATGCAGCAGGAGGTGTTTTTTGCCCCATCGCGTGTGGAGCAGTGGGCGATGACCGCTTTTTTCGAACAAGGGCATTGGTTTCGCCATATTCGCAAAGTTCGGAACCTGTACAAGAAAAGACATCATCGGTTGATCGAGCTGATCGAGACTCATCTTGGCAAGTTTGTTGAAATAACGGGTCAGAATGCCGGGCTTCACCTTCAACTGCTCGTCAAAAAAGAAGCTACCTCGGAGGAATTGATTCAGGAGGCTGCGAAAGCCGGCGTGAAAGTATATGACTTGCGGAAGACGTGGATAAAGCAGCGTCAAGACGCTGGACAGTACCCGAGGATATACTTGGGATTTGCCAGCTTGAATGCGTCCGAAATGGAAACGGGCATTCGGCTGCTGCAAAAAGCCTGGAACATGAACTAA	MFDILLPEQSEFPLYQQLYLQLREGIRNGAIPDGQRLPSVRSLQLQLNISKTPIETAYQMLTAEGYVISKPRSGLYVLNPYKEFPYSQQHQQPPSMTTMSVIHYHAHTNPNVIDFNPTRLDQAAFPVRIWNKMLKEALDHHLCEIGMYGDPQGEYALRRVVSEYLRNSRGVNSTPDQIVIGAGTAYSIGLLSRMLKGMKHVAVEEPGYSLVRDQFQLNSCEILPISLGDKGISLDRLEQSHAELVYVTPSHQFPTGSIMPYPERERLLEWANAKNAYIIEDDYDGEFRYQGKPIASLQGLDDNGRVIYAGTFSKVLTPALRMNYLVLPQALQHQLTQMQQEVFFAPSRVEQWAMTAFFEQGHWFRHIRKVRNLYKKRHHRLIELIETHLGKFVEITGQNAGLHLQLLVKKEATSEELIQEAAKAGVKVYDLRKTWIKQRQDAGQYPRIYLGFASLNASEMETGIRLLQKAWNMN	PGPT0016790_3528	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
AK002_03529	612			hypothetical protein	ATGACAACGCCTATCCATCTTCGGCACAAAATAGGGCAAGGCCTATCCCCCCGTCAATTTACGGAGAGCATGAAGAGCCGGGAAATGAAACTGAGCAGCATCCCCAATACGAAGGAACAGTTTAGGCAAGTATATGACCGCTTTCAATGGGACGATGAAGAAGTTCAACGGTTCTTCGCTGGACGTAACGAGCGCGGCCAACTCCACTGCCTTATCCTCTGTACGGATTGGTGTCCGGATGTGATCTGGAATGTTCCCGTCTTGTTCCGGGTAATGGAATACAGCCGCATACCGACCGAAGTGCTTATCATGGAAGAGCATCAGGAAACGATGGATCTCTTTCTTACGGATGGTGGCCGTGCTCAACCGATCGCCCTCTTCCTTAATGCGGCTACCGGCGCGGTTCTTGGACAATGGGGCGCACGACCGGCATACATCCAAAACGTCATGGACGAGTTCAAAAGAAGAAATTACGATGATCAACAAGCCGGTTCATATCAGGAACAATGGGATCAGGTCTACACAAGGATCGGTGAACTCTACCATGACGGGAACGAATACCGGAAGGTCTTGCTTCAGGAGCTAAAGGAGCGGTTTACTTCATTCGCATGA	MTTPIHLRHKIGQGLSPRQFTESMKSREMKLSSIPNTKEQFRQVYDRFQWDDEEVQRFFAGRNERGQLHCLILCTDWCPDVIWNVPVLFRVMEYSRIPTEVLIMEEHQETMDLFLTDGGRAQPIALFLNAATGAVLGQWGARPAYIQNVMDEFKRRNYDDQQAGSYQEQWDQVYTRIGELYHDGNEYRKVLLQELKERFTSFA				NA	NA	NA	NA	NA
AK002_03530	933	ldh1		L-lactate dehydrogenase 1	ATGACAAAAAATGAAGCTCAGCGCCCGTCCCGCGTCGTGATCATCGGTACAGGAGCTGTAGGAGCAACGACTGCGTACACCTTATTCTTGCGTGAAAGAGTATCTGAACTGGTATTGATCGATGCCAACCATGACAAGGCTCTTGGCGAAGCCTTGGATATGAACCACGGCCTCCCTTTTGCCGGCGGGGTGAAACTTTGGGCTGGAGATTACAGCGATTGCAAGGATGCAGACATCATTGTCATTGCCGCAGGCTCCAACCAAAGACCGGGCGAGACGCGAATCGATTTATTGAAGCGGAATACGGCCATATTTGACGATATTATTCAAAATATCGTGAAATACAATGATCACGGCATCATTCTCGTCGCTACGAATCCGGTAGATATTCTGTCTTACGTCACATTGAAAAAGAGCGGCTTCCCGGTTAATCGGGTAATCGGCTCAGGTACTTTGCTCGACAGCGCCCGCTTCCGTTATTTGATCGGGCAAAACAAAGGCATTAATCCGCGCAGCATTCACGCCCATATCGTCGGCGAACACGGCGATTCCGAGCTGCCGCTCTGGAGCATCGCCAACATTGCCGGTATCGGGATCGATCTGACGGAAGATGAAAGAGATGATATCTTTGATCGTACCAAGAACGCCGCATATGAAATCATCAACGCCAAAGGCTCCACTTCCTATGCTATCGCATTGGCGCTTGACCGGATCATCGTCTCCATTTTGCAAAACGAGGGTTCCGTTCTCAATGTGTCTACGCTGCTTACAGACTACCATGGCGTGTCCGACGTATATCTTGGGGTGCCTTGCGTGGTTGACCGCACCGGCGTTCGGGAAATTCTTAGCCTCGAGTTTAACGACGAGGAATTGACCCAATTCCATGCTTCCGCTAACAAACTGAAAGAACAGATTTCCAAAATCTTCGAATAA	MTKNEAQRPSRVVIIGTGAVGATTAYTLFLRERVSELVLIDANHDKALGEALDMNHGLPFAGGVKLWAGDYSDCKDADIIVIAAGSNQRPGETRIDLLKRNTAIFDDIIQNIVKYNDHGIILVATNPVDILSYVTLKKSGFPVNRVIGSGTLLDSARFRYLIGQNKGINPRSIHAHIVGEHGDSELPLWSIANIAGIGIDLTEDERDDIFDRTKNAAYEIINAKGSTSYAIALALDRIIVSILQNEGSVLNVSTLLTDYHGVSDVYLGVPCVVDRTGVREILSLEFNDEELTQFHASANKLKEQISKIFE	PGPT0001760_2599	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
AK002_03531	594	eamB_1	COG1280	Cysteine/O-acetylserine efflux protein	TTGTTTATCCTTCCGCTGTTGACCTATGCCATTGTAGCTTCATTTACGCCCGGTCCCAACAACATTATTTCGATGACCAATGCACGAAGTTACGGTTTTCGAGCAACGATGCGCTTTATCGGCGGGGTTGCAGCCGGATGTTTGATCATCATGCTGCTGTCCAGCTACTTCAACTTGGCAATGTATCAATACATCCCGAAGATTCGATTGGTTATGAATATGATCGGTTTCCTGTATATGATTTATCTTGCCGTAAAAATCATGCGAAGCAGGCCGCAGGGGGATGCAGATGATAAGCCAGGTGGATTTAACAGCTTTACGTTCGGATTCATATTTCAATTCATGAATCCGAAGGTCATTTTATACGGGATTACGGCCGTATCGACCTTCGTGATGCCAATTGCAGCAACCCATGTGCAGCTGTTATTATTTTCGATACTGCTCACCATCGTTGGCATTTGCGCCAATATGACCTGGGCGCTATGCGGTTCGCTGTTCCAGAACCTGTTGTCCCGATATGAACGTACGTTCAATATATGTATGGGACTGCTTCTGATATACAGCGCATTCTCAATTTATGCAGCGAATGGATAG	MFILPLLTYAIVASFTPGPNNIISMTNARSYGFRATMRFIGGVAAGCLIIMLLSSYFNLAMYQYIPKIRLVMNMIGFLYMIYLAVKIMRSRPQGDADDKPGGFNSFTFGFIFQFMNPKVILYGITAVSTFVMPIAATHVQLLLFSILLTIVGICANMTWALCGSLFQNLLSRYERTFNICMGLLLIYSAFSIYAANG				NA	NA	NA	NA	NA
AK002_03532	558	sutR_2	COG1396	HTH-type transcriptional regulator SutR	TTGAAACCCATCAATCTGATACTGGCGAACAATTTAAAGCTGCTCAGGGAGCAGAGAAAGCTGAGTTTGGATAAAGTCGCGGAAATGACCGGCATCAGCAAGACGATGCTGGGTCAGATTGAACGCGGGGAATCGAGCCCCTCCATAACCACCGTATGGAAGATTGCCAACGGATTAAAGCTTTCTTTTTCGTCGTTGATCAATGAGCCGCATTCCGGTACTGTCGTGGTATCACGGGAAGAGGTGCAGGCACTGGTTGAGGATAACGGCCGGATTCGAATTTATCCGTATTTCCCGTATGAAGACGGGCGGCGCTTCGAGATGTATTCATTAGAAATGGAACATGGCGGTTATTTAAGTGCAGAGGCCCATATCGAGGGTACGGAAGAGTTTATTACCGTTTTCGATGGTGAGGTCACCATTCGTGTCGATCAGGAGGAATATACGGTAAAGCCAGGTGAATCCATCCGCTTCAAGGCAGACAAACCACATGTTTATCACAATTCCGGGGATTCCCTGAACCGGTTAAGCATGGTGATCCATTATTCCGGATCATGA	MKPINLILANNLKLLREQRKLSLDKVAEMTGISKTMLGQIERGESSPSITTVWKIANGLKLSFSSLINEPHSGTVVVSREEVQALVEDNGRIRIYPYFPYEDGRRFEMYSLEMEHGGYLSAEAHIEGTEEFITVFDGEVTIRVDQEEYTVKPGESIRFKADKPHVYHNSGDSLNRLSMVIHYSGS				NA	NA	NA	NA	NA
AK002_03533	777	ssuC_4	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	GTGAGCAATTATCTTAAAAAATGGTCCCTTCATATCCTGTTATGGATGGTTGGACTTGGCGTCTGGCATCTGCTGTCCCTTGCGTATGGCCCGGAAATTCTGCCGGGTCCCGTCTATACGGCAAAGGGCGGATACGAATTGTTGACGGACGGCACCTTGATTCAATATATCGGAATCAGTTCGTACCGCGTGCTGCTTGGCTGGACGTTTGGCAGTCTGCTGGCGATCCCGGTCGGAATCATGATTGGGAAGGTCGGACCGATCCGGGCTTTCGCCGAGCCCTTCCTCAATTTCATTCGGTTCATTCCTCCGATTGCGTTCATAACCTTGTTTCTGGTCTGGTTCGGCATCGGGGAGACTTCGAAGATCATGCTTATTCTGTATGCAACCTTCTTCATCGTGGTCTTGAATACGCTGACGGGCGTTTTATCCGTTGAGGAGGATAAGATCCGCTCCGCCCGCAGCATGGGGGCGTCCGAATGGCAGATTGTGCTGCATGTCGTCATTCCTGCAACCGTCCCTTTCATGTTCACCGGCATTCGGCTTGCCATGGGAACCTCGTTCATGGCGATTATCGGGGCCGAGATGATTGCATCCAATGAAGGCGTTGGTTATCTTATATGGAATTCACGATTGTTCTTCCGTACAGATTGGATATTTGTCGGCTTGATCTGCCTGGGGTTAATGGGGTTCCTGACAGACCGGGCCGTGGGGCTGCTCGGCCGCAAGCTGCTGTCCCGGTATGGGGTGGTCAGCGCAATTTCGCTGCGTCGGTAA	MSNYLKKWSLHILLWMVGLGVWHLLSLAYGPEILPGPVYTAKGGYELLTDGTLIQYIGISSYRVLLGWTFGSLLAIPVGIMIGKVGPIRAFAEPFLNFIRFIPPIAFITLFLVWFGIGETSKIMLILYATFFIVVLNTLTGVLSVEEDKIRSARSMGASEWQIVLHVVIPATVPFMFTGIRLAMGTSFMAIIGAEMIASNEGVGYLIWNSRLFFRTDWIFVGLICLGLMGFLTDRAVGLLGRKLLSRYGVVSAISLRR	PGPT0001145_6769	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK002_03534	783	cmpD		Bicarbonate transport ATP-binding protein CmpD	ATGAGAGCAGCGTCAAGGCAGAATGAAATCCATATTGAACAGTTGAATAAAAGTTACACGCAGGCATCAGCATCGGCAGGCGGTTTACATTATATCATCCAGGACGTCAACCTGGCGGTTAAAGGCGGGGAGTTCTTCGTCCTGCTGGGACCGAGCGGGTGCGGAAAGTCGACGCTGCTCAGTCTGATCGCCGGCTTCATCTCCAAGACATCAGGTCAAGTAAGGGTAGGGGAAAAGGAAGTGGAGCGCCCCGGCCAGGATCGTGCCGTCGTATTTCAGCAAGCCGACTCATCCTTGTTTCCGTGGCTGACGGTTAGGGAGAATGTGGAGTTCGGCCTCCGCATGAAACGGATGCCAGCTGAGATGAGAAGGGAGATATCCGGCGAGTTTATTGAGCTCGTGGGCCTTGCGGGACATGAAAGCAAATATCCGCGCGAGCTGTCAGGCGGCATGAAACAACGGGTACAGCTGGCACGGGTGTTGTCCAATGATCCCTCGATCCTGCTCATGGATGAACCGTTCGGCGCATTGGACGCGATGACAAGACGCACGATGCAAAGGGAATTGGTCCGCATATGGCAGGATACGGACAAAACCGTCATCTTCGTGACGCACGATATTCAGGAGGCACTTCTGCTGGGAGGACGCATCGGCATTATGTCTGCTGGACCTTCCTCGAAAATAACGGATATCTATGAGGTGCCGCTTGCATACCCGAGAGATTTGTCGGACCCGGCCTTCCATGCCCTGTACAACCAAATCCAATCGCATTTTGACGAGTAG	MRAASRQNEIHIEQLNKSYTQASASAGGLHYIIQDVNLAVKGGEFFVLLGPSGCGKSTLLSLIAGFISKTSGQVRVGEKEVERPGQDRAVVFQQADSSLFPWLTVRENVEFGLRMKRMPAEMRREISGEFIELVGLAGHESKYPRELSGGMKQRVQLARVLSNDPSILLMDEPFGALDAMTRRTMQRELVRIWQDTDKTVIFVTHDIQEALLLGGRIGIMSAGPSSKITDIYEVPLAYPRDLSDPAFHALYNQIQSHFDE	PGPT0001140_5691	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK002_03535	1011			hypothetical protein	ATGCGTAGACCTTATTTGAAACGATGGCATGCTTGGTTTCTGATATCGATGCTCGCAATGAGTTTGCTCAGCGGATGCGGTAAGGCCAGCGGCGACAGTCAAGAGAGTAAATTTCATTTGAAAATCGCTGATATTTCCACGAATGCGGTGTTTCGTATAGCTAAGAGCAAGGGGATCTTCGACAAACACGGGATTGATGCCGAGCTGGTGAACTTCGCAACGCCGGCCGAAGGCGTGAACTCCTTGTTTATTAAGCAGGTGGATGTTGCCTTCGGTGCAGACTTCCCACTCTTGAATGCTGTTAGCAAAGGCGATTACTCTATATTCGCCTCAACCGGAACAGCCACGGATTTGAGCGCAAGCGAATGGAAACTGTTCGTCCGCAAAGAGATTGCCAGCGCTGCCGATCTCAAGGGCAAGAAATTGAGTTTCTCCAGAGGCACATTCATTCCCTATCTGTGGGATGTTTATCTCGCCGATAACGGAGTTGCATTGTCGGATGTGGAGCTGATCGGGCAAGGAGGCTTCGACGAGGCCTACGTGGCGCTGAAAAAAGGCGAAATTGACGCCGCTTGGGTATATGGCGCGGTGCTGAACGAAAAGTTCGGTGCCCTTGCCGAAGCCAGAGAGCTATCGGATATGTCGAGGACGCCGGTAAGGCTTGGCACCGGTTTGATCGCTTCAAATGAATTAATCAACAGCAACAAGGAAGGATTCGTAGCGCTTCTGAAAGCGCTGGATGAAGCGTCGGCTTATGCCCAAGCCCATCCGGAGGAAACAGCGGATTTGATGTACGAAGAAGTCAAGCAGCCGAAGGAAGCAACCTTAAAGGATCTGCCGAAGAATCCATGGAGCATTGGATTTACGGACAAAGCCTATGCGGGATTGCGGGGGCAAAAGGAATACATGGTCGCTAACGGTATCATCGAGAAGGATTTCGAGCTGAATGATAAATTGAATCTGGATTTGGTCAGAACAGCCTTCCCGGATCGAGTCATTGATTTGAAGTAA	MRRPYLKRWHAWFLISMLAMSLLSGCGKASGDSQESKFHLKIADISTNAVFRIAKSKGIFDKHGIDAELVNFATPAEGVNSLFIKQVDVAFGADFPLLNAVSKGDYSIFASTGTATDLSASEWKLFVRKEIASAADLKGKKLSFSRGTFIPYLWDVYLADNGVALSDVELIGQGGFDEAYVALKKGEIDAAWVYGAVLNEKFGALAEARELSDMSRTPVRLGTGLIASNELINSNKEGFVALLKALDEASAYAQAHPEETADLMYEEVKQPKEATLKDLPKNPWSIGFTDKAYAGLRGQKEYMVANGIIEKDFELNDKLNLDLVRTAFPDRVIDLK	PGPT0001135_4991	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK002_03536	1455			hypothetical protein	ATGGGACATCCAACGATTTATCCAACGGGTACAACCGTATTTCAACCGGGGAAGGCGTGGAGTGGCTACACAATTTATCAAGCTGCGGATACCGGCGCCCTTCTGATTGACATGAACGGCAGGGAGGTTCACTTATGGAAAGGGCTCCGGGGATTTCCGAACAAGCTCTTTCCCGGAGGTTATGTGCTTGGGAGCACCTCAGAGCGCGATCCGAAATACGGGTTTCAGGATGAAACCAATCTGGTCCAGGTCGACTGGGAAGGCAATATCGTCTGGAAATTCGATCGTTATGAATACATAGAGGACCCGGGTCATCCGGCACAATGGATGGCTCGCCAGCATCATGATTACCAGCGGGAGGGCAATCCCGTCGGTTATTATGTACCCGGGCAGGATCCGAAGGTAGATTCCGGCAATACGCTTATTCTAGCTCACAAAAATGTGAAGCGTCCCGAAATTTCCGACATCGAACTGTTGGACGATACGATCATCGAAGTGGATTGGGAAGGCAATGTCATTTGGGAATGGGCCGTCAGCGATCACTTTGATGAACTCGGGTTTGATGAGGACGCGAAGCTAGCGTTATCCCGTGATCCGAATACCCGCGGCTTCGGAGCCCATGCCGGCGATTGGATGCATATTAACTCGGTATCTGTGCTGGGTCCTAACCGGTTTTATGATGCGGGGGACGAACGCTTCCATCCCGATAATATAATCTGGGATGCACGGGAAACGAACATTATTGCCATCATCGATAAAAGAACCGGGAACATTGTCTGGAAGCTTGGCCCCGACTATTCCACGGAGGAAACGAAGCATATTGGCTGGATTATCGGCCAGCATCATGCTCACCTCATACCGAAGGGACTTCCGGGCGAAGGCAATATTCTGATCTTCGACAACGGCGGCTGGGGCGGATACGGAAAGCCGAATCCGGAAGCGGCAGATGGCTTGAAAATAGTGCGGCGCGACCATTCGCGAATTCTGGAAATCAATCCCGCAACCTTAGAGATTGAATGGCAGTATACGCCGACGGAGGCCGGCTTTCAGGCTCCGCTGGACTCATACCGCTTCTACAGTCCGTATATCAGCTCAGCACAGCGTCTGCCCAACGGCAACACCTTGATTACCGAAGGAGCCGACGGCCGAATATTCGAGGTGACAAGAGAATTTGAACTGGCATGGGAATATATATCGCCTTATAAAAATATCCGCAACTCCAATATGGTCTACCGCGCATACCGGGTTCCTTATGAATGGGTGCCACAGCTTGAATTGCCCATAGAGACCGAGATTGCTCCGCTTGATGTGGCAGATTACCGTCTGCCAGGTGCCGCACCGAGAGGTGCCGTTACGACCGTGGAAGTAGAAGGCACGATCTCCTATGGGGAGGGTGCGTTATGCGTGGCCAGGACCGATGAAATAACGCAGAAAGAAAGGGATCGCGATGCGTAG	MGHPTIYPTGTTVFQPGKAWSGYTIYQAADTGALLIDMNGREVHLWKGLRGFPNKLFPGGYVLGSTSERDPKYGFQDETNLVQVDWEGNIVWKFDRYEYIEDPGHPAQWMARQHHDYQREGNPVGYYVPGQDPKVDSGNTLILAHKNVKRPEISDIELLDDTIIEVDWEGNVIWEWAVSDHFDELGFDEDAKLALSRDPNTRGFGAHAGDWMHINSVSVLGPNRFYDAGDERFHPDNIIWDARETNIIAIIDKRTGNIVWKLGPDYSTEETKHIGWIIGQHHAHLIPKGLPGEGNILIFDNGGWGGYGKPNPEAADGLKIVRRDHSRILEINPATLEIEWQYTPTEAGFQAPLDSYRFYSPYISSAQRLPNGNTLITEGADGRIFEVTREFELAWEYISPYKNIRNSNMVYRAYRVPYEWVPQLELPIETEIAPLDVADYRLPGAAPRGAVTTVEVEGTISYGEGALCVARTDEITQKERDRDA				NA	NA	NA	NA	NA
AK002_03537	543			hypothetical protein	ATGGAAGAAACGGATTGGGCCTTAATGGAAGAGGCGGATTGGCATTTTCGCAAAATGGTGCGGAGATTTGTCAAGGAGCGTGACAAAATCTCGATAGAAGGCGTATCGCTGCCAGGTTTGTTGATCCTGAACACCATATTACGGGATGGGGAGCAGAAGCTTGGGGAGCTTGCGGAACAGCTCGATTTTACGTCCGGGGCGGTAACGGCCTTGTGCGATAAACTTGAGGCTTGCGGGTTCGCGGTGAGAAGACGTAGCAAGAGCGATCGGAGATCGATTGTGCTGGACATCACGGATGCTGGAAGAGAAATGCTGAAGCGTAACCAATACATAGGCGGGCGTTCGATCGAACGAATATTCGGAGTATTCTCGCACGAGGAGCTGCGGGATCTGATCCATTATTGTGAACGGTTGAACGATCATCTGGAGGGCTTCTCTGATTTCGTGCTACGGCCGCCCCGTCCATCTTTCGATACGCCGGCAGCAAATGATCAAAGCAATCCAGGCTCACTGAAACGCTCGAACAAATTCATTTCTTACTAA	MEETDWALMEEADWHFRKMVRRFVKERDKISIEGVSLPGLLILNTILRDGEQKLGELAEQLDFTSGAVTALCDKLEACGFAVRRRSKSDRRSIVLDITDAGREMLKRNQYIGGRSIERIFGVFSHEELRDLIHYCERLNDHLEGFSDFVLRPPRPSFDTPAANDQSNPGSLKRSNKFISY	PGPT0013155_262	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK002_03538	981			Mannan endo-1,4-beta-mannosidase	ATGTTGATATGGATGCAGGGATGGAAGTCTATTCTAGTCGCGATCCTGGCGTTTGTGTCATTAGGCGGTGAACTTCCTAGTTCAGAAGCAGCCACAGGATTTTATGTAAACGGTACCAAGCTGTATGATTCAACGGGCAAAGCCTTTGTGATGAGGGGTGTAAATCATCCCCACACCTGGTACAAGAATGATCTGAACGCCGCTATTCCGGCTATCGCGCAAACGGGAGCCAATACCGTACGAGTCGTCTTGTCGAACGGGTCGCAATGGATCAAGGATGACCTGAACGCCGTCAACAGTATCATCTCGCTGGTGTCGCAGCATCAAATGATAGCCGTTCTGGAGGTTCATGACGCGACAGGCAAAGATGATGATGCTTCCCTTGAAGCGGCTGTCGACTATTGGATCGGCATCAAAGAGGCCTTGATCGGAAAAGAAGACCGCGTCATCGTCAATATTGCCAATGAATGGTATGGAAATTGGAACAGCAGCGGATGGGCCGAGGGTTATAAGCAGGCCATTCCCAAATTAAGAAATGCGGGCATTAAGAATACGTTGATCGTTGATGCAGCGGGATGGGGTCAATACCCGCAATCCATCGTGGATGAGGGGGCAGCGGTATTTGCTTCCGATCAACTGAAGAATACGGTATTCTCCATCCATATGTATGAGTATGCCGGTAAGGATGCCGCTACGGTGAAAACGAATATGGACGATGTTTTAAACAAAGGATTGCCTTTAATCATTGGGGAGTTCGGCGGCTATCATCAAGGTGCCGATGTCGATGAGATTGCTATTATGAAGTACGGGCAGCAGAAGGAAGTGGGTTGGCTGGCTTGGTCCTGGTACGGAAACAGCCCGGAGCTGAACGATCTGGATCTGGCTGCAGGGCCAAGCGGAAACCTGACCGGCTGGGGGAACACAGTGGTTCATGGAACCGACGGAATTCAACAAACCTCCAAGAAAGCGGGCATTTATTAA	MLIWMQGWKSILVAILAFVSLGGELPSSEAATGFYVNGTKLYDSTGKAFVMRGVNHPHTWYKNDLNAAIPAIAQTGANTVRVVLSNGSQWIKDDLNAVNSIISLVSQHQMIAVLEVHDATGKDDDASLEAAVDYWIGIKEALIGKEDRVIVNIANEWYGNWNSSGWAEGYKQAIPKLRNAGIKNTLIVDAAGWGQYPQSIVDEGAAVFASDQLKNTVFSIHMYEYAGKDAATVKTNMDDVLNKGLPLIIGEFGGYHQGADVDEIAIMKYGQQKEVGWLAWSWYGNSPELNDLDLAAGPSGNLTGWGNTVVHGTDGIQQTSKKAGIY	PGPT0018725_881	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018725-manA-K01218	NA	NA
AK002_03539	1200	ce-ne1	COG2942	Cellobiose 2-epimerase	ATGACATTGACTTTACATACCCTGGGTTCTGAAATCCGAAAAGAATGGCTTGAGCATATCCTGCCTTTTTGGGGAGGATTGAAGGACGAAACCAACGGCGGTTTTTACGGCCAAGTGAACGCCGATTTAAAGATCGATGAACAAGCAGCCAAAGGCGGGATTGCCTGTTCAAGAATTTTATGGAGCTTTAGCGCAGCCTATCGGACGACGGGGCACGAAATCTACGTAGAGAATGCCAGGCATGCCTTTCAATTTCTCGCGCGCCACCTCATTGACCGCCAATATGGCGGACTGTATTGGATGGTGGATTACAAGGGAGTCCCGACAGATACCAGGAAACATATCTACAATCAAGCGTTCGGGGTATATGCATTAAGCGAATACCACCGCGCTTCCGGGAACCAAGAGGCATTGGATCTGGCCAAAGAGCTGTACCGTCTGATCGAGAGTAAGGGGTATGATGCGAAACGGCAGGCCTACAAGGAAGAGTTCGACCGGGAGTGGAACGAGCAGCCCAACGAAATGCTTAGCGGCAACGGCGTGGTCGCGCATATCACGATGAATACGCATATTCACGTCCTGGAAGCTTACTCCACGCTTTATCGGGCTTGGCCCGAGGCGGTGGTCCGAGAATCGCTTCATAACCTGCTGTCCATTCTGTACCATCATATTTTCGATGCTGATCGGAGACGTTTAGGGGTGTTTTTTGACAAGGATTGGAACCCGCTCGTGGATGTCACTTCATTTGGCCATGATATCGAGGCGAGCTGGTTGATTGACGAGGCGCTTGATGTTATCGGAAGCACGAATCCGGATTATAAGCGCATGGTTCTGGACTTGGCTTATGCCGTTTCTGAACGGGCCGTGCAGCAGGATGGTTCGCTTATGAATGAGCAAGAAGGCTCACATCTGGACACCTCCAGAATTTGGTGGGTCCAGGCTGAGGCTATGGTCGGTTTTTTCAATGCCTATCAGCGTACGGGAGATATTCAATTTCTAGAACAGGTCTTCAGAATGTGGAATTATACGGAAAAATATATTATCGATTCCCGCCCCGGCAGCGAATGGTTTTGGTCCGTTAATGGGAACGGAGAACCGGATCAGCATGAGATGGCCGGACCATGGAAATGTCCGTATCATAACAGTCGATTTTGCTTGGAAATCTTAAATCGAATCGAACAGATAAGCAGCAAGCTCTAA	MTLTLHTLGSEIRKEWLEHILPFWGGLKDETNGGFYGQVNADLKIDEQAAKGGIACSRILWSFSAAYRTTGHEIYVENARHAFQFLARHLIDRQYGGLYWMVDYKGVPTDTRKHIYNQAFGVYALSEYHRASGNQEALDLAKELYRLIESKGYDAKRQAYKEEFDREWNEQPNEMLSGNGVVAHITMNTHIHVLEAYSTLYRAWPEAVVRESLHNLLSILYHHIFDADRRRLGVFFDKDWNPLVDVTSFGHDIEASWLIDEALDVIGSTNPDYKRMVLDLAYAVSERAVQQDGSLMNEQEGSHLDTSRIWWVQAEAMVGFFNAYQRTGDIQFLEQVFRMWNYTEKYIIDSRPGSEWFWSVNGNGEPDQHEMAGPWKCPYHNSRFCLEILNRIEQISSKL	PGPT0018730_166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_FRUCTAN|MANNAN_BREAKDOWN,PGPT0018730-cbe|mbe|bcfe-K16213	NA	NA
AK002_03540	1005	exuR_4	COG1609	putative HTH-type transcriptional repressor ExuR	ATGAACAAAAACATAACGATGAAGGACATCGCGGAGCAAGTTGGCGTCAGCACGGTGACCGTCTCGAAAGCCCTGAACGACAAGGAAGGCGTAAGCGACGAGTTAAAGTCAAGAATCAAAGCCGTCGCCAGCGAAATGGGCTATCGGGTGAACACCGTTGCCAGGTCCATGCGCGAAGGGCTGACTTACAACATCGGCGTCATCATTCCCGAACGTTTTACCGGACCCGACCAATCGTTCTATCTGCGCGTCTATCAAGAAACCTCCAAGGGATTGGAAGACTACGGGTATTACGGCATACTTCATATTTTAAGCAGCTCGGATGAACAGGCCTTGCAGCTGCCGCGCATCTATTATGATCGCAAAGTGGACGGATTCATTTTGCTGGGACAGATCAGCAAGCCTTACATCGAGATCATGCACGCCATCGAACCGCCGATTTTGTTTCTGGACTTCTACGATGACCATTCGGATATCGACGCGGTGGTTTCCGATAATTTTTACGGTGCCTATGAACTTACCAATTACCTGATCCGGCAAGGACATCGCAACATTGCCTATGTGGGCAGCTTGCATGCCACAAGCAGCATTCAGGATCGGTTCCTGGGTTACTATAAATCGCTGCTGGAGCATCATATCGCACTTCGGCAGGACTGGGTGATCAACGACCGGAATGAGCACGGCAATTATATCGACATCGAGATTCCGGATGAATTGCCAACAGCTTTCGTATGTAATTGTGATCAGGTCGCCTATTTGGTTGTGCAGAAGTTGCAAGGCATGGGTTACCGAATTCCCGATGACTGCTCCGTCGTTGGTTTTGATAACGATATCTACGCTACACTGACCGTCCCGCACCTGACGACGGTTGAGGTCAATATGAAGCAGCTGGCTCAAACGTCGATCCAGTCCATCTTAAGCAAAATCAGCACCCCTGATACCAAATTCGGCAGAATTGTCGTGAAGGGCAAGATCATCTATCGTTCTTCCGTCGCCAAGATGTAA	MNKNITMKDIAEQVGVSTVTVSKALNDKEGVSDELKSRIKAVASEMGYRVNTVARSMREGLTYNIGVIIPERFTGPDQSFYLRVYQETSKGLEDYGYYGILHILSSSDEQALQLPRIYYDRKVDGFILLGQISKPYIEIMHAIEPPILFLDFYDDHSDIDAVVSDNFYGAYELTNYLIRQGHRNIAYVGSLHATSSIQDRFLGYYKSLLEHHIALRQDWVINDRNEHGNYIDIEIPDELPTAFVCNCDQVAYLVVQKLQGMGYRIPDDCSVVGFDNDIYATLTVPHLTTVEVNMKQLAQTSIQSILSKISTPDTKFGRIVVKGKIIYRSSVAKM	PGPT0017992_12356	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
AK002_03541	1164	pbuE_3	COG2814	Purine efflux pump PbuE	ATGAATCTGAAAGTATTAATTCTAGCGATTTCGACGATATCCGTCGGGCTGGTTGAACTTATTGTTGGCGGGATACTGCCGCTCATTGCGGACGACTTGCATATTTCACTCGGTACAGCGGGTCAGCTGATTACCGTGTTCGCCCTGGTCTATGCGATAGCGGGACCGGTGCTTCTTGCGCTGACGGCAAGAGTGGAGCGCAAACGGCTCTACATGATTTCCTTGTTTATTTTCTTTATTGGTAACTTGCTGGCTTATGTAAGCCCGAACTTTACGCTGCTCATGGCAGCCAGAATCTTAACCGCGATGAGTACGGCGCTGATTATCGTGTTATCTTTGACGATTACCGCCAAGGTGGTTGAGCCTGCACATCGCGCTAAAGCCTTGGGCGTTATCTATATGGGGATTAGTTCGTCATTGGTGCTAGGCGTGCCGCTCGGCATCCTGATCAGCGAGGCTTTCGGATGGCGGGTTTTGTTCCTGGGTATCGGCTTCCTGTCGATCGGTTCCATGATTCTGATCTACATGTTCCTGGACCGAATCAAGCCTGAAAATGTTACGCCGTTATCCGTTCAGATCAAGGCGCTGGGCAAGATGAAAATCGCCGGTGCGCATCTGGCCACCTTGTTCATGCTTGCAGGGCACTACACCATATATGCGTACTTTACGCCGTTTCTTGAATCGGAGCTTGGTCTGAGTCCTTATTGGATCAGCATCTGTTACTTCCTGTTCGGACTATCCGCCGTCGGTGGCGGGGCGTTCGGCGGCGCGCTTGCGGATCGGCTCGGATCGCATAAGAGCATCGTGATCATCATTACGTCATTCATGCTGGTATTGTTCGTGCTTCCGTTATCCACATTTTCGATTGGCGTGTTTTTAGTCGTGATGATGGTATGGGGAGCATTAAGCTGGAGCCTGGCTCCTCCACTGCAGAATTATCTGATTCAAGTGGATCCGGGTTCTTCCGATATCCAGCAAAGTTTTAACAATTCCGCTCTGCAAATCGGCATCGCATTGGGCTCTGCCATTGGCGGCCTCGTGTTAGAGCAGGGAGGCACCGTAGCCAGCACGGCCTGGGTCGGCGGGGGGATCGTCATCGTGTCCCTGGTTTGTGCCGTTTATTCCTTGACGAGACCTGCGCTAACGTTGAAGACTAGCAAATAA	MNLKVLILAISTISVGLVELIVGGILPLIADDLHISLGTAGQLITVFALVYAIAGPVLLALTARVERKRLYMISLFIFFIGNLLAYVSPNFTLLMAARILTAMSTALIIVLSLTITAKVVEPAHRAKALGVIYMGISSSLVLGVPLGILISEAFGWRVLFLGIGFLSIGSMILIYMFLDRIKPENVTPLSVQIKALGKMKIAGAHLATLFMLAGHYTIYAYFTPFLESELGLSPYWISICYFLFGLSAVGGGAFGGALADRLGSHKSIVIIITSFMLVLFVLPLSTFSIGVFLVVMMVWGALSWSLAPPLQNYLIQVDPGSSDIQQSFNNSALQIGIALGSAIGGLVLEQGGTVASTAWVGGGIVIVSLVCAVYSLTRPALTLKTSK	PGPT0021080_291	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021080-pbuE-K18567	NA	NA
AK002_03543	426			hypothetical protein	ATGAGAGCAAGCATATCCGTACTTACAATCGGCGTTGATGACCTGGAACGATCCCTGAAGTTTTACCGTGACGGGCTCGGGCTTCCGACCGAAGGAATCATTGGCACTGAATTCGAGCATGGGGCTGTAGCATTTTTTGACCTGCAAGCAGGCGTGAAACTGGCGATATGGAATCGCAAGGATCTGTCGGTTGAAGCGAATGTTCCCTTATCGTCCCCAAGCTCTTCGGAATTCACGATCGGCCACAACGTCGGCAGCAAAGAAGAAGTGGATGAGGTGATGGAGCAAGCCAGTAGAGCGGGCGCGACCGTAACCGTACCGGCACAAGACACCTTCTGGGGAGGCTATTCCGGTCATTTTCTCGATCCGGACGGGCATTTGTGGGAGATTTGCTGGAATCCTGCATGGGAGGTTGATCTTTCGTAA	MRASISVLTIGVDDLERSLKFYRDGLGLPTEGIIGTEFEHGAVAFFDLQAGVKLAIWNRKDLSVEANVPLSSPSSSEFTIGHNVGSKEEVDEVMEQASRAGATVTVPAQDTFWGGYSGHFLDPDGHLWEICWNPAWEVDLS	PGPT0028555_689	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
AK002_03544	804			hypothetical protein	ATGCCTGTACAAGCACCGGCCATAGAGATTCAATCTCCTGCTTCAGATTATGCCTATACGGAATATAGGCCGTGCCAGCCATTGATGCCATATGTAGCCTGTTATTGGAGCTTGGAATACCGAGTTACGTCCATTCAAGCTCCGCTCCATCGCATCCTTCCTGACGGTTGCGTGGATATCATATTTAATTTGAAGGCACGGACCGCCTCGGCCTCCGGCTTCGTTACGGGTCTGATGTCCTGTTATGAAGCGGCGATACTCACGCAGGAGCAGTCTCTGTTCGGTATTCGCTTTTTTGCGGAAACCGTTCGCCCGTTCATCCAATTTCCCGCTTCCGAATTTAGGGAGGGGCCCGTTCTCCTGGAAGAAGCGTGGGGGGCACAGGTGAATCAATTGAACGAGGAAATGGTTACAGCTCTTGACTCCGCCCGACGCATCGAGCTGATTGAGACGTTTTTATTCAACGTGTTAAGTCGGAGCAACGTTTGTTCCGAGCCGCTGGTGGAGCAAGGCATGCAGCATGTATACGCCTCCAAGGGGAGAATAACGGTTCATGCCTTGGCCGAAAAACTGAATTACAGCGAGAGAAACATAAGAAGAACGTTTCAGAAGGAATTGGGCATGAAGCCGAAGGAAATGTCGGACATCATTCGATTTCAGAATTTGCTGCAGGAGATGCGCCGTTCCAAACCTCACCGGTTTCCAGATATCGCTGCCCAATACGGATTTTATGATCAGCCTCATTTTATCAACAGCTTCAAGCGATTATACGGCATGTCGCCGAAACAGGCGTTTCAACCATAA	MPVQAPAIEIQSPASDYAYTEYRPCQPLMPYVACYWSLEYRVTSIQAPLHRILPDGCVDIIFNLKARTASASGFVTGLMSCYEAAILTQEQSLFGIRFFAETVRPFIQFPASEFREGPVLLEEAWGAQVNQLNEEMVTALDSARRIELIETFLFNVLSRSNVCSEPLVEQGMQHVYASKGRITVHALAEKLNYSERNIRRTFQKELGMKPKEMSDIIRFQNLLQEMRRSKPHRFPDIAAQYGFYDQPHFINSFKRLYGMSPKQAFQP				NA	NA	NA	NA	NA
AK002_03545	444			hypothetical protein	ATGAAATGGCTTGGAGTCGGCTTCGCCATGTTTCTGGCGTTGGCGCTGTTCCCTCAGAGTGCAGGCGAACTCGTTCATCATCATGCATCGTACATAGAGGAAGTTGAGGGTGCTGACAACAACACTCCATTTACGGTGCAATATATAGACTTGGATAAGTACCAAAGCGTCAATGCCTATGAAAACACGTTTACCACCATGCCGGAGCAGGGCAGCAAATTAACCGTTAAGGTTCATAACAAGAACAGCACTGGCCACGTGATGCTGAAGGTCTACCGGGGAACGGAGGAATTCGGATACGCGGATGTCAAAGCCGGCACGGAGGGAACCCGGACATTCGCCATGCATCATGGGCGTGGAGTAACGGGGGATTGGAAGGTTTACATTACGTCGCGAGACGGTCAATTTATGAACCTGCAGATTCAAGCAGGACAGCATGATTGA	MKWLGVGFAMFLALALFPQSAGELVHHHASYIEEVEGADNNTPFTVQYIDLDKYQSVNAYENTFTTMPEQGSKLTVKVHNKNSTGHVMLKVYRGTEEFGYADVKAGTEGTRTFAMHHGRGVTGDWKVYITSRDGQFMNLQIQAGQHD				NA	NA	NA	NA	NA
AK002_03546	1221	dapL_2	COG0436	LL-diaminopimelate aminotransferase	ATGACGAATCAAACTTCAAAGCGATCATGGCGTGCAGACAAATTATCACAGATCGGTTCTTCGATATTTGCCGAGGTCAGCGAATGGAAACAAGAAGCTGCCCAGGCGGGAAGACATATCATCGATTTGAGTATCGGCAGTCCTGACCGTGGTCCTTCTGACGATATACGCGAGATCCTGAGCCAAGAAGCGCTAAAAGAAGATAACTATACATATCCGGGCACCAGAGGAACCATGGAATTCCGAGAGCAGTCGGCAGCGTGGATGAAGCACCGCTTCGGCGTGAACGTCGATCCCGATACGGAAATACTGGCCTTAATGGGCTCTCAGGACGGATTATCGCATCTGGCCCAAGCCATATGCAATCCGGGGGATTTGGCTATTGTGCCGAATCCGGGATATCCGATTTATGCCGGAGCCCTTGCGATCGCAGGGGTAACGCCTTGGTATTTGCCACTGAAAGAAGAGCGGGGGTTCGTGCCCGATCTGGACAGCATACCGGAGGAGATTTGGGTGAAAGCGACCTTCATCCTGCTGAATTTTCCGGGGAATCCGATTGCGGTTCAGGCCGATCTTGCTTTTTTTGAAAAGCTGGTCGGTTTGGCGAAAAAATGGGACGTGCTCATCGTCCATGACCTGGCCTATTCCGAAATGGGCTTTGACGGTTATCGTCCGATAAGCGTACTGCAGGCTCCAGGCGCCATCGACATTGCGGTGGAGTTTCATTCCTTCTCCAAAAGCTTTAATATGGCAGGCTGTCGCATCGGTTTTCTTGCCGGTCATGAGGAAGCTGTCGGCGCGCTAAGGGAATATAAAAGCAACATCGATTTCGGCGTGTTCAAGCCGGTTCAGACGGCGGCGGTCCATGCCTTGCGTCAAGCCATGGCTGCTTCCCACGAAGAACGAGGTGTTGCTTCGCTGTATGAACAGCGCCGTGATGTCCTCGCAGCTTCCCTGGCCGAAGCGGGATGGGACGTCCCTAAACCGCAGGCCACGATGTTTCTATGGGCTCGGCTGCCTGAAGCTTTTCGCGAGGAAGCATGGAGTTCGCGGCGGTTCGCCCGCGAATTGCTGTTGAATACAGGCGTAGCGGTTATTCCAGGAGATGCTTTTGGCTCTGAAGGTGAAGGCTACGTGCGAATCGCGCTGGTCCAGGAAGAGGAAGCACTGCGCGAGGCGGCGGTGCGCATAGGGAAATTTATTGGAGGTGTTTCGCCGTAA	MTNQTSKRSWRADKLSQIGSSIFAEVSEWKQEAAQAGRHIIDLSIGSPDRGPSDDIREILSQEALKEDNYTYPGTRGTMEFREQSAAWMKHRFGVNVDPDTEILALMGSQDGLSHLAQAICNPGDLAIVPNPGYPIYAGALAIAGVTPWYLPLKEERGFVPDLDSIPEEIWVKATFILLNFPGNPIAVQADLAFFEKLVGLAKKWDVLIVHDLAYSEMGFDGYRPISVLQAPGAIDIAVEFHSFSKSFNMAGCRIGFLAGHEEAVGALREYKSNIDFGVFKPVQTAAVHALRQAMAASHEERGVASLYEQRRDVLAASLAEAGWDVPKPQATMFLWARLPEAFREEAWSSRRFARELLLNTGVAVIPGDAFGSEGEGYVRIALVQEEEALREAAVRIGKFIGGVSP				NA	NA	NA	NA	NA
AK002_03547	1206	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGACCAGATTGAGAGAAACCATTTTTATTATCGCATTTACGTTTGCAGCCTTTGTGCTGGGTACCACCGAATACGTCATTGTTGGATTATTGAAGGACATTAGCGCAACTCTCAGCATTTCGCTTGCGGCTGCAGGTGTCCTCGTATCCTGCTTTGCTATCGCTTACGCGCTCGGAACGCCTTTTGCAGTGACGCTGCTCGGACGCATTCCGCGGCATGTTACCATCCTGTCAGCGTACATTGCGGTGTTGGTGTTTAATTACTTGACCATCTTCGCCACCACGTATCCTGTCATGCTGTTCATTCGCATCATCACCGCCATTCTGTGCGGATTGACCTTGTCGCTGGCCATTGCCGCAACCAGCGAGCATATGAGCGCTTCCCGCAGGGCTGGCGCGGTTGCCTGGATCATTGGAGGTTTTTCCATAGCGAATGTCCTGGGCGTTCCCGTCGGAACGCAGATCGGCCAATTGGCTGGATGGCAAACCGCTTTTATCGTTACCTCACTTGTGGGGATCATCCCGCTTGCGTTAATGTTAGTCGTTATGCCCAAGAGCAATACGATTAGCGTAAGCTCCATGAAGCAGCAATTTGCCTTATTCAAAAACCAACGGATTCGTCTTGCATTCTTCATTCCGGTCTTCGGCGTAGGCTCCGTATTTATCGTATACACGTACATCACGCCGCTGTTAGAGAACGTGCTGGGGATACCTCAGCAATGGATCAGCACCGTCCTGCTGGCTTACGGCGCTTTCACGATTCTAAGCAACTGGCTTGGCGCCAAGGTAGCGCAAGGCAATTCCCGTGTAAAATTGAAAGTGATTTTCACCATCCAAGCGATGATTATGACGGCTCTGGCTCTCACCCTATCACTCCCGTGGATGGCATTGGCATCCTTGATGCTGGTCGCCTGCTTCTCCTTTGCGCTCAGTACCGCCGTTCAGTTATACCTGATTGACCTGGCAGATGAATCTTCGCCCGGCTCCAAGGACTTCGCATCCACGCTCATGCCGGTTGCATCCAACATGGGAATTGCGCTCGGCTCCCTTCTGGGCAGCCTGGTCGTGGACAGCATTGGCCTGGCCTACCTGCCGTGGGCCGCAGTTGCGTTCGCTATCGGAGCTTTTGTCATAACTTCCCGCTGCCATCAGCTCGATCAGGAGCAATCGGAGTTAATGCTCCTGACATCGGTTAAAGCTTCATAG	MTRLRETIFIIAFTFAAFVLGTTEYVIVGLLKDISATLSISLAAAGVLVSCFAIAYALGTPFAVTLLGRIPRHVTILSAYIAVLVFNYLTIFATTYPVMLFIRIITAILCGLTLSLAIAATSEHMSASRRAGAVAWIIGGFSIANVLGVPVGTQIGQLAGWQTAFIVTSLVGIIPLALMLVVMPKSNTISVSSMKQQFALFKNQRIRLAFFIPVFGVGSVFIVYTYITPLLENVLGIPQQWISTVLLAYGAFTILSNWLGAKVAQGNSRVKLKVIFTIQAMIMTALALTLSLPWMALASLMLVACFSFALSTAVQLYLIDLADESSPGSKDFASTLMPVASNMGIALGSLLGSLVVDSIGLAYLPWAAVAFAIGAFVITSRCHQLDQEQSELMLLTSVKAS	PGPT0028991_1531	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
AK002_03548	330	yhjQ_1	COG1145	putative cysteine-rich protein YhjQ	ATGCCACACGAATCATTTCAAAAATGCATCGAGGAATGCTTGCGCTGTATGGTAGCTTGTAACCATTGTTACACCGCATGTTTGGAGGAGCAGGACGTTGCGATGTTGAAGGAATGCATACGATTGGATCGACAGTGCGCGGATATTTGTAATTTTGCGGCTCAGGCCATGTCCACGAACAGCATGTATGCCAGAGAGATATGCAGGATCTGTGCCGATGTTTGTGAAGCTTGCGGTAACGAGTGCAAGAAGCATGACGCTAAGCACTGTCAGGAATGTGCGGAAGCCTGCTTCAGATGTGCAAAGGCATGCCGGGAGATGGCGGCTTAA	MPHESFQKCIEECLRCMVACNHCYTACLEEQDVAMLKECIRLDRQCADICNFAAQAMSTNSMYAREICRICADVCEACGNECKKHDAKHCQECAEACFRCAKACREMAA				NA	NA	NA	NA	NA
AK002_03549	654	cat_2		Chloramphenicol acetyltransferase	ATGAATTTCCATACCATTGATATTGAGCGGTGGAACAGATTGCCGTATTTCGAGCATTACACAAACGTAAATCAATGCACCTACAGCATGACTGTAGACACGGATATCACGCTGTTGCTTCAAGCGCTGAAGATTCGGGGGTATAAGCTTTACCCGGCTTTTATTTACATGGTGACCCGGATTGTCAATGAACGCGTAGAATTCAAAACCTCGTATAGCCCAGAGGGGCAGCTGGGGTACTGGGATTCCATGACGCCGAGTTATACCTTTTTTCACAAGGATGATCATACCTTCTCGAGCTTATGGACTGAATTTGCGAACGATTTTGATCGATTCCATGATCTATATGAGCAGGACATGGAACGTTATCGGGATGTCAAAGGGATCTTCGTTAAGGAGAATCCACCACCCAATACGTTTCCCATATCCATGATCCCCTGGGCAAGGTTTAGCGGGTTCAACCTGAATATTGCCACTAATAAAGAATATTTGCTGCCGATCATCACGGGCGGCAAATACGCCGAGCAGGGAGGGCGCATGCTGCTTCCGGTTTCATTGCAGGTGCACCATGCGGTGTGTGATGGTTACCATGCCAGCATGTTCTTTCAAGCTTTGCAAAAAATGGCGGATTCCTGTGAGGACTGGCTAAAATAA	MNFHTIDIERWNRLPYFEHYTNVNQCTYSMTVDTDITLLLQALKIRGYKLYPAFIYMVTRIVNERVEFKTSYSPEGQLGYWDSMTPSYTFFHKDDHTFSSLWTEFANDFDRFHDLYEQDMERYRDVKGIFVKENPPPNTFPISMIPWARFSGFNLNIATNKEYLLPIITGGKYAEQGGRMLLPVSLQVHHAVCDGYHASMFFQALQKMADSCEDWLK	PGPT0028030_205	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
AK002_03550	2244			hypothetical protein	ATGAAACTGAAGAAACGATCATTGCTAACCGTATTGGCTGTTGCCCAATTGGCCGCAGCTTATCCGGCGAGCGCGGATGCCAATGCCGCAGACCAAACGCAACCGTCAGTCACCCAAGAAGTGTATGAGCAAAATTCAGCGGCAACGAAATCACTAAAATCCGGGGGTACAAACGCTGCAGGCGCTGCTCAAGAGACATCCGATACGACAGTGACAGAAGGAACTCAAGCGCCGGATGAAGCAGGAACCACTGAAACAGGTACAACCGAAACAGGAACGACCGAAGTGCCGGTGGAGGAAACCGGTGAAGTCCAAGAGCCGGCAACGACTACGGAAGGGCAGGACAACCAGAATAACACGCCATCCGCGACGGGCAAGGAACTTATTCTTTATTTTAATAGCACGAAGATGGTCCAGGACGGCGTTACCTACAATGCACCGCAGCCGATGCAAGTTAAGAAGGGAGTATCCTATGTTCCCATTCGTGCCCTTGTGGATCGTGTAGGCTTCAAGGTCACTTACGATAAGAAGACCAAAGAAACGATTATTACCAAAGGAAGCAATGAGCTCCGCTTCAAAACGGACAGCAGCAAGTATACCGTCAACGGCGTTACCAAAACTATGAAAGGCACCTCTTACCAAACCAAGAGCACCTTCATGGTTCCGCTGACAGCCATCACGCAAGCGCTGGACATTCAATATAAAGTGGACAATGTTGGCAAGCGTGTCATCATGAGTCTGGAAAGCAAGCCGGTTGCGAAGTTTACGGTAGGACCTAAAGAGATCTTTGCAGGGCAGACTACAGTTACCTATACACCTCAGGTTGAGAATGTACAAGGTGAAATCATCGACGAACGTTGGGAAGGCAAGCAAGATATATTTGATGCGCCAGGTCAATACATAGTCACTTACTCGGTTCAGGATTCGACGGGAGCTTGGAGTGAACCATACAGCCAAACGATTACGGTCGTTCAGCCGAACCTTCCGCCTGTAGCCATGTTCGAGACCGACAAGATGGAATATAAAATGGGCGAGCTGATCACCTATACGGATCAAAGCTACGACGACCAGGACAAGAACGAGGACCTGACGTACAAGTGGGAGAACAAAGAGTATGCCTTCTTCTCGCCTGGCGTGTATACCATCAAGTTGACCGTCACCGATAAGAAGGGACTTAGCTCCTCCTACGAGACGACCATCAATGTAACGAACGAGACGTTGTATGAGCAAGACGATTTCAATATGCTCTTCATTCCGGAAGGAGAGAAATTCTCGTTCCTCGGTAACGTCACTTCGCGTCCGAAGATCAATTATGATTTTTACGACGAGCCAAGCACGCTGATCCGCAGTAACAGCCCAGAAACCGTAAACAGCGAGGGCATCGTGTATCAAGAGACAGCGGTAGGCGACATGCGCTTCATGATTCACCACGTGAACAATCTGAACAAAAACGTGAAGATGTACGTGATTGCAACTAACAAGAACAGTACCCCGGTAACGCTCAGACAAGATTACTTGGGATTTGCAGGTCCATCGCCGATCGCGACGGCAGCAGGCAAAAAGTCCGTGCTGAACTATTTCCAATCCATGCAGGACAATTCGAAGCGAACTTCCGTAACGCTTGCACCTGGCGAACAGAAGCTGGTCATGACGGAGCTGAGCGAGATTCGAATGAAGCAGGGGCATGTCATTTCCCTGTACTCGGACATGTATAGCGACCTGCCGATCCAGTTCGACGTCGTAATGATTGACGAAAAATCCGATCCATTGAAGGTGCTGAGCACGCTGCCGATCCTGGATCGCGATGGCGTTCATAACCGCGGAACCTATCCGGATTCAACGCGGATCATTCGTTATTCCGAGCTGGTGGGGGCAGAATCCCAGCGACTCGTTCTTGGAGACAACCAGGATGATCCTAACCTGCAAGGCATGGATCCTATGGTTGGAGATATTACGCACAATACCGGCAACTTCGGCGTCCTGTATAAAATCACGCTGGATCGCGTAGCGCCGAATACCCTGATCTCGTTTAACCCGCGGGGCGGCAAGTACTCGGGTTATGCCATGATGAATGGAACGATCGTACCGATTTATTCCCTAGGCCAGGTATCCCCTGGAGAGCAAGCGGTTCTCTACCGTACGGGCGATTATGAGCAAAAGGTTGAAATCATGCTGACGGCCGCGCCGGGAAGCAATTTGCCGGTAAACCTGCTGTTTACCCAATTGCCGGAAGTGATTCATTAA	MKLKKRSLLTVLAVAQLAAAYPASADANAADQTQPSVTQEVYEQNSAATKSLKSGGTNAAGAAQETSDTTVTEGTQAPDEAGTTETGTTETGTTEVPVEETGEVQEPATTTEGQDNQNNTPSATGKELILYFNSTKMVQDGVTYNAPQPMQVKKGVSYVPIRALVDRVGFKVTYDKKTKETIITKGSNELRFKTDSSKYTVNGVTKTMKGTSYQTKSTFMVPLTAITQALDIQYKVDNVGKRVIMSLESKPVAKFTVGPKEIFAGQTTVTYTPQVENVQGEIIDERWEGKQDIFDAPGQYIVTYSVQDSTGAWSEPYSQTITVVQPNLPPVAMFETDKMEYKMGELITYTDQSYDDQDKNEDLTYKWENKEYAFFSPGVYTIKLTVTDKKGLSSSYETTINVTNETLYEQDDFNMLFIPEGEKFSFLGNVTSRPKINYDFYDEPSTLIRSNSPETVNSEGIVYQETAVGDMRFMIHHVNNLNKNVKMYVIATNKNSTPVTLRQDYLGFAGPSPIATAAGKKSVLNYFQSMQDNSKRTSVTLAPGEQKLVMTELSEIRMKQGHVISLYSDMYSDLPIQFDVVMIDEKSDPLKVLSTLPILDRDGVHNRGTYPDSTRIIRYSELVGAESQRLVLGDNQDDPNLQGMDPMVGDITHNTGNFGVLYKITLDRVAPNTLISFNPRGGKYSGYAMMNGTIVPIYSLGQVSPGEQAVLYRTGDYEQKVEIMLTAAPGSNLPVNLLFTQLPEVIH				NA	NA	NA	NA	NA
AK002_03551	126			hypothetical protein	ATGAGCTCGGTTGATTACAATGTCTATATTGTATATACCAAAATGGTGATGAATCGGAACCTTAGAAAGATTAATAGATTTATGAAATCTAGGAATCTATATGAATTCTGCCGTGTGACCTGTTAG	MSSVDYNVYIVYTKMVMNRNLRKINRFMKSRNLYEFCRVTC				NA	NA	NA	NA	NA
AK002_03552	627	pspA_2	COG0406	Phosphoserine phosphatase 1	ATGGTTGAAATTATGGTCGTCAGACATGGACAGTCGGAAGCGGATATTCTGAATCGGTGTGAAGGATGGGCGGATTATGCTTTAACAAACCTCGGTCAACAGCAAGCACGACTGCTGGCGGATTGGATTCATCATGCATATGCGTTGGATGTGATTTTTTCCAGCACGCTTCAGCGGGCCAAGCAGACCGCTATCATGATCGCCGAAACGACAAAAGTACCCGTTACCTATGATCCTGATTTGATGGAGCAAAATAATGGAGTTATCGCGGGTATGTTGAGGGAAGAGGCTTTGATAAAATACCCTCTGCCCCTGGGCGGAAGGAAACGGCATGATGCCATTAAAGGTGGGGAATCTGAAGTGCAGCTCAGAGCAAGGGCCGAGCAATTCATGTCCAAGCTGTTTACTACCCTCGATAACGAACCTGATTTGAAAAGCGTCTGCATTGTTTCTCACGGCGGGATGATCTCGATGTTATTTCGGAGCTTCTTGAATCTTCCTTATCATACCGACATTCATATCCCGACAGGAGATACGGGTCTTCATCAGTGGAAATATGACCCGGCAAGCGGGAGAAAGGTTATTGCGGCTACGAATTTGCAGGAGCATCTGAACGTCGAACAATGA	MVEIMVVRHGQSEADILNRCEGWADYALTNLGQQQARLLADWIHHAYALDVIFSSTLQRAKQTAIMIAETTKVPVTYDPDLMEQNNGVIAGMLREEALIKYPLPLGGRKRHDAIKGGESEVQLRARAEQFMSKLFTTLDNEPDLKSVCIVSHGGMISMLFRSFLNLPYHTDIHIPTGDTGLHQWKYDPASGRKVIAATNLQEHLNVEQ	PGPT0018030_3475	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
AK002_03553	375			hypothetical protein	ATGAGTACAGGGTTTTCCCATTGCTTGCAAATCTTTCCGGCATCTGATATCAAGAGGACAAGTCAATTTTATGAGGAAATCGGGTTCCGTGCCGTGAACTATCTTGATGCAGACGAACCGCATGTGTGCCTATACAGGGATTCCATTGAAATCGTATTAACGATGACAGATGTGGAGGTCGTGCCGAATCGAATCCGTTACGGTTACGGGTACGATGCCTATTTTGTTGCATATGGACTACAAGAGATCGAGCAGGAGCTCATGGAATTGAACGTGAAGATTGTCAGACCGTTAACCATGACGGATTATAACAATCATGAGCTTGTGTTTGAGGATGTGGACGGGCGCTGGATCGCCGTTGGCAACAAACAATAA	MSTGFSHCLQIFPASDIKRTSQFYEEIGFRAVNYLDADEPHVCLYRDSIEIVLTMTDVEVVPNRIRYGYGYDAYFVAYGLQEIEQELMELNVKIVRPLTMTDYNNHELVFEDVDGRWIAVGNKQ				NA	NA	NA	NA	NA
AK002_03554	441			hypothetical protein	ATGAACTTCATCATTCGATTAAATATAGCGGGTGCTTTGTATGCGCTGTTCCCTTTTGCCGGGATTGAACTCATGGTCAACGTGTACCGGATTGGCAGATTGACAGGGTGGGACCTGGATCACGTGAATGCGCTGACCTTAGTCTGTTGCGCTGCTGGATTCATTCTGTCGGGTTGGGGGGTTCCGAGGCTGGTCCGATATTGGTTGAACGGTCGCAAAGCAAGTTTTTTTGCACTAATTTTATGGATTCCCTATTTCATGATGCTGATTTACATTACGGCTGCATGGTTCCCGATCACGAATCCGGCCGACAAACCCAGCCCTGTAACAGGACTCATTGCTTTAGCGGGATTGGCGCTTTACCCATTCTACTTAGCGGTTCTCCATCTGTTTGGCATTGCGTCATTTTCTGGAGATCCGGGAGAAGATCCGGTCACATGA	MNFIIRLNIAGALYALFPFAGIELMVNVYRIGRLTGWDLDHVNALTLVCCAAGFILSGWGVPRLVRYWLNGRKASFFALILWIPYFMMLIYITAAWFPITNPADKPSPVTGLIALAGLALYPFYLAVLHLFGIASFSGDPGEDPVT				NA	NA	NA	NA	NA
AK002_03555	513			hypothetical protein	ATGGACATTACATTGAAAGTTTTGGATAACGCAGACCTTAAACGTATTTGGAAAGAAACATTTGAACAGCAAAAGATACAACGCTCGGATGAGTATTATGATCGTTGTGAATTTGAAAACCAAATCGGCATACGCATCACGTTGTTGGCTTTTGTACAGGGTGAGCTGGCCGGCGTATCGCATTTGAAATATGAGTCGGCTTATCCGCTTTTTCGTGATCAGAACATTCCGGAAATCAATGATCTGAACGTGTTTCCCGAGTATCGGAGAAACGGGATCGCCAATCGCATCCTAGAAGAATTCGAGATCATCGTGAGCAAGAAACTGCCGCGTATCGGCATCGGGGTGGGATTATACAGGGACTACGGTGCGGCTCAAAGAATCTATGTACGGCGCGGTTATATTCCGGACGGCAACGGGATCATGTACAACAACGAACCTGTGGTGCCGGGCGACATGGTATGCGCGGACGATGATCTGAATTTATATTTGATTAAAGAGCTGATTTCATAA	MDITLKVLDNADLKRIWKETFEQQKIQRSDEYYDRCEFENQIGIRITLLAFVQGELAGVSHLKYESAYPLFRDQNIPEINDLNVFPEYRRNGIANRILEEFEIIVSKKLPRIGIGVGLYRDYGAAQRIYVRRGYIPDGNGIMYNNEPVVPGDMVCADDDLNLYLIKELIS				NA	NA	NA	NA	NA
AK002_03556	732	COQ5_5		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGACGCAAAACATTTATGATGATGAAGGATTCTTTCAGGGTTACAGCCAATTAAGTCGTTCCGTTCATGGCTTGGACGGCGCTCCGGAGTGGGAAACGCTGCGGTCGATGCTGCCGGATCTGACCGGTGCCAGCGTTCTTGATTTAGGCTGCGGGTTCGGCTGGTTCAGCCGATGGGCGAGGGAGCAAGGCGGCGCCGAGAAAGTGATCGGGGTTGACGTGTCCGAGAATATGCTGGCACGGGGAAAGGCCGAAACGCAGGATCCTAACATTAGCTATATCAAAGCGGATCTGGAGACGTTGGAGCTAGATTCTGAAAAGTATGATCTGGTGTATAGCTCGCTCGCTTTTCATTATATTGAAAACTTGCAGCGCCTCTTAAAGGAAGTGCACCGTTCACTTAAGCCCGGCGGAAGCCTGGTATGCTCCGTCGAGCATCCGATATACACGGCTTCAAGCCGTCCCGAATGGATTCAGCATCCTAGCGGTCATCAAACTTGGCCGGTTGATCATTACCAGCAAGAAGGACCGCGTACAACGAATTGGCTTGCCGAAGGCGTAATTAAGCAGCACCGGACGATGGGCACCTATCTCAATATGTTGATCGGGCTTGGCTTTACCATAACTCATGTTGAGGACTGGGGTCCTTCTGAGGCACAATTGGCGGCACATCCCGAATGGGAGGAAGAAGGTCACCGTCCGATGTTTATGCTGATGTCGGCTAGAAAGTAG	MTQNIYDDEGFFQGYSQLSRSVHGLDGAPEWETLRSMLPDLTGASVLDLGCGFGWFSRWAREQGGAEKVIGVDVSENMLARGKAETQDPNISYIKADLETLELDSEKYDLVYSSLAFHYIENLQRLLKEVHRSLKPGGSLVCSVEHPIYTASSRPEWIQHPSGHQTWPVDHYQQEGPRTTNWLAEGVIKQHRTMGTYLNMLIGLGFTITHVEDWGPSEAQLAAHPEWEEEGHRPMFMLMSARK	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
AK002_03557	276			hypothetical protein	ATGAAATACGAAAAAGCACAACATATTTTGCCGGAACACGTAATCAAAACCATTCAGCAGTATATTGATGGAAGTTATATTTATATCCCCAGAAAGTCTGAGAACCGCAAGGCCTGGGGAGAACAAACCGGAGCCAAGCGAGATCTGGACGAGCGGAATCGGAACATTTACAAGTGTCATATGAAGGGTGATTCCATTCGTACCTTGTCTGAACGTTATTATTTAACGGAGCAATCGATACGAAGAATTATTCGGGCTGAACGAAGAATACGTTAG	MKYEKAQHILPEHVIKTIQQYIDGSYIYIPRKSENRKAWGEQTGAKRDLDERNRNIYKCHMKGDSIRTLSERYYLTEQSIRRIIRAERRIR				NA	NA	NA	NA	NA
AK002_03558	747	map_2	COG0024	Methionine aminopeptidase 1	ATGATTATTTTAAAATCACCCAGGGAAATCGAAGAGATGAAGCCGGCGAGCCAAATCGTTGCGGACTGCTACCGCGAGGTGGCCAAACTGATCGAACCTGGGATTACCACGCGGGAAATCAATGACTTTGTTGCCAGACACATCACCAAGCTGGGCGGCAAGCAGTTTACGAAAGGGTACAACGGTTTCCCCGCCGAAACCTGCACTTCGGTCAACGATGTGGTGGCCCACGGCATTCCTTCGAACCGGGCGCTGATGGATGGCGACCTGCTGAAGCTCGACATCGTCGTGGAATACGGCGGATGGTTCGGCGATTCATGCTGGTGCTATCCGGTGGGCAATATCCGGCCGGAGGCGCAAAAGATCATGAAGGTGGCGAAGGAATGCCTGGATCTGGGGATCGCCCGGGCACTCCCCGGGGGCCGGCTCGGCGATATAACGTCGGCGATTCAACAGCATGCGGAAGCGAACGGGTTCTCGGTCGTACGCGATCTGCTGGCGCACGGGATCGGACGGAGTCTGCACGAGGAGCCGAACTACGAGCATGTCGGCGTAGCCGGCAAAGGCATTCGGTTAAAGGAAGGCATGGTGTTTACGATTGAACCGATGATCAACGAAGGTACGTTCCGCATCACGATCGACGACGATCAGTGGACGGCGAGAACGGCCGACGGCAAGCTGTCGGCGCAATATGAGCATACGATCGCTATCACGCCGGACGGACCGCTGATTTTAACGGCCCAGTAA	MIILKSPREIEEMKPASQIVADCYREVAKLIEPGITTREINDFVARHITKLGGKQFTKGYNGFPAETCTSVNDVVAHGIPSNRALMDGDLLKLDIVVEYGGWFGDSCWCYPVGNIRPEAQKIMKVAKECLDLGIARALPGGRLGDITSAIQQHAEANGFSVVRDLLAHGIGRSLHEEPNYEHVGVAGKGIRLKEGMVFTIEPMINEGTFRITIDDDQWTARTADGKLSAQYEHTIAITPDGPLILTAQ	PGPT0020010_9323	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
AK002_03559	783			hypothetical protein	ATGACTCCACGCACGAAGGAACAAAACGAAGAGATCCGGCTGCGGCGTCTGGCGCAAATCCGTAAAGCCGCTGCCGATGTGTTTTTGAATAAAGGGCCTTTACTGGAAATCCGCGATGTGGCTGCGCAGGCGGAACTCGGCTATGGAACGGTATACCATTATTACAGCAATAAGGGTGATTTGCTCCACGATCTGTTGTGGGACGCATTGGAGCGGGCCGGGGAATGGCTGGAGGTCCCGCTGAACGCCCCTTCGCAGGTCTCGCCGAATGCCCAACGGGAGGCCCCTCCGAAGGTCTCGCGCGCCTCGGTTTCTGGGGAGGCGCCGGCGGGCGGGCCTTTCGGCTTGGCTGCGGCGGCGGACATCGGGAATTCGGCTGCCGCGGATTCCCGCAGAGCAAGCCTCGAAACGGCCGCTGGCGCAGAGCTTGGCCCCGTCGCCGCCGCCGGCGTCCGGCTGCTGCAGCTTTGGGCGGAGGACCACGCCCTATTCCTGCTGCATAAGCTGGCCGGTGAGGGCTTTGCCGCGCTGCCTGAAGCGCGCTCGGCCCCGCTCTCGGCCGCCTTTCGCCGGGAGGTGCTCGCGCCGCTTGCCGCGCTGCTGGAAAGCGGGCGTGCGGCGGACGAGGCTGCCGCTGCCGGCGGAAACGCGGCGGAGCTGCCCTATCGGCTGCAGCATGCGGAAATGCTGCTGGCTGCCTTGGTCGGCTGCGCCTCGCTTTCGCTTCGCCGCGGAAAGCTGCACGAGGAGGCCAGGGATATCGTGCGGTTCTTAAAACTATAG	MTPRTKEQNEEIRLRRLAQIRKAAADVFLNKGPLLEIRDVAAQAELGYGTVYHYYSNKGDLLHDLLWDALERAGEWLEVPLNAPSQVSPNAQREAPPKVSRASVSGEAPAGGPFGLAAAADIGNSAAADSRRASLETAAGAELGPVAAAGVRLLQLWAEDHALFLLHKLAGEGFAALPEARSAPLSAAFRREVLAPLAALLESGRAADEAAAAGGNAAELPYRLQHAEMLLAALVGCASLSLRRGKLHEEARDIVRFLKL				NA	NA	NA	NA	NA
AK002_03560	1281			hypothetical protein	GTGTTAAAAGAACGCATTGACTACTTGTGCAAGAAAAAAGGAATATCCCGCAAAGAGCTGGTTGAAGGATATGTGACCACCGCCCACTTTGCGAACATTCTTGCCGAACGATATCCATTGCCCGAAGATCTTGCCGGGCATCTGGCGCAGCGCCTTCAAGTGTCTCCTTCCTACTTGGTAGAGGCCGGAAACACCGATCAAGATACGCTGGAGACCGCAGATCGCATTTTTGAAGAGCTTTCCCAAGCGGCTTCGCTTCTATCAGAAGAGCGTATCCACGATCTTCCGGATCGTCATGACTGTTTAACGGTGGAGCTCACCGTAGCTTTGATGAAAGCCGTCTATTACCAACAAGTCAATGATGCGGTATCCCATGATTACCTGCACCAGAACTACCTGAATTTTTACCTCGAGAAGTATGGGCGTCCCGATGATGCCGAGCTCCCGCTCCCTGCGAAGAAAGCGATGCTTTTCTACAAAATCCAATTCTACCGGTCCAAGAACCGTTATCATGAGGCTTTAAGCCACGCGAACCGGTTAAGCGAATATGTGCGGGAAGGGACCGATTTATGGCTGACAACGCAAAACTTCAAGATGGAGGCCAGCATTTTTTTGAAGTTATACGACCAGGCCAAGCAGGTGTTTGAAGGAACGATGCGACGCGTTTATGAAGAACGGCTATTTCACCGCTTGACCGATCTGTACATCGCTTACAGCGGTTATTGTTACTCGATGGGATTGTATCAGGAAGCGCTGGTCACCCTCTCGATGGCGGAAGCCAATCTGGTGTATGCGGTAAACCAGGGGAATATGTTATCCACCATTATGAACAACCGGATCATCATGCTGACGATGCAGGGAGAGCATGGAAAAGCGGAGGAAGAAATCCGGCGCTTTGCGGAACTTCTCGAACGGGAATCGGCGGAGGTACGGGAGCAATTCCGTCCGATCCTATTGATTTACCGCTGCGAGTCGGCTGCGGCTCAAAAGCAATGGGGGCTGTTAACCCAGTACATACAAGAGCTCAAATCGTTGGAGCTGACAACGGATCAAGAGATGTCCGCATTTTTTTATCAATGCCAGCTCGCCTTGGCTCATGGACACCATGAAGAATTTCTGGAATATGCCCTGAAATGCCTGCCGTATTACGAATCCGCTCAGCTCACCATGCGACTAGAATCCTTATATGAAGCATTGGCGGCCGTATCGGAGGAATCAAGGAAATACAAGGAGTCCACCGTTTATTATAAAAAGCTGGTCTACCTGCTTCGAAACAAATAA	MLKERIDYLCKKKGISRKELVEGYVTTAHFANILAERYPLPEDLAGHLAQRLQVSPSYLVEAGNTDQDTLETADRIFEELSQAASLLSEERIHDLPDRHDCLTVELTVALMKAVYYQQVNDAVSHDYLHQNYLNFYLEKYGRPDDAELPLPAKKAMLFYKIQFYRSKNRYHEALSHANRLSEYVREGTDLWLTTQNFKMEASIFLKLYDQAKQVFEGTMRRVYEERLFHRLTDLYIAYSGYCYSMGLYQEALVTLSMAEANLVYAVNQGNMLSTIMNNRIIMLTMQGEHGKAEEEIRRFAELLERESAEVREQFRPILLIYRCESAAAQKQWGLLTQYIQELKSLELTTDQEMSAFFYQCQLALAHGHHEEFLEYALKCLPYYESAQLTMRLESLYEALAAVSEESRKYKESTVYYKKLVYLLRNK				NA	NA	NA	NA	NA
AK002_03561	414			hypothetical protein	ATGGGATGGTTTGGCAAAAAGAAAAGTCCGCAGGATGCGCTGGAGAAAGCAGATCAAATGATGAACAAAGGTTTGACGGGTATGATGATGAAGGGTTTCGTGCCGAAAGAACATCGACGCGCCATCAATCAAAGTCTGGAGCAAGCGAAACAGGCACAGATGGCAGCGACCGGCGCCCTTTCGTTAACGGCGACCGCCCACGTACGATCCGTACGGGATACCGGAAAGCTGATCAATTTCGATCCGGTCGTCATCCTTGAACTGGATGTCACCGAGAACGGAGGAAACCAATATACCAAAACGCTGGAAACGCTCGTATCGAAACTGCAAATTCCGAGAACCGGTGATACCATCGGCCTCGCTCAGCATCCGGCCAATCCATCGGAACTGGTCTATATGGGGCTGATAAGCTGA	MGWFGKKKSPQDALEKADQMMNKGLTGMMMKGFVPKEHRRAINQSLEQAKQAQMAATGALSLTATAHVRSVRDTGKLINFDPVVILELDVTENGGNQYTKTLETLVSKLQIPRTGDTIGLAQHPANPSELVYMGLIS				NA	NA	NA	NA	NA
AK002_03562	1104			hypothetical protein	ATGGGAGATCAACGAAAATCGCTTGGCGAGGCTTACGGCGAAACAGCATACCCATTGATTGGCCATAGCCGCAGGAATGTTGAAATGCTGCTCGAGGCATTTCGCAGCGCGGATGGGTCGCAGATGGGAGATACATACGGCAAGGGCGCCATCATCGAAGAGTTTCAGACGCGAATGGCAGAGGTTCTGGGTAAGGAATCGGCGGTATTCTTTCCCAGCGGAACGATGGCGCAGCAGATTGCTTTGCGGATCTGGTGCGATGAAGCGGATCTGAAGCGAGTGGCGTATCACCCGCTTTGCCATTTGGAGATTCACGAGGAGGACGGGCTTAAAGAGCTGCATCATATCGAGCCGATTCTGCTTGGCGATCAGGAGCGTTTGATTACGCTTGAGGACGTGCAGCGTTTGGATCGTGACATTGCATGTCTGCTTCTGGAATTGCCGCAGCGTGAAATCGGAGGGCAGCTGCCTGATTACGCGGAGCTGGAGGCCATTTCGGCCTATTGCCGTTCTCAAGGCATCAAGCTGCATCTGGACGGGGCAAGATTGTTCGAGATTACACCGTATTATCAGAAAACGGCTGCAGAAATCTGTGCTCTTTTTGACAGCGTGTATGTATCTTTCTATAAAGGCATCGGCGGGATTGCCGGCGCCATTCTGGCTGGCGGGACCGATTTCACGGCAAAGTCCAAAGTGTGGAAGAGAAGGCATGGCGGCGATCTGGTCAGTCTTTACCCGTATATTATCAGCTCGGATTATTATTATGCGGAAAGAATAGGCAGCATGGGCCGGTATTACGAAGAAGCCAAAGCGCTCGCAGCGATGTTCGGCCAGTGCCGAGGCGTGAAGACGAAGCCTGCCGTGCCCGTATCGAATATGTTCCATGTGTACTTTGAAATGGATAAGGAACAGCTGGAACCGATCCTGATTGATGTGTACCGTGCGACGGGCGTCGGATTGGTCGCTTATCTGAACGAGGCAGGGGAAGATCAGTGTTATTCGGAGGTCAACATCGGGGAGAGGTACGGCAAGACGCCAAAAGAGAGCATTCACGAAGCCTTCCGAATGTTGAACGAAAAATTGCAGGAAGCTGCAGGTATATAA	MGDQRKSLGEAYGETAYPLIGHSRRNVEMLLEAFRSADGSQMGDTYGKGAIIEEFQTRMAEVLGKESAVFFPSGTMAQQIALRIWCDEADLKRVAYHPLCHLEIHEEDGLKELHHIEPILLGDQERLITLEDVQRLDRDIACLLLELPQREIGGQLPDYAELEAISAYCRSQGIKLHLDGARLFEITPYYQKTAAEICALFDSVYVSFYKGIGGIAGAILAGGTDFTAKSKVWKRRHGGDLVSLYPYIISSDYYYAERIGSMGRYYEEAKALAAMFGQCRGVKTKPAVPVSNMFHVYFEMDKEQLEPILIDVYRATGVGLVAYLNEAGEDQCYSEVNIGERYGKTPKESIHEAFRMLNEKLQEAAGI				NA	NA	NA	NA	NA
AK002_03563	924	czcD	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGCACCATCACAACCACCAGCACGGTCATGACCACAGTCACCATGATCACGCCCGCTCAGGGAATAAGAAAGGTCTTGCCATCGCCTTGATCATCACGCTCGGCATTATGATTCTAGAATTTGTGGGAGGCTTGCTTACCAACAGTCTGGCCCTGTTATCCGATTCCGGCCATATGCTAAGCGATGCCAGCGCTTTGCTACTTAGTCTGGTCGCTTTATGGTTTGCCGCAAAGCCCTCATCGCCGAACAAGACCTACGGCTTTTACCGTTTCGAAATACTGGCAGCACTATTAAATGGCGTCGCCCTGTTTGTCATCGCCGGCTTTATCGTCTGGGAGGCGATTCAACGCTTTGATGACCCGCCGGCCGTTGCCAGCGGCAGCATGATGCTCATTGCATCCATCGGCTTGCTGGCTAATCTTCTGAGTGCCTGGTTCTTGATGCGGATGGGCGATGTGAAGAACAACGTGAACCTGCGAAGCGCCTACCTTCATGTCATCGGCGATGCGCTTGGCTCCGTAGGTGCTATTGTCGCCGGGATTCTCATGATTGCATTTGGATGGTATATTGCAGATCCTATGATTTCCATTCTGGTTTCGATCTTGATCCTGAAAAGCGCCTGGAGAATTATACAGAATACCGTTCATATCCTGATGGAGGGTGCACCTGCAGCGATTAACCCTGATGAGGTAACGAAATCCCTGCTGTCCATTCCAGGAGTCACGGGCATCCATGATCTCCATATTTGGACGATTACGTCCAATTTCGACTCCTTGAGCTGCCATCTTGTCGTAAAGGATGACGTGACTGGTTATGAAATCCTTCAACAAGCGATTGATCTTCTGGAAAGTCGATTCCACATAGAGCATTCAACCATCCAGATTGAGAACAGCGCCATCTCTCATAAAGAAAATAAAGTGTGA	MHHHNHQHGHDHSHHDHARSGNKKGLAIALIITLGIMILEFVGGLLTNSLALLSDSGHMLSDASALLLSLVALWFAAKPSSPNKTYGFYRFEILAALLNGVALFVIAGFIVWEAIQRFDDPPAVASGSMMLIASIGLLANLLSAWFLMRMGDVKNNVNLRSAYLHVIGDALGSVGAIVAGILMIAFGWYIADPMISILVSILILKSAWRIIQNTVHILMEGAPAAINPDEVTKSLLSIPGVTGIHDLHIWTITSNFDSLSCHLVVKDDVTGYEILQQAIDLLESRFHIEHSTIQIENSAISHKENKV	PGPT0004255_2024	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
AK002_03564	210			hypothetical protein	ATGAATAACGATATATATACGTTGGAGAAGCTAAATGAATATCGGCAAGCACATTGGGACGAACTGGATCGTCAAGGAAGATTCATTATTCATGATGAGATCGGTGTTGGTGAATCGGAGTTAAATGCGAGGAATCTTCGACTTATCGATAAGCTTTACGGGTTCTTTCGAAAGCGGAGATCACGAAAAACCCATTCAAAATCCTTATAA	MNNDIYTLEKLNEYRQAHWDELDRQGRFIIHDEIGVGESELNARNLRLIDKLYGFFRKRRSRKTHSKSL				NA	NA	NA	NA	NA
AK002_03565	1788	sgrR	COG4533	HTH-type transcriptional regulator SgrR	ATGCTGTACGAACAATTTTTCATGCTGCACCGGAAGCTTGCTGTTAACGCTCCAGTCCATACCGCAACGGAAGTGACGCTTGAGCAGATTGCCGACACGCTTTATTGCACGACGCGCAACGCGAAGCTCGTTTTGCGCAAGCTCGAAGAGAAGGGCTGGATTCTATGGAAAGCCGGACGCGGGCGAGGAAACCGGTCCAAGCTGACCTTTCAAGCGGATCAAGCAGAGCTGCTTCAGGAAGCGGCACAGCAGCTCGCGGAAAAAGGGGAATACAAGCAAGCCTTTGAGCTGCTTCGTACCTACGGACAAGGCATTCGGACCAACGACTCCTACGTGGAGTGGATGAACGGGCATTTTGGCTTTTGCAAGGAGATGAAGGAAGGGGAGGAAGAAGCCAGGGATTCGCTGCGGCTGCCGGTATATCGGCTGATCGAAACCTTGGACCCCGCCGAGTGCTATTACAGTTTTCAAGCTCATATGATCCAGCAAATATTCGATCGATTGGTGGTATACGATAAAGCAAAGGATCAATACATGCCTGTGATTGCGCATCATTGGGAGAGCAGCGAGGATGGAACGAGCTGGACGTTTCATCTTCGTAAAGGGATTCTGTTCCATGACGGCAAGGAATTAACGGCCGAGGACGTAAAATTCACGGTGGAGCGCTTGGGTCAAGATCGACGGAATGCTTGGATCGTGCGTGAACTGCACAGCGTAGAGGCGGTGTCGCCCCGCGAGGTCCGATTTATCCTGAATAAGCCGAATCGGATTTTTATCCGGTTTCTCAGTTCCATATGCATGTCCATCCTGCCTAAACATCTGCTGATTCACGATGAAGAACAGTTCTGGAGGCTTCCTGTCGGAACGGGGCCTTTTCAGGTGGAGGAATGGACCGAGGAAAGGCTGACCATTCACGCGAATGCCCACTATTATCAAGGGCGGCCGCATTTGGACAGCATCCAAATCATTATGATGCCGGAAGATGCCGAGCACTGCAACGTCAGTTGGGAGCGGCTGCTGCAGGATTCGGAGCAATTCGGTCATGGCGGCGACAATCATGCTGTGGATATCATAGAATCCTCCGAAGGCTGCACGACGTTGATTACATGGAATATGAAAAAACAGGGGCCGTTTCAATCCGTCGAATTTCGCCGCGCATTCAATCTGATCCTGAACCGTTCGGAGATGATCCGGAAGCTGGGCGACAATCGTCTTTATCCGGCCAGAGGGTTCATTATGGATGAACAAGCGCCTTACCGCAAAGACCGTTATGATCCCGAGTTCGCCAAGTCGCTGCTGAGACAGTCGGGTTACGACGGTTCCCCCGTCATCATGGCAACGCTGGCCAATCATATCAAGGATGCCGAATGGATCCAGAATCAGTGTGCTTCCGTTGGGATTTCATTGATGATCCGGGAGATACGTATGGATACCATGCTGCACCCCGACGTGGTGAACAGTATGGACTGCATTTTGCACGGCTTAGTTCTTCCGGGCGAAGAAGTATGCATCATCGAGAATTACGAGCAGGAGGGCAGCATTGTCAAAGAGTTCCTGGATCCGTCCCTGCAGGATTGGGTAAAAGAATGCATCGATGACGCGCTTGCCAGCGAACGGTGCGAGGAGCGGTTGAGCATCTTATCGAACATTGAGGAGAGGCTGCGGGAGGAAGCGCATGTATCATTCCTGATTCATACGAAATTCTTCGCAAGTTTACATCCTTCATACAAGGGAGTTGTCATTAATAATCTAGGATGGCTGGATTTTAAGCAGATCTGGCGGGCGTGA	MLYEQFFMLHRKLAVNAPVHTATEVTLEQIADTLYCTTRNAKLVLRKLEEKGWILWKAGRGRGNRSKLTFQADQAELLQEAAQQLAEKGEYKQAFELLRTYGQGIRTNDSYVEWMNGHFGFCKEMKEGEEEARDSLRLPVYRLIETLDPAECYYSFQAHMIQQIFDRLVVYDKAKDQYMPVIAHHWESSEDGTSWTFHLRKGILFHDGKELTAEDVKFTVERLGQDRRNAWIVRELHSVEAVSPREVRFILNKPNRIFIRFLSSICMSILPKHLLIHDEEQFWRLPVGTGPFQVEEWTEERLTIHANAHYYQGRPHLDSIQIIMMPEDAEHCNVSWERLLQDSEQFGHGGDNHAVDIIESSEGCTTLITWNMKKQGPFQSVEFRRAFNLILNRSEMIRKLGDNRLYPARGFIMDEQAPYRKDRYDPEFAKSLLRQSGYDGSPVIMATLANHIKDAEWIQNQCASVGISLMIREIRMDTMLHPDVVNSMDCILHGLVLPGEEVCIIENYEQEGSIVKEFLDPSLQDWVKECIDDALASERCEERLSILSNIEERLREEAHVSFLIHTKFFASLHPSYKGVVINNLGWLDFKQIWRA				NA	NA	NA	NA	NA
AK002_03566	1287	hisS_2	COG0124	Histidine--tRNA ligase	ATGCAGAACGTAAAAGGGACATATGATTATTTTGGACAGGAACAGGCTGTAAGGAGAACGGTGCAATCGACGCTTCGCGAAGTGTTTGAATGTTACGATTACGCGGAGATGGAGTCAACCATCCTGAATGAATTGGAACTGCTGTCTTCCAAGTACGCTGGAGGAGAAGAAATACTCAAGGAGATGTATCAGCTGACGGATCAGGGAGCCCGACAGCTGGGGCTGCGCTACGACCTGACGATACCGTTCGCCAAGGTGATCGCGCTGAACCCTGGCATCAGTCAGCCATTCAAGCGATATGAATTGGGGAAGGTATTTCGGGACGGCCCGGTCAAAAGGGGCAGATTGCGGGAGTTTCTGCAGTGCGACGTCGATGTGGTGGGGGTTGCGGGTCCGGAAGCAGAAGTGGAGCTGATGCAGCTCGCAGCCGAGGTGTTCCGAAGACTTGAAATTCCGATCGTCCTCAGGTGGAACAATCGTGGCTTTCTGGGTGAACTCCTGGGAGCTATGGGTGTACCGGCCAACCTAAGTTCGTCCGTCATGCTGACACTGGATAAGCTGGACAAGATCGGGAGGGAAGGGGTTCGGAAAGAGCTCGCGGATAAGGTGATTGATCCGGAGATTAGTCGCCGTATCCTGAGCTTCGTAGATCTCAAGGAACCGACGTTTGAGCAAATTACCAGAACATACAACCTGGAGCCGGGGCGGGGCGCGCGCGAAGTTCAAATCCTGCAAAGCCTGCTGCAGCGTGTCGGTTTGCAGGACGTCTGCGTATTTGATCCGTTTCTTTCCCGGGGCTTGTCGTTTTACACGGGAACCGTTTACGAAATTTACGACGCGTCCCATGCTTTTCGTTCAAGTCTGGGCGGAGGCGGCAGATATGACGCGATCATCGGGCAGCTTGTTGGACGGGAAGATATGGCATATCCGACGGTAGGGCTTTCGTTCGGCATGGAATCCATCATGGAGATGCTTCGGGACCGGGTGGTTGAAACGAACAGGCCACACGTTGTGGTCATCCCGATAGGAGATGCTGTCCCGGAAGGATTGATGGCTGCTGCGGCACTTCGGAATCGCGGGATTCGTACCCGATTGGCTACCTTGCGGCGCAAATTGAAAAAGACCTTAGCCTCCGTTTCGGCCGAAGGCATCCCTTATGCCATTCTGATCGGCGAAGATGAAGCGGCGGCTGGCGTGCTTCGGTTGAAGAACATGTCCGACGGCATGGAGCTTACATTAAAATTAAAGGAAGCGGAGGAGTTCATAAGCCGGAACTTGATGGCTTGA	MQNVKGTYDYFGQEQAVRRTVQSTLREVFECYDYAEMESTILNELELLSSKYAGGEEILKEMYQLTDQGARQLGLRYDLTIPFAKVIALNPGISQPFKRYELGKVFRDGPVKRGRLREFLQCDVDVVGVAGPEAEVELMQLAAEVFRRLEIPIVLRWNNRGFLGELLGAMGVPANLSSSVMLTLDKLDKIGREGVRKELADKVIDPEISRRILSFVDLKEPTFEQITRTYNLEPGRGAREVQILQSLLQRVGLQDVCVFDPFLSRGLSFYTGTVYEIYDASHAFRSSLGGGGRYDAIIGQLVGREDMAYPTVGLSFGMESIMEMLRDRVVETNRPHVVVIPIGDAVPEGLMAAAALRNRGIRTRLATLRRKLKKTLASVSAEGIPYAILIGEDEAAAGVLRLKNMSDGMELTLKLKEAEEFISRNLMA				NA	NA	NA	NA	NA
AK002_03567	2070	katE	COG0753	Catalase HPII	ATGGACAATTCAAATTCCAATTCGAATGTCAACAACAGCAACAACAAGACGAGCAAGGACCAACAGCTGGAACAATTTACGGTAGACAATGATGGTAAGAGCTTGACCACGAACCAGGGACTTACGGTCTCTGAGGATGAGCATTCGCTTAAGGCTGGCGAACGCGGTCCGACGTTAATGGAGGACTTCCATTTCAGAGAGAAAATGACGCATTTCGACCATGAGCGAATTCCTGAGCGCATTGTGCATGCCCGCGGTTTTGGAGCCCATGGTTATTTTCAGTTATATGAATCGATGAAAGATTATACCAAAGCCAAATTCCTGCAGGATCCTTCCGTCGTGACGCCCGTATTTGTCCGGTTCTCGACGGTGGCGGGCTCCAGGGGCTCAGCCGACACCGTGCGGGACGTGCGGGGTTTCGCAACTAAATTTTATACGGAAGAGGGCAACTATGATCTCGTTGGCAACAACATGCCTGTATTCTTCGTACAGGATGCGATGAAGTTTCCCGATTTCGTTCACGCGGTAAAGCCTGAGCCTCATAACGAGATACCGCAGGCGCAGTCCGCTCACGATACGTTCTGGGATTTTGTAGCTAACAACACGGAAAGCGCGCACATGGTGATGTGGGCGATGTCCGACCGTTCGCTTCCGCGAAGCTTCCGAATGATGGAGGGCTTCGGCGTGCATACCTTCCGTTTTGTGAACGAGGAAGGAAAGGCGCATTTTGTGAAATTCCACTGGAAGCCCGTGCTGGGCACTCATTCTCTCGTGTGGGACGAAACGCAGAAGCTGGCAGGAAAGGATCCCGACTTTAACCGCCGCGATCTATGGGATGCCATCGACACGGGGAACTATCCGGAATTCGAATTTGGCGTTCAAATGATCGGGGAGGATGAGGAATTCAATTTTGATTTTGATATCCTCGATCCGACGAAGATATGGCCGGAAGAGATCATTCCGGTCAGAATCATCGGAAAAATGACGCTTAATCGCAATACGGATAATTTCTTTGCGGAGACGGAACAGATTGCATTCCATCCGGGCCATGTCGTGCCCGGCATCGATTTTACCAATGATCCGCTGCTGCAGGGACGTCTGTTCTCCTATACCGATACGCAGCTGTCCCGTCTGGGCGGGCCGAATTTCCATGAAATTCCGATTAATCGTCCGATTGCGCCGGTTCATAACAACCAACGGGACGGAATGCACCGCATGACCATCAATAAGGGGCCGGTCAGCTATCATAAGAACGGCATTGCGGGCAACACGCCCAAGCCCGTTCCAGCCGAGAGAGGCGGCTACGAGCATTATACCGAGAAGGTGGAGGGTCGCAAAGTTCAAGCGCGAAGCGACAGCTTCAAGGATCACTTCAGCCAGGCGGCTTTGTTCTGGAACAGCATGTCCGAGGTGGAGAAGCAGCATATCGTATCCGCATTCCAGTTCGAGCTTGGCAAAGTGCAGCGGAAGGAAATCCGCCAGCAGATCGTCGACCTGTTTGCAAATGTGGACAGCGAACTCGCGACAAGAATTTCGGAAGGGTTAGGAACCATTCCTCCCCAAACCAGCGGCTCCGCTTCCAAAGACTCCTCTCCGGCTCTCAGCATGATGAACACCGTGAAGCTCCCGTTAACGCGAAAGGTGGCTGTGCTTGCAGGCAATGGATTTACGGACGAGCTTCCGTTCGTGCTTGCGCAGCTTCAGCAAGCCGGCATCATCACCGAAGTGGTTAGCCCGAAGCTTGGCGTCATTACAGGCAAATCCGGCGGAGAACTGGAAGTGAAACATTCACTCCTGGGGGCGGATTCGGTGTTATTCGACGCGGTGCTTGTCGCGGGCGGGGCGCTAAGCGTGTCAGAGCTCCTGACGGAGCAGAAGGTGCTGGACTTCATCAAGGAAGCTTATCAGCATTTCAAACCGATCGCGGCCATCGCCGAAGGCATGAATCTGCTTCCGGCGGCGAGCGGTGAAGGGATCGTGGTCGCTCAAGAGAATGAGGATTCGAAGCTGTTCGGACAAGCCTTCATTGATGCGATTGCGGCCCATCGCCATTGGTCCCGAACCATCTAA	MDNSNSNSNVNNSNNKTSKDQQLEQFTVDNDGKSLTTNQGLTVSEDEHSLKAGERGPTLMEDFHFREKMTHFDHERIPERIVHARGFGAHGYFQLYESMKDYTKAKFLQDPSVVTPVFVRFSTVAGSRGSADTVRDVRGFATKFYTEEGNYDLVGNNMPVFFVQDAMKFPDFVHAVKPEPHNEIPQAQSAHDTFWDFVANNTESAHMVMWAMSDRSLPRSFRMMEGFGVHTFRFVNEEGKAHFVKFHWKPVLGTHSLVWDETQKLAGKDPDFNRRDLWDAIDTGNYPEFEFGVQMIGEDEEFNFDFDILDPTKIWPEEIIPVRIIGKMTLNRNTDNFFAETEQIAFHPGHVVPGIDFTNDPLLQGRLFSYTDTQLSRLGGPNFHEIPINRPIAPVHNNQRDGMHRMTINKGPVSYHKNGIAGNTPKPVPAERGGYEHYTEKVEGRKVQARSDSFKDHFSQAALFWNSMSEVEKQHIVSAFQFELGKVQRKEIRQQIVDLFANVDSELATRISEGLGTIPPQTSGSASKDSSPALSMMNTVKLPLTRKVAVLAGNGFTDELPFVLAQLQQAGIITEVVSPKLGVITGKSGGELEVKHSLLGADSVLFDAVLVAGGALSVSELLTEQKVLDFIKEAYQHFKPIAAIAEGMNLLPAASGEGIVVAQENEDSKLFGQAFIDAIAAHRHWSRTI	PGPT0014380_1407	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK002_03568	861	sigJ_3		ECF RNA polymerase sigma factor SigJ	ATGTTAGAGCTGTATGAACAGTATAAGGGTCTTCTGTTTCATCTGGCGTATCAAATGACCGGAACGGTTACGGATGCAGAGGATGCGGTACAGGATGTGTTCGTGAAGGTCCAAAGCCTTCCCATCAAACAAATGCGGGAGCCCAAAGCCTATTTGTGCAAAATGGTGACGAATCGCTGTCTCGACGAGATCAAGTCAGCCAGAAATCGGAGAGAGCAGTATTTCGGTCCTTGGCTTCCCGAGCCGATTCCGGAATCCTACAGCGAGACCTATGAGACCGTCGAGAACCAAGAGCTGCTCTCTTATGCCATGCTGGTTCTGCTCGAACGGCTGTCTCCCTCGGAGCGGGCCGTATTCGTCCTGCGGGAAGCGCTGGGATTCGATTACCCGGAAATCGCCGGGCTGATCGATAAAACCGAGGCCAACTGCCGCAAGCTCATGAGCAGGGCAAGAGGAAAAATGGGGATCACGGAGGAGGACCTGATTGGCGTAGGGTCCGTCGAGGAGGAATGGGTAAACCGATTCTTCACGGCCCTGTCCGAGGGAAACGCCGAACATGTCCTGTCCCTGCTGGCGGACGATGCCGTCCTTCTGTCCGACGGCGGCGGTAAAGTGATCGCCGCGACAAGGCCGGTCGAAACCCGGGAGCGGGTTGCCCGTTTTCTTAGCGGCATTCTGCGCCAAGCACAGCTGGAGGATGGTGTTGCGCCGGAGATCGAGGTCAGGGAATTGAACCATCAAACCGGGGTTGTTTTCCGGCAAGCCGGGAACGTAACGGGCGTCGTTTTCTTCAATATCCGGAATGGATTGCTGCAGGATATCTATATCGTGAGAAATCCGGATAAACTGACAGGGATTTAA	MLELYEQYKGLLFHLAYQMTGTVTDAEDAVQDVFVKVQSLPIKQMREPKAYLCKMVTNRCLDEIKSARNRREQYFGPWLPEPIPESYSETYETVENQELLSYAMLVLLERLSPSERAVFVLREALGFDYPEIAGLIDKTEANCRKLMSRARGKMGITEEDLIGVGSVEEEWVNRFFTALSEGNAEHVLSLLADDAVLLSDGGGKVIAATRPVETRERVARFLSGILRQAQLEDGVAPEIEVRELNHQTGVVFRQAGNVTGVVFFNIRNGLLQDIYIVRNPDKLTGI	PGPT0014960_1734	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_03569	1188			hypothetical protein	TTGATAAAGGATTTCACATGCGTTGTCGTAGGTGGAGGCTTTGCCGGCATACATGCCCTCAAAGCCATTCATAAAGGCTGCCAGAAAGGGCTGAACGGAAGAAAGCTGCGATTGTTCCTTATCGATCAAGGGTCCGCCCATGTGCGGAAAGTGCTTTTATTCCGCCCTGCCGTAAGCGGGGATAGCATAACCGTCCCGTGGGAACAGGTCATGCCGGAAGGCACCCGCTTCATACAGGGCAGCGTGACTAACATTGACAAGGAGAGCAAGCTGCTGAACTTGGAAGACGGCAGAGGGCAGGGGCATAGGATGGAGTATGATGTCCTTGTGATGGCGATTGGAAGCGTCGTGCGCCAGGCAGCACCGGAACAAGGCGGCATATCGCTGACAGGCATGGAAGCGGCGGAACGTATCCGGGAACGCTGGCAGTCTAATCTTAGGCTGGCGGCAGCAGAAACGGATGCGCAAGAGAAGCAGCGGTTGATGAGCATTGCCGTTGCCGGTGCAGGCATTACCGGAATCGAGACGTCGGCCGAGCTGATTCACGCGATGCGGGCTGAGGCGGGTAAGCTCCGTTTAGACCCGGCACATATTCGGGTGCATCTGTTCAATGCTCAGGATCGCTTGTTCCTCGAAGGGCCTGCCAAAGTAGGGAAACGGCTTGAACGATATCTAACCGAGCTTGGCATAGTCCTTCATCAGGGGAGAAGAGCGCTAAAGGAGGAACAGGGGCAGCTTCATTTTCTTGAAGGAGCTCCTATCCCTGTCGGCCTTACGGTGTGGACGCTTGGTCTGGCTCCGAATCCCGCCCTGCTTAGCCTGGGGCTGCCCGTGACGGCGGACGGGCAGATCGTTGTGGATGAAAGCTACCGTGTCAAGGATGCGCCGGGAGTATACGGCATTGGCGATTGCGCGCATGTGGTCGATTCCGTAAGCGGTGCCGCAGACCGGATGACATGCAAGGAAGCGATTCCGCAAGCGGCGCGGCTTGGCGGCATCGTGCAGGCGGATGTAACCGGAACCCCAGCCGCCAAGCACAGGAGCGTAAATGAAGGGTATACGGTTGGATTGGGACCCGGACACGGCCTGGTGTGGTCACGTGCCTGGGGAATGGATCTGATGATCACAGGAAAGCTGGCTTACAAGGTCAAAACGTTCATGTGGAATTATTCCAGCATGGTTCGTTAG	MIKDFTCVVVGGGFAGIHALKAIHKGCQKGLNGRKLRLFLIDQGSAHVRKVLLFRPAVSGDSITVPWEQVMPEGTRFIQGSVTNIDKESKLLNLEDGRGQGHRMEYDVLVMAIGSVVRQAAPEQGGISLTGMEAAERIRERWQSNLRLAAAETDAQEKQRLMSIAVAGAGITGIETSAELIHAMRAEAGKLRLDPAHIRVHLFNAQDRLFLEGPAKVGKRLERYLTELGIVLHQGRRALKEEQGQLHFLEGAPIPVGLTVWTLGLAPNPALLSLGLPVTADGQIVVDESYRVKDAPGVYGIGDCAHVVDSVSGAADRMTCKEAIPQAARLGGIVQADVTGTPAAKHRSVNEGYTVGLGPGHGLVWSRAWGMDLMITGKLAYKVKTFMWNYSSMVR	PGPT0004020_5168	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
AK002_03570	1449	dapL_3		LL-diaminopimelate aminotransferase	ATGAAGCTTTCGATGATGGATGAAAAGGCAGGAAAAGGAACATTGCAGCAGCTGGTTTACGATACCGTTACGAAGGGCATTGCAACAGGGGAGTGGAAGGAGTCTGACAAGCTGCCGTCGGTTAGGGTTATGGCGGAGCGTTTGAAGGTTCATCGATTAACGGTATTGAAGGCTTATCAGCAGCTCCTAGAGGATGGCATCGTGGAAGTTAAATATAAATCAGGGTATTATGTGGCAGGTAAGGCAGAAGACGTTTCGGCGGAATCCCTTGCATTCAGCCCGCCTTGGGAATATCAGGCCAGATCGCTGTACGTCAATCGCAGCCGCTTGTCCGACATCCACAGGCATCAGGTCGATTACCAGATGTCGGAAGCGCTGATCGATCCTGCGCTGCTGCCGAATGCATTCTTGTCCAATCACGTCAAACAAGTGTTTGACATGTATCCGAAGGTATTGAGCACTTATTCTTCGGTGTCCGGAGATTTGGAGCTGCGCGAGGAAATGGCCCGGTATTTCATGGAGAAGCAGGGCATAGCGGTTCATCCGGAAGAACTGCTGATTACGACGGGATCCCAGCAAGCGATTGATCTGATTTCGCGTTCGCTCGTCAAAAGCGGAGATGCTGTATTGATCGAACGGCCGACATACAGCCCGGCGATTGATGTTTTTGTTCAGCAAAATGTCAATCTGCTCCCCATCGAGATTACGCCGCAAGGATACGACCTGGAACATATCGAATATATGATGCGGACGGAGAAGCCGAAGCTGTTCTACATGAACCCGACGTTTCAAAACCCGACAGGATATACGGTACCGATAACGCAGCGCAAGGCGCTGGTTGAACTAGCCGAACGATATGAATGCATTCTGGTGGAGGATGAGGTTTATCACGACATTTATTTTGGAGATCCGCCGCCGCTGCCCTTTTTTTATTACGATACCGAGGGCTACGTCATTCATATTCGAAGCTTCAGCAAATATGTTGCCCCTGGCCTGCGGATATCGGTCCTGGCCGCTCGTCCGGAGCTGATGAAGGTAATCGTACCGGTCAAGGCTCTTTCGGACAACGGTACGCCCTTGTTGACGCAAAAGATCTTTCAGCATTATTTCTTCTCCAGCAGGCTGCAGGAGCATGTGGCCAAGCTTCGGATTGCGCTGGAGCTTCGAAAAACGAGGATGGAGAACCTGCTGGCGGCTACGGATTGGAGCTGGAGCAGCCCGGGAGGCGGCTTGAATCTATGGATACGGCTGCCGGAAACGATCAACGTGGATGCGTTATTGCAGCAATGCTTGGCGGAATCGGTAGCGTTTGTTCCTGGGCGGATATGCGATCCGCTGGATCGGATGGAATCGTGGATCAGGCTCAGCTACTCTTATATCAGCGAAGTTCAGCTGGATGAGGGAATACGTCGCCTCGTTGAGATATCGGACCGTGTGAAGCAGGATTAG	MKLSMMDEKAGKGTLQQLVYDTVTKGIATGEWKESDKLPSVRVMAERLKVHRLTVLKAYQQLLEDGIVEVKYKSGYYVAGKAEDVSAESLAFSPPWEYQARSLYVNRSRLSDIHRHQVDYQMSEALIDPALLPNAFLSNHVKQVFDMYPKVLSTYSSVSGDLELREEMARYFMEKQGIAVHPEELLITTGSQQAIDLISRSLVKSGDAVLIERPTYSPAIDVFVQQNVNLLPIEITPQGYDLEHIEYMMRTEKPKLFYMNPTFQNPTGYTVPITQRKALVELAERYECILVEDEVYHDIYFGDPPPLPFFYYDTEGYVIHIRSFSKYVAPGLRISVLAARPELMKVIVPVKALSDNGTPLLTQKIFQHYFFSSRLQEHVAKLRIALELRKTRMENLLAATDWSWSSPGGGLNLWIRLPETINVDALLQQCLAESVAFVPGRICDPLDRMESWIRLSYSYISEVQLDEGIRRLVEISDRVKQD	PGPT0028960_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_NorB,PGPT0028960-norG-K18907	NA	NA
AK002_03571	918	yedA		putative inner membrane transporter YedA	ATGATTATTTTTAACTACTTATTAATGTGCGCCATTTTCAGTACCACGTTTCTCGCGATTAAAATCGGCGTGGAGGCTGGGCTGCCGCCATTCCTCTCGGCGGGGCTTCGATTTCTTCTGGCGGGCGCCTTCATCTTCCTATGGATGATATTGCAGCGCAAGGCAAAACCGAGCCTGCTCCTGCGTAAGGAATTCCTTCTGATCGGGATGACCAGCACGTTTCTGACGTTTGCGACGCTGTATTGGGCCGAGCAGCATGTAGCTTCTGGCATTGCCGCCATACTGTCGGCTACGGGCCCCATGATGATCCTGATGATTCAATCCGTTGTCATGCGGAAAAAAGCCCGGCGCAGCGATTACTGGGGCTGCGCGGTCGGATTTGCGGGCGTGTGCGTGCTCATCATGCCCAAGCTGGCGATTGGGAGCGACCTCATCTGGATTCTGAGCTGCATGGTCATCCTTATAGGCGAAATCGGTTATAGCGTGGGCTCGCTTGCTACCCGCAAACTGTCCTTTGACATGCCGGATATCTCGCCGATTACGATCAATGCGGTGCAGATGATGCATGGGGGCTTGGCTTTATTGCTTCTATCCTTGTTCAGTGAACGCGGGCAATGGACTGGGCTGACAACGATGCCTGCCATAGGATCCGTCTTATATTTGACAATCGTCGGCTCGATGCTGGGCCATAGCCTGTATGCCTGGCTGCTAAAAGCGACGAATGCCTTTTTCCCGTCCACCTGGCTCTTCGTGTCGCCGATCATCGCACTGGGACTCGGTGCATTTCTGTACGGCGAAACGATTTCACTTTATTCGGTCCTAGGCAGTTTGTTCATTATCGGCGGGATTCTGATCGTGAATCTGCCCGAGCTCCGGACACGTTTCATGTCGCGCCGCATGGCATCAAGCTCAGGATAA	MIIFNYLLMCAIFSTTFLAIKIGVEAGLPPFLSAGLRFLLAGAFIFLWMILQRKAKPSLLLRKEFLLIGMTSTFLTFATLYWAEQHVASGIAAILSATGPMMILMIQSVVMRKKARRSDYWGCAVGFAGVCVLIMPKLAIGSDLIWILSCMVILIGEIGYSVGSLATRKLSFDMPDISPITINAVQMMHGGLALLLLSLFSERGQWTGLTTMPAIGSVLYLTIVGSMLGHSLYAWLLKATNAFFPSTWLFVSPIIALGLGAFLYGETISLYSVLGSLFIIGGILIVNLPELRTRFMSRRMASSSG				NA	NA	NA	NA	NA
AK002_03572	390	gcvH	COG0509	Glycine cleavage system H protein	ATGAGCGAAATCAGAGAGAATTTGGTGTACAGCGACGATCATGAATGGGCATTGAGGGTTGATGGAAATGTGGTGCGCGTCGGTATTTCCGATCATGCGCAGTGCCAGCTGGGCGATATCGTATTCGTAGAGCTTCCCGAGACGGGCGCTGCGGTTTCCGTAGGCGATAGCATTGGCACCATTGAGTCGGTCAAAACCGTTTCGGAGCTGTATTCCCCTGTTTCCGGAACCATTACGAAAGTGAATACCTCCTTGGAAGACCAGCCTGAGCTTGTGAACGGAGAGCCGTACGAAGGCGGATGGATTATGGAGGTAGAGGTGGAAGGTGATCTGGCCGAAGCACTAGGCAAACTGCTGACCGCGGATGCTTATCGTGCCAAAGTGGATTAG	MSEIRENLVYSDDHEWALRVDGNVVRVGISDHAQCQLGDIVFVELPETGAAVSVGDSIGTIESVKTVSELYSPVSGTITKVNTSLEDQPELVNGEPYEGGWIMEVEVEGDLAEALGKLLTADAYRAKVD				NA	NA	NA	NA	NA
AK002_03575	1113	gcvT	COG0404	Aminomethyltransferase	ATGAGTTCATTACAACGTACACCGCTTTACCCGCTTTATTCCGATTTTCCTTCTACTCGCTGCATCGATTTCGGCGGCTGGGAATTGCCCGTGCAATTTTCCGGCATCGTGCAAGAACATGAAGCCGTGCGCAAGCACGCCGGCCTGTTCGACGTCTCCCACATGGGTGAATTTATGATCAGCGGACAAGACGCCCAAGCTTTCATCCAGAACATGACCACGAATGACGTCACCCGAATTTCGGTCGGTCAGGCCCAGTATACGCTAATGTGTGATGACAACGGCGGTACGGTCGATGACCTGCTTGTGTATAAACTGTCGTCGGATCGATTCATGCTGGTTGTGAACGCATCCAACATCGATAAGGATCTTCAGTGGCTTCATGAACACGTCACAGGTGATGTCGCCATCCGGAACGTATCCGCGGAGACGGCACTGATTGCACTCCAAGGACCTGCCGCCGAGAACATCTTGTCGAAGGCAACCTCGGAGACGCTCGGCGATCTCCCCTCCTTCCATTTTATCCAGAACGCGCAAGTATGCGGCCATGCCGCCTTGCTTTCACGGACCGGTTATACCGGTGAAGACGGCTTTGAAATCTATTGCTCCGCCGGGGATGCGCCGGATATCTGGAGAGGCCTGTTAACCACAGGGGAAGACCATGGACTCATTCCGGCCGGACTTGGTGCACGCGATACGCTCCGCTTCGAGGCGAAACTGCCATTGTACGGGCAGGAGCTTTCGAGCACGATCTCACCTCTTGAAGCCAGCCTCGGTTATTTCGTGAAGCTGGACAGCGGCGATTTCATCGGACGGGAAGCGCTTCAGCAGCAGAAACAAGACGGTGTGCGGCGTAAGCTGGTTGGCATTGAGCTGATTGATCGCGGTATCCCGCGGTCCCATTACCCTGTATTCAACGGCAATGGTGAACCGATCGGTGAAGTGACCAGCGGTACTCAATCTCCCTCGCTCAAGCGAAATCTTGGATTGGCTTTGATCGAAACCCCTTATGCAAGCTTGGATTCCGAGGTATGGGTCGAGATTCGCGGTAAGAAATTAAAAGCCAAAGTGGTTAAGACACCATTCTATAAAAGAGGAGCTGCCTTATCATGA	MSSLQRTPLYPLYSDFPSTRCIDFGGWELPVQFSGIVQEHEAVRKHAGLFDVSHMGEFMISGQDAQAFIQNMTTNDVTRISVGQAQYTLMCDDNGGTVDDLLVYKLSSDRFMLVVNASNIDKDLQWLHEHVTGDVAIRNVSAETALIALQGPAAENILSKATSETLGDLPSFHFIQNAQVCGHAALLSRTGYTGEDGFEIYCSAGDAPDIWRGLLTTGEDHGLIPAGLGARDTLRFEAKLPLYGQELSSTISPLEASLGYFVKLDSGDFIGREALQQQKQDGVRRKLVGIELIDRGIPRSHYPVFNGNGEPIGEVTSGTQSPSLKRNLGLALIETPYASLDSEVWVEIRGKKLKAKVVKTPFYKRGAALS	PGPT0008130_2416	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
AK002_03576	1350	gcvPA		putative glycine dehydrogenase (decarboxylating) subunit 1	ATGAAGCATCGTTACTTGCCAATGACAGATCAAGATCAGGCCGACATGCTTGCCGCCGTCGGAGCAGAGACCATCGAAGACCTGTTTGCCGATATCCCTAAATCCGTCCGATACAACGGCGTCCTCCCGATGTCGAAACGGCTGGGTGAGCCGGAGCTGCTGAAGCATACGCGCCGCTTGGCGGACCGCAATGCCGATTTCGACCGGTATACCAGCTTTCTCGGAGCCGGATTGTATGACCACCACATTCCCGTCGTCCTCAATCATGTGATTTCCCGTTCCGAATTTTATACGGCTTACACGCCCTACCAACCGGAGATCAGCCAAGGCGAGCTGCAAGCGATCTTTGAATTTCAATCTTATATCTGCGAATTGACCGGCATGAAAGTAGCCAATGCCAGCATGTATGACGGTTCCACGGCACTGGCTGAAGCAGCGGCGCTTGCCAGCGGGGCAACTAAACGAAAGAAAATCGTTATTTCCCGAGCCGTTCACCCGGAAGCCCGCGAGATCGTTCTGACTTCGGCCCACGGCCTCGATCTGGAAGTCGTTGAAGTCGGCATCGTTAACGGCGTTACCGACCCGGATGCGCTCGCCGCTGCCGTTACGGATGACACGGCAGCCGTGCTTCTGCAATCGCCGAACTTCTTCGGCTGCATTGAGGACGTGAGATCGATCGAGCCCTTGGTTCATGATCAAAAAGCATTGCTCGTGCTGAGCGTAAACCCGCTGTCGCTTGGGCTGCTCGAATCCCCTGGCGTGCTTGGGGCCGACATCGTTGTCGGTGATGCCCAGCCGCTCGGCATTCCCGCCTCCCTCGGCGGGCCGACCTGCGGATTCTTTGCGGTATCCGAGCCGCTGATGCGCCGCATTCCCGGCCGGATCGTGGGTCAAACCGTCGATAAGGACGGCAAACGCGGCTTTGTGCTGACGCTGCAGGCAAGGGAACAGCATATTCGCCGGGAAAAAGCAACGTCGAACATCTGCTCGAACCAGGCGCTGCTCGCGCTGTGTGCCTCCGTTTATATGTCTACGATGGGTAAAGCCGGCATGCAGGAGGCAGCGCTTCTGAACGTGCGCAAATCCCATTACGCTGCCGACCTTGTCGCCAAGGGCTCCTTGTCCCTCCCATTCAGCTCTCCGTTCTTCAATGAATTCGTAGTGAAGCTGCCGGATGGAACCAACGTGAAGGAGATCAACTCGAAGCTGCTGGAGGCCGGTTATATCGGCGGTTATGATCTTGGCTCTACGTACCCTGAGCTTCATGGATGCATGCTGATCGCCGTGACCGAACGGCGGACGAAGGAAGAAATCGACCAGTTTATTGGTGAATTGGAGGCGATTGTATGA	MKHRYLPMTDQDQADMLAAVGAETIEDLFADIPKSVRYNGVLPMSKRLGEPELLKHTRRLADRNADFDRYTSFLGAGLYDHHIPVVLNHVISRSEFYTAYTPYQPEISQGELQAIFEFQSYICELTGMKVANASMYDGSTALAEAAALASGATKRKKIVISRAVHPEAREIVLTSAHGLDLEVVEVGIVNGVTDPDALAAAVTDDTAAVLLQSPNFFGCIEDVRSIEPLVHDQKALLVLSVNPLSLGLLESPGVLGADIVVGDAQPLGIPASLGGPTCGFFAVSEPLMRRIPGRIVGQTVDKDGKRGFVLTLQAREQHIRREKATSNICSNQALLALCASVYMSTMGKAGMQEAALLNVRKSHYAADLVAKGSLSLPFSSPFFNEFVVKLPDGTNVKEINSKLLEAGYIGGYDLGSTYPELHGCMLIAVTERRTKEEIDQFIGELEAIV	PGPT0020485_579	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020485-gcvPA-K00282	NA	NA
AK002_03577	1458	gcvPB		putative glycine dehydrogenase (decarboxylating) subunit 2	ATGAAACCGGAAAAAGCCTTGATATTTGAACTCAGCAAGCCCGGCCGCGTCGCCTATTCCCTGCCCGAATGCGACGTACCGGAAACCGACGCCGCTTCATTCATACCGGAGAGCCTGCTGCGCAGCAAACCGGCCGAACTGCCGGAGGTATACGAAGTGGATGTCATCCGTCATTATACCGAGCTGTCGCGACGGAATTTCGGCATCGATAACGGTTTCTATCCGCTCGGGTCATGCACGATGAAATACAACCCGAAGATCAACGAGGACGTTGCCCGTTTTGCCGGTTTTGCCAAGATTCATCCGTACCAGCCTGAGGAAAGCATTCAGGGCGCACTGGAGCTGCTGTTTACTCTGCAGAACGACCTGGCGGCATTGACCGGCATGGATCAAGTAACGCTGCAGCCGGCTGCGGGTGCCCATGGCGAATGGACGGGGCTGATGCTGATTCGCGCCTACCATGAGAGCCGCGGCGAGAAACGCACCAAGGTCATCGTACCCGACTCCTCTCACGGCACGAACCCGGCCAGCGCAACGGTAGCCGGTTACGACACGATCACGATTAAATCCAATGAGCGGGGCATGGTGGATCTGGATGCCCTCCGCGCCGTCGTTGGTGAGGATACGGCGGCCCTGATGCTGACGAACCCGAGCACGCTTGGCCTGTTTGAGGAGCAGATCGTGGAAATTGCGGAAATCGTGCACGACGCCGGCGGTCTGCTGTACTACGACGGAGCCAATTCCAACGCCATCATGGGAATTACCCGACCAGGCGACATGGGCTTTGACGTGGTCCATCTCAACCTGCACAAAACGATGAGCACACCCCATGGCGGAGGCGGTCCCGGCGCAGGCCCTGTCGGCGTGAAAAGCCTGCTGATCCCGTTCCTGCCGAAACCGATCGTGTCCAAGCGCGATGACGGCACCTTCTATTGGGATTACGACCGTCCCCAGTCGATCGGCCGCGTGAAGGCGTTCTATGGCAACTTCGGCATCTTGGTTCGTGCCTATGCGTATATTCGCACCTATGGACCGGAAGGACTTCGCCGCGTGTCCGAGCTCGCCGTGCTGAATGCCAACTACATGATGCATCGTCTGGCTCCTTATTACGAAGTAGCCTACCCGGGCTTATGCAAGCACGAATTCGTGCTGTCCGGCAGAAAGCTGAAGGAGTACGGTGTGCGAACCCTGGACGTTGCCAAGCGGCTGCTCGATTTCGGATATCATCCGCCAACCATCTATTTTCCGCTTAACGTGGAGGAATGCATTATGATCGAGCCGACCGAAACGGAGAGCAAAGAAACGCTGGACGGTTTCATCGACACGATGATCCAGATCGCAAAAGAAGCCGAATCTACGCCGGACGTTGTCATTAACGCCCCTTACACCACGGTTGTGAAGCGACTCGACGAAACGACGGCCGCGCGCAAGCCGGTATTAAACTGCACCTGCGGGTAG	MKPEKALIFELSKPGRVAYSLPECDVPETDAASFIPESLLRSKPAELPEVYEVDVIRHYTELSRRNFGIDNGFYPLGSCTMKYNPKINEDVARFAGFAKIHPYQPEESIQGALELLFTLQNDLAALTGMDQVTLQPAAGAHGEWTGLMLIRAYHESRGEKRTKVIVPDSSHGTNPASATVAGYDTITIKSNERGMVDLDALRAVVGEDTAALMLTNPSTLGLFEEQIVEIAEIVHDAGGLLYYDGANSNAIMGITRPGDMGFDVVHLNLHKTMSTPHGGGGPGAGPVGVKSLLIPFLPKPIVSKRDDGTFYWDYDRPQSIGRVKAFYGNFGILVRAYAYIRTYGPEGLRRVSELAVLNANYMMHRLAPYYEVAYPGLCKHEFVLSGRKLKEYGVRTLDVAKRLLDFGYHPPTIYFPLNVEECIMIEPTETESKETLDGFIDTMIQIAKEAESTPDVVINAPYTTVVKRLDETTAARKPVLNCTCG	PGPT0020490_893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020490-gcvPB-K00283	NA	NA
AK002_03578	1647			hypothetical protein	ATGACCATGGATGTCCAGGCACTCCGGGCAGCTGCAGGAACGATCACCTTCATACCTGAGCATTATGAACTTGTTATGGAGGATAACACCCCTAAGGGGTTCGATGAAAAAGAGAGAACGTTTATTTGGGAGGACCCTCATTCCGAGAACAGCCGAATTGAGGTTTCATTAAGCCTGGAGACCGGTCAGCTGATGAGGCTTCAAATCGATCAAGAACGTGATGACACAATATGGGGAAGCGCGATAGAGGCAGGACGCACCACAGAGCAGGCAGCGGACATAGCTAAAACCTTCATGATCCGGCATCATCCGAATTATGCAGCGCTTACCTGGATTCGATCAGAGATCAAACGAAACTATGTTGAGATTGAGTTTAGGGCAGAAACCGGCGGATTGCCGCTGCCGCGCTCCGGTTGTGAGATCCGCCTTGACGCCGATTTCAATATCGTGCTTTACAAGGCGGAAGAATTCCCGGGAATGGAGCTGCCGGTTTGGCCGGACAGGCTCGTTAGTGCGGAGGCTGCGAAGCAAAGGATCCTTCAAGATATGGAGATGCAGCCCATCATAACCACACTGTATCCCTCTATATATGACATGGAGGGGGAAGAAGATCAGCATCGGCTGGTTTATGAACCGATTCAGGGGCGTCGTAAGATCGATGCCGTTACGGGTGAACCCTTACATAACCTGCAGCATGATTTGCTGCCGCCGACTGTTCCAATCACGCCTGCGGATCCCGGTAATTTAGATAACGTCTATCCCGTTAAGCCTGTTCTCCCATCAAGGACCGGAACCGAACATTCAAGCTCAGATGAAGATTCAGATTTAATTCCGTTCTGGGAGGCCCAGCTGGGCATTGATACGGAGCGGTATGTTCTGGATAAGCCTAGGGGGGACGATCAAAACCTGATTTTATTGTACTTTGACAAAAGCGATATGAACCAGGATGAAGCGGATCAATCGGCGACCGATCCGTTATCGGTGGACCGATATTTTGAACGGCGGTGGGGAAAAACGCTTCGCAATCTTCAGGCAGCTTACATGATACATATAGATAAGGCCACTGGCAGCTTAGAGGCGTACCATTATAAACCGGAAAGCTCCGGTGGAGAGGCGGTGCTTACTCGAGAGCAATGCTGGGAACGAGCAGAGCTATTCTTGCGAAGATTTTTTCCGTCATACGCCAAGTATTTGCGGTTGGAAGTGAAATGGGATTTGGAGGCCGGGATAACGGACAGTGAGCAAGAGGGGGATGAGGGCGAAGCTGAGCCGCGGGATCGGGAATTCTTCCACTTGCCGCTATATATCGATCAATACCGGGTACGTCTGGAGCGTGTAAATATTTGCGTAAGCACGATTACGGGAGAAGTGCTTTTGTACCGCAGTGTGTCTTATGAGAAAATCCGTGAGCTGGAGGCTTGCGGGTTTAAGGCTGCGGTTTCTGCGTCATCGGCGCTCGCACGATATGCGGAACAGCTGGATGTGTCGCTCAGGTGGTATATGGATGGTGACGACGGCACGGCCCACTACCGGTTAATCTATGATCCCGTGTATAAGAGACGAGCAAAAACAGGAGTAAGCGTATCAGAGTATCTTTTGGAATTTATTGATGCCGTTAGCGGAGAATTGATATGGTCCAAATTATGA	MTMDVQALRAAAGTITFIPEHYELVMEDNTPKGFDEKERTFIWEDPHSENSRIEVSLSLETGQLMRLQIDQERDDTIWGSAIEAGRTTEQAADIAKTFMIRHHPNYAALTWIRSEIKRNYVEIEFRAETGGLPLPRSGCEIRLDADFNIVLYKAEEFPGMELPVWPDRLVSAEAAKQRILQDMEMQPIITTLYPSIYDMEGEEDQHRLVYEPIQGRRKIDAVTGEPLHNLQHDLLPPTVPITPADPGNLDNVYPVKPVLPSRTGTEHSSSDEDSDLIPFWEAQLGIDTERYVLDKPRGDDQNLILLYFDKSDMNQDEADQSATDPLSVDRYFERRWGKTLRNLQAAYMIHIDKATGSLEAYHYKPESSGGEAVLTREQCWERAELFLRRFFPSYAKYLRLEVKWDLEAGITDSEQEGDEGEAEPRDREFFHLPLYIDQYRVRLERVNICVSTITGEVLLYRSVSYEKIRELEACGFKAAVSASSALARYAEQLDVSLRWYMDGDDGTAHYRLIYDPVYKRRAKTGVSVSEYLLEFIDAVSGELIWSKL				NA	NA	NA	NA	NA
AK002_03579	783	nat	COG2162	Arylamine N-acetyltransferase	ATGAGTAACCCGACACATGGCCTGGATGTTAACCGGTATCTTGACCGTATTGGATATACGGGCCCGATTGTGAACAGCGCTTATATGCTCGCCAGACTGCAGGAGCAGCATGTGCATACCGTCCCCTATGAAAATCTCGATATCCTTGACCGAATTCCGCTTTCCCTGGATGTTCCCCATCTCTACGATAAAATCGTCACCCGCCATCGCGGCGGCTACTGCTTCGAGCTCAATGCGTTGTTTGGCTGGCTGCTGCAGGAACTGGGCTTTCAGGTCACTCATTACTTCGGTCGCTTCTGGCGGGATGAGACCGATACGCCTGCTAAGCGGCGGCACCATATCCTGCAGGTGGATATCGAAGAGCAGCGATATATTGCCGACGTCGGAGTGGGTGGCGCCGGACCTCGCCACCCTTTGGAGCTGGTAGATGGCCTGGAGCAAACCCAGGGGAACGAAACCTATCGGCTGGTTCAGACCGAGGCTTATGGCTGGATGCTCGAGGAGTGGAAAAAAGATGCCTGGGATCCGGTCTTCTCTTTTACGGAAGAACCTAACTTACCGAAAGATTTCATCACCACCTCCTTCTGGTGCGAGCATGCCCCCGATTCGCCGTTTAATAAAACGGCCCGGGTATCCATACGTACCGCTGAAGGCAGAAACACCGTGGATGACGACGAGTTCAGAATCTACAAGTCCGGCGGCGTCCACACCTTTAAACCGGGAAATCCACAGGAATATGCCGAAGCGCTTCATACTTATTTCGGTATCCCTATCGATAAATAA	MSNPTHGLDVNRYLDRIGYTGPIVNSAYMLARLQEQHVHTVPYENLDILDRIPLSLDVPHLYDKIVTRHRGGYCFELNALFGWLLQELGFQVTHYFGRFWRDETDTPAKRRHHILQVDIEEQRYIADVGVGGAGPRHPLELVDGLEQTQGNETYRLVQTEAYGWMLEEWKKDAWDPVFSFTEEPNLPKDFITTSFWCEHAPDSPFNKTARVSIRTAEGRNTVDDDEFRIYKSGGVHTFKPGNPQEYAEALHTYFGIPIDK	PGPT0019890_1102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITRO-|AMINOBENZOATE_DEGRADATION,PGPT0019890-nhoA|yddI-K00675	NA	NA
AK002_03580	567	guaD_2	COG0590	Guanine deaminase	ATGATGAGAGTTAGCCGCCCGGTTGATCAGGATGGTTTGATTACGCACGCCGGGATCGGGATGAACATGGGAAGGGAGCTGTACATAATGAGTGATCATAATCATGAGTACTGGATGCATCAGGCGATTGCAGAAGCCCATCGAAACGTTCAGCACGTGGAAGGAGGTCCTTTTGGGGCGATTGTGGTTAAGGATGGTCAAGTGATCGGCAGGGGCCGGAATTTGGTTACTGCGCTGAACGACCCTACCGCTCATGCCGAGGTGCAAGCCATACGGGAAGCCTGCCTGCATTTAGAGGATTTTCAATTGAAAGGTTGCACGATCTATACCAGCTGCGAACCCTGTCCGATGTGTCTGGGGGCTATCTACTGGTCAAGGCCCGATGCCGTTTATTATGCAAGCACGAAGCAGGATGCGGCCGAGATCGGGTTTGATGATCATTTCATATACGATGAAATCGCCATGCCGATGGATCAGCGTTCCATCCCCATGAAGCAGGTTCGGACAGCGGATTATTTGCTGCCATTCCAAGCGTGGAGCTCTGCGGAGCGCAAAATTGAATATTAA	MMRVSRPVDQDGLITHAGIGMNMGRELYIMSDHNHEYWMHQAIAEAHRNVQHVEGGPFGAIVVKDGQVIGRGRNLVTALNDPTAHAEVQAIREACLHLEDFQLKGCTIYTSCEPCPMCLGAIYWSRPDAVYYASTKQDAAEIGFDDHFIYDEIAMPMDQRSIPMKQVRTADYLLPFQAWSSAERKIEY	PGPT0021515_2294	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
AK002_03581	369			hypothetical protein	ATGCGACAAGAGGAACCAAATACGCCGGGCCAGAGTCGGTCGGAGCATCGCGACCGGGACAGCGACCGGGACAGCGACCGGGGCAGTCACCGGCACGGCGGACGGCACGGAAGACGGCGCGAGGAAGGTCATGGCGGCAGGGAAGGCGGGAAGATGGCGCAAACGTTCCGCCGGGGGCGTGCGCTCTCTTTCCTGGACAACCTGGTTGTGAAGCGGGAGACCCTGAAGAAACAGGTCAATGATCCGGACCTGCAAGCCATTCGGGACGTGGTCAGCGGAGAGCTGAAAGCGGTGGACCAGATCATTCAGGAGTACATTCAGGCTTTTGAATTGTATGATACGAGGCAGTCTCAGGACGGCCAGCAATAA	MRQEEPNTPGQSRSEHRDRDSDRDSDRGSHRHGGRHGRRREEGHGGREGGKMAQTFRRGRALSFLDNLVVKRETLKKQVNDPDLQAIRDVVSGELKAVDQIIQEYIQAFELYDTRQSQDGQQ				NA	NA	NA	NA	NA
AK002_03582	1707		COG1132	Putative multidrug export ATP-binding/permease protein	TTGATTAGAAAGTTTTTTTCATACTATCGGCCCTATAAGGGACTGTTTGTTCTGGATTTTACGTGCGCCGTCATTGCGGGACTGCTGGAGCTTGCTTTCCCGCTTGCCGTCAGCAAATTCATCGACGAGCTGCTGCCGAGCCAGGATTGGCCGCTTATCCTGATTGCCTGCATCGTCCTGCTGTCCATCTATGCGCTAAATACCGCGCTGCAGTATATCGTGACGTATTGGGGACATATGCTCGGCATCAACATCGAGACGGACATGCGGGAGAAAATGTTCTCCCACATACAGAAGTTATCCTTCCGCTTTTTTGATAACAACAAAACCGGCCACCTGATGGGCCGTATCACGAACGATCTTAACGACGTCGGCGAAGTGGCCCACCATGGCCCGGAAGACGTGTTCATCGCCGTCATGACGCTGCTCGGTTCCTTCTCCTTGATGGCCTACATCAACCTGGAGCTTGCGCTGCTGACCTTTATCATCGTGCCGCTGATGGCATGGCTGATCATCAAGTTCGGCGGCAGAATGACCACGACTTATCGTCAATTGTTCCGAAACGTGGGGAATTTCAATGCCCGCATCGAAGACAATGTCGGCGGCATCCGCGTGGTTCAATCGTTTGCGAACGAAGAGCATGAGAATAAGCTGTTTCAGGAAGAGAACAAGCAGTTCCGCGCCACCAAGCTGCTGGCTTATAAAACGATGGCAAAAAGCACGTCCGTCAGCTATATGCTGATGCGTTTGATCACGGTCTTCGTGATGATCTGCGGCGCATGGTTCTTCATTCAAGGCAAAATCGAGATGGGCGAATTCATGGCATTCCTGCTGCTCTCCAACATCTTCTTCCGTCCGATCGAGAAGATCAACGCGGTCATTGAGAGTTATCCCAAAGGCATTGCCGGCTTTAAACGCTACCTGGAAATCATGGATACCGAGCCGGAGATCGCCGATGTGCCTGATGCCGTATCCCTTTCATCGGTACGGGGAGATATCCGCTTCGAAGGCGTAACCTTCGGGTACGAGCCTTCCCGAACGATACTGAATAACATTTCCCTTGCGATCCGTGCCGGAGAAACGGTTGCGTTCGTCGGGCCGTCCGGTGCTGGAAAGACCACGATCTGCAGCCTTCTCCCCCGTTTCTATGACGTGGATCAGGGTGCGATCACGGTGGACGGGATCGACATCCGGAATATCAAATTGCAAAACCTGCGCAAGCATATCGGTATCGTGCAGCAGGATGTGTTCCTGTTCTCCGGCACGATCCGGGACAATATCGCCTACGGCGACTTGAATGCAACCGACCATCAAATCTGGGAAGCCGCACGGCGCGCTTCGCTGGATGAACTGATCCGAAGCCTGCCGGACGGCATGGAGACGGTCATCGGAGAACGCGGGGTTAAGCTGTCCGGCGGCCAGAAGCAGCGTCTGTCCATTGCGAGAATGTTCTTGAAGAATCCGCCGATCTTGATTCTGGACGAAGCCACCTCGGCACTGGACACGGAGACGGAAGCGCAAATCCAGAAGTCCTTGGCCGAGCTGTCCGTCGGCAGAACAACGCTAGTGATCGCTCACCGACTGACCACCATTCAGAGCGCGGACCGAATTATCGTCGTCAATTCGGAAGGCATTGCCGAGCAGGGTACGCATCAGGAATTGATTCACTCCGGCGGTGCGTACAGCAGGCTTCACCAAGTTCACTAA	MIRKFFSYYRPYKGLFVLDFTCAVIAGLLELAFPLAVSKFIDELLPSQDWPLILIACIVLLSIYALNTALQYIVTYWGHMLGINIETDMREKMFSHIQKLSFRFFDNNKTGHLMGRITNDLNDVGEVAHHGPEDVFIAVMTLLGSFSLMAYINLELALLTFIIVPLMAWLIIKFGGRMTTTYRQLFRNVGNFNARIEDNVGGIRVVQSFANEEHENKLFQEENKQFRATKLLAYKTMAKSTSVSYMLMRLITVFVMICGAWFFIQGKIEMGEFMAFLLLSNIFFRPIEKINAVIESYPKGIAGFKRYLEIMDTEPEIADVPDAVSLSSVRGDIRFEGVTFGYEPSRTILNNISLAIRAGETVAFVGPSGAGKTTICSLLPRFYDVDQGAITVDGIDIRNIKLQNLRKHIGIVQQDVFLFSGTIRDNIAYGDLNATDHQIWEAARRASLDELIRSLPDGMETVIGERGVKLSGGQKQRLSIARMFLKNPPILILDEATSALDTETEAQIQKSLAELSVGRTTLVIAHRLTTIQSADRIIVVNSEGIAEQGTHQELIHSGGAYSRLHQVH				NA	NA	NA	NA	NA
AK002_03583	348			hypothetical protein	ATGTTTTATATCTACAGTGTCGGTTTGCTCTTCGGCGGACTGTCGATCATCAATCTGGTCTTCTCGTACCAAACCAAGCATATTCAGCATCTGTTCTGGCCTACCCTGCAGTTTCAGTTATGGATGCTTCCGCTCTTTGTCATTGCCAATATGTGCATCGGGTACGGGATCCGCTTTGGTTACAAAGCCACCGATCAGCTGGGGTACACGTTGATCTTCTCCAAATGTCTGGAGATCCTGATATCGTTGGGTGTGGCTTACTTGTTCCTGAAGGAGGTACCCACCTGGAAAAACTGGGCGGGGATCGCCATTATTGCGCTCGGGATATTTCTGGTGAAGCAGAAATGA	MFYIYSVGLLFGGLSIINLVFSYQTKHIQHLFWPTLQFQLWMLPLFVIANMCIGYGIRFGYKATDQLGYTLIFSKCLEILISLGVAYLFLKEVPTWKNWAGIAIIALGIFLVKQK				NA	NA	NA	NA	NA
AK002_03584	660	degU_1	COG2197	Transcriptional regulatory protein DegU	ATGAACAATCAACCTTTTCGCGTGTTAATCATCGATGACAGCGATCTGGCAAGAGAAGGAATTCGCACCATTTTGAGCAGCGATCCGACCTTTGAGGTCGTGGCCGAAGGGCAAAGCGGTGAGGATGCGCTGGAACTGACCGAAATATGGATGCCCGATATCATCCTGATGGATATTCAGATGCCCGGCATGGGCGGCTTGGAAGCGACCAAGCGGGTGAAGGACAAATTCCCTTACGTTAAAATCGTTATGGTCACGGTGTCCGACGACATCGCCCATTTGTTTGATGCCCTGAAGCGCGGGGCCCAGGGGTATTTGTTAAAGAACTTGAATCCCGAATCGTGGCACGAGTACCTGAAAGCCATTGCGGTGGACGAAGCACCGGTGAGCAGGGAACTCGCGTTCCGAATCCTGAAGGAATTTTCGCAATACGACAAGCCGGACCCGAGCAAAAGTCCCTTAACGGCGCGGGAAAAGGAAATTCTGGGACTCGTCGCCGAGGGATTGTCTAACCGCGATATTTCGAGCGACCTTTGCATTTCCGAGAATACGGTCAAGAACCATTTGAAGAACATTTTGCAAAAGCTGCATTTGGAAAATCGGGTACAGCTGACCCGCTATGCCTTCGAACAAGGCTGGATGGGGAAGAGACAGCGATAA	MNNQPFRVLIIDDSDLAREGIRTILSSDPTFEVVAEGQSGEDALELTEIWMPDIILMDIQMPGMGGLEATKRVKDKFPYVKIVMVTVSDDIAHLFDALKRGAQGYLLKNLNPESWHEYLKAIAVDEAPVSRELAFRILKEFSQYDKPDPSKSPLTAREKEILGLVAEGLSNRDISSDLCISENTVKNHLKNILQKLHLENRVQLTRYAFEQGWMGKRQR	PGPT0000550_93	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000550-narL-K07684	NA	NA
AK002_03585	828			hypothetical protein	ATGTCTTATAAACAAATGAAATGGTTGATACTCATCATTCCAACCTTGACGATTGGCATATGGGAATATGTTCGCCATGAGTTCCTGCTGCCTTATATATCGATGGATCTTGGCAATCTGCTGGCGCCTGTCATCGTGTTTTTGGTTTCCATACTGTTTCTTACCCAGTTATTTTCGTTGATTGAACGGAATCAAGAGGAGTTGAACCGATCGAGGGCATTGCAAGCAGCCATGCATGAACGGGAGAAGATCGGCCGGGAGCTCCATGACGGAATCGCCCAATCCTTGTTCCTGCTGAACGCCCAGATCGACCGAATCGAGAAGTCAGGTCGTACGGGAGACATTCCGTATCAGGAAATCAAGGAAAGCGTTCATCGTACCAACACCTACGTAAGAGAGGCTATTGCGAATCTCCGCTACCCGGCAGATCCGCAAGCTATTCCGTGGATGCACAGCATGAGCAGCCTGATCGAGGAAATCAAGCAGGAGACAGACCTGCATTTCGACATCAAGTGGGGAATTCCGGACGCCATGCTGTCAGCCAAAGAAAAAGTGGAGCTGCTGGCTTCGATCAGGGAATCCTTATTGAATATCCATAAGCACGCGGAGGCAAAACACGTCAAGATTACGGCAAATACAACGGATTCGGGCTGGCATTGCACTGTCACCGACGATGGAAAAGGCTTTGATCTGGACAAGCCGCTCGGCAGCAACCGGTATGGAATCAAAATCATGAAGGATCGGGCCGAGGCCATGGGCTGGAAGTTCAAGATGGAAAGGCAGCACAACCAGACGATTATCAACATTCGGAAGGAGAGCATGGCATGA	MSYKQMKWLILIIPTLTIGIWEYVRHEFLLPYISMDLGNLLAPVIVFLVSILFLTQLFSLIERNQEELNRSRALQAAMHEREKIGRELHDGIAQSLFLLNAQIDRIEKSGRTGDIPYQEIKESVHRTNTYVREAIANLRYPADPQAIPWMHSMSSLIEEIKQETDLHFDIKWGIPDAMLSAKEKVELLASIRESLLNIHKHAEAKHVKITANTTDSGWHCTVTDDGKGFDLDKPLGSNRYGIKIMKDRAEAMGWKFKMERQHNQTIINIRKESMA	PGPT0000560_368	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	N-AQUISITION-NITRATE|NITRITE_SENSING,PGPT0000560-narQ-K07674	NA	NA
AK002_03586	846			hypothetical protein	ATGACGCAAAAAATTGCAGTGATCATTGTACACGGATTGGGAACACAAAAGAAAAGTTATGCGGATAAATTCATGAAAAACTTGAGGGACACCTTCTCCCGGACCTCCGGCATCCCGCATGAGCAGTTGGCCATGGAGGCCGTGCATTGGGCCGATGTTTTTGCGGCACGCGAGGATGAATTAATCGGCAGCAGCATTAAACCTTACCGTTTACGTTATCAGCACCTCCGGCAGTACGTAATCAACCATCTGGCGGATGCCGTGGCTTATCAGCCCGTGGAATCCGAAGATCAGAACTACGAGGCCATTCATCGTACGATCAGCGAGGCGCTGCACCGCCTTGCCCTGTCAGCCGGCCCCCATGCTCCGTTATGCGTGATCTCCCATAGCTTGGGGTCCGTGATCGCCAGCAATTTTTTCTACGATCTGCAATTTTCCTCCCGCGGGCATCGTCTGGTCGTTAATCCCGAAGCACCGCTGGAGCGCGGAGAGCTTCTGACCTTGTTCTATACGCTGGGAACCACCTTGCCGCTGTGGAGCATCCGTTATCGTGACTTTGACAAGCCGATCGAGGTTCCTTCAGCACAGTTGCAGCTCTATTATCAACATCTACTGGGTGAATGGGTCAATTTCTATGATAAAGACGATATCCTTGCTTCCCCCCTCAAAAGCATTAACGAAGAGTATGACCGCACGGTACGCCAAGACATATCCGTTAACGTGGGAAACTGGTTGACAAGCTGGAATCCGTTGTCGCACAGCGGATATTTCTACAGCAAACCGATTCTCGAATATATCGCTTCGCAATTGGAAGCAACCTGGCGAAGCATGAATCAGGTTAAATAA	MTQKIAVIIVHGLGTQKKSYADKFMKNLRDTFSRTSGIPHEQLAMEAVHWADVFAAREDELIGSSIKPYRLRYQHLRQYVINHLADAVAYQPVESEDQNYEAIHRTISEALHRLALSAGPHAPLCVISHSLGSVIASNFFYDLQFSSRGHRLVVNPEAPLERGELLTLFYTLGTTLPLWSIRYRDFDKPIEVPSAQLQLYYQHLLGEWVNFYDKDDILASPLKSINEEYDRTVRQDISVNVGNWLTSWNPLSHSGYFYSKPILEYIASQLEATWRSMNQVK				NA	NA	NA	NA	NA
AK002_03587	474			hypothetical protein	ATGCCAAACGCAGAAATTCAGCTTGTTGTCCGCACGGCAGAACATCAGCCCGTCTTGAAAGAATTCGAGCTTCCGGATGACCAAGTCCAATTCACCTCTCATCCGAAAGAAGTTTTAAACCTAGGCGAAGGTCAGTTCCCCATCGTCATTTTAGCTGATGGTCATCCTGTCGGTTTCTTTGTCCTGCACGCTACGGAGCGCGTCAAAGAGTATACAAATCATTCTCATGCGATGCTGCTGACCGCTTTATCCATTGATCGTCGACAGCAGCGTAAAGGTTACGCCAAACGAGGAATGCTTGCGCTGCCAGCATTTATTAGGAGAGAATTTCCTTCATGCAATGAGGTGGTGCTGGTCGTGAATCATAAGAATGTTCCGGCTCAGCAGCTGTATGCTAGTGTTGGTTTCAAAGATACAGGCAGAAGAAGGATGGGGCCGATCGGAGAGCAATGGGTGATGAATCTAACCATCTGA	MPNAEIQLVVRTAEHQPVLKEFELPDDQVQFTSHPKEVLNLGEGQFPIVILADGHPVGFFVLHATERVKEYTNHSHAMLLTALSIDRRQQRKGYAKRGMLALPAFIRREFPSCNEVVLVVNHKNVPAQQLYASVGFKDTGRRRMGPIGEQWVMNLTI				NA	NA	NA	NA	NA
AK002_03588	1857	yheI_2	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	ATGAAAACTAGGCATTTTTTCTGGCGGTTGATTATGTACCGGCCGGGGTTGTATCTCATCAACCTGTTCGCGTGGTCCCTTATCCATATGGCACCGCTGGTTCCCGGACTCTTAACCAAGGCCTTCTTTGACCATTTGGAAGGCACTTATTCTTTTCCTTACGGCGTGTGGGCGATTGCGGTGCTGCTTATCGGCGCTGCCTTGGCACGGATTGCGCTGATCTTCGGCGGCTTCATGACCGACGTGCATTTCCGCTTCCGCATCAGCACCTTGCTCCGCCGCAATATGCTGTCGCATGTCATGAAGGAGCCCGGAGCGCGAGCCATCCCGTGCTCGCCCGGAGAAGCCATCAGCAATTTCCGGGATGACGTGGATCAGGCTGAAGAAGCGACGAGCTGGTCAGTAGATACATTAGGGCTTGTCGGTTTCGTTTTTGTCGCCAGCTGGATTCTCATATCCATCGATCTGCAGCTAACGATTCTCGTGTTCGTACCTTTGATTCTGGTGGTGACCGCAGCCCAAATCGCAACCGCGCGCATCCAGAAGTACAGGGCGGCAAGCCGGGAATCGACCGCCAAGGTAACCGGGGCGATTAGCGAAATGTTTGCCAACGTGCAGGCCATCCAGGTCGCAGGGGCGGAGAAACGCGTGGTGGAGCGGTTCGTAAGTCTGAGCGAGAAACGGCGCCAATCCATGGTGAAGGATAAACTTCTGACGGAAACGTTGTCCTCCGTATTCACGAACTCCGTTAATCTCGGTACCGGGCTGATCCTCGTGCTCGCAAGCCTTAAGATGCGAAACGGCGATTTTACCGTCGGGGATTTGTCCCTCTTTGTATATTATTTAACATTTGTTACCCAGCTCATATCGAACGTAGGCAATTTCATGACGTATTACAAGCAGATGGGCGTCAGCTTTCAGCGCATCAAATCCATGCTGCAAGGAGCACCGGCTTCGCTGCTTACCGCAGCCCATTACATTGGTATCGGCAAGGTTAAGAGCAAGCGAGCCCATGAAGAGAAATCGGGTTATCATGCCGCAGGAAATGGGCAAGCGCATGGGGCTTCCAATCGCGCTGCCGGCGCTCCGGTCGAAGACGGGATGGAAACGGCATATATCGAGGCACCTCCGCTCTCGCTGCTGGAAGCGCAAGGGTTGTCGTACCAGTATCCCGAAACCGGAAGGGGCATTTCGAATATCAGTCTGACGCTCTCGCGCGGCACCTTTACCGTCGTTACGGGGATGATAGGCAGCGGAAAAACGACGCTGGTTCGCACATTGCTGGGCTTGCTGCCAGCCGAAAAAGGTGAAATCCGATGGAACGGCGAAAGGGTAACGGAGCCGGCTGATTTCTTCATCCCGCCGCAAAGTGCTTATACTGCACAGATCCCAAGGCTGTACAGCGACAAACTGCGCAACAATATTCTGTTGGGTATATCCGAGCAGCCGGGCAGTCTGGAACGCGCGCTTCATGCGGCCGTAATGGAAGAAGATATCAAGCATCTGCAAAATGGGCTGGAGACGATGGTGGGTCCGCGCGGAGTCAAGCTGTCCGGCGGTCAAGCACAGCGGACAGCCGCGGCAAGAATGTTGGTTCGGGATGCGGAACTCTACGTATTCGACGATTTATCCAGCGCATTAGACGTTGAGACGGAGCGCAAGTTATGGGAGAGGCTGTTCAGCGAGCGCGGAGGTGCGACTTGTCTTGTGGTATCGCATCGGAAAGCCGCACTTAACCATGCTGACCATATCATCGTGTTGAACGGCGGTGAGATTGAGGCCGAGGGCACGGCGGAGCAGCTGCTGGCTTCCAGCGAAAGCTTCCGACAGCTATGGTACGGCGGAGAAACTGGATAA	MKTRHFFWRLIMYRPGLYLINLFAWSLIHMAPLVPGLLTKAFFDHLEGTYSFPYGVWAIAVLLIGAALARIALIFGGFMTDVHFRFRISTLLRRNMLSHVMKEPGARAIPCSPGEAISNFRDDVDQAEEATSWSVDTLGLVGFVFVASWILISIDLQLTILVFVPLILVVTAAQIATARIQKYRAASRESTAKVTGAISEMFANVQAIQVAGAEKRVVERFVSLSEKRRQSMVKDKLLTETLSSVFTNSVNLGTGLILVLASLKMRNGDFTVGDLSLFVYYLTFVTQLISNVGNFMTYYKQMGVSFQRIKSMLQGAPASLLTAAHYIGIGKVKSKRAHEEKSGYHAAGNGQAHGASNRAAGAPVEDGMETAYIEAPPLSLLEAQGLSYQYPETGRGISNISLTLSRGTFTVVTGMIGSGKTTLVRTLLGLLPAEKGEIRWNGERVTEPADFFIPPQSAYTAQIPRLYSDKLRNNILLGISEQPGSLERALHAAVMEEDIKHLQNGLETMVGPRGVKLSGGQAQRTAAARMLVRDAELYVFDDLSSALDVETERKLWERLFSERGGATCLVVSHRKAALNHADHIIVLNGGEIEAEGTAEQLLASSESFRQLWYGGETG				NA	NA	NA	NA	NA
AK002_03589	1788	btuD_8		Vitamin B12 import ATP-binding protein BtuD	ATGCAAAGCGATTACACGTTAAGAAGCAAGCGAAGGACCACGGGGATTGGCATGTATCGGAAGATGCTCGTCAGGTATGTACTCCCGCATAAGAAGCTTCTGGCAGCCCTGACGGTGCTGCTGTTATTTTCCATTGGGCTCCAATTGATAAATCCGCAGATCATCCGGTATTTCATCGATACGGCTCAAGGAGAGGGAAGCCTGACCACCCTTTATTATGCGGCAGGATTTTTTATTCTCTTTTCATTGCTTCAACAAGGCGTTTCCATAGCGGCTGCTTATTATAGCGAGAACCTGGGCTGGACGACCACCAACAAGCTTCGTGCCGAGTTGGCGGAGCACTGCCTGTCGCTGGACATGAGCTTTCACAAAACCCAAACCTCCGGATCTCTAATTGAACGGGTGGATGGCGATGTGAATGCGCTCGCCAATTTTTTCTCCAGTTTCATTATCCATCTGTTCGGCAATCTGATCCTCATGCTCGGGATTCTGGCTTTGCTGTATCGGGAGAACTTTTGGATCGGATTTGTCATGACGGTGTTTGTGGTCGGCAGCATTTACGTCATTCAACATATCCGTCGATTTGCGATACCGGTCTGGAAGCGGTGGCGCGAGCTGAATGCGGATTTCTACGGATTCATCGGCGAGCACCTTGAAGGAACCGAAGATACGCGTGCCAACGGGGCGGCCGGATATGTCATGAACCGATTTTATGAGATGGCCAGGCGGATGCTGCCGGTTCGCGTTCGTGCGTTCATCGGATTTTTCTTGATGTGGAGCACCACGATTTTGGTGTTTGCGCTTGGCAATGCAGCCGCTTTTATCGTGTGCGCCATACTGTGGAAGAACGGACAGGGCGGCTTGACGATCGGCTCCATCTATCTCGTGTTTTATTATACGGAGCTGCTGGCCAAGCCTATTGAGAAGATTCGTACCCAATTGGAGGATTTGCAAAAAGCGGATGCCAGCTTGATGCGGGTCCGCGACCTGCTGGCAACCGAGCCCCGGATCAAAGACGGCCCTGGCGCGCCGCTTCCTTCAGGTCCATTGTCGGTGGAATTCCGGAACCTTAACTTCGCTTACGAAGAGGGCGGGCAGGCTACGCTTGAAAATCTGCAGCTGCGCCTTGAGCCGGGCCAGACTCTTGGGCTGCTCGGCCGTACGGGCAGCGGCAAAACGACGATCGCCCGCCTGCTGCTTCGCTTTTATGATCCACAGGAGGGAAGCATCGAGCTGGCGGGAACCGATATTCGGGGCTGCAAGCTCCATGAACTAAGGCGGAAGGTCGCCATGGTCACGCAGAATATTGAGATTCTTGAGGGAACCGTCCGTGATAATCTGACCTTGTTTGATGAAGGCATAGCCGATGCCCGCATTATATCCGTGTTAGAAGAGCTTGGACTAGGGGATTGGTATGGCTCGCTTCCCGAAGGGCTGGATACCAATCTGGCTTCTGGGGGCGGAAGCCTGTCAGCGGGCGAGGCCCAGCTGCTGGCGTTTGCACGCGTATTTTTGACAGATCCCGGTCTTGTCATTCTTGATGAGGCATCGTCTCGTCTAGATCCGTTAACGGAATACCGGATTGAAGCAGCCATTTCGCGTCTGCTGCAGGAGAAGACCTGCATTATTATTGCCCATCGTCTGGCTACGGTTCAGCGCGCCGACCGGATTCTTATACTGGAGAACGGAAGAATGCTCGAAAGCGGCCGCAGGGAAGAGCTGGCCTCAGATCCGCAATCGCGGTTCAGCCGCATGCTTGCCGTTGGAATGGAGGAGGTGCTGGCATGA	MQSDYTLRSKRRTTGIGMYRKMLVRYVLPHKKLLAALTVLLLFSIGLQLINPQIIRYFIDTAQGEGSLTTLYYAAGFFILFSLLQQGVSIAAAYYSENLGWTTTNKLRAELAEHCLSLDMSFHKTQTSGSLIERVDGDVNALANFFSSFIIHLFGNLILMLGILALLYRENFWIGFVMTVFVVGSIYVIQHIRRFAIPVWKRWRELNADFYGFIGEHLEGTEDTRANGAAGYVMNRFYEMARRMLPVRVRAFIGFFLMWSTTILVFALGNAAAFIVCAILWKNGQGGLTIGSIYLVFYYTELLAKPIEKIRTQLEDLQKADASLMRVRDLLATEPRIKDGPGAPLPSGPLSVEFRNLNFAYEEGGQATLENLQLRLEPGQTLGLLGRTGSGKTTIARLLLRFYDPQEGSIELAGTDIRGCKLHELRRKVAMVTQNIEILEGTVRDNLTLFDEGIADARIISVLEELGLGDWYGSLPEGLDTNLASGGGSLSAGEAQLLAFARVFLTDPGLVILDEASSRLDPLTEYRIEAAISRLLQEKTCIIIAHRLATVQRADRILILENGRMLESGRREELASDPQSRFSRMLAVGMEEVLA				NA	NA	NA	NA	NA
AK002_03590	249			hypothetical protein	ATGAACAAGAAAAACAAAATGAGTATGTGGTCGATCGGATTGGGAAGTGCTTTTCTGATGATGATGTTAGCCAACCATGATAACGTTCATGATGGTCAAGCCCAAACCGGTATCGCTTCGAATGGAGTCAGATCCAACGTAGCCATTCAATCTGTCAACAAGAACGCAGCCGTAACAACCATGCCTGAGAATCAGGAAATAACCCCTGAAATGATCAATCAATTCTTGAAAATAGTTGCAGAGACATAA	MNKKNKMSMWSIGLGSAFLMMMLANHDNVHDGQAQTGIASNGVRSNVAIQSVNKNAAVTTMPENQEITPEMINQFLKIVAET				NA	NA	NA	NA	NA
AK002_03591	483			hypothetical protein	ATGACAACGATACAACAAGCCATTGAACTTCGCGCCGAAGGCAAACCGGAGGAAGCGAAAGCAATTCTCCTTGAGCTGCTGCCCCAATCCCCGGATGACCCGGACATCCATTATCAGCTGGCCTGGGTGCATGATATGATGGGTCTTGAGAGCGAAGCGGTTCCATATTACGAGAAAGCCATATCCTCAGGACTGAAGGATCCCGAACGGTGCGGCGCCTTGCTTGGACTTGGAAGCACATACCGCACATTGGGGATGTACGGCAAATCCAAGGAGATATTTGAGCAGGGACTGCGGGAATACCCCCGGGCGCGGGAGTTCAAGGTGTTCTACGCGATGACCTTGTACAATATGCGACAGTATGACAATGCGATGGAACTGCTGTTAAGAGAAATAAGCGAAACCAGTAATGACGAGGGAACCAGGAGCTACCAGAGAGCCATTGCTTTTTATTCTGATAAGCTTGATCAGGTTTGGAAATAA	MTTIQQAIELRAEGKPEEAKAILLELLPQSPDDPDIHYQLAWVHDMMGLESEAVPYYEKAISSGLKDPERCGALLGLGSTYRTLGMYGKSKEIFEQGLREYPRAREFKVFYAMTLYNMRQYDNAMELLLREISETSNDEGTRSYQRAIAFYSDKLDQVWK				NA	NA	NA	NA	NA
AK002_03592	2238	apeX_2	COG2409	Apo-petrobactin exporter	ATGCACGGATCAGGACCGAATTACGGAAAATGGGTAGCGGGAAAGCGAAGCAAATGGGTCACGCTCTGTGTATGGATACTCATCGCGCTGGCGTTGAATTTGCTATGGCCGGCTGTGGGAGATAAAGAGGATAACAATGCCGCCAATCTGAAGGAGGATGTTCCGTCCGTCGTAGCGGAAGCGATGGCCGACAAGGAATTTCCGAGCAATGGCGGCGTGCCGGCACTCGTCGTATGGCATAAAGAAAACGGCTTAAACGAAGAGGATCTGACCAAGCTGCAGGAATTGACGGCAAGCCTTGAGTCCGATCCGCTCCCGTATCAGACGTTCGTAGTTCCTTTCCATCAGCTGCCTCCGCAAGCCTTAAGCGCCCAGTTATCTGAGGATCAGAGCACGCTGGTGATGCCTGTATTTTTTGAAGAAAATCAGGAGACGGACCAGCTTAAGGAAGGAACGGCCGAGCTGGAGAAGCGGTCGGAACAATTGCTGGGCAGCAATCCGTTTCAGGCTGCCGTCCAGAGCGGAGATGGAATCAGCGCACGCGTGACGGGACCGGTGGGAATTTCTATTGATGCGACCGGTTTGTTCGAGGATGCCGACGTATCGCTCATGATTGCAACCGTGCTTCTTGTTCTGATATTGCTGCTGCTAATATACCGTTCGCCGATTCTTGCCCTCATTCCTTTGGTTGCGGTCGGCTTTGCGTATATGGTAACAAGCCCGATTCTCGGCTTCATGGCGGATCAAGGCTGGATCACGGTGGATTCCCAGTCCATCGCCATTATGACCGTGCTGCTCTTTGGAGCGGGTACGGATTATTGCTTGTTCCTGATCTCGCGATTCCGCCAGCTGTTATGGCACGAGCCCGATAAACGCAAGGCTTTGTTTCAGGCGATTACCAGCTCATCAGGCGCTATTGCGATGAGCGGCTTCACGGTTGTATTGTCTCTATTCGCGCTGCTGCTGGCTCAGTACGGGGCATATCAACGTTTTGCCGTGCCTTTCAGTTTGTCGATCCTGATCATGTTTATAGCTAGTCTGACACTGGTGCCCGCATTGTTGGCTATTTTCGGCAGAGGTTCGTTCTATCCTTTCATTCCGAGAACGCCGGAGATGCAAGCGGAACGCGCCCGGAAAAAAGGAAAGCCGGCTCCTGCCCCTCACAAGGAGAAGGAGAGCCGGATCGGCCGCTTGGTGACAACGAAGCCTTGGACCGTCGTCCTGGCAGCATTGGTATTATTGGGTGGACTTGCGACGTTCTCGTCCCAAATCAAGTTCACTTATGATCTCTTATCCTCTTTCCCTGAGAATGTGCCTTCGCGTGAAGGCTTCGCCGTCATCGGCGAGCAGTTCTCGGAAGGAGAGCTTGCGCCGGTTCGCGTGATGGTGGACAGCGGGGGGCAAGCTTTGGACCTCGAGGAGCGGCTGAAAGCTCTGGATTACGTGGATCGCGTATCCGAGCCGCAGAATGGGGCCGAAAATAACGATATCATCGGTTATGAACTCGAGCTGTCCATGAATCCTTACTCCATGGAAGCGATGCAGCATATTCCGGATCTTCGGGAGATCGCGGAGTCTTCACTGGAGCAGGCAGGTGTCGGCAATCCGGCCGAAGCCGTGTGGATCTCCGGTCAAACGGCTACCCAGTACGACACCGAGATCGCGGGCGAGCATGATGCCAAATTGATCATCCCCGTCGTTATCGGATTGATTACGCTGCTCTTATTGGTGTATTTGAGATCCGTTGTAGCTACCGTTTATCTGATTGCAACCGTCATTTTGTCCTACTTCTCGGCCCTCGGGCTTGGCTGGATCATCATTCATTACGGCCTGGGAGCCGAAGCCATCCAGGGAGCGATTCCGTTGTATTCATTTGTGTTCCTGGTTGCGTTAGGCGAGGACTACAACATCTTCATGATCTCGAGCATATGGCAAAAGCGGAAGCAAATGCCGCTGAAGCAAGCGATCAAAGAAGGCGTCGGAGAGACCAGCTCGGTGATCACCTCAGCCGGTTTGATCCTGGCAGGAACCTTTGCCGTACTGGCCACGCTTCCGATTCAAGTGTTGGTACAGTTTGGGATCATCACGGCCATCGGGGTTATGCTGGATACGTTCATCGTGAGACCTTTCCTGGTACCCGCAATCACAACGCTGTTGGGCAAGTGGGCGTTCTGGCCGGGCAAAGTTCATATGGCGACTGAGGAAAAGCCCGCCTTGAACGTTGAGAACAAAGCATAA	MHGSGPNYGKWVAGKRSKWVTLCVWILIALALNLLWPAVGDKEDNNAANLKEDVPSVVAEAMADKEFPSNGGVPALVVWHKENGLNEEDLTKLQELTASLESDPLPYQTFVVPFHQLPPQALSAQLSEDQSTLVMPVFFEENQETDQLKEGTAELEKRSEQLLGSNPFQAAVQSGDGISARVTGPVGISIDATGLFEDADVSLMIATVLLVLILLLLIYRSPILALIPLVAVGFAYMVTSPILGFMADQGWITVDSQSIAIMTVLLFGAGTDYCLFLISRFRQLLWHEPDKRKALFQAITSSSGAIAMSGFTVVLSLFALLLAQYGAYQRFAVPFSLSILIMFIASLTLVPALLAIFGRGSFYPFIPRTPEMQAERARKKGKPAPAPHKEKESRIGRLVTTKPWTVVLAALVLLGGLATFSSQIKFTYDLLSSFPENVPSREGFAVIGEQFSEGELAPVRVMVDSGGQALDLEERLKALDYVDRVSEPQNGAENNDIIGYELELSMNPYSMEAMQHIPDLREIAESSLEQAGVGNPAEAVWISGQTATQYDTEIAGEHDAKLIIPVVIGLITLLLLVYLRSVVATVYLIATVILSYFSALGLGWIIIHYGLGAEAIQGAIPLYSFVFLVALGEDYNIFMISSIWQKRKQMPLKQAIKEGVGETSSVITSAGLILAGTFAVLATLPIQVLVQFGIITAIGVMLDTFIVRPFLVPAITTLLGKWAFWPGKVHMATEEKPALNVENKA				NA	NA	NA	NA	NA
AK002_03593	639			hypothetical protein	ATGACAAAAATACGTAACCCCCGAAATCCCGGACGTCCCAAAGCAGCTGCCGATCAGATTCCCATCCAGGAAACGATTCTCTGGACCGCCTCCAAGTTGTTCATGGAGAATGGCTACGAGTCCGTATCGTTGCAGCAGATCGCGAAGGCTTGCCAAGTGACCAAGGCTTCCATCTATTATCATTTCACAAGTAAACCCGAGCTGTTTAAAATAGCGGTAACCACGATTCTAGATAAAGCTTATGCTTCTACACATCGCTTTTTGCAGGAAGCCGATACCCTAGAGTCAGGATTGATCCGGGTAGCCGAAGCGAAGATTGCCAAGCCTCATGCCGAAATGGAGACCATGATGCGGGAAGCGGAGCCTTTCTTGTCTAAGGAGCAAATGGCCGCTATCCGTGAGGCGGAACAGCGGATTCATGAAGTCCTTGCCGAACAGATTCATCAAGCCATGCAATCCGGCGAGCTTCGGGAAGGGAACGCCTTGCTGATGGCACAGGCTTTCTCGGCCATGCTGATGCTGGGCAATCGTGAAGACACTCGAAGCGGTTATGCCAGCTCCCGTGATATGGCAGTGGACATCGTTGATTTATTCCTGCATGGAGCTGTAAGACCTGCCAATGAAAATATCGATGTGTAA	MTKIRNPRNPGRPKAAADQIPIQETILWTASKLFMENGYESVSLQQIAKACQVTKASIYYHFTSKPELFKIAVTTILDKAYASTHRFLQEADTLESGLIRVAEAKIAKPHAEMETMMREAEPFLSKEQMAAIREAEQRIHEVLAEQIHQAMQSGELREGNALLMAQAFSAMLMLGNREDTRSGYASSRDMAVDIVDLFLHGAVRPANENIDV	PGPT0028895_768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexJK-OprM,PGPT0028895-mexL-K18301	NA	NA
AK002_03594	642	yodC_1	COG0778	Putative NAD(P)H nitroreductase YodC	ATGTCTACAACAATGACAACAAAACCCGATTTTCAAACGGTGATTCAGGAACGCCACTCGGTTCGTCAATACGACCCATCGGTGAAGATTCCAAGAGAAGAGATGGAAGCGATCTTGAAGGATGCTACACTGGCGCCTTCTTCAAGCAACCTGCAGCCATGGCGTTTTCTTGTGATCGATGATGCGGACCTCTTGAAGAAGCTGCATCCGATTGCCAACAATCAGGAGCATGTTCTTCAAGCCTCGGCCGTCATTGCCGTATTGGGCGATCTGAAATGGTATGAGAAGGGCGAGAAGATTTATTCCATGTCTGAAGAAGCCGGTTATATGACCGAAGAGGTGAAGCAGCGCTTCATTCATACGGCCGAAAATATGTATGCGAACCTGGATCCGTCCATAAAGGAAAGCATCGTGGACGTGGATGCCGGACTGATCTCCATGCAGCTGATGCTGAGCGCTCGCGCCAGAGGATACGATACCGTTCCGATGGGCGGATATAACAAGGTTCGGTTTGTGGAGGAGTTCCATATTCCTTCCCATTACCGGAGCGTGATGCTGATCGCCATCGGGAAAGCAGCCGCCCCAGGCCGGCCGACGGTAAGATTGCCGCTGGAAGACGTTGCTTTCTGGAATGAAATCTAA	MSTTMTTKPDFQTVIQERHSVRQYDPSVKIPREEMEAILKDATLAPSSSNLQPWRFLVIDDADLLKKLHPIANNQEHVLQASAVIAVLGDLKWYEKGEKIYSMSEEAGYMTEEVKQRFIHTAENMYANLDPSIKESIVDVDAGLISMQLMLSARARGYDTVPMGGYNKVRFVEEFHIPSHYRSVMLIAIGKAAAPGRPTVRLPLEDVAFWNEI	PGPT0028511_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
AK002_03595	450			hypothetical protein	ATGAGCGTAAATAAAGAAGCGGCCTCCAAAAAATCGACAATGGCCTGCCCGTCCACCTATAAAACCTTCAGTATTGCCGTGCAAGCGCTTGTGACCCTTGAGCGTCACTCCGGGAAGTGTTCTAGCGGCGATATCGCATCGTATCTCCACTCGGAGTCGACGTTGATTCGGCGCGTGCTGAAAACACTTGCTCAAGCCGATCTGATTGAATCGCGCGAAGGAAGGGACGGGGGATACCGTCTGAGGAAGAACGCCCGCGATATTTCGCTGGCTGAAGTATACTCGATACTTCAGGTTCACAGCTCGATTAGCGAAAGCATGCTGGACGCCGCAGCGGGGCATTGTTTTGCCGAGGAAATCAAGGAGTCCTTTGCCGGAATCTTGTCCGAGATTGAGGAGAGCACCTTGAAAATACTGGAGTCGCGCACGATTGCGGACATCGCTCAATGA	MSVNKEAASKKSTMACPSTYKTFSIAVQALVTLERHSGKCSSGDIASYLHSESTLIRRVLKTLAQADLIESREGRDGGYRLRKNARDISLAEVYSILQVHSSISESMLDAAAGHCFAEEIKESFAGILSEIEESTLKILESRTIADIAQ				NA	NA	NA	NA	NA
AK002_03596	2004	nhaK	COG0025	Sodium, potassium, lithium and rubidium/H(+) antiporter	GTGGAAATTTTTTTAATGGTCCTTATTTTTCTGGTTTTGATCGCGATATCCAATATGATCCATCGATTTCTGCCGTTCATTCCGGTCCCGCTGATCCAGATCGCCCTCGGAATCGGGGTGGCCTATGTCCAAGGTTTTCATCATGTGCCGCTGAATCCCGAATTGTTCATGGTTTTGTTCATCGCACCGCTCTTGTTCAATGATGGAAAGCTGACCCCGCGCGACGAATTATGGAAGCTGAGATCATACATCCTGCTGCTGGCGCTGGGTCTCGTATTTGCTACGGTCTTGATCGCGGGGCCTTTCATTCACTGGCTCATTCCGGCAATCCCGTTATCGGCGGCCTTCGCCCTGGCAGCGATACTGTCGCCTACGGACGCGGTAGCGGTAGGCTCCTTGTCGGGAAAAGTGAAGCTGCCGGGTAAAATCATGCATTTGCTTGAAGGCGAAGCGCTTATGAATGATGCATCCGGTTTGGTTGCATTCAACTTTGCGATTGCAGCAACAGTGACGGGTTATTTCTCCCTGACGAAGGCCATCGGCAGTTTTTTGGTTATCGCGGTCGGAGGAATCGTCATCGGTGCATTGCTGGGTTTTCTTGTGATCTGGTTCAGAATGCTGCTGCGCCGGCTCGGTATGGAGGACGTCACTCTTCATATGCTGATCATCATCCTGACGCCGTTCATCATTTACCTCATAGCCGAGGAGTTTCATGTATCCGGGATTCTGGCCGTCGTTGCCGCGGGCGTCACCCACGCAGTAGAGAGGGATCGCATGCGCTCGGCGTCCATCAAGCTCAGAGTGGTATCGGACAGCACCTGGTCCGTCATTCTCTTTACGCTAAACGGATTAGTGTTCATTCTGCTGGGGCATGAAATCCCGGGCGTCGTGAATCAAATATGGAGCGACCCTGCCTATAATAACGGACAAGTCGTCGGTTACATATTACTGATAACGGCTGTGCTGATATTGCTGCGATTCGCATGGGTATGGGTATCAACGAACCGTCAGTTCAAATCTTCCCTGCTGACGGCCCTCTCGGGCGTTAGGGGAGCATTGACGCTGGCAGCGGCCTTCTCCATTCCGCTGACTCTGGCGGACAACCGTCCTTTTCCGGAGCGAAGCTTGATGCTGTTTATCTGTGCGGGCGTCATTCTCTTAACTCTGGTGATCGCGAGTGTCCTGCTCCCGCTGTTAACCCGGGAGAAACATGCCGATTCGGCGACGATGATCGATCATGGAAAAGAAGCACGGATTCAAATGCTGCAGGCGGGTCTTCGCACCGTACGGGAAGAAATGACCGACGAGAACAAGGAAGAGGCGGTCCAGCTCATCTATGCGTATACCAAGCGGCTTCAGCAATCTCATATCACGGATAAGAGCGACATGAAGCAGTTCTGGGAAGCCACGATCGCAGTTAGAAAAATCGGCCTGGCGGCGGAGCGAAGCGTTGCCGAAGCATGGCTTAAGGAACATAAAGCCTCAACGCGAGCAGCCGAGCTGTTCCTATCCTCGCTTGACAGAGTCGAGATGCTGCTTGCCAGCCGATACAAAATCAAGCTGTTGATGAGAACATTATGGCAGAATTTGAAGCGATTGCTGACAAACAACGAGCCCAAAGAAGTGCCGATGTCTCCGGATCATCCGGATTGGAATCAGTATAAGGCGTTGAAGCTCGAGGCCATTCGCGCGGCGATCGGCGAGATTCAAGCGGTGAAGCCGGCGGAGAAGAAGGAAATCTTGCAAGCGGTGATCGCGGATTATCGTGCAATGGAGCATTTTCTCCAGAACGATCGCGTTTGGAGCCGAAGAAAACAGAAGCTGAGCAGTGAACGCATGGAACTGGAGCTTAAAGCGATTCAATCCGAGCGTAACGAGATTCAGAGCATGTTCGAGCAAGGCGATATCGACCGGACGCAGGCAAGCCAGCTTAGAATGGACGTGAATTACCGGGAGGCGAATTTGTTTGAGTCGCAAGCGCTGGTCGAGGACGAGGGCCATTAA	MEIFLMVLIFLVLIAISNMIHRFLPFIPVPLIQIALGIGVAYVQGFHHVPLNPELFMVLFIAPLLFNDGKLTPRDELWKLRSYILLLALGLVFATVLIAGPFIHWLIPAIPLSAAFALAAILSPTDAVAVGSLSGKVKLPGKIMHLLEGEALMNDASGLVAFNFAIAATVTGYFSLTKAIGSFLVIAVGGIVIGALLGFLVIWFRMLLRRLGMEDVTLHMLIIILTPFIIYLIAEEFHVSGILAVVAAGVTHAVERDRMRSASIKLRVVSDSTWSVILFTLNGLVFILLGHEIPGVVNQIWSDPAYNNGQVVGYILLITAVLILLRFAWVWVSTNRQFKSSLLTALSGVRGALTLAAAFSIPLTLADNRPFPERSLMLFICAGVILLTLVIASVLLPLLTREKHADSATMIDHGKEARIQMLQAGLRTVREEMTDENKEEAVQLIYAYTKRLQQSHITDKSDMKQFWEATIAVRKIGLAAERSVAEAWLKEHKASTRAAELFLSSLDRVEMLLASRYKIKLLMRTLWQNLKRLLTNNEPKEVPMSPDHPDWNQYKALKLEAIRAAIGEIQAVKPAEKKEILQAVIADYRAMEHFLQNDRVWSRRKQKLSSERMELELKAIQSERNEIQSMFEQGDIDRTQASQLRMDVNYREANLFESQALVEDEGH				NA	NA	NA	NA	NA
AK002_03597	759		COG1028	3-beta-hydroxycholanate 3-dehydrogenase (NAD(+)) 2	ATGAGATTATCTGGTAAAGTTGCGATTGTAACCGGGGCTGCTTCCGGAATGGGAAAAGCGACGGCAGAATTGTTTGCTGCCGAAGGCGCAAAAGTGGTGGTGTCCGACCTTCGGCTTGAGGCGGCGCAAGCCGTCGTGGACGGAATCGAAGCGAATGGCGGCACGGCCTTGGCTGTGGCCGCGAATGTTGCCAAGGAAGAAGAAGTGCAGCAGCTGGTTGACGCCACCGTTAAAGAATACGGAACGCTTGATATCTTGATCAACAATGCCGGCATCATGGACAATTTCGTACCGGCAGCGGACGTGACGGATGAGCTGTGGGAGCGCGTATTTGCCATCAACGCAACGGGGCCGATGAGAACCATTCGTAAAGCATTGCCGATCTTCTTGGAGAAGAAAAGCGGAGTCATTGTGAACATAGCTTCTGCCGGTGGACTGATGGGGTCCAGAGCAGGCGCTTCGTATACGGCGGCCAAACATGCCGTGGTCGGCTTGACCAAAAATGTCGGCTTCCAGTATGCGACGCAGGGCATCCGCTGTAATGCCGTTGCTCCGGGCGGCGTCAGTACCAATATCGGCACCACCATTAACGCGCCGAATTCGTTCGGCATGGAACGAGCCATGGCCGGCATGAACCTGAACCCACGCGCGGGCGAACCGGAAGAGGTCGCGAAGGTCGTGTTGTTCCTCGCTTCGGATGAAGCCAGCTTTGTCAACGGCACCGTCGTTACAGCCGATGCCGGCTGGACTGCTTATTAA	MRLSGKVAIVTGAASGMGKATAELFAAEGAKVVVSDLRLEAAQAVVDGIEANGGTALAVAANVAKEEEVQQLVDATVKEYGTLDILINNAGIMDNFVPAADVTDELWERVFAINATGPMRTIRKALPIFLEKKSGVIVNIASAGGLMGSRAGASYTAAKHAVVGLTKNVGFQYATQGIRCNAVAPGGVSTNIGTTINAPNSFGMERAMAGMNLNPRAGEPEEVAKVVLFLASDEASFVNGTVVTADAGWTAY	PGPT0003180_9775	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
AK002_03598	609			hypothetical protein	ATGCAAACGAACAAAAAAAGAACCGACCGGCGCATCGTCCGCAGCAAAGAGGCTTTAAAGCAATCGCTGCTGTCGCTGCTCTCGCAAAAAAGCTTCTCCAGCATTTCCATCACGGAAATCGTCGAATCGGCCAATTACAATCGAGGTACCTTCTATACCCACTATGACAACAAAGAGGCTCTTCTGGATGATATCCTGACCCCCCTCATGGAGGAGCTGATCGCTTCATTTAGAGCTCCATACGGTGATGTCGACGTTTTTCATATCGATGAGCTGCCCGCGAACGCGGTCAAAATATTCGATCATATCCATCAAAATGCCGGCGTTTATACGTCCCTGTTCAAAAGCGATGTGCTGCCGCTGGTCCGGGATAAAATGTTCACCGCCTTAAAGCAAATCGCCTTAGAGGATTTGGATTATCCGAGCGAGGAGCTCAACCATGAACTTCTCATCATTTATAATATGAACGCCCTAATCGGCCTGGTATTCCACTGGATCGAGAACAATTTCCATTATTCCGTCCCTTATATGAGGGATCAGCTGATTCTTATGATCAACTGGAGGCCGAGAAGCGTTAGGACGCAGATCAAGCGGACGGACCATGCCTGA	MQTNKKRTDRRIVRSKEALKQSLLSLLSQKSFSSISITEIVESANYNRGTFYTHYDNKEALLDDILTPLMEELIASFRAPYGDVDVFHIDELPANAVKIFDHIHQNAGVYTSLFKSDVLPLVRDKMFTALKQIALEDLDYPSEELNHELLIIYNMNALIGLVFHWIENNFHYSVPYMRDQLILMINWRPRSVRTQIKRTDHA				NA	NA	NA	NA	NA
AK002_03599	204			hypothetical protein	TTGGTTCTGGTGCAAAATGGATCGGCATTCAAGAATAGGCCGTCTCCGAGGGGAGTTCCAAACCTCCTTTTGAAGACGGCCTTTGGCTTTTCTATTGAATTGCGCAAGTTAACGACTATGTTGCTTGAGTTCGCAGTCATTATACTAAGTTCAGCATTTTTTACCGAAAATTTCATGTTCCAGCAATGGGCGGCCGATGGCTAA	MVLVQNGSAFKNRPSPRGVPNLLLKTAFGFSIELRKLTTMLLEFAVIILSSAFFTENFMFQQWAADG				NA	NA	NA	NA	NA
AK002_03600	1011	degA_3	COG1609	HTH-type transcriptional regulator DegA	ATGATAAGAGCGACTATTTATGACGTTGCGCGCGAAGCCGGCGTCTCCATTGCCACCGTTTCTCATGTCATCAACGGCAAGGGCAAGATCAGCCGCGAACGGCGTGAGGAAATTCTGGATATCATGAAGCGCCTGAACTATCGGCCGAACGCGATTGCTTCCGCCCTCGCCGGCAAAAGAACCTTCACTCTTGGATTGCTCGTTCCCGATATCTCCAACCCGTTTTTTGCGGAGATTGCTCGCTCCGTCGAGGATCAAGGACATCAGCTCGGTTACAGCGTGATCATCTGCAGCACGGACAACCAAGAAGAGAAAGTAAAGCGCTACGTTAATCTGTTGAGGCAGAAGCAGGTGGATGGCGTGATTATCGGGACGGGTATATCCCATGGCGAGCTGCTTAAGCCGCTTCAAGAGCATTCGCTCGAGATAGCGCTTATTGCCCGGGACAATCCTGCGCTTGATGCCAGCAGCGTCCGGGTTCATGACCTGGAGGGAGGACGGCTGGCTGCCGAGCATCTGTTACATTTAGGTCATCGCAGACTCGCAGTGCTTGCTGAGAATGAGCGGGTGACAAGCAGCAGCGAGCGGGTAAGGGGGTTTGTTGAAGCCGCCGCCTCGTACGGTTTGGAGCTGTCCCCCGACTGTATTGCGGCCTGTGACCATAAGATCGAGGATGGTTACCGACGAGCCAAAGCCATGCTGGAGCTAGCGGTACGACCCACGGCACTGTTCTGCTGCAACGACCTGCTGGCGATCGGTGCCCTTCGGGCGGCCCGCGAGCTCGGTCTGCGCGTACCGGAGGATTGTTCGGTCGTCAGCTTTGACGATACGATTCTGGCCAGCGTAACCGATCCGCCGCTGACCGTTATTGCCCAGCCGATCGAGCAAATGGGACGCATGGCGGTTGATCTTGTGGTAAGGGGGCTGTCCGGCAAGGGAGATCCTGCCCGGCGAATCGTGCTCCCTCCGGAGCTGATCGTCCGCCAATCGACGGCCCTGCCGTCGGCATAA	MIRATIYDVAREAGVSIATVSHVINGKGKISRERREEILDIMKRLNYRPNAIASALAGKRTFTLGLLVPDISNPFFAEIARSVEDQGHQLGYSVIICSTDNQEEKVKRYVNLLRQKQVDGVIIGTGISHGELLKPLQEHSLEIALIARDNPALDASSVRVHDLEGGRLAAEHLLHLGHRRLAVLAENERVTSSSERVRGFVEAAASYGLELSPDCIAACDHKIEDGYRRAKAMLELAVRPTALFCCNDLLAIGALRAARELGLRVPEDCSVVSFDDTILASVTDPPLTVIAQPIEQMGRMAVDLVVRGLSGKGDPARRIVLPPELIVRQSTALPSA	PGPT0017992_10581	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
AK002_03601	801	iolB	COG3718	5-deoxy-glucuronate isomerase	ATGCCGAACTTAATAGTGCCCTCAACAACACCGGACCGGGACGGATGCGTGCTGTCGATTACGCCGCAGACGGCAGGATGGGAGTATGTAGGCTTCCAGGTTTTCCGTTTGAGTGAAGGCCAGACGCTGAGCCGGGCCACGGGAGATCAGGAGGCGGCCCTTGTCCTACTGTCGGGGCGGGCCGACGTAAAGGCCGGGGGAGATAGCTGGGACAACATTGGCAAACGCATGAGCGTGTTTGAGAAGACGCCCCCCTATACCGTTTATGTGCCTTCGCAACAGCAGTATGAGGTCAAGGCTCTTACTGAAATGGAGCTGGCGGTGTGCCTTGCCCCGGGCCAAGGGAATCATCGGGCACGTCTGATTGAGCCGCAGGATGTGGGCGTCGAGAACCGGGGCAGCGGAAGCATGTCGCGTCTGGTGCACAATATTTTGCCGGAGCAAAATCCGGCCGACAGTTTGCTGGTAGTCGAGGTGTTTACGGATGGAGGCAACTGGTCCAGTTACCCGCCTCACAAGCATGACCGCGACGAGCTGCCGGAGGAGTCGCTGCTGGAGGAAACCTACTATTTCCGGATTGAGCCGGAGCAGGGGTTTGCCGTGCAGCGGGTCTACACGGATGACCGGTCGCTGGACGAAACGATGGCGGTCAAAGACGGCGAGGCCGTGATGGTGCCCGAAGGCTACCATCCGGTCTCCGCCCCTCCGGGTTATGACGTGTATTACCTGAACGTCATGGCAGGTCCGAAGCGAATATGGAAATTTCGCAACGACCCGGATCATGACTGGCTGATGAGATAA	MPNLIVPSTTPDRDGCVLSITPQTAGWEYVGFQVFRLSEGQTLSRATGDQEAALVLLSGRADVKAGGDSWDNIGKRMSVFEKTPPYTVYVPSQQQYEVKALTEMELAVCLAPGQGNHRARLIEPQDVGVENRGSGSMSRLVHNILPEQNPADSLLVVEVFTDGGNWSSYPPHKHDRDELPEESLLEETYYFRIEPEQGFAVQRVYTDDRSLDETMAVKDGEAVMVPEGYHPVSAPPGYDVYYLNVMAGPKRIWKFRNDPDHDWLMR	PGPT0018475_1055	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018475-iolB-K03337	NA	NA
AK002_03602	1032	iolG_13	COG0673	Myo-inositol 2-dehydrogenase	ATGAAAACCATTCACATCGGAATCATCGGTGCCGGACGAATCGGCAAAATCCATGCGGATAACCTGCTGCGCTTGCCCGGGGCGAAGATTTCGGCCATCGGCGACCTGTTTGCCGGCGACGAGCTGCGGGCCTGGGCGGCGTCGCGCGCCATCCCCGTCGTCACAAACAACAGCATCGAGATCTTGGAACGCCCGGATATCGATGCCGTGTTGATCTGCTCTTCAACGGATACGCATGTCCCGCTCATTAAACAGGCAGCCGCAAACGGTAAGCATATTTTCTGCGAGAAGCCGGTCAGTCTGAGTGTGGACCAGACCCGCGAAGCGCTGGCGGCCGTGAAAGCGGCAGGCGTTAGCCTGCAGATCGGCTTCAACCGCCGGTTCGACCACAACTTCAGACGCGTTCGGGACATTGTATCCGAGGGAAGAATCGGGGAACCGCATCTGATCAAGATCACCTCGCGCGATCCGAACCCCCCGCATCCGGATTATATTAAAGGTTCCGGCGGCCTGTTTATGGATATGGCGATTCATGATTTTGACATCGCCCGTTACCTGTCGGGCAGCGAGGTGGTCGAGGTGTTCGCCCAGGGCGCAGTGCTGGTGGACCCCGCCATCGGCGAGCAGGGCGACATTGACACTGCCGTCACGACGCTTCGGTTTGAAAACGGCGCGCTCGGCGTCATCGACAACAGCCGGAAAGCCGTCTACGGGTATGATCAGCGGGTGGAGGTATTCGGCTCGGGCGGCAGCGTCACTGCCGACAACGATTATCCAAGTACCGCCGTGGTCAGCGGTCCGGAAGGCGTTACCCGTGACAAGCCGTTGTATTTCTTCCTGGAACGGTACACGGAAGCGTACATGAACGAGGCGAAGCAGTTTATCGAAAGCCTTCAGAACGGCACGCCAGTGCCCGTTACTGGTCACGACGGCCTGCAGGCTGAGCTGATCGCGCTGGCGGCTAAACGCTCGCTGGAACAGGGCTGTTCGGTGAAGCTGGCCGAGCTGACCGCCGGTACTTCAGTGGGTTAA	MKTIHIGIIGAGRIGKIHADNLLRLPGAKISAIGDLFAGDELRAWAASRAIPVVTNNSIEILERPDIDAVLICSSTDTHVPLIKQAAANGKHIFCEKPVSLSVDQTREALAAVKAAGVSLQIGFNRRFDHNFRRVRDIVSEGRIGEPHLIKITSRDPNPPHPDYIKGSGGLFMDMAIHDFDIARYLSGSEVVEVFAQGAVLVDPAIGEQGDIDTAVTTLRFENGALGVIDNSRKAVYGYDQRVEVFGSGGSVTADNDYPSTAVVSGPEGVTRDKPLYFFLERYTEAYMNEAKQFIESLQNGTPVPVTGHDGLQAELIALAAKRSLEQGCSVKLAELTAGTSVG	PGPT0018525_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018525-iolX-K16043	NA	NA
AK002_03603	1446	iolA	COG1012	Malonate-semialdehyde dehydrogenase	ATGACGCAAATCCTGAACAATTATATCGGCGGAGAATTCGTGCCATCCCGATCGGAACGCAGCGATCCGGTCTATAACCCGGCGACGGAAGAAATCCTTGCTTACGTTCCGCTTTCCACCAAGGAGGATGTGGACCAAGCGGTGCAGGCCGCCGCCAAAGCCGGACGCGACTGGGCCAAGACCGCCGTGCCGCGACGCGCGCGGATTCTGTTCAAGTATCAGCAGCTGCTCGTGGAGCACTGGGAGGAGCTGGCTCGCCTGATTACGGCGGAGAACGGCAAAAGCTATGCCGAAGCCTACGGCGAAGTCCAGCGCGGCATCGAATGCGTCGAGTTTGCTGCCGGCGCGCCGACGCTGATGATGGGCAAGCAGCTTCCGGACATCGCCACCCATTTGGAATCCGGCATGTACCGGTATCCGATCGGCGTTGTGGCCGGCATCACGCCGTTCAATTTTCCGATGATGGTGCCATGCTGGATGTTTCCGCTCGCCATCGCTTGCGGCAACGCATTCGTGCTGAAGCCTTCGGAACGTACGCCGCTCCTGGCCCAGCGCCTGACAGAGCTGTTCGCGGAAGCCGGCCTGCCGGACGGCGTCCTGAACCTCGTTCACGGCGCCCATGATGTAGTCAACGCTTTGCTGGAGCATCCCGGCATCGCCGCCGTGTCCTTCGTCGGCTCCCAACCGGTGGCGGAGCATGTGTACAAAACCGCCTCTGCCCATGGCAAGCGCGTGCAGGCCTTAGCCGGAGCAAAAAACCACAGCATCGTGATGCCGACAGCCGATTTGGACGCCGCCGTGACCCAAATCGTCAGCGCTGCCTTCGGCTCTGCCGGTGAGCGCTGCATGGCCTGCTCCGTGGTGGTGGCCGTGGGGGACGTAGCGGAGCCGCTGATCGGGAAGCTGAAGCAGGCGGCCGATGAAATCTCCATCGGCAACGGAGCGGACGAAGGCGTCTTCCTGGGGCCGGTAATCCGGCAAGCTCACAAGGAGCGTACGCTCTTTTATATTGAAGCGGGCGAGCAGGAAGGAGCGAAGCTGATTCGTGACGGTCGCGAGGACGAGGCGGTGAACGGAACCGGATATTTTGTCGGACCGACGATTTTTGATGAAGTGACAAGCGAGATGAAGATTTGGAAGGACGAAATTTTCGCCCCGGTGTTGTCCATCATGCGGGCAGAGACGCTGGAGGAGGCCATTGACATATCGAACCGCTCCGATTTCGCCAACGGGGCCTGTCTGTTCACGCAGAATGGCAGCGATGTGCGCCAGTTCCGCGAACATATCGATGCCGGCATGCTGGGCGTGAACCTCGGCGTTCCAGCGCCGATGGCTTTCTTTCCGTTCTCCGGCTGGAAAAACTCCTTCTATGGAGACCTGCATGCCAACGGCACGGATGGCGTGGAATTCTATACCCGCAAAAAAATGGTGACGGCGCGCTGGTAG	MTQILNNYIGGEFVPSRSERSDPVYNPATEEILAYVPLSTKEDVDQAVQAAAKAGRDWAKTAVPRRARILFKYQQLLVEHWEELARLITAENGKSYAEAYGEVQRGIECVEFAAGAPTLMMGKQLPDIATHLESGMYRYPIGVVAGITPFNFPMMVPCWMFPLAIACGNAFVLKPSERTPLLAQRLTELFAEAGLPDGVLNLVHGAHDVVNALLEHPGIAAVSFVGSQPVAEHVYKTASAHGKRVQALAGAKNHSIVMPTADLDAAVTQIVSAAFGSAGERCMACSVVVAVGDVAEPLIGKLKQAADEISIGNGADEGVFLGPVIRQAHKERTLFYIEAGEQEGAKLIRDGREDEAVNGTGYFVGPTIFDEVTSEMKIWKDEIFAPVLSIMRAETLEEAIDISNRSDFANGACLFTQNGSDVRQFREHIDAGMLGVNLGVPAPMAFFPFSGWKNSFYGDLHANGTDGVEFYTRKKMVTARW	PGPT0002295_4172	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
AK002_03604	1014	iolC_1	COG0524	5-dehydro-2-deoxygluconokinase	ATGAGTGAAATCACGTTCAATAACGAAAAAACGATGGATTTCGTGGCCGTAGGCAGACTGTGCATCGACCTGAACGCCAATGAGATTAACCGGCCGATGGAAGAGACGAGCACGTTTACCAAATATGTGGGCGGATCCCCCGCCAATATCTGTATCGGGATGGCCCGCCTGGGCCTGAATACAGGCTTCATCGGCAAGGTGGCGGACGATCAGATGGGGCGTTTTATTACCAAATATTTGGAGGATAACGGGATTGCGACGAACGGCGTGTCCACCGACCACACGGGTGCCGTAACGGGTCTGGCTTTTACCGAGATCAGGAGCCCGACCGACTGCAGCATTCTGATGTATCGGGACAACGCAGCGGACTTGCTGCTGGAGACGGGGGAAGTGAGCGAGGAGCTAATCGCATCCGCCAAAATGGTACTCATCTCCGGGACCGCGCTCGCGGCCAGCCCCTCCCGGGAAGCCGTGTTTCTGGCTCTGGACTATGCCAAGCGCCACGGGGCCGTGATCGCGTTTGACCTCGATTACCGTCCATACACATGGAAATCCCCGCAGGAGACGGCAACCTATTACAATTTAGCGGCGGAAAAATGCGACATTGTCCTCGGCACGCGCGAGGAGTTCGATATGATGGAGCAGTTCGGCGGCAACCCGGAACGAAGCGACCGCATCACGGCTGCCAAGTGGTTTGATTACAGGGCCAAAATCGTCATTATCAAGCACGGGAAGGAGGGGTCCATCGCTTATACCCCCGGCGGTGCCAGCCATACGGCCCAAAGCTTTCCGGCGAAGGTCATCAAGACGTTCGGAGCGGGGGATTCGTATGCCGCCGGCTTCCTCTACGGCCTGATGCAGGGCTGGGCCATCGAGCGCTGCATGGAGTTCGGCAGTGCGGCAGCGAGCATCGTCATCTCCAGCCACAGCTGCTCTGATGCGATGCCGACAAGCGCAGCGGTTCTCGATTATATCGAGCGCTGCAAGCGAGGCGAAATTACCGCCAATTCTTGA	MSEITFNNEKTMDFVAVGRLCIDLNANEINRPMEETSTFTKYVGGSPANICIGMARLGLNTGFIGKVADDQMGRFITKYLEDNGIATNGVSTDHTGAVTGLAFTEIRSPTDCSILMYRDNAADLLLETGEVSEELIASAKMVLISGTALAASPSREAVFLALDYAKRHGAVIAFDLDYRPYTWKSPQETATYYNLAAEKCDIVLGTREEFDMMEQFGGNPERSDRITAAKWFDYRAKIVIIKHGKEGSIAYTPGGASHTAQSFPAKVIKTFGAGDSYAAGFLYGLMQGWAIERCMEFGSAAASIVISSHSCSDAMPTSAAVLDYIERCKRGEITANS	PGPT0018480_786	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018480-iolC-K03338	NA	NA
AK002_03605	915	iolE_4	COG1082	Inosose dehydratase	ATGAGCAACAGGCTGTTTAAGCTTGGGATCCATCCCATCAACTGGGTCGGCGAGGATGTAAAAGAGCATGGCGACGGCACGGCGTTTGAGACGATTGTGGATGATATTGCGGCCTTGGGCCTGACAGGCACGGAGATGGGCCGTAAATTCCCGAAGGATCCTGCGGTTCTGAAGCGGGAGTTGGATGCCCGCGGGATCCAGCTGGTTTCCCAGTGGAAGTCGGTGCTGTTCTCCGATCCCGATTACCGGAAGCAGGAGCTGGAGGACTACCGCCGGCATGCGGAGTTTCTGGCCGGGTTCGGCAGCAAGGTCATCAGCACGGCGGAGGTAGGCGGCTCGCTGCATTTCGATCCCCGCCGGACGCCGAATGAGAGCATCGTGCTGCGGTTGGATGAGGCCGGATGGAAAAGCCTCGCGGAAGGGCTGAACCAGGCAGGAGAAATTGCGGCGAGTTACGGCATGAGGCTGGCTTATCATCTTCATGGCGGTACGGTTGTGGAGCAGCCTTACGAGATCGACCGGCTGATGGCCATGACCGACGCTTCGCTGGTTTCTCTCCTGTACGATACCGGTCATGCCTATTACGGGGGGAGCGACCCGCTGGAGCTGCTCCGCAAGCATTATGACCGGATCGCATATATCCATCTGAAAGATATCCGGCTTGATGTGCTGGAACAGGCGAGACTGGACAACTGCGATTTCGTAAGCTGCATTCGCAGGGGCGTGTTTACGGTTCCCGGCGATGGATGCATCGATTTCGCGCCGATAATCGGAGAGCTCGTTGAACGCGGCTATGACGGCTGGGCGATGCTGGAGGGTGAGCAGGATCCGGCGCTGCATCCGGCCAAGGAGTACGCCCAACGGGCGATTGAATACCTGGACCGCCTGGACGGACTGACGAAAATGCAGAGCTGA	MSNRLFKLGIHPINWVGEDVKEHGDGTAFETIVDDIAALGLTGTEMGRKFPKDPAVLKRELDARGIQLVSQWKSVLFSDPDYRKQELEDYRRHAEFLAGFGSKVISTAEVGGSLHFDPRRTPNESIVLRLDEAGWKSLAEGLNQAGEIAASYGMRLAYHLHGGTVVEQPYEIDRLMAMTDASLVSLLYDTGHAYYGGSDPLELLRKHYDRIAYIHLKDIRLDVLEQARLDNCDFVSCIRRGVFTVPGDGCIDFAPIIGELVERGYDGWAMLEGEQDPALHPAKEYAQRAIEYLDRLDGLTKMQS	PGPT0016785_663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_CATABOLISM,PGPT0016785-mocC-K03335	NA	NA
AK002_03606	1866	iolD	COG3962	3D-(3,5/4)-trihydroxycyclohexane-1,2-dione hydrolase	TTGACAACGACTCGATTAACGATGGCACAGGCACTGCTGAGGTTTTTGGACGCACAGTATGTTTCCGTCGATGGGGTGGAGACGAAGTTCGTGCGCGGGGTGATGGGAATCTTCGGCCACGGCAACGTGACCGGCCTTGGCGAGGCCTTGGAACGAAGCGCAGGGGATCTGGTATATATGCAGGGCAAAAACGAACAGGGCATGGTGCACGCCGCGACGGCGTACGCCAAGCAAAAGAACCGTCGGCAAATCTGGGCCTGCACTTCCTCCATCGGACCCGGCGCGCTGAATATGGTCACCGCAGCGGCTACCGCAACCGTGAACCGTATTCCGGTACTGCTGCTGCCTGGGGACAATTTCGCCTGCCGCCAGCCTGATCCGGTGCTTCAGCAGATCGAAGCCTCGTCGGACTACACCGTGTCGGCCGCCGATGCATTCAAGCCGGTGAGCCGGTACTGGGACCGGATCTCCCGGCCGGAGCAGCTGATCGCGGCGGCCCGGCAGGCGATCCGCGTTTTGACGGATCCGGCGGAGACGGGAGCGGTCACCCTCGCGCTGCCGCAGGACGTGCAGGCCGAGGCTTACGATTACCCCGATTCGCTGTTCGAGAAAACCGTGCACGCTATCGACCGCCGACCGCCTGCGGCACAAGGACTGATGCGGGCGGCGGCACGGTTTGCAGCAAGCAAGCGGCCGCTCATCATCGCAGGAGGCGGCGTGCACTACAGCGAGGCTGCCGGGGATTTGGAAGCCTTTGCGGAAGCCTTCGGCATCCCGGTCGCAGAAACGCAGGCCGGTAAAAGCGCGCTTCCCTGGGATCACCCCCTAAACCTGGGGGCGATGGGCGTAACCGGCTCGCTGGCGGCGAACCGCGCAGCGGCAAAGGCCGATCTGATTATCGGCATCGGCACCCGCTATTCGGACTTTACGACGTCCTCCAAATGGGCGTTTCAACGGGAGGACGTATCGTTCCTGAACCTGAACGTCAACAGCGCGGACGGAGCCAAGCTCGGCGGCGAAGCGCTGATCGCCGATGCGAAGGAAGGGCTGCAGGCACTGAAGGGGGTCCTGTCTCAAAAAGGCTATCAAGCCGGGTACGAAAAAGGCGAGCTTGCCGGGCTGAAAGCCGAGTGGGACAGCGAGGTAGACCGTCTGTACGCTGAGGAGCATCCCGACGGCTTGTCGCAGACGAGGGCGCTCGGCGTCATTAACGAGGTCATCTCCCCGTCATCGGTCATCGTCTGTGCGGCAGGCAGTCTTCCAGGAGATCTGCACCGGTTATGGAGACCGGCCGAACCGAAGACGTACCACATGGAATATGGTTTCTCCTGCATGGGGTATGAGGTGAGCGGCGCTTTGGGCGTGGCCCTGGCGGAACCGGACCGCGAGGTTTATGCACTGGTGGGCGACGGCAGTTATCTGATGATGCACTCGGAGTTGGTCACCAGCTTGCAGGAAGGCCGCAAGATAACGATACTGCTGTTCGACAACCACGGCTTCCAATGCATTCACAATTTGCAGCGGAGCAACGGCAGCGACGGCTTCGGCAACGAATTCCGCCGCCGCGAGGAAGGCACGGGACGACTCACCGGCGATTATCTTCCGATTGATTTTGCCGCCCACGCACGCGCGCTTGGCGCCAAAGCCTACAAGGGCCGTACGCCGGCGGAGCTGCGTGAAGCGCTGCTTCACGCACGGAAGGAAACGGTGACAACGCTGATCGAAATTCCGGTCGTTCCGGGAACGAACACCGACGGTTATGAGTCCTGGTGGCGCGTAGAGGTGCCGGAGGTGTCGGCCTCAAGCAAGGTAACCGATGCGCAGCGCCAGATGGCGGCTCGAAGCAAGGAAGCTAGGCCCTACTAA	MTTTRLTMAQALLRFLDAQYVSVDGVETKFVRGVMGIFGHGNVTGLGEALERSAGDLVYMQGKNEQGMVHAATAYAKQKNRRQIWACTSSIGPGALNMVTAAATATVNRIPVLLLPGDNFACRQPDPVLQQIEASSDYTVSAADAFKPVSRYWDRISRPEQLIAAARQAIRVLTDPAETGAVTLALPQDVQAEAYDYPDSLFEKTVHAIDRRPPAAQGLMRAAARFAASKRPLIIAGGGVHYSEAAGDLEAFAEAFGIPVAETQAGKSALPWDHPLNLGAMGVTGSLAANRAAAKADLIIGIGTRYSDFTTSSKWAFQREDVSFLNLNVNSADGAKLGGEALIADAKEGLQALKGVLSQKGYQAGYEKGELAGLKAEWDSEVDRLYAEEHPDGLSQTRALGVINEVISPSSVIVCAAGSLPGDLHRLWRPAEPKTYHMEYGFSCMGYEVSGALGVALAEPDREVYALVGDGSYLMMHSELVTSLQEGRKITILLFDNHGFQCIHNLQRSNGSDGFGNEFRRREEGTGRLTGDYLPIDFAAHARALGAKAYKGRTPAELREALLHARKETVTTLIEIPVVPGTNTDGYESWWRVEVPEVSASSKVTDAQRQMAARSKEARPY	PGPT0018485_976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0018485-iolD-K03336	NA	NA
AK002_03607	2223			hypothetical protein	ATGACAAGCTATATCGAAGCCCGGGAAAGCATCCGGTATTGGATGGGCGACGATGATGCCGGAATACTGAAGACGATCGCAGGACGCTATATCGGGGCGAACCCGGAAATTCCGTTCGCGCTGCGGCCGTTCGCCGAAACGGGCATTCTTCAGACCGAGGAAGGATATTATGACTTCAACTTCGGCGACCGGTTCCGGGAAGCGAAGCAAGGGGAGGCCGCCTACGCCCTTGGTCTGGTGTGGAGCGACGATGAACGTTCGCTGGATGCCGCGATCATGCCGTTCAGCCCGGTGCGCTTCTATCTGAACGAGCGGCTGATGTACCGTTCGGGTGCCGAGGACGAGATGAAGCCAGATGCAAAAATCGTCATTCCGCTGGTGCTGAGCCCGGGCTGGAACACATTGTTGATCGAGGTCCGGAGGACCGAAGCCGGATTCGGCTGCCGCTTCGGCGCCATGGAGGGCAAGGTCCGCATTCTGCAGGTGCTGTCTCCTTTTGCAGACCGGAAGGACACCGCCGGTTGGGCATATGCCGGACCGCTGGCTGCCGGCACGCTCGGCGAAAGCGGCGTCTTTCCGGACGCTCACGGGATCGAAGAAGAGACCGGCACGGATTGGCTTCCGCGTACAGCCTGGAGTGAGGGGGAAGCGGATAAACCGAACTTCGAGAGGATATTCGGCCTGCCGGAGGCACCGGCTGCCGGGTATGCATGGAGCCGGCTTAAGGTGCCTACCGGCGTTGACCATGTCGAGTTCAAGGGCAGCGCTCTGGGCAGGACGGAGATCTGGATCGGCGGTGATTCCGTCATGGACATTGAGAGGGGCGTCTTCGGTTTCAAGCTGCCCGCTTCGGTCTGCCGAGGGGATCTGTTGGTACGAAGCTGCGGCGGGCCGTCAGGATGGGGGGTTGAGCTTCATGCCTATACTTCGCAGGGAGAGCTGGAGTTTGTGCTTCCCGTCCCGGTACAAGGCGCCCCGTCTCCGTGGATGTATGCCGGGCCGCTGGCCGCAGGGGAGGAGCAAACGCCGGAGGAGGTTTGCTCGGTCAAGAGACTGTTTTCGCGCGCGGACGGCCGCGGATTGACCGGCTGGTCCCTGGATGCGCCGGGCTACCGGGTCAGGCCGTTCTATGAGAACGCCATGCTGAGCAACAAATGGACCTCCGGGTCCGCCACCAATTTCGGTCGCTGGGACTATCCGATCGGTGTCACGATGTATGGACTTCTTCAAGCATCGCGAGCGCTGGGGCGGCCCGATATCGCGGAATATGCCCGGGCGCATATCGATATCTGCACCCAATGGTACGAATACGCCGTCTGGGACCGGGATACCTACGGATTTCCGTCCGTGAACCATCAGCTGGTCCTGATTAAGATGCTGGATAACTGTGGTTCTTTCGGCTCGGCGATGCTGGAAGGCTATAAGGAAAGCGGCAAACCGGAGGTTGTTAAGGTCGCGGAGGTCATTGCGGATTTTATCGTGAACCGCCTGGAACGCCGGGAGGACGGCGCTTTCTATCGTCTGTGCGTCTCGGAGTATTCCGCGGATACGATGTGGGCGGATGATCTGTACATGAGCACGCCGTTCTTGTCACGGTACGCCGGGATGACAGGCGACTCCTCCTATCTGGACGAAGCGGCCAGACAGTTTTCAAGGTACCGGGAGTATCTGTTCATGCCCGAGGAAGGCGTGATGAGCCACGTATTCGATTTCAAATACGGGAAAGCGACCGGAATTCCTTGGGGGCGCGGTAACGGATGGAGCCTGTTCTCCTTATCGGAGCTGCTGGAACGCTTGCCGGAGAAGCATAAGGACCGGCCTGCGCTGCTTGAGTTTTTCCGTGAACTGTGCGCCGGAATTGCTTCCTATCAGGGGGAGTCGGGACTCTGGAGGCAGGTTATTACCGATTCGGAAGCGTATGAGGAAGCTTCCTGCTCGGCCATGTTTGCCTATGCCTTTGCCAGAGGCGTGCGGTTCGGCTGGCTGGAGGAGCCTGCACCTTTTACCGTTGCAGCCATTCGAGCATGGCAGGGTTTGACCGAGCAGGCCATCGACCGTCACGGCAGCGTGCACGGAGTGTGCAGCGGATCCCGTTATTCGTTTACCGGGGATTATTATAAGCATGATCTGCTCACGGTGATCAATGACAACCACGGGATCGGGATCATGATGCTGGCGTGCGCGGAGATCATGAAATTGAAAGGCATGCTGGGCGGCAAGTAA	MTSYIEARESIRYWMGDDDAGILKTIAGRYIGANPEIPFALRPFAETGILQTEEGYYDFNFGDRFREAKQGEAAYALGLVWSDDERSLDAAIMPFSPVRFYLNERLMYRSGAEDEMKPDAKIVIPLVLSPGWNTLLIEVRRTEAGFGCRFGAMEGKVRILQVLSPFADRKDTAGWAYAGPLAAGTLGESGVFPDAHGIEEETGTDWLPRTAWSEGEADKPNFERIFGLPEAPAAGYAWSRLKVPTGVDHVEFKGSALGRTEIWIGGDSVMDIERGVFGFKLPASVCRGDLLVRSCGGPSGWGVELHAYTSQGELEFVLPVPVQGAPSPWMYAGPLAAGEEQTPEEVCSVKRLFSRADGRGLTGWSLDAPGYRVRPFYENAMLSNKWTSGSATNFGRWDYPIGVTMYGLLQASRALGRPDIAEYARAHIDICTQWYEYAVWDRDTYGFPSVNHQLVLIKMLDNCGSFGSAMLEGYKESGKPEVVKVAEVIADFIVNRLERREDGAFYRLCVSEYSADTMWADDLYMSTPFLSRYAGMTGDSSYLDEAARQFSRYREYLFMPEEGVMSHVFDFKYGKATGIPWGRGNGWSLFSLSELLERLPEKHKDRPALLEFFRELCAGIASYQGESGLWRQVITDSEAYEEASCSAMFAYAFARGVRFGWLEEPAPFTVAAIRAWQGLTEQAIDRHGSVHGVCSGSRYSFTGDYYKHDLLTVINDNHGIGIMMLACAEIMKLKGMLGGK	PGPT0018255_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
AK002_03608	1773			hypothetical protein	ATGGTGAACAGGGTTTTTGAAGTCAATGACAGCTGGGTGCGGGAGGGGATGGACCGCCAAATCTTAGAGGAAACGCATCGCTGGCACGGCGGGGTTCGCACCATGGAGAACGGTTTGCCATCGCCCAACCATAACACAGGGACACCGACCGCCATGGCGATATGGGCAGCAGCACTCTGCAATCCGGCATCCGCATATTACCGCGATAAGCAGCTGGCACACAGGTTTGCGCTTTCGGCCCGTTATATGCTTGCGGCTCAGCACGGCGACGGTACGATTTCGCCAGGCTGGACGAATTTCCATTCCCCTCCGGATACCGCCTTCGTGGTGGTCGGATATGCGCAAGCCGCACAGCTGATTCTGGCTGACGGTTGGGCGGAGCTGAAGGGAGCGGCTGCGGATATGCTGCTGTTTCTGGAACGCAGCTTGCCTGCGCTGATTACCGGAGGCTGCCATACACCGAACCACCGATGGGTGATCTGCGCGGCACTGGGCTTCTTGAATGAGCTGTTTGATTCGCCGGGTGCGTTGAAAAGGGCGGAGGAGTGGCTCGCCGAAGGTATGGACGCCACCTTGGACGGAGAATGGACCGAGCGCAGCAACGGGATCTACAATGTCGTCAGCGACGTCATGCTGATTCACGCGGCCAGGCTGTTGAAGCGTCCGGAGCTGCTGGTACCGGTACGGGCCAATCTGAAGATGATGACGTATTTGGTCCACCCCGACGGGGAGATTGTCACGGAATATTCCGGACGGCAGGATTTCGGACACAGTTTTGATATGTCGGGGTACTTCCTGCCGTGTCTGATGATGGCGGCCCTGGACCGTGATCCGGTATTTCAAGGGATGGCGGAACAGTCGCTGTCTCTGCTGCAACATCCCGGCGGAGCACCGACCAACGCAGCCGTTCGGCTGCTATTGGATCCGGGTCTCATGCGCGAGGGCGCAGAGACAACGCCCATGCCGGAGCATTACCGCGTCGTGCTGAACGGCGAATTTCCAAGGGAACGCTACTTGTCCGGATTTGCCGATGCCGGCCACCACGGCGTTATCCGATACAGCCGGATGCACACGGATTTCGGCGCTCCGGTTGCGCGAATCCGTGAGGGCCGAACCAGCGTGACCGTGAGCACGGAGATGTCCTCCTTCTTTTCCCTGCGTCATGGAGCGGCACGCCTTCTGGGCGTGCAGTTCGCTTCCTATTTCGACCCCGGCTTTGTCAAGATGAGCCGGCTGACGACGCTGGAGCAGGGATACCGGCTATCCGTCGAACAGGAAAAGGGCTATAACGGACCCGTGCCGGAAGCCGATCTGCCTGAAAGCGCGAGGGAAGGCGTCAGCCCTTGGTATTTGCTGCCGCATCACTGCCGTCCGCAGACGCATGTTCAGCGGCACAAGGTGGAGGTGGAAGTGGTGGAAGCGAGCGACGGCTGGAAGCTGATCGTTTCCTCAACGGAGCCGGAGGAAGTCGTGTCCCAAATCTCGCTGATTTTTCCGGCGGCCGGCAACCTTAGCGGCGGAGAGCTTGCTCCAGCCGGCGCGGATGCCCAGTTCTGGATGGAAGGGAGCATTCGTTACGAGATGGACGGCGATTGGCTGGAAATCAGCGGCGGCGGATTGCAGCACACGGCGGCTGGCGTTCGGGAGGCAGCTTATCCGCTCGGATTTCGAACGCTGCTGCTGAATGTGGTGACCCCCTTCGTGAAGGAAATTCATATCAAGCTTTCACAAGCGGCAGGGCTTGACCGAACGGAAAGGGGAGAACCATCATGA	MVNRVFEVNDSWVREGMDRQILEETHRWHGGVRTMENGLPSPNHNTGTPTAMAIWAAALCNPASAYYRDKQLAHRFALSARYMLAAQHGDGTISPGWTNFHSPPDTAFVVVGYAQAAQLILADGWAELKGAAADMLLFLERSLPALITGGCHTPNHRWVICAALGFLNELFDSPGALKRAEEWLAEGMDATLDGEWTERSNGIYNVVSDVMLIHAARLLKRPELLVPVRANLKMMTYLVHPDGEIVTEYSGRQDFGHSFDMSGYFLPCLMMAALDRDPVFQGMAEQSLSLLQHPGGAPTNAAVRLLLDPGLMREGAETTPMPEHYRVVLNGEFPRERYLSGFADAGHHGVIRYSRMHTDFGAPVARIREGRTSVTVSTEMSSFFSLRHGAARLLGVQFASYFDPGFVKMSRLTTLEQGYRLSVEQEKGYNGPVPEADLPESAREGVSPWYLLPHHCRPQTHVQRHKVEVEVVEASDGWKLIVSSTEPEEVVSQISLIFPAAGNLSGGELAPAGADAQFWMEGSIRYEMDGDWLEISGGGLQHTAAGVREAAYPLGFRTLLLNVVTPFVKEIHIKLSQAAGLDRTERGEPS				NA	NA	NA	NA	NA
AK002_03609	876	dasC_8	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGAGCGAGCGTGTGTCGAACCGCGTTTTTGATTCCGTGAACATGATCCTGCTGGCGGTTTTCGTACTTCTTTGTCTGGCGCCTTTTTTCCATATTATCGCGATTTCCTTCAGCTCCAACCGGGCGGTAACCTCAGGCGAGGTGACGTTGTTTCCGGTGGAGTTCAGCCTTCAGGCATATCAATCCGTATTCTCTGATTCCAGCATGCTCCGTTCTCTCGGCTTTACGATTATGCTGACGCTGCTGACGACGGTGCTGTGCATGGTCATGACGATGATTGCCGCTTACCCGCTGACGAAAAAGAAGCTGAAAGGACGCAAAGTGATTATGTTTATCATCATTGTGACCATGTTCTTCAGCGGGGGCATTATCCCGGAGTACATTCTCGTGAAGGATCTGAACCTGCTGAATACGATCTGGGCGCTTGTTCTTCCGGGGCTGATCAGTCCGTTTTATCTGATTATCCTGATCTCCTTCTTCAACGGAATTCCGGAAAGTCTGGAGGAAGCGGCCGAGATCGACGGTACAAGCCAAATCGGAACGATGCTTCGAATCATTCTGCCGCTGTCTTTGCCGGTCATCGCGACGCTGAGCCTGTTCTACGCGGTCGGTCGCTGGAACGGATTCCAAGACACGCTGCTCTATATTACGAAGGAAGAGCTGTATCCGCTGCAGCTGAAGCTGTATCAGCTGGTTCAGAACAATATGATTACGGATTTGACCCGCAACGAGGGACCGGCAGCCGGTGTCAGAGCAACCACGGAAAGCCTGAAAGCGGCAAGCGTCGTATTTGCCACGGTGCCGATTCTTGTTGTGTACCCATGGCTGCAGCGTTACTTCGTCAGCGGCGTGATGCTGGGTGCCGTGAAGGGTTAA	MSERVSNRVFDSVNMILLAVFVLLCLAPFFHIIAISFSSNRAVTSGEVTLFPVEFSLQAYQSVFSDSSMLRSLGFTIMLTLLTTVLCMVMTMIAAYPLTKKKLKGRKVIMFIIIVTMFFSGGIIPEYILVKDLNLLNTIWALVLPGLISPFYLIILISFFNGIPESLEEAAEIDGTSQIGTMLRIILPLSLPVIATLSLFYAVGRWNGFQDTLLYITKEELYPLQLKLYQLVQNNMITDLTRNEGPAAGVRATTESLKAASVVFATVPILVVYPWLQRYFVSGVMLGAVKG	PGPT0017255_2413	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03610	903	yteP_44	COG4209	putative multiple-sugar transport system permease YteP	ATGAGAGGAACCGTTTACCTGCGCCGGTACTGGCAATTATACGCACTGCTTGTTCTGCCTTTGGTCTATTTCATTATTTTCAAATACGGCCCGATGTGGGGCGTGCAGATCGCCTTTAAGGACTTCAACTTCTTCCAAGGGATCACCGGGAGTGAATGGATTGGACTGGATGCCTTTCGCGAGGTTTTCCAGACCCAGGATTTTTATAAAACCCTCCGCAATACGCTGATGCTCAACCTGCTGGACCTTGTGGTTTCATTTCCCGCGCCTTTGATTCTCGCCATCATGCTTCATGAACTTAGAATCCAGTGGTTTAAACGTTTATCCCAAACGATATTGTACATTCCCCATTTCATTTCATGGGTTATCATAGGCGGCATCGTATACCAGGTGTTCGGCACGCAATCCGGCATGATCAACAACATGCTGATGGCGCTCGGTTTTGAATCGGTACCTTTTTTAACCGAAAAAAACACGTGGCTCATTACGTACCTGGCAACGGGGGTGTGGCAGAGCGCCGGTTGGGGAACCATCCTCTATCTGGCTGCCTTGACCGGCATCAACAAGGAGCTGTTTGAAGCGGCGGAGGTGGACGGAGCGGGCAGATTCAAGCGCATCTGGTTTATCACGCTGCCGGGCCTGAAAACGACGATTGTGACGCTCCTCATCATCAACCTCGGCAATATGATCTCGATCGGCTTTGACCGTCCGTTTGTCATCGGCAATAAAGCGGTCATGGATTATTCCGACGTGCTGAGTACCTATGTGTACCGGACGGGTCTTGAATCCGGGCAGTACACCCTGGCAACGGTTGTCGGTCTGTTCCAAGCTGTTGTCGGGCTGGTCTTTATCCTCGGCGCGAACTATGCATCCAAAAAACTGACGGACGAGTCCATCATTTAA	MRGTVYLRRYWQLYALLVLPLVYFIIFKYGPMWGVQIAFKDFNFFQGITGSEWIGLDAFREVFQTQDFYKTLRNTLMLNLLDLVVSFPAPLILAIMLHELRIQWFKRLSQTILYIPHFISWVIIGGIVYQVFGTQSGMINNMLMALGFESVPFLTEKNTWLITYLATGVWQSAGWGTILYLAALTGINKELFEAAEVDGAGRFKRIWFITLPGLKTTIVTLLIINLGNMISIGFDRPFVIGNKAVMDYSDVLSTYVYRTGLESGQYTLATVVGLFQAVVGLVFILGANYASKKLTDESII	PGPT0017250_2398	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03611	1623			hypothetical protein	ATGGCAGCAAGCAAGAAAACATGGGGCAAGCTCGCAAAGCTCACGCTGGTCATGCTGATGGTCGGAACGGTCGTATTATCCGGGTGCTCCTCAGGCTCTGGCAGCAGCACCAATGCTTCGGACGGGGATTCCGGCTCCAATGACGGCAAGCAGGTTACGCTGAAGGTCGAAATTTTTGACCGCGGCAATACACCGAAACCTTATACCATCACCGACAGTTATCTTACCCGATATATCCAGGACAACTTTGGAACCCCGAACAACATTAAGATGGAATTCGTACCGGTCCCCCGTTCCGAGGAGATCAAGAAGCTGAACGTTCTCATGGCCAGCGGCGGCAATGTGCCGGATATCGTATTTACGTATGACACGCCGACCTTCAACCGCTACGCGGAGCAAGGCGGGCTGACGGAACTGACGGATTTGATCAACGAGCACGGTCCGAATCTGAAGGAATTCCTCGATGAGGACGCGATGAGTTACGGCCAGTACATGGGCAAGCAGTTCGCTGTTCCCGGCAAACGGGCCTTCCTTGGCAAGTATTCTTCCTTTATCCGCGCCGATTGGCTGGAAAAGCTCGGCATGAAGGTGCCTCAAACGACCGATGAGCTGTACGCGGTTTTGAAAGCTTTTAAAGAAAAGGATCCGGGCGAAACCGGCGGGAAGGTGATTCCCTTCGGCATGACGATCGAACCGGCTCAATATGATCCGCTGATCTGGTCCTTTATTCAGCCGACTACGGAAGAGCAGAAGTATACGCTGCTGCAAAAGCTCGGAGCCAACGACTATCCGACGCTGCTTCCGGGCTTTAAGGATGCGCTGCAATTTTTCAACAAGCTTTACAATGAAGGGCTGATCAGCCGCGACTTCAGTTTGGACGAAGACAAGAAGCAGTTGACACAGGACGTGACCAACGGTCTTACGGGCTTCCTGACGGAGGATTATCCGAACATGTACTACGCGGACGGCACCTATGATACGCTGCTCAAAAACCAGCCGGACGCCAAGCTTACGCCGATTGATCCATTCACCAACTCCGAAGGCAAGCATGCGAAGCCGGAATACGCGCCAAACGGCATGTACATCATGATTCCGAAAACAAGCCAACATGCTGAAGAAGCGATCAAATACCTGAATTGGATGGCCGACCCGGACAATCTGCTGGCGCTGCAAAACGGCGTGGAAGGCGAGAACTACGAAATGGTGGACGGCATTCCCGTCATGAAGACCGACGCCCCTCAAGAGGTGATTGACCGGCTTTACAACAGCGGCGACATTGCCATTATCGCCAACGGTAATTTTGTAGGCGACGAAACGCAGAACCGGGAGAAACTGACAACCAACTTCCCGGAAAAGTTTCAGGATCTGCACCGCAAGGCCGTGGAAATCTCGGCAACGGATACGTTTAAGCCGGTCAACTTCGACCGTCCGATCGAGGCCGAGGCGAAATACGGCACGAACCTGCAGGCCAAATACGAAGAGATGATCGTGAAGACGGCCATGGCGAAACCGGAAGACTTCGAGAAAACATTTGAAGCGACCATGAAGGATTACATGGTCAGCGGCGGCCAAGCCATTCTTGATGAGCGGACCAAAGTTTATCAGGAAATGCAATCCAAGTAA	MAASKKTWGKLAKLTLVMLMVGTVVLSGCSSGSGSSTNASDGDSGSNDGKQVTLKVEIFDRGNTPKPYTITDSYLTRYIQDNFGTPNNIKMEFVPVPRSEEIKKLNVLMASGGNVPDIVFTYDTPTFNRYAEQGGLTELTDLINEHGPNLKEFLDEDAMSYGQYMGKQFAVPGKRAFLGKYSSFIRADWLEKLGMKVPQTTDELYAVLKAFKEKDPGETGGKVIPFGMTIEPAQYDPLIWSFIQPTTEEQKYTLLQKLGANDYPTLLPGFKDALQFFNKLYNEGLISRDFSLDEDKKQLTQDVTNGLTGFLTEDYPNMYYADGTYDTLLKNQPDAKLTPIDPFTNSEGKHAKPEYAPNGMYIMIPKTSQHAEEAIKYLNWMADPDNLLALQNGVEGENYEMVDGIPVMKTDAPQEVIDRLYNSGDIAIIANGNFVGDETQNREKLTTNFPEKFQDLHRKAVEISATDTFKPVNFDRPIEAEAKYGTNLQAKYEEMIVKTAMAKPEDFEKTFEATMKDYMVSGGQAILDERTKVYQEMQSK	PGPT0017245_1718	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03612	2307	yesS_10	COG2207	HTH-type transcriptional regulator YesS	ATGCTACAATATAGCACAAGCATAAGTAAAACGCTTAACCTGGAAGAGAAAGGAATGACTTCTTTGCAGCAAAACTGGTACCGCAAGCTGCTTCTCTCCTATTTTCCCATATTCCTCGTCACGATTACGATCCTGGTGTTTCTTTCATTCATCATGTTTAATGAGGCCTCGCGCGAAGAGGCAGCCAAGGCGAACGGAATTTCCACGCGTTTTATTATGGAAGATCTGGATCGTTCCATCAACGCCATCGAGATGAACGTGCTAAACGAAGTGGAGACGAGTGCCCTATACTCAAGCTATCTGTTCAGCAATCCGTCATCCGACCAAAATTTGATGTACTCGCTTGTCAAACGTCTCCGCGGGTTGCAATCGGGCAGCGACCTGATCGAATCGGTCTATTTATACCGTCATTCGGATCAGTCGGTGCTGACCACCAGCGGCCAAAGCCCGCTCTCGACTTTTCCGGACCGTTCTTATATCGAGTTTGCCGTGAAAGAGCACGAATACCGGGGGTGGTCCGCCGTTCGATCCATGACGGGACTCGGGGAGAACGAGCCGAAGCAGGTCATCTCCATGTATAAAAATTTGCCGCTTCCCTTCGGGAGCCAAGGGCTGCTCGTCATTAACGTAAGCATGTACCGGGTGGAGCAGATGATCAATCCGATGATAAATGACAGCGTTTCCTTTTTGAATATTTTGGACTCCAGCGGAGATCTCATATTTGAAGCATCCCAAATCGGAGAGGATAAGCGGGCCAAAGAAGGCAAGGTTCTGACGAGGCTGCAATCGGATCAGCTGGGATGGACTTTTGAAAGCGGTCTCCGGGTCGGGCAGCTCTATGCCTGGGTGTCGGTCGTTTCCTACATCTGGATCGTGATCGGCTTCGTAACCGTTGTGCTTGCCGTTATTTATATCGTTTATGTTACCAAGCGGAATTATCAGCCGATCAAAGCCATGATGAACCGCATCGAGTCCATTCAGCTCAACATGCCCCAGGCCGCCAAGGATGAGCTTTCCATGATCGATAGTGCGCTTGAAAGCCTGATCAGCCGGTCCATGGACTATGACAAAAAGCGGCACGAGAATCTCCAGCTTCAGCGCAGCCAGCTGTTCATGGACCTGATCAGCGGGCAGAAGCCCGAAAAGGAACTGCTATCCCGGATGGCAGAGCTGACGCCGATGAAACTGCCGGAACAGCCGGCGGGTTACGTCATCCTGCTCGGTGAAATCAATGATTACAGCGGTTTTCAGGACGTTCATACCGTCCGCGACCAGAACGTGCTGAAGTTTGCCTTGATGAACGTGTTTCAGGAGCTTGCACGCAATGCCGGCTTCAACAGCTGGATTGAATGGATCGCCGGCAGCCGCGTAGGCATTCTGATCGCGCTTCCGGGGATGAACGAGGAGACGCGTTCTTCCCTGATACGCGCAGCGGAGGAGTGTCGGGGCTGGGTCGAGGAAAAGCTTCGTTTGTCGGTGAGGTTCGGGCTGGGCAGCACGGTTGCCGGGCTGCATGAAATAGGCGCTTCGCACCAATCAGCCTCCGAGGCGCTCGGGCACAGGCTGGCGATGGGCGATCATGCCGTGCTGGTCGGCGACGAGCTGCCCCGGGGAGATTTAAGCCGCCTGCTTCCTTACCTGAATGAAATTTCGGAGCTGGTCAAGGACTTCCGATTAAATAATGAAGGCTGGAGAACCCGGCTGAAGGACATGTTCGCTTCATTCAAGGCAGAGCGTCTGAAGGACGATACGATCCGTTCACTGGTCAACAGCATGCTTCAGCTGCTGTCCCGGGAGGTCGGTGTATTATCCGATGAGCTGAGGAACCAGCTGTCGGAGGGCAGGGAGCATGTACTGGCTGGAGCCGCATCCTTAGAGGAGCTGCAGAGCAGGATCACCGATCAGTTAACGGAAATTTACCGCACCTATGTAGCGCTTAGCGAAACCAAGAGCTACCGTGCCATGATCAGCGAAATGAAACACTATATTGAAGAGCATTTCGACGATCCGAATTTGTCCCTGAAGCATCTGAGCGACCGTTTTCAGATATCCGGTAAATATGCAAGTTATCTGTTTAAAATGGAATACGATATGAAATTCGTGGATTTCCTGGTACAGCTGCGCATGAAGCGGGCGGAGGAGCTTCTGGCGCAGACCGACCTCTCGATACAGGAAATTGCGGAGAAGATTGGATACGCCAACTCCATTACCTTCGGGCGGGTGTTCAAACGAACGTCGGGTGTGACGCCGGGCGACTACCGCAAGCTGCAAATGAAGCCTGCACCGGGGACGGAGCTCGGATCCTAG	MLQYSTSISKTLNLEEKGMTSLQQNWYRKLLLSYFPIFLVTITILVFLSFIMFNEASREEAAKANGISTRFIMEDLDRSINAIEMNVLNEVETSALYSSYLFSNPSSDQNLMYSLVKRLRGLQSGSDLIESVYLYRHSDQSVLTTSGQSPLSTFPDRSYIEFAVKEHEYRGWSAVRSMTGLGENEPKQVISMYKNLPLPFGSQGLLVINVSMYRVEQMINPMINDSVSFLNILDSSGDLIFEASQIGEDKRAKEGKVLTRLQSDQLGWTFESGLRVGQLYAWVSVVSYIWIVIGFVTVVLAVIYIVYVTKRNYQPIKAMMNRIESIQLNMPQAAKDELSMIDSALESLISRSMDYDKKRHENLQLQRSQLFMDLISGQKPEKELLSRMAELTPMKLPEQPAGYVILLGEINDYSGFQDVHTVRDQNVLKFALMNVFQELARNAGFNSWIEWIAGSRVGILIALPGMNEETRSSLIRAAEECRGWVEEKLRLSVRFGLGSTVAGLHEIGASHQSASEALGHRLAMGDHAVLVGDELPRGDLSRLLPYLNEISELVKDFRLNNEGWRTRLKDMFASFKAERLKDDTIRSLVNSMLQLLSREVGVLSDELRNQLSEGREHVLAGAASLEELQSRITDQLTEIYRTYVALSETKSYRAMISEMKHYIEEHFDDPNLSLKHLSDRFQISGKYASYLFKMEYDMKFVDFLVQLRMKRAEELLAQTDLSIQEIAEKIGYANSITFGRVFKRTSGVTPGDYRKLQMKPAPGTELGS				NA	NA	NA	NA	NA
AK002_03613	1050	afr_1		1,5-anhydro-D-fructose reductase	ATGACCACGGCGTTTAAAGTTGTTATCGCGGGATGCGGGAGCATGGCGAATACTTGGGCGGATTATGCAAAAGGGCGGGAGGACGTTGAAATCGTGGGTCTCGTGGACATTCAGGAGACTTTCGCGAAGGCATTTGCCGATCGGCACGGTCTTTCATGTCAGACGTATAACAATATTAACGATGCACTTGCTTCAAGCGGTGCGAATATCGTATTCGATGTGACCATTCCCGCCAGCCACTATGGGATTAGCACGGCGGCGCTGAAGCACGGGTGTCATGTATTCAGCGAAAAACCGTTAGCGGAATCGATGACGGAATGTCTGGATATCGTGAAGTTGGCGGAGTCTGCAGGCAAAACCCATGCCGTCATGCAAAACCGCCGATTTGATCCGCGAATACGGGCTTTCAAGTCTTTGATCGATAGCGGAGCGATCGGAAAGCCCGGTTTCATAGGGGCCGATTTCTTTCTTGGCGCGCATTTCGGCGGATTTCGGGACCTGATGGACAGTCCCCTGCTGCTTGATATGGCCATTCACACCTTCGATCAGGCCCGCATGATCAGCGGAGCCGATCCGGTATCCGTATATTGTCAGGAGTTCAACCCGCCCGGTTCCTGGTACGCCGGCAATGCGATGGCGATATGCATCTATGAAATGTCGGACGGCTCCGTGTTCAATTACCGCGGGTCCTGGTGTGCCGAAGGCGCTCAAACCTCCTGGGAAGCCGCCTGGCGCGTCACGGGTGAGAGGGGAACGGCAATCTGGGACGGACATGACGAGATCTATGCGGAGGTCGTGGCGGAAGGGGATCAATCGGGAAGCTTCATTCGGAAGTATGAGCGGATCGAAGGCATGCTGCCTGCCATGGCGAAGACCGGACATCATGGCTGCCTGGAAAATATGTTTCACGCACTGGAAGCCGGCATCAAGCCGGAAACGGACTGCAGCGACAACGTATACAGCATGGCGATGGTGCTGGCTGCATTGGAAAGCGCCAAGACCGGACGGAAAATCATGATCTCGGAGTTCATGAACGGAATGGGCGTTTAA	MTTAFKVVIAGCGSMANTWADYAKGREDVEIVGLVDIQETFAKAFADRHGLSCQTYNNINDALASSGANIVFDVTIPASHYGISTAALKHGCHVFSEKPLAESMTECLDIVKLAESAGKTHAVMQNRRFDPRIRAFKSLIDSGAIGKPGFIGADFFLGAHFGGFRDLMDSPLLLDMAIHTFDQARMISGADPVSVYCQEFNPPGSWYAGNAMAICIYEMSDGSVFNYRGSWCAEGAQTSWEAAWRVTGERGTAIWDGHDEIYAEVVAEGDQSGSFIRKYERIEGMLPAMAKTGHHGCLENMFHALEAGIKPETDCSDNVYSMAMVLAALESAKTGRKIMISEFMNGMGV				NA	NA	NA	NA	NA
AK002_03614	888	rhaR_43		HTH-type transcriptional activator RhaR	ATGTCCTATCCTAGAGAGCTTCATGAGAATACCAGGCTTGGCGATAAGGCGTATCCCGTACAGGTATTTCATAACCGCTGTCCCGGTGCCAAAACGAAGGATTGCATCCTCTATCTCCACTGGCATGAGCACTTTGAGATCCTATGCATGCGCCAAGGTCACGCCGTCTTCCATATTGATACTACCCCTTATGTCGTTAAGGCTGGAGAGTTCATCATCATCCCGGGCGGCAGCCTGCATGTGGGTTATGCCCTCGAGGATGGCGATGTACGGTTTGATTGCGTCGTTGTGAATGCATCCCTGTTTAACGATTCGCTTCATGATCCGGTACACGCGCGTTATGTCGCTCCATATATGGAAGGCCGGCTGCGTTTCCCCGTCAAGCCAGCGGAGAGTGACCCGGCTGGCTCAGAATGCTATCCGCTGCTGGATGAAGTCATTGAAGAGCTTGCCGTCCGCCGTCCGGCTTATGAGCTTATTGCCAAGTCGAAGCTGTACACCCTGTTCGTTCTGTTGGCGCGCACATTCATGCCCGCACAGCTCGCGGAGAAAACGAACGAGCCTTATTTTGCCAATCGGGAGCGTTATAAAAAGCTGATACAGCATATCGAGAACAACATCGGCGAGAAATTGCCTGTGGAGGCCGCCGCTGCGGAAGTCGGTTTGAATCCGTTTCATTTTTGCAAAATGTTCAAGCGTTTAACGGGCCGCACCTTCGTGGATTACGTCAACCTGACCCGGATGAATGAAGCGGAGCGGCTGCTTCGCGAACGGAGGTTGACCATCACGGAAATTGCCGGCATCGTCGGCTGCAGCAACCCGAATTATTTTACCAAGCTGTATAAACAGTACAAGGGCATGACGCCTTCCCAGGCAAGAATGATATAA	MSYPRELHENTRLGDKAYPVQVFHNRCPGAKTKDCILYLHWHEHFEILCMRQGHAVFHIDTTPYVVKAGEFIIIPGGSLHVGYALEDGDVRFDCVVVNASLFNDSLHDPVHARYVAPYMEGRLRFPVKPAESDPAGSECYPLLDEVIEELAVRRPAYELIAKSKLYTLFVLLARTFMPAQLAEKTNEPYFANRERYKKLIQHIENNIGEKLPVEAAAAEVGLNPFHFCKMFKRLTGRTFVDYVNLTRMNEAERLLRERRLTITEIAGIVGCSNPNYFTKLYKQYKGMTPSQARMI				NA	NA	NA	NA	NA
AK002_03615	2370			hypothetical protein	ATGAAAACCTTGTTTGAACCGAAAAGCGGATTATTGTCCGTGCCGTATCAACCGGACGAAGGGAGTAAGCTGCTCGAGAATCCTCCCCGTTTCACCTGGATGCCGGGACAGCTTGAGGACGACCGTTATATGCTGCAGATCTCGACTTCACCCTCGTATGAAACGGGGGCCACGACGACGATATCGCCGATTTCCTATAACTTATACACTCCGGATCGACCGCTGGAGCCCGGTACTTATTATTGGCGTTATGCCTTGCTGACCGGGGAGCAAGAGGAGACTACCGCGGACTTGGAGCATACCCGTTCATCTTGGAGCCAATCCCGAATGTTTCATGTCCCGGAGGGGCTGCCCGAAACTCCCCTGCCTGGCAGAGCGGAAAGGTACGAACGCACGTATACCGGTCATCCGCGGTTATGGTTGGACGAAAAGGGGATTGAGGCGTTCCGGGAAGGTCTCCGCAAGGATGAAGATTACTGCGGCTGGCAGGCCTTTTACGAGAAATCGGTCCTCCCATGGGTGAATAAGCCGTTAATCCTGGAACCGGAGCGTTATCCGGGCAACAAGCGCGTCGCGAAGCTGTGGAGACAAATGTACATGGATTGCCAAGAAACGCTCTATGCCATCCGGCATTTAAGCGTGGCAGGGGTTATATTGCGGGATGATGCTTTGATAGCCAAAGCGAAAACGTGGCTGCTCCACGCGGCCCGTTGGGATACGGAGGGAACAACGTCCCGAGATTACAACGATGAAGCCGCTTTCCGCATGGTCGGGGCGCTTGCCTGGGGGTACGATTGGCTTCACGATTACCTCGGCACTGAGGAGATTGATCTCGTCAGGGGCGCTTTGCTGCGCCGTACCGAGCAGGTGGCCTTCCATGTGATGGAGCGCTCGAAGATCCATCATGTCCCTTACGACAGCCATGCGGTTCGTTCGTTATCCTCGGTTCTGGTCCCGGCCTGCATCGCCATGCTTCATGAAGAAGCGAGCGCGCGGGTATGGCTGGATTACACGCTGGAATACTACGCCTGCCTCTACTCCCCATGGGGCGGAGAGGACGGGGGCTGGGCAGAAGGGCCGCTCTATTGGACAACCGGCATGGCATTCGTGATCGATGCGCTCAATCTCATCCGCAATTACGTAGCGATCGATTTTTATAAACGTCCTTTTTTCGGGCGCACCGGCGATTTTCCGCTATACTGCAGCAGTCCGGATACGATTCGGGCCAGCTTCGGCGACCAGTCCTACCTCGGAGAACCTGTCAGCCTGAAGACGGCTTTCAATATTCGCCAGTTTGCAGGCATTACGGGAAACGGGCTGTATCAATGGTATTTCGAACAAGTGGCCAAATCGGATACGGATGCCGACTCCAAATTTTATAATTACGGCTGGTGGGATTTCCGGTTTGACGATATGCTGTATCGGCATGACTATCCTCAGGTGGAAGCCGTTCCTCCATCGGATACCGTACCCTTTGCCTTATCGGACGCTTCAGAACCCAATGAAGGGGCTATTCAATCCGTCAAATGGTTCCGCGATATTGACTGGGTGGCGATGCATCACCGGATGGATGATCCGGATGAGCACATCATGCTGCTGGCGAAGAGCAGCCGATACGGCTCGATGAGCCACAGCCACGGTGACCAGAACGGGTTCCTGCTGCACGCATACGGCGAGCCTCTGGCAATCGAGAGCGGGTACTATATCGCCTTCGGCAGCACGATGCATATGAACTGGCGGAGGCAGACGCGTTCCACGAATAATATTCTTATTGATGGCCATGGTCAGTATGCGGGAAAAGACAAGGTTCTCTGCATCGAGGCCAGCGGCAGGGTGGAGCACGTCGACGCTGCATCAGGCTTCGGGTACACCCGCATGAACGCAACGCAGGCCTATCGGGAGAACGTGCCCTACCTGGAGCGTTATGTGCGCGAAATCTATTTCTTCGACGAATCTTATGTTGTGATCGTGGATACGGTGGAGCTTGCCAAGCCAGCCAGCATCGAGTGGCTGTTCCATACCTTGAACCCGATGAAGCTGTCGGGGCAGACGTTTCGGGTAATGGGCAGCAAAGCGGAGATGGAAGGGCGATTCGTGTACTGCTCCTCAGGCGATCTATCGCTGAATCAGCATAATCAATTCACCGGCGTCGATCCGGAAGAGATCGAAGGGCTGGATAACCAGTGGCATCTGCATGCGGAGACGAAGTCAGCTTCAAGCCATCGCATCGCGACTCTCCTGGTGCCGATGAAGGTGGATGAGAGCAAATACGTCTCGTATTTTCTGGACGATCAGGACCATGGGGTTCATATCTATTTCACGAACGAAGACGGGAACACCAGGAAAGTGGAGGTGCCCAAGGCGTATTAA	MKTLFEPKSGLLSVPYQPDEGSKLLENPPRFTWMPGQLEDDRYMLQISTSPSYETGATTTISPISYNLYTPDRPLEPGTYYWRYALLTGEQEETTADLEHTRSSWSQSRMFHVPEGLPETPLPGRAERYERTYTGHPRLWLDEKGIEAFREGLRKDEDYCGWQAFYEKSVLPWVNKPLILEPERYPGNKRVAKLWRQMYMDCQETLYAIRHLSVAGVILRDDALIAKAKTWLLHAARWDTEGTTSRDYNDEAAFRMVGALAWGYDWLHDYLGTEEIDLVRGALLRRTEQVAFHVMERSKIHHVPYDSHAVRSLSSVLVPACIAMLHEEASARVWLDYTLEYYACLYSPWGGEDGGWAEGPLYWTTGMAFVIDALNLIRNYVAIDFYKRPFFGRTGDFPLYCSSPDTIRASFGDQSYLGEPVSLKTAFNIRQFAGITGNGLYQWYFEQVAKSDTDADSKFYNYGWWDFRFDDMLYRHDYPQVEAVPPSDTVPFALSDASEPNEGAIQSVKWFRDIDWVAMHHRMDDPDEHIMLLAKSSRYGSMSHSHGDQNGFLLHAYGEPLAIESGYYIAFGSTMHMNWRRQTRSTNNILIDGHGQYAGKDKVLCIEASGRVEHVDAASGFGYTRMNATQAYRENVPYLERYVREIYFFDESYVVIVDTVELAKPASIEWLFHTLNPMKLSGQTFRVMGSKAEMEGRFVYCSSGDLSLNQHNQFTGVDPEEIEGLDNQWHLHAETKSASSHRIATLLVPMKVDESKYVSYFLDDQDHGVHIYFTNEDGNTRKVEVPKAY	PGPT0019417_21	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
AK002_03616	2235			hypothetical protein	ATGAAGGTGAAGTCGAAGCTGAACTCGTACGCGTGGAGCGTGCAAACGATCGATATCCTGAAGGCCGAGCTGGACCAAGTGATCGACCGGAAGCTGGATGTTCCCCTCGAGCCCGGCGGCTGGTGGCACCAATTCGTTTGTCCCGAACATCACACGGAGCTGGTGTTTGATCCTCTGGAAGCCGACGGCAGCACGTTTCGCTGTCCGCATGGGTGCGAATGGGAAGGAGAACCGTATCGGGGAGCATGGCTGGTATTCAAGCATCAGGCCATGGCACGATATGCTCTGCAATCCGCAGCAGTCTATGCCGGCACGGGGGAGGAGATTTACGCCGATCTTGGAAAAAGGCTGATCGTTCGGTATGCGGAGCAATTTCCGCTGTATCCTGTCCACCCGGATGCGCAGCCATGGATGCTGAAAGGGAGAGCATTCCATCAGGCTTTAACCGAAGCCATCTGGGCAACGACGCTTCTTCGTGGATATCTGCTTCTGCGGGATGAGGGCGTATGGTTTGATGAGGTGGCCCTTCGGAAGATTGACCGGTTCCTGCACATGCTGGAGAGCAGCATGACGGAATATCATCATATTTTGTCCCGGGAACGCGGAAATCCTGAGAACAATTATACCGCTTGGCTGATCGCCGCTTTGTTCTGCATCTATGCGGTGCAAGGCGAAACGAAAAAGCTGAAGCAGCTGGTTGAGCAGGAAGGCGGGCTCCGCCATCATCTCACCCTTGCCGTCAAGCCCGATCAGCTTGAATTTGAAGGCAGCATTTACTATCACGTATTCGTGCTCCGTGCTTACCTGATTGCTGCGGAAATGGGGAGCAGGGTTGGTGAAGAGCTTTTTTCCCTGAGAGGGGAGCAAGGCCAATGCATGCAGGGAATGTTATCGGTCCTGGTCCGATTGTCAGACCCAAACGGCTTCCTGCCTGCACTTCACGATGGTCCTTATCGCAGGGCTCCATACGCGCGAGAAATTGCGGAAGTTGCGGAGATCGGCTTATCCATATATGGGGATAAGAGCTATCGACGATTGCTTGGCCATGCCTATCGGGAACTGAACGGAGCAGCCGGCAGAATCGGCATGCTGGAGGCACTGCTGTACGGTACGGGATCATGGGATGGCCGAAACGGAAGGGCAGCTCCCGGCAAGGGGAACTCCCACATGTTGAAATCGGGAGAGATATGGGAAACGGGTGATGTTATCGAAGTACAGGTCACGCGTGAGGTCCCAAGACCGGGAGACGCTATGCAAGCAGATCGTGATCCGACAGCTCATGAAGCGGGGGGGATCGCAGGCGTTACCTTGAACCATGCGGACGGCGATGCTCCTTATTCCTTTGTTCTTCCTCAAAGCGGGTTCGCCCTGTTAAGGACGAACCATCCCCAAGGCCTTCAAGCTTTGATTGATTTTGGCCCTCATGGCGGATCGCATGGTCACTTTGATAAATTGAATTTGATGATTCATGCCGGGGATCAACCTCTTTCGCCAGATCGAGGAACGGTACCTTATGGATCGGTTCTAAAGAAGGAATGGTACCCTCAGACTGCCTGCCACAACACCGTATCCGTAGGCGGCCGCTCGCAGAATCCGGCCGAAGGCAAATGCATGCGGTATGAATCCGCTCCAAACCGTTCCTATATTTGGGTTCGGACCGATGAGGCCTACGATCATGGCATTCTGGACCGGCATTTGATCATGGCGGAAGATTGGCTGCTGGATTGGTTCGAAGTTGAATTGGAAGAACCGGCCGCCGTGGATTGGTGGTTTCATTACGTCGGCACGGGGCAGCTTCACGAAAGTTCGGATGAGGTTCAGATCAGCGGGTCGGCGGAACCTGGAAACGAGGACGGACACGCATACGTAAAAGAGCGCTCCTCTAATGTATGGTCCAGAGACGGTATGCAGGTGGACCTTCATATCGCTAACGAGTCAGGAGCGGTTGCGGTAGCATCCTTTGCCACCTTTGAAGGAATGGTATGTTCACGAGTGGAATCACCTGGGCTTGCTGACGATCCCAGCCGTCCCATGGAAGGAATCCAGCTTCACCGAATGGATTCGAAAGCCCGCTTCATCGTCGTCTATCGTGCCGGCAATGAGCCGATATCCTTGGGATGGACGCATGCTGCGGACGGGGATTGGCTCCATTTGTCCGATGGAAGAACGGCAAGAAGCTATACAATGACCAACAACGGGTTGAAGGAGAGGGAGCTCGATGAAAACCTTGTTTGA	MKVKSKLNSYAWSVQTIDILKAELDQVIDRKLDVPLEPGGWWHQFVCPEHHTELVFDPLEADGSTFRCPHGCEWEGEPYRGAWLVFKHQAMARYALQSAAVYAGTGEEIYADLGKRLIVRYAEQFPLYPVHPDAQPWMLKGRAFHQALTEAIWATTLLRGYLLLRDEGVWFDEVALRKIDRFLHMLESSMTEYHHILSRERGNPENNYTAWLIAALFCIYAVQGETKKLKQLVEQEGGLRHHLTLAVKPDQLEFEGSIYYHVFVLRAYLIAAEMGSRVGEELFSLRGEQGQCMQGMLSVLVRLSDPNGFLPALHDGPYRRAPYAREIAEVAEIGLSIYGDKSYRRLLGHAYRELNGAAGRIGMLEALLYGTGSWDGRNGRAAPGKGNSHMLKSGEIWETGDVIEVQVTREVPRPGDAMQADRDPTAHEAGGIAGVTLNHADGDAPYSFVLPQSGFALLRTNHPQGLQALIDFGPHGGSHGHFDKLNLMIHAGDQPLSPDRGTVPYGSVLKKEWYPQTACHNTVSVGGRSQNPAEGKCMRYESAPNRSYIWVRTDEAYDHGILDRHLIMAEDWLLDWFEVELEEPAAVDWWFHYVGTGQLHESSDEVQISGSAEPGNEDGHAYVKERSSNVWSRDGMQVDLHIANESGAVAVASFATFEGMVCSRVESPGLADDPSRPMEGIQLHRMDSKARFIVVYRAGNEPISLGWTHAADGDWLHLSDGRTARSYTMTNNGLKERELDENLV	PGPT0019410_95	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019410-alyA3|alg17C-K20525	NA	NA
AK002_03617	768	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCAAATAAATCTATCGGGTAACGTCGCTTTAGTCACAGGATCTAGCGGAGGAATCGGTCGGGCGGTTGCCATCATGCTGGCCAGAAGCGGAGCCAAGGTAGCGCTGAATTATTTGAACAGCAAGGAGGCTGCCGAAGAGGCCGTTGCCGAGATCAGAGATTTTGGGGGCGAAGCCCACGCTTTTCGCGCAGACGTTGCGCAAGCCGAACAGGCGGAGGCGCTTGTGGCGGAAGTGGAAAAGGCATTTGGCGGGCCGGTAACGATTCTGGTTAACAATGCGGGGCATTTGGTCCAGCGGCTGGCAAATGCGGAAATGACCGAGGAGCTCTACGCCAAGATCATGGACGTCAATATGAAAAGCACGGTATTCGTGAGCAAAGCGGTCATTTCGGGGATGAAAGCGGCCGGTCAAGGGCGCATCGTGAACATGACCTCCGTTGCGGCGCACAACGGCGGCGGACCGGGCGCTAGCATATATGCGGCGAGCAAGGCTGCCGTCCTGAGCTTTACCAAAGGCTTGGCGAAGGAGCTTGCTTCAAGCGGAATCCATGTGAATGCCGTGTCCCCCGGCTTTATCGGGCAAACGGCGTTTCACGCGACCTTTACCCCGGATGATGCGCGCAAAGCCACCATTCAGGGCATTCCGCTAGGGCGAGAGGGCACGCCGGACGATGTCGCCGGCTCCGTGCTGTTCCTAGTCTCGGAGCTGTCTTCTTATATAACGGGTGAGACGATCGAAATCAACGGCGGCATGTTCATGCGATGA	MQINLSGNVALVTGSSGGIGRAVAIMLARSGAKVALNYLNSKEAAEEAVAEIRDFGGEAHAFRADVAQAEQAEALVAEVEKAFGGPVTILVNNAGHLVQRLANAEMTEELYAKIMDVNMKSTVFVSKAVISGMKAAGQGRIVNMTSVAAHNGGGPGASIYAASKAAVLSFTKGLAKELASSGIHVNAVSPGFIGQTAFHATFTPDDARKATIQGIPLGREGTPDDVAGSVLFLVSELSSYITGETIEINGGMFMR	PGPT0003180_7656	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
AK002_03618	1872			hypothetical protein	ATGATGCGGAAGAGCCTGTCCCGTCAAATCTTCCTGTACTTCTTCATCGTCGTGATGTTCTCGCTTACCACGGTCGGCGTCTTCTTCTACATGAAATCATCCGAAGCGATTGACGAGCAGGTCGAGAAGTATATGACCACCGTCATCACGAACGCCGCAAGGCAAACGGATAATCAGCTGAAAATGTTCGAGCGGATCAGCAATACGATTTTGCTGCAGGATTCGGTGAAACGATTCTTGGATATGGATCCCAGCGACAGCTATGAGCATTACCGGTTCACCCATCTCATCCGAAAGGATGTTTTTCAGAAAATCTTCATTCAATACCCTACGCAGACCCATTTGATGTACATCCTGGGGTTCCATGGCCGGTCGATTTTCGATCAGAACCAGAATTTCTCCGCCATGTCGATCGATCCTTCGGACCGTCTTCGTGAATTGACGGAGAAGACGCCGGGGAACGGGGAGATCGTCATCTTGAAGACCAGCCTGCTGGAACAGGATCGCGACAACGTCATTACGGTTGCCCGCAAAATCCGGGGAATGAATTCCTACGACGTTAAAGGCGTGCTTGCGGTAGAGTTCAATGAAGATCAGCTGTCGGGTTTATGGAATGGCGTCGACCTTGGGGAGCAGGGCTTCTTTTTCATCCTGGACCGCGAAGGCGAGGTCGTTTATGCCCCAGAGCACGTGGATATGGAGGGAATCACGACCACGGACCTGCCGAAGCGCATTATCGCCAAGGGCGATCATCGCTTCATCGAACCGGTATTAGGCGAGAAAGCGATGATCATCTCGCGCCAGTCCGAATATTCGGGCTGGAGCCTCGTCATTATGATGCCGCTGGATGAGCTTCGGGCGCCGATTTCGGGCATTCGCTCCACCACCATTATCGTAGGCTTTGTCACCTTGTTCATTGCGCTCGTTCTGGCATACAGATTCGGGAAATCGATCGTGAATCCGATCCGCAATTTGAAGAACGGGATGAGGCAGACGGAGAAAGGGAACTGGACGCACATCACCGACGTGAAACCGCGCGAGGATGAAATCGGGGGATTGATCCACAGCTACAATCTCATGGTCAGCCGGTTGTCCGACATGATCGAGCAGGTATACGACACGGAGCTCCACAATCAGAAGACGCAGCTGGAGCTGCAGGACATACAGCTGGAGCGCCAGCGGGCCGAGTTTCAGGCGCTTCAATTGCAGATCAATCCGCATTTTTTGTACAACACGCTGGAAACGATCAACTGTTACGCGATCGTTCAGGATTCGGACGAAATTTCGGACATGGTGGAGGCCATGGCTTTCATGCTTCGATATTCCATTCAGACCAATCTGGAGGAAATCACGATTGCCAACGAGCTGAACCATGTGCGGCATTACATGATGATCTTGAAGCATCGGATCGGGCGCGATTTTGAGATCGAGGTGGCAACGCCGCCCGAGCTCCTGTTGGAGAAAATGGTCAGGCTCTCCCTGCAGCCGATTGTGGAGAATATTTTCCAGCATGCCTTTCCGGAAGGAATCGAGGCGTGGCATTACATTCGGATTGATACGAGAGTCGACGGAGACAATTTGCTGGTCATGGTCGAGGACAACGGGGCAGGCATTGCGGACCATAAGCTTCATAAACTGCGCAAAAGGCTCGAGGAAAACCGCTTGGTCGATGATGAAGAGGGGAAACGCGCCCGGCGCAGAGGCGGCATCGGCATCGTGAACGTCCATCGGCGAATTCAGATGGTTTACGGCGAAACGTACGGGATAACGGTTCATAGTTCGCCGAGTCAAGGCACAAGCATCGTCATGACGATGCCGCGAATGGAAAGAATGCGTGAGCAAGAAAACAGGCTGAAACAGCTGCAAACCTAA	MMRKSLSRQIFLYFFIVVMFSLTTVGVFFYMKSSEAIDEQVEKYMTTVITNAARQTDNQLKMFERISNTILLQDSVKRFLDMDPSDSYEHYRFTHLIRKDVFQKIFIQYPTQTHLMYILGFHGRSIFDQNQNFSAMSIDPSDRLRELTEKTPGNGEIVILKTSLLEQDRDNVITVARKIRGMNSYDVKGVLAVEFNEDQLSGLWNGVDLGEQGFFFILDREGEVVYAPEHVDMEGITTTDLPKRIIAKGDHRFIEPVLGEKAMIISRQSEYSGWSLVIMMPLDELRAPISGIRSTTIIVGFVTLFIALVLAYRFGKSIVNPIRNLKNGMRQTEKGNWTHITDVKPREDEIGGLIHSYNLMVSRLSDMIEQVYDTELHNQKTQLELQDIQLERQRAEFQALQLQINPHFLYNTLETINCYAIVQDSDEISDMVEAMAFMLRYSIQTNLEEITIANELNHVRHYMMILKHRIGRDFEIEVATPPELLLEKMVRLSLQPIVENIFQHAFPEGIEAWHYIRIDTRVDGDNLLVMVEDNGAGIADHKLHKLRKRLEENRLVDDEEGKRARRRGGIGIVNVHRRIQMVYGETYGITVHSSPSQGTSIVMTMPRMERMREQENRLKQLQT				NA	NA	NA	NA	NA
AK002_03619	1050	rssB_18		Regulator of RpoS	ATGTACCGCATTCTGGTCGTTGATGATGAACCTATGATAAGAATGGGCTTGGCGAAACTGATCACGCAGACAGATCCGGCCATGATTCAAGCGGAAACGGCCGGAAACGGCATGGAAGCGTTGGAAGCGATCCAGACGGCACGACCGGACTTCATATTTACGGATATCAAGATGCCCAGGATGGACGGCCTGGAGTTAAGCAAGCAGTTATATGAAGCATACGGCGATATCACGGTCGTTGTCATCTCCGGATACGGCGATTTCGAATACGCCCAGAAATGTATGTCGTATGGGGTTAAGGAATACCTGCTCAAGCCCGTGACCAAATCGGTGGTACATAACACCATGAACAAATTGATGGCGGATCGAAAGTCCATGCAGGAGAAGCAGCGGTTCTATTTTCCGCTTTCCAAGCTGGAGGATTGGCTGGAGCAGCTGGAGCTGGCCGTATGGCATTTGCAAATGAACGATATCCAGATGAAGCTGCAGGAAATCGAGGATTATTGCAATGAGCGCCGGTTCGAATCGATCCAGCTTCAGGAGCTGCTGGATGAGCTGTACGCGAAGTTGATCAAGCAGTTAAACGGCAGGGACGTATATTCGTTCGAACGCATGACGGGAATATCGGGGCCTGCGCCCGGAGGGAACCATCATTATTTCGAGAGATTTCGTCTGGCCGTGAATCAGACGGTGAAGCTCATACGCGAGAAGCGAAAAGGGAATGCGAAGGAGCCTGTAGAGGAAGCGAAAGCCTATATCGAGCGCAACTTGTCCCGCGATCTCTCGCTGGATGAGGTGGCCGACATGCTTGGACTCAACCCGTCCTATTTCAGCCAGCTGTTCAAGCAGATGACGGACGAGACCTTTGTCCATTACCGGATCAAGAAACGAATGGAGAAGGCGAAGAAGCTCCTTGCCATTCCGCATTATAAAATTACGGACATTTCGTTCGAAGTGGGGTATGCGGATCATCCCCATTTTACCAAAACCTTTAAGAAGGTCACCGGTTACACCCCTTCCGAATACCGGGAGATGCTGGGGATCGAATGA	MYRILVVDDEPMIRMGLAKLITQTDPAMIQAETAGNGMEALEAIQTARPDFIFTDIKMPRMDGLELSKQLYEAYGDITVVVISGYGDFEYAQKCMSYGVKEYLLKPVTKSVVHNTMNKLMADRKSMQEKQRFYFPLSKLEDWLEQLELAVWHLQMNDIQMKLQEIEDYCNERRFESIQLQELLDELYAKLIKQLNGRDVYSFERMTGISGPAPGGNHHYFERFRLAVNQTVKLIREKRKGNAKEPVEEAKAYIERNLSRDLSLDEVADMLGLNPSYFSQLFKQMTDETFVHYRIKKRMEKAKKLLAIPHYKITDISFEVGYADHPHFTKTFKKVTGYTPSEYREMLGIE				NA	NA	NA	NA	NA
AK002_03620	1578			hypothetical protein	ATGAGAAAAAGCTGGACACGTGCGCTTACGTCAGGTCTTGTACTGGCCATGCTCGTCGGCTGTGCGGGCAATAATGGCGGAGGCGGAGGAGCCAACGCCGGGGGCGACGGCCAAGGCGGGAATGAAGCGGGAGCCACGAAATTTTCCATTTCGATGCGGACGCTTAACGTTTCCTACGTTGAGAAGAATCCGGATATCAACCAGGATAAGTACGTGCTGGAGCTAGAGAAAATGACGAATACGGACCTCGAAATCCGTCTCATTCCGCATAACGAATATCAGGATAAAATGGTGCAGATGTTCGCAACGAACGACATACCGGATGTGGTGCAGGGAACTGGCGGAATCAGCGGTCCCGAGCTGGCGGGTGCCGTGGAGAACGGAGTCTTTCTTCCGCTCAACGACCTGCTGCAGGAGCATGGGCAGGACCTGCTCAAGTTTATCCCCGAGGAAGCCTGGAAGCGGATGACGGATTCCAAGACGGGCAATATTTACGGGATTCCCGAAATCTTGTCCAATCCGTCCAGACGGGCGACATGGATTCGGACCGACCTGCTGGAAAAGGTAGGGAAGGAGATCCCGACGACGGTGGAAGAAACGATGGATGTTCTGCGCGCGTTCAAGGAAGCCGGGGTGGAGCAGCCTTATGCGGGACGTCAGAATTTCAAATATGCCGATACCTTCTTCGGGGCGTATGACGTGCTGGGTTATCTGAACCAATTCAAGGTGTTCCCGGACGGGCAAGTAAAGCCAACCTTCTTTGACGAAGAAAATATGAAGCAGGCAATTCAGATCTATAAGACGATGCATGAGGAAGGATTGATCAGCAAGGAATTCGCGACCATTGAAAGCGCGGATTTCAAATCCATCGTCACGAGCGGCAAAGCCGGCATGTGGTCTATGAATGCCAACGAACTTCCGATCTGGGGAACCCAGCTGAAGGAGAATGTGCCGGACGCGAAAGTGGCGCTGATTCCTTCGCCTGTAGGACCTGACGGTAAAGGGGGATATGCCCATTATAATCCGGTCACGCGTTCATTCTTCATCAACGCGAAGGCGAAGGATAAAGCGGAGGATATCGTGAAGTTCTTCAACTGGATGGTCAGTGAGGACGCGGAATTGTTCTTCAGCTTCGGCATCGAGGGCGAGGATTATCAGGTAACCGACGGAAAGCCGGTCTTCGAGGTACCGACGGACGCAGCAGGCGCGGATAAGATGCGTTATTTGAACTACTGGCTGTGGCTGGTGCAGGACACAACGTACAACAAACGCGTATCCGAATTGTCCGATTCCGGCAAAGAGCTGATTGATGCTTTTGATAACATGTTATCGAATGAGGGCCGCCGCGGAATCGAATTCGACCCGAGACTGGAGGCGATGGTGAAATATCCGGAGCTGAATCCGAAGTCGGATGAACTGCCTCCGCTGATTCTGGAGCATGTGCTTCGCATGGTATACGGCAGGGAGCCGATCGATAACTACGGCAAGGTGCTCGAGGAGTATCTGTCCAAGGGCGGTAAAGAGATTATTGAGGAAACAACGAAACGATATAACGAAAAAGAAAACGCTTTCGAATAA	MRKSWTRALTSGLVLAMLVGCAGNNGGGGGANAGGDGQGGNEAGATKFSISMRTLNVSYVEKNPDINQDKYVLELEKMTNTDLEIRLIPHNEYQDKMVQMFATNDIPDVVQGTGGISGPELAGAVENGVFLPLNDLLQEHGQDLLKFIPEEAWKRMTDSKTGNIYGIPEILSNPSRRATWIRTDLLEKVGKEIPTTVEETMDVLRAFKEAGVEQPYAGRQNFKYADTFFGAYDVLGYLNQFKVFPDGQVKPTFFDEENMKQAIQIYKTMHEEGLISKEFATIESADFKSIVTSGKAGMWSMNANELPIWGTQLKENVPDAKVALIPSPVGPDGKGGYAHYNPVTRSFFINAKAKDKAEDIVKFFNWMVSEDAELFFSFGIEGEDYQVTDGKPVFEVPTDAAGADKMRYLNYWLWLVQDTTYNKRVSELSDSGKELIDAFDNMLSNEGRRGIEFDPRLEAMVKYPELNPKSDELPPLILEHVLRMVYGREPIDNYGKVLEEYLSKGGKEIIEETTKRYNEKENAFE	PGPT0017245_2416	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03621	873	araQ_42	COG0395	L-arabinose transport system permease protein AraQ	GTGAAATACGACAGTGCAGGCAGAAAAATGTTTCTTGTATTGAACTATATCATCCTTACCTTTCTTGCACTCACCATGCTGCTCCCTTTTCTCAATGTCATTGCCCAGTCGTTCAGCAGCCCTGGCGCTATCGATCGCGGAGAAGTGATGTTCTGGCCGGTGGAATTTACCTTTGCATACTACAAGCATGTATTCAACGATGTTTCCATCTGGAGGGCATTCGGGATCAGCGTCTATATTACGATATTCGGAACCTTCATCAATCTGGCAGCAACCGCTTCGCTGGCGTACCCGCTCTCCAGGCCCGAATACGTCGGCAGAAAAACCATCATGATAATCATCCTGTTGACCATGATTTTTACGGCACCGCTCATCCCCCAATTCATACTGATGCGCGAGCTGAATCTCGTCAACACGCTGTGGTCCTTGATGCTGCCATCGGCGATCAGCGCATTCAACCTGTTTGTGCTTCGCACGTTCTTCACCCAAATTCCGGGCGAACTGATCGATTCGTCCCGAATCGACGGATGCAGCGAGGTCCGTACCCTGTGGAGCATCGTGCTTCCGTTATCCAAGCCGGCGCTGGCGACGGTAGGGATATTCTATTCCGTTACGAATTGGAACAAATATATGGATGCCCTTTACTATATCAATGACCGCAGTAAGTATCCGCTCCAGGTCAAATTGAGGGAGCTTCTGGTGAACGAGGGCCTGACCGATACGGGCAACATGGCGTTCGAAGCAAGCTCCCAGTCCGTGCAGGGCATTCAGATGGCGGTTATTCTGGTAGCCACGCTGCCCATCATTCTCTTGTATCCGTTTCTGCAGCGCTTCTTCATTCACGGGATGATGATCGGGTCGATCAAAGAATAA	MKYDSAGRKMFLVLNYIILTFLALTMLLPFLNVIAQSFSSPGAIDRGEVMFWPVEFTFAYYKHVFNDVSIWRAFGISVYITIFGTFINLAATASLAYPLSRPEYVGRKTIMIIILLTMIFTAPLIPQFILMRELNLVNTLWSLMLPSAISAFNLFVLRTFFTQIPGELIDSSRIDGCSEVRTLWSIVLPLSKPALATVGIFYSVTNWNKYMDALYYINDRSKYPLQVKLRELLVNEGLTDTGNMAFEASSQSVQGIQMAVILVATLPIILLYPFLQRFFIHGMMIGSIKE	PGPT0017255_2558	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_03622	963	yteP_45	COG4209	putative multiple-sugar transport system permease YteP	ATGGCCGAGCCAAACAAAGCAGCGGTAAGCCCGATTCTGGAGGGAAAGCTTGATAAACGGAGAAAGCTGCTCGGATTCATGTGGAAATACAGGGCGCTGTACTTCATATCGCTGCCGGGACTGCTGTTCTTCGGATTGTTCAAATATGTTCCGTTAATGGGCTCCGTGATCGCATTCCAGAACTACAATTTGTTTAAGGGCGTAACGGGAAGTCCCTGGGTGGGCCTTGAGCACTTTGGGCGAATGTTCCAGCACTATGATTTTCTGAAAATTCTGCGCAATACGCTTCTGCTGGGTACATATGACATTCTGTTTGCTTTTACGGCCCCCATCGTCCTGGCTTTATTGCTGAATGAGGTTCGCCAGGTCGTCTACAAAAAAATTGTCCAGACGATATTCTATGCGCCGCATTTTCTGTCATGGGTTATTGTAAGCGGTATCTTTGTGGGCATCCTGTCCCCGTCATCGGGGATCGTGAACGTGGTGCTCGGGTGGTTCGGCTTCGAACCGATCTATTTCCTCGGCGAAGATTCCTACATTCGAACGGTATTGGTGGGCTCCGGATTATGGAGAGATGTCGGCTGGGGAACCATCATCTATCTGGCGGCGCTCGCGGGCATCAATCCGGATCTTTACGAAGCCTCCGAAATCGACGGAGCGGGGAGATGGCGCCAGACCCTCAGCATTACGCTGCCAGCACTGCTTCCCGTGATAACAATCCTGTTCCTGCTCAAGATCGGGGATTTCATGGATTACGGGTTTGAACGCGTATTCGTGTTTCAGAACCCGCTTAACATCCAGTCCAGCGAAATTTTGGACACGTACATTTACAAAGCCGGCTTGCAGCAGCTTCAGTACAGTTATGCCACCGCCATCGGGGTGTTCAAGTCCGTTGTCGGCTTGTTCCTGATCACCATTGCAAACACCATCAGCAAGAAAGCGACCGGCGAGTCGCTGTATTAG	MAEPNKAAVSPILEGKLDKRRKLLGFMWKYRALYFISLPGLLFFGLFKYVPLMGSVIAFQNYNLFKGVTGSPWVGLEHFGRMFQHYDFLKILRNTLLLGTYDILFAFTAPIVLALLLNEVRQVVYKKIVQTIFYAPHFLSWVIVSGIFVGILSPSSGIVNVVLGWFGFEPIYFLGEDSYIRTVLVGSGLWRDVGWGTIIYLAALAGINPDLYEASEIDGAGRWRQTLSITLPALLPVITILFLLKIGDFMDYGFERVFVFQNPLNIQSSEILDTYIYKAGLQQLQYSYATAIGVFKSVVGLFLITIANTISKKATGESLY	PGPT0017250_1063	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_03623	183			hypothetical protein	ATGCCGCAAATTACGATTAAAATGTACGAAGGACGCACGGATGAGCAGAAGAACGAAATCGTTGATGTTTTTACAAAGGAGCTGTCGCGGATCATTGACCGGGAGCCTGAATTTATCAGCATCCGGTTTGACGAAATTCCGATAGATGACAACGCACCGGCCCATTTGAGAAACAAGAGGTGA	MPQITIKMYEGRTDEQKNEIVDVFTKELSRIIDREPEFISIRFDEIPIDDNAPAHLRNKR	PGPT0005210_2604	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_CATECHOL_DERIVATE_UTILIZATION,PGPT0005210-praC|xylH-K01821	NA	NA
AK002_03624	1194			Unsaturated glucuronyl hydrolase	ATGAACGGTCAAGTTAAGGAAGAGGAAACGACCTATGCGTCGTTATGGGGGAAACTAGAAAAGAAAGTAATGCGTATGACGGGTCAGCTACAAGGCAAAGTTCCCCATACGACAAAGAACGGGATCTATGATTCCACCCGGATCGATTGGTGGACCTCCGGTTTTTGGCCGGGGATGCTATGGATGATGTATGATATGACCAAGCAGCCGCAGTATAAGGAGTTGGCTTGGGAATGGGATGTTCGGCTTGAACAGGCGCTGATCGGGGACAGTAACTTTCATCACGATGTAGGCTTTCAGTTTCTGCCGACGGCCGTCATCAAATATAAACTGACCGGCGATCCGGATGCCAGGCGGAGAGGATTGTTGGCGGCTACCCTGCTCGCAGGAAGGTATAACCCCGTCGGCAGATTCATTCGCGCTTGGAATCAGGTGAAGCCTACCTCGTGGAACCACGGAAACGAAGGCTGGTCCATCATCGATTCCACCATGAATCTCTCCCTCTTGTTCTGGGCTTCCGAGGAGAGCGGTGATCCGAGATTCGCTCATATTGCCAGAGAGCAGGCCAATACGGTTGTCGAGCATTTCATAAGACCCGACGGCTCGGTTCGGCACATCTGCCGGTTTGACCCGTTGACGGGCGAATATATGGAATCGCTCGGCGGACAAGGCTTTGGACCGGAATCGGCCTGGAGTCGGGGAGCAGCCTGGGCTTTGCACGGGATGGCGAACACCTATCGGTATACCGGCGATATTCGGTATCTCGACGCTGCCAAGCGAGTCGCTCATTACTTCGTGGCTTCCCTTCAGGAAGATTCCATTCCGCTTTGGGATTTTCGGGCGGAGCGCAAGGATTTGGAATACCCCGATCATGATGGAACGGATACATCCCCAATGGCACCGGAGCCAAGGGATACATCCGCGGCATCCTGCGCCGCATCCGGGCTGCTTGAAATCGCGGACCTCGTCCCGCAAGCCGAAAGCGCTCTGTACCGCAGCAGTGCCTTGCGTATCATCGACTCCTTGACGAACCGTTACGCCGAATGGGATGACCCGGATTATGAAGGCATACTGAAAGAGGCCACCGGGCATCTGCCTGCCGGACAAAATATAAACGTCTCGCTCATTTATGGCGATTACTATTATGTTGAGAGCGCAGCCAAGCTAATGGGATGGAAAAACCGGATCTTCTGA	MNGQVKEEETTYASLWGKLEKKVMRMTGQLQGKVPHTTKNGIYDSTRIDWWTSGFWPGMLWMMYDMTKQPQYKELAWEWDVRLEQALIGDSNFHHDVGFQFLPTAVIKYKLTGDPDARRRGLLAATLLAGRYNPVGRFIRAWNQVKPTSWNHGNEGWSIIDSTMNLSLLFWASEESGDPRFAHIAREQANTVVEHFIRPDGSVRHICRFDPLTGEYMESLGGQGFGPESAWSRGAAWALHGMANTYRYTGDIRYLDAAKRVAHYFVASLQEDSIPLWDFRAERKDLEYPDHDGTDTSPMAPEPRDTSAASCAASGLLEIADLVPQAESALYRSSALRIIDSLTNRYAEWDDPDYEGILKEATGHLPAGQNINVSLIYGDYYYVESAAKLMGWKNRIF	PGPT0019355_394	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE-GLYCOSIDASES|GLYCOSYLHYDROLASES,PGPT0019355-ugl|EC_3_2_1_180-K18581	NA	NA
AK002_03625	1086	baeS	COG0642	Signal transduction histidine-protein kinase BaeS	TTGAAGCATCGGCTTGACCTGAGGCTCGCCGCCATCATTATCAGCATCACGGCAGGGATCCTGATCGTGTTTACCGTGATCAACATCGTGACGAACCATTACCATATCGCGATGTACCAGCAGCAGTCCAGCGGGCACAGCGGAATGGATGAGCTGAACTATCATTTGGAGCAGGCGCAGATGCAATCGATTATCTTAACCTGCCTGTTATCGATTGCCATAGCCTCCATAATAGGAATCTATGTAGCAAGAAGGATTTCGGCTCCCCTCGTCCAGATGAAGCGGGCGGCAGAAATGATGACGCAGGGAAAATGGGATATCCGCGTGGCAGCCGGGGGGTACGATGAAATTGCTGGGCTTGGTGCTTCGCTGAATGAGCTGGCCGTGCAGCTGCAGAAACAGGAGTTGCTTCGCAGGAACATGACGCAGGATATCGCGCATGAGCTCCGAACGCCGCTAACCACGTTAAAGAGTCACACCCGTGCACTCGAGGACGGGGTATGGGAGCCGACTGCAGAACGTTTCCGCACCTGCTTGGATGAAATCGACCGTTTGATTCAGCTCGTCACGGAGCTGGAGGAGCTGCACGATATGGAATCCCCGGAGTTTCAGCTGTCCCGGTCCGAGCAGGATCTGAGCCATATTATGGAGAGAGCCGTCACGTTGGCGAAGGCGATGTATCATGAAAAAGAAGTGAGTCTGCATTATGCCAGCAGTTCGTCGATCACAGCCGAGGTGGATCCAGACCGGATGCTCCAGATTCTGATCAATGTGTTAAGCAATGCCTTGCACTACACCCCGTCCGGCGGTACGGTGCAAGCCCATCTCGTGGACGAAGGGGCCGATGCCCTGATTCGGATTCGGGATTCGGGACAGGGCATCTCCCAATCCGATCTGCCGTATATATTCGAAAGGCTGTATCGGGGGGATAAGTCGAGGAATCGGTTAAGCGGCGGAAGCGGAATGGGGCTGGCCATCGTCAAGCAGCTGGTTTCCGCTCATGGCGGCCACGTGTGGGCCGAAAGCGGAGATGAGCATGTTGGCGGCAGCTGCTTCTATATTCGGATTCCGAAAAAGATTAAATAA	MKHRLDLRLAAIIISITAGILIVFTVINIVTNHYHIAMYQQQSSGHSGMDELNYHLEQAQMQSIILTCLLSIAIASIIGIYVARRISAPLVQMKRAAEMMTQGKWDIRVAAGGYDEIAGLGASLNELAVQLQKQELLRRNMTQDIAHELRTPLTTLKSHTRALEDGVWEPTAERFRTCLDEIDRLIQLVTELEELHDMESPEFQLSRSEQDLSHIMERAVTLAKAMYHEKEVSLHYASSSSITAEVDPDRMLQILINVLSNALHYTPSGGTVQAHLVDEGADALIRIRDSGQGISQSDLPYIFERLYRGDKSRNRLSGGSGMGLAIVKQLVSAHGGHVWAESGDEHVGGSCFYIRIPKKIK	PGPT0003985_1282	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
AK002_03626	693	srrA_3	COG0745	Transcriptional regulatory protein SrrA	ATGAAAACCATATTAATCGTGGATGATGAACCGAATATTCGAGAAGTTCTTGTATCTTATTTGAACAAAGAACGTTACTTGACGCTGGAAGCGGCGAACGGTGCGGAGGCATTCGATTGCCTGCGAGGACAAGCCGTGGACCTTGTCCTATTGGACCTCATGCTGCCGGATATGGACGGTGAACGGATATGCAAGGAAATTCGAACGTTTAGCTCGGTCCCCATCGTGATGTTAACGGCTAAGGTGGCTCAGAGCAGCCGGATCGGCGGATTTGCGATCGGAGCCGATGATTACATCGTGAAGCCGTTCGACCCACGGGAAGTCGTGGCAAGGGTCAAGGCTGTCTTGAGGCGGGGGGATGACAGCAAGCTGCTCGCGGACGTCATTGTGTATGATGAAGGCGCATTGGTCATCCATTCGATGAAGCATGAGGTCACCAGCCATGGACAAATCGTGAATTTGACGCCGAGCGAATATAAACTGCTGCTGCTGTTGGCCAAATACCCGCAGCGGAACTTCTCCCGCGAAGAACTGGTCGACCGGGTGTTAGGTTATGATTTTATCGGTGATATCCGCATTATTGACCAGCATATCAAGAATCTGCGGCACAAGATCGAATCCGACCCGAGGCAGCCGAAGTATATCCTTACCGTTTACGGATTCGGCTACCGCTTCGGAGGTGACGGGGCTTGA	MKTILIVDDEPNIREVLVSYLNKERYLTLEAANGAEAFDCLRGQAVDLVLLDLMLPDMDGERICKEIRTFSSVPIVMLTAKVAQSSRIGGFAIGADDYIVKPFDPREVVARVKAVLRRGDDSKLLADVIVYDEGALVIHSMKHEVTSHGQIVNLTPSEYKLLLLLAKYPQRNFSREELVDRVLGYDFIGDIRIIDQHIKNLRHKIESDPRQPKYILTVYGFGYRFGGDGA	PGPT0002675_54	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
AK002_03627	834			hypothetical protein	ATGAGATTGGGCATATTCTCCAAGACGTTTGAGAGGCCGACACTGGAAGAAAACTTGGACGCTGTTATCGCTGCCGGATTGGAGGTCATCCAGTTCAATCTTTCCTGCGCCGCTCTTCCGTCGCTGCCGGAAGCCGTCGACCTGGGGACCGCGGCACATATTCAAGCAGCGTGCGAGAATCGGCATCTTCAGATGGCCGCCGTATCCGGTACCTTCAATATGATCCACCCCGATCGGGGGAAACGGCAGGATGACATTCGCCGGTTTCGCCATTTGGCAGCGATGTGCCAATCAATGGGGACGACCGTCATTACCCTGTGCACAGGCACGAGAGATCCAATCGACATGTGGAGAAGGCACATGGACAACGATTCGCCGGAAGCATGGGATGATCTGCTAAGCACCATGCAGGTATTGGTGAATATAGCAGAAGAATTCGGGCTTGAGCTGGCCGTTGAACCGGAGCCGGCCAATGTGATCAGCGATGCCGTCAAAGCCAGACAGCTGCTGGACACGATGCGTACTCCACGGTTGAAGGTGGTACTGGACGCAGCGAATTTGTTCAATCCGAACGACGGAAAGGCTTTGACAGAGGTGGTAGATCAAGCGCTGTCACTGCTCGGTGAACATGTTATTATCGCTCATGCCAAGGATTATTCGACAGTAGATGGATTCCGGTACAGGGCTGCCGGAACCGGAGAACTGGACTATGAAGCATACATTCAGCTTCTGCGCGCTTATCGTTTTGACGGACCGCTGATTCTTCACGGCTTGCATGAAAGCCAGGTGACGCAAAGCGTCTCTTATCTGAAGTCTCTTATAAATGCCACGTGA	MRLGIFSKTFERPTLEENLDAVIAAGLEVIQFNLSCAALPSLPEAVDLGTAAHIQAACENRHLQMAAVSGTFNMIHPDRGKRQDDIRRFRHLAAMCQSMGTTVITLCTGTRDPIDMWRRHMDNDSPEAWDDLLSTMQVLVNIAEEFGLELAVEPEPANVISDAVKARQLLDTMRTPRLKVVLDAANLFNPNDGKALTEVVDQALSLLGEHVIIAHAKDYSTVDGFRYRAAGTGELDYEAYIQLLRAYRFDGPLILHGLHESQVTQSVSYLKSLINAT				NA	NA	NA	NA	NA
AK002_03628	1074	iolG_14	COG0673	Myo-inositol 2-dehydrogenase	ATGGCCGAGAATAGAAACACATTGAATGTGGCGGTGCTGGGCTGCGGCCCCATATCGCAGTACGGACACTTCGAAGCTTGCCGGAGGGCGCGCAATGCACGCCTTTATGCGATATGCGACGTCGCGGAGGATTTGCTGAACCGCATGGCCGAAATCCATCAGCCGGTACGAACCTACAAGGATTATGACAAGATGCTGGCAGATCCCGAGGTGGAAGCTGTCATCATTGGCATCGCGGATCAATTTCACGTGAAAGCCGCACTTAAAGCCATCGAAGCAGGAAAACATGTTCTCGTGGAGAAGCCGCTTGGCGTCACCGTAGAAGAGTGTGAGGAATTACAGCGGAGAGCAAGGGATTCCGGTTGTGTTGTCCAAATCGGAAACATGAAACGCTTTGATCCCGGCATCGCTTATGCCAAACGGTTTATTGAGCAAGAGATGGGGGAGATGCTGGCTCTGAAAGCATGGTACTGCGATTCCACCTACCGGTATACGGTCACCGAAAACGTGCAGCCGCTGGTGCGGCTTAGTCCGAATGCCCTGAGGCCGGAAGGTAATCCGAAGCTCGATAAGCTGCGTTATTACATGCTGACGCATGGCAGCCATCTGGTGGATACGGCCCGCTTTTTAGGGGGGGACCTGGTGAGCGTGACGGCATGGAATACGCAGAAGTTCGGCGCATATAACTGGTTCGTCACCGTTCAGTTTGCATCGGGCGCTGTAGGGCATCTGGATCTTACGGTCGCCGTCCGGATGGACTGGCATGAAGGCTTTCAAATTTACGGTGAACACGGAAGCGTTGTTGGCAAGACCTACAATCCGTGGCTCTTCAAGTCAAGCGACGTCGAGGTGTTCTCCTCGCGCGACGGTTGTTATCACAGGCCGCTAGGCGAAGATGCGCATTTCTTCAAGCTGCAGGTGGAAGGCTTCGCGGATACGATTCTGGAGCAGGCACCCATGCGAGGAGCCGATCTGGATGACGGAGTAGCAGCCATGCGCGCGATGGCGGCGATTGCCAGATCCGTTGAGAGCGGCAGGACGGTAAAGCTGGCTGAAGTATCGGGAGGCGTATGA	MAENRNTLNVAVLGCGPISQYGHFEACRRARNARLYAICDVAEDLLNRMAEIHQPVRTYKDYDKMLADPEVEAVIIGIADQFHVKAALKAIEAGKHVLVEKPLGVTVEECEELQRRARDSGCVVQIGNMKRFDPGIAYAKRFIEQEMGEMLALKAWYCDSTYRYTVTENVQPLVRLSPNALRPEGNPKLDKLRYYMLTHGSHLVDTARFLGGDLVSVTAWNTQKFGAYNWFVTVQFASGAVGHLDLTVAVRMDWHEGFQIYGEHGSVVGKTYNPWLFKSSDVEVFSSRDGCYHRPLGEDAHFFKLQVEGFADTILEQAPMRGADLDDGVAAMRAMAAIARSVESGRTVKLAEVSGGV				NA	NA	NA	NA	NA
AK002_03629	1020	mglC	COG4211	Galactoside transport system permease protein MglC	ATGAATTCGCAAGCCATCGTTAAGGTTAAGGATTATTTGGCGCAGCGCGCCATATTCGTAGTATTGATACTGCTCGTCATCGGGATTGCCGTCGCAGATCCCAACTTTCTGGCCTTTTCCACATTGCGGGATATTCTGCAGCAATCCTCGACCAGATTGATCATCGCGCTGGGAGCGGCATTCATTCTGATCACCGGCGGGGTAGACCTTTCCGCAGGTCGCGTCGTAGGCTTAACCGCGGTCGTATCGGCTTCGATGCTGCAAACGGAGGTTTATGCGAACCGATTCTTCCCGGATTTGCCCCAGGTATCGGTTCTATTGCCGATCCTGATCGGCATCATAGCGGGGCTTATCGTCGGTCTAATCAATGGTTTCATCGTAGCCAAGCTGCATGTGCCGCCGTTCATTGCGACGCTCGGTACGATGGTCGGGATATACGGCGTCAATTCCATCTATTTTGATATGGAGCCGAACCAGTCCCAGCCGATCGGCGGCTTACGATCGGATTTTACCGTGTGGGGCAGCGGCTACATCGACTTCGGCGGCGGTTACTCACTCCCATACATCGTCATCATCGCTATCTTTGTTGCGTTCATCTGCTGGGTCATCTTCAACAAGACCCGGCTCGGCAAAAACATGTATGCCATTGGCGGCAACGTGCAAGCCGCGCATGTATCGGGGATCAATGTCGCTCGCAATCTCATCGCGATCTACGCCATTTCCGGTGCACTGTACGGCATCGCCGGCGTGCTGGAGGCTGCAAGAACCGGTGGTGCGACCAACAACTATGGCAACATGTATGAACTGGATGCGATAGCGGCATGCGTGGTCGGGGGCGTATCCACGGCTGGCGGCATCGGCACGGTGCCTGGCGTGATGGCCGGGGTTCTGATCTTCGGCGTTATCAATTACGGTTTAACCTTTATCGGCGTCAGCCCTTATTGGCAATTGATCATCAAAGGGCTTATTATCGTAGCAGCGGTAGCATTTGACATTCGCAAATACATGGCAAAAAAATAA	MNSQAIVKVKDYLAQRAIFVVLILLVIGIAVADPNFLAFSTLRDILQQSSTRLIIALGAAFILITGGVDLSAGRVVGLTAVVSASMLQTEVYANRFFPDLPQVSVLLPILIGIIAGLIVGLINGFIVAKLHVPPFIATLGTMVGIYGVNSIYFDMEPNQSQPIGGLRSDFTVWGSGYIDFGGGYSLPYIVIIAIFVAFICWVIFNKTRLGKNMYAIGGNVQAAHVSGINVARNLIAIYAISGALYGIAGVLEAARTGGATNNYGNMYELDAIAACVVGGVSTAGGIGTVPGVMAGVLIFGVINYGLTFIGVSPYWQLIIKGLIIVAAVAFDIRKYMAKK	PGPT0016640_88	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_METHYL-GALACTOSIDE_TRANSPORT,PGPT0016640-mglC-K10541	NA	NA
AK002_03630	1557	mglA_2	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	GTGGCGGAATCATATGTGCTGGAGATGCGGAATGTATCGAAGGCGTTTCCAGGCGTTCAGGCATTAAGCGACGTAACGTTCAAGGTAAGACCCGGAACCGTGCATGCGCTCATGGGCGAGAATGGGGCCGGCAAATCAACGCTGATGAAATGTTTATTCGGCATCTACAAGCCTGATGAAGGCGACATTTACTTAAACGGCGACAAGGTCGCCATCAACAGCTCCAAGGATGCATTAAATCACGGAATATCCATGATTCATCAGGAGCTTCATCCCGTGCCGCACCGCAATGTGATGGAGAATATATGGCTGGGGAGATTTCCGATGACGGGCTTCTGGCCCTTGAAATTCGTGAACGAGAAACAGATGGCAGCGGACACGCTTCGGCTGTTCCGCGAGCTTGATATCGATATTGATCCTAGGGCAAGAACAGGAGCGCTTTCGGTGTCCAAGATCCAATCGCTTGAGATTGTCAAAGCGGTGTCCTATCACTCCAAAGTGATCGTAATGGACGAACCGACCTCATCCCTGACCGGGAACGAGGTGGAGCATCTGTTCAGCATTATGAACAGGCTGCGGTCGCAGGGTGTGTCCATCGTCTACATCTCGCACAAAATGGAAGAAATTCTGCGCATATCCGATGATGTCACGATCATGAGGGACGGCAAGTACGTGGGAACCTGGCAGGCAGGAGAATTGACGACCGATTTGATCATTACCCGTATGGTGGGACGGGATTTGACGGAGCGCTATCCTGAACGGACGAACATGCCGGGCGAAACCCGGATGCAGGTCCGGCAATTAAGCTCCTCTAATCCGAAATCGTTTCAGAATGTATCCTTCGAGCTGAGAAAGGGCGAGATTCTGGGCATTGGCGGCCTTGTCGGCGCTCAGCGTACGGAATTGGTTGAGGCTCTCTTCGGGCTTCGTCCGGTGGCCTCCGGAACCATATCGATTAACGGGAAACCAGTGAAGATCAAGTCGCCTTCCGATGCGAAGAAAAACAACATGGCACTGCTGACGGAGGAGCGTAGAGTCACCGGCATATTCCCGGTACTCTCGGTCTACGAGAATACGGTCATTGCCAATCTTCAAAGGTATCAGAATTGGGCGTTCCTGCTGAATGAACGCAGAGGCATCGAGGATGCGCGAACGAACGTGGAGAAGCTGAGAACCAAGACGCCGTCGGTCAATACCCAGATTCGAAATCTGTCGGGCGGGAACCAGCAGAAGGTGCTGCTGGCGAGATGGCTGCTTACGGAGCCCGAGATCCTGCTGCTGGATGAGCCGACCCGCGGGATCGATGTTGGCGCCAAGTTCGAGATTTATTCCATCATTACGCAGCTGGCGACGCAAGGGAAGAGCATCATTATGATTTCCTCCGAAATGCCCGAGCTGCTCGGAATGTCCGACCGGATCATGGTGATGAGCGAAGGGCGGATGACAGGAATTCTGGAAGGGCAGGAAGCAAGCGAAGAGGAAATCATGCGGCTGGCCGCACAGCAGCGGTCGGCCGATCCGGGAGGGGAAGTCGATGAATTCGCAAGCCATCGTTAA	MAESYVLEMRNVSKAFPGVQALSDVTFKVRPGTVHALMGENGAGKSTLMKCLFGIYKPDEGDIYLNGDKVAINSSKDALNHGISMIHQELHPVPHRNVMENIWLGRFPMTGFWPLKFVNEKQMAADTLRLFRELDIDIDPRARTGALSVSKIQSLEIVKAVSYHSKVIVMDEPTSSLTGNEVEHLFSIMNRLRSQGVSIVYISHKMEEILRISDDVTIMRDGKYVGTWQAGELTTDLIITRMVGRDLTERYPERTNMPGETRMQVRQLSSSNPKSFQNVSFELRKGEILGIGGLVGAQRTELVEALFGLRPVASGTISINGKPVKIKSPSDAKKNNMALLTEERRVTGIFPVLSVYENTVIANLQRYQNWAFLLNERRGIEDARTNVEKLRTKTPSVNTQIRNLSGGNQQKVLLARWLLTEPEILLLDEPTRGIDVGAKFEIYSIITQLATQGKSIIMISSEMPELLGMSDRIMVMSEGRMTGILEGQEASEEEIMRLAAQQRSADPGGEVDEFASHR	PGPT0016645_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_METHYL-GALACTOSIDE_TRANSPORT,PGPT0016645-mglA-K10542	NA	NA
AK002_03631	1053	mglB	COG1879	D-galactose-binding periplasmic protein	GTGAAGAAAAAATGGCTGTTTGTCCTAATGGCAGGCATGATGCTCGCCACTGCGGCATGCAACAACGGCGGGAGCAGTTCAACCGGCAGCGATAGCACGGGCGGCGACGTGGCAGGCGGCAGCACGCCTCAAGTCGGGGTGGCGATTTACAAGTTCGACGATACCTTTATGACAGGCGTTCGGAATGCGATGTCCGATGCAGCGAATGGCGTAGCCAAACTGGATATCGTGGATAGTCAAAATGCGCAGCCGACCCAGAATGAGAAAATCGATCTGTTTATCTCGAAAAAATACAGTTCCATGATTATCAACCCCGTAGATCGCACGGCAGCGGGCGTCATTATCGACAAGGCGAAAACCGCCAATACGCCGGTGGTTTTCCTGAACCGGGAGCCGATCGCGGAAGACATGAACAAATGGGATAAGGTTTATTACGTAGGGGCGAAGGCGGAGGAATCCGGCACGATCTCCGGCCAGCTGATCGTAGATTATTGGAAAGCGAATCCGAAGGCAGACAAGAACGGGGACGGCAAGCTGCAGTATGTGCTGCTGCAGGGGGAGCCGGGCCATCAGGATGCTGAGCTGCGGACCAAATTCTCCGTTCAGGCGATTCAAGACGCCGGCATTGAAGTGGAAGCGCTTGCGGTGGATACCGCCATGTGGGACCGCGTGAAAGGACAAGAGAAGATGCAAACCTTCCTCGCGTCCCATGGCGACAAGATTGAAGCGGTGCTGGCCAACAATGACGATATGGCGCTCGGAGCGATTGAGGCATTGAAAGCGGCAGGGTATTTTAGCGGCGACAAGTACATGCCGGTCGTGGGCGTCGATGCGACGGCTCCCGCCGTCCAGGCGCTGGAAGATGGCACTCTTCTCGGAACCGTGCTTAACGACGCCAAGAGCCAGGGCAAAGCTTCCGTTGCCATTGCGGCCGCGCTCTCCAAAGGGGAAACGCCGAACAAGGAGAATACCGGATTTGATATTACCGACGGTAAATACGTGTGGATCGCCTACAAAAAAATAACGAAGGACAATATCGCCGACGCGAAATAA	MKKKWLFVLMAGMMLATAACNNGGSSSTGSDSTGGDVAGGSTPQVGVAIYKFDDTFMTGVRNAMSDAANGVAKLDIVDSQNAQPTQNEKIDLFISKKYSSMIINPVDRTAAGVIIDKAKTANTPVVFLNREPIAEDMNKWDKVYYVGAKAEESGTISGQLIVDYWKANPKADKNGDGKLQYVLLQGEPGHQDAELRTKFSVQAIQDAGIEVEALAVDTAMWDRVKGQEKMQTFLASHGDKIEAVLANNDDMALGAIEALKAAGYFSGDKYMPVVGVDATAPAVQALEDGTLLGTVLNDAKSQGKASVAIAAALSKGETPNKENTGFDITDGKYVWIAYKKITKDNIADAK	PGPT0015745_180	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_METHYL-GALACTOSIDE_TRANSPORT,PGPT0015745-mglB-K10540	NA	NA
AK002_03632	999			hypothetical protein	ATGATTAAAACTTTTCGGCCGCTGCGGTTACCGATTGGACCTAGGGGCTGTTTCGCTGCACTTGTCGCAGTCCTGATCCTTTTAACATCGTGTTCATCCGATACGGACCCGGATGAGGAGCCCGAGCTTCAACATATTGCCCTTGTGGCCCCCGTACACGCCGAAGAGCAGGGGGATGCGATCCGTTTAGGCGCCGAGGCGGCCGCCAAGGAATACGGATTGGCGCTCGATTATGTTTTCCTGGAGCCTAGCGACGATGAGGATGAGCAGTTGCAGGCCGCTTTGAAGATGTTGGAGAAGGGTGTCTCCGCGATCTTGATCGACCCGGCATCGGAGGCAGTGCTGCAGGAATTAGGCGATAAGGCAGCTGCAGCGGGTACCCCCGTGATTGCATTGAATGATGAACGAATGACCACAGGCATCTTATCCGCGATCGCGATCAATAATGAAGCTGCCGGACGCAAGGCGGGCGAGCAGCTGGCCGACTTGCTTGAAGGTCGAGGTACAGTAGCCATCCTGCGTTCCGACAGGGAGGACCCCGACTTGATCGCCCGCGAAGAAGGAGCCAAACAGGCATGGTCAGATATCGGCGGAATTGAAATAGCGGGCGGCGCGGCTTGCGGCAAACGCGAGGATGCATGCTGGCAGGCCGCCAAACAGCTGCTGGATCAGGGCGCCGTCGACGGAATTCTGGCACTCGATATTCAGGCTTCCTTGGGAGCGGCTAAAGAAGTCGCAAGGCGGAAGGTCGAAGGGGAGATCAAGATTGTCACCTTCGGCAGCGATCTGGAACAGCTTCAGCTTCTTCAGGATGGCGTCCTTCATAAACTCGTGGTACAGAACGGCTTCAGCACGGGCTACTTGGGCGTAGAGCAGGCTGTGAAGGTAATGGACGGTTCGAGATATGATAAGCCGATCGTGCTTGAGACCAAGGTGATTGATGCCGACAATATGTTCTGGATGGATAATCAGAAGGTGCTGTTTCCATTTGTGAAGTAA	MIKTFRPLRLPIGPRGCFAALVAVLILLTSCSSDTDPDEEPELQHIALVAPVHAEEQGDAIRLGAEAAAKEYGLALDYVFLEPSDDEDEQLQAALKMLEKGVSAILIDPASEAVLQELGDKAAAAGTPVIALNDERMTTGILSAIAINNEAAGRKAGEQLADLLEGRGTVAILRSDREDPDLIAREEGAKQAWSDIGGIEIAGGAACGKREDACWQAAKQLLDQGAVDGILALDIQASLGAAKEVARRKVEGEIKIVTFGSDLEQLQLLQDGVLHKLVVQNGFSTGYLGVEQAVKVMDGSRYDKPIVLETKVIDADNMFWMDNQKVLFPFVK	PGPT0015740_2787	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
AK002_03633	1833			hypothetical protein	GTGAAAATCACGTATACGAAGCGATACTCGATTCTACCGTTCGTACAACGATGGGTTAAGCGATTCCGAACGCACAGCATTCAATCCATCATCATGTGGTCCTTCTCGGCGTTCATTCTGCTCATTGTGATCGTGGTAGCCGTACTGCTCTTCAATAAATTCTCGCGATCGGCAGAGCAAAGCGTATTCCTGAATGCCCAGCAAATCGTGGACCAGGTTAGCTATAATCTCGAGGATTACGTGGACGGGATGGCGCAGCTGTATCGGGCGATCGAGGAAAATATGCTGGCAGACGGGCAGTGGGACGATGAGCAGGTGACAAAACAGCTCGATACGATCATGCGAAGCCGAGATGACATCGTCTCTATCGCTTTGTTTAATGATCAGGGCGACCTGCTGCGGAACCATCCGGCCATTCCGGTCAAGTCCAGCGCCAAGGTGACGGAACAGAGCTGGTTTCACTCGGCCATGAGAGTCTCCGACCATCTGAGCTTCTCGCTGCCCCATGTTCAGAATTTATATGACCACACGTTTGAATGGGTTGTCACGATGAGCAAAGGCATTACGGTCGTTCATGACGGGGAGCCGATGTACGTCATTCTGCTGGTGGATATCAACTTCAAGAAGATCGACGAGCTGAGCAGCCGCATCAGTCTAGGGAAGCGCGGGTATGCGTACATCATCGACGAAGGAGCGGGAAATATCGTGTACCATCCGCAGCAGCAATTAATCTACATGGGGCTTCGGAATGAGAGCGTTGAGCGTGCGCTGACCTCCTCGGAGAGCTACATCGATGAATCGGATGGGGTCAAGCGGCTCAATACGGTCAAATCGGTCGTCAACATTGGCTGGAAAATCGTTGGCGTATCCTATTTGGATGAGATCATGACCACAAGAGAAGAGGTCAACCGTTATTTGGTCCGGGTGGTTGCCATTGTCTTGGTGCTGGCCATTGCGGTATCCCTGATTCTTTCGGCCATGCTCACCCGGCCCATTCGCCGCATGGGCAGAACGATGAAAGCCGTGGAACGTGGCGATTTCGACGTGGAGCTCCCGTTGCAGGGGCCGCTTGAAGTAGTGCAGCTGTCCAGCCGTTTCAACCTGATGCTGAATAAGATCAGGCAGCTCATGAAACAGATTGTGAAGGAGCAGGAATCGAAGCGTAAATATGAGCTGGAAGCCTTGCAGGCCCAGATCAACCCTCATTTTTTGTACAACACCCTGAATTCGGTTGTTCGCATGGCAGGAATGAGCAAGAAGGAGGAGGTCATTACGATGATTACTTCCTTGTCGAAGCTGTTTCGTTTGAGCTTGAGCAAAGGGAAGACATCGATAAGCGTCCGGGAAGAGCTGGAGCACGCACGGCATTATTTGACCATACAACAGATGAGATATAAACAGAAATTCGATTTTGTAATCGAAGCGGACGAAGCCGCGCTATCCTGTTACACCCTCAAGCTGGTGCTTCAGCCTTTAATCGAGAATGCCATCGTGCACGGCATCGAGTATATGGTGGATCAGGGGCATATTCGCATAGGGGCAGCCGTAAAAGGCGAATTGTTGGAAATGACGGTTACGGATAACGGGGTTGGGATGACACCCCAGATGGTTGAAGGGATCTTGGACGCTAAAGAGACGCCTCATAACCCGGCTCCATTTATCAATACGGCCGGTTCAGGCGTGGCCGTTCGAAATGTTCATGACCGAATTCGTCTGTATTACGGCAAACGGTACGGGCTGGAATTCGAGAGCGAGCAGGAGGCGGGCACTACCGTTCGCATACGGATTCCGGTCATTCACGATATGGACGAGGAGGAACGCGAGCATGATTAA	MKITYTKRYSILPFVQRWVKRFRTHSIQSIIMWSFSAFILLIVIVVAVLLFNKFSRSAEQSVFLNAQQIVDQVSYNLEDYVDGMAQLYRAIEENMLADGQWDDEQVTKQLDTIMRSRDDIVSIALFNDQGDLLRNHPAIPVKSSAKVTEQSWFHSAMRVSDHLSFSLPHVQNLYDHTFEWVVTMSKGITVVHDGEPMYVILLVDINFKKIDELSSRISLGKRGYAYIIDEGAGNIVYHPQQQLIYMGLRNESVERALTSSESYIDESDGVKRLNTVKSVVNIGWKIVGVSYLDEIMTTREEVNRYLVRVVAIVLVLAIAVSLILSAMLTRPIRRMGRTMKAVERGDFDVELPLQGPLEVVQLSSRFNLMLNKIRQLMKQIVKEQESKRKYELEALQAQINPHFLYNTLNSVVRMAGMSKKEEVITMITSLSKLFRLSLSKGKTSISVREELEHARHYLTIQQMRYKQKFDFVIEADEAALSCYTLKLVLQPLIENAIVHGIEYMVDQGHIRIGAAVKGELLEMTVTDNGVGMTPQMVEGILDAKETPHNPAPFINTAGSGVAVRNVHDRIRLYYGKRYGLEFESEQEAGTTVRIRIPVIHDMDEEEREHD				NA	NA	NA	NA	NA
AK002_03634	1635	rhaR_44		HTH-type transcriptional activator RhaR	TTGTATAAAGTGCTGTTAGTGGATGATGAAGCCGATGTGAGAGAAGGCCTCGTTCAGGAAATCCAATGGGAAGCCTGCGGATTCGAGATCAAGGGGACGGCGGAGAACGGAAGAGAGGCCGTGGAGGCTGCGGAGCGGTTGGAGCCGGATGTCGTTATTACCGATATCAGTATGCCCTTTCAGGATGGACTGCAGCTGGCCTCATGGCTAAGGGAGCATCAGCCGCTGTGCAAAATCGTGATTTTGACCGGCTATGACGAATTTGATTACGCCCGCCAAGCGATTACGCTCAGCGTGGATGAGTATTTGCTCAAGCCGTTCTCTGCCGAAAGCTTCATGGAGTTATTAGGCAAGATCAAGGACAAAATCGATATGGAGGTGGCGGAGCGTGAGGACGTGCGCCAATTAAAGGAGCATTACCGGACAAGCCTGCCTTTGCTACGGGAATCGTTCCTGGTTTCGCTGTTAACCCGAAAACTGCCCCGCTCCATCATTGAGGAGAAAACTCGGAATTACGGCCTTCCGCTGAACGGCGCCTGTTATCTCGCCGCGGTGTTGGCTTTATATCCGGCGGCTGAGCATAAGGAGAGTGCTCCATCAAGCTCCCTGCGGCATTCCGGCGATATGGACTTGATGCTGCACGCTATGCTGAACATTGCGAAAGAGCTGATGGATCCCCTTTCTTTTGGAAGCGCATTCATATACCAGGATAGCATCGTGTTCTTGATTACGAATGACGGCTGCGAGGACGAGTCGTGGTTTGGCGACCTGCAGGTGGCACTGGACCGTTTGCTCAAAAGCATTCTTCACTATCTGAAGCTGCCGGTTACGATCGGCGTGGGTTCCAGGGTCCGGACTCTGTCCGATCTTAAGCACTCCTACCAGGATGCGCTGCTGGCGCTGGACTACCGGCTGATTCTCGGTGCAGAGAAAGTCATCTTCATCGATGACGTGGAGAGTCCGAGGCAGGAAGGGATCCGTCTGGACGAATTGCAGGAGCAAGCGCTGATCCGCAATCTTAAGCTCGGAACCGCGGAGGAATTAAGTGAATCGATTACGCACATATTCGATGAGCTGATCGGAGCATCCTGCACGATTCAAGAGGTTCAGATCTATCTCCTGGAAGTCGTAACGGCCATACTTCGAACGGCTAAAGAATCCGGGATCGAGCTTGAGGAGATGTTTGGAGCGGGGTATCAGCTGCATGCCGAGATCTTCAAGTTTTCCGGACTACAGGAGGCTAAAGCTTGGCTTCAGGATGTCAGTTTGGCCATCCGCAAGCAAATCTCCAACTCCAGGCAGCATGCCTATAAAGACATCGTGGAGAAAGCGCTGGAGTACACGCGGGAGCATTACGACGACCCGGATATATCGCTGCAGAAGCTGTGCATGCACCTGCATATCAGCACAGGCTATTTTAGCGGCGTATTCAAAAAAGAGCTCAAAATGACCTATGTGCAGTACTTAATGCAGCTGCGGATGGAAACGGCCAAGGAGCTTTTACGTTCCACCGACCTGAAGGCTTTCGAAATTGCGGAGCGCGTCGGGTTTGCCGATCCGAATTATTTCAGCTTCTGCTTCAAGAAGCAGGTCGGCGTTTCGCCTAAGGAATATCGGGCACAAGCGAGGGGGTAG	MYKVLLVDDEADVREGLVQEIQWEACGFEIKGTAENGREAVEAAERLEPDVVITDISMPFQDGLQLASWLREHQPLCKIVILTGYDEFDYARQAITLSVDEYLLKPFSAESFMELLGKIKDKIDMEVAEREDVRQLKEHYRTSLPLLRESFLVSLLTRKLPRSIIEEKTRNYGLPLNGACYLAAVLALYPAAEHKESAPSSSLRHSGDMDLMLHAMLNIAKELMDPLSFGSAFIYQDSIVFLITNDGCEDESWFGDLQVALDRLLKSILHYLKLPVTIGVGSRVRTLSDLKHSYQDALLALDYRLILGAEKVIFIDDVESPRQEGIRLDELQEQALIRNLKLGTAEELSESITHIFDELIGASCTIQEVQIYLLEVVTAILRTAKESGIELEEMFGAGYQLHAEIFKFSGLQEAKAWLQDVSLAIRKQISNSRQHAYKDIVEKALEYTREHYDDPDISLQKLCMHLHISTGYFSGVFKKELKMTYVQYLMQLRMETAKELLRSTDLKAFEIAERVGFADPNYFSFCFKKQVGVSPKEYRAQARG				NA	NA	NA	NA	NA
AK002_03635	1359	mepA_2		Multidrug export protein MepA	ATGAGAGACATGACGCAAGGAAGTCCGATCAAGCTGATTATCATGTTTACCATCCCGCTTTTGATCGGTAATATTTTTCAACAATTTTACAACATGGCAGACACCCTTATCGTGGGACGTACCATTGGCGTGAACGCACTTGCAGCCGTTGGCTCGACAGGCAGCATTTTGTTTTTTGTCATCGGCTTTGCCCAAGGCTTGACGGCTGGTTTGTCTATCATAACCGCACAGCGTTTTGGAGCTAAGGATATCGCAGGCGTCCGCAAAAGCGTGGGAACGAGCGTATGGATCAGTCTGGTGTTCACGGTATTCCTCACCATCGTGAGCGTTATATTTACGAGGCCCGTCCTCGTCATGATGAACACCCCTGCCGAGATTTTGGATGATGCGTATTCGTATTTGATCGTCATTAACTGGGGCGTCGGCGCTGCCGTTCTGTTCAATTTGCTGGCTAACCTGCTCCGTGCTCTCGGCGACAGCCGGACCCCGCTTCTCTTCCTGGTCGTTGCAAGCATTCTGAACATCGTGCTCGACCTCTTATTCATTCTTGCATTTAAGATGGGAGTAGCCGGAGCCGGACTTGCCACGGTTATATCGCAGCTGTTCTCTTGCCTGCTCTGTCTGATCTACATTCATAAGAAGGTCCCGCTCCTTCAATTCAAGAATGCCGACTGGTCCATCGATTGGAAATTTATACGCCAGCATATGTGGGTAGGTTTTCCGATGGGCTTCCAAGCCTCCATTATTGCAATCGGAGCCATCATTCTTCAGATCACGCTAAACGGTCTCGGGGCAACAGCCGTTGCGGCTTATACCGCGGCTCAGAAGATTGATATGCTCGCGACGCAGCCGATGAGTTCCTTCGGGATTACAATGGCGACTTTTGCTGCTCAGAACTTCGGAGCGAATCGCATAGATCGGATCAAGCTGGGGGTTAAGCAGTGTATTTGGCTCTCAGGATCATTCAGCATCGCCGTGGGCCTGCTGGTTATATTCGCGGGTCCTGCCGCCGTCAGCCTTTTTGTGGGTCAAGGCCAAGAGGAATTGCTGTCGCTCAGCAGGCTGTATTTCTTATCGAACGGCAGCACCTATCTGCTTCTGTCGCTGCTCTTCATCTACCGCTTCACGCTTCAGGGGCTTGGTCAGAGCTTAATTCCCACTGTGGCGGGCATCATGGAGCTGATCATGCGGGTACTGGCTGCTATCTTCCTGACCGCGCAGATCGGCTTCCTCGGTGCAAGCCTGGCAAATCCGCTGGCTTGGCTGGGCGCCGTCATCCCGCTCGGCATCGCTTACTATCTGAGCATCAAGAGGTTGAGCACGCCGGTAAAACCCGTCTCCGTACCCGTTCAGGCGTAA	MRDMTQGSPIKLIIMFTIPLLIGNIFQQFYNMADTLIVGRTIGVNALAAVGSTGSILFFVIGFAQGLTAGLSIITAQRFGAKDIAGVRKSVGTSVWISLVFTVFLTIVSVIFTRPVLVMMNTPAEILDDAYSYLIVINWGVGAAVLFNLLANLLRALGDSRTPLLFLVVASILNIVLDLLFILAFKMGVAGAGLATVISQLFSCLLCLIYIHKKVPLLQFKNADWSIDWKFIRQHMWVGFPMGFQASIIAIGAIILQITLNGLGATAVAAYTAAQKIDMLATQPMSSFGITMATFAAQNFGANRIDRIKLGVKQCIWLSGSFSIAVGLLVIFAGPAAVSLFVGQGQEELLSLSRLYFLSNGSTYLLLSLLFIYRFTLQGLGQSLIPTVAGIMELIMRVLAAIFLTAQIGFLGASLANPLAWLGAVIPLGIAYYLSIKRLSTPVKPVSVPVQA				NA	NA	NA	NA	NA
AK002_03636	1161	purT	COG0027	Formate-dependent phosphoribosylglycinamide formyltransferase	ATGTTCAAAACGAAAAAAATATTGCTGCTGGGATCCGGAGAACTAGGGAAAGAAGTCGTAATTGAAGCACAACGATTGGGTGTCCAAACCGTAGCCGTCGATCGTTATGCCGATGCTCCTGCCATGCACGTTGCCGATCACAGCCATGTGATCGATATGCTGGACGGAGAGAAGCTGCGCGCTATTATTGAGTTGGAAAAGCCGGACCTGATCGTTCCGGAGATTGAAGCGCTGGCTACTTCGGAGCTGGTGAAGCTGGAGGATGAGGGGTATCGGGTGATTCCTACCGCCAGAGCCGCAAAGCTTACGATGGACCGTGAAGGGATCCGCCGGTTGGCATCAGAGGAGTTGGGACTGCCGACTGCGGACTATCGATTTGCCGATACCTATGAGGAATTCAAGCAGGCTGTCCTGGACATGGGTTTTCCGTGCGTGATCAAACCGCTGATGAGCTCCTCCGGCAAAGGTCAGAGCGTGTGCCGTTCTGAAGGGGATATCGAGTCCTGCTGGAACATCGCCATGGAAGGCGGCCGCGTGCAGAACGGAAGAGTGATCATTGAGGAATTCATTTCATTCCAGTCGGAAATCACGCTTCTGACCGTCCGCTCCGTAAATGGAACAAGCTTCTGTGCGCCGATCGGGCATATTCAGGAAAGCGGAGATTATATCGAATCGTGGCAGCCGCACGACATGTCTGAAGCGCAAATCGTGGAGGCTAAATTTATTGCGCGGAAGATTACCGACGAGCTTGGCGGATACGGCTTGTTCGGCGTTGAATTATTTTTGGCCGAGGATAAGGTGTACTTCAGCGAGGTATCCCCGCGTCCGCATGATACTGGGCTGGTTACGCTGGTCACGCAAAATCTATCCGAATTTGCGCTTCATGTCCGTGCCATTCTCGGGTTTCCGATACCAGAGATCGAATTGATCACGCCGGGAGCCAGCCGCCCGCTGAAAGCCGGCCGAGAGCTGGAAGACTACACGATTACAGGCGCCGAGCAAGCGCTGGCCGTTCCGAATACGCAGCTTCGCATGTTCGGCAAACCGGTAACCAAGGCCGGAAGACGAGTAGCAGTCGCGCTGTCAAGCGCCGGCGATGTCGAAGAAGCGCGGTCACGCGCGAAGCTGGCATTGGATAAGCTTGCCGTCGAAGAGGCATAA	MFKTKKILLLGSGELGKEVVIEAQRLGVQTVAVDRYADAPAMHVADHSHVIDMLDGEKLRAIIELEKPDLIVPEIEALATSELVKLEDEGYRVIPTARAAKLTMDREGIRRLASEELGLPTADYRFADTYEEFKQAVLDMGFPCVIKPLMSSSGKGQSVCRSEGDIESCWNIAMEGGRVQNGRVIIEEFISFQSEITLLTVRSVNGTSFCAPIGHIQESGDYIESWQPHDMSEAQIVEAKFIARKITDELGGYGLFGVELFLAEDKVYFSEVSPRPHDTGLVTLVTQNLSEFALHVRAILGFPIPEIELITPGASRPLKAGRELEDYTITGAEQALAVPNTQLRMFGKPVTKAGRRVAVALSSAGDVEEARSRAKLALDKLAVEEA	PGPT0008100_1701	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008100-purT-K08289	NA	NA
AK002_03638	876	cmpR_3		HTH-type transcriptional activator CmpR	ATGGAACTGATCTATCTGCAAACCTTCAGGGAGGTTGCTGTTCGAAAGAGCTTTACTAAAGCTGCTGACGAATTGGGTTATGCACAATCCAGCGTTACCACCCAGATTCAGAAGCTGGAGAAGGAATACGGCGTCAAGCTGTTTGAACGGTATGGCAGAGGCCTGCGCCTGACGAAGTCAGGGGAGGAGCTGTTCAAGTATGCTATCCAAATGCTGGATCTGTTCCACCAGTCTAAGGAAAAGCTGACGAAACAAGGCGGGGGCGTCTTATCGATTGGAACGATCGATTCGCTTGCCGCATATTTTCTTCCATCCGTCCTTCATCGGCTAAGACAGGAGCATGAAGATCTTGCCATCCGCTTGCAAACGGATCGTGAAGATAGCATCGTCAGTAAGGTAAGAGAGGGTGAGTACGATCTCGGGCTTATTCTGGAGAACAAACCGGAAGACACTTCATTGAATTGGATCTCGATCCGGGAAGAGCCCCTCCATCTGATTGCCCATCCGGATCATCCGCTTCGCAGGTTGCCCGTCATCGAGCTGGAGCATCTGGCTAATTACGAATGGATTATGACCGAGGATACTTGCAATTACCGGATCATGTTGGAAAAAGTGCTGCGCGCCAGTGGAGCTCCCGTCCGTATTGGTTTGGAATTGGGCAACCCCGAGGCGATCAAAAGATATATCATGTCCGGTACCGGCATCTCACTATTGCCGAGAATGGTAGCAGAGGAGGAAATCAAGAGGGGAGAGCTGGCGATTCTTCCCTTTCAACACCCTGACATTCGACTGGACATCCAGATTGTCATTCATCCTAAGAAATGGCTGTCACACTCGCTTCAGGATATGATCGAAATGTTGAAATCTAAATCTTAA	MELIYLQTFREVAVRKSFTKAADELGYAQSSVTTQIQKLEKEYGVKLFERYGRGLRLTKSGEELFKYAIQMLDLFHQSKEKLTKQGGGVLSIGTIDSLAAYFLPSVLHRLRQEHEDLAIRLQTDREDSIVSKVREGEYDLGLILENKPEDTSLNWISIREEPLHLIAHPDHPLRRLPVIELEHLANYEWIMTEDTCNYRIMLEKVLRASGAPVRIGLELGNPEAIKRYIMSGTGISLLPRMVAEEEIKRGELAILPFQHPDIRLDIQIVIHPKKWLSHSLQDMIEMLKSKS				NA	NA	NA	NA	NA
AK002_03639	876	dapA_3	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGTTGAGTCCGCAAGATTTGAGAGGTATTTATGTTCCGGTGGTCACTCCCTTTTCATATGAATACGCATTGGATGTTCCGTCTTATCATCGTTATTTGGAGAATTTGTTATCCCATGACATTCAAGGATTGATCATCAACGGCACGACCGGAGAGGCGCCGACGGTAACTTGGGAAGAGGTCGTTCAGGTGATGGAGGAAACGCGAAAAGGTCTGGATGGGCGGCAATTGCCGGTCATTATTGGTACGGGTACCAACGATACGTTCTCCAGCATGAAGCGGACGGAATGGGCAGGACATATCGGGGCAGACGCGGTATTGGTGGTCACGCCGTATTACAGCCGCCCTTCGATTGAGGGCATTATACAACATTTCCGCAACGTCGCGGAGGTGGGGATACCGGTTATTTTGTACGAAGTTCCTTCGCGCACCGGAATTTCCTTACCGGTCGATGCCATTCGAAGAATCATGGAGATCCCCGGTGTCATCGGAATGAAGGACAGCACTGCGAGTACAGAGCTTATGAGAAGCTTGTCTCCATACGATACGAAGCCTGTTCTATGCGGAGACGATGTCCGCTTTCATGAGATGCTTTGTCATGGTGCATCGGGGGGCATTTTGGCGTCGGCCAATGTGAATACCGAGGCTTTTATTCGTGTCTATCAATTAGCTGTCCAGGGGGATTATTCTCGTTCCGAAAAGGAGTTTGAAGTGCTGCTTCCCGTTATTCATCAGTTGTTCGCAGAATCCAATCCCGCTCCGCTAAAATGGCTGCTTGCCAAGCAAGGCCTTATCTCATCCGACACCCTGCGCCTGCCGATGGGCCCCATTACGGATGAGCTCAAGCTATCTTTGGATCAAGCATTCAAAGGCTGA	MLSPQDLRGIYVPVVTPFSYEYALDVPSYHRYLENLLSHDIQGLIINGTTGEAPTVTWEEVVQVMEETRKGLDGRQLPVIIGTGTNDTFSSMKRTEWAGHIGADAVLVVTPYYSRPSIEGIIQHFRNVAEVGIPVILYEVPSRTGISLPVDAIRRIMEIPGVIGMKDSTASTELMRSLSPYDTKPVLCGDDVRFHEMLCHGASGGILASANVNTEAFIRVYQLAVQGDYSRSEKEFEVLLPVIHQLFAESNPAPLKWLLAKQGLISSDTLRLPMGPITDELKLSLDQAFKG	PGPT0002080_8572	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK002_03640	1443	kinA	COG0642	Sporulation kinase A	GTGCTGCCCTATTCAACCCCTAATCATGATTTTGCCTTTGAACAATCTGTAATCGGTATGGCTTTGGTATCGCTAGATGGAACGATTCTTAAGGTCAATTCGGCACTATGTGATCTGTTGGGTTACTCGCCGCAGGAGTTAACTGCCGGGGCGCCGCAAGAAGAAAACAGCCTCCGTGGGTTATTGAATCGAGTGATTCAGAACGCTAGGGCTGCCCAGGGCCATCAGCCATTCGTCCCCCCGGTTGAATATGCTTACCGTCATCCGTCTGATCGCGAGTTATACCTTAGTGCACGCTGCAGCGTTGATCACGATCCGGAGCAGGAGCCCAAGGGATACTTGGTACAATTCGAGGATCGAACGCTGCTGAGACAGCTCATGAAACAGCTGGAGCAGAAGGAACAGAAGCTGAACGAGAAGGAAAATTCGTTTCTGCAGCTGCTGGAAGAGCTCCCTCTCTCCGTACTCATAACTAAAAAAGGCATTGTTCACTATGTTAATTCTGCCGGAATCCGACTCGTCAATGCGATGCACTCCCGTGACGTGCTGGGCATTTCAACCGACGTGATCGTCGACGCATCATATCATCACGCATTGATGAAACGCAGGGCAACGTATGCCGAGAGCGGTGAAATCGGAAGCGTCGATTACCTGATACGCTGTCTGGACGGGCAGGAGAAGATGGTCACGGGATTCACGTTAATCATACAATATGAAGGCGAGAATGCGGCCGTCGGCATCTTCAAGGACATCACGGAGCAGCGGATGGAAGAGGACCGCGTGATGCAATCCGAGAAGCTGACGACCGCCGGCCAATTGGCCGCCGGCATCGCTCATGAAATTCGAAATCCATTGACATCGATTAATGGATTCGTGAAGCTATTGCGATCCGCGGAACGCAGCAACGAGCTTTATTTTGAAATCATCGAATCGGAGCTCAAACGCATCGAGCTCATCGTCAATGAGCTCTTGGTGCTCTCCAAACCGCAGGGCGCCCACGTGAGCGGACCCATCGACGTGTCGGCCATACTGGATCAGATCATTACGCTGATGAAGGTGCAAGCCGCTCTCAAGAATATAGAGATCATTCCCCATTATCCACTGGTTCCGATCTATGTACAGGGCGAAGTCAACCAGCTCAAGCAAGTGTTCATCAATCTGCTGAAAAACGCGATGGAAGCGATGAATCACGGCGGAAGCATCACCTTGGACATTGTGCACAGCGGGCCCGAGGTGCAAATTATCGTGCAGGATGAAGGAGTTGGGATGACACAGGATCAGATCCAATCACTGGGACAGCCCTTTTTTACAACGAAAGACACCGGCACGGGACTCGGTCTCATGATTACCAAGAATATTATTCATAATCACGGCGGTACGATGAACGTGGAGAGCACTCCTGATCATGGGACAACCTTTACGATCCATTTACCTGCTTTATAA	MLPYSTPNHDFAFEQSVIGMALVSLDGTILKVNSALCDLLGYSPQELTAGAPQEENSLRGLLNRVIQNARAAQGHQPFVPPVEYAYRHPSDRELYLSARCSVDHDPEQEPKGYLVQFEDRTLLRQLMKQLEQKEQKLNEKENSFLQLLEELPLSVLITKKGIVHYVNSAGIRLVNAMHSRDVLGISTDVIVDASYHHALMKRRATYAESGEIGSVDYLIRCLDGQEKMVTGFTLIIQYEGENAAVGIFKDITEQRMEEDRVMQSEKLTTAGQLAAGIAHEIRNPLTSINGFVKLLRSAERSNELYFEIIESELKRIELIVNELLVLSKPQGAHVSGPIDVSAILDQIITLMKVQAALKNIEIIPHYPLVPIYVQGEVNQLKQVFINLLKNAMEAMNHGGSITLDIVHSGPEVQIIVQDEGVGMTQDQIQSLGQPFFTTKDTGTGLGLMITKNIIHNHGGTMNVESTPDHGTTFTIHLPAL	PGPT0025280_236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025280-kinA-K02491	NA	NA
AK002_03641	456			hypothetical protein	ATGGACATTCAAGATTCAAACTTACATAAACAATTTGCAATAAACTGCTTCAATCAGGTCTGGGATATCTTGGAGAAGAAGCTGCGGACGCGGGAAGACGAAGAGAACATGATTCACATGTGTCATGCTTCCTTTTGGCATTGGAGCCGGGTGGCGGATCATACAGAGCGCAACCTGTCCATCGGGTATTGGCAGCTCTCCCGAGTATACGCGGTAACGGGTCAGGGCGATCAAGCACTGCATTACGCCAAGCGCTGCATCACGATCGGGTCATCGGCTAACCTCGAACCCTTCTACATCGGTTACGGATACGAAGCGGAAGCGCGGGCCTATCTGGTTCTGGGGAACAAGGAGCATGCATTGGCATCCAAGCAAAAAGCGGCAAGTTATCTCGACAAGGTAACGGATAAGGAAAGCCATCAGATGCTTGCCAACGATCTCGGAAGTCTGGACTAA	MDIQDSNLHKQFAINCFNQVWDILEKKLRTREDEENMIHMCHASFWHWSRVADHTERNLSIGYWQLSRVYAVTGQGDQALHYAKRCITIGSSANLEPFYIGYGYEAEARAYLVLGNKEHALASKQKAASYLDKVTDKESHQMLANDLGSLD				NA	NA	NA	NA	NA
AK002_03642	633			hypothetical protein	ATGACCCGATTGATGCAGCCGCGGAAAGCAGGAAGTAGAAGAAAGCGCGTATTGTTGAGAGTTGTGCTGGGACTGATAGCCATCATGCTGGTTTATTCCGTTAATGTGGGATACACGATTTGGAAATATGCAGGGCGAACGGTGAATATTCCCTCCGATGCAGCGATCGTGCTGGGTGCCGCAGTATGGGAGGGGAAACCTTCGCCTGTGTTTCAGGGGCGCATCGATCATGCGTTATGGCTGTATGATCAACAATACGTAGATAAGCTCATTTTTACAGGAGGACGCGGATCGGAAGATGAAGTGGCCGAATCGGAAGCTGCCAAACAATATGCCATCAAACACGGCGTTCCCAAGAGGGACATCTTGGTAGAGACGACTTCGGCGATCACCGAGCAAAATCTGTATTATGCCGACAAGATAGGTGATGCGGCAGGGCTCTCCTCGTATCTCATCGTGAGCGATCCGCTGCACATGAAGCGGGCGATGGTGATGGCTGAAGATATGGGTCTCGAAGCCAATCCTTCACCCGCGTCACGGAGCGCTTACCAAAGCGTAAGAAGCAAGCTCCCCTTTTTATGCAGAGAAGTCTTTTATTATATCGGTTATCATCTGACTAGACCCTTTCGATAA	MTRLMQPRKAGSRRKRVLLRVVLGLIAIMLVYSVNVGYTIWKYAGRTVNIPSDAAIVLGAAVWEGKPSPVFQGRIDHALWLYDQQYVDKLIFTGGRGSEDEVAESEAAKQYAIKHGVPKRDILVETTSAITEQNLYYADKIGDAAGLSSYLIVSDPLHMKRAMVMAEDMGLEANPSPASRSAYQSVRSKLPFLCREVFYYIGYHLTRPFR				NA	NA	NA	NA	NA
AK002_03643	2547			hypothetical protein	ATGACTGAACAGGATGCACTTAATCGAAAGTTACTGACGGAGGGCGATTATGTAACGGATGAACCGATCGACCTGACCAATTGCGAAAAAGAACCTATTCACATTCCAGGATATATTCAGCCCCATGGCGTACTGCTTGCCATTAATCCTATCGACGATTTCAGGATCGCGCAGTGCAGCCGAAATACGGAGCAGCTGCTCGGGATCAGCGTCGAGTCCCTGTTGGGACAGAGCCTTGAGGAGCTTATCGGAAAAACGCAATTTGAGCTTATGATTCGCCGAGATCTTCAAGCAATAGCGACACCGGACTTACAATATATCAATCTTACGATTTCGGTTGCCAATGAGCCGATTGAATTTATCGGAATTCTTCACGAAAGCGAAGGGCTTATTCTGCTGGAACTGGAGCCGGTTTCGGAAGATACCGTGCCCTTTACGGATGATTTTGAATGGATCCAGACGTTTTTCAGTCGGATGAAACGAACCGAGAATCGGGTTGAAGCAAGTCAAGTGGCTTGCGAGCTCGTGAAGGACATTCTGGGTTACGACCGTGTGATGCTGTATGAATTCGATGATCAATGGAACGGAAAAGTGATTGCCGAAGCCAAAGAGCAAGGGCTGGAATCCTTCCTGGGCCATCATTATCCGGCATCGGATATTCCTCGGCAAGCTCGTGAACTGTATTTGAGAAATTGGCTGCGTACGATTGTTGACGTGGGTTATACGCCGGTCGAGATTATCCCCACCGTGCAGCCTTTGACCGGAAAGCCGCTGAACCTCAGTTTATCCGTACTGCGCAGCGTGTCGCCGCTTCATATTGAGTACCTTCATAATATGGGGGTCGGCGCGACCACCACGATCTCCCTTATCCATGACAACCAGTTATGGGGATTAATCACCTGCCATCACTACAGCCGAAAATACGTATCTCACCGCACCCGCAACTTGTGCAATTTTCTGGGATCCTTTTTCTCCAACGAACTGTATCAACGTCAGCAGCTCGACGATTACCAAACCGAGCTCAGGCTTCGAATTTTATCCGCCCGTTTTACCGAAATCTTCATCGGCAACACCGATGTCTATCAGGTGCTTGAGCAGCTTGAGACCGAAGAGCAGGGCCTGCTGGATTTAATGAGCGCTACCGGTGCCGCCGTCTATTACCAGGACAATTTGATGCTGTACGGCACGACGCCCACCTCGAAGCAAGTCATGGAGCTGGCCGGCTGGTTATCCGCCCAAGCAGAGGATTATACGTACCACAGCTCGAAACTCAGCGCAGAGTATGAGCCTGCCAAAGCATTCAAGGATGTGGCTTCCGGCGTATTGTATCTCGCCCTGTCGCCAGGTCAACAAAACTATGTCATGTGGTTTCGGCCGGAGGTTGTTGAAATCGTGGATTGGGCTGGCGATCCGGCCAAAGCCGTTATACAAGAAGAGGATAAGATACGTTTATCCCCTCGAAAATCGTTCGAAAAATGGAGGCAGGTGGTGGAGGGCACTTCATACTCATGGAAGGCTCAGGAATTAAGCGTTCTCCCCCAATTGAAATCGATTGTCCGCAAGCAAACCGATTTTCAATTAAGGCAAGCCAAAGAACAGGCCATTCAGAATGCACGCATATTCAGGGAGAACGAGGAGCGGTATTTGCAGCTTATGGGCCACTCCCCCGTAGCCTTCTTGTCACTGACAACGACGGGAACCATCGTGTATTGCAATTCGCGGGCCGAGACGCTGTTCGGCGCAACGAGGCCCGAGGAACTGCTCCAGGTTGAAATATACACTTTAGCTAGCGATGATTCCCGCATGGGTCTTAAAGAGCAGATCAAACGGATGGATCAGAATCAAGCCCAACTCGTTTCCGGCAGCGGCTGGTTCGAAACGCTGGATGGAAAGGGAATCGAACTTGAATATATGCTGGCAGCCATCCATCAGGGACGCAAATCATCCATTATGGTCATTTTGAGAGAGGGCACACCGGATGGAGGCCCCGATCGCGTATATTCCGATGTATTGAACCAGCTTCAGAGCTACGTGACAACTGATCCGTTGACCGAACTGCCCAATCCGGCAACATTCGAAAAAGAACTGGCGACGGATTGGAAGGAATGCATTCAGAATCAGGTTTCTCTGGCCTTGTTGATGGTCGATATCGATGATTTCCGGGTGTATAACACGCTTCATGGTTTATACGGCGGGGATTTATGTTTGCAATGGATTGCCGACGCACTGAAAATCATAGGTGAATACTATGGAGCCGCCGTTTCGCGTTACGGCGGCGGAACCTTTATATTGAAGATCAAAGATACCGATCCCGACCGAACCTATGAATTGGCTGAGAAGATACGTCAAGGCGTCCTGGCGCTCAGCATCCCCAAAGACCGCACGGAGGAAGACGGGTTTATGACGGTAAGCGTAGGAGCGGCTTGCCTAACGCCTACCTCCATGCTGAGTCTTACCCATTTGACCGACGAAACGGAGAAAGCCATGCATATTGCCAAGAGCAAGGGGAAGAACAGAGTCACGCTATATGGATATGAAACGGATTGA	MTEQDALNRKLLTEGDYVTDEPIDLTNCEKEPIHIPGYIQPHGVLLAINPIDDFRIAQCSRNTEQLLGISVESLLGQSLEELIGKTQFELMIRRDLQAIATPDLQYINLTISVANEPIEFIGILHESEGLILLELEPVSEDTVPFTDDFEWIQTFFSRMKRTENRVEASQVACELVKDILGYDRVMLYEFDDQWNGKVIAEAKEQGLESFLGHHYPASDIPRQARELYLRNWLRTIVDVGYTPVEIIPTVQPLTGKPLNLSLSVLRSVSPLHIEYLHNMGVGATTTISLIHDNQLWGLITCHHYSRKYVSHRTRNLCNFLGSFFSNELYQRQQLDDYQTELRLRILSARFTEIFIGNTDVYQVLEQLETEEQGLLDLMSATGAAVYYQDNLMLYGTTPTSKQVMELAGWLSAQAEDYTYHSSKLSAEYEPAKAFKDVASGVLYLALSPGQQNYVMWFRPEVVEIVDWAGDPAKAVIQEEDKIRLSPRKSFEKWRQVVEGTSYSWKAQELSVLPQLKSIVRKQTDFQLRQAKEQAIQNARIFRENEERYLQLMGHSPVAFLSLTTTGTIVYCNSRAETLFGATRPEELLQVEIYTLASDDSRMGLKEQIKRMDQNQAQLVSGSGWFETLDGKGIELEYMLAAIHQGRKSSIMVILREGTPDGGPDRVYSDVLNQLQSYVTTDPLTELPNPATFEKELATDWKECIQNQVSLALLMVDIDDFRVYNTLHGLYGGDLCLQWIADALKIIGEYYGAAVSRYGGGTFILKIKDTDPDRTYELAEKIRQGVLALSIPKDRTEEDGFMTVSVGAACLTPTSMLSLTHLTDETEKAMHIAKSKGKNRVTLYGYETD				NA	NA	NA	NA	NA
AK002_03644	522			hypothetical protein	ATGTATATCGTTACCGAAAGATTAGTGATTCGCGAGTTTGTACCAGGAGATTGGCAGGATGTTCTTCAATATACATCCGATCCCTTGGTGATGTTTTACATGACGGAGCCGGTGCATACGGAAGAGACGGTAAAGGAATTTCTGGAGCAGAACAAGGGCGGGCAACCGCATCATTATGCCGTCATGCTGCAGAAGGAACAACGCGTGATCGGACACATGGTGTTTCATCCTTGCTTCGGCGAACATACTTACGAGATCGGCTGGGTCTTTCATTCGGCCTACCACGGTATGGGGTATGCTACGGAAGCAGCCAGAGCCTTGCTTCAGCATGGCTTCGAAGCATTGGGAGTACACCGGATCATCGCGACATGCCAGCCAGAGAACACCCCTTCGTATAAGGTGATGGAGAAGCTTGGCATGAGGAGAGAAGGCTGCTTTAGGCAGTGTATCCCTCGAGGCGAGGTTTGGTGGGATGAGTATTACTATGCTATGCTAGAGTCTGAATGGCGTACAATTTCATAG	MYIVTERLVIREFVPGDWQDVLQYTSDPLVMFYMTEPVHTEETVKEFLEQNKGGQPHHYAVMLQKEQRVIGHMVFHPCFGEHTYEIGWVFHSAYHGMGYATEAARALLQHGFEALGVHRIIATCQPENTPSYKVMEKLGMRREGCFRQCIPRGEVWWDEYYYAMLESEWRTIS				NA	NA	NA	NA	NA
AK002_03645	471			hypothetical protein	ATGCGGTCATACCTTTTTGAACATTTGGAATTTGTGCGTGCACAAACTTTGAATATTGTAAGGGATATCCCGGACGATATGGCGGAATGGATTCCGAGCGGAATGAATAATCACGTGAAGTGGAATGCAGGACATATTTATTTGACGCTGGAACGGTTTGCGTTCGGCGTGAATGGCGAGACTATGCACCTCCCCGAGCATTATACCGAGCTGTTCCGGACGGGCTCCAGACCAAGGGAGATCAACGCTTCATGGCCTTCCATGAGCGAACTTATCGAACGGCTTGAAGGTCAAGTCCAGCGGATCGAACAGAGGTACACAACACATCTGCAAGATACCGTCTTGTCTCCCTACACGACATCCAAAGGTTTAAAGTTATCCAGGATAGAAGAATTCTTAAGCTTCTGCTTATATCACGAAGGCATGCATTTTGATAAAATCAAATCGATATTAAGCCAAAATATCCAGTAA	MRSYLFEHLEFVRAQTLNIVRDIPDDMAEWIPSGMNNHVKWNAGHIYLTLERFAFGVNGETMHLPEHYTELFRTGSRPREINASWPSMSELIERLEGQVQRIEQRYTTHLQDTVLSPYTTSKGLKLSRIEEFLSFCLYHEGMHFDKIKSILSQNIQ				NA	NA	NA	NA	NA
AK002_03646	915	cysL_1	COG0583	HTH-type transcriptional regulator CysL	ATGAATCTTCATGCACTCCGCATATTTAATGATGTGTCCAAAACGGGAAGCATCACGAAATCGGCCGGCAATCTAATGTTAAGCCAACCGGCCGTTACCGCCCAAATCCGCAATCTGGAGCGGGAACTCGGCTTGAAATTGATTGAGGCGAATGGGCGCAATATTCAATTGACGGAAGCCGGTGAAGCGTTGGCCGCGCATTCCCGGCGGTTATTCGCGATGGAAGCCGAGATGGAAGACATGATGCAGGCCATAAAATCTGGCCGGGAGGGAAATTTGCGGATATGTGCGACGGAGCTGCCGGAGACCGCCTTGCTTCCCGGTTGGCTGGTTGGATATAAACAACAGAATCCACGCGTGAATGTGGAGCTGCTGAAAGGGAATTCCAACACAGCCCTGCAACGATTACGGGATCATTCGGTTCATATCTCGATCGTTTGCGGCAGTTGGTCCATAGAAGACGAGGTCATTGAGTCCTTTACGATTATGGAGGACGAATTGATTTTTGCCGTACCCGCAATTCATCGCCTAGCCGGCAGAGAAGTTACTCGATTCGAGCTTATGGAGGAGTCTTTTGTGCTGAGAGAGGAAGGGAGTTACACACGAAAACAGTTCATGTCTCTGATTGAGGCCTCAGGCATCCGGGGACCTCGTTCCTCCATCACGATCGAGGGATTGAAGGAAACCATTGAGGCGGTTAAAGCGGGTTACGGGGCTGCCCTGGTCCCGGCTCTATCCATCAAGACAGAGCTGGCTTCCGGCGAACTTAGCAAGGTAAAGGTAACAGGCGTAACGATCCCGCATCCCATACGGGTGTGTACCAAAAAGCTAGAAGCGATGCCCGCACACATCCGTTCTTTTATTTCCTATATCCAGGCGGATATCCGTGAAAGACACTACGATATCCGTGGATGA	MNLHALRIFNDVSKTGSITKSAGNLMLSQPAVTAQIRNLERELGLKLIEANGRNIQLTEAGEALAAHSRRLFAMEAEMEDMMQAIKSGREGNLRICATELPETALLPGWLVGYKQQNPRVNVELLKGNSNTALQRLRDHSVHISIVCGSWSIEDEVIESFTIMEDELIFAVPAIHRLAGREVTRFELMEESFVLREEGSYTRKQFMSLIEASGIRGPRSSITIEGLKETIEAVKAGYGAALVPALSIKTELASGELSKVKVTGVTIPHPIRVCTKKLEAMPAHIRSFISYIQADIRERHYDIRG				NA	NA	NA	NA	NA
AK002_03647	1221			hypothetical protein	ATGAACAAAATTTACAAGGTACTAACTACCGCTACACTTCTGGCGATGGCAGCACTGCCGGCAGCCGCTAATGCACAGGACGTCCCTCCTGCTTCAGTCCATACGGGGCAAGGCAGCATCGTGAACCAGGCAAAGAAAAGCGTTCCTGGAAGCATGGGTTACATAACGGAATACGTAAACGATAAAACGGGCAAATGGATTACGGTCACCGGCCGCGGTCTCGGTGCCACCGATCAACAAGAAATCAGGCTCTCCATATCCAAGGATACTAAAATCATCGATGCCAAAGGAAACAAAGTCCAACTCCAAACGATTGTGGACAAGAACAAAGCAATTAAAGCCTTCTACGGCCCGAATATCACCAAGAGTCTGCCTGCTCAAGGCTCAGCGCTTACGATCATCGTTCAGGATAAAGACTTTGCAGGAATTGATGGAACCATCGCTGAGGTGACCAAGCAAGGCATTCTGGTGGAGGGTACCAATCTGTATAACGACGGTGAAGAGACGATTCTGCTTCATCTGGATCCAAAAGCGAAAATCATCAATGCAGACGGAAGCACGCTCAATGCGGGTGACCTGGAAGCCGGCATGAGCATTCGCGCTTTCTACGGACCTTATGTGGCGTTAAGCATGCCGCCTCAATCGTCAACGGACTACATTCGGGTTCAAGCTCAAGCAGAAGAGCCTGTACAAGAAGAACCTGCCGGCACGAACGGAATCATTACCGACACGGCAGATAACAAAATCACCCTCATGGGTCAGGCACTGGAGTCGGGCGGCGTCAATTACGTGATCCTTACCATAGATGAGAACACGGAAATCGTCGATGCGAAGGGTAAACCGCTGACGGCTGAAGCATTGAAAGCAGATCTCCGCATCGAGGCCTATTACAGCCAAGTGATGACCCTGATTTATCCTGCCCGGACTCACGCTGATAAGATCGTGGTTTCGGAAACGACCGCTCCCAAAATCGAAGGCACCGTTGCAGCATCCGACCGCACGACCAAAGACCAGCTGTATATCAATGTAGGGTCCGACCAATCAACGGAGAATGACGTCATTCTTAACGTTACCGAAGACACGCAAGTGATTGCAGGGCTCAGCACGGAATCGGAACTGAAACCGGGTACGAAGGTCGTGGCCTACCACTCGCCTATCATGACCAAGTCGATTCCAGCCATCACCTCAGCCGAAGTCATCATTGTTCAATCCGGCCAATAA	MNKIYKVLTTATLLAMAALPAAANAQDVPPASVHTGQGSIVNQAKKSVPGSMGYITEYVNDKTGKWITVTGRGLGATDQQEIRLSISKDTKIIDAKGNKVQLQTIVDKNKAIKAFYGPNITKSLPAQGSALTIIVQDKDFAGIDGTIAEVTKQGILVEGTNLYNDGEETILLHLDPKAKIINADGSTLNAGDLEAGMSIRAFYGPYVALSMPPQSSTDYIRVQAQAEEPVQEEPAGTNGIITDTADNKITLMGQALESGGVNYVILTIDENTEIVDAKGKPLTAEALKADLRIEAYYSQVMTLIYPARTHADKIVVSETTAPKIEGTVAASDRTTKDQLYINVGSDQSTENDVILNVTEDTQVIAGLSTESELKPGTKVVAYHSPIMTKSIPAITSAEVIIVQSGQ				NA	NA	NA	NA	NA
AK002_03648	720			putative transcriptional regulatory protein	ATGGGCCGTAAATGGAATAATATTAAGGAAAAGAAAGCATCCAAGGATGCTAATACAAGTCGCGTATACGCGAAATTCGGTGTGGAAATTTATGTTGCCGCCAAAAAAGGCGAGCCGGATCCTGAATCCAACCGTGCGCTGAAGGTTGTTCTAGAGCGTGCCAAAACATATAATGTGCCGAAAGCGATTATTGACCGCGCCCTGGATAAAGCCAAGGGCAGCGGGGACGAGAACTATGAAGAGCTTCGTTATGAAGGCTTCGGTCCGAACGGATCGATGATCATCGTCGATGCATTGACAAACAACGTCAATCGGACGGCGCCTGCCGTGCGCTCTGCCTTTAACAAGAACGGGGGCAATATGGGCGTCAGCGGTTCGGTGTCCTATATGTTTGATCCAACCGCCGTCATCGGAGTGGAAGGAAAGACGGCAGAGGAAGTCATGGATCTGCTGCTCGAAGCCGACCTGGATGTCCGCGATATCTTGGAAGAGGAAGAAGCCGTGATTGTCTACGCTGAACCGGATCAGTTCCATGCGGTTCAGGAAGCATTCAAAGCTGCTGGCATAACGGACTTTACCGTTGCCGAGCTGACGATGCTGGCACAGAATTTTGTGTCCCTGCCGGAAGAAGGACAGGCGCAGTTCGAGAAGCTGATCGATGCACTGGAAGACCTTGAGGATGTTCAGCAAGTTTACCACAACGTCGAGTTTGAGGAATAG	MGRKWNNIKEKKASKDANTSRVYAKFGVEIYVAAKKGEPDPESNRALKVVLERAKTYNVPKAIIDRALDKAKGSGDENYEELRYEGFGPNGSMIIVDALTNNVNRTAPAVRSAFNKNGGNMGVSGSVSYMFDPTAVIGVEGKTAEEVMDLLLEADLDVRDILEEEEAVIVYAEPDQFHAVQEAFKAAGITDFTVAELTMLAQNFVSLPEEGQAQFEKLIDALEDLEDVQQVYHNVEFEE				NA	NA	NA	NA	NA
AK002_03649	1209			hypothetical protein	ATGATGCTTAACAACCCGTATGTCCGAACCGTTGTGTTCTCACGCGTACTCTTGAACCTCGGCATTTGGGTCCGCAACTTCGCCATTCTGTTATACGTTACGGACATGACAGGCAATAATCCTGTGTACGTATCTCTCATATCCGTAGCCGAATTTGCCCCTATTTTCCTGTTTGCCTTCATCGGCGGTACTTTCGCGGACCGCTGGCGTCCTAAACGTACCATGGTCCGTTCGGATATTTTGTCGGCGTTATCGGCATTTCTCGTGCTGATCGCCGTTCATAACGGGTCGTATCAGGCATTGCTGGTACTCACGTTTTTCTCTGCCACCGTGTCACAATTTTCCCAGCCCTCGGCGATGAAGCTGTTCAAACAGCATGTGCCCGCTGAACAGCTGCAGTCCGTAATGGCCATGTTTCAATCCATGGTTGCTTTCTTTACGGTCATCGGTCCGATCGCAGGCGCATTTGTATACCAGAAATACGGCATTGAAATATCGCTGATCGCCACAGGCGCCCTATTTCTGGGTTCTGGCTTGATTCTGACTTTACTGCCTCGCGATATGCTGGAAGAGACACAATCCAAGCGCCAGAATCTCCAGCAAGAACTTATTGAAGGCCTTCGTTATGTATGGAGTAATCAAACGCTCCGAACACTAGGTGCGACCTTCGCCGCCGCTGGCTTGGCATCGGGACTTATTCAGCCGCTCGCGATATTTGTGACGATTGAGAACCTCGGGCAGGATAAGTCATTCTTGCAATGGCTGTTAACGGTCAATGGGGCGGCGATGCTGATCGGAGGAGGCTTCGTCATGGCATTTGCCAAGAAAATAACCCCTCAAACCTTACTGGTTCTCGGTCTGACCGTTAGTGCTGTTGGTAATCTCGGTATCGGCTGGTCAACAAACATCATGTTTACGTTGCTGCTTCTGGTGCTCAACGGATTCTTTTACCCCGCCATCCACATTGGAATCAACACCCTGATCCTAAACAATGCGGAGGGGCCATATATTGGTCGGGTGGGCGGCGCCCTTACCCCGATCTTTATGGGCATGATGGTGGTGGGCATGTCGCTGGGGGGATTGCTCAAAGACCAGCTGTCCCTGTTCTTCGTCTATGCGGTCAGTGCTCTCTTGCTCCTCACAGGATCGGCGTTACTGATCCCATTATTTAAAAAGAAAACGAGCACCGCCGGCGTATTGGAGCAATGA	MMLNNPYVRTVVFSRVLLNLGIWVRNFAILLYVTDMTGNNPVYVSLISVAEFAPIFLFAFIGGTFADRWRPKRTMVRSDILSALSAFLVLIAVHNGSYQALLVLTFFSATVSQFSQPSAMKLFKQHVPAEQLQSVMAMFQSMVAFFTVIGPIAGAFVYQKYGIEISLIATGALFLGSGLILTLLPRDMLEETQSKRQNLQQELIEGLRYVWSNQTLRTLGATFAAAGLASGLIQPLAIFVTIENLGQDKSFLQWLLTVNGAAMLIGGGFVMAFAKKITPQTLLVLGLTVSAVGNLGIGWSTNIMFTLLLLVLNGFFYPAIHIGINTLILNNAEGPYIGRVGGALTPIFMGMMVVGMSLGGLLKDQLSLFFVYAVSALLLLTGSALLIPLFKKKTSTAGVLEQ	PGPT0027965_933	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK002_03650	1725	cysI	COG0155	Sulfite reductase [NADPH] hemoprotein beta-component	ATGTCTGATAATAACCTGGTATCACCGAATAGTGCGCCGCATAGTGACGTCGAGGATATCAAGCGTCGAAGCAATTATCTGCGGGGCAGTCTTGTAGAAACATTAGAGGATCGCATTACGGCATCGATTCCCGAAGACGATAACCGCCTGATGAAATTCCACGGCAGCTATATGCAGGACGACCGGGACTTGCGAAACGAACGGCATAAGCAAAAGCTGGAGCCCGCTTATCAGTTCATGCTGCGCGTGCGCGCAGCGGGTGGTGTCGTGACGCCGGAGCAATGGCTGATGATGGACCGCGTAGCCCAGAAGTATGCAAACGGCACGATTCGATTGACAACGCGTCAATCCTTCCAGCTTCACGGTGTATTGAAGTGGAATATGAAGAGCACCATTAAAGAAGTCAATGAAGCCATGCTTAGCACGTTGGCCGCTTGCGGTGACGTTAACCGTAATGTCATGTGCAATCCGAACCCCGATCAATCCGAGATTCATTCGGAGGTATACGAGTGGGCACGTATGCTAAGCAGTCATCTCGATCCGCGTTCGCGTGCGTATCATGAGATTTGGCTGGACGGCGAGAAGATCGTAGACAGCCTGCAGAATGGGGAGGAACAGGAGCCGATCTATGGCCCGGTGTATCTGCCGCGGAAATTCAAGATTGGGATGGCCGTGCCGCCTTCCAACGATGTCGATGTTTATTCCCAGGACCTCGGCTTCATAGCGATCGTTGAGGACGGCAAATTAAAAGGCTTTAACGTCTCGGTAGGCGGCGGCATGGGAATGTCGCACGGTGATCCGCTAACTTATCCTCAAGTGGGGAAAGTCATTGGATTCTGCAAACCCGAGCAGATCGTGGACTTGGCCGAGAAAACGGTGACGATTCAGCGTGATTACGGAGACCGCGCAGTGCGCAAGCATGCTCGATTCAAATATACGATTGATGACCGAGGAATCGATTGGTTCCTTAGCGAACTGACCAGCCGTCTGGGATGGAAGCTGGAGGAGGCAAAGCCGTTCCATTTCGAACATAACGGCGATCGTTACGGCTGGGTAAAAGGCAGCAACGGCAAATGGCATTTCACGCTGTTCATCCAGAACGGTCGCGTGAAAGACGAGGCCGATTACCTGCTGATGACGGGTCTTCGCGAAATCGCCCAAATCCATAATGGCGATTTTCGATTGACGGCCAATCAGAATCTGATCATTGCCAATATCAGCAGCCACAAAAAGAAGAAGATTGAAGAACTCATCAAGCGTTACGGGCTGACGGACGGCCATCATTATACTGCGCTGCGCAGAAATTCCATGGCATGCGTAGCCTTGCCGACTTGTGGATTGGCCATGGCCGAATCCGAGCGATATTTGCCGACGCTATTGGATAAAATCGATCCGATCCTGGAAGAGAACGGACTGAGCGAAGAGGACATCGTCATCCGAATGACAGGATGCCCGAACGGCTGTGCCAGACCGATGCTGGCCGAAATCGCGTTTATCGGTAAGGCACCGGGCAAATACAATATGTACCTGGGCGGCGGATTCTCCGGACACCGGCTGAACAAGCTTTATAAAGAGAACATCGGGGAGGCTGAGATTCTGGACTCCCTTCGCCAGATCATGAAGCAGTATGCACAAGAACGCGAGATCGGCGAGCGCTTGGGCGATTATGTCATTCGCGCCGGTTACGTGAAGGAAGTATTGGACGGTCAACAATTTCACGCGTAA	MSDNNLVSPNSAPHSDVEDIKRRSNYLRGSLVETLEDRITASIPEDDNRLMKFHGSYMQDDRDLRNERHKQKLEPAYQFMLRVRAAGGVVTPEQWLMMDRVAQKYANGTIRLTTRQSFQLHGVLKWNMKSTIKEVNEAMLSTLAACGDVNRNVMCNPNPDQSEIHSEVYEWARMLSSHLDPRSRAYHEIWLDGEKIVDSLQNGEEQEPIYGPVYLPRKFKIGMAVPPSNDVDVYSQDLGFIAIVEDGKLKGFNVSVGGGMGMSHGDPLTYPQVGKVIGFCKPEQIVDLAEKTVTIQRDYGDRAVRKHARFKYTIDDRGIDWFLSELTSRLGWKLEEAKPFHFEHNGDRYGWVKGSNGKWHFTLFIQNGRVKDEADYLLMTGLREIAQIHNGDFRLTANQNLIIANISSHKKKKIEELIKRYGLTDGHHYTALRRNSMACVALPTCGLAMAESERYLPTLLDKIDPILEENGLSEEDIVIRMTGCPNGCARPMLAEIAFIGKAPGKYNMYLGGGFSGHRLNKLYKENIGEAEILDSLRQIMKQYAQEREIGERLGDYVIRAGYVKEVLDGQQFHA	PGPT0002790_623	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
AK002_03651	1863	cysJ	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	ATGTGCGCTTTTGAGAGGTGGATATTGTTGGAACTTCAAGTAACGAACAGTCCTTTTAATCAGGAACAAGTGGAATTGCTGAATCGCTTACTGCCTACACTGACGGAATCCCAGCGGACGTGGCTGAGCGGCTTTATCGCTGCTTTGCAGGGAACGGCAGCCGCCGCGGCAGTTGCTGCTTCACCGCAAGCGAGTGCGGCGGCCATATCGGCACCGGTCGTGTCAGCTCCTAAAGAAGTCACCGTCCTATATGGGTCTCAGACGGGCAACGGTCATGGATTATCGAAAAAGTTATCGAAGAAGCTTGAAGAAGTCGGATTGCAGGTCACCATGTCCTCGATGAGCGATTTCAAGCCGAACAACCTGAAGAAATTACAGAATCTCCTCATTATTGTAAGTACGCACGGAGAGGGCGAACCGCCGGATAACGCGATTCCATTCTATGAGTTCCTGCATAGCAAGCGGGCACCTCAGGTGGAGAATCTTCAATATTCCGTACTGGCGCTGGGGGATACCTCGTATGAATTTTTCTGCCAAACGGGTAAAGATTTCGACAAGCGCCTCGAGGAACTGGGCGGCAAACGGCTGACGCCAAGAGTAGACTGCGACGTGGATTTTGATGAATTGGCCGCGGAATGGATGAATCAGGTCCTCCTATCGTTGAATGAGGCCGGAGCGGGATCGTCCGTTGTTGAACATGTAAGCGCGGTAGCCCTGACCGACAGTACGGAATCGGAATATTCAAGAAGTAATCCGTATCAAGCCGAGATCCTCGAAAATCTAAATTTGAACGGAAGAGGGTCTGACCGGGAAACCCGTCATATCGAAATATCGCTTGAAGGATCGAATCTGCAGTATGAGCCTGGCGACAGTTTAGGCATTTATCCGGAAAATCATCCGCAGCTGGTAGATGATCTCATCGCTGTCATGGGATGGAATGCAGACGAAGCGGTCGTTGTAAACAAAAGTGGCGAAGCGCGGACGCTGCGGGATGCCTTGCTCCGTCATTATGAAATCACGGTTCTCACGAAACCTCTTATTGAACAGGCGGCTAAGCTGCCCGGGAGCGAAGGACTTCAGAAACTGCTGGAGCCTGGACATGAGCAGGAACTTCGTGCCTATATCGAGGAACGGGATTTGCTGGATCTGGTACAGGATTATGGGCTGCAGCAAGTGGCGGCAAGCGATTTTGTATCCATTCTGCGCAAGATTCCGGCTCGTCTGTACTCGATCGCAAGCAGCTCCAAAGCGTTTCCGGATGAAGTCCATGTCACCGTTCGGACGGTCCGCTATGAAGCACACGGCCGCAACCGCTACGGGGTGTGCTCGGTACAATTGGCAGAACGACTGGAAGCTGGCGATTCATTGCCGGTATACATTCAGCATAACCCGAACTTTAAGCTCCCCGAGAATCCGGACACCCCGATTATTATGATTGGACCCGGCACGGGCGTGGCCCCTTTTCGGGCTTTCCTTGGGGAACGGGAAGAGACGGGCGCAGAAGGGAAATCGTGGCTGTTCTACGGCGATCAGCATTTCACGACGGACTTCCTCTACCAGATCGAGTGGCAGCGCTGGTTGAAGGATGGGGTGTTGACTCGCATGGATGTTGCCTTCTCACGGGATACAGACAAGAAAGTGTACGTACAGCACCGGATGCTGGAGAACAGCAAGGAGCTGTACCAGTGGCTACAAGAAGGGGCTTGCGTATATGTCTGCGGCGATGAGAAGAAGATGGCTCATGACGTACATTCCGCGCTCGGGTCCATTCTTGAACAAGAAGGCGGGATGAGTCCGGAAGAAGCTGCGGAATATCTGACGCTCATGCAGCAACAGAAACGTTATCAGCGGGATGTGTATTGA	MCAFERWILLELQVTNSPFNQEQVELLNRLLPTLTESQRTWLSGFIAALQGTAAAAAVAASPQASAAAISAPVVSAPKEVTVLYGSQTGNGHGLSKKLSKKLEEVGLQVTMSSMSDFKPNNLKKLQNLLIIVSTHGEGEPPDNAIPFYEFLHSKRAPQVENLQYSVLALGDTSYEFFCQTGKDFDKRLEELGGKRLTPRVDCDVDFDELAAEWMNQVLLSLNEAGAGSSVVEHVSAVALTDSTESEYSRSNPYQAEILENLNLNGRGSDRETRHIEISLEGSNLQYEPGDSLGIYPENHPQLVDDLIAVMGWNADEAVVVNKSGEARTLRDALLRHYEITVLTKPLIEQAAKLPGSEGLQKLLEPGHEQELRAYIEERDLLDLVQDYGLQQVAASDFVSILRKIPARLYSIASSSKAFPDEVHVTVRTVRYEAHGRNRYGVCSVQLAERLEAGDSLPVYIQHNPNFKLPENPDTPIIMIGPGTGVAPFRAFLGEREETGAEGKSWLFYGDQHFTTDFLYQIEWQRWLKDGVLTRMDVAFSRDTDKKVYVQHRMLENSKELYQWLQEGACVYVCGDEKKMAHDVHSALGSILEQEGGMSPEEAAEYLTLMQQQKRYQRDVY	PGPT0002795_1224	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
AK002_03652	618	cdaS		Diadenylate cyclase CdaS	ATGCACAATCAAGACTGCAATTTTACGCCACTCAAACGTAAATTAAAGGAACAGCTTTCGGATATCACGGGCCATCTGCAGCAGGTTATCGTCAATTTGGATCAAGAAGGCTCCTGCCTGCTGGGCGAGCTGGATTCGATACGGACCAAGTTCATGGAAGCCGAATCGATTTCATCAACGTATTATCTCAATTGTTTTCTCTTCCCCTTCACCAGCAAATATCAAGAAATCGCGAAATCCATATACCATCTCAGCCAAAAAAATCTGGGTGCGTTAATTGTTATTCAACGGGAGGACGGCCTGGATTCCTTAATAACGCCCGGCATTCCCTTGTCGGCAGAAATCACGAGCCCCCTGCTTGAATCCATATTCGTTCCGGGCAGTCCGCTCCACGATGGAGCTGTGCTCGTGCGCAAAGATATGATTATTTCGGCTGCGAACGTGCTGCCTTTAACCGCCAAAACCTACGGGGATCGCAAGCTCGGAACCCGCCACCGTGCAGCCATAGGCCTATCCGAGATCAGTGATGCCTTGATTCTCGTTGTATCGGAAGAGACCGGGAGAACCTCCTTCTGCATGAAGGGCACACTCTATCCTTTATCCATCAGCAGTCCTTAG	MHNQDCNFTPLKRKLKEQLSDITGHLQQVIVNLDQEGSCLLGELDSIRTKFMEAESISSTYYLNCFLFPFTSKYQEIAKSIYHLSQKNLGALIVIQREDGLDSLITPGIPLSAEITSPLLESIFVPGSPLHDGAVLVRKDMIISAANVLPLTAKTYGDRKLGTRHRAAIGLSEISDALILVVSEETGRTSFCMKGTLYPLSISSP				NA	NA	NA	NA	NA
AK002_03653	657	bshB2	COG2120	putative N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 2	ATGGAGCAAAACATACTGGTCGTATTGCCGCATCCGGATGACGAGGCTTTTGGTTTGTCCGGCACGCTGGCTAAATATATCATTGAAGGCGCACATGTAACCTACGCCTGTTTAACGCTGGGAGAGATGGGGCGAAATATGGGAATTCCTCCCTTCGCGAATCGCATTACGCTTCCAACGATACGCAAAGCGGAGCTGGAAGAATCCTGCAAAGCCATTGGCATACAGGATCTGAGACTGCTTGGTTTCCATGATAAAACGATTGAGTTCGAGGATCAGGACAAACTGGACGGCGTGATTGCTTCTCTGCTTCAGGAGATCAAGCCATCGCTGGTGTTCACGTTCTACCCTGGATACAGCGTACACCCCGATCATGATGCAACAGGCGCGGCCGTCATTCGAACGATTGGTCGTATGCCTGCCGAAGAAAGACCCGTGGTCCAATGTCTGGCTTTCTCCAACAACTGTGAACAGGAACTGGGTAAACCGGATGTCTACCAAGACGTATCCATGTTTATGGTGCAAAAGCTGAACTCCATCCAAGCTCATCGTTCTCAATTCCAAGCAGCCGAGCTGCTAGGCAAGAAACAGATGAAGGCCAAGGAAGTGGAGCAGCGCTTCGGAACGGAGCGTTTCTGGACCTATACCTTTGCATAA	MEQNILVVLPHPDDEAFGLSGTLAKYIIEGAHVTYACLTLGEMGRNMGIPPFANRITLPTIRKAELEESCKAIGIQDLRLLGFHDKTIEFEDQDKLDGVIASLLQEIKPSLVFTFYPGYSVHPDHDATGAAVIRTIGRMPAEERPVVQCLAFSNNCEQELGKPDVYQDVSMFMVQKLNSIQAHRSQFQAAELLGKKQMKAKEVEQRFGTERFWTYTFA	PGPT0019575_414	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
AK002_03654	345	yojF		putative protein YojF	ATGGAACTCATAAATCAAACTGAAGTACAGCAAATGATCGATAAATTGAAGGATCAGGATTTATATATCCATCTTGAGATGACGACCGGCGCCTATGCTGCCCACTATGACAGCTCCAAACACCCGGCGGCTAATTTTATTACGAACGCAACCATTCGTTACAGTCATGGTTCCATATCCGGCAACGGACCTTACCGGGTCGGATTGAAGATGGGCCAAGGCTGGGTATATACGGAAGGACTCACCCACTTCGAACAGACGGACACCGAGCGGCTCATCATGGCGGGTCATGACAGTCAGGGGAAACTGGTTGTCGCTTTGCAGCTGAGCCGGGAGCCTTTTTAA	MELINQTEVQQMIDKLKDQDLYIHLEMTTGAYAAHYDSSKHPAANFITNATIRYSHGSISGNGPYRVGLKMGQGWVYTEGLTHFEQTDTERLIMAGHDSQGKLVVALQLSREPF				NA	NA	NA	NA	NA
AK002_03655	492			hypothetical protein	GTGATTGTTGTAAGCTCATGTTTAGCCGGTATGAAAGTTCGCTATAACGCGACTGACAGCATGGATACGAATATTCAGCTGCTTGTTGAAGCGAAGAAAGCCGTAACCGTGTGTCCCGAACTGCTGGGTGGATTCACTATCCCTCGAGAACCTGCGGAGATCGTTGGAGGGAACGGGGATGATGTACTGGCGGGAAATGCCAGAGTGGTGGAGCTATCTGGCAGAGACGTGACCGAGATGTATATCCAAGGTGCATACGAGGCTCTTCGAATGGCACAAGAGCTTGGAGCCTTGCTGATCGTCCTGAAAGAGGGAAGTCCTTCCTGCGGAAGTGCCATGATTTATAACGGAGAATTTGACAATGTGAAACAGGCCGGTTATGGCGTGACTACGGCTCTTCTGCGCCGGGAAGGCTATACGGTTATATCTGAGCACGAGCTAAGCGTTTATGCGGCACAGCCGGAATACGCAACTCTCTTTGCCGAGAGATAA	MIVVSSCLAGMKVRYNATDSMDTNIQLLVEAKKAVTVCPELLGGFTIPREPAEIVGGNGDDVLAGNARVVELSGRDVTEMYIQGAYEALRMAQELGALLIVLKEGSPSCGSAMIYNGEFDNVKQAGYGVTTALLRREGYTVISEHELSVYAAQPEYATLFAER	PGPT0020050_151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK002_03656	795	rhaR_45		HTH-type transcriptional activator RhaR	ATGGCTGATCGATATGCTGAAATCGATGAAGTAATCGCTTATATTCACAAGAATATTTACGAGCCTCTCCCGTTATCAACGCTTGCGGATTACATAGGGTACAGTCCATATCACTTCTCGCGTATATTCAAGGATCGAATCGGGCTGCCTCCGTTATATTATGTTTCATCGCTTCGTCTGGAGAAGGCAAAGGACTTGCTGTTACATACGCATCTAAGCATACGGGATATCGCCATGGAGATCGGCCAGCAGAGTCTGGGGACGTTTACGACGCGCTTCACGGAGAGGGTGGGGGTGACCCCTTCGCAATTCCGGAACTCGAAGGAGGAGGCCGACGAGCATCTGTTAGCCCTGCAGAAGCTGAACAGCTGGCGCGAGTCCATGCCGGTAGATAATCCCGATTTGATGGTTGAAGGCACCATCGAGGCCGCGGCTCCCTTTCAGGGCGTAATCTTGATCGGGCTGTTTGCCAAGCCGATCCCCGAAGGGTTTCCCCTATACGGTACTTTGCTTTCATCCGTCGGCTCCTTTCGTTTCACCGACGTCAGACCCGGCACTTATTATTTGATGGCTACTTCGGTCCCATGGGGCATGCAGGCGGTCGATTTCCTGCTTCCTCAGTCCACTACGCTGCGTACCCGTTCCAAGGAGCCCGTTATCGTAAAGCCGTACGCCAGGACGCCGCATCTTCATGTTACGCTCCATGTTCCCCGACTGGATGATCCGCCCATTCTGATTTCCCTGCCGATATTAATGAATCATTTCCTTAAGAGGGTTGCTCCCATGCTGAGATGA	MADRYAEIDEVIAYIHKNIYEPLPLSTLADYIGYSPYHFSRIFKDRIGLPPLYYVSSLRLEKAKDLLLHTHLSIRDIAMEIGQQSLGTFTTRFTERVGVTPSQFRNSKEEADEHLLALQKLNSWRESMPVDNPDLMVEGTIEAAAPFQGVILIGLFAKPIPEGFPLYGTLLSSVGSFRFTDVRPGTYYLMATSVPWGMQAVDFLLPQSTTLRTRSKEPVIVKPYARTPHLHVTLHVPRLDDPPILISLPILMNHFLKRVAPMLR				NA	NA	NA	NA	NA
AK002_03657	1089	iolG_15		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGGGCAAAACCATTCGAATTGGAATTATTGGAAGCGGCGGCATTGCGGGGGAGCATGCAAAGTACTATAAACAAATTGACGATGTGCAAATTGTTGCCGTAGCTGATATTTTACCCGGCAGAGCCGATCAGTTTATTGAGCGCTGGGGATTGCAGGGAGCCATCGGATTCGATGACCACCGCAGATTGTTGGATCTTGACCTGGACGGCGTAAGCATCTGTACGCCGAACGTCGCTCATTACCGAACGACGATCGATGCGCTGTCGGCGGGCAAACACGTGATGCTCGAAAAACCGATGTCGGTCACTTTGGATGAAGCGATCGAGATGGTGCAAATTTCGAAGAAGACCGGGAATATGCTGAATGTAGGCTTTCAGCCGCGATATGACCCGAACATGGGCATCATTAAGAATTTGATCCAGAACGGCGAGCTTGGAAAAGTGTACTATGTGGAAACCGGGGGCGGCCGCCGACGGGGAATGCCAGGCGGCACGTTTGTTCGCCAGGAGATTGCAGGGGCAGGCGCTATGGCGGACATCGGATGCTATTCCCTGGACATGGCGCTGAACGCTCTCGGATATCCCAAGCCATTAACGGTATCCGCTTATACGTCGAATTATTTCGGGACGAATCCCAAATACCATGCGGAAGCCGGAGCGTTCAACGTAGAGGATTTCGGGGTAGCCATCATTCGGTTCGAAGGCGACCTTGTGCTTAACTTTAAAACATCCTGGGCAATGCATATGGATACGCTCGGGGCAACGATGTTCCTCGGGACGGATGCGGGCATGAAGATTACGCCTGCAGGCTCAGGACCTTGGAGCGGTGTATGGGACGGGAAGGTAGGATCGATTTCCTTGTTCCACGATATCCAAGGCCATCATACCGAAAGCGCAATTCCGCTGATCAGCCACGAGCTGAATGTATTCCAGGAGAAAATCAAGGATTTCGTTAGCGCTGTGCGCGAAGGCAAGCCCGCTCCGATTCCGGGTGAGCAGGTGCTTCGCAATCAAGCGATACTGGACGGCATTCTGCGATCCTCCCAAAGCAAAAAAGAAGTGGAAATCCATATTCCGGATATGGATTAA	MGKTIRIGIIGSGGIAGEHAKYYKQIDDVQIVAVADILPGRADQFIERWGLQGAIGFDDHRRLLDLDLDGVSICTPNVAHYRTTIDALSAGKHVMLEKPMSVTLDEAIEMVQISKKTGNMLNVGFQPRYDPNMGIIKNLIQNGELGKVYYVETGGGRRRGMPGGTFVRQEIAGAGAMADIGCYSLDMALNALGYPKPLTVSAYTSNYFGTNPKYHAEAGAFNVEDFGVAIIRFEGDLVLNFKTSWAMHMDTLGATMFLGTDAGMKITPAGSGPWSGVWDGKVGSISLFHDIQGHHTESAIPLISHELNVFQEKIKDFVSAVREGKPAPIPGEQVLRNQAILDGILRSSQSKKEVEIHIPDMD				NA	NA	NA	NA	NA
AK002_03658	948	rhaR_46		HTH-type transcriptional activator RhaR	ATGAATAACCATTTTCCATACGAAATGATGAAAGAGCGGCAGGATGCCTTGGAGCGGCTTGATCTTAGGGTCTATTGGGGACGTTACGAGATCCGGGTCCTTCGGTTTCATCTCACCACCTTCCCGCCCGGGAAGATTGTCTCCTTCCATAAGCATGCGGAGTATGAATTTCATTTCATACCCCGCGGCAAGGGGACCGTTATTATGGAGGATGAGCCGTATGCACTGCGGGAAGGGATGTTCTATTTAACGGGTCCGAACGTGCTTCATTATCAGGAAGCGGATACAGCGGAACCGATGGACGAATTATGCCTGCACGTCGACATCATTGCCCGCGATGAGATTTCCGAGCATGAGAGCCCGGCACTGCCTGTTTCGGATCCTTGGGAAATGGCGGAAGCCGATGACTGCATGGAGAAGCTGAGAGAATTGCCGAGGAAGCCGACGATGGACATCCATCGCGCGATGCCTTATTTTCTTGAGGCTTATCAGGCTTCGCAGGAGAAATATTCGGGTCTGTACACAACGATTAAGCAATGCCTTATTCAGATCTTGCTGCGCGCTGTGCGCGCATATGAATCCGAGCCATCGGAAGCGGAGCTGCCTTCGCGCGATATGAAGGCTTACCGTTATCAATTGGCGCTGGAATATATCCATGCGAATTCTTCGGGAGAGGTTGTGCTGGATGACGTCGCAGAGAAGCTGCATATCAGCTCAAGGCAGCTGCAGCGAATATTCAAGGAGCAAGCGGAAGGTCAGTCCTTCAGCGAGATCCTGGAGCATGTCCGCCTGGAAGCCGTGTGCAGGAAGCTGATCGATACCAATTGGTCGATTGACAAAATCGCCATTCATGAAGGCTTCTCCAGCGGCAGTTATCTGCATACCGTTTTCCGAAAGAGATACGGATATACGCCAACAACATACCGAGCCATGAATGTGAAATTGTAG	MNNHFPYEMMKERQDALERLDLRVYWGRYEIRVLRFHLTTFPPGKIVSFHKHAEYEFHFIPRGKGTVIMEDEPYALREGMFYLTGPNVLHYQEADTAEPMDELCLHVDIIARDEISEHESPALPVSDPWEMAEADDCMEKLRELPRKPTMDIHRAMPYFLEAYQASQEKYSGLYTTIKQCLIQILLRAVRAYESEPSEAELPSRDMKAYRYQLALEYIHANSSGEVVLDDVAEKLHISSRQLQRIFKEQAEGQSFSEILEHVRLEAVCRKLIDTNWSIDKIAIHEGFSSGSYLHTVFRKRYGYTPTTYRAMNVKL	PGPT0017485_10	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_03659	1002	afr_2		1,5-anhydro-D-fructose reductase	ATGATCAGAATCGGAAAAATTAGTTATTGGCATGTGCACGCATGGGATTATACGAAACAAGCGCAGGAGCATCCCGATGCTCAGATCGTAGCGGTATGGGATGAGAATCCGGAGCGGGGAAGAGAAGCCGCCGAGAAGCAAGGGGTACGTTTTCATGAATCGCTGGATGACATGCTGCAAAGCGACGATATTGATGCCGTGATCGTGGATGCTCCGACATCCATGCACAGAGAAGTCATGTTGAAGGCCGCAGCGGCAGGCAAACATATTTTCACGGAAAAAGTAATTGCTGCAACCCTTCAAGAGGTCAATGATATCATGAAAGCCGTGAAGGAGAATCAGGTCAAATTCACGGTATCGCTGCCGCGGCTGAATGACGGTTATACGCTGGCGATCCGTGAGGTATTGGAGCAGGGATTGCTGGGAACCGTGACGCTCGTTCGCGTTCGCTTGTCCCACAATGGCGCAACCGCCGGTTGGCTGCCTGAGCATTTCTACAGCCTGGAGGAGTGCCGCGGGGGTGCCCTGATCGATCTGGGCTGCCATCCGATGTATTTGACGCGCCTGTTCCTTGGCGAGGAAGCCATTGACGTCCAAGCGAATTTCGGATACATAACGGGCAAAGAGGTGGAAGACAACGCCGTTGCCACGCTCTCTACGGCAGCGGGTGCCGTCGGCGTCGTGGAAGCCGGATTTGTTAACAACTTCTCTCCGTTCACGATCGAGATTCATGGCACGGATGGAACCATCCTGTACGGTACGCCGGATAGCAAGCTTCTGATTCGTTCAACGAAAAAAGAAGAGTACAAGGATGCTTGGGTTGAGCTGCCGGTGCCGGCGAACCGCGCAAGTGCTTTTGAACAATGGATTTCTCATATTCAAGAAGATACCGTTGCCGAAGAAAATATCGCATATGCGGTTGAATTGACCAAATTGATGGAGGCAGCCAATCGTTCGGCCAAGGAGCATCGTGCTGTAAGATTGGATGAACTTCAAGCATAA	MIRIGKISYWHVHAWDYTKQAQEHPDAQIVAVWDENPERGREAAEKQGVRFHESLDDMLQSDDIDAVIVDAPTSMHREVMLKAAAAGKHIFTEKVIAATLQEVNDIMKAVKENQVKFTVSLPRLNDGYTLAIREVLEQGLLGTVTLVRVRLSHNGATAGWLPEHFYSLEECRGGALIDLGCHPMYLTRLFLGEEAIDVQANFGYITGKEVEDNAVATLSTAAGAVGVVEAGFVNNFSPFTIEIHGTDGTILYGTPDSKLLIRSTKKEEYKDAWVELPVPANRASAFEQWISHIQEDTVAEENIAYAVELTKLMEAANRSAKEHRAVRLDELQA	PGPT0018525_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018525-iolX-K16043	NA	NA
AK002_03660	525	yfiT_1		Putative metal-dependent hydrolase YfiT	ATGGATTTGAGGTATCCGATAGGACAGTTTGACTGGGGAGGCAGCACGTCGCCAGAGCACAGGAAGGTCTGGATCCAAGAGATTAAGGGAATGCCGGAGAAGCTGAGGGCAGCGGTCCAGGGGTTAAGCCACGAACAACTGGATACGGCTTATCGCGAGGGCGGCTGGACGATCCGCCAGGTTGTTCACCATCTTGCTGACAGTCATATGAACAGCTATATCCGGTTTAAACTTGCGTTGACGGAAGAGAACCCGACGATTAAACCTTATGACGAACAGAAATGGGCTGCCCTGCACGATTCATTGACACAAGACACCGACGCTTCGCTTGCATTGATCGACGGATTACATGCCAGATGGGTCGCATTATTGGAGAATATGAAGGATGGGGACTATCTGAGAACGTTCTACCATCCCGAGAACCAGCGAACAACGAGTTTGGAATACGCCGCAGGCATGTATGCATGGCATGGGAATCACCACATTGCCCACATCACTTCTGCTAGAGAACGATTTGGGTTTTAG	MDLRYPIGQFDWGGSTSPEHRKVWIQEIKGMPEKLRAAVQGLSHEQLDTAYREGGWTIRQVVHHLADSHMNSYIRFKLALTEENPTIKPYDEQKWAALHDSLTQDTDASLALIDGLHARWVALLENMKDGDYLRTFYHPENQRTTSLEYAAGMYAWHGNHHIAHITSARERFGF				NA	NA	NA	NA	NA
AK002_03661	981	iolS_2	COG0667	Aldo-keto reductase IolS	ATGGATAGAACGTTAGGCAGATCGCAAATCCCTGTAAGCCCGCTTGGCTTAGGCTGCTGGGCAATGGGCGGGAATTTTACATTGGACGGCTTGTCCGACGGATGGGGTGAGGTGGATGAACGTGAATCCGTTGCAGGGATTCATGCCGCCCTGGACAGGGGCGTTAACTTTTTTGATACGGCAGATGTATATGGTACCGGGCATAGCGAACGGGTGCTTGGCCGCGCATTAAAAGGAAAGCGGCACGAAGCCGTGATAGCCACCAAATTCGGATATACCTATGATGAAAGAACGAAGGAAGTTTTTACGCGTTATAATGTTACGCCGGATTATATCCGCTATGCTTGTGAGCGGTCTCTTCAGCGACTCGATACGGATTATATCGATCTCTACCAGATTCATGTAGGCGGATTACGCCCGGATGAGGTGGAAACGGTGATTGATGCCTTAAACGCTCTTCGTCAAGAAGGGCTGATCCGTACATATGGCTGGAGTACCTGGGATACGGCCAATGCCGAGTTATTTGCGGAGCGATCCGAAGCGGCAGCCATTCAGCACGTGCTGAATGTTCTCAGTGACGATAAGGAGATGCTTGCCCTTTGCGAACGTCATGGTTTGGCGAGCATCAATAATACGCCTTTGGCAATGGGGCTGTTAAGCGGGAAATTTAATAAGGACACCCGATTCAGTGATCAAGATGTGCGGGGAAGCGGTCACGATTGGGTCGCCTATTTCAAGGAGGGGAAAGCCGTACCGTCGTTCCTCGCTAAACTTGAAGCGGTGCGGGAGATTTTAACGAGTGAAGACCGTACTTTAGTGCAAGGAGCGTTAGCATGGATTTGGGGAAGAAGCCGCGCGGCGATTCCGATACCGGGTTTTAAAACGAAAAGGCAAGCGGAAGAATTAATAGGAGCCGTTGCTTCTGGACCTTTAACGGCTGGACAGATGAACGAAATCGAAGGAATACTGGGCTCCTTGTAG	MDRTLGRSQIPVSPLGLGCWAMGGNFTLDGLSDGWGEVDERESVAGIHAALDRGVNFFDTADVYGTGHSERVLGRALKGKRHEAVIATKFGYTYDERTKEVFTRYNVTPDYIRYACERSLQRLDTDYIDLYQIHVGGLRPDEVETVIDALNALRQEGLIRTYGWSTWDTANAELFAERSEAAAIQHVLNVLSDDKEMLALCERHGLASINNTPLAMGLLSGKFNKDTRFSDQDVRGSGHDWVAYFKEGKAVPSFLAKLEAVREILTSEDRTLVQGALAWIWGRSRAAIPIPGFKTKRQAEELIGAVASGPLTAGQMNEIEGILGSL				NA	NA	NA	NA	NA
AK002_03662	1428	gabR_3	COG1167	HTH-type transcriptional regulatory protein GabR	GTGTACGGCATTTATATCGACCGTGAATCGAAACGATCCGCAATCCATCAAGTATGCCAGCAGCTGCGAAGGCTGATCGAATCGGGACAGCTGGCAGCGGGAACACGGCTGCTTCCGACCCGGGTTCTGGCCAAAGAGTGGGGCATTGCGCGCAATGTAGTCATCGAGGTATATGAGCAGCTGACGGCCGAGGGATATTTGGAAGGGCGCGTAGGATCAGGCACCTATGTAGCGGGCGGGATTATCCCCTCTCCCCGTCCACGAAACGAGCCATCTGTCGGCGAGCAGCCGATCCATAAAGATACATCGACTGAACATTCGCACATGATCGATTTTGCCGCCGGCATTCCCGATCAGAAGATGTTTCCAAGGCACATCTGGGCCAAGTACTTGAAACAAGCAGCTGAGGACTCCGTTAATGCAAACCATGATTACGGTCACATCAAAGGTGATAAGATGCTGCGCTCTGCCATTTGCGACTATGTATTCCGGTCCAAGGGCATTCAATGCTCATCCGATCAAATCGTGATCGTGTCCGGCGCTTCCGAAGGGCTGCTCCTCCTTGCCAAATCGTTAGCTTCCAGGTTTCATTCCATCTATATCGAAGACCCCACGATCGATATTACCCGCGATATTTTTCAGATGATGAACTATCGGCTTGTGCCGGTTGAGGTGGATCACAGCGGCATGCGCATCGACGCCGTGACGAGTTTCGCTCCAGGTCATCTGGTATTATTAACGCCGTCACATCAGTTTCCTTCCGGCAGCGTATTATCCATCCAGCGCAGACATCAGGTCATCCGGATGCTGGAGGAAGCCGACTCCTTCGTGATCGAAGATGATTATGACAGCGAATTCCGGCTTCGAGGAATCCCGGTGCCTCCTCTGCAGACGCTCTCGCCTTCGAGAGTCATTTACGTGGGAACATTCAGCAAAACCTTAACGCCGAGCCTCCGGATCGGATTCATGATCGCGCCGCCGGATCTAACCGATTCCATAACCGAGATGAAAGATAAACTGAATATACATACCCCAGCCGTCATTCAACAAGCGCTAAGCCAATTCATTCTGGACGGCCATCTGGAACGGCATATCCATAAGATGAAAAAAGTGTACAAGAAACGCCGCAATGTATTAACGGAGCGGCTCCATCACTTGTTCGGGCAGGATATTTCCATTGTCGGCGATGATGCGGGGATGCATCTTCATGTGATATTCGGTCCTCAAGCTTACGCTCTCCTCCCATGGAACGATACGGTCTCATACGGGTTTCGCGTCGAGCCTGCCTCTAATTACAGAATCTCGCCATCGCGTCCTCCGAGTTCAACAGGGATCGTACTGGGATATGGAAACCTTTCGACGGAAGAGATCGAAGAAGGCTTAAGCAGGCTTTACTCATTTGCTTCCCCTTACAGGGATCCATCTTGA	MYGIYIDRESKRSAIHQVCQQLRRLIESGQLAAGTRLLPTRVLAKEWGIARNVVIEVYEQLTAEGYLEGRVGSGTYVAGGIIPSPRPRNEPSVGEQPIHKDTSTEHSHMIDFAAGIPDQKMFPRHIWAKYLKQAAEDSVNANHDYGHIKGDKMLRSAICDYVFRSKGIQCSSDQIVIVSGASEGLLLLAKSLASRFHSIYIEDPTIDITRDIFQMMNYRLVPVEVDHSGMRIDAVTSFAPGHLVLLTPSHQFPSGSVLSIQRRHQVIRMLEEADSFVIEDDYDSEFRLRGIPVPPLQTLSPSRVIYVGTFSKTLTPSLRIGFMIAPPDLTDSITEMKDKLNIHTPAVIQQALSQFILDGHLERHIHKMKKVYKKRRNVLTERLHHLFGQDISIVGDDAGMHLHVIFGPQAYALLPWNDTVSYGFRVEPASNYRISPSRPPSSTGIVLGYGNLSTEEIEEGLSRLYSFASPYRDPS	PGPT0016790_3409	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
AK002_03663	909			hypothetical protein	GTGATGAAGCTAAACGAGATACGCTGGGAACAAGCAAGGCAGTATATGCTGCAGCGGGCCAGAAACCTAGAACGGGCCTTGTTTCGTTATGAATTCGAGAACGGGTCGTTTACGGATGTGCTGATTGAGCTCTCCAGCTACCAGAACGAGGATGGCGGATTCGGTCATGGTCTTGAGCCCGACCTTCGCTGCAAGGAGTCATCCGCCCTGGCGACGACCAGAGCGCTGGAGATTCTTCGGTTACATCCGAATCATCCCGAGCGGAACGAACGGGTTATTTCCGCGTTACAGTATCTCGAGCATACGTATGTGCCTGAACGCTCAGGCTGGGACATTATCCCCAAAGAAGCGGAGCAGTCACCTAGAGCGATTTGGTGGCAATACGGCGCTTTTAAGGACCATTGGGGCAATCCCAATGCAGACATCATCGCTTATTTTATCGATGAACGGGAGCTGTATCCTCTGGAATCGCTGGATTTCTTGGTTCGTTATGCTCTGGACTACCTGAATCGAACCAGCGATTTAAAAGAAATGCATGAGCTGTTTTGTTACTTGCGCTTGAATGAGCGATTGCCAAAGGAACAGGCATCCGAGATCAGGGAGGCTTTGGAGGCTTTCATGGACAACTGCATTAGCCTGGACCCCGGCAGCCGGGAGGGATACGGGGCAACACCGCTGAGCATAATGGACACGCCGAACTCTCCTTATTTTCCAAAATATCGAGCGCTTCTTCCGGCGGAGCTGGACTTGCTTATAGAGATCCAGGGCGAAGATGGTGCCTGGGAGCCGAATTGGAGCTGGTTCCAATTCGAAGAGGTATGGCCGTCGGCCAAGGAAGAATGGAAGGGCGTTATGACGCTGAATGCGCTTCGGACGCTGCGTAATTTTGACCGGATTGAGGGGATATGA	MMKLNEIRWEQARQYMLQRARNLERALFRYEFENGSFTDVLIELSSYQNEDGGFGHGLEPDLRCKESSALATTRALEILRLHPNHPERNERVISALQYLEHTYVPERSGWDIIPKEAEQSPRAIWWQYGAFKDHWGNPNADIIAYFIDERELYPLESLDFLVRYALDYLNRTSDLKEMHELFCYLRLNERLPKEQASEIREALEAFMDNCISLDPGSREGYGATPLSIMDTPNSPYFPKYRALLPAELDLLIEIQGEDGAWEPNWSWFQFEEVWPSAKEEWKGVMTLNALRTLRNFDRIEGI				NA	NA	NA	NA	NA
AK002_03664	366			hypothetical protein	ATGAGCAAAATCATACCGTTGTTTAGGGTGTTCGACGAAACGAAGGCAAGGGAATTCTACATGCAGTATCTTGGTTTCACCTTGGACTGGGAGCACCGGTTTGACGATTCGGCGCCGCTTTACATGCAAATCTCCAAAGGTTCGTTATTGATCCATTTAACGGAGCATTACGGCGACTGCTCCCCTGGAGCAGCCATTCGCGTGGAGATCGCAGGAATTGAAGCTTTTCACGAACAGCTGTCAGGCCAGAACTATCCGTATCAGAGACCCGGAATCGAGATCGCCCCATGGAACAGCAAAGAGGTACGTGTAACGGATCCGTTCGGCAATCGAATCACTTTCTACGAGGAGATGGAACCCGAGTGA	MSKIIPLFRVFDETKAREFYMQYLGFTLDWEHRFDDSAPLYMQISKGSLLIHLTEHYGDCSPGAAIRVEIAGIEAFHEQLSGQNYPYQRPGIEIAPWNSKEVRVTDPFGNRITFYEEMEPE				NA	NA	NA	NA	NA
AK002_03665	636			hypothetical protein	ATGAATTTGTTTGAATTGGTTGAGCGGTTGTTTGAACAATATGGTTATCTGGTGTTATTGATTGGGCTCCCTCTTGATTTTATTGCTCTTCCAATTCCTCCAGGAAACACTACCCTGACTTATACCGGGTTCCTGACCTATAAGGGGGTCATCGACATGGTTCCGGCCATGGGATCTGCTTTTATAGGAGCGGCAATGGGACTGACCATTACCTATATCCTCGGCCACCGGTTAGGGATGCCGCTGATTGAACGCTATGGAAAATGGCTGTTCATCAAGCCGTCCCTTGTGGAGAAAACACAGGCGTATTACAGCAAATATGGGAACAAGCTGCTCATTGTCTGTTTTTTCATTCCCGGAGTCAGGCAGTTTATCGGGTATTTCATCGGCATGATTCGGGTTCCCTATCGGACGGTTTGGATCTATGGATACACGGGAGTGGCTGCATGGGTATTGGCCTTCTTCAGCATAGGTTTTATATTCGGGGAGCAGTGGCAGTACATTCTGAATGTGGTGGAGCATTATTTAAAAGTCATCTTTCTCTGTCTGGCAGGTTCGTTTCTCGTTCTGCTGGTATGGAGCCGCGTGAAACGCGAGAGGGCTAAGAAACTGACCAACGTGACAAGGAATGAATAG	MNLFELVERLFEQYGYLVLLIGLPLDFIALPIPPGNTTLTYTGFLTYKGVIDMVPAMGSAFIGAAMGLTITYILGHRLGMPLIERYGKWLFIKPSLVEKTQAYYSKYGNKLLIVCFFIPGVRQFIGYFIGMIRVPYRTVWIYGYTGVAAWVLAFFSIGFIFGEQWQYILNVVEHYLKVIFLCLAGSFLVLLVWSRVKRERAKKLTNVTRNE				NA	NA	NA	NA	NA
AK002_03666	1242	ugtP_1	COG0707	Processive diacylglycerol beta-glucosyltransferase	ATGAGATCCATAAATGAGCAAAAAATCATCATATTAACCGGAAGTCTGGGAGAGGGTCATAACCAGGCATCAAAGGCCATTGTGGAATCAGCAAAAAGAAAATACCCTCATCTGCGCGTTAAAGTCATTGATTACATGGAGCTAACCCATCCGCGGCTGCATGTGGCCGGACAGTTTTTCTTTGTGCAGTGGATGAAGCATTTTCCATCCGTTTACGGTTATTTGTTCCAAAAAACGCGCGAGGAAAACACGCTCATTCAGATGCTGAAACGCTTCAGTACCTTCAGTCTTCAAAAACTGAGCGCGATGCTGGAAACCGAAAAGCCGGCTATCGTAGTCAGTACGTTTCCGCCGGCAGCGGCAGGCATGTCCCTGTTGAAAGCGATGGGTTACACGGACGTGCCCACGGCCACCGTCATGACGGATCATACGGATCACAGTTATTGGATCCATTCGCATACGGATTATTACATGGTCGGTTCCGATGTGGTTCAGGTTGCATTGGAGCGCAAAGGCGTGCCGAGCGAAAAAATCTCCGTGACCGGAATTCCCGTCAACCCGCTCTACAGTCAACCGGTGGATGAGGAACGGCTGCGCGATTATTATGGCTTGAAACCATCCGAGCAGGTCGTGCTGATCATGGGCGGCGGAGAAGGGATGATCGATAAAGAAATTATTGAGCTCTTGAAATCCAGGGCATACCCGCAGGATGTTCGGTTTATGGTCGTGTGCGGACGCAATATGAAGTTATATCAATCACTGCTGGAAGAGTTTGCGGAGCATCCGCAAATCACCGTCATGGGTTATGTGGATCGTATGCATGAATTGATGGCGATGGCCGACTTGATGGTGACGAAGCCGGGAGGTCTCACGATTTCCGAAGCATTAACGATGGAACGTCCCATGCTGTTGGTTAAACCCTTGCCGGGCCAAGAGCAGGATAATGCGGACTACCTGGTTGGCATTGGCGTGGCACGTCAAGCTATGGCGGGAGAACTGCAGCATCAATTCATGGCGCTAATGACGGATCCGTCCCTGCTGCAAGAGATGAAGCGAAAAGCGGCCATTAACACGCACAAAGATTCGGCTCTATCGGTTCTGACTCGATTGATTGAGATTCAACGGCGTTACCGCCCTTCGCGAGAATGGGCCGAAGAAAAGAACCCGGTGCCCTACGAGGTGCTGAACAGGGAAGTTTATGAGAATGAAGCCCTGCACCACTACCATGACAGTTATCGGTAA	MRSINEQKIIILTGSLGEGHNQASKAIVESAKRKYPHLRVKVIDYMELTHPRLHVAGQFFFVQWMKHFPSVYGYLFQKTREENTLIQMLKRFSTFSLQKLSAMLETEKPAIVVSTFPPAAAGMSLLKAMGYTDVPTATVMTDHTDHSYWIHSHTDYYMVGSDVVQVALERKGVPSEKISVTGIPVNPLYSQPVDEERLRDYYGLKPSEQVVLIMGGGEGMIDKEIIELLKSRAYPQDVRFMVVCGRNMKLYQSLLEEFAEHPQITVMGYVDRMHELMAMADLMVTKPGGLTISEALTMERPMLLVKPLPGQEQDNADYLVGIGVARQAMAGELQHQFMALMTDPSLLQEMKRKAAINTHKDSALSVLTRLIEIQRRYRPSREWAEEKNPVPYEVLNREVYENEALHHYHDSYR	PGPT0023400_77	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023400-ugtP-K03429	NA	NA
AK002_03667	537			hypothetical protein	ATGATAAAGCGACTGCAAAGTTTTGATCACCGGGTATTCGTCTGGTGCAACCAGACGATCAGCAACCGAGCCTTTGACCGGTTGTTCGGCGGCATCACCCATCTCGGCGGAGCCACCTTCACCATTCTGAGCGCATTGCTTATCGCCTGGGCAGCATTCGAAGCTTGGGATATAACGGCATATCAGAGTGCCATTGCGTTAACCGTTAGCCATCTGATCGTGGTCCTCATCAAGAGAATCGTCAGAAGAGATCGTCCCTTCCGGGTTTTGGAACAGGTAAAGATCGGAAATTTTCCGCTGAAGGATTACTCCTTCCCTTCCGGTCATACGACGGCGATTTTTGCAGTCATTACCCCGCTGCTGTTTCTGGTTTCGCCGCTGCCGACGATACTGCTGATCATTCTGGCTGCGCTGGTCGGTCTGTCCCGTATCTATTGGGGATATCATTACCCGACCGATTGTCTGGCGGGAAGCCTGATCGGATTCGGGTCGGGATGGCTGGTCGTTTACCTGATGCATGTCTTGGGAAACACATAA	MIKRLQSFDHRVFVWCNQTISNRAFDRLFGGITHLGGATFTILSALLIAWAAFEAWDITAYQSAIALTVSHLIVVLIKRIVRRDRPFRVLEQVKIGNFPLKDYSFPSGHTTAIFAVITPLLFLVSPLPTILLIILAALVGLSRIYWGYHYPTDCLAGSLIGFGSGWLVVYLMHVLGNT	PGPT0024170_2202	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
AK002_03668	618			hypothetical protein	ATGGATTTTTTACGTAATTTAGGCGATATCGGATTATTCATTCATGCCATGATCGACGCGATCATTTTTCCGATTCCGGCACTGTTCTCGCAGTTGTCCTTAAGTGCCTTGAGTCCGGACCGTGCGATCTGGCTCGCCACGATCGGGTTTGTCGGGTGCTTGATCGGAACGCCCATCGGATATGGAATCGGCAAAGCTTCAGGTCATTTGGTGTTGACCAAGATCATGAAGAAAAAATGGTATGATTCCGCCACCGCTTTGTTCACCAAGCATGGCGAAGCCGCTATCCTGGTCGGTGCGTTTACGCCGATTCCCTTTAAAATTTTCACCATTCTATCCGGCTGCATGAACTATCCTTTATGGAAGCTTATCAGCTATGCAGCGCTCGGACGCGCCGTGAAGTTCTACACGGTGGGTGTGCTGTTCTACGTATATGGCCGTGCTGCCGAGAATATGGTGGACAGCGTGCTTACGATTATTTTGTTATCCGTAGGTGCTCTGATCGGGGGCATATGGCTGACGGTGCGGCTTATCAAGAAGCGCAGGAAAAAACGTTCGGAGGTCCCCGTCATCCAGGGGCCAAAAGATTCAATTGACGTAACGGCAGGTGAAGAATGA	MDFLRNLGDIGLFIHAMIDAIIFPIPALFSQLSLSALSPDRAIWLATIGFVGCLIGTPIGYGIGKASGHLVLTKIMKKKWYDSATALFTKHGEAAILVGAFTPIPFKIFTILSGCMNYPLWKLISYAALGRAVKFYTVGVLFYVYGRAAENMVDSVLTIILLSVGALIGGIWLTVRLIKKRRKKRSEVPVIQGPKDSIDVTAGEE				NA	NA	NA	NA	NA
AK002_03669	648		COG0637	Phosphorylated carbohydrates phosphatase	ATGATACAGGCATTTATTTTTGACATGGACGGGGTCATAATTGACAGCGAACCGCTGCACTTTGAAGTGGATATCCAGGTGATGAACTACTACGGATCATCGATAACCCATGAACAGTTGGAGAAGTATGTAGGCATGACCAATCCGGAGATGTGGGCAGCCATTAAACATGAGCATCAGCTTGCGCAATCCGTATCGGAGATTATCGAATACCAATTGTCCAATAAAATCGAGATGCTCACCTCACGGGAAATGGAGCCGATTGACGGCATCCGGGAGCTTCTGGCTGAACTTAAAGCACGACGTATCCCTGCCGCGATTGCATCATCCTCGCCTCCCGTATTTATTACGGCCGTCCTGCGCAAGTTTGATCTCCTGGATCAATTCGAATGCGTTGTAAGCGGTGAAGAAGTGGAAAAAGGAAAACCGGCGCCGGATGTGTACCTTAAGGCTGCCGAATTGTTAGGCGTGGAGCCCGAGCACTGCATGGTGCTGGAGGATGCACGGCATGGGGTTGCTGCAGCGAAGGCGGCCGGCATGACATGCATCGGCTTCGTGAACCCGAATTCGGGAAATCAGGATTTGTCGCAAGCCGATCATGTCGTGGATTCCATCGGGGACGTTCTGAGGATTTGCCAATTTGAATAG	MIQAFIFDMDGVIIDSEPLHFEVDIQVMNYYGSSITHEQLEKYVGMTNPEMWAAIKHEHQLAQSVSEIIEYQLSNKIEMLTSREMEPIDGIRELLAELKARRIPAAIASSSPPVFITAVLRKFDLLDQFECVVSGEEVEKGKPAPDVYLKAAELLGVEPEHCMVLEDARHGVAAAKAAGMTCIGFVNPNSGNQDLSQADHVVDSIGDVLRICQFE	PGPT0018430_430	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_SORBITOL_DEGRADATION,PGPT0018430-hxpB-K24204	NA	NA
AK002_03670	699	yfnB	COG1011	Putative HAD-hydrolase YfnB	TTGCGATATAACGTTATTTTATTTGATGCGGACGATACGCTATACGACTATGCCCAATCGGAGGCGTTTGCGTTAGCCGGCGTATTCGGCGAGATCCATCAGGAGTGCACGAATGCGATCGTAGACAGTTACAGGCGCATAAACCAGCAGTTGTGGAACGATTTCGAGCAGGGGATCGTGACGCAGGGCGAATTGCGTACGGCCCGGTTCGAAAGACTCCTGGCAGAACATAGTATCGATTGCGCTTTGGACGCTGAAGCTTTTAGCAATATCTACATAAAGTATTTAGGACAGGGCTCCTTTCTGATGGAAGGGGCAGAGAAGCTGTGCAGTCAACTGTCCGAGCGCGGTCAACGCATGGCCATCATCACGAACGGAATCAAGGAAGTGCAGTTTAATCGTATCAGCCGCTCGGCGCTGTGCGATTCCTTTGAATGTATCGTAGTTTCGGAGGATGCAGGATCCCAAAAACCGCACGAAGGAATATTCGATTACGCCTTCGATAAGTTAAACCACCCCGACAAAAGCGAGGTGCTCATTGTTGGCGATTCGTTAACCTCCGATATACAAGGAGGCATCCGTTACGGGATTGATACCTGCTGGTATAACCCGCAGCGAAAGGCCAATCCGACGTCCATTCACCCCAAGTATGAAATACATACTTTGGAGGAGCTCCACGACATCATTTCTTCCGAATGA	MRYNVILFDADDTLYDYAQSEAFALAGVFGEIHQECTNAIVDSYRRINQQLWNDFEQGIVTQGELRTARFERLLAEHSIDCALDAEAFSNIYIKYLGQGSFLMEGAEKLCSQLSERGQRMAIITNGIKEVQFNRISRSALCDSFECIVVSEDAGSQKPHEGIFDYAFDKLNHPDKSEVLIVGDSLTSDIQGGIRYGIDTCWYNPQRKANPTSIHPKYEIHTLEELHDIISSE	PGPT0006885_1198	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
AK002_03671	270			hypothetical protein	ATGAAACAGCTTGCCCTTGGAGCGGGAATCTTCATTGTGACGGAATTGCTTTTGATCACGCTCTTAGGCGTGGACGAATGGGCAATGATGGTGTTCTCAGCAGGTGTAATCATTACGATATTATTGTTAATCTTCATGCGTCTGACGGAGTTGGTGAAGAGTAACAGAGACCGTCTAGATCATCAACAAAGGCAGAGGATCCAGGAATTGAACCGACAATCCAGATTAACTTCGACACCCGACAATGGTTCGATGAATCCGGATGAATAA	MKQLALGAGIFIVTELLLITLLGVDEWAMMVFSAGVIITILLLIFMRLTELVKSNRDRLDHQQRQRIQELNRQSRLTSTPDNGSMNPDE				NA	NA	NA	NA	NA
AK002_03672	603			hypothetical protein	ATGAAGGCAGGGGTTATATTGAACAGCAAGACAACTATCGAATTCCAGGGTAAGCCCTTTACGATTGAATGTGAGGACATCTTCCTTCGGGAATATTTGTTGGAGGATCTGGATGCGATCTGCAAGATCACGCACGAACCGGAGATCAGACATTTCCTGCCTGGCTGGGATGTATCAAGGGAACAGCGGCGAGAGTGGTTAACCGATTATGAAATGCCGGAGAATCGGCGGTTCCTGCAAGCCGTTCAAGACGGCGGGGATGTGGGGCAGCTGCGTCTGCGGTTAGCCATCGTCTTGAAAGAAACAGGGGAATGCAGCGGCTGGTGCAATACCGGTCCTAAGGAGGAGCTGCCCCCGCCTAACCGAGAGATCATGTACGGAATCTCCAATCGGTATTACAATAAAGGATATGCCACCCAAGCCGTGCGGGCGTTAATCCGTTATTTGTTCCGGAATACAAGGGAGCGAGAACTCAACGCAATCGCCGTTGTTCATAATCATGCTTCCAATAAAGTAATCCAAAAGTGCGGGTTTGCCTATATCGGCGAGATCGAACTTGAGCAGGAGCAGTATCATCACTATAAATTATGCGATGAAAATTAG	MKAGVILNSKTTIEFQGKPFTIECEDIFLREYLLEDLDAICKITHEPEIRHFLPGWDVSREQRREWLTDYEMPENRRFLQAVQDGGDVGQLRLRLAIVLKETGECSGWCNTGPKEELPPPNREIMYGISNRYYNKGYATQAVRALIRYLFRNTRERELNAIAVVHNHASNKVIQKCGFAYIGEIELEQEQYHHYKLCDEN				NA	NA	NA	NA	NA
AK002_03673	657	ppaX_2	COG0546	Pyrophosphatase PpaX	ATGAACACCATACAAGCGGTGCTGTTTGATTTCGATGGTACTTTAGCAGATACGCTGCCGCTTTCGTTTAAAGCGTTCCGGGCGGTTTTCTTGAAATATGATGGCCAGCGGTTGACCGATGCCGAGATCGTTCAGACGTTTGGGCCAACGGAGGAAGAGATCATTGCCAATCATCTTTCAAATCCGGCCCATATTGATGAAGCCGTAGAATATTATTACGAAGTGTTTGAGCAGGATTTTCAAGAGCATGTGCAGGTATCGGAAGCCGTACAGGATCTAATTGTGAAGCTGTCGGATTTACGTATATCCATGGTTATTATCACGGGCAAGAGCAGAAGATGCCTGGATATATGTTTAAGAAATCTGAAGCTGGACGGGTATTTTGTAGCTACCATTACGGGAGATGAGGTCGAACGTTCCAAACCGGACCCGGAAGGGATATTCAAAGCCGTTCAGCTGTTGGGTCTGAGGACATCGGACGTGGTTTTTGTCGGGGACAGCGATGCCGACATTGCGGCTGGCAAATCAGCTCAGGTATTAACCATCGGGGCGCATTGGTTTGATACCGTTCAGAATGCACAATTTGCGGTGGAACCCGACTACATTTTTACACGGACCGATGAGTTGATAACATGGATCATGGCGAGGAATCATTGA	MNTIQAVLFDFDGTLADTLPLSFKAFRAVFLKYDGQRLTDAEIVQTFGPTEEEIIANHLSNPAHIDEAVEYYYEVFEQDFQEHVQVSEAVQDLIVKLSDLRISMVIITGKSRRCLDICLRNLKLDGYFVATITGDEVERSKPDPEGIFKAVQLLGLRTSDVVFVGDSDADIAAGKSAQVLTIGAHWFDTVQNAQFAVEPDYIFTRTDELITWIMARNH	PGPT0001730_6762	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK002_03674	480			hypothetical protein	ATGTATGCGCATAGGCCGCTGAGGGACGAGGATTTGCAAGCGATTTGCAGTTTTCCTCAAACGCCGGAAGAACTGTTTTACATGAGCCCAAGATCGGAATTCCCTTTGACGCCGGATCAAATCCTGAGTTTGCTTGAGAACCGCTTTGATCCCACGGTTATCGTTGAAGAATCCACCGGGCAGGTCGTCGCCTACGCGAATTTTTATGAAGATGCGGATGGATCGTTGTGGCTTGGCAATGTCATTGTTGCTCCGTCGCACCGTGGACTCGGTGCAGCGCAGAAGCTGTTGCGTACCATGATGGACATCGCCAAAGAAAAATACGATATGGAACGTTTTTATCTAAACTGTCATAATACCAATTCCAGAGGGCTTGTTTTTTATCATAAGTTGGGGTTCGAGCCGTTCGATGTCCGCATCACAGCGTTAGATGACGATCGGAAAATGATTACTATTCAGATGAGGCTGGATTTGGTCTGA	MYAHRPLRDEDLQAICSFPQTPEELFYMSPRSEFPLTPDQILSLLENRFDPTVIVEESTGQVVAYANFYEDADGSLWLGNVIVAPSHRGLGAAQKLLRTMMDIAKEKYDMERFYLNCHNTNSRGLVFYHKLGFEPFDVRITALDDDRKMITIQMRLDLV				NA	NA	NA	NA	NA
AK002_03675	747			hypothetical protein	GTGCTAAAGAGAATCGAAGAACTTGCCTTAAACGCTTGGCCGGCGCTTCAAACCTTGACACACCATGGGTGGCTGTTACGTTTTGCAGACGGTTATACGAAGAGATCCAACTCGATTAATGCCTTATACACGGATCCATCGACAGACCTTGACGCCCAAATTCATGAATGCGAGCGATTATATGTTAAGGCAGGGCTAGACGTCGTATTTAAAATCACCCCGTTCAATCCGCAGGAGCTGGACCGTATGTTGGATTCCAGAGGTTATTCCATACTCGATCCAACCAGTCTGAGGGTGTTAGATCATCTGGATCATCTGGAGCTTCCAACGCATAAGGAGGTTAAGATCGAAGAACGGCTGACGGATGAATGGCTGAGCGTGCTGACCGAGATAACTGGAATATCCGAGAAATATAAGGCTGTAAAAAGAAAGCTGTTTAACTATTCCGTGATTCAATACGGATTCTTCATCCTATATGATCGTGGTCAACCTGTGGCATGCGGGATCGGGGCAATAGAGCAAGGCGTCGTCGGCATATTTGATCTCGCTACAGCTCCGGCATGCCGAAATCGCGGGTTCGGAAAGCAGTTACTGTTGCATATTCTTCATTGGGCCAAGAAGAATGGAGCCGCAAGCAGTTATTTACAAGTGGTCCAGAACAATGTTGCTGCAAACCGATTGTACGATCGTCTTCACTACAGGGAGATCTATTCCTATTGGTATCGACATAAGCGTATCGAAGGATAA	MLKRIEELALNAWPALQTLTHHGWLLRFADGYTKRSNSINALYTDPSTDLDAQIHECERLYVKAGLDVVFKITPFNPQELDRMLDSRGYSILDPTSLRVLDHLDHLELPTHKEVKIEERLTDEWLSVLTEITGISEKYKAVKRKLFNYSVIQYGFFILYDRGQPVACGIGAIEQGVVGIFDLATAPACRNRGFGKQLLLHILHWAKKNGAASSYLQVVQNNVAANRLYDRLHYREIYSYWYRHKRIEG	PGPT0014246_658	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014246-yobR-K22476	NA	NA
AK002_03676	606			hypothetical protein	ATGTTTCATGTAGAGATTAGGCGGCCGAATCGTAATGATATGAAAGCGATGGAGCATTTTTTCCGGTTCGTGATTACCGATACGTTTGCCAAAGAAGGCTTGGCAGATTTATCGGAGGACATCGAGCAGGAGATTGACAGCAAAATTAGGTGCTTGAACGCGGATATTGCATCGAACGGAGAGCAGAGGTATTTTCTGATCGGACTTATAGACAACGGCGTTGTAAGCAGCATCGAGTTTGGCCCGTCCAATGCATTGATACGGAAAGGTTCCAATGGAGACCTGCATGACGTAGTTGAAATCGGAACCGTATTTGTGCATCCTGATTACCAGCAACAGGGAATCGGCAGTCTGATGCTTCATATCATGTTTCTTACGCTGCTCAATAAGGGGATAACGGAATTTTGTTTGGATAGCGGATATACGCGTGCTCAGAAAATATGGAAGAAGAAACTAGGTGAACCCGATTACGTCCTTCAAGATCATTGGGGGCGCGGAGTCGACCATATGATATGGAGAAGAAGGATGACGGACGTTCCCATTGTGTTTAGTATCGCCGATAGATCCAAGGAATTAGCAGAATCGAGTGGCGTGCAGGAGACATGA	MFHVEIRRPNRNDMKAMEHFFRFVITDTFAKEGLADLSEDIEQEIDSKIRCLNADIASNGEQRYFLIGLIDNGVVSSIEFGPSNALIRKGSNGDLHDVVEIGTVFVHPDYQQQGIGSLMLHIMFLTLLNKGITEFCLDSGYTRAQKIWKKKLGEPDYVLQDHWGRGVDHMIWRRRMTDVPIVFSIADRSKELAESSGVQET				NA	NA	NA	NA	NA
AK002_03677	468			hypothetical protein	GTGTTACTGAAATACATACGACAAACGGGTTCGTGGATCTGCATCCTATGGATCGTGTTGGCATTATGCTCTTGTCAGAACGGAGGGGAGCGGGTAGAGCACATTGAAGCTTTTATCGTTGAAGATATGATGATAACTGCAGATGGACTCAACATGCCTTCAGGTTATAAAAAAGTGAATTCGATAACCAATCATGAAGATAATCAAGGAGCCACGCTGTCGCGTATACGAGCGATTGAAGACTATTACGATAGCGAAGGGAAGTTTATAAAAACCAGGGTGTATGATCAGAGTCATAAACGATGGAAGAATATACCCAACGAGGATTCCAGCAGCCAAGAAAAGGAGCTTGAAACACCTCTAACCATCCACGTACCCGACGATCATTCTTGGACACCCGTTCAGCTAACGGATCAACAAAAGGATGAAATAAAAGCCCATGTTATCAAACACACCCAAAAATGGTGA	MLLKYIRQTGSWICILWIVLALCSCQNGGERVEHIEAFIVEDMMITADGLNMPSGYKKVNSITNHEDNQGATLSRIRAIEDYYDSEGKFIKTRVYDQSHKRWKNIPNEDSSSQEKELETPLTIHVPDDHSWTPVQLTDQQKDEIKAHVIKHTQKW				NA	NA	NA	NA	NA
AK002_03678	546	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGTCCATAACGCTACAAACTTCACGTCTGCAGTTGAAAACCGTGGATCGGGAACGGGCAGCGGATGTGTTGGATTTTATCGTCAGGAACGATCAGTTTTGGAAGATTTGGGAGCCTGCCAGGGAAGCGGAGTTTTATACCCTGGAGAAACAGGCTGAGATTCTGGCAGCGGAAAGTCGAAGCATCGCTGACGGTTCCTTGCTTAAAGTGTGGCTGCATCAAAACGATGAAATGATCGGCTCGATTGCGATCAGCAATATCGTGCGGGGTGTTTTTCAATCGGCTCATGTCGGGTATAAGCTGGCGCAATCTCATACGGGAAAAGGGTATATGACCGAAGCCCTGAGCGCCGTGGTGAGCTATTGCTTTGATACGCTGGAGCTGCACCGTTTGGAAGCCAACATCATGCCGAGAAACAAAGCTTCGATGAACGTAGTGAAACGACTGGGCTTCTATGAGGAAGGGCTGGCGATCAAATACCTGAAGATAAACGGTGTATGGGAAGACCACCTTCACATGGTGCTCCGTAACGAACGTATGGAGTAA	MSITLQTSRLQLKTVDRERAADVLDFIVRNDQFWKIWEPAREAEFYTLEKQAEILAAESRSIADGSLLKVWLHQNDEMIGSIAISNIVRGVFQSAHVGYKLAQSHTGKGYMTEALSAVVSYCFDTLELHRLEANIMPRNKASMNVVKRLGFYEEGLAIKYLKINGVWEDHLHMVLRNERME				NA	NA	NA	NA	NA
AK002_03679	342			hypothetical protein	ATGAAGAAAATTAAAATCGCATTGTTGGTTTTGCTGGTGCTTGTGCTCCTGTCTCCCTTTGTGTATGTTCAAGCCAACAAAATGATCTATGCCAAGAAGGTGAAGACCTACCTGCTTGAAGAAGAACATTATACGCAGGATGAAATCCAGTCGGTCCAAGGCATCTGGGGCGTTAAGCTGCCTCCTTTTTATGCCGTCGTGGTATTCAAAGACGAGCCTGAAGTAGAGTATATTTATTTTGCCCATGATACGATTATGCAGTTTGAATACCGATTGACTCCTGAGGGGGAAGCCCGCGGAATTACACGATCCATGCTAAAGCATGATATCCCAAGGGACTGA	MKKIKIALLVLLVLVLLSPFVYVQANKMIYAKKVKTYLLEEEHYTQDEIQSVQGIWGVKLPPFYAVVVFKDEPEVEYIYFAHDTIMQFEYRLTPEGEARGITRSMLKHDIPRD				NA	NA	NA	NA	NA
AK002_03680	630			hypothetical protein	TTGTTGAGCGAGAAAAATGACTACTCCCATGTATACTGGATCGGAGGCTCCCCCTGCTCGGGCAAGTCGACGATTGCCGAAAAATTGGCGAAGGATTACAGCTGCACCTATTATCAATGCGATCTATTCAACGAGAAGCATGTGACCAAATGCCATCCGTCGGAGCACCCCACCATGTCCCGATTGAAGGATATGTCCTGGAATGCATTGTGGTCGCGTCCGGTGGAGCAGCAGGTTGAGGAAGAATTGGAGTTTTACCGCGAGGAATTTGGCATGATTATGGATGATGTTTCGGCCCTGCCGAACACGAGCCCCACCATCGTTGAAGGTGCGGCTCTATTACCGGAGAAAGTCGAGCACCTGGTACCCAGCCCCCATCATGCGATATGGATCGTCCCGGTTCCGGCATTCCAGAAGGAGCATTATGCCAAACGGGAATGGATCCACGAAATTTTGGAATCATGCGATGATCCCGGCGCCGCGTTTCGAAACTGGATGGACCGGGATATCGGTTTTGCGAGATACGTGGCCAAGGATGCCATGGACCGCGGATTCAAGGTGATATTCGTGGATGGGAGCCGAAGTGTTCAGGAGAACTACGAAGAGGTCAGGCGTCATTTTATGCTATGA	MLSEKNDYSHVYWIGGSPCSGKSTIAEKLAKDYSCTYYQCDLFNEKHVTKCHPSEHPTMSRLKDMSWNALWSRPVEQQVEEELEFYREEFGMIMDDVSALPNTSPTIVEGAALLPEKVEHLVPSPHHAIWIVPVPAFQKEHYAKREWIHEILESCDDPGAAFRNWMDRDIGFARYVAKDAMDRGFKVIFVDGSRSVQENYEEVRRHFML				NA	NA	NA	NA	NA
AK002_03681	126			hypothetical protein	ATGGATATGGTCGCACTGATACTAGTTGTGGGCTTTTTGTTCGTTGTGGTATATTTGAGGGCAATTTGGAACGTGTTGCTGGACATTCGAAACGAGTTAAGAAGAGATGGCGACAGAGGGGCGTGA	MDMVALILVVGFLFVVVYLRAIWNVLLDIRNELRRDGDRGA				NA	NA	NA	NA	NA
AK002_03682	402			hypothetical protein	TTGTCCAGAATAAGACGCGGAGATATGATTTTATTCGCCATCATCCTGATCCTTGGATCCTTCACGGGGCTGCAATGGTGGAAGCATTGCCACGTGGAATATCAGCAGGGTCAGCTGCAGGCGCTGATCACGGTGAATGGCAAAGAATACGAAACCGTCCCGCTGAACGGGGACGAACGCATCATCGACATTAAGACCAAGTTTGGACACAATACATTGAAAGTTTATGACTACGGGATCCAGATGATATATTCGGATGCTCCGAAGCGAATCGCGCTGGACATGGGTTTTATCTCGGAACCTTATCAACAGATTATTTGCGTGCCGACCAGGGTCGTGGTAGAGGTGCTGGTACCTGAGCATGAACGGAACGAGTCCGAACTGGATGCCGTGGTGGGCTAG	MSRIRRGDMILFAIILILGSFTGLQWWKHCHVEYQQGQLQALITVNGKEYETVPLNGDERIIDIKTKFGHNTLKVYDYGIQMIYSDAPKRIALDMGFISEPYQQIICVPTRVVVEVLVPEHERNESELDAVVG				NA	NA	NA	NA	NA
AK002_03683	810			hypothetical protein	ATGAAACCTTCAAAAAAATTACCCGTAACCATCAGCATCCTAACGTTGATGAGCCTCACGCTGATGGCTTGCAATGGAACCGGTGCTACCGATTTCGTAACGCAGCAAACGGCTGCCACGGCCACTCAACCTTCCACCGGCTCTAACGAATCACCTCCATCCGATGCAGGCTCGGAAGCTGCCAAACGTTCCTATACGGATTATAAAGGGCACACAGTTGAGATCCCCGCATCGCCGAATCGCATCATATTTTCCGGGGAAACCTTCAGTGATTTGCTGGCATTGGACGTTAAAGCTGTCGGTACCGATACGAACCGGATGAAAGGGTCGGTCTTCGAAGATCAAATACAACATGTCGAAGATATTGGTTTTCCTACCAGCTTGGAGAAGGTGCTCGCCCTCAATCCGGATCTGATTATAGTGGCGAATCCGGACGAAACGGCTTACGAACAGCTGTCCAAGATTGCACCAACGCTTATGTTTGACACCTTTGCTGTGGGATACACGGATGAGTACTACTTCAGTCGCCGTTTCCGCCAGATCACGGGGATGTCGCCGAAGCAATACGCCGACCACATGGACGTCAGCAAGCGCGTAAAAGACTGGACCGGACATGAAGTCGATACCCCTTGGTACCCCGACGGATTCTGTATTACGGCGAGACTTTCGGCGATCTGCTTGCGATCGGGATGCAGCCGATGGGCAAACCCACCTTTAAAGCCCATAACTCAAAGGCCGATAGGCAGTATGTTTCTGAAATCAGCCATCAGAAGAATTCCATTAAAACCTTGGAATGGAAACCGGATTTGA	MKPSKKLPVTISILTLMSLTLMACNGTGATDFVTQQTAATATQPSTGSNESPPSDAGSEAAKRSYTDYKGHTVEIPASPNRIIFSGETFSDLLALDVKAVGTDTNRMKGSVFEDQIQHVEDIGFPTSLEKVLALNPDLIIVANPDETAYEQLSKIAPTLMFDTFAVGYTDEYYFSRRFRQITGMSPKQYADHMDVSKRVKDWTGHEVDTPWYPDGFCITARLSAICLRSGCSRWANPPLKPITQRPIGSMFLKSAIRRIPLKPWNGNRI				NA	NA	NA	NA	NA
AK002_03684	609	fhuD	COG0614	Iron(3+)-hydroxamate-binding protein FhuD	TTGATTTTATTGGCGCATGCCGATGAAAAAGAGTATCGGTGGTTTTCAAGAATCGCGCCTGCCGTCACATTCAATTCATTCGCTCCTCTCGCCCACCGCTTGCGCACGCTTGGCGATTGGCTTGGAAGGACCTGCGAGGCAGAGCAATGGTTGGCATGGTACCGGGCCAAGTCGGAAGAGATGTGGAGGGAGCTTCAGCGAGCGATTAAGCCTGGCGAAACGGCAACCGTCCTCGTTTTTGACCATGGGTCCCGTCTCTTCGTTATGGGAATGTCCGGCTTATCGACGGGGCTGTACCACACCCATGGTTTTCAGCCGACGGAACCTGTCCGTACGGTTCTGAGCGACGGGATGGGTTATAAGGAAATATCGGCTGAGGCTCTGCCCGCATATGCCGGCGATCGTATCTTTATGCTTCTTCCCGGCAACCCCATATCCAAGCAAGCAGCGGAAAACTTGATGGAATCCTCGATTTGGCACAACCTGCAAGCTGTCCAAAACGGCCTTGTTCACGTGCTGGAAGCCGATTGTTGGAATTACGGGGATGCACATACGCTGGTAAAGCTGCTGAATCTGCTGCCTGAACTATTATCCCCACCCATTTCATAA	MILLAHADEKEYRWFSRIAPAVTFNSFAPLAHRLRTLGDWLGRTCEAEQWLAWYRAKSEEMWRELQRAIKPGETATVLVFDHGSRLFVMGMSGLSTGLYHTHGFQPTEPVRTVLSDGMGYKEISAEALPAYAGDRIFMLLPGNPISKQAAENLMESSIWHNLQAVQNGLVHVLEADCWNYGDAHTLVKLLNLLPELLSPPIS	PGPT0003170_14	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003170-btr|ybbB-K21701	NA	NA
AK002_03685	471			hypothetical protein	ATGTGGAGGAAGCCGGAAAGCAAGGACGAAGAGACGCAGGTGCTGATCAGCCGGTTTACCCGGAAAATGAACCGCAAGACGCTCCTGAATAAATTCGCGCAAAGGACGGCCGAGGCGCTGGCCAAAGTGTTGGTCCGTCCCAACGATGACGATATCCTCAAACACGCGTTTGCCGCGGGGCCCTGCAGACCTCCGCACGGACAATATTGCACGGGCTGCGGCGCAGATGCCTCCTGCCCGTCCGATTATATCATTTGCACGCCCAAGACGGTAATCAATGATTGCAAGGGCTTATGTCCGTATCCTTCCGGGTGGTGGTATACAAGCGATCCGGTGGGACATCGGGCCAAGTGTCAGGATTGCATCTCGCAATACGTACATCCTTATGTCGGACGGGACTGGTGTTACCAGGGGGCCAGAGTCTATGGGCGGTATGTAATCTGTGCATGCCGATCAACGGAAATGTATTGA	MWRKPESKDEETQVLISRFTRKMNRKTLLNKFAQRTAEALAKVLVRPNDDDILKHAFAAGPCRPPHGQYCTGCGADASCPSDYIICTPKTVINDCKGLCPYPSGWWYTSDPVGHRAKCQDCISQYVHPYVGRDWCYQGARVYGRYVICACRSTEMY				NA	NA	NA	NA	NA
AK002_03686	540	mauD		Methylamine utilization protein MauD	ATGAACACGTTCTTCTGGATCTCATATGCCATACTGTGGATTTTGGTCGTGCCTTTGGTGATTCTGAACTTGGTCCTGTTCCGGCAGCTCGGAATCATGGTGATGGGTACCGCAAGAGGAGTGAATCAGTCCGGTATCCCGGTCGGCAGCAAAATGCCTGGAGCCACAACGACAACCTTGCAAGGAGCGGCGTGGTCCACCCGCGAGCTGATTGGCACGCCATCCCTCATGCTGTTCGGATCCCCGACGTGCAGGGAATGCGCCGAGATCCTGCCGGATTTTCAGCGGATCGCCATGATGAATAACGTGAAACCGATCCTGCTGTTATTTTCGTCCGCGGATTTGGCTTCGGATTATGTCCGCAAAATAGCATATGATGATGAGGTGCTAATCGTAAGCTCGGAGTTCGCAAATCACTTGGATGTACAGGTCACGCCTTACGCCTACGCGGTGGATGCAAACGGCATCATCAGGCATAAGGGTCTGGTCAACAGCCGGGAGCAGCTTGAAGCGTATGCGAAAGCATCAAGAGTTTCCTAA	MNTFFWISYAILWILVVPLVILNLVLFRQLGIMVMGTARGVNQSGIPVGSKMPGATTTTLQGAAWSTRELIGTPSLMLFGSPTCRECAEILPDFQRIAMMNNVKPILLLFSSADLASDYVRKIAYDDEVLIVSSEFANHLDVQVTPYAYAVDANGIIRHKGLVNSREQLEAYAKASRVS				NA	NA	NA	NA	NA
AK002_03687	528			hypothetical protein	ATGTACGATGTTCTCGCGATATCCGTTACGCTTCCCATGCTATTGTCGGTGGCAAGTTATGTCTGGGCCCGTTCCTTCGGTGATCCGGATCCATTTCCCGGGGGCGCCCGGCTGCATTTGCTGCTCATTCTTCTGCAAATTTTGACGGTGACCTTGGTATACAGCTTTCCGTCGTTGATCAGCTTCCTAGGCATTTCCTTGCTCTATTTCATTCAAGGACTGGGCGTGGCTTATTTTATTCGTAAAAAAGGAAAGGTGGACTGCGGCTGCTTCGGGCCTCAGATCAGCTCCAGGCTGGGGCTACCGTTGATAGGGTTTAATCTGGCGATGGGCTTCGCGGGATTGGTTTGCAGCTATACCGCAAGGCTTGCGTTTCATCAGTCGTTCACAGTAACGGGTCTTCTTATGGAAGGCATGATATTACTGCTTGCGCTGTTTGTTGTTGTAGGGGTTCCGGATGCCTTACACGCGATCCGAATATACTGCGAAATTGCCGCACCGCATATTTCAAAGATAAAAAGAAGGTAG	MYDVLAISVTLPMLLSVASYVWARSFGDPDPFPGGARLHLLLILLQILTVTLVYSFPSLISFLGISLLYFIQGLGVAYFIRKKGKVDCGCFGPQISSRLGLPLIGFNLAMGFAGLVCSYTARLAFHQSFTVTGLLMEGMILLLALFVVVGVPDALHAIRIYCEIAAPHISKIKRR				NA	NA	NA	NA	NA
AK002_03688	642			hypothetical protein	ATGTTGACGATGCTGCTCTTTATGTTTGCGGTAGGTGCCGCAGTGGCCAGCGTGGATACCACCTGCGGACTGAACGTGCTAGGCAGCCTGGACAGCACGAAGGTCAGTAAATTCAAATATGCATTGGTCTATATCGTGACCTGTACCCTTGGCGGTACCGTAACGGGGCTTGCGGTCGGGGGCATCAATTATGTGCTGAAATTAACCCCCGCGGGCTTATATCAAAACTACGTCATCGTTGTGCTGTTGGTCGTGTTTCTGGTCTTGGAGTTGATTCAAAAAACGGGGATCCTGCCCTCCGGCAATTTCATCGTTCCCTCGGAATGGATCAAGGCTGCAGGGTATCGATCCGCGGCGTTATGGGGCCTGATTCTGGGCTTGGGTTTCATCACGCTGCAAGTGGGCGTCCTCTTTCATGCCTACTTCGTGGTTTCCTTGTTTGCGGCTCCCTGGTGGTTGAGCCTGCTGGCAGGTGCGACGTTTGGAATGGTTCGAGGCACCGTGTTCAGCCTTCCGCTGATCCGGTCCATCGTCTACCGCATGCTTAAAAGAAGAGTATACAGCTTCACGCTGCTGACCGCGGTGCGGCTGGCGGTTTCCATGCTGCTGATCATGGGAGCCATCATCTGCATCATCATCTGA	MLTMLLFMFAVGAAVASVDTTCGLNVLGSLDSTKVSKFKYALVYIVTCTLGGTVTGLAVGGINYVLKLTPAGLYQNYVIVVLLVVFLVLELIQKTGILPSGNFIVPSEWIKAAGYRSAALWGLILGLGFITLQVGVLFHAYFVVSLFAAPWWLSLLAGATFGMVRGTVFSLPLIRSIVYRMLKRRVYSFTLLTAVRLAVSMLLIMGAIICIII				NA	NA	NA	NA	NA
AK002_03689	1452	cstA	COG1966	Peptide transporter CstA	ATGTACACCTTCATCATATCGATCATTATGCTGGTAGTTGGATATTTCACCTATGGAAAATACATCGAAAAAATGTTCGGAGTTAAAGAAGAACGGGCCACTCCCGCTTATGTCAATCAGGATGGCGTCGATTACCTTCCCATGAGCTCGAACAAAAACTCGCTTATTCAGCTCCTCAATATAGCTGGAGTAGGGCCCATCTTTGGTCCTATAATGGGAGCACTCTACGGTCCGGTTGCTTTTATTTGGATCGTGCTGGGGTGTATTTTTGCCGGTGCGGTGCATGATTATTTAACCGGAATGATCTCGATTCGCAACCGCGGCGCCCATCTGCCAGAGCTTGCGGGCAAGTTTTTGGGAAAAGTGATGAAGCACGTTGTAAACGCTTTCGCGATACTGCTGCTGATTTTGGTGGGCACGGTCTTTGTTACCTCACCAGCCAGCTTGCTCCACAATCTAATGAACGGAAAAGTCAGCTTGGTAATGATCACCTTGGTCATTTTCGCCTACTACATTCTGGCTACGCTGCTTCCGATTGATAAAATCATCGGCCGCTTTTACCCGATATTCGGAGCCCTGTTACTCATAGCATCTCTTGGTGTCGGCGGGATGTTAATCATTCAGCAGGTACCGATACCGGAATTAACCTTAGCGAACCTCCATCCGGACCAAATGCCAATCTTCCCGCTGCTGTTTCTGACGATTACTTGTGGTGCCTTGTCCGGATTCCATGCAACCCAGACACCGATTATTTCCCGTACGACGCAGACCGAGAAGCAGGGACGGAAAATCTTCTATGGAATGATGATTGCTGAGGGAATTATCGCCATGGTATGGGCCGCAGCGGCCATGAGTTTGTTCCAGGGCTCCAATGGTTTGAACGAGCTTCTTGCTACTGGCGGAACGGGTCTTGTAGTAAGCGAGGTCGCTAAGGTGACGTTAGGCGCCGTTGTGGGCACGCTGGCTGTTTTGGGAGTTATCGTGCTGCCGATTACCTCGGGAGATACGGCATTCCGAAGTGCACGGATGATTATTGCCGATTATATCAAGCTACCCCAATTTAGCATGAAACGGCGCCTCATCATTGCAGTTCCTTTATTTTTAATTTCGATTGCTTTGACGCAAATTGACTTTAATATCCTTTGGAGATATTTTTCTTGGGCGAATCAAGCCACTGCCGTCATTGCTTTGTTTGTAAGTGCAATGTATCTGTTTATCGCCCGTAAAAATTACTGGGTTGCTCTGATCCCCGGTGCGTTCATGCTTTACACTACAACGGTGTACATTCTAAACGCCGAGATCGGGTTCAGGCAGTCCATGAATGTCTCGTATATCCTGGGTGCCGTTATCAGTGCCGTATTGGTCATTGTATTTTTTAAAGCGGCGCAAAAAGCACGCGCAGCCGAAATGCCGTTGGAGGTTGACGTATCGGAGTATCATAAGGTTGCGTGA	MYTFIISIIMLVVGYFTYGKYIEKMFGVKEERATPAYVNQDGVDYLPMSSNKNSLIQLLNIAGVGPIFGPIMGALYGPVAFIWIVLGCIFAGAVHDYLTGMISIRNRGAHLPELAGKFLGKVMKHVVNAFAILLLILVGTVFVTSPASLLHNLMNGKVSLVMITLVIFAYYILATLLPIDKIIGRFYPIFGALLLIASLGVGGMLIIQQVPIPELTLANLHPDQMPIFPLLFLTITCGALSGFHATQTPIISRTTQTEKQGRKIFYGMMIAEGIIAMVWAAAAMSLFQGSNGLNELLATGGTGLVVSEVAKVTLGAVVGTLAVLGVIVLPITSGDTAFRSARMIIADYIKLPQFSMKRRLIIAVPLFLISIALTQIDFNILWRYFSWANQATAVIALFVSAMYLFIARKNYWVALIPGAFMLYTTTVYILNAEIGFRQSMNVSYILGAVISAVLVIVFFKAAQKARAAEMPLEVDVSEYHKVA	PGPT0015060_1996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
AK002_03690	738	ypdB_2	COG3279	Transcriptional regulatory protein YpdB	ATGAGCGAACGAATTCGAACACTCATCGTAGACGATGAACGATATAGCCGCGAGGAGCTTAAATATTTGTTAAAGCAGCATCCTGCATTAGAGATCGTTGGCGAAGCGGACTCGGGTGAACAGGCGGTGTTAAAAACCTTACAGTTGAAACCGGAAGCCGTTTTTCTTGATGTCGAAATGCCCTTGATGAACGGCCTTGAAGCTGCGAGCGCGTTAATCGGGTTAAAGCTCTCTCCGAAAATCGTGTTTGCTACGGCATACCCTCAATTCGGAGTAGAGGCTTTCCGGTTTGAAGCACTGGACTACTTGTTAAAGCCCATAGACGAAGAACGACTGGCGGAGACGGTGAGGCGTCTTGAGCAGTCATTACGGAAGGATGAAATTACATTGCCGGTTCCGGCCAAATCTTGCGGAAAGCTCTCGCTGGAAGCGGATGGGGAAATTGCATTCATCGCCCCCGATGATATTATCTATATTTCGCGCGAGGATGCATACTCCAAGATTGTCACGGCCAATAAGGAATACCATGTAAAGACTCCACTGAAGGAGCTGGAGGCAAAGCTTCGGCAGTATCCGTTCTTTCGAATTCATAAAAGCTATGTCGTGCACCTTGATTACGTCAAAAGCCTGGTTCCATGGTTTAATGGCGCATTTCAGCTTGAATTGAAGGGATGCAGCGACAAACTCGCCGTAAGCCGAAATTATGCAAAGGCATTTCGAGAAGCTCTGGAGCTATAG	MSERIRTLIVDDERYSREELKYLLKQHPALEIVGEADSGEQAVLKTLQLKPEAVFLDVEMPLMNGLEAASALIGLKLSPKIVFATAYPQFGVEAFRFEALDYLLKPIDEERLAETVRRLEQSLRKDEITLPVPAKSCGKLSLEADGEIAFIAPDDIIYISREDAYSKIVTANKEYHVKTPLKELEAKLRQYPFFRIHKSYVVHLDYVKSLVPWFNGAFQLELKGCSDKLAVSRNYAKAFREALEL				NA	NA	NA	NA	NA
AK002_03691	1770	ypdA_1	COG3275	Sensor histidine kinase YpdA	TTGACTAATGATGGATTACGGGGTGATGCCGTGTTTGAACTGCTTATTACGATGACCGAGCGGATCGGAATTATTGTGACGATTGCATTTATCGTAACCCGGCTAAGGTTCTTCCGGACGATGATAAGCCAGGACAAGCTGTCACCTGTTCAGCAGATGCAAGCCATGCTAGTTTTTGGGGTTTTGGGTATTATCGGGACATACACCGGAATTACGGTCAGCACCGACTCCCTGGAAGTCGATAAATGGATGGTGCAGGTTTCCGCAGACGAAGCGATTGCGAACTCAAGGGTTGTCGGCGTCGTCATGGCGGGGCTGTTCGGAGGCTACAGGATCGGATTGGGTGCGGGATTGATCGCAGGGCTCCACCGTTTTACGTTAGGGGGATTTACGAGTTTGGCGTGTGGGCTCGCAACCATATTAGCAGGCCTTCTGGCCAGCTTGTTTCATAGAAAAAATGAGCGCGTTCGCTTTTCCGCTGCGCTGATCATGGGCGCATTGGCTGAAACCCTTCAAATGCTGATCATACTGCTCTTGTCCAGACCATTCGAACAGGCAATATCTTTGGTCGGATATATTGGAGTTCCGATGATTGTGGCTAATGGGATCGGTTGTGCTTTGTTTCTGCTCATCATCCGATCCGTATTAAACGAAGAGGAGAAGGCAGCGGCCCAACAGGCCCAAGCTTCTCTTCGTATAGCTCGCAGGACCATTGGATACATGCGCCAGGGTATGAATGCGAAATCTGCTGAAGGGGTGTGCCAAATATTATTCGAGGAAGTCAATGCCACGGCGGTTACCATTACGAATGATCGAATGATTCTGGCCCATGTCGGAACGGGGGATGATCATCATGCGCCAGGCCGTCCGCTTCAAACCGAAGTGACGCGGCGGGTAATTGAACAAGGGGAGCAATTGATCGTGGATCGGAAGCGCATTCAGTGCCAGGAGCCGGATTGTCCGCTGGGAGCGGCCGTCATCGGACCTTTGAAACAAGGGGGGCAGACTGTAGGGACCCTTAAATTTTATTTTAAGAATTCGAGAGATATTACCCACGTGACAACAGAGCTGATGTCAGGTCTAACGATGTTGTTAAGCTACCAGCTGGAGGCGGCCCAGTTGGCGGAAACCAAGGAGCTTGCCAAGGAAGCAGAAATCAAAACGCTTCAAGCTCAAATTCACCCGCATTTTTTGTTTAATGCATTAAACACCATCCTATCCTTGACACGGATTGATGCGGTGAAGGCAAGAAATCTGTTGCGAAGTCTCTCGGATTATATTCGGCAGAATTTGTCGGCGGCTACAGCCGAGAAATCAACGCTTCAGGATGAGCTTCAACATATACGCTCTTATATGAGCATTGAACAAACCCGATTCGAGGATAAACTGCACATTCGATATGAGGTAGAGGAATCTGCGCTGAAAGCGCTAGTGCCGCCGCTGACCTTACAGCCGTTAGTGGAGAACAGCATACGACACGGTTTCAGGAACAAAACGGACAATTGCGTCATTCATATTCTCGTACAGGGTCATCCTGACTGGGGGGTGTCCGTGACCATCCGAGATAACGGCGAGGGCATAACTCCAGAACGGCTTCGGCACTTGGGCCGTCAAATGCTCGATTCGTCTTCGGGCACTGGAATGGCTGTATATAATGTGAACAGAAGATTAACCTTGATGTATGGACAGGAAGCATCATTAAACATCAATAGTAATCAAGCGGAAGGAACCGAAATCAAATTTCAGATTCCAGCTGCTGTAAAAAGGTAA	MTNDGLRGDAVFELLITMTERIGIIVTIAFIVTRLRFFRTMISQDKLSPVQQMQAMLVFGVLGIIGTYTGITVSTDSLEVDKWMVQVSADEAIANSRVVGVVMAGLFGGYRIGLGAGLIAGLHRFTLGGFTSLACGLATILAGLLASLFHRKNERVRFSAALIMGALAETLQMLIILLLSRPFEQAISLVGYIGVPMIVANGIGCALFLLIIRSVLNEEEKAAAQQAQASLRIARRTIGYMRQGMNAKSAEGVCQILFEEVNATAVTITNDRMILAHVGTGDDHHAPGRPLQTEVTRRVIEQGEQLIVDRKRIQCQEPDCPLGAAVIGPLKQGGQTVGTLKFYFKNSRDITHVTTELMSGLTMLLSYQLEAAQLAETKELAKEAEIKTLQAQIHPHFLFNALNTILSLTRIDAVKARNLLRSLSDYIRQNLSAATAEKSTLQDELQHIRSYMSIEQTRFEDKLHIRYEVEESALKALVPPLTLQPLVENSIRHGFRNKTDNCVIHILVQGHPDWGVSVTIRDNGEGITPERLRHLGRQMLDSSSGTGMAVYNVNRRLTLMYGQEASLNINSNQAEGTEIKFQIPAAVKR	PGPT0026305_725	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
AK002_03692	420			hypothetical protein	ATGTGTTCGATCACGGTTCGAAGCATGGCCGATTACGAACGCGATGTTCGCGGCGAAGTGTCCGAGGTGTTTGTTAACGGGTATTATAAGGAGTTGTCTTATTTCACCCGAGACCGGAACATGCTGGAGAACGCCTTACGGACGCTGTTCAGCCCGGAGGTATTTTATGTGGCGGAGGTTCAGGGAATCATAATCGGAATCTTGGCTTGTTCCCATAATGGGCAGCGGGCCATGCCGGTCGCGTTAGCCCCGCTTCAGGATGCTTTTGGAGACAAGACGGGAGAGCTTGCATATAACGTCATGAAGAACGAATTCAACCCGGCATTGCCCTATGATGACGAGACCGGATATATCGAATGCGTGGCCACAACCGAAAAAGCACGCGACCGGATTTATATGGAGTGGAGAAAGCCTGTTTAG	MCSITVRSMADYERDVRGEVSEVFVNGYYKELSYFTRDRNMLENALRTLFSPEVFYVAEVQGIIIGILACSHNGQRAMPVALAPLQDAFGDKTGELAYNVMKNEFNPALPYDDETGYIECVATTEKARDRIYMEWRKPV				NA	NA	NA	NA	NA
AK002_03693	681			hypothetical protein	ATGAGATGCGAAAGCTGTGGCGTATCCGTAGATCCGGCGCATCAAGCGTGTCCCTTATGCCGAAGGAGTGTGCAAGGTAAAGATGATAAGCACCTCGTAAGTAATTCATGGTATCCCGTCTACGAGGCTGCCGAGGAGCAGCATGCGAGCAGCAGTCTTGTATCCAAGTGGCTTACCTTTCTTGCCGTATCCGTCATGGGGATATCCGTCCTGATTAACCTACTTGGGAATCGCGAGGTATGGTGGAGTTTAACCCTCATGCCCTGCGTGCTGTATGCGTGGTTGTCCATCAGGCACACCCTGATGTCCGGGTCGCATCTCGGCGGCAAAATTATTGTTCAGCTGCTTGGGCTGTCCGGTATGCTGCTGTGGATCAACTTGGCGTCGGGGACGTCTTACTGGTCGACCGGTTATGTCATTCCGTTCCTGATGATGGCGGCAACATTGCTCATTACCGTCATATGCTGTTCGCGAAAAATGGGCTGGCGGGAGTTCGCAGGTTACTTATTAACACTGATCCTTCTTGGTATCGTTCCCTTATTGCTGTATGCCGTTGGCATGTCGCACGTACTATGGACAGCCGTAGCTGCGGCGGTGTACGCCTTGCTGACATTCGGCGGGATGTGCCTGATTGCAGACAAGGGATTCCGCAAGGAAATGAAGCGCAGACTACATTTTTGA	MRCESCGVSVDPAHQACPLCRRSVQGKDDKHLVSNSWYPVYEAAEEQHASSSLVSKWLTFLAVSVMGISVLINLLGNREVWWSLTLMPCVLYAWLSIRHTLMSGSHLGGKIIVQLLGLSGMLLWINLASGTSYWSTGYVIPFLMMAATLLITVICCSRKMGWREFAGYLLTLILLGIVPLLLYAVGMSHVLWTAVAAAVYALLTFGGMCLIADKGFRKEMKRRLHF				NA	NA	NA	NA	NA
AK002_03694	1272			hypothetical protein	ATGGAAGAATGGTATAAACTTGACCACGCGGGAAAGCTGTTCCCCGCGGTTGCGGGGAGGGAGAATTCATCTACCTACCGGCTGTCGATGATGCTGACAAGCCGGGTGAAACCAACGGTTTTGCAAGAAGCGCTCGATAGCGTAATTAAGAGATTCCCTCTATTGAATGTCGAGCTAAGAAATGGACTGTTCTGGAAATTTCTGCGGGAGAAGGAGACACGCTTGATGGTGGAGCCGGAATCCGCCTACCCCTGTGCCCCCGTCACTCTTTCGCATGAGAACGGAAGCTTGGTGAGGGTTCTGTATTACGGCAGCAAGATCAGCGTGGAGATTTTTCATGCTTTAACGGACGGGGGAGGGGCATTGGAGTTCCTCAAAACCTTGGTATTTCAGTATTTATCTCTTCTCGGCGAGGACGTGGAGGACAAGGAAGGCCTGATTCTGCCGCCTGCTTCATTTGCCCGTTATGCTGAAGCTCAAGATAGCTTTCAAGCGCATTATATTTCGGCCACACCCGATGCCAGGATGCCGGATGCACTTCAGATTCCGGGCACCCGTTTCTCGCCTTATGGACACAACGTCATACACGGGATGGTTCACGCATCGCGGCTGAATGCGGCAGCCAAGCAGAAGGGAGTAACCCTTACTGCTTACCTGACGGCAATTTTGATTATGGCGGTTTACGATACCACACTGCCTTTCAATAACGATAACCGGCCGATCGTGATCAGCATGCCGGTGAACCTGCGAAAAATCTTTCCTTCCAGCAGCCTCCGCAACTTTTTTGCGGTCATCAACATTGGCGTGCAACTAAAGGAAGGCATGACATTCGAGCAGGTGCTCGAAATCGTTCATGCACAGATGAAAGAGAAAACGACCAAGTCTTATTTAAGCCAAGCGATGGCCGGCAGCATGAAGTACGAAAAAAACCTGTTTTCCCGCTTCACGCCGCTGAAATTAAAGGATCTGGCAATCCGTTACGGCTTCGACCATTTCGGGGAAGAAGCCAAAACGCTTACGCTTACCAACCTAGGCCGAGTCGACATTCCAGCGAGCATGGCATCCCATATCGAGGCGATGGAAACCACGATGTATCCTACAGCCAAAAGTCCCATGAACTGTGCCGTCAGCTCGATCAACGATCAGCTCACCATCACGTTTGCCCGAAATATCGTCGAAAGCGATGTGATCATGCGCTTTTTTCGCCAGCTTGCCAGCCTGAGCGAATTGGACATTACGATTGTCAGCAATGATTGGGGGATGGGCGCATGA	MEEWYKLDHAGKLFPAVAGRENSSTYRLSMMLTSRVKPTVLQEALDSVIKRFPLLNVELRNGLFWKFLREKETRLMVEPESAYPCAPVTLSHENGSLVRVLYYGSKISVEIFHALTDGGGALEFLKTLVFQYLSLLGEDVEDKEGLILPPASFARYAEAQDSFQAHYISATPDARMPDALQIPGTRFSPYGHNVIHGMVHASRLNAAAKQKGVTLTAYLTAILIMAVYDTTLPFNNDNRPIVISMPVNLRKIFPSSSLRNFFAVINIGVQLKEGMTFEQVLEIVHAQMKEKTTKSYLSQAMAGSMKYEKNLFSRFTPLKLKDLAIRYGFDHFGEEAKTLTLTNLGRVDIPASMASHIEAMETTMYPTAKSPMNCAVSSINDQLTITFARNIVESDVIMRFFRQLASLSELDITIVSNDWGMGA				NA	NA	NA	NA	NA
AK002_03695	648			hypothetical protein	GTGTTGGATCTGCTGCAAAAATCACTTAAAACCTTCATGCAAAGCACATGGATGATATGGGAACGTTTCTTCAGCTTTATTTCCAAATTCCGCAGCTCGCATATCTCGCGCTTTGGCATATGCACGGTCATGATCAAGAAGCATCGAGGGGAGCGCATCGTCTGCGAGGATTCCACGGTCATTCAGGAGGGGGATCTGGTAGGCGAGCTTCATTTGGATAATGAGACGATTCTGAAGCTCATTCGAGCAGAAGGGCCGGACCGCGCGGCCCTGAAGATTGCGAGGCTTGGAAGAAAATCCATGCAGCAGATTAGCCGCGCCTATGAAAGCCAATCCGAGTTCAACGAGGTTAACGCATTGGTCGGGATTACGCTGCTTCACCGGGGATTAACGCATGGGCTTGGTTTTGAGCATCAAGCAATGAAACCGGATTTGTTCCAGAAGCTGACCACGTCCTATCTGCGCATACTGTTGTCCGTGATGCACCCGGAGGGTAAGAGCCGCATCGATCGAAGAACCGAATTGCTCGTACCGATGAAGTTGATTCATACCCGATCCTCTTTAAGGAAACGATTTTCGATGGGAGATCGGAGACAGCCACATGAAGAGGGGAACGCGGTCTTGGTATCGGCTGCGGTCGAAGGTTGA	MLDLLQKSLKTFMQSTWMIWERFFSFISKFRSSHISRFGICTVMIKKHRGERIVCEDSTVIQEGDLVGELHLDNETILKLIRAEGPDRAALKIARLGRKSMQQISRAYESQSEFNEVNALVGITLLHRGLTHGLGFEHQAMKPDLFQKLTTSYLRILLSVMHPEGKSRIDRRTELLVPMKLIHTRSSLRKRFSMGDRRQPHEEGNAVLVSAAVEG				NA	NA	NA	NA	NA
AK002_03696	2397			hypothetical protein	ATGAGGTTTTCACATTTACGAAGGTGCGGGCTTTTGTTTCTGGCGGCCGTTCTGTATACTACACTCTGTGTTCCATTACCGCAGGCTAAAGCGGCAGCGTTCATTACGATTGACTCCCATCAGGACGGGCAAGCACTGCAGCCGGGAGTAACGGAGTTATTCGGAACCTATTCCGGGGTATATGAGCTTCAACTCATCGTGAACGGCGAGTTCGTAACGGATGTTCAGATGGAGGATCCAAACGGCGATGACAGCGGAAACTGGTCCTATAAACTCGACACAAGCCGACTTGACGGCCCCGTCGAAATGGTCCTGAAAGGCAATGACGCGATAACGCGTTATGGCATCTGGTCTCCTTGGATTCACTTGATCACCGATAATCCTGCAGCTCATACACCGGAAGTGGAGATTACCAGCCCTGCCGAGTCTACGCTGCAGCGCAACAAAATGAAAATCAACGTATCCGCAGAAGGCAAAAATTCGATTGCGCTGGTTGAGTTCCGCATCGACGGTGGCGACTGGCTGCAGGTTCCCCCTGCCAAGAACGGATATTCATATACATTGGATTTACGTCAATTCCCTCGCCAGGTTCACAGTCTCGAGGCAAGGGCAACCGATACACGCGGCAATACAGGTTATAGTCTAACGGTCTATGCAAGAACCGGGGGACAGACGTCGGCTCAGCAAGATCAGGATTTCGCAACGGTTACGAATACCGTTTATATGGCGGATGATCATATCAACCCACCTCTCGCTAATGGAATGGATGATGTTTACAATCCCTCGGCGACGAATCCTGAGACGGTGACCAGCAGCACTTATGGCCTGGAACCGCTGCCGGATCAGGATCGTGCGATCTGGATCTGGGAAAATGCCTCCTATCCCCTGGTCCTGAATCCGAATTCCCGAGCCGTCCTCTCTTCCATGGCGAAGGATGTTACGACTTTCCATCAACGTCCCATCACGACGCTCTATTTGGCTGTGGGGCAATATAACGGAGCAAAAATGCTGGAGGATTACCGAAGCGAAGTCCAACAGTTCGTCGAGTGGGCTCACGCCGAGGGTTTTTATGTTCAAGCCTTAATCGCCGGGGGCACCGTCCCGCCTTACTTCGGAGCCTACAGCCGATATCAAACTCACGCCGTGCGGGAGTTTGAGCAAATCCTGAATTACAACCTGGCTTCCGGCGAATCCGCTCGCTTCGACGGCGTGAACGTGGATACCGAGCCGTATATCCTGCCGGACTTCAAAACCGCAAAGCCATCCGTCCAGATTCAGTATCTGGATATGCTGCAGCTGCTCATGGAACGCAAACAAGCATCGGGACTCACCTTGTCGGTTGGCGCAGCGATCCCGAGATGGTATGACACTTCGGCCGATGCGAGCAATATCCCGTGGAACGGGCAAACCAAATGGCTGTCTGAACACATTCAGGATACCGCCGATTACATCTCGATCATGAATTACCGCGATCAGGCGGATGGCAGTGCAGGCATTATCGCGCAAGCGCTGAATGAGCTGACCTACGCCAATCTGATCGGCAAGCCGAAGTCGGTTGTGATCGGTGTCGAGACAAAGGACATCGCGGATGGCGGGGACCCCGAAACCATCAGCTTCCATGAAGAAGGACGAATTTATATGGAGTCGGAGTTAAACAAGGTGTACGACGCTGTTCAGCATGACCCGGCGTTTGGAGGCATTGCCCTCCACCACTACTCCTCGATCTTGGATTTTCCAAGCGAATGGGGACCCGGCGGCTATGCCTGGCAGCCTCCTGCCGACCATGAACCGCCAAGCGCGGTCAGCGGAGCGGCAGCTATCGCATTTGATTATCAACGGATCAATGTAACCTACGATATGGCAATGGATAACAGTGCCGTAAATGCATACCGGATCTATCGTGGGACCGAAGCCGGATTTGAGATCGGACCCGCTACTTACGCCGGAACCTCGAAAGGACTTTCTTATAAAGATACAGGGCTGCTGCCGGACACCACCTATTATTACAAAATCACTGCGGTCGATATCAGCGGCAATGAAGGAGCTCCCAGTTTGGCTGCATCCGCAACGACGATGCCGTCTGCGATGAAATCGATGGTGATCGACCAGATGAACATCACTTACACCGCCGGCATCGCCAAAGTCACTTTTAAGATGGTCGATATGGAGACAAGAATGCCTGTTGCGGCCAAGATCAGCGGACGATTCACCCATATGGCAGGCAAATACGTTACGGCCGCAACGAGTGCGGAAGGCATATTCCAAACGCAGTCCGAGCTTGTCTCCGTATCCCGCGGCGAGATCGCCTTCCAGCCGAGGCGAATCATGGCGGACTCCTACTACTGGGCAAGTGCCTATGACCAACTCCCGTATCCAACGGTGATATGGGAGCCGTGA	MRFSHLRRCGLLFLAAVLYTTLCVPLPQAKAAAFITIDSHQDGQALQPGVTELFGTYSGVYELQLIVNGEFVTDVQMEDPNGDDSGNWSYKLDTSRLDGPVEMVLKGNDAITRYGIWSPWIHLITDNPAAHTPEVEITSPAESTLQRNKMKINVSAEGKNSIALVEFRIDGGDWLQVPPAKNGYSYTLDLRQFPRQVHSLEARATDTRGNTGYSLTVYARTGGQTSAQQDQDFATVTNTVYMADDHINPPLANGMDDVYNPSATNPETVTSSTYGLEPLPDQDRAIWIWENASYPLVLNPNSRAVLSSMAKDVTTFHQRPITTLYLAVGQYNGAKMLEDYRSEVQQFVEWAHAEGFYVQALIAGGTVPPYFGAYSRYQTHAVREFEQILNYNLASGESARFDGVNVDTEPYILPDFKTAKPSVQIQYLDMLQLLMERKQASGLTLSVGAAIPRWYDTSADASNIPWNGQTKWLSEHIQDTADYISIMNYRDQADGSAGIIAQALNELTYANLIGKPKSVVIGVETKDIADGGDPETISFHEEGRIYMESELNKVYDAVQHDPAFGGIALHHYSSILDFPSEWGPGGYAWQPPADHEPPSAVSGAAAIAFDYQRINVTYDMAMDNSAVNAYRIYRGTEAGFEIGPATYAGTSKGLSYKDTGLLPDTTYYYKITAVDISGNEGAPSLAASATTMPSAMKSMVIDQMNITYTAGIAKVTFKMVDMETRMPVAAKISGRFTHMAGKYVTAATSAEGIFQTQSELVSVSRGEIAFQPRRIMADSYYWASAYDQLPYPTVIWEP				NA	NA	NA	NA	NA
AK002_03697	609			hypothetical protein	GTGCTAATTTCACAAATGCAACCGGAAGCATTAACGAGAGAACAGATCACAAGGTTGGTGTTCGGCACAGTAGAGGAAGTGGATGACGGTAGGCAGACCGGAGACTGTATCTTTGTGTTTGGTGGAAGAAACTTAGACCGGGTGTGGAAAGCGGTCGAGTTATACAACATCGGTCGTGCTCCTTACATATTATTCACGGGTGGTGACCGATTCGGCGAGTGGGAGCAAACCGAGGCGGCCATGATGCGTGATGAAGCGATGCGAATGGGGATTCCGGCGGAAGCCATCCTCATGGAAACGATGTCCAACCATACAAAGGAAAACATCATGGCTTCCCTCATCGTCCTCGACCGAGCATTGGGCTTGGAACGAATCCAGCGCATCTTGCTGGTCAGCGCATCTGGTCATATGCGCAGATGCCAATTGATGCTTAAGACCTTTATGCCGCCGTGGTATGAGTATGTGTGGTGCCCGGACGATCGTTCACATGGGAGGCGGGACAATTGGTGGATCGATCCAGAGGAAGAGAAGCGGGTGCTAGGTGAACTGAAGAAAGTGATCGGCGGGGTTAAGGACCGATATTTTGTTGATGCGGATATTGATATTTGA	MLISQMQPEALTREQITRLVFGTVEEVDDGRQTGDCIFVFGGRNLDRVWKAVELYNIGRAPYILFTGGDRFGEWEQTEAAMMRDEAMRMGIPAEAILMETMSNHTKENIMASLIVLDRALGLERIQRILLVSASGHMRRCQLMLKTFMPPWYEYVWCPDDRSHGRRDNWWIDPEEEKRVLGELKKVIGGVKDRYFVDADIDI				NA	NA	NA	NA	NA
AK002_03698	540			hypothetical protein	ATGGATTTACATCTATATCATTATTATGATGCGGCAACAGGGCCCTTTCAAAATCTATCCGCGTTGTCCATCGAAAAGGCGATGCAGGTACAGAGGAGGCTCAAACAAAATAAAAATGGGTTTGCGAGTCAACGTGCGGATGATTATATGACCATCCGTCGCGATCTGGAAGCACGCGCGAGAGCTCTATTCACGGCCAAAGGCGGTAAACCAACAAAAGAATATCCGCATTATATGACGCTTGGGCCTTGCGAATGGATTAAGGAATGGTATCCGAATGGAAAAGAAATCAGGATTCTGCTGGATGAAATGGATCCCGAAACGTTGAGTTTTACTTATGGCGACTTATTTCCTACCATGCGGTATCTAGACGACAAGCCTTATAGAGGAACGGTATATGTAAAAAACGAGATCCTTCAACTTGTAGACGAGTTTGGCTGGCCGCAAGATTGGAACAAAGATGGTCGTCATGGACCCGAGCGGTATATTGAAGTGCAGGTTTGGGACGATCGGGCACTCGGTCCTTTTATGAAATCCTAG	MDLHLYHYYDAATGPFQNLSALSIEKAMQVQRRLKQNKNGFASQRADDYMTIRRDLEARARALFTAKGGKPTKEYPHYMTLGPCEWIKEWYPNGKEIRILLDEMDPETLSFTYGDLFPTMRYLDDKPYRGTVYVKNEILQLVDEFGWPQDWNKDGRHGPERYIEVQVWDDRALGPFMKS				NA	NA	NA	NA	NA
AK002_03699	573			hypothetical protein	ATGATCATATTAATCAGCGGAAACAGCTGCACGGGAAAGACATATATGGCTCAACAATTACTTGAAAAGTATCACATGCCTTATCTGTCTATCGATCATTTGAAAATGGGCTTGTACAGAGCCGACATGAACTGCGGTTTCACTCCGATGGATTCAACCGAGCATATCGGTGAACAATTATGGCCGATAATCCAAGGGATCATCATGACAAACATCGAAAACAAGCAAAATTTAATCATCGAAGGCTGTTACATACTGCCTCATCATCTGCAAGATTTTGAGCCGCCCTATTCGCAACACATCATTTCCGTGTTCTTAGGATTCTCCACCACGTACATCAGGCAGAATTTCCAAACCAATATCGTTCAACACCGCAATGCTATCGAAGCGAGAATGTATCCTGAAGAGAGAACTGTTGCCGAGTATATTCATGAGCATGATGTGTTCCGTGAAAAGTGCGTGGCATCGAATGTCCCTTATTTTGAAATTCGAGAGAACTATGAAGAGGAAATCGCTAATGTATATGCCTACATAGATCGTGAGAAGAAGATACTCGATTATGAACAGCGATAA	MIILISGNSCTGKTYMAQQLLEKYHMPYLSIDHLKMGLYRADMNCGFTPMDSTEHIGEQLWPIIQGIIMTNIENKQNLIIEGCYILPHHLQDFEPPYSQHIISVFLGFSTTYIRQNFQTNIVQHRNAIEARMYPEERTVAEYIHEHDVFREKCVASNVPYFEIRENYEEEIANVYAYIDREKKILDYEQR				NA	NA	NA	NA	NA
AK002_03700	597			hypothetical protein	ATGACGGCAAAACCACAACTGGTATTGGATTTAGCTGGCGTATTGGTGAGTAATTTTTCATCTGCTTTTTGGCTTACATTAGCGGAGGGCTCCGAAATCTCGTTTCAAGATATCAGGGTACAATTTGATGAGGTTCGAAAAGACTTATGGACAGGAAAGATGAAGGAAGATGAGTTTTGGGGATGGATGAGCCTGCGAATGAAGCAGATCAACAAAGAGGAAGCCAGGGAGTTAATAACTCAATCGTTGCAACCGCTTCCTGGATTAAATCACTTGGCGCAATGGAGCGAAATCGCGGATATCCATGTACTAAGCAATCATTGCAAGGAATGGCTGGAGCCGATATTAGAAAAAGTAGAACCTTATGCTAGGAGCATTACCATTTCGAATCAAGTAGGTTTAAGGAAACCTGACCTACAAATTTATAAACATGTTGTGAAACAATTCGAACGTTCCGAACTGATGGTTGTTTATGTTGATGATCAGGAAAAGAACCTGAAACCGGCTATCGACCTTGGATGGAAAACCTTGCTGGCCGATCAAGAGCATAAATGGATACAACAAGTGGGACCTATGTTGGTGACCAACGTCTTGTAA	MTAKPQLVLDLAGVLVSNFSSAFWLTLAEGSEISFQDIRVQFDEVRKDLWTGKMKEDEFWGWMSLRMKQINKEEARELITQSLQPLPGLNHLAQWSEIADIHVLSNHCKEWLEPILEKVEPYARSITISNQVGLRKPDLQIYKHVVKQFERSELMVVYVDDQEKNLKPAIDLGWKTLLADQEHKWIQQVGPMLVTNVL	PGPT0017745_747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017745-yihX-K20866	NA	NA
AK002_03701	765	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAGTTGGATTTGACGAATCAGATTGCATTAGTCACCGGTGCTGCGGGCCAATTGGGCCGGGTCATGGTCCGAACTTTGGCGGAATGCGGCGCCGATGTGGTTATCCATTATCGGGGAAGCCTAGCCAAGGCGGAAGAGCTTCAGCGCGAGGTGGAGTCGATGGGCAGACGCGCGTACACGGTGCAAGCCGACGTGACGGATCAAGCATCCGTGAATGCCATGCGGGATTCGGTGCTTGAACACTTTGGCATGCTGCCTCATATCATCGTTGCGAATGCCGTGGAATCCTATCAATGGACGTCTGTCTTGGAGCAGGCTCCGGAAGATTACGAGAGCCAGTTTCAATCCTGCGTCATGCAAAGCGTCTACCTGGCAAAAGCCTTCGTGCCGGCCATGATCGAGCGAAAGAGCGGCCGCTTCATCGGGATCAACACCGAGTGTTCGATCCAGAACTTCCCGAGCCAATCCGCCTACGTAGCAGGCAAGCGCGGCATGGACGGCGTATACCGCGTACTCGCCAAAGAAATCGGCGAGCATGGGATCACCGTCAATCAAGTCGCACCCGGCTGGACGATCAGCGACCGCGATCGGGAGAATGGTACCGAGCATAGCGCCTCCTACGAAGCCTCCGTGCCCCTGAAACGCCGCGGAACGGACCAGGAGATTGCCAATGCCGTGGCATTCCTGGCTTCGGATTTGTCGTCATTTATCACAGGAGCTTATATTCCGGTATGTGGCGGCAATGTGATGGTGGGGATTTAG	MKLDLTNQIALVTGAAGQLGRVMVRTLAECGADVVIHYRGSLAKAEELQREVESMGRRAYTVQADVTDQASVNAMRDSVLEHFGMLPHIIVANAVESYQWTSVLEQAPEDYESQFQSCVMQSVYLAKAFVPAMIERKSGRFIGINTECSIQNFPSQSAYVAGKRGMDGVYRVLAKEIGEHGITVNQVAPGWTISDRDRENGTEHSASYEASVPLKRRGTDQEIANAVAFLASDLSSFITGAYIPVCGGNVMVGI	PGPT0003180_8360	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
AK002_03702	819			hypothetical protein	GTGAAACATGAAGTGCTTTATAAAACGCCGAAGTCCCTGCTCAATAAAGGAACCGGCTTCCTGAATGGATACAGCCATACCTTGAATCCGTATACAGGCTGTACCTTCGCTTGCTCCTACTGCTACGTCCGGCAAATGCCGGTTTCGATATTCCGAAATCAGGAATGGGGGAGTTGGGTTGACGTTAAGCTCGAATCTGCCGCCATTCTGCGTAAAGAACTGAAGCGTGCCAAGTCCAAGGGGCCCGTCACGATCTTCATGTCATCCAGTACCGATCCCTATCAGCCGATTGAGGCCAAGGAAGAAGTGACCCGTGCCTTGCTGGAGGCCATGGTTAGCGAGCCGCCGGATTTCCTGCTGGTGCAGACGCGCAGTCCGTTGGTCCGACGGGATATCGATTTGCTGCAGCAGTTAGGAGCACGCGTGCGGGTAAGCATGACGATCGAAACCGACCGTGAGGATATTCGCAAGCATTTTACGCCTTCCGCTCCGCCGATCCAGGCCAGAATGAAAACCCTTGAGCTGCTGAGAGACGCAGGAATACCAACGCAAGCAGCGATTGCTCCCGTCCTTCCAAGCACGGAGGCATTTCCTCAGATCCTCAGACCGCTCGTCAATCGCGTGTGCATCGACGATTATTTCATGGGGGACGGCAGCGGAGGCAAACGTACGAAACGGCTGCCCGTTCAGGCGTTGTACGAGAAGCTTGGTCTGGAAGAATGGTATGATCCCGCCGCCTATCAGGTGGTCTACGATCGATTCAGCAGGGCGTTTCCGGAAGAGCAGCTATTTGTCAGTCAGAAGGGTTTTGAACCTTAA	MKHEVLYKTPKSLLNKGTGFLNGYSHTLNPYTGCTFACSYCYVRQMPVSIFRNQEWGSWVDVKLESAAILRKELKRAKSKGPVTIFMSSSTDPYQPIEAKEEVTRALLEAMVSEPPDFLLVQTRSPLVRRDIDLLQQLGARVRVSMTIETDREDIRKHFTPSAPPIQARMKTLELLRDAGIPTQAAIAPVLPSTEAFPQILRPLVNRVCIDDYFMGDGSGGKRTKRLPVQALYEKLGLEEWYDPAAYQVVYDRFSRAFPEEQLFVSQKGFEP				NA	NA	NA	NA	NA
AK002_03703	714			hypothetical protein	ATGCCTAATCCTTTGGAGCAGCGTATAAAGAATCTGGATTGGCCTGCCGTACAGGCAGCTTTGGATGAACAGGGATATGCGGTCATTCCCAAGCTGCTCTTGCCCGAGGAATGCACAGAGATCATAGGCACGTATACGGAAGAGCAGCGTTTTCGCAGCACGATCCAAATGGCCAGGCACCGGTTTGGACTGGGGGAGTACAAATATTATCGTGCGCCGCTTCCCGAAACGCTGCAGCAGCTCCGGGAAGGCTTGTACCCCGAACTTGCGCTGACGGCGAACCGCTGGTTGAACCGACTAGGGCATGAAGAGAAGTATCCGGCAAGTCTGGATGAGTTTCTGGGGATGTGCCATGCCCAAGGTCAGGAGCGGTCAACGCCGCTGATTTTGAAATATGAAGAAGGCGGATATAATTGCCTGCATCAGGACTTGTACGGTGATGAGTTCTTTCCGTTCCAAGCGGTCTTTGTGCTGAATGAGAAGGAAGTCGATTACACGGGCGGGGAGTTTCTGCTGGTGGAGCAGCGGCCGCGGGCACAGAGCCGGGGACATGCGATCGCCTTGGATCAGGGAGCAGGACTGATCTTTCCGACCAACCATCGTCCGGTGCAGGGAACACGGGGATATTACCGGACTACGCTCCGGCATGGCGTCAGCACGGTCACGTCGGGGAGAAGATACAGCCTGGGGATTATTTTTCATGACGCTAAGTAA	MPNPLEQRIKNLDWPAVQAALDEQGYAVIPKLLLPEECTEIIGTYTEEQRFRSTIQMARHRFGLGEYKYYRAPLPETLQQLREGLYPELALTANRWLNRLGHEEKYPASLDEFLGMCHAQGQERSTPLILKYEEGGYNCLHQDLYGDEFFPFQAVFVLNEKEVDYTGGEFLLVEQRPRAQSRGHAIALDQGAGLIFPTNHRPVQGTRGYYRTTLRHGVSTVTSGRRYSLGIIFHDAK				NA	NA	NA	NA	NA
AK002_03704	546	adaB	COG0350	Methylated-DNA--protein-cysteine methyltransferase, inducible	ATGAAATCTAATCATTTGTATATTAGCTGGACACGATTGCGGCATGAAGACTGGAACGTATATATCGCGGCCACGCCGCAAGGTTTATGCTACATCGGATCACCGGATAAACCGTTCAAGGAGCTGGAGGAATGGGTGCAGGCGAAATTTCCTCGCTGTGAACTCGTCCAAAATGATGCAGGCATGCAGCAATATGCCGCCGAGCTCGCGGAATATTTTCAGGGGAAACGGGAACGGTTTGAGTTCGCTATGGATTACAAGGGTACCGATTTCCAGATGGCGGTATGGAATGCACTATGCCAGATCCCGTATGGGCAAACCTTCACGTATTCGGACATTGCGCATCAGATCAGCAAGCCGGCGGCTGTGCGTGCCGTTGGTGCGGCTATCGGGGCGAACCCGCTGCTTATCACCGTACCTTGTCATCGGGTGATCGGCAAAAGCGGCGCATTGACGGGGTATCGCGGGGGACTTGAAATGAAGACAAGATTGCTGCAATTGGAGCGAATGAACGTCTCCGTGAGGGAGACGAAGGAGTATGCCTAA	MKSNHLYISWTRLRHEDWNVYIAATPQGLCYIGSPDKPFKELEEWVQAKFPRCELVQNDAGMQQYAAELAEYFQGKRERFEFAMDYKGTDFQMAVWNALCQIPYGQTFTYSDIAHQISKPAAVRAVGAAIGANPLLITVPCHRVIGKSGALTGYRGGLEMKTRLLQLERMNVSVRETKEYA				NA	NA	NA	NA	NA
AK002_03705	594	adaA	COG2169	Bifunctional transcriptional activator/DNA repair enzyme AdaA	GTGGCAAACCGGATACAACCGACCGAAGCCCAGTGGAAAGCCATTATCGACAATGACAAGGACAGCGACGGCAAGTTTTTCTACGCGGTGCAGACGACGAAAATCTTCTGCAGGCCATCCTGCAAATCCAGGCCCCCGAAATTTGAAAACGTGCGCGTGTTTCAATCGGCGGATGAAGCGAGGGCCGAGCGCTTCCGGCCATGCAAAAGGTGCAAGCCGACCGGCGAGCGCCTGCCGGACCACGAATGGATCGAACTCGTTACCGAGTATATCGATGCACATTATACGGGTCATTTGACACTGGATGTCTTGGCGGATGTGAGCCACGGCAGTCCGTACCATCTGCACCGGATTTTTAAGCGGGTCAAAGGGCAGACTCCGATGGAATACATTCAGGATTACCGGATCGGCAAGGCCAAAGAGCTTCTTGCGAATACCAGCCTGGCTATTTCGGATGTCGGCCATCAAGTGGGCATAGAGAACACGGCTTATTTTATCACGCTGTTTAAGAAGAAGACGGGGATGACCCCCCTAAGTTATCGAGGGCAATATATGAACAATACGAGTGCGGAGGTGCACGATCATGAAATCTAA	MANRIQPTEAQWKAIIDNDKDSDGKFFYAVQTTKIFCRPSCKSRPPKFENVRVFQSADEARAERFRPCKRCKPTGERLPDHEWIELVTEYIDAHYTGHLTLDVLADVSHGSPYHLHRIFKRVKGQTPMEYIQDYRIGKAKELLANTSLAISDVGHQVGIENTAYFITLFKKKTGMTPLSYRGQYMNNTSAEVHDHEI				NA	NA	NA	NA	NA
AK002_03706	987	alkA	COG0122	DNA-3-methyladenine glycosylase	ATGCATGAATCCGACCACAATCCCGGCGACAAGCCGTATACCATGGACCAACAACAACAGCTTCCCAAGGACAGCTGGGAGGATCATATCCATACGCTAAAGCTATTCGTGCCGAAGGAATTCAGCTTTACGGAGAACCTCAATTATTTGCAAAGATCGCCGAATGAATGTCTCTTTACGATCCGAAACGACAGCATCTATCGGGCGATCCCGCTTGAAGATGACGTTGCCGTGATCGAAGTCAGTGCCGAGAAGCAAGAGCAAGCGATCCTTGTTCGATTTTTGGGGAATACCACCCCAACCGAACCAAGCAAGCGGGCGGACGTAGCCATTTATGTCCGGGACTGGTTTGATCTAAACACCGATCTCGTGCCGTTCTATTCGATGGCCGAGACAGATCCCATGCTCAGTCAAGCCGTCCAGTCCTTTTACGGGCTTCGCAACATGGGCATTCCGGATCTGTTCGAGGCTTTATGCTGGGGCATTCTGGGGCAGCAGATTAACCTGGCTTATGCTTATACGTTAAAAAGGCGTTTCGTCGAGGCCTTCGGCAGACGCATCGAGTGTGAAGGCGAAGTTTACTGGATGTTTCCATGGCCTGAGGACATTGCGCAGCTGCGTGTTGAAGATCTGGGCGGACTTCGGATGACCGTGAAAAAATGCGAGTATCTCCTCGGAGTAGCCCGGCTTATGACGGAAGGAAAATTAACGAAAGAACTGCTGCTGGAAGCTGGCAGCTTAAAGAAAGCGGAGAAACAACTGGTCGGCATCCGCGGCATCGGCCCGTGGACGGCCAATTATGTGCTGATGCGCTGTTTGCGAATGCCGGCGGCTTTTCCCATCGATGACGTGGGACTGCATAATGCCATCAAACATCTGCTGGGTCTGGAGGCGAAACCGACGAAGAAGGAGATTCTGGCGCTGTCCGCAGGATGGGCGGACTGGGAATCCTACGCCACTTTTTATCTGTGGAGGTTTCTCTACTAA	MHESDHNPGDKPYTMDQQQQLPKDSWEDHIHTLKLFVPKEFSFTENLNYLQRSPNECLFTIRNDSIYRAIPLEDDVAVIEVSAEKQEQAILVRFLGNTTPTEPSKRADVAIYVRDWFDLNTDLVPFYSMAETDPMLSQAVQSFYGLRNMGIPDLFEALCWGILGQQINLAYAYTLKRRFVEAFGRRIECEGEVYWMFPWPEDIAQLRVEDLGGLRMTVKKCEYLLGVARLMTEGKLTKELLLEAGSLKKAEKQLVGIRGIGPWTANYVLMRCLRMPAAFPIDDVGLHNAIKHLLGLEAKPTKKEILALSAGWADWESYATFYLWRFLY				NA	NA	NA	NA	NA
AK002_03707	474			hypothetical protein	ATGAAAAGAAAAGGTTGGCTTATCGCATTTGCAGCGGCATTATTGTTAACGCTTATCGTAGTACCGGTTCAGCAGTCCTTTAGCGCAGAGGGCAATCCGACGGCAACGGCCATTACGCAGAGTGCCCTGAACAATCAGTTCCACTTGGATCACGTCGTGAAGATTTACGTGCCTTCCACCGTGAAGGGGGATATTCCCATCACGGATGCGGCTCATCAGAAGTTTGTCGATCAAGCGTTGACGAAGCTGTCCGGCTGGTTTGGCGGGGCAACGGCAATACCGGGCGAAGGGGCTTGGGTGGATAACAACAAAACCTTGATCAAGGAAAAAGTAACCATCGTGTATGCTTTTGCCGAGAAACTCGACAAGGATTCGCTCAATCAAGTGGTGGACTATGCGAAGAAGCTCAAGGAGGATCTTGCGCAATCTGCCATTTCGCTTGAGGTTGACGGTAAACTGTATTTCATTGAATAA	MKRKGWLIAFAAALLLTLIVVPVQQSFSAEGNPTATAITQSALNNQFHLDHVVKIYVPSTVKGDIPITDAAHQKFVDQALTKLSGWFGGATAIPGEGAWVDNNKTLIKEKVTIVYAFAEKLDKDSLNQVVDYAKKLKEDLAQSAISLEVDGKLYFIE				NA	NA	NA	NA	NA
AK002_03708	1047	atpD1		ATP synthase subunit beta 1	TTGGACAATCTGAAGCTGAATGTATCACTTTTACGACAAAGGGTTCCGAACCTGACCAGCGCGGCCAAATCCGTCGGATTGCGGCCCGCCACGGTTTCCAATCTATGTACGGGAAAAATACCCGTAGGCCGGGCGGAAGTTCGCACCATAGCCGCTCTGGCAGCCTTGGCGAAATGCAGCCTTGACGAACTGATCCTGCGCGGGGAAAGCGTGGAGATGATCGAAACGGGCATTAAGCCTCTTGATCTATTCGCTCCTCTGGCAAGAGGCGGTACCGTCGGGCTGGTAGCTCGTCCCGGTATGGGGCAGCTGGTGCTGCTCGGGGAGTTGTTTCATCACTTCAAGCAGGAAGGGTATATGACGATTCTGCTGAAGCCGGAAGGGGACTATCCGGAGCTGCAGGATATGCTGAATGACGTAGAGCGGGTTGCTTCTTCAATAGAAGAAATTTATTCTATCGTTGCGCATGCGAATACCGATAAAGAAATTGTGTTTGCCGCGGACCGGGAGCATGTCTTAACCGGCAAAATCTATGATCTTCAGGAACGTTTTCAACAGGAAGGCATGCAGCAGATCACGACTTTTCTTGTGGACCTTAAAGGCGCGGTCGTTGATGAAGACATGCCTTACGGACCGCTGGAGACGCTGTGGTATTTCGATGCCGATCTGGCGGCAAGACATCTGTTTCCTGCCGTGAACCCGTTATATTCCACCTCTTCCGTATTAGAAGGCGTTCATCTGGATCAGGCTCACTTAGCAATCCAACAGCGGGCTCAGAAGCTGCTTCGCCGCTATCGGGAGCTGCGTTCGCTGGTTCAAGTAAGAGGATTGGAGGCCATTCCGTCATCCGAAATGGAGGTTTATGAGCGTGGAGAACGGCTCGAAGCTTATCTAACGCAGCCTTTTTACGTTGCCGAAGCTTATACCGGGCTGCCAGGCGAGCGGGTCCCCTTGCAAGATACGCTGCATGACGTGCAAGCCATATTGAACGGCAGCATGGATCATCGTTCGGTGGAGAGCTTATCGTGGATCGGGACAATAAAATAA	MDNLKLNVSLLRQRVPNLTSAAKSVGLRPATVSNLCTGKIPVGRAEVRTIAALAALAKCSLDELILRGESVEMIETGIKPLDLFAPLARGGTVGLVARPGMGQLVLLGELFHHFKQEGYMTILLKPEGDYPELQDMLNDVERVASSIEEIYSIVAHANTDKEIVFAADREHVLTGKIYDLQERFQQEGMQQITTFLVDLKGAVVDEDMPYGPLETLWYFDADLAARHLFPAVNPLYSTSSVLEGVHLDQAHLAIQQRAQKLLRRYRELRSLVQVRGLEAIPSSEMEVYERGERLEAYLTQPFYVAEAYTGLPGERVPLQDTLHDVQAILNGSMDHRSVESLSWIGTIK	PGPT0014296_4820	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
AK002_03709	789	menH_7		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGCAGTTATACGAAACGATGGTCAATAACCATGGGGTACATATTCACGTGACGGAGGTACATCGGGAACTTAGGAATGAACAAAGCTCACTGGTTATCATCCCGGGCCTTTCCGAGTCGGCCGAGGATTATATCGACATTATGGAAAAGATGGTAACGCTGTCGCCCAGGCATATCGTTGTCATTACGCTCCGAGGCCGTGGCCAAAGTGATTCTCCTGCTTCGGGATACACGCTTGAGGATCATATCAGCGATCTGGATGCGGCCATTCGCCATCTTGAACTGGAACAGTTCGTACTCATGGGGTACTCACGAGGGGTAGCCTATCAATTAGGTTATGCCATTCGGAACCCGAAACGCATTGAAGGTCTGATCATCGGAGACTATCCGGCGATACATACCCAGCTGCCAGCGGGATGGGTGGATTTCTTTGCAACGCTTCCACCTTGGAGAGGGAAGAAGCTATTTGACCGGATGAAACCATCGGCCCTGCATGCCCTGCAGAAGGATTCCGCGAAGGTAGAATTTTGGAACGACCTGTCACGATTCACATGCCCTGTTCTCATTATACGTGGCGTAAAACCGCATCCCGGGTTATCATTAGAAGCAGTGGAACAATATAAGCTATCGCTGCCTCAGGCACGAATCGTGGAATTCGAGCAGCATGATCATAATATTTTCGAACCGGATGCGGACGAGTTTGTTCGTACCGCAGACTCTTTTCTGAAAGAGATTAAGAAGAAATCAATAAACTATCACAAAAAGGGTGTACGGACTTGGACAATCTGA	MQLYETMVNNHGVHIHVTEVHRELRNEQSSLVIIPGLSESAEDYIDIMEKMVTLSPRHIVVITLRGRGQSDSPASGYTLEDHISDLDAAIRHLELEQFVLMGYSRGVAYQLGYAIRNPKRIEGLIIGDYPAIHTQLPAGWVDFFATLPPWRGKKLFDRMKPSALHALQKDSAKVEFWNDLSRFTCPVLIIRGVKPHPGLSLEAVEQYKLSLPQARIVEFEQHDHNIFEPDADEFVRTADSFLKEIKKKSINYHKKGVRTWTI				NA	NA	NA	NA	NA
AK002_03710	996			hypothetical protein	ATGGGCACTCTGATCATTTGTGTGAAGGGAGAGAAACGGGTGTCAAAGATCCATAGTCTTCAACCGGATATTCACACGCTTCACGGATTTTTTAGCAAGGAGCTGGAACCGGCCTTATATATTCAGTCCGGGGATACCGTGGTGTATCGAACCTTGGATGCGGGATGGGGACTTGCAAAGCGCTCTGCTCCGGGAGCGCCGAGAACAAAGTTTACGGAGCGTGCGCCGGAGCGGGTGGAGAAGCAGTTCGGGCATGCCTTATTGGGTCCCGTGCATATCCAAGGGGCTACACCGGGGCTTACCTTGGAGATTCAGATCAACGAGGTCGTTCCCGGGCCGTGGGGTTGGACCTCTGCCGGAGGGTTTCCAAGCTATTGGAACGAGAAGCTGGACATGACCGATACCCAGGAAATGACATTGGACTTTGAATTGGATGCCAAAACAATGACTGGCAGGAGTCAATTCGAAAATTTCAAGTATAGCGTCGGACTGAAGCCATTCATGGGGATTATGGGCATGCCGCCGGAGGAAGAAGGTCAGCATACGACTTTTGTGCCGCGCCCTCATGGAGGAAATCTCGATTGCAAAGAATTAACCGCCGGGAGCACCTTGTATCTGCCGATTCCGGTAGATGGCGGGCTGTTCTCAACAGGGGATGGACATGCGGCGCAAGGCGACGGCGAAGTTAGCGGTCCCGCTTTGGAATGCCCCATGGAGAAGGTGAGCCTAACCTTTCATGTCCGTGACGACATGCCCATCAAGATGCCCAGAGCAAAGACGAGTACCGGTTGGCTTACGATGGGATTTCACGAGGACCTGGACGAAGCGATGTGGATGGCCTTGAGCGGAATGCTGGATCTCATGACAGAGCTTTACTCCATTTCGAGAACGGAGGCGTACGCATACGCCACCTTGACGGTGGATCTGAGAGTAACCCAGATCGTGAATATCCTGAAGGGCGTGCATGCATTTTTGCCTTTTGGCTCGCTGAGGTGA	MGTLIICVKGEKRVSKIHSLQPDIHTLHGFFSKELEPALYIQSGDTVVYRTLDAGWGLAKRSAPGAPRTKFTERAPERVEKQFGHALLGPVHIQGATPGLTLEIQINEVVPGPWGWTSAGGFPSYWNEKLDMTDTQEMTLDFELDAKTMTGRSQFENFKYSVGLKPFMGIMGMPPEEEGQHTTFVPRPHGGNLDCKELTAGSTLYLPIPVDGGLFSTGDGHAAQGDGEVSGPALECPMEKVSLTFHVRDDMPIKMPRAKTSTGWLTMGFHEDLDEAMWMALSGMLDLMTELYSISRTEAYAYATLTVDLRVTQIVNILKGVHAFLPFGSLR				NA	NA	NA	NA	NA
AK002_03711	1083			hypothetical protein	ATGACGAACTTTAACGGACTCAATATGCACCTCGGAAATTTATCCCGGCTGTCCAATGCGCAGACGAGATCCATCAGCGCGGAGAACTTTACCGGCGAGAAAGGAAAAGGGGGCATGGCGACGGACGGCACGGGTGCAGCGGCTTCCAGGGATTTGGGCGCGGGCTGGAAAGTGTCTCCTTCCGTAGAGATTATGCCGGGAGAAACCTTTACCATGGGTGACATTCAAGGCCCAGGTGCCATTCAGCATATTTGGCTGACCTGTCATCCGTCGCTGTGGCGCAATCTGATTATCCGCATGTATTGGGACGAAGAGCAGGACCCTTCGGTTGAGGTTCCAGTGGGTGATTTGTTCTGTAACGGGTGGGGTGAACGAAGCGATGTCAATTCGATTCCGGTTGCCGTCAATCCGGCCGGCGGCATGAACAGTTACTGGCAGATGCCTTTTCGCAAGCAAGCCCGATTGACGATGGAGAATCGCGCGCCGGAAAAGGCGGTCCTTTACTACCAAATCGACTATATCCTGACGGACATCCCCGAAGACGAGGCTTATTTTCATGCACAGTGGCGGAGAACGAATCCCGTTCCTTATAAGGACGTTTACACGATCCTGGATGGCGTGAAGGGACAGGGGCACTATGTAGGGACTTACCTTGCCTGGCAGGTGAACAACAGCGGCTGGTGGGGCGAAGGGGAGATCAAGTTTTATATGGACGGGGACCAGGATTACCCGACCATCTGCGGTACGGGAACGGAGGATTATTTCGGCGGAGCGTGGAACTGGGAACAGCCGATCGGTACGTATCGAACCTACTCGACGCCTTATCTGGGGATGCACCAAGTGCTGAAGCCGGACGGATTATATCGCAGCCAGCAGCGCTTCGGCATGTATCGATGGCATGTCATGGATCCGATCCGCTTCCAAAGCGATCTTCGCGTCACGATCCAGGATCTCGGCTGGAGGTCCGGAGGCAGATACCTGCCGCAGCAGAGCGATATTGCATCGACGGCGTACTGGTATCAGGCCGAGCCGCATGCGCCTTTCCCAGAGCTCCCCGATAATGACGATCGGGAAGTTATATAG	MTNFNGLNMHLGNLSRLSNAQTRSISAENFTGEKGKGGMATDGTGAAASRDLGAGWKVSPSVEIMPGETFTMGDIQGPGAIQHIWLTCHPSLWRNLIIRMYWDEEQDPSVEVPVGDLFCNGWGERSDVNSIPVAVNPAGGMNSYWQMPFRKQARLTMENRAPEKAVLYYQIDYILTDIPEDEAYFHAQWRRTNPVPYKDVYTILDGVKGQGHYVGTYLAWQVNNSGWWGEGEIKFYMDGDQDYPTICGTGTEDYFGGAWNWEQPIGTYRTYSTPYLGMHQVLKPDGLYRSQQRFGMYRWHVMDPIRFQSDLRVTIQDLGWRSGGRYLPQQSDIASTAYWYQAEPHAPFPELPDNDDREVI				NA	NA	NA	NA	NA
AK002_03712	1668	araB_2	COG1069	Ribulokinase	ATGAAACAGTTATATGCCATCGGGGTTGATTTCGGTACGGAATCGGGCAGGGCCCTGCTCGTCGATATCTCGACAGGTCAAGAAATTGCAACGTATGTGACGCCGTATACGCACGGGGTTATGGACGAGGTGCTGGTTCACTCTGGCTTGAAGCTGGAACGGGATTGGGCGCTGCAGCATCCGGGGGACTACATGGAGGTTCTTGCGCAATCCATCCCCCGCGTGTTGTCGGAGGCTGAGGTTTCGCCTGAACAAATAATCGGCATTGGCATCGATTTTACGGCATGCACGATGATGCCGCTGGATGCAGGCGGCACCCCGCTCTGTTTGACGGAAGAATGGAGGGACCATCCGCACAGCTGGGTAAAGCTGTGGAAGCATCACGCAGCGCAGGATGAAGCGAATCGGATCAACGAAGCCGCGGCTTCGCGGGGGGAGAAATTTCTTGCGCGTTATGGAGGAAAGCTGTCCTCCGAGTGGATGCTTGCGAAGTCTTTGCAGATTCTGAATGAAGCTCCCGAGCTGTATGAACAGGCGGTATTGTTCATGGAAGCTGCCGATTGGGTGGTCATGCAATTGACAGGCCAGCTCGCGCGGAGCAGCTGCACCGCTGGTTACAAAGCCAATTGGCATAAACGGGAAGGTTATCCGTCCAAGGCGTTCCTGCATTCGCTTGATCCAAGGTTCGGAAATCTCGTCGAGACCAAGCTGAGAGGTCCCATCAAGCCCCTGGGTTCGAAAGCAGGCGGATTAACCGAAAGTATGGCGGCGATGACGGGGCTTCTGCCGGGAACCGCGGTAGCCGTAGCCAATATCGATGCCCATGCCATGGTACCGGCCGTCAGCGTCGTAACCCCGGGGAAGCTGGTGCTCGCCATGGGAACCTCCACTTGTCACTTGATATTAAGCGACAAGGAAGTGACGGGCGAAGGCATCTGCGGCGTCGTCGAGGATGGGATCATTCCGGGCTATTACGGGTATGAGGCAGGACAATCGGCCGTAGGCGATATATTCGCCTGGTATGTGGATGAAGCTGTTCCGGAATACGTTCGCCGCAAGGCTGCCGATGAGCGGCTTGGCATTCATGAGTGGCTGGAGAAGGAAGCGGCCCAATATGCTCCTGGCCAGAGCGGATTGCTCGCACTGGACTGGTGGAACGGAAACCGTTCCGTGCTGATGGATGCCGATCTCAGCGGCGTCATGCTTGGCTTGACCTTGCAGACCAAGCCGGCGGAAATATATCGTGCGCTGCTGGAAGCCACCGCCTTTGGAACGCGGGCGATTATCGACGCGTTTACCGATAGCGGCGTAGAAGTCCAAGAGCTTTATGCTTGCGGCGGATTGCCGCAGCGAAACCGGCTGTTGATGCAGATTTATGCCGATGTAACCGGCAAAGAAATCAAGGTTGCGGACACCGTCCAGACGGCCGCTTTCGGCGCTGCCATGTTCGGTGCGGTGGCGGCAGGCAAAGAGCAGGGAGGATATGACAACATTGTGGAGGCTTCAAAAGCGATGGCCCGCGTCCGGGAAGAAACATTCAAGCCCATCGAAGCGCATGTACGGGTGTATGACCAGTTATACAAAGAGTATAAAGAGCTTCATGATTATTTGGGTAGAGGCGAGAATGGAGTCATGAAGCGTTTGAAGTCATTAAGAAGCAGCTTATGA	MKQLYAIGVDFGTESGRALLVDISTGQEIATYVTPYTHGVMDEVLVHSGLKLERDWALQHPGDYMEVLAQSIPRVLSEAEVSPEQIIGIGIDFTACTMMPLDAGGTPLCLTEEWRDHPHSWVKLWKHHAAQDEANRINEAAASRGEKFLARYGGKLSSEWMLAKSLQILNEAPELYEQAVLFMEAADWVVMQLTGQLARSSCTAGYKANWHKREGYPSKAFLHSLDPRFGNLVETKLRGPIKPLGSKAGGLTESMAAMTGLLPGTAVAVANIDAHAMVPAVSVVTPGKLVLAMGTSTCHLILSDKEVTGEGICGVVEDGIIPGYYGYEAGQSAVGDIFAWYVDEAVPEYVRRKAADERLGIHEWLEKEAAQYAPGQSGLLALDWWNGNRSVLMDADLSGVMLGLTLQTKPAEIYRALLEATAFGTRAIIDAFTDSGVEVQELYACGGLPQRNRLLMQIYADVTGKEIKVADTVQTAAFGAAMFGAVAAGKEQGGYDNIVEASKAMARVREETFKPIEAHVRVYDQLYKEYKELHDYLGRGENGVMKRLKSLRSSL	PGPT0017410_714	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017410-araB|L_ribulokinase-K00853	NA	NA
AK002_03713	1008	rbsR_2	COG1609	Ribose operon repressor	TTGGCAAAAGCAACGATTAAACAAGTAGCAGCGGCAGCAGAAGTATCTACGGCAACCGTTTCAAGAGTGCTTAACAACAGCGATTACGTAAGTGATGAAATTAAAGAGCGGGTGATGGCGGCCGTGAACCGGTTGAATTATCGCCCGAGCGCCATTGCCCGAAGCCTGAAACAGGACCGCACGTACATGATCGGCGTGATCGTGCCCGATATATCAAATCCCTATTTCATGGGAATATCCCGAGGCATTGAGGATATTGTAGGCAAAGAAGGCTTTCAGTTAATATTTTGCAGCTCGGACGAGAACCCGGAGAAGGAGAGACGATTGCTAAAGCTTCTGCAGGAAAAGCGCGTGGATGCCGTCGTATTGGCAACGTCGGGCGGGAACGATCCGGCGATCAAGCAGATTGCGGATTCCAACATGCCGATCGTGCTCGTGGACAGGAAGCTGGACTCGCCGGAAACAGGATCGATGCTCGATCTGGTAGCCGAAGACAATACCGAGGGGGCCTCGCGTCTAACCCGGAAGCTGCTGGAGGAAGGACATACAGCTATCGGCGTAGTTAACGGGCCAACGAGATCAAGCACGGGGAGGGAACGTCTTGAAGGCGTCCGGAACGCAATGAAGGCATTTGGGCTGAACGAGGGCCCCATGGTGTATAACGGAGATTTTTCCACGGAGGACGGAATCCGAGCAGTTCAGCAATTTCTGATCGCGGAACGCAGGCCAACCGCCATCATTTCCCTGAATAACCGCATGAGCCTGGGCGTCCTGCTCGAGATTGTGCGCAGCGGCCTGAAGATTCCTGCCGACATGGCAGTAGCTTCTTTTGGCGAGGTGGAAGCCGGGCCTTTACTCAAGGAATCGGGGCTCTACTACATGGAGCAGCATCCCTACGATATGGGAATCAAGGCCGGAGAAATCCTTCTAAGCCGAATACGGGAAGAAGCCCGGCAGGATCCACCGGCTTATGAAATATACAGCAATGAAGTCAAACAGCTGAACTGA	MAKATIKQVAAAAEVSTATVSRVLNNSDYVSDEIKERVMAAVNRLNYRPSAIARSLKQDRTYMIGVIVPDISNPYFMGISRGIEDIVGKEGFQLIFCSSDENPEKERRLLKLLQEKRVDAVVLATSGGNDPAIKQIADSNMPIVLVDRKLDSPETGSMLDLVAEDNTEGASRLTRKLLEEGHTAIGVVNGPTRSSTGRERLEGVRNAMKAFGLNEGPMVYNGDFSTEDGIRAVQQFLIAERRPTAIISLNNRMSLGVLLEIVRSGLKIPADMAVASFGEVEAGPLLKESGLYYMEQHPYDMGIKAGEILLSRIREEARQDPPAYEIYSNEVKQLN	PGPT0017992_11580	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
AK002_03714	633			hypothetical protein	ATGAAGGCCATTGCGCTGGGACAATACGAGGGAGCGAAATATCATCCGTTTACGCAGATTGACCGCGAGCTGCAAGCCATTTTCGAACCTGCGATGGACGTGGAATGCACGGATGATTACGCCGTACTGCAAAAGGATAAGCTGGAAGGATATGATCTGCTCATATCGTACGCAGAGTTTTCGGATGAGGAGATACCTGAAGAGCAGGTACAAGCGCTCATATCCTATGTGCGCAACGGCGGGGGGCTGTTAGTTATCCACAACGGCATCTCGCTGCAGCGGAGCACGGAGCTGGAAAAGTTAATCGGCGGGCGATTTACGGGACATCCGGCATATACGTCGCTGCCCGTTCGATATCAATCGGGGAGCCATCCGATCGTGGAGAGCTTAACCGATTTTGCGATCGATGAAGAACCCTATCGGTTCGAATTGAGTCCGCATGAAACAACGGTCGTCTTTGCGGAATACGAGCATGACGGCCAGCGTTGGCCTGCGGCGTGGGCACATCCATACGGCTCCGGCCGGGTGGTATATCTGATGCCAGGTCATCATTTGCCGTCTTTTCGGATAGAATCCGTTCGTCATCTGATTCGGGAGAGCGGGCTGTGGGCTGCCCGGAAGTGCGTAGACTAG	MKAIALGQYEGAKYHPFTQIDRELQAIFEPAMDVECTDDYAVLQKDKLEGYDLLISYAEFSDEEIPEEQVQALISYVRNGGGLLVIHNGISLQRSTELEKLIGGRFTGHPAYTSLPVRYQSGSHPIVESLTDFAIDEEPYRFELSPHETTVVFAEYEHDGQRWPAAWAHPYGSGRVVYLMPGHHLPSFRIESVRHLIRESGLWAARKCVD				NA	NA	NA	NA	NA
AK002_03715	249			hypothetical protein	ATGTCGAAATCCGCGCTCAATATGCAATCCTCGATACTGCATCAGCATCTGTTAACCGATGGAGGGCAGGTCATGGTGTTCTATCCCGGATGGCTGCAATCCTACATGAGCGGCGAACTGAATCAAGAAGCGGCCGTGCCGCCGGACGTGTCTGCCGATCGCATCATGAACCTTGTGATGGACCATAAGGCATACGTTGGCGAACAGCCGATTTTTCTGGATTATGAAGGACAAGTGTGGCCCTGGTAA	MSKSALNMQSSILHQHLLTDGGQVMVFYPGWLQSYMSGELNQEAAVPPDVSADRIMNLVMDHKAYVGEQPIFLDYEGQVWPW				NA	NA	NA	NA	NA
AK002_03716	525	acr1	COG3320	Fatty acyl-CoA reductase	TTGGAAACAATCGCTTGCGTCACGGGAGCCGATCGGGGGTTGGGATTGAGCTTGGCGAAATGGCTTCTTGAAAACGGTTACACCGTGTTTGCTGGACGCTATATGGAGGATTGGGACGCCTTGGATCGATTGCTGGAGGATTATCCGGACCAGTTGGAGCTGATTCCGCTTGATATCGGCGACGATGCCAGCGTACAGCAGGCAGCCAAGCTGATCCGGGATAAGGCGCCGCATCTGGATCTGCTCATAAACAATGCCGGCATCACGAAACGGTCCGATCTGGCGAACATTCAGGGCGAACTGGATTTTGCCGATATGGCCCAAATCTACAATGTCAATACCCTTGGACCTCTTCGGGTAAGCCATGCTCTTATCGATCTGCTGCTTCAAGGAGACAACAAGCTCGTGGTATCTCATCCGAAGCCGGCAGCGTTAGCAGAAATAAACGCAAGGAGATGTACGGCTACTGCATGTCGAAATCCGCGCTCAATATGCAATCCTCGATACTGCATCAGCATCTGTTAA	METIACVTGADRGLGLSLAKWLLENGYTVFAGRYMEDWDALDRLLEDYPDQLELIPLDIGDDASVQQAAKLIRDKAPHLDLLINNAGITKRSDLANIQGELDFADMAQIYNVNTLGPLRVSHALIDLLLQGDNKLVVSHPKPAALAEINARRCTATACRNPRSICNPRYCISIC				NA	NA	NA	NA	NA
AK002_03717	867	thiK_2		Thiamine kinase	ATGAACATCGGAAACCCATTGCGGGAAATCAACTGGGTGGAGAAAAGCAATACCCTTGAAGTTTTGCTCGAGCATGAAGGTTCATTTCATACAGTCTCCTTGGATTCGGGGCTGGAAGCAGAGGTAATCAAAATTGCCGCGCCAACGGCAGACTACGTAATGAAAGTATGGAACAAAGCGTCCAAGCCGAATGTACATGCTCAATATCAGATTTTGAATGCTTTGTTCACGCATGGAAGTTCGGTTTCTGAGCCCGTGGGCTGGGGCACGGACCGAAATGGCGATTCAACATTGCTGACCAGTTATGACGGAACGCCCGTTCAAGCGGTCGATCAGCGTAAACTAACGAAGCTGGTGAAGATTTTAGCGGATATACACAAGCTCCCGCTTGAAGATTTTATTGGTGACCGATTACCCCGATATGAGTTCATTGATTATTTTTTTCCTCGCATCGAGAACCACCCCGATATCCGAATTCTTCTGGAAGAACTACTTCAGCGTGCGGATATGAAACAATCTTGTTTGATCCATGGCGATTACCACCTGGGCAATATTCTTGAGACTAAAGACAAGCTGACGGTAATTGATTGGACGAACGCCCAATGGGGGGATCCCAGATATGATGTTGCTTGGTCGATTATTGTAATGTGGGTATTTGCAAGCGAAAAGCAATCCTCCATCTATCGTGCCGCATGTTGTGCCGAGTATCGTTACGATGAACATGACCTTGAGTTGTTTGAAGCCATAGCCTGTTTGAGAGGAATCATGCTTTTTAAGGCGAATGATTTACATATCGGTCATCGTACCAGCTCAAGGTTTAGGTCCATATTGTCGAAAAACGAATATTTAAACGATCAACTGCTCTAA	MNIGNPLREINWVEKSNTLEVLLEHEGSFHTVSLDSGLEAEVIKIAAPTADYVMKVWNKASKPNVHAQYQILNALFTHGSSVSEPVGWGTDRNGDSTLLTSYDGTPVQAVDQRKLTKLVKILADIHKLPLEDFIGDRLPRYEFIDYFFPRIENHPDIRILLEELLQRADMKQSCLIHGDYHLGNILETKDKLTVIDWTNAQWGDPRYDVAWSIIVMWVFASEKQSSIYRAACCAEYRYDEHDLELFEAIACLRGIMLFKANDLHIGHRTSSRFRSILSKNEYLNDQLL				NA	NA	NA	NA	NA
AK002_03718	543			hypothetical protein	ATGAAGAAAAAAATAATAGTGGTCCTATTGCTTGGTTTTGTTGTTCTGGTAAGCGGAAATGCTCAACGGGATTCAATCGTTACGCCCCTTTACGAGGGCCGAAGCCTCGTTATTGGTGTAATTGGAGATACACCGCAAGTAGGGGAGAAGGAGCATGTGGATTTTCGGGACGTTACGTTTGAGCAGCTAGAGGATCCGTACTTTTCCTCAGACCTTGACGCCATTTTCATAACGAAAGAACATTTGGCTAAAGCATCCGAGCCTAAGTATACGGAAATTTACCAAAAGGCGGACATACCCTTTTTCTTTATCGAGTCCAAGAAGTCCCACGTCCCCTTCACCGTTAAAGAATTGTCCTATAATGAGGTTCCGGATCTTTCACCGGATACGTACGTAACAGGTTTCTACGGCAAGAAGGCTCAATACTGGGATTATGGCTTACATAACGATGCAATGAATGAGACCAATATTAAGGCAGCGTATTCCAATATGTTTACGATCATCGAGTCGCTGCACAGCGAAGATTATCGCCCTGGAGGGTAA	MKKKIIVVLLLGFVVLVSGNAQRDSIVTPLYEGRSLVIGVIGDTPQVGEKEHVDFRDVTFEQLEDPYFSSDLDAIFITKEHLAKASEPKYTEIYQKADIPFFFIESKKSHVPFTVKELSYNEVPDLSPDTYVTGFYGKKAQYWDYGLHNDAMNETNIKAAYSNMFTIIESLHSEDYRPGG				NA	NA	NA	NA	NA
AK002_03719	564			hypothetical protein	ATGAATTTCACATTTATTCGGCACGGTCATGGAGAACATCTCAACGATTATCCAAATCGGTTGAATACGCTGCATCCTAGTCTTACAGAGTACGGCAAATTTCAAGTAACGCAGCTACGAAATGAAATTACAATGGATCCCGATGATTTAGTTCTTGTAAGTCCCACTAAACGTACAATTGAGACGGCAACGATTATAAAAAATGGCATGGACTTCATTATTTCTCCATTGGTTGGTCCGAGAATGTTTCCTCAGAACTCCGAACTTCCTTTTTTAGCTTGCGATCACATCCTTTCTAAAACGGAAATTACCGATCTGTATGGAGATACTGAAATTCTTGATTTCAATTTGGATTGCTGGAAAGAAGGGATCAATAGGATCGAACAAGATATTTTTGAAGGATACGCTGCGCGGTTATTAGAGTGGATCGGGGAAAGCTATAAAAAAATATTCATTATTTCACATGATGGTACGATAACGAATTTTCGGATATTGCTTGGAGAAAAAGGATTGACCAGAAACGATTTTCTCGGTGAGGCTGGGGTATATCGAATGAGCTTGTAA	MNFTFIRHGHGEHLNDYPNRLNTLHPSLTEYGKFQVTQLRNEITMDPDDLVLVSPTKRTIETATIIKNGMDFIISPLVGPRMFPQNSELPFLACDHILSKTEITDLYGDTEILDFNLDCWKEGINRIEQDIFEGYAARLLEWIGESYKKIFIISHDGTITNFRILLGEKGLTRNDFLGEAGVYRMSL				NA	NA	NA	NA	NA
AK002_03720	249			hypothetical protein	TTGAAATTTGAACTAGGACGTTGCTTACTGAATGAACGATTGGTGGAATCCGGGAAGTCAGCGGAATGGTTGGCAAAAGACTTGCTTATTAAACCGGAACGAGTTTGCGACTTTATGGAGAACAAAAGAGTGATGCCACTCAAAATTGCCATATCGATCGCCGATTCCATCGGTTGTGACGTTCGTGCTTTATATGAATTAATTCCGCACGATAATGAAGCAAAGGGAGCTTCGCGGAATAATGGGTAG	MKFELGRCLLNERLVESGKSAEWLAKDLLIKPERVCDFMENKRVMPLKIAISIADSIGCDVRALYELIPHDNEAKGASRNNG				NA	NA	NA	NA	NA
AK002_03721	351			hypothetical protein	ATGAAGGTCAAACGAATTGTTACTAATGTTGCGACGCAGGACATTTCCAAAGCTTCGTATTTTTACGGGGAAGTACTTGGACTTGATCAACTAATGGATATGGGATTTATTGCAACATACGGTTCGCATGAGAAAATGGGCACTCAGGTTAGTTTCCTATCAGAGGGAGGCTCCGGTGCACCTGTGCCAGATCTGTCAATTGAGGTTGATGATCTTGATGAGGCGTTAACCCGGATAAAAGAAGCAGGAATTCCGATTGAGTATGGACCAACCGAGGAGCCGTGGGGGGTACGGCGTTTTTTTGTTAGGGACCCATTCGGGAAACTTATTAATATTCTTATCCATCTTTAA	MKVKRIVTNVATQDISKASYFYGEVLGLDQLMDMGFIATYGSHEKMGTQVSFLSEGGSGAPVPDLSIEVDDLDEALTRIKEAGIPIEYGPTEEPWGVRRFFVRDPFGKLINILIHL	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
AK002_03722	408			hypothetical protein	ATGGAAGTACAAAAAATAACCGCAACCCGCTCTTCGCTGCCGGCAGCCGCTCAATATGCGCGGCTAGGTTTTAGTATATTGAACGTGCTTTTTGCGATCTGCATCGCGTTACAGGTGTTCTTGGCTGGATTCGCGCTGTTCGTGGATTCGTCTCAATGGGGGATGCATGGTAATTTCGCCATGTACTTCGCGCCTATCCCCGTATTGTTGTTTATATTGTCTTTTCCGGCCAGACTGCCCAAGGGCATTAAAGTTAAGAGTTTGGTGCTCATCGGCCTAATCCTTCTGATCTTCGCGACGGCTGTCTTTTCGGAAGAAATCGGTTTTGCGGCAGCGGCACATCCCGTCATCTCGCTGGGCTTATTCTTGAACGCGTTGTTGATTATGAGGGAGATGACGAAAGGATAG	MEVQKITATRSSLPAAAQYARLGFSILNVLFAICIALQVFLAGFALFVDSSQWGMHGNFAMYFAPIPVLLFILSFPARLPKGIKVKSLVLIGLILLIFATAVFSEEIGFAAAAHPVISLGLFLNALLIMREMTKG				NA	NA	NA	NA	NA
AK002_03723	723			hypothetical protein	ATGAGAATCATCGAATTGGAACTGAGAACCGCCAGGTTAGCTGAACTGAAGGAGTTTTACACAGAAAGACTTGGATTTGCTCTAGCAGAAATCACGGAACATTCCATCACGATCGTTGTCGGTGAAACGAGGTTGACTTTCGTTCGCGAGGAGGACGAAGGGGTAATGCCGTCCTACCATTTGGCAATGAACATCCCCGAGAACCAAATTCGCGAATCGAAAAGCTGGCTCTTGGCCAAAGGCTGTCAGGTGCTTTCCGCTGCACCGCTTCCGTTCGCTGGAATCGAGGCAAACGAAGATATCGCCTATTTCGAAGGAACGGATGCACATGCCTTCTATTTCGAGGATCCTTCGAGGAATCTGGTGGAGTTCATCGCTCGGCATCGAATGGATAATGCCTTATCAGAGCCTTTCGATCATGAATCCATTCTGAATGTCAGCGAGATCGGCTTTCCGCTCCGCGGAAGCGTATCCGAGGCCGTTCAGCGCCTAGATTCTCGATTTGACGTCACGCGTTATATCGGGGACGGAAAGACGTTTCAGATGCTCGGTGACGAGTACGGAATGTTCATCCTGGGGGATATGGCCATCGGATGGTATCCTTCGATGAAGATTCCGGAAGTTCATCCTATCGGAATGACGATTCTCGATTCCAAAGAAGGGGAGTTTCAATTGGATCCGTACCCTTACACCATTCGAGCGGTTTCCGAAAGGTTAGTCTAA	MRIIELELRTARLAELKEFYTERLGFALAEITEHSITIVVGETRLTFVREEDEGVMPSYHLAMNIPENQIRESKSWLLAKGCQVLSAAPLPFAGIEANEDIAYFEGTDAHAFYFEDPSRNLVEFIARHRMDNALSEPFDHESILNVSEIGFPLRGSVSEAVQRLDSRFDVTRYIGDGKTFQMLGDEYGMFILGDMAIGWYPSMKIPEVHPIGMTILDSKEGEFQLDPYPYTIRAVSERLV				NA	NA	NA	NA	NA
AK002_03724	1881			hypothetical protein	ATGCTGCATCAGACGGCATTCAACAGTTTGCCGCTTAGAGCGATCAAGCCGGCCGGCTGGCTTAAGAATCAGCTGGAGATTCAAGCAAGCGGGTTTACCGGACATCTGGAGGAACAGTGGAAGGACGTCGGAGCAGACAACGGATGGCTTGGCGGCCAAGGAGAAAGCTGGGAGCGGGGACCGTATTATGTCGACGGCTTGCTTCCATTAGCTTATTTGCTGGAGGACGAGTCTTTGATCACTAAAGCGAATCGCTGGGTCGAGTGGTCGCTTGCCAGCCAGCAGGAGAACGGCATGTTCGGTCCGGCGCGCATTACCTCCGTGAATCAGGATATCGATAAGGATCAGGATTGGTGGCATTATATGATCATGCTGAAAGTGATGATGCAGCATGAGGAAGCAACGGGCGACGAACGCATCATCCCGTTTCTGACCAAGTTCTTTACTTACGTCCATTCGGTCATTGAGGAGCAGCCGCTGCGAGGCTGGGCCAAAACCAGGGGAGCCGAGATGCTGCTGTGCATCGTGTGGCTGCATAAACGAACGGCGCAGCCTTTCCTGCTGCAGCTTGCCGATACCATCGCCGAACAAACCACGGACTGGAGCGGTATTTTTCATGATTTTCCGTTCTGGCGCAAGGTTGAAGAGTGGGATTGGACAACCCATGTCGTGAACGTGGCAATGGGCATCAAAACGCCGGGCGTGCTGTATGAATTAAACGGAAATCCGGTGGAGCGGGAAAGCGTGCACCGGGGCATCGATTCCTTGATGACGTACCACGGTCAAGCGCACGGCATGTTCTCGGGCGACGAATGGCTGTCCGGCACCCATCCGAGCCAGGGGGTTGAATTGTGTGCCGTCGTCGAATATATGTTTTCGATGGAGCAGCTGACGCGCATTTTCGGGGAGGGACGCTTCGGGGATATTTTGGAGAAGGTCGCGTTTAATGCGCTGCCCGCCGCCATCTCTGCGGATTGGACCTCGCATCAGTATGATCAGCAGGTAAACCAAATGATTTGCAACGTCGCTCCGCGGGCATGGAGCAACAGTCCCGATGCCAACGTATTCGGACTGGAGCCGAATTTCGGATGCTGCACGGCCAATATGCATCAGGGCTGGCCCAAGCTGGCCTCGCATCTGTGGATGAAGGACCAGGAGGACGGGCTAGTTGCCGTTTCGTATGCTCCGTGCACGGTTAGAACCACGGTTGGCCGTCAGGGCGTGTCTGCTGAGGTTGAGGTCACCGGCGAATATCCGTTCAAAGATCGCGTTCAAATCCATCTCTCGCTTGAACGGGCGGAATCATTCCCGATATCGCTGCGTATTCCGGCCTGGTGCGACCATCCCGTCATTACCTTGAACGGGCGCGAACTGCCGATTCAGGCAGAGTCCGGTTATGCCAAAATCGTGCAGACCTGGCAGAGCGGCGATCTACTGGAACTGTACCTGCCGATGGTAGTCAAGACCGAGTCGCGCAGCATGTACGCGACCAGCATTACAAGAGGACCGCTGGTGTACGTGCTGCCCGTGAAGGAGAACTGGCAGATGATCCGGCAGCGCGAGATGTTCCACGACTGGGAGCTCTATCCTGCTTCCCCATGGAAATACGGACTGGTGGCCGATACATCGTTTGAGGTGCTGGAACGGGAGGTGGCCCGTCAGCCGTTCCTGGCTGCCGATGCCCCTGTCCGGGTGAAGGTGAAGGGCCAGCTGATCCGGGATTGGAGAATGGAAGGCAACAACGCCGGAAACCCTCCGCTGCATCCGAACACGGACGGCCAGCCCATTACGGAATTGGAGCTGGTTCCGTACGGAAGCGCGAAGCTTCGGATCGGAGAATTTCCTCTGATCGGGGATCGGATCAGAATCGCTAAGAACTGA	MLHQTAFNSLPLRAIKPAGWLKNQLEIQASGFTGHLEEQWKDVGADNGWLGGQGESWERGPYYVDGLLPLAYLLEDESLITKANRWVEWSLASQQENGMFGPARITSVNQDIDKDQDWWHYMIMLKVMMQHEEATGDERIIPFLTKFFTYVHSVIEEQPLRGWAKTRGAEMLLCIVWLHKRTAQPFLLQLADTIAEQTTDWSGIFHDFPFWRKVEEWDWTTHVVNVAMGIKTPGVLYELNGNPVERESVHRGIDSLMTYHGQAHGMFSGDEWLSGTHPSQGVELCAVVEYMFSMEQLTRIFGEGRFGDILEKVAFNALPAAISADWTSHQYDQQVNQMICNVAPRAWSNSPDANVFGLEPNFGCCTANMHQGWPKLASHLWMKDQEDGLVAVSYAPCTVRTTVGRQGVSAEVEVTGEYPFKDRVQIHLSLERAESFPISLRIPAWCDHPVITLNGRELPIQAESGYAKIVQTWQSGDLLELYLPMVVKTESRSMYATSITRGPLVYVLPVKENWQMIRQREMFHDWELYPASPWKYGLVADTSFEVLEREVARQPFLAADAPVRVKVKGQLIRDWRMEGNNAGNPPLHPNTDGQPITELELVPYGSAKLRIGEFPLIGDRIRIAKN	PGPT0019100_1538	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019100-hypBA-K09955	NA	NA
AK002_03725	867	rhaS_9		HTH-type transcriptional activator RhaS	ATGATCTTCCATTTTACCGCTCCGCCATTGCCGCATTATATGATTTGCGGTGAAGATACCTATCAGGAGGGAGACCGACATCCGGATCGGTATAACCTTGGTGTCTTTGATCTGATTCTCGTAACCAGAGGGGAGTTGTTCCTGGAAGAGAACGGAGCTTCTTACAGTGTAAAGGCAGGGTATTATCTGATTCTAAGACCCGATGCTGCACACCGTACATACCTGCCCTGTGAAGAGGAAACCCATTTTTATTGGCTGCATTTTCAGACGGTCGGACCGTGGATTGAAGCGGAGGAACGGATCCCTTTTGCCTTATCGCAATCGGATCACCCTCATGTGCCGTTCGATAATTTCTCTTTCTATATCCCCAAGCATGGAGAACTGTCCTCGAAAGAGCAGGCCGGACGTTTGATTGAACAGCTGCAGGTGCTTCAGCAGTCGCTATCTTCCGCGGCACGCTGGAAGCAGCAGCAGTTGATGCATGAGCTGCTCCTGCTGTTCCAAGCCGAAGAAGAAGGAATCCAGCAGCATCATCCTCATTATGCCATTGCCGAACGAACGGCCAACTATTTAAGAGCACATTACAAAGAGCCGGTCAGCTACCAGCAATTGTCCGATGCCATGCACTTTCACCAGAATTATATTGCCATTTGCATGAAAAAAACGTTCGGCTGCACGCCCCTGGAGTTTCTGACGCGGCATCGGATCGAGCAAGCCAAGCGATTGCTGATCTATACCAACGAGCCGATCGGACGGATAGCCGAGGAATCGGGATTCGGCTCGTTTCCGTATTTCATTCGCTGCTTTGTTCGCTATACCGGGTTTAAACCCAATTCCTTCAGGCTGAAATACCGTTCATCCCGATAG	MIFHFTAPPLPHYMICGEDTYQEGDRHPDRYNLGVFDLILVTRGELFLEENGASYSVKAGYYLILRPDAAHRTYLPCEEETHFYWLHFQTVGPWIEAEERIPFALSQSDHPHVPFDNFSFYIPKHGELSSKEQAGRLIEQLQVLQQSLSSAARWKQQQLMHELLLLFQAEEEGIQQHHPHYAIAERTANYLRAHYKEPVSYQQLSDAMHFHQNYIAICMKKTFGCTPLEFLTRHRIEQAKRLLIYTNEPIGRIAEESGFGSFPYFIRCFVRYTGFKPNSFRLKYRSSR				NA	NA	NA	NA	NA
AK002_03726	795	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAACTTGGATTTGCAGGGTAAAGTCGCATTGGTCACAGGCTCGACATCGGGCATCGGCAAAGCGATCGCCATGTCGCTGGCTGCCGAAGGGGCGTCCGTCATTATTAATGGAAGACATGAGGATAAGGTGAAACAGACGATCCATGACATTCGCGCCGTCCATCCGGATGCCGAGCTGCGTTATGCCGTAGCGGATCTTGGAACCGAAGAGGGATGCCATCAGGTCAGGGAAGCCGCCCCGGTCGTTGATATTCTAATCAATAATTTAGGAATCTTCGAGCCTGCCGAATTTTTCGATATATCGGATGCGGAATGGTTCAGGTTCTTCGAGACGAATATCATGAGCGGCGTCCGTTTAACCAGACACTATTTGCAGAACATGATCAGCCGCAATGAAGGCCGAATTATTTTTATCGCGAGCGAAGCCGCCGTCATGCCGTCCCAGGAGATGGCGCATTACAGCGCAACCAAGACGATGCAGCTGTCGCTTTCCCGGAGCTTGGCCGAATTGACGACAGGAACCCGCGTCACGGTGAATACCGTCATGCCCGGCTCCACCCTTACGGAAGGCGTCGAAACGATGCTGGATACGCTGTATCCCGATGAGAATCTACCCATCGAAGAAGCCGAGCAGCGGTTTATGAAGGAAAATCGCCCAACTTCCATTATTCAGCGGCTGATCCGTCCGGAGGAAATTGCCGATTTCGTTGCCTACCTTAGCAGTCCTAAATCCTCCGCGATCAACGGTTCGGCGCTCCGGATTGACGGCGGCTTGGTTCGAAGCGTATTCTGA	MNLDLQGKVALVTGSTSGIGKAIAMSLAAEGASVIINGRHEDKVKQTIHDIRAVHPDAELRYAVADLGTEEGCHQVREAAPVVDILINNLGIFEPAEFFDISDAEWFRFFETNIMSGVRLTRHYLQNMISRNEGRIIFIASEAAVMPSQEMAHYSATKTMQLSLSRSLAELTTGTRVTVNTVMPGSTLTEGVETMLDTLYPDENLPIEEAEQRFMKENRPTSIIQRLIRPEEIADFVAYLSSPKSSAINGSALRIDGGLVRSVF	PGPT0003180_3595	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
AK002_03727	846	ytbE	COG0656	putative oxidoreductase YtbE	ATGACTGCAAAACACTTACAAGATACAACCATTTTATATAATGGCGTCAACATGCCTTGGTTTGGACTAGGCGTATTTAAAGTTGAAGAAGGACCGGAGCTGGTGAATGCCGTTCGTACGGCCATCCAGCACGGCTATCGGAGCGTGGACACCGCCGCCATATACGGCAATGAAGAAGGTGTCGGGCAGGGCATCCGCGAGGGATTGGCAGCTGCCGGATTAAAGAGAGAGGATCTGTTCGTCACCTCCAAGGTGTGGAATGCCGATCTGGGTTATGAATCGACTTTGAAGGCTTATGAGGAAAGCTTGCGAAAGCTGGGATTGGAGTATTTGGACTTGTACCTTATACACTGGCCTGTTGAAGGGAAATATATAGAGGCGTGGAAGGCGCTCGAAGCGTTGTACAAGCAAGGACGCGTGAAAGCTATCGGCGTGAGCAATTTCCAAATCCATCATCTGGAGAGGTTAATGAAGGAAACCGAAATCAAACCCATGGTGAACCAGGTGGAATATCATCCCCGATTAACGCAAAAAGAATTGCAGGCGTACTGCCAGGCGAACGGTATTCAGCTAGAAGCGTGGTCTCCCTTAATGCAGGGTCAGCTGCTGGATCAGGAGGACCTTCAGATCATCGCGAAGAAGCATCATAAATCCATCGCGCAGATCATTCTTCGTTGGGATTTGCAGAACGGCGTGGTGACGATTCCGAAATCGACCAAAGAGCATCGGATCACCGAGAACTCCGATATATTTGATTTTGAATTGTCCTTGGAGGATATGCAGCGCATCGACAGCTTGAATCAGAATCACCGAGTGGGACCTGACCCGGACAATTTTGATTTCTAA	MTAKHLQDTTILYNGVNMPWFGLGVFKVEEGPELVNAVRTAIQHGYRSVDTAAIYGNEEGVGQGIREGLAAAGLKREDLFVTSKVWNADLGYESTLKAYEESLRKLGLEYLDLYLIHWPVEGKYIEAWKALEALYKQGRVKAIGVSNFQIHHLERLMKETEIKPMVNQVEYHPRLTQKELQAYCQANGIQLEAWSPLMQGQLLDQEDLQIIAKKHHKSIAQIILRWDLQNGVVTIPKSTKEHRITENSDIFDFELSLEDMQRIDSLNQNHRVGPDPDNFDF	PGPT0014985_83	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0014985-yvgN-K23257	NA	NA
AK002_03728	1224	ydhP_2	COG2814	Inner membrane transport protein YdhP	ATGATTATAGATAAAAAAAGAAGTTTGCTTGCGCTTATAGCGCTTGCCGTCAGTGCCTTCGCCATCGGAACAACGGAATTCATCAGCGTAGGGCTGCTGCCGTTGATTGCGGAGGATATGAATATCTCCGTGACGACAGCCGGATTAACCGTGTCGATGTATGCGCTGGGCGTAACCTTCGGTGCGCCGATCCTCACGTCGCTCACATCCAGGATGTCCAGGAAGACGTTGCTGCTCTGGATTATGATCATTTTTATTATCGGTAACAGCTTGGCTGCAGGCGCAGCTTCCATTGGCGTTCTGCTTGCAGCACGCGTCCTGTCGGCCTTCTCACATGGCGTGTTCATGTCGATCGGCTCGATTATTGCCGCAAGCGTGGTGCCTGAGAACCGCAGGGCATCAGCGATCTCCATTATGTTCACGGGCCTTACCGTAGCCACGGTCACCGGCGTTCCGCTCGGAACGTTTATCGGTCAGCAGCTGGGCTGGAGGCTTGCTTTTGTCGCCATTGTGGCGGTCGGCATCGTTGCGCTGATTGCGAATAGTATCCTGGTCCCTTCGGACCTGCCTAAGGGAGAGCGCACTTCATTCCGCGATCAGGCTAAATTGATGACGAACGGAAGACTGCTGCTCATGCTTCTGATTACGGCTCTCGGTTATGGCGGGACCTTTGTTGTCTTCACTTATTTATCCCCATTGCTTCAGGATATAACAGGCTTCAACGAAAATACGGTGGCCGTCATTCTGCTTGTCTATGGGATCGCCATTGCAGTCGGTAACGTGATCGGTGGAAAGGCGGCCAATCGCAACCCGCTTAAAGCCTTGTTCTATATGTTTATAGCCCAAGCGCTGGTGCTGTTCACGCTTACGTTTACCGCACCGTTTCAAGCGGCGGGACTCATCACGATTATTCTTATGGGATTCCTGGCGTTCATGAACGTGCCGGGGTTGCAGGTTTACGTCGTGATGCTGGCCGAGCGCTTTGCGCCAGGAGCCGTGAATATGGCGTCCGCGCTGAACATTGCCGCATTTAATGCCGGCATTGCCATCGGCGCTTTTCTAGGCGGCTTGATCACGAATTCCATGGGCTTGATTCATACGGCATGGATCGGAGCCCTGATGGTGGCCGGTGCGGTCGTGCTCACGGGCTGGAGCTTGAAGCTGGAACGAAAGGATTCGGGAAATCCGGATACATCGGATAAGCCGGGTATGCCAGCGGCATGA	MIIDKKRSLLALIALAVSAFAIGTTEFISVGLLPLIAEDMNISVTTAGLTVSMYALGVTFGAPILTSLTSRMSRKTLLLWIMIIFIIGNSLAAGAASIGVLLAARVLSAFSHGVFMSIGSIIAASVVPENRRASAISIMFTGLTVATVTGVPLGTFIGQQLGWRLAFVAIVAVGIVALIANSILVPSDLPKGERTSFRDQAKLMTNGRLLLMLLITALGYGGTFVVFTYLSPLLQDITGFNENTVAVILLVYGIAIAVGNVIGGKAANRNPLKALFYMFIAQALVLFTLTFTAPFQAAGLITIILMGFLAFMNVPGLQVYVVMLAERFAPGAVNMASALNIAAFNAGIAIGAFLGGLITNSMGLIHTAWIGALMVAGAVVLTGWSLKLERKDSGNPDTSDKPGMPAA	PGPT0028991_1593	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
AK002_03729	399	ytcD_7	COG1733	putative HTH-type transcriptional regulator YtcD	ATGCAAACGAAGAAATACAATATAGCCGTCGAAGCAACATTGGAAGTGATCGGGGGCAAGTGGAAATGCGTGATCCTCTGCCATCTGACCCATGGCCGTAAACGAACCAACGAGCTGAAGCGCCTCATGCCGCACATCACCCAAAAAATGCTGACGCAGCAGCTGCGGGAGCTGGAGGAAGATGGCGTGATCAATCGCATTATTCATAATCAAGTGCCGCCTAAAGTGGAATATGAGCTCAGCGAGTACGGCAGAAGTTTAAGCGGAATTCTGGATATGCTCTGTGCATGGGGCGAAAAACATATCACGAAAATATACGGGGACAAATTCAGCGTGCTGGAGGACAGCATATTGAACGATAAGCTGAAAGCCGTGGACGAACCGACGGATGCTCGATAA	MQTKKYNIAVEATLEVIGGKWKCVILCHLTHGRKRTNELKRLMPHITQKMLTQQLRELEEDGVINRIIHNQVPPKVEYELSEYGRSLSGILDMLCAWGEKHITKIYGDKFSVLEDSILNDKLKAVDEPTDAR				NA	NA	NA	NA	NA
AK002_03730	507			hypothetical protein	TTGTTACATCCTGCATCTCTGTTTTTTTGCGTCACCATGAATTTAGCAAATGATAAGAAATTTAATCATAACGCGGGTCGCAGGACCGGCGCTGTCATTCTTGGCCGCACGATGTTTGATCATGGACAACCTTTTTGGGGAGATACGCCCCCTTTTCATATGCCGGTATTTATACTGACTCATGAAGAACGGCAGACAGAAACGAAGGATGGCGGTACGACTTATACCTTTGTCACGGAAGGGATCGAACGAGCATTGGAGCAAGCAAAAGCTGCGGCGGGGAGCAAAGACGTCAAAATCGCCGGAGGCGCCAACGTCATACAACAATATATGGGAGCAGGCCTGCTGGATGAGCTCCTGATCACGCTGGTGCCGATCCTTCTAAGCAACGGACAGAAATTGTTCGAACATCTCCCCTCCGATATCGAATTCGCTCGGACAACCGTCATCGAATCTCCCGGTGTAACGCATCTGAGGTACCGTCTTATTCACCACGCCAAGGCATGA	MLHPASLFFCVTMNLANDKKFNHNAGRRTGAVILGRTMFDHGQPFWGDTPPFHMPVFILTHEERQTETKDGGTTYTFVTEGIERALEQAKAAAGSKDVKIAGGANVIQQYMGAGLLDELLITLVPILLSNGQKLFEHLPSDIEFARTTVIESPGVTHLRYRLIHHAKA				NA	NA	NA	NA	NA
AK002_03731	999	yxeB_2	COG0614	Iron(3+)-hydroxamate-binding protein YxeB	ATGTTCAAGTCAAAATTACGCGTCATGCTCGCCATGCTTGTCTTATGCTCGATCTTCATCTCGGCATGCGGCGCAAATGGAAATACGGCGAATCAAGCCGGTTCCGCAGGCGAAACAGCAACAGGGACGGATACTGCAAAGACTGAAGCCTCAGCCCCAACAACCAAAAAGGTGCCGACAGTTAACGGAGACATCGAAATTCCGACGGATCCTCAGCGAATTGTAGTGGATGCCTACTTGCCAACGCTGCTGCTGCTCGGAGAAAAGCCGGTAGGCGCTACAGCGACGGATCTGGAGAACGTCCATATCCAGGACCTGATCGATGGCATAGAGAACACCGGGGAAAGCTCTGCGGAGAAGATAGTGGAACTTAACCCCGACCTGATTATCAGCGCGAACTCGGACCCGGAGCTATACGAGAAACTGTCCAAAATCGCACCGACCGTCATTCTTCCTTATGAAACCTATCGAGGCGTGCACGAAGAAGTAGAGGGACTCGGCGCAATCCTTGGCAAGGAAGAAGAAGCAAAAGAATGGCTTGCCGGTTTTGATGAAAAAATCGAAGCGCTGCGCACAAAAGTGAACGGCGTGTTGGAAGAAGGGGAGACGTTCTCGATCTTCGGCGCATTCGGCAAAACCTTCTACCTGTACGGTGACGGCATTTATCGCGGGGGCTTGGCCATCTATAAGGAACTCCAGTTAACGCCTCCGGCAACGATCCAAAAGGAATTGATTGATGCCAACGTGACTTACAAGGAGGTTTCCTTGGAAGTGCTCAAAGATTATGCAGGCGATTATATTTTCTTTGATGAGTCTAACGGGGCCGAGATGGATAAGAAGGATAAGGTGTGGACTTCGATTGAAGCGGTGAAGCAGGATCGCGTGTTTTATCTGGATGCCAAGCGATTCTGGCCGTTTGATCCCATTGCGGTCCTGGCTCAGGCCGAGGAAGTGACGGACATGATCGTCAGCCAAAAAGAAAAGGAGAATGCGAAATAA	MFKSKLRVMLAMLVLCSIFISACGANGNTANQAGSAGETATGTDTAKTEASAPTTKKVPTVNGDIEIPTDPQRIVVDAYLPTLLLLGEKPVGATATDLENVHIQDLIDGIENTGESSAEKIVELNPDLIISANSDPELYEKLSKIAPTVILPYETYRGVHEEVEGLGAILGKEEEAKEWLAGFDEKIEALRTKVNGVLEEGETFSIFGAFGKTFYLYGDGIYRGGLAIYKELQLTPPATIQKELIDANVTYKEVSLEVLKDYAGDYIFFDESNGAEMDKKDKVWTSIEAVKQDRVFYLDAKRFWPFDPIAVLAQAEEVTDMIVSQKEKENAK	PGPT0003765_6127	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
AK002_03732	1716		COG1132	Putative multidrug export ATP-binding/permease protein	ATGCTACGCCGATTTTTTTCCTATTACAAGCCTTATAAAGGGCTATTCATATTGGATTTTTGCTGCGCTATCTTTGCGGCTTTACTGGAATTGATATTCCCGGTAGCCGTCAACCGCGTGATCGACGACTTGCTGCCAAGCGGGAACTGGAAGTGGATTTTATACGCTTGTCTTGGGCTTCTCGGCATTTATGTCGTCAGTTCTTTCCTGCATTACGTAGTCACGTATTGGGGTCATAAACTCGGCATCAACATTGAAACGGATATGCGCAAAAAGCTGTTCGATCGGGTTCAGAAGCAATCCTTCCGTTTTTTTGACAACAACAAGACGGGACATCTTGTTTCGAGAATGACCAACGACCTGATGGATATCGGCGAGATTGCCCACCATGGTCCGGAAGACCTGTTCATCGCCGTCATGACGCTTGCCGGAGCGCTGGGCATCATGCTCGGGATCAACTGGCAGCTTGCCGTGATGACGTTTGTGATCGTTCCTTTGATGATCTATTTATCGCTGTATTTCAGCGGGAAAATGTCGGCGGCGTTCAAGCGCATGTTCTCCGATATTGCCGATTACAATGCACGCGTGGAGAACAACGTCAGCGGGATCCGCGTGGTTCAAGCCTTCTCGAACGAGGAGCATGAAATCGCGCGTTTCGCCGAGAACAACAACCGCTTTCGCGTGACAAAGCTGATTGCTTACCGCATCATGGCCTGGAACTCGTCGATCAGCTTTATCCTGATGAAATTCATCTCCCTGTTCGTGCTGGTATGCGGCACCTGGTTCGTGATTGAGGGCCGAATGACCAACGGGGAATTTATCGCTTTTGTCATGCTCTCTAACGTGTTCCTCGGTCCGATTAAACAAATCAATGCGGTCATTGAGATGTATCCGAAGGGAATCGCCGGCTTTAAACGGTATTTGGAGCTTTTGGAAAGCGAACCCGACGTCGCGGATATGCCGGGTGCCAAGCCGGTCGGCCATGTACGGGGTGACATTGCCTTTCACGGCGTAACCTTCGGGTACGAGAACAAAGACCACGTCCTGGAGGATGTCCATTTGTCCATTCGCGCAGGCGAAACCGTCGCGCTTGTGGGGCCGTCCGGAGCGGGCAAGACCACGCTGTGCTCATTGCTGCCCCGTTTCTATGACATGGAAGCCGGACGGATTACGATCGACGGGATCGATATTCGCGACATGTCGCTGCAATCCCTTCGTTCCCATATTGGCATCGTCCAGCAGGACGTGTTCCTGTTTGATGGCAGCATCCGCGAAAATATCGCTTATGGCAGGCTGGATGCTGACGACGGCGACATCATGAAAGCGGTGGGCCGTGCCCAGCTTGAAGAGCTGGTTGCTTCGCTTCCGGATGGGCTGGACACCTTGATTGGCGAGCGGGGCGTGAAGCTGTCCGGTGGACAGAAACAGCGACTGTCGATAGCCCGGATGTTCCTTAAGAACCCGCCGATCCTCATTCTCGACGAGGCGACGTCCGCGCTCGATGCGGAAACCGAAGCGGCGATCCAACAGGCGCTTGCCGAGCTCTCGGAAGGACGAACGACGCTGGTGATTGCCCACCGGCTCGCAACCATCAAGAATGCGGATCGCATCGTGGTCGTTGCGGACAAAGGCATCGCCGAACAAGGAGTCCATGAGGATCTGCTCGCGGCTCGCGGCATATACAGCCGTTTGCATCGAGCTCAATTCGGGGCTTGA	MLRRFFSYYKPYKGLFILDFCCAIFAALLELIFPVAVNRVIDDLLPSGNWKWILYACLGLLGIYVVSSFLHYVVTYWGHKLGINIETDMRKKLFDRVQKQSFRFFDNNKTGHLVSRMTNDLMDIGEIAHHGPEDLFIAVMTLAGALGIMLGINWQLAVMTFVIVPLMIYLSLYFSGKMSAAFKRMFSDIADYNARVENNVSGIRVVQAFSNEEHEIARFAENNNRFRVTKLIAYRIMAWNSSISFILMKFISLFVLVCGTWFVIEGRMTNGEFIAFVMLSNVFLGPIKQINAVIEMYPKGIAGFKRYLELLESEPDVADMPGAKPVGHVRGDIAFHGVTFGYENKDHVLEDVHLSIRAGETVALVGPSGAGKTTLCSLLPRFYDMEAGRITIDGIDIRDMSLQSLRSHIGIVQQDVFLFDGSIRENIAYGRLDADDGDIMKAVGRAQLEELVASLPDGLDTLIGERGVKLSGGQKQRLSIARMFLKNPPILILDEATSALDAETEAAIQQALAELSEGRTTLVIAHRLATIKNADRIVVVADKGIAEQGVHEDLLAARGIYSRLHRAQFGA				NA	NA	NA	NA	NA
AK002_03733	1035	feuC_1	COG0609	Iron-uptake system permease protein FeuC	ATGGATGCCGTTACCAATACCATGCACGAGCGTAAAGGCAGGAAGCGCAAGATCATGACGCTGTCTATCCTGGGCGCACTAATCATACTGGTGTTCCTCATTAGCATGAACACGGGGGTCATTCGCTTATCGCCGCTTGAAGTCATAAAAACCTTGTTTGGCGGCGGGACGGACAAACAGGAGCTGGTGCTGTTCGAATTCCGCTTGCCGCGGATCGTAATTTCGCTTCTGATTGGTGCCGGGTTGGCGATATCCGGCTGCGTTATGCAGGGCATTTCCCGTAATGAGCTGGCGGACCCCGGCATTTTGGGGATCAATGCGGGAGCCGGATTAATGGTTATGCTGTTCATTTCATTTTTTCCGAGCACGGCGGCGGCTCCGGTCTTTCTGCTGCCGGTACTCGCCCTGATTGGAGCGGGCGGCACCGCAGCATTGATATGCGTACTGGCTTACAAGAAGAATCAGGGCTTTAAGCCGACGGGCCTTCTGTTGACGGGAATCGCCGTAGCGGCCGGCATCAGTGCGGCTATGATCGTGCTGACGCTGCGTTTAAGCCCGGAAAAATATCAGTTTGTTGCCACCTGGCTAGCCGGCAGCATCTGGGGCTCGAGCTGGAAGTTCGTCCTGGCATTGCTCCCATGGATGCTTGTGCTGCTGCCCTTCGTGATGTACAAAGCGCAGGTGATGAACGTTCTCAATCTTGGAGAGCCGACGGCGACCGGACTGGGAGCCTCTGTTACAAGGGAGCAATTGAAGCTGCTGGCAGCGGCGGTCGGATTGGCTGCCTCCTGCGTCGCGGTGAGCGGCGGCATCGGATTCGTCGGCCTTATAGCGCCGCATCTGGCCAGGCGCTTGGTCGGTGCGAAGCATCAAATGCTGCTTCCGGTAACGGCGCTGGTCGGTGCCTTGCTGGTCATCACTGCCGACACTTTGGGCCGCTGGATCATTCAACCGTCCGAGATTCCGACCGGGATCGTGGTTGCCGTGATTGGCGCTCCGTACTTCCTGTACCTGCTATCCAGGACAAGAGCTTAG	MDAVTNTMHERKGRKRKIMTLSILGALIILVFLISMNTGVIRLSPLEVIKTLFGGGTDKQELVLFEFRLPRIVISLLIGAGLAISGCVMQGISRNELADPGILGINAGAGLMVMLFISFFPSTAAAPVFLLPVLALIGAGGTAALICVLAYKKNQGFKPTGLLLTGIAVAAGISAAMIVLTLRLSPEKYQFVATWLAGSIWGSSWKFVLALLPWMLVLLPFVMYKAQVMNVLNLGEPTATGLGASVTREQLKLLAAAVGLAASCVAVSGGIGFVGLIAPHLARRLVGAKHQMLLPVTALVGALLVITADTLGRWIIQPSEIPTGIVVAVIGAPYFLYLLSRTRA	PGPT0003770_4867	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
AK002_03734	1182	btuC		Vitamin B12 import system permease protein BtuC	GTGCTTGACTTGGACATGGACTTTTTTTCAAAAAGAAATTCGAATTGTCCATGGACGAAGAAAGGGGTCTATTTTATAGTTACCAATGATAATGATAATCAATATCACAAAATTGAGGGGAAAATGATGTCATCAAACACGTCCAATCCAAGTTTTACGGATGAAAAGACCCGCGCCAATATCAAAGGACGCCCATGGGCTGCGACCCTGATTCTTACCGGGGGCGTGGCAGCATTGGTGCTTGGCATAGCTTTATCCATATCGCTCGGCGCTGCCGACATTGATCTGCGAAATGTATGGGAAGCGGTGTTCTTCTTTAATCCCGATGTGACGGAGCATCAGATTATTCAGGAGCTTCGGCTGCCGAGGGTCCTCGGCGGAGCGATGGTGGGAGCCTGCTTTGCCGTATCGGGTGCGATTATGCAGGGGATGACCCGAAATCCGCTCGCTGATTCGGGTCTGCTCGGATTAAATGCGGGAGCGGGATTTGTTATTGCGATCTGCTTTGCATTTTTTCCGGGATTGCCGTATATGTACCTGATTCTGTTCTCGTTCCTGGGGGCTGGCCTGGGTGCCGTGCTCGTGTACGGAGTCAGTTCCATGGCAAAAGGCGGTCTTACACCGGTTCGCCTCGTTCTGGCGGGTGCGGCGCTGAGCGCTCTGCTAAGTGCGCTGAGCGAAGGCATCGCATTGTATTTTCAGGTCGGACAGGACATGGCGTTCTGGTATGCCGGCGGTACGGCCGGGATTAAGTGGGTTCATTTGAAAATTATGCTGCCTTGGATAGCTGCTGCTATATTGGGCGCTATAGCATTGTCGCGTTCCATTACCATGCTCAGCCTCGGCGACGATATCGCCAAGGGACTCGGTCAGCGAACGGGACTTGTCAAGCTGGGCGGAACGGTAATCGTGCTGGTGCTGGCGGGGGCTGCCGTCTCGGTTGTCGGTGCGGTAGGCTTCGTCGGTCTGATGATTCCGCACCTTACCCGGAAGCTTGTCGGCGTCGACTACCGGCTCATCATTCCCTGCTCGGCCGTACTGGGAAGCTTGCTGGTCGTCATAGCCGACCTGGCGGCAAGAATGGTGAATCCCCCATACGAGACGCCTGTGGGCTCGATCATCGCACTGATCGGTGTGCCCTTCTTCCTTTACTTGGCACGCAAAGAAAGGAGGGAGCTGTAG	MLDLDMDFFSKRNSNCPWTKKGVYFIVTNDNDNQYHKIEGKMMSSNTSNPSFTDEKTRANIKGRPWAATLILTGGVAALVLGIALSISLGAADIDLRNVWEAVFFFNPDVTEHQIIQELRLPRVLGGAMVGACFAVSGAIMQGMTRNPLADSGLLGLNAGAGFVIAICFAFFPGLPYMYLILFSFLGAGLGAVLVYGVSSMAKGGLTPVRLVLAGAALSALLSALSEGIALYFQVGQDMAFWYAGGTAGIKWVHLKIMLPWIAAAILGAIALSRSITMLSLGDDIAKGLGQRTGLVKLGGTVIVLVLAGAAVSVVGAVGFVGLMIPHLTRKLVGVDYRLIIPCSAVLGSLLVVIADLAARMVNPPYETPVGSIIALIGVPFFLYLARKERREL	PGPT0003770_2638	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
AK002_03736	1326	eriC	COG0038	Chloride/fluoride channel protein	ATGATGAAAAAGTGGTTTGAAGGCGCCGAGAAATGGTCATTGGCCTTGTTGTCCGGTTACTTCGTCAAATGGGTCGTTCTGGGAGGCTTCGTGGGGTTGATGACGGGCAGTGCCTCTGCCTTCTTTCTCTACAGTCTGGACTACGTGACCTCCCTACGCATGGGAAATCCATGGCTGTTATACCTCCTTCCCTTGGGAGGCGCTGCAGTCAGCTTCCTTTATTACAAGTTCGGCAAGAGCAGTGCCAAGGGAAATAATCTCATTCTGGAACAAATTCATGACGGAACCGAAACCATTCCATTGAGAATGGCGCCGTTAGTGCTGATTGGCACGTTAATTACCCATCTATTCGGGGGGTCAGCAGGCCGGGAAGGCACTGCCGTTCAAATGGGGGGAAGCCTGTCGGAGTGGTTCGGCAAGCTTATCCGCGTAACGCCGGCGGATCGAAAAATACTGCTGATCTGCGGAATCAGCGGCGGTTTCGGATCGATCTTCGGCACGCCGCTGGCCGGCACGCTGTTCGGTCTTGAAGTGCTTGCCATCGGGCTGGTCTCGCATCAGGCTCTCCTGCCAGCATTCGCTGCAAGTATGGTCGGAAACCTGACCGCTACCTCTATATGGGGCGTCAGCCATTTGCATTATCCGATCGGAGATATTCCGGCAATGGGTTTTATGGTGATCATCAAGGTCGTCTTGGCCTCATTGTTATTCGGTCTGACAAGCCGGCTGTTCAGTGAGCTAACCCATTCGCTCAAGCGATGGTACGGTTATGTTTTTCACAATCCGATGTTCAAAAGCGCGGCAGGAGGCGTCATCATCATTGGGCTGGTCTACCTGCTCGGAACCCGCGATTATCTGGGGCTGGGCATTCCGCTGATTGAAGCGGCCTTCGCTGGCGAAGTTTCGCCTTTTGCTTTTCTGGGCAAAATTCTCTTTACCTCGCTGACGCTTGGAGCCGGGTTCCAGGGAGGCGAAGTCACCCCGTTGTTTGCCATCGGGGCAACACTGGGCAGCGCATTGTCGGGGTGGATCGGATTGCATGCCCCTTTCCTGGCTGCTTTAGGCTTCATCGCGGTATTCTGCGGAGCGACAAACACCCCGATTGCTTGCTTTATCATGGGAATCGAGCTGTTCGGCGGGGAAGGCGCGGTGTATATGTTTATGGCCTGCGTCATCAGTTACCTCTTTTCCGGTCACTCCGGCATATACACATCGCAGCTTATAGGCACTTCCAAACACCCGCGGCTCTCGTACCCGCCGGGCACGACCCTTGCCGGATCGAAGGCGTTAAACAAACGGAAGGACAACAAAAAGACGTCCGAGTAA	MMKKWFEGAEKWSLALLSGYFVKWVVLGGFVGLMTGSASAFFLYSLDYVTSLRMGNPWLLYLLPLGGAAVSFLYYKFGKSSAKGNNLILEQIHDGTETIPLRMAPLVLIGTLITHLFGGSAGREGTAVQMGGSLSEWFGKLIRVTPADRKILLICGISGGFGSIFGTPLAGTLFGLEVLAIGLVSHQALLPAFAASMVGNLTATSIWGVSHLHYPIGDIPAMGFMVIIKVVLASLLFGLTSRLFSELTHSLKRWYGYVFHNPMFKSAAGGVIIIGLVYLLGTRDYLGLGIPLIEAAFAGEVSPFAFLGKILFTSLTLGAGFQGGEVTPLFAIGATLGSALSGWIGLHAPFLAALGFIAVFCGATNTPIACFIMGIELFGGEGAVYMFMACVISYLFSGHSGIYTSQLIGTSKHPRLSYPPGTTLAGSKALNKRKDNKKTSE				NA	NA	NA	NA	NA
AK002_03737	684			hypothetical protein	ATGAACGGAATTCCTGGCGTAATCCATATTTATTCGAGACAGAAACTATCCTGGTTTTATTTGCCCTGGGCCATCACGGCATTCAGCTTTCTGGTCAACTACATTATTAGCGTATTGGTTAATGGTGAAGCGATCTATGCCGGGGGTTTGGCAACGATCTTTATCTATGTGTTTATCGCGGCTCTGGTATCGGTGCTGCAGCTGTTTCCCTTCTCCCTCGGATTCAGCATTCGAAGAACGGACTTCTATCTGGGTTCTGTTCTGATGGTGGTAGCGTACAGCGTCCTAACGTCGGTTATATTATTGGCATTAGCCGAAATAGAAAGCTTAACGAGTTCTTGGGGAGACCGGTTATCGTTTTTCAAACTGCCGTATTTGAATGACGGCACGTTATTCGAACAATTCATCATTTATTTCATATTGCTTCTTACATTTGCCTTTATCGGGATAGGAATCGGCGTGTTCTATCTTCGTCATCGCGGCATTAAGACCTTTGTCATGATGGCGGCCTATTTCATTCTATTGTCGGGGGCCAGCGTTCTGGTCACCCATTATGGCTGGTGGAGGCAAGTGATTGACTGGGTTGTCAAACATACTGCCTTTGAATTGTCCCTGTGGCTCTTTCCCATCTCGGTTATCCTCGCACTCGTCAGTTACCGCTCGATTCGTAAAAGCTCGGTGTAA	MNGIPGVIHIYSRQKLSWFYLPWAITAFSFLVNYIISVLVNGEAIYAGGLATIFIYVFIAALVSVLQLFPFSLGFSIRRTDFYLGSVLMVVAYSVLTSVILLALAEIESLTSSWGDRLSFFKLPYLNDGTLFEQFIIYFILLLTFAFIGIGIGVFYLRHRGIKTFVMMAAYFILLSGASVLVTHYGWWRQVIDWVVKHTAFELSLWLFPISVILALVSYRSIRKSSV				NA	NA	NA	NA	NA
AK002_03738	891	btuD_9		Vitamin B12 import ATP-binding protein BtuD	ATGAGCCAAACCGTGATCGAGGTTAAGAATTTGAGCAAGGCATACAAGGATGCGACGGCTGTCGATAATGTAAGCTTTACTATCGAGGCGAACAAGATCTATGGATTGCTGGGCCGGAACGGGGCGGGCAAAACGACCATCATGCAGATGATAACGGCGCAGCTGTTTCCGAGCCATGGGGAGATTCGCGTATTCGGAGAGCATCCATACGAAAATCATAAGGTGATCCGGCAGGTATGCTTCATTAAGGAAGGCCAGAAATATCCGGATATTTTTACGGTCAAGGACGTTATGGGAATTGCAGCTAACGTTTATCCGAATTGGGATGCGGCATATGCGAACAAACTGATCGAGGTATTCCGGCTGCCTATGAAACGACTCGTAAAGAGATTGTCCCGCGGCATGCTCTCATCGGTAGGCATCATCGTCGGACTTGCCAGCCGCGCGCCCGTAACGATCTTTGATGAACCTTATCTTGGGCTGGACGCCGTGGCCAGAGAGCTGTTCTATGATCATCTGATCGAGGATTACACGAATCATCCGCGCACGATTATTCTGTCCACGCATTTGATCGATGAAGTCAGCAGATTGCTGGAGCATATTATCGTCATTGATTCCGGCCGAATCTTGCTTGACGCTGCTACGGATGACTTGCGCGGACGTGCGTTTAAGATCGTCGGTCCTTCCGGAACGGTTGAATCGTTTATCCAAGGGCATGAAGTGATACATCGGGAATCGTTCGCTTCCATGTTGTCCGTCACGTTGATGGGAAGCGCGACATCGAAGCTGCAAAAAGAGGCGGAGGAATTGGGCTTGGAAACAACCCCGGTGTCCCTTCAACAATTGATCGTATATTTAACTAAGCACGAAAAGGTGGGGATCCAACCATGA	MSQTVIEVKNLSKAYKDATAVDNVSFTIEANKIYGLLGRNGAGKTTIMQMITAQLFPSHGEIRVFGEHPYENHKVIRQVCFIKEGQKYPDIFTVKDVMGIAANVYPNWDAAYANKLIEVFRLPMKRLVKRLSRGMLSSVGIIVGLASRAPVTIFDEPYLGLDAVARELFYDHLIEDYTNHPRTIILSTHLIDEVSRLLEHIIVIDSGRILLDAATDDLRGRAFKIVGPSGTVESFIQGHEVIHRESFASMLSVTLMGSATSKLQKEAEELGLETTPVSLQQLIVYLTKHEKVGIQP	PGPT0006725_16508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03739	333			hypothetical protein	ATGCAAATTGCCGACAAAATTGAAGACGACATCATCGAAGCACGACTGCCTGAGGAAACGCAGGTTCCATCAACGAATCAGTTTGCAGCCTTTTACCAGATCAATCCGGCTACAGCTGCCAAAGGGGTTAATCTGCTGGTCGATCAAGGAATTTTGTACAAGAAACGGGGGATTGGCATGTTTGTAGCTTCTGGAGCTCGTGAACTGCTGATGGAGAAGCGCAAGACGGAGTTTTATGAACAGTACGTGGTCGCCATGGTTAAGGAAGCGGCCAAACTTGGGATTACCAAAGATCAATTGTCGGAAATGATTCGCAGAGGGGAGCAAGACTGA	MQIADKIEDDIIEARLPEETQVPSTNQFAAFYQINPATAAKGVNLLVDQGILYKKRGIGMFVASGARELLMEKRKTEFYEQYVVAMVKEAAKLGITKDQLSEMIRRGEQD				NA	NA	NA	NA	NA
AK002_03740	1134			hypothetical protein	ATGAAAAGAATCATTGCAATCGTTGTACTGGCCATGCTGACGGTCATAACGCCGCTTTATGCCGCATCCGCCCCCAAAGATTTGGCCTACGTGGACAAGAACAGCCAGTCCTTCATCTCGGTCGGGGTACTCAAGACCTATGATGGTGTAAAGGTAGCTTATACAGCTGCTGAGAAGAAACTCAACATCACACGAGATGATACAGCGCTCACGCTATACCTGGGTAGTCGGAATGCTTATGTTAACGGCAAAAAAGTGCAGGCAAAAGCAGCGCCGTTCTCCGAGAACGGCTCCACATATGTTCCGCTGCAATTTGTCAGCCAACATCTTGGCCTTAAGCTGTCCTGGAGCAATAACAGATCCACCTTGAACATTACGGACGGCGGCGTATCAAACACCCTCCCCGTCCTTTCGGGGAACATGATGACCCGTTCATCCAAGGCCGTGACGTCGGCCAAAAAAACATTTAAAGTGGGAGCACGTTCCTTCAGCGCACAGGTCGTCACCGTTTCGCTGCTCCATCCGAAGGTGGAGCTGGACGTTGTTTTGGCAGGCAATAAAGCAGGCAAAGTCGAAGACTTGCGGAGCATAGCAAAGCGCAGCAACGCCGTGGTTGCCATCAACGGGACGTTCTTTGACGCCTATACCTCGGGAGCGTACAAAGCTCCGTACGGTTATTTGGTCAGCAAAGGCAATATCTTTCACAAGGCCTCGGGAGATAACCGAACGATTTTCACCTATGACAGCAACAATCTGGCGACGATGATGCCGGGACTCGACTTCAAATCCGTATATGAAACAGGCCGTATGGAAGGAGCACTTCAAGCGGGTCCGCGTCTATTGACCAATGGCAAGGTGACGCTGGACGTCAAGAAGGAAGGATTCAAGGATCCGAAGATACTGACGGGCGGCGGGGCGCGAAGCGCGCTTGGCATCACGAAGGACCACAAGCTGATTTTGTTGACGACAGGCGGCGCTACCATTCCCCAACTGGCGGAAATCATGAAGCAGGCAGGTGCCTACCAAGCGATGAATCTAGATGGCGGGGCTTCCAGCGGATTGTATTATAACGGCTCTTACTTAACGACGCCGGGCCGTCAGATCAGCAATGCCATCGTCGTAAAATATAAATAA	MKRIIAIVVLAMLTVITPLYAASAPKDLAYVDKNSQSFISVGVLKTYDGVKVAYTAAEKKLNITRDDTALTLYLGSRNAYVNGKKVQAKAAPFSENGSTYVPLQFVSQHLGLKLSWSNNRSTLNITDGGVSNTLPVLSGNMMTRSSKAVTSAKKTFKVGARSFSAQVVTVSLLHPKVELDVVLAGNKAGKVEDLRSIAKRSNAVVAINGTFFDAYTSGAYKAPYGYLVSKGNIFHKASGDNRTIFTYDSNNLATMMPGLDFKSVYETGRMEGALQAGPRLLTNGKVTLDVKKEGFKDPKILTGGGARSALGITKDHKLILLTTGGATIPQLAEIMKQAGAYQAMNLDGGASSGLYYNGSYLTTPGRQISNAIVVKYK				NA	NA	NA	NA	NA
AK002_03741	2082			hypothetical protein	ATGGAGCGGATATACGGGGTCTTGAGGGAATGGATCGGAAAATATCCTATCCTTTCCAAGGTATATCACTTGTTTTCCTGGATTTCCTTGGCGGTGCTCATTGTAAGTCTGGTTCTGATCGAAGAATCGCGTACCATGCTTGTTCAGTATTTGTGGTCCTTCTACGTGCTGCTTCAATTTTGGCTGTTATGCCGAAGCAAAACGGTCGCCTGGAAGCAGGTCAGCTTGTTTGTTCTCTCGGGCGTTCTCTTGGTCATTCCCTTGACCAACGGAACCATGCAGGGACTGCATATGATATTCGGGGGACGTACGACCGACACATGGTCATTTGCCGTCATGACCCCCATCATAGAAGAAATTTACAAGCTGCTGCCGCTGGCAGTATATTTGTTTTTTTCAAGAAGAGCCACTTCATTGAGCCTAGGCGATTACGTGTTATTGGGCGCTGCTCCCGGCATTGGCTTTCAATTTATGGAGGAGCTGTCTAGGCGCCTGGTCCAAAGCAATTACGGAGTTTCTTTTCTTGGCGGCAAAACGCTGCATTGGGAGTTCTTCGATTGGTTTCCCGGCTACTTCGAGGAAAGCTTTATTCCTACCATGATGAATGTTACGCATCCCGTACATAGTGCCATGATCGCGCTCGGCATCGGCATCGCTTTTCGGTTCTCCAAACGCCTCACCCGATGGGCCTATGCTTTTCCGGCGATCCTGCTGCTCTGGGCTATCCTGAATCATGCGGCCTGGAATGGTCAGAATCGGCTGCCGGATTGGATACTTACCCTTCATGAGTGGACCGGGGAGGGCTACCGAACCGAAGGATTCTTCCTGACTCTGCTTGTTCTCGGCTTGTTCATCGACTACTGGGACCTGCATCGAATACGCGACCGTCTGCCTGTGCTTAAGGGGGAACCCCTCATCAATCCGTTAACGGAGCTTTGGCAGATGACGCGGGCTTTGTTTACGGACCGGAAACGCCTGGGCTACTTGCTCGGTTTCTACCGCCAGCGGCGCGAGCTCGGATACTCTCTGCTGTACGGCAATCTTGAAGCCGCGGGCCAACGTGATCAGGTTCAGGACAATGTAAGAAAGTATTCTGCCGTTCTGGGAGTCATCGGACTCCTCATGCTAGCTGCCGGGATCCTATCCGGCGTTGGTGATTTCATGACGGCTGCGGACTCCTCCTGCTTTGCGTGCCTGTTCGACTCCCTCCAGAATTGGTGGGATCGGCTTAGCGGCTGGGAACAAGCGGGAATCATACTAGGCGCCTTTGCCCTGTCCCTGCTGTTTGTCAGCTTCTGGCCGGCACTCGGCATCGCCATGACAGGTGCCGGCATTGCCGCCGGGGGACACGAAATCGCGGGATACATCCGCGATCCGAAGAAGCTGCTTTCTCCTCAGAATGCGGCCGCTGCCGTGTTAGCCGTGATCCTCAGCCGGATCCCGGTCGGCAAAGGCCTCTCGTGGCTGTCCAATAAACTGGGCCCGCGGGCAAGAAGATGGTTGGATTCGCTCACCGAAAAATTCGGCTCGAAGACGCGCGATGAGCCGGATCGGCCCCATGAACAACCGGGAGAGAATCCGCGGAAGCCTGACGATGACCATGAGAATAATAAGCCGGACGAAGACAAACCGAATCAAGATAAACCGGATAACGAAAAGCCCGATGAGGATAAGCCGAGTGACAAACCCGATAACGAAAAGACGGACGAATCAAACGACACCCCCCAAGAGGCACCGAGATATTCCGGTGAGCTGCAGAAGGTCAACAAGCCGGACGCAGCCGCCGATGCGCTGGCGGAGCGCCTTGGCGGAGAATCAAGGATGAAGTTTGATTCCGATCCCATCGGCCGTGAATTCGACGCGATTAGCGATGAATACGTCGCCCAGACCAAGCCTGCCCTTCAGCAGGTGAACAAAAAGGTACGCGATCAAATGAAAGCGACCTTCGAAGCTGCCGAGCAAACCGGCAGAAAGGTCTATTATCATTTTGAAGGGGAGCCTGCCCAATCGGTTATTGACAAACTGCATGAATACAGCCAAAGATATGGAATAGAAGTCCACATCGATACCGATCCATTATAA	MERIYGVLREWIGKYPILSKVYHLFSWISLAVLIVSLVLIEESRTMLVQYLWSFYVLLQFWLLCRSKTVAWKQVSLFVLSGVLLVIPLTNGTMQGLHMIFGGRTTDTWSFAVMTPIIEEIYKLLPLAVYLFFSRRATSLSLGDYVLLGAAPGIGFQFMEELSRRLVQSNYGVSFLGGKTLHWEFFDWFPGYFEESFIPTMMNVTHPVHSAMIALGIGIAFRFSKRLTRWAYAFPAILLLWAILNHAAWNGQNRLPDWILTLHEWTGEGYRTEGFFLTLLVLGLFIDYWDLHRIRDRLPVLKGEPLINPLTELWQMTRALFTDRKRLGYLLGFYRQRRELGYSLLYGNLEAAGQRDQVQDNVRKYSAVLGVIGLLMLAAGILSGVGDFMTAADSSCFACLFDSLQNWWDRLSGWEQAGIILGAFALSLLFVSFWPALGIAMTGAGIAAGGHEIAGYIRDPKKLLSPQNAAAAVLAVILSRIPVGKGLSWLSNKLGPRARRWLDSLTEKFGSKTRDEPDRPHEQPGENPRKPDDDHENNKPDEDKPNQDKPDNEKPDEDKPSDKPDNEKTDESNDTPQEAPRYSGELQKVNKPDAAADALAERLGGESRMKFDSDPIGREFDAISDEYVAQTKPALQQVNKKVRDQMKATFEAAEQTGRKVYYHFEGEPAQSVIDKLHEYSQRYGIEVHIDTDPL				NA	NA	NA	NA	NA
AK002_03742	402			hypothetical protein	ATGTATGAATTTCACGGCTGGGCTACCATTCAAGAGAGTCCTGCGGAAGCGGATGCCGGGCAGCTCGATATGATCATTCAGAAAATACAGCTTAAAATTACCGAATTCGCATGGGGCAGCGGCTTGTTATCCTTAAATGCGGCCAACGGCTCATATTATCTTCATGTCGGCGGGTTTACCAACCGCAAGGGAGCCGAAGCTGCCGAGATTGTAGCGTTGTACCAATTGATTGGCGAAATCGCTCCCGGTTCATACGGTTTGCTGTACACCCGGGACGATGAGAACTTGGAAGGCTACGATAACGAGTTCCGGGTTCAAGTGCTGGCACGCGGACAATTACAGGAGCAGCGCGACGCGTTCCTCTCTCCTTGCGTGCCGGTGATCGAAGATGAAGTCGACTAA	MYEFHGWATIQESPAEADAGQLDMIIQKIQLKITEFAWGSGLLSLNAANGSYYLHVGGFTNRKGAEAAEIVALYQLIGEIAPGSYGLLYTRDDENLEGYDNEFRVQVLARGQLQEQRDAFLSPCVPVIEDEVD				NA	NA	NA	NA	NA
AK002_03743	639	pcp		Pyrrolidone-carboxylate peptidase	ATGCTAAAAATATTAATTTCAGGCTTTGAGCCCTTTGGCGGGAGTTCCGTCAATCCTACGGAGAGACTGGTTGAAGAGATCCGGCAAGAGGTCTTTCCTGGCGCCGAGATCCGGACGCTGCTTCTTCCCGTGCATTACGACGAATGCGCGGACATTCTGCTGCAGGAGATGAAGGCATGCGAACCCGATGCGGTCATCGCTTGCGGTGTGGCGGGGGGCCGGACCGCCATTACGCCGGAACGGATCGCCATTAACATCAAGGACATACCGTCGGAATCGACGATGACGGATAACCGGGGTGCACGGCCCCAAGACGAGCCTATAGACGTTGACGGACCGGACGGATTATTCTCAACCCTTCCGATCCGTTTGATGGTCGACCGGCTGAAGGAAGCAGGGATACCGGCATCGGTATCCAATACAGCCGGAACGTATATTTGCAACGATACGATGTATGCGATTCTGAATGAAATCCGGCGCGAGCAACGGTCTGCTATTGCCGGCTTCGTGCATTTTCCGGCTTCGACGGAGATGGCCGTGGAGAAGCCGTCCCTGCCGACCCTATCGCATGAAACGATGCTGAACGGCCTGCGAATCATCGTTCAAGCAACGATCGATGAATTGAATGGACGTGCTTAA	MLKILISGFEPFGGSSVNPTERLVEEIRQEVFPGAEIRTLLLPVHYDECADILLQEMKACEPDAVIACGVAGGRTAITPERIAINIKDIPSESTMTDNRGARPQDEPIDVDGPDGLFSTLPIRLMVDRLKEAGIPASVSNTAGTYICNDTMYAILNEIRREQRSAIAGFVHFPASTEMAVEKPSLPTLSHETMLNGLRIIVQATIDELNGRA				NA	NA	NA	NA	NA
AK002_03744	762	pxpA	COG1540	5-oxoprolinase subunit A	ATGGTTCGAGTGGACCTGAACTGCGATATGGGAGAGAGCTACGGAGCTTACAAGCTGGGCAACGATAAGGAGCTGCTTCGAAGCATCACCTCGGCTAACATCGCTTGCGGGTTCCATGCAGGCGATCCGGCCGTCATGCGGGCAACGGTGCGTCTGGCGGTCGAGAGCGGCGCCGCCATCGGCGCGCATCCGGGCTTGCCCGATTTGGCCGGTTTCGGAAGAAGAAGGATGGACATTACGCCCGTTGAGGCTTATGACATGGTCACCTATCAGGTGGGGGCCTTGATGGCTTTTGCGGTACAGGAAGGGGCCGGGCTTCAGCATGTAAAGCCGCACGGAGCCCTTTATAATATGGCTGCAGCCTCCAGGTCTCTGGCAGACGCGATTGCCTCCGCCATCAAACAAATCGATCCGACCCTCATTCTGTTTGGATTGGCAGGCAGCGAGCTGATCGCGGCAGGGAAAGCAGCAGGGCTTCGAACGGCCAGTGAAGTGTTTGCGGATCGCACGTACCAGGACGACGGCTCCCTCACGCCGAGGAATCGGCCGGATGCCGTCATCACCGATCCCGAAGCTTCCGTCGCGCAGGTGGTGAGGATGGTCAAGGAAAACATGGTGGTATCCTTGACCGGCAAGCTGATCCCGATAACAGCGGACACCGTTTGCATACATGGAGACGGTGCGCACGCATCGTTATTCGCCACCACCTTGCGATCCCGGCTTGAAGGCGAGGGCGTCAAGGTACAAGCCATCCAATCGTAA	MVRVDLNCDMGESYGAYKLGNDKELLRSITSANIACGFHAGDPAVMRATVRLAVESGAAIGAHPGLPDLAGFGRRRMDITPVEAYDMVTYQVGALMAFAVQEGAGLQHVKPHGALYNMAAASRSLADAIASAIKQIDPTLILFGLAGSELIAAGKAAGLRTASEVFADRTYQDDGSLTPRNRPDAVITDPEASVAQVVRMVKENMVVSLTGKLIPITADTVCIHGDGAHASLFATTLRSRLEGEGVKVQAIQS				NA	NA	NA	NA	NA
AK002_03745	1008	pxpC	COG1984	5-oxoprolinase subunit C	ATGAGCATGACCGTCATCAAGCCGGGTCTGCTGGCGACTCTTCAGGATACAGGGAGACGGGGTTACGGCAGATACGGTATCATCGCGGCTGGAGCCATGGACGGCTATGCCTATCGGCTTGCCAACCGACTTGTCGGCAATGAGGGTGAACACGCCGTTCTGGAGATCACATGGTCAGGATTGGCCGTTGAATTTCACGACGATCGTTGGATTGCCATTACAGGCGGGGATTTATCGCCGCTAATCGATGGCGTAAAGGTGCCCATGTGGCGCCCGGTGCTGGTCAAATCGGGCCGTGTGCTGAGCTTTCAACAGCCGGCAGCGGGGTGCCGCGCTTATATGTCCGTATCCGGCGGATTTGATGTCCCGCCGGTCATGGGCAGCCTCAGCACGTATTTAAGGGCAGGAATCGGCGGATATGAGGGAAGAGCGCTCAAGCAAGGGGATACGCTGCATGCCCATGCTTCCCAGCTTCCGGTGGATTCGTCTGAACGAAACCTTCATGTTGACGATTACGGCGGCTTTCTCACCGCGAAATGGTCCGTTTCTGCTTCAGGGTATGACTTCACCGGGCAAGATGCGGTGGTACGCGTGCTGAACGGGCGTCAATTCGATGCTTTTGACGACGACAGCAAGCAAGCGTTGTTCCGGGAACGGTTCACCGTCACTCCGCAATCGGATCGGATGGGCTACCGATTGACCGGTCCGCCGCTGACGTTAAGGCAAGCAAAGGAATACATATCCGAGCCGGTTGCTCTGGGAACGGTACAGGTTCCCTCCGATGGCCAGCCGATTATTCTGATGGCGGATCGGCAGACGCTTGGCGGCTATCCCAAAATCGCGCAAGTGGCTTCGGTCGATATTCCGCTGATTGCCCAGCTGCCGCCAGGCGGCAGCATCCGATTTGCGGAAATTTCCTTGGCGGAAGCGGAACGGCTATACGCGGCCCGCGCTCGGGAGCTTCGAATGATGGAAGCGATGATCAGGCAGAAATTAAAGGAGTGGTGA	MSMTVIKPGLLATLQDTGRRGYGRYGIIAAGAMDGYAYRLANRLVGNEGEHAVLEITWSGLAVEFHDDRWIAITGGDLSPLIDGVKVPMWRPVLVKSGRVLSFQQPAAGCRAYMSVSGGFDVPPVMGSLSTYLRAGIGGYEGRALKQGDTLHAHASQLPVDSSERNLHVDDYGGFLTAKWSVSASGYDFTGQDAVVRVLNGRQFDAFDDDSKQALFRERFTVTPQSDRMGYRLTGPPLTLRQAKEYISEPVALGTVQVPSDGQPIILMADRQTLGGYPKIAQVASVDIPLIAQLPPGGSIRFAEISLAEAERLYAARARELRMMEAMIRQKLKEW				NA	NA	NA	NA	NA
AK002_03746	720	pxpB	COG2049	5-oxoprolinase subunit B	ATGAGCAAGTCCTATACGCTCTACCCCCTTGGGGATTCGGCCGTCCTCATTCAATTTGCGGACTTCGTGAGCGAGAAGGTGCATCGTCAGGTCACAGACATGACGAGGCGATTGGAACGGGAGCCATTTATGGGCTGGATCGAATGTATCCCGTCGTTTACGAGCATCGCGGTTTACTACGATTTTCATAAGATCGAAAAGCCTGACGGATTCGATACGGTATATGCATATGTATGCTCGATGCTGGAACAGCGGATGGAGGCGAACACGGCGGACGAGAACCTGAGGCCTTACGAGGTTGCAGATATTCCGGTTTGTTACGGAGGCGAATATGGGCCGGATTTGGAAGAGGTGGCCCGGAAGAATCATCTGTCGCCCATGGATGTCGTCAAGATTCATTCCGGGCAGGATTACTTGATCTACGCCATCGGTTTCGCCCCCGGGTTTCCGTATGTCGGAGGAATCCCGGAGCAAATCGCAACGGAGAGGAGAAAGACGCCCAGGCTGCGAATACCGGCCGGTTCCGTTGGAATCGCCGGGACGCAAACCGGCATCTATCCCATTGAAACGCCGGGCGGCTGGCAGATTATCGGCCGGACGCCGCTCGCATTGTTCCGTCCCGGTGCCGAGCCGCCAACGCTGTTGAAGAGCGGGCAATATATCCGGTTCCGGCCGATTCAAGCCGAGGAATACGAACGGTTAAGGGAAGTGAGCCTATGA	MSKSYTLYPLGDSAVLIQFADFVSEKVHRQVTDMTRRLEREPFMGWIECIPSFTSIAVYYDFHKIEKPDGFDTVYAYVCSMLEQRMEANTADENLRPYEVADIPVCYGGEYGPDLEEVARKNHLSPMDVVKIHSGQDYLIYAIGFAPGFPYVGGIPEQIATERRKTPRLRIPAGSVGIAGTQTGIYPIETPGGWQIIGRTPLALFRPGAEPPTLLKSGQYIRFRPIQAEEYERLREVSL				NA	NA	NA	NA	NA
AK002_03747	177			hypothetical protein	ATGAGCGAACAAAACCGCAACAGCAACGAACCGACAAAAGCGGAAGTCCAGACTACGAAATTGAACAAAATGCCGGTTCCAGGTGAATTTGACACCGAGTTCTCTGCCGAAGAAGCAGCCGAGGTGTTTGAACAGCAGCAGCCTAATGCGGGACAAAACACCGAAAACCAATCATAA	MSEQNRNSNEPTKAEVQTTKLNKMPVPGEFDTEFSAEEAAEVFEQQQPNAGQNTENQS				NA	NA	NA	NA	NA
AK002_03748	1212			hypothetical protein	ATGAGCAGTATGCAAGAATCCAACCAAGTATCGCGATGGCGGCTCATTCTGGGCCAGTCGGCAGAGCCTCAGCTAGCGGGCTTCAGCCCCGGCGGGAGCATTCAGCTGTCGGAGGAAGAACGCATCATGGACCGCGCGCTTGCTGCAATATACGATAATACGGACGGCGGGACGGATGCAGGCGGCGCGCCCTCGGGACAGCGGGGAGCCGGACAGGGAAAGTCGGCCCCTCGGCTCGCGCAGTGGCTGGGTGACGTCCGCTCCTTTTTTCCGGAAGACGTGGTGTCCATCATCCAGAATGATGCCATGGAACGAAAAGGGTGGAAGCAGCTGCTTTTTGAGCCCGAGGTACTGGCTACGGTCAAGCCGGATATACAGCTGGTCGGCACGCTGCTGTCCCTGAAGGGGAAAATCCCCGAGAAAACGAAGGACACGGCACGCCAGTTGGTGAAGGCGGTTGTGGATGAGCTGGTTCAGCGCCTTCACGAGGATATCCGCCGGGCGGTGACCGGGGCATTGAACCGCAGGCAGCATACGCCGCTCCCTTCGCTCAGCGGGATCGACTGGAAGCGGACGATACAGCGCAATCTGAAAAACTATGATGCGGACCGCAAACAGATCGTGCCGGAGCGTTTTTACTATTTTGACAGAGCCAAACGGAGCAAAGAATGGACCGTCATCGTGGATATCGACCAAAGCGGTTCCATGGCGGAATCCGTGATCTGGGCTTCGGTTATAGGATCCATATTTGCCAGCATCCCTTCGCTGGACACCCGCGTGGTGGTGTTCGATACGGAAGTCGTTGATCTGACCGAACAGTGTGCCCATGACCCGGTGGATATGCTGTTCGGGATCCAGCTCGGCGGCGGGACGGATATTCATAAATCGGTCGCTTATTGCGAGCAGTTTATCGAGGAACCGAAAAAGACGCTGTTCATCATCATTTCAGACCTGTATGAAGGCGGCAATCAGGCCGGACTGATCCGGCGCATGCGAGAATTGCGGGAAGCGGGGGTCAAGACGATGTGTCTTCTCGCTTTATCCGACGAGGGTAAACCCTTCTATGACGAGCAGGTAGCCAAACAGCTGTCCCGGGACGGCACCCCTTGCTTCGCATGCACTCCTGCGCTTCTTCCGCAGCTGGTGGAGGGCGCCCTCAAAGGGCAGGATCTAGCGGAACTCGCGAAGCGGTTAGGCACCAAAGGGATATAA	MSSMQESNQVSRWRLILGQSAEPQLAGFSPGGSIQLSEEERIMDRALAAIYDNTDGGTDAGGAPSGQRGAGQGKSAPRLAQWLGDVRSFFPEDVVSIIQNDAMERKGWKQLLFEPEVLATVKPDIQLVGTLLSLKGKIPEKTKDTARQLVKAVVDELVQRLHEDIRRAVTGALNRRQHTPLPSLSGIDWKRTIQRNLKNYDADRKQIVPERFYYFDRAKRSKEWTVIVDIDQSGSMAESVIWASVIGSIFASIPSLDTRVVVFDTEVVDLTEQCAHDPVDMLFGIQLGGGTDIHKSVAYCEQFIEEPKKTLFIIISDLYEGGNQAGLIRRMRELREAGVKTMCLLALSDEGKPFYDEQVAKQLSRDGTPCFACTPALLPQLVEGALKGQDLAELAKRLGTKGI				NA	NA	NA	NA	NA
AK002_03749	2355			hypothetical protein	GTGAATGCCGCCGGCATCCATGTGTTTGGCGTTCGGCACTTGTCACCCGCCGGTGCGAAGCATCTATTAGACTTTCTGGATGAGATTGATCCCACCGCCGTCCTCATTGAAGGACCGTCTGATGCAAGCGGGGAAATCCGGCATCTGGCCCATGCTACGACAAAACCGCCGGTTGCCATATTGGCATTTACCGAAGAAGTGCCGGTACAAACCGTACTTTGGCCTTATGCGGTATATTCTCCGGAATATCAGGCGATGAAATGGGCGCAGAAGCATGGAGCCTATGCCGCATTTATCGATCTGCCGTCGTCCTCTGCCGTATGCCTTCAGGAGCTCCGCCGCAGCCCGGTAGGCGGTTCTGGCGGGGAGGAGTCCGAAGACGAGAAGCCGGAAAGCGTTTCAGGTGCAGCAGAGCCGTCGGATGATAGCCTGCCGGCCGGAACATCCGTATATGAGCGGATTGCCGAGCTTGCTGGCGAATACGATTACGATATGTACTGGGAGCGGAGTTATGAACATAATTTAAACGCGGGGTCTTACCGGCAATCCATAACGGCTTTTTCCGGGCAGATGCGAGAGCTTTCGGAGGAGAGAGAACGGCTTGCGGATGCAGTGGAGTACGCCTACAATGCCGTCCGGGAGTCTTACATGCGCCGTCAGATTGTTGAAGCGATTGCGGCGGGGCATGAGCCCGAACGCATTGTCGTCGTCTGCGGGGCATACCATGCCCCTGCCCTTAGCGATTTGTCAAACCCGATGAGCGACGAGGAATTAACTCAGCTGCCTTCCCGGGCAACCAAACTGACCCTGATGCCATACTCTTACTATAAACTGTCGTCTATTTCCGGCTATGGCGCCGGTAATGCGGCTCCCCATTATTTTGAAATGATGTGGGAACGGATGCTGAAGGGCGCGTTAACGGAATTGCCGCACCAGTATTTATCCTTGGTGGCAGGCTCGATGAGAAAGAAAGGGACCCACCGGTCAACGGCAGAAGTGATCGAAGCCGTCCGGCTGGCGGAGTCGCTCGCCGCGCTCCATGGGGGCGGTATTCCCACCTTGCGGGATTTGCGGGATGCGGCCCAGACGCTGTTTGGGCGCGGTGAGCTTGCCGTCGTGGCAGAGGAGCTTGCCCGAACGGATATCGGCACGGCGATCGGCGAGCTGGCCGAAGGCGTCAGCCAGACGCCGATCCAGGACGACCTGAACCGCCAGCTCAAAAGGTTGAAGCTGGAGAAATATAAATCGGTTGTGGCCAACGATGTAATTCTGGATTTGCGCGAAAACCGGAGGGTTGCTTCGAAAGAGTCCGCCTATCTGGATTTGAACCGTTCCTTCTTGTTTCACCGCTTGAAGCTGCTGGGGATTGACTTCGTCAGCGCGAGACCGAGCGGGCAGGAGCAGGCGGCGTGGGCGGAGCACTGGGTTGTGAAATGGACGCCCGAGGTTGAAATCCAGGTCGTGGAGTCCACGCTGCTGGGAGAGACGGTAGAAGTAGCTGCCGCTTATATGCTCCAACAGAAGCTGGCGGACTGCAGCTCGATTGCCGAAGCCTCTTCGCTTATCCGAATCGCCTATGAGTGCGGGATGATTCACCAGATGGAAGCAGGCAGGCAGACCCTGCAGAAGCTGGCTGTGGACAGCCGTGATGTCGTACAGATCGCGGCCGCTTCCCGGTCGTTATCCGTGATGATCCGTTATGGCGGGGTCCGGCGAATGGATACGGAGCCGTTAGTGCCGCTGCTTCAGCAGCTGTTTATGCGCGCTTGCTTGTTCCTGCTTGATGGCAGCCAGTGCAGCGATGAGGTGTCCGGCTCGATGATCACCGCTATGAATGAGCTGAACAGCGTTGCGATGGAGCATGCCGAGCAGGTAGACGAGGAGCTTTGGCTGCAAGAGCTTCGGCATTTGTCGGAAAGGGATGACCTCAATGCACGGCTGTCGGGGTATGCATGCGCGGTCTTAATGGAGCGGAACGCGATTTCCCCGCAGCAGTGCGCCGAAGAAGTTTCGCGCAGACTCTCCCCCGGCATTCCGGCCGATTTGGGGGCGGGATGGTTCGAGGGTTTATCGATGCGGAACCGTTATGCCCTGCTATCACGGTTAAGTTTGTGGGAGCAGCTGAATGAATACATCCTGTCCCTGGACGATGAGGAGTTCGCGCGCGCCCTTGTCTTTCTGCGCAGGGCGTTCAGCAGCTTCTCGCCAAAGGAAAAGACGATGATAGCCGAGCTGCTTGGCGAACTTTGGGGCGTGAACGCAGAGCAGGCTGCCGAGATTTTGACCGGTGACTTGAAGGAGGAAGAAGCAAAAATGCTGGACGAATTGAATGATTTTGATTTTGAGGATTTTTAG	MNAAGIHVFGVRHLSPAGAKHLLDFLDEIDPTAVLIEGPSDASGEIRHLAHATTKPPVAILAFTEEVPVQTVLWPYAVYSPEYQAMKWAQKHGAYAAFIDLPSSSAVCLQELRRSPVGGSGGEESEDEKPESVSGAAEPSDDSLPAGTSVYERIAELAGEYDYDMYWERSYEHNLNAGSYRQSITAFSGQMRELSEERERLADAVEYAYNAVRESYMRRQIVEAIAAGHEPERIVVVCGAYHAPALSDLSNPMSDEELTQLPSRATKLTLMPYSYYKLSSISGYGAGNAAPHYFEMMWERMLKGALTELPHQYLSLVAGSMRKKGTHRSTAEVIEAVRLAESLAALHGGGIPTLRDLRDAAQTLFGRGELAVVAEELARTDIGTAIGELAEGVSQTPIQDDLNRQLKRLKLEKYKSVVANDVILDLRENRRVASKESAYLDLNRSFLFHRLKLLGIDFVSARPSGQEQAAWAEHWVVKWTPEVEIQVVESTLLGETVEVAAAYMLQQKLADCSSIAEASSLIRIAYECGMIHQMEAGRQTLQKLAVDSRDVVQIAAASRSLSVMIRYGGVRRMDTEPLVPLLQQLFMRACLFLLDGSQCSDEVSGSMITAMNELNSVAMEHAEQVDEELWLQELRHLSERDDLNARLSGYACAVLMERNAISPQQCAEEVSRRLSPGIPADLGAGWFEGLSMRNRYALLSRLSLWEQLNEYILSLDDEEFARALVFLRRAFSSFSPKEKTMIAELLGELWGVNAEQAAEILTGDLKEEEAKMLDELNDFDFEDF				NA	NA	NA	NA	NA
AK002_03750	1104	yehL	COG0714	putative protein YehL	ATGGGAGCAGGTCAAGAGCAATTGGAAGATATCATGCGTCAGCCCGCGGAAATACTGTTTCGTCATGAGCTGGAAGCGCTGCGCAAGGAGGATACCGGGAAAATTCCTGCCGGATGGCAGATGTCCCCTCAATCCGTACTTAAATTCATCGTTGGCGGCAAGGCCGGCAAGACGGAAATCACGCCTAAATATATCGGAAACCAACGTCTGATCGAGATGGCGGTCGCTACCCTGGTAACCGACCGCGCCCTGTTATTGATCGGGGAACCGGGCACGGCCAAATCCTGGCTGTCCGAAAATCTGGCGGCAGCAATCTATGGAAATTCCGGATTGGTCGTACAGGGCACGGCTGGAACGAGCGAAGAACACGTTCGGTATTCCTGGAACTACGCCATGCTGCTTGCCCAAGGCCCTACCCCCGAAGCGCTGGTGCAGAGCCCGATCATGAGGGCGATGGAAGCGGGCGGGATCGCCCGGTTCGAAGAGATTTCCCGCTGCGCCTCGGAGGTACAGGATGCCCTCATCTCCATTTTGTCCGAAAAGACGATATCGGTGCCTGAACTCGGAAAAGAAATGAATGCCCGAAAAGGCTTCTCGATTATCGCTACAGCGAATACAAGAGACCGCGGGGTCAATGAGATGTCGACCGCGCTGAAGCGCCGTTTCAACATCATCGTGCTTCCGGCTCCTGCGGATCTGGAAACCGAAATCGAAATCGTGAAGAAACGGGTGTCGGAGATTGCTTCCTCTTACGATCTTCAGGCTGCTGCTCCTGCAGATGAAGCACTGCTTAAGGTAGTTACCATCTTTCGGGAGCTGCGCAGCGGCATGACCCTGGATAAAAAGGAAAAGGTGAAGTCTCCTGCCGGGGTAATCTCGACCGCTGAAGCGATTTCGCTCCTGACCAACAGCATGGCGCTGGCAGCCAGCTTTGGCAGCGGGGAGCTCACCGACGAGGATTTGGCAGCAGGACTCCAAGGCGCGATCGTGAAGGATGATGATAAGGACCGGCTCGTGTGGAAGGAATATCTCGACAACGTGATGAAAAAGCGCGGTGCCGAGTGGCGGGGCTTATATCAAGCATGTAAGGAGATAAACAAGTGA	MGAGQEQLEDIMRQPAEILFRHELEALRKEDTGKIPAGWQMSPQSVLKFIVGGKAGKTEITPKYIGNQRLIEMAVATLVTDRALLLIGEPGTAKSWLSENLAAAIYGNSGLVVQGTAGTSEEHVRYSWNYAMLLAQGPTPEALVQSPIMRAMEAGGIARFEEISRCASEVQDALISILSEKTISVPELGKEMNARKGFSIIATANTRDRGVNEMSTALKRRFNIIVLPAPADLETEIEIVKKRVSEIASSYDLQAAAPADEALLKVVTIFRELRSGMTLDKKEKVKSPAGVISTAEAISLLTNSMALAASFGSGELTDEDLAAGLQGAIVKDDDKDRLVWKEYLDNVMKKRGAEWRGLYQACKEINK				NA	NA	NA	NA	NA
AK002_03751	1857			hypothetical protein	ATGAGTACGGCATTACTGCAGGAGCTTAACCAAGAGGTTAGGCGTTTATATATCGCCGGCAGCGAGCTCGCGGCAGGCGATTTCCGCCTGAAGCGGCTGCTGCCGCAGTTTCAACAGCTGGGAGAACGCGCTCCCGTGTTCAAACGATTGGGCGAGGGGATCCTTGCCTTGATCGAACCGGATTCCGGGAAGGAGAACCAGTCCGCACAGCTGCTTCAGGATATAAACCAGCTGCTGAGCTCCGTGCTGCATACGCAAGGAACGACAGCACCCGAAGGAGAACTGTTTCCGGTAGACCATCATCCGGTTTCGCTGTCATCCCATCTATCATACCGCAAGCTCTCAGCAGTACAGACCGCCCTGACCACGACGGGCAGCGGCCGTTACGAGATCATAGAAGAAGCGTGGAAGGAAGAGGTGTTCCGGGATTTCCGTCTGGTATACCTTGCAATCGAAGCGTTGAATGACCCTTACGTCGAGATTGGCGAGCTCGCGGCCAATGAGATACTGCCGGCGTACGGCCCGGAAATCGTTCCGTTTCTGATGGAAAGCTTTAATCCGGCGGGCGGAAAGCCGGAATCACGCAAGCTGAAGGTGATGGCGGCAACAGGCGGGAAGGAAGCGCTGGAGCTGATCCGCCAAGCGGCCGAGATCGGCAGCGACGAGGTGCGGTGCATGGCGATTAAACTGCTTGCGCGGCACGAAGAGTTTGAAGCGGATCTGATGGAATGGAGCAGGAGCAAGAAGAAGGTCATCCGCGAAGCGGCGTACGGCGCGCTGGCCGAGAACGGTTCCGATCAAGCCGTGGGGCGGTTGTATGAAGCCGCCCAAGGAAAAGACAAAGAGCTGGTGAATCCTGCCTTAGGCAGATGCCGTTCCGCCCTGTTGACGGATTGGCTTGTACGAGACTTGTCGGCGGAGCTTCAATCGGTTTCCGAATCCCTGGGCGACAAGCAAAAGCTGGAGGAGAGCTGGATCAAGGTGAAGCGCTGTTTGTGGGCCCTGCACGACAAACAAAATCCGGAGCTCGAGGAGCTGTACCGGAACGTGCTTCAGCAGTATGCCTTATACATCAAGTCTTTGGGCTGGACCTATCTGATGAATGAAGCGGTCATCTACATGAATCGCGTGGATTCCGGGGAAGCCAGGGAACTGCTGCGCCAAAATGCGGAGCATGATATAGAGCAATATAGACACAACGGCTCTTATGTCCGCGAGGTATTCCAAAAAGCAACGCGCGTGCTCCCGCCTGAACGCGTATATGAACAATACAAGGACGTTCTGTTACAAGGCTTCGCCTCGTCCCCGCTCAGCAACGCGGCCAAAGAGCGGAAAAAGCTATTGGATACCCTATCTGATCTGGTAATCCGCAGGCAGTATAAGCCTTATGAGGAAGTAATGCCGTTTGCGGGCAAGGAGAGCTACACGTATTACGTGGAGATGCTCCCGCAAGAGCAGCTGCTGGCGTGCTGGGATGACAGATGGCTGGAGCTGTTGATCGAGCAGGATGAGCTGGCGCTGGTCAGCGCGTTCGCCCGCCGGGGACATCGGGGCGCCGAATCGTATTTGCTGGCAAAGCTGCAGAATTCGCCGGAATTCCGCAACCGGTTTGCCAATCTGATTATTATGGGTCTTGTTCGTACCGGCATAAAGGATGAAGAGCTGTATGAAGCTGTTGTGGCCGCTCTTGAGGATAAGCGCAATCAGGACTGCTACATGATCGAGCCTTTTATATTCTCGCAGCTGTGCCGGTTGCCTGCAGATTATCATGACCGCGTCCATGCGGTGCTGGGCAACTACAAGGACAACGCCGAGGATCAGCTTCGATATATCCTTCGCCAGATGAAAGAACAATAA	MSTALLQELNQEVRRLYIAGSELAAGDFRLKRLLPQFQQLGERAPVFKRLGEGILALIEPDSGKENQSAQLLQDINQLLSSVLHTQGTTAPEGELFPVDHHPVSLSSHLSYRKLSAVQTALTTTGSGRYEIIEEAWKEEVFRDFRLVYLAIEALNDPYVEIGELAANEILPAYGPEIVPFLMESFNPAGGKPESRKLKVMAATGGKEALELIRQAAEIGSDEVRCMAIKLLARHEEFEADLMEWSRSKKKVIREAAYGALAENGSDQAVGRLYEAAQGKDKELVNPALGRCRSALLTDWLVRDLSAELQSVSESLGDKQKLEESWIKVKRCLWALHDKQNPELEELYRNVLQQYALYIKSLGWTYLMNEAVIYMNRVDSGEARELLRQNAEHDIEQYRHNGSYVREVFQKATRVLPPERVYEQYKDVLLQGFASSPLSNAAKERKKLLDTLSDLVIRRQYKPYEEVMPFAGKESYTYYVEMLPQEQLLACWDDRWLELLIEQDELALVSAFARRGHRGAESYLLAKLQNSPEFRNRFANLIIMGLVRTGIKDEELYEAVVAALEDKRNQDCYMIEPFIFSQLCRLPADYHDRVHAVLGNYKDNAEDQLRYILRQMKEQ				NA	NA	NA	NA	NA
AK002_03752	1431			hypothetical protein	TTGGTTGAGATTACAGAGACATGGATCGATTCGCAGGCACCGAATAGCGCGGCCATTAAGAACGGGCAAGGTCTAGTAAAAAAAGGACGTTTCCTCAAGCTGCATCATTCCGAGGATCAAGCCGTGTTGTTCGGCACCTGTGCCGGCAGCGGAAGTTCCGATTACCAGCCGTCCGCCGATTTTGCGGTGCCGGAGAAGCCGGTCATGCGGTGCACCTGCCCGAGCCGGCAGTTTCCGTGCAAGCATGTGCTTGGACTGCTCTATGCGTATGCAGGCGGAGCATCGTTCACCCCCGCCGAGGTGCCGGAGGATTTGGCCGCCAAGCGGGAGAAGGCGGAGAAGCGGGAAGAGCGCAAGATCAAAGAAGCAGCCGAAGGAGCAGCACCAAAACCGAAGAAGGTTAACAAATCGGCGTTAAAAAAGAAACTCCATGCACAGTTGGAAGGCTTGGATGTTCTGGAAAAGCTTATACACTCATTGATCCGGAACGGACTCGGGACATTGGACAAAAAAGAACATAAGCGGATCCAGGAGCATGTGAAGCAGATGGGCAATTATTACTTATCGGGTGCTCAGACGGAGCTCCGCCGCCTGGCGCTGGTTCTGTCATCCGAAGACCAGGAGAAAGCTTATACATATGCGGTGGGGCAGCTTGCCGTCATGAACGCAATGATCAAGAAGGGCAGACAGTACCTGACCACAAAACTTGAGGATCCGGATATGAGGCTGGACCACGAGTCGACGATAGAGGAATGGCTGGGGCATGCATGGCAGCTGACCGAGCTGCAGAGCTATGGGTTAGTGAGCGAAGGAGCAGAGCTGGTGCAGCTTTCATTTCTGAGTTATGCCGACGATGCGCGGCTGGAGCATGTGGATACCGGATACTGGATCCAGAAGGACAGCGGCGAAATTCACCGGACGATCCAGTACCGTCCTTATAAAGCCGCCAAGCTGATGCGGGAAGAAGACAGCTTCTTTGATAAAGCCCATGTCCCTGTACTGTATCGCTACCCGGGAGATATGAACCGGCGTGTTCGCTTTGAAGAAATGACCTCAAGTCCGGTAACGGAAGAGGATCTGGAGTGGATTCGCAACCATGCGGCGGGTTCTTATGCTGAAGCCGTTAAAAAGGTGAAGAACCAGCTCAAGAATCCGCTTAGCGACAGCAACCCCGTCATGCTGCTGCTTGTATCCGGGATCGGCCGGAACGCGGAAGGGCAATATGCCATTACGGATGAATCCGGACAGTCGATCGGGCTGGCCGATGTGTATATGGAACCAACCGTGCCGATGCTGCGGTATTTGCCGGAGGAGAAGCTGAGCGGCGTATCCATGCTGGTTATGTTTGAGCACAACCTTGCGACGGGCCGTCTCTGGGCCCAGCCGTTAAGCATCATTACGACGAACGAAATCATCCGGCTATTGTACTAA	MVEITETWIDSQAPNSAAIKNGQGLVKKGRFLKLHHSEDQAVLFGTCAGSGSSDYQPSADFAVPEKPVMRCTCPSRQFPCKHVLGLLYAYAGGASFTPAEVPEDLAAKREKAEKREERKIKEAAEGAAPKPKKVNKSALKKKLHAQLEGLDVLEKLIHSLIRNGLGTLDKKEHKRIQEHVKQMGNYYLSGAQTELRRLALVLSSEDQEKAYTYAVGQLAVMNAMIKKGRQYLTTKLEDPDMRLDHESTIEEWLGHAWQLTELQSYGLVSEGAELVQLSFLSYADDARLEHVDTGYWIQKDSGEIHRTIQYRPYKAAKLMREEDSFFDKAHVPVLYRYPGDMNRRVRFEEMTSSPVTEEDLEWIRNHAAGSYAEAVKKVKNQLKNPLSDSNPVMLLLVSGIGRNAEGQYAITDESGQSIGLADVYMEPTVPMLRYLPEEKLSGVSMLVMFEHNLATGRLWAQPLSIITTNEIIRLLY				NA	NA	NA	NA	NA
AK002_03753	732			hypothetical protein	ATGGCGCAATTTGCATTAATCTCCGACATACACGGAAACATCCCTGCACTGGAGGCGGTTCTTAGGGATATCCAACGCCGCGGAATCGAAACCATCTATTGCCTGGGCGACTTGATCGGCAAGGGCCCGCACGGCGATGTGGCGGTGGATATGGTACGAACCCATTGCCAGCAGGTCATTAAGGGGAATTGGGACGACTTTATTGGCAATGAGACCGATGATCCGTCGCTGCTATGGCATCAGCATAGACTCGGAAGCGAGAGGCTCCAATATCTTGCCGGCCTCCCTTATGTCATAGAATTCATGATGAGCGGTAAATGGGTCCGGCTGTTTCATGCTTCGCCGCGAAGCGTGTACGAACGGATCCAGCCCTGGGACGACCAGGAGAAGCTGGCTACCTTGTTTCACAGTTCCCCGCTGTGCGGCAGCCCGAGAATCGCGGACGTCGCCGGTTACGGCGATATCCATAATGCCTATCACCAGCATCTGGACGGGAGAACGCTGTTTAATACCGGCAGCGTCGGCAATCCGCTTGAAATGCCCGAGGCGTCTTACGTCATTCTGGAGGGAGTTTATGGAAGCGAAGATCCCGCGCCGTTAAACATTCAATGCATCCGTGTGCCGTATCCGATCGAACAAGCCGTGCAGGATGTGTTAAAGTCCGGCATGCCCCACCCTGAATCGTATATTCTCGAGATTCGAACAGGGCGGTATCAAGCGCGAAAAGACTAA	MAQFALISDIHGNIPALEAVLRDIQRRGIETIYCLGDLIGKGPHGDVAVDMVRTHCQQVIKGNWDDFIGNETDDPSLLWHQHRLGSERLQYLAGLPYVIEFMMSGKWVRLFHASPRSVYERIQPWDDQEKLATLFHSSPLCGSPRIADVAGYGDIHNAYHQHLDGRTLFNTGSVGNPLEMPEASYVILEGVYGSEDPAPLNIQCIRVPYPIEQAVQDVLKSGMPHPESYILEIRTGRYQARKD	PGPT0030420_712	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION_RELATED_PROTEINS,PGPT0030420-ppa|prpA-K01090	NA	NA
AK002_03754	1257	lacE_2		Lactose-binding protein	GTGAATACACGCAGGATGGTTAGCTTAGGGTTACTGATTCTTGTCTTGATCATCAGCGGTTGTACGGGAAATGCTTCAACCGAAAAAACGAAAACGCTTACACTTTGGTATTGGAACCGAAGCCTGGACGATGAGCTGATTAAGTCTGTTGAAAAGGAGTTTCCGGGTATCCGCATCGATGCGCAAAAAATCGGAGGCGACTTCAAATCGAAATTAAAAACAACGCTGGCCGCCGGCTCCGGAGGGCCGGACATCGTCGCTTTTAACGACTGGGTGGCGGAGCTGTTTACGAGTTCGGATCGCTTCTACGATCTGTATGAGCTTGGCGCCAAAGAAATCGAACCGGATTTCCTGGATTGGAAATGGAAGCTCGGCGTTACTCCGGAAGGCGCCATGATCGCCCTGCCGATCGATACGGGGCCAACGGCTTTATACTACAGAGCGGATTTGTTCGAGGAAGCCGGACTTCCGACCGAACCGGAAGATGTCCACGAGCAGCTCGGCACCTGGGATCAATATTTCGAGGCCGGACAGAAGCTGCAGGAGCATTTTGATCAAAAAGTGAAAATGCTTGATAACATCACGAACATTTATACCCAAATCAATGCCCAATCCGATCGCATCTATTTTGCCGAGGATGGAACGTTCATCGGCGAGTCTGCGGAATCTTCGATGAAAACGGCCTGGGATACGGCGGTAAAGGCCTCCCTAATGAAGCTGAGCGCCAATGTCAACACTTCTTCCTCAGAGTGGAATGCCGCCATGAACAACGGGCGGGTTGCTTCCTTTGTCGGTGCGGTCTGGATGAAGGAAATACTCATGCAGGCGGCGCCGGACACCACCGGCAAATGGAGGGTGGCCCGTGCACCTGGCGGTGACGGCAACAACGGCGGTTCCTTCCTTGCCATTATGAAGACAAGTAAATATCCGCAGGAAGCATTTGATGTCATGAAATACATTCAGAACCCGGAAAATCAGGTTCAGTCCTTTAAGAAGATCAACCTCTTCCCTTCCGCCAAGGACGCGCTGGATGCACCCGTCATGAAGGAACCTGAAGAATTTTTCGGAAATCAGGCGACCGGCGAGGTGTTCTCGGAATCTGCACGAAACGTTAAGCCGGCTTATTTCGGCGGGAAGTTCGCGAATGTCAACGGCATTGTCAATCGAGAGCTGTCCTCGGTTGCCCTTCAGGGCAAAAATTCCGATAAAGCCTGGGCCGACGCGCTGGCCAGGGTCAAAAAAGAACTGCTGCGCTGA	MNTRRMVSLGLLILVLIISGCTGNASTEKTKTLTLWYWNRSLDDELIKSVEKEFPGIRIDAQKIGGDFKSKLKTTLAAGSGGPDIVAFNDWVAELFTSSDRFYDLYELGAKEIEPDFLDWKWKLGVTPEGAMIALPIDTGPTALYYRADLFEEAGLPTEPEDVHEQLGTWDQYFEAGQKLQEHFDQKVKMLDNITNIYTQINAQSDRIYFAEDGTFIGESAESSMKTAWDTAVKASLMKLSANVNTSSSEWNAAMNNGRVASFVGAVWMKEILMQAAPDTTGKWRVARAPGGDGNNGGSFLAIMKTSKYPQEAFDVMKYIQNPENQVQSFKKINLFPSAKDALDAPVMKEPEEFFGNQATGEVFSESARNVKPAYFGGKFANVNGIVNRELSSVALQGKNSDKAWADALARVKKELLR	PGPT0016430_666	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016430-cebE-K10240	NA	NA
AK002_03755	960	araP_6	COG1175	L-arabinose transport system permease protein AraP	ATGGATAATCCAATGCTGAATCGCACGCCCGTGGAACAGAAGCCTGTTCCCAAGCATCCGAAATCCCAAGACCGACTGTCTGCACAGATATGGAAGCACCGCAAAGAATATTTGGCGATATCCCCTTTTTACATTCTATTTGCCATCTTCGGGCTGTTCCCGATCGCCTTTTCCATGTTCCTGTCCTTTCAAAAATGGGACGGCATCGGGGAGATGACCTATAACGGTCTCAATAACTATCAATTCATGCTGACCGATCCGGAATTTTGGAGAGCCGTTGGCAATACGCTGCTGATCTGGATTTACTCCACGATACCGATGCTGTTCATCGCGCTGGTCGTGGCTTTCCTGCTAAATGCATCGTTCGTCCGTTTCCGCACCTTCTTTCGCATCGGTTATTTCCTGCCAAACGTCACCTCGCTTGTTGCGGTTGCCATCGTGTTCGGTACGGTCTTCTCGAACAACTACGGTCTCCTCAACTATATGTTGTCCTTGCTCGGCCTCAACTCCGTCGAATGGTTGAATACGACGTGGGGCATTCAGTTAGCCATTTCGGTCATGGTTATATGGAGATGGGCGGGATATAACGCCATCATCTATCTTGCCGGGCTGCAGAGCATCCCGACGGTACTGTACGAGGCAGCCAAGATCGACGGAGCCACCGGCATTCAATCCTTTTTCAGAATCACCATTCCCAATCTAAGGCCCATCATTCTCTTTACGGTCATTACGTCAACCATCGGCGGCATGCAGATTTTCACCGAGCCGCAAGTGCTGGTCGGCAATGACGGCGGCGTAAGCGGCGGAGGGATGACTATCGTCCTCTACCTGTACCGCGAAGCCTTCGTGAACAACTATTTCGGATATGGCGCTGCCGTCGGCTGGGGCATGTTCCTGCTCATCGCCCTCTTTTCCATCGTGAACTGGAAAATGGTGCAGGGCAGTCCTTCCAATGACTGA	MDNPMLNRTPVEQKPVPKHPKSQDRLSAQIWKHRKEYLAISPFYILFAIFGLFPIAFSMFLSFQKWDGIGEMTYNGLNNYQFMLTDPEFWRAVGNTLLIWIYSTIPMLFIALVVAFLLNASFVRFRTFFRIGYFLPNVTSLVAVAIVFGTVFSNNYGLLNYMLSLLGLNSVEWLNTTWGIQLAISVMVIWRWAGYNAIIYLAGLQSIPTVLYEAAKIDGATGIQSFFRITIPNLRPIILFTVITSTIGGMQIFTEPQVLVGNDGGVSGGGMTIVLYLYREAFVNNYFGYGAAVGWGMFLLIALFSIVNWKMVQGSPSND	PGPT0016435_431	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016435-cebF-K10241	NA	NA
AK002_03756	822	lacG_6		Lactose transport system permease protein LacG	ATGTTCAAATGGAAATCCATTCTGCTGCACATCGGGTTGATCGCCGGACTGATCTTATCCATTTTTCCCTTCTACTGGCTGCTTGTGATGGCGACGCGCACCACTTCGGATATCTATAGCTTTCCTCCGAAACTATGGTTCGGTCCGCACTTGCTTGATAACGTGTCGAGGGTGCTGAGCAGCATCGACTTCTTCGGCGCCTTCTGGAATACCCTGTTCGTCGCTTCCGCTTGTACGCTGCTGGTCTTATTCTTCGATTCCCTGGCCGGATTCACGTTCGCCAAATTCCAGTTCCCGGGCAAAAAATGGCTGTTTGTGCTGCTGCTTGCCACCATGATGGCGCCCGCACAATTATCCTTGGTGCCTTCGTTTGTCATTATGGCAGAATTCGGATGGGTGGGCACCTACAAGGCCCTGATCATTCCGGGAATGGTCAACGCTTTCGGTATCTTCTGGATCAGGCAGTATGCACAGGAATCGGTGCCTTCGGAGCTTCTCGATGCCGGTAAAATCGACGGCTGCGGTTTCTTCCGCCTCTATTGGAACATATCGCTGCCGATTCTGCGGCCCGCTTTATCGTTCTTGGCCGCCTTCACGTTCATCGGGGTATGGAACGACTATTTGTGGCCGCTCATCATTCTAAATGATGAGAACAAGTTCACCTTGCAGGTTGCGTTATCATCATTAAACGGAATATATACCACCGACTATTCAATGGTCATTGCCGGCACGCTGCTCGCCGTCATCCCGCTGATCGTCATGTTCTTGTTCATCAGCAAGCAATTCATTTCCGATATCGCCGCAGGCGCGATTAAGAGTTAA	MFKWKSILLHIGLIAGLILSIFPFYWLLVMATRTTSDIYSFPPKLWFGPHLLDNVSRVLSSIDFFGAFWNTLFVASACTLLVLFFDSLAGFTFAKFQFPGKKWLFVLLLATMMAPAQLSLVPSFVIMAEFGWVGTYKALIIPGMVNAFGIFWIRQYAQESVPSELLDAGKIDGCGFFRLYWNISLPILRPALSFLAAFTFIGVWNDYLWPLIILNDENKFTLQVALSSLNGIYTTDYSMVIAGTLLAVIPLIVMFLFISKQFISDIAAGAIKS	PGPT0016440_655	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016440-cebG-K10242	NA	NA
AK002_03757	1593	bmr3_3		Multidrug resistance protein 3	TTGAAGACACAAACAGCCAACAACAACAAACTGCCCATCGTGCTTGCCGGCCTGCTGCTCGGCATCTTGATGGCCTCCATGGACAATACGATCGTAGCAACCGCCATGGGAAACATCGTCGGGGAGCTCGGAGGACTTGATCATTTCGTATGGGTGACCTCCGCGTATATGGTTGCCGAGCTTGCGGGGATGCCGATTTTCGGCAAACTGTCCGATATGTATGGACGCAAAAAATTCTTTGTGTTCGGGATGATTGTATTCATGCTGGGCTCCGTGCTGTGCGGTACGGCAACCTCCATCACGGAACTGGCGCTGTATCGGGCCTTGCAAGGCGTAGGGGGCGGAGCCCTCATCCCGATTGCTTTCGCGATCATGTTCGACACCGTGCCGCTCGAGAAGCGCGGAAAGCTCACCGGTTTGTTCGGAGCCGTCTTTGGATTATCCAGCATTTTCGGGCCGCTCGCAGGCGCTTATATTACGGATCATATTACCTGGCAATGGATATTCTATATTAATTTGCCGATTGGCATCGTGGCCTTCCTGATGGTGACGGTATTCTATAAGGAATCGCATGAACGTTCCAAACAGCCGATTGATTGGAAGGGGGCAACCACGCTCCTTGCGGGCGTGATCTGTTTCATGTTCGCGCTTGAGCTTGGAGGGAAGCAATGGGCATGGGATTCCTGGGTCATCCTGGCTTTGTTTGGCGCTGCCGCCGTCATGCTTGTGCTCTTCGTGCTTACCGAGAGAAGGGCGGAGGAACCGATCATCTCGTTTCATTTATTCAAGAATAAACTCTATACCTCAAGCGTGATGTGCGGCTTGTTTAGCGGAGGATCCTTCATCGTGGCTTCCGTTTACATTCCGATCTTCATACAAGGCGTGCTCGGCGGAAGCGCCACGAACTCGGGGCTTGTCCTGCTGCCGATGATGGTGGGCTCGGTCGTCACGGCGACGGTCAGCGGTTTTCTGATGAGTAAAATCTCGTATCGCAGCATCATGATCCCGACGCTGATCCTGTTTACGGGAGGGATGGTACTCGCTTCGACGTTGACTGCGGAATCCAGCAGGTTCACCGTTACCCTGTACATGGTTCTGATCGGGCTTGGCATCGGCGGATCGTTCTCCGTGCTGGGAACGGCGGTCATGCATGGCTTATCCTATAAACAGCGCGGGATGGCGAGCTCGACCTTCAATTTCACGCGGTCGCTTGGAATGACCATTGGCATTACGGTGTTCGGGTTGATACAGAGCCGATCCTTCACCGGTTCCTTAACATCGGGATCGGGCGTGATGAACACCGGTGGGCTTCCTGAAGGATTCGATCTTAAGGATCCTCACATCTTATTGGCACCGGAGACGAGATCATGGATTCCGTCCGACCTGCTTAAGCCGATCTCGGACACGCTCGCTTCCTCCATCGCGGCTACGTTTGCCTGGGCTATCGTTCCTGCAGCGTTAGCGCTTCTGGCAGCAGCCTTAATGGGACGTAAGAAGCTGGATGAAACGGCAGAACTGAAACGGGAGGAGACAGCCGATTCAACAGAAGAGGCAGGGACGAAAGAAAATGAACAGCTGGTCATGGTGCCGTAG	MKTQTANNNKLPIVLAGLLLGILMASMDNTIVATAMGNIVGELGGLDHFVWVTSAYMVAELAGMPIFGKLSDMYGRKKFFVFGMIVFMLGSVLCGTATSITELALYRALQGVGGGALIPIAFAIMFDTVPLEKRGKLTGLFGAVFGLSSIFGPLAGAYITDHITWQWIFYINLPIGIVAFLMVTVFYKESHERSKQPIDWKGATTLLAGVICFMFALELGGKQWAWDSWVILALFGAAAVMLVLFVLTERRAEEPIISFHLFKNKLYTSSVMCGLFSGGSFIVASVYIPIFIQGVLGGSATNSGLVLLPMMVGSVVTATVSGFLMSKISYRSIMIPTLILFTGGMVLASTLTAESSRFTVTLYMVLIGLGIGGSFSVLGTAVMHGLSYKQRGMASSTFNFTRSLGMTIGITVFGLIQSRSFTGSLTSGSGVMNTGGLPEGFDLKDPHILLAPETRSWIPSDLLKPISDTLASSIAATFAWAIVPAALALLAAALMGRKKLDETAELKREETADSTEEAGTKENEQLVMVP				NA	NA	NA	NA	NA
AK002_03758	384	merR		Mercuric resistance operon regulatory protein	ATGAAGATCAGTGAATTATCGCAGCGCAGCCAGGTCAGCGCACGCTCGATCCGGCATTATGAACAAAAAGGCCTGCTGGAAGCCGACAGACTCGATAATGATTACCGCCATTTTAACGCGTCCGCCATCGAACGGGTCAAAATGATCCAATTGTACTTAAAGCTGGGCTTGACCACGGATCAAATTCGCGTATTGTTTCGCGGTGAAGTCGCTTCGCCGGACGATTATGAATATTGCGAAGAAATGCTCTCCTTTTATGAGGACAAATTAAGCAGCGTGGACAGTCAGATTGCAGCGCTCCATGAATTGAAACACCTGCTGGAAAGGCAAATCTCTTTGACCCTTGGCAAAAAGAAGAGTCAGCAGCAACCCTCCGCAACGTGA	MKISELSQRSQVSARSIRHYEQKGLLEADRLDNDYRHFNASAIERVKMIQLYLKLGLTTDQIRVLFRGEVASPDDYEYCEEMLSFYEDKLSSVDSQIAALHELKHLLERQISLTLGKKKSQQQPSAT	PGPT0004215_466	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNT_TRANSPORT_SYSTEM,PGPT0004215-zntR-K13638	NA	NA
AK002_03759	1230			Aminopeptidase 2	ATGGACAATTTCGAGAAAAATCTGGAGAAATACGCGGAGCTGGTCGTGAAGGTTGGCGTAAACGTACAACCGGGCCAAGTGCTGATCGTCAATGCTCCAATCGAGACCGTAGAGTTGACACGCCACATCGTGGCCAAAGCTTATGATGCAGGCGCCAAATATGTGCAAGTCGACTGGGAGGACGAAAAAATCACCCGAATTCGCTATGAGAAGGCACCGGAAGACTCCTTTCAATATTATCCGCAGTGGCAGGCCGACGCCATGCAGCAGCTCGCTGAAGGCGGAGGAGCCATTCTGCGCATTAAGGTTCCGGATCCCGAGCTGTTCCGCGGCATTGATTCGGTAAAAGTATCTACAGCCGTTAAGGCTGCTGCCGTGGCTAACGAAAAATATCAGGTATACGTCCGCAACAATAAGATCAGCTGGTCGCTGATTAAGGCGCCTACCCGAGCCTGGGCCAATAAAGTATTCCCGGACCTCCCCGAAGAAGAGCGCATCCAAGCGATGTGGGATGCCGTATTCCTGATGAATCGGGTAGGCAGCGAAGATCCGGTAGCCGCGTGGCGGGTTCATATCGCCGGACTGAAGCTGCGCCAGAACCACATGAATGCCAAACGCTACAAGAGTTTCCACTATCGTGCGCCGGGAACGGATCTGCGCGTCGACATGCCGGAAGGTTACCTCTGGCTCGGCGGCGGTGACGAGAATGAGGCCGGGGTGTATTTCGTAGCGAATATGCCCACCGAAGAAATCTATACGATGCCTCATCGTACGGGCGTGAACGGGACCGTATCCAGTACCCTTCCGCTGAATCTGAACGGCCGCCTGGTGGAAGGCATGAAGCTCACGTTCAAGGACGGCAAGGTTGTCGCATATGAAGCCGAATCCGGACGGGAGCATCTCACGACGCTGCTGGAAACGGACGAGGGCGCCTCGTATCTTGGAGAGATGGCACTCGTGCCGCATGATTCGCCGATCTCGCAGCTAAACCGCGTCTTCTATAACACCGGCATCGATGAGAACGCCTCCTGCCACTTTGCGCTGGGAAGCGCCTATCCCGTGAATATCGAAGGCGGCACCAAGATGAGCAAGGAAGAACTGCTGGCTCGCGGAGCCAATGTCAGTCTGACGCATGTCGATTTCATGATTGGTTCCGCTGAACTGGACATTGACGGCGTGCTGGCGGACGGTACGATTGAACCCGTATTCCGCGGTGGACGGTGGGTCTAA	MDNFEKNLEKYAELVVKVGVNVQPGQVLIVNAPIETVELTRHIVAKAYDAGAKYVQVDWEDEKITRIRYEKAPEDSFQYYPQWQADAMQQLAEGGGAILRIKVPDPELFRGIDSVKVSTAVKAAAVANEKYQVYVRNNKISWSLIKAPTRAWANKVFPDLPEEERIQAMWDAVFLMNRVGSEDPVAAWRVHIAGLKLRQNHMNAKRYKSFHYRAPGTDLRVDMPEGYLWLGGGDENEAGVYFVANMPTEEIYTMPHRTGVNGTVSSTLPLNLNGRLVEGMKLTFKDGKVVAYEAESGREHLTTLLETDEGASYLGEMALVPHDSPISQLNRVFYNTGIDENASCHFALGSAYPVNIEGGTKMSKEELLARGANVSLTHVDFMIGSAELDIDGVLADGTIEPVFRGGRWV	PGPT0020940_1097	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
AK002_03760	5217			hypothetical protein	ATGTCTAAGATCGCCCTTAAACGATTTATTTCCTGTTTCTTGATTCTTTGTATCGTTATGTCTGCCTCGTTTACTGCTCTCGCGGGACAAGCTTCCGCCCAGACATCCACCGCGCTTAACCCAGTGCCCGAGCTGCTGATCACCGAGCTTGTGCCTGATTCCACGAACGTAGGAACCGCCGACGGTTACGAATTTATCGAGGTTTACAACAATACCGATCAAGCCATCGATTTCAGCAATTATAAGATACGCTACCGTTACTTGGAGAGCGACACCCTGTGGGCTCATGTACCCGACGAGGTGACTATTCCATCCGGGAGCACGCTGGTGTTCTGGATCATAAACGGTCAGAACAGCAAATCCACGATTGCTGATTTTAATCATAATTACGGCACCAACCTGAACGAAAGCACCGATGTCGTCAAAATATTCTCAGGCGGCATGTCCAATTCGCGCATGCGGGAGCTCGTGGTCGTAACGAACACCGGACGCCCGATCGTGTCCGCGTTTTACAACGACGGTGACGTTCATAACGGTCCCGATCAGGGCATCTTCTATAAATATCCCGAAGACGGCAGCCTAAAGATGCAGCGGATCTCCCAGCTGGAACATAAGGCTACGCCGGGTTCGCTCGCGCACTCGGAAGTTCCCGCGATGCCGGTACATATCGACGTGACCAAGGAGCCGTCCGTTGTCAATCGGACGACAACCACGAACGTGGAGCCGGGAGACAATCTGGAAATCGCCGCGGAAGCGCACGATGACCGTATGGTGACATCGCTCGCGTTATCTTATCGTGTCGACGGACAGAACGATTACAAGGTCGTACAGCTTCGGGAAGGACAGCAAGGCTACCATCATACGATACCTTATCTGGAGCTGCTGGGACATGCCAAGCTGGAGTATTTCTTCACGGTGTCCAACACGTTTAAGAAAGTGGAGAGCCCTAAATATGAGGTTGATCTCACGGGCAGCGGCGCAAGCGCGAGCCTGAACGTTAAAGATCAACAAACGGTTACGGGCATCACGTATATTCGGGGTGCAGCTGATGGGGCTGGGCCTTCCGATTTGGAGCTTCAAGTGGACGGAACGCCGGTTCAAGGCACTCCCGCCATGGAGCATTCTGCCTATTTTATATTTGAAGGCGACGGCATTGACGATGGAATCAACACGGTAACCATCGGCAAGGAGGTTCTTTTCGAGACGGAGGCGAACATTGACGGTTATCAAACCATCGTGGTCCCGATCGAACCGCAGTGGCTGAAAAGCGGATCGAACGAAATTACCCTTCGGGCCGGCGATAACGAGAAGACCTATTTCGAGGACGACAAGCCGACGGGCAATATGGATGATTTCAATGCACGCAACGTGCGGCTGCTCCTGGGTGACGGAACGGAAATCCGGGATCCGCAATACAGCGATCCCGCACGGATCCATGACCTTGGCGACGATGGACGTTTCCTGCCTTTCGTAGCTTTTCAATTCGACATTCCTGCCGAAAAAGTAAATGCATTGTCCTACGCATGGGATACCTCGGCCGTCTCGGACGGAACGTATTCCATTCAATTGAAGGTCAAAGGTCAGTCTGAAGCAGCTGCCGATGTTCAGGTAGATAACCACGGACCGGAAATTAGCGCAACCGTTGAAGAGGCCAAGAGTTACAAGGGCGGCATCCCGATCGATGTGACCGCCACGGATCGCGTATCGGGCGTGGACCGGGTCGAGGTTACGCTCGATGGACGCGCCATCCAGTTGCCGTACAATACTTCCTCGGCCGAGCTTGAACCAGGCGATCATAAGCTGGAAATTCGCGCAGTGGACAAGATCGGCAACCTCTCCGAACGAACCGTGACGTTTCACACGGCTCAGGAGCATCCGAATAAACCTGTATTGGTGTCGCCGGCAGATAAGGAGAGCGGCACCGGGCTGTCGCCGGAGCTGAAGGTTCAAGTCAGCGATCCATCGGATGACGAGCTCGAGGTCTCCTTCCATCAGGCTTATTCGTATCATGCTTTAAGCGGGGATCGGGTGAAATTGTCCAAGAACGCTTCGGACGAAGAACCTCCTAAGGACAGATTCCCTGCGGGCGAAACTGTGCTGACCGAAGAGGAATTGAAGCGGGTATCCGAATCCAACGATGAATATGTCACCGTAGATTCAACGTCTCAATTCCCTTACATCCGGTTCGAGGCAGAGCTGGAGCATGCCGTCGAGCCTGGCGACAGCGTCGAAGTCACTTGGGAAGGACACACGGTGTCCGGCCGCAAGGTCACGATGTATGCGTGGAACCACAAGCTGAGCAAATGGACGGAAATAACCAAGCATATTGCCCAGTCTGAAGATGATTTTACGCTTCGAGGCGAACTGACGGCAGCGGACTATGTACAGAACAATAAAGTCGATGTGATTGTACAGGATGAAATTCCTTCCCGAGGGGATTATGATTACACCTTTGTATGGGTATCCGATACGCAGTTCTTGACGGAGCTCTATCCTCATATTCAGCAAAAGCAGTTCGACTGGATCGTTGATTCCATCGATGAGATGAACATCAAATATTTGTTCCATACCGGTGATATCGTGAATGATCCAACAGCCGAATACCAATGGAAACGTGCCGATGCGTACATGAACATGCTGGAGGATGCCAAGCTGCCGCACGGCGTGCTTGCCGGGAATCATGACGTGGGCAGCTACGATTGGGATTACACGACCTACGGTCAATATTTCGGGGAAGACCGTTATAAGGATCAGCCCTATTACGGAGGCTCCTACAAGAACAACCGGGGACATTACGATCTGGTCTCCGTCGAAGGCAACGACTTCATCATGATGTATATGGGATGGGGCGTCGAAGACGAGGATATCAAGTGGATGAACGAGGTTCTGGCTGAATATCCGGATCGTATCGCATTCCTGAATTTCCATGATTACATGCTCGCGAACGGAACGCGTTCCGGCGTAGGCAACAAGTTGTACAAGGAAGTAGTCGTCCCTAATCCGAACGTGGTTGCCGTACTGAGCGGCCATTACACGGGAGCCAGCCTGCTTAAGAACGAATTGGACGATGATGGTGACGGCAATGCGGACCGAACCGTGTATCAGATGCTGGCAGACTATCAAGGACATGCGGACGGCGGCAGCGGATATTTGAGACTGCTGCATTTTGATAAGGAAAGCAATCAGATTTACGTGAATACGTACTCTCCTTATTTGGATAAGTACAATTATTATACGAATCCGGGCGTGGATGAATTTGCGATGAACCTGGATCTTGAGCCGAAACTGAAGCGGGTAGCCACCGATTCGATCCAGGTGAATCATCTGAGAGGAGAGGCCATCGGTACGCCGCAAAAGGCAGCGAGCGGCACGGAGGTTACTCAGCCGTGGGCAGGACTGTCATCCAACGGAACCTATTCCTGGTACGCCGTCGCCCAAGATGAATTCGGGGGAAGAACGGTATCGGACGTATGGACATTCGCAACGGATGAAGGGGATCTCGCGGCCCCAACCAATCTGAAAGCACTTCAGGTCACGACGTCCTCGGTTCAAATCGGCTGGGACCCTGTGAACCGTCCGGACCAGCAAGTCGTGATCTATCATGTGTATCAGGACGGACAGCAAGTGGCCACCGTTACGGACAGCGTATACGAAGCGACAGGGCTTACGCCGGATACGCCGTACGAATTCAAAGTAACCGCCTCGGATCAGCATGGAGCGGAATCGCCACCAAGCGAGATCTTAACGGTGATCACGAGTGCTGTAGACGTTCCGGGTGCGCCGGTATGGACGCCCGGGGAGTTGGAATTTTCGGAGATCTCATCGAGCCATGTAACCATGAGCTGGCCGGAGGCGGCTGCAAGCGATGGCGTGGACGGATATCGCGTATATTTGAAAGGCCGGGAGGAACCGGTGGTTACCGTAACCGGCGATGTGTATTCGCATACCGCAGCTGGGCTTACGCCGGATACGCGTTATCATTTTACCGTCAAAGCTTATAACGCTGCTGGCGAGAGCGTGGGACTCCATAACTCGGTCACGACTTCGGCTGCAGGAGTGGACAAGAGCGAGTTAATCGGGTTAATCGCCTCGGCGCAGCAAAGGCTCGACGAAACACGGGAAGGCTCATCGCCAGGGCAGTATCCGGCAGTCGCAAGGTCAGCACTCCGTGACGCGATTGCAAACGCCAGCGCCATAGCGCAGCAGGATCATGCAACTGCGAAGGATGTCAGGGACGCAATGACCGCACTGCAAGCCGCGATCCGCGCCTATAACGCTTCGGTGATCCCTTCATCCGAGAATCCTCCGTCATCGGGATCGGGATCGGAATCCCCTGGCGGTGGAGTCCCATTGTCCGGAAACAATCAATTAAAAGCGCTGGAAGTCATCATTGGCGGCGTAGCGGCTGCATTAACCCCTGCGTTCAACGAGAGCACGACGGAGTACCGGCTTGAAACGGATGCGGAATCCGTGCAGCTTCGCATTGGGACGGCGCATGGCAAGGCCGCTGTCCTTCTGGAAGGAGAGCCTCTGAAGAATGATCAGGTCATCAAGCTGAAGGAAGGGGATAACGTCCTGAAGCTGGTGGTTCGGGCCGAGAATGGTGCGACCAAAACCTATCAGTTAACCATACACCGTAAGGCGAAAGCAGGGACAGAAGAACCGAAGCCGGAACCCCAGCCGGTGCTGTTAACCGACATCGGCGGACATTGGGCTTCATCTGCAATTGAGCAGGCGGTTTCGCTCGGCATCGTTGGCGGCTATCCGGATCAGACCTTCAAACCGGACCGTCAGGTCACGCGTGCCGAATTTATGGTGATGATGGCCAAAGCACTGAAAGGTCAAGCGGGGTCTGAGAAACTGAGCTTCAAAGACAGCTCCTCCATCGGATCCTGGGCGCTTGAAGCGATTCAATGGGCCGTATCCGAAGGCATCGTGAAAGGATATCAAGACGGGACATTCAAACCGAATGAATCCGTTAACCGTGCGGAAATGGCGGTAATGATCGCACGCTATCTAGGCCTTACCCAGCCAGGTGCCGGAACGGACTTCCGCGATCAGCAGAATATTCCGGCTTGGGCAGAGAAGGAAATCGCAGCCGCGGCCGAGGCCGGCATCGTGAACGGACGTTCGGGTAACCGGTTTGCACCTCAGGAATCTGCGACCCGTGCGGAAGCGGTCATGATGATACTTCGGATGCTGGAGCATGCAGAGTAA	MSKIALKRFISCFLILCIVMSASFTALAGQASAQTSTALNPVPELLITELVPDSTNVGTADGYEFIEVYNNTDQAIDFSNYKIRYRYLESDTLWAHVPDEVTIPSGSTLVFWIINGQNSKSTIADFNHNYGTNLNESTDVVKIFSGGMSNSRMRELVVVTNTGRPIVSAFYNDGDVHNGPDQGIFYKYPEDGSLKMQRISQLEHKATPGSLAHSEVPAMPVHIDVTKEPSVVNRTTTTNVEPGDNLEIAAEAHDDRMVTSLALSYRVDGQNDYKVVQLREGQQGYHHTIPYLELLGHAKLEYFFTVSNTFKKVESPKYEVDLTGSGASASLNVKDQQTVTGITYIRGAADGAGPSDLELQVDGTPVQGTPAMEHSAYFIFEGDGIDDGINTVTIGKEVLFETEANIDGYQTIVVPIEPQWLKSGSNEITLRAGDNEKTYFEDDKPTGNMDDFNARNVRLLLGDGTEIRDPQYSDPARIHDLGDDGRFLPFVAFQFDIPAEKVNALSYAWDTSAVSDGTYSIQLKVKGQSEAAADVQVDNHGPEISATVEEAKSYKGGIPIDVTATDRVSGVDRVEVTLDGRAIQLPYNTSSAELEPGDHKLEIRAVDKIGNLSERTVTFHTAQEHPNKPVLVSPADKESGTGLSPELKVQVSDPSDDELEVSFHQAYSYHALSGDRVKLSKNASDEEPPKDRFPAGETVLTEEELKRVSESNDEYVTVDSTSQFPYIRFEAELEHAVEPGDSVEVTWEGHTVSGRKVTMYAWNHKLSKWTEITKHIAQSEDDFTLRGELTAADYVQNNKVDVIVQDEIPSRGDYDYTFVWVSDTQFLTELYPHIQQKQFDWIVDSIDEMNIKYLFHTGDIVNDPTAEYQWKRADAYMNMLEDAKLPHGVLAGNHDVGSYDWDYTTYGQYFGEDRYKDQPYYGGSYKNNRGHYDLVSVEGNDFIMMYMGWGVEDEDIKWMNEVLAEYPDRIAFLNFHDYMLANGTRSGVGNKLYKEVVVPNPNVVAVLSGHYTGASLLKNELDDDGDGNADRTVYQMLADYQGHADGGSGYLRLLHFDKESNQIYVNTYSPYLDKYNYYTNPGVDEFAMNLDLEPKLKRVATDSIQVNHLRGEAIGTPQKAASGTEVTQPWAGLSSNGTYSWYAVAQDEFGGRTVSDVWTFATDEGDLAAPTNLKALQVTTSSVQIGWDPVNRPDQQVVIYHVYQDGQQVATVTDSVYEATGLTPDTPYEFKVTASDQHGAESPPSEILTVITSAVDVPGAPVWTPGELEFSEISSSHVTMSWPEAAASDGVDGYRVYLKGREEPVVTVTGDVYSHTAAGLTPDTRYHFTVKAYNAAGESVGLHNSVTTSAAGVDKSELIGLIASAQQRLDETREGSSPGQYPAVARSALRDAIANASAIAQQDHATAKDVRDAMTALQAAIRAYNASVIPSSENPPSSGSGSESPGGGVPLSGNNQLKALEVIIGGVAAALTPAFNESTTEYRLETDAESVQLRIGTAHGKAAVLLEGEPLKNDQVIKLKEGDNVLKLVVRAENGATKTYQLTIHRKAKAGTEEPKPEPQPVLLTDIGGHWASSAIEQAVSLGIVGGYPDQTFKPDRQVTRAEFMVMMAKALKGQAGSEKLSFKDSSSIGSWALEAIQWAVSEGIVKGYQDGTFKPNESVNRAEMAVMIARYLGLTQPGAGTDFRDQQNIPAWAEKEIAAAAEAGIVNGRSGNRFAPQESATRAEAVMMILRMLEHAE				NA	NA	NA	NA	NA
AK002_03761	573			hypothetical protein	ATGACCATCTATATCGCTTTGCTTCGAGGAATCAATGTCGGCGGACACAATAAAATCAAAATGGCCGATTTAAGAAAGATGCTTGAAGGCATGGGCTTAGCCCGCGTGAAAACATATATTCAGAGCGGAAACGTGCTCTTCGAATCTGCGGATTCCAAGGAAACGCTGCAGGTCCAAATGGAGCAAGGAATACAAGAAGCGTTCGGCTTCCCGATAACCGTGATACTCAGAACCTCGCAGGAAATCGAGGGCATCGTCCGGCATTGTCCTTTTTCGGAAGAAACGATACGTGCTGCGGAGGCAGCATCGGAGTTTGAGAGTCTTTATGTTGCCATGCTGCCGGAAGCGCCAGCTCCCGATGACGTTGAGAAATTGAGGCTCTACGTGAACGATAAAGAAACTTTTGAAGCGATCGGAGAAGAAATCTATTTACTGTTTAAGGAAAGCGTTCGGAATTCCAAGCTGGCGGCACAAATGGCAAAGTTCGGCGTACCGATGACGATGCGGAATTGGAAAACCATGAACAAGCTGGTAGAGCTGTCCCGAACGATGCAAAATGAACAGCCGCGATAA	MTIYIALLRGINVGGHNKIKMADLRKMLEGMGLARVKTYIQSGNVLFESADSKETLQVQMEQGIQEAFGFPITVILRTSQEIEGIVRHCPFSEETIRAAEAASEFESLYVAMLPEAPAPDDVEKLRLYVNDKETFEAIGEEIYLLFKESVRNSKLAAQMAKFGVPMTMRNWKTMNKLVELSRTMQNEQPR				NA	NA	NA	NA	NA
AK002_03762	1398	hemY	COG1232	Protoporphyrinogen oxidase	GTGACAACTACCGTAGTCATCGGCGGCGGCATTACCGGACTTTCGACCTTATATTATCTGCAAAAAGAGATGAAACAACATCGACGGGACATGGACTTGGTGCTGATTGAGGCAAGCGAGGCGCTGGGAGGCAAAATCCGAACCGTCCAGAACGGTGAATTTATTATGGAAACCGGAGCGGATTCGATCGTATCCCGGAAAACGAATGTGGCGCCGCTTCTGGAGGAGCTTCAGTTAACGGACCAGGTTGTGTACAATGCCACGGGGACTTCTTTCATATATACAACCGACGGCCTAAAAAAAATCCCCGAGGAGAGCGTATTTGGCATACCGCTTAGCTTGAAATCCTTGGCCGAAAGCGAGCTGGTATCCGCGGAGGGGAAGGTGGAGGCGCTCAAGGACTATTATACGCCGAATGAGACGTTCACCAAGCATGATTCCCTGGGAGAATTCCTTGAGTCCTTTCTAGGGAAGGAAATCGTTCAGAACCAGATCGCACCGGTCATATCGGGCGTCTATTCCGGGGAGCTCCATGACCTGACCATCGCGTCCACATTCCCCTATTTGCTGGAGTACAAAAATACCTACGGCAGCATCATGGGTGGTTTGGCCGAGAACAAACAGAAATTCCTTGGCACCGGCAATAAGAAATTCCTTTCCTTCAAAAACGGTGTCTCGGTGTTGATTGACGCACTGGAACGGAGCGTGACAGAAGCAGGCGCGAAGATTTGCAAAGGCGTTGCCGCAGAGAAGCTGGAGAGAACGCCTAACGGCTATCGATTGATGCTGGCGAACGGCGACCAGCTGGAAGCGGATTTTGTTGTTTTAAGCACACTGGGATCAAGCGCGAAGGAGCTGCTGGAAGATCCGCGGCTTCACGAGGATTTTGACCAATTGTATACCAAGTCCCTCATCAGCGTGTATCTGGCCTATGATATTCGAGATGAAGAGCTCCCATACGACGGTACGGGGTTCATTACGGCCAAGGGGACGAAGCTGAAGTGTGACGCATGCACATGGACAAGCCGGAAATGGGAGCATACCTCCGAGAATAATCGCTTATTGATGCGATTGTTCTACAAAAGCTCCAGTCCGCATTATGACCAATTGATTCGATTGTCGGACGAAGAATTGAAGCATGTCGGGATGGAGGATATCCGTCAGAGCTTAGGTTTAGAGGCTGAGCCCGTGTCCTGCGAAGTTACCAAATGGCATGAGAATATGCCGAACTATCATCTGAAGCACAGGCAGGTCGTGGAGTCGCTGGAGCTCGCAATGGAAGACCTTTATCCTAACGTGATGCTTGCCGGCTGCTCATACTATGGCGTGGGGATCCCGGACTGCATCGCGAACGGGGAGAAGACGGCAGGCATGATTATGGAAAGGATGCTCAAATGA	MTTTVVIGGGITGLSTLYYLQKEMKQHRRDMDLVLIEASEALGGKIRTVQNGEFIMETGADSIVSRKTNVAPLLEELQLTDQVVYNATGTSFIYTTDGLKKIPEESVFGIPLSLKSLAESELVSAEGKVEALKDYYTPNETFTKHDSLGEFLESFLGKEIVQNQIAPVISGVYSGELHDLTIASTFPYLLEYKNTYGSIMGGLAENKQKFLGTGNKKFLSFKNGVSVLIDALERSVTEAGAKICKGVAAEKLERTPNGYRLMLANGDQLEADFVVLSTLGSSAKELLEDPRLHEDFDQLYTKSLISVYLAYDIRDEELPYDGTGFITAKGTKLKCDACTWTSRKWEHTSENNRLLMRLFYKSSSPHYDQLIRLSDEELKHVGMEDIRQSLGLEAEPVSCEVTKWHENMPNYHLKHRQVVESLELAMEDLYPNVMLAGCSYYGVGIPDCIANGEKTAGMIMERMLK	PGPT0008475_1523	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231	NA	NA
AK002_03763	744	ywaC	COG2357	GTP pyrophosphokinase YwaC	ATGAATTCTTTGCAAATCGAACAGCTCAAAATCATTCGGAACGAAATTACCCGATTCATGATGAAATACAAATTCGCCTTAGATGAGATCGAAACCAAAATGGAGATATTAAAAGAGGAGTTTCAGGCTCTTCATGACTATAGCCCGATCGAGCATACGAAATCCCGCCTGAAATCGCCGGAGAGCATCATGAAGAAGCTGCTTCGCAAGGGCGGAAACATATCGCTTAGTTCCATAGAAGATAACATTAAGGACATTGCGGGTTTACGAATCACCTGTTCATTCATTACCGACATTTACAAAATCAGCGACATGCTGCAGAATCAAAGCGATTTAACGGTCCTGAACGTCAAGGACTACATCAAGAATCCGAAGCCGAATGGATACCAAAGCTTGCATCTGTTAGTGGAAGTGCCCGTCTTTTTCTCTGACCGGGTGGAGAAGGTATGCGTTGAAGTCCAGATTCGAACGATTGCCATGGATTTCTGGGCGAGTCTGGAGCATAAAATCTTTTACAAATATAATAAGTCGGTTCCCCAGCACCTGCTCGAAGAGCTTAAAAAGGCGGCGGATACCGCCAACGCGCTGGACCGTCAGATGGAGCAATTGCACCGCGAAGTGCAGGCCATAAAGGATTCGGAAAGCGACGATTCGCTGCTGGAGGAATTAAAAAGCATCCAGATCAACAACCGCAAGTATGAGCTCCCGGCGGGCTTGCTCGAAGTATTGACCGAGGATAGTTAA	MNSLQIEQLKIIRNEITRFMMKYKFALDEIETKMEILKEEFQALHDYSPIEHTKSRLKSPESIMKKLLRKGGNISLSSIEDNIKDIAGLRITCSFITDIYKISDMLQNQSDLTVLNVKDYIKNPKPNGYQSLHLLVEVPVFFSDRVEKVCVEVQIRTIAMDFWASLEHKIFYKYNKSVPQHLLEELKKAADTANALDRQMEQLHREVQAIKDSESDDSLLEELKSIQINNRKYELPAGLLEVLTEDS	PGPT0014825_618	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
AK002_03764	1749			hypothetical protein	TTGGAAACGACTGCAGACTTAGCGATTCAATGGGATGAGATGGAAGATGACGAGCTGGTGAAATACTCGCAGGCAGGGGAACGGGAAGCATTCGGGGAGCTTGTTCGGCGCCATCGCTCCAAGGTGTATGGCTATGCCAGAGCGATAACGCGGGAGTCTTACTTAGCAGAAGACGTGGTGCAGGATGCCCTGATCCGAGCATTCATGCATCTTGGCAAATTGGTGGATGCCCGGCGGTTCCTTCCATGGATGCACCGCATCGTCCGGAATCAGGCCTATACCCGCCTTAAAGGGAGCTCCGCGTGCAAAGAGCAGACATTCACCGAGCTAGAAGGCATGGGAAGAGTCAACGGTTCAGGGAGTCTGGAGCAATGGAACGATCTGGACAGCATTCTGGGCAGGCTCAACCATTCCGCAAGCGAAGCGGCCTCGGGTTATAACGTACCGGAGGAGCGCATCGTGCAGCAGGAAACGCTGCGTGCTTTAACCGGCATCATTCAATGCCTGAAGCCGCGCGAAAGGCTTATTTTCGAATCCCATTTTTTCGATCAGCTGTCCCCGCAGGAAATTGCCGACTTGTTTCAGCTCTCTTCGGCCAATGTGTATCAGATTATTTCGAGATCACGGAAAAAAGTGATCCAAGAAAAAATCCGCGTTACCGTTGACTCTTATATTAAGACGAGAAGGGACTTGGGAATTATGAAGAAGAACATATTGCCTTACGAAGGACCGATGAAGGAAACCAAAACCTGGACATCCGCAGCGGACGCCACGTACAAAATGCTTCAGTTTACAGACCGCAAGCTATCGCTGCCAATGGTCATGGGGCTGACTGGGCATGCATTCCGGATCAATATCATACCGAATGATGTCCATATCGCGGGCCCGACCGCCTATTTTTTCGGCGAATCTTTATCCCGCGGCCTTCATAATATCGGCTTCCATTCCAAATTCGTCGACGGCATGTCGGACGGCATCGGGACAAACGCCAATCTGCTGGATCCTGCCCTTATGGAAAAGGGAGCGATGAATAAACGCAGCATTCATCAAGAGCTGCCAAGAGCCCTTGATTTGATCCATGCCTCAGTGGATCGCGGATATCCCGTCCTGGCCTGGGATATTTTCTTTCCGGAGTTCGGAACGCTGTACGGGTACGATGACGAGACGAGAACCTTATATGCGGAGGAGTGCGGAAGAGTTGATACGCTGCCATACGAAAATCTAGGCAAGAGCGTCTTGGAAGAAATATTCGTCCTGGCGATTGAGGGTTCCGTGGATTTGACGCTTCGGCAGCAGCTGCGACTGGCACTGGAAACCGCCACCGCGTTATATGAAGGAAAGGAAAATGCGGTGCCGACGGCTGTGAAGGGAATTGCGGCCTACGATGCTTGGATAGAATCGCTGCATGGTCGTGAAATAGAGCCGAATGGTCATGCTTACAATATCGAAGTGCTGCGGGACGCACGGTACTATGCCGCCGAGTTCTTCAAGGAACTGGTGACCGCCTGGCCGAAAGCCATGGAGGACGGGCCGGATCTGACGACATCATTCGAAGATGCCGCTGCGCTGTATACGGAGATTTGCAAGAAGTTCACCGTTTTGCATGGGATGTTTCCATTTCCGAAGGGGGGCGAGCCTAATTCGGCAGAACAAGCAGCAACGGCGATATCGCTGGTAGAGGAGATCAAGGCCTTGGAGATCGAAGCTGCTGCAAAATTGAGCCAGATTTTTGCTGGATTGTCCTCCTGA	METTADLAIQWDEMEDDELVKYSQAGEREAFGELVRRHRSKVYGYARAITRESYLAEDVVQDALIRAFMHLGKLVDARRFLPWMHRIVRNQAYTRLKGSSACKEQTFTELEGMGRVNGSGSLEQWNDLDSILGRLNHSASEAASGYNVPEERIVQQETLRALTGIIQCLKPRERLIFESHFFDQLSPQEIADLFQLSSANVYQIISRSRKKVIQEKIRVTVDSYIKTRRDLGIMKKNILPYEGPMKETKTWTSAADATYKMLQFTDRKLSLPMVMGLTGHAFRINIIPNDVHIAGPTAYFFGESLSRGLHNIGFHSKFVDGMSDGIGTNANLLDPALMEKGAMNKRSIHQELPRALDLIHASVDRGYPVLAWDIFFPEFGTLYGYDDETRTLYAEECGRVDTLPYENLGKSVLEEIFVLAIEGSVDLTLRQQLRLALETATALYEGKENAVPTAVKGIAAYDAWIESLHGREIEPNGHAYNIEVLRDARYYAAEFFKELVTAWPKAMEDGPDLTTSFEDAAALYTEICKKFTVLHGMFPFPKGGEPNSAEQAATAISLVEEIKALEIEAAAKLSQIFAGLSS				NA	NA	NA	NA	NA
AK002_03765	1371	ntaA_1		Nitrilotriacetate monooxygenase component A	ATGGGGACAACCAACCGCAGAGCTCATCAGATGCACTTGGGAGCGTTTATCTATTATGCTGGACATCATCACGCCGGGTGGCGTCATCCAACCTCGGACGTGGAGGGCATGTTTGGCATTGAGCTGTATAAGCAGCTGGCAGCCACGGCAGAGCGGGGAAAGTTCGACATGATGTTTTTTGCCGATTTGCTGTACGTGACCCAGGTCGAAAATTCCGCTTCCGGCATGCTGGACCCGTTAACGCTGTTATCCGCACTCTCCGCCGTGACGGACAAATTGGGGCTGACCGCCACGGTCTCCACAACGTACAATGAACCGTATAACGTGGCTCGGAAATTTGCTTCTCTCGATTGGATCAGCGGGGGAAGAGCGGGCTGGAACATCGTGACGTCCCAGCTGGACATCGAAGCCCACAATTACGGCAAGCCGAAGCACCCGGAGCATGGCTTGCGTTACGAAATGGCACGCGAGTTTGTTGAAGCGGTTACCCGGTTATGGGACAGCTGGGAAGACGATGCCCTTGTGCTGGATCGGGAGTCCGGGAATTTTGCCGATGGAGCGAAGGTGCGTCCCGTGGACTTTAACGGGCAATGGTATTCCACGAAAGGCCCGCTGAACGTTCCGAGGCCGCCGCAAGGCTACCCCGTCCTGATACAGGCCGGTTCTTCCGGTCCGGGACAGGACTTTGCCGCCCAATATGGCGAGGTCATCTTTACGGCACAGCAGTCCAAGAAGGCAGCGCAGGCTTTTTACGCCAGCGTGCACTCGAAGCTGTCCCATTATGGAAGAGCAAGCGGAAGCCTGAAAATCATGCCGGGCCTGTCGCCTGTCATCGGCTCAACCGAGGAGGAGGCACGGCGCAAAGCGCACGAGCTGCTGGAATTGATTCCGCCAGCTTCGGCGATCGCCGTTCTGTCCGGGTTCCTGAATTACGACCTGAGCGGTTATCCGCTGGACCAGCCGCTGCCAAGAAACATCCCGGACCCCGTGGCCGCCTCCAACGGCATGAAAAGCCGGGTCCAATTATATATGGACATGGCTTATCAGGATAATCTGTCGATCTTAGAGTTAGGGAGGAAGATACTGACCTCGAGAGGTCATATGCCATTTGTCGGGACACCCGAGCAGCTGGCCGACATGATGCAGGATTGGTTCGAAGGTTATGCCTGCGACGGATTTAATATCATGCCTCCGGTGCTGCCGGGAGATCTGGACGAGTTCGTGGATGCGGTTATCCCGGTGCTGCAAGAACGGGGCCTGTTCCGTTCCGAATACAGCGGCAATACACTGAGGGAGCATCTGGGCCTAACGCGTCCTGAACCGGGACATTTTCGCCGGGAGGCTCAACAGGCCGCCGCGGATGCCATATAA	MGTTNRRAHQMHLGAFIYYAGHHHAGWRHPTSDVEGMFGIELYKQLAATAERGKFDMMFFADLLYVTQVENSASGMLDPLTLLSALSAVTDKLGLTATVSTTYNEPYNVARKFASLDWISGGRAGWNIVTSQLDIEAHNYGKPKHPEHGLRYEMAREFVEAVTRLWDSWEDDALVLDRESGNFADGAKVRPVDFNGQWYSTKGPLNVPRPPQGYPVLIQAGSSGPGQDFAAQYGEVIFTAQQSKKAAQAFYASVHSKLSHYGRASGSLKIMPGLSPVIGSTEEEARRKAHELLELIPPASAIAVLSGFLNYDLSGYPLDQPLPRNIPDPVAASNGMKSRVQLYMDMAYQDNLSILELGRKILTSRGHMPFVGTPEQLADMMQDWFEGYACDGFNIMPPVLPGDLDEFVDAVIPVLQERGLFRSEYSGNTLREHLGLTRPEPGHFRREAQQAAADAI	PGPT0003040_13	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
AK002_03766	810	ssuC_5	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGAGAAGTCATGCAGCCACCTCAGAAACAGGGGGGCGGGACTGGCTGAAGGCCATTCCAAAGCCCCTCCATGCCTGGCTTGTGCCCGCAGCGGTCTTGGCTTTATGGCAGGCAGCCGGCGGATTTGGCTGGATTTCGGCGTCCCTGCTGCCTACGCCGCTTACGATAGCCAAGCAATTCGCGAGTTTGGGGGCCAGCGGCGAGCTGTGGGAGCATTTTCGGATCAGTCTCCTTCGAGCGCTATCGGGCTTTTTGCTGGGCGGCTTGACGGGGCTGGCTCTGGGATTGTCCACGGGGCTTGGCAAAATGGCAGAGCGTACGCTGGACCCTTCATTTCAAATGCTGCGTACCGTGCCGCTTTTATCGCTGATTCCGCTGTTTATTCTATGGTTCGGCATCGGGGAATTCTCGAAGATTCTCATGATTTCCCTCGGAGCCTTTTTCCCGATCTATGTGAATACCTTCCTTGGCATTCGCAGCGTGGATGCAAAGCTTTATGAAGTATCGAGGATCTTTCAATATTCCAAACTGCAGCTGCTGATCCGGTTGATCGTACCGGCTGCACTGCCGAACATCCTGCTTGGCATCCGCCTGTCGCTCGGCGTTTCCTGGCTTGTACTGGTCGTAGCGGAGATGATGGGGACCAGCGCGGGCATCGGATACATGATTCAAGACGCCCGAGCCTATTCCCAAACGGACATTGTGTTTGTAGGCATTATTATTTTTGCGGTCGTGGGCAAGCTGTCCGATTCCGTTGTACGCCGGCTGGAATCCAGGCTGCTGGGCTGGAGAGAGACATATAAGGGCTGA	MRSHAATSETGGRDWLKAIPKPLHAWLVPAAVLALWQAAGGFGWISASLLPTPLTIAKQFASLGASGELWEHFRISLLRALSGFLLGGLTGLALGLSTGLGKMAERTLDPSFQMLRTVPLLSLIPLFILWFGIGEFSKILMISLGAFFPIYVNTFLGIRSVDAKLYEVSRIFQYSKLQLLIRLIVPAALPNILLGIRLSLGVSWLVLVVAEMMGTSAGIGYMIQDARAYSQTDIVFVGIIIFAVVGKLSDSVVRRLESRLLGWRETYKG	PGPT0003030_1377	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
AK002_03767	870	ssuC_6	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGCTCCCGGAAGGGATCAGCAAAGGGGCGGTTGTCGTGACCGCCGACCCCGTCGAAACCCGTCTCCGTCATAAGCGGATTGACCGCAGGTTCCTGTTTAAACTTACCCATGCATGGATCGGCTGGCTTGTTCCGCTCTTTATCATCATCGTGTGGCAGGCGGCTGGGGCCATGGGTTGGCTCAATCCGATCCTGCTTCCGACTCCACTCGATATCTGGAAGGAATTCGTTCATTTAACAAGCTCAGGCGAGCTGATTCGGCATCTGGGCATTTCATCCTGGAGAGCGCTGCTCGGGTTTCTGCTCGGCGGCAGCCTCGGTTTGGCCGCGGGGATATGGGTTGGTTTCTCGTACAAGGCCGAGCGGCTTGTCGATCCTCCCTTGCAAATGCTGCGGACGCTTCCCCATCTGGCCATTGCGCCGCTGTTCATCCTATGGTTCGGTTTCGGGGAAACCTCGAAAATCCTGCTTATTGCCAAGGGCTCGTTCTTTCCGCTCTACGTGAACACATTCCTCGGCATTCGCTCCGTTGACAACAGGCTGTTTGACGTAGCCCGCGTCCTGCAATTCAGCCGTTGGGATATGATCCGCAGGCTGATCGTTCCCGCTTCGCTGCCCCATATTTTCCTCGGCATCCGCCTCTCGATCGGGGTGGCATGGCTTGGCCTGGTTGTGGCGGAGCTGATGGGTTCCAGTTCCGGCATCGGTTATATCATCAATGACGCGCGTTCCTTCTCCTGGACCACGGTGGTCTTCGTCGGAATTTTGGTGTTTGCGCTCGTCGGGAAGCTGTCGGATTCCCTCGTCAAAGGGCTCGAAGGCAGACTTTTGCGTTGGCAGGACAGCTATAAGGGAGGCGACCCATCATGA	MLPEGISKGAVVVTADPVETRLRHKRIDRRFLFKLTHAWIGWLVPLFIIIVWQAAGAMGWLNPILLPTPLDIWKEFVHLTSSGELIRHLGISSWRALLGFLLGGSLGLAAGIWVGFSYKAERLVDPPLQMLRTLPHLAIAPLFILWFGFGETSKILLIAKGSFFPLYVNTFLGIRSVDNRLFDVARVLQFSRWDMIRRLIVPASLPHIFLGIRLSIGVAWLGLVVAELMGSSSGIGYIINDARSFSWTTVVFVGILVFALVGKLSDSLVKGLEGRLLRWQDSYKGGDPS	PGPT0003030_354	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
AK002_03768	1020	ssuA_2	COG0715	Putative aliphatic sulfonates-binding protein	ATGCATACAAAGAAAAAGAACGTCGCCATTATGCTATTGCTTATCCTTTCCGTCTTCGCATCCGGCTGCGCCGGAGCAAACAGCCAGCCCGCGGCTGGAGCCGTTAAGAAGGGAGCAGACGGCAAATACACAGATTTGACCGTACGGCTCGGGGTCCAGGGAAGCGGCGGTTTGTTTGGCAAGGCGCGCGAGGAGAGATGGTTCGAGGAGGAGTTCGGCAAGCTAGGCGTCAAGGTGGAGTGGGCAGAGTTTCAGAGCGGTCCTCCCATGACCGAAGCGATGGCTTCGAATCGTCTGGACTTTGCGGGGCTTGGCAATATGCCGATTATCGCCGCCCAGGCGGCCGATATTCCGTTTAAGGTCATCTCCCAGAGCTTGCACGGCCAGAAGAATGTGGCCATCATCGTGCCGCCGGACAGCCCTGCGCAGACCCTCAGTGATCTGAAGGGAAAGAAGGTAGCGGTAACCAAAGGGAGCAATGCCTTTAACTTTTTGTACCGGGGATTGGCGGATCAAGGACTCAAGGTATCCGACATCGAAATCATTCAGCTTCAGCCCGACGAAGCCCAGCCTGCATTCGAATCGGGCGGCGTCGATGCTTGGGCAACCTGGGACCCGTACATTACCTTGAACACGCTGACAGGCAAAGGCAACGTATTGGCGGACGGCGAGCAGCTTGGCGTCCTGTCGCCTTCGTTCAATATCGTGCGGAAGGATTTTGCCGATCAATATCCGGATCTGGTCACGCTCTATCTGACCGTGCTGAACAAAACTCTCGCCTGGGAGAAAGAAAACGAAGCGGAGGCGATTAAACGTTATGCCGATGAGCGCGGCATCCCGCAGGAAGTCATTCAAGGCACGTTTGACCGTTCAAGGTCGATCAACATTCCCGTAACGGATGACATCATCGCGGAGCAGCAGAAAACCGCCGACTTCCAATTCGAGCAAAAAACGATCCGCAAAAAAATCCAGGTCAAAGACGTGTTTGATAATCAGTATATTGAGGCTGCAACCCAATAA	MHTKKKNVAIMLLLILSVFASGCAGANSQPAAGAVKKGADGKYTDLTVRLGVQGSGGLFGKAREERWFEEEFGKLGVKVEWAEFQSGPPMTEAMASNRLDFAGLGNMPIIAAQAADIPFKVISQSLHGQKNVAIIVPPDSPAQTLSDLKGKKVAVTKGSNAFNFLYRGLADQGLKVSDIEIIQLQPDEAQPAFESGGVDAWATWDPYITLNTLTGKGNVLADGEQLGVLSPSFNIVRKDFADQYPDLVTLYLTVLNKTLAWEKENEAEAIKRYADERGIPQEVIQGTFDRSRSINIPVTDDIIAEQQKTADFQFEQKTIRKKIQVKDVFDNQYIEAATQ	PGPT0003025_998	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
AK002_03769	777	ssuB_2	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	ATGTCAGCAGAAACATTGATTATTCAACAGGTTAACAAAATTTTTCAAGCACCGACAGGGAGTGTTACGGCGCTGAAAGGCATTGACTTGCGGGTTCGTAAGGGGGAATTCATCACATTGATCGGACCGAGCGGCTGCGGGAAGAGCACCTTGCTCAAAATCGTTGCGGGCCTGGATACATCGTACGAGGGAAGCGTCCTGCTGAATGACAAGCCGATATCGGGCCCAAGCATCGAGAAGGGGTTCATTTTTCAAGAGCCGCGCTTGTTTCCATGGCTGACGGTGGAGAAAAATATCGCAGGCAATTTATCGCTGAAGCAGAAGGACGTCCGCAAAAAGGTGGATGAATTCATTGAGCTCGTTCGGCTGAAAGGCTTTGAGAAGGCATATCCCAGGGAGCTGTCGGGAGGGATGGCCCAGCGGGTAGCCATCGCCAGGGCGCTGCTGCGGAATCCGGACGTGCTGCTGCTGGATGAACCTTTTGGCGCGCTGGATGCGTTCACTCGCTCCCATATGCAGGAGGTGCTGCTGGACATCTGGCAAAATAACCGCACGACCATGCTCTTTGTTACCCATGATCTGGATGAGGCTGTGTTTCTTGGCGAGCGGGTCGTCATTATGAACCCGAGACCGGGCCATATTCGTTCCATCCTGCCGATCGATCTGCCGTTTCCGCGGAAACGGACCGGATCCTCCTTCCAGGAGCTGCGAACCAAAGTGCTGCGAGAGTTCGAGAAAGTGGAAGAACCGGAGTTCGATACCGGTGCAGGAATTTAA	MSAETLIIQQVNKIFQAPTGSVTALKGIDLRVRKGEFITLIGPSGCGKSTLLKIVAGLDTSYEGSVLLNDKPISGPSIEKGFIFQEPRLFPWLTVEKNIAGNLSLKQKDVRKKVDEFIELVRLKGFEKAYPRELSGGMAQRVAIARALLRNPDVLLLDEPFGALDAFTRSHMQEVLLDIWQNNRTTMLFVTHDLDEAVFLGERVVIMNPRPGHIRSILPIDLPFPRKRTGSSFQELRTKVLREFEKVEEPEFDTGAGI	PGPT0003035_1039	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
AK002_03770	573	tdk	COG1435	Thymidine kinase	ATGGCTCAATTATTTTTCAAGTATGGCTCCATGAACAGTGGCAAATCCATCGAGATTTTGAAAGTCGCCCATAACTACGAAGAACAGAACAAACCGGTCCTTCTCTTTACGTCCGCTATCGATGACCGGGATGCCGTCGGTTATGTATCGTCGCGAATCGGCCTGCGCCGTGAAGCGATACCTATATCCGATACGACCGATATCTACGGGATCGTGAAGGATCATCAGCCGAAGCCCTACTGCGTTCTTGTTGACGAATGCCAGTTCCTGTCCAAGGACAGCATCCTCCAGCTCGTTCGGATCGTCGATGAGCTTAACGTGCCTGTCATGGGCTTCGGACTAAAGAACGACTTCCGCAACGAGCTGTTTGAAGGCAGCCGCTGGATGCTGATTTACGCCGATAAAATCGAGGAAATGAAGACGATCTGCTGGTTCTGCGAGCGCAAAGCGATCATGAACCTTCGCGTCATCGACGGCAAGCCCGTCTATGCCGGCGAACAGATCCTGATCGGCGGGAATGATACCTACTTCCCTGTCTGCCGCAAATGCCATACCAATCCCCCTTTAGCATAA	MAQLFFKYGSMNSGKSIEILKVAHNYEEQNKPVLLFTSAIDDRDAVGYVSSRIGLRREAIPISDTTDIYGIVKDHQPKPYCVLVDECQFLSKDSILQLVRIVDELNVPVMGFGLKNDFRNELFEGSRWMLIYADKIEEMKTICWFCERKAIMNLRVIDGKPVYAGEQILIGGNDTYFPVCRKCHTNPPLA	PGPT0021390_3171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
AK002_03771	213			hypothetical protein	ATGCCGATCGTCAGACCGTTATTGACCGACCAGGACTTTCAGGAAGTCATGGAGCAGCAGATCCGTATACGCATCTTCAAGGATAATCATTTGATTGATTCGGGGAGTCTTGTCATCCGTTTCACCGACGATACCGTCATTACGCAATCCAGCGTCAGTTCGCTCGGCTATCACAAGCGGGACGAATGCGAGTTTTTTGAAGTACGGAAGTGA	MPIVRPLLTDQDFQEVMEQQIRIRIFKDNHLIDSGSLVIRFTDDTVITQSSVSSLGYHKRDECEFFEVRK				NA	NA	NA	NA	NA
AK002_03772	867			hypothetical protein	ATGGTCAAAAATCACAAAAAACTGACAGTCGGCGAAATTTTGAAACGGTTCATCTTTATCACCGTCGGTGCAATTCTGATGGCCGTGGCGCTTGAGATCTTCCTGGTGCCCAATGAAATCATCGATGGTGGAATTACCGGTATTTCCATCGTATTATCATCGATTACGCCCATCAAATTGGGGGTATTCCTGTTTATCATCAACTTACCGTTTCTGTTTATCGGCTACAAGCAGATTGGCAAAACGTTTGCGTTTTCCACGCTGTACGGGATCGTGGTGCTGTCGGTAGCGACAACCTTCCTGCATCATGTAGATCCGTTTACGAACGAGAAGATTTTGGCGGTATTATTCGGCGGATTGGTCCTGGGCCTCGGGGTCGGTCTCGTCATCCGTTACGGCGGTGCGCTTGACGGGACGGAGATCGTAGCCATCCTGCTGTCCAAGAAGCTGCGAATGCCGGTCGGTCAGATCATCATGATCATCAACGTCTTTATCTTCATTACCGCAGGGTTTGTATTCGGTGCAGATTCGGCGATGTATTCGATCTTCTCATACTACATAGCGGCAAAAGTAATGGATATTGTGGTAGAGGGCTTGGACGAGTCCAAATCCGTTACGATTATATCCAACGAATATGAGGAAATTTCGAGTGCCATCATGCAGCGTCTGGGACGCAGCACGACCATGATCTATGCCAAGGGCGGATATTCGAAAGAGGACACGCAGATGATTTATTGCGTCATCACCAGGCTGGAGATTGCGAAGCTGAAGACCGTGGTGCAGGAGATTGACAAGAACGCATTTATATCGATCCAAAATGTAGCGGACGTGCTGGGCGGAAGCATGGCAAAGTCCGATATTCATTAG	MVKNHKKLTVGEILKRFIFITVGAILMAVALEIFLVPNEIIDGGITGISIVLSSITPIKLGVFLFIINLPFLFIGYKQIGKTFAFSTLYGIVVLSVATTFLHHVDPFTNEKILAVLFGGLVLGLGVGLVIRYGGALDGTEIVAILLSKKLRMPVGQIIMIINVFIFITAGFVFGADSAMYSIFSYYIAAKVMDIVVEGLDESKSVTIISNEYEEISSAIMQRLGRSTTMIYAKGGYSKEDTQMIYCVITRLEIAKLKTVVQEIDKNAFISIQNVADVLGGSMAKSDIH				NA	NA	NA	NA	NA
AK002_03773	654			hypothetical protein	ATGTTGGAATGGCTTCAGAACGTGTGGACCCATATGAAAGAAATTGACATGGATCAAGTGCAGGGATGGCTGCAGCAGTACTCGCGGCTGGGTCCCATTCCGGGTATTTTGCTTCCATTTATAGAGGCGTTTCTCCCCTTTCTGCCCCTCATCGTCCTGGTGATGGGAAACTCCGCAGCTTATGGTTTATGGTGGGGATTCCTGCTGTCCTGGATCGGCGTTTGCCTTGGATCCGTCACGGTGTTTTGGATCGTTCGCAAGCTGGGAGGCAAACTGGGATTGCTTATACAAAAAAGAATGCCGGGATCCCAGCGTTTCTTCCATTGGATTGAAGATAAGGGCTTTACGCCGATCTTCATCCTGTACTGCTTTCCCTTTACGCCTTCCTCGCTGATCAATATCGCATCCGGCATTAGCACGGTATCGGCTACAACGTTCACGATCGCCGTTATGGCAGGCAAATCCGTGATGATCTTCATGGTGGCATTCATTGGACATGACTGGCAGGCCTTTATCCAGCAGCCTTGGCGCATTCTTATCGCGGCCGTCGTCCTCTGGCTGTTGTGGCTGGCCGGCAAAAAGATGGAAAACCGTTACCATCACGATGATCAGCCCGGAAGCGTCGTCATCAGCAGTAAAAAGAAGAAGCGTTAG	MLEWLQNVWTHMKEIDMDQVQGWLQQYSRLGPIPGILLPFIEAFLPFLPLIVLVMGNSAAYGLWWGFLLSWIGVCLGSVTVFWIVRKLGGKLGLLIQKRMPGSQRFFHWIEDKGFTPIFILYCFPFTPSSLINIASGISTVSATTFTIAVMAGKSVMIFMVAFIGHDWQAFIQQPWRILIAAVVLWLLWLAGKKMENRYHHDDQPGSVVISSKKKKR				NA	NA	NA	NA	NA
AK002_03774	882	mshD_3		Mycothiol acetyltransferase	ATGGTATTGGATACAGATCAAACGAAATTAAGAGAGCTGTCTTCCTTTCTTGCCCGAATGAACGGGGATCGTCATCATCATGTCGGATATTGCGGCGAACAGGAAGGGGAGATTTATAGCACGCTGCTGGAAGATTTTTCGGAAAATGGCCGGCTGAACAGCCAGCGATTTACCGTGATCTATGATCAAGATCAGATGGTAGGCGCATTGGGATTCGATGTGGACGAAGAAGAGGGAACTGCTGAGATATGGGGACCTTTTATCGATGCACAAGGCGAGCTTTGGCATCGATTGGCGAAGGAGCTATGGGTTGAAGGAACAACGAAGCTGAATGGCGATGTAACACGCTATTTCGGATTTTATAATGCAGCTCATCTGTCCGCTGCGAGGTTTATGGAGGACAAAGGGGGAAGAAAGACAGGTGTGCATCATGTACTGAGAATCCAAAAATCCACCTTGTTAACGAATGCCGCGTCTGAATTGCAGGATATCACGCCCGAGTATTGGGATGAGTTCGCGGATCTGCATGGCAAGGCCTTCCCGAATACCTATCTCGGCTCGGAGTCTATTTTGCAGAAGCTGGATGAGGATCACCGGCTCTTCATACTTACGGAAGAAGGCCGTTTCGCCGGGTATGTGTATGTGGAGGGAAACCCTGAATTTCAGGAAGGAAATATAGAGTACATCGCGGTATCCGAACATTTTCGGCGCAAAGGCTATGGCCGGATCCTGCTTGATCAAGCGCTCCATTATTTGTTCCAGGTCCTGCAGCTGGAAGAAATCTCGCTATGCGTGGACCAGGACAATGCAGGGGCGCTCCAGCTGTATCAACGTTCGGGCTTTGAGACGGTACATAAACTGGCGTCATACGTATTGGAGTGA	MVLDTDQTKLRELSSFLARMNGDRHHHVGYCGEQEGEIYSTLLEDFSENGRLNSQRFTVIYDQDQMVGALGFDVDEEEGTAEIWGPFIDAQGELWHRLAKELWVEGTTKLNGDVTRYFGFYNAAHLSAARFMEDKGGRKTGVHHVLRIQKSTLLTNAASELQDITPEYWDEFADLHGKAFPNTYLGSESILQKLDEDHRLFILTEEGRFAGYVYVEGNPEFQEGNIEYIAVSEHFRRKGYGRILLDQALHYLFQVLQLEEISLCVDQDNAGALQLYQRSGFETVHKLASYVLE				NA	NA	NA	NA	NA
AK002_03775	411	mrpG	COG1320	Na(+)/H(+) antiporter subunit G	TTGAACGCACAAACGATGAGTCAGATCGGTGAGTTTCTGATTGCGCTGATGGTGCTGCTCGGAGCTTTACTCGGCGCATTGAGCGCATTCGGCCTGATTCGCCTGCCGGATGTGTACATGAGATCCCACGCAGCCACGAAGAGCGCTACCCTTGGCGTCCTCTTTATTCTTGCGGGCGCATTTCTATATTTCACCTTTTACTTGGAACATGTCAGCGCGAAGCTGCTGCTGGGGATCGTGTTCGTATTCATTACGGGTCCGGTTGCAGGCCACTTGAACGGGAGGGCGGCTTACCGGTCCGGCGTCTCCATGTGGGAGAAAAGCGTTCATGATGACCTGAAGCCTGCTCTCAAGCGCGAACGTGAACGCATGCGCGATTCCCGGAAGGCCGAACATTCCGAGAAAGGATGA	MNAQTMSQIGEFLIALMVLLGALLGALSAFGLIRLPDVYMRSHAATKSATLGVLFILAGAFLYFTFYLEHVSAKLLLGIVFVFITGPVAGHLNGRAAYRSGVSMWEKSVHDDLKPALKRERERMRDSRKAEHSEKG	PGPT0013925_316	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571	NA	NA
AK002_03776	294	mrpF	COG2212	Na(+)/H(+) antiporter subunit F	ATGATCCAGAGCATGCTGATTGCTTCGCTGGTGATTTTGTCGCTTGCCATCCTGGGCTGCTTGTATCGCTTGATCAAGGGACCCTCCATGAACGACCGGATCATGTCGCTCGATACGATCGGAATCATCCTGTTGTCCATGATCGCCGTGTTATGCATGCTCTTCCGGACAACGGTCTATTTCGACATCATATTGCTGATCGGAATTCTAACGTTTATCGGAACGACCGCACTCGCCAGATATATCGAAAGGGGTGACGTCATTGAACGCACAAACGATGAGTCAGATCGGTGA	MIQSMLIASLVILSLAILGCLYRLIKGPSMNDRIMSLDTIGIILLSMIAVLCMLFRTTVYFDIILLIGILTFIGTTALARYIERGDVIERTNDESDR	PGPT0013920_433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570	NA	NA
AK002_03777	480	mrpE	COG1863	Na(+)/H(+) antiporter subunit E	ATGGGCCATCAAATCCTGTTGAATATCATCATTGCCATTGTCTGGATGTTCCTGAACAGCAACTGGTCTCCCCAGCAATTCATTGTTGGGTACCTGATCGGCATCTTGCTCATTTATATGCTGCGGCGCTTCTGGCCGAACGACTTCTATTTGCGCAAGCTGTGGTCCATCCTGATGCTGCTGCTCCTGTTTCTAAGCGAACTGTTTAAATCGAGCGTCACGGTCATCGGTCAGATCATAAGACCGAAGCTGAACGTTCGTCCCGGCATCTTCGCTTACTCCACGGAGCTGAAAACCGATTGGGAGATCACGGTGCTATCGTGCCTGATCTGCTTGACGCCAGGAACGCTTACCCTGGAAGTGTCGCGCGATGGTCAGACGCTTTACATTCATGCGATGGATATCGAGGACGTCGAAGAGCTGTCGAATCAGATTCGCGGTACCTTCGAACGGGCGATCAAGGAGGTGACCCGCACATGA	MGHQILLNIIIAIVWMFLNSNWSPQQFIVGYLIGILLIYMLRRFWPNDFYLRKLWSILMLLLLFLSELFKSSVTVIGQIIRPKLNVRPGIFAYSTELKTDWEITVLSCLICLTPGTLTLEVSRDGQTLYIHAMDIEDVEELSNQIRGTFERAIKEVTRT	PGPT0013915_1228	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569	NA	NA
AK002_03778	1482	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	ATGAATAACGTGATTGTGCTTCCGCTCCTGATTCCTTTGGTTACGGCCGTCATTCTTATTTTCTGTTCCAAATACGTCCGCGCGCAGCGGTGGATCAGTGCGGTTAGTATTCTAATCAACCTGCTTGGCGCCCTGTTCATCGTCAACCAAGTGAATAACGAAGGCATCCAGACGCTTCATATGGGCGGATGGCAGCCGCCGTACGGGATCGTGTTCGTGGCGGATATGCTGGCGGCACTGCTGGTGTTTACGACGCTGATCGTTGCCGCAGCCTGCCTGTTCTATGCTTTTCGGAGCATCGGGGAAGAGAGAGAGAAGCATTACTTCTATCCCTTTTTTCAATTTTTGCTGGCCGGCGTGATCGGATCGTTTCTGACGGGGGATCTGTTCAACCTGTTTGTCTGCTTTGAGGTCATGCTGATCGCTTCCTATGCGCTGATCGTTCTGGGCGGAACCAAGCGGCAGCTGAGGGAAACCTTGAAGTACATGCTGATTAACATTATTTCATCCACCTTGTTTGTTGCAGCCGTAGCTTATTTATACGGCACGGTCGGCACGCTGAACATGGCGCATCTGTCCCTGCGCGTGGGTGAAGTGCAGCAGGACGGAATATTGTCGGTCATTGGCCTTTTGTTCCTGATCGTATTCGCACTGAAGGCGGGCTTGTTCCTGTTCTTCTGGCTGCCCGGTTCCTACAGCGCACCTCCGGCGGCCGTAACGGCTCTGTTCGGCGCCCTGCTGACGAAGGTCGGGTTATATGCGATTATCCGAACCTTTACGCTGATCTTCCATCACGATACCGGCAACATTCACGCCGTCATCGGCTGGATGGCTGCGGCCACGCTCGTTCTGGGCAGCATGGGCGCGGTTGCGTATAAGGATCTCGGACGCATCCTGAATTACAACATCATCATTAGCGTGGGCTTCATCGCCTTTGGTGTAGCAGTGGCCTCCTCCGATTCCTTAAACGGAGCCGTGTTCTATTTGATGCATGATATGATCGCTAAGGCGCTGCTCTTTATTCTGGGCGGCATCATCATGGCGAGCGCGGGCGCGAGCAAGCTGAGCGATATGGGCGGCCTGATGAAGCGGCATCCCCTGGTGGGGTGGATGTTCTTCATCGTGGCGCTGGCGCTGGTCGGCATCCCGCCGCTTAGCGGATTCCTTGGCAAGGTCCTTATCGTTCGCGGCGGACTGAGCGAGGGGCATTATGCGCTGACGGGATTGGCGCTGGCATCAAGCCTGGCGGTGCTCTACTCCCTGATCAAAGTGTTTATGGGAGCATTCTGGGGCGAATCGCCAGGGCCTAACGAATCGCGGCCGGTCAGAATCCATCGGACCGCTTATGCGGGAGCGATCGGGCTTGCGATCATAGTGATTGTCCTGGGAGTCGGTTCAGAATGGGTATATACCTATACCTCCCAAGCAGGCGCCGTATTATCCGATCCGTCACTATACATTCAAGCCGTATTAAAGGAGTAG	MNNVIVLPLLIPLVTAVILIFCSKYVRAQRWISAVSILINLLGALFIVNQVNNEGIQTLHMGGWQPPYGIVFVADMLAALLVFTTLIVAAACLFYAFRSIGEEREKHYFYPFFQFLLAGVIGSFLTGDLFNLFVCFEVMLIASYALIVLGGTKRQLRETLKYMLINIISSTLFVAAVAYLYGTVGTLNMAHLSLRVGEVQQDGILSVIGLLFLIVFALKAGLFLFFWLPGSYSAPPAAVTALFGALLTKVGLYAIIRTFTLIFHHDTGNIHAVIGWMAAATLVLGSMGAVAYKDLGRILNYNIIISVGFIAFGVAVASSDSLNGAVFYLMHDMIAKALLFILGGIIMASAGASKLSDMGGLMKRHPLVGWMFFIVALALVGIPPLSGFLGKVLIVRGGLSEGHYALTGLALASSLAVLYSLIKVFMGAFWGESPGPNESRPVRIHRTAYAGAIGLAIIVIVLGVGSEWVYTYTSQAGAVLSDPSLYIQAVLKE	PGPT0013910_2114	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568	NA	NA
AK002_03779	339	mrpC	COG1006	Na(+)/H(+) antiporter subunit C	ATGGAACTATATATGTCGCTTGCCATTGGAATTATTTTCGCGGTTGGGATCTACCAGATCTTATCCAAAAGCCTGCTGCGGATCATTCTCGGCACGTCGCTGTTAACCCACGGCGTCCATCTGCTGCTGCTCACCATGTCAAGGCTGAAGACCGGGGCTGCCCCGCTGCTTGGCGAGGAGGCTTCCTCTTACGTTGATCCGGTTCCGCAAGCATTGATACTGACGTCCATCGTCATCAGCTTTGGCGTCACGTCGTTCTTTTTCGTACTGGCTTATAAAGCATATCAACGCTTGGGCACGGACAACATGGAGGAGTTAAGGGGGACGGACGATGAATAA	MELYMSLAIGIIFAVGIYQILSKSLLRIILGTSLLTHGVHLLLLTMSRLKTGAAPLLGEEASSYVDPVPQALILTSIVISFGVTSFFFVLAYKAYQRLGTDNMEELRGTDDE	PGPT0013905_1496	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
AK002_03780	2859	mrpA	COG1009	Na(+)/H(+) antiporter subunit A	TTGTCTTTGCTGCACATCGCCGTTTTGGCACCTTTTATCGTAGCGCTTGTGGTTATGCTGACCTACAAGCTCATCGGCCGCGTCCACACCGGATGGGTGGTTTTGCCGGTCCCGGTTGTCCTGTTCGCCTATTTTTTGGGACTTATCCCAACCATTCAGGGAGGTGAACAGCTCCAAGCCGTCCTGGAATGGATCCCAAGCGCGGGAATAAACTTTACCGTTTATTTGGATGGATTAAGCTTGATTTTTGCACTATTAATATCCGGCATTGGTTCCCTCGTTGTCCTGTACTCTATCTTTTATATGGATAAAAACAAGGAAGCGGTCCACAGATTCTATGTGTACCTGCTTCTGTTCATGGGCGCCATGCTGGGTGTCGTGCTCTCCGATAATCTGATGGTGCTGTACGGCTTCTGGGAACTGACCAGTATCTCGTCCTTCCTGCTGATTGCATTCTGGCATCATCGGGACCGCTCCAGATACGGAGCCTTGAAATCCATGCTCATCACCGTATTCGGCGGACTTGCCATGTTCGCGGGGTTTATCCTGCTTTATGCCATGACAGGCACCTTTAGCGTACGGGAGATCGTCGCCGATGTAGGGAGCATTGCCGGAGATGCGATGTTTATTCCGGCCATGATTCTGATCCTGCTCGGGGCCTTCACCAAGTCCGCGCAGTTTCCGTTCCATATCTGGCTGCCGGATGCGATGGAAGCACCGACCCCGGTAAGTGCTTATCTGCACTCCGCGACCATGGTGAAGGCCGGGATCTATTTGGTGGCCAGGTTTAGTCCGGTGTTTGCCGGGCAGGCGTCCTGGTTCTGGATCGTAGCGATAACGGGCTTGACCACGCTGATTTATGCTTCGATCCGCGCGATCAAGCAGACGGATCTAAAAGCGCTGCTGGCATTCTCCACCATCAGCCAATTGGGGCTGATCATGAGCTTGCTCGGCCTGGGCTCTGCCGCCGCTTATTATGGAGACGGCGTGGACACGCTGCTCTACGCGAAAGCGACGACGGCGGCCATCTTTCATCTGATGAATCATGCCATATTCAAGGGCGCCTTGTTTATGGTCGTCGGCATCGTGGACCATGAGACGGGCACCCGGGATCTGCGGAAGCTCGGCGGGCTGATGTCGCTCATGCCGATTACGTTTACCGTGGCGGTCATAGGGGCTTTTTCCATGGCCGGGTTGCCTCCGTTCAACGGATTCTTGAGTAAAGAGATGTTCTTTACGGCGGTCCTTCAGGCCTCAGACATGAATTTCTGGAATGCAGAGACCTGGGGCATACTGATCCCGGTCGTCGCCTGGATTGCCAGCGTGTTTACGTTCCTGTACAGCATGATCCTGGTCTTCAAAACCTTCACCGGACGCTTCCAGCCTGAAAAGCTGGAGAAGAAGCCGCACGAAGCTCCGCTGGGAATGCTGATTCCCCCGGTCATTCTGGCATCGCTCGCCATCGTGTTCGGCTTGTTTCCGAACCTGTTGTCCCAAACGCTCATCGAACCGGCGATGGCCGCGATTCATCCAGGGCTGCTTGGGGCGGAGGATCGTTTTCACGTACACATCGAAATGTGGCACGGCTGGACGACGGAGATTTTCATGACCATCGGCATCATTGTTCTCGGTACCGTGCTGTATAAGCTTCACGGCAGAGCTCGAATATTGAATACATCGCTGACGAAGCGATGGACATGGAACAAGCTGTATGACGGGGGATTGCGAGTCCTCGAAAGAGGCGGCGAAACGCTGACCTCAACCTACATGACAGGCTCTCTCCGTCATTACGTGATGTATATTTTCGTTTTTTTTATAGCCGTTCTTGGCGGGGGGCTTCTGCTGGTCGACAATATCGGGTTTGATAGGACCGCTTACGCGCCGATGTCCTTCTATGAGGCCGTTGCCATACTCGGCCTGGTCATTCCGGTCATCGCGCTGCCGTTCGTCCGGACGCGACTGATGGCGATCATATTGACCGGTGCTGCCGGTTACATGGTGACTCTGTTCTTCGTCCTGTTCCGGGCGCCGGATTTGGCGCTGACCCAGATGGTCGTCGAGACGGTATCCGTGATGCTGTTCCTGCTCTGTTTCTATCATCTGCCGAAGCTGAAGCGGGAGAAGGTGCCGATGAGCTTGAAATGGAGAAATCTGCTTATTTCGGCAGGCGTCGGTGCTGTCGTGACCTTGATCGCCCTGGCGGCGAGCAGCGGCAGGACTTTCGACTCCATCGCGGATTACTTCATTCAAGAAAGCTATCGCTCCGCCGGCGGCAAAAATATCGTCAACGTCATTCTGGTGGATTTCCGCGGCTTTGATACCCTGCTTGAAATCACGGTTCTGGGCATTGCATCCCTTGGAATTTATGCCTTGATCAAAATCGATTTGGGAGAAGGGATTCTGGGAGAGCGGGATCGTTATGAAGGGGCATATCTGCCCAACAGCAATGATGTCATTCTTCGAACCGTATCCAAGGTGGTTATCTTTATCGTGGTAACCTTCTCCTGGTTCCTGTTCAACTCGGGGCACCATGAGCCGGGCGGCGGATTTATCGGAGGTCTGATGACCTCTGCGGCACTGGTTCTGTTATCCATGGCTTTCGGCATGGATATGACCCGCAAGATCGTGCCCTTCGAGTTCCGAAAGGTTACGGCGGCGGGGCTTGCCATCGCCCTGCTTACGGGGATCGGCTCCTTTGCCTTTAACGCACCGTTCTTAAGTCATTCCTTCGGTTATTTCAACCTGCCGCTTCTCGGGAAAACGGAGCTGGCTACTGCGGTTCTCTTCGACCTCGGCGTTTATTTGGCCGTAGTCGGCGTGACGATGACCATCATCAATTCGATCGGGAGGGATAACTGA	MSLLHIAVLAPFIVALVVMLTYKLIGRVHTGWVVLPVPVVLFAYFLGLIPTIQGGEQLQAVLEWIPSAGINFTVYLDGLSLIFALLISGIGSLVVLYSIFYMDKNKEAVHRFYVYLLLFMGAMLGVVLSDNLMVLYGFWELTSISSFLLIAFWHHRDRSRYGALKSMLITVFGGLAMFAGFILLYAMTGTFSVREIVADVGSIAGDAMFIPAMILILLGAFTKSAQFPFHIWLPDAMEAPTPVSAYLHSATMVKAGIYLVARFSPVFAGQASWFWIVAITGLTTLIYASIRAIKQTDLKALLAFSTISQLGLIMSLLGLGSAAAYYGDGVDTLLYAKATTAAIFHLMNHAIFKGALFMVVGIVDHETGTRDLRKLGGLMSLMPITFTVAVIGAFSMAGLPPFNGFLSKEMFFTAVLQASDMNFWNAETWGILIPVVAWIASVFTFLYSMILVFKTFTGRFQPEKLEKKPHEAPLGMLIPPVILASLAIVFGLFPNLLSQTLIEPAMAAIHPGLLGAEDRFHVHIEMWHGWTTEIFMTIGIIVLGTVLYKLHGRARILNTSLTKRWTWNKLYDGGLRVLERGGETLTSTYMTGSLRHYVMYIFVFFIAVLGGGLLLVDNIGFDRTAYAPMSFYEAVAILGLVIPVIALPFVRTRLMAIILTGAAGYMVTLFFVLFRAPDLALTQMVVETVSVMLFLLCFYHLPKLKREKVPMSLKWRNLLISAGVGAVVTLIALAASSGRTFDSIADYFIQESYRSAGGKNIVNVILVDFRGFDTLLEITVLGIASLGIYALIKIDLGEGILGERDRYEGAYLPNSNDVILRTVSKVVIFIVVTFSWFLFNSGHHEPGGGFIGGLMTSAALVLLSMAFGMDMTRKIVPFEFRKVTAAGLAIALLTGIGSFAFNAPFLSHSFGYFNLPLLGKTELATAVLFDLGVYLAVVGVTMTIINSIGRDN	PGPT0013895_460	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565	NA	NA
AK002_03781	222			hypothetical protein	ATGATGATCAAAAAAGCGGCAGTTTGCGCCTTCGTCTTTCTCGTGATATTGACGGCGGCCATCGTGACGAATCTACGCACGCAGTCCGCCTACCTTCAGGAAAACCCGTCAAACGGCGTATATCACATGCAGCATTCCCAAGGAGGATCCCTCTTGTTCTCTCCTCGGGAATACGTGAAAATCATTCGCCATTCACCCGAGACCTTGCCGGATCAGCCTTAA	MMIKKAAVCAFVFLVILTAAIVTNLRTQSAYLQENPSNGVYHMQHSQGGSLLFSPREYVKIIRHSPETLPDQP				NA	NA	NA	NA	NA
AK002_03782	627			hypothetical protein	GTGGATACGCTATTGAATTTTATTGAACAAATCGGGCATTACGCATTATTCCTTGTATTATGCCTGGGATTGGTCGGGCTTCCCGTGCCGAATGAAGTCGTGGCCATGACTGGCGGAGCGTTGGCGGCATCCGGGATATTATCGCCGGCCCCGTCTTTTATCATGACCTTTCTCGGCGTGTGCTCGGGATCGACGGTCGGTTTCATGCTTAGCCGCTTTACCGCCAGCAAGCTGTTAAACCGCGTAGGGGAAAAGTCGAAGATTCGCCAGTTTCTCGATGTATCCGAACGCTTGACCCGCCAATATGGCAATTACGCCATATGCATCAGCGCCTTTTTGCCCATCCTGCGCAATGTTACTCCGTATGCGGTCGGGATGAAGGGAATGCCGTATCGCCGGTTTGCGATCTACTCGTATACCGCGTCCTTGGTGTGGACCACCGGTTATTTTTCTTTGGGCATGTTCGTCGGCGATCAGGTCGTCGATCATATTGGCGTGCTGATTAACCGGTATGGATATTATGCAGCTGGAATCGTTGCGGCGCTGGCCGTCATCCTGATCATTTCGTGGTGGATGCGAAGAAATAAACGAAGCAAGGAGAATAATGAGATCCAATTTCATGGATAG	MDTLLNFIEQIGHYALFLVLCLGLVGLPVPNEVVAMTGGALAASGILSPAPSFIMTFLGVCSGSTVGFMLSRFTASKLLNRVGEKSKIRQFLDVSERLTRQYGNYAICISAFLPILRNVTPYAVGMKGMPYRRFAIYSYTASLVWTTGYFSLGMFVGDQVVDHIGVLINRYGYYAAGIVAALAVILIISWWMRRNKRSKENNEIQFHG	PGPT0004890_2663	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_TRANSPORT,PGPT0004890-dedA-K03975	NA	NA
AK002_03783	276			hypothetical protein	GTGAATTGGGTAGCCGTACAGCCGTACTACAAAATCAACCGAATCGTGGACGGCATTGAACAACGAACGGAAGAGCAAGGGCGGGAGATGTTCCTGTACGAGGATCGAATCGTAACCCAATACCGGGAGTTTCCGATCCGGCAGGTGTTTGACCTGTCCTATCGGCCGATGGGAGACGGCGGAGGTTTCTTGTACCTGCATACCCAGCAAGGGGTGTATTCGTACACGGTGAAGGAGGATCCGGGGTCCTTCATTTCGGCGTTTAAAAATCTCTGA	MNWVAVQPYYKINRIVDGIEQRTEEQGREMFLYEDRIVTQYREFPIRQVFDLSYRPMGDGGGFLYLHTQQGVYSYTVKEDPGSFISAFKNL				NA	NA	NA	NA	NA
AK002_03784	204			hypothetical protein	ATGTTAACAGGTTGGAAACTATCTGTATTAGGTATTATTATTGTGGGCATTACAGGCATTATAGCGTCCGTTACCGGTCTGATCGAGCCTGGCCGTGCCGCCGCACTCTTCGTGGTATTCGTGCTTTTTATCGGGGCGCTGGAGCTGCTGGAACGAATGAAGAGCCGCAGGAAGAAGAAGGGAGACCTGCGATCTTCCAAGTGA	MLTGWKLSVLGIIIVGITGIIASVTGLIEPGRAAALFVVFVLFIGALELLERMKSRRKKKGDLRSSK				NA	NA	NA	NA	NA
AK002_03785	1050			hypothetical protein	ATGAACTCAACAACCTGGATACTGCTCATTGTATTCATCGTGGTGGATGTATGGATTATTTCTTTTTTCGTTAAACGCTCGTTACGCAAACAAAATAGCCAGCTGGTCCCTGATGGAAATAAGCCTCGACGAGGGAAAATACCGGAGCTGCCGCCGATCGTCAAGGCCGGAAGCCCGGCAAGCGAGCTTGTCGGCAGACTGGAGGCCGCGCTGCCCGATACTTATCAGAGCATGCTGAAACAGCGCGTGATGAGTGAGCATCCTGACATGTCCGAACAGGAATATGAATGGAGATGGCAGGAGCTTAAACGTTTCTTTATCATGTGCGCCGTGTTGGACCGCGTACCGATGTTCAGCAAGGACGTCGATGAGGTCTGGCATGAAATGCTGATGTATACATACGAATATCAACAATTCTCGGACCGCTTTCTTGGCCGGATGCTTCACCATGCTCCCAATACCGGTACCGAGCATGTGCCGATTCCGAATGAACGGGCCTGGTTCGATACCGTATATGTGCAATTATTCGGCTGGCATGAATACAGTGCCAAGCTATGGGGGGCTTTCTTCCGCGTCCCGCTGCCGCGTGAAGAGCTGGACATTTGCACCTCCCCCCATTTTGCCGTGAATCATGGCCAGAAGCGTTTTAATGCCTGGACCTATGAGAAGATTCCTTCAGCACGCATGGCCATTGATGCAATGATCCGGGATCTGCAGGATCGGGTCAGAACCGCTCAAACCGAGCCGCGGCGTCAAGAGAAGAGGGTCAACTTTCAGAATAGCGATATGCTCCTGGCAGCGGCCGTCTATTTTGCCTGGAACGCACCGGATCAATTCACTGATCATATGATCCCGGATGAGCGCGAGCTTCATAAAAACAACAGCAGCTCCTCCTGTACCTATGCTTCGGCTTGCGGCTCAGGCGGCTCGGATTCCCATGACGGATCGTCAAACGATGGTTCATCAGGCGGCGGCTCCTCCTGCAGCAGCGGGTCCTCTTGCAGCAGCGGTTCGTCCTGCAGCAGCTGCGGAGGCGGCTGCAGCAGCTAA	MNSTTWILLIVFIVVDVWIISFFVKRSLRKQNSQLVPDGNKPRRGKIPELPPIVKAGSPASELVGRLEAALPDTYQSMLKQRVMSEHPDMSEQEYEWRWQELKRFFIMCAVLDRVPMFSKDVDEVWHEMLMYTYEYQQFSDRFLGRMLHHAPNTGTEHVPIPNERAWFDTVYVQLFGWHEYSAKLWGAFFRVPLPREELDICTSPHFAVNHGQKRFNAWTYEKIPSARMAIDAMIRDLQDRVRTAQTEPRRQEKRVNFQNSDMLLAAAVYFAWNAPDQFTDHMIPDERELHKNNSSSSCTYASACGSGGSDSHDGSSNDGSSGGGSSCSSGSSCSSGSSCSSCGGGCSS				NA	NA	NA	NA	NA
AK002_03786	858			hypothetical protein	ATGGTAGATGTTTCTGGATTCCTGTTGAATGGGGAACATCGCAAGCTGTATGAGCTGTTCGGAGAGGATTTGCGTTTACTTGTAACGATCGAACAATTTGAAGCGATGGCAGTGGAATATACGGCAGGCGTAAAAACGTTCCATATCACGTTGGACGACACGCTCAACCAAATCCGATTGATAAACTGGATGGATGATAGCGGGCAAAAAGGCATTCAAGCGATGATCGATGAAACGGGTACCATTGTAGGTCTTATGTTATCGCCTATTGAGAGGTTTTCTGAATCGGATGCCAAGCAAACCGTCACGGTTTTCCGAGTTCCGTTTAAGGGAAAATGGTATGTGTTCTGGGGCGGCGAGAATGTTATGGATAATTACCATTACCCAGAGGAAAGCCAGCGGTACGCAATAGACGTCATCAAGACGGAGAACGCCATGTCCTATGAAGGAGATCCAGCCATGAATGAGAGTTACTTCGCGTTTGGAGAGGAGATTCTTGCTGGTGCCCGCGGGAAGGTGGTGGGTATCGAGAATAACATCAGGGACAATGAGCCTGTGGGTGAGACCAACGAAACAAAGCCCGTCGGTAACTATGTCATCATCGATCATGGACATTCAGAATATAGCCTATATGCACATTTAAAGCAGGGATCGGTATGCGTGAAGGAAGGCTCTGAGGTCGAAGCAGGTGATCTGATAGGTCTATGCGGAAATTCCGGCAACTCAACCGAAGCTCATTTGCATTTTCAAGTGTCGGATCATCCGGATTTGTTTTGGGTTAATACGAAGTCACTTAATATTAACTGGCTTGGCGATATCAAGGTAAGACGAGGCCAAGTTGTATATGGCGGGGTTTGA	MVDVSGFLLNGEHRKLYELFGEDLRLLVTIEQFEAMAVEYTAGVKTFHITLDDTLNQIRLINWMDDSGQKGIQAMIDETGTIVGLMLSPIERFSESDAKQTVTVFRVPFKGKWYVFWGGENVMDNYHYPEESQRYAIDVIKTENAMSYEGDPAMNESYFAFGEEILAGARGKVVGIENNIRDNEPVGETNETKPVGNYVIIDHGHSEYSLYAHLKQGSVCVKEGSEVEAGDLIGLCGNSGNSTEAHLHFQVSDHPDLFWVNTKSLNINWLGDIKVRRGQVVYGGV				NA	NA	NA	NA	NA
AK002_03787	477			hypothetical protein	ATGAAATATGCGATCCATTACTCTACCAGAATGAAAGACGTTATTTTGTTTTCCTTTGTCCTTAGCATTATCCTGTTTCAGGTAGCCACCTTGACCGAATATTCCTATCCTTTCTTCTTCTATATGCAGATGGCCGTGAATGTCGTTGTCGTTGCGGCACTGGCTATTGAAGGTTATGCGAGATTGGTGAAGCGGGAAGTGAATATTCAGGAGAATTCGGAGACGATTTCGATCAACGGCATCGAGATTCACGCAGAACAGATCCGCGAAATCAAGGTTTCCGGTTGCCATAAAGCCGCTTTCCAAATTAGCCTCAAGGATAAGAGCGTAAATCCGATGTACTGCTGCTTTAAATTTGAAGAGAAGAATTGTGAAGGCATTCGGAGTCTCACGCGTTGGGCCGAGCAAAATCAGGTTTCCGTGCGCAAGGTCGGACCGCAAACCCGTTCCGGCTTGGTACTCACATCTAACCATTAA	MKYAIHYSTRMKDVILFSFVLSIILFQVATLTEYSYPFFFYMQMAVNVVVVAALAIEGYARLVKREVNIQENSETISINGIEIHAEQIREIKVSGCHKAAFQISLKDKSVNPMYCCFKFEEKNCEGIRSLTRWAEQNQVSVRKVGPQTRSGLVLTSNH				NA	NA	NA	NA	NA
AK002_03788	1017			hypothetical protein	ATGGATCTTATTAACAGGTATATTTATGCGGTGACCCAGAAGCTGCCGGAATCGCAGCGGGCGGATATTGAGAAGGAGCTTCAAGGACTCGTCGAAGACATGCTGGAAGACCGGGGAGTCGGCGTAGAGGCCGCAAGTCTGGAAGAGGTGGAGCAGGTGCTGCTTGAGCTCGGGCCGCCCGGGGAAATGGCAGCCAGATACAGAGGAAGGGAAAGGTATCTCATAGGTCCGGGTTTGATTAACAGCTATTGGTCCGTCCTGAAGATCGTACTGTATTCGATAGCCGTTGCTCTTGGCATCGTCTACATCATTGATTTCTTTACAAGCACGGAACACACTGCCGAGAAGCTGCTGGAATTTCTTGTTTCGCTGCTTAGCGTGGGAATCCACGGATTTGCATGGGTTACCGTTATTTTTGCCTTTATCGAATACCGCGGGGCTCGCCAAGTCCCCAATGATCCATGGAAACCCTCGGAATTGCCTGCAATTCCGGAACCAGCCGCTCGGATTAAACCGATCGAGCCGGTGCTCGGCATCCTGTTTTCCGTGCTGTTCTTCGTCCTGTTCACGTTTTCCATTAACCTGATCGGTGTTCACCGATTCGATGAAAACTCGATCGCCATTCCGGTGTTTGAACAGGCTGCCTTTGCCAAATATTTACCGCTGATATGGCTTCTTACCGCCTTCAGCATATTCAATGAAGCCAGGAAATTAATCACAAGAAAGTGGACGCCGCAGATTGCCGTCATGCACGTCATATTTAACGTTGCTTCCGTTATCGTTACGGTGATCCTGTTCTCCGATATGACGATTTGGAATCCGACATTCATGGATCAGCTCGTTCAAGCGGGTTTCGTAACACCGGGGGATGAAGCGTATGAGACCGTAAAATCAATTTGGGATCGATCCAGGGATGGCCTCATTTACATCATTGTGATCATTACCCTTATTGATACCGTATCTGTCGTAATGAAATGGTTTCGGGGAAAGGAAGGCAATACGGCGTTAACCAAATAA	MDLINRYIYAVTQKLPESQRADIEKELQGLVEDMLEDRGVGVEAASLEEVEQVLLELGPPGEMAARYRGRERYLIGPGLINSYWSVLKIVLYSIAVALGIVYIIDFFTSTEHTAEKLLEFLVSLLSVGIHGFAWVTVIFAFIEYRGARQVPNDPWKPSELPAIPEPAARIKPIEPVLGILFSVLFFVLFTFSINLIGVHRFDENSIAIPVFEQAAFAKYLPLIWLLTAFSIFNEARKLITRKWTPQIAVMHVIFNVASVIVTVILFSDMTIWNPTFMDQLVQAGFVTPGDEAYETVKSIWDRSRDGLIYIIVIITLIDTVSVVMKWFRGKEGNTALTK				NA	NA	NA	NA	NA
AK002_03789	345			hypothetical protein	ATGCCAGAGGATCAGGATATTTTAAACAGTATGGTGCAGGAGCTTCGGCGGGGTACGATCATCCTTGGTGTTCTCAGTCAGTTGTCCGAACCGCAGTATGGATATTCATTGGTGACCATATTGCAGGAGAGGGGGATCAACGTGGAAGCGGGTACGCTCTATCCGTTGCTGCGTCGGCTGGAGAAACAAGGCTTGCTTAACAGCGAGTGGGATACGAATGAAGCCCGGCCCAGAAAATATTACATCATAAGTCAGACAGGCAAGGATATATATCGGCAGCTCTACCATGAATGGAAGGATATGATGACAAGTCTGGAGGGACTTGTGAAAGACAAGGGGGACTAA	MPEDQDILNSMVQELRRGTIILGVLSQLSEPQYGYSLVTILQERGINVEAGTLYPLLRRLEKQGLLNSEWDTNEARPRKYYIISQTGKDIYRQLYHEWKDMMTSLEGLVKDKGD				NA	NA	NA	NA	NA
AK002_03790	1038	namA_2	COG1902	NADPH dehydrogenase	ATGGAACATTTATTCAGTCCATACAAATTGAAATCGTTAGATCTGAAAAATCGGGTCGTTATGCCCCCGATGTGCCAATACTCTGTAACGAACAAAGACGGCATTGCCACCGATTGGCATTATTTGCATTATACAAGCCGGGCAATCGGCGGAGCCGGACTCGTTATCGTGGAGATGACGGATGTGGAACCGGACGGCCGTATTTCCGATTATGATCTTGGGTTATGGTCGGATGAGCAGATTCCCGCATTGGCCCGCATAGTTGAAGCGCTACACCAGCATGGCGCGAAGGCGGCGATTCAGATTGCGCATGCCGGGCGCAAAGCGGAGGATGCGGAAACGCCTGTTGCCCCATCAGCTATTCCTTTCGATGAGAACTCGAAAACGCCAAGGGCACTCACAACCGAAGAAGTTAAGCAGATGGTGGAAAAATTCCGCGTGGCTGTGCGCCGTGCGGTGAAGGCCGGTTTTGACGCAATTGAATTGCATGGTGCCCACGGCTATCTGATTCATCAATTCCATTCTCCACTGACCAACCGGAGAACGGATGAGTACGGCCAGGAGCTAACCAAGTTCGGCCAAGAAGTGATTCAAGCCGCAAAAAGCGAAATGCCTGAGGACATGCCATTAATCATGCGAATCTCGGCTAGAGAATATGTAACGAATGGTTATGGCATCGAAGAGAGCATCGCATTCTCCAAGATATATCAGGCTGCAGGCGTTGACATGTTCCATGTCAGCGCTGGCGGCGAGGGACCCATCGCGGCGGAAGGAAGACCGGGCACCCACGTTGCCTACCAAGTACCGCTAGCCAGACAGATCAAAGAAGCGCTGCAGGCACCCGTCATTGCCGTGGGCCGTTTGGATGAACCCGCCTTGGCGAATGCGGTAATAGGCAACGAAGACGCTGATCTCGTTGCTGTTGGAAGAGGAATGCTACGCAATCCGTACTGGACATTAGAAGCAGCAACGGTGCTTCAGAAGGAGATCGCGATTCCAGCACAATACCAGAACGGTTTTCCCAGAAAATCGAGATAG	MEHLFSPYKLKSLDLKNRVVMPPMCQYSVTNKDGIATDWHYLHYTSRAIGGAGLVIVEMTDVEPDGRISDYDLGLWSDEQIPALARIVEALHQHGAKAAIQIAHAGRKAEDAETPVAPSAIPFDENSKTPRALTTEEVKQMVEKFRVAVRRAVKAGFDAIELHGAHGYLIHQFHSPLTNRRTDEYGQELTKFGQEVIQAAKSEMPEDMPLIMRISAREYVTNGYGIEESIAFSKIYQAAGVDMFHVSAGGEGPIAAEGRPGTHVAYQVPLARQIKEALQAPVIAVGRLDEPALANAVIGNEDADLVAVGRGMLRNPYWTLEAATVLQKEIAIPAQYQNGFPRKSR	PGPT0005575_429	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
AK002_03791	435			hypothetical protein	ATGTCAGCCGATCAAACGCGACAACTCATCACAAGTTGGCTATCCTTGACGCAGATTCATGCATTGATTTCCAACGAGCTGGAACAAAAGCTCCAGCAGAAGCACGATTTATCGCTGAATGAATTTTACGTGCTGTTATTTCTGTCCGAGGCTCCCGAGCAAAAGTTAAGGCTTCAGCAGCTGCAAACGATGGTGGGGCTAAGCCAGAGTGCGATGTCGAGACTGGTCAGCCGCTTTGAAGCCAAAGGCTGCGGCGCCATGCAAAGGGCGATATGCGAGGATGACAGAAGAGGAATCTACACGTCACTGACTCCGATTGGCGAAGAGAAACTGCAAAAAGCCAAGAACACGGTCCAAGACGTGCTGGAGCAGCAATTCGCAATGCCTAAAATGAAGCATGGTCTGGAAGATGCATTGAAGCATATCCGAGGGTAA	MSADQTRQLITSWLSLTQIHALISNELEQKLQQKHDLSLNEFYVLLFLSEAPEQKLRLQQLQTMVGLSQSAMSRLVSRFEAKGCGAMQRAICEDDRRGIYTSLTPIGEEKLQKAKNTVQDVLEQQFAMPKMKHGLEDALKHIRG				NA	NA	NA	NA	NA
AK002_03792	801			Putative bifunctional phosphatase/peptidyl-prolyl cis-trans isomerase	TTGATGAAGAAGATCCTATTTTTTGATATTGACGGTACGCTGCTGGATCATGAGAAGCAGGTTCCGGCGACAACGAAGGAGTCCATAGCTGAATTAAAGAAGGCCGGCCATATCGTAGCCATTGCTACGGGACGCGCCCCCTATCATTTTGAAGAGCTGCGGGAAGAGCTCGGCATCGATTCTTATGTTTGCTTGAACGGTCAATATGTGGTTTATGAAGGGAAACCGATCTACGGTCATCCTCTGGCGGAGGATGCCTTACAGGAGCTGACGGAACAAGCCGTTCTGCTGGATCATCCGATTATCTATGCCGGCAGCGAAGCGATGAAGATGAACGTAACCGAGCATGTCCATATCGATTCCAGCTGGGGGGAGCTGAAATTGACCATCCCGGAATACGATCCGGAATATTACTTGGGCCGTGATATATATCAAGCCATTGTATTCTGTACCGAGGATGAGGAGGCCGATTACGTAAAAAGATTCGAAGGGCGGTTCGATTTCGTGCGCTGGAGCCCCTATGGAATTGACGTGTTACCGGCAGGGGGCTCCAAAGCCGAAGGAATCAAACAATTGATTCAGCTGCTGCGCATCGATCTCGAGGATACCATCGCGTTTGGCGATTATCTGAATGATCTGGAGATGCTGTCGTACGTGGGACACGGCGTGGCAATGGGCAATGCGCCGGAGATCGTGAAGCAGGCGGCCAGGCATGTCACCCGCGATGTCGGCCAAGACGGAATACAATACGGACTTCGAATGCTCGGTTTGCTGGGCAAGGAGCCACAGGAGATTAAGTAA	MMKKILFFDIDGTLLDHEKQVPATTKESIAELKKAGHIVAIATGRAPYHFEELREELGIDSYVCLNGQYVVYEGKPIYGHPLAEDALQELTEQAVLLDHPIIYAGSEAMKMNVTEHVHIDSSWGELKLTIPEYDPEYYLGRDIYQAIVFCTEDEEADYVKRFEGRFDFVRWSPYGIDVLPAGGSKAEGIKQLIQLLRIDLEDTIAFGDYLNDLEMLSYVGHGVAMGNAPEIVKQAARHVTRDVGQDGIQYGLRMLGLLGKEPQEIK				NA	NA	NA	NA	NA
AK002_03793	1422	treP_2	COG1263	PTS system trehalose-specific EIIBC component	ATGAACATGGCAGCGGATAATCGGGAAATCGCAAGGCAGGTAGTGGAAGCCATTGGCGGCAGGGAGAACATCGCTTCCTTTGCCCATTGTGCCACCAGACTGAGAATCATGGTTCATGATCAGAAGAAGATTGACCAGAAGAAGGTCGAGCAGATCGACAAGGTCAAAGGAGCCTTTTTCAACTCCGGGCAATACCAGATCATTTTCGGAACAGGAACCGTCAATCAGATTTTTGAAGCGGTCGAATCCCTTGGAATGGAGAGCACAAGCAAGGAAGAACTGAAATCTCAGGCGAAAAAGTCGGGGAATCCGTTTCAGCGGGCGATTCGTACATTCGGTGACGTGTTTGTGCCGATTATCCCGGTATTGGTCGCCACTGGCTTGTTCATGGGATTACGGGGGCTGCTGACCCAGGATACCGTGCTTGCCTGGTTCGGTGCGACGCCGGATGATATCTCGGCTAATTTCCTGCTCTTCACCCAGGTACTGACGGATACGGCTTTCGCTTTCTTGCCGGCCTTGGTGGCTTGGTCCGCATTCAGGGTGTTCGGAGGCAGCCCCGTGCTGGGTATCGTCCTGGGATTGATGTTGGTTAACCCGGCTCTTCCTAACGCGTACAGCGTGGCGAACGGTTCGGCTGAGGCACTCATGATCTTTGATTTCATTCCGGTTGTCGGGTATCAGGGCTCGGTCCTGCCGGCATTCTTCATTGGACTGCTGGGCGCGAAATTCGAGAGATTTTTGCGAAAACGCATTCCTGACGCCATCGATCTGATCGTTACGCCGTTTCTAACCTTGCTCGTTATGATAACCCTCGGCCTGTTTGCGATCGGCCCCGTGTTCCACTCCCTGGAAGAGGTGGTTCTGAACGCGACGACGTTCCTACTGGAGCTGCCGTTCGGTATCGCAGGTTTGGTCATCGGTTTCTTTAACCAGATCATTGTGGTCACCGGCGTGCATCATATTTTCAACTTCCTGGAGATCCAACTGCTTGAGAAGACAGGGAGCAATCCGTTCAATGCGATCGTGACCAGCGCCATGGCAGCGCAGGGTGCAGCTTGTCTGGCTGTCGGACTCAAGACGAGAAATAAAAAGCTCAAGGCATTATCCCTGCCATCGGCATTCTCCGCCTTGCTGGGAATCTCCGAGCCGGCGATCTTCGGGGTCAACCTCCGTTACGTCAGACCGTTTGTTATCGCCTTGATCGGCGGCGGCGTGGGCGGTTTCATGGCTTCCATCTTTCAGCTTGAGGCCACAGGCATGGCCATTACCGTCATCCCGGGCACGCTGTTATACTTGAACAGCCAGCTTCCTCTTTACATTTTGTGCAACCTGACGGCGATGGCGATTACGTTCGTGCTGACTTGGATGTTCGGATTCAATGATAAGATGCTTGAAGAGGTCCGCTCGGAAGCGAAATAA	MNMAADNREIARQVVEAIGGRENIASFAHCATRLRIMVHDQKKIDQKKVEQIDKVKGAFFNSGQYQIIFGTGTVNQIFEAVESLGMESTSKEELKSQAKKSGNPFQRAIRTFGDVFVPIIPVLVATGLFMGLRGLLTQDTVLAWFGATPDDISANFLLFTQVLTDTAFAFLPALVAWSAFRVFGGSPVLGIVLGLMLVNPALPNAYSVANGSAEALMIFDFIPVVGYQGSVLPAFFIGLLGAKFERFLRKRIPDAIDLIVTPFLTLLVMITLGLFAIGPVFHSLEEVVLNATTFLLELPFGIAGLVIGFFNQIIVVTGVHHIFNFLEIQLLEKTGSNPFNAIVTSAMAAQGAACLAVGLKTRNKKLKALSLPSAFSALLGISEPAIFGVNLRYVRPFVIALIGGGVGGFMASIFQLEATGMAITVIPGTLLYLNSQLPLYILCNLTAMAITFVLTWMFGFNDKMLEEVRSEAK	PGPT0014190_840	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_SUCROSE_PTS_SYSTEM,PGPT0014190-scrA|sacP|sacX|ptsS-K02810	NA	NA
AK002_03794	1503	scrB	COG1621	Sucrose-6-phosphate hydrolase	ATGGACAGAGAACTGAAATACCGACGCCTGGATCAGGCTTCTCCCGAAGAGCTTTCCTCCTTAAGGAAGAAAGTGCGATTAAGCGAATGGAGGCAGAAATTTCACGTACAGCCCATCATGGGCCTGATGAATGATCCCAATGGATTTTCTTATTACAACGGAGAGTATCACTTGTTTTACCAATGGTTTCCTCTGGGCACGTTTCACGGCTTGAAATACTGGTACCATACTTCCTCGAAAGACCTGGTGTTTTGGCAGAACCAAGGCATCGCTATTGAACCCGGTCACCCGCATGATGCTTATGGCGCTTATTCGGGCAGCGGTATCGTGAAAGACGGCAAACTATGCCTAATGTATACCGGGAATGCCCGGGATGAGAAATGGAACAGGCAATCGTATCAATGCATGGCTGTGATGGACCGCGACGGATCCATCACGAAGCTCGATAAGCCGCTGATTGACCATGTGCCGGACGGATATACCGAACACTTCCGGGATCCGAAAGTATGGCAAGACAAAGACAAGTACCGGTTCGTCATCGGTGCCCAAAGGGTTAATCAGACAGGTGCGGCTGTCGTCTATGAATCCTCGGATCTGTTGGTTTGGGAATTCAAGGGGGAGATACAAACCCGTCTTGAGCATTTCGGCTATATGTGGGAATGCCCCGACTATTTTGAATTGGAAGGCCAGGGCGTGCTACTGTTTTCCCCGCAAGGGCTGCTTCCGGAGGACGATCATTTTCGAAACATTTACCAATCCGGCTATATTTCAGGCAAGCCGCTCAATAGGGATACGCTGGAGTTTGATCACGGTCCTTTTTGCGAGCTGGACAGAGGGTTTGATTTCTACGCGCCGCAGACCATGCTGGATGAGAAAGACCGGCGCATCATGGTGGGCTGGATGGGTTTGCCGGATATCGGGTATCCCACCGATTCGCATGGCTGGGCCCATTGTTTGACGCTTCCGCGTATGCTTACGTTCCGTGAAGGCAGGCTGATTCAACAGCCGGTTCCCGAGCTTCAGGCGCTCCGCGATCATGCCGCTCAGGCAGAGGATACGCTTCACAGCGAAGTGAAGACTTACGAGGGGGTTCAAGGAACCGCATTCGAAATGGTATGCGAGTTCCAAGCCATCGAGGCGGACGTCGTTGGCATTGAATTTCGGGCTGGCGAAGGGGAACGAACCGTTATTCGATATGAATCCGGCAAACGGAAGGTTACGCTGGATCGCTCTTCTTCGGGTGCAACGATTGTCAGTGATTACGGAGCGGAACGATCCTGTATGCTGCCAACCGAAAGAAATTCGATCAAATTTCATCTGTTCGTGGACATTTCTTCGGTCGAGCTGTTCATCAACGATGGCGAAGAGGTGTTTACAAGCAGAATTTTTCCGAAGTGGAACAGCCGAAACATTCGATTTTTCGTACAGAACGGCAGTGCCGGCTTGAAGGTCGAGAAATGGGATCTGACCGAAGCCGTAAAAGATAAAGAAGGGGCTGAATGA	MDRELKYRRLDQASPEELSSLRKKVRLSEWRQKFHVQPIMGLMNDPNGFSYYNGEYHLFYQWFPLGTFHGLKYWYHTSSKDLVFWQNQGIAIEPGHPHDAYGAYSGSGIVKDGKLCLMYTGNARDEKWNRQSYQCMAVMDRDGSITKLDKPLIDHVPDGYTEHFRDPKVWQDKDKYRFVIGAQRVNQTGAAVVYESSDLLVWEFKGEIQTRLEHFGYMWECPDYFELEGQGVLLFSPQGLLPEDDHFRNIYQSGYISGKPLNRDTLEFDHGPFCELDRGFDFYAPQTMLDEKDRRIMVGWMGLPDIGYPTDSHGWAHCLTLPRMLTFREGRLIQQPVPELQALRDHAAQAEDTLHSEVKTYEGVQGTAFEMVCEFQAIEADVVGIEFRAGEGERTVIRYESGKRKVTLDRSSSGATIVSDYGAERSCMLPTERNSIKFHLFVDISSVELFINDGEEVFTSRIFPKWNSRNIRFFVQNGSAGLKVEKWDLTEAVKDKEGAE	PGPT0018815_1368	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
AK002_03795	993	ccpA_4	COG1609	Catabolite control protein A	ATGAAGAACACGATCGCCGATATTGCCCACAAAGCCGGAGTTGCCAAAAGCACGGTCTCCCGTTTCTTGAACGGAGGATCCGTCAGTCATGCGACACGCCGCAAGATTGAACAGGTTATTCAGGAAACCGGCTATATCCCGAATTCTTTTGCGCAAAGCCTCAAAGCGAAAAAAACGAGCATGATCGGCACCATTATGCCGCGTCTGGACTCCTTCTCCGCATCGCAGACTGTCGCCGGCATGGACGAAGAATTAAGAAAACACGGATATCAGCTTCTGATCATCAACGCAAGCCAGGATTTATCCAGGGAGATCGAAGCGCTGTATGATCTCGCCAGACAAAAAATATCAGGCATTATTCTGTTCGCCACGCAGGTGACGGAAACCCATCTTGCCGCGATTCAAGAGATCGGCATTCCGGTCATTCTGCTCGGACAACAGCATAACCATGTCCACAGCATGATCTATAACGATTATGCCGCAGGCTATGACATGGGCCGGTACGTGCTGTCGATGGGACATCGTCAAATTGCCTATATCGGGGTGACGGAAAAGGACGTAGCCGTCGGAGTCAAGCGGAAGGAAGGGTTCCTCAAAGCGGTAAGCGAGTATGATGAGGCGGAAGCGGTTCTCTACGAGAGTGGATTCAAGATGTCGGATGGTGTTAAGACGGCATGCTCCCTTTTTGAGTTGAACCAAACATTGCCAACGGCCGTGGTCTGCGCCACGGACAACATAGCGCTGGGCGTGATGAAAGCGGCGCACATGAAAGGCATCTCTATTCCCGACGAACTTTCCGTTACCGGATTTGGCGGTTACGACGTAACCGAGGTGATTCATCCCGGGTTAACAACGGTGAAATATGGATATTTCCAAGCGGGCCACCTCGCGGCACAGCATATTATGAAGCTGGTCAACGACGAGCCAGTGGATTTCCTGACGGTCATGAATTGCGAGATGATTCATCGGGAAAGCGTTGACAATCTGAATTAG	MKNTIADIAHKAGVAKSTVSRFLNGGSVSHATRRKIEQVIQETGYIPNSFAQSLKAKKTSMIGTIMPRLDSFSASQTVAGMDEELRKHGYQLLIINASQDLSREIEALYDLARQKISGIILFATQVTETHLAAIQEIGIPVILLGQQHNHVHSMIYNDYAAGYDMGRYVLSMGHRQIAYIGVTEKDVAVGVKRKEGFLKAVSEYDEAEAVLYESGFKMSDGVKTACSLFELNQTLPTAVVCATDNIALGVMKAAHMKGISIPDELSVTGFGGYDVTEVIHPGLTTVKYGYFQAGHLAAQHIMKLVNDEPVDFLTVMNCEMIHRESVDNLN	PGPT0018830_453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_SUCROSE_METABOLSIM|DEGRADATION,PGPT0018830-scrR-K03484	NA	NA
AK002_03796	102			hypothetical protein	ATGTTTATACGAATCATGGCCTGTTGTGCGGGACAACAGGGAACTGCAGAGAATGATCCGTTCGACGCAGCGCTGCTAACGGTTCCGGAGATCTTGGCATGA	MFIRIMACCAGQQGTAENDPFDAALLTVPEILA				NA	NA	NA	NA	NA
AK002_03797	849	folD_2	COG0190	Bifunctional protein FolD protein	ATGAGTAAGGAACCCGTAATTTTGGATGGAAAAAAAGTATCCGATGATATCAAGGCAAAGCTGGCGGTGAAGGTACAGGAATTGAAACAGCAAGGGGTAACCCCTTGTCTGGCAACGATTCTGGTTGGCGATGATCCTGCCTCGGCAACCTATGTGCGGATGAAGGGAAATGCGTGCGAGCGGCTTGGCATCATATCCAAGAAAGTAGTGCTGGAGACATCGACAACGACGGAGGAGCTGATCGCCGCGATTCAAGCACTGAACGAGGATCCGAACGTCCACGGTATTCTGCTTCAGCACCCGGTACCGCATCATATCGATGAGCGGGAGGCTTTTGATGCCATCGACATGAAAAAAGACGTGGATGGAGTAACCACGCTCGGGTTCTCGCAAAATGCGTTTGGTTTCGCCGATTACCCTTCATGTACGCCGGCGGCGATTATCGCGATTATGGACTATTACAGCCTGCCGATCGAAGGGAAGCATGCGGTGGTGGTCGGACGCAGTCCGATTTTGGGCAAGCCGGTATCGATGATGCTGCTCAATCGCAACGCCACGGTTACGATCTGCCATTCGAGAACGAAGAACCTTGGGGAGATTGTGTCCCAAGCGGACATTGTGGTTGCGGCCGTAGGCAAGCCTAATTTCATTCAAGGGGACTGGATCAAGCCGGGTGCCGTCGTGTTGGACGCCGGTTACAATAAAGGAAATATCGGGGACTGCGATTACGAAGCCTGCGCCAAGGCGGCATCCGCAATCACGCCGGTACCGGCGGGCGTTGGCCCCGTGACGATAGCGACATTGTTGAAGCATACCGTCGAATCGGCCGAGCGAACCGTCCAAGCCTAG	MSKEPVILDGKKVSDDIKAKLAVKVQELKQQGVTPCLATILVGDDPASATYVRMKGNACERLGIISKKVVLETSTTTEELIAAIQALNEDPNVHGILLQHPVPHHIDEREAFDAIDMKKDVDGVTTLGFSQNAFGFADYPSCTPAAIIAIMDYYSLPIEGKHAVVVGRSPILGKPVSMMLLNRNATVTICHSRTKNLGEIVSQADIVVAAVGKPNFIQGDWIKPGAVVLDAGYNKGNIGDCDYEACAKAASAITPVPAGVGPVTIATLLKHTVESAERTVQA	PGPT0008075_5209	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
AK002_03799	1011		COG0701	Putative two-component membrane permease complex subunit SMU_747c	ATGAGATATCCGGCGATCTTCAAAATGCTGCCCTTTATACTGCCGCTTGTATTCGTGATTCCGGTCTTGACGATATGGCTGCAGAGGGACTTAAACCCCATATCCAGCCAAGACCTACAGCAGGTTAAAACCGTCTTTACGGGCATCTTCCTTGAGGCACTTCCTTTTATTCTGCTTGGAGTGCTGCTGTCGTCCCTTCTGCAGCTGTTCGTACAAGAGCAATGGGTGCGGCGTCTCACGCCGAAGAATCCGGTGGTCGGCGTCCTGGGCGCTTCCATGCTCGGCATCCTGTTTCCCATCTGCGAATGCGGGATGATCCCGGTCGTTCGCAGGTTGATGCTGAAAGGTATGCCCGCCTATATCGCCGTCACCTTTATCCTCAGCGGTCCTATTCTGAATCCCATTGTATTCGCATCAACGATCATGGCCTTCCGTTCGCATCCCGAAGTGACGATCGGACGAATGGGACTGGCTTTTGCAGTCGCGGTGACGACGGGTTTGCTCGTCTATGTTTTTTCAAGAAGCAGCCCCCTGAAGCGTTCCTTTCAAGAGTTCGCCGAACAGGGCTCCAGCAAGGGGGAACGTTTGTTGCATGAGCATCCCAAAACCTGGAGAAGCATGTTTGTCCACGCCGGAGACGAGCTGATCGAGATGTGCAAATATTTAGTCCTGGGCGCTTTCCTCACGGCCTGCATCCAATCCTTCATTCCGAGGGAGGAGCTGCTGGCTCTGGGGAACGGTCCTGCCGCCTCCTATCTGTTCATGATGGGCTTTGCCTTCATCCTGTCCCTTTGCTCAACATCGGACGCCTTCGTGGCATCGGCATTCACGCACACCTTTACCGTCGGCCCGCTGGTTTCCTTCCTGGTCCTCGGACCGATGCTGGATTTCAAAAGCCTGCTCATGCTGTCGGCTACCTTCAAGACCAAATTCGTGATCGGCTTAAGCCTGCTGGTGATTACCCTTGTCTTTATCGGCTCTGTAGCCGTCGACGCGCTATTCGGCGGTTAG	MRYPAIFKMLPFILPLVFVIPVLTIWLQRDLNPISSQDLQQVKTVFTGIFLEALPFILLGVLLSSLLQLFVQEQWVRRLTPKNPVVGVLGASMLGILFPICECGMIPVVRRLMLKGMPAYIAVTFILSGPILNPIVFASTIMAFRSHPEVTIGRMGLAFAVAVTTGLLVYVFSRSSPLKRSFQEFAEQGSSKGERLLHEHPKTWRSMFVHAGDELIEMCKYLVLGAFLTACIQSFIPREELLALGNGPAASYLFMMGFAFILSLCSTSDAFVASAFTHTFTVGPLVSFLVLGPMLDFKSLLMLSATFKTKFVIGLSLLVITLVFIGSVAVDALFGG				NA	NA	NA	NA	NA
AK002_03800	1002		COG3689	Putative two-component membrane permease complex subunit SMU_746c	GTGAAGCCCAGTTTGAGCCTGCGAAGCCACTATATACTGCGGTCGCTGCTAATCGCAGCTCTTGCCGCCTATATCATGCATCTAAACGCATCAAATTCGCTGGACTATTACTTGGCTCCCCATATGCAGACCCTGCTTCTGCTCTGTCCCGTGCCGCTGTTGTTCATAGCTTTCGGCATGCTGTGGCACGCCCTTGCGGGAGCTTCCGGCGAGGTGTGCGATTGCGAGCACCCCCTGCCCAGCGGACTGATCAAAAACATATCGGTTTACGGGTTATTCACGGTGCCGCTGCTGTTCGGCCTGCTCCTGCCGGACCAAGCCCTCGGCAGCGATATGGCGGCCAAAAAAGGCATGATCTACACCTATCCGAACCCCGATGTTCGCCGTAAAACCGAGGAGCGGAATGCTCCCGCCGTTTCGGGCATGGAGAAGCATGGAACGAATGATGACCAGACGGCAGCGGAGGACATCGCGCTGAACGAGCGTTTTGTTCCCAAAGACATCTACAGCGTGGAGTTCGCGGAGCTGGCCAAGCGCTTATATACCTTACCCGTCATCCGAGTGGAGCCGGACATTTTCTCGGAGACCGTAGGGGCCATGGATATTTACAAACAGCATTTTCAAGGGAAGGCCATCACCGTCCAAGGATTTGTTTTCCGCGATGGACATATGAACGAAGACACCTTCGCCGTCAGCCGCTTCCTCGTAATGTGCTGCACGGCAGACGCCGTCCCGTTCGGGGTCATGGTGCGCGCCGCGAATGCTTCGTCGTTCGCGAATGACGCGTGGGTTCAGATCGATGGCACGATCCAGGTCACCACCGTGGACGGTAAGGAATCGCTGCAGATTCAAGCGGAACGGATTCAGCCGATCGAACAGCCGTCATCCCCTTACATTTTTACGAATCCGGACTCTGTCGCAGAGTTTGATGAACTGTATTCGAATGATATCGAGACCAAGGAGGAGATCAACAATGAACAAGATACCCGTCGTGCTGATTAG	MKPSLSLRSHYILRSLLIAALAAYIMHLNASNSLDYYLAPHMQTLLLLCPVPLLFIAFGMLWHALAGASGEVCDCEHPLPSGLIKNISVYGLFTVPLLFGLLLPDQALGSDMAAKKGMIYTYPNPDVRRKTEERNAPAVSGMEKHGTNDDQTAAEDIALNERFVPKDIYSVEFAELAKRLYTLPVIRVEPDIFSETVGAMDIYKQHFQGKAITVQGFVFRDGHMNEDTFAVSRFLVMCCTADAVPFGVMVRAANASSFANDAWVQIDGTIQVTTVDGKESLQIQAERIQPIEQPSSPYIFTNPDSVAEFDELYSNDIETKEEINNEQDTRRAD				NA	NA	NA	NA	NA
AK002_03801	1104			hypothetical protein	ATGAACAAGATACCCGTCGTGCTGATTAGCGGTTTTTTGGGGAGCGGCAAAACCACGCTGCTGCTCAGGCTGCTGGCGTATGCCGCCAAACGGCAATGGAGGACCGCCGTCCTGATGAATGAGATGGGCGAACAGGACGTGGATGGCGATATCCTATCCGGTGAAATGCCTGATCTTCCGATCGAGAAGCTGCTTGACGGCTGCATCTGCTGCACCAAACGAGACGAGCTGGGGCAAGCCCTGAAAAGCCTGTTAGATCGGAAGCCTGATCTCGTCTTCATCGAGACGACCGGAGTGGCGAATCCTGAACAGATTCTTGAGGATTTGCAGGATCCGTCACTGGTGGATCGAATATCGATCCGGGGTAAAATCGCCTTGGCCGACTGCAGCAAATTTCTCGAGTACAACAGCTTCTTTGCATCCAGTCGCGAACTGGTCCGCACCCTTCGGGGACAAATCAGCTTCGCGGACCGGATCATCCTGAACAAGGCGGGAGAATGCGAAGAGAAACAGATCAATAAAGTCATTACCTCCATTAGAAAAATAAATACGACGGCAAGCCTGTCCGTAACCGACTACAGCCGTTTGGATGAGCATGAAATGTTTGCGGCCCTTCAGCTAGAGCCAACGGAGAATCATAGTCATTCATCTCATTCTTCGAACCGGCAAAGGAGTCCTGCGGATCGCCTGCAAGGCAGCGCTTCGACCAGCGAAGAAGATCGGAGCAAGCTGGGGCGCCGCGACCATGAAGGAGCTTTCATTCATCATGAGCATCGTCATGGTCACGGAGAGGAGGCCGGGCATGGCAGCCATTCCTATACCGGCCTGGATACCTTGACTCTATCGGCTCCAGCCCCTTTCCCGCTTGAGATCAGCCTCATCGAAACCTTTCTCGCCACACGCGGCTCCGGCCTGCTACGGGCCAAAGGATATATTCAGCTCTCCACGGGTCCCTCCCTGGTTCAGTGGGCAGGTTCACAGCTTGCCATCGAGCCCAGCACGCTGAAGCTGCAGCGCGGCTATCTTACGTTAATCGGCCATCGCCTGGATAAAACGCGCATTGTCCAGGAGTGGGAGGACTTGCTCAGCGGCGTGGTGCAGTGA	MNKIPVVLISGFLGSGKTTLLLRLLAYAAKRQWRTAVLMNEMGEQDVDGDILSGEMPDLPIEKLLDGCICCTKRDELGQALKSLLDRKPDLVFIETTGVANPEQILEDLQDPSLVDRISIRGKIALADCSKFLEYNSFFASSRELVRTLRGQISFADRIILNKAGECEEKQINKVITSIRKINTTASLSVTDYSRLDEHEMFAALQLEPTENHSHSSHSSNRQRSPADRLQGSASTSEEDRSKLGRRDHEGAFIHHEHRHGHGEEAGHGSHSYTGLDTLTLSAPAPFPLEISLIETFLATRGSGLLRAKGYIQLSTGPSLVQWAGSQLAIEPSTLKLQRGYLTLIGHRLDKTRIVQEWEDLLSGVVQ				NA	NA	NA	NA	NA
AK002_03802	252			hypothetical protein	ATGGCAAAAGCAAAAGTTCCAAAGCGACCCACTAGGGATGAGTTTGTACTGGAAGAGCTCGGAAATCAGCTAACGGAAGCTTATCAGGAGGAATCGGTCATCGTACTGACGGTCTGGGGATGGGAAGAGGCGGTCCGCGGACAAATCGATCTGATGGACTCCCGCACAGGGAAGGTGCATATGAAACAGAACGGCGTCATTACGAAGGTTCCTTTTATGGATATTATGGAAGTGAATTATCCCAGGGACTAA	MAKAKVPKRPTRDEFVLEELGNQLTEAYQEESVIVLTVWGWEEAVRGQIDLMDSRTGKVHMKQNGVITKVPFMDIMEVNYPRD				NA	NA	NA	NA	NA
AK002_03803	459	slyA_1		Transcriptional regulator SlyA	TTGAAGGAGGTCTTTATCATCTCTACATGCCATACACAAGACCTGCTGTACTTGCTCATGCATCTGAATAAGCACATTGCGACTCGGTTTGAACGATGTGCCGGTGTTAGTCCCAATCGGCTGGAACTCCTCTGCAAACTGACCGGCGGCGAAATTAGCCAGTCGGATCTCCAGAAGGCAGTGTCTATCGATCCGGCTGCGGTGACCCGTCATGTTCAACAGCTGGAAGCGGAAGGATTGCTTCTGCGGACGAGATGCGAGAATGACAACCGGATTACGTTGGTTCAGCTAACTGATGTGGGCAAAAGTAAAGTAGCAGCGTTTAAGGCGGAGAAAGATCGATTTATGGAGGAACTGCAGGCAGACCTCACGGAATCAGAACGACTTGCGCTTGTTCATGCTTTGCAGAAGCTGAACAGCCAGATTCAACGGATGAAACATCCAAGTAAGACCGATTAA	MKEVFIISTCHTQDLLYLLMHLNKHIATRFERCAGVSPNRLELLCKLTGGEISQSDLQKAVSIDPAAVTRHVQQLEAEGLLLRTRCENDNRITLVQLTDVGKSKVAAFKAEKDRFMEELQADLTESERLALVHALQKLNSQIQRMKHPSKTD				NA	NA	NA	NA	NA
AK002_03804	639	yodC_2	COG0778	Putative NAD(P)H nitroreductase YodC	ATGTCTGTAACGACCCTAAACAATGATTATAAAGAAATTATTACTTCCCGCCGCTCTGTGCGGGTATACGACCCATCGGTCAAAATCAGCCGTGAAGAGATGACTGAAATTTTGGAAGAAGCGACTTTGGCCCCGTCATCCGTTAATCTTCAGCCTTGGAGATTTCTTGTCGTTGATAGCCCGGAAGGAAAAGCGACGCTTGAAGAGCTTGCACCAGGGAACAAAACACAAGTTTCAACTTCTTCGGCAGTCATTGCGGTATTTGGAGATATGAATGCATTCGACAATGCGAATGAAATTATGGGCACTGCTGTGGAACGCGGTTATCTGCCGCAAGAGATAAAAGATCAGCTGATGGCGAACTATACCGATCTGTTCGGACGTATTCCGGCACAGGCTTTCCGCGAAATGATCCTTATCGATAGCGGCTTGGTTTCCATGCAGCTTATGCTTGCTGCCCGTGCCCGTGGATATGACACGAACCCTATCGGCGGATACGACAAATCCCGAATTGCAGAAGCATTTGGTATGGAGAAGGAACGTTATGTGCCGGTCATGCTCATCTCGGTAGGTAAAGCTGCCAAAGAAGCGCGTTTGACGACTCGTCTCCCTATTGATCGTATTGCAGAGTGGAAGTGA	MSVTTLNNDYKEIITSRRSVRVYDPSVKISREEMTEILEEATLAPSSVNLQPWRFLVVDSPEGKATLEELAPGNKTQVSTSSAVIAVFGDMNAFDNANEIMGTAVERGYLPQEIKDQLMANYTDLFGRIPAQAFREMILIDSGLVSMQLMLAARARGYDTNPIGGYDKSRIAEAFGMEKERYVPVMLISVGKAAKEARLTTRLPIDRIAEWK	PGPT0028511_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
AK002_03805	297	ycnE	COG1359	Putative monooxygenase YcnE	ATGATTATTATTCATGCAGAAATGAAAGTAAACGGCGAACGCGAGGCAGAATTTCTGAAATCCGTAAAAGAGCTTATTGAAGCATCCCGTGCGGAACAAGGGAATGAATCTTATAAGCTGCTCAAAGATACGGAGCAGGATAACACGTATCTCATGGTTGAACAGTGGAAAGACCAGGAAGCTGTGGGGCTCCACAATGCGAGCAGCCATTTTCAGGCGTTTGTGGCTAAAGCCCCAAATTACCTGACAGCTCCGCTAAACGTGCAAGCCTATGCAGGCCAACTGATCAACAAATAA	MIIIHAEMKVNGEREAEFLKSVKELIEASRAEQGNESYKLLKDTEQDNTYLMVEQWKDQEAVGLHNASSHFQAFVAKAPNYLTAPLNVQAYAGQLINK				NA	NA	NA	NA	NA
AK002_03806	1209	yciC_1	COG0523	Putative metal chaperone YciC	ATGAATAACAACAGTAGAATTCCGGTTACTGTCCTTAGCGGCTACCTCGGCTCAGGCAAAACGACGGTGCTGAATCATGTGCTTCATAATCGCGAAGGATTGAAGGTAGCGGTCATCGTGAACGACATGAGCGAAGTGAACATCGATGCGGATTTGGTGAGAGGGGAAGGAAGCCTGTCCCGAACGGATGAGAAGCTGGTCGAAATGTCCAATGGCTGCATCTGCTGCACGCTCCGGGAAGATTTGGTGCAGGAAGTTCAGAAGCTGGCTCAAGAGAAGCGTTTTGATTACATACTGATCGAATCGACGGGAATCAGCGAGCCCGTGCCCGTTGCGCAGACCTTTGTTTACCCGGATGAGGTGTCCGGCGTACAGCTGTCCGATCTCGCCCGGCTGGATTGCATGGTAACGGTGGTGGACGCGAACCGATTCTGGAAGGATTTCTCTTCGGGGCAAAGCCTGCTTGATCGGAAGGAAGCGATGGGCGAAGAGGATACGCGGGAAGTGGTGGATTTGTTAATCGACCAGATAGAGACTTGCGATGTGCTGCTGCTGAACAAATGCGATCTGGTAAGCGAGGACGAATTGGCCAAGGTAGAGGGCATACTGCGAAAACTTCAGCCAAGCGCCAAACTCATCCGCACCGTGAAGGGACAAGTGGCACCTGCGGAAATTCTGAATACCGGCTTATTCGATTTTGATAAAGCCAGTCAGTCCCCCGGCTGGATTCAGGAGCTTCAGAAGGAGGAGCATGTGCCGGAAACGGATGAATACGGCATCAGCTCTTTTGTCTATCGGAGAAGAAGACCGTTCCATCCGGAGCGGCTGGCGGCATTCATGAGTTATTGGCCGGAAGAAGTCGTACGTGCGAAAGGGATCGCTTGGCTGGCCGTGCGCGAGGATGTTGCGGCAAGTGTAAGCCAGGCCGGGCCTTCGATTCAGTTCGGGCCTGCAGGATACTGGGTCGCGGCTTTAACCGAGCAGGAGCAGCAGGAGCTGTTACGAAGTGAGCCGGATGTGCGAACGAAATGGGATAACGTCTGGGGAGATCGGATGACCGAGCTCGTCATGATCGGGATTGGGATGGAACAGGAACAAATCGAGCGGGAGCTGGACGAGTGTTTGTTGACCGACCGGGAAATGCAGCTGGACTGGTCAACGTTTCACAATCCGCTGCCATGGATGGCCATCGAAGAGCTATCGCTGTAA	MNNNSRIPVTVLSGYLGSGKTTVLNHVLHNREGLKVAVIVNDMSEVNIDADLVRGEGSLSRTDEKLVEMSNGCICCTLREDLVQEVQKLAQEKRFDYILIESTGISEPVPVAQTFVYPDEVSGVQLSDLARLDCMVTVVDANRFWKDFSSGQSLLDRKEAMGEEDTREVVDLLIDQIETCDVLLLNKCDLVSEDELAKVEGILRKLQPSAKLIRTVKGQVAPAEILNTGLFDFDKASQSPGWIQELQKEEHVPETDEYGISSFVYRRRRPFHPERLAAFMSYWPEEVVRAKGIAWLAVREDVAASVSQAGPSIQFGPAGYWVAALTEQEQQELLRSEPDVRTKWDNVWGDRMTELVMIGIGMEQEQIERELDECLLTDREMQLDWSTFHNPLPWMAIEELSL				NA	NA	NA	NA	NA
AK002_03807	339			hypothetical protein	ATGAGCCAAGAAGTCATTTCGTTCATTGAAAACCTGAGTTTGCCTTGGCAAGCAGAAGTCGGCAAAAAGCTTCGACTCATGGTCCATGAAGCCATTCCGGAGGTAGAAGAACGAATTCAGTACAAAAAACCGCATTTTCTCAAAAACGGACACTATGCAGCCGTGATTTCGCCATCCAAAGATGCAATCGCCTTTATGATCATGAACACAACCAACCTAGAAGTCCCTCCAACATTCGATGGTCCACCCGAACGGAAATGGCTCAAAATTCGAAAAGACGATACTCCTGACTATGAACAGCTATCCGAATTATTAGTTCAAGCATCAAGTTCGTTGTAA	MSQEVISFIENLSLPWQAEVGKKLRLMVHEAIPEVEERIQYKKPHFLKNGHYAAVISPSKDAIAFMIMNTTNLEVPPTFDGPPERKWLKIRKDDTPDYEQLSELLVQASSSL				NA	NA	NA	NA	NA
AK002_03808	318		COG0640	HTH-type transcriptional regulator	ATGAAACAGACAACGTTGCACGCGCTAGCCGAACCTAACCGATTACAGATGGTCGAACTGTTACGAGAAGGTCCTTTAACCGTCAATCAGATTGCTGAACGTCTTCAAATCCGGCAACCTCAGACTTCCAAACATTTAAAAATATTGCATGAAGCTGGACTGGTAAAAGTCCAAGCGGAGGCTAATCGACGAATTTATAAACTACGCCCTGAACCGCTTCAAGAAATGGACGAATGGTTGGACTCGTTCCGCAGCATTTGGGAAAAGCGCTTAGATCAACTTGAGGATTATTTGGAAAAAATACAAAAGAAAAGGTAG	MKQTTLHALAEPNRLQMVELLREGPLTVNQIAERLQIRQPQTSKHLKILHEAGLVKVQAEANRRIYKLRPEPLQEMDEWLDSFRSIWEKRLDQLEDYLEKIQKKR				NA	NA	NA	NA	NA
AK002_03809	507			hypothetical protein	ATGACCGAGCAAAGCAAACCAGGCTTACTTCTGTCACGTGTTTTCAATGCCCCCCGGGAACTGGTTTTTAAAGTTTGGACCGACCCTGAACACTTCGGCAAATGGTGGGGGCCTCAAGGGTTTTCTTTGGACGTTATCAAAATGGATGTACGTTCCGGAGGCATGTTTCTAGGCTGTCAGAAGTCTCCGGACGGCAGTCAAGCCATGTGGGGTAAATTTGTATATCAGGAAGTTATCGTACCTGGGAAGCTGGTATTCGTTCAATCATTCTCAGATGAGGAAGGGAACACGATACGCGCACCTTTTAACGCAAACTGGCCGCTTGAAATTATGAATATCATCACATTTGAAGAAATCGACGGAAAAACTACGCTTACCATGCAGGGAGGCCCCGTAAACGCGACTGCGGAAGAACTGGCAGCGTTTGATGAAATGGCTCCAATGGTGAAACAAGGATTTGGCGGTACTTTTGATCAACTCGCTGAACACCTTGAAAGCCAGCAATAA	MTEQSKPGLLLSRVFNAPRELVFKVWTDPEHFGKWWGPQGFSLDVIKMDVRSGGMFLGCQKSPDGSQAMWGKFVYQEVIVPGKLVFVQSFSDEEGNTIRAPFNANWPLEIMNIITFEEIDGKTTLTMQGGPVNATAEELAAFDEMAPMVKQGFGGTFDQLAEHLESQQ				NA	NA	NA	NA	NA
AK002_03810	420			hypothetical protein	ATGGCAAACGAGGTCAAGCAGCGAATTAATCTGAAGGAAATAAACTGCCATAAGGAGTTAACCCTGGCGGTCATCGGCGGCAAATGGAAACTGATCATCCTCTGGCATCTCGGTTTGGAGGGCGTGAAACGCTTCGGTGAACTGAACCGAATGATTCCCCACATCACGCAAAAAATGCTGACCAATCAGCTTCGTGAATTGGAGGAGGACCAGCTGGTCCACCGCGTGGTTTACCCTGAGGTTCCCCCTCGGGTGGAATATTCGCTTACGCCCTACGGGGAAAGTTTGATGCCGATTTTGAAATTGATGTACGATTGGGGAAAGGATTACGGCGAACAAGTCATCTGGAAAGACGGCGAGTTGCCTGAGAATAAAGACGATGTACAGGCATCGGAACAAGCAGTCGCCCAAAAGCTGTAA	MANEVKQRINLKEINCHKELTLAVIGGKWKLIILWHLGLEGVKRFGELNRMIPHITQKMLTNQLRELEEDQLVHRVVYPEVPPRVEYSLTPYGESLMPILKLMYDWGKDYGEQVIWKDGELPENKDDVQASEQAVAQKL				NA	NA	NA	NA	NA
AK002_03811	564	hxlB	COG0794	3-hexulose-6-phosphate isomerase	ATGAGTCATAACATCTTTCAACATGCATCCGTCATTGCCAAGGAGTTATCGGAATCCGTACAGCAGGTGGATGCTGGCCAGATCGAGGAATTGATTGAACGGATCGTGCAATCCGATGCCGTCTTCTTGGCAGGGGGAGGCAGATCCGGCCTGATGATCCGGGCTTTCGCCATGCGGTTAATGCAGATGGGATTTAAGGTTCATATCGTCGGAGATACGGTAACGCCGGCCATCGGAGCGAATGACCTGCTTCTTATCGGTTCAGGCTCCGGCGAAACGCAAGGATTGGTATCCATGGCTCGGAAAGCCAAAGAGATCGGGTCCGCGGTTGCGGTCGTAACCGTGAGACCGGAGTCGAGTATCGGCAAGCTTTCGGATGCGATGGTCCAGCTTCCGGGAACAACGAAGGAGCAGAATCAGGATACCCTAGTCACCGTTCAACCGATGGCTTCATTATTTGAGCAAAGCATGCTGATCATGCTCGATGCGGTTATCCTGAGATTGATGGAAAAAAGCAAGCTTCGCTCAGACCAAATGTTTAGCCTGCATGCCAATTTGGAATAA	MSHNIFQHASVIAKELSESVQQVDAGQIEELIERIVQSDAVFLAGGGRSGLMIRAFAMRLMQMGFKVHIVGDTVTPAIGANDLLLIGSGSGETQGLVSMARKAKEIGSAVAVVTVRPESSIGKLSDAMVQLPGTTKEQNQDTLVTVQPMASLFEQSMLIMLDAVILRLMEKSKLRSDQMFSLHANLE	PGPT0013290_321	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013290-hxlB|yckF-K08094	NA	NA
AK002_03812	633	hxlA	COG0269	3-hexulose-6-phosphate synthase	ATGGAACTTCAATTGGCATTGGATTTGGTGAATATTCCGGAAGCAAAAGAAGTCGTGGCAGAGGTAGCGGAGTTTATCGATATCGTGGAGATCGGCACGCCCGTTGTTATTAACGAAGGGCTTCATGCCGTCAAAGCGATTAAAGAGGCGTTCCCGCATCTGCGCGTGCTGGCCGACCTTAAAATTATGGATGCCGGCGGTTATGAAGTGATGAAAGCATCCGAAGCCGGTGCGGATATCATTACGGTGCTTGGCGTATCCGACGATTCGACGATCAAAGGCGCGGTAGCGGAAGCCCTCAAGCAAGGCAAGCAAGTGATGGTGGATATGATCAATGTAAAGGATATTGAAGGCAGGGCGCGGGAGATCGATGCTTTCGGCGTGGATTACATCTGCGTTCATTCCGGCTACGACCACCAGGCGGAAGGCAAAAACTCATTCGAGGAATTGGCAGCGATCAAACGTGTCGTGAAACAAGCCAAAACTGCCGTTGCGGGCGGAATCAAAATGGAGACGCTCCCTGAGGTGATTCAGGCAAATCCCGATCTCGTCATCGTCGGCGGCGGAATTACAAGCCAAACCGACAAGAAGGCCACAGCGGCTCAAATGAACGAGCTTGTGAAGCAGGCATAA	MELQLALDLVNIPEAKEVVAEVAEFIDIVEIGTPVVINEGLHAVKAIKEAFPHLRVLADLKIMDAGGYEVMKASEAGADIITVLGVSDDSTIKGAVAEALKQGKQVMVDMINVKDIEGRAREIDAFGVDYICVHSGYDHQAEGKNSFEELAAIKRVVKQAKTAVAGGIKMETLPEVIQANPDLVIVGGGITSQTDKKATAAQMNELVKQA	PGPT0013295_280	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013295-hxlA|yckG-K08093	NA	NA
AK002_03813	546			hypothetical protein	ATGTCCTATTCACGTCAACCTGCCGTTATCGTTGTCACCGGCGTCATGGCTTCAGGTAAGTCGACCGTAGCCCAGCTGCTGGCCGAGAAATTTGATCGCGGAGTCCATTTGCGGGGTGACTCGTTTCGGAAAATGATGGTCAGGGGCAGGGAAGAAATGCTTCCGGATGCTTCCGACGAAGCGAAACGGCAGCTTGCCTTGCGCTACAGATTATCCGCCTCCGCTGCCAAAGCTTATGCCGAGGCCGGTTTTCATGTCGTACTGCAGGACGTCATTCTCGGCCCGGCGCTGCAAGAAATGACCGCTATGTTAACAGACGTTCCCGTGTACGTTGTTGTGCTCAATCCTTCCGAGGATACCATCCTTGCCCGGGAGCAGAATCGAGGCAAAAAAGGCTACGGGGTCTGGAGCATACATGAGCTGAACCGGCGGTTAACCGACGAAACGCCAAGAATCGGCCTCTGGCTGGATACTTCCGATTTAACTCCCGAAGAGACCGTCCAAGAGATTTGGAAACGGATTTGGGATGTGGGGAAGATCCATTAA	MSYSRQPAVIVVTGVMASGKSTVAQLLAEKFDRGVHLRGDSFRKMMVRGREEMLPDASDEAKRQLALRYRLSASAAKAYAEAGFHVVLQDVILGPALQEMTAMLTDVPVYVVVLNPSEDTILAREQNRGKKGYGVWSIHELNRRLTDETPRIGLWLDTSDLTPEETVQEIWKRIWDVGKIH				NA	NA	NA	NA	NA
AK002_03814	1020			hypothetical protein	ATGAAAAAGCTTTCCGTATTAGCTCTGGTTCTTTTGCTGACTGCAAGCATGCTGGCGGCTTGCGGTTCATCGGGCAATAACGCTGCCGGAGGTACCGACAGTCCAGGCGAGGGCGGATCCGGTTCAGGAGCCGGTTCTGCAGCCGAAGGAGAGATCTACATCCCGATCATTTCCAAGGGCTTTCAGCACCAGTTCTGGCAGGCGGTGAAAGCCGGTGCCGAGCAAGCAGGGGATGAGCTTGGCGTGCGGATTACCTTTGAAGGCCCGGAAACGGAATCCCAGGTGGATAAGCAGATCGAAATGCTGCAGGCCGCGCTCGACAAGAAGCCAAGCGCGATCGGCTTTGCCGCATTGGATAGCCAGGCCTCCATACCTTATCTGAAAAAAGCCCAGGAAAACAACATCCCGGTCATCGCCTTCGATTCGGGCGTGGAAAGCGACATTCCGGTAACGACGGCTTCAACGGACAATATGGCTGCATCCGCGCTCGCGGCTGACAAAATGGCGGAGCTCATCGGGAATGAAGGCAAAATCGCCATGGTGGTCCATGACCAGACCAGCGTAACCGGGGTCAGCCGCCGCGACGGCTTCAAGAAGCAGATCGAAGAGAAGTATCCGAATATCGAGATCGTGGACATTCAATATGGCGGCGGGGATCACCTGAAGTCGACGGACCTGGCCAAAGCGATGATGCAGGCGCATCCGGATTTAAAAGGGATATTCGGCGCGAATGAAGGCTCCGCCGTCGGCGTCATCAATGCGGTGACGGAGATGAAGAAGGAAGGCCAGATCATCGTGGTCGGATTCGATTCCGGAAAAGCGCAGATCGACGCGATCAAGAACGGAACGATGGCGGGAGCCATCACGCAAAATCCGGTCGGCATCGGATACGAGACGGTAAAAGCTGCCGTGGCGGCCGTCAAAGGAGAGAAGGTCGAGCCGCAGATCGATACGGGATTCTACTGGTACGACAAAAACAATATCGATAGCGACGAAATCAAAGCCGTAATCTATGAATAA	MKKLSVLALVLLLTASMLAACGSSGNNAAGGTDSPGEGGSGSGAGSAAEGEIYIPIISKGFQHQFWQAVKAGAEQAGDELGVRITFEGPETESQVDKQIEMLQAALDKKPSAIGFAALDSQASIPYLKKAQENNIPVIAFDSGVESDIPVTTASTDNMAASALAADKMAELIGNEGKIAMVVHDQTSVTGVSRRDGFKKQIEEKYPNIEIVDIQYGGGDHLKSTDLAKAMMQAHPDLKGIFGANEGSAVGVINAVTEMKKEGQIIVVGFDSGKAQIDAIKNGTMAGAITQNPVGIGYETVKAAVAAVKGEKVEPQIDTGFYWYDKNNIDSDEIKAVIYE	PGPT0015740_2261	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
AK002_03815	969	rbsC_3	COG1172	Ribose import permease protein RbsC	ATGAACATTCAAATCAAATCGGGCGCGCTCCAGCAAGTGCTGGCTCTAGCCAGCTTGGTCGTTCTCGTCCTATTCTTTACGTTCTCGTCCAGCAATTTCTTTCAGTTCTCCAACATCGTGGGCATTCTTCTGTCCACAGCGGTAATCGGCGTGCTGGCTTTGGGATCCACCTTTGTCATTATTACCGGCGGCATCGACCTGTCCGTCGGGACGGTCATGACGCTGAGCGGCGTTATGACAGGGGTCTGCATCACCTTCTGGGGATTGCCGGTCCCCGTCGGCATTCTTGGCGGCATCTTGACCGGCGCCCTGTGCGGGCTTCTGTCCGGGACGGCGGTGGCGAAAATGAAGATTCCGCCTTTTATCGCAACGCTGGCAATGATGATGATCGCCAAAGGTCTCGCGCTCATCATCTCCGGGGCCAAACCGGTCTATTTCAACGACGCCGAAAGCTTTGCCGAGGTGTCCCAGGGCAGCGTGCTGGGCTGGCTGGTGCCGGGGCTCGATATTCCCAATGCGGTCGTCATTTTCTTCATTGCGGCGATCCTCGGCTATCTCGTCTTATCGAAGACCATCCTCGGGCGGTATAACTTTGCGTTGGGCAGCAACGAAGAGGCGACCCGATTGTCCGGCGTCAATGTGGGCTTCTGGAAAATCGTGATCTACACCTTAACCGGCGCATTTACCGGTTTGGCGGGCGTCATGATGGCATCGAGGCTGAACTCGGCCAATCCGGCGCTGGGTGCCGGGTATGAACTGGAAGCCATCGCGGCGGTCGTAATCGGGGGAACTTCGCTCAGCGGAGGGAAGGGTACCATTATCGGAACGGTGATCGGGGCGTTGATCATGAGCGTGCTGACGAACGGATTGCGCATTCTGTCCGTGCCCCAGGAATGGCAAACCGTTGTTGTAGGGTTCGTTATTATACTCGCGGTGTATGCGGATATTTTGCGCAGACGCAAAGCGTAA	MNIQIKSGALQQVLALASLVVLVLFFTFSSSNFFQFSNIVGILLSTAVIGVLALGSTFVIITGGIDLSVGTVMTLSGVMTGVCITFWGLPVPVGILGGILTGALCGLLSGTAVAKMKIPPFIATLAMMMIAKGLALIISGAKPVYFNDAESFAEVSQGSVLGWLVPGLDIPNAVVIFFIAAILGYLVLSKTILGRYNFALGSNEEATRLSGVNVGFWKIVIYTLTGAFTGLAGVMMASRLNSANPALGAGYELEAIAAVVIGGTSLSGGKGTIIGTVIGALIMSVLTNGLRILSVPQEWQTVVVGFVIILAVYADILRRRKA	PGPT0016590_4694	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016590-rbsC-K10440	NA	NA
AK002_03816	1500	mglA_3	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	TTGAGCGAATGGCTGATACAGATGGAAGGAATCATGAAGGAATTTCCGGGTGTGCTTGCATTAAATAACTGCCGATTCGACCTGCGGGCCGGTGAAGTCCATGCCCTTATGGGTGAAAACGGCGCGGGCAAGTCAACCCTGATGAAAATCCTGACCGGCGTTTATCAGAAGGATGCAGGAACGATCGAATTCAAAGGGCGGCCCGTTGAGTTATCGAACCCGAAAGTTGCTCAGGACGTTGGAATCAGCATGATTCATCAGGAGCTGAATCTGGCCCCTGACCTGACGGTCGCCCAGAATATCTTCATCGGGCGGGAGCCGCGGCGAAAGCTCCGATTGTTTCTGGACGACCGGGCTCTGCACCGGCAGGTGAAGGAGCTGTTCGAACGGATGGGCCTCGACATGGACCCCTCCATCAAGGTTTCGGAATTAACGGTTGCCAAGCAGCAGATGGTGGAGATTGCCAAGGCATTATCCTACAACGCCGATGTGCTGGTCATGGATGAGCCGACAGCGGCTTTGAGCGAAACGGAGATTGAGGATTTGTTCCGCATCATACGACAGCTTCGCGAGAACGGAGTTGGAATCGTTTACATTTCCCACCGGATGGACGAGATCAAGCAAATCACGGATCGCATTACAGTGATGCGCGACGGGCAGTACATCGATACGGTATCCACGGCTGAAGTCACGACCCAGGACATTATCTCGAAGATGGTCGGTCGGCAGATTTACGAGACCTCGAAGCCGGAGAGGATGGCTGGTGAGCGCGAGACGGTATTGGAGGTTATCGGACTGAATCAAGGCAGAACCTTGAAGGACATTAACCTGACTCTGAAAAAGGGAGAAATTCTTGGCATTGCAGGCCTCGTCGGCGCGGGACGGACCGAGCTTGCCCGGGCCATCTTCGGCGCCGACCGCATCCAATCCGGCGAGATCCGCGTGCACGGCCGCAAGGTTACGATCAAGGGCCCGCACGATGCGGTGCGGCAAGGGATCGGCTATCTATCCGAGGATCGCAAGCGCTATGGATGCGTCGTCGATCTCGACGTGAAGAGCAATGTGGCGATCGCCTCATACGGCAGCTTCCTCCGTCCCGGCGGCTGGATGAATACGGCGAGGATTCGCGAGCAGGCGGAGGATATGGTGTCGCGATTGAAGGTCAAAACGCCGCATGTCGATCAGGAGGTCAAGTTCCTCTCCGGGGGCAATCAGCAGAAGGTCGTCATTGGCAAATGGCTGACGAGGGATTGCGACATCCTGATCTTCGACGAGCCGACGCGAGGAATCGACGTTGGGGCCAAGAGCGAAATCTACCGATTGCTGAACGATCTTGCAGTACAGGGCAAGTCGATCATCATGATCTCGTCGGAGCTGCCGGAAATTCTTCGGATGAGCCACCGGATTCTCGTCATGTGCGAAGGCCGGATTACGGGCGAGCTGGATCATGAAGAGGCGACCCAAGAAAGCATTATGCATCTGGCTACAGCGAGGATGTAA	MSEWLIQMEGIMKEFPGVLALNNCRFDLRAGEVHALMGENGAGKSTLMKILTGVYQKDAGTIEFKGRPVELSNPKVAQDVGISMIHQELNLAPDLTVAQNIFIGREPRRKLRLFLDDRALHRQVKELFERMGLDMDPSIKVSELTVAKQQMVEIAKALSYNADVLVMDEPTAALSETEIEDLFRIIRQLRENGVGIVYISHRMDEIKQITDRITVMRDGQYIDTVSTAEVTTQDIISKMVGRQIYETSKPERMAGERETVLEVIGLNQGRTLKDINLTLKKGEILGIAGLVGAGRTELARAIFGADRIQSGEIRVHGRKVTIKGPHDAVRQGIGYLSEDRKRYGCVVDLDVKSNVAIASYGSFLRPGGWMNTARIREQAEDMVSRLKVKTPHVDQEVKFLSGGNQQKVVIGKWLTRDCDILIFDEPTRGIDVGAKSEIYRLLNDLAVQGKSIIMISSELPEILRMSHRILVMCEGRITGELDHEEATQESIMHLATARM	PGPT0016600_3832	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0016600-rbsA-K10441	NA	NA
AK002_03817	981	alsB	COG1879	D-allose-binding periplasmic protein	TTGAAGTCGTACCTGCGAATGCGTTATATGGTACTGCTGCTGATTCCGTTGCTTATTCTGGGTTATGCCGTTTATCAGTGGTCCAAGGATGACCCCGGCCCCAAGAAGATTATCGTCGGCGTTAAAGCGCTGGACGAGAATGAATTCTGGCGGGTGCTGATTGAAGGGGTGCACACGGCTTCACGGGAATTCGGCGTGGACGTCTCGGTGGTAGGACCGTCTCAGGAAATCGAGGTTGACTTGCAAATTCAATTGTTGGAGGAGGCCGTCGAGCGGAAGCCGGATGCGATCGTTTTGGCCGCCGGTGATTATAACCGATTGGTTCCCGTTGCAGAGTCGATTCGTAAGGCTGGCATCCCGCTCATTATGATTGATTCCGCCGTGAATGGTGACTATGCACAGAGCTTGATCGCGACCGACAACGTGAATGCGGGACAGAAGGCCGGCAAGGAGCTGTCGTCGCGCCTGCCGGAACAGGCCAAGGTTGCTATCATCAGTTTCGTGCAGGGCACCTCGACGCAGATCGAGAGGGAGCAAGGGGTTCGAAGCATTCTGGAGCAGCGCGGCGGCACGGAAATCGTAGGCACCTACTACAGTGAAGGCAAGGAGGAGAGGGCCTACGAAATCACGAAAAAGCTCCTGCTTGAGAGGCCTGACCTGAATGGAATCGTCGGACTGAATGAGCCTTCTACGGTGGGGGCCGGCAGAGCGATTCGGGAACTGGGGCTGGTTGGCAAAGTCAAGCTGGTCGGATTCGACAGCTCGGTGAAGGAAGTCAAGCTGCTCGAAGAGGGAGTCCTGCAATCCACGATCGTTCAGAAGCCCTTCAACATCGGTTATTTGGGCATCAAAACAGCCGTATCCGTTATCGAGGGCGACAAGATGCCCCGGCATATATACACCGATTCCGTTATCATCAATAAGGACAATATGTTTACCGAGGAGAACCAGAAGCTGCTCTTTCCCTTTGTGGAGGAGTAG	MKSYLRMRYMVLLLIPLLILGYAVYQWSKDDPGPKKIIVGVKALDENEFWRVLIEGVHTASREFGVDVSVVGPSQEIEVDLQIQLLEEAVERKPDAIVLAAGDYNRLVPVAESIRKAGIPLIMIDSAVNGDYAQSLIATDNVNAGQKAGKELSSRLPEQAKVAIISFVQGTSTQIEREQGVRSILEQRGGTEIVGTYYSEGKEERAYEITKKLLLERPDLNGIVGLNEPSTVGAGRAIRELGLVGKVKLVGFDSSVKEVKLLEEGVLQSTIVQKPFNIGYLGIKTAVSVIEGDKMPRHIYTDSVIINKDNMFTEENQKLLFPFVEE	PGPT0015740_3299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_RIBOSE|AUTOINDUCER|XYLOSE_TRANSPORT,PGPT0015740-rbsB-K10439	NA	NA
AK002_03818	1797			hypothetical protein	ATGAAGGCTCCGCAGCGAATCAAAAGCATTCAGTCCCGCATTGCCAGTTCCTTCGTGATGCTCGTACTGTTCACGGCACTGCTGCTTATCTTCATCTCCTATCGGCTGTCCGAATCGGCTGTTCGGGAAACGGCGGAAAGTTATACCTCCGAGCTGATCAATCAAGTCAATGCGAATATCCAAACCTACATTACAGGCATGAAGGACATCTCGCTGGCCGCGATGAACAATCCGAACGTAAGAGAATACCTGGCCTCGGCCGAAGAGCTGGAGCCTGCGCAGCTGGCGGTATTAAAGGCGAAGATATCGGATTATTTTCACTCGATTCGCGTTTCGCGCAAAGACATTGCTTCGATCAACATCTTCGGGGCGGGAGGGACCTTCATTTCCGATCGGTCCAATGCGGAGTTAAATCCTTATATTGAAATATCCGATCAGCCCTGGTATCGGCAGGCGAAGGAAAACCAAGGACAGACGGTGATCTCTTCCTCGCATGTACAGCCCGTCATTAAGGGAGAGTACCGCTGGGTTGTATCGTTGAGCCGCGAGCTCAGCGGCATGGATTCGACCCAAGGGCTTGGCGTCCTGCTGATCGATCTTAACTTCAAAGTGATTAATGATATGCTCAGCAAGCTCGATCTGGGGAACCGTGGTTATGTATTCGTTATTGACCGCGAAGGTCGGATTGTTTATCACCCCCAGCAGCAGCTGCTTTACAGCAATCTGAAAACGGAGAGATTGGACCAGGTGCTGCAGGACAAACATGGAAGCTTTGTCGTGAAGGAGGACGGTGCGAGCCGGATTTACAGCATTAAGAACACGGATTTTGGCTGGAAAATCGTGGGCGTTTTTTACGAGAATGAGCTTGTGGACAATAAGAAGCAGATGCAGCTGTCTTTTGCTATAGCGGGATTGTTATGCCTCGTCGTCGGCGTGCTGTTCTCCGTCGTCCTCTCACGCAATCTGACGCGTCCCATCAAGAAGCTGCAAGAGAAGATGATGGAGGTGGAGAAGGGGAATTTCGACATCCGGGTCCCGGTGGGGCACTCCAGGGAAATCTCCGGACTTGCCCGCAGCTTCAACGTGATGGTGCTGAAGATTAAGGAATTGATGTATCAAATCGTGGTAGAGCAGGAGATTAAGAGAAAAAGCGAGCTGAATGCCCTGCAAGCCCAAATCAACCCCCATTTTCTGTACAATACGCTGGATTCCATCATATGGATGGCTGAGAGCAAGAAGCATGACGAGGTGATTTTGATGACATCGGCTTTAGCCAGGCTGTTTCGGGCTTCGCTCAGCAAGGGGAGGGAATTGATACCGATTGCGACCGAGGTGGAGCATATTACGAATTATTTGAAAATACAACAGATGCGTTATCAGGACAAAATCACTTTTGCCCTGGATATCGATCGCGGGCTTTACCCGTATCTGACGCTGAAGGTGCTGCTGCAGCCGCTGGTGGAGAATGCCATTTATCATGGCATCAAAAACAAGGAAGGACCGGGAACGATCACGATTACAGGGGGGCGTCGAGATCACCGCATCGAATTTCAAGTCACGGACGACGGCATCGGGATGGATCAGTCCACGGTGGAGACGCTGCTCACGTCCAAAGAGGGCATCCCATCGAGAAACAGCGTTGGCATTGCGAACGTTCATCAGCGGATACAGTTATATTTTGGAACGGAATATGGTCTTAGCTATGCGAGCGTGCCCGGATCGGGTACAAGCGTAACGTTGGCCATTCCGGCCGTTCATGCAGATGAATGGCAGCGTGTGGAGGGGGATGTGCCTTGA	MKAPQRIKSIQSRIASSFVMLVLFTALLLIFISYRLSESAVRETAESYTSELINQVNANIQTYITGMKDISLAAMNNPNVREYLASAEELEPAQLAVLKAKISDYFHSIRVSRKDIASINIFGAGGTFISDRSNAELNPYIEISDQPWYRQAKENQGQTVISSSHVQPVIKGEYRWVVSLSRELSGMDSTQGLGVLLIDLNFKVINDMLSKLDLGNRGYVFVIDREGRIVYHPQQQLLYSNLKTERLDQVLQDKHGSFVVKEDGASRIYSIKNTDFGWKIVGVFYENELVDNKKQMQLSFAIAGLLCLVVGVLFSVVLSRNLTRPIKKLQEKMMEVEKGNFDIRVPVGHSREISGLARSFNVMVLKIKELMYQIVVEQEIKRKSELNALQAQINPHFLYNTLDSIIWMAESKKHDEVILMTSALARLFRASLSKGRELIPIATEVEHITNYLKIQQMRYQDKITFALDIDRGLYPYLTLKVLLQPLVENAIYHGIKNKEGPGTITITGGRRDHRIEFQVTDDGIGMDQSTVETLLTSKEGIPSRNSVGIANVHQRIQLYFGTEYGLSYASVPGSGTSVTLAIPAVHADEWQRVEGDVP				NA	NA	NA	NA	NA
AK002_03819	1620	cheB_13		Protein-glutamate methylesterase/protein-glutamine glutaminase	TTGTATACGATTCTTATTGTGGACGACGAACCGATCGTAAGGGAAGGGATCCGAAACCGGATTCAGTGGTCGGAGCATGGCTATGAATGCATCTGGGATTGCGAGAATGGCAGAGATGCGTTGGAGGCCGTAACCCGTCATCAGCCCGATGTCGTGTTAACGGACATCAACATGCCGTACATGGATGGCTTGGAATTGTCCCGTCATATTACGGAACGTTTTCCTAAGACGAAGATCATCATCCTGACCGGGTTCGACGATTTCGAATACGCCCAGCAGGCGGTGAAGCTGCAGGTGACGGATTTTATTTTGAAACCGGTTACGGCGGCGGAATTAAGGGACATGCTCGACAAGCTCAAGCTGGAAATGGATGAGGAGCGCGGTCATACCGAACACTTGAAGAGGCTCAAGAAGCAGTTGAACGAGAGCTTGGTCCTGCTTAGGGAACGTTTTCTGGAACGATTGGCGTCATCGCCGATGAAGCGCTCCGAAATGGAGAGCAGGCTGTCTTACTTCGATATTCCACTGCGCGGGCCGCTGTATATTGCCATGGCGGCGGATATGGATGAGCTTCGCTCGGATGAACAGCACGCCGATAATGAATTGCATGCTTTTGCTTTATACAACATCATGCAGGAGATCCTGGCGGGTGAGCCTGGAGCAGCCGTTTTTCGGTATAAAGAGAATAAGGTTATGACCATTCTGTCGGGCTCCGACGAGGAAATGCTGCACGCTCGGGCGCAGGAACTGGCGGAGGACATTCGCGGCTCCACCAAGCAGTTCATGAAATTCACGGTCACGGTTGGCATCGGAACGATCTGTCGCGAGCTGCAGAACATACGTTATTCCTGCAAGGCCTCGGAGGCCGCCCTGGAGTACCGGCTTCTGATCGGCCGCGATCAGGTGGTCCATATCACCGATCTTGAAAAACGCGGGAGCGGTCCTCTCTTGGATGGTATCGAAACGGAGACGGCGCTGGTTTCGGCAATCCGGGCGGGCACAGGCTCGGAGGTGAAGGCGTGCATCCGGCGGCTGATCAGCGAACTTGGAAGCGCTTCAATTTCAATCGAGCTCTGTTACGTGCGGGTCCTTCGGGTCATGCTTGCCGTGCTTCAAACTTTGATGGAAATCGGCAGCAATGGGAATGAGCTGATCGGCAAGGAGAAGAGGCTGCTCTCCGATCTGTATTCTTTTCGGTCCTTGGATGAGATTGAGCGCTGGTTAAACGAGGTATGCGAGCAGGCGTTAAGGGACGTAGCCAAGACCAGAAAGGATATTACACGCTCCCAAATGCTGGAGGCGGTCGATTTCATCCAGCGGCATTATGAGGATGCGGAGTTATCGATTAAGACCGTGTGCAGCCGGATCTTCATGAGCACGAGTTATTTCAGCGCCTTGTTCAAGTCGCATACCGGGAAGACCTTCGTCGAATACGTTACGGAAGTCCGCATGGAGAAAGCGAAGGAACTTCTGAAGCATTCCTTGTTAAAAACCTATGAAATTGCGGCGAAAACCGGCTATCAGGATCCTCAATATTTTAGCGTGCTGTTTAAGAAACATACCGGAGATACCCCGACGGAGTACCGGAACAAAATGGCGTCTGGCGGGGTACAGCCATGA	MYTILIVDDEPIVREGIRNRIQWSEHGYECIWDCENGRDALEAVTRHQPDVVLTDINMPYMDGLELSRHITERFPKTKIIILTGFDDFEYAQQAVKLQVTDFILKPVTAAELRDMLDKLKLEMDEERGHTEHLKRLKKQLNESLVLLRERFLERLASSPMKRSEMESRLSYFDIPLRGPLYIAMAADMDELRSDEQHADNELHAFALYNIMQEILAGEPGAAVFRYKENKVMTILSGSDEEMLHARAQELAEDIRGSTKQFMKFTVTVGIGTICRELQNIRYSCKASEAALEYRLLIGRDQVVHITDLEKRGSGPLLDGIETETALVSAIRAGTGSEVKACIRRLISELGSASISIELCYVRVLRVMLAVLQTLMEIGSNGNELIGKEKRLLSDLYSFRSLDEIERWLNEVCEQALRDVAKTRKDITRSQMLEAVDFIQRHYEDAELSIKTVCSRIFMSTSYFSALFKSHTGKTFVEYVTEVRMEKAKELLKHSLLKTYEIAAKTGYQDPQYFSVLFKKHTGDTPTEYRNKMASGGVQP				NA	NA	NA	NA	NA
AK002_03820	543			2-hydroxy-1,4-benzoquinone reductase	ATGAACGTTGCAATCGTTGTGGGAAGCATTAGAAAAGAGTCGTACAATCGAAAACTGGCGGAATATTTGAAGCAGCGCTATTCGGATCAGATCGCCTTTGATATCGTGGATCTTCGCGATCTTCCGTTCTACGATCAAGACACGGAGTTGGACCCTCCTGCGGCCGTCAAGGAATTCAAGGAGCGGATTGCCGCTTCCGATGCCGTATTGTGGATCACGCCGGAATATAATTATTCTATACCGGGCGTGCTCAAGAATGCGCTGGATTGGTTATCGCGCGTCGATAAGGTCATGAACGGGAAGCCTTCATGGATCATGGGGGCATCGATGGGACAGCTCGGAACGGTTCGCGCCCAAGAGCATCTTCGGGACATTCTCTTCTCCGTTGGCATCACCTCGCCGCTGCTTCCTAACAATGAAGTTTATATCGGCGCCGTGCACGAGAAGATGGATGAGTCCGGCAAGCTGATCCATGAACCGACGATCGGTTTCATCGATATCGTGGTGAACAATTTCATGACGTGGATGAATGCCCGCAAATAA	MNVAIVVGSIRKESYNRKLAEYLKQRYSDQIAFDIVDLRDLPFYDQDTELDPPAAVKEFKERIAASDAVLWITPEYNYSIPGVLKNALDWLSRVDKVMNGKPSWIMGASMGQLGTVRAQEHLRDILFSVGITSPLLPNNEVYIGAVHEKMDESGKLIHEPTIGFIDIVVNNFMTWMNARK	PGPT0004195_2273	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0004195-chrR-K19784	NA	NA
AK002_03821	1713			hypothetical protein	ATGATCACCCATTTCGCCGGATTAACATTAAAGACCGTCTCCATCGAGGGAGTGAAGCAATTCTATCACGGATTGCTTCAATTCCCGGTCGTCAGAGAAAGCGAGGCCGAAATTGCATTTCAGCCTACACCCGATTTCACGTTGGTATTTGAAGAGGTGTTTGAACCCATAGCCCCTGCCCATATCGCGTTTGAAGTGGCTTTCTCCCAATTTGATTCCACCGTCCGGAGCCTCGCGGAGCAGGTGCCGTTGTTGAAATGGCCGGACGGCAAGGTGGTCGAATCCTTCGATTCCGGCGTGAACGTATACTTCAGGGATGGAGATGGAAATTTGCTGGAGTTTATCGCCCACAAGGATCTAAAGGAAGGGGTTCTGACCCCGAGCGGTAAATATGGCGTCCTCTATTTGCGGGAAGTGGGACTGCCTGTCGAGGATCCGGTAGCTGCCCGACTGTGGATGCAGCGGACGCTCGGATTCACCATCGCCAAGGAATCGGAACAATTTGCTTTTGTCATCGGCGGAACGGCCCATGCCGTTGTGGTATCCACGAGACGCAAATGGATCCCGATCTCCATGTACGCGCTGGCACCGACGCTGGAATTAACGTATGGCGTCACCGACGAGCGATTTATAGACCGGGTCCGCTCGGCCCTGGATCGGCGGATGATCCTATCGGATAACGATGAGGGACTGCGTTTTAGAATGTACGGCTACAGCATCAGGTTGAAGATAACCAGCTTTCCCAAGGACATTGCAGCCAAACTGAATCTGCCGAGTGCCGCCGAAGGGGAGGAGGTGAACCCGGTCATTGACGACCAATATTTGATAGACGGTCTCACGGCTTTGAGCCGCGGCGGCGAAGTCGGTTGGTTTGAAGGGCATGTCGGCGGGGCGTATTTGGCAGCGTATTACATGCAGAAGGAGCATGATCTGCCCCAAGATGTGCTCCATGGATTGGCTGCCAATTGCCGTCATCTGCGCGCTCAGCATGAAGATTGGTTTGAACCGTATCCATCCGAGCCCGCACAGCCTGAATTGATGGATCAATTGCTGGAAGGGCTTTTGCCCAACCTGACAAGCTTGAGCACTTCGGGCCACGGCGTAACCCTGGGCGTACTCGGACTGAAAGCACTGCGGGACCGTCCGGACTTACTGACTCCGTCCATCGTGAGAGGTTTGCTTAAACTCATGAACGATGCAGCGAGTGAACATAAGCTTGCAAGGTATTACGGCATTGAGGATTATACGAAGCTGGATCTATCGGAAATCTCGCTCTCGGAAATACCGCCTTACCGGGATGCGTCCGATTTGGCATGCCGTGCACTTGCCGAGCTGGATCTCGTGCTGCCGGATCAGCACGTGGAAGGCCGATATTATTTTTTTGCCGGTGAACTTGAGCATGGCGTTACCCACGCCCACGCGCTGATTGAGCTGGAACGGCTCGGTTATGCCCAACTGGCCAAGCTGGGCCAAGGCAATCACCGGCTCCAAACGAAACTTAACCGTCTCAGACCTCAAACGCTTATGGCTCAGGGGATCGAGGCGCCTGACGAGGCTTCCATCACGGAATCGGCCTATTGGGGCCGGCTGTATGAAGATCCGCATGCCATCAAGGTACCTTACGCCGCCATGGCGCTGCTGCGGCATGTGCCTGTAGAAAGAAGGGCAGACCTGGAAAGAGATGTCTGTAAGCTGCTTTCCCTGATGAAGTAG	MITHFAGLTLKTVSIEGVKQFYHGLLQFPVVRESEAEIAFQPTPDFTLVFEEVFEPIAPAHIAFEVAFSQFDSTVRSLAEQVPLLKWPDGKVVESFDSGVNVYFRDGDGNLLEFIAHKDLKEGVLTPSGKYGVLYLREVGLPVEDPVAARLWMQRTLGFTIAKESEQFAFVIGGTAHAVVVSTRRKWIPISMYALAPTLELTYGVTDERFIDRVRSALDRRMILSDNDEGLRFRMYGYSIRLKITSFPKDIAAKLNLPSAAEGEEVNPVIDDQYLIDGLTALSRGGEVGWFEGHVGGAYLAAYYMQKEHDLPQDVLHGLAANCRHLRAQHEDWFEPYPSEPAQPELMDQLLEGLLPNLTSLSTSGHGVTLGVLGLKALRDRPDLLTPSIVRGLLKLMNDAASEHKLARYYGIEDYTKLDLSEISLSEIPPYRDASDLACRALAELDLVLPDQHVEGRYYFFAGELEHGVTHAHALIELERLGYAQLAKLGQGNHRLQTKLNRLRPQTLMAQGIEAPDEASITESAYWGRLYEDPHAIKVPYAAMALLRHVPVERRADLERDVCKLLSLMK				NA	NA	NA	NA	NA
AK002_03822	561	azr		NADPH azoreductase	ATGAAGATCGTAATGATTGCAGGCAGCAATCGCAAAGAAGCGACAAGTACCATTTTGGCCAAAGCCTTGGAAGCGCAAATGAACCGGTTGTTCGTGGAAGTGAAGCTGTTTAATTTGTATGAAACGCCGCTCCCGTTCTATTCCCCGGACGAAATATTCAACCGGCATGAGGGCGTGCGTGAGCTGCAGCGTTTATTAATGGAGGCGGACGGCGTCATTTTGACTACCCCGGAGTATCACGGCGGGATGAGCGGAGTGTTGAAGAATGCTCTGGATCATTTGGGGCAGATGCATTTCTCGGGTAAACCCGTCTTATCGGTAAGCTCGGCAGGCGGGGCGGTCGGCGTAAGTTCACTGCAGCAAATGCAGGCCACCATACGCAATTTGCATGGTATTAATAGTCCGGAATGGATTTCCATCGGCGGATCTCAACGGGCCATTTACGAGTCGGAAGCGGCTGAGGGCACGATCGTGCTGGATTATCGGGCGAAAGAGGCGCTTTCCATCTTTATGGAGCTGGTTAAGAAGATCAGCAATCAAGTGAAGGCTGAAATCTCATGA	MKIVMIAGSNRKEATSTILAKALEAQMNRLFVEVKLFNLYETPLPFYSPDEIFNRHEGVRELQRLLMEADGVILTTPEYHGGMSGVLKNALDHLGQMHFSGKPVLSVSSAGGAVGVSSLQQMQATIRNLHGINSPEWISIGGSQRAIYESEAAEGTIVLDYRAKEALSIFMELVKKISNQVKAEIS	PGPT0006791_106	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006791-azr|azoB-K03206	NA	NA
AK002_03823	663	liaR_1	COG2197	Transcriptional regulatory protein LiaR	ATGATCCGATTGTTAATAGCTGACGATCACGCCATGGTACGGCGGGGCCTTCAGGTTTTTCTGGCGACGCAGCCGGATATCGACATGGTGGGAGAAGCCGCGAATGGCGAAGAGACGCTGGAACAGGCCAAACTTCTGCTGCCTGATGTCGTGTTGATGGATTTGAATATGCCTGTCTTGAATGGCATCGATACCACGGCACGTTTGAAAAAAGAACTGCCTTATATCAAAGTGATCGTATTGACCTCGTTTGTTGATTACGATCATGTTCTGCCTGCGATTCGAGCGGGTGCTCGCGGCTATCTCCTGAAGGATATTGAGCCGGAGGAATTGGTAGCCGGAATCCGACGCGTGTTCCAAGGTCAGGTCGAATTGCATCCGGATGCTGCCGGCCTGCTCATGACGCATGTTACTTCCCCGGCGGGAGAGGATGAGGCCAATGGATCCAGCCATCAGGAAGCTGCGCAGCTCAATAAGCTTACCCGCCGAGAGCAGGAAGTATTACAGCTGATTGCATCGGGGATGAATAACAGGGAAATCAGCGAAGCGCTTTATATTACCGAGAAGACGGTCAAAACCCATGTCAGCCACCTGCTCGATAAGCTGGGGGTTGCCGACCGGACACAGGCAGCGATCTATGCGCTTAAGCATGGAATCGTATAG	MIRLLIADDHAMVRRGLQVFLATQPDIDMVGEAANGEETLEQAKLLLPDVVLMDLNMPVLNGIDTTARLKKELPYIKVIVLTSFVDYDHVLPAIRAGARGYLLKDIEPEELVAGIRRVFQGQVELHPDAAGLLMTHVTSPAGEDEANGSSHQEAAQLNKLTRREQEVLQLIASGMNNREISEALYITEKTVKTHVSHLLDKLGVADRTQAAIYALKHGIV	PGPT0014870_516	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
AK002_03824	1695			hypothetical protein	ATGTCCACTCACGACCCGCATATCCAGGAGTTAATCACGTTGAAGACGATTGCCGAAACGCTGAACGAATCCAATGAGTTAGCCCCCATGCTGGACGTTGTTATCGGCAAACTGCTGGAGCTGACCGGACTTACGACCGGTTGGCTGTTCTTGGTGGAAGAGAAGAGAACGCATGAATTCGTAGCGGGCCGGAATCTGCCGCCTGCTCTGAGACGGGAAGATAACGAACCTATGAGGTGCGGCAGCTGCTGGTGCCTGGAGCGCTACGATGACGGCCGTCTGAAAAATGCCGTGAACATTTTGAATTGCAAACGTCTGGATAACGCCGTTCGTTATCAGTGGGGCGATACGGAGGGAATTACCCATCATGCTACCGTTCCGCTGCGTTCCGGCAGCCGCAGGTTCGGCGTGCTGAATGTGGCCGCACCCGGGAAGCTTCATTTTTCCAAGGAGGAGCTGGCGCTGCTGGAATCGGTAGCCTACCAAATCGGCAGCGCCATTGAGCGCATGCGTCTGTATGCGGCTGAGCAGCGTCGGGCTGATTTGTTCTCCCGGCTAGGAGAATATAGCAGCGCGCTAGGCGTTTATGCATCCCAAGCGGTGAGCCGGGCCGAATTAACGGAGCAGGTGATGAGTTTGCTCGGCCGTTATTTTGATTGGCCGGTTGCGGCGCTGCTTGAACCGGTGGGCCAGGAAATCACGCTGCGTGCGCTTTACAGCGGTGGACAGACCACGCTGCCCCATGCCAAATTTCCGCTAGCCGACATAGCTTGGACCGGTCCTGATGCAGTGAAGCGCTCAGCAGAGCCGGTCGGCGATCCGGATGGGCAGCAACTTGCGGATCAACTGATTGAGAAAGGATGGATAGCTCCCATTCGTCGAGCCGTTGCAGTGCCGCTTACGGTTGCTTCGGACTCCTTAACCGGGTTGCTTTTGGTGGGCTATGATCAGTATGGAGATCAGCATCGGGCGGACATGGAGGTCATCGAGGCCATAGCGGAGCATATCGGCATGACGCTTCAGCGCATCCGTCTGGAGGAGAACCGGCGGGAGCTCGCAAGGATGGATGAACGAAATCGCCTGGCCCGGGACCTGCACGACTCGGTAAGCCAAACCCTGTTCTCGCTGGTGATGATGTCCAAAGGTGTAGGGGGAATGATTGCTGCTGAACCGCATGAGCAGAAAAGCTTGCTCCAGGACACGATCCACGATATCCAGTCATTATCGCAAAGCGCACTGAAGGAAATGCGGGAACTGATCATGCAGCTTCGCCCGCCCGGACTTGAGGAGGGACTGATGACAGGTCTTAAGCAATACGGCGAACGATTGAAGCTTCACGTGCGTACACATATCAGCGGGGTGCGGGAGCTTCCGCGGATTGCGGAAGAGGCACTATGGAGGATCGGGCAAGAGGCGCTGAACAATGTGAGCAAGCATGCGGATACGAAGGAAGTAACGATCGCGTTATCCTTGCAGAACGACGAAGCGGAGCTTCGGATCGAGGATCAAGGGCGCGGGATAACCAAGCAGCGATGGAACGAGCTGACGCGGCATTCCATCGGACTGTCCAGCATGCGAGAGCGGGCCGAATCGCTCGGAGGCCGGTTCCGTTTATACAGCGTGCACCGGGAGGGAACCATCATTGAGGTTACGATACCCTTGAAGGCAGTCACAACAGAGAGAAAGGGGGGATAA	MSTHDPHIQELITLKTIAETLNESNELAPMLDVVIGKLLELTGLTTGWLFLVEEKRTHEFVAGRNLPPALRREDNEPMRCGSCWCLERYDDGRLKNAVNILNCKRLDNAVRYQWGDTEGITHHATVPLRSGSRRFGVLNVAAPGKLHFSKEELALLESVAYQIGSAIERMRLYAAEQRRADLFSRLGEYSSALGVYASQAVSRAELTEQVMSLLGRYFDWPVAALLEPVGQEITLRALYSGGQTTLPHAKFPLADIAWTGPDAVKRSAEPVGDPDGQQLADQLIEKGWIAPIRRAVAVPLTVASDSLTGLLLVGYDQYGDQHRADMEVIEAIAEHIGMTLQRIRLEENRRELARMDERNRLARDLHDSVSQTLFSLVMMSKGVGGMIAAEPHEQKSLLQDTIHDIQSLSQSALKEMRELIMQLRPPGLEEGLMTGLKQYGERLKLHVRTHISGVRELPRIAEEALWRIGQEALNNVSKHADTKEVTIALSLQNDEAELRIEDQGRGITKQRWNELTRHSIGLSSMRERAESLGGRFRLYSVHREGTIIEVTIPLKAVTTERKGG				NA	NA	NA	NA	NA
AK002_03825	282			hypothetical protein	ATGGGCCATTACAAGAACGGAAGAGAAGTGCTTCCCCCCGAGCTGCTGCAGCAAATTCAACAGTATATAGACGGAGAATTACTCTACATACCGAAACAGAGCGAGCAAAGAGCCGGCTGGGGAGAGTTAAGCGGTTCCAAACAACGCATCGAAAGTCGCAATAAAGAAATGTATCGCGCTTACTGCAAAGGACGGTCCATTGAGGAATTGGAACGGACCTACTTCCTGTCTGGAGAAAGCGTGCGCAAGATCATAAGTAAACTTACCCGCGTAGGGACCTGA	MGHYKNGREVLPPELLQQIQQYIDGELLYIPKQSEQRAGWGELSGSKQRIESRNKEMYRAYCKGRSIEELERTYFLSGESVRKIISKLTRVGT				NA	NA	NA	NA	NA
AK002_03826	537			hypothetical protein	ATGCCGCGCAATTTGGAGTATGTCCCATACGGCTACGAGCCCCCGAAGCCGACAACGAAAGGCACCTTGATATTCTACGATCTTTTTGAGCAGGATCAGGTGGCCCTCGAGCAGGCGACTGCCATCTTTGAGGAACGCTCCTTCGCAAAGTTGGTGTTGTATCCGCTGCACGAAGAGACGGTGAAGCGGATGTTCAAGGAGCCGGTGAGCGCTTATTACAAGCGGGAGAAACAGCTTCAGGAATGGATTCAGGAGCACGTTAGATCTTCGGTCGTGATTGAATCGTTCGAGTCGAAGCGAAAAAAATACACGCCGATCGATACGGCGCTTCGACATCTGGTCGAGAAGTACGGAAGCCCCCATTTTCTTCTCCTGACTCCGGAGGTAGCCAACGTGTTTGCTTCGTTTTCTTCCTTCGAGGAATGGATCGTGAAGCTGAGGCTGATCTTGTTGTCCGAGCCGCCGTATCTGCATCCGAGGCTGGAGAAATTCCGCCATCGATGGGATGTAGCCGGGGCGAAGCGGGAAGAACATTAG	MPRNLEYVPYGYEPPKPTTKGTLIFYDLFEQDQVALEQATAIFEERSFAKLVLYPLHEETVKRMFKEPVSAYYKREKQLQEWIQEHVRSSVVIESFESKRKKYTPIDTALRHLVEKYGSPHFLLLTPEVANVFASFSSFEEWIVKLRLILLSEPPYLHPRLEKFRHRWDVAGAKREEH				NA	NA	NA	NA	NA
AK002_03827	1494	amiD	COG0154	Putative amidase AmiD	ATGAGCTTGGATAAAAAAATATGGATTGTGGAAGCAACCATAGCCGATATGCAGCATGCCATGGAAGAAGGCTGGGTGTCTTCGGTCGAACTGGTGCAATTGTATCTGGAACGGATCGGGTTATACGATGGATGGCTTCGCTCGATTCTAGAGGTGAACCCGGATGCGCTGCAGATGGCCCAAGAGCTGGATCAGGAGCGCAGAAACTTGGGAGCGCGGGGACGGCTGCACGGGATTCCGATACTGCTCAAAGACAACATCGACACCGGGGATCGGCTGCATACGAGCGCCGGCTCCATTACGCTGGCCGATTCGTACGCCGCCAAAGATTCCTTTGTAGCCGCAAAGCTCCGGGAGGCGGGGGCCGTTATTCTGGGCAAGAGCAATATGACCGAGTGGGCGAATTTCATGTCCTCGACCATGTGGGCAGGATACTCGTCAAGACGCGGGCTTACTTTAAATCCCTACGGTCCCGGCGAAATGTTCGTCGGAGGTTCGAGCTCCGGTTCCGGAGCCGCAGTGGCGGCGAATTTGGCTGCGGCAGCCATCGGCACGGAAACTTCGGGATCGATTATCAGCCCTTCCAGCCAGAACAGTCTGGTTGGCTTGAAGCCGACGATCGGATTGGTAAGCCGGACGGGGATCATTCCCATCACGCATACGCAGGATACGGCAGGTCCAATGACCCGATCGGTGGAAGATGCGGCGATTCTGCTTGGCGCGATCGCGGGTGCGGATGACCTGGACGAGGTGACCAAGACAGCTGCTGAAGCAAGGGTAGAGGATTACACGAAGTTTCTGGACGCCGGTTATCTGAAGCGGGCACGAATCGGGATTCCCCGATACTACTATAAGCACCTGGATCGGGATAGACTAGATATCGTAGAATCTGCCATTGATGTTCTTCGCGAACAAGGCGCGACCATCATCGATCCGGTGGAACTGCCATGCCAGGGCACCCGATGGGATGCCAACGTCCTTCGCTATGAATTCAAGAAATACGTCAATGATTATTTGGCGAATGTAGATCCGTCGCTGCCGGTTCATTCATTAGCTGAGGTTATCGCTTATAATGAGGCACACGCCGACATCGCCCTGAAATATGGACAGGATACGCTGATTTGGGCCGAGGAAACAAGCGGTTCGTTAACCGAAAAAGAGTATTTGGAGAGCAAGCGGAAGAACAAGGAAAGGGCGGGTGCCATGGGGATTGACCATGTACTGCGGGAGCATCAGCTGGACGCGCTGCTGTTTCTGGGTAATGAATATGGACCCGATCTGGCTGCCCGTGCAGGGTATCCTTCGGTTACCGTTCCCGGCGGTTATGCCGAGAATGGGATCATAGCTCCGGGAGGATACAACACCAAAGGTCCTCAGGGCGTTACATTCATCGGGACGGCTTACAGCGAGCCGGTGCTGATTCAGTTAGCCTACGGCTTCGAGCAGGCCACCAAGCATCGCGTACCGCCGAAGCTTTCATCCCAGTCATCATAG	MSLDKKIWIVEATIADMQHAMEEGWVSSVELVQLYLERIGLYDGWLRSILEVNPDALQMAQELDQERRNLGARGRLHGIPILLKDNIDTGDRLHTSAGSITLADSYAAKDSFVAAKLREAGAVILGKSNMTEWANFMSSTMWAGYSSRRGLTLNPYGPGEMFVGGSSSGSGAAVAANLAAAAIGTETSGSIISPSSQNSLVGLKPTIGLVSRTGIIPITHTQDTAGPMTRSVEDAAILLGAIAGADDLDEVTKTAAEARVEDYTKFLDAGYLKRARIGIPRYYYKHLDRDRLDIVESAIDVLREQGATIIDPVELPCQGTRWDANVLRYEFKKYVNDYLANVDPSLPVHSLAEVIAYNEAHADIALKYGQDTLIWAEETSGSLTEKEYLESKRKNKERAGAMGIDHVLREHQLDALLFLGNEYGPDLAARAGYPSVTVPGGYAENGIIAPGGYNTKGPQGVTFIGTAYSEPVLIQLAYGFEQATKHRVPPKLSSQSS	PGPT0006115_2898	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426	NA	NA
AK002_03828	111			hypothetical protein	ATGGGAGACGAGAGAGCCGTTAAGATGCCGACCGATTGCCTGCCAGGAGGAGTTTCGTGTCTGAATCCCGAATTGAATAGGGACTTGAAACGTCTGGAGGCTAAAATATGA	MGDERAVKMPTDCLPGGVSCLNPELNRDLKRLEAKI				NA	NA	NA	NA	NA
AK002_03829	1779		COG1132	putative ABC transporter ATP-binding protein	ATGAAATATGCGAACCTGATGTTCGAGGTTATGAAGCAGGTGTACCGCGTCTCTCCGCGGATGTTCACCAGATCGACCATGATTTATTTAATGCAGGCCTTTTTGCCCGTTGCCCAGATTTATATTACGGCTCAAGTCATAGACGCCGTTACCGGCGTGTTGATTCGGGATCAAGCTCCATACCAAGCATTGTATTGGCTGTTACTCCAGATGGCGGTCATTCTGATTGGCCTCGTGCTGGCATCTCTTCAAAAGTATACCGAGCGAAAGATGAATGCTTATGTATCCTACTGGTTTAATCTCCAAGTGTCGGAGAAGTTAAGCAAGCTTCCGTTCGTATTCTTTGAATCTCCGGAAAGCTACGACAAGCTGCAGCGTGCTCTTCGCAATCTGAATATCTGCGGAATTAACATGGTGTTTTACATGTTCTCGATAATTCAGAACCTCATCACTCTGACGGGTTTGCTCGTGCTCTTGTTCAGCTTTCATTACATATTGCCAATCGTTATGCTGCTTCTGATCGTCCCGCTGTTGATCATCCAGAAGAAAGAGGGGACTTCCCGCTTCGTGGTCATTCATCAGCAGACGGCTTCGTCCCGAATGGCGGCGTATATGATCCAACTGCTGCAGACGAAGGAAGCGGCCAAGGAAATCCGGCTGTTTCATGCCAAAGATTATTTATTGAACAAATGGCGGGGCATCTATTTCAAAAATACGTATGAAATGCTGGGCGTCGAGCGGAAAAACATGAAGAATCGCCTGATCGTGGAAGGGGCGGTGACGATTTGTTCTTTTAGCATTTTAGCCGTGTTCGTCTGGCTCGGCTCACGCCTCAAACTAACCATCGGCAGCTATGTCGCCCTCTATCAAGCGGTCCAGGACACGCGATACTCCATCCAGAACATCAGTCAGAACATCGGGCAAATCTATCATGACGGTCTGTTTATCAACGAATTGTTCGAATTTCTGGATACGCCGGTTCCGCAGCCGGAAAAAGCTCTGCCGATGACCACGCCTTTGCGGGAAGGAATCGAAGTCGATCGCGTTACCTTTTGCTATCCGAATCAAGATAAGCCCGTGCTTGACGATTTGACGATTCGCGTCAAGCCCGGAGAAAAGGTTGCCATTGTCGGTGAGAACGGTGCGGGGAAGAGCACGCTCGTAAAAATCATGCTAGGCTTGTATGAACCGACGCATGGCGTTGTGCGCTATGGCGGCATCCCGATCCAGGATTATGATGCCGTCAGCTTCCGCAGCAAAGTAACGGCGGTGTTCCAGGATTTTTACCGATATGAATGGACCCTTGAGGCTAACATTTCGCTGCGTGAGCATGATCCGGATGACCGGCAAGCCCATCGCCGATTGAATCATGCCATGGAGAAGGCCTCGATGACATCGCTGGCGGATTCGCTGCCGGACGGAGTAGCAACCCAGTTGGGAACGCGCTTCTCCGGCGGACGCGAACTGTCTCAGGGCCAATGGCAGAAGGTCGCGATCGCCCGGGCGTTCTATCGGGATTTCGAAGTGATCTATCTGGACGAGCCGACAGCGGCCGTAGACCCGCTTACGGAATCCACGATATTCGAGAGCCTAATGTCCATGACCGAAGGCAAAACCGCCATCTTCATATCGCACCGATTGGGAAGCTGCAGACATGCGGACCGCATTCTCGTCCTCAAGGAAGGGAGAATCGTTGAAGAGGGAAGACATGAGGAATTAATCGGGCAGGGAGCCCATTATGCCGAGATGTTCAATAAGCAGGCCCAGTGGTATCGTTAA	MKYANLMFEVMKQVYRVSPRMFTRSTMIYLMQAFLPVAQIYITAQVIDAVTGVLIRDQAPYQALYWLLLQMAVILIGLVLASLQKYTERKMNAYVSYWFNLQVSEKLSKLPFVFFESPESYDKLQRALRNLNICGINMVFYMFSIIQNLITLTGLLVLLFSFHYILPIVMLLLIVPLLIIQKKEGTSRFVVIHQQTASSRMAAYMIQLLQTKEAAKEIRLFHAKDYLLNKWRGIYFKNTYEMLGVERKNMKNRLIVEGAVTICSFSILAVFVWLGSRLKLTIGSYVALYQAVQDTRYSIQNISQNIGQIYHDGLFINELFEFLDTPVPQPEKALPMTTPLREGIEVDRVTFCYPNQDKPVLDDLTIRVKPGEKVAIVGENGAGKSTLVKIMLGLYEPTHGVVRYGGIPIQDYDAVSFRSKVTAVFQDFYRYEWTLEANISLREHDPDDRQAHRRLNHAMEKASMTSLADSLPDGVATQLGTRFSGGRELSQGQWQKVAIARAFYRDFEVIYLDEPTAAVDPLTESTIFESLMSMTEGKTAIFISHRLGSCRHADRILVLKEGRIVEEGRHEELIGQGAHYAEMFNKQAQWYR				NA	NA	NA	NA	NA
AK002_03830	591			hypothetical protein	ATGAATTTGATTACGACCGTGCTCGTAATTCAGTATGGCTTGATATTCAGCTTGGCTTTTTTCATGTTCAGACTGTACCGTCAGGTTCGGGAGTTGAAGTTGAAGCCGCAGACAGTCGTGACCGGGCATAAGGAGCCTGCGGTTCCGAAGGAAGGGCTCGAGCTTGGCACGCAGATTCCTCGGACAGCCTATACGAGCATGGCCGGCGATACCGTGAATTTGTACGACGGCAAGCCCAAAATTCTATTGTTCACGATGAACCATTGCAATGCCTGCAAAGAAACGTACGGGGCCATCAAAGCGTTTATGGCTTCGCATCCGGATCTTTCGGTCACGCTATTCCTGTATGCCCAGGATGCGGATGAGGCCTCAGAAATGGCGGTTTCCAATGAGTTAACCGATATGCAGGTCGTGTGGGCAGACCGGGCTATGATCGATTCGTTTAAAGTGAACCGGTTTCCGTTGGCGTTCTACCTATCCGAGGAGCAGCTCGTCATCAACAAAAGCGTCACGAATTATTTGCATCATTTAGAACAAATGATCAACCAGCTGCCTCATGCTAAACCTTCAGCCCTAAACAAATCGGCTTAG	MNLITTVLVIQYGLIFSLAFFMFRLYRQVRELKLKPQTVVTGHKEPAVPKEGLELGTQIPRTAYTSMAGDTVNLYDGKPKILLFTMNHCNACKETYGAIKAFMASHPDLSVTLFLYAQDADEASEMAVSNELTDMQVVWADRAMIDSFKVNRFPLAFYLSEEQLVINKSVTNYLHHLEQMINQLPHAKPSALNKSA				NA	NA	NA	NA	NA
AK002_03831	537			hypothetical protein	GTGTCCATGAGCGCGCTTTGCCTTTTGTTTCTGACCTTGGTGTTTGTGTTTTCGGGAGTGTCGAAACTGTTATCGTTAGCGGATTTCAGGACGACGATCGAACGGTTGCAGATGCCTGCAGGCCGCATACGGATTGTACCTGTTCTCATCTGCGCCGCTGAGATTGCAGCCGGGGCGGGTTTATTGTTTTCCTGGAGCAGAGCCGCTGCGCAGATCGTGATTTTTATTTTGCTGGCAGGGTTCGGCTACGCCGTTTATCAAGCCAGGGTTGTGCGGAATCAGGAGATCAAATGCAGCTGCTTTGGCTCATGGTCTAGTGAGGCCCTCGGCATGAATACGGTCGTTAAGATTGCATGCTTAGGTTTTTTGAATGCGCTAATTTGGCTTTTGTCCGAACCCGTGAATCTCTTCCTCATGCCGGCTCAAGAGGCGGTTCTTACCTTGCTGTCCGCCGGCGGCATTGCCGTTATTTCGTTGGTGGCAGTGAATGCGTATACTCTTGATTCATTACAGGCGAAGGAGGGAACATATCCATGA	MSMSALCLLFLTLVFVFSGVSKLLSLADFRTTIERLQMPAGRIRIVPVLICAAEIAAGAGLLFSWSRAAAQIVIFILLAGFGYAVYQARVVRNQEIKCSCFGSWSSEALGMNTVVKIACLGFLNALIWLLSEPVNLFLMPAQEAVLTLLSAGGIAVISLVAVNAYTLDSLQAKEGTYP				NA	NA	NA	NA	NA
AK002_03832	126			hypothetical protein	ATGTGCATTCTTCGTCATACTTCCTGTAACACTACGGAGCAATGCGGACGCGACAAATTCGGCGTTCGTCTTGAAGTATGGGACTGCGGCAACGGTTCCGAAGAGAGATATACTTGCGGCTGTTAA	MCILRHTSCNTTEQCGRDKFGVRLEVWDCGNGSEERYTCGC				NA	NA	NA	NA	NA
AK002_03833	414			hypothetical protein	ATGCCAGTTATCAAACCTATCATTACCGCGGTCGCATCGGTTCCCGTTGCTACGGGGGGCACGATCACCACGACGGTAACGCCAACCGTAACCCGTTATTTTGCGCTGGTCGACGAAGCGATGATCGGTGCAGACTCGATTACCATGCCGGCCACGAGTTTCATCGATGATGCCGAAGCACCCGTGACGGCATTTCCCGCATTGACAGGCGCTGAATATTTTAATGTGTATATTAACGGGATGCTGCAGCAGCAGGCCTTATCGACTTTAACGACCGCCAGCTTGGTGCTCGATACGACGGATGTGCCAGCGGGGATACCGGTTTTATTGGAAATTGCCAGCTTCACGAATACGGCCTCCGCCATCACGACACAACCTACCATTTCGGCGCCGGTCATTACGATCATCAGTTAA	MPVIKPIITAVASVPVATGGTITTTVTPTVTRYFALVDEAMIGADSITMPATSFIDDAEAPVTAFPALTGAEYFNVYINGMLQQQALSTLTTASLVLDTTDVPAGIPVLLEIASFTNTASAITTQPTISAPVITIIS				NA	NA	NA	NA	NA
AK002_03834	726			hypothetical protein	TTGGCGGGGCCAGCCGGGCTTCAAGGACCCCAGGGCATTCACGGAAGCCCTGGCTCGGAGGGGGCGGCGGGCATTCCCGGACCGGTGGGACCCCAAGGCCCTCAGGGTGTTCCTGGCAACCCTGGCTTGGAGGGGCCGGCGGGCATTCCCGGACCGGTGGGACCCCAAGGCCCTCGGGGCACTCCTGGCACCCAAGGCTTGGAGGGGCCGGCGGGCATTCCCGGACCGGTGGGACCTCAAGGCCCTCAGGGTGTTCCTGGCAACCCTGGCTCGGAGGGGGCGGCGGGCATTCCCGGACCGATGGGGCCCCAAGGCCCTCAGGGCGCTCCTGGCAACCCAGGTATGGAGGGGCCCGCTGGAATCCAGGGACCTACGGGGCCGCAAGGCCCTCAAGGAATCCCCGGAAGCGTAATCGTGCCGGAGATTAACGTGCTGCCGACCACGCTTCGCTATTTTTACGTATTGATGTCCGAGGTTAATCTGGATGATCCCTTCGTCATATCTGCCGGACAATTTACGGATGACGACGGTAACCAGGCATTTCAGAGCATTATGGTAGGTCCGAACAGCTCCTCGACCGTGTATATCAACGGTATGATTCAGGAAGGCCGTATCTACACCATCACTTCGGAGGCACTAACCTTGTATTCTCCCGGCGATGTGCTTCTGGCCGGAACGCCGATCCTGCTGGAGGTGCTGTATCTCACCGTTCAGGTGGTGGCTTGA	MAGPAGLQGPQGIHGSPGSEGAAGIPGPVGPQGPQGVPGNPGLEGPAGIPGPVGPQGPRGTPGTQGLEGPAGIPGPVGPQGPQGVPGNPGSEGAAGIPGPMGPQGPQGAPGNPGMEGPAGIQGPTGPQGPQGIPGSVIVPEINVLPTTLRYFYVLMSEVNLDDPFVISAGQFTDDDGNQAFQSIMVGPNSSSTVYINGMIQEGRIYTITSEALTLYSPGDVLLAGTPILLEVLYLTVQVVA				NA	NA	NA	NA	NA
AK002_03835	1521		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43B	ATGAAGTTTAGCAACCCCATCCTACCGGGCTTTTATCCGGATCCAAGCATTTGCCGAGTTGGCGAAGATTATTATTTGGTGACGAGCACATTTGAGTATTTCCCGGGCGTTCCCATCTTTCATAGCAAGGACTTGGTAAATTGGAAGCAAATTGGCCATTGCCTTACATCGGAAAAACAACTGTCCCTTAAGAACGCCGGGAGCTCAGGGGGAATTTATGCCCCGACCCTTCGCTATCATGAGGGCTGGTATTATATGACGACAACCAACGTCAGCGGAATCGGCAACTTTTACGTCAAAAGCACGGATCCTGCAGGTCCTTGGTCTGATCCGATCCCTGTCGCCCAGCAAGGCATAGATCCTTCGCTGCTATTTGACGACGATGGTCGCGTCTATTTTCAGACGGCTTGCTACGGCGACGAGGGAGAGGGCATTTATCAATGCGAAATCGATATTGCAAGCGGCAAGAAGCTGACGGAAAGCCGTTTAATCTGGAGAGGAACCGGGGGAGCCAGTCCGGAAGCCCCGCATTTATACAAATTGGACGGTCTGTATTATTTAATGATTGCCGAGGGCGGAACCGAGTACGGACATATGGTCACGGTCTCGCGAGGCCGACATCCTTACGGGCCGTTTGAGCCTTGTCCCCACAATCCGATTCTGTCCCATCGAAGCAGGAGAAGCCCCATTCACGCGACAGGGCACGCGGATCTGGTGCAGGCTCAGGATGGCACGTGGTGGGCCGTTTTCTTGGGGATCAGGCCGGTTTCATACCCGATGCGCCATCATCTCGGCAGAGAAACTTATCTGGCTCCGGTAACATGGACGGCGGACGGTTGGCCGAGCATCGGTTTCGAGGGAAGGGTCGAGCAGGTAATGGACAGTCCTCAGCTGCCGGAATGCAGGTGGCCCGAAAAGCCGTCCAGAGACGACTTCGATCACGCCTCCCTCGGTTTGGACTGGGTCTTTTTGCGCAACCCCTTACCAGGGAGCTGGTCGCTGCAGGAACATCCGGGATATCTCGTGCTGCGGGGCAACCCATCATCTTTGAACGACGCGGCATCCCCTGCTTTCGTCGGGCGACGATTATGCCACTTTTCTTGCAATATATCCGCTGCTCTGGACTTTGAGCCCGCAAACGAGGGGGAAGAAGCCGGATTAACCGTTTTTATGAATGAAAGGTATCATTATGATCTGGCCGTAAAGCTTATAAACGGGGAAAAAACGATCGTATTCAGACGTACCGTGGGGTCGCTTAGCGTAGAACAAACCAGCCGATGTCCGGAGGGGCCTGTCGTGTTACGAATCGAAGCAATGCCGGAGCATTTCCGATTCTCCATGGGGCAAAGCACCTCGGAGGTCCTGAGTATGGGATCAGGTGAAACCCATCTGCTTGCGACGGAAGTAGCCGGCGGATTTACAGGATTAATGATTGCTATGTATGCATTCGGCGACAACGGAACAACCCCTGCGCTGTTCGACTGGTTTGATTATGAAGTCATCGATAGCCGGGCCGAATAG	MKFSNPILPGFYPDPSICRVGEDYYLVTSTFEYFPGVPIFHSKDLVNWKQIGHCLTSEKQLSLKNAGSSGGIYAPTLRYHEGWYYMTTTNVSGIGNFYVKSTDPAGPWSDPIPVAQQGIDPSLLFDDDGRVYFQTACYGDEGEGIYQCEIDIASGKKLTESRLIWRGTGGASPEAPHLYKLDGLYYLMIAEGGTEYGHMVTVSRGRHPYGPFEPCPHNPILSHRSRRSPIHATGHADLVQAQDGTWWAVFLGIRPVSYPMRHHLGRETYLAPVTWTADGWPSIGFEGRVEQVMDSPQLPECRWPEKPSRDDFDHASLGLDWVFLRNPLPGSWSLQEHPGYLVLRGNPSSLNDAASPAFVGRRLCHFSCNISAALDFEPANEGEEAGLTVFMNERYHYDLAVKLINGEKTIVFRRTVGSLSVEQTSRCPEGPVVLRIEAMPEHFRFSMGQSTSEVLSMGSGETHLLATEVAGGFTGLMIAMYAFGDNGTTPALFDWFDYEVIDSRAE	PGPT0018665_1724	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
AK002_03836	1680			hypothetical protein	ATGAAACACTGGAAGGGATTATCGCCGCTCTTGGCTATGATGATGCTGGTTACGTTTATTCTGGCTGCGTGCAGCAGCGGTGACAACGGCAATTCCGCAGGCAGCGAAGGGGGAGATTTGAAACCGGTTACAATTACATATTTCAGCGCCGATTCGAACGCGAACTGGGCAAGTATGCAGGATGCTGTCGGCAAAAAGCTGACCGAGACGACCGGCGTTACGATCCAAGCCGAATTTGCGGTTGACGGTTCCAATCAGAAGCTGCCGCTGATGGTAGCGAGCGGTGAATATCCGGATCTCGTTTACGCTAAAGGCGATGCGAATCTGTTCGTTGATTCGGGCGCTTTTATCGACCTTACCGATTTGATCGAAGAACATGCACCGAACCTGAAAAAGCTCTATGGGGATTACATGAACCGTCTGAAGTGGAGCAACGAGGATGAGTCGATCTATGTTCTTCCGACGCTGAATGCGGTGGATCATCAGCAATTGGATGCTGGCGGAAACTTTCATATCCAGCATGAAGTGCTGAAAGAGCTCGGTTATCCGGAAATCAAGACCGTCAAGGATTTTGAGAAGGCGCTGAAGGATTATTATGAGAAACACCCGGCGATCGACGGTCAGCCAACGATTCCGTTGACGCTCAATGCGGATGGATGGCGATTCATGATCTCCGTAACGGATGCGGCCGTGATTGCTACCGGTTTGTCAGGGGATGGGGAGTATTATGTTGATCCGGAAACGTATGAAGCGAAATTGCACTACAGACGTCCGGAGGACAAGGAATACTTCCGCTGGTTGAATCATCTCAACGCCACGGGCATATTGGACAATGAAACGTTCGTTCAGAAGACGGACCAGTACGAAGCAAAGATCGCCTCAGGCCGCGTTCTTGGCGTCATTGACGCCGATTGGGGGTTTGGAAACCCGACGAATGCGCTGAGAACGGCCGGCAAAGAGAACCGTACCTATGCGAGATTCCCGATCCAATTGGATGAGACGACCAAGGACGCTTCGTTCCAGAATGCAGGGTATGCAGCAGGCTGGGGAGTAGGCATCACGACATCCGCGAAGGATCCGGTAAGGATCATCAAGTTCTTGGATTATCTGGCTTCCGAAGAAGGGCAAATTTTGATGAACTGGGGCATTGAAGGCGAGCATTACAATGTCAAAGACGACAAACGCGTCATTCTGGAGGACGTGCAGGACCGCAAAGTTAACGACAACGCCAGCTTCACCAAAGAGAGCGGAATTGGATTATATAACAGCTTGTTTCCTCGTTATGGCGACGGCGCGAAGGATTCGACCGGAAATTATTATACGACCAACTTCCCGGAACAAATCAAGGCCAATTATACGCCATCAGCCAAAGAAACGCTGCAAGCGTATGGTGCGGAAATGTGGAAGGATCTCTGGCCAAAGTCGGAGGAATTTCCAACGAAGCCGTGGGGTGCGGCATATCTTATTTCCCCGCCGATCGACTCCAATATTGCAATCACCTACAAGCGGGTTGAAGAGATTGTTCGCAAACGCATTCCGGAGATCATCCTTGCGGAGCCGTCCCAATTCGATGCCCTTTACGATCAGTTCATTCAAGATCTGAACGCTGCCGGGGCGGAAAAGATGGAGCAGGAATATTCGGAGCTGGTTCGTGATCGGGTTGAGCTGTGGAATAACTGA	MKHWKGLSPLLAMMMLVTFILAACSSGDNGNSAGSEGGDLKPVTITYFSADSNANWASMQDAVGKKLTETTGVTIQAEFAVDGSNQKLPLMVASGEYPDLVYAKGDANLFVDSGAFIDLTDLIEEHAPNLKKLYGDYMNRLKWSNEDESIYVLPTLNAVDHQQLDAGGNFHIQHEVLKELGYPEIKTVKDFEKALKDYYEKHPAIDGQPTIPLTLNADGWRFMISVTDAAVIATGLSGDGEYYVDPETYEAKLHYRRPEDKEYFRWLNHLNATGILDNETFVQKTDQYEAKIASGRVLGVIDADWGFGNPTNALRTAGKENRTYARFPIQLDETTKDASFQNAGYAAGWGVGITTSAKDPVRIIKFLDYLASEEGQILMNWGIEGEHYNVKDDKRVILEDVQDRKVNDNASFTKESGIGLYNSLFPRYGDGAKDSTGNYYTTNFPEQIKANYTPSAKETLQAYGAEMWKDLWPKSEEFPTKPWGAAYLISPPIDSNIAITYKRVEEIVRKRIPEIILAEPSQFDALYDQFIQDLNAAGAEKMEQEYSELVRDRVELWNN	PGPT0017245_843	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_03837	864	rhaR_47		HTH-type transcriptional activator RhaR	ATGAGAAGCGTACACTTGGATTGGTTTACGACGGATGAGCATTTTAAGTTCTTTATCCAATATGGCGGACACGAAGAGGACATGTACGTACATCACCATGTTGATTTCTCCGAACTCGTTATCGTTTTGCATGGTCATGCCACCCATATCGTCAACACAGAGGAATCGTTTATCAAGAAGGGGGACGTCTTTGTCATTAACGGCACAACCTCCCATGGATATAAAGACCCGCATGAGTTTCGTATTTGCAACATCATGTATAAGCCCGAGATGCTGGAATCGGCAGGTCCTGAGTTCAAAAGATCGAACGGGTATCAGGCGCTTTTCGTTCTAGAACCGTATTACCGCAATATCAACCATGCCTTGAGCAAGATGAGCCTGCCGATCTCAAGTCTGGATTACATATCGTCCGTTGTTGACTTCATGATTGAGGAATACGCGAACAAGCTGCAGGGCTACCAGACCATCCTGCGTTCGCGATTTATGGAGCTCGTCGTCCAGCTGTCACGGCAATATGAAAAGCAAGAGCGTCACGGAGCCCAAATTAATCTGATGCATTTGGCGAAAGCCATTTCCTTTATGGAGGATAACTATTTGCAGCCTATTTCCCGTGAAGAAATTGCGGCCAAATCCAATATATCCGTCAGGCATTTGAATCGGATATTCCAATCCTATTACCAAACAACGCCTTTCGCCTATCTTCTGCAGCTCCGCTTGGAGCATGCATGCAGGCTGTTAAAGACGACACCCCTTCCGATTTCGGACATTTCTTATCAGAGCGGATTCAATGACAGCAATTATTTTACCCGACAGTTCTCGAAGGTGTATGGCCTATCTCCTAAAGTGTACCGAAAGCGCAGGTAA	MRSVHLDWFTTDEHFKFFIQYGGHEEDMYVHHHVDFSELVIVLHGHATHIVNTEESFIKKGDVFVINGTTSHGYKDPHEFRICNIMYKPEMLESAGPEFKRSNGYQALFVLEPYYRNINHALSKMSLPISSLDYISSVVDFMIEEYANKLQGYQTILRSRFMELVVQLSRQYEKQERHGAQINLMHLAKAISFMEDNYLQPISREEIAAKSNISVRHLNRIFQSYYQTTPFAYLLQLRLEHACRLLKTTPLPISDISYQSGFNDSNYFTRQFSKVYGLSPKVYRKRR	PGPT0017785_135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
AK002_03838	312			hypothetical protein	ATGATTATGACAACAACATCTACCATTGAAGGTTACCCGGTTAAAAGGTATATCGGCATTGTGAACGGCGAAGTTATTATGGGCGCTAATGTAGTGAGGGACTTTATGGCCTCCATTACCGATTTTGTTGGTGGGCGCTCGGGTGCCTACGAGAACAAGCTGCAGGAAGCAAGGGATGTAGCGTTTGCCGAGATGAAAGACAAGGCTGAGCGAATGGGGGCCAACGCTATCGTAGCGGTGGACATCGACTATGAGGTCATTCGTGAGGGAATGCTGATGGTGGCCGTCAGCGGAACAGCTGTGGTGGTATAA	MIMTTTSTIEGYPVKRYIGIVNGEVIMGANVVRDFMASITDFVGGRSGAYENKLQEARDVAFAEMKDKAERMGANAIVAVDIDYEVIREGMLMVAVSGTAVVV				NA	NA	NA	NA	NA
AK002_03839	1086			hypothetical protein	ATGACGCGTACCTATCGTACCTATATCAAACCGAGAGAGTCCGGGCAGCTTGAGCTGAGATTCTGGCACAGCAACTCGGTAGATTCCACGTGGGATGTGGGCTCGTTGGCCAAAGGGAGTATGCCAGGGGGAGCGTGGCGGATTGAAGCGGCTTATGCTGCCGATGGCGGCACCGGCCGGAATGGGCAGGTTGTGCCTGGGACAAGCGTGCAGGTTATGTTTGACGGGAATCCGGGTAAAGCGGTAGCTCCCGGCGAGACGTTTTGGAGCGATCCGTTGCAGATCGAACTGCCCAAGGGACATGATTTGGCGTTCACTTGGACCATAACGACGCTTTCATCAGGTAAAACGGTGCCATACAATACGGAGGGGCTGCTTGTAACGGCTTATGAAGCTGAAGGGAATAAGGCGGATGACGAGTTTGGAGCAGCGTTCGTGCCGGCAGCGAGCCGCTTGGTCATGCCTGCTTTCGCCGGGTATGCCAGAACGGTCAAGCAGCGGATGATCTTCCAAGGTGACTCTATTACACAAGGCGTAAGAACTGCGAAAGACGGTTACCAATACTGGGTGTCCCGCATTGCGGATGGCCTCGGGCAGGACTACAGCGTATGGAATATCGGTTCCGGCTGGGCAAGGGCATATGATGCATCGGCAGACGGTCCGTGGCTCGCGAAGGCAGCCGAAGGAGATATTGTTGCCATAGCGCTTGGGGTAAACGATATCGATATCGGAGCGAGAAGCTCCCGGGAACTGCTGGATGATTTATCATCGATTGTAAGGCGTTTGAAACAGAGGGAGGACGGAACAAAAGCTCGGATCATTCTCTTTACAGTACCCCCGTTCAATTTTATGGAAGACAGGGAAGCAGTATGGCGTACCGTCAACGAATCGATTCGCACCCGTCCTCCGGAAGGCGTGGACGCCGTGTTCGATATCGCAGATATTCTGTCCCGTCCTGCTCCCGAGGAACATCGGATCGAGCCGAAATATATGAGTTCTTCGGATGATCCGCATCCGAACGGCCTAGCAGGAGCGGTGATTGCTGAAGCTTTCTTGAAGTGGTTTGAGGCGCAGCCGAAAAACTAA	MTRTYRTYIKPRESGQLELRFWHSNSVDSTWDVGSLAKGSMPGGAWRIEAAYAADGGTGRNGQVVPGTSVQVMFDGNPGKAVAPGETFWSDPLQIELPKGHDLAFTWTITTLSSGKTVPYNTEGLLVTAYEAEGNKADDEFGAAFVPAASRLVMPAFAGYARTVKQRMIFQGDSITQGVRTAKDGYQYWVSRIADGLGQDYSVWNIGSGWARAYDASADGPWLAKAAEGDIVAIALGVNDIDIGARSSRELLDDLSSIVRRLKQREDGTKARIILFTVPPFNFMEDREAVWRTVNESIRTRPPEGVDAVFDIADILSRPAPEEHRIEPKYMSSSDDPHPNGLAGAVIAEAFLKWFEAQPKN				NA	NA	NA	NA	NA
AK002_03840	429	fucU	COG4154	L-fucose mutarotase	ATGCTAAAAGGCATATCTCATTTGCTCTCGCCTGAGCTGCTGAAAATACTTATGGAGATGGGGCACGCGGATGAAATCGTTCTCGGCGACGCCAATTTCCCTTCAGCCAGTCACGCCCGGCGGTTGGTCCGGGCAGACGGACACGGAATCCCTGCGTTATTAAACGCCATATTGCCGTTATTTCCGCTGGATACGTACGTTGAATCCCCGGTAGCCCTGATGGCCGTCACTCCCGGAGATAGCGTGGAAACGCCGATCTGGGAGGATTACCGCCAGATTGTGAAGGAGTTTCACGCCGTTCCCGTTGAATTCGATGAGATGGAGCGTTTCTCGTTCTATGAACGCGCCAAGAATGCGTATGCCATCGTGTCGACGGGCGAACAAGCGCTGTATGCCAATGTTATCCTTAAAAAAGGCGTAGTCGTTTAG	MLKGISHLLSPELLKILMEMGHADEIVLGDANFPSASHARRLVRADGHGIPALLNAILPLFPLDTYVESPVALMAVTPGDSVETPIWEDYRQIVKEFHAVPVEFDEMERFSFYERAKNAYAIVSTGEQALYANVILKKGVVV	PGPT0017496_723	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017496-fucU-K02431	NA	NA
AK002_03841	1512	rhaB_1		Rhamnulokinase	ATGAGCAATTCATCTGCGGTGCTTGCGTTTGACTTGGGGGCCAGCAGCGGCCGGGCGCTGCTGGGCGAAATCACCGCTTCTGATCATGACTCCCCCGGCATACTGAAGATCACGGAGATTCATCGTTTTGCCAATACTCCTGTTCAGATGGGAGATCATCTGCACTGGAACTTCCCGATGCTGCTCCAGGAGGTCAAGCACGGCATCCGTAAAGCGTTTCAGGACGGTTATCGACCGGTCAGCTATGGCATCGATTCGTGGGGCGTCGATTATGGACTGATTGACCGCAACGGGGAGCTCATCGGAGTGCCTTATCATTACCGGGACCTCCGGACGGAAGGGATGGTGGAGGAAACCTGCAAGCAGGTTGGCAGAGAGCGGCTGTTTCAAGAAAGCGGCCTGCAATTCATGCCGTTTAACACCATCTTCCAGTTGAATGCGATGCTTAAGGCGAAGTCGCCGATGCTGGATATCGCGGACAAGTTCCTGCTCACGCCGGATCTTCTGAACTATTTTCTTACAGGGGTTCAAGCATGCGAGTTCACCATGGCAACCACGACCCAGCTGTATCATGTTACGAAAGGCAAGTGGAATGAGCGGTTAATGGATGAGCTGGGACTTCTCTCGTCCTTGTTCCTTGAACCCGTACAGCCGGGAAGCGTGATTGGCAGGCTGCAGGATGCCGTAGCGCAAGAGCTTGGCGTTCCGGCGATCGAAGCGATTGCCGTGGCGTCGCACGATACGGAATCCGCCGTGGTGGCCGTTCCGGCGAATGCCGCCCGGTTTGCTTATCTCGTATGCGGGACCTGGTCGCTTCTCGGAACCGAGCTGCCGGAGCCGCTCGTTCACCCGGACGTGCTGGAAGAAGACTTCTCCAATGAGGGCGGGGCTTATCAGTCCTTTCAATTGCTGAAGAATATCATGGGCCTCTGGATTCTTCAGGAGTGCAAGCGGCAGTGGGAAAATCAGGGACTGAAGTATTCTTATGCAGAGCTGGTTGAGCTCGCGGAGGACGCGGAGCCTTTCCGCAGCCTCATCCATCCCGATGATCTGCGCTTCATGAATCCGGCCGATATGACGGCTGAAATTCGGGATTATTGCCGGGAGACCGGGCAGCCCGTTCCGCAAAGCGCCGGTGATTATGTCCAGTGCATACTGCAAAGCCTGGCCCTAAGATACCGGGAAGTGCTTGAACGGATGGAAGTCCTGACAGGGCAGTCGTACGATGGGCTTCATATGGTTGGCGGCGGCATTCAGAACGAGCTGTTATGCCGGTATACGGCGAATGCCATGGGCCGTACGGTGTGGGCCGGTCCGGTCGAAGCCAGCGCCATCGGGAACATGCTGGTTCAATTTGTGGCCAATGGCACGCTGCGCAGCAGGGAAGAGGGAGTCGAGCTCGTGAAGCGGTCTTTTCCGCTGGCCTGGTATCAACCCGAATCCCGTGAGGATTGGGAGGCAGCGTTCCTGCGTTACAAGTCCTTGATCGGGCAGCAGCAGGCACAGCCGTGA	MSNSSAVLAFDLGASSGRALLGEITASDHDSPGILKITEIHRFANTPVQMGDHLHWNFPMLLQEVKHGIRKAFQDGYRPVSYGIDSWGVDYGLIDRNGELIGVPYHYRDLRTEGMVEETCKQVGRERLFQESGLQFMPFNTIFQLNAMLKAKSPMLDIADKFLLTPDLLNYFLTGVQACEFTMATTTQLYHVTKGKWNERLMDELGLLSSLFLEPVQPGSVIGRLQDAVAQELGVPAIEAIAVASHDTESAVVAVPANAARFAYLVCGTWSLLGTELPEPLVHPDVLEEDFSNEGGAYQSFQLLKNIMGLWILQECKRQWENQGLKYSYAELVELAEDAEPFRSLIHPDDLRFMNPADMTAEIRDYCRETGQPVPQSAGDYVQCILQSLALRYREVLERMEVLTGQSYDGLHMVGGGIQNELLCRYTANAMGRTVWAGPVEASAIGNMLVQFVANGTLRSREEGVELVKRSFPLAWYQPESREDWEAAFLRYKSLIGQQQAQP	PGPT0017775_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017775-rhaB-K00848	NA	NA
AK002_03842	660	drdA		5-deoxy-D-ribulose 1-phosphate aldolase	ATGCTGAATGTAGAAACGAGAAACGAGCTCTGCAAGTATGCCAAAAAAATCGTCGACAACGGACTCGTTGTAGGGCCTGGAGGGAACATCAGCGCCAGGGCAGGGGACAAAATGTATTTGTCCCCGAGCGGTTTTGCGCTGGAGGAGATCGAGCCGGAGCAATGGATCGAAGTGGATATCCCGACGGGCGATATTACCGATATTGGTCTGCGGCCTTCCTCCGAAGTGCTGATGCACCTGTACGGATACCGCAGCAACCCTGACATCGGGGCCATGGTGCATACGCATCCGTCCCATTGCATTGCCTTTACGCTGGTGGAACAGGAGCTGCCGGTGATGTTCCCCGATCAGGCGGCATTGGTCGGCCGTACGGCTTATATCCCGTACATCATACCAACGACGGATTTGTTAGCAGATGCCGTAGCGGAGAAAGTGACCACGGCCAGCTCCATACTGCTGGGTAATCATGGACTGGTCACAACCGGCCGGAATCTGCGCGAAGCGTATTACCGGACCCAAGTGGTTGAAGAGAGCGCCAAAATTTATCTGAGCGCCAAGGCGGCCGGCACGCCGGTGCCGCTGACAGATCAGGAAGTAGACGATATTGCTGCTCTGGAGAGCGAGGATTATCGGATTCAGCTTCTGCAGAAAATGAAATAA	MLNVETRNELCKYAKKIVDNGLVVGPGGNISARAGDKMYLSPSGFALEEIEPEQWIEVDIPTGDITDIGLRPSSEVLMHLYGYRSNPDIGAMVHTHPSHCIAFTLVEQELPVMFPDQAALVGRTAYIPYIIPTTDLLADAVAEKVTTASSILLGNHGLVTTGRNLREAYYRTQVVEESAKIYLSAKAAGTPVPLTDQEVDDIAALESEDYRIQLLQKMK	PGPT0017430_957	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017430-fucA-K01628	NA	NA
AK002_03843	1794	fucI	COG2407	L-fucose isomerase	ATGACAATTGAAAACGATTACAGATGGCGGGACGGATTTCCGAAAATCGGCATTCGCCCTACGATAGATGGCAGAAGGAGAGGAGTAAGGGAATCCCTTGAGGAACAAACCATGAATCTGGCCAAGGCCGTCGCCGAGATGCTGACGAAAGAGCTTAAATATCCGAATGGCGAACCGGTTGAATGCGTGATTGCGGATACTTGCATCGGCGGCGTTGCCGAAGCGACCGCAGCGGCCAAGAAGTTCAAGAATGCCGAGGTCGGCCTGACGATAACCGTTACGCCTTGCTGGTGTTACGGAACGGAAACGATGGATGCGGATCCTTCGCGTCCGAAGGCGGTATGGGGCTTCAACGGAACAGGGCGTCCGGGCGCGGTGTATTTGGCAGCCGTCTTGTCGGCCCATGCGCAGAAGGGACTTCCCGCATTCGGCATCTATGGCGAAGACGTTCAGGATGAAGGGGATACCCGCATTCCGGATGACGTTCAAGAGAAGCTCCTGCGTTTTGCGCGGAGCGGGCTGGCTGCGGCCTATATGCGCGGACAATCGTATTTGTCCATGGGCTCCGTGTCGATGGGCATCGCCGGTTCGATCGTGGACGACAGCTTCTTCCAGGAATATCTGGGCATGCGGAATGAATATGTGGATATGAGCGAGTTTACGCGCCGTTTGGAGGAAGGGATCTATGATCCTGAAGAGTATGAAAAGGCGCTTGCTTGGGTGAAGGAGAATTGTACGGAAGGACCGGATAACAATCCGGATCATCTGCAGAACAGCCGGGAGCGCAAGGATCTCGAATGGGAAACCGTCGTCAAAATGACGCTGATCACCCGTGATTTGATGATCGGCAATCCGCGATTGAAGGAGCTTGGTTTCGAAGAGGAAGCCCAAGGCCACAGCGCGATCGCTTCCGGCTTCCAGGGGCAGCGCCAATGGACGGATCACTCCCCGAACGGAGATTTTCTGGAGACCATCCTCAACTCCTCCTTCGATTGGAACGGCAGACGTTCGCCGTATATCGTGGCAACGGAGAATGACAGCCTGAACGGAGTCGGCATGCTGTTCGGATACCTGTTAACCAATACGGCACAGATTTTCGCGGATGTGCGGACGTACTGGAGTCCGGCTTCGGTAGAACGGGTTACCGGCTATAAGCTTGAGGGCAAAGCGGAAAACGGCATCCTGCATTTGATCAATTCCGGTTCGGCCGCACTGGACGGAACGGGCGAGCAGGAGCTTGACGGCAAGCCGGCCATGAAACCGTTCTGGGATATCACGGATGAAGAGGTTGACCGCACGCTCAAGGCCACGCAGTGGAGACCGGCTAACCTGGAGTATTTCCGTGGCGGCGGTTACTCGACCGACTACCTGACGCGCGGCGGCATGCCGATGACGATGTTCCGCCTTAACCTGGTGAAAGGGCTTGGTCCCGTCCTGCAAATCGCCGAAGGCTATTCCGTGGATCTGCCGTCGGAGGTGCACGATACGCTCGATAAGCGTACAGACCCGACATGGCCAACGACCTGGTTCGTACCGAACCTCACGGGAGAGGGAGCCTTCTCCAGCGTTTATGAGGTCATGAACCAGTGGGGAGCCAATCACGGCGTGATCAGTTACGGACATATCGGAGCAGATCTTATCACCCTGGCTTCGGTGCTGCGAATTCCGGTCAACATGCATAATGTGCCCGCTAATGAGGTGTTCCGTCCGCGTGCATGGGGCATGTTTGGAACGTCCGATCCGGAAAGCGCCGATTTCCGCGCTTGCCAGAACTTCGGTCCTCTATATAAATAA	MTIENDYRWRDGFPKIGIRPTIDGRRRGVRESLEEQTMNLAKAVAEMLTKELKYPNGEPVECVIADTCIGGVAEATAAAKKFKNAEVGLTITVTPCWCYGTETMDADPSRPKAVWGFNGTGRPGAVYLAAVLSAHAQKGLPAFGIYGEDVQDEGDTRIPDDVQEKLLRFARSGLAAAYMRGQSYLSMGSVSMGIAGSIVDDSFFQEYLGMRNEYVDMSEFTRRLEEGIYDPEEYEKALAWVKENCTEGPDNNPDHLQNSRERKDLEWETVVKMTLITRDLMIGNPRLKELGFEEEAQGHSAIASGFQGQRQWTDHSPNGDFLETILNSSFDWNGRRSPYIVATENDSLNGVGMLFGYLLTNTAQIFADVRTYWSPASVERVTGYKLEGKAENGILHLINSGSAALDGTGEQELDGKPAMKPFWDITDEEVDRTLKATQWRPANLEYFRGGGYSTDYLTRGGMPMTMFRLNLVKGLGPVLQIAEGYSVDLPSEVHDTLDKRTDPTWPTTWFVPNLTGEGAFSSVYEVMNQWGANHGVISYGHIGADLITLASVLRIPVNMHNVPANEVFRPRAWGMFGTSDPESADFRACQNFGPLYK	PGPT0017505_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017505-fucI-K01818	NA	NA
AK002_03844	858	rhaR_48		HTH-type transcriptional activator RhaR	GTGCCAAAAATCGAAATCTCGCATAGTAAAAGCGATCACTTCCGCTTCATCAAAAATCCGCAGCTGCTCTTTGCCGGCCAGGTCGTCGACGAGGACTTCTTTTATGGCCCGCCGCAAATCCACGATTTCTGCGAGATCATCTATGTGGTTGAAGGACGCGGAGAATTCACCATAGCAGGTAAAGTATATGAGCTTAACAAAGGCGATGTCGCCATCTATAACCCTGGCATTCCCCATGAGGAGAAATCCATCACGGACGGGCCATTCAAGGTCATCTATTGCGGCGTGGATTCGCTTCACATTGAAGGGGTGCCTCAGGGGATGCTGCTGCCGGCCTATGTCGAGCCGGTCATATCCTGCGAGAAATACGCTTATAAAGTGGAGAGCTATCTTTCCGAGATCCTCCGCGAATGCGATTCGCAGGTACTGGGATATGAAACGCTGAGCACGAACCTGCTGATGTCATTGATTACCGTGATTTATCGCATCGTGGACGTTAAACACCAATTCCAATCCCTGAAGGGCAAGAATGAAATCGCGCTGCGGACCAAGCACTTTATCGACGCCAACTACACCCAGAGCATCAGCCTCAAGGACATCGCCGATACGATGTATGTCAGCCAGCATTATTTATCCCATCTGTTCAAAAAAGAAGTCGGCGATTCCCCCTTCAATTACTTGATATCCCGCCGGATTGAAGAGGCCAAGCGCCTGCTGGCGGATTCCGAAATGCCGGTGCATGAGGTTGCTTCCCAAGTCGGCTACGGCAACGACAAGTATTTCTCGATGTTATTCAAGAAAATTACCGGTCAAACGCCAAGCTCGTTCCGGGAACAGAGCAAAATGGCCGTGGAGTGA	MPKIEISHSKSDHFRFIKNPQLLFAGQVVDEDFFYGPPQIHDFCEIIYVVEGRGEFTIAGKVYELNKGDVAIYNPGIPHEEKSITDGPFKVIYCGVDSLHIEGVPQGMLLPAYVEPVISCEKYAYKVESYLSEILRECDSQVLGYETLSTNLLMSLITVIYRIVDVKHQFQSLKGKNEIALRTKHFIDANYTQSISLKDIADTMYVSQHYLSHLFKKEVGDSPFNYLISRRIEEAKRLLADSEMPVHEVASQVGYGNDKYFSMLFKKITGQTPSSFREQSKMAVE				NA	NA	NA	NA	NA
AK002_03845	390			hypothetical protein	GTGTTTAAATTCTGGAAAAACAAAAAGGGCGGGAACAGCGGAGAGAATTCGTCGCTCCCGGCAGCGGAAGAGAGAATGGAAGCCGTGCCGGACCAGATCATCGAGCTTACGGGCCGCGAGGTTCAGCGCAGCGTGGCCCCTGTTCTGGGCATAACGGTGCTTGACTTGGCCGAGCGGAATGAGGTGGATTGGAACTCTTTTTGCAAAAGAGGGACGTGTGCGCGCTGCCGCTGCATGGTGGTGGAGGGAATCGAGTATCTGTCCGAACCCAATCTGGCCGAAGAACGGCGCCTGGATCCGGAAGAAATCGAAGAGGGGTACCGTCTCGGATGCCAGAGCAGGATCGAAGCGGTCGGCCCCGTCAAAATCAAGCATGCTCCATACTTTTGA	MFKFWKNKKGGNSGENSSLPAAEERMEAVPDQIIELTGREVQRSVAPVLGITVLDLAERNEVDWNSFCKRGTCARCRCMVVEGIEYLSEPNLAEERRLDPEEIEEGYRLGCQSRIEAVGPVKIKHAPYF	PGPT0006786_46	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0006786-fdx|cndB-K04755
AK002_03846	1275			hypothetical protein	ATGCTGCATAGACGAATAGGAAAAACAGCCGTCGCTGCCGTTCTTGCCTTATCTCTGCTCGGAACCGCGCCCCATATCGGCCAGGTACACGCTGCGCCTGCCATTTCGGTAACGCTGGATGATGTTGCGCTTACATTCGACGCGGCTCCCAGGATAGACAAAGGGGTCACCTACGTGCCGTTCCGGACGGTCGGTGAAGCGCTGGGCATTCAAATCACTTGGAACAGCAAGACGCAAACGGTGAAGGCCATTGGCAAGGTGAAGGGTCAACCGACGGAAGTGCTGCTTCAAGTCGGGAGCTCGAGCGCAACCGTCAACGGTAAAAAAGTAAAGCTAGCCGCTCCCCCTGTCCAACGGGAAGGCCGCGTTCTGATTCCGCTGAGCTCGTTCAGCAGCCAATTCGGCGTTAATGTCGGCTGGAATCAGGCGACTCGCACGGTTTCCCTCGTGTCGCCGCAGCGCGAAATGCATCTAAGAGCCTTTTACGCTTTGCAATCTTTCCAAGAGCGGGATCTCGTACCATCCATGAATTCAGTCGCCTTCGGCTGGAGCCGCATTGATCGGGAAGGTCAGTTTACGCTTCAAGGCGACGAGTATCGTCTGCCTGCGGCGGCCGGCGACGTGACTCCGCAATCGATTGTTGCGGATGCAGCGGATCGGGAGATTAAACCGTACCTTATGGTTTACGCTTTGGACGGAAACGGCGAATTAACCAAAGTCCTCAGCGACAGCAGCCTTCGCCAAAAGTCCATTGAAGGCATCACGACCGCGGTGGCGGATAACGGATTCGGCGGCGTGGTGCTTGATTTCGAAGGGCTTGGTTTTAAACTGGATGCCGCGAAGCAGCAGAAGCTGCTGAATGATTACGTCAAGCAATTGAAAGCGGCATTGCCCGGCGACATTGCTCTGTCCTTAGCGGTCCCGCCACTGAACAGCGCCTATAAAGGCTATGATTACAAGACGCTGGCCTCCCTTGCCGATGATCTTATCGTCATGGCGTATCAGTACAATCCGGTCGGCACCAAAGCCCAGGTTCCTGAGCCCAACAGTTTGGTGGACCAAGCCATTCAGCAGGCACTTCAGGCAGGCGTTCCTAAGCAGAAGCTCCTGCTCGGCATCAGCTTAAGCAGCGAAACCGCCACATCCGTCGACGATAAGCTCGGCTTGGCCAAACGCTATGATCTGAAAGGTGCCGCCTTCTGGCGTCTGGGCTTGTTCCGTTCCTATAATAATGGCATGGAAGCCGCCGTGAATGCCTCTGTCGTAAAGGAATAA	MLHRRIGKTAVAAVLALSLLGTAPHIGQVHAAPAISVTLDDVALTFDAAPRIDKGVTYVPFRTVGEALGIQITWNSKTQTVKAIGKVKGQPTEVLLQVGSSSATVNGKKVKLAAPPVQREGRVLIPLSSFSSQFGVNVGWNQATRTVSLVSPQREMHLRAFYALQSFQERDLVPSMNSVAFGWSRIDREGQFTLQGDEYRLPAAAGDVTPQSIVADAADREIKPYLMVYALDGNGELTKVLSDSSLRQKSIEGITTAVADNGFGGVVLDFEGLGFKLDAAKQQKLLNDYVKQLKAALPGDIALSLAVPPLNSAYKGYDYKTLASLADDLIVMAYQYNPVGTKAQVPEPNSLVDQAIQQALQAGVPKQKLLLGISLSSETATSVDDKLGLAKRYDLKGAAFWRLGLFRSYNNGMEAAVNASVVKE				NA	NA	NA	NA	NA
AK002_03847	477			hypothetical protein	TTGAAGAAGTTTGTCATCACATTGCTTGGGTCTGCAATTATTTTTTCTTCAGGTGCCGTATCAGCCTATGCTGATCAACAACCGAATTTTCAGCATCAAGTGAAGCAATTGGTAGGAACGCCTTATAAATGGGGCGGAACAACGACAAGCGGATTTGATTGCTCCGGATTTATTCTGTATATGTTTAGAAATTTCGACGTAGATCTTCCACGCACATCCCAGAGTCAGGCTAAAGCCGGGGTTCATGTGGATCGCGAGGACCTGAGAGTCGGAGATTTGGTATTCTTCAATACAAGCGGCAGCGGCATTTCCCATGCGGGCGTTTACATTGGAGATGGACAATTTGCGCATGCTTCCAGCAGCAAGGGCGTAAGAATCAGCAAGCTTAGCGACTCGTATTACGAACCGCGTTATGTTACGGCGCGCCGCGTATTGAGTCAAGAGAATTATGCCAAACTGGTAGGAAGCGCAAGCTAA	MKKFVITLLGSAIIFSSGAVSAYADQQPNFQHQVKQLVGTPYKWGGTTTSGFDCSGFILYMFRNFDVDLPRTSQSQAKAGVHVDREDLRVGDLVFFNTSGSGISHAGVYIGDGQFAHASSSKGVRISKLSDSYYEPRYVTARRVLSQENYAKLVGSAS	PGPT0023820_655	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
AK002_03849	513			hypothetical protein	ATGGCTGAAGCTTTGGCAGTCCGGGCAGCAATCAACCGTCTTATGAATCAATTGATGTCGGAACGTTTGAACAACAGCAGCACGATCATTGAAAAAGGGGAAACGGCGGAGTATCCTGCACGCAGCGTGGATGCCATTACGGAAGAGATCGAAGCCGCCGCAGGGGATTACAGAAAGCTGGATCTGCTGATGGCAATCTCCAACACGACGCAGACCATTAGTTGGAACGGCTCCGACATGACCATCATGGAGGCGATCGAGCTCGCCAAACAAATGCGCAGCGATATCGGACAGCTTGCCCATCTCGGCTCCCGCAAGAAGCTGGAGCGCCAGAGCAGCCGGGGAAGCGGAGATGGCGCCGTAACGCTGTTTAACGTGGCCTTATACGATCCGGAAGCTTATCAGGCGCAGGCGCGCAAGAAGGAACGCGAAGTGACCAGGCTCTCCTCACTGATCGAACATGCTAACCATACGAGCATGATTACGTTCGACGCATCAAAATATATGGAATAG	MAEALAVRAAINRLMNQLMSERLNNSSTIIEKGETAEYPARSVDAITEEIEAAAGDYRKLDLLMAISNTTQTISWNGSDMTIMEAIELAKQMRSDIGQLAHLGSRKKLERQSSRGSGDGAVTLFNVALYDPEAYQAQARKKEREVTRLSSLIEHANHTSMITFDASKYME				NA	NA	NA	NA	NA
AK002_03850	954	glkA		Glucokinase	TTGCAAACCGAATGGAATAAACAGCAAGAATTTGTGGTTGGCGTTGACCTTGGGGGTACGAAGATCGCGGCAGCGCTCTTTGATTCCGAAGGACAGCTGCTGAACCGGGAGCAAATGGAGACAGCCGGAGCGCGTACGGCCGAGGAAGTGGTCGCTAGAATTACGAACATGATTCGCAGCGTGTCGGGCGGCCACCCGCTTCGAGGCGTAGGCATGGCTTCGCCGGGAACGGTTAACAGCCGGGAGGGCATTGTCATTCACGGCACGAATTTGCCGGAATGGACCAACGTCCCTCTCAAAGCCTGGATGGAACGTGATCTGAATACGGAAGTACAGGTGCTGAATGATGCCAATGCAGCCGCATGGGGCGAATATGTAAGAGGTGCCGGCCGAGGGTCGACGAATATGGTTTACGTGACGCTCAGCACAGGCATCGGATCAGGCATCGTGCTGGATGGCAAGCTGTTTCTGGGCAGCAATTCCTTTGCGGGGGAGCTTGGGCATCATATCATTGATCCCAGCGGTCCGCAGTGCAATTGCGGCAGCCATGGCTGCTGGGAGGTGTTTGCTTCAGGAACGGCCATCGGCCTGGCAGCATCCCAGCGGATGCTTACCCAACCCAGCGTTATTTCCGAACTGGCCGCAGCCGATGGTGGCGTGAACGCCAGGCATGTATTCGAGGCTAAACGTCTTCATGACCCCGTCGCAATAGAGGTCATCGATCGCGCCGTCTATTACATGGCGCTTGGACTGGTTAACGTCATTCACAGCTTCAACCCCGATCGCATCGTGGTTGGCGGGGGTGTGAGCAGAGCAGGGGAGCTCCTATTCCCGCAGCTGCGGGAAATGACGGATAAGCTGGTCATGCCGTCCTATCTAGGAACGTACGAGATCGTTCCTGCGGGACTGCGGGACGATGTTGGCCTGGTGGGAGCCGCAGCCTTGTTCCAATAA	MQTEWNKQQEFVVGVDLGGTKIAAALFDSEGQLLNREQMETAGARTAEEVVARITNMIRSVSGGHPLRGVGMASPGTVNSREGIVIHGTNLPEWTNVPLKAWMERDLNTEVQVLNDANAAAWGEYVRGAGRGSTNMVYVTLSTGIGSGIVLDGKLFLGSNSFAGELGHHIIDPSGPQCNCGSHGCWEVFASGTAIGLAASQRMLTQPSVISELAAADGGVNARHVFEAKRLHDPVAIEVIDRAVYYMALGLVNVIHSFNPDRIVVGGGVSRAGELLFPQLREMTDKLVMPSYLGTYEIVPAGLRDDVGLVGAAALFQ				NA	NA	NA	NA	NA
AK002_03851	687	cutC	COG3142	Copper homeostasis protein CutC	ATGCTGCTTGAAATTATCGCAACATGCGTGGACGATGCCATCACAGCCGAGAAGAATGGCGCGGACCGTCTGGAATTGATCACGGCGATCACCGAAGGCGGGCTCACGCCGGGCATCGGTCTCGTGGAAGAGGTCGTGAAAGCCGTTCAGATTCCGGTCCATGTGATGGTAAGGCCCCATAGCAGATCCTTTGTGTATAACTCGCTGGATATAGCAACCATGGTTGCGGAGGTGAAGGCGATCCGCAGGGCGGGTGCGGCTGGCGTGGTCCTTGGCATGCTGACTCCGGAAGGAAAGATCGACGAGGCCGCCTTGGCCCAAATGCTGGAATGGACGGGCGATATGCAAGTGACATTCCACCGGGCTTTTGATGAATTGGAGGATCAATTCGAAGGGCTGCGTACGTTGCAGAAATACTCGGCCGTCACCCGCGTCTTGACGTCGGGAGGACCGCAGCCGGCACCGCAAGCAATCCCAAGGATCCGCGAGCTTGTGGAACAAGCCGCAGGCAGCGGGCTAAAGATATTGGCCGGGAACGGCCTGAAGTGGGAAATCATACGCGATTTCATCGACCAGACCGGCGTGAGCGAGGTTCATTTCGGCTCAGCTGTCCGGTATGGCCGATCAGGGCTGAAGCCCATTGATCCGGTCGAGCTGCGATCATTGGCTGATAGCTTACATCAATAG	MLLEIIATCVDDAITAEKNGADRLELITAITEGGLTPGIGLVEEVVKAVQIPVHVMVRPHSRSFVYNSLDIATMVAEVKAIRRAGAAGVVLGMLTPEGKIDEAALAQMLEWTGDMQVTFHRAFDELEDQFEGLRTLQKYSAVTRVLTSGGPQPAPQAIPRIRELVEQAAGSGLKILAGNGLKWEIIRDFIDQTGVSEVHFGSAVRYGRSGLKPIDPVELRSLADSLHQ	PGPT0004085_1655	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004085-cutC-K06201	NA	NA
AK002_03852	1461	pepA_1	COG0260	putative cytosol aminopeptidase	ATGAACATCACCATCGATGAAGTTCAGTTGGCAGATACTTCGATTTATGCGGTTTATGAGGGGGAAGAGTCTCATTACCGCGTAACGGAATCCCGGAAGCAAAGCATGACGCTGACTTGGTTCTATGGACGTTCCGAGCACGAGTCGGACGATCTCGTTGCCGGAATGGGGCCACGTTCTAACCTGACTTCGGAGCAGGTGAGAAGAACGGGCGCTTCAGCCGCGAGAGCGCTGCTCAAGGAGAATAAATCAAGCGCAGTGCTGATCCGCCCGGCATCCCGCGATGTCGGAGCAGCTTCGCGGATTTCGGCGGAGGAAGAACTCCAAGCGTGGTTGGAAGGCTGGCTGTACGGATTATATCAATTCAATAAGCATCGCGGGGTTACGGCCAATCTGCAAGCCCTGTCCCTTCATCTTCGACAAGAGGACTGGGAGGGGCTTTCCCGTGAAGATATGGAAGCCATCATCCGGACGGCGGAAATCCGGATCGAAGGAACGCAGCTCACCCGAGACTTGGTGAATGAATCACCTGAGACGTTAAATCCGGAGGCGTTTGTTGCGGTCGTTGAGGATCGTTTCAAAAAAGCGCCCGTAGACCTTCACGTATACCGCGGACAAGAGCTTCATGACCGGCAGATGAACGGACTGATCGCCGTGGGTGCCGGCAGCAAATACGAGCCAGCGATGATCGAGATTTCCTACAATGGAGCGGAATCCGGGAAGGAAAGCCCTCATATCGTGCTTATCGGCAAAGGCGTTACCTTTGATATGGGCGGCATGAACGTTAAGATCGGCCGAGACATCAGCGATGCCCGCATGGATATGGGCGGCGCAGCCGCCGTCGTGGGCGCCATGGATATTCTGGTGTCGCGGAAAGCTCCGGTACGGGTTACGGCATTGATCGCCGTAGCGGATAATTTATCGGGGCCGGATGCGATGCTTCCCTCTTCCGTCGTTCACTATCCGAACGGCCTGAGCGTTCAGGTAGCGAATACGGACGGAGAAGGAAGATTGATCATTGCGGACGCGCTGTTGCACGCAGCCCATCTTAACGCAGATAAGGTGATCGATATCGCTACTCTTACCGGCAATGTCGGTGCGGCATTAGGCTTGGAGATTGCCGGCATTTGGGGTGATCAAGAGATAACGGCCGATTTGGTCGAGATCGGGGAGCGCAACGGAGAGCGCCTATGGCCCATGCCGCTAATGGACGAGTATGAATCCGAGCTCAGAAGCGATTATGCCGACCTGAGGAATGTAGGCACGTCGACTTTGGCAGGCGCGATAACGGCTGCGTTGTTCATCCGTCATTTTGTTGCGGAGACCATGAAATGGGTGCATATCGATATGGCAGGCACGGTCCAGTATAAACGGGAATTCCCTCACTCCGCGGCAGGGGCTACCGGCTATGGAGCCAGGCTGCTGGCGGACTATGTGGAGAAGCAGTTTCGCCCTGCATAA	MNITIDEVQLADTSIYAVYEGEESHYRVTESRKQSMTLTWFYGRSEHESDDLVAGMGPRSNLTSEQVRRTGASAARALLKENKSSAVLIRPASRDVGAASRISAEEELQAWLEGWLYGLYQFNKHRGVTANLQALSLHLRQEDWEGLSREDMEAIIRTAEIRIEGTQLTRDLVNESPETLNPEAFVAVVEDRFKKAPVDLHVYRGQELHDRQMNGLIAVGAGSKYEPAMIEISYNGAESGKESPHIVLIGKGVTFDMGGMNVKIGRDISDARMDMGGAAAVVGAMDILVSRKAPVRVTALIAVADNLSGPDAMLPSSVVHYPNGLSVQVANTDGEGRLIIADALLHAAHLNADKVIDIATLTGNVGAALGLEIAGIWGDQEITADLVEIGERNGERLWPMPLMDEYESELRSDYADLRNVGTSTLAGAITAALFIRHFVAETMKWVHIDMAGTVQYKREFPHSAAGATGYGARLLADYVEKQFRPA				NA	NA	NA	NA	NA
AK002_03853	990	oppF_4	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAAAGAAACACCTTTATTAGAAGTAAAAAACTTGCAGAAATCATTCACGGTGAAAAAAGGGTTCTTCGGTACGTCCAAGCAGCTCCGTGCCGTGGATGGCATCTCCTTCGCAATCCATAAGGGCGAGACCTTCAGCCTGGTTGGCGAGAGCGGCTGCGGCAAATCGACGACCGGCCGGCTGGTGACCCGCCTGCTGATGCCGAATAGCGGCGAAGTGATTTTTAACGGAACCGACATTAGCGGATACAACGAAAATCAGATGCGTCCGCTGCGCAAAGACATGCAGATGGTCTTTCAGGATCCGTACGCTTCCCTTAACCCAAGAATGAAAGTCAAAGAGCTCGTAGCGGAACCCTTGCTGATTCATACCAAGCTGAGTTCCAAAGAGCGCGATAAACTGGCTTGCGAGCTGTTGGAAACGGTCGGTTTGAACAGCTTCCATGCCGAACGCTTCGCCCATGAGTTCAGCGGCGGGCAGCGCCAGCGCATCGGCATTGCCCGAGCATTGTCCGTGCGCCCCAATCTGATTGTAGCCGACGAGCCTGTATCGGCACTGGACGTATCCATTCAATCCCAGGTATTGAACCTGCTGCAGGATCTTCAGGAAGAATACGGCCTGACCTATCTGTTCATCTCCCATGATCTCAGCGTGGTTGAGCATATCAGCGACCGGATCGGCGTCATGTATCTGGGCGCGCTCGTGGAGACGGCCGATAAGGATACGCTGTATGATCGCCCGCTTCATCCTTACACTCAAGCGCTGCTGTCGTCGGTGCCGGTTCCGGATCCGAAGATGAAGAAGGAACGGATCATTCTGAAGGGGGATCTGCCGAGCCCGGTCAATCCGCCGACAGGCTGCCGATTCCATACCCGCTGTCCTTCCTGCATGGAAGTATGCAAACAGATTACGCCTGTATACCGTGAGATTGAGCCGGGACATCAGGTGGCTTGCCATTTATATGACGAAGAAATCATGAAAAAGGCGTAA	MKETPLLEVKNLQKSFTVKKGFFGTSKQLRAVDGISFAIHKGETFSLVGESGCGKSTTGRLVTRLLMPNSGEVIFNGTDISGYNENQMRPLRKDMQMVFQDPYASLNPRMKVKELVAEPLLIHTKLSSKERDKLACELLETVGLNSFHAERFAHEFSGGQRQRIGIARALSVRPNLIVADEPVSALDVSIQSQVLNLLQDLQEEYGLTYLFISHDLSVVEHISDRIGVMYLGALVETADKDTLYDRPLHPYTQALLSSVPVPDPKMKKERIILKGDLPSPVNPPTGCRFHTRCPSCMEVCKQITPVYREIEPGHQVACHLYDEEIMKKA	PGPT0004440_7489	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
AK002_03854	1005	oppD_5	COG0444	Oligopeptide transport ATP-binding protein OppD	GTGACGCAAACATTGCTTGAAGTTAAAGGTCTCAAAACCGAATTCAAACGCGATGGCTCATCGGTGCTTGCCGTAGCAGGAGTGGATTTTCATATCAATAAAGGCGAAGTGCTCGGGCTCGTGGGTGAATCCGGATGCGGCAAAAGCGTGACCTCCCTGTCCATCATGAGGCTTCTTAAAGACACGCCCGGCCGAATATCCGGGGGCTCGGTAAGCTTTGAGGGCAAGGATCTCGTGCAAATGTCGGAAAAAGAAATGCGCCGCTATCGCGGAAATGAGCTGGCCATGATCTTCCAGGAGCCGATGACGTCGCTGAATCCCGTCCTTCGGATCGGAAAGCAGCTGGAGGAAGCGATTATGCTGCACTTGGGATACGGCCGCAAGAAAGCGCGGCAGCATGCCATCGATTCGCTCAAACTCGTCGGCATTCCGCGGGCGGACGAGGTCGTGGACGACTATCCGCACCAATTGTCCGGCGGCATGCGCCAGCGGGTCATGATTGCGATGGCCATGTCGTGCAATCCGAAGCTGCTGATCGCGGACGAGCCGACAACCGCCCTGGACGTTACGATTCAGGCTCAAATCCTGGATCTGATGAATCGACTCAAGACGGAACAGGAAATGGGCATGCTGCTCATTACCCATGACCTCGGCGTTGTGGCTGAAATGTGTGACCGGGTGGTTGTCATGTACGCTGGCCGAGTCGTCGAAGAGGCGACGGTCGAGGAATTGTTTGAGAACCCGCAGCATCCCTACACCAAAGGACTCATTCATTCGGTACCCAAGCTTAGACAAAAGGTGCGCCGCTTGGAATCCATTCCGGGGAATGTGCCGGATCTGCGGAACATGCCGCAAGGCTGCAAATTTGCTCCGCGGTGTCCGTTTGTCATGGAGCAGTGCCTCTCCCGGGAGCCAGAGCTTCTCCCCGTTGTAAATGAAGAACATCGCAAAAGCCGCTGCTGGCTGACACAGGAAGGTCACTCGAAGGGAGGAGAAACCGCATGA	MTQTLLEVKGLKTEFKRDGSSVLAVAGVDFHINKGEVLGLVGESGCGKSVTSLSIMRLLKDTPGRISGGSVSFEGKDLVQMSEKEMRRYRGNELAMIFQEPMTSLNPVLRIGKQLEEAIMLHLGYGRKKARQHAIDSLKLVGIPRADEVVDDYPHQLSGGMRQRVMIAMAMSCNPKLLIADEPTTALDVTIQAQILDLMNRLKTEQEMGMLLITHDLGVVAEMCDRVVVMYAGRVVEEATVEELFENPQHPYTKGLIHSVPKLRQKVRRLESIPGNVPDLRNMPQGCKFAPRCPFVMEQCLSREPELLPVVNEEHRKSRCWLTQEGHSKGGETA	PGPT0004435_9392	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
AK002_03855	909	gsiD_3	COG1173	Glutathione transport system permease protein GsiD	ATGAGCGACAATTCAACAGTGACGGTCCATTCCTCCGCACCGGAGGATATGCTTGCAAAGAGTCAGGCAACTGGCAAATTCAAAGCGTTTACGTCTAAATTCTTGAAACAAAAGCTTGCCGTTATATCAAGCGGTTTTATTTTGTTACTACTTGTGCTGGCGGTGATCGGTCCGCATATCGTTCCGTATCCTCCCAATGAGCCAAACTATGATGCGATGATGCAAGGCCCGTCTGCTGCTCATTGGGCAGGCACGGACGAGTACGGCCGCGACATTCTCAGCCGCTTGATCGACGGTACACGGTTGACCATGTCGGTCAGCTTAAGCGCCGTATTTATATCCGCCGTGCTGGGCACGATTCTCGGATTGATCAGCGGGTACTATGGCGGGTGGCTGGATCGCCTCATCATGCGGGGCAGTGACGTCATGTTCTCGTTCCCTGACCTGCTGCTGGCCATCGGTATCGTGGCGATACTGGGACCGGGCTTATCCAATGTAGTCATTGCGGTGGCGGTCTTCGGGACCCCGTCGTTTGCCAGAATCATTCGAAGCGTGACGCTCTCCGCAAAGGAATCTTTATATGTAGAGGCAGCACGGTCCATGGGTGCCAAGCATAACCGGATTATCTGGAAACATATTTTTCCCGAGACGGTTCCCAGCATTATCGTCAACGTATCGATGAGAATCGGCGGCGCCATTCTGGCGGCTTCTTCGTTAAGCTTTCTCGGCCTCGGGGCCAAGCCGACGGAACCGGACTGGGGCGCCATGCTCAGCATGGGTCGGGATTACTTGAGTATTGCACCCCATATCGTGTATTATCCGGGGCTTCTCATATTCCTGACCGTGCTCGCATTCAACCTGATCGGTGACGGACTGAATGATGCCCTTGATCCGAAGACGAAAAACTAA	MSDNSTVTVHSSAPEDMLAKSQATGKFKAFTSKFLKQKLAVISSGFILLLLVLAVIGPHIVPYPPNEPNYDAMMQGPSAAHWAGTDEYGRDILSRLIDGTRLTMSVSLSAVFISAVLGTILGLISGYYGGWLDRLIMRGSDVMFSFPDLLLAIGIVAILGPGLSNVVIAVAVFGTPSFARIIRSVTLSAKESLYVEAARSMGAKHNRIIWKHIFPETVPSIIVNVSMRIGGAILAASSLSFLGLGAKPTEPDWGAMLSMGRDYLSIAPHIVYYPGLLIFLTVLAFNLIGDGLNDALDPKTKN	PGPT0013030_393	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013030-gsiD-K13891	NA	NA
AK002_03856	927	gsiC_4	COG0601	Glutathione transport system permease protein GsiC	TTGGGAAGATATGCAATTCAGAGGCTGCTGGGTGTAATCCCGCTGTTGTTCGTTGTATCCATCCTTGTATTTATGTTCATTCACCTGATTCCTGGAGATCCGGCACGGCTTGTTGCAGGTAAGGATGCCACCCTTGAGGAGATCAACGGGATTCGAGAGCAGCTAGGCTTAAACTTGCCGCTATGGCAGCAGTATGTGAACTACATGAGTGATCTGTTGAAGGGTGATTTGGGTGTATCCGTTACTTCCGGTTTGCCGGTGACGGACATGTTGGAAAGCCGCTTTTTCCCGACGATTGTCCTGACCTTTACCAGCCTCGGCTGGGCATTGGTCATTGGTCTGATCATTGGTATCATATCAGCAGTCAATCGCGGCAAATGGCCGGACTATATCGGGATGCTGACGGCTATATCGGGTATTTCCCTGCCAGGTTTCTGGCTTGGTCTAGTACTGATTCAAATTTTCTCCGTTGAGCTGGGCTGGTTCCCTACAGGGGGCGTCGACAGCTGGCAATCCTATATTTTGCCTTCCTTTACGCTGGGAGCGGGGATTATGTCCATGTTGGCAAGATACTCCCGTACTTCGATGCTCGAAACGATGCGCGAGGATTATGTCCGGACCGGACGCGCGAAGGGCTTGCGGGAATTCGTCGTTGTCGGCAGGCATGCGCTGCGCAACTCCCTGATCCAGGTCGTGACCGTAGCGGGCCTTCAGTTCGGATTTTTGCTGGGCGGCTCGGTTATGGTCGAGACGGTATTCAGTATTCCCGGCATGGGGCGTCTCTTGGTAGATTCCATCGCGTTTCGGGATTACACCGTGATTCAAGCGCTTCTATTGCTGTTCGCAGCCGAATTTATCCTGATTAACCTGATTGTCGATTTATTGTACGGTGTACTGAATCCAAAAATCCGGTATGCATCGAAATAG	MGRYAIQRLLGVIPLLFVVSILVFMFIHLIPGDPARLVAGKDATLEEINGIREQLGLNLPLWQQYVNYMSDLLKGDLGVSVTSGLPVTDMLESRFFPTIVLTFTSLGWALVIGLIIGIISAVNRGKWPDYIGMLTAISGISLPGFWLGLVLIQIFSVELGWFPTGGVDSWQSYILPSFTLGAGIMSMLARYSRTSMLETMREDYVRTGRAKGLREFVVVGRHALRNSLIQVVTVAGLQFGFLLGGSVMVETVFSIPGMGRLLVDSIAFRDYTVIQALLLLFAAEFILINLIVDLLYGVLNPKIRYASK	PGPT0013025_318	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013025-gsiC-K13890	NA	NA
AK002_03857	1590	gsiB_4	COG0747	Glutathione-binding protein GsiB	ATGAGATTCAAAGGTAGAACATGGTCACTGCTCATGCTGCTGCTCGCATTTACGATTGTTGCGGCAGGCTGCGGAGGAAACAGCGGAAGCGGCAAAGGGGCAAGTGAAGGCGGCGGCGAGAGCAAGCCGGTGACAAAAGATAACAAAGATGTTGTCATTGCGATTAACGCCAACTTCATAACGCTTGACCCTCACAATGCCGGAGACACGCACTCCATCTCCGGTGCTCGCACGATGTATGAAGGATTGATGGGCTTCAACGAGAAAATGGAACTCGTTCCTGTGCTGGCTGAAGATTACAAGATCAGCGAAGACGGTCTGACCTACACGTTCAATCTGCGCCAGAACGTGAAGTTCCATGATGGAACGGATTTCAACGCAGAAGCTGTAAAAGCCAACCTGGATCGCATCATGGATGAAAAGAACAACCTGAGAATGCGCAAGAGCTTCTCTACAGTAGCCGATGTTCAAACTCCGGATGAACACACCGTTGTCATCACCCTTAGCCAGCCTTACAACGCTTTCTTGAACAAAACGGCCATGGCGCTGATGATCAGCCCGAAAGCACTTAAGGAAAGTGCCGACATCACGAAGAACCCTGTAGGTACGGCGGCTTACAAGTTCAAGGAATGGATTCAAGGCGACCGACTTGTCGTTGTGAAGAATGAAGATTACTGGCAAGAAGGACTTCCGAAGGTGGACAGCATTACGTTCAAACCGGTACCGGAGAACGGTTCCCGGATCGCGATGCTGAAAACGGGCGAAGCGGACTTCATCTATCCTATGCCGACAGAGCAAGTGTCCGAAGTAGAAGGCGATTCCAATATCGTCATCGATAAGACTGATTCTACGATCGTGCGTTATATCACGCTGAATACGATGAAGAAGCCTTACGACGATCTGAAGGTGCGTCAAGCGATCAACTATGCCATCGATAAAGATGCTTACATTAAAGTCGTTAAATCCGGACTGGGTTCGAAGCTGACTTCTTCCATGTCCTCGATGACCCAGCATTACTCCGAGCAATCCGGTTATGATTATGATCCGGAGAAAGCCAAGGCTCTTTTGGCTGAAGCAGGATATCCAGATGGATTCGAAGCTGAGATTTGGGGAGAGAATGATTCCGAAACGGTAAAAGGCATGCAGTTTATTCAGCAGCAGCTTGCCCTCGTCGGAATCAAAGCTGAACCGAAGTCGATGGAGGGTGCAACCCTGTCCGATCAGATTAACTCGGCTACGCCGGAAAACGCAAAAATTCAAATGTGGTACGTAAGCTGGTCTCCTTCGTCTGGCGATGCCGACGGTGCGACAAAAGGTCTGTTCAGCAGCGAGTTCTTCCCGCCAGCGGGTTCCAACACCGCTTACTACAAGAACGATAACGTTGACCAATGGATCAAAGATGCTAACGCATCCGTCAAAGCTGAAGATGCCAAAGAAATCTATGCCAACATCCAAAAACAAATCTGGGAAGATGCTCCTTGGGCATTCCTCGGAGTCGATCAGGTCATCACGGGCAAACGTGCTTACCTTGAAGGCGTGAAGGCCCTTCCGGACGGATCGATCAGCGTGATCAACGCGGAAGTCAAATAA	MRFKGRTWSLLMLLLAFTIVAAGCGGNSGSGKGASEGGGESKPVTKDNKDVVIAINANFITLDPHNAGDTHSISGARTMYEGLMGFNEKMELVPVLAEDYKISEDGLTYTFNLRQNVKFHDGTDFNAEAVKANLDRIMDEKNNLRMRKSFSTVADVQTPDEHTVVITLSQPYNAFLNKTAMALMISPKALKESADITKNPVGTAAYKFKEWIQGDRLVVVKNEDYWQEGLPKVDSITFKPVPENGSRIAMLKTGEADFIYPMPTEQVSEVEGDSNIVIDKTDSTIVRYITLNTMKKPYDDLKVRQAINYAIDKDAYIKVVKSGLGSKLTSSMSSMTQHYSEQSGYDYDPEKAKALLAEAGYPDGFEAEIWGENDSETVKGMQFIQQQLALVGIKAEPKSMEGATLSDQINSATPENAKIQMWYVSWSPSSGDADGATKGLFSSEFFPPAGSNTAYYKNDNVDQWIKDANASVKAEDAKEIYANIQKQIWEDAPWAFLGVDQVITGKRAYLEGVKALPDGSISVINAEVK	PGPT0013020_367	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-GLUTATHION_METABOLISM,PGPT0013020-gsiB-K13889	NA	NA
AK002_03858	1005			hypothetical protein	ATGGGATTTGTGCCATTGGTAGAGGAATATCGCGGGAACGTATTGGAGAACGTGCACTACGGCGCGATCAGCGTCGTAGATGAGAAAGGAATGGTTGTATACGCAGCGGGCGATCCGCATCACATGACCTTTTTAAGATCGGCAGCCAAGCCGTTCCAGGCAATTCCGGTAATGAAACGCCGGATTGACGAAGTGTACGGACTAACGGGGGAAGAAACGGCCTTGTTTGCCGCCTCCCATCGGGGCGAGCGATTCCACATTGATGCATTGGAATCCATTCTGAAGAAAACCGGGATTCGGGAAGAGAACCTTCACTGCTGCGCGACTTATCCATTGAACGAGGATGCTAAGGCGCAGCGCCATCGCGATCATGAGGAGAAGCGCAGAATTTTCCATAACTGCTCCGGCAAGCACAGCGGCTTGATTGCCCTATGCAAGCATATGGGCTGGGACGAAAGCACGTATTACAAACCGGAGCATCCGGTTCAGCAAGAGATCCTCGAGACGCTGGCTTATTTTGCCGAGGTTCCGGTTTCCTCGATCCCGCAAGGCATTGACGGCTGCGGACTTCCCATCTTCGCGCTTCCTCTGGATCGCATCGGGTATTCCTTCCTCAAGCTGGCATGCCCGGATTTGATCGAGGATCCAGAGACTGCAGAAGCAGCTGCCAGAATGGCGAAGTTGATGAATGAGTATCCGGATATCATTGCAGACACCAAATTTGTGTGTTCAGCTTTGCTCCGGGACCACAACCTGACAGCCAAGGGCGGCGCGAAGGGCGTGTACGGCATCGGTCTTCGGAAAGAACGCTTGGCGATTTCGCTTAAAGTATCCGACGGCTCCGAGCAGGTATGGCCATGCATCATCGCTTCCATCCTGGAGCGTCTCGGCTACAGCGATCAGTCTACGATTGACCGGTTGTATGAGCTGGTTCCGAATGCAATTTTCAACGATGGGGGCACGCTTGTCGGTGAACGGCGCGCCGTGTATGAATGGAATGCTTAA	MGFVPLVEEYRGNVLENVHYGAISVVDEKGMVVYAAGDPHHMTFLRSAAKPFQAIPVMKRRIDEVYGLTGEETALFAASHRGERFHIDALESILKKTGIREENLHCCATYPLNEDAKAQRHRDHEEKRRIFHNCSGKHSGLIALCKHMGWDESTYYKPEHPVQQEILETLAYFAEVPVSSIPQGIDGCGLPIFALPLDRIGYSFLKLACPDLIEDPETAEAAARMAKLMNEYPDIIADTKFVCSALLRDHNLTAKGGAKGVYGIGLRKERLAISLKVSDGSEQVWPCIIASILERLGYSDQSTIDRLYELVPNAIFNDGGTLVGERRAVYEWNA				NA	NA	NA	NA	NA
AK002_03859	1161	nagC_1	COG1940	N-acetylglucosamine repressor	ATGAAAAAGCATGATCAAGACTTTATGAAGCGGCAGAACAGACTCACAGTATTTCAAATCATCAAGAATGAACAGCCGATTTCAAGAGCCGTCATTGCCAAACAGACGGGCATGAGTCCGACAACGGTCAGCCGGATCGTATCGGAGCTGACGGAGGAAGGATACGTTCACGAAACGGAAGAGCAGGCCTCGGCCGGCCGCGGAAGAAAGTCTTCCTTAATAAGGCTGCTGGATACGGCGGTCATCTCGATCGGCGTCGAGCTGGATCGGCATCAGGCGAATATCGGATTCATTGATGTTCAGGGTAACGTATTGTGCAGCGGAAGCTTTTCAAGATCATCCGATGAAACGGCAGATGTCACGGTGACCCGGATTGCGGAAACCATAGAAGAGATGATCGCCGAATGCGATATCGACCGAAGACGGGTGGTCGGCATTGGCGTTGGACTGCCGGGCATCATTGATGTCGACGCCGGCATCGTCAATTTTTCGGTACAGCTGGGATGGAAGAATGTGAGCCTCGCCGAGAGGCTCAAGGAACTAACCGGGCTTCAAGCTGTCGTGGACAATGAACTGAAGGTGAAGGCGTTGGCGGAGCAGCTCAAGGGTTCGGCCTACGGCTCCAACCGTACGGTGCTCCTGGGCTTCGGTAATGGCGTCGGATCGGCGCTCATTCTGGAGGGGGAGATTTACCGCGGGGTGACGAACAGCGCCGGGGAAATCGGTCACACGACCGTGGACCCTGAAGGCATGATGTGCGACTGCGGGAAAGCCGGATGCCTCCAAACGTATATCAATATACCGTCCTTGTTGTCGGAAGCCAGCAAAATCAAACCCGTTCGCACGATCGAGGAGCTGTTCGCGGAGAGGCGGGCCGGAACGCGCTGGGCAAGCTATTTGATCGATCGGGCCCTTGCCTATATGGCGATTACGATCAACAACGTCGTCAGCATGTACAATCCGGACAGCGTCATTTTGAGCGGCGAGTTTCTGGACAAGTTTCCCGAAGTGTACGAGGAGATCACCAACCTGTGTTACTCGCAGTATATCTGGGAACCGCTTCAAGAATCCTTTGCGATAGTTCGCTCGGAGCTTCACGAGCATGGGGTCATCATCGGGTCGGGACTTGTCGCACAGGATCGTTACTTTCAATTGAATTAA	MKKHDQDFMKRQNRLTVFQIIKNEQPISRAVIAKQTGMSPTTVSRIVSELTEEGYVHETEEQASAGRGRKSSLIRLLDTAVISIGVELDRHQANIGFIDVQGNVLCSGSFSRSSDETADVTVTRIAETIEEMIAECDIDRRRVVGIGVGLPGIIDVDAGIVNFSVQLGWKNVSLAERLKELTGLQAVVDNELKVKALAEQLKGSAYGSNRTVLLGFGNGVGSALILEGEIYRGVTNSAGEIGHTTVDPEGMMCDCGKAGCLQTYINIPSLLSEASKIKPVRTIEELFAERRAGTRWASYLIDRALAYMAITINNVVSMYNPDSVILSGEFLDKFPEVYEEITNLCYSQYIWEPLQESFAIVRSELHEHGVIIGSGLVAQDRYFQLN	PGPT0018870_488	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018870-nagC-K02565	NA	NA
AK002_03860	237		COG1146	Ferredoxin	ATGTATGTTATTGGCTCAGCTTGTATCGAAGAGAAGGCGGGCGAATGCGTTGACGTTTGCCCAGTGGATTGCATCGAAGAAGGGGACGACCAGTTCTACATCGACACCGATATATGCATTTCCTGCGGTGCCTGCGAAGCGGCGTGTCCGGTTGCGGCCATTTACTATTTTGAGGACCTGCCTGAGGACGAAAAGCATTATTTCGATAAAGCGGTGGAATATTACAAAAACAAGTAG	MYVIGSACIEEKAGECVDVCPVDCIEEGDDQFYIDTDICISCGACEAACPVAAIYYFEDLPEDEKHYFDKAVEYYKNK	PGPT0030810_1605	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
AK002_03861	648			hypothetical protein	GTGGATCAAGAAGTTGCATACAGCACCCGCGAGTATATCATGCAAATGTTGAAAATAAATGGTGAACTCAGCACGAAATCCATTACCGAGGCACTGGGCATTACGGGCATGGCCGTCCGACGTCATCTGGAGAGCTTGAAGAATGAAGGGTACATCACGTATCGAACCGTGAAACAGCCGATGGGAAGACCCGTCTCCCTATACAGTCTTACTGAATCTGCAGAGGATTTTTTCCCTAAGAACTATCATTCGCTTGCCCTCGATCTGCTTAACGAGCTCCAGGACGAGGCCGGGGACGAAATGATATCTTTACTGTTCGACAAGCGCAAAGACACGTTGCTGAACAAGTACACGCCGACGGTAAAAGCCGAAACTCTCGAAGATCGGGTCGCAGCCCTTGCCCAGATTCAGAATGACAACGGATATATGGTGGATTACCAAAAAGTCACGGATGAAGAATACGTCCTTGAAGAACTGAACTGCCCGATTTCCCAGGTAGCCAACCGATACCAGCATGCATGCCGCTGCGAGCTTGATCTGTTTCAATCCTTGCTGGGAGCGGATGTGGAACGTACCGAGTGTCTTGCCAAAGGCGATAAGAAATGCGTGTACCGGATCCGTAAACAAGCCGAAGCCAAACAAACATAA	MDQEVAYSTREYIMQMLKINGELSTKSITEALGITGMAVRRHLESLKNEGYITYRTVKQPMGRPVSLYSLTESAEDFFPKNYHSLALDLLNELQDEAGDEMISLLFDKRKDTLLNKYTPTVKAETLEDRVAALAQIQNDNGYMVDYQKVTDEEYVLEELNCPISQVANRYQHACRCELDLFQSLLGADVERTECLAKGDKKCVYRIRKQAEAKQT				NA	NA	NA	NA	NA
AK002_03862	1089			hypothetical protein	TTGAAACAAAAGATGTTCGGCGTGATGTTTACAGCGGCGCTGCTGTTTCTTGCTGCATGCACAAGCCAGTCGTCCCCTTCGGCTGAAGAAGGAGCGCAGGAGGAGCGGGGGGAGGCAGCTCCTGATTCTTCCTATCAGGTGCTTGCGGAGCAATTGAGAACGCCTTGGTCCATCGATTTTGACGGCGAGACGATTTATATCAGCGAGCGGGAAGGGAATATCGTTCAGATCAAGGACGGCACATTGAACAGACAATCGGTACATACCGAGAAGCCGGTTTCCCATCAAGGAGAAGGGGGGTTTTTGGGCTTCGCGTTGGCGCCTGATTTTCGGGATTCCGGAAAAGCCTTCGCCTATCACACCTATGATCAGGGTGGAACACTCTTGAACCGGCTGGTTCTGCTGGAGTTGAAGGGAAACCAATGGACGGAGTCCCAAGTCTTCCTTGAGTCCATTCCAGGCTCCAACGTGCATAATGGCGGCAGAATCGCGATCGGTCCCGATGCGATGCTCTATGTTACGACGGGAGATTCGGGCGAGGGCGAGCTTGCGCAAAATCAGGAGAACCTGGCAGGCAAAATATTGCGATTAACGTTGAACGGGAAAGTCCCGGCGGACAATCCGACGGCAGGTTCTTACGTCTATACGTTAGGGCATCGGAATTCACAGGGCTTGGCCTGGAATTCAGATGGGGACTTTTACAGCTCGGAGCACGGGCCTTCCGGCACGCCGGGCGGACACGATGAAATTAATGAAATCACGGCCGGCAGCAACTACGGCTGGCCCGAAATTTATGGCGATGATGCGTTGGAAGGCATGGAACTCCCGCTGTACCATAGCGGCGAAACGGCAATTGCTCCTTCCGGCATCGCTTTTGACGAACAGGATCGCTTGTACGTGGCGACCCTTCGGGGACAGAAGCTGTACCGGTTCCAGCGGGAGAAAGCCACGCTCGAGACCGTACTGGAAGGCGAGGGCCGATTAAGAGACGTTAAGGTCCATAACGGCAGAACCTATGTCATTACCAACAATACCGATGGCCGGGGCGTGCCGTCCGATCAGGATGATCGACTGCTTGTACTGGAATAA	MKQKMFGVMFTAALLFLAACTSQSSPSAEEGAQEERGEAAPDSSYQVLAEQLRTPWSIDFDGETIYISEREGNIVQIKDGTLNRQSVHTEKPVSHQGEGGFLGFALAPDFRDSGKAFAYHTYDQGGTLLNRLVLLELKGNQWTESQVFLESIPGSNVHNGGRIAIGPDAMLYVTTGDSGEGELAQNQENLAGKILRLTLNGKVPADNPTAGSYVYTLGHRNSQGLAWNSDGDFYSSEHGPSGTPGGHDEINEITAGSNYGWPEIYGDDALEGMELPLYHSGETAIAPSGIAFDEQDRLYVATLRGQKLYRFQREKATLETVLEGEGRLRDVKVHNGRTYVITNNTDGRGVPSDQDDRLLVLE	PGPT0017700_348	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_ALDOSE_DEGRADATION,PGPT0017700-yliI-K21430	NA	NA
AK002_03863	1515	murE_2	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGATTCTACAATCACTGACGGATCGGCTGATATTAAAAAAGATTACGGGCAGTACTTCCGCGGATATCACGAACCTGGAAACAGATTCAAGAGAAATCCGGCCGGGCGGCGTGTTCGTCTGCGTACCGGGATTTCACGTGGACGGCCATGATTATGCCGAACAGGCGATACGGAATGGGGCTGTTGCCATCGTGGCCGAGCGGGAGCTTTCGGGACTGCCAGGAAACGTTACGCATATAACGGTGCCGGATACAAGAAGAATCCTGCCGATTCTCGCAAACGCTTTTTTTGGCGATCCTACGAGGCAATTGAAATTGATTGGAATTACCGGGACGAACGGCAAAACAACGACGACTCATATGGTAGATCAAATACTTAACGACGCCCGCCGCAAAACAGGGATCATCGGCACCTTGTATATGAAAATCGGAAATCATGTGGAGAAGACGCTGAATACGACGCCGGATACGATCCAGCTCATGCGTTATTTTCATACGATCATCTCGCATGGGGGTGAATACGGTGTTCTGGAGGTATCTTCGCACGGATTGGATATGGGAAGGGTGCGCGGATGCGATTTTCAGACGGTCGTCTTCACGAATTTATCGCATGATCATCTGGACTTCCATCAGACTATGGAGAGCTATCGCAATACGAAGGAGCTGCTGTTCGCCCAACTAGGTAACAGTAACCGTGACATGCAGAAGAAGGCCGTCTTGAACGCAGACGATGCCGCATCCTCTTATTACGCAAAACGGACATCCGCACAAATCATAACCTATGGCATTCAGAATCAGGCGGACGTCCGGGCAACGCAAATTCATCACTCAAGGGAAGGCTGCGTCTTTCATGCAGAAACGCCTTGGGGAAGCAGCGACGTTAATCTGAAGAAGGTGCATGGAGCACATAATATATACAACGCGCTGGCCGCCATGACGACCTGTCTGCTGGAAGGGATACCGCTGGAAGAAATCCGCGGAAGTTTGGAGCAATTTGCAGGGGTTCATGGCCGGTTTCAAGAAATACAAACAGGACGCCGTTTTGGCGTGGTCGTCGATTACGCGCATAATCCGGACGGTCTTAAGGCAACCTTGCAATCCGCCAAGGCCATTACTTCAGGCAAAATGATATGCGTGATGGGCTGCCGGGGCGAGCGGGACCGGTCGAAAAGGCCGATCATGGCCGATATTGCAGCCTCGTATTCGGATTATGTATTGTTCACGGCCGACAATCCGTTCTCGGAGGATCCGGAGCAGATCATGGCCGAGATGCTGGGCGGCTTAACTTCCCGCGAATCGGGGAACTGGGAGGTTGTCTTAGACCGTAAAGAAGCGATTCAACGCGCAGTGGAAATGGCCGGTGACGAGGACAGGATCATTATAACCGGACGAGGGCACGAAACCCGTTATGTTGCGGGCAGCCGGATCGAATCCTTTAGCGATGAGGATATCGTGATGAGTTCTTTGCAGGGCATAGGGCAGGACATCCAGATGATGCACCGGAGCCCTGAATAA	MILQSLTDRLILKKITGSTSADITNLETDSREIRPGGVFVCVPGFHVDGHDYAEQAIRNGAVAIVAERELSGLPGNVTHITVPDTRRILPILANAFFGDPTRQLKLIGITGTNGKTTTTHMVDQILNDARRKTGIIGTLYMKIGNHVEKTLNTTPDTIQLMRYFHTIISHGGEYGVLEVSSHGLDMGRVRGCDFQTVVFTNLSHDHLDFHQTMESYRNTKELLFAQLGNSNRDMQKKAVLNADDAASSYYAKRTSAQIITYGIQNQADVRATQIHHSREGCVFHAETPWGSSDVNLKKVHGAHNIYNALAAMTTCLLEGIPLEEIRGSLEQFAGVHGRFQEIQTGRRFGVVVDYAHNPDGLKATLQSAKAITSGKMICVMGCRGERDRSKRPIMADIAASYSDYVLFTADNPFSEDPEQIMAEMLGGLTSRESGNWEVVLDRKEAIQRAVEMAGDEDRIIITGRGHETRYVAGSRIESFSDEDIVMSSLQGIGQDIQMMHRSPE	PGPT0024130_1435	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
AK002_03864	1167	gerN	COG0475	Na(+)/H(+)-K(+) antiporter GerN	ATGCAATTTGTTTGGTATTTGGCATTAATCATCATCTGTACCAAAATCGCAGGTCACATGTCTGCAAGAATCGGACAGCCGGCTGTGCTAGGAAAACTTATGGTCGGCATTGTGTTGGGGCCAGCTGTGCTTGGATGGATTGATCATAATGAATTTGTACATTACATCTCCGAAATCGGTGTTCTGTTGTTAATGTTCATTGCCGGATTGGAAACGGATCTGGAACAGTTGAAGAATAACTGGAAGTCGGCAGTGGCTGTTGCGGTCGGGGGAATCATTCTTCCTTTTATCGGGGGGTATGGCGTAGCGGAGTTGTTTGGTTTTTCCGTTAACTATGCTTTGTTTATGGGCATATTGTTCAGCGCAACTTCCGTAAGCATCTCCGTTCAGGTGTTAAAAGATATGGATCGCCTGGGTTCAAGAGAAGGCACGACGATTCTTGGAGCAGCGGTAGTCGATGATATTTTAGTTGTCATTCTGCTCGCTTTCATGATGAGTTTCCTGGGCAGCGGCCAGGAGGTATCCTTGGGCCTTCTTATAGGAAAGAAAGTTCTATTTTTTATCGGTGTCGTTATGGCGGGCTGGTTTATCGTACCTCGCGTGATGAACAAGCTCTCCGGTCTGAAGGTAACTGAGCCTGTGATATCCATGGCTCTTGTAGTGTGTTTTGGATTTTCTTATTTCGCCGATTGGTTGGGAATGGCCGGTATAATCGGCGCGTTTGCCGCTGGGATCGCAATCTCGCAAACAGGCTTAAAGCACACGGTTGAACAGAAGGTTGAGCCCATTGCGTACTCGATTTTTGTTCCCGTTTTTTTTGCGAGCATCGGGCTTCATGTATCCTTTCAAGGAGTACCTCAACAAATCGGCTTCATCGTTGTATTGACCATAGCCGCTGTTCTGACCAAGCTGCTGGGTGGCGCTATTGGAGCAAGAATCACGGGTTTTAGCAACTTATCCTCATTCGCGGTCGGAGCTGGCATGGTGTCCAGGGGGGAGGTTGCATTAATCATAGCGTCCACAGGCTTGCAAGCAGGACTTCTGTTGCCCGAATATTTCACATCCGTGGTCATGGTGGTTATTTTGACGACATTAATCGCACCGCCATTATTGAAGATCCTTTTCCAAGGGCATGCAGTGAACTCCTCCAAAGAAATCGGACTGTAG	MQFVWYLALIIICTKIAGHMSARIGQPAVLGKLMVGIVLGPAVLGWIDHNEFVHYISEIGVLLLMFIAGLETDLEQLKNNWKSAVAVAVGGIILPFIGGYGVAELFGFSVNYALFMGILFSATSVSISVQVLKDMDRLGSREGTTILGAAVVDDILVVILLAFMMSFLGSGQEVSLGLLIGKKVLFFIGVVMAGWFIVPRVMNKLSGLKVTEPVISMALVVCFGFSYFADWLGMAGIIGAFAAGIAISQTGLKHTVEQKVEPIAYSIFVPVFFASIGLHVSFQGVPQQIGFIVVLTIAAVLTKLLGGAIGARITGFSNLSSFAVGAGMVSRGEVALIIASTGLQAGLLLPEYFTSVVMVVILTTLIAPPLLKILFQGHAVNSSKEIGL				NA	NA	NA	NA	NA
AK002_03865	936	fadH	COG1028	putative 2,4-dienoyl-CoA reductase	ATGTATGCAGCCTGTTCTATAAAGGACGCGGACAAAGGATCCGATCCGATGATCCATAACTGCCTGAAAGGGGAACTTTCGATGGGACCGTTCACCGACGTTTTGCTTCGCGATAAAGTCGTTTTGATTACGGGAGGAGCCACGGGCCTGGGGCGTGCCATGGGTGAGAAATTCGCGCTGCTGGGCGCCAAGCTCGCCATATGCGGACGCCGGGAAGAAGTGCTGCAGCAGACCGCTAAGGAATTAAAGCAGAAGGGCTGCGAGGTATGGTACAAAAGCTGCGATGTTCGCGACCCTGCGCAAATCTCGGCTCTTGTTGAAGCGGCAGAGCAGCATTACGGAGGCATTGATGTGCTTGTCAACAATGCGGCCGGGAACTTTATCAGCCCCACGGAGCGCCTTTCTCCTCGGGCTGTGGATGCCGTGCTCAATATCGTGCTGCACGGCACCTTCTATGCCACCCTGGAGGTCGGCAAACGCTGGATTGAACAAGGCAAAGGCGGGACGATGCTCAACATTGTCACCACGTACGCTTCAACAGGCTCAGGGTACGTTGTCCCGTCCGCGGCTGCCAAAGCAGGCGTTCTTGCGCTGACGCGTTCCTTGGCCGTGGAATGGGCCCCGTACGGCATACGCCAGGTAGCCATCGCCCCGGGTCCGTTCCCAACCGAAGGCGCCTGGTCAAGATTATCCCCTACGCCGGAACTGGAACGGAAAATGATCGACCGCATCCCTCTCAAGCGCGTTGGCGATCCAGAAGAATTGGCTAATCTCGCCGCCTATCTGATTTCCGATTATGCCGGCTATATTAATGGCGACGTGATCACCATCGACGGCGGCGAATGGCTGCAGGGGGCAGGACAGTTCAACGACCTGGCCGAAGTGACTCATGAGCAGTGGGATCGGCTGGCCGAGCTGACGCGCAAAGGCAAATAG	MYAACSIKDADKGSDPMIHNCLKGELSMGPFTDVLLRDKVVLITGGATGLGRAMGEKFALLGAKLAICGRREEVLQQTAKELKQKGCEVWYKSCDVRDPAQISALVEAAEQHYGGIDVLVNNAAGNFISPTERLSPRAVDAVLNIVLHGTFYATLEVGKRWIEQGKGGTMLNIVTTYASTGSGYVVPSAAAKAGVLALTRSLAVEWAPYGIRQVAIAPGPFPTEGAWSRLSPTPELERKMIDRIPLKRVGDPEELANLAAYLISDYAGYINGDVITIDGGEWLQGAGQFNDLAEVTHEQWDRLAELTRKGK				NA	NA	NA	NA	NA
AK002_03866	741	lutC	COG1556	Lactate utilization protein C	ATGACTAACGAAACCGATCGCGGCTGGTTAACCCGTTTAGAAGAACAATCCCGCAGGAAGCAGGAGTTGTTCATGGATGGGATCGCCGCGAAGCTGGGTAGAGATCGTATTCGCTCCGCTCCGGAGCACCTTTTCCGCGGTGCCCCGGATTTCTGGAAAGAATTTAATTGGCCGCTCGAGGAGAAAATTACGCAGTTTACCGCGAACTTTGAAGCAGCCGGAGGCCATGTGGTCAGACTGAGCCATCGCGATGAGGTCACCCGGTTTATCAGGGATAAAGCGATGGAGATGAGCGCAGCTACGATTCTTCGTCAGCAGGAGGACGCGCTGGATCGACTGGGTCTGGAAGAGAGTCTGCCGGATGCGCTGGTTCTCTCCTGGAACGAAGCGGCTGACACCGACTGGAAGGCAGTCGCTGCCAGAGCCGACTTCGGCGTTGTCATGGCCGATTACGCTGCGGCTTACACCGGTTCGATTACGGTGAAGTCTGCCCCGCATAAGGGCCGTTCGGTCAGCCTGCTGCCGACCGTGCTGATGGCTATTATTCCAATTGACAGAATGGTTACCCGATTAGGCGAGATTCTCGTTCAGTTCGATCAGGCCGGACGTGAGCAGCTGCCAGCAGGAATCCACTTCATATCGGGTCCGAGCCGTTCCGCCGATATCGAGAACGATCTGACGATTGGCGTTCACGGACCCGGCATCGTATACGCCTTGCTGGTAGATTCCTACGAAGCATAA	MTNETDRGWLTRLEEQSRRKQELFMDGIAAKLGRDRIRSAPEHLFRGAPDFWKEFNWPLEEKITQFTANFEAAGGHVVRLSHRDEVTRFIRDKAMEMSAATILRQQEDALDRLGLEESLPDALVLSWNEAADTDWKAVAARADFGVVMADYAAAYTGSITVKSAPHKGRSVSLLPTVLMAIIPIDRMVTRLGEILVQFDQAGREQLPAGIHFISGPSRSADIENDLTIGVHGPGIVYALLVDSYEA	PGPT0018100_171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018100-lldG|ykgG|lutC-K00782	NA	NA
AK002_03867	1521	lutB	COG1139	Lactate utilization protein B	ATGAGCACAGCTGAGACGAAAGCGAAGACGGTGAAGGAGCGCGCAGGTTACGCTCTGAACAACGATTTTCTGCGCAATGCGGTGAAGTTTACGACAGAACGGCTGCGGCTTGGCAAAAAGCTGGCGTCGGAGGAGCATGGCAACTGGGATGCGTGGAGGGAACGGGGGCGCCAAATCCGGCTCCATACCATTGCGCATTTGGATTATTATTTGAATGAGTTTGCCGAGCAGGCCAGGGCGAACGGAGCACATGTCCATTTTGCGGAGACGGCAGAAGAAGCGGTTGCGATCTCCCTGCAGATAGCGGAGCATAAGTCGGCCAAATCCGTCGTCAAATCGAAATCGATGGTGTCCGAGGAGCTGCACCTGAACAAGGCACTGGATTCCATCGGGGTGGAGGCCGTGGAAACGGATCTCGGCGAGTACATCATTCAGCTTGCGGATGAAACGCCTTCCCATATTATTATTCCCGCCATCCATAAGAACCGTTATCAGATCGCAGAGCTGCTGTCCGCGGAGGCGGGCGAAGCGCTGCCGCCGGATACTGCGATTATGGCGGGTTTCGTCCGCATGAAGCTGCGCGAGAAATTTCTCGAAGCGGACATTGGCATGACGGGCTGTAATTTTGCTATCGCGGAGACGGGGTCGATGGTCCTGTTCGAGAATGAAGGCAATGCCCGGATGGTGACGACCGTGCCGAAGACGCAGATCACCCTAATGGGCATGGAGCGGATTATTCCCTCATGGTCTGACCTCGAGGTAATGGCAACCTTGCTGCCGCGGTCCGCGACCGGCCAGAAACTGACGGTATACATGTCCGGCATCAGCGGGCCGAAGAGAGAGCTGGATGCCGATGGACCAGACGAAATGCATATTATCATAATTGATAACGGGCGCTCTCTCCAGCTCGGCGATCCGGAATTCCAGGAGCTGCTCAATTGCATACGATGTGGCGCCTGCCTGAATGCTTGTCCGGTATATCGCCATATTGGCGGGCACGCCTATGGAGGCACGTATAGCGGCCCAATCGGTGCCGTATTAACGCCGGCCTTGAACAAGAACGTCGCGGAATGGGACGATATCGCCAACGCATCCAGCCTGTGCGGCGCCTGTTATGAAGCATGCCCGGTCAAGATCCCGCTGCATGACATGCTGGTATCCTTGCGCCGTCGGAAGATTGAAGCCGGACGCGGCGATAAGCTGGAAGCGATGGGGATGAAAGGCTTCTCGGCGGTCATGGGTAATGCCAAGCGTTACCGCAGCGTGGTATCCCTCGGAAAATGGGGCCAGAAGCTGGTCGTGCGGGGCGGCGAGATCCGAACGAGAATCGGTCCTTTGAAGGGATGGAATTCGTACAGGGTGACCCCAAGCCTCCCCAAACATTCCTTCCGTGATCGATGGCCCGAAATGGAGCAGGATATTCGCAGAACCTCGGGGACCATGGATCCTGTAATCGCCGATCGGTTGAGCGAGCGGCTTCGCCAGCAGAAATCCGGAAAGGGGGAGAACGCGCATGACTAA	MSTAETKAKTVKERAGYALNNDFLRNAVKFTTERLRLGKKLASEEHGNWDAWRERGRQIRLHTIAHLDYYLNEFAEQARANGAHVHFAETAEEAVAISLQIAEHKSAKSVVKSKSMVSEELHLNKALDSIGVEAVETDLGEYIIQLADETPSHIIIPAIHKNRYQIAELLSAEAGEALPPDTAIMAGFVRMKLREKFLEADIGMTGCNFAIAETGSMVLFENEGNARMVTTVPKTQITLMGMERIIPSWSDLEVMATLLPRSATGQKLTVYMSGISGPKRELDADGPDEMHIIIIDNGRSLQLGDPEFQELLNCIRCGACLNACPVYRHIGGHAYGGTYSGPIGAVLTPALNKNVAEWDDIANASSLCGACYEACPVKIPLHDMLVSLRRRKIEAGRGDKLEAMGMKGFSAVMGNAKRYRSVVSLGKWGQKLVVRGGEIRTRIGPLKGWNSYRVTPSLPKHSFRDRWPEMEQDIRRTSGTMDPVIADRLSERLRQQKSGKGENAHD	PGPT0018095_253	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018095-lldF|ykgF|lutB-K18929	NA	NA
AK002_03868	726	lutA_1	COG0247	Lactate utilization protein A	TTGTTTGTCACTTGTCTCAGCGATGCCTTGTTCCCGCGGGTAGCTGAATCGATGGCAAGACTGCTGGCAAGGTACGGCGTGCAGCTGGAATTCCCGGAAATCCAGACCTGCTGCGGCCAACCTGCCTACAACAGCGGTTATTGGGAAGAGGCGCGCATTAGCGCCAGGACGATTTTGGACGCTTTTGACGACAGCGACTTTGTAGTGTCCCCTTCGGGGTCCTGCACGTATATGATTCATCATTACCCGGATCTGTTCAAGGACGATCCCGTTTACCTGGATAAAGCGAAAGCGCTTCAATCCAAATGCTATGAGTTTACGCAATTCCTCGTCGACGTGCTGGGCGTGGCCGATGTTGGCGCCGTCTATCCGCACAAGGTAACTTATCATCCTTCCTGCCACGGCAGCCGCCTGCTCGGGGTGAAGGACGAACCGATGAAACTGCTGAGTCACGTCAAAGGGCTGGAGCTCGTCCCCTTGCCGTTTGCCGAGGATTGCTGCGGGTTCGGGGGAACGTTTGCCGTGAAAATGGCGGATATTTCGGGCGCGATGGTAACGGAGAAAAGCGATCATGTGCTGGAAACCGAGGCGTCCGTGCTGGTCGGACTTGACATGGCCTGCCTTATGAACATTGCCGGCAATCTGCGTCACCGGGGCGAGAAGGTTCAGGTCAAGCATTTGGCCGAGCTTTTGTACGAGGGGGTGAGCGTGCATGAGCACAGCTGA	MFVTCLSDALFPRVAESMARLLARYGVQLEFPEIQTCCGQPAYNSGYWEEARISARTILDAFDDSDFVVSPSGSCTYMIHHYPDLFKDDPVYLDKAKALQSKCYEFTQFLVDVLGVADVGAVYPHKVTYHPSCHGSRLLGVKDEPMKLLSHVKGLELVPLPFAEDCCGFGGTFAVKMADISGAMVTEKSDHVLETEASVLVGLDMACLMNIAGNLRHRGEKVQVKHLAELLYEGVSVHEHS	PGPT0018090_1190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018090-lldE|ykgE|lutA-K18928	NA	NA
AK002_03869	780	ydjF_2	COG1349	putative HTH-type transcriptional regulator YdjF	ATGATGCTGGTTGCAGAACGATATGAGAAAATAGTACAGTTGGTCAACGAAAGAGGGAGCATCCGCGTCTCCGAGCTGAGTCAGCTCTGCGGCGTAACGGAGGAAACGATTCGCCGCGACCTTGACAGGCTGGAGCAAGCAGGGCGCCTGCGCCGTTCCCACGGTGGAGCGGTTAGCGTGAAGGATCAACCGGAAATTCAGCGGTCTCAGCCGGAAATACCGTATGCTGAACGGGAAATCATGCATGCGCTGGAGAAGCAGCGAATCGCGGAGGAAGCGGTCAAGCGAATCCATCCGAACGACCGCATCCTGCTGGATGCAAGCTCAACCGCATGGTACATGGCCAAGATCATACCGGACATTCCGATTACCGTGCTGACGAATTCGATTAAGGTGGCCGCTGAGCTGAGCACCAAGGAGCGCGTTCAGGTCATCTCAACGGGCGGTATTTTGGCTCATCGCTCCTTGTCCTTCGTCGGTCCGCTGGCGGAGCGTTCGCTGGAAGCTTACTACGTGGATAAAGCCTTCCTCTCCTGCAAGGGCGTCCACATGGACAGGGGCTTGAGCGAATCCAATGAGCTGCAGGCGAGAATCAAGCAAAAAATGATCGGGATGACGGATGAGACCATTCTGCTTGCCGATGCCAGCAAATTCGGCACGCAGGCTTTTGCGCAGGTCGCCGACCTCGCCGAAGTGAACCTGATCATCACCGACCGGAGATTGACGGAAGAGGAAGCGGCGCCTTATCGGGCGCTGGGTCTTCGAATCGAATCCGTATAG	MMLVAERYEKIVQLVNERGSIRVSELSQLCGVTEETIRRDLDRLEQAGRLRRSHGGAVSVKDQPEIQRSQPEIPYAEREIMHALEKQRIAEEAVKRIHPNDRILLDASSTAWYMAKIIPDIPITVLTNSIKVAAELSTKERVQVISTGGILAHRSLSFVGPLAERSLEAYYVDKAFLSCKGVHMDRGLSESNELQARIKQKMIGMTDETILLADASKFGTQAFAQVADLAEVNLIITDRRLTEEEAAPYRALGLRIESV	PGPT0017590_210	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK002_03870	1470	rhaB_2		Rhamnulokinase	TTGAGCGTTCTTGCATTTGATTTGGGAGCAAGCAGCGGCCGGGCGATGCTGGGCCAGCTGAACAGCCGCACCATCGGCGTGACGGAAATTCACCGATTCCCGAACGATCCCGTTCGAATCGGCGACCGCTTTCAATGGGATATCTTACGGATCTACCATGAGATGAAACAGGGATTGCTCAAGCTGAAGGGGAAACATCGCCTGCCGTCGAGCATCGGCATTGATACCTGGGCGGTGGATTTCGGTCTCCTGGATCGGAGCGGGGAGCTGCTCATGAATCCGTATCATTATCGGGACACGCACACGGATGGCGTGATGGAACAGGTCTTCCGGGAGCTGACGCCTGGAGAAATTTTTGATCGGACGGGAATTCAATTTCTCTCGTTCAATACGATGTACCAGCTTGCTTCGCTCCAACGGAAGAAACCCTATCTGCTTCAAGAGGCTGAGCGATTCTTAATGATCCCCGATTTGCTGCGCTATTTCTTGACGGGCGAAATGGCGAACGAATTCACGAATGCGACCACGACGCAGCTGTATAACCCGCACTCGGCCAGCTGGGATGATCATATATTAAAATCATTGAAGATCCCTCATGGGTTATTTCATCCAGTGGTTCAACCCGGTACCCATATCGGAGGGTTAAGGCCTGCCGTAACCGAGGAGCTGGGGGTTCCATCCATCCCGCTTTATGCGGTTGCGGAGCATGATACGGCTTCCGCCGTAGTTGCGGTTCCTGCTTTGGAGCGGTCGTTCGCCTATTTGAGCTGCGGCACCTGGTCGTTGATGGGGACCGAGGTCGACCAGCCGGTCATTCATGAACGGGCCCGTCAGCTGAACTTCACGAATGAAGGAGGCGCATACGGCACGTACCGGCTGCTCAAGAACATCATGGGGCTGTGGATCCTGCAGGAATGTCAGCGGACCTGGGGACGGGAAGGGATGTCGTATTCGTATCCCGAATTGGTTCATATGGCGGAATCGGCGCCGGCATTTGCTTGCTTCATCGATCCGGACGATTCCATGTTTCTCCCTGCGGGAGACATGCCGAAACGGGTAAGGGAATATGCGGCCCGAACGAACCAGGGCGTTCCGCAGAACGAGGGCGCGCTTGTGCGCTGCATTATGGAAAGCTTGGCCATGCAATACCGATATGTGCTGGAGCTGACCGAGGAATTGTCCGGACGGAAATTTCAGGGCTTGCATATGGTAGGCGGTGGCATTCATAATGAAACATTATGCCAGTGGACGGCGAACGCCATTGGGAAACCCGTCTGGGCGGGTCCTGCGGAAGGCAGTGCCATCGGCAATATGGCCGTACAGTTCATTGCGCAGGGCGAGCTGTCCGATATATGGGAAGCGCGCGCAGTCATTAGGGAATCCTTCCCGGTCAAGACCTACGAGCCGCAGGATGCTCCCTTATGGGAGGAAGCTTACGGGGTGTTCGGTCTTCGGACCGGGAAGAGATAG	MSVLAFDLGASSGRAMLGQLNSRTIGVTEIHRFPNDPVRIGDRFQWDILRIYHEMKQGLLKLKGKHRLPSSIGIDTWAVDFGLLDRSGELLMNPYHYRDTHTDGVMEQVFRELTPGEIFDRTGIQFLSFNTMYQLASLQRKKPYLLQEAERFLMIPDLLRYFLTGEMANEFTNATTTQLYNPHSASWDDHILKSLKIPHGLFHPVVQPGTHIGGLRPAVTEELGVPSIPLYAVAEHDTASAVVAVPALERSFAYLSCGTWSLMGTEVDQPVIHERARQLNFTNEGGAYGTYRLLKNIMGLWILQECQRTWGREGMSYSYPELVHMAESAPAFACFIDPDDSMFLPAGDMPKRVREYAARTNQGVPQNEGALVRCIMESLAMQYRYVLELTEELSGRKFQGLHMVGGGIHNETLCQWTANAIGKPVWAGPAEGSAIGNMAVQFIAQGELSDIWEARAVIRESFPVKTYEPQDAPLWEEAYGVFGLRTGKR	PGPT0017775_531	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017775-rhaB-K00848	NA	NA
AK002_03871	1266	rhaA	COG4806	L-rhamnose isomerase	ATGAGGCAGGATGTTGCAAGGAACTTTGAGGAAGCTAAACAGCTTTATGGGCAGCATGGCATCGATGTGGACCAAATCTTGACGGAACTTGAGCGCATCAAAATCTCCATCCATTGCTGGCAGGGAGATGATGTTCGCGGATTCCTGTTCCGTGATCAGGACCTGTCCGGCGGCATTTCCGTGACCGGGGAATATCCCGGGGCAGCCGAAACGCCGGACCAGCTGAGGGCCGACCTGGAAAAAGCGTTGTCGCTCATTCCCGGATCCCACAAAGTGAATCTCCACGCGATTTATGCGGATACCGACGAGTCCGTTGATTTGGATCAGCTGGAGCCGAGGCACTTCCAGTCCTGGGTGGATTGGGCCAAGGAGCAGGGGATCGGACTCGATTTTAATCCTACCTGCTTCTCCCATGACAAGTCGAAGGACGGGTTTACGCTGAGTCATGCCGACCCGGCGATCCGTCAATTTTGGGTTGATCATTGCAAGGCTTCGCGAAGAATCGGGGCATATTTCGGAGAACAGCTGGGTCAGACCTGCGTGACGAATATTTGGGTCCCTGATGGTTACAAGGATATGCCGGTAGACCGAATGGCACCGAGGCAGCGGCTGAAGGATTCGCTGGACGAGATTTTTGCCGAGGAGATCAATCCGCAATGGAATTTGGATGCCGTCGAGAGCAAGCTGTTCGGGCTCGGCTCCGAAGCCTACGTTGTGGGCTCGCACGAGTTCTACATGGGGTATGGCATTCGGAACAACAAGCTGATCTGCCTGGATGCGGGTCATTTTCATCCAACCGAGAGCATTGCCGGCAAACTGTCGTCGCTCGCCCTTTTCACCGATGGACTTCTCCTTCACGTCAGCCGGCCGATGCGCTGGGACAGCGACCATGTCGTCATCATGGACGATGAGCTGACCGAGATCGGACGCGAACTGGTTCGCAACAATTTGCTGGATGTCACCCATATCGGACTGGACTTCTTCGATGCCAGCATTAACCGCATCGCCGCGTGGGTTATCGGAACCCGCAATACGATCAAGGCGCTGCTGCGTGCCAAGCTTGAACCGGTCGATCGGTTGAAGCAGGCTGAGCTTGAAGGCGATTACACGACCCGCCTGGCGTTGACCGAAGAGTTTAAATCCTATCCGTTTGGAGCGGTGTGGGATTACTACTGCGAACGTTTGGGGGTGCCGGTCAGAGAAGAGTGGCTGTCCGAAGTGAAACAGTACGAACAGGACGTATTGCTGAAGCGTTCGCAGGCATGA	MRQDVARNFEEAKQLYGQHGIDVDQILTELERIKISIHCWQGDDVRGFLFRDQDLSGGISVTGEYPGAAETPDQLRADLEKALSLIPGSHKVNLHAIYADTDESVDLDQLEPRHFQSWVDWAKEQGIGLDFNPTCFSHDKSKDGFTLSHADPAIRQFWVDHCKASRRIGAYFGEQLGQTCVTNIWVPDGYKDMPVDRMAPRQRLKDSLDEIFAEEINPQWNLDAVESKLFGLGSEAYVVGSHEFYMGYGIRNNKLICLDAGHFHPTESIAGKLSSLALFTDGLLLHVSRPMRWDSDHVVIMDDELTEIGRELVRNNLLDVTHIGLDFFDASINRIAAWVIGTRNTIKALLRAKLEPVDRLKQAELEGDYTTRLALTEEFKSYPFGAVWDYYCERLGVPVREEWLSEVKQYEQDVLLKRSQA	PGPT0017765_100	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017765-rhaA-K01813	NA	NA
AK002_03872	2070	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGGTTCAGAGCTTATGGGAACAATCAAAGGCACAGCAGGCACAAAATACATTGGATGAGCTTGTCTATCGCTCGAATTTGATTGGTGCCGACCGGCGCGTATGCAACTGGGGCGGCGGCAACACATCCAGTAAAACAACGATTCAGGATTTTCGCGGCAACGACGTCGAGGTAATGTACGTGAAAGGCAGCGGATCCGATCTGGCCACCATGAAAGCGGGCAATTTCACAGGCTTGCGCATGGAGGATATCCGGCCGCTGTTCGAACGAGATTCGATGTCGGATGAGGAAATGGTGGCATACCTGGGTCATTGCATGGTAGATGCGAAGCACCCGCGAGCATCCATTGAAACGCTGCTGCACGCGTTCTTGCCGTTTCGGCATGTGGATCATACGCATCCGGATGCCATTATCAGCTTGTGCTGCGCCCATAACGGCAAAGAATTAGCCCGGGAAATTTTCGGCGATCGATTTGTGTGGGTTCCATATGTCCGCCCTGGCTTTACGCTGTCGAAGATGATCGCGGAAGGGGTGCTGGCTAATCCGAACGCCGAGCTTGTGCTCATGGAGAAGCACGGCCTTGTAACCTGGGGCGACACCTCGGAAGCTTGTTACGCACAGACGATTCGCATCATAAGTGAAGCGGAGGCGTTCATTGAAGCCCGAGTGAACAACGACAGACTGTTCGGCGGCCGGAAGCATGCGCCGCTGGCCGCGGAAATCCGCCGGAGCATCGCTGCGGAAGTGATGCCTGCCGTACGCGGAGCCGTTAGCGACGCGAAGAAAATGATCCTGTCCTTCGATGATCAAGATGATGTGCTGGACTTCGTCGGCGGCATCGATTCGCCGAAGCTGTCCCAAGTAGGCGCCGCTTGTCCGGATCATCTGGTTCATACCAAGGTTGTTCCCCTCTTCATCGATTGGACGCCGAACGCTGAAGATATCGAAGGCCTTAAGGCGAAGCTCATCGAGGGTATTGCGGCATACAAAGCGCAGTATCAAGCCTATTTTGAACGCAACCATCATGAAGGCGACGTCATGTTCGAAGCGGCTCCGCGCGTCATCCTGATTCCTGGAATCGGAATGATCAACACCGGCAAGAGCTGGGCGATGTCGCAAGTCAGCGGCGCCTTGTATCATCGGGCAATCGCGGTCATGCGCGGCGCAACGGCGCTCGGCGACTTCGTATCCCTGAGCGAGAACGAATCCTACAACGTGGAGTATTGGCCGCTGGAGCTGTATAAATTGAGCCTGGCACCGGCCGAAGCGGAGTTTTCGCGGCAGATTGCTTTTATCACCGGGGGAGCCGGGGGGATCGGCAGTGCCGCGGCGCGCAGGCTGGTAGCCGAAGGAGCCCATGTCGTGCTGGCGGACTTAAATCTCGAAGGCGCGCAGCAGGTTGCCGAGGAAATCAATGCAAAGTACGGGGAGAATCGGGCATTTGCTGTTAAAATGGACGTAACCGACGAAGAGGCCGTGCAGCGCGCCTATCGCGAAACCTCCGTAACTTATGGCGGTGTCGATATTATCGTGAACAATGCGGGCCTTGCAACGTCCAGCCCGTTTGACGAGACGTCTCTAAAGGAATGGAACCTGAACATGAACGTGCTGGGCACAGGTTATTTCCTCGTGGCCAGAGAAGCCTTCTCCTTGATGAAGGTACAGGGGATTGGCGGGAGCATGGTGTTTATCGGATCGAAGAACTCCGTTTATGCCGGTAAAAATGTGACCGCATACAGCTCCGCGAAAGCGCTCGAGGCGCATTTGGCCCGCTGCATCGCTGCTGAGGGCGGGGAATACGGCATCCGAGTGAATACGATCCTGCCTGACGCGATATTGCAAGGCTCTGCGATCTGGAACTCGAACTGGAGAAACGAGCGGGCTGCAGCCTACGGGATCGAACCGGATCAGCTGGAAGAGCACTATCGGAAACGCACGACACTGCTCGTGAACATCTACCCGCAGGACATTGCCGAAGGCATTGCTTACTTTGCTTCGTCCAAATCATCGAAGACGACCGGCTGCATGCTCACGATTGACGGTGGAGTGCCGGCAGCGTTTACTCGTTAG	MVQSLWEQSKAQQAQNTLDELVYRSNLIGADRRVCNWGGGNTSSKTTIQDFRGNDVEVMYVKGSGSDLATMKAGNFTGLRMEDIRPLFERDSMSDEEMVAYLGHCMVDAKHPRASIETLLHAFLPFRHVDHTHPDAIISLCCAHNGKELAREIFGDRFVWVPYVRPGFTLSKMIAEGVLANPNAELVLMEKHGLVTWGDTSEACYAQTIRIISEAEAFIEARVNNDRLFGGRKHAPLAAEIRRSIAAEVMPAVRGAVSDAKKMILSFDDQDDVLDFVGGIDSPKLSQVGAACPDHLVHTKVVPLFIDWTPNAEDIEGLKAKLIEGIAAYKAQYQAYFERNHHEGDVMFEAAPRVILIPGIGMINTGKSWAMSQVSGALYHRAIAVMRGATALGDFVSLSENESYNVEYWPLELYKLSLAPAEAEFSRQIAFITGGAGGIGSAAARRLVAEGAHVVLADLNLEGAQQVAEEINAKYGENRAFAVKMDVTDEEAVQRAYRETSVTYGGVDIIVNNAGLATSSPFDETSLKEWNLNMNVLGTGYFLVAREAFSLMKVQGIGGSMVFIGSKNSVYAGKNVTAYSSAKALEAHLARCIAAEGGEYGIRVNTILPDAILQGSAIWNSNWRNERAAAYGIEPDQLEEHYRKRTTLLVNIYPQDIAEGIAYFASSKSSKTTGCMLTIDGGVPAAFTR				NA	NA	NA	NA	NA
AK002_03873	327			hypothetical protein	ATGGAACAGCATGAGCAAACGGAACAGAAGCTGCTGCCAATCGGATCTGTAGTCAAGTTCAAGGATTGGGACCAGACGCTGATGATCTATGGCCGAATGCAGAACGACTCCAAGACGCTAAAGCGTTGGGATTATGTTGCCTGCTTCTATCCTCACGGAAATCTGACCGCCGATTCCAACATCTTTTTCAACCACAAAGACATCTCGGAAATCGTATTCACGGGCTACGTCAACGAGGAGGAAATTGCATTCCGTGATGCATTGCTGGAAGGAATTGCAAAAGCAGATCAAATGGCAGCCGCGGGTTCCGGCTCTGACCATTCATAA	MEQHEQTEQKLLPIGSVVKFKDWDQTLMIYGRMQNDSKTLKRWDYVACFYPHGNLTADSNIFFNHKDISEIVFTGYVNEEEIAFRDALLEGIAKADQMAAAGSGSDHS				NA	NA	NA	NA	NA
AK002_03874	201			hypothetical protein	ATGAGCGACAGACAAAAACGGTTCAAATACATAATGGTGATTATTGCTATCGTCGGCGTTCTGGGCACGGTGATTCCCAATCTGCTGGACACGAGTTACGCGGCAGCGGAAAAAGCCGTCATCTGCCTATCCTTTCTCATTGGAGTACCGCTCGTAGTGTCGATTGTCTATTGGATCGGTAAAAAAATAATGAAGGGTTGA	MSDRQKRFKYIMVIIAIVGVLGTVIPNLLDTSYAAAEKAVICLSFLIGVPLVVSIVYWIGKKIMKG				NA	NA	NA	NA	NA
AK002_03875	903			hypothetical protein	TTGTTGCTAGACTGCCTGAAGAAGCAGGGCGGCGAGACAGAAGGGGCGTCCGTATTTATGTCCAATCGAATATTAGTTACACCCGAGCGGCTGGAGCAGGTATCCTCGCAATTTGCCCAATCAGGGCAACTTAGCGGCGATATGGTGCAGCGGCTCCAGCGAAGCATTCACGAAATGGAAGGTCAGTGGGAAGGGATGACCCGCGAGCGGTTTTACGGGGATTATCAGCATGCCAGGACGACCATGCTCAAGTTCGTGGAGTGCTTGCAAACGATATCCGCCGAGCTGAAGCAAATATCCGTCAAATTCCGTTCCACGGATGAAATGGTGAACGGTGCTGCAGCTGGAGGAGCCTTAGCAGGCGCGGGCATTATGGCCGGGGCGGCAACCGGGGCGGGAGTCGCTGCGGCGGCAGGCGCTCCATCCAAGACTTCCGGCGTGGCCGCTAAATCCTCAAGCAACCCGCTGGACGCAGCGCTCAAAGGAGTAGAAGTGGAAGGCAGCGTAATCAAGCACGAAGAGAATGGACTTTATGCCAAAGCAATAACAGGCAGCGCAGGAGCAAGCTTATCCGAAGGAGCGCATGCCAGCGGGGCTGTTGTTGAAGCAGGCTATGCGAATGATCATGTCGAAGGATCGGTTAGCCTGGTGAAGGCCGAAGTCGAGGCGGCAGTCAAGGACGGTACGCTTAGCGTCGGAGCTGAGGCTACATTAAACAAATATGAGGGCGGCGTGAATATTCCGCTTCCTTGGACGGATAAAGAGCTGCACATCGGAGGTTCCGCTTCACTGGGCGTGCTCGGCGCATCCGCGGAGGTGGGCAAGAGCGGTTTGAAGTTCCACATCCCGTTGGGACCGGGAGCAAGCCTCGTCGGAGTCGGCGGAGCGATCACGGTAAAATAG	MLLDCLKKQGGETEGASVFMSNRILVTPERLEQVSSQFAQSGQLSGDMVQRLQRSIHEMEGQWEGMTRERFYGDYQHARTTMLKFVECLQTISAELKQISVKFRSTDEMVNGAAAGGALAGAGIMAGAATGAGVAAAAGAPSKTSGVAAKSSSNPLDAALKGVEVEGSVIKHEENGLYAKAITGSAGASLSEGAHASGAVVEAGYANDHVEGSVSLVKAEVEAAVKDGTLSVGAEATLNKYEGGVNIPLPWTDKELHIGGSASLGVLGASAEVGKSGLKFHIPLGPGASLVGVGGAITVK				NA	NA	NA	NA	NA
AK002_03876	894			hypothetical protein	ATGAACCAACTTGCACGCGAAGCGGCCAGCGGGGCATACCGGCTGTATAAACAGGAGACATGGCTCATGCTGACGGGTCTGCTCGGCTTTTTGCTGGCCGGAATTTGCGGGGTATGGGTATTGCTCCATGGCGGACCCGTCTCGCCGGACGGAGATGTCTCCAAAGCCTTTTCCTTCAACGCGGCCCTGGGAATATTCATCCTATCCACCGCAAGCATTCTACCGGTTTCCGGCATGCGGCCGCGAAGCCAATCGATCTACCGCTGCTGTTATATTCCCCTTGTGTTGTTCTCCTACTTCGCCGAGACCGTACAACATTTCCGCGGCGTTGATCCGAGGTTCGTTCAGAACGGTTCATCCTTCGATCATGTCATCTCCACGATTTTTCCTGCCGTTGCGCTTCTGCTCATCGTGTTCTACCTGATCCTGGGGGCTCAATATTTCCGCAAGCGTGTAATAGAGGCCCATCCGGAGCTTGGTCTCGGCATCCGTTATGCCATGATCTCGGTGCTGGTATCTTTTGCGGCAGGCATCTGGATTTCCATCAACGCGGGTCGTTTCACCGGGATCGACGGCAATATCATTTGGCTGCACGGACTTGGGTTTCATGCACTGCAAGCCATTCCTTTGGTGGCCTGGCTGTCCATGAGAAAATCCGTCAATGCTGCCGTCAAACCGATAATCATCCATATCAGCGGTCTCGCCTATTTATTCGGACTGATCGCCATTGGATGGCAGACGCTTCTCGGTTACTCCTTGGCGGAATGGTCCTTGCTCCCGATTCTGGCCGGCAGCTGTTTTCTCGTTGCCTTCACGCCTGTGATATGGCTGATCAGTCAATCCGATGCATCCGCCGAACCTTTCAACCGTACCCAATCCACGCGAAATTTATAA	MNQLAREAASGAYRLYKQETWLMLTGLLGFLLAGICGVWVLLHGGPVSPDGDVSKAFSFNAALGIFILSTASILPVSGMRPRSQSIYRCCYIPLVLFSYFAETVQHFRGVDPRFVQNGSSFDHVISTIFPAVALLLIVFYLILGAQYFRKRVIEAHPELGLGIRYAMISVLVSFAAGIWISINAGRFTGIDGNIIWLHGLGFHALQAIPLVAWLSMRKSVNAAVKPIIIHISGLAYLFGLIAIGWQTLLGYSLAEWSLLPILAGSCFLVAFTPVIWLISQSDASAEPFNRTQSTRNL				NA	NA	NA	NA	NA
AK002_03877	342			hypothetical protein	TTGCAGCCAATACCAATTTCGGCAGAAGGATGCAAAGGTTACGTCGGCAAAACCGTTTGCGCTGTCATGCATGATGGAAGAGAAGTCGTGGGGACGATTCGCGGTGTACATGATCGGGGTCTTGAACTCGAATTTGCGAACCCATCCGCATATATATTGTCCGCCAAAGGGAAAAAGGGCAGAAAATCTTCGAAGTCGACCAAAGGCGGTGCACAAACGTCCGCTTTTGGACCGTACGGCTACGGCGGTTTTGGACCATATGGAGGCTACGGTTTCGCAGGCAATGTGCTTGCTTGGGAAGCCATTGCCTTGTTGTTCCTCATTCCGTTTTTATTTATCTAA	MQPIPISAEGCKGYVGKTVCAVMHDGREVVGTIRGVHDRGLELEFANPSAYILSAKGKKGRKSSKSTKGGAQTSAFGPYGYGGFGPYGGYGFAGNVLAWEAIALLFLIPFLFI				NA	NA	NA	NA	NA
AK002_03878	1086	resA_3		Thiol-disulfide oxidoreductase ResA	TTGAGTATTATTCCGATAGGCCCGTTGATGATTCGAGCCGATATTGTCATATTTCTGATCTGCGCGGCGGCCGGTTTCGTCGCACTTCGCCTTCGTTTGCGTCACACGAAGCAGCGGGAATGGATCCTGGACACCTATTTATCCGTCATCATCATAGGATTTCTCTCATGGAAATTCGGGATGCTGGTATTTGATCCGATCCGCACCCTCCAGCATCCGACCTCGCTGATCTACATGACGGGGGGAGTCAGAGGCTTATGGCTCGGGGTTATTCTTGCTATCGTCTATGCTGTACTTCGTTGGAACAGGAAAAGGGAAGAACCGGGACTGCTGCTGAAATCGGCGCTGTTATCGGCCTTTGCAAGCGGAACGGCAGGGTACCTGTTTCATTGGCTATGGGCGGACGGCGCGCGAGCAACGACTTCTTTATTCTATGTTCTGCTGTTCGGCGTCTTACTGACGGTCACCTGGCTTCGCTTCAAGGCGCCGCTGTCTCAATTCCTTACGCTGGGATTAGGAAAAAACAGGGCAGTCCTTGTTGTGATGGCGGCTCTCTTCGCCTGGGTCATCTATGATTTCGCTTCGGACACGGCCAGCGAGCAGGAAGCAGCCGCACCGTCCCACCAAGAGGGGAGCCAGGAAATCGCAGTGGAAGGTTTGAAACCTGGGCTTCGCGCGCCGGATTTCACGCTGACCGATTCAGAAGGCAGGGAGATCAAGCTATCCGATTACCGCGGGCAAACCGTACTCCTTAATTTTTGGGCTTCCTGGTGTCCGCCTTGCAAGGTCGAAATGCCTTATATGCAGGATTTTTACGAGAAACATCAGGATGACGACGTTATCATACTGGCCGTCAATATGACCCATCTGGAAAAAAGCAAGAGCGAAGTACAGTCTTTTGTTGAGAAGAACGGCATCACCTTTCCCATCCTGTACGACCAGCATGGTGAGAACACCGGGCGGTACGAGGTGGTGGCTTATCCGACCACCTACGTCATTTCGCCTGGCGGCATCGTATCCGAAAGGTTTCAAGGCGCGATCGACGAAGATATCATGGCCAGAGCTTACCGCAAGGCTAGCGATTAA	MSIIPIGPLMIRADIVIFLICAAAGFVALRLRLRHTKQREWILDTYLSVIIIGFLSWKFGMLVFDPIRTLQHPTSLIYMTGGVRGLWLGVILAIVYAVLRWNRKREEPGLLLKSALLSAFASGTAGYLFHWLWADGARATTSLFYVLLFGVLLTVTWLRFKAPLSQFLTLGLGKNRAVLVVMAALFAWVIYDFASDTASEQEAAAPSHQEGSQEIAVEGLKPGLRAPDFTLTDSEGREIKLSDYRGQTVLLNFWASWCPPCKVEMPYMQDFYEKHQDDDVIILAVNMTHLEKSKSEVQSFVEKNGITFPILYDQHGENTGRYEVVAYPTTYVISPGGIVSERFQGAIDEDIMARAYRKASD				NA	NA	NA	NA	NA
AK002_03879	528			hypothetical protein	ATGCAGATTCGAATTGCAAATGAGCATGATGCCGAAGGCATTGCTAGCGTACATGTAAACAGCTGGAGAACGACGTACAGGGGGATCGTCGATGATGACTTTCTGCAGAAGCTTTCCATTGCGGACCGCGTAGAAGGCTGGCGCAGGAAGCTTGCCAATATGCCCGAAGACGAACAGCTACTGGTTATTTCAGACGAACATGGCGAGGTTTACGGGTTTATGTCGTACGGGACGGAGCGAGAGCAGAAGATCTCCCATGAAGGAGAACTCTACGCAATCTATCTCTTGGAAGAAATTCAAGGGCAGGGATGGGGAAAACGGCTATTTGCCAGGTTGAAGGAATTTCTGCAAACGAGAGGATATCGTTCGTTGTCGGTTTGGGTGCTGGTAGGCAATAAAGCCGAGCAATTTTATCGATATATGGGAGCTCAAGAGCTGAAGCAAAAAGAGATTGTCATTGGGGGAAAAAGACACACCGAATTGGCATTGCTTTGGAGCTCCCTTGACCAAATACGATCATCCTCCTAA	MQIRIANEHDAEGIASVHVNSWRTTYRGIVDDDFLQKLSIADRVEGWRRKLANMPEDEQLLVISDEHGEVYGFMSYGTEREQKISHEGELYAIYLLEEIQGQGWGKRLFARLKEFLQTRGYRSLSVWVLVGNKAEQFYRYMGAQELKQKEIVIGGKRHTELALLWSSLDQIRSSS				NA	NA	NA	NA	NA
AK002_03880	1833			hypothetical protein	ATGAATAAAGCAATGATACGGCTTGAAGATATCGGACCTGGCGGATGGTACGGGACGGAAGAACAACAAGCGAAGCTGCTTGTCATCGCAAGATTCCTGCACCAGCTGCAAATCCCCTTTCATCTGGCCGTTATTCCCCGATATGTTGATCCGGCGCAACATACGGACCGTTCGATAACGGACCTGCAGGATGATGCTTCCCTTCGGTTTGTTCGGCTGCTCCGCACGATGGCAGCGCTCGACGCCTCGCTTGGCATTCACGGCTATACGCATCAGTACGGGGGATCGGCAAGCGGCGACGGATTCGAATTCGCATATTCGGAATGCACCGCCGATTGTCCGCCGGAAGATCCCCCTGAGGCTGTGACTTCGCTCCTGCAGCTGCAGCAATCCTATGCCTATCGGCGGGTTCAGCTGGGGCATCAAGCGTTCCAAACGGCGGGCTTTACCGCCGCCTGGTTCGAGACGCCGCATTATGCCGCATCGCCTGTTCAGCGGCAGATCATCGAGATCTGCAACGGGGTCCTGTACGAATCTCCGCCGGACGAACCGAATGCGAAGACAGCCGTGCTCCGGCACAACCCGGACGATCCGTCGACGAACGGAACGATCTATGTACCCACGCCGCTTTATTATGTTTCAGGCGATAACATCGAAGCCGAAGTTGCTCGCATGGAACGGACTTTAAAAGATTTCACGGGTGAACGCGAACTGGCCTCGTTCTTTTACCACCCTTATCTTGAATTTCCTTATATCCGATTCCTTGATGACGGTACCGTGCATTATGACGAAGATTCGCCGCTCAGACGGATCCTTCGGTTCTTCGAGAGGGAGCGTAAATCGTTTGTATCCTTAACCTCCATTCTCCCCTTCATACCGGATTTCAGGGAGACCCGGCTGTCGGACAGGTTGAGCATGAAGCGTCCCAAGTTTCTGCACGCCAAAAGAAACAAGCTCCCAAACCGCTGGATCATTCGGGACGAGGCCAGCAACATTTGGTACGCCATGGATCTTGCGATCCGATCTCCCCTCCGAATCCATAACGGCATACATTCGATACGTCCGTTATTGGCCGATTGGCCGCCAACCCTTAGCGGTACCGCGATGACAGGCGATTTCGACGGGGACGGCTTCATCGATACGGCTGTATGGCATGCAGAGCTTGGGATATGCCATGTTGCCTTGGGCGCCGGCAGCAGCCGTATGGCACCTGACGGGATTTGGCTGTCCGCTCCCGGAGCCCTGAATTGGAAATCCTTAACGGGAGATTTTGACGGGGACGGCAGAGATGATTTATTTCTATGGGATGACGCCACCGGTAAAGCCGCCATCGCCTACAGTTCCGGGGAGGGCTTTTCTCCTCCCCTTATTCAACATGAGGTTTCCGTACAGAGCAATGATATGATACCGTGCATCGGAGATGTAAATGGCGATGGCCTGGATGATCTGGTGGTGTGGAACTCCGCCTCCGGAGCATGTCAGGTCTGGCTAAGCAGCGGTACACGGCTTCGGCATGCCGGCGTTTGGTATTCCGCCAAGGATCCCTTGGGTTCGCCACTGTCCGTGGTGTTAGGGGATGTCGATGGAGACGGGCTAGAAGATTTGGTTCTCGTTCAACCTGCTTCAGGGAAATGGTTCATCCTGTACAGCTCGGGAACAGCCTTCGGGCGGCAGGAGGAATGTTATGGGCCATGGGCTGCCGGAGAACAGACGACGCCTTTTCTTGCTGATCTATCAGGCAACAGCCGCGTCAGTCTGCTGGCATGGTCCCCGAATCGGCACGGCGGAACCCTGGACGCCGCCATCAATTCGAGGGACCGGACAATGGGATAA	MNKAMIRLEDIGPGGWYGTEEQQAKLLVIARFLHQLQIPFHLAVIPRYVDPAQHTDRSITDLQDDASLRFVRLLRTMAALDASLGIHGYTHQYGGSASGDGFEFAYSECTADCPPEDPPEAVTSLLQLQQSYAYRRVQLGHQAFQTAGFTAAWFETPHYAASPVQRQIIEICNGVLYESPPDEPNAKTAVLRHNPDDPSTNGTIYVPTPLYYVSGDNIEAEVARMERTLKDFTGERELASFFYHPYLEFPYIRFLDDGTVHYDEDSPLRRILRFFERERKSFVSLTSILPFIPDFRETRLSDRLSMKRPKFLHAKRNKLPNRWIIRDEASNIWYAMDLAIRSPLRIHNGIHSIRPLLADWPPTLSGTAMTGDFDGDGFIDTAVWHAELGICHVALGAGSSRMAPDGIWLSAPGALNWKSLTGDFDGDGRDDLFLWDDATGKAAIAYSSGEGFSPPLIQHEVSVQSNDMIPCIGDVNGDGLDDLVVWNSASGACQVWLSSGTRLRHAGVWYSAKDPLGSPLSVVLGDVDGDGLEDLVLVQPASGKWFILYSSGTAFGRQEECYGPWAAGEQTTPFLADLSGNSRVSLLAWSPNRHGGTLDAAINSRDRTMG				NA	NA	NA	NA	NA
AK002_03881	672			hypothetical protein	ATGGCACCACCCAATACGGCCGGTTCAGCGGCACCGATCAAAATCGTGAAACCGAAGCTCCCCAAGCAGCTTGAGCCTGTGATCCTGTCCGATGCCGGCATTGACGACGAATCCTCGTTCGTTCAATCCGCTTGTCAGGACGAGACGCTTGTCTATGTTACGGCCAACAAGGTTCAGTTCGACCAAATGATCTTTGATAACGTAACGTTCCAACACGTCACGCTCCATCATGCCGAGCTGACAGACCTCGTGTTCAACCACTGCGACTTGTCCAATGTTGATCTCAGCGAGGCCATCATGTATCGGGTACAATTTAATCATTGCAAAATATTGGGGCTCGACCTGACGGCCGCCACCATCCGTAATGTCGTATTCGATCATTGTACGGGCGACTATGCCACGTTCCGGTTTGCCAACATGAAACAGGTATCCTTCCAATCGACATCGCTCGTCAAATCGGATTTTTATCATTCCGAGTTAAGCAAGGTAGAGTTGTTGGACTGCCAGATCGATCAATCGCAGTTCTCCGGCACGAAGCTTGCGGGAATCGATCTAAGCCGAACGGACTTCCATCATATCGGCGCGACCCTGGAAGATCTTCAAGGTTGCATTATTTCGCCGCATCAAGCCATCCCGCTAACCAAAATATTCGGGCTTGTCGTAAAAGAATAA	MAPPNTAGSAAPIKIVKPKLPKQLEPVILSDAGIDDESSFVQSACQDETLVYVTANKVQFDQMIFDNVTFQHVTLHHAELTDLVFNHCDLSNVDLSEAIMYRVQFNHCKILGLDLTAATIRNVVFDHCTGDYATFRFANMKQVSFQSTSLVKSDFYHSELSKVELLDCQIDQSQFSGTKLAGIDLSRTDFHHIGATLEDLQGCIISPHQAIPLTKIFGLVVKE				NA	NA	NA	NA	NA
AK002_03882	1107	iolG_16		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAAGAAGGTAAAGGTAGGCATTATCGGCTGCGGTAAAATCAGCGGCATTTATATGGAAAACTGCCACAAGTTCGACATCCTGGAGCTGACGGCCTGTGCGGATATCGATCGAGCCCGTGCCGAGGAACAGGCCGTCAAATATAATATCCCGAATGTTTATACCACCGAGGAGCTGCTCGCGGACCCGGAAATTGAGCTGGTCATTAATCTGACGATTCCTGCCCTTCATGCGCAAATTATGCTGGATGCATTGGAAGCCGGCAAGCATGTGTACGTCGAGAAGCCGCTGGGCGTAACCCGGGAAGAGGGCAGAGCGGTGTTGGACATGGCAGCAGCCAAAGGGCTGCTGGTAGGATGCGCGCCCGAGACATTCCTTGGAGCCGGTATCCAAACGGCCCTGAAGCTGATTGAGGATGGACGTATCGGCAAGCCGATCGCAGCAACCGCATTCATGATGAGCCGCGGACATGAGCATTGGCATCCGGATCCGGAATTTTATTATGCCGCCGGCGGCGGGCCAATGTTTGACATGGGGCCTTACTACCTGACGGCACTGGTCCAATTGCTGGGACCGATCCGTGGCATTAGCGGAATGACCGGCGCTGCGCTCGCGGAGCGGACCATTACCAGCGAGAAGAAGCAAGGGCAGAAGATTAAGGTAGACATTCCTACGCATGTAGCCGGACTTATCGATTTTCAGAATGGAGCCATCGGCACGCTGATTACGAGTTTCGATGTTTTTGGAGGCAGCACGCTTCCTAATATTGAAATTTACGGCACCAAGGGTACGCTTCTCGTTCCGGATCCCAACACCTTCGGCGGGCCGGTAAAATACCGATTGACCGGCGAAACCGAGTGGACGGAAGAACCGCTGCTGCCTGGATACAACGAGAATACCAGAGGCATCGGTCCCGCCGATATGGCTTATGCCATTCGGAGCGGAAGAGCTCATCGGGCGAGCGGCGAGCTTGCCTATCATGTGCTTGAAGCCATGTGGGGGTTCCATGATGCTTCCGATGACGGCAAACGGTATGAGATGTCCAGCACCTGCGGCATTCCGGCACCGCTTCCGCTTGATTTGCCGAAGTATACCCTGGATCAATAA	MKKVKVGIIGCGKISGIYMENCHKFDILELTACADIDRARAEEQAVKYNIPNVYTTEELLADPEIELVINLTIPALHAQIMLDALEAGKHVYVEKPLGVTREEGRAVLDMAAAKGLLVGCAPETFLGAGIQTALKLIEDGRIGKPIAATAFMMSRGHEHWHPDPEFYYAAGGGPMFDMGPYYLTALVQLLGPIRGISGMTGAALAERTITSEKKQGQKIKVDIPTHVAGLIDFQNGAIGTLITSFDVFGGSTLPNIEIYGTKGTLLVPDPNTFGGPVKYRLTGETEWTEEPLLPGYNENTRGIGPADMAYAIRSGRAHRASGELAYHVLEAMWGFHDASDDGKRYEMSSTCGIPAPLPLDLPKYTLDQ				NA	NA	NA	NA	NA
AK002_03883	732			hypothetical protein	ATGAAAAAGGCTTTAATCGTATGGGGCGGCTGGGACGGACACGAGCCGGAGCAGGTTGCCGGCATTTTCGCGGAATTGCTTCGGGGCGAGCAGTATGAAGTGGAAGTATCCGACACGCTGGATGCATTTAACGATGCGGAGAAGCTGCAGGCTTTGGATCTGATCGTGCCGGTATGGACGATGGGCGAAATATCGAAGAAGCAAGTGGAGAACGTATCGCTTGCGGTGCAGAAGGGAACCGGCTTGGCCGGCTGTCATGGCGGGATGTGCGATTCTTTCCGCAATAATGTGGATTGGCAGTTCATGACGGGTGGAAACTGGGTTGCGCATCCGGGGAACGACGGAGTGGAGTACCGGGTCGAGATCAAATCCAGCTCTAGTCCGCTTGTGGAAGGGCTGCAGGATTTCACCGTGGCATCCGAGCAGTATTATCTGCATGTGGATCCGGCCGTCGAAGTGCTGGCCACCACCCGTTTTCCGGTTGCGGCAGGACCGCATCTGCTGAACAAAGCGGTTGACATGCCGGTGGCGTGGACGAAGCGCTGGGGATACGGACGGGTCTATTACAATTCGCTGGGTCATCATGCAGATATCGTCGACATGCCGCAGGTGAAGGAAATGATGCGGAGAGGACTGCTGTGGGCCGCCGAGGGCAAGTCATTGTATGCCGGCTCGGACATGAGTTTCTTTACCGAAGGTCAGGGCTACACAGGCATGGGAGACAGCCAATAA	MKKALIVWGGWDGHEPEQVAGIFAELLRGEQYEVEVSDTLDAFNDAEKLQALDLIVPVWTMGEISKKQVENVSLAVQKGTGLAGCHGGMCDSFRNNVDWQFMTGGNWVAHPGNDGVEYRVEIKSSSSPLVEGLQDFTVASEQYYLHVDPAVEVLATTRFPVAAGPHLLNKAVDMPVAWTKRWGYGRVYYNSLGHHADIVDMPQVKEMMRRGLLWAAEGKSLYAGSDMSFFTEGQGYTGMGDSQ				NA	NA	NA	NA	NA
AK002_03884	1161	iolG_17	COG0673	Myo-inositol 2-dehydrogenase	ATGAAACAATTACGTGTCGGCATGATCGGATATAAATTCATGGGCAAAGCCCACAGCAACTCATATCGAAGCCTTCCGATGTTTTTTCCGAAGGCGCTGAAGCCTGAAATGGTGGCAATCTGCGGCCGCAATGCGTCGGCCGTGCAGGAAGCGGCGGATCAGCTGGGCTGGCGTGAAAGCGTTACCGATTGGAAACAGCTCGTGAATCGGGAGGATATCGATCTGATCGATATCAATGCTCCAAGCGACGCCCATAAGGAAATTGCCATGGCCGCGGCGAAGGCCGGCAAGCATATTTTTTGTGAGAAGCCGCTTGCGCTGACCTTGGCCGACGCCAGAGAGATGCTGCAGGCTGCGGAAGATGCGGGAGTTACCCATATGGTCGGATTTAACTACAGATTTTCTCCGGCCGTAAGACTGGCCAAGAAATTGATTGACAGCGGCAGATTGGGCCAGATCTATCACTTCCGTGCCTGGTTTCTGCAGGACTGGATCATGGACCCGCAGTTCCCGCTGGTATGGCGGTTACAGAAGGAAGTGGCCGGCTCCGGCTCGCACGGGGATCTGGGCGCTCACCTGATCGACCTCGCGCATTATCTGGTCGGGGATATGCAGGAAGTAATCGGGATGAGCGAGACCTTCATCAAGGAGCGTCCCATTGCCAGCGAGATGACCGGATTAAGCGCAAAAGGAAGCGAAGGCGGCCCCATGGGCCAAGTTACGGTAGACGACGCTACGTTATTCATGACCCGCTTCCAGAATGGGGCGCTGGGCAGCTTCGAGGCCACGCGGTTTGCCGCGGGACATCGCAGCACCAATTCCTTCGAGATCAACGGCAGCTTGGGCAGCGTGAAATTTGATTTTGAACGAATGAACGAACTGGAGGTTTACTTCACGACCGACGATGAGGACGTTCAGGGCTTCCGCCGGGTACTGGCTACCGATCCCGTACACGATTATATGGAAGCATGGTGGCCGCCGGGGCATACGATCGGTTTCGAACACACCTTTACGCATGAAATCCTGGAGCTGTCGAACGCGATTTCGGAAGGACGGCAGCCCGTGCCTAATTTCGCGGACGGCGTAAAATGCCAAGCCGTCCTGGAAGCCGTGGATAAATCGATTGAAGAACGCCGCTGGGTGCAGCTGTCTGAAATGTAA	MKQLRVGMIGYKFMGKAHSNSYRSLPMFFPKALKPEMVAICGRNASAVQEAADQLGWRESVTDWKQLVNREDIDLIDINAPSDAHKEIAMAAAKAGKHIFCEKPLALTLADAREMLQAAEDAGVTHMVGFNYRFSPAVRLAKKLIDSGRLGQIYHFRAWFLQDWIMDPQFPLVWRLQKEVAGSGSHGDLGAHLIDLAHYLVGDMQEVIGMSETFIKERPIASEMTGLSAKGSEGGPMGQVTVDDATLFMTRFQNGALGSFEATRFAAGHRSTNSFEINGSLGSVKFDFERMNELEVYFTTDDEDVQGFRRVLATDPVHDYMEAWWPPGHTIGFEHTFTHEILELSNAISEGRQPVPNFADGVKCQAVLEAVDKSIEERRWVQLSEM				NA	NA	NA	NA	NA
AK002_03885	1053	ccpA_5	COG1609	Catabolite control protein A	ATGATTATCGCTAGTCGTAAAGAGGTAGCACAGCTGGCCGGCGTTTCGGAAGCAACGGTATCCCGCGTCCTGAACGGGGTCGGGCCGATCAAGGAGGAGACCAAGCAGCGCGTGCTGGAAGCGGCGGATCGGCTTGGATATACCCCAAGCGCGCTAGCCCGAAGTTTTGCGCGGCGCAGGAGCGGTAATCTTGGTGTGGTTATGCCTTACCTGCCGAAAGCTCGCATATTCTCCGCCTATTATTTTTCGGAGATCCTAAGCGGTATCGGCAGTAAGGCGCTGGAGAGCAAGCATGACCTGTTGATGCTGTTCCGTGAACCCGGCGGTTCGATGGATTACTTGAACCTGTTTCGTACCCAGAAGGTGGATGCCTGCATCATTCTCGGCGCCCGGGACGATGAAGGCGAGCGCGCAGCCATCCAACAGCTGAGTGAAGCGGACCGCCCTTATTGCCTTATTAATCAATACTTTGACGGCGAGGCGTTTCATGTCATGGATGCGGATCATGTTGAAGGCAGCTATCAAGCCGTTCATCACTTGATCGGGCAGGGGTTCCGGCAGATTGCTTTTCTTAATGGCCCGCCCCAGTATTCCAACAGTCGCGACCGGCTGAAGGGGTACACCCGGGCACTGAACGAAGCGGGAATCAAGCCGGATGAATCCTTGCTGTTCGAGGGCAACTTCAGCCGCAAGAGCGGGTATGCCGCAGCCGAGCTAATCGCCGGGAAGCTGGACCGGATCGAAGCGGTGTTTGCGGCCAATGACCGCATGGCGATCGGATTGCAGCAGGGCCTGCGCGCGTTAGGTATTGCAGAAGATCGAATGCCTGCCTTTGTCGGTTATGACGACTCGGAGGCTGCAGAGCTCTGCACCCCGTCGCTTACCAGCGTAAGAGTTCCTTTCTATGAACTGGGGTGTCTTGCCGCGGAGCATGTGCTCCGCCTGCTGGACGACTCCGATTCGCCGGACGGCAGCGGATCGAACGCCGCGCTGCATCGGCAGCTGCCTACTCGCCTAGTGGTCCGCGCATCTTCGCTTCATCGAAATCAATGA	MIIASRKEVAQLAGVSEATVSRVLNGVGPIKEETKQRVLEAADRLGYTPSALARSFARRRSGNLGVVMPYLPKARIFSAYYFSEILSGIGSKALESKHDLLMLFREPGGSMDYLNLFRTQKVDACIILGARDDEGERAAIQQLSEADRPYCLINQYFDGEAFHVMDADHVEGSYQAVHHLIGQGFRQIAFLNGPPQYSNSRDRLKGYTRALNEAGIKPDESLLFEGNFSRKSGYAAAELIAGKLDRIEAVFAANDRMAIGLQQGLRALGIAEDRMPAFVGYDDSEAAELCTPSLTSVRVPFYELGCLAAEHVLRLLDDSDSPDGSGSNAALHRQLPTRLVVRASSLHRNQ	PGPT0017992_3411	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
AK002_03886	1047			hypothetical protein	GTGATTCATACGCGCAAAGAAGCTTTGCCTACGCCGCAATCCATGAAATTCGCCGTCCGGCGCGCGCTCCGTTCGTCGCTTCTGGAGCTGGGGAGCGGAACCAAAGCCGAGCTCAGCGAAAGACTCGGCATCAGCTTTCCGACGGTGAGCAAAGTTGTGGAGCTCATGGTGCAGGAAGGTGAAGTCAACCTGCTCGGACTGGATGAATCCAGCGGCGGCCGACGTGCGAACCGCTATGCTTTTAATCCGGATTACATGCTCGGTCTCGCCGTTTATTATGAGAAAGAGCAGAGCGTATACACTGTTTTTAATTGGAACGGCGACTTGCTCGAGCGGAAGGCTGAAGACGGCATCCTTCATCATGGACCGGAAGCCTTGGCTTCCCAAATGGCAAACTGGACCCGCCGTTATCCAGAGATTCGCTCCATCGCCGTTGGCATGCCGGCGGCGGTGCGGGACGGTATTATTTTTCATGTGCCGTCGTATGGAACATTCCAGGATTACAATCTCCAATCTTACCTGGAGGATCTGTTCTCCATTCCTGTCATCATAGAGAATGACATGAATGCAGCCGTGCTCGGTTACCACAATCTCAGCGGCTCGGCGGAGGCCTCCCTCATATACGTGTACCTCGGTCACAACGGGCCGGGGGCCGGACTGCTCATTAATGGAAACGTTGTTCGCGGCCGCTCGTTCTTCACGGGCGAGATCGGCTTCGTCCCGATGAGCGAGGGCAGCAATTTTCAAGACATATTGGAACGTAATCGTTCCGTGTTGAGCAGTCTCATCGAGCCGGATCAGGAGCAAATCGATGCGTTAAGCCGGCTAAGTGCCGCCTTCGCCGCGATTCTCAATCCCGATGCCATTCTGTGGTGCGAGCATAACCTCTCGCCCTCCGCCCTGCTCTCCATTAAAGAGCGTGCTTCCGCCTACGTGCCGGAGCGGCATCTTCCCGAAATGCTGCTTCGCGATTGGGAACACGACTATCTAGCCGGCTTGCAGCGGATCGCTCTGGATATGATGATATCCGATACAAGCGCAATGTAA	MIHTRKEALPTPQSMKFAVRRALRSSLLELGSGTKAELSERLGISFPTVSKVVELMVQEGEVNLLGLDESSGGRRANRYAFNPDYMLGLAVYYEKEQSVYTVFNWNGDLLERKAEDGILHHGPEALASQMANWTRRYPEIRSIAVGMPAAVRDGIIFHVPSYGTFQDYNLQSYLEDLFSIPVIIENDMNAAVLGYHNLSGSAEASLIYVYLGHNGPGAGLLINGNVVRGRSFFTGEIGFVPMSEGSNFQDILERNRSVLSSLIEPDQEQIDALSRLSAAFAAILNPDAILWCEHNLSPSALLSIKERASAYVPERHLPEMLLRDWEHDYLAGLQRIALDMMISDTSAM				NA	NA	NA	NA	NA
AK002_03887	1254			hypothetical protein	GTGAATACTGACCTTCAACCAAAAACAAAACCTAAATTGAGCAAAGACTACACCCTGCATTTGGCAACGATCTTTCTCGGCTTTATCATATTTGGGATATCGGAGAATATTAAGGGGCCCGCCATTCCGCGGATCCAGTTCGATTTTCGATTGGATGAAATGCAGATCGGCACCTTGCTCTCCCTGAACGCACTCGGGTATCTGATCGCGTGCTCCTTCACCGCGCTGTTGACCCGGAAGATCGGAATCAAGTGGGTCAGCATGGCTGCCTTCGGATCGATGGCCATCTCGGGCGTGTTGATTTTCCTGTCCCACAGCTACCCGCTGTTCACCGCATCCTACTTCTTAATGTACATTGGGAACGGTATGCTGGAGATCGGCCTCGCAATATTGTCAGCCCGGATCTTTTTGCGCAATACGGGCACGATGATGAACCTGTCCCATTTCTTTTACGGTATCAGCTCAACGGTGGCCCCGATGATTGCATCCGGTCTCATGACCGTTACCGTGTTTAATTACACGTTGGATTGGCGGGGCATGTACCTGGCCATGCTGATGTTATCCATACTTCCCATGATCCCGGCACTCATGAGTAAGTTTCCCGGGGACAATCTATCCGAAACGGAACGGACTCCGCTGAAGCTGCTGGTCAAAGATCCCGCGCTGTGGCTGGTCGTTATGATCCTATCCTTCGGCGTCGTATCGGAGATGGCGGTTGGCGGATGGCTCGTCAACTTTCTTGAAAAATCGTACAAATGGGAACCTGCAGCGGCAGCCGGCATGCTATCCGCGTTCTTCCTCTGCTTCTCGGCGGCACGCCTGCTGCTTGGCCCGATCACGGACCGGATCGGCTTCACGCTGTCCATCATCATTCTATCCGGATTGACCGGAGTATGTACGTTTGTCGCGATTTTCGGCGGAGAATCCTACGCCTTCCTGTTTGCGGCGGCAGGCATCGGGATTGCCCCGATCTATCCGACGGTTATGGCTCTCATTGCCAAAAGATATCCGAATGAGAGCGACACCGCGATTACGTTCACCGTCACCATGATGGGGATCGGCAGCGTCATCGGCAATTACGCGATCGGCGCGATCACGAACGGATTCAAGCAAATGTACGGCAGCGGTACAGAGCTCGGCCTGCTGCGCGGGCTCCAGGCCGGCTATGGCTTCATTGGATTATGTGCCGTTCTGTGCTCGCTATTCGGTATCGTCTTGTACCGATATTTAAAAGTCCGCAAGCAATTAATCTGA	MNTDLQPKTKPKLSKDYTLHLATIFLGFIIFGISENIKGPAIPRIQFDFRLDEMQIGTLLSLNALGYLIACSFTALLTRKIGIKWVSMAAFGSMAISGVLIFLSHSYPLFTASYFLMYIGNGMLEIGLAILSARIFLRNTGTMMNLSHFFYGISSTVAPMIASGLMTVTVFNYTLDWRGMYLAMLMLSILPMIPALMSKFPGDNLSETERTPLKLLVKDPALWLVVMILSFGVVSEMAVGGWLVNFLEKSYKWEPAAAAGMLSAFFLCFSAARLLLGPITDRIGFTLSIIILSGLTGVCTFVAIFGGESYAFLFAAAGIGIAPIYPTVMALIAKRYPNESDTAITFTVTMMGIGSVIGNYAIGAITNGFKQMYGSGTELGLLRGLQAGYGFIGLCAVLCSLFGIVLYRYLKVRKQLI	PGPT0021080_26	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021080-pbuE-K18567	NA	NA
AK002_03888	1764	bga_2		Beta-galactosidase	ATGAAAGCTCAATTGAAAGCGGTTAACCAACAATTCCTGCTGGGGGATGAGCCGATTCAGATTTTGTCTGGTGCCATCCATTATTTTCGGGTGGTTCCGGAATATTGGGAAGATCGCCTGATGAAGCTGAGAAGCTGCGGATTGAACACGGTGGAAACCTATATTCCGTGGAATTTGCATGAACCGAAGGAAGGACAATTTGTGTTTGATGGCATTGCCGACCTGGAAAGGTTCGTCCGTATCGCCGGCGATCTCGGGCTGCATGTCATCCTTCGGCCGAGCCCTTACATATGCGCAGAATGGGAATTTGGAGGACTTCCATCCTGGCTGCTGCAAAATCCGGATATTCAGCTTCGATGCATGGACCCGGTTTATCTGGAGAAGGTCGACCAATATTATGATGAGCTGATTCCGCGATTGGTTCCGTTACTGACCTCCAAGGGTGGTCCCGTGATTGCGATGCAAATCGAGAACGAGTACGGGAGTTACGGAAATGATACGGCATATCTGGAGTATCTAAAGGATGGCTTGATCAAGCGGGGCGTGGACGTGCTGCTGTTCACTTCGGATGGCCCCACGGACGGAATGCTGCAGGGCGGAGCCGTTCCCGGCGTGCTTGCCACGGTCAATTTCGGATCAAGAACGAAGGAGGCTTTTGATAAACTGCGGGAGTACCGTCCGGAAGATCCTCTGATGTGCATGGAATACTGGAACGGTTGGTTTGATCATTGGCTGAAGCCACACCATACCCGGGACGCGGAGGATGCTGCTGCCGTGTTCAAGGAAATGCTGGACTTGAATGCATCCGTGAACTTCTATATGTTTCATGGCGGAACGAATTTCGGATTCTATAACGGGGCGAATTTTCACGAAAAGTATGAGCCGACGCTAACCAGCTACGATTATGATGCGCCTCTCTCGGAGTGCGGGGACGTGACGGCCAAATTCGAAGCCATTCGAAGCGCGATCGCACAGCATCAGGGAAAAGAGCTCTCCGATTTGCCAAGCCTCCCGCAGCCTGTCAAGAAAATAAGCTATGGCTCGGTGAGCATGACGCACTATGCCGACCTGCTGGAGCATCTGCCTGCGCTTTCCGAGGAGCAGAAACGCACGGCACCCGTACCGATGGAACGGCTGGGCCAAAGCTATGGCTTCACGGTTTACGCAACGCATATATCCGGGCCGCGCCAAGGGGAGTCCCTGCATCTGCAAGAGGTGCATGACCGGGCACAGGTATTCCTGGACGGAAAGTATCAAGGGACGGTGGAACGTTGGGATGCCAAAGCCCTGCCAATCGATGTTCCGGCAGCCGGCGCCAAGCTGGAGATCGTTGTCGAGAATATGGGACGCATCAATTACGGGCCGAAGCTGAAGGATTATAAAGGTATCACGGAGGGAGTCCGAATGAACAACCAGTTCCTGTATGACTGGTGCATCTATCCCTTACCGCTTGATCATCCGAATGCGGCACCGTTTCAACCGCTGGAGGGACCTTTGGAACAGCAGGATCGACCTACCTTCTATCGCGGCGAATTCTTGGTGGATGACATTGGCGATACGTTTATCCGCTTAGACGGATGGGGAAAAGGGGTCGTCTGGGTCAATGGCTTCAATCTGGGGCGCTACTGGGAGCAAGGGCCGCAAGCAGCGCTGTATCTGCCTGGACCGCTGCTGAAGCAGGGACGGAATGAAATATTGGTATTTGAGCTGCATCATACCGAAACGGCAAGCATCGAGCTTGTCGACACACCCGACTTGGGTTAA	MKAQLKAVNQQFLLGDEPIQILSGAIHYFRVVPEYWEDRLMKLRSCGLNTVETYIPWNLHEPKEGQFVFDGIADLERFVRIAGDLGLHVILRPSPYICAEWEFGGLPSWLLQNPDIQLRCMDPVYLEKVDQYYDELIPRLVPLLTSKGGPVIAMQIENEYGSYGNDTAYLEYLKDGLIKRGVDVLLFTSDGPTDGMLQGGAVPGVLATVNFGSRTKEAFDKLREYRPEDPLMCMEYWNGWFDHWLKPHHTRDAEDAAAVFKEMLDLNASVNFYMFHGGTNFGFYNGANFHEKYEPTLTSYDYDAPLSECGDVTAKFEAIRSAIAQHQGKELSDLPSLPQPVKKISYGSVSMTHYADLLEHLPALSEEQKRTAPVPMERLGQSYGFTVYATHISGPRQGESLHLQEVHDRAQVFLDGKYQGTVERWDAKALPIDVPAAGAKLEIVVENMGRINYGPKLKDYKGITEGVRMNNQFLYDWCIYPLPLDHPNAAPFQPLEGPLEQQDRPTFYRGEFLVDDIGDTFIRLDGWGKGVVWVNGFNLGRYWEQGPQAALYLPGPLLKQGRNEILVFELHHTETASIELVDTPDLG	PGPT0017815_2374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
AK002_03889	915	rhaR_49		HTH-type transcriptional activator RhaR	ATGGATATCGCTTTTCGCTTTCCCAATATGATTCAAACGCTGCAGGTAACCGGATGCCATTTTGATTCCCAGCCGCCAGGCTGGAGTTATCCGAGGCATCACCATCACCTGTTCGAGCTGCTATACTGTCTGGAAGGCGAAGTCCTGCAGGAAATTCATCGGGATTCCATTCAGCTCCGCGAAGGGGAATGGCTTCTGATCAAATCCGGGGTGCCCCATCAAACCTCGAATGCATCCAACAAGCAGTATGGGTACTTCAATGTTCATTTCGATCTGGATGATGCAGAAATTCGAAGCTCGTTATCCGCTGCCCCTTTCCGACATATTCGCCAGCACGAAAGCGAGCGCAGCAAACTGGCTGCCCACGTTCAAGAGCTGGAGGGAATCGTCCGGCGCAGCCAGCCGGCAGCCCATTCGGTCCGTCCGGAGAACCAGCCAAGCGATTACAATCTCACTTTTGAGGACAGGCTTCTGCTCCAGTCCTACACCCTGCTCATCATCCATGATGTGCTCTCTCTCTTGAAGATGCAGGATGCGCTGAAGCCGCCCCGCGCTTTATTTGCGGCAACAGGCCCCCCTAAACCGTCCTCCCTGCTTGCAGCGGATGCGGCTCATGCCATCGAAGCGAAGCTGTCGTCGGGATTGACCGAAGAGATATCGGTCATGGCTGTGTCCCAAGAGCTTAATTTAAGCCGAAGCCAATGCTCCAAGTTGTTCCGCCAAGTGTACGGGATCTCGCCTAGACAATATATCAGCCGCCAGAAGCTCAGTCTGGCCAAAGAGCTGCTGGTCACGACCCATCTGCCGATGAACGCAATCGCCGACAAACTCGGTTTTCGCTCAGCCAGCCATTTTTCCAGGCAATTCCGCCGCTGGACCGGGCAGTCGCCGACGGAATACCGGCCCAGGCACTAA	MDIAFRFPNMIQTLQVTGCHFDSQPPGWSYPRHHHHLFELLYCLEGEVLQEIHRDSIQLREGEWLLIKSGVPHQTSNASNKQYGYFNVHFDLDDAEIRSSLSAAPFRHIRQHESERSKLAAHVQELEGIVRRSQPAAHSVRPENQPSDYNLTFEDRLLLQSYTLLIIHDVLSLLKMQDALKPPRALFAATGPPKPSSLLAADAAHAIEAKLSSGLTEEISVMAVSQELNLSRSQCSKLFRQVYGISPRQYISRQKLSLAKELLVTTHLPMNAIADKLGFRSASHFSRQFRRWTGQSPTEYRPRH				NA	NA	NA	NA	NA
AK002_03890	393	catD_3	COG2259	Putative oxidoreductase CatD	ATGGGTAATTATTCTTCGGCAGGCACTTTCATTATTCGGGTGATTCTGGGGGTCATCTTTATGGCTCACGGTTTGGATAAATTCCAGAGCGGCATCGGGAATATCGAAGGATTCTTCGCAAGTCTGGGAATCCCTGCCTTTATGGCTACCGTTGTAGCCATCATCGAAATCGTGGGAGGGATTGCGCTGATTATCGGTTTGGGAACAAGAATCGCTTCTCTGGTTCTTGGGGTCGTGCTTGTCGTGGCGATTTTTCAGGCGAAGCTGGGCATGGGTTTCCTGGGTGGTTATGAACTGGATATCGCGCTGCTGGCCATGGCCGTACATCTTGTTCTTAGCGGCAGCAGCCTGCTCTCGGTTGATTCGCTGTTCAGCAAGAAGAACAAAGCCTAA	MGNYSSAGTFIIRVILGVIFMAHGLDKFQSGIGNIEGFFASLGIPAFMATVVAIIEIVGGIALIIGLGTRIASLVLGVVLVVAIFQAKLGMGFLGGYELDIALLAMAVHLVLSGSSLLSVDSLFSKKNKA	PGPT0028505_6396	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
AK002_03891	1494	abf2_2	COG3534	Intracellular exo-alpha-L-arabinofuranosidase 2	ATGAGTCAGGTTATTACCATTCATTCAGACGTATCCAAAGGCAAAATCAATCGCAATATTTATGGACATTTCTCCGAGCATCTGGGCCGCTGCATTTATGAAGGAATCTGGGTGGGCGAGGATTCGCCGATACCTAATACGGAAGGGATCCGCAATGACGTGCTGGATGCGTTGAGACAGCTGAATATACCTGTTCTGCGCTGGCCGGGCGGTTGTTTTGCCGACGAATACCATTGGAAAGATGGCGTCGGGCCGCGGGAGAATCGGAAACAGATGGTCAATACGCACTGGGGCGGCGTTGTGGAGAACAACCATTTCGGTACGCACGAATTCCTGCGTCTCTGCGAGCTTTTGGGCTGCGAACCCTACATATCGGGCAATGTCGGCAGCGGCACCGTTCAGGAGATGTCGGAATGGGTTGAATACATGACCTTTGACGGCGTGTCGCCGATGGCCGCATGGCGTCAGGAGAATGGCCGCGAAAAGCCGTGGAACGTGAAATATTTTGGTGTCGGGAACGAGAACTGGGGCTGCGGTGGAAATATGCGGCCGGAATATTATGCGGACTTGTATAGACGCTATCAGACTTACGTCCGCAACTATGGCGAGAACAAGATCTACAAAATTGCTTGCGGACCGAATGTGGACGATTACCGCTGGATGGAAACCGTCATGAGGGAAGCGCATCCGTACATGGATGCCATAAGCCTTCATTATTACACGATTCCGGGCGAATTCTGGACAGGCAAAGGACCTGCCACCGGATTCAGCGAGCAGGAATGGTTCACCACCATGAAGAAAGCGCTCCATATGGATGAATTGATCACGAGACACTCGGCGATTATGGATCAGTATGATCCTAATAAGCGCATCGGGCTCATCGTGGATGAGTGGGGCACCTGGTTTGATGTCGAGCCCGGCACGAACCCTGGCTTCCTGTACCAACAGAATACGATCCGTGATGCCCTGGTGGCGGGTTTGACGCTGAATATTTTCCATGAGCATAACGATCGGGTGGTGATGGCCAACATCGCGCAGATCGTCAACGTCCTGCAGTCCGTCATCTTGACGGAAGGCGAGAAGATGATCCTTACCCCGACCTATCATGTGTTTGATATGTATAAAGTGCATCAGGATGCCGAACGTTTGGCTACCCATCACAGCGGGGTCGATTATGAGATGAATGGCGAGAAGATCCCGCAAGTATCCGTGACGGCCTCGAGGGATGAAGCCGGAAAAATCCATGTAAGCCTGTGTAATGTTAGTCACGCGGAGCAGAGCGACGTGAAGATCCAGCTGCGGGGATTAAGCGGTGCGGTGAAGCAAATCGTTGGCCGGCAGCTTGCCGCCGATTCGCTGGACGCTCATAACACCTTTGAATCGCCGGAGGTTCTCAAGCCGGCTGCATTCACTGCATTTGAACAGGAAGGTGACGTACTGCGTGCGAAGCTGGCACCGATGTCCGTTACCGTTCTTGAGATCACGGCGGAATAA	MSQVITIHSDVSKGKINRNIYGHFSEHLGRCIYEGIWVGEDSPIPNTEGIRNDVLDALRQLNIPVLRWPGGCFADEYHWKDGVGPRENRKQMVNTHWGGVVENNHFGTHEFLRLCELLGCEPYISGNVGSGTVQEMSEWVEYMTFDGVSPMAAWRQENGREKPWNVKYFGVGNENWGCGGNMRPEYYADLYRRYQTYVRNYGENKIYKIACGPNVDDYRWMETVMREAHPYMDAISLHYYTIPGEFWTGKGPATGFSEQEWFTTMKKALHMDELITRHSAIMDQYDPNKRIGLIVDEWGTWFDVEPGTNPGFLYQQNTIRDALVAGLTLNIFHEHNDRVVMANIAQIVNVLQSVILTEGEKMILTPTYHVFDMYKVHQDAERLATHHSGVDYEMNGEKIPQVSVTASRDEAGKIHVSLCNVSHAEQSDVKIQLRGLSGAVKQIVGRQLAADSLDAHNTFESPEVLKPAAFTAFEQEGDVLRAKLAPMSVTVLEITAE	PGPT0018655_1711	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-ARABINOFURANOSIDASE,PGPT0018655-abfA-K01209	NA	NA
AK002_03892	747	artM_3	COG1126	Arginine transport ATP-binding protein ArtM	ATGGCAATTATCGAAGTAACCCATATGAAAAAATCCTTCGGCTCGCTGGACGTGCTGAAGGACGTCAGCTTTGAGATCCAGAAGAATGAAGTGATTGCCGTCATCGGGCCTTCCGGTTCGGGAAAGAGCACCATGCTCCGCAGCCTGGTGCATCTGGAGGAAATCAACGGCGGATCGATCAAGGTGCAGGATCAGTATTTGGTGAAGGACGGCGTATATTCCAGTCCGCACCAGATCAAAGCGATCACGTCCCGGATGGGCATGGTATTTCAGCACTTCAATCTGTTTCCGCATTTGACGGTACAGGAGAATCTGGGCCTTGCGCCCAAACATGTCAAGAAACAAAGCAAAGAAGAAGTAAGAACGAACGGCGCCGCGCTTTTGCAAAAGGTCGGTTTGTCCGATAAAGCGGATGTACACCCCGGAAATTTGTCGGGCGGTCAGAAGCAGCGCGTGGCCATTGCTCGAGCGCTTATGATGAATCCGGACATCATGCTGTTTGATGAACCGACATCGGCGCTGGATCCCGAGCTGACCGGCGAGGTGCTGGCCGTCATCAAGCAGCTGGCCGAGGAGCACATGACGATGGTGATCGTGACGCATGAGATGAGTTTTGCCAAGGAAGTGGCGGACCGGATCATCTTCATGGATCACGGACAAGTAGTCGAAGCCGGAACGCCGGATCAAATATTTAACCAGCCGAAGATGGAGCGGACCCGCGAGTTTTTAAATCGGGCATCGCGTTAA	MAIIEVTHMKKSFGSLDVLKDVSFEIQKNEVIAVIGPSGSGKSTMLRSLVHLEEINGGSIKVQDQYLVKDGVYSSPHQIKAITSRMGMVFQHFNLFPHLTVQENLGLAPKHVKKQSKEEVRTNGAALLQKVGLSDKADVHPGNLSGGQKQRVAIARALMMNPDIMLFDEPTSALDPELTGEVLAVIKQLAEEHMTMVIVTHEMSFAKEVADRIIFMDHGQVVEAGTPDQIFNQPKMERTREFLNRASR	PGPT0020790_3582	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
AK002_03893	660	artQ	COG0765	Arginine transport system permease protein ArtQ	ATGAGTATGGATTACATCGTTCAAATCGGCAAACCGATGCTGGAGGGCGCGCAGACCACGATCCTGTTGTTCTTGATTTCCATTCTGGCCTCCATTCCTCTTGGGTTTGTGTTCACGTTAATGGTTCGAAGCGCAATCAAGCCGCTGGCTTGGTTGGCTAATGCCTATATATATGTTTTTCGCGGTACCCCGCTGCTGCTGCAGCTGCTGTTCTTTTGCTTTGGTCTGCCGGTGCTGCCGGTGATCGGAGAATATCTCGTTTTGGATCGTTTTGTAGCCGCATGTTTGGCATTCGTGCTGAACTATGCTGCTTATTTTGCGGAAATCTTCCGCGGAGGACTCTTGGCGATTGACAAGGGGCAATATGAAGCGTCCAAGGTGCTGGGCTTGAACCGCTGGCAGACAACCACGAAAGTAATTCTGCCTCAGATGTTCCGCGTAGCCCTGCCGGCGGTATCCAACGAATCCATTACGCTGGTGAAGGATACGGCGCTGCTGTATGCCGTCGCGGTGCCGGAGCTGCTGCACTTCGCGTATACGGCGGTCAATCGGGATTTCACGATTATGCCGTTTGTTATTGCGGGCGTGATATACCTGCTGATGACGCTTGTGTTAACGCTGCTGTTTAAATTTCTGGAACGCCGATTCAAATATGAATAG	MSMDYIVQIGKPMLEGAQTTILLFLISILASIPLGFVFTLMVRSAIKPLAWLANAYIYVFRGTPLLLQLLFFCFGLPVLPVIGEYLVLDRFVAACLAFVLNYAAYFAEIFRGGLLAIDKGQYEASKVLGLNRWQTTTKVILPQMFRVALPAVSNESITLVKDTALLYAVAVPELLHFAYTAVNRDFTIMPFVIAGVIYLLMTLVLTLLFKFLERRFKYE	PGPT0020795_9517	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
AK002_03894	768	fliY	COG0834	L-cystine-binding protein FliY	GTGAAAAAGATAGCATCCGTGTTAGCAGGCTTCATGCTTTTATTAACTGTCGTCGGCTGTTCGAGCTCGGCAAGCGGGGGGAATGAGCTGGTGGTCGGAATTGACGACAAGTTCGCGCCCATGGGATTCCGCGACGAGAGCAATGAGATTGTCGGCTTTGATATCGATTATGCCCGCGCAGCCGCCGAGAAAATGGGCAAGGAAGTCAAGTTCCAGCCCATTGATTGGAAAGCGAAGGAATCCGAGCTTAGCAGCGGACGCATTGACTTGATCTGGAACGGTTATACCATCACCGATGAGCGCAAGGAGAAAGTGCTGTTCACCAAGCCTTATCTGGAGAACAGTCAGGTCGTCGCGGTGCTGAACGATTCGGATATCGCAACGATCGGCGATTTGGCCGGCAAACAGGTCGGATTGCAGTCGCTATCCTCGGCAGCCGACGCGCTGAGCGCCAATGCCATTCACGAGCAAGTGAAGAACATTTCCGAATTTCCCGACAATGTGCTGGCATTGAGCGATTTGAAGAATGGACGCGTAGACGCCGTGATCATTGACGAAGTGGTCATGAAATACTACATGTCCAAGGAAGAGGGAACGTACAAGATTTTGGAGGAGTCCCTGGCACCGGAGCAGTACGGGATCGGAGTGAAGAAAGGCAATGAGGAACTGCTGGAAAGCCTGCAGAAAGCATTGGACGACATGAATGCCGACGGCACGGCCGCCAAGATTTCCGAGAAGTGGTTCGGGGAAGACAAAGTGTTGAAGTAA	MKKIASVLAGFMLLLTVVGCSSSASGGNELVVGIDDKFAPMGFRDESNEIVGFDIDYARAAAEKMGKEVKFQPIDWKAKESELSSGRIDLIWNGYTITDERKEKVLFTKPYLENSQVVAVLNDSDIATIGDLAGKQVGLQSLSSAADALSANAIHEQVKNISEFPDNVLALSDLKNGRVDAVIIDEVVMKYYMSKEEGTYKILEESLAPEQYGIGVKKGNEELLESLQKALDDMNADGTAAKISEKWFGEDKVLK	PGPT0020800_13363	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
AK002_03895	744			hypothetical protein	ATGACAACCCACTTGAAGTCAGTGAAGCGGCTGGTGCTGCTAGCCATCGCTGTAGTCATGGGCCTCGCTTATCTTCCCGTCTCGGTTTCGGCGGAACCGATCGGACAGCAATCGGAATCACCGGCTGTTCCTTCGTCCAAGGACGAACGCGGGCAACATAAACCCGGCCATATGTTCAAGGCCATCTCCGAGTTTCTGAAGCTGGAGCCTCAGGTTCTCCGGGATAAACTCAAAACCTCGACCCTCGCGGAAATAGCCAAAGAGCAAGGCGTATCGAGAGAAGCCATGAAAGCCAAGATCATGGAGCTGCTGAAGGAGAAAATCGCTTCGCATCCAAAGCAGCTGGGCAAATCCATCGATTACTCCGCGGCGGCGGATAAGCTGCTTGACGCCAAGGGCGGATGGCACAAGCAGCGGATGCATCAGCGGCACGGCCGGCTGATCTCGGATAGCGACGAGCTGGCCAAGCTGCTGAAGACAACGCCGGACCAACTTAAGGCATCGCTGCAATCCGGAAAATCGCTGGCCCAGATCGCGAAGGAGCAAGGCGTGCCCGTCCAGTCCGTCATTGATCAGCAAGTCCAGGCACTCACGAAGCGCCTGGATCGGAAGTTGTCCGAGGGCAAGGTGACGAAGGAAGAATACGAGGAGCGGAAATCCAAGATAGCACCCTTCGTCAGCGACGTGGTCAACGGTAAAATCAAACCGATGAAACACCAGCACTACAGCAAAGATGCCGGTTAA	MTTHLKSVKRLVLLAIAVVMGLAYLPVSVSAEPIGQQSESPAVPSSKDERGQHKPGHMFKAISEFLKLEPQVLRDKLKTSTLAEIAKEQGVSREAMKAKIMELLKEKIASHPKQLGKSIDYSAAADKLLDAKGGWHKQRMHQRHGRLISDSDELAKLLKTTPDQLKASLQSGKSLAQIAKEQGVPVQSVIDQQVQALTKRLDRKLSEGKVTKEEYEERKSKIAPFVSDVVNGKIKPMKHQHYSKDAG				NA	NA	NA	NA	NA
AK002_03896	516			hypothetical protein	ATGAAGAAGTCGGCTTGGAAATTGGGAGCAATGATGCTGCTTGTCCTGATCATGATGACAACCGTCGGTGTAGCCTCAGGCAACAATTATGAGCCGGTTCCGAAAGCTTCAAATCAGGAAGCTGCCTACATAAACGGACTGGAAATCAAAGACGGCAAGGTCTTTCTTCTAGTAGATCCAATCGAGTGGTATGAGGGAGAGGAAGCGAATCAGGTGTTCCGCGAACGGGAGCAGGACCCTGAGATGACCGAGGCCCCGGACGGCTATTATATCGTGAACGATACGGAAGAGCATAAGGAACTTCCAGTAGCGGACGATGCAGAAGTGCTGCTCCAGCTGTACGACCATACCGGACGATATGAGGATGCCCAGATTTCCTGGAATCAGCCGGTGAGCCTGAGCAAATTCGCGGACATTTACAATAAGGATGATATCGTGGACATGAAATGGTTTCCGTTTCATATCACCGTTGAAGACGGCGTCGTCGTGAAGATCATCCAACAGTATGTACCTTAA	MKKSAWKLGAMMLLVLIMMTTVGVASGNNYEPVPKASNQEAAYINGLEIKDGKVFLLVDPIEWYEGEEANQVFREREQDPEMTEAPDGYYIVNDTEEHKELPVADDAEVLLQLYDHTGRYEDAQISWNQPVSLSKFADIYNKDDIVDMKWFPFHITVEDGVVVKIIQQYVP				NA	NA	NA	NA	NA
AK002_03897	930	ppaC	COG1227	Manganese-dependent inorganic pyrophosphatase	ATGGCTAAAACTTTAATTTTTGGACACAAAAATCCGGATACGGACACCATCTGCTCTGCTATTGCATATGCTGACTTGAAGAACCAGCTTGGTCTTTCGGCCGAGCCCGTGCGTCTTGGCGACGTGAACGGCGAAACGCAGTACGCGCTCGATTTCTTCAAAGTAGAGGCGCCTCGCCTCGTTGAGACGGTTGCAAACGAAGCGCAGGACGTCATTCTCGTGGACCATAACGAGCGTCAGCAAAGCGCCAGCGACATTGATCAGGTTCGCGTAATCGAGGTTATCGATCATCACCGCATCGCTAATTTTGAGACAAGCCATCCGCTGTACTACCGTGCGGAGCCTGTCGGCTGCACGGCTACCATCCTGAACAAGATTTATAAGGAGAAGGGCGTAGCCGTTCGCAAAGAAATTGCCGGCTTGATGCTGTCCGCGATCATCTCGGACTCCCTCTTGTTCAAATCTCCAACCTGCACGGACGAGGATGTGGCTGCTGCTCGCGAGCTGGCTGAAATCGCCGGCGTGGATGCCGACAGCTATGGTTTGGACATGCTCAAGGCAGGTGCCGATCTGAGCGACAAAACCATTGCTCAATTGATCTCCCTCGATGCCAAGGAATTCCAAATGGGCGGTGCCAAAGTCGAAATCGCCCAGGTCAACGCGGTGGATACGAATGATGTATTGTCCCGCCAAGCAGAACTCGAGGATGCGATTCAATCGATTATAACGGACAAAAACCTGGACTTGTTTGTCTTCGTGGTGACGGACATCCTGAACAACGATTCCATCGCGCTGGCGCTCGGTAAAGAGTCCAAAGCCGTGGAGAGAGCGTACAATGTATCTCTGTCGGAGAACAAGGCGCTTCTTAAAGGCGTGGTTTCCCGTAAATCGCAAATCGTTCCGGTTCTGACCGAAGCATTCAACCAATAA	MAKTLIFGHKNPDTDTICSAIAYADLKNQLGLSAEPVRLGDVNGETQYALDFFKVEAPRLVETVANEAQDVILVDHNERQQSASDIDQVRVIEVIDHHRIANFETSHPLYYRAEPVGCTATILNKIYKEKGVAVRKEIAGLMLSAIISDSLLFKSPTCTDEDVAAARELAEIAGVDADSYGLDMLKAGADLSDKTIAQLISLDAKEFQMGGAKVEIAQVNAVDTNDVLSRQAELEDAIQSIITDKNLDLFVFVVTDILNNDSIALALGKESKAVERAYNVSLSENKALLKGVVSRKSQIVPVLTEAFNQ				NA	NA	NA	NA	NA
AK002_03898	1032	murB_2	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGTCTACGATGACTTTACATACATCTGCTATTGACCGATTGTGCAAGCGCAATGTGGAGCTGTCTGCCTTTTCGACGTACGGGATCGGCGGCTCAGCCAATTATCTGGCCATGCCTGAAACGGCAGCCGACCTGGCGGATCTTCTGCAGGATTGCAAGAAACGCGGACTGCCTTGGTACATTTTCGGAATGGGCTCCAACATCCTGTTCCCGGATGAACCCAAACGCGATCTGGTGTTTATCTCGCTCAAAAACCTGGTGGAGCTGCAGGTTTCGGGAGACAAATGGTACGTTTCATCCGGAACGCCGATGTCCCTGCTTTCCTTGATGGGGTTAGTGGGCGGAACCGATTTGCTCGACTTTACTTTTTTGCTGCCGGGCTGTGTAGGCGCCGGCATCTATATGAACGCCAAATATAATGCGCGCCAAATCTGCGATATCCTGGATACGGTATATTATATCGATACGATGGATCCGGGCCTGAAGGTGCAGTCCATTGCGGCGGGAGACTGTTTATTTGCATACAAGCAATCCATCTTCCAGCAGCATCCGTGGATCATCGTAGGCGCCGATCTCAACATACCGGTCAGCTCGGAGGAGCAGATCCATTCGACTTCGGCGCTGCTCACGGAGTGGAAGAGCCGCGGCAGCCATCCTTCCTCGCTTCCGTCCTTTTTCTCGTTCTTTCTGGGCGAGGTCCATGCTTTGGCTGGAAGGGGAATCGAGACGCCGCAGTCGATGCTCGACATCATCAAGTACCGGACGAGTAAGCGTCATTTCGACTATCCGTCCTGCGGTTCCGTATTCAAGAACAATTACGATTACGGGGTAGCCGTAGGCTCGCTCGTGGACCAGCTGAATATGAAGGGGACCGAATACGGAGGCGCCATCATATCTCCGCACCACGGCAACATGATTCTGAACCAGAAGCATGCAAAGGCAACGGACATTCTGTACTTGATGAATCTGATTTCGGAGTCGATCAACAACCATTTCGGGTTCGTTCCGGAACCGGAGATTGTATTGGTATAA	MSTMTLHTSAIDRLCKRNVELSAFSTYGIGGSANYLAMPETAADLADLLQDCKKRGLPWYIFGMGSNILFPDEPKRDLVFISLKNLVELQVSGDKWYVSSGTPMSLLSLMGLVGGTDLLDFTFLLPGCVGAGIYMNAKYNARQICDILDTVYYIDTMDPGLKVQSIAAGDCLFAYKQSIFQQHPWIIVGADLNIPVSSEEQIHSTSALLTEWKSRGSHPSSLPSFFSFFLGEVHALAGRGIETPQSMLDIIKYRTSKRHFDYPSCGSVFKNNYDYGVAVGSLVDQLNMKGTEYGGAIISPHHGNMILNQKHAKATDILYLMNLISESINNHFGFVPEPEIVLV	PGPT0024115_1500	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
AK002_03899	951	sigA_2	COG0568	RNA polymerase sigma factor SigA	ATGGAGAACCGTCAGAGTGCGGATTTTGCATTGGAACGCGAGGTTACGGATACAGAGAAATCGGCTAATTCTCCAACAGAGGATTTTTCGGTTCACGACGATCTCTCGCTTCCGCCAGGCATCAAGATTAGCGATCCAGTTCGCATGTACCTGAAAGAAATCGGTCGTGTTCCCCTCCTCTCAGCCGATGAAGAAGTGGAACTGTCCAAACGTATAGAGGAGGGAGATGAGGAAGCGAAACGCCGTTTGGCCGAAGCGAATCTTCGTCTCGTTGTTAGTATAGCAAGACGCTATGCCGGTCGGGGAATGCAGTTCCTTGATCTGATCCAGGAAGGCAACATGGGCTTGATCAAAGCGGTGGAGAAATTCGACTACTCCAAGGGCTTTAAGTTCAGCACCTATGCCACTTGGTGGATTCGTCAGGCGATTACCCGCTCGATCGCCGACCAGGCCAGAACCATCCGGATTCCGGTGCATATGGTCGAAACGATCAATAAACTTGTGCGTGTCTCCAGACAGCTCCTCCAGGAGCTGGGGCGCGAACCGACGCCGGAAGAAATCGGCAAGGAGATGGACATCTCGCCGGAGAAAGTGCGCGAGATCCAGAAGGTATCCCAGGAACCCGTGTCCCTGGAAACGCCTGTCGGAGAGGAAAGCGACTCCAACCTGGGCGATTTCATCGAGGATCAGGATGCGTTGGCACCCGCAGATGCGGCGGCTTTCGAGCTGCTGAAGGAACAGCTGGAGGAAGTGCTCGATACGCTTACCGAGCGTGAAGAGAACGTGCTTCGGCTTCGCTTTGGACTCGAGGACGGACGGACCCGTACGCTGGAAGAAGTAGGGCAGGTGTTCGGCGTAACGCGTGAACGCATCCGCCAGATCGAAGCGAAGGCGCTCCGTAAATTGCGTCATCCGAGCCGCAGCAAGCGTCTCAAGGATTTCCTCGAATAA	MENRQSADFALEREVTDTEKSANSPTEDFSVHDDLSLPPGIKISDPVRMYLKEIGRVPLLSADEEVELSKRIEEGDEEAKRRLAEANLRLVVSIARRYAGRGMQFLDLIQEGNMGLIKAVEKFDYSKGFKFSTYATWWIRQAITRSIADQARTIRIPVHMVETINKLVRVSRQLLQELGREPTPEEIGKEMDISPEKVREIQKVSQEPVSLETPVGEESDSNLGDFIEDQDALAPADAAAFELLKEQLEEVLDTLTEREENVLRLRFGLEDGRTRTLEEVGQVFGVTRERIRQIEAKALRKLRHPSRSKRLKDFLE	PGPT0014685_943	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
AK002_03900	1320	nagZ_2		Beta-hexosaminidase	ATGAGCTTAACGATGCTGGTTGTCATCTTGCTGCTGGTTCTGGCAGGTTGCCAAGGCCGTTCGGAGACGGGGAATGCGGGCAATGATGGCCAAGGAACTTCGCCATCGGAGCTAGGACAGGACCAGAACCCGCCTTCTCAAGAGAATGACAACGAAACCGAGCCTCCATCAGGCAGTGCCGACAATGAAAGCGAGAGCGGCAGCCTGCCTCCGAACGAAACCGAAGATGAGATCGCTGAACTTATGAACGACCTGACCGTCGAGGAGAAGATCGGCCAGCTGGTACTGGTCGGACTCGAAGGAACGGCCATCGATGAAACTTCGCGTAAATTGGTTAAGGATCACCATGTTGGCGGGTTTATCCTCTTCAAGGACAATATAGAGAGCGTAGAGCAGTCGGTAAAGCTCCTCAATGATCTGAAGGAAGCCAATGCTGCCAATCCGGTGCCCCTGTGGCTGAGTATAGACGAGGAGGGCGGACGGGTTACGCGTTTTCCCGAGGAATATGTTAAGCTGCCGTCAAGCGGCAAAGTTGGGAGCAAGGGGGATTTAGCGCTCACGAAGCGCGTTGGCGGCCTTATTGCGCAGAAGGTTGCGGGACTCGGGCTCAATATGGTATTCGCCCCGGTGCTGGACATTCATAGCAACCCGAACAATCCGGTCATCGGCGATCGATCCTTTGGCACTACGGCGGAGACCGTTACCCAGCATGGGATTGCCTCCATGAAGGGGATACAGGAGAAGGGAGTCGTTCCCGTCGTGAAGCATTTTCCAGGGCATGGCGACACTTCGGTCGATTCCCACCTCGGTCTGCCCGTGGTGGAGCATGACTTGAAACGTCTGCATGAAATGGAGCTGGTTCCGTTTCAACAAGCGATTAATGAAGGCGCCGATGTGGTCATGGTTGCGCATCTGCTCATGAAGAGCATCGATCCGGATACCCCCTCCTCGTACTCGAAGCCCGTGATCAACGATTTGTTACGGGAAGAGTTGGGATTTAAGGGAGTTGTCATAACGGACGACATGACAATGGGTGCTATATCCGGCAGCACGGACGTAGGTGAGGCCTCCGTGAAGTCCGTTGTCGCAGGAAGCAACATGGTACTGATCGGTCATGAATATGCGCTGGAGGAAGCCGTCATCCAGGCATTGACCAAGGCTGTCCGGAGCGGCGTGATCCCGGAAGAGATGCTGAACGAACGGGTAAGGGCGACGCTTGAGCTAAAGCACAAATATGAGCTAAGCGATGATCCCGTGAAGGCTCCCGATATAAAGCCGTTAAATCAGCATACGAAAGCAGTACTAGATCAAATGAAGTAA	MSLTMLVVILLLVLAGCQGRSETGNAGNDGQGTSPSELGQDQNPPSQENDNETEPPSGSADNESESGSLPPNETEDEIAELMNDLTVEEKIGQLVLVGLEGTAIDETSRKLVKDHHVGGFILFKDNIESVEQSVKLLNDLKEANAANPVPLWLSIDEEGGRVTRFPEEYVKLPSSGKVGSKGDLALTKRVGGLIAQKVAGLGLNMVFAPVLDIHSNPNNPVIGDRSFGTTAETVTQHGIASMKGIQEKGVVPVVKHFPGHGDTSVDSHLGLPVVEHDLKRLHEMELVPFQQAINEGADVVMVAHLLMKSIDPDTPSSYSKPVINDLLREELGFKGVVITDDMTMGAISGSTDVGEASVKSVVAGSNMVLIGHEYALEEAVIQALTKAVRSGVIPEEMLNERVRATLELKHKYELSDDPVKAPDIKPLNQHTKAVLDQMK	PGPT0012175_1989	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
AK002_03901	156			hypothetical protein	ATGAAGGTTATTATCACGCAAGCCGAGGCGATGCAAAAGAATATATGGGACGATATCATGCTGATGTTCGGAAGAACGGACGAGGATGAAGTATGGGAGACGGAGCAGTTTATATTGACGGAGGAGCAGGCCCGTCAGCTCGGACTGCTTAAATAG	MKVIITQAEAMQKNIWDDIMLMFGRTDEDEVWETEQFILTEEQARQLGLLK				NA	NA	NA	NA	NA
AK002_03902	849	degV_2	COG1307	Protein DegV	ATGAGATCCATTGCATGGGTAACCGACAGCACGAGCACGATCGACCCTGAATTCGCCAAGAAGCATCATATTTACATTGTGCCTTTGAGGTTGATTCTGGGGCAAGAGGCCTACAGGGAAGGAATCGACATATCGGCAGAAGCCTTTTATGAACGGATGAAAGACGAGCCGAAAGTCAGCAGCTCCCAGCCTCCGATCGGTGAATTCATTGAGCTTTACGAAACCCTGAAAGTGAAGTATGACGATATTATTGCGATTCACTGTTCTTCAGAGCTCAGCGGAACTTTGAATTCTTCCCTGCAGGCGGCTGAGATTGCCGATGTACCCGTGGTTGGCATCGACTCTCAAGCGGGAGCGTTTCCGGTGCGCGAAATGATTATGTCCGGCATTCACTGGCACAGCCAGGGGGATACCGTACAGGTGATAAAGGATAAAATTCAGTCCATGGTGCACAACATGTCGTTCTATCTCATACCGGCAAGCCTGCATCGACTTCATATCAGCGGCCGGGTGTCCGGCACGCAGCTGCTGCTAAGCAATTTGCTCCGCATACATCTGCTGCTCCGTTTTGACGAAGGCAAAGTCATTGTGGAGGAGAAGATCCGGACGTTTAAGAAAGCCAAGCAGAAAATGATCGATATCATGAAAACAGACATACAGAAAATTAAGAAGGTGTGCATCATGCACGCGAACAACGTGGAAGTGGCCGAGGAGATCCAGAAGGAAATCAGCGGGGCTCATCCGTCGCTTAAGACCGAAATCATGACCTTTATCCCTGTTGCAGGCATCCATGCAGGCGAAGGCACCATTGCCATGTCATGGATCAAACACCATCCTGCCTATTCTTAG	MRSIAWVTDSTSTIDPEFAKKHHIYIVPLRLILGQEAYREGIDISAEAFYERMKDEPKVSSSQPPIGEFIELYETLKVKYDDIIAIHCSSELSGTLNSSLQAAEIADVPVVGIDSQAGAFPVREMIMSGIHWHSQGDTVQVIKDKIQSMVHNMSFYLIPASLHRLHISGRVSGTQLLLSNLLRIHLLLRFDEGKVIVEEKIRTFKKAKQKMIDIMKTDIQKIKKVCIMHANNVEVAEEIQKEISGAHPSLKTEIMTFIPVAGIHAGEGTIAMSWIKHHPAYS				NA	NA	NA	NA	NA
AK002_03903	354			hypothetical protein	ATGAATCGCAGACAGGAACTGAATCAGATGTACAAGGAGATCAAGATTGAAGCCGGCGTGTATCAAATTCGGAACACGAAGAACGGTAAAATATTCGTCGCCGGAACGAACAATCTGAAAACCATGAACGGCAAGCGCTTCGAGCTGCAGATGGGGACAAGCTACAACAAGCCGCTTCAGCAGGATTGGAAGGAGTATGGAGAGGATGCGTTTGTTTTTGAGATCCTGGAGAAGATTGAGCCGAAGGAAGACCCGTTCTTCGATTTGAAGGGAGCGGTCAGCAAGCGGGAAGCCTATTGGATCGAACGGCTGGAACCTTTTGGGGAAAAAGGGTATAACGGAGACAGAAAATAA	MNRRQELNQMYKEIKIEAGVYQIRNTKNGKIFVAGTNNLKTMNGKRFELQMGTSYNKPLQQDWKEYGEDAFVFEILEKIEPKEDPFFDLKGAVSKREAYWIERLEPFGEKGYNGDRK				NA	NA	NA	NA	NA
AK002_03904	765			hypothetical protein	GTGTGTGCGATGGACCTTAATGAACGCTTCTGGAATGCTTCCATAGATGAACTTAAACAAGGCTATATCGACGAAGGCCCCGTCTGGGTATGTCTCTTGTGCGGCAAGACGCTGGAGAAAGGGATCATCTACCCGGATGAGGATGCGCTGTACGAATCGGAACGATACATGACCGTACATATCCGCCGGGAGCATGGCTCCGTGTTTCAGTATCTGTCCGGCCTCGATAAGAAGCTGACCGGACTGACCGAGCATCAGAACCGGCTGCTGCAGCTCTTCTATCAAGGCATGAACGACAAAGAGGTCCAGCAGGAGCTCGGCATCGGCAGCGCGTCGACGATACGCAATCACCGGTTTGCCTTGAAAGAGAAGGAGAGGCAGTCCAAGGTGCTGCTGACCTTGATGGAGCTGTTGAAGGAAAAGGACAGTCATGCTCCGGCGTTCGTGGGAATTCCCAAACAGGCCAAAATGATCGATGAACGCTACAATGTTACGGAAGAAGAGAGGCAATCGATCCTGGCCAAGGCATTCCCCGAGGGGAACGACGGCCCGTTGAAGACTTTTAAGCTTAAAGAGAAGCAGAAGTACGTCGTGCTGCGCGAAATCGCTGCCCGTTTTAAACCCGATGTCTTGTATTCCGAGCAGGAAATCAACGATACGATCGGAAGAGACAATCCCGATTATGTGACCATTCGCCGATATTTGATCGAATATGGTTTTTTGGATCGCAAGGATGATGGAAGCCAGTACTGGCTAACGACATAA	MCAMDLNERFWNASIDELKQGYIDEGPVWVCLLCGKTLEKGIIYPDEDALYESERYMTVHIRREHGSVFQYLSGLDKKLTGLTEHQNRLLQLFYQGMNDKEVQQELGIGSASTIRNHRFALKEKERQSKVLLTLMELLKEKDSHAPAFVGIPKQAKMIDERYNVTEEERQSILAKAFPEGNDGPLKTFKLKEKQKYVVLREIAARFKPDVLYSEQEINDTIGRDNPDYVTIRRYLIEYGFLDRKDDGSQYWLTT				NA	NA	NA	NA	NA
AK002_03905	1293			hypothetical protein	ATGGGATTCATACAACAGTCGGCAAAAGAAATGCGTTCTTGGCCGCGCAACATCAAGCTGTTTTTTCTAGCTAACGTGCTGTATCAGTTCGGTACCGGCATGTTCAGCGTGCTCTACAATTTGTACATACAAGGCCTGGGTTATAACGACTCCATGAATGGAACAGTGGTCAGTATTCAATCCCTCGCCACGGCATTGATGTTTATCCCGATCGGCTTGATCGGCGACCGCGGAAGCCGCAAGCGAATCCTGGTCCTTGGCGCGTTGTTAAGCGGCGCCGGACTGATTGCCCGAGCTTTTCTGGCGAGTGAGTTCAGCTTGCTTGGTCTCGCGGTATACACCGGACTGTTCGCATCCTTTTTTCAGGTGCTGGCGATTCCGTTTCTGGCGGAAAATACGGCGAAATCGGCTCGCATGCGCATCTTTAGCATCCATGCCTCGCTTGTGCTTGCTTCTCAAGTGTTAGGCAGCATGGGAGGCGGCTTCCTGGCGGATGCCCTGCAGGCATTCGGCCTGAACAAGGTCGACAGCTTGAAAACAGCGCTGTTCATCGGCGGTCTGGCAACCTTTGCGGCATTTATCCCGCTCTTGTTCACGACCGACAAGAACGCCGCGCATGCATGGCCGCTGGATGCACCCATCCCCGATCAACCCGTGCGCCCTGGAGGAGCGGTTACCGCCTCCGGGATCGGAGATTTCAAAGTCATCGGGCAGTTCGCGCTTGCCCAGCTGTTAATCGGCCTCGGGTCCGGACTGGTCGTTCCTTATTTGAATTTGTATTTTACCAACCGTTTCTCGGTATCGCTATCCGCGGTTGGGATTCTGATATCGCTCGGACAAGTCATGACGATCGTATCCATGCTGATCGGCCCTACGCTGGTGAATCGGGTAGGAGCCGTCAAAGCCGTGGTTCTCTTTCAAGTCCTATCCTTGCCCTTCCTGTTGTTAACCGGCTTCACGAATGTCCTCCTCATCGCATCGGTCGGCTTCCTGTTCCGTCAAGCCTTGATGAATGCGGCCAATCCGATACAGTCGTCGATTCTGATCGACCGCGTACCGGATCACCGGAGAGGCATCGCCAATTCGGTCACGCAAACCGCCTTTATGCTGGGCTGGGCGACCATGGGGCCCGTACAGTCGAAATTGGTCACCACCTACGGCAGCTATTGGGGATACGCGATCACCTTCTGCATTACCGGAACGCTGTACGTCGTTTCCTCGTTCCTGTACTACCGAATGTTCCGCGAACGCAAGGGCAGCGGTCTTTCCCCGGATGCCTCCGCTACTCTCTAG	MGFIQQSAKEMRSWPRNIKLFFLANVLYQFGTGMFSVLYNLYIQGLGYNDSMNGTVVSIQSLATALMFIPIGLIGDRGSRKRILVLGALLSGAGLIARAFLASEFSLLGLAVYTGLFASFFQVLAIPFLAENTAKSARMRIFSIHASLVLASQVLGSMGGGFLADALQAFGLNKVDSLKTALFIGGLATFAAFIPLLFTTDKNAAHAWPLDAPIPDQPVRPGGAVTASGIGDFKVIGQFALAQLLIGLGSGLVVPYLNLYFTNRFSVSLSAVGILISLGQVMTIVSMLIGPTLVNRVGAVKAVVLFQVLSLPFLLLTGFTNVLLIASVGFLFRQALMNAANPIQSSILIDRVPDHRRGIANSVTQTAFMLGWATMGPVQSKLVTTYGSYWGYAITFCITGTLYVVSSFLYYRMFRERKGSGLSPDASATL				NA	NA	NA	NA	NA
AK002_03906	678			hypothetical protein	ATGACCTCGATCTATGAGCAGGCGCTTGGAAGCCAGTTTCACAAGCTTCATCCTAAAATCCAGGAGCGGTTCGGGTTTGACAGCAAGGATAGCGTCGCTTCGATCGGCGAAGGCATCATGGAAGAAATCTGGTACGCTCCATGGGCGGCGCTGCCGCTTTATATAGGAACGATGCGGCATATCATGTTTCCTAGCCGAGGGAAAGGCATCCCGTTTCGGATTGAGAACTACGCTTATCGGGATGACTGGGGAAGAGAGACGGTGACGTGGTGCCGAAGCTTTGATTTTCCTGGCATACAAAGACGATTTGATGCCACGATGATTTATAGCGCACAGCGCAGCCGCGTCGTGGATTATTTGGGAAACAAACAGCACTTGGCAGTCGATCTTCGGATCGCTGCCGCGGAGCATGGCGGAATTCGCATTCGATCGGGGGAGCAGAGGTTTTATGAAGGGCGGCTGCAGTTTCGATTTCCCCGGTGGCTCACCGGAACGGCCGATGTATGCGAATGGTATGATGACGGAGATCAGCAATACCGGATATCCGTTGAGGTGGTCAATCCGTTATTAGGGCCTGTCTTCCGGTATAAGGGAAGCTTTCAGGCCCGGACCGTTGCTGCAGGCGAACGGGATGTCCCGCCCCATGTCAAACCGCTGCGGGTCGAGGCTAGAGAGTAG	MTSIYEQALGSQFHKLHPKIQERFGFDSKDSVASIGEGIMEEIWYAPWAALPLYIGTMRHIMFPSRGKGIPFRIENYAYRDDWGRETVTWCRSFDFPGIQRRFDATMIYSAQRSRVVDYLGNKQHLAVDLRIAAAEHGGIRIRSGEQRFYEGRLQFRFPRWLTGTADVCEWYDDGDQQYRISVEVVNPLLGPVFRYKGSFQARTVAAGERDVPPHVKPLRVEARE				NA	NA	NA	NA	NA
AK002_03907	960			hypothetical protein	ATGAAGAGAAATCCGATCTATGTTGAACTCGACATCAAGACGGATATGGAAACTTTGTGGTCATTGACACAGAGACCCGAGCAACATCAACAATGGGATTTGCGTTTTTCCGAGATTCATGATTTGCCGCAGGCTGATTCGGACGTCCAGCGGTTTTTATACAAAACCCGCATCGGATTCGGACTGGAAGTTACGGGAACGGGTGCTACGAAAACGGCCGTGCACCCGAGGCCCGGGAACCGGATCTCGGTGCTGCGATTCGGCTCGGATCAGCGGATTTCCCTGGTTAAGGAGGGGAGTGGCTATTGGAAGTACGCCGACAGCGGCAATGGCGTCGTCCGTTTCTCGACCCAATACGATTACAGGACGCGGTTCGGCATGCCCGGGGCCTGGTTTGACCGGCTGCTGTTTCGGCCTTTATTCGGCGCAGCGACGGCTTGGAGCTTCGATGTGCTCCGATTATGGGCCGAGAAGGATATTCCGCCTTCGGTCACGATCCGGAAGGCAATCATCCACGCTTTAAGTGTGTTTATGCTGGTCGTTCTATGGTGTTATGAAGGACTGGTTCCGAAGCTTCTGTTCCCGGAAGCGGGAGAGCTTGATCTGCTGAGGCAGTCGGGCTTGGCAGGCGGACAGGAAGGGGTGGTACTAACTTTGCTTGGGATCACCGAGATTGGCGTCGGTTTATTAACATTGCTCTTTCACAAGAACCGGATGTGGTACAGGCTGATCATGTTCTTGCTTGCGATCTTGATGCTTGGAGCATGGATGACGGATGCCGAGTTAATGAAAGCCCCGTTCAATCCGTTAACGCTTAGCGGGTCGATGATTGGGTTCTGCTTCATGGCTTCGCTGTCCGCATCGGACTTGCCAAGCGCTTACCGTCCGGTTCGAAGACAAAGACCGGTCCGCGGGCATACATCCGGCAAAGGAGTGAAAGAACATGACCTCGATCTATGA	MKRNPIYVELDIKTDMETLWSLTQRPEQHQQWDLRFSEIHDLPQADSDVQRFLYKTRIGFGLEVTGTGATKTAVHPRPGNRISVLRFGSDQRISLVKEGSGYWKYADSGNGVVRFSTQYDYRTRFGMPGAWFDRLLFRPLFGAATAWSFDVLRLWAEKDIPPSVTIRKAIIHALSVFMLVVLWCYEGLVPKLLFPEAGELDLLRQSGLAGGQEGVVLTLLGITEIGVGLLTLLFHKNRMWYRLIMFLLAILMLGAWMTDAELMKAPFNPLTLSGSMIGFCFMASLSASDLPSAYRPVRRQRPVRGHTSGKGVKEHDLDL				NA	NA	NA	NA	NA
AK002_03908	639	liaR_2	COG2197	Transcriptional regulatory protein LiaR	TTGAATCGAATACACGTCTTTCTGGTCGAGGACGATCCGGACTGGATTAAATCGATCACCGTTTTTCTGAATGCGCAGGAGGATATGATCGTGGTCGGCGCGGCCGAGTCCCCCGCACAAGCGATTGCGATGGCGCAAGTCCTGTCCTTCGATATCGTGCTTATGGATATTCAGCTGACGGCGGGCCGACTCGACGGCATCTACGCGGCTGCAGAAATCCTTGAACGAAAGCCCGATGCCAAGGTGATCATGCTGACCTCACTGGATGACGAGTTGGTGATCACGCAATCCTATACGGCCGGAGCCGTCAATTACATTGAGAAATCGAATTTCGAGGAATTGCCGGCCGCAATCCGAAGCGCCGTACATCAACCGGGATCGATGGAGGTGCTGCTCAAGGAATTTGCCCGCCTCAAGCGGGAAGAACAGCTGCGGAGCTTAACGCCGGCGGAACGTGAAGTGTTTGATCTGTTGGATGAGGGTTACACCCATTCCCAAATGGAGAAGAAGCTGTTCAAAACCGAGAGCACGCTCAAGAATCAGATCAATAAAATTCTGAAAAAGCTCGGGGTGAGGAGCAGCAGGGAGGCCGTGGAGAAGGTCCGCCGAAAAGGGATCGTCAGAGAGAACGACAACTAG	MNRIHVFLVEDDPDWIKSITVFLNAQEDMIVVGAAESPAQAIAMAQVLSFDIVLMDIQLTAGRLDGIYAAAEILERKPDAKVIMLTSLDDELVITQSYTAGAVNYIEKSNFEELPAAIRSAVHQPGSMEVLLKEFARLKREEQLRSLTPAEREVFDLLDEGYTHSQMEKKLFKTESTLKNQINKILKKLGVRSSREAVEKVRRKGIVRENDN				NA	NA	NA	NA	NA
AK002_03909	1362	sasA_19		Adaptive-response sensory-kinase SasA	ATGGAACGATGCGTCTTGATGTATTATGTGTTCGCGCTTTGGAGTGCAGCGGCGGTGCTGCTGTTCAATCAGCCTCGGAGCGAGGTGAACCGCTGGGCGGCTTTTTTCCTGTGGAGTGCAGGGATCGGGGGGTTGACGGACTGGCTTGCGCCTTCCGGTTTTATTGCGGCCGCGTACGGGCCGTGGATTCAATTCCTCAACCATACCCTAACGCCTTACGGCGTGTTGATATTTTGCATGGTGTATACCGGCAGACCCCGGCACCATAGGAGAAAACGTGATCTCAAAATAGGCCTGCTGCTGCCTGTGTTCGCGATGCTGGTCCAGGTGCTCCTTACGAAAGATTACCGGATTCATTACGGATGGCTGTTCGTATGGACCGGCCCCTATTATGTGGCTGCATGCGCGCTGCTCATTGGAGCCTTATCCTCTGAGAAGAACCCGCGGAAACGCAAAAGCATGTGGATTACCACCTGGATTATGGTGCCAACCTTGCTCGGTGTGATGCTGTTGATAAATGTAGGGAATGTCATCTGGCCCGGTTACGATTCATTCCGGTACGTGTCCCTGTTTATTCTGTATTCGATGGGCGTTGCCGTCATCTGTACCTTTGTGTACGGCGTCCTGGGCGTTCGCCTGAAATTCGAGCGCGATCCGCTGGATCGCACGATGCAAGCGGTCAGCTCAGGTACAACGATGCTGAATCATACCATCAAGAACGAGGTCGGGAAAATCGCCATGAGCACCGATAACGTGAAACGGCTGCTGTCGCCGGATAACGAAACGGCCCTGGAGCAGCTTGATGTCATCGCTAACGCTTCCAAGCATTTGTTAGCGATGACAGGGCGCATGCAGCAGCAGATGAAGGCGTTTAAGCTGGTGGAACAGCCTGTCCGCGCGGATCAGCTGCTTGCTGAACTGCAGCTTCGCGAACAGGAACGGCTGCGCAGTCATGGCATCGAATTAAAGGTGCTGTGCACACAGCGTCCCTGGCTGCTTGCGGATGCCGTCCACTTGAAGGAAGCGATCAGCAATCTCATAAGCAATAGCGTCGAGGCGATGCCTAATGGAGGAGTGATCGCGTTGACGGTAACGGCAGACCGCAAGGGTGCCGCGATTTCCGTCAAGGATAACGGCATGGGCATTCCGGAAGAGCAGCAGACGCTTGTGTTTGAACCGTTCTACAGCACCAAGGGCCACAGGAAGTCAAACTTCGGACTTGGCCTTACCTATGCGTACAACGTGATGAAGAAAAGCGGCGGCTCCGTGGGATTGGAGAGCCGCGAATCGGTCGGTACCGAAATCACGTTATATTTTCCCCGCAGCAAAATCATTCGTTTATCCGGGAGGGAAGAGCCTTGA	MERCVLMYYVFALWSAAAVLLFNQPRSEVNRWAAFFLWSAGIGGLTDWLAPSGFIAAAYGPWIQFLNHTLTPYGVLIFCMVYTGRPRHHRRKRDLKIGLLLPVFAMLVQVLLTKDYRIHYGWLFVWTGPYYVAACALLIGALSSEKNPRKRKSMWITTWIMVPTLLGVMLLINVGNVIWPGYDSFRYVSLFILYSMGVAVICTFVYGVLGVRLKFERDPLDRTMQAVSSGTTMLNHTIKNEVGKIAMSTDNVKRLLSPDNETALEQLDVIANASKHLLAMTGRMQQQMKAFKLVEQPVRADQLLAELQLREQERLRSHGIELKVLCTQRPWLLADAVHLKEAISNLISNSVEAMPNGGVIALTVTADRKGAAISVKDNGMGIPEEQQTLVFEPFYSTKGHRKSNFGLGLTYAYNVMKKSGGSVGLESRESVGTEITLYFPRSKIIRLSGREEP				NA	NA	NA	NA	NA
AK002_03910	714			hypothetical protein	ATGACAACCCCATTAAAATACCGGAACGAGCTGAAGTTTTTCGTGAATCTTCACCAATATCGGATCATCCGCCAACGATTGAAGAATCTGGTGACCTATGATCAGCATGCCGGACCCGCCGGGGAATATCACATTCGAAGCTTGTACTTTGATGATATCAATAATAAAGCCCTATACGAGAAGCTGGCGGGCGTCCGGGATCGGGTGAAATACCGAATCCGTATTTATAACGTAGCCGATGACACGATCCATTTTGAGAAGAAAATCAAATTCCGGGATTACATCGCCAAGCTGAAGGAGCCGCTCACAAGGGAGATGACCGATCAGATCATGGCCGGACAATACGACTGTCTCTATCAGCCGGATAAGCCTTTGATGATGGAGCTGTACCACGAGATGAAGCATAAGCTGCTGCGGCCCAAGGTCATTGTCGATTATGTCCGCGAGCCTTACGTCTGCGCTAACGGAAATGTGCGGATTACGTTTGACAAGGAGCTGAGAACCGGTCTGCACTCCACGGAACTGTTCAATCGGAACCTGCTGCCGATCCGGGCGATCGATGAGAATCTGATCATACTCGAGGTCAAATACGACGAGTACATTCCGGATTACATCAAAATCGCGCTGCAGCTGGACGGCCTCAACCGGCAATCGGCATCCAAATATGTAATGTGCCGTAAATTTCTGAAATATAACACATGGGAGGATCAATAG	MTTPLKYRNELKFFVNLHQYRIIRQRLKNLVTYDQHAGPAGEYHIRSLYFDDINNKALYEKLAGVRDRVKYRIRIYNVADDTIHFEKKIKFRDYIAKLKEPLTREMTDQIMAGQYDCLYQPDKPLMMELYHEMKHKLLRPKVIVDYVREPYVCANGNVRITFDKELRTGLHSTELFNRNLLPIRAIDENLIILEVKYDEYIPDYIKIALQLDGLNRQSASKYVMCRKFLKYNTWEDQ				NA	NA	NA	NA	NA
AK002_03911	711			hypothetical protein	ATGAATACCACATCGACATCAAGCAATACGAACACCACCAATTTTTCGGATATCGTCAAAAAATCCGTCATGGAAAATTTCGTATCCGACATCAGCATCGCCAAAATTTTGATCACGCTCGCCGTTGCCTTTGTTATCGGGCTGTTTATTTATCTGCTCTATAAAAGGGTCTTCAGCGGCGTTCTGTATTCCAAGAGCTTTAACGTGTCGCTGATCGGGATGACGATGATCACGGCCGTTGTCATCATTGCCATCAATTCGAATCTCGTGCTCTCGCTCGGTATGGTCGGCGCGCTCTCCATCGTCCGTTTCCGCACGCCCATCAAGGACCCAACCGATCTGATCTTCCTGTTCTGGGCCGCGGTTGCCGGGATCGTAACCGGAGCCGGGTTCTACACGCTGGCTGCCATCGGCTCCGTCGTTGTCGGTCTTATCCTGTTCTTCTTCATTAAGAAAGCGACGGTCCATACCCCTTACCTGCTGGTCGTCCATTGCGATAACGAGCAGGCCGAGCAAGCCGTTCAAGGACAAGTCGGTCAGGCTGTGAAGCGTTACAACCTGAAGCAAAAAACCGTGACGCCGGGCAGCATCGAGCTGACGCTGGAAGTACGGCTGCGCGATGCCGAAGGCCAATTCGTGAACAAGCTGTCCCAGCTGCAGGGCGTTCAACATGCGGTTCTGATCAGTTACAGCGGCGATTATGTATCCTAA	MNTTSTSSNTNTTNFSDIVKKSVMENFVSDISIAKILITLAVAFVIGLFIYLLYKRVFSGVLYSKSFNVSLIGMTMITAVVIIAINSNLVLSLGMVGALSIVRFRTPIKDPTDLIFLFWAAVAGIVTGAGFYTLAAIGSVVVGLILFFFIKKATVHTPYLLVVHCDNEQAEQAVQGQVGQAVKRYNLKQKTVTPGSIELTLEVRLRDAEGQFVNKLSQLQGVQHAVLISYSGDYVS				NA	NA	NA	NA	NA
AK002_03912	2043			hypothetical protein	ATGATGAAGAAAAGAACGACAGTCCTGCTGTCCCTTGCGCTGTCCATAATCCTTCTGCTCACAGGCTGCCAATGGACAACACAGGTTGCCGGGACGGCTGGAAGCTCTGAGAACGATGGCCTGCAGGAGCAAGTCGATTCCGCGGTTTTTCCGAAGGACAAGGTCATTGACGTTAAAATCACGATCGACGAAGCGGATTTCCAGGATATGCTGGACAACGCCAGCGCTGAAGAATACAAAGAAGCGTCCGTCAATTACAACGGCATGCAATTTGATCATGTCGGCATTCGCACCAAAGGCAATTTAAGTCTGCGCAGCGTGGTCAATTCCGATTCCGACCGCTACAGCTTCAAGATCTCCTTTGATGAATATCTCAATCAAACCTTGAACGGGATCAGCAAAATCAATCTGAACAACAACTACAGCGACGCCTCGTATATGCGGGAATTCCTGACCTACGAGCTGGCGGAATCCGTCGGTCTGCCGACACCCGGCTTCTCTTACGTCAATGTATACGTTAACGATGAATTGTGGGGGTTCTACCTCGCAATCGAACAGATTGGCGATTCTTATCTGCAGCGTCATTTCGATAATTCGTACGGCGCGTTATACAAAGCCGAGATGACAGGCTCGGGCAGCGATCTCGCTTGGCTCGGCAGCGACCCCGATTCCTACACCGGGCTTGTCATGAAATCCAAGTCCTCCAATGACGATGTATTGATCGACATGCTCGACGAGCTGAATAACGGCACCGATTACGAGAAGGTGCTGGATGTGGATAACGTGCTCAAGTACGTTGCCTTGAACGTCGTTGCCTCCAATATGGACAGTTATCTGGGGATGAACAAACAGAACTACTACCTGTATGAGAACAACGGCATTTTCTCCGTCCTGCCCTGGGATTATAACATGGCGTTCGGAGGGTTTGGGGGCTCCGGCATCTTGATTGACGAGCCCACTCAGGGTGCTTTGGCGGAACGCCCCTTGATTGCCAAGCTGCTCGAGGTTGACGAATATAAGGAACGTTACCATGCCATCCTGTCGGAGATGCTGGAGGGATACATGCAGCAGGATCATTTCGAGGAACGGGTAGCGCAATTGCAGGAATTGATATCCGAGCACGTCAAGCAAGACCCCAGACCGTTCTACTCCTATGAGGAGTACGAGCAATCTCTCCCGACATTGACCTCATTCGCGGAAGGGTCCATGGATAATATCCAGCAGCAGCTGGATGGGACGATCCCTTCCGCCGGCGACGGAAGCGGCAGCGGCGGCGGTATGGGGCCAGGTGGCGGAGGAGGTCTAAGGCCTGACGGCGTGCGACCCGGTGGTAACGGGATGGTACCTGACGGCAATACGAATTCCAATGATGCCGACCCGGAGAGTTCTACCGGCACCGGGACAAGCACGACACCGGATGGAACAGACGGCAGCGGGACTGACGGGACTGGGATCGTTGTCCCTAACGACGCCCCGGGCGGAGACATCTCTGGCGAAAACACGCCTGCCAACAGCGACGGTGCTACTTCTGCTGCTTCCGGCAACGCGGATGTTACATCGAGCGGCACTGGAGAAGGCTCTGGCGACGCTCCTGACGTTGATGAATCTGTCTCGTCGATTATATCGGCGGTTGGATCAGGCACAAGCAGTTCCGACGAAAGAACAGCGATGGATGCTGCTTCTGCCGTTAATCCAACAAGTCATGCAGAGGAAAGTAACGCAGAGGAAAATTCAACAGATTCAACGCAATCTCCGAACCAGCCCTCTACAGGCGGCAATCAACCGACCATGCCGCAAGCGCAGACTCAGAATGGTCAAGGGCAGATGCCGGATTTCCCTCAAGGACAGATGGGGAACGGGTTCGGCGGTGAGTTTGGCGGTCAAATGCAGGGAGGACGCGGAATGGGCCGGCCTGGCGATTGGTCAAACGAAGCAGCCCAGGAGCAAGGCAGCACCCAGGAAGCCTTGTACGCAGGAGTTTCCCTCGTACTGCTGCTGCTCTCATGTCTTTTTGTGACTCTATATAAACGAAAAAGATTGTAA	MMKKRTTVLLSLALSIILLLTGCQWTTQVAGTAGSSENDGLQEQVDSAVFPKDKVIDVKITIDEADFQDMLDNASAEEYKEASVNYNGMQFDHVGIRTKGNLSLRSVVNSDSDRYSFKISFDEYLNQTLNGISKINLNNNYSDASYMREFLTYELAESVGLPTPGFSYVNVYVNDELWGFYLAIEQIGDSYLQRHFDNSYGALYKAEMTGSGSDLAWLGSDPDSYTGLVMKSKSSNDDVLIDMLDELNNGTDYEKVLDVDNVLKYVALNVVASNMDSYLGMNKQNYYLYENNGIFSVLPWDYNMAFGGFGGSGILIDEPTQGALAERPLIAKLLEVDEYKERYHAILSEMLEGYMQQDHFEERVAQLQELISEHVKQDPRPFYSYEEYEQSLPTLTSFAEGSMDNIQQQLDGTIPSAGDGSGSGGGMGPGGGGGLRPDGVRPGGNGMVPDGNTNSNDADPESSTGTGTSTTPDGTDGSGTDGTGIVVPNDAPGGDISGENTPANSDGATSAASGNADVTSSGTGEGSGDAPDVDESVSSIISAVGSGTSSSDERTAMDAASAVNPTSHAEESNAEENSTDSTQSPNQPSTGGNQPTMPQAQTQNGQGQMPDFPQGQMGNGFGGEFGGQMQGGRGMGRPGDWSNEAAQEQGSTQEALYAGVSLVLLLLSCLFVTLYKRKRL				NA	NA	NA	NA	NA
AK002_03913	318			hypothetical protein	ATGACCAAATTGGCCTCATCCATTCTGGAAATCATTCGAATGATGATCATGATGATGATCGTGACAGCGGTTCTGGGCAGCATGGAGCATCAGATCCTGAAGTCCTGGATTCCTTGGGAAGGGTTATATTTCCTGTTCCTGTTTGCGGGAAATGTATGTTGGTTCCTGGTCCTCTATCGCAATCGCCTGCAATTCAGCGGCTGGTATCGTTCGGCGGAGACGCAGCGCAAATTGTCCGGAAATGCAACGAGAACCATCGTAGCGCTTGGCGCGCTCCTCATCGCGACACCGGTTATTCTAACGTGGATAACTGCTTAG	MTKLASSILEIIRMMIMMMIVTAVLGSMEHQILKSWIPWEGLYFLFLFAGNVCWFLVLYRNRLQFSGWYRSAETQRKLSGNATRTIVALGALLIATPVILTWITA				NA	NA	NA	NA	NA
AK002_03914	645	ydjZ_2	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	GTGAAGTCATTGAATGGCTACTTGGACATCATGTCTTATTTTACACAGAGCAATCTGGAATGGTTTCTTGACCAGTTTCGAGCCCTAGGCCCTCTGCCGGGCATACTGCTGACTTTCTTGAAATCCTTTATTCCTCCGATGCCCACGATCGTGATCGTTGGCGTTAATGCAGCGGTGTACGGGCTGTGGGCAGGATTCCTTTACTCCTGGATCGGAATGGTGGCGGGATGCTTGACGACGTTTCTCCTCGTGCGGAAAATATCCGGGACTCCCCTGATCGAACGCTGGGCGAAAAAACCGAAGGTTCAGCGCGGCATGCGCTGGATTCAGCGCAACGGCTTCAGTTATGTTTTTCTGCTGGGCATACTTCCCGTCGGGCCTTTTGTCGCTGTCAACGTGGCCGCCGGACTGGCGAGAATGAACGTCATGTCCTACCTCATGGCCGTAACCTTGGGCAAGGGCATTATGGTGTTTTGCGTTTCGTACATCGGGGCTAATCTCTCGGATTTTATGGCGGAGCCCTTCAAATTGCTCGGTGTCCTAGCCTTTATCTTGCTGTCCCTATGGGGCAGTCGGAAGCTGGATTCATACTTTGTAAGAAAACAATCGTTTCACGATCAAGAAGCTGAGCTCAACTCCAATTGA	MKSLNGYLDIMSYFTQSNLEWFLDQFRALGPLPGILLTFLKSFIPPMPTIVIVGVNAAVYGLWAGFLYSWIGMVAGCLTTFLLVRKISGTPLIERWAKKPKVQRGMRWIQRNGFSYVFLLGILPVGPFVAVNVAAGLARMNVMSYLMAVTLGKGIMVFCVSYIGANLSDFMAEPFKLLGVLAFILLSLWGSRKLDSYFVRKQSFHDQEAELNSN				NA	NA	NA	NA	NA
AK002_03915	471			hypothetical protein	ATGAATGACAAACAGCAGCTGTTAAACGAGTATTCGGAATGGATCGGCAAGGTGAAGGAGTTCGGTGACCTGGAAGAGGGCTATTGGAATTCCCCGATTGCGGATGGGAAATGGACCGTGCGCGATGTAGTGTGCCATATCATGCGATGGGATGAGTATTTTTTTAATGAGGCGATCGCCAAAATCTCAACGGGAGATGCATTGACCGTCCGGCATCTGGATTATGACGTCTTCAATGAGGAGGCAAAGCAATATGCCAAAACGCTATCGACGGAAGCGCTGGTGGACCGGACGATAACCGCAAGGGAGCAGCTGATTCGGGCCATTGAAGAGCTGCCGGAAACGAAGTATGAGGAGCGGTACGCGGACGGAGACGGGCATCCCTTTGAAGTGGCGCAATTTATGAGGGATTTCATCTGGCACGATAATCACCATCTGGCTCAGCTGCATCAGGTGCTGCAAGTCGGTTAG	MNDKQQLLNEYSEWIGKVKEFGDLEEGYWNSPIADGKWTVRDVVCHIMRWDEYFFNEAIAKISTGDALTVRHLDYDVFNEEAKQYAKTLSTEALVDRTITAREQLIRAIEELPETKYEERYADGDGHPFEVAQFMRDFIWHDNHHLAQLHQVLQVG				NA	NA	NA	NA	NA
AK002_03916	600			hypothetical protein	ATGCAAGAAGAGTTGGATTTTTTAAACCTGGAGTATTTACGTCAAGGTACAGCCAAGCAGCAGCAGGCAGCTTTGGTTATAGATGAACTGGAACTATGGGAGCATTTGAAATCCTGCAGCCCTATACTGGTGGGCACGATCCCGATCGGGATTGACATCGCTTCAAGCGATCTCGATATCATATGTCATGTGACGGAGTTTGACCTGTTCGAGCGAGAACTCAGGGCGTCATACGACCGACTTGTTTCGGATTTCACATACTCTTTCCGAGGTGTGGGGAACGTAGAGCGAGCAGTAGCGCGATTTCGGTACAAAGGTTGGGAATTCGAGATTTTTGCCCAGCCGGTGCCTTCCATGAAGCAGAATGGTTACCGTCATATGGTAGTGGAATACAAGCTGTTGAAGCGGCTCGGCGAAGCTGCAAGGGAAACTATCATCGAGCTGAAGAGGGCGGGTTATAAGACGGAACCTGCCTTTGCGAAGCTGCTGCATATACCGGGCGATCCTTATGGGGAGCTGCTGGAGATGTATCGCTGGCCGGAGGAACGACTGGACGCTTATATCAAATCATATATGGACAAGGAGAATGTATATGAATGA	MQEELDFLNLEYLRQGTAKQQQAALVIDELELWEHLKSCSPILVGTIPIGIDIASSDLDIICHVTEFDLFERELRASYDRLVSDFTYSFRGVGNVERAVARFRYKGWEFEIFAQPVPSMKQNGYRHMVVEYKLLKRLGEAARETIIELKRAGYKTEPAFAKLLHIPGDPYGELLEMYRWPEERLDAYIKSYMDKENVYE				NA	NA	NA	NA	NA
AK002_03917	828			hypothetical protein	ATGCTGCATCTTCCATCCGAGGAGCTAATCCATCGCATTCAGCGTTCAGAAACGGAGTATATGTATGATCGAATGCAAGCCATCGAAGGCCGGACCGGAAATCCCGAAGGGATTGAGATGGTTCGTTTCGGCCAAGCGCTGTGCTTGTACAGCAAAACGATGCCCTGGCTTTCTTTTAACACGGTCAAAGGACTCCGTTCGGAGAATCTGAAGGATCTGGACGCAATCATCGACTTCTATCATTCGCGGGACCGCAAATTCCAGTTCGAGATCGTGCCCGCCATGGTGAATCAGGCATTTCTCTCGGCGCTTGCCGATCGCGGATTCTTCCAATCCGCCTTTCATAATTCCATGTATATGAACCCGCAAGAACTGGTGGACATGCCGGATCACGGAATTGTGATCAAAACAATAGACAAAGACGAGTTTGAAGATTATGCTAAAGTTCATTGCCTGGGAACAGGACTGCCGGTGCAAGGGATCCCTTCCGTAGCATTGAACAATCGCGTATTGCATGCAAGACCGGGCTGGAGGTTCTATATGGCTTATGTGGATGAGCAGCCGGCTGCGGCCGGTGTCATGCATATAAACCATTCCACGGCTTCGCTTACATTTGCCGCTACGCTGCCGGAATACCGTAGACGGGGGCTGCATCAGGAGCTGCTTCGCAGAAGAATACGGGACGCGAAGCGGGAGGGATGCAATCTGGTTGTCGGTCAATGTGCCTTCTTATCCCAGAGCCATCGCGACATGGAAACCGTCGGCATGAAGCTGGGCTATGTTCGGACGACCTGGACCGAGCGTCAACCTGAAAGCTCAGCGGAGTAG	MLHLPSEELIHRIQRSETEYMYDRMQAIEGRTGNPEGIEMVRFGQALCLYSKTMPWLSFNTVKGLRSENLKDLDAIIDFYHSRDRKFQFEIVPAMVNQAFLSALADRGFFQSAFHNSMYMNPQELVDMPDHGIVIKTIDKDEFEDYAKVHCLGTGLPVQGIPSVALNNRVLHARPGWRFYMAYVDEQPAAAGVMHINHSTASLTFAATLPEYRRRGLHQELLRRRIRDAKREGCNLVVGQCAFLSQSHRDMETVGMKLGYVRTTWTERQPESSAE				NA	NA	NA	NA	NA
AK002_03918	720			hypothetical protein	ATGAAAGTTGAAATTTGGTCGGATTTTATGTGTCCGTTCTGTTATATTGGAAAGCGCCGGTTCGAATCGGCATTGGAGCAGTTCCCTCATAAGGATCAGGTTGAAGTGGTATATCGCAGCTTTGAGCTTGATCCGAATGCGTCGTATAAACCCGGGGTTTCCATGGACGAGTTATTGGCGGCGAAATACGGCATGAGCATAGAGCAGGCCAAGGCAGCTAATGCCAACGTGACTCAACAAGCGGCCAGCGTTGGACTTACCTACCACATGGATCGCGTGATACCGGCCAATTCATTTGATGCTCACCGACTGGTTCATTTTGCTGCGCAGCATGGTAAAATGAAAGACATGACGGAGCGGCTGTTCCGCGCCTATTTCACGGATGCCGAGAATCTGGAAGATAAGAACCTGCTCGCCGATCTGGCGGCGGAGGTCGGACTGGAGCGGGAGCAGGCTACGGCGGTGCTTGAAAGCGATGCTTTCCAATCCGAGGTACGGGCAGATGAAGCCGCAGCGACGAATCTTGGAATTCGGGGAGTGCCGTTCTTCGTGCTGGGAGGCAAATATGCCGTGTCCGGCGCACAACCGCTGGAAGTTTTCACGGATGCACTGGACAAAGCCTATCGTGAAGCGAATCCCCTAGTCATGGTGAACGAGTCCGACAGCAACGACGGCATGTGTGCCGACGGATCTTGCGATCTGCCGGGCAGCGCGAAATAA	MKVEIWSDFMCPFCYIGKRRFESALEQFPHKDQVEVVYRSFELDPNASYKPGVSMDELLAAKYGMSIEQAKAANANVTQQAASVGLTYHMDRVIPANSFDAHRLVHFAAQHGKMKDMTERLFRAYFTDAENLEDKNLLADLAAEVGLEREQATAVLESDAFQSEVRADEAAATNLGIRGVPFFVLGGKYAVSGAQPLEVFTDALDKAYREANPLVMVNESDSNDGMCADGSCDLPGSAK				NA	NA	NA	NA	NA
AK002_03919	582	udk_2	COG0572	Uridine kinase	ATGAATCATGGCCGTGCTATAAGGATCGGAATAGGCGGGGGGACGGGCAGCGGCAAAACGACGCTAAGCCTCCAACTCAAGGAGAAGCTTGTCGAGTATCGGGTGGCGCTCTTTCATATGGACAAATATTATAAGTCCGTCAGACCTATGTCTAAAGCGCCCTTTACGAATACAATCTTTGAGGATTTTAACCATCCGGACGCCGTCAACATCCAGCGTCTGACCGATGAGATAGAACAAGCCGCCCGTTGCGGTGACCATGATGTCATCGTCATTGAAGGGTTTCTTCTGTATCAATTCGAGGATCTTCGAGACTCCCTGGATCTGAAGCTGTTCGTCGACTGTCCCGCGGATGAAAGAATGCTTCGAAGAAACCGGCGGTTCATGGAGAAGGGTCATCGCGAGGAAAGCGTGATACAGGAATATTTGCAGCTTGTGCGATACAGGCATGATCAATATGTCGAGCCTACCCGTTGGCATGCGGATTTGGTGATGAACGGCTCCTTGGAGGGGAAGCTTGGCTGTGCGGTTGTGATGGACTGGATTCAGGCCAGGATACAAGATAGCAGGAAGCATCGCTGA	MNHGRAIRIGIGGGTGSGKTTLSLQLKEKLVEYRVALFHMDKYYKSVRPMSKAPFTNTIFEDFNHPDAVNIQRLTDEIEQAARCGDHDVIVIEGFLLYQFEDLRDSLDLKLFVDCPADERMLRRNRRFMEKGHREESVIQEYLQLVRYRHDQYVEPTRWHADLVMNGSLEGKLGCAVVMDWIQARIQDSRKHR	PGPT0021230_4196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
AK002_03920	261			hypothetical protein	ATGGCAAAAAAGAAACGAACGGCCCCGGCGCCGCGAACGGAAACTGCCGATAAACCCGCAACGCTAAAAGATATGCTGGACCCTCAAGTTTTGGCAAAGCTGAAGGCGACAACCGATTCCTTAAAGGCCTCTGAAGCCGAGCGGCTGGAGAAGGAGCGGCAGGAACGGGAAGCTGCACGCAAGGCGGAACAGAAGCGTCGCGATAACGATTTTGAATATCTGCTGGAACACAGCGAGATGGATTGGAAAAAGTACAAATGA	MAKKKRTAPAPRTETADKPATLKDMLDPQVLAKLKATTDSLKASEAERLEKERQEREAARKAEQKRRDNDFEYLLEHSEMDWKKYK				NA	NA	NA	NA	NA
AK002_03922	852			hypothetical protein	ATGATCTATCATATCGATTACGTCTCAGAGGGATTGCATGTGAAAGGATATCTGGGTCTGCCGCCGCAATTGTCCCCTAATCGCAGCCAGAAAATGTCCGAAGCGGTCGACGCCATCCCCGGCGTTACGATAACCGGCACGCTTGCATGCTCCTTGAATAAGGAGCCTGTTCCGGAAGGAGCCTCCGGCTCGATCGAATCTAAGCTTCCGCTGGTCCTGTATTGCCGCGGAGGCATAGGCCGGATCGGCGCGGTCAGGTTGAAGTGGGTCGAAGAATTCGCGGCGCAAGGCTATGCCGTGTTTGCTCCGGCCTATCGCGGAAACGAAGGCAGCGAGGGCAGGGATGAGTTTGGAGGCGCCGATACGATGGATGTGATCACCGCCTTGGAATGGTTATCCCGCATTCCATGGATAGACAACAGCCGTATGCATCTGCTGGGCTTCTCCCGCGGGGCGATCAATGCTGCCGTGGCAGCCGCCCGGTCATCTCATGTATCCAAAATGATTCTATGGAGCGGCGTTTCCGACCTGGCGCAGACCTACGAGGAACGGATCGATCTGCGCAGAATGATGAAACGCGTCATTGGCGGTACGCCGACCAAGTTTCCGGAACGATACCTTCTTCGGTCCCCGATTCATTATGCGGATCGAATCCGATGTCCTGTCCTGATTGTGCATGGAACGCGGGACGAGCAGGTCCAGGTTGAACACAGCTACCGGATGCTGGACAAGCTTCAAGAACTGGGACACCAGCCCGAAGCTCACCTGTACGAAGGGCTGGGACATCATTTCCCGCCGCCGCAGCATGCAGCGGCGATCAACCGGATGTTCGACTGGTTGAAGCGAAGTTAA	MIYHIDYVSEGLHVKGYLGLPPQLSPNRSQKMSEAVDAIPGVTITGTLACSLNKEPVPEGASGSIESKLPLVLYCRGGIGRIGAVRLKWVEEFAAQGYAVFAPAYRGNEGSEGRDEFGGADTMDVITALEWLSRIPWIDNSRMHLLGFSRGAINAAVAAARSSHVSKMILWSGVSDLAQTYEERIDLRRMMKRVIGGTPTKFPERYLLRSPIHYADRIRCPVLIVHGTRDEQVQVEHSYRMLDKLQELGHQPEAHLYEGLGHHFPPPQHAAAINRMFDWLKRS				NA	NA	NA	NA	NA
AK002_03923	516			hypothetical protein	TTGACGTTAGCATTAAGGGAGCTGCTGGAGAAGGAGGATGAGAGTCTTCTGCTTATGGTCCAGGAGATTGGTACCGGCGAGAACGGCTTTGTTAACGGCTTAAATAGCAGCAGCATGGAGGAGTTCTCCTCCAAGGTCCGTCGCAATTACGAAATGGCACGAAGCATCAATCTGCCGGATGAGTATGTTCCCCAGACGATTTATTGGCTGTATCATACCGGCAAGCCTGTAGGTTACGGCAAGCTCAGACACCGCTTGAATGAGAAGTTGTTGGAGTCAGGGGGGCATATCGGGTATGTCATCAGGCCGTCGGAGCGGGGGAAAGGATATGGCAAACAGATGCTGGCGGGGTTGGTCAAGAAAGCCTGTGAAAAGAACATAAGCCGGGTCCTTCTAACCTGCGATGAAACCAATCTGGCTTCCCGTCGCATCATAGAATGGAACCATGGTGAACTCAGTTCTATTGCGGACGGGAATTGCAAATACTGGATCGATACGGCTGCTAGGCTGGAATAG	MTLALRELLEKEDESLLLMVQEIGTGENGFVNGLNSSSMEEFSSKVRRNYEMARSINLPDEYVPQTIYWLYHTGKPVGYGKLRHRLNEKLLESGGHIGYVIRPSERGKGYGKQMLAGLVKKACEKNISRVLLTCDETNLASRRIIEWNHGELSSIADGNCKYWIDTAARLE				NA	NA	NA	NA	NA
AK002_03924	456			hypothetical protein	ATGACCGTTTGTGCGGAGGAACGTTTACAGCAACTGGGCATCAGCTTGCCAGAAGCCGGATTGCCGGCAGCCAAGTATGCCAACTACGTCATCGTGAACGGGTTGATGTATGTTTCCGGCAAGGGTCCATCCGGGCAGCCAAGGGGCAAATTGGGCGAGCATTACACAACGGAGCAGGGATACGAATATGCCCGGTTGACCGGAATCGAAGTCTTGGCCGTATTGAAGGAAGGCCTGGGATCGCTTGATAAAGTGAAGCGGGTGGTTAAGGTTCAGGGCTTCATTAACGCAACAACCGATTACGAAGAGCATCATATGGTCTTGAATGGTTTCTCGGACTTGATGCTTGAGGTGTTCGGGGATCAAGGGATCCACGCCAGATCCGTATTCGGCGCGGTATCCTTGCGGGACCAGCTGCCTGTCATTGTGGATTCGATTTTTCAAGTGGAGGGATAG	MTVCAEERLQQLGISLPEAGLPAAKYANYVIVNGLMYVSGKGPSGQPRGKLGEHYTTEQGYEYARLTGIEVLAVLKEGLGSLDKVKRVVKVQGFINATTDYEEHHMVLNGFSDLMLEVFGDQGIHARSVFGAVSLRDQLPVIVDSIFQVEG				NA	NA	NA	NA	NA
AK002_03925	1605			hypothetical protein	TTGAAGAAATATATCCTGTCACTTTGTTTCCTTTTGTCTTTTACAGCGTTTATAAGCCCCCTTCAGGCATCAGCAGCTCAAGCTCCTAGCCCAACCGCTTTTCACGATATTTCGTCCAGCTTTGCAAAAGACGCGATTTACCGTCTGGCCAAGCGAGGCATCGTAAGCGGGGATGGCACAGGAGCTTTTTTGCCGCGAAATCCGGTTACGCGCGCCGAATTTATCGCTATGGTTGCCAGAATGCTGAACATGGAGCCTGTTCCGAACGATCTGCCCGCCTTTCAGGACGTATCCCGTTCAGCTTGGTACTACGGCTGGGTTCATGCAGGTCTTAATCTATCCATCGTGGAGGGGAACGGCTACAAGTTCTTTCCGAATGCTTCGATAACAAGACAGGAAGCCGCGGTCATCGTTATTCGTGCCATGAAGGATAGTGGATACGATAACGGATATTCCGCCGGCTACTATACGGATTCGGAATCGATCGCGGCGTGGGCTTGGCGTGCGGTCGGCCAAGCGACGAAAACAGGCTGGCTGCAAGGAAGCCAAGGCCAATTCAGACCGCTGGACCCGATCACCCGGGAAGAAACGGCGATGCTGCTGGACAGGGTCCTTCAATCGGGAAACGTGAAATCCATGATCGACAGCCAGCCGGCCGCGAATATTCATATGGGCTGGTTGTACAATGGCTCGACCAAGCAATATATCTCCTATGCCAAACGGGCCGGATTGAATGTGCTGGTGCCGCGGTGGTATTACATGGAGTCTAACGGGAAGCTGTCGGACAGCACCGACATCGAGCTGCTGAATTGGGCTCGTAACAATGGCCGGCAGGTGTGGGCTATGGTGGGCAACCGCGCGAATGCGGAAGGAACCCACCAGGTTCTAAGCAGTCCGCAGTCCCGGAAGTCTGTCGTAGACAGCATCGCTGCGAGCGTATCCCGCTACCGATTGGATGGGATCAATATCGATTTTGAGAACGTCATGCCTGAGGACAGGCAGAATCTGACGGCCTTCATCACGCAGTTATCCATGGAAATGAAACGGCTTGGAGCCAAGTTATCCATTGATGTTTCACCTGATCTGAATACGGATTGGACGGCTGCCTTCGATTATGCGGCGCTTGGCAGTCAAGTGGACTATATGGTGCTCATGAGTTATGACCAGCACTGGGGCGGTTCGCCGAAAGCCGGCTCCGTATCCTCACTGCCATGGAGCGAATCCGCGCTGAGCAAGCTGCTGACCCAAGTCCCGGCTAAGAAGAGCATCATTGCGTATCCGCTCTATACGAGGGATTGGCAGATTGCTTCATCGGTGTCCTCGTCGGATATCGGTTTGATTGAACAGGGACATCGCATCCGTCTGACCCAGGCTTCCTTAACTTGGAATGCCAGCGTGGCGCAATATGAAGCAGCTTATAGCAGCAGAGGCATCCAGCATCGCATATGGACCGAGGATTCCCGCTCCCTGTCATGGAAACATCTCATGGCCGCCAAATACCGAATTGCCGGGTATGCCTATTGGTATCCGGGAGCAGAAACGACGGACGTGTGGCAGGCGATTGACAATGCGGAGCGTTATGCTTCGTATTCGTTCCGGATCTAA	MKKYILSLCFLLSFTAFISPLQASAAQAPSPTAFHDISSSFAKDAIYRLAKRGIVSGDGTGAFLPRNPVTRAEFIAMVARMLNMEPVPNDLPAFQDVSRSAWYYGWVHAGLNLSIVEGNGYKFFPNASITRQEAAVIVIRAMKDSGYDNGYSAGYYTDSESIAAWAWRAVGQATKTGWLQGSQGQFRPLDPITREETAMLLDRVLQSGNVKSMIDSQPAANIHMGWLYNGSTKQYISYAKRAGLNVLVPRWYYMESNGKLSDSTDIELLNWARNNGRQVWAMVGNRANAEGTHQVLSSPQSRKSVVDSIAASVSRYRLDGINIDFENVMPEDRQNLTAFITQLSMEMKRLGAKLSIDVSPDLNTDWTAAFDYAALGSQVDYMVLMSYDQHWGGSPKAGSVSSLPWSESALSKLLTQVPAKKSIIAYPLYTRDWQIASSVSSSDIGLIEQGHRIRLTQASLTWNASVAQYEAAYSSRGIQHRIWTEDSRSLSWKHLMAAKYRIAGYAYWYPGAETTDVWQAIDNAERYASYSFRI	PGPT0025110_39	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
AK002_03926	1953	amyX	COG1523	Pullulanase	TTGTCGGTACAAAAAGAAAGCAACGCTGTTATTCACTACGGAGATCCCGCGGTAACCGGGGGCGTCTCCGTTTTTGATAAGGAATTTGACAAGCTATTTTATTATGACGGAACCGACCTGGGGTTAACCTACCAAGCCCAAGAGTCCAAGTTTCGCCTGTGGGCACCCACGGCCAGCGAGGCCTACGTGCTGCTGTACCCGGATTGGCAGACGTCAGAAGCACGGCGTTTCCCGATGTCGCGCGACGTGAAGGGAACCTGGCTGCTGAAAATAGAAGAGAATCTTCATGGGATGTTCTACACCTACCAGGTGCTAATCGGGGATCAATGGAATGAAGCAGTCGATCCCTACGCGGCTGCCGTAGGCGTCAATGGAGATCGGGCTTACATCGTGGATATGGCCCAAACCGACCCCGAGCGTTGGACAGACGAGAAACCGCCGTTCCAAAGCCCGCTGGATGCCGTTATCTATGAACTGCATGTTCGTGATTACACCATTCATCCGGACAGCGGAGTGGAGCTTAAGGGCAAGTTTAAAGGTCTGACGGAGACGGGTACCCGGGGGCCGGGAGGGATTCGTACAGGACTTGATCATATCGTTGAGCTGGGGGCCACGCACGTGGAACTGCTGCCGATTTATGATTTTGCAACGGAAAGCGTAGATGAGACCAGGCTGCATGAGCCTCAGTACAACTGGGGGTACGACCCGAAGAACTATAATGCTCCTGAAGGCTCGTATGCTACCGATCCGTATGTGCCGGAGGTTCGGATCCGTGAATTGAAGGAGCTGATTCAGACCTTCCATGAACAAGGCCTGCGGGTCATCATGGACGTGGTGTATAACCATGTTTATGACGGGTATTTGGTCAACTTTACGAAGCTGGTGCCGGGATATTATCTCCGCTACACGAAAGACGGCAAATTCTCCAACGGATCCGGGTGCGGCAATGACACGGCATCCGAGCGTCCGATGATGCGGAAGTTCATTGTGGAATCCGTCCTGCATTGGGTGAAGGAGTATCGGGTGGACGGTTTCCGCTTTGACCTGATGGGATTGCTGGATGTGCAGACGATGAATGAAATCCGTGCGCGCCTGGACGAAATCGATCCTTCCATCATTACGATCGGCGAAGGCTGGGTCATGAAAACCGAGCTGGACGAGAAGAAACGGGCGAATCAGCAGCAAGCGGCCTTGATGCCGCGAATCGCGCACTTTAACGATGGTTTCCGTGATGCAGTTAAAGGGGATATCTTTTATTTTGATTATAAAGGCTTTGTGAGCGGCGGCGTCGGATATCAAAACAAGGTGAAGCAAGGCATCGTGGGCGGCATTCCGTATTCCCAAGATATCAAGGCATTTGCTTCCGAGCCGGATCAGTGCGTGAATTATGTGGAGTGTCACGATAACCATACCCTTTGGGATAAAATCATGCTGTCTACGGATGGGGAGTCGGATGCCGTTCGCCGCGATATGCACCGGCTGTCATCGGCCATGATTCTTACCAGCCAAGGCATTCCTTTCCTGCACGCCGGCCAAGAGTATTATCGCTCCAAGAACGGTGTGGAGAACAGCTACAATGCCAGCGATGAGGTGAACCGGCTTGATTGGGGAATGGCATCGGAACACCAGGACGGGGTGAAGTACATCCAGCGGCTCGTTCAGCTGCGCAGGAATCATCCGGGGTTCAGAATGAGGGATGCAGCGTCGATCCGAAAGCATCTTCATTTCGAGCCGTGCCCGGAGCATGCCGTTGCTTTCACGCTTCGCGATCATGCGGGCGGCGACCCGGCAGAGCATATTTATGTGATCTATTATGCCGGACGCAAACCGTCCTCCCTGACGATACCCGAGCTGGGCGATTGGAAGGTTCTGTTTGGCGAAGAGCATGTGAAGGGATTGAGCCGGGATTCCCTTGTGGTCGAAGGTATAGGCGCGGTCGTTTTAACTTGTTAA	MSVQKESNAVIHYGDPAVTGGVSVFDKEFDKLFYYDGTDLGLTYQAQESKFRLWAPTASEAYVLLYPDWQTSEARRFPMSRDVKGTWLLKIEENLHGMFYTYQVLIGDQWNEAVDPYAAAVGVNGDRAYIVDMAQTDPERWTDEKPPFQSPLDAVIYELHVRDYTIHPDSGVELKGKFKGLTETGTRGPGGIRTGLDHIVELGATHVELLPIYDFATESVDETRLHEPQYNWGYDPKNYNAPEGSYATDPYVPEVRIRELKELIQTFHEQGLRVIMDVVYNHVYDGYLVNFTKLVPGYYLRYTKDGKFSNGSGCGNDTASERPMMRKFIVESVLHWVKEYRVDGFRFDLMGLLDVQTMNEIRARLDEIDPSIITIGEGWVMKTELDEKKRANQQQAALMPRIAHFNDGFRDAVKGDIFYFDYKGFVSGGVGYQNKVKQGIVGGIPYSQDIKAFASEPDQCVNYVECHDNHTLWDKIMLSTDGESDAVRRDMHRLSSAMILTSQGIPFLHAGQEYYRSKNGVENSYNASDEVNRLDWGMASEHQDGVKYIQRLVQLRRNHPGFRMRDAASIRKHLHFEPCPEHAVAFTLRDHAGGDPAEHIYVIYYAGRKPSSLTIPELGDWKVLFGEEHVKGLSRDSLVVEGIGAVVLTC	PGPT0012195_1021	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PULLULANASE,PGPT0012195-pulA-K01200	NA	NA
AK002_03927	1305			hypothetical protein	ATGACCCGTCGAGGCTCCGGATTTATAAGGGCTTTTTGGCAGGGATTGGTGGAGTGCGTATTGTATTTCCCGGTGCTCTTCATTCCGGCATTCTATCTGCTGCCTGAATCGTACCGATGGATATGGCCCGCCCTGGTCTTAGGCGGGTACGTCATGGGCTACGCAGGTGCACATTGGTTCAACATGGATCGTCAGTTCAAAGCGTTCGTATGGGCTTGCCTGGTTTCCGTTGCTGTATCCGTTGCCTTTGTAGGGGTTGATATCGCCCTTGCTTACGTTATCCCGCTGTTGTTTATTGCCAGTATTCGCGGAAGCCGAATGGAGCAGGTGAACTGGAATTTGATGTTCCCGGGAACATACTTCCTGATCGGGTTGATTCTGTACGGGGTCAGCAGCTTTTTTCTCAGTTTCATGGACTCCTTCCGCGGCGGAATATCGTCTCTGACCTGGATGGGAGCGGCTGCGTTAGGATTGACCCTGCTGATCGTCAACCGGCAATACGTGCTGGACGAAACGCTGCCGGGCAATGACCAGCCCGTGCTGGAACGGCGCGTGCTGCGCTACAATCGCTGGTTTATCATCATTTTGCTGGTCCTTATTGCGCTGGTCGCTTTTCTTCCGCAGCTGCAGCAGTGGGTCTCCGACATGGCGAGGGGGATCGCTGCCTGGATATCCGGATGGTTCAGTTCGGGTGCAGAGCAAGCGCCGGAGCCGCCTTCAATGTCGGAGCCTCCTCCCGAGATGCCGTTTCTCGATGAAGAAACCAAGCCGCCTAGCCAGTGGATGAAAGTCCTGGAGCAAGTGCTGATTTATGGCGTGTTCACCGTTATCGGGATCGGTATGCTATACGTTCTGTTCCGGTTTGGTAAAGTGCTGCCGAGTCTCTACAGAAAATTCTCCGCATGGATGAACAGGATGATGAACAGGCAGAACGTCCAGCCCCAACTGGGCTATGAGGACGAAGTGGAGAATATAGAGCATGACCCGGCATCCAAGCGGCTGCGACGGCTGTTGTCCGGCGTGCGTATCGGCGGAAGGCATCGGGAAGGAGAAGGCCCGGAACAGCTGAATGAGAAAATCCGACAAATGTATCGTTTGATACTTTCCCGAAGCATCAGGGAAGGCTATAATTGGAAAGCGTCACTTACACCGCGGGAGACCGAACACGATCTTAAGGAATGGGACGGACGGAAGGATCGTGTTCCGCAGTCCTTGATCGAGCTGTACGAGGAAGCCCGATATGGAAACCGTGCCATTACAAAAGAAGAAGTGGAAGGACTGCAACTTGACCGGAAGCCTAAATGA	MTRRGSGFIRAFWQGLVECVLYFPVLFIPAFYLLPESYRWIWPALVLGGYVMGYAGAHWFNMDRQFKAFVWACLVSVAVSVAFVGVDIALAYVIPLLFIASIRGSRMEQVNWNLMFPGTYFLIGLILYGVSSFFLSFMDSFRGGISSLTWMGAAALGLTLLIVNRQYVLDETLPGNDQPVLERRVLRYNRWFIIILLVLIALVAFLPQLQQWVSDMARGIAAWISGWFSSGAEQAPEPPSMSEPPPEMPFLDEETKPPSQWMKVLEQVLIYGVFTVIGIGMLYVLFRFGKVLPSLYRKFSAWMNRMMNRQNVQPQLGYEDEVENIEHDPASKRLRRLLSGVRIGGRHREGEGPEQLNEKIRQMYRLILSRSIREGYNWKASLTPRETEHDLKEWDGRKDRVPQSLIELYEEARYGNRAITKEEVEGLQLDRKPK				NA	NA	NA	NA	NA
AK002_03928	1107			hypothetical protein	ATGGGAGCCTACTGGATATTGTTGATCGCTGCTGTGGTTGTAGTCGTGCAGGGCAAGATTTTCAAACGGACGGCACTCCAAAAGCTGAACTACAGCCGTTCCTTCAAGGTATCGACCTGCTATGAGGGAGATTCCGTGGAATTGATCGAAATCATCGAGAACCGTAAAGCGCTGCCGGTGCCCTGGCTTCGGGTAGAATCCCAGTTCCGCTCGGGCCTGGCGTTCGATAATCAATTGAACCTGGACATCAGCGAGGGGCAATTCAATCAGAACCATAAGAGCTTCTTCAGTCTGCTGCCTTGGACCAAGATCCTTCGAAGACATCGAATTACCGCGAAACGAAGAGGTTTGTACAAGCTGGGAACGGTATCGATGACGACAGGGGATCTGGTCGGCATGGAGTCGGTTGTCCAGAGCAAGACCCTGCCCGGCGGAATTATCGTGTATCCGATGCCGATGGATGCGTCGGACATGGAGCTGCCGGTTCAGACCTGGATGGGGGAGATGCTGGTCCGCAGATGGATCATGGAGGATCCGTTCCTGATATCGGGCGTCCGCGAATATCGGGACGGTGATCCGCTGAAGGATATCCAATGGAAAGCGACTGCACGGACGGGAACCCTGCAGGTTCACAGGCGGGATACGACCGCGGACAGCCGGCTCTTCATCTATTTGAATATTGAAGATCATGAGCAGATGTGGAGCAAGGCAACGCGTCCGGAGGCCATTGAGTATGGCATCCGCCTGGCAGCCGGCATTACGGCGCATTTATTGTCACAGGGCATGGAGATCGGAATGGGGACCAATGGAACCCTTGGCGAGGATTCAAACGATGAAGCATTCGTTCCGGTCGCAGGCGGCATGATGCAGCAGGAGCTGATATTCGAAATGCTGGCCAGACTGGAGCTGACCCGCCGGCTTTCTTTTCATGATTATTTGGCCCACGAGCTGTCGCGGCATGAAGAAGCTAAAGATATCCTCATTCTGAGCACTTACGTCAGTCCCAGGCTGGAAGAGATGTTTCAGCGATTCCGGGATAACGGGCACACGATCCAGGTATTCCTTCTCCGCGACGTGCCGTCTTCCGCGAAGGAGGTGTCCGCATGA	MGAYWILLIAAVVVVVQGKIFKRTALQKLNYSRSFKVSTCYEGDSVELIEIIENRKALPVPWLRVESQFRSGLAFDNQLNLDISEGQFNQNHKSFFSLLPWTKILRRHRITAKRRGLYKLGTVSMTTGDLVGMESVVQSKTLPGGIIVYPMPMDASDMELPVQTWMGEMLVRRWIMEDPFLISGVREYRDGDPLKDIQWKATARTGTLQVHRRDTTADSRLFIYLNIEDHEQMWSKATRPEAIEYGIRLAAGITAHLLSQGMEIGMGTNGTLGEDSNDEAFVPVAGGMMQQELIFEMLARLELTRRLSFHDYLAHELSRHEEAKDILILSTYVSPRLEEMFQRFRDNGHTIQVFLLRDVPSSAKEVSA				NA	NA	NA	NA	NA
AK002_03929	981			hypothetical protein	GTGGTTACAATCATTACAGATTATCATGGCGTCCGCCGTCTTGCCGACGACATTCGGGCAAACGTTTCCAAAGTTATGGTAGGCAAGGAGCAGCTGATTGACAGATTGTTTATTGCCATGGTCACATCGGGTCATGTACTGCTGGAAGATGTTCCGGGAACCGGGAAGACGCTGTTGGCCAAATCCATCTCCAGGTCGATTGATTGCACGTTTAAGCGGGTACAGTTTACGCCGGATTTGCTGCCGTCCGATCTGAGCGGCATTTATTTCTATAATCAACAATCCGCGACGTTTGAATTCCGTCCCGGTCCGCTGTTCACCAATATCCTGCTCGCCGATGAAATCAACAGAGCGACGCCTCGTACGCAGTCCAGTCTGCTCGAGTGCATGGAGGAGCGCCAGATCAGCATCGACGGAGTAACCCATCAACTGAAAGAACCGTTTCTGGTCATCGCTACGCAGAACCCGTTGGAGCAGCAAGGAACGTTTCCGCTGCCGGAGGCACAGCTGGACCGATTTTTATTCAAATTGAACATGGGGTATCCTACCTCGGAGGAAAGCGTGAATATTTTGAAGCGATTCAAAGACGAACAGCCGCTGGAATCCCTGACGGCCATCGCAGCGTCCGACAGCATCGTACAAGCCAGGCATATCGTCAGCAAAGTACATGTCAGCGATGAGATGTTGGCTTATATCGTCGAACTTTCCGAGCATTCGAGACGGGATGAAGCCGTCGCCTCCGGCGTAAGCCCGAGGGGCTGCCAGGCATTATTGAAAGCGGTGCAGGTACAGGCCGTCCTGAACGGGAGAGAGTTTGTTACGCCTGATGACGTGAAGGAGCTCGCCGTGCCGACGTGGGCTCACCGCTTGAAGCTGCGGGGGACGCTCCACAACCGCGGCGGCGCGACTGCGTCAGAAGAAGTGATCGAACGATTGCTGCAGCAGGTTGCCGTACCGACAGAAGAAGGCATCTCGTCGTAG	MVTIITDYHGVRRLADDIRANVSKVMVGKEQLIDRLFIAMVTSGHVLLEDVPGTGKTLLAKSISRSIDCTFKRVQFTPDLLPSDLSGIYFYNQQSATFEFRPGPLFTNILLADEINRATPRTQSSLLECMEERQISIDGVTHQLKEPFLVIATQNPLEQQGTFPLPEAQLDRFLFKLNMGYPTSEESVNILKRFKDEQPLESLTAIAASDSIVQARHIVSKVHVSDEMLAYIVELSEHSRRDEAVASGVSPRGCQALLKAVQVQAVLNGREFVTPDDVKELAVPTWAHRLKLRGTLHNRGGATASEEVIERLLQQVAVPTEEGISS				NA	NA	NA	NA	NA
AK002_03930	387			hypothetical protein	ATGATATTGGAATCTGCCATTCTTTATATTAAACCTGGGCTGGCAAGCGAATTCGAAAGTGCATTTCGGGAGGCTTCCGGCGTATTGCTATCCAAAAAGGGGTATGTAGGCCATGAACTTCACAAGTGCGTGGAGAACCGGGATGAATATATATTCCTTGTCCGCTGGAGCGGCATTAAGGATCACCTGATCGGCTTCCGCGGGCACCCGGACTATAAGAAATGGGCTGCCTCTCTGGAACCGTTTTATGCAAAGGGGCCTGAGGTTAAGCATTATATCGACATCCGGATCGACAGCCGCGAGCAGGCGGAATCGGAGCTGGCTAAACTGTTGATTCCGGAAAGCGGCTCGAATTCCACCGCAGAGGAGAACAGGCCGGCAGAGTAA	MILESAILYIKPGLASEFESAFREASGVLLSKKGYVGHELHKCVENRDEYIFLVRWSGIKDHLIGFRGHPDYKKWAASLEPFYAKGPEVKHYIDIRIDSREQAESELAKLLIPESGSNSTAEENRPAE				NA	NA	NA	NA	NA
AK002_03931	303			hypothetical protein	ATGGCATTCGGCATCTCGAAGCAGGAATTACAGCAATGGAAACAGAAAGTCGCCAATGGCGATATCGCGTTTTTAACCCATTATTGGTACGATAAGCGGTTTCCGCAATTCCATACCGTAACCAAAGTAGGCTGCTCGGATATTCAGCGCCTGAAGGACTGGTGCATATCCAATGGATTAAATCCGCAGTATATCCATCACCGCCAGCCATATCCGCATTTTGACCTGATCGGTCCCAAGCAAACGGAATTGCTGCAAAAATATAAACTCGAAGATCATATCACGAGATTCGGTCTGTCATAA	MAFGISKQELQQWKQKVANGDIAFLTHYWYDKRFPQFHTVTKVGCSDIQRLKDWCISNGLNPQYIHHRQPYPHFDLIGPKQTELLQKYKLEDHITRFGLS	PGPT0013445_463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
AK002_03932	933	trxB_3	COG0492	Thioredoxin reductase	ATGATGGACAGAGACGTGAAAGATTGCATTATTGTTGGCGGCGGAATTGCAGGTCTGCAGGCAGCTATACAACTGGGACGGTATTCGGCCTACGATGTACTGGTCATCGACCGGGGAACGGGGCGTTCCACCATCTGCAAGAGCTACCGCAACATACTAGGATGGCCGGAAGGGGTGTCCGGTGAAGAACTCAGACAGCGAGGGCGGAAGCAGGCGGAGGCCGTGGGCGTTACGTTTGCAGCCGATGATATACGGAAGGCCGAACGGGATGAAGCGAAGTGTTTTGTGTTAACCGGTAAAGACGGAACCAGGTACAGGGCAAAAAGCATGCTGCTTGCAACAGGCTTGATGGACCGCTTTCCCAAGCTGCCGGGCCTGATGTCTACGCTGGGCACCTCCGTTTTTGTATGTCCCGATTGCGACGGATATGAAATTCAGGATCGAAAAACCGTTGTGCTGGGATCGGGCGATCCCGGTGCCAATATGGCCATTTTGTTATCCGAGCGGGCGAAGGAAATCATCTATGTCAATCATGAAGGACAGCCGGCTTCGTCCGAGAACATGACGCAGTTAGCGAATCTTGGGATTCCTTATATAGAGAAAAGAGTAACCGAAATTCAGGAGGAAGGAGGCATCCTATCGGCTGTCGTGCTGGAAGACGGCAGCATCATCCGCGCGGAGCGCGGTTTCATATCCTTTGGCGGGAACATGATCTTTTCCGAATTGGCCGAGCAGTTGGGGGCGGAATTGGAGCACAATCGGCATGTGAAGACCGATCCCCGATCCAAAATGACGAGCGTCGAACTGCTGTGGGCTGCAGGCGACCTGGGCGTCCATTCCGAATTAACCACCGTGGCGATGGGGGAAGGCGCAACGGCTGCGATCTGGATCCATAAAACGCTGAAGAAGATGTCAAGCCAAGCCGTAACATAA	MMDRDVKDCIIVGGGIAGLQAAIQLGRYSAYDVLVIDRGTGRSTICKSYRNILGWPEGVSGEELRQRGRKQAEAVGVTFAADDIRKAERDEAKCFVLTGKDGTRYRAKSMLLATGLMDRFPKLPGLMSTLGTSVFVCPDCDGYEIQDRKTVVLGSGDPGANMAILLSERAKEIIYVNHEGQPASSENMTQLANLGIPYIEKRVTEIQEEGGILSAVVLEDGSIIRAERGFISFGGNMIFSELAEQLGAELEHNRHVKTDPRSKMTSVELLWAAGDLGVHSELTTVAMGEGATAAIWIHKTLKKMSSQAVT	PGPT0013060_7966	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK002_03933	1230	srpC	COG2059	putative chromate transport protein	TTGAATCTACAGACAGATAAAGAGCAAACACAGTCTCAAGTTGGCAACAGCCAACCGTCTGGAAGGTGGCGTGCGCTCGGCGAAACCTGGTGGACTGCTCTGCAGTTGGGGCTTACTTCATTTGGCGGGCCGATTGCCCATCTCGGATATTTCCACCAGACCTATGTACGGCGGAAACAATGGCTGGATGAGAAAAGCTACGCGGATCTGGTGGCTTTGGCCCAGTTCCTTCCCGGACCTGCCAGCAGCCAGGTAGGCATTGGCGTAGGGGTTATGAGAGCCGGACTCTGGGGCGGACTTGTCGCCTGGCTCGGCTTCACGCTGCCGTCCGTGCTCATGCTTATGATTTTTGCCTATCTCATGCAAACCTTCGATCCCGGCTCGGCAGGTTGGATTCAGGGGCTTAAAATCGTCGCCGTAGCCATCGTAGCGCAAGCGGTACTCGGAATGGCAGGAAAGCTGGCCTCAGGCCCTGTCCGGGCGGCTGTAGCGTTAATCGCCATGGCAGTCGTGCTGCTGTGGCAGAGTCCCGTGACTCAAGTGGCGGTGATCGCTCTCGCCGGCCTGTCGGGACTGTGGCTATTCAAGCGTCAAGCAAACGAAGAGGCAACACCCGTGATGAAAATGCCGATCGGACGGAGAGCCGGACTCTTTTGCCTGGGAGCGTTTGTCGTTCTGTTGGTAGGTCTCCCGCTCCTTAAAGGGATCACCGATAATGGATGGGTAGCCATTGTGGACAGCTTCTACCGTGCCGGATCGCTTGTATTCGGCGGAGGGCATGTCGTTCTTCCGCTGCTGGAGAGCGAGACGGTACTGAACGGATGGATGTCTAAAGAGGATTTTCTAACCGGTTACGGGGCGACACAAGCGGTACCTGGCCCGTTGTTTACATTTGCCGCTTATCTTGGGGTCCTGATTCAGGGAATACCCGGAGGCATCGTTGCCACGCTTGCCATCTTTTTGCCCGGATTTCTGCTCATTGTAGGAGCCATGCCATTCTGGAACGGTATCAGAAGAAACCCGAAGCTGCAGGGCATGCTGACAGGCATGAACGCGGCTGTGGTCGGAATTCTGCTGGCCGCTTTGTACCATCCCATATGGACTTCCTCCATCCACGGCCCGCTTGAATTTGTGATCGGCGCGGGACTGTTCGGGATGCTGATGTTCTGGAAGAGTCCCCCGTGGCTTGTTGTCATCATTGGCGCATTAGCGGGACAGTTTCTCCTGTGA	MNLQTDKEQTQSQVGNSQPSGRWRALGETWWTALQLGLTSFGGPIAHLGYFHQTYVRRKQWLDEKSYADLVALAQFLPGPASSQVGIGVGVMRAGLWGGLVAWLGFTLPSVLMLMIFAYLMQTFDPGSAGWIQGLKIVAVAIVAQAVLGMAGKLASGPVRAAVALIAMAVVLLWQSPVTQVAVIALAGLSGLWLFKRQANEEATPVMKMPIGRRAGLFCLGAFVVLLVGLPLLKGITDNGWVAIVDSFYRAGSLVFGGGHVVLPLLESETVLNGWMSKEDFLTGYGATQAVPGPLFTFAAYLGVLIQGIPGGIVATLAIFLPGFLLIVGAMPFWNGIRRNPKLQGMLTGMNAAVVGILLAALYHPIWTSSIHGPLEFVIGAGLFGMLMFWKSPPWLVVIIGALAGQFLL				NA	NA	NA	NA	NA
AK002_03934	1230	yycB_2	COG2807	putative transporter YycB	ATGACATCAAGAACATCGATAGATCCAAACACCAATTCCACAGGGCGCACATGGTTGATCTTTGCAGGCATTATCCTTATTGCCATTAACCTCAGGGCGGCGATCACTTCGGTAGGTCCGCTGATCGGAATTATTCGAGAGGATACGGGAATTTCGAACACATTGGCAGGCATGCTGACAACGCTGCCGCTATTAGCCTTTGCTTTACTGTCGCCGATGGCGCCGGCCATGGCCAAAAAGTGGGGACTGGAGACAACCCTTCTGCTGAGTATGGTCGTGCTGACTTTCGGCATCGGCATACGCTCGATATCGTCTCCCTACACGCTGTTGATAGGTACCGCCTTTCTAGGTATGGCCATAGCCGTAGGGAACGTGCTGCTCCCGAGTCTGGTCAAGCGGGACTTCCCGCGCCATATCGGTTTGATGACAGGCACCTACTCTGCCTCGATGAACCTGCTCGCCGCGATTGCCTCGGGGGTCAGCATTCCGCTGGCTACCCAAGCCGGGCTTGGTTGGCAGGGCTCCCTGTTAATTTGGGGATCCTTGTCCATATTGGCGATGATCGTATGGCTGATCCAGCGCCGCAGTTCCGGAAAAACCGCTGAGGTCAGTTCGGCTGCTTCGAAGCAGCAGAGCGTGCTGAAGTCGCCGCTTGCTTGGTATATTACTTTATTTATGGGGCTTCAATCGTTTACGTTCTACGTGAACATCTCATGGCTGCCCGAGATTCTGAGAAGCCAAGGCATGGATTACAGCGCCGCAGGATGGATGCTCTCGATTCTCCAATTTGTCAGCCTGCCATTTTCCTTCATCATTCCTGTCCTGGCCGGCCGGAATCCGAACCAGCGTGTATTGGTAACGATCTCTGCATTGTCCATGCTGATCGGTTATGCCGGTTTGTTATCCGGCATGTCTTCGTTGAATCTCCTATGGGTGATGCTGGTAGGTATTTCGGGTGGGGCGAATTTCAGTTTGTCCCTGATGTTCTTCACCCTTCGTACCAAAACGGCCCACGAAGCCGCCGCGTTATCGGGCATGGCCCAGTCGCTGGGTTATTTGCTGGCTGCCGTCGGTCCGATGCTGATCGGGTTCCTGCATGACGCAACGGGAGGATGGAAGGTGCCTCTGACGGTGCTGTCCGCCGTTGTCGTGGTGTTGTTCATCTTTGGTTTTGGGGCAGCGAAGCCAGGTTATCTGTCCGTTCCGGACGAAACGAAGACGGAGGCTTAA	MTSRTSIDPNTNSTGRTWLIFAGIILIAINLRAAITSVGPLIGIIREDTGISNTLAGMLTTLPLLAFALLSPMAPAMAKKWGLETTLLLSMVVLTFGIGIRSISSPYTLLIGTAFLGMAIAVGNVLLPSLVKRDFPRHIGLMTGTYSASMNLLAAIASGVSIPLATQAGLGWQGSLLIWGSLSILAMIVWLIQRRSSGKTAEVSSAASKQQSVLKSPLAWYITLFMGLQSFTFYVNISWLPEILRSQGMDYSAAGWMLSILQFVSLPFSFIIPVLAGRNPNQRVLVTISALSMLIGYAGLLSGMSSLNLLWVMLVGISGGANFSLSLMFFTLRTKTAHEAAALSGMAQSLGYLLAAVGPMLIGFLHDATGGWKVPLTVLSAVVVVLFIFGFGAAKPGYLSVPDETKTEA	PGPT0005211_988	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CYANATE_DETOXIFICATION	XENOBIOTIC_CYANATE_UPTAKE,PGPT0005211-cynX|yeaN-K03449	NA	NA
AK002_03935	1380			hypothetical protein	TTGGAGACGACAGCCACGATTCGCGGAGAAATAGTAAGGTATTTGCAGAATCATCGTATGACGATTAACCAATTTGCGAGGATATCCGGCATTAACAGCGGAACACTTAGTAATATTTTGAATGGTAATCGTCCCATGTCCATGCACCAGTTAGACCGGATTACCGAAGGGATGGGTCTGGAAGAGGGGCATTTCTACAATCTTTACATAACGGAAAGTATTTTCCATACCACTCCGGATTGGCGGAGGCTGAGGCCTTTTCTTGAGCGATGTGCTGAACTGGATAAATTGGATTCTTTGCATAGAGCTGCACGAATGACGTTGGAAAACATCAATTACGCATCAATGCTTTTCGAAATGGCGGAGGTGTTTTTTAAAGAAGAAAAGTATAAAGCTGCTGCATTGCTTTATGAATGTGTGGCTGAAAGTGAAAAATTCCAGCACTCAGAAAGGCTTGCACTATGTCACTATCGTCTCTTTATGGTGGGGTTAAGTGATAACGTGGATGATAACTTAAAACTGGCAGTATCATTTGAGCAATATATCAATAGGCTAGATGAAAATTACCAATTAGACGCATATAGAAAACTTATTAATGTGAACATTTCACTTCTACGGTGGGATACTGTGGAAGTCCTAGCTAAAAAAATGGGTCAAATAGCAAGACTGCAATATAAGAATAACTTTAACACTGCAATCATGAATGATGAACAGGAAAAGCCTGTAGTTTTTTACATACTCTATTCATTTCTCATTCTGGCGAGTGTCTATCGTGAATCTGGAAACTTTGGAGAAGCATTAAGTTACCTGTCCCTGTATGAGAACCCGGATTGGATAAAGACGCCCTCAGAACAGGAAATAATAATTATTAAACAGTTTAAAGAATGGGCGAGAGCGAATCGTTACCTATATAGGTTAATGTCTGGACATTCTGACGCTCTTTGTGAATATGTAAACTATGTTGAATCCAGAACTGATGAAATTTTTCCGGCCTTATGCAATATTGTGGTAGCAGCTAATCGACATCGCATCAACATCGATTATATTATAGAGCGGTTTCGGGAGTATCTAATATATAAACCACAACGAAATCAACTAGGCAAGGTAAGTGAGCAAGTTACGATGAATCAACATGCTCGCCTCCTTACCGAGCTAGGCATATACTATTTGAACTCCAAAAAGTTTAACCGTGGTTTAGTTTATATCGTTGACAGCATGGAGTACTCGATAAAAATCAATAGTGACAGAGGGATGCTGCGCTGCATGGGGATCTTTGAGCAGTTCCGCCATGCTGCAACCGAGGATATCCTGAACCGGTACAATGAATTGATTCGCGATGTCCAAAAATTATCCGTGTATGCCTGGAGCCCGGTTGTGTAG	METTATIRGEIVRYLQNHRMTINQFARISGINSGTLSNILNGNRPMSMHQLDRITEGMGLEEGHFYNLYITESIFHTTPDWRRLRPFLERCAELDKLDSLHRAARMTLENINYASMLFEMAEVFFKEEKYKAAALLYECVAESEKFQHSERLALCHYRLFMVGLSDNVDDNLKLAVSFEQYINRLDENYQLDAYRKLINVNISLLRWDTVEVLAKKMGQIARLQYKNNFNTAIMNDEQEKPVVFYILYSFLILASVYRESGNFGEALSYLSLYENPDWIKTPSEQEIIIIKQFKEWARANRYLYRLMSGHSDALCEYVNYVESRTDEIFPALCNIVVAANRHRINIDYIIERFREYLIYKPQRNQLGKVSEQVTMNQHARLLTELGIYYLNSKKFNRGLVYIVDSMEYSIKINSDRGMLRCMGIFEQFRHAATEDILNRYNELIRDVQKLSVYAWSPVV				NA	NA	NA	NA	NA
AK002_03936	1389			hypothetical protein	TTGGAAATGACAGCCACGATTCGCGAACAAATGGAAGGATTTCTACATAAGAACGAAATGACGATTAATCGGTTTGCTGAAATATCGGAGGTCAACAGCGGCACACTCAGCAACATTCTGAATGGGAACCGCCCGATTTCCATGCAGCAGTTGGACCGAATTACGTCAGGCATGGGTCTGGAGGAGGGTTATTTCTACGAGTTGTACATAGATGAATGTATTTTTCATGCCACGCCGGATTGGCGTCGATTGGGACCGTTTCTTCACCGGTGCGCGGAGCTGGGGAAGCTGGATTGTTTGGACAAGGCTGTCCGAATGACGATGGATAATATTTCTTACTCCCCGCTGCTCTTTGAAACAGCCGAGCTTTTTTTCAAAGAGGGAAAGCATGAGGCGGCCGTGCTGCTCTACAGGAGCGTGGCTGAGAGCGAAAGATTCCAGCATTCGGAGCGGCTGGCCCTTTGCCAGTATCGGTTGTTTACGCTTGGGCTTACGGATGATCAGGAAATGAATTCGCGGGCTGCAGTGTACTTCGAACCTTATATTGATCGATTAGATGAAGTTTATCAATTGGATGCGCTAAAAGAGCTTATTAACTTAAATGTATCGTTAAATAGGTGGAGCAAAGTTGAAGAGTTAGCCCATAAGATGGGAAGAATTGCCTCAATTCAGTATCAATTTGAAGTAGGAAGGGTTGGACAAGAAGTTAGTGGGAAGAAACCAGTTGTTTTCTATATGTTATATTCATACTTAGTAAAAGCCACTGTTTGTTATGAACGTGGAGAAATTGATTTAGCATTGGAATATGTTTCAATGTACTCCGAACCGGAATGGCTCAAAGAACAGCCAAATGAAGAAGAGCGTCGTATTATTAATCAATTTAATGAGTGGGCGGAAGCAAACAGATTTCTTTATAAACTAATGGCTGGAAATAACGGAGCTCTTTCTGAATATGTAAATTACATTGCTGATAAGGAAGACGAAATATTTCTTGCAATTTGTAATATCATGATTGCTGCAAATAGATATCAACTGCAAGTTGACCATATTCTAGAAAGATTTAAGGGATATATTGAATTCAAAGAGCAAAGGAATCATATAGGGGAAATTATTCAACAAATTACTGCTGATCGATATACAAGGTTGTTAACAGAATTGGGAATATATTATTTGAATTTAAAGCACTTTGAAAAAGGGTTACAATTTATTTTAGAAAGTTTACAGCAATCAATAGCTATAAACAATGACAATGGAATGTTAAGATGTATGGCATTATTTGAACAATTCCGAGAGTTTTCTACAATTGACTTACAACAAAAATATAGAAAATTAGTATGTGAAGTACAGAAGTTGAATGAAGAAAAAATAGGTCTTGCCCTTAAGTATTAA	MEMTATIREQMEGFLHKNEMTINRFAEISEVNSGTLSNILNGNRPISMQQLDRITSGMGLEEGYFYELYIDECIFHATPDWRRLGPFLHRCAELGKLDCLDKAVRMTMDNISYSPLLFETAELFFKEGKHEAAVLLYRSVAESERFQHSERLALCQYRLFTLGLTDDQEMNSRAAVYFEPYIDRLDEVYQLDALKELINLNVSLNRWSKVEELAHKMGRIASIQYQFEVGRVGQEVSGKKPVVFYMLYSYLVKATVCYERGEIDLALEYVSMYSEPEWLKEQPNEEERRIINQFNEWAEANRFLYKLMAGNNGALSEYVNYIADKEDEIFLAICNIMIAANRYQLQVDHILERFKGYIEFKEQRNHIGEIIQQITADRYTRLLTELGIYYLNLKHFEKGLQFILESLQQSIAINNDNGMLRCMALFEQFREFSTIDLQQKYRKLVCEVQKLNEEKIGLALKY				NA	NA	NA	NA	NA
AK002_03937	795	yehX	COG1125	Glycine betaine uptake system ATP-binding protein YehX	ATGCTGGAAATGAACCATGTGTCCAAGCTGTTTAACCCGGGGACGGTGGATGAGAAAATCGCTTTGATGGACGTCAACCTTCACTTGAAGCCGGGGGATTTCGTGACGGTTATTGGAAGTAATGGTGCGGGCAAATCCACGCTGATGAATATCATTTCCGGGGTAATGAAGCCGGACGCGGGTGAAGTGCGCATTGACGGCACTTCGATCGGCCATCTGCCGGAATTCCGTCGCAGCCGCTGGATCGGCCGGGTATTTCAGGATCCGATGGCGGGCACGGCGCCGCATATGACCATTGAAGAGAATCTGGCGATGGCATATCGTCGCGGCCAGTCCCGCGGGCTCAGCATAGGCGTTACAGCATCCAAGCGGGCCGGCTTCCGCGAACATCTAGAGCGGCTTGGCATTGGACTCGAGGATCGGCTCCGAGCCAAAGTAGGGATGCTGTCGGGAGGGGAACGTCAAGCGCTAAGCTTGCTGATGGCAACCTTCACGCAGCCGCAAATCCTGCTGCTCGATGAACATACGGCAGCGCTTGATCCGGCTCGTGCGGAGCTGATTACCCGCATAACCGATGACATCGTACGCGATATGAAGCTGACCACGCTCATGGTCACACATAACATGGAGCAAGCCATCCGTCTTGGCAATCGTCTCATTATGATGGATAAGGGGCGCATCATTCTGGATGTGGACGAAGAGCGCAAGAAATCCCTGACGGTGGAGCAGCTGCTTGGGGAATTTGAGCAGATTAGCGGCCATAAGCTGTCCGATGATCGTTTGGTTCTGGGGTAA	MLEMNHVSKLFNPGTVDEKIALMDVNLHLKPGDFVTVIGSNGAGKSTLMNIISGVMKPDAGEVRIDGTSIGHLPEFRRSRWIGRVFQDPMAGTAPHMTIEENLAMAYRRGQSRGLSIGVTASKRAGFREHLERLGIGLEDRLRAKVGMLSGGERQALSLLMATFTQPQILLLDEHTAALDPARAELITRITDDIVRDMKLTTLMVTHNMEQAIRLGNRLIMMDKGRIILDVDEERKKSLTVEQLLGEFEQISGHKLSDDRLVLG	PGPT0013589_103	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013589-opuCA-NA	NA	NA
AK002_03938	921			hypothetical protein	ATGCTGGATTTCGTGTTGAGGCTGGATGGTCCGATTGAATTGGGGCTTTTGTATGCGCTGATGGCACTTGGCGTGTATATTACGTTCCGGATTCTGGATTTTCCGGATCTGACGGTGGATGGAAGTTTTACGACAGGCGCAGCGATTGCAGCGATTCTGATTACCAACGGTGTGAACCCATGGCTTGCCACGCTTGCCGCATTTGCCGGAGGTATGTTAGCCGGTATCTGTACGGGCCTGCTGCACACCAAGGGTAAAATCAACGGTTTGCTCTCGGGCATTATTATGATGATTGCGCTTTATTCGATCAATATGAGGATCATGGGTAAGCCTAATATTTCGTTGAGCCAGGAAGCGAATATCTTCGGATCGATCGATCCGATTTATATTATGTTAGTGATTGTGATCATCGGCAAGCTGCTGCTGGATGCATTCTTCCGTACGGATCTAGGTCTTGCCCTGCGTGCGACAGGGGATAACAAGCGGATGATCCGCAGCTTTGGTGCGAATACGGACACCACAACCATTCTGGGCCTCAGCATCTCGAACGGGCTTGTGGCCCTATCCGGGGCCGTGGTTGCCCAGCAGTCCAGTTTTGCCGACATCAGCTCCGGCATCGGGATGATTGTGATCGGTCTGGCATCCGTTATTATCGGCGAAGCCGTTCTTGGGACCGGCTCGGTATTCCGGACGACGCTGGCTGTCGTCTGCGGTTCGATTATCTATCGCATTGTCGTTGCCGCTGCTTATGAGATTCCATGGCTCGAAGCTTCGGATTTAAAATTGATCACGGCGATCATCGTCATTATCGCTCTCGTGGTTCCGACCATCAACCGGGCGATGAAGCAGCGTTCACAGGCACGGAGGCGCTCAACCGAACTGCTAGCTACGCAAGGGAAGACCAAAGGAGGTGCGCTCTGA	MLDFVLRLDGPIELGLLYALMALGVYITFRILDFPDLTVDGSFTTGAAIAAILITNGVNPWLATLAAFAGGMLAGICTGLLHTKGKINGLLSGIIMMIALYSINMRIMGKPNISLSQEANIFGSIDPIYIMLVIVIIGKLLLDAFFRTDLGLALRATGDNKRMIRSFGANTDTTTILGLSISNGLVALSGAVVAQQSSFADISSGIGMIVIGLASVIIGEAVLGTGSVFRTTLAVVCGSIIYRIVVAAAYEIPWLEASDLKLITAIIVIIALVVPTINRAMKQRSQARRRSTELLATQGKTKGGAL				NA	NA	NA	NA	NA
AK002_03939	1044			hypothetical protein	ATGATGAAGAGAAAAATGTGGTTATCACTTACACTCTCCGCGCTGCTGGTTACGGCAGTAGGCTGCGGGGACAAGCCGGAAGGCGGCGGTACGACTCAAACGGGCAGCGGCGGAGATGCGGAGAAGAAATCCTATAGCATCGCTATTTCGCAGATCGTAGAGCATCCATCCTTGGATGCAACGCGGGAAGGCATTCTGGCGGCTTTGAAGGAAGCCGGAATTTCCGAGGAAGACAATACGCTGAAAATCGATTACAACAATGCGCAAGGCGATCAAGCGAACAACCTGTCGATTGGCCAGAAGCTGAAGGATACGAAGTCGGATCTGGTGGTCGCTATCGCAACCCCGTCTGCGCAGGCAGTGGCTGAGAACGTGAAGGAGAAGCCGGTGCTGTTCGCAGCGGTGACCGATCCGATAGACGCGAAGCTGGTGAGCGACTTGCAGAAGCCGGGCGGCAACGTCACCGGTGCATCGGATACCAACCCGGAGGCAGCTAAACAGTTGATGGATTTCATCAGCACCAACTTCCCGAATGTGAAGAAGATCGGACTTGTCATTAATGAAGGGGAAGCCAATGCAGTAGTTATGGCAAAGACGGCTGAAGAGGCGCTCGCCGAGCATGGCATCGAGCTGGTGAAGGCGGCTGTCACAAACACTTCGGAAGTGAAGCAGGCGGCAGAGTCGTTAGTCGGCAAGGTCGATGCTTACTATATTACCTTGGATAATGTTGTGGTCAGCGGCGTGGATGCCATTATCCAAACGGCACAAAAGAATAAAATTCCGTTCTTCTCCAGCGACCGCGATACGGTGGAGAAGGGGGCTTTTGCAACCGTTGGCTTTAAGTACTACGACCACGGCTATCAGGTTGGACAAATGGCCGTAGAGATCCTGAAAAACGGCAAGAATCCGGCGGACATGGAAGTAACGAAGCCGGATAAGCTGGATCTGATCCTGAACACGAAGGTTGCGGCTGACTATGGTATTGAAGTGACCGACGCCATGAAACAGGAAGTCAAGGACCCGGACAACAACATCATCGAGTAA	MMKRKMWLSLTLSALLVTAVGCGDKPEGGGTTQTGSGGDAEKKSYSIAISQIVEHPSLDATREGILAALKEAGISEEDNTLKIDYNNAQGDQANNLSIGQKLKDTKSDLVVAIATPSAQAVAENVKEKPVLFAAVTDPIDAKLVSDLQKPGGNVTGASDTNPEAAKQLMDFISTNFPNVKKIGLVINEGEANAVVMAKTAEEALAEHGIELVKAAVTNTSEVKQAAESLVGKVDAYYITLDNVVVSGVDAIIQTAQKNKIPFFSSDRDTVEKGAFATVGFKYYDHGYQVGQMAVEILKNGKNPADMEVTKPDKLDLILNTKVAADYGIEVTDAMKQEVKDPDNNIIE				NA	NA	NA	NA	NA
AK002_03940	639	axe2_3		Acetylxylan esterase	ATGGTACATATCGAGCAAAATGCACTCGTATTGTTTCAAGGCGACAGCATCACCGATTGCGGGCGAAATTACGAGGAGTCGGACAGTTTGGGGCATGGATACGCGCTGATGGCTGCTGCCCGGCTTGGTATGGAGCTGCCTTTGAAAAGGCTGCGTTTTGTCAACCGGGGAATCAGCGGCAACCGGGTCGTCGATCTGCGGGGGCGCTGGGAGAAAGATTGCATCGATCTGGATCCGACATGGGTATCCATCCTGGTCGGCATCAATGAAACCGGCAGGAGATTTAATCGCGGCGAAACCACGTCCGTGGAAGCTTATTATGAAGGCTACAGGGAGCTGCTAATCCAAACACGCGAGCTGACCGGCGCGAGTTTCATTCTCATGGAGCCCTTCCTGCTGCCCGTTACGGAAGCGAAGAAGGAATGGCGGGAGGATCTGGATCCCAAAATTCAGGCCGTTCGCGAATTGTCGCGAGAATTTGAGACGCTGTACGTTCCGCTCGACGGCATTTTTGCTGCAGCCAGCTCCAAGATAGAGATGAGTTATTGGGCGCCCGATGGCGTGCATCCATCGCCGGCAGGGCATGCTCTTATGGCAGAGGCTTGGCTTGCGACCATGCAGGGCCGTTCCATTCTGTAG	MVHIEQNALVLFQGDSITDCGRNYEESDSLGHGYALMAAARLGMELPLKRLRFVNRGISGNRVVDLRGRWEKDCIDLDPTWVSILVGINETGRRFNRGETTSVEAYYEGYRELLIQTRELTGASFILMEPFLLPVTEAKKEWREDLDPKIQAVRELSREFETLYVPLDGIFAAASSKIEMSYWAPDGVHPSPAGHALMAEAWLATMQGRSIL	PGPT0001840_1892	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
AK002_03941	906			hypothetical protein	ATGTCAGAGCAACAGAACTATCAGATCCTTCTCTATTATAAATTTGTTCAAATTCCGGACCCTGAAGCGTTCAAAGACGAGCATCTGCATTACTGCAAAGATCTCGGGCTCAAAGGACGCATCCTGGTTGCCTCCGAAGGCATCAATGGCACGGTATCCGGTACGATTGAACAGACTGAGCAATATATGCAGGATATGCACGCCAATCCGCTATTTGCGGATATGGTGTTTAAGATTGACCCATCCGAAGGGCATGCCTTCAAAAAGATGTTTGTCCGTCACCGCGAAGAACTCGTTACGTTCCGTGTCGAGGATGAACTCGACCCTAACGTGGTCAGCGGAAAACGCCTATCGCCCCAGGAATTCTTTGAACACTTGCAGCGTGATGATGTCATCGTCATCGACGGACGGAATGATTATGAGTACGACATCGGTCATTTCCGCAATGCGATAAGACCAGAGGTGCAATCCTTCCGGGAGTTTCCGGAATGGATTCGCGAGAACCTGAGCGAGCACAAGGATAAAACCATCCTGACTTACTGCACAGGGGGCATCCGCTGCGAGAAACTGACCGGCTTTATGCTCAAGGAAGGCTTTAAGGACGTTGCCCAGCTTGAGGGCGGCATTGTCACCTACGGGAAAGATCCTGAAGTACAGGGCCGTCTCTTCGACGGAAAATGTTATGTATTTGATGAGCGCATTTCCGTTCCGATCAATCAAACGGACGAGGATGTTATCGTGGGCAAATGTCACCATTGCGGAAAGCCCGAAGATCGGTATATCAACTGCGATAATGACGCTTGCCACCTGCAGCATGTGTGCTGCGAAGAGTGTGAGGAGCTTCATCATGGCTGCTGCTCCGCGGAGTGCGAAGAAATTGTGGCTGCGAGCCACAATGCTTCCTAA	MSEQQNYQILLYYKFVQIPDPEAFKDEHLHYCKDLGLKGRILVASEGINGTVSGTIEQTEQYMQDMHANPLFADMVFKIDPSEGHAFKKMFVRHREELVTFRVEDELDPNVVSGKRLSPQEFFEHLQRDDVIVIDGRNDYEYDIGHFRNAIRPEVQSFREFPEWIRENLSEHKDKTILTYCTGGIRCEKLTGFMLKEGFKDVAQLEGGIVTYGKDPEVQGRLFDGKCYVFDERISVPINQTDEDVIVGKCHHCGKPEDRYINCDNDACHLQHVCCEECEELHHGCCSAECEEIVAASHNAS	PGPT0013330_1932	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
AK002_03942	255			hypothetical protein	ATGGGGATGGGGATTGTTGTTGTGGAAATATGCGACAGCAACTTGATGAGTGCTTTGGAACTTGAGCATCTTGAGGAATTGTATCCCGAAATCGCTGTCCTGCGGGCGGATTGCATGAATCTTTGCGGTCTATGCAAGCTGCGGCCATATGCACTGGTGAATGGTAAACGTGTATTCGCGGCAACGACGGAAGAATGCGTCGAGAAGATCAAAGCTGCTATCGAAGCTGAATTGGCTGTTTTCCACGATATTTAA	MGMGIVVVEICDSNLMSALELEHLEELYPEIAVLRADCMNLCGLCKLRPYALVNGKRVFAATTEECVEKIKAAIEAELAVFHDI				NA	NA	NA	NA	NA
AK002_03943	792	lvr_1		Levodione reductase	ATGACAACAAATCAACGTTTGGATGGTAAAGTAGCCATCGTTACCGGTGCTGGTTCCGGAATCGGCCGGGCCGCAGCCCTTCTTATGGCAGAGCAAGGAGCTAAACTCCTGTTGATCGACATCGATCGTGAACGCGTAGAGAAAGTGAAGAAGACCATAGAAGATGGCGGGGGCGAAGTGCTCACGGGCAACTGCGATATTTCCAAAGCGGAATCGCTGAAGGATTGCTTCAGTCAAGCCGCCGAGCAGTGGGGAAAGATTGATATCGTATTTGCGAATGCCGGTATTAATGGGACCAAGGCTCCGATCGAGATCATGGAGCTGGATGAATGGGATGCTACCATTAATACGAACTTGAGAGGAACGTTTGCTACGGTAAAATACGCGATTCCTTATTTAAAGGATCATGGCGGCAGCATCATCATTACGAGCTCCATTAACGGAAACCGGGTATTTACCGGGTTTGGTTTCTCCGCATACAGCACCACGAAGGCGGGACAGGTGGCTTTCATGAAGATGGCGGCGCTGGAGCTCGCTCGCTACAAAATCCGGGTGAACGCCATATGCCCAGGTGCGATTGCAACGAATATTGATGAGAGCACCATTGCGAAGCCGGAGCTGGACGAGGTGACGATTCCGATTGAATACCCTGAGGGAGACCAGCCGTTGGCGGACGGACCGGGACAGCCATCACAGGTTGCCCAGCTCGTAGCCTTTCTAGCATCGGATGATGCTTCCCATATTACCGGTACGGAAATTTATATCGATGGTGCGGAATCCCTCATCCATTGA	MTTNQRLDGKVAIVTGAGSGIGRAAALLMAEQGAKLLLIDIDRERVEKVKKTIEDGGGEVLTGNCDISKAESLKDCFSQAAEQWGKIDIVFANAGINGTKAPIEIMELDEWDATINTNLRGTFATVKYAIPYLKDHGGSIIITSSINGNRVFTGFGFSAYSTTKAGQVAFMKMAALELARYKIRVNAICPGAIATNIDESTIAKPELDEVTIPIEYPEGDQPLADGPGQPSQVAQLVAFLASDDASHITGTEIYIDGAESLIH				NA	NA	NA	NA	NA
AK002_03944	1083	pgl_2	COG2706	6-phosphogluconolactonase	ATGGCGAATCCATCACAGCGTACACTGCTGTTTACAGGCGCGTATGCGGAAGATAATCAAAGCGGGGTATGTGTTTATGAATTTAACGAGGACAGCGGCGAACTGAAGCTGCTTGATGAAGTATCCGGCATTAAGAATCCCACTTTCTTGAACGTCGATCCGGATAACGGACGTTTGTATGCTATCGGCGAAATTGCAGATCAAGGCGGCAAAGCAGCCGAGGTCATCAGCTTTGAAATTGACCCTGTGGCAGGCAAACTGACCGAAATGAATCGTACCCGCAGTGTCAGCAGCTCCACTTGCCACATTCAGCGTGATGAATCCAGCAAGTATCTGATTGTTTCGAGTTATCATGGAGGCCTGGTAGGTCTTCATTCGATCGATGAGAATGGACAAGCCGGCAAGCTGCTGGATGAGAAGAAACATGCGGATCTCGTGACAGTGCGCGAAGATCAGCAATCCAGAGCGCACTCGGCGTTTTACAGTCCGGATGGTCAATATGTGTTCGTACAGGACTTGGGATTGGACAAGATTCTCGCCTACACGGTAAATGAGAATAAGCAAGAGCTGAGCTTTCACGGCGAAACCCAGCTGGACGCGGGCGTAGGACCCCGTCATTTGGCTTTCCATCCAAGCGGTGCCTATGCTTATGTCATCAACGAGCTGAATTCGAGTGTCACGGTGCTTCGCTACGATCAAGAAGCGGGACGTTTAGAGGTGCTGGAAACGGTATCGACACTGCCTGCGGATTTTGACGGGGAGAGCTATTGTGCCGAAATCGCCGTATCCGCAGATGGCAAAACGGTATACGGATCGAATCGCGGACACGACAGCATTGTAGTATTTAACGTGCATGAAGATACCGGTCGTTTAAGTCCGGTTCAATATATTTCGACGGAGGGCGGCCATCCGCGTCATTTTACGCTCATGCCGGGGGGGAAATACCTCATCGTTGCCAATCGGGACGGGAATAACCTGGTATTGTTTAACGTGAATCCGGAAGACGGAAAGCTTGATTTCACCGGATATACGGTTTCGCAATCCAAACCGGTATGCGTAAAGCCAGCGGTATTCCAACGATAG	MANPSQRTLLFTGAYAEDNQSGVCVYEFNEDSGELKLLDEVSGIKNPTFLNVDPDNGRLYAIGEIADQGGKAAEVISFEIDPVAGKLTEMNRTRSVSSSTCHIQRDESSKYLIVSSYHGGLVGLHSIDENGQAGKLLDEKKHADLVTVREDQQSRAHSAFYSPDGQYVFVQDLGLDKILAYTVNENKQELSFHGETQLDAGVGPRHLAFHPSGAYAYVINELNSSVTVLRYDQEAGRLEVLETVSTLPADFDGESYCAEIAVSADGKTVYGSNRGHDSIVVFNVHEDTGRLSPVQYISTEGGHPRHFTLMPGGKYLIVANRDGNNLVLFNVNPEDGKLDFTGYTVSQSKPVCVKPAVFQR	PGPT0014975_1203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014975-ykgB|pgl-K07404	NA	NA
AK002_03945	168			hypothetical protein	ATGAAACAACCGAACAGCGAAGAAGTACGCAATCATCAGGACACGGAGAACGACTCCCAGGAACAACGCGACAAGGTGAAGAACCATCAGGATGTGGAGCCTCAGGCTGAGAATTGGAATCCCCGGGATCTTCCCGATCCAGACGATAAAAACCAGTCCAAATCATAA	MKQPNSEEVRNHQDTENDSQEQRDKVKNHQDVEPQAENWNPRDLPDPDDKNQSKS				NA	NA	NA	NA	NA
AK002_03946	1275	odhB_2		Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	GTGAGCGAAATTACTGTACCAGCTATGGGCGAATCCATCACCGAAGGAACGATATTCAAATGGCACGTAAAAGAAGGGGATAGCGTCAACATCGGTGATGTGCTGCTCGAGTTAGAAACGGATAAGGTTAATCTTGAAATTAGCGCAGAGTCTGAAGGCGTTGTGGAAAAAATCCTTCGTCAAGAAGGGGAGAACGTAACGATCGGCGAAGTGATCGGTCAAATTTCTCCGCAGGAAGGCGTTGCAAGCGCATCGGCGCCGAAGGCGGCTGAAGCTCCTGCCTCCGTGCAAACGGAAGCTGCTTCGGCACCCGCCGCAGAAGCACCGAAACCGCAAGCTCCGGTACCGGCTCAGAATGAGGAAGGAGCAGGTCTGACTGCATCGCCATCCGCACGCAAACTGGCTCGTGAACGCGGGATTGATCTGGACCAGGTACAGGGCCGCGACCCGATCGGTCGGATTTACCATGATGATGTGAAGAATCATAACGAAGCTAAGCCGTCTGCTGCGCCTAGCAAGCCGGCAGCTTCAACGCCTGCACCGGCAGCACAAGCACCTGCTGCCGAGTATGGCAAACCGGTTGAACGTACCCGCATGTCCCGCCGTCGTCAAACGATTGCGAATCGTTTGGTCGAAGCGCAGCATACGGCTGCCATGCTGACGACTTTCAATGAGGTCGATATGACCGCGATCCTGGACGTGCGCAAGCGTCGTAAGCAAGCATTCCAAGAGAAGCATGACGTAGGGCTCGGTTTCATGTCCTTCTTCACCAAAGCGGTCGTGGGTGCGTTGAAGAGATTCCCGCATCTGAACGCCGAGATCGACGGCGACGATATCGTCGTGAAGAAATTCTATGATATCGGTATTGCGGTATCCGCCAAAGAAGGGCTTGTCGTTCCGGTCGTTCGCGATGCCGATCGTCTTGGTTTTGCCGAGATTGAGAAGGAAATCGGCAATCTGGCTGCCAAAGCCCGCAATAACGCGCTGTCCTTGTCTGAGCTGCAAGGCGGTACGTTTACGATTACGAATGGCGGCGTCTTCGGCTCGCTGTTGTCTACGCCGATCCTGAATACGCCTCAGGTGGGTATCCTCGGCATGCACAAAATCCAGCTTCGCCCGGTAGCGATTGATGCTGAACGCATGGAAAATCGTCCGATGATGTACATCGCATTGTCTTACGATCATCGGATCGTTGACGGTTCCGAGGCGGTTCGCTTCCTGGTAACCGTGAAAGAGCTCCTCGAAGATCCGGAGTCGCTGCTGCTGGAAGGATAA	MSEITVPAMGESITEGTIFKWHVKEGDSVNIGDVLLELETDKVNLEISAESEGVVEKILRQEGENVTIGEVIGQISPQEGVASASAPKAAEAPASVQTEAASAPAAEAPKPQAPVPAQNEEGAGLTASPSARKLARERGIDLDQVQGRDPIGRIYHDDVKNHNEAKPSAAPSKPAASTPAPAAQAPAAEYGKPVERTRMSRRRQTIANRLVEAQHTAAMLTTFNEVDMTAILDVRKRRKQAFQEKHDVGLGFMSFFTKAVVGALKRFPHLNAEIDGDDIVVKKFYDIGIAVSAKEGLVVPVVRDADRLGFAEIEKEIGNLAAKARNNALSLSELQGGTFTITNGGVFGSLLSTPILNTPQVGILGMHKIQLRPVAIDAERMENRPMMYIALSYDHRIVDGSEAVRFLVTVKELLEDPESLLLEG	PGPT0001535_1567	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
AK002_03947	2877	odhA		2-oxoglutarate dehydrogenase E1 component	ATGAAGACCCTTGACAGAATGACAGAGGGACCATGGCAGAAATATCACGGTCCGAACTTGGGGTACATTCAAGATCAGTATGAGAAGTTTTTGCAAGACCCGCAATCTGTGGAGCCAGGATACCGCGAGCTGTTCGCAAGCTGGGGACCGCCTCCATCTTTGGAAAACAATGAAAAGAAAGCGGATTCGCAGGGACAAGGTGTAAGCTACGACCCGCAATTGATGAAAAAAGGGGTAGCTGCCGGCAAACTGGTGTGGAACATTAGAACCTACGGTCATCTGGCCGCAGACATTGATCCGATTGGAATCGGAAACGAAGCTGACACGCGTCTGCTTCAACCGGAAAGCTACCAACTCAGCCAAGCGGATTTGGCCGCCCTGCCAGCAGAGATCGTCTGGGAGGAGGCTCCTGGCGATATCAAGAACGGCTTAGAGGCAATCCAGCGGCTGTTGCAACTATATACAGGCTCCATTGCCTATGAATTTAGCCACGTCCACGATGAAGAAGAACGCAAGTGGCTCAACCAGCAGGCCGAATCAGGCCGCTACTTGACGGACATGAGCGTTGAAGAACGCAGGGGACTGTTGAAGAAGCTGCTCGAAGCCGAGCAGTTCGAGGAATTCCTGCATCGCACGTTCGTAGGCGCGAAGCGCTTCTCGGTTGAGGGCAACGAGGCACTCGTGCCGCTGCTCGACGAGATCGTTCGCCAAATGGCCGAAGCGGATGTCAACTCCATTCTCGTGGGTATGGCGCACCGCGGACGTTTGAACGTTCTGGCTCATGTATTGGGCAAGGATTACGGCAAGATTTTCTCGGAGTTCATGCACTCTCCGAATAAACATTTGGTGCCGTCCGAAGGCTCCATGGGCATCAACTACGGCTGGACGGGCGACGTGAAGTACCATTTGGGCGCGGACCGTTACCTGAAGAAGGATGAAGCCCGGCAGGTTCGGATCACGCTTGCAAACAATCCGAGTCACCTGGAATACGTCAATCCGGTAGTAGAGGGCTTTGCTCGTGCCGCCCAGGAGGATCGCAGCGAAGCGGGTTATCCGAAGCAGGATGTGAACAAAGCGCTGAGCATTCAGATTCATGGCGATTCCGCGTTCCCTGGCGAAGGCATCGTGCCGGAAACCTTAAACTTCAATAAACTGCCGGCGTATCGTACGGGCGGATCGATTCACATCATCGTGAACAACCGCATCGGATTCACGACGGAAGGCAAGGATTCCAGATCGACCCATTATGCGAGCGATTTGGCAAAAGGTTATGAGATTCCGATTATCCACGTGAACGCGGATGATCCGGAAGCGTGTATCGCAGTGGCCCGTCTTGCCAGCGATTACCGAAACAAGTTCAAGAAGAGCATTCTGATCGATCTTGTCGGCTACCGGAAATATGGCCACAACGAGACGGACGATCCGGAAACGACCCAGCCGCTGATCTACCAGAAGGTGAAGAACCATCCAACCGTCAGCACGATTTATATGAAGAAACTGGTGGATGGAAACATTCTGACCCAAGAACAAGTGGACGGCTTGAAGAACGGCGTCGTGGAGGTCTTGAAGAACTCTTACGAGAACGTGAAGACGAAGGATCCGGTTGATCAGATTCTGCTCGGATTGAACCCTACGGACGGCAAATCCAAGACGGAAGCCGCGACGAATGTATCTGCAGAGGTGCTGCGCGGCATTAATCGCGAGCTCCTGCAGTGGCCTGAAGGCTTTACGGTATATCCGAAGCTTCAACGGATCCTCGAGCGGCGCAGCAACTCGCTTGACGAGGGCGAGAAGGTGGACTGGGGTCATGCCGAAACGCTGGCCTTCGCTACGATTCTTGCTGACGGCAAGCCGATCCGGATCACGGGACAGGATGCCGAACGTGCAACGTTTGCCCATCGAAACCTGGTGCTTCACGATGCGGTTAACGGAGAAACCTTCTGCCCGCTGCACCGGCTGCCGCAAGCCAAGGCATCGTTCGCGATCCATAACAGCCCGCTGACCGAAGCTGCGGTCGTTGGATTTGAATATGGCTACAATGTGTACTCTCCCGAGACTTTGGTGATCTGGGAAGCGCAGTACGGCGATTTCGTCAACTGTGCACAGGTGATCATCGACCAGTTCATTACGGCGGGCCGTTCGAAGTGGAGACAGAAGTCCAGCTTGGTGATGCTGCTTCCTCACGGCTATGAAGGAAACGGCCCAGAGCACTCCAGTGCCAGATTGGAACGCTTCCTCCAGCTGAGCGGCGAGGATAACTGGACGGTTGCGAATCTGACTTCGGCCGCCCAATATTTCCACCTTCTGCGTAAACAGGCTTCCCTGACCAACACGGACGATGCCAAGCCGCTGGTGGTCATGGCTCCGAAGAGCTTGATCCGTAACCCGCGTGTCGCGTCGCCTGTGAACGCGTTTAGCGAGGGCGGTTTCCAGAAGGTAATGGAACAGCCGGGTCTAGGTCAAACACCTAAGAAGGTGGAACGCCTTGTACTGTGCTCGGGGAAAATCGCGATCGACTTGGAAGACGCGCTGGATAAGCAGAAGGGTGAGGACCAAACCTGGATCCACATTCTTCGTGTGGAACAGCTGTATCCTTTCCCTAAAGAAGAAATTTCCCGTGTGATGCAGAAGTATCCGAACCTGAAAGAGATTCTGTGGGTTCAGGAAGAGCCTCAGAACATGGGCGGCTGGAGCTTTATGGAGCCGAGAATTCGTGAAATTGCACCTAAAGGCACAGAGGTCCGTTACAGCGGACGTCCTGAGCGTTCGAGCCCTGCTAGCGGATATCAGGATGTTCATGCTTATGAGCAACAGACCATCATTTCTTTTGCCCTTAATCGTAAAACTATAAATCAAGAGATCTCATTGGGGAGGTAG	MKTLDRMTEGPWQKYHGPNLGYIQDQYEKFLQDPQSVEPGYRELFASWGPPPSLENNEKKADSQGQGVSYDPQLMKKGVAAGKLVWNIRTYGHLAADIDPIGIGNEADTRLLQPESYQLSQADLAALPAEIVWEEAPGDIKNGLEAIQRLLQLYTGSIAYEFSHVHDEEERKWLNQQAESGRYLTDMSVEERRGLLKKLLEAEQFEEFLHRTFVGAKRFSVEGNEALVPLLDEIVRQMAEADVNSILVGMAHRGRLNVLAHVLGKDYGKIFSEFMHSPNKHLVPSEGSMGINYGWTGDVKYHLGADRYLKKDEARQVRITLANNPSHLEYVNPVVEGFARAAQEDRSEAGYPKQDVNKALSIQIHGDSAFPGEGIVPETLNFNKLPAYRTGGSIHIIVNNRIGFTTEGKDSRSTHYASDLAKGYEIPIIHVNADDPEACIAVARLASDYRNKFKKSILIDLVGYRKYGHNETDDPETTQPLIYQKVKNHPTVSTIYMKKLVDGNILTQEQVDGLKNGVVEVLKNSYENVKTKDPVDQILLGLNPTDGKSKTEAATNVSAEVLRGINRELLQWPEGFTVYPKLQRILERRSNSLDEGEKVDWGHAETLAFATILADGKPIRITGQDAERATFAHRNLVLHDAVNGETFCPLHRLPQAKASFAIHNSPLTEAAVVGFEYGYNVYSPETLVIWEAQYGDFVNCAQVIIDQFITAGRSKWRQKSSLVMLLPHGYEGNGPEHSSARLERFLQLSGEDNWTVANLTSAAQYFHLLRKQASLTNTDDAKPLVVMAPKSLIRNPRVASPVNAFSEGGFQKVMEQPGLGQTPKKVERLVLCSGKIAIDLEDALDKQKGEDQTWIHILRVEQLYPFPKEEISRVMQKYPNLKEILWVQEEPQNMGGWSFMEPRIREIAPKGTEVRYSGRPERSSPASGYQDVHAYEQQTIISFALNRKTINQEISLGR	PGPT0001530_1460	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
AK002_03948	900			hypothetical protein	ATGTCAAAGGAAGATAAACAAAAAGATGTGATTCAGGTAGGTTTGTCCGGGTGGGGAGATCATGACAAGCTGTATGACGAAGGGGCAAGGCCTGCAGATAAACTCGAAATGTACAGCAGGCATTTTCCCATCGTAGAGATGGACAATTCGTTCTATGCCATACCCTCGCCGGAACAAATGTCAAAATGGGCGGCAGCCGTCCCGGACCATTTCGGTTTTATTGTAAAGGCCTATCAGGGCATGACAGGACATGCCCGCGGACAGGGCAAGGACAGATACCCCAGCATAAAAGCGATGTTCGATCATTTGCTTGCATCGGTCGAAGAATTGCGAGCGGCGGACAAATTAAGGACCGTGCTTTTCCAATACCCGCCATGGTTTGGTTGCGAACGCAAGCATGTGGACACTCTGAAGCGTACGCGGGAATGGATGAAGGACGTTCCGATAGCCTTGGAGTTTCGCCATCAGAGCTGGTATGGGCCGGAGTTTCGCGAGAAGACCCTCGAATTTATGCGAAGCGAGGGTTGGATCCACAGCATAGCCGACGAGCCGCAAGCCGGTATCGGATCGGTGCCGGTCGTGCTTGAGACATCGGGCACGGAGGCCGTGATGATCCGGATGCACGGACGAAACGCCGATGGGTGGCATTCCAGCGGTCAGCCCAACTGGCGAGAGGTCCGGTATTTATACCGTTACAGTCCGGAAGAATTGGAACAGCTGAGAGGATGGATAGAGCAATTGCTAAAGAAAGCGAAGCAGTGCTGGATCATCTTCAACAACAATTCGGGAGGCGATGCTTCCGACAACGCCAAACAGCTTCTTCAACTGCTGGGGATGGACACCGGCCCCGAGCCGTTGCGGCAGATGGACTGGCTGGAAGAGGATATTTTTTCCGAATAA	MSKEDKQKDVIQVGLSGWGDHDKLYDEGARPADKLEMYSRHFPIVEMDNSFYAIPSPEQMSKWAAAVPDHFGFIVKAYQGMTGHARGQGKDRYPSIKAMFDHLLASVEELRAADKLRTVLFQYPPWFGCERKHVDTLKRTREWMKDVPIALEFRHQSWYGPEFREKTLEFMRSEGWIHSIADEPQAGIGSVPVVLETSGTEAVMIRMHGRNADGWHSSGQPNWREVRYLYRYSPEELEQLRGWIEQLLKKAKQCWIIFNNNSGGDASDNAKQLLQLLGMDTGPEPLRQMDWLEEDIFSE				NA	NA	NA	NA	NA
AK002_03949	510			hypothetical protein	ATGAGTCGCCCATATCGGATTACGGTATTGTCAGACACCCATATGCCCAAAAAGGCAAAGGAACTGCCAGACCCGCTGCTTGAAGATTTAAAGCATTCGGATCTTATTCTTCACGCAGGAGATTGGTCCAATTGGGAACTGTATGAGCAGTTAAGTCAATATGCTCCCGTGGAGGGCGTGGCCGGGAATGTTGACGACGACCGGATTGTGGAACACTTTGGATATAAAAGACTGGTTGAAATCGAAGGCAAGCGCATCGGGATTGTACATGGGCACGGTCAAGGCGGAACGACGCCTTCCCGAGCCAGAAAAGCTTTTGCGGGCACGGAGGTGGACTGCATCTTGTTCGGCCACTCCCATATCCCCTTTAATGAGAATGTACAGGGGGTTCTGCTCTTCAATCCCGGTTCCGCTACGGATAAAAGGCGGCAGCCCCGCTATTCGCATGGAAGGATCGAGATCCTGGACGGAAACCTGGAAGCCCATCATGTTTTTTATGATCGGAAGTGA	MSRPYRITVLSDTHMPKKAKELPDPLLEDLKHSDLILHAGDWSNWELYEQLSQYAPVEGVAGNVDDDRIVEHFGYKRLVEIEGKRIGIVHGHGQGGTTPSRARKAFAGTEVDCILFGHSHIPFNENVQGVLLFNPGSATDKRRQPRYSHGRIEILDGNLEAHHVFYDRK				NA	NA	NA	NA	NA
AK002_03950	636			hypothetical protein	ATGAGTATTCTAATTAGCTACATGATCCTTGGCCTTTCCCTATCAGCCCCCGTTGGTCCGATTAATGCGGCGCAGCTTGATAAGGGGATTAAGAAAGGGTTCTGGCATGCTTGGCTGTTTGGCATTGGTGCGGTCCTTGCGGATATCCTGTATATGGTCCTCGTCTATCTCGGCGTTGTTCATTTTCTGAATACACCGTTCATGCAGACATTCCTCTGGCTGTTCGGCGCTTTTGTCCTTATCTATTCCGGGCTGGAAAGCATCCTGAACGCCAATAAAGTAACGATCAGTCAAGAAAACAGCGAGGATTCGTTATGGAAAAGCATGCTCTCCGGGTTTCTCATGTCCGTCTCGAATCCGATGACGATTCTGTTCTGGCTCGGCATCTACGGCTCCATCCTGGTCAAAACCGCGGCGGATGAAGGGTCCGGGAGCCTGCTTCTCTACAGCGCTGCCGTCATCGCCGGGGTCGTGATTTGGGATTTGTTCATGGCCGCGCTCGGCAGCGTATTCCGCCGATATTTAAACGATCGAGCGCTTTCCCTCATCTCAGTGCTTTCCGGAATCTCATTAATCGTGTTTGGCGTTTATTTCGGAATTCGAGCACTGGCATTACTTTATCCGCTCGTATTCTAA	MSILISYMILGLSLSAPVGPINAAQLDKGIKKGFWHAWLFGIGAVLADILYMVLVYLGVVHFLNTPFMQTFLWLFGAFVLIYSGLESILNANKVTISQENSEDSLWKSMLSGFLMSVSNPMTILFWLGIYGSILVKTAADEGSGSLLLYSAAVIAGVVIWDLFMAALGSVFRRYLNDRALSLISVLSGISLIVFGVYFGIRALALLYPLVF	PGPT0020651_621	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ARGININE_TRANSPORT,PGPT0020651-lysE|argO-K06895	NA	NA
AK002_03951	1389	pheP	COG1113	Phenylalanine-specific permease	GTGAACAGAGGAGCGAAGACGGAGGCAGGGAAAGTAAAGGGAAATCTGAGGTGGTGGCAGCTATCGCTGCTGGGGGTTGCATCAACGATCGGCACGGGGTATTTTCTCGGATCCGCGCTGGGTATCCGGCTGGGCGGCCCGGCTTTTCTTCTTTCTATTATATTGGCGGCGACGGCCACCTACTTCGTGTTTGATGTGTTGGCGCGAATGACGGCGGAGGATCCGCAAAAAGGCTCGTTCCGAACCTATGCCAAAAAAGCCTACGGCCGGTGGGCAGGCTTCTCAACAGGGTGGATGTACTGGTGCTCCGAAGTGTTGATTATGGGAAGCCAGATGACGGCACTGGCGATATTCTCCCGCTTTTGGTTTCCTGGCGTTCCGATGTGGATATTCGCATCAGGTTATGCCGTACTGGGGCTTTTTGTCATATGGATCGGCACCAAGGGCTTCGACCGCCTGGAGAATGTGCTGGCTGTCATTAAGATCGCTGCCATCGTCATGTTTCTTGTCATTGCCGCCGCCGCATGGATGGGATGGTTGAAAGGCGGGACAAAGCCTCAAGTTCCCGGCAGCATGAATGCCTTATTTCCGACGGGTGGAAAAGGCGTGTGGTCGTCCTTGATCTTTGCGTTTTATGCTTTCGGCGGAATTGAAGTCATGGGAGTCATGGCCGTCCGCTTGAAGAATCCAAAGGAAGCGCCGAAATCGGGCAAGGTGATGATTCTCCTGCTGTCCATCGTATATGTACTGTCTATTGGGATGGCCGTGATGATGGTAGCCTGGAATCGATTCTCTACGACGAAAAGCCCCTTCGTTGTGGCGCTTAGCTCGTATCAGCTGCCTTTTATTCCCCATCTATTCAATGCGGTCTTAATCATTGCCGGATTCTCGACAATGGTTGCGTCGCTGTATGCCGTAACTACCATGCTGGTCACATTATCCGAGGATAAGGATGCGCCCAAGTTCTTTTCCAAAAAAATGTTTAAGCGGGATACGCCCATCTTCTCCCTTTCCCTAACCGCCGCCGGGTTGATTGTGTCCATCGTGCTGTCTCTGCTCATGCCCGGCAAGATTTACGAGTATCTGACAACTGCGGCAGGCCTTATGCTGTTGTACAACTGGTTTTTTATCCTGATATCGGCAGGCCGGCTGATGGAGCTTACGGGATGGGGCAAGGTCAAAAGATACATCGGAATGATACTCATAGCGGCTGCCGTCAGCGGAACCGCCCTGCACCCGACGAGTCGGCCGGGACTGTGGATCAGTATCGGGTTCATATTGTTAATCGGATTGGTCGTATTATGCATGCGCTCCGTGTGGAAAAAATCAGGTCAGAGCCGTGCGATGGAGAGGGAAAAGCGTAAGCTTAGCCCCAAACCGGTCCGTTAG	MNRGAKTEAGKVKGNLRWWQLSLLGVASTIGTGYFLGSALGIRLGGPAFLLSIILAATATYFVFDVLARMTAEDPQKGSFRTYAKKAYGRWAGFSTGWMYWCSEVLIMGSQMTALAIFSRFWFPGVPMWIFASGYAVLGLFVIWIGTKGFDRLENVLAVIKIAAIVMFLVIAAAAWMGWLKGGTKPQVPGSMNALFPTGGKGVWSSLIFAFYAFGGIEVMGVMAVRLKNPKEAPKSGKVMILLLSIVYVLSIGMAVMMVAWNRFSTTKSPFVVALSSYQLPFIPHLFNAVLIIAGFSTMVASLYAVTTMLVTLSEDKDAPKFFSKKMFKRDTPIFSLSLTAAGLIVSIVLSLLMPGKIYEYLTTAAGLMLLYNWFFILISAGRLMELTGWGKVKRYIGMILIAAAVSGTALHPTSRPGLWISIGFILLIGLVVLCMRSVWKKSGQSRAMEREKRKLSPKPVR	PGPT0020806_194	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020806-ycgH-K16237	NA	NA
AK002_03952	1113			hypothetical protein	ATGTCATCAGCTCGCGGTATACCGACGAACCAGGCGTTTATGATTATGATGCTCACGGCAGGTTTGACCAATCATGTCATGATCATCCCTGTGCTTCTGGAGAAGTCCGGACGGGATGCCTGGATCACCATTCTGGTGTCGGCCGTGTTATTCATGCCCTGGGTTCTGCTTGTTTATGGAATCATCAAAAAAGTCGGCAGCCGTTCGATCAAGCAAGCATTGGACGAAAGCAGCGGCAAGTCGGCTCGCATGCTTGCGATGGGCATGTCCGGTTTGTATTTCTTCGCTTTCGCCTTCTATACCTTGAAGGAAGTCATCGATTGGACGAAATCGACCTACATGGTCCAAACCCCTGTCATCGCGACCGCATTCGTGCTCATGATGCTGTGCCTTATCAGCATTAACCACGGGATCAGAACCATCGGCGTTTCAGCCGGTATCTTGCTGCCTTGCGTCGTCTTGCTGGGCATATTCGTGTCCGTGTCCAACCTGAAGGTGAAAAATTACAGTTTCTTGCTGCCTGTCCTGGAGGAAGGCTTCATGCCGGTGCTCAGTGGAATCCCGACCATGTTCGGTGGGCTGTCCCAATTTATCCTGATCTTGTTTCTGCGGCCTCACCTGCAGAAAAAGCCCGGCTTCCTTACAATCCTGCTCATCCATCTGGTTCTCATCTTCCTCACGTTTGGACCCACGATCGGCGGCATTGCCGAATTTGGTCCGGAAGAAATGAAGTTTCAGCGATATCCTGCCTATGAACAATGGCGCCTCGTCAAGCTGGGCAAATTCGTGGAGCACGTCGATTTTTTATCCATTTTCCAATGGCTTAGCGGAGCTTATATTTCCATTTCCATTTCGATTTTTTTGCTCTGCGAAACCCTTCTTCCCAAGTCCAGGCAGAGCGTTGGCGTATTAGCCGTCTCCACGCTGCTCGTCATTCTGTGCGCTTCGCCGATCAGCAATTTGAAAATGTATTATGCCATGGCCGACTATTTCTTGCCCGCATCCGCCGTTTATATCACCATCCTAAGCCTCCTGTTGTTCTTCCTGATCCGTAAACCCCAGCAGCAGGAGCCGCAGGACGCCAGTACCACGAAAGGAGAAACACCGCAATGA	MSSARGIPTNQAFMIMMLTAGLTNHVMIIPVLLEKSGRDAWITILVSAVLFMPWVLLVYGIIKKVGSRSIKQALDESSGKSARMLAMGMSGLYFFAFAFYTLKEVIDWTKSTYMVQTPVIATAFVLMMLCLISINHGIRTIGVSAGILLPCVVLLGIFVSVSNLKVKNYSFLLPVLEEGFMPVLSGIPTMFGGLSQFILILFLRPHLQKKPGFLTILLIHLVLIFLTFGPTIGGIAEFGPEEMKFQRYPAYEQWRLVKLGKFVEHVDFLSIFQWLSGAYISISISIFLLCETLLPKSRQSVGVLAVSTLLVILCASPISNLKMYYAMADYFLPASAVYITILSLLLFFLIRKPQQQEPQDASTTKGETPQ	PGPT0025055_309	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
AK002_03953	1407	gerXA_2		Spore germination protein XA	ATGAACATAACCGAACAGCAGCTTCGCGATCGTTATGCCGATTCCGATGACGTCCATATAACGTCCTATCCGGGAATGGATGCCGAGCCGTGGGCGATTATGGTTTACAGCCCGATGATGTGCGATTCGAAAGTGTTGTCCGAGGTCTTTTTGCCTGTCATCAGCAAGGAATGGAATACTTCCGTTTCTCAAAAGCATTCGTTTGACCCGACCAGCCTTGAATATTATCTTACGCTGGATATTGCCGATGCCGAAATGGAGTCCGTCGATGACATTGTTTATTCCGGCTACATTGCTATGTACTTCCCCAAGGACGATAAATTGTATTCGTACAGCGCCGGCAAAACCATCGGCCGAACGCCGGAAGAAAGCGCCACGGAAACCTCGGTCAAAGGACCTCGCGACGGGTTTGTCGAGGAATTGGATATCAATGTATCGCTTATTCGCAAACGGCTGAAGTCACCGGGACTTGTCTATTCCTCCTTTAAGCTGGGCGATAAAAGCAAAACCACCGTCGGCATCATGTATTTAAAGGACAAGGTCATTCCGGAGACGGTCACGGCCATCGTGGACAAGCTAACCCATTACACCGGGGATCCTCCCGTAGGGATCGGTGAGCTTGCGGAGCATCTGACTCCGTACAGGTTCAGCGTGCTCCCCATGTTTGACTACACCGGGCGGACGGATCTGGCATACGACTCTCTGACCCGCGGCCGTTTGGTCATTATTATGCAGGGAAGTCCCGTCTTATTGATTGCGCCTGCGAGCTTCATGCAGCTGCTGTTCGCTGCTGAAGACCCTCAAATGCCGTTCTATTTCGTTATGCCTTGGCGAATTCTAAGAATGGTCGGGTTCCTGATTTCCATTTTCCTTCCCGGCTTCTATATAACGCTATTAGCCTTTCACCAGGATCAAATCCCTTTTCCGCTGCTGGCGACGGTTGCGAATACCAGGCTCGGCCTTCCGATCCCGACCGGGTTTGAGATGCTGATCATCCTGTTTCTGCTTAGTCTGCTGAGAGAGGCCGGCATGCAGATGCCTTCACCGATCGCGTCAACCATTACGGTGGTTTCCGGTATCATTATCGGAGATGCGGCCATTCGGGGCGGTTTCTTCTCGCCGACAATGACTGTCGTCGCTGCGCTCTCCTTTGTTGCGGGATCTACCCATTCCAATCAGGATTTTGTTGTCAGTCAGACGATCTTCCGCTTCTTTGTCCTTGCCCTATCCTCAATGTTCGGGTTATTCGGTTTCTTCATATCGGTCTTCTTGATCGTACAATATGCAGCAAACCATAATCCTTTCGGACAGCCGTACCTTGCTCCCTTCTCCCCCTTCTCCAAATCCAAAATCTTGGGCAATCTCATGCGGTTTCCGGGAAAACGTAAAAAGGGCGGCGCGTTATGA	MNITEQQLRDRYADSDDVHITSYPGMDAEPWAIMVYSPMMCDSKVLSEVFLPVISKEWNTSVSQKHSFDPTSLEYYLTLDIADAEMESVDDIVYSGYIAMYFPKDDKLYSYSAGKTIGRTPEESATETSVKGPRDGFVEELDINVSLIRKRLKSPGLVYSSFKLGDKSKTTVGIMYLKDKVIPETVTAIVDKLTHYTGDPPVGIGELAEHLTPYRFSVLPMFDYTGRTDLAYDSLTRGRLVIIMQGSPVLLIAPASFMQLLFAAEDPQMPFYFVMPWRILRMVGFLISIFLPGFYITLLAFHQDQIPFPLLATVANTRLGLPIPTGFEMLIILFLLSLLREAGMQMPSPIASTITVVSGIIIGDAAIRGGFFSPTMTVVAALSFVAGSTHSNQDFVVSQTIFRFFVLALSSMFGLFGFFISVFLIVQYAANHNPFGQPYLAPFSPFSKSKILGNLMRFPGKRKKGGAL	PGPT0025050_1042	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK002_03954	1140			hypothetical protein	ATGAAGCGGGTATGGATACTCGTATGCCTGACGTCTCTGCTGCTCACAGGCTGCTGGGACAACAAAGAAGTGCAGGATATCAACTATATCACGGCGCTTGGCGTCGATTACAAGGACGAGAAATATATCATCTATGTGCAGATGCTTGACTTCGCGACGATTGCCAAACAAGAATCCGGCAAACAAACGGAGCAAGCTCCCATTTGGATTGGCCGGGGAACCGGCAGCACGTTGACTGAAGCCCTCATTGATCTGTACACCTCGAGTCAGCAGCGGGTCTCCTGGGGTCATGTGACGGCTTTGGTGCTTACGGAAGCGGTGTTAAAACCTGAGCAGTTGTCCCAAGTGTTCGACTTGACCAACCGTTCGCAGGAAATCCGGTATACGAAATGGGTTTACGGCACCAAGGATAAGATGGAGGATCTCTTTACGGTATCCCCGTTCTTTCAGCTCTCCCCCCTGCATTCGCTGCTTCATGAACCCAGGGAAAGCTATGTCCAATTCTCGTTTATACGCCCGATCCAATTCGTGAACTTTATTCGTCTCTACCGGGAAAAAGCAGCCACCGTGATGCTGCCCTCCCTTCATATTTCGACGCAGAACTGGTCGGAAAATCTGAAGCAGCATCCGATTCTGGAAGTCAACGGCGGCTTTCTGATCAAGAACAAGGAATTGATGGGCTGGCTCCCTCGATCCGATCTGCTGGGGACCCGCTGGTTAGCATCGAATAATACTCACGCTGCCGTCGTCGTTCAGGCGAACGGTGAAGCAGTCGGGAGCATACGGCTCGAGAAGCCCCAATCCACCATTGAAGTGATCCGCAAGCCAGATGATGCGTCTTATCGGATCAAGCTGAATGTCATAGGGACAGTGCAGAATGTATACAAGCAGGTAGGGATTAAAGAAATGAAGCGATCAACGGAAGATACCCTGCGTAAGGAATTGCAGAACACCTTCCGCAAAGCAGCATTGATTCACGCGGATCCCTATGAGCTATGCCTCCAATTGTACCGAGTCGATCCGATACTTTGGAAGAAATTAGCGGAAGAGAAAAAGGATATCTACGACGAAACGGCACTCGAGATTGATGTTGATGTCAACATCCGATACTGGGGACAGCGAAAAAGCCTGAACCGATAA	MKRVWILVCLTSLLLTGCWDNKEVQDINYITALGVDYKDEKYIIYVQMLDFATIAKQESGKQTEQAPIWIGRGTGSTLTEALIDLYTSSQQRVSWGHVTALVLTEAVLKPEQLSQVFDLTNRSQEIRYTKWVYGTKDKMEDLFTVSPFFQLSPLHSLLHEPRESYVQFSFIRPIQFVNFIRLYREKAATVMLPSLHISTQNWSENLKQHPILEVNGGFLIKNKELMGWLPRSDLLGTRWLASNNTHAAVVVQANGEAVGSIRLEKPQSTIEVIRKPDDASYRIKLNVIGTVQNVYKQVGIKEMKRSTEDTLRKELQNTFRKAALIHADPYELCLQLYRVDPILWKKLAEEKKDIYDETALEIDVDVNIRYWGQRKSLNR	PGPT0025060_1001	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK002_03955	1470	gamP_2	COG2190	Putative PTS system glucosamine-specific EIICBA component	ATGCTGGCTAAATTGCAAAAGCTGGGTAAATCCCTTATGCTGCCGGTGGCCACTTTGCCTGCGGCAGGTATCTTGCAGGGGCTTGGATTGATCGACTATCAAAAAGATATACCTTTGGGAGCTCTCGGAGCTTTTCTGAATCAATATGTAACTCCGTTCATGACATCCGGCGCGCTAGCCATTCTGGATAATCTGCCGATTATTTTTGCGATCGGCGTTGCGATCGGATTCGCAGGGGACGCCGTTGCGGGTCTCTCCGCGCTTATCGGTTATATGGTGCTTACAAGAGTGCTGGCGCAGGTGCCGCTGCAAATGCCGTTCATACCGGATGACGTGAAGCTGAATATGGGCGTTCTTGGCGGGTTCTTTGTCGGCCTGTGGTCCGCTTACCTGTATAACAAATTCCACAACATTAAAATGCCGGATTGGTTGGGCTTCTTCGCGGGTAAACGCTTCGTTCCGATTATCACGGCAGCCTCCACGATGGTGCTCGCGGTGTTGATCGGCATGATTTGGAGCCCGATCCAGGATGGCATTTCCGCCTTCGGCAACTGGGTTGTCGGTCTTGGAGGCATCGGATCGTTCATTTTCGGTACGGCCAACCGCTTGCTGATCCCTCTGGGTCTGCATCACGTATTAAACTCCATCGCCTGGTTCCAGATCGGCGATTACACGAATGCCGCGGGCGAAGTCGTTCACGGCGACCTGTGGCGTTTCTTTGCGGGAGACCCGACGGCGGGTATGTTCATGTCCGGTTTCTTCCCGATCATGATGTTTGCGATGCCGGCTGCGGCGCTGGCCTTCATGCATACCGCCAAGCCGTCCAAACGCAAGCTTGTCGGCTCCATCTTTATCGGTTCGGCAGTGGCTTCGTTCCTGACCGGTATCACTGAACCGCTTGAATTCGCATTTATGTTCATTGCCCCGGTATTGTATGTAGTCCATGCGATTTTGACAGGCCTTTCCGGATTGATCATGTATGTCCTGGATGTACATTTGGGCTTCTCGTTCTCGGCGGGCCTGATCGACTACCTGGTGAATCTGAAGCTGTCTACCAATGCGTGGCTGCTCCTGCCGGTAGGCTTGGCTTTCGGAGTCGTGTACTATCTGCTGTTCAGAATCCTCATTGTCAAGCTGAACTTGAAAACGCCTGGACGCGAGGAGGATGACGAAGAGGATACGGTTTCTGACGATGGCGATACAGCTGCCCCGGCTCCATCCGGCACGGTATCCAATGAGTCCAAGGCGGCCAAGGTTCTGCAAAACATCGGCGGCGCGGATAATATTACCAGCATCGATGCTTGCATCACACGCCTGCGTCTCGTGGTTAAAGACGAGAAGGCGGTTAAAGATTCGGAGTTGAAAAAATTAGGCGCATCCGGTGTTATGCGTCTGGGTCAAGGCGCGGTTCAGGTCGTATTCGGACCGCAGGCGGAATCCATTAAAGATGAAATCAAAAAGATGATGTAA	MLAKLQKLGKSLMLPVATLPAAGILQGLGLIDYQKDIPLGALGAFLNQYVTPFMTSGALAILDNLPIIFAIGVAIGFAGDAVAGLSALIGYMVLTRVLAQVPLQMPFIPDDVKLNMGVLGGFFVGLWSAYLYNKFHNIKMPDWLGFFAGKRFVPIITAASTMVLAVLIGMIWSPIQDGISAFGNWVVGLGGIGSFIFGTANRLLIPLGLHHVLNSIAWFQIGDYTNAAGEVVHGDLWRFFAGDPTAGMFMSGFFPIMMFAMPAAALAFMHTAKPSKRKLVGSIFIGSAVASFLTGITEPLEFAFMFIAPVLYVVHAILTGLSGLIMYVLDVHLGFSFSAGLIDYLVNLKLSTNAWLLLPVGLAFGVVYYLLFRILIVKLNLKTPGREEDDEEDTVSDDGDTAAPAPSGTVSNESKAAKVLQNIGGADNITSIDACITRLRLVVKDEKAVKDSELKKLGASGVMRLGQGAVQVVFGPQAESIKDEIKKMM	PGPT0016860_942	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_PTS_SYSTEM,PGPT0016860-nagE|nagP-K02804	NA	NA
AK002_03956	498	crr	COG2190	PTS system glucose-specific EIIA component	ATGTTTGATCGTTGGAAAAAGAAAAAAACAGCTACCGTCATTCAACTCACAGCCCCATTGTCGGGTAAAGCCGTGCCTTTATCGCAAGTGCCCGATGAGGCATTTGCTGCCGGACACATGGGCCAAGGCATCGCCATCGAGCCTTCCGAGGGCAAATTAATCGCGCCTTTTGACGGGACCGTTGCGCATGTCATCAAGTCCAAGCATGCCGTCATGCTGGAGGATCCAGCAACCGGTCTGCAGTATTTGTTCCATATCGGGATTAACACGGTCGGTTTGAAGGGTGAAGGCTTTACAAGCCATGTTCAAGCCGGTGATCAGGTGAAGACGGGTCAGACGCTCATCGAGTTCGACATGGCAGCGATCCAGGCCGCCGGTTATCCGACGATTACCCCGATTATCGTAACCAATGCGGATGAAGTGGCTTCCAAGGTGGACGGTCAGACCGGTGACGTCGTGTCCGGCCAAAATCCTGTTTTGACCATTGAAATGAAATAA	MFDRWKKKKTATVIQLTAPLSGKAVPLSQVPDEAFAAGHMGQGIAIEPSEGKLIAPFDGTVAHVIKSKHAVMLEDPATGLQYLFHIGINTVGLKGEGFTSHVQAGDQVKTGQTLIEFDMAAIQAAGYPTITPIIVTNADEVASKVDGQTGDVVSGQNPVLTIEMK	PGPT0014090_734	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-CARBOHYDRATE_LIMITATION_SIGNALLING,PGPT0014090-crr-K02777	NA	NA
AK002_03957	888	glcT_2	COG3711	PtsGHI operon antiterminator	ATGAGCGGGATCGAGTTGTTTACAGTCGTTCGTGTTATTGGTAACAATGTCGTGATGGTTATTGGCGGTAAAAAAGAATCGGAATACGTTATCTTAGGTAAAGGCATCGGCTTCGGCGCAAAAATAGGCGGCACGATCGCTTCGGACGATAAGCGGATTGAAAAGCTGTTCAGGCTGGAGGATCGGGAACAGTGGAGCCAAGCTCACCATCTGCTGGAAGAATTTGATCCGCAGGTGATGGAGATTACGGATCAGATACTGAATCTCATCGGACAGGAATTTCCGGGCACATTAAATGATAAGGTATACTTGGCGCTTCCAAGCCATATCCAGTTTACGATTTACAGAATCCGCAAAGGCATGGATATTATTAATCCTTTCCTTGAAGAAACCCGCATCAGCTTCCCAAAAGAATATGATATTGCAGCCAAGGCAGCGGAATTGATCGGCAAGACCTTCGATATAGAGGTTCCTGAGGATGAGATTGGCTTCTTGACCTACCATGTGTATTCGGCCGTAAGTCATGTACCCGTTGGCCATCTGGTCAAGGCATCGAACGTAGTGGGAAGCCTGGTGAGGTATATTGAAGAGGAGCGGCAGGTGGTCTTTGACCGGGGAAGCATGGATTATGTTCGTCTGCTCATGCATTTAAGGTTCTCGGTAGATCGCATCTTGAATCAGGAAATCCATGTGGATAATCCGTTCGCGGAACAGATCCGCTCCAAGTTCACGCAGGAATACGGGTTGGCAACACGTCTCGCAGGCATGATGGAGAAAGAACTTGGCAAGAAAGTGCCCGAATCGGAGGTCTGCTTTCTAGCTATGCATTTATACCGGCTCTTTACAGGCCGACTACAGCAAAAGAATCAACCCAGGGAGGAATCTTAA	MSGIELFTVVRVIGNNVVMVIGGKKESEYVILGKGIGFGAKIGGTIASDDKRIEKLFRLEDREQWSQAHHLLEEFDPQVMEITDQILNLIGQEFPGTLNDKVYLALPSHIQFTIYRIRKGMDIINPFLEETRISFPKEYDIAAKAAELIGKTFDIEVPEDEIGFLTYHVYSAVSHVPVGHLVKASNVVGSLVRYIEEERQVVFDRGSMDYVRLLMHLRFSVDRILNQEIHVDNPFAEQIRSKFTQEYGLATRLAGMMEKELGKKVPESEVCFLAMHLYRLFTGRLQQKNQPREES				NA	NA	NA	NA	NA
AK002_03958	2682	rcsC_14		Sensor histidine kinase RcsC	TTGTCTAACAACCTGAAATTCAACATCCGCAGCAAGATTGTCATCGGCTATTTATTGATATTAATGTGTCTTGGAGCTTTTCTCTGGATTGTTTCCGACCGTATCTCTTCCCTGCAGCAAGAGGCGGATTTTATAGAGAAACATGATATCGAAGTACATAATCTCACGCATGAAATCGAGAAGAATATGCTGGAGATGGAAACCGGCCAGAGAGGGTACGTCATCACGGGCGATGAAACCTACCTGGAGCCCTTCAACCAAGCGCTGTCGTCCTGGCAGATCAATTATAACAAGCTGTACAAGCTTGTGAGCGATAACTCGGAGCAAGCCAATCATCTGGAAAATATTAAGGAGAATATCAAGGAGTGGATTACCAACGCCGGACAGCCTGCGGTTCAACTCATGCAGCTCGGACAAGATGAAGAGGCTCTTCATTTCTTTATTAACGATCCCGGAAAGCAAGCGATGAATTCGATTCATGAGCTGTTCCTCTCTTTTCGAAGCAAGGAACGGGAACTGACAACGAGCAGAATCGAAGAAATGAAGGAAAGCAATGCCCGTTTATTGAACACGATGTATCTGTTATGGGCCGGTGCGGCACTGATCACCATATGTGCGGCTTGGGTCATTTCGAAAAGCATCGTAAAGCCGATCAACCAAGTGACCAACGTCATCTCCGATATTGTCAATGGAGGGAATATATCCCAACGCATCCATGTGCATTCCAATGACGAGGTCCGCCAGTTGGCCGATACAACCAACGAACTGCTCGCACAGGTTGGCAGGCAGAACTGGGCCAAGGATCATGTCTCGGTCATGTCGACGATTCTTCAATCGTCCGATCGCGTGGAGACGGCCGTGCAATTCTTCATTCATAAGCTGGCTTTGATCATGAAGCTTCCGTATGGGGCGGTGTTTATTACCCGGTCAGGATCGGAACTGGTTAAGGCTGCTGCTTTTGCCGACCCGGACGGCGAGCCTTGGAACAAGGTCCGGGATCGTTTCCTGCCGGGCGAAGGTTTGGTGGGGCAGTGCATGCTGGAGCAGCGTATGATCATACTGGACGATATACCGCCCAACTATGTGCGGATCGAATCGGGACTCGGCGATGCCGAGCCTTCCACGCTGCTGCTGGCACCCGTGATGTTCGAGGGACAAGTTCTCGGCGTGATCGAGTTGGCCAAATTCCAACCCTTCGATGAGCTGGAGATTCAGCTCATCGAACAGTTGAATTTCCAGCTTGGAGTGACCTTGAATTCGATTCAAAGCAAAATGGAGATCCAGCAGCTGTACCATGAATCCCAAACGCTGAATGAGGAGCTGCAGAGCCAAACCGAAGAGCTGCAAGCTCAGACCGAGGAGCTTCAGACCCACTCCGTGGAAATGCATTTGCTGAATGAACGGTTGGGAGCTCAAAAGGAAGCAGCTCTGATTGCAGCCAGCGAATTGGAAAAATACGCGAAAGAGCTGGAGAAGAGCTCCAAATATAAATCGCAGTTCCTGGCCAATATGTCCCATGAGCTGCGGACGCCGCTGAACAGCATGCTCATCCTCTCCCAGATTTTAGCTGAGAATAAGCAGGGGAACCTGACGGAGGAAGAGCAGCATTATGCTACCGTCATTCATAATTCCGGCAGTGAATTGTTGAATTTGATCAATGACATCCTGGATCTGTCCAAGGTCGAGGCAGGTAAGATGCAGATCGAAATGGACTTGGTGAACTTGACGGAGCTGCCGGAGCTGATGCAAGGATACTTCTCCAAAAGCGCGGAATCCAAAAATCTGGAATTTGATATCGAGATGGCGGATGACCTCCCCGACATGATGTACAGCGATGGGATGCGCCTTCATCAAATTCTGCGCAACCTGCTCTCCAATGCGATTAAGTTTACGGAGAGCGGCAGCGTGAAGCTGCGGGTAAAGAAAATGAATTCGATTGTCACTTCGGATTTCATTATCAGCGGCGATGTCATTGCGTTTTCCGTTGAGGATACCGGCATCGGGATTGCGGCAGAGCACCTACAGCCGATCTTCGAAGCATTCCAGCAAGGTGAAGAAACCACGGCGAGAAAATTCGGAGGCACGGGTCTCGGCTTATCGATATCGCTGCATTTAGCCAAATTGCTTGGCGGGTATATAACCGTGGAGAGCGAGGAAGGGATCGGCAGCACCTTTATCTTATATTTGCCGCTCGTAACGGAGGGCGGTGAAGCCGACAGCCTGTTTATGCTGCCCGAAGTAGCTGCCACCGCAAGCGACAACAACTTGAGCGATATCCGGATGGAAGAGTACGAACAGGAGGAGCTTAGCCGGTTGGAGAACAAGACCGTATTGATTGTCGACGATGATATACGGAATGTGTACGCATTGACCAATGCGCTGGAGAAACTCCAGCTGACCGTGCATACAGCCCAGAACGGCTTCGAGTGCTTGGAGCTGTTAAGCAAGCATCCATCCATCGATGCGGTATTGCTGGATACGGTCATGCCTGAAATGGACGGCGTCGAAACGATGAAGCGGATTCGGGAGAACCCGGAGTGGAGCGATCTGCCTCTGATCGTCATGAGCTCGAATGCGATGAGGGATTCGGATCAATTTCTTGGAGACGGTGCGAACGGATACCTTCACAAGCCGCTCCAAATCCGCGAGGTCATCCATATGCTTCAGAAATGGATAGGGTAA	MSNNLKFNIRSKIVIGYLLILMCLGAFLWIVSDRISSLQQEADFIEKHDIEVHNLTHEIEKNMLEMETGQRGYVITGDETYLEPFNQALSSWQINYNKLYKLVSDNSEQANHLENIKENIKEWITNAGQPAVQLMQLGQDEEALHFFINDPGKQAMNSIHELFLSFRSKERELTTSRIEEMKESNARLLNTMYLLWAGAALITICAAWVISKSIVKPINQVTNVISDIVNGGNISQRIHVHSNDEVRQLADTTNELLAQVGRQNWAKDHVSVMSTILQSSDRVETAVQFFIHKLALIMKLPYGAVFITRSGSELVKAAAFADPDGEPWNKVRDRFLPGEGLVGQCMLEQRMIILDDIPPNYVRIESGLGDAEPSTLLLAPVMFEGQVLGVIELAKFQPFDELEIQLIEQLNFQLGVTLNSIQSKMEIQQLYHESQTLNEELQSQTEELQAQTEELQTHSVEMHLLNERLGAQKEAALIAASELEKYAKELEKSSKYKSQFLANMSHELRTPLNSMLILSQILAENKQGNLTEEEQHYATVIHNSGSELLNLINDILDLSKVEAGKMQIEMDLVNLTELPELMQGYFSKSAESKNLEFDIEMADDLPDMMYSDGMRLHQILRNLLSNAIKFTESGSVKLRVKKMNSIVTSDFIISGDVIAFSVEDTGIGIAAEHLQPIFEAFQQGEETTARKFGGTGLGLSISLHLAKLLGGYITVESEEGIGSTFILYLPLVTEGGEADSLFMLPEVAATASDNNLSDIRMEEYEQEELSRLENKTVLIVDDDIRNVYALTNALEKLQLTVHTAQNGFECLELLSKHPSIDAVLLDTVMPEMDGVETMKRIRENPEWSDLPLIVMSSNAMRDSDQFLGDGANGYLHKPLQIREVIHMLQKWIG	PGPT0015645_417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
AK002_03959	501			hypothetical protein	GTGTCGTCCCTGGAGCTGCCCCTTCTACAGGGCATGTTCATGTCGGAAATCCATCTCGGCCGCGGTGAGGGCCTCTCGCCTCACGGCCATCCGGATACCGATGAATTGTGTTACATCATTCAAGGAGACATCAGTTATTCCCTGGTGGATCCGGAAAGTCACCGAAATCTCGTGTTTCAAGCCGTACCCGGTCAGGTGGTGCATGCCCCGATCGGTTGGTGCCACTGGATTACATCGCTATCCCACGGGACGATCCTGCTCTTGATCTATCGAACCGGGCATCCGCACCAAATCGACCTTGCACCTTTATGGCCTTTTTCGCTTTACGAAAAAGATGCCTTTGAAGGCGACGACCCGAACAAGCAGCTTTCCACGAAGACACTCCTTACGCCCATCCCGCTTCAAGACAGGATCGAGAGCGAGACTTCGGAAAAGCCCATTCCGGGGCCGCCGTGGCTCAAAACCGGGCAACCTAACAACAAAACCACACGCAGCCGGTGA	MSSLELPLLQGMFMSEIHLGRGEGLSPHGHPDTDELCYIIQGDISYSLVDPESHRNLVFQAVPGQVVHAPIGWCHWITSLSHGTILLLIYRTGHPHQIDLAPLWPFSLYEKDAFEGDDPNKQLSTKTLLTPIPLQDRIESETSEKPIPGPPWLKTGQPNNKTTRSR				NA	NA	NA	NA	NA
AK002_03960	378	gpsB		Cell cycle protein GpsB	ATGGATGAACACATGAAACGCCGATTGGATAAACAGAAAAAGCTTTTTCGGCAGCTAGGCATTCAACTGGACGCTTTGTCTATCCATGAAAAGAATTTTTCGAATAAACTGCGGGGTTACGATCAGGAGGAAGTGGATTCCTTTCTGGACGAAGTGATCCAAGATTATGAGCGGTTCTATGCCACCATCTCCGATCTGATGGACAAATGGCAGGAGCAGCAGATCACCATTCGCGATCTGAGGGCTGGCGTTAAGCCGGAAGCTGAGCGTCCGGCACTGAATCCCGAAGAGATCGAAGAGACGGTGGCGAAGCTGGAAGCCGACTTGAGGCTTCTGAAGAAGCAGATCCGCCCTGAACAAAGATTCTATATTGATTAA	MDEHMKRRLDKQKKLFRQLGIQLDALSIHEKNFSNKLRGYDQEEVDSFLDEVIQDYERFYATISDLMDKWQEQQITIRDLRAGVKPEAERPALNPEEIEETVAKLEADLRLLKKQIRPEQRFYID	PGPT0014806_56	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
AK002_03961	564	dksA_2		RNA polymerase-binding transcription factor DksA	ATGACCAGCATGACAAAACAACAATACAGTGAACTAAGACAACGGTTGCTCAGTGATAAAGAACGGTTGGAAAATCAATTGGTGTCCCGGGAAGACACCAACAAGGATCTTTCCCTGCGAGACTCCACGGGAGAGCTGAGCGCTGCCGACAACCATCCCGCTGACGTGGGCACCGAAGTTTTCGAACGCGGTCGGGACTTGGCCATTCAGGAGACGCTCGAGCGTGAATTGGAGCAGATTGATGCTGCCCTGCAGCGTATGGACCAAGGCGAATACGGAACCTGCGCCGAATGCGGACGGGAAATTCCGTATGAACGGCTGGAAGCTTTGCCTTATACGGCCTATTGCCTCGATCATACTCCGCGAAAAGACATCAACGACAACCGTCCGGTTGAAGAGGATGTCATGACCCCGCCCCCATCAGGCGCCGGCGTCAACCGCCAAGCAGCCGACGGTAAATTTGATGACGCCGGCGCCTGGGATGCCGTGGAAGATTACGGAACCTCCACATCGCCCGGCATGTCCATTAAACCAGGACAAGACGATTATAAGAAGAATGTATGA	MTSMTKQQYSELRQRLLSDKERLENQLVSREDTNKDLSLRDSTGELSAADNHPADVGTEVFERGRDLAIQETLERELEQIDAALQRMDQGEYGTCAECGREIPYERLEALPYTAYCLDHTPRKDINDNRPVEEDVMTPPPSGAGVNRQAADGKFDDAGAWDAVEDYGTSTSPGMSIKPGQDDYKKNV	PGPT0014560_204	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
AK002_03962	561			hypothetical protein	GTGGAAACGAAGGAATTGACTACACTGGAAGAGATCAAAATATATTCAGATCCATATCGGCTCCAGATTTTGAATGTATTAAACAAGATGGATCGTCCGGCAACCGTAAAGGAGGTTGCGGACAAGATCGGGGATGTGCCTGCGAAGGTTCATTATCATATGAAGAAGCTGGAGCGGATCGGCCTGGTCAAGATCGTATCCACCAAAGAAATCAACGGAATTATCGCTAAATATTACGAGCCTTTTGTCGGTACGGTAAAGATCAAGCGAGGGGCGGATTCCGACGAGCCGGTCATCAAGGAATTGATTCGGTCCGAAACGAACAAATTATTATCCGAGCTGTTCGACCAGAATCGAGACCGTTTCTTTAAAAATATGAGCCAGGATGGCGAAGCGACGTCCATGTTGACCAATACCACCTTGTATATGAGCGAAGATGAAGCGCGCGAGTTATTTGTTGAGCTGGATAACATGCTGACCCCTTATAAAAAGAAGCGAGGGGAAGAGTACGACGAATACGAGTTTTTTGCTTCCAATGTTCGGAACCATAAAGAATCTTGA	METKELTTLEEIKIYSDPYRLQILNVLNKMDRPATVKEVADKIGDVPAKVHYHMKKLERIGLVKIVSTKEINGIIAKYYEPFVGTVKIKRGADSDEPVIKELIRSETNKLLSELFDQNRDRFFKNMSQDGEATSMLTNTTLYMSEDEARELFVELDNMLTPYKKKRGEEYDEYEFFASNVRNHKES				NA	NA	NA	NA	NA
AK002_03963	1266	entS_3		Enterobactin exporter EntS	ATGCAAAATGCCGCCGTTTTGGAAAAACAAGGCTTTGGCCAACTGTTGAAAATCCGCCCGTACCTGATTTATTTATCTGCTCAAGCCATTACCCGATTAGGGGATTCCTTGGATTCCATCGCTTACAGCTGGATGGTTTATATGCTCACAGGCTCAGAGCTGTTAATGGGGACCTTGTTCGCTTTTAACTTTCTGCCGGGATTGCTTTTCAGTTTGTTTACGGGAACCTTTGTAGACCGCTGGCCTAAGAAAAGAGTCCTCGCCTTAACCTACCTCAGCCGCGGCATCGTGGTGTCTCTGACGGCCTTTTTGTATGCGATCGGTTCTCTTGAAGTCTGGCATCTGTTTGTCTTCACGTTCCTGAATTCAACGCTCGAATGTTTCTCCAGACCCGCCGAAACCTCCATCGTTCCCCGGCTGCTCCCCAAGGAACAGCTGCTCGCGGGCAATTCTTTCTCTACATCCGTGAGCCGCAGCGCCGAATTAATCGGTCTGTCCATTGCCGGAGCCCTAATCGCCTTGATCGGAATTTCGGGAACGATCCTGATCGATGCCGTGACGTTTCTAATCGCCGCGGTTATTATCGCCTTTATGCCGAATCCCGAAGCGGCCGAACAGGCCGAATTCCCTGGACCGGTGTCCGAGAAAGAAAGAACGGTGCTCGGCGACATCAAAGAAGCGCTTCTGTTTGTGAAGCAGCATTCGCTGCTTCTCATTACGACGATTCTGGCGATGATCAATAATTTCTGCTTGGCACCGTTGAACGTGCTGCAGCCGGTCTACGTCAAGGAGACGTTGGGTGCCGGTGCGGGAGGTCTGAGCGTAATGGGAACGGCGCTTCTGATCGGTATGATTTGCAGCGGGCTATGGATTGGTCGCTACGGCAAGAGTTTCAAAAAGAGCACCTTGATCATGTCAGGATCGATCATGCTCGGGATCGGATATTTTGCTTTAGGGATTCCAGGGCATCTCCCGGCGTGGCGCGTGGAGTCCGCGGCGGTCTGCATGTTCGTTGCCGGTTTTGCCGTATCCATGCTGAATGCCCCGATCTCGACGTATCTGATGGAAGTAACGCCGCGGCATATGCTGGGCAGAATTGGCGCCCTGATGACGGTATTGTGCACGGCTGCAATTCCTGTCGGAAGCCTGATAACGGGACTTGTTGCAGAGCATCAATCCCCTCCCGTGCTCTTCTCGTTGATGGGATTCGTCATGCTGGTGCCCGTGCTGTTCCTGATTCGAAAGAAGAGTTTCCGTGCCATCTGA	MQNAAVLEKQGFGQLLKIRPYLIYLSAQAITRLGDSLDSIAYSWMVYMLTGSELLMGTLFAFNFLPGLLFSLFTGTFVDRWPKKRVLALTYLSRGIVVSLTAFLYAIGSLEVWHLFVFTFLNSTLECFSRPAETSIVPRLLPKEQLLAGNSFSTSVSRSAELIGLSIAGALIALIGISGTILIDAVTFLIAAVIIAFMPNPEAAEQAEFPGPVSEKERTVLGDIKEALLFVKQHSLLLITTILAMINNFCLAPLNVLQPVYVKETLGAGAGGLSVMGTALLIGMICSGLWIGRYGKSFKKSTLIMSGSIMLGIGYFALGIPGHLPAWRVESAAVCMFVAGFAVSMLNAPISTYLMEVTPRHMLGRIGALMTVLCTAAIPVGSLITGLVAEHQSPPVLFSLMGFVMLVPVLFLIRKKSFRAI	PGPT0027965_463	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK002_03964	1005	iolG_18		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	GTGAGCAAGAAACTGCGCTTTGGGATTATGAGTACCGCTCGTATTGCAAGAAATTCAATGATACCCGGCATATTGAAATCGGAACGCTGTGAGGTTGGGGCCGTAGCAAGCCGCAATGCCGATAAAGCCAGGGAGCTCGCGGAACGATACCATATTAAAACATACTATGGTTCTTATGATGAGCTTCTGGCGGATCCTGACATTGATGCGGTGTATATTCCGTTGCCGAATCACCTGCATAAACCTTGGACTATCAAAGCCGCTGAGGCCGGAAAGCATGTTCTGTGCGAGAAACCGGCGGCCCTGACGGAAACGGATGTCCGTGAGATGGCTGAGGCAGCCAAAGCACACAACGTGCTGTTCGCCGAAGCCTTCATGTACCGCTACCATCCGAAGCACGCGCGTGTACGCGAAATCATCGAAAGCGGCGAAATCGGCCAGCTTCGCGGAATACACGGGTCGTTCACCTTCAACAATGCGGAGGATAAAAGCAATGTCCGCTACAGCAAGGATATGGGCGGAGGTTCGATCTACGACGTGGGATGTTATCCCATCTCGGCGGCGAGAATGATATACGGACAGGAGCCTAAAGCCGTGACGGCCCACGCTTTTTTCTCCGAGGAGCATGACGGCGTGGACATGATGGTACATGGAATAATGGAATTTGACAATGGACTGGGCCTGACATTCGACTGTGGCATGTGGACCTACTCCAGATGCTCGTTAGAGATTGCGGGAACCGACGGCAGGATTGAGCTGCCCTCCGCCTTCGGCTGGGAGAGAATGGAGGATATGGCCCAGATATTCGTTCATACGGCCAAGGGAACCCGCGAGGAAAAAGTGGGGATATACAACCATTTTGCCCTGCAAGCGGACGCCATGGCTGCTGCCGTGATGGATGGCGCGCCATTGCCATACGGTCCGGAAGATGCCATCAGCAATATCAGAGCCATCGAAGCATGCCTTCAAGCAGCGAGATCATCTTCACGGGTGGAAATTAAATAA	MSKKLRFGIMSTARIARNSMIPGILKSERCEVGAVASRNADKARELAERYHIKTYYGSYDELLADPDIDAVYIPLPNHLHKPWTIKAAEAGKHVLCEKPAALTETDVREMAEAAKAHNVLFAEAFMYRYHPKHARVREIIESGEIGQLRGIHGSFTFNNAEDKSNVRYSKDMGGGSIYDVGCYPISAARMIYGQEPKAVTAHAFFSEEHDGVDMMVHGIMEFDNGLGLTFDCGMWTYSRCSLEIAGTDGRIELPSAFGWERMEDMAQIFVHTAKGTREEKVGIYNHFALQADAMAAAVMDGAPLPYGPEDAISNIRAIEACLQAARSSSRVEIK	PGPT0017545_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017545-xdh-K14273	NA	NA
AK002_03965	360	rtp		Replication termination protein	ATGGCATTTATGATCGCGCAGCGCGCTTTTATCAAAGTATATCTTATTACCATGGTGGAGCAGCAGCGCGGATATGGATATCAGATGCTCGAAGAACTACGGCAGGAATTCAAGAGCCATGGATATTCGCCGCCGCAAAGCGAAATCTATCGTGCTCTGCATGAATTGGTGCAGGAGGGGGTTCTATACCGTACCAAACAGCTTAAAGGAAACGATCCGCGGGTCGATTTCCAGGAAATCGTACTTTATCATTTTACTGACGAAGGTGCCGAGAAGGCCAAACTCTATAAAAAACAGGTTAAGACCGATTTGGATCGATGCTTGGGGATCCTTCATAAAGCCGTAAACGACAATTATTAA	MAFMIAQRAFIKVYLITMVEQQRGYGYQMLEELRQEFKSHGYSPPQSEIYRALHELVQEGVLYRTKQLKGNDPRVDFQEIVLYHFTDEGAEKAKLYKKQVKTDLDRCLGILHKAVNDNY				NA	NA	NA	NA	NA
AK002_03966	1197			hypothetical protein	ATGTCCAAACAAAGAATTCCGGAAATCGAGCGCCTCCGAGGAATGGCCTTCCTGGCTGTGGTTTTGCAGCATTCCATCGCGCATTATTCGGTCGCGCCGGGGATGACGTCAAATGATGGCCTGATGATGGGCTTCCTTCTGATGGCGACGAAATTCGCTGTGCCCGTCTTTATTTTTATTACCGGCATGGTGTTGTTTTATAATGATAAAGGCGGTTTGCAATACGGCAGGTTCATCAAAAGACGATTCGGCGACATTTATGTTCCTTTTGCCGTATGGACCCTGATCACATTATTAATCAATCATAAGTTTAATCCCGCATGGATCGGGGACTGGAAATATCTTGGGGAAGTATGGTTAACCGGAAAAGCCAGCTCGCATTTTTGGTATATTATTATGCTGTTCCAATTTTATTTGCTGTATCCACTCTTCAGATCCGCCATACTAGGAATCAAGGAACGATGCGGCGTACGGACGCAGCTTACGATACTGGTTCTTTCCGGGCTGCTGTACGTGGGCTTGACGGGAGTTATCAATGATATCGGGCACTTGATGGGAAGTTTGAGCATACCGGTGTGGAGCGAGCTGTTCACAACCTATGCGGATCGGAATGCACTTTATTATTTCTTCTATTTTGCGCTTGGGGCAGCAGCCGGTTTATATCATGCCTATTGGATAAAATGGCTCAAGAAGGCCCGACCGGCCATATGGCTGGTCTTTGCATTTACGTTCGGCTGGATGCTCATGCAGGCCGTGAATGAAATCCGTTCAGCGGAGAATGGAGCGATCACGTTCTATTCCTTGTCGCTGCTGCGGCCGATGATGGCGCTTTTCCTGATTAGCTCCATCATGGTCATGTACGATACGGCCGGCTGGATTACCCGCCATGCCGGAGCGCGGACGAATGCGCTCCTAACCTCCATTGGCGTCTATTCGTACGGTGCTTACCTGATGCATTTATTAACGCTCCGGATAAGCTATGCAGTCGACGGGTATCTGCTGATCGGCATGCCATCTCTGGTGAGGATCCTTTCTTCATGGATCATCAGCGTGGCGATAGCGTACGCCGCAACTCGCCTGCTTGCAAAGCTGCCGTTCGGAAAATGGCTCGTCGGCATCGCGGGTGCACGGAACCCTCGCTCTATTCGGCCATACGGCAAATCGCATCCATCCGCCGGGACAACCACCGGCATGTGA	MSKQRIPEIERLRGMAFLAVVLQHSIAHYSVAPGMTSNDGLMMGFLLMATKFAVPVFIFITGMVLFYNDKGGLQYGRFIKRRFGDIYVPFAVWTLITLLINHKFNPAWIGDWKYLGEVWLTGKASSHFWYIIMLFQFYLLYPLFRSAILGIKERCGVRTQLTILVLSGLLYVGLTGVINDIGHLMGSLSIPVWSELFTTYADRNALYYFFYFALGAAAGLYHAYWIKWLKKARPAIWLVFAFTFGWMLMQAVNEIRSAENGAITFYSLSLLRPMMALFLISSIMVMYDTAGWITRHAGARTNALLTSIGVYSYGAYLMHLLTLRISYAVDGYLLIGMPSLVRILSSWIISVAIAYAATRLLAKLPFGKWLVGIAGARNPRSIRPYGKSHPSAGTTTGM				NA	NA	NA	NA	NA
AK002_03967	552			hypothetical protein	ATGGAGAAGAAAGTTGTTGGGGTATTTCGTTCGGAACAGGAGGCCGCTCAAGCTATAGAGCAGCTGCAGCGGCACGGAATTCCGAACGATGCCATTTCCATTATAGCGAAGGATAAACGCGAGGCGGACATGATAGCCGAGCAGACGGGAACGATGGCTCCCGAAGGAGTAGCTGCGGGTGCAGCAACAGGCGGCATACTTGGAGGCACGGCAGGATTGCTGGCTGGGCTGGGAGCCCTCGCCATTCCCGGCATCGGCCCGATTCTTGCGGCCGGACCGATAGCAGCGACCCTTACGGGCGCAGCAGTCGGTGCGGGAGCCGGCGGGCTGGTCGGAGGCTTTATCGGCCTTGGCATCCCGGAAGATGAGGCGAAGGAATATGAGTCCTATGTCGAGCAGGGACGGATTCTCGTCATGGTTGACGCCGATCAAGAGAATACCGGCATTTACGATATATTCCGCGATTACGATTACAGAAACGAGGGGCGATACGGTGCGGTTGATCCAGACCGGAACGACACACTGCCGCCGCGAGGAACTACGCTGCTGTAA	MEKKVVGVFRSEQEAAQAIEQLQRHGIPNDAISIIAKDKREADMIAEQTGTMAPEGVAAGAATGGILGGTAGLLAGLGALAIPGIGPILAAGPIAATLTGAAVGAGAGGLVGGFIGLGIPEDEAKEYESYVEQGRILVMVDADQENTGIYDIFRDYDYRNEGRYGAVDPDRNDTLPPRGTTLL	PGPT0014649_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
AK002_03968	2511	hrpB	COG1643	ATP-dependent RNA helicase HrpB	ATGACTGAACTACCGATTCACCGAGTATTACCACAATTGAAAAAGGCTTTATCGACAGGAACTCATGCCGTGTTGATCGCTGAACCGGGTGCAGGTAAGACGACGCAAGTGCCGCTTGCTTTTCTGAATGAACCTTGGCTTGCCGGCAAACGGATCATCATGCTGGAGCCCAGAAGGATTGCGGCCCGCTCAGCGGCGGGATTTATGGCGGCCTCATTGGGAGAAGCGATAGGAGAAACGATCGGGTACCGGGTTCGGATGGACAGCAAGATCGGACGGGACACTCGGATCGAGGTCGTCACGGAAGGCGTTTTGACGCGGATGCTGCAGGCTGATCCGGAATTGACCGGCATCGGCATGATTATATTTGACGAATTTCATGAGCGGAATTTGCAGGCCGATGCCGGACTGGCTTTTGCGATGGAATCCCAAGCGGTCCTGCGGGAAGATTTAAGGCTGCTGGTCATGTCCGCTACCCTTGAGGCGGAGCCGGTTGCGAAGCTTCTTGGAGACGCACCGGTCATCGTCAGCGAAGGGCGTGCTTTTCCGGTAACGACTCACTATCTGCGCTCGTTCCCTCTGGATGAGATACATAAAGGTGCCGCTATCGCCATTACGCGCGCGCTCGCCGAACAGGAAGGCGATATACTCGTATTTTTGCCAGGTGCTCGTGAAATCAGGCGGACCGCGAATGAATTATTAAGAACGGGCTTAAATCCAGAAGTCGTCATTCGTGAATTATACAGCGCCCTTCCGGCGGAGAAGCAGGATGAAGCCATAAAACGAGATGTGAACGGACGGCGTAAAATTGTTCTGTCCACAAGCATCGCGGAGAGCAGCATTACCATTCAGGGGATCAAAACCGTCGTGGACAGCGGTTATATGCGAACAGAAGCATTCTCCCCGAGAACGGGACTGCCGCAATTGATCACGAGACGGCTGTCCAGAGCGTCTGCCGATCAGAGAAGGGGCAGGGCAGGCCGCGTCTCGGCCGGCGTGTGCTATCGCTTGTGGAGTGAGGAAGAGCACCGCCATCTGCCGGAGAGTACCATTCCGGCGATCCGCGAATCCGATCTTGCGCCGCTGGCCTTGGAATTGGCCGTATGGGGTGCGCGTGATCCGGAGCAGCTCGCTTGGCTTGACGCGCCGCCTCGGCTGGCCTATGCGCAAGGTCAAGCGTTATTGAAGCAGCTTTCGGCTCTGGATGATACGGGCAGCATCACCCGGCATGGCCGTGAGATGGCGCTGCTTGGAGTTCATCCGAGGCTGGCTCACATGCTGCTTAAGGCACAGGAAATCGGCGAGGCCTCGCTGGCCATCCGAATCGCCGTTCTGCTTCAGGAGCGCGATATACTGAGCCGAAGCGAAGCGCTTCGGGACCAGGATTTGCGTACGCGCGTGGAACGGCTTCTCTTGTTTGAACAGCATGGACAGCGATCCGCCCAGCAGGACACGGTGAACGAAGCCGTGCTGCAGCGGATGAAACAAGAGATTCGGAAGCTCCACGCCCAGCTGAATATCGAATATGCAGCTGACGGTGACCTGAACCTCTGCGGCCTGCTGCTGTCGTTTGCCTATCCGGATCGGATCGCGAAGAACAGGGGAGGCAGCGGGTTTCTCATGCGCAGCGGCAGGGGCGTGAAGTTGGCTGCGGTTCAGCCTATGAGCCGTGCCAGGTACATTGTGGCCGCATCCGTAGACGATCAAGGTGCAGACGGGAATATCCAGCTAGCTTCCGAAATGGACGAAGCCTGGCTTGAGCAGTATTATCTTGACGAGATGGAACAGCAGAAAGAAGTCGCATGGGATACAGCTTCCGGCAGCATCAGGGCCAGGCAGAAGCTGATGCTGGGAGCCATCGTTATCAAGGAACAAGCCTATCCCAATCCGACAGGGGAGGAAATAGCGCGCGCCTTGCTGCAAGGGATCAGGCAGGAGGGCCTTGGCTTATTTCAGTGGAGCAAGGCGGCCGTGCAGCTGAGAGAACGGATGGCCTTTATGTTCCGGCACGAAGCCGAAGGGGATTGGCCGGATGTATCGGACGAAGGATTGCTGGATCGCGCGGAAGCGTGGCTGCTTCCTTATTTGGACGGGCTGAGGAATCGTAATGATATCAGGCGACTGGCACCCGGAACGCTCTTGGAACATATGCTCAGCTGGGAGCAGAAGCAGCAGCTTCAAAAAGAAGCCCCGACGCATATCAAGGTGCCGAGCGGGTCGCAGATCCCGATCAACTACAGCAACCCTGAACAGCCGTTTCTGGCCGTTCGTCTGCAGGAGATGTTCGGGATGCGGGACACGCCGCGCATTGCCGGCGGGCGCGTTGCGCTGACCTTACATTTGTTGTCGCCTGCGCAGAGACCGGTCCAGGTTACCTCTGATCTGTCGAGCTTTTGGGCAAACGGGTATTACGAGGTGAAAAAGGATCTAAAGGGTAGATATCCTAAGCATTATTGGCCTGATGATCCGCTGGAGGCGATCGCAACAAATCGGACCAGACCCAAGGCATAA	MTELPIHRVLPQLKKALSTGTHAVLIAEPGAGKTTQVPLAFLNEPWLAGKRIIMLEPRRIAARSAAGFMAASLGEAIGETIGYRVRMDSKIGRDTRIEVVTEGVLTRMLQADPELTGIGMIIFDEFHERNLQADAGLAFAMESQAVLREDLRLLVMSATLEAEPVAKLLGDAPVIVSEGRAFPVTTHYLRSFPLDEIHKGAAIAITRALAEQEGDILVFLPGAREIRRTANELLRTGLNPEVVIRELYSALPAEKQDEAIKRDVNGRRKIVLSTSIAESSITIQGIKTVVDSGYMRTEAFSPRTGLPQLITRRLSRASADQRRGRAGRVSAGVCYRLWSEEEHRHLPESTIPAIRESDLAPLALELAVWGARDPEQLAWLDAPPRLAYAQGQALLKQLSALDDTGSITRHGREMALLGVHPRLAHMLLKAQEIGEASLAIRIAVLLQERDILSRSEALRDQDLRTRVERLLLFEQHGQRSAQQDTVNEAVLQRMKQEIRKLHAQLNIEYAADGDLNLCGLLLSFAYPDRIAKNRGGSGFLMRSGRGVKLAAVQPMSRARYIVAASVDDQGADGNIQLASEMDEAWLEQYYLDEMEQQKEVAWDTASGSIRARQKLMLGAIVIKEQAYPNPTGEEIARALLQGIRQEGLGLFQWSKAAVQLRERMAFMFRHEAEGDWPDVSDEGLLDRAEAWLLPYLDGLRNRNDIRRLAPGTLLEHMLSWEQKQQLQKEAPTHIKVPSGSQIPINYSNPEQPFLAVRLQEMFGMRDTPRIAGGRVALTLHLLSPAQRPVQVTSDLSSFWANGYYEVKKDLKGRYPKHYWPDDPLEAIATNRTRPKA				NA	NA	NA	NA	NA
AK002_03969	1050	gltX1	COG0008	Glutamate--tRNA ligase 1	ATGCATATGCGCTACAATATGAATATCATTCCTGTGAAACATCAAGATTCAATTAGTCGGAAGGTGAAATGTATGGAGCAGCAAGCCACATTTCGCGGCCGCTTTGCCCCTACGCCATCAGGCAAGATGCATATCGGCAATGCATTGACCGCTTTGCTTGGATGGCTGCAAATGAGGAGTATGAACGGTCAATATATACTCCGAATCGAAGATATCGATGTGCAGCGTTCCCGCCAAGAGCTCGCAGACGAGATCATGAGAGATCTGGAATGGCTCGGATTGGATTGGGATGAAGGCCCCGGCGTTGGCGGAGCCTGCGGGCCGTATCATCAGGCTGCTCGCCACGCATTGTACGAACGGGAAATCGCCAAACTGAAGGAATCGAATATGCTGTACCCCTGCTATTGCAGCCGGGCGGATATAACGGCGGCAGCCAGCGCACCGCATGGCATTGCATCGGAGGGCTTTCGCTATCCGGGAACCTGCCGAGAGCTGACCCGGGAGGAAGCTGCGCTGAAAGAGATTCATAAGAAACCTTCGCTGCGCATGAAGGTGCCGCACAGAATCGTTTCCTTTGTTGACGGCATTGCCGGGGTTCAGCGTTACCGACTATCCGACGGCGGAGATTTTGTCGTGAGGAGAGCCGACGATATCATTTCGTATCAACTCGCGGTGGTGGCGGATGATGCGCTAATGGGCATAACCCATGTGCTCCGAGGAGCTGATCTTCTGGACTCCACCCCTCGTCAGCTGCTATTGTATGAAGCGCTGTCCTATCAGCCGCCGCAGTTTGCGCACACACCGCTGATGGTGGATGCGGAGGGCAAACGGCTGGCCAAGCGAACCCGGGGGCTCAGCCTCTCCTTTCTACGCGGCCAGGGCATCGCGCCGGAACGCTTAACCGGCTGGCTGGCATGGACAGCCGGCCTCCTGGATCACCCGGAAGCAGCAACTCCTGCGGAATTGATCCCTGTTTTTGATTTATCGAAAGTTTCTTCATTCCCCATAAAAATTTCGGATCCTGTCAAAAACCGGCTGTTCGAGCTTTAA	MHMRYNMNIIPVKHQDSISRKVKCMEQQATFRGRFAPTPSGKMHIGNALTALLGWLQMRSMNGQYILRIEDIDVQRSRQELADEIMRDLEWLGLDWDEGPGVGGACGPYHQAARHALYEREIAKLKESNMLYPCYCSRADITAAASAPHGIASEGFRYPGTCRELTREEAALKEIHKKPSLRMKVPHRIVSFVDGIAGVQRYRLSDGGDFVVRRADDIISYQLAVVADDALMGITHVLRGADLLDSTPRQLLLYEALSYQPPQFAHTPLMVDAEGKRLAKRTRGLSLSFLRGQGIAPERLTGWLAWTAGLLDHPEAATPAELIPVFDLSKVSSFPIKISDPVKNRLFEL	PGPT0008460_5901	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
AK002_03970	381			hypothetical protein	ATGAGCATCTTTTCCAGATTGGCTGAGCAGAAGATCGAGGAAGCGATCCGCAACGGAGAATTCGATAACCTGCCTCTTGCCGGCAAAAAACTCCCGATCGACGATCTTTCGCACATCCCGGAAGATTTGAGGATGTCCTACCGCATCATGAAAAACGCGGGTTACGTTCCTGAAGAAGTAACGCTTCGGAAGGAATGCGTCCAGCTCTATGATTTGCTCGGCGCTACCCGAAACGAGGGCGAGCAGGAGCAGCTCAAACGTAAGCTCAATGAAAAGCACCTTAGGCTGCAGTTGCTGCTGGAACAGCGGGGGTTAAGCGGTAACAGCGCGTTTACGCAGTATGAGTCCAAGGTCAGGGAACGATTAACCGGTAAGGAATAA	MSIFSRLAEQKIEEAIRNGEFDNLPLAGKKLPIDDLSHIPEDLRMSYRIMKNAGYVPEEVTLRKECVQLYDLLGATRNEGEQEQLKRKLNEKHLRLQLLLEQRGLSGNSAFTQYESKVRERLTGKE				NA	NA	NA	NA	NA
AK002_03971	798	bacC_3		Dihydroanticapsin 7-dehydrogenase	ATGAATGAAGGACACGGACGTTTTCATGGGAGAACGGCGATCATTACCGGTGCCGGATCAGGCATCGGAAAGGCGGCTGCCATTCAGCTGGCGAAGGAAGGCGCGAATGTGGCCTTATTCGATCTGTTGGATGATCGGACCCATCAAGCGGAATCGGAGATCAACTCCATTCGCGAAGGGGCGGCCAGAGCATTCGACGTAGATACAACCGATCCCGACAGGGTGGAAAAGGCAGTCCTTGAAACGGTGGAGATATTTGGCGGCGTCGATATTGTATTTGCCAATGCAGGGATCAACGGCGTCATGACGCCGATCGATGAAATGAAGCTGGAGGAATGGGCCAAGACGCTGAACGTAAATTTGAACGGGACGTTCCTGACGGTCAAATATGCAATTCCGCATCTCAAGAAGAGGGGGCAGGGCAGCATCATCATTACGAGCTCCGTCAATGGCACTCGAACCTTCTCCAACTTTGGCATGAGCGCCTATAGCACAACCAAAGCGGGACAGGTCGCTTTTGCGAAGATGGCTGCGCTGGAGCTGGCTCAATTCAAGATCAGAGTCAATGTGATTTGTCCCGGCGCGATATCCACCAACATCGACCAAAGCACGAAGAAGCAAGGGGATCTGGAGGAAATCGTGATACCGGTTGAATATCCGGAAGGAAGTCAGCCGCTGGCAGACGGGCCGGGGACGCCGGAAGAGGTCGCCGATTTGGTGGCGTTTCTCGCTTCCGACCAGTCGAGACATATTACAGGGGCACAGATATTCATAGATGGAGCGGAATCGCTGTTGTAA	MNEGHGRFHGRTAIITGAGSGIGKAAAIQLAKEGANVALFDLLDDRTHQAESEINSIREGAARAFDVDTTDPDRVEKAVLETVEIFGGVDIVFANAGINGVMTPIDEMKLEEWAKTLNVNLNGTFLTVKYAIPHLKKRGQGSIIITSSVNGTRTFSNFGMSAYSTTKAGQVAFAKMAALELAQFKIRVNVICPGAISTNIDQSTKKQGDLEEIVIPVEYPEGSQPLADGPGTPEEVADLVAFLASDQSRHITGAQIFIDGAESLL				NA	NA	NA	NA	NA
AK002_03972	594			hypothetical protein	ATGAGTCATATCGTTCCCCTCATTCATAAGGATTGGATGGTCATCCGAAAATATGCTTGGCTCTTTGCGATCTGGCTGGCGTTGTTTTCGTTTGGCAATGCCGTCGGCATCCTAGGTTATATGGTGGCCGGGATGATGATCATCGTCATTTCGAATACCGATTTGCATCCTTTCCATAAATATTCCATGAGTTTGCCGATACCGCGCCGGGACATTGTGTTGAGCAAGTATGTCTCTTCCCTCTTGTTTATGTTGATCGGGTTATTGGCGGGTTTCCTGGTCCAAATCGCTTATATCTGGTTAGGCGGGGATGGAGAAGGCGCTGTTCTTTATCAAAATATTGTGTCCGGCATTTCCTTGATCCTGTTTATTGCCGTTTACTATCCTCTCTATTATTGGCTGGGGCCCAAGGGCGGACAAACGCTGAAGCTGGTGCTGGTAGCGGTGTTGTTCGCGATTACGATGGCTATCAATACGCTGTGGTCGGATGGCCTGCAAACGGATTATCTTTGGTATGGACTCGGCATATCCTGCCTGGTGGTTTTCGCTTCATATCAGCTCTCAACCTATATCTTTTCGCGAACGGACGTGTAA	MSHIVPLIHKDWMVIRKYAWLFAIWLALFSFGNAVGILGYMVAGMMIIVISNTDLHPFHKYSMSLPIPRRDIVLSKYVSSLLFMLIGLLAGFLVQIAYIWLGGDGEGAVLYQNIVSGISLILFIAVYYPLYYWLGPKGGQTLKLVLVAVLFAITMAINTLWSDGLQTDYLWYGLGISCLVVFASYQLSTYIFSRTDV	PGPT0006730_25386	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_03973	921	btuD_10		Vitamin B12 import ATP-binding protein BtuD	ATGAAGAATGTAGACGGAATACAGGATCAGGATCAACCAGCAATGCAAATCAACCATCTGAGCAAGAAATATACATCGTTTGCGCTGAACGACATTTCCCTTCTTATCCCTAAGGGATACATTACCGGATTGATCGGCCCCAACGGAGCCGGCAAAAGCACGCTTATCCGCTCCATCATGGGGATGGTTGTCCCGGATTCAGGCCAGATCGCCGTGAATGGCCGGCGGCTTCGCTCGGACGATGCAAGTTATAAGGAAGAGATCGGTTTTGTTTCGGACGAGAATATTTTTTATGAGTATTTAACGCTGAATCAAATTATCCGCATGACGTCCCCTTTTTATAAGCGCTGGAACAGCACCAGAATGGATCAGCTGATGCAGATGTTCGAGCTTCCCGGCAGAAAGAAACTAAAGGATTGCTCGAAAGGCATGAAAATGAAATTTTCCATTGCGATGGCCATGGCTCATGATCCGCGAATATTGATTTTAGATGAGCCGACAGCGGGTCTTGATCCGGTATTTCGCAGAGAGCTGCTGCAATTGCTGAGCGATTTTATACAGGATGAGAACCGGACGATCCTGTTCTCAACGCATAATACGGATGATCTGGATCGAATAGCGGATTACATCACCTTTATTCACCGGGGTCGCATCGTGTTCAGTGAAGGCAAGGATGAAATTATCGACAAATATGTCATTGTCAAAGGCAGCAGCGACCTGTTGGATCCGGATGTCCGCAAGCAGTTTACCGGCCTCAAGGAAACGCCGTACGGGTTCGAGGCTCTCTCGGCAAACCGGGAATCCGCGCACAAGCTGTTCGGAGACAGCGTGTTATACGAGCGGCCTGCCCTGGAGGATATTATGTATTACACTTCGAAAGGAGACACTGTTCATGAGTCATATCGTTCCCCTCATTCATAA	MKNVDGIQDQDQPAMQINHLSKKYTSFALNDISLLIPKGYITGLIGPNGAGKSTLIRSIMGMVVPDSGQIAVNGRRLRSDDASYKEEIGFVSDENIFYEYLTLNQIIRMTSPFYKRWNSTRMDQLMQMFELPGRKKLKDCSKGMKMKFSIAMAMAHDPRILILDEPTAGLDPVFRRELLQLLSDFIQDENRTILFSTHNTDDLDRIADYITFIHRGRIVFSEGKDEIIDKYVIVKGSSDLLDPDVRKQFTGLKETPYGFEALSANRESAHKLFGDSVLYERPALEDIMYYTSKGDTVHESYRSPHS	PGPT0006725_11986	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_03974	384	ytrA_2	COG1725	HTH-type transcriptional repressor YtrA	ATGATTCAGATTATTCTATCCCATTCCAGCGGCGAGCCGATTTACTTGCAAATTGAAAGACAGATCCGGCAGAGCATCATGCGCGGAGAGATGAAGCCGGGAGAGCCGCTTCCTTCTATCCGGCAGCTAGCCAAGGACTTGGGAATCAGCGTTATTACGACGAAGAGGGCATACAGCGAGCTGGAAGCCGTCGGCTTGATCGAGTCGATGGTAGGCAGAGGCTCCTTCGTATCGGGAGGCAATCAGGATATGATTCGGGAGCAACGCCTGCGCCTGATCGAAGATAAAATCAGGGATATTCTCGAGGAATGCCGAAGCATTCCTATAGAGGCCGAGGAATTGATCGAGATGATCCATACAATAAACAAGGAGGAATCCGAATGA	MIQIILSHSSGEPIYLQIERQIRQSIMRGEMKPGEPLPSIRQLAKDLGISVITTKRAYSELEAVGLIESMVGRGSFVSGGNQDMIREQRLRLIEDKIRDILEECRSIPIEAEELIEMIHTINKEESE				NA	NA	NA	NA	NA
AK002_03975	843			hypothetical protein	ATGAAGCGATCATACGCTAGAAGCATGGAAACGTTGGGGATTCGCAAGCGGAAGGCTCAAACAGCGTCGTTTTATTACGAGAGCAAGCAGACCGGGGAAGAGCCGCTTACGAAGATTAGGGATTTGTTCACATGTCGTTATGCGTATGGCAGAGCGGCAGAATCCGTCATGCTCTCCGAGACGGGTCAGGATTTCATTGCATTGAAAATGGATGAAGAGGTCTGCCATTTTGTATTGTGTGACGGCGTCGGCTTGAGTTACCGAGGCGATGTGGCTTCGCGCCTGCTCGGTCAGGGCTTGATGAACTGGCTGGATACGGTTGAAGAGCCCACGTCCTCATCGCTGGAGCGCAAGCTGAAGGAACTAACGCATGAAGCAGATCGGGAAATGCGGACGCATTCGCTGAGCTCCGAAACCCCCAAGCTTCTGCGTGAAGTGCTGGAGGAGAAGCAGCGCAAGGGAAGCGAAGCCATGTACATATGCGGACGCATCGAGCGGTCAACGGGTTTTCGTCGAAAAGGAAGGCTGTGGCTTGCCTGGCAGGGAGACTCCAGGGTACGATTATGGCGTCAGCAGGACGAGATTACTTCAATATTCGGAGACCGCTTCCGAACGGCCGAACGCTGGTCTTCCCGCACCGGACCGATCGGAGGCAGTCCTCACGTGTTTACGTGCAAGCTGGAACCGGAGACCGGTTATCGCCTTCAATTATACAGCGACGGGCTTACGGATCTGGACCCGATGAAGGAGCCGATTCCCGATGAGCAAGTACAAGTATTAATGAATGCCCGCCATACAGGCGGTCTGGAAGATGACGCTTCCTTTCTGGAGATCGTATGGTAG	MKRSYARSMETLGIRKRKAQTASFYYESKQTGEEPLTKIRDLFTCRYAYGRAAESVMLSETGQDFIALKMDEEVCHFVLCDGVGLSYRGDVASRLLGQGLMNWLDTVEEPTSSSLERKLKELTHEADREMRTHSLSSETPKLLREVLEEKQRKGSEAMYICGRIERSTGFRRKGRLWLAWQGDSRVRLWRQQDEITSIFGDRFRTAERWSSRTGPIGGSPHVFTCKLEPETGYRLQLYSDGLTDLDPMKEPIPDEQVQVLMNARHTGGLEDDASFLEIVW				NA	NA	NA	NA	NA
AK002_03976	765			hypothetical protein	ATGTTATTCACGATGAACTATACCATTCAAGCATCACAGCGCACGCCAGCGCTCATTATATATCTGATTGATATCAGCGCGTCCATGAATATGCTGATGGAGGATCGCAGAAGGATTGATGTTGTTTACGAAGCGTTATCCTTAGCCATTCGGCAAATGGTGTTTCGTTCCACCAAGGGGAACCGGCTGACGCCGAGGTACCGGATCGCCATTCTTGCATACAGCGATGACGTATATGATTTGTTAAACGGGATCAAGGGCATTGACGAAATTGCGGCGATCGGCTCGCTTCCGGATTTGACGCCGAAGCGGTTCTCCGATTCGGCCAAAGCGTTTCTTCAGGCCGAGAAAATTCTGCAATCGGAGATTCCCAACATGCAGGATTGCCCTGCGCCGCTCGTATGCCATATGACGGATGGCGTGGCCACGGGAGAGGATCCGGAACCGATTGCCCGCCGTATCATGAATATGAGCGTTCCGGACGGAAACGTACTGGTGGAGAATATTTTCATCTCCGACCATCTGATGAACCAGCCGATCTCCGAACCACGCCGCTGGAAGGGGATATTGGCTGATACGCAGCTTGAGGATGAACACGCGCGCAAACTCAAGATGATGTCTTCCGTTCTTCCCGAGAGCTATCGAGAAATGCTGGTTGAGGCGGATTATCAGCTGAGTCCGGGGGCCTTGATGATGCTCCCTGGCACATGCTCCGAGCTGGTGTCCATCGGATTCCAGATGTCAGCCGCCACGCCGGTAAGGTAA	MLFTMNYTIQASQRTPALIIYLIDISASMNMLMEDRRRIDVVYEALSLAIRQMVFRSTKGNRLTPRYRIAILAYSDDVYDLLNGIKGIDEIAAIGSLPDLTPKRFSDSAKAFLQAEKILQSEIPNMQDCPAPLVCHMTDGVATGEDPEPIARRIMNMSVPDGNVLVENIFISDHLMNQPISEPRRWKGILADTQLEDEHARKLKMMSSVLPESYREMLVEADYQLSPGALMMLPGTCSELVSIGFQMSAATPVR				NA	NA	NA	NA	NA
AK002_03977	2070			hypothetical protein	ATGACATTTCAGCCAAACCCGGGCGATGGGATCGTTGTTAATGGAACGGCTTATACGGTAGGGCAGCATCCGGCTGCACCGGGCGTAGCTTATGCCCAGGCAGGGAGGCAAGGGATCGTCTATCAGCTGATTCCCGTGAATGGGGAGCTGCACGAAGCCAAAGCACTAAAAGTGTTTTTTCCTAAGTTCAGAATTCCGGCTATGGTTTATCAATCCGAGCATATGGGGAATTATCGCGAGATACCGGGTTTGCAGGTAAGCAGTCGAGAGGTGCTCACTCCCGAAAGAAACGGAGATTTGATAGCGGAATATCCGGATTTGCTCTACGCGGTCATCATGCCATGGATTCATGGATGTACTTGGTTTGACGTTATAAGCGATCAGCGTAATCTGGGACGTTCCGAAAGCCTGATGCTTGCCAAGGCTTTGGCAGCCATCGGCTCAAGCATGGAGCAGCGCGGATTGGCGCATTGCGATCTGTCTGCGCCCAATGTCATGCTTCCGTTTTTTTCGGAAGTGAAGCTGCCGGAAGGCGCTGCCGCCGTGGAGCTTGTCGATGTCGAGCAGATGTACAGTCCAAAAATGGACCGTCCCGACGTTTTGCTCGCCGGCTCGCCGGGATATGCGGCGCATCGAACGGTGCACAGCGGGTTATGGAGCGCGTATGCCGATCGTTTTGCAGGGGCCGTCATCATTGCCGAGATGCTGGGGTGGAGCGATCCGGCTATCGTGAATCGGGCATGGGGCGAAAGCTATTTTGATCAGCATGAAATGCAGACTCCGTGCGAACGTTATTTTTTGCTTAAAAAATCGCTGGGTCAGCGGTGGGGCACACGGATCTCGGATCTGTTCGGCAGAGCTTGGGACAGTCAGGATTTGAGCAGCTGCCCTACCTTTGGCGAGTGGCTCATCGCTTTATCCTCGGTTAGTGAGGAAGAAGTGGTGGAAGAAGCACCGGCTGCCACTGCCGCTGCGGCTGCCCAGGAAGAAAGTTCGGATGAATCCGGCTCTGAGCGTTCCCGGGAGGTGCCTGCAGACATCATGGCATCGCTTGGAATCGAGCCGGGCACGCGAGAGGTTAACGACAATGTGGTAGGACGCTTGTTTCATCAGGCGCGCGACTTGGAGAAGGCAGGCAATCTTTCCGGAGCATTGGAAATATTCCGTTCGGCGTATCACTTCGTCAAGAAGGACAGTCCGCTTGAAGTGGAGCTCGCCGCCGCCATACAGGGACTGGAGGAGCAGCTGCGCCCCGCTGAAGAATCATCCAACAAAGGGATTAAAGCCTTGTTGTCATCCCGCAAATTCATGCTCTCCACCGCTGCGGCCATCGTGATCCTGGCGGGTTCCGCGATTACGGTCAATCAGATTCTGGCTGAGAAGGCCGAGAACCGCCAGATGGATGCCCAGCGTTTAGCGGAGCAGCAGGCCCAGGAGAAAGAAGAGGCTGCGCGCAAGCAGGAGGAAGAAGCGCAGAAGCAGCAGGAGGAGGCTGCAAAGAAGGAAGCGGAGGCCAAAAAAGCCGAAGAGGAACGCTTGAAGGCGGAAGAGGCGAAGAAGGCCGAGGAAGCCGAGTTGGTGCGCAAAGAGCAGGAGAAATCCGAGCTTCAGGCAAAGTATGATAAGCAGGCGAAGTATGAAGCTTATCTGGCATCGCTTGAGGAGAAAAAGAAGAAGCAGGCGCTGCAGGAGAAATATGATAATCAGGCAAAATACGAGGCGTATTTAGCCCAGCAGGAAGAGAAGAAGAAAAGGCAGGCTCAGGAAGAGGCAGCGGCCAAGGCGGAAGCGGAACGACAGGCCCAAGCGCGGGCTGCTCAGCAAGCGCAAGCCGCCCAGCTTCAGAAGCAGCGGTCCCAAAACGTTGTCGAACTGGTTGCCTTATATAACAAGGCATATAATGCGCAGGTTGCCGGCAACAAGGACCGCGCGAAGAATGCCGCGCGTGAATTCATAGCGCTGTATAACAAGGACAAATCCTATTACAAAACGGTTGGCAAAATGAGCAGCCGCCTTAACAATCTGCAGCAATTCATCAGTGACGACAGCCACTGGATACCTAAACTGTAA	MTFQPNPGDGIVVNGTAYTVGQHPAAPGVAYAQAGRQGIVYQLIPVNGELHEAKALKVFFPKFRIPAMVYQSEHMGNYREIPGLQVSSREVLTPERNGDLIAEYPDLLYAVIMPWIHGCTWFDVISDQRNLGRSESLMLAKALAAIGSSMEQRGLAHCDLSAPNVMLPFFSEVKLPEGAAAVELVDVEQMYSPKMDRPDVLLAGSPGYAAHRTVHSGLWSAYADRFAGAVIIAEMLGWSDPAIVNRAWGESYFDQHEMQTPCERYFLLKKSLGQRWGTRISDLFGRAWDSQDLSSCPTFGEWLIALSSVSEEEVVEEAPAATAAAAAQEESSDESGSERSREVPADIMASLGIEPGTREVNDNVVGRLFHQARDLEKAGNLSGALEIFRSAYHFVKKDSPLEVELAAAIQGLEEQLRPAEESSNKGIKALLSSRKFMLSTAAAIVILAGSAITVNQILAEKAENRQMDAQRLAEQQAQEKEEAARKQEEEAQKQQEEAAKKEAEAKKAEEERLKAEEAKKAEEAELVRKEQEKSELQAKYDKQAKYEAYLASLEEKKKKQALQEKYDNQAKYEAYLAQQEEKKKRQAQEEAAAKAEAERQAQARAAQQAQAAQLQKQRSQNVVELVALYNKAYNAQVAGNKDRAKNAAREFIALYNKDKSYYKTVGKMSSRLNNLQQFISDDSHWIPKL				NA	NA	NA	NA	NA
AK002_03978	276			hypothetical protein	ATGGCAGGACGTATTTTAATTACGCCAGAACAAGTGGAGCAAGTAGCGAACCAATTTAAACAGAGCGGTGATCAAAGTCAGCAAATCGTTAACAGCCTGACGCAATCGATCAACGGAATGGAAGGTCAATGGGATGGTATGACGAAGCAGCGCTTCTTCCAGGAATTCCAGGAAGCAAGCCGCTTGATGAACTCCTTCGTACAAACGCTTGACAGCATCAGCAATGAGCTGAAGGCGATCGCTCAGAAATTCCGTATGGCTGACGAATCCCGTTAA	MAGRILITPEQVEQVANQFKQSGDQSQQIVNSLTQSINGMEGQWDGMTKQRFFQEFQEASRLMNSFVQTLDSISNELKAIAQKFRMADESR	PGPT0030476_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_VI_SECRETION_SYSTEMS	CE-Type_VI_SECRETION-ESS_SYSTEM,PGPT0030476-esxA-NA	NA	NA
AK002_03979	513			hypothetical protein	ATGCGTATTTCTGTCGAGCCGGAGTCTCTCCGGACGTTAAGCCGTCAGCTGCAGCATAGTGGCGATGAATATTTAGCGATAACGAGAACTCTCAACCAAGCCATGGAATCCCTTGTTTGGGAGACGTCTCTCAAAGCGGCGGTTATTGATGAATGGCAGTCTGCCCGGAGTCTTGGAGAGCATCTGGGAGCTCTTCTTGCTCAGCTGGGCAAGCATCTTCAAAGCAAAGCCGATCAATTTCAAGAAACGGATCATCAATACCATACGATTTTGGAGCATGCTATCGTAAGCACCGTATCACCGACGGCTCTGTTTGCCGCTTCCGGGATGGATGGGCGCTCGTCCATACTTCCGGAATATGGTAACTCCGGCACGGTTATATCGAACCCGAGTTCGGCAGCCGCAGCCGTGGGCATGTCCAGCGGAGACAACGGGGGAACGGCTAAACAGGCCGCATTAGCCGGGCAGAGCTGGACCTTTACCGATCCGTCTTCGTTTGGGATTGCCAACTAA	MRISVEPESLRTLSRQLQHSGDEYLAITRTLNQAMESLVWETSLKAAVIDEWQSARSLGEHLGALLAQLGKHLQSKADQFQETDHQYHTILEHAIVSTVSPTALFAASGMDGRSSILPEYGNSGTVISNPSSAAAAVGMSSGDNGGTAKQAALAGQSWTFTDPSSFGIAN				NA	NA	NA	NA	NA
AK002_03980	807			hypothetical protein	ATGTTGACAATTCATGCTTCCAAACAAGAAACGATCACGCTGAATGACAAGGAATTTTTCTTCTTGGCTGGAATTATCGGATCGGACCGATTACTTGGTGTTGAAGATCCTTTTGTAGGATATTTAACGGAAGAAATCGCGGTTGAGTGGGAGAAAACCAAACAATCGCTCCTAAGCAAGCAATATTTGATTCAAGAGGAAGGCGGGGAATTGTCGATTCCACCCGAAGTCTTCTCACGAGTGGCTATTGCCGGTCTTGCGGAACGGGCGTGCTGGTTGAAATATGAAAATCAGGATTCGGCGTTTGAAGGATATTTGCATGTTACTGACGAACGGGTAATACAAGTATGCAGAAGCGATGAAGACAACCGGTGTTACATGCTTAGCGAACTCGGTACCATCGAACAAACCTGCGATCAACTGGTGCAGGATCTGGCCCTCAGCGACCAAAACTGGGGAGATATTCCGGCTCTGTTGCTTAGCCGGAAGGAATTCGGCGATATCTACACCTCGGTTACCGAGCATAATTGCGACGATATCGGCGATCGTTTGGCCAGATTGACGGACGATGCGGAAGGTTCAATCGCTTTGGCGAAATGCATGAAGAACAAGGTATCTTCGGGGGAACTCCAGCTGTCGATTTGGAACGGTATCAGCTGGGAAAGTCAAAATGCAGCATTTATAGTGAACGAGTCCATGAATTGGCTGCTGCGTATGAGCCTGGAGGGAGACCAGGACTGGCTAACCGCAGCGCCAGCGACCAAAGAGCAGTTTCGTCATATGTTACTCATGTGGCTGAAACAGTAA	MLTIHASKQETITLNDKEFFFLAGIIGSDRLLGVEDPFVGYLTEEIAVEWEKTKQSLLSKQYLIQEEGGELSIPPEVFSRVAIAGLAERACWLKYENQDSAFEGYLHVTDERVIQVCRSDEDNRCYMLSELGTIEQTCDQLVQDLALSDQNWGDIPALLLSRKEFGDIYTSVTEHNCDDIGDRLARLTDDAEGSIALAKCMKNKVSSGELQLSIWNGISWESQNAAFIVNESMNWLLRMSLEGDQDWLTAAPATKEQFRHMLLMWLKQ				NA	NA	NA	NA	NA
AK002_03981	3984	eccC	COG1674	ESX secretion system protein EccC	ATGAACGTGTTGTACCAACGTTCGCCGCGCATTAGACCGGCTTTACCGAATGAAGACTTGGAAATTCTGAGACCCCCGTCCGAACCAAGCAAACCGTCGTTCTCGATGATTGCCATCATCATCCCGATTATTATGACGGCGGCGACGATCGGTTTCTATGTCTATATGAACGTAAGCGGTAAGATGGGGAATCCCAATTACATGATGTTCCAGATGCTCTCCATCTTTATGATGCTGACATCCTACACGCTGCCGTTCTTCATGTATTTAAGCAACAAGAAGACCTATCAGAAGAACCTGGCCGAACGCAATCAGAAGTACCGGGCTCAGCTTGATCTGCATCGGGAAGAACTGAAGGAGCGGCAGGAGGATCAGGTCCATATTCTGTTTGACATCCATGGGGATCCGGACGTCTGTTATAACGTTGTGAAGAACCGGAGCAGCAGCTTGTGGGAACGTTCCCCGGAAGATAAGGACTTTTTGGAGATTTGCGTGGGCAAGGGGGAGGTTCCGTTTCACATTAACGTGAAGCCTCCCCGTGCGGACGGGTATGATAAGGACCCGTTAATCGAAGCGGCCGAATTGCTGTCATCCGAGTTCCAGACGGTCGACGATGCCTCTATTGCATTGCCGTTATTCGAATCCAAGGTCATCGGGATCGTGGGCGGAAGAGAACGCGTACTAAACATGCTTCGCGTCATGATGGCCCAAACCGCCGTCAGGCACTCGCCTGACGAAGTGAAAATCGCCGCCTTCTACGAGGAGAGGGAAGCGAGCGAATGGCAGTGGCTGCGGTGGCTGCCCCATACCTGGGATGATGACCGTTCCAGCCGCTATCTTGCGGATCGACGGAGCAATGCGCATCAGCTTGCTGATGAAATATTTACCCATTTATACCGGCGTAAAAACAATCGCTCCGAACATGGAAAAAAATCGATTGAGACGCCGGCTTACGTCGTGATCCTATCCGCAGCCCAATTGATTGAGGAAGAACCTCTGCTGCCTCTGTTGATGGAAGATGCCGATGCGGCTGACGCCGTCACCATCATCTTGTCCGACCGGAAAGAAAGCTTGCCGATGCACTGCCAGCTTATCGTCGAAGTCGATCGGGAGCAGGCGGCGTACACGATTAAGAAACCGGACGGCACCGTCTCCAAGCAATCCTTCCAATCCCATCATATCAGCAGGGAACAGATCGAAGCATTGGCCCGGTATATGGCGCCGATTCGGCTAAAGCGGTCTTCTGCATCCGATATTCCTAGCGTTTTGGCACTATTCGAGATGATGGATATTCAGAAAATCAACGATTTGGATGTTTATAAACGCTGGCAGCAGAACCGATATCCGGATTCATTGCCCGTTCCCATGGGTGTGCGAGCGGGCGGAAAGAAGATTAATTTGAATCTTCATGATAAAATAGAGCGTCAAGGTCATGGTCCGCATGGCCTGATCGCGGGAACGACCGGTTCCGGGAAAAGCGAGGTTATCCAATCCATCGTGGCTTCCCTGGCATCGGAGTTTCACCCTCATGATCTAGCATTCATGCTAATCGACTATAAGGGCGGCGGCATGTCCAATACGTTTGTGAACCTTCCGCACGTCGTGGGCACCATAACGAATTTGGACAACAATCTGATCGAGCGGGCGAAGGTGTCGCTCAAAGCCGAATTGGTCCGCCGCCAGAAAATATTGAACGATGCGGGAAACCTGCAGCACATTGACGAGTATTACAAGCTGCTGCGAAATCGCCATGGCGAGCCGCTCCCGCATCTCGTCATTATCATTGACGAATTTGCACAGCTGAAGAAAGATCAGCCGGAATTTATGGATGAATTGATCAGCATCGCCGCAATCGGGCGAACGCTGGGTGTCCATTTGATCTTGGCGACGCAGAAGCCGGCCGGCGTCGTGGACGATAAAATTTGGAGTAACTCGCGCTTCCGCATCTGTCTTCGGGTACAAAGCGAAGGCGACAGCCGCGACATGCTGAAGATTCCGAATGCAGCCTGGATCAACAAGCCCGGACGAGGCTACTTCCAGGTGGGCAGCGATGAAGTGTTTGAAGAAATGCAATTTGCTTGGAGCGGCGCTCCTTACGTTGAAGAGAAGGATACGCCTGGCGCTGTCTCCATCCGCGAGGTCCGGATCAACGGGAAGACGGAACCGCTGCTTGCGTCGACTCCGTCCCTGGGAGCGCATCTGGAAGTGCCCAAACAGCTGCAGGTGTTTATCGACCATGTAGCGGAAGTGGCCAAGGCGCAAGGGATTGAGCGGCTGCAGGGGCCTTGGCTTCCACCGCTTCCGGAGAGCCTGGATTTGGAGTCAGTGCAATCCGGCATCGAGCAGCCGGTAACGTTCGGCGATTCGGCACTCGTGTCTTATGTCGGAATGGTTGACGATTTGCCTAACCAATGCCAGAAGCCGCTGGTGCTCAATCTGGAGCAAGGCCACTGGGCCGTATATGGGATGCCCGGGCTCGGAAAGACAACCTTTATTCAAACGATGCTTATGTCTTTGGCGAGTCGATATACCCCGGACTTTTGGCATGGATATATCGTGGACATGGGCCGGATGATGCGGGACTTTGCAGGACTGCCGCATATCGGGGGAGTCATGACCGCAGAGGAAGATGATCGGATCAAGCGCCTGTTCCGTTTTCTTGCGAAAACGGCCGCTGTGCGCAAAGACATGATCGCCGAGGCCGGCGTGAAGACCGTTGCTTCCTACCGACGTGGCAGCACGGTGACGGTTCCGCAGCTGGTCGTGGTTATTGACGGTTATCTGAACTTTAGGAATTCCTATCCGGACGAGAATGATATGCTGGAATATCTGCTGCGGGAAGGCGGCAGTCTGGGCATCACGTTTATCATCACGGCGAACCGGATTTCGGATATGTTCGAGAAGGTCCGGAGCAATATCTCGCAAGCGGTATCGTACGAGCTTGCCGATCCGGCCGACTATTATTACGCGGTGGGTCGTCCCACGAGAGCCCCGAGCCAGCTTCCGCCAGGAAGAGGACTGGTCAAAGGCCAGGTGCCTCCACTTGAATTCCAGACCGCACTTCCGGCTTCCGGCCAGGAGGAGGGGGACCGTTCGGCAGCGCTTCGCGACATGATTCGGGTACACCATGAATCATGGCATGGCGAGGAAGCCCCGCGGATCGAATCGCTGCCGGACAAGATTCCGCTCCATCAGCTGCTTAAGGTGAAAAAGCCTTATGAAGCGGCCGCAACGGTGAAGTATCAGGTGCCCGTCGGGGTGGCTACGGATGATCTGACTCCTTTTGCGATCAATCTCGAGGATGGGCCTCATTTTATCGTGGCCAGTCCGATGGAAGGCGGTAAGACGTCGTTCCTTCTTAGCTGGATGCTATCGCTCGCATATCATACTTCTCCGGATGAGCTGGAGATCTATACGGTGGATACGCGCTATGGAAGCAGCGGCCTGAGCCGGATGAACCATCTCCCGCATGTCCGCGGCCACGCGGAGAACGAGGAGGATCTGGGGCCGCTCATTACGAGCCTTTATGAGCGGGTTCAGACCCGGTCGAAGGAGAGCGAGGACCCGGCCATCCTGCTTATGATTGATGATGCCGACGTACTCAGCAAGCAGCTTTCGGATTTCACCTTGAAGGACCAGCTCTCGGCCATCGTCAGACAGGGAAGGGACCGCAGGGTTCATGTCGTCATTGCCGGCGTGCCGGCGGATTTCCCTACGTATGGCGTCGACTGGTTTACCGATATCAAGGCTGCTCAAAACGGATTTTTATTCGGGACCTTGGATTCCAACGATTTATCGTTCTTCCGGATTCCTTTTTCCGAATCTTCTAATAGTCCTGGAGGACTAAAAATACTTCCGCCGGGACAGGGGTACTACGTAAAACGTAAATTTTCCAGAATAAAAGGCGCAGTTCCGTTCGATGAGGAATGGAACGCCCAAAGATGGGTCACAGAAATTCGCGACCGATGGCATGTTGTAGTTTGA	MNVLYQRSPRIRPALPNEDLEILRPPSEPSKPSFSMIAIIIPIIMTAATIGFYVYMNVSGKMGNPNYMMFQMLSIFMMLTSYTLPFFMYLSNKKTYQKNLAERNQKYRAQLDLHREELKERQEDQVHILFDIHGDPDVCYNVVKNRSSSLWERSPEDKDFLEICVGKGEVPFHINVKPPRADGYDKDPLIEAAELLSSEFQTVDDASIALPLFESKVIGIVGGRERVLNMLRVMMAQTAVRHSPDEVKIAAFYEEREASEWQWLRWLPHTWDDDRSSRYLADRRSNAHQLADEIFTHLYRRKNNRSEHGKKSIETPAYVVILSAAQLIEEEPLLPLLMEDADAADAVTIILSDRKESLPMHCQLIVEVDREQAAYTIKKPDGTVSKQSFQSHHISREQIEALARYMAPIRLKRSSASDIPSVLALFEMMDIQKINDLDVYKRWQQNRYPDSLPVPMGVRAGGKKINLNLHDKIERQGHGPHGLIAGTTGSGKSEVIQSIVASLASEFHPHDLAFMLIDYKGGGMSNTFVNLPHVVGTITNLDNNLIERAKVSLKAELVRRQKILNDAGNLQHIDEYYKLLRNRHGEPLPHLVIIIDEFAQLKKDQPEFMDELISIAAIGRTLGVHLILATQKPAGVVDDKIWSNSRFRICLRVQSEGDSRDMLKIPNAAWINKPGRGYFQVGSDEVFEEMQFAWSGAPYVEEKDTPGAVSIREVRINGKTEPLLASTPSLGAHLEVPKQLQVFIDHVAEVAKAQGIERLQGPWLPPLPESLDLESVQSGIEQPVTFGDSALVSYVGMVDDLPNQCQKPLVLNLEQGHWAVYGMPGLGKTTFIQTMLMSLASRYTPDFWHGYIVDMGRMMRDFAGLPHIGGVMTAEEDDRIKRLFRFLAKTAAVRKDMIAEAGVKTVASYRRGSTVTVPQLVVVIDGYLNFRNSYPDENDMLEYLLREGGSLGITFIITANRISDMFEKVRSNISQAVSYELADPADYYYAVGRPTRAPSQLPPGRGLVKGQVPPLEFQTALPASGQEEGDRSAALRDMIRVHHESWHGEEAPRIESLPDKIPLHQLLKVKKPYEAAATVKYQVPVGVATDDLTPFAINLEDGPHFIVASPMEGGKTSFLLSWMLSLAYHTSPDELEIYTVDTRYGSSGLSRMNHLPHVRGHAENEEDLGPLITSLYERVQTRSKESEDPAILLMIDDADVLSKQLSDFTLKDQLSAIVRQGRDRRVHVVIAGVPADFPTYGVDWFTDIKAAQNGFLFGTLDSNDLSFFRIPFSESSNSPGGLKILPPGQGYYVKRKFSRIKGAVPFDEEWNAQRWVTEIRDRWHVVV	PGPT0030468_1155	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
AK002_03982	312			hypothetical protein	ATGATACTCACCGTGATCAGCGGTCGAAACGAAGATGATTGGTTTGATATCGACGTACCCGATGAATGCTCCATTGAACGGTTGAACGAGCTGCTGGGATTACGTCTTTTTCGCGAACCCTCGAGTGAAGGAATTCAATATATATTAGAAGCGAAGTTCCCGGAAGGCTTGTGGTTTACGGTAGGCGGCCACTCTAACCTGGTTGAAGCGGGATTGAGGGAAGGGTCCTACGTACGTTTGCAGCGGGCATTCTCGACAACCACCGATGAAGCTCCTGTCTATGGCAGAAGATCGTTGTTTCAAGAGAGCTGA	MILTVISGRNEDDWFDIDVPDECSIERLNELLGLRLFREPSSEGIQYILEAKFPEGLWFTVGGHSNLVEAGLREGSYVRLQRAFSTTTDEAPVYGRRSLFQES				NA	NA	NA	NA	NA
AK002_03983	240			hypothetical protein	ATGAAAACACTGATCATGTTCCAAAACAAGCCGGTTCCCGTTTATTTTACTACGGATAGCAAGCAGCCGGTTCAAAAGGTATTGAAACTGCTAACCAGCGCGCTTGACCATAAAATCCAAACCGGCAAAAAGGCGCTGCAAAAATGCCTCAACTCCCTCATCAGCATTGAAATCGAGGGATCCGAGGCAATTCTACACAGCAAAAGCGAAAACGACTCTCTTGCGCTATCTCTCTTTTAA	MKTLIMFQNKPVPVYFTTDSKQPVQKVLKLLTSALDHKIQTGKKALQKCLNSLISIEIEGSEAILHSKSENDSLALSLF				NA	NA	NA	NA	NA
AK002_03984	135			hypothetical protein	ATGTCCATCGATCGGTTTATATTAAAAAAGCTGAGTAATTGCCAGGAGATCACAACGCGGAGAAATCTCGTGAAATTGTTCCAGATCCGAATTCAGCGGGCGCAGATAGCCGAGGATCGTTATTACGGGGTATAA	MSIDRFILKKLSNCQEITTRRNLVKLFQIRIQRAQIAEDRYYGV				NA	NA	NA	NA	NA
AK002_03985	330			hypothetical protein	ATGAATGTCAGTATTCAATTCAAAAAGGGCGTTCTTGAACTCTGCGTGCTTGTGCTGATCCATCGCAAGGACCAATATGGCTACGAGCTGGCTCAAGCCGTCTCCCGGCATATCGAAGTAGCCGAAGGCGCCCTGTACCCTCTCCTTCGCAGGCTAGTTAATGAAGGCTACTGCACCACCTACCTCCAGGAATCGAGCGAGGGTCCCCCCCGTAAATATTATAAGCTGACGGACAGCGGAGTGATCTATATGCGATCTATGGTGAAGGAATGGCAAGCATTTGTAAGCAACGTGACCAATTTGATAGAGGAAGGGAATTTGTATGACTAA	MNVSIQFKKGVLELCVLVLIHRKDQYGYELAQAVSRHIEVAEGALYPLLRRLVNEGYCTTYLQESSEGPPRKYYKLTDSGVIYMRSMVKEWQAFVSNVTNLIEEGNLYD				NA	NA	NA	NA	NA
AK002_03986	561			hypothetical protein	ATGACTAAAAAACAGTTTATTTCGATTTTGGAATCTCGCCTTGCCGCGCTTCCTCCGGGGGAACGCCGGGAATTCATTCAGGATGTAGAGTCCCATTTTGTCATCGGCATGCAGAATGGGCGTTCCGAAGAGGAGATTGCCCGGGAACTTGGGGATCCTTTTGAAATGGCGAAGGAAGCGTTAGGCGACCGGTACGTGGATATGGAAATGCCTGCTCCCGCGGCGGTCAGAAGGCCGTCTGCCATAGGCAAATATGCGATAGGAACCGGTTTGTTCTTCTGTGCATTAGTGACCGTCCCGTTCCTTGCGGCATTATGGTCCGGTGGCGTCGCCATCGCTCTGGGAGCCCTGGCAACCTTGCTGAGCCCGGTGCTCGTTCTGCTCGATTACATCCTGAATGGAACGTTTTATCCGGCTAAATTATTCTTATCGATCTCCTTGATCGGAATCGGCATCTTCCTCGGTTATGCCACACGCTCGGCCATGGTCGGTTTGTTATCATTAACCTTGAGGTACTCCAGATGGAATACACGTTTGTTGAAGGGTCGTGACGCACTGTGA	MTKKQFISILESRLAALPPGERREFIQDVESHFVIGMQNGRSEEEIARELGDPFEMAKEALGDRYVDMEMPAPAAVRRPSAIGKYAIGTGLFFCALVTVPFLAALWSGGVAIALGALATLLSPVLVLLDYILNGTFYPAKLFLSISLIGIGIFLGYATRSAMVGLLSLTLRYSRWNTRLLKGRDAL				NA	NA	NA	NA	NA
AK002_03987	789			hypothetical protein	ATGGCCGCAAACAAGTTTAAATTCGGGGAAGAGCTGGTCAGCTATCAGAACCGATGGGATCTGCAGGATGCCGTGAATTTGAAGAAATTAAAAATTACCAGCAGCATGAATATCAGCTTCGCTTTCGAGGATAGCGCCGATGCTAACGGGTATATCGCTTTTGACGGCAAGTTAAAGCCGGAGCATGTCGATATTCTTGAAGCTTTTGAGCCTGTAGGCCAAGAAATCGAATTAGATCTGAGTACTTCTGATTCTTTTCAGTTTATGAGCGTGAACTTTCATTCGCCGAAAGGGAGAATAACCATTGTCCTTCCTTCAAACACGAAACTCGAGGACCTCGATTTATCAACGTTCTCCAATAACATCCAGGTAAGCGGCGCTTCGTCCAAGTCGATTGCCATTTCCGTAAAGTCAGGCAACATCAACATGAACGGAATCGTAGCTGACCAGTTGAACGTAGAGAACATTTCGGGCAGTATTCGCGGCTCCGACATTCAGGCCTCCACTCAACTCGTCAATCATTCAGGAAACGTCGAATTGAAAGATATGGAAGGCCCCCTGGACATCGAGGTCACTTCCGGCAATGTAAACGTAGGATTGCTCGGCGTTTCGTCGGTGAATATCCTGTGCAGATCAGGCAACGTGAAAGTGCAGCCTGACCCTTCATTCCGCGGTTTCTATGACCTTAAGTCGCTCACCGGATCAATATCGGCGCCAGAGTCATTGAAGGAAACAACCGATACCATCCAAGTGGAAACCTACTCCGGCCATATCGATATCGTACACTAA	MAANKFKFGEELVSYQNRWDLQDAVNLKKLKITSSMNISFAFEDSADANGYIAFDGKLKPEHVDILEAFEPVGQEIELDLSTSDSFQFMSVNFHSPKGRITIVLPSNTKLEDLDLSTFSNNIQVSGASSKSIAISVKSGNINMNGIVADQLNVENISGSIRGSDIQASTQLVNHSGNVELKDMEGPLDIEVTSGNVNVGLLGVSSVNILCRSGNVKVQPDPSFRGFYDLKSLTGSISAPESLKETTDTIQVETYSGHIDIVH	PGPT0028810_174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028810-liaG-K11621	NA	NA
AK002_03988	627	azoR4	COG1182	FMN-dependent NADH-azoreductase 4	ATGTCGAATGTACTATTCATCAAAGCAAACAACAGAGCGATCGAACAATCGGTCAGCGTAAAAATGTACCATGAGTTTCTGGAATCCTTCAAAGCAAGCCATCCGGAAGATCAAATCACGGAGCTTGACCTGTTCGCAGAGAATCTTCCATATTACGACGGAACAGCCATCAACGGTATGTTCAAAGCCGCCAAGGGTTTGGAAGCTACTCCTGAAGAGCAAGCGGCTGCTGCCAATGTCAGCAAATATCTTGACCAGTTCCTTGCCGCAGACAAAATCGTGCTGGCTTTCCCACTGTGGAACATGACCGTCCCTGCCGTTCTTCATACCTATATCGATTACCTGAACCAAGCAGGCAAAACGTTTAAATATACACCGCAAGGCGTGGTAGGTCTCGTGACCGGCAAAAAAGTCGTCATCCTGAATGCACGCGGCGGCAATTATTCCGAAGGTCCTATGGCTGCAGCAGAGATGGCTGTCAACTTCGTTATGGGCAATCTTCGTCAATGGGGCGTGCAGGATATCGAAACCCTCATCATCGAAGGCCACAACCAGTTCCCTGACGAAGCGGAAATGATCGTTCAGAACGGTCTTGAGCTTGTTAAAAAGGCCGCTGCCGGATTTTAA	MSNVLFIKANNRAIEQSVSVKMYHEFLESFKASHPEDQITELDLFAENLPYYDGTAINGMFKAAKGLEATPEEQAAAANVSKYLDQFLAADKIVLAFPLWNMTVPAVLHTYIDYLNQAGKTFKYTPQGVVGLVTGKKVVILNARGGNYSEGPMAAAEMAVNFVMGNLRQWGVQDIETLIIEGHNQFPDEAEMIVQNGLELVKKAAAGF	PGPT0006790_1472	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK002_03989	306			hypothetical protein	ATGGAACAGACTGCCCGAGAAGCCTACAAAGCATCCGTTCTTCGCAGTTTTATTGCTAAGGACGGATCCTTGCGGTCCATCCCGGCACAGTATAAAAAGAAGCTGGTCATCTTGGAATTTTTGGTGGAGCAGCTAGAGGCGGGGAGGGAATATCCGGAAAAGGACATCAATGCGTTTATCAAGCGCTATCACGAGGATTATGCGACGATTCGGCGAGAATTTATCAATCATCGATATATGAGCCGGGATCAGGAAATCTATATTCTTAACCCGCGCGAGGAATGGACGCAGTGGGATGCGCTTTAA	MEQTAREAYKASVLRSFIAKDGSLRSIPAQYKKKLVILEFLVEQLEAGREYPEKDINAFIKRYHEDYATIRREFINHRYMSRDQEIYILNPREEWTQWDAL				NA	NA	NA	NA	NA
AK002_03990	978		COG0492	Ferredoxin--NADP reductase	ATGCTCGACGTCTTAATTATCGGCGCAGGCCCATGCGGTCTAGCAGCTGCCATTGAGTGCGGCCGCCAGGGCCTCAGCTGCGAGATCATTGATAAACACAACGTAGTCCATTCCATTTATCTCTATCCGACCCATATGCAGTTTTTCAGTACGGCTGAAATGCTTGAAATCGGAGAAGTTCCGTTCGCCATATCGAATGACAAACCGTACCGGCACGAGGCGCTGGCCTATTATCGTCGGGTCGCCAAACATTTCAACCTGAATATCTCCCCATACGAAGAAGCCCTCACCATAACCAAGCAGCCTGACGGCAGCTTTCAGGTAAAGACGCGGCGCCGCGGCGGTGAAGAGACCCTTCGACAAGCCAAACACGTAGTCATTGCTACGGGTTATTTTGATCATCCGAATTATATTGGCATTCCTGGTGAAGACTTGGAGAAAGTAACCCATTATTTCAGGGAAGCCCATCCTTATGCCGGCATGAAAACAGCGATCATCGGCGGCAGCAATTCCGCGGTGGATGCAGCCATGGAGCTGATCCGTGTCGGGGCCGAGGTTACGATGGTCTACCGGGGCGAGGAAGTCTCGCAGAACATTAAACCTTGGGTTCGGCCCCTGTTCGACAGCATGGTTCAAAAAGGGCATATCCAGCTTCATCTCAACTCCCGCGTCGTTCAAATCGCGGAGTCTTCCATTACCGTCCTTTCGAATCAGGGACAAGAATCGATCATCGAAAACGACTTTGTATTGGCATTGACCGGGTTCCGTCCCGATCGCAAACTGCTCGCCTCTTCCGGCGTCCAGCTTGATGAAGATATGGAGAAACCTCTCTATAATCCGGATACGATGGAGACCAATGTTCCGGGACTGTACGTCGCCGGCGTAATTGCGTCCGGCCGTAATGCCAATGAGGTGTTCATTGAAACCGGCAGGCTGCACGGCCGATTGATCGCGGAGCATCTGGGCACAAAGGTGTAA	MLDVLIIGAGPCGLAAAIECGRQGLSCEIIDKHNVVHSIYLYPTHMQFFSTAEMLEIGEVPFAISNDKPYRHEALAYYRRVAKHFNLNISPYEEALTITKQPDGSFQVKTRRRGGEETLRQAKHVVIATGYFDHPNYIGIPGEDLEKVTHYFREAHPYAGMKTAIIGGSNSAVDAAMELIRVGAEVTMVYRGEEVSQNIKPWVRPLFDSMVQKGHIQLHLNSRVVQIAESSITVLSNQGQESIIENDFVLALTGFRPDRKLLASSGVQLDEDMEKPLYNPDTMETNVPGLYVAGVIASGRNANEVFIETGRLHGRLIAEHLGTKV	PGPT0013060_3889	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK002_03991	444			hypothetical protein	TTGGACGTTACCTCGCTCATTCTGCTGGCAATGGCGGGCCTGGGCATTATCAGCAGCAATTCCGCCGTGACCATAGCCATGCTGACATTGCTGCTCATCCGCGTCACCGGCTTCCAGCAAGCCTTCCCATGGCTTGAGAAATACGGGCTGACCCTCGGCATCATAATTCTCACCATTGGCGTAATGTCTCCGCTGGCGAGCGGCAAAATGAGTCTCCAAACGATCGGTGAATCCTTCCTGAATTGGAAGTCGCTTCTGGCCATCGCCGTCGGCATGCTTGTCGCCTATCTGGGCGGACGCGGAGCCACGCTGATGGGCAGCAACCCTACGGTAGTCGCCGGCCTGCTCGTCGGCACCGTGCTCGGGGTAGCCCTATTCCGCGGCGTGCCCGTCGGGCCGCTCATTGCAGCCGGCCTGCTTTCCTTACTTATCGGCAAATCGTGA	MDVTSLILLAMAGLGIISSNSAVTIAMLTLLLIRVTGFQQAFPWLEKYGLTLGIIILTIGVMSPLASGKMSLQTIGESFLNWKSLLAIAVGMLVAYLGGRGATLMGSNPTVVAGLLVGTVLGVALFRGVPVGPLIAAGLLSLLIGKS				NA	NA	NA	NA	NA
AK002_03992	906		COG0382	Decaprenyl-phosphate phosphoribosyltransferase	TTGTCTTCAACGAATACCGAATCGGCCGCTGCCCCGTTAAAGCAGCTTCCCATGCTGCTCTTCAGGCAGCTAAGGCCGAAGCAATGGACCAAAAATTTGTTAATATTTGCAGCCCCCCTCTTCTCGTTTGAAACGGTAAATCCGGGGTCGCTTGTTGAAACCTTGATCGGTTTCTTCCTGCTGTCCTTCGTTTCGGGCTGCGTCTACATTGTGAACGATTATGCCGATCGCGAAGCGGATCGCAACCATCCGGTGAAGAAATACCGGCCCATGGCCTCGGGAGCACTCCCGCCTAAGCTGGCTGTCGTGTTCGGCATACTGCTGCTGATCGCTTCGCTGGCCGTCTCTTATCTGCTCAATCCGCTGTTTACCGCATTACTGCTGCTCTATTTTGCCATGAACGTAGCTTATTCCTTCCGGCTGAAACATGTTGTCATCATCGACATCATGATTATCGCGACCGGGTTTGTGCTGCGCGCCATCGCAGGCGGGCTCGTCATTCACGTCCCGTTCACGCCCTGGTTCCTTTTATGTACCATGCTGCTATCGCTCTTCCTGGCGATCGGCAAGAGACGGCATGAGCTTCATCTGCTGCAGCATGACAAGGGCTCTCACCGCAAGGTCCTTGATCAATACTCGTTTGATCTGCTCGACCAGATGAGCAGCATCGTTACAACGGCAACCATCATCAGCTATTCGCTCTTTACCTTTACGTCAGGCAGGACCGTTCATCTTATGTGGACCATTCCGCTCGTCATCTACGGGATGTTCCGATATCTTTATCTGATTCATATCGAGAAAAAGGGCGGAGCCCCGGACCGGGTGCTCCTGGAGGACTCGCACATCCTGGTCACCGTGATCCTCTATGTCATCAGCGTTATCGGAATATTGATCTATTTTGAGTAA	MSSTNTESAAAPLKQLPMLLFRQLRPKQWTKNLLIFAAPLFSFETVNPGSLVETLIGFFLLSFVSGCVYIVNDYADREADRNHPVKKYRPMASGALPPKLAVVFGILLLIASLAVSYLLNPLFTALLLLYFAMNVAYSFRLKHVVIIDIMIIATGFVLRAIAGGLVIHVPFTPWFLLCTMLLSLFLAIGKRRHELHLLQHDKGSHRKVLDQYSFDLLDQMSSIVTTATIISYSLFTFTSGRTVHLMWTIPLVIYGMFRYLYLIHIEKKGGAPDRVLLEDSHILVTVILYVISVIGILIYFE				NA	NA	NA	NA	NA
AK002_03993	633			hypothetical protein	ATGAATCAGAAATTCGCTATTTTTGACATCGACAAAACGGTCATCCATACGGACTCCATGTTCCAATTTTTGAAGTACGGCATACGAAAACACCCTTCCACGACACCGGTCATCCTGAAAGTCGTACTGCATTCCCTGCTCTACAAGCTCCGTCTCCTGGAAGCCGAAAAGGCAAAAAGCGCGTATTTTCATGCGATGCGCCATCTGGATGACGCCGACCTGAAGCATTTTTACGAAACGGAATTGAAGCCTGCCATCTTCCCGGATGCCCTGAAGGAAATGCAGCTGAAGAAAAGCGAGGGCTATCATGTCCTGCTCGTAACCGCGTCCCCCGACGCTTACATGAGATACTTTGCGGAGCTGCCCTGCGTCGACGCGGTCATTGCCACCAAATTATCCGTTCGGGATGGGCGTTTCACGTCGATGATTGAAGGAAACAACTGCAAGGGGGAGGAGAAAGTGAACCGGATTCGGCAATACTTAAGCGAGCAGCGGCTGGCCATTGATTACGACACTTCCTGCGCGTACTCCGATTCCTTATCCGATCTGCCGATGTTTCGGCTTGTTAAGCACAAATATTTGATCAATCAAAAGTCCGCCCATGGATGCGAGGGATTAACATGGAACAAGTAA	MNQKFAIFDIDKTVIHTDSMFQFLKYGIRKHPSTTPVILKVVLHSLLYKLRLLEAEKAKSAYFHAMRHLDDADLKHFYETELKPAIFPDALKEMQLKKSEGYHVLLVTASPDAYMRYFAELPCVDAVIATKLSVRDGRFTSMIEGNNCKGEEKVNRIRQYLSEQRLAIDYDTSCAYSDSLSDLPMFRLVKHKYLINQKSAHGCEGLTWNK	PGPT0007720_506	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
AK002_03994	342	arnE_1		4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnE	ATGGAACAAGTAAAAGCGCAGAGCGCCCCGCGCCACTTAGGCAAGCTGTTTATGATCCTGTCGGCTTTTTTGACGGCGACCGGCCAGCTGTTCTGGAAATGGGGGCACGCCAATTTGGTGTATATGGGAATCGGGTTTGTCTGTTACGGCCTGGGAGCCATCCTCATGATCAAATCGTTTTCCCTGGAGAAGCTGTCCGTCGCTTATCCCCTAATGTGCATCAGCTATATCGTGGCTTTGTTTTATGGGGAGTTCTTTCTGGATGAGCCGTTAACCTTGAAAAAGCTGGCCGCCGTGGCCCTGCTTGGAATCGGGGTGACATTAACCTCCTATGAAAAGTGA	MEQVKAQSAPRHLGKLFMILSAFLTATGQLFWKWGHANLVYMGIGFVCYGLGAILMIKSFSLEKLSVAYPLMCISYIVALFYGEFFLDEPLTLKKLAAVALLGIGVTLTSYEK	PGPT0007720_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007720-pgpC-K18697	NA	NA
AK002_03995	321	arnE_2		4-amino-4-deoxy-L-arabinose-phosphoundecaprenol flippase subunit ArnE	ATGAAAAGTGACGTGCTGCCGTACTTGCTTCTGCTCCTAATGACCTTGCTGGGCTCGCTGGGCAGCGTATTCTTCAAAGGATATACCGCGGGCAAACGGATCAAGCTGCTGCTGATCGGTTTTCTTAGCTACGGATTAGGTGCCTTGTTAAACATTTACCTGCTTGGGAAACTTCCGTATACGCTGGTGATGCCGGCCAATGCCCTTACGTTCCTGTGGGCGCTGCTATTTGCCAAACTGGTGTTCAAGGAAACCATCGGCATTCGAAAAATCGCAGGCGTTGCCTTTATCATATCCGGATTGCTGCTGCTGATCTGGTAA	MKSDVLPYLLLLLMTLLGSLGSVFFKGYTAGKRIKLLLIGFLSYGLGALLNIYLLGKLPYTLVMPANALTFLWALLFAKLVFKETIGIRKIAGVAFIISGLLLLIW				NA	NA	NA	NA	NA
AK002_03996	1293			hypothetical protein	ATGACTTTTTTCAGTTATTTATTTGGAAATAGAAAAGATAATTACACGGCGGTCGGGCTAAGCGTCTGCCTTGCCTTATGGTATGTGTTCATAAACCTTCCCTTTGTGACATACATCAAGGATCACGCAGCCGAATTGATGCCTCACAGTCCCTTCTACGGTGCGCCCTTTACGCTGAATCTATTTAACTTCGACCCTTCGATGGAGTATGGACCGGAAAATATTTCGATCATCCATCCGTTCATTAATTTTCTGACGAGTCCGCTAACAACGATGATCGGGAGCTCCAACCTCCCTTATCTTCTGATTCAATCCGTCTTGAACGCCTTTAGTGCAGCCTTGGTTTATTACATCGTTCGGCGAAGCGGAGCCGGCTGGCTGCTGTCCTTCGTAACGGCGGCTTTCTTCGGTATCAGCTCATATTCGCTGTTCACGGCATTCATTCCGGATTCATACGCGTATGCCCAATTCATGATCATTTTGTCGGCCGCTTATTTGCACTACAGCCGGTTGGAGGACCGGTATGCCGTCATGCCGAGTGCCTCCCTGGCCCTGATTAATTTCGGGATCACGTCCACGAATGTGGCAACGTTCGCGGGAGCGTTGCTGATCAGCCTGTTCGATCGACGCCGAATGGATACGTTCAAAAGGTTTATCATCATTATGCTGATTTTTCTGGGGATGGTGGTGATCGTCACCCTGCTTCAGCACTTGCTGTTCTCCGGTAAGTCATGGATCGCGAACGTGTTTTCAAGCGTGCAGAACGGTGCGCTCAGCTATGTTTCTCCCTTTTCATGGGAGCATCATTCCCGGGTCTTCTACATGCTGTTTGTAAGCCCGATCCTGTCGCCTGAGCTTGCCATGATCGATCCGGGAATCGCAGCGTTCGTGACAGATCTGGCCAAACCGTATCCGATCCATGTCCATATCGTCGGGATCGGGGTACTGCTCCTGGCTGTTCTGTCCTTCATCAAGGGCATCCGTTCCCGCGATACCTGGGCATTTTCCATCTATATTCTGTTTGCCATTCTGCTGCACATCATCGTGGGGTTCGGATTGGCCACATATGCTTACGATCTCTACCTCTACGCAGGACATTATCTGTTTGCGCTGTTCGTGCTTGCTGCGCTGTTCATTGCCAAGACGAAGAGCCTCCGGCTTCAACAAGTCCTCACCGGCGTCATGGCGCTGTTCCTGCTCATCACGCTGGTCAACAATATCGTGCTGCACGGTCATTCTCTGGACTATATTCAGACGACCTATGACACGGTGTTCAAACATATAGAGAAATAA	MTFFSYLFGNRKDNYTAVGLSVCLALWYVFINLPFVTYIKDHAAELMPHSPFYGAPFTLNLFNFDPSMEYGPENISIIHPFINFLTSPLTTMIGSSNLPYLLIQSVLNAFSAALVYYIVRRSGAGWLLSFVTAAFFGISSYSLFTAFIPDSYAYAQFMIILSAAYLHYSRLEDRYAVMPSASLALINFGITSTNVATFAGALLISLFDRRRMDTFKRFIIIMLIFLGMVVIVTLLQHLLFSGKSWIANVFSSVQNGALSYVSPFSWEHHSRVFYMLFVSPILSPELAMIDPGIAAFVTDLAKPYPIHVHIVGIGVLLLAVLSFIKGIRSRDTWAFSIYILFAILLHIIVGFGLATYAYDLYLYAGHYLFALFVLAALFIAKTKSLRLQQVLTGVMALFLLITLVNNIVLHGHSLDYIQTTYDTVFKHIEK				NA	NA	NA	NA	NA
AK002_03997	1746		COG1132	Putative multidrug export ATP-binding/permease protein	TTGAAGTCATGGAAAATCTATTATCCGTTCGTTAAGCCGTATATGAAGTGGATCATTCTCACCCTCATCATCGGCATGATCAAATTCGCGATCCCGTTATTGCTGCCCATGATCATGAAATATGTCGTGGATGATCTGCTGATCAATCAGCAGATGAGCATCGAGCAGAAAATCCAGGATCTGATGTGGATTCTTGGAGGCACGCTGGTGCTGTTTGTCATCGTTCGCGGTCCGGTGGAATACCTGCGGCAGTATTTTGCGCAGTTCATTACGAGCCGTATTTTGTTTGATATGCGTAACCGACTGTATGCGCATCTGCAGCGGTTGTCCCTTCGTTACTACCAGAATACCAAGGTAGGCGAGGCAATATCGCGTTTTATCAATGATGTGGAGCAATCGAAAAACCTGGTGGAAGTCGGTATGATGAACATCTGGCTGGATATGTTCACACTGCTGTTCGTATTAGTGGTCATGTTCTTCATGAATCCCGTTTTGACGCTGGTTGCCATCTCGATTCTGCCTCTCTACGGACTAGCGGTGAACTTACTCTATAAACGGCTTAAGCGCTTGACCAAAGACCGGTCGCAGGCTCTCGCGGGCATTCAGGCATACCTGCATGAGCGGATTCAAGGGATCTCGGTCATCCGAAGCTTTACCCTGGAGCGTTATGATCAGAAGAAATTCGAAGGCATCAACGGAAATTTCCTGAATAAAGCGATGGCCCAGACGCGCTGGAATGCGCTGACCTTCTCGGTGATTAACACGCTGACCGATATTGCGCCTATTCTGGTTATCGGGTACGGGGGCTACCGGGTGATCCAGGGAGATCTGACATTAGGCACGTTTGTTGCCTTCTTCGGTTATCTCGACAGGTTGTATGCGCCTCTTCGCCGCCTGATTAACTCTTCAACGGTGCTGACGCAGGCCTCAGCGTCGCTGGAGCGGGTCAAGGAGCTTATGGACGAGCCGTATGACATCGTGGACCGTCCGAATGCCAAAACGCTCAAGACCGCGGGACAGATCGAATTCGACCGTGTTTCCTTCAAATACAATGACGCTGCGGGATGGGTGCTTCAAGATATTAACCTGACCATTCAGCAGGGACAGACGATTGCGTTCGTCGGCATGAGCGGCGGCGGCAAATCGTCCCTGATCGGACTGATTCCGAGATTCTACGATGTGCAGCAGGGCGCTGTGAAGATTAACGGCCACGATGTCAGGGATTTGACGCTGGACAGCCTGCGCGGATCGGTGGGCATGGTCCTCCAGGACAACTTCCTCTTTAGCGGCACCGTCCGTGAAAATATTCTGTTCGGCAATCCGGAGGCGGATGAAGCTGCGATCGTCGCCGCTGCCCAAGCCGCCAATGCCCATGACTTCATTACCCAGCTGCCGCAAGGCTATGACACGGAAGTAGGCGAACGCGGCGTCAAGCTGTCGGGAGGTCAGAAGCAAAGACTGGCGATCGCCCGCGTCTTTCTCAAGGATCCGGACATTCTGGTGCTGGATGAGGCGACCTCGGCGCTGGATTTGGAATCCGAGCATCTGATCCAGCAGGCGCTGCAATCCTTATCCAACAACCGCACCACATTGATCGTCGCCCATCGTCTTTCGACCATAACGCACGCCGATCAAATCGTTGTGCTGGAGAATGGAAGAATTACGGAGCAGGGCACGCACGGCGAGCTGATGACTCTGGATGGAAGCTATGCCAGACTGTACAACGTGCAGCATTTGGAGACTTAA	MKSWKIYYPFVKPYMKWIILTLIIGMIKFAIPLLLPMIMKYVVDDLLINQQMSIEQKIQDLMWILGGTLVLFVIVRGPVEYLRQYFAQFITSRILFDMRNRLYAHLQRLSLRYYQNTKVGEAISRFINDVEQSKNLVEVGMMNIWLDMFTLLFVLVVMFFMNPVLTLVAISILPLYGLAVNLLYKRLKRLTKDRSQALAGIQAYLHERIQGISVIRSFTLERYDQKKFEGINGNFLNKAMAQTRWNALTFSVINTLTDIAPILVIGYGGYRVIQGDLTLGTFVAFFGYLDRLYAPLRRLINSSTVLTQASASLERVKELMDEPYDIVDRPNAKTLKTAGQIEFDRVSFKYNDAAGWVLQDINLTIQQGQTIAFVGMSGGGKSSLIGLIPRFYDVQQGAVKINGHDVRDLTLDSLRGSVGMVLQDNFLFSGTVRENILFGNPEADEAAIVAAAQAANAHDFITQLPQGYDTEVGERGVKLSGGQKQRLAIARVFLKDPDILVLDEATSALDLESEHLIQQALQSLSNNRTTLIVAHRLSTITHADQIVVLENGRITEQGTHGELMTLDGSYARLYNVQHLET	PGPT0029045_350	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
AK002_03998	513			hypothetical protein	ATGACCAGAATTTTCGTGACGGAGGCGGTCATGCTGGCCATTTACGGTCAGCTGTTAGTACCACCCAAACCCGTCGAATACATCATTCCATATACCACGATTTTGGAATTATATGAGCTTCATACAACGGAGGAACATCTCATGAATAGCAGTGCTGATGACCAGCACGTCAAAATAAAGATCGGCGAATTGATATCGTATTTCGAAGAGCCGCTGAACAAAAAGAAAATCGAGCGGGCCCTCCAGGTTCCCTGGTCCAAAAGTCCGACCATTCCCGTTAGCGAAACCACTCGGGTCTCGGTCATGAACACCATGGACACCGCACCGTACGGAGAGTCCTTCGATCCCATTGAGACCGAACTGCTGCTGGCTTCCCAAAAAGCGGAGGCTCCCATATTGACGGATCAATACGAGTTGATTCAGCGCATCGTTGAAAGCGCTCTTCCCGTACAGGTCTATGATATCGACGATTTTGACTTTGCACTGGAGGTCCCGTTATCCGGGCAGCCGTAA	MTRIFVTEAVMLAIYGQLLVPPKPVEYIIPYTTILELYELHTTEEHLMNSSADDQHVKIKIGELISYFEEPLNKKKIERALQVPWSKSPTIPVSETTRVSVMNTMDTAPYGESFDPIETELLLASQKAEAPILTDQYELIQRIVESALPVQVYDIDDFDFALEVPLSGQP				NA	NA	NA	NA	NA
AK002_03999	450	rppH_2		RNA pyrophosphohydrolase	ATGAGCGTATATCACCGTGATATTCGCCAGTATATCGGCAAACGTTCGGTGGTCCGTGTGAAAGCGGCGGTGCTTGTGCTGAACGATAACGGAGAGATTCTGCTCCTGAAACGTCAGAACAGGGACGAGTGGGGACTTCCGATCGGAAACCTGAAGCCCGGCGAAGCTCTTGAAGACACAGCCTCCAGAGAGCTGTGGGAAGAGAGCGGCCTGACCGCGGACGATATGCGACTCTTGGACCTTGTATCAGGTCCGGAGTATATGAAGAAGCAGCTTGGTGGAGATGAGGTATATTATGTAATCGGCGTTTACGCGGCAACCGGTCTGCACAGCGCCATTCATTTGTCTCCGAATACGGAAGTATCTCTTAAATATTTTGATTTCCAGGCATTGCCCCCTATGGATGCGATCACGATCCGCTTGCTGGATAAGATAAAAAAGAAGAGCTGA	MSVYHRDIRQYIGKRSVVRVKAAVLVLNDNGEILLLKRQNRDEWGLPIGNLKPGEALEDTASRELWEESGLTADDMRLLDLVSGPEYMKKQLGGDEVYYVIGVYAATGLHSAIHLSPNTEVSLKYFDFQALPPMDAITIRLLDKIKKKS				NA	NA	NA	NA	NA
AK002_04000	306			putative protein	ATGCAAATTCAAGTCAGCGATCAGGCAGCACGTTGGTACAAGAAGGAACTTGACCTTCAAGCCGGCACGTTCGTTCGCTTCTTTCCACGCTATAGCTCAGGCGGCGGGCTCCATCCCGGCTTTTCGCTCGGTATTTCGGTAGAAGAGCCAAGGGAAGCAGGACTGACGGAGCGTTCGGAAGAGGTAACTTTCTATATGGAAGAGCAGGATCTGTGGTATTTGAAAGGGTATACGCTACGCGTGAAATATGAGGAATCCTTGGATGACATTTCGTATATTTATGAAGAAGAGGGCGCAGTAAATTAA	MQIQVSDQAARWYKKELDLQAGTFVRFFPRYSSGGGLHPGFSLGISVEEPREAGLTERSEEVTFYMEEQDLWYLKGYTLRVKYEESLDDISYIYEEEGAVN				NA	NA	NA	NA	NA
AK002_04001	1758	yheI_3	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	GTGTTTGCCGTACTTAAAAATTTAGGCTGGTTTTTCAAGCGTGAGAAAAAACGTTATTTGATCGGCCTGGCCCTGCTCATCTTTTGCGGATTGGTTGAGCTTCTGCCGCCGCTCCTGCTCGGAAACGCCATTGACGATATCGTCAGCAGTTCCATAACCTGGGCGTCCCTCGTCCAATACCTGCTCATGATTCTCGGCATCGTTGCTGTCGTTTATTGTGCCACGTACATATGGATGCACCGATTATTCGGAGGCGCAAACCTCGTGGAACGCCTGCTCCGTACCCGGTACATGAACCATTTGCTGCGGATGCTTCCTCCGTTTTTCGAGCGCAACCGTACCGGGGACCTGATGGCCAAAGCGACGAATGACCTTCGCTCCGTGGCTGCAACCGCCGGCTTCGGCATGCTCGTCATGACGGACTCCACCATCTACTTGATCGTCGTACTGTTCGCCATGGGCTTCATCGTCAGCTGGAAGCTGACGCTGGCTGCGATTCTGCCGATGCCGATCATTGCCATTGGCATGGTGATCTACGGAAGAGCCATTCATAAGCGCTATACGCTGGCTCAAGATGCCTTCGGAGACATGAACGACCAGGTGCTGGAATCCGTAGCCGGCGTGCGCGTCATCCGCGCTTATGTGCAGGAACGCGCCGATCAGCAGCGCTTCCAGGATATTACGGATGACGTATATCGTAAAAATCTGGCGGTTACCAAAGTGGATGCCTTATTCGAGCCGACCATCAATTTTTCCATCGGTCTCAGCTACGTCATCGGTTTGGCCTACGGGGTGTACCTCGTGTTCCAAAATCAAATCACGCTCGGAGATCTCGTATCGTTCAATATGTACCTCGGGATGATGATTTGGCCGATGTTTGCGATCGGGGAATTGATCAATATCATGCAGCGGGGTAACGCATCGCTGGATCGGGTCAACGAAACCTTGAAGACGCCGCCGGATGTTGCCGACGTCGCAGACCCCGTAGACGTGAAGGTTCCGGACACGATTCAATTTAAGGATGTCACCTTCCGTTACCCGACATCAACGATCGAAAATTTGCAAAATATCAGCTTTACGCTGCAAAAAGGGCAGACGCTGGGCGTTGTAGGACGCACGGGCAGCGGCAAATCGACGCTGCTGAAGCAGCTTCTGCATGAATATCCTACCGGAACCGGGGATATCCTCATATCCGGCGTGCCGATGGAGAGGCTCGCGACCGATCAGCTCCACAGCTGGGTCGGGTATGTGCCGCAGGAGCAGATCCTGTTCTCCAAGACGGTGCGCCAGAACATCCAATTCGGCAAGAAGGATGCCAGCGACGAATTGATCATGGAGGCGATTACGACCGCTGCGTTTGACCGCGATCTGGTCACCCTGTCCGATGGTCTTGATACCATTGTCGGCGAAAAAGGCGTGGCGCTGTCCGGCGGGCAAAAACAGCGGGTATCCCTGGCCCGGGCTTTCATCGGCGACCCTGAAATCCTGATTCTGGACGATTCCTTGTCCGCGGTAGATGCCCGGACGGAAGCCAGAATCATCGATAATATCCGGAGCAAGCGCGCTGGTAAAACGACCCTGATCTCCACCCATCGCCTCTCGGCGGTCCAGCATGCCGATCTAATCGTCGTCTTGGAGGACGGCCGAATCACGGAGCAGGGAACCCATGACGAACTGCTGGAACTCGGCGGCTGGTACCGCGAGCAATTCGAACGCCAGCAGGTGGAAAACAATCTGACCTCGGAGGAGGTGTCTTAA	MFAVLKNLGWFFKREKKRYLIGLALLIFCGLVELLPPLLLGNAIDDIVSSSITWASLVQYLLMILGIVAVVYCATYIWMHRLFGGANLVERLLRTRYMNHLLRMLPPFFERNRTGDLMAKATNDLRSVAATAGFGMLVMTDSTIYLIVVLFAMGFIVSWKLTLAAILPMPIIAIGMVIYGRAIHKRYTLAQDAFGDMNDQVLESVAGVRVIRAYVQERADQQRFQDITDDVYRKNLAVTKVDALFEPTINFSIGLSYVIGLAYGVYLVFQNQITLGDLVSFNMYLGMMIWPMFAIGELINIMQRGNASLDRVNETLKTPPDVADVADPVDVKVPDTIQFKDVTFRYPTSTIENLQNISFTLQKGQTLGVVGRTGSGKSTLLKQLLHEYPTGTGDILISGVPMERLATDQLHSWVGYVPQEQILFSKTVRQNIQFGKKDASDELIMEAITTAAFDRDLVTLSDGLDTIVGEKGVALSGGQKQRVSLARAFIGDPEILILDDSLSAVDARTEARIIDNIRSKRAGKTTLISTHRLSAVQHADLIVVLEDGRITEQGTHDELLELGGWYREQFERQQVENNLTSEEVS	PGPT0029040_1092	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
AK002_04002	2106	yheH_1	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheH	TTGACTCCAAGCGATACAACCATCTCGAATGAATCCGGAATTGCCAAACGGCTCTTCCGTTATGCCTTAACGGCTAAGGGCACCTTCATCACCGCCCTGATTCTGCTGGCCATCGGCGTTGCCGCCGAGCTGGCAGGACCCTTCATCGCGAAAACGATGATCGACGAGCATATCCTGGGCATCGAGCGTCCCTATTATGAGACGACGCAGGCTCAGGGTGCCGCATCCTATAATGGAACTTATTATAAACGTGAGGATCGCTTTCAGGTAGGCGAGACGCGAGGCCATCAAGTGCGCCTCGTTCAGGCAGGCCGCAGCTTCTATTTCATTGATGAGCCGGTAACCCGAACCGAGGGAAACCGTTCCTTCCAGGATGGCGTATTGACGATTTCCTACGCCTCGGAAGAGCTGCAATACCCGGCTGTCAAATTAACCAAGGAACAGCTGTTTGAATTTTACAAACCCGAGCTGCCCAGCATTTATAAACTCGTTGGCCTGTTCCTGATCTGTCTTCTGATCTCCATGATAACGGTATTCGGCAGAACGTACTGGCTCCAATCGGCAGCCAATCGGGTCATCCAGAAGCTGCGTACCGATGTATATGCCCATATACAGCGCTTGCCCGTCAACTTCTTCGATAATCTGCCGGCTGGCAAAGTCGTTTCCCGGGTAACGAATGACACCGAAGCGGTTAAGGACCTCTTCGTTGCGGTATTATCCAACTTCAGCTCCGGCGCGGTCTATATCACGGGTGTTTATGTCGCCCTGTTCCTTCTGGACGTCAGACTGGGCTTGATCAGTTTGTTTGTCATCCCGATGCTGATTGTATGGACCATCCTGTACCGTAAATTCGCAACCAAATACAATACGGTTATCCGCTCCCGTCTGAGCGAGATCAACGCCATTATCAATGAATCCATCCAGGGTATGGCCATCATCCGTGTATTCCGCCGCCAAAAAGCGACCCAGGACGAGTTCGAGGCACTAAACGCGGATTATATGGCCCATCAGAACAAAATGCTGAATCTGAACTCCTTCACCACGCACAACCTGGTCAATGTGCTGCGTAACGTTTCCTTTGTGGTCGTGCTCTGGTATTTCGGTTCGGCATCGCTGAACGGTGCCGGGATCGTTTCGATCGGCGTGCTGTACGCCTTCGTCGATCTGCTCGGCCGCATGTTCCAGCCGATTACGGGCATGGTCAACCAGTTGGCCGCGCTCGATACCTCCATCGTCTCCGCCAAGCGGGTTTTCGAGCTGATGGATGAAACGGGCGAAAAAGTAACGGACGGCTCCATGCCGCGATATTTGGGGAATGTGGAGTTTCGGGACGTATCGTTCGCTTACAAGAAGGACTACGTGCTGAAGAACATTTCGTTTGAAGCGAAGCAAGGACAGACGCTGGCGCTTGTCGGGCATACGGGCTCGGGCAAAAGCTCCATCATCAATCTGCTGTTCCGTTTCTACGACCCGCAAAAAGGCACCATCACGATTGACGGCCAGCCTGTCACGGATATTCCGAAGCAGTGGCTCCGCAAGCATATGGGAATCGTGCTGCAGGATCCGTACCTGTTCACCGGCACCATTGCATCCAATGTCAGCCTGGGCGATCCGGACATTACCCGGGAACAGGTAGAGCAGGCCCTTCGCGACGTAGGTGCAGATCGGCTCCTGGCCCATCTGCCGCAAGGCTTTGATGAGCCGGTGCTGGAGAAAGGCAGCACGCTTTCCGCCGGTCAGCGCCAGTTGATCTCGTTTGCCCGTGCATTGGCGTTCAACCCGGCCATACTGATCCTTGATGAGGCCACCGCTAACATCGATACGGAAACGGAAGCCTTGATCCAAGACGCGCTGGAGGTTCTGAAGCGCGGACGTACAACGTTTATCATCGCTCACCGCTTATCCACGATCCGCAGCGCCGATCAGATTCTGGTTCTTCACCGCGGAGAAATCGTGGAACAGGGTTCCCATGACGAATTGATGGCCTTGGGCGGAAGGTACTTTAAAATGTACCAGCTCCAGCAAGGAAGCTCGGCTTCGGTTCCAGAGAATAAGGAAACGGTGCTGGCCGCTTCCAACAGCAACTTGGCCGGAGGGCATTTATAG	MTPSDTTISNESGIAKRLFRYALTAKGTFITALILLAIGVAAELAGPFIAKTMIDEHILGIERPYYETTQAQGAASYNGTYYKREDRFQVGETRGHQVRLVQAGRSFYFIDEPVTRTEGNRSFQDGVLTISYASEELQYPAVKLTKEQLFEFYKPELPSIYKLVGLFLICLLISMITVFGRTYWLQSAANRVIQKLRTDVYAHIQRLPVNFFDNLPAGKVVSRVTNDTEAVKDLFVAVLSNFSSGAVYITGVYVALFLLDVRLGLISLFVIPMLIVWTILYRKFATKYNTVIRSRLSEINAIINESIQGMAIIRVFRRQKATQDEFEALNADYMAHQNKMLNLNSFTTHNLVNVLRNVSFVVVLWYFGSASLNGAGIVSIGVLYAFVDLLGRMFQPITGMVNQLAALDTSIVSAKRVFELMDETGEKVTDGSMPRYLGNVEFRDVSFAYKKDYVLKNISFEAKQGQTLALVGHTGSGKSSIINLLFRFYDPQKGTITIDGQPVTDIPKQWLRKHMGIVLQDPYLFTGTIASNVSLGDPDITREQVEQALRDVGADRLLAHLPQGFDEPVLEKGSTLSAGQRQLISFARALAFNPAILILDEATANIDTETEALIQDALEVLKRGRTTFIIAHRLSTIRSADQILVLHRGEIVEQGSHDELMALGGRYFKMYQLQQGSSASVPENKETVLAASNSNLAGGHL	PGPT0029045_29	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
AK002_04003	927			hypothetical protein	ATGAAAAAAACAACCAAATTATTAACCGCTATGCTTGTCACTTCGTCATTGCTCGGTGTCGGCGCCGCCTCTGCTTTTACGGATATACAAGAGGAGAAGCCATTGCAAATGGTGAAGGAACTGCAATCGAAAGGGATTATCCAGGGCATCAGCGCCGACAAATTCGCTCCGTCCAAGACGATAACGACCGCTCAGGCAGTGCAGATGGTCGTGAATGCAGCCGGCCTGGAGGTGCAGCCGAACTTTACGGGCCGCTCGTTCGACAGTGTTCCGAAGGATGCTTGGTTTGCCGAAGCCGTGAACATTGCGGCTCAGAACGGATTGTCGGTATCCGCGGACATGAAATGGAATGAGCCGATCACGCGCGAAGGGTTCGCGACCTTGCTCTCGGAAGCGATTCAGAAGACCGGGAATTATCCCGTGATCATGATGTATTTGCATGTGGCCGACGAGGATCTGATGAAAGAGGAGAGCCGCGGGGCCGTGCAATTCCTGCTGTTAACCAAAATCGCGAAGCTGGACGCGAACGACAAGTTCCATCCGACGAAGAGTTTATCGCGAATCGAAGCGGCAGAGCTCGTATACAATTCCATTCGATTCATTGAGGAGCATCAAAAGAACATGATACCCGAAAAGCCGGACCAATCTGAACCGGATGTAAGCACAAGCGTCGTCAAGGTGGACGAATCGCAGAATAAAGTCACGGTAACCAAGGAAGATCTGCCGAATCCGGGGTATGGCATTAAAATTACTTCGGTCGACTATGTTAGCGACACCGAAGCCGTAATCTACTTCAAGGTTGTGCAACCCGATCCGGACAAAATGTACCCGCAAGTCATCTCAAAATCGTCCGATGACGTACTCGTGCCGTCCAAGTACACCAAAATCACGGTCAAAGCAGCCGGTACTCTTGATTCGGCAAAGTAA	MKKTTKLLTAMLVTSSLLGVGAASAFTDIQEEKPLQMVKELQSKGIIQGISADKFAPSKTITTAQAVQMVVNAAGLEVQPNFTGRSFDSVPKDAWFAEAVNIAAQNGLSVSADMKWNEPITREGFATLLSEAIQKTGNYPVIMMYLHVADEDLMKEESRGAVQFLLLTKIAKLDANDKFHPTKSLSRIEAAELVYNSIRFIEEHQKNMIPEKPDQSEPDVSTSVVKVDESQNKVTVTKEDLPNPGYGIKITSVDYVSDTEAVIYFKVVQPDPDKMYPQVISKSSDDVLVPSKYTKITVKAAGTLDSAK				NA	NA	NA	NA	NA
AK002_04004	465			hypothetical protein	ATGAAACAAACTCGACTGCTGGACAGTGACCACTCCAAAGAGCTGTTTGCCTATTTCGGATTAGCGGTGTATTATTCACAGGCCCTTGAGCAGCAGCTCGCGAATTTGTTGATGCTGATCAAGCTTTCTCAAGGAAATGTGCCTTCAGAGGAAGATTTCACCGAATTATATCAGCGGAAACTAAGCAGCTCCCTGGGCCAGCTGGTCCATGAGATCCAGCATTACTTTCCGTTCTCCGAGGAAGAGACGCTTCAATTAAAAGAAGTATGGAAGCAGCGAAACTATATCGTTCATGATTATTTCAAAGAACGGATCCATGAGACGTTTAGCCCGGCCGGCCGTTCCCGAATGATACGGGAGCTGACGGCATTTAAGGACCAAGCCCAAGCGCTGGAGCAGAAGCTTCAGGGTTACTCCCGCGAGATGTACGTAAAGCTGGGCCTGGATAGCGAAAAAAGCGTGTAG	MKQTRLLDSDHSKELFAYFGLAVYYSQALEQQLANLLMLIKLSQGNVPSEEDFTELYQRKLSSSLGQLVHEIQHYFPFSEEETLQLKEVWKQRNYIVHDYFKERIHETFSPAGRSRMIRELTAFKDQAQALEQKLQGYSREMYVKLGLDSEKSV				NA	NA	NA	NA	NA
AK002_04005	732			hypothetical protein	ATGATGGGATCCCTGATTCGTTACTTGCTTGCCAGTTACACAAGATCTTATCGATACTTCGCTCCGATTGCATTCATGCTGATCTCGGTGGTGTTCCTCTACTCCTACCGGCCTAACCCGATCATGGACAGTTATGCCGTGACGGCAGCCTTTCTGTTTGTCGGCTCAGCTTGGCTGGGGTTGAATTTCCACAATCACGATCAAGGGCGTCAAACGATGCTCCTTATTGTTCACAGCGGCAAGGCCCTACGATTTTATGCTGCCCAATATATCACGGTAAGTCTTCTGTCCATCCTATTCAGTGCATTCGCTGTCCTTTATCCCGTCGTGTTCGGGATGTTCGATAAGCCGATTACATTCTACGAGCTTGCACTTGGTTATGTGGGACATGCCGCAATGTCCTTGCTGGGCATTTCGCTGTCCTTATTCTTTCAGTTCGGCTTCATGGAGAACCAGGGAAGAGCGGCAGGGTTACTATTCATCGTGATCATTGTTTCCTTGGCCGGTCAATCCATTGTCCAGTTCGATCATGCTTATTGGGGAGTCATCCCTTACTTGCTGCCGCCTGTCTCCGTCATGATGGACCTGTTCATGCATGCCGACGAGCGGTCACCGGCCGTCAAACTCCTGACAATCGCCTATTCCTTCATCTACGGATTTATTTTACTGGCTGTTTATCTATGGACGGCCTCCCGCAAGGATGCAGCCTCCATGATCCGAAAAGTAGGTTGA	MMGSLIRYLLASYTRSYRYFAPIAFMLISVVFLYSYRPNPIMDSYAVTAAFLFVGSAWLGLNFHNHDQGRQTMLLIVHSGKALRFYAAQYITVSLLSILFSAFAVLYPVVFGMFDKPITFYELALGYVGHAAMSLLGISLSLFFQFGFMENQGRAAGLLFIVIIVSLAGQSIVQFDHAYWGVIPYLLPPVSVMMDLFMHADERSPAVKLLTIAYSFIYGFILLAVYLWTASRKDAASMIRKVG				NA	NA	NA	NA	NA
AK002_04006	891	btuD_11		Vitamin B12 import ATP-binding protein BtuD	TTGCAGGAACTGCTGGAATTGAACGGAGTACATAAGCGTTTCGGTAAGTATGCCGTCCTGCATAACATCACCTGGAGCATCTCCCGCGCTGAGTGCGTTGCGATAACGGGAAGCAATGGCGCAGGCAAGAGCACCATGCTGCATGTGATCGCGGGGCTTGCTAACCCTTCGGAAGGGTCCAGGATCGAATATGGAACATCGCTGCGCGTCGGCTATGTACCGGAACGTTTTCCTGCGCTGCGGTTTCGCCCTTCCGAATATTTGCGCCACATGGCCGGCATTCAGGGCATGGACAAACAAGAAGCCGCGAAGCGGATCGATGCCATGCTGAATGTGTTTCAACTGCAGGACATGAAGATGACGCTATGCTCCAAGGGGATGCTGCAGAAGGTCAATATTATGCAGGCCTTGCTTAGCCAGCCCGATCTGCTGCTTCTGGATGAGCCGCTTTCGGGATTGGACGAGTCCTCCCAGATGGAGATGATCGGCATTCTGACCGAGATCAAAAGACAAGGAACGGCTATCGTGATGTCCGTTCACGAGCCGCTGCTTATTGCTTCGCTGGCTGACCGGGAGACGCGGCTGCGGCAGGGGCGGATCGAGCGGGACGGATTGCTTGAAAGGAGTCCGCATTTAGAGCGGATGAAGCTGGAATTCACGCACGTTTCGCCAGACAACATGCTGGAGCTTGAACGCCGCCCCGGGTTTCTCTATTGGATATCCAGAGGCAACCCGGCATCGATGATGGTTACGCGGCAGGCAACGGACGACATGCTGCTGGATATTTTGCAGTCTGGCGGTTCGCTGATACGGCTTGAGCCTTGGCGCGGGGAGATGAAAGAGCCCGATCACCCCGGTTCGGGCAAGCCTATGGAGGGGGAGGGAGCATGA	MQELLELNGVHKRFGKYAVLHNITWSISRAECVAITGSNGAGKSTMLHVIAGLANPSEGSRIEYGTSLRVGYVPERFPALRFRPSEYLRHMAGIQGMDKQEAAKRIDAMLNVFQLQDMKMTLCSKGMLQKVNIMQALLSQPDLLLLDEPLSGLDESSQMEMIGILTEIKRQGTAIVMSVHEPLLIASLADRETRLRQGRIERDGLLERSPHLERMKLEFTHVSPDNMLELERRPGFLYWISRGNPASMMVTRQATDDMLLDILQSGGSLIRLEPWRGEMKEPDHPGSGKPMEGEGA	PGPT0006725_16557	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_04007	1242	nagC_2	COG1940	N-acetylglucosamine repressor	ATGAACAGTTCCGTTGGCAAGAACAATCGGCATGTCAAAAACCTGAATCGTATCGGCATTATCGCGCTGCTCCGCGACTACGGCAGTTTAACGAAAGCGGAAATCGCAGCCAAGATGAATTTGACGTTTACCGCCGTGAACAATTTGGTGGATGAGCTGATGAAGGATCGATTGATTGCTGAAGCCGGGTTTTATGACGAGTCCATCCGGGGCAGGAAGCCCAAACTCCTCTCCTTGAATCCCGGTGATATTTACACGGTTGGCGTTCATATCAGCGCCTCCTTCGTAAGAGCGGCAGTCATTAATTTGCAGGGGAAAGCGATGATGGAGAAACGCTCCTCCTTTGAAAATAACGCCAATCGCGGCAGCGTGGTGAATGTCATAATCTCCACGATCCAAGACGTATTGGACGAGTCGGGCCTGAAGTCCCAAATCATCGGCATAGGGGTGGGAGCTCCTGGACCGCTTGATCCGGTCCAAGGCAAGATTCTGTCTCCGCCGAACCTTCCCGGACTGCATCAGGTACGATTAAAGGGACTGATCGAGGAGAATACGGAGCTTCCGACCCAAATCGAGAAGGACGCTAACGTGATGGCACTCGGTGAGTTATGGTATGGAAACGGCAGGCATTTCAACCATGTGGTATACGTGGATGCGGATATCGGGATAGGTAGCGGATTGATCTTCAACCAGAAAATATATCAGGGCTACCCTTTTGGAGCCGGTGAGATCGGTCACTGCACGATCGATATTGACGGTCCGCGCTGCAATTGCGGCAATACCGGCTGCCTGGAAGCGATCGCATCCGGTATGGCCATCGTCCGCAGGGTCGGAGAAGAGCTGCGGCGCGGAGCTGCCAGTTCTCTTCAATCCTCGTTTGATGGCAATGATCACGGATTGGACATCACCGATGTGATCACGGCCGGTCTGGGCGGAGATCAATTGGCTGCCAATATGCTGAACGAATCGGCTCGTTATGTCGGCATATCCCTGGCTAATGTCATGAATCTGCTAACCCCGGAGACCATTATCATCGGTGGAGTCCTTGCGAACCGGTACCCGGATTTCTTCACATATGTAAGAGAAACATCATATAACAGAAGCTTGTCCAGCTTTCACGATAAAATCGTGCTTCAGCCATCCAAGTTGAGAGAGTATGCGGGCGTCATAGGCGCCGGCACGATCGTGCTCGAAAAATACCTGAACGAAATACAAACACCAGAATATGTGAACAGGAGTTGA	MNSSVGKNNRHVKNLNRIGIIALLRDYGSLTKAEIAAKMNLTFTAVNNLVDELMKDRLIAEAGFYDESIRGRKPKLLSLNPGDIYTVGVHISASFVRAAVINLQGKAMMEKRSSFENNANRGSVVNVIISTIQDVLDESGLKSQIIGIGVGAPGPLDPVQGKILSPPNLPGLHQVRLKGLIEENTELPTQIEKDANVMALGELWYGNGRHFNHVVYVDADIGIGSGLIFNQKIYQGYPFGAGEIGHCTIDIDGPRCNCGNTGCLEAIASGMAIVRRVGEELRRGAASSLQSSFDGNDHGLDITDVITAGLGGDQLAANMLNESARYVGISLANVMNLLTPETIIIGGVLANRYPDFFTYVRETSYNRSLSSFHDKIVLQPSKLREYAGVIGAGTIVLEKYLNEIQTPEYVNRS	PGPT0018870_320	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018870-nagC-K02565	NA	NA
AK002_04008	339	yhjQ_2	COG1145	putative cysteine-rich protein YhjQ	ATGTTAAATGAACTCAAATATAAAGAATGCATCGAAGCATGTCTCCAATGTATGAACGCTTGCAATGTATGCTATGTATCCTGCCTGAAAGAATACGAACTGGCCATGCTTCGCGATTGTATTACACTCGACAGAGAGTGTGCGGATATTTGCGCGTTCGCGGCTCAAGCCATGTCCCGCAAAAGCCCTTACGTTAAGGAGATTTGCGAGCTCTGCATCAAGGCATGCCTGGCTTGCGCGGAAGAGTGCGAGAAGCATGATCATGAGCATTGCAAACAATGTGCGGAAGCATGCCGGAAATGTGCCGAAGCATGCCGCGAAATGCTGAGCCACGTTTAA	MLNELKYKECIEACLQCMNACNVCYVSCLKEYELAMLRDCITLDRECADICAFAAQAMSRKSPYVKEICELCIKACLACAEECEKHDHEHCKQCAEACRKCAEACREMLSHV				NA	NA	NA	NA	NA
AK002_04009	1125	yciC_2	COG0523	Putative metal chaperone YciC	GTGGAGCACGTAACACCCATTTATATTTTATCAGGTTTTCTCGGCAGTGGAAAAACGACATTGCTTAGCCGCCTCATTGCCTCCTTCAAGCAGCAGGGATTGCGGCCGGCCATTGTCATGAACGAGATCGGCGAGGTTAACATTGAAGGGCTGGCAGCCGATGAAGCGGTGCCGACGGCAGAGATGCTGAGCGGCTGCATCTGTTGTACCATTCGTTCCGATTTATCCTCCGAAATCGCGCTGCTGATCCAGCGGGAGCGGCCGGATGTCATCGTTATCGAAGCGACGGGAATCGCCAATCCGATGGAAATTCTGGACGCGACAGCGGAAGCCTCATTATATATGAGAATTGACGTGAAAAAACTGATCACTGTCGTGGATGCCGCGCATCTGCTGCATTTGAACATAGAGCAGAAGGGAAAGACCTACCGGTTGATGCAGGAGCAGATTCGCGCAGCCTCCGCGCTCGTCCTTAATAAAATGGACCTGGTCGAGGACCGGGACAGAGAGACGATTCGAGAGCTGGTGAAGCGGTGGAATCCTCATGCCTCGATTGTTCCTTCGGTGCGATGCGACTTGAATGTTGAAGATTTGCTGCAGAGCGATCCCGGGGATCGGAATGAGCATTCGATTGTACATCATCGAGAGGCCGGGGATGCCCATGAGCACAGAGACAAAAACAAGCAAGCCAACAGCGCTGAGCATGACCACAACCACAGCCACGAGCATGAACACAGCCACAGCCACGAGCATGACCACAGCCACAGCCACGAGCATGACCACAGCCATGAGCATGACCACAACCACGACCAAACACATGATCATGGCTCCCATGATCATGTCATGTCGTACACATACTACTTCAGCCATCCGGTAAACAGCGTGGAGTTCGAACGATTGATAGCCGGGCTGCCAAGGGATGTATACCGGGCGAAGGGCATTCTCACTTTCAGCGATACGAACAGCCGTTTTTTGTTCCAGTACGCGTTTCGCGAATCCGATTTTATGAAGATAACGCCCCAGGGCCAAGTGCCGGATGTGGTGGTGTTTATCGGGGAGCATTTTCAGAAATCGCTGCTAAGGGAGCAGCTTGAAAAGCTGGAGGGGAAGACAAGCGGGGCCTAA	MEHVTPIYILSGFLGSGKTTLLSRLIASFKQQGLRPAIVMNEIGEVNIEGLAADEAVPTAEMLSGCICCTIRSDLSSEIALLIQRERPDVIVIEATGIANPMEILDATAEASLYMRIDVKKLITVVDAAHLLHLNIEQKGKTYRLMQEQIRAASALVLNKMDLVEDRDRETIRELVKRWNPHASIVPSVRCDLNVEDLLQSDPGDRNEHSIVHHREAGDAHEHRDKNKQANSAEHDHNHSHEHEHSHSHEHDHSHSHEHDHSHEHDHNHDQTHDHGSHDHVMSYTYYFSHPVNSVEFERLIAGLPRDVYRAKGILTFSDTNSRFLFQYAFRESDFMKITPQGQVPDVVVFIGEHFQKSLLREQLEKLEGKTSGA				NA	NA	NA	NA	NA
AK002_04010	519	moaB	COG0521	Molybdenum cofactor biosynthesis protein B	ATGAATTCAACGCAAGAACATAAACAGCAATCCCCCGCTTCCGTGAACTGTATGGTGATTACGGTTTCGGACACGCGGACGAAGGACACGGACAAGAGCGGCAAACTGATGATCGGCTTGCTCGAAGAAGCCGGACATGCCGTCGTGGCATACAGCATTGTTCCAGACGACTACGAAACGATCCGTGAAACGATTTATTCCGCGGCCAGCGCTTCGGAGATCGATATCGTGTTACTAACCGGCGGAACAGGCATCTCGAGCCGGGATACCACCTATGAAGCGGTCTCTTCGCTGCTGGATAAAGAACTCCCGGGATTCGGAGAGATCTTCCGCTTCCTCAGCTTCACCGAAGATATCGGGTCTGCGGCTATTCTAAGCCGCGCGATCGGCGGCACGATAAGCCACACAGCCGTTTTCTCGATGCCGGGTTCCAGCGGTGCCGTAAAACTTGCGATGAACCGTATCCTCCTGCCTGAGCTGCGGCACGTCAAATATGAGCTGGATAAACACCGATCATAA	MNSTQEHKQQSPASVNCMVITVSDTRTKDTDKSGKLMIGLLEEAGHAVVAYSIVPDDYETIRETIYSAASASEIDIVLLTGGTGISSRDTTYEAVSSLLDKELPGFGEIFRFLSFTEDIGSAAILSRAIGGTISHTAVFSMPGSSGAVKLAMNRILLPELRHVKYELDKHRS	PGPT0008420_1111	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
AK002_04011	528			hypothetical protein	ATGAAATACCGCAAAATCGTTACCGTGTTATTGCTCTGTTCCATTCTTGCCATATCGGTCGGCTGCTCCAGGCAGGTGGCCAGGGACGAGATGCGCCTATATAACATGAGGGCTTACGAGGAAGGCTCCAGAGAGGCCCGGATATCAGGACGTGGCATGAACGGAAAATTCCTTGAGGATCTCCAGGCCACGTTCAACCAGGCCGATATGCCTTTGACCAACGAAACCTATGTAGAGGACAACGTCGGCAATATCACATATCAATACCGGATCAATTATGATGCAAGCCAGTTTATTACCGTGTACGTCTATCAGAATCAAGCGGCAAGGGAAAAAGGGCTCAAGGAAATCTATGGCGTAACGGAAGGGGATGCCAATGCGGCCGGCGGGCATAATCTGATCATAAGTGACAAGGAAACGTCCATCGTCTATACGTCGACAGGCGACAAAACGGATAACTATTATGACCAGGTCAAAAAAATAGCGCCCTCCCTGCTTGCCAAACATCAACGACGCGCCAGCAGTTAG	MKYRKIVTVLLLCSILAISVGCSRQVARDEMRLYNMRAYEEGSREARISGRGMNGKFLEDLQATFNQADMPLTNETYVEDNVGNITYQYRINYDASQFITVYVYQNQAAREKGLKEIYGVTEGDANAAGGHNLIISDKETSIVYTSTGDKTDNYYDQVKKIAPSLLAKHQRRASS				NA	NA	NA	NA	NA
AK002_04012	999	yhfP	COG0604	Putative quinone oxidoreductase YhfP	GTGGACAACAAAACCGAATTTCAAGCCTATGTGCTTCGTCAAGATGAGCAAGGGGTTCGCGGCAGCGTGGAGAACATGAGTTTGGATCAGCTGCCGGAAGGCGACGTTATCGTGCGGGTGTTATACAGCGGGGTTAACTATAAAGACGGCCTGGCCAGCATACCGGGTGGAAAAATCGTTCGCAGGTATCCGTTCATACCAGGCATTGATCTGGCAGGGACGGTCGTGCATTCCGCTCATGCGGATTACAAGGAAGGCGATTCCGTCCTCTGTACCGGTTATGAGTTAGGGGTATCCCATGAAGGCGGGTTCAGCCAATATGCACGGGTAAAGGGAGAATGGCTCGTTCCCCTGCCGCAGGGCTTGTCTCCGCGCGATGCGATGGCCATCGGAACCGCAGGGTTTACGGCTGCTTTATCGATCGAGGCTTTATTGCGGAATGGGTTGCGGCAGGAGCAGGGTTCCGTCCTGGTTACGGGCGCGACCGGGGGAGTGGGCAGCTTCGCGGTATCCATCCTTAGCCAGTTAGGTTATCGGGTAACGGCATCGACAGGCAAATCCAGCCAGATCGACTGGCTCTTGAAGCTGGGAGCCCATGAGGTGATCTCCAGAGAAGAAGCTGCAACAGCCTCCAAGGGGGCCATCTCCGCCGAGAAATGGGCAGCCGTGGTAGATCCCGTCGGTGGTAATCATTTGGGCGCCATCCTGAAAAGCGTACAATACGGCGGAAGCGTCGCCGTTTCCGGCATGACGGGCGGCGGTGCGTTTGAAACGACGGTGTTTCCGTTTATACTGAGGGGAATCAATCTCCTTGGCATCGACTCGGTGTACTGCCCCATGGCCTACCGCCGAGCGTTATGGACCAAGCTGGCAAATGAATGGAAGCCGACATCCGTGCTTCAAGAAGGAATCGGCGAACACGGATTGACCGATTTGCCCGAAGTGCTGAATACCATCCTGCAGGGCGGGGCGGTAGGACGAAGCGTCATCGCCTTATAA	MDNKTEFQAYVLRQDEQGVRGSVENMSLDQLPEGDVIVRVLYSGVNYKDGLASIPGGKIVRRYPFIPGIDLAGTVVHSAHADYKEGDSVLCTGYELGVSHEGGFSQYARVKGEWLVPLPQGLSPRDAMAIGTAGFTAALSIEALLRNGLRQEQGSVLVTGATGGVGSFAVSILSQLGYRVTASTGKSSQIDWLLKLGAHEVISREEAATASKGAISAEKWAAVVDPVGGNHLGAILKSVQYGGSVAVSGMTGGGAFETTVFPFILRGINLLGIDSVYCPMAYRRALWTKLANEWKPTSVLQEGIGEHGLTDLPEVLNTILQGGAVGRSVIAL	PGPT0002275_418	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
AK002_04013	204			hypothetical protein	ATGACTCATTTTGATTATGGATCTAAACGTAGATCCTTCCGCTTCTCGTACTTGCTCACTTTGGTGACCTTAGTTCTGTTACCGGTCGTCTATAAACCGATCAGCCAGTTTTTTGGAGCCCTTGGTATTCATACACAATCAGGGGGCGTTGCCGGCTCGTTTCTCGTGTTCTTTCTAAGCTTGGGTCTCATTCTAACGCTGTAG	MTHFDYGSKRRSFRFSYLLTLVTLVLLPVVYKPISQFFGALGIHTQSGGVAGSFLVFFLSLGLILTL				NA	NA	NA	NA	NA
AK002_04014	1455	pncB2	COG1488	Nicotinate phosphoribosyltransferase pncB2	ATGCTGACAGCAGGATTAGCACTACATACGGACAAATACCAGATCAACATGATGTATGCGCATTGGATTAACGGCTCTCATCGTACGCGTGCGGTGTTTGAGGGATATTTCCGCAAGCTGCCGTTCGGTAACGGGTACGCCGTTTTTGCCGGACTGGAAAGGATCGTGCATTATATCGAGTCCTTGCGTTTCTCGGATGAGGATATCGCGTATCTGGCCAAACAGGAAGAGAAGTATAAGCCTGAATTTCTGGAGGAGCTTCGCCGCTTCCGGTTTCAAGGGAATATTGATTCCATGAAGGAGGGAGCGCTGGTATTTCCGAACGAACCGCTCATTCGGGTGGAAGGCACCATTTTCGAGACGCAGCTGGTCGAAACCGCGCTCCTGAACTTCATGAACTTTCAGACCTTGATCGCGACCAAGGCCTCCCGCATCCGTCAGGTGGCCGGCGGCGATACCTTGCTGGAATTTGGCACAAGACGCGCGCAGGAAGCGGATGCGGCCGTGTGGGGAGCCCGTGCAGCGTATCTGGCCGGCTTCCATGCTACCTCGAATATGCTGGCCGGGGAGAAATTCGGCATTCCGACCAAAGGCACGCATGCGCATTCCTGGGTGCAGACCTTCCGGAGCGAGCAGGAGGCATTTGATATTTTTGCCGAGGTCATGCCGGATCAAGTGACACTGCTGGTGGATACCTTCGATACGTTAAAGAGCGGGATTCCTCATGCCATCGCAACGGCGAAGAAGCTGGAGGCCCAAGGAAAGCGGATGAATGCCATTCGTCTGGACAGCGGGGATTTGGCTTACCTGTCGATTCAAGCAAGGAAGATGCTGGATGAGGCCGGTCTTCACTATGTAGGCATTGTGGCATCCAACGATCTGGATGAAGGTACAATTCTGGATCTCAAGGCACAGGGTGCCAAGGTCGATACTTGGGGCGTCGGTACCCAGCTGATCACGGCGGCCGACCAGCCAGCGCTCGGAGGCGTCTACAAGCTGGTGGAGCGGGAGGTTGACGGGAAGATGGTACCAACCATCAAAATATCGGGCAACCCTGAAAAAGTATCCACCCCCGGCAAAAAGGACGTGTACCGCATCATATCCAAGGGCAGCGGCAAAGCGATCGCCGATTACATCTGTTTCCCGGAAGAGGAGATGCCGCCGGAAAGCGGTAAGCTGAAGCTGTTTAATCCGCTGCATCCTTACATGCGCAAAAACGTGAAGAACTTTGAAGCGGTGTCCATGCTGGAACCGATATTCCAGAATGGCGAATTGGTGTATGAACTGCCGGAGCTGGAGGAAATCCGCAGCTATCATGACGCACAGCTGGGACAGTTCTGGCCCGAGTATTTGCGTAAGCTGAATCCGGAGATATACCGCGTGAACCTGAGCGAAGAGGTCTGGGAAGTGAAACAGCGGATGATGGCCGAGTTCATGGAACAGCATGAAGATTAG	MLTAGLALHTDKYQINMMYAHWINGSHRTRAVFEGYFRKLPFGNGYAVFAGLERIVHYIESLRFSDEDIAYLAKQEEKYKPEFLEELRRFRFQGNIDSMKEGALVFPNEPLIRVEGTIFETQLVETALLNFMNFQTLIATKASRIRQVAGGDTLLEFGTRRAQEADAAVWGARAAYLAGFHATSNMLAGEKFGIPTKGTHAHSWVQTFRSEQEAFDIFAEVMPDQVTLLVDTFDTLKSGIPHAIATAKKLEAQGKRMNAIRLDSGDLAYLSIQARKMLDEAGLHYVGIVASNDLDEGTILDLKAQGAKVDTWGVGTQLITAADQPALGGVYKLVEREVDGKMVPTIKISGNPEKVSTPGKKDVYRIISKGSGKAIADYICFPEEEMPPESGKLKLFNPLHPYMRKNVKNFEAVSMLEPIFQNGELVYELPELEEIRSYHDAQLGQFWPEYLRKLNPEIYRVNLSEEVWEVKQRMMAEFMEQHED	PGPT0013375_1274	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
AK002_04015	558	pncA	COG1335	Nicotinamidase/pyrazinamidase	ATGAAAGCCTTAATCGTGATAGATTTCACGAATGATTTCGTGGATGGTAACCTGCCGGTAGGGAAGCCCGCCATCGACATTCAGAAGACCATTGCAGAGTTGACCCGGTTATACAGCGATCGCGGAGATTTTGTCGTCATGGCCGTTGACCTGCATGAGCAGGACGATGCTTTTCACCCCGAAACCAAGCTGTTTCCTCCGCATAACATCCGGGGAACCCGGGGGCGGGAATTATACGGCGAATTACAGCAGGTCTATGAGGATCGCAAGGATACGATCTATTGGATGGATAAAACAAGATACAGCGCATTTTGCGGCACGGATCTGAACCAGAAGCTGCGGGAGCGAGGGATTACCGAGGTCGATCTCGTGGGGGTATGCACCGACATCTGCGTGCTGCATACCGCCGTGGATGCTTATAATTACGGATACAAAATAACGGTCTATGAAGATGGCGTTGCCAGCTTCAACCCGGAGGGGCATAAGTGGGCGTTAAGCCACTTTCAGGGCAGTCTCGGGGCAGCCGTTGTGCGAAGCGAAGAATTTCTTAATCGATAG	MKALIVIDFTNDFVDGNLPVGKPAIDIQKTIAELTRLYSDRGDFVVMAVDLHEQDDAFHPETKLFPPHNIRGTRGRELYGELQQVYEDRKDTIYWMDKTRYSAFCGTDLNQKLRERGITEVDLVGVCTDICVLHTAVDAYNYGYKITVYEDGVASFNPEGHKWALSHFQGSLGAAVVRSEEFLNR	PGPT0013470_2371	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
AK002_04016	786			hypothetical protein	ATGGTGATGGAAATGACGGATCGCGAACAGGCGCCAAAGAGCAATGCCAAGAAATACAGAACACCGGACGGTGTGCCCGCCGATATCGTGATGTTTACCCTGACGAAGCGGGAACGGAAGACTTTTACCAAGACACTGCCCATTCGGGAGCTTAAGGTGATGCTGATCCGGCGCAGGTCGTGGCCTTGTGCCGGCATGTGGGCGCTACCCGGCGGTTTTTGCCGTGAAAGCGAGTCGATTTACGATGCCGCCAAACGGGAGCTGAAGGAAGAGACCGGGGTGGACGGCGGACACTTGGAGTACTTGGGCGTGTACAGCGCGCCGGGACGTGATCCAAGGGGCTGGATTATCAGCCATGCCTTCTATGCACTCGTAGAGGAGTGGATGCTGGAGCACCGCCAGGCTGCCGATGACGCGGAAGAGGTTGGCCTGTTTACGGTGGCGGAAGCTCTGGAGGAGCTGGAGCTTGCCTTTGACCACAGGGATATTATGATGGATGCTTACCGCAAGATTCAGCTGCAAATGCTGCAAACGACGATTGCCAGGCAGTTTTTGCCGGAGCATTTTACGCTGAGCGAGTTATACCAGGTCATCCAGACAGTTGTGCCCGAGTTCAACGAACCCAACTTTATCCGTAAAATCACATCGACCCGCAGCAGGCAGGGGATACTGGAAGAAGCGCGGGATGAGAACGGCAAGCCGCTAAGCTCCAACCAATATTCCCAACGTCCGGCCCAATTGTACCGATTTACGGATCATGCGCCGCTGCTATCGATTTATACGTAG	MVMEMTDREQAPKSNAKKYRTPDGVPADIVMFTLTKRERKTFTKTLPIRELKVMLIRRRSWPCAGMWALPGGFCRESESIYDAAKRELKEETGVDGGHLEYLGVYSAPGRDPRGWIISHAFYALVEEWMLEHRQAADDAEEVGLFTVAEALEELELAFDHRDIMMDAYRKIQLQMLQTTIARQFLPEHFTLSELYQVIQTVVPEFNEPNFIRKITSTRSRQGILEEARDENGKPLSSNQYSQRPAQLYRFTDHAPLLSIYT				NA	NA	NA	NA	NA
AK002_04017	450	ymcA	COG4550	putative protein YmcA	TTGGCACATGATCATGTTCGTATCAACACCTACGGTATGTCCACTTATAATACGCGTGAATTGATTATACGCGACGATATTCTGGCGAAAGCCGGCGAGCTGGCGGATTTGATATCCACAAGCGAAGAAGTTCAGATGTTTAAGCAAGCGGAAGAGAAGATCCAGAATCACGAACGGGTCCAAAACCTGATCAAAACCATTAAGAAAAAGCAAAAAGAAATCGTGGCTTTTGAAACGTTCCAGAACAAGGACATGGTGGCAAAAATCGAACGCGAGATCGAAGAACTGCAGGAGGAGATCGACGGCATTCCGCTCGTGATGGAGTTCCAGCAAAGTCAGAGCGACATTAATTATCTCCTTCAGCTGGTCGTGTCCGTGATTCACGATACCGTTTCGGAAAAAGTGAACGTGGAAACAGGTAAAGATACGCCGCCAAGCAGCTGCGGTTAA	MAHDHVRINTYGMSTYNTRELIIRDDILAKAGELADLISTSEEVQMFKQAEEKIQNHERVQNLIKTIKKKQKEIVAFETFQNKDMVAKIEREIEELQEEIDGIPLVMEFQQSQSDINYLLQLVVSVIHDTVSEKVNVETGKDTPPSSCG	PGPT0026336_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA	NA	NA
AK002_04018	1560	miaB	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGTCGAAAGAAAGTAAGGACTACTCCAAGTATTTTGATTTTTCAGGAGCCAAAGTTCTCTCGGAAGATGAACACGGGAAGAGAATTCGCATCAATGGCCGGGAAATCAACATTCTTTCGGAGCCTAATCATAGACAGGAAAAACAACGCGGCAAACAGAGTGTCGAAGTCCTGTACGATACCGAGCTGCCTGAGGAGTTCCGAAGCATCGGGGCTGGCAAGCATTATATCGTGTATACGTACGGATGCCAGATGAATGAGCATGATTCCGAGACGATTAAGGGATTGCTGGAGCTGATGGGCTACCGGGCAACCGAGGATCGCAAGCAGGCGGACATCATTTTGCTTAACACATGTGCCATTCGTGAAAATGCGGAGGACAAGGTGTTTGGCGAACTCGGCCACCTGAAGCATCTGAAGACGGAAAAGCCGGATATGCTGCTTGGGGTTTGCGGCTGCATGTCGCAGGAAGAATCGGTCGTGAATCGAATTCTCCAAAAGCATGGCTTCGTGGATCTGATCTTCGGCACGCATAACGTACATCGTCTGCCTCACTTGATTCAGGAAGCGCTCTTCAGCAAGGAAATGGTGGTTGAAGTGTGGTCCAAGGAAGGCGACATTGTCGAGAATCTTCCGAAGAAAAGGGAAGGTCTCCGCGGCTGGGTCAACATTATGTACGGCTGTGATAAATTCTGTACATACTGCATCGTCCCTTACACCCGCGGCAAGGAACGCAGCCGGCGACCGGAGGACGTCATTGCGGAGGTTCGCGAATTGGCCCGTCAAGGGTATAAGGAAATTACGCTGCTCGGTCAAAACGTCAATGCGTACGGCAAAGATTTTGAAGATATCCAGTATCGCTTCGGCGATCTGATGGATGATATTCACAAAATCGATATCCCGCGCGTTCGCTTCACGACATCCCATCCAAGGGACTTCGACGATCATCTGATCGAGGTGCTGGCGAAGGGCGGCAACCTGGTGGAGCATATTCATCTGCCGGTGCAGTCGGGAAGCTCGCAAGTGCTCAAGAAAATGAGCCGGAAATATACCCGCGAGACGTATTTGGAACTGGCCCATAAGATTAAAAAGGCGATTCCCAATGTAGCGTTCACCACTGACATCATTGTCGGTTTCCCCGGCGAAACCGATGAGCAGTTTGAGGAGACGCTGTCCCTCGTACGGGAAGTAGGTTATGACTCCGCGTATACCTTTATTTATTCTCCGCGCGAAGGAACGCCGGCAGCGGTGATGGAGGATAATGTGCCGATGGAGGTTAAGAGCGAGCGTCTGCAGCGCTTGAATGCCGCCATTAATGAATACAGCCGCAAGAGCAACGACAGGCTGCTTGGATCTACGGTGGAGGTGCTGGTTGAAGGAGTCAGCAAGAACAATGATTCCATGCTGTCCGGACGCACGCGCACGAACAAGCTAGTGCATTTTGAAGGCTCGACGGACCTCGTAGGCAGCTTTGTGAATGTACGGATCACGGATACGAAGACCTGGTATATCAAAGGGGATATGATCCCGGACGCGATTCCTGCCTCAGATGCGGTATAA	MSKESKDYSKYFDFSGAKVLSEDEHGKRIRINGREINILSEPNHRQEKQRGKQSVEVLYDTELPEEFRSIGAGKHYIVYTYGCQMNEHDSETIKGLLELMGYRATEDRKQADIILLNTCAIRENAEDKVFGELGHLKHLKTEKPDMLLGVCGCMSQEESVVNRILQKHGFVDLIFGTHNVHRLPHLIQEALFSKEMVVEVWSKEGDIVENLPKKREGLRGWVNIMYGCDKFCTYCIVPYTRGKERSRRPEDVIAEVRELARQGYKEITLLGQNVNAYGKDFEDIQYRFGDLMDDIHKIDIPRVRFTTSHPRDFDDHLIEVLAKGGNLVEHIHLPVQSGSSQVLKKMSRKYTRETYLELAHKIKKAIPNVAFTTDIIVGFPGETDEQFEETLSLVREVGYDSAYTFIYSPREGTPAAVMEDNVPMEVKSERLQRLNAAINEYSRKSNDRLLGSTVEVLVEGVSKNNDSMLSGRTRTNKLVHFEGSTDLVGSFVNVRITDTKTWYIKGDMIPDAIPASDAV	PGPT0007215_298	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
AK002_04019	573	pduL	COG4869	Phosphate propanoyltransferase	ATGAGTAAAACTGTACCTGTGGGTGTATCCGCCCGCCATATTCATTTAACCCAAGAGCATATTGAGGCATTGTTCGGCCCTGGATATCAACTTACAGAGTTCAAACCTTTGTCCCAGCCAGGACAATTCGCGGCCAACGAAACGGTAGCGGTCATTGGAACGAAGGGACAATTCGATAAAGTAAGAATTTTGGGACCTGCGCGTCCTGCAACCCAGCTGGAAATTTCCCGTACGGATTCCTTTGCCATCGGCGTGAAAGCACCCGTGCGCGAATCCGGAAACATTGCCGGTACCCCGGGAATCACGATTAAAGGCCCGGCAGGTGAAGTAACGGTGGACGAAGGTGTCATCGTGGCCGCTCGTCATATTCACTTCCATACATCCGATGCGGAACAGTGGGGCATTAAGGACAAGGACCTGCTCAAAGTGCGCCTAGGCGGCGAACGCGGCCTCGTGCTGGAGAACGTCATTGCCCGCGTATCCGACAATTTTGCGCTCGACATGCACATCGATACCGATGAAGCCAACGCAGCCGGCGCCAAAAACGGAGATACTGCTGAAATTATTGATTAA	MSKTVPVGVSARHIHLTQEHIEALFGPGYQLTEFKPLSQPGQFAANETVAVIGTKGQFDKVRILGPARPATQLEISRTDSFAIGVKAPVRESGNIAGTPGITIKGPAGEVTVDEGVIVAARHIHFHTSDAEQWGIKDKDLLKVRLGGERGLVLENVIARVSDNFALDMHIDTDEANAAGAKNGDTAEIID	PGPT0001395_372	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001395-pduL-K15024	NA	NA
AK002_04020	972			hypothetical protein	ATGCGGACGGTTGATTTTCACTGCGATGCTTTGAGCAAAATGTGGGAAGATCCCAAAGCCTCTTTTGTGGACGGCCCGCATTTGGACGTAACGTTGCAGCATTTGGAGCAGGGGGATCTGGCGCTTCAGGTGTTCGCTGTGTTCTTGTCGGAGAAATTCGGGAGGCCCTCCTTTGAACGCGTATTGGCCCAACTGGAAGTATACCGAAGCCGCATCGTGAACGCGGGTCATCTGAAGCCCCTGCTTTGGCGGGAACAAGTCCGAGAGATGAGACAACGCAAGACGGAGCGGTACGGCGTGCTGTCGCTGGAAGGCGTTGACGGGCTGGAGGGCAATCTGTATTACGTTCAGCTTTTATTTGATATGGGCGTACGATTGATGGGAGTTACCTGGAATTATGCCAACTGGGCAGCGGATGGCGTACTGGAGCAGCGAAACGGCGGGTTTACGGAACGGGGACGTCAGCTGATCGAGCAATGTCATAGAACAGGCATCATTCTGGATGTGTCCCATCTGTCCCAGGCCGGTTTCTGGGAACTGGCGGAGCTGACTCAGCGGCCCGTCATTGCCTCGCATTCCAATGCGTACTCCATTTGCCCGCATCCCCGGAATTTGAGCGATGAACAGATACGCGCACTGATAGCGTTAAACGGCATGATCGGCATCACGTTTGTGCCCTGGTTTATCCGCAGCGGTGTCGAGCGCGTGAAGCCGGAGGACGTCCTGCCGCACATCGAAAAGATTTGTGAGCTGGGCGGAGAGAAGCACATCATATTCGGGTCGGATTTCGACGGGATCGATCAATGGATCGAAGGGCTGGAGCATCCGGGCCGGTATCCGGATTTTCAAGAGCTGCTGCTCAAGTTTTATTCCGAATCGATGGTCAAGGGCTGGATGTCGGATAATCCGCTGCGTTTTCTTGAACAGCATTTGCCTTCATCGCCGGTTCAAGAAGATGAACATGACGCATAA	MRTVDFHCDALSKMWEDPKASFVDGPHLDVTLQHLEQGDLALQVFAVFLSEKFGRPSFERVLAQLEVYRSRIVNAGHLKPLLWREQVREMRQRKTERYGVLSLEGVDGLEGNLYYVQLLFDMGVRLMGVTWNYANWAADGVLEQRNGGFTERGRQLIEQCHRTGIILDVSHLSQAGFWELAELTQRPVIASHSNAYSICPHPRNLSDEQIRALIALNGMIGITFVPWFIRSGVERVKPEDVLPHIEKICELGGEKHIIFGSDFDGIDQWIEGLEHPGRYPDFQELLLKFYSESMVKGWMSDNPLRFLEQHLPSSPVQEDEHDA	PGPT0020950_3235	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
AK002_04021	261	spoVS	COG2359	Stage V sporulation protein S	ATGGAAGTATTAAAAGTTTCAGCAAAATCCAATCCTAATTCGGTTGCAGGGGCGCTCGCTGGAGTTCTTCGGGAGCGGGGCGGAGCGGAACTGCAAGCGATTGGGGCGGGAGCACTGAACCAGGCCATTAAAGCGGTAGCAATTGCCCGGGGATTTGTAGCACCGAGCGGGGTGGATTTGATATGCATCCCTGCTTTTACGGATATTGTGATTGATGGCGAAGACCGGACGGCAATTAAATTGATCGTGGAACCTAGATAA	MEVLKVSAKSNPNSVAGALAGVLRERGGAELQAIGAGALNQAIKAVAIARGFVAPSGVDLICIPAFTDIVIDGEDRTAIKLIVEPR	PGPT0024850_192	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024850-spoVS-K06416	NA	NA
AK002_04022	930	ymdB_1	COG1692	2',3'-cyclic-nucleotide 2'-phosphodiesterase	GTGGCCGCATTCCGGCCACTTTTTATCTTTAAGATATCCGAAAATACATATCGGACTATCCATGAATCGGGAACCGACCTGCCTGGGATCAAGTCAGGACAGGATAGGACAGGCTCCCCTGAAGGAGTGATTGACATCAAAGTATTATTCATCGGAGACATTGTCGGCAGCACAGGACGCAAGGCGCTGAAAGCTTCCCTTCCCGAGCTGAAGTCCAAATATAATCCGCACATCATTATTGCCAATGGGGAGAACGCGGCTTCAGGCCGCGGCATCACCTCGGCCATAGCCAATGAATTTTTCAATTGGGGCATTCATGGCATCACCTTGGGAAACCACACGTGGGATAACAAGGATATTTTTGAATTTATCGACGACGAACCGCGCATGATTCGCCCGGCGAATTTCCCGCCCGGCACACCCGGCCGCGGATACACCGTCATTAAAGCGAACGGCAAACAGCTGGCGATCGTGAATTTGCAGGGACGGACATTCCTGCCAGCCATTGATTGCCCGTTCCGGGCCGCCGATGACATCGTGGATGAGCTGCGCCAAAAGCATAAATGCATCCTTGTGGATTTTCATGCTGAGGCGACCTCGGAGAAAATTGCCATGGGATGGCATCTGGAAGGCCGTGCCTCGATGGTGGTCGGCACGCACACCCACGTCCAGAGCAATGACGATACCATACTCCCGGGAGGAACGGCATACATTACGGATACCGGGATGGTGGGATCCAAGGAAGGCATCCTGGGCATGCAGCGCGATGCGGTCATGTATAAATTCAAGACCCAGCTTCCTGCCCGTTTCCAGGTCGACGAAGGCAAATGGCAGTTCCACGCTGTATGCGTGGACATGGATGAGGAGACGGGAAAAGCCCGGAAGATCCAAAAAATCCGCATGTACGAAGATGAATGGCGAATGGATTAA	MAAFRPLFIFKISENTYRTIHESGTDLPGIKSGQDRTGSPEGVIDIKVLFIGDIVGSTGRKALKASLPELKSKYNPHIIIANGENAASGRGITSAIANEFFNWGIHGITLGNHTWDNKDIFEFIDDEPRMIRPANFPPGTPGRGYTVIKANGKQLAIVNLQGRTFLPAIDCPFRAADDIVDELRQKHKCILVDFHAEATSEKIAMGWHLEGRASMVVGTHTHVQSNDDTILPGGTAYITDTGMVGSKEGILGMQRDAVMYKFKTQLPARFQVDEGKWQFHAVCVDMDEETGKARKIQKIRMYEDEWRMD	PGPT0021405_703	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021405-ymdB-K09769	NA	NA
AK002_04023	1542	rny	COG1418	Ribonuclease Y	ATGGATTCCATTTGGTGGATCGTAATCGTTCTCGTTGTAGCCGCTATATTCTTTGGGTTCGGTTATTTTATTCGCAAATCCCTTGCAGAAGCTAAAATTTCCAGTGCCGAGCATGCCGCTTTGCAGATCGTCGAAAGTGCGAAGAAGGAAGCAGAAGCATTGAAGAAAGAAACGGTTCTCGAAGCTAAAGACGAAGTTCATAAAATCAGAGCCGAAGCTGAAAAAGACACTCGCGAGCGCCGGAATGAAATTCAACGGCAGGAGCGCAGATTGTTGCAAAAGGAAGAGTCGCTGGATAAAAAAATAGAATCTTTGGAACGTAAAGAAGAACAAGTGGCGAACAAAGAGAAACGAATAGAGGAAACCCAGCAGCAAATCGATGCCATTTACAAGAAGCAAACGACAGAACTGGAGCGCATCTCCAACCTGACGATGGAGGATGCCCGCAGCATCATTCTCAGCAATGTTGAGCAAGAAGTTCGTCATGAAACCGCTCAGATGATCAAAGAAATCGAGCAGCAGGCGAAGGAAGAAGCAGATAAGAAATCACGCGAGATCATCACGCTGGCTATTCAACGCTGTGCGGCTGATCACGTAGCTGAGACCACAGTTTCTGTTGTCACCTTGCCGAACGAAGAAATGAAAGGCCGGATTATCGGACGTGAAGGCCGAAACATTCGTGCGCTTGAGACCCTTACAGGGATTGACCTTATTATCGATGATACTCCGGAAGCTGTCATTCTGTCCGGATTTGATCCGATTCGCCGTGAAATTGCCCGTACGGCTTTGGAAAAGCTCGTGGCGGACGGACGGATTCATCCGGCTCGTATCGAAGAAATGGTGGAGAAATCCCGCAAGGAAGTGGACGAACGCATTCGCGAGTATGGAGAACAAGCCACTTTCGAGGTTGGCGTACACGGTTTGCATCCGGATTTGATCAAAATTTTGGGTCGACTGAAATTCCGTACGAGCTATGGACAAAATGTGTTGAAACACTCCATGGAAGTGGCCTATTTGACTGGCCTGATGGCCGGCGAACTGGGCGAAGACATCGTGCTTGCGAAACGGGCAGGACTGTTGCATGACATCGGTAAAGCGCTGGATCATGAAGTGGAAGGATCGCACGTTGAAATCGGCGTGGAGCTGGCGAAGAAGTATAAGGAACATCCGGTGGTTATCAACAGCATTGCCTCTCATCACGGTGATTGCGAAGCAACTTCGGTTATCGCCATGCTGGTGGGTGCAGCCGACGCATTGTCCGCTGCCAGACCGGGAGCACGCAGAGAGACGCTTGAGACGTACATCCGTCGTCTTGAGAAGCTCGAGGAAATTTCCGAATCCTTTGAAGGTGTTGAGAAATCCTACGCCATTCAAGCAGGACGTGAAGTTCGCGTCATGGTACAGCCGGAAAAAATCGACGATGCCGAAGCATTCCGCTTGGCACGCGACATTACCAAAACGATTGAAAATGAACTGGATTATCCGGGTCATATTAAAGTCACCGTTATCCGGGAAACCCGTGCGGTCGATTACGCGAAATAG	MDSIWWIVIVLVVAAIFFGFGYFIRKSLAEAKISSAEHAALQIVESAKKEAEALKKETVLEAKDEVHKIRAEAEKDTRERRNEIQRQERRLLQKEESLDKKIESLERKEEQVANKEKRIEETQQQIDAIYKKQTTELERISNLTMEDARSIILSNVEQEVRHETAQMIKEIEQQAKEEADKKSREIITLAIQRCAADHVAETTVSVVTLPNEEMKGRIIGREGRNIRALETLTGIDLIIDDTPEAVILSGFDPIRREIARTALEKLVADGRIHPARIEEMVEKSRKEVDERIREYGEQATFEVGVHGLHPDLIKILGRLKFRTSYGQNVLKHSMEVAYLTGLMAGELGEDIVLAKRAGLLHDIGKALDHEVEGSHVEIGVELAKKYKEHPVVINSIASHHGDCEATSVIAMLVGAADALSAARPGARRETLETYIRRLEKLEEISESFEGVEKSYAIQAGREVRVMVQPEKIDDAEAFRLARDITKTIENELDYPGHIKVTVIRETRAVDYAK				NA	NA	NA	NA	NA
AK002_04024	738	recX		Regulatory protein RecX	ATGGATATAGAGAATAAAGAAATGTCGGGGCAGGCGGATTCCTCGGGAATTGGACATTTTCCGGAAGACGAGGATCTGGTCATAACTTCTGTCGAAATGCTGAAAAAGCCCAAACACCGGTATCAAATCGCGTTCGGTCCGTACCTTATGACCGTTCATGAAGACGTGATGCTTAAATATCGCATGTTAAAGGGAAATGTTTTTCGCAAGGAAGAGCTGCTGGAGATTGTCGTGGCAGATGAGCGGCAGCGGGCTTACGTGGAAGCGCTGAATCATTTGGCTCGGAAACCTAGGACGACTCAGGAGATCACGCAGCGTCTGCAGCAAAAGGGGTTCGAGCCCGGCAGCGTGGAGACGACGCTGGAACGCCTCGAGAAGGACAAGCTGTTGGATGACGCGCTGTACGCTAAGATGTGGGCAGAGCAGCGCATGACCAGCCATAAGAAGGGACGGCTGTGGGTTAAGCAGGAGCTGAGGCAGAAGGGGATCGGCACCGAGCTGATTTCGGAGGCTTTGGGCGAGATCAGCGCAGAATCGGAATTGGAGAGCTGCTTGGCCGTGGGACGAAAAAAATGGCAGCAAACCCAGGGGGAGCTGCTGGATCGCAAACGTAAAACCGGAGCATATTTAATGCGTAGGGGGTTCGGGGGAGAGCCTGTGCGTCAGGCACTCAAACTTCTGATTGAAGAGGAGCAGGAGAAAGGCGAATGGGACGAAGAGCCGTATGATATTGAATAA	MDIENKEMSGQADSSGIGHFPEDEDLVITSVEMLKKPKHRYQIAFGPYLMTVHEDVMLKYRMLKGNVFRKEELLEIVVADERQRAYVEALNHLARKPRTTQEITQRLQQKGFEPGSVETTLERLEKDKLLDDALYAKMWAEQRMTSHKKGRLWVKQELRQKGIGTELISEALGEISAESELESCLAVGRKKWQQTQGELLDRKRKTGAYLMRRGFGGEPVRQALKLLIEEEQEKGEWDEEPYDIE	PGPT0007240_865	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
AK002_04025	1062	recA	COG0468	Protein RecA	TTGTCAGATCGTCGTGCTGCGCTGGAAATGGCGCTTCGTCAGATAGAGAAACAGTTCGGAAAAGGTTCCATCATGAAACTGGGTGAATCCACCCATATGCAAGTTGAGATTGTGCCAAGCGGATCGTTGGCATTGGATATAGCTTTAGGAACCGGCGGCTTGCCTAGAGGCCGGATTATCGAAGTGTACGGCCCGGAATCCTCCGGTAAAACAACAGTAGCCCTGCATGCCATCGCAGAGGTTCAGAAGGCTGGCGGACAAGCTGCATTTATCGATGCCGAGCATGCTCTGGATCCATCGTATGCAAACAAACTGGGCGTTAATATTGATGAATTGCTGCTCTCCCAACCGGATACGGGCGAGCAGGCGCTGGAAATTGCGGAAGCTCTGGTACGGAGTGGAGCCGTCGATGTCATCGTTATTGACTCGGTTGCCGCGCTTGTACCGAAAGCCGAGATCGAAGGCGACATGGGTGATTCCCACGTAGGTCTGCAAGCCCGTCTGATGTCCCAGGCTCTTCGTAAATTGTCGGGTGCCATCAATAAGTCGAAAACGATTGCCATCTTTATCAACCAGCTTCGCGAGAAGGTTGGCGTTATGTTCGGTAACCCTGAAACAACCCCAGGCGGACGTGCTCTGAAGTTCTATTCCACGGTTCGTTTGGACGTGCGTCGAATTGAGAGCATCAAAATGGGCAACGATGTGGTGGGTAACCGCACACGGATTAAGGTTGTTAAGAACAAGGTAGCTCCACCTTTCAAACAGGCCGAGCTTGATATTATGTACGGCGAAGGCATCTCTAGAGAGGGAAGCCTGATCGATATCGGTACGGAGCTGGATATCGTGGATAAGAGCGGAGCATGGTATTCTTATGCCGGTGACCGTCTTGGTCAAGGCCGCGAGAATGCGAAGCAGTTCTTGAAGGAGAATCCGGAGATCGCAAGCGTGATCGAGAACAAGATCCGTGAAGCGAGTAATCTGACGACGGCTGTTCCTGAGCCTTCCGACAAGGAGAAGGAACAAGAGCAATTGGAAGAGCAAGAGTTGTTTAAGGTAGAGTAA	MSDRRAALEMALRQIEKQFGKGSIMKLGESTHMQVEIVPSGSLALDIALGTGGLPRGRIIEVYGPESSGKTTVALHAIAEVQKAGGQAAFIDAEHALDPSYANKLGVNIDELLLSQPDTGEQALEIAEALVRSGAVDVIVIDSVAALVPKAEIEGDMGDSHVGLQARLMSQALRKLSGAINKSKTIAIFINQLREKVGVMFGNPETTPGGRALKFYSTVRLDVRRIESIKMGNDVVGNRTRIKVVKNKVAPPFKQAELDIMYGEGISREGSLIDIGTELDIVDKSGAWYSYAGDRLGQGRENAKQFLKENPEIASVIENKIREASNLTTAVPEPSDKEKEQEQLEEQELFKVE	PGPT0007235_2523	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
AK002_04026	1263	cinA	COG1058	Putative competence-damage inducible protein	ATGAAAGCAGAAATCATTGCAGTTGGAACAGAACTTCTCCTCGGACAGATCGTGAATACCAATGCACAGTATTTGTCCAGACAGCTTGCTTCAATGGGGATCGACGTGTACTATCAAACCGTTGTCGGGGACAACCTGGACAGGCTCAAGGAGGCCTTGCGCCTGTCCAGCAGCAGAGCCGATATTGTACTCCTGTCCGGCGGTCTCGGTCCCACGCAGGACGATCTGACGAAGGATGCGCTGGCTTCCTTTCTAAATCGTTCCTTGCATATCGACCGGATGGCCATGGACCGGATTGAACGCTTCTTTCATGAGCGGGGATCCGTCATGACCGAGAACAATCGGCGCCAGGCTCTCGCCATCGAGGGAGGAACCCCGCTTCCGAACGAGACAGGCCTCGCCGTCGGGAACGCGGTATCCTATGAAGGCACTCATTATATCGTTTTGCCGGGGCCGCCCAAAGAATTGATGCCGATGTTTGAGCAGGAGGCCAAGCCTTGGCTTCTGCAGCATGTGCTCACGGATGAGCTTCCCATCTATTCGAAGATGCTTAAATTCGCGGGCATTGGGGAGTCCGCGCTGGATCAGCGCCTGGAGGACCTGATTACGGCCCAGACCGATCCGACGATTGCTCTGTATGCCAAGGATGGGGAGGTCACCGTCCGCATCTCCACGAAGGCCTCCAGCGAGTCTGACGCGATGGTCCGACTGAATGAACTGGAGGCCAGGATCCAGGAGAGAGGGCCTGAATTTATGTATGCCAACGAGGATGTGCCTATCGAAAAGGTCATCGTGGACATGATGGCAGATCGAAGCTGGACCCTGAGCGCGGCGGAGAGCTGCACGGGAGGACTTGTAGCGGAGACCCTGACCTCCATTCCCGGAAGCGCATCGATGTTTCTTGGGGGGATCATCTGTTACACTAACCAGATCAAGGAGAAGCTTGTGCATATCCCTCATGCGCTGCTGGAGGGCGACGATGCGCCGGGGGCCGTCAGTGCGGAGGTTGCAGAAGCGCTTGCGGATCATGTCCGGATGGTAACCGACAGCGACTTCGGTTTATCGGTGACAGGCGTGGCAGGTCCGGGTTACGCGGAACGCAAGCCTATAGGGCTGGTCTACATCGGATTGTCCCAAAGGGGCAAAGAAACGGAAGTGCATGAGCTGAACCTCCAAGGCAACCGCGAAACGATCCGGCTCCGCGCAACCAAAGCGCTGCTATACCGGCTTTGGCAGCGTCTCGTAGCGTCTGAGCAGGCTTAG	MKAEIIAVGTELLLGQIVNTNAQYLSRQLASMGIDVYYQTVVGDNLDRLKEALRLSSSRADIVLLSGGLGPTQDDLTKDALASFLNRSLHIDRMAMDRIERFFHERGSVMTENNRRQALAIEGGTPLPNETGLAVGNAVSYEGTHYIVLPGPPKELMPMFEQEAKPWLLQHVLTDELPIYSKMLKFAGIGESALDQRLEDLITAQTDPTIALYAKDGEVTVRISTKASSESDAMVRLNELEARIQERGPEFMYANEDVPIEKVIVDMMADRSWTLSAAESCTGGLVAETLTSIPGSASMFLGGIICYTNQIKEKLVHIPHALLEGDDAPGAVSAEVAEALADHVRMVTDSDFGLSVTGVAGPGYAERKPIGLVYIGLSQRGKETEVHELNLQGNRETIRLRATKALLYRLWQRLVASEQA	PGPT0013455_489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013455-pncC-K03742	NA	NA
AK002_04027	588	pgsA_1		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGAATTTACCCAATCGTATCACGTTGGCCCGCATTTGCTTGATCCCTGTCATGATGATTTTCCTGCTGGTGGATTTTGATTTTTACCCGGATCCCATTGTGTGGAATGATTTTGTCCTGCCCTATAACCAATTGATTGCGGCACTGATATTCATACTTGCTGCAAGCACGGACGGGATTGACGGGTATCTGGCCCGGAAAAACAATATGGTGACGAATCTGGGTAAACTTCTGGATCCGCTGGCGGACAAACTGCTGGTTGCGGCCATACTCATATCGCTTGTAGAGATGGGAAAATGCGAATCCTGGATTGCTGTTGTCATCATCAGCAGGGAATTTGCGGTGACTGGCTTGAGACAAATTGCGCTTCTGGAAGGTTCGGTAGTCGCAGCAGGTCAATCCGGAAAAATCAAGACGGTGATTCAGATCGTGGCGATTGTCGCGCTTCTGATCAACAATTTCCCGTTTGTATTTTTGGGGATTCCGTTTGATGTCATTGCGATCTGGGCTGCCGCGCTGATTACGATCTATTCGGGAATCGAATATTTTGTCCAGAACAGGCACCTTCTCAAAGGTACCGGGGCATAA	MNLPNRITLARICLIPVMMIFLLVDFDFYPDPIVWNDFVLPYNQLIAALIFILAASTDGIDGYLARKNNMVTNLGKLLDPLADKLLVAAILISLVEMGKCESWIAVVIISREFAVTGLRQIALLEGSVVAAGQSGKIKTVIQIVAIVALLINNFPFVFLGIPFDVIAIWAAALITIYSGIEYFVQNRHLLKGTGA	PGPT0007705_2943	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
AK002_04028	492			hypothetical protein	ATGGCTTCAGAAAGCTCATTTGATATCGTATCCAAAATGGATATGCAGGAACTTACCAATGCGGTTAATCAAGCGGAGCGCGAGATCGAAAACCGTTTTGACTTCAAGGGCAGCAAGAGCAGCTTGAAGCTGGACAAGGACGCGCTGGTCATTGCCTCCGATGACGAGTACAAACTCAACGCCGTTATCGATATTTTGCAGACCAAGATGGTGAAGCGGGGCTTGTCGCTTAAAAATGTGGAGTACGGTAAGATCGAGCCGGCTTCCATGGGTACCGTCCGTCAGCGTCTGACCTTGAAGCAAGGAATTGACCAGGAAAATTCCAAAAAGATCAATATTTTGATCCGTGATTCCAAGCTGAAGGTCAAGAGCCAGATTCAAGGAGACCAGATTCGGGTAACCGGAAAAAGCAAGGATGATCTTCAGCAGATCATGCAGCTGCTTCGCAAAGCGGACCTTTCCTTGGATCTGCAATTCACCAATTTTAAATAA	MASESSFDIVSKMDMQELTNAVNQAEREIENRFDFKGSKSSLKLDKDALVIASDDEYKLNAVIDILQTKMVKRGLSLKNVEYGKIEPASMGTVRQRLTLKQGIDQENSKKINILIRDSKLKVKSQIQGDQIRVTGKSKDDLQQIMQLLRKADLSLDLQFTNFK	PGPT0012210_539	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0012210-yajQ-K09767	NA	NA
AK002_04029	174			hypothetical protein	GTGACGGTCAATTGGATTATATTCGGATTAGGCGTTATCGTCAGCCTCTTGGGCTATTATTTGATTCCGAGCAGCTGGGGGTATGGCATATTAGGCTTTGGGCTGGCACATATTTTACTTGGCATACTGAGTATGTTCCGCCGTCCGGTGCATGATGAGAAAGCTAGCAGTTGA	MTVNWIIFGLGVIVSLLGYYLIPSSWGYGILGFGLAHILLGILSMFRRPVHDEKASS				NA	NA	NA	NA	NA
AK002_04030	1023			hypothetical protein	ATGTCCGAACTGGGACAGCAATTAAGGGAGGCGCGTCTGCAAAAAGGGATGAGCCTTGATGATGTGCAGGAAATGACTAAAATACGCAAGCGATACTTGGAAGCCATCGAGGCAGGGGATTACAAAGTACTTCCCGGCAGTTTTTACGTGCGGGCATTCATCAAAACCTATGCGGAAGCGGTGGGGATTGACCCGGACGAACTGCTTGAAGGGCATAAACAGGATGTTCCTAAATCCGAACCGGAAGCAACCATGGAGCCGGTTATTCAAAAGCGCGCCAGCAGACCGACAGCCGAACGGAACATGAAATGGCTGCCTACGCTGCTGATGTGGACGTTCCCGATCCTGATCGTTGTTGTCATATATTTGGTGGCCATCAATTCGAATGAGCCTAAGGACGAACCGCCGGTCAGCAACAATGATCAGACTCAGACCGATCAGGCGCAGAACCCGCAAACTCCGGATAACACGGATCCCGTGACGCCAGGCGACGGAGCGCAGGGCGGCGACAACACCCCGGACGGCACGGTTAACGAAGGCACGGACGGGGAAGGAACAGACGCCCCGGACGGAACAGATGGCACAGACGGGACGGATGGAACGGACATCGATGAACCGGGTGATTCAACGCCTGGAACGGCTACGGTGACGCAGGACCGGACGGAAGGCAAGAACACCGTATTTAAGGTATCGGGCTCGTCCGTGAAGGTTGAGATCGTGGCCACGAGCGAAGGCAAGAGCTGGGTCGAGGTATACCGCGGCAACAATACTTCCGGGGAGAAGCTGGCTTTCCAAATGCTCGAGAACGGTGCTTCGCTGAGCTTTGACATGGACAGCCAGGGACTCTTCGTGAAATCGGGGAATTCCGCCGCAACGACCATTACGGTTGGCGGCCAGCCCGTAACGGATGGCAAGTCCACGTCGCGCATCGTGCTGGAGCCGGCCGATGGTTCCGCAAGCACCATGGATAACACGGGTGCCGGGGATACTACGGATACATCGGATACCACCGACTTCGAATAA	MSELGQQLREARLQKGMSLDDVQEMTKIRKRYLEAIEAGDYKVLPGSFYVRAFIKTYAEAVGIDPDELLEGHKQDVPKSEPEATMEPVIQKRASRPTAERNMKWLPTLLMWTFPILIVVVIYLVAINSNEPKDEPPVSNNDQTQTDQAQNPQTPDNTDPVTPGDGAQGGDNTPDGTVNEGTDGEGTDAPDGTDGTDGTDGTDIDEPGDSTPGTATVTQDRTEGKNTVFKVSGSSVKVEIVATSEGKSWVEVYRGNNTSGEKLAFQMLENGASLSFDMDSQGLFVKSGNSAATTITVGGQPVTDGKSTSRIVLEPADGSASTMDNTGAGDTTDTSDTTDFE				NA	NA	NA	NA	NA
AK002_04031	768			hypothetical protein	GTGGAATCGAATCAATGGTACATGGAATATAAGATACATAAGAACCGGCCCGGTTTGCTCGGTGACATTGCATCCGTGCTGGGTATGCTCGAAGTGAACATACTGACCATTAACGGCGTGGAAGGACAAACCCGCGGAATGCTGCTCGAGACGGATGACGAAGAAAAAATTGTTCTGATGGGTAAAATGTTAAACAAAATGAAAAATATTACGGTATCAGCCTTGAGGCCCCCGAAACTGGTGGATATTCTGGCTGTCCGTCATGGACGATATATCGACCGGGACTCGGATGATCGTAAAACGTTTCGTTTTACGCGTGATGAGCTCGGTTTACTTGTTGATTTTTTGGGTGAATTGTTCAAAAGGGAAGGTAATCAGGTCATCGGCCTCCGCGGAATGCCCCGCGTGGGCAAAACCGAGTCCATTATCGCCGGCAGCGTCTGCGCGATGAAGCGCTGGACCTTTGTTTCCTCTACGCTGCTCCGTCAAACCATTCGCAGTCAACTCTCAGAGGACGAGATGAATACGAACAACATTTTTATCATTGACGGCATTGTGAGCACGATTCGATCCAATGAACGCCACTATCAGCTCCTGCAGGATATCATGGGGATGGAGAGCACGAAGGTGATCGAGCATCCCGATATCTTTGTTCGCGAATCCGAATATTCCTACGATGATTTCGACATTATCATCGAATTGCGAAACAATCCGGAAGAGGAAATCGTTTATGATACGTTCACGGGCTCTTATAGTGACGATTTGTAA	MESNQWYMEYKIHKNRPGLLGDIASVLGMLEVNILTINGVEGQTRGMLLETDDEEKIVLMGKMLNKMKNITVSALRPPKLVDILAVRHGRYIDRDSDDRKTFRFTRDELGLLVDFLGELFKREGNQVIGLRGMPRVGKTESIIAGSVCAMKRWTFVSSTLLRQTIRSQLSEDEMNTNNIFIIDGIVSTIRSNERHYQLLQDIMGMESTKVIEHPDIFVRESEYSYDDFDIIIELRNNPEEEIVYDTFTGSYSDDL	PGPT0003183_26	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003183-ymfK|ymfkn|ymfKc-NA	NA	NA
AK002_04032	255	yflH_1		putative protein YflH	ATGTCATCCGTAATCAAAAACTTTGATTCCTGGAAGAAATTCCTGGGCGAGCGCGTCGTTCAAGCCGAGAAAGCGGGTATGAGTGAAGACACTATTTCCCAGCTGGCTTATGAGATCGGTGATTTCCTCGACGAGAAGGTTGATCCGCAAAACTCATCCAACCGTGCACTGAAAGAATTGTGGGATGTAGGTAACGAGGAAGAACGCCACGTTATCGCGCGTCTGATGGTGAAATTGGCCAAGAACAACGCATAA	MSSVIKNFDSWKKFLGERVVQAEKAGMSEDTISQLAYEIGDFLDEKVDPQNSSNRALKELWDVGNEEERHVIARLMVKLAKNNA	PGPT0003182_1097	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
AK002_04033	771	fabG_8		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAGCAAGGCATGGGAAGAGAATTGAAGCCGATCGGGGAAATGACGGTATTGATTACGGGTGCGAGCAGAGGCATAGGGGCGGCTGTCGCCGAACGCTTTGCCTCGGTCCGCATGAATGTGGTCATCCACTACATGAATTCGCACGAAGCGGCCAACGAGGTAGCCCGCCGCTGCATGGCTTATGGAGCCAAGGTATTAACCGTATCCGCCGACCTGCGCGACAAAGAGCAGATATTGCGGATGAAAGAGAAACTGCAGAGTCATGATATGGAGCCGGATATTCTGGTTAACAACGCGGGCGTGTCCCATTACGGGCTTTTGTCCGACGTGACGGAAGAGCAGTGGGATACTTTGATGTCCATTAACCTGCGTGGGACGTTTCTGTGTTCCCAGGCCTTTATGGGGCGCATGGTTTCCCGGCGCTTTGGCAGAATCATCAATGTATCCTCGATCTGGGGGTTATCCGGTGCCTCCTGCGAGGTATTGTATTCGACAAGCAAAGGCGGCGTTAACGCCTTTACGAAGGCTCTTGCGAAGGAGCTTGCCCCGTCTGGCGTGACGGTGAACGCCGTGGCGCCCGGTGCGGTCGATACGTCCATGTTGGGGCATCTGGAGTCGGATGAAATTCGCATGCTGGAGGATGAAATTCCGGTCGGCCGGTTGGCACAGCCGGATGAGATTTCGTCGCTGGTGTATTTTTTGGCGCTGCCCGAGTCGGGCTACATTACCGGGCAAGTGATCAGCCCGAACGGAGGATGGGTGACCTAG	MKQGMGRELKPIGEMTVLITGASRGIGAAVAERFASVRMNVVIHYMNSHEAANEVARRCMAYGAKVLTVSADLRDKEQILRMKEKLQSHDMEPDILVNNAGVSHYGLLSDVTEEQWDTLMSINLRGTFLCSQAFMGRMVSRRFGRIINVSSIWGLSGASCEVLYSTSKGGVNAFTKALAKELAPSGVTVNAVAPGAVDTSMLGHLESDEIRMLEDEIPVGRLAQPDEISSLVYFLALPESGYITGQVISPNGGWVT	PGPT0003180_6992	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
AK002_04034	1281			hypothetical protein	GTGGAGAGCATTCATTATGACAACCTGCAGGAAACGCTGTATTACGAAGTGATGGATAACGGTTTGCACGTGTATGTGCTGCCTAAACCCGGCTTCCAGAAAACCTATGCGACCTTTGCAACCAAGTACGGTTCGGTCGATAACCATTTCAAGGTCCAAGGCGAGTCCGAGACCCGGGTTCCCGACGGAATTGCGCATTTTCTCGAGCACAAAATGTTTGAGGAGCCGGAAGGCGACATTTTTGCCAAGTTTGCTTCCAATGGCGCCTCGGCGAACGCTTTTACCAGTTTTGACCAGACCGTGTACCTCTTCTCGGCCACGGAGAACATTCATGAAAATTTGGAGACGCTGATCGATTTCGTGCAGAATCCTTATTTTACCGACCAGAACGTGGAGAAGGAAAAAGGGATCATCGGCCAGGAAATCAATATGTATCAAGACAACCCGGATTGGCGCGTGTACTTCGGACTGATCGAAGCGATGTATAAGGTGCATCCGGTGCATATCGACATCGCCGGCACGGTGGAATCCATCGGAACGATTACGAAGGAAGATCTGTATACGTGCTACAATGCGTTCTATCATCCGAGCAACATGCTGCTGTTCGTGGTGGGCGGCGTCGATCCCGAGGAAACGATGAACCTGATCCGATCGAACCAAGCCCGAAAATCGTACGACAAGCAAGGTTCCATTGAGCGTTTATTCGATCCGGAGCCGCAGGGAGTCGAAGAGAAGCGGAGAGAGAGCCGCCTGGCCGTATCGCTGCCGAAATGCCTGTTCGGCTTCAAGGAGAAGCAGGTCGGTTTATCGGCCGATGAGCAGCTGCGCCGCGACCTGACGACCAAGCTGATGATGGATCTCCTGTTTGGCTCCAGTACGGAGTTGTATCAGAAGCTGTACGATGAGGATTTGATCTCCGACAGCTTCGGCCATGAATATAACAGCTCGCCTCAGTATGCGTTCTCCGCGGTTGGCGGGGACACGAAGGATCCGGATCAACTGCTGGAACGCATCCGCACCGAGGTGGATAAGCTAAAGGCAGCCGGATTCCAAGCCTCGGACTTTGAACGGGCCCGCAAGAAGAAAATGGGCGGATATTTGCGCATGCTCAATTCCCCGGAAAACATTGCCCATGAATTTACTCGCTATCAGTTCCGCGGCGCCGATTTCTTCAACGTTTTGCCGGTTTATGAATCCATCACCCTAGAGGATGTCAACCGCCGCCTGCAGGAGCATGTCGATTGGAACCAACTGGCCGTATCGATCGTTGTGAGTCCGTAA	MESIHYDNLQETLYYEVMDNGLHVYVLPKPGFQKTYATFATKYGSVDNHFKVQGESETRVPDGIAHFLEHKMFEEPEGDIFAKFASNGASANAFTSFDQTVYLFSATENIHENLETLIDFVQNPYFTDQNVEKEKGIIGQEINMYQDNPDWRVYFGLIEAMYKVHPVHIDIAGTVESIGTITKEDLYTCYNAFYHPSNMLLFVVGGVDPEETMNLIRSNQARKSYDKQGSIERLFDPEPQGVEEKRRESRLAVSLPKCLFGFKEKQVGLSADEQLRRDLTTKLMMDLLFGSSTELYQKLYDEDLISDSFGHEYNSSPQYAFSAVGGDTKDPDQLLERIRTEVDKLKAAGFQASDFERARKKKMGGYLRMLNSPENIAHEFTRYQFRGADFFNVLPVYESITLEDVNRRLQEHVDWNQLAVSIVVSP	PGPT0003179_66	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003179-ymfH-NA	NA	NA
AK002_04035	1281			hypothetical protein	TTGACGAAAACGGAATTTGAACACGGTACTGCCGGAGGGATACGGATTCACGTGTTGCCGACAAACCGATTCAAGACATTTGCGATATCGCTTTACGCCGGAAGCCCGTTAGCAGAGGAAACCGTGACCTCGACCGCGCTTACGCCATTTGTACTGCGCAGAGGGACGGTCTCTTACCCGGAAACCAGAGCATTCCGCGAGCAGCTGGAGCAGCTGTACGGCGCCGGATTTGGTTTTGACGTGTATAAGCGCGGCGATTATCAGATCGTGCACTTCCGCATGGACACGATCAATGACTCTTTTGTTAAGAGCCCTGAGAGCCTGCTGCGCTCCTCATTTGCTTTTCTGGGCGAGGCATTCACCCAGCCTGTGCTAGAGAATGGCGCATTCCGCAAATCTTACGTGCAGACCGAGCGCGACACGGTCCGCAAGAAGCTGGAGTCTATCGTAAACGATAAGATCCGTTATGCCGCTGAGCGCTGCATTGAGGTTATGTGCAAGAACGAGCCGTACCGATTGCATCCGCTCGGAGAGCGGAAGGACCTTGACGGCATCACGCCGGAGGGCTTGTATGAATCTTATCAGAAATGGCTCCAAGAGTCCGTTTTGGATTTGTACGTGGTTGGCGATACGAGTCTGGATGAGGTGAAGACGCTCGTCGAGGAGCATTTTAAACTGAATCGGACGGAAAGCCGGGATTATGTTCCTTCTATCACGCGGACGGCCGCTAACGAGACGCAGACGGTCGTGGAGAAGCTGGACATTAATCAAGGCAAACTCAACATGGGCCTTCGAAGCACGATTACGTACGGAGATGATGAATATGCCGCTGCGCTTCTGTACAACGGGATTTTGGGAGGTTATCCGCATTCGAAGCTGTTCGTTAACGTGAGGGAGAAGGAAAGCCTGGCCTATTACGCTTCCTCCCGATATGACGGTCATAAAGGGATTGCTACCATCCAGTCCGGGATCGAGGTTCAAAATTTCGAGAAGGCGGTCGACATCATTCGCCAGCAGCTCGATGACATGGCCAAGGGTGCCATCTCGGACATCGAAATGACCCAGACGAAAGCCATGATCCGCAACGTGATCAAAGAAATGCAGGATTCGGCCTTCGAGATGATTGCGTATGATTTTAACCGCACGCTGTCGGGACGGGAACGTACGCCGGATGAGCTGCTGAAGCAGGTCGAGGGCATTGCAGTGGACGATGTGAAGCAGGCGGCTTCGGCATTTTCCCTGGATACGATCTATTTCCTGAAAGGTCAAAAGGAGGAATAG	MTKTEFEHGTAGGIRIHVLPTNRFKTFAISLYAGSPLAEETVTSTALTPFVLRRGTVSYPETRAFREQLEQLYGAGFGFDVYKRGDYQIVHFRMDTINDSFVKSPESLLRSSFAFLGEAFTQPVLENGAFRKSYVQTERDTVRKKLESIVNDKIRYAAERCIEVMCKNEPYRLHPLGERKDLDGITPEGLYESYQKWLQESVLDLYVVGDTSLDEVKTLVEEHFKLNRTESRDYVPSITRTAANETQTVVEKLDINQGKLNMGLRSTITYGDDEYAAALLYNGILGGYPHSKLFVNVREKESLAYYASSRYDGHKGIATIQSGIEVQNFEKAVDIIRQQLDDMAKGAISDIEMTQTKAMIRNVIKEMQDSAFEMIAYDFNRTLSGRERTPDELLKQVEGIAVDDVKQAASAFSLDTIYFLKGQKEE	PGPT0003177_24	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003177-ymfF-NA	NA	NA
AK002_04036	813	sleB_2	COG3409	Spore cortex-lytic enzyme	ATGAAAAACTCAAGAATCTGGATTCTGATCAGCATTGCGATACTGTTATCTGCCGTCGTCTTCGCCCAGGGAAGGCTGAAAGCGGATCACAGTTCGAGTCTACAGGAAGCTTTGCCGACCTTTAGCCAGCAGACCATCAAATTCGGTTCCACTGGCGAAGACGTGTATGAGCTGCAAGGGCGACTGAAGTATCTAGGCTTTTATCACGGCAAAATCGACAGCGTGTTCGGTTCCAAGACCCAAGGCGCCGTCAAGTGGTTCCAATCCGAGTTCGGCATGAAGGTGGACGGCATCGTGGGGCCGAAGGTCAAACTGAAACTGTATAACGCAACCAAGGATTTCCGTCCGACCGCTCCGAAGCTTCATGAAGGCGGAGGTGCAGCGGCCGGTGCTGGCGGAAACGGCGGCGGTACTAATCAAGGGAATAACAACTTAGCCTCATCGAATACTATGGGCCTGTCCGACAATGATTTGAGAATCATGGCGAATGCCGTTTACGGCGAAGCGCGGGGAGAGCCGTTTGAAGGACAGGTCGCCGTAGCGGCCGTTATTCTCAACCGTGTGAAATCGCCAAGCTTCCCCAACACGCCGCATGGGGTTATATTCGAGCCGAGAGCATTTACCGCGGTCGCTGACGGCCAGATATGGCTGGAGCCGAACGCCCAGGCGCGAAAAGCGGTGGAGCAGGCGCTGAACGGCTGGGATCCTACAGGAGGATGCTTGTACTACTTCAATCCGAAAACAGCCACCTCGCCATGGATTTGGACGCGTCCTCAAGTCAAAACCATCGGTCAACATATCTTCTGTATGTAG	MKNSRIWILISIAILLSAVVFAQGRLKADHSSSLQEALPTFSQQTIKFGSTGEDVYELQGRLKYLGFYHGKIDSVFGSKTQGAVKWFQSEFGMKVDGIVGPKVKLKLYNATKDFRPTAPKLHEGGGAAAGAGGNGGGTNQGNNNLASSNTMGLSDNDLRIMANAVYGEARGEPFEGQVAVAAVILNRVKSPSFPNTPHGVIFEPRAFTAVADGQIWLEPNAQARKAVEQALNGWDPTGGCLYYFNPKTATSPWIWTRPQVKTIGQHIFCM				NA	NA	NA	NA	NA
AK002_04037	1113	yteR_3	COG4225	Unsaturated rhamnogalacturonyl hydrolase YteR	ATGTCCAATCCCGTACAGCAGCAGGCACAGTCCGCCTTGTCACCAATAGAACTCGCCACCAAGGCGTGCCAATCGATCATGGAAACGTATTCGCCCGAGCAGCTTCCGCCTGCAGGCAGGTGGCATTACCATCAGGGCGTATTTTTGGTTGGGTTGTCTCAATTGTGGAAATTTAACGGGGACGCCAAGTTTTTGGATTATATCAAAGGCTATGTTGATCATCTGGTGGACGCTAACGGCAACCTGCTGCTGGAGCGGGGGGAGCTGGATTCCGTTCAAGCGGGCCTGCTCCTGATGGAATTGGATGCTGTGTTTCCCGAATACCGCTACAGGGCCGCAGCGGATAAACTGCTCCGCTTGCTGTCCACGCTGAACCGGACCACCGAAGGCGGCTATTGGCATAAGGACCGGTATCCATACCAGATGTGGCTGGACGGACTGTATATGGGCGGCGTATTTACGATGAACTATGCGAGGCAGTATAACGAGCCGCATTTATTTGACGAGGTATTGTTCCAGGAGAAGCTGATGCGCTCCCATACCAAGGATGAGGCTACCGGTTTGTATTATCATGCTTGGGACGAGAGCCGAACGATGCCCTGGGCGGATCCGGTCAGCGGGCAATCTCCGGAATTTTGGGGACGCGCCATAGGCTGGTATGCGTTGTCGCTTGTCGAGTTCCTCGATTTACTGCCAGAGCATCATTCGGCGAGGGAAGAGCTGGCTGCCGCGCTCCGTGAATTAAGCGAAGCGCTGGTGCGTTATCAGGATCCGGCTACCGGTCTGTGGCATCAGGTAGTGGACAAAGGGGGGCGGGAGGACAATTGGCTCGAAACCTCCTGCTCCAGTCTTTTCACCTATACCTTGGCAAAAGGAGTCCGTTTGGGTTATCTGGATCCTTCTTTTATGACGTATGCAAGACAGGGATATCAAGGCCTGGTCCAATCCGTATATCGCAATGACAAGGGAAATTTGGTCATGCCCCAAATCTGCATCGGCACGGGCGTAGGCGATTACAAGCATTATGTGGAAAGGCAGCAATGCGAAAATGACCTTCATGGCGTCGGAGCGTTGGTCATGGCGTGCGTAGAGCTAGGCAGAAGCGACGGATGA	MSNPVQQQAQSALSPIELATKACQSIMETYSPEQLPPAGRWHYHQGVFLVGLSQLWKFNGDAKFLDYIKGYVDHLVDANGNLLLERGELDSVQAGLLLMELDAVFPEYRYRAAADKLLRLLSTLNRTTEGGYWHKDRYPYQMWLDGLYMGGVFTMNYARQYNEPHLFDEVLFQEKLMRSHTKDEATGLYYHAWDESRTMPWADPVSGQSPEFWGRAIGWYALSLVEFLDLLPEHHSAREELAAALRELSEALVRYQDPATGLWHQVVDKGGREDNWLETSCSSLFTYTLAKGVRLGYLDPSFMTYARQGYQGLVQSVYRNDKGNLVMPQICIGTGVGDYKHYVERQQCENDLHGVGALVMACVELGRSDG	PGPT0018255_972	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
AK002_04038	1515	uxaA	COG2721	Altronate dehydratase	ATGAGTGACATCGTCATACTTCACAGCAAGGATGATGTCGGCATTGCGCTTCGTCCTTTGTCGGCAGGAGAACATGCCATCGGGATCTTGAATGGGAAGGAGCATGCCATCGAATTAACGGAGGACGTCCCGAAGGGTCATAAGGTGGCTCTGCGGTTGATTGAGGCGGGTAACCATGTTTTCAAATTCGGTTATTCGATCGGTCTGGCGAAGGAAGCCATTCTGCCGGGGACCTGGATTCATACCCACAATTTGAAAACAGGTCTCTCCGGTGAAGTGGAGTATCAGTATAAGCCAAACGCAAACCAAGGGCTTGAGCCTTCAGCTGCCAGCCACGGTTCGTCAACTTTCCAAGGATATGTCAGACCGAACGGCGAGGTTGGAATCCGCAACGAAATCTGGATCATCAACACCGTCGGCTGCATTAATAAAACCTGCGAGCTGCTGGCACGAATGGCAGGTCAGCAGTTTCAAGGGAGAGGGATTGATGGGGTTTATCATTTTCCGCATCCCTACGGCTGCTCGCAGCTCGGGGATGATCTGAGCCATACCCAGCGCCTATTATCCTCCCTGGCTCAGCATGGCAATGCCGCAGGCGTGCTCATTATCGGGCTCGGCTGCGAGAACAATCAGATCGATCAAATGCAGGCCATGATCGGGGAGCAGGACGGGAATAGGATCAAATATATGCGTGCCCAGGACATAGAGGACGAATTGGAGGAAGGGTTGTCCCTTATATCCGAGCTCGTGGAATATGCGGAGACGTTCAAACGAACGGAGGTTCCTCTCTCCAAACTGAAAATCGGGCTGAAATGCGGCGGGTCGGACGGACTTTCGGGCATTACAGCCAATCCGCTGGCGGGCCGCATCGCGGATACGATTACCGCCTATGGAGGCACCGCTCTTCTAACGGAGGTGCCGGAGATGTTCGGAGCCGAAACGATCCTGATGGATCGGGCTGCCGACGAGCAGGTGTTCCAGGATATCACCTTGCTCATCAACAACTTTAAACAATATTTCGTCTCGCATGGACAGGAAATCTATGAAAATCCGTCTCCCGGGAATAAAGACGGCGGCATCACGACCTTGGAGGAGAAATCGCTGGGATGCACCCAAAAAGGGGGGACTGCAACCGTATCCGATGTGCTCCGTTACGGCATAAGAACTACGAAGCCGGGACTGAACCTGATCGAGGGGCCGGGCAATGACCTCGTATCGGTTACGGCACTCGCTGCAGCCGGTGCCCACCTCGTGCTGTTCACGACCGGAAGGGGAACGCCGTTCGGGGGGCCTGTACCAACCGTCAAAATCGCGACCAATTCCGAGCTGGCCAAACGTAAAAAGCATTGGATCGATTTTAATGCGGGAGCTCTGCTGGAGGGCAAAAGCATGGATGAGCTTCATGCGGAACTCTTGGAGGTCATCGTTCATTTGGCCTCAGGCGTTGAGAAGACGCAAAATGAACGGAATGGCTTCCGGGAAATATCCATTTTCAAGGATGGCGTTATTTTATAA	MSDIVILHSKDDVGIALRPLSAGEHAIGILNGKEHAIELTEDVPKGHKVALRLIEAGNHVFKFGYSIGLAKEAILPGTWIHTHNLKTGLSGEVEYQYKPNANQGLEPSAASHGSSTFQGYVRPNGEVGIRNEIWIINTVGCINKTCELLARMAGQQFQGRGIDGVYHFPHPYGCSQLGDDLSHTQRLLSSLAQHGNAAGVLIIGLGCENNQIDQMQAMIGEQDGNRIKYMRAQDIEDELEEGLSLISELVEYAETFKRTEVPLSKLKIGLKCGGSDGLSGITANPLAGRIADTITAYGGTALLTEVPEMFGAETILMDRAADEQVFQDITLLINNFKQYFVSHGQEIYENPSPGNKDGGITTLEEKSLGCTQKGGTATVSDVLRYGIRTTKPGLNLIEGPGNDLVSVTALAAAGAHLVLFTTGRGTPFGGPVPTVKIATNSELAKRKKHWIDFNAGALLEGKSMDELHAELLEVIVHLASGVEKTQNERNGFREISIFKDGVIL	PGPT0018305_675	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
AK002_04039	1515	uxaB	COG0246	Altronate oxidoreductase	ATGGGTACGAGCACAGACCGAAGCGGATCGTTGAAGTTGGTCGGACGGGAGTTTCTCCAGCAGCAGGATATACGTCAGGACTCGGAGATGTTGAACTTCCCCGTGAAGGTGCTGCAAATCGGCGAAGGTAATTTTCTCAGGGGCTTTTTCGATTGGATGATCTATGAATGCAACCGGCAGGGGCTGTTTCAAGGGAGCGTCGCGGTCAGTCAGCCAAGACCCGGCGGAAGGCCCAAGCTAGAGCAGCTGCGGGAACAGGAAGGGATATACGGCCTTCTGACCCGAGGTATCCAGGATGGACGAAAAGTTGAGGAGGAGCAGTGGATTCCGGTGTTCTCGAAGATCGTGGATCCCTACGCGGAATGGGAGAACTTCTTAAGGATCGCCGAGCTGGATTCCCTGGATATCATCGTTTCCAATACGACCGAGGCTGGTCTCGATTATCAGCGCAGTGAATGGAATCCGGACGAACCGGTGTTGTCGTATCCCGGCAAGCTGACCATGCTGCTGTATCGGCGTTATGAGCATTATGAAGGCTCGCCGGACAAGGGCTTGATGATATTGCCCTGCGAGCTTCTGGAACGAAACGGGGATATCTTGCGATCCATTGTTTTGAGGCATGCACAGGATTGGGGGCTTTCGCCGGCCTTTCAGAGCTGGGTGGCGGAGCACAATCTGTTCTTGAACTCGCTTGTAGACCGGATCGTAACCGGTTATCCGGAAGAAGCGGAGCGTTATTTTGACAAATGGAGTCATCAGGACCGATTGCTCAACACGGCCGAGCCCTATTATTTCTGGGCGATTGAGGGCGATCCGTCACTGGAGTCCAGACTGCCTCTACGGTCGGCGGGCCTTCAGGTAAGCTGGGTATCCGATCTGACCCCGTATCAGGTTAGAAAAGTAAGGATCTTGAATGGAACGCATACCCTTATGGCTTCAATAGGTCTGCTCCATGGCTTGAACGAAGTAAAGGAGATGACGGAAAGTGCTGAATGGGGTGATCGCATCCGAAACGCGATGCTCGAGGAAATCGTCCCGGGGGTGCCTCTCCCGCCTGGAGATGTTGCGGCATATGCCGAAACCGTGTGGGAGCGGTTCCGCAACCCCTTCATTCGGCACAGGCTGCAGGACATCGCCATGAACAGCATCTCCAAATTTAGGGTTCGGGTTTTGCCGAGCTTAAAGGAATATATCAGAATGCATTATGAGCTGCCAAGCACCATTACTCTTGGATTGGCTTCCTTGATCCGTCTGTATCATGCCGGCACGAAGGAGGGGCAATGGTACGGCACGCGACTTGATGGTGAACAGCTGCCTTTAAGAGATGATCCGGATAACCTGATGACACTGCAGCAAGCGTGGCAACAGGTAGACGGCGGGGAGTGGACTATACGTCAGCTTGTGGCCTCCATTCTTGGTAACCAGAGGATATGGGGCGAGGATCTGAACCGAATTCCCGCTCTTCATGAAACGGTAAGCAGCTATATCGAAGAAATGGAGCTGAACGAGACATGA	MGTSTDRSGSLKLVGREFLQQQDIRQDSEMLNFPVKVLQIGEGNFLRGFFDWMIYECNRQGLFQGSVAVSQPRPGGRPKLEQLREQEGIYGLLTRGIQDGRKVEEEQWIPVFSKIVDPYAEWENFLRIAELDSLDIIVSNTTEAGLDYQRSEWNPDEPVLSYPGKLTMLLYRRYEHYEGSPDKGLMILPCELLERNGDILRSIVLRHAQDWGLSPAFQSWVAEHNLFLNSLVDRIVTGYPEEAERYFDKWSHQDRLLNTAEPYYFWAIEGDPSLESRLPLRSAGLQVSWVSDLTPYQVRKVRILNGTHTLMASIGLLHGLNEVKEMTESAEWGDRIRNAMLEEIVPGVPLPPGDVAAYAETVWERFRNPFIRHRLQDIAMNSISKFRVRVLPSLKEYIRMHYELPSTITLGLASLIRLYHAGTKEGQWYGTRLDGEQLPLRDDPDNLMTLQQAWQQVDGGEWTIRQLVASILGNQRIWGEDLNRIPALHETVSSYIEEMELNET	PGPT0018320_81	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
AK002_04040	1461	uxaC_1	COG1904	Uronate isomerase	ATGAGACCTTTTATGGATGAACATTTTTTGCTTCATAACGAGACTGCTCGCATCTTATACCACGATTATGCTAAAGCCATGCCAATCATCGACTACCACTGTCATTTGAGTCCGCAAATGATCGTTGACAATCACCGGTTCGAGAACTTAACGGAAGCCTGGATCAACGGTGACCACTATAAATGGCGGGCGATGCGTGCTGCAGGCGTGGAAGAGGCCTACATCACGGGAGGGCCGGGCGTGAACGATTATGACCGCTTCTTGGCTTGGACCCGCACCGTGCCGATGACGATTGGCAACCCCTTATTCCATTGGTCGCATTTGGAGCTGCAAAGACTGTTCGGCATATCGGACATCATTCAGGAAAAGAATGCTCCGCGAATTTGGGAGGCGGCAAACAAGCGTCTCCAGGAACATGATTTTACGACCAGGGGGTTGATTACGTCAAGCAACGTGAAGGTCGTGTGTACGACGGATGACCCGGCGGATAGCCTGGAATATCATATCAAGCTGACAGAAGAAGGCGATGCCGGATTTCAGATGCTCCCGTCATTCCGTCCGGACAAGGGGCTGGAGATTAACCGGGAGACGTTCGTTCCTTGGGTGAAGTTGCTCGCCGAGCGAAGCCGGGTCGAGATAGCGGATTATCCGGCATTTCTGGCAGCGCTGGAGCAGCGGGCGGAATTTTTCCATTCGGTGGGCGGCAGGGTATCCGATCATGCGTTGGATTACGTGCCTTATCGAGAGGTCAGCGAGGCGCAGGCGGGCGACATTTTCTTGAAAGCGCTTCAGGGGGAGAGGGTTTCCCGGGAAGAAGAGGAACAGTTCAAGACGCATACGCTGCTTCATCTTGGCCGTGTCTACGCCAGGCTCGGCTGGGTCATGCAGTTCCATATCAATGCCCAACGCAACAACAACACAAGGATGTTCCGGCAATTGGGTCCGGATACCGGGTATGATTCGATTCACGATAGTCCGATCGCCGTACCGCTCGTTAAGCTGATGGATCGGCTCGATCAAGAGTCGGCGCTTCCAAGAACGATACTTTATTCGCTCAACCCCAGCGATAACGATATCCTTGCTGCACTTATCGGGAGTTTTCAAGGGGACGGCATTCCGGGCAAAATCCAGTTCGGCTCGGCGTGGTGGTTCAACGACACCAAAGACGGCATGGTCGAGCAGATGAGCAAACTCGGCAATATGGGCCTGTTGAGCCGATTCGTCGGGATGCTGACCGACTCCAGAAGTTTTTTGTCTTACACCCGGCATGAGTATTTCCGGCGTATTCTTTGCAATCTTCTCGGCGAGTGGGTTACGCGGGGCGAAGCGCCGGATGATCTTCCGTGGCTCGGTGGCATCGTGCAGGATATTTGTTACAACAACGCCGAGCGTTATTTCCGGTTTGGCCAGACGGAGGGAGATAAACCATGGGTACGAGCACAGACCGAAGCGGATCGTTGA	MRPFMDEHFLLHNETARILYHDYAKAMPIIDYHCHLSPQMIVDNHRFENLTEAWINGDHYKWRAMRAAGVEEAYITGGPGVNDYDRFLAWTRTVPMTIGNPLFHWSHLELQRLFGISDIIQEKNAPRIWEAANKRLQEHDFTTRGLITSSNVKVVCTTDDPADSLEYHIKLTEEGDAGFQMLPSFRPDKGLEINRETFVPWVKLLAERSRVEIADYPAFLAALEQRAEFFHSVGGRVSDHALDYVPYREVSEAQAGDIFLKALQGERVSREEEEQFKTHTLLHLGRVYARLGWVMQFHINAQRNNNTRMFRQLGPDTGYDSIHDSPIAVPLVKLMDRLDQESALPRTILYSLNPSDNDILAALIGSFQGDGIPGKIQFGSAWWFNDTKDGMVEQMSKLGNMGLLSRFVGMLTDSRSFLSYTRHEYFRRILCNLLGEWVTRGEAPDDLPWLGGIVQDICYNNAERYFRFGQTEGDKPWVRAQTEADR	PGPT0018210_266	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
AK002_04041	903	rhaR_50		HTH-type transcriptional activator RhaR	ATGGCTCCAAGATGTTATGATCTGAACGAAGCGGGGGCGATTGTCATATCCAGCGAAACCCATACCGTATCCTACGGAGAAGAAGAAGGAGAATTTTATTATCATCGCATTCACCGCACGAAACCCTTTGAACGCAATAACCATTATCACGGAACTTACGAAATCTACTATTTGGTTTCGGGGGAACGCCATTATTTTATCAAAGAGAAGCTGTACTCCATCCGGGCGGGGGACCTGATTCTCATCAATAAATTCGATGTCCATAAAACCTCGGGCCATGGAGACCCGGAGCATGAGCGTATCGTCATTAATTTCAGCGATTCCTTTCTCGGCAAAGGCCATCCCTTGCTGGCATCGGGATTGCTCGGCATGTTTAACCAGGATCGGCCGCTGCTGCGCTTAACCGTGCCGGAGCAGGCGATCATCATGCAAATTCTGAATAAAATGGCCGATGAGATCCGGGAACGCTCCGCTTCGTATGAGCATATGCTGCAGGTGCTGCTTACGGAGTTATTAATCAAAACCTATCGATTAACCCATTCCGCCTCGCTGCCTGCCAACGTCTCCATGAATCCGCTCCATCAGAAAATCACGGACGTGGTCAAGTTTATTCACGTTCACTACGCAGACAAAATCACGCTGCAGGGATTATCCGAAACCTTCTACATCAGTCCGTTCTACCTGTCCCGGATCTTCAAAGAGATTACGGGCTTTACCATCATTAATTACCTCAACCTGACCCGGATTCGCGAGGCGCAGCGCCTTCTGACGGATACGGATCTGAAAATCGTGGACATCGCCGAATCGATCGGCTTTGAAAGCCTCACCCATTTTGACCGGACCTTCAAGAAAATCATGAATATGACGGCAAGCCAATATCGTAAAATCAACAGCGTCCCCTGA	MAPRCYDLNEAGAIVISSETHTVSYGEEEGEFYYHRIHRTKPFERNNHYHGTYEIYYLVSGERHYFIKEKLYSIRAGDLILINKFDVHKTSGHGDPEHERIVINFSDSFLGKGHPLLASGLLGMFNQDRPLLRLTVPEQAIIMQILNKMADEIRERSASYEHMLQVLLTELLIKTYRLTHSASLPANVSMNPLHQKITDVVKFIHVHYADKITLQGLSETFYISPFYLSRIFKEITGFTIINYLNLTRIREAQRLLTDTDLKIVDIAESIGFESLTHFDRTFKKIMNMTASQYRKINSVP	PGPT0017485_576	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_04042	2646			hypothetical protein	TTGGCAAAGCGGAAAAGAAAGAAGAAGGCAGCCTTTGCAGCCGTATTGAAATATGAAATTTATGGAATTGTATTGATGACACTCTCGGTCATCGCGTTATCCGGAGAAGCACCGGTGGGGCGTTCCCTGTCCAAGATGTCGGGATATCTGCTGGGTAAGTATTATTTTATCATCCCCCTAATCGGCATTTATTACGGGTTAATGGTGATGATTCACCGAAAATGGCCCAAACGGTGGAACAGCAGGCGTACCGGTGTCCTTCTCCTGGTATTATCGCTCACCTTAATGAGCAGTATTGCGGGTCTGGAGTCCAAATTGGCTCCGATCGGACAATTGAATGCATCGAGTGCGATGAGCCAGATACATAGTGATTTGCAGGGCGAGCTCCTTCATGCCGGGGCGGATGACGGACGTCATCCTGTCATGGGCCGGGATATCAGCGGGGGTTATGTTGGAGCCTTGCAGTTTGCCCTCTTGTTGATGCTGTTTGGCAGCATCGGGGCAAAGTTGATTGTGATTGTCATGCTGTTTATCAGCTTCATGCTGATTACGAATCTGTCCTATGTTGATTTAATGCGGATGTTCCGCGTCAGGGTTGTGAAAGCCGGGGAACGAATCCAAAAGAAAATGAACAGCCAGCAGACGAAATCAAAGGCGGCGGCGAAGGCAAGCGCAAAGGAGCAACGCATACAGCTGCCGGAGGATCTGGATGAAGACGATGACCTCGACGATATGGAAGGCATGCGGCTGCCGAAGCGTAAAGCGCCGCAATTCTTCCAACTGTTTGGTTCCAAGGGCAACAAGCGGAACGAAGCCGCGGAAGAGGCAGAGGATGTTATGGATGAGTCGGCTCCGGTATTTACGGTTGGCAACGGGCATGATGAGCATGATAAGGGCGAGGTCGTCCTGTTCAGCCGAGCGGATCAATCGGAGGAGGGGACGGATGCTGCATTTTCTGCACCGGATCCTGTACCTTCTTCGCCGATTATTCGCGATTTCTTCGAGCAGGTGAAGCAAGAAGGACGATTGGATGACGATCAAGACGATCACGAAGCGGTGATGCCTCCTGCGCATGAAGACCCTTCGGGGAACGCGGCATCAAGTTCGGATGCCATGGTTGACCCAGAGACGCTGAACGGCGAGACGAATTCAGCTGTTATCGCGGATACTGGGGGGCAAGAAGGATCGGCACCGGCAGCGCCACCGGCTCCGCCGCCCAAGCCGTACAAGCTGCCTCCGTTCCGGCTGCTGTCCAAACCGAACAACGGCGGCAAGGGTGGAGATCAGAACGATTACATGCAGACAGCGCGAAAGCTGGAGGCCACGCTGGAAAGCTTTGGCGTTCGGGCCAAGGTTCTGGAGGTTGTCCGGGGTCCGTCGGTAACCCGCTATGAAATTCAGCCGGACATCGGCGTCAAGGTCAGCCGGATCGTGAATCTGACCGATGATATCGCACTCGCGCTTGCGGCCAAGGATATTCGGATGGAGGCGCCGATTCCAGGCAAGTCCGCCATCGGGATCGAAGTGCCGAACAATGAAGTTTCGCTCGTCACCATGCGAGAGGTTATGGAAACGCCGACGTTCCAGGACGCGGAATCGAAGCTGTCAATCGCGTTCGGCCGCGATATTTCGGGCCAGACGATTGTCGGTAATTTGGCACGGATGCCCCATCTACTAGTTGCAGGCGCCACGGGTTCCGGTAAATCCGTATGCATCAACGGCATTATTACCAGCATCCTGTATAAAGCGAAGCCGGATGAGGTTAAGTTCCTGATGGTCGATCCGAAGATGGTCGAACTCAATGTCTATAACGGGATTCCGCATTTGATGGCGCCGGTGGTAACCGACCCGAAGCGGGCATCCTTAGCGCTTAAGAAAATCGTCGTGGAGATGGAGAAGCGGTATGAACTGTTCTCCAAGTCGGGGACGCGGAATATTGAGGGCTACAACAATCTAATGAAGGATAATCTGCCTGCGGTATTGCCGTATATCGTTGTCATCGTGGACGAGTTGGCCGATTTGATGATGGTCGCGGCCAACGACGTGGAGGATGCGATTACTCGATTGGCCCAAATGGCGCGTGCAGCCGGTATCCATCTGATTATCGCGACCCAGCGTCCGTCGGTCGACGTTATCACCGGGGTCATTAAAGCGAACATCCCGTCGCGTATTGCCTTTGGCGTGTCTTCGCAGGTCGATTCCCGAACCATTCTGGATATGGCGGGCGCCGAGAAGCTGCTTGGCCGCGGGGACATGCTGTTTATGCCGATGGGTTCCTCCAAGCCGATCCGCGTTCAGGGAGCCTTCATGAGTGATCATGAGGTCGAGAACATCGTGGATTTTGTCCGGGATCAAGGACAGGCGGAATATGACGAGTCGTTGGTGCCTGAAATCGAGGAATCCGCTGGCGCGGACGAAGAAGAATTGGATGAGTTGTATGAACAGGCGGTGACCATCGTATTGGAAGCCAAGCAGGCATCCGTGTCGCTGCTGCAGCGGAGAATGCGTGTAGGCTACACCCGTGCCGCCCGCCTCATCGATTCCATGGAAGCGCGCGGGGTGATCGGTCCTTATGAGGGCAGCAAGCCGCGGGAAGTGCTGATGTCCATGGAGCAATATCAGCAGCAGCAGAATCGAATCAGCTAA	MAKRKRKKKAAFAAVLKYEIYGIVLMTLSVIALSGEAPVGRSLSKMSGYLLGKYYFIIPLIGIYYGLMVMIHRKWPKRWNSRRTGVLLLVLSLTLMSSIAGLESKLAPIGQLNASSAMSQIHSDLQGELLHAGADDGRHPVMGRDISGGYVGALQFALLLMLFGSIGAKLIVIVMLFISFMLITNLSYVDLMRMFRVRVVKAGERIQKKMNSQQTKSKAAAKASAKEQRIQLPEDLDEDDDLDDMEGMRLPKRKAPQFFQLFGSKGNKRNEAAEEAEDVMDESAPVFTVGNGHDEHDKGEVVLFSRADQSEEGTDAAFSAPDPVPSSPIIRDFFEQVKQEGRLDDDQDDHEAVMPPAHEDPSGNAASSSDAMVDPETLNGETNSAVIADTGGQEGSAPAAPPAPPPKPYKLPPFRLLSKPNNGGKGGDQNDYMQTARKLEATLESFGVRAKVLEVVRGPSVTRYEIQPDIGVKVSRIVNLTDDIALALAAKDIRMEAPIPGKSAIGIEVPNNEVSLVTMREVMETPTFQDAESKLSIAFGRDISGQTIVGNLARMPHLLVAGATGSGKSVCINGIITSILYKAKPDEVKFLMVDPKMVELNVYNGIPHLMAPVVTDPKRASLALKKIVVEMEKRYELFSKSGTRNIEGYNNLMKDNLPAVLPYIVVIVDELADLMMVAANDVEDAITRLAQMARAAGIHLIIATQRPSVDVITGVIKANIPSRIAFGVSSQVDSRTILDMAGAEKLLGRGDMLFMPMGSSKPIRVQGAFMSDHEVENIVDFVRDQGQAEYDESLVPEIEESAGADEEELDELYEQAVTIVLEAKQASVSLLQRRMRVGYTRAARLIDSMEARGVIGPYEGSKPREVLMSMEQYQQQQNRIS	PGPT0030468_3721	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
AK002_04043	243			hypothetical protein	ATGACTTGGTACAGCGTCATGCCCTTGGATCCGACGACCGGGCTGCTTCAAGTGGAGCAGGAGGTCATGTCCAGGGAAGTTCGAGTCGATGGTATTTTGATGGAAGTGAAGCCTGTAACGGAAGAACAGGCGAAAATCGTTCGTTTATTGGATTGCGGGCTTCATGATTACTTGAACCCGCGCTACGCGCCAGGGACCATGATTCGCTATATTCCGACCGTCGAAAATGAGGCTAAAGGCTGA	MTWYSVMPLDPTTGLLQVEQEVMSREVRVDGILMEVKPVTEEQAKIVRLLDCGLHDYLNPRYAPGTMIRYIPTVENEAKG				NA	NA	NA	NA	NA
AK002_04044	777	tepA	COG0740	Translocation-enhancing protein TepA	ATGGACAACGATCAACGGATGACGGGCAACAGAAAAGCGGGGTGGACTGGCGAGACGGAGGCGCCTCCGGTCGTTCCGACCGAGGAAGGCAAGAAAGCGGCCGTGACGGAAACCATTCAGCAGCTGGGACAGACGGGGCTTCCAACCGGCGGAGAATCCAACGTCTTTTGCATGACGATTATTGGGCAAATCGAGGGTCATCTCGTGCTGCCGCCGCAAAATAAAACGACCAAATACGAGCATATGATTCCACAGCTAGTGGCAGCCGAGCAGAATCCGCGAATCGAAGGACTCCTGATCATTCTGAATACCGTTGGCGGCGATGTGGAAGCAGGGCTTGCCATTGCCGAAATGATTGCATCGCTCAGCAAACCGACGGTAACGGTTGTCATAGGAGGGGGTCATAGCATCGGCGTGCCTATCGCTGTTGCCGCAGACCATTCGATTATCGCAGAGAGCGCAACGATGACGATTCACCCGATTCGCATGAGCGGGTTAGTCATTGGCGTGCCGCAAACCTTCGAATATATGGAGAAAATGCAGGAACGCGTCGTGCGCTTTGTGACGAGCCATTCGGGGATCACGGAGGAACAGTTCAAGGATCTGATGTTCAAGACCGGCGAATTGAACAGGGATATCGGTACTGCGGTTTCGGGTACAGACGCCGTAAAGTATGGCTTAATGAACGAAGTGGGTGGAATCGGACAGGCATTAAGCCGGCTGAACAGCATGATCGCCGAGCGTAAAACGATTCAGCCCGGGGGGATTACGCAATGA	MDNDQRMTGNRKAGWTGETEAPPVVPTEEGKKAAVTETIQQLGQTGLPTGGESNVFCMTIIGQIEGHLVLPPQNKTTKYEHMIPQLVAAEQNPRIEGLLIILNTVGGDVEAGLAIAEMIASLSKPTVTVVIGGGHSIGVPIAVAADHSIIAESATMTIHPIRMSGLVIGVPQTFEYMEKMQERVVRFVTSHSGITEEQFKDLMFKTGELNRDIGTAVSGTDAVKYGLMNEVGGIGQALSRLNSMIAERKTIQPGGITQ	PGPT0014595_944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK002_04045	1680	rnjA_2	COG0595	Ribonuclease J1	TTGTCTAAGAAAATAAGCAGCGATAAACTATCGATTTTTGCCTTGGGCGGCGTCGGTGAAATCGGGAAGAACATGTATGTCATCCAGTATGCAGGCGACATCGTTGTCGTGGACGCGGGATTGAAGTTCCCAGAAGAAGATATGCTTGGGATTGATATTGTTATTCCTGATATTAGCTATTTAACGGAAAATCGCGACAAAGTGAGAGGGATTTTGCTGACTCACGGTCACGAGGACCATATCGGCGGCCTCCCTTACGTATTGAAACACCTGAACGTTCCTGTATACGGAACGAAATTGACGCTCGGATTGGTGGAAAACAAGCTCAGAGAAGCGAATTTGCTTGGTGAGACGAAACGGATTCTGATCCATGCGGATTCGGAAGTTCAACTCGGAAACACATTGAAAGCGACCTTCTTCAAAACCAATCACAGCATTCCGGATTCCGTGGGGATCTGTATCGAAACGCCGGAAGGCAATGTGGTGCACACGGGGGACTTTAAGTTTGACCATACTCCGGTCAATGACCAGTATGCGGATCTGCAGCGTATGGCTGAGATCGGAAGCAAGGGAGTATTGGCTCTTCTGTCGGACAGTACAAACGCAGAGCGCCCCGGCTTTACGCCTTCCGAGAAAAACGTAGGCATCGTGCTGGAAGACATCTTCCGCAAAGCCGAGCAGCGGGTTGTTGTTGCAACGTTTGCATCGAACGTGCACCGTATTCAACAGGTTGTCAACGCAGCCGAGTCCACCGGACGCAAAATAACGGTAATCGGCAGAAGCATGGTTAACGTTGTATCCATTGCCGCAGAGCTTGGATACCTGCACATTCCGGACGGCATGCTGATCGAACCCGAAGAGGTAAACAAAATGGCAGCGGACCGCGTTGTCGTATTGTGTACGGGCAGTCAGGGAGAACCGATGTCAGCGCTCACGCGCATGGCACGTTCCACCCACCGGAAGGTGGACATTCTGCCGGGAGATACGGTCATCATCGCGGCGACTCCAGTACCTGGAAATGAGAAGTACGTGGGTCGTACGATCGATGAGTTGTTCCGTCTTGGAGCAGACGTCATTTACAGCGGATCCAATTCGGGCGTCCACGTGTCGGGTCACGGTAGCCAGGAAGAGCTTAAGCTGATGCTGAATCTGATGAAACCGCAATTTTTCATCCCTGTCCATGGCGAGTACCGGATGCAGCGCCGTCACGCCCTGCTTGCGGAATCCGTTGGCGTGGATCCGGACAACATTTTTATTACCGATATCGGAGAAATCGTGGAGATTCAAGGCGGTTCGGCCCGCAAAGCCGGCAAAGTGACCGCCGGCAATGTGCTGATTGACGGACTTGGCGTCGGAGACGTAGGGAACATCGTACTGCGCGACCGCAAGCTTCTGTCCCAGGACGGTATTCTGGTCGTTGTCGTTACGTTGAGCAAACAAAACGGCTCCATCGTTTCCGGTCCCGATATTATTTCCCGTGGATTCGTATACGTACGAGAATCCGAAGGGCTTCTGGATGAAGCCAACCGTATCGTTTCCAGCACGCTTCAGAAGCTGATGAGCGAAAACGTAAATGAATGGGCATCACTGAAGACCAGCGTGAAAGACGCTTTGGGACGCTTCTTGTATGAACAAACACGTCGCAGACCGATGATCTTGCCGATCATCATGGAAGTCTGA	MSKKISSDKLSIFALGGVGEIGKNMYVIQYAGDIVVVDAGLKFPEEDMLGIDIVIPDISYLTENRDKVRGILLTHGHEDHIGGLPYVLKHLNVPVYGTKLTLGLVENKLREANLLGETKRILIHADSEVQLGNTLKATFFKTNHSIPDSVGICIETPEGNVVHTGDFKFDHTPVNDQYADLQRMAEIGSKGVLALLSDSTNAERPGFTPSEKNVGIVLEDIFRKAEQRVVVATFASNVHRIQQVVNAAESTGRKITVIGRSMVNVVSIAAELGYLHIPDGMLIEPEEVNKMAADRVVVLCTGSQGEPMSALTRMARSTHRKVDILPGDTVIIAATPVPGNEKYVGRTIDELFRLGADVIYSGSNSGVHVSGHGSQEELKLMLNLMKPQFFIPVHGEYRMQRRHALLAESVGVDPDNIFITDIGEIVEIQGGSARKAGKVTAGNVLIDGLGVGDVGNIVLRDRKLLSQDGILVVVVTLSKQNGSIVSGPDIISRGFVYVRESEGLLDEANRIVSSTLQKLMSENVNEWASLKTSVKDALGRFLYEQTRRRPMILPIIMEV				NA	NA	NA	NA	NA
AK002_04046	882	dapA_4	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	GTGGATTTCGGAAGACTGATTACGGCTATGGTAACCCCTTTTGATCAGAACGGCCAGATCAATTGGGACGAGACTGCGAGATTGATTGAGCACCTGATAGTGGAACAGAAGTCGGATTCCCTGGTCATTGCTGGAACGACCGGCGAATCGCCAACGCTTAGCGAAGACGAGAAGCTTGAATTGTTTAAGTTCGCTGTGAAACAGGCGGGCGGACGGAGCAAGATCATCGCAGGCACAGGCAGCAACAATACGTCACATTCTGCAGAATTGACGAAGAAAGCCGAAAGCTGCGGCGTCGACGGCATTTTGCTTGTAGCACCATACTACAACAAGCCGAACCAGGAAGGACTCTACCAGCATTTTAAGGCGATTGCCGAGGCAACCTCCTTGCCCGTCATGCTGTATAATGTACCTGGTAGAACGGGTATCAGCCTAAGCACGTCCACCACCTTAAGGCTGGCACAAATTCCGAACATCGTTGCGACCAAGGAATGTGCTTCGATTGACCAGGTTACCGGCATTGCCGCAGGTGCTCCCGAAGGGTTCATCGTATATTCCGGCGACGATTCCGCGGCATTGCCTGCATTGTCGGTAGGTGCTTATGGAATCGTAAGCGTGGCCAGCCATATTGCAGGTGCCCGCATGAAGGACATGATCGAAGCCTTCGTGGAAGGGAACGTGAAGGAAGCTGCCAAGCTTCATCAATCCTTATTCCCGCTGTTCAAAGGCCTCTTTGAATGTCCTGACCCGCTTCCGAATCCTGCGGCGGTTAAATTCGCTTTGAACGAACGCGGCTATCAAGTCGGCGGGGTTCGCCTGCCGCTCGTTGCTCCAAGCGAGAACGAGGCTGCTTTTATCCGTAATATGCTGTCTTCCTTGTAA	MDFGRLITAMVTPFDQNGQINWDETARLIEHLIVEQKSDSLVIAGTTGESPTLSEDEKLELFKFAVKQAGGRSKIIAGTGSNNTSHSAELTKKAESCGVDGILLVAPYYNKPNQEGLYQHFKAIAEATSLPVMLYNVPGRTGISLSTSTTLRLAQIPNIVATKECASIDQVTGIAAGAPEGFIVYSGDDSAALPALSVGAYGIVSVASHIAGARMKDMIEAFVEGNVKEAAKLHQSLFPLFKGLFECPDPLPNPAAVKFALNERGYQVGGVRLPLVAPSENEAAFIRNMLSSL	PGPT0002080_6982	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK002_04047	1215	lysC_2		Aspartokinase	ATGCGCATCTTAGTTCAAAAATTCGGCGGCACCTCATTGTCTACACCGCAAGCAAGAACCCATGTTATTGGGCACATCCAGCGTGAACTGGCCAATCACTACCAATTGGTCGTGGTTGTATCGGCTATGGGACGCAGAGGGGAGCCTTATGCGACAGACACGCTCCTGGACTGGATCGGGCATAACGGAAACGCGCTTCCCGACAGAGAACGGGATCTGCTGCTCTGCTGCGGTGAAATTATCTCGGCTTCAACGCTGTGCAGTCTCCTTCAGCAAGAGGGGATAACCGCAACGGTGCTGACGGGTGCACAAGCCGGATTTCTCACAGACGATCACTTCGGAAATGCACGTATCAAGGACGTAAAACCTGAACGGGTTTTGAAAGAGTTGGAGAGTCATCAGGTTGTCATCGTTACCGGCTTCCAGGGGCAGACCGATTCCGGCGACTTTACCACGCTGGGCAGAGGCGGAAGCGATACTTCGGCTACAGCGCTTGGTGCCGCGCTTCGCGCCGAAATGGTAGATATCTACACCGATGTCAACGGCATTCTAACGGCGGATCCCCGCATCGTCGAGGATGCGAAGCCGCTTAGTTACGTGAGTTACACGGAGATTTGCAACATGGCTCATCAAGGGGCAAAGGTCATTCATCCTAGAGCGGTTGAGATTGCCATGCAATCCCAAATTCCGGTCAGAGTGCGGTCGACCTTCTCGGATAATGAGGGCACGCTGGTAACCCAGCCTGAGGGCTTCAGAGATATTCAATCCGGAATCGTGGACCGCTTTGTGACGGGAGTTGCCTATGTAAGCAACATAACGCAAATCTCGGTGGAATGCGATCGCACGGAAGGTCTTCAACTGAAGGTATTTAAATCGATGGCCGAGCATTCCATCAGCGTGGACTTTATTAATGTTACCCCTACCGGAGTGCTTTATACGGTGTTTGACAGCGATTCGGAGAAGGCGATCGAAGTGCTGCAGAGCCTGGACCTGAAACCGAAAAGCCTATCCGGCTGTGCCAAAGTGTCCGTCATTGGCGGCGGCATCAACGGCGTTCCGGGCATCATGGCCAAAATCGTGGAATCCTTGAGCGAGCACGACATTCCGATTCTGCAATCCGCGGATTCGAATACGACGATATGGGTACTGGTGAAAAAAGAAGATATGGCTCAAGCGCTGCGCGCCCTTCATCATAAATTTGAGCTTCACCGATAA	MRILVQKFGGTSLSTPQARTHVIGHIQRELANHYQLVVVVSAMGRRGEPYATDTLLDWIGHNGNALPDRERDLLLCCGEIISASTLCSLLQQEGITATVLTGAQAGFLTDDHFGNARIKDVKPERVLKELESHQVVIVTGFQGQTDSGDFTTLGRGGSDTSATALGAALRAEMVDIYTDVNGILTADPRIVEDAKPLSYVSYTEICNMAHQGAKVIHPRAVEIAMQSQIPVRVRSTFSDNEGTLVTQPEGFRDIQSGIVDRFVTGVAYVSNITQISVECDRTEGLQLKVFKSMAEHSISVDFINVTPTGVLYTVFDSDSEKAIEVLQSLDLKPKSLSGCAKVSVIGGGINGVPGIMAKIVESLSEHDIPILQSADSNTTIWVLVKKEDMAQALRALHHKFELHR	PGPT0014040_5643	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
AK002_04048	591	dpaB	COG0452	Dipicolinate synthase subunit B	ATGAATTGGAATGGAATTACAGTGGGATATGCCCTGACAGGATCGCACTGCACACTCGAAGAAGTGATGCCGCAGATCCAGCGATTCAAAGACGGGGGAGCGAATGTGGTGCCGATTGTATCGAGCACCATCATGACGACCGATACCCGATTCGGCACATCGGAAAATTGGCAGAAACAGTTGAAAGATATAACCGGGAATGATATTATTTCTACAATTGTGGAGGCGGAACCGCTGGGCCCATCCAAGCTGCTTGACGTCCTGGTTATCGCCCCTTGCACGGGAAACACGACCAGCAAGCTGGCCAATGCGATGACTGACAGTCCTGTCTTAATGGCAGCCAAGGCGCAGATGAGAAATTGCAGACCGCTGGTGCTGGCGATCTCAACGAATGACGGTCTTGGACTGAATGCGGCCAATATCGCGAAGCTGCTGGTTACCAAAAACATATATTTCGTCCCTTACGGACAGGATAATCCGCAGCAGAAACCGAACTCGCTTGTCGCCAAAATGAATCTGATTCCGGAAGCTTGTTATGCGGCATTGGAAGGAAAACAGCTCCAGCCGATGATCGTTGAATATTCTCGATAA	MNWNGITVGYALTGSHCTLEEVMPQIQRFKDGGANVVPIVSSTIMTTDTRFGTSENWQKQLKDITGNDIISTIVEAEPLGPSKLLDVLVIAPCTGNTTSKLANAMTDSPVLMAAKAQMRNCRPLVLAISTNDGLGLNAANIAKLLVTKNIYFVPYGQDNPQQKPNSLVAKMNLIPEACYAALEGKQLQPMIVEYSR				NA	NA	NA	NA	NA
AK002_04049	897	dpaA		Dipicolinate synthase subunit A	ATGCTGACTGGAGTCCGGACCGTCTTTGTTGGAGGAGACGCAAGGCAAATTGAAGTGATTCGCAAATGCGCTGAGATGGATGCCTCCGTCATGATCGCCGGGTTTGAGAAACTGCAGGATTCTTTTCAGGGAGTGACTCGCGAGCCGCTTACGCCAGAGCTGTTATCGGACGCCGATGCTCTGATCCTGCCTGTAGTGGGATGTGATGATGAGGGACGTGTCAGCGCGCTGTTCTCGGAAGGGCCGCTGCGACTGCAGGAAGAACATATCGCGGCGATGCCCGGACATGGAGTGATCTATACAGGCATGGCGAAACCCTATTTGCGCTCGCTATGTGACAAATATAAGATCAAGCTGGTAGAGATATTGGAGAGGGACGATGTGGCTATTTATAATTCCATTCCGACCGCCGAAGGCGCACTCATGATGGCGATCCAAAACACGGATTTTACGATCCACGGATCTACCAGCATGGTGCTTGGTATGGGACGGACCGGATTTACAATGGCTCGCAGCCTGCAGGGACTGGGTGCCAAAATTCGGATGGGGGTACGTAAATCGGAGCACTACGCAAGAGCTGAGGAAATGGGCTGGAAGCCCTTCCTGGTAAGGGATCTGGGTTCTTATGTGTCGGATATTGACTTGCTTTTTAACACGATTCCAACTATGATAGTCACAGCACAAATCATCTCGAAAATGCCTCGGGAGGCTGTCATTATTGACCTTGCCTCCGCACCCGGCGGATGCGATTTTCGCTATGCCGAGAAACGGGGGATCAAAGCCATGCTCGCACCCGGACTACCCGGAATCGTGGCTCCAAAAACAGCCGGCATTATCATGGCCAACACGCTGGTGGAGCTGATTTCTGAAGAAATCAAGATTCGGGAGGATGCGTAA	MLTGVRTVFVGGDARQIEVIRKCAEMDASVMIAGFEKLQDSFQGVTREPLTPELLSDADALILPVVGCDDEGRVSALFSEGPLRLQEEHIAAMPGHGVIYTGMAKPYLRSLCDKYKIKLVEILERDDVAIYNSIPTAEGALMMAIQNTDFTIHGSTSMVLGMGRTGFTMARSLQGLGAKIRMGVRKSEHYARAEEMGWKPFLVRDLGSYVSDIDLLFNTIPTMIVTAQIISKMPREAVIIDLASAPGGCDFRYAEKRGIKAMLAPGLPGIVAPKTAGIIMANTLVELISEEIKIREDA				NA	NA	NA	NA	NA
AK002_04050	444	dut		Deoxyuridine 5'-triphosphate nucleotidohydrolase	TTGCACTACGTTCAAATCAATAGATTGCCAGGAAATGAAGATGTGAAACTTCCGGTGAAAATGTCCGAGCTGGCTGCGGGTTTCGACCTGCACGCTGCCGTTCAAGAGCCGGTGGTGCTAAACCCGGGTGAGCGCAAATTAATCCCGACCGGTTTTGCGATTGCCATGCCAGCCGAGCTTGAGGCGCAAATTCGCCCACGCAGCGGTCTTGCCTACAAACATGGCATTACTTGCCTGAATGCTCCGGGTACGATTGACGCCGATTATCGCGGGGAAGTCAAGGTGCTGCTTGTCAATTTGGGACAGGAGCCTTTTGCGATTGAGCGTAATGAGCGGATTGCCCAGATGGTGTTCAAATCCGTGCCTGCCGTAGAATTTACGGAAGTTGACGAACTGTCCGATACGGTACGCGGGGCGGGTGGATTCGGTCATACCGGCAAATAA	MHYVQINRLPGNEDVKLPVKMSELAAGFDLHAAVQEPVVLNPGERKLIPTGFAIAMPAELEAQIRPRSGLAYKHGITCLNAPGTIDADYRGEVKVLLVNLGQEPFAIERNERIAQMVFKSVPAVEFTEVDELSDTVRGAGGFGHTGK	PGPT0021355_3665	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021355-dut-K01520	NA	NA
AK002_04051	1269		COG0612	putative zinc protease	GTGAAAAAAATACAATTGTCTAACGGCCTGAGAGTGGTTATGGAGCAAATCCCGACAAGTCGTTCGGTTTCATTCGGCATTTGGGTGAAAACCGGATCCCGCAATGAATCGGAAGACATCAACGGGATTACGCATTTTATAGAGCATATGATGTTCAAAGGGACGGAGCGCTTTGACGCCCGTGCCATTGCTGAAGAATTCGATGCCATCGGCGGTAACGTCAACGCTTTTACGTCCAAGGAATATACGTGTTATTATGCCAAGGTGCTGGATGAGCATTTTCCGATTGCCGTTGACGTGCTGTCCGACATGTTCTTCAATTCGAAGCTGGATGCGGGCGAGTTAGCCAAGGAGAAAAATGTCATTCTTGAAGAGATTGCGATGTATGAAGATACGCCGGATGATCTGGTTCATGATCTGATGTCGTTGTCAGTGTACGGTGACCACCCGCTTGCTTATCCGATTCTCGGCACGAAGGAGCGGCTGGAATCGATGGATTCGCAAGCGCTGAGATCCTACATGGACCGGCACTATACCATTGAGAATACGGTGATTGCCCTGGCCGGCAACATCAATGATGAAGTGATTGCGTTATTGGAGCGCCATTTTGGCGGCTTCGCCAACCATGGAACGTCGGAGCCGCTGGCGGTACCGGCCTTTTTGGACGGCGTGCAGTTCCGCAAGAAGAAAACGGAGCAGAATCATATCTGCATGTCGTTTCCCGGCTGCTCGATCGGCGACGAGCTTCAGTATGCGATGGTTCTGCTGAATAACGCCATTGGCGGCGGCATGAGCTCACGCTTGTTTCAGGAAATTCGGGAGAAGCGCGGGCTGGCGTACTCGGTGTATTCGTACCACAGTTCCCACGCGGATAACGGCATGTTTACCATCTATGCAGGCACAGCGCCCAAACAGACAAAAGAAGTGCTTCAGCTGACCACGGAAATGCTCCATGATTTGGCACAGAACGGGATGACGGAGGAAGAGCTGCGCAAAGGAAAGGAACAATTGAAGGGCAGTCTCATCCTGAGTCTGGAGAGCACGAGCAGCCGCATGAATCGCCTGGGTAAGAACGAATTGATGCTGGGCCGTCATTTCAGTCTGGACGAGATCATTAAACGGATCGAACAGGTCGACATGAAGGATGTCAACGCGGTTCTTGACCGGATGTTCGGGACTCCATATGCACTAGCGATGGTAGGAACTTCAGATAAAGCACTGAATGTACTTAGGAGGAATGAATTTGTTGCACTACGTTCAAATCAATAG	MKKIQLSNGLRVVMEQIPTSRSVSFGIWVKTGSRNESEDINGITHFIEHMMFKGTERFDARAIAEEFDAIGGNVNAFTSKEYTCYYAKVLDEHFPIAVDVLSDMFFNSKLDAGELAKEKNVILEEIAMYEDTPDDLVHDLMSLSVYGDHPLAYPILGTKERLESMDSQALRSYMDRHYTIENTVIALAGNINDEVIALLERHFGGFANHGTSEPLAVPAFLDGVQFRKKKTEQNHICMSFPGCSIGDELQYAMVLLNNAIGGGMSSRLFQEIREKRGLAYSVYSYHSSHADNGMFTIYAGTAPKQTKEVLQLTTEMLHDLAQNGMTEEELRKGKEQLKGSLILSLESTSSRMNRLGKNELMLGRHFSLDEIIKRIEQVDMKDVNAVLDRMFGTPYALAMVGTSDKALNVLRRNEFVALRSNQ				NA	NA	NA	NA	NA
AK002_04052	993			hypothetical protein	ATGCCCATGAATGGAAAAAAGATGGCCGTGCTGCTGACCGGTGCCGCAATGGTGTCGGCTGTTGCTGTGTTCAGCGGGGCTTGGAAATACGTATCGGGGCTGGAGAACAAACCGGAGGCGCATCTCGTCAGCGGTTCAGAGACGGCAGTGGATCTGGATTTATTGGGTCAAATTGAAGCCGCTGCGGCTAAATCGCGTATCGAGCCGGTGGATGCCAGGGTGGACTCGGTGTGGAAAGCGATTCCCGGATACAATGGACTCGAAGTCGATATCGAAGCTACATATAAAGCAGCATCGTCGAAAAAACGTAAAGCCGGCGATGCCATTCCCTACGTTTACCGGCAAATACCGGCTAAAGTCACGCTCGATGATCTGGGGGAACAACCGATCTATCGAGGGAACCCCAGTAAACCGATGGTATCGATGATGATAAACGTGGCGTGGGGGAATGAATTTCTGGTGCCGATGCTGAATACGCTCGATGCGGAGAAGGTGAAAACTACGTTTTTCCTGGATGGCAGCTGGCTGAAGAAAAACCCGGAGCTGGCCGCCGAGATCGTGAAACGAGGCCATGAGGTGGAGAATCATGCCTTTACGCATCCAAACATGAGCCGTCTCAGCAGGGATCGGGCGGAGATGGAAATCGCAAAGACGCAGGATCTGCTTAAAGAAAGCCTGGGCGTAGTAAATAAGTGGTTTGCACCGCCTTCCGGCGATTTCAATCAGCAGACCGTATCCATCGCGCATGCAAGAGGATTGAAGACGGTGCTGTGGACGCTTGACACGGTTGACTGGAAGCATCCGGCGCCGGATGCCGTCGTTCAGAAGATCACGTCGAAGGTAGAGCCGGGATTTTTGATATTGATGCATCCAACGGACTCCTCTTCCCAGGCATTAAAAGGAATGATTGACGGAATACGGGCCAAGGGACTGGAGATCGGGACCGTTAGCCAGACGCTTTCACCGGAGCGAATCATGCCAAAGGGAAGTTGA	MPMNGKKMAVLLTGAAMVSAVAVFSGAWKYVSGLENKPEAHLVSGSETAVDLDLLGQIEAAAAKSRIEPVDARVDSVWKAIPGYNGLEVDIEATYKAASSKKRKAGDAIPYVYRQIPAKVTLDDLGEQPIYRGNPSKPMVSMMINVAWGNEFLVPMLNTLDAEKVKTTFFLDGSWLKKNPELAAEIVKRGHEVENHAFTHPNMSRLSRDRAEMEIAKTQDLLKESLGVVNKWFAPPSGDFNQQTVSIAHARGLKTVLWTLDTVDWKHPAPDAVVQKITSKVEPGFLILMHPTDSSSQALKGMIDGIRAKGLEIGTVSQTLSPERIMPKGS	PGPT0012156_206	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
AK002_04053	2106	pnp_2	COG1185	Polyribonucleotide nucleotidyltransferase	ATGGAAACACGTGTTGAAATGCAGCTTGGCGGAAGACCCCTCGTGTTCGAAACAGGGCGCCTTGCGAAGCAGGCTAATGCGGCTGTTATGGTTCGTTACGGCGAAACGGCAGTCCTGTGTACGGTGACAGCTTCCAGTGAACCGAAGGATCTGGATTTCTTTCCATTGACGGTCAACTATGAAGAGCGCTTGTACGCAGTCGGTAAAATTCCGGGTGGATTCATCAAACGCGAAGGCAGACCAAGCGAGAAGGCGATTCTTGCCAGTCGTCTGACAGACCGTCCGATTCGTCCGCTGTTTCCGGAAGGATTCCGGAATGACGTTCAAGTTCTGAATCTGGTGATGAGCGTTGATCAGGATTGCGAGCCGGAAATCGCGGCCATGATCGGTACCTCCGCTGCCTTGAGCATCTCGGACGTGCCTTTTAACGGTCCGATCGGCGGCGTCGCGGTGGGGCGCGTTGACGGCAACTTTGTCGTGAACCCGAACATTGCGGAGCAGGAAGCAAGCGATATTTATCTGGTCGTCGCCGGCACCAGAGATGCGATCATGATGGTCGAGGCCGAAGCGAACGAAGTTCCTGAGGAAGTCATGCTGGAAGCGATCATGTTCGGGCATGAGGAAATCAAGAAAATCGTAGCCAAGATCGAAGAGCTGGTGGCAGCTTGCGGCAAAGAGAAAATGGCGGTTAAGCTTCATGCGGTCAATGAAACCGTGAATCGCGAAGTGCGCGAATTTGCGGAAGCCCGTCTTGTTGAAGCCGTTCGCATTGAGGAGAAGCACGCTCGCCAAGATGCGATTGACGCTATCAACGACGAAGCATACACCGTGTTCGAAGAGAAATACATCGAGACACCCGAGTTGTTGAAGGATGTTAAAGAGGTCCTTCACGATATCGTGAAAGAAGAAGTTCGCCGTTTGATCACGCATGATAAAGTTCGTCCGGACGGCCGCGGTCTGTCTGAGATCCGTCCTATCGATTGCGATACCAGCCTGCTGCCTAGAACGCATGGCTCCGGTCTGTTTACGCGTGGACAAACCCAGGCTCTTAGCGTATGTACACTAGGTGCTCTAGGCGATGTACAGATTCTCGATGGAATCGATCTGGAAGAGACCAAGCGATTCATGCACCATTATAACTTCCCGCCGTTCAGCGTTGGGGAAGCGCGTCCGCTTCGCGCTCCAGGCCGTCGTGAAATCGGTCACGGTGCACTGGGTGAACGTGCATTGTCGAAGGTCATTCCGAATGAAGTGGACTTCCCGTACACGATTCGCCTCGTATCCGAGGTTATAGAATCGAACGGTTCGACATCCCAAGCGAGCATTTGCGCAAGCACGCTTGCCATGATGGACGCAGGGGTGCCGATCAAAGCGCCTGTAGCCGGCGTGGCGATGGGCTTGATTAAAGACGGAGACCATGTTTCCATCTTGACGGATATTCAAGGGATGGAAGACCATCTCGGCGACATGGACTTCAAAGTGGCAGGTACGCCTGACGGGGTTACCGCCATTCAGATGGATATCAAGATCGACGGCATCGACCGCGCGATTTTGCAGGAAGCGCTGCAGCAGGCAAAAGAAGGACGCATGCACATCCTTGGAAAAATGGCGGAAGCCATTCAAAAGCCAAGAGAAACGCTGTCCCAATATGCGCCTAAGATCATTACGATGCAGATCAATCCGGATAAAATCCGCGATGTTATCGGGGCCGGCGGCAAAATCATCAACAAAATCATCGAAGAGACCGGCGTGAAGATCGATATCGAACAAGACGGCCGCGTATTTATCGCATCGTCCAACGATGAGATGAACAAGAAGGCTCTTTCGATTATCGAAGGCATCGTGCGTGAGGTAGCTGTTGGCGAAATCTATACAGGTACTGTAAAACGGATTGAGAAATTCGGTGCATTTGTTGAAATCCTGCCAAACAAAGACGGGCTTGTGCACATCTCCCAACTCTCAACTGAGCGCGTAGCGAAGGTAGAGGACGTGGTTGCAATCGGTGACGTCATTACCGTGAAGGTTACCGAAATCGACCAGCAGGGACGGATTAACCTGTCTCGCAAAGCCGTGTTGACAACCGAAGCCAGCAAGAGCGGATCTTAA	METRVEMQLGGRPLVFETGRLAKQANAAVMVRYGETAVLCTVTASSEPKDLDFFPLTVNYEERLYAVGKIPGGFIKREGRPSEKAILASRLTDRPIRPLFPEGFRNDVQVLNLVMSVDQDCEPEIAAMIGTSAALSISDVPFNGPIGGVAVGRVDGNFVVNPNIAEQEASDIYLVVAGTRDAIMMVEAEANEVPEEVMLEAIMFGHEEIKKIVAKIEELVAACGKEKMAVKLHAVNETVNREVREFAEARLVEAVRIEEKHARQDAIDAINDEAYTVFEEKYIETPELLKDVKEVLHDIVKEEVRRLITHDKVRPDGRGLSEIRPIDCDTSLLPRTHGSGLFTRGQTQALSVCTLGALGDVQILDGIDLEETKRFMHHYNFPPFSVGEARPLRAPGRREIGHGALGERALSKVIPNEVDFPYTIRLVSEVIESNGSTSQASICASTLAMMDAGVPIKAPVAGVAMGLIKDGDHVSILTDIQGMEDHLGDMDFKVAGTPDGVTAIQMDIKIDGIDRAILQEALQQAKEGRMHILGKMAEAIQKPRETLSQYAPKIITMQINPDKIRDVIGAGGKIINKIIEETGVKIDIEQDGRVFIASSNDEMNKKALSIIEGIVREVAVGEIYTGTVKRIEKFGAFVEILPNKDGLVHISQLSTERVAKVEDVVAIGDVITVKVTEIDQQGRINLSRKAVLTTEASKSGS				NA	NA	NA	NA	NA
AK002_04054	270	rpsO	COG0184	30S ribosomal protein S15	ATGGCATTGACTCAAGAACGTAAACAACAACTGATTGACGAGCACAAAACTCATGAGTCCGATACAGGATCCCCAGAGGTGCAAATCGCTATCCTAACGGAAAACATTACGAACTTGACTGACCACTTGCGTACGCACAAGAAGGATCATCATTCCCGTCGCGGATTGTTGAAAATGGTCGGCCAACGCCGTAAGTTGCTTGCATACTTGAAAAACAAGGATGTTAAACGTTACAGTGCTTTGATCGAGAAGCTTGGATTGCGTCGCTAA	MALTQERKQQLIDEHKTHESDTGSPEVQIAILTENITNLTDHLRTHKKDHHSRRGLLKMVGQRRKLLAYLKNKDVKRYSALIEKLGLRR				NA	NA	NA	NA	NA
AK002_04055	954	ribF	COG0196	Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGAGGATTGTTTCATTATCTTATCCTGTATCTTCCGACATCGTACGAGAAGCTGCCGAGCCCAAGGTAGCGGCAATCGGCCAGTTCGACGGTCTTCACCTGGGACATGCCAGCGTGCTTTCGGCCGCTGTCAACATTGCTCGGGAGAATGGAGTGCCGGCCGCGCTCATTACCTTTTATCCGCACCCGAAGGACGTAATCGGTAAGGGGAGCTACGAAGGCTATCTGACTCCCCAGCCTGACAAGCAGCAGCTGCTTGAGCAGATGGGCATCGATGTTCTGTACGTCGTCGAGTTCAACAAAGAATTTTCCCAAGTAAGTCCGGAAGCGTTTGTTGAAGAAATGCTCTTTCCCTTGAATCTTCAAACGGCGGTAGTCGGATTTGATTTCCGGTTCGGCCATAAAGGCGCAGGAGATGCAGTTAAACTTCAGGAACTCGGCGAAGGCAAAATGTCGGTCGTTACGGTACCGCCATTCCTGGTCGACGGCGAGAAGGTAGGAAGTTCATCCATACGGATTGCCTTGAAAACTGGACAGCTGTCGGACGCAAACCGCTGGCTCGGACGGAATTACCACATACGGGGCACGGTCGTTCACGGGGAGAAGCGGGGAAGAAAGATCGGTTTTCCTACCGCGAACCTGGAATTGACGGATCCGTTCGTAGCGCCTGCATTGGGCGTCTATGCCGTCCGTGCTCGCACGGATAAGCATCACGACTGGATTCCTGGCGTCATGAACGTCGGCGTGAAACCGACGTTCCACGAAGGGATTACAGAACCGATCTTCGAGGTCCATCTGTTTGATTTCGAAGGGGATCTGTACGACCAGATCATGACGGTGGATATCGTTCAATATATCCGCAAGGAGCATAAGTTCGAATCGGTTCAGGAGCTTGTGGAATGGATTCAGCGGGATGCCGTCGAGGCCCGCAAAATATTGAATGTCACCGAATAA	MRIVSLSYPVSSDIVREAAEPKVAAIGQFDGLHLGHASVLSAAVNIARENGVPAALITFYPHPKDVIGKGSYEGYLTPQPDKQQLLEQMGIDVLYVVEFNKEFSQVSPEAFVEEMLFPLNLQTAVVGFDFRFGHKGAGDAVKLQELGEGKMSVVTVPPFLVDGEKVGSSSIRIALKTGQLSDANRWLGRNYHIRGTVVHGEKRGRKIGFPTANLELTDPFVAPALGVYAVRARTDKHHDWIPGVMNVGVKPTFHEGITEPIFEVHLFDFEGDLYDQIMTVDIVQYIRKEHKFESVQELVEWIQRDAVEARKILNVTE	PGPT0008625_1762	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
AK002_04056	912	truB		tRNA pseudouridine synthase B	ATGACGCAATTAGAAGGCATCTTGGCCGTTCACAAACCGGCCGGATGGACCTCCCACGATGTGGTAGCCAAAGTTCGGGGAATGGTTCGTTTGAAGCGGATTGGACATACCGGGACGCTGGACCCTGAAGTGACGGGCGTGCTTCCGTTATGCTTGGGGAGAGCCACGCGGGTCGTCGAATATCTGCAGGAGCTGCCTAAAGAGTATCATGCGGTCCTCCGCCTTGGATACTCGACCGATACCGAGGATATTACCGGGAATGTGGTGGAGACTGCGGATGAAGTCCGCGTGACCAGAGACGAGGCGCTTGAAGCGCTGCAATCTTTTACAGGCCAGATCTCTCAGGTTCCTCCTATGTACTCCGCCGTCAAAATCAACGGCAAACGATTGTACGAGCTTGCCAGAGAAGGCAAGACGGTGGAGCGCAAAAGCCGTACCGTAACGATTCATGAAATCGAGATGACGGACTTTGATCCGGAAGGGGAGTATACGGAAATTTCTTTCCGTGTACTGTGCTCCAAAGGTACATACATCCGCACGCTTTGTGTGGATATCGGGAGGAAGCTCGGCCTGCCATCCGTCATGGTTAAGCTGGTACGTACGATATCGGCGGGAATCACCGAGGCGCAGTGCTTGACCCTGGAGCAAATTGAGCAGTTCATGAAGGATGAAACGCTGCAATCCCGGCTTATTCCGGTGGATCAAGCGATTCACCATCTGGCAAAGCATACGGTTTCCGAAGAGAAGGCGGAGGCCGCTCTGAAGGGGCAACGCTTGTCCTCCAGGGCGGTAGAACCGGCCGTCGACAGTTCGGAGCCTATCCGTTTGTACGATATAAAGGAAAACTTTCTGGGCATCTATAAGCGTCAGGAAGAGACGGGCGCTATCGTTCCCGTGAAAGTATTTTCCTAA	MTQLEGILAVHKPAGWTSHDVVAKVRGMVRLKRIGHTGTLDPEVTGVLPLCLGRATRVVEYLQELPKEYHAVLRLGYSTDTEDITGNVVETADEVRVTRDEALEALQSFTGQISQVPPMYSAVKINGKRLYELAREGKTVERKSRTVTIHEIEMTDFDPEGEYTEISFRVLCSKGTYIRTLCVDIGRKLGLPSVMVKLVRTISAGITEAQCLTLEQIEQFMKDETLQSRLIPVDQAIHHLAKHTVSEEKAEAALKGQRLSSRAVEPAVDSSEPIRLYDIKENFLGIYKRQEETGAIVPVKVFS				NA	NA	NA	NA	NA
AK002_04057	978	nrnA	COG0618	Bifunctional oligoribonuclease and PAP phosphatase NrnA	ATGCAGACCTATGAACAAGAGCTGCAGCAGGTGAAATCGTTTCTGCTGGAGCACGATGATTATTTGGTTGTGTCGCATGTTCAGCCCGATGGAGATGCAGTCAGTTCCACCCTTGCGGTGGGCTGGCTTCTCTCATGTCTGGGCAAGAAATTCACGATGATCAACGAAGGGCCCATCCCGAAGCGCATGAAAAAGCTGTGGCATGCAGAAGACATTCTCAATCTGTCCGAACAGCAGCCGGGAAGGACGTTTTCAAACGTCATTTGCGTGGATTGCGCGGATTTTGCGAGAGTAGGTTATACGCAGCAGGTGTTTGCCGATCATGCGAGCATCGTTAATATTGACCATCATCCAACGAATGATCGTTACGGAGCCGTTAACCTGGTTGTGCCCGAGGCGGCTGCAACCGCAGAAATCCTTTATGATTTGCTGAATTTGTTTGAAATCGATTGGGATGCCGAAATCGCTACTGCGATTTATACCGGATTGTTAACGGATACTGGCGGTTTTCGTTATTCCAATACGTCGCCCAAGGTCATGAGCATGGCTTCCGATCTGTTATCCTATGGTGTGAACGGCCCCGAAATTGCGGAAACGCTGCTGGAGGAAATGACGCTGCCGCAGATGAAGGTGCTGGTTCAGGCGTTAAACACGTTGAGTCTGTCGGATGACGGTAAAATAGCCTGGGTGTACGTAACCCCCGAGCATATGGAACTATGCGGTGCCGTTAGCGAGGATCTTGAAGGGATCGTCAATTATCCCCGAAACATTCAGGGAGTCGAAGTCGGGATTCTGTTCAAATCGCTGAAATCTGGAATGGTCAAGGCGAGTTTGCGTTCAGCCGGCAAAGTGGATGTTGCCGCATTGGCCCAAATTTTTGGCGGCGGCGGCCATGTCCGGGCAGCAGGGTGCAGCATGGAAGGCTCCCTTCAAGACATCATCCCTAAAGTAGTAGAGCAGGTGAGATTAAAGCTATGA	MQTYEQELQQVKSFLLEHDDYLVVSHVQPDGDAVSSTLAVGWLLSCLGKKFTMINEGPIPKRMKKLWHAEDILNLSEQQPGRTFSNVICVDCADFARVGYTQQVFADHASIVNIDHHPTNDRYGAVNLVVPEAAATAEILYDLLNLFEIDWDAEIATAIYTGLLTDTGGFRYSNTSPKVMSMASDLLSYGVNGPEIAETLLEEMTLPQMKVLVQALNTLSLSDDGKIAWVYVTPEHMELCGAVSEDLEGIVNYPRNIQGVEVGILFKSLKSGMVKASLRSAGKVDVAALAQIFGGGGHVRAAGCSMEGSLQDIIPKVVEQVRLKL				NA	NA	NA	NA	NA
AK002_04058	354	rbfA		Ribosome-binding factor A	ATGGCAAAAATCAGAACTGGGCGCGTAGGCGAGCAGATTAAAAAAGAGCTCAGCCAACTGATCCAAACGGAATTGAAAGACCCGAGAATCGGTTTTATTACCGTGACCGGCGTGGATGTAACTAACGACCTTTCCCAAGCGAAGGTATACCTGAGCGTGCTCGGCGACGACGAGCAGAAGGCGGCTTCCTTGAAAGGGCTGGAGAAAGCAAGCGGCTTTCTCCGCTCCGAGCTGGGCAAGCGAATTCGTCTCCGGCATGTTCCGGAGCTGATCTTCAAATTCGACGATTCCATTGCTTATGGCAGCCATATTGAGAAGCTGCTGACCGAAATCGTGGATCGCGAAGAGAAATAG	MAKIRTGRVGEQIKKELSQLIQTELKDPRIGFITVTGVDVTNDLSQAKVYLSVLGDDEQKAASLKGLEKASGFLRSELGKRIRLRHVPELIFKFDDSIAYGSHIEKLLTEIVDREEK				NA	NA	NA	NA	NA
AK002_04059	2682	infB		Translation initiation factor IF-2	TTGAGTAAACAGGAAAACAAAGACAATAAACTTCGAGTGTACGAATATGCTAAATCGTTGAACATGAGCAGTAAAGAAATTATCACGATACTTAAGCGTTTGAACGTTCCGGTCAATAACCACATGAGCGTAATGGAAAACGATACGGTGTCCAAGGTAGAGCAGTTCTTCAAAGATATCAAATCGAATGCGGCAGCCAAGCGGGACAGTGGCGACGCTCCCCGAACCGAGAACCGCAAACCTTCGGGTTCCGGAGCGAATGCAGCCGCATCCGTATCCCATGCTAAAACAGAAGGCACTTCCACTAACGTGAGTGCAGACGGCAACCGTAATGGGCAGGACGGTATGCGTCAATCAGGACAACGAGTATCAGGACAACAAGGTCAAAGCCAGCCCAAAAAACAACAGGAAAAGCAGGTAGGTATGAATAGTAGAACGAATTCAAACACACAACATGCTTCAGGTTCCCAGCGTCCCCAAGGAGGGCAGGATACCCGAAGAAACCAATCTGGCTCCGCACAAGGAAGCCAGCAGAATAATCGCAGCCAAGGCGCAAGACCGGGCGGCAGCACGCAGACCGGATCCCGTCCGCAAGGCGGAGGTCAAGGCGGCGGGCGTCCGCAAGGCAATAATCAGGGCGGATCGCGTCCGCAAGGCAATAATCAAGGAGGAACGCGTCCGCAGGGCGGCAACAACCCGGGCGGAGCGCGTCCTCAGAGCAAGCCGGGTGGAACCGGAGGCGGATTCTCAGGATCCAATAACAGCAACGGCCAGAACCGCGGTTCCAGAAACAACAATAACAATCGTTCAGACTCCAAGCGTTTTGATGACAACCGTCAGGGAGGATTCCGTGGCAATAATCGCGGTGGCAAGAACAACCGCGGCCGGAATCAACATAATCAGCAGCCGCCTCGTGAGAAAATCGACAACACGCCGAAGAAAATTATCGTCCGTGGCAACATGACCGTCGGTGAAACGGCGAAGCTGCTTCATAAGGACGCTTCCGAAGTCATCAAGAAGCTGATTTTCCTCGGCGTGATGGCCACCATCAACCAGGAGCTGGATATCGATACGATTCTATTGCTCGCTGGCGAATTCGGTGTAGAAGTCGAAGTGAAAATTCCGGTAGAGGAAGATCGTTTTGAGACCGTTGAAGAAAACGATGCTCCGGAAGAACTGAAAGAGCGTCCACCGGTTGTTACGATTATGGGTCACGTTGACCACGGTAAAACGACGCTGCTGGATGCGATCCGTTCCACGAACGTCTCTAGTGGCGAAGCTGGCGGGATTACGCAGCATATCGGTGCTTACCAAGTCGAGATCAACAACAAGAAGATTACGTTCCTGGATACACCGGGCCACGAAGCGTTTACGGCCATGCGTGCCCGTGGTGCACAAGTAACGGATATGACGATCATCGTGGTTGCGGCTGACGACGGCGTGATGCCACAGACGGTCGAAGCGATTAACCATGCGAAAGCGGCAGGTTTGCCGATCATCGTTGCCGTGAACAAAATCGATAAGCCGGACGCTAACCCGGATAAAGTGAAACAAGAATTGACGGAATACGAGTTAGTGCCTGAAGAATGGGGCGGAGATACCATCTTTGTTAACGTTTCGGCGAAACAGCGGATGGGTCTGGAAGACTTGCTTGAAATGATCCTTCTGGTAGCAGAAGTGAATGAATATAAAGCAAACCCTGATAAACGCGCGCGCGGTACCGTGATTGAAGCTGAGCTTGATAAAGGCAGAGGACCGGTAGCACGCATCCTCGTTCAGCATGGTACGTTGAAAGTGGGCGACGCCTTCGTAGCCGGCAACTGCTTTGGACGTATTCGCGCCATGGTGAACGATAAAGGCCGTCGTTTAAAAGAAGCCGGACCATCAACGCCGGTCGAAATTACCGGTTTGACTGAAGTTCCGGGCGCCGGCGATCCGTTCATGGTGTTTGAGGATGAGCGTAAAGCGCGTAATATCGCTGATAAGCGTGCGATTACCCATCGTCAATCCGAATTGAACACGAATACGCGGGTGACGCTGGATGATCTCTTCCAGCACATTAAAGACGGCGAGATCAAGGATCTTAACGTTATTATCAAAGGTGACGTGCAAGGTTCCGTCGAGGCGCTGAAAGGCTCCTTGAACAAAATCGAAGTGGAAGGCGTTCGCGTCAAGATTATCCATAGCGGTGCCGGTGCCATCACCGAATCCGATATTATTTTGGCAGCTGCCTCCAACGCGATCGTAATCGGGTTTAACGTTCGTCCTGACGTTCAAGCGAAGCAAACCGCCGAGCAGGAGAAGGTTGATATCCGTCTGCACCGTGTAATATATAATGTAATCGAGGAAATTGAGCAAGCTATGAAGGGGATGCTCGATCCGGAGTATAAAGAATCCGTGATCGGTCATGCGGAAGTCCGCAACACCTTTAAAGTGAGCAAAGTGGGTACGATTGCAGGATGTATGGTGACATCCGGTAAAATTACGCGTAACGCAGAAGCTCGCTTGATCCGTGACGGCATTGTCGTTCATGAAGGCAAGATCGATTCCCTCAAGCGCTTTAAAGATGACGCTAAAGAAGTGGCACAGGGTTATGAGTGCGGTATTACCTTGGTAGGCTATAGCGACGTCAAAGAAGGGGACGTAATCGAAGCCTTCATCATGGAGACGGTAGAGCGCTAA	MSKQENKDNKLRVYEYAKSLNMSSKEIITILKRLNVPVNNHMSVMENDTVSKVEQFFKDIKSNAAAKRDSGDAPRTENRKPSGSGANAAASVSHAKTEGTSTNVSADGNRNGQDGMRQSGQRVSGQQGQSQPKKQQEKQVGMNSRTNSNTQHASGSQRPQGGQDTRRNQSGSAQGSQQNNRSQGARPGGSTQTGSRPQGGGQGGGRPQGNNQGGSRPQGNNQGGTRPQGGNNPGGARPQSKPGGTGGGFSGSNNSNGQNRGSRNNNNNRSDSKRFDDNRQGGFRGNNRGGKNNRGRNQHNQQPPREKIDNTPKKIIVRGNMTVGETAKLLHKDASEVIKKLIFLGVMATINQELDIDTILLLAGEFGVEVEVKIPVEEDRFETVEENDAPEELKERPPVVTIMGHVDHGKTTLLDAIRSTNVSSGEAGGITQHIGAYQVEINNKKITFLDTPGHEAFTAMRARGAQVTDMTIIVVAADDGVMPQTVEAINHAKAAGLPIIVAVNKIDKPDANPDKVKQELTEYELVPEEWGGDTIFVNVSAKQRMGLEDLLEMILLVAEVNEYKANPDKRARGTVIEAELDKGRGPVARILVQHGTLKVGDAFVAGNCFGRIRAMVNDKGRRLKEAGPSTPVEITGLTEVPGAGDPFMVFEDERKARNIADKRAITHRQSELNTNTRVTLDDLFQHIKDGEIKDLNVIIKGDVQGSVEALKGSLNKIEVEGVRVKIIHSGAGAITESDIILAAASNAIVIGFNVRPDVQAKQTAEQEKVDIRLHRVIYNVIEEIEQAMKGMLDPEYKESVIGHAEVRNTFKVSKVGTIAGCMVTSGKITRNAEARLIRDGIVVHEGKIDSLKRFKDDAKEVAQGYECGITLVGYSDVKEGDVIEAFIMETVER				NA	NA	NA	NA	NA
AK002_04060	360			hypothetical protein	ATGAATTCCTGGCTGCAAAAGAGAGTGCTGCCGATGATGAATAGGGCGCTTTCTCAGCTCGGCCTGGCCATGAGGGCAGGCAAGGTGGTTACCGGAGATGAGATCGTGCTCAAAGCCATCCGGTCTTCTGAAGCAAAATTGGTTATTCTGGCGGGTGACGCCTCAGATAATACAACAAAGAAGTTCCGCGACAAATGCGGTTCTTACAATATCCCTCTGGTAATCGGATTTGACCGGGAAAGTCTGGGCACAAGTGTAGGTAAACCCGAGCGGGTTGTGCTGGCAGTTACGGATCAAGGATTCGCAGAAATGATCTCCAAGAAAATGGAGACAATGTCGGAGGTGGAGTATATTGAGTAA	MNSWLQKRVLPMMNRALSQLGLAMRAGKVVTGDEIVLKAIRSSEAKLVILAGDASDNTTKKFRDKCGSYNIPLVIGFDRESLGTSVGKPERVVLAVTDQGFAEMISKKMETMSEVEYIE				NA	NA	NA	NA	NA
AK002_04061	312			hypothetical protein	TTGAAACAGAGAAAGATACCGCTGCGTAAATGTGTGGCGTGTCAGGAAATGATGCCGAAGAAAGAGCTCATCCGGATTGTCAGGACTCCCGATGACGCTGTCCTGATCGATCTCACCGGCAAAAAGTCGGGACGGGGAGCGTATCTATGCGGCAAGGTTTCCTGCTTCAAGCTGGCACACAAAAATAAAGCACTGGATCGAGCGTTGAAACAACATGTGAAGCCTGAGATCTATGAACAGTTGGCACAGGATTTCATCAAGGTTGAGGATGAATTCCTGGCTGCAAAAGAGAGTGCTGCCGATGATGAATAG	MKQRKIPLRKCVACQEMMPKKELIRIVRTPDDAVLIDLTGKKSGRGAYLCGKVSCFKLAHKNKALDRALKQHVKPEIYEQLAQDFIKVEDEFLAAKESAADDE				NA	NA	NA	NA	NA
AK002_04062	1098	nusA	COG0195	Transcription termination/antitermination protein NusA	ATGAGTATGGATTTTATTGAAGCGATGAATGAGTTGGAAAGAGAGAAGGGCATCAGCAAGGATGTGCTGTTTGAAGCCATTGAAGCGGCACTGATCTCAAGTTACAAGCGCAATTTCAACACGGCGCAAAATGTACGGGTAGACATGAATCGCAACACGGGTGTTATCAAGGTGTTCGCACGGAAGCTGATCGTGGACGAGGTTCTGGATCCGCGCACTGAAATTTCACTGCATGCCGCACGCGAGATCAATCCGCATTTTCAGATCGAAGATATAGCGGAAATCGAGGTTACGCCGCGTGATTTCGGACGGATCGCAGCTCAAACGGCAAAGCAGGTTGTTACCCAGCGCATTAGAGAAGCCGAACGCGGCCTGATCTACAGCGCTTTTATTGACAAGGAAGACGATATCGTTACGGGTACGCTGCAGCGTCAGGATTTGCGCAACATCTATATCGACCTTGGCAAGATCGAAGCGGCGCTGCCGCTTACCGAGCTTATGCCTAACGAGAAGTTCAAGCATGGCGACCGGATCAAAGCGTACATTACGAAGGTTGAGAACACAACCAAAGGGCCGCAGATTATGCTGTCCCGTACGCATCCGGGCCTTTTGAAGCGCCTGTTCGAGCTGGAAGTGCCGGAAATTTTCGACGGCGTCGTGGAAATTCGCTCGGTTGCGCGCGAAGCGGGATTCCGCTCCAAAATTGCGGTGTATTCCCGCAACGATGAAGTCGATCCGGTCGGCTCTTGCGTAGGGCCTAAGGGATTGCGCGTACAAACGATTGTCAATGAGCTTCGCGGCGAAAAAATCGACATCGTGCGTTATTCCGACCAGGTCGAAGAATACGTGGCCAATGCGCTGAGCCCATCCAAAGTGCTTGAAGTCCAAGTATTTGAAGATGAGAAGATGGCGCGCGTAATCGTTCCGGATTACCAACTCTCGCTGGCGATAGGGATCAAAGGCCAGAATGCTCGTCTCGCGGCGAAGCTGACCGGCTGGAAGATTGATATTAAGAGCGAAAGTCAGGCGGAGCAGGAATTTGGCAGACCGAAGTCCCAATCAGGTGAAATGCACCAAGATTCCGTCTCTGTCGATTAA	MSMDFIEAMNELEREKGISKDVLFEAIEAALISSYKRNFNTAQNVRVDMNRNTGVIKVFARKLIVDEVLDPRTEISLHAAREINPHFQIEDIAEIEVTPRDFGRIAAQTAKQVVTQRIREAERGLIYSAFIDKEDDIVTGTLQRQDLRNIYIDLGKIEAALPLTELMPNEKFKHGDRIKAYITKVENTTKGPQIMLSRTHPGLLKRLFELEVPEIFDGVVEIRSVAREAGFRSKIAVYSRNDEVDPVGSCVGPKGLRVQTIVNELRGEKIDIVRYSDQVEEYVANALSPSKVLEVQVFEDEKMARVIVPDYQLSLAIGIKGQNARLAAKLTGWKIDIKSESQAEQEFGRPKSQSGEMHQDSVSVD				NA	NA	NA	NA	NA
AK002_04063	462	rimP	COG0779	Ribosome maturation factor RimP	TTGAGCACATCAAAGATTAAAACGACTGTGGAAGAAATGGTGCAGCCGTATTTGGACGAACACGGCTTTGAACTGGTAGATGTGGAATACGTTAAGGAAGGAAGCAACTGGTTCTTGCGCGTGTTTGTTGATAAGGACGGCGGCATTGACATTGACGATTGCGGTTTAATCAGTGAACACCTGAGCCAGAAGCTGGACGAGAACGATCCGATTCCGACGGCTTATTTTCTTGAAGTCTCTTCTCCTGGCGCGGAACGTCCCCTGAAGAAAAAAGAGGATGTTGCGAAGTCAGTCGGCAAGAACGTGTTTGTTACGGTATACGAGCCGATTAACGGGTTGAAGGAATTTGAAGGCAAGCTGGAATCCTTTGATAACGAGGAGCTGGTCATTCAGACCGCGAAGAAGCAGCACGTGATTCCATATGCAAAAGTAGCCAGTGCCAGATTGGCCATCATTTTTTAA	MSTSKIKTTVEEMVQPYLDEHGFELVDVEYVKEGSNWFLRVFVDKDGGIDIDDCGLISEHLSQKLDENDPIPTAYFLEVSSPGAERPLKKKEDVAKSVGKNVFVTVYEPINGLKEFEGKLESFDNEELVIQTAKKQHVIPYAKVASARLAIIF				NA	NA	NA	NA	NA
AK002_04064	4317	polC	COG2176	DNA polymerase III PolC-type	ATGGGCACGACTGAAGATAAAAGGAAGCGATTTGAACTGCTGATCAAGCAGGGAGAAGTTCCGGCCAATCTGGTGGAACCCTATTTTTTAGACGGTGTGATTGAACAAGTAGAGACCAGCAGGAACAGCAAGGACTGGAGGATAACCGTTCAGAAGGAGACCTTGGTCCCGGCTGAAGTTTATCGTACATTTTGCCTGAGGATTCAGGAGAAGATGGGACATATCGCAAAGATCAAATTTGTGTTCCGGTATGGAAGCGGCGTTCCGGAGGCCGATATCGTGCAGGAGTATTGGGGCTTGTTTCTGGAGTGGGCACATCGGGAGATTCCGTCGGTCAATGGATGGATGACAAGGGCGAAACACGAGGTGGAAGACGGGCAGGTCCTTCTCTCCATGTCGGATGGCATGTCGCTTGAGCTTGCCCGCAAGAAACAGATCGATGCCGCCATTACCCGCTTCTTCGGGCAGTACTTCGATCTGACACTGCGCGTGAAGATGCAGGTCGGCGATAACGGCCAGGCCGCTTACGAGGAGTTCGAGCAGAGGAAGCGCGAGGAAGAGCGCGAGGTTATCGAACAGATCATGAGCAGCATGGAAGCGGAGCTGGATGCCGAGGACGAGGAAGAAGGCGCCGTTCGGCTTCAGGTTGGATATGATATCAAGGATCAGCCGGTTTCGATTCAGGAGATCCAGGACGAAGAGAAGAAAATTACGATCCAGGGTACCATTTTCGGATTGGACCGCAAGGAGCTCCGAAACGGCAGCACGCTGTTTACCTTCAACTTGACCGATTTCAGCGACTCCTTGCAGATGAAGATGTTTGGCAAAACGAAGGATGACTTGAAGGTCCTGAGCCTTCTTGAGAACGGCAAATGGGTGAAGGCGCGCGGTCGCGTGGAATATGACCGGTTTATGCAGGTGCCGGAGCTGGTGATGATCCCGTCCGACCTCAATGAGGTCCAGTCGCCCCCTTCCCGCAAGGATAACGCCGCCGAGAAGCGGGTGGAATTCCACCTCCATACGACCATGAGCACGATGGACGCGGTCACGCCGATCGACCGGTACATCAAAACCGCGGCCGCATGGGGACATAAAGCGATTGCCGTAAGTGATCACGGCGGTGTGCAATGTTATCCTGACGCAGCCAAGAACGCCAAGAAACACGGAATCAAAATGATGTACGGCGTCGAGGCCAATGTCGTGAACGATGCCGTCAACATCGTGGAACAGGCACAGCCGATTGAACTGAGCAGCGCGACTTACGTGGTATTCGATATTGAAACAACGGGTTTGTCCATCACCGCGAACAAGATCATCGAGCTTGCTGCCGTGAAGATGCACGAAGGCAAGGAGATTGGCCGGTACGCCACGTTTGTCAATCCGCACGAGCGAATTCCGTACCATATCCAGCAATTGACGAACATCAATGACGATATGGTCAAGGATGCTCCTGAACTGGAGCCGGTATTGAAGGAATTTGTTGAATTCGTCGGCGATGGCGTGCTCGTGGCTCATAACGCGCGGTTTGACATGGGGTTCATTCAGGCAGCACTCAAGAATGCAGGCATGGACACGCTGGAGAATCCGTATTTGGATACGCTGGAGCTGGCCCGACTGGTCCATCCGGGACTTAAGAATCACCGTCTTAACACATTGGCGGATAAGTACAAGGTGCTGTTGGAAAGCCATCACCGAGCAATTGACGATACGATTGCGCTGGCTGGAATACTGAACGGGCTCCTTAGCGATGTGGACAAAACCAAAGGCGTCAAGATGCTGGACCGCCTCAATGATTATGTAGGTACGGATCTGTCCAATACCCGTCCGTTCCACTGCGGGATTTATGCTTTGAATATGACGGGCAAGAAAAACCTGTACAAGCTGATCTCCATGTCGCATACCGAATATTTCAAGCGGGTGCCCTGCATCCCGAAATCCAAGCTCCAAGAGATGCGGGACGGACTGCTGGTGCTGTCCGGCTGCGAAAAAGGGGAGTTCTTCGAAACGGTGCTGAACAAGACGGAGGAGGAAGCCGAAGAGATTGCAGGCTTTTACGACGTTCTGGAAATCCAGCCGTTGACGATGTATATGCATTTGGTGGACAAAGGTCTGGTAGGCAGCCCCGAAGAGATCAAAACCGCGATTTCCAAAGTCGTGCGCATCGGCGAGAAGCTGAACAAGCCGGTCATCGCTACAGGGAATGTGCATTATCTGGAACCGCGGGACAAGCTGTTCCGGGACATCACCATCCATGGCATTACCGGCTTCAGCCCGCTCAAGGATATGCGCAAGCCAGACGCGCATTTTCGGACTACGGAAGAGATGCTCCAAGAGTTCGAGTTTTTGGGTCAGGATAAATGTTATGAAGTCGTTGTGACGAACACAAGCGAATTGGCCGACCGCTTTGAAGAGCTGGAATTGTTCCCGGATAAGCTGTTTACGCCGATTCTGGATGGCGCTGATGAAGAAATCCGCAACACCTGCTACGACACGGCCAAGTCCATTTATGGCGAGAACTTGCCGGAAGTCGTAGTGGCCCGGTTGGAAAAAGAGCTTGAGCCAATCATTAAATACGGTTTCTCCGCGAACTATTTGATTTCCGAGAAGCTGGTTAAGAAATCGAACCGGGACGGCTATTTGGTTGGTTCACGGGGTTCCGTAGGCTCCTCCGTCGTAGCGACATTCCTCGGCATATCCGAGGTTAACCCGCTACCCGCCCATTACATTTGCTTGAACAGCGACTGCAAGCACAGCGAATGGTTCCTGGACGGCAGCGTGCCGAGCGGATTCGACTTGCCGGATAAGGCTTGTCCGGAATGCGGAAACATGATGAAAGGCGAGGGACAGGATATACCATTCGAAACCTTCCTGGGTTTTAAAGGGGATAAGGTTCCCGATATCGACTTGAACTTCTCCGGTGAATATCAGCCGCATGCCCATAATTTCACTAAAGAGATGTTTGGCGAGGAAAACGTATTCCGTGCGGGTACCATCGGCACCGTGGCAGAGAAGACAGCGTTTGGCTTTGCCAAAAAATATGAGGAACACAACAACAAACGCTGGCGGGGCGCGGAATTGAACCGGCTGGCATCAGGCTGTACCGGCGTCAAGCGGAGCACGGGCCAGCATCCCGGCGGTATTGTCGTTGTGCCGGATTACATCGAAGTGGAAGAGATTACGCCAGTGCAATTCCCCGCGGACGATGTCAACGCAGAGTGGAAAACGACGCATTTCGATTACCATGCCTTTGAAGCGAATTTGCTCAAGCTGGATATTCTGGGACACGACGATCCGACGATGATGAGAATGCTCCAGGATTTGACCGGGGTGGATCCAACGACGATCCCGATGAACGATCCGAAAGTAATGAGCATGTTCAACTCGACGGAAGCGCTCGGCGTGAAGCCGGAGCAAATACGCTCGCCGGTGGCCACCTTCGGCGTGCCGGAGATGGGAACCAAGTTCGTGCGCCAGATGCTGGTGGAGTCGCAGCCGTCGAGTTTTGCTGACCTTTTGCAAATCTCGGGCCTGTCTCACGGAACCGGCGTATGGCTCGGCAACGCTCAAGAGCTCATCAAGAATGGCACCTGCAACATCAAAACCGTTATTGGTTGCCGCGATGACATCATGCTGTTCCTGATTTACAAGGCCGGCATGGACGCCAGCCTCGCATTTAAGATTACGGAAAGCGTGCGTAAAGGCCGGGGGTTGTCCCAGGAATGGATCGACGAGATGAAGAAATGCAAAGTGCCGCAGTGGTACATTGATTCCTGTCTCAAAATCCAGTACATGTTCCCGAAAGCCCACGCCGCCGCATATGTTATTTCAGCGGTGCGAACGGCTTACTTCAAGCTGTATTATCCGATTGAATACTACGCAACCTACTTCTCGGTACGCGCCGAGGATTTTGATATCGAATTATGCTGTCAGGGCTATGAGGCGATCTACCGCCGGATTGAAGAGATCGAGCAGCTCGGCTTCGGAGCGAGCCCGAAGGAAAAAGGCATGCTGCCGATTCTGGAGATGGCGCTGGAAATGACGGCAAGGGGCTTCTCATTCAAGAACATCGATTTGTATCAATCCGACGCCTTGAGATTCAAGGTGGATGGGGACTCGCTCATTCCGCCGTTCTCTGCGCTTGCGGGAATCGGCGATAACGCCGCCCGCAACATTGCCGCCGCGCGTGAATTCGGAGAATTCCTCTCCATCGAGGACTTCCAGCAAAAATCGAAGGCAAGCAAAACCGCCGTGGAGCTGTTGACCCAAATGGGATGCTTCCGCGGTCTGCCGGAGAGCAACCAGTTGTCATTGTTCTGA	MGTTEDKRKRFELLIKQGEVPANLVEPYFLDGVIEQVETSRNSKDWRITVQKETLVPAEVYRTFCLRIQEKMGHIAKIKFVFRYGSGVPEADIVQEYWGLFLEWAHREIPSVNGWMTRAKHEVEDGQVLLSMSDGMSLELARKKQIDAAITRFFGQYFDLTLRVKMQVGDNGQAAYEEFEQRKREEEREVIEQIMSSMEAELDAEDEEEGAVRLQVGYDIKDQPVSIQEIQDEEKKITIQGTIFGLDRKELRNGSTLFTFNLTDFSDSLQMKMFGKTKDDLKVLSLLENGKWVKARGRVEYDRFMQVPELVMIPSDLNEVQSPPSRKDNAAEKRVEFHLHTTMSTMDAVTPIDRYIKTAAAWGHKAIAVSDHGGVQCYPDAAKNAKKHGIKMMYGVEANVVNDAVNIVEQAQPIELSSATYVVFDIETTGLSITANKIIELAAVKMHEGKEIGRYATFVNPHERIPYHIQQLTNINDDMVKDAPELEPVLKEFVEFVGDGVLVAHNARFDMGFIQAALKNAGMDTLENPYLDTLELARLVHPGLKNHRLNTLADKYKVLLESHHRAIDDTIALAGILNGLLSDVDKTKGVKMLDRLNDYVGTDLSNTRPFHCGIYALNMTGKKNLYKLISMSHTEYFKRVPCIPKSKLQEMRDGLLVLSGCEKGEFFETVLNKTEEEAEEIAGFYDVLEIQPLTMYMHLVDKGLVGSPEEIKTAISKVVRIGEKLNKPVIATGNVHYLEPRDKLFRDITIHGITGFSPLKDMRKPDAHFRTTEEMLQEFEFLGQDKCYEVVVTNTSELADRFEELELFPDKLFTPILDGADEEIRNTCYDTAKSIYGENLPEVVVARLEKELEPIIKYGFSANYLISEKLVKKSNRDGYLVGSRGSVGSSVVATFLGISEVNPLPAHYICLNSDCKHSEWFLDGSVPSGFDLPDKACPECGNMMKGEGQDIPFETFLGFKGDKVPDIDLNFSGEYQPHAHNFTKEMFGEENVFRAGTIGTVAEKTAFGFAKKYEEHNNKRWRGAELNRLASGCTGVKRSTGQHPGGIVVVPDYIEVEEITPVQFPADDVNAEWKTTHFDYHAFEANLLKLDILGHDDPTMMRMLQDLTGVDPTTIPMNDPKVMSMFNSTEALGVKPEQIRSPVATFGVPEMGTKFVRQMLVESQPSSFADLLQISGLSHGTGVWLGNAQELIKNGTCNIKTVIGCRDDIMLFLIYKAGMDASLAFKITESVRKGRGLSQEWIDEMKKCKVPQWYIDSCLKIQYMFPKAHAAAYVISAVRTAYFKLYYPIEYYATYFSVRAEDFDIELCCQGYEAIYRRIEEIEQLGFGASPKEKGMLPILEMALEMTARGFSFKNIDLYQSDALRFKVDGDSLIPPFSALAGIGDNAARNIAAAREFGEFLSIEDFQQKSKASKTAVELLTQMGCFRGLPESNQLSLF				NA	NA	NA	NA	NA
AK002_04065	1458	proS_2	COG0442	Proline--tRNA ligase	ATGTCTAAGGAATCGAAGGATAAACAATTCGTGACGGAGATCACGCCGCAAGGAGAAGATTTCTCGCGCTGGTACATCGATGTCATCAAAAAAGCGGACTTGATGGATTATTCCCCAGTCCGGGGCTGCATCGTCTTTAAACCGGACGGTTATGAAATTTGGGAGCATATCCAAGCGGAGCTGGATCGGCGCTTTAAGGCAACGGGACATCGGAACGCTTATTTCCCGTTGTTCATTCCGGAGAGCTTTTTCCAGAAAGAGAAGGAGCATGTGGAAGGTTTCAATCCAGAGCTGCCATGGGTGACCGAAGCGGCGGGCGAGAAGCTTGAAGAGCGTCTGGCTATTCGTCCGACTTCCGAAACGATGTTCGGGCACATGTATTCCAAATGGATTCAATCCTATCGTGATCTTCCTGTGCTGATCAATCAGTGGGCCAACGTGGTGCGCTGGGAGAAGCGCACGCTGCCGTTCCTCCGCACCAGCGAGTTTTTATGGCAAGAGGGTCATACCGCGCATGAAACGGAAGCGGAAGCAAGAGGGGAAACCATGCAAATGCTCGATATCTATCAGCAATTCGTAGAGGACTATCTCGCGATTCCGGTGATCAAGGGGCAGAAGACGCCTTCGGAGAAATTCGCGGGTGCCGTGGACACGTTCTCCATCGAAGCGATGATGAAAGACGGTCGGGCTGTACAAGCAGGCACATCACACTACATGGGTACCAACTTCTCGCAAGCTTTCGATATTCAATATTTGAACCGTGAAAATACGCTGGAATACGCACATACGACTTCCTGGGGCGTCAGCACGCGTCTTATCGGCTCCTTGATTATGGTCCATGGGGACGACCGGGGATTGGTGCTTCCTCCAAAAGTTGCGCCGACTCAAGTGATCATGATTCCAATCGGGCCTCCGAAGACGAGAGACGCCGTCGTGGGCCGTACGGACGAGCTGTTCCGTGAACTGAAATCCGCCGGGATCCGCGTACGGGTGGACGACAATCCGGATGTGCGTCCAGGCTGGAAATTCAATGAGTACGAAATGCGCGGTGTTCCGGTTCGTCTGGAGATCGGGCCTCGTGATATGGAGAATGGCGTCTGCGTGCTCGTTTCCCGCATTACGGGCGAGAAGAAGGTTGTGGAGCAGGCCAACTTGATCCAGGAAGTGCAGAGCATGCTGGAACAGGTGCATCAGGAAATGTTCGATCGTGCGAAGCAGTTCCGCGAGGATCATTTCTATTCGGTGGAGACGCTGGACGAAATGAAGGACAGCATGGAGGACAAGCGCGGGTTTACCTTGGCAGGATGGTGCGGTTCGGAAGCTTGCGAAGACACCGTGAAGCAGGAAACCGGCGCGACGAGCAGAAACATTCCGTTTGAACCGGCCGAGAACAAAACCAAGTGTCTCGTATGCGGCGAGGATGCGAAGCATACGGTGCTGTTCGCGAGAGCGTACTAG	MSKESKDKQFVTEITPQGEDFSRWYIDVIKKADLMDYSPVRGCIVFKPDGYEIWEHIQAELDRRFKATGHRNAYFPLFIPESFFQKEKEHVEGFNPELPWVTEAAGEKLEERLAIRPTSETMFGHMYSKWIQSYRDLPVLINQWANVVRWEKRTLPFLRTSEFLWQEGHTAHETEAEARGETMQMLDIYQQFVEDYLAIPVIKGQKTPSEKFAGAVDTFSIEAMMKDGRAVQAGTSHYMGTNFSQAFDIQYLNRENTLEYAHTTSWGVSTRLIGSLIMVHGDDRGLVLPPKVAPTQVIMIPIGPPKTRDAVVGRTDELFRELKSAGIRVRVDDNPDVRPGWKFNEYEMRGVPVRLEIGPRDMENGVCVLVSRITGEKKVVEQANLIQEVQSMLEQVHQEMFDRAKQFREDHFYSVETLDEMKDSMEDKRGFTLAGWCGSEACEDTVKQETGATSRNIPFEPAENKTKCLVCGEDAKHTVLFARAY				NA	NA	NA	NA	NA
AK002_04066	1275	rasP	COG0750	Regulator of sigma-W protease RasP	TTGGAAATGGTTCGGGTCGTTTTTTTAACGGTGCTCATGTTTTTTGTGATCGTTACCGTGCACGAATGGGGTCACTATTATTTTGCCCGGCGTGCCGGAATCTTGGTACGCGAGTTCGCGATTGGATTTGGTCCTAAGCTGTTCTCATATAAACGCCATGAAACGCAGTTCACGCTTCGTCTTCTCCCGTTCGGCGGATATGCCCGCATGGCCGGAGAAGATCCGGAACTTGTCGAGATTCAGCCCGGTCAGACGATTGCGGTTCGAGTGAACGCAGAGAATCAAGTGAAAAAGATTTATCTGGATCAACTCGACAACCGTAAAAATGTCATTCGCGGCGAAGTCCAGTTTATGGACATGGTGGACCGTTTGTCGGTTAGGCTTGATGTGGATGGTGAATTTCAGCAGTACGAGATCCATCCGCAAGCATTAACGGTAGCTAAAGGTGTCGAGACGCAGATCGCACCGAGAGACCGCCAGTTCGGCAGCAAGACCGTCGGCCAAAGAGCGCTTGCGATATTTGCCGGCCCTGTCATGAACTTTATTTTGGCCTTCGTGCTGTTTGCCCTTCACATTCAGATGGCCGGTATACCGGTCGAGAATCCAACCTACGTACAGATTGGCGAGATTACGAAAGGCATGCCAGCAGACGAAGCGGATCTGAAAGAGGGCGACATCATCGAGAGCATCAATGGAACGGCGATTGGGGCCGATTATCAGAAGATGATCGAATTGATTGCGGCCTCCAAGGACAAGCCGATGGAATGGACCGTACGTCGGGGCGAGGAATCTTTCGATTTGACGTTGACGCCTCGGACCATGGAGGGCCAGGAAGGCGGCAAGGTCGGGATCGTTCCTGAGCTTCCTACCCGATCCGCAGGGCTTGGAGAGACGATTACCGGCTCCGGGACGGCGATGGTTGACACCACCAATATTATTTTCCAGGGCTTCAGACAGTTGATTCAGAAGTTTTCCATGGATGATTTAGGCGGTCCTGTGCGCACCTTTGAGGTCACGGGGCAAATCGCCAAACAGGGTATCGAACAGTTGACCTATTGGGCGGCCATTCTAAGCTTGTACCTGGGCATATTCAACCTGCTGCCGATTCCGGCGCTGGATGGAAGCCGGCTCGTATTCTTGGGGATCGAGGCATTACGGGGCAAGCCGGTTGACCCGAACAGGGAAGGCATGGTTCACTTTATCGGGTTTGCGATGCTGTTCCTGTTAATGATTGCCGTCACCTATAACGATATTTTGCGATTGATCAACGGATAG	MEMVRVVFLTVLMFFVIVTVHEWGHYYFARRAGILVREFAIGFGPKLFSYKRHETQFTLRLLPFGGYARMAGEDPELVEIQPGQTIAVRVNAENQVKKIYLDQLDNRKNVIRGEVQFMDMVDRLSVRLDVDGEFQQYEIHPQALTVAKGVETQIAPRDRQFGSKTVGQRALAIFAGPVMNFILAFVLFALHIQMAGIPVENPTYVQIGEITKGMPADEADLKEGDIIESINGTAIGADYQKMIELIAASKDKPMEWTVRRGEESFDLTLTPRTMEGQEGGKVGIVPELPTRSAGLGETITGSGTAMVDTTNIIFQGFRQLIQKFSMDDLGGPVRTFEVTGQIAKQGIEQLTYWAAILSLYLGIFNLLPIPALDGSRLVFLGIEALRGKPVDPNREGMVHFIGFAMLFLLMIAVTYNDILRLING	PGPT0011685_2355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
AK002_04067	1218	dxr	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGCGACAGTTGGATCGTCGTATTTCCGTTTGTACATATATTGAGTCTCCTGCCTTACTGATGAAAGGAAAGATGAGCATGAAGAAGATCAGCGTACTCGGCTCCACGGGCTCCATTGGCACCCAAACCTTGGATGTGGTGAGGATGCACCGGGAACAATTTCAGATTGAAGGCTTGGCTGCGGGGAGCAATAAGGAATTGCTGCTTCAGCAGGTTCAGGAGTTTTCTCCGCGAAAAGTGTCCGTTGCGACGAAAGAGCTTGCTGACAGCATAAGGCATGATCTTCCTGCCGGAACCGAAGTGTTTCATGGCCATGAAGGCCTGATCGAGATTGCGGCAGCGACAGACGCCGAGCTGGTCGTTACTGCGGTCGTTGGAAGTTTAGGCCTTTCTTCTACGCTTGCGGCCATTAACGAGGGGAAGACGATCGGGCTTGCCAATAAGGAAACATTGGTTACCGCAGGTCACCTGGTTACCGCTCAAGCCGCTGCAAAAGGGGTTAAGCTCTTGCCGATCGACAGCGAGCATTCCGCCATATTCCAATGCTTGAACGGAGAACGGCATGAAGATATCGAACGGATTACGCTGACCGCTTCCGGCGGGTCGTTCCGGGATTACACCCGCGATCAGCTGGTTAACGTTACGGTGGAGGATGCGCTTAAGCATCCAAACTGGTCCATGGGAGCCAAAATCACGATCGATTCTGCGACCATGGTCAATAAAGGGCTTGAGGTCATTGAAGCGCATTGGTTGTACGGCATACCGTACGACAATATTTCCGTGCTTCTCCACCCGGAAAGCATCATCCATTCTTTTGTGGAGTTCCGCGATTCCAGCATTATCGCGCAGCTCGGCAACCCGGACATGCGGGTCCCGATTCAATATGCGCTGACTTATCCCGAGCGGTGGTCTTCGCCTGCACCAAGGCTCTCCTTGGCAGAAGCAGGAAAGCTGCACTTCCGGGAAATGGACCTTGAGCGTTTTCCTTGTTTAAGGCTCGCTTATGAATGTGGTAAAATGGGTGGTACAGCGCCAACGGTATTCAATGCGGCCAATGAAATCGCGGTCGCCCGCTTTCTCCGCGGCGAAATCTCTTTTCTACGAATCGAAGAGATTATCGAGGAAGTGCTGCATCGTCACCATAACGTGCCGGAACCGGCGCTGGAGACGATTGAAGAGAATGATCGGATTGCACGTGAAATAGCTTCCCGACTATAA	MRQLDRRISVCTYIESPALLMKGKMSMKKISVLGSTGSIGTQTLDVVRMHREQFQIEGLAAGSNKELLLQQVQEFSPRKVSVATKELADSIRHDLPAGTEVFHGHEGLIEIAAATDAELVVTAVVGSLGLSSTLAAINEGKTIGLANKETLVTAGHLVTAQAAAKGVKLLPIDSEHSAIFQCLNGERHEDIERITLTASGGSFRDYTRDQLVNVTVEDALKHPNWSMGAKITIDSATMVNKGLEVIEAHWLYGIPYDNISVLLHPESIIHSFVEFRDSSIIAQLGNPDMRVPIQYALTYPERWSSPAPRLSLAEAGKLHFREMDLERFPCLRLAYECGKMGGTAPTVFNAANEIAVARFLRGEISFLRIEEIIEEVLHRHHNVPEPALETIEENDRIAREIASRL	PGPT0007585_3832	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
AK002_04068	801	cdsA	COG0575	Phosphatidate cytidylyltransferase	TTGAAACAGCGATTGATTACCGGAATTATAGCGGGAGCGGTCTTTTTAGGATTATGTTTCATAGGCGGTCTGTGGTACCATCTTCTGATTCTGGCGATGGCGCTAGTCGGTTACTATGAGTTTGTGCGCATGACCCATACGGCACCGTTCGGGGGAACGGCATGGATCGGGTATGCGGGAGTGCTGCTGCTTGTATTTCCATGGGGTCCGCTTGATCTGAAACTTCCGATCCCATGGGAACATGTGCTTTGGCTCCTGCTGCTCTTATTTTTGCTGGCGACGGTGACCACGAAAAATACGATAGATATCAAACGGATCTCTTTATTGTTTTTGGCATCGGTCTATATCGGCATCGGATTTTCCTTCATAGCCGAATCTCGGCATGCTCCGGACGGGCATGGCGTATTTTGGACTTTTTTGCTGCTGGCCTCGATCTGGGCAAGTGATGCGGGAGCGTATTTTGTCGGCCGCGCCATGGGGCGCCATAAATTATGGCCTTCCATAAGCCCGAACAAAACGGTGGAGGGTGCGCTCGGCGGTGTGATCATCGCCGTGTTCACGTCGCTGCTCTTTTCATTCTTCTCAGATGGAATCCTGACGGCTGGACATGCGGTTCTGATTGGGCTTTCCTGCGCCGTTATCGGCCAGCTCGGCGACTTGGTGCAATCCGCCTATAAACGGGTGTATGACATCAAGGATTCGGGCAAGCTGCTGCCGGGACATGGAGGAATACTGGATCGATGCGACAGTTGGATCGTCGTATTTCCGTTTGTACATATATTGAGTCTCCTGCCTTACTGA	MKQRLITGIIAGAVFLGLCFIGGLWYHLLILAMALVGYYEFVRMTHTAPFGGTAWIGYAGVLLLVFPWGPLDLKLPIPWEHVLWLLLLLFLLATVTTKNTIDIKRISLLFLASVYIGIGFSFIAESRHAPDGHGVFWTFLLLASIWASDAGAYFVGRAMGRHKLWPSISPNKTVEGALGGVIIAVFTSLLFSFFSDGILTAGHAVLIGLSCAVIGQLGDLVQSAYKRVYDIKDSGKLLPGHGGILDRCDSWIVVFPFVHILSLLPY	PGPT0007685_5223	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
AK002_04069	768	uppS	COG0020	Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGATCAAACGGGTTCGATCGTGGTTGAATCAGGAGGACAGTCAGCAGACGCATCAGCTCTCTCCGGACAACATCCCGCATCATGTTGCCATCATCATGGATGGCAATGGGCGTTGGGCGAAACGGCGCGGCATGCCGCGGATCGTTGGCCATCAGAATGGCATGAAGGCTGTCAAAAGAGCTGCCATAGCCGCCGATGAGTTGGGAATCAAAATATTGACGATGTATGCTTTCTCTACGGAAAACTGGACGCGTCCGAAGGATGAGGTCGATTTTCTGATGAAGCTTCCGCAGGAGTTTCTGGCTATTGAGCTGGAAGAGCTGATCGAGAAAAATGTCCAGGTCCGCATGATGGGGCATCCGGAAGACCTTCCGTCCCATACCGTGTCTGCGATGGAAGAAGCTGTTGCGAAAACTGCCGGCAATGACGGGCTTGTGCTTAACTTTGCGCTCAATTACGGCAGCCGGAAAGAGATCACCGAAAGTGTCAAGGCGCTCGGACGGGAAGTGCGAGACGGAATTCTCCGTCCTGAGGACATTACAGAGGAACTGATTGGCCAGCGGCTCCTCACAGGCGAATTGCCGGATCCGGATTTACTGATCCGCACAAGCGGCGAGCTGCGGCTGAGCAATTTTATGTTGTGGCAGCTCGCGTACAGCGAGTTATGGTTTACGGATGCCTATTGGCCGGAGTTCACCAAAGACCATTTGGTGGAGGCCGTAGCCGATTATCAACAAAGAACTAGGCGCTACGGTGGACTGTCGTAG	MIKRVRSWLNQEDSQQTHQLSPDNIPHHVAIIMDGNGRWAKRRGMPRIVGHQNGMKAVKRAAIAADELGIKILTMYAFSTENWTRPKDEVDFLMKLPQEFLAIELEELIEKNVQVRMMGHPEDLPSHTVSAMEEAVAKTAGNDGLVLNFALNYGSRKEITESVKALGREVRDGILRPEDITEELIGQRLLTGELPDPDLLIRTSGELRLSNFMLWQLAYSELWFTDAYWPEFTKDHLVEAVADYQQRTRRYGGLS	PGPT0024180_1354	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
AK002_04070	555	frr	COG0233	Ribosome-recycling factor	ATGCCGCAATCGGTGAAAAAGAATGCAGAAGAACGCATGGAAAAAGCGATCCTGTCTTTGAAACGTGACTTGGCAACTCTGCGCGCAGGGCGGGCAGCGCCGGCGCTCCTCGACCGGATCACGGTGGAATACTACGGAGCGCAAACTCCGCTGAATCAGCTGGCTAACATCAGCACGCCGGATTCCAGAACGCTCATGATTCAGCCTTGGGACAAGTCGTCCTTGGCGGATATCGAGAAAGCGATCATGAAATCGGATATCGGATTGACACCGGCGAACGATGGTAATCAAATTCGTCTCGTCGTACCTGCACTGACGGAAGAACGCAGAACCGAACTGGTGAAAATGACGAAGAAATTCGGCGAGGAAGCGAAAGTGGCCATCCGCAACATTCGCCGTGATGCCAACGACGACATCAAAAAATTGGAGAAAACGGATATTTCCGAGGACGAGTCCCGGAGACATCAGGAAGATATCCAAAAAGCGACGGATAAATTTATCGCAGAAGTCGACAAAGTCCTCGTTGCAAAAGAAAAAGAGATTATGGAAGTATAA	MPQSVKKNAEERMEKAILSLKRDLATLRAGRAAPALLDRITVEYYGAQTPLNQLANISTPDSRTLMIQPWDKSSLADIEKAIMKSDIGLTPANDGNQIRLVVPALTEERRTELVKMTKKFGEEAKVAIRNIRRDANDDIKKLEKTDISEDESRRHQEDIQKATDKFIAEVDKVLVAKEKEIMEV				NA	NA	NA	NA	NA
AK002_04071	729	pyrH	COG0528	Uridylate kinase	TTGGAACAGCCTGTATATAAACGAGTGATATTGAAAGTCAGTGGGGAATCCCTTTCAGGGCAGAATGGATATGGTATTGATGCTGAGACGATCTCATCGATCGCTGAGCAGGTTCGCGAGGTTGTCGAGCTTGGTGTGGAGGTCGCGATCGTATGCGGCGGCGGCAACATCTGGCGCGGTATCGCCGGCAGCGCGAACGGAATTGACCGTGCGACAGCGGACTATATGGGAATGCTCGCAACGGTGATGAACTCTTTGGCCCTTCAGGATGCTTTGGAGCAAATCGATGTGCCGACCCGGGTGCAAACCTCGATCTCCATGCAGCAAATTGCAGAGCCGTATATTCGCCGCAGAGCCATTCGGCATTTGGAAAAGGGCCGTGTCGTTATTTTTGCGGCAGGAACAGGGAACCCATACTTCTCCACCGATACGACTGCAGCGCTTCGCGCCGCGGAAATCGAAGCAGAAGTGATTCTTATGGCGAAGAACAAGGTGGACGGAGTGTACTCCGCTGATCCATTTAAGGATGAAACTGCCGAGAAGTACGAGCAGCTGACGTATCTAGACGTATTGAACAAAAACCTTGGGGTAATGGACTCTACAGCTTCATCGTTATGTATGGACAACAACATCCCGCTCATCGTCTTCGCTATTACGGAGCAAGGTAATATCAAGCGCGTCGTTCTGGGCGAGAAAATCGGAACGATCGTTAAAGGGAGTGTAGACTAA	MEQPVYKRVILKVSGESLSGQNGYGIDAETISSIAEQVREVVELGVEVAIVCGGGNIWRGIAGSANGIDRATADYMGMLATVMNSLALQDALEQIDVPTRVQTSISMQQIAEPYIRRRAIRHLEKGRVVIFAAGTGNPYFSTDTTAALRAAEIEAEVILMAKNKVDGVYSADPFKDETAEKYEQLTYLDVLNKNLGVMDSTASSLCMDNNIPLIVFAITEQGNIKRVVLGEKIGTIVKGSVD	PGPT0021205_1610	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
AK002_04072	651	tsf		Elongation factor Ts	ATGGCAGTAACAGCTAGTGCGGTAAAAGAACTTCGCGAAAGAACAGGCGCGGGCATGCTCGATTGCAAAAAAGCGCTCGACGAAACAAACGGTGATATCGAAAAAGCGATCGCGGTGCTTCGCGAGAAAGGCTTGTCCGCAGCGGCTAACAAAGCTGGACGCGTTGCAACGGAAGGCGTTGTCGAGTCTTACATTCACGGTGGCGGACGCATCGGCGTTCTCGTGGAAATCAACTGTGAAACAGACTTCGTAGGCAAAACGGATCAATTTAAAGAGTTTGCTCGCGATATCGCAATGCATATTGCTGCTGCAAACCCTAAATACGTTCGTCGTGAAGAAGTACCTAGTGACGAGCTTGAGAAAGAAAAAGAAATTTTGAAAAACCAAGCCCTGAACGAAGGCAAGCCTGAAAAAATCGTTGAGAAAATGGTTGAAGGCCGCATCAACAAATACTATGAAGAGTATTGCTTGCTTGAGCAGCCTTTCATCAAGGATCCGGACAAAACGATCAGCACGCTGCTTAACGAAAAAATCAGCACAATCGGCGAGAACATCTCCATTCGTCGTTTTGCCCGTTTCGAATTGGGCGAAGGCTTGGAGAAAAAACAAGACAACTTCGTAGAAGAAGTTATGGCCCAGGTGAATAAATAA	MAVTASAVKELRERTGAGMLDCKKALDETNGDIEKAIAVLREKGLSAAANKAGRVATEGVVESYIHGGGRIGVLVEINCETDFVGKTDQFKEFARDIAMHIAAANPKYVRREEVPSDELEKEKEILKNQALNEGKPEKIVEKMVEGRINKYYEEYCLLEQPFIKDPDKTISTLLNEKISTIGENISIRRFARFELGEGLEKKQDNFVEEVMAQVNK	PGPT0014303_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
AK002_04073	699	rpsB	COG0052	30S ribosomal protein S2	ATGGCAGTAATTTCCATGAAACAGCTTTTGGAAGCTGGCGTTCACTTCGGTCACCAGACTCGTCGCTGGAACCCGAAAATGGATAAATTTATCTTCACTGAAAGAAACGGTATCTACATTATCGACCTGCAAAAAACGGTCAAGAAAGTTGAAGAAGCATTCAACTTCGTAAAAAGCGTAGCTGGTGAGAACGGTACAATCCTGTTCGTCGGCACGAAAAAACAAGCTCAAGATTCCGTGAAGGAAGAAGCAGAGCGTTGCGGCATGTTCTACATCAACCAACGTTGGCTCGGCGGAACTCTGACTAACTTCGAAACGATCCAAAAGCGTATCAACCGCTTGAAGCAGCTCGAAACTTGGGAAGAAGACGGCACGTTCCAAGTATTGCCTAAGAAAGAAGTCATCCTTCTCCGCAAAGAGAAAGATCGTCTTGAGAAATTCCTGGGCGGTATCAAGAACATGAAGGGCCTTCCAAGCGCATTGTTCGTTATCGATCCTCGCAAAGAGCGCATCGCTGTTGCGGAAGCTCGCAAATTGGGTATCCCAATCGTCGGTATCGTTGATACGAACTGCGATCCGGATGAAATCGACTATGTAATTCCAGGTAACGATGACGCGATCCGCGCTGTCAAATTGTTGACTGGTAAAATGGCCGATGCCGTTGTTGAAGCTCACCAAGGCGAAGAAACAACAGCTTAA	MAVISMKQLLEAGVHFGHQTRRWNPKMDKFIFTERNGIYIIDLQKTVKKVEEAFNFVKSVAGENGTILFVGTKKQAQDSVKEEAERCGMFYINQRWLGGTLTNFETIQKRINRLKQLETWEEDGTFQVLPKKEVILLRKEKDRLEKFLGGIKNMKGLPSALFVIDPRKERIAVAEARKLGIPIVGIVDTNCDPDEIDYVIPGNDDAIRAVKLLTGKMADAVVEAHQGEETTA				NA	NA	NA	NA	NA
AK002_04074	615	mltG_2		Endolytic murein transglycosylase	GTGATCAAGAACCGAATGTTTATGATGGGCCTCGGGAGCGGTCTGGTGATCGCCGCTGTGCTGCTGCAGCTGATGTGGATCGGCCAAGGTGCAACCGCTTCGGAGACAAAGGAGTTAACGAAGGAGCAGCTGGTGGCTGCAGCAGAGGCTTTGGATATGCAGGTCGTCGAAGGTACGGACGAGCTGATGACGGCGGAGCAGTGGGAAGAGAAGAGGCTGGGCGAGGGAGAAGGCGAGTCCGAAGGTGCCGAACCGGTCGATAAGCCTGAAGCGACGAAGCCTGAGGCGCCGAAGAAACCGGAGAGCCCGGAGAAGCCTGAAACGGACGCGCAGAAGAAACCGGAACCTTCTTCCCAGGTAACGAATCCGGCCAAGCCGAAAACACCGGCTAAAGCGGAGGCGTCTATTCAAGTAAAGATTCCGTCCGGAAACAATCTCAGCGATGTAGCAAACAGCCTTTTGAATGCCGGCGTCATTGACAACAAACAGGCATTCATCAATAAAGCTACCGAGAATAAAATCAACACCAGAATCCTGAGCGGTACGTACTCGTTTACGATCGGCGAGAGCTACAATTCGATTATCACAAAGATCACAACAAAACCCTCCAACTAG	MIKNRMFMMGLGSGLVIAAVLLQLMWIGQGATASETKELTKEQLVAAAEALDMQVVEGTDELMTAEQWEEKRLGEGEGESEGAEPVDKPEATKPEAPKKPESPEKPETDAQKKPEPSSQVTNPAKPKTPAKAEASIQVKIPSGNNLSDVANSLLNAGVIDNKQAFINKATENKINTRILSGTYSFTIGESYNSIITKITTKPSN				NA	NA	NA	NA	NA
AK002_04075	540			hypothetical protein	TTGAAACCGTGGATATATATCGTGCTGCTAGGCATTGCGGCCGTGCTGTATGCTTTCATGCTGCCGAAACGCCGGGAAGAGACCGTGTCCAGCGAGCGGGTTGTAAAGGAAGTCGAGAACACGCTTGAAGGATACATGGCGGAAATCCAGAACGAGAACGAGCAGCTGGTCGAGCTGGTTAGTCAAATGAAGAAAGAACTTGATGCCAAGCAGCAAGCGCATCAGGAGCAGGTCAGCGATTTGCGGCAGCGCATGCTGGCCATGGAGCAGAAAATGACCGAATCGCAAACGCGTCTTCGAACGGCTGAAGAGAAGCTGGCGCAGGCAGCTGCGGCGGCTTCTTTGTCTGCAGAAGCGGCTGCAGCGTCATCGGAGGCGGATCATGCCCCTCCGGTCCATTCCATCAAATCCAGATACGCGGAACTGTTTGATTTATATGAACAAGGCAAATCTATCGATATGATAGCCAAGTCCACGGGACTTCAGCGAGGCGAAGTTCAACTCATTATCCAGTTGGCCAAACAGGAGGAATCCGTGTGA	MKPWIYIVLLGIAAVLYAFMLPKRREETVSSERVVKEVENTLEGYMAEIQNENEQLVELVSQMKKELDAKQQAHQEQVSDLRQRMLAMEQKMTESQTRLRTAEEKLAQAAAAASLSAEAAAASSEADHAPPVHSIKSRYAELFDLYEQGKSIDMIAKSTGLQRGEVQLIIQLAKQEESV				NA	NA	NA	NA	NA
AK002_04076	312			hypothetical protein	TTGAGTTTAAAATCGGTTGAGATGCAAATTGCGGTCCCGAGAACCAATGAAGCGGGCAAGGTTCATAACGAATTCCAGCAGCGGCCGCAGAACGAACAGATGCTGTTAGCAGGTGAACAAACCAAGAACAGCCGGGCCGAAGCCCAGCGAAGCACGGAAGTGAGCGAGACGGCCGAAACAGCCGTGCGGGATGACGGGAGCCGCCAGTCCTCAGGCCAGCAGCAAGGGCGGGGGTCTGCAGAAGCGGTCGAGACTTTGGAACAGCCGGCGGAGCATCCCTATAAAGGCAAAAATTTCGATGTTTCGCTCTAG	MSLKSVEMQIAVPRTNEAGKVHNEFQQRPQNEQMLLAGEQTKNSRAEAQRSTEVSETAETAVRDDGSRQSSGQQQGRGSAEAVETLEQPAEHPYKGKNFDVSL				NA	NA	NA	NA	NA
AK002_04077	1410			hypothetical protein	TTGTCTGTAGATTATGCATTGGATCAATACTTTAGCGTTTCGCTATCGGATGACAAGGTCGTCGCCTATATACAGTTCACCAAGTGGGAGAAGGATTTTTCTTGCTCCGTCGAGGCTCTTGAACAGTTTCTCAGAAGCCATCAGATTCGGTATGGCATTCAATATGATACCTTGCGGCGAATTGCGGACCATGGGGAGGAATATCAATATAGCAAAACGCCGATTGCCATGGGAACGGAACCGACGCACGGACAGAACGGTAAGATTCAATTTACCGTTGATTTCGGGAATGAGACGAATCTGAAGCCGCTGGAGGACGAGGACGGCAAAGTGGACTACAAAGAAGTGATTCGTTTAAATAATGTAAAGAAGGGGCAGCTGCTGGCTACCCGAATCCCGCCTACGAAGGGTGTGCCTGGAACCGCGGTCACCGGTGAAGAGATACCGAGCAAGCCGGGAAAGGAAGCACATTTCAAGGTGGGAAAGAACGTGGTGGTCAACGCCGAGAAAAGCGCCATGTATGCCGCGCTTGACGGACTGCTCACCAAAACCGAAAAAGGCAAAATCAATGTGTTCCCGGTATATGAAATTAACGGGGACGTGGATTACAGCATTGGCAATATCGATTTTGTCGGTACGGTGGTCATTCGCGGGAATGTGCTGACCGGGTTCAAAATCAAGGCGGCAGGGGACATTCGAGTCACGGGCTTTGTGGAAGGTGCCGAGCTGGAGGCTGAAGGATCCATTGATATATCAGGCGGGATCATCGGTTATAACAAGGGTTACGTTAAGGCGGGCCAGGACGTCAAAAGCTCGTTCATTCAGGATGGCAACGTCGTTGCGGGCGCCAGCGTATTCGTGTCGCAGAGCATCATGCATTCCAATATACGGGCCGTCCAGAATATCGAATGCAACGGGATGAAAGGGCTCGTGGTGGGCGGCATTCTGCAAGCCGGGGAAAAGGTCGTTGCGCGCACGATCGGAAACAGCATGTCGACGGCTACCGTCATTGAAGTGGGCGTTCTTCCCGAGCTGCGGAATGAACTGGCGGATTTAAGGGCCCAATTGAAGCTTTCGTTAGAGAGCATGGACAAAACCGATAAAGCGCTTTATCTCTTGAACCAGTTGGCTTCCTCCGGACAATTGTCGCCGGACAAGCTGGCGCTGCGAATCAAGCTGAATGCGACCAAAAAATCCAACATGGCAGAGCAAGCCGACATTAAGGAACGCATGCTGGAAATCGAGAAGATGCTGGAGGATACCGGCAAAGCTAGAGTGAATGTGGTAAAGACGATCTACGGCGGCGCCAAAATCGTTATCGGGCGGTACACCCGATTTGTTAAGGATCCCACGCAGCGGGTCTCTTTTTACTATCATGAAGGAGATATCACCATGGTTCCGTTGTTGTAG	MSVDYALDQYFSVSLSDDKVVAYIQFTKWEKDFSCSVEALEQFLRSHQIRYGIQYDTLRRIADHGEEYQYSKTPIAMGTEPTHGQNGKIQFTVDFGNETNLKPLEDEDGKVDYKEVIRLNNVKKGQLLATRIPPTKGVPGTAVTGEEIPSKPGKEAHFKVGKNVVVNAEKSAMYAALDGLLTKTEKGKINVFPVYEINGDVDYSIGNIDFVGTVVIRGNVLTGFKIKAAGDIRVTGFVEGAELEAEGSIDISGGIIGYNKGYVKAGQDVKSSFIQDGNVVAGASVFVSQSIMHSNIRAVQNIECNGMKGLVVGGILQAGEKVVARTIGNSMSTATVIEVGVLPELRNELADLRAQLKLSLESMDKTDKALYLLNQLASSGQLSPDKLALRIKLNATKKSNMAEQADIKERMLEIEKMLEDTGKARVNVVKTIYGGAKIVIGRYTRFVKDPTQRVSFYYHEGDITMVPLL				NA	NA	NA	NA	NA
AK002_04078	789	sigD	COG1191	RNA polymerase sigma-D factor	TTGGACGAACGTAAAACTTCCGTCCTTAACCATGCGGATTTATGGAGCGCATGGAAGGAAGATGGAGACCATGAAGCGAAGAAGAAACTTATCGAATATCATTTGCACATCGTTGACTATGTTTCAAGCCGATTGGCCATCGGTCTTCCGAAGAACGTTTCTAAGGGAGATTTGGCCAGCAATGGGGTAATGGGTCTGATTGACGCCATCGAGAAGTTCGATTACAAACGAGGGCTGCAATTCGAAACCTATGCCTCTTGGCGGGTGCGGGGTGCTATTCTGGATTCGCTGCGCCAAGGGGATTGGGTACCGCGTTCTGTCCGTGAGAAGGCGAAGAAGATTGAAACTGCATATCAGCAGTTGGAACAGAAGTATTTACGCAGCGTCAGTGATTCCGAGATGAGCGATTACCTTGACGTGACCGAGAAGGAGTTCCGGCACATGCTGCAGGAAGTGGCGGTCATGACATTGACATCTTTGGAAGATCCGATCCGCGAGGAGGAGTCTGAGACCCGAATGTCGCTCCTGGTTGATGAGAAAGCGAAGAATCCGGATCACAAGGTCCATGAATTTTATCTGCGAGAAGCCCTGATGAAGGGTATCGGTAAATTAACCCCGAAAGAGCGGACCGTAGTTTCCTTATTATATTATGAGGATTTATCACTCAGCGAAATAGCTGAAGTGATGTCGCTATCACCTTCACGAATATCTCAGCTTCATTCCAAAGCGATTTTGAGACTTCGGGGCGCGCTCGATAAAGATCGGGATTTGCTGATGCAAAACGATTGA	MDERKTSVLNHADLWSAWKEDGDHEAKKKLIEYHLHIVDYVSSRLAIGLPKNVSKGDLASNGVMGLIDAIEKFDYKRGLQFETYASWRVRGAILDSLRQGDWVPRSVREKAKKIETAYQQLEQKYLRSVSDSEMSDYLDVTEKEFRHMLQEVAVMTLTSLEDPIREEESETRMSLLVDEKAKNPDHKVHEFYLREALMKGIGKLTPKERTVVSLLYYEDLSLSEIAEVMSLSPSRISQLHSKAILRLRGALDKDRDLLMQND	PGPT0015610_391	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015610-fliA|sigD|whiG-K02405	NA	NA
AK002_04079	405			hypothetical protein	ATGATGGGAAAACTCCGTTTTTATCTGATTACCGGAATTGCCGGGTTTGTGTTCACATTTATTTTCTCCATACGTAACAATTTGTGGATGACTAGCATGTATCGGGCGCTGATTGCATGCGCGATCTGGTTTCTTCTGGCGTTCCTGCTGAATTGGATGTTTGCTGCCATTACGGGGCCGCAAGCAGCCGAAAAAGGGGACGCAGGCTCGCAGCGGGAGCAGGACCGAGGAACCGTTCTTGACTTATCCACGCCTGATGAGGATCGGGAATTGATGGATTTGATCCATGCCGAATCCAGCAGCAAAGAGAATGGAGACTTTGTACCGCTGAATCCTCCTAAGCTGGTTTCAACGAAAGATCCTGAAGAACTGGCCAAGGCCGTTCGTCACCTTACGGAAAAATAA	MMGKLRFYLITGIAGFVFTFIFSIRNNLWMTSMYRALIACAIWFLLAFLLNWMFAAITGPQAAEKGDAGSQREQDRGTVLDLSTPDEDRELMDLIHAESSSKENGDFVPLNPPKLVSTKDPEELAKAVRHLTEK				NA	NA	NA	NA	NA
AK002_04080	498	cheD	COG1871	Chemoreceptor glutamine deamidase CheD	ATGATTGAAGAACAAACAATAGTGAAAGTAGCCATGGCGGATCTGAACGTCGCAGGTCCGAACGGTATATTGCGTACAACGGGACTCGGCTCATGCGTAGGACTGACGTTATATGATCCGGTCACGAAGATTGGCGGCATGGCGCATGTCATGCTGCCATCCTCGGCGATTGCCAGGGAGGGGCAGCTGAATCTGGCCAAATACGCCGATACGGCTCTTCCCATCCTGCTGAACAAGATGAGGAATTTGGGGGCGTCTCCGGCACGGATGGTAGCCAAAATGGCCGGAGGGGCTCAGATGTTTGCTTTTGCGGGTTCGGGCGATACGATGCGCATCGGTCCCCGGAATGTGGAGTCATGCAAAGCGGGACTCGAGCAGATGGGAATCATGCTGATTGCCGAGGACACCGGAGGAAATTACGGGAGAACCGTTGAGTTGGACTGCGCAACGGGTAAGTTTACAATACGAAGCGTACAAAAGGGCATAAAGGAATTGTAG	MIEEQTIVKVAMADLNVAGPNGILRTTGLGSCVGLTLYDPVTKIGGMAHVMLPSSAIAREGQLNLAKYADTALPILLNKMRNLGASPARMVAKMAGGAQMFAFAGSGDTMRIGPRNVESCKAGLEQMGIMLIAEDTGGNYGRTVELDCATGKFTIRSVQKGIKEL	PGPT0015665_1197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411	NA	NA
AK002_04081	627	cheC	COG1776	CheY-P phosphatase CheC	GTGGAGCTGTTTAAGCATGGCAAAGAAATCAAAATGGATGTTTTGAAGGAAGTGGGAAACATCGGAGCGGGCAATGCGGCAACCGCCCTCTCCCGTTTGCTTAACAAGCCTATTGATATGGCGGTTCCTAAGGTTCAACTCCTGCCGTTCGAACAGATTGCCGAAAGCGTCGGGGGGAGCGAACAGCTCGTTCTTGCCGTATTTTTACGGGTTGAAGGAAGCGCTCCGGGGAATCTCTTCTTTATTATGAGTCCGGAAGCCGGGAAGAACCTTCTGCTGAATCTGGCGGGCATTGAAGTATCGGAGGAGGAGCCATTCTCCGAGATGGAGCAGTCCGCCTTATGCGAGATCGGAAATATTTTGTCAGGCTCGTACTTATCGTCGCTCGCTGACTTCACGAATCTGTCCATGACACCCACGGTGCCGGCATTGGCAATGGATATGGCAGGTGCCATCCTAAGTTATGGATTGCTGCAGTTCGGAGAAATGGGAGACGATGCCCTCTTAATCAACACGACGTTCCTGGAAGGGCAAAACGAGGTGGAAGGCCAATTCTTCCTCATACCTGATCCACAATCATTTGCTCAAATATTCGAAGCTTTGGGAGTGCCTTTGGAGCATGATTGA	MELFKHGKEIKMDVLKEVGNIGAGNAATALSRLLNKPIDMAVPKVQLLPFEQIAESVGGSEQLVLAVFLRVEGSAPGNLFFIMSPEAGKNLLLNLAGIEVSEEEPFSEMEQSALCEIGNILSGSYLSSLADFTNLSMTPTVPALAMDMAGAILSYGLLQFGEMGDDALLINTTFLEGQNEVEGQFFLIPDPQSFAQIFEALGVPLEHD	PGPT0015660_407	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015660-cheC-K03410	NA	NA
AK002_04082	462	cheW	COG0835	Chemotaxis protein CheW	ATGGGAGAAGAAATCAAGGTTATCGTCTTTAGACTTGGCGAGGAAGAATACGGCATCGAGGTGGACAAGGTTCAAACCATCGAAAGAATGATGCCCATTACGCGCGTTCCCAAAACCTTCGCTTTCGTAAAAGGGGTAATCAACCTGCGAGGCGTCGTCATCCCAGTGATCAATCTGCGCGGCCGATTCGGTCTGGAAGAGGTTGAAGCTACCGATCAAACACGGGTTATTATCGTGGCAGTCAATGATATGCAGGTTGGCTTTATCGTGGATTCGGCAAGTGATGTCATCGATCTGAATACGGACAGCATTGACTCTCCACCTGAGGTTGTCGGCGGAATCAAAGCGAAATATCTTCGCGGTGTCGCGAAGGTAGGAGAGGAGCGCCTTCTCGTCATGCTGAATTTGTCCGAAGTGTTGAACAAGAGTGAGATTATTCAGCTGGAAGGCCTTGAGGAGTAG	MGEEIKVIVFRLGEEEYGIEVDKVQTIERMMPITRVPKTFAFVKGVINLRGVVIPVINLRGRFGLEEVEATDQTRVIIVAVNDMQVGFIVDSASDVIDLNTDSIDSPPEVVGGIKAKYLRGVAKVGEERLLVMLNLSEVLNKSEIIQLEGLEE	PGPT0015680_4406	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
AK002_04083	2070	cheA	COG0643	Chemotaxis protein CheA	ATGGACATGAATCAATATTTGACAATGTTTATTGATGAGTCAAATGATCATCTGCAATCATTAAATGAAAACATGCTTCAATTAGAAAGCAACCCGGACGATATCGGGATCGTACAGATTATTTTCCGATCGGCTCATACGTTGAAAGGCATGGCGGCAACGATGGGATTTGAAGATCTGGCTTCTCTTACCCACCAGATGGAAAACGTACTGGATCTTGTCCGGAACGAAAAGCTTAAGATGCAGGATTTTATCTTTGACACGCTCTTCAAAAGCTTGGACGCTCTTGAATCGATGGTGCAGGATATTACCGAAGGCGGCGACGGAAAGGCGGACGTGTCCGCCATTGTAGCCTCCTTGCAGTCCATTGTGCGCGGAGAAGGCGCCTCGACTAACGGGGGATCTGTCGAAGGGAATAACGCCGCTGTGGCCGTTCAGGGAATCGAATTGGATGAGTTTCAATTTTCCGTGCTGGATCAATCGATTTCAGAAGGTCATCAGGTTCTATATATCCAAGTGACATTGCGAGAGGATTGCCAACTCAAAGCGGTTCGGGCCTACATGGTATTCGAAACGCTGGAGAGATCCGGTGAAATCGTCAAGACCTATCCGGACGTTCAAGAGATTGAACAAGGTGAATTCGATCGCGTATTTTCGTTGTATTACATAACGCAAAGAGAAACGCAAGATATTGAAAGCCAGATTCTGGGCGTTTCAGAGATTGAAGCTGCGACGGTGGTGGCGCTCGATCATGAATCCTTGCAGCAAATGGTTCAGGAGAGCGCGGCTACAGCCGAAGCGGTGAAGCCCGAAGCTCCTACGGCAGCTCCGGCGGCCGGGGGTTCACCGGAAGCCAAAAGCGCTCCTGCGCCTGCCAAAGAATCCAAGGCGCCTGCGCGTAATGCGGGGGGAGGCAATCCTTCTAGAACGATCCGGGTTGATATTGAACGGCTGGATGTATTGATGAATCTGTTTAGCGAGCTTCTGATTGACCGGGTGCGCCTGGAGCAGCTGGCCAGCGAGTCCAAAAACCAGGAGCTGACGGACACGGTTGAGCATATGAGCCGCGTAAGCAGCGATTTGCAGAATATCGTCCTGAAGCTGCGCATGGTGCCTGTGGATACGGTGTTCAACCGTTTTCCAAGGATGGTGCGGGACCTTGCCAAAACATTGGACAAGAAGATCGACTTGATTATTACCGGGGCCGACACGGAGCTGGACCGCACGGTAATCGACGAGATCGGCGACCCTCTGGTCCACTTGCTGCGAAACTCGGCTGACCATGGCGTCGAACCTGTTGCCGACCGCATAGCAGCCGGTAAACCGGAGACCGGTACCGTGCACCTGCGCGCGTTCCATAGCGGCAACAATGTGTTCATCGAGATTGAAGACGACGGGCGCGGCATCTACCGCGATAAAATTTTGAAGAATGCGCTGGCCAAAGGCGTCGTCACGGAAGCTGAGGCAGCGTCCATGACAGATGACGAGGTGAATCAGCTGCTGTTCGCTCCCGGATTCAGCACCGCCGAGAAAATTTCGGATGTATCCGGCCGCGGCGTAGGACTCGACGTCGTTAAATCGAAGATTGTTGCCTTGGGCGGTAACGTCACGATCTACTCCACTCCGGGAAAAGGCACCAATTTTTCGGTTCAGCTTCCATTAACGCTGTCCATCATTGCAGCCATGCTGATCCGGATGGGATCGGAGAAATATGCGATTCCGTTGTCCTCCATCGTTGAAACGGGCATCATCAAGCGCGGGCAGATCAAGCATGTGCACGGAAGCCGCATGATTCAGTTCCGGGAGTCGATGATACCGGTGATCTCGCTTAGCCGTTTGTTTGAAGTTCCGGATTTTGATGAGGAGCGGGAAGAGGAAACGGAGATTGTTGTGATCCGCAAAGGGGATCGTTTGGCTGCGCTCACCATTGATGATTTTATCGGACAGAGTGAAATCGTCATTAAAAACCTGGGCAAATATCTGCCTGCCATACAAGGGGTATCCGGCGCTACCATTCTTGGAGATGGACAAGTGGCTCTTATCATCGACGCAAATGCATTTATCAAATAA	MDMNQYLTMFIDESNDHLQSLNENMLQLESNPDDIGIVQIIFRSAHTLKGMAATMGFEDLASLTHQMENVLDLVRNEKLKMQDFIFDTLFKSLDALESMVQDITEGGDGKADVSAIVASLQSIVRGEGASTNGGSVEGNNAAVAVQGIELDEFQFSVLDQSISEGHQVLYIQVTLREDCQLKAVRAYMVFETLERSGEIVKTYPDVQEIEQGEFDRVFSLYYITQRETQDIESQILGVSEIEAATVVALDHESLQQMVQESAATAEAVKPEAPTAAPAAGGSPEAKSAPAPAKESKAPARNAGGGNPSRTIRVDIERLDVLMNLFSELLIDRVRLEQLASESKNQELTDTVEHMSRVSSDLQNIVLKLRMVPVDTVFNRFPRMVRDLAKTLDKKIDLIITGADTELDRTVIDEIGDPLVHLLRNSADHGVEPVADRIAAGKPETGTVHLRAFHSGNNVFIEIEDDGRGIYRDKILKNALAKGVVTEAEAASMTDDEVNQLLFAPGFSTAEKISDVSGRGVGLDVVKSKIVALGGNVTIYSTPGKGTNFSVQLPLTLSIIAAMLIRMGSEKYAIPLSSIVETGIIKRGQIKHVHGSRMIQFRESMIPVISLSRLFEVPDFDEEREEETEIVVIRKGDRLAALTIDDFIGQSEIVIKNLGKYLPAIQGVSGATILGDGQVALIIDANAFIK	PGPT0015645_3032	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
AK002_04084	1335	cheB_14		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAAGCCTTTTCGTGTGCTCGTCGTGGACGATTCCGCATTTATGAGGAAAATCTTTTCCGATTTCATCGAGCGCGACAAGTCTTTCCAGGTTGTCGGGACAGCCGAGAACGGGCTTGACGCCGTTGAGAAAGTAAAGGAACTGAATCCTGACGTTATTACGCTGGATGTAGAAATGCCGGAAATGAACGGGCTGGATGCTTTGAAGCTCATTATGGATGCGGGACCCCGTCCGGTTATCATGTTATCCGGCCTTAATGAACAAGGCATGAGGGAGACCATTCTTGCCCTCGAGGCAGGAGCATTTGATTTTATACGAAAGCCTTCCATATCGAATGCGCTTGATATTGAGCAGGTGCGTTCCGAATTGATGAAGCAGCTGAATGCGGCGATGCAGGCTAAACAGCGGAGGGCCTTGTGGGAAGAAGAAGAGCAGAGACGGCGGAGTGCGGACATCACGCTTCCTCTTTCGCCAAAGCCTTCTGAGACGACGCCGAAAAAGAAGCCGCAGGTGAAAGAAACGAGACCGGCGGCCAAAGGAACGGATCAGCGCGGCAAGCCGGCTGAACCGCTTCGCATGCCGGTATCCCGCTCGGTCGGGGAGAAGGCGGCTCTCCCGGACGTACCGGAGCTTTCCGGTTTCAAGCGAAAACGGGTTGAACGCAAACCTGAAGCGGAGTCGGCGCCAGCCGTGCTTCCCAAGAACGAGAGCCGCCCGCCGAGAGAGGCAAATGCCCAGCCGTCAACCGACCTGAAAGATTTGGTGGCGGTCGGCTGCTCAACGGGTGGCCCAAGAGCATTGAAAGCTTTTCTCGAGCAGATTCCCGGCGACTTCCATGCCCCGATCGTCATCGTTCAGCATATGCCGCCGAATTTCACCAAATCGCTTGCCCAGCGCCTGAATTCATTCAGTCAGCTGGAGGTCATGGAAGCAGAACACGGCATGGTATTGGAGCCAGGCAAGGCATACATTGCCCCGGGCGGCAGCCACATGAGGGTTCATCGTTCGGAAGGCGGTGCGTACCAAATCAGGATAAGCCAGGATGAGACCCGCAACGGCCATCGCCCGTCGGTGGATGTGCTGTTCGAATCCCTGCTGCCGTTGACCTCGGTCAAGCGGCATGCCGTTCTGATGACCGGCATGGGGAGCGATGGAGCGAGAATGATGAAGGAGCTTTACGATGCCGGCGTGACATCCACCTTCGCCGAGAGCGAGCAAACCTGCGTCGTATACGGGATGCCGAGATCTGCCGTCGAGCTGGGATGCGTAAGCCACGTTTTGCCGCTTCATGAAATTGCACCGAGGATGGTTCAAGCTGTAAATAACGGAAAGTGA	MKPFRVLVVDDSAFMRKIFSDFIERDKSFQVVGTAENGLDAVEKVKELNPDVITLDVEMPEMNGLDALKLIMDAGPRPVIMLSGLNEQGMRETILALEAGAFDFIRKPSISNALDIEQVRSELMKQLNAAMQAKQRRALWEEEEQRRRSADITLPLSPKPSETTPKKKPQVKETRPAAKGTDQRGKPAEPLRMPVSRSVGEKAALPDVPELSGFKRKRVERKPEAESAPAVLPKNESRPPREANAQPSTDLKDLVAVGCSTGGPRALKAFLEQIPGDFHAPIVIVQHMPPNFTKSLAQRLNSFSQLEVMEAEHGMVLEPGKAYIAPGGSHMRVHRSEGGAYQIRISQDETRNGHRPSVDVLFESLLPLTSVKRHAVLMTGMGSDGARMMKELYDAGVTSTFAESEQTCVVYGMPRSAVELGCVSHVLPLHEIAPRMVQAVNNGK	PGPT0015650_77	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
AK002_04085	891	ylxH	COG0455	Flagellum site-determining protein YlxH	ATGACGGATCAAGCTCACTCGCTTCGCCAGTTGGTTTCGGCCCAGCAGCCCGGGGATAGCGCCAAGGCGACCTCCGCAAGAACCGCCAAGATCATAACCGTCAGCAGCGGCAAAGGCGGGGTTGGGAAATCCAATTTCACGTTAAATTTTGCATTGACTTTGCAATCGTTGGGAAAAAAGGTTCTGGTCTTTGATGCCGATATCGGCATGGCAAACATTGACGTTCTGATGGGTGTTACCTCTCGGTACAGCCTGTATCATCTCATCCGCCGGGAGAAGAGCATAGAAGAAGTGATCCAGTATGGGCCGGATAAGCTGCCTTACATTGCCGGAGGTTCGGGTTTGGCGGACATGATGTCCCTGTCCGAGGAAGAGATGGATTATTTCATATCCCAGATCGAGCGCATTGCTTCCGGGATGGACTACATCATCTTCGATACAGGGGCCGGCTTATCCAAGGAAAACATGAAGTTTATTACCTCCGCTGATCAATGCTTTGTCGTTACGACGCCGGAGCCGACGTCCATCACGGATGCCTATGCGTTAATCAAGGTGGTCCACGGCACGGAAAGCAAGGTTCCGTTCAGCCTGATCGTCAACCGTGCAGGGGACGAGGAAGAGGCTCGTGAGGCGGCGGGCAAAATTATTTTGACGGCCCAGCGTTTTCTGGACATCGACATCAAGCTGCTCGGCTCGATTGCCGATGATACGCATGTTGTCCAGTCCGTTAAGCGACAGGTTCCGTTTACGGCAGCTTATCCACGGTGTAACGCTTCCAGTGATATCAGACGGATCGCGCTTCGTTACTTGGCCGTTCCTGCTGTCGCGGAGCCGGAAACTCCGAAGGGAATCAAAGGATTTATGCATCGATGGCTTAAACGTACGAAATGA	MTDQAHSLRQLVSAQQPGDSAKATSARTAKIITVSSGKGGVGKSNFTLNFALTLQSLGKKVLVFDADIGMANIDVLMGVTSRYSLYHLIRREKSIEEVIQYGPDKLPYIAGGSGLADMMSLSEEEMDYFISQIERIASGMDYIIFDTGAGLSKENMKFITSADQCFVVTTPEPTSITDAYALIKVVHGTESKVPFSLIVNRAGDEEEAREAAGKIILTAQRFLDIDIKLLGSIADDTHVVQSVKRQVPFTAAYPRCNASSDIRRIALRYLAVPAVAEPETPKGIKGFMHRWLKRTK	PGPT0015555_433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015555-flhG-K04562	NA	NA
AK002_04086	1440	ftsY_1		Signal recognition particle receptor FtsY	ATGAGAGTGAAAAGGTATATCGTCGACACGATGCCTGAGGCGATGCAGCATATTCGTACGGATTTGGGTGCGGATGCCGTCATACTGAGCACGAAGGAAACCAAGGTAGGCGGGTTCCTCGGAATGTTCACCCGCAAGAAAATAGAGGTGATCGCGGCGGTAGAGCAGGCGGAGAAGCCCAAGGGCTCTGCCCCGGTCAAGCCCAAAGTTACGCCTTCTGTTCCCTCAGGGGCTGTACCCAAGGCCTACCAGCGAACGGCTGAAATTTCGAAGCAAGGCCCTAAAACCTCCCCGCTTCCAGTGAATAACGCGGATAACGCAGCGGATGCTCGGCAAGAGGCCGACTATAGCCGCTTTGCCGAGTTGCTTAGCCAGGTGGCAGCTTCCGAGGAGGTTGTGGACAGGCAAAAGGACGAGGTCAGCCAGACGCAGCAGACTGCAGAGGCCGATACGGCAGCGGTACGCAGCGATTCAACGGAAGCCGCTGCTTCTGTTGAAGCAAAGAAACCATCCCGCGGGGGACAGGAGGAGTCGTTAAGTTCACGACTGGGAATCAGCGAATCCGAACAGAGGGTCCTTGAAGAGCTTAAGGAAATGAAGGAATGGATCGCGCGATTATCCAGGCAGAATCTGGAGGCGCAGCATCTTCCCGAGCCGCTGCATGTTATCCGGGATCAGCTGCTGAAGCAGGATCTATCGGCCAAGCTGGCGGAAGAGTGGCTCGCGGCCGCGGAAGATGCCTGGAAAGCCAGCCAAATGCAGATGAGCGAGACCGAGCTTCTGAACGTGATTTATAAGCAGGCCGAGGCGTTCCTTGAGGGGCGTATCGGCGACGGCGTTCAGCCCGGGACGCGGATCGTATATGTCGCTGGCCCAACGGGGGTCGGCAAAACAACCACGATTGCGAAGATCGCTGCAGAGCAGCTGTTCCGTAATCAACGCAAGGTAGGCTTCATTACGTCCGATACGTATCGGATATCCGCCGTTGAACAGCTTCGCACTTATGCTTCCATTCTCAATGTGCCGATGGAGGTCGTGCAGTCGCCCGGCGACATGCAGCGAGCCCTTCAGAAGCTCCAGGATTGCGATTTGGTATTAATGGATACGGCCGGCCGGAACTATCGGAATGAGCTGCTCGTTTCCGAGCTTCAAAGCCTGTTCTCCCATTCCGATCAAAGCGAAACTTATCTTGTTCTCAGCCTCACATCCAAGAGCAGCGATATGATCGAAATCGCGGATCATTTCAGCAAATACGAGCTGGATAAGGTCATATTCACGAAGATGGATGAAACCGGAAGCTACGGCGCCTTGTTTAATCTGATCGATGCCCACAACCTTCGCCTGTCTTATATGACCAATGGTCAAAATGTGCCCGATGATCTGTTGATGGCCGACCCTGAACGGTTATGCCATCTGCTGCTGGGAGAGAGTCGTACATGA	MRVKRYIVDTMPEAMQHIRTDLGADAVILSTKETKVGGFLGMFTRKKIEVIAAVEQAEKPKGSAPVKPKVTPSVPSGAVPKAYQRTAEISKQGPKTSPLPVNNADNAADARQEADYSRFAELLSQVAASEEVVDRQKDEVSQTQQTAEADTAAVRSDSTEAAASVEAKKPSRGGQEESLSSRLGISESEQRVLEELKEMKEWIARLSRQNLEAQHLPEPLHVIRDQLLKQDLSAKLAEEWLAAAEDAWKASQMQMSETELLNVIYKQAEAFLEGRIGDGVQPGTRIVYVAGPTGVGKTTTIAKIAAEQLFRNQRKVGFITSDTYRISAVEQLRTYASILNVPMEVVQSPGDMQRALQKLQDCDLVLMDTAGRNYRNELLVSELQSLFSHSDQSETYLVLSLTSKSSDMIEIADHFSKYELDKVIFTKMDETGSYGALFNLIDAHNLRLSYMTNGQNVPDDLLMADPERLCHLLLGESRT	PGPT0015550_495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404	NA	NA
AK002_04087	2034	flhA	COG1298	Flagellar biosynthesis protein FlhA	GTGAAAATAAAAGATCTATCTGTCCTTGCGGGTGTCATTGGCATCGTACTCATGATGATTCTTCCGATCCCGATATGGCTGCTCGATGTACTTCTGATTATCAATATCTCGCTGGCGCTCATCATTTTGCTGGTGGCCATGAATACGAAGGAAGCGCTCGATTTCTCCATTTTTCCTTCCTTATTGCTCATCACGACACTCTTTCGAGTAGCGCTTAACATATCGACAACGAAGCTGATCCTGTCGGAAGCTAACGCAGGCGAAGTTGTTGCCACGTTCGGCAAATGGATTGCCAACGGCGAAATTGCGGTTGGCTTCATCGTCTTCTTGATCCTCGTCGTCGTACAGTTCATCGTCATTACCAAAGGCTCGGAACGGGTAGCCGAGGTTGCGGCAAGATTTACCCTCGACGCGATGCCGGGTAAGCAGATGAGCATCGATGCGGATCTGAACGCGGGTCTGATCAATGAGCAGCAAGCCAGGGAGCGCCGCAGCAAGATCGAGCGCGAAGCCGACTTTTACGGCGCCATGGATGGTGCGAGTAAATTCGTCAAGGGTGATGCCATCGCCACGATCGTCATCATGCTCATCAATCTGATCGGCGGATTTATTATCGGGATCTCGATTCACGGCATGTCGTTCGGAGACGCGATGAGCACCTACTCGATCCTGACGATCGGGGACGGATTGGTCAGCCAGATTCCGGCTCTCCTGATTTCCACGGCAGCGGGCCTGATAGTTACGCGTGCTTCATCCGAAGGAAATCTGGCTGAGGATCTGACGGGGCAGCTCTTCTCATATCCTCATCTGTTGTACATTGTTGCAGGGACCGTCCTGCTGCTGGGGATCTTCACACCGATTCATCTGATCACGACCGCGCCGATTGCACTCATACTTTTTATCGCGGCACGGACGATGCAGAACAATTTGGATCGCAAGCAGGTGGAAGTGGAGCAGTTGGAAGAGGAACAGCAGATCGAAGAGGTGCGAAGCCCGGAAAGTGTGATCAACCTCTTGCAGGTCGATCCTATCGAATTCGAATTCGGATATGGGTTGATTCCGCTGGCAGACGCGCAGCAGGGCGGGGACTTATTGGACCGTATCATTATGATCCGGAGACAATGCGCGCTTGAACTGGGGCTCGTCGTGCCGGTCATCCGAATTCGCGACAATATTCAACTAAAACCGAACGAATATGTCATAAAAATAAAAGGGAATGCTGTCGGCGGCGGTGAATTATTATTAAATCACTATCTCGCCATGAGCCCGGGATACGAGGACGATTCCGTAACAGGGATCGAGACGACGGAACCGGCGTTCGGGCTTCCTGCACTGTGGATTGACGAAGCCATGAAGGAACGGGCGGATCTGGCCGGTTATACCGTTGTGGATCCACCGTCCGTCGTTGCTACCCATCTGACGGAACTCATTAAGAGACATGCCCATGAGCTGATCGGACGCCAGGAAACCAAGGCATTGGTAGACAATATTCGAGAAAGCTATCCGGTCCTTGTGGACGAGCTCATTCCTTCCGTGCTGACCATCGGGGAAGTGCAAAAGGTATTGGCCAAGCTCCTCCGCGAGAAGATCTCCATCCGGGATATGGTTACGATTCTCGAGACCCTTGCCGACTACGGGCATTATTCGAAGGACCCTGATGTCCTTACCGAATATGTAAGGCAAGCCCTATCACGGCAGATTACACAGCAATACGCTCAAGAAGGAGAGGCGATGCGGGTCATCACGGTCGGACCGCAGCTGGAGAAGAAGATCGCCGAGAGCGTTCAGCAGAGCGACCAAGGAAGCTATCTCGCGATGGATCCGGCATCCACGCAGAGCGTGTTTCAAAAGCTCAGCGAGCAGGTCAATCGGATTATTCAGATGGGACAGCAGCCCGTGCTGCTGACCTCGCCGGCCATAAGAATGTATCTGCGGCAGGTCATTGAACGAAGCATGCAGGATATCCCGGTGTTGTCCTATAGCGAGCTGGAGCCTAACGTCGAAATTCAAAGTGTCGGAGTGGTGAACTTATGA	MKIKDLSVLAGVIGIVLMMILPIPIWLLDVLLIINISLALIILLVAMNTKEALDFSIFPSLLLITTLFRVALNISTTKLILSEANAGEVVATFGKWIANGEIAVGFIVFLILVVVQFIVITKGSERVAEVAARFTLDAMPGKQMSIDADLNAGLINEQQARERRSKIEREADFYGAMDGASKFVKGDAIATIVIMLINLIGGFIIGISIHGMSFGDAMSTYSILTIGDGLVSQIPALLISTAAGLIVTRASSEGNLAEDLTGQLFSYPHLLYIVAGTVLLLGIFTPIHLITTAPIALILFIAARTMQNNLDRKQVEVEQLEEEQQIEEVRSPESVINLLQVDPIEFEFGYGLIPLADAQQGGDLLDRIIMIRRQCALELGLVVPVIRIRDNIQLKPNEYVIKIKGNAVGGGELLLNHYLAMSPGYEDDSVTGIETTEPAFGLPALWIDEAMKERADLAGYTVVDPPSVVATHLTELIKRHAHELIGRQETKALVDNIRESYPVLVDELIPSVLTIGEVQKVLAKLLREKISIRDMVTILETLADYGHYSKDPDVLTEYVRQALSRQITQQYAQEGEAMRVITVGPQLEKKIAESVQQSDQGSYLAMDPASTQSVFQKLSEQVNRIIQMGQQPVLLTSPAIRMYLRQVIERSMQDIPVLSYSELEPNVEIQSVGVVNL	PGPT0015320_2586	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015320-flhA|lfhA|fhiA|rhcV-K02400	NA	NA
AK002_04088	1089	flhB_1	COG1377	Flagellar biosynthetic protein FlhB	ATGTCATACCGGTATCCGGTCGACTTACAGCTGTTCGCTGGCGAAAAGACGGAGAAAGCCACACCGAAGAAGCGCCAGGATACGCGTAAGAAGGGCCAAGTTGCCAAGAGCATGGAGGTATCGGGTGCATCGGTTTTGCTGGCGGCTTTCTTCTGCCTGTTGATCTTTGGCGGTTATATGAGGGACCGCACCGTTCGACTATTCACCGATATATACATTAATCGGCTCTCCATGAATGTAACGAAAGATAATGTGATGCAGCTGTTCGGGGAATATGGCGTTCAAATCTTGCTTCTGCTCGCGCCTTTGTTCATTTCGATTTTCGTTATAGCGCTGGTCGCTAATTATTTGCAGGTCGGATTTATGTTAACCGGCGAGACGCTGAAAATGAAGTTCAGCAAAATCGACCCCATCAAGGGGTTCAAAAATATATTCTCGATGCGTTCATTGGTCGAGTTTTTGAAATCGGTCATCAAGTTGACCATTATCGGTTACCTCGTGTACAGCACCTTGTGGGCTGCCAGGGAGGATTTGTCCTCCTTATCGACGATGGGACCCGATACCATCTTTCATTTCGTGGCCGATATCACCATGTCGCTCGGTTTTAAGATTGCCGTCGGGCTGATCATTCTGGCCGTTCTGGATTACATGTATCAGAAATACGATTACGAGAAAAACATTCGGATGTCCAAGCAGGACATCAAAGACGAGTACAAAAAAATGGAAGGCGATCCGCTGATCAAAGGAAAGATCAGGGAGCGCCAGCGTCGGATGGCACTTCAGCGGATGATGCAGGAAGTTCCGAATGCCGACGTCATCATCACGAACCCGACCCACTTCGCAGTGGCGATCAAATATGACGGGTCCACGATGGAAGCTCCGCAAATCATTGCAAAAGGCCAAGATTTCATGGCCTTGCGGATTAAGGAAATCGCGAAGGAACACGGAATTATAACGATGGAAAACAAGCCGCTGGCACGCGCTTTGTACCAACGGTCGGAAATCGGGGATTCGATTCCGGGAGACCTGTTCCAGGCCGTAGCGGAAGTGCTGGCCTATGTATATAAACTAAAAGGTAAAGCGAAATAA	MSYRYPVDLQLFAGEKTEKATPKKRQDTRKKGQVAKSMEVSGASVLLAAFFCLLIFGGYMRDRTVRLFTDIYINRLSMNVTKDNVMQLFGEYGVQILLLLAPLFISIFVIALVANYLQVGFMLTGETLKMKFSKIDPIKGFKNIFSMRSLVEFLKSVIKLTIIGYLVYSTLWAAREDLSSLSTMGPDTIFHFVADITMSLGFKIAVGLIILAVLDYMYQKYDYEKNIRMSKQDIKDEYKKMEGDPLIKGKIRERQRRMALQRMMQEVPNADVIITNPTHFAVAIKYDGSTMEAPQIIAKGQDFMALRIKEIAKEHGIITMENKPLARALYQRSEIGDSIPGDLFQAVAEVLAYVYKLKGKAK	PGPT0015325_1671	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
AK002_04089	789	fliR	COG1684	Flagellar biosynthetic protein FliR	ATGGAATGGTTGCAGCAAAGTTTACCAGTTTTCATGCTTATTTTTTGTCGAATAACATCTTTTTTTGTAATATCGCCAGTGTTTGCTTCGCGCGGTATACCTTCTTCTTACAAAATAGCCCTGTCGGCCATTATCGCCCTGATCGTTTATCTATCGTTCGGGCTCGGGGAAGTGGTTCCGCAAGATCTGTCATACGTCATCTTAATCGTCCAGGAAGTGCTGGTGGGACTGCTTCTAGGGTTCACTGCTTATCTCATCATGGCTGTCGTCCAAACTGCCGGGGCATTAATTGATATTCAGATCGGTTTCAGCATGGCGAATGTCATCGACCCGTTTACGGGGACGTCCACCCCATTAATCGGGAACTTCAAGTATTATCTCGCTCTGCTGGTGTTCCTGAGCATGAATGGTCACCATTATTTGTTTGATGCAATTATGTACAGTTATGATTGGATCCCAATCACGGGTGACGTGTTTGGGAAGATACATGAGGGTAACGTAACGGATTTTCTCGTTCGGACATTCTCGCACTCGTTTGTATTGGCCATTCAAATGGCGGCTCCGCTGGTGGCAGCCCTGTTCCTGACCGATGTTGGGCTTGGCTTTCTGGCAAGGACGGCTCCGCAGTTCAACGTGTTTGTCATCGGGATTATTATCAAAATCATCGTTGGGCTCGTGCTGCTGATGCTGCTTATGCCGATGCTGGTGTCCCTGTTTGATCATCTGTTTGCCAAAATGTTTGAAGCGCTCCGTGAGCTGCTCGGCGTTCTTGGCGACGAGCCGACTTAA	MEWLQQSLPVFMLIFCRITSFFVISPVFASRGIPSSYKIALSAIIALIVYLSFGLGEVVPQDLSYVILIVQEVLVGLLLGFTAYLIMAVVQTAGALIDIQIGFSMANVIDPFTGTSTPLIGNFKYYLALLVFLSMNGHHYLFDAIMYSYDWIPITGDVFGKIHEGNVTDFLVRTFSHSFVLAIQMAAPLVAALFLTDVGLGFLARTAPQFNVFVIGIIIKIIVGLVLLMLLMPMLVSLFDHLFAKMFEALRELLGVLGDEPT	PGPT0015360_509	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
AK002_04090	270	fliQ	COG1987	Flagellar biosynthetic protein FliQ	GTGAGCGCTGAATTTATTATCGGTCTGGCAGGACAAGCGGTCTATATTGTGCTCCAGGTGAGCGCGCCGATGCTGGTTCTCGCACTGGTTGTGGGACTAATCATCAGTATTTTTCAAGCGACAACACAAATCCAGGAACAGACGCTGGCTTTCGTACCAAAAATCATTATCGTTCTTGTAGCGTTACTGCTGTTTGGTCCTTGGATCTTAACGACGTTAGTGGATTTTACGCACGGTATTTTGGACAATCTCTACAAATATATCGGATAG	MSAEFIIGLAGQAVYIVLQVSAPMLVLALVVGLIISIFQATTQIQEQTLAFVPKIIIVLVALLLFGPWILTTLVDFTHGILDNLYKYIG	PGPT0015355_508	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
AK002_04091	753	fliP	COG1338	Flagellar biosynthetic protein FliP	ATGAATAAAAAGATCTCGTACGCTATCACGATTTTCATCATGTTTGGATTATTGTTTTCCCATACGGCATTCGCGGATCCGATTCCGAACATTGATATTCAAATCGGTAATGAGGGAGACGCACCGGGGACAAGCTCCTTGTCCTTGATACTCCTGATCACCATTCTTAGTATTGCACCGGCGATTCTGGTGCTGATGACAAGTTTTACAAGGATTGTTATCGTGCTCGGCTTTGTCCGTACTTCGCTCGGAACACAGCAAACACCGCCAAACCAAGTGTTGATCGGCCTGGCGCTGTTCCTTACCTTGTTCGTTATGGCTCCCACGTTGTCCTCGATGAACGAGGTCGCGCTGCAGCCCTACCTCAAAGGGGAGATCACTCAAGCGGAAGCACTGGATAAGGCTCAAGACCCGATGAAGAAGTTCATGTTCGCGCACACAAGGGAAAAGGACCTGTTGCTGTTCATGAATTACACCGGCGCGGAGAAACCCGAATCCTACGAGGACATTCCATTAACGGTTTTAGTTCCGGCATTTGCCATTAGCGAGCTGAAGACGGGTTTCCAAATGGGTTTTATGATCTTCATCCCGTTTCTGGTCATCGATATCGTGGTTGCCAGCGTGCTGATGGCAATGGGGATGATGATGCTGCCGCCGGTCATGATCTCGCTGCCATTCAAGATTTTGCTCTTTGTTTTGGTGGACGGCTGGTATCTGGTAGTGAAATCCATGCTGATGAGCTTTAACCCGTAG	MNKKISYAITIFIMFGLLFSHTAFADPIPNIDIQIGNEGDAPGTSSLSLILLITILSIAPAILVLMTSFTRIVIVLGFVRTSLGTQQTPPNQVLIGLALFLTLFVMAPTLSSMNEVALQPYLKGEITQAEALDKAQDPMKKFMFAHTREKDLLLFMNYTGAEKPESYEDIPLTVLVPAFAISELKTGFQMGFMIFIPFLVIDIVVASVLMAMGMMMLPPVMISLPFKILLFVLVDGWYLVVKSMLMSFNP	PGPT0015350_1407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
AK002_04092	525			hypothetical protein	ATGATGATGGCAGCTTCTGACAGATTGGGCTCAAGTAGTACTACCGGGTATTATTTACAGTTGTTTTATGTCTTTATCGTACTTGCCATCATCATTGCGTTGATCGTGTTCCTGATTCGCTTTCTAGGCAGAAAGAATCAGAGCTGGATGCAGGGCCGCTCCATTCGTACTTTGGGTGCGGTTGGTATGGGCCCTAACAAATCCCTTCAGCTCGTCGAAATTGGGGGCAGCATCTATGTGATCGGAGTTGGCGAAGACGTCCGGTTGGTGGACAAAATTTCTGATCCCGCTGAAGTTGCGCTTATCCAAGCTGCATTTGAACAGGATTCTGGAATACATAATGGGGCACTGCCGCCTTTTATAACGAAATTGGCGGCAAAACTCCGTAAAGACAAACCACCGGAAGAAATTGAGTTGGACGATACATCTTCTTTCCATGAAGTGTTCGAATCCAAGCTGCGCAGCGTACCGAACCGGAAAGAAAAGGTCGAAGAATTGCTGCGGGAGGATCATAAGGATTCATGA	MMMAASDRLGSSSTTGYYLQLFYVFIVLAIIIALIVFLIRFLGRKNQSWMQGRSIRTLGAVGMGPNKSLQLVEIGGSIYVIGVGEDVRLVDKISDPAEVALIQAAFEQDSGIHNGALPPFITKLAAKLRKDKPPEEIELDDTSSFHEVFESKLRSVPNRKEKVEELLREDHKDS	PGPT0015345_614	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015345-fliOZ-K02418	NA	NA
AK002_04093	366	cheY_2	COG0784	Chemotaxis protein CheY	ATGGCTAACCGAATTCTGATCGTGGACGATGCTGCATTTATGAGAATGATGATCCGTGACATATTGGTCAAGAACGGATTCGAGGTTGTGGGGGAAGCACAGGACGGTGCACAAGCAATCGAGAAATTTAAAGAACTTCGTCCAGATCTGATTACGATGGATATTACGATGCCGGAAATGGATGGTATCGCAGCGCTTAAAGAGATTAAAAAAGTAGATGCCAATGCCAAAGTAATTATGTGCTCTGCCATGGGTCAGCAAGCGATGGTTATTGACGCAATCCAAGCCGGAGCGAAAGACTTCATCGTTAAACCGTTCCAATCGGACAGAGTTATTGAAGCCATCAACAAGACGCTTGGCGTATAA	MANRILIVDDAAFMRMMIRDILVKNGFEVVGEAQDGAQAIEKFKELRPDLITMDITMPEMDGIAALKEIKKVDANAKVIMCSAMGQQAMVIDAIQAGAKDFIVKPFQSDRVIEAINKTLGV	PGPT0015690_3937	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
AK002_04094	1263			hypothetical protein	TTGACGAGTAAAGATTATTTATCCCAGGAAGAAATCGACGCTTTGTTAAAACAGTCGGAAATGGCATCACCAGCATCAATTCCTTCGGCGGCGACTGTCGATGACGTATTAACACCTCTGGAGCAGGATGCGCTGGGTGAGATCGGTAACATAACCTTCGGCAGCGCTGCAACCGCCCTGTCCACCTTGCTGGGCAAAAAAGTGGACATCACGACCCCCAGAGTTTCGATCATTAAGCGAAGCGAGTTCGAGGAAGAATTTCCGAAGCCGCATGTTGCGGTACATGTTAAGTACGTGGACGGATTTGAAGGAATTAATTCGCTGGTCATTAAGACACGCGATGCACAGGTCATTGCCGATCTCATGTTAGGCGGGGAAGGCAACCCGGTGGAAGAGGAACTCAATGAGATTCATATCAGTGCCGTTCAGGAAGCGATGAACCAGATGATGGGGTCTTCCGCAACGAGCATGTCGACGATTTTCAACCGGTTTGTCAATATATCGCCGCCAGGCATTGACATTCTCAACATGGCGAACGGGGAAGGGGTCAACAACCTGCCGCCGGATGAAACACTGATTAAGATTTCTTTCCGATTAATTATCGGTGAACTTATTGATTCAACCATTATGCAGCTGCTGCCCGTTCATTTCTCCAAGGATATGGTTCACATGCTCATCAACGGGACAGAAGAACCGCAGCCTGCGAAGCAGGAAGCTGCTCCGGCGGTGGAAGCGCCGGCCAGTGCCCAGGAATCGGTACAAGCACCGGTTAATCCGGCACAAACCCAAGACATGGGTCAAGGCTACGATTATGGACAAGGCTACGGTCAGCCTATGCCAGGACATGGCGGGCCCATCCCGCAGCAATCCATGCCATACGGTCAGCCGCAGACGCCTTACCAAGCACAGCCGCAGCAGTATGGCGGCATGCCGAATCGCAATGTGAATGTACAGCCCGTGCAGTTCGCTAATCTGCAATCAGCACCGTACACCCAGGTGGATGAAAACAATCTGAACTTACTGATGGACATTCCCCTTAAAGTCACCGTAGAATTAGGGAGGACCCAAAAGCAAATTAAGGATATCCTGGAAATGTCGCAAGGTTCGATTATCGAGCTGGACAAGCTGGCCGGTGAGCCTGTTGACATCCTCGTCAATCATAAACTGATTGCCAAAGGCGAGGTCGTTGTCATCGATGAGAACTTTGGCGTGCGTGTGACGGATATCGTAAGCCAATGGGACCGGATTCAAAAATTACAATAG	MTSKDYLSQEEIDALLKQSEMASPASIPSAATVDDVLTPLEQDALGEIGNITFGSAATALSTLLGKKVDITTPRVSIIKRSEFEEEFPKPHVAVHVKYVDGFEGINSLVIKTRDAQVIADLMLGGEGNPVEEELNEIHISAVQEAMNQMMGSSATSMSTIFNRFVNISPPGIDILNMANGEGVNNLPPDETLIKISFRLIIGELIDSTIMQLLPVHFSKDMVHMLINGTEEPQPAKQEAAPAVEAPASAQESVQAPVNPAQTQDMGQGYDYGQGYGQPMPGHGGPIPQQSMPYGQPQTPYQAQPQQYGGMPNRNVNVQPVQFANLQSAPYTQVDENNLNLLMDIPLKVTVELGRTQKQIKDILEMSQGSIIELDKLAGEPVDILVNHKLIAKGEVVVIDENFGVRVTDIVSQWDRIQKLQ	PGPT0015410_127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015410-fliN|lfiN|fliNY|cheC|cheD-K02417	NA	NA
AK002_04095	999	fliM	COG1868	Flagellar motor switch protein FliM	ATGGTTGATGTTTTATCGCAGAATGAGATCGATGCCTTATTGGCCGCTCTCTCTTCAGGGGAAATGGATGCTGAAGAACTGAAAAAAGAGGAAACGCAAAAGAAAATCCGTTCTTACGATTTTAAGAGGGCCCTCCGTTTTTCGAAGGATCATATTCGAAGCTTGACTCGGATCCACGAGAACTTTGCACGCTATTTGACGACCTACTTCTCGGCGCAGTTACGTACTTTTGTGCAAATCAATGTGGTGCAGGTTGAACAGCTTCCGTATGATGAATTTATTCGCTCCATACCAAAAATGACAGTTCTTAATATATTTGAAGCCGAACCGCTCGTAGGTCGGATGGTGCTTGAGGTCCATCCCAACATTGCCTACGCGATGCTGGACCGATTGCTTGGAGGAACGGGCATTGCTCCGTCTTCCATCAGCTCGATGACCGAAATCGAAACGATTATCATGGAGCGCATATTCAGCCGGGCGTTCGATAGCCTCCAGGAGGCATGGAAAACGGTACTGGATATATCCCCGCGCCTCGAAGCATTGGAAACGAATCCGCAATTCATGCAGATCGTGTCACCGAACGAAACCATTGCGCTAATATCCCTTAGCACAAAAATCGGCGATACCACGGGCATGATTAACCTGTGCATACCGCATGTGGTGCTGGAGCCGATCATGTCCAAGCTGTCCGCGCATCAATGGTTCATCTCGGAGAAAAAAGCGAGCGTTCCGGAGGAAGTGGATGCTCTTAAACAGCGCGTAAGCAAAGCCAAGCTTCCGATCGTTGCCGAGCTGGGCGTTTCGCAGCTTACCGTGTCCGAGTTCTTGGGACTGAGCGTCGGCGACGTTATTTCGTTAAACAAGCCGATGCATGACGGACTATCCATCAAGGTCGGCGACAAATTAAAGTTTATTGGCAGTCCCGGAACGATAAAAGACCGGGTTGCTGTACAAATCGATGAAATTGTCATCGAAGGAGCTGAAGAATTTGACGAGTAA	MVDVLSQNEIDALLAALSSGEMDAEELKKEETQKKIRSYDFKRALRFSKDHIRSLTRIHENFARYLTTYFSAQLRTFVQINVVQVEQLPYDEFIRSIPKMTVLNIFEAEPLVGRMVLEVHPNIAYAMLDRLLGGTGIAPSSISSMTEIETIIMERIFSRAFDSLQEAWKTVLDISPRLEALETNPQFMQIVSPNETIALISLSTKIGDTTGMINLCIPHVVLEPIMSKLSAHQWFISEKKASVPEEVDALKQRVSKAKLPIVAELGVSQLTVSEFLGLSVGDVISLNKPMHDGLSIKVGDKLKFIGSPGTIKDRVAVQIDEIVIEGAEEFDE	PGPT0015405_1402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
AK002_04096	465			hypothetical protein	ATGAAAAAGATGCTCCCCTGGTTAATTACGATCCTGTTATCGATTACGCTGATTGTCCTGGCCATCTTCCTGTTGTCGGACAAGCTGCTTGGCGATAACGGAAAAAGTCAGGCTTCGGCCAATGCCGCGGCTTTATCCAAGTTGTCGGCCGACGAGATCGTAAAGATGACATCGGAAATAACCGGTATCAAGACGAATCTGGCAGATCCTGAATTTGTTGCCCAGATGGCCTTTGCTTTTCAGCTTAACGATAAAAAAGCAAAGGAAGAATTCGATAAAATCAAGGAAATCAAGATCAAACCAATTATTATCAAAACGCTGGCCGACACGAAACCCGAATTACTGAATGATTCCAAAGGGCGCGAACAGTTTATTGCCAAGCTGCAAAACCTGATCAATAAGTCGTTAACGTCCGGTCACTTGATTCAAATCGAAATGACAGAAGTAATGATCGTAGGTATCTAG	MKKMLPWLITILLSITLIVLAIFLLSDKLLGDNGKSQASANAAALSKLSADEIVKMTSEITGIKTNLADPEFVAQMAFAFQLNDKKAKEEFDKIKEIKIKPIIIKTLADTKPELLNDSKGREQFIAKLQNLINKSLTSGHLIQIEMTEVMIVGI	PGPT0015525_2195	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
AK002_04097	225	swrD	COG1582	Swarming motility protein SwrD	ATGATATCGGTAACGAGGTTAAATGGTTCGCAGTTGTGGCTTAACGCGCTGTTGATAGAAATGGTTGAGGAGACTCCTGACACCTACATTACTTTGATTAATGGAAAACGGATGATTGTGCTTGAAAGTGCAAATGAAATCATCGCTTCCGTTAAGGCGTATCACCACGAGGTAGGCATTCATCAAGCCACCATTAAAGTGCAGCAATTGGAGGAACCTTCATGA	MISVTRLNGSQLWLNALLIEMVEETPDTYITLINGKRMIVLESANEIIASVKAYHHEVGIHQATIKVQQLEEPS	PGPT0015460_171	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015460-flbD-K02385	NA	NA
AK002_04098	825	flgG_1	COG4786	Flagellar basal-body rod protein FlgG	ATGTTAAGATCCATGTATTCCGGCATTTCCGGAATGAGAGGTTTCCAAACCAAACTTGACGTCATTGGTAATAATATTGCCAACGTAAATACGGTTGGGTTTAAAGCGGGACGTGTCATGTTTAAAGATATTCTCAGCCAAACGATGTCCGGCGTAACGCCGGGAACCGACGATCCATCCGGCGGCGTAAACGCAAAGCAGATCGGTCTCGGCGTATCCATCGGCTCGATTGATACTTTGCATACGCCAGGCAGTGCAATGACAACCAATAATCCGACAGACCTGAGAATTGACGGAGACGGATTCTTCATGGTGAAGCTCAGCGAGGATCAAGAAGTGCCTTTCTTAACTCGTGCTGGCGACTTCCATGTCGACGTAGCGCGTAACCTGGTCACTTCGGACGGTATGCTCGTTCTCGATTCGGCGGGTGACCCAATCCAGCTGGACGAAGAGGTTACGGCATTCACAATTGCTCAGAATGGCGCCATCATTCAGAAGATGAGTGACGGAACGACGGAAGAAGGAGCCATTATCGGCGTTGCGAAAATTCCGAATCCGGAAGGCCTGGAAAAAATCGGAGGCAATATGTATCGCGTGACCCTGAATGCAGTTCCGGATGGCGATCTGGCTGCCGTCATGTTTGATGGGAATAACGCGGAAGAAGGAACAGGTGCGATTATTGCCGGTCAGCTTGAAATGTCCAACGTTGACTTGACAGGCGAATTTTCTGAAATGATCGTCGCTCAGCGCGGCTTCCAAGCTAACTCCCGGATTATCACGACTTCGGATGAAGTGCTTCAAGAAGTTGTCAATCTGAAACGATAA	MLRSMYSGISGMRGFQTKLDVIGNNIANVNTVGFKAGRVMFKDILSQTMSGVTPGTDDPSGGVNAKQIGLGVSIGSIDTLHTPGSAMTTNNPTDLRIDGDGFFMVKLSEDQEVPFLTRAGDFHVDVARNLVTSDGMLVLDSAGDPIQLDEEVTAFTIAQNGAIIQKMSDGTTEEGAIIGVAKIPNPEGLEKIGGNMYRVTLNAVPDGDLAAVMFDGNNAEEGTGAIIAGQLEMSNVDLTGEFSEMIVAQRGFQANSRIITTSDEVLQEVVNLKR	PGPT0015485_2923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
AK002_04099	390			hypothetical protein	ATGAGTGACCGTATGATGATCGGGCATTTATTTCCCGGGAAAATACATCCCGCAGCGCTTCACAATGAACGAAAAACAACGCAAGCTCAACATAATCCTCCACCCGGGACGTTTCAGGAGCTCTTAAATGAGAATCTCCTTAAAATTAGCAATCATGCGGCGAAGAGACTACAGCAGCGCGGCATTGAATTGAAGGGGGATCAGTTGGAACAGATCCAGAGTGCGGTGGATAAAGCCGCAGCGAAGGGGAGCAAGGAATCGCTCATTCTGATGAAGGACATGGCCCTTATCGTGAATATTCCGAATCGGACCGTAGTTACGGCGATGGATGGCAAGGCGATGAAAGACAACGTGTTCACGCAAATCGATAGTGCAGTTATTATTTCATAA	MSDRMMIGHLFPGKIHPAALHNERKTTQAQHNPPPGTFQELLNENLLKISNHAAKRLQQRGIELKGDQLEQIQSAVDKAAAKGSKESLILMKDMALIVNIPNRTVVTAMDGKAMKDNVFTQIDSAVIIS				NA	NA	NA	NA	NA
AK002_04100	561			hypothetical protein	ATGGCAACAAATCCGGTATCTACGAATAATATGTGGCCCAATTATGCCAAAGGAAACGTCAGCACTAAAAACGGAAACGGCCAAGAGCTTGGAAAGGACCAGTTCTTAAGCATTCTGATTACGCAATTGCGGCATCAGGATCCGCTTCAGCCGATGCAGGACCGGGAATTTATTGCCCAAATGGCCCAGTTTACTTCACTGGAGCAGCTGATGAATATCAATACTCAATTAACGGCAATGAGCCAGTCTTTGGGTGCTGCTTCGAGTTTGATCGGTAAACAGATCAGCTGGATGTTCAAGCCGGAGGATGGCTCAGATTCCGTCATGAAGAGCGGTCTTGTGGATTCCATCATCGTCCGCGAAGGCGTCCATTACGCAAAAGTCGGTGAAAGTGAAGTATCGCTTGACCAGATCGTGAAAATCGAGAACGCTATGGCCGAGAATGATCCAGGAGCAACGGATCCTGTTCCTTCCGAACCTGAAGCAGGCAATCCGGATCCGGGAGAGCCTGAAGCCGGAGACCCGGGACAAGATGAAGAGTCTGGGGGAACCTCACCATGA	MATNPVSTNNMWPNYAKGNVSTKNGNGQELGKDQFLSILITQLRHQDPLQPMQDREFIAQMAQFTSLEQLMNINTQLTAMSQSLGAASSLIGKQISWMFKPEDGSDSVMKSGLVDSIIVREGVHYAKVGESEVSLDQIVKIENAMAENDPGATDPVPSEPEAGNPDPGEPEAGDPGQDEESGGTSP	PGPT0015480_2119	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
AK002_04101	1347			hypothetical protein	ATGACAATAACGGTACAAAGCAGTATGTCTTCTTCCGTTAGCAGTACCGCGGGAAGCGGAAAGACCAGCGCAGCCGGTCAAGCGGCAACGGGTGTTTCCTTTGATGCGACGCTGGCTTACCAGATGAACGGCAGCGGCAGCGGCGCTGCAACAACTTCAACAGAAGTCGCGGCCAAGCTGGAATCCCTGCTTGCGCAGTATTCAGCGGAAACCGACGAATCGCTTGAAGGCTTAATGGAGCTGCTTCAAGGATTGCTGCAGGAGCTAGATACCATGGACCAGGCGTTAGAAGAGGATCCATCGTTATTGCAAGAGCTGCAGAACTGGCTGACGCAAGCGAACCTTCTGTTGAGCGGAACAGCTCCTCACGCCCAAGGTAACGCTGACGGCAATGAAATGCCGCCATTGGCTTCCCATCCGGAAACGATTCGGTTTGCGGTACAGGACACGATCAGCCAGCTGGCTTCGATGCTATCCAAATCGGGTCAAGTGGACCTCCAGACGGAGGCAGCCGTCAAACAACTTGTCCAGTCCTTCCAAAGTTTGCTTGGTCAAGGAACGGGGACTGGAGAAAGTAAAGCAAGCGGCAGTTTTGCCAACATCCTGAGCCAAAAGCAGCCGGACGCGGTACAGCCTAACATTGCAGCGAATACTGCAGGACAGTCGGCTTCATCTGAGACAACGGGGCAAGCGAACGCTAAATGGTCTACTCTGGCCACAAGTACCCCGGTTGACGGCACAGCAGCTGAATTTGCGTTAAACGAAGGAGATTCCCTATTGGAGCAGGGAACGGTTACTGCCGGTCAGCTGGCCCTGCGTTCCGGAACCCAAGTTGCGGTGAAACCTGCAGCTCCGCCGGTGCCTGTTGAGAATTTTTCTAACGAAATGACTTCCTTCATTATTAATAAGCTCGAAATCGTGAAGCAAACCGGTTTTACCGAAGCGAGAATCTCCTTGAATCCGGAGCATCTGGGCCAAGTAGACATCAAGCTAACGATGCAGAACGGCCAGTTGATCGCACAGTTCATGACGCGGTCGACGGATGCTAAAGAGCTGATTGACCAGCAAATGGCACAGCTTCGAAGCGCATTGCTGGCCCAAGGCCTTCAAGTTGAGAAAATTGAAGTTACGCAGAGCAGCCAGCCATCCAATGCCAATCTCTATCAGGATGGACGTCAGCCTGGATCAGGACAGCAGCAGCCGCAGCACCGCTCGAAGGAAAAAGATAGGCCTTCCGACGATGCCGTTCTTGCCGCGAATTTGACGGAAGAATTGAACGATTGGATTGCCGAGCATCAAGCCGACGATGAGACCTTGCAAGCAGGAACATTTACCGCGAAAGCCTAA	MTITVQSSMSSSVSSTAGSGKTSAAGQAATGVSFDATLAYQMNGSGSGAATTSTEVAAKLESLLAQYSAETDESLEGLMELLQGLLQELDTMDQALEEDPSLLQELQNWLTQANLLLSGTAPHAQGNADGNEMPPLASHPETIRFAVQDTISQLASMLSKSGQVDLQTEAAVKQLVQSFQSLLGQGTGTGESKASGSFANILSQKQPDAVQPNIAANTAGQSASSETTGQANAKWSTLATSTPVDGTAAEFALNEGDSLLEQGTVTAGQLALRSGTQVAVKPAAPPVPVENFSNEMTSFIINKLEIVKQTGFTEARISLNPEHLGQVDIKLTMQNGQLIAQFMTRSTDAKELIDQQMAQLRSALLAQGLQVEKIEVTQSSQPSNANLYQDGRQPGSGQQQPQHRSKEKDRPSDDAVLAANLTEELNDWIAEHQADDETLQAGTFTAKA	PGPT0015520_1306	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015520-fliK|motD-K02414	NA	NA
AK002_04102	933			hypothetical protein	ATGAGTGTGGCACGAAAAGACATGCCGCTTGATAAGGAAGAATCAGGCGGAGGATTTGAACGGATATTGTTGATTTTGGTACCTGCTATATTCACGATCGTTCTGCTCGGAGCGCTCGCCGTATTTTTCAGAGCCGATGTCCGGGATGGGCTGCTCGAAGTAGCCAATAAAATTCCGGTCGTTAAGAACTGGGTCCCTGACCCGGTGTTGACCCCGGAAGAGCAGAAGCTCAAAGAGGCGAAGCAGCAGGAAGAAAGCGCAGAAGCGACGATTGTGGAACTTAAGAAGCAGCTTGCCGAGAAAGAAGAAACGTTAAACCAAGTAACGGAGCAAAAAGCAACGCAGGAAAACAAGGTGAAAGAGCTGGAAACCCAAATAGAATCGATGCAAAGCACATCCACGGGCGGCGAGGCGGAAGAGGAAGACGCGTATACCAAGCAGATTCGTGAGCTGTCCAAGCTTTATGCGGACATGAGTCCCAGCAAAGCCGCACCGATCATGCAGAACCTGACGCTGGAAGAAATGGTGCTAATGCTGAGCCAAATGAAGAGCAGCAACCGGGTTGCCATCCTTCAGAAGATGGATCCGAAAACGGCGGCGGATGCAACCATGATGCTGAAAGACGCGGAGACCTCCGAAGATATTGCCATTGCCGCTTTGCAATCCAGGCTAAAGAAGAACGACGCGGAGGCTGCGCAGAAGAAAACCTCCGAGAACCTGGATAAAAGCCAGCTGAATCAGACTTTTGCCGGAATGACGCCCGCCAACGCCGCGGACCTGCTGATGCAAACGTACAAGATCAGCCCCGCGAAAACGATGACCATTCTAAATACGGTGGACGATGCTACGCGTTCGCGAATTTTAAATGCAATGTCCTCGAAAGACGCGGAGCTGGCAGCTAAGATATTGAATCGCCTGATGGGCTCTAAATAA	MSVARKDMPLDKEESGGGFERILLILVPAIFTIVLLGALAVFFRADVRDGLLEVANKIPVVKNWVPDPVLTPEEQKLKEAKQQEESAEATIVELKKQLAEKEETLNQVTEQKATQENKVKELETQIESMQSTSTGGEAEEEDAYTKQIRELSKLYADMSPSKAAPIMQNLTLEEMVLMLSQMKSSNRVAILQKMDPKTAADATMMLKDAETSEDIAIAALQSRLKKNDAEAAQKKTSENLDKSQLNQTFAGMTPANAADLLMQTYKISPAKTMTILNTVDDATRSRILNAMSSKDAELAAKILNRLMGSK				NA	NA	NA	NA	NA
AK002_04103	444			hypothetical protein	ATGAAATTTCATTATGCATTCCAGAAAATCGTAGACCTGAAAAGCAACGAGAAAACGCAAGCGGAATGGATGCTGTCAAGCGCCATCGGGAAGCTGCAGGCGGAAGAGAAAAGCCTGAATGAGCTGTATGAGATGCGGGATCAAATGTACCGTGCTCAGCAGGAAGCGGCATCGCGGTGCGTGCCTGTCGCAGAAATCCGAAACATTCAGGTCTATGCAGAGCACCTGGAAGAATGCATTGAACGGAAACGGGATGACATACGGATCGCCCATGTCAATGTAACGAAGAAACAAAAGGTACTGTCCGACAAAATGCTTGACGAAAAAGTGTGGCTGAAGGCAAGAGACAAATCCCAAGAAAAGTTCCGGCATGAAAGTCTCCTTCGGGAACAAAACGAGCTGGACGAAATGGCGACGGTACGTTTTGCGATCAGAGCCCGTTAA	MKFHYAFQKIVDLKSNEKTQAEWMLSSAIGKLQAEEKSLNELYEMRDQMYRAQQEAASRCVPVAEIRNIQVYAEHLEECIERKRDDIRIAHVNVTKKQKVLSDKMLDEKVWLKARDKSQEKFRHESLLREQNELDEMATVRFAIRAR	PGPT0015615_1006	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413	NA	NA
AK002_04104	1320	yscN		putative ATP synthase YscN	ATGAAGAAGCTGAATAGCGCCCGGTACATGGACCATCTGAAACATTTGGATCCCGTTCGCATCAACGGCAAGGTTACGCAAGTCATCGGATTGATGGTGGAGTCCGAAGGGCCGGATGCCAGCATCGGCGACGTTTGCTACATCTATCCCACGAAGCAATCCAAGCCGCTCAAGGCCGAGGTCGTGGGTTTCAGAGACAATAAAGTGCTGCTGATGCCTCTCGGCGAGCTTCACTCCATTGGCCCGGGCTGCGATGTAGTGGGTACAGGCAAACCGCTGAGCGTGCAGGTAGGTTCGGAGCTGCTTGGCAAAGTGCTGGACGGATTGGGACAACCGCTCGACGGATCCATTATTCCGGCACGCATGCCGCATTATTCCACCCATAACGTTCCGCAGAACCCGCTTAATCGGCCCAGGGTTCAGGAGCCGATCAGCATCGGCGTGCGAGCGATTGACGGATTGCTCTCCATCGGCAAAGGCCAGCGTGTCGGCATATTCGCCGGCTCCGGCGTCGGGAAGAGTACCCTGATGGGAATGATCGCACGCAACACCTCAGCCGATGTCAATGTCATTGCCTTGATCGGTGAACGGGGACGAGAGGTGCTTGATTTCATCGAGCGGGACCTGGGTCCCGAAGGGTTGAAACGGTCCGTTGTGATCGTGGCCACCTCGGATCAACCGGCGCTCATCCGCATTAAAGGAGCCCTGATCGCCACCACGATCGCCGAATATTTCAGGGATCGCGGACTGAACGTGATGCTGATGATGGATTCGGTTACCCGTTATGCGATGGCGCAGCGCGAAGTCGGGCTTGCCGTAGGGGAACCGCCGGCGATGCGCGGTTACACTCCGTCGGTATTTGCCAGTCTGCCGAAGCTTCTGGAACGCGCAGGCACGGGTCCGACGGGTTCGATCACCGCTTTTTACACGGTGCTGGTAGACGGCGACGACATGAACGAACCGATCGCGGACGCGGTCAGGGGGATACTGGATGGTCATATCGTCCTGAACCGGAATATCGCGAACAAAGGCCATTTTCCGGCGATCGACGTGCTGGCCAGCATTAGCCGGGTCATGAAAGACATCTCGCCTGAGGAACAAATCGATGCCTCCGAGAACGTAAAGCGTTTGATGGCGATCTACAAGGACTCGGAGGATTTGATCAATATCGGAGCTTACCAACAGGGCTCGAATGCCGACATCGATGAATCGATCGAATACATCGGCCGCATCTGGGATTTTACGAAACAAAAAGTGAATGAGAAGACCACATTGGATGAGGTTCAGGAACGTTTGATTTCCGAGTTTTCAAGGAGATGA	MKKLNSARYMDHLKHLDPVRINGKVTQVIGLMVESEGPDASIGDVCYIYPTKQSKPLKAEVVGFRDNKVLLMPLGELHSIGPGCDVVGTGKPLSVQVGSELLGKVLDGLGQPLDGSIIPARMPHYSTHNVPQNPLNRPRVQEPISIGVRAIDGLLSIGKGQRVGIFAGSGVGKSTLMGMIARNTSADVNVIALIGERGREVLDFIERDLGPEGLKRSVVIVATSDQPALIRIKGALIATTIAEYFRDRGLNVMLMMDSVTRYAMAQREVGLAVGEPPAMRGYTPSVFASLPKLLERAGTGPTGSITAFYTVLVDGDDMNEPIADAVRGILDGHIVLNRNIANKGHFPAIDVLASISRVMKDISPEEQIDASENVKRLMAIYKDSEDLINIGAYQQGSNADIDESIEYIGRIWDFTKQKVNEKTTLDEVQERLISEFSRR	PGPT0015340_1975	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
AK002_04105	855			hypothetical protein	TTGTCTAACTTGATCAAATCGTCCCACTATAAACCGATGGATGTGTTGAAAGAGTTGGATCTTGCTCGTCGTTACGCTTCGCCAACCGAGGAAACGGTGGAGGAGCCTGCACCGCCGACTGCCGAGCCGGCTGCTGTACAAACGCTGGCTGAAGCCGAACGTTTGAAGCATGAAATGCTAAAGGACGCTCAGGAGTTTGCCGAAAGGCAAATCCGTGAGGCCTCGGAAGAGGCGCAGCGTCTGCTGACCGAAGCGCAGGAGCAGATTGAGGCTTGGTGGACCGAAAGAAGGCTTCAGGACGAGGATTTGTCCGAAACGCTGAAAATGGAAGGCTTTAATCAAGGATATGCGGAGGGCTCTGCCAAGGCGGAGCTTGAGATGAAGGAACTGATGGAGCAGGCGACGCTGCAAGCGAGCGAGCTGCTTCAGCTCGCGCACCAAGCCAAGGAAGATCTGATTCAGGAGGCGGAGCCGTTTTTGGTGGAGCTCAGCTGCAGCATTGCGGAGAAGGTGCTGGATCGTCAGCTTACGATCGAACCGGAATTCACGCTGGAGCTGATTCGAAAGAACCTGGCGCGCAAGCGGGAAAAAGGAATCATTTCCCTCTGCGTAGCTCCCGATCAGTTCGAATTCGTAAACGCCGCGCGGGAAGAGCTCGGATTATCGATCGACTCCCAGGCGGAGCTTCAAATTTTGCCGGACTCCACGGTAAAGGATCGCGGCTGCGTCATCCGTTCTTCCTTCGGAAGCGTGGATGCACGCATCGATACACAGCTGGCCGAGATCAAAAAAGAACTCGTACGGATCGCCCTTGATGTCGAGGAACGGAGAAATCAAGATGAAGAAGCTGAATAG	MSNLIKSSHYKPMDVLKELDLARRYASPTEETVEEPAPPTAEPAAVQTLAEAERLKHEMLKDAQEFAERQIREASEEAQRLLTEAQEQIEAWWTERRLQDEDLSETLKMEGFNQGYAEGSAKAELEMKELMEQATLQASELLQLAHQAKEDLIQEAEPFLVELSCSIAEKVLDRQLTIEPEFTLELIRKNLARKREKGIISLCVAPDQFEFVNAAREELGLSIDSQAELQILPDSTVKDRGCVIRSSFGSVDARIDTQLAEIKKELVRIALDVEERRNQDEEAE	PGPT0015335_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
AK002_04106	1017	fliG	COG1536	Flagellar motor switch protein FliG	TTGGCTAAGGGAAATAACCAAATGTTAAGCGGACGTCAAAAAGCGGCTATACTGCTCATTACACTTGGCCCGGAAGTGTCTGCTCAAATATTTAAGCATCTTCGAGATGAAGAAATCGAACAATTAACGCTCGAGATTGCGAATGTTCGCAAAGTCGACAGCGTCGAGAAAGATAGCATTATTCAGGAGTTCCATCAAATTTGCCTGGCCCAGGAATACATCTCGCAGGGCGGCATCAATTACGCGAAGGAGATTTTGGAGAAGGCGCTTGGACAGCAAAAAGCGATGGAAGTGATCAACAGGCTGACGGCAACGCTTCAAGTAAGACCGTTTGACTTCGCCCGTAAAGCGGATCCGAGCCAAATCCTGAACTTTATCCAGAATGAGAATGCCCAGACCATCGCACTCGTATTGTCTTATCTTCAATACGAGCAGGCATCCGCGATCCTGTCTTCGCTCCCGCAAGAGAAGCAGGCGGAGGTTGCGCGCAGGGTTGCAGTCATGGACAGTACTTCGCCGGAAGTCATCGCTCAGGTGGAGCGCGTGCTGGAACAGAAGCTGTCGGCTACGGTGACGCAGGATTACACCAGTGCGGGCGGCATCGAGTCCATCGTTCAAATTCTGAACGGCGTGGACCGCGGAACGGAACGGACGATCCTCGACTCCCTGGAAATCCAGGATCCCGAGCTTGCGGAAGAAATCAAGAAGCGGATGTTTGTATTCGAAGACATCGTCAACGTGGACAACCGTTCGATACAGCGCATCATCCGCGACGTCGAGAACGCGGACCTGCAGCTTGCGCTCAAGGTGGCAAGCGAAGAGGTGCGGGACGTTATTTTCCGCAATATGTCCAAGCGGATGGCCGAAACCTTCCGCGAAGAAATGGAATACATGGGACCGGTGCGGCTGCGTGACGTGGAGGAAGCCCAGACTCGGATCGTAAGCACGATCCGGAGACTCGAAGAAGCGGGTGAGGTTATTATTGCCCGCGGCGGAGGAGATGACATCATTGTCTAA	MAKGNNQMLSGRQKAAILLITLGPEVSAQIFKHLRDEEIEQLTLEIANVRKVDSVEKDSIIQEFHQICLAQEYISQGGINYAKEILEKALGQQKAMEVINRLTATLQVRPFDFARKADPSQILNFIQNENAQTIALVLSYLQYEQASAILSSLPQEKQAEVARRVAVMDSTSPEVIAQVERVLEQKLSATVTQDYTSAGGIESIVQILNGVDRGTERTILDSLEIQDPELAEEIKKRMFVFEDIVNVDNRSIQRIIRDVENADLQLALKVASEEVRDVIFRNMSKRMAETFREEMEYMGPVRLRDVEEAQTRIVSTIRRLEEAGEVIIARGGGDDIIV	PGPT0015400_1282	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
AK002_04107	1581			hypothetical protein	GTGAACGAGAGAATTACCCAATACCGGGAGAGAATGACCCAGTATTGGAACCAATTCAGCAACAAACAAAAAATAATGTTAATCGCTACCGTAGCATTTGTTCTAATTGCTCTTGTCGTACTAACGATGCAATTCTCTAAGACGAAGTATGAGGTAGCATTCCGGGATCTGAATTCCAGCGACGCCGCAGGCATCATCAGCCACTTGGAGACCCAGGGGATTTCCTACAAGCTGAGCGAGGACGGCAGAAGCATTCTGGTTCCGAGCACAAGCGCGGCTAAAGTCCAGATCGATGTAGGATCACAGGGACTGGTGCAGAATGGCACAATCGGATTCGAAACCTTCGAAAAGAATGCGTCAGCCATCGGGATGACGGATAACGAATTCGAAGTGAAATATGTAAATGCACTGAATGGCGAAGTCGAACGGCTGCTGGAGAAGATGCAGGGCGTTCAGGACGCAACGGTATTATTGAACCTGCCAAAAGAAAGTGTGTTCGCGAAAAACGGAAACGAAGATCAGGCCAGCGCTTCCGTGGTTGTGCAGTTCAAACCGGGCTATCGTCCTAATCAGGAAGTCATAGACGGGTACTACAACCTTGTAAAAACGGCCATTCCCAATTTGCCGATAGAGAACATTACAATCACCAATGACGAAGTCGAGCTGCTCGCAACAGCTAAAGGCGGTCAAGGCGGATTGATCGGCAAGGTGGAAGAAAATTTCGCGCTTCAGAAAAAATTCGAAAACGACGTAAGGCAAAATGTCCAGCAATTCCTCTCGCAGTACATGGGTTCGAATAAAGTCAATGTTCTTGTAGCTTCCAAACTGAACTTTGATCAGGTGCAAAGCAAGGAAAACATCGTAACCCCTGTGGATGAAGAAGAAATGAAGGGGATTGAGCTCAGCGTTCAGGAGATCCAGAAGAACTACTCGGGAACCGGCAGTCCTACAGGCGGCGTGGCCGGCGTAGGCGAAGAGGCCGTTCCGGGATATCCAAGCGATTCTGGAAGCGGAGAAACGAATTCGGAAGAGCTCTCCAAAACCGTTAACTATGAGGTTAACCGGATTACGAAGGATATCATTGCAAGTCCATATACTGTTAAAGATTTAACCATTAATGTCTCGGTTGAACCACCTGCCGGGCAACAAACTTTGGATGATGCCACAAGAACGGCTATTCAGAACATCCTGGTCAATATTGTAAGAGCATCGCTTTCGGATTCAGACTCTACTTATACAGACGCTGATTTGTCCAAAAAAGTTTCGGTTATTTCGCAGGTATTTAATGTAAATGCGGATGAAAATCCGAAATCCGTATTTTCACAGCCTGTATTATGGGGAATCGGTATCGCTGCGTTGGCATTGATTGCGGGAGGAACCTATTTCTTCATCCGCAGACGCAGACAGCAGCAGGAGGAGCTTGAAGAGGATATCCAGCTTCCGCCCGTTACGGAATTCCCGTCGATTAATCTCGAAAGCATAACCAATGAAAGCCAGGTTCGTAAGCAGCTCGAAACCTTGGCGAAGAAGAAGCCAGATGAATTCGTGAATTTACTTCGCACATGGCTAGCTGAGGAATAG	MNERITQYRERMTQYWNQFSNKQKIMLIATVAFVLIALVVLTMQFSKTKYEVAFRDLNSSDAAGIISHLETQGISYKLSEDGRSILVPSTSAAKVQIDVGSQGLVQNGTIGFETFEKNASAIGMTDNEFEVKYVNALNGEVERLLEKMQGVQDATVLLNLPKESVFAKNGNEDQASASVVVQFKPGYRPNQEVIDGYYNLVKTAIPNLPIENITITNDEVELLATAKGGQGGLIGKVEENFALQKKFENDVRQNVQQFLSQYMGSNKVNVLVASKLNFDQVQSKENIVTPVDEEEMKGIELSVQEIQKNYSGTGSPTGGVAGVGEEAVPGYPSDSGSGETNSEELSKTVNYEVNRITKDIIASPYTVKDLTINVSVEPPAGQQTLDDATRTAIQNILVNIVRASLSDSDSTYTDADLSKKVSVISQVFNVNADENPKSVFSQPVLWGIGIAALALIAGGTYFFIRRRRQQQEELEEDIQLPPVTEFPSINLESITNESQVRKQLETLAKKKPDEFVNLLRTWLAEE	PGPT0015430_2517	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
AK002_04108	309	fliE	COG1677	Flagellar hook-basal body complex protein FliE	ATGATTCAGAATGCAATGTTCAGTGTTCAGGGTGTACAGCCGCTGCAAATGCAGGAGCAAGTGAAAAATGGTGCGACGCCTTCCGAATCGATCCGAGATTTTGGCTCTTACCTGAATGAAGCACTGAACTCCGTGGCCGCGCAGGAACAGAACGCGCACGTGATGAGCGATAAATTAATGATTGGACAAGTAAACGTAGATCAGGCGATGATATCCGCCCAACAGGCTCTGTTGAGCATTCAGCTCACGACACAGGTCCGAAACAAAGTGGTAGAAGCCTATCAAGAGATCATGCGCACGCAAATCTAA	MIQNAMFSVQGVQPLQMQEQVKNGATPSESIRDFGSYLNEALNSVAAQEQNAHVMSDKLMIGQVNVDQAMISAQQALLSIQLTTQVRNKVVEAYQEIMRTQI	PGPT0015515_1874	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
AK002_04109	450	flgC	COG1558	Flagellar basal-body rod protein FlgC	ATGAATATTAGCAATAGCTTCGGAATTAATGCATCAGCTCTTACGGCACAACGGCTTCGAATGGATGTTATCTCCTCCAACATAGCCAATGCGGAAACCACGCGCGCGCGAATCGAGAATGGACAAGCCGTTCCGTATCGCCGAAAGACGGTTGTGTTTCAGCCGCAGCAGGAATCATTTGAAGGGCTTCTCAGAGCCCAGATGAACGGTCAGAATGCAGGGCAAGGGGTTAAGGTTGCGCAGGTGCGGGAAGATCAATCCCCGTTGAAGCAGGTATATAACCCCACACATCCGGATGCGAATGCGGAAGGCTATGTCTTTATGCCTAACGTTGATATTACGAAGGAAATGGTGGATATGCTCGCAGCTACCCGTTCTTACGAGGCTAACGTTACGGCGATAAACGCTTCGAAAGCGATGATCATGAAGGCTTTGGAGATTGGAAGATAA	MNISNSFGINASALTAQRLRMDVISSNIANAETTRARIENGQAVPYRRKTVVFQPQQESFEGLLRAQMNGQNAGQGVKVAQVREDQSPLKQVYNPTHPDANAEGYVFMPNVDITKEMVDMLAATRSYEANVTAINASKAMIMKALEIGR	PGPT0015475_457	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
AK002_04110	408	flgB	COG1815	Flagellar basal body rod protein FlgB	GTGAATCTGTTGAATAATAGTTCTTTTCAACGGCTTCAAAGCGGTTTGGATGCAGCGAATCTCAGGAACAACGTGATTGCAAACAACATCGCGAACGTGGATACACCTCATTTTAAGAGATCCGAAGTATCCTTTGAGAGTCTTCTGAAGAAAGAAATGGATGGAGCCCAGTTGTCGCTTCAGGGCAGAAGAACGGATCCCAGGCATTTTGTCATTGGTCCAACCGGGTCAATCCCGGATGCCTCGGTCATAAAGGACGGCAGCAGTTCCATGAATAACAACCAGAATAATGTCGATGCAGACAGAGAAATGTCGCTGCTTGCAGAGAATCAGCTCCGTTATAATTCGTACGTACAAGCTGTGAATGAGCAGATTCGAATGATGCGTACAGCTATTGAAGGGAGATAG	MNLLNNSSFQRLQSGLDAANLRNNVIANNIANVDTPHFKRSEVSFESLLKKEMDGAQLSLQGRRTDPRHFVIGPTGSIPDASVIKDGSSSMNNNQNNVDADREMSLLAENQLRYNSYVQAVNEQIRMMRTAIEGR	PGPT0015470_1116	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
AK002_04111	1407	clpY	COG1220	ATP-dependent protease ATPase subunit ClpY	ATGAGTAAAGAATCGATGACGCCTAGACAGATTGTATCCGAGCTGGATAAATACATCGTAGGCCAGAAGGACGCTAAAAAATCGGTCGCTGTCGCACTTCGGAACCGTTATCGCCGGAGTCTGCTGACCGAGGACGAGCGGGATGAAATCGTACCGAAGAACATTCTGATGATCGGTCCTACCGGCGTCGGCAAAACGGAAATTGCGAGAAGGCTTGCCAAGCTGGTCCATGCACCGTTCGTCAAGGTCGAGGCAACGAAGTTTACCGAGGTTGGTTATGTCGGCCGTGATGTGGAGTCCATGGTACGGGATCTGGTGGAAACCGCGATCCGGATGGTGAAGCTGGAACGTACGGAGAAGGTTAAGGACAAAGCCGAGGAAATGGCGAACGAGCGGATCGTTCAGCTGTTGGCGCCTTCAACCAAAGGCCAGAAGAGCCAGCGTAATCCCTTTGAGATGCTATTTGGCGGAGGAAACAACGAAACCCAGGCCGATGAGGAAGATGCGGACGATAAGGACGTTAGTCTTAAAGAGAAGCGGAGACAGGTGCGCTTTAACCTGCTGTCCGGCAAGCTTGAAGACGAAACGATTGAGATCGATGTCGAGGATGCCGCACCGAATATGTTCGACATGTTTGCCGGACAGGGCAATGATCAGATGGGCATGAATATGCAGGAGATGTTCGGCAACCTGATGCCGAAGCGTACGAAGCGCCGCAAGCTGTCCGTCAAGGAAGCCAGAAAAGTGCTTACGCAGGAAGAAGCAGGCAAGCTCATTGATATGGATGATGTCATCCAAGAGTCCATACGCCGGGCCGAGCAATCCGGGATTATTTTCATCGACGAAATCGACAAGGTTGCCAGCCAGGGCCGTCAATCGGGTCCTGATGTGTCCAGGGAAGGCGTGCAGCGCGACATTCTGCCTATCGTGGAAGGCTCCACGATCATGACGAAATACGGGCCGGTAAAAACGGACTTTGTCCTGTTTATCGCTGCTGGCGCATTCCATATCGCGAAGCCGTCGGATTTGATTCCCGAGCTTCAAGGGCGTTTTCCGATTCGGGTAGAGCTGAACAGTTTGTCGCTCGACGATTTTGTGTCCATTTTGACCGAGCCGAAAAACGCATTGACCAAACAATACGTCAATCTGCTGCGTACCGAAGACCTGGAAATCGAGTTTTCGCCGGAAGCGATCCGGGAAATTGCCCAAATCGCGGCTTCGGTGAACCAGAACACGGAGAATATCGGCGCACGGAGGCTCCATACGATATTGGAAAAGCTGCTGGAGGATCTGTCGTTTGAAGCGCCTGAATTGACGCTGGACCGGATGGTGATCACCCCGCAGTATGTCCGGGAGAAACTTGCCGGCATCGCCCAGGATCGGGACCTGAGCCAGTATATTCTGTAG	MSKESMTPRQIVSELDKYIVGQKDAKKSVAVALRNRYRRSLLTEDERDEIVPKNILMIGPTGVGKTEIARRLAKLVHAPFVKVEATKFTEVGYVGRDVESMVRDLVETAIRMVKLERTEKVKDKAEEMANERIVQLLAPSTKGQKSQRNPFEMLFGGGNNETQADEEDADDKDVSLKEKRRQVRFNLLSGKLEDETIEIDVEDAAPNMFDMFAGQGNDQMGMNMQEMFGNLMPKRTKRRKLSVKEARKVLTQEEAGKLIDMDDVIQESIRRAEQSGIIFIDEIDKVASQGRQSGPDVSREGVQRDILPIVEGSTIMTKYGPVKTDFVLFIAAGAFHIAKPSDLIPELQGRFPIRVELNSLSLDDFVSILTEPKNALTKQYVNLLRTEDLEIEFSPEAIREIAQIAASVNQNTENIGARRLHTILEKLLEDLSFEAPELTLDRMVITPQYVREKLAGIAQDRDLSQYIL				NA	NA	NA	NA	NA
AK002_04112	543	hslV	COG5405	ATP-dependent protease subunit HslV	ATGGAAATGACTTTTCACGCCACGACGATTTGCGCAGTGCGGCACAATGGCACGGCAGCTATAGCCGGCGACGGCCAAGTCACATTCGGTGAAAGTGTAGTCATGAAGCAGACCGCCAAGAAAGTGCGCCGTCTTTACCGGGGACAAGTTGTCGCCGGTTTTGCCGGTTCTGTGGCGGATGCGATCACGTTGTTTGAGAAATTCGAAGGCAAGCTGGAGGAGCACCATGGAAACCTGCAGCGGGCCGCTGTCGAGCTTGCGAAGGACTGGCGTCAAGACAGGGTGCTCCGTAAACTTGAAGCCTTGATGATTGTTATGGACAAAACGGGGATGCTGCTGATTTCCGGCGGCGGCGAAATCATCGAGCCTGATGATGATGTGCTGGCCATTGGGTCAGGAGGCAATTTTGCCTTGTCTGCCGGACGTGCGCTTAAGCGCCATGCAGGGCATATGGAAGCGAAAGACATCGCCAGAGAAGCCCTTCAGATCGCTTCTGAGGTGTGTGTCTACACGAACAGCAACATTATTGTTGAAGAGCTGTAA	MEMTFHATTICAVRHNGTAAIAGDGQVTFGESVVMKQTAKKVRRLYRGQVVAGFAGSVADAITLFEKFEGKLEEHHGNLQRAAVELAKDWRQDRVLRKLEALMIVMDKTGMLLISGGGEIIEPDDDVLAIGSGGNFALSAGRALKRHAGHMEAKDIAREALQIASEVCVYTNSNIIVEEL				NA	NA	NA	NA	NA
AK002_04113	1329	trmFO	COG1206	Methylenetetrahydrofolate--tRNA-(uracil-5-)-methyltransferase TrmFO	TTGACAGATTCACAGAGGGTTACGGTTATCGGGGCAGGACTTGCTGGCAGTGAAGCTGCCTGGCAGATCGCCAGCCGCGGCGTACCCGTTACACTATACGAGATGCGGCCGGTCGTAAAGACGCCGGCTCATCATACGGACAAGTTCGCCGAGCTTGTATGCAGTAATTCGCTTCGGGCGAACGGATTGACCAATGCGGTCGGCGTATTGAAGGAAGAGATGCGGATGCTGAATTCCCTCGTCATCGGATCGGCTGACCGCAATTCCGTCCCGGCTGGCGGCGCATTAGCCGTCGACCGCGACGGCTTCTCCGGAGAAATTACGGAAACCTTGCATCAGCATCCGTTAATCGAGGTCGTAAATGAAGAAATTCAGCATATACCTGAAGAAGGCATCGTTGTTATTGCTACGGGACCGCTGACTTCGCCGGCATTGTCGTCGCAAATCCGCGAGCTGATGGGCGAAGACTATTTCTATTTTTACGATGCGGCTGCTCCGATCGTGGAGAAGGATTCCATCGATATGAGCAAGGTCTATCTAGCGTCACGTTATGATAAAGGCGAAGCGGCCTATCTGAATTGTCCCATGACGGAAGAAGAGTTCGACGCCTTCTATGACGCTCTTATTAATGCTGAAGTCGCGCAATTGAAAGAGTTTGAGAAGGAGATTTATTTCGAGGGCTGCATGCCGATCGAGGTTATGATGAAGCGCGGCAAACAAACCGCCTTGTTCGGCCCGATGAAGCCTGTAGGATTGGTGAACCCGCATACGGGCAAACTGCCTTACGCCGTGGTTCAGCTCCGTCAGGATAATGCGGCGGGTACCCTCTACAACCTTGTCGGCTTCCAGACCCATTTGAAGTGGGGCGAACAGAAGCGCATCATTTCCATGATACCGGGACTCGAGAACGCCGAAATCGTGCGATACGGCGTCATGCACCGCAATACGTTTGTCAATTCGCCAAAATTGCTGGAACAAACCTATCAGGTGAAAACACGGCCGAATTTGTACCTGGCGGGACAAATGACCGGCGTCGAAGGGTATGTTGAATCGGCGGCGTCCGGATTGATTGCAGGCATTAATGCGGCAAGAGCGGCTCAGGGGCGTGAGGGGATCGTATTTCCTCAGGAATCGACCATCGGAAGCATGGCTTATTACATCACCCATGCGGATCCCGATAATTTCCAGCCGATGAACGCGAACTTCGGTCTTCTTCCGGGCCTAGAGAAGCGGATTCGGAACAAAAAGGAAAAGAACGAAGCGCTTGCGAACCGTGCCCTTGACGGGGTACGCGTATTTATTAGCGAGCATGAACTAAATACAATCTAA	MTDSQRVTVIGAGLAGSEAAWQIASRGVPVTLYEMRPVVKTPAHHTDKFAELVCSNSLRANGLTNAVGVLKEEMRMLNSLVIGSADRNSVPAGGALAVDRDGFSGEITETLHQHPLIEVVNEEIQHIPEEGIVVIATGPLTSPALSSQIRELMGEDYFYFYDAAAPIVEKDSIDMSKVYLASRYDKGEAAYLNCPMTEEEFDAFYDALINAEVAQLKEFEKEIYFEGCMPIEVMMKRGKQTALFGPMKPVGLVNPHTGKLPYAVVQLRQDNAAGTLYNLVGFQTHLKWGEQKRIISMIPGLENAEIVRYGVMHRNTFVNSPKLLEQTYQVKTRPNLYLAGQMTGVEGYVESAASGLIAGINAARAAQGREGIVFPQESTIGSMAYYITHADPDNFQPMNANFGLLPGLEKRIRNKKEKNEALANRALDGVRVFISEHELNTI				NA	NA	NA	NA	NA
AK002_04114	2100	topA		DNA topoisomerase 1	GTGGCGGATTCACTCGTCATCGTAGAGTCGCCTGCTAAGGCGAAAACGATTGGCAAATATCTCGGCAGCAAGTATATCGTGAAGGCTTCGATGGGTCATGTTCGCGATTTGCCGAAGAGCCAGATCGGGGTTGAGGTGGAAAACGACTTCAATCCGAAATACATTACGATCCGCGGAAAAGGTTCTGTCTTAAAGGAACTTAAGGATGCAAGCAAAAAGGTGAAAAAAGTGTACCTCGCAGCTGACCCCGATCGCGAAGGGGAAGCCATTGCATGGCATCTTGCGCATGCGTTGGAGCTGGATGATACTCAAAGCCTGCGGGTTGTATTTAATGAAATAACGAAAACGGCCGTGAAGGATGCCTTCAAAACGCCGCGCAAAATTAACATGGATCTGGTTAACGCGCAGCAGGCCAGACGTATTTTGGACCGATTGGTTGGTTATAAGATCAGTCCTATTCTATGGAAGAAAGTGAAGAAGGGTCTTTCGGCCGGCCGGGTTCAATCGGTAGCCGTCAAAATCATTCTCGACCGCGAGAATGAGATAAGCGCTTTCGTTCCGGAAGAATATTGGACCATAACGGCCAAGCTGGCGATTAAAGGCTCCGCATTCGAAGCCAAATTCACGCAGCTAAACGGCGCGAAGAAGGAACTGACCAATGAGCAGGAAGTGAATGAAATTCTCGAGGCGATTCGGGATGCCTCCTTCCAGGTCGGCGAAGTGAAAGAGCGTGAGCGTCAGCGCCACCCGTCGCCGCCGTTTACGACGAGTTCCTTGCAGCAGGAGGCTGCCCGTAAACTCGGTTTCCGTGCCGCCAAGACCATGTCGGTAGCCCAGCAGCTGTACGAGGGTGTTGAGTTAGGCAAGGAAGGCACCGTCGGTTTAATTACTTATATGCGTACGGATTCCACGCGGATCTCAGGTACGGCTCAAGAAGAAGCGAAGGAATACATCACCGAGAAGTACGGTGATCCGTTCGTGCCGGAGAGCCCGAGACAATATTCGAAAAAAGCTGCCAACGCCCAGGATGCGCACGAAGCGATTCGTCCAACGTCCGTGCTGCGCGATCCGGAATCGATGAAGCCGTTTATGAGCCGCGACCAGCTTCGGTTGTACAAACTGATCTGGGAACGCTTTGTGGCAAGCCAGATGTCTTCTGCAGTACTGGATACGCTTTCGGTGGACATCACTGCCGGGAATACGGTCTTCCGGGCGACCGGTTCGAAGGTCCGTTTCCCTGGATTCATGAAGGTTTACGTTGAAGGCAACGACGACGGGACGACAGAGGAAGACAAATACCTGCCGGAGCTTCATTCCGGAGACATTCTGGAGAAGCAGGACATTGAGCCGAAGCAGCACTTCACGCAGCCGCCTCCGCGTTATACGGAAGCGCGGCTAGTCCGAACGCTGGAGGAGCTCGGCATAGGGCGTCCGAGTACGTATGCGCCGACGCTGGAGACGATCCAGAAGAGAGGCTACGTTGCCATCGAAGAGAAAAAATTCATGCCGACGGAGCTCGGCGAGCTTGTCATCGAGCAGATGGAGCAGTTCTTCCCGGAAATCCTCAATGTGGAGTTTACGGCGAACATGGAAGAGGATCTCGACCATGTGGAGGAAGGCTCCGAGGATTGGGTCAAGGTATTGGCAGAGTTCTATGAGTCCTTTGAGAAGCGGCTTGAAGTAGCAGAGGAAGAAATGAAGGAAATCGAAATCGAAGACGAGGTTTCCGATGAGATCTGCGAAAAATGCGGCAAGCCCCTGGTTTATAAGCTGGGTCGTTTCGGCAAGTTTCTTGCCTGCTCGGGCTTCCCGGATTGCCGGAATACCAAACCGATCGTGAAGGACATTGGCGTATCTTGCCCGAAATGCAAGGAAGGCCATGTCGTGGAACGCCGGAGCAAGAAGGGGCGCGTCTTCTTTGGCTGTGACCGGTATCCCGAATGCGACTTTGTATCATGGGATAAACCGTCAACGAAGCCGTGTCCGAATTGCAGCAGTTTAATGGTAGAGAAGAAAAGCAAGCAAGGCATCAAGCTTCAGTGTACCTCTTGCGATTATTCCGAAATGGTCGAGGAACAGGATGAAGCAGCAGATTTGTAA	MADSLVIVESPAKAKTIGKYLGSKYIVKASMGHVRDLPKSQIGVEVENDFNPKYITIRGKGSVLKELKDASKKVKKVYLAADPDREGEAIAWHLAHALELDDTQSLRVVFNEITKTAVKDAFKTPRKINMDLVNAQQARRILDRLVGYKISPILWKKVKKGLSAGRVQSVAVKIILDRENEISAFVPEEYWTITAKLAIKGSAFEAKFTQLNGAKKELTNEQEVNEILEAIRDASFQVGEVKERERQRHPSPPFTTSSLQQEAARKLGFRAAKTMSVAQQLYEGVELGKEGTVGLITYMRTDSTRISGTAQEEAKEYITEKYGDPFVPESPRQYSKKAANAQDAHEAIRPTSVLRDPESMKPFMSRDQLRLYKLIWERFVASQMSSAVLDTLSVDITAGNTVFRATGSKVRFPGFMKVYVEGNDDGTTEEDKYLPELHSGDILEKQDIEPKQHFTQPPPRYTEARLVRTLEELGIGRPSTYAPTLETIQKRGYVAIEEKKFMPTELGELVIEQMEQFFPEILNVEFTANMEEDLDHVEEGSEDWVKVLAEFYESFEKRLEVAEEEMKEIEIEDEVSDEICEKCGKPLVYKLGRFGKFLACSGFPDCRNTKPIVKDIGVSCPKCKEGHVVERRSKKGRVFFGCDRYPECDFVSWDKPSTKPCPNCSSLMVEKKSKQGIKLQCTSCDYSEMVEEQDEAADL				NA	NA	NA	NA	NA
AK002_04115	1176			hypothetical protein	ATGAGGCTGGACAGATTACTGCTGGTTGCATTGCATGAAAGCGAAGGCATCGGATGGAAGACCATCAACCGAATGCTACTGAACGGCGAGCTGCATGAAGGCTTGCTGTCCTATGATGCGCAGGATTGGAGAGCGTGCGGTCTGCCTGTCGAAAAAGCAAACAAGCTGGCCAAAGAATTCCCTATCGCCGTCGAAAGAAAGCGTGTCGAACTGTCGAATGACGAGGAGGTCGAGCTTCGACAAGAGGAAGACAAGGTATGGAATTTGACAAACCGCACAAAAATACGTATTATAACAGCCCTTGATGCTGTCTACCCGGACATGTTGAAATCGTCGCCGCAAGCGCCCTGGGTTCTGTATTGCATCGGGGATCCTCATTTGCTGTCCACGCCAGGGATCGCGATGGTCGGCACAAGAATGCCTACCGGCTACGGGCGCAAGGTTGCATCGATGCTGTCTGAGGCGTTGACCCGAGCGGGGCTTATGGTTGTCAGCGGCATGGCCAGAGGCATTGACAGCGTCGTGCACGAAACCGCTTTGCGAAGCGGCGGGCCGACGGTGGCCGTTCTCGGAGCCGGCATCGATGTCATTTATCCGCCGGAGAACCGATCACTTTATGAAGAGATCGCGGCTAAAGGGCTTATTATTTCCGAATACCCGCCGGGTACCAAGGCGCTGCCGGGATTCTTCCCGCAGCGAAACCGAATCATCGCCGGGCTGACGCTGGGAACCGTAGTGGTGGAAGCGGATGCCCGCAGCGGGTCGCTGATTACGGCCGATTTGGCCCTGGAGGCGGGAAGGGACGTGTTTTCCGTTCCGGGACCGCTAACTTCACCCAAGAGCAGAGGGACCTTGGATTTGATCAAGCAAGGGGCCAAGATGGTCACGGAAGCAGAGGATATAATAGAAGAATATGATTCCTGGTTGCCAAAAGGGGTCTCGGATACATACAATAAGGAGCGGCGGGCCCCTCGTCAGGAGCGTCCGGATGAACTAGCCGGGTTGACAAATGACGAGCGACAAATATACCATATGCTCGAACAGGGTCCCGGGTCGTTGGATGAGATGATCGAGCGTACCCGGTGGGATTTTGGACATTTGCATTCAGTTCTGTTATCTTTAATCATAAAAAAGCAGATTACCCAATTACCCGGTGCTATATATAAAATCATATAA	MRLDRLLLVALHESEGIGWKTINRMLLNGELHEGLLSYDAQDWRACGLPVEKANKLAKEFPIAVERKRVELSNDEEVELRQEEDKVWNLTNRTKIRIITALDAVYPDMLKSSPQAPWVLYCIGDPHLLSTPGIAMVGTRMPTGYGRKVASMLSEALTRAGLMVVSGMARGIDSVVHETALRSGGPTVAVLGAGIDVIYPPENRSLYEEIAAKGLIISEYPPGTKALPGFFPQRNRIIAGLTLGTVVVEADARSGSLITADLALEAGRDVFSVPGPLTSPKSRGTLDLIKQGAKMVTEAEDIIEEYDSWLPKGVSDTYNKERRAPRQERPDELAGLTNDERQIYHMLEQGPGSLDEMIERTRWDFGHLHSVLLSLIIKKQITQLPGAIYKII				NA	NA	NA	NA	NA
AK002_04116	930	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	GTGAGTATTTTGATCGATAAAAATACAAAAGTTATCACGCAAGGGATTACAGGTAAAACAGCCCTGTTCCATGCAAAAGGCGCCTTGGATTACGGTACGCAGATGGTCGGCGGAACTTCGCCCGGCAAAGGCGGAACCGAAGTTGAAATCACGCTGGAGAACGGCGAAACCGTCAAACTGCCGGTTTACAACACCGTTGAGGAAGCCAAAGCCAAAACAGGCGCAACCGCAAGCGTCATTTATGTACCGCCTGCTTTTGCGGCCGACTCCATTCTGGAAGCCGTTGATGCCGAGATGGATCTGGTAATCTGCATTACGGAAGGCATTCCGGTGCTCGACATGGTAAAGGTATCCCGTTATATGGAAGGCAAGAAGACTCGCTTGATCGGACCTAACTGTCCGGGTGTCATCACGCCGGGTGAATGTAAAATCGGCATCATGCCGGGTTATATCCACACGCCGGGACATGTCGGGGTAGTATCGCGGAGCGGTACCTTGACCTATGAAGCCGTTCATCAGCTGACGGCTCGCGGCATCGGACAATCCTCCGCCGTAGGAATCGGCGGCGACCCTGTCAAAGGGACGGAGTTTATCGATGTGCTGAGACTGTTTAACGAAGATCCGAATACCAAAGCGGTGATCATGATCGGCGAGATCGGCGGAACCGCTGAGGAAGAAGCGGCTGAGTGGATCAAAGCCAACATGACCAAGCCGGTGGTAGGCTTCATTGGCGGCGCAACAGCGCCTCCAGGGAAACGCATGGGCCACGCGGGCGCGATCATTTCCGGCGGTAAAGGAACAGCCAAGGAAAAAATCGCTGTGCTTGAAGCATGCGGTATCAAAGTGGCTCCTACGCCTGCAGAAATGGGCTCGACCTTGGTTAGCGTGCTGGAAGAGAAGGGTCTGTTGGAGTCCTGCACAACGCACTAA	MSILIDKNTKVITQGITGKTALFHAKGALDYGTQMVGGTSPGKGGTEVEITLENGETVKLPVYNTVEEAKAKTGATASVIYVPPAFAADSILEAVDAEMDLVICITEGIPVLDMVKVSRYMEGKKTRLIGPNCPGVITPGECKIGIMPGYIHTPGHVGVVSRSGTLTYEAVHQLTARGIGQSSAVGIGGDPVKGTEFIDVLRLFNEDPNTKAVIMIGEIGGTAEEEAAEWIKANMTKPVVGFIGGATAPPGKRMGHAGAIISGGKGTAKEKIAVLEACGIKVAPTPAEMGSTLVSVLEEKGLLESCTTH	PGPT0001540_103	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
AK002_04117	1161	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAATATCCATGAATATCAAGGAAAACAAGTACTGAAGCAATATGGAGTAGCTGTTCCGAACGGCAAGGTAGCGTTTACGGTGGAAGAAGCAGTTGAAGCTGCGCAATCTTTGGGCAGTCCCGTAACCGTTGTCAAAGCGCAGATCCACGCAGGCGGCCGCGGTAAAGCCGGCGGCGTTAAAGTGGCGAAGAACCTGGATGAGGTTCGTGCTTATGCCGAAGAAATTCTGGGCAAGGTGTTGGTGACTCACCAAACGGGTCCGGAAGGCAAGGAAGTCAAGCGTCTCCTTATTGAAGAGGGCTGCGATATTCGCAAAGAGTACTATATCGGGGTGGTCGTTGACCGCGCTACCGGCCGTGTCGTCATGATGGCGTCCGAGGAAGGCGGTACCGAAATCGAAGAGGTTGCAGCAGCAACTCCTGAGAAAATTTTCAAAGAAGTCGTGGATCCGGCGATCGGACTTCAAACATTCCAAGCGCGGAAATTAGCGTATTCCATTAATATTCCGAATGAACTGGTAGGCAAAGCCGTTCAGTTCATGCTGGCCTTGTATAAGGCATTCGTAGAGAAGGATTGCTCTATCGCTGAAATCAATCCGCTTGTCGTAACCGGTGACGGAAACGTCATGGCTCTCGATGCCAAACTCAATTTCGATTCCAATGCGTTGTTCCGTCATAAGGACATCTTGGAACTGCGTGATCTGGATGAGGAAGACGAGAAGGAAATCGAAGCGTCCAAATACGACTTGAGTTACATAGCTCTCGACGGCAATATCGGCTGCATGGTTAACGGGGCAGGTCTTGCCATGGCTACGATGGACATCATCAAGTATTATGGCGGCGACCCTGCCAACTTCCTTGATGTTGGGGGCGGCGCAACAACGGAGAAGGTAACGGAAGCCTTCAAGATTATTTTGTCCGATCCTCAAGTAAAAGGAATCTTTGTCAACATTTTCGGCGGCATTATGCGTTGCGACGTTATTGCTACCGGTGTTGTCGAAGCAGCGAAACAGCTGGGACTGACTCGTCCGCTTGTTGTACGCTTGGAAGGAACGAACGTAGACCTCGGCAAGCAGATTTTGGCTGAGTCCGGTCTCAATATCGTGCCTGCTGATTCCATGGCCGACGGAGCACAGAAGATCGTCTCCCTCGTTCAGTAA	MNIHEYQGKQVLKQYGVAVPNGKVAFTVEEAVEAAQSLGSPVTVVKAQIHAGGRGKAGGVKVAKNLDEVRAYAEEILGKVLVTHQTGPEGKEVKRLLIEEGCDIRKEYYIGVVVDRATGRVVMMASEEGGTEIEEVAAATPEKIFKEVVDPAIGLQTFQARKLAYSINIPNELVGKAVQFMLALYKAFVEKDCSIAEINPLVVTGDGNVMALDAKLNFDSNALFRHKDILELRDLDEEDEKEIEASKYDLSYIALDGNIGCMVNGAGLAMATMDIIKYYGGDPANFLDVGGGATTEKVTEAFKIILSDPQVKGIFVNIFGGIMRCDVIATGVVEAAKQLGLTRPLVVRLEGTNVDLGKQILAESGLNIVPADSMADGAQKIVSLVQ	PGPT0019515_3038	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
AK002_04118	114			hypothetical protein	ATGACAATATTGTGGGAAAATATCTTAATTATGCTTGCAGCAGGATTGCTTGGCATTGCAATTGTGGTGTTAGGCATTATAGGTTTGATATTTTACGCGCGAAAAAACAGATGA	MTILWENILIMLAAGLLGIAIVVLGIIGLIFYARKNR				NA	NA	NA	NA	NA
AK002_04119	2241	rhaS_10		HTH-type transcriptional activator RhaS	ATGAAATGGTTGACATCGTTTTTTCCGCTTCATTCCTTGTTCGTCAAAATGTTGGTCTATTTTCTCGTCGTAATTATCCTGCTCTCCTCCTACAACCTATGGTCGATGACCTTCTATTCCCGCAATGTGAACAATGAGATCGTCAAATATAATCTGACCCTGATTCGAAACACCGTCGATAATTTCGAGAAGCAATATTCCACCTGGAAAAGCCTCCTCCTCAACCTTCAGCATAACGAATTCGTCGGCAATATCAGCAGGCAGGCCGATGCCGGCGGAAAGAAAGGAATCGATTATCTGCAGGTTGAAATGGTGACGGATCAGATTCGGACCCTGGTAAGCCAGCCATACTATCACTTGAATAATGTCATGATCTACTACCGGAATCATGCCTTTCTGCTTGAACGGGACGGCATCGTTAACGATGACCGCATGTTCAAGCACTATTACATAAGCAGTTCCTACCCGTACGAGTTCTGGAAAAAGACAGAGCGCGCGAATGGGTTTATGCAAATGCTTCCCAGCAGCGCCTTCTCCATCGGGACCGAGAAGAGCGAGGTGCAGCTGCTGCCGTTAGTCGCGGATGTGCAAGGAAGCCCCTGGCAAATCATAGCTTTCGTAAATATGAAAAGCTGGTATGAATCCTATAAAGGAATGGCCGGTTCCCGCTTCGTGCTGTTGGACCCGAAGGGAACGAAACTGTATGAATCCTCGCCGGACGCGGCTTCCCAGCCGCTGCCGGTATGGGATGGCCAGTCGGATTGGATCATGGAGAAGGGATCGTACTATTTTTTCGAAAAAGGGGCACGCTCCGGTCTTACCTATATCTCCATCATTCCGCACAGCGAACTTAATCAAAGCATCAGCCGCATGAACTGGATTGCCGTGCTGTTATTTGCCGCTACGCTGCTAATAGGCACGTTGGCATCGTGGATCTTCTCTCGCAATATCAACCAACCGCTGAAGAGAATGGTGACGGGGCTGGGCCAAACGGAGATGGAGCTTTATCAAGGAAGCATCGCCGAATTCAGCGCCATTTCCAACCACCTGAAGGGATTGCAGCACGAGCGCAAGATGATCAAGGAATGGATGGACCAAACCAAACCGCTCTTAACCAGCTATCATTATTTGGCACAGTTCAAGAACATTGCCATCGATACCGCCGCTTCCAAAGAACTTTGGGTCGGCGAAGGAGCATTCATGGTCATTGTCTATCAATTGAGGTACCGTCATAACCCGACTCAAAAGCTTGATGCCTTGATGACACGGGCAACCGGCAAAATCAAGGACATCATCACGCTGCAGATCCAAGAGGCTTTTCCCTTATCGCACACCCTTCAGATGGAGGGCAAACAAATCTTATCCATCGTGTACACGCAGGAAAAATCAGACACGCTGCAGCAGAGCCTCACCCAGCTCAAACGGATTTTTGATCACGATCAAAGCACCTATCTCGTGAATATCGCGGTTTCATCCGTCTTCCAGCAAACCTCGGAGTTCGATCAAGCCTATGCGGAAGCCATGTCGTTCCTGCTTCAAGCCAGGCCGCTTGAAGAAACCCAGATTATTTGGGAGAAGGAACTCCGCGGCGATGTTACGGGCTTCACAGCCGAGCAGGAACACGAGTTTTACGTGAATTTGCAGGCGGGCAACGAGAGCAGCTGCCAAATGCTGATCGATCGGGCATTGGAACGGTTGCAGCGGCAGGAGGCTACGGCGGATCAGCTGAGCCATTTTGCCAATTCGGTCTCGGTCCGCATGAGAAGAACCGTAGAACTGCTGAAGATCAATACCGACGTGCTTCCGAATGATGCCGATATGCTTGCATACAGCGTAACTCCCGACCAATACCGGGAAGTCCTTCTCGACGAGCTCTCCCATGCAACCCAAGCGATCCGCCGGAAACGGGAGGAGCATTACGATATCATCCAATATGTCATTCAGTACCTGGAGTCCCATTACAACGAAGAAATATCGCTCGAGCAGCTTGCTTATAAACTCAACATGTCACCCACCTATCTGTCCGGGTATATTAAAGAGAAGACGGGGAGTAACTTCAGCGACCAATTGAATGCCATCCGGATAACAAAAGCAAAAGAGCTTCTGGAGACGACGAACATGCCGATTCAGGAAGTAGGCAACCGGATCGGCTACCGCAACGTCACTTCCTTTATCCGCATGTTCAAAAAAATAACCGGCCAAACACCAGGCGATTACCGGAAGACCAATTGGATCCGGTAA	MKWLTSFFPLHSLFVKMLVYFLVVIILLSSYNLWSMTFYSRNVNNEIVKYNLTLIRNTVDNFEKQYSTWKSLLLNLQHNEFVGNISRQADAGGKKGIDYLQVEMVTDQIRTLVSQPYYHLNNVMIYYRNHAFLLERDGIVNDDRMFKHYYISSSYPYEFWKKTERANGFMQMLPSSAFSIGTEKSEVQLLPLVADVQGSPWQIIAFVNMKSWYESYKGMAGSRFVLLDPKGTKLYESSPDAASQPLPVWDGQSDWIMEKGSYYFFEKGARSGLTYISIIPHSELNQSISRMNWIAVLLFAATLLIGTLASWIFSRNINQPLKRMVTGLGQTEMELYQGSIAEFSAISNHLKGLQHERKMIKEWMDQTKPLLTSYHYLAQFKNIAIDTAASKELWVGEGAFMVIVYQLRYRHNPTQKLDALMTRATGKIKDIITLQIQEAFPLSHTLQMEGKQILSIVYTQEKSDTLQQSLTQLKRIFDHDQSTYLVNIAVSSVFQQTSEFDQAYAEAMSFLLQARPLEETQIIWEKELRGDVTGFTAEQEHEFYVNLQAGNESSCQMLIDRALERLQRQEATADQLSHFANSVSVRMRRTVELLKINTDVLPNDADMLAYSVTPDQYREVLLDELSHATQAIRRKREEHYDIIQYVIQYLESHYNEEISLEQLAYKLNMSPTYLSGYIKEKTGSNFSDQLNAIRITKAKELLETTNMPIQEVGNRIGYRNVTSFIRMFKKITGQTPGDYRKTNWIR				NA	NA	NA	NA	NA
AK002_04120	864	araQ_43	COG0395	L-arabinose transport system permease protein AraQ	ATGAAACCCAAATGGAATTGGTTTGACGCCCTGAATGCCTTGATATTGACAGGGGTCGTAGGGGCGTGTTTATACCCGTTTGTCTACATGCTGGCCGTGTCCCTCAGCGATTCCGCCTCCATTGCCTCGGGGGAGGTCTGGCTGTGGCCGAAGGGCTTCAACCTGGATATGTATCAGTATGTGTTCGAGGACGGGCGCGTGCTGAAAGGATATAAGAATACGCTGATTTATGTCGTTCTTGGTACGGCAATTTCCTTGATGGTGACGGCGCTCGGAGCCTATTCGCTCTCCAAGGCCAAGCTGGTCATGGGTAAACCGATATTGATGCTGATCGTGTTTACGATGTTTTTCAACGGAGGCATGATTCCGACGTTTCTGGTCGTGAAGGAGCTGGGCTTTGTCAACACCATATGGGGCATGGTGCTGCCCGGAGCCGTAGCCACCTGGAATCTGCTGATCATGCGGACTTTCTTCATGGGGATGCCCCAAGAGCTTGAGGAATCCGGCAAAATCGACGGTCTGTCCGAGATCGGAATTTTCTTTCGGATTGTGCTTCCGCTCTCCAAGCCGGTGCTCGCCACCATCGGATTGTATTATGCGGTAGGGATGTGGAATAACTTCATGGGTCCGCTCCTGTACTTGCGGGATGCCGATATGCAGCCGCTGCAGGTGATATTAAGAAACATCGTGCTGTCGGGCCAATTGACGGGAACGGATGGGCCTGTTGTAGGCGATATCGTGGTGGTGGAGGATGGTCTGAAGTTCGCTACCATCATGGTGTCCACCCTGCCGATCCTGCTGGTTTACCCGTTTATCCAGAAATATTTCGTAAAAGGAGCTCTGATCGGCTCCGTCAAAGGTTAA	MKPKWNWFDALNALILTGVVGACLYPFVYMLAVSLSDSASIASGEVWLWPKGFNLDMYQYVFEDGRVLKGYKNTLIYVVLGTAISLMVTALGAYSLSKAKLVMGKPILMLIVFTMFFNGGMIPTFLVVKELGFVNTIWGMVLPGAVATWNLLIMRTFFMGMPQELEESGKIDGLSEIGIFFRIVLPLSKPVLATIGLYYAVGMWNNFMGPLLYLRDADMQPLQVILRNIVLSGQLTGTDGPVVGDIVVVEDGLKFATIMVSTLPILLVYPFIQKYFVKGALIGSVKG	PGPT0017255_2819	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04121	918	yteP_46	COG4209	putative multiple-sugar transport system permease YteP	TTGCAAGCACGGCATTCGAGTTTCTTGACCAAAGTGAAGCGGGATAAATACCTGCTGCTGCTGCTTCTTCCCTGTGCTCTGTATTACATCATTTTTAAATATGTTCCCATATTCGGCGTTTCGATCGCCTTCATGGACTACAACTTGTTTAAGGGAATCGCGGAGAGCGACTGGGTGGGGTTCAAATATTTCAGCATGTTTTTTAATACGCCCGACTTCTGGCCTGTTCTCCGGAATACTTTTCTGCTGGGGTTGTATAAGCTGATTTTCGGCTTTCCTGCACCCATCATCCTTGCGTTACTCATTAATGAAGTGAGCAAATCTTTCTTGAAGCGGTTTGTCCAGACGGTCAGTTATCTTCCGCATTTCATATCCAATGTGGTTGTCGCGGGGATCGCGGTCATGTTTCTGTCGCCTACAGGCGGGGTGGTCAACCAGCTGCTGAATGCCATTGGGCTTGAACGGATCAACTTTCTGGTGGAAGCCTCCTGGTTCAGGTCGATTTATGTAACGACGGACGTATGGCAGCATATTGGGTGGGGGACCATTATCTATTTGGCTGCATTGACGGCCATCGATCCGCAGCTCTATGAAGCGGCGCGCATGGACGGAGCGAACCGGTGGAGACAGACGCTGAACATTACGCTGCCCGGCATCGCCCCGGCGATTGTGATCATCTTGATACTCGATATCGGAAAAATATTGGAGATCGGCTTTGAGAAGGTATACCTGCTTGCAACTCCCGCTACGTACGAGACGGCCGATATCATATCTACTTACGTATACAGAGTAGGCTTAACGCAAGGCAACTACAGCTATGCAACGGCGATCGATCTGTTTACCGGCATCATCAGCTTTATTTTCATTATCGCGGCAAATGCGTTCAGCCGGCGAGTCAGCGGAAGCAGCATCTGGTAG	MQARHSSFLTKVKRDKYLLLLLLPCALYYIIFKYVPIFGVSIAFMDYNLFKGIAESDWVGFKYFSMFFNTPDFWPVLRNTFLLGLYKLIFGFPAPIILALLINEVSKSFLKRFVQTVSYLPHFISNVVVAGIAVMFLSPTGGVVNQLLNAIGLERINFLVEASWFRSIYVTTDVWQHIGWGTIIYLAALTAIDPQLYEAARMDGANRWRQTLNITLPGIAPAIVIILILDIGKILEIGFEKVYLLATPATYETADIISTYVYRVGLTQGNYSYATAIDLFTGIISFIFIIAANAFSRRVSGSSIW	PGPT0017250_2289	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04122	1629			hypothetical protein	ATGAGCAGCTCCGGCAGGTACAATCAAAACCGTAAACGTCAAGACGGGTTGAGCGTCGAGCGTTACATTATCATACATAAGGGAGAGGGTTGCGTGAAAATTTGGAACCGAAAGCTGGGGCTGGCGGCATTGGCTGCCGTTATGACCGGCGCATTGCTGAGCGGCTGCTCGAAAGATAACGCGGCAAACGAGGGGAATCATGAAAGCGCTGATACTGGGAAGGAAATCACGTTAGAGATGATGACCTTTTCCCATACGAATTGGCCGTACAAGGAGAATTGGCCGATTTATAAGTATTTAAAAGAGGAAACCGGCATCTCCTTCAAGGTACAACCCGTCATGAGCGATTATACGACCACGATGAACCTGGCGATATCTTCGGGCGAGATCCCGGATCTCATGATGGTCAACAGCCTGAATGCCGCCAACACGCACGGAGCCAGCGGAGCGTTCGTCGACTATTTCGAGCATCTGGATCAGATGCCGAATTACAAGAAGTTTCTTGATGATCATCCGGAGGTAAAGGCTGCTATTCTGTCTCCCGAGGGAAAAAATTATTTTATGCCGTTGTACGGACTTGAGCAGCAATCCAGGCGTTCCTGGCTTTACCGGGACGATATATTCAAGAAACACAATCTGACGCCGCCCACTACTTACGACGAGCTGTATACCGTTGCGAAAAAGTTGAAGGAACTGTATCCGGACAGCTTCCCGATTGCCGTGTTCAACGGATTGAGCCCGCTGGTTAATATGGCACCTGCGTTTAATACCAACAGCAGCTATTATTACGATTTCGAGAAGAACGAATGGCGCTACGGACCGACAGAAGACAACTACAAGAAAATGGTCGAATACATGAATAAATTTTACGCGGAGGGCTTGGTTGCGCCTGACTTCATGGCACATAAACGCAAGCAATTTAACGATCTGCTGCTTCAGAACAAATCGTTTATCGCCAGCGACTACATTGGCATCATGGATGAACTCCCGTTGATGCTGGGGGATGCAACGTCTGAGTTCAGCCTTGATTACATGGTTCCGCCTATCGGCACGCCGGATGGCAAGTCCCATAACGTATTTGCCGGATTGCAGAGTGACGGCTTTGCCGTAGCGTCAAATTCCAAAGAGCGGGATCGACTGCTGCAGTACCTTGATTTCCTGTTCTCCCCCGAAGGAATTGAGCTGGCAACCTGGGGCAGGGAAGGCGAGACGTTCACGACGGAGAACGGGGTTCGCACGTTCAACGATGATTACAAAGAGTTTGGCGACTTAAGGACCAAAACGGGAATCGCGACGGTCGGGGCTCACTTGGTATTGGACATGACCGCATACGAGTCCATGTATTCACCAAAAATGCGGGAAGCGATGAAAATCGCACCAGACCATGAAACGAAGCCGCAGCCAAGGCTTGCGTATACGAATGAAGAGAATGAAGTGCTGAGCATGGTCGGCGAAACCGTGAAGAAGTTCCATGAGGAGCAGATTGCGAAATTCATTTTGGGACAGAAACCGATGGATGAATGGGACACTTACGTGCAAGAAGTGAACAAACTTGGCGTGCAGCAGGTGCTGGATGTTCATCAAAGCGCTTATGAACGGACGCAGAAATTCCTGAACGAAGCCAAGTAA	MSSSGRYNQNRKRQDGLSVERYIIIHKGEGCVKIWNRKLGLAALAAVMTGALLSGCSKDNAANEGNHESADTGKEITLEMMTFSHTNWPYKENWPIYKYLKEETGISFKVQPVMSDYTTTMNLAISSGEIPDLMMVNSLNAANTHGASGAFVDYFEHLDQMPNYKKFLDDHPEVKAAILSPEGKNYFMPLYGLEQQSRRSWLYRDDIFKKHNLTPPTTYDELYTVAKKLKELYPDSFPIAVFNGLSPLVNMAPAFNTNSSYYYDFEKNEWRYGPTEDNYKKMVEYMNKFYAEGLVAPDFMAHKRKQFNDLLLQNKSFIASDYIGIMDELPLMLGDATSEFSLDYMVPPIGTPDGKSHNVFAGLQSDGFAVASNSKERDRLLQYLDFLFSPEGIELATWGREGETFTTENGVRTFNDDYKEFGDLRTKTGIATVGAHLVLDMTAYESMYSPKMREAMKIAPDHETKPQPRLAYTNEENEVLSMVGETVKKFHEEQIAKFILGQKPMDEWDTYVQEVNKLGVQQVLDVHQSAYERTQKFLNEAK	PGPT0017245_1641	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04123	1614	comM	COG0606	Competence protein ComM	ATGTATGGAAAACTTCATAGCGCCTGCTTGCACGGCATTGACGGCGTCATCATTCAAGTGGAGGTGGACCTCGCTAACGGGCTGCCGCAAACCGCCATCATCGGGCTGCCCGATTCCTCCATCCGCGAATCCGTCGAGCGAGTACGGGCAGCGATTAAAAACTGCGGTTTTACTTATCCACTGAAACGGGTGACCGTCAATCTTGCCCCTGCTGACCTGCGCAAGGAAGGTTCCTCCTTCGATCTGGCGATCGCCGTCGGCATTTTGCTGACAAGCGAGCAGTGGGCCTTCTCGAATGCCGATCGAATATTGATCATCGGCGAGCTTGCACTCGATGGCACGCTCAGGCCCGTGACGGGAGTTCTTCCGATGGTGGAGCAAGCTCAAAAAGAAGGGTATGCCGGCGTTCTTCTTCCGCGGGAAAATGCGGCGGAAGCAGCTTTAATCGGAGGAATCGAGGTCTATGGGCTCGGTCATTTGAATGAGCTCGTCCCGAATCCACCAGCAGAAACCACTCGCCGTAGTGATGCTGCAGGAGATGGTACTGTTACCGTTTCGCTCTCACAGCTCAGGTATGACCGATCGATGAATGCAAGCAGATCGCAAGAAGGCAGCCATCAGGGCAGGCAGCTTGAAGACTATAGGGACGTGATCGGGCAGCAGCATATCAAACGCGCCCTGACCATCGCCGCGGCCGGCATGCACAATATCCTTCTCATCGGGCCCCCTGGTACCGGTAAAACGATGCTGATGAAGCGCCTCCCGACCATACTTCCGCCGCTGGCCGACCAAGAAGCGTTGACGACAACGAAAATATTCAGCGCTGCCGGGAAGCTAAAGCCCTCCGTTGGACTGATGAAGAGACGTCCCTTCCGCTCTCCCCATCACACCATCTCAGCCGGCGGCCTCATCGGAGGAGGAACCATTCCGAAGCCGGGAGAGGTCAGTCTGGCCCATAAAGGAATTCTGTTCCTGGATGAGCTTCCCGAGTTCTCAAGGCATGTGCTGGAGGTGCTGCGTCAGCCTCTGGAGGATCGTGAAGTGACCATAAGCAGAGCGCGGGCGGTTTTTACCTTCCCGGCGCATTTCATGCTGGCTTGTTCGATGAATCCCTGTCCGTGCGGTTACTACGGCAGCGACCATCCTCATCAGCGATGCACCTGCAGCGTTTCCCGGATCGCCCAATACCGGGCGAAAATCTCGGGCCCCTTGATGGACCGAATCGACCTTCAAGTGGACGTGCCTCGGCCCAAGGAATGGCCGGGAAGCACGCCGCCCCTATCCTCCGAGCACATGCGGGATCAGGTCTATGCGGCACAAGCGATTCAATTGAAACGCTATGACGGGCTCCCATTCAGCTGGAACAGTGAACTGTTCGGCAGCTTTCTGAGAAAACATGCGAGGCTGGACAAGGAGTCGGCAGAGCTCCTGCAAGCAACCATCGATACGCTGGGCCTGAGCATGCGCGCATATGACCGAATCCTAAAGCTGGCCCGAACCATCGCCGATCTCGAGGCATCCGACGGCATCCAAAGCCGGCATGTCGCCGAAGCGATCCAATACCGACAACTGGATCGTCAATATATAGCAACCGAAGAAACCCACCGTTTATGA	MYGKLHSACLHGIDGVIIQVEVDLANGLPQTAIIGLPDSSIRESVERVRAAIKNCGFTYPLKRVTVNLAPADLRKEGSSFDLAIAVGILLTSEQWAFSNADRILIIGELALDGTLRPVTGVLPMVEQAQKEGYAGVLLPRENAAEAALIGGIEVYGLGHLNELVPNPPAETTRRSDAAGDGTVTVSLSQLRYDRSMNASRSQEGSHQGRQLEDYRDVIGQQHIKRALTIAAAGMHNILLIGPPGTGKTMLMKRLPTILPPLADQEALTTTKIFSAAGKLKPSVGLMKRRPFRSPHHTISAGGLIGGGTIPKPGEVSLAHKGILFLDELPEFSRHVLEVLRQPLEDREVTISRARAVFTFPAHFMLACSMNPCPCGYYGSDHPHQRCTCSVSRIAQYRAKISGPLMDRIDLQVDVPRPKEWPGSTPPLSSEHMRDQVYAAQAIQLKRYDGLPFSWNSELFGSFLRKHARLDKESAELLQATIDTLGLSMRAYDRILKLARTIADLEASDGIQSRHVAEAIQYRQLDRQYIATEETHRL				NA	NA	NA	NA	NA
AK002_04124	444	yiaC	COG0454	Peptidyl-lysine N-acetyltransferase YiaC	ATGATGATCAGACAGATGACCAATGAAGATCTAAATGACCTTATCGAAATATGGCTAGCCGCTTCCAAAGAGGCCCATCATTTTATTCCGGCCGAGTATTGGGAATCCAAGCAGGGGGACATGCGGGAGGTATACCTCCCGATGGCCGAAACTTATCTATTGGAGGAAACAGGTCAAGTCCGGGGCTTTGTTTCCCTTGTAGGCGAGGATTTAGCGGCATTGTTCATCGATCCAAACCGCCAAAATCAAGGATGCGGAAAAGCCCTTCTTCGCTATGCCATGGACCTTCGAGATACGTTGAAGCTTCGGGTATATGCGGATAACCAAAGGGCACTCCGCTTCTACGCGAAGAACGGTTTTGAACGCCTTGAAGAAACCGTGGATCCCGATACAGGGCAACAAGAGCATATTATGATCTGGCGCAAGAATAAGGACGAGAGGTAG	MMIRQMTNEDLNDLIEIWLAASKEAHHFIPAEYWESKQGDMREVYLPMAETYLLEETGQVRGFVSLVGEDLAALFIDPNRQNQGCGKALLRYAMDLRDTLKLRVYADNQRALRFYAKNGFERLEETVDPDTGQQEHIMIWRKNKDER				NA	NA	NA	NA	NA
AK002_04125	357			hypothetical protein	ATGAGCGTTTCCATATTTCAGCATATTGACACCGTCTTTGTCCCCACGAGGAATATAAAAGCCGCTAAAGAATGGTACACAGGCGTTCTTGGGGGCAGAATCGGCTGGGAGAGCGAGCAAGGGGAGTATCAATGCATTCTGTTCGGACAGACCTCCCTTACCCTTTTCTCAACAGAAGAAGAGAGATACTTTGAACGCCGGCATGCCATGTTTAATTTTTTCGTTCCGAATGTGGAGGACGCATATCGGCATCTGAGGAAACAAAACGTACGGGTCGATACCATCCTGGAATACGGCGCAACCTATTTTACATTCTATGACCTGGACGACAATTGTCTGGAAGTTTGCTCGTATTAA	MSVSIFQHIDTVFVPTRNIKAAKEWYTGVLGGRIGWESEQGEYQCILFGQTSLTLFSTEEERYFERRHAMFNFFVPNVEDAYRHLRKQNVRVDTILEYGATYFTFYDLDDNCLEVCSY				NA	NA	NA	NA	NA
AK002_04126	384			hypothetical protein	ATGACCTCTCCATCCGGAAAAAAGGACAACCGCAAGCAAAAAGGAGCGGCTGCCGAAGAACTCGCGGCCGCCGCCCTGATTCAAAAAGGATATCGGATTCTGGACCGGAACTGGCGCTGCCGTTTTGGAGAATTGGACATCGTGGCGGAAACAGGGAAGACTCTTGTGGTGATCGAGGTAAGGAGTCGGAGCGGTACGACCCGCTTCGGCACGCCTTCCGAGTCCGTGAACGCCCGCAAAGTGATGCAGGTCCGAAACACGGCCCAGCAGTATGTTCACCAGAAGCGTTATTATGAACGGACGATACGGTTCGACGTCATTTCGGTTATGCTCCGGGAAGACATGACGGCAGATTCGATGGATCATATCGAGAATGCATTTTAA	MTSPSGKKDNRKQKGAAAEELAAAALIQKGYRILDRNWRCRFGELDIVAETGKTLVVIEVRSRSGTTRFGTPSESVNARKVMQVRNTAQQYVHQKRYYERTIRFDVISVMLREDMTADSMDHIENAF				NA	NA	NA	NA	NA
AK002_04127	315	flhB_2	COG1377	Flagellar biosynthetic protein FlhB	ATGAGCAAGCTAGAGAAAGAGGAAGGACCAATCCCTGCGATGAAAAAGGCGGTGGCGCTTAAATATACGCCCGGTGAAAGCGAAGCGCCGGTTGTGGTTGCCAAGGGACAAGGCAAACTGGCGGAGTCTATATTGGATAAAGCCAAAGAGCATGGCGTTCCCGTGCAGGAAGACGCAGCCTTGGTGGAGATTCTCTCCAAGCTGGATCTGGATCAGCAGATCCCGGAGGAGCTGTACCAGCTGGTTGCGGAAGTGCTGACGTATGTTTATCGTGCGGATCGCCAAGCGAAGGACGGAGGGATGATGCCGTCATGA	MSKLEKEEGPIPAMKKAVALKYTPGESEAPVVVAKGQGKLAESILDKAKEHGVPVQEDAALVEILSKLDLDQQIPEELYQLVAEVLTYVYRADRQAKDGGMMPS	PGPT0029865_421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0029865-flhB2-K04061	NA	NA
AK002_04128	2031			hypothetical protein	GTGAACATCGGATCGTTGATTCGCGGACTCCTGGGCGAGCAGAAGCCGGGAGACGCCAAAGCGTTGGAACTTAAGCCGGGTCAGGTCGTTCGCGGTGTCGTTATGAACGTATCGGAGGGCGGGCAGGAAGCGGTGGTGCAGATCCAGGGCGTTCAAGTGAAAGCGAAGCTGGAAACGCCGCTCCGAGCCGGGGAAACGGCTCTGCTGCAGGTTCAGCCGCCGGGAGAGGGAGGGACAGCGGTGCTTAAGCCTCTCAGCCAAACGCCGGGACAGCCGTTGTCCCCGTCATCCATGGCGGAGGTGCTGGATTTTGCGGGTCTTCCGGATACGAAGGAAAACCGCGAAATGATCCGGGGCATGCAGAACGCGGGAGTTCCCCTGACGAAGGACAATATTGCCATGTTCCGAGAGGCTTTGGCCGTAAAGCCTCCTCAGATCCCGGCTGCGGAATGGGCGGAGTCGGCTGCGATCGCGTTTCACCGCGGACTGCCGATTAGCCCTGAAAGCGTAAAGGGACTGCATCAGGCCGTATTCGGACCCCAGCTGCATCAGCTGCTGCAGTCGCTGGAGCAGCAGCTGACGTCTGCTCTAAGCAACGGTAACGGAGGCGCAGCGGCTGCCGGGAAAAATGCAGCGTCCGCTGCGCCTTCGACGGCAGCTGGCGCAGAGGGTACCGCTGCCGCGCAGCAGCAAGCAGCAGCGGCGAACAACGCTGCTGGAGGTACCGCGCAGACCGGCTCAGGTCAGCAGGCGCTGCTGACCAAGCTGCAGGGCCTGCTGCAGCAGCTGCGCGGCGAGCTCGCGCAGCCATGGGCCAGCGGCGGCACGACAGCGCCTGCCGCCGGACAACCCGCCGCCGTGCCCACGGGGCCGGCGGCAGCTCTTGGCGAAGGGGCCGCAGGCCCTTCGCCAAAGCCGCCCACCCCCGGCGCGGAGCCGTGGGTGGGGCGGCTCTTGAAGCTGCTCGGTGCGGAGCACGAGCAGCAGGCCCTGCGCGGGGCCGGGACGGGCCCCGCGGGCGAAGCGGCGCGTGCGGGCAGCACCGCGCCGGCAGCGCCAGCCGGGCAGCCTGCGGCGACGCCCGGAAGCGGCACGGCTGCGGGCACGGCTCACGGCGCTGCCGCGCCCGGAGCGAATGCGGCCGTGCCTGCGTCGGCAGCTGCTCCAACGGCAGCTGGCGCGGCTGCACCGGCTCCGGGCGCAGCCCAGCCAACCGCTGCTGCGGCTGCCCAAGCTTCCCTGCCCGCCACTCCTGCCCCTGGCAGCGGTGGCGCAGCAGCGATTACGCCAGGAGCTTCCGCCACGCCAGGGAATGCGGCGAATGCGAACCAGCAGGCGCCGGCTGTTCCGAATGCTCAGGCCGGCGCCGCGAATCAGCCTGGCTTGACGCAGCCGGTAACGCCAACGGTGCAGCAGCAAATAACCCAAGGCGTACATCAGGCCGCCATGGCTTCAGGGCCATCAGGGGATTCGTCGCTTGCCCTGCAGGATACGCTGAAAGGGGTACTGCTTCAGGTGCTGTCCGGCCAGGATACGCCTCCGGCGCTGAAGGAAGCGGCTCAGCAGGTCGTTCAGCATTTAACGGGCCAGCAGCTTTTGCTGAATACCGATCGAACGGCGCCGTTCGCACAGGTCACGCTGTTCATACCTTTGCATGGCGCCGACGGGGAACAGACTGCGTCCGTACATATTCAATCCCGCAGAGGCCGCAAAGGCGAGCTGGATGCAACCAACTGCAGGCTGTTGTTCGACCTGGACATGAAGTTTCTGGGGCCGACCTTGATCGATGTGAAGGTTGTTGACCGGATCGTCAGCCTTAACTTTCGGAATGATCAGCCATTTGCCGCGGAGCTGTTCGAAGGGACCAAGCAGGAGTTGGCACAAGCCGTTTCGTCGATCGGCTACCAATTGCTCAGTGTCAAAACAGAACCGCTGCCCCTGGATTCGCTGCCGGTTGCAGAAGATTCCGTGCAGGGAACGGCAGCCGAATACACCCCTCAGGTTTATAAAGGGGTGGACATGCGGATATGA	MNIGSLIRGLLGEQKPGDAKALELKPGQVVRGVVMNVSEGGQEAVVQIQGVQVKAKLETPLRAGETALLQVQPPGEGGTAVLKPLSQTPGQPLSPSSMAEVLDFAGLPDTKENREMIRGMQNAGVPLTKDNIAMFREALAVKPPQIPAAEWAESAAIAFHRGLPISPESVKGLHQAVFGPQLHQLLQSLEQQLTSALSNGNGGAAAAGKNAASAAPSTAAGAEGTAAAQQQAAAANNAAGGTAQTGSGQQALLTKLQGLLQQLRGELAQPWASGGTTAPAAGQPAAVPTGPAAALGEGAAGPSPKPPTPGAEPWVGRLLKLLGAEHEQQALRGAGTGPAGEAARAGSTAPAAPAGQPAATPGSGTAAGTAHGAAAPGANAAVPASAAAPTAAGAAAPAPGAAQPTAAAAAQASLPATPAPGSGGAAAITPGASATPGNAANANQQAPAVPNAQAGAANQPGLTQPVTPTVQQQITQGVHQAAMASGPSGDSSLALQDTLKGVLLQVLSGQDTPPALKEAAQQVVQHLTGQQLLLNTDRTAPFAQVTLFIPLHGADGEQTASVHIQSRRGRKGELDATNCRLLFDLDMKFLGPTLIDVKVVDRIVSLNFRNDQPFAAELFEGTKQELAQAVSSIGYQLLSVKTEPLPLDSLPVAEDSVQGTAAEYTPQVYKGVDMRI				NA	NA	NA	NA	NA
AK002_04129	618	rnhB	COG0164	Ribonuclease HII	ATGACAGATTTATTAATGTACGAGCGAGAGTATTGGAGCCGTTATATACATATTGCAGGCATCGACGAGGTCGGCCGCGGCTGTTTGTTCGGCGATGTGGTCGCTGCGGCGGTCATTATGCCGGAGGGGCTGGTCATTGAAGGAATTAACGATTCGAAGAAACTCAGTGCCAAGAAGCGGGAAACCCTTTACGACCTTATCATGGAGCAGGCGTTGGCGGTCGGCGTCGGTTTGGTGGATGCGGAAACGATTGACCGCATTAACATCAAACAAGCCGCAAGACTTGCGATGAAGAAGGCGATTGAGCAGTTGGCCGTTCCCCCGCAGTTTCTGCTTGTTGATGCCGAGAAGGTGGATTGCGATATTCCCCAGCGTGCCATCATTAAAGGGGACGCCAACAGCCAGTCCATTGGGGCAGCCTCCATCATAGCCAAGGTCACCCGCGATAGGCTGTGCGAGGGGGAATGGGAGGCGCGTTATCCGGAATACGGAATCGCCGTACATAAAGGCTATGCTACCAAGTTTCACCGGGAACAGCTGCAGCTGCACGGACCTACCGCCATGCATAGAAGAAGCTTTTTGAAAAATATGGAGATTGAGCAATTGTCCTTGTTCTAG	MTDLLMYEREYWSRYIHIAGIDEVGRGCLFGDVVAAAVIMPEGLVIEGINDSKKLSAKKRETLYDLIMEQALAVGVGLVDAETIDRINIKQAARLAMKKAIEQLAVPPQFLLVDAEKVDCDIPQRAIIKGDANSQSIGAASIIAKVTRDRLCEGEWEARYPEYGIAVHKGYATKFHREQLQLHGPTAMHRRSFLKNMEIEQLSLF	PGPT0017710_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
AK002_04130	3816			hypothetical protein	ATGAAATTATCGCAAGGCATACATACGGTGTTGCTGCGCACGATGTCTGCGATCACGATGACCTTGTTGCTGGCGACAAGCGTCATTCCGGGTTCGGCATGGGCGGCGTCAGCGATCCAAGAAGAGAATGCAGTTTTAAAGGAGAAAGGAGAAACCGACATTTTTGAAAGCGCATCCAATGTAAATACCAACCTCGAGGGGTGGCAGTTGAAAGGCAGCGGCAGAATGGAACAAACGGCAGAAGGTTTACGGCTTAGCTCCGATTCAAGTGAGAATGCAGCGGCAATCTCCGCAACCAGAGCGGATGATTTTGTCTATGAAGCCGATGTGATGATTACGAATATGCAAGCAGATGCTTCGCTGGTCTTTCGTTCAAGCGATGACGGCTGGTCGTCGTATATGCTGCAAATCGTGCCCAGCGCAGGTTTGGTTCGCCTCAAGGATGCCCGCGAAGGGAAGGGAAGATTGAAGGTGGAAAAAGCGGTCGCATTGAGCCAAGGGGAAATCGTTCACCTTAAGGTCAAGGTGGTAGGCGGCAATATCAAGGTATATTGGGGAAGCCAATATGAACCGATGATTGAAGTCGATGATACGGCTTATTCCACAGGATACCTGGGTCTTCATGTGTGGGACGGCTCCGCCCTCTTTCAGAATATCAAGGTGAGCGAGTGGAAAGGCAACCTGTTCGGTCCGGCAGCTACGAGCGGGGAATGGCAGCCTGACATCAAAGGGCTTAAGGGGTCGGCATCGGAGGGGCACGAAGCCCACAAGATCTATAAGAATGCGGCTGCGGATTATGTGCTGGAAGGCAATATCACCTTAGGGGGACAGGCTGAAGCGGGGTTCTATTGGAGAGGGAACGATCAAGGAACGGAGGGATACGAGGCCGTATTCAGGAGAGAGGATGATCAGGTGCGGGTAACGCTGGAAACTTCGGATGGAAAGGTGATCGGCGCATCGAGCCGTACCTACCCAAGCCTGCCCACAAGTGCGCATCATGTGGAGATCCACGTCTCCGAAGACAGCATTCAAATCGCTGTAGATGGTTACGAACCCGCTGCGATCCGCGTATCCGACAGTAGTTACGCGGGCGGATCGATCGGGATGAAGGTAAAGTCCGGAACGGCATACTTTCAGGACGTGTACGTAACCCCAATGGCGGATTATTATACGGAGGAATACCGCCCGCAGTATCATTATAGCCCAATCCGAGGCTCGGCAAGCGATCCGAACGGATTGGTCTATTTCGAAGGGGAGTATCATCTCTTCCATCAGGACGGAGGCCAGTGGGCGCATGCGGTAAGCCGGGATCTGGTGCATTGGAACAGGCTGCCGATCGCGCTGCCTTGGAACGATCTCGGACATGTCTGGTCGGGTTCCGCCGTTGCCGATACAACGAACGCTTCAGGTCTGTTCGGGGATTCCGGAGGCAAAGGACTCATTGCCTACTACACATCCTTCAATCCTGATCGGCCGGGCGGAAATCAGAAGATCGGACTTGCTTACAGCACCGATCACGGACGGACCTGGACGTATTCGAAGGAACGGCCGATCCTCATCGAGAACCCGGGCAAACAGGGCGAGGATCCGGGAGGATGGGATTTTCGCGATCCCAAAGTGGTTCGGGATGAAGCCAACAACCGCTGGATCATGGTGGTATCAGGGGGAGACCATATCCGCTTCTATATCTCCGACAATCTTGTCGATTGGACCTTAACGGACCGTTTCGGGTATGGGGAATATATCCGTGGAGGCGTGTGGGAATGCCCGGATCTGTTTCAGCTTGCCGTGGACGGCTCCGGTCAGCGCAAATGGGTGTTGATGATCAGCAGCGGCGCTAATCCGAACACCCAAGGCTCCGATGCGGAATATTTTATCGGCGATGTGACGCCAGACGGCAAATTTATGAATGATCATACGGCGGGGACCGTGCTGAAAACGGATTGGGGCAAGGAATTCTACGCCTCCATGTCCTTCTCCGACCTGCCGGACAATCGAAGAATCATGCTGGCATGGATGACGAACTGGGATTATCCCTTCAATTTTCCGACTTCGGGCTGGAAGGGTCAGCTGACCATCCCTAGGGAGTTGTCGCTCAGAACGACGAGTGAGGGAATACGTCTGCACCAGTCTCCAATCTCTGAGCTAGAAACCCTCCGGAATACGGTAATCCATGTGAATAACAGGCAAGTGACGGAGACCTCGCAGAATGTGTTAAAGGGTATTCAGGCAGGCACGTTTGAAATCGAGGCGGAAGTCAAGATTCCGACAGACAGCAGCGATCTGGAATTCGGCTTCCGGCTGCGGGAAGGCGGCGAACAACAGACGGTGGTCGGTTATAACAACTCCGCGCATCACATGTTCATTGACCGTTCGGCATCGGGAACCACGGATTTCTCCAGCTTGTTCTCGACCGAACACAAAGCATTGCTGCACCCCGTAGATGGAGTGGTCAAGCTGCGTATTTATGTCGATGAATCTTCCGTCGAGGTGTTCGGCAATGATGGAAAGGTTGTGTTCTCGGACGTCATTTTTCCGGATCAAGCCAGACGGGGGATGAGTTTTTACACCCAAGGCGGCCAAGTGAAGCTGAAATCCCTAAAGGTTCATGAACTGGATTCCGTGTGGAGGCCTCTTGATCCATCGGAGCCTGCTTCCCGCATCCTGTTGGATTCATACGAGTTGGACCTGTCCCAGGGACAGACCGAATCGTTGTACGCAGCCGTGGATCGTGTCCCGGGCAACGGGAAGAAACCTCTGGTATGGACATCCAGCGATCCCGATACGGTCCGGATAGTTTCATCCGATGAGACCCATGCCGTATTGAAAGCGGCGAATGCGGGAGAAGCCGTCATTACGGCCTCAACCCCAAACGGAAAAATATCGGCGAGCACCCGCGTGTTGGTCTCGAGCGGAACATTCAAAACGAATCTGACGGGATGGAAACCGGATCTTAAGGCCTCGAAGTGGGTCCTTACCGAGCATGGAATCCGGGGCAGCCATTCGAGTGATGCTAATTATATGGCGCAAGAGAAGGCAGGAGACTTCAGATTCGAGGGAGACATGCGGCTTGGGGAGGCAGGCGGTGCCGGATCCATGCTGTTTCGGGCAAGCGGGGACGGCCGCAGCGGATATTATCTGAATTTGGACCCTGGATTGAAGTCGATTCGGCTCTTCTATATGGTCGAAGGTCGATTCGAGGAACGTCAAGTCCTGGCCAGCGTCCCCGGCTTTATCCAAGGGGGAAGAACCTATCACCTGAGGATTGAAGCGAAAGGTCCGCATATTCAAGTCGGCGTGGACGGGAAGACGGTAATCGATGTGATGGACGGGACATTTGCCGAAGGGCATTTTGGGGTCAATGTGTTTGGCGGACAGGCTTCCTATCAAAATGTCTACGTCCGTCATTCGTCTGAAGCTCGACTGACGAAAACCAGCTTCACGAACGAAGCCGTGAACAAGGCGATCTATACCGAGAAATCCGTAAACGGCGAACCCGTTACCGTGAAGGAATCAACGGGTACGGGCAACCTGCTATGGGTATGGGTGCCGACAGGAGAGGAAGGCACGTATTCCATTCGCACGCCGGAAGGGAAGGCTTTGGATATGGATACCGGGCAGAACCGGATTCAGTTATACACGTATCTCGGTTATAACAATCAGCGGTGGAGAGTGGAACGTCAGGAAGATGATACGGTAACCATCCGATCGGTCCACGATGGACGGGCACTTGCTGTAAAGGCTGACGGTTCGGGGCTGGAATTGAATGAGCCGGATGCCGCTTCGGATCGTCAGCGATGGCGGCTTGGGCTTTGA	MKLSQGIHTVLLRTMSAITMTLLLATSVIPGSAWAASAIQEENAVLKEKGETDIFESASNVNTNLEGWQLKGSGRMEQTAEGLRLSSDSSENAAAISATRADDFVYEADVMITNMQADASLVFRSSDDGWSSYMLQIVPSAGLVRLKDAREGKGRLKVEKAVALSQGEIVHLKVKVVGGNIKVYWGSQYEPMIEVDDTAYSTGYLGLHVWDGSALFQNIKVSEWKGNLFGPAATSGEWQPDIKGLKGSASEGHEAHKIYKNAAADYVLEGNITLGGQAEAGFYWRGNDQGTEGYEAVFRREDDQVRVTLETSDGKVIGASSRTYPSLPTSAHHVEIHVSEDSIQIAVDGYEPAAIRVSDSSYAGGSIGMKVKSGTAYFQDVYVTPMADYYTEEYRPQYHYSPIRGSASDPNGLVYFEGEYHLFHQDGGQWAHAVSRDLVHWNRLPIALPWNDLGHVWSGSAVADTTNASGLFGDSGGKGLIAYYTSFNPDRPGGNQKIGLAYSTDHGRTWTYSKERPILIENPGKQGEDPGGWDFRDPKVVRDEANNRWIMVVSGGDHIRFYISDNLVDWTLTDRFGYGEYIRGGVWECPDLFQLAVDGSGQRKWVLMISSGANPNTQGSDAEYFIGDVTPDGKFMNDHTAGTVLKTDWGKEFYASMSFSDLPDNRRIMLAWMTNWDYPFNFPTSGWKGQLTIPRELSLRTTSEGIRLHQSPISELETLRNTVIHVNNRQVTETSQNVLKGIQAGTFEIEAEVKIPTDSSDLEFGFRLREGGEQQTVVGYNNSAHHMFIDRSASGTTDFSSLFSTEHKALLHPVDGVVKLRIYVDESSVEVFGNDGKVVFSDVIFPDQARRGMSFYTQGGQVKLKSLKVHELDSVWRPLDPSEPASRILLDSYELDLSQGQTESLYAAVDRVPGNGKKPLVWTSSDPDTVRIVSSDETHAVLKAANAGEAVITASTPNGKISASTRVLVSSGTFKTNLTGWKPDLKASKWVLTEHGIRGSHSSDANYMAQEKAGDFRFEGDMRLGEAGGAGSMLFRASGDGRSGYYLNLDPGLKSIRLFYMVEGRFEERQVLASVPGFIQGGRTYHLRIEAKGPHIQVGVDGKTVIDVMDGTFAEGHFGVNVFGGQASYQNVYVRHSSEARLTKTSFTNEAVNKAIYTEKSVNGEPVTVKESTGTGNLLWVWVPTGEEGTYSIRTPEGKALDMDTGQNRIQLYTYLGYNNQRWRVERQEDDTVTIRSVHDGRALAVKADGSGLELNEPDAASDRQRWRLGL	PGPT0019220_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LEVAN_METABOLISM	CE-EPS-LEVANBIOSE_BIOSYNTHESIS,PGPT0019220-sacC|levB-K01212	NA	NA
AK002_04131	885	gmuE_2	COG1940	Putative fructokinase	ATGCGTATTGGAGCAATGGAAGCGGGCGGCACCAAATTTGTCTGCGGTATCGGAAATGAAGACGGAATCGTCGAGGAACGCATCAGCTTTCCGACAGGACAGCCGGAAGGCACATTATCCAGAGCCATTTCCTATTTCCAGGATCATGCGGTAGAAGCCATCGGCATCGGGTCGTTTGGACCCATCGATCTGAAGCTGGACAGCCCGACATACGGGTATGTAACGTCAACACCGAAACATGGATGGTCGCAGATCAATGTTCTCGGTAAGATGAAGTCGCATATGGATATTCCCTATGGCTGGGATACGGATGTCAATGCAGCTGCTTTGGGAGAGGCGACTTGGGGAGCAGCCAAGGGGCTGAACAGCTGCGCGTATTATACGGTAGGTACAGGTTTTGGGATCGGCCTTTATACCGAAGGTCGGCTGGTTCATGGATTGGTACATCCGGAAGGCGGGCATGTTCCCGTGAAACGCCATCCCGAAGATGCGTTTGGAGGAACCTGTCCTTACCATGGCGATTGCTTGGAAGGATTGGCAGCTGGTCCGGCGCTTGAAGCCCGATGGGGATTGAAAGGGGATCTGCTGCCCGCAGACCATCCGGCTTGGGAAATCGAAGCCTATTATTTAGCGCAGTCCATAACTGGACTGATTCTGACGAATTCCCCCGAGAAGATCATACTGGGCGGCGGCGTTATGCAGCAAGCCCAGCTGTATCCCCTCATTCGTGCAGAAGTGAGGCGTAATTTGAACGGATATGTGCTTGCCGACGAAATTGTACATGATATCGAGAATTATATAGTTCCCCCATTATTAGGCACCCAGTCTGGGTTATGCGGGGCATTGTCTCTGGGAATCCGGGCATGGCAAGATTCGCAATCCTAA	MRIGAMEAGGTKFVCGIGNEDGIVEERISFPTGQPEGTLSRAISYFQDHAVEAIGIGSFGPIDLKLDSPTYGYVTSTPKHGWSQINVLGKMKSHMDIPYGWDTDVNAAALGEATWGAAKGLNSCAYYTVGTGFGIGLYTEGRLVHGLVHPEGGHVPVKRHPEDAFGGTCPYHGDCLEGLAAGPALEARWGLKGDLLPADHPAWEIEAYYLAQSITGLILTNSPEKIILGGGVMQQAQLYPLIRAEVRRNLNGYVLADEIVHDIENYIVPPLLGTQSGLCGALSLGIRAWQDSQS	PGPT0017625_4702	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
AK002_04132	1485	sacC	COG1621	Levanase	ATGACGAACACGGAACAGCAAAACTATCGAAATGCTTACCATTTTTCACCCCAAAAGAACTGGATGAATGATCCAAACGGCATGGTCTATTTTAATGGGGAATACCATTTGTTTTATCAGCATCACCCATTTGGCACCACATGGGGACCCATGCACTGGGGGCATGCGGTCAGCAAGGATCTGGTCTTCTGGGAAGAGCTCCCCATTGCGTTAGCGCCGGATGAGCATGGCACGATCTTCTCAGGCAGTGCGGTTGTGGACTGGAACAACACCAGCGGATTTTTCGATGAAGGGCCCGGGCTTGTGGCGATCTTCACGCACCACCATGATGTGCCGGGCGCACAGCAAATGATTCAGTACCAAAGCCTGGCGTACAGCAAGGACGAAGGAAGAACCTGGACGAAGTATGAAGGCAATCCGGTCCTTGGCCATGACAGCTATGTTGATTTTCGGGATCCCAAAGTGTTCTGGCATGAGCCGTCATCGCAGTGGGTGATGATTGTGGCATGCGGGCAGACGGTATGTCTCTATCGATCTTCAAACTTAAAGGAATGGGTATTTGCCAGCGAGTTTGGAGAGGGCATCGGATTTCACGATGGAGTCTGGGAATGTCCGGACCTGTTCCCCCTTGCAACGGAAGACGGTGGAGTGCGATGGGTCATGCTTGTCAGCATTGGCGATGATCCGGCCTACGTCGAGGGCTCCAGGACGCAATATTTCATTGGAGACTTTGACGGGACAACGTTTATGCCGGATGAACGCTCCAAAGGTGAAGTGCGGTGGCTGGATTACGGCAGAGATAACTATGCCGGGGTCAGCTGGTCGGACATTCCGGCAGCGGATGGCAGAAGGCTGTTCATCGGCTGGATGAGCAATTGGAAATACGCAAACCTCACGCCAACGGATGGTTGGAGGGGGGCCATGACCTTGGTGCGTGAACTCAAGCTGGAGACGCTGGAAGGCGAAGTTACGGTAACGCAGCAGCCGGTTCGCGAAATGGAAGCCCACCGCACCGAGTTGCTTTCCTTACATGATATCGCTGTGGATGAAGCTGCAGCCCGTTTAGCCGCTGTGCGGCTGGAGAGCTGCGAGATCCTTGTCCGCTTTGATGCAGCATTTTCGCTTGGTTTGAAAGTAAGGACAGGATTAGAGCAAGAGACCTTGGTCGGTTGGGATGCGGGGTCTGCCGAGGTTTACGTGGATCGCAGCCGTTCAGGGCAGGCGGATTTCCATAAGGATTTCCCGGGCAAACATACGGCCCTGCTTCAGACATCGGGCTCTATGCTGGAGATGCGGATTTTCGTGGATCGTTCGTCCGTGGAACTGTTCGCGGATCGCGGGCAGGCGGTGATCACGGATTTGATTTATCCTGATCCTCCTTCAACGGGAATAACCGTATTTGCCGATGATGAACGGAAGGTTATAGAGTCCCTGCATGTCTATGAGTTTTCTTCACCTGGTGGCCAGCTAAAGCAATATGAATGA	MTNTEQQNYRNAYHFSPQKNWMNDPNGMVYFNGEYHLFYQHHPFGTTWGPMHWGHAVSKDLVFWEELPIALAPDEHGTIFSGSAVVDWNNTSGFFDEGPGLVAIFTHHHDVPGAQQMIQYQSLAYSKDEGRTWTKYEGNPVLGHDSYVDFRDPKVFWHEPSSQWVMIVACGQTVCLYRSSNLKEWVFASEFGEGIGFHDGVWECPDLFPLATEDGGVRWVMLVSIGDDPAYVEGSRTQYFIGDFDGTTFMPDERSKGEVRWLDYGRDNYAGVSWSDIPAADGRRLFIGWMSNWKYANLTPTDGWRGAMTLVRELKLETLEGEVTVTQQPVREMEAHRTELLSLHDIAVDEAAARLAAVRLESCEILVRFDAAFSLGLKVRTGLEQETLVGWDAGSAEVYVDRSRSGQADFHKDFPGKHTALLQTSGSMLEMRIFVDRSSVELFADRGQAVITDLIYPDPPSTGITVFADDERKVIESLHVYEFSSPGGQLKQYE	PGPT0018745_589	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOSIDASE,PGPT0018745-fruA-K03332	NA	NA
AK002_04133	1602			hypothetical protein	ATGAATACGAAGAGATCCAAGAAACATAACCGTAAAAAAGCGGTAACCCTGACAGCTCTGGCGGCCGTGCTGCTCTTGTCCGGGTGCGGCAAGGGCGGGGAAGCCTCAAATGAGTCGCCGGACGGTAAAGTCACCCTGAACGTCCTGACGCAAAGTTCGCCGCTAGCGCCTGCTGACCCTAACGAGAAGCTGATCAACAAGCGCCTGGAGGAGAAAACGGGCATTCACATCCAGTGGAAGAATTATACCAGCGATGTATTTGCGGAAAAACGCAATCTGGCCGTAGCGAGCGGAGATTTGCCCGATGCCATCTTTGATGCGGGGTACGGAGATTATGATCTGCTGAAGCTGGCAAAGGACGGAGTCATCATTCCCGTTGAGGATTTAATCGAACAGCATATGCCCAATCTGAAAAAGGTGCTGGAGGAGGCGCCGGAATACGTCAACATGATTACGGCGCCGGATGGGCATATTTATTCCTTCCCATGGATCGAGGAGTTGGGCTCAGGGAAAGAGCGGATTCAATCGGTGGATAACTTCCCCTGGATTAACGTGGAGTGGCTCGACGCCTTGGGACTGGACATGCCAACTACGACGGAAGAGCTGAAAACCGTATTAAAAGCGTTCAAAACCCAAGATCCGAACGGCAACGGGCAGGCTGACGAAATACCGCTTTCCTTCATTAATAAACCGGGCGGGGAGGATCTGACATTCCTGTTTGCTTCATTCGGCTTGGGCGAGAACTGGGATCACACCGTTGTTACGGATGACGGCAAGGTGGTGTTCACCGCCGCAGAGGAAGGGTATAAGGAAGCCATAGCATTCATTAACGAATTATATGAAGAGGGATTAATCGACATCGAAGCATTCCAGCAGGATTGGAATACCTACCTGGCCAAGGGAAAAGACCATCGGTACGGCATGTATTTTACGTGGGATAAAGCCAACATCACGGGCATGAATGATACGTATGACCTGATGCCGCCGCTTGCAGGGCCAACCGGCGAGATCAATGTAACGAGGACGAACGGAATCGGCCTGGATCGGGGAAGATTGGTCATTACCAGCAGCAACAAGAAGCTGGAAGAAACGGCCAAATGGATTGATGCCATGTATGAACCGCTCCAATCGGTTCAGAACAACTGGGGAACTTACGGCGACGACACCCAGCAGAATATTTTTGAGCTGGATGAAGCCAAAGGGATGCTGAAGCACCTTCCGCTTGAAGGCACGGCTCCGGTAGAGCTTAGACAAAAAACAAGCATCGCGGGGCCGCTTGCGATCCTGGACGAGTATTATGGAAAATACACCACGATGCCGGATGATGCGGCGTGGAGGCTCAAACTCATGAAAGACGTCATGGTACCGCACATGAAAGCAGAGAATACATACCCGAAAGTGTTCTTCTCCATCGACGAGTTGGATCGCTTATCCACGATTGAAGCGGACTTGTTCCCTTACCTGGAAAGAATGCGCACCGAATGGTACCAGAATGGAAAAGCAGATCAGGAATGGGATGCTTATCTGAAGGAATTGGATCGACTCGGACTTCAGGAGTGGCTGACGATCAAACAAACGGGTTACGACAGAAACATGAAGTAA	MNTKRSKKHNRKKAVTLTALAAVLLLSGCGKGGEASNESPDGKVTLNVLTQSSPLAPADPNEKLINKRLEEKTGIHIQWKNYTSDVFAEKRNLAVASGDLPDAIFDAGYGDYDLLKLAKDGVIIPVEDLIEQHMPNLKKVLEEAPEYVNMITAPDGHIYSFPWIEELGSGKERIQSVDNFPWINVEWLDALGLDMPTTTEELKTVLKAFKTQDPNGNGQADEIPLSFINKPGGEDLTFLFASFGLGENWDHTVVTDDGKVVFTAAEEGYKEAIAFINELYEEGLIDIEAFQQDWNTYLAKGKDHRYGMYFTWDKANITGMNDTYDLMPPLAGPTGEINVTRTNGIGLDRGRLVITSSNKKLEETAKWIDAMYEPLQSVQNNWGTYGDDTQQNIFELDEAKGMLKHLPLEGTAPVELRQKTSIAGPLAILDEYYGKYTTMPDDAAWRLKLMKDVMVPHMKAENTYPKVFFSIDELDRLSTIEADLFPYLERMRTEWYQNGKADQEWDAYLKELDRLGLQEWLTIKQTGYDRNMK	PGPT0017245_2092	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04134	882	araQ_44	COG0395	L-arabinose transport system permease protein AraQ	ATGGCCGTCAAACATTCACGCTTCGACCGTTTCCTGTTGTCATTAAATGCGATCTTTTTAACGCTTGCCGTACTGGTCGTTGTCGTACCCTTGGTTTACATTGTGGTGGCCTCGTTCATGGATCCCACCGTTCTGCTGAATCAAGGACTGTCTTTTAAAATCTCCGATTGGAGCCTGGAAGGATATCAGATGATTCTGTCCAATCCCGCGATGCTCCGCGGATTTGGCAATGCCGTTTTGTATTCGACAGCCTTTGCGCTTCTCACGGTAACGGTTTCGGTCTGTGCGGGATACGCACTTTCGGAGAACCGGCTGGCCGGACGCCATTTTTTCATGACGTTGTTCATTATCACCATTTTTTTCGGAGGCGGACTGATCCCTACGTATTTGCTTGTAAGGGAGCTTGGCATGCTCAATACGGTATGGGCCGTGATCATCCCCGGCGCGGTGAATGTATGGAACATCATTTTGTCCCGAACCTTCTTCAAAGGGGTGCCTAATGAATTGAAGGAGGCAGCCAATGTGGATGGGGCTTCCGATATGAAAATCTTTGTCCGGATCGTACTGCCGCTATCCAAGCCCATCATCTTTGTGCTCGCGCTGTATGCCTTCGTGGGCCAGTGGAACGCATTCTTCGATGCCATGATCTATCTGGATGATCCCAAGCTGCACCCGCTGCAGCTCGTTCTGCGATCGATTCTCATACAAAACCAGGCTGCGCCGGGCATGATCAGCGACCAGCTTGCGATGGCGGAGCTGAAACGGCTCTCGGAAATGATTAAATATTCGGCGATCGTGATATCCAGCCTTCCGCTATTGATTATGTATCCGTTCTTCCAAAAGTACTTCGAGAAAGGTGTTATGGTAGGCTCTCTCAAATAG	MAVKHSRFDRFLLSLNAIFLTLAVLVVVVPLVYIVVASFMDPTVLLNQGLSFKISDWSLEGYQMILSNPAMLRGFGNAVLYSTAFALLTVTVSVCAGYALSENRLAGRHFFMTLFIITIFFGGGLIPTYLLVRELGMLNTVWAVIIPGAVNVWNIILSRTFFKGVPNELKEAANVDGASDMKIFVRIVLPLSKPIIFVLALYAFVGQWNAFFDAMIYLDDPKLHPLQLVLRSILIQNQAAPGMISDQLAMAELKRLSEMIKYSAIVISSLPLLIMYPFFQKYFEKGVMVGSLK	PGPT0017255_2057	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04135	966	yteP_47	COG4209	putative multiple-sugar transport system permease YteP	TTGAGACATTCAGTGGAACCAGCCAATCAGGGGGCAGGGGTAATCAGGGGACGGAGCTCCGCAGGGCGAACGCTCGCTTTCATCAAGAAAAATTATTTTCTATACATACTGCTGGCTCCGGCACTTATATTGACCCTTATTTTCAAGTACGTTCCGATGTATGGTGCCGTTATTGCATTTAAGGATTTCAGCCCCATTAAAGGAATCCTCGGGAGCGAGTGGGTCGGGCTCAAGCATTTTGAAAAATTCATCGCCTCGCCAAATTTTGACGTCATTTTTATGAATACGCTTAAATTGAGTTTTTTTGGTCTTATCTTTAGCTTTCCGGTGCCGATCCTGCTTGCGCTCATGTTAAACCAGGTTCGCAAAGCGGCAATCAAGAAAAATATTCAGCTGTTTCTGTACGCGCCCAATTTCATCTCGGTGGTCGTCATTGTCGGGATGCTGTTTATCTTCTTGTCCCCGACGGGGCCGATCAATCAATTGGTCATTTGGATGACGGGAAGTCCGCTGATGTTTATGTCGCAGCCGGAATACTTCAGGTGGATCTATATTCTATCGGATATATGGCAGGGTGCCGGATGGGCCTCCATCATCTATGTGGCTGCTCTTGCGAATGTGGACCCGGAACTGCATAACGCGGCCAGTCTGGACGGAGCTAATTTACTCCAGCGCATCCGACATATCGATCTGCCTACGATTAGGCCGATTATGGCAATCGTCTTCATACTGGCGGCAGGAGGCATTATGTCCATAGGCTTTGAGAAAGCTTATCTGATGCAAACCTCGATGAATCTTCCTACTTCGGAGATTATCGCTACCTATGTGTACAAGGTCGGATTGCAGTCAGGCGATTATGCATACTCGGCAGCCGTTGGTTTATTCAACTCCGTCATCAATGTCATTTTGCTCGTAACGGTGAACTTTATTGTCAGAAAACTCAATGAAGGCGAAGGCCTCTACTAG	MRHSVEPANQGAGVIRGRSSAGRTLAFIKKNYFLYILLAPALILTLIFKYVPMYGAVIAFKDFSPIKGILGSEWVGLKHFEKFIASPNFDVIFMNTLKLSFFGLIFSFPVPILLALMLNQVRKAAIKKNIQLFLYAPNFISVVVIVGMLFIFLSPTGPINQLVIWMTGSPLMFMSQPEYFRWIYILSDIWQGAGWASIIYVAALANVDPELHNAASLDGANLLQRIRHIDLPTIRPIMAIVFILAAGGIMSIGFEKAYLMQTSMNLPTSEIIATYVYKVGLQSGDYAYSAAVGLFNSVINVILLVTVNFIVRKLNEGEGLY	PGPT0017250_936	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04136	1041	exuR_5	COG1609	putative HTH-type transcriptional repressor ExuR	ATGACGAAAGAAAAAGTCACAATTCAAGATATTGCCGATGCACTGGGGATCTCCAGAAACACGGCATCCAAGGCTCTGAACGGGAGCGAAAGTATTCCGGACGAGACGCGCAGCAAGGTTATCCGAAAAGCGATTGAACTGAAATACAAACAATTTGCTTTCATGGAGACGGACAATCTGCTGACCAAAAACCCGGGAAACATCGCTCTTCTGACGGCGAATCTTCCAAGCACCTCCCACTTTGGCTCGCGATTAATCAGTGGGCTTGAGAAACGAATCAGCGCGGAAGGATATAACCTGTCCATTCATATTGTCCGCGACATCGATCGAAGCTCTCGGACGCTGCCTAACAATTTTGAATCCTCCAAAGTGGATGGCATCATATGTATCGAGTTATTTGATATGGAATACAGCAAGGAGCTCACAAGCCTGGGCCTGCCTACCGTATTTATCGATTGTGCCGCTGACATGTTCTACCCGGACTTGCAGGCGGATTTGCTTCTGATGGAGAATGAACACAGCACCTGTCACATGACCAAGCTGCTCATTGAGCAGGGCAACGCGTCTTTGGGATTCATCGGGGACATCCAGCACTGCAAGAGCTTTAATGAACGCTGGGTGGGATTTAATCGGGCTTTGACCGAGATGGGGGTCCGGCTGGATCCGGAACAGTGTGTCCTAAACCCGGACCGTGAGTTTTTCTCCGAGTCCGACTGGATGGAGAAGCGGCTGAAACAGATGAAACAGTTGCCGTCCGCTTTTGTATGCGCCAATGATTTTATTGCGGTCAATGTGATGAAAGCCTTGAAGCATAGCCATATCGCCATCCCCGGCGACATTGCCGTATGCGGATTCGATAATGCGCCTGAATCGCGCATCGTTGAACCCCATTTATCAACGGTACATATCTATAGCGATGAAATGGGAATTGCTGCGGCTAACATGCTGTTGTCACGGGTGAAAGAACCGGCACTGCCCTATCAAGTCACCCATATCCAAACAAAGCCGATCTTCAGGGCATCTACCGAAAAAACAGACTAG	MTKEKVTIQDIADALGISRNTASKALNGSESIPDETRSKVIRKAIELKYKQFAFMETDNLLTKNPGNIALLTANLPSTSHFGSRLISGLEKRISAEGYNLSIHIVRDIDRSSRTLPNNFESSKVDGIICIELFDMEYSKELTSLGLPTVFIDCAADMFYPDLQADLLLMENEHSTCHMTKLLIEQGNASLGFIGDIQHCKSFNERWVGFNRALTEMGVRLDPEQCVLNPDREFFSESDWMEKRLKQMKQLPSAFVCANDFIAVNVMKALKHSHIAIPGDIAVCGFDNAPESRIVEPHLSTVHIYSDEMGIAAANMLLSRVKEPALPYQVTHIQTKPIFRASTEKTD	PGPT0017992_4705	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
AK002_04137	867	rbgA	COG1161	Ribosome biogenesis GTPase A	TTGACAATACAATGGTTTCCTGGACATATGACCAAAGCGCGCCGTCAAATTCAGGAGAAGCTGAAGCTGATCGATGCCGTTATAGAACTGATCGATGCGAGGCTTCCGCTCTCAAGCCGAAATCCGATGATCGACGAGATTTTGCAGGGCAAGCCGCGGCTCGTTATTATGAATAAAGCCGATTTGGCCGATCCTGAGGTTACAAGGCAATGGCAGGCCTATTTTAAAAAAGACGGACTGACGGCTTTTCCCGTCGATGCATCCACGGGGACAGGCGTTAAGGATATTCCGAACCAGATTAAGCTGCTGCTGAAAGAGAAGATCGACAAACAAATCGCCAAGGGCATGAACCCGCGAGCGATGCGCGTGTTGATTGTAGGCATACCGAATGTAGGTAAATCCACGCTGATTAACCGGCTTGCCGGCCGTAACATCGCGGAGACGGGAGACCGTCCGGGCGTCACGAAAGGGCAGCAGTGGATCAAGGTTGCCGGCGGTGAGATGGAATTGCTGGATACCCCGGGTATTCTGTGGCCGAAATTCGAGGATCAGAATGTAGGATACCGCTTAGCGGTAACCGGTGCCATCAAAGAGGAAATATTGAACGTAGAGGATATTGCCTTTTTTTCGATCAAATATTTCGCCAACTATTACTGGGAAACGATGAGCGAGCGCTTTGACCTGAAGGAGCGCCCGACGGATCTGGACAACCCGGATGAAATCGTCGCGGTCATGGAGGCGATCGGAAGAAAACGCGGCTGTATCGTAAGCGGCGGAAGAGTCGATCTGGAAAAAGCCTCGAGCCTATTCCTGCGTGAGCTTCGCGCAGGGAAGCTTGGGCGATATTCCATGGAATCGCCTTATTGA	MTIQWFPGHMTKARRQIQEKLKLIDAVIELIDARLPLSSRNPMIDEILQGKPRLVIMNKADLADPEVTRQWQAYFKKDGLTAFPVDASTGTGVKDIPNQIKLLLKEKIDKQIAKGMNPRAMRVLIVGIPNVGKSTLINRLAGRNIAETGDRPGVTKGQQWIKVAGGEMELLDTPGILWPKFEDQNVGYRLAVTGAIKEEILNVEDIAFFSIKYFANYYWETMSERFDLKERPTDLDNPDEIVAVMEAIGRKRGCIVSGGRVDLEKASSLFLRELRAGKLGRYSMESPY				NA	NA	NA	NA	NA
AK002_04138	903			hypothetical protein	GTGAGACTTTTACTGTTCGTAAAATTTCTTACGGTGTTGGTGTGGAAAGAACTTTCCCAATCAACTCGCCTAAAATCGATAAAATCGAAGTGGCTCGCCGTGGTAAAGTGCGTCGTGCGAAGCTTTATTATCTTCGTGAACTGCGCGGTAAAGCAGCGAGAATTAAAGAAATTCGTCGTTAATTACAAGGCGGCGGTAAAAGGGGGCTTGTGCGTATATACAAGCCCCTTTTGTATATCCAAAAATCGTTATCATGCGAAAGCGATCTATAGGGAAGGACGGTGGATTATGGAGAAAGATCAACACCAGGAGGCCATTGAAACCAACGTGGGGAAACCCGCCAAAAAGGCTAAGAACGAGCTTGTAGAATGGCTGAAGGCTCTTCTCATTGCTCTGGTTCTCGTCGTTCTCATTCGCTGGCTTCTCTTTAAACCGTTTATTGTGCAGGGACCATCGATGGAACCTAACTTTGTTTCGAATCAGAAGCTGATCGTCAACGAGATTTTATATGATATCCGCAAACCCGAGCGTGGCGAAGTTATCGTGTTCCATGTTCCTGACGAGGGAAGGGATTTCATTAAACGCGTGATCGCGGTTGCCGGTGATACGGTTAAAGTGGAAGGCGATAAAGTGCTTGTCAACGGGGAACCTGTGAATGAAACCTACATACAGGAAGCAATTGATCAAGCCCATGCTGAAAATCGATTATACAATAACACGGATTTTCCGAACTCGTTTGTTCAGGACGGCGTTGTCCCGGAGGGCCATGTGTTCGTGATGGGGGATAACCGCTCCAACAGTACCGACTCCCGAATGATAGGATATGTTCCTTTGGGGGATATTATCGGTCGAGCAGACTTGATTTTCTGGCCGATTAAAGACATAGGGCTCATCAACCATTAG	MRLLLFVKFLTVLVWKELSQSTRLKSIKSKWLAVVKCVVRSFIIFVNCAVKQRELKKFVVNYKAAVKGGLCVYTSPFCISKNRYHAKAIYREGRWIMEKDQHQEAIETNVGKPAKKAKNELVEWLKALLIALVLVVLIRWLLFKPFIVQGPSMEPNFVSNQKLIVNEILYDIRKPERGEVIVFHVPDEGRDFIKRVIAVAGDTVKVEGDKVLVNGEPVNETYIQEAIDQAHAENRLYNNTDFPNSFVQDGVVPEGHVFVMGDNRSNSTDSRMIGYVPLGDIIGRADLIFWPIKDIGLINH				NA	NA	NA	NA	NA
AK002_04139	144			hypothetical protein	ATGACAGAACATCGACAACAACAGGAAGCAAAAATAGAAGAAACAAACCATACTGAAGTTCAATTCCAAACGGTAGACGACATCCTTGAATACTATGGCAAGCGCCACAAAGGCTTGCATGACTCGAAAGAAAGCGTAAATTAA	MTEHRQQQEAKIEETNHTEVQFQTVDDILEYYGKRHKGLHDSKESVN				NA	NA	NA	NA	NA
AK002_04140	4284			hypothetical protein	TTGGATTCCCCACGGAGAGGAAATCGCGGCAAATTGAAGTGCACGACTTCACGAAAAACAGTGCCCAGGCGAACGAGGTTAAGAGAGCTTTGGTTGAGTCGCCTGGTTTGGTCGTTTCGCCAGTTGAGAGTACTTGTCCGCATATTCATTGAGCAACCGGTAAATGAAAACTTCATTCGGCTAAAAAGACAAGTTCAACGGATCCAAAAATTGTTGTCTTCCAATATGTCACTCTCTAGAAGCGAAAAGCGATTTATTCGTATGGCCGCTGAACAAGTATTGGTTATTTCTAATATGAACAATAGCAGAGAAATTATAGATCGAATAAACTTTTTTGCAGTACTTATCCTTTCTTATGCCGAGCGCATCGGAATAGGAAGATTGATTAGATCATCCGTTCTTGAAATTAGCAATTCTCTCAACAGATGGGGTTATGCACGAGAAAGAATGGATTTGATCCCATTACACAACTTAGTCGATAATCTCCCGTTATATATTGCGGACGCAGTGACGAATCCAGGGATGGAATCCGCGAATAGATTAGGAGTTGTTTTTGAAGACATCAATCAACAATTATCCCTTTTGGGGGCTTCAGCAGCGCAGCGGGAAGCTTTGCAGACAGCGCCCCAGGACGTAATAGCATCACTGGTGGAAGGCGCGTCTCCGATGCAAGTGAATGATCGATTGATGAATTATACCAATATGCTTGGAGAAACGGTAACAACTTTGGATATACCGACAACTGATCGGAATGGGTTGTTGTTTTCTTTGTTATCTGTTTCAAGAATAAGTGCCGAAAGCGTTCAAAGTATGATGGTGCAGGATTTCGCTGAAAATGTACAAGATCTAACGGGACCGACGGGTGAAACAGGAGCCGCAGGTCCCCAAGGAGTACCGGGTGTTCCTGGTGCAGCGGGGTCAACGGGAGCGACGGGTGCAGCAGGTGCAAGAGGAGCGGCGGGAGCGGTAGGTGCAACTGGGGCAATGGGAGCTACAGGTGCTACTGGAACAATAGGAATGACGGGAACGGCAGGAGTAACAGGTGCAGCGGGAATGACAGGCGAGATAGGAGCAACCGGAGCGACGGGATTGACGGGTGTGACAGGATCGACAGGCCCAACGGGAGTAACGGGAGTAGGAACAACTGGTGAGACGGGAGCGACAGGAGCCACCGGAGCGGCAGGAGCCACTGGAGCAACTGGGGTAACAGGAGCAAACGGAACAACAGGAGTAACAGGGGCAACGGGGGTAACAGGAGTAACCGGAGTAACCGGAGCAACAGGTGAAACGGGTGCAACGGGAGCTACAGGCGCAACGGGGGTAATCGGGGTAACAGGAGCCACGGGAGCCACAGGAGCGACAGGAGCAACAGGAGCAACAGGAGCAAGGGGTGCAACCGGAGCTACAGGTGAAACGGGAGAGACAGGAGCAACTGGGGCAACAGGAGCAACTGGGGCAACAGGAGCAACTGGAGCGACAGGTGTAACAGGAGCAACGGGGGTAACAGGAGCAACAGGAGTAACAGGAGCGACAGGTGAACCGGGTGCAACGGGAGTGACAGGAGTAACAGGAGCGACAGGTGAACCGGGTGCAACGGGAGTGACAGGAGCAACAGGAGCCACTGGAGAGACTGGAGCAGCGGGAGCAACAGGAGCGGCAGGAGTGACAGGAGTGACAGGTGAAACGGGTGCAACGGGAGTTACGGGAGCGACAGGAGCCACTGGAGCCACGGGAGCAACTGGTGCAACAGGAGCAACAGGTGTAACAGGAGCCACGGGAGCAACGGGGGTAACAGGAGCCACGGGAGCAACGGGTGTAACCGGAGAAACTGGTGCAACAGGAGCAACAGGAGCCACTGGAGAGACTGGGGCAACAGGAGAGACTGGAGTAACAGGAGCAACAGGTGCAACGGGAGCCACCGGGGTAACAGGAGCAGCAGGGGCAACAGGGGCAACCGGGGTAACAGGAGCAACAGGGGCAACAGGAGCCACCGGAGCCACGGGTGCAACTGGTGCAACAGGAGCAACGGGGGTAACAGGAGCCACTGGAGCCACAGGAGAAAGAGGAGTAACGGGGGCCACTGGAGAGACTGGAGCCACGGGAGCAACAGGAGCAACTGGGGCAACAGGAGCAAACGGAACAACAGGAGTAACAGGAGTAACCGGAACAACAGGTGAAACGGGTGCAACGGGGGTAACAGGAGCAACAGGAGCCACGGGTGCAACAGGAGCAACAGGAGCCACGGGAGCGACAGGAGCTACGGGAGCAACAGGAGCAACCGGGGTAACAGGAGCGACAGGAGCGACAGGAGCAACGGGAGCCACAGGAGCGACAGGAGCAACAGGAGTAACAGGAGCCACGGGGGTAACAGGAGCAACCGGAGAGACAGGAGCCACGGGTGCAACCGGGGTAACAGGAGGAACAGGAGCGACAGGGGCAACAGGTGAAACAGGAGCAACGGGGGTAACAGGAGCTACAGGTGAAACAGGAGTAACCGGAGCAACAGGTGAAACGGGAGCCACAGGAGCAACCGGAGAGACAGGAGCGACAGGAGCCACGGGAGCCACAGGAGCAACAGGAGCAACGGGAGCCACAGGAACAACGGGAGCCACAGGTGCAACAGGAGCCACAGGAGGCACGGGAGCAACAGGAGGCACGGGAGCAACAGGAGTAACTGGTGCAACAGGTGCAACAGGTGCAACAGGTGCAACAGGTGTAACTGGGGAAAGAGGAGCCACCGGGGTAACAGGAGCCACGGGAGCGACAGGAGAAAGAGGAGCAACGGGGGCAACGGGAGCCACGGGAGCCACGGGAGTAACAGGAGTAACAGGAGCCACAGGAGCAACAGGAGCGACAGGAGCTACAGGAATAACAGGAGCGACAGGTGAACCGGGTGCAACGGGAGTGACAGGAGCAACAGGGGTAACAGGAGCCACGGGGGTAACAGGAGCGACGGGGGTAACAGGAGCGACGGGGGTAACAGGAGCGACGGGGGTAACAGGAGCGACGGGGGTAACAGGAGCCACGGGTGTAACGGGAGCATCAGGGGCAACGGGTGTAACTGGAGTAACAGGGGCAACAGGAGTAACTGGAGTAACAGGAGTAACAGGAGTAACAGGAGCGACAGGAGCCACGGGTGCAACCGGGGTAAGAGGAGCGACAGGGGCAACAGGTGAAACGGGAGCAACAGGAGAAAGAGGAGCCACGGGAGCCACGGGTGCAACCGGGGTAACAGGAGGAACAGGAGCAACAGGGGCAACAGGTGAAACGGGTGCAACGGGAGCAACTGGGGTAACAGGAGCAACCGGAGAGACAGGAGCCACGGGAGCGACAGGAGAAAGAGGAGCAACGGGGGCAACGGGAGCCACAGGAGTAACTGGTGCAACAGGAGCAACAGGAGTAACAGGATTAACAGGAGTAACGGGAGCAACAGGAGGCACGGGAGCAACAGGAGGCACGGGAGCCACAGGAGTAACTGGTGCAACAGGTGCAACAGGTGCAACAGGTGCAACAGGTGTAACTGGGGAAAGAGGAGCCACCGGGGTAACAGGAGCGACAGGAGAAAGAGGAGCAACGGGGGCAACGGGAGCCACGGGAGCCACAGGAGTAACGGGAGCAACAGGAGGCACGGGAGCAACAGGAGTAACTGGTGCAACAGGTGCAACAGGTGTAACTGGGGAAAGAGGAGCTACCGGGGTAACAGGAGCCACGGGAGCGACAGGAGAAAGAGGAGCAACGGGAGCCACGGGAGTAACAGGAGTAACAGGAGAAAGAGGAGCAACGGGAGCAACAGGAGCAACGGGAGTAACAGGAGCTACGGGAGCAACCGGCCCAACCGGAGCAACAGGTCCGGTAGGCCCGACGGGTCCAACCGGGTCTACTACCCTCGTGGGCGGTAGTGTGATCTATGCCAGCAATGGAGTCATACAAAATGTGGCCACCAACTCGCCGGTTACTTTTTCAACAAGCACACTTCAAGGTGTAACCTTTAACGGTACCACGACGCTGACCATCGTGACAGCTGGCTTCTACTACTTTGACTGGCAGATTTCGCTGGAAACTGGTTCGACAGCGCCTAATACTTTCGGAATCGTTGTTAACGGTAATACGACAAATACGGCGAACATGAACTCGAATTCAACCAACGCCGAAGTTTCAGGATCTGCCGTCATCAATTTAAGTGCAGGTAATACCGTTGGGCTTTATAATTTATCGCCGGTCTCTAAATCGATAATAGCACCGCAAACCGCTGCAAGAATTTCTATCTTTAGAATTGGCTCATAG	MDSPRRGNRGKLKCTTSRKTVPRRTRLRELWLSRLVWSFRQLRVLVRIFIEQPVNENFIRLKRQVQRIQKLLSSNMSLSRSEKRFIRMAAEQVLVISNMNNSREIIDRINFFAVLILSYAERIGIGRLIRSSVLEISNSLNRWGYARERMDLIPLHNLVDNLPLYIADAVTNPGMESANRLGVVFEDINQQLSLLGASAAQREALQTAPQDVIASLVEGASPMQVNDRLMNYTNMLGETVTTLDIPTTDRNGLLFSLLSVSRISAESVQSMMVQDFAENVQDLTGPTGETGAAGPQGVPGVPGAAGSTGATGAAGARGAAGAVGATGAMGATGATGTIGMTGTAGVTGAAGMTGEIGATGATGLTGVTGSTGPTGVTGVGTTGETGATGATGAAGATGATGVTGANGTTGVTGATGVTGVTGVTGATGETGATGATGATGVIGVTGATGATGATGATGATGARGATGATGETGETGATGATGATGATGATGATGVTGATGVTGATGVTGATGEPGATGVTGVTGATGEPGATGVTGATGATGETGAAGATGAAGVTGVTGETGATGVTGATGATGATGATGATGATGVTGATGATGVTGATGATGVTGETGATGATGATGETGATGETGVTGATGATGATGVTGAAGATGATGVTGATGATGATGATGATGATGATGVTGATGATGERGVTGATGETGATGATGATGATGANGTTGVTGVTGTTGETGATGVTGATGATGATGATGATGATGATGATGATGVTGATGATGATGATGATGATGVTGATGVTGATGETGATGATGVTGGTGATGATGETGATGVTGATGETGVTGATGETGATGATGETGATGATGATGATGATGATGTTGATGATGATGGTGATGGTGATGVTGATGATGATGATGVTGERGATGVTGATGATGERGATGATGATGATGVTGVTGATGATGATGATGITGATGEPGATGVTGATGVTGATGVTGATGVTGATGVTGATGVTGATGVTGATGVTGASGATGVTGVTGATGVTGVTGVTGVTGATGATGATGVRGATGATGETGATGERGATGATGATGVTGGTGATGATGETGATGATGVTGATGETGATGATGERGATGATGATGVTGATGATGVTGLTGVTGATGGTGATGGTGATGVTGATGATGATGATGVTGERGATGVTGATGERGATGATGATGATGVTGATGGTGATGVTGATGATGVTGERGATGVTGATGATGERGATGATGVTGVTGERGATGATGATGVTGATGATGPTGATGPVGPTGPTGSTTLVGGSVIYASNGVIQNVATNSPVTFSTSTLQGVTFNGTTTLTIVTAGFYYFDWQISLETGSTAPNTFGIVVNGNTTNTANMNSNSTNAEVSGSAVINLSAGNTVGLYNLSPVSKSIIAPQTAARISIFRIGS				NA	NA	NA	NA	NA
AK002_04141	807	trmD		tRNA (guanine-N(1)-)-methyltransferase	ATGCGGATTGATGTGTTGACGCTGTTTCCCGAAATGTTTGATGGCGTGTTCCATTCGAGTATTCTGGGTAAAGCGGCCGAGAAAGAAATCGTGAACCTGAATGCCATCAATTTCCGCCAGTATGCCGGGAACAAGCATGGGCAAGTCGATGATACGCCATATGGAGGCGGTGGCGGAATGGTGTTAAAACCGGACCCGATTTTTGCTGCGGTAGAGGACATCCTCGCTTCGAATCCGAATCATGGTGAGGGAGCTCATCCTCCCGGAGAGATTTCGGCTGAAATCACCGGCGCAGCCAAACCTCCGCGAGTCATTCTGATGTGCCCGCAAGGAGAGACTTTTACGCAGAAGAAGGCGGAAGAGTTGTCTCAAGAAGAGCATCTGGTGTTTATATGCGGGCATTACGAAGGTTACGATGAACGAATCCGCGAGTTTCTCGTGACGGATGAGTTATCCATCGGAGATTACGTGCTTACCGGCGGAGAGCTGCCGGCCATGGTGGTCATCGATTCCGTCGTCCGATTGCTGCCGGGTGTACTTGGGAATGAAACCTCGGCGGTGACGGATTCATTCAGTACAGGCCTGCTGGAATACCCGCACTATACACGTCCGGCGGAGTTTCGCGGCTGGAAGGTGCCGGATATTTTGCTAAGCGGTCATCATGCGAATATCGATGTATGGCGCCGTGAACAAGCGCTTAAACGGACATGGGAAAGACGCCCTGAATTGTTGGAGGGACTGGAGCTTTCGAAACAGGATAAGGCGTATCTTGAGAAATTACGTGCCCAAAGCGGCAAGGGAAAATGA	MRIDVLTLFPEMFDGVFHSSILGKAAEKEIVNLNAINFRQYAGNKHGQVDDTPYGGGGGMVLKPDPIFAAVEDILASNPNHGEGAHPPGEISAEITGAAKPPRVILMCPQGETFTQKKAEELSQEEHLVFICGHYEGYDERIREFLVTDELSIGDYVLTGGELPAMVVIDSVVRLLPGVLGNETSAVTDSFSTGLLEYPHYTRPAEFRGWKVPDILLSGHHANIDVWRREQALKRTWERRPELLEGLELSKQDKAYLEKLRAQSGKGK	PGPT0007595_14	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
AK002_04142	522	rimM		Ribosome maturation factor RimM	ATGTCTGAAAAGTTGTATACCGTAGGCAAAATCGTGAACACGCACGGCATTCGCGGCGAAGTTAAGGTCATGCCGCATACGGATTTTGCCGACCAGCGTTTTGCCGCGAAGAGCAAGCTGTATATCGTTCCCGACAAAGGGAATAAGATTGAAGTAACGGTCGAAACATCCCGCTTTCATAAAAACATGTATGTCCTGAAATTCAAGGAGCTTCATGGGATTAACGAGGCTGAAAAATATAAGGGCTCGCTGCTGAAAATCACCGAGGATCTTCAGGAGGAGCTTCCGGAGAACGAGTACTATTTCCACGAGATCATTGGTTGCAAGGTGATGACGGATGAGGAACCGGCTGAGGAGCTTGGCACGATTTCCGAGATTTTGACGCCAGGCGCCAATGACGTATGGGTTGTCAAAACGCCTAAGGGAAAAGAAATTCTTCTCCCGGCCATACCGGATGTCGTGCTGGATGTCGACAAGGAATCGAAGCTTGTCCGCGTGCATCTGATGGAAGGGTTGTTATAG	MSEKLYTVGKIVNTHGIRGEVKVMPHTDFADQRFAAKSKLYIVPDKGNKIEVTVETSRFHKNMYVLKFKELHGINEAEKYKGSLLKITEDLQEELPENEYYFHEIIGCKVMTDEEPAEELGTISEILTPGANDVWVVKTPKGKEILLPAIPDVVLDVDKESKLVRVHLMEGLL				NA	NA	NA	NA	NA
AK002_04143	231			hypothetical protein	ATGGAAGAATTAGTTCGCGTTATTGCTAAGGCTTTAGTGGATCATCCAGAAGATGTGACTGTGAAAACCGTTGAGAAGGAGCACTTGATTGTATATGAACTGTACGTGCATCCTGACGATGTCGGGAAGGTCATAGGCAAACAAGGGCGTATCGCCAAATCATTGCGTACAGTCGTTACATCGGCGGCAGTTAAAATGGATAAACGGGTGACCGTTGATATCATTTCTTAA	MEELVRVIAKALVDHPEDVTVKTVEKEHLIVYELYVHPDDVGKVIGKQGRIAKSLRTVVTSAAVKMDKRVTVDIIS				NA	NA	NA	NA	NA
AK002_04144	273	rpsP	COG0228	30S ribosomal protein S16	ATGGCAGTACGTATTCGTCTGAAACGCATGGGTGCTCACAAGGCTCCTTTCTACCGCGTGGTGGTTTCTGATTCCCGTTCCCCACGTGACGGCCGTTTTATCGAGGAAATCGGTTATTACAATCCGGTTGCTCAACCGGCTGAAGTTAAGATCGATGAAGAGAAAGCACTGAACTGGCTTCAAAATGGTGCGCAAGCATCTGACACGGTTCGCAACTTGCTTAGCAAAGCGGGCGTAATGAAGAAGTTTCATGAGCTGAAGCATCAGAAATAA	MAVRIRLKRMGAHKAPFYRVVVSDSRSPRDGRFIEEIGYYNPVAQPAEVKIDEEKALNWLQNGAQASDTVRNLLSKAGVMKKFHELKHQK				NA	NA	NA	NA	NA
AK002_04145	1383	ffh	COG0541	Signal recognition particle protein	ATGGCGTTTGAAGGATTGACCAGCAGACTACAGAATGTGTTCAGCAAGCTTCGTGGTAAAGGCAAGGTGTCCGAAGAAGATGTAACAGCCGCCATGCGTGAAGTTAGACTAGCGCTTCTGGAAGCCGACGTTAACTTCAAAGTGGTTAAGGATTTCGTATCCAAAGTAAAAGAGAAGGCCATCGGCAAGGAAGTGATGGACAGCTTTACGCCCGGCATGGTGATCATCGACATCGTTAACAAAGAGCTGACGGAGTTGATGGGGGGAAGCCAAGCCAAACTGGCGAAGAGCAATAAGCCGCCGACGGTCATTATGATGGCCGGTTTGCAAGGTGCCGGTAAGACAACGACCTCGGGCAAGCTGGCTAAGCTGCTTCAGAAGCAGAACAGCCGACCGCTGCTCGTGGCAGGCGACATCTATCGTCCCGCTGCGATCAAGCAGCTCGAAGTGCTCGGCAATCAGATCAATGTGCCGGTATTCTCCTTAGGAGACAAGACAAGCCCGGTTGAAATCGCGAAGCAGGGCCTGCAGCATGCCAAAGATAACGGCCACGATTATGTCATTATCGATACCGCCGGCCGGCTGCACGTCGATGAAGAGCTGATGGAAGAATTGAAGCAGATCCACAGCGTGGTGAATCCTGATGAAGTCCTGCTTGTCGTTGATGCGATGACAGGTCAGGATGCGGTGAATGTCGCGGAAAGCTTCAACCAGCAGCTGACGCTCACGGGCGTCGTGCTGACAAAGCTGGACGGTGACACCCGAGGCGGTGCTGCCCTCTCGGTTAAGGCCGTTACCGGATGTCCGATTAAATTTGCGGCGCTCGGGGAGAAGATTGATGCGCTCGAGCCGTTCCATCCGGAACGGATGGCATCGCGGATCCTCGGCATGGGCGATATGCTGTCTCTTATCGAGAAAGCACAATCGAACATTGATGCGGACAAGGCCAAGGAAATGGAACGTAAGATGCGCAATGCCGAATTTACGTTCGAGGATTTCCTGGAGCAGATGGATCAGGTGAAGAAGCTCGGTCCTCTGGATCAGCTGATGGATATGATTCCAGGCATGGGCAAAATGAAGCAAGCCAAGGATCTCAAGGTCGACGAGAAGCAGATGGGACGCATCGAGGCTATCGTCCACTCCATGACAACGGCGGAGAAGCAGCAGCCTGACATTATCAATCACAACCGTCGTAAACGGATTGCGGCCGGCAGCGGAACCTCGCTGGCTGAAGTGAACCGGCTCATCAAGCAGTTTGACGAAATGCGCCGTGTGATGAAGCAATTCTCGGATATGATGGGTCCTAAAGGCGGAAAGAACAAGGCTTTGAAGCAGCTGAAGGGCCTGACCGGCGGAAAAGGCATGAAGTTTCCGTTCCGTTAA	MAFEGLTSRLQNVFSKLRGKGKVSEEDVTAAMREVRLALLEADVNFKVVKDFVSKVKEKAIGKEVMDSFTPGMVIIDIVNKELTELMGGSQAKLAKSNKPPTVIMMAGLQGAGKTTTSGKLAKLLQKQNSRPLLVAGDIYRPAAIKQLEVLGNQINVPVFSLGDKTSPVEIAKQGLQHAKDNGHDYVIIDTAGRLHVDEELMEELKQIHSVVNPDEVLLVVDAMTGQDAVNVAESFNQQLTLTGVVLTKLDGDTRGGAALSVKAVTGCPIKFAALGEKIDALEPFHPERMASRILGMGDMLSLIEKAQSNIDADKAKEMERKMRNAEFTFEDFLEQMDQVKKLGPLDQLMDMIPGMGKMKQAKDLKVDEKQMGRIEAIVHSMTTAEKQQPDIINHNRRKRIAAGSGTSLAEVNRLIKQFDEMRRVMKQFSDMMGPKGGKNKALKQLKGLTGGKGMKFPFR	PGPT0025750_2996	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
AK002_04146	357			hypothetical protein	ATGAGTCAGGAGAATCGGCTCGAGAAGACGAACCGGATCAATTTGCTGTTCGATTTCTATGAGCAGCTGCTGACAGAGAAACAGCAGACCTTTTTGAAATATTATTTCCATGACGATTTTTCCCTGGGTGAAATCGCCGGCGAATTTGAGATTAGTCGTCAGGCCGTCTATGAGCATATTAAGCGCGCAGAGCAGGTGCTCGAGTCTTATGAAGAGAAGCTGGGGCTCCTGAGCAAGCATGAGGCGCGTGTCCGAGAGCTGGATAAGTTTCGGGAAATGGTGGAGACTAGCGACCTGGACGAACATGATAAGCATGTAATGACCGATATGGTCGAACGATTAAAAGTATGGGATTAA	MSQENRLEKTNRINLLFDFYEQLLTEKQQTFLKYYFHDDFSLGEIAGEFEISRQAVYEHIKRAEQVLESYEEKLGLLSKHEARVRELDKFREMVETSDLDEHDKHVMTDMVERLKVWD				NA	NA	NA	NA	NA
AK002_04147	648			hypothetical protein	ATGGCCAATACTTACACTTATCCGCGCAGAGAAGAGATAGCGAACGCAATAACGCATGGCATAGGAGCCGCGTTAAGCGTTGCCGCGCTGGTGCTCCTGATCGTTTTTTCAAGCTTGAAGGGCACGGCCTGGCATGTTGTGAGCTTTACGATCTACGGATCCACGATGCTTCTGCTGTATTTGAGCTCAACGCTCGTTCACGGCTTGAGGGACGGGAAAGCCAAGGATTTCTTTGAGTTCATGGACCACTCTTCCATTTATTTGTTTATCGCGGGGACATATACGCCATTCCTGTTGGTCGCCATCCGGGGGCCGCTGGGCTGGAGTCTCTTCGGAATCGTATGGGGCATTGCGCTGTTCGGCGTCGTATTTAAAGCGTTTTTTGTCAAAAGGTTTCTGTTCCTCTCCACGATTTTCTACATTGCGATGGGCTGGCTGATCGTCATTGCCTGGAATCCGTTAACGGCGGTAGTCGCGCCTCAAGGCATGAATTTGCTTGTTCTTGGCGGCGTGCTGTACACGCTGGGTACCATTTTCTATGTATGGAGAGGTTTCCCGTACCATCATGCCATCTGGCATTTGTTTGTGCTGGCAGGCTCGATTCTCCACTTTTTTGCGATACTGATTTACCTTCTGCCTATCGGTTGA	MANTYTYPRREEIANAITHGIGAALSVAALVLLIVFSSLKGTAWHVVSFTIYGSTMLLLYLSSTLVHGLRDGKAKDFFEFMDHSSIYLFIAGTYTPFLLVAIRGPLGWSLFGIVWGIALFGVVFKAFFVKRFLFLSTIFYIAMGWLIVIAWNPLTAVVAPQGMNLLVLGGVLYTLGTIFYVWRGFPYHHAIWHLFVLAGSILHFFAILIYLLPIG				NA	NA	NA	NA	NA
AK002_04148	1029			hypothetical protein	TTGGCTGTCATCATTTATCCGAGAACGATGAACTGGTCGTACATGAAACAGAGACCGCAGCAGCTTATGGCGCAATTGGGCTCGCTTGGTCATCAGGTTTTCTTCGAAAACCTGGCCCCGCTCGATAACGAGTTCAAAGAAATTGAACCGAACGTGTATCTGTTCACCGATACCAAAACGTTTCTGCACAAAAAGCTGCCTGCCCTCCGCAAAAAACATCCCATTGTCGTCTGGACCACCTGGTCTAAGCTCCGGACGCGCATTTCCACGCTTTTCAAGCCCGATATTACGATCTACGACTGCTGTGACGAATTTCCGCATTGGGCTAAATATGAACCGAAAATGATTGATGAGGCGGACCATGTCGTGTGTACCGCAGAGGTGATCCACACCCGGTTGTCCCTGGCTTATCCGGATAAACCGCTCACCCTGATCCCGAATGGAGCTGATTCTTCATTTTTTCATATTCCATTCAGCGAAAGACCCGCCGATCTCCCTCCGGGTCCTGTTGTTGCTTATATCGGAGCCTGGGCTTATTGGGTGGACCATGAGCTGTTCGCTAAGGCCGCCCTCCGGTTTCCGAACGTCCAGTTCGTTTCCATTGGTGCTCCTTACGGCAGCTCCGGCGATTATTCGAAGCTTCAGAACGTGCATATTCTCGGGGAAAAGCCGCACCAAGAGCTGAAGCGTTACCTTACTCATATCGACGTTGCATTGATTCCCTTCCAGTACCATCCGATTACGCTCGCTACCAATCCGGTCAAAGCATACGAGTATATGGCTTCCGGCGTCCGGGTGCTGTCAACGGCGCTGCCGGAATGCATTGCCATGGAGCCGCACGTCACCACAGCGACGACCCATGATGATTTCCTGAGCAAGCTGGCAGCCATGCTGGATCGCCCGGATACGGCAGAGCATAAGCTCGCCCGCATAGCCTTCGCCAGAGAGAACCGCTGGGTTGAACGCGGATTGAAAGCCGATCAAGTGATCCGGCAAGCCATCATGAACAAAAGCATGAATGCCCAGTGA	MAVIIYPRTMNWSYMKQRPQQLMAQLGSLGHQVFFENLAPLDNEFKEIEPNVYLFTDTKTFLHKKLPALRKKHPIVVWTTWSKLRTRISTLFKPDITIYDCCDEFPHWAKYEPKMIDEADHVVCTAEVIHTRLSLAYPDKPLTLIPNGADSSFFHIPFSERPADLPPGPVVAYIGAWAYWVDHELFAKAALRFPNVQFVSIGAPYGSSGDYSKLQNVHILGEKPHQELKRYLTHIDVALIPFQYHPITLATNPVKAYEYMASGVRVLSTALPECIAMEPHVTTATTHDDFLSKLAAMLDRPDTAEHKLARIAFARENRWVERGLKADQVIRQAIMNKSMNAQ	PGPT0015225_181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015225-tuaH-K16699	NA	NA
AK002_04149	1173			hypothetical protein	GTGATCCCTTACGCCATGATTCGTACGCAGCCGTTCGGCTATAGGTCCACCGATGCCGCATCTTATCGTGAGCGGGTCATTCAGGAAGTCTCAGGAACAGACCGCGAGTGGATTTTATGGAGCTGCAGCTTGTCGTTTACCCATCGGGCATCGTCGGCTCTGATCCCAATGCCGCTTCATATTCCGGACCATATCGTCTGTATATGTATGAGCGGTGCCCCGATCTATTGGAGAAGAGCCTGGCTTCTTGCCGCCCTCGCCGGCTGGAATGACAGGCTACCCGCTGCCAGATTTCTGCCTTATGATCTCCTGCCAGTCGATTCCAGCCTAACGTTACACCTGGAAGCGGCGCATAACCCACCGTATCAAAAGGAACTGGAGTATATTCTCCCCATACTGTCTGCAACACGGAGGCTAGATAGCGCCGCTGACCCCGAAGGGGCTTTATCCTCCAAATCGTCTCAGCAGCCAGAAGTCTCCATTCTCATGAGCATTCATAACATGAAGGACACTTTAGGCTGGAGCATTCGTTCCGTACTGGCGCAAACGAACGAAAACTGGGAGCTGTTAATCGGCGATGACGGCTCGGAGGACGAAAGCCTGAAGGAAGCCTGCGCTTTTCATGACGGCCGAATACGGGTGACAGCAGAATCGCGTAACCGAGGAAAGGCGATCATGATGAATCGGCTGCTTACGGAAGCAAAAGGTCACTATATTCTGGAATTGGACGGGGATGATTGGCTGGCACCCGATGCGGTTGCTCTCCTATCCGATGCGCTTGACAAAAATCCGGACGGGCTGATCGCCACGGGCAGATACGGATGTTGGGAACGAACCCGGCAGCTCGGTCCGTTATGGAGAAGGAATGTTGACTCCGGCAAGCTATATTCGATATACTCTCCGTCCTTCAATCGATCGCATGAACACGGCCACCCGCTCGTTCCCCGAATGTACCGCAAATCTTCCCTGGTCGCCGTTGGCGGATGGCGAAATCGCGAGGATCGTTTCGGACGCATCTTCGAAGATATCGATGTGACCGCACGCGTTCTTAAACAAAGTTCGCCGATCATGGTGGATGCGCTGTTGTATCATCGCGTCATTTATGGCGGCAGCACCAGCCAACGAAGCAGCAGCCTCTTCGAAGCCTGGTATAAGCAATCCATGCAGGGTTAG	MIPYAMIRTQPFGYRSTDAASYRERVIQEVSGTDREWILWSCSLSFTHRASSALIPMPLHIPDHIVCICMSGAPIYWRRAWLLAALAGWNDRLPAARFLPYDLLPVDSSLTLHLEAAHNPPYQKELEYILPILSATRRLDSAADPEGALSSKSSQQPEVSILMSIHNMKDTLGWSIRSVLAQTNENWELLIGDDGSEDESLKEACAFHDGRIRVTAESRNRGKAIMMNRLLTEAKGHYILELDGDDWLAPDAVALLSDALDKNPDGLIATGRYGCWERTRQLGPLWRRNVDSGKLYSIYSPSFNRSHEHGHPLVPRMYRKSSLVAVGGWRNREDRFGRIFEDIDVTARVLKQSSPIMVDALLYHRVIYGGSTSQRSSSLFEAWYKQSMQG				NA	NA	NA	NA	NA
AK002_04150	1011			hypothetical protein	ATGCATATTGCCGCTTCCGGCTACTACGGAATGGGAAACTTCGGCGATGATTTGTTTCTTCACACCCTTCGGCAAGTATTCCACGAACACCACGTCTATCCTTGGAATTCCCGATTGGATCCCGGTCAGACGGATGCCTTTATCATCGGCGGTGGCGATTTGATCACACCTTACTCGTTCAATTCGTATTACTTCCCTTCGCAGCTCAAAGGACAACCTACCTGGGTTTACGGCGTCGGCATCGTCGATGCCTACCCGGAACACACCTGGCCTGAAGACCAGGTGTCCGCCTACCGGGAGATGATCTCCCAGGCAAAACGCGCGGTGTTCCGGGATGAACGATCGTCGGCCATCGCCAAGCGGGCTGGCTTTCACCGAAACGTCGAAACGGCCCCAGATATGGTATTCGGCTACCGTCAGCCCGACATCCCGGTAAAACGATTCTCGAAGCGTCCAACGATTGGCGTTGTTGTGTTTTCCTATGAATCGTTCCCGATGGATATTATGACCAAATTGCTGGGTCATCTTGTCGCAGTAGGCTATCATGCCGTCCTTATTCCGGTCATTCATCATCCGGGGAACGCGTATTCCGATTACAACACATGCCTGCAATTACAGCAGAAGGTAAGGGAGCTAACACCCGGTGCTTCCATTGAAACGCTGCCGTTTCTCATGGATATTGAGCTCACCTACCGTTTCATACAATCCGTGGACTATCTGATCTCGTTCAAGCTTCATCCATCGCTGGCCGCTTTACGCGGAGGCAAACCCGTACTGGCGCTCAGCACCATGGGCAAAGTGCACAGCCTGCTGAGTTCTTTTCATCTAGGCCAATACTTTACGGATTACCGTCAGCCGCTTGATGTGCTGGTGGATAAAACCGAGAGCTTCCTAAAATACGGCCCTGGTCGCGTGCAGCAGATGATGCCGCTGATTCGGGCAGCCGAGAAAAAAAGCACAGCCTCGCTCCTCGATTTAAAGGATCACATCGAAGAGCACAACCGTTGGTAA	MHIAASGYYGMGNFGDDLFLHTLRQVFHEHHVYPWNSRLDPGQTDAFIIGGGDLITPYSFNSYYFPSQLKGQPTWVYGVGIVDAYPEHTWPEDQVSAYREMISQAKRAVFRDERSSAIAKRAGFHRNVETAPDMVFGYRQPDIPVKRFSKRPTIGVVVFSYESFPMDIMTKLLGHLVAVGYHAVLIPVIHHPGNAYSDYNTCLQLQQKVRELTPGASIETLPFLMDIELTYRFIQSVDYLISFKLHPSLAALRGGKPVLALSTMGKVHSLLSSFHLGQYFTDYRQPLDVLVDKTESFLKYGPGRVQQMMPLIRAAEKKSTASLLDLKDHIEEHNRW				NA	NA	NA	NA	NA
AK002_04151	321			hypothetical protein	ATGTGTTGCTTCCTGTTCTGCAGAAAGCTTGCCGGACGAGTAAAAAAACTAACGCGGCAGGTCGAGCTTCTAAGCCAGGAAACCAGTCAATTGACCGATAGGGTGGAATCCCTGGAGAGCCAGGTGCTCACGGGGCTAACCATTAATCCGGAACTGACTCAGTACTTCGAAGTCCGCACCGGTCAACAGGTTCGAGTAAGCACAACGTTTGTCACCTTGGAGGGGGTCGTTTTGGCCACCGCCGAAGACGGCGTTCAGCTTCGTGAAGCATCCGGTGACCTCGTGCTGATTCCGTTCGCCAATATTACTTCCGTTCAGTAA	MCCFLFCRKLAGRVKKLTRQVELLSQETSQLTDRVESLESQVLTGLTINPELTQYFEVRTGQQVRVSTTFVTLEGVVLATAEDGVQLREASGDLVLIPFANITSVQ				NA	NA	NA	NA	NA
AK002_04152	204			hypothetical protein	ATGCGCTACGTGGATTGGCTGCAAGGATTTATCGGCTCGGAAACCGAAGTAACGGTGTCGGGAGATGTCATCATCGGCACGCTGAACGAAGTGGGCGAGGGAACCATCACCTTAAAAGTACCGCCGATCATCTATGGCCCGCCAACCGATACCGCCATCATCCCGCTTCGCTCGATTGAATTCGTTCGAATCGTTTCTTCATAA	MRYVDWLQGFIGSETEVTVSGDVIIGTLNEVGEGTITLKVPPIIYGPPTDTAIIPLRSIEFVRIVSS				NA	NA	NA	NA	NA
AK002_04153	1002	ftsY_2	COG0552	Signal recognition particle receptor FtsY	ATGAGCTTTTTTAAGAGGTTAAAAGAGAGCATTTCCAGCAAAACGGAAAACGTAACAAAACAGTTCCGCGACGGGTTGGAGAAAACCCGGAAGGGGTTTATCGAGAAAGTATCGGACCTGGTGATTCGCCGGAAAAAGATCGATGAGGAGTTCTACGAGGAATTGGAAGAGATTCTGATTGGCGCTGACGTCGGCGTCAATACGGTGATGGATCTGATGGACGATCTTCGTGCCGAGGTGAAGAAACGGCGGATCGAGGACGCTGCCGATTTGCAGCCGGTATTGTCCGAGAAGCTGATGGGACTTCTCCGTGATGACAGCAGCAACGAGCTGCGGGAGAATCCGGACGGAATAACGGTCATCCTGTTCGTGGGCGTTAACGGAGTCGGCAAGACAACAACGATTGGCAAGCTGGCGCATCGTTACAAGCAGGAGGGCAAGAAGGTTTTGCTCGCAGCGGGAGACACGTTCCGGGCGGGTGCGATCGAGCAGCTGGAGGTATGGGGAGAGCGGGTTGGCGTAGAAGTCATTAAACAGCAGCCCGGCTCAGACCCGGCAGCCGTCATGTTTGATGCGGTTCAAGCTGCCAAGCAGCGGCAGGCGGATGTCCTGCTCTGCGATACGGCGGGACGCCTTCAGAACAAAACGAATCTGATGGAAGAGCTGAACAAAATCTTCCGCGTCATTCAACGCGAAATTCCAAGTGCCCCGCACGAGGTGCTGATGGTCCTTGACGCGACGACGGGACAGAATGCGTTGAGCCAGGCGAAACTGTTCGGCGAGAAGAGCGGCGTGACCGGCCTCGTGTTAACCAAGCTCGATGGTACGGCTAAGGGCGGAATCGTCATCGCGATTCGTCAAGAGCTGAATTTGCCGGTGAAGCTGGTGGGCTTGGGAGAGAAGATGGGCGATCTCCAGACCTTCGATTCGGAGCAGTTTGTGCATGCTCTCTTTGCGGGTTTAATCAAAGAAGAAGAGAATGCCGCAGAACAACAAGGCTAA	MSFFKRLKESISSKTENVTKQFRDGLEKTRKGFIEKVSDLVIRRKKIDEEFYEELEEILIGADVGVNTVMDLMDDLRAEVKKRRIEDAADLQPVLSEKLMGLLRDDSSNELRENPDGITVILFVGVNGVGKTTTIGKLAHRYKQEGKKVLLAAGDTFRAGAIEQLEVWGERVGVEVIKQQPGSDPAAVMFDAVQAAKQRQADVLLCDTAGRLQNKTNLMEELNKIFRVIQREIPSAPHEVLMVLDATTGQNALSQAKLFGEKSGVTGLVLTKLDGTAKGGIVIAIRQELNLPVKLVGLGEKMGDLQTFDSEQFVHALFAGLIKEEENAAEQQG	PGPT0025740_3565	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
AK002_04154	3570	smc_1	COG1196	Chromosome partition protein Smc	ATGTTTTTGAAACGGATCGAGTTAGCAGGATTTAAATCGTTTGCCGACAAGACGGAGATGGAGTTTGTCCGGGGAATCACGGCCGTTGTAGGTCCGAATGGCAGCGGCAAGAGCAATATTTCCGACGGGATCCGCTGGGTGCTTGGCGAGCAAAGCGCTAAATCCCTCCGCGGAGGCAAGATGGAGGACATTATCTTTGCCGGAAGCGATGCGCGTAAAGCGGTCAACTATGGGGAGGTTTCCCTTACGCTGGACAATGAGGACCATGTGCTGCCGCTGGATTTTAACGAGGTGACCGTAACCAGACGGGTGCACCGCAGCGGGGACAGCGAGTATTTCATTAACAGGCAGTCCTGCCGGTTGAAGGATATTACGGAGCTGTTCATGGACACCGGGATCGGCAAAGAAGCCTATTCCATCATTGGACAAGGCCGCATTGAGGAAATTCTGAGTACACGATCAGAAGATCGCCGGGGGATTTTTGAGGAAGCTTCCGGGATCGTTAAATATAAGTCTCGTAAAAAAGAGTCTGTGCGCAAGCTGGATGAAACGGAGCAAAATCTGCTTCGCATCCATGATTTGGTCACCGAGCTGGAGGATCAGATCGGACCGCTCAAAGAGCAGTCCGAGAAGGCCATTCGCTACAAGGAGCTCCGGGAGGAGCTGAAGCACAAGGAAATTTCGCTGTACGTGTATCAGATCGAACAGATACATACCTCATGGAGCGAGGCCAATGCCAAGCTGGAACAACTGAAGGAAGAGCAGCTTGCCTTATCCACCGTAGTTTCCGCGCATGATGCCAAGCTGGAGAGCGACCGATCGGCCCTGCGCCAGCTGGAGCAGGAAGTTGAGGATCTGCAAAGTCAGCTGCTTCAGTTCAGTGAGCTGTTCGAGAAGAGCGAGGGTTATGGCGAGGTGCTCAAGGAACGCCGCCGCAACCTGGAACGTACGCGCGAGCAGCTGGAAGAAAGCTTGCACTCGGGCGATCATCGTCTGGAAGAGCGTGTAGGCGAGCTCGCGAGAATGAAGAGCAAGCTGCAGGATCTGCAGCAGGAGCTTACCCAGGTTCGGGATCAGCTGTCGGCGGAAGAAGCAAAGCTGGTTGGCGTAACCGGCGGTATCAGCCAGCAGCAGGAAGAGAGCTTGAAGGGGAATTTGCTGGAGCTTATGAACCAAATGGCGCAGGCGCGGAATGAAATTCGGTATGCCGACCAGCAGCAGGAGGCACTCGACCGGCGGATGAACCGGGCGCAGGAGGAATCCGGCAAATGGGAAGCCCTGAAAGAAGATCTGCTCCGTCGCAAAGATAGCATTGATCGAAGCATTGAACGTTTCGGCAAAGAAATTGCGGACCTTCGCAGCGGTTACATCAGCGAAAGCGAGCGGTATCAGTCCCTGCAGAAACTGCAGGAGGAGACGCAGGGAGCCCTTCGGAAATGGGAGCAGAAGCGGGAAGCGCAAATATCCCGCCGGGATACCATGAAAGAGCTTCAGGATGATTTTGACGGATTTATGCTGGGTGTTAAGGAAGTGCTGAAGGCTTCGCGCAAATCCGTGCTCCATGGCGTCCATGGTGCGGTGGCCGAGCTCATTCGCGTACCGGAGAAGCTGGAGCTTGCGATGGAGACCGCCCTTGGCGCGTCGGTTCAGCATATCGTCATGGAGAACGAATCCGTGTCGAGGCAGGCGATTTCCTTCCTGAAGCAGCGCCAGTTAGGCCGTGCTACATTTCTGCCCTTGGACGTTATTCGTCCAAGGAACGTATCGGCATCCGACCGGCACTTGGCGGAAGGGGAGGCCGGGTTCGTAGGGTTTGGCTCCGAGCTGGTGAAGTATGATTCCAGATACAGCAACATCGTCGGCAGTCTGCTCGGCAATGTCGTTATCGCCGAGACCCTGGAGCAAGCGAATAAGATCGCGGCCCGATTCTCCTATCGATTCCGCGTTGTCACCCTAGAGGGAGACGTCGTCAATGCAGGCGGCTCCATGACGGGCGGCAGTCAGCATAAAAAGACAAGCAGCCTGCTGGGACGCAAACGGCAGCTGGAACAGCTCGATCAGGAAATTTCGGAAACGGAGAAGCAGCTGGAGAAGCTCCAGCAGGGCATTGAAGGCGTTCGGAATCAAATGATTGAATCTCAGGATAAGCTGGACGAGCTTCGCAAAGCCGGAGACGACAAACGGATCGAGGAACAGCAGGCTGCGGGCGACCGCAAGCAGCTGGAGCATGAGCTGCGTCACGTTCTTGAGCAAGCCGAGCTTGCAGGCGAAGAGAAGAGCAGTCAAGAGAAGGAAGCCAAGGAAATTCAGCAAAGCCGTGAACGCGCACAGAAGCTGCTGTCTGAGCTGGAGGAAGAAGAGAAGTCCACCCATCTGGCGATCCAAGCGGCAGAGTTTGCCCGAAAAGCAAATGAATCGGCCAAGGAAGAGCTTCAGAGCCAGCTGACAACCCTCAAGGTTCGCGAAGGAAAGCTGGATCAGGAAACCTTCTCGCTGGAGGAGCAGCTGAAACGCCTGCAATCGGATGTTGACAACCATGAGAAGGAACAGAAGCAGAACCGCACGATGCTGGCCTCCGTTCAAGCAGACTTAAGTCAGAACGAAAGCGAGAGCGTGAAGCAGATCGAGGATCTGAACCAGTACAAGCTGAAGAAGGAAGAAGCCACGCAGCAGCTCGAATTCAAACGGGCGGCACGCACCGCGCTAAGCCGGAAGCTGGAGCTGGAAGAGAGCGAAACCAAGGAACAGCGCACCCAGCTGCGGTCCGTGGATGATCAGCTGCGCCAGACCGAGATTGGGGTAAACCGGCTCGATGTGGAGCTTGAAAATATATTGAAGAAGTTAAGCGAGGACTATGAGCTGAGCTACGAGCTTGCCAAGCAGCGGTATCCGATTCCGGAAGACATCACGGCCGCTCAGAACGAAGTGCGTGATTTGAAGCGGTCGATCACTTCCCTGGGGGACGTCAATCTCGGGGCCATTGAAGAATACCAGCGCGTCAATGAGAGATACCTCTTCCTGAGCGAGCAGAAGGCGGATCTGGTGGAAGCAAAAACGACGCTCTACCAAGTCATTAAGGAAATGGACGATGAAATGTCCAAGCGCTTCAAGCAGACCTTCGATGCCATCCGGCGCGAGTTCGGCACGGTGTTTACGAAGCTGTTCGGAGGAGGACGAGCCGACCTGATCCTGATCGATCCGGAACGTTTGCTTGAGACGGGGATCGATATCGTTGCCCAGCCTCCAGGCAAGAAGCTGCAGAATCTGCAGCTGCTCTCCGGCGGAGAACGTGCATTAACGGCTATGGCGCTGCTGTTTGCCATTTTGCAGGTGAAGCCGGTTCCGTTCTGCGTGCTGGACGAAGTCGAAGCGGCGCTAGATGAAGCGAACGTGGTACGATTTGCCCAGTATCTGCGCGAATTCTCTGAACAAACGCAGTTTATTGTGGTCACCCACCGCAAAGGAACGATGGAAGAGGCGGACGTGCTGTACGGCGTCACGATGGAGGAAGGCGGCGTGTCGAAGCTGGTATCCGTCAAGCTTGAGAATGAGGAAGCGGAGATTGCCTAA	MFLKRIELAGFKSFADKTEMEFVRGITAVVGPNGSGKSNISDGIRWVLGEQSAKSLRGGKMEDIIFAGSDARKAVNYGEVSLTLDNEDHVLPLDFNEVTVTRRVHRSGDSEYFINRQSCRLKDITELFMDTGIGKEAYSIIGQGRIEEILSTRSEDRRGIFEEASGIVKYKSRKKESVRKLDETEQNLLRIHDLVTELEDQIGPLKEQSEKAIRYKELREELKHKEISLYVYQIEQIHTSWSEANAKLEQLKEEQLALSTVVSAHDAKLESDRSALRQLEQEVEDLQSQLLQFSELFEKSEGYGEVLKERRRNLERTREQLEESLHSGDHRLEERVGELARMKSKLQDLQQELTQVRDQLSAEEAKLVGVTGGISQQQEESLKGNLLELMNQMAQARNEIRYADQQQEALDRRMNRAQEESGKWEALKEDLLRRKDSIDRSIERFGKEIADLRSGYISESERYQSLQKLQEETQGALRKWEQKREAQISRRDTMKELQDDFDGFMLGVKEVLKASRKSVLHGVHGAVAELIRVPEKLELAMETALGASVQHIVMENESVSRQAISFLKQRQLGRATFLPLDVIRPRNVSASDRHLAEGEAGFVGFGSELVKYDSRYSNIVGSLLGNVVIAETLEQANKIAARFSYRFRVVTLEGDVVNAGGSMTGGSQHKKTSSLLGRKRQLEQLDQEISETEKQLEKLQQGIEGVRNQMIESQDKLDELRKAGDDKRIEEQQAAGDRKQLEHELRHVLEQAELAGEEKSSQEKEAKEIQQSRERAQKLLSELEEEEKSTHLAIQAAEFARKANESAKEELQSQLTTLKVREGKLDQETFSLEEQLKRLQSDVDNHEKEQKQNRTMLASVQADLSQNESESVKQIEDLNQYKLKKEEATQQLEFKRAARTALSRKLELEESETKEQRTQLRSVDDQLRQTEIGVNRLDVELENILKKLSEDYELSYELAKQRYPIPEDITAAQNEVRDLKRSITSLGDVNLGAIEEYQRVNERYLFLSEQKADLVEAKTTLYQVIKEMDDEMSKRFKQTFDAIRREFGTVFTKLFGGGRADLILIDPERLLETGIDIVAQPPGKKLQNLQLLSGGERALTAMALLFAILQVKPVPFCVLDEVEAALDEANVVRFAQYLREFSEQTQFIVVTHRKGTMEEADVLYGVTMEEGGVSKLVSVKLENEEAEIA				NA	NA	NA	NA	NA
AK002_04155	702	rnc	COG0571	Ribonuclease 3	GTGTTGAGTGGAGATCTGAAGCAGTTACAGCATAAACTTCAAATCCAGTTTCGCAATGCAATGCTGCTGAAGCAGGCCTTTACCCACGCATCTTATGTAAACGAGCATCGCTTCAGTCAGAGCCAGGACAACGAGCGACTTGAATTTCTCGGAGACGCCGTTCTGGAACTGACGGTCAGCGAATTCTTGTACAACCTTTTTCCGGACCGTCCGGAAGGCGAATTAACCAAGCTGCGGGCCGCTATCGTATGCGAGCCCTCCCTGGTGCAATTCGCTGTAAGTCTGGACTTTGGACGTTACGTTCTGCTAGGCAAAGGAGAGGAAATGACGGGCGGTCGAACCCGCCCGGCTCTTCTTGCGGACGTATTCGAATCATTTGTGGGGGCGCTTTATTTGGATCAGGGATTGGAAGCGGTACGCCGGTTTTTGAGCGACCACGTCTTCCCTACGGTGACCGTCAACGGTCGACCGCAGATGAGCGATTATAAGACCGAGCTTCAGGAACTGACCCAGCATCACGGCATGGGCGCACTGGAATATCGTATCGTAGAAGAGCGAGGACCGGCGCATGAGCGGGAGTTTGTCTCGGAGGTATACATGGGAAGCGAATGTCTTGGACGCGGAAGCGGCAGATCCAAGAAAGAAGCCGAGCAGCAGGCAGCGGCGGTAGCCTTAAAGCAGCTGAAACGTGCGGATGCCTAA	MLSGDLKQLQHKLQIQFRNAMLLKQAFTHASYVNEHRFSQSQDNERLEFLGDAVLELTVSEFLYNLFPDRPEGELTKLRAAIVCEPSLVQFAVSLDFGRYVLLGKGEEMTGGRTRPALLADVFESFVGALYLDQGLEAVRRFLSDHVFPTVTVNGRPQMSDYKTELQELTQHHGMGALEYRIVEERGPAHEREFVSEVYMGSECLGRGSGRSKKEAEQQAAAVALKQLKRADA				NA	NA	NA	NA	NA
AK002_04156	1203	fabF_2	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGACCTCGCTTGGTCAAGATCTTGATACATTCTGGAACAGTTTGATGGAAGGCAAGTCCGGCGTATCCCGCATCGAAGCATTTGACGTGAGTGATTACACCACGCAGATCGCTGCGTCCATGAAGGATTTCAACCCGGAGGATTACATGGACCGCAAGGAAGCCCGCAAGATGGACCGATTTGTGCAGCTAGCTGTGGCAGCCGGTTCGAAGGCGCTGGAGGACAGCGGTCTTGATATCGGCGTGAATGCCGATGCAGAGCGGGTCGGCGTTTCCATCGGATCGGGTATCGGCGGTTTGGGAACCTGGGAGGATCAGCATAACATCCTGCTGGAAAAAGGCCCGAAACGTGTAAGCCCCTTCTTTATTCCGATGATGATCGCCAACATGGCCTCAGGGCAGATGTCCATCAATCTGGGAGCCAAAGGGCCGAACACCACCCAAGTGACGGCTTGTGCTACCGGAACGCATTCGATCGGCGATTCCTATCGCCTGATTCAGCGCGGCGATGCCGACGTCATGATCTGCGGCGGGGCGGAGGCGACCATTCGTCCGACGGGGATGGCTGGTTTCTGCGCTATGCGCGCAATGTCGACCCGCAATGACGAGCCGGAGAAGGCCAGCCGGCCATTCGATACCGGCCGCGACGGTTTTGTCATGGGTGAAGGTGCCGGCGTGCTCGTCATCGAATCCCTTGAGCATGCGTTGAAACGCGGAGCCAAGATTTATGCCGAGGTGATTGGTTACGGCCTTAGCGCCGATGCCCATCACATTACCGAGCCGGATCCGGACGGGGCAGCCCGCTGCATGAAGATGGCGATCCGCGACGCAGGCATTGCGCCGGAAGACGTGGATTACATTAATGCTCACGGGACTTCTACGCCGGTGGGTGACCGCTCGGAAACGAAGGCCGTAAAGATGGCTCTTGGCGACCATGCATACAAAGTGGCCGTGAGCTCGACCAAGTCGATGACAGGTCACTTGCTTGGGGCCGCCGGCGGTGTCGAGGCGGTTATCTGCGGATTGAGCTTGAAGAACCAGACCATTGCACCGACGATTAACCTGGAGGATCAGGATCCGGAGTGCGATCTGGATTACGTACCGAATCACCCGCGTAAAGCCGATTTGGATGTAGTGATGTCCAATTCGTTCGGGTTTGGCGGGCATAATGCCACGATTATCCTGAAAAAATACGCCGAGTAA	MTSLGQDLDTFWNSLMEGKSGVSRIEAFDVSDYTTQIAASMKDFNPEDYMDRKEARKMDRFVQLAVAAGSKALEDSGLDIGVNADAERVGVSIGSGIGGLGTWEDQHNILLEKGPKRVSPFFIPMMIANMASGQMSINLGAKGPNTTQVTACATGTHSIGDSYRLIQRGDADVMICGGAEATIRPTGMAGFCAMRAMSTRNDEPEKASRPFDTGRDGFVMGEGAGVLVIESLEHALKRGAKIYAEVIGYGLSADAHHITEPDPDGAARCMKMAIRDAGIAPEDVDYINAHGTSTPVGDRSETKAVKMALGDHAYKVAVSSTKSMTGHLLGAAGGVEAVICGLSLKNQTIAPTINLEDQDPECDLDYVPNHPRKADLDVVMSNSFGFGGHNATIILKKYAE	PGPT0008360_5679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
AK002_04157	234	acpA	COG0236	Acyl carrier protein	ATGTCCGATGTATTGGAACGCGTAAAACGCATCGTTATCGACCGCCTGGGTGTTGACGAAGCCGACGTAACATTAGAAGCATCTTTCAAAGACGACCTTGGAGCTGATTCTCTCGATGTAGTTGAATTGGTGATGGAGTTGGAAGATGAGTTTGATATGGAGATCTCTGATGAAGATGCGGAGAAAATTACGACCGTAGGTGAAGTTGTAAACTACATACAATCTCATACCTAA	MSDVLERVKRIVIDRLGVDEADVTLEASFKDDLGADSLDVVELVMELEDEFDMEISDEDAEKITTVGEVVNYIQSHT	PGPT0011375_6618	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK002_04158	750	fabG_9		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGTGAAGCTCTAAAAGGACAGACTGCGCTTGTTACGGGTGCTTCCCGAGGAATCGGCCGGAGCATTGCTCTCGCACTTGCCGATCTGGGCGCGAACGTTGCTGTCAATTATGCAGGAAGCGAAGCGGCCGCAACCGAGGTTGTGGAGGCGATTCGTGCAAAGGGCGTTTCGGCGATCGCGGTTAAATCCAACGTCGGACGGACCGAGGAAGCCGATGCGATGGTTAAGCAGGTGTTAGAGACTTTTGGTCGAATTGATATCTTGGTGAATAATGCAGGGATTACTAGAGATAATCTAATCATGCGCATGAAGGAAGAGGAGTTCGATCAGGTGATTGAAACGAATCTGAAAGGGGTATTCAATTGCCTCAAAGCGGTGACGCGTCCCATGATGAAGCAGCGCTATGGACGCATTATCAACATATCCTCCGTTGTCGGAGCGCTTGGCAATCCGGGACAGGCCAATTATGTCGCGGCCAAAGCCGGCGTCATCGGTCTGACCAAATCAGCCGCGAGGGAGCTGGCTTCCCGTGGCATTACGGTAAATGCGGTAGCGCCAGGATTTATCGATACCGACATGACTCGTGAACTTCCCGAGGACATGCGCGAAGGCCTGCTTGGCGGAATTCCGCTGGCCCGTTTAGGCCAGCCGGAAGAGATTGCCGGCGTGGTGACTTTCCTAGCATCTTCCAGCGCGTCTTATATGACTGGACAGGTGCTGCATGTGGATGGCGGCATGTACATGTAG	MSEALKGQTALVTGASRGIGRSIALALADLGANVAVNYAGSEAAATEVVEAIRAKGVSAIAVKSNVGRTEEADAMVKQVLETFGRIDILVNNAGITRDNLIMRMKEEEFDQVIETNLKGVFNCLKAVTRPMMKQRYGRIINISSVVGALGNPGQANYVAAKAGVIGLTKSAARELASRGITVNAVAPGFIDTDMTRELPEDMREGLLGGIPLARLGQPEEIAGVVTFLASSSASYMTGQVLHVDGGMYM	PGPT0003180_12153	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
AK002_04159	933	fabD		Malonyl CoA-acyl carrier protein transacylase	TTGGGTAAAACAGCATTTATATTTCCGGGTCAGGGCGCTCAGTCCGTCGGAATGGGAAAAGACGCCTATGATGCGGTTCCTTCCGCACGCGATCTATTTCTAACCGCGGATGCTCAGCTTGGATTTCCGCTCAGCTCCATTATTTTTAATGGCCCTGATGAAGATTTGAAGCAAACCGTCAATACGCAGCCGGCTCTGCTCGCAACCAGCATGGCTTATCTGGAAGCCGTTCGCGGCAAAGGAATCGTGCCGGATTACGTTGCGGGCCATTCCCTCGGCGAGTACAGTGCGCTTGTATGCGCAGGCGTGCTCTCGTTCGAAGAAGCCGTGTCGATCGTTAGAACACGCGGCGAATACATGGAAGCTGCCGTTCCGGGAGGACAAGGCGCCATGGCAGCCGTTCTCGGCGCAGACCGGGAGGCCCTGGCCGAGCTGTGCAAGGGCATTTCGGCAGAGGGGCATGTCGTAGAGCTTGCGAACATGAACTGCCCGGGGCAAATCGTCATCTCCGGTTCGGCTCAAGGCGTTGCAGCTGCTGCAGAAAGAGTCAAGGAAGCCGGCGGCAAGCGGGCCATCCCGCTGGAAGTCAGCGGCCCCTTCCATTCTTCCTTAATGAAGGAGGCGGCAGAGCGTCTGGCCGGCAAACTGGCGCAGGCTTCGTTCAACGCACCTTCCGTTCCGGTGGTTGCCAACGTGACGGCCCGTCCGGTGGAAGATGCCGCTGCCATCCGCGGTTTGCTGGTGGAGCAGGTCTATTCCCCTGTGCTGTGGCATGACAGCGTGGAGTGGATGATCGCTCAAGGCGTGGACACCTTCGTCGAGATTGGCCCCGGCAGTGTTCTCAGCGGTTTGATCAAGAAAATTGACAAATCCGTCAAAGTCATGAATGTGAATAGTCTGGAGAGCGTCAACAGTTTGGAGACGGTTGTTTAA	MGKTAFIFPGQGAQSVGMGKDAYDAVPSARDLFLTADAQLGFPLSSIIFNGPDEDLKQTVNTQPALLATSMAYLEAVRGKGIVPDYVAGHSLGEYSALVCAGVLSFEEAVSIVRTRGEYMEAAVPGGQGAMAAVLGADREALAELCKGISAEGHVVELANMNCPGQIVISGSAQGVAAAAERVKEAGGKRAIPLEVSGPFHSSLMKEAAERLAGKLAQASFNAPSVPVVANVTARPVEDAAAIRGLLVEQVYSPVLWHDSVEWMIAQGVDTFVEIGPGSVLSGLIKKIDKSVKVMNVNSLESVNSLETVV	PGPT0008350_3203	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
AK002_04160	990	fabH		3-oxoacyl-[acyl-carrier-protein] synthase 3	ATGAACAATTTGCGTCCGGTCGGTATTATTGGCACAGGCAAATACGTGCCTGAAAAGATTTTATCCAATAGCGATTTAGAGAAAATGGTAGATACTAGCGACGAATGGATCGTCTCGATGACGGGGATCCGCGAGCGGCATATTGCCGCGCCGAACGAAGCGACTTCGGATTTGGCTTATCAAGCTGCTGTGAATGCGTTGAAATCCGCCGGCATGCAGGCTGAGGATCTGGAATTGATTATTGTGGCGACCATTACGCCGGATATGTTCTTTCCATCGACCGCTTGTTTGCTCCAGGATCGGCTTGGAGCCAAGAAAGCAGCGGCATTTGACCTGTCCGCGGCCTGCTCGGGATTTGTATACGGCCTGGCCACTGCCACCAACTTCGTGAAAACGGGCATGTACAACAACGCCCTGGTCATCGGGGTGGACTGCTTGTCCCGGATTACCGACTATACCGACCGCAACACCTGCGTCCTGTTCGGTGACGGCGCCGGAGCGGCGATCGTAGGCGAAGTGCCGGAAGGCCGCGGATTCCAGGCGTTTGATCTAGGCGCGGAAGGCGCGGGCGGGGCCCATCTGTATATCGAGGCAGGCGGCTCGAGATTGCCTGCGTCCGCTGAAACGATTAACACCAACAAACACTACATTTACATGAACGGCCGCGAAGTGTTCAAGTTTGCGGTGCGGGTCATGGGCACTGCCACGGAAGCCGTCCTATCCAAAGCAGGCATCGACAAAAAGGATATTGATTTATTCGTTCCTCATCAAGCGAACATCCGGATTATCAAGTCGGCCATGGAGCGATTGGAGCTTCCGGAGGAGAAGGTCGTCATCAATGTTGACAAGTATGCCAACACCTCGGCCGCTTCCGTGCCGCTGGCGCTCGTGGAAGCCCAGGAGTCCGGCCGCCTGAAAGAAGGGGACAAGGTGCTGATGGTTGGTTTTGGCGGCGGATTGACATGGGGTTCCTCAGTACTCATCTGGTAA	MNNLRPVGIIGTGKYVPEKILSNSDLEKMVDTSDEWIVSMTGIRERHIAAPNEATSDLAYQAAVNALKSAGMQAEDLELIIVATITPDMFFPSTACLLQDRLGAKKAAAFDLSAACSGFVYGLATATNFVKTGMYNNALVIGVDCLSRITDYTDRNTCVLFGDGAGAAIVGEVPEGRGFQAFDLGAEGAGGAHLYIEAGGSRLPASAETINTNKHYIYMNGREVFKFAVRVMGTATEAVLSKAGIDKKDIDLFVPHQANIRIIKSAMERLELPEEKVVINVDKYANTSAASVPLALVEAQESGRLKEGDKVLMVGFGGGLTWGSSVLIW	PGPT0008355_4003	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
AK002_04161	987	plsX	COG0416	Phosphate acyltransferase	ATGAGAATTGTGGTTGATGCGATGGGCGGGGACAATGCCCCCCAGAGCAACGTCGACGGCGCGCTGATTGCCGCACGGGAATGGAGCGACACCGAGATCATCCTCGTCGGGGATGAGGCCCAGATTGGAGCCTTTCTGAAGGACAAGCCGTCCAATCTGAAGGTGGTTCATGCGAGCGAGGTCATTGAAGCGGAGGATGAGCCGGTTAAGGCCGTTCGCCGGAAGAAGGATGCGTCGATGGTCGTGGCGGGGCGGATGATTCGGGAAGGCGAAGCGGATGCCATGATCTCGGCGGGCAACACGGGAGCGCTCATGACGACCGGATTGCTCGTCGTGGGCAGGATGAAAGGGATTGAGCGCCCCGCGCTGGCCCCAATGATTCCTACGCTCGACGGCAAGGGGATGCTCGCCTTGGACCTCGGAGCGAATATGGACTCGAAGCCGGAACATTTGCAGCAGTATGCGCTGATGGGCAGCCTGTATCGCGAGAAGGTGCACGGTATCGCCAAACCTCGCGTCGGGCTGTTAAATGTCGGCACCGAGCCGGGCAAGGGCAACGAATTGACGAAGCACGCGTATCCATTGCTTGAGGAATTGCCTATTCATTTTGTTGGCAATGTGGAGTCGCGCGATGTCATGAACGGCGTTTGCGACGTACTTGTCTGCGACGGGTTCTCGGGCAATATTCTGTTAAAATCGATTGAAGGAACAGCCGGTGCACTCTTTTCGCTGTTGAAGGAGCAGTTCGGCAAGTCCCTTAAGACCAAGATGGCTGCCGCATTGATGATGCCGGAGCTTCGCAGCCTGAAATCGACGCTCGATTATAAGGAGCATGGCGGTGCGCCGCTGCTTGGTCTGGGCGGCCTGGTTGTCAAGAGCCACGGTTCGTCGGATGCGAACGCCATCAAGAATGGGGTTCGTCAAGCCCGAACGGCGCTGCAGAACCGGTTGGTAGAGAGTATTTCGAATGAAATCAGCGGGAAGTGA	MRIVVDAMGGDNAPQSNVDGALIAAREWSDTEIILVGDEAQIGAFLKDKPSNLKVVHASEVIEAEDEPVKAVRRKKDASMVVAGRMIREGEADAMISAGNTGALMTTGLLVVGRMKGIERPALAPMIPTLDGKGMLALDLGANMDSKPEHLQQYALMGSLYREKVHGIAKPRVGLLNVGTEPGKGNELTKHAYPLLEELPIHFVGNVESRDVMNGVCDVLVCDGFSGNILLKSIEGTAGALFSLLKEQFGKSLKTKMAAALMMPELRSLKSTLDYKEHGGAPLLGLGGLVVKSHGSSDANAIKNGVRQARTALQNRLVESISNEISGK	PGPT0024410_3188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
AK002_04162	612	fapR	COG2050	Transcription factor FapR	TTGAAGATTGGCGGCTATCATAGCGGCAGAAGGAGTTGTTTCGTCATCGATCGTTTATCCAAGAAAGACCGTCACCAGCGGCTGATTCAGCTGATCGACGAGAATCCCTTTGTTACGGACCGCGAGTTGACTCGCCAGCTTAAAGTAAGCATTCAAACGATACGCCTTGACCGTATGGAACTGGGCATCCCGGAGCTCCGTGAGCGAATGAAGCAGATGGCGGAGCATTCCTATGACCAGGTTCGTTCCTTGTCGCTCGAAGAGGTGATCGGGGATGTCGTTGACCTGCAGTTGGACAAGAGCGGAATATCGATATTTGAAATCCGTGAGGAACATGTATTCAGCAAAACGCGGATTGCCCGCGGACATTATGTGTTCGCTCAGGCCAATTCGCTTGCCATTGCCGTGATCAATGAAGAAATCGCATTGACGTCTTCAGCGGATATACGGTTTTTGAGACAGGTGCGCCTCGGCGAGAAATGCATTGCCAAAGCCTACGTCAGGTCCATTGCCGGCCAGAAGGGGAAGGCCAAGGTGGAAGTGTTTACTTATGTCGCTGATGAAATGGTGTTTCAGGGGAATTTCGTAATCTACCGATCTGCAGGGGAATGA	MKIGGYHSGRRSCFVIDRLSKKDRHQRLIQLIDENPFVTDRELTRQLKVSIQTIRLDRMELGIPELRERMKQMAEHSYDQVRSLSLEEVIGDVVDLQLDKSGISIFEIREEHVFSKTRIARGHYVFAQANSLAIAVINEEIALTSSADIRFLRQVRLGEKCIAKAYVRSIAGQKGKAKVEVFTYVADEMVFQGNFVIYRSAGE				NA	NA	NA	NA	NA
AK002_04163	174	rpmF		50S ribosomal protein L32	ATGGCAGTACCTCAACGTAGAACGTCCAAAACACGTCGTGACAAGCGTCGTACTCATTTTAAGCTGGCTGTGCCAGGCATGGTGAAATGCGAGCAATGTGGTGAATTGAAGCTTGCTCATCGCGTATGTAAAGTGTGCGGAACGTATAAAGCAAGAGAGATCATCAAACAATAG	MAVPQRRTSKTRRDKRRTHFKLAVPGMVKCEQCGELKLAHRVCKVCGTYKAREIIKQ				NA	NA	NA	NA	NA
AK002_04164	513			hypothetical protein	ATGCTAATTCAATTTCGTAAATTGACAACCAGCGATCAACCGTTACAGTTCCATCAAACCGTGGATGTAAGCAATGCCATTAAGGACCGGAAGGATATTGTTGCGGTTAAGCCATTAGACGTGGATTTGAAAGCAACTTCGTCGATTACCGGTTCGGTGGATGTTCGCGGACGATTGCAAGGCGAGCTGGAGATGAATTGCTCCCGCTGCCTGAAGCCGATCAGCGAGCATGTGCACATCCCTTTTCATGAAGTATTCCAGCCGGTGGAAGATCCTGAATCTGTGGTTCAGGATGAGGATGACGATACTACATACGTGCAGGGTGAGAGTGTGGATCTCACTCCCTATGTAGAAGAAGCATTTCTGCTCCACCTGCCGCTAGCTCCGGTTTGCAAAGCCGACTGCAAGGGACTCTGCCCGAATTGCGGCAAGGACCTGAATGAAGGCACCTGCGACTGCGATACGGAAGTGATCGATCCTAGGCTAGCCGGACTGAAGGACTTCTTTAAATGA	MLIQFRKLTTSDQPLQFHQTVDVSNAIKDRKDIVAVKPLDVDLKATSSITGSVDVRGRLQGELEMNCSRCLKPISEHVHIPFHEVFQPVEDPESVVQDEDDDTTYVQGESVDLTPYVEEAFLLHLPLAPVCKADCKGLCPNCGKDLNEGTCDCDTEVIDPRLAGLKDFFK				NA	NA	NA	NA	NA
AK002_04165	1242	tmcAL	COG1323	tRNA(Met) cytidine acetate ligase	ATGAAAACGGTTGGCATAGTCGTTGAATATAATCCCTTACATAACGGTCATGTACTGCATTATCGCAGTTCCAAAGAAGTATCGGGGGCAGATGCCGTCGTCGCGGTGATGAGCGGTCCGTTTCTCCAGCGCGGCGAACCTGCCATCGCAAGCAAGCGCGCTCGGGCGGAAATGGCCCTTGCCATGGGTGTTGACCTGTGCCTCGAGCTGCCGGTAACCTATGCCGTGCAGCCTGCGGAATGGTTCGCGTTCGGTGCGGTAGCCATTCTGGAAGCTACGGGCGTCGTGGATGGCCTTTCCTTCGGATCCGAAAGCGGGACGCTGGAGCAGATCCTGCCGTTGTCCCGTTCGCTCGCAAACGAATCCGGCGAGCTTCGATCCGAAATCGAAAAGCGCCTCCGGGAAGGCATGAACTTCCCATCTGCCTACGGCGCTGCCGCCGCTGCCCTTTTCGGTGAATCCGGTCCGGCAACGGCAACGACAGAGCTGCAAGAGCTGCTCACGCAGCCGAACAACTCCCTGGGGCTGCACTATCTGATCGCACTCCAGCGCCTGGGCAGCCGCATTACGCCCTATACCATTCCAAGAGTAAGCGCACATTACCACGATCCGCTGCCGGGAACGTCATCCATTGCCAGCGCAACCGCCATCCGGAACATTATTCTGTCACAAGGCTTGGAAGCCGCCAGACCCTATATGCCGGAATTCACGTACGACATCATGGAGAGGGAAATCAAGAGCGGACTAGCTCCTGTCCATTGGGAGCAGTTTCGCCAGCCGCTGTTCCAAGCCCTGCTCACGCATACACCCGCTCAGCTTGAAAGCTTCCTCGAAGTAACCGAGGGCTTGGAGCATCGTGTTCAGCGCTCGCTATCGCTGCTGGAGCAGCCGACGGTTGACGCCCTTCTGGAAGCCTTGAAGACCAAGCGCTATACGCGAACCAAGCTTCAACGCATGCTGATGCACATCATGCTGAATCATGACAAGGCATCGATGAATCGTGAAGAGCTCGCCAAAGGTCCGGGATATATCCGGGTCCTCGGCTTCAGCGAGACGGGGCGTTCGCTGCTGAAACGAATGAAGCGAAGCGCTTCACTCCCCGTCATTCATCAGCCTGCTAAGCTGGAGCATCCTCAGCTGGAGCGTGACCTGGCGGCAGCCGCCGTCTATGCTAACGGGCAACCTAGGCCCCAAATACGAAACTACTACAGCGATTACCTGCTGCCGCCGCTCACCCCTTAG	MKTVGIVVEYNPLHNGHVLHYRSSKEVSGADAVVAVMSGPFLQRGEPAIASKRARAEMALAMGVDLCLELPVTYAVQPAEWFAFGAVAILEATGVVDGLSFGSESGTLEQILPLSRSLANESGELRSEIEKRLREGMNFPSAYGAAAAALFGESGPATATTELQELLTQPNNSLGLHYLIALQRLGSRITPYTIPRVSAHYHDPLPGTSSIASATAIRNIILSQGLEAARPYMPEFTYDIMEREIKSGLAPVHWEQFRQPLFQALLTHTPAQLESFLEVTEGLEHRVQRSLSLLEQPTVDALLEALKTKRYTRTKLQRMLMHIMLNHDKASMNREELAKGPGYIRVLGFSETGRSLLKRMKRSASLPVIHQPAKLEHPQLERDLAAAAVYANGQPRPQIRNYYSDYLLPPLTP				NA	NA	NA	NA	NA
AK002_04166	1041	ylbL	COG3480	putative protein YlbL	ATGAAGAAGTCTGTAAAACCGAATGGCTTAAAAATTGCGCTGTATTTGTTGCTGGTCGGGGTCATGCTGTACGTTGTCGTTTATATGCCGACCCCTTATCTTGTATACCAGCCCGGGAGTGCCGAAGAGGTTCGTCCCATGATCAATGTCGAGAAGGGCGATCCGGCGGAAGAGGGTACGTTCATGATGACTACCGTGTCGGCAAGTTATGCCAATATGGCTTTGTTAATGCTGTCTGCGTTTAATCCTAATGCAGAGGTCGTGAAGAAGGCCGAAAAAATGGGCGATCAGAGCAAGGACGAGTATGCGGCCACGCAAGTGTATTATATGAATTCTTCACAGTCTTCTGCGATGGAAGCTGCTTATCAGGAGGCCGGAATCGATTACAGCATCGAGCCCGCTTACGTATTCGTGATGTCGATCTCCGAGAATTCGGCCAATGCCGAGCATTTTCGGCCTGGCGATAAATTGATCAAGATCGATGGTCAGCCAGCAGAGGATAATGAGAAGATTGCCAGCCTGTTAAGCGGGAAAAGCATCGGAGAAGAGGTTTCCGTGGAGCTTGAACGCAAGGGGAAAACCGTGAAGGAGCAGGTGAAGCTTGTAAGCATTAAGGATGAGAAGACCGGCGCGGAGCGTCCGGGATTAGGCGTCATGATTGCCACGATGCAGAACGTGGAGCCGGCCGATCCCGATCACACCATTCACTTTGCGAATACCAACATCGGAGGACCGTCAGCCGGACTGATCTTCACCCTTGAGATATATAATCAGCTTACCGAAGGGGATTTAAGCAAGGGTTACCGGGTAGCCGGAACGGGTACCATCGATAAATCAGGCGCCGTAGGGCCCATAGGCGGCGTGAAGCATAAGATCGTGGCTGCCGACCGGAAGGAAGCCGATATCTTTTTTGTGCCTCAAAAAAATTACGATGAGGCCAAGAAGCGCGCGGACCGGATCAAAACGGATATGAAGCTGATCCCGGTCGATGACCTGCAGGATGCCGTGGATTATTTGGAGGAGCTGCCGCCTAAGGGGTGA	MKKSVKPNGLKIALYLLLVGVMLYVVVYMPTPYLVYQPGSAEEVRPMINVEKGDPAEEGTFMMTTVSASYANMALLMLSAFNPNAEVVKKAEKMGDQSKDEYAATQVYYMNSSQSSAMEAAYQEAGIDYSIEPAYVFVMSISENSANAEHFRPGDKLIKIDGQPAEDNEKIASLLSGKSIGEEVSVELERKGKTVKEQVKLVSIKDEKTGAERPGLGVMIATMQNVEPADPDHTIHFANTNIGGPSAGLIFTLEIYNQLTEGDLSKGYRVAGTGTIDKSGAVGPIGGVKHKIVAADRKEADIFFVPQKNYDEAKKRADRIKTDMKLIPVDDLQDAVDYLEELPPKG				NA	NA	NA	NA	NA
AK002_04167	1230	ylbJ_1	COG3314	Sporulation integral membrane protein YlbJ	ATGAATAAAGACAACGCCGTCAAGTCATCCAACGGGCTGTGGAACACCATTCTTCTCGGTGCCGCCGCGTTCCTGCTTGTACTGGCCGTCGTCAGCGCGCCCGAACCCGCCTTCCAAGCCACCCTGCAAGCACTCAAGCTGTGGTGGAATATCGTATTTCCATCTTTGCTGCCTTTTCTCGTGCTGGTGGAAATCCTCATCGCTTACGGCTGGGCCCACGGGGTTGGCGTACTGCTGGACCCTATGATGAAAAAAATATTCAAACTCCCCGGTACTGGCGGCTGGGTTCTTATAACAGGAATGACAGCCGGGTTCCCGGCAGGCGCTCAGGCCGCGGCCGGCATGCACAAACAAGGCGAGCTCCGTGCCATTGACGCCGGCAGGCTTGCCGCTTTGGCCCATTTTTGCAATCCGATGACCATCCTCGTTGTCATCGGAACCGGCCTGCTGCATAAACCGGAAGCCGGTTATCTGCTGCTGATCGTCCACTGGATATCCGGCCTGCTGGCCGCATGGACATTCAGTCTATTCAGCAAATCGCCCTCTGCAGAAGCCGGGAAGCAGGGCGCACCCGTCGTTAATGACCGGATGAACGAATGGGCGAAGCGTCCGATTCTTCGACGGGCAGCCTCCGCCGCGCTGGACGCCCATCGACGGGATGGGCGAAGCTTCGGCAAACTCCTTGGCGAATCCGTTACCCGTTCGGTACAGACCTTAATGATGACGGGCGGCTTTATCTTGTTCTTCGCCGTTCTTACTAGAGTATTGACCGGCCAGCTGCTCCCCCAGCTTCCATCTTATCTTGTGCCCGGGATATTGGAAGCCCATCTGGCCGCCCAATCGATCAGCTCCTCGGCATTTCAAGCAGGGGCTCTGCAGCTGGCGGTCCTATCGGCAGCACTGGCATGGAGCGGAATCAGCGCCCATCTGCAAAGCCTGTCGCTGATGCGGGAAGCCGGTCTCTCCTGGCGTTACTTTATGGCAAAGCGATTCCTGCATTCGATACTCGCCTTTGTCATTACATTGGCCATATGGAAACCGGTCAGCACCCTTTCCGCGGGCATCGTGCCGGCATTCCGAACGGAACCGATCGATCATGCCGATACGGAGCAATTCTTCAATTTTTGGAGCGGACTGCCTTCTTTCCTGCAGGTTCAAGGCATGATCTGCTTGTTATTAATAGCGGCTTTCTGGCTGTGCTCCCGTCTTATCGGGCGTGATCCCCGCTGA	MNKDNAVKSSNGLWNTILLGAAAFLLVLAVVSAPEPAFQATLQALKLWWNIVFPSLLPFLVLVEILIAYGWAHGVGVLLDPMMKKIFKLPGTGGWVLITGMTAGFPAGAQAAAGMHKQGELRAIDAGRLAALAHFCNPMTILVVIGTGLLHKPEAGYLLLIVHWISGLLAAWTFSLFSKSPSAEAGKQGAPVVNDRMNEWAKRPILRRAASAALDAHRRDGRSFGKLLGESVTRSVQTLMMTGGFILFFAVLTRVLTGQLLPQLPSYLVPGILEAHLAAQSISSSAFQAGALQLAVLSAALAWSGISAHLQSLSLMREAGLSWRYFMAKRFLHSILAFVITLAIWKPVSTLSAGIVPAFRTEPIDHADTEQFFNFWSGLPSFLQVQGMICLLLIAAFWLCSRLIGRDPR				NA	NA	NA	NA	NA
AK002_04168	516	coaD	COG0669	Phosphopantetheine adenylyltransferase	ATGACAAATGAGAATACTAGTACATACCGCGTTGCCGTATATCCGGGGAGTTTTGATCCGGTCACCATGGGACACATGGACATAATTACACGTGCTTCGAAGCAGTTTGATCTGCTGATCGTGGCCGTACTCAATAATTTAAGCAAGAACCCGCTCTTCACGGTGGACGAGCGTAAGGACCTTCTGAGACAGGCTACCGCGCATCTGCCGAATGTGGAAATCGACAGCTTCCGCGACCTTTTGGCGAACTATATCCGTCAGAAGAACGCCCAGGTCATCGTACGCGGGATCCGAACCGTGACCGACTTTGAATATGAACTTCAGCTGGCATCCACCAACCATAAGCTGAATCCGGATGCAGAGACCATCTTTATGATGACGCATCCGAAATATTCGTTCTTGAGTTCCAGTCTTGTGAAGGAAATCGCGCATTTTAACGGCGATACTACAGATTTGGTCAGCCCCGAGGTCGATGCGGCGTTGCGACGCAAATTCAGCGGGGATCACGCCCGATAA	MTNENTSTYRVAVYPGSFDPVTMGHMDIITRASKQFDLLIVAVLNNLSKNPLFTVDERKDLLRQATAHLPNVEIDSFRDLLANYIRQKNAQVIVRGIRTVTDFEYELQLASTNHKLNPDAETIFMMTHPKYSFLSSSLVKEIAHFNGDTTDLVSPEVDAALRRKFSGDHAR	PGPT0008825_396	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
AK002_04169	627	rlmI_2		Ribosomal RNA large subunit methyltransferase I	ATGAAACGGGTGAATGAAGCAGTGAGAGTAGTATCCGGAAGTGCAAAAGGCCGGCCGCTCAAAAGCGTGCCGGGTACAAGCACCCGTCCGACGACGGATAAAGTGAAAGAATCCATATTCAGTATGATCGGCCCTTACTTTGAGGGAGGAATCGCGCTTGACCTGTTCGCAGGCACGGGAGGCCTTGGCATTGAGGCGTTAAGCCGGGGGATGGATCGTGCTGTTTTTATTGATGTGGAACCGAAAAGCATCAGCACGATCAAGGATAATTTGAAGGCGGCCCGGCTTGAGGAAAGCGCAGAGGTATACCGCAACGATGCGGCACGGGCGCTTAAAGCGCTTGAAAAGCGAGGCTATGGCTTCGATTTGGTCTTCTTGGACCCGCCGTACAGGTTTAAGAACGGCGATGAACTGATGCTGGATATGGCCGAGCGAGGGTTGCTGCAGGATTCAGCCTTGGTGGTATTGGAATACGAATCAAGTTACAATTATGCTGAGGAATTTGGCGATTTTCATTGTATCCGAACCGCGAAATACGGAGAAACCGCCATATCGATATACCGTTATGACACAGCGCAAGATCAAGCGACGGAGCTTGATGAGGAGGAATTACACGATGACAAATGA	MKRVNEAVRVVSGSAKGRPLKSVPGTSTRPTTDKVKESIFSMIGPYFEGGIALDLFAGTGGLGIEALSRGMDRAVFIDVEPKSISTIKDNLKAARLEESAEVYRNDAARALKALEKRGYGFDLVFLDPPYRFKNGDELMLDMAERGLLQDSALVVLEYESSYNYAEEFGDFHCIRTAKYGETAISIYRYDTAQDQATELDEEELHDDK				NA	NA	NA	NA	NA
AK002_04171	210			hypothetical protein	ATGGACCTGCTATTGTACGCAGGAATAGCTTGTCTCTTGGTGACAGGAATCCTATCGGGAGCGTTTACAACGGGGTACCAGCAGAGAGGCAACTTCTATGCCGATTCCAAGGACGACCGCGCATCCAGAAAAAAGTCGGCCAACTGGTTCTTTCTCGCGGGAATTGTATTTCTTGCAGCAGCCGGCATTGTATATCTTCTGTTCCGTTAA	MDLLLYAGIACLLVTGILSGAFTTGYQQRGNFYADSKDDRASRKKSANWFFLAGIVFLAAAGIVYLLFR				NA	NA	NA	NA	NA
AK002_04172	201			hypothetical protein	ATGAATGGTTTCATTAGCAATGAAACTAAGGAAATAGAACTCGCCAGAATGAAATATGCTCTGTTCATAATAATTTCAATCGTTACGTTCAGAAAATTCCCAAAAATCGAAATCGTGAAAAATGATGCATGCGCGGTTTTATTGCTCTTGAAGGGAACCGGCTTATCTTATATGTCGGGCCGGGACAAATTCATCGAATAA	MNGFISNETKEIELARMKYALFIIISIVTFRKFPKIEIVKNDACAVLLLLKGTGLSYMSGRDKFIE				NA	NA	NA	NA	NA
AK002_04173	1974			hypothetical protein	GTGAAAAGAACGTTGTATGTTCTCGTGTTATTCAGCATGCTGGCAGGGCTTGGTTTTGCAGGGACGACGCAAGACATCGCTTCTGCCGACGGGTCCGAGCTCCGGATCCAAGACATTGCCGGAAGAAACACCTATCTGATGAGCGACGGCTCCATGTGGTCCCTGATTGACGGGCGCCACGCCATTCGAACACCAGGCAACGTCGCAGCCATCAGCGGTTATGAGTACGGCGGCATCGGTATGACGCAGGAGGGCCGCTTAGTAGAGTGGGACATCGGCAAGGGGCCCCAGGTCGTTCCGGGAACAAGCGGCGTGAAGCAGATAGCCGGTTCCTACTGGCTGAAGTCGGACGGTACCGTATGGGCCGGCGATGAAAAAGCGAAGAACCTCAGCGGCATATTGCTGATCGCCAATGCGGATCAGGAATTCGCTGCATTATCCTCCAATGGAGAGCTGCTGCTCCAGGATAACTACAAAAAGGGGCAATTCAAAAAGCTCGGGATCGTGGAAAACACGGCAGCCGTCAAATCCATGACGGTACACAGCGGACGCGTTGCCCTGCTGCATGACAACGGCGACGTGGTCGTGTACGAGACGTCCAACTTCGACGATAACGGGCGGATCATACCGGTTACCGTGGCCCAGAATGCAGCTCATATCGTTTATGCATCGAGTGAGCCGACGGATCTTCTCATTGTGACGCTCCAGGACGGAACCGTATGGACTACCGGCGAGTATAAAGACCGCTGGAAACTCAAAGAGCAGATTACCGGACTTAGCGGGATCGTAAAAACATCCATCTATGGGGATGCAAAGGATTTGTCGGAAGGCTTTTATGCGCAGCGGGGTGATGGAAGCTGGGTACATCATAAGGAGGGACAGAACAAGAACATCGATGTACCGGTAGTCAAGAGTTTGTCCGTTGCCATATCCGATGCGACGCCTTATGTAGGAGAATCGCTGGAAGTGAGCATCCAGGAAACCTATACGAACGGGGCGAAAATCAAGGTACCGGTTAAAGACGCCGGCATCGATATCGAGAAGCCGTATTTGTTGAGTATGCAGAAAAATGGCACGCTGAAATCTGCCGGCGTTGGCAAAACGCAGATTACGGTAACCTCAGGCGGCCAGTCCAAATCGGTGACGGTATCGTCCAGCCTGCGCAACAATTTGAAATACGCGAAACAGGTCAACGGCAATGTCATGGTACCGGCTAAATCCGTCATTCAGGCACTGGGCGGCACCTATTCGGCTAAAAACGGAAGCGTGGAGGCGAACTTCGGCCAGACCCTGCTTTCGTTCAAAGCAGGCAGCAACCAGGCCAAGCTGAATGAAAGCACCATCCGGCTTAAAGCCGCACCCGTGAACGACAAGGGCGAGCTTCTCATTCCGGCCTCCGTGTTATCCGATGCTCTGGGAGCTAAAACCAGCTGGGATGCCAAGTGGAAGCAAGCTCAAATCTCCCTCGGCGCGGATGCGGCCATGACCGTCGTCTCCAGCGAAACGGCTGGATTGATCAAAAAAGCGATGCAGGGCAATTTGGTTAAGTATATCGGCCGAACGTATTGGGTGAACGAATTCGAAGATCTGGAACGCTTCTCTAAATTGACCGTTACCGACATATTGCCTGACGACAAGGGCGAATTCAACGTAATCTTCAAATCGGCATCGGGGAAAACGGTAAAAAGTTATCCTATGCGGTCTTCCGAAGTGACGCAGCTGTTTGCGGACCGTTCCTCGTTATTAACTTACGACCCCTATAAAAAATACAAATGGTCCGCCTCCGTCTGGAAGCAGATCAAAGCCGGACAGGTTTCCCTCGGCATGACGAAAGAGCAGGTACAGCTTTCATGGGGGAACCCGGCTGCCAAAGACATTACCTCCGGCGGCGGAAAAACCATTGAAACTTGGGGGTACTCCAATTTCAATATCGTATCTTTCGTAAACGGGAAAGCCATATTGATCATGATGTAG	MKRTLYVLVLFSMLAGLGFAGTTQDIASADGSELRIQDIAGRNTYLMSDGSMWSLIDGRHAIRTPGNVAAISGYEYGGIGMTQEGRLVEWDIGKGPQVVPGTSGVKQIAGSYWLKSDGTVWAGDEKAKNLSGILLIANADQEFAALSSNGELLLQDNYKKGQFKKLGIVENTAAVKSMTVHSGRVALLHDNGDVVVYETSNFDDNGRIIPVTVAQNAAHIVYASSEPTDLLIVTLQDGTVWTTGEYKDRWKLKEQITGLSGIVKTSIYGDAKDLSEGFYAQRGDGSWVHHKEGQNKNIDVPVVKSLSVAISDATPYVGESLEVSIQETYTNGAKIKVPVKDAGIDIEKPYLLSMQKNGTLKSAGVGKTQITVTSGGQSKSVTVSSSLRNNLKYAKQVNGNVMVPAKSVIQALGGTYSAKNGSVEANFGQTLLSFKAGSNQAKLNESTIRLKAAPVNDKGELLIPASVLSDALGAKTSWDAKWKQAQISLGADAAMTVVSSETAGLIKKAMQGNLVKYIGRTYWVNEFEDLERFSKLTVTDILPDDKGEFNVIFKSASGKTVKSYPMRSSEVTQLFADRSSLLTYDPYKKYKWSASVWKQIKAGQVSLGMTKEQVQLSWGNPAAKDITSGGGKTIETWGYSNFNIVSFVNGKAILIMM				NA	NA	NA	NA	NA
AK002_04174	267			hypothetical protein	ATGGCGAAAAAGGGACAGACATTCCATCATTACAGTTTCGAAACTAAGAAAAAGGCAGTCGCCATGCGGCTGGAAGGCATGACGAAGAAAGAAGTGGCATCCGCCTTACAAATATCAGACATCGGACGGCTGAAAGTGTGGATGCGCAAATACCGGGAGCTGGGAGAAGAAGGCTTGGTCGATCGCCGCAGACGAATCGTGCTTTCAGACCATGACAACGAACGGAATGAGAAAGTTCAGGTTCCGCAGCTGCAGAAAATACAGTAA	MAKKGQTFHHYSFETKKKAVAMRLEGMTKKEVASALQISDIGRLKVWMRKYRELGEEGLVDRRRRIVLSDHDNERNEKVQVPQLQKIQ				NA	NA	NA	NA	NA
AK002_04175	672			hypothetical protein	TTGTTTAAACTCATTATTTTCGGATTTTTGTTTTACATTTTCGGCAATCCGATAACGGCGATTCTGGTGCTGCTTCTTATCGTGTACGTGCTGGATCGCCGTTTTGTCGGGGTATTTCCCAGTGTGACGAAGCCGTTCAAGCGTGCAAGGGCTATATCCAAGCTGCGCAGACAGATTGCGGTCAGCCCCAGCGACGTATCCTCCCGGCACGAGCTTGCCCGATTGCTGCTGGAGCGCCGCAAGTATGAAGAGGCCCTAAAGCTCCTGGAAACCATGGAATCCAGTTTAGAGGATTCCGCCGAATTCTGGGACGATATCGGAAGCGCGCGTCTGCATACCGGCAGCATCGCTCAGGGAGAGGCTGATATCGTCCAGGCCCTTCAGATCAATCCGAGGGTCAAATATGGCCGGCCTTATCTTAGGCTTGCCGAGGCGTTTCGGGATTCGGATCGCGAGAAGGCGCTCCACTATTTAGAGCAGTTCCATGCCATTCACTCTTCCTCCAGCGAAGCCTTTTATTTGCTGGGGTATATGTATCAATCGCTGGGAAGAGCCCAAGATGCCAAGAAATCCTATCAGGAATCGATGGACGTGTATCGCTCCCTGCCCAAATACAAAAAACGGCAGGAACGCAAATGGGCGGTTCGAAGCTGGTTCAGGAACTTATTCTAA	MFKLIIFGFLFYIFGNPITAILVLLLIVYVLDRRFVGVFPSVTKPFKRARAISKLRRQIAVSPSDVSSRHELARLLLERRKYEEALKLLETMESSLEDSAEFWDDIGSARLHTGSIAQGEADIVQALQINPRVKYGRPYLRLAEAFRDSDREKALHYLEQFHAIHSSSSEAFYLLGYMYQSLGRAQDAKKSYQESMDVYRSLPKYKKRQERKWAVRSWFRNLF				NA	NA	NA	NA	NA
AK002_04176	636	lipC	COG2755	Spore germination lipase LipC	ATGTTGGTGTACCATTATACCGCTGTCGGCGATTCCTTGACCTTTGGGTTTGGGGCGATGCCTGGCAGCGGTTTTGTTCCGTTATACCGTCGGATGGCGGAGGAGAAGCTTCGCCAATTCGTGGCCCATGAGAATCTCGGGGTCAATGGATTAACCTCGGATGAATTATACGATCGGGTCGTTCAGCTTCCAACGTATCGCTATCATTTGCAGCAGGCCCAGATTATCACGATGTCGATCGGCGGCAATGACCTGATTCGTGCGGTGAAGTCCACGGGAGGTCGACCGAATCGGGAGGTGCTGGACACCGCCTTGTATCGATGCCAGAACCATGTGGCTAATATCGTCAAACATATCCGCAAAATAAAGTCACCGGCCAGCAAGCCTTATTTTATTCGCGCTATCGGTCTGTATAATCCATATCCGGCCTGGACGGAGGCAACGGAATACGTGATTCGGTTCAATCGGCACTTGATGGGGTTGAGCGACGGCTATTTTCGCGTTGCGGATATTTACGCACAATTTTCTGGCCGAGAGAAGGAACTGATGTCGGTGGACGGTTTACACCCGAATGGCCGAGGGTACCGGGTGATCGCGGAGCAGTTAAACCGGCTTGGGTACAAGCCACTTGCATAA	MLVYHYTAVGDSLTFGFGAMPGSGFVPLYRRMAEEKLRQFVAHENLGVNGLTSDELYDRVVQLPTYRYHLQQAQIITMSIGGNDLIRAVKSTGGRPNREVLDTALYRCQNHVANIVKHIRKIKSPASKPYFIRAIGLYNPYPAWTEATEYVIRFNRHLMGLSDGYFRVADIYAQFSGREKELMSVDGLHPNGRGYRVIAEQLNRLGYKPLA				NA	NA	NA	NA	NA
AK002_04177	432			hypothetical protein	ATGCTTAAAGATATAACGATGCAAGCGTCGCAGCCCGAAATCAAGGAGCTGCTCAGTTACTCGGTTTTCCCGGATCCGGAGGCGGTGGACGAGGCAGTCGCATTTTATCAGGGCGGCGACAGCCGGTTGTTCGGCTACGAAGAGGACGGACTTCTTCTGGGAGTCATCGGTTTTGATGTGAAGGAGGACGAGCTTATCATCCGGCATTTAGCGGTCCTGCCGGAGAATCGGGGGAAGGGATACGGACGCGGATTGATTTTGGAGCTGCTCCTCGAGGTGCAGCCTAAACCGGAACGAGTCATTGCGGAAACGGACGAAGAAGCCGTGAACTTCTACCGCAGTATCGGTTTCGAGGTTTACAGCCTGGGAGAGAAATATCCGGGCGTCGAAAGATTCCGCTGCATGTATGAGGTGGAGGAATCCGAAGAATAG	MLKDITMQASQPEIKELLSYSVFPDPEAVDEAVAFYQGGDSRLFGYEEDGLLLGVIGFDVKEDELIIRHLAVLPENRGKGYGRGLILELLLEVQPKPERVIAETDEEAVNFYRSIGFEVYSLGEKYPGVERFRCMYEVEESEE				NA	NA	NA	NA	NA
AK002_04178	450	mhqR_3	COG1846	HTH-type transcriptional regulator MhqR	ATGTCGGATATTCAAGAACACGAGGATTACCCGCTGCATTTGCTGGTAGTCCTAGCCAGAGCTTATAACGCAGTGATGACGCATTCGCATCGAAGCATCAACAGCCATGGTTTGAATTCCACCGAATTTGGGGTATTGGACGTGCTGTACCACAAAGGTCCGCAGCCGCTGCAAAAAATAGGGGAGAAGGTGCTTATCTCCAGCGGTAACATTACATACGTGGTCGATAAGCTTCAGAAGAAAAACCTGCTTGTTCGCCGGGCTTCCGCTGAGGACCGCCGCGTGATCTATGCCGAGCTGACCGCAGAGGGGAAGGAATTCTTCGAGGCCATCTTCCCTCAGCATCAGGAATTGATGGTGAAGGTGCTTAGCGGATTGTCGGAAGAGGAAAGAGCGCAGGCGGCCATGCTGCTGCGCAAGCTGGGGATCAGCGCAGAGAAGATGCTGTAG	MSDIQEHEDYPLHLLVVLARAYNAVMTHSHRSINSHGLNSTEFGVLDVLYHKGPQPLQKIGEKVLISSGNITYVVDKLQKKNLLVRRASAEDRRVIYAELTAEGKEFFEAIFPQHQELMVKVLSGLSEEERAQAAMLLRKLGISAEKML				NA	NA	NA	NA	NA
AK002_04179	717	rpiA	COG0120	Ribose-5-phosphate isomerase A	ATGACGAGTGAAATTAATATGAAGAAAATAGCGGCTGAGCATGCCGCCAAGTATGTTCAGGACGGGATGAAGATCGGTCTGGGCACAGGCTCTACCGCCTATTACGCCATTCTCAAAATCGGAGAGATGGTCAGGTCCGGACTCTCGATCCAGGCCGTGGCTACATCGGACGCTTCGGAGAAGCTGGCGATGGAACAAGGCATATCCCTGACGCCCGTACACCAGATCGATCGCTTGGATTTGACGATCGACGGAGCTGACGAGCTGGATGATCAGCTGCGGTTAATCAAGGGAGGAGGCGGAGCCCTACTTCGCGAGAAGATCACGGCTTATCACAGCGAACGGCTCGTGATTGTGGCGGATGAGGCAAAAGCGGTTGCTCAACTGGGCGCTTTTCCGCTGCCGGTTGAGATTGTCCCTTTTGCCTATGAATGGACAATTCGGTCCCTGGCACAGCTTGGTTGTTCGGTCCAATTGCGCCGTCAGCCGGATGAAGGGTTGTATGTAACGGATAACGGGAATTATATTGCTGATTGCCGGTTTCAGGAAATCTTGATGCCGGAGGAATTGAGCTCCCGTTTAGGCACTGTACCCGGCGTGGTTGAACATGGTCTGTTCATCGGCATGGCCGATCAAGCGATTATCGGCTGCCGGGACGGTTCGGTACGGATACTGCATTCCGCGAGCATGCAGGCCAAGAATACATTTGACAGTTGA	MTSEINMKKIAAEHAAKYVQDGMKIGLGTGSTAYYAILKIGEMVRSGLSIQAVATSDASEKLAMEQGISLTPVHQIDRLDLTIDGADELDDQLRLIKGGGGALLREKITAYHSERLVIVADEAKAVAQLGAFPLPVEIVPFAYEWTIRSLAQLGCSVQLRRQPDEGLYVTDNGNYIADCRFQEILMPEELSSRLGTVPGVVEHGLFIGMADQAIIGCRDGSVRILHSASMQAKNTFDS	PGPT0017390_1082	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_RIBOSE_METABOLISM|DEGRADATION,PGPT0017390-rpiA-K01807	NA	NA
AK002_04180	198			hypothetical protein	ATGCGAACAGAGAACCAGATCAAATCCAAAATCAATGAACTTTCGATGCAAAAGAAAAAACTGCAAACCCGGCTGGCTTCTCTCGAAGAGGACAGCCCTGAGCGCGCTTCCCTTCTCAATCAGGATGCCCGTCTTGACGACATGATTACCATGCTGGAATGGGTGCTGTTTGAACCAAGCGGTTCCTATCATATGTAA	MRTENQIKSKINELSMQKKKLQTRLASLEEDSPERASLLNQDARLDDMITMLEWVLFEPSGSYHM				NA	NA	NA	NA	NA
AK002_04181	576	ymdB_2	COG2110	O-acetyl-ADP-ribose deacetylase	ATGAAAACATTTAAAATCGGAAGGACATCGGTCTCCGTCTTTATAGGCGATATAACGACATGGACGGGCGACATTATCGTCAATGCTGCAAATTCGGGACTGCTGGGCGGAAAAGGCGTGGATGGCGCGATTCATAGCGCCGGAGGGCCGGAGATCATGGAGCAGTGCATGGAAATTCGCAAGCAGCAAGGCGGCTGCCCGCCAGGCAACGCCGTGATTACAGGAGCAGGCCGGCTGCCTGCCCAGCATATCATTCATACCGTCGGCCCGATCTGGGAGGGCGGCGGAAGGCGCGAGGAGCATACGCTGGCGGAATGCTACCGCAACAGTCTCCTGCTTGCAATCGAGGTCGGTGCCAAAAGCATCGCCTTTCCTAATATAAGCACGGGTATCTATGAGTATCCTAAAGCTCCGGCATGTGACGTGGCGTTAAAGGCGGTGACGAAGCTGCTTGAGGAAGATCTGCCGGATAACCGGCTGGAGCGGGTTGATTTCGTTTGCTTTTCTCCCGAGAATGAAGAGCTCTATGTCCGTTGGCTGGAGCGGTTCACGCAGGAGAAGGAGGCGCAAGTATAA	MKTFKIGRTSVSVFIGDITTWTGDIIVNAANSGLLGGKGVDGAIHSAGGPEIMEQCMEIRKQQGGCPPGNAVITGAGRLPAQHIIHTVGPIWEGGGRREEHTLAECYRNSLLLAIEVGAKSIAFPNISTGIYEYPKAPACDVALKAVTKLLEEDLPDNRLERVDFVCFSPENEELYVRWLERFTQEKEAQV	PGPT0027680_830	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-darG-darT_TOXIN-ANTITOXIN_SYSTEM,PGPT0027680-antitoxin_darG-K23518	NA	NA
AK002_04182	432			hypothetical protein	ATGCAGAATATCGCAATCGCTGCCTGCATCCTATTGTTCGCGGCAGCGGGTTACATCGCGTTTATGAATTCCAAATTAATTGCGGATAAAAAGCGGGAAGCATACATTCCTCCGCCTGCTTCGGAATATACCGTTTATATGACGCCTCAATTCACCGAGGAGGACAAAAGGACGCTGAGTCCGATCGGCGTCATGGAATTTCGCGATCCGCAAGGCATGATGAAGGTATATCTTTGCCGGGTCAAAAATGAATCCGAAGACTTGAAGCTGGAGCAAGCCGGCAACGTGTTTCTTCATCATCTGACCAAGGCCAGGGACACCGGCACGCTGATGTTTTATCGGACCGTGGAGGAAGCGCTGCAGGGACCGGAGGAGAAGAGCTTAACCGACCGTCTGTCTGCAGCCGCGAAAAAAAAGGCGAGGACAGAATAG	MQNIAIAACILLFAAAGYIAFMNSKLIADKKREAYIPPPASEYTVYMTPQFTEEDKRTLSPIGVMEFRDPQGMMKVYLCRVKNESEDLKLEQAGNVFLHHLTKARDTGTLMFYRTVEEALQGPEEKSLTDRLSAAAKKKARTE				NA	NA	NA	NA	NA
AK002_04183	624			hypothetical protein	ATGCAGTGGATCGCCATGCTGACGATGCTGATTGATCATATCGGGCTTGTGTTTTTTCCGCATCAGGAGATGTGGAGAATCATCGGCCGCATCGCATTTCCAATCTATGTTTACGCTCTCGTGCAGGGACACCGCTACACTTCATCGAGACCCAAGTATATCGCACGGCTGGCCGTTATTGCAGCGGTCTCCCAAATTCCGTACCAGCTTGCGCTGGATCCCGAAGGGCTGAACGTGGTCGTAACCTTGTTGGCCGGTGCCTTGGTTCTTTATGTGCTGGAACGATCGGATTCCCGGCTGCTATCATGGATGGTGGTTGTTGCAGCCTGTGCGTTGATGAGTGAGTTTCCGTTTGATTACGGAGCCTACGGCTTGCTGTTGATCTTGATTTTCCGATATGCTCAGGCCGGCTGGCTCGTTCCGCTTCATATGTTATTGAACCTGCTGTTCTGGTTCCTTAATGATTGGGAGCTGCAGATGTGGAGCGTGATCCCGACGGCCGTGATAGCTTATGGCCCTCATGTATGGAGAAAACTGGAGTCCGTCCGTGTGAGCCGCTGGGTATGGCGTTCATTTTATCCGCTGCATTTACTGGCTATTGCCGTATTGCGGGTGTTTATATAA	MQWIAMLTMLIDHIGLVFFPHQEMWRIIGRIAFPIYVYALVQGHRYTSSRPKYIARLAVIAAVSQIPYQLALDPEGLNVVVTLLAGALVLYVLERSDSRLLSWMVVVAACALMSEFPFDYGAYGLLLILIFRYAQAGWLVPLHMLLNLLFWFLNDWELQMWSVIPTAVIAYGPHVWRKLESVRVSRWVWRSFYPLHLLAIAVLRVFI				NA	NA	NA	NA	NA
AK002_04184	174			hypothetical protein	ATGGAAAAGAAAAAAAACAACATGGCCTTAGGCATATGCATGGGGATCGGTGTGGGCATAGCGATTGGAGTGGCCATGAATAATATTGCTATAGGCATAGCAATCGGTGTTGCCATCGGCATATCGTTCGGCTCCTCCATGACAAACAAGAACAAAAAGCCGCCCCAAGAATAA	MEKKKNNMALGICMGIGVGIAIGVAMNNIAIGIAIGVAIGISFGSSMTNKNKKPPQE				NA	NA	NA	NA	NA
AK002_04185	3222			hypothetical protein	ATGTCCAATTATCGTTTTGAGAAGGATGCCTTTGTTATCGAGCAGTATGATCTCGCCAAGCCGTTTTCCAGCTTCCTGCCGGGGATTGCCGGATTGAAGGGGATACCGATGTGGACCTTTTACGTCAATCGGGGCCAAGGGATAAGCAGTTTCGGCATACGCGACAAGAATTCGCCGATCATGGAATTCTCGCCGGCCAATATCTCGTATAAGAACGTATCCGCCACCGGCTTCCGCACGTTTATCAAGATGGCCGGGACGCCGGCCGTATATGAGCCGTTCCAATCCTTTCAGCCGGACACGAAGGCACGGAGAACGATGCTGATTCGTCAGAATGAGCTGGTCATCGAGGAGGAGCATGCAGATAAAGGGCTTCGAACATCGGTCTCGTATTTCCAACTGCCCGGTGAAGATTTCGCCGCGCTTGTCCGCCAGGTCAGCGTGACGAATATCGGAGCCCGGACGGAATCGCTTGAACTGTTGGACGGTATGCCGGAAATTCTGCCTTACGGCGTCGAGAACAGCGGGTACAAGGAGGTCGGCAATCTGCTGCGAAGCTGGATGGAAGTGAAGAATCTGGACCGGGGCATACCGTTCTATAAGGTTCGCTCCAGTACGCATGATGAGGCGGAGGTTACCGAAGTTACGAACGGCCATTTCTATCTGTCGTTTGATCAGCACGGGAACTTGATCAAACCGATCGTAGATTTTGAGCTGATATTCGGCGGAAACACTTCATTGATCCACCCCGATCGATTTGCCGCGGGTTCGATCGAATCCTTGGCGCAAGCCACGCCGTATCCTGTGAACAAAGTGCCATGCGGCTTCAGCGGATTATCGGCGCGGCTTGAGCCTGGGGAGACGGCAACCGTGTATACGCTGGTTGGTCATGTGAACGATATCGGCAAAATCAACAAACGCTCGAAAGATTTGTGTTCGCCTGCCTATATCCTCGATAAGCGGAAGGAGGCATCGGCATTGACCCGGGAATTAACCGATGATGTGGCCACCAAAACGGGGTTGCCTGTATTTGATGAATACAGCCGGCAGTCCTATCTGGACAATTTCCTCCGGGGCGGTTATCCGTTCATATTCGATAACGGGAAGGAAGGAGCGGTCGTCCACCTCTATTCCCGCAAGCACGGGGATCCGGAGCGGGACTATAACTTTTTCTCGCTGGCGCCGGAGTATTATTCACAAGGTAACGGCAATTTCCGGGACATGAACCAGAACCGCCGAAATGATGTGTTTTTCAACCCCAAGGTGGGCACGTTCAACATCCGGATGTTCTTCAGCCTCATTCAAGCGGACGGTTATAATCCCCTTAGCGTAGAAGGCACGAAATTTCGAGTAGCCCAAGGCATGGAGGGGGAACTGGAGAAGCTGCTGCGCGCCTCCGCGGCTCAGGAGGATTATGATAAGCTCGCGAAGGCATGCGCCGGGGATTTCACCCCGGGCAAAATCATTAACGCGATAACGGATCAAGGCATTCGGCTGGCGATCGACGAGGAACGGTTCTTATCGGGATTGCTGACGATATCCGAACAGCATTTTGCGGCTTCGTTCGGCGAAGGCTTCTGGTCGGACCACTGGACCTATAACATGGATTTGGTTGATGGTTTCCTGGATATTTATCCCGACCGATATGAAGAGCTGCTGTTTGGCGAGAATGCCTATACATTCTTTGACAGCCCGGTATATGTGCTCCCACGGAGCGAGAAGGTTGTGATCAGCCGGGGCAAGGTTCGCCAGTTCGGCGCGCTGCTGGAGGACGAGGAGAAGCTGAATAAGCTCGGCAGAAAGCGGAACGCGGCGGAATGGCTGCGGGTGAATGGCGGACAAGGCGACATTTACCGTACGAATCTATTTGTCAAAATGATCTCGTTATCCCTCAATAAAATGGCAACGCTCGATCCTTACGGGATGGGTGTTGAGATGGAGGCAAACAAGCCGGGCTGGAATGACGCGATGAACGGATTGCCGGGTCTGTTCGGCTCCGGGATGAGCGAAACGATGGAATTGAAGCGTTTGGTGGCATTCATCGTGGAGGCTGCCGAGCGGTTCGGTCATCATACGGTGATGGTGCCGGAGGAAATCGCCTCTTATTTAGAGGGCGTATATGATGCCGTACAGCAATATCAAACCGGTGCACTGGACTCCTTCCGATATTGGGATCGGGTAGCTGGGCAGCGCGAGTCCTATCGGGCATCCGTCCGATACGGCATCAGCGGCCTGGAAGTTGAGATTCCAGTGAAACACGTAAAGAGGATATGCGCGGCTTTCCTGGACAAGATTGAAGAAGGGATTCAGCGTGCTGAGCAGCTGGGAGGAGGAATCGTTCCAACGTACTTCCGCTTTGAAGCGGAGCGATTCGAAGAAATCCGGGATGCGGAGGGCAGCCCGGTCATCACCCGCTATGGCTTGCCTGCCGCTAAAGTGCTGGAATTCAAAGCATATGCGCTTCCGCATTTTCTCGAAGCCCCGGCCCGGGGAATGAAGCTCGCCAATGAAGGCCAGGCGAGAGCGATGTATGATCGGATCAAGGCATCCGATTTATATGATGCCGCGCTGGGGATGTATAAGACGTCCGTCAGCCTGGAAGGGGAAGGCGATGAAATCGGACGCATCCGCGCATTCACGGCCGGCTGGCTGGAGCGGGAATCCGTATTTTTGCATATGACCTATAAATACTTGCTTTCCTTATTAAAAGCAGGACTGTACGACGAGTTTTTCTCGGAAATCAAAACATCGCTTATCCCATTTCTGGACCCGGCCGTTTATGGACGCAGCACCCTGGAAAATTCATCGTTCATCGCCAGCAGCGTCAATCCGGATCCCCATGTACATGGGCGCGGTTTTGTGGCAAGGCTGAGCGGATCGACGGCCGAATTCTTAAGCATGTGGATTATGATGATGGCCGGGAAAAGGGTATTCCGTTATGAGGGCAACCAGCTTCAGCTTCATCTGAACCCGGTGCTTCCGTCTTGGCTGTTTGACGAGCGGCAGGAGGTGTCGTTCACCTTCCTCGGTTCCGTCAAGGTAACGTATCGCAGCGAGCGCGCGGCAAATACGTTCGGGCAGGACGGTGTTGCGATTCAGCGATTCACCTTGACGACGGCGGGAGGAGACACGTTCGAGGTTGACGGCCTCCTCCTTACGGGCAAGTGGGCCCATGAAGTCCGTAACGGAAACATCCGGTCCATTCTTGCAGTCATGAGGTAA	MSNYRFEKDAFVIEQYDLAKPFSSFLPGIAGLKGIPMWTFYVNRGQGISSFGIRDKNSPIMEFSPANISYKNVSATGFRTFIKMAGTPAVYEPFQSFQPDTKARRTMLIRQNELVIEEEHADKGLRTSVSYFQLPGEDFAALVRQVSVTNIGARTESLELLDGMPEILPYGVENSGYKEVGNLLRSWMEVKNLDRGIPFYKVRSSTHDEAEVTEVTNGHFYLSFDQHGNLIKPIVDFELIFGGNTSLIHPDRFAAGSIESLAQATPYPVNKVPCGFSGLSARLEPGETATVYTLVGHVNDIGKINKRSKDLCSPAYILDKRKEASALTRELTDDVATKTGLPVFDEYSRQSYLDNFLRGGYPFIFDNGKEGAVVHLYSRKHGDPERDYNFFSLAPEYYSQGNGNFRDMNQNRRNDVFFNPKVGTFNIRMFFSLIQADGYNPLSVEGTKFRVAQGMEGELEKLLRASAAQEDYDKLAKACAGDFTPGKIINAITDQGIRLAIDEERFLSGLLTISEQHFAASFGEGFWSDHWTYNMDLVDGFLDIYPDRYEELLFGENAYTFFDSPVYVLPRSEKVVISRGKVRQFGALLEDEEKLNKLGRKRNAAEWLRVNGGQGDIYRTNLFVKMISLSLNKMATLDPYGMGVEMEANKPGWNDAMNGLPGLFGSGMSETMELKRLVAFIVEAAERFGHHTVMVPEEIASYLEGVYDAVQQYQTGALDSFRYWDRVAGQRESYRASVRYGISGLEVEIPVKHVKRICAAFLDKIEEGIQRAEQLGGGIVPTYFRFEAERFEEIRDAEGSPVITRYGLPAAKVLEFKAYALPHFLEAPARGMKLANEGQARAMYDRIKASDLYDAALGMYKTSVSLEGEGDEIGRIRAFTAGWLERESVFLHMTYKYLLSLLKAGLYDEFFSEIKTSLIPFLDPAVYGRSTLENSSFIASSVNPDPHVHGRGFVARLSGSTAEFLSMWIMMMAGKRVFRYEGNQLQLHLNPVLPSWLFDERQEVSFTFLGSVKVTYRSERAANTFGQDGVAIQRFTLTTAGGDTFEVDGLLLTGKWAHEVRNGNIRSILAVMR				NA	NA	NA	NA	NA
AK002_04186	1113	exuR_6	COG1609	putative HTH-type transcriptional repressor ExuR	GTGCGGAATAACATTGACGAGTGCCTGCCGGCACAGGTAGAATTTAATACCAGAGAGATGGTCTTAGATTATGTCGGCGAAGGGCAGGAGCTGATTCCAAGGTTGACAACGATTTACGATATTGCGAAGAAAACAGGCTATTCGCCTACGACAGTATCCAAAGTCTTCAACAATTATCCGGACGTCCGGGAAAAGACGAGGGTCAAAATCCTGGAAACCGCTAAGGAAATGGGGTATCTTCCAAACGCAAATGCCAGGTCACTTACGACCAAGCGATCCTGGACGATCGGCATTCTTTTTGTTGAAGCCACGGGAGCCGGAATTCGGCATCCCTATTTTGGAGCCGTCATCGAAAGCTTTAAGAAAATCTCCGTATCCAAAGGGTATGATCTGATGTTCATTTCCAAGGATGTCGGCGGCCGAAGAAGCAGTTATGTGGAGCATTGCAAAATCAGGGGCGTCGACGGCGTTGTGGTCATCCTGTCGAGCAATGATGATCCCGATTTCCAGGAGCTGCTGGATAGCGGCATTCCGTGCGTCATTCTGGATTCGTCACCGGAGCATGTGCATTCGGTTTACTCCGACAATATCGGAGGCAGCATGCTGGCAATCCGGTATTTGCACTCGCTTGGACATCGCAGCATTGCCCATATTTCGGGCGGATTGAATACGTTTGCAGGCGAGCAGCGCCAACATGGCTATGTACAAGCGCTGCGTGAGCTGGATCTGAACCTAAGGGAAGAGTACATAACCGGCAGCGATTTTTACTCCACCGAGAGCGGATACGAAGCCATGAAGAGGCTGCTTGCACTCGAGGATCGGCCGACAGCCGTTTACGCCGCTGGGGATTTGCTCGCGCTTGGAGCGATTCGAGCCGTGCTGGACCATGGCCTTAGCGTGCCGGAGGACGTGTCGGTCATCGGCTTTGACGATATTGAAATGTCCCGCTACATTACCCCTGCATTAACGACGGTCCGCCAGGATACGGAGCAGCTTGGCAAGGTTGCCGCGGAGATCCTTCTTTCTTCAATCGAAGAGCGGGATACCGCCGTAAAGTCGGTTATGCTGCCAGTCGAATTAATGATCCGGGAGTCCTGCCGCCCGGTCACCTAA	MRNNIDECLPAQVEFNTREMVLDYVGEGQELIPRLTTIYDIAKKTGYSPTTVSKVFNNYPDVREKTRVKILETAKEMGYLPNANARSLTTKRSWTIGILFVEATGAGIRHPYFGAVIESFKKISVSKGYDLMFISKDVGGRRSSYVEHCKIRGVDGVVVILSSNDDPDFQELLDSGIPCVILDSSPEHVHSVYSDNIGGSMLAIRYLHSLGHRSIAHISGGLNTFAGEQRQHGYVQALRELDLNLREEYITGSDFYSTESGYEAMKRLLALEDRPTAVYAAGDLLALGAIRAVLDHGLSVPEDVSVIGFDDIEMSRYITPALTTVRQDTEQLGKVAAEILLSSIEERDTAVKSVMLPVELMIRESCRPVT	PGPT0017992_10597	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
AK002_04187	1209			hypothetical protein	GTGAGGAAAACATGGCTGCTGGGCTTCGGCTTTTTCAGCATTAGCATTACCTGGGCGCTGTACAATGCGTTTGTGCCCTACTTTCTGGAGGATTACATATCCAGTGTCGCATGGATCGGTTTTTTTATGACGATCGACAATTACTTTGCCTTGTTCTTGCAGCCATGGATTGGAAGCCGAAGCGACCGTACCCATACCCGGTACGGCAGAAGAATGCCTTACCTGCTTATCGGAATGCCGCTAGGCGCTTTGTTTACGGCCATGATTCCGTTTCATAACGGAATGGCGACGTTGTTACTGTTCATGGTCCTCATGAACCTGGCCATGAGCCTGTATCGTTCGCCAACCGTTTCATTGATGCCGGATATAACGGAAGAGAAGCGACGCACCAGAGCCAACGGCATCATTAACTTTATGGGCGGCTTGGGGTCCATATTGGCATTCGGCGTGGGCTCGGTGCTGTACAGTGCCCATGCGTCGCTGCCTTTCATTGCAGCTGCCGGCGTAACGCTTGTCTCTTTATTCATTCTAAAGACGTTCATCCAAGAGAAACGCGACGCTCCGGGCTATCAAGCCCAGACGGCCGCCAGAGCCAAAATTTCCTTTAAAAGCCAAATCAATCGAACGACGGTGCTGCTGCTGGCTGCCATATTCTTCTGGTTCGTGGCGTACCAAGGGGTTGAGACGCTGTTTACCCTGTACGGGAAGAATGAGATGGGGCTGACGGAATCGCAGGCGTCCTTTTCCTTGACGTTTTTTTCGCTCGCCTTCGTTCTGTTTGCGATTCCCAGCGGATGGCTTGGCGGTAAATTCGGGAAGAAACGGCTGATCCTGATCGGCGTCAGCGGGCTGCTGATTGTCTTTGCGCTCGTCCCATGGGTAGAATCGCTGCTGCTGCTTCGCGTACTGCTGACCGTTGGCGGATTGTTTTGGGCTTGCATCAATATCAATTCTTACCCTTTCATCGTATCGACCGGAACGGAGGACAGCATCGGGACGCGGACAGGAATGTACTATTTGGTATCTTCGCTGGCGGCAATATCGTCGCCGCCTCTGCTGGGCAAGCTTATTGACGGTATGGGATATTCGATCCTGTTTTATTGCGCCGCCGGCAGCATGCTGCTTGCGCTGATCTGCATGCTGATGATTCGTCATCAGGAAACGGATAATTCCGCTAAAGCGCAGAACGCCTCCGCCAGCTTATCCTAG	MRKTWLLGFGFFSISITWALYNAFVPYFLEDYISSVAWIGFFMTIDNYFALFLQPWIGSRSDRTHTRYGRRMPYLLIGMPLGALFTAMIPFHNGMATLLLFMVLMNLAMSLYRSPTVSLMPDITEEKRRTRANGIINFMGGLGSILAFGVGSVLYSAHASLPFIAAAGVTLVSLFILKTFIQEKRDAPGYQAQTAARAKISFKSQINRTTVLLLAAIFFWFVAYQGVETLFTLYGKNEMGLTESQASFSLTFFSLAFVLFAIPSGWLGGKFGKKRLILIGVSGLLIVFALVPWVESLLLLRVLLTVGGLFWACININSYPFIVSTGTEDSIGTRTGMYYLVSSLAAISSPPLLGKLIDGMGYSILFYCAAGSMLLALICMLMIRHQETDNSAKAQNASASLS				NA	NA	NA	NA	NA
AK002_04188	738	glpQ_5	COG0584	Glycerophosphodiester phosphodiesterase	ATGTCACAATTGATCAATTTCGCACACCGCGGGTCATCGGCCATATGCCCAGAGAATACGATGGCTGCCTTTTCCAAGGGCTTGGAGCAGGGAGCTACCGGGATCGAAACCGACGTCCAAATGACGAAGGACGGAAAGCTGGTATTGATCCATGACGAGAGTGTCGCCCGCACGACCGGGGCCGAGGGGCTTGTCAAGGATTATACATACGATGAGCTGGCCAAGCTGGACGCAGGCTCATGGTTTGGTGCCGATTTCCAAGGCGAACGGATTCCGCTGCTGGAAGAACTGCTGGAATTAACCCAAAACCGCGGCACGATTGTTAATATCGAGCTGAAGAACGGAACGATCCAATATCCAGAGCTGGAAAAGCGCGTGATTGAGGCTGTAAGGCATTACAATATGGCGGAGCAAATCGTCATTTCGAGCTTCAATCATTATTCCCTGGTGGAATGCAAACATATTGATCCAGAAATTCGTACCGGGCTGCTGTATGGCGAAGGGCTGTACCAACCGTGGGAATACGCCAAATTGGCTAAAGCGGATGCCCTGCACGCATACCATCGGGCGGTTCTGCCGGAGTGGGTAACGGAAGCGAAGCAGCATGGCGTCGTCTATCATCCGTGGACCGTGAATGACGAGGGACGGATGAAAGAGTTGATGGATGCGGGCGTTGCGGGCATCATTACGGATTATCCGGATGTGCTGAACGGACTGCTGCAAACCAAGGGAGCGTGA	MSQLINFAHRGSSAICPENTMAAFSKGLEQGATGIETDVQMTKDGKLVLIHDESVARTTGAEGLVKDYTYDELAKLDAGSWFGADFQGERIPLLEELLELTQNRGTIVNIELKNGTIQYPELEKRVIEAVRHYNMAEQIVISSFNHYSLVECKHIDPEIRTGLLYGEGLYQPWEYAKLAKADALHAYHRAVLPEWVTEAKQHGVVYHPWTVNDEGRMKELMDAGVAGIITDYPDVLNGLLQTKGA	PGPT0018470_7236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_04189	465	slyA_2	COG1846	Transcriptional regulator SlyA	TTGAAAATACCTAAACGCAACCCTTCCATCGGTTTTCATCTGGGTTACACCTATCGGCGCGCATCCCAATTGTTTGCTAATGCCCTGAAGCCCTATGACATCACCCCCGAGCAATGGCTGGTTCTGTACCACATCGGCGAGCACGAGGGGCTGAATCAGAAGGAAGTTGCCGCCAAAGCGGACAAAGACCAGCCCACGACAACCCGTATTCTGGACCTGCTCGAGAAAAAAGGATACACTCGCAAATCCGTATCGGTTAACGACCGGAGAGCTTTTCAGCTCTTTTTGACAGATACAGGAAAGGAACTGATTGAAGCGACCACAGCCATCGAAAGTCAATGCGGAAGCCAATTAATCGAGGGCATTGACGAGAAGCAATTGGAGATGTTCTGGGACACACTCTCACGCATCAATGCCAACATACACAACTTACACAACAACAGGAGAGATGTTCCACATGAATGA	MKIPKRNPSIGFHLGYTYRRASQLFANALKPYDITPEQWLVLYHIGEHEGLNQKEVAAKADKDQPTTTRILDLLEKKGYTRKSVSVNDRRAFQLFLTDTGKELIEATTAIESQCGSQLIEGIDEKQLEMFWDTLSRINANIHNLHNNRRDVPHE	PGPT0016255_777	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
AK002_04190	1239	yfcJ		putative MFS-type transporter YfcJ	ATGAATGATATCAACACGAAACAACCGCTATGGACCAAAGAATTCATCACGTTGATGGTCAGCAACCTTTTTCTGTTCCTGACCCTGCAGATGATGCTGACCACGCTGCCCGCATACGCCAAAGATGCGTTCACGGCAAGCCCCCTGCAGGTGAGCCTCATCACCAGCCTGTTCGCCTTCAGTGCGATCGCGTCCCGCTTCGTATCAAGCAAAGCGCTCGAAAAAGGAAAGCTCAGGCTGCTGCTGTACGTCGGGCTGCTGATTTCCCTGGCAGCCACGCTCGGTTATTACTGGGCGAGCGGCATAGCCTTCCTGCTGCTGATGCGCATCTTGTTCGGCATCGGCTTTGGCATGACAAGCACCTCGTTTCCAACCATGGCATCGGACGTCATTCCAATCAAACGCTTGGGCGAAGGCATGGGGTATTTCGGGCTATCCACTACGCTTGCCATGTCGATCGGTCCCATGATCGGCTTGACGCTGCTGCAAAGCGGCGGTTTCACTCCGCTCGTATTCATCACGGTCATCATCAACCTTCTGATCTTCCCTCTCGCCTACCTCCTGACATCAAGAGCGGCTAAACGGAACGCGGAGCGCCCTGCAGCGGTTCAACCCCGAGTTGAGAATAAACCGAAGGGCTCCTTTAACAAAAAACTGATCCTCCCCAGCACCCTCAACTTTTTGATGTCGATTACGTACGGCGGGCTGCTGAGCTTCATGGCATTGTTCGGAGCGGAGGCTCACCTCCGGAATCCCCAGTATTTTTTCTTGTTCAACGCCATCGCCATCATTCTCGTACGGCCGTTCTCCGGCAGAATTTATGACCGGTATGGACATAAGGCGCTTGTTATACCCGCTGCGATTCTGATGGTATCCGGCTTGCTCCTGCTTACCTTCGCCACATCGACGGGATCCATGCTGTTATCGGCGCTGTGCTACGGCATAGGCTTTGGGGCGATGCAGCCGTCCATCCAGACCTGGATGATCCAGGAGGTTCATCCGCTGCAGCGCGGCATGGCCAACGGCATGTTCTTTAACTCCCTGGATTTCGGCGTGGCCATCGGCTCGATCGCGCTCGGCGCCATCGCCAAATCCACTTCCTATGCCATTATGTACCGATACTCGGCAATTGCACTCGTGCTGTTGATCCTGATTTATATCATCATGCAGGCAGCCGGCAAGTCGCGTTCCAAATCAACCATGGCAGTCGAGGACACCGAGGCTACCGTGGCAGGTTAA	MNDINTKQPLWTKEFITLMVSNLFLFLTLQMMLTTLPAYAKDAFTASPLQVSLITSLFAFSAIASRFVSSKALEKGKLRLLLYVGLLISLAATLGYYWASGIAFLLLMRILFGIGFGMTSTSFPTMASDVIPIKRLGEGMGYFGLSTTLAMSIGPMIGLTLLQSGGFTPLVFITVIINLLIFPLAYLLTSRAAKRNAERPAAVQPRVENKPKGSFNKKLILPSTLNFLMSITYGGLLSFMALFGAEAHLRNPQYFFLFNAIAIILVRPFSGRIYDRYGHKALVIPAAILMVSGLLLLTFATSTGSMLLSALCYGIGFGAMQPSIQTWMIQEVHPLQRGMANGMFFNSLDFGVAIGSIALGAIAKSTSYAIMYRYSAIALVLLILIYIIMQAAGKSRSKSTMAVEDTEATVAG				NA	NA	NA	NA	NA
AK002_04191	1281	ymfD		Bacillibactin exporter	ATGGAAAACAAGAAATGGGATCTGGTTGCCCTAGCATCCATACCACTCATCATGACGTTAGGCAATTCCATGCTGATTCCCATTTTGCCGCAAATTTCCAAAGTTTTGGGGATCAGCTCCTTCAATGTGAGTATGCTGATAACGGTGTATGCTGTTGTAGCCATCTTGCTGATTCCGATCGCCGGGTACTTGTCGGATCGGTATGGAAGAAAGAAGATCATCATCCCGAGTTTGATTATTGCGGCGTTAGGCGGAGCCGTGTCCGCGGTAGCTGCCTGGCTGCTAAGCGGGACAGGGGCGTATTATGTCATATTAGCCGGCCGTTTTCTACAGGGAATCGGCGCAGCGGGGGCCTTCCCGATCGTCATCCCGCTTGTCGGTGACATGTTCAAGGAGGAAGAAGAGGTTAGCAAAAGCCTGGGAATCATTGAAACCTCCAACACGTTTGGTAAGGTTGTCAGTCCGATATTGGGTGCGCTGCTGGGAAGCTTCATCTGGTTCTTGCCCTTTATATCGATTCCGGTTCTTTGCCTGATCTCACTCGTGCTGGTCATTTTTCTGGTGAAGACGCCAAAGTCGAATAACAATGATAAACAATCCCTGCGTGAGTTTTTGAAAAAAACCAAGGGGGTTTTGCATGAGAAGGGAAGATGGCTGTATGCGATATTCGCCATCGGCGGCATCGCAATGTTTGGCGTATTCGGCGTTCTTTTTTATTTGTCGGAGACGCTGGAAAGCACTTACAAATTACATGGCGTAGTAAAAGGATTGGTGCTTGCAATTCCACTGGCTTTATTATGCCTATCTTCTTATTTAGCCGGTAAATTTACGGGCAAAAACAAAGCGGCAAAGAAGTGGACCGGTTTCGCCGGCATGGTTATTTTGACGGCTTCCCTGATTGTCACCGGCTTTAGCGAACAGATCTATTTTGTCGTCGGAATGATGACGCTTGGCGGGATCGGGATCGGCATGGTGCTGCCGTGCATGGATACGCTGCTGACGGAAGGCGTGGAGAAGGAGCAGCGCGGCACCATCACCTCGCTTTACAGCAGCATGCGTTTTATCGGGGTATCGCTGGGGCCGCCGGTCGTTTCTCTCCTGCTGGGCGCGAACCATTGGGTGATGTTTGGCACGCTGGCAGCTGTTGCGGCTGTAGGCGGTCTCCTTACGTTATTCGCGGTGAAGCCGGAGGCAAAAGAAGACGATTCCGGAGGGAATTCATACCGGGTCGATTTCAAGAAACCGCAAGGATTGAAAAAGAAAGGTCTTGTCCATAAATAA	MENKKWDLVALASIPLIMTLGNSMLIPILPQISKVLGISSFNVSMLITVYAVVAILLIPIAGYLSDRYGRKKIIIPSLIIAALGGAVSAVAAWLLSGTGAYYVILAGRFLQGIGAAGAFPIVIPLVGDMFKEEEEVSKSLGIIETSNTFGKVVSPILGALLGSFIWFLPFISIPVLCLISLVLVIFLVKTPKSNNNDKQSLREFLKKTKGVLHEKGRWLYAIFAIGGIAMFGVFGVLFYLSETLESTYKLHGVVKGLVLAIPLALLCLSSYLAGKFTGKNKAAKKWTGFAGMVILTASLIVTGFSEQIYFVVGMMTLGGIGIGMVLPCMDTLLTEGVEKEQRGTITSLYSSMRFIGVSLGPPVVSLLLGANHWVMFGTLAAVAAVGGLLTLFAVKPEAKEDDSGGNSYRVDFKKPQGLKKKGLVHK	PGPT0003580_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003580-ymfE-K08221	NA	NA
AK002_04192	1704	yoaH	COG0840	Putative methyl-accepting chemotaxis protein YoaH	ATGAAGATAAAAACAAAATTAATTCTTTCGTCTACGATACTTGCGACGGTTACGGCGGTTATCGTAATCATTGCGTTTATCACTTCGAATATGACGGAGAAGAGGTTCAGCAAGATTATTGAAGAGGACCAGAAGGTCATTTATAACCTGACGCAATTGGAGACCCTATTGACGGGCGTTTCCAATGATGAGCGGGGCTACTTATTGACCGGGGATTCGACCTTTGCAGATTCATTGAAATCGAAACAGGAGTCCGTCGTCAAACTCATGGCCGAAACCAAAGGCTTAATGACGGCTGAAGAAGACCAGAAGGTATTTAACGAGATTGAAGCCGGTTATGTCGTATACTCCGAGGCCATAGCCGAGGTATTGAACAAATTGGGGTATGACACCGGTTTTTACAAGGCGGTCCCGTTCCGGGTATACGAAGCTGCCTTTAACAAGGAGCGGGAAGTGCGCAAGTCATTTAGCGAGCTGATCGCGCAGTTTACGGTACATAAAAATGAAACCCTGGCGAAACAGGCTGATCAGATTGCGGCCAGCAGCCGGTTTCAGAATTTGATCATCATGCTGATCGGAGTGGCAGCTGTCGTTTATTTTGCCACACAGGGCTATCTCCTGACCCGCTCGATCCGTCCGTTGAACCAGATGAGCAGTCAGCTTCTGAAGATTGCCGAAGGCGGGGGAGATCTGGTTACCCGATTACACATCACAACGAAGGATGAAATCAGGGATGTAGCCGATGCTTATAATAAATTGGTCGATGGCTTCAGGGAGCTGGTCGTCCAAGTGCAGGATACTGCAGGTAAAGTGGGGATCGCTGCTTCGACGCTGCATTCGACGACAGAGGAAATCCGTCAGGCTTCCCACCAAACGTCCGGGATTATGGAAGAGCTGGCTGCCGGGGTAGAGAACCAGCTGCAGGATACGGAGGAAACGACGGCGACCGTTACGGATATGGCGGAAGGCATGAAGCATATCGCGCTTGCAGCCCAAGACGTTTCCGGACTGGCGGCAGCGGCGAACAAACTTGCGGCTGAAGGGGAACAGGCCCTTGTACATACGCTAACCCAGATGGAAGGCATCCGTACCAGCGTGGACCAATCTGCGCAATCCGTGCGTGCGCTCGGAGAGAAGGCCTCCAACATCGGGGCGATGGGACAGATCATCATCGAAATTGCGGAGCAGACCTCACTGCTTGCCTTGAATGCCTCCATTGAGGCCGCTCGGGCTGGCGAGCATGGCAGAGGTTTTGCGGTCGTCGCCGCAGAGGTCCGGAATTTGGCTGACCAGGCATCGAACTCCTCCGTCGAAATCAGACAGTTCGTTCACGAGTTGCAGCAAGACATCGTAAATCTGGCCGGCGTGATGGAACAGGGAACCCGCGAAGTAACCGAAGGCATGAACGTGGCGCAAGGAGCCGAGCGAGCCTTTAAGGAAATCGAGCAGTCGGTCGGCGAATTGAACGGCCAGATTCAAAGCGTCACTGCTGCAACCGAACAGATGAATTCGGGAGCTGGGGAGCTCGTTCACGCGATCCGTCGAATCCAGGAGGTCACGGAGACGACGGCAGGCGGTACGCAAAGCGTCAGTGCCGCAACGGAAGAGCAGCTGGCCTCCATGGAAGAAATCACAAATTCCGTTGAAGATCTTAACGTGATGTCTGGCAAGCTTCGTCAGTTGATGTCCGGATTTAAAGTATAA	MKIKTKLILSSTILATVTAVIVIIAFITSNMTEKRFSKIIEEDQKVIYNLTQLETLLTGVSNDERGYLLTGDSTFADSLKSKQESVVKLMAETKGLMTAEEDQKVFNEIEAGYVVYSEAIAEVLNKLGYDTGFYKAVPFRVYEAAFNKEREVRKSFSELIAQFTVHKNETLAKQADQIAASSRFQNLIIMLIGVAAVVYFATQGYLLTRSIRPLNQMSSQLLKIAEGGGDLVTRLHITTKDEIRDVADAYNKLVDGFRELVVQVQDTAGKVGIAASTLHSTTEEIRQASHQTSGIMEELAAGVENQLQDTEETTATVTDMAEGMKHIALAAQDVSGLAAAANKLAAEGEQALVHTLTQMEGIRTSVDQSAQSVRALGEKASNIGAMGQIIIEIAEQTSLLALNASIEAARAGEHGRGFAVVAAEVRNLADQASNSSVEIRQFVHELQQDIVNLAGVMEQGTREVTEGMNVAQGAERAFKEIEQSVGELNGQIQSVTAATEQMNSGAGELVHAIRRIQEVTETTAGGTQSVSAATEEQLASMEEITNSVEDLNVMSGKLRQLMSGFKV	PGPT0015710_15810	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_04193	2331	helD_3	COG3973	DNA helicase IV	ATGGCTATCAGCGATCAAGATTGGAAAGAGGAACAGGCGCGGGTAACGGAAGTAACAGTAAAAATCGGAAATAAAATATCCCAGCTGGAAGCGAGCGTCGGCGATATCCGTGAAGTCGTCATTGACATGCGGAAGGACTTCTGGGACGAAGTTACGGTGAACTTCAGCAACCCGGACGATTTGGGCGAAACGTCCACCAACCTGAGACAGCAGTCGCAGGTGCTCGCCGAACGCGAGCATGCTCATCTGCAGTCCAGCAAGCTGCTTAAAAAGTACAGGAAGCTGGTGGAATCCCCGTACTTCGGACGCATTGACTTTCAGGAGGATGGAACTGCGGAGACGGAAACCATTTATTTGGGGACAGGTTCTTTTTTGGACGAAAAGATGGAGACGTTTCTGGTTTACGACTGGCGGGCACCGATCTCGAGCCTGTATTACGACGGTGCGCCGGGTCCTGCCCAATACGAGACGCCTTCGGGTACGGTCAAGGGTGAAATGCTGCTCAAGCGCCAATTCGTCATTCATAACGGCGAGATCAAGGTGCTGTTCGATACCGGCGTAACCATCGGAGATGAACTGCTGCAGCAGGTGCTCAGCCATAGCGCGGATGACCGCATGAAGAGTATCGTGGCTACGATTCAGAAGGAACAAAACGCGGTCATCCGTAATGACAAAACGCGCATGCTGATCGTGCAGGGGGCTGCCGGAAGCGGAAAGACCTCGGCGGCACTGCAAAGGGTGGCTTATCTGCTGTACAAGTACCGGGAGACGCTCCGGGCCGACCAGATGATCCTGTTCTCCCCGAATCCGCTGTTCAACAGCTATGTGTCCACGGTGCTTCCCGAGCTCGGCGAGGACAATATGCAGCAGACGACCTTCCAGTCCTATCTGGAGCACCGGCTCGGTAAGGAGTTCGATCTCGAAGACGTGTTCACGCAGACGGAAACCCTGTTGAACGCGGATGATTCGCCGCGTTACCGTGCACGCTTGGAGAGCATATCGTATAAATCCTCGGGGGCTTATCTGGACACCATCAGACGATACAAAGAGCTGCTGGAAAAGGGAGGCATGCTCTTTAAGCCGGTCGTATTCCAGGGGAAGGTGATTGTCAGCTCGGAGGAGATGGCATCGCAGTTCTATGGATATGATTCGGCGGTTAAGCTCGCTGGCCGCATTGATCTGATGAAGGAATGGATGCTTAAGCGCCTGTCGGAGTTTGCCCAGAGCGAGAAAGATGCCCCGTGGGTAGAGGAGCAAATCCAGCTGCTGGATACGGAAGATTACCAACGGGCCTTTCAAACGATGAGACGCAAGCAAAACCGGAAGGCAGACACGTTTGACGATTTCGATAAGGAAAAAGACGTCCTTGCGAAAATGGTGGTCAGCAGCCGGCTCAAGCCGCTTCGGCGCTGGATCAAGAGGTTCCGGTATGTGGACGTTAAGGGCATGTACCGAAAATTGTACACGGACGAATCATTATTCCGCCGGGCGGCGGGAAATTTGGAGATGCTGCCGGAACATTGGGATGAAATATGCAATCTTACCGTTGCGTCCCTGGACGACAAAGCATTGCTATACGAAGACGCCACGCCGTTTCTCTATCTGAAGGAACTGCTGCAAGGGTTCCGTACGAATACGTCGATACGCCATGTCATCGTCGATGAAGTTCAGGATTATTCCGCATTTCAGCTGGAGTTCCTGAAGCGTTTGTTCCCGCGGGCCAAAATGACGGTGCTGGGGGACCTCAATCAAGCCATTTATGCTCATGGAGAGGCACTCGGAAGCTTGGAGAATCTGGTGAGTCTGTATGGCAAAGAAGATACGGAGGTCATTAATCTGACCCAAAGCTACCGGTCGACGTATGAAATCGTTAACTTCACGCGACAAATGATACCTGGCGGGGAGCGGATCGTTCCTTTCAACCGGCAAGGCGAAGCCCCTCGAGTCGTTCGGGTGAACGATGAAGAAGAACTGCATGGCGCGATCGTATCCGATATCCGTGAGCTTCATGAGCAGGGATTCCAGTACGTTGCGGTGATCTGCCGGACAGAAGAGGAGAGCAGGCGCGTACATCAGCAGCTGTCGGCGGATATCTCCGCCCGCTTAATCACCAAAACCACGCCGGCCTTTGAAAAGGGAACGCTGGTGGTTCCCGCCTACTTAGCCAAAGGCGTGGAGTTTGACGCGGTGATTATCTATAACGGCGCCGAGGACGTGTACCACCGGGAAAGCGATCGTAAGCTGTTCTACACGGCATGTACGCGAGCCATGCATAAACTGCATGTCTATCATATCGGGGAGAAGAGTCACTTTATCTCCGGTCAAGCTTAA	MAISDQDWKEEQARVTEVTVKIGNKISQLEASVGDIREVVIDMRKDFWDEVTVNFSNPDDLGETSTNLRQQSQVLAEREHAHLQSSKLLKKYRKLVESPYFGRIDFQEDGTAETETIYLGTGSFLDEKMETFLVYDWRAPISSLYYDGAPGPAQYETPSGTVKGEMLLKRQFVIHNGEIKVLFDTGVTIGDELLQQVLSHSADDRMKSIVATIQKEQNAVIRNDKTRMLIVQGAAGSGKTSAALQRVAYLLYKYRETLRADQMILFSPNPLFNSYVSTVLPELGEDNMQQTTFQSYLEHRLGKEFDLEDVFTQTETLLNADDSPRYRARLESISYKSSGAYLDTIRRYKELLEKGGMLFKPVVFQGKVIVSSEEMASQFYGYDSAVKLAGRIDLMKEWMLKRLSEFAQSEKDAPWVEEQIQLLDTEDYQRAFQTMRRKQNRKADTFDDFDKEKDVLAKMVVSSRLKPLRRWIKRFRYVDVKGMYRKLYTDESLFRRAAGNLEMLPEHWDEICNLTVASLDDKALLYEDATPFLYLKELLQGFRTNTSIRHVIVDEVQDYSAFQLEFLKRLFPRAKMTVLGDLNQAIYAHGEALGSLENLVSLYGKEDTEVINLTQSYRSTYEIVNFTRQMIPGGERIVPFNRQGEAPRVVRVNDEEELHGAIVSDIRELHEQGFQYVAVICRTEEESRRVHQQLSADISARLITKTTPAFEKGTLVVPAYLAKGVEFDAVIIYNGAEDVYHRESDRKLFYTACTRAMHKLHVYHIGEKSHFISGQA				NA	NA	NA	NA	NA
AK002_04194	1059			hypothetical protein	GTGGCGTTTGGAGCAAGAATGTTCAAAACCGGCCTGGCCGTGACGCTGGCTCTTTATTTAGCCATGCTGTTTGACTTTAAATCACCTGTCGTAGCCGCCATCGCCGCGATTTTCGCGATGCAGCCATCCATATACAGGTCGTGGAGATATTTTCTGGACCAGCTGCAGACCAGTACGCTCGGTGCGATTCTGGCCATGCTCGGAGGGTATTTTTTATCGAATCAACCGATTTCCGTCGGTTTGGTCTGTATTCTAGTGATCATGATTTGCATGAAGCTGAAAATGGGCGAGACCATCGGACTTACGCTTGTTACGGTTATATCCGTGATGGAAGCTTCCGGCCAATGGGACTTTGCCCTCAATCGCTTTATTCTGACGATTATCGGCATCATATCTGCATTCCTCATCAATATTCTTGTGTTTCCACCAAAACCGAAGGAACAGTACATCACGCGGATTCATATTGTATTCGGCAAAATGTCGCTGCTGCTGCGTACGGCGATCTCCCATGAAATGAAGGATTCGGTCTACCGTGCGGAGAAGAAAGAACTGGAATCGGCCATCAAATCGTTGTCCGACAAATACAATTTGTTTGAGGAAGAGCAGAAGAAGCTGAAGCGGGCGAAATACAGTCAAGCAAGACAGCTCGTGGTGTATAAGCAGCTGCTCCAATCCCTTCGCAAGGGGTATGAAGTGCTGGATGCGGTGGAGAACCACTATTTCCAGGCGGATCGATCCGATGAAATCGACGAACAGTTTGATCACAATCTGGAGCGGTTAATGAAGTACCATGAGCATATTTTATGGAAATTCGAAGATAAACTTAAGCCGAACGAGGACGAGGCCGAGACCATGGCGGAGAACAATGAGGCTTTCATGGAGCAGGTGATGTGCGGGCCCGGCTCAAATCCCGGCGGTCTCCGGCTGGCGGTGGTAGCCGCCTCCATGTACGACTACGGCTATCAGCTTGACCGGTTGAATCGGGTGGCGGATCAGATCAGCCGAGTCGTGGATGATAAGGAGCAAGAGGATGCCATGTTCTCGTGGCTGCGAAAATAA	MAFGARMFKTGLAVTLALYLAMLFDFKSPVVAAIAAIFAMQPSIYRSWRYFLDQLQTSTLGAILAMLGGYFLSNQPISVGLVCILVIMICMKLKMGETIGLTLVTVISVMEASGQWDFALNRFILTIIGIISAFLINILVFPPKPKEQYITRIHIVFGKMSLLLRTAISHEMKDSVYRAEKKELESAIKSLSDKYNLFEEEQKKLKRAKYSQARQLVVYKQLLQSLRKGYEVLDAVENHYFQADRSDEIDEQFDHNLERLMKYHEHILWKFEDKLKPNEDEAETMAENNEAFMEQVMCGPGSNPGGLRLAVVAASMYDYGYQLDRLNRVADQISRVVDDKEQEDAMFSWLRK				NA	NA	NA	NA	NA
AK002_04195	687			hypothetical protein	TTGAGCGGAGAGAAGATATACCCTGCTTCAGGAAGACAACGCTGGATTTTCCTCATATCGATGATCAGCATCATCGGTTTTGTCATTCTGGCGGCGCTGGTAAAGCGGGAAAGCCTGGCAGCGCTTGATTTGGCGATCATTACGACGGTACAAGCCCTTGAACATCCGCTGCTTACGGATATTGCCATCGGGCTGTCGTTCATAGGCTCCATCGGACCGGTGATCGTGTTAAGCCTGATCGTGATCGCCGTGCTATATTGGATTCTGGGCCACCGCAAGGAGATTCTTCTCCTTATTGTGGTCGTCTTCGGTTCATCTATTCTGAATTTATTATTAAAATGGGTGTTTCAACGGGCAAGGCCGGACATCAACCGCCTGATTGAAATTACGGGATACAGCTACCCCAGCGGCCATTCGATGGGGGCCTTCTCGTTCTACAGCGTGCTCGCATACTTGTTGTGGAGACATGTTGACAGCAGAGCGGGGAGAGGGACGTTGATTGCCGTTTCCATCGTGATGATTCTAAGCATCGGACTTTGTCGAATCTATCTGGGCGTCCATTACCCGAGCGATATCGTTGGCGGATATCTGGCTGCTTGCGCTTGGCTTGGGTTCGTGATCCGATCTTACGAGAAAAGGATGGGGAAGCGGGCCACCCCGAATGATGTCAATGAAGAAACTGCATAA	MSGEKIYPASGRQRWIFLISMISIIGFVILAALVKRESLAALDLAIITTVQALEHPLLTDIAIGLSFIGSIGPVIVLSLIVIAVLYWILGHRKEILLLIVVVFGSSILNLLLKWVFQRARPDINRLIEITGYSYPSGHSMGAFSFYSVLAYLLWRHVDSRAGRGTLIAVSIVMILSIGLCRIYLGVHYPSDIVGGYLAACAWLGFVIRSYEKRMGKRATPNDVNEETA	PGPT0024170_411	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024170-bcrC-K19302	NA	NA
AK002_04196	648	yhfK_1	COG0702	putative sugar epimerase YhfK	ATGATGAAGGTTCTAGTGGTCGGCGCGAACGGCCAGATTGGCAAACAGCTTACGTTTCTCCTGCATGAGCATGATGCCTATAGCGTAAAAGCCATGGTTCGGAGGGAGGAGCAGGCAGCCTATTATCGAGATGCGGGAATAGAGTGCGTTATAGCGAATTTGGAAGGATCGGTCAAGGAACTGGCGGTAGTTGCACGAGATTGCCAGGCCGTGGTTTTCACGGCTGGTTCTGGCGGAGCTACCGGATACGATAAAACGCTGCTGATCGATCTGGACGGAGCCGTCAAGATGGTCGAAGCTGCCGAAGAGGCGAAGGTCCCGCGCTTTGTGATGGTTAGCGCAATTGGGGCCCATCATCGAGAATCTTGGAACGAGGACATCAAACCGTATTATGCCGCCAAGCATTACGCGGATCGAATGCTTCGTCACAGCAGCCTCTCCTATACGATCATTCGTCCGGGAGGATTATTGAATGAGCCTGGTACCGGCCGCATTACGGCTGAGGAGAATATCAAGGGCGGCTCGATTCCGCGCGAGGATGTGGCGAAAACGATCCTGTTGGCGCTGGACGAAGAACATACTTTCCGGCGTTCCTTCGACTTGATTTCAGGCGAAACGCCTATCTCGGAAGCTCTATCGTCGCTCTAA	MMKVLVVGANGQIGKQLTFLLHEHDAYSVKAMVRREEQAAYYRDAGIECVIANLEGSVKELAVVARDCQAVVFTAGSGGATGYDKTLLIDLDGAVKMVEAAEEAKVPRFVMVSAIGAHHRESWNEDIKPYYAAKHYADRMLRHSSLSYTIIRPGGLLNEPGTGRITAEENIKGGSIPREDVAKTILLALDEEHTFRRSFDLISGETPISEALSSL				NA	NA	NA	NA	NA
AK002_04197	1053	selU	COG2603	tRNA 2-selenouridine synthase	ATGTTTCAAGACATCACCGTAAAAGAACTATTGGAACTGCAAAGCAGCAAGAAGATTACTTTGATTGATGTCCGTTCCCCTTCGGAATACAAAGACTCCACCATTCCGGGGAGTCTGAACATTCCGGTCTTCAATGATGAAGAACGGGCGGAGATCGGGACGATTTATAAGCAGGTGAGCGTGGATGCGGCCAAAGAGCGGGGGCTCGCCATCATGTCGGCCAAGCTACCCAGCTTCGTGAAGCAGTTCAAGGAGATCGAAGGAGATAAGGCGGTTTATTGCTGGCGCGGCGGCATGCGCAGCCGGACGGCCGCAACGGTTCTGTCCCTGATGGATATCCATGTCAATCGGATTACGGGCGGGATTAAGGCTTACCGGAAGTATGTGCTGGACACGCTTGAGCAGAAGAGTCTGGAGGCGGATGCCTTTGTGCTTCACGGATTGACGGGCACGGGCAAGACGGCAGTGCTAAGGCAGCTTCAGCAGGAAGGCTACCCCGTCGTGGATCTGGAAGGGCTCGCAGGCCACCGCGGCTCGATCTTCGGGCATATCGGCCTGCAGTCCAACAATCAGAAGACTTTCGATGCGGAATTGGTTGAGCGGCTGAAACAATTGGAAGATTCGCCTTATTTGTTATTTGAAGCCGAGAGCAAACGGATCGGCAAAATCGTCGTTCCCGATTTCCTGATGAAGAAGAAGGAGTCGGGCGCAGCCATCGTGTTGGAATTGCCGATGGCGGAGCGTGTTCGCCAGATACTGGAGGATTACAACCCTGCGGCTTATAAAGAGCAATATTTAGCGGCCTTTCAATTAATCAAGAACCGAATCCACACTCCGATCGCCGCGGAAATTGGAAAATCTTTGGAGGAGGGAAGGTATGCTCAGGGAATACAGCTGCTGCTTGAGCATTATTATGATCCCAAATATAATTACTCCTTCAGTCAATATGAGGACAGCGTTCCTATCGTTGTGGCCGTAGATCGGGTGGAAGAAGCGGTGGAAGCCGTAAAAGACATACTGCGAAGCCGAATGCTGCACAAGACAGGTGCGTAA	MFQDITVKELLELQSSKKITLIDVRSPSEYKDSTIPGSLNIPVFNDEERAEIGTIYKQVSVDAAKERGLAIMSAKLPSFVKQFKEIEGDKAVYCWRGGMRSRTAATVLSLMDIHVNRITGGIKAYRKYVLDTLEQKSLEADAFVLHGLTGTGKTAVLRQLQQEGYPVVDLEGLAGHRGSIFGHIGLQSNNQKTFDAELVERLKQLEDSPYLLFEAESKRIGKIVVPDFLMKKKESGAAIVLELPMAERVRQILEDYNPAAYKEQYLAAFQLIKNRIHTPIAAEIGKSLEEGRYAQGIQLLLEHYYDPKYNYSFSQYEDSVPIVVAVDRVEEAVEAVKDILRSRMLHKTGA	PGPT0004830_925	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004830-selU|mnmH-K06917	NA	NA
AK002_04198	1053	selD	COG0709	Selenide, water dikinase	ATGAGTCAATCGGAGAAAATAAAACTAACCTCGTATTCCTCCAAAGGAGGCTGCGGCTGCAAGATCGGACCTGCCGATCTGGCGCAGGTCATCCGCAAGCTTCCGCAAGCCGAGCCGAATCCAAATTTATTGGTCGGTCTGGATACCAGCGATGATGCGGGCGTATACCGTCTCACCGATGATCTGGCCATGGTGCAGACCGTCGATTTCTTTACGCCGATCGTGGATGACCCTTATGATTTCGGTCAGGTGGCCGCAGCGAATGCCATCAGCGATATCTATGCCATGGGCGGCAAACCGCTGACCGCCTTGAATATCGTAGCATTCCCGATTTCGACGCTGGACAAGCAGGTCTTGACGGATATTTTGAGAGGTGCAGGAGATAAATTGAAGGAAGCGGGGGTTACCCTGGTTGGCGGACACTCCATCGATGACAAAGAGCCGAAATTCGGCCTTGCCGTGACGGGGACCGTGCATCCGGACCGGGTAAGAACCAATGCCGGAGCCAAGCCGGGCGATGCCTTGATTCTGACGAAGCCGATCGGGGTGGGCATTCTGACGAGTTCCATCAAGAAGGATCTGTTAAGTGAAGAAGAGATTCGCCGCGTTACCGCCGTTATGGCGGCACTGAACAAAACGGCTGCCGAGACGATGGAGCCCTATGATGTGCATGCATGCACTGACGTGACCGGATTCGGTCTCCTTGGCCACGCGCTCGAAATGGCCAAAGGCAGCGGCACGGGCATCCGGATTTCCAAGCCTTCCGTGCCTATTCTGGAACGGGTTCGGGAGATGGCCGACGGCGGCGTTATTCCGGGCGGCACCAAAAACAATTATGATCATGTGAAGGACGACGTGGATTTCCCGGATAGCATGGACCAGATCGATAAATGGATATTGTGCGATGCCGTAACATCCGGGGGACTCCTCATTGCCGTTGACGGCTCGCAAGCTGATCCATTATTGGCAGAGCTTCGCCAAGCCGGGCTGGAAGCCGGCAGAATCGGAGAGGTCGTGCATGACCATCCGAATCGCATTGTCGTTGAGGCGTAA	MSQSEKIKLTSYSSKGGCGCKIGPADLAQVIRKLPQAEPNPNLLVGLDTSDDAGVYRLTDDLAMVQTVDFFTPIVDDPYDFGQVAAANAISDIYAMGGKPLTALNIVAFPISTLDKQVLTDILRGAGDKLKEAGVTLVGGHSIDDKEPKFGLAVTGTVHPDRVRTNAGAKPGDALILTKPIGVGILTSSIKKDLLSEEEIRRVTAVMAALNKTAAETMEPYDVHACTDVTGFGLLGHALEMAKGSGTGIRISKPSVPILERVREMADGGVIPGGTKNNYDHVKDDVDFPDSMDQIDKWILCDAVTSGGLLIAVDGSQADPLLAELRQAGLEAGRIGEVVHDHPNRIVVEA	PGPT0004820_944	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004820-selD-K01008	NA	NA
AK002_04199	1071			hypothetical protein	ATGAATCACTCAAGCGACGGTGGAAGGGTCTTGAATCATACGGATCGCAGAAGAACCGTCTGGCTCATCACCATCTTCATCATCATAGCAGCAACAGGCCTTACCTACGTGAAGTGGTGGCCTTACTACGATAAAGCGCTCAAAGCGATTATGGAACACAGCATCGGCTCTTCCATATTAGGCATGGATCCGGCCGATGCCGCCCCTTCTTGGCAGGCAGCCTGGAATTATGCGCTCACCTATTTTAAAGCGGTTTGGAAAGCGGCGGTGCTCGGCATTCTGCTCGGGACTCTGGTCCAGTCGCTGCTGCCCTCCCAATGGCTGCTTCGGGTCCTTGGAAAAACGACCTTCGGCAGCACGGCGATTGGAGGAATCGCCTCCATTCCGGGCATGATGTGCTCCTGCTGCGCCGCACCGATCGCGATCGGTTTGCGCAAGAAAAAGGTGTCGGTCGGCTCTGCTCTCGCGTTCTGGATCGGCAATCCAACCATCAATCCGGCAACGCTCGTCTTCATGACGTTTGTTTTATCATGGAAATTCACCGTGCTGCGATTGATCTTCGGCATCCTGCTAACCTTCGGCGTCAGCTACCTGGCAAACCGCTTCGCTAAGGAAGCGGATCCCGTGGAGATCGATGCGCCTCAGAGCACGGATCAAACCGATGAACGTCCGCTGTGGAAACGCTGGTTAACCAGCATCGGGCAGATGCTGGTTCGGGTGGTCCCGGCTTACTTTATAGCCGTGCTGCTCCTTGGCGCCATGCAGGCATGGATGTTCCCGCATTTGGGTGCGGCAGCGGGGAACACGCTCTTGGCCGTCATCTTCTTCTCCGTGATGGGAATGCTGTTCGTGATTCCGACCGCGGCGGAAATCCCGATCATCCAGGCCTTTATGGCAGCGGGCCTGGGGGCGGGTCCGGCCGCGGCGCTGCTCCTGACGCTGCCGGCTGTCAGTCTTCCGTCTCTGCTTATGGTGAGGCGTTCATTCCCGAAAAGAGTTTTGTGGTTTGTTACTGCCTCCGTCGTCCTGCTTGGGATTCTTTGCGGCGTGGCGGGAATGCTGATCTTGTAG	MNHSSDGGRVLNHTDRRRTVWLITIFIIIAATGLTYVKWWPYYDKALKAIMEHSIGSSILGMDPADAAPSWQAAWNYALTYFKAVWKAAVLGILLGTLVQSLLPSQWLLRVLGKTTFGSTAIGGIASIPGMMCSCCAAPIAIGLRKKKVSVGSALAFWIGNPTINPATLVFMTFVLSWKFTVLRLIFGILLTFGVSYLANRFAKEADPVEIDAPQSTDQTDERPLWKRWLTSIGQMLVRVVPAYFIAVLLLGAMQAWMFPHLGAAAGNTLLAVIFFSVMGMLFVIPTAAEIPIIQAFMAAGLGAGPAAALLLTLPAVSLPSLLMVRRSFPKRVLWFVTASVVLLGILCGVAGMLIL				NA	NA	NA	NA	NA
AK002_04200	1173	prsA_2		Foldase protein PrsA	ATGAAAGATAACGATTTGCAGCCAAACCATCCGGGACAGCCCGAGGATGATCAGGGACAAGCCCAAGAGAAAGAGAATAACCAACAAGATCAAGGCGGCTTGCCTCATGAAGAAGAAAGAATAGATTCCACCTATCCGGAGTCCGACGAGCTATACAAGGATGAGAACGAACGCCCAGCCGTTATGCATTCGGGAGATCAACCGCATTACGATGAACAGCCACCTGCTGATGGCGGCGGTAACGGAAGCAAAGGCTGGATGATCGCGTCGCTGGTATTGGCGGCTGCCTTAATCGTCGTCCTGATCGTACCTCCGTTTGCCAAGGGATCCGGCAATGAAGCTATCGCTAAAGTCAATGACGTTAACATTACCAAGGATAATCTGTACGATGAGCTTGTCAGCGTAGGCGGCAAACAAACGCTGAATTCCATGATCACAGAGGAATTGATCCAGCAGGAACTGAAGAACAAGTCCATTACGGTGACCGATGCCGATGTGAATAAAGAAGTGGATGCACTGAAGGCGTCCTTCCCTTCCGAGGAACAATTCAACATGGCTCTGCAGCAAAACGGCATGACGCTCGACAACCTGAAGGAGCAGACCAAAACCCAGGTTGAGCTTAAAAAGCTGATGGCCGACAAAATCAAGGTAACCGACGAAGAAGTCAAAGAAGTGTATGACCAAAACAAAGAAAGCTTCGCAACGCCTGAGCAGGTTCGCGCTTCCCACATCCTGGTTGAAACCAAGGAAGAAGCCGAAGCCATCGTGAAGCAGCTGAAGGAAGGCGCTGACTTCGCAACGATTGCTAAAGAGAAAAACCAGGATGCAACCAAGGATACCGGCGGCGACCTGAATTTCTTCGGTCGCGGCGAAATGGACCCCGCATTTGAAGAAGCGGCGTTCAAACTGAAGAAGGATGAAATCAGCGAACCGGTGAAGAGCTCCTTCGGATACCACATCATCAAGGTTACCGATCGTAAGGAAGCAACGAATCCTACCTTGGAAGACAAGAAGGAAGAAATCCGCAGCCAGCTTGAGAACCAGAAGGTCTATGCCGAATCCACAGCCTACATTCAAGAGCTGAAGGATAAAGCTACCATCACGAATACCCTGGAAGAAGCTCCTGCAGAAGCTCCAGCAGAAGCACCAGCAGATGCTACAGAGACACCTTAA	MKDNDLQPNHPGQPEDDQGQAQEKENNQQDQGGLPHEEERIDSTYPESDELYKDENERPAVMHSGDQPHYDEQPPADGGGNGSKGWMIASLVLAAALIVVLIVPPFAKGSGNEAIAKVNDVNITKDNLYDELVSVGGKQTLNSMITEELIQQELKNKSITVTDADVNKEVDALKASFPSEEQFNMALQQNGMTLDNLKEQTKTQVELKKLMADKIKVTDEEVKEVYDQNKESFATPEQVRASHILVETKEEAEAIVKQLKEGADFATIAKEKNQDATKDTGGDLNFFGRGEMDPAFEEAAFKLKKDEISEPVKSSFGYHIIKVTDRKEATNPTLEDKKEEIRSQLENQKVYAESTAYIQELKDKATITNTLEEAPAEAPAEAPADATETP				NA	NA	NA	NA	NA
AK002_04201	345			hypothetical protein	ATGATGAAGCACGTATCGGAATCCCGCAACATGTATGAGGACTTCGTGGTGGAGACAGACATTCTGTTCTTTAAAACCGGATCGCACGGTTTGGTCAGCTTTCACGGCAGGAACTATAATATTAAAAAGAGAATGACTGCCGAAAAAATCGCATCCCTGCTGTCCGGTAAACAGTTCTATCATGTCGGCGGCAACTGCTACGTCAACGTAGACAAAATAACTACGGTAGAGCAAGGCATCGTTTATTTCGGGGAAAAGGCGCCTTCCGCTAAACATCTTCGCATTCCCAGATGGAAGCAGGAATCGCTGAAGCGCCTGGTTGCTGAAGTCAAACAGCCGGTTTGA	MMKHVSESRNMYEDFVVETDILFFKTGSHGLVSFHGRNYNIKKRMTAEKIASLLSGKQFYHVGGNCYVNVDKITTVEQGIVYFGEKAPSAKHLRIPRWKQESLKRLVAEVKQPV				NA	NA	NA	NA	NA
AK002_04202	843			hypothetical protein	ATGGTAATATCGAATAAAATCTTAAGTACATCCAATAAGGAGTGGTCATGCATCGAATCCTATTTTGATCCGCAATACCCGGAAGCGTTTGCTGCCTTTTCCGTTGAACATTGGATAGCCATTGGCATATGCATTATCCTTGGCCTGCTGCTGTACCTGTTCAGGACTGCCATCGCCTCCAAGCCTTCTCTGCAAAAGACCGTAAGATGGGGCCTGCTCGCTGCCCTTGCGTTGCCAGAAGCTTCCCTTCATATCTGGTATGTGTCAACGGGAATATGGGATCCTGCCACTTCGCTTCCCTTGGAATTGTGCAGTCTGACCCTGTTCCTCTCCATTGCGATCCTGCTTACGGATGAACGCCGCTTATACCCGCTGGTTTACTTTGCGGGAATCGGGGGAGCCCTGCAAGCTGTATTAACACCTAATTTGGGGTACCCTTTTCCGCACTTCCGGTTCTTTCATTTCTTTGTTGTCCATATCGCGATCATCATGACGGCATTGTACATGACATGGGTTCGGGGGTACCGTCCCACCTGGAAATCCATCGCCTGGACAATGGTCTTCCTTAACGTGTCCGCACTTTTAGTCGGACTGGTCAACCTCGCTGTCGGCTCGAACTATATGTTCCTGATGCGCAAGCCGGATACGGCTTCGCTGCTCGATCTGCTGGGGCCGCATCCCGTTTATATTGTTGTAGAGGAGCTTATCGCGTTATCGCTGTTTATCCTCATGCATGTCGCCTTCTTTGCCATCCCGGATCGGATAAGGCGCAGCCGCCGACGCAAACGCGAGCCGGCTTCCTTGTCTTCGACAGGCGTTGAACAAGGCATCATACAAACATAA	MVISNKILSTSNKEWSCIESYFDPQYPEAFAAFSVEHWIAIGICIILGLLLYLFRTAIASKPSLQKTVRWGLLAALALPEASLHIWYVSTGIWDPATSLPLELCSLTLFLSIAILLTDERRLYPLVYFAGIGGALQAVLTPNLGYPFPHFRFFHFFVVHIAIIMTALYMTWVRGYRPTWKSIAWTMVFLNVSALLVGLVNLAVGSNYMFLMRKPDTASLLDLLGPHPVYIVVEELIALSLFILMHVAFFAIPDRIRRSRRRKREPASLSSTGVEQGIIQT				NA	NA	NA	NA	NA
AK002_04203	993	galM_2	COG2017	Aldose 1-epimerase	ATGAACCACAAAGCGTATGAAGGATCGTATCAGGGAGAGCGTGCGGTTTGGCTCCAGCATGGCCCTTATGAAGCGGCGATATTGCCTGAAATCGGAGGCAATCTCATCGCTTTCAGGGATAACGTAAGCGGTTACCGGTTCCTGCGCGAGCCGGAAGAGAACGAAATGGAAGCATTCAAAGCCAGTCCGGGCGTTCACGGCATTCCTGTTCTGTTTCCGCCTAACCGATATGAGGACGGACGGTTTCCTTGGAACGGACAAACCTATCAATTCCCGGTAAATGAAGAAGAGACGGGCAATCACCTCCATGGTTTTTTACATACGACCCCTTGGAGTGTCGAGGATTATGGCAGCAGCGAGACCGAGAGTTATGTGGTGGTCTCCGTCACGGTTGACGAGAATCATCCGGTGTATGCCATGCTTCCGCACCGCTTCACCTTCCGTCTTCGCTACACGCTGAATCAGGACGGCCTGGCACAGCATGTGTTTATACGGAATCAGGGTACCAGCAGCATGCCGTGCCTGCTAGCTTTCCATACGGCGATCAATGCTCCCTTTGCCCCGGAAAGCACGGCGGATGATTGCGTCGTGAGAATCACCATTGGCGAGCGGTGGGAGATGAGCGACCGAATGCTGCCGACCGGCAAGTTCCAAGCGCTGACGGCAGAAGAAAAGCTGCTTCGCACGAGCGGCGTGAATCCCTATTTCGATTCGATGGACAACCATTATACGGCCGTTCCGCAAAACGGCAGAAACCGCATGGAGCTGACGGATACCAAGCTTGGCAAAACATTCGTTTACGATGTCGGCAACTCGTATAAGCAGTGGATGGTATGGAACAGCAAGGCGTCCCGCAAATTTTTCTGTCCTGAACCGCAGATCAACCTGGTTAATGCACCGAACACGGACTTGCCTGCGGACGAGATCGGTCTGTTCGGTTTGGCGCCGGGCGAGATTTGGGAGGCAAGCTCCCGTTTGTATCTTAAGAATTAG	MNHKAYEGSYQGERAVWLQHGPYEAAILPEIGGNLIAFRDNVSGYRFLREPEENEMEAFKASPGVHGIPVLFPPNRYEDGRFPWNGQTYQFPVNEEETGNHLHGFLHTTPWSVEDYGSSETESYVVVSVTVDENHPVYAMLPHRFTFRLRYTLNQDGLAQHVFIRNQGTSSMPCLLAFHTAINAPFAPESTADDCVVRITIGERWEMSDRMLPTGKFQALTAEEKLLRTSGVNPYFDSMDNHYTAVPQNGRNRMELTDTKLGKTFVYDVGNSYKQWMVWNSKASRKFFCPEPQINLVNAPNTDLPADEIGLFGLAPGEIWEASSRLYLKN	PGPT0017825_3899	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
AK002_04204	1731	glpD_1	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	GTGGAGCAGTCACAGTCGTTTTCAAGTTTGGACCGCGGGCATCGATTTCAAAGAATAGCAAAGGGCACCTACGATCTGATCGTGATCGGCGGCGGAATCACGGGTGCGGGGATTGCACTGGATGCGGTCACGCGCGGCATGTCGGTGCTGCTGGTGGAAATGCAGGATTTTGCGGCGGGAACGAGCAGCCGTTCCACCAAGCTGGTGCATGGCGGGCTGCGGTATTTGAAGCAGTTTGAAGTCGGCATGGTGGCCGAGGTAGGCAAAGAACGGGCCGTGGTGTACGAGAACGGACCGCACGTAACGACTCCGGAGTGGATGCTGCTGCCGATACATCAGGGCGGCACCTTCGGGAAGTTCAGTACCTCCATAGGTTTGATGGTGTATGATTTCCTGGCCGGCGTGAAGCGGGGAGAACGGCGATCCATGCTGTCCGCATCCGAGACATTGAAGCGGGAGCCGCTTCTGAAGCAGGAGGGCCTGAAGGGCGGCGGCTATTACGTGGAATACCGGACGGACGACGCCAGGCTGACGCTGGAGGTCATGAAGGAGGCGGCCGCCAGAGGGGCGGTTCTGTTTAACTACGCCAAGGCGGAGTCGCTGAATTATGATGCGAATGGGCGGATTACCGGGGTTACGGTAAGGGATATGCTCGGCGGCGCTGTGAAGTCCGTCTCCGGCACCAAAATCGTAAATGCGGCCGGACCTTGGGTGGACCAAGTGCGCGAAATGGATAAGTCCAGGAAGGGAAAGATGCTTCAGCTGACCAAAGGGGTTCATCTGGTCATCGACCAATCCAGGTTCCCGCTTCGCCAGGCGGTCTACTTCGATACGCCCGACGGCAGGATGGTGTTTGCCATTCCCCGGGACGGGAAAACCTATGTCGGCACAACCGACACGGTTTACAAGGCGGATCCCGTACGTCCCTTGATCACGGTGGAAGACCGGGATTATATTTTGAAGGCCATCCATTATATGTTTCCGGGCGTAAAGCTAAGTCCGGCAGACGTTGAATCGGGATGGGCCGGAGTCCGGCCCCTGATTCTGGAGGAAGGCAAGAGTCCGTCCGAAATTTCCCGCAAGGATGAAATTTGGGAATCCCCCTCCGGCCTGATCACCATTGCCGGAGGCAAGCTGACCGGATATCGGAAAATGGCCGACACCGTCGTTGACCTGGTAGCGAAACGGATTCAAGAAAGCGGCGGTAAGGCATATGGCGCCAGCGTAACGAAGAATCTGCCGATTTCCGGCGGTCAGGTTGGCGGTTCCAGCCAATTTCCGGATTTTGTCCGCAAGCAGACGGAGATCGGCGCGGCGCAAGGAATTGACCGCAAGCTTGCCGAGCACTGGGCGCGAATGTACGGCTCAAACGCAGCGGAATTGTTCCGTTTGGCCAAGGAAGGCTCCGATCAGGCGGAGGCATCGGCGCTTCCGGTGTCGGTATTGGTTCCGCTGATGTATGCCATTGAGCACGAGATGGCATCGAAGCCTGCCGACTTTTTTATCCGTCGCACGGGGTCTCTCTTGTTTCATATCGACTGGACGAGAAAATGGAAGGTGCCCGTGATCAATTATATGGCTACCGTACTGGGCTGGAGCGAACAGCAGAGAACCGAGTACACCAGGGAACTGGATGAGGAGCTGGCTTCGGCCGCGCAGCCGGCAGCCAACGAACCGCCGGCCCAGGCTCCGATTCCGCCAAACGCTTCAAAAGCCAAACTTTCGTCTTAA	MEQSQSFSSLDRGHRFQRIAKGTYDLIVIGGGITGAGIALDAVTRGMSVLLVEMQDFAAGTSSRSTKLVHGGLRYLKQFEVGMVAEVGKERAVVYENGPHVTTPEWMLLPIHQGGTFGKFSTSIGLMVYDFLAGVKRGERRSMLSASETLKREPLLKQEGLKGGGYYVEYRTDDARLTLEVMKEAAARGAVLFNYAKAESLNYDANGRITGVTVRDMLGGAVKSVSGTKIVNAAGPWVDQVREMDKSRKGKMLQLTKGVHLVIDQSRFPLRQAVYFDTPDGRMVFAIPRDGKTYVGTTDTVYKADPVRPLITVEDRDYILKAIHYMFPGVKLSPADVESGWAGVRPLILEEGKSPSEISRKDEIWESPSGLITIAGGKLTGYRKMADTVVDLVAKRIQESGGKAYGASVTKNLPISGGQVGGSSQFPDFVRKQTEIGAAQGIDRKLAEHWARMYGSNAAELFRLAKEGSDQAEASALPVSVLVPLMYAIEHEMASKPADFFIRRTGSLLFHIDWTRKWKVPVINYMATVLGWSEQQRTEYTRELDEELASAAQPAANEPPAQAPIPPNASKAKLSS	PGPT0006775_1151	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
AK002_04205	1491	glpK	COG0554	Glycerol kinase	TTGGAGAAGTACATTCTGGCGCTTGACCAAGGAACGACAAGCTCGCGCGCGATCCTGTTTAACCGCGAAGGGCAAATCGTTCACTCCGCTCAAAGGGAATTTCCGCAGTATTTTCCGAAGCCCGGCTGGGTGGAGCAGAATGCCAACGAAATATGGGGCTCGATTCTGGCGGTCATTGCGACTTGCTTATCCGAAGCGGGCGTGAAGACGGAGCAGATTGCCGGCATCGGAATTACGAATCAGCGGGAGACCGCCGTGGTATGGGACGGCAAGAGCGGTGAACCGATATATCCCGCCATCGTATGGCAATCTCGCCAGACGGCCGGCATATGCGAGGAGCTCATTGCAGCAGGCCATGACGGGACGGTCAGGGAGAAGACGGGACTTCTGATCGATCCCTATTTCTCGGGAACGAAGATCAAATGGATCCTCGATCATGTGGACGGTGCGCGCGAACGGGCCAAGCGAGGAGAGATTATATTCGGGACCATCGACACCTGGCTGATCTGGAAGCTGTCGGGCGGCCAGGTGCATGTCACCGATTATTCCAACGCATCGCGTACGATGCTCTTTAACATCCATGAATTGAAATGGGATGAGGAGCTGCTGCAGCTGCTGGACATACCCAAGGCCATGCTGCCTGAGGTCAGGCCGTCATCCGAAATATATTCCAATACGGCATCCTATCACTTCTTCGGGCGAGAGGTTCCGATTGCCGGAGCGGCCGGCGATCAGCAAGCAGCGCTGTTCGGCCAGACCTGCTTCTCCGAAGGCATGGTGAAGACGACCTACGGAACAGGCAGCTTTATGCTGATGAATACCGGCGATAAGCCGGTTCAATCCGAGCATGGGCTGATCACCACGATCGCCTGGGGACTGGATGGCCGCGTGCAGTATGCGCTTGAGGGCAGCGTCTTCGTGGCGGGCTCCGCGATACAGTGGCTGCGCGACGGTCTTCGAATGTTCCGCGAAGCCAAGGACAGCGAGCCCTATGCAAGACGGGTCCCATCCACCGAAGGCGTCTATGTGGTGCCGGCTTTTGTCGGTCTTGGCAGTCCGTATTGGAACAGCGATGTGCGGGGGGCGGTCTTCGGCCTGACGCGAGGCACGTCGAAGGAGCATTTCATCCGTGCAACCCTCGAGTCGCTTGCGTATCAAACGCGCGATGTGCTCTCCGTGATGGAAGAGGATTCGGGCTTTCATATCGAATCCCTGCGGGTGGATGGAGGAGCGGTGTCCAACACCTTTCTTATGGAATTCCAAAGCGACATCCTGAACGTCCCGGTGGAAGTGCCGGACATTACGGAGACAACGGCGCTCGGTGCAGCTTACCTGGCAGGGCTCGCTGTCGGCTTCTGGAAGGATCAGGAGGAGATATGCAGCAAGTGGAGCATGGGGCAAAGCTTCAAACCAACCATGGAGGAAAGCGCAAGGGAGCAATTATACGGCGGCTGGAAAAAAGCCGTTTATGCAGCAATGGCTTTTCATTAG	MEKYILALDQGTTSSRAILFNREGQIVHSAQREFPQYFPKPGWVEQNANEIWGSILAVIATCLSEAGVKTEQIAGIGITNQRETAVVWDGKSGEPIYPAIVWQSRQTAGICEELIAAGHDGTVREKTGLLIDPYFSGTKIKWILDHVDGARERAKRGEIIFGTIDTWLIWKLSGGQVHVTDYSNASRTMLFNIHELKWDEELLQLLDIPKAMLPEVRPSSEIYSNTASYHFFGREVPIAGAAGDQQAALFGQTCFSEGMVKTTYGTGSFMLMNTGDKPVQSEHGLITTIAWGLDGRVQYALEGSVFVAGSAIQWLRDGLRMFREAKDSEPYARRVPSTEGVYVVPAFVGLGSPYWNSDVRGAVFGLTRGTSKEHFIRATLESLAYQTRDVLSVMEEDSGFHIESLRVDGGAVSNTFLMEFQSDILNVPVEVPDITETTALGAAYLAGLAVGFWKDQEEICSKWSMGQSFKPTMEESAREQLYGGWKKAVYAAMAFH	PGPT0018435_4549	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
AK002_04206	1212	nagC_3	COG1940	N-acetylglucosamine repressor	TTGAACAATATGAAAAAAGGCAATCACAAGCTGATCCAGGCGCTAAACCGGTCCAAGGTGCTGAACAAGATCCGTACGGAAGGCCCTATATCGAGAATCGAACTGGCCAAAAAAAACAAGCTGAGTCCCTCCACGGTGGCATCGGCCGTTCAAGAACTGATCAGGGAAGGCTATGTTTCCGAAATTGGAACAGGCTCCTCCAGCGGCGGGAGAAAACCCATACTGCTTAAATTCAATCCGGATAATCACTTTCTGCTAGCCGTAAGCATAACGAATTCGGTCATGATCCTGGCCCGGATGAATCTGGAGGCGAAGGTGCTCGCAAAGGAAACGCACCCTATAGCCGGACTCCAGGGAGAAGCGGTTATCGAGCGGCTGCTGCACCTGATGGATGATTTCATGGCAGGTCAGGAGGACCTGGAACGGTGCGTCGGCATTTCCATTAACGTCCCCGGCATTGTGAGCGACAGCCAGGGCGTCGTGCATTATAACACGAAACTGCGGATGACGAATGTTCCGCTGAAACGGATATTTGAAGACCGCTACGGAATGCGGACCTGGGTTGAGAATGACATGAATTCCGTTGTGCTGGCCGAACGCCGGTTCGGCGATTACGCGTTCGCGAATCTGATCTATATATCCATTGGGGACGGGCTTGGTTCCGGTATTTTGATTAACGATCATCTCCTAAGAGGCAAGCATGGCGGTGCGGGTGAATTCGGGCATACGAGCGTGAATCGCAGCGGAATCCGCTGCGAATGCGGCAATGCAGGCTGCCTCGACAGTTATATCAGCTGGATTGCTATGTATTCCCGCATTATTACGGCGATCGCAACGGGAAGGCCGACGCTGATCCAGGAGCTGAGCGGAGGGGATTACAGTAAAATTGTTCCGTCCGTATTCAAGGAAGCCCTTCGCAAGGGGGACAAGCTGGCGAGGGATCTGAATGAAGAAGTGGCCGAGCACTTGGGTGCGGCCATCGTCAACCTGGTGAACATGTTTAATCCCGAGGCGTTGATATTAGGCGGGGATTTGGCGCATGGAAATCCGGAATTACTGGACATGGTCAGCGCATATATCGACCGGCATGCGATGCCGATTCTGAAGGATGACATGGTTTTCGGCTTGGCTTCCCTGGGCGAGGAGGACAAGCTAATGGGTGCGGCTTCGGTCCTGCTGCAGGACCTGCTGGGCTTCTCTTTGATGGAATAA	MNNMKKGNHKLIQALNRSKVLNKIRTEGPISRIELAKKNKLSPSTVASAVQELIREGYVSEIGTGSSSGGRKPILLKFNPDNHFLLAVSITNSVMILARMNLEAKVLAKETHPIAGLQGEAVIERLLHLMDDFMAGQEDLERCVGISINVPGIVSDSQGVVHYNTKLRMTNVPLKRIFEDRYGMRTWVENDMNSVVLAERRFGDYAFANLIYISIGDGLGSGILINDHLLRGKHGGAGEFGHTSVNRSGIRCECGNAGCLDSYISWIAMYSRIITAIATGRPTLIQELSGGDYSKIVPSVFKEALRKGDKLARDLNEEVAEHLGAAIVNLVNMFNPEALILGGDLAHGNPELLDMVSAYIDRHAMPILKDDMVFGLASLGEEDKLMGAASVLLQDLLGFSLME	PGPT0018870_391	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018870-nagC-K02565	NA	NA
AK002_04207	1263			hypothetical protein	ATGAAAAAAAGAATGTCTGTCCTGATTTCGGTACTGTTCGTGTTCTCCGCCCTGCTGTCCGCCTGCGGAGGCGGCAATGCCTCCGGAGGAGATAATGGCAAGAAGGTTATCAACGTTGCCCTATGGGACGAAAATGTGCGGGACACGCTGGACAAATCCATCAAAATTTTCAATGAGAAGCATCCCAATGTACAGGTGAAGGTGACCTACACCCCATGGGCGGATTATTGGACCAAGCTGAAAACCAGCCTCGCCGGCAACAGCGGTCCCGACGTCTACTGGATGAACGGACCCAACTTTCACTCGTATGCCTCCTCCGGTCTGATCAAAGACCTGTCCCCCCTGATCGAGCAAAGCGGGCTAGATACCTCGGTTTATACCGAAGCGCTCGTCGATATGTATACCTATCAAGGCAAGCTTCACGGACTTCCTTACTTCCAGGATTCCGTAGGACTTTTCTACAACAAAGAACTATTTGACATGGCCGGGCTGCCCTATCCCGACGATACCTGGACCTGGGAAACGGTAGAAGAGAACGCAGCCAAGCTGACGGATAAATCGAACGGAATCTACGGCTATATTACGCCGATCGACAGTCAAATCGGTTATTACAACTATATTGCCCAGGCCGGCGGATTCGTGATATCCGACGATAAAAAAACGTCCGGTTACGATACGCCGGAAGCTCTTTCGGCATTCAAATGGCAGCAGAGCCTGATTGAAAAAGGCTACTCTCCGAATGCGCAGCAGCAGCTTGAAACCAAGTCGCGCCAGCTGTTCGGATCGGGCAAGGCCGCCATGTTCCCGGGAATCTCCGTCAACTCTCCGGAACTGCACAAGCTGCTTGGCGACAAGCTGGGCGTCGCGGTTCTGCCCGCCGGAAAGGAAAAGGCGTCCATCGTCCATGGACTCAGCTGGGCCATCAACGGCAAAACCAAGGTCGAGCAGGAGTCCTGGGAATTGATTCAGATTCTATCCGGGAAGGAAGGACAGGAATTGCTGGCTGACTCGGGCTTCTCGATGCCTGCTTACAAAGGCACGGAGGGTGGCTGGCTGAAATCCATTCCTTCGCTTGATCTGCAAGTGTTCGTCGACAGCCTGGAGTTTGCCGTCCCGTATCCCGTATCCCAAAAAACCGCAGAGTGGCAGGACGCGGAAGTGAAGGAAATCCAGGCCGCCTTCCTCGGCAAGAAAACGTTTGAAGAGGCGTTGAAAAATGCAGGTGAGCAGATGAATGCCATCCTTGCGACGGAAACCAATTAA	MKKRMSVLISVLFVFSALLSACGGGNASGGDNGKKVINVALWDENVRDTLDKSIKIFNEKHPNVQVKVTYTPWADYWTKLKTSLAGNSGPDVYWMNGPNFHSYASSGLIKDLSPLIEQSGLDTSVYTEALVDMYTYQGKLHGLPYFQDSVGLFYNKELFDMAGLPYPDDTWTWETVEENAAKLTDKSNGIYGYITPIDSQIGYYNYIAQAGGFVISDDKKTSGYDTPEALSAFKWQQSLIEKGYSPNAQQQLETKSRQLFGSGKAAMFPGISVNSPELHKLLGDKLGVAVLPAGKEKASIVHGLSWAINGKTKVEQESWELIQILSGKEGQELLADSGFSMPAYKGTEGGWLKSIPSLDLQVFVDSLEFAVPYPVSQKTAEWQDAEVKEIQAAFLGKKTFEEALKNAGEQMNAILATETN	PGPT0016545_8899	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_04208	942	ugpA_3	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	GTGAGCTCTCCCATCACTGTGACCACGAAACCTCCTGAAACGACGGCCAAGCGAAAGGTCGGGAAACTTGCCTTTCACGAAGCCATGTGGGGATACATCTTCATTCTGCCTGTCGTGCTGGGCCTCGGTCTGTTCTACATGGCACCTTCCGCCGCCTCCCTGTTTCTGTCGTTTACTTCCTGGGACGGACTGACTGCCCCCCAATTCATCGGGCTCGATAACTTCGCGAATTTGATGAAGGACGACAAATTCACCGGCTCCATGCTGAACACGATGCTGTATACCATCGGTACGGTACCGTTATCCGTTGCACTGGCAACGGTGCTGGCGGTGCTGCTGAACCAGAAGATCAAGGGTATGGTCTTCTACCGCACGTTCTATTTCATTCCCGTCATCACCATGCCGATCGCGGTCGGCATGGTGTGGAAATGGTTGTACAATTCCGAATTCGGATTAATCAACCATGTGCTGGGCGTCATGAACCTGCCGCAGCCCAACTGGCTGTTTGACGAGAAATTCGCCTTGTTCTCCATCGTGCTTGTCAGCGTGTGGAGCAGCATCGGTTATAACGCCGTCATTCTGCTCTCGGGGCTGCAGGGCATCTCCGGCAGCTACTATGAAGCGGCTTCGCTTGACGGAGCGGGGACGCTGTATAAGTTCTTCCGGATTACGCTGCCTCTGCTCACGCCCAGTTTGTTCTTTGTCTTGGTCATGTCCTTCATCAATTCGTTCCAGGTGTTCGACCTGATCTTCATCATGATGGATCAGCAGACCACGATGCTCGAGTCCACCCGGACGGTGGTATACAGCATCTGGGAAGACGGATTCAAATACTTCAACATGGGGTACGCTTCGGCGCAAGCCTTCATTCTCTTCGTGGTCATTCTGATCATCACCATGGTTCAGATGTACATTCAGAAGCGCTGGGTCCATTACCAATAA	MSSPITVTTKPPETTAKRKVGKLAFHEAMWGYIFILPVVLGLGLFYMAPSAASLFLSFTSWDGLTAPQFIGLDNFANLMKDDKFTGSMLNTMLYTIGTVPLSVALATVLAVLLNQKIKGMVFYRTFYFIPVITMPIAVGMVWKWLYNSEFGLINHVLGVMNLPQPNWLFDEKFALFSIVLVSVWSSIGYNAVILLSGLQGISGSYYEAASLDGAGTLYKFFRITLPLLTPSLFFVLVMSFINSFQVFDLIFIMMDQQTTMLESTRTVVYSIWEDGFKYFNMGYASAQAFILFVVILIITMVQMYIQKRWVHYQ	PGPT0016535_3369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_04209	837	araQ_45	COG0395	L-arabinose transport system permease protein AraQ	GTGACTACTTCAACCCAAGCTGAAAAAGCAAGCCGCCTGGCGGTACACATCCTGTTAGCCGTCGGGGCGCTGCTCATGATCATGCCGTTTCTGTGGATGATCTCGACATCCTTCAAGTCCTTTGCCGACTCCATGTCCGTTCCACCGAAATGGCTGCCTGTGGAATGGCATCCGGACAACTACCTTCGTGTCATCCAAACCATTGATTTCGGCACTTATTATTTGAACACCGTCATCGTGACGGTGGGTCGCACCGCGGGCCAGCTCATTCTGTGCTCGCTGGCAGCCTATGCTTTCGCCAGCTTGAGGTTCCCGTTCAAGAATGCCATTTTTCTCGCCCTCCTGGCCGTATTGATGGTACCTTCCCAAGTCGTTATGATTCCGAGCTTTGTCATCATGCGCGAGTTCAACTGGCTCGACACGTTTTACGTGCTCATCGTACCCGGCATATTCAGTGCCTTCGGCACGTTCTTGTTAAGACAGTTCTTCATGACGCTGCCGAAGGATCTGGAGGAAGCCGCCAAAATCGACGGCTGCAGTTATTTCCGGATCTACTGGAATATCTACTTGCCGTTATCCAAGGCCGCACTCGTCTCGCTGGCGATTTTCACCATCTTAGCCTCATGGAACGATCTGCTGTGGCCGCTCATTATGACGAGCTCCGAGGAGATGCGAGTGCTTTCGATCGGGATATCCAGCTTCCAGGGGCAGCATTCCACCGATTATCCGCTGCTGATGGCCGGGGCCTTGATGGCCACGCTCCCCATCATTATCCTGTTTATCTTCCTTCAGCGATACTTTATTGAAGGCATCGCCATGAATGGGATCAAAGGATAA	MTTSTQAEKASRLAVHILLAVGALLMIMPFLWMISTSFKSFADSMSVPPKWLPVEWHPDNYLRVIQTIDFGTYYLNTVIVTVGRTAGQLILCSLAAYAFASLRFPFKNAIFLALLAVLMVPSQVVMIPSFVIMREFNWLDTFYVLIVPGIFSAFGTFLLRQFFMTLPKDLEEAAKIDGCSYFRIYWNIYLPLSKAALVSLAIFTILASWNDLLWPLIMTSSEEMRVLSIGISSFQGQHSTDYPLLMAGALMATLPIIILFIFLQRYFIEGIAMNGIKG	PGPT0016540_6739	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_04210	1023	iolG_19	COG0673	Myo-inositol 2-dehydrogenase	ATGTTACACGTGTTAGTCATTGGTGCAGGCGCCATGGGAAAAACCCATGCCGCCGCCTATGCCTCGATGCCGGGAGTGAAGCTTGCCGGCATTGCCGATATCCGGCTGGAGAAAGCGAGGCAGCTTGCGGACGAATATGAAGCAGGCGCCTATCGTTCGATCGAAGCGGCGGTAGAGGATTTGGGTGCAGGTCAGATCGATGTCATCGACGTCTGCCTGCCAACCCCGCTTCACAAGGACTACGTCGTCAAAGCGGCGGACATCGGCAAGCATGTCATATGCGAGAAACCGCTGGCAAGAACCGAAGAAGACGCGCGATTCATGATCAACTACTGCCATGATAAGGGCGTACGCTTGTTTGTCGGTCATGTGCTGCGCTTCTTCCCGGAATACGTGAAGGCCAAGGCGCTGCTCGATCAAGGCAGCATCGGGATGCCTGCTGTCATCCGGGCTGGCCGCGGCGGCGGTTATCCGATCGGCTGGAACCATTGGTACAGCGATTTTGGAGCGAGCGGCGGCATTACGCTGGATGCGATGATCCATGATTTTGATTACCTGCGCTGGTGCTTCGGAGAAGTTGAGCGCGTCTATGCCAAGGGGCTGAACGGCCGCCACCAGGCTCAGCTGGATTATTCGCTGGTGACCCTTCGCTTCCGCAGCGGCGTCATCGCTCATGTGGAGGGCACCTGGGCACATGACGGCTTCTCCATGAATTTGGAGATGGCGGGCACGAGCGGCATCATTGACTATGATAGTGCCAAGGACAGCCCGCTTCTCTTCAAATCGCGGAGCAGTGCCGCGACGATTCCCGGCGTCGCCGTTCCGGAAAGCCCGCTTGAACGCAGTCCCTATTACCGGGAACTGGAACACTTTATGTCGTGCATCCGCGACGGAAGCGAGCCGCTGGTTTCCGCCGAAGACGCCTATGAGGCGCTTCGCATCGCACTTGCCGCTCTAGCCTCCATGGCCGCAGGCGAGCCAGTGGTTATCGGGGACGCTGCGCTTACCCTCACCTCGACATGA	MLHVLVIGAGAMGKTHAAAYASMPGVKLAGIADIRLEKARQLADEYEAGAYRSIEAAVEDLGAGQIDVIDVCLPTPLHKDYVVKAADIGKHVICEKPLARTEEDARFMINYCHDKGVRLFVGHVLRFFPEYVKAKALLDQGSIGMPAVIRAGRGGGYPIGWNHWYSDFGASGGITLDAMIHDFDYLRWCFGEVERVYAKGLNGRHQAQLDYSLVTLRFRSGVIAHVEGTWAHDGFSMNLEMAGTSGIIDYDSAKDSPLLFKSRSSAATIPGVAVPESPLERSPYYRELEHFMSCIRDGSEPLVSAEDAYEALRIALAALASMAAGEPVVIGDAALTLTST				NA	NA	NA	NA	NA
AK002_04211	984	iolG_20	COG0673	Myo-inositol 2-dehydrogenase	ATGAAATTGGGAGTGATCAGCTTTGCGCATATGCATGCGTTCAGTTATGCCAAAGCCCTTCTCGGAATTGAAGGCGTGGAGCTTGCCGGCATTGCCGACCCTGTAGAGGAGCGTGGCCGGAAATACGCCGAGCATTTCGAAACCGCCTATTATCGGGATTATCGCGAGCTGCTGGACCAAGGCTTGGACGGCGTCATCGTGACATCCGAGAACGCGCATCATAAGGAGCACGTGCTGGCCGCCGCTGCGGCCGGGGTTCATGTGCTCTGCGAAAAACCGCTATCGACCAACATACAGGATGCACAGGACATGATTCATGCCTGCAAAGCAAACGGCGTGCTGCTGCAAACGGCATTCCCGGTGCGTTACAATACAACGGTCGTGCGGGCCAAGCAGATGATCGATGAGGGGAAATTAGGCCGCATTCTGGCCATGAAGGGAACCAACCGCGGACGCAATCCCGGCGGTTGGTTCATCGATCCGGAGCTCTCCGGCGGAGGAGCCGTCATTGACCATACCGTGCACGTCGCCGATATTATGCGCTGGATCACCGGTGCCGAGGTCAAGGAAGTGTACGCCGAGGTCGACCATCTCATCTCGGAAACTCCGATTGATGACAGCGGCATCCTGACCATGGAATTCGACAATGGCGTATTTGCTACGCTGGATTGCAGCTGGTCCCGCAACAAGGAGTTCCCGACCTGGGGCGACGTCACCCTGGAAATCGTCGGTTCCGCCGGGACCCTCAGCGTCAATGCCACCAGTCAGAAGCTGCACGTATATACCGATGAATCCGGATACCGCCATCAGGCTTGGGGCGACAGCATGGATGCCAGCCTGATCAGGGATTTCGTAGATGCCATCTCCTCCGGTGCCGCGGAGGCATCCGTTACCGGCGAGGACGGGCTTCATGCGCTAGCCGTGGCCGTAGCCGCCTACCGATCGTCAGCAGACAAGCGGACGATCGCGATGTCGGAGCTGTGA	MKLGVISFAHMHAFSYAKALLGIEGVELAGIADPVEERGRKYAEHFETAYYRDYRELLDQGLDGVIVTSENAHHKEHVLAAAAAGVHVLCEKPLSTNIQDAQDMIHACKANGVLLQTAFPVRYNTTVVRAKQMIDEGKLGRILAMKGTNRGRNPGGWFIDPELSGGGAVIDHTVHVADIMRWITGAEVKEVYAEVDHLISETPIDDSGILTMEFDNGVFATLDCSWSRNKEFPTWGDVTLEIVGSAGTLSVNATSQKLHVYTDESGYRHQAWGDSMDASLIRDFVDAISSGAAEASVTGEDGLHALAVAVAAYRSSADKRTIAMSEL	PGPT0018525_66	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018525-iolX-K16043	NA	NA
AK002_04212	963	iolG_21	COG0673	Myo-inositol 2-dehydrogenase	ATGATTAAAGCAGGCGTGATGGGAGCGGGCGGCATGGGCGCCGTTCACATTAAAAATCTTCACGGGAACGAACATGTCCAGCTGGCCGCGATATGCGATACAAATGAAGCGTTAGCCAAACAGCAAGCCGAGCTTTACGGCGCGGCATATTACACGGACGGCAGCACGATGCTGGAGCAGGAGCCGCTCGATGTGCTGTATGTGTGCATTCCGCCGTTCTGCCATGGCGACATTGAAGAGCAGGCAGCTGCCAAGGGCATTCATCTGATGGTGGAGAAGCCGCTGGGGCTGGACGTCGAGTCCGTTCGCCACAAAGCCAAAGTCATTGCTGAAAGCGGAATCATCGCCGCCTCCGGTTACTGCCTGCGGTACCTGGATACGGTGGCGATCGCCAAAGATTTTCTCAAGGACAAAAAAATCGGCATGGTCCGCGCCCACTACATCACAACGCCTGTGCCAACTCCTTGGTGGCGCAAAAAGGCATTGTCCGGCGGACAGCTGGTTGAGCAATCCACGCATACCATGGACTTGGTCCGCTACCTGTGCGGCGACATCACCCGCCTGTATGCCGATATGAAACTGCTGCTGGTCAACGACATTCCGGACCTGGACATTCCGGATGTGGGCGCCATCCAATTCGTCTTGGATTCCGGGGCTGTCGGCCATATGCAAACCGGGTTTATCCAGTTCGATCACCGCAGCGGTATCGAGATCATGGGCCGGGATTTCCGGGTCGTCCTGGACGGAACCACGCTCTCCATCGTAGACAAGGAGAAGGAAGTGGTCTACCGCAGCAAGACGGACTTTTACAAAAATCTTACCAATGCCTTTATTGACGCTATTCGGAGCAATGACCCGAGCCTGGTGCTGGCATCCTACGAAGACGGCTTCAAGACGCTGGAAGTGACGCTGGCGGCCAATGAATCCGCCGAGACCGGCCAACCTGTAACGATTCAGCCATAA	MIKAGVMGAGGMGAVHIKNLHGNEHVQLAAICDTNEALAKQQAELYGAAYYTDGSTMLEQEPLDVLYVCIPPFCHGDIEEQAAAKGIHLMVEKPLGLDVESVRHKAKVIAESGIIAASGYCLRYLDTVAIAKDFLKDKKIGMVRAHYITTPVPTPWWRKKALSGGQLVEQSTHTMDLVRYLCGDITRLYADMKLLLVNDIPDLDIPDVGAIQFVLDSGAVGHMQTGFIQFDHRSGIEIMGRDFRVVLDGTTLSIVDKEKEVVYRSKTDFYKNLTNAFIDAIRSNDPSLVLASYEDGFKTLEVTLAANESAETGQPVTIQP	PGPT0022715_790	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
AK002_04213	1425	gabD	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGTTTCAAAATCAAATCTATATCAACGGTAAATGGACAGAGACCGAGGAGCAGATGGATGTATATAACCCGGCGGACGGCACGGTTATCGGTACCGTATCCAAAGGCGGGAAGAAGGAAGCCCGGCTTGCCGTCGATGCGGCCGCCGATGCTTTTCCGGCATGGTCCCGCAGAACGGCGAACGAGCGGGGAGAGCTGCTGCGCCGCTGGCATGAGCTGATCGCGGGACATACGGACGAATTGGCAAGGATTATGACCACGGAGCAGGGGAAACCGCTGAAGGAAGCGGCGGGCGAGATACAATATGCCAACAGTTTCGTGGCATGGTACGCGGAAGAAGGCAAGCGAATCTACGGTGAGACCATCCCCGGATCATCCAGCCGCCAGCGCATCATTGTAACGAAGCAGCCTGTTGGCGTCGTTGCCGCCATCACGCCTTGGAATTTCCCGGCCTCCATGATTACACGTAAGGTGGCGCCGGCCCTGGCTGCGGGGTGCACCGTGGTGATCAAACCATCCGGCGAGACGCCGTTCACGGCGATCAAGCTGGTGGAGCTTGCGGATCAAGCCGGCATTCCAGCCGGGGTCATTAACATCGTAACCGGGTCTTCCAGCGACATTTCCGGCGTTTGGCAAGAGGACAGCCGGGTTAGAAAGCTGTCTTTTACGGGATCCACCGAAGTAGGGAAGCAGCTGATGGCCGGCGCGTCGGCCAACGTCAAGAAAATATCGCTGGAGCTTGGCGGCCATGCCCCGTTTATCGTGACCGATCAGGCGGACCTGGATCAAGCGGCTGCCGGATTGATTTCTTCCAAGTTCCGCAACGGGGGACAGACCTGCGTATGTGCCAACCGGGTTTATGTTCAGGAAGGGATCGCGGAGAAGTTCGCTGCGAAGTTTTCGGAGCTTGTCAAGCAATTGAAGGTAGGCAGCGGAATGGAGAAGGGGGTTGATATCGGTCCCTTGATTAATCGGGAAGCCGCGGATAAAGTCGTACGACAGATCAAGGATGCGAAAGAGAAAGGCGGCATCGTCTTGGCAGGCGGTCAAGCCCTGCCCGAGCTCGGCGGCAATTATGTGGAGCCCACGGTCATCATGAACGCTACGGACGACATGGAGTGCATGAACGAGGAGACCTTCGGACCCCTTGCGCCGATTACCACTTTCGAAACGATAGACGAAGCCGTGCAGCGTGCCAATAACAGTCCGTATGGCTTGGCCGCCTATGTATTTACGCAAAATCTGGGTGAAGCGGTACGCATTGCCGAATCGTTGGATTACGGAATTGTAGGCGTGAATGATCCGGTGCCTTCGACAGCGCAAGCGCCGTTCGGCGGCTTTAAGGAGAGCGGGCTCGGCCGGGAAGGCGGGCATTACGGAATGGAGGAGTTCCTGGAGGTAAAATACATTTCGCTTGGATTATAA	MFQNQIYINGKWTETEEQMDVYNPADGTVIGTVSKGGKKEARLAVDAAADAFPAWSRRTANERGELLRRWHELIAGHTDELARIMTTEQGKPLKEAAGEIQYANSFVAWYAEEGKRIYGETIPGSSSRQRIIVTKQPVGVVAAITPWNFPASMITRKVAPALAAGCTVVIKPSGETPFTAIKLVELADQAGIPAGVINIVTGSSSDISGVWQEDSRVRKLSFTGSTEVGKQLMAGASANVKKISLELGGHAPFIVTDQADLDQAAAGLISSKFRNGGQTCVCANRVYVQEGIAEKFAAKFSELVKQLKVGSGMEKGVDIGPLINREAADKVVRQIKDAKEKGGIVLAGGQALPELGGNYVEPTVIMNATDDMECMNEETFGPLAPITTFETIDEAVQRANNSPYGLAAYVFTQNLGEAVRIAESLDYGIVGVNDPVPSTAQAPFGGFKESGLGREGGHYGMEEFLEVKYISLGL	PGPT0001580_5340	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
AK002_04214	960	yclQ	COG4607	Petrobactin-binding protein YclQ	TTGGCTTTATTTATGGTAGCAATGTTCACGCTTGTGCTCGCGGCTTGTGGTCAGGACGATAAAACGAGCGGTGCGGCTGGAGGCGATGCTGCGGGAGAAACGCCGCCTGCATCCGAAGAAATCACGATTACCCATAAGCTGGGTGAAACGCCTGTCAAGAAAAATCCTTCCCGCGTCGTCGTATTCGATTTTGGCATTCTGGATTCCGTGGATAAATTGGGCGTTGAGGTTTTGGGTGTTCCGCAAGCGAATATCCCGGCATACCTGTCCAAATTCGAAGACGAGAAATATGAGAATGTGGGCAGCCTGAAAGAGCCTGACTTTGAGAAAATCAACAGCATCGAGCCGGATCTGATCATTATTTCCGGCAGACAGCAGGATGCTTACGAGGAACTCAGCAAAATTGCCCCGACGATCTTCCTGGGCGTGGACACAAGCAAATACATGGAATCCTTCAAAGAGAACATGAATACGCTGGGTCAAATCTTCGGTAAAGAAGCCGAAGTTGAAAAAGAGCTTGCCACGATTGACGAGAACATCAAGGCTTTGAATGAGAAGGCTACTGCAACCGGCAAGAAAGCCCTGATCATTCTGGCGAACGAAGGCAAAATCAGCGCGTACGGCCCAGGCTCCCGTTTCGGCATTCTGCATGACGTGTTCGGTTTTGGTGCCGTCGATCCTAACATTGAAGTCAGCACGCACGGTAAAGATATTTCGAATGAATACATCGTTGAGATGAACCCGGATTATCTCTTTGTTGTGGACCGCGGTGCAGCGGTAGCCACGGGTGAAGGAGAATCAGGCGCCAAAGCGGTTGTCGAGAACGAGCTTGTAAACACAACCAATGCCGCGAAAGAGGGCAACATCGTGTATTTGAACCCTGACTTCTGGTATCTGTCCGGAGGCGGATTGACATCCGTATCCGAAATGATCACGGAAGTAGACGCAGCCGTTAAATAG	MALFMVAMFTLVLAACGQDDKTSGAAGGDAAGETPPASEEITITHKLGETPVKKNPSRVVVFDFGILDSVDKLGVEVLGVPQANIPAYLSKFEDEKYENVGSLKEPDFEKINSIEPDLIIISGRQQDAYEELSKIAPTIFLGVDTSKYMESFKENMNTLGQIFGKEAEVEKELATIDENIKALNEKATATGKKALIILANEGKISAYGPGSRFGILHDVFGFGAVDPNIEVSTHGKDISNEYIVEMNPDYLFVVDRGAAVATGEGESGAKAVVENELVNTTNAAKEGNIVYLNPDFWYLSGGGLTSVSEMITEVDAAVK	PGPT0003765_6985	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
AK002_04215	759	yclP	COG4604	Petrobactin import ATP-binding protein YclP	ATGATCCAGGTTACGAACGTATCGAAAGTCTATGGCGGCAAAAAAGTCGTTGATAACGTGTCGGTTACGATCCCGAAAGGTCAAATTACGTCCTTTATCGGCCCGAACGGTGCCGGTAAGAGTACTTTGCTGTCCATGATTAGCAGACTAACGGGCAAGGACAGCGGTCAAATTACGGTGGACGGCAAAGAGGTCAGTCAATGGAAAAGCGGGGACCTGGCGAAGAAGGTTTCGATTCTGAAGCAATCGAACCATATCAGCCTCCGCCTGACGGTGCGCGAGCTTGTATCCTTCGGGCGTTTTCCATACTCCCAAGGCCGATTGAACGCGGAAGACGAGAAGTTCGTGGATGAAGCCATCTCCTATATGGAGCTTGAGGATATGCAGCATAAATATCTTCATCAGCTCAGCGGCGGTCAGACCCAGCGTGCTTATATCGCGATGGTCATCGCCCAGAACACGGAGTATATCCTGCTGGATGAACCTCTCAACAATCTGGACATGAAACACTCCGTACAGATTATGAAGATTCTCCGAAAGCTTGTCGCCGACCTGAACAAAACGATCGTGATCGTGATTCATGACATCAACTTCGCTTCCTTCTACTCGGATTACATCGTGGCCTTGAAGGACGGAGCGATTGAAAGCGAAGGGAAAACCGAGAACATCATTCAGAGCAATGTTCTTCGCGGCATCTACGACATGGACATCGAGATCGAAGAGATTAACGACAATCGGGTGTGCGTATACTACGGTTAA	MIQVTNVSKVYGGKKVVDNVSVTIPKGQITSFIGPNGAGKSTLLSMISRLTGKDSGQITVDGKEVSQWKSGDLAKKVSILKQSNHISLRLTVRELVSFGRFPYSQGRLNAEDEKFVDEAISYMELEDMQHKYLHQLSGGQTQRAYIAMVIAQNTEYILLDEPLNNLDMKHSVQIMKILRKLVADLNKTIVIVIHDINFASFYSDYIVALKDGAIESEGKTENIIQSNVLRGIYDMDIEIEEINDNRVCVYYG	PGPT0003760_8013	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK002_04216	948	yclO	COG4605	Petrobactin import system permease protein YclO	ATGACTTATAAAGCCAAACTCGGCCTGTTGGCCGCGGCGGCAATCATCCTGGTGGCAGTCTTTCTGTTCATTGATCTTGGCGGCAATTGGGATTACGCCCTTCCAAGACGAATCAAGAAGGTTCTTGCCATTATTCTGACCGGCGGGGCGATCGCTCTGTCTACCACGGTGTTTCAAACGGTCACGAATAACCGGATACTGACGCCAAGCGTGATGGGATTGGATTCCTTGTATATCCTGATCCAGACGACCGTGATCTTTGTCTTCGGTTCCTTCACGCTGTATAAATTGGGCAGCAATGTTAACTTTTTGATCAATGTCGGCGCGATGATCCTGTTTGCCGGGATCCTATATAAGATTTTGTTTCAGAGGGAAGGAAACAATATTTACTTCCTGCTGCTGATCGGCATGATATTTGGAACCCTGTTCTCCAGCATGTCTTCCTTTATGGAAGTGCTGATCGATCCGAACGAGTTTCAGTACGTGTCCGACAAGATGTTTGCCAGCTTCAACAATGTGAAGACCGAGCTTCTCATCCTGTCCGTCATTGTCGTTGCGCTGACCCTGCTGTATTTTGCCCGGTTTGCCAAGTACTTGAACGTACTGTCGCTGGGCCGTGACCAGGCGATCAACCTGGGCGTAAACTATGATTACGTTGTGAAGAGGCTTCTGATCGTGGTCGCGGTTCTCATTTCGGTGGCCACCGCATTGGTAGGACCGATCACGTTCCTTGGACTGCTTGTGGTCAACGTCGCTTATGAATTCATGAAAACATACCGGCATTCACACTTAATCACGGCGTCCATTCTGATTAGCATTATCGCCTTGGTGGGCGGCCAACTGGTGGTAGAGCGGGTGTTTACGTTCTCTACTACGCTAAGCGTCATCATCAACTTCATCGGCGGCGTTTACTTCATATACCTGCTACTAAAGGAGAGTAAAGCATGA	MTYKAKLGLLAAAAIILVAVFLFIDLGGNWDYALPRRIKKVLAIILTGGAIALSTTVFQTVTNNRILTPSVMGLDSLYILIQTTVIFVFGSFTLYKLGSNVNFLINVGAMILFAGILYKILFQREGNNIYFLLLIGMIFGTLFSSMSSFMEVLIDPNEFQYVSDKMFASFNNVKTELLILSVIVVALTLLYFARFAKYLNVLSLGRDQAINLGVNYDYVVKRLLIVVAVLISVATALVGPITFLGLLVVNVAYEFMKTYRHSHLITASILISIIALVGGQLVVERVFTFSTTLSVIINFIGGVYFIYLLLKESKA	PGPT0003770_11195	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
AK002_04217	954	yclN	COG4606	Petrobactin import system permease protein YclN	ATGAAGATTAGATACTTATTCGCAGCCGTTGTGGTACTCTCCATAATTTCGTTATTTATTGGAGTTAAAGATATCTCGCCACTGGAACTGTTCTCGATGACAGAACAACAACAGCATATTATGCTTGTAAGCCGGATTCCCCGGCTTGTCAGCCTCATATTGGCGGGTGTCAGCATGAGTATCTGCGGATTGATCATGCAGCAGCTCAGCCGCAACAAGTTCGTATCGCCGACGACGGCGGGAACCATGGACTCCGCCAGATTGGGGATCTTGGTCGCCATGCTCGTCTTTACGACAAGCGGCCCGCTTATCAAAATGCTCGTGGCATTCGTATTCGCGCTGGCAGGAACCTTTATCTTCATGAAGATACTGGATCGGATCAAGTTCAAGGACGCGATCTTCATCCCGCTGGTAGGACTTATGTTCGGTAATATCGTCAGTTCGGTCGCGACCTTCTTTGCCTACAAATATGATCTTATACAGAATATGTCGGCTTGGCTGCAGGGCGATTTCTCCATGATCATGAAGGGCCAGTATGAAATGCTGTACCTCAGCATCCCGCTTGTGATTCTGGCTTACCTGTTTGCCAACAAGTTTACGGTAGCCGGAATGGGAGAGGAATTCGCAACCAACCTGGGACTTCATTATCGGCGAGTCGTGAACCTGGGATTGGTCATCGTTGCGCTGGTTACGGCTTCCGTTGTGCTGACCGTCGGCGTGATTCCGTTCCTTGGTCTGATCATACCTAATATTGTCAGTCTGTACTTAGGGGACCACTTGAAAAAAAGCCTTTCGCATACCGCGCTGCTGGGGGCCGGGTTCGTACTGTTCTGTGACATCCTTGGCCGGATCATCATTTATCCCTATGAAATTCCGATTAGTCTGACCGTGGGCGTACTCGGAAGCGGTATATTCATTTTCTTACTGATGAGGAGAAAGGCTTATGACTTATAA	MKIRYLFAAVVVLSIISLFIGVKDISPLELFSMTEQQQHIMLVSRIPRLVSLILAGVSMSICGLIMQQLSRNKFVSPTTAGTMDSARLGILVAMLVFTTSGPLIKMLVAFVFALAGTFIFMKILDRIKFKDAIFIPLVGLMFGNIVSSVATFFAYKYDLIQNMSAWLQGDFSMIMKGQYEMLYLSIPLVILAYLFANKFTVAGMGEEFATNLGLHYRRVVNLGLVIVALVTASVVLTVGVIPFLGLIIPNIVSLYLGDHLKKSLSHTALLGAGFVLFCDILGRIIIYPYEIPISLTVGVLGSGIFIFLLMRRKAYDL	PGPT0003770_10628	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
AK002_04218	603			hypothetical protein	ATGTCTAAAGATTTTTCAGCAGCACTTAAGCATCGTCGTTCCCATTATGCCATCAGCAAAGACCCGGTCATTTCCGACGAACGCATCCAGGAGATTGTTAATGAAGCCGTTAAATATACTCCGTCTTCTTTCAACTCCCAAAGCGCACGCGTCGTTGTACTGCTTGGCGAACAGCATGACAAACTGTGGAACCTGACCGAAGGCATTCTGAAAGAAGTTGTCGGAGACGAAGAGGCTTTCAAATCCACAGCTGAAAAAATGGGCGCATTCCGCGCTGGATACGGCACGGTTCTCTTCTTCGAGGACAATAACGTAGTTGCCGACCTGCAGCAAAAGTTCGCGCTGTATGCCGACAATTTCCCGGTTTGGTCGAACCAATCCAACGGCATGCTGCAATTCGTGGTATGGACGTCCCTCGAGGCAGAAGGCCTGGGCGCATCCCTCCAGCATTACAACCCGTTGATCGACGAGAAAGTGAAGTCCGAATGGAACATTCCGGAAAACTGGAAGCTGATCGCTCAAATGCCTTTCGGCAAACCGGTTGCAGATCCGGGCGAAAAAGAATTTGCGCCGCTTGAAGATCGCGTGAAGGTATACAAGTAA	MSKDFSAALKHRRSHYAISKDPVISDERIQEIVNEAVKYTPSSFNSQSARVVVLLGEQHDKLWNLTEGILKEVVGDEEAFKSTAEKMGAFRAGYGTVLFFEDNNVVADLQQKFALYADNFPVWSNQSNGMLQFVVWTSLEAEGLGASLQHYNPLIDEKVKSEWNIPENWKLIAQMPFGKPVADPGEKEFAPLEDRVKVYK				NA	NA	NA	NA	NA
AK002_04220	603	ykoF		Putative HMP/thiamine-binding protein YkoF	ATGAATGAGCTTGTATGCGGAACGAGCCGGATCGTGGGATGCCGGTTCTCGGTATTTCCCATGACGGATCGGTTCGTGGAAGTGATCACGGAGGCGCTTCGTTCCGTGGATTCGGAAAAGGTCTGGATCCAAACGGATGATGTAAGCACTTGTATTCGCGGACGTGCGGAGCATGTGTTTGATGTGACGAGAGCGATATTCGCTCATGCCGCGGCTAGCGGCGTGCACACGGTGTTTAACGGTACTTATTCTATCGGCTGCCCAGGCGATACGGATGCCGATGCGTATATGGACGAGGATTCGACCCGCTTAAACCACGATATCGGGGAACACGCCGATATCGAAACGGCCTGCCAATTCGCGCTTTACCCGATGGGTAGCGCCGATTACATGGATGTCATTTACGCAGAAGTGGATCGTGCGAAGGCAGCGGGCACATTCGGTGGAAGCGTTCATTACGCCAGCCGATTGGACGGGGCGTTGTCCCGGGTGTTCGGATCACTCGAAGACGCGTTCCAACATGCGATTCAATCCGACAGCAGCCATCTGGTCATGACCGCGGTGGTTTCGGCCCACAGCCCATCTCCCAAAGCCAAAGCTTAA	MNELVCGTSRIVGCRFSVFPMTDRFVEVITEALRSVDSEKVWIQTDDVSTCIRGRAEHVFDVTRAIFAHAAASGVHTVFNGTYSIGCPGDTDADAYMDEDSTRLNHDIGEHADIETACQFALYPMGSADYMDVIYAEVDRAKAAGTFGGSVHYASRLDGALSRVFGSLEDAFQHAIQSDSSHLVMTAVVSAHSPSPKAKA				NA	NA	NA	NA	NA
AK002_04221	96			hypothetical protein	ATGAGCGGAGCATATGGCGGCGCATGGGGCAATTCAGTAGGAACTATATTGGTTCTCTTTATCCTGCTCGTAATCATCTTGAGTGCTTGGGTTTAA	MSGAYGGAWGNSVGTILVLFILLVIILSAWV	PGPT0024985_380	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK002_04222	699			hypothetical protein	ATGAGACTGGAACCGACGGAGGCAGCGATACGCGTCATGCAACGAAATTATCCCGACTGCTTGCTTGCCGTACTTGGCGGCAGCGCGAGCAGTGGCGAATATAATGAACAATCCGATCTGGACATCATCGTCATTGAACGGGACGGACATGACTTCAGCAGGAAGACGATCGAAGCGCATGGCTGGATCGCGGAAATATTCATATTGTCCTTATCCTCCTATCGCGAATATTTCGACGTGGGAGTGCTGGCGGCGAATCCGTCTTTACAGCGGATGGTCGCCGAAGGTACGGTGCTGCGTTCGTTGCCTGAGGGAGAAGAGGTTCGGGCGGATGCCCGGAGTGATTTGAATTACGGCCCCATGCCCTTGTCGCCGAGCGATATTGCCGAATACCGCTACATGCTAACCGAGTTTTTGCTGGACTTGACAAGTCCCCGCAGAGAAGGCGAAAAATGGTTTACGGTACACAAAATAGCATCGACTCTATGCGAATTCGTGCTGAGGGCAAACCGGGAGTGGACGGGTGAAGGGAAGATGCTGTTCCGTTTGTTCAACGGCTATAGCCCAGCCATGGGGGATCGACTGGAGGCAGCGCTTCTGGCGATTTATCGGGAGGACGATCCTTCGGACCTTATTGCAGTGACGGAGGAAGCCCTCAGCCCGTACGGAGGCAAGCTGCTGGTCGGTTATGAGGAATAA	MRLEPTEAAIRVMQRNYPDCLLAVLGGSASSGEYNEQSDLDIIVIERDGHDFSRKTIEAHGWIAEIFILSLSSYREYFDVGVLAANPSLQRMVAEGTVLRSLPEGEEVRADARSDLNYGPMPLSPSDIAEYRYMLTEFLLDLTSPRREGEKWFTVHKIASTLCEFVLRANREWTGEGKMLFRLFNGYSPAMGDRLEAALLAIYREDDPSDLIAVTEEALSPYGGKLLVGYEE				NA	NA	NA	NA	NA
AK002_04223	723	COQ5_6		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAATTACATTCACATGCTCTCCAGATTAGGCATGGGCAGTGCCCACCCGGGAGGATTCGAGGCAACCCTCAGAATGCTGAAGAATTATCCCATTCAACCGGGCAGCCGCATTTTGGAGGTAGGGTGCGGAACCGGCAGAACAGCCTGCCATCTTTCGGAGATGGGTTATCAAGTGACCGCCATTGACTTGAACGAAAATATGATCAAGAAAGCCCGCGCAAGAGCCGAAGCCATGGGTATGGACGTAGAGTTCCTGCAGGCAGATGTATGCGCATTGCCTTTCGAAGACAACCGGTTTGATCTGATCATGGCCGAGTCCGTCACCGTATTTACGGATACCTCGAAATCGCTGCCCGAATATTACCGCGTTCTGGATCGCGGAGGCGTCCTGCTGGACAGGGAACTGCTGCTGGATAAGCCGATGCCGGAGCCGAAGCTTAAGGAGCTGCTCGAATTCTTCGGCATTCCTAATCTGATGATGAAGGAAGAATGGGCGGGGGCCCTCATGTCTTGCGGTTTTAAGCAGGCAGAATTTTTGGAGTACAACCACTTCAACGAGCAATTAAAGGAAGAGCAAACTCGTCATCTGGATGCGTTTGAGCAGCGCGATAAAGGACTCCTGTTCGATGCTGCGCTCTGGGAAACGCTGTTCAAGCATGACCGCATGATTCTGGATAATACCGATTTTCTCGCTTCCGCCTTATTTCGTGCCGTGAAATAA	MNYIHMLSRLGMGSAHPGGFEATLRMLKNYPIQPGSRILEVGCGTGRTACHLSEMGYQVTAIDLNENMIKKARARAEAMGMDVEFLQADVCALPFEDNRFDLIMAESVTVFTDTSKSLPEYYRVLDRGGVLLDRELLLDKPMPEPKLKELLEFFGIPNLMMKEEWAGALMSCGFKQAEFLEYNHFNEQLKEEQTRHLDAFEQRDKGLLFDAALWETLFKHDRMILDNTDFLASALFRAVK				NA	NA	NA	NA	NA
AK002_04224	1251	mcpC	COG0840	Methyl-accepting chemotaxis protein McpC	ATGGCATGGTTCAACAGACTCCCTATGTCTCAAAAAATCACCGCAGCCTGTTATCTCATTGCCGCTTTGTTTGCGGTACCCATGCTGCTTGCGTTTATTCTGATGGGTAAAGCAATCATTGGCGTGGTCATCGTCGTGGTACTAACCGGGCTTACTTTTCCTCTTTCTCGTCTCATTGAGAAAACGCTTACGAACTCCTTCGCGGAAATTTCCAGCGTTTCCGCCAAAATCGCCAAAGGCGACTTCACCTTCCAGGTGGAGGAGGTTGGAGGCATGAACGATCTGAGCAGAACCTTCAACAGCATGGTGGACAAGCTTCGCAAAATATTGCAGGAAACCTCGGATATCACCCGTCAGGTGATGACGTCAAGCTCAAGCATTTCGATTAAAAACCAGGAGCTTATTCAAGTGATGAATCAAGTCTCCCTTTCCTCCAACGAGCTGGCCGTCGGCGCCAACGAAATTTCGGAAGACGTATCCGAAATGACGCACTCCATCCGTGAGATCGAAGAGAAGGTCAGCAATTATACGCATTCGACCCAAGAAATGAATACCCGGTCGATCGAAACGCTGGGACTGGTTGAACAAGGAAGGGATTCGGTAGCCAAGCAGTCTGCAGGGATGCAGCGAAACATTGATGCAACGGCCAAGGTTTCGGAATCCATCGATGCGCTGGCCCAAAGCGCCAGAGGAATCACGAAGATTACGGAGACGATCTCCGAGCTTGCCGATCAGACCAACCTGTTGTCCCTGAACGCATCCATCGAAGCGGCCAGAGCTGGCGAGCATGGCGCAGGCTTTGCCGTTGTCGCCCAGGAGGTGCGTAAACTGGCCGAAGAATCTACGTCTTCAACCCGGGAAGTATTCAATCTCGTTCGGAGCATCGAATCGGACATCAAACACGCGTCCCAAAACATCAAAATCAATGAGGAGGTCGTCAGGCAGCAGACCGAAATGATCCGCGAAGCAGAGCTTGTGTTTATGGAGATCGTAAACAGCGTGCAGTATATTTCGGATCAGATCGCCGCTTTCTCTAAGGAAAGCCAGTCCATGCTGGATAGCGCGCAGAGCATTTCTTCCGCGATTCAGAATATATCCGCGATCACGCAGCAATCCGCTGCCGGAACGGAGCAAGTGTCGGCCTCCATGAACGAAGGCATCTCGTCGATCCAGAAGATGGCTGAAGAAGCGGAAGCGATGAATAACGCCGTTTTCCGGCTGCAGAAAACCATCAACATTTTCAAATTTTAA	MAWFNRLPMSQKITAACYLIAALFAVPMLLAFILMGKAIIGVVIVVVLTGLTFPLSRLIEKTLTNSFAEISSVSAKIAKGDFTFQVEEVGGMNDLSRTFNSMVDKLRKILQETSDITRQVMTSSSSISIKNQELIQVMNQVSLSSNELAVGANEISEDVSEMTHSIREIEEKVSNYTHSTQEMNTRSIETLGLVEQGRDSVAKQSAGMQRNIDATAKVSESIDALAQSARGITKITETISELADQTNLLSLNASIEAARAGEHGAGFAVVAQEVRKLAEESTSSTREVFNLVRSIESDIKHASQNIKINEEVVRQQTEMIREAELVFMEIVNSVQYISDQIAAFSKESQSMLDSAQSISSAIQNISAITQQSAAGTEQVSASMNEGISSIQKMAEEAEAMNNAVFRLQKTINIFKF	PGPT0015710_27673	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_04225	573			hypothetical protein	ATGACGATTATATATTTTGTGAGACATGCGGAATCCCCATTTATCGAGGGGAAGGAACGGTCTCGTGGATTGTCGGCGCAGGGATCGCTTGCTGCGGAGCGAGTGAAGGAGATGCTGCTGGATGAAGGGATTGACGCGATCCTGTCGAGCCCTTATCAGCGCGCCAAGGACACGGTCCAACCATTGGCGGACGCTTTAAGATTACCGATTATGGAGCAGCAGGACTTAAGAGAACGGATGGCCGGCGATTTTCAGGGACATTCCTTCCTTGATGCCAAAAAGAAACTGTTCCAGGATCCGGCCTTCTCCTTCCCCGGAGGGGAATCCGGTAAAGCCGCGCAAAGCCGTGCGATCCGGGCCTTCGAGATCATTTTGAATGCATATGGAGGCAAGCGGGTAGCGATCGGCACGCACGGCGATATCATGACACTCATGCTCCAGCGTTATGATGAGCACTTCGATTATCATTTTTGGCTGGGAACGACATTGCCTGATATTTACCGCGCCGAATTTGAGGAAGGGCGGCTTGTGAACCTTGCGCGGTTATGGAGCGAGCGTCAAGAGATAGGATGA	MTIIYFVRHAESPFIEGKERSRGLSAQGSLAAERVKEMLLDEGIDAILSSPYQRAKDTVQPLADALRLPIMEQQDLRERMAGDFQGHSFLDAKKKLFQDPAFSFPGGESGKAAQSRAIRAFEIILNAYGGKRVAIGTHGDIMTLMLQRYDEHFDYHFWLGTTLPDIYRAEFEEGRLVNLARLWSERQEIG	PGPT0018030_3926	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
AK002_04226	459			hypothetical protein	ATGGTGAAACATACGCATCTCGGCGTTTATGGAATACTGATTCAGCATGATCATATCCTGTTGATCCAGAAAGCGAGAGGGCCGCATAAGGGGAAGTGGGATTTACCAGGCGGCTCGATCGAGTTCGGCGAAGAGCCGGAGCATACCCTTCAGCGCGAATTTATGGAGGAAACCGGACTTGGTTCAATTAAGGGAAGCATTCGGACGGCCGTCTCTTATACGATCGTGTATCAGTATGAAGCGAATCAGATGGAAGAACTGCATCATATCGGCATAATTTATGATGTCGAGCTGCTGGATGACCAAGCTAGAATCCAAACGGGCGGTGACGGTCAAGACTCCTTGGGAGCCCAATGGATTCCGATTGACACACTGGGATTGCTGCCGTTAACGCCGTTTGTCGAGATGATGATGGAGCCCGATTTAGAGACGAATCCAAAAGCGGGGATCGAAGAATGA	MVKHTHLGVYGILIQHDHILLIQKARGPHKGKWDLPGGSIEFGEEPEHTLQREFMEETGLGSIKGSIRTAVSYTIVYQYEANQMEELHHIGIIYDVELLDDQARIQTGGDGQDSLGAQWIPIDTLGLLPLTPFVEMMMEPDLETNPKAGIEE				NA	NA	NA	NA	NA
AK002_04227	708			hypothetical protein	TTGAACATATTCGACCGTGCGCGAGAAAAGGAAAAGTCGTATCACGAGAAATTGTATGAAGATGCCGTATTGTTTGAACCTGGGAGCTGGTTAGCCAAGCCCGTTCAGACGGTCCTGGATCATTTGGACTTTTTGCCGTTTCCGGATATGCGGGTCCTGGATCTGGGATGCGGCGTCGGGCGCAACAGTATCCCGGTTGCGCAGCGGATCCAATCGGCGAACGGGCAGGTCATCTGCGTGGATTTGCTGCCATCGGCTATCGACAAGCTGGTGCAGTATGCCGCGATGTACGGCGTAAGCTCAAGCATCGAGGCACTTGCAGCAGACGTAGAGTTTTACGAAATTACCGAGGCGTCATATCATTACATCATTGCCTGTTCATGCCTGGAGCATTTGAGCTCGGAAGAAGCCTTCGTATGTAAGGTCAAACAAATGCAGGCTGGAACCGTGGACCAGGGCATTCACTGCATCATGATGAGTACGGAAGTGAAGGAAATCGATCGGGAGACTGGTTTGGAGGAAGAAGGGTTAATCGAGTTGAATCTGTCGACCGAAAGGGCCCTTTCTATCCTTGACGAGCTGTATTCGGAATGGGAAATCTTAACGAGGCGGCAGGTGCAGCAGGATATTCAAGAAGTGAAGGATGGGAGAGACGTTCTATTCCGAAGTCGATGGATGACCTTCACTGCGAGAAAAGGAGGGGATTGA	MNIFDRAREKEKSYHEKLYEDAVLFEPGSWLAKPVQTVLDHLDFLPFPDMRVLDLGCGVGRNSIPVAQRIQSANGQVICVDLLPSAIDKLVQYAAMYGVSSSIEALAADVEFYEITEASYHYIIACSCLEHLSSEEAFVCKVKQMQAGTVDQGIHCIMMSTEVKEIDRETGLEEEGLIELNLSTERALSILDELYSEWEILTRRQVQQDIQEVKDGRDVLFRSRWMTFTARKGGD	PGPT0004925_324	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004925-tehB-K16868	NA	NA
AK002_04228	549			hypothetical protein	ATGTTAGAGGAACGGTTAAAGGGATACATAAGGCAGCACAAGCCATTGATGGCGGATTTGGGCATCGTTCGGGATTTAGCCCTGCCGCAATGTTATATTCCCGCAGGTTACATCCGAAATTATGTATGGGACATCCTGCATGGATTAGACGGGACGGACCGGCATACCGATATCGATGTCGTTTACTTCGATTCGGATGATGTGTCCGAAGAACGGGATGCTGCCCTGGAACAGCACTTAAGGACCTCGACGGCGAACCCGAAATGGTCGGTCAAGAATCAGGCCAGAATGCATGCCAAGAACGGAGACGAGCCCTATCATTCGACCCATGCAGCGCTAACCCATTGGCCGGAGACGGCCACCGCGGTCGGGGCCAGACTGAACGTCGCAGGGGAGCTTGAACTTTGCTGTCCTTACGGATTGGAGGATTTATTCGCGCTTCGGGTTCGAAGAAGTCCTAACTTTGATAAGCGGAGCTATTACTTGGAACGGGTACGCAAGAAACAATGGAAGAATCAGTGGCCGCGTTTAGCGATCATCGAGGATTAG	MLEERLKGYIRQHKPLMADLGIVRDLALPQCYIPAGYIRNYVWDILHGLDGTDRHTDIDVVYFDSDDVSEERDAALEQHLRTSTANPKWSVKNQARMHAKNGDEPYHSTHAALTHWPETATAVGARLNVAGELELCCPYGLEDLFALRVRRSPNFDKRSYYLERVRKKQWKNQWPRLAIIED				NA	NA	NA	NA	NA
AK002_04229	912	rbsK_2		Ribokinase	TTGCGCAAGCTGGTTGTCATTGGAAGCATTAATATGGATGTTGTAAGTAATGTTGCGCAGTTTCCCCAGCCGGGGGAAACGATTCACAGCAGGGACGCACAGTTTTTTCCCGGAGGCAAAGGGGCAAATCAAGCTGTGGCCGCAGCCTTGGCAGGTGCCGATTGCAGCATGGTCGGCGCCGTGGGACTGGATCCCTTTGGAAGCACTTTGGTTGCTTCCTTGGAGGAGCGCGGCGTTGGCGTCTCGTCCGTTCTCACCAAGGCAGGCACATCCGGAATCGCGATCATCACGGTCAACGAAGAAGGCGAGAACTATATCGTGCTCTCGGAAGGAGCCAATGGGCGGCTGACCGAAGAGGATGTTGCCGCCGAAGTGAACTGGGACGGCGTATATGCGGTGCTGCTGCAGAATGAAATTCCGTGGGAGACGACACAGCATGTCATCCGATCGGCCAGCAAGGCAGGCGTTCGCGTCTGGCTGAATCCGGCCCCCGCGCGAACGATTCCGCACGAGGTGTTTCCGCTGCTGGATACTTTGATTGTAAACGAAACGGAAGCAGGCGTGGTTAGCGGGCTGAGGGTGGAGGACGCGGCTTCGGCCGAGGCTGCTGCAGCATCGATCATTGGAAGAGGCACTTCCAACGTGATCATCACCCTTGGCGAGTTAGGGTGCTTCTATGGAAATGCACGCGGCGAGCGATTTAACGTTCCGGCTTTCCGCGTCAAACCCGTGGATACCACGGCGGCAGGGGATACCTTCATCGGTGCTTATGCGGCGGCTCGCACGGAGGGGCTGGATACGGAAGCAGCGCTGCGGTTTGCGACCGCAGCTGCTGCATTGACGGTGACCCGTCCGGGCGCTCAATCCTCCATACCGGCTAAGGAAGAGATTGTGGCGTTTATGAATACATGA	MRKLVVIGSINMDVVSNVAQFPQPGETIHSRDAQFFPGGKGANQAVAAALAGADCSMVGAVGLDPFGSTLVASLEERGVGVSSVLTKAGTSGIAIITVNEEGENYIVLSEGANGRLTEEDVAAEVNWDGVYAVLLQNEIPWETTQHVIRSASKAGVRVWLNPAPARTIPHEVFPLLDTLIVNETEAGVVSGLRVEDAASAEAAAASIIGRGTSNVIITLGELGCFYGNARGERFNVPAFRVKPVDTTAAGDTFIGAYAAARTEGLDTEAALRFATAAAALTVTRPGAQSSIPAKEEIVAFMNT	PGPT0017405_3346	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
AK002_04230	2121			hypothetical protein	ATGATACCTAAACATTATGTAGAGACGGTATATGCGGGATTCATCGGCATGAACATTGGCATAAGGCTCGGTGCTCCCATCGAACCGGTAGCCTGGACGTATGAACGCATTCGGGACGTATACGGCGATATCCGGGATTACGTGAAGCCGTACAAAACCTTTGCCGCCGACGATGACGCAAACGGTCCGGTTTTCTTTATTCGCGCGCTGTATGACGATGCGACGGACCGTGAGCTTTTGCCGGAGGATGTGGGCAAGGCATGGCTCAATTACGCTAGGGAAGGGATCGGCATGTTCTGGTGGGGCGGCGAGGATATCAGTACCGAGCACCGCGCCTATGTGAATCTGCGCAAAGGCATCCCGGCCCCTCGTTCCGGTTCGATCGAGGTCAACGGCACGGAGATGGCGGAGCAGATCGGCGGCCAGATTTTCATCGATTCCTGGGGTCTGCTGTTCCCGGGGCAAGCGGAAAAAGCAGCGGATTACGCGGAAAAAGCGGCCAGCGTCTCCCACGACGGCAACGGGCTGTATGGCGCCCGCTTCATGGCCGCTTGCATAGCCAAAGCCTTTAATGCTTCATCCATGGATGAGATTATCGCGGAAGGCCTGCGCATGATTCCGGATGACTCCACCTATGCGCGCGTGGTCCATGCGGTGATGGACTTCCACCGGGAGCAGCCTTCCGATTTCCGCGCTTGCCGCCAATATTTGGAGGACCACTGGGGATACGATAAATATACGGGCGTATGCCACATTATCCCGAATGCGGGCGTGTGCGCGCTTGCCCTTCTGTATGGCGAGGGAGATTTTGCGCGCACGGTCGAGATCGCGTCGATGTGCGGCTGGGACACCGATTGCAATGCAGGCAATGTGGGAACGATCCTCGGCGTTTACGGAGGTCTGGCGGGAATCCCGGATCATTACCGCAAGCCGATCAATGACTTCATCGTGGCTTCCAGCGTGTCCGGCTATTTGAATCTGGTGGATTTTCCGACATTCGCCAAAGAGCTTGCTCTGCTTGGGTATCGTCTTAACGGAGAGAAAGCACCTGAAGAGCTGGTTCGTCGGGTGAAGCAGGGCGAGGTATACTTTGATTTCGACCTGCCGGGATCTACGCATGGCTTCCGGACGAGCCATTCCTTCAAAACGCCGGTCGTTCGCCATTCGACGAAACAGGTTTATGACAGCAGAGGATCGCTGGAAGTGGTTTTTGACAGACTGGTTGAAGGCGACAGCAGCAAAATCTATTTCAAACCGTTCTACCGGCGCGCCGAGTTCAACGATGAGAAGTATAAGCCGACCTTTGCGCCGCTGGCCTACAGCGGACAAACCGTATCCGCCCACATTTATGTGGATCAGTGGGAAGGCGAACCGGTTACCTTGACTCCGTATGTGCGCAATACCTATACGCAGGAGGATGTGCGTTTGGCTGCGTTGACTCCCGTGTGCGGAGAGTGGAACGCGGTGCAATTCGTCATCCCGGATACGGATGGTGCCATGATCGATGAGATCGGCTGGATCTTGGAGAGCCCGTCGCCGCTCTTGAACCGTGCCATCGGAAGTTTGTTCGTCGGGCAATTCCGCATCGCGGGGGCTTCAGACTATACGATCGATTTTGCCAAGCAGGCCAAAGAGTTCGCTTCCGTCACCCCATTCTCGCATCATCGCGGGAAATGGGAACTGCGTGACGGTGCCCTGCATTGTTCCTCTGAAGGGGATACCTCGTCCTATTCCGGCAATTATTATGCCGGCGATATGGAGATTGAAGCGACCATCAAGCCGATATCCGGCACCAGCCATTGTGTTATTGCAAGGGCGCAAGGCGTCATGCGTCATTATCTGGCCGGCTTCGACGGCCCGAACTCCGTATCGTTTATCAAACAGGATTTCGGAATCAAGCGTTTGATTACGGCAAAATACGATTGGGCATTGGGTAAAGAATACCGCCTGAAGCTGGTGTCCGAGAGGGACAGGTTCATCTTGTATATTAATGGAGAGAATGTGCTGGAATGCAAGGAAACCGCCTATGCTCACGGCATGTTCGGTTTTGGTTGTCTGGAGGATGGCGAGAACGAGATCAAGGAAGTTCGCGTCCGTACATTCGAGCCGAAGCCGGTTTAA	MIPKHYVETVYAGFIGMNIGIRLGAPIEPVAWTYERIRDVYGDIRDYVKPYKTFAADDDANGPVFFIRALYDDATDRELLPEDVGKAWLNYAREGIGMFWWGGEDISTEHRAYVNLRKGIPAPRSGSIEVNGTEMAEQIGGQIFIDSWGLLFPGQAEKAADYAEKAASVSHDGNGLYGARFMAACIAKAFNASSMDEIIAEGLRMIPDDSTYARVVHAVMDFHREQPSDFRACRQYLEDHWGYDKYTGVCHIIPNAGVCALALLYGEGDFARTVEIASMCGWDTDCNAGNVGTILGVYGGLAGIPDHYRKPINDFIVASSVSGYLNLVDFPTFAKELALLGYRLNGEKAPEELVRRVKQGEVYFDFDLPGSTHGFRTSHSFKTPVVRHSTKQVYDSRGSLEVVFDRLVEGDSSKIYFKPFYRRAEFNDEKYKPTFAPLAYSGQTVSAHIYVDQWEGEPVTLTPYVRNTYTQEDVRLAALTPVCGEWNAVQFVIPDTDGAMIDEIGWILESPSPLLNRAIGSLFVGQFRIAGASDYTIDFAKQAKEFASVTPFSHHRGKWELRDGALHCSSEGDTSSYSGNYYAGDMEIEATIKPISGTSHCVIARAQGVMRHYLAGFDGPNSVSFIKQDFGIKRLITAKYDWALGKEYRLKLVSERDRFILYINGENVLECKETAYAHGMFGFGCLEDGENEIKEVRVRTFEPKPV				NA	NA	NA	NA	NA
AK002_04231	1155			hypothetical protein	ATGACTTCGTTTCGTGACCGGGTGAGGGGCGTGGTGATATCCACCGCGCTCGGAGACGCAATGGGAGCTCCAATCGAGAAATTGACGTACGGGGAGATCAAGTCCAAGTATGGACGTGTGGAATCCCTCATGACAAGATGGCATAAGATGGACCTGCCCCCCGACGTCCGGCTTGGCCGGGTAAGGGGCGATGGCATTGTCACGGACGATACGCTGATGACCATTGCGCTCATGAACGTGTATCTTACCGAGGGCAGGCATCTGGATGCCTATGATATGGGCAACGAGTTCGTGAAGGAGATTGCGTTCCGCAAGACGTTTGTCCCTGAGCTGAATGAGGAAACGTTGATAATTGACCGATTGTTCTATCCGGAAAAATACATCTTCATGCGTCATGTGCTGGCCAATTGCGATCCGAGAGAAGGCGGCATCGGAAATATGGTGAACTGCGGGGCGGCGATGTACATCGCCCCGATCGGGATCGTTAATGCGGGCAATCCCAAAGCAGCTTATGATGAAGCCATCCTGTTTGCGATGGGTCATCAGAGCAGCTACGGCCTGGAAGCCGCAGGCGTGCTCGCCGCTTGCGTGGCGAAGGCCTTTGAGCCAGGGGTGAGTGTGGACGATATTGTCCGCACCGCCATCAGCCTGGCGAAAGACGGCACGAAAGCTGCCATTGTGGAGATGACGCAAGCCGCGCGCGATCTGCGGCAGGAGCGGGATGACATGGACAAAGTGATCGAGGTATTGCAAGCGATCATGGTTAAATATTCGCCGATGGGCGACGACGTGAGCCGCCATATCGACAAGATCGGCATCCCGAGCAACCATTATACGCCAAGCCGCCTATGGTCGATTGAAGAGCTGCCGATGGCACTGGCGTTCATCGTGCTCAATGACGGAGAGTACTACCGTTCGATCCTGGACGGGGTTAATTCCGGGCGCGATACGGACTCGATCGGCGTTATGGCCGGGGTGATCCTGGGCGCCATGTATGGCAGCGAGGTCATCCGCAAGGAGGATATCGAACAGCTGAATAAGGTAAATCGTTTGGACCTGTGCGCCATCGCCGACCGGTTCAGCGGCATTGCCGCGAAGATCATCGAGGAGGATCTTCGCATCAATGAATCTCGGAAGAATATTGTGAGTCCATAG	MTSFRDRVRGVVISTALGDAMGAPIEKLTYGEIKSKYGRVESLMTRWHKMDLPPDVRLGRVRGDGIVTDDTLMTIALMNVYLTEGRHLDAYDMGNEFVKEIAFRKTFVPELNEETLIIDRLFYPEKYIFMRHVLANCDPREGGIGNMVNCGAAMYIAPIGIVNAGNPKAAYDEAILFAMGHQSSYGLEAAGVLAACVAKAFEPGVSVDDIVRTAISLAKDGTKAAIVEMTQAARDLRQERDDMDKVIEVLQAIMVKYSPMGDDVSRHIDKIGIPSNHYTPSRLWSIEELPMALAFIVLNDGEYYRSILDGVNSGRDTDSIGVMAGVILGAMYGSEVIRKEDIEQLNKVNRLDLCAIADRFSGIAAKIIEEDLRINESRKNIVSP				NA	NA	NA	NA	NA
AK002_04232	1494	lipO_23	COG1653	Lipoprotein LipO	ATGAAAAAATTAAGCCTGTTATTAATCGTTGCCATGCTGGTTATGGTCATGTCGGCATGTACATCGAATTCGAAGACGCCGGGAGCGGGCCAGACCGAGCCCGGGACCGCGCAGCCTGAAGGAAGCGGTGATCCGGTTACGCTGAAGATCGTGTACAAGGATGAAGGAACGGCGAATCCCGTTTCCGTTAAATTCTTCGAGACCTTGGAGAAATCCCTGGCCGAAGACGAAGGCTTGAACGTGAAATTCGAGCTTGTGGATCTGGCACAGGGCAGTTATGCCGAGAACCTGAATCTGCTGCTGTTGGGCGGAACCATTCCGGATATTATCTACTTCCAAGGCGGCGACCAGCAAATTGCCGAACAAGGCCTGCTGGAGGATCTGACGCCTTACATTGAAAAATCCACTTACATTAAAGATATCATCGAGCCGCATAACCAAACGCGGATGGCAAGCTATCCGTATCTGCTGTGGATCAAACCGCTCGCACCGAAGACCCCGGTCATCCGGGCCGACTGGTTTAATGCCATGGAGAGCTCTAAAGCCTTGATGGAGAATCCGACCGTCGACAATTATTACGCCTTCTTCAAGGAATTGGTGGAGAAGAAGCCGGGTGAAGGCAAGCCGAGTTACGCGCTGACGGCAGCAGGCGATATTGCCGAGATCAATTTCATTTTCAATACGGCTTTCGGTTTGGATACGACCTGGCTTAAGAAGGACGACGGCACTTATGAATACTCCAAGGTTTCCCAGAAGGAAAAAGAAAAGCTGACGTTCTACAACAAGCTTTACAAGGAAGGGCTGCTGGACCCGCAATTCATTACGAAGCAGTGGGATACGAAGGAAGATGCCTTCTATAAAGGAGAAGCTGCCGTTATTACGGGCACAGCCGGCAAAATCATCGATTTGTACGACGGAAGAATGCAGGAGCTCGGCGGAGATGACGCTAACCTGATCGTGCTGCCGCCTGCCAAGGGTGAAGCTCAGGGCTTCGGGGCAACCGACGTGACGAAGGAATCCAGAGGACTTGCGATCTCTTCCCAGTCTCCGCATAAAGACGTGGCGTTCAAGGTCTTTGATTACCTTGCAAGTCCGAAGGGGCAAATGCTGGACCGTCTCGGTTTCGAAGACGAGCATTATAAGGTCGTTGACGGCAAGATCGAGCTGAACGAGAAATACTACAGCGAATGGTATGCGCGTTTCTGGGAGCCGACCGAGATCCAATCCGAGACGCCTTTGAAAACGCCGCTTTTGGGTGAGCCTGGAACCGAATCGTTGAAAATGGCTGGCGATTTCTACACGGAAGACAATAATTTCATCATCCCAGAGCAATTCATTGCGAACTGGGATGCGATGAACAATCTGTACAAGGAATATTCGACGGACTTTATTACAGGCAAGAAGGACTTGTCCCAATTCGACCAATTCGTTGAAGCCTGGAATGCTGCAGGCGGAGCAGAGATAACGAAATACGCCAACGACAACATCAAGTAA	MKKLSLLLIVAMLVMVMSACTSNSKTPGAGQTEPGTAQPEGSGDPVTLKIVYKDEGTANPVSVKFFETLEKSLAEDEGLNVKFELVDLAQGSYAENLNLLLLGGTIPDIIYFQGGDQQIAEQGLLEDLTPYIEKSTYIKDIIEPHNQTRMASYPYLLWIKPLAPKTPVIRADWFNAMESSKALMENPTVDNYYAFFKELVEKKPGEGKPSYALTAAGDIAEINFIFNTAFGLDTTWLKKDDGTYEYSKVSQKEKEKLTFYNKLYKEGLLDPQFITKQWDTKEDAFYKGEAAVITGTAGKIIDLYDGRMQELGGDDANLIVLPPAKGEAQGFGATDVTKESRGLAISSQSPHKDVAFKVFDYLASPKGQMLDRLGFEDEHYKVVDGKIELNEKYYSEWYARFWEPTEIQSETPLKTPLLGEPGTESLKMAGDFYTEDNNFIIPEQFIANWDAMNNLYKEYSTDFITGKKDLSQFDQFVEAWNAAGGAEITKYANDNIK	PGPT0017245_3190	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04233	873			hypothetical protein	ATGAGACGGCTTGAAATTTCCAAAATCGTCATTTATCTGATGTTGTTTGTATTTACGCTCATGGTCTTGGTTCCTCTCCTGAATCTGCTGGCGCTGTCTCTGACCGACCCCGGCAAAGCCCATCTGATGGGCGGTCTGGACATCATACCGAAGGGATTCTCAACGATCAACTACCAGCTGTTGTTGTCCAATCCCTTGATCACGGGCAGTATTCTGAATTCGGTATGGATTACCGTGGCAGGCACATTCCTGAATCTGCTGCTGACCTCCATGGCAGCGTACGTGCTGGCCAGAACCGAGTTTATCGGGAAAAAGGTCGTGTTGTTTTTCCTGATCGTCATTATGGTATTCGAGCCGGGCATGATTCCCGAATACCTGCTCGTGAAGGATCTCGGACTGATGAATACGTTAACTTCGCTGATCCTGTATAAAGCGATCAACGTATACTATCTCTTTATTCTCATGCGGTTCATTCAGGACATTCCGGAGGAGATTCTGGAGGCATCCCGAATCGACGGCGCAGGCCATTTCCGCTTGTACAGCCGCATCATCCTGCCGCTCTCCAAACCGGGGCTGGCGACCTTGGGCTTGTTCTACGGGGTGTATCACTGGAATGAATATTTCCGGGCGACGCTCTATATTTCGGACCCGACCAAATGGCCGCTGCAGGTCGTGCTCAGACAGTTTGTTGTCCGTAAGGACAATACGTCCCTGATCGGGAACCAGAACATGTTCGACAGCTCGATCAATTTTGATTTCGCTTCCCTGCAGGCAGGTACGATCATGATTGCGATTGTGCCGCTGTTATTCCTATATCCGTTCATTTTGAAATATTACGCCAAAGGCGAACTGGAGGGCGGAGTCAAGGATTAA	MRRLEISKIVIYLMLFVFTLMVLVPLLNLLALSLTDPGKAHLMGGLDIIPKGFSTINYQLLLSNPLITGSILNSVWITVAGTFLNLLLTSMAAYVLARTEFIGKKVVLFFLIVIMVFEPGMIPEYLLVKDLGLMNTLTSLILYKAINVYYLFILMRFIQDIPEEILEASRIDGAGHFRLYSRIILPLSKPGLATLGLFYGVYHWNEYFRATLYISDPTKWPLQVVLRQFVVRKDNTSLIGNQNMFDSSINFDFASLQAGTIMIAIVPLLFLYPFILKYYAKGELEGGVKD	PGPT0017255_2554	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04234	894	yteP_48	COG4209	putative multiple-sugar transport system permease YteP	ATGAAGGTGTTAAGACGCTTAAGGCAGGATTGGGTATTATACGCGATGCTGTCGCTGCCTCTGCTCTACTTTTTTGTTTTTCACATCATTCCGCTGTACGGCATGAAACTCGCCTTTCAGGATTACCGGATTCTTGGGGATCATGTGTGGGTCGGGTGGAAGCACTTCAAGACGTTGTTCAGCTCTCCCGCCTTCACGAGCGTGCTGCAGAATACCATCATCATCAGTTTGATGAAAATCGTATTCGTGTTCCCGATTCCGATCATGCTGTCGCTTCTGATTAATGAAGTTCGGAGCTCGAAATACCGCAAATATGTGCAATCCGTGGTTTATCTGCCGCATTTCCTGTCGTGGGTCGTGATTGCCGGGATCTGGATCAGTCTCTTGAACCCAGCCGAAGGCGGAGTCAATCTGATTGCGAATTTCTTTCAACTGCCATCCGTGGATTACATGACCAGCAAGGAGCATATCCGCTGGGTGCTCGTATTCTCCGAAATCTGGCGAAGCGCGGGTTGGGATTCCATCATTTATCTGGCAGCCATCATGAAGATCAGCCCAGGATTGTATGAAGCAGCCAAGATCGACGGGGCGACCCGGCTGCAGCAGATGAGGTACATCACGCTTCCTCATTTATACAGCACAGTTGTAACCGTCTTCATTCTGAATCTGGGCTTCTTCATGAATGCTGGTTTCGATCAGGTGTTTAACTTTATGAACGATTCCATCATCAGCGTGGTCGATATTCTGGACACGTATGTGTACCGGATCGGTATCGGAAACGGGCAGTTTGCTTATGCAACCGCAGCGAGCCTGTTCAAGGGCGTGATCGGCATTATTCTCATCCTGGGCACGCATTTCATATCGAAGCGCTTCTCGGGCAAGGGCGTCTGGTAA	MKVLRRLRQDWVLYAMLSLPLLYFFVFHIIPLYGMKLAFQDYRILGDHVWVGWKHFKTLFSSPAFTSVLQNTIIISLMKIVFVFPIPIMLSLLINEVRSSKYRKYVQSVVYLPHFLSWVVIAGIWISLLNPAEGGVNLIANFFQLPSVDYMTSKEHIRWVLVFSEIWRSAGWDSIIYLAAIMKISPGLYEAAKIDGATRLQQMRYITLPHLYSTVVTVFILNLGFFMNAGFDQVFNFMNDSIISVVDILDTYVYRIGIGNGQFAYATAASLFKGVIGIILILGTHFISKRFSGKGVW	PGPT0017250_2642	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04235	327			hypothetical protein	ATGACTCAACTCGGCGATTTGGCGAAGGTGCTGCGAAGCAAAAACTCGGGCCCTTTCGAAATTACATTAGACGTGTTGTTTGATTCCAAGGAGCAATATGACAGAGTGAAACAGTCCGGCATCATATCGAAACGGACCATATGCGAGCTGTATCAGATACGGGAGGAGCAGATTCATCATCTGGTGTTTTTCGACCAGGCGCTGGGTTTCAAGATCACGATGTCGCGGGACATATCGTCGGGCAGCGTCGGCGACCGCGACGTGTACGGTGCCCAGCAGCATGCTCCCCTCATGAAGTTATCCATCGAACACGGGGAGGAGGGGTAA	MTQLGDLAKVLRSKNSGPFEITLDVLFDSKEQYDRVKQSGIISKRTICELYQIREEQIHHLVFFDQALGFKITMSRDISSGSVGDRDVYGAQQHAPLMKLSIEHGEEG				NA	NA	NA	NA	NA
AK002_04236	1350			hypothetical protein	ATGAATACAGACATTCGAATTCTATCACCCTGCGGCATGCTGGGATATGGCTTTCCTGAACAATCCTTTATGAACGGAATGGACTTTGAACTGCACGGCATCGTCGTGGATGCAGGATCTACGGATGGCGGACCGCATAAGCTGGGCGCCGGCGTTTCGATCGTCAGCAAGCGCGCGGTTAAGAAAGACTTGGACATCATGATCACCCAGGGTTTGCCTCGGAAAATTCCGATTATCATCGGATCGGCCGGCGGCTCGGGAGCAAGGACCCATGTGAACTGGACGCTGGATATCATTGATGAGATTTTGGATGAGCGGGGTCTTCAGGCCAAAGTGTCCGTTATCTGGGCGGATTTTACGCAGGAGGAAATCCATCTGGCAAGCGAAGAAGGAAGAATCAAGGGACTGAGCCCGAACATACCGCCACTGACCCGGGAGCGAATTGATTCCACGAACAGCATCGTTGCTCAGATGGGACACGAGCCTATTGTGGAAGCGCTTAAACAAGGCGGAGACATTATCGTATGCGGCCGGGCTTATGATCCGTCCCCATTCGCGGCGATCGGGATCTATCATGGCAAGGACCCGGGGCTATCCTATCATCTGGGAAAAATATTGGAATGCGGCGCACTATGCGCCGAACCTGGCACAACCAAGGATAGCATTCTTGGCACGATTAGCGATGATTCGTTTACCGTTCAATCGCTTAACCCGAACCGGACGTGCAGCCCGACCAGCGTTGCCGCCCATACCTTCTATGAGAAGGAACATCCGTATATTCTGCATGGTCCCGGATTTACGCTTGATTTGGAGAACTGCCGATTCGAGGAAGTGGAGAAAGGTGTCGTTCGCGTGACGGGCAGCAGGTACCTTCCGGCGGAGAAATATTTCATCAAACTGGAAGGCGCAAGGCGCGTCGCGTATCGAACCTTCGTGGTTGCCGGGATCCGGGACCCAATCCTCATCGGGAAGCTCGAAGAGGTTGAAGATTATGTGCGCAACCAGGCGCGGGAATATTACCGGGAAATTCCGGAATCGGATTATCGGATTCAATTCTACAACTACGGCAAGAACGGCGTACTCGGAAGCAAGGAGCCCGAGTCGTTCGACGGGCACGAGATCGGCGTCATGTTCGAAGTGGTGGCCAAGACGCAGGAGTTGGCAAACAGCATCTGCGCGACGGTGCGTTCCACTTTCCTGCACTACGGCTACGAAGGCCGGAAATCAACGGCAGGAAATCTCGCGTTTCCGTTCGCGCCAAGCGACATCGAGTTCGGTCCTGTGTATGAATTCTCCGTCTACCACCTGATGGAAATGAAAAATAATGCTTTTCGTATAGAGCATCGATAA	MNTDIRILSPCGMLGYGFPEQSFMNGMDFELHGIVVDAGSTDGGPHKLGAGVSIVSKRAVKKDLDIMITQGLPRKIPIIIGSAGGSGARTHVNWTLDIIDEILDERGLQAKVSVIWADFTQEEIHLASEEGRIKGLSPNIPPLTRERIDSTNSIVAQMGHEPIVEALKQGGDIIVCGRAYDPSPFAAIGIYHGKDPGLSYHLGKILECGALCAEPGTTKDSILGTISDDSFTVQSLNPNRTCSPTSVAAHTFYEKEHPYILHGPGFTLDLENCRFEEVEKGVVRVTGSRYLPAEKYFIKLEGARRVAYRTFVVAGIRDPILIGKLEEVEDYVRNQAREYYREIPESDYRIQFYNYGKNGVLGSKEPESFDGHEIGVMFEVVAKTQELANSICATVRSTFLHYGYEGRKSTAGNLAFPFAPSDIEFGPVYEFSVYHLMEMKNNAFRIEHR				NA	NA	NA	NA	NA
AK002_04237	699	lldR	COG2186	Putative L-lactate dehydrogenase operon regulatory protein	ATGACCATTAAGAAGATTAAATATCATCGGGTGTACGAGGATGTTATCGAACAGATCAAGAATCTGATTCTGGAAGGGAATCTGGCTCCGGGTGATGTCCTGCCGACAGAACGGGAGTTGGCCCAGTCCTTCGGCATTAGCCGCGGAACATTGCGGGAAGCCTTTCGTATTCTGGAGCGCGAAGGATTGATTGAAGCCAGACCGGGCGGCGGACGTTTCCTGAGCAAGGCACTGGACGTTGCCGAGGATCGCAGCCGTATTCTGGACAACATTGAACGTGCTACCATCATCGAGTTGTTAGAGGCGCGGGAATTGTTCGAGACGGGAATCGTGGAGCTGGCGGCAAAGCGCGCAACCGATGAGGATATTGCCGAGATTGAGGCCGCCTTCGCGACATGGGGACAGATCGATCAGAACGCGGAGGATCGCTCGAAGCCGGATCAGGCATTTCACCTGTCGATCGCCAAAGCCACGCATAACGTGGTCCTTGTCAATATGATTGAACTGCATATGGATTTGCTTCAGCGGACGCTGAGCAAAACAGCGAAGATACCGGGGCGAAAGAGCGAGGTCTACGAAGAACATTTACTTATTATGCAAGCCATTAAGGAACGGGATCCGGTAAAAGCGAAGTTGGCTTTGCTGAACCATCTTAGCCGGGTTAAAGAAAACATACAGAAAAACCACATTCATGTTTAA	MTIKKIKYHRVYEDVIEQIKNLILEGNLAPGDVLPTERELAQSFGISRGTLREAFRILEREGLIEARPGGGRFLSKALDVAEDRSRILDNIERATIIELLEARELFETGIVELAAKRATDEDIAEIEAAFATWGQIDQNAEDRSKPDQAFHLSIAKATHNVVLVNMIELHMDLLQRTLSKTAKIPGRKSEVYEEHLLIMQAIKERDPVKAKLALLNHLSRVKENIQKNHIHV				NA	NA	NA	NA	NA
AK002_04238	297			hypothetical protein	ATGTTGACGCGTAAACGTCTGGCGATGGAATCCGTGCTGTTTGCCGCAGCGATATATATAGGCTATTTTGCATTTATGATGCTGCAAGGGATGGTGCTAACACAGAGACATGCGCAGGATCTGGATCTGGCCAAGCAATATGAACGGATGGAAACCCTGCAGACTCAGGTAACGTTTGGAATGATGGAGCGGAGCAGCGGGTGGCAAACAGCAGCAGCGATCGGAGGCTTCGTTCTATTAGGCGGCTTATATGGTTATATAAGATGGCAATGGACCAAACGGAGATTGCAGTCATAA	MLTRKRLAMESVLFAAAIYIGYFAFMMLQGMVLTQRHAQDLDLAKQYERMETLQTQVTFGMMERSSGWQTAAAIGGFVLLGGLYGYIRWQWTKRRLQS				NA	NA	NA	NA	NA
AK002_04239	792	amj		Lipid II flippase Amj	ATGATACAGAGCTTGATCGTTGTGTTTGTCCTGACGATGATTATTCATACGGCGGAGACGTTGTCATACTCTGCGAGATATGCCGGAGTGAAGTTGAACAAAATTGCGGTGGCGTTATCCTTGACCGGAATCATTGTGCTGGTTTCCCGAACGTCCAACCTGGTTCAAGCTCCGCTGACGGGCAAATTCGTAGATTACGCAAAAGTGGATCCTTCGTTTGACGTGCTCACCTATTTCAGGGCGATATTGCTGGCCGCATCCATCGGTACGATTGTCGCGATCGCATTGTTTCCTACCTTCGTCAATCTGTTCAGCCGCATTATCAGTAAACTGGAGGTTGCCGGATCCATCCCGAAGCTTGTATCGAGCGTGACCATTGGGCAGCTCAAGAATACACGGCATTACATCAGGAAGCCGAATTTGAAGTGGAGCCAGTTTCGCTACTTAGGCGTACCTAAACGGTTCATTTTGCTGAATATCGTGGTTACGGCTTTTTACACGGTGGGTGTCCTGGCATCCCTGTATGCCGCACATCTCGTGCCCCAGTACAGCACCATGGCCTCCCAAGCGTCCGGACTGATCAACGGGATTGCAACGATTATCTTAACGATATTTATCGATCCCCAGCTTGGTTTGATTACGGACAAAGCCACCCGCAATGAGGAAGCGAGGGAACAGCTGGGCAAGGTGTATACGATGCTGATGGTTTCGCGGTTTTTCGGAACGATGCTGGCCCAGCTCGTGATTATTCCGGCGGCTTACGTCATCAGTGAGATTGTGAAATGGATATAA	MIQSLIVVFVLTMIIHTAETLSYSARYAGVKLNKIAVALSLTGIIVLVSRTSNLVQAPLTGKFVDYAKVDPSFDVLTYFRAILLAASIGTIVAIALFPTFVNLFSRIISKLEVAGSIPKLVSSVTIGQLKNTRHYIRKPNLKWSQFRYLGVPKRFILLNIVVTAFYTVGVLASLYAAHLVPQYSTMASQASGLINGIATIILTIFIDPQLGLITDKATRNEEAREQLGKVYTMLMVSRFFGTMLAQLVIIPAAYVISEIVKWI				NA	NA	NA	NA	NA
AK002_04240	912			hypothetical protein	ATGACTCAGCGCCGTTTACAGATAGGCATGTGGGATCAGTTTACGGAAGATCGATGGGAACGGCTTGCGGGTAAGCATATTAGCGGGATGGAAATATGCAGCTTTCCGAATCGGGAGGCGTTGGTTGAGGTTAGCGATTTTTGCAGTAACCAGCGGATCGCGTTCGGTGTTCATGCCCCGATTCTTCGTGAAGCGGGATATCGGTTGCCTCAAGTCAATGCACCCGAACCCGAGGTCTTTCGGGAAGCGCTTGAACAAATCTCGGCAGAGGTTCAGTTAGCCTCCAGTGTGGGGGCAGATTATATGCTGTTTCATTATCCGTTTTATCCGGTCTTTCAGGAGCCTTTCACGCCGTACCCGAGACTTCCTGGCCCCGAGGATCGTTACAATTACAACCAATTGAGCAAAGAAAGATTCCGGGAAATGTCGAAGCGGTTATTCGAGTTTCTCTGTGAACTCCAGCTTCGCTATGGGCAGCGCATCGTGCTAGAGCATGATTTCTTTGGAGATTACGGGGATGTGCTGATCGATAGCTTTCATGCTTATCCCGACATCGGGTTTGTGCTGGATACGGCCAGGCTTGATATAGCTCGCAGGGCCTTTCAAGGTTTTGACCCATACCCGTTTCTCGATCGGATGGCGTCCCGGATTTATTTGGGCCATTACAGTAACGTATTATACGAGAATGACAAGTTCACGCATCATCTGCCGGTGCTGCCGGAGCATGATCATGATGCGGAATATGGAGAAGCCTACGCCTATTTGCAATACGTTGCCGCCCGTAATTCACGGTTCCATGTGACGTTTGAACATAACGCAAGCCTGATCACTCGGCAGCAATTGCAGCAGATCTATGACCGGACGGCATTCATGCTTCAAGAACAGGGAGGGCACGTACTAATCCGGCCGTAA	MTQRRLQIGMWDQFTEDRWERLAGKHISGMEICSFPNREALVEVSDFCSNQRIAFGVHAPILREAGYRLPQVNAPEPEVFREALEQISAEVQLASSVGADYMLFHYPFYPVFQEPFTPYPRLPGPEDRYNYNQLSKERFREMSKRLFEFLCELQLRYGQRIVLEHDFFGDYGDVLIDSFHAYPDIGFVLDTARLDIARRAFQGFDPYPFLDRMASRIYLGHYSNVLYENDKFTHHLPVLPEHDHDAEYGEAYAYLQYVAARNSRFHVTFEHNASLITRQQLQQIYDRTAFMLQEQGGHVLIRP				NA	NA	NA	NA	NA
AK002_04241	528			hypothetical protein	ATGTTTCAGAATGACCCGCTTTTGCTCATCGCGGACCTTCCCGGTTATTCACCGGATATTAGCCGCTTGCTGTCGATGATGAATTATGCCAGGTTCACGACGCTGCAAGAGGTCAAGGGTTTAACCATGGAGCAGCTCGATTTCGTCGCAGAAAAAGGGGGGAATTCGATCGGTGCATTGCTGCTGCATGCTGCCGCCGTGGAATATGCCTATCAGGCCAGCACGTTCGAAGAGCGCGAATTAAACCAGGATGAGCTGCGGAAATGGGGGCCCGCCCTCAATCTGGGCGATGAAGGCAGAGCCGCAATACGAGGCCATGACCTCGATTATTATATTGAGCGGTTAAACGAAGTCCGAAACCGGACCTTCGACTTGTTCCGGTCGGTTACGGATGAATGGCTTTATATCGAGCAGCCATTCTGGTATAACAAGCAAGCAAATTACTATTTTAAGTGGTTCCACGTCTTTGAGGACGAGATCAACCATCGCGGGCAAATTCGTCTTATTCGAAAGAAGCTGAGCACATGA	MFQNDPLLLIADLPGYSPDISRLLSMMNYARFTTLQEVKGLTMEQLDFVAEKGGNSIGALLLHAAAVEYAYQASTFEERELNQDELRKWGPALNLGDEGRAAIRGHDLDYYIERLNEVRNRTFDLFRSVTDEWLYIEQPFWYNKQANYYFKWFHVFEDEINHRGQIRLIRKKLST				NA	NA	NA	NA	NA
AK002_04242	126			hypothetical protein	ATGTGGAAAATGGTGCTTTCCTACATTCCGGATTGGAAGGTTTTTATGCAAGGTTTTATCGCTTTTTTGGTTCCATATATCATCTCAAGGTTTTTTAAATGGGTTCATCACTCAAAGGAAGACTGA	MWKMVLSYIPDWKVFMQGFIAFLVPYIISRFFKWVHHSKED	PGPT0025115_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310	NA	NA
AK002_04243	1533	gerBA_5		Spore germination protein B1	ATGAAACAACATGACCATGAAAATAACAAAACATTGGATCCCGCTCAAAGCTTACGAGAGCGTTTTACGGGAAAATTCGCCTTGGATCTTGAACTGGTGAGAAACGAGATCGGCCATAACTCGGATGTGCGCATTAGGGAGTTTTACATTGGAGGCACTGGCATTTGTGCGGCCATCATATTCGTAGACGGATTGTCGGATAAAGAGCTCATCGACAAACACATTATGAATTCGCTTATGGCGAGTTTCTTCGAAAAAAATGTTCAGGATCCATCCCTTGTGCAAGGAGTCATCACAAAAGAGTTTATTAAAAATCAAGTTCTTACCATTAGTGAAGTAACAGAAGCGCTTCATGTTCATGATTTGGTGTCCAAAATATTGACAGGTTCGACTGCACTGTTAGTGGATGGCGTGCAGAATGTGCTCATACTCGGTACAACCAAAGGGAAATCGCGCAATGTTGAAGAACCGTCATCGGAGCCATTGGTTCGAGGTCCGCGGTTAGGTTTCACGGAATCGTTAAGTGATAATACCGCCCTTTTACGACAGCATGGAGACAACACCAACTTATCCATCATCAAGTTTCAAGTAGGAGAACGTTCAAAAAAAGAACTTGTCATCGCCTATATCAAAGATATGGCGGATCCTGCCTTGGTGGAAGAGGTGCAGGAAAGAATCAAAAAAATCAATATAGATGATGTACCGGAATCAGGCTATGTGGAGCAGCTCATCGAGGATAATTATCTCAGTCCTTTTACACAAGTACAGAATACGGAACGTCCCGACCGTGTTTATAGTGCCTTGATGGAAGGACGAGTTGCCATCTTGTTGGATGGGACGCCTTTCGCTTTAATCGTTCCGGTTTCATTAAGTATGATGCTGCACTCACCAGAAGACTATTATGATCGCTGGTTGCCGAGTTTTCTCATTCGCCTATTACGTTATTTCGCGGCCCTTATATCGCTTTTTGGTCCCTCCTTGTATATTTCGTTTGTCTCGTTTCACCAAGGGCTGATCCCTACTAAACTGGCCTTATCCATCATGGGCACGAGGGAAGGCGTACCGTTTCCCGCCATAATCGAAGCCCTGATCATGGAAGTGGCCATCGAGATTCTGCGTGAGGGTGGTTTGCGATTGCCTAAACCTATTGGTCCGGCCATGGGTATCGTTGGCGGATTAGTCATAGGGGAAGCAGCCGTACAAGCGGGGATTGTCAGTCCCATTATGGTGATCGTGGTGGCATTGACTGCCATTTCTTCGTTTGCCGTCCCTCAATACAGCGCTGGAATAACGTTTCGCATGCTTCGATTTGTAGCCATGTTTTTCGCTGCTGTCTATGGATTGTACGGGGTCGTTCTGTTTTTCCTTTTCCTTTGCAGCCATTTAGTAAGGTTGAAGAGTTTCGGTGTTCCCTTTATCACTCCGGTCGTTCCTTATCGAGTAAGTGATTGGAAAGACTTTATGATTCGAATGCCGCTTCTGAAGATGAAACGCTTTCGGAAGGCGATACATAAGAAAGATTCCATCCGCTAA	MKQHDHENNKTLDPAQSLRERFTGKFALDLELVRNEIGHNSDVRIREFYIGGTGICAAIIFVDGLSDKELIDKHIMNSLMASFFEKNVQDPSLVQGVITKEFIKNQVLTISEVTEALHVHDLVSKILTGSTALLVDGVQNVLILGTTKGKSRNVEEPSSEPLVRGPRLGFTESLSDNTALLRQHGDNTNLSIIKFQVGERSKKELVIAYIKDMADPALVEEVQERIKKINIDDVPESGYVEQLIEDNYLSPFTQVQNTERPDRVYSALMEGRVAILLDGTPFALIVPVSLSMMLHSPEDYYDRWLPSFLIRLLRYFAALISLFGPSLYISFVSFHQGLIPTKLALSIMGTREGVPFPAIIEALIMEVAIEILREGGLRLPKPIGPAMGIVGGLVIGEAAVQAGIVSPIMVIVVALTAISSFAVPQYSAGITFRMLRFVAMFFAAVYGLYGVVLFFLFLCSHLVRLKSFGVPFITPVVPYRVSDWKDFMIRMPLLKMKRFRKAIHKKDSIR	PGPT0025115_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310	NA	NA
AK002_04244	1092	yndE_4		Spore germination protein YndE	ATGATGGGTAGTTCAAAGGGCCAAATTACGAATTTGCAGGCAGCGGTTATCCTCGTCAATTATATTCTTGCAGCCGGGATCCTCACCCTTCCCCGCACTTCCGTGGAGAAGGTGCAAACACCCGATGTGTGGATCACCGTTATTTTGGGCGGGCTCATCGCCATGATCGTAGGGCTGATCATCGTGAAATTAAACCAGCGGTACCCCGAAAAAACCTTCTATCAATACAGCCAAGAAATTGTAGGAAAATGGATGGGCGGGTTCCTCAGTTTACTTATTATCGGTTACTTTTTTACACTTTCTGCATATGAAGTCAGAACGATGGCAGAAGTAACCGGCCTTTTTTTGCTGGAAGGTACCCCCACCTGGGCCATCATCCTTCCTTTTATGTGGATAGGTCTTTATCTGATCATAGGAGGAATAAACACGATCGCCCGTTTGTTCGAAATCATATTCCCTATTACCATCGTCATTTTTTTACTGGTTGCCTTTTTGAGTTTAGGCATATTTGAGCTGGATAATCTCCGTCCCGTGTTAGGATTGGGAATTGTCCCCATGCTAAAGGGAATAAAGACAACCGCTCTCGCTTTTTTAGGTTCTGAAATTATGCTGCTCCTTGTTGCGTTTATGAAACAGCCGGACAAAGCCGTAAAAGTCGTTCTAGTTGGCGTATTCATCCCTTTGCTCTTTTACGTCATCACCGTTGTTATGGTCATCGGAGCCCTATCGATCGATGGGGTGGTCACGAGTACATGGCCTACGCTGGAGCTTATGCGAAGTTTTGAGATCCCCGGTTTGATCTTTGAACGGTTTGAATCTTTCTTGCTTGTCATATGGATTATGCAAATATTCACGACCTTTACCATTACCTACTATGCGGCTGCTCTAGGGCTGGCCCAACTCTTCAAAAAAAAGATTCACCCATTTGTATATGGCTTGGTTCCGATTATTTACGTCATTGCCATGGTTCCAAAAAATATCAATGACCTATTTAAACTTGGGGATATGGTCGGCAATGTCGCGTTAGTATTATTTACCGTACTGCCGGTCATCTTACTTCTAGTATCGAGCGTGAGAGGTGGAAAAGCTTGA	MMGSSKGQITNLQAAVILVNYILAAGILTLPRTSVEKVQTPDVWITVILGGLIAMIVGLIIVKLNQRYPEKTFYQYSQEIVGKWMGGFLSLLIIGYFFTLSAYEVRTMAEVTGLFLLEGTPTWAIILPFMWIGLYLIIGGINTIARLFEIIFPITIVIFLLVAFLSLGIFELDNLRPVLGLGIVPMLKGIKTTALAFLGSEIMLLLVAFMKQPDKAVKVVLVGVFIPLLFYVITVVMVIGALSIDGVVTSTWPTLELMRSFEIPGLIFERFESFLLVIWIMQIFTTFTITYYAAALGLAQLFKKKIHPFVYGLVPIIYVIAMVPKNINDLFKLGDMVGNVALVLFTVLPVILLLVSSVRGGKA	PGPT0025120_326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311	NA	NA
AK002_04245	1203	gerBC_5		Spore germination protein B3	TTGAAGCACATGACGATACGAACCCTCTTGAGTGCGCTGTTGGTCCTTACGCTCCTACCGCTTACTGGATGCTGGAGCAATAAAGAAATTGAAGATTTGGGCCTCATTGTAGGTACTTCGTTGGATTTGGAAAAACAGGAGGAGTCTCGGGAAGAGTCTGCGGGACGAGCAGGGGGGCCTCCTCGCCGGGATCGAATTACGATAACCAATCAATTTGTCACCGCAGAGACAACAGGCAAAGGCACAAAAACCGGTTCTTCACCACAAAAAGCTTATAACAACGTTTCCGAAACAGGAGATACGATCCTGCCGACCTTACGCAATATGGTTTTAAGAATCGAAAAGCACGCATTTGCCGAGCATTCCAAAGTGATTATTGTTGGCGAGGATCTTGCACGCACCTTGGATCTGCAAAAGATCTTGGATTTTTTTATCAGGGAACAGGAGATGAGGCCAAGCGGACTCCTTCTCATCGCTCAGAACCGTGCGAGCAAAACGCTAGAATCGAAAAAGCCGATGGAAATTCCAGCGTTTAAACTCGTTGAAATGACACATGGTCACGAAAGAACCACCAAGATTTTACCCCCGACTACACTGACCAAGATTGAGGGGAAGCTGCATTCAGGGACCAGCTTTCTTTTGCAAAATGTCATCTCGTCGTCGAATGGAGACATAAAATTTTCAGGAGCTGCCGTCATTGAAGGGAAAACGAAAAAACTACGCGGTTTTTTAAATGAACAGGAAATCGAAGGCTTAACGTGGATAACCGGAAAGGGGAAAGGCGGTTTGGTTAAAAGCGTGGATAAAAAGACGGGCCAGCCTATTATATACGAAATATTGTCTATGAAAAGTAAAATTAAACCTCATGTTGATGGAAACGACATCTCGTTTAATATAGAAATTGAGTCTGAAGGAAGAATCGCCGAGCATTGGGTGGTTTCGGAGAAAACTATGGAAACTGAGTTTTTGAAAAGAACGGAAAAAGCGATTGAAAAAGAGGTTGAGCGTTTGGTAAAGAATGCACTCGATAAAATTCAACATGAATACAAAACAGACGTTTCCGGTTTCGGAAACAAATTGAGAATCAAGTATCCTCATATATGGAAGACAGCCAAAAAAGATTGGGATCAAACCTTTAGCGAGGTTCCGATCAAGCATGAGGTCAAAATAACGATCAAAGATTATGGGACGTCCGATGAATGA	MKHMTIRTLLSALLVLTLLPLTGCWSNKEIEDLGLIVGTSLDLEKQEESREESAGRAGGPPRRDRITITNQFVTAETTGKGTKTGSSPQKAYNNVSETGDTILPTLRNMVLRIEKHAFAEHSKVIIVGEDLARTLDLQKILDFFIREQEMRPSGLLLIAQNRASKTLESKKPMEIPAFKLVEMTHGHERTTKILPPTTLTKIEGKLHSGTSFLLQNVISSSNGDIKFSGAAVIEGKTKKLRGFLNEQEIEGLTWITGKGKGGLVKSVDKKTGQPIIYEILSMKSKIKPHVDGNDISFNIEIESEGRIAEHWVVSEKTMETEFLKRTEKAIEKEVERLVKNALDKIQHEYKTDVSGFGNKLRIKYPHIWKTAKKDWDQTFSEVPIKHEVKITIKDYGTSDE	PGPT0025125_99	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025125-yndF-K06312	NA	NA
AK002_04246	429			hypothetical protein	ATGAAACAAACTGTGTTCTATACCTCAGAGCCCCCAGAGGATTTTCAGCAACTGGAGGCTCTGTACGCTTCGCTTGGTTGGAACTCTATTCATCTGTCCGTTACCGAATTGAAAACGATGTGCTTGCATAGCTGGTATGCCGTCTATGCGTATGAAGGACAGAAATTAGTGGGCATGGGACGCGTGATTTCCGACGGGGTGATCACAGGCGTTATATGCGGATTAGGCGTACATCCGGATTATCAGTCCAGAGGGATTGGCCGACAGATTCTTCATCGATTGGTTGAACATTGCGAGAAGTCCCGGGTCTTCCCGCAACTAATGTGTGAGGAAGGTCTGGAACCCTATTACGAGAAACTGGGCTTTCGGCGATTCACCATCGGGATGAAGAAGAATATACAGCGGACTCATTCATCGGACGTCCCATAA	MKQTVFYTSEPPEDFQQLEALYASLGWNSIHLSVTELKTMCLHSWYAVYAYEGQKLVGMGRVISDGVITGVICGLGVHPDYQSRGIGRQILHRLVEHCEKSRVFPQLMCEEGLEPYYEKLGFRRFTIGMKKNIQRTHSSDVP				NA	NA	NA	NA	NA
AK002_04247	375			hypothetical protein	ATGTCAAAAGGTGAACAACAATGGATTATTCCCGACGGGTATATCCCTCCCGAAAGCAGCGGAGAACTAACCAGTCATGAATCCGTCTGTGTTTTGAACTTAACCGAGCAGGACGTAGTGGTTACGATTCATGCTTACTTCGAGGATCGAGATCCATTGCTGGGAATGGAAACCATCGTGCAAGCAAGAAGAACCAAGCACATACGGACCAGCTCGCTTCAAACGGACGAAGGGAACGTCATTCCTTCGGGTATTCCCTATGCCATGGAAGTTATAAGCAGTGCACCTGTGTTTGTTCAATACAGCCGCCTCGACTCCACTCAGGCGGAGAATGCTTTAATGAGCGTGATGGCATACCCGGTAACCATATCCTAA	MSKGEQQWIIPDGYIPPESSGELTSHESVCVLNLTEQDVVVTIHAYFEDRDPLLGMETIVQARRTKHIRTSSLQTDEGNVIPSGIPYAMEVISSAPVFVQYSRLDSTQAENALMSVMAYPVTIS				NA	NA	NA	NA	NA
AK002_04248	1107			hypothetical protein	TTGCAAAACATGTATAAATTCGATTTCGGTACGGAAGCGCCAGGCCATGAACATATCAAAATAACCACTGAGACCTTATATAGTCCTGAGCTTGGCTACGGATTCCATTCCCTATCCAACGTCTCCGCCGCGAATCGGGCGGGGGAAGAGGCATTAACGGGTGATTTTATCATACCGCTGAATGCTGCGTATCAGGTCGATGTGGCGGATGGCCTGTACACTTTGCATTTGTTGATGGGCGATGCCTGGTTTGATACGGAAACCTCCATTCGGGGGACGGAAGGGCAGATGCTGCTGGATGGGAAACTCATCCCGGCAGGCCACTTTGAACGTTATAGTATGACGGTGCCAGCGGTTCAAGGCAAAATCGTATTGTACTTTTCTGGGCGGGCTCCCCGAATTAACGCACTGGAAGTGCTGCCTGCACCGCATGCGTGCCAGGTGTTTCTGGCTGGGGATTCGACGGTAACAAACCAGCCTGCGGACGGATATCCCTATGCCGGGTGGGGGCAAATGCTGCCCGCATTCATAAAAGCGGATGCGGCCGTGAGCAATTATGCAAGTTCCGGCCGAAGCTCCAAGAGCTTTATTGCGGAGGGAATCCTGGAGCAAATCCGGGAGAAGATGAAACCCCATGATTATATGCTGATTCAGTTTGGCCATAACGATCAGAAGCGCGACGAGGGAAGGTATACGGAACCTAACTCGACATACAGGGAGTTTTTAAGACGGTACGTGGACGTTTGCCTGGAGAAACAGGCGACTCCGATCCTGGTTACCCCTGTTCACCGCCGCTATTTTGATGGTAAGGGAAGGCTGGAGGACACGCATGGCGATTATATTACGGCCGTTCGGGAGCTGGCCGCGGAGGAGCAGGTGCCCTTGGTCGATTTGGCGGCGCTGAGTCTGGAGTATTTTAACCGGTTGGGTCCGGAAGGGACCAAATCCGTGTTTATGTGGGGAAGGCCGGGGGAATTTCTTCGTTTCCCGCAGGGCGTAATGGACAATACCCATTTTCAACAGCGCGGTGCGGCCCAATTGGCCGATATGGTGGTTGGGGCTTTGAAGAATCTTGGACTCCAGCCGTTGTCCCTGTTTCTGCGGTAA	MQNMYKFDFGTEAPGHEHIKITTETLYSPELGYGFHSLSNVSAANRAGEEALTGDFIIPLNAAYQVDVADGLYTLHLLMGDAWFDTETSIRGTEGQMLLDGKLIPAGHFERYSMTVPAVQGKIVLYFSGRAPRINALEVLPAPHACQVFLAGDSTVTNQPADGYPYAGWGQMLPAFIKADAAVSNYASSGRSSKSFIAEGILEQIREKMKPHDYMLIQFGHNDQKRDEGRYTEPNSTYREFLRRYVDVCLEKQATPILVTPVHRRYFDGKGRLEDTHGDYITAVRELAAEEQVPLVDLAALSLEYFNRLGPEGTKSVFMWGRPGEFLRFPQGVMDNTHFQQRGAAQLADMVVGALKNLGLQPLSLFLR				NA	NA	NA	NA	NA
AK002_04249	1734			hypothetical protein	GTGCAAAAATGGATGACGATCTATAAAAATATGAAAATCAAAAACAAGCTTTCCCTTCTTATCAGCCTAATCGTTGCCATGGCATTTGCGTTCGCCGTCATCGTCCAGCAGTATGCCTTCTCCATCTACGACGAGCAGCTGTACCTCAAATCGTCCCAGGTCCTTCACCTGTCTTCCTCCGCGATTGAGTCAGAGCTCGAACGGGTCGAACAGTTATCCTTTAATATCATTACGGATACCCAGATCCAGAATATATTACGTTCCATCGCCGGGAGCGAATCCGATTATGACAGGCTCATCCTCCGGCAGCATTTGGTGGACCGCCTCCTGAATTATGTAGGCTCCGAGCCCATGCTTTACTCCATTCACCTGATCGATTCATATGACCATCAACAGGACGTCGGCAGCGTCGTCCCGATTGATCCTGCCAAGAAGGAACTGATTCTTCAGCTTGCCGGGGACGCGGATGGAGAAGAACGCTGGATATACCCGGACGAAAGTGATCCGGCTCTTCTGCTTTCCCGGGAAATAAGATCCTATTCCGGCACATTATTCGATCTTAACTACTTGGGCACAATCATCATTCGCATCAATATGGACAAAATCGTCCGGAAATCCGCCGGAGGTGAAGGCGACCTGATCGTGACCTCGGGTGCGGATGTGATCTATCCCGCAACGCCGCACTTCGATCCGGCGGTCATTCAATCCTCCCTGTCATCCGGAAACGGGTACCTTACCCGGGAAATCGATGGCCACACCTACTTCATTGCGCATAACCGATCGGGCAACACGGGCTGGACATATATGAATGTCACGCCGTTTAACCAAACCTTCAAGCAAATCATATTCATTAAAGAGCTTGTCATCATCGTTTTCACCGTTATTTTCGCGGTTGCGATTCTGCTCGGCATCAGGTTCAGCCGGGGGCTGACACGTCCTATCGAAAGTCTCATCACCCGGATGAAACTCGCGGAAAAAGGAAACTTTGCGGAAGCCAACGTGCTGCCTCAGGACGCAGCTCCCGTCGCCATGAACGAGCTGGGACTGCTGCATCGCACTTTCCGTCTCATGATCGAGCGAATCAACGCCCTCATTACCGAAAACTATTCAAACCGGCTGTTGATCAAAGAGACCGAGTTTAAAGCGCTGCAAGCGCAAATCAATCCTCACTTTCTGTATAACACGCTGGAATCCGTGAACTGGCTGGCGAAGATGAACAAGCAGTCCCAAATCTCCGACATGGTGCAGGCTTTAGCCTTCCTTCTCCGAAACTCCGTCAGTTTGAAGGAGCCTATTCTGACATTAGGGGAAGAATTGGAGATCGTCCGAAACTACGTCATCATACAAAAATTCCGGTTCGAAGACCGCTTACAATTTACACTGGATGTACAAGAGCAGGATCTGCACCGCAAAATACCCAAGCTGTCCCTTCAGCCCCTGCTCGAAAATGCAATTCATTACGCGCTGGAGCCATCCGTTGACCCTTGTCGAATTACGTTGTCCTGCAAGGAGACGCCTTCCGCATTCTGCATCATCGTCGAGGACGACGGTCCCGGTATGGCGCCGGATACCCTGACGCGGCTGCGAAACGGCGATTTGGCCACCAGCGGCAACGGAATCGGACTGTTAAACATCGAAGAACGGATCAAGCTGGCTTTTGGCGACCATTACGGTTTATCCATCGACAGCGGACCGGGTCTTGGAACCCGCGTGATTCTGTCTTTACCCAAATAA	MQKWMTIYKNMKIKNKLSLLISLIVAMAFAFAVIVQQYAFSIYDEQLYLKSSQVLHLSSSAIESELERVEQLSFNIITDTQIQNILRSIAGSESDYDRLILRQHLVDRLLNYVGSEPMLYSIHLIDSYDHQQDVGSVVPIDPAKKELILQLAGDADGEERWIYPDESDPALLLSREIRSYSGTLFDLNYLGTIIIRINMDKIVRKSAGGEGDLIVTSGADVIYPATPHFDPAVIQSSLSSGNGYLTREIDGHTYFIAHNRSGNTGWTYMNVTPFNQTFKQIIFIKELVIIVFTVIFAVAILLGIRFSRGLTRPIESLITRMKLAEKGNFAEANVLPQDAAPVAMNELGLLHRTFRLMIERINALITENYSNRLLIKETEFKALQAQINPHFLYNTLESVNWLAKMNKQSQISDMVQALAFLLRNSVSLKEPILTLGEELEIVRNYVIIQKFRFEDRLQFTLDVQEQDLHRKIPKLSLQPLLENAIHYALEPSVDPCRITLSCKETPSAFCIIVEDDGPGMAPDTLTRLRNGDLATSGNGIGLLNIEERIKLAFGDHYGLSIDSGPGLGTRVILSLPK				NA	NA	NA	NA	NA
AK002_04250	1548	cheB_15		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGTACAAAGTACTGCTCGTGGACGATGAACGGATTATTCTGGACGGCATATCTCAGATGGTGGACTGGTCGGCATACCGAACCGAGCTGGCGGGTACCGCCCAGAACGGAATTCAAGCGTATGAAAAAATCGTCAGGGAGAGCCCGGATATCGTCGTTTGCGACATTCGCATGCCCGGGCTCGATGGTCTGGAGCTCGTTGCCAAGACCTACGCCTCCCATCCTCATATCAAATTCGTGCTGCTGTCCGGCTTCGGCGAATTCGAGTATGCCAACCGCGCCATGCAATACGGCGTGAAGCATTACCTGCTGAAGCCGACCGACGAGGACAAGATCGGTGGAGCGCTGAAAGAGGTCATCGACGAGCTGACCCAGGACCGGAACAAGGAAACGTTTGTCCAGGAGATGAAGGACCGGCTCCGGAAGGTGCTGCCCCATGTCAAAGAACAGGTGCTCAAGGAGTTTGTCACCAACAAGACCTATGGGCGCCATGATCTGGAGGAGTACCGGAGCCTGTTCGAATACGATTTCGATCAGCCTGTGCGTCTTCTGCTGTTCCAGCTGGAAGGCTCCGTCGAATTCGAGCATCAATTCGCCGTGAAGAACATCGCCGAGGATCTGCTGGACACGACGCTGCTGAGTACGACGATCGGGCAGCAGGTCCTGGTGCTGATCGAGGACCGTAACGATCAGCAGCGGCTTCATCAGCAGCTCCAGGATATCCGCTGCACTTTTAAACAGTATTACAAAATGGACGTCACGATCGCGATCAGCAATCCCGGGCCTGTTACCCAGGCGCGGAGGCTGTACCGGGATACGCTGCAGTGCCTGAACTACCGGTTCTACCTGGACGAAAGCGGAATGATCACAACCGAGGATACGCTGCACGTCGGCGGTTTGGAAGGAAGCTTCGTCCTTGATGAGGAGCGGCTGTGCATGCCCGTACGATCCGGCCATCGAAACGAAGCGGAGCTTGCCCTGACCGAGTTCGTTCAGGAACTGAAGCGTGCGCAGCTGAGCATCGAGATGACCAAATCCTATATCATTCAGCAATACGTATCCCTCATCCGGCTGACCGATCCGGACCAGATGCAGGAACGTTACGCACGAATCCCGGAAATCGCCGAGATGAGCACGCTCCAAGCAATTCAAGGCGTACTGGAAGAAACGGTTCGGGAAATCACGCTGCGAAACTTTGAACGGAACAAGGTCCAATACAATGCCATCGTGCGCAAGGTGGTGGAGATCATCGAGAACCAGCTGGGCAACTCGGAGCTTACCCTCAACCTGGTGGCAAACGACATGCTGTATATGAACGCCGACTATCTTGGCAAGCTGTTCAAAAAGGAGACCGGCGAGAAGTTCTCCAATTACGTGATGAAACTTCGGATGAAACGCGCAACCGAAATGATGCTCAGCGATCCCGATATCAAAATTTTTGAAATGGCGGAGCGGCTCGGTTTTGGCGATAATCCTCAATATTTCAGCCAAGTGTTTAAGAAACAGATCGGCTGCACGCCCTCCGAATATATGAAAAAGAGCGATTAA	MYKVLLVDDERIILDGISQMVDWSAYRTELAGTAQNGIQAYEKIVRESPDIVVCDIRMPGLDGLELVAKTYASHPHIKFVLLSGFGEFEYANRAMQYGVKHYLLKPTDEDKIGGALKEVIDELTQDRNKETFVQEMKDRLRKVLPHVKEQVLKEFVTNKTYGRHDLEEYRSLFEYDFDQPVRLLLFQLEGSVEFEHQFAVKNIAEDLLDTTLLSTTIGQQVLVLIEDRNDQQRLHQQLQDIRCTFKQYYKMDVTIAISNPGPVTQARRLYRDTLQCLNYRFYLDESGMITTEDTLHVGGLEGSFVLDEERLCMPVRSGHRNEAELALTEFVQELKRAQLSIEMTKSYIIQQYVSLIRLTDPDQMQERYARIPEIAEMSTLQAIQGVLEETVREITLRNFERNKVQYNAIVRKVVEIIENQLGNSELTLNLVANDMLYMNADYLGKLFKKETGEKFSNYVMKLRMKRATEMMLSDPDIKIFEMAERLGFGDNPQYFSQVFKKQIGCTPSEYMKKSD				NA	NA	NA	NA	NA
AK002_04251	1341	yesO_4	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAAAAAAATGTTAAACGCGGTCCTGATGTTTTCCCTGATCGGAAGCTTGATCGGCTGTTCGGGCGGCGGCGCTGCTGAACCGCCGGCAAACGGCGGAACCGGAACGGAAACGCCGCCGGCGGCTGCAAGCGATAGCAAGGATCCGGTCAAGCTCCGCATTGCGTGGTGGGGCGGTCAGTCCCGGCATGATTATACCTTGAAGGTCATCGAAATGTATGAGTCCCAGAATCCGCATGTCACCATTGAACCTGAATATGCCCCATTCGATGACTATTGGAAGAAGCTTGCTCCCCAAGCGGTGGCCGGCGGACTTCCGGACATTATCCAAATGGACATCTCCTACCTGAATCAATATGCAGGCCGGAATCAGCTGGCGGATTTGAAGCCGTTCACCGAGAGCGGCGAACTGGATGTCGCGGACGTCAGCGAGAATGCGTTGAGCGGCGGTGAGGTCAACGGCAAGCTGGTTGCCATGAACCTCGGCGTGAACGCACTCCAAACCACGTTTGACGTCGAGACGATGAAGAAGAACGGCATCGATATTCCGTCCAAGGAATGGACCTGGGACGACATGGACAAAATGGGGGCCCAAGCCAAAGAAAAAGGCCTGCAAATCGGAGGTTTTGCTTACCGGCATGACGTCTTCTTCCCGTACTATTTAAGAACCATCGGCCAGAAAATGTACAGCGCTGACGGCAAAACGATCGGGTACAGCGACGACCAGCCCTTTATCGATTACTTCACCCGCTACCAGAAATGGTACGACAACGGATATATCCTGTCTCTCGACAAGGAAGCCCAGAAGAAAGGCGTAGCGGAAGAGGATGAAATCGTCCTTGGCAATTCCATCTCGGGCACCGGCTGGTCCAACCAGTTCCTTGCCGTGGCCAATCTAGTAACCGACCGTTCGCTGGAGCTGAATCCGATGCCGGGTCCCGGAACGAAGGACGGTCTCTTCCTGAAACCTTCGATGTATTTTTCGGTCACCGAAACCTCGAAGCACAAGGAAGAAGCCGCCAAATTCATCAGCTTCTTCATCAACGACATCGAGGCCAACAAGCTGATCAAGGGCGAACGGGGCGTTCCCGTGTCCGCCAAGGTAAAGGAAGCGCTGAAGCCGCTCCTCTCCGAGAACGAAGCCAAAATTTTCGACTATGTCACTTGGGCTGAGGCCAACAGCACGCCAGGAGATCCGCCTAATCCGATCGGTGCGGTAGAGATCGAGAAGCTGCTGCGAGATCTCAGCGAACGCATCCTGTTCAAGAAAATCTCGATCGAAGATGCCGCGGCCGAGTTCCGCAAGGAAGCGAATGCCATCTTGGCCAGATCTCAGCAATAA	MKKMLNAVLMFSLIGSLIGCSGGGAAEPPANGGTGTETPPAAASDSKDPVKLRIAWWGGQSRHDYTLKVIEMYESQNPHVTIEPEYAPFDDYWKKLAPQAVAGGLPDIIQMDISYLNQYAGRNQLADLKPFTESGELDVADVSENALSGGEVNGKLVAMNLGVNALQTTFDVETMKKNGIDIPSKEWTWDDMDKMGAQAKEKGLQIGGFAYRHDVFFPYYLRTIGQKMYSADGKTIGYSDDQPFIDYFTRYQKWYDNGYILSLDKEAQKKGVAEEDEIVLGNSISGTGWSNQFLAVANLVTDRSLELNPMPGPGTKDGLFLKPSMYFSVTETSKHKEEAAKFISFFINDIEANKLIKGERGVPVSAKVKEALKPLLSENEAKIFDYVTWAEANSTPGDPPNPIGAVEIEKLLRDLSERILFKKISIEDAAAEFRKEANAILARSQQ	PGPT0016545_3502	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_04252	900	lacF_19		Lactose transport system permease protein LacF	ATGAAGAGGCTCCGTGAGAACGAGCACATCACCGGTTACGTGTTTTCAGCGCCGTTCGTTCTTGGTTTTCTCATCTTTACCTTATATCCAATCCTGTCGTCCCTGTATTATTCGTTCACCAATTACAATCTGATGGAAGCGCCGAGATGGCTGGGCCTCGGGAATTATGAGCGGTTGTTTCTGGAGGACGACAAGATCGGCAAGTCCTTTCAGGTCACATTCACCTATGTATTCGCCAGCGTTCCCCTGCGCCTCATATTCGCCCTCTTCGTTGCCATGATTCTGAATACCGCAACCAAAGCCGTTGGGCTGTACCGCTCCGCCTTCTACCTGCCTTCCCTCATTGGGGGAAGCGTGGCCGTGGCCATCATGTGGCAGCAGATCTTCGGCGACAAGGGACTCGTGAACTCTGCCCTGTCCCTCTTCGGAATCCATTCCACGACCTCTTGGATCGGGAATCCCAGCACGGCGCTGTGGACGCTCATCGCATTGTCCATCTGGCAGTTCGGCTCTTCGATGATCATTTTTCTGGCCGGCTTGAAAAATATACCGAAGGATTACTACGAAGCCGCCAGCGTGGACGGTGCCAATGCGGTCCATCGCTTTTTCAAGATTACGCTGCCTATGCTCAGTCCGATCATTCTGTTCAATCTGACGCTCCAGACGATCTCGGCGTTCCTGACCTTCACCCCCGCCTACATTATTTCCCGCGGCGAAGGCGGCCCGCTGGATCAAACGCTGCTCTATTCGCTCTATTTATACCGCAAGGCGTTCTCGCATTTTGAAATGGGTTACGCGTCGGCTCTTGCCTGGATCATGCTCATTATCGTCGGTGTCCTGACCCTGCTCATCTTCAGATCATCCACCCGCTGGGTTCATTACGAGTCGAAAGGAGATTGA	MKRLRENEHITGYVFSAPFVLGFLIFTLYPILSSLYYSFTNYNLMEAPRWLGLGNYERLFLEDDKIGKSFQVTFTYVFASVPLRLIFALFVAMILNTATKAVGLYRSAFYLPSLIGGSVAVAIMWQQIFGDKGLVNSALSLFGIHSTTSWIGNPSTALWTLIALSIWQFGSSMIIFLAGLKNIPKDYYEAASVDGANAVHRFFKITLPMLSPIILFNLTLQTISAFLTFTPAYIISRGEGGPLDQTLLYSLYLYRKAFSHFEMGYASALAWIMLIIVGVLTLLIFRSSTRWVHYESKGD	PGPT0016535_6362	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_04253	834	araQ_46	COG0395	L-arabinose transport system permease protein AraQ	ATGACCAAATCCAGACGTGTTCTCTACCATACCCTGGTCGGATTATTCGCCCTCGGCATGACCTATCCGATTCTGTGGCTGGTCGCCAGCTCGCTTAAGCCCAATCATGAAATATTCACGACGGCTTACAGCCTGATTCCGAGCCGGCTGGAGTTCTCGAATTATGCTACGGGCTGGAAGGGATTCGCCGGGACCACCTTTGGCACCTTCTTCAAGAACTCGTTCATCATTGTCATCATCTCCACCATCGGGGCCGTCGCCTCCTCGGCGCTTGTCGCCTTCGGATTGGCTCGGACCAAGTTCTTCGGACAGCAGTTCTGGTTCGCCTGCATGATGATTACGATGATGCTGCCCCATGACGTTGTGATCGTCCCGCAATATGTCATGTTCGCCAAATTCGGCTGGCTGTCTTCCTTCAAGCCGTTAATCGTTCCCCAATTCTTCGGCATTCCGTTCTTCATCTTTCTGATCATGCAGTTCATCCGCACGATTCCGAAGGAACTGGACGAAGCCGCCAAGATTGACGGATGCAGCAAGTACGGGATCTTCTTCCGGGTCGTTGTGCCGCTGATCGTGCCCGCTCTCATTACATGTTCGATTTTCTCCTTCTACTGGAGATGGGACGATTTCATCAATCCGCTCATTTATTTGAACAATCCGGAGAAATATCCGGTGTCACTTGCCTTGAAGCTATTCCTGGACGGGGAATCGCTTAATAACTGGGGCGGCATGTTTGCCATGGCTACCTTATCGCTGCTGCCGGTCGTCATCGTCTTCTTTATCTTCCAGAAATACATCGTGGAAGGGATCAGCACGACGGGATTAAAAGGGTAA	MTKSRRVLYHTLVGLFALGMTYPILWLVASSLKPNHEIFTTAYSLIPSRLEFSNYATGWKGFAGTTFGTFFKNSFIIVIISTIGAVASSALVAFGLARTKFFGQQFWFACMMITMMLPHDVVIVPQYVMFAKFGWLSSFKPLIVPQFFGIPFFIFLIMQFIRTIPKELDEAAKIDGCSKYGIFFRVVVPLIVPALITCSIFSFYWRWDDFINPLIYLNNPEKYPVSLALKLFLDGESLNNWGGMFAMATLSLLPVVIVFFIFQKYIVEGISTTGLKG	PGPT0016540_7010	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_04254	1032	yesR_1	COG4225	Unsaturated rhamnogalacturonyl hydrolase YesR	ATGCCTGCACTTGTATTTGATGATCAACAGATTGAGAATGTCATAGACCGCGTGGTTGACCGGACCTTTCGCATGGATTTCAGCTGGGATTGGCCGGGCGGGGTCGCCTTTTACGGGGTATGCGAAGCCTACAAGGCCACCGGCAAAAAGGAATATCTGGAACAGCTGAAAGCCTGGGTCGACGAAAATATGGAAGAGGGGCTGCCCAAGCTGTCCGTCAACGGCGTCTCCATCGGCCACTCCCTCCTGACGTTGTACGAGGTTTATGAGGATGAGCGGTATATCGAAACGGCGAAGGAAATGGCCGAGTATCTCACGCATGATGCGCTGCGTTTCGGCAATGGCATCTTTCAGCATACGGTGAACTCCGAAACGTATAACTTTCCGGAGCAGGCATGGGTCGATACGATGTTCATGGCAGGCTACTTCCTGCTTCGGATCGGCGTGATGCTGGACCGGGAGGATTACTTCGAGGATGGCTTGAAGCAGTATCACGGCCATGAGGATTGCCTGCAGGATCCCGTCACGAATCTGTATTACCACGGCTGGGACAACATCGCCGGCAACCATATGTCAAGTGTCTTCTGGTGCCGGGGCAATGCCTGGGCCGCCATCACGATGGCTCGTGCCCTGGAGCTTGTGCCGGTCACGCATCCGTCCTTCATGATCATTGAAGGCTCGCTGCGCGACCAGCTCAGCGCCCTGGTCCGGCTGCAGCATGAATCCGGCCTGTGGCATACGATTACGACCGATCCGCAATCCCCGCTGGAAACGTCCGGCTCGGCCGGCATCGCCGCCGCCTTGCTGACCAAAGGACGCATTTATAATAAATACACGCAGAAATCGATTGACGGCATCTTGGCCAAAATCGCCGAGGATGGTACCGTAACGGGTGTCTCCGCGGGAACGGCCGTCATGAAGGACGCCGCAGGGTACAGAGGCGTGCCCGACAAGCGAATTCAAGGCTGGGGCCAAGGATTAGCATTGACCTTTCTTGCGGAAGTGCTGAAGATCAGAAATAACCCTTATTGA	MPALVFDDQQIENVIDRVVDRTFRMDFSWDWPGGVAFYGVCEAYKATGKKEYLEQLKAWVDENMEEGLPKLSVNGVSIGHSLLTLYEVYEDERYIETAKEMAEYLTHDALRFGNGIFQHTVNSETYNFPEQAWVDTMFMAGYFLLRIGVMLDREDYFEDGLKQYHGHEDCLQDPVTNLYYHGWDNIAGNHMSSVFWCRGNAWAAITMARALELVPVTHPSFMIIEGSLRDQLSALVRLQHESGLWHTITTDPQSPLETSGSAGIAAALLTKGRIYNKYTQKSIDGILAKIAEDGTVTGVSAGTAVMKDAAGYRGVPDKRIQGWGQGLALTFLAEVLKIRNNPY	PGPT0018255_1444	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
AK002_04255	2082	mrdA	COG0768	Peptidoglycan D,D-transpeptidase MrdA	GTGATCGGCTTTAAACCTTATAAAGACGTACCGGATGAATCAGAAACCAGGCGTAAATTCCATGGACGGATCAATATTTTCTTTTTCAGCGCATTTTTAATCTTTTGCGTCATTATCGTTCGCCTTGCCATATTACAGTTCGTGGAGGGACCGGAGCTGGCAAGCCAGGAAACCGGGGGGGAGCAGAAGCATTTCCCGCTGCAGCCGATCCGGGGGTCCATCATCGACGCGTCCGGCACCAAGCTTGCATACTCAACGGCTTCAAATTCTTTATATATCACGCTCATGAAGGATTACAGCAAGAAGACGGACAAAGGAAAAGAAAACCGGCCGGAAGCGGAGGAGATGGCGAAGCGGCTTGTCCAGGCGTTTAACAAATATGGGGATCCGAACTTGGAACCGGTGACCGTAAAAAAAGTGATGGACGACCTGGATTTGGAATATAACAAGCAGCATGGTTATGAGCCCAGACGCATCAAATCCGATCTGACGAAGGAAGAGATCGCTTATTTCATGGAGAACCGCGCCAAGTTTCCCGGCATCCAGATCGTGGAGGAGAATGTAAGGCATTATGATCCGGATACGGTGGCCGTTCAGACAATCGGATACTTAAGGAAGTTCAAAGGTTCTAAATCCGTAAAAGTATATGAGGATATCGATCAGAGCAACAAGGATCAGGATAATCCCGGCATGATCTACACGGAGGAAGAATCGGTGGGGTATGACGGTTTGGAGCGGATGTATCAGGAAGAACTGCGCGGTCAGAGCGGGTATCTCAGTATTCCGATCAATCCGCAGAATATGGTGGATGGCGTTCCGACGATGGTCGCTCCGGAAAAAGGCCATAATATTCACACCACGATTCATAAAGACATTCAGCTTGCTACGGAGCAGGCCATCATGGATCAGCTCCAATATCTCCATACTCATCCGGTATCGGGAAAGCTTCATAAGGATGCCGTAACCGGATACGCTGTGGCCATGGAGGTGGATACCGGTCATGTGGTCGCGATGGCCAGCATGCCGGATTACGATCCGAATATATGGGAAAGCGGAGGCAAAATTACGCAGGATGTCGTGGACGCGTCGGGAAACGGCACGATTACGATCTATGGATCAGGTCGCTCGAGAAACGGCTTTGAGTCCATGATTTTTCTCGGTTCCGTCATTAAACCGCTGACGGTGCTGATCGGGCTTAATGAGGGGTTATTTGGCATTAATGACACTTATCCTGATCAAGGGTACGCCACCATAGGTCGGGAAGGAAGCGAAACGAGAATTTCCAACTCGAGCGGTCATCGAAACGGACCCATCAAACCGCAGTTAGCGATTCAGCAATCCTCGAATGCTTTTATGATTGATATGATTGGCAAAAGGCTAGTCAGCAAGTATGGCGGGGAGAAGGGCGTTACGGTCTGGGATGAATATATGGAGAAGTTTGGTCTTGGCGTCGTAACGGGGAGCGGCTTGCCCAACGAGCATAAAGGACTGAAAAATTATACCGATACAAAAGCAGCGGGAAGTAATCTGGCGGCGTTAGCCTACGCTTCCTTCGGTCAGCAGGGTAAATACACCCCTCTACAGCTTGCTCAATACACCGTCATGCTGGCGAATGAAGGCAAGCGGGTCAAGCCTCAGCTAGTCAGCAAAGTCACGGATCAGGATGGCAACGTGGTCAAGGAATTCGGGCGCGAGGTCCTGAATGAGGTCGAATTCCCTAAAACGTACTGGCAGACCATTAAGCGGGGGATGAATACGCAGGGTCTCGCAGCCTTTGATGATTTTAAATATGACTTCGCCCGGAAAACGGGAACCTCCGAGCAGGAGGCTAAAGTGAATGGAAAGTGGCAGAAGATTGATAACGGCGTCTTCATCGCCTTTGCTCCGCGAGATAACCCGAAGCTGGCGGTGGCCGTCGTTGTGCCGGAAGGCGGCTTCGGATCGCAAAGCGCCGCGCCGATTGCGAGGAAGATATTCGACGCTTATGACGAAGTCTACGGACTTGACGGAACGCCGCATCCGAAGAAAACCGAAGATCAAGCTAAGGATAACGGAGAAGACGAGACAGGGGAGAATGAATAA	MIGFKPYKDVPDESETRRKFHGRINIFFFSAFLIFCVIIVRLAILQFVEGPELASQETGGEQKHFPLQPIRGSIIDASGTKLAYSTASNSLYITLMKDYSKKTDKGKENRPEAEEMAKRLVQAFNKYGDPNLEPVTVKKVMDDLDLEYNKQHGYEPRRIKSDLTKEEIAYFMENRAKFPGIQIVEENVRHYDPDTVAVQTIGYLRKFKGSKSVKVYEDIDQSNKDQDNPGMIYTEEESVGYDGLERMYQEELRGQSGYLSIPINPQNMVDGVPTMVAPEKGHNIHTTIHKDIQLATEQAIMDQLQYLHTHPVSGKLHKDAVTGYAVAMEVDTGHVVAMASMPDYDPNIWESGGKITQDVVDASGNGTITIYGSGRSRNGFESMIFLGSVIKPLTVLIGLNEGLFGINDTYPDQGYATIGREGSETRISNSSGHRNGPIKPQLAIQQSSNAFMIDMIGKRLVSKYGGEKGVTVWDEYMEKFGLGVVTGSGLPNEHKGLKNYTDTKAAGSNLAALAYASFGQQGKYTPLQLAQYTVMLANEGKRVKPQLVSKVTDQDGNVVKEFGREVLNEVEFPKTYWQTIKRGMNTQGLAAFDDFKYDFARKTGTSEQEAKVNGKWQKIDNGVFIAFAPRDNPKLAVAVVVPEGGFGSQSAAPIARKIFDAYDEVYGLDGTPHPKKTEDQAKDNGEDETGENE	PGPT0023930_424	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465	NA	NA
AK002_04256	618			hypothetical protein	ATGACAATAAAATGGTTAGCGTGGGCCAAGGAGATGCAGGCCATCAGCCAGGCCGGACTGGAGTATACGAGGGACGTTTATGACAAGGAACGGTTTGAGCAGCTGAGGGAGCTCAGCATCAAGATCATGCAGGAGTATACCGAAGCAGGCGAAGAGAAGATCCGTACGCTGTTTGCGAGTGAAACCGGATACCAGACGCCGAAGGTGGATGTCCGCGGCGTTATTTTTCAAGACGGAAAGCTGCTGATGGTGAAGGAAAAGGCCGACGGGGCCTGGGCGCTGCCGGGAGGATGGGCGGACATCGGCTTATCCCCTGCGGAGGTCGTGGTGAAGGAAGTGAAGGAAGAAGCCGGCTACGACGTGCGTGCAGGGAGGCTGCTGGCCGTATTGGATAAGAAATTTCATAACCATCCGCCATCGGCCTTCCACGTGTACAAAATGTTCATTCAGTGCGACATTACGGGCGGAGCCGCAGGCGTGGGGACCGAAACGTCCGCGGTCGGTTTTTTCCCTCAGGACGAACTGCCGCCGTTATCCGAAGAACGGAATACCAGGGAGCAGCTGAAGAGAATATTCGAATTCGAGAACAACCCGCATTTGCCGACTTGGCTGGATTAA	MTIKWLAWAKEMQAISQAGLEYTRDVYDKERFEQLRELSIKIMQEYTEAGEEKIRTLFASETGYQTPKVDVRGVIFQDGKLLMVKEKADGAWALPGGWADIGLSPAEVVVKEVKEEAGYDVRAGRLLAVLDKKFHNHPPSAFHVYKMFIQCDITGGAAGVGTETSAVGFFPQDELPPLSEERNTREQLKRIFEFENNPHLPTWLD				NA	NA	NA	NA	NA
AK002_04257	483			hypothetical protein	ATGAAAAAAATGCGGCCGGTGTTATACATTTTTCTTCTAATCATGGTGTTCGGTACCGGGTACTACATCGGATCCAGATCGGAGAACGTAATACCGATCTCGAAGGAAAATGCCCGCAAAGCCATTCAAACCCTGTGGGTGAAGGCCGCCGAACCTCCGCTGCCCAAGGTAAGCATTGACGGCACCGAGATCCATCTGCAACGTGGCGGTTATTCCTGGTGCAACGGGGATAACTGCGCGACGACGGATGCGGCCCGTCCCAGGCTCGAGGATATGACGCCGGTTGTGGTCCAAGGCGGTGCCGACATTCAATCGACGCCACCCGACGGAATACATGGCTTCTCCATCCTCAACCTGACGGATTCAGGTAACGATGGGTATACCGTGCCATCGAAAGCCGGCTCGTACCTGTACGAAATTCACTGCACATGGCCTCTGGATCAAGGAGAAGCCAGCTTTTATTTTGCGGTGACGGTTGAATAG	MKKMRPVLYIFLLIMVFGTGYYIGSRSENVIPISKENARKAIQTLWVKAAEPPLPKVSIDGTEIHLQRGGYSWCNGDNCATTDAARPRLEDMTPVVVQGGADIQSTPPDGIHGFSILNLTDSGNDGYTVPSKAGSYLYEIHCTWPLDQGEASFYFAVTVE				NA	NA	NA	NA	NA
AK002_04258	351			hypothetical protein	ATGATCTCTTTTTTGTTAACGTTAAAACGTCTCCTCAGCGGTTTGTTTCGAGCGTTCAAACAGCGGTATTTCATGGCGCTGTTTGTGCTAATCGTCATCATGCTGTTATCGGGCACGATGTTCTATACCAGACAAGAGGGCTTGTCGGTGCTGGATGCCCTTTATTTCTGCGTGGTGACCTTGAGCACGGTAGGGCATCCGGAATTCGTGCCGCAGACGGCGCTCGGAAAAACCTTCACCATGGTTTACATCGTCGTCGGGACGGGCTTGTTCCTCGGAATGGTCGGACAGTTGGCGTATGCATTAATTCGTACGAATCAAAGGGAAGAGAAGAAGACAACGAATTCATAA	MISFLLTLKRLLSGLFRAFKQRYFMALFVLIVIMLLSGTMFYTRQEGLSVLDALYFCVVTLSTVGHPEFVPQTALGKTFTMVYIVVGTGLFLGMVGQLAYALIRTNQREEKKTTNS	PGPT0002715_5219	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK002_04259	573			hypothetical protein	TTGAAAAAAGCCATGTTTCTCATACTGGCCGCCGTTGTGGTCGTCATCAGCTACCTGCCGCTGTTCCTGGACGGCTATGCATACAATGAAGAGCAGGCGATACGGCGCGTTCACCCTGCGTATACCGGGGATAAGCTGTACGAGAAGTCAGAGGATCATCATAAGCTGATCGTCTGGCAAGATGGCCATGTTAAGACCGTCAACGTCCTGGAGAGCAAATGGGGACTGCTGCATAAGATTACGAACGCGGTCGCGCTGGAACCCAAGTCCGAAGATGAACCTTTTGTACGAACCTGGTCTGCCAGTCATCGTGGTGACGGCATCTATGACACCCTGGTGGCAGTGGAGACGTCGGAACCCGAAAGCAAGAAAATCATCGTCACCAATGAGCCCTGGGACGATAAACCGATCGAAGATCTGGAACAGGTGAAGGCTTTGTCCGGGATTTACATGGAAATCGACGTGGAGCAAGGCTACGCCATCCATTATGAACAGCTGCCTGCCGACCAGACCGGCGGCTTCATATTTCGAAGCATCGATGCCGAAGGGAATATTCTTTCCGTTCAACCGTAG	MKKAMFLILAAVVVVISYLPLFLDGYAYNEEQAIRRVHPAYTGDKLYEKSEDHHKLIVWQDGHVKTVNVLESKWGLLHKITNAVALEPKSEDEPFVRTWSASHRGDGIYDTLVAVETSEPESKKIIVTNEPWDDKPIEDLEQVKALSGIYMEIDVEQGYAIHYEQLPADQTGGFIFRSIDAEGNILSVQP				NA	NA	NA	NA	NA
AK002_04260	3339	rapA_2		RNA polymerase-associated protein RapA	ATGGGTTACCAGCTGACCGAACGGGTGATCAAACTGTTGTGCGGAAAAACCTCCTACGATCGCGGCGGGGTTTTATATAGGGATGGATATGTATCGATGCTGAAGCAGGATCCGGACGCTCGAAAATACGAGGCTGAAGTGAAGGATCAGGAGTCGGGAATCGCCTATGCGGAGATTGACTCGAACGGGGACGTATACACGGAATGCAGCTGCATCGATTACGGATTTTCCCAAAAGCGGTGCAGGCATATTGCGGCACTCCTCCTGAACATACGGGATATTGAACAAACGGTCGAGGCTCCCATGCGCCCCTTTCCATCGTTATTACATCCTTCCGCCAACGTGAACATGGAAGAAGGACAGTTAACGCCCCGGCACTCGCCGGAATATGGCAGAAGCTCGAACGAGAGAGAACGGGATGCGCTGCTCAGCAGCCAGCTGCTCGGATTGTTCACGTATTCCGGAGGTCGGAGGGCTGCGGCGACGTCCCGCTTCGATACCCGAGAGGTTCTGGAGATGGAGTGCATTTTCAAGCTATATCCGTACGGGGACCGGAAATACCTGTTCGGCGTCGAGCTGCGAGTCGGGAATAAACGCTTGTACATCGTACAGCGGATTCGGGAGTTCTTAGCGTGCGTGAAACGCGGCGCAGCCTGCGTGTTCACGAAGAATTTCACCTACGATCCGGAGGTGCACAGCTTCAAAAAGGAGGATGACACGCTTCTGCAGGAGCTGATCCGTATTTCCGATCATGAGAGCATGTATCAACAGTCGGTGAACATCTACGCTCCGCTTGGCAAAAAGGGGAACGGCGACCGAATGCTGATCATTCCTCCTGCCTTTTGGCCTCAAGTACGGGATGCGCTCGGTTCTTCGGTTCGTGCCCTCTTGTCGATGGATGGAATCATGACGGATAAGCTGGAGTTCGCTCAGGAACCGATCCCGCTGCAATTCGAGTTCGATGAGGCTGCTGCGGATGATCACTATCTGATGAAGATCGATGGATTGGAGCGGATGACCGTGCTGGAGGGGTACGGGGTCGTCATTGCGGATGGCAGGCTGATACAGCTTGAGATGGATGCTTGCAAAAGGCTCGCCGAGATGAAGCTGCTGCTTGAACCTTCCAACACACCGCATATTCGGATACAGCCGGAGATGATGGAGTCCATCATGGAGCGGGTGGTTCCGGGGCTGATGAAACTGGGCAGCGTGCACGTGGCGCAGACCGTGTCCGACCGCATCGTCAAAACGCCTTTAAAAGCGAAGCTGTTTCTGGACCGTGTCCGCGGCCGGCTATTGGCCGGACTCGAATTTCAATACGGCGACATCATCATCAATCCGCTGGAGGGACACCGCGCCAAACGAAGCAGCAGCTCGATTCTCGTTCGCGATGGAGAGACGGAGCAGCGGATTCTGGAGCTCATGGAGAACGCCTCTTTTGCCAGGACTGACGGCGGTTTCTTCATGAATGACGAGGATGCCGAATATGAATTTTTGTATCATACGATTCCGCAGCTGGAGAAGCTGCTGGTTGTTTATGCAACGACGGCGGTGAAGGAGCGGGTGCTCACTGAACCGATGGGAGCCAAGGTTCGGGTGGAGGTCGATGAACGGACGGATTGGCTAGAACTGAAGTTTGACATGGAGGGCATTCGCGAAGCCGAAATCCGGGAAATCGTCAAATCGCTCGAAGAAAAGCGCAAATATCACCGGCTGCGAAACGGAGCGCTGCTTCCGCTGGAAAGTGCGGAGTTCCAGGCCATGGTTGCTTTAATGAACCGGGTGGGACCTTGGCTGTACGAAGGGGAGGGGACGCGGTTTAAACTGCCGGCGGTCCAAGGACTTCAGCTGCTGGATTGGGAGGATTCGGGATCATCGGTCCAGCTTGGCCGTTCCCTGCGCCGGATGCTGCAGAATGTGAAGAATCCGGATTATTTGGACTTTGCCGTGCCGGCCAGCCTGGAAACGGTTCTCCGGGATTATCAGAAGTTTGGCTTCCAGTGGATGAAGACGATGGCCCATTACCGCTTCGGCGGCATCTTGGCCGATGATATGGGACTCGGAAAAACCATTCAGAGTATCGCTTTCATTCTGTCCCTGCTGCCTGAGATCCGGGAGCGTAAAGAACCCGCGCTCATTGTGGCTCCTGCCTCCCTGCTCTATAACTGGTTTAACGAGCTTAAGAAGTTTGCGCCGGAGATCAAGGCCGTCATTGCCGATGGCACGCTGTCCGAGCGGGCGAAGGTGATCCAGAATATAGGCAAAGCGGATGTTGTCATCACTTCTTACCCGCTGCTCCGCAGGGATATCCAGCGATATGCGAAGCTGCCGTTCTTAACCTTGATCCTGGATGAAGCCCAAGCCTTCAAAAATTACGCGACGCAAACGGCTCAGGTCGTAAAAACGCTCCATGCCCGTTATCGGTTTGCGTTGACGGGCACGCCGGTCGAGAATCGCCTGGAGGAATTATGGTCCATCTACGATGCCGTTTTCCCGGCGCTTTTCGGAGATCGAAAAGCATTTCATGAATTGCCTAAAGAAGCAGTGGTGAAACGGGTGCGTCCCTTCCTGCTCCGCAGGCTGAAATCGGACGTGCTGAAGGAACTGCCGGAGAAAATCGAGACGATTCAGGCTTCGGGCCTGCTGATCGAACAGAAGAAGCTGTATACCGCCTATCTTGCGAAACTGCGGCAGGAGACGCTTAAGCATTTGGCACAGGACGGTTTCCAGAAGAACCGGATCCGCATCCTGGCGGGCATTACCCGCTTGCGACAGATCTGCTGCCACCCGGCTCTGTTCGTGGATGGCTACGAGGGCAGCTCGGCCAAGCTTGAGCAGCTGCTGGAAACGATCGAGGAATGTCGTCTTGCAGGGAGACGGATGCTGGTATTCTCCCAGTTTACAGGCATGCTGAACCTGATCGCCGGAGAGCTGGGATATCGGGGGGTTCCGTTTTTTTACCTGGACGGACAGACGCCGGGATCGGAGCGGGTGGAGCTGTGCGAACGCTTCAACGAAGGGGAACGCGAGGTATTCCTGATATCGCTGAAGGCAGGCGGAACGGGGCTCAACCTGACCGGGGCCGATACGGTGATCCTGTATGACCTGTGGTGGAATCCGGCTGTCGAGCAGCAGGCGATGGACCGGGCCCACCGTATCGGTCAGAAGAAGGTTGTGCAGGTCATACGCTTCGTTGCTCAAGATACGATCGAGGATAAAATGGTGGCTCTGCAGCAGAAGAAAAAGGATCTGATCGAGGAGCTGGTTCAGCCGGGGGAAGAGTCGCTTCCAAGCTGGTCCGAAGCGGAAATTCGGGAGCTGCTTGCCCTTCAGGGCTAA	MGYQLTERVIKLLCGKTSYDRGGVLYRDGYVSMLKQDPDARKYEAEVKDQESGIAYAEIDSNGDVYTECSCIDYGFSQKRCRHIAALLLNIRDIEQTVEAPMRPFPSLLHPSANVNMEEGQLTPRHSPEYGRSSNERERDALLSSQLLGLFTYSGGRRAAATSRFDTREVLEMECIFKLYPYGDRKYLFGVELRVGNKRLYIVQRIREFLACVKRGAACVFTKNFTYDPEVHSFKKEDDTLLQELIRISDHESMYQQSVNIYAPLGKKGNGDRMLIIPPAFWPQVRDALGSSVRALLSMDGIMTDKLEFAQEPIPLQFEFDEAAADDHYLMKIDGLERMTVLEGYGVVIADGRLIQLEMDACKRLAEMKLLLEPSNTPHIRIQPEMMESIMERVVPGLMKLGSVHVAQTVSDRIVKTPLKAKLFLDRVRGRLLAGLEFQYGDIIINPLEGHRAKRSSSSILVRDGETEQRILELMENASFARTDGGFFMNDEDAEYEFLYHTIPQLEKLLVVYATTAVKERVLTEPMGAKVRVEVDERTDWLELKFDMEGIREAEIREIVKSLEEKRKYHRLRNGALLPLESAEFQAMVALMNRVGPWLYEGEGTRFKLPAVQGLQLLDWEDSGSSVQLGRSLRRMLQNVKNPDYLDFAVPASLETVLRDYQKFGFQWMKTMAHYRFGGILADDMGLGKTIQSIAFILSLLPEIRERKEPALIVAPASLLYNWFNELKKFAPEIKAVIADGTLSERAKVIQNIGKADVVITSYPLLRRDIQRYAKLPFLTLILDEAQAFKNYATQTAQVVKTLHARYRFALTGTPVENRLEELWSIYDAVFPALFGDRKAFHELPKEAVVKRVRPFLLRRLKSDVLKELPEKIETIQASGLLIEQKKLYTAYLAKLRQETLKHLAQDGFQKNRIRILAGITRLRQICCHPALFVDGYEGSSAKLEQLLETIEECRLAGRRMLVFSQFTGMLNLIAGELGYRGVPFFYLDGQTPGSERVELCERFNEGEREVFLISLKAGGTGLNLTGADTVILYDLWWNPAVEQQAMDRAHRIGQKKVVQVIRFVAQDTIEDKMVALQQKKKDLIEELVQPGEESLPSWSEAEIRELLALQG				NA	NA	NA	NA	NA
AK002_04261	303			hypothetical protein	ATGGAGCGAGATGCGCGATTCTATCGCAGGTGGACGCAGATCCGGGGGAAGGGAAAAGGCAAATTCGTATTTTCCCGAGGACTGGCTCACGGCTTGTTTTTATATGCTGTATGGGCTGCCGCGACCTGGCTCCTGGATCAGGACAGATTTACCCCGGAACATTTTGTAACAAGATACTATTATTATTTTCCCATTTATATCGTGGTCGGCTTCATCATATCCAACGGGGCATGGAATGGGAATAACAAGCGTTATGATCGATTGACCAAAGTCGATGACAAAGAGCGCAGGAACTTGCCGTAG	MERDARFYRRWTQIRGKGKGKFVFSRGLAHGLFLYAVWAAATWLLDQDRFTPEHFVTRYYYYFPIYIVVGFIISNGAWNGNNKRYDRLTKVDDKERRNLP				NA	NA	NA	NA	NA
AK002_04262	510	ttr		Acetyltransferase	ATGAATCAGGAATTTACGATTGTGGAGGTCGACCGATTAGAAACCGACACGCATCATCAATTGACGGAATTATTGATTCGGGTTGTAGAAGATGGGGCCTCGGTGGGATTCTTAGCTCCGCTGTCTTATGATGAAGCTTCCGCTTACTGGAAGGATGCCCTTGGCCCAGGGGTTACCCTGTGGGCAGCCATGCAGGATGGGAAGATGATCGGCACGGTTCAATTGCAGTGCGCAACGAAAGCGAATGGAAGGCACCGGGCTGAGGTGGCGAAATTGATGGTAGATCCGGCTTCCCGCCGCGGAGGTATCGGCAGAACGCTGATGCTGCATCTGGAGCCGAAAGCGAAGGCAGAGGGCAGAACCCTATTGGTCTTAGATACCCGGGAGGGGGACCCCTCTAACAAACTGTATCAGTCTTTGGGTTATATTCAAGCTGGAGTTATACCCGATTATGCCATATCCTCTAACGGTGAGCTTGCCGGAACGGTATTGTATTACAAACGTATCTAA	MNQEFTIVEVDRLETDTHHQLTELLIRVVEDGASVGFLAPLSYDEASAYWKDALGPGVTLWAAMQDGKMIGTVQLQCATKANGRHRAEVAKLMVDPASRRGGIGRTLMLHLEPKAKAEGRTLLVLDTREGDPSNKLYQSLGYIQAGVIPDYAISSNGELAGTVLYYKRI	PGPT0012925_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TABTOXININE-BETA-LACTAM_RESISTANCE,PGPT0012925-ttr-K19113	NA	NA
AK002_04263	891			Epimerase family protein	ATGAAAAAGATCGTTTTAGCTGGTGGAACTGGTTTTATCGGAACTTATCTTGCGAAAAAATTCACGAATGAGCAGCAAGCACAGGTACTTATGATCTCCCGACGGCAGGGTCATATCGCATGGAACGATCGCGAAGCCATCGTCGCTGCCCTGGAGGGGGCGGATATGCTCATTAATTTAGCGGGCAAATCCGTTAACTGCCGTTACAATGAAAACAACAAGGAGCTTATTCTGAAATCGAGAACGGAGACAACGAACATACTCGGCAGCGCCGTTGAGGCCTGCCGTATTCCTCCGCGTACCTGGTTTAATTCCAGCACGGCCACGATTTATCGCCATGCCGAAGATAAGCCGATGACGGAGGAGCAGGGCGAGATCGGCGAAGGCTTCTCCGTCGAGGTTGCCAAGGAATGGGAGCGCGCTTTCTTCTCTTTCCGATTGCCTCAGACGAGACAAATCGCCCTGCGCATTGCCATTGTGCTGGGACCTGGCGGCGGTGTCATGACGCCTTATGTTAACTTGGTAAAATTCGGGCTCGGCGGCGTCCAAGGTACGGGTAAGCAAAGGTTCAGCTGGATCCATGTGGAGGATCTGTATCGCATGATTCTGTTTTTGCAGGAGAAGGAAGAGCTGAGCGGGGTTTTTAATGGTGCATCTCCTTATCCCGAGACGAACAAGGAACTGATGGAGCAGCTTCGGCTTGCGTTGAATCGCAGAATGGGATTGCCATCGCCTAAATGGCTGCTTGAGCTGGGGGCCAGGCTTATACGTACGGAAACGGAACTCGTGCTGAAGAGCCGCTGGGTGATTCCGGACAGACTCTGCAAGGCAGGTTTTCATTTTGCATACGATACGCTGAATGAAGCGCTGGCAGACATCTTGAAACGATAA	MKKIVLAGGTGFIGTYLAKKFTNEQQAQVLMISRRQGHIAWNDREAIVAALEGADMLINLAGKSVNCRYNENNKELILKSRTETTNILGSAVEACRIPPRTWFNSSTATIYRHAEDKPMTEEQGEIGEGFSVEVAKEWERAFFSFRLPQTRQIALRIAIVLGPGGGVMTPYVNLVKFGLGGVQGTGKQRFSWIHVEDLYRMILFLQEKEELSGVFNGASPYPETNKELMEQLRLALNRRMGLPSPKWLLELGARLIRTETELVLKSRWVIPDRLCKAGFHFAYDTLNEALADILKR	PGPT0014730_3043	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
AK002_04264	570			hypothetical protein	ATGGGGACGTCAAACTGGCAGAATTTATCGTATTGCGTGGATCTGATCCGCTATGTAGCTCCCAAGTCCGTTCTGGATATCGGGGTAGGTTTTGGCCGCTGGGGCATGATCTGCCGGGAGTATTTGGACGTATGGGAAGGACGCGTATTTCGCGCGTATTGGAACACGCGGATCGAAGGAATCGAGATTTACCCTGTCAATATCGATACCTACCACGAATGCTTCTATAATAAAATCCACGTTGCGGATGCTTACGATCATCTGCAAACGCAGGTCCAGCCGGGACAATTCGATTTAATCATTCTGGGTGACGTTCTGGAGCATTTTACAAAAGAGCGGGCGCTCGTCCTGCTGCAGACCTGCATTGAAAAATCCCGCTTTGTCCTGCTTAATATTCCGATTGGAACAGACTGGCCGCAGGGCGCTGAATACGGCAATGAGTTCGAGACCCATCTGAGCGAGTGGACAACAGAGGAACTGGATCGTTTTCCCGTAGCTGACAAGAGGCATTTTAAGGATTACATTAACCGTGATTTCTCCACGTATTTGTTTTCGATGCCAAGGAAGTAG	MGTSNWQNLSYCVDLIRYVAPKSVLDIGVGFGRWGMICREYLDVWEGRVFRAYWNTRIEGIEIYPVNIDTYHECFYNKIHVADAYDHLQTQVQPGQFDLIILGDVLEHFTKERALVLLQTCIEKSRFVLLNIPIGTDWPQGAEYGNEFETHLSEWTTEELDRFPVADKRHFKDYINRDFSTYLFSMPRK				NA	NA	NA	NA	NA
AK002_04265	930	hph		Hygromycin-B 4-O-kinase	ATGAAGACATTCAAGCCGGAGATGACTTTGGATAAGGCGGTAAGCCATCTCCAGCAGATTGAAGGAGAGACGGTGCTGAATGTCACCCCCATCGAGATGGGAGAATTAAGCAAGGTATTCAGTTATCGTAAGGGCGATGCCGATTATGTCATTCATTTTAAGGATAATGGGGACAGCCTTCATAAAGTAAACAAAATCTACAGTATGTACGGTGATCAATCCTTGCCCATTCCTCGAATCCATAAGATCGGAAGCGTGGGGAATATCCATTACTCGATCTCGGATAAAGTACCCGGTACGCCGATAAGCGCTCTTGAGCCGGCACAAATTCGAGGGCTGGTTCCCGACATCGTCCAGCAATTCATGCGGATCCTTCAGACCCCTACCGGAGAGTCCCATGAGGGCTTCGGGTGGATTACTCCGGAAGGCAAGGCCGCTCATCGTTCATGGCTGGACCACCTGACGTCTGTATTCGATGCGGAGCAAGAAGGTTTCTACCATGGATGGCAGAGCCTGTATGAGCACAGTTTTCTGGAAAAAGCGTTTTTCGAAGAGATCTACCAAACGATGATTGAACTTGTTCGCTATTCGCCATCGGAGCGCTATCTTGTCCATGGTGATTTCCATTTGGGCAACATGCTTGGAGAGAACGAAAACGTAACCGGTATCGTGGATTGGGAGATGGCCATGTTCGGCGATTTCATGATGGACGTCTCCGTTATTCATATGTGGTATCCGATGCTGGGATTTCCCAAGCGGCTGCAGGAAGCGATGGAGCAGCAAGGCGAGAAGATTCCCTATTTTGAAGAAAGGCTGCTGTGCTATCAGCTATTTCGGGCGCTGGACGGGCTTCGTTTCTATGCGAAGAAGGATGATCAGGGCAGCTATCAGTTCATGAAGAATCATATCACCTCATTATTAAATGGATAG	MKTFKPEMTLDKAVSHLQQIEGETVLNVTPIEMGELSKVFSYRKGDADYVIHFKDNGDSLHKVNKIYSMYGDQSLPIPRIHKIGSVGNIHYSISDKVPGTPISALEPAQIRGLVPDIVQQFMRILQTPTGESHEGFGWITPEGKAAHRSWLDHLTSVFDAEQEGFYHGWQSLYEHSFLEKAFFEEIYQTMIELVRYSPSERYLVHGDFHLGNMLGENENVTGIVDWEMAMFGDFMMDVSVIHMWYPMLGFPKRLQEAMEQQGEKIPYFEERLLCYQLFRALDGLRFYAKKDDQGSYQFMKNHITSLLNG	PGPT0028750_13	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028750-hph-K18817	NA	NA
AK002_04266	543			hypothetical protein	ATGCAGGAACAAGAAGAAATCAAGATTTATCCCAAGGTGACCAAAATGCTGGTGGGTTCCCTGGCATTTGTGTTGGTAGGCAGCGGGTTAGTGTACGGAGGGTTAACCTCGAACAATATCTTTATCGTATTGGTTGGAATCATTTGCGCGTTGTTTTTTGGCATGGGACTGGTGTTTTCCATCGTCAAGCTTGTTCAATCGGAGCCTGCACTCCTGATCCAGCGGGAGGGAATCGTTGATAGATCCTCCTATGCGAGCGCCGGAGCCGTCGCGTGGAGCGAAATCAAGAACATTCACATCTATCAGATTAAGAATGAGAAGTTTATAGGGATCGATGTATATGATCCTGAACTTTTGATGTCCAGGCATCCCGCCTGGAAAAGGAAGCTCATGAGCATGAATAAAGGCATGACGGGTTCTGCTATCCATATATCCGCATCAAGTATCTCATGTAATCTGTATGAGTTGTTTCCTCTGTTATATCGAAGATGGAATGCGTCCAGGAACCTGAATACGGAGACGAAGGAGGGGCAAGGGTTATGA	MQEQEEIKIYPKVTKMLVGSLAFVLVGSGLVYGGLTSNNIFIVLVGIICALFFGMGLVFSIVKLVQSEPALLIQREGIVDRSSYASAGAVAWSEIKNIHIYQIKNEKFIGIDVYDPELLMSRHPAWKRKLMSMNKGMTGSAIHISASSISCNLYELFPLLYRRWNASRNLNTETKEGQGL				NA	NA	NA	NA	NA
AK002_04267	894	yddE	COG0384	putative isomerase YddE	ATGAAATCCATAAATGTACTTCATTATGATGCATTCTCCATACAGCCTAATATGGGTAATCCTGCCGGCGTGGTCTTGAACGCAGACGAGCTGACAGAGAAGGAGATGCAGGCCATCGCCCATAGCGTAGGGTTCAATGAAACGACCTTCATATTAAAATCGGAGCAAGCAGATGTCCGATTAAGATATTTTACGCCCGGACATGAGATGAATTTGTGCGGCCATGCCACCATGGCCTCGATGTATGCCTTGAAGACCAAGGGGCTGCTCCCTGACAAAGAAACCGTGTGGATTGAGACAAGAGTGGGCAATTTGCCGATCGAATTTCAGGATGCTCAGGGAAAGCTAACCATGAAGATGAAGCAGGATCATCCTCAATTCCTGCCCTTTGAGGGAGATGTTGACCGCCTGGCATCATCCATGGGCCTGCAGCGCGAGGATTTGGATTTCGCAATGCCGATCGTATATGGAAGCACGGGGATTTGGACATTGCTGGTACCGATTAAGGGGCTGGAGCCGTTTAGGCGGATGGTGCCTCATAATGCCATGTTCCCGGATATATTAACGGACAATCCGAAAGCCTCTCTGCACCCTTTTTGCCTGGAAACGATCGACGAGTCTTCGTTCATGCATGCCAGACATTTCTCTTCACCGTACTCAGGCACCGTCGAGGATCCGGTAACCGGAACCGCGTCAGGCGTAATGGGAGCTTACTATTTAACCTATTTGAATCCCGAGGCCCCCTCCGCACGATTTATCGTTGAACAAGGCAAGGAAATGGGGAAAGACGGTAGAGTCGATGTTCAAGTGAATCGCTTTGAAGAGACCATGGACGTCTATATTTCCGGTACGGCTGTATTCGTTAAAGAATTCGAGGTTAGCTATGATTCATAA	MKSINVLHYDAFSIQPNMGNPAGVVLNADELTEKEMQAIAHSVGFNETTFILKSEQADVRLRYFTPGHEMNLCGHATMASMYALKTKGLLPDKETVWIETRVGNLPIEFQDAQGKLTMKMKQDHPQFLPFEGDVDRLASSMGLQREDLDFAMPIVYGSTGIWTLLVPIKGLEPFRRMVPHNAMFPDILTDNPKASLHPFCLETIDESSFMHARHFSSPYSGTVEDPVTGTASGVMGAYYLTYLNPEAPSARFIVEQGKEMGKDGRVDVQVNRFEETMDVYISGTAVFVKEFEVSYDS	PGPT0012805_403	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-HHQ|PQS_PERCIPITATION|SIGNALLING,PGPT0012805-phzF|yddE-K06998	NA	NA
AK002_04268	1110			hypothetical protein	TTGATCGCTATCAGCCTATGCATGATCGTAAAAAATGAGGAACATCATCTGAACCGCTGCCTGTCCCGGATAACAGACATCGTGGATGAGATCGTCATTGTGGATACAGGCTCCACCGATCGCACGAAAGAAATCGCCCGGTCCTTTCAGGCGGTCGTTTATGATTTTGAATGGATCGACGATTTTGCGGCTGCGCGAAACTTTGCTTTTAGCAAGGCCAGCCAGGACTATATCCTGTGGCTCGATGCCGACGACGTGCTGCTTGAAGAAGACCGGATGAAACTAATAGCGCTTAAAGAAAACCTTACGCCCGACATCGATTCCGTGACCATGCTCTATCATTTGAGCTCGGACGAATTCGGCAATGTCACCTTCCGTCTGCGGCGCAATCGTCTTGTCAAACGAAGCCGGGCTTTTCGATGGATCGGGCCCGTCCACGAATATTTGGAGGTGTACGGTCATGTTCTGAATAGCGATGTTGCCATTACCCATCTCAGCTCGAATCATGATCCGGACACCGGCCGGAATCTCAGAATCTATGTGCAGCGCGAGGCAGCCGGCGAATCGTTCACCCCGCGGGATCTGTTCTATTATGCGAATGAACTAAAGGATCACCGTCTTTTCGAGAAAGCGATCGATTATTACGAACGATTCTTACATACGGAAAAAGGCTGGGTCGAGGATGTTCTCTCGGCCTGCAGCAGGCTGTCCGATTGCCATCACGAGCTCGGAAACGGGCAAGCCGCATTTGAATCCTCTCTCCGATCCCTGCAATATGCGCCGCCGCGGGCCGAATTCTGCTGCCGCATCGGTTACCATTTTCTCGAGAAAAACCAATATGATACGGCCATCTACTGGTATAAGCTGGCTACCGAGCTTGAGCTGCCTCCGGATTACATGGGATTTCATAATCCCTCCTTCTCCACATGGCTTCCCCATCTGCAATTGGCCGTTTGTTACGACCGAATCGGAGCTTATGCGCTTGCCAATCAGCATAATGAGAAGGCGCTTGCCTACCGACCGGGCGATGAGACGATGCTGGCGAACCAAGAATATTTTCGAAACAAGCTGCAGGAGCTTCAGCGTGACGATGAGAGGCAGAGCTCATGA	MIAISLCMIVKNEEHHLNRCLSRITDIVDEIVIVDTGSTDRTKEIARSFQAVVYDFEWIDDFAAARNFAFSKASQDYILWLDADDVLLEEDRMKLIALKENLTPDIDSVTMLYHLSSDEFGNVTFRLRRNRLVKRSRAFRWIGPVHEYLEVYGHVLNSDVAITHLSSNHDPDTGRNLRIYVQREAAGESFTPRDLFYYANELKDHRLFEKAIDYYERFLHTEKGWVEDVLSACSRLSDCHHELGNGQAAFESSLRSLQYAPPRAEFCCRIGYHFLEKNQYDTAIYWYKLATELELPPDYMGFHNPSFSTWLPHLQLAVCYDRIGAYALANQHNEKALAYRPGDETMLANQEYFRNKLQELQRDDERQSS				NA	NA	NA	NA	NA
AK002_04269	1608			hypothetical protein	ATGACGACCCAGGGGCGAAGACGCGTTTTGATCGGCAGTCCTGTACGGCAGAAACCGGAGATTCTGGACCATTTCCTTACCTCATTGCTGCGGCTGGAACAAAATTCCCTGGAGCTGTGCTACTTCTTTATCGATGACAACAACGATGAATTATCCAGCGCCAGATTGAGCCGATTTATGAAAGAAGTTAACCGGGTGGTTATCCACAGCGCCCATATGCCTGATGATCACGAATATATCCGCGACGAGACAACCCATTATTGGAACGATCGATTGATTTGGAAGGTAGCCGATTATAAGAACAAGATCATTCAATATGCGCTTGACTTACGGTTTGACTATCTGTTTCTGGTCGATTCGGATTTGCTGCTGGCACCGCAGACCCTGATTCACCTCATCGCCGCCGACAAAGAGATCATTTCGGAAATCTTCTGGACCCGTTGGCAGCCGGACTCACGTCCCCAACCCCAGGTGTGGCTCAAGGATGAATATACCCAATACGAACAACAGGCGGGCGAAACGTTGGACGAAGCCCAAAAGGAACATCGCTATCAACAATTCGTGAGCCGGTTAGCGGAGGCCGGCGTGTATGAAGTCGGCGGACTCGGAGCTTGCACTTTAATCAGCCGCCGGGCTCTTGTGCGCGGGGTTAACTATAAACCCATCTACAATTTGTCCTTCTGGGGAGAGGATCGGCATTTCAGCATCCGGGCGGCTGCGCTGGGGTTCACCTTGTATGTAGATACGCACTACCCGGCTTACCATATCTACCGTGAAAGCGATCTTCACCATGCCGGACTGTTCCTGAAGGCAACGGATAAGACTACATCCATCCCCGAGGTTACGCGAAGCTGCCTCGATGAGCGAGAAGAGGGCTGTCTCAACCCCATTGATGCGAATCGCCGCACGGCCCGCCCATCGCTCACCCTGACGATGGTTCTGAAGAATGAAGGCCAACGCTATCTGCGTCAAGCGCTTGAACGGCATCGGGACTACATTGACCAAGCCGTTATTATCGATGATGCAAGTACGGATAACACGCTGGATGTATGTATGGAAGTTTTGAAGGGAATTCCGCTGCGCCTTATCAGCAACGAGGCATCCTTGTTTCACAACGAGGTTGAGCTGCGAAAGCAGCAATGGCGCGAAACCTTGAACGTTCATCCCGAATGGATTCTGAATTTGGATGCGGACGAATGGTTTGAGTCTTCTTTTACGGCCGAGCTTCCTTCCATGCTGAAGCAAAACGAGTTCGATTTATACTGCTTCCGGCTTTATGATTTTTGGAACGAAACCCATTACCGGGACGATGAATTCTGGAGCTCGCATAAAACCTATCGCCCTTTTCTTCTGCGTTACCGTCCCGAAATGAAGTATTGCTGGAAAGAGACGGCCCAGCACTGTGGAAGGTTCCCGGCGAATGTATTCGATCTTCCCCACCATCTTTCAGCTATTCGCCTTAAACATTACGGGTGGGCCAAACCGGAATACAGGCTGGAGAAGCTCAAGCGTTATCGTCAGCTTGATCCTGAAGCGGAGTTCGGCTCGAAAGAACAGTACGACTCCATTCTGGAGGAATCGCCTGCACTTGTTGAATGGATGGAATAA	MTTQGRRRVLIGSPVRQKPEILDHFLTSLLRLEQNSLELCYFFIDDNNDELSSARLSRFMKEVNRVVIHSAHMPDDHEYIRDETTHYWNDRLIWKVADYKNKIIQYALDLRFDYLFLVDSDLLLAPQTLIHLIAADKEIISEIFWTRWQPDSRPQPQVWLKDEYTQYEQQAGETLDEAQKEHRYQQFVSRLAEAGVYEVGGLGACTLISRRALVRGVNYKPIYNLSFWGEDRHFSIRAAALGFTLYVDTHYPAYHIYRESDLHHAGLFLKATDKTTSIPEVTRSCLDEREEGCLNPIDANRRTARPSLTLTMVLKNEGQRYLRQALERHRDYIDQAVIIDDASTDNTLDVCMEVLKGIPLRLISNEASLFHNEVELRKQQWRETLNVHPEWILNLDADEWFESSFTAELPSMLKQNEFDLYCFRLYDFWNETHYRDDEFWSSHKTYRPFLLRYRPEMKYCWKETAQHCGRFPANVFDLPHHLSAIRLKHYGWAKPEYRLEKLKRYRQLDPEAEFGSKEQYDSILEESPALVEWME				NA	NA	NA	NA	NA
AK002_04270	861			hypothetical protein	TTGAAAATCATTCATACCCTGCCCTTATTCATTCGGGAGAGCTCGCGCAAGAATGATTTACACATGGCCAGCCTGGCGTTAAGCAGTCTGCAGCGTTCCCGGGAGCATAGGACGGTTCTGTTTAATCAAGGATGCCTTACGAATGAAGAGCTGCAAGAATGGCTGCAAACGTCAGGCCTATCCGGTGTTATTCTCGGGAACGGAGCGAATATCGGTATCGCTGCCGCCAGGCAAGCCTGTTTTGAATTCATATGGGAGCACTTCCCTGAAGCGGGGTACATCTCCGAAATTCATGTCGACATGCTCTTTCCTCCGGATTGGCACGAACCTCTTCTTCGTTATCTGGAATGTAACGACGAACCTATGGTATCGCCCGGCATCGTTACCTCAACCGGAGAACTGCAGCCCTTGGGTGAGTTCATTGTTCTTCCGAAAACACCAGGTGAGCTCAGCGAAACGCTCCAGCGGCTGTCAAGAAAAGGGATTGCGGATGGATTCGTGCATCCGGTCGTTCACCGTGCGGAAGCCCTTCGCCATATTGGAGGTTATGATACTCGATTCTTATCCGGCAAGCAGGGCTATGAGGATGACAGTCTGCTTCTGGGCATGCGGTATTATATGGGAACCCGCACGGCATGGAGGCCGAAATGCTGCCTGGCCTCCTGGGTATACCATGCAACCATGGCCCAACGCATGTCGATGCCGGACAAATACATCGAATTTTCCATGAACGAGACTGGCCTGTTTCATCAATACGGGGCGTACGGATTGAGAGAACTGGCTGAGATTCACAACGGCTCCGGTGAGTTCCACCGGCTGTTTCGCAAGTACACGCCAGAACACAAAGGGGTGACCGAATGA	MKIIHTLPLFIRESSRKNDLHMASLALSSLQRSREHRTVLFNQGCLTNEELQEWLQTSGLSGVILGNGANIGIAAARQACFEFIWEHFPEAGYISEIHVDMLFPPDWHEPLLRYLECNDEPMVSPGIVTSTGELQPLGEFIVLPKTPGELSETLQRLSRKGIADGFVHPVVHRAEALRHIGGYDTRFLSGKQGYEDDSLLLGMRYYMGTRTAWRPKCCLASWVYHATMAQRMSMPDKYIEFSMNETGLFHQYGAYGLRELAEIHNGSGEFHRLFRKYTPEHKGVTE				NA	NA	NA	NA	NA
AK002_04271	1461	COQ3_1		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGCTGCCGGATGAACGCCAGAAGAAGATTTGGGATCAGCTATGGTCCCGGGAGGTATCCTATCACTGGGATTCACTAAGCCAAACCATCTACGATAAGATCATGGAGGTTACAGGAGGCATCGAAGGGAAGCGCATACTCGAGGCCGGTTCCGGAACGGGCAAGATTTCGATGCGCCTGGCTGCTGAGCATGCGGAAGTGACGCTGGTCGACTATTCCGAGAATGCGCTGTACAACAGCCGGAGCGCCTTTTATAGCGCGAAGGTTCCGGGCACCTTTGTTCTCTCCGATATTAGGGAGATGCGGCTTCCTGACCAGCACTTTGATCTAACCTGGAATGCGGGGGTGCTGGAGCATTTTGAGGAAGAAGAGCGGATCGCGATATTAAGAGAAATGAAACGGGTTACCAAGCCGGGAGGAACGATGCTGATCCTCACCCCTTTTGCGGAATGTTTGCCGTATCGTGCGGGTAAAGAAGCCGCCGAACAGCTGGGCACCTGGATGTATGGCACGGAGCATCCCGCCTCCACGCTCAGAAATCAATTTGAGCGGTGTGGTATAACGTTGATCGAGGAGAGCAGCATCGGCTTTTTGAACAGTTTGGATTTTCTTGATTTCATCCGGGATTCCCAGACCGTCAAGCATTGGCTGACGATGTGGTACCATAGACTCCCTGAATACGAGAAGCGCAATGTGCCCGGATACCTGCTCGTCAGCGTTGGAACGGTTGGACCGTTACCCGAGGCTGCCGAGCGGCAATGCAGGCAGCCTCTTGATGATGATCTATCGCCTGACGAGAAACTGTCCCGTGCCCAAACGATTATCTCTTCCTATCATGCCAAGCGGAATGGGAGCCACTATCTGTCTGTTTATAAGGATGAAAAAGCCAGCTACTGGTACCCGCTGCTTCCGATCCTGGACTCGTTGCTTGTGCACCGGGGCACCCGTGTACTGGATATCGGCGCTGCTTACGGTACGCTGCTAATGTACAGCGTATTGTCCGGAGCTCAGGCACACGGCTTGGATCACATGGCGGATTACTGGTCCGTGGAACTGGAACAGGACTACGGGATCCGGTGGAGTCAGTGCAATGTAGAAGCCGAGGATATTCCGGGAAACGAACGGTACGATATCGTTCTCTTTACGGAAGTGCTCGAGCATATGAATTACAATCCGATACCGGTTCTCCGGAAAATCCATGACAAACTGATGCCTGGCGGAAGCCTGCTCATCTCAACGCCGTGGAAACGGCATTTTGCGCCTGCTCGTCACGATCCTGATCTAATCGATATGCCTTACTACCGGATAGGAGACGGTTTTGTTGATGCCGAGATGAAATATTATTCGATCGATGAAATATATGTACTCGCCGAAGCGACGAATTTTCAGGTGAAATCGCTGGAGATCTATAACGGCCATATACTTGCCTGGTTTCTGAGAACGCAGCAGCCTGGAATTTGA	MLPDERQKKIWDQLWSREVSYHWDSLSQTIYDKIMEVTGGIEGKRILEAGSGTGKISMRLAAEHAEVTLVDYSENALYNSRSAFYSAKVPGTFVLSDIREMRLPDQHFDLTWNAGVLEHFEEEERIAILREMKRVTKPGGTMLILTPFAECLPYRAGKEAAEQLGTWMYGTEHPASTLRNQFERCGITLIEESSIGFLNSLDFLDFIRDSQTVKHWLTMWYHRLPEYEKRNVPGYLLVSVGTVGPLPEAAERQCRQPLDDDLSPDEKLSRAQTIISSYHAKRNGSHYLSVYKDEKASYWYPLLPILDSLLVHRGTRVLDIGAAYGTLLMYSVLSGAQAHGLDHMADYWSVELEQDYGIRWSQCNVEAEDIPGNERYDIVLFTEVLEHMNYNPIPVLRKIHDKLMPGGSLLISTPWKRHFAPARHDPDLIDMPYYRIGDGFVDAEMKYYSIDEIYVLAEATNFQVKSLEIYNGHILAWFLRTQQPGI				NA	NA	NA	NA	NA
AK002_04272	2136			hypothetical protein	ATGAGCTTAAACAGAAAGACAACGAAGATCTTTCTTGTCGTTGTGATGATGTTGGCGATGGTTTTTCCAACCAGCGTATTCGCCGCCTCCGGGGACGTAACATCGATTGAATTTGACACGAACGAGAGCAAAATTTACTTAACCGTTAATGAAACAACGGAACAACTTCGCGTATTGGCTAACATTGAAGGATCTTCCACGAAGAAGGACGTAACCAATGAGACGACATGGACTTCGTCCAACACGAGAATCGTAAAGGTTGACGGCGGTCTCATTATTCCGCTGGAGAAGGGTACGGCTCGTATTACGGCAAAATACAAAGGCGCAATCAAAACGATTGATGTCGACGTCAAATTTGCCATCGACGAGTTCAAGCTGGATCAGCCGGATAAAGTGGAGCATAAGCTTGGAACGGAAGGTTTAACCGTTAAAGCACTGGCTGACGGAACGAACGACGTGACAACGGAATCGAAGTGGACCACTTCCGATGACAGCGTAGTGAAAGTAAGCAAAGGGGAACTGACCCTCGTAGGACTGGGCAGCGCAACCGTGACTGCGGATTACAAAGGGCTCAAGGCTTCCTTTACGGTCAAAGTCGTCGCTCCTTACCAAAAGCTTGCGATCGTTCCGGGCGAGGATCAGGAGCTGCTAGTCGGTGATGCGCCTGTGGATCTTAAAGTATTCGCCAAGCAGTCGGAGACCGATGCAGGTACGGACGTAACGGACAAGATAGAGTTGAAATCGTCCAACACTTCCGTAGCAACGGTTGAGGATGGCAAGCTGAAGCCGGTGGCATTGGGTAAATCCACGATCAGCGTGAGCTATCTGGGTTCGACTGCCAAGCTGGATGTGTATGTGCGCAATCCATATGAAGCTTTGATACTGGATCAGACGGATTTCGTCAAGAATCCGGTTCTGTTTATGAACGATTCGATTACGGTAAAAGCCAAGGTTCGTAATGCGGCTTCCCAATCCATCGACGTGGCCGGGGAATGGACCTCATCCAATCCGCTGGCGGTATCCGTCAACGGTGGCGTGATTACGGCAAGAGCTAAGGGAACCTCCACCATCAAGGTGAGCTACCTCGGAATCAGCAAAGAATTTACCGTTAAGGTGTATCCGACGGTAACCAAGTTTGAAACAGAGGACACGAAGGTGGATGTGCTGAAAGACGAATCCAAATCCTTCCCTAAAGTGACGGGAACGCTTCTGGACGACGAGGAAGAGGATTTCAGCAGTGCGGTGACCTGGACATCGAGCGATGAGAACGTGGTAACGACCGAAGACGGCAAAATCAAAGGCATCGATGCCGGTACAGCAACAATCACCGGTAAGATCGGTTCCAGAGAAGTAGCGACGCTGCCGGTTACGGTTAACGAAAAAGTGCTGGTGCTGCTGCCGGATGTTGAGGAGTATCAGCTGGTTATAGGCAGAAGCAACGCGCTGCCGAAAGTAAATGCCGTATTCGAGGATGGCGAAGAGAGCGATGTGACCTCTTCCATCGAATGGTCGCTGACAGGATCTGCGGCTGTCATTAAAGACGGTACGATCAAGGGCTTAACGAAAGGCTCGACAACGCTGAAAGGCACATATTTGAACAAAGAGGTCAAGATTCCGGTCGTGGTTGAACAGGAAGTCGTTAAGTTTGTCGTAGACCCGGAGAATATTGACCTCAACATCAAGAAATCCAAATCGATTAAAGTTACAGGCTACTACAGCAACGGCAAAACGGTTTCGCTCTCATCCAAGATGAATTGGAGTTCTTCGGACACCGCGATCGTAACGGTATCCAGAACCTCCGTTAAAGCGGTTGCCGAGGGTAAAGCAACGATTACGGGTTCATACCAAGGCAAAGAAGTCACCGTTAAAGTAAACGTGGTTCCGAAGATGACGAAATTGATCGCCAGCGAGAAGAAACTGAACTTGAAGCCCGGTGACGTCAAAACCGTAACGGTTACGGCCGAATATGATACCGGCGCAAAAACGAGTGTTGGGGACACCGCCGTGTGGACAACCAGCAACTCCAGCGTGGCCAAAGTAACGAATGGACGCATTGAAGCGATCGCGAAGGGAACCGCCCGCATTAAGGGGCAGTACAATTCGAAGACCGTAACCATTACCGTCTCTGTGAAATAG	MSLNRKTTKIFLVVVMMLAMVFPTSVFAASGDVTSIEFDTNESKIYLTVNETTEQLRVLANIEGSSTKKDVTNETTWTSSNTRIVKVDGGLIIPLEKGTARITAKYKGAIKTIDVDVKFAIDEFKLDQPDKVEHKLGTEGLTVKALADGTNDVTTESKWTTSDDSVVKVSKGELTLVGLGSATVTADYKGLKASFTVKVVAPYQKLAIVPGEDQELLVGDAPVDLKVFAKQSETDAGTDVTDKIELKSSNTSVATVEDGKLKPVALGKSTISVSYLGSTAKLDVYVRNPYEALILDQTDFVKNPVLFMNDSITVKAKVRNAASQSIDVAGEWTSSNPLAVSVNGGVITARAKGTSTIKVSYLGISKEFTVKVYPTVTKFETEDTKVDVLKDESKSFPKVTGTLLDDEEEDFSSAVTWTSSDENVVTTEDGKIKGIDAGTATITGKIGSREVATLPVTVNEKVLVLLPDVEEYQLVIGRSNALPKVNAVFEDGEESDVTSSIEWSLTGSAAVIKDGTIKGLTKGSTTLKGTYLNKEVKIPVVVEQEVVKFVVDPENIDLNIKKSKSIKVTGYYSNGKTVSLSSKMNWSSSDTAIVTVSRTSVKAVAEGKATITGSYQGKEVTVKVNVVPKMTKLIASEKKLNLKPGDVKTVTVTAEYDTGAKTSVGDTAVWTTSNSSVAKVTNGRIEAIAKGTARIKGQYNSKTVTITVSVK				NA	NA	NA	NA	NA
AK002_04273	585	pgsA_2		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGAACCTTGCCAACCGCATAACGATAGCCAGAATATTATTGATTCCCGTCTTTATTTTATTTTTTGCCGAGTATCCGTTATGGTTGACCGAGAACAGCCGCTTCTTCGGATTCATTCATGCTTATGGAACCTACATCGCGCTGGGCGTGTTCATTCTTGCATCGGCTACGGACAAGCTGGACGGTTACATTGCACGGAAAATGAATCAAATCACGAACCTTGGAAAATTGCTGGACCCGCTCGCAGATAAACTGCTCATATCGGTCGCCTTAATCATGATGGTTCAATCCGGCATGGTTTCGACTTGGATCGCCGTTGCCATCATCGCCCGGGAATTCGTCATTACGGGACTTCGGATGGTCGCCTCCGAGCAGGGAATCGCATTGTCCGCTGATAGGCTCGGCAAATTGAAAATGGTCCTTCAAGTCACAGCCATTGCAGCGGTATTGCTGGATAACGCTCCGTTTACGTTCATCAGGATGGTCCAAGTGGACGAATTGCTCATGCTTGCCGCAGTAGCCTTAACGATTTACTCAGGCATCCATTATCTGTGGAACAATGTTAAACTCATTCAACTAAGCTGA	MNLANRITIARILLIPVFILFFAEYPLWLTENSRFFGFIHAYGTYIALGVFILASATDKLDGYIARKMNQITNLGKLLDPLADKLLISVALIMMVQSGMVSTWIAVAIIAREFVITGLRMVASEQGIALSADRLGKLKMVLQVTAIAAVLLDNAPFTFIRMVQVDELLMLAAVALTIYSGIHYLWNNVKLIQLS	PGPT0007705_3016	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
AK002_04274	426	fosB	COG0346	Metallothiol transferase FosB	ATGAATCTGCAGGCCATTAACCATATCTGCTTTTCGGTTTCGCACTTGGAACGGTCCATTGGTTTTTACAGGGACGTGTTTGGAGCCAAGCTTCTGGTCAGAGGGCGAAAGCTGGCTTATTTCGATCTGAACGGGCTGTGGATTGCTCTAAACGAAGAAGACGTGGACCGAAGCACGGCAAACAGAACCTATACGCATATTGCATTTACCATCGATGAGCAGGATGTGGAACCGACGCTGGTTCGCCTTCAATCGCTCCAAGTGGAGATTTTGCCGGGTAGGGCAAGGGACGAGAAGGATAAGAAGTCGATTTACTTCCTGGATCCGGACGGGCACATGTTCGAGTTTCATACGGGCGGATTGCAGGACAGGCTGGACTATTACCGAGCGGATAAAGAGCACATGACCTTTTACGATACCGAATAG	MNLQAINHICFSVSHLERSIGFYRDVFGAKLLVRGRKLAYFDLNGLWIALNEEDVDRSTANRTYTHIAFTIDEQDVEPTLVRLQSLQVEILPGRARDEKDKKSIYFLDPDGHMFEFHTGGLQDRLDYYRADKEHMTFYDTE	PGPT0028560_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028560-fosB-K11210	NA	NA
AK002_04275	675	gph_4		Phosphoglycolate phosphatase	ATGCCAGTCGAGGCGGTGTTCTTCGATTTATATGAGACGTTAATCACGGAGTTTGCAGACGGCAAGCGGGTATCTAAGAGATCCTATGATTATATGGATAGACTCGGGCTATCGGACGCGGAGTTTAAACAGGAGTGGAGCACTCGTTCGGAGCGCAGAATGAATGGGCATTTTCCCGACTATCATTCGGTGATCCGCGACATTCTGGAATCTCGCAGTTTGCCCTATCCTCAGGAACACGTGGAATTTCTATATCAGTCGAGAGTCAGCGAGAAGAAAATTCCTTTCCATACGATCTCGAAGGAGATCTTCAGGATGCTGGAACTTCTGCGGGAACGGGGACTGAGGCTGGGCTTGATCAGCAATTGCTCGGAAGAAGAGGTGGTTTCTTTTGGCCAGAGCGGATTGGCCCCCTACTTCGATGACGTTATCTTCTCTTATCAGGTTGGGGTAGCCAAGCCGAATGCAGAAATCTATCGATTGGCTTGTGAGCGCTTATCCGTAAGACCGGAGGAAGCCCTGTTTATCGGGGATGGCGGTTCAGATGAGCTGAGAGGAGCGGGCAGTGCCGGATTAATGCCATATCACGCCTATTGGTACAATACGTTTATGGAGAGCGGGTATGAGAAGATCCGTCAACCGCTGCATGTGCTGGACATCATTGAATCTATATAG	MPVEAVFFDLYETLITEFADGKRVSKRSYDYMDRLGLSDAEFKQEWSTRSERRMNGHFPDYHSVIRDILESRSLPYPQEHVEFLYQSRVSEKKIPFHTISKEIFRMLELLRERGLRLGLISNCSEEEVVSFGQSGLAPYFDDVIFSYQVGVAKPNAEIYRLACERLSVRPEEALFIGDGGSDELRGAGSAGLMPYHAYWYNTFMESGYEKIRQPLHVLDIIESI	PGPT0008585_920	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008585-yigB-K20862	NA	NA
AK002_04276	513			hypothetical protein	ATGAGGTTGCAGACCGAAGTGAAGCTGTACACCATGTGCATGATACAAGACGGAAGCAGAATTTTGCTGATGAACAGACCGGATGACAAAGGATTCCCCGGATATATTGCCCCCGGCGGCAAGGTGGATTTTCCGGAAAGCATTGTAAACGGAGCCATTCGGGAGGTTCGGGAGGAAACCGGCTTGATTGTGAAGGACATCATCTATAAAGGTCTTGAAGAATCCTGTGAACCGAATACGGGGTTTCGGTACATGGTATTTAATTATTTGGCCACTTCCTTTGAAGGGGAGCTGCTTGAGCATCCTCCCGAAGGGGAACTGTTATGGGTGGATCGAGAAGAGGCGTTGAAATTGCCCATGCAGGATTGGTTTAAACGAAGGTTTCCTTTGTTTTTCGAAGAGGGAACGTTTGAATTAAGCGAGATATGGGATGAAAAGACAGGGCACGTTCTGGAGGAAATTGTTAGGCGGTATCCGGTCAGAATACCACAGGCGGCAGGTCTCGCCGATTAA	MRLQTEVKLYTMCMIQDGSRILLMNRPDDKGFPGYIAPGGKVDFPESIVNGAIREVREETGLIVKDIIYKGLEESCEPNTGFRYMVFNYLATSFEGELLEHPPEGELLWVDREEALKLPMQDWFKRRFPLFFEEGTFELSEIWDEKTGHVLEEIVRRYPVRIPQAAGLAD				NA	NA	NA	NA	NA
AK002_04277	735	sigG_2	COG1595	ECF RNA polymerase sigma factor SigG	ATGACGATCTATCGACCGAGCGCCACCACGGCGGCCGACCAGGGCCTGGCGGAGCTGAATGCTGCCCTGCACAGGTATTGTCTGTCCCTTACAAACTCCTCATGGGATTCCGATGATCTGGTGCAGGACACATGGATCAAGGCGCTGGAGCATTTGCAGCAGCGGAGCCATGCCAATCCCGAAGCTCTCCTGATTCGGATCGCCAAGAATACATGGATTGACCGGGTCCGCCGGGATCAAACCTATCGACGAATTCTGGATGAGAAGCTGGAGCACGTATTGCCTAAAGAAGAAGCCTCGAACGAGGACAGCAAGCTGAACATCGAGTTCGCCTTTCAATGGCTGATGGAACATTTGTCTCCCCTGCAGCGAACGGTGCTGCTGCTTCGTGAGGTGTACGAATATTCCATTTCGGAAACCGCGAATATGCTGCAAACGACGGACGGAGCGGTAAAAGCGGCCCTTCATCGAGCTCAAAAGGTGCTGCAATCGTTGAACCCGGAGGAAGAGGAGCTTGGATTGGCTATGCCGGAAGAGGCAGAGATGACCCTGAATCTTCAGGCATTGGCAGAGGCATACCAATCCGGGGATGTCGAAGCTGTCGTTAGGCTGATTCAATGGAACAGCAGCGGGGCATCGGCCATTGGAAGCATGGCTCCGATGGAGGTTCAATCGCCGACCGCGAGTTATATGATGTATGGCGGGTATTCGGCCGACATGCGAATGGCCGCGTAA	MTIYRPSATTAADQGLAELNAALHRYCLSLTNSSWDSDDLVQDTWIKALEHLQQRSHANPEALLIRIAKNTWIDRVRRDQTYRRILDEKLEHVLPKEEASNEDSKLNIEFAFQWLMEHLSPLQRTVLLLREVYEYSISETANMLQTTDGAVKAALHRAQKVLQSLNPEEEELGLAMPEEAEMTLNLQALAEAYQSGDVEAVVRLIQWNSSGASAIGSMAPMEVQSPTASYMMYGGYSADMRMAA	PGPT0014960_3047	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_04278	582	clpP_3		ATP-dependent Clp protease proteolytic subunit	ATGAATTTTGTTCCTTATGTTGTTGAACAAACCAACCGTGGCGAACGATCATACGATATTTATTCCCGACTGCTGAAGGATCGGATCGTGTTTGTGGGCGCAGCCATCGATGACGCCATCGCCAACAGCATTATCGCGCAGCTGTTGTTTCTTGCGGCCGAGGACCCTGAGAAGGATATCCATATGTACATCAACAGTCCGGGCGGCTCGGTATCGGCGGGCTTTGGCATTTACGATACCATGCAGATAATCAAACCTCAAGTCAACACCATCTGCACGGGATTCGCCGCATCATACGGTGCGATCCTGCTGCTGGCTGGCGCCAAAGGCAAGCGCCTCGCTCTGCCGAACAGCGAAATTATGATCCATCAGCCGCTGGGCGGTGTACAGGGGCAGGCCACCGATATCGCCATTACGGCTAAACGCATCCTGAAAACCCGTGAGAAGCTGGCGCATATTATATCCGAGCGCACAGGTCAGTCCGTCGAACGCGTCGAAAAGGATATGGAGCGGGATTATTTTATGTCGGCGGAAGAAGCGAAGGAATACGGGATCATTGACGACATCGTCACCAAACTGTGA	MNFVPYVVEQTNRGERSYDIYSRLLKDRIVFVGAAIDDAIANSIIAQLLFLAAEDPEKDIHMYINSPGGSVSAGFGIYDTMQIIKPQVNTICTGFAASYGAILLLAGAKGKRLALPNSEIMIHQPLGGVQGQATDIAITAKRILKTREKLAHIISERTGQSVERVEKDMERDYFMSAEEAKEYGIIDDIVTKL	PGPT0014595_7007	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK002_04279	213			hypothetical protein	ATGCTGAAAAATTTGCTGAATCAGGAAGTGAGCATCTATTTTACGGATGGAAGTTATGTGCGAAACGGCACGCTGGAGGAAGTAGGCGAACAATTCATCCGATACAAAGATGAATACGAGATGCTGTACGTACCGTTAACCGCGATCCGCTACGTTTCGGTGAATACCAAGGAACGGGACAAACCGAGAGTGGGCTTTGCGCCAACTTCTTGA	MLKNLLNQEVSIYFTDGSYVRNGTLEEVGEQFIRYKDEYEMLYVPLTAIRYVSVNTKERDKPRVGFAPTS				NA	NA	NA	NA	NA
AK002_04280	912			hypothetical protein	TTGAACGTCGAAGAGTTGATGACAGAGGTATACGGCATTCAGCCGCTTAAGGTCGAGCCCATGTCATTCGGCCATACCAATCAGGTGTACAGCGTAACATTTCCGGACCGGCAAATCATTCTACGAACCAATCGCAAGCCCGACGTCCTGAAGCATACTGCAAACAACATAGCGATCCTATCATCGCTGGGCTTGCCGGTACCGAGCGTGATTCGAACGGATGTATCCCTTCAGAAGGTCCCCTATGCTTACATGATGCTAGAGCATGTTCCGGGCCGTGATCTGCGATATGAGCTTGAGGGCATGACGGATGAACAATTGGACGATCTCGCCGGACAGATCATCGTTTTCCAGCGCAAGGTGTCAGAGCTTCCCTTGGGCACCGGATTCGGATGGGTTCCGATCGGAGATCAGGGGCCTTTTACATCCTGGGCGGAGATCATCGATCGTGATATCCGCGATCATATCGGCAACATAACCGGTGAGGTTGCTCCGGACATCATCGTTCAATTGCAGCACATCAAGCGGCGATACGAGCCTGATTTCGACCGGATAGAGCCTGTCTGTTTCCTGGATGATCTCACGATCAAGAACGTGATTGTGTCCGATGGCACGCTGCAAGGTATCGTGGATTTCGATTGGGTCTGTTATGGAGACCCGCTGTACATGATTGCCCTCACCCAAACGGCGGTGGTCTCTGATATCGGAGACCGGGGAATGGCCTACGTAGAGGCGTTATGCAGGCAGTGGGGAGCGGACCGGGAACAGCGGACACTGATTGATTTTTACTCCGTCGTTCATGCGCTGGCATTTATCGGCCATCATCAGAGGGAGCAGAACGAGGTCTGCAAACAGCGCATGGTTTCATTCATAGTAGACAAAATAAAGCATGATGCAAACAGAACCGCATGA	MNVEELMTEVYGIQPLKVEPMSFGHTNQVYSVTFPDRQIILRTNRKPDVLKHTANNIAILSSLGLPVPSVIRTDVSLQKVPYAYMMLEHVPGRDLRYELEGMTDEQLDDLAGQIIVFQRKVSELPLGTGFGWVPIGDQGPFTSWAEIIDRDIRDHIGNITGEVAPDIIVQLQHIKRRYEPDFDRIEPVCFLDDLTIKNVIVSDGTLQGIVDFDWVCYGDPLYMIALTQTAVVSDIGDRGMAYVEALCRQWGADREQRTLIDFYSVVHALAFIGHHQREQNEVCKQRMVSFIVDKIKHDANRTA				NA	NA	NA	NA	NA
AK002_04281	531			hypothetical protein	ATGGTGAAATTCCAAGATATCGTGCCTTACATGGATCAGGTTCGTCAGAAATTAACGAAGGTGCTTGAGTCTTTCAGTCCGGATGACAAGGGGTTGCGCGAGGTTCCCAACGGTTGGAGCGTAACCGAGATTGTAGAGCATCTGGGGAAGCTTGAAACCATGATTCAATACCAATTGAAGCAAATGCTTGAGCGGGAACCCGTTCAGCCCTCAGAGCCATTGGAAGAAAAAGTGACTGATGTCAGCGAGATTCTGTCCACCAGCGGCATCATCGGCAAAAAGATTAAAGCCCCTGAACAGGCCATGCCCACCGGTGTATTATCTTATGATGAAGCGATGGATAAGCTGAATCGAGTACGGGAAACAACGAAGCAGATCATAACGAAGCTGGCCGAGCGAAATACGAATGATCTGCACGATCTTCACCCGTATGGATTCGAGCTGAATGCTGCACAGTGGGCCCACTTTATAGCGATACACGAGACCCTGCATATCAGACAGCTGGGACGTATCCGGGAGGCGAATCAGTAA	MVKFQDIVPYMDQVRQKLTKVLESFSPDDKGLREVPNGWSVTEIVEHLGKLETMIQYQLKQMLEREPVQPSEPLEEKVTDVSEILSTSGIIGKKIKAPEQAMPTGVLSYDEAMDKLNRVRETTKQIITKLAERNTNDLHDLHPYGFELNAAQWAHFIAIHETLHIRQLGRIREANQ				NA	NA	NA	NA	NA
AK002_04282	288			hypothetical protein	ATGATACTCGAAGTGGCCATGCTGCAGGTGAAGCCGGGACAAACGGCGGATTTTGAACGGAATTTCCAAGTCGCGTCAGGAATCATCTCGAAGATGAAGGGCTACATCCATCATGAGCTGAAGCGATGCCTGGAGGATGATCATAAGTACATTCTGCTGGTGAAATGGGAGACCCTGGAGGATCACACGATAGGTTTTCGGGAATCCGCGGAATATCAGGACTGGAAACAACGGCTGCATCACTTTTACGATCCGTTCCCTGTTGTAGAACATTATGAAGAGGTGTGA	MILEVAMLQVKPGQTADFERNFQVASGIISKMKGYIHHELKRCLEDDHKYILLVKWETLEDHTIGFRESAEYQDWKQRLHHFYDPFPVVEHYEEV				NA	NA	NA	NA	NA
AK002_04283	354			hypothetical protein	ATGATCTATCATATTATTTCGAAGCAAGCATGGATGGAAGCGCAAGGTAAGGACATGTACGAGCCGCCAAGCCTGCAGACGGACCGATTTATTCACTGCTCGACCGAGGCGCAAGTCAGCGGCGTAGCTAACACAATTTACACAGGCAGAACCGATCTGCTCGTTCTGGGGATTCAAGAAGATCAGGTGGACGCGGAGATCATATTTGAGGATTTATATGAGCTGAATCAGCTGTATCCGCATATTTATGGCGGGTTAAACCTGAGTGCGGTTCGGAAGGTTTATCGTCTGGAGACGGATGAGGATGGCGTTTTTGCATTCCAGGCTTCTCTTGAGCTTGAGTATAAAGGATAG	MIYHIISKQAWMEAQGKDMYEPPSLQTDRFIHCSTEAQVSGVANTIYTGRTDLLVLGIQEDQVDAEIIFEDLYELNQLYPHIYGGLNLSAVRKVYRLETDEDGVFAFQASLELEYKG				NA	NA	NA	NA	NA
AK002_04284	696			IS1595 family transposase ISOpi1	TTGAAGGATCGATATCTATTTTTGCTCGGTGGACATTCCTTTCAAGCCGAAGCGAATCGACAGTTTCTAGAGCAAGCGGGCGGTTCTCATGCCAGGATTGCGTTGTGCATCATGAACCGGCCGGGCTGGGAGGAGTATGTTCCGTTGTTTCAGCAGATGTGGACTGAAGCGGGAATGACCCAGAACGTGAGCGTGATCGTTCCCGATGAAGACGGGAATCTGGACATGGGACACGCTGAGCAGGTGCTGTCATGGGCCACGGGAATATTTATTGGCGGGGGTAACACGGAGAAATACCATCACTATTACGCGACGGGGCCTTTTAAAGAGCTGTTAATCGACCGCTATGAGAATGGCGTTCCGATTGCCGGCAATTCGGCAGGTGCCCTAATTCTTCCGGAGACATGCCTGATATCCCCGCTTGATAATGAACAAGGCATCATGATGTTTAAGCAAGGCGTAGGGCTGTTCTCGAATGTCTTGATCAGCGTTCATTATACGGAGTGGGACGACCAGTCCAACCTGCTGCTGGGAATGAAGACAGGGAAAGTGCGTCACGGCATCGGCATTGATGAGCAGGCATGCGCCGTTTTTATCAATGGACAGCTGGCGTCCTCGTTGGGGGAATCCGTCTACACCGTAACCTACGAGGATTTTGACGAGGACCGATATACGATAGTGAAGAGGACATCTTGA	MKDRYLFLLGGHSFQAEANRQFLEQAGGSHARIALCIMNRPGWEEYVPLFQQMWTEAGMTQNVSVIVPDEDGNLDMGHAEQVLSWATGIFIGGGNTEKYHHYYATGPFKELLIDRYENGVPIAGNSAGALILPETCLISPLDNEQGIMMFKQGVGLFSNVLISVHYTEWDDQSNLLLGMKTGKVRHGIGIDEQACAVFINGQLASSLGESVYTVTYEDFDEDRYTIVKRTS				NA	NA	NA	NA	NA
AK002_04285	213			hypothetical protein	GTGAGATTACCTTATAAAATAGGTTATGCCGTTACATTGGTTTGGCTGGTCTGGATTGTATACGGTTATATGAATTATGACGATATCGCTGAGCGCGGCCAGCTATCCATCGTTCTGTTAAGCGCCGTGATTGGCATCATCCTGCTGCCGATCTATTTTATATCCGTACTGCTGTATTCTGTTTACAAACGGGATCCGCGAAAGAAAAAGTAA	MRLPYKIGYAVTLVWLVWIVYGYMNYDDIAERGQLSIVLLSAVIGIILLPIYFISVLLYSVYKRDPRKKK				NA	NA	NA	NA	NA
AK002_04286	1011	thrB_5		Homoserine kinase	TTGGAACACTTATTTCAGGAGCTGTTACAGCATTATTTTCATGGCCCTGTGTCTTCGATCGAGACCGTGCCTTTCGGCATGACGAATGATTCCCGAATTGTCGTAATGAACCAAAAGAAATACGTCGCGAGAATATACAATCGTCACACGAAGAATGAAGAGAGATTACGGTTTGAGGTTGGACTAACAGCCTATCTGGAGAGTTGTTGCTTATCGTTTGATATTCCATGTTTCGTTTCCAGTAAGGATGATGCCAATTACGTGGTTCTATCGGATGGTTCCCTGGGCTCCCTGACACGGTTTATCGAAGGAGAGGTTCCTGACCTATCCAGCATGTCCGATGTCCTTAGTTATGGGCGGACAGTTGGGGAAATATCATATGCTCTTCAACAATTCGAATCGGATTCCGTTGATGTAGCTTATCCTGCGATTGCGTTCCATGATTTTTACAACCTCCATTCTCTAGCCAATCAGACGAAAATTAATGAGTTTTTGGTATGCCCTCCATTTGAGATTGATGCCGAACAGATAGCTGTATTGCAAGGATACTATGAATGTGGGTTTAACCGTGCACCTGAATTGAATGTACTGCCAAAGCAAATGGTCCATCATGATATTTTAGTTTTTAATCTCTTGATCGATCCCCAGTCCAGGGAGATGAGTGGTGTATTGGATTTTGATTTTGCCGCTAGGGACATACGGATATGGGAACTATCCATCTGTCTAAACCATCTTCTTCAGCATGAGGACCAGACCTTGACGAAGGTCGAATTATTTTTAGATGAGTATCGAAAAAAAATGAGGTTAACCCGTGCAGAGATCGATTGGATTCCCTATACCATGCAGTTATATTATGTTTCGTTATTAAGCATCTATATCGGACAGCATTTGGCCGGAAGGAACATCACCTCCTATTTTCAACTTATGTTGAAGCAACTTATGATCAGAAAAGAATGGATGGAACGGAATCAACATGAGTTTGTTGAGATGTTGTATTCGAAATGTTTATGA	MEHLFQELLQHYFHGPVSSIETVPFGMTNDSRIVVMNQKKYVARIYNRHTKNEERLRFEVGLTAYLESCCLSFDIPCFVSSKDDANYVVLSDGSLGSLTRFIEGEVPDLSSMSDVLSYGRTVGEISYALQQFESDSVDVAYPAIAFHDFYNLHSLANQTKINEFLVCPPFEIDAEQIAVLQGYYECGFNRAPELNVLPKQMVHHDILVFNLLIDPQSREMSGVLDFDFAARDIRIWELSICLNHLLQHEDQTLTKVELFLDEYRKKMRLTRAEIDWIPYTMQLYYVSLLSIYIGQHLAGRNITSYFQLMLKQLMIRKEWMERNQHEFVEMLYSKCL	PGPT0020285_102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020285-thrB2-K02204	NA	NA
AK002_04287	108			hypothetical protein	ATGATCGTCAGAGAAATATGTTGCATGAGGAACTCCCCCCCAAAAAAAATTCCCCGAATGGAGGGGCAGTTGCTGAGTGAGACCATGAATCAGGATGGGGTTTTATAA	MIVREICCMRNSPPKKIPRMEGQLLSETMNQDGVL				NA	NA	NA	NA	NA
AK002_04288	633	pspA_3	COG0406	Phosphoserine phosphatase 1	ATGAAAGAGACAACCACCATTTATCTTGTCAGACACGGACAAACCGAGTGGAACGTGCAGCATCGTTTTCAAGGTCATATGGATTCGCCGCTGACGAAGCTGGGCATTCAGCAAGCGGAATGGCTCGGCGAAGCCTTGCAGCATGAACCATTTGATTTCATCTTCTCCAGTACCAGTTCAAGGGCATACCATACGGCCGAGCTCATCAAGGGGAACCGGAATGTGCAAATTACGGCATGTGATGAATTCAGAGAGATTAATCTGGGGGGATGGGAAGGAGAGATGCAGGAACGGATCCGCGAAATGTATCCTCAGCAGTTGGATCATTTCTGGAATCATCCGGAGCTGTTCGGTGTCGAGGGGTGTGAGACGTTTCTCGAGGTCAGAGAGCGTGCGGTTAACAAGCTGAACGAAATCGTCGCTTCAAATCCGGGCTCTCGTATTTTGCTGGTCACGCATACCGTGGTGGTTAAGCTGTTAATGGCTTATTTTGAGGGGAGAAGTTTGGATCGGCTGTGGGATCTGCCTTACATCCATCCGACATGCCTGAGCAAGATCGAGCTGACCGATGACGTCCCTTCCATCCTTCTGCATGGGGATGTCAGTCATTATAGGGAGGAGCAAGGCGTCTAA	MKETTTIYLVRHGQTEWNVQHRFQGHMDSPLTKLGIQQAEWLGEALQHEPFDFIFSSTSSRAYHTAELIKGNRNVQITACDEFREINLGGWEGEMQERIREMYPQQLDHFWNHPELFGVEGCETFLEVRERAVNKLNEIVASNPGSRILLVTHTVVVKLLMAYFEGRSLDRLWDLPYIHPTCLSKIELTDDVPSILLHGDVSHYREEQGV				NA	NA	NA	NA	NA
AK002_04289	546			hypothetical protein	ATGAGAAAAAGCACGGATCTAACCCTGTATCCGGCCCTATCGAATGATATCCATTGGGGCGTGGTGCGAGCCCGGTTTGCCCTGGGCGAAGATTTCGATGAATCGATGGTCAGCAATGTCACGATTATTCCATTCGCCGGGGAACGCTGCGTTATTTTTCAGATAGCGGACGGCAGCTGGGAGCTTCCTGGCGGAACCTTGGAGCCTGGCGAGGCTTATATCGAGGGACTCCGGCGGGAAGTGAGGGAGGAGCTAGGCGCAGAACTCGAGTCATACCGGGTCTTTGGCCAGTTTCGCTGCAAGTCCAGCAGCAAGACACCTTATCGGCCGCATATTCCCCATCCTCATTTTGTCCGATTGGTTGGGTACGGGGATGTACGCATCGTTGGAGAGCCGCTGAATCCCGAGGATGGGGAGCAGGTCATCGCAGTGGAGGCGGTTGAACTGGAGGAAGCCGTGAAGCGATTGGAGGAGACGGGCAGGCAGGATATCGCGGATCTTTACAAGCTGGCTTATGCCATACGACAAGGTGACCGCTTAGAGTAA	MRKSTDLTLYPALSNDIHWGVVRARFALGEDFDESMVSNVTIIPFAGERCVIFQIADGSWELPGGTLEPGEAYIEGLRREVREELGAELESYRVFGQFRCKSSSKTPYRPHIPHPHFVRLVGYGDVRIVGEPLNPEDGEQVIAVEAVELEEAVKRLEETGRQDIADLYKLAYAIRQGDRLE				NA	NA	NA	NA	NA
AK002_04290	882			hypothetical protein	ATGATTACGTACAAACCGTTAAGCGAGCTTCCGATTCGGGAAGTATCCGAGCTGTGGAATCTCTCGTTTGAAGGCTATATGGTGAACGCTTCCATGCCGCTGGACCGCTTCATTGCCCGGATCGGGAATGATGGCTTATGTATGGAGCGCTCACTCGCTTGTTATGTGGATGGCGAACCGGCCGGCATCGTCATGAACAGCTTTCGATTGGATGACGGCGTAACCATTGCGCGTAACGGAGGGACGGCAATAGCTCCGAATTTCCGGGGCAAAGGAATCGGCAGATCCATGATGGAGAAAAACGACGCCCTCTATAAGGAGCAGGGCGTGCGTCGTGCCTATTTAGAGGCGATCAGCACGAATGCGGCCGCGATTCGCCTTTATGAAAGCGTCGGATATGAAATCATCGATCGGCTGCTCATCATGACAAATGAACAATCGTTAGAGCCGCAGGACCAGCAGCATTCGTCGACCTCGTTTACGTTGGTCAGAGGCCTAGCCGCGGAGGCCGCCTCCGCAGACTTCTATCGATCCGGCGAAGTCTGGCAGACAGACGCTGCCAGTATCAAGGACGGCGAGTGCGTGCTTGTTTATGAAGGGGAAGAACTTGTGGGCTACGGTTTGTTTAAGCGTGCGTTCGATGCTGCGGGCCGTTTGCAGGCGACCACGCTGTTCCGCTGCGAAACCGCTCCTGGTTACCGGGATGCCATAGCCGTGTTGAAGGCAGCAACGCTCGAGATGATGCAGCCTGGTTCCACTTGCAAGCGATCCGCATTCAATATCCGGGCTTCGCATAAGGAATTGGTGGATGTGCTGGAGGCGCTTGGGTTCGCCAGCTCGTTGGAGCAGGTGCTTATGGTTCGCGACTACAACGCTACTTAG	MITYKPLSELPIREVSELWNLSFEGYMVNASMPLDRFIARIGNDGLCMERSLACYVDGEPAGIVMNSFRLDDGVTIARNGGTAIAPNFRGKGIGRSMMEKNDALYKEQGVRRAYLEAISTNAAAIRLYESVGYEIIDRLLIMTNEQSLEPQDQQHSSTSFTLVRGLAAEAASADFYRSGEVWQTDAASIKDGECVLVYEGEELVGYGLFKRAFDAAGRLQATTLFRCETAPGYRDAIAVLKAATLEMMQPGSTCKRSAFNIRASHKELVDVLEALGFASSLEQVLMVRDYNAT				NA	NA	NA	NA	NA
AK002_04291	1695			hypothetical protein	ATGAAATTCAGCGAGTATCGCTATGAACGCCCCGACGTAAAAGCTTTTGAGCAAAAGTTCAAGGAACAACTGAACGCCTTCACCTCCGCCGGCACGTACGAGGAACAGGATGAGGCGATGACCCGTATTAACAAACTTCGCAGCGAGATGGATACCCTGAGTCAACTGGTGTACATCCGTCACTCGATTGATACGAACGACGAGTTCTATAAGGCAGAGCAGGATTTCTTCGACGAGAACGGACCGGTCATCCAGGAATACATAACGGATTATTACCGGGCCCTCGTGGATTCGAAATTCAGAGCCCAACTGGAGGACAAATGGGGACGGCAGCTGTTTCAGCTGGCTGAGCTATCGCTCAAAACCTTCAGCCCTGAGATCATCGAGGATTTGCAGCAGGAGAACAAGCTGACGACGGAATATGCGAAGCTGATCGCTTCTGCAAAAATTCAGTTCGAAGGCGAAGAACGCACCCTGTCGCAGCTGATTCCGTTCCAGCAATCGACGGATCGCGATATGCGCAAACGCGCAATGGAGGCTTCCAGCGGTTTCATGGCCGAGAACGAAGCCACCTTCGACCGCATCTATGATGATCTGGTCAAGGTGAGAACCAAGATTGCCAAGAAGCTTGGCTTCAACAATTATGTGGAGCTGGGTTATGCTCGCATGGCCCGCACGGATTACAATGCGGAGATGGTGGCTAATTTCCGGAATCAGGTGCTGGAGCATATCGTTCCGGTTGCGTCCAAGCTGAAAGAACGTCAGCAGAAGCGGATCGATGTGGATCAACTGCTGTACTACGACGAGAATTTTTCCTTCAAATCGGGGAATGCCACGCCGAAGGGCGACCCGGATTGGATCGTGAACAACGGCGCGAAGATGTACGAGGAATTGTCTCCGGAAACTCACGAGTTCTTCACCTTCATGCAGGAGAACGGCCTTATGGACCTGGTTGCCAAAAAAGGCAAGCAGAGCGGCGGATACTGTACCTATATCAGCGAGTACGGCGCACCGTTTATCTTCTCCAACTTCAACGGGACTTCCGGCGATATTGACGTGCTGACGCACGAAGCCGGTCATGCGTTCCAAGTGTACGAGAGCAGAGGTTTCGAGGTACCGGAGTATGGATTCCCGACTTATGAGGCATGCGAAATCCATTCCATGAGCATGGAATTCTTCACATGGCCGTGGATGGACCGCTTCTTTGAGGACGAGGCGGATAAATACCGCTTCGACCATCTGGCGAGCGGACTCATCTTCATTCCTTACGGGGTAACGGTTGATGAATTCCAGCACTTCGTTTACGAGAATCCGGATGCTACGCCGGCCGAACGGAAACAGGCATGGCGTGAAATCGAGCGGAAATATCTGCCGCACCGGAACTATGATGATAATGCGTATCTGGAGCAAGGCGGCTTCTGGCATAAACAAGGACATATCTTCAATTCGCCGTTCTATTATATCGACTATACGCTGGCTCAAATCTGTGCATTCCAATTCTGGAAGAAGATGCACGAGGACCAATCCGCGGCATGGGCGGATTATCTGCACCTCTGCCGTCAAGGCGGCAGCAAATCCTTCACTGAACTGGTGAAGGTGGCAGGCCTGATCTCTCCATTCGAGGATGGCTGCGTCACTTCCGTCATCGGCAGCATCGAAGCTTGGCTGGACAGCGTGGACGATGCAGCTCTTTAA	MKFSEYRYERPDVKAFEQKFKEQLNAFTSAGTYEEQDEAMTRINKLRSEMDTLSQLVYIRHSIDTNDEFYKAEQDFFDENGPVIQEYITDYYRALVDSKFRAQLEDKWGRQLFQLAELSLKTFSPEIIEDLQQENKLTTEYAKLIASAKIQFEGEERTLSQLIPFQQSTDRDMRKRAMEASSGFMAENEATFDRIYDDLVKVRTKIAKKLGFNNYVELGYARMARTDYNAEMVANFRNQVLEHIVPVASKLKERQQKRIDVDQLLYYDENFSFKSGNATPKGDPDWIVNNGAKMYEELSPETHEFFTFMQENGLMDLVAKKGKQSGGYCTYISEYGAPFIFSNFNGTSGDIDVLTHEAGHAFQVYESRGFEVPEYGFPTYEACEIHSMSMEFFTWPWMDRFFEDEADKYRFDHLASGLIFIPYGVTVDEFQHFVYENPDATPAERKQAWREIERKYLPHRNYDDNAYLEQGGFWHKQGHIFNSPFYYIDYTLAQICAFQFWKKMHEDQSAAWADYLHLCRQGGSKSFTELVKVAGLISPFEDGCVTSVIGSIEAWLDSVDDAAL				NA	NA	NA	NA	NA
AK002_04292	315	gdnD_1	COG2076	putative guanidinium efflux system subunit GdnD	ATGGAATGGATCGCTCTGATTGCAGCCGGGTTGTGCGAGGTTCTGGGTGTTATTGCTTTAAGACGGGTAACCCTGCACCGCAGCTTGGGATCCTACGTTTTTTTAGCCTGTTCGCTTGGCTCCAGTTTCCTGCTGCTGACGTATGCGATGAATTTCATTTCCATGGGAACCGCCTACGCGATTTGGACGGGAATGGGGACGACAGGCAGCACGCTGCTGGGGATGTTCGCGTTTGGAGAACCGAAGGAATGGCGCCGTATGTTCTTCATCGCTTTGATTCTCGCTTCAGCCATCGGACTTAAGATCATGACGTAA	MEWIALIAAGLCEVLGVIALRRVTLHRSLGSYVFLACSLGSSFLLLTYAMNFISMGTAYAIWTGMGTTGSTLLGMFAFGEPKEWRRMFFIALILASAIGLKIMT	PGPT0029170_91	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029170-ykkD-K18925	NA	NA
AK002_04293	348	gdnC_1	COG2076	putative guanidinium efflux system subunit GdnC	ATGAAGAAGGCATGGTGGCTCTTATTATTGGCGGGAGCGCTGGAGGTTGTCTGGGTATCCGGTTTAAAACATTCCGATGTATGGTGGCAGTGGGTCATCACCATCGCATCGATCGTATTCAGTTTTAAAATTTTTTTGGACTCCGCGGCGAAGCTTCCCATCGGCACGGTCTATGTGATCTTCACAGGACTCGGCACAGCCGGCACGGTGCTGGCGGAGATTCTCGTGTTTGGCGAGGAAGCGAATCCCGTCAAGCTCCTACTGATTGGCATGCTGGCCGCAGGCGTGCTGGGGCTTAAGCTGGTCACGAAGGATACGGATCGTCAAGCGAAGGAGAGTGGCATCTAA	MKKAWWLLLLAGALEVVWVSGLKHSDVWWQWVITIASIVFSFKIFLDSAAKLPIGTVYVIFTGLGTAGTVLAEILVFGEEANPVKLLLIGMLAAGVLGLKLVTKDTDRQAKESGI	PGPT0029165_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029165-ykkC-K18924	NA	NA
AK002_04294	867	gltR_2	COG0583	HTH-type transcriptional regulator GltR	ATGGAGCTTACCGATCTGAAGGTTTTTCTGAGGATTGCCGATGAAGGGAATATCACCCGCGCCGCGGAGCAGCTTGGGTATGTGCAGTCGAATGTAACGGCCCGGGTCAAAAAACTGGAGAATGAATTGGGGGTTCCCTTGTTTAACAGGCACTCCAATGGAGTAACCTTGACGGAGAAAGGGCGTATGTTCCTGGACTATGCGTGTACCATCATCAACCTGTCCGAAGAAGCGGTGAGAGCCGTGCAGGAACAGCCGTATCCAAGCGGTTCATTAGCCATTGGCGTCGTGGACACGGTTCATTGCGGGCACTTCATTCAATCCTTGTCCGACTATCAAACCATGTACCCTGACGTCACGCTGTCGCTGTTGACTGGCAGCTCTTCGGAGCTGATTACTCAAGTTCTGAACTATCAGCTGGACGGGGCTTTTGTGACAGGAACCATTCCGACAAAGCTGGCAGCCGATTATATTGAAGAGGATGAAGTCATGCTGCTGACCAAATCCAAAGAGCAGCCCTTTCCCGATCTTGCGGTGACCAAATGGGCCGTAGCCCCCGCGGGATGCCCGTTTCGAAGCGCCCTTGAAGCATGGCTGCTAAGCGAAGGCATTCCTCTAACCAATACGATAGAGGTCTCCTCGTTGGAAACCCAGCTCAGCATTGTACGGTCAGGACTTGCGGCTGCGCTGCTTCCCAGCTCCGTCTTAAGCGGAGAATATGCCAATATGGGCAGCTATCAGGTCCCGGAAGCCTTCCGGCACACCTCGACTAGCCTGGTCCGGCGCAACGACCGGTTCAGGAACAAGGCGTTTTCTGCTTTTGCCGAGCTGGTTAAGGTCAATTTTGAGATGAAGGGAAGATCATGA	MELTDLKVFLRIADEGNITRAAEQLGYVQSNVTARVKKLENELGVPLFNRHSNGVTLTEKGRMFLDYACTIINLSEEAVRAVQEQPYPSGSLAIGVVDTVHCGHFIQSLSDYQTMYPDVTLSLLTGSSSELITQVLNYQLDGAFVTGTIPTKLAADYIEEDEVMLLTKSKEQPFPDLAVTKWAVAPAGCPFRSALEAWLLSEGIPLTNTIEVSSLETQLSIVRSGLAAALLPSSVLSGEYANMGSYQVPEAFRHTSTSLVRRNDRFRNKAFSAFAELVKVNFEMKGRS				NA	NA	NA	NA	NA
AK002_04295	531	pyrE_2	COG0461	Orotate phosphoribosyltransferase	ATGACGTTGAACTTGGCAAAGGAAATCTATGATGTAACCCATTTAACGGGAACCTTTACTTTACGCTCGGGTCAAACGTCTCATGAGTATTTTGATAAATACTTGTTTGAGTCAGATCCCGCTATTCTGGCCCAAGTAGCTGAGGAGCTGGTCGGGCTTATTCCTGAAGATACGGAAGTGTTAGCAGGACTTGAAATGGGGGGAATTCCGATTGCAACTGCGCTATCCTTGAAGTCAGGCACTCCGTCCGCATTTGTAAGAAAAAAAGCAAAGGAATACGGCACCTGCAAATTGGCGGAAGGTTCGGACATTAAGGGTAAACGCGTATGTGTGATTGAGGACGTGGTGACGACCGGAGGACAAATCTTGTTAAGCGTTCACGAATTGAGAGAAGCTGGAGCGGTCGTCGAGCATGTCATCTGCGTCATTGAACGTAATCCGGCAGGAAGACAGAGACTGGAGGAAGCCGGTCTTACTTTGCATTCCCTGTTCAAAATGGATGAGCTTATAGCTGCAGGGAATATTGATTAG	MTLNLAKEIYDVTHLTGTFTLRSGQTSHEYFDKYLFESDPAILAQVAEELVGLIPEDTEVLAGLEMGGIPIATALSLKSGTPSAFVRKKAKEYGTCKLAEGSDIKGKRVCVIEDVVTTGGQILLSVHELREAGAVVEHVICVIERNPAGRQRLEEAGLTLHSLFKMDELIAAGNID	PGPT0021200_4494	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
AK002_04296	879	yidA_1	COG0561	Sugar phosphatase YidA	ATGAAAAAAAGAGCATATATTACGGATCTCGACGGGACGCTTCTGCGATCGGATCAAACCTTATCACCCTATACGATGAACGTTGTCACGGATGCATTGGAGCGGGACTTGATCGTCACGTTTGCGACTGCCCGCGGTTATATTAGCGCTCAGAGCGTCGTTTCGGATATCCCGTGGAAATACCCCGTGATTCTATATAACGGCGCTTTGATATATGACGGGTCGAATCAAACCGTTGTGGATGGATACTGGCTGGAGCGCGACATTTCGAATGAGATTATCGGCGTTGGGAAAAAGCACGGCATTACACCCTTTTATTTCTCGCTCGATAAGGACCAGCGGGAGCGTGTTCTGCATGAGACGCTGCGCAGAGAGGGAGAGATGACCTTCTATGCCGGCCGCCCCCATGATCCGCGGTTCCTGGAAGTGAAGAACCTGAAGTGTCCGCCGGATTACCGGACGTTGGCTCTTACCTACATCGGATTACATGAAGAATTGGAGCCGATTCGGCAAGAGGTCACGGCATTATACGGCGACGTGATTCATGCGCATATGATGCCGGATTATTACATTCGCAACCACTACTTCCTCGAATTCAGCCATGCCAAAGCAAACAAAAGAGACGGCCTCCAATTATGGTCCGCCCACATGGGGATTGATCTGGAGAACACGGTGGTGTTCGGCGACCACATCAATGATGTCGGCCTGTTCGAGGCCGGAGGCACCCGGATCGCGGTCCGGAATGCGCACGAGACAATCCAGCACCTGGCTGATCATATTGTCGACTCGAATGAGCTGGATGGCGTTGCGCATTATATCGAGGAGCAGATGGAACTGGCGGGAATTAATACGATCATATCCACACTGGGAGGACCATGA	MKKRAYITDLDGTLLRSDQTLSPYTMNVVTDALERDLIVTFATARGYISAQSVVSDIPWKYPVILYNGALIYDGSNQTVVDGYWLERDISNEIIGVGKKHGITPFYFSLDKDQRERVLHETLRREGEMTFYAGRPHDPRFLEVKNLKCPPDYRTLALTYIGLHEELEPIRQEVTALYGDVIHAHMMPDYYIRNHYFLEFSHAKANKRDGLQLWSAHMGIDLENTVVFGDHINDVGLFEAGGTRIAVRNAHETIQHLADHIVDSNELDGVAHYIEEQMELAGINTIISTLGGP	PGPT0008595_46	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
AK002_04297	282			hypothetical protein	ATGAGATGGTATTTGTCCCATGTGTCTCTGACATTGTTTATCTGCATCACCCTGTTCACGCTGTACAGCTTCATGTTTCCGCCGGAGGCAGGCAGTCCCTTACAGGGACTGTCGTATGCGTCGATTCTTCTGTTGTCGCCAGTGGGGATTCTATTAGCACTCATTAGCATTACTCGTGGTGAACTATCACGAATCGGTATTACAGCCATTGCAGGTCACTCCGTGCTGCTATTATTTCTTTTTCTATTTATGACACTGGGATACCTGATTCTCGGTGTGTAA	MRWYLSHVSLTLFICITLFTLYSFMFPPEAGSPLQGLSYASILLLSPVGILLALISITRGELSRIGITAIAGHSVLLLFLFLFMTLGYLILGV				NA	NA	NA	NA	NA
AK002_04298	90			hypothetical protein	ATGCTGAGTTTTATAAGGGAAATTCCTCAAAAGACTGGGGTCGTTCGCAGAGCCGGTATTCTGTCGGGCATGCTGGCCGAGGTTACGTGA	MLSFIREIPQKTGVVRRAGILSGMLAEVT				NA	NA	NA	NA	NA
AK002_04299	633	gph_5		Phosphoglycolate phosphatase	ATGGATAACACGCTGCTGCATTCCAGCATTGATTTTGGTGCAATGAAGCGGGATATCTATGCCTTTTTGTGCGATCACAGCATTTTGCCCCCAGGCCTGTCCATGGATACCCATACCACCTCAACCATCATAGCTGAAGCCATGAATACGGGGCAGCTGTCGGAAGAGCTGAGCTGTAGGATGTGGGATATTGCCAAGGAACATGAAGTCCAAGGAATGATGGGAGCAAAACTTGAAGATGGAGCTTTGGAGCTTGTCCAGCAATTACATGGACAGCTGCATCTTGCTATCGTGACGAACAATGCGGTAGAAGCAGCGATGACTGCATTAGAAGAGAACCGGATTGCTCATTACTTCGATCTCATTATCGGCAGGGAAGCCATGGGCTTATTAAAGCCTGCACCGGATGGATATATGGCGGTACTCCAGCATTTTTCGCACACTTCGCCAAAGGAGTGGCTCTCTGTCGGAGATGCCTGGGTGGACGGCAAGGCCTCCGAGAGCGCCGGAATTCCATTTATCGCATATCGTGGGGACATCGTGAGAATGAACCGCATGGGAGTTTTTCCGTTTTCCGAGATTCAGGACATACAAGAAGTCGTGGGGTATCTTCAGCCGCGTATCACTAAATAA	MDNTLLHSSIDFGAMKRDIYAFLCDHSILPPGLSMDTHTTSTIIAEAMNTGQLSEELSCRMWDIAKEHEVQGMMGAKLEDGALELVQQLHGQLHLAIVTNNAVEAAMTALEENRIAHYFDLIIGREAMGLLKPAPDGYMAVLQHFSHTSPKEWLSVGDAWVDGKASESAGIPFIAYRGDIVRMNRMGVFPFSEIQDIQEVVGYLQPRITK	PGPT0001730_4934	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK002_04300	405			hypothetical protein	ATGACCGATAACCAAGTGGCCGGCTTTTGGATCAGGCTAGGAGCCAACATTCTGGATGGACTTATTGTGTCGCTTCCGCTAACGATCATAGCTGGACTTATCACGGGGAATTATGAGAACGAGCCGATCAGTAACTTGATATTCGGTTTATACGGTATCCTGGTACCGGTGTATTGGAATGGGTATACGATCGGTAAGCGCATGTGCGGCATTCGTATTCGCAAATTCGATTTTCTTGAGCCGCCGGGCCTCGGGACGATGCTGCTTCGCAACCTCGTGGCGGGAATCGTGTATGCGTTAACCCTTGGAATTGGAATTATTGTGAGCATCTTTATGGTTGCGCTGCGCGAGGATAAGCGTTCCCTGCACGATTTTATCGCCGGTACGGAAGTTGTCTATGACTAG	MTDNQVAGFWIRLGANILDGLIVSLPLTIIAGLITGNYENEPISNLIFGLYGILVPVYWNGYTIGKRMCGIRIRKFDFLEPPGLGTMLLRNLVAGIVYALTLGIGIIVSIFMVALREDKRSLHDFIAGTEVVYD				NA	NA	NA	NA	NA
AK002_04301	288			hypothetical protein	ATGAACCATAAAGCGATGGGTATGATCTTTATCTGCATATCGGTGTTCTTGTATGGTGTGCGGTATCTGGCAGCTGCCATATTCGGATCCAACCTGACGTCATGGAGCAAAGAGATGTTTGAATCGATGTTGACCTATGTAGGCAAAGGCCCGTTGGTATTAAGCTGGATCAGCCTGATTGTCGGCATCTTGTGTTTCTTAGGTCCGAGTATCGGCAGATGGCATTCGGAAGATTTGAATAAGATCAAGAAGAACTGGAAGGAATTCGATCCGCCTCATAACAAATGA	MNHKAMGMIFICISVFLYGVRYLAAAIFGSNLTSWSKEMFESMLTYVGKGPLVLSWISLIVGILCFLGPSIGRWHSEDLNKIKKNWKEFDPPHNK				NA	NA	NA	NA	NA
AK002_04302	414			hypothetical protein	ATGAAAGCCCATATGCGATTAACGGCCCGCATTCTCCTTCTCGGATATACGTTGCTGTTGTCTTACTGGATGCTCTGGGGCTTCGGAAGGACAACGCAACCGGAATATAGTTACAACCTGGTGCCATTCTTGACGATGGCCAGTTATTTTCCCATTCGCGGAATGGATTCCTTGATCAATATTATTGGAAACATCGCTGTGTTTGTACCCTTTGGAGTGCTGATTCCGCTTGCATTTCAGGCTCGATTCCGTAAAATGCTGGGTTTCTTTTTGACCGGGTTATTCTTGCTCGAAATGATACAGTTGATCTCAAGGCGGGGCAGTCTGGATGTGGATGATTTTATGTTGAACTCGATTGGCGTTACCCTTGGTTATGGCTTGCTTGGAGTCGTCAGGAAATGGAGGAGCGGCTAG	MKAHMRLTARILLLGYTLLLSYWMLWGFGRTTQPEYSYNLVPFLTMASYFPIRGMDSLINIIGNIAVFVPFGVLIPLAFQARFRKMLGFFLTGLFLLEMIQLISRRGSLDVDDFMLNSIGVTLGYGLLGVVRKWRSG				NA	NA	NA	NA	NA
AK002_04303	471			hypothetical protein	GTGACGTACCACATACGAGTGAGACCGACAGCCTTGGTTCTGAGGGATGAGTCTGTGTTATTAGTCGAGTATGTAGATGAGAACGGATTGCATTATAATTTGCCAGGGGGCGGGGCCGAGCCGGGGGAGTCGATCGTGGAGGGAGCCTTGAGGGAATTGCGTGAGGAAACCACGCTGGAGGCGCAGGTGGGGCCTGTCGCATTCGTGTACGAGTATGCTCCGCATAAACAGTCCAGAGATAACATATCGGGCATCCATACGTTATACATCGTGTTCGAATGTTATCCGCTTTCCTTTCCGAAGCTTCCGGCTGCGCCAGATCCGAATCAAACCAATGTGAAATGGATACCGCTCGAGCAGCTGGACGACATTATTTTGTATCCGAATATTAAGAAACACATCAGACAGTATGCTATGGATCGCAGAAATATTGAAATGATCGAGGATTTTGTCTTGGACAAATATTCGTGA	MTYHIRVRPTALVLRDESVLLVEYVDENGLHYNLPGGGAEPGESIVEGALRELREETTLEAQVGPVAFVYEYAPHKQSRDNISGIHTLYIVFECYPLSFPKLPAAPDPNQTNVKWIPLEQLDDIILYPNIKKHIRQYAMDRRNIEMIEDFVLDKYS				NA	NA	NA	NA	NA
AK002_04304	915			hypothetical protein	ATGACTATGAAAATCGGTATGATTGGTTTGGATACATCCCATGTTTCCATTTTTTCGAAAATGCTCCATGACAAGTCGCATCCATATCACGTTCCAGGTGCACGGGTGACGGCAGCTTTTCCCGGAGGGTCGCCGGACTTTGAGCTGAGCATAAGCCGGGTGGAGGGGTATACGAAGGAACTCGCGGCATGGGGAACGGAGATATTGGAGAGGCCGGAAGACGTGGCCAAACAGGTCGATGCCGTCATGCTGGAAGCGGTGGATGGAAGGTCGCATCTGTCTTTATTTCGCGCGATTGCTCCTTATTGCAAACAGGTTTTTATTGATAAGCCGTTTGCGGTGAGCAGTAAGGATGCAAGGGAAATTGCCGAATTAGCAGAGCAGTATCAGGTAACCGTTATGAGTTGCTCATCTCTCCGGTATGCGCAAGGATTACAGGATGAATTGGCTCGCGGCGGAGTGGATGATATCATCGGCGTGGATTGCGCTGGACCGCTGCCCCTTCAACCTACGCAGCCGGGATTTTTCTGGTACGGCATTCATGCGGCTGAAATGCTGTACCGCGTTCTCGGGCCCGGTTGCGTAAGCGTCCATGTAGCCGCAACGGAGCGGCATGAAGTGTTAACGGCGGTTTGGAAAGACGGGAGAATCGGAACGATACGGGGCAATCGGGCAGGCAACGACCGCTTCGGGTTGACCGTTCATCGCGCGGAGGCCAGCAGCTTCGTGGACATCATGAAGCACCCCAAGCCCTATTACGCCAGTCTGCTGGATCAGATTATGAAGATGTTCACGACGGGCGTTTCCGATGTTCCCTTGTCCGAAACGCTGGAGATCGTTCGTTTTCTGGAGGCGGCGAATGTTTCCCGCGAAACGGGAGAAAACGTGAGACTGGATGATAGCGATCGAACGTGA	MTMKIGMIGLDTSHVSIFSKMLHDKSHPYHVPGARVTAAFPGGSPDFELSISRVEGYTKELAAWGTEILERPEDVAKQVDAVMLEAVDGRSHLSLFRAIAPYCKQVFIDKPFAVSSKDAREIAELAEQYQVTVMSCSSLRYAQGLQDELARGGVDDIIGVDCAGPLPLQPTQPGFFWYGIHAAEMLYRVLGPGCVSVHVAATERHEVLTAVWKDGRIGTIRGNRAGNDRFGLTVHRAEASSFVDIMKHPKPYYASLLDQIMKMFTTGVSDVPLSETLEIVRFLEAANVSRETGENVRLDDSDRT				NA	NA	NA	NA	NA
AK002_04305	339			hypothetical protein	ATGTTCAAAGTACTGAATCTCGCCCTCCGATTTATATTGGAATTGATTTTGTTGTTTTCGATAGGTTACTGGGGCTTCCATTTTGGTTCCGGACTCGTGGTACAGGTAGCTCTCGGGATTGGACTGCCGCTGCTGGCAGCCGTCATCTGGGGCATGACCATATCGCCGAAGGCAAAAGTCAAGCTGCCGCTTGCCGTCGTGCTGCTTATTGAATTTCTCATATTTGCGACCGCCGTTGCTTGCCTGATCGACTCTGGTTTTATAACCTTTGCCATCGTGTTCGCTATCGTGGCTGTGGCCAACCGCTTCTTCGTGATCAAGTGGAGGATGCAGCCTTAG	MFKVLNLALRFILELILLFSIGYWGFHFGSGLVVQVALGIGLPLLAAVIWGMTISPKAKVKLPLAVVLLIEFLIFATAVACLIDSGFITFAIVFAIVAVANRFFVIKWRMQP				NA	NA	NA	NA	NA
AK002_04306	444	yfiT_2		Putative metal-dependent hydrolase YfiT	ATGGAATCCATTATGAAGCTGGAATCCTTGATTTCTGAAGTAACGGAAATTGTAACGGCAATCGACGAGGTGGAATTCAATCTGAAGCTTACGCCTGATAAATGGTCCAAAAAGGAGATCTTGGGCCATCTATGCGATTCGGCGGTCAATAACCATATCCGGTTTGTAAAAATATTGGTGTCGGACTACCCTATTGCGATTCAAGGTTACGCGCAGAACGATTGGGTCCAGGTGAACGATTATCAGAATCGATATAATCAAGCGGATGTTCTGGCACTGTGGCAGCAGGTTAACCGGATGATTCTGCGGGTCATGCAAAGAGCCGATTCATCCGACTTCCAGAAGAAATGCGTGCTGCCCGATAAAACGGAGGTCACGCTGGAGTGGTTGTTTAACGATTATGTCGATCACCTGCTCCATCATTTGGAGCAAATCGAGCTTTAA	MESIMKLESLISEVTEIVTAIDEVEFNLKLTPDKWSKKEILGHLCDSAVNNHIRFVKILVSDYPIAIQGYAQNDWVQVNDYQNRYNQADVLALWQQVNRMILRVMQRADSSDFQKKCVLPDKTEVTLEWLFNDYVDHLLHHLEQIEL				NA	NA	NA	NA	NA
AK002_04307	1086			hypothetical protein	ATGGATGTGCTAAGTCAAACCATAGCGAATCAACGGCTCTACAATCAGCGCATAACAGGGATGAAGCATGTGAGCCCGGTAGAAGTTGTAAGAGAATTAGGCGCTGTTCAGGCACAGGATTACCACCAAGCGGTATGGGGAATCGGTCTACGTACGCAGTCCGCCAAACTATCCTATGTGGAGCAGGCCCTGAACGATCGCAAAATCGTGCTGACTTGGCCGATGCGTGGAACGATTTTCTTCGTGCCTGCCGAGGATACCAAGTGGATGTTGAAGCTGACGGAATCGCGTTTTCTTACGAATGATAAGAAGAAGCAGGCCGAACTTGAGCTTGACGGAAGTACGCTCCATCGGTGCAGGACGCTAATCAGCGATGCGTTGAGCGGCTGTACGCCCGTATCCCGTCCCAGACTAATGGAGCTGCTCGAGGATGCGGGGATCAGCACCAAGAATGGACGCGGCTACTACATTCTCGGATATTTGGGACGGACCGGCATGATCTGTTTCGGCCCGCATGAAGGCAAACAGCAAAGCTTCGTGCTGCTCGATGAGTGGGTCCCGAATTTAAGGGAGCTGACGCTAGAAGAATCGCTGGCAGAGCTTGCGCTCCGCTATTTTACAGGACACGGGCCCGCAACGGTTCAGGATTTTGCATGGTGGGTCGGATTGACGCTGACGGACGCTAAACGAGGCTTTGAGGCAGTCAAATCAGATCTTCGTTTAGATTTTGTCAACGGCACGGAATACTGGAGCTCTGTTACTGGGTCGGCCGGGTCCGCTGATACGGATTCGGCGGTTCTGCTTCCGGGTTTTGATGAATATTACTTGGGGTACAAGGATCGCAGCGCAATTATCGAGTCAGAGCATGATGCCCAAATCGCTCCCTTTCGCAACGGGATTTTCCAACCCATCATGGTCGCTGGAGGAGAAGTGGTCGGTATCTGGAAGCGGGAGATCAAGCGCAGCGGCATCGAAATCACGTTAAGCCCGTTCTCGCCGTTGGGCCATCGAGAAGAGGCGTTTCGGGAGGCGGCTAAGCATTACAGTGATTTCATGGGCCTGCCGATTACACGAATAGAATCATGA	MDVLSQTIANQRLYNQRITGMKHVSPVEVVRELGAVQAQDYHQAVWGIGLRTQSAKLSYVEQALNDRKIVLTWPMRGTIFFVPAEDTKWMLKLTESRFLTNDKKKQAELELDGSTLHRCRTLISDALSGCTPVSRPRLMELLEDAGISTKNGRGYYILGYLGRTGMICFGPHEGKQQSFVLLDEWVPNLRELTLEESLAELALRYFTGHGPATVQDFAWWVGLTLTDAKRGFEAVKSDLRLDFVNGTEYWSSVTGSAGSADTDSAVLLPGFDEYYLGYKDRSAIIESEHDAQIAPFRNGIFQPIMVAGGEVVGIWKREIKRSGIEITLSPFSPLGHREEAFREAAKHYSDFMGLPITRIES				NA	NA	NA	NA	NA
AK002_04308	792	ylmA_2	COG1119	putative ABC transporter ATP-binding protein YlmA	ATGAGCAAGATGATTGAACTGGATGACGTAACCTGGAGAAGGGAGCAAAAGACCGTTCTTACAGGCGTGGATTGGACCGTGCAGCAAGGGGAGCATTGGGCGGTGCTCGGACTGAACGGCTCCGGGAAGACCACCATTTTGAATATGATTAATGGTTACATCTGGCCGACCAGCGGTACGGTTTCGGTGCTCGGGCATCGTTTTGGCAGGGTGGATTTAAGAGAATTGCGTAAATCGATAGGCTGGGTCAGCTCCTCGCTGCAGGAAAGAATCCGGCCGAGCGAATCCACGCTGGATGTCGTGATTAGCGGCAAACACGCCTCGATCGGCCTATATCAGAAGGTGGATGAAGCTGACCGGGAACAGGCCGAGCAGCTGATGAAGGATTTTAATTGTATTCATCTGCTGGGTCGTACATATGAAACTTGTTCGCAAGGGGAGAAGCAGAAGCTGCTGATCGCTAGGGCCCTTATGGCTTCTCCAAGGCTGTTGATACTGGACGAGGCCTGTAACGGACTGGATTTTCTGTCGAGGGAAGCGCTGCTGTCCAGCATTACGGCTCTGGCTTCAAAACCCGATGCGCCGACCTTGCTGTTCGTTACCCACCATATCGAAGAAATCCTGCCGATCTTCTCACACTCCTTGCTCATCCGCCGGGGCAGTGTCTTCGGGAAGGGGCGTTCCCGTGACATGCTGACCAGCGGCAATTTGACCTCGTTCTTTGAGACGCCGGTCGAGGTGAGCTGGCAGAATGATCGGGCCTGGATGTCCATTCCGGACTTGAAATCATAG	MSKMIELDDVTWRREQKTVLTGVDWTVQQGEHWAVLGLNGSGKTTILNMINGYIWPTSGTVSVLGHRFGRVDLRELRKSIGWVSSSLQERIRPSESTLDVVISGKHASIGLYQKVDEADREQAEQLMKDFNCIHLLGRTYETCSQGEKQKLLIARALMASPRLLILDEACNGLDFLSREALLSSITALASKPDAPTLLFVTHHIEEILPIFSHSLLIRRGSVFGKGRSRDMLTSGNLTSFFETPVEVSWQNDRAWMSIPDLKS	PGPT0003760_4112	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK002_04309	753	yflN_3	COG0491	putative metallo-hydrolase YflN	ATGCTACTAATCGATCAAGGCATTGCCATGCTGGAAATTTCCGCGGCCATGATGGGACGCATCGAAACGATCCACCCGACATTCCTCTGGGATCATCAGAATTTGGTGCTTATCGATTCCGGCTATCCCGGCCAGTTCCCGCTGATTCAGGAGCAGATATCGGACTGCGGCTTTTCCGTTCAGGATGTAAGCAAAATTATTATAACACACCAGGATTTGGATCATATCGGCAGTTTGCCAGCTATCATCCAGCACTGCAAACAAGCCCCGGAAGTGTACGCCAGCGAAATCGAAAAGCCTTATATCGAAGGCGATACAAGGCTTGTCAAATTGTCGCCTGAGGCTATCGCGCAAGCGCTGGCTTCGCTGCCGGATAACGTGCCGCTGGATTGGAGGAACGCGTTTAAACACACGCTGGAGAACCCGCCCACGGCACCCGTGAACCGCATGTTGCGCGACGGCGAAGAGCTGCCGTTTGGCGGCGGTATCATCGCGATCCAGACGCCGGGCCATACCCCCGGCCACACCAGCTTATATCATATACCGAGCAAAACCCTGATTGCCGCGGATGCGCTGAACGTCAGGGAGGGACAACTGATCGGGCCGGATCCGGCAGCCACTGTCGATTTGGCGTTAGCCCGGCTCTCCTTGCAGAAGCTCACCCACTATGACATCCGCAACGTGATCTGTTACCACGGCGGGTTATTTACGGACAATCCCAACCAGCGCATTCGTGAATTGGCTTATGTATAA	MLLIDQGIAMLEISAAMMGRIETIHPTFLWDHQNLVLIDSGYPGQFPLIQEQISDCGFSVQDVSKIIITHQDLDHIGSLPAIIQHCKQAPEVYASEIEKPYIEGDTRLVKLSPEAIAQALASLPDNVPLDWRNAFKHTLENPPTAPVNRMLRDGEELPFGGGIIAIQTPGHTPGHTSLYHIPSKTLIAADALNVREGQLIGPDPAATVDLALARLSLQKLTHYDIRNVICYHGGLFTDNPNQRIRELAYV				NA	NA	NA	NA	NA
AK002_04310	975			hypothetical protein	ATGATCTGGAGCAAAGGGATGCTGGATGGATATGAGGTTTGGAAAGGGCGCACGGAGGTGATGGAGATGGCCGTGGTGCCTGAACTCGGAAGCAGGGTCATCTCGCTTCGCAATCGAAAGACTGGCCGGGAATGGCTGGTGCAGCCTGCTGGAGCTCTGGAAACGAACGGGTATGCAAGCTCCTTTGGACAGCGGGACGGCAGCGGATGGGACGAAATGTTTCCATCGATCAATGTCTGCCGGTATCCCGCGTACCCATGGGAAGGAACGGAGCTTCCGGATCATGGCGAGGTTTGGTCCATTCCATGGAAGGCGCACACCGAGGAAGAACAGCTGCACTGCAGCGTGCAGGGAATCCGAATACCTTATCAGCTGCGCAAAACCTACTCCTTCCCCCGTGAAGAAACCCTACGGATCGATTATGCCGTTCATAATCCGTGTCCGTTCCCGTTCTGTTTCCTGTGGGCCGCGCATCCGTTGTTTCAGATCGATGAAGGCGCAGAGATTATCGTTCCCAACGAGTTGAGGGAGATCATCGTATCGTACTCGGCGAACGGTCGATTGGGAGAATTCGGCGATATTCGGAAATGGCCGCAGCCATGGGATGAAAAGCCCCATATCCGCTTGAATCGAACCGAGAGCAGGCTAGAAGCATCGGCGGAGAAGTTTTATTTTGCTGGCGAGCTGCCGGATGGGCAAGCTTCCATTTACGATCCGGTTGCGAGGGAAGGACTCCGCATGATGTTTCCTAAGGAGCAGGTGCCTTATCTAGCGATTTGGGCGAACTATGGCGGCTATCAGGGACAGTACCATCTTGCGCTGGAGCCTGCGACGGGGCTGCTCGATGATCTCTCGTATGCCATGCATCGTCAGGCAGCGGCCGAAGTGCCGGCCGGCGGCACGTATACGTGGCACCTTGAGATTAGCTGGATCGACGGACAGAAGAACGAAAGAAGTGAAGTGAGGTCTTCTTGA	MIWSKGMLDGYEVWKGRTEVMEMAVVPELGSRVISLRNRKTGREWLVQPAGALETNGYASSFGQRDGSGWDEMFPSINVCRYPAYPWEGTELPDHGEVWSIPWKAHTEEEQLHCSVQGIRIPYQLRKTYSFPREETLRIDYAVHNPCPFPFCFLWAAHPLFQIDEGAEIIVPNELREIIVSYSANGRLGEFGDIRKWPQPWDEKPHIRLNRTESRLEASAEKFYFAGELPDGQASIYDPVAREGLRMMFPKEQVPYLAIWANYGGYQGQYHLALEPATGLLDDLSYAMHRQAAAEVPAGGTYTWHLEISWIDGQKNERSEVRSS				NA	NA	NA	NA	NA
AK002_04311	3339			hypothetical protein	ATGACAAAACAGCTGCAAGTGAGCGTTCGGGAAGAGACCGTGGAGATTCCCACGTATGAAGTGGGGAAGCCGGACCTGAACCCGATGTTTTTGGAGAAACGGGTATATCAGGGGAGCTCGGGGCGTGTCTATCCGCTGCCGGTCATCGATAAAATTTACGATGAGAAAGTAGTGAAGCCCTACCGGATCATTTTCCTTGAAAATGAGTACGTGCAGATTCAGATCATGCCGCAGATTGGCGGCCGCATCTACCGGGCTATCGATAAAACCAACAACTATGATTTTGTATACCACAATCAAGTGATCAAGCCGGCTTTGGTGGGCCTTGCGGGTCCATGGATATCCGGAGGGATCGAGTTCAACTGGCCGCAGCATCACCGGCCGAACACCTTTGGCGAGGTGGAGTGGAGCTTAACGGATCACCCGGATGGCAGCAAGACGGTATGGGTCGGCGAGATCGACCGGATGTACGGCACGAAGGTGTCTACCGGCTTCACGCTGTATCCGGGCAAGGCGTATCTTGAAATTCAGGCGCAAATGTACAATCGGACTTCGGAGCCGCAGACCTTTCTGTGGTGGGCGAATCCGGCCGTAGCGGTCAACGATCATACCCAGTCCGTATTTCCGCCGGACGTTCATGCGGTGTTCGACCATGGGAAGCGGGACGTGTCCAAATTTCCGATCGCAACCGGCACGTATTATAAGAAGGACTATTCGGCGGGCGTCGATATTTCCATGTACCGCAACATTCCCGTTCCGACCTCCTATATGGCCTATCATTCGGATTACGATTTCGTCGGCGGATACGACCATGGCTTGAAAGCGGGAATTCTGCATGTCGCCAATAAACATATATCTCCCGGCAAAAAACAGTGGACGTGGGGGCACGGCGAATTCGGCCAAGCCTGGGATCGCAACCTGACCGACGAAGACGGTCCGTACATTGAGCTCATGACCGGCGTGTATACCGATAACCAGCCCGATTTCACCTGGCTGGCGCCGTATGAGGAGAAAAGCTTCAAACAGTACTTCATGCCCTATAAAGACATCGGGCTGGTGAAGAACGCGTCCATTGACGCCGCCGTAAATCTCGAAGTTCACGACCATAAGGCCGTTGTCCATGTCTATGCCACCTCGGTTAGGGAAGGGGCTCGCATCCTGGTGACCGGAGCGGGACGCACCTATTTGGAACGGAAAGTCAAGCTGTCGCCGGCCGACACCTTCCAGGCCGAGATCGAACTTGATCCCGGCGTCAGGGAAGAAGATGTGCGGGTGGCGGTATTCGCTGCGGACGGCAAAGAGCTGGTCGCTTACCAGCCCAAGCCGCGTACCTTGGAGCGAACGCCGGACCCGGCTACGGCAATTGGCAAGCCGGAGGAGCTGAAGAATACCGAAGCGCTGTTCTTGGCAGGGCAGCATCTGGAGCAGTATCGGCACGCAACCTATGAACCGGAAGCCTATTATGTGGAAGGTCTAAGGCGCGATGCGGGAGACGCAAGGCTGAACAATGCCTATGGTTTGCTCCTGCTGCGCAGAGGGTGCTTTACGCAGAGTGAGGTTTATTTTAGAAAAGCCATTGAAACCTTGACCCGCCATAACGCCCGGCCCTATGACAGCGAACCGTTCTATCATTTGGGCAAAGCCTTGAAGTGGCAGGGACGTTTGGATGAAGCGTACGCTTATCTGTACAAATCGGTCTGGTCGGGGGCTTGGCAAGGGGCCGGCTATCTCGCTATAGCCCAGATTGCCTGCGAGAAGCAGGAATATGAGGAGGCGTTCGAGCTGATCGAACGGTCCCTGGCTGCCCAGTACCGTAATTATAAAGCGCGGCATCTGAAGAGCATCATTTTAAGGAGGCAGGGGCGCTTGGCGGATGCCGCGTTATGGCTTGAGGAAACGCTGAAGCTGGATCCTATGGATGCGGGCGCGATGAACGAGCTGGCAGCCGTATATCAAGAATTGAAGCAAGAGGGCAAGAGCCGGCATGCTTACGAATCACTTGTCCAGCTCCTGCGCGATCATCCGCATAATTATATCGCCGTTGCTCAGGACTATGCGGATGCAGGCCAATATGGCGACGCTTTGGATGTGCTGCAGCGCCTCGAACGCCTTACGGCACCTGCTGTCTATCCGATGGTTTATTACTACCAAGGCAGTGCACTCATGAAGATGAACCGGGCGGAAGAGGCATCCGCTTGCTACCGATTGGCCTCGGAAGCCGATCCGTCGTACTGTTTCCCGAATTCCCTGCATGACTACGTGACGTTAAAGCTGGCGCTCAGCATACAGCCGCAGGATGCGAAGGCGATGTACTACTTAGGGAATCTGCTGTACGACAAGAAGCGTTACGATGAAGCCATAAGCAGTTGGGAAGCTTCCGTCGCTCTGGATGGCAGCTTCGCTACGCCGCATCGGAATCTGGCGCTCGCTTACTATAACAAGAGGCAGGACCGCGATAAAGCATTGGCATCCCTGCAAACCGCCTTCTCGCTGAATCCGGCGGACGCCAGGGTCTTCTACGAGCTGGACCAGCTGTATAAAAAGCTCGGTCATGCTCCGGCCGATCGCTTGAAAGGGATGGAGGAGCACATGGAGCTGGTCGAGCAGCGTGACGATTTATATCTGGAATATTTGACGCTGCACAATACGCTGAATCGTTATGAGGAGGCATTGGCATTGATTCTGAAACGCAACTTTCACCCATGGGAAGGCGGCGAGGGCAAGGTTCCGGCCCAGTATGTGTTGGCCCGGGTGGAGCTGGCGAAGCAGCTGCTTCAGGAGCGTCGCTGCGAGGATGCCGTAGAGCAGCTGTTTGCTGCCAAACAATATCCGCTCAACATCAATGAAGGGAAGCTCACGGGAGCGCAGGAGAACAACATTGACTATTACCTGGGCTGCGCATACGAGGGGCTTGGCCGGTCCGAAGAGGCGGAGGCGTACTTCATGAAAGCCTCGGAGGGGCTGGATGAGCCGGCCAGCGCGATGTATTACAACGATCAGCCGCCGCACATGATTTTTTATCAAGGGGCCGCGCTGCGGAGACTGGGCCGAGAGAATGAAGCCCGCAGCCGGTTTAACAAGCTGATCGATTACGGGGAGAAGCATATATTCGAGCCTCAGAGCATCGATTACTTTGCCGTATCGCTGCCGGACTTCCTGGTGTTTGATGAAGATCTGGACCGAAGAAACGAAATTCATTGCCGCTACATGATGGGGCTTGGGCATCTTGGTCTCGGTGACCGGCAGTCCGCGGAGAAGCTGTTTCGCGAGGTGCTGCAGCTGGAGTCTCACCATCAAGGAGCTGCGTTGCATTTGTCGCTTTGCAAGACGTTGATTTAG	MTKQLQVSVREETVEIPTYEVGKPDLNPMFLEKRVYQGSSGRVYPLPVIDKIYDEKVVKPYRIIFLENEYVQIQIMPQIGGRIYRAIDKTNNYDFVYHNQVIKPALVGLAGPWISGGIEFNWPQHHRPNTFGEVEWSLTDHPDGSKTVWVGEIDRMYGTKVSTGFTLYPGKAYLEIQAQMYNRTSEPQTFLWWANPAVAVNDHTQSVFPPDVHAVFDHGKRDVSKFPIATGTYYKKDYSAGVDISMYRNIPVPTSYMAYHSDYDFVGGYDHGLKAGILHVANKHISPGKKQWTWGHGEFGQAWDRNLTDEDGPYIELMTGVYTDNQPDFTWLAPYEEKSFKQYFMPYKDIGLVKNASIDAAVNLEVHDHKAVVHVYATSVREGARILVTGAGRTYLERKVKLSPADTFQAEIELDPGVREEDVRVAVFAADGKELVAYQPKPRTLERTPDPATAIGKPEELKNTEALFLAGQHLEQYRHATYEPEAYYVEGLRRDAGDARLNNAYGLLLLRRGCFTQSEVYFRKAIETLTRHNARPYDSEPFYHLGKALKWQGRLDEAYAYLYKSVWSGAWQGAGYLAIAQIACEKQEYEEAFELIERSLAAQYRNYKARHLKSIILRRQGRLADAALWLEETLKLDPMDAGAMNELAAVYQELKQEGKSRHAYESLVQLLRDHPHNYIAVAQDYADAGQYGDALDVLQRLERLTAPAVYPMVYYYQGSALMKMNRAEEASACYRLASEADPSYCFPNSLHDYVTLKLALSIQPQDAKAMYYLGNLLYDKKRYDEAISSWEASVALDGSFATPHRNLALAYYNKRQDRDKALASLQTAFSLNPADARVFYELDQLYKKLGHAPADRLKGMEEHMELVEQRDDLYLEYLTLHNTLNRYEEALALILKRNFHPWEGGEGKVPAQYVLARVELAKQLLQERRCEDAVEQLFAAKQYPLNINEGKLTGAQENNIDYYLGCAYEGLGRSEEAEAYFMKASEGLDEPASAMYYNDQPPHMIFYQGAALRRLGRENEARSRFNKLIDYGEKHIFEPQSIDYFAVSLPDFLVFDEDLDRRNEIHCRYMMGLGHLGLGDRQSAEKLFREVLQLESHHQGAALHLSLCKTLI	PGPT0030850_35	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYSYSTEM_ASSEMBLY,PGPT0030850-ycf3-NA
AK002_04312	828	btr_2	COG0614	HTH-type transcriptional activator Btr	ATGAAGGAGGCTGCCCACCATCCGCTTGTTGAACCGCTGCACATAACCGACATCGGATACTTTCCGCGTGCGCTTCATCACTACAGGGAACGCCCGGAGGGCAGTGGCGCGTACATCTTAATCTACTGCGTGGAGGGGGAAGGCTGGTACCGGTTGAACGGCGGCAAAACCTATTCTCTGCTCAAGGGGCAGGCGGTTGTCATCCCGCCGGATACGCCGCATGAATATGCTTCATCGGAGTTTCATCCCTGGAGCATTTACTGGTGGCACATGAAAGGGACGCATGCAGGTTTATTGTTCGAGGGCTTTACCGGCGCAGCCGAACCCGCCATCGTTCCGGTCGACCAGTCAAGGAGCATCGTGGAGTTGTTTCAGGAAAGTTACGAGTTGCTGCAAAAAGGGTATACGCTGAACCATATCATCCATGTCTCGCAGCTCGCCGGCCACTTGGCGGCCGTCATCCGCCTCGCCCGGCTCCAACCGCAGCGGGGGCTGGATCAGCATAACAATCATGACATGGAGCAGACGCTTCGGTTCATGACCGAGCATCTGGAGGGCCATGTGAGCCTGAAGGAGCTGGCGGCCTACGCCAATCTGTCCATCCCGCACTTCACCTTCCGGTTCAAGGAAGCGACGGGCTACTCCCCCATCGATTACTATCTGCGGCTCAAAATCCAGCGAGCCTGCCAGCATCTGGACCTGACCGGCCAGAGCGTCAAGGAGATCAGCCACCGTCTCGGCTTCCAGGACCCCTACTACTTCTCGCGGCTGTTCAAAAAAATCATGGGAAAATCCCCTTCCGAATACCGAGATACCCGGAAGGGGTAG	MKEAAHHPLVEPLHITDIGYFPRALHHYRERPEGSGAYILIYCVEGEGWYRLNGGKTYSLLKGQAVVIPPDTPHEYASSEFHPWSIYWWHMKGTHAGLLFEGFTGAAEPAIVPVDQSRSIVELFQESYELLQKGYTLNHIIHVSQLAGHLAAVIRLARLQPQRGLDQHNNHDMEQTLRFMTEHLEGHVSLKELAAYANLSIPHFTFRFKEATGYSPIDYYLRLKIQRACQHLDLTGQSVKEISHRLGFQDPYYFSRLFKKIMGKSPSEYRDTRKG	PGPT0017485_266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_04313	966	araP_7	COG1175	L-arabinose transport system permease protein AraP	ATGAATGCACAAACGGTACAGTCGTCGGACAAGGCCGGACTGTACAAGGGCATGAAAGCGGTTGCCAAAACACTCAAAGGGCGCTGGAACGCGCCGATAGCCGGCTACCTGTTCATCGCCCCCTGGCTGCTGGGCTTTCTTATTTTACAGCTGTGGCCCATTATCCAGTCCTTCTATCTATCCTTCACCGAGTATTCGCTGCTGGAGCCGGCCCGCTGGATCGGGCTCGAGAACTACCAGGATATCGCTCAAGACCGGCTCTTCTTCAATTCGCTGAAGGTGACATTTCTGTACGTGATCGCTTCCGTGCCGCTGAAACTGCTGGTCGCGCTGGTTGTAGCCCTGCTGCTGAACCGGAACATCCGGGGCATATCCTTCTACCGGACGATCATTTACCTGCCTTCCCTGATCGGCGGAAGCTTGGCGGTGGCCGTGCTATGGCGCAATATTTTCGGCCTGAACGGCTTCATTAATCAGCTCGCGATATGGGTCGGAATCGCCCCCAAAAACTGGATCGGCACCCCCTCCACCGCCCTCGGCACCCTGGTGCTGCTGACGGCCTGGCAGTTCGGTTCATCGATGATTATTTTCCTTGCCGGTCTTAAACAAATCCCAAGCGAGCTGTATGAGGCGGCCTCCGTGGACGGGGCCTCACCGCTCCGCAAGTTCATCCGGATTACCTTGCCCATGTTATCCCCGGTCATCCTGTTTAATCTGATCATGGGCATCATCAACGCATTCCAAATGTTCACTTCGGCTTTTGTGGTCACGAATGGAGGACCGGTCAATTCAACCGAGATGTTTGCCCTGTTCCTGTACAACAAAGCCTTCGGATCACTGCAGATGGGCTATGCCTCGGCCTTGGCCTGGATACTGCTCGTGATCATCGGCATCGCCACGGCGCTTAATTTTATCGCATCCAAATACTGGGTCTTCTACGAAACCGAAACGGAGGGCCGCAAATGA	MNAQTVQSSDKAGLYKGMKAVAKTLKGRWNAPIAGYLFIAPWLLGFLILQLWPIIQSFYLSFTEYSLLEPARWIGLENYQDIAQDRLFFNSLKVTFLYVIASVPLKLLVALVVALLLNRNIRGISFYRTIIYLPSLIGGSLAVAVLWRNIFGLNGFINQLAIWVGIAPKNWIGTPSTALGTLVLLTAWQFGSSMIIFLAGLKQIPSELYEAASVDGASPLRKFIRITLPMLSPVILFNLIMGIINAFQMFTSAFVVTNGGPVNSTEMFALFLYNKAFGSLQMGYASALAWILLVIIGIATALNFIASKYWVFYETETEGRK	PGPT0016535_1609	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_04314	837	araQ_47	COG0395	L-arabinose transport system permease protein AraQ	ATGACAGGTGCTCATAAAAAACAAAACTGGCTGGTCCACGTGCTGATGATCGCATTCTGTTTTGTGATGTTTTATCCCGTGCTTTGGTGGATCGGCGCCTCCTTCAAATCAACGCCGGAAATCAGTCTACCCACTCTGTTCCCCAAAGTATGGTTGTGGCAAAATTATACGGAAGGCTGGATGGCGCTGCCCAAGTATACCTTTACACGCTTCTTTATGAACAGCCTCAAGCTCAACGTGGCGACCACGATTTTACACGTCATTTCAGCCAGCCTGGTGGCTTTCGGCTTCGCGAGACTGTCCTTTCCGCTGAAGGGGTTATGGTTTTCCATCCTATTGATGACCCTGATGCTTCCGGGACAAGTCACGCTCATCCCGCAGTATACGATGTTCCATTCCTTCGACTGGATCAATACGTATCTGCCGTTGATCGTCCCGTCGGCCATGGGCGGAGCGTTCTTTATTTTCCTGATTGTCCAGTTCATCCGCGGCATTCCGCGGGAGCTTGACGAGTCGGCAAAAATCGACGGCTGCACCTGGTTCGGCATTTATCTGCGCATCATCATGCCGCTGACCCTGCCGGCACTCATCACGGTTACGATTTTCTCGTTTATTTGGGGCTGGGACGAATACTTTGGGCCTCTGATTTATCTGAACACCGTGGACAAGTATACCGTCCCGCTCGCGCTCAGGATGTTCATCGACTCCCAGTCGGCCGTTCCGTGGGGGCAGCTGCTTGCCGTATCCCTGCTCTCCGTTCTGCCGCCGGTGATCATTTTCTTTCTGGCGCAAAAGCATTTCGTGGAAGGGATCGCCACATCCGGGCTGAAAGGTTAA	MTGAHKKQNWLVHVLMIAFCFVMFYPVLWWIGASFKSTPEISLPTLFPKVWLWQNYTEGWMALPKYTFTRFFMNSLKLNVATTILHVISASLVAFGFARLSFPLKGLWFSILLMTLMLPGQVTLIPQYTMFHSFDWINTYLPLIVPSAMGGAFFIFLIVQFIRGIPRELDESAKIDGCTWFGIYLRIIMPLTLPALITVTIFSFIWGWDEYFGPLIYLNTVDKYTVPLALRMFIDSQSAVPWGQLLAVSLLSVLPPVIIFFLAQKHFVEGIATSGLKG	PGPT0016540_6761	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_04315	1788			hypothetical protein	ATGAATCCGTTTCGCACGTTCCGCATCGATTACGTTTTTTTCTTCAGCTTTGCCGGTTTTATCGCGATCCTCATCACGATTATGATGATTGTCAGCTATCGGTTCTCAGCAGATGAGCAGGCGGACAGCGCCTCCAAGTACCAACAGGCGGTGCTGCAGCAGCTCAACAAACAGCTTACCGACCAGATGAGCGCTGTGGAGCAAACCTCGCTCGCCGTGTCCATCAACTCGCCTCTGGTCAACTATGTAACGATGAAAGGAGATTATTATGAACGCAAGACGGCCAGGGACGAGCTGAACCGGGATTATTTGGCGCCGATGCTGAACAGCTCGCGCTCGATGTTTTCCTTTCAGATTTATATGAGCGATCCGCTTCAGGTCGATCCCAACGCCAACATTCAGTACCTCCCGCTCGCCTCGGCCAGCCGGGAGAGCTGGTATCCGGCCGTCGACAAATCCGATTTTCTCTGGATCGGCCAGCGGGAGGTCGGTTCGCCGCAGGGAAAGCAGCAGGTGATCAGCTTTGTCCGTAAAATCACAACGCTGGACGGTGTGAACCGGGGAATTCTGATCATCAATGTCCGGGTTAAATTTCTGCGGGAAATTCTGACGGAAGACAACTCCTCGGCCAGCCGGCTGCTGCTCGACTCCGGCGGCCGGATGATCATGCACACCCGGATTGCTCCGCCGCCCGGGGAAATCAATGCCATCCTGGAGCGGGTCAGCGGGGACACCGGCCATGCGCATCAGCTGCTGGCCGCCGCCGGCTCACTGCCGGAGAAGAACATGCTTACCGTGTGGTCCCGGACGTCCCCGGGCAGCTGGATGCTGGTGGAGCTTACGCCCTGGAAGGAAATCACCAGCGGGAGTGTCCGCCTGGCGTGGACAATGGCCGTGGTGGGAGCCGCCGCCATTCTGCTGTCCCTATTCTTCACGTTGTTCCTTTCCCGGAATTTCACACGCCCGATCCGGAGGCTGGTTCAGCTGATGCAGGCGTTCAATCCAGGGAAGCGCGGGCAGCCGCTGCCGACGGAATACCGCAACGAATTCGGCAGCCTGTTCAGCGGCTACCGCAAGCTCACCGAGCGGATCGAAACGCTGTATCAGTCGCTGGAGCAGCAGTATAAAGCGCAGCGCGAAGCGGAGATTAAGGCGCTTCAAGCGATGATTAACCCTCATTTTCTCTACAACACCCTGGATCAGCTGAACTGGATGGCGCTTGAAGCCGGCCAGGAGAAGATCAGCCGCGTGCTCGAGCTGATGGGGCAGATGTTTCGCATCGGCCTGTCGGGCGGCGAATCCATGATTCCGATTCAGGAAGAGCTTCTGCATGTTGATTGCTATCTGAGAATCCAACAGTTCAAGTGGGGCGAAGGATTGGAATGGCACATCGATTGCCCGAAGGAAGTACAGCATCTGATGATTCCGAAGCTGACCCTGCAGCCCTTTGTGGAAAATGCCATTATGCATGGTTTTCATGGCAAACGCCAGGGCCGGATCCATCTGACTTGTGCGGTAGAAGACCGAGGCATCCGGATATGGATTCGGGACGACGGCATCGGGCTGCGTAAAGACTGGAAATCGCGAAAACGCCATCCGACGGGCGGATACGGCATCCGCAACGTCACCGAGCGCATTCAGGTTTTTTTCGGCCCGCCCTTTGGCGTTTCGCTTCGCAACCGTACCGATGCGCCAGGCACCGAAGCGGAGATCTATTGGCCCAAGCTGAATCAGCAGCGCAATCACGAAGGGGGAAGAATACATGTGGACCATCGCAATCGTGGATGA	MNPFRTFRIDYVFFFSFAGFIAILITIMMIVSYRFSADEQADSASKYQQAVLQQLNKQLTDQMSAVEQTSLAVSINSPLVNYVTMKGDYYERKTARDELNRDYLAPMLNSSRSMFSFQIYMSDPLQVDPNANIQYLPLASASRESWYPAVDKSDFLWIGQREVGSPQGKQQVISFVRKITTLDGVNRGILIINVRVKFLREILTEDNSSASRLLLDSGGRMIMHTRIAPPPGEINAILERVSGDTGHAHQLLAAAGSLPEKNMLTVWSRTSPGSWMLVELTPWKEITSGSVRLAWTMAVVGAAAILLSLFFTLFLSRNFTRPIRRLVQLMQAFNPGKRGQPLPTEYRNEFGSLFSGYRKLTERIETLYQSLEQQYKAQREAEIKALQAMINPHFLYNTLDQLNWMALEAGQEKISRVLELMGQMFRIGLSGGESMIPIQEELLHVDCYLRIQQFKWGEGLEWHIDCPKEVQHLMIPKLTLQPFVENAIMHGFHGKRQGRIHLTCAVEDRGIRIWIRDDGIGLRKDWKSRKRHPTGGYGIRNVTERIQVFFGPPFGVSLRNRTDAPGTEAEIYWPKLNQQRNHEGGRIHVDHRNRG				NA	NA	NA	NA	NA
AK002_04316	1620	rhaR_51		HTH-type transcriptional activator RhaR	ATGTGGACCATCGCAATCGTGGATGACGACCGGCAAGTGCTCGGCGGCATGTCCCGGCTGATCCCTTGGGAGCAGCTCGGAGTAAGGCCCGCCGGGGAGGCCATGGATGGCGAAGAAGGACTGAGGCTGATTGAAGCAAGCCAACCCGACATCGTCATCACGGATATTTATATGCCGGTCATGAACGGCCTCGACATGATCGAACAGCTCCGTAAGCAGCAGTACACCGGCAAAATCATCATTTTGAGCGGGTACTCGGATTTTGACTACGCTCGTAAAGCGCTGCGGCTGCAGGTCGACGATTATTTGCCCAAGCCGGCCTCACCGACCACGATCCGCGAGGTGCTGCAGCGCGTCACCCGCGAGCTTGCGGAGCGCCGCGCGCTGGAAGACAGGGAGCGGGAGCTTCAAAACCAACTCATGGAGTATGAGCCGTATCTGGAAAGGGAATGGGTCAAATCTGTCCTCACCGGAGGGACTTCCTCCCCGTTGACGGATCCCTCCCGTATGCTGGAGCGGCTCGGGTGGAAGAATGCTCAATTTATGATGCTGGCCTTGGAAATCAAGCGGCAGGGACGCATGGAAGGCATCTCCGTCCGGGATTGGCACCTGTTCCGTTTCGCCGTAGGCAACACGGTGGAGGAGCTGGCCGGGCAGGACGGGCTGCGCAGCTATTTCCTGGAGCTGCATAGTCACCATATGGCACTGCTGCTGTATAAGCCCCTCTCCTGGCCGACGGAAGCGTTCCGCTCGGAAGTTCTGGCGCTGGCAGGGCGAATCATTTCGTCCGTGCATCGATTCCTCAAGGTCAAGCTGCACATCGGCGCCGGTCTTCGCAAGGACGACTGGCTTGCCATCTCCGACTCCACCGAAGAAGCGTTTCAAGCGCTCGCCGAGCGTCGCGAACCGGATGTCGCCCTTCCCTGTGTCTACGTATATAACGAAGGCGGCTTCCGGCATACGGCACCCCGGAACGTGCGGCCGGTGCGATTTTTCCAGGAGATGACCGACGCCGTGCGGACCTTTGACGAGCCCAGAGCGCTGCTGGCGCTGGACGACTTCTTCCGCAAGGACGGCGGCGCGGCTCAGCTCCAGCCCGACGAGCTTGCCGCCATCGGAACGCAGCTGTTCGCCATCCTCTCCTTTACCCTGTACGAGTCCGGCATCCGGCTCGACGATGAGATATCTCTTACCGAATTGACCAAAGAACTGGGGCAATTGGAAGATGCCCGGCAGTGGAAGGCATGGGTAGCGGAAAAAGTGAACCGAATCTGTTCGCGTTACACGCCGAATGAAAACCTCAAGCATAAGGAAACGGTCGATTATATCATCCAATACATTCATGAGCATTACGCCGAGAACATCCATCTTCAGGATGTGGCCGACCAGGTCTATATCTCCAAAAACTATCTCAGCACCTTATTCCGCCAGTTTACAGGTGAAACCTTTGGCGATTATCTAACCAGGGTGCGAATGGAAAAAGCCAAGAGCATGGTTCTCGAGAAAAAGCTGCTGATCGCCGAAATCGCCGAGCGGGTCGGTTATCGGAATGTTCCCTACTTTACCACCCTGTTCAAAAAGCATACCGGACGCAGTCCCACCGAGTTCCACAAAGCCTAA	MWTIAIVDDDRQVLGGMSRLIPWEQLGVRPAGEAMDGEEGLRLIEASQPDIVITDIYMPVMNGLDMIEQLRKQQYTGKIIILSGYSDFDYARKALRLQVDDYLPKPASPTTIREVLQRVTRELAERRALEDRERELQNQLMEYEPYLEREWVKSVLTGGTSSPLTDPSRMLERLGWKNAQFMMLALEIKRQGRMEGISVRDWHLFRFAVGNTVEELAGQDGLRSYFLELHSHHMALLLYKPLSWPTEAFRSEVLALAGRIISSVHRFLKVKLHIGAGLRKDDWLAISDSTEEAFQALAERREPDVALPCVYVYNEGGFRHTAPRNVRPVRFFQEMTDAVRTFDEPRALLALDDFFRKDGGAAQLQPDELAAIGTQLFAILSFTLYESGIRLDDEISLTELTKELGQLEDARQWKAWVAEKVNRICSRYTPNENLKHKETVDYIIQYIHEHYAENIHLQDVADQVYISKNYLSTLFRQFTGETFGDYLTRVRMEKAKSMVLEKKLLIAEIAERVGYRNVPYFTTLFKKHTGRSPTEFHKA				NA	NA	NA	NA	NA
AK002_04317	1290	yesO_5	COG1653	Putative ABC transporter substrate-binding protein YesO	ATGAGAAAATCATGGCACCGTCTCGCCGCCGGCGCTGCGGCTGTGCTGTCACTGTCCCTGGTTCTTTCCGCCTGCAGCGGGATCAAGAAAGAAGAAACCGGATCTGCGGTGTCGGGAGACGGCAAATCCATCAAGCTCCGAATCATGTGGTGGGGCTCTCAGGCCCGGCATGACGCAACTCTGAAAGCGCTTGATCTGTACTCTGAAAAGCACCCGGGTATCTCGTTCGAACCGGAGTATCAGTCGTTCGACGGGTATCAAGACAAGCTGTCGACCCAGTCCGCGGGGAAAAACACGCCGGATATTTTCCAAATGGATGCTGCCTGGTTCAACGATTGGGCGTCCAGCGGACGGCTGGACGATCTCTCCTCCATTCCGGCGGACCATATCGATAAGGTGCTGCTCGAGACAGGCACCTACCAGGGCAAGCTGTACGCAATGCCGCTTGGCAACAACGCCTGGGGCATGGTCTACAACAAGACGATGATGGACAGCCTCGGCGTTCAGCCGCCGAAGACATGGGACGAATTTTTCGCCATGGCGCGCGACCTGAAGCCGAAGCTGGCTAAGGACCAATACCTCACGCGGGACCTGACCGCGGATGGCGCATTCTACATGTCGTATCAGCTGAGCATGGGCAAGGGCTTCTCCATGAGCAAGGACGGAAAATTCCATTATGACGAGGCTACCTGGAAGGATTGGATGAACAAATGGGTGGAGCTGCGCAAGGACCAACTCGTAACACCCCCTGACGTGACCGTGTCGGATAAAGCGCAGGACGCGCAAATGGACCTGCTCATCCAGGAAAAGATTCTGCTTCGGGGCGCGCATGCCGCGGAATTCGGCGGAACGGATGCCTTAAAACCCGGCGTCATGGCGTTAACGACCCAGCCGAGGGGAACGCAGGCCGGCGGCTGGCTGAAAGCCTCCATGTACTGGAGCGTCAGCCCCAACAGCCAATATAAAGAAGAAGCGAAGGAGTTCATCGACTGGTTTGTCAACAGCGAGGAAGCCGGAGAAATTTTGGGCACTTCGCGGGGGATTCCGGTCAACAAAACCGTAGCCGATGCACTCCAGCCCAAATTTACGGACGTTGATAAAAGCTCCCTCGGCCTGATCAACGAGGTGTCCAAGGACGGGGCCGCGTTTGACCCCGGCCCCGGGAATAAGGGCGGCTGGGCCAACTTCACGAAGGAATACGATAACATCACGCAGTCGATCATGTTCGGTAAAATCAGCATCGACGAAGGCTGGGACCAGATTGTCAAATTGAGCAAAAGCCTGGAGTAA	MRKSWHRLAAGAAAVLSLSLVLSACSGIKKEETGSAVSGDGKSIKLRIMWWGSQARHDATLKALDLYSEKHPGISFEPEYQSFDGYQDKLSTQSAGKNTPDIFQMDAAWFNDWASSGRLDDLSSIPADHIDKVLLETGTYQGKLYAMPLGNNAWGMVYNKTMMDSLGVQPPKTWDEFFAMARDLKPKLAKDQYLTRDLTADGAFYMSYQLSMGKGFSMSKDGKFHYDEATWKDWMNKWVELRKDQLVTPPDVTVSDKAQDAQMDLLIQEKILLRGAHAAEFGGTDALKPGVMALTTQPRGTQAGGWLKASMYWSVSPNSQYKEEAKEFIDWFVNSEEAGEILGTSRGIPVNKTVADALQPKFTDVDKSSLGLINEVSKDGAAFDPGPGNKGGWANFTKEYDNITQSIMFGKISIDEGWDQIVKLSKSLE	PGPT0016545_7044	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_04318	2112	agaA_2		Alpha-galactosidase AgaA	GTGACCATTCAATACCAAGAACAGTTTCGCGTGTTTGCGATACAAACCGATAACAGCTCCTATCTGTTCGGCATCAACGACAGCGGCAACCTGCAGCATCTATACTGGGGAGAGTCCATCGCGATCGAAGACGCGGCGCCGCTGCTGGGGCCCAGATCGCACAGCTCGTTTGACGCGGAAGTCCATTCGGAGGTGGAGGAATACAGCTTCTGGGGCGGCGTCAAATACAGCGAGCCCAGCCTGAAGGTCCGCATGCCGGATGGCGTGCGCGACTTGGCGGTTCGTTATGCCGGGCACCGCACGCTGCAGACGGAAGGCAGGGAGACGCTGGTCATCGTCATGAAGGATGAAGCGTATCCGCTGGAAGTGGAGCTGTCCTACCGGGCGATTCCCGAGTCCGACCTGATCGAACGTTCGGCCCGGATCGTCAACCGCGGCGAGGCGGATATCGTGCTGGAAAATGTGCAATCCGCGGCATGGGTCATCCCCTATCTGGCGGATTACCGTCTCACACACGTGACGGGGAAATGGTCCGGCGAATTTCAGCTGCGCAGCACCTTTCTCACCGAAGGAAAGAAGGTGCTGGAATCCCGCAGGGGCTTTACGGACAGCCACGCTAACCCTTGGTTTGCGATGGATGACGGACATGCCACGGAGTCGGCGGGACAGGTATGGTTCGGCGCGCTGGCCTGGAGCGGGAACTGGAAGATCACGGCCGAGCGGACGGTGTTCGAGCATGTTCGGGTGACCGGAGGCATCAACGATTTCGACAGCGAGTGGGTGCTGGGAGCGGGAGAAGCCTTCGATACGCCAAGCTTCGTCGGGGGATACAGCAGCGGGGGCTTTGGCGGGATGAGCCGACAGCTGCATCGCTATCAATATTCGGATGTTCTGCCGGGCCGCGAAGCGAGACCTGTCCTGTATAACTCTTGGGAGGCAACATACTTCGATGTCAATGCCAAGGATCAAATGGCTTTGGCCGAAAGAGCCGCGCGTTTGGGTGTGGAATTGTTCGTTGTGGACGACGGGTGGTTCGGCGGGCGCAACCATGATCGCGCCGGGCTAGGCGATTGGTTCGTGAACCGGGAGAAGTTCCCGAACGGTCTGGGCGAGCTGATTAACCGGGTGCATGAACTGGGTATGGATTTCGGCATTTGGGTAGAGCCGGAGGCCGTTAATCCGGACAGCGACCTGTACCGGGAGCACCCGGATTGGGTGTACCATTTCGAGACGCGGGAGCGCTCGGAGCTTCGCAATCAGCTGCTGCTGAACATTTCGAAGCCGGAGGTTAAGGCTTACATTTTGCAGTTTATGACCGACCTGCTGGAGCAGCATGACATCAAGTTCATTAAATGGGACATGAACCGGACGGTGACCGAACCCGGCATGAAGGATCATCCGCTTCACCGTCAGAAGGAAATCTGGATTCGCCACGTTCAGAGCCTGTACGAGATTTGGGCGGAGCTGCGGCGCAAGTTCCCGCATGTGGCGTTTGAAACCTGCGCCGGCGGCGGAGCGCGCATCGATCTTGGCATCTTCCGGTATGCCGACCAATCCTGGCCGAGCGATAACACGGATGCCTTTGACCGCCTCAGCATTCAGGAGGGCTTCTCGTACACGTATGCTCCGCGGATGATGACCTGCTGGGTGACGGAGTCGCCGACAGGGATGAATCGCCGACAGGTCTCCCTCAAATACCGCTTCCACAGCGCCATGATGGGAACGCTTGGCATCGGCTCCAACCTGAATGAGTGGAGCGATGAGCTGATTGCGGAATCGGCCGAATATGTGGCGCAGTATAAATCCATTCGCCATCTGGTTCAGTTCGGCAGTCAGTATCGCTTGGACTCGATTCGGCATAAAGGCGTAACGGCTGTGCAGTACGGCAGCGAAGACGGCAGCGACAACGTGCTGTTTGCGTTCCTGCACAGCCAGAAGCTGGGCGAACCGCTGCCGCGACTGCGTCTGACCGGACTGCAAGCCGATCAGTCGTATGGCATCGAGGGGCTTGAAGGTACGTGGAGCGGCAGGGCACTCATGAACATCGGCGTTGAGCTGCCGCTGCGCGGGGATTTTGACAGCTTGGTGTATCGCATTCTGAAACAGGGATAA	MTIQYQEQFRVFAIQTDNSSYLFGINDSGNLQHLYWGESIAIEDAAPLLGPRSHSSFDAEVHSEVEEYSFWGGVKYSEPSLKVRMPDGVRDLAVRYAGHRTLQTEGRETLVIVMKDEAYPLEVELSYRAIPESDLIERSARIVNRGEADIVLENVQSAAWVIPYLADYRLTHVTGKWSGEFQLRSTFLTEGKKVLESRRGFTDSHANPWFAMDDGHATESAGQVWFGALAWSGNWKITAERTVFEHVRVTGGINDFDSEWVLGAGEAFDTPSFVGGYSSGGFGGMSRQLHRYQYSDVLPGREARPVLYNSWEATYFDVNAKDQMALAERAARLGVELFVVDDGWFGGRNHDRAGLGDWFVNREKFPNGLGELINRVHELGMDFGIWVEPEAVNPDSDLYREHPDWVYHFETRERSELRNQLLLNISKPEVKAYILQFMTDLLEQHDIKFIKWDMNRTVTEPGMKDHPLHRQKEIWIRHVQSLYEIWAELRRKFPHVAFETCAGGGARIDLGIFRYADQSWPSDNTDAFDRLSIQEGFSYTYAPRMMTCWVTESPTGMNRRQVSLKYRFHSAMMGTLGIGSNLNEWSDELIAESAEYVAQYKSIRHLVQFGSQYRLDSIRHKGVTAVQYGSEDGSDNVLFAFLHSQKLGEPLPRLRLTGLQADQSYGIEGLEGTWSGRALMNIGVELPLRGDFDSLVYRILKQG	PGPT0018835_1506	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
AK002_04319	1614			hypothetical protein	ATGAAGAAACTAAAATTGATTCTGGCAGCAGCGCTCGTTATGACAACGCTTTCGGCTTGCGGCGGCAACCAGAAGGCGGCATCGGGCGGAGACAGCGGCACGGAGACGGACAGCAATGCGCCGATCACGTTAACCTGGTTTGACCAAAACACGGGGGATGCCTTTACGAATCCGGTCGCTAAAGTGATAACGGAAAAGACGGGCGTCACCGTCGAGATCCAGCAGCCTACGGGCAATCCGGTCGAGAAGCTGAATCTGATGCTGGCCAGCGGCGATCTTCCGGACGTTATTTTGATGAGTCGTGGAAGCGATATCATGAACAAGTATATTACCTCCGGCGCGGTGATTCCGCTGAATGATCTGATCGAAGAGCACGGACCGAATATCAAAAAAATGTACGGCGACACGCTTGCCAAAACCCGAAGCGAGGACGGCAACAATTATTATTTCTCCAACTGGTACGGCTTGGAGCAGTACCCGGTGTTCGGCTTCATGATGCGCATGGACATCATGAAGGAGCTGGGCGTCGGCGATAAAGTGAACAACGGCGAGCCGTTTACCGCGGAGGAATTTGAGCAGCTGCTCGTCAAGTTCAAGGAGAAATATCCGACCATCGACGGCAAAGAAAGCATTCCGATGACGCTCAACGGCGAGAACGTCGGAGCCGTGACCGGCAGCTTCAAGGGCATGTACGGCATGATGCCGTATTACGAAACGAACGGGGAGCTGAAGAAGGACGTCCGCGATCCGCATTATCTCGAAATGGTCAAGTTTCTGAACTCCCTGTACCGCAAAGGCCTGCTCGATAAGGAATGGGCAACGATGAAGACCAAGCAGTTCGAGCAGAAGCTGGGCAACGGCAACGTGTTCGCCACGGCGGAAGCGCTCTGGAATGTGGGAAATGCGAATGCGCTGCTCAAAACCGAGGCAGCCGATAAGGCTACCGAGGACGAGCGTCAGTTCTACCAATATAAAGTGCTGGCCCCGGGCGTGAAGCCGGAAGAGGCCACTTACGGACCGAAGAGCTCTCTGGGTTGGGACGGCGTCGCGATCAGCCGCTCCAACAAGGATCCGGTGCGTACGATGAAGCTGCTGGATTTTCTGGCCAGCGAGGAAGGCCAGTATCTGCTGATGTGGGGAGTAGAGGGCGAGCATTGGGACATGAAGGACGGCAAGCATGTGCCAAGACAAGAAGTGCTGGACGCCTTCAAGAAGAATTGGGATGAAGCTTCCCGTACGACGGGCATTCGCAAGTGGACCTGGATGATCAAGAACGGTCCCGGCGAGGACGGAACCCCGTATGACCTGATGGGCCGTTACCAGACCGATCCGGTCACGGATCTGGCGATCAAGAACCTGGCCGATACGTCGTTTGATACGGCACCGTATGACAATCTGGGTCCGGCTGGCGGAACGCCGGAAGCCATTATGGAAACGAAGGTGAACGACACCATCAATAAATATTTCCTGAAGATGGCCCTGTCGCCGTCCGAGGACCAAGTGGTGGAATCCTATAACCAGATGATGGCCGAGATCGAGGCGGCTGGCCTGGCCAAGCTGGAAAAGATCTATACGGACAACTTCAACAAACGTCAAGAGCTGTGGGGCAAATAA	MKKLKLILAAALVMTTLSACGGNQKAASGGDSGTETDSNAPITLTWFDQNTGDAFTNPVAKVITEKTGVTVEIQQPTGNPVEKLNLMLASGDLPDVILMSRGSDIMNKYITSGAVIPLNDLIEEHGPNIKKMYGDTLAKTRSEDGNNYYFSNWYGLEQYPVFGFMMRMDIMKELGVGDKVNNGEPFTAEEFEQLLVKFKEKYPTIDGKESIPMTLNGENVGAVTGSFKGMYGMMPYYETNGELKKDVRDPHYLEMVKFLNSLYRKGLLDKEWATMKTKQFEQKLGNGNVFATAEALWNVGNANALLKTEAADKATEDERQFYQYKVLAPGVKPEEATYGPKSSLGWDGVAISRSNKDPVRTMKLLDFLASEEGQYLLMWGVEGEHWDMKDGKHVPRQEVLDAFKKNWDEASRTTGIRKWTWMIKNGPGEDGTPYDLMGRYQTDPVTDLAIKNLADTSFDTAPYDNLGPAGGTPEAIMETKVNDTINKYFLKMALSPSEDQVVESYNQMMAEIEAAGLAKLEKIYTDNFNKRQELWGK	PGPT0017245_1870	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04320	1836			hypothetical protein	ATGAATACCGCAAAAACATCTAGCCCGTCTGGCCCGTGGAGCCGTCTGGCAGGGGCTTTCCCATTCGCGCACTTACGCGCATACACCAATTGGCGGCTCCGGCACAAGTTCTTTTTCATCTTTCTGATCGTCATCATCCTTCCGTTCTCGCTGCTGATCTATTATTCGTATTCTTCGACGCGCAGCACGATTACGGAGCATACGTATACGGCGCTAGGCGGATCGCTGGCACAGATTAACACCAACGTGGAGAAGCGGCTGGAGTATTACAATCAGCTGTCAAACATCCTCTACATGGATGCGCAGCTCCGCAATTATCTGTCTACCGATTATGAGCAGGCGTACTATTATCTGGATGCCTTCCAATATATCAACCGGACGCTGCCGTCCCTGATGACCCTGAATGCCAACATTCTGGGCATCACGATTTATACGGGGAACCATACCCTCTATTCCGACGGCCAATACGTCAAATATACGGAAGAGATGCCTTCGGCGATGGAGGAACAGGTGCTGGATGCCGCCGGCAGTACGGTGTACTTTCATTCCGAGGATTTCAGGGCCAATGATGCACATATCACCATTGCCCGTTCATTAAGCTATTTCAGCCTGCAGCATCCGTACGGGATTTTGACTATGGACATTAACGCAAACGAATTCTATTCCCTGATCAAAATGGAGAACGACAACAAAAGCGTCTATATTATCGACGAGTTTGGCGGCGTGATCAGCACGGGGGATCAGAACCTCCAATCGAACCAGCTGTTCGACGTGTTTCCGATTCAGGAGCGGATGACCCAGGATGCAGGCTCATTCGATATGAAGATTAACGGCCAGGAGCGTTTTTTTACGTATAAAAAGCTCAGCAACGGCTGGTCCACGGTCATCACCGTGCCCTACGACGAGCTGCTGGCCAATGCGAATCAGGCGACCAAGAACGTCATCTGGTTCTCCGTGCTGGCGATTGGCATGGCCATCCTGCTGCTTTATTTTACGACCAAGGTCATGACCAAGCGCATCGAGGTGCTGCTGCAGCAGATCCGGAAGGTGGAGCGTGGGGATTTCCGGCTGTCGATTAAGCCGATGGGGCATGACGAGATCGGTCAGGTGTCTTTTGCGTTCAATAAGATGGCCTCGACGATACAATCCCTGATCCATGACGTATACGTAAAGGAGATTGCAAGGAAGGAGTCGGAGCTGAATACGCTCCAGGCCCAGATCAACCCCCATTTTCTATACAACACCTTGTCCTCGATCTCTTCTCTGGCAATCAAAGAAGGGGCTATGCAGGTGTACCAGATGGTCAATTATTTGGCCAAGTATTACCGGGTGTCGCTGAACAAAGGAAAACGCATCATTCTGCTGGAGCAGGAAATCAATCTGGTGAAGAATTATGTCGCGATCCAGAAGATCCGGTTCCGGGACAAGCTTCATATGCATTACGACCTGGATGAGCAGCTGTTCGGGAACACAACGATCAAGCTGATTCTGCAGCCCTTCATCGAGAACTGCATCAATCATGCCATAGGGGACGAATCGGGAATCAACATTAACGTGAAGCTCAGGCAGGAGGGGGACGATATCTTGCTCCAGGTCATCGACGACGGTATCGGGATGAAGCCCGAACAGCTCGATCACGCGCTGAACAAATCGGATAATCTGTCGGGCTACGGCGTGAAGAACGTGGATGACCGGATCAAGCTGACCTACGGGGAAGAATATGGCGTCAGCATCTTCAGCCGGCTCGGCATCGGAACCGCGGTGACCATTCGGATACCTGTAATCTCCGATAGGCATCCTGCAAACGAACGGGACCCGCAGCAGGCGTTACCTTGA	MNTAKTSSPSGPWSRLAGAFPFAHLRAYTNWRLRHKFFFIFLIVIILPFSLLIYYSYSSTRSTITEHTYTALGGSLAQINTNVEKRLEYYNQLSNILYMDAQLRNYLSTDYEQAYYYLDAFQYINRTLPSLMTLNANILGITIYTGNHTLYSDGQYVKYTEEMPSAMEEQVLDAAGSTVYFHSEDFRANDAHITIARSLSYFSLQHPYGILTMDINANEFYSLIKMENDNKSVYIIDEFGGVISTGDQNLQSNQLFDVFPIQERMTQDAGSFDMKINGQERFFTYKKLSNGWSTVITVPYDELLANANQATKNVIWFSVLAIGMAILLLYFTTKVMTKRIEVLLQQIRKVERGDFRLSIKPMGHDEIGQVSFAFNKMASTIQSLIHDVYVKEIARKESELNTLQAQINPHFLYNTLSSISSLAIKEGAMQVYQMVNYLAKYYRVSLNKGKRIILLEQEINLVKNYVAIQKIRFRDKLHMHYDLDEQLFGNTTIKLILQPFIENCINHAIGDESGININVKLRQEGDDILLQVIDDGIGMKPEQLDHALNKSDNLSGYGVKNVDDRIKLTYGEEYGVSIFSRLGIGTAVTIRIPVISDRHPANERDPQQALP				NA	NA	NA	NA	NA
AK002_04321	1542	rhaR_52		HTH-type transcriptional activator RhaR	ATGTATAGCATTTTTCTCGTTGATGACGAAGAGCTAGAGCTTGAGATGATCCGAGATTATATTCGTTGGGAAGAGATGGGGATATATGTGGCCGGAACAGCCCTGAACGGCAGGGATGCCCTGGAGAAGATCGAGGTGATTCAGCCCGATATTGTACTGACGGACGTCCAGATGCCCGTCATGAACGGGCTCGATATGGCGAAACGGGTGAGTGAGTTATTCGACTGGATTCAGTTCGTCTTCCTGACCGGACACGATGAATTCAATTATGTGAAGTCGGCCCTAAACGTGGGAGCCGTCGGCTATTTACTGAAGCCGCTGGATCTGAGCGAAATTGTAAGCGTTATCGATAAAGTCAAACGGCGCTGCGAGGAAGTGCGGATGAAGAACCGCTCCATTCGCGGGACCAAATCCAATATTGTACGAGAGATGATGTTCGAGCAGAACGAGGAGCGATTCCGAAACCTCGCTGCCAGCTACCATAAGCTGTCCCGCCATACGGAGCCGAGAACGTATACCCTTACGCTGCTCGGCCTCGATGCTCCGCACGCTGCACAGCCGGGGCTGTCCCTCGAGGATGGCATGGCGCGTCTGCAGACGCATATGGAGGAGTGGCTTGCGGACAAGAAGCTGGAGGCGGATCTGGTCGTCTGCCGGGAAGGCGAGCTGGGCATCTTCATGGATGCTGCCAGTCATCTGAGCCGCTTTACGTGGGAGGATCTGCTGAAGCAGATGCAGGATGCGCTGGGCTTTACGATGACCGCGGCCGTGAACGAGGAGCCGGAAGAGCTGTCCCGCATTCAGGATTTATACCGGGAGACGCGGCTGATGCTGGAGGAGATGTTTTATGTCGGGAACGGGAGAGTCATCTATGCCAAGGACGTGTTGCGGCAGCTGGAGAGCCGGCAAATTCCTCCTTTCCAAGAGACGGCCTATTTCGAGGACATTCATCAGCTGGCATCCGAGCAGGCCGCGCAGAAGCTGCGGGATTATTTCAACCGGCTGGTGATGCTGCGAATCCGAAAAACCGAAGTGTGCGACTTTGCCATCGGACTGGTGGAGCGTCTGCTGGAGGGGATCCACGAGCCGATCACGGAGAGCCACAAGCGGGCGGAGCTTTACCATGCCATCTATCAGTGCCGAACCATGATTGAAATCGAAGCAATCATCATGGATTTTGCCGGGCATGCGATTCGGACGTTGGAACACCGGTTCATGGACAAAAATGCAAGGCTGGTGCATCAGGTGCGCACGACGATCGACCAGACCTATCACCAGGCCATCACGATCAACAGCTTGTCCGATCAGGTGTATCTGTCTCCCAACTACCTGCGTTCCATCTTTAAGGAGAAAACTGGCATGACGATCCATGATTATCTAACGAGAATTCGGCTGAACAAAGCCAAGGAGCTGCTGGCCGACGATTCGCTCAAAGTGCAGGACATCGCCCAAAGGGTTGGTTATGAGAGCACATCCTACTTCATTTCCTTATTCTTAAAAAGCCAAGGAGTTACGCCGAATGAATACCGCAAAAACATCTAG	MYSIFLVDDEELELEMIRDYIRWEEMGIYVAGTALNGRDALEKIEVIQPDIVLTDVQMPVMNGLDMAKRVSELFDWIQFVFLTGHDEFNYVKSALNVGAVGYLLKPLDLSEIVSVIDKVKRRCEEVRMKNRSIRGTKSNIVREMMFEQNEERFRNLAASYHKLSRHTEPRTYTLTLLGLDAPHAAQPGLSLEDGMARLQTHMEEWLADKKLEADLVVCREGELGIFMDAASHLSRFTWEDLLKQMQDALGFTMTAAVNEEPEELSRIQDLYRETRLMLEEMFYVGNGRVIYAKDVLRQLESRQIPPFQETAYFEDIHQLASEQAAQKLRDYFNRLVMLRIRKTEVCDFAIGLVERLLEGIHEPITESHKRAELYHAIYQCRTMIEIEAIIMDFAGHAIRTLEHRFMDKNARLVHQVRTTIDQTYHQAITINSLSDQVYLSPNYLRSIFKEKTGMTIHDYLTRIRLNKAKELLADDSLKVQDIAQRVGYESTSYFISLFLKSQGVTPNEYRKNI				NA	NA	NA	NA	NA
AK002_04322	978	yteP_49	COG4209	putative multiple-sugar transport system permease YteP	ATGAAACCTGCTACAACCTTACAGACGCGGAGTGACTTGAACTTGAGTCCTCATCGAAAAAGCCGCTGGGCCATGCTGAAGCAGCAGAAGTATCTATTCCTGATGATGCTGCCCGGACTGATCTGGGCCGTTGTGTTTGCGTATACGCCCATGGTTGGTCTATACATGTCCTTCGTCAATTACCAGCCGACGCTCGGCGGTTTCTGGTCGACCCTGTTTTCGAGCGAGTTCGTCGGCCTGGAATGGTTCCGTTACTTCTTCAACAACGGCGACTTCTGGATCGTCATGCGAAATACGCTGGCCTCCACGCTGATCACGCTTCTCTTCTCTTTTCCGATGCCGATCCTGATCGCCATCGCGATTAATGAGATCAAGAATGTGAAGTTCAAAAAGACGGTGCAAACCGCCTCCTATCTTCCCTATTTCATATCCTGGGTTATCGCGGCCAACATCATCGTGACCCTGCTCTCCTCGGACGGCGCGATTAACGGCATATTGAAATTCCTACACATTACCGATGAAAGCGTTTTATTCCTGCAGAACGGCAAGTATTTCTGGTGGATCGTTGCGCTCGGCAATACGTGGAAGGATATGGGCTACAGCTCGATCATGTATTTGGCCGCCATCTCGTCCATCAACCAGGAGCTCTATGAAGCGGCCAAGGTCGACGGCGCCAACCGTTTTAAGCAGATCCGGTACATCACCCTGCCCCACCTGAAACCAACGATTGTCATTTTGCTGATCCTGGCGCTTGGCGGCATCCTGAACGCGGGCTTCGACCAGCACTTCCTGCTCGGCAATGACCTGACGCGGGATTACTCCGACGTCCTGTCCACCTATTCGTTCCGCTACGGTATTCAGAACGGCATGTTCTCCTATGCGGCAGCCGTCGGCATGTTCAGCTCCGTGGTGGCGTTCATCATCGTAGTTATCGTCAACTATACGGCGAAGAAACTGAACGGGCAGTCCCTATTCTAA	MKPATTLQTRSDLNLSPHRKSRWAMLKQQKYLFLMMLPGLIWAVVFAYTPMVGLYMSFVNYQPTLGGFWSTLFSSEFVGLEWFRYFFNNGDFWIVMRNTLASTLITLLFSFPMPILIAIAINEIKNVKFKKTVQTASYLPYFISWVIAANIIVTLLSSDGAINGILKFLHITDESVLFLQNGKYFWWIVALGNTWKDMGYSSIMYLAAISSINQELYEAAKVDGANRFKQIRYITLPHLKPTIVILLILALGGILNAGFDQHFLLGNDLTRDYSDVLSTYSFRYGIQNGMFSYAAAVGMFSSVVAFIIVVIVNYTAKKLNGQSLF	PGPT0017250_535	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04323	894	ycjP_4	COG0395	Inner membrane ABC transporter permease protein YcjP	ATGTTAAGCAAAAAAACCGTGCCCGAGCGTATCTTCGATGCCTCTTTATACCTGTTCCTGACCGGCATCTTCCTCGTCACCTTCTATCCGTTCTGGAACATCCTGGTCATCTCCTTGAACGATGCGACCGATACGATGCGGGGCAATCTGTACTTCTGGCCGCGCGTGCCAACCATCGAGAGCTACCTGACCATCTTCCGGAACCCGGAAATCTGGAGCGCCATTAAGATTACCGTGCTGCGTACCATCGTCGGGACGGCGGCATCCATCTTTTTCATCACGCTGCTCGCTTATCCGCTCAGCAAGCGCAATCTGCTCGGATGGAAATACTTCTCCTTCTTCTTTGTGTTCACGATGTATTTCGGTGGCGGGCTGATTCCAACGTATATGATCATCAAATCCCTGGGGCTGATCGACTCCTTCTGGGTTTATATCTTCCCTGGCTTAATCGGCGTGTTCCTGATGATTCTGGTGCGCACCTTCATGGAGCAGATCCCCGGCGAAATTGAGGAATCCTCCAAAATCGACGGCGCGAACGACCTGCAGACGTTCTTCCGCATCATCATGCCCCTGTGCGTGCCGGTGCTCGCGACGATCGGCCTGTTCCTGGCCATCGGCCATTGGAACTCCTGGTATGACTCCTATGTGTATACCTACAAGCCGGAGCTCAAGACCCTGCAGGCCGTCCTGGTCAAAATCCTCAACCAATTCCAGACTGCCGGCATGATGTCCGATGCCCAGCAGCTGGCGCAGGGCTCCAAGCGGATCCCGGTTTCCAGCGAAAGCATCCGGATGGCGGTGACCATGGTCGCTACGCTGCCGATCATTATGGTGTATCCTTTTGTGCAAAGGTATTTTGTGAAGGGGATTATGATGGGGGCTATCAAGAGTTAG	MLSKKTVPERIFDASLYLFLTGIFLVTFYPFWNILVISLNDATDTMRGNLYFWPRVPTIESYLTIFRNPEIWSAIKITVLRTIVGTAASIFFITLLAYPLSKRNLLGWKYFSFFFVFTMYFGGGLIPTYMIIKSLGLIDSFWVYIFPGLIGVFLMILVRTFMEQIPGEIEESSKIDGANDLQTFFRIIMPLCVPVLATIGLFLAIGHWNSWYDSYVYTYKPELKTLQAVLVKILNQFQTAGMMSDAQQLAQGSKRIPVSSESIRMAVTMVATLPIIMVYPFVQRYFVKGIMMGAIKS	PGPT0017255_1323	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04324	516			hypothetical protein	ATGAATGCAGGCTTTGTACTTCGTTTTAAAGCGTTTATGATCGATTATTTATTTATCTTAATATATTTAGTAGTTTTATTTCTATTTAATGCAGTCTTGTTCCCATCTTTGCAACAGTTTTTTACGGGCTCTCTTGTAGTCGCACAATTTAGAGGTTTTCTAATGGTGACATTACCAGTATCCCTTTATTTTATCCTTAGCGATTCGGTGATTGGCGGACAGTCATTTGGAAAAAGGAAGATGGGTATCCGAGTAGTGAATAGTAAACATGGGTCCGTTTCGGTTATAAAGATGGTTTATCGAACGGCATTAAAATTCCTGCCCTGGGAGTTGTCACACTTCCTTGTTTACCGTTTAGTTCATATAGGAGATGAAGCAGTGCCGCTTCATTATTACTTTATAGGCGGCCTAATTTATTTATTGATTTTGGTATATATTGCGACTACTATTTTGACAAAAGAGAAAAAATCCCTGTATGATATGATCTCAAGAACAAGGGTAATCAGGACAGGGTGA	MNAGFVLRFKAFMIDYLFILIYLVVLFLFNAVLFPSLQQFFTGSLVVAQFRGFLMVTLPVSLYFILSDSVIGGQSFGKRKMGIRVVNSKHGSVSVIKMVYRTALKFLPWELSHFLVYRLVHIGDEAVPLHYYFIGGLIYLLILVYIATTILTKEKKSLYDMISRTRVIRTG				NA	NA	NA	NA	NA
AK002_04325	2340			hypothetical protein	ATGTCAGATATGAAGCTTTGGTATACGAAACCGGCCCAGGGCTGGTCGCAAGGGCTGCCGATCGGCAATGGCCGAATGGGGAATGTGGTGGTATCCACCCCTGACAGAGAGATATGGAATATCACCGAAACCACCTATTGGTCCGGCCGGCCGGAGCCGGCTCAAGGGCAAAGCAACAGCAAAGCGGATTTGGAGCAGATGCGGCAGCATTTCTTCCAAGGCGATTATCGCGAAGGCGATCGACTGGCTAAGAAGCACCTGGAGCCGGAAAAATTGAATTTTGGCACCAATCTGGGACTATGCCAAGTCGTTCTGGAGTTTGATCATAACGTGAAGCCATCCGAAGGCGGGAGACAAGATGCAGCAGCTGAGCCGCTGTTCCATCGGGAACTGGATCTGCAGGAGGCGGTGGCGCGTTCTTTCTACGAGATCGATGGAGTGGAGATGACGCGAGAGGTCTTTGCTTCCCATGCCGATCAGGTCATCGTTTCGCGGATCCGCAGCAGCTTTGGCTCGTCAGGCGTGTGGTTGCGCATTTCGATTCGAGGGGAGAATGGTCCTTTTCATGCTGTCGTTACTGGGAAGGACACAATCGAATTCCAGGGACAGGCGCTGGAAAGCGTACATAGCAATGGGGAGTGCGGGGTGTCCTGCCAAGGACAGCTGCGCGTCGTAACGGAAGGCGGGCAGGTGAGCTGCACGGATGACACCATAAACGTCTCCGGAGCGGATGAGGCGGCGATTTATTTTGTGGTGAATACGGATTACCGTCAAGAAGGCGAGAGCTGGCGGGAGAAAAGCGTGTTGCAGCTAGAACAGGCTGTGCTGCTGGGATATGACGCGCTGAGAGCCAAGCATCTGGCGGATTATCAGCCGCTGTATGCCCGCGTACGATTGGATTTGGGAAGTAGCCAGCATGCCAGTCTGCCAACGGACGAGCGGATCGGCAGGTTTAAGCAGGGCAAGCGGGACGATCCAGCGTTGTTTGCGTTGTTTTATCAATATGGCCGGTACTTGACGATTAGCGGGTCACGACAAGGCTCCATCCTGCCCATGCATTTGCAAGGCATATGGAATGACGGCGAAGCCAACAAGATGGCCTGGAGCTGCGACTATCACCTGGATGTGAACACCCAGATGAACTATTTTCCGACGGAGGCGGCGAACCTGAGCGAGAGCCATGAGCCGCTCATGCGGTATATTCAGCAGCTATCGGTCGCCGGTCGCTCGGCGGCGCGCCATTATTACGATGCCGAAGGCTGGGTGGCCCATGTATTCTCCAATGCCTGGGGATTTGCGTCACCGGGGTGGGGAACCTCCTGGGGGCTTAACGTGACGGGCGGGCTATGGATCGCCACGCATATGATGGAGCACTATGCGTACAACCGCGATCAGACTTTTTTGGAGGAGCTGGCTTATCCTGTCTTGAAGGAGGCCGCAGCCTTTTTCATGGATTACATGACCGTGCATCCGCAGTATGGCTGGCTGGTGACAGGTCCGTCGAATTCGCCGGAAAACAGCTTTTATACAAGCAAACCGGAGGATGGGCATCAGCAGCTGTCCATGGGCCCGACCATGGATCAGGTCCTGGTCCGGGATCTGCTGGCGTTCTGCGTGAAGGCTGCACAGACGCTGGGCGTGGATGAGGAGCTTCAGCAGAAGTGGCAGACGGCGCTGAATCAACTGCCTCCGCTGATGATCGGCAAGAAGGGGCAGCTGCAGGAATGGCTGGAGGACTATGAGGAGGCGCAGCCGGAGCATCGCCATCTGTCGCATCTATATGCCCTGTATCCCGGCAGCCAAATCACGCCGCATCGTATACCGGAACTCGCTGCGGCAGCCCGAGTGACATTGGAGAACCGGAACAGCCGGGCCGACCTGGAGGATATCGAATTTACTGCGGCCCTGTTCGGACTCTTCTACGCCCGATTGCATGACGGGGACCAAGCCGTGCAGCATATTGCCCACCTGATCGGGGAGCTGTGCTTCGACAACATGCTCACCTACTCGAAACCCGGCGTAGCCGGAGCCGAGTCCAACATCTTTGTCATCGACGGCAACTTCGGCGGCACCGCCGCCATTGCGGAAATGCTGCTGCAGAGCCACGAAGGCGAAATTCATCTTCTGCCCGCACTGCCGGCAATATGGCCGACAGGCAGTGTGAAAGGGCTGAAGGCGAAAGGGAATATAGAGGTGGATATGAGCTGGGAGAACGGGAAGCTGGTTGAGGCGAGGGTGAAGGGGAATGAGAGTGGGAGTGTGCGGGTGTTTTATGGGGGGAGGGAGATGGAGGTGGGGTTTGAGAAGGGGAAGGTGCAGGAATTGAAGGTGGAGTTGTAA	MSDMKLWYTKPAQGWSQGLPIGNGRMGNVVVSTPDREIWNITETTYWSGRPEPAQGQSNSKADLEQMRQHFFQGDYREGDRLAKKHLEPEKLNFGTNLGLCQVVLEFDHNVKPSEGGRQDAAAEPLFHRELDLQEAVARSFYEIDGVEMTREVFASHADQVIVSRIRSSFGSSGVWLRISIRGENGPFHAVVTGKDTIEFQGQALESVHSNGECGVSCQGQLRVVTEGGQVSCTDDTINVSGADEAAIYFVVNTDYRQEGESWREKSVLQLEQAVLLGYDALRAKHLADYQPLYARVRLDLGSSQHASLPTDERIGRFKQGKRDDPALFALFYQYGRYLTISGSRQGSILPMHLQGIWNDGEANKMAWSCDYHLDVNTQMNYFPTEAANLSESHEPLMRYIQQLSVAGRSAARHYYDAEGWVAHVFSNAWGFASPGWGTSWGLNVTGGLWIATHMMEHYAYNRDQTFLEELAYPVLKEAAAFFMDYMTVHPQYGWLVTGPSNSPENSFYTSKPEDGHQQLSMGPTMDQVLVRDLLAFCVKAAQTLGVDEELQQKWQTALNQLPPLMIGKKGQLQEWLEDYEEAQPEHRHLSHLYALYPGSQITPHRIPELAAAARVTLENRNSRADLEDIEFTAALFGLFYARLHDGDQAVQHIAHLIGELCFDNMLTYSKPGVAGAESNIFVIDGNFGGTAAIAEMLLQSHEGEIHLLPALPAIWPTGSVKGLKAKGNIEVDMSWENGKLVEARVKGNESGSVRVFYGGREMEVGFEKGKVQELKVEL	PGPT0018650_1042	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_04326	2613			hypothetical protein	GTGAGTATTCATCCGTTCAAATTCTTCCAAAAGCCATTCATGCTATTCTTATCGATGCTGTTAGTGGGGTCTGTGCTAGGCAGCTCCTTTGCTTCGGCAGAACCGCAGCTTTCGGGTACGGCGACGGCGGGAAGCGACCTTACCTACGAGGCCGAGGCTTCTCAGAACTCGTTTACCGGCAATGCAGGTGCAGTCGATTGCGGCTTCTGTTCAGGCGGGCAAAAAGCTGGCAATCTGTACGGCGGCTCCACCCTGACGTTCAACGGGATTCAGGCCGATAAGGCCGGTATCTACAATATGAACATGTTCTACATCTCCGGGGATTCCCGCGCGGCTTCGATCTCCGTAAACGGAGCGGAGAAGGAGAACTTCAGTTTTCCGAAAACAGCAGATTGGAACACGATCGGCACCTATCAGATTCAAATTTACTTGAATCAGGGCAGCAACACGATTCTGTTCGATGATGCAGGCGGATACTCGCCCGATTTTGACAAGATTGAGCTGACCTTTGATTCAGCCGGCGATGACGGATCAGGCCCAGATGGCAGCATTGGCGATTTGGGCAAGCAAAAGAAAGCCACGAGTTATGGCTCCATCACCTTAACCGAATATGCCAACGGCTTCAAGGTATCCAATCCGACGTATGAGCTGCTGTACAACACCTCGACCGGGTTGTCCCAATACAATTGGAACGGCAAACCGGTCGCCAAGGGGTTATACAGCGAGATCCAGCTCGACCGGATGGTTGCAAGCAAGGATTATAAACATCATAAATTCTATAAAAATCAAGTGGTCCCATTCCAGGATGCCACCGGCAAGGGCATCAAGGTGACGGTCGTGAATGAGGATGGGGGAAAACCATCGCTCAGCCAAATCTATTACGTCTATGAAGACGGACCGTATCTGCTTACGGAAACAGTCGCTTCCCATCATTCCGCAATTTCTACGGGGAACATCGCACCTATCGCGATGGAAGCGAGAGGCGGCATCGACATCGGCAGCTATGACGATAACCGGGTCCTCGTCGTTCCGTTCGACAATGATGCTTGGTCCAGATACCAAGCGAAGTCGATGAATACCGGCCTCAACAACGGCCTGTATGTCAGCTCGGAGCTGACGGCCATCTATGACAATACGAGCCGGAACGGCCTCGTCATCGGATCGGTGACGCATGACACGTGGAAGACGGGCATCTATTGGAGCGGCTCGAATGATAAATTGAACAAACTGCGCGTATATGGCGGATTTACGTCATCCACCTCCACGTGGGATACGATTCCGCATGGAAAGGTAACGGGCAAGCAGGTTGCTTCGCCGAAAATCATGGTCGGCTATTTCGAGGATTACCGGACCGGGCTGGAGGAATTTGGCCGGGTGAATGCAGCGATCCAGCCTCCATTAGCCTTTGGCGAGGACATTCCTGAAGGCGTTCCGGTCGGCTGGAACAGTTGGGGAGCTTATGCCAGCGATTTGAGCTTTGACAAGGCGGTTTCCGTCTCGAATTATTTTAAAGACCATATTCAGAACCATTCCTTCAACAATGAAGGCAATATCTATATCAATCTTGATTCCTATTGGGATAACATGACGGATCAGCAGCTGACGGATCTGGTTCAGCTCATTCATAGCAATGGACAGAAGGCCGGCATCTATTATTCGCCGTTCGTGTACTGGGGCAACAATATGGAGCAGGAAGTCGAAGGGACGAACGGCAAATACAAATACGGCGATATCGTGCTGCGCGATATGGACGGCAACGTGTTGCCGACGCTGGACGGCGCTTATGCCGTGGATCCGACGCATCCGGGCGTGAAGCAGCGGATCGATTATTACATGAATAAGTTCAAGAGCAAGGGCTTTGAATATATCAAAATCGATTTTCTGAGCCATGGGGCAATGGAAGGCAAGCACTATGATGCCAACGTTCAAACCGGCATCCAGGCTTATAACCAAGGAATGGCTTACGTGAATGAAGTGCTGGACGGCTCCATGTTCATCAGCGCTTCCATCGCGCCGCTGTTCCCTAGCCAATATGCGCACAGCCGCCGCATCTCCTGCGATATCGACGGCAGCATCGGCAGCACGGAATATCAGCTGAACAATCTCACGTACGGCTGGTGGCAGAACGGAACGATCTACCATTATACCGATCCGGACTATATGCACTTGACCAAAGGCGGATCGATCGAAGGCGCGCAGTCTCGCGTCAATGCGGCCGCGATCTCCGGCACGGTCTTCCTGAATTCGGATGACGTAACGGATGCGACGGCACGGCAGTACATGGAAACGCTGTTGACCAACCCGGAAGTGAACGGGCTAGCGATGAAGGGTAAGGCGTTCCGGCCGGTAGAAGGCAACACGGGCACGCAGGCAGCGAATGTATTTGTGCTGGACGATCAGGGAACCCACTACGTAGCTGTGTTTAACTATACGCAAAATGCGGCACAGCACACCGTGGATCTCGTTCGTGCCGGTATCGCTTCGGAAGGGGCGGCGTCCTATACGGTGACGGATGTTTGGAGCGGCCAATCTCAGACGGCGTCTGGCTCTTCGCTGGATGTGACGCTAAAAGCGGCCGAATCCAAGCTTTATAAAATCGTCCCTAATCCATAA	MSIHPFKFFQKPFMLFLSMLLVGSVLGSSFASAEPQLSGTATAGSDLTYEAEASQNSFTGNAGAVDCGFCSGGQKAGNLYGGSTLTFNGIQADKAGIYNMNMFYISGDSRAASISVNGAEKENFSFPKTADWNTIGTYQIQIYLNQGSNTILFDDAGGYSPDFDKIELTFDSAGDDGSGPDGSIGDLGKQKKATSYGSITLTEYANGFKVSNPTYELLYNTSTGLSQYNWNGKPVAKGLYSEIQLDRMVASKDYKHHKFYKNQVVPFQDATGKGIKVTVVNEDGGKPSLSQIYYVYEDGPYLLTETVASHHSAISTGNIAPIAMEARGGIDIGSYDDNRVLVVPFDNDAWSRYQAKSMNTGLNNGLYVSSELTAIYDNTSRNGLVIGSVTHDTWKTGIYWSGSNDKLNKLRVYGGFTSSTSTWDTIPHGKVTGKQVASPKIMVGYFEDYRTGLEEFGRVNAAIQPPLAFGEDIPEGVPVGWNSWGAYASDLSFDKAVSVSNYFKDHIQNHSFNNEGNIYINLDSYWDNMTDQQLTDLVQLIHSNGQKAGIYYSPFVYWGNNMEQEVEGTNGKYKYGDIVLRDMDGNVLPTLDGAYAVDPTHPGVKQRIDYYMNKFKSKGFEYIKIDFLSHGAMEGKHYDANVQTGIQAYNQGMAYVNEVLDGSMFISASIAPLFPSQYAHSRRISCDIDGSIGSTEYQLNNLTYGWWQNGTIYHYTDPDYMHLTKGGSIEGAQSRVNAAAISGTVFLNSDDVTDATARQYMETLLTNPEVNGLAMKGKAFRPVEGNTGTQAANVFVLDDQGTHYVAVFNYTQNAAQHTVDLVRAGIASEGAASYTVTDVWSGQSQTASGSSLDVTLKAAESKLYKIVPNP	PGPT0018835_35	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
AK002_04327	2061			hypothetical protein	ATGTTAGGAAGCAGCGATACGGCGGTGAACGTGGGGGTGAATGCCGAAACTCACATTCGCTTGGCGAATGGTCTGGTGGCCATCGAGGTGGATTTGGAAAAAGGCGGTTACGCCTACGCAGGCAGCAGGGGATTCGCTCTGCAAGAAGTACGAAGCGGCTTTCGATGGCAGGGCCGGGAATACCATACGGGACATTACGACCGCCACTATATGATGGGGCAGCCGGAGAAGATCCAAGATCCGTTCGGTACCGGAATCCATGCCGTGATTAAGCATGAATCCGATCTGCTCCCAGGCCTGGAACAGCATTTTTATGTCTATGAGGGAGCTTCATCTTTCATCACACGGATCGTCATTGTCGGCCAAGAGGAAATGAAGGTAAACCGCATCGCGGTGGTGAAAACCGATAGCGTATCCAGCGGGAACGAGACGGTTCCAGCAGAAGCGCTGCATGTGCTGCGCGTGCCTTATGACAATGACAAATGGGTGCGCTATCTGACGGAGAAGGCCCCGCTGGAGACGGAAAGCTACGAAGTGACGGCCTTGTTCCAGCCGGATAGCCGCAATGGATTGATTATGGGATCGATCAGTCATGACGTGTGGAAGACCGGCATTCGCGTGAAAGGGGAAACCGCAGGCAAGCTGGATGAATTGGAACTGTACGCTGGCGCGGCCGACATCATGACCCGAGATTCCCAGCCGCATGGCTACGTAAGAGGAACGCGCGTCGAATCTCCGCTGGTTATGGTAGGGGATTACGGCGATTACCGGGCAGGACTCGAAGCGTATGGGGAAGCGAATGCGAAGATAGCGCCTGCTCTGAGCTGGGAAGGCGGCGTTCCGATCGGCTGGAACAGCTGGTCGGCTGCCATGAGCACGCTGGATTACGACCTGTATGTGGCGACGAGCGATTTTCTGAAGCGGGAGGTTCAGCCGCAGGGCTTTCATAACGAGAATACCCTGTACGTGAATTTCGATGCGTTCTGGGATCGCCTGACGCCTGCCGAGATGGAGGATGCCTTGAAAAGGGTCCGCGAGAACGGGCACAAACCCGGTACATACTGGACGCCGTTTGCTTTCTGGGGAAGTCCGGCTGGGTTCGGGAACCCCGTGGAGGGCACCGATGGGAAGTATACCTATGGCGATATCCTGCTTCGCGACCAGGATGGCGAGATTTTGCCGGATGTTGACGGCGGACTTGCGATTGATCCTACACATCCCGGAAACCTGGCGCGAATCGATTGGTTCACGGATAAATTCATCTCCGAGGGATTTGAGTATATCAAGCTGGACTTCATGGCGCACGGGGCTCTGGAGGGCAAGCATCATAACCCGGATATTACGACGGGGATCGCTGCATACAACTACGGCCTCTCGTATCTGACGGAAAAGCTCTCCCCGGAGCGAATCGGCAGACCGTTCTTCATCAACCTGTCGATTGCCCCGCTGTTCCCTTATTCCTATGCGCACAGCCGCAGAATTTCCTGCGATGTATTCGGAACGATTAAGGATACGGAATATTTGCTGAACTCGCTGACCCACGGGTGGTGGATGAACGATACGCTGTACCGCTTTAACGATCCGGACCATGCCGTGATCTATAAAAGCTACAATCAGGATTCGACGACCCGCCATGAAGGGCGAAGCCGTCTGACCGCGTCCGTGATCTCGGGAACGGTGCTGCTGCTGGGCGATGACTTCCGGCATGAGGAAGCGGCATGGCGCGCCAAGACCTGGTTGGGAAATGAGGCAATCACTGAGATTGCCCGATTGGGTAGAACCTTTGTGCCCGTAGAGGGGAATCTAGGGAAACAGTCTGCGGATACGTTTGTACTGACACATCCAAGCGAACCGGGAACAACGTATATTGCCGTATTTAACTTTGAGGGGGCCGAGTCCGTACAGAAGACGGTTTCCTTGGAGCGGTGCGGACTCGAGGCGCACGCTTCCTACACTGTCCTGGATGTGTGGGAAAGCACGACAGGTCAAGCGAACGGCACACTCATGGTCGAGCTGGCGCCAGCCGAATCGAAAATCCTGAAATTAAGTAGAAATCAATGA	MLGSSDTAVNVGVNAETHIRLANGLVAIEVDLEKGGYAYAGSRGFALQEVRSGFRWQGREYHTGHYDRHYMMGQPEKIQDPFGTGIHAVIKHESDLLPGLEQHFYVYEGASSFITRIVIVGQEEMKVNRIAVVKTDSVSSGNETVPAEALHVLRVPYDNDKWVRYLTEKAPLETESYEVTALFQPDSRNGLIMGSISHDVWKTGIRVKGETAGKLDELELYAGAADIMTRDSQPHGYVRGTRVESPLVMVGDYGDYRAGLEAYGEANAKIAPALSWEGGVPIGWNSWSAAMSTLDYDLYVATSDFLKREVQPQGFHNENTLYVNFDAFWDRLTPAEMEDALKRVRENGHKPGTYWTPFAFWGSPAGFGNPVEGTDGKYTYGDILLRDQDGEILPDVDGGLAIDPTHPGNLARIDWFTDKFISEGFEYIKLDFMAHGALEGKHHNPDITTGIAAYNYGLSYLTEKLSPERIGRPFFINLSIAPLFPYSYAHSRRISCDVFGTIKDTEYLLNSLTHGWWMNDTLYRFNDPDHAVIYKSYNQDSTTRHEGRSRLTASVISGTVLLLGDDFRHEEAAWRAKTWLGNEAITEIARLGRTFVPVEGNLGKQSADTFVLTHPSEPGTTYIAVFNFEGAESVQKTVSLERCGLEAHASYTVLDVWESTTGQANGTLMVELAPAESKILKLSRNQ	PGPT0018835_1762	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
AK002_04328	795	fabG_10		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAACAAAGACATGAAGGACCATGGAATGAGTTTGAAGGCAAAAGAGTGCTGGTTACTGGAGGAACCAGAGGAATGGGTCAGGCCATCGTAAAGCGGCTTTCAGACGGTGGGGCGGCTGTACTGACTACCGCCCGTTCCGAACCTAGCGTTCGGGTCGGCTCCGGCTTGTTCGTTCAAGCCGATATTGCGACGTCTACAGGCGTCGACAAGGTGGTTCAAGGTGTACAGGAGCACCTGCATGGAATTGACATCGTGGTGCACTGCGTAGGCGGTTCGACCACACCCCCTGGAGGGGCGCTTGCCTTAACCGACGAGGATTGGGTTCAAGCCTTGAATTGGAATCTTCTCGCAGCGGTTCGTTTGGACAGGAGGCTGCTGCCGTACATGGTAGAGCAGGGATCAGGTGCCATCATTCATATCACTTCGATACAGAGACGCCTGCCGCTCTATGAAACCACGCTGGCTTATGCCGCGGCGAAGGCTGCCCTTGCCAATTACAGCAAAGGGTTATCCAACGAGTTTTCCCCGCGGGGCATTCGAATTAACGCCGTATCGCCCGGTTTCATTCAGACGGAGGCTGCAGATGCCATGATCGACCGGATTGCGTCGGTATCAGGAAGCCGAGAAAGTGCGCTCCAGGAATTGATGGATTCGCTCGGTGGGATCCCTCTAGGACGTCCCGGGCTTCCGGAAGAGGTAGCCGAACTGGTGGCATTTCTTGTATCGGACAGGGCGTCATCCATAACGGGAAGCGAATATGTGATCGACGGCGGCACCATACCAACCGTCTAA	MKQRHEGPWNEFEGKRVLVTGGTRGMGQAIVKRLSDGGAAVLTTARSEPSVRVGSGLFVQADIATSTGVDKVVQGVQEHLHGIDIVVHCVGGSTTPPGGALALTDEDWVQALNWNLLAAVRLDRRLLPYMVEQGSGAIIHITSIQRRLPLYETTLAYAAAKAALANYSKGLSNEFSPRGIRINAVSPGFIQTEAADAMIDRIASVSGSRESALQELMDSLGGIPLGRPGLPEEVAELVAFLVSDRASSITGSEYVIDGGTIPTV				NA	NA	NA	NA	NA
AK002_04329	348			hypothetical protein	ATGATCGAGATAAGCGAGAAGCAGCTGCCGAGTGTAATTCGCACATTTATATCCGCAAGCAATGATCATGATACAAACCGGATGCTTTCATGCTTCGGCAAGGATGCTATAGTCGTCGATGACAGCAGGGAGTTCAGGGGCAAGGCAGCCATACAGAAATGGAGCGACGACGAATTCATCGGCGCACGGGTAAATGTCCGGGCGACAAACATTCATCATCGCCTAGACCAGTACATCGTTTCAACCGAAGTAAATGGTGATTATCCGGCAGGCCCTTACTATTTTGAATTTTGTTTCACGGTGCAAAGCGGTCAGATTTCAAAATTGCAGATATCTGAATCCAAGTAA	MIEISEKQLPSVIRTFISASNDHDTNRMLSCFGKDAIVVDDSREFRGKAAIQKWSDDEFIGARVNVRATNIHHRLDQYIVSTEVNGDYPAGPYYFEFCFTVQSGQISKLQISESK				NA	NA	NA	NA	NA
AK002_04330	888	gltC_4		HTH-type transcriptional regulator GltC	TTGGAGCTTACCCAGCTGGAGTATTTTTTGACGGTTTCCCGTCTTCAACATATGACGAAGGCATCGAAAGCGCTCAGCATCACGCAGCCAGCTTTAAGCCACGCCATCTCCAAGTTGGAGAGCGAGCTGGGCGTCCCGCTGTTTGAACGAAATGGCCGTAATGTGAAGCTTAACCGCTATGGCAGCATGTTTGCCAGATGGGTGGAGCAGGCACTTCAGGACATTCAGAACGGGATGCAGGAAATCGAAGAATCGTCCAATCCGGACACGGGGATCATTTCGGTTTCTTACCTGAATATTTTAGGGGTCGATCTCGTCCCTGCCCTTGTCAGGGCCTATCAGCTGGCTCATCCCAAGGTTCGTTTTGAATTGAATCAGGGAAACCTCGGCGATATTGACGAACATTTGGAAAAAGGGCATTCGGACCTCATGATTACATCGAGAGAATCCACCATGGATCATCATAACTGGCTGGTCATGAGAACCATGCCTTTATATATCGTGGTTTCAAGCCGCCACCGCTTGGCGAAACGTCCCTCCCTAAGTCTGATGGATCTGTCCGGAGAGCCGTTCGTCGGTCTGAAGCATAATTGCGGCCTTCGAGCCACGATTCAATCGCGATTTCAGCATACCGGCTTTATTTTGTCTTCGACGTACGATGCAGAAGATTTGGCCACCGTTGCGGGTTTTATTAAAGAGGGACTTGGCGTCTCCGTTCTGCCGAAAACGGCCGGCCTCATGCTGGAAGGTCTCTCGTGGATTCCCATTACCGATGAAGGCTGGTACTGGGAGATCGGCTTGAAGTGGAGGGAAGACCGCTACCTCTCGCCTGCGGCCAGACGATTCATTGAATATGTGGAGCATCATTATCAAGTCAGCGGGAAGTAA	MELTQLEYFLTVSRLQHMTKASKALSITQPALSHAISKLESELGVPLFERNGRNVKLNRYGSMFARWVEQALQDIQNGMQEIEESSNPDTGIISVSYLNILGVDLVPALVRAYQLAHPKVRFELNQGNLGDIDEHLEKGHSDLMITSRESTMDHHNWLVMRTMPLYIVVSSRHRLAKRPSLSLMDLSGEPFVGLKHNCGLRATIQSRFQHTGFILSSTYDAEDLATVAGFIKEGLGVSVLPKTAGLMLEGLSWIPITDEGWYWEIGLKWREDRYLSPAARRFIEYVEHHYQVSGK				NA	NA	NA	NA	NA
AK002_04331	267			hypothetical protein	GTGGAGCTTCTAGTTTATGTCGTGTTGTTCATCCTGAATATTCCGATCTATAAGTGGATCTTTAGACGGATATTCGATGACGTGGATGATCTGAAGCAGTCGGTGAAGTATTCGTTTACGCCGGATATTATCTCCTTGTTCCGCAGACGTTATTGGAAGGATCAGTTCGGGGAGCTGAAGCTGTCCGTTTTCTATTTTTGTTGTTTACTGATCTTCGTCATGGAGTGCGTGGTCGTGGCGAAGGTGTTTGGCGTGATCTTTCGATGA	MELLVYVVLFILNIPIYKWIFRRIFDDVDDLKQSVKYSFTPDIISLFRRRYWKDQFGELKLSVFYFCCLLIFVMECVVVAKVFGVIFR				NA	NA	NA	NA	NA
AK002_04332	687	COQ5_7		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	GTGTCTATTGATGAAATTTACGACAAGCAGGCTCAAGCCTATGAGGCCATGGTTAGCAGACAGCCTGATTTAACTGAACTTATCCATAGGGTCAAACCGTACGAAGGACTGGATGTCCTTGATTTGGGGGCAGGCTCAGGCCGATTATCCATGCTGCTTGCCGCCGATGCTAGATCATTGATCTGTACCGACATATCGCAACCCATGCTCGATATTTTGGACGATAAATGCTCTGAAGCTTTAGATTCTCACAATTGGACCACAATGGTTGCTGATCATCGCAATCTCCCGGTTGCTTCATCGAGTGTAGATCTGATTGTATCGGGCTGGAGCATTAGTTATCTGGCCGATTCCAGCCACGAGGAATGGCGTGAGAATCTTGAACTTGTGATGTCGGAGCTGCATCGAGTTTTGAGACCCGGAGGGACGATTTTGATACTGGAAACGATGGGAACCGGAACGGAGACCCCGAATCCTCCCGATTTCCTAACCGGTTATTACGCTCAATTGGAGCAGCAATACGGATTTAGCCATCAGTGGATTCGGACCGATTATGTTTTTGATACGGTAGAGGAGGCATTGCTACACACAGGCTTCTTTTTCGGTGAAGAGTTAACGGACAAGATCATAGCGAACCAATGGTCAACGGTGCCGGAGTGCGCTGGGGTCTGGTGGAAGCATGTTTAA	MSIDEIYDKQAQAYEAMVSRQPDLTELIHRVKPYEGLDVLDLGAGSGRLSMLLAADARSLICTDISQPMLDILDDKCSEALDSHNWTTMVADHRNLPVASSSVDLIVSGWSISYLADSSHEEWRENLELVMSELHRVLRPGGTILILETMGTGTETPNPPDFLTGYYAQLEQQYGFSHQWIRTDYVFDTVEEALLHTGFFFGEELTDKIIANQWSTVPECAGVWWKHV				NA	NA	NA	NA	NA
AK002_04333	516			hypothetical protein	ATGAAAATGAGACGTTTTGCCGCTTTAATCATCATTGCACTTGCCGTGCTAGGCGTGGTTCTATTCGGCAATATGATGACGCCTCGGCCCGGCAGCAGCTCCGGAAACGGCAATCCTGCCATCCTGCTGCTCATCCCTTTAGGCATTCTTTTTCTTATGTTGGTCTATCAATGGATTCGTATTTTTAAAGACCTGAAGATGCCTTTCAGCTGGTTAAGCCTTGTGATCTTAGCTCTGGCTGGCTATATCCTAGCGGGTTATGCATATCAGCTTCATCGACTCGAAATCTATAGAGAAATCCTAGCGGAGGCTTTTCAATTGAGGTGGGGCCAAGCGGACTGGGATCACATCGAATCGATAACGTCCGGCGGACTCCTTTCGATACATATGAACAATCAATTTTTCAATTGGAACACGTATTTCATGATGATTGCCTTCTCGCTGCTGCTGTGCTTCATGTACAAACTGATACAGCACATCATGAACAGAAGACAAGGACCATCCGCGGAGAATTAA	MKMRRFAALIIIALAVLGVVLFGNMMTPRPGSSSGNGNPAILLLIPLGILFLMLVYQWIRIFKDLKMPFSWLSLVILALAGYILAGYAYQLHRLEIYREILAEAFQLRWGQADWDHIESITSGGLLSIHMNNQFFNWNTYFMMIAFSLLLCFMYKLIQHIMNRRQGPSAEN				NA	NA	NA	NA	NA
AK002_04334	882	ybfK_2	COG0596	Carboxylesterase YbfK	TTGAAGCGATTCAAAAGCAATCATGGACAAAAGCTCGTCTATGCATCCTACGACCGCCTGCTGTCAGCGTGGACGGTACCGTATGAGCAGCATAATATTTCTACTTCCTACGGTATGACTCACGTTATAACAGTAGGTTCTTCGGATCTTCCTCCGCTGCTACTACTGCATGGAACGGGCGATAACATCGCCATGATGTGGATATATAACGTGGAGGAGCTATCCCGTAACTTTCATATCATCGCGGTGGATAATATCGGAGGGTCCGGGAAGAGCGAGCCGAACGACAAGTATGCACGCGAATTCAATCAGGCAACATGGTTGGACGAGGTCCTTGAGGCAATGAATGTGGACGCTGTCTATATCGCGGGCGTATCCTACGGAGCTTATCTGGCCTACCATTACGCCATCGTCAGACCGGATCGGGTGAGCAAGATCGTATGTTTGGCCGGGAGCATTGCCGGAAGCCAGTTTGAAGTGATGAGCAAAATGATGCGGGCTTTTCTGCCGGAAGCCTTATTCCCTTCGGAACGGAATGTGCGTTCATTGCTTCGTAAGCTGTGCGGTACCCATGCAGATGCATTTGAGAACAACCCAGAGCTTATGCAGCACTGGTTCTACTTGCTGAAGTACTTCAACAATCGCTCCATGATGAAGCATGCGATTACGATCCATTCGCCTGCCGACATTCAGGCTATTCGCAGCAAGTCCTTGTTCGTCATTGGCGAGCGGGATTTGCTTAGTCATTATCCGCAGGCGGTTGCCAGATTGGAGACGAACGGGATGCGCTACCGCATCGTTAACGGGGCGGGTCACGCCATTAACCATGAGATGCCGGAGCTCGTTCATGAAGAGATTATAGGCTTTTGCAAGGAAGCTTGA	MKRFKSNHGQKLVYASYDRLLSAWTVPYEQHNISTSYGMTHVITVGSSDLPPLLLLHGTGDNIAMMWIYNVEELSRNFHIIAVDNIGGSGKSEPNDKYAREFNQATWLDEVLEAMNVDAVYIAGVSYGAYLAYHYAIVRPDRVSKIVCLAGSIAGSQFEVMSKMMRAFLPEALFPSERNVRSLLRKLCGTHADAFENNPELMQHWFYLLKYFNNRSMMKHAITIHSPADIQAIRSKSLFVIGERDLLSHYPQAVARLETNGMRYRIVNGAGHAINHEMPELVHEEIIGFCKEA				NA	NA	NA	NA	NA
AK002_04335	699	yjjG	COG1011	Pyrimidine 5'-nucleotidase YjjG	ATGACATTAAAAGCGATCATCTTCGATCTGGATGAGACATTAACGGACAGAAGGGCAGCGATTAACACGTTCATCAAGCGATTGATTGCCAGGTACTTTCCCAGTTCCGATGAAGCTGCTCAAATGATGATAGCCAAGCGATTCAAGGAAGCGGATCATCATGGCTATCGGGATAAGCGCGAAGTATATGAGATGCTGGTCGAGCAGCTTCCGTGGGTGAATCCCCCGAAGGCGGATGAATACTTGTCATTTTTCAGAGGGGAAATCGCCAGTTGTATCCAGCCGATGGATCAGCTGGTTTCCGTCCTGCGCGAGTTGAAGACTTGGGGACTTAAGCTTGGCATCATCACCAATGGAACCGTTCAAGTCCAAGAGGGCAAGATCCATCAGCTGGGGATTCGCGAATACTTCGATTCTATCGTGATCTCCGAAGAGGCTGGCGTCAAAAAGCCGGATCCGGCAATCTTTACGAGAGCTTTGAACCAACTTCACGTAATGCCATCAGAGACATGGTACGTCGGAGACCATCCGCATAACGATATAATCGGGGCCGCTCAATGCGGTATCAAAGCCATCTGGTATACAAGAGACGGGAGATGGGACGACTCTTTGGACGTGAAGCCATACAGGACCATACATAAGCTGGAACAATTGATCCCTATATATGCCGAACACCATGAAGGCAAGTGCATAAGATAA	MTLKAIIFDLDETLTDRRAAINTFIKRLIARYFPSSDEAAQMMIAKRFKEADHHGYRDKREVYEMLVEQLPWVNPPKADEYLSFFRGEIASCIQPMDQLVSVLRELKTWGLKLGIITNGTVQVQEGKIHQLGIREYFDSIVISEEAGVKKPDPAIFTRALNQLHVMPSETWYVGDHPHNDIIGAAQCGIKAIWYTRDGRWDDSLDVKPYRTIHKLEQLIPIYAEHHEGKCIR	PGPT0013410_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013410-yjjG-K08723	NA	NA
AK002_04336	468	rppH_3		RNA pyrophosphohydrolase	ATGGGAATGTCGGATTACTATAAAGATTTGAGAGAGAAGATCGGAGATCAGCTGATATTCATGCCGTCCGTTGCAGGCATTATCCGAAATGATCAGGATGATATTTTGTTCGGAAGGAAGCATCACGAAGAATTATGGGGCCTTGTAGCCGGTGCCATCGAGCTGGGTGAGTCGCCGGCGGAGGCGATGATTCGCGAGGCGAAGGAAGAGACGGGGCTTGATATCAAGCCTGAACGAATCATTGGGGTGTATGGCGGAAAAGAACGCCGATATACATACAGCAATGGGCACCAAGTGGAGTACCTCACCATTGTATTCGAGTGCAGCGTTGTGAGCGGTGAGCTGGACCGGGAGAATGACGAGTTTGCGGAGCTGGCGTTTTATCCGGAGGATCAGCGGCCGCCGACGGCTTTGAAATATCCGGAGCCTATTTTCATCAAGGGAAATGGAGAGCGAGCTCATTTTTAA	MGMSDYYKDLREKIGDQLIFMPSVAGIIRNDQDDILFGRKHHEELWGLVAGAIELGESPAEAMIREAKEETGLDIKPERIIGVYGGKERRYTYSNGHQVEYLTIVFECSVVSGELDRENDEFAELAFYPEDQRPPTALKYPEPIFIKGNGERAHF				NA	NA	NA	NA	NA
AK002_04337	627	yfiT_3		Putative metal-dependent hydrolase YfiT	ATGATATTTCTTGTGCTGCAGCGAAACAAAAGATCATTTGTTCCATATATGAAGGGTACGATGATGTTTGGAGGAGGTAAGGAAGTGGTGGTCAGCATCCGTTATCCCCTGGGCTCCTTTGAGCCATTGGTGGAGCCAACTTTGGAGGACAGACAGAAGTTTATGCAGCAGATTCCTTCAATCGTACCGACGCTTCGGCAAATCATCATGAAGTGTCCGCTTTCCCAGCTGCACATGCCATACCGTGAAGGTGGCTGGAGCATTCAGCAAATCGTGCACCACCTCGCCGATAACGACATGAACGCTTACTTGCGATTTAAACGGGCATTGACCGAGGATGAGCCGCTGGCTAGCTCGTACCGGGAGGATTTATGGGCTGAGCTGAGTGATTACACGGAGGTACCCGTTGAGAACTCGCTTTCGCTTCTGGAAACACTTCATTTTCGTTTTCTTATCCTGCTTAAGGATCTACATCCCGAGGATTTCAAAAGAACCATGAGAACCCAAGTGCTCGGCAGCATTACCCTGGACATCGCCTTGCAGCGATTCGTATGGCACAACCAGCATCATATCGCACAGATTAGATCCATAGCGAACCGCGAAGCTGTGAAGTTACATAAGGAGTGA	MIFLVLQRNKRSFVPYMKGTMMFGGGKEVVVSIRYPLGSFEPLVEPTLEDRQKFMQQIPSIVPTLRQIIMKCPLSQLHMPYREGGWSIQQIVHHLADNDMNAYLRFKRALTEDEPLASSYREDLWAELSDYTEVPVENSLSLLETLHFRFLILLKDLHPEDFKRTMRTQVLGSITLDIALQRFVWHNQHHIAQIRSIANREAVKLHKE				NA	NA	NA	NA	NA
AK002_04338	423			hypothetical protein	ATGATCCAACCTAAAAAAATCGCTTTTGGCGGATTCGTTGTCATCGGTATGTTCATATTACTGTACCTGATGACAGAAACTCATAATGAAATTCAAAGGGCATATACAGATTTATCTCCCCAGCAATTCTCGTTATTAAAGATGAGTTTATACGGATTCCTGTTCGGAGTTTTAATAGAGTGGAGAGCACTGGGTAGTTTAATTAAGGGGCAAGTTCGATTAAGGTGGCTGTTATTGCCCGCTGCTATACTTACAGTTATCATCTTTATTCCTAGTGTTTATTGGATCGAGTGGTTTGGACTTGGAAGGCTGTTCGTTATTGAGGTGTTTGGGAAACCGGAAATACACATGCTGCTTTCCGTGCTGTCAGGTATATTGTTTATAAGGTCTATCTGTGACTACAATCCTAGATCCAACCCATAG	MIQPKKIAFGGFVVIGMFILLYLMTETHNEIQRAYTDLSPQQFSLLKMSLYGFLFGVLIEWRALGSLIKGQVRLRWLLLPAAILTVIIFIPSVYWIEWFGLGRLFVIEVFGKPEIHMLLSVLSGILFIRSICDYNPRSNP				NA	NA	NA	NA	NA
AK002_04339	450			hypothetical protein	ATGACGGAAAACGGGATCGTGCTTGTGGTCAGCGTTACCCTCGTACAAGGGGATCAAGTGCTCATCATTCAAGAAAATAAACCTTCGGTTCGGGATACGTGGAACTTCCCGGGAGGGCGCATCGAGCCTGGAGAAACGATGTTTGAGGCGGCTATTAGAGAAGTGAAGGAAGAAACAGGTTATGAAGTCCAATTGACGGGCACTACAGGGGTTTATCAGTTTATCAGCAGTTTGAATCACCATGTCGTCATGTTTCATTTTACCGGAATCGTGACGGGGGGCTCGCTTCAATTGAATGCCGACGAGATAAAGGATTGCCGCTGGGTCACGCTGCCTGATATCTTCGCGGATGACAGCATGATATTCCGGGATGCCGAAGTCATGAGGCGGATTGTGGAGAGCCTCGAAAAAGGCGTACAGCACCCGCTTGCGTTGTTTCATCCGTCTTAA	MTENGIVLVVSVTLVQGDQVLIIQENKPSVRDTWNFPGGRIEPGETMFEAAIREVKEETGYEVQLTGTTGVYQFISSLNHHVVMFHFTGIVTGGSLQLNADEIKDCRWVTLPDIFADDSMIFRDAEVMRRIVESLEKGVQHPLALFHPS				NA	NA	NA	NA	NA
AK002_04340	1092			hypothetical protein	ATGTCCGGGTATGTAAATGTTGATGTTCCGATCGAACTGCTGTTCACGGATCTGGTTACGGAGGAAAGAAAAAAGGATATTCCCAACTACACCGATAGCTGGTACGAACATCACAAGCTTTCCGCTGATATGCCGATCATGCGTTTTGATTCGCACAAGAGCCTGTACCGATATTTCATGAACGAACAAGCCAGCCCGTCCGCGTACCTGGATTGGTATAAGAAGATCTTTCTCACCAGGGGGATCGACCCGCCTTTACAGGATGAAGAGGTCCTCGCCTTTAGGAAAAATCAGTATCACATGATGAAGGTGGATCTGTCGTCCAACAGCGCTTTTTTTCACCAAGACCCGCCTCTGGTGAAATTTAATCGCGCAGGAGGTTATTTTAACCTGAAGGATGGACATCACAGGTCGACTTTTTTGTATTGCCAAGGTAAAAGGAGCATGAAAGTCAAAATGTCCAGCGAAGATTATATGGACTGGATGAATATCGAAGGGCTGTCAGAGGTTGCCGATTCTTTTCAGAGATATCAACGGAGCCTTATTTATACCCCCATACTGCACCCTTCCTATCTTCATTTGAAGAGCGAGCGCGATCAAACCTATCCGACAAGACTTGATGTCATTATGGATTTCTTGGGTACACGTTCTCTTCTCGGTACGAAAGTGATCGATATCGGCTGCAATATTGGATATTACGCGCGGCATTTCGCCCGCGAAGGTGCGCACGTAACCGGATTGGAGCCGCTGGCTGAGCATTATGATCTGGCTTTGCGGCTGAATCGGCTGGAAAGGGTGAACTTTGACCTGCTTCCGGACCGCTTCGAATCTTCATCAAGACTTCAGCAGTATGAGATCGGCCTCCTGTTAACCGTTTTTTATCATCATATGGGAGACTCGGATATCCGTAACGCTTTCTTGCGGAAAATCAATCAATGCATAACCGATATGCTCTTCTGGGAATCCGGTGGCGAACCGGAAACGGAAAAATCGCTGCTGCTGCAAAATACGCATTTCACCCGGTTTGTAAAGCTGGCGGCCACATCGGGCACTGGGAAAGTAAGGGAGCTCGGCGTATTCTTAAAAACCTGA	MSGYVNVDVPIELLFTDLVTEERKKDIPNYTDSWYEHHKLSADMPIMRFDSHKSLYRYFMNEQASPSAYLDWYKKIFLTRGIDPPLQDEEVLAFRKNQYHMMKVDLSSNSAFFHQDPPLVKFNRAGGYFNLKDGHHRSTFLYCQGKRSMKVKMSSEDYMDWMNIEGLSEVADSFQRYQRSLIYTPILHPSYLHLKSERDQTYPTRLDVIMDFLGTRSLLGTKVIDIGCNIGYYARHFAREGAHVTGLEPLAEHYDLALRLNRLERVNFDLLPDRFESSSRLQQYEIGLLLTVFYHHMGDSDIRNAFLRKINQCITDMLFWESGGEPETEKSLLLQNTHFTRFVKLAATSGTGKVRELGVFLKT				NA	NA	NA	NA	NA
AK002_04341	285			hypothetical protein	ATGAGGACGGAGGGATCAAAAGCGATTTCGGCTAGTACGGAAGAAGCCAATATGGTGCAATCGGAACGTCCGTTAATGACGCTTGAAGAAACGGCCGAGTTCTTGAACCTTACCGAGTATCAGGTGAAGAATATAATCTCATCCGAAAATGCCTTAAGAGAGCAATATGGATCCGAGGTTGGTACATTGTTTCCTTATATCGTGGTGCAGCATGAGATCTACGTTAGCAAAATGGGGCTTATCTCATGGCTGGAGGATGCTACTCGGGATAGAAGAGAATATTGA	MRTEGSKAISASTEEANMVQSERPLMTLEETAEFLNLTEYQVKNIISSENALREQYGSEVGTLFPYIVVQHEIYVSKMGLISWLEDATRDRREY				NA	NA	NA	NA	NA
AK002_04342	1485			hypothetical protein	ATGAGAATCCCCAAAATCACCAGCCTATTCATGATGCTTACATTTCTGACGACGGCATCGCTATCCGCTTCCGGCGAAATGGGAAGCACCGCGGAAGCCTCGTCGGGTCCTTTAAAGGTTATGAGCTTCAACCTGCGGTATGCCGCCAATGACGGTCAGCCCTGGGAGAACCGCCGCCCAGTCACCAGGAACCTCATCCTGGAGCATCAGCCGGACGTCATTGGAACTCAGGAAGGACTTCACCGGCAAATCGTGGATCTGGAGAATGATCTGCCGGGATATGATCGAATCGGAGTCGGACGCGAAGGCGGGAGCTTAGGGGAATATATGGCGATTTTTTATAATACGGAACGGCTGAAGCCACTGGAGCAGTCTCACTTTTGGCTGTCCGATACGCCCCAGACGATCAGCTCGGCCAGCTGGGGCAACCAAATTCCGCGGATGGCAACCTGGGTTCGCTTTCAGGATCTTCGAAACGGCAAAACCTTTTATATGGTCAACACGCATCTGGATCATCAATCCGAGGTTTCCCGGCAGAAGAGCGCCGCACTTATCGTTGATAAGATGAAGGCATTTGACCCGGAAATCCCCGTTGTAATCACCGGCGATTTCAACACGCTTCCTGGGAGCGATACGTACTCGATTTTTACAAGCAACGGGTTGTCGGATGCCCATGTCACGGCCAAAAAGCGAACCAACGATGATCTGGGAACCTTCCATAACTACAAGGACCCTACGGGCGGCGGCAGCGGAAACCGGATCGACTGGATTCTGCACGGCCAAGGGTGGAATGTCCTGCACAGCGAGATTATCAACTACAAGGAAGACGGCCAATACCCTAGCGATCATTATCCCGTCATGATGGAGGCCACCTCGCAACAATCCAACAAAACCACCGGAGAAACGGTGCCCAAGCAGCCCTTGACCACGGCTCTTCATATCACCGAAGTGGTCGCCAACTCGAACGAGCAAGGGAATTACAATTATGTGGAGATTTATAACCCCACGAACCGGGAAATCGACCTGGAAGGGTATCAAATCTACTACTATTACGACCCTGCCCTTCCGTTCGACAAATCCAAGTCCAACCGCTGGACCATTACGAAGGATCGCTACAGCACCAATACCCTTATCGGTCCGAATGAAACCAAGGTGATCTGGATCAAGAAGCAGCCTTGCTGTTTTGACCTGGGCTTTGAGCAGTTCCTTGCCAACTATCAAGTCAACGGAGATGAGCTCTCACCTTCTCAACTGCTCGCCGTCTTTACGCCGGGCAACAATCAGGGGCTGAACGGAACCTCCACCAGCGGACGTTCCTTAGGCATTGCATCGCCATCCGGCACCCATCTCGTGGGCGTCCAGTTTAATAACGGGCAGCTGGATGCCGGGGTTAACGAGTCGATCACCTATCAGGAGCCTGCGCCGCTGATGAGCATTATGCAGAAAAAAGACACGTTTCAGCTCCCTTCTCCTGGTCACCCGTAA	MRIPKITSLFMMLTFLTTASLSASGEMGSTAEASSGPLKVMSFNLRYAANDGQPWENRRPVTRNLILEHQPDVIGTQEGLHRQIVDLENDLPGYDRIGVGREGGSLGEYMAIFYNTERLKPLEQSHFWLSDTPQTISSASWGNQIPRMATWVRFQDLRNGKTFYMVNTHLDHQSEVSRQKSAALIVDKMKAFDPEIPVVITGDFNTLPGSDTYSIFTSNGLSDAHVTAKKRTNDDLGTFHNYKDPTGGGSGNRIDWILHGQGWNVLHSEIINYKEDGQYPSDHYPVMMEATSQQSNKTTGETVPKQPLTTALHITEVVANSNEQGNYNYVEIYNPTNREIDLEGYQIYYYYDPALPFDKSKSNRWTITKDRYSTNTLIGPNETKVIWIKKQPCCFDLGFEQFLANYQVNGDELSPSQLLAVFTPGNNQGLNGTSTSGRSLGIASPSGTHLVGVQFNNGQLDAGVNESITYQEPAPLMSIMQKKDTFQLPSPGHP				NA	NA	NA	NA	NA
AK002_04343	1572			hypothetical protein	ATGCCATCAATGAGAAAGAGACTTCGCTTTCATTCAATCACAGCAGCTTTATGTACGATTTCGTTGTTAACCGCTGTACCCGCGCAAGCCGCTGCCTTCGATTCGTTTCCCATCCTGCAATCCACCAGCAAAGACCATGTCAAAGCCGATTATTATGTCCCCAGCACGGTAGAGAACATCAGTTGGGGACATCTTCCGAATCGGGACAGCAAATCCATCATGACCGTCACCTCCGGCAGCACCATCATGTTTGATACGCTATCCCATGAAGGCATCCTAGAAGACCAGGGAAGGGATCCGGAGAAGTATTTCGCTTCCTTCGGTATCCGGCCGGATCAAGTGCTGGATGACGCTAAAGCGGTTGCTGCCTCTGAGCTGCAGCATGATTTTGACAACGATGGACCGCATGTCGTAACGGGACCGATCGAAATCCAGGGAGCAGAACCCGGAGATGTGTTGAAGGTCGAGGTTCTTTCTCTCACCCCCCGGGTGCCCTATGGCGTCATATCCAACCGGCATTACAAGGGTGCCCTTCCCGGCGAATATCCCGAGAATGACGGGCGCAAGGAAGGGGCAAGCGCAGCAAATCCCGAGTTATACCAAAATATATCCAAGTTCACGCCGGTAGAAGAAATCAACGGCAAACTCTATGGCGTGCTTCCCGTTGAGCAGGGTGGCCATGTCCGCTTCCCGCTCAAGCCTTTTATGGGGCTAATGGGCGTCGCACCGGATACCAGTGAAAAAGTTAGCAGCGTCCCTCCGATCGAAACCGGAGGCAACATCGATATCAACGAGCTTGGCGTCGGATCTACGCTGTATCTTCCGATTCAGGTGAAAGGCGGACTCTTCTATACCGGCGATCCTCACTTTGCACAGGGAGATGGCGAGGTTGCCCTGACCGCAATGGAGGCCTCCCTTCGCGGCACCTTCCGGTTGACGGTGCTGAAGGCTGGCGATCCTTCCTTGCCGCGTGCAGAGCTCAAGCAGCCTTTTGCCGAAACGGAGGATTACTGGATTCCCGTTGGTCTCGATCCCGATCTGGATGAGGCCATGAAGGAAGCGGTGCGCGAAGCCCTTGGCTTCTTGAATGAGAAGCTGGGCATGGATCGCGCAACGGCATACGCCTATATGAGTGCCGCTACGGACTACGAGGTCTCCCAAGTGGTGGACAAAACCAAAGGTATCCATGCGCTGATTCATAAGCGGCATTTTATCGACAATCTTAAGCTGTCGATCGCCATCAACGGCTCGGCACTAGGCTCCTCCATCATCGGGGATGAGTTCTATGTTCCCCTCCGTCCGCTCGCTGAAGGTTTGGGCTATGAAGTGGAGTGGGACCCTAAACGGCACGCGGCCTTAGCAACCGCCCCGGGCAAAAACTTAACCGTCCCGATCGGACAGTCAATCTATGAAATGGATGGCAAGGCGGTGTACAACAGCGACGCGGCCATTATGAAGAATGGCATAACCATGATTCCCGTCAAGACGATCCCTGCTCTGTTCGGAGCCCATGTGAACTGGACCACCAGCGGGAATGTGCTGAAAGCCAGCGTGACGCCTTCCCTGGATTGA	MPSMRKRLRFHSITAALCTISLLTAVPAQAAAFDSFPILQSTSKDHVKADYYVPSTVENISWGHLPNRDSKSIMTVTSGSTIMFDTLSHEGILEDQGRDPEKYFASFGIRPDQVLDDAKAVAASELQHDFDNDGPHVVTGPIEIQGAEPGDVLKVEVLSLTPRVPYGVISNRHYKGALPGEYPENDGRKEGASAANPELYQNISKFTPVEEINGKLYGVLPVEQGGHVRFPLKPFMGLMGVAPDTSEKVSSVPPIETGGNIDINELGVGSTLYLPIQVKGGLFYTGDPHFAQGDGEVALTAMEASLRGTFRLTVLKAGDPSLPRAELKQPFAETEDYWIPVGLDPDLDEAMKEAVREALGFLNEKLGMDRATAYAYMSAATDYEVSQVVDKTKGIHALIHKRHFIDNLKLSIAINGSALGSSIIGDEFYVPLRPLAEGLGYEVEWDPKRHAALATAPGKNLTVPIGQSIYEMDGKAVYNSDAAIMKNGITMIPVKTIPALFGAHVNWTTSGNVLKASVTPSLD				NA	NA	NA	NA	NA
AK002_04344	477			hypothetical protein	ATGGATCATGAGTTCAACCGGAAGTGGCTGGAGGACAAATTTGAAAACATCCGCAGCCGTATCTTGAAAGCGTTGGTGCAGTTAAACGATGAGCAAGTGAATTGGCGGCCCAATCATTCCAGTCTGAGCATATCTACGTTGATCAGGCACATCGAAGGCAACATTCAAGAACGGGTCATGAAAGGGATATTGCAACAAGACGTTGCCCCGCGAAACCGGGAGCAGGAGTTGACCCAGGTATTTGTCAGCCGGGATGATCTGATCCAGATTGTGAAGAATCGGTTCCAGTTCCTGATCGATACGGTAAAATCCATGTCGAGTCAGGACTTTGAACAGGTTCACCTGGTCCGGGGAAAAGAACGGAGCAATCTCGACATCCTGCATCAGTGCGCCACGCATTATTCGGAGCATATGGGTCAAATTTTTTACATCGCTAAGCAGTGTTTGACGGTTCAATATAAAACCACATCGATCTAA	MDHEFNRKWLEDKFENIRSRILKALVQLNDEQVNWRPNHSSLSISTLIRHIEGNIQERVMKGILQQDVAPRNREQELTQVFVSRDDLIQIVKNRFQFLIDTVKSMSSQDFEQVHLVRGKERSNLDILHQCATHYSEHMGQIFYIAKQCLTVQYKTTSI				NA	NA	NA	NA	NA
AK002_04345	678	COQ5_8		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGGGAATCGACTGGTATGACATGATCGCGCGCAGGAATGGCGGCTATAGAGGAAGAGCGGTGTGTACCGTAGTCGGAAGGTCGGCGGAAGAAGTGTTTGAGGAGCGGCTGGTGGAGATGCTGCCGCAGTATCATTCCGTGCTGGACGCAGGCTGCGGGCATGGCGAGTTCACGCTTCGGATGTCCAGACATGCTGAGAAAATCATTGGCTTTGACAATTCCGCGGAGATGATTCGAATCTCCCAATCCTTGCTCGAGAGCAGCAGAACCCGGAATGTGGAATTCGTATTTGCCACAACGAAGACACAGATGCCTTTTCTAGACGGGCAATTCGACCTTATCTATGACCGCAGAGGACCTACCTCAATCTTGGAACATCCCAGGATATTAGCTTCAGGCGGCACCATCTTCGGGATACATACCGATGTGACTCACGTTCGAAGGCGATTGTCGGAAAATGGCTACATGAATGTCGAGATTGAGGAGTATAATGAAGCGATTATTTACTTCCCGAATGCCCACGAATTTGCATTAAACCTGTCGGATACGCCAGGCAATCCCGATTATACTTTACCGGAAATGAATGGTGAACTGGAGGCCAAGATACGGGAGAACCAGATCGACGGCCAGCTTGGAGTCCGCGAGCACAAATATATCTGGAAAGCGATGAAGGCATGA	MGIDWYDMIARRNGGYRGRAVCTVVGRSAEEVFEERLVEMLPQYHSVLDAGCGHGEFTLRMSRHAEKIIGFDNSAEMIRISQSLLESSRTRNVEFVFATTKTQMPFLDGQFDLIYDRRGPTSILEHPRILASGGTIFGIHTDVTHVRRRLSENGYMNVEIEEYNEAIIYFPNAHEFALNLSDTPGNPDYTLPEMNGELEAKIRENQIDGQLGVREHKYIWKAMKA				NA	NA	NA	NA	NA
AK002_04346	1209			hypothetical protein	ATGTTTTTAAAAAGGTGGCGTCAATTATTATCTTTAACCCTTATATTATCGTTTTGCATGACATCCGTGGCAAGTGCGGCGGAATCTGGTCAAGCCAAGTATGCATGGGCCAATGAGTCCATTGACTTTCTTCGATCCCATGGGGTTTTTGAGAACATGGAATATCGGACAAAAACGCTAGGCAGGATGGTGACCAAAGCCGATCTGACCCTTATGGTTCACCGGCTGTTTACCGATTTCCGGGTCGATGCTGATAAGAAGTTCAACATTCCCGGCGTCCCTAACGGGCACCCATCCTACCAGATTTTTAAGGATGTTTACGGCAGCATACCTTCAGCGCCGAACGGATTAATCGGAGCCGCAGACAGAATCAATTACAACGATGAAACCTTCAAGTATATACCGGAGAAAGTGTTAACACGCTGGGACTTGTTGATTACGCTGAATACGCTGTTCGATGATATTGGTTATTCCTTGGAGTTATACGACGGTGAGGATATCGCGAGATTGCGGGCGATTAAAGACCTACCCAAAAGAAATTTCAATTCCTACAAGCAATATGATAAGTGGAAGTATGCCTATCAGCCATTAGCGCCCGAAATCGGGTTGATGCAAGACAAAAGATGGGGGCTTTCCTTAGCCTCCGATCTCGATCACGTCAAAGCCTATGCACTGCTCGGCTTTGCCGAGGCCGGCATCATGAAACCCGATACGAAAGGGTATTTTCGCCCGAATCAAAAGGTAACGTTAGCAGAAACCGCAGTTGTCCTGCATCGAATTTACGACTATTTTGATGGCGGCAGCTATGTTCGAGAACCATCGCCGGATGATCTCATTCCGAATGGCACAAGAAACTTTATCTATGCGGGTTCCCCGTCAGGACACGGACAAAGTCCGGTTTATGACTTCGCTTTGGTGAATTCCGATGCCCTGCCGGAGTTCTATCTGGCCTTGAAGGCTACGGAGAAAATCGACTTGCAGATCAACGTGAACGGGGAGCCATCCTATTATACTTACGAGCAGTTGAGCAACCCTAAGCAGCCTGTACGAATCCCTTTGAATGGCGCATACTACGCGGAATTCATCCCCATTATCCGAAGCAAGGGTCAAAAAGCAACCGGCGACAATAACAACATTGAAGTTATGTATTATTACGCTGATACGTTCCAGGACTTTACCCAAGCCACATGGTATGAACCCAAGTTCTAG	MFLKRWRQLLSLTLILSFCMTSVASAAESGQAKYAWANESIDFLRSHGVFENMEYRTKTLGRMVTKADLTLMVHRLFTDFRVDADKKFNIPGVPNGHPSYQIFKDVYGSIPSAPNGLIGAADRINYNDETFKYIPEKVLTRWDLLITLNTLFDDIGYSLELYDGEDIARLRAIKDLPKRNFNSYKQYDKWKYAYQPLAPEIGLMQDKRWGLSLASDLDHVKAYALLGFAEAGIMKPDTKGYFRPNQKVTLAETAVVLHRIYDYFDGGSYVREPSPDDLIPNGTRNFIYAGSPSGHGQSPVYDFALVNSDALPEFYLALKATEKIDLQINVNGEPSYYTYEQLSNPKQPVRIPLNGAYYAEFIPIIRSKGQKATGDNNNIEVMYYYADTFQDFTQATWYEPKF				NA	NA	NA	NA	NA
AK002_04347	444	bltD	COG0454	Spermine/spermidine acetyltransferase	ATGATTAGACTGCAGCCCATAGATAAGGATAATTGGACCGAATGCATTAAACTGAAAGCGAAACCGGAGCAAGAAGGCTTCATTGCCTCCAATCTGTATTCGATTGCCCAGTATCAATTTCTTGAACATTTTGAAGCGATGGCCATTTATGATGATCAGACGATGGTCGGGTTCGCGTTATATGGCTTGGACGCCGATGACGGCAACTATTGGATTTACCGTTTCATGATCGACGGGAATTTCCAAGGGGAGGGCTACGGGAAAGAGGCTTTGCGATACATCGTTGAACAAATCCGTAACAAGCATGACCGGACAGAAGTCCTTATGCTAAGTTTTGATCCGAAGAACGAACGGGCCAGACAACTGTACATCAAAGCGGGTTTTGAGGAAATCGGCGTTATGCCCTGGTCGGGGGGAGAATCCGTAGCGAAGCTGGGGCTATGA	MIRLQPIDKDNWTECIKLKAKPEQEGFIASNLYSIAQYQFLEHFEAMAIYDDQTMVGFALYGLDADDGNYWIYRFMIDGNFQGEGYGKEALRYIVEQIRNKHDRTEVLMLSFDPKNERARQLYIKAGFEEIGVMPWSGGESVAKLGL	PGPT0007790_2040	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
AK002_04348	921			hypothetical protein	ATGGACATGGAGTTGAAGCCGGTTAACCGAAAGAACTGGGAAGAAGCATTGGCAATGCAGGTTTCGGTCCAACAGCAGGGGTTTGTACCGGCGGTAGCCGTATCTCTCGCCAAGATCTACATCAAACCGGACGGTGATGAAGTCGAATACCTTCCCTTTGCGATATACGTCGGGAACCGAATGGTTGGATTTATCATGCATGCCTATGAGATGAATTCATCCGATATGTATTGGATTAACGGCTTTTTAATAGATGCGGGAGAACAAGGTAAGGGATATGGCAAAGCAGCTTTACTCCAGATGATTACATGGATCCAAAGCCAATTTCCGCCATGCGAGGAAATACGCCTGACCGTGCATAAGGATAACCTGATAGCGAAAAATTTGTACAGCAATCTAGGTTTTGTGGAAACGGGGAACTGGTTCGGCGATGAGGAAGTTATGAAGCTGAATGTTCAATCCAATCAAGAGGTTAAGAGAAGGGGGAGCGACCCATTGTCGCAGATCAACATCAATCGAAGCAGCCCGGAAGAAGCGCTTGCGGTACGGACGAACCTGATACAATTCAATGCTCGGTTTATCGCAGAAGATTTGCAGCAGAATTACGAGGAGATCAACTTACATATAAAAGATGAGTTTGGAGAGATCGCAGGCGGCATCAACAGTGTTTTTTGCTGGAATTGGATTGAGGTCGATATTCTGTGGATCGATGATCGATATCGAGGGCGGGGATATGGCTCAAGATTACTACAAGAGATTGAGACGATCGCAAGAGAAAAGCAGTGCACCTTCATCAAGCTCAATACCTTCAGCTTTCAAGCGCCGGCATTCTACCGTAAACATGGATTTCAAGAGATAACTCGCATTGAAGATGCCCCAAGGGGACATCAGCACTATTATTTTGTTAAATATTTGGCGTAA	MDMELKPVNRKNWEEALAMQVSVQQQGFVPAVAVSLAKIYIKPDGDEVEYLPFAIYVGNRMVGFIMHAYEMNSSDMYWINGFLIDAGEQGKGYGKAALLQMITWIQSQFPPCEEIRLTVHKDNLIAKNLYSNLGFVETGNWFGDEEVMKLNVQSNQEVKRRGSDPLSQININRSSPEEALAVRTNLIQFNARFIAEDLQQNYEEINLHIKDEFGEIAGGINSVFCWNWIEVDILWIDDRYRGRGYGSRLLQEIETIAREKQCTFIKLNTFSFQAPAFYRKHGFQEITRIEDAPRGHQHYYFVKYLA				NA	NA	NA	NA	NA
AK002_04349	183			hypothetical protein	GTGAATCCTATGAAAATGAAGGACTTTTCCTATCGTTGTCAGACTATCGTTGGTTATTCGTTTGAAGATGGTGGCTGTGGTAGAGGATTACAGTTGATAGGGCTGGATGTATTTTGGAAGAGTTTATCTAAAGTCGTTTATATCCGGGCATATCCCAACTCCATATGGTATTATTTGGTTTAG	MNPMKMKDFSYRCQTIVGYSFEDGGCGRGLQLIGLDVFWKSLSKVVYIRAYPNSIWYYLV				NA	NA	NA	NA	NA
AK002_04350	261			hypothetical protein	ATGGGTCGTGTCACTGCTGTTCCTCAACCGGATTTAGTATTGATCAGCTGGTCAAGAAACCCTCTTGTTACGGGCTCCGCGCGTAGAATCGTTGCTGCCCGTGTCATTGGCAATGCTTCTCCCTGCCGAGCTGATTTGACGCCGAATGCACTGTTAAGAACCGCCTTAGCCTGCTTACTGGATCATGATGTAGGTTTCAAAATCGTATTCCGCCAAAGAACATCCAACATTAGCGGATACCTATTATTGCAGCGTAATTAA	MGRVTAVPQPDLVLISWSRNPLVTGSARRIVAARVIGNASPCRADLTPNALLRTALACLLDHDVGFKIVFRQRTSNISGYLLLQRN				NA	NA	NA	NA	NA
AK002_04351	105			hypothetical protein	ATGCTGCTTCTTTTTTTAGCTCTTTTCATTAATATTGTTGCAAACAAGATAATAGAAGCTTGCAAGTATGTCAATTTCACAACAACAGTAAAGCTGCGGTCATAA	MLLLFLALFINIVANKIIEACKYVNFTTTVKLRS				NA	NA	NA	NA	NA
AK002_04352	378			hypothetical protein	TTGATCGATAAGAATATTAGCACTACAGTTGCAGGAGATTTGATTGTTACTCGTCTGATAGGGAAGATAAACACTGATGACGTTATTGAATGGTTTAATGGTTTTGAAAAGTCATGTCAGCAGTTTATTGGTGAGGGTCTGAAATACAAATTATTGGTAGATAGAAAAGGATATACCCCAAACCACTTCTCCGTTCAAAAAGCATGGAAAGATAAGTTCTTCAATGAAGCCATTCTGAATCATAGCAAAGCAATTGCGTTTCTTCTTGAAGAAGGGGAGATCATGAATTACTTACAGCAATCCAACACAAAAGAATCCGTTAAATTTTTTGATAATTATGAACAAGCATTCAAGTGGTTAAAGAACTATCCAAGATAA	MIDKNISTTVAGDLIVTRLIGKINTDDVIEWFNGFEKSCQQFIGEGLKYKLLVDRKGYTPNHFSVQKAWKDKFFNEAILNHSKAIAFLLEEGEIMNYLQQSNTKESVKFFDNYEQAFKWLKNYPR				NA	NA	NA	NA	NA
AK002_04353	681			hypothetical protein	ATGAAACAGTTGAAAAAATCTATCGCGACGGTTGCCGTGCTGGGAATGACGTTAACGGGAGCGGCTGGCGTCTATGCTGGCGCCAACCTGGAGAAAATCTCGGCTTACCTGAACCACAGCATCGGTATCCAAGTGGATGGTACCGTTTATAACACCGGCAAAACATTGACTCCGATTACGTACAAGAACACAACGTACCTGCCGGTTCGCGCGATTGCGGATGTGCTTGAAGTTCCTGTGCGATACGATGCGAAGAATAACCAGGTGCTGATTGGAGGAAACGGTCAGACGATCGAGCTGACCAACGTTAAATATAGCGATGCCGAGCGGAAAGAGATCAAGAGCGCATTCGCCAAATTTGATGGTTTCCAAACGCCGTATGCTCCAAGTCAGATGGTAAAAGGCGATGTCTATCAAAAAACGGGTGCATCGGAAGATGGCGTTAACATGTTATTCAAACACATGACGGTATATATCTCCCCAAGAGACTACTCTCATGGATATGACAGCAAACCGGTAACTTTGTCCAACGGAACCAAAGCAAAATGGTATACACCGGATGACATGGACATGCTGGGATTTCAGATCAATGACCGTTTCGTGACGATCAGCTCCCCGGATCATTCCTTAAGCAAAACGCAGCTGGAGAAGGTCGCAGTCAGCGTTGCCCAATTGAAATAA	MKQLKKSIATVAVLGMTLTGAAGVYAGANLEKISAYLNHSIGIQVDGTVYNTGKTLTPITYKNTTYLPVRAIADVLEVPVRYDAKNNQVLIGGNGQTIELTNVKYSDAERKEIKSAFAKFDGFQTPYAPSQMVKGDVYQKTGASEDGVNMLFKHMTVYISPRDYSHGYDSKPVTLSNGTKAKWYTPDDMDMLGFQINDRFVTISSPDHSLSKTQLEKVAVSVAQLK				NA	NA	NA	NA	NA
AK002_04354	1209			hypothetical protein	ATGAAACATAGATTTGGGAAGCATGGGATCAAGTTGCTGTCTTTCGCTGCTGTGGTTGCAGTCCTTGCGGCCTGCCAGTCCCAGGATCGGTTGACGATCGTGGAACCGGGGAACAGTCAAACCAGCCAGCCGCCTGTATCGAATGCCGGAGGCAAGACACCGGGAGAACGCAAGCTCACGGTCGTTGACGGGGCGAGCGGGCAGGCCGGACGGGAAGTGGTCGTGAATCAGACGCACCGGATTGCCTCGTCCAACATCGAGACGTGGATTTCGGAGGATAAGGTCAGGGTCACTACAACCAAAATGGTAAAGGAAGCAACCGCTACGGAAGAACCGAAATATGCGTACGCCACCGAAGAGGTGAACGTAAGCACAGGCGAGCGTCGTGAGCTCACGAATCATGAAGCGTCGCATCCAGACCAACATCTGGTCAAGGAAGAGGTCTCGCCGGACGGTAAATATAGCTTTATACAGAAATGGAGGGATAAGTACACGGCAGACAATTTCATGAAGGATCTTAGTACCGGCAAGAGCATACCGGTAAAAGGGGACAACTACATGGAGATTGGCGGTTGGCTCGATGCGGACACCTATGTACTTGCGGCAGGCTCCATGAGCGGCAAGGGGGAGATTCGTCTCATATCTACGGACGGTACTTACACCACCACCGCCATTGAGGATGAGGACGTTGAAGTTTACAACCAATTCGGAGCGAGTAAAGGCCGGATCTATTATATCGACGTGAATCAGGTGCTTAAGGTGGTTGAACCAGGGCAGTCGAAGCCGGTACATCTCATTGAAAATGTTTGGAGCTTCACCATCTCGCCGGATGGAGAGTACATTGCCGTCTCCACAGCAACCAACACGGAAGGGAACTCGGGCAGCAATTTACTGATCTATGACGCCGCAGGCAGCTTGCAAGGATCGCTTATCGGTAAAGGTAATCTGATTTCTTACCCGTCCTGGTCGCCGGATTCTGCCAGATTAGCCTTTGATGTGTACTCGGAGAACGAAAGCGGGATGAACGGCGTGTATGTGTTTGATACGGCTTCCGGGAAAGTAAGCTGGATGGCGCCCTATTATTCAGCGGTGCATCCTGCGGCCCATCCGGTCTACCCGCTGACCTGGAGTCCATCTGGAAAAAGACTGGGAATTACAATTGACGATAAAGATGCTTTAATAGCGACGCATGTCATTGATTTTCAATAA	MKHRFGKHGIKLLSFAAVVAVLAACQSQDRLTIVEPGNSQTSQPPVSNAGGKTPGERKLTVVDGASGQAGREVVVNQTHRIASSNIETWISEDKVRVTTTKMVKEATATEEPKYAYATEEVNVSTGERRELTNHEASHPDQHLVKEEVSPDGKYSFIQKWRDKYTADNFMKDLSTGKSIPVKGDNYMEIGGWLDADTYVLAAGSMSGKGEIRLISTDGTYTTTAIEDEDVEVYNQFGASKGRIYYIDVNQVLKVVEPGQSKPVHLIENVWSFTISPDGEYIAVSTATNTEGNSGSNLLIYDAAGSLQGSLIGKGNLISYPSWSPDSARLAFDVYSENESGMNGVYVFDTASGKVSWMAPYYSAVHPAAHPVYPLTWSPSGKRLGITIDDKDALIATHVIDFQ				NA	NA	NA	NA	NA
AK002_04355	1533	sasA_20		Adaptive-response sensory-kinase SasA	ATGAACAAAGGAAAAGTGCGTTTCGGCTTAAAGTGGAAGGTCGCACTGCTTCTCGCTTTGCTGCTGATCGCCGTTGTGGTTGTTCTAAGCTCGTTGGTTCTTGCCGGAATACGGGAGGATCAGCGGGTGCGCCTGGAGCAATCCTTCGCCCAGGAAGCAGAAGCAGCCAATCTCAGGATTCATCAGGAATTACTGACGAATCCTCAAACGCAGCCGGATGATTTCATGGAAAATGTCGGCCAACGGCTGGCCGTCGATCTCGGAACCCAGAGCGGCATGCCAGTGACCCTGTATAAGATAGATGGTACATTCACGGGGACTTCCCTTCCGTTCCAGCCAAAGATGGATGTACAGGATGCGCTTGCTCACACGGCGCAAGGGCGTTCTGCCTATATTACCGAGGGCGACCAGCTGTTATATCTTGCCCCGCTTCGGAATATGGAGCAGCCGATCGGAACGATTCAATTCCACGCTTCCCTGGCCGAGCAGCACGCGTTCTATGACCGGATCCAGAACCTGTTTATCGTGACGGGTCTTGCGGTGCTGGCCGCCGGCTTCCTGATCGGTTTTCTGTACGTGTGGCGGCAGGTGCATGTCATCAGCAGACTGAACCAGGCTGCGCAGAGGATCGGCGAAGGCGTCTATCTTCGAGAGCCAACGGTGAAGCGAAACGATGAGCTCGGCGAGCTGGCGCAAGGGATATATGAAATGAGCGGGCGAATTTCCTTGTCGGTGAACCAGCTAACGGAAGAGAAACAGAAGCTGCTGGATGCCATTGATCGGCTGCGGGAGCTGGAGCAGCAGCAGAAGCAGTTTATCGGAAATATCAGCCATGAGTTAAAGACGCCGCTGACCTCCATACTGGCCTACGCAGACCTGCTTGAGATGTATCGCGACGATCCCGCGCTGCTCGAGGAAGCCAGAGGACAGATCAGCAAGGAAGCACAACGTCTATACCGCCTGGTAGAGAAGGCGCTTCAGTTATCGTCCATGGATATTTATGAATTCGAAACCCATGCAGAACACATAGACCTCATGCCGATTCTGCAAGAAGCGGCAGCCCGGCTGGAGGCCAAAGCAGAGCAATCGGGCATAACGCTGCAATCCTCTTTATCCGAAGGCAAGGTATGGGCCGATCCGGAAAATCTGATGCATATGATTTTGAATCTGCTGGATAACGCCATTAAATATAACAGGCCCGGTGGGACCGTTACGCTATCGAATGAAGCGGACCGAGACCAACAAGGCAATGATCGTATGGTCATTAAGGTAAGCGATACCGGAATCGGAATTCCGGATGATGCCCGGAAACGCATCTTTGATCCGTTTTATACGGTGAGCAGCGACCGCTCCCGGGTACATGGCGGTACCGGCTTAGGGTTATCCCTGGTCCGCAATTTGGCGGAGAAGCAGCACGGTTCCGTCGAAGTTGCGGAATCCAGCCCCAACGGTTCTACGTTTGTGGTCACCTTGCCGATGGAACGGCCGCAATCCCAGGAGGTTCATTCCGTGGAAAGCTCAGACTTGGAATAG	MNKGKVRFGLKWKVALLLALLLIAVVVVLSSLVLAGIREDQRVRLEQSFAQEAEAANLRIHQELLTNPQTQPDDFMENVGQRLAVDLGTQSGMPVTLYKIDGTFTGTSLPFQPKMDVQDALAHTAQGRSAYITEGDQLLYLAPLRNMEQPIGTIQFHASLAEQHAFYDRIQNLFIVTGLAVLAAGFLIGFLYVWRQVHVISRLNQAAQRIGEGVYLREPTVKRNDELGELAQGIYEMSGRISLSVNQLTEEKQKLLDAIDRLRELEQQQKQFIGNISHELKTPLTSILAYADLLEMYRDDPALLEEARGQISKEAQRLYRLVEKALQLSSMDIYEFETHAEHIDLMPILQEAAARLEAKAEQSGITLQSSLSEGKVWADPENLMHMILNLLDNAIKYNRPGGTVTLSNEADRDQQGNDRMVIKVSDTGIGIPDDARKRIFDPFYTVSSDRSRVHGGTGLGLSLVRNLAEKQHGSVEVAESSPNGSTFVVTLPMERPQSQEVHSVESSDLE	PGPT0002705_1398	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
AK002_04356	696	phoP_3	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGACCAAGGTACTTGTTGTAGATGATGAGATCAGTATCTCAAGCGCAGTCGCTTACGCGCTGCGAAGGGAAGGATATACGGTGGAGACCGCCGGAGACGGGCAGGAAGCGCTGGAACGCGTGGAATCGTTTGATCCCGACGTGATGCTGCTTGATGTCATGATGCCGAAGCTTAGCGGGTACGATGTTTGTCGCAAGCTCGAGGATCGGCAGCGCCCTGCCATTCTGCTGTTGACGGTGAAGGACGATATTGTGGACAAGGTGCTCGGGCTGGAGCTTGGTGCCGATGATTATATGACAAAGCCCTTTGACATGCGGGAGATCATCGCCAGGGTAAAGGCATTGTCCCGAAGAAGCCGTACTCCCGAGGCAGCCGGGAAGCAAGCCCCCGAACAGCATGTGATCCGGATAGCGGGACTTACCATTAACCTGTTAAATCGCACCATTCATGCCGAAGGCAAGCCCCTTGAACTGACGCCGAAGGAGTTTGACCTTATGGCTCTCCTGGCCCGGAATCCGGAGCGGGTATATTCGCGAGAGGCCTTGCTAGAACAGGTATGGGACATGGATTTTGCCGGCGGCACGCGTACGGTAGATATTCACGTCCAGCGATTGCGCAAGAAGCTGGGAAACCAGCATGAAGTGATCCAGACCGTGTATGGCATCGGATACAAAAGCACGGAGATTCCATCATGA	MTKVLVVDDEISISSAVAYALRREGYTVETAGDGQEALERVESFDPDVMLLDVMMPKLSGYDVCRKLEDRQRPAILLLTVKDDIVDKVLGLELGADDYMTKPFDMREIIARVKALSRRSRTPEAAGKQAPEQHVIRIAGLTINLLNRTIHAEGKPLELTPKEFDLMALLARNPERVYSREALLEQVWDMDFAGGTRTVDIHVQRLRKKLGNQHEVIQTVYGIGYKSTEIPS	PGPT0002665_1043	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_04357	945	lnrL_6	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGACAATCGCTACCATGAACCATATCATTAAGCGCTATGGACATCAGCTTGTCCTGGACCATGTCCATTTAGAAATCAGGCAAGGCGAAATACTCGGTCTTCTCGGGCCGAATGGTGCAGGCAAAACCACATTGATCCATGCGTTATCCGGCTTAATTGGCATCGATTCCGGAAGCATCGAGCTGTTTGGTGAACGGCCAAGCGGCCCTATGCTGGAAGTCAAACGAAAAATTGGACTGGTTACGCAGGATATCACCGTTTTTGAGGATTTAACCGCTCACGAGAATCTCGCCTTTTTTGGCGGAATCTATGGGTTAAGAGGCACGGAATTGAAAAGACAAATCACGGAAACGCTTCAGTTCGTCGGACTAACGGATCAAGCCCATAAACGTCCTTCCAAATTTTCCGGAGGAATGAAGCGGAGACTGAATATCGCCTGCTCTATTATTCACAGACCCAGGCTCCTGATCATGGACGAACCTACGGTTGGAATCGACCCCCAATCCAGAAATCACATCCTGGAATCGGTCCGCGAGCTGCAAAAAAGGGGGACGACCATTCTCTATACTACCCATTACATGGAAGAAGTGCAGTCCCTCGCATCCCGCGTCGTGATTATGGATCAAGGCCACGTCATCGCGCAGGGGACGATCGATGAGTTGGTAAAGAACATCCACCATGAAGAGAAGATCAAGCTGGAAGTCGTGGAGCTGACGAAGGATCTGATCGATAACATCAAACAGCTGGATGGAGTCAAGCACGTGGTTTTGAATGGAACGCAAATTCAGATCATATCACGGGCAGGAGCAGGAAATCTGGATCGCATCCTGTCGTTGGCCAAAAGCGCGGGCGGCGTCCTATCCATCCATGCGGAGAAACCTACGCTTGAAGACGTATTCCTTACGCTTACCGGCAAGCAACTACGTGACACGGAGGGAACTTAA	MTIATMNHIIKRYGHQLVLDHVHLEIRQGEILGLLGPNGAGKTTLIHALSGLIGIDSGSIELFGERPSGPMLEVKRKIGLVTQDITVFEDLTAHENLAFFGGIYGLRGTELKRQITETLQFVGLTDQAHKRPSKFSGGMKRRLNIACSIIHRPRLLIMDEPTVGIDPQSRNHILESVRELQKRGTTILYTTHYMEEVQSLASRVVIMDQGHVIAQGTIDELVKNIHHEEKIKLEVVELTKDLIDNIKQLDGVKHVVLNGTQIQIISRAGAGNLDRILSLAKSAGGVLSIHAEKPTLEDVFLTLTGKQLRDTEGT	PGPT0006725_8672	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_04358	735			hypothetical protein	ATGCTTGTGTTCAGAATGACGTACTTCTCCTTGCTGCGCCTGATACGCGAACCCATCGGGCAGCTGCTTCTGCTGGGTCTGCCACTGGTCGTCATTACCGTGCTGGGTGTCGTTATTGGACCCTATGAAGGCATGAAGGGGGTTCCTCCGCTGGACTTGATGGCCGTTACGACCATTATGGGCGTTCAGTTTTTTGGCGGCACGTATTTGATGAGTTATTTGGATATCGATTTACTTAAAACCCGGAAATGGAGAATCTATTCGCTCCCTATTAACGTAGCGGTTTATTCAAGCTCTCTCATTCTTGCCTGCACGCTCTTCAGCACTTTGCAAGGGTTGGTCTTGGTGCTATTCACAACCTGGGTGTTCGGGATCGCGTGGGGATCGCTCGGCTGGGTCTTGCTGGTATTTATTATTTATTCCTTCTTTGCGCAGTCCGTACATCTGCTGCTGACATTATCCATCCATAACATAAAATTGGCCGAAAGGGTATCTGAAGTCCTCGGAATCGGCTTCATCATCTTAACCGGATTAATGTTTCCTCTCCCGGATCATCGTTTCTTTGAGTTCATGTCGTCTTATGGGAATCCGGTATCCCTCGGAAAGATGGCCGTCCTGGAGATGCTTGTCGATGGCGGGCAAGGTAAAGCGTACCTAAGCATACTATTGCTGTTAGCCTTAACCATGATATGCATGATGATCAGCGCATGGCTTGGGAGGAGGAAGCTCGCTTGA	MLVFRMTYFSLLRLIREPIGQLLLLGLPLVVITVLGVVIGPYEGMKGVPPLDLMAVTTIMGVQFFGGTYLMSYLDIDLLKTRKWRIYSLPINVAVYSSSLILACTLFSTLQGLVLVLFTTWVFGIAWGSLGWVLLVFIIYSFFAQSVHLLLTLSIHNIKLAERVSEVLGIGFIILTGLMFPLPDHRFFEFMSSYGNPVSLGKMAVLEMLVDGGQGKAYLSILLLLALTMICMMISAWLGRRKLA				NA	NA	NA	NA	NA
AK002_04359	687			hypothetical protein	TTGACGATATTTAACTTCGCGCTCATCCGGAGCGTACGCAGCTTGCCCAATCTTATCTTGCTGTTAGGCCTTCCCGCAGCCGTCGTTGTCCTCCCTGTGGGCGGTTGGCACGGCTTACCGCTGGGGTATCACTTCTATGGAATCCTGCTGTTATTCACAGCCTCCAAACTCGTTCATATGATCATGGAGGATCGGAAGAATAAAATTATGACCCGAATCGGCGTTGCACCTGTGACCCACTTCAAGTATTTATCGCAGAATCTGTTTGCTTTTGCTCTGCTGCTCGTAGGACAAAGCGCCGTTGTCACGTGCAGCGCCTGGTTGCTGCATACCGATGTTTTTGGCAGTCTGATTCAACTCTTCAGCATGTTCAGCGTGTTCTCGGTCACCGCGATTAGCTTCTCTCTCGCTTGGTGCTCCATGTTCCGCCAGCCTGAATCTTCTACAGCCGTTATGCTGGGAATCATCTTGATCATGGCGGTGCTCGGAGGAACCTTATTTCCCATTCAGGCTATGCCTGCATCCCTGCAGAAAATCGCTATGTTATCCCCTACCTATTGGTTTCATGAGGGAATCATGCTTGCTAAGAACGGAGGCTTGTTTGCGGAGCAACTCACACCGCTCGGGATCCTGCTGTTGTTTGCGATCGCTTTTATGCTGATTGGCAGCCGAAGGAAACTGGCTTGA	MTIFNFALIRSVRSLPNLILLLGLPAAVVVLPVGGWHGLPLGYHFYGILLLFTASKLVHMIMEDRKNKIMTRIGVAPVTHFKYLSQNLFAFALLLVGQSAVVTCSAWLLHTDVFGSLIQLFSMFSVFSVTAISFSLAWCSMFRQPESSTAVMLGIILIMAVLGGTLFPIQAMPASLQKIAMLSPTYWFHEGIMLAKNGGLFAEQLTPLGILLLFAIAFMLIGSRRKLA				NA	NA	NA	NA	NA
AK002_04360	1107			hypothetical protein	ATGAAAAGCTATACCGATTCGTGGTCCCCAAGCATAGCGGTCGTGATTTGGAGAATGTCTGCCCTGCTGCTTCTGGCCGCTCTTTGGTTTATGGGAGATGCCGGGACCGAAGGGTTCATCCTAATCTTCGCTTTAGCGATCCTGGCATTAGCCCGGTGGCGGTTTTCCCTTCCTTCATGGACAACACTGGTCGACCAGATTCTATGCATGTCCATCATACCATTCTGGCCGGAGGCCGGCTTCGGACTGGCTCTGCCGCTATTTGAAACCATGCTTGCCGGTAAACCGCTGTTTTCCCTGCCCATTCTGGCAGCACTTGTCATCGGGTATGTCGATCCGGACCTCCGGCTTCTTTTCATGCTCGCTCAAGCTGCATTTGCGGGATGGATCGTTTTATGTTGGTCCAAGCAAATCCATCAGTATCGATTGGAGGCTGATCAGGAGCGTCGCGATCGCTACGAACTGGAATTATTGAAGGGTGAGCTGCTCATGGCCAATGTGCAAACGGCTCAGCTTGCAGAGCTGAGAGAGCGTCATCGAATCTCCCAGAAGCTGCACGATGAGGTCGGCCATGAATTAACAGCCGCGATGTTAGCCTTTCAAGCTTTTGAAACATTATGGAGGGAGAATGACCCGCAAGCGGAAGACATGTTTGCTCAAGCCCAGATGCGTTTGTCGAGCAGCGCCCTGGAGCTGCGGGAAACGGTCCATAATATGCAGCCTGTCCAAGCGACCGGCATTCGGAGCCTGGAGGAGATCTGCCGCAATTTCAAAGCGATGCCTGTACAGCTGCAAATTTATGGAGATACATCCCGTATAGCTGCCCATCTGTGGGTCATCCTGAATGCTTGTCTCAAGGAAGCCTTAACCAATGCGGTACGTCATTCCAAAGCCAAACACGTTGAAGTATCGTTGGACGTCAGTGAACATATCGTGCGGTTAAGCGTTCAAAATGACGGCGTTTTGGATTCCTCCTCGCTGCCTGGAACCGGACTCCGCAACCTAAGGCAAAGAGCCCAGGCGGCAGGCGGGAGCATCTCCACCAATACATCCAGCGGATTTCAATTGGTCTGCGTATTACCTATGGGAAAGGAGGGCATTCGATGA	MKSYTDSWSPSIAVVIWRMSALLLLAALWFMGDAGTEGFILIFALAILALARWRFSLPSWTTLVDQILCMSIIPFWPEAGFGLALPLFETMLAGKPLFSLPILAALVIGYVDPDLRLLFMLAQAAFAGWIVLCWSKQIHQYRLEADQERRDRYELELLKGELLMANVQTAQLAELRERHRISQKLHDEVGHELTAAMLAFQAFETLWRENDPQAEDMFAQAQMRLSSSALELRETVHNMQPVQATGIRSLEEICRNFKAMPVQLQIYGDTSRIAAHLWVILNACLKEALTNAVRHSKAKHVEVSLDVSEHIVRLSVQNDGVLDSSSLPGTGLRNLRQRAQAAGGSISTNTSSGFQLVCVLPMGKEGIR				NA	NA	NA	NA	NA
AK002_04361	612	lnrK_4	COG2197	Transcriptional regulatory protein LnrK	ATGAACATTCTCATTGTGGACGATGATCCATTGGTATGTCAGAGTCTCCGGCTGCTTCTATCCAGAGAAGCGGATATGGAAGTAACGGCCACTGCGAATGACGGCGCTGCAGCCATTCAATGCTGCGAAGAGGTCCTGCCGGACATCGTCCTCATGGATATTCGGATGCCTGGCATGGACGGAATCCAAGCAGCAAGGCACATCAAGCAAAAATGGCCCCAAGTGCAGATTATGATGCTTACCACGTTCCAAGATGAGCATAGTATCCGCCTGGCGCTGCTAGCCGGAGCCGAAGGGTATATGCTGAAATCGACGCAGGTCTCCAGTATGGCACAACAGCTGCGTGCATTGGCTTCCGGCAGTTCCGTTGTGGATGCCAATGTGCTGAAAACCTTGATGCTGCCCGAAAAAGAGAACCGTGCCGACCTTACCCCGCGGGAAAACGATATTCTCGAGCTTATTGCCTTAGGCTGCTCGAATCGGGAAATTGCCGAGCAATTGTTTATCAGCGAAGGCACCGTGCGCAATACCCTCTCGATCATTCTGGATAAGCTGGAGCTCCGGGACAGAACCCAATTGGCGATCTATTATTGGAGGCAGTCGTTGTTGTGA	MNILIVDDDPLVCQSLRLLLSREADMEVTATANDGAAAIQCCEEVLPDIVLMDIRMPGMDGIQAARHIKQKWPQVQIMMLTTFQDEHSIRLALLAGAEGYMLKSTQVSSMAQQLRALASGSSVVDANVLKTLMLPEKENRADLTPRENDILELIALGCSNREIAEQLFISEGTVRNTLSIILDKLELRDRTQLAIYYWRQSLL	PGPT0014870_622	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
AK002_04362	885	COQ3_2		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGTCCGAATATTACTGGGATTCCAAAATCGAATACCTGAGGAATACCAGATGGTTATATTACAATGACGACTACCTGGAGTTTTTGGTTAAGAACGTCTGGAAAATGAATACGCCCATTAACATGGTGGATTACGGTTGTGGTTATGGGTATCTAGCATTAAAGCTTCTCCCGCTTTTACCCGATGGGTCTACCTACACAGGTATAGACAAAGGTGAAGATTTGATCAAGGAAGCAAGGGAAATCTTTGACAAGCTGCCATATTCCGTTGAATTGATTCAAGGAGATATCGAAGAAATCCAGGTGCATCGTCAGTATGACATTGCGCTCTGTCACGCGTTTCTATTACATATGAAGCATCCCCGAGATATCCTTCAGAAAATGATCGACAGTGTGCGGAACGGCGGCCGGGTCATTTGTTTTGAGCCCCATTGGATCGCCAATGCGGCGAATTTTGGCTTCGATGATGGATTGTTGCATTCCGAAGTGGTCCGTCTAGGCATATTGCAGAAGCTGTACGAGGTGGACGCCAGCCGCAGCGGCAAAGACGGGAACATCGGCATGAAGCTCCCTATTCTTCTAAGTCAGCTGGGATTACGGAATGTAGAATGCCGAGTAAGCGATAAAGTGAATTTTTTGAATCAGAGTATGGATGCAGCCAGCAAAGAACGGCTATATCAATCCCTAAGAGAAGAGGGGATCGGCCAAGAGCCCGATGAACCTTCAATGACAATGGAGCAGCTGGTACAGAGAGGTCTAACAGTGGAGGAAGCACAAGCCCAATATGCCGCTGAACTCAAGCTGTTCCAGAAGTTTGATAGCGATTCGTGGTTGACTTACGCGCCGAATATGAAGATTTCTTTTGGCACGGTTAGCCGAGAATAA	MSEYYWDSKIEYLRNTRWLYYNDDYLEFLVKNVWKMNTPINMVDYGCGYGYLALKLLPLLPDGSTYTGIDKGEDLIKEAREIFDKLPYSVELIQGDIEEIQVHRQYDIALCHAFLLHMKHPRDILQKMIDSVRNGGRVICFEPHWIANAANFGFDDGLLHSEVVRLGILQKLYEVDASRSGKDGNIGMKLPILLSQLGLRNVECRVSDKVNFLNQSMDAASKERLYQSLREEGIGQEPDEPSMTMEQLVQRGLTVEEAQAQYAAELKLFQKFDSDSWLTYAPNMKISFGTVSRE				NA	NA	NA	NA	NA
AK002_04363	516			hypothetical protein	ATGGAAGAAGTGATTGTCACACCATACAACCCGGACTGGAAAGAGGAGTATAACCGGGAAAAAGCGAAAATTGAGTCGGCACTGAAAGGCCTCGACGTTCACATGGAACATATCGGGAGCACGTCCGTTTTGGGTTTAGGGTCCAAACCGACCATCGATATGATGGCTGGCGTTCTTAGTCTAGAGGAAGTCGATGAGTATTACATTGAGAATCTGGCTGGGATCGGCTACGAATATGTTGTTAAACCGGAGTTTCCGGAGCGGCTGTTCTTTCGAAGAGGGCAATGGCGGGCAGGGACGCATCATCTGCATATTTACAGGTACCAGGGCCAACAGTGGAATGACCAGATTTTATTTAGAGAGTATTTAAAGAAACATCCGGAAATAAAGGATCGATATTATGCTTTGAAAAAAGCACTCGAAAATCAATATAAGCACGACCGCGTAGCCTATACGAACGGCAAGGCTGATTTCATTCGTGAAGTGATCCGTAAGGCAAGGCTGGAACAGAGTTAG	MEEVIVTPYNPDWKEEYNREKAKIESALKGLDVHMEHIGSTSVLGLGSKPTIDMMAGVLSLEEVDEYYIENLAGIGYEYVVKPEFPERLFFRRGQWRAGTHHLHIYRYQGQQWNDQILFREYLKKHPEIKDRYYALKKALENQYKHDRVAYTNGKADFIREVIRKARLEQS				NA	NA	NA	NA	NA
AK002_04364	513			hypothetical protein	GTGTTGTATCATTTTAGCGAGGAACCGGACATTCCAATATTTGAACCGAGGATCCTATACAATCAGAATAATGAACCGGCTAAGGTATGGGCCATCGATGCGCATCATGCACCGCATTATTATTTTCCAAGAGAGTGTCCGAGAGTTTGCGTGGAAGCTGCGGAGAGTACAACTAAAGCGGATATGGAAACTTTCTTTGGCATGTCGTACGCGCGTAGGATGATTGCGATCGAAGCGGCGTGGTATGAGCGGGTGAGAACAGGATGCGTCTACCGGTATAGTTTTGATCCGACTGATTTTGAGCTTTTTGATGCGAATGCGGGATATTACATTGCTACGAAAACCGTTGTCCCGGTCCGTATAGAACGAATGGATGATCTGGTCGCGTCGATCCTGCAGGAAGGCATTGAATTAAGAATCACCCCCTCTCTGATGCCGTTAAAAGAACGAATTCCAGCTTCATCGGTGAATTTTTCCATGATTCGGATGAGGAATGCTAGATCAGAGGCATAG	MLYHFSEEPDIPIFEPRILYNQNNEPAKVWAIDAHHAPHYYFPRECPRVCVEAAESTTKADMETFFGMSYARRMIAIEAAWYERVRTGCVYRYSFDPTDFELFDANAGYYIATKTVVPVRIERMDDLVASILQEGIELRITPSLMPLKERIPASSVNFSMIRMRNARSEA				NA	NA	NA	NA	NA
AK002_04365	480			hypothetical protein	ATGATGATGCCAACGCATATTGTTGCCGTAGGCGGCGTGGTTGAGAATGAACATGGAGAAATTTTATTGGTGAAGGATCGTAACGGATGGGTGTTTCCGGGAGGACAGGTGGAGGCCGGAGAGAATCTCATGGATGCGCTGATTAGGGAGATCAAAGAAGAGAGCGGGATCGAGACCATCGTTTCTCATCTGATCGGTGTCTATTCCAATACTTCAACCTATCCGGGTCACAGCGGAGTTGCTGTGGTTCCAACGAAAGTGATGATGGATTATGTGTGTAAGCCTACGGGCGGCGAGCTGAGGACTTCGGAAGAAACGACGGACTGCCGTTGGATCCATAAGGATGAAGTGCTTCAATACATTACGGCCCCGGCCATTCGTACGCGTTTCCAGGCTTATTTGGATTTTAACCGAGCCATCGTCTATATGGAATATATCACGAAACCGGAGTTTGAAATTAAGCTGAGACGGAATATATAG	MMMPTHIVAVGGVVENEHGEILLVKDRNGWVFPGGQVEAGENLMDALIREIKEESGIETIVSHLIGVYSNTSTYPGHSGVAVVPTKVMMDYVCKPTGGELRTSEETTDCRWIHKDEVLQYITAPAIRTRFQAYLDFNRAIVYMEYITKPEFEIKLRRNI				NA	NA	NA	NA	NA
AK002_04366	504			hypothetical protein	ATGAAGAATAGAGTCCAAAAGATATCCCCTAACTTGTGGTTTGATCACCAAGCCGAAGAAGCAGCGCAGCATTACGTTTCGATTTTCAAAAACTCGCGGATCGAACGATTTACGCGATACGGCGCAGAACGAAACGACAGCTCTCCATTCGCCGAGGGTGCAATCATGACGGTGGAATTGCAATTAGAGGGGCAACATTTTGTTGCACTCAACGGCGGTCCGCATTTCAAATTCAACGAAGCTATTTCGTTTATTGTGCATTGCGAGTCGCAAGAAGAAATGGACTACTATTGGGAGAAACTAGCCGAAGGCGGTGACGAAAAAGCGCAAGTATGTGGTTGGCTGAAGGACAAGTTCGGCGTATCTTGGCAGATCGTCCCGGCTAACTTAAACGAAATGATAACCGATCCCGATCCGGCAAAATCGGAACGCGTCATGAAGGCTTTACTCCAGACGAAATCTAAAATCGATATGCAAACGCTACAGCGAGCCTATGAGGGATAG	MKNRVQKISPNLWFDHQAEEAAQHYVSIFKNSRIERFTRYGAERNDSSPFAEGAIMTVELQLEGQHFVALNGGPHFKFNEAISFIVHCESQEEMDYYWEKLAEGGDEKAQVCGWLKDKFGVSWQIVPANLNEMITDPDPAKSERVMKALLQTKSKIDMQTLQRAYEG	PGPT0003920_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003920-pmrB-K07645	NA	NA
AK002_04367	435			hypothetical protein	ATGATCATTCATGAAGTTACCGATCTCGGTGCCGTAGATCTTACCGAGCTCTTGACTGAAAGCCAGGAAGAAGGATTCCGGAATATCCATCGATTAGTGCATGAGTATCATAACGGTATCAATACCTTTCATCATGAGAATGAAGCCTTGTTTGAATGTCGAGTTGGCCATAGAGTCATCGGCATCTGCGGGTTAAATCGGGATCCGTATGCGAACGGAAGCATAGGCAGGATCCGCAGATTATATGTACTAAAGGAATTCCGGAATCAAGGAGTCGGGAGAAGGCTGGTTGAAGCTGTAATTCGTAAGGCGAGCAGCCATTATACTAAACTCGTATTAAAAACAGACAATCCCAAGGCGTCTGCATTTTATAAGAAACTAGGTTTTCGGCAAATTGCAGATGGTGGATTGGTCACGCATGAACTTGTGCTATGA	MIIHEVTDLGAVDLTELLTESQEEGFRNIHRLVHEYHNGINTFHHENEALFECRVGHRVIGICGLNRDPYANGSIGRIRRLYVLKEFRNQGVGRRLVEAVIRKASSHYTKLVLKTDNPKASAFYKKLGFRQIADGGLVTHELVL				NA	NA	NA	NA	NA
AK002_04368	399			hypothetical protein	ATGGCACTATTACGGGGTCAAGAACAAGTCGAGGAGTATCTTAATCAACTTGAGCATCCCTTGAAAAAAGAAATCGAGGAGGTCCGAAGTTTCATCCTGAGTGTTGATGATCGAATCACGGAGCATATCAAATGGAATGCACCCAGCTTTTGCGTTCAGGGTGAAGACCGGATCACCTTGAATTTGCAGGGGAAGGGTTTCATTCGCTTGATTTTTCATTGTGGAGCCAAGGTAAAGGACCATGATATAAAGGGAACGCTGACTGAGGATGCGGCGGGGTTATTGGAGTGGGCGTCGCATGATCGGGCCATCGTGAAAATCGTTGATATACACGATTTGGAGCAAAAAAAGGAACAGTTAAAAGCCGTTATTGCTAGATGGATTGAAGTGACGAGTTGA	MALLRGQEQVEEYLNQLEHPLKKEIEEVRSFILSVDDRITEHIKWNAPSFCVQGEDRITLNLQGKGFIRLIFHCGAKVKDHDIKGTLTEDAAGLLEWASHDRAIVKIVDIHDLEQKKEQLKAVIARWIEVTS				NA	NA	NA	NA	NA
AK002_04369	780	bsmA	COG0500	Glycine/sarcosine N-methyltransferase	TTGAAGGATTCCAGCTTTGATTTTTACGAAAATCTTGCGGATACGTATCATTTGATTTTTGAGGATTGGCATGAAGCGGTAAGATGGCAGGGGGAATTCTTCAATCGGTTTATTCGTTCGTTATATGACGAGAACCCTGAGGCTCGGTTCCATCTCCTGGACGCATCATGCGGAATAGGGACGCAGGCTTTGGGATTGGCACGGCATGATTTTGTCGTAACGGCTACGGATTTGAGTCCCAAGTCGGTGGAGCGGGCCAAAAAGGAAGCCGAGAAGCTGGGGATTCCCATTGATTTTGGAATCGCCGATTTTCGGTCTCTAGAGCAAGATATCGCTGGGCAATTCGATGTCGTATTGTCTGCTGACAATGCGATCCCTCATTTATTGTCTGATGAGGAGCTGAGACAGGCATGCCGAAATCTGTATGCCAAACTCCGTAACGAGGGTCTGCTTGTCGTGTCCATTCGGGACTATGACGCTATTATTCAGAACCGCCAGCGTGCAACGGCTCCACGAATCTTGGATGAAGGAAAACGTATGGTTTTTCAAGTTTGGGACTGGGCAGCAGGTGGATATCACTATGTGACGAACCAATTTATAATGAGAGAGATCGACGGAGGATGGCATACCCAAGTCAACAGCACATCCTATAGAGCATTGATGCGATCAGAATTAAGCAGTTTGCTGGCGGAAGCGGGATTCATCGATATCCAGTGGCACATGCCTTCAGATTCGGGCTTTTATCAGCCGATCGTTACAGCAAGGAAGCCAGGAGTTTAG	MKDSSFDFYENLADTYHLIFEDWHEAVRWQGEFFNRFIRSLYDENPEARFHLLDASCGIGTQALGLARHDFVVTATDLSPKSVERAKKEAEKLGIPIDFGIADFRSLEQDIAGQFDVVLSADNAIPHLLSDEELRQACRNLYAKLRNEGLLVVSIRDYDAIIQNRQRATAPRILDEGKRMVFQVWDWAAGGYHYVTNQFIMREIDGGWHTQVNSTSYRALMRSELSSLLAEAGFIDIQWHMPSDSGFYQPIVTARKPGV	PGPT0013540_64	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013540-gsmt_like-K18896	NA	NA
AK002_04370	765		COG0327	GTP cyclohydrolase 1 type 2	ATGGATGCGATACAATTCAAATCCTATATCCATGAGCTTTTCGGCTCGTTATTGAATGATTTTGAGGAAGACGACGAGTATGGCTATCATCTTTTTTCATCGAATCGCTATCAACGAATAGGCTACGCCACCAATTTGATGCCGGAGGTTGTCCAACAAGCGGCTGTCAAAAAGGTCGATCTGATTATCACGCACCATGATGCATGGAGCTTCGTGTACGGGATGAAGGAGCGGTGTTTAGAGTTGCTGCAGGAGCATGACATCGCTCATTTCTATATCCATCTTCCCTTGGATTATGCCGAGTTCGGAACCTGCAATTCGTTGCTGCGTGAGGTGGGGGTGGAACATATTGTCCAATCATCCCGGCATATGGATGGGAATAGTTCGATAGGTATCGGAGAACTGGAGTCTCCTGTCTCGATGGAAGAGCTTGTAGAAACCATGTCCTCTGCTTTGGGCGAACACGTATTTTATCAGCAGAATAGCAATAAACCCATTCAAAGGATCGGCATGATAACCGGAGCAGGTAACGGCACGAATCAATTGAAAGAGGCCTTGGACCATGGCTGCGATGTTTACATTACCGGGGAAAAAACGCTCTATACGGTTCAATATGCCAGGTTTGTCGGATTGAATCTCATCGTTGGCAGTCATACGTTTACCGAAATTTTCGGCGTTCGATCGCTCGCCCAGAAGCTGCAGGAGAGGTTTCCAGATGTGGAAGCTATCCAATTGTACGAGGAGCATATGGAAGTAGTGAACTAA	MDAIQFKSYIHELFGSLLNDFEEDDEYGYHLFSSNRYQRIGYATNLMPEVVQQAAVKKVDLIITHHDAWSFVYGMKERCLELLQEHDIAHFYIHLPLDYAEFGTCNSLLREVGVEHIVQSSRHMDGNSSIGIGELESPVSMEELVETMSSALGEHVFYQQNSNKPIQRIGMITGAGNGTNQLKEALDHGCDVYITGEKTLYTVQYARFVGLNLIVGSHTFTEIFGVRSLAQKLQERFPDVEAIQLYEEHMEVVN				NA	NA	NA	NA	NA
AK002_04371	324			hypothetical protein	ATGAAAAAAATGTTGAAGGTGCTGTATGATTTGAAAAAAGGGATCGTTCCAACCATTGTTGTTTTCTCTATTTTTTTGATTTTGTCTTATAAGTGGTATACACATCCCAGAGAAATTGTTCAGAACATAGAAGCTGTAGAGTTTCATTTAGGAAAGAACGCGGATCAGGCGATCATGCCGGTTCGTATCGAAATCGACGGTCATCTGACACGGTCCATCACTGGAGAGAAGCATTTTGAAGGCTCAATCCAATTATTTAGCGATGACAAACGACTTACAGACGAGAAAAGTTATACCCAAATCGTATTTAATCTATCACATTAG	MKKMLKVLYDLKKGIVPTIVVFSIFLILSYKWYTHPREIVQNIEAVEFHLGKNADQAIMPVRIEIDGHLTRSITGEKHFEGSIQLFSDDKRLTDEKSYTQIVFNLSH				NA	NA	NA	NA	NA
AK002_04372	444			hypothetical protein	ATGCGAATTAAACATATGTTTTTACTCGTTTTACTGCTTCTGGCTGCATGCTCTCCGGTCGAAGAATCCGTCTCGGCTAAAGCTCCAACACCCACAAACGAACAAGCGGACGCTGAAGACCTTCAGGCTAAGATATTAAAAGTATCAACAGATTTGCCATATGATTCGAATTGGTGGGTTGTATCAAGGGATACCAATACGATGACCATCCATGTTGAGGCAGAAAATATAGAGTCGGTCCTGTTCTGGGTAGCGCCTACGGGGACCGAAACTTGGGAGGAAAGGGAGCTTATCGGATATGACATCGACGGATCGGATGGGTGGTCGTTATCCTGGGAGTTTGGCAATCGGAAATTCCACGATCATATCGCTGTTCAAGCTTTAGGTATGGACGGGCGTACGTTGGCTAACGAGAGCATCAATGTACATACACTCGAAGAATGA	MRIKHMFLLVLLLLAACSPVEESVSAKAPTPTNEQADAEDLQAKILKVSTDLPYDSNWWVVSRDTNTMTIHVEAENIESVLFWVAPTGTETWEERELIGYDIDGSDGWSLSWEFGNRKFHDHIAVQALGMDGRTLANESINVHTLEE				NA	NA	NA	NA	NA
AK002_04373	552	mutX	COG0494	8-oxo-dGTP diphosphatase	ATGCTGAAATACAATATTTGTTTCGTTCGGCGCGGTGATGAGATTTTATTATTAAACCGTGATAGAGCACCATGGATGGGATGTTGGAATGGAGTGGGGGGCAAGCTTGAATATAACGAGGCGCCCAGAGACTCCATAATACGTGAGCTGTATGAGGAGACGAACATTCGGGATAAGGATTGCCGATTAACCTTCAAAGGCCTTGTCACTTGGACATCGGAAGGCAAGAATCTGGGAGGAATGTACCTTTATCTTGCAGAAGTACCTGAGGACTACATTTATGAGACCCCGATGAAGACGGAAGAGGGTATTTTGGATTGGAAATCCACGCAATGGATTCTGACAGCAGGAAATGCCGGAATCGCAGCCAATATCCCTAAGTCGCTGGAGCTGATATTGAATGATCCGAATTGCTACGAACATCATTGTACGTATAAGAACGGTAAACTACTGCAGCATACATCGGTTGAGATAAGTTCTATGGTTGAAACGAACGAGGAGATAAGAGGCGAATTATTTAAGAAATATCTAGAAGAACAGGTTAGGTATTAA	MLKYNICFVRRGDEILLLNRDRAPWMGCWNGVGGKLEYNEAPRDSIIRELYEETNIRDKDCRLTFKGLVTWTSEGKNLGGMYLYLAEVPEDYIYETPMKTEEGILDWKSTQWILTAGNAGIAANIPKSLELILNDPNCYEHHCTYKNGKLLQHTSVEISSMVETNEEIRGELFKKYLEEQVRY				NA	NA	NA	NA	NA
AK002_04374	483			hypothetical protein	ATGACAAAGCCGCAAATAACCTATGGCATGTATACAATGTGTATGATTCGGAATGACGACAAGGTTTTGCTTATTAATCGTCCGGACCAGCTCGGGTTTCCCGGTTACCTTGGGCCTGGAGGAAAAGTGGAGTTTCCGGAGAGCCTATCGGAAGGTGCAATTCGAGAGGTTTATGAAGAAACCGGGCTGATTGTCAGAAACCTGGAGTATAAAGGCATAGATGAGTATGTGGTTCCCCAGACGAATTATCGTTACATGGTATTTAACTATTTGACAGATTCTTACGAAGGTGAACTCTTAGCGAATCCGCCAGAAGGGGAGCTCGTTTGGGTACCGATTCAAGAAGCGATGGATTTACCTATGCAGCCCTGGTTCAAACGAAGGTTTCCCCTTTACTTTGAAGAGGGGACTTTTGAAATCTCCATTGTCTGGGATGAAGATGGACAGAAGCCGATCGAAGAGAAAATCAGAAATTTACGATGA	MTKPQITYGMYTMCMIRNDDKVLLINRPDQLGFPGYLGPGGKVEFPESLSEGAIREVYEETGLIVRNLEYKGIDEYVVPQTNYRYMVFNYLTDSYEGELLANPPEGELVWVPIQEAMDLPMQPWFKRRFPLYFEEGTFEISIVWDEDGQKPIEEKIRNLR				NA	NA	NA	NA	NA
AK002_04375	573			hypothetical protein	ATGAACCCTTTTAATCAATCAAAAAAAGAAATCAGAACAACGTTTGAGATCGACTTGCTGCACTTTGCCCAAGCGAAAGAACCTACAAAACCGCCTCACCCCTGGACGGCTGAGGTCATCATTCCGGCTTCCGGATGCATTGCTTGCGGTTGGGATGCCGATGAGAATCTGGTTCTGATCAGCAGCTCCGGTTACAGCATGACGCAGGCCATAACCGGAACCGTCATTCACAGAGACCGGGACTCTGACCTAACGGAAAACCATATGAGCGGAGACTACTTAAGTTTTTGTATTCCGCTCAGCGGACAGGACATTTCGATTTTTGGATTTGAGTCGGGGGATGGCATTCACGTAACAAACGATGGCTGGATGCTGGAAGTCATTCACCCTTGGTGGCCAAGGGCTTCCGTTATATTGGACCAGGTGTTCGTCCCTAATTATGAGTATCTGAAGCAAGCCACGATGATTGATTTGAACCGGCTGGACGGAAACATAAAATGTGGTTTTTCACCGTCGGGTAAACATTTCGTTATTTTGGGGTCTGGCGGTGCGCTTTTGTATTCGAGGGAGTAA	MNPFNQSKKEIRTTFEIDLLHFAQAKEPTKPPHPWTAEVIIPASGCIACGWDADENLVLISSSGYSMTQAITGTVIHRDRDSDLTENHMSGDYLSFCIPLSGQDISIFGFESGDGIHVTNDGWMLEVIHPWWPRASVILDQVFVPNYEYLKQATMIDLNRLDGNIKCGFSPSGKHFVILGSGGALLYSRE				NA	NA	NA	NA	NA
AK002_04376	444			hypothetical protein	GTGACGGCGATACCGGAAGACTTCACCTACTTAGAGCCCTGGGAAGACGAGACTTCGGATCGATTCGCGGATGAGTTATATAAGGAAGTTTCGAGCGAGCATATATTGTTCGGAGTACAAGTGAAGACACTAGCAAGAAGATGCGATCGGGATGATTTTTTGTTTTCTCTAATAGAACAACCGGGTACGTATGCGCAGGTGCATTTAACCTGGAAGCATGAAGAGTCGGATGATTGGCCGAAGACCTTGTTGTTCAGCAGCTTCGAAGACTGGGTGAATACATCGATGTTACCCGATAACAGGGACAATCATAAAATGGAAAGGATGGACGCTATCTATGATCAGTTTCATTGTGATTATCTTGATTATCGGCTTGGCCGGGATTATCAGCAATCAATATTCTGCCCTGAGAAGAATGGAGCGCATGCAGCGTTCTCTGGATGA	MTAIPEDFTYLEPWEDETSDRFADELYKEVSSEHILFGVQVKTLARRCDRDDFLFSLIEQPGTYAQVHLTWKHEESDDWPKTLLFSSFEDWVNTSMLPDNRDNHKMERMDAIYDQFHCDYLDYRLGRDYQQSIFCPEKNGAHAAFSG				NA	NA	NA	NA	NA
AK002_04377	735	yrpC	COG0796	Glutamate racemase 2	GTGTTAACGGCGGCTATGAAAAAGCTGCCCCATGAAGATTTTTTATTTTTGGCGGACACTCTCCATGTGCCCTATGGTACCAAAGCTAAGGAAGACGTGAAAGCTTACATACATCAAGCGATGGGAATCATCATGCAGGAAGAGGTTAAAGCCATCGTCGTTGCGTGCAACACGGCTACAAGCATGGCGATCTCCGATTTAAGGAAGGCTTATCCGATCCCGGTTATCGGGATGGAGCCTGCCGTAAAACCGGCTGTTGAAATTAACCGCGCCAGCGGGAAGCGCATCCTGGTGCTTGCCACGCCGCTGACCCTAAAGGAGTCGAAGTATAAGGATCTGGTCCGGCGAGTCGATAGCATGCATATCGTGGATTCCCTGCCTTTACCGGAGCTGGTCGAGCACTGTGAGGCTTTGAATTTCGACCCCGAGATCATGAACGCTTACTTCACGAAGAAGTTTGAAGCCTTTGATCTGAATGAGTATGGAACGATCGTTTTGGGCTGTACGCACTATCCTTTTTACAAAAGGATTTTGTCGGATCTGCTGCCGGATCATATCCGAATTATCGATGGCAGCGAAGGTACCGTGAACAGACTCATCCAAGTATTAAGCGACCAAGATTTGCTCAGCTCCAACGGGAGTCAGGATGTTAAGCTGCTAAATTCAAGTCAATCCGCGGAGTATACTCAGAAGATGGAGAAAGCGCTCAGCATATACAGGGAGATTGAGGGATAG	MLTAAMKKLPHEDFLFLADTLHVPYGTKAKEDVKAYIHQAMGIIMQEEVKAIVVACNTATSMAISDLRKAYPIPVIGMEPAVKPAVEINRASGKRILVLATPLTLKESKYKDLVRRVDSMHIVDSLPLPELVEHCEALNFDPEIMNAYFTKKFEAFDLNEYGTIVLGCTHYPFYKRILSDLLPDHIRIIDGSEGTVNRLIQVLSDQDLLSSNGSQDVKLLNSSQSAEYTQKMEKALSIYREIEG	PGPT0020200_4094	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
AK002_04378	1551			hypothetical protein	ATGACGGATAATAATCAACAACGCTTCCGTTTCAGTGAAGCACCCATCTGGGAACTACAGCGGACATATTATGAAGAACTGGGGATGAAGGCGTGGAATAATGACCAGGTCCCGCAGTATATTACGAGCAACCCCATGATTGCTACGGCTTACGCCGAAATGATATTCGGATTCCTTCGAGATCGCGCGGATCGGGGCGATATCATCGAACCCGTGACGATTCTGGAATTGGGCGCCGGAGCCGGGCGCCTCGGCTACCATGTGCTGCACAAGCTGTGCGAGCTGAGAGATGATACGGGGATAGCGCTGCCTCCTTTCCGCTATGTCATGACGGATTTGCCGATGAAAAATGTGACGGCATGGCAACAGCATCCTGCCATGCAATCGTATATTGAGCAGGGACTGCTGGATTTCGGGAGGTTCGATGCCGTGCATGATACGGAATTGAACTTGGTAGTGTCGAAGACCACGATTCGTCCCGGAGACTTGAAGCAGCCGCTGCTGATCGTCGCCAATTATTTTTTTGACGGCATTCCGCAAGAATTGATCTACGTCGGGGAAGGCAAGATTTATGAGAGTGATGTGGTCATCGAATTTCCGGAGCAGCACCATAAGCTCAAGCCCGCTGAAGCGCTGGAACGAATGAAGCTGGCTTACGAGCACCGCCGGGCACCAAGATACGAAGAAGATACTTACCCTTATCGCGATGTGATTGCTCATTACCAGCAAGAGCTGGAGGATTCGCATATCCTGTTTCCGGAGGTGGGCTTAACCTGTTTGGAACGCCTAAATCGGTTATCTACCTCAGGTTTCATGCTCCTCACGGCGGATAAAGGAGATCATCGCATCGATAATTGGAAATTCGCCGAACCGCCGCAATTAATTTACCATGGCAGCTTTTCGCTGACGGCTAATTATCACGCGCTGCAGCATGTGTTCGAACAGAGAGGCGCAGTGGCCATGTTCCCTGCGCAGCATTATAAGAATATTAACGTCGGCTGCATTCTCATGCTGGAAGCACCGGCAAGTTATGCCAATACCCGGCTCGCTTACCGTCAATTCATCGAACGCTTCGGACCGGATGAATTCTTCAGTATGAAGGAATGGGTCGACCGGAATATTGAAAGCATGGGCTTGCAGCAAATTTTGTCCTTCTGGCGATTGGGCGGGTATGACGCTGAGTTCTTCATTCAGAGCGCGAAGCGCATCTCGAATCTGCTGCCGGAGGCCAATGACGAAGAAATGCTGGATATCCGTGCAGGCATATTCAAGATGTGGTCATCGTATTATGTGATGGAGCAGCGTTATGATCTGGCTCTGGATGCGGGACTCGTGCTGTTTGAGATGGATATGTACGAGGAGGCCAAGTTCTTCCTGAAGGAATCCGTGGACACGGATGAAGACGAGCCGGTGCCAACGGTTTTATACTGTTTGGCGATCTGTTGTTACGAGCTTGGCCTGGACGAGGAGGCTATGGAATATACGCGCGAGGCGCTCGTTCTGGAGCCCGATCATGAAGAGGCTTTGGCTTTGCTGAAATGCTTTGAGTAA	MTDNNQQRFRFSEAPIWELQRTYYEELGMKAWNNDQVPQYITSNPMIATAYAEMIFGFLRDRADRGDIIEPVTILELGAGAGRLGYHVLHKLCELRDDTGIALPPFRYVMTDLPMKNVTAWQQHPAMQSYIEQGLLDFGRFDAVHDTELNLVVSKTTIRPGDLKQPLLIVANYFFDGIPQELIYVGEGKIYESDVVIEFPEQHHKLKPAEALERMKLAYEHRRAPRYEEDTYPYRDVIAHYQQELEDSHILFPEVGLTCLERLNRLSTSGFMLLTADKGDHRIDNWKFAEPPQLIYHGSFSLTANYHALQHVFEQRGAVAMFPAQHYKNINVGCILMLEAPASYANTRLAYRQFIERFGPDEFFSMKEWVDRNIESMGLQQILSFWRLGGYDAEFFIQSAKRISNLLPEANDEEMLDIRAGIFKMWSSYYVMEQRYDLALDAGLVLFEMDMYEEAKFFLKESVDTDEDEPVPTVLYCLAICCYELGLDEEAMEYTREALVLEPDHEEALALLKCFE				NA	NA	NA	NA	NA
AK002_04379	813			hypothetical protein	ATGTACATGGTTGCGAGCACGGAGCAAGAACAATGGGCCATTTTCCTGGCGGCGATCTGCGGACAAACCTATACACAATTCACCAACACGGACGGCTCATTTGTCCTTCCGCTAAACTTTTCGCTGTTCGACACCATTGAAGCGAATTCCTTAATCCGCGTGTCGGAACGCTTCGGGTTTATCCTTGAATCGCCGGAGGAGATTATCATCGCCTTTCGGGGTACCATGTCTTCCACGGATTGGATCACGGATGCCATAGCCTCCCAAAAGAACTTCAAATACATCAAAGATCCCGCCCTCACGCACCGCGGCTTCACCAGCATCTACGCTTCCGCCCGCGGGCAGATCATGTCGGCGCTTAAAAGATTGCCTGTCGATAAGACCTTGTTCATTACAGGCCACAGTCTCGGAGGGGCACTTGCCACCTTGTGCGCCGTGGATGTTGCTGCGAACACGGCGCACCAATCCCCCCATGTTTTCACTTATGGATCACCGCGCGTAGGGGATCCCGATTTTGCCAAGGCCTTTGCCAAATATGTTCGAAGCAGCTTTCGTATAGCCAACCTGTTCGATGTCGTCACTCATGCACCGCCCAGTATCTACAAACTGCCGAAACGGGAAAAGAAATACTATTACAGTCACGTCCATACTCACTGGCCATTGACCTTCCAGAATGGGTCGGTTAGCGGCAATCATGTAATCAGCAGCTATTATGCGGAGCTTGCCAAGCTCCAGCCGCCATTTGCCGAGCTTTTAAATTCGACGAATCCCGGGTTCTGTCCCGTCACAGAATTACCAATAGAGAAGGTGTAA	MYMVASTEQEQWAIFLAAICGQTYTQFTNTDGSFVLPLNFSLFDTIEANSLIRVSERFGFILESPEEIIIAFRGTMSSTDWITDAIASQKNFKYIKDPALTHRGFTSIYASARGQIMSALKRLPVDKTLFITGHSLGGALATLCAVDVAANTAHQSPHVFTYGSPRVGDPDFAKAFAKYVRSSFRIANLFDVVTHAPPSIYKLPKREKKYYYSHVHTHWPLTFQNGSVSGNHVISSYYAELAKLQPPFAELLNSTNPGFCPVTELPIEKV	PGPT0024445_1814	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_LIPASE_ACTIVITY,PGPT0024445-lip|lipC-K01046	NA	NA
AK002_04380	837	mshB		1D-myo-inositol 2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase	ATGTCCACTATTCTCAATGTGATTGTCATTGCAGCGCATCCAGATGAACCCGAAATCTATGCAGGAGCGATCTCCGCAGCCTACGCAGAGATGGGCCATCGGGTGAAGTTCGTTACGTTAACCGATGGATGCTGCGGTCATCATGAAATGAGCGGGCAGGACCTGGTCGACCGTCGTATACGGGAAGCCCATGAGGCTGCCCGGCATCTTGGGGTTCTGGAATATGTCGTTCTGCCCATACCCGATGGCGAATTGATGCCGACACCGGAAGTACGCAAGGAAGTGATCCGTCAAATCCGCGGCTGGGAGGCGGATATCGTCATCACGTTCCATCCGGAGGGTCCCGGCCATGTGGATAACCGAAATGCCGGGAAGGTCGTGCGGGATGCCGCAGATTTTGTGGCGAATGTACCTAATGCCGTGCCCGAAGTACCGTCATTAAAAAAATCCCCGATATACCTGCTGATGCCGGATTATGCGGCACGGGCGTCATATCAACCGGATATTGTCATCGATGCCGGAGACGTCATCGAGAAGAAATTGCTTGCCTGCGATGCCCATGCTTCCCAGTTTTACGAGTTTGCCCCATGGCAGGGTGGTTTCTTGCATGACGTACCGGATACGTGGGAAGAGAAGCGGGATTTTATTCTGAAGTTTTGGAATCGGTTTCTGCGCGTGTCGGACGAAATGCTGCCTACGCTTGCCAAGCTGTATGGTCAAGAGTATGCAGCCGGCGTACAATATGCCGAGCCTTTCGAAATTGCGGATTATGGCCGAAGACCGAATGACGCTGAAATGAAGGTATTGTTCCCGATGCTAACAGGTACTCGCGTGTAA	MSTILNVIVIAAHPDEPEIYAGAISAAYAEMGHRVKFVTLTDGCCGHHEMSGQDLVDRRIREAHEAARHLGVLEYVVLPIPDGELMPTPEVRKEVIRQIRGWEADIVITFHPEGPGHVDNRNAGKVVRDAADFVANVPNAVPEVPSLKKSPIYLLMPDYAARASYQPDIVIDAGDVIEKKLLACDAHASQFYEFAPWQGGFLHDVPDTWEEKRDFILKFWNRFLRVSDEMLPTLAKLYGQEYAAGVQYAEPFEIADYGRRPNDAEMKVLFPMLTGTRV	PGPT0019570_61	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019570-bshB1-K01463	NA	NA
AK002_04381	423			hypothetical protein	ATGATACAATCCATTGTTCATATCGCGTTAGTCGTGAAGGACTATGACGAGGCCATTGCATTTTATACCGAGAAGCTGAATTTTACTTTGATCGAAGATACATATCAGCCCGAACAAGACAAACGCTGGGTGGTTGTTGCTCCTCCCGGGTCGGTTGGCACGACGATATTGCTTGCCAAAGCATCCAAGCCGGAACAAGAGCCGTTTATAGGCAACCAATCGGGCGGCCGAGTGTTTCTATTCCTGAATACCGATGACTTCTGGAGAGATTATCGCGAAATGGTGTCGCGGGGAATCGAGTTTGTAAGAGAGCCGAAAGAGCAGGATTACGGCATGGTAGCGGTATTCAAGGATTTGTACGGGAACCTGTGGGATTTGCTGGAGCTGAAAGAAGATCATCCATTAATGAAACGTTTGAAGTAA	MIQSIVHIALVVKDYDEAIAFYTEKLNFTLIEDTYQPEQDKRWVVVAPPGSVGTTILLAKASKPEQEPFIGNQSGGRVFLFLNTDDFWRDYREMVSRGIEFVREPKEQDYGMVAVFKDLYGNLWDLLELKEDHPLMKRLK	PGPT0013300_2823	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BLEOMYCIN_RESISTANCE,PGPT0013300-gloA|ywbC-K01759	NA	NA
AK002_04382	489			hypothetical protein	ATGCATATAAACTTGGTACCCGTTGATCTAGGAAAAAAAGATATCCTGTTTAATTTGTATCAATTGTATTATTACGATTTTAGTGAGTATACGAATCAAGATTTAAATAAAGATGGAAAGTATGATTTGGATATTAATCTGTTTTGGGAGGGAGATCGAAGGTGGCATCCCTTTTTTATAGAAGTCTCGGGAATATTAGTTGGTTTTACAGTCATCCTACATGAAAATATGGATACGGACCCCGATCCGACACATGTTATTTATGATTTTATGATTATTAAGAAATTTAGAAGAAGAGGAATTGGGCATCAAGCAGCAATCAAAGCACTTAATATGTATAAAGCAAATTGGAAGATTGCCCAGATGCAAGTTAACACGCCTGCAATATCGTTTTGGAGAAAGGTAGTAAAACAATATACAAAAGACAATTATACTGAAGTAGTAAGAGAAGATTCAAAGAAATATGTTCAAACATTCTGTACGAAATAA	MHINLVPVDLGKKDILFNLYQLYYYDFSEYTNQDLNKDGKYDLDINLFWEGDRRWHPFFIEVSGILVGFTVILHENMDTDPDPTHVIYDFMIIKKFRRRGIGHQAAIKALNMYKANWKIAQMQVNTPAISFWRKVVKQYTKDNYTEVVREDSKKYVQTFCTK				NA	NA	NA	NA	NA
AK002_04383	396			hypothetical protein	ATGCCGTATGACTCAGACTTAACTGCTTCGGATGTGGAGCGGTTGCTCCCATACCTCGAATATTTCCAAAACCCCGGGTCCGTTTTTTACCATGACGTTAATGGATATCGATGTGAAAGCAAGGAAATCGGAAGTTTTCGTAAAGCGTTGGATGATGTCGGCTTCCTCATGGTATTTAACTGGAGCGAATGGTTAGCGGAGAACGAGGTTTATCGAGATTTAGATAACCCTGCGGGGAGCAGCATTCGCAGCGCCGATCTGGTAACCCTTAGAAAATTGATGACCAGTTATGTTCGCGGTGACCGATTCAATGAAGGGTTATTCCTCAACGTATGCATGAAAGGACATGTTGCGGAAATTTTATTGCGGCTGAGAGAGTTGAAGGGCTCGCTATGA	MPYDSDLTASDVERLLPYLEYFQNPGSVFYHDVNGYRCESKEIGSFRKALDDVGFLMVFNWSEWLAENEVYRDLDNPAGSSIRSADLVTLRKLMTSYVRGDRFNEGLFLNVCMKGHVAEILLRLRELKGSL				NA	NA	NA	NA	NA
AK002_04384	768	cypM		Cypemycin N-terminal methyltransferase	ATGTATAGTTCGTATGGAGCGCTGTGTACGGAAGTGTATGATCTGAGCAAACCGTTAGGTTTCTCGTTTGGCGACGTGGAATATTATGCGGAGCGCCTGAAAGACGTTAAGGGCAAGGTGCTGGAAGTTGGATGTGGATCGGGCCGGGTATTAATCCCGCTGCTCCAAGCAGGCATCAACATCGAAGGCGTGGATAATTCGGCTGCGATGCTGGATTCCTGCAAAAGAAGATTAGCGGAATTGAGCCTTGAGGCTAAGCTGTTTGAAGACGAGATGCATAACTTTTCGTTGGCGGATGCCTATGACGCCATTATCATTCCAGCAGGATCCTTTCAGTTAGTGGAGGGACGCGAGCAGGCTGAATCGGCTCTGAAACACTTTGCTTCCCATTTGACGCCTGGGGGCAGGTTGATCGTGGATTTGTATATTCCTACGGATTTAGACGCGAATCACACCTCGACTAGAAGCTGGGAAACTTCCGATAATGAAGTCATCGTTCTGGAGGAAAGACGTACGGAATGCAATCTGCTTGACCAGCGCATCGTGTCGATCCTGAAATATGAAAAATGGAAGGAAGGCCATCTGGTTCAGACCGAGCTGCAACGGTTTCCTCTAAGCTGGTATGGGATGCATGAGTTTGAACTCATGCTGGAGAAGCAAGGATACGAAGAGATTACGAAGTCGGCTGACTATCGCTGGATGAATCAACCTGTTCAGGCGGGTCAGATGATTACATACGAGGCTAGGAAGGCTTCAAGGGGGCGGTAA	MYSSYGALCTEVYDLSKPLGFSFGDVEYYAERLKDVKGKVLEVGCGSGRVLIPLLQAGINIEGVDNSAAMLDSCKRRLAELSLEAKLFEDEMHNFSLADAYDAIIIPAGSFQLVEGREQAESALKHFASHLTPGGRLIVDLYIPTDLDANHTSTRSWETSDNEVIVLEERRTECNLLDQRIVSILKYEKWKEGHLVQTELQRFPLSWYGMHEFELMLEKQGYEEITKSADYRWMNQPVQAGQMITYEARKASRGR				NA	NA	NA	NA	NA
AK002_04385	924			hypothetical protein	ATGAAAAAGATTCGGAGAACCAAAATCGTTGAAGGTACTTCCATACCGGGAATAATCCGTAACGGAGGTCAGTACTTTTATATTGGCGTAGATATCTATGAAGACGGCATGATCAATTGCTGGGAGCTGGTTGACCTCGCAGGGCTAAAAAACAAGATCGATTCGAACTGGCTGACGCCTGTCGTTCCGCTTGGCGAAAATCTGTCGATCCATGGACTGGGTGCGTTCCAGGTCCAGGAAGCGAACTGGAGATTCCATCCAGAGAGCTATTATGAACATATCAAGCAGACCATTCGTGTGATGAATCCGGAATTCGTGAATATCTATGAAGTTTCAGAGCGTGAGCAGAAGCAATGGGAGACCAGAAGAGTGGCCCACTCCCCTCGTCCCATCGATTTTTATGTGAAGGATGAAATGTTCTATCAAACGGTGGAGGGCGACGGTTTCCACATGTTTATGAAATATGAGGGTGCGAATTATTTGGTTTATTTGAATGTGTATCAGGACGGTCAAGTCTTGGTCCACGACCTCCCCCTGGACGTCCGTTGCCATCTTAATGAGCTAAACGAATGGTTTCAGGACGGGACGCTATTCACGACATTCGATGGCGCGCTGCCTCTTAGCATAGCGGGACTTGGCGAGGTTACGCTGTCCGAACCGTTGTATGCGGCGGACACGGAGGAGAAGTTCAAGGAGCTTATCGACATTCACAGGAAATTGAACGGGGAGAAATCCGCGCATGAAGAATGCAGGGACGCTTATTATTTATATCTAGAAAATCCCACCGAGTTTTACAGGGAACATTTAAGAGAGAAGTATGAACGGGTGCCCGAGCATGAGCGGATATACTTGGGTGATATGGATTCTAAAGATTGGGACTACCAAAGAATCCTCTATCGGCCGGATGAGAAGCGGGAAGTGTAA	MKKIRRTKIVEGTSIPGIIRNGGQYFYIGVDIYEDGMINCWELVDLAGLKNKIDSNWLTPVVPLGENLSIHGLGAFQVQEANWRFHPESYYEHIKQTIRVMNPEFVNIYEVSEREQKQWETRRVAHSPRPIDFYVKDEMFYQTVEGDGFHMFMKYEGANYLVYLNVYQDGQVLVHDLPLDVRCHLNELNEWFQDGTLFTTFDGALPLSIAGLGEVTLSEPLYAADTEEKFKELIDIHRKLNGEKSAHEECRDAYYLYLENPTEFYREHLREKYERVPEHERIYLGDMDSKDWDYQRILYRPDEKREV				NA	NA	NA	NA	NA
AK002_04386	477			hypothetical protein	ATGAACGAAGCGTATCTTCAATTGTACGATTATCACATGTGGGCGAACGAAAGAGTATGGAACCATTTGCAATCCTTGCCGGAAGGCGTGTTTCTCCAGGAAGTGAGTCTGGGCTTCAACTCCATCGCGGAAGTCTTCGGTCACCTTGCAGCTGCGGAGGAAGTTTGGTTTGCCCGGATCAAGGAGGAAAGTCCTCCGTCGCTTGCCGCGAGACCGTTCGCGAATATGGAAGCAGCTTATCAATACATGAGCCAGCTCCAAACCGAGCACCATGAATGTTTAGCGTCGATTGGCGATATGGGGAAGGTTGTGACTTATCACAACACTGCGGGTGAGGCATTTCAGAATTCGATTTCGGAGATTCTCCAGCAGGTCGTAAATCATGGAACCTACCATAGAGGCAATATCACGACCATGCTTCGGCATTTGGGACACAAAGGAATCATAACGGATTATATTGCTTTTTTAAGAGTGTAG	MNEAYLQLYDYHMWANERVWNHLQSLPEGVFLQEVSLGFNSIAEVFGHLAAAEEVWFARIKEESPPSLAARPFANMEAAYQYMSQLQTEHHECLASIGDMGKVVTYHNTAGEAFQNSISEILQQVVNHGTYHRGNITTMLRHLGHKGIITDYIAFLRV				NA	NA	NA	NA	NA
AK002_04387	882	dasC_9	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGCATAAACCGTCACTCAGCCGCAAATTTTTTCTTGGCTTCAACTACGCTTTTCTGATCGGTCTGGGGCTGCTCTGCTTTCTTCCCATCGTTCATATTCTGGCGGTTTCTCTCAGCTCCAAAGGCGCGGCGACGGCAGGGATCGTGAAGCTGTGGCCCGTCGATTTTACGCTCAGCTCCTATCAGTACGTATTGAACAAGCCGCAATTTATGGTAGCGATGTGGGTCACCGTGCAGCGCGTCGTTCTCGGGACCGGGATCAGCATGCTGCTGACCCTGCTCATTGCTTATCCACTGTCGAAGGAACCGCGGGATTTTAAATTTCGCACGCAGTATGCCTGGTTCTTCGTGTTCACGACCCTGTTCTCCGGAGGGTTGATACCAAGGTATATGACGATAAGGGATACAGGGCTGATCGATACGATTTGGGCATTGGTCATCCCGGGTGCGGTAGCAGTGTTCAACGTGATTTTGCTGCTCAATTTTTTTCGCGGCCTGCCCAAAGAGCTGGAGGAATCCTGCTTCATTGACGGCGGGAGCTACATCACCAGCCTGTGGAAAATATACGCGCCGCTGTCGCTGCCGGCCATGGCCACCGTTACGCTGTTTACGATCGTCGGCCAATGGAACGAATGGTTTGACGGACTGTTACTCATGAATTCGCCGGAAAAATACCCGTTGTCGAGTTATTTACAGACTGTTATCGTACAGACCAACCTGACGTCGATCAATGCAGACGATGCCGCGGCCCTTTCCGAAGTGTCCAACCGAACGTTTAAAGCTGCGCAAATATTCATCGGCTCCCTGCCGATTCTGCTGCTGTATCCCTTCCTCCAGCGTTTCTTCGTAAAAGGCATCGTGCTGGGCAGCGTGAAAGAGTAG	MHKPSLSRKFFLGFNYAFLIGLGLLCFLPIVHILAVSLSSKGAATAGIVKLWPVDFTLSSYQYVLNKPQFMVAMWVTVQRVVLGTGISMLLTLLIAYPLSKEPRDFKFRTQYAWFFVFTTLFSGGLIPRYMTIRDTGLIDTIWALVIPGAVAVFNVILLLNFFRGLPKELEESCFIDGGSYITSLWKIYAPLSLPAMATVTLFTIVGQWNEWFDGLLLMNSPEKYPLSSYLQTVIVQTNLTSINADDAAALSEVSNRTFKAAQIFIGSLPILLLYPFLQRFFVKGIVLGSVKE	PGPT0017255_2061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04388	900	yteP_50	COG4209	putative multiple-sugar transport system permease YteP	ATGTTAAGCAAAAAGTTTCGGCGGCAGTGGCCGCTTCATCTGATGATCTTGCCCGGCATCGTCATCGTGCTGATCTACAGCTATTGGCCGATGATCGGCATTGCCATGGCCTTTCAGAAATTCGTTCCGTTCAAAGGCCTTTTCGGCTCGGATTGGATCGGGCTGGACAATTTCCGTTATGTGTTCGATCTGCCGGAAACCGGCCAAATCATTTGGAATACGGTGTTTATCGCCTTCATGAAAATCATCGGGGGATTGGTCGTGCCGATCCTGGTTTCGCTGCTGCTGAATGAGCTGAGGAACGAGCTGATCAAACGCGGCGTGCAGACGCTCGTCTATTTGCCGCATTTTTTATCGTGGGTCATCCTCGGCGGAATCTTTATCGATATTTTGTCGCCGACGAACGGGATCGCGAACCAAATTTTGGGCTGGTTTGGCATCGAGCCGATTTTTTTCCTGGGCAGCAACCAATGGTTTCCTTATACCCTCGTCATAACGGACATCTGGAAGGAATTCGGCTTTAGCACCATCGTCTATTTGGCTGCATTAACCTCCATCAATCCTTCCCTGTATGAGGCGGCTACGGTCGATGGCGCAAACCGCTGGAAACAGACCTGGCACATCACGCTTCCCGGCATGATGCCGATCATCATTTTGCTGGCGACCCTCTCGCTCGGGAATGTGCTGAATGCCGGTTTTGACCAGGTGTTCAACTTGTACAGCCCGCAGGTGTATGAGAGCGGGGACATTCTGGATACGTTTATTTACCGGATCGGCATGCAGGGTGCCCAGTATGGAGTGGCCACGGCGATCGGCCTGTTCAAATCCTTGATCTCGTTCGTCTTTATCGTGACGTCCTACGCCCTGGCATCCAAGTTCGCCAATTACAGAATATTTTAG	MLSKKFRRQWPLHLMILPGIVIVLIYSYWPMIGIAMAFQKFVPFKGLFGSDWIGLDNFRYVFDLPETGQIIWNTVFIAFMKIIGGLVVPILVSLLLNELRNELIKRGVQTLVYLPHFLSWVILGGIFIDILSPTNGIANQILGWFGIEPIFFLGSNQWFPYTLVITDIWKEFGFSTIVYLAALTSINPSLYEAATVDGANRWKQTWHITLPGMMPIIILLATLSLGNVLNAGFDQVFNLYSPQVYESGDILDTFIYRIGMQGAQYGVATAIGLFKSLISFVFIVTSYALASKFANYRIF	PGPT0017250_2590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04389	1683	lipO_24	COG1653	Lipoprotein LipO	ATGAAGAGAAATAAGATCTTGTCCGTATTGTGTATCAGTATGCTGGCTTTCGTGTTTATTTTAAGCGCTTGCAGCAAAGGGGAAGAAGGCGGAGGCAGCGCGGCGGGTTCATCCACCGATAGCGAAGCCTCGGCCTTGGAGCCGGGCGATCCGTTCGGCAAGTATGATCCCCCCATTCAGCTGGATGCCGTCCGGTTTGTGGGAGAAGAAGTGAAGTTCCCGTCCGGACAGGATATTAAGAACAACGTGTGGACCGACCTTTATAAGGAAATGGGCATCAACCTCAACTATAAATGGGTGGTGACGGGTCAGGAGCAGTATGAATCCAAAATGAATATCGCGATTGCTTCCAATGACCTCCCGGATATCATGCAGGTGACGCCGGAGCAGCTGCGCCAGCTTGCGGACGCCGGGCAATTGGCGGACTTGGCGCCCGCTTTCGAGAATTACGCCAGCGATGACCTGAAGAAGGTCATGGAGATCGAGAAAAACGCGCTCCCTTCCGCGACGTTTGACGGCAAGCTGTTGGCGATCCCGTCCACTCAGCCGGTCATCGGCGGCTCGGCTCCGCTGCTGTGGGTCCGGGAGGATTGGATGGAGAAGCTGAATCTGCCTGAACCGAACACGATGGATGACCTTGTAGCCATTGCGGAGGCGTTTGCCAAGCAGGATCCGGACGGTAACGGCAAGGCGGATACCTACGGACTTGCGCTGACCAAGGATATCGGATTGAACAGCTCTTCGGTAGGTTTCTTTAACGGCTTCGGCGGTTTCCCGCAAATTTGGATCGAAGACGCTGAGGGGCAATTGCAGTTCGGCAGCATTCAGCCGGAGATGAAGGAAGCGCTGGCCAAGCTGCAGGACATGTTCAAGAACAAGCTGATTGACCCGGAATTCGGCGTGAAGGATACCGTCAAGGTCTTTGAATCCGTGACCACCCACAAAATCGGCATGCTGATCGGACCAAGCTGGTATCCGGCATGGCCTTTCTGGGACATGGTGAAAGAGGATGAATCGGTGAAATGGAAGTCCTACCCGATCCCGTCTTTGGAGGGCGGTCCGGCGACGGTGCAGATGCCTTTTGCCGTCTCTCAATATTACGTGGTCAAAAAGGGGTACGAGCATCCCGAGGTCATCGTCAAGCTGGCTAACCAGTACTATGAGAAGCTGTACAGCGACAATGCGGAATTCGACAAGTACGGCCAAATCATTGAAGACGGCGTATCCATAGGGGTCAACAAATATTCGCTGGTTGAGGTCGTCAATCCGAACAAAGACCTGATCCGGCAGGAGGAGCTGGCCAAGGCGCTGGAATCCGAAAGCGACGCGGACATCACCAGCGCCGAAACGAAGATCATGTTCAAGGAGTTCCAGGAATATCTCGCAGGCAACAATCCGATGGGCTGGTCCGGCTATGCCGCCAACGGTCCGGAAGGCTCCATGAAACAGCTTCGCGATTTGAACGATGCGGGCAAAGTCATCTCGAACGGTTATGTAGGCGCGCCGACCGAGACCATGGCCGACAAAAAAGCGACGCTCGACCGGCTGGAGCAGGAAACGTTCATCAAAATCATTTTGGGCGAGGCAAGCATCGACGCCTTTGATGAGTTCGTGGCCAATTGGAAGAAGCTCGGCGGCGACAAGATTACCGAAGAAGTTAATGCATGGAAGGCCGCCAGATAA	MKRNKILSVLCISMLAFVFILSACSKGEEGGGSAAGSSTDSEASALEPGDPFGKYDPPIQLDAVRFVGEEVKFPSGQDIKNNVWTDLYKEMGINLNYKWVVTGQEQYESKMNIAIASNDLPDIMQVTPEQLRQLADAGQLADLAPAFENYASDDLKKVMEIEKNALPSATFDGKLLAIPSTQPVIGGSAPLLWVREDWMEKLNLPEPNTMDDLVAIAEAFAKQDPDGNGKADTYGLALTKDIGLNSSSVGFFNGFGGFPQIWIEDAEGQLQFGSIQPEMKEALAKLQDMFKNKLIDPEFGVKDTVKVFESVTTHKIGMLIGPSWYPAWPFWDMVKEDESVKWKSYPIPSLEGGPATVQMPFAVSQYYVVKKGYEHPEVIVKLANQYYEKLYSDNAEFDKYGQIIEDGVSIGVNKYSLVEVVNPNKDLIRQEELAKALESESDADITSAETKIMFKEFQEYLAGNNPMGWSGYAANGPEGSMKQLRDLNDAGKVISNGYVGAPTETMADKKATLDRLEQETFIKIILGEASIDAFDEFVANWKKLGGDKITEEVNAWKAAR	PGPT0017245_805	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04390	1692	rhaR_53		HTH-type transcriptional activator RhaR	ATGAAGAGCAGGTACAGAATACTGATCGTGGATGACGAACCTTTTATCGTGAACGGGCTTGCGGAATTATGCCTTGGCGCGGAATTTCTCGAGCTGGAGGTGTATAAGGCTTATTCCTCTTCGGAAGCCTTGGGCTGGCTTAAACGGGCGAAAATGGACATCGTTTTGTCGGATATCAAAATGCCGGGGTTAAACGGCCTTGCCCTGCAAAAGGAAATATCCAGGCAGTGGCCCCATTGCAAAGTGATTTTTTTGACCGGATACGACGACTTTTCTTATATCCAGGAGGCCACCCGGCAAGGAAGCGTGGATTATGTTCTCAAGGCCGAGGGAAACGATGCCGTGCTGAGCGCGATCGAGAAGACCGTAGAGCTGCTTGACCAGGAGATAGAAGCGGACATTCTGCTTGCCAAAGCGAGGGACAATATGCGCATGGCGCTGCCGTTTTTACAGCAGCAGTACGTTCTGGAGCTGATGCAAAAAGCACCTGGTCCTATTCGGCGGGAGGAACTGGAGCAGCGCTTTGCGGAGCTGGAGATGAAGCTGGATCCCGGCAAGCCTTGCCTGCTGCTGTTATGCAGGCTGGACGGCTGGCAAAGGCAAGAAAGTCCATCGGCCCAATCGCTGATGCTGTACGCGGTCCAGAATATCATCGGCGAGCTGCTCGGACCGATGACCGACGGCATGGCCGTGGAGTTCGGCAGGGCCAAGATGATCTGGATTTTGCAGCACAAAGAGGAGGGGGAGGAGCATCCGGAGGAGGTTCGAGGTCCGGCGGCGGAACGGGTCCAGCGTTTTGTCCACGGGATGCTGGAACAAATTCAGGACGTTTGCAAAACGCTTCTGAAATTGAAGACTTCGTTTGCCATGGCTGGCGAGTGGGTCGATTGGGAACGGCTGCCGGACAAATTCGAAGGACTGAAGCAGCTGCTGGACAGCGGCCTCGGGATCGGCCACGAATCTTTGTTGACCGAAGCCGGTGAGCGCAACCGCCCGGATCGTATGGGGCATTTTCTGGGGCGCTCTCGCTCGCATCTGAAGCGGATGGAGCTGCTGCGCGGCTGTCTAGACAATGGGGACCGGGAGGAATTCATGCAGCTGCTCCATGAGGTGACCGATACCTCTTCCTTCCCGCCGGAGGTTGATTATTTGCTGAAAATGGAGGTATATTACGGCCTGGTGTCCGTGATGATGCCGTCCCTGGTGGATATGGAAGCTCTCTGCCGGAACGTGGAAGGGGAAGGGGCGGTGGATTATATCACATTGACTCATTTGGAGGAGCATGATTCGTGGACGGAGGCGGCCGAATATTTCGAAAGGCTGGCGGACATCATCTTCAACCGGAAAGAGCAGGGGAAGCAGGATCAGCAGCATGAGGTGATTGCCAAAGTTCAACGGTATATCGAGGATCACTTAAGCGGCGACCTGTCCTTGACGCAAATCGGGGAGGCCGTGGGACACAACCCTTCGTATTTGTCCAGATTGTACAAACAAGTGACCGGCGAGGGCCTGTCCGAGTCGATTAATGCGGCACGGCTGGCCAAAGCGAAGCAGCTGCTGAAGGAGACGACGGACAAAATCCATGTCATCGCCGCTGCGGTGGGTTTCAGTTCTCCGCCGTATTTTTACCGCTTTTTCAAAAAAACGACCCATTTGACGCCGCAGGAATACAGAGAACTGCACAACATGTAA	MKSRYRILIVDDEPFIVNGLAELCLGAEFLELEVYKAYSSSEALGWLKRAKMDIVLSDIKMPGLNGLALQKEISRQWPHCKVIFLTGYDDFSYIQEATRQGSVDYVLKAEGNDAVLSAIEKTVELLDQEIEADILLAKARDNMRMALPFLQQQYVLELMQKAPGPIRREELEQRFAELEMKLDPGKPCLLLLCRLDGWQRQESPSAQSLMLYAVQNIIGELLGPMTDGMAVEFGRAKMIWILQHKEEGEEHPEEVRGPAAERVQRFVHGMLEQIQDVCKTLLKLKTSFAMAGEWVDWERLPDKFEGLKQLLDSGLGIGHESLLTEAGERNRPDRMGHFLGRSRSHLKRMELLRGCLDNGDREEFMQLLHEVTDTSSFPPEVDYLLKMEVYYGLVSVMMPSLVDMEALCRNVEGEGAVDYITLTHLEEHDSWTEAAEYFERLADIIFNRKEQGKQDQQHEVIAKVQRYIEDHLSGDLSLTQIGEAVGHNPSYLSRLYKQVTGEGLSESINAARLAKAKQLLKETTDKIHVIAAAVGFSSPPYFYRFFKKTTHLTPQEYRELHNM				NA	NA	NA	NA	NA
AK002_04391	1782			hypothetical protein	ATGAAGCTGCTGTGGTTCAAATCGATTTATCCCAAAATCGTGGCCGGCTTTTTGTTGGCCATTATGCCGGTTTACGCCGCTGCCCTGTATATGAACGAGTCCGGGCTTGCGAGCGTTGAGCAGGAAATTACCCAATCTTTGAATGCGAGGACTAATTTTTTCATGCGTACGCTGGAACAGGAGCTGCGATCGACGGTGCTGCTGATGAACGATTTGTCGCAGGACTCCGACCTGCAAAAGCTAAGCACCATCGCGCCCGCCATGAGCCGTTCCGAATATTTTCAGGCGATCAACCGCCTCCAGGGCAAAATGCGGCTGCTGCAAAGCTCCAATCAATACGTTCAGGAGGCCAAAACTTATATTCCGTTGATTGAGAAAACGATTGAGCAGGTGTCGTACGAAGGAGCCATGCCGCCAGAGCAGATGAAGGCGCTTGAGGAGCATCCCGATCGGGTCATTTTCGAATGGAAGAACAAGCTTCTGCTGGGTATGGTATACCCGGAACGATTGCGAAACGGCAATCCGCCTAATTTTGCGATTGCGGCGGAGCTGTCGGTTCCGAAAATGCAAACGGCGCTCCTGCAGCTGGCAACGGGCGACGGGGGCGCCGTTCTCATCGGCGTCGACAACAGCTGGGTCCTGACTCAGGAGGACGGAGGCGGCATCGGTCCCCGGTTGGCCGAACGCATCGACTTGGAAGCGCTAACAAGTACCGAGTTTTCAAAGCTTCCCTACAACACGAAGGTAAAGGCGGATGGGGCCAACTATTGGGTTAGCGTGGAGCGCTCCGCCTTTTTGAATGCCGACCTGGTGGTGTACGTCCCCGAAGCCGAATTTCTGGGTCCGCTCGGGAAATACCGCATGATCTTTTTCGGGCTGTCGGGCTTCTCCCTGCTGGTGGTTATTCTGTTCTCGGGCTGGATCTACAGCCGAATTCATCAGCCGCTTCAGCGGATGGTGAGGGCATTCCGCAACATCGATTTCGACAGTCCCCGGGTGGAGCTGCGCCATAAGCATCATGACGAGTTCCACTATCTGTACGAGCAGTTTAACCATATGGTGAAGCGCCTGCAGGTACTGATCCACGAAGTGTTTGAGCAGAAAATCCGCTCGCAGCGCTCCGAGCTGAAGCAGCTCCAATCCCAGATCAACCCCCATTTTTTATATAACAGCTTCTTTACGCTTCATCAGATGGGAGAGATGCAGGATTACGAAAATATCGTTCGTTTTACGAGGCATTTGGGGGAATATTTCAGGTTCATCACCCGCAACGCTGCCGACGAAGTTTCGTTGAAGGCGGAAGTGGGGCATGCCAAGGCTTACGTGGACATTCAGTCCATCCGTTTCCATAACCGGATATCGGCTTATTGGGATGACATCCCCGGTGATTGGGAGCGACAGGACGTTCCGCTGCTCATCCTGCAGCCTTTAATCGAAAATGCATACGAGCACGGACTTGAGGAGAAGGAGGCGGACGGGCAAATCCGGGTTGCCATGGCCGCTGAGCGGCATGTCCTGCATATCATCGTGGAGGATAACGGGGAGACGTTGACGGACGAAAAGCTGCGGAACCTGCAATCCATGACCGCGAATTCGGACGTGAAAGGAGAGATCACCGGTTTATCCAACGTGCACCGACGCCTTCGATTAAAATTCGGGCCTGCTGGCGGATTGACCTTTTCGAGAAGCCGGTTGGGCGGTTTGAGAATCGATATGACACTGCCAAAGCAAGAAAGGAGCGAGATGGATGAAGAGCAGGTACAGAATACTGATCGTGGATGA	MKLLWFKSIYPKIVAGFLLAIMPVYAAALYMNESGLASVEQEITQSLNARTNFFMRTLEQELRSTVLLMNDLSQDSDLQKLSTIAPAMSRSEYFQAINRLQGKMRLLQSSNQYVQEAKTYIPLIEKTIEQVSYEGAMPPEQMKALEEHPDRVIFEWKNKLLLGMVYPERLRNGNPPNFAIAAELSVPKMQTALLQLATGDGGAVLIGVDNSWVLTQEDGGGIGPRLAERIDLEALTSTEFSKLPYNTKVKADGANYWVSVERSAFLNADLVVYVPEAEFLGPLGKYRMIFFGLSGFSLLVVILFSGWIYSRIHQPLQRMVRAFRNIDFDSPRVELRHKHHDEFHYLYEQFNHMVKRLQVLIHEVFEQKIRSQRSELKQLQSQINPHFLYNSFFTLHQMGEMQDYENIVRFTRHLGEYFRFITRNAADEVSLKAEVGHAKAYVDIQSIRFHNRISAYWDDIPGDWERQDVPLLILQPLIENAYEHGLEEKEADGQIRVAMAAERHVLHIIVEDNGETLTDEKLRNLQSMTANSDVKGEITGLSNVHRRLRLKFGPAGGLTFSRSRLGGLRIDMTLPKQERSEMDEEQVQNTDRG				NA	NA	NA	NA	NA
AK002_04392	2292			Beta-xylosidase	ATGGACTACAAGGACGCTGCATGGCCGGTTTCGCGGCGGGTCGAGGACTTGCTGAAGCGGATGACGGTCGAGGAGAAAATCGGGCAGCTGATCCAGCCGTTCGGCTGGAAAACTTACATAAGGAACGACGACGGCACGATCAAGCTAACCGAGGAGTTCAAGTCGCAGCTTGCGGAGGGAGGAATCGGTTCCTTGTATGGCACGCTGCGGGCCGATCCCTGGACCGGGGTGACGCTCGCTAACGGATTGTCCCCGCGGGAAGGTGCGGAAGCGGTCAATGCGATTCAGCGTTATGCGATGGAGCACTCGAGGCTGGGTATTCCGATTCTGTTCGGGGAAGAATGCTCCCATGGACATATGGCGATCGGGGCGACGGTGTTCCCCGTACCGCTCACGATCGGCAGCACCTGGAACACGGAGCTGTTCCGCAGCATAAGCCGCGCCGTTGCCGCCGAGACAAGAGCTCAGGGGGGAGCGGCCACCTATTCGCCGGTGCTGGACGTGGTACGGGATCCCCGCTGGGGGCGTACCGAAGAAACCTTCGGCGAGGACCCCCATTTGGTGGCCGAATTCGCGGTTGCCGCCGTGCAGGGACTGCAAGGCGAGCGCCTGGATTCGCATACCAGCCTGCTGGCCACGCTGAAGCATTTCGCAGGCTACGGCGCTTCCGAAGGAGGACGCAATGGGGCACCCGTTCATATGGGCCTTCGGGAGCTTCACGAGGTCGATCTGCTCCCGTTCCGCAAGGCCGTTGAAGCGGGTGCCTTGTCGATCATGACGGCCTATAATGAAATCGACGGAGTCCCTTGCACGTCCAGCCGGTACCTGCTGCAAGACGTTCTTCGCGAGGCGTGGGGCTTTGGCGGCTTCGTCATTACCGATTGCGGCGCGATCCATATGTTGGCATGCGGTCACAATACGGCCGGATCGGGCGTGGAGGCGGCAGCCCAGTCGCTGAAGGCCGGTGTCGACATGGAGATGTCCGGGACCATGTTCCGGGCCCATCTTCACCAAGCGCTGGAGCAAGGGCTGATCACTGAAGAGGATCTGAATAGGGCAGCCGGACGCGTGTTGGAGCTGAAGTTTCGCCTGGGACTCTTTGATCGGCCTTATGTGGATCCAGCCTGGGCAGAGCAGGTCATAGGCTGCAAGGAGCATATCGCTCTGGCCTACCAGGCTGCGGCTGAAGGCATCGTGCTCCTGAAAAACGAAGGGGACCTGCTGCCTCTGGATTCGAGCAGCGGAACCATTGCGGTCATTGGCCCCAACGCCCATGCGCCGTACCATCAGCTTGGCGATTATACGTCCCCCCAGCCGCCGGGGCAGATCGTAACGGTGCTGGACGGCATCCGCCGACGGCTGGGAGACAGCCGCGTGCTGTATGCGCCGGGCTGCCGCATACAAGGCGACTCAAGGGAGGGGTTTGCTCGGGCGCTGGCATGCGCCGAGCAAGCCGACGTCATCGTGATGGTGCTTGGCGGCTCCAGCGCACGGGATTTCGGGGAGGGCACCATCGATCTGAGAACCGGTGCCTCGGTCGTAACCGGGGATGCAAAGAGCGATATGGAATGCGGGGAAGGGATTGACCGCTCGACCCTGACGCTGATGGGCGTGCAGCTGGAGCTGCTGCAGGAGCTCCAGAAGCTCGGCAAGCCGGTGATCGTCGTTTATATCAATGGACGGCCGATTACGGAGCCGTGGATCGACGAGTTTATTCCGGCGATCATCGAAGCTTGGTATCCCGGTCAGGAGGGAGGCGGTGCCATTGCGGACATGCTGTTTGGCGATATCAACCCGTCCGGTCGTCTGCCGCTGTCCATTCCGAAGGAGGTTGGCCAGCTGCCGATTTCTTACAATGCCAGAAGGACACGGGGCAAGCGTTACCTGGAGACGGATCTTGCGCCGCGGTATCCGTTCGGCTTCGGCTTAAGCTATACGGAATTCCGTTACGGCCGTCTGACGGTCGAGCCGACCGTTGTTCCCATAGGCGGCGAAGCCAGGGTCCGGATCGACGTGACCAACGCGGGAGCACGGGACGGCGCGGAAGTGGTTCAGCTGTACGTATCGGATCTGGCCGCCTCCGTTACCCGTCCCGAGAAGGCCTTGAAAGGGTTCCGAAAGGTGTTTCTGAAGGCCGGGGAAACGCAAGAAATAACGTTCACCATCGGCAGCGAGCAGTTGGAATTGATCGGCCTTGACCTGAAGGCGGTGGTGGAGCCCGGCGAGTTCCGCATTCAGGTCGGTCCCGACTCGACGAGAGGAGAGATCGCAAGCTTGATGGTGGAAGGCTGA	MDYKDAAWPVSRRVEDLLKRMTVEEKIGQLIQPFGWKTYIRNDDGTIKLTEEFKSQLAEGGIGSLYGTLRADPWTGVTLANGLSPREGAEAVNAIQRYAMEHSRLGIPILFGEECSHGHMAIGATVFPVPLTIGSTWNTELFRSISRAVAAETRAQGGAATYSPVLDVVRDPRWGRTEETFGEDPHLVAEFAVAAVQGLQGERLDSHTSLLATLKHFAGYGASEGGRNGAPVHMGLRELHEVDLLPFRKAVEAGALSIMTAYNEIDGVPCTSSRYLLQDVLREAWGFGGFVITDCGAIHMLACGHNTAGSGVEAAAQSLKAGVDMEMSGTMFRAHLHQALEQGLITEEDLNRAAGRVLELKFRLGLFDRPYVDPAWAEQVIGCKEHIALAYQAAAEGIVLLKNEGDLLPLDSSSGTIAVIGPNAHAPYHQLGDYTSPQPPGQIVTVLDGIRRRLGDSRVLYAPGCRIQGDSREGFARALACAEQADVIVMVLGGSSARDFGEGTIDLRTGASVVTGDAKSDMECGEGIDRSTLTLMGVQLELLQELQKLGKPVIVVYINGRPITEPWIDEFIPAIIEAWYPGQEGGGAIADMLFGDINPSGRLPLSIPKEVGQLPISYNARRTRGKRYLETDLAPRYPFGFGLSYTEFRYGRLTVEPTVVPIGGEARVRIDVTNAGARDGAEVVQLYVSDLAASVTRPEKALKGFRKVFLKAGETQEITFTIGSEQLELIGLDLKAVVEPGEFRIQVGPDSTRGEIASLMVEG	PGPT0019110_3923	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
AK002_04393	3117			hypothetical protein	ATGAGAACGCTGGTATTTTACGACGAGCATTTTCCTTACGAAGGCGAACGTCCGTCTGCAGAGGCATTGGAGGGATTGCGGGAATGGGCGGTGGTCGCTGGTTCCGCGGACGTGGCTGAGCGGCTGACGGAAGGCGGCTGGGACGCGCTGGTTCATCTGCACGGACCGTACTTTCCGAAAGCGGCTTGGGCGGCCATCGAAGCCCACCTGACGGCCGGCGGCGGTCTGGTTCATGCCGGGGGCGTGCCTTTCCGCAGGCCGGTTCGAGAGCTGAACGGAAGCTGGCATGCCGAACGCGAGCAGCTGGCTTATCATCAGCGAATGGATATCCATGATGCGCTGGCGGTGGACGTATCGCGCGTCCGGGAGCTGAAGGCCTCCGCCGAATACCCGATCCTGCAGGGGCGAGAGGAGCTGTTCGGCATGGAGCCGACCTGGGGCTTGACGCTGCACCCGACCAAAGCGAGCGACATCCCGGCCGAGATGGGGGCATGCGGTCCGATGGACGCCGTCATCTCGCCGCTGCTGATCGGCGTGGACCGTGATCGACGCGAGCGGTCCGCTCCGGTCGTCATGCTGGAGCAGCATAAGGGCGATTACGCCGGGGGCCGCTGGATTCTGATCAACCAGCAGCTGAGGGCATCGTTCTGGGAGACGAAAGGGATGGACGTCCTGAAGGATCTGGCCGAATACGCGGGAACAGGCGTGACGGAGCTGTGGCTGAAGCCGAACTATGCCTCCTACGAGCCGGACGAGCAGATGCGGTTGACGATCCAGCTGCAGTCGTTGTCCCGGACGTCCGCCCCGGCGCAGACCTGGCATTTTGATGTGAGTCTTATCAAGGAAGACGACGGCGAGACCGTCTGGACCGGACACGAGAAGTCGGAAGCCGGCATGGAACAGCGGGATCTGCAGCAGCTTCGCTTGTCCGTACCCGTACGGCTGGAAGCAGGCTTGTACCGGATCGTTTGCGAAGCCGAGTCCGATTCCGGGGAGCGCCGCACCCTGACCCAGGCGGTATGGGGCGTCGACCGTCCGCTGCTGCAGGCAGGAGAGCGGCTGGAATGCGGGCGCGATTACTTCCGCCGCGGCGGGCGGACAGTTCCGATCGTTGGCATGACGTACATGACCTCCGACGTCGCGCGCAAATTCCTCCATCTGCCGAACGTGCAGCGTTGGGATGCGGATATGGCGGAGATGAAGCGGGCGGGGATCAACCTGATCCGGACGGGCATATGGACAGGATACCGGATGATCATGTTTGCCGACGGCCATGCGGCCGAGGACGTCATGCGGGCGATCGATGCCTTTGTCCTGACGGCCAAGCGGCATGAGCTGGAAGTGACGTTCACCTTCTTCTCGTTTGCGCCCGAAGCCTGGGAAGGCGTGAACCCCTATCTGGACCCGAGATCGGTGGAGGCGCAAAAGCGCTTCGTCGCCTCCATCGTCGGACGTCACAGGGGCACAACCAACGTGCATTGGGACCTGATCAACGAGCCTTCGCTGTTCGATCCGAAGCGAATCTTCGAGGGGCCGGTATCGATAGGGGACCGGTTCGAGCGGCAGGCCTGGTCGGAGTGGCTGCGGCAGCGCCACGGGGATGATCTGGCGCTTCTTCAGGAGCGCTGGAACATGACGCCGGGCGAGCTGCCTTCATTCGAGTCGGCGCCTGCGCCGAGTCCGGACGACAAGCTGTTCAACAGCGTTCTGCAGCCGAAGAAGTGGGGACCGTGGATCGATTTCACGCTGTTCACCATGGACATGCATAATCGGTGGGCGTCCGAGCTCATCGGCACCATTCGCCGCTCCGATCCCCGCCAGCTGGTAACGGTCGGGCAGGATGAGGGCATCTGCTCCCAGCGTCCGTCGCCTTCGTTCTATGGCCCCGCGGTCGATTACACGACGGTCCACTCCTGGTGGCAGAACGATCACCTGGCCTGGGACGGCATATTTACGAAAACGCCGGACAAGCCGAATCTGATCCAGGAGACCGGCATCATGCACGTGCAGCGTCCGGACGGCATCGCCAAGCGGACGGAGGAAGAGCTTCGCAGCATCCTGGAGCGGAAGTACGCGTATTCGTTTTCGACCGGGGGCGCGGGTGCCGTGCAGTGGATTTGGAATATTAACTACTTCATGGATAATGCCAACGAATCCAACATCGGGGCGCTTCGGGCGGATGGAACGCAGAAGCCCGAGGCCGATGTGTCCTATGACTTCGGCCGCTTCATGAAGGAAGCAGCCGGCCTCTTCGACGATGAACGGCAGCTGGAGGATATCGCCGTCGTTTACCCGTATTCGAATGATTTTTCCAGCCGCAAGCTGGCTTACGAAGCGACGACGAGGGCCATGCGCGCGTTGACGTTCGGCATGAACGTCCATCCGCGGGGCATCGGCGAATATCAGCTGGGGGACCTGAAGCGCTATCCGGCTAAGCTGATCATCGTACCGAGCGCGCATAATTTCGACGATGGCGCGTTTGCTCAGCTCCTCGACTTGGCAAGGGAAGGGAGCACGGTCTTGTGGACCGGCCCGCTTCGCACCGATGCGTATTGGGGACCGGCACCGCATCGTCTGCGGCAGGAGATCGGCGAAACCGTCCATGCCAACGTTCTTCGGGAAGAAACGCTGGAGCTGGCGGGAGAGCATTTCGCCGTTTCGTTCGGCGAGCGGAAGATTAACGCGCTGGCGGTAGATCGTCCGGCGGGCCGGTTGGATGGGACGCTGGCACCCGTCACGGTGACCTTGGGCTCGGGACGGTTCATCTGGTGCCCGCTCCCGGTCGAGATGAACGAGCGCTGGGAGCCGATCCAGGCGCTGTACGCGGAAGCTATCCGCTCCGCAGCCGTTTCGCCTGAGCTGGAATGGCCGAAGGGAGGCGAGCTCCCGGGTATTTACGGCCGCAAGCTGACGTTCGGGCAAGGAAGCTTGTACGTCTTCGTCTCCGAGCATGGGGCAAGCGCAGAGGTCGAGGTAAAGGACCCGGCAACCGGAAAGGTCTACGCCTTCGAATTGGAACGGGAGCGGACCGTGATGTTCACGACCGATGCCGGGGGACAAGTGCAGACGGTTTACCGGCCGGAGGAGGTTCGCATCCGGCAGAGCCAACCATCTTGA	MRTLVFYDEHFPYEGERPSAEALEGLREWAVVAGSADVAERLTEGGWDALVHLHGPYFPKAAWAAIEAHLTAGGGLVHAGGVPFRRPVRELNGSWHAEREQLAYHQRMDIHDALAVDVSRVRELKASAEYPILQGREELFGMEPTWGLTLHPTKASDIPAEMGACGPMDAVISPLLIGVDRDRRERSAPVVMLEQHKGDYAGGRWILINQQLRASFWETKGMDVLKDLAEYAGTGVTELWLKPNYASYEPDEQMRLTIQLQSLSRTSAPAQTWHFDVSLIKEDDGETVWTGHEKSEAGMEQRDLQQLRLSVPVRLEAGLYRIVCEAESDSGERRTLTQAVWGVDRPLLQAGERLECGRDYFRRGGRTVPIVGMTYMTSDVARKFLHLPNVQRWDADMAEMKRAGINLIRTGIWTGYRMIMFADGHAAEDVMRAIDAFVLTAKRHELEVTFTFFSFAPEAWEGVNPYLDPRSVEAQKRFVASIVGRHRGTTNVHWDLINEPSLFDPKRIFEGPVSIGDRFERQAWSEWLRQRHGDDLALLQERWNMTPGELPSFESAPAPSPDDKLFNSVLQPKKWGPWIDFTLFTMDMHNRWASELIGTIRRSDPRQLVTVGQDEGICSQRPSPSFYGPAVDYTTVHSWWQNDHLAWDGIFTKTPDKPNLIQETGIMHVQRPDGIAKRTEEELRSILERKYAYSFSTGGAGAVQWIWNINYFMDNANESNIGALRADGTQKPEADVSYDFGRFMKEAAGLFDDERQLEDIAVVYPYSNDFSSRKLAYEATTRAMRALTFGMNVHPRGIGEYQLGDLKRYPAKLIIVPSAHNFDDGAFAQLLDLAREGSTVLWTGPLRTDAYWGPAPHRLRQEIGETVHANVLREETLELAGEHFAVSFGERKINALAVDRPAGRLDGTLAPVTVTLGSGRFIWCPLPVEMNERWEPIQALYAEAIRSAAVSPELEWPKGGELPGIYGRKLTFGQGSLYVFVSEHGASAEVEVKDPATGKVYAFELERERTVMFTTDAGGQVQTVYRPEEVRIRQSQPS				NA	NA	NA	NA	NA
AK002_04394	1374			hypothetical protein	ATGACCAAGCAAACACAAGCCATCCGGGAAGGCTGGCAATGGTTTACGGAAAGCCGGTACGGCATGTTTATTCATTTCGGGCCTTATGCCCAATACGGGCGCGGCGAGCAGGTTCTGTTCCGGGAGCATTTGGACCAGGCCGAATACGCGCGGAAGGCCTGCGAGTGGAATCCGGAGTTCTTTGACGCCGAGCTTTGGGCGTACACCGCGCGCAAGGCGGGGATGAGATATGCCTGCTTAACGACGCGGCATCATGACGGGTATTGCCTGTGGGATACGGCCACGACGGATTATTCCAGCGCGAAGCAGGCGCCCGGCCGGGATCTGGTGCGCGAATTTACCGATGCGTTCCGAGCCCAGGGGCTTCGGGTCGGCTTATATTATTCCTGGATCGATTGGCGGATCCCGGCTTACTTCGACGGACCGGAGAAGGATCCCGAGGGCTGGGAGACGATGAAGCAGTATTTGCATGCCCAAGTGGAAGAGCTGGTCACGAAATACGGGCGCATCGATCATTTCTTTTTTGACGGGGTATGGCCGCGAACCGCGGAGGACCTGGACAGCATCAAGCTGGTGGAACGGATGAAGTCGATTCAGCCGGACATCCTGGTCAACAACCGCCTTGGGCTGTCCGAGGAAGAGAAGCTGCATGCGGACGGCGGCGGCGGCTCGGGCGATTCCGAGGTGCTGGGCGACTTCGGCTCGCCGGAGCATGTCATCGTCCCGGATCAGAAGCGGCTGTGGGAATCCAGCCAGGTCACCACGTGGAGGCTGTGGGGGTACACGAACGGCGAACGATGGCGTCCGGCCGACGTTCTGCTCGACATGCTGTGCGAGTGCGCGGAAAAAGGGGGGACCGTGGGCGGCAATCTGCTGCTTAACGTCGGACCGCAGCCCGACGGACAGCTTCCGCCGGCCTTCGTGGAGCGGGCGCTGAAGATCGGGGAGTGGCTGGACGTTCACGGCGAGGCCATCTACGGATCTGACGGCGGGAACCTCACGGAGTTCATCACCTACGGGCGGCAGACGATGAAAGACAACAAGCTGTATCTCATCATCCGCTTCTGGGATGGGAGGCCGGTGCTGAGGCTGGCGGATCTGGTGACGCCGGTATCGCGGGTGACGCTGCTGACAACGGGGCAGGAGCTGTCGTTCCGACAGGAAGGCGACGTACTGTGGATCGAAGGGCTGCCGCGGGAACGTCCGACCGAGCTGTTCCCGGTCATCCGCATCGAATGCGAGGAGCGGCCGCAGACCAATGAATGGGGAGTGAACCGCCTCTGGACCGGCGACCCTTCCCGGATCGCCGACTGGGCGCGAACGCGCGGAACATCCGTATACGTCGACGGCCAGCCGCGGATGAGAAAGGAGTAA	MTKQTQAIREGWQWFTESRYGMFIHFGPYAQYGRGEQVLFREHLDQAEYARKACEWNPEFFDAELWAYTARKAGMRYACLTTRHHDGYCLWDTATTDYSSAKQAPGRDLVREFTDAFRAQGLRVGLYYSWIDWRIPAYFDGPEKDPEGWETMKQYLHAQVEELVTKYGRIDHFFFDGVWPRTAEDLDSIKLVERMKSIQPDILVNNRLGLSEEEKLHADGGGGSGDSEVLGDFGSPEHVIVPDQKRLWESSQVTTWRLWGYTNGERWRPADVLLDMLCECAEKGGTVGGNLLLNVGPQPDGQLPPAFVERALKIGEWLDVHGEAIYGSDGGNLTEFITYGRQTMKDNKLYLIIRFWDGRPVLRLADLVTPVSRVTLLTTGQELSFRQEGDVLWIEGLPRERPTELFPVIRIECEERPQTNEWGVNRLWTGDPSRIADWARTRGTSVYVDGQPRMRKE	PGPT0018775_2149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_04395	1518			hypothetical protein	ATGAAAAAAAGGAAAGCGCTAGCACTATGGTTAGCCGCGATATTCATGGTTTCCGTGATCGCGGGCTGCTCCGGCGGCGGCGACGCCGGCAGTGAGAATGGATCGGCGAGCGGGGAGAACGGCGGAGGGGACAAGCTGCCGGTACGGTATTTGCTTCCGGGCTCTGCGCCGCAGGATTTGGATGCGGCGGTCCAAGCGATCAACGAGAAGCTGGAGGCCGACGGTCTGAACCTTACCTACGAACCGACGTACATCGCGTGGGACGTATGGGATCAGAAGACCAACCTCATGATGTCGACGGGCGAGGAATTCGAGCTGATTGCCATCATGCACGATACCAAAGGACCGACGGTGCTTGCGGGCAGCGGCGGTATCATTCCGATCGACGATCTGCTGGACCAGTATGGCACCGAGCTGAAAGCTTCCATGCCGGACTGGATCTGGGAGTCGTCGAAAATCAACGGCAAGATCACGTACGTGCCGAACTTCTGGGCGGATACCGCTTATAACGATGGCATGTTCACGATCCGTACCGATCTGCTCGAGAAAAATGGCCTGAAGCCGCCGACATCGCCGGAAGAGCTGCTCAATGCAGCCGAGACGCTGCAGAAGAACTGGCCGCAGGACAACAAGAACGTATATATCAAAATGCTGGAGGAGCCAGCCTACTTCCTGCATACGACCTACGACACCTATCCGTTCACCGTGGCCGACAACATGATTTACATCGACCAGCAGGGGAACGTGAAGTCCTGGTTCGAAACCGAGGAGTTCAAAAAAGACGTGAAGTTCATGAACGAGGCTTACAAACGCGGTCTGATCATGAGCGATCTGCTTACGACGCCAACGGAGGTTATTAACCAGGAGGAGCTGGCAGGACGTTATCTCTACCGTCCGGGCGATGTCGGCTTGAGCGACGCCATTCTTCAGACGTTCCCGGATGCGAAGCTGGATATTTATTATTTGGCCGACCAGCCGAAATTCAGATCCTACGCGATCCGGAATTCCAACGGGATCTCGGCCACGTCTCCGCACCCGGAGGCCGGCGTTCAATTCTTGAACTGGGTATACAGCAGCCAGGAGAACATGGATCTCGTCCAAAGCGGCGTGAAGGATGTGCATTGGAAGGATACCGGCAAGAATACCAAGGACTATCTGGCCAAGAACGAGAACGGGTCCCCGGCCTATGAGCTTCCATACTGGCTGCTCGGCCACGTTGAAATGAACCGTTATCCGACGAATACGGACCCAGCGCGTCTGGAGCGCCGCACAACGGTATCGGAGGACGCCGTGAACAGCATCACGATCGGCTTCACCTTCGATCCGACCAACGTTGCTTCGCAGTACGCCAACTGCATCGCCGAGCTGAAGACCAGCGTTTATCCGGTCATGCACGGGGTCGTGAAATACGAGGACGCCTATGATAAAATGCTGGCCGCAATGAAGTCCGCCGGTCTCGATGAGGTCGTTGACGAATACAAACGGCAATTCGATGAGTGGAGAGCCGGTCAGTCGTAA	MKKRKALALWLAAIFMVSVIAGCSGGGDAGSENGSASGENGGGDKLPVRYLLPGSAPQDLDAAVQAINEKLEADGLNLTYEPTYIAWDVWDQKTNLMMSTGEEFELIAIMHDTKGPTVLAGSGGIIPIDDLLDQYGTELKASMPDWIWESSKINGKITYVPNFWADTAYNDGMFTIRTDLLEKNGLKPPTSPEELLNAAETLQKNWPQDNKNVYIKMLEEPAYFLHTTYDTYPFTVADNMIYIDQQGNVKSWFETEEFKKDVKFMNEAYKRGLIMSDLLTTPTEVINQEELAGRYLYRPGDVGLSDAILQTFPDAKLDIYYLADQPKFRSYAIRNSNGISATSPHPEAGVQFLNWVYSSQENMDLVQSGVKDVHWKDTGKNTKDYLAKNENGSPAYELPYWLLGHVEMNRYPTNTDPARLERRTTVSEDAVNSITIGFTFDPTNVASQYANCIAELKTSVYPVMHGVVKYEDAYDKMLAAMKSAGLDEVVDEYKRQFDEWRAGQS	PGPT0017245_3005	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04396	2280	rhaS_11		HTH-type transcriptional activator RhaS	ATGATCCGGCAGCGATTATTCCGTTATGCAGTGTATCGAAATATGTTTCTCAGCTTTGTTTTGCTCACGGCAGCCATGATTGCCCTCGTAACCGTCGTCCTGTACATGATGTTCTCCTGGAGCACCGCGAAGGAGGTAGGGAAAATATCCGAGTCGATGCTGAAGCAGAACAGCGCCGTATCCAGCGTCATCCGTGACCAGGTGTATAACGTGGGCAACCTTCTGCTCAGCGACAAGGAGATCGTGAACGCCCTATTGGACAAAGAGGCCGATCCGGTGAAACAGTATGGCGTGTTCGGCACCCTTAACCGGGTCCAGTCCACCTATCCGTTCATCCATTCGATCGGGATCTATAACGGTTCGAATAACACGTACCTGAATACGAAGGGGATTACCAAGGAGCAGGAGAAGGCGCTGCTGGAGGAGATCAACAGCAAGAATACATCTTATTTTCATCTGTTCCCGCGCAAGATCTCTTCCGCCACTTCGGCGAAGCGGAGCGAAGACGTCCTGACTTTCGTTCTCCTTCCGAGCTATTATTCGCCGCTAAGTTCCAAGGGCGCGATCGTAATCAACATGAGCACCGACACCATCCAGGATCTGATCGGAGGCTACCGCAACGAAGCGGTGGATTCGCTGCACATCATTGACGACAAGGGAACCATCATCACCCATTCGGATCGGTCCCGGTTTATGGAGGATATATCGCAGGAGTCCTATGTCCAGTCCATTCTGGAATCGGACGCGGAAAGCGGTTACTTCACCCGCTCCATCGACGGCCGCAAAAGCCTCGTAACCTACGTCAAATCCAAGGATATGAACTGGACGTATATCAGCGTAAGCCAGTATCAAAATCTGTTGTTCAACATGCAGGCCCTCCGAACGTCGGCGCTGGTTCTCGCATTGGCCTGCTTCGTCGTCAGCATGTTCTTGTCGATCTGGCTGACGCATCATGCGTACAACCCGATCCGCCACCTGCTGGAGAAAATGAGCGCCATACCGAAAATGAAGGAAAACCGTCGGCAAATCAACGAATTTGCCATATTGGATAACACTTACGCCGAAATGACGGAGAAAATGAAGTCGATGGAGTCCGAGGCTTCCGTCGCCCGGCAGGCGCATGTGCTGCAGCTGCTGAAAGGCGGCGACGAGACGGCATTCCGCCGTTTGGCCCGCGAAGGCAAGGGCCCCTATTTCTTGGCGGCCGTCCTTCTGCTCGACAGCTTAGACGGCTCGCCCGGGGGCGAGGACGAGGAGCTGCAGTCCTATACCTGCGCGGCGGTCGCCCAGGCGGCCCAGCAGATGCTGGAGCCGGAGGGAGCCAGCGTGGCAACGGTGGGGGACGGAACCGTTGCAATCATTCTCCCCATGAAGCAGAGTCGGCTTCCGCTCCATGTATTGGGCATGCTGGAGGAGCTGCAGGGCGAGATGCTCCGCACGCTCCGCGTGTCCGTCACCGTCGGTATCGGAACGGCCGCGCAGACGTACGAGGAGCTGCGCGAATCGTTCGATTGCGCGCAGTCCTGCTTCCAGCAGCGCTTTTTCGCGGGAAAGGGCAGGATGTTCCATGGCGATCCGGTCATGACCGCGGAGTCGGAGCATTCCGAGGCGCAGTATCCGGACAAGCGGGAGAAGCGCATCATCGAGGCCATCAAGCTGCAGCAGCGGGATAAATTGGAGAAGGAAATCGATCAGTGGATCAAGGAAATTCGCGATTACAACTACCATGAAGTCATGTTTTTCATCAACCAGTTCATCGGCGGCCTGTACAAGCAGCTCAATGTCCATACGGTGAAAAACCGGGAAAGCGCGGATCTCTTCCTCGACTTTACGCGACGGATTACCCGCTTTCAGACGCTGCAGGAAACCGCGGATGCTCTGAAGGATCTTATCCTTAGGCTCTGCAGCCTGTCCGAGGAATCGGGAGCGGTCCGGCATGCGGAGGTGGTGGATTTTATCCAGATGTACGTACGCAAGCATTATGCAAGGCCGGATATGTCGCTCGAGCAGGTCGCGGGCGAGGTGAAGCTGTCCCGCAGCTATGTCGGCAAGCTGTTCAAGGCGCATTGCGAGCTGTCGTTCAACGATTACCTGAATGCCGTTCGTCTGGAGAAGGCGCGGGAGCTTCTCGCAAGCACCGAGGAGTCGGTTCAATCGATCAGCGAGCGGGTGGGCATCCTGAATACGACCTATTTCTACACGCTGTTTAAAAAGCACTACCAGATCTCGCCGGCCCAGTTCCGCAGCCAGCATGCGATCGAGACGAAAAAGGCGCAGTGA	MIRQRLFRYAVYRNMFLSFVLLTAAMIALVTVVLYMMFSWSTAKEVGKISESMLKQNSAVSSVIRDQVYNVGNLLLSDKEIVNALLDKEADPVKQYGVFGTLNRVQSTYPFIHSIGIYNGSNNTYLNTKGITKEQEKALLEEINSKNTSYFHLFPRKISSATSAKRSEDVLTFVLLPSYYSPLSSKGAIVINMSTDTIQDLIGGYRNEAVDSLHIIDDKGTIITHSDRSRFMEDISQESYVQSILESDAESGYFTRSIDGRKSLVTYVKSKDMNWTYISVSQYQNLLFNMQALRTSALVLALACFVVSMFLSIWLTHHAYNPIRHLLEKMSAIPKMKENRRQINEFAILDNTYAEMTEKMKSMESEASVARQAHVLQLLKGGDETAFRRLAREGKGPYFLAAVLLLDSLDGSPGGEDEELQSYTCAAVAQAAQQMLEPEGASVATVGDGTVAIILPMKQSRLPLHVLGMLEELQGEMLRTLRVSVTVGIGTAAQTYEELRESFDCAQSCFQQRFFAGKGRMFHGDPVMTAESEHSEAQYPDKREKRIIEAIKLQQRDKLEKEIDQWIKEIRDYNYHEVMFFINQFIGGLYKQLNVHTVKNRESADLFLDFTRRITRFQTLQETADALKDLILRLCSLSEESGAVRHAEVVDFIQMYVRKHYARPDMSLEQVAGEVKLSRSYVGKLFKAHCELSFNDYLNAVRLEKARELLASTEESVQSISERVGILNTTYFYTLFKKHYQISPAQFRSQHAIETKKAQ				NA	NA	NA	NA	NA
AK002_04397	927	yteP_51	COG4209	putative multiple-sugar transport system permease YteP	ATGAAAAAAAGCCGCTTCGGCTTCCTGCGCGAAATCCGCTCGAACGGATCCGCCTACCTGCTCGTCGTACCGGCTGCCATCTATACGCTGGTCTTCGGTTATTTCACGCTTCCGTACATGCTCATTGCGTTTCAGAAATTCAACTTCAAGACGGGACTCTTCAATTCCGCCTGGGTCGGGTTTGACAATTTCAAGTTCTTCTTCTCGTCACCCCGGGCTTGGGAGGTCACCTTCAACACCTTGAAACTCAATTTTCTATTTATTATCGTTGGCACGCTCGCAGCCATGGCGTTGGCCATACTGTTCAACGAGCTCCGCAGCCGCTGGTTCTCGAGGGTGACCCAATCCACGATTCTGTTCCCGCATTTCTTGTCCTGGGTAATCGTGAGCTACATCATCTACAGCTTGCTGTCGACCGACTACGGTATCCTGAACCGGATCCTGGCGTTCTTCCACATCGACCCCGTCAACTGGTACGCCTCTCCGCAATACTGGACGTGGATTCTTACGACCGCGGCGGTCTGGAAGGACCTCGGGATGAACCTCGTCATCTATCTGGCGGCTATCACGGGAATTGACGACAGTTATTACGAAGCCGGCCGGATCGACGGCGCTACCCGTTGGCAGCTCATCCGCCACATCACCATTCCGCTCATGCTGCCGACCATATCCATCTTAACCCTGCTGGCTCTTGGCAAAATCATGTACGGCAGCTTCGACATGATCTATGCCATCGTCAAGGACAACGGGCTGCTGTATCCGACGGTTGACGTCATCGATACGTATGTATTCCGTTCCCTCCGCACCATCGGGAATCCGGCACAGGCCATGGCCGTCGGACTGTATCAATCCGTGGTCGGCTTTATTCTCGTATGGGGCAGCAACAAAATCGTGAAGAAGGTGAATCCGGACCATGCCTTGTTCTAA	MKKSRFGFLREIRSNGSAYLLVVPAAIYTLVFGYFTLPYMLIAFQKFNFKTGLFNSAWVGFDNFKFFFSSPRAWEVTFNTLKLNFLFIIVGTLAAMALAILFNELRSRWFSRVTQSTILFPHFLSWVIVSYIIYSLLSTDYGILNRILAFFHIDPVNWYASPQYWTWILTTAAVWKDLGMNLVIYLAAITGIDDSYYEAGRIDGATRWQLIRHITIPLMLPTISILTLLALGKIMYGSFDMIYAIVKDNGLLYPTVDVIDTYVFRSLRTIGNPAQAMAVGLYQSVVGFILVWGSNKIVKKVNPDHALF	PGPT0017250_2065	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04398	879	araQ_48	COG0395	L-arabinose transport system permease protein AraQ	ATGACGTCCAGACCTAAATTTTTCGACGCCGTGAATGCCGCGCTGATCGGCATCATCTCCATTCTCTGCATCCTGCCGATGCTGCTTGTGCTCATGGTGTCCTTTACCGACGAAGCCAGCATTAAGCAATTCGGCTACCAGCTGTTCCCGAGCGAGCTGTCGCTGGATGCCTACAAGCTGCTCCTGTTCGGCAGCACGCCGCTGTACCGGAGTTACATGATCTCGATCATCGTGACGGTCGTCGGCACGATCCTTGCGGTCACCATCACGTCCATGGCCGGATATACGCTGGCCGCCAAGCATATCCGTTACCGCAACGGGCTCGGATTGTTCTTTTTCATTACGATGGTTTTTAACACGGGCCTGGTGCCTTGGTATCTGATCAACCTGAATCTCGGCATGAACAACACCATCTGGGCCCTGATCATACCGTCCTTGGTGTTCAACCCGTTCAACCTGTTTCTTGTACGCAACTACATGTCCCAAATTCCGCCTTCCCTGACGGAGGCGGCCAAGATCGACGGCGCGAGCGACTTCTATATCGCGTTCCGGATCTACTTCCCGCTCTGCATGCCCGTCCTGGCCACGATTACGCTGTTCTACGGCATTGCCTACTGGAACAACTGGTTCAATGCCATCATGCTGGTGGACAACGAGAAGTTGTATCCCCTTCAATACCTGCTGTTTAAGCTGAACTCCGAGATCAGCATGATCCAACAGATGCAGAGCAGCGGAGCCATCCTCGGCAGCCAGACGCTGCCACAAGAATCGGTGAAGATGGCCACCGCCATTCTGACGATCGGGCCGGTGGTGCTGTTCTATCCGTTCCTGCAGCGGTATTTCATAAAAGGGCTGCTGATTGGCTCTTTGAAGGAGTAA	MTSRPKFFDAVNAALIGIISILCILPMLLVLMVSFTDEASIKQFGYQLFPSELSLDAYKLLLFGSTPLYRSYMISIIVTVVGTILAVTITSMAGYTLAAKHIRYRNGLGLFFFITMVFNTGLVPWYLINLNLGMNNTIWALIIPSLVFNPFNLFLVRNYMSQIPPSLTEAAKIDGASDFYIAFRIYFPLCMPVLATITLFYGIAYWNNWFNAIMLVDNEKLYPLQYLLFKLNSEISMIQQMQSSGAILGSQTLPQESVKMATAILTIGPVVLFYPFLQRYFIKGLLIGSLKE	PGPT0017255_2212	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04399	405	rppH_4		RNA pyrophosphohydrolase	TTGGGCTTTCATGACACGTACAGATTTGGTGTGCATGCCATCATATTGAACGCTGACGGCAAGCTGCTCTTATTAAAACGGACCTATGGGAATAAGGGATGGAGTTTGCCCGGGGGCGGGGTGGATTCCGGCGAAACGATCCATGAAGCGATTTTTCGCGAATGCCGCGAAGAACTGGGCCTTACCCTGCAAGATGCGGTCTTGACCGGATTTTATTATCACAGTCATATCAACGCGCAGGTCGGCATATTCCGCTGTTCGATCCCGCTTCACGAGGAAATTGTGCTCAGCTCCGAGCATTCGGAATATAAATGGGCCGAGTTGTCGGAGCTGAGCGAGGTTCAGCGGTTAAGGGCCCAGGATGCATTGGCTTATCAAGGAGAAGTCAAAAGCCGGGCGTTTTAG	MGFHDTYRFGVHAIILNADGKLLLLKRTYGNKGWSLPGGGVDSGETIHEAIFRECREELGLTLQDAVLTGFYYHSHINAQVGIFRCSIPLHEEIVLSSEHSEYKWAELSELSEVQRLRAQDALAYQGEVKSRAF				NA	NA	NA	NA	NA
AK002_04400	618			hypothetical protein	ATGGAGCCGCAATATCATACGCTGTATGATCACGGAGTGCTGTCTTATATGAGGGGAAGCTTGGACGGCCTGGGAATGCCCGATAAGACGGTGGAAACGCTTGTGCATCGGGGAATGCCGGTCTTTGATCCGCTGGAGCCACCGCTGGGTCTTCTGTTTCATGAAGCGTTACCGCTACAGGATATTCACGGAGCCTATATCGCGATCGGAAGGGAGATCTGGAGCGAAGGGCTGCATGTCGCGATCCACAAGGATACAGGGGGAGTGTGGGCAGTAACGGAGGGCGGTACAAAGAAACCGACCTACATAAACGCCTCCATCGACAGCCTGCTCGCCTTTATGGACCGTGTGCTTCGATTCAAGCAGCAAACGGAGCGCTTGCAGCCCGATCCACCTCCCACGATTTTGACGGCAGAACAATTTCGCGAGAAACTTGAGAAGTTCAGAAGAGGGGAGATCAAGCCGGGAACCCGTCTGGACGCTTTACAGGCTGAGCGCGAGTGGAAGTCAGCCTTCGAACAAATGAAGCGGGAGCTGAAAGACATGGATCCTAATGCCGTTCGTTCCTCTTCATGGTGGGGAATTGTGCTGGAGGAAATGAAGGATCGTTTGAGGTAG	MEPQYHTLYDHGVLSYMRGSLDGLGMPDKTVETLVHRGMPVFDPLEPPLGLLFHEALPLQDIHGAYIAIGREIWSEGLHVAIHKDTGGVWAVTEGGTKKPTYINASIDSLLAFMDRVLRFKQQTERLQPDPPPTILTAEQFREKLEKFRRGEIKPGTRLDALQAEREWKSAFEQMKRELKDMDPNAVRSSSWWGIVLEEMKDRLR				NA	NA	NA	NA	NA
AK002_04401	795			hypothetical protein	GTGGACAAAAAGGCGAAAAAGGTTTTACTTCAAACGTTCTGGTCATCCAGCGGCTGGAAAAGCAGTCCTTTGCCTTTCGTTGGGGAGGACTTTGATTACGCGAAGAGCATGAGGCTGATGTTCGACCCCATCACCATCGGGCATGATGAGCTGATCCAGCGGCTTCATAGCTTACATAAGACGGTTACTAAAGAAAGGGTTGCTGCCGCATTTCTGCACAGTCTGTCCACGAGACAAGTGCATCTGCGAAGCGCGCTTTCCAGTTGGGCGCTTACTTCGCGCCTGCCTCTTCATCAGTACGAAGAACAACGCTCGGCCATGCCGAATTACAGCAGCTGCGGAGACTGTAACCATGCCGGGCTCCAGTCCGACCGGGATTACGTGAATGCCGACCTGAACGTGCTGAATTTCGAACGGGTCAAATGGGGAGGCATCCGCTTGAATCAGCTGCTCTACTGCTGGCTCGATCTGGAGCTGTTGAGCCATGAGGAGGACCTAACGGTGAACGAGGAGGATATCGCCATTCTGAGGAAGCTGATGACAGCCGTCGACGGATGCGGCGAAACAGATAGCCCGCGTCATCTTGAGAAGCGCTTGAAGGATGTTCTGCCTTCAAGCAAGCATGAACGAGACGTGCTGATGGAAGTTTGGGGATATGCCGGCGTGCTGGTTCCGAAGGATACGCCCCGCACGCGTCCGAGAAGGGACGACGATTTCTTCTCGATGTCGGAGTGGCAGGGAAGCGACGGATATTCCACTGAAGCGCTGCAGTTTTATTTCGGCGAGTATCTGTAG	MDKKAKKVLLQTFWSSSGWKSSPLPFVGEDFDYAKSMRLMFDPITIGHDELIQRLHSLHKTVTKERVAAAFLHSLSTRQVHLRSALSSWALTSRLPLHQYEEQRSAMPNYSSCGDCNHAGLQSDRDYVNADLNVLNFERVKWGGIRLNQLLYCWLDLELLSHEEDLTVNEEDIAILRKLMTAVDGCGETDSPRHLEKRLKDVLPSSKHERDVLMEVWGYAGVLVPKDTPRTRPRRDDDFFSMSEWQGSDGYSTEALQFYFGEYL				NA	NA	NA	NA	NA
AK002_04402	2334	rhaR_54		HTH-type transcriptional activator RhaR	ATGACCATTCACAACCTCAAATCATTCATCGTATCCACTTTCACATTCCGAGCAAATTGGAATCACTTTAAGTCGAAGCTGCTCTTAAGATACGTTCTGTCTTATATTCTGATCTTCCTGATTCCCCTGACGGGAGTAACGATGTTTGTTTATGATAGCGCTGTCAGCGGACTTCGTACCGAGATTGAACAATCCAACATCAATCAATTGAACCAGGTGAAAATGACCATCGACTCCCGTATTGCGGAGCTTCGGGAGCTTTCCGGCCGAATCGCTTACGACAGACGCTTAACCCCTTATATGGTCCGTGATGATTATTACAGAGTGGAAGCCATACAAGCTTTGGCCAACTATAAGGCAAACAGCAGCATCATTGAAGACATCTTCTTATACTATCATAACGACCCGATTATCTACTCTTACCGTGGCCTGACGAATGTTAACGTTGCGTTCGATTCCTTCTATCGTTATGAGAACTGGAGTCTGGAAGATGTCACCCTTGCGCTGAACGAAACGAATCAGATGGTAATACGGCCGGCCGAGAATGTTACGATCAACAGCTCCAGGCAGGAGACGATGCTGACCATCATCGTACCGATCAAGCCCAATGCCCCCTATCCGTACGGGAGCGTTGTATATATGGTAAAAGAGTCCAATCTTACCGGGGTCATGGATTCCATTCTTAGCGATTTCACCGGGAGCAGCTACATTCTCAATCAAGATGATGAAGTGCTTACTGCGAGCAATCACGGTGTAACCCTGTCTCAAGAGCATCTCGGGACATTGGCTGCGCTCGATGCCGGCATACACAATCTCTCCCTGAATAATGACAAGTATTCCGTCGTATCCGTCAAATCCGGGGAGAATGGATGGAACTACATGACCATCATGCCAAGCTACCAGTTCTTCAGCCGGGTCGCTCATGTACAGACGCTCATACTGCTGGTGTTTGGCATCGCCGTCATAACCGGAGTGCTTGCCGCTTTTGTGCTGGCTAGACGCCAATATCACCCGATTAAGGATTTGATGGAATTCGCCAAGCTCAGAGTTAGCGATACCCCAGAGCCCAAAACGCGCAATGAATGGGAATGGATTCGTCAGACCCTTCACGATTACAGCACCCGGATCGATATGCAGGAGCCCTTCGTGCGCAACCAATGCATGCTGCTTCTGCTGAAGCACGGCAAGCCGGATGATCCCGAAATCGAGCGAATGATCGCCGGAGCCGGATTGGAATCTCCCCAAGAACAAGTCATTTATTTCTGTGTGATTCTGTCCTGGGAAGAAAACGATGCGGCCGAGGAAGTCGTCCAGAAGGATCGTCAGCAGGTGCATGAAATTCTCAGCCATGTTGAACCTTCAGGACTTCAAGCGAATATCTATGGCGTTGAATTCTCAGCCGATAATCAATATGCGCTGATCGTATCGCTTCCTGACCCTGGCCAAGATTCGCTGAAGCTCCGGATGGAGCAGATCATTCGCGCGGTCCAGGGATTGATCTCCGAGAACACTCGGCTCGATCCGAGCATGGGCGTAGGTACGCCCTACCGGGATTTGGGGCAGCTGAACCAATCCTTCATCGAAGCCGCAACCGCACTCGAGCACCGAATGGTCGGCAGCAGCCGAATCACCTATTTCGACCAGTTGGCAGAGCAGAATCATCCTGTCGCCAAAGGTGTATGGCTTCCAAGAAAGTCGCTGCTCAAGCTGGAGCAAAGCCTAAAGCAGGGCAACGAGTCGGTGGCTGTGCAGATGATCGCCGAGATGATGGAGACCATCCGGAGCGAACCGCTGCAAATTCATCTGCTGCGCTGCATTTGCTTCGATCTGCTGAACGCGCTGCTTCGGTCCGCCTCTGAGGTTGGAATGAACGAAGTATTCAGCAGCATCTCGGATTATACGTCGTTTGAGACGCTGGAGGAATTTGAGGACAAGCTGTTGTCGCTCACGACAGAGATTTGCGAGAAGGTTGAGCGTAACCATGAGCGGGCAGCACCTAAACTGATCGATGATATCGTACATTATGTAAATCAGCAGTTTGCCGACTATACGCTCAGCCTGGAGCATGTTGCCCTTAAATTTTCCGTCTCTACCTCTTACTTAAGCCGCAGCTTCAAAGAGAAGACCGGGATCAGTTTCTCGCAGTATATCTGGAAGAGGCGTACGGAGGAAGTCATTCGGCTGCTTGTGACGACAAGCGCTCCCCTGAAGGAAATCATCGAGCAGGTGGGCTACCTGGATGCACCCAATTTCATCCGCAAATTCAAGAAAGAAACCGGGCTTACGCCCGGTCAGTACCGCAAACAACATCGCTCGAATAGGCTGGATATATAA	MTIHNLKSFIVSTFTFRANWNHFKSKLLLRYVLSYILIFLIPLTGVTMFVYDSAVSGLRTEIEQSNINQLNQVKMTIDSRIAELRELSGRIAYDRRLTPYMVRDDYYRVEAIQALANYKANSSIIEDIFLYYHNDPIIYSYRGLTNVNVAFDSFYRYENWSLEDVTLALNETNQMVIRPAENVTINSSRQETMLTIIVPIKPNAPYPYGSVVYMVKESNLTGVMDSILSDFTGSSYILNQDDEVLTASNHGVTLSQEHLGTLAALDAGIHNLSLNNDKYSVVSVKSGENGWNYMTIMPSYQFFSRVAHVQTLILLVFGIAVITGVLAAFVLARRQYHPIKDLMEFAKLRVSDTPEPKTRNEWEWIRQTLHDYSTRIDMQEPFVRNQCMLLLLKHGKPDDPEIERMIAGAGLESPQEQVIYFCVILSWEENDAAEEVVQKDRQQVHEILSHVEPSGLQANIYGVEFSADNQYALIVSLPDPGQDSLKLRMEQIIRAVQGLISENTRLDPSMGVGTPYRDLGQLNQSFIEAATALEHRMVGSSRITYFDQLAEQNHPVAKGVWLPRKSLLKLEQSLKQGNESVAVQMIAEMMETIRSEPLQIHLLRCICFDLLNALLRSASEVGMNEVFSSISDYTSFETLEEFEDKLLSLTTEICEKVERNHERAAPKLIDDIVHYVNQQFADYTLSLEHVALKFSVSTSYLSRSFKEKTGISFSQYIWKRRTEEVIRLLVTTSAPLKEIIEQVGYLDAPNFIRKFKKETGLTPGQYRKQHRSNRLDI				NA	NA	NA	NA	NA
AK002_04403	1017		COG2152	1,4-beta-mannosyl-N-acetylglucosamine phosphorylase	ATGAAAATTACGAGACATCCGAACAATCCGATCGTCGTTCCGGGAACGTACGAATGGCGTAAAGTCACCGTATTCAATCCTGCGGTTATTATAGACAACGGCAAGTTTTATATGATTGAGCGTACCGCAGGCTCGCTAACGCCCTGCAAGAATGTTTTGGGACTGCTGGAGAGTGAAGACGGGGTGAATTTTACGCACGTGAAGGACGAGCCGATCGTGACGCCTGACATGCTGGGCTTTCCATATGGAAGCGTCCAGGACCCGCGGATTGTCAAAATTGACGGCACGTACTATCTAAACTATGCCCTTAGGCCATGCGCCATGAGTTACTATCCGACAGGAGCGGGGATACCGGAGCGGTCGATTCCCAAATATCCGGACGGCTGGGGGGAGGAGGAGGGCCACTGGCTCACTCGCTCTTCGATTCTAAAGTCGGACAATCTGATCGACTGGGAATTCGTTGCCGATACGACACCGCTCGATATCAATGACCGCGACAACATTTTGTTCCCTGAGAAGATTAACGGAAAGTATGCATTGCTGCGCCGTCCGGAGGAATACGTGGGTGCAGCTTACGGAACCGACAGCGCGGCGATATGGATTACGTACTCCGAGGATCTGGTTCATTGGGAAGAGCCGAAGCTTCTGGCCAAAGCCGAGAATCCGGCATGGGAATCCAGGAAAATCGGCGGAGCCACGCCGCCTGTGCGAACCGATAAAGGCTGGCTGGTCCTTTACCACGGCGTTGATGATCAGGTCGTTTACCGTGTTGGGGCGATGCTTCTTGACCTGAACAACCCTGAGAAGGTCATAGCAAGAACGAAAAATTACATTATGGAACCGGAAGCCTATTATGAGAAATTCGGTTATCAAATTCCGAATGTGGTGTTCCCGACAGGAAACGTGGTCAAAGACGGTCTGCTCTATATCTATTATGGTGTGACCGACACTGCAATTGCACTGGCTACCGTGCCGGTCGATGAGCTGGTAGAGCATATCTTGAACGAACCGCAGTGA	MKITRHPNNPIVVPGTYEWRKVTVFNPAVIIDNGKFYMIERTAGSLTPCKNVLGLLESEDGVNFTHVKDEPIVTPDMLGFPYGSVQDPRIVKIDGTYYLNYALRPCAMSYYPTGAGIPERSIPKYPDGWGEEEGHWLTRSSILKSDNLIDWEFVADTTPLDINDRDNILFPEKINGKYALLRRPEEYVGAAYGTDSAAIWITYSEDLVHWEEPKLLAKAENPAWESRKIGGATPPVRTDKGWLVLYHGVDDQVVYRVGAMLLDLNNPEKVIARTKNYIMEPEAYYEKFGYQIPNVVFPTGNVVKDGLLYIYYGVTDTAIALATVPVDELVEHILNEPQ				NA	NA	NA	NA	NA
AK002_04404	1617			hypothetical protein	ATGAAGATGACAAGCAAACCTTGGAAGCTGGTGTTGACGGGGCTGACAGCCCTGTCCCTGCTCGCCGGATGCGGTTCGGCCGGCGATACGAAATCTGCCGGAACAAAGTCAACGGAAGCAGCCGCCGTGAATAAGGAAGGCTTCCCGATTATGAATGAACCGATTACGTTGACCATGATGGCACCTGATGTCGGCGTTCAGAACTGGAAGGATATGGCTGTGCTGCAGCAGATGGAGGAAAAGACGGGCATTTCATTCCGATACTTGAATGCACCGAAGGATAGCTTTGATACGAAGAAGAACCTCGTATTTGCCAGCGGCGATTACCCGGATGTTTTCTATGCTGCAGGTTTGACGGCGGCCGAACAGATGAACTATGGCGAGCAGGGTATTCTGATTCCGCTGGAGGAGCTCATCGAGGAATATGCTCCGAACTTCAAGGCGCTGATGGATGAAATTCCGGAGATCCGTAAATCCATTACGGCTCCGGATGGACATATTTACTCCTTGCCTGCGGTCGATTTAAGCCAGCACTGGTATCGGAACCCGATGTGGTACAACGGTGATTTCCTGGAGGCCCTGAATATCGACAAGCTTCCGGAGACGACCGAGGAGCTCTATACCTTCCTGAAGCGGGTAAAAGAAGAGGATCCGAACGGCAATGGAGTCGCCGATGAAATCCCGATCTCTTCCGTATCGACGGCGACGACCAATGCTCGGGATATTCGTACTTGGCTTCTTGGCGCTTTCGGCGTCTATGAAGACGAAATTTATGTAGACGATGAGGATGTTGTTCATTATACCCCGATAGAAGAGGGCTTCAGAGAGTATCTGGTCTATATGAACCGTCTATGGAAAGAGGATCTGCTCGACCACGAAAGCTATTCGCAAACCGCAGAACAGAAAAAGGCCAAGGCACAGAACAATCAGGTGGCCCTGTTCTCCGACTGGCATGCCTACATGACCAAAGGGGGAGAGCCGTCCACCAAGGATCCGATGTTCGCTCCGGTGAAAAGCGATTTGGTAGACAAGCCGGCCATCGCCAAGAACAGAGGGATTACGACAGGGGCTTTTGCCATCTCAGTGACCAATCCTGCCCCTGAAGCATCGATGCGTTGGGTGGACTACCTTTACTCTTATGAAGGGTCGCTTTTTTTCAACAAAGGACCGGAAGGCATGCTGTGGGAGTATACGGATGAAGCTAATCGCGTGAAACGCTATTTGTCTGTGCCGGACGGCATGGAAATGGAGGACTACCGTGCGACTTTGACGCCAAACTACGGCATTCCGGCTCCTACCATCAACACGGACGATATCAATAAAGGATTGAAGACCGACTTTGACCAGTGGGTTGAAAAGGAGACGAAGGAAAAGCTGCTGGATCGCGGAGCCAGACCTCCGTTCCCTGCCTTGTTCCTTACCGTTGAAGAGCAAACCGAGATTAACAGCCTGAACTCGGATTTGAGCACATATGTACAACAGATGGAGGCGAAGTTCGTGACCGGAGCAGAACCATTGTCCAATTGGGATAACTACCTGAACACGATGAAGAAAATGGGTGCCGACCGGGTCGTCGAAATCTATCAAGGCGCATATGATCGCTGGAAGTCGAGCTAA	MKMTSKPWKLVLTGLTALSLLAGCGSAGDTKSAGTKSTEAAAVNKEGFPIMNEPITLTMMAPDVGVQNWKDMAVLQQMEEKTGISFRYLNAPKDSFDTKKNLVFASGDYPDVFYAAGLTAAEQMNYGEQGILIPLEELIEEYAPNFKALMDEIPEIRKSITAPDGHIYSLPAVDLSQHWYRNPMWYNGDFLEALNIDKLPETTEELYTFLKRVKEEDPNGNGVADEIPISSVSTATTNARDIRTWLLGAFGVYEDEIYVDDEDVVHYTPIEEGFREYLVYMNRLWKEDLLDHESYSQTAEQKKAKAQNNQVALFSDWHAYMTKGGEPSTKDPMFAPVKSDLVDKPAIAKNRGITTGAFAISVTNPAPEASMRWVDYLYSYEGSLFFNKGPEGMLWEYTDEANRVKRYLSVPDGMEMEDYRATLTPNYGIPAPTINTDDINKGLKTDFDQWVEKETKEKLLDRGARPPFPALFLTVEEQTEINSLNSDLSTYVQQMEAKFVTGAEPLSNWDNYLNTMKKMGADRVVEIYQGAYDRWKSS	PGPT0017245_1848	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04405	912	melC_13	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	TTGGTTACCGCGATGAAGGAATCGAAGTGGGACAAGATTTTTCTCGGCAGCGTTTATATCTATTTATGCATCGCTCTAATTGTTGTTCTGTATCCGCTCGTATATATTCTCAGCGCATCGATCAGCAGCCCGCAGCAGGTGAATTCCGGTGCGATGTGGCTGTTTCCCAAGGAGATTACCTGGGCCGGATACCAGCTGGTCTTCGAAAACCCGAAGATTTGGAACGGATACCTGAACACGATCGTTTATACTGGGATAGGAACGCTGTTGAACCTGGCCGTGACACTGCCTGCAGCCTATGCGCTCAGCAGGTCGGATTTGGTCGGTCGTCAACTGTTCTTGGGATTTATTCTGTTCACGATGTTTTTTACCGGAGGTCTTGTGCCAACATATCTCGTCGTCCGGAATTTGGGACTGATCAACACGATGGGGGCGCTCATTCTTCCCGTAGCCGCATCGGTATGGAATATCATCGTTGCCCGGACGTTCTTCCAGACGACGATTCCCAAGGAACTGCAGGAAGCGGCATATATGGACGGCTGTACCAACCTGAAGCTGTTCGTCCGCATTATTCTGCCGCTGTCCGCGCCGATTATTGCAGTCATGGCATTATTTTACGGGGTCAGTCACTGGAACAGCTATTTTCCGGCTCTGATCTATCTCAACGATGAGAGCAAGTATCCTCTGCAGATGGTGCTGCGGCAGATTCTGGTTCTTCAGGAAATGACGGCGGAGACGACCGGCGCCGGGATCAGCGGGGATGCTGCCAGGGCCATGAATTCCAAAGCCGAAACGGCATCATTGATTAAATACGGGGTTATCGTTGTATCTACGCTGCCGATTGTGGCTCTCTATCCTTTTTTACAGCGATACTTTGTCCAAGGGGTCATGATCGGCTCTGTAAAAGGATAA	MVTAMKESKWDKIFLGSVYIYLCIALIVVLYPLVYILSASISSPQQVNSGAMWLFPKEITWAGYQLVFENPKIWNGYLNTIVYTGIGTLLNLAVTLPAAYALSRSDLVGRQLFLGFILFTMFFTGGLVPTYLVVRNLGLINTMGALILPVAASVWNIIVARTFFQTTIPKELQEAAYMDGCTNLKLFVRIILPLSAPIIAVMALFYGVSHWNSYFPALIYLNDESKYPLQMVLRQILVLQEMTAETTGAGISGDAARAMNSKAETASLIKYGVIVVSTLPIVALYPFLQRYFVQGVMIGSVKG	PGPT0017255_764	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04406	990	yteP_52	COG4209	putative multiple-sugar transport system permease YteP	ATGAAGGGAAGAAGACTGCTTGCTGTGATATCCGGAAGACGTTCCATCCAACGCGAAACGAAGCCGCCTAATCCAGGTGTAAACCAAACGTCTCTTGGTAAACGAATCAGGGTGAACTGGGAGCTCTATCTGTTCTTGGTGCCGGCCTTACTGTATTTCCTTGTATTTCACTATGCGCCGATGTACGGCATCCAGATTGCCTTTAAGAACTTTATCCCCAGCAAAGGAATCATGGACAGCCCATGGGTGGGCTTCGATCATTTCGAGCGTTTCTTCAATTCCTACTATTTCTGGGATCTGCTCTGGAATACGTTCAGCCTCAGCTTCTACGAGCTGATCATCGGGTTTCCGCTGCCGATCATCCTGGCGCTCACTTTCAACGAAATCCGGACGGGTCCCTTCAAGAAAATCGTCCAGACCGTTACGTATGCGCCTCATTTTATATCCGTTGTTGTCATGGCGGGTATGATTATTACCTTCTTATCGCCGTCCACAGGCATCCTGATCCAATTGATCAAATGGATGGGCATCGATGCGCCGAACTTTCTGTCGGATCCGGCGTGGTTCAAGACCGTGTACGTTCTGTCCGGGGTCTGGCAAAGCACCGGATGGGGGACCATTATCTATCTGGCCGCGCTGTCCGGGGTCGATCCCCAGCAGCATGAAGCCGCGATTGTGGATGGCGCCAGTCGTTTCAAACGATTGCTGCACATCAACCTCCCGGCCATACTCCCAACGATCACCATTTTGTTGATTTTGAACATGGGCAACATTCTTACGATTGGCTTTGAAAAAATACTGCTGCTGCAGAACTCGCTGAATATGGAATCTTCCGATGTCATTTCAACTTATGTTTACCGGACCGGTCTGGTCGACGCGCAGTACAGCTTCTCGACAGCCGTTGGCCTGTTCAACTCCGTGATCAACGTCATTCTATTGGTAACGGTCAACCGGATTGCCAGACGCACCAGCGAGAACAGCCTATGGTAG	MKGRRLLAVISGRRSIQRETKPPNPGVNQTSLGKRIRVNWELYLFLVPALLYFLVFHYAPMYGIQIAFKNFIPSKGIMDSPWVGFDHFERFFNSYYFWDLLWNTFSLSFYELIIGFPLPIILALTFNEIRTGPFKKIVQTVTYAPHFISVVVMAGMIITFLSPSTGILIQLIKWMGIDAPNFLSDPAWFKTVYVLSGVWQSTGWGTIIYLAALSGVDPQQHEAAIVDGASRFKRLLHINLPAILPTITILLILNMGNILTIGFEKILLLQNSLNMESSDVISTYVYRTGLVDAQYSFSTAVGLFNSVINVILLVTVNRIARRTSENSLW	PGPT0017250_328	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04407	549	sigM_5	COG1595	ECF RNA polymerase sigma factor SigM	ATGAGCATACAAATCAAGACTTCAATCAACGAGGAGAAAAGGGGTACAGACATTTCTCCAGAAGAAAAGGTCTACCGATTGTATTATCACTATTTGTATAGATACATTGTTCCACTGATGAAGGATCATTCGTCGATAGAGGATATTATTCATGATTCATTTATTAAAATTATGAACCATTGGCCAAGAGGAACCGTTCCAGATATAGCTTGGATAAAAAGAGTCGTGAGAAACACTGCGTTAGATCACTATAGAAAACTTAAAAAAGTTCAGATTTTCTATGACGCTGAACAGGTAAATACAATAAAGGAATTAGACAGCCACATAAACACATTAGATAGAATTGAAGAGAAAATAAAAAAAGAATTGTTACATCAAACGATAAATGAGTTAAAAAGAGACTATAGAGATTTAATCAAATTATTTTATTTTCAAGGAAAATCCTATAAAGAAATTTCTCAGGAACTTAAATTGTCGGAACAAGTGATTACTCAACGGCTATTTAGAGCAAGAAAAAAGCTATATCATAGTTTTTCGAAAAAATGGTAA	MSIQIKTSINEEKRGTDISPEEKVYRLYYHYLYRYIVPLMKDHSSIEDIIHDSFIKIMNHWPRGTVPDIAWIKRVVRNTALDHYRKLKKVQIFYDAEQVNTIKELDSHINTLDRIEEKIKKELLHQTINELKRDYRDLIKLFYFQGKSYKEISQELKLSEQVITQRLFRARKKLYHSFSKKW				NA	NA	NA	NA	NA
AK002_04408	1122			hypothetical protein	TTGACTTTAACTAGTAAAAAATTCGTAACATGTTTAGCAGTAGTGGCACTTTCGTTCTCTGCTTTTTCTACAAGTGCATTTGCCGCAACAAAAACTTGGACCAATAATACATTGACAAATTGGGACAAACCTATTTCCGGAACTTTTACAGCTGAAAAAATTTCATCCACTCTAGCATATAACGAGTTGGATTTTTGGTGGTCTGCTAGCCAAGTTGACTATATGTCATGGGTGGCAAATTACCCTACCTTTGATTTTAGGGATAATGGAAAGAGCGCTCTTGATTCTGGTGGCGGTGCCTCAAGTAACTTACCTGATCCTAAGTTCGATTTCGAGGATGATAATTCAGATGGAAAAGTTGATGAAATTGAGGTTGTAGCAGTCGGGAAAGCTGAAATTCAAGATTTGGTCGATTATAATTTTTATGCTTCATGGTCAAAGTCTGGTTCCAGTAACCCTTACATGATTGCTTATTCGTCTATGAGTGGCTCTCCATTATTTCCAGGTGGAGATTTCAATACTATTCCAAACTCTACAGATTCATTGGCAGGTCATTACTGGAATGATTTATCGACAATGTCAACTTTGATGTTAGATCAGTCTTACATACCAACCTGGGACGAAAAAATGGAAATATTGAATCAAATTGAGCTTCAGAGTAATGACTCCGAGGGACAGGTTGTGAGCCCTTCCTATAAAGGTCTGAAGACTGCAGATGACATTGCTTCATATATAAGTCTGGCCGATAGTGTCTTATCATCCGCTGTAGATCAAGAATACAAGTATAAAATTACTTTTAACAAACCTTTAACTCTTGAAGAAGTCACTACTATGAATGAGCAGAACCAACTTAGTTCTTCTGTATTTTATGCTCGTGCATTTAATGAAAAAGGGGATAGAGTTACAATTGCACTTAATGGTCTTAATGAAGATGTTCTAAAACAAATAGTAGAAAATCAAAATCTTGATTTCAAAGGCTTTATCGAAATCGAAGGTCAAGCAAGTAGTGATGATTTAAAAAAAGCTAGAGATTCAGAAGCTAATATTTTCTCCGTTGAAATCGGGACAGAAGGAATTCAGCCGAATGGCCTTTACTGGAAACTGGAGAATACAAGAAATTAA	MTLTSKKFVTCLAVVALSFSAFSTSAFAATKTWTNNTLTNWDKPISGTFTAEKISSTLAYNELDFWWSASQVDYMSWVANYPTFDFRDNGKSALDSGGGASSNLPDPKFDFEDDNSDGKVDEIEVVAVGKAEIQDLVDYNFYASWSKSGSSNPYMIAYSSMSGSPLFPGGDFNTIPNSTDSLAGHYWNDLSTMSTLMLDQSYIPTWDEKMEILNQIELQSNDSEGQVVSPSYKGLKTADDIASYISLADSVLSSAVDQEYKYKITFNKPLTLEEVTTMNEQNQLSSSVFYARAFNEKGDRVTIALNGLNEDVLKQIVENQNLDFKGFIEIEGQASSDDLKKARDSEANIFSVEIGTEGIQPNGLYWKLENTRN				NA	NA	NA	NA	NA
AK002_04409	453			hypothetical protein	ATGACTGTTACAAGATTTAGAAACTTCCCATTCATCATCAGATTAGTTTCTTTATTATCAGTTTTTACTGGTTTTTTGTACCTACCTTATTTTCTAAATTTAGGATTACCGATATCTCTCGGTCCAGAAATAACTCAAGCCACGATGGCTACAGAAAAGTGGGCATTATTTGCTGTTTTTGGTGGTTTCGGATTATTTGCCGGTTCTTTCTTATATAATTTATCACAAAGCCAACGTTATAAACGCTTTATTTTAGGAATCACGCTTTTTTCCATGTTATTACTAATTTTAGCGCAATTACCTCCACTATTTTTGTGGTTTTATGTGGGAAGTGCAGATTTCTCGTCGACAAGTTTACTGGGGCTTTTTTTACATTTAATATTGTTAGTTCTTGCTTTCTGGGGAGGCATAGCTACAATGCTTGCTTTTGGTAAAACAAACGTCACTTCCTAA	MTVTRFRNFPFIIRLVSLLSVFTGFLYLPYFLNLGLPISLGPEITQATMATEKWALFAVFGGFGLFAGSFLYNLSQSQRYKRFILGITLFSMLLLILAQLPPLFLWFYVGSADFSSTSLLGLFLHLILLVLAFWGGIATMLAFGKTNVTS				NA	NA	NA	NA	NA
AK002_04410	357			hypothetical protein	ATGAAAAAAGCCAAAACATTAATAACGATATTACTATGTTGCACAATCATTGGTTGCAATCAATCCAAGGTAGAGAAAGGTGACTTTATTTTTGATAAGGTAATTAACGATGATAACACACCTATGATTGCGGTCGTACGAAATATATCTAAAAATGACGCAGCCAATAATGAGTTGTCCGACTATTTAAATAATGATAATCCAGACGATGTTATTTATTACCACATAACAGATATTAAATTATACGAGGATCTAGAAATTGGTGAGAGAGTTACGGTAACAGCTCCAACTACTTTGCTTACGAGCCCGCCTCAAGCTATAGCGATAGAAGTTAAAAGATATGAAGATAAAAATTAA	MKKAKTLITILLCCTIIGCNQSKVEKGDFIFDKVINDDNTPMIAVVRNISKNDAANNELSDYLNNDNPDDVIYYHITDIKLYEDLEIGERVTVTAPTTLLTSPPQAIAIEVKRYEDKN				NA	NA	NA	NA	NA
AK002_04411	1260			hypothetical protein	GTGAAGAGAAAATTGTCATCATTTATAATAATTGTCTCATCGTTCTTTTTGATAACAGGAACGGCTTTTTCTGAAACCAAACAAGTATCTGTCTCAAGTAATCTGGAAAGCAATGAAAGAGGGGAAATTAAAGTAGACCTTGGCCCCGCGCCTCCAAACGCCATTAAGTCAGTTATTCCTTTTGAAGAAAGTAATCCTGAGAAAACTAAACGGGATGAGGATCATGGAGAAATCTCTATCTATTTGCAAACAAATTATAGTGATATTTATGGGGGAACCTATACCTCTATTGAAGGCCAAAAATATTTTCTATTAACCGAAGTAACCCCTGAAATAGAGTTGGAAATTCGGAAATTAAGTGATTTTCCGGATACTTTTGAGATTAAACAAGTACAATATTCAGAAAAGCAACTGGAAGCTGTGAAAAACAGTCTGTCCCAATCGGCTAAAGCCTTTGATTTGCAAGGCGTTGGACTAGATATTGAAAACAATCGTGTTTTAGCCATTACTACTACTCAACCTAATAAAGCAAATGAAGCAGCTATTTTAAAAGAGGGGAATTCTGATATTATCCACTGGAAAGTAAACGAAGAGAAAGCGGTTTACGAACCGTTAGCCTATAATATGTATCCCGGAGAACAAATTGATATGCAATCAACAGCAAGCACGAATTTTTGTTCATTATCCTTTAACGGCAGAGCAAATTTAAAGGACGTTGGGGTAACGGCGGGACATTGTGGAAACCGGACTTGGTATGACGTATCTGATGGATCATCCTCCATTGGTAAAATGAGTAACGCTGTTTTCTCAGATAATTCATTGTTTGATGCCGGGTTCATCGAGTATGTTAGCGGGGTTAATCCAAGCTATTATTTGAACGGTAATACGATGACAATTGGTACTACGGATTATTCTGGTATTCATCGGGAGGTAGGGGATTATGTTTACATTCATGCTGTTTCAGGAGTAGGGAATAGCTACGGATCCTTAAGGATTACGATTACTAACTATGACTTAATCGGTGGACCCACGGACATGGTTCTTACACAAAATAATAGCTCACTTCTTCCTGGTGATAGTGGGGCTTTGGTTTACTCACTGGCACATAACGGGACTAAGAACTATGCAAGAATCGAAGGAGTTTTCGGTGGAAGATACCAAGAAACACCGACAAGCACTAAGTACCTTACATTCTCCAAATATAGTCGAGTATTTGATGGTTTAGGTATGTCTGGGGTCTATACGGATCCGTCTTACTAA	MKRKLSSFIIIVSSFFLITGTAFSETKQVSVSSNLESNERGEIKVDLGPAPPNAIKSVIPFEESNPEKTKRDEDHGEISIYLQTNYSDIYGGTYTSIEGQKYFLLTEVTPEIELEIRKLSDFPDTFEIKQVQYSEKQLEAVKNSLSQSAKAFDLQGVGLDIENNRVLAITTTQPNKANEAAILKEGNSDIIHWKVNEEKAVYEPLAYNMYPGEQIDMQSTASTNFCSLSFNGRANLKDVGVTAGHCGNRTWYDVSDGSSSIGKMSNAVFSDNSLFDAGFIEYVSGVNPSYYLNGNTMTIGTTDYSGIHREVGDYVYIHAVSGVGNSYGSLRITITNYDLIGGPTDMVLTQNNSSLLPGDSGALVYSLAHNGTKNYARIEGVFGGRYQETPTSTKYLTFSKYSRVFDGLGMSGVYTDPSY				NA	NA	NA	NA	NA
AK002_04412	519			IS3 family transposase ISBth10	ATGGCTAATTTTAGTCCGGACGAAAAATTACAAGCGGTTATACGTTATCAAAATGGATCAGAAAGCATGAAATCGATTGCGAAATCAATAGGACTTCATCATACTGTCCTATTACATTGGATTAGACAATATGAGCACCATGGTGAAGAGGTCTTTAAAAAGCGCTATACACCGTATTCCGTACAGGATAAACTAGACGTACTTAATCATATGAAAGAACACGGGACGTCTATTAGAGAGACAGCTGCAGTATTTAATATTGCCAGTCATAGTACCATTCTAAGCTGGCAAAGAAGCTTAGAATTACACGGAATAGACGCCCTACAACCAAAGAAAAAGGGGCGTTCATCCATGAAAAAGGATCCAAAACAACTGAATGATCAAAAGCCTGTAGAGGGGTCTGTAGAGGCTTTACAAAAAGAGATAGAACTTTTGCGTATGGAGAATGCTTATTTAAAAAAGTTGAACACCTTAGTTCAAAACAAGGAAAAATCACCAAACAAGACAAAGCGCAAGTAG	MANFSPDEKLQAVIRYQNGSESMKSIAKSIGLHHTVLLHWIRQYEHHGEEVFKKRYTPYSVQDKLDVLNHMKEHGTSIRETAAVFNIASHSTILSWQRSLELHGIDALQPKKKGRSSMKKDPKQLNDQKPVEGSVEALQKEIELLRMENAYLKKLNTLVQNKEKSPNKTKRK				NA	NA	NA	NA	NA
AK002_04413	243			IS3 family transposase ISBth10	GTGAAAGCACTTCTGCAGCTCGCAGATATCCCTCGTAGCACGTATTACTACTGGGTGAATACATTCGGTATGCCGGACAAAGATTCTGAGTTAAAGGACGTTATTCAAGCGATTTACGAGGAACATCAGGGGCGTTACGGTTATCGCCGTATTCGAGATGAGTTAGTGAACCGCGGTCACCATGTAAATCATAAGAAGGTGCAGCGTTTGATGAACGTGTTGGAGTTGCTGATTCGGAGTTAA	MKALLQLADIPRSTYYYWVNTFGMPDKDSELKDVIQAIYEEHQGRYGYRRIRDELVNRGHHVNHKKVQRLMNVLELLIRS	PGPT0027665_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-YxiD-YxxD_TOXIN-ANTITOXIN_SYSTEM,PGPT0027665-antitoxin_yxxD-K21494	NA	NA
AK002_04414	411	pcrA_1	COG0210	ATP-dependent DNA helicase PcrA	ATGAAATGTCTTGAAGGTCTTAACCCCCAACAATTAGAGGCAGTTCGTTTTTTTGATCGAAACTCTATGGTGTTCGCTGGTCCTGGTACGGGCAAAACGCGTGTGATTACAAGTCGAATCGCCTACATGCTTGAATCAGGCAGGTTGCCTGAGGCGAAACGAGTACTTGCAATCACCTTCACTAATAAGGCAGCTAATGAAATGAGCTCGAGAGTTGCTTCCTTTGGGGTAAATCAAAAACGAGTTAGAATCGGCACTTTTCATAACTTCTGCATGTGGGTGCTGAAAGCTTACGGGGATAAAATTAAAATGAGTCGGGATTTTACATTCTTAACTCCGAATCAGCAACTCCAACACGTTCATCAAACGCTGCACCTTCTTATGATTTACATGGTGACCGCGGTTCACTAA	MKCLEGLNPQQLEAVRFFDRNSMVFAGPGTGKTRVITSRIAYMLESGRLPEAKRVLAITFTNKAANEMSSRVASFGVNQKRVRIGTFHNFCMWVLKAYGDKIKMSRDFTFLTPNQQLQHVHQTLHLLMIYMVTAVH				NA	NA	NA	NA	NA
AK002_04415	930			hypothetical protein	ATGCGAATCAAGGAACTTCGAGTGAGTAACTTTAGGAACTTTGATGAAGAAGTTCTGATTGTGCCAAAAGTAGTAAACGGTATGGACATGGTGGTGCTTGTTGGTGAAAACAACGCAGGCAAAACTAGTATTTTGACTATCCTCCATTATCTCTTTAATCCTGAGAGATCTATAAGGACATTAGAGTTTCAGGAAACTGATTTTTACGACCTAGACAAGCCCATAAGAGTTGAAGTCACATTCTCAGACCTAAGCGATGAATTAAGAGCGCACTTTATTGGAATCGTCGACAGTGAGGAAATGGATGGAAAGGAACAGTGGTTCTTGCCTCTTGTCTTCACCTGCGTGTTTGATAAACAAACCAAAGAAAGCGAGCCTTCCTTAGTTTATGGAAGACAGCCTGAGCGCTCTGTGAACTTTAGCGAAAAGCGGCTTATCTCGTTTTACTACCAAGACGCGCTCAGAGATTATCGAGCAATAAAGTCTAATAAAGGGAGCATGTTCGGGCGAATTCTCAAGCAGATCGATATATCGGCTGAAGAACAAGTTATTCTTGATAAACTGGATGAAGCGGGAGATTCACTTAAAGACAATATCGATATCGGTGAATTTATAGGGGGCGTCACGAAGGTTACACGCAAAATTATTGATCTTCCGGATGTGAGTGACCTCCTGCGGCTGACTGTTGCCGCCTCATCGACGGTGGATATCAAAAAGAATATTCAGTTGCAACTTAAGCATGTAGCAATGATTGATTACGATTCAAAAGATAGTAAACACGATAAAGAACTTGATCAAATCAAAGAGATTACGGATAACATATTTGAATTGCCAAGGCATGTGGATATGGGAGATATCGAAGGCTATGTCTGCCTGCATGCCCCAATCGCAGAGCTGATCAGTTTCCTTGAGGAATCGCTGCCCCCGTGA	MRIKELRVSNFRNFDEEVLIVPKVVNGMDMVVLVGENNAGKTSILTILHYLFNPERSIRTLEFQETDFYDLDKPIRVEVTFSDLSDELRAHFIGIVDSEEMDGKEQWFLPLVFTCVFDKQTKESEPSLVYGRQPERSVNFSEKRLISFYYQDALRDYRAIKSNKGSMFGRILKQIDISAEEQVILDKLDEAGDSLKDNIDIGEFIGGVTKVTRKIIDLPDVSDLLRLTVAASSTVDIKKNIQLQLKHVAMIDYDSKDSKHDKELDQIKEITDNIFELPRHVDMGDIEGYVCLHAPIAELISFLEESLPP				NA	NA	NA	NA	NA
AK002_04416	1761			hypothetical protein	ATGAAGAAAATCATGAACAAACCGGAAACCCTGGTTCGGGAAATGTGCAATGGGTTGGTACTGGCGCATCCCGAGCTGGCGTTCGACCCAAAATACAAAGTAATTTCCAAAAAAGAGATCAATCAAGGAAAAGTCACCCTGATCAGCGGCGGCGGAAGCGGGCACGAACCGGCCCATGCCGGATTTGTGGGAACCGGGATGCTGGATGCGGCGGTGTGCGGGGACGTATTTGCTTCCCCATCCCAAATCCAGGTGTACCAAGCGATCCGCAGCTCCGCCAGCGATAAGGGGACGCTGCTTATTATCAAGAACTACAGCGGCGACATCATGAACTTCAAGAATGCAGCCCATCTCGCAGGCGAAGACGGCATTGAAGTGGATTACGTCAAGGTAGACGATGACATCGCCGTGGAAGACAGCCTCTACACGGTAGGGAGAAGAGGCGTTGCCGGAACGGTGCTCGTTCATAAGGTGGCCGGAGCGGCCGCCGAAGCGGGGCTGTCCCTGCCGGAAGTGAAAGAAGCGGCGCAGCATGCGATCAACCATGTCCGCAGCATCGGCTTCGCGTTTACCTCCTGCACCGTTCCCGCAAAGGGAACCCCGACGTTTCAGATCGAGGATGGCGAGATGGAATATGGCGTCGGCATTCACGGCGAACCGGGAATCCGCAGGGAGAAAGCCGTTTCTGCGGATGAGCTGGCGCAGCGGATGGTTACGTCTTTGCTGGACAACCTGGAGCTGGATGATGCTTTGGAAGCCGAAGTTGCCGTACTAATCAACGGATTTGGCGGGACGCCGCTGCAGGAGCTGTATTTACTGAACAATTCCGTAATACGTGAATTGACGGCCCGAAACAAGCGGGTATTCAAAGGATTTGTCGGCAACTATATGACCAGCATCGATATGGCCGGCGCATCGGTAACGATCATGAAGCTGGACGAGACGCTCAAGAAGTGGCTGTCTGCGCCATGCGATACGCCTGCACTATCAGTTAAGGGATCGTTCCAGCCAGTAAACTTTACCGAGGTTGTTCATAAACAGAAGTCAGGGAATGCGGTATCGTACAAAAACAATACGGATGCTGCAGCAGCGGTGATTAAGAACAACCGGTTATCCTTGCAAAATATCGTGTATCTGATCGATCAGATGAGCGAGGTCATCATCGAGAACGAGGTGCCGTTCTGCGAGCTCGACGCTCATGCCGGAGACGGCGATTTCGGGATGAGCGTCGCCAAGGGCTTCAAGCAGCTCAAATCGGAGTGGAACGATCTGCTTACCCATCACCATCGTGATATCGGCGATTTCCTCGACGCCTGCTCAATGATCATTATGGAGCACTGCGGCGGGGCTTCAGGACCGATCTGGGGATCGGCGTTCCGAGCCGCAAGCAAATATGCAGGGCAGAAGCAGGAGCTGTCCGTTCATGAGGTCGCGGAGATGATGCAGGCCGTCGTCAAAGGAATTCAGGATACGGGTGAAAGGTCCTTCGGAAGAGGAGCCGTCGTCGGCGACAAGACGCTGATTGATGCGCTCGTGCCGTTCGCGGATGCATGGACGCAGAGTGGAGAGCAAGGCGAAGACATGAAGCCGGCAGCGGTCAAAGCGGCCGAAGCAGCGGTGCTCGGCGCGCAGAAGACGGCGGATATCGTTGCCCGGATGGGTAGAGCGGGCACGGTAGGCGAACGCAGCATCGGATACCCGGATGCGGGCGCGTATGCGCTCGGGGTTATTTTCACCGAGCTGGCTAAAGTGATGAAGTAA	MKKIMNKPETLVREMCNGLVLAHPELAFDPKYKVISKKEINQGKVTLISGGGSGHEPAHAGFVGTGMLDAAVCGDVFASPSQIQVYQAIRSSASDKGTLLIIKNYSGDIMNFKNAAHLAGEDGIEVDYVKVDDDIAVEDSLYTVGRRGVAGTVLVHKVAGAAAEAGLSLPEVKEAAQHAINHVRSIGFAFTSCTVPAKGTPTFQIEDGEMEYGVGIHGEPGIRREKAVSADELAQRMVTSLLDNLELDDALEAEVAVLINGFGGTPLQELYLLNNSVIRELTARNKRVFKGFVGNYMTSIDMAGASVTIMKLDETLKKWLSAPCDTPALSVKGSFQPVNFTEVVHKQKSGNAVSYKNNTDAAAAVIKNNRLSLQNIVYLIDQMSEVIIENEVPFCELDAHAGDGDFGMSVAKGFKQLKSEWNDLLTHHHRDIGDFLDACSMIIMEHCGGASGPIWGSAFRAASKYAGQKQELSVHEVAEMMQAVVKGIQDTGERSFGRGAVVGDKTLIDALVPFADAWTQSGEQGEDMKPAAVKAAEAAVLGAQKTADIVARMGRAGTVGERSIGYPDAGAYALGVIFTELAKVMK	PGPT0018465_173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018465-dhaK_2-K00863	NA	NA
AK002_04417	1119	dhaD		Glycerol dehydrogenase	ATGAGAAGGGCGTTTATCAGTCCGACAAAATATGTGCAAGGTGAGAACGAGCTGTTGAATCTGGGGTATTTCGTCAAGACATTCGGAGATTCCGCGCTGCTGATCGCCCATCCCGATGACGTTGCCCGAGTGAAGGACAAGCTGGACGCAACGAAACAGAAATTTAATATAACGCTCGTTGAAAGCGGCTTCCGCGGGGAATGCTCCCGGGAGGAGGTGAGCAGATTGCAGGCATTGGCCAAGGAGCATCAATGTGCCTGCACGATCGGCCTCGGCGGAGGCAAAGCGATTGATACGGCAAAATGCGTAGCCGAAGGCGAGGCACTGATTATCGTTCCGACGATTGCGGCAACGGATGCACCGACAAGCCATTCGGCGGTTCTTTATACCCCCGAAGGCGAATTCGACGATTATGCTTATTTTAAGCAAAGCCCAAGCGTCGTCATGATCGATACGACGGTTATTGCCAAAGCGCCGACCAGATTCCTTGTTGCTGGAATGGGGGACGCGCTCTCGACCTATTTCGAAGCAAGAGCGACGGCTCAATCGTATTCCAATGTCAATGCCGGTTTGCCGTGCGGCGGCGAGGCCAAGGGAACGATCACCGCGTTTGGACTTGCCAAGCTATGCTATGACACCCTGCTCGAGAACGGATATCGAGCGAAACTGGCCTGCGATCAGAACATCGTGACGCCTGCGCTGGAGAATATCGTCGAGACGAATATTCTGTTATCGGGATTGGGCTTCGAGAGCGGCGGTTTGGCAGCGATTCATGCGATTCATAACGGCTTGACGGCTTTGGAAGGAACGCACCATTATTATCACGGCGAGAAGGTAGCCTTCAGCACGATTGCCCAATTGGTGCTTGAGAATGCGGAACAGGACGAAATGAAGGAAGTGCTGGATTTCTGTCTGTCGATCGGTCTTCCCGTATGCCTGGCGGACATCGGCATAGAGCATGTCACTTACGAGGAATTGCTTGAGGTTGCCAAGAAGGCATGCATTGCCGAGGAATCCATTCATTCGATGCCGTTCCCGATTTCGGAGGAAGCGGTCGCATCGGCCATTATGGCGGCTGACCAGTTGGGCCGTCAATATAAATCAAGCAAGGAGGTCTAA	MRRAFISPTKYVQGENELLNLGYFVKTFGDSALLIAHPDDVARVKDKLDATKQKFNITLVESGFRGECSREEVSRLQALAKEHQCACTIGLGGGKAIDTAKCVAEGEALIIVPTIAATDAPTSHSAVLYTPEGEFDDYAYFKQSPSVVMIDTTVIAKAPTRFLVAGMGDALSTYFEARATAQSYSNVNAGLPCGGEAKGTITAFGLAKLCYDTLLENGYRAKLACDQNIVTPALENIVETNILLSGLGFESGGLAAIHAIHNGLTALEGTHHYYHGEKVAFSTIAQLVLENAEQDEMKEVLDFCLSIGLPVCLADIGIEHVTYEELLEVAKKACIAEESIHSMPFPISEEAVASAIMAADQLGRQYKSSKEV	PGPT0008270_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0008270-gldA|dhaD-K00005	NA	NA
AK002_04418	1047	rhaR_55		HTH-type transcriptional activator RhaR	ATGTCCAAATCCCGGTTCGATTTAGAAGAAATCATAGATTTGGAGAAATGGGAGAAGCTGCAGGATTCCTTATCGCTTGTGACCAAAATGGCGATCCTAACGGTCGATTACAAGGGCGTTCCCGTGACCAAGCACAGCTACTGCCAGCCTTTCTGCCAAGGCGTGCGCCAGGATGGCCATCTCTCGCAGTATTGCCAAAAATGCGATGCGCGAGCCGGCATTGAAGCGGTTCGCCAGAACAAACCATACATCTATCTGTGCCATTTTAACGTTATCGATATCGCCATTCCGATCATCATCGACAACCAATATCTTGGCGCGATCATGGCCGGACAGCTCAAGCTCCGGGAGCCTGACGCGCCGATGCTGGAGCAGATCGTGTCCCGGCCGCCCAATGTGGAGTCCAACCGGAAGTTCAAGGAACTCGAAGGGGATTACAACGCCCTGCCAGTCCTGTCATACGAGGAAGTAACGAGGTGCGTGGATCTGCTGCTGCAATTGAGCACGTATATCGTGGAGGAAGCCATTCAAAAGCATACCACGGTGGATATGTACAAAAAAGTGCTCACGTCTAGCATGAACGCGCCAGCGTCCGTTGAAACGCTGAACGAGTCCGATCGCGCGGTCCGCAGCATTCAATCCATCCAGCAGGAGCTGTCAGGAGCGCTGATCGACACCAAATTGAAGAATGGCGCTGGGCGGTTTGCCTCTTCCAATCCGGTGCTTCAGCCCGCGTTTGACTATATTTTTGCGCACAAGCATGAAAATTTCAGCCTGAAGGAGATGGCCAAGCTGTGCCATATCAGCCCCAGCTATTTCAGCCGTATCTTTACGAAAGAAACTGGGGAGAATTTCTCCGTCTTCATCGCCCGGCTTAAGATTGAATGGGCCAAGCAGTTGCTGGAATCCACCGATTCGCCGATCCATCAAGTGAGCGATGATCTAGGCTTTTGCGACACGGGCTATTTCATCAAAACATTCAAAAGATTCGAGAACCTCACCCCGGCCGTGTACCGAAACATGTATGCCGGGGTATCCGCGAAGTAA	MSKSRFDLEEIIDLEKWEKLQDSLSLVTKMAILTVDYKGVPVTKHSYCQPFCQGVRQDGHLSQYCQKCDARAGIEAVRQNKPYIYLCHFNVIDIAIPIIIDNQYLGAIMAGQLKLREPDAPMLEQIVSRPPNVESNRKFKELEGDYNALPVLSYEEVTRCVDLLLQLSTYIVEEAIQKHTTVDMYKKVLTSSMNAPASVETLNESDRAVRSIQSIQQELSGALIDTKLKNGAGRFASSNPVLQPAFDYIFAHKHENFSLKEMAKLCHISPSYFSRIFTKETGENFSVFIARLKIEWAKQLLESTDSPIHQVSDDLGFCDTGYFIKTFKRFENLTPAVYRNMYAGVSAK	PGPT0001373_335	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPANEDIOL_UTILIZATION,PGPT0001373-pocR-NA	NA	NA
AK002_04419	579			IS1595 family transposase ISSpgl1	ATGCGGATAGAGGATATCTTCTCGGATCTGCCAACGTTAGAAACAGGCCGAACGATTTTAAGAAAATTAAGAAGCGAGGACGAGCCGGATATCTTTCGTTACGGATCAGATGATGAGGTATCGAGATATACCTCCTGGCCGACGCATCAAACGATGGAAGATACCCGCCATTATCTAAACAAGGTGATGCAAAAATACGACCATCATGCCGTGGCCCCGTGGGGGATCGTGGACAAAGAAACCGGAAGGGTCATCGGAACTTCAGGATTTATGGCTTGGAACGTTCATCATGACAAAGCAGAACTGGGATATGCCTTGTCCAAGGATTATTGGAATCGTGGTTACATGACCGAAGTGATCAGGACCATCATCTCTTATGGATTTGAACGAATGAAGCTGGTTAGAATCGAAGCCAGCTGTCTACCGTCAAACCTAGGATCAGCCAGAGTGATGGAAAAGGCCGGCATGACCTTTGAGGGAATCATAAGACAGTCGATATTCGTGAAAGGCAAACATGAAGATCTGAAATTATATTCCATTGTCGTGGATGACTACCGGAATCAGAACCAGATCCGTTAA	MRIEDIFSDLPTLETGRTILRKLRSEDEPDIFRYGSDDEVSRYTSWPTHQTMEDTRHYLNKVMQKYDHHAVAPWGIVDKETGRVIGTSGFMAWNVHHDKAELGYALSKDYWNRGYMTEVIRTIISYGFERMKLVRIEASCLPSNLGSARVMEKAGMTFEGIIRQSIFVKGKHEDLKLYSIVVDDYRNQNQIR				NA	NA	NA	NA	NA
AK002_04420	1011	nudC_2		NADH pyrophosphatase	ATGTTTGAACAGTCAAAGCATTTGGTTGCTGTTTCAGCTTTAGTGAAGAATAGAGACGGACATGTGCTGATGGTTCGGACGCATTTGCGTTCGGATACGTGGGAACTCCCTGGAGGCTTCGTTGATGCCGGGGAGCCGCTGGATCAAGCGGTGTGCCGGGAGTTTCTGGAGGAGACGGGCGTGGTTATACGCCCTTTAGGCATTTCAGGAGTCTACTACAATGAGAGGCTGCACGTGTTGTCCGTCGTTTTTCATGCGGAATACGTCAGCGGAGAAATAACCATTCAACCGGAAGAAATTGTGGAAGCGAAATTCGTAGACTTGGTAGATACCAACCTGGATGAATACATACAAAGGCCCCACATTCAATCGCGCACGCTGGACGCCATCCGTGCAGAGCGTTCGGTCCCTTATGAGACTTGGGATTTGACCCCCCCTCAGTATAAGCTGCTGTCCAGATTGGACGGGAAACCGCTGAATGCCAAAACGGCATTTTTACTCACGGGGAAGCCGAGAACGGGCAAAACGACCATGATCAAGAAACTCATACATCTCGTCGGCCCTGATCTTTGCGGCGGTTTTTATACGGAGGAAATAACGAAGGCAGGCGATCGAATCGGTTTCAGATGCGTGGCTGTTGATGGAGAAAGCGTAGAGATTGCGAATGTGGAAAGTCCCAGCCATATTCGAGTTGGCAGGTACGGCGTCGATGTTGAGAAATTCGAGGATTTTGCTATTCATAAATTAAGGGAAGCCTTGTCCTCCAAGAAAATCATCGTCATTGACGAACTGGGATTTATGCAAATGCTGTCTGCCTCTTTTCTAAGCATGGTACAAGAGATAATTAGTAATCGCCGGATTGTTCTAGGAACGATACCCGTCGATAGTCACCCTGAAATAGATACAATTAAATATCGGAAGGAAGTCGGCATCATCAGCTTGAACGAATTCAATCGTGATGTGATGCCGGAATTATTGATAAAGGATATTTTGAAGGCATTGGAGGGATGA	MFEQSKHLVAVSALVKNRDGHVLMVRTHLRSDTWELPGGFVDAGEPLDQAVCREFLEETGVVIRPLGISGVYYNERLHVLSVVFHAEYVSGEITIQPEEIVEAKFVDLVDTNLDEYIQRPHIQSRTLDAIRAERSVPYETWDLTPPQYKLLSRLDGKPLNAKTAFLLTGKPRTGKTTMIKKLIHLVGPDLCGGFYTEEITKAGDRIGFRCVAVDGESVEIANVESPSHIRVGRYGVDVEKFEDFAIHKLREALSSKKIIVIDELGFMQMLSASFLSMVQEIISNRRIVLGTIPVDSHPEIDTIKYRKEVGIISLNEFNRDVMPELLIKDILKALEG	PGPT0009015_1	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009015-NTPCR-K06928	NA	NA
AK002_04421	759	yknY	COG1136	putative ABC transporter ATP-binding protein YknY	ATGAAGAAGTTGATTATCTGTGATGATATCGTAAAATCTTTCGGCGAAGGTGATGACCGGCGCCGTGTTCTGGACGGCGTGTCCGCCTACATTCACGAGGGCGAGTTCGTTTCGGTTATGGGGCCTTCGGGTTCGGGAAAATCAACGTTCATGTTTGCATTGAGCGGGACGGATGGCGTGAATGGCGGAACGGTCTTGTTTGACGGCAAGGATTTATCGGCAGCCTCGGAGAATGAGCTATCAGATATACGGAGGACCCATATGGGGTTTGTCTTCCAGCAGCCAACGATGCTGAAAAACCTCAATATCCTCGATAATATCATTCTTCCATCCATGCGGGACCAACGAAAAAACGTTGCATCCATAACGAAAAAAGCAAGAGCTCTTATGAACAGGGTGGGAATCGCAGAGCTGGAAAAGCGAGACATCGCTCAGGTTTCGGGAGGACAGCTTCAGCGTGCGGGAATCTGCCGGGCGCTGATGAACAGCCCGAGAATCATTTTTGGCGATGAGCCTACGGGCGCGCTCAACTCCAAATCCGCGCAGGAAATCATGGACATTTTCTTCGAAATCAACGCGGAAGGCACGGCGGTCATGCTTGTAACACATGACGCTAACGTGGCGGCCCGGACGGAGCGCATTATGTTTATGCGCGACGGGAATATGGTCAGTGAACTCAAGCTTCCCAAGTACGACGGAACGGATATGGATCGCAGGGTTGAGAATGTGAGGGCGAAAATGCTGGAGATCGGAATATAA	MKKLIICDDIVKSFGEGDDRRRVLDGVSAYIHEGEFVSVMGPSGSGKSTFMFALSGTDGVNGGTVLFDGKDLSAASENELSDIRRTHMGFVFQQPTMLKNLNILDNIILPSMRDQRKNVASITKKARALMNRVGIAELEKRDIAQVSGGQLQRAGICRALMNSPRIIFGDEPTGALNSKSAQEIMDIFFEINAEGTAVMLVTHDANVAARTERIMFMRDGNMVSELKLPKYDGTDMDRRVENVRAKMLEIGI	PGPT0013345_3613	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_04422	2316			hypothetical protein	ATGTATTTCAGAATCATCCGAAGGGATATATCCAAAAGCAAATGGATCACGTTGATGACCGTAATCTTCGTTGCGGCTGCAGCGATGCTGGTTTCGCTCGCAGCCGTGCTCATTTTAAATTTATCCGGAGCGGTACATACACTCATGATGCAGGCAAAAACCCCGCATTTTATGCAAATGCATTCGGGTGACATTGATACGGCGCGGCTAGCAGCCTTTGCCAAGCAGCAAGGCAATGTGGAAGATTATCAGGTAGTTGAATTTCTCAACATAGACGGCGCACGGATTACGTTAGGAGAGCACACGCTTGCGAATAGCGTCCAGGATAACGGATTCAGCCTACAGAGCAAGAAATTCGACTATCTGCTTGATCTTAATGGAAACATCATTCACGCAGAAGACGGCGAATTATATGTGCCCTTAAGCTATATGAGGGACGGCACGGCCAAGGTTGGCGACATGGCGGTGATCAACGGGACTGCATTTACCGTTGCGGGATTCCTACGCGATTCGCAGATGAATTCCACGCTCTCCGCCTCCAAGCGATTTCTGGTCAGCGCAAAGGATTACGCGGAAATCAGAAATCTTGGCAGTATGGAGTATCTGATTGAATTCAGACTGAAGGATTTATCGGAGCTAGGCGCATTTGAAGCAGACTACGCTTCCGCGGGTCTTGAAGCGAACGGACCTACGGTTACCTATAAGCTGTTCCAAATGATGAACGCCCTTTCCGACGGGATGATGATCGGCGTTATCCTTCTCGTTAGCATTCTTGTCGTAGCGATATCTCTGATGTGCATACGCTTTACCCTCTTAGCCAAAATCGAAGACGATTATCGTGAAATCGGCGTCATGAAAGCGATAGGGCTGCGTGTTTCCGATATGAAAAAGATCTATCTCGCGAAATATGCTGCGATTACCGCGGCAGGCAGTATTCTCGGCTTTGCGCTTTCGGTGCCTTTCAAAGGATTGCTTCTTGAGAACATACGTCTCTACATGGGAGAAAGCAGCCATGCTTCTTATGCCTTGCCGTTCGGACTCTTCGGCATACTGCTTGTCTTCCTAGCGATCATCGCCTATGTAAGCAGAGTTCTGAATCGCTTTCGGACCATATCGGCTTCAGAAGCGATACGCTTTGGCACTTCACCCGAGAAAAACACGGGCGCCGGACGCTTTAATCTGAGCGCAAACAGGCTGTTTAGCACCAATGTTTTTCTCGGGATCAAAGACGTTCTCGCCAGGAAAAGACTTTACGCTACAAGCCTGACGGTCATAGTGATCTCGGCATTTATCATGATCGTACCGCAGAACCTGCACAACACGATCTCGTCCAAAAGCTTTATTCAATATATGGGCATCGGGAGCTACGACATGCGGGTTGACATTCAGCAGACCGGGCAAATGTCGGAAAAAACGGCCGAGATTTTACAAACGATGAACAACGACCCTGCCATTACAAAGACAGCCGTCCTTACAACCAAAACATTCAAAATCAAAGCGGGAGACGGGACGGAGGAAAATATCAAAATCGAGCTTGGGGACCATAAGGTATTCCCTATAGCATATGCCAAGGGCAAAGCACCCGCAGAAGGAGAAATTGCGCTTTCGGCGATAAACGCCGATGAGTTGGGCAAAAAGGTCGGCGATGTCATCACGGTGGTGATCGAGGGGAAGGCGAAAGCCCTCATGGTAAGCGGCATCTACTCCGACATTACCAACGGCGGCAAAACCGCAAAGGCAGTATTCACCGATGATACGGCGGACACGATGTGGAGCATCGTCTGCGCTGAGCTAACCGATCAAACGCTTGTCCGTGAGAAGGTCTCCGCCTATGCGGAGAGGTTCGATTATGCAAAGATCTCGGGCATTGACGACTTTGTATCGCAGACGTTCGGCTCAACCATAAGCTCCGCCAAAACGGCCTCCAACGCTGCCGTTACGGTTGCGCTGATGATAGCGGTTCTCGTTACCTTGCTGTTTATGAAAATGCTGGTTGCCAAGGACCGGCATGCGATTGCCGTCATGAAAGCCTTTGGCTTTACGAACTCGGATATGAAGGTGCAGTATGTCTCGCGTTCGGTATTTGTTCTGATTGTCGGCATCATGGTTGGAACGCTTCTGGCCAACACGGTCGGTGAGATGCTTGCAGGTGCCGCAATTTCCTCGTTTGGAGCGTCGACATTTCATTTTGCGATCGATCCGCTTTCGGCGTATCTGTTCAGCCCCATGTTGATGATCGGCTCGGTGCTTATCGCAACCGTGATCGGCGTTTCTGGAGCGGGACGAATCAAAATATCCGAACATATGAAGGAGTAA	MYFRIIRRDISKSKWITLMTVIFVAAAAMLVSLAAVLILNLSGAVHTLMMQAKTPHFMQMHSGDIDTARLAAFAKQQGNVEDYQVVEFLNIDGARITLGEHTLANSVQDNGFSLQSKKFDYLLDLNGNIIHAEDGELYVPLSYMRDGTAKVGDMAVINGTAFTVAGFLRDSQMNSTLSASKRFLVSAKDYAEIRNLGSMEYLIEFRLKDLSELGAFEADYASAGLEANGPTVTYKLFQMMNALSDGMMIGVILLVSILVVAISLMCIRFTLLAKIEDDYREIGVMKAIGLRVSDMKKIYLAKYAAITAAGSILGFALSVPFKGLLLENIRLYMGESSHASYALPFGLFGILLVFLAIIAYVSRVLNRFRTISASEAIRFGTSPEKNTGAGRFNLSANRLFSTNVFLGIKDVLARKRLYATSLTVIVISAFIMIVPQNLHNTISSKSFIQYMGIGSYDMRVDIQQTGQMSEKTAEILQTMNNDPAITKTAVLTTKTFKIKAGDGTEENIKIELGDHKVFPIAYAKGKAPAEGEIALSAINADELGKKVGDVITVVIEGKAKALMVSGIYSDITNGGKTAKAVFTDDTADTMWSIVCAELTDQTLVREKVSAYAERFDYAKISGIDDFVSQTFGSTISSAKTASNAAVTVALMIAVLVTLLFMKMLVAKDRHAIAVMKAFGFTNSDMKVQYVSRSVFVLIVGIMVGTLLANTVGEMLAGAAISSFGASTFHFAIDPLSAYLFSPMLMIGSVLIATVIGVSGAGRIKISEHMKE	PGPT0013350_9436	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK002_04423	654	slmA_2		Nucleoid occlusion factor SlmA	ATGCGAATCGTAAAAAAAGCGGAGGAACGCAAGAATGAAATCCTTGACGCGGCGGATGTCCTTTTCGGTCAGAAGGGCTTTGACGGCACAAGCACCAACGATATTCTCGAAAAGGTCGGCATTGCGCGCGGGACATTGTATCATCACTTCAAGTCGAAGGAGGATATCATGGATGCGCTGATTGACCGGTATGCCGTCCGATTGTTGGATCGGGCACAGGCCATTGCCTTGGACAAGCGCATACCCGTAATCGAACGCATCATTCGTGTTGTGATGGCGCTGAACATAAGCGACGATGGCGAGAGCAGCAAGGAAATCATGGAGCATATTCACAAGCCTCAGAATGCGCTCATGCATCAAAAGATACATAAGGTCATTATTAACGGTGTTCCGCCGATCCTGACGGACATCATCCGCGAAGGCATCGAGCAGGGGCTGTTCAGCACGCCGTACCCGTATGAATGCATGGAAATGGTGGTGATCTATGCGAATACCGTTTTTGATGAAGATTTGGTTACGATGACGGACGAGGAGCGAGGGCAGCGAGTTCTGGCCTTTGTTTGCAACGTCGAGAGGCTGCTCGGCGCAGAAAGCGGAAGCCTGATGGACGTTATGGGGATGTTTGGTGGAGGAGATGAAAGCGGCCAAGCATGA	MRIVKKAEERKNEILDAADVLFGQKGFDGTSTNDILEKVGIARGTLYHHFKSKEDIMDALIDRYAVRLLDRAQAIALDKRIPVIERIIRVVMALNISDDGESSKEIMEHIHKPQNALMHQKIHKVIINGVPPILTDIIREGIEQGLFSTPYPYECMEMVVIYANTVFDEDLVTMTDEERGQRVLAFVCNVERLLGAESGSLMDVMGMFGGGDESGQA				NA	NA	NA	NA	NA
AK002_04424	375			hypothetical protein	ATGGCAAATCGTGATGTGCGTCTTGCGCTTTGGTCAGGTACTAATTTTTCCGTTCGTCGGATTCTCTTCAGACGAGGAGGCGTTGCGGTTCGTGACCTCGGAGCATTTCGGTTTAACAACGTTCTTTCGAGTTTTCGGCTCCGCAATGTAGTGGAGCGCTCTGAAGTAACGCTTGTATTGTTCTCGGGAATTAACTTTCAGGGATCGTTCCGTGTGTTTAGAGGAAGCCAAAACGTAGCGAACTTGGAAAACTTTAATTTCAACAACGTGACATCTTCGTTCATTGTGGTTGGACGCAACCTTACGGACGCGGAAATAACCCGAATTCAAAGCACGGCCAGACCGCCTCAAGACATCCTCGTCATAAGACAATAA	MANRDVRLALWSGTNFSVRRILFRRGGVAVRDLGAFRFNNVLSSFRLRNVVERSEVTLVLFSGINFQGSFRVFRGSQNVANLENFNFNNVTSSFIVVGRNLTDAEITRIQSTARPPQDILVIRQ				NA	NA	NA	NA	NA
AK002_04425	555	ydaF_1	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGAAGAAACTACCGACGATTCGATTAGAAAGGCTGATTTTGCGGCCGTTCAGTTTAGAGGATGCAAAAGTTGTACAGGAACTGGCTGGCGATAAGTATATAGCAGAAACGACGTTATATATACCGCACCCATACAAGGATGGGATGGCAGAACAATGGATAGAGTCCCATCTTGCTAATTTCAATGAAGATCGATCCCTTGAGCTAGCTATTGTACATAAAGAAGAGAATTACGTAATTGGCGCAATCAGTATAGGCTGCAACCGAAATTTTGATCATGGTGAGCTTGGATATTGGGTTGGGAGAAAATACAACAATCATGGCTATTGTACGGAAGCGGCAAAAGGGATCGTAACATATGCGTTTGAAGAAATGCGTTTAAACCGCATTTTTGCACGTCATTTGGGGAATAATCCTGCTTCGGGTAAGGTCATGCAAAAGCTAGGAATGAAGTATGAAGGACTGTTAAGACAACATGTTAAAAAGTGGGACGAATATGAAGACCTTGTGCATTATGGTCTGTTGAGGGAAGAGTTTCTATCAGAGAATAGCTAA	MKKLPTIRLERLILRPFSLEDAKVVQELAGDKYIAETTLYIPHPYKDGMAEQWIESHLANFNEDRSLELAIVHKEENYVIGAISIGCNRNFDHGELGYWVGRKYNNHGYCTEAAKGIVTYAFEEMRLNRIFARHLGNNPASGKVMQKLGMKYEGLLRQHVKKWDEYEDLVHYGLLREEFLSENS				NA	NA	NA	NA	NA
AK002_04426	1110	rcsC_15		Sensor histidine kinase RcsC	ATGCGAATAAAAACTCGATTCACGATACATTTGGCGTTAGGGCTCATCCTGTGGCTTCTTGGAACGGGTATGCTGCTTGTTATTCTGCTTGAAGGCATTCTTCCCATGCTGGGTATTCATATCACTGTGGATAATGAAGGACTTATTGTAGGAGTGATCTTCGGAGCCAGCACGCTGTTATGCATAGCTGTGTTCGGATGGTATTTTGGCGGCCCGATCGGATTCATTATGACCTGGATTCAACAGCTTTCGAAAGATGATTACAAGCAGCCTGCCGATTTGTCCAAAATCGTTATTCGAAAAGGAAAACTGCGCATGCGTTACCGCCTCTATCAGGAGGTGCTCCAGCATCTTCAGTCCTTAGGCAGTATCCTGCAAGCGAACGAAGCGGAGAGAACCCGAATCGAACAGGCGAAACAGGAATGGATCGCGGGGATATCCCATGATTTGAAAACGCCTCTAACCTATATTAAGGGCTATTCGGCTCTCTTATTGAATGAGCAGTACGAATGGTCGAAGGAAGAGGCGATCTCTTTCATCCGGGAAATGGACGATAAAGGGAAGCATATGGAGGAATTGATTCAGGATTTAAGCCTCGTTACGCAGCTCAACCGGGCTGATGGCGCGCTGCCGTTACAGAAGGCGAATCAGGATATCGTCGAGTTCACCAAAAGGGTGGTAGCCGATATCAGCAACAATCCGCAGGCAAGCAACTACCCTTTGCATTTTCAAACGGATTTGTCTGCGATGTACGTGGATTTTGATGCGAAATACATGCAGCGCATCCTGCAAAATATCATGATGAACTCTATACTTCATAATCCGGAGTTTACGGAGATTTTCGTCCGGATCACGGACGCAGAAGAGTTTGCCGCCATCCGCATTACGGACAATGGCATAGGCATGACGGCCGACACGGTAGCGCATCTGTTCCAGCAATATTACCGCGGGACCACGACGGATGCTGCTTCTGAGGGCACCGGACTGGGAATGGCCATCGTCTACAAGCTGATTCAAGCCCATAACGGCACCATCACAGTCGAGAGCCTGCCTTCGCAAGGAGCAACGTTTACGATTCGATTGCCGAAAGAAGGAGGGAGACATGGATGA	MRIKTRFTIHLALGLILWLLGTGMLLVILLEGILPMLGIHITVDNEGLIVGVIFGASTLLCIAVFGWYFGGPIGFIMTWIQQLSKDDYKQPADLSKIVIRKGKLRMRYRLYQEVLQHLQSLGSILQANEAERTRIEQAKQEWIAGISHDLKTPLTYIKGYSALLLNEQYEWSKEEAISFIREMDDKGKHMEELIQDLSLVTQLNRADGALPLQKANQDIVEFTKRVVADISNNPQASNYPLHFQTDLSAMYVDFDAKYMQRILQNIMMNSILHNPEFTEIFVRITDAEEFAAIRITDNGIGMTADTVAHLFQQYYRGTTTDAASEGTGLGMAIVYKLIQAHNGTITVESLPSQGATFTIRLPKEGGRHG				NA	NA	NA	NA	NA
AK002_04427	720	walR_9	COG0745	Transcriptional regulatory protein WalR	ATGGAATCTGCAACCATATTGGTCGTCGATGACGAGATTGGTATTTTGAAGTTATTGGAGATTACGCTCCGAAAAGAAAACTTTACGCATATTGACACGGTCTCATCCGGAAAAGGCGCACTGCAGCGCGTCAAAGAAAAATCATATGACATGATCCTGCTTGATATTATGCTCCCGGATCTAAGCGGTTTTGAACTGTGCACGGAGATCCGGAAACATACGAATGCGCCAATCATTTTCATCAGCGCGCGCTCTACCGACTTCGACAAGTTAACGGGGCTAGGCATCGGCGGGGACGATTATATTACAAAGCCATTTAATCCATTGGAGGTCATTGCCCGAATCAAGGCGATTCTTCGCAGGCAAAGGATCATGGAGAACGCACTTCAACAAAACACGGCATACGATTACGGGCACCTCTCATATCATCCGGAATCGGCAACGTTAATCGTGAAGGGCCAACCTGTAGATTGCACGGCCAAGGAGCTGGAGCTGCTGCATTTCTTCTTCAAGCATCCGAATCATATCTTCACAACGGCTCAGCTTTATGAGCTGGTATGGGGGAATGACGTGTTCGGGGAAGAAAAAACGGTCACGATCCATATCTCCAAGCTGCGCAAAAAGATAGGCGATGATACCCGCAAACCCGCAATTATTGTGAATTTAAGAGGAATCGGTTATAAATTCATCCCCCCAAATGAGGCACTGGCATGCGAATAA	MESATILVVDDEIGILKLLEITLRKENFTHIDTVSSGKGALQRVKEKSYDMILLDIMLPDLSGFELCTEIRKHTNAPIIFISARSTDFDKLTGLGIGGDDYITKPFNPLEVIARIKAILRRQRIMENALQQNTAYDYGHLSYHPESATLIVKGQPVDCTAKELELLHFFFKHPNHIFTTAQLYELVWGNDVFGEEKTVTIHISKLRKKIGDDTRKPAIIVNLRGIGYKFIPPNEALACE	PGPT0013765_150	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_04428	732	bcrA_6		Bacitracin transport ATP-binding protein BcrA	GTGGAAACCATGATTCAAATCCATCAAGTAAGCAAGGTATACAAGGGTACAGAAACCATTACGAACGTCAATATGAACGTCCGAAGAGGGGAAATTTACGGATTTTTGGGTCCGAACGGTGCCGGGAAAACCACCATTATGAAAATGATCTTAAACCTGGTCAAACCGTCTTCCGGTGAAATCCGAGTATTCGATCAACCGGTTCTCCCCACATCCGTTCAATACCTAAAGAGAATAGGCAGCATTATTGAATATCCCGTGTTTTACGACCGGCTTACGGCCGAAGCCAACTTGGATCTTCATTGCAGATACATCGGATATCACAATAAGCCTGCGATTAAGGAAGCGCTGGAGATCGTAGGCCTTCACGGAGTCGGGAAGAAGAAAATCCATGAATTCTCGCTAGGAATGAAGCAGCGGTTAGGGATTGCACGGGCCATTGTGACGAAACCGGACATCCTCATTCTCGATGAACCGATCAACGGACTGGATCCGATCGGAATTAAGGATATTCGGGAGCTCTTACTGCTATTCAAGAAGAACTACGGAACCACCATTCTCATATCGAGCCATATCGTGTCGGAAATCGAATCGGTTGCCGATACGATCGGCATTATTCATCAGGGGCAATTGTTAACGGAAGTAAAGATGGCGGACATCCGGGGACAGCATGCCGGGTCGTTGGAGGCGTATTTCATCAATCTCGTTCATGGAGGCAAACGCTATGCTTAA	METMIQIHQVSKVYKGTETITNVNMNVRRGEIYGFLGPNGAGKTTIMKMILNLVKPSSGEIRVFDQPVLPTSVQYLKRIGSIIEYPVFYDRLTAEANLDLHCRYIGYHNKPAIKEALEIVGLHGVGKKKIHEFSLGMKQRLGIARAIVTKPDILILDEPINGLDPIGIKDIRELLLLFKKNYGTTILISSHIVSEIESVADTIGIIHQGQLLTEVKMADIRGQHAGSLEAYFINLVHGGKRYA	PGPT0006725_24819	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_04429	297			hypothetical protein	ATGCTTAAATTGATACAGCTGGAATGGCAGAAGAATAACCTGCCCGGATATTTCAAGGGAATAGCCATTTGCATTGCGGCTATTTTCGCCGCCGTTACGCTGATGGCGCTGGGTTCCAAAGGGGAAAACGAACCCATGAGTTATGCAGATTTCATATCGTTATCAGGTGTTTTGATTCGAATCACCTATATCATTTTCTCGAGCGTTATTCTGTCCCGTTTAGTGATTGACGAATACAAGAGCAGCATGATCCAAGTGTTGTTCACCTACCCGCTGCAGCGAAAGAAAATCATTTAA	MLKLIQLEWQKNNLPGYFKGIAICIAAIFAAVTLMALGSKGENEPMSYADFISLSGVLIRITYIIFSSVILSRLVIDEYKSSMIQVLFTYPLQRKKII				NA	NA	NA	NA	NA
AK002_04430	327			hypothetical protein	ATGGCGACGAATTGGAACAAGCTGGACGAGCTTCCCCCGTCGGACACCGATGCGTTAATCAAGAATCCAATAATGACAGCTGAAGTAATCGTGGAAGGCGCCGATTTTTTTCTCATGCCAAACGATAACGGAATGAGGCTGATGCCGGCCATCATAAAGGCGTTTAGCACCGTGGCCGGAACAGCGGCCATCATGGCTGCGACAGGAATAGGCGCGTCAAATAAACCGATCATCGGATTCAAGAGGTACGTTAACAGATGGATGATGAACGTGGTTATGATGATGCTGAAAAAACAGAACCCAAACACAATCGTCAACTTGGCTTAA	MATNWNKLDELPPSDTDALIKNPIMTAEVIVEGADFFLMPNDNGMRLMPAIIKAFSTVAGTAAIMAATGIGASNKPIIGFKRYVNRWMMNVVMMMLKKQNPNTIVNLA				NA	NA	NA	NA	NA
AK002_04431	753			hypothetical protein	ATGCGAGCCACTGAAGATATCATGCAGGTATGGAGGAAGTTCAACGATTTTCCGATGGAAACCTTAACGAAAGCCTGGCACAGCTTAATAGACCCTGAATGCAAACAACGAACAACGGATGTCATGAAAGAGCATCGGGCATTATATGGAACGTCGGGCAATTGTTTTGATTTGGCGATTTGGTTAATCGATGAATTCAGACAGAACAAACGCCCCTGTTATGGAGTGCTAACGGAGCATTTGCATGTCGCCGTGGTCGCCGTCAACGAAGAGGGCAATAAATATTTCTGCGATCTTGGAGATCAATGGATTGAGCCCATTTTGTTGGAACCGGGTCATGAAGCGTATACGGAAGAATTTGTCGATGGTTTCTTTCCAGGTTCACGGATTAAACTGAACACCCGAGCGAACCGTCTCTTGGTAACCTACGGAAGACCAAACGGGAAGGAAAGCAGCCAAACATTCGACTTGACGCCCGTATCCGATGAGGCATTGATCATCGCCGGGCAAAAAACGCAGCGCCTGTTCAGCTATCCGCTTGTAGAAAAGCGGATTTTTACGGATCAAGAGGTTCTCCATTGGGAATTCGATCATTACGAAAGCTTCCTAAGTTCCAAGGAAGGCAGAATAACGGAGCCTCAGCTGAAGGATATCGGGGAATGGGCAGAACGAATACATACGATGAGCGGGATCCATGAAGATGTCGTCATACGGGCATTGGAAGTCTACTCGAAGAAGTCTTCGCATCCTTAA	MRATEDIMQVWRKFNDFPMETLTKAWHSLIDPECKQRTTDVMKEHRALYGTSGNCFDLAIWLIDEFRQNKRPCYGVLTEHLHVAVVAVNEEGNKYFCDLGDQWIEPILLEPGHEAYTEEFVDGFFPGSRIKLNTRANRLLVTYGRPNGKESSQTFDLTPVSDEALIIAGQKTQRLFSYPLVEKRIFTDQEVLHWEFDHYESFLSSKEGRITEPQLKDIGEWAERIHTMSGIHEDVVIRALEVYSKKSSHP				NA	NA	NA	NA	NA
AK002_04432	465			hypothetical protein	ATGACGGAGATCAGCCAAGTCCATATGGAAGACCTGTGGTCGGTTCGAAGAGAACGCTTAGGCAACCGATGGTTAATCGGCGTTCAGAATGAGCTTCCGCAATCCTATGAGGACGAACAGCGCTTGTTTGCAACCCTTAGATCCAGAAGAGACGAAATACAGCATCAAACTGTGGATCCGAATACGTATATGGTTATCCATGATGACGGATCGAGGATGACGGTAGCCTTGATGGTAAGTCGTATCGGGGAGATCCCGGAGGGCATGGTATCGTTGAATCTTCCGGAAGAGGAATACGAGGTTTTCCGGTTTGAGGAGAAACATATTTGTTCATTCTGGCAGTATTTCTGCGAAACCGATCATCGGAGCAAATATGGCGTTAATGCCGCGAAGGCAAGATTTGAAACCTTTAACGACACCTTGCAGCCGAATGGCGTAACGGAAATTTATTATCCGAAAGAATAG	MTEISQVHMEDLWSVRRERLGNRWLIGVQNELPQSYEDEQRLFATLRSRRDEIQHQTVDPNTYMVIHDDGSRMTVALMVSRIGEIPEGMVSLNLPEEEYEVFRFEEKHICSFWQYFCETDHRSKYGVNAAKARFETFNDTLQPNGVTEIYYPKE				NA	NA	NA	NA	NA
AK002_04434	774	lvr_2		Levodione reductase	ATGAGCAAATTTGATGGAAAAGTGATTGTGATTACTGGCGCAGCAGGCGGGATCGGAACGGCAGCCGCCCAAAAACTGGCGGAACAGGGGGCCAAGCTTGCGCTGGTCGATCTGAACCTGGAAGCCGTCCAACAAGTGATTTCCGATTTGGGCCTGGACGATTCCAGCTCAATTGCGCTGCAGGCTAATGTCGCCAAAGAAGAGGAAGTCAAAGCGTATGTGGATGCAACGGTCGAGAAATTCGGTAAAATCGACGGCTTTTTCAATAATGCGGGGATCGAAGGGATCACTGCCAATGTAGAGGACTATCCGACCGAAACTTTTGAAATGGTCTTCAATGTCAACGTCAAGGGGGCTTTCCTTGGACTGAAATACGTGGTTCCCGTCATGAAAAAGCAAGGATACGGCAGCATCGTGAATACCTCCTCCGGCGCTGGTCTTATCGGTTCGCCCGGATTTGTCGGATACAATAGCTCCAAGCATGCCGTGATCGGCATGACGAAAGTGGTTGCGCTAGAAGCGGCTCCGTTCGGCGTGAGAGTGAATGCCGTAGCGCCTGGCGTGATCAACACCCGCATGATGCGCCAAATCGAGAAAAATACCGTTCCTGAGGATGCCGAAGGTGCAAGAAAAGCATTCGGCGCCGCCGTTCCGCTCGGACGATACGGGGAAGCGGAAGAGGTAGCGAACGTAGCCGTTTTCTTGCTATCCGACGATGCGTCCTATGTAACGCAATCCATTTATACCGTGGATGGCGGTCAAATCAACCAATAA	MSKFDGKVIVITGAAGGIGTAAAQKLAEQGAKLALVDLNLEAVQQVISDLGLDDSSSIALQANVAKEEEVKAYVDATVEKFGKIDGFFNNAGIEGITANVEDYPTETFEMVFNVNVKGAFLGLKYVVPVMKKQGYGSIVNTSSGAGLIGSPGFVGYNSSKHAVIGMTKVVALEAAPFGVRVNAVAPGVINTRMMRQIEKNTVPEDAEGARKAFGAAVPLGRYGEAEEVANVAVFLLSDDASYVTQSIYTVDGGQINQ	PGPT0008195_881	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008195-butA|ydjL|budC-K03366	NA	NA
AK002_04435	738	bacC_4		Dihydroanticapsin 7-dehydrogenase	ATGGGAAAATTACAAAACAAGGTTGCTGTAATTACCGGTGGTGCATCCGGCATCGGTGCGGCGACCGCGCGTCTTTTCGTTGAAGAAGGAGCCAAAGTGGTGCTTGTTGATCTCAATGAGGACAAAGGCAAGGCGTTTGAAGCCGAACTGAAGGCGCTTCATCACGAGGCGTTGTTCGTTAAAGCGAATATTACCAGTGAGGAAGAAGTAGCCAATATCTTCAAGCAAGCGACTGAAGCTTTTGGCAAAGTGGATGTTGTTTTTAACAACGCCGGCATCGGGCGGGTTCATTCTTCGCACGATCTAGAGTACTCCGAGTGGCGAAACACCGTAAACGTGGACTTGGACGGCGTATTCCTGGTCGCCCGGGAAGCTATCCGTGAAATGTTAAAAGCAGGCGGAGGCACGATCGTTAATACCGCATCCATGTACGGTTGGGTCGGCTCGCCCGGTTCAGCGGCTTATAACGCCGCTAAAGGAGGAGTCATTAACTTGACGCGTTCCCTGGCATTGGAGTATGCCGAGCACCATATTCGGATCAATGCGCTGTGCCCGGGCTTTATCGACACACCAATCATTCCGGAGGAGAGCAAGCAAGCGTTGGCAGCGGCCACGCCGATGAAGCGTTTGGGACAAGCCGATGAAATGGCAAAGGCTGTTCTGTTCATGGCTTCGGATGACTCCTCGTTCATGACGGGGAATACCTTGACGGTTGACGGTGGATATACAGCCCAATAA	MGKLQNKVAVITGGASGIGAATARLFVEEGAKVVLVDLNEDKGKAFEAELKALHHEALFVKANITSEEEVANIFKQATEAFGKVDVVFNNAGIGRVHSSHDLEYSEWRNTVNVDLDGVFLVAREAIREMLKAGGGTIVNTASMYGWVGSPGSAAYNAAKGGVINLTRSLALEYAEHHIRINALCPGFIDTPIIPEESKQALAAATPMKRLGQADEMAKAVLFMASDDSSFMTGNTLTVDGGYTAQ	PGPT0008190_280	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
AK002_04436	603			hypothetical protein	GTGAATCATGAACAAATCGTGACATCGGCACGAAGAAATCGGACGAAAGAACATCTGAAATCCGCCTTTATTCAACTTGTAAAAGAGAAGGGATATCATGCTGTAACGGTGAAAGACATCGTGGATAAGGCTGCTTATAACCGCAGCACCTTCTATGTCCATTACCAGGACAAAATCGAATTAGCCGACGATGTGCTCGCTTCCAAACTCCAGGGCTTGGAAGAATCGGTGGGCAAGCCCTACATACCGGGACACAAAGTGTATACGGCGAACCTCAACGCCCCGTCCTTTAATATCGTGGCCTACATTTACGAGCACCGCGATTTTTTTGAGCTGATCAAATACGAGGACACCTTGCCGGGATTGCATACGGAATTCCCTCAAACGATCGTAAAGATCTATCAGGAACGATTTATATTCGAAACGATTAACCAGATTCCGGTGAACATGGATTACTTCAAGCGGTACACCGCCTACGGCTTTCATGGGTTGATTCTGAACTGGATCCGAAACGATTTCAGGGAATCGCAGGAGGAATTCATTAAAGAGGTCATTGATCTAACGAGGACGCATATTTACTCGGTGGAGTATGTGAAGGAGTAA	MNHEQIVTSARRNRTKEHLKSAFIQLVKEKGYHAVTVKDIVDKAAYNRSTFYVHYQDKIELADDVLASKLQGLEESVGKPYIPGHKVYTANLNAPSFNIVAYIYEHRDFFELIKYEDTLPGLHTEFPQTIVKIYQERFIFETINQIPVNMDYFKRYTAYGFHGLILNWIRNDFRESQEEFIKEVIDLTRTHIYSVEYVKE				NA	NA	NA	NA	NA
AK002_04437	648			hypothetical protein	ATGAGTACGACATTTATTAGAAACCACCAGTTTAACGTGATTAAAAAACAATCGGAATTCCTTCTGAAGACGTTGCGAACCGTTGCGGATCGACGCGTTCTGGAAACCGTCAGGTTCAGTTCGGTTGCCAACATCATGGATGCCTTTCCTTCGCTGACCGAGGATCAGAAGCGGATGCTGGGCGAAGTCTCTACATTCGAGAAGGCTGAGGATTTCGAGCGGTATCTGAACAACTTGGAACCTTATCTGGAGTCTTTTCCGACGATTACGCCAAAACAGATTCAGAAGTTATTTCCTAAAAATAAGAAATTGAAATTACCGGATCTGACCTCGATCGATTTTCGATACGTAACCTATTTGGGCTGGGTGGATATTGCCAGCAACAGGTTATTTATCGTATATCCGTTCGAAGGACGCTTCATCGGGATCGAGGGGAGGATCACGCCGACCAACAAGAAAGGGTACTGCCTCTTCTGCAATCGGCATCAAGAGCTCGCTTTGTTCTCGGTCAAGACCAAGCCGTCCGGTGCTTCGGCGGATAATCTTTCTGCCATAAGCCATTATGTTTGTCTGGAGAGCCAAGGCTGCAATCACAGCATTACCGACACGGCGGCCCTGGAGAAGTTCATTCTCTCGGCCAGCAAATAA	MSTTFIRNHQFNVIKKQSEFLLKTLRTVADRRVLETVRFSSVANIMDAFPSLTEDQKRMLGEVSTFEKAEDFERYLNNLEPYLESFPTITPKQIQKLFPKNKKLKLPDLTSIDFRYVTYLGWVDIASNRLFIVYPFEGRFIGIEGRITPTNKKGYCLFCNRHQELALFSVKTKPSGASADNLSAISHYVCLESQGCNHSITDTAALEKFILSASK				NA	NA	NA	NA	NA
AK002_04438	459			hypothetical protein	ATGAAGATTGTCGAACTCAATAGAATGAATTTAGTAGGAATAAGAGTAGTATGCCCTGGCGACCAGTATGTCTATGAGATTCCAAAGGCTTCTGTCGTACTTAAGGAAAGGCTGAATGAGATTTCTGGCGTTGTACAACCAGCAAGATTGATTGGGGCATTCTTCGTTGAGGATATAACGGAAGAGGAGGATGGTTACTGGGTATGTGTTGAAGTGAATGACATAACGGAAGTTCCAGAAGGGATGGTATCTGTAGTAGTTCCGAAACAAAAATATGCGGTCCAACGACATAAGGGACCTAATTATGAAGTTAGAAATACATATGAAGAACTCCACAACAGGATAAAAGAAAATAAACATGAAAGATTGCTAAGATCCTGGCATCTGGAGATTTCAGATGAATGGGGACATGGGGATGTCAATCATATTGAAGTAGACTTGTATGACACCATTAAATAG	MKIVELNRMNLVGIRVVCPGDQYVYEIPKASVVLKERLNEISGVVQPARLIGAFFVEDITEEEDGYWVCVEVNDITEVPEGMVSVVVPKQKYAVQRHKGPNYEVRNTYEELHNRIKENKHERLLRSWHLEISDEWGHGDVNHIEVDLYDTIK				NA	NA	NA	NA	NA
AK002_04439	744			hypothetical protein	ATGATGACGCATAAAGAAATGATACATATCGTGCAGACCCAGCTGGCGATTGATCTGAATTGTACGGTGGATGACTTAAACGGGGAAAAAGACCGCGTGATTTTTGTAGACGCCAGAGAGAATCCAGGGCGGAGACCGTATCCGAGAAATGAACGTTATTTCGAAATTTTGTCGATGGGCAAATCCATTGTGGTGTCGGCTACGCCGGAACGGCTGGCGATTGCCAAAACGTTTATGCAAGGGAAAGACAGGGATACGATGTTTTCGCTGCCGTTTATTAGAGGAATTTATTTGCATTTTCTCCCGGATCTAGAGAGAATCCAGCCGATGCCGCCACCGGCCGGTTTTTCCTATGAAGTGGTGGAGGAAAATGAGATTTCAAGGCTCATGGAGCTTGAGGGATTGGAGGATGCCATTGTAACCGACCCGGGGCGTCCGTATCAGACGGTATTGGCCGTAATCGCCAAGTACAATGGCAGGATTGTTGGCTTGGCAGGGGCTTGTAACGTGTGTGCCGCGATGTGGCAAATCGGAATCGAGGTACTACCTGAATTTCGCCAAATGGGATTGGCGTCTTATCTTGTAAACCGATTAACGTTCGAGGTATTACATTGCGGACGCGTGCCGACTTATGATGTAATCTCTAGCAATATCGCCTCCCAAAGAGTGGGTTACCGAGTGGGGTATTACCCGGCGTTCGTGACGGATTGGCGAGTTGATTTTAGGGATTTCGAGTCTAACTAA	MMTHKEMIHIVQTQLAIDLNCTVDDLNGEKDRVIFVDARENPGRRPYPRNERYFEILSMGKSIVVSATPERLAIAKTFMQGKDRDTMFSLPFIRGIYLHFLPDLERIQPMPPPAGFSYEVVEENEISRLMELEGLEDAIVTDPGRPYQTVLAVIAKYNGRIVGLAGACNVCAAMWQIGIEVLPEFRQMGLASYLVNRLTFEVLHCGRVPTYDVISSNIASQRVGYRVGYYPAFVTDWRVDFRDFESN				NA	NA	NA	NA	NA
AK002_04440	231			hypothetical protein	ATGAGTAGAAGGATAATTTCCATGCTTGTATTTTCCTTGAGTTTGCTATCGCTGCTTATTTCGATGAAGTTATTTTGGAATATGGGTATTTTTGTGGATGAATACGGTTTGAGCCCTGACATTGTGAATGGCGGAGACTTCTGGCTTCTGATGGATTGGTTAAGATTAGGATTATTATTCTTAGTATGCATTATATCCGGCGTGAGCGTTTTTAAAAGCTATAATGAATAA	MSRRIISMLVFSLSLLSLLISMKLFWNMGIFVDEYGLSPDIVNGGDFWLLMDWLRLGLLFLVCIISGVSVFKSYNE				NA	NA	NA	NA	NA
AK002_04441	540			hypothetical protein	ATGCTATATGATTTGCAAGGTGAAGGGAATATGTCAACGATCGTGGGCATGTTATATGGCGCTGTCAGAGAGAACAGTGAGCGGCTAAAGTCCATAACCGAGGGCATGTCGCAAGAGGAGGTTGATTATAAGGGACCTGGTGGTCATTATAATAGCGCCGCTCAATTAATAAAACATATCACGTACGTCGATCTGAATTGGGTTTATCGGATCAAAGGAGTGGCGCTGTCTCCGTCGTTAAAGGACGAGTACGGCCCGATGATCGATGAACATAACAAGCTGCCGATGGTCAGAGGGATCTCTTTGGACACGCTCCTATCTAAATATGAAGTTGTATTCAATTTGCTGAAAGATGTTTGTTCGCAGTTAACGGATGCGGATCTGGAACACATCGTTACATTTGGACACGAGGATGAAAAGCAAGCCACCCTTCGCTGGGGCTTGTGGCATATGGCCGACCATAACCGTTATCATCAGGCCCATATTAATCAGCTTAGAAAGTGGTACTCCGAGCAAAGGAGGGGAATGGAACATGAGTAG	MLYDLQGEGNMSTIVGMLYGAVRENSERLKSITEGMSQEEVDYKGPGGHYNSAAQLIKHITYVDLNWVYRIKGVALSPSLKDEYGPMIDEHNKLPMVRGISLDTLLSKYEVVFNLLKDVCSQLTDADLEHIVTFGHEDEKQATLRWGLWHMADHNRYHQAHINQLRKWYSEQRRGMEHE				NA	NA	NA	NA	NA
AK002_04442	408			hypothetical protein	ATGAATCCAGCCAAGCATTTTGTGTCTGCCGCTGCCATCGTAATCAATGAAAAGGACGAGATTTTGCTCAATAAAGGACCGCAGCGAGGATGGAAGATGCCTGGGGGTGTCGTGGAGATCGGAGAATCTCCCGAACAAGCTGCGATTAGGGAAACGAAGGAAGAATCAGGGGTCGATATAGAAATCATGCAATTTTGCGGCATCTTCCATAATGTGAAAGACAGTATATGCAATACATTGTTTCTGGCCAAGCCCGTTGGAGGAGTCCCGATTATAACCGAAGAGAGTTTGGAGACTGGTTTTTTTCCAATCGAAGAAGCACTGCAGATGGTTAACTTTATGAACTTCCGGGAGCGAATTGAAATGTGTTTAAACCCGGCAGCACATCCGATCTATGTCGAGTTCTAG	MNPAKHFVSAAAIVINEKDEILLNKGPQRGWKMPGGVVEIGESPEQAAIRETKEESGVDIEIMQFCGIFHNVKDSICNTLFLAKPVGGVPIITEESLETGFFPIEEALQMVNFMNFRERIEMCLNPAAHPIYVEF				NA	NA	NA	NA	NA
AK002_04443	558	hisB_2		Histidine biosynthesis bifunctional protein HisB	TTGTCCGAACTGGTCAGGCAAGCGGTTTTTATAGATAGGGACGGAACTCTTGGAGGAACCGATCGGGTTGTTCTGCCCGGTGAATTTGAGCTTTATCCGAAGGTAAAGGATTCGATTCAATCTCTCAGAGCCGCTGGCATGCTTGTTTGTTCGTTTACGAATCAACCTGGAATTGCTCGTGGCGAAGCAACGATGGGAGAATTCGAGTCGGAATTGTCAGCCTTTGGTTTTGACAAGATCTATCTTTGTGCGCATGAGCATGGAGCGGGTTGTGAATGTAGAAAGCCATCCGCAGGGTTGCTGTTAAAAGCCGCAGAAGACAATCATCTGGACTTAGCCAAGTGTTATGTCATAGGGGACAGGTGGACGGATATGGTGGCTGCCAAAGAAGCCGGCTGCAAGAAAGCGTTAGTGATGACGGGGGCCGGAGCCAAGGAACTGGAAAAATATAATAACCACGAGTACTTCGGCAAATGGAAAGATGCGTATCCTGATTTTATCGCTACAGACTTGAATGAAGCCGTGACATGGATATTGGAAGGGGGAGTAAATAAATGA	MSELVRQAVFIDRDGTLGGTDRVVLPGEFELYPKVKDSIQSLRAAGMLVCSFTNQPGIARGEATMGEFESELSAFGFDKIYLCAHEHGAGCECRKPSAGLLLKAAEDNHLDLAKCYVIGDRWTDMVAAKEAGCKKALVMTGAGAKELEKYNNHEYFGKWKDAYPDFIATDLNEAVTWILEGGVNK				NA	NA	NA	NA	NA
AK002_04444	108			hypothetical protein	ATGGGGAAGGTGTGTAAAACCGAGAACGTCACAAGTGTTGGTTATCATCCTACGTTATATACAAAGCCGATTCTAATTCATAAAGATGAAATTACAATCCTGGTTTAA	MGKVCKTENVTSVGYHPTLYTKPILIHKDEITILV				NA	NA	NA	NA	NA
AK002_04445	507			hypothetical protein	GTGACCGAAAGATTTCAGTTGAAAAACGTTGGAGTTGAGGATCCTTCATACGAAAGCGGCATGTCGGGGTTTGGGTATCTTGCGTTGTTCCAATGTAATGTCGAATACCGTTTCAGCACGGAAGACATGAGTGTGAAGGAAGCGGAAATTTACATTCAAGACGTGCTGAATCAGCTGCCGGCTGAAACCGTACATGAAATATGCAAGAAAGCATGCGAGTGGAAAGACCTCAAAATGTCCAGCGATACGGCTGATTATCCTCCCGGGTTAGGTGAGGTGTATGGAGCGGATATTTTGGAGTTTATGTCTGTAGGGCAAGTTGATCTTTATCGAAATCCTTATGATCGAAACGATCATGCTTTCGGAGCCATCCTGGGTGGAGGAGCAGAGTGGGACTCTGAAAATGGCATGGAAATTGTGATACGGGGCAGTGAGGTTCTAGAGGTGCGTGAGTATTTAGGTTATGGCGCAGACGCCATTTGGAGCGAAACCGACGAAAGTGAATAA	MTERFQLKNVGVEDPSYESGMSGFGYLALFQCNVEYRFSTEDMSVKEAEIYIQDVLNQLPAETVHEICKKACEWKDLKMSSDTADYPPGLGEVYGADILEFMSVGQVDLYRNPYDRNDHAFGAILGGGAEWDSENGMEIVIRGSEVLEVREYLGYGADAIWSETDESE				NA	NA	NA	NA	NA
AK002_04446	507			IS1595 family transposase ISSpgl1	ATGGTAGAATTTCCGATGATTGAAACCAATAGACTGTTCATGCGAGAATTAACACTTGATGATGCTGTATCCATATACAGGCACTTTTCTTACCCCGAAGTCACAAAATTTATGGATATCGAAGCATGTATAGACATACATGAAGCAGTAGACATTATTACGTTTCATATCCGTGATTCGGGCTGCAGGTACGGGCTGTTCGGAAAAGACAAGAACGAACTCATTGGAACATGTGGGTTTCATTGTTGGATAAAGGACGAAGAAGAAACAAGAGCTGAGATCGGTTTTGATCTATCCCCGGATTATTGGGGGAAAGGATTCATGCAAGAGGCTTTGCATGAACTGATTCCGATAGGGTTTAATTTGATGAAACTTGATTGTATCGAAGCAACAACGGAAATTGAAAACGTTCAATCACAAAGGTTATTAGAGAAGATGGGATTCACTAAAGAGCCTGATTTAAAGGATCGTTTGATGTATTTTACATTATATAAAAATCGAACATAG	MVEFPMIETNRLFMRELTLDDAVSIYRHFSYPEVTKFMDIEACIDIHEAVDIITFHIRDSGCRYGLFGKDKNELIGTCGFHCWIKDEEETRAEIGFDLSPDYWGKGFMQEALHELIPIGFNLMKLDCIEATTEIENVQSQRLLEKMGFTKEPDLKDRLMYFTLYKNRT				NA	NA	NA	NA	NA
AK002_04447	432			hypothetical protein	ATGAAGATTAAGAAAATGAATATCGAGGGCGAGGGCCTGAATCGATTTTTTGGACCACTGGAGTCAAGAATTATGGATATTCTCTGGTCTTCGGAGGCACTGAGTATCAAGGAAGTGCAGTCGATCCTGAATCAGGAGAGCCCGATCTCGATCAATACGGTGATGACCGTCATGAATCGTCTTCTGGATAAAGGCCTGCTGACAAAGGCAATGACGGGAACCGGCCGGACACGGGCAGCCAAGTTCAGCCCGCTGCAGTCGAGGGAGCAGTTTCTCACGGAACAGACGAAAGAAGTGTCGCAGGGACTCATTCAAGAGTATGGGAGCTTGGTCGTGAACCACATGATCGATGCGCTGGATGATGTCGATCCCGAGGTGATCGCAAAGCTGGAGCGTAAATTAAACGATATCAAACGCGGGAAAAAGCAATGA	MKIKKMNIEGEGLNRFFGPLESRIMDILWSSEALSIKEVQSILNQESPISINTVMTVMNRLLDKGLLTKAMTGTGRTRAAKFSPLQSREQFLTEQTKEVSQGLIQEYGSLVVNHMIDALDDVDPEVIAKLERKLNDIKRGKKQ				NA	NA	NA	NA	NA
AK002_04448	801	htpX		Protease HtpX	ATGAATCCTACCATTCGGCTAAAATGTGCCTACGCGCTGATGATCGCATTCGTAGCTGTTGTCATGGTACATATGGGAATGCTCATTACATACCAGATTCGAAACGGAGTGGTTCAAGGCCCCGTACTGAATTACGCCTTAATCGACATTGTCATTGCGTATACCCTTGGTCAGATCATTTGGAGAAGTACCCGGCAGTTGGTTTTATCGCAAAAATGGTTAAGGCACTTCCGTGCCAACAGGCACGACAAATTAACCAAGCGCCTCAATTACAAATACCGCGACTGGGGCACGGAAATCATCGTTGTACAGGACGATGCCTTTGTGGCTCTGACGATGGGTCTTCTGCGACCGAAAATTGTCGTATCCACTACCGTTCTAGAGATGTTTACTGACAAGGAAATAAAGGCGATTTTACTGCATGAACGATATCACTGCCGCAATCACGATGGATTAAAAATGTTTTTTTCGGCCTTGCTGGCAGACGCCTTTGGATATTTGCCGATCGTTAAACCGATTCTTCGCTACTATCAGACGTGGCAAGAGCTGTTTGCTGACCGCTACGCCATCCGGCAGATGGGTACGGAGCAGTATTTAGGCAGCGTCTTATTACAATTAGCTAAACTCGGTAAGCTTCAGCGGTATGAGACAGCCGTGCATTTTGCGAATACGACATTGGAGTACCGGGTCATGCAGGTTCTTGAGCCTGATCGAGGGGTCCATGTTCCGTTAGCCCTGCTGAAGCCTTTTCTGAGATCCTGTTCCATTTTGCTGCTCCTCATGTTGGGCGGGGATTCATAA	MNPTIRLKCAYALMIAFVAVVMVHMGMLITYQIRNGVVQGPVLNYALIDIVIAYTLGQIIWRSTRQLVLSQKWLRHFRANRHDKLTKRLNYKYRDWGTEIIVVQDDAFVALTMGLLRPKIVVSTTVLEMFTDKEIKAILLHERYHCRNHDGLKMFFSALLADAFGYLPIVKPILRYYQTWQELFADRYAIRQMGTEQYLGSVLLQLAKLGKLQRYETAVHFANTTLEYRVMQVLEPDRGVHVPLALLKPFLRSCSILLLLMLGGDS				NA	NA	NA	NA	NA
AK002_04449	759	lgt_3		Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCACAATGAACTCATTCATATCGGACCTCTGACCATTTACGGCTATGGATTGATGATCGCAATCGGAATCCTTATCGCTTATAAGGTTGTTGCTTATAGAGCAGCTTCTAGACAAGTAGAACTATCCCATGTTTCCTCTCTGACTTTCTGGAGCTTATTAGGCGGATTGGTCGGCGCTAAGCTTTTATTTTGGATCACTCAAATGAACCATATCATCCAGGATCCCTCGATGGTTCTGAATTTTTCGGAAGGATTCGTGGTGTACGGTGGAATTATCGGGGGGATTGGGGTCGGTTATGCCTATTGTAAGAAGAAAAAGATAAACTTTCTAAAGTACCTTGACCTTTTTGTGCCCTCCCTTGCATTAGCGCAGGGCTTTGGAAGAATCGGCTGCCTCCTCGCCGGTTGCTGCTATGGTGAAGAAACGGAGGGTTGGTTTGGAATTACGTTTCACGATTCCGAGCTTGCCCCGAATGATGTCAAACTCATTCCTACGCAAATATTAGAGAGCGTATTCAGCTTTTCTATTTTTTTCTTGCTGATCTATATTGCTAGAAGAAAAAGACCTAACGGCCTAGTAGCAGGTCTTTATCTCATACTTTATAGTTTAGGGAGATTTATTATCGAATTTTTCAGAGGCGATATCATCCGAGGCCAGTTCGGTGCTCTCGCTACTTCGCAGTGGATCGCATTAGCCGTTGTTTTGCTCACGTGCATCGTATTCTTGACCCGGACTCAAAAAAAGATGACGGCATAG	MHNELIHIGPLTIYGYGLMIAIGILIAYKVVAYRAASRQVELSHVSSLTFWSLLGGLVGAKLLFWITQMNHIIQDPSMVLNFSEGFVVYGGIIGGIGVGYAYCKKKKINFLKYLDLFVPSLALAQGFGRIGCLLAGCCYGEETEGWFGITFHDSELAPNDVKLIPTQILESVFSFSIFFLLIYIARRKRPNGLVAGLYLILYSLGRFIIEFFRGDIIRGQFGALATSQWIALAVVLLTCIVFLTRTQKKMTA				NA	NA	NA	NA	NA
AK002_04450	1185	alaS_2	COG0013	Alanine--tRNA ligase	ATGACAAAGAAGCTGTATTACGAATCCGCTTATACCCGGGAGTGGGAGACACGAATCACGCGGAAGCTGGAACGGGAGGACGGGACCTACCTGGTACTGGAAGAGACGGCCTTTTATCCGCATGGCGGAGGACAACCCTGTGATCTCGGGTGGATCGATAAAATCCGTGTTCTTGATGTCGTTCAGGAGGACGGAGAGATACTGCATAAAATCGATCGTTTACCGGAGAGGGAAGAGGTAACCTGCCGGTTGGATTGGGACAGAAGGTTCGACCATATGCAGCATCATAGCGGTCAGCACCTGCTGTCCGCCATGTGTCTGCAGGTATGCGAGGCGGAGACGCTCAGCTTCCACCTGGGTCAGGATTATGCCACCATCGATATCGCCCGATCGGATCTGCCTCAGCATCAGCTGATGATGCTGGAGCTGGAAGTCAACGACCAGATTTACCTTAATCGACAGGTAACGAACTATGTTGTGAGCCGGGAGCAGGCGGCCGCCCTGCCGCTGGTGAAGCAGCCGAAGGTAACCGACGATATTCGGATCGTTGAAATCGAAGGTATCGAATATAACGCATGCGGCGGCACCCATGTCTCGGCAACGGGTGAGATCGGGATGATCAAGCTGCTGAGAGCAGAGAAGCAGAAGGGACAAATGCGTCTTTATTTTAAGTGCGGGTATCGGGCGTTGAAAGAATTTAATGCCGGAATGGAGATTCTCGGAAGCCTGTCAGCCAGGTTCAATACGGCAAAGGAAGAGATTCTGGACCGGATTGCCAAATGGGATCAGGAGCAGAAGCAGCTCCAGGCTGAATTGAACGCAGTGAAGGCCGAGAATGACGCTTACCTGGCCGGGAAGCTGTTGGCTGAGCGCCAAGGCAGACTGGTCAAACATGTTTTTGCAGACAAGCCGATGAAGGATATGCAGAACTTGGCGGCCAAGCTTACCGAACAAGCCGAGGTTATCGTGCTTTTCGCGTCCAACGCGGACCATAAGGTGGTTCTCGCTCAAGGAGGAGAGAGCGGGCCTGCCTGCGGTGCTTTTTTCAAACAGCATCTGGCGGATTATCGAGGAAAAGGCGGAGGCAGCGATAAGATTGCCCAAGCTGGCTTTAGCACCGTGGAGGATGCCATGGCATTTTACCGGTTTACGGCGCAGTCATTAGGTCAGCCAGAGGAGGAGTAA	MTKKLYYESAYTREWETRITRKLEREDGTYLVLEETAFYPHGGGQPCDLGWIDKIRVLDVVQEDGEILHKIDRLPEREEVTCRLDWDRRFDHMQHHSGQHLLSAMCLQVCEAETLSFHLGQDYATIDIARSDLPQHQLMMLELEVNDQIYLNRQVTNYVVSREQAAALPLVKQPKVTDDIRIVEIEGIEYNACGGTHVSATGEIGMIKLLRAEKQKGQMRLYFKCGYRALKEFNAGMEILGSLSARFNTAKEEILDRIAKWDQEQKQLQAELNAVKAENDAYLAGKLLAERQGRLVKHVFADKPMKDMQNLAAKLTEQAEVIVLFASNADHKVVLAQGGESGPACGAFFKQHLADYRGKGGGSDKIAQAGFSTVEDAMAFYRFTAQSLGQPEEE				NA	NA	NA	NA	NA
AK002_04451	354	yccX		Acylphosphatase	ATGAGCGTACTTAAGAAATTAAGAAATGACTATGTCATTTGGCATGCCAACCGGGTTAAGTTACCTGAACGCACACCGGGCAACATCGTCAGAACAAAAGCTGTTTTTTCCGGGAAGGTGCAGAAGGTAGGGTTTCGCTTGGAAATATATTGCATCGCTCGAAGAATGAATTTAACGGGATGGGTGAGAAATTTACAGGATGGAAGTGTGGAAGCGGAATTTCAAGGGGAAGCGTCACAAATTGATTTTCTGGTCCATTGCATGCGTTCATTGAAACGGGCGTCCGTACAGAAGGTGACGGTAGCTGATCTGCCTATTAAAGAGGAAGAAGAAAGCTTTGTGATCGCAGAATAA	MSVLKKLRNDYVIWHANRVKLPERTPGNIVRTKAVFSGKVQKVGFRLEIYCIARRMNLTGWVRNLQDGSVEAEFQGEASQIDFLVHCMRSLKRASVQKVTVADLPIKEEEESFVIAE	PGPT0001372_417	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
AK002_04452	549			IS1595 family transposase ISSpgl1	ATGCCTCAATTCCCCCTATTAGAAACAGAAAGATTGGTATTAAGACAAATTATACCAGAGGATGCTAGAGACATCTTTCATTATTTCTCTATGGACACCGTTACGAAATTTTATGATGTGGAGAGTTTTACGCATATTGAACAAGCAGATGAACTGATTCGTAGATGGAATCATAGGTTTGAAAACAATCAGGCCATTCGCTGGGGAATCGCTTTACGGTCGGAAAGCAGAGTCATTGGAACATGCGGATATCATGGTTGGATGAAACATCACTATAAAGCTGAGATTGGATATGAGCTGGCACCAGAATATTGGCGGCAAGGTTACATGACGGAGGCGATTCAGAAGATCATGGAGTTCGGCTTTAACCATCTTGGGTTAAACCGGATTGAAGCATTCGTAGAGCCAGAGAATACGGCATCAAGAAAGTTGCTGGAGAAGCTGGGATTAAATGAAGAAGGGACATTGAAGCAGCATTTTTATTGGAGGAATCAATTTGTTGATACGGTCATCTACGCATTACTTAAAAGAGATTATCAAGCGCGTTAA	MPQFPLLETERLVLRQIIPEDARDIFHYFSMDTVTKFYDVESFTHIEQADELIRRWNHRFENNQAIRWGIALRSESRVIGTCGYHGWMKHHYKAEIGYELAPEYWRQGYMTEAIQKIMEFGFNHLGLNRIEAFVEPENTASRKLLEKLGLNEEGTLKQHFYWRNQFVDTVIYALLKRDYQAR				NA	NA	NA	NA	NA
AK002_04453	339			hypothetical protein	GTGATTCTCATTAAGATCTCGCAATCTTTTAATTCTGAAAAAATCGCAATGCTGAATAAGGAAGTTCATGAAAATCATGTCTCGCTCTATCCGGAGAACGTATTTATGAAATCATATCGATCCGTGTACATTCATCAATTAGGAATAATGAAAGTGCACCGAAATAAAGGAATTGGACGACTCTTAATGAACTTTATTAATAACTTTGCCAAAGAGAATGGAATAAACAAAATACAATTAGATTATTGGTCGGACAATGAAAGTGCTAGTCAATTCTATATAAAAAATGGTTTTAAGAGCTATCGAAATTATCTGTATAAGGAAGTAGATTCCATGTAA	MILIKISQSFNSEKIAMLNKEVHENHVSLYPENVFMKSYRSVYIHQLGIMKVHRNKGIGRLLMNFINNFAKENGINKIQLDYWSDNESASQFYIKNGFKSYRNYLYKEVDSM	PGPT0007785_1698	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
AK002_04454	627			hypothetical protein	ATGAAAGTAGAAATTTTAACGATGCCCTCGTTTTGGAAAACGGAAATGAGACAAAAATATTATCAACTTCAAGAGGACAATCGTAAGTTGGTTATTCTGTTCCCCGGAAAAAACTATCCCTGTGACAAGCCCATTCTACATTTTGCTGGAGCTTCCGCGATTCAAAGTGGTTATGACTTAATGGTGCTTGAATATGGATATCAAGCCGCGAGAACGGATTTGGATATTCATGATCTGCAAAGAGTAATAGAAGAGTGCCACGAAACGGTTCAACGAATCATAAGCAAGTATAAAGAGATTGTTTTTATTAGTAAGAGCATAGGCACAATCGTTGCTGGAGAAGTTCATGAAAAACTTGACACTCCTATAAAACATCTATTTTTGACGCCGATTAAAGACACCATCCCCTATATCAACAGGTTTAAGGGACTTGTGGTTTATGGTTCAAAGGATGAAGTGTTTCATCATGAACTTGCAGACCAAATTAAACTAGACAAGGCCACAGAGGTCATCGAAATTCCTAATGCCAACCATTCTTTAGAGACCGATCATGCTCCGGAAAGTGTTGAGATTCTAAGCAAACTGGTAGGGATATATATGAATTTTCTGAATGAAGGTAGAGGGTGA	MKVEILTMPSFWKTEMRQKYYQLQEDNRKLVILFPGKNYPCDKPILHFAGASAIQSGYDLMVLEYGYQAARTDLDIHDLQRVIEECHETVQRIISKYKEIVFISKSIGTIVAGEVHEKLDTPIKHLFLTPIKDTIPYINRFKGLVVYGSKDEVFHHELADQIKLDKATEVIEIPNANHSLETDHAPESVEILSKLVGIYMNFLNEGRG				NA	NA	NA	NA	NA
AK002_04455	1164	opuBA	COG1125	Choline transport ATP-binding protein OpuBA	ATGATAGTACTGGAGCATGTGAACAAGGTTTATGATAATGGCTTTCACGCGCTGAAGGACATTAATCTCGAATTCAAAAAAGGGGAAATTACCGTCCTCATCGGTCCGAGCGGCTGCGGCAAATCAACAACCATGAAGCTGATCAACGCGCTCAATACGCCATCCTCGGGCAAAGTTCTGATTGACGGTCAGGATATCTCCAGATTGAATCCGGTTGAACTGCGGCGCAATATCGGCTATGTCATTCAAAGCGTTGGTTTATTTCCGCATATGAATATCTCCAAGAACGCGGGCGTGGTTCCGCGTCTGAAGAAGTGGGATAAAGACAAAACAGATCAAAAAGTAAATGAATTGTTGGACATGGTCGGACTGGATCACACCATTTATGGCACTCGCTATCCATCCGAGCTAAGCGGCGGGCAACAGCAGCGCGTAGGCGTCGTGCGGGCGCTTGCGGCTGAACCCGATATCATCCTGATGGACGAGCCGTTCTCCGCACTGGATCCCATCAGCCGGGAGCAGCTTCAGGATGAGCTGATCCGGCTTCAGCAGGAGCTCAATAAGACCATTATTTTTGTGACGCATGATATGGATGAAGCTATTAAAATCGCGGATACCATCGTTCTGATGAAAGATGGCGAAGTGGTTCAAACGGGTAGACCGGACAGCATATTACGGCATCCCGCAAATGATTTTGTGCGTGATTTTATCGGTTCGAAACGTCTGCAAAATGAGAATGAAAGCGCCTATGAAATTCCGCTTGTGGATGAAGTGATGATTACGAATCCGGTCACGGCATTCCCGAGCCGGGGATTGGCTGAAGCCATCAAGATGATGGAAATGAAGCGGGTCGATTCGCTGCTGATCGTGGACCGTAACCGTCAGCTTCAAGGCGCGGTTTCGATCTACCGGGTACTCGACCAATACGGCGAAGAAGGCAAAACCGTCGCGGATGTGATGCATCCGGTCCGTTTTTCCGTAGCTTCGGGAAGCACGCTTCCGCAGGCCATCGAGATTATGGACAGCCATCAGCTCAGCAACCTCCCTGTCGTAGACAGCAATAACCGGTTCCTCGGATTAATCACAAGAGGCAGTGTGGTTAAACATCTGGCCGAAGTCTATCCGACGATGGTTCCTCCGGTGCTGAACGGAGAGGGTGAGTGA	MIVLEHVNKVYDNGFHALKDINLEFKKGEITVLIGPSGCGKSTTMKLINALNTPSSGKVLIDGQDISRLNPVELRRNIGYVIQSVGLFPHMNISKNAGVVPRLKKWDKDKTDQKVNELLDMVGLDHTIYGTRYPSELSGGQQQRVGVVRALAAEPDIILMDEPFSALDPISREQLQDELIRLQQELNKTIIFVTHDMDEAIKIADTIVLMKDGEVVQTGRPDSILRHPANDFVRDFIGSKRLQNENESAYEIPLVDEVMITNPVTAFPSRGLAEAIKMMEMKRVDSLLIVDRNRQLQGAVSIYRVLDQYGEEGKTVADVMHPVRFSVASGSTLPQAIEIMDSHQLSNLPVVDSNNRFLGLITRGSVVKHLAEVYPTMVPPVLNGEGE	PGPT0013585_508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
AK002_04456	666	opuCB	COG1174	Carnitine transport permease protein OpuCB	ATGAATGCATTTTGGAGCTTCATCACGGATCGTTATCCGGATATTCTGAAGGCTTTGCAGGAGCATCTGGTCCTCTCGTTCTCTGCCGTGCTGCTCGGGACCGTGATTGCCGTACCGATCGGAATCCTGCTGGTCTACAACCGGGTCGGCTGGTTGAACAGCATCGTCTTTTTCGTTGCGAATCTGTTTCAGACGGTACCGAGCCTGGCGCTCCTGGCGATTCTGATTCCGCTGCTTGGGATCGGCATGAAGCCGGCCATACTCGCATTGTTTCTGTATTCCCTGATGCCTATTCTGCGGAATACCTATGACGGTTTTCACTCCGTGGATAAAGGCGTGCTCAATTCGGCCAGGGGAATGGGATACAGCACCGCCCAAACGATTTTGAAAATTCAGCTTCCCCTATCGCTTCCTTACATCATGTCCGGTGTCCGCATTACGACCGTGTATATCATCAGCTGGGCAACCCTGGCTTCCCTGATCGGTGCTGGCGGTTTAGGCCAGCTCATCGTATCTGGACTTGGGGTTAACAAACCCGAGATGATATTCATCGGTGGCATCGGTGCAATTCTGTTGGCGCTTGTAGCTGACGGACTGCTTGGTCTGCTGGAGGGCTGGCTGAGCAAGCACTACCATCAGAATCAAACCCGGGACGCTGCGATATGA	MNAFWSFITDRYPDILKALQEHLVLSFSAVLLGTVIAVPIGILLVYNRVGWLNSIVFFVANLFQTVPSLALLAILIPLLGIGMKPAILALFLYSLMPILRNTYDGFHSVDKGVLNSARGMGYSTAQTILKIQLPLSLPYIMSGVRITTVYIISWATLASLIGAGGLGQLIVSGLGVNKPEMIFIGGIGAILLALVADGLLGLLEGWLSKHYHQNQTRDAAI	PGPT0013590_3934	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
AK002_04457	954	opuCC	COG1732	Glycine betaine/carnitine/choline-binding protein OpuCC	ATGAGTAACTTCAACCGTATACAGCAAGCCGGACGGAATAAGGAAGGCGTGATGAAACTGAACAAGCTGAAAAGGATGCCGATGTTAATCTGCCTGATGGCTCTTGCCGCTATTACCTCCGCATGCGGAATTCAAAGCGACCTTACCATCGGGACGCAAACCTATACCGAAACCAAGATTATTGCCGAAATGTATAAAGCGCTGATTGAAGACCAAACCGATCTGAAAGTCGATGTTATTCCGGATCTGGCATCTAGTTCATTGGTCATCAATGCGATGAAACGAAACGACGTTCAGATGGCGACGCTATATACCGGTGAGATTTTCAACAACCATTTCCCGATCAGCGGCACCAAAGACCGCGATAAAGTCTTGAAGGAGGCACAGGAGGGATTCCAGGAACACTTCGGGTTCACCTGGATGAATCCGCTGGGTTTCGAGAACACCTACGCATTCACGGTAAGAAAGGATCTTGCGGAAGCCAACGGGTACGCCAAAATTTCCGATGTCAAAAAAGACATGGCCTCCATGAAGCTTGGGGTAGATACGACTTGGCTGGAGAGAAGCACGGATGGATATCCGGCATTCTCCAAAGCATATGACATCAAATTCGGTCAGGTCTTCCCCATGGAGATCAGCCTGGTCTATAGCGCGGTAGCCAATGAGCAGGTGGATATCGTGTTGGCCTATTCCACGGATTCCCGGCTGAAAGCCTACCAGTTGCAGACGCTTCAGGATGACCAGCAATTCTTCCCTCCCTATGATGCAAGTCCGGTATTGCGTTCGGACCTTTTGAAGAAGCATCCTGAAATTGAGGATACGATAGCGCCTTTAATCGGTCATCTGGATGCAGATACGATGATATCGCTTAATTATCAGGTGGACATTGAGAAGAAAAGCGAGCGGGAAGTCGCGATCGCGTATTTGAAAGAGCAGGGCTTCTTGAAAAGCTAA	MSNFNRIQQAGRNKEGVMKLNKLKRMPMLICLMALAAITSACGIQSDLTIGTQTYTETKIIAEMYKALIEDQTDLKVDVIPDLASSSLVINAMKRNDVQMATLYTGEIFNNHFPISGTKDRDKVLKEAQEGFQEHFGFTWMNPLGFENTYAFTVRKDLAEANGYAKISDVKKDMASMKLGVDTTWLERSTDGYPAFSKAYDIKFGQVFPMEISLVYSAVANEQVDIVLAYSTDSRLKAYQLQTLQDDQQFFPPYDASPVLRSDLLKKHPEIEDTIAPLIGHLDADTMISLNYQVDIEKKSEREVAIAYLKEQGFLKS	PGPT0013595_1575	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013595-opuC|yehZ-K05845	NA	NA
AK002_04458	702	opuCD	COG1174	Glycine betaine/carnitine/choline transport system permease protein OpuCD	ATGGAAAGCGAACATTTAACATTTTCCGACTTTTTGTCGTATATATCACGAAATCAAGAATTGCTCTGGGAGTATTTCATCCAGCATATTACGATGGTGGTTATCGGGCTGGGGCTGGCATTCATCGTCGGCGTGCCGCTTGGCATTCTCTGCTCTAAGAGTAAATGGGCGGCCAAGATCATTTTGTTTATCACCAATATCCTACAGGTGGTACCAAGCTTAGCCATGCTCGTGGTTCTCATGTTATGGATGGGACTCGGAACGACAACGGTCATGGTGGGACTCTTCCTGTATTCCCTGAATCCAATCGCGCGGAATACGTACGTGGGGTTAAAACAGGTGGATCCCAGCTATCTGGAATCGGGAAAAGGTATCGGGATGAGCCCTCTCCAAATGCTCGTGAAAGTACGTTTTCCGCTGGCGCTGACGTACATCATGTCGGGCCTGCGTATCGCGGCCGTTATTGCCATCGGCGTGGTAACGATCGCTCCCCTCGTGGGAGGAGGCGGGCTGGGACGAGAAATTTACGCTGGACTAAACAGCAACAACTCCCTGCGGATTTTTGCAGGCGCCATTCCTGCCGCGGTGCTGGCAATCGTTGCGGATATCGTGCTCGGCATGCTGCAGCGTAAGATGGATCTGGCCAAGCGGAAGTCAGCCAGTGCGGCACCATCGCCTGCGAAAATGCAAAATATAAACTGA	MESEHLTFSDFLSYISRNQELLWEYFIQHITMVVIGLGLAFIVGVPLGILCSKSKWAAKIILFITNILQVVPSLAMLVVLMLWMGLGTTTVMVGLFLYSLNPIARNTYVGLKQVDPSYLESGKGIGMSPLQMLVKVRFPLALTYIMSGLRIAAVIAIGVVTIAPLVGGGGLGREIYAGLNSNNSLRIFAGAIPAAVLAIVADIVLGMLQRKMDLAKRKSASAAPSPAKMQNIN	PGPT0013590_3108	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
AK002_04459	597			hypothetical protein	ATGCCTTACACTAAACCCGTAATCATTGAACCATACTTTGATAAACCTGAATGGATTACGGATGAAGTTATTCGAGAAGAGTTTATCTGTTTATCTTCTGAATCGAATGAGCAAGATGTGGAATTATTTCTGATTCTTCTATTTGGTTATAATCATATCAATATAGAACAGTCATTTCTTTTATCTTTTAATGAATTATTGGAGCAAGAAGGAGTCGCGATATCAGGGGGGATTGCTTTTTTTGAAGATGAGAGCAAATATATTTTACCGAGTTGTTGCTGTGGTTTAGAAGATTTCTCTGAGGTGATAGATACAATTAAAAATAAACAAAGCCCGTGGATGGGACATGATCCTGCACCAGGTATTACATACAGTAATGATCAAGTGCGTGTTTGGCCTGATGATCCGGAAATCACCGATAGTAATGTTAATAAGCCCATACTGTATTCGTATAAAGAACTAATAGATAGTCTTGAAAAAACTCGAAAAGAAATGCAGGGATTTATTGAAGGCCCATTATATGAATGGATTAACAAGAGAGACAAAGAGATTGCCAACACGATGAGAGATCGGATGAAGCAATGGATTATGAAATAA	MPYTKPVIIEPYFDKPEWITDEVIREEFICLSSESNEQDVELFLILLFGYNHINIEQSFLLSFNELLEQEGVAISGGIAFFEDESKYILPSCCCGLEDFSEVIDTIKNKQSPWMGHDPAPGITYSNDQVRVWPDDPEITDSNVNKPILYSYKELIDSLEKTRKEMQGFIEGPLYEWINKRDKEIANTMRDRMKQWIMK				NA	NA	NA	NA	NA
AK002_04460	525			hypothetical protein	GTGTATTTTCTCCAAATGTCGGGTTTTCCGGGCTCTGGAAAATCAACGCTTGCTAGACGAATTGCAAATATAACTGGGGCTGTCATTGTTGACCATGATATATCTAAAACGGCAATATTAAAGTCAGCAGAAGGACTTGATATTGAAATGAACCATCTTGGCAAAATTGCATACACGGTTGATTGGGATTTGGTCGAGTTTTATTTATCGCAAGGTCATGATGTTATATTTGATGCTCCTTGTTTATATTCGGAGATGCTGGATCATGGATTGCGATTAGCAAGTAAGTATGAAGCTCAATACAAATATATAGAATGTTACCTCAACGATTACAAGGAAATTTGTAACAGACTTCAAAATCGAAAACGAATGATAAGCCAAATAGCGGAGACGACTGAAGAATCATTTATATCTGGTTTAAATGAAAGTAAACGACCATTAGATATAAAGTGTCTGACTATTGATTCTTCGCAATCCATTGAGAGTTACTTAAATAATGTCTTGGATTATCTAAAGGAAAAATGA	MYFLQMSGFPGSGKSTLARRIANITGAVIVDHDISKTAILKSAEGLDIEMNHLGKIAYTVDWDLVEFYLSQGHDVIFDAPCLYSEMLDHGLRLASKYEAQYKYIECYLNDYKEICNRLQNRKRMISQIAETTEESFISGLNESKRPLDIKCLTIDSSQSIESYLNNVLDYLKEK				NA	NA	NA	NA	NA
AK002_04461	357			hypothetical protein	ATGATCTATAGAAGAAAAACTTATATAGTTGAACCGTCATTTTTAGAAGAGTTTAATCAATTATTTAACGAGATATTACTGCCGTCTCAGTTAAAGTATGGCGCTAGATTAATTGGACGGTGGATGTTCGATAGAGATGAAAACAATACTGAGGTATTCGCTATATGGGAGTATGACAGTTATGAAGATTATGAAAGAATAGAAAGCCAGATCAAATCTGATCAAGAACATGTAATGAAAGTACAGCATCGTTTTGATCAAATTGGTAGAGACCGATTGAAACAGGTGCTTAAGGAAGATATTAGACAGGAATTTGTGAAAAGCACAGTACCTAGAGAAAAAACAATATTAGATTAG	MIYRRKTYIVEPSFLEEFNQLFNEILLPSQLKYGARLIGRWMFDRDENNTEVFAIWEYDSYEDYERIESQIKSDQEHVMKVQHRFDQIGRDRLKQVLKEDIRQEFVKSTVPREKTILD				NA	NA	NA	NA	NA
AK002_04462	276			hypothetical protein	ATGACATTTGTTTATTTAATGACCAATCAGAAACCGTTAAATAATGAAATTATTAAGAGTCATGTGAAGTATTTAAGAGGCCTCGAATCACAAGGCAAACTTATGCTCTGTGGCCCTTTTTCGGATTATCCTGGAGGAATGGTCATCATTCAAGCAGAGGATTTAATTGAAGCAACAGACATTGCAAATTCTGACCCATTTATTGCATCGGGGTGCAAATCATATGAAATCAGGACGCTAAAGCTGGCCAACGAAAAAAATAATTATTTACTTTAA	MTFVYLMTNQKPLNNEIIKSHVKYLRGLESQGKLMLCGPFSDYPGGMVIIQAEDLIEATDIANSDPFIASGCKSYEIRTLKLANEKNNYLL				NA	NA	NA	NA	NA
AK002_04463	1596			hypothetical protein	ATGCAGATGAGCAGGAACATCATCAAAAAGCTTATACCTGTTATAACATGTCTGGGACTGGCTGCCACAGCGATTGTCGGCTGCAGCAGTGAGGAAATGCCAAAGGGGAGTACGGAATCCACAGAGTTCACCCAACCTTTGAGCAACTTATCGTATTGGAAACAGATGCATTCCGACGCAGCCGCTATTATGAAAAGCTATGGTGAGATTACCGCTATTCAAGAAATCGAAAATAAAACCGGTGTCAAAATCGATTACCAACACCCGGCCCAAGGCCAAGCTGGCGAACAATTCAACTTGATGATGGCCTCGAAATCGCTGCCCGATGTCGTTGAGTATACGTGGAATAATTATCCGGGAGGCGCTCAAAAAGCGATTAAGGATGGTAAAATCATTCCATTAAACGACTATTTGGACGATTCGCCTAACTTCAAAAAGCTGCTGGACGAAAACCCGGAATGGAGAAGACAGGCTTCGACGGACGATGGCGATATTATCGGTTTCCCATTCATCCGCCCCGTGAGAAAACTGCAAACCCACTCCGGCCCGGTTATACGTAAAGATTGGTTGGACAAGTTGGATTTGCCTACTCCTAGAACCATCGACGAATGGTATACCGTTTTGAAAGCGTTTAAGGAACAAGATCCCAACGGAAACGGAAAGGCGGATGAAATTCCGATCATGATGGGAGCAGGCGAGCTTGCTTTTACTGGCGCTTTTGGCATCCCGAACGGCTTCTATCACGAAGGAAATACGGTCAAATATGGCCCCGTTCAACCCGAATATAAGCAATACCTTACAACCATGAACCGTTGGTACAATGAGGGCTTGCTGGACAAAGACTTTGCAGCCAATGACAGCAAAATGTACGATGCCAAAATAACCGGCAATCAGGTCGGTGCGGCTGTTATGGCTGTAGGCGGAGGGATGGGCAGGTTTATGGATTTAATGGAGTCCAAGGAACCGCAATTCAAGCTTGTTGCCACACCCTATCCGACATTGCAATCTGGCGATAAACCGATATTCGGTCAAATGGACAATCAAATTGTAGGCATATTCACTGCTATAACCGGAAGCAACAAGCACGTTGCTGAAACTGTAAAATTCTTCGATTACTTCTATAGTGAAGAAGGACGAATGATCATGAACTTCGGTAAAGAAGGCGTATCCTATACGATGGATAACGGTTATCCGAAGTATACGGACTCCGTCATGAACAATCCGGAAGGATTGCCGCTTGCCCAATCCGTTAAAAAGCATGTCTTGTCCGCTGATGCCGGTCCTTTCTTGCAGGATGTACGCTATATGGAGCAATATGCGGCCAGACCGGAGCAGCAAGAAGCTTTAACCGTCTGGGCAGAACCTTCGAATGAAAAAAGAATGCCTCCGATCACCATCGCCCGGGAAAACAATAGCCGATATGCCTCGATCATGAACGATATCGATACGTATAAAAATGAAATGATCGTTAAATTCATTATGGGCGCAGAATCGCTGGATAAGTTCGATGAGTATGTCGCTACCCTGAAAAGCATGGGTATCGACGAGGCAATTCAAATGCAGCAATCCGGATTGGAACGCTACAACGACCGATAA	MQMSRNIIKKLIPVITCLGLAATAIVGCSSEEMPKGSTESTEFTQPLSNLSYWKQMHSDAAAIMKSYGEITAIQEIENKTGVKIDYQHPAQGQAGEQFNLMMASKSLPDVVEYTWNNYPGGAQKAIKDGKIIPLNDYLDDSPNFKKLLDENPEWRRQASTDDGDIIGFPFIRPVRKLQTHSGPVIRKDWLDKLDLPTPRTIDEWYTVLKAFKEQDPNGNGKADEIPIMMGAGELAFTGAFGIPNGFYHEGNTVKYGPVQPEYKQYLTTMNRWYNEGLLDKDFAANDSKMYDAKITGNQVGAAVMAVGGGMGRFMDLMESKEPQFKLVATPYPTLQSGDKPIFGQMDNQIVGIFTAITGSNKHVAETVKFFDYFYSEEGRMIMNFGKEGVSYTMDNGYPKYTDSVMNNPEGLPLAQSVKKHVLSADAGPFLQDVRYMEQYAARPEQQEALTVWAEPSNEKRMPPITIARENNSRYASIMNDIDTYKNEMIVKFIMGAESLDKFDEYVATLKSMGIDEAIQMQQSGLERYNDR	PGPT0017245_2166	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04464	963	yteP_53	COG4209	putative multiple-sugar transport system permease YteP	ATGCCTAATGTACAGAGAAACATTGTGAAGACGACAACGGGGAACCGGGCAGAGAAGAAATGGAGCATGATAAAAAAGGACATCATTCGGAACCGCTACATTTATCTTATCCTGCTGCCCGTCGTTGCCTACTACATCGTTTTTCATTACGGACCCATGTATGGTCTGCAAATCGCTTTTAAAGATTACGGACTTGCCGACGGAATTTGGGGAAGTCCATGGATGGGTTTCGATCATTTTGAAAGTTTTTTTGGAAACTACTATTTTTGGAGACTGATTCGGAACACCTTGCTGATCAATATCTATGAATTGCTGTTTGCGTTCCCCGCTTCGATCATACTTGCCTTATTGCTTAATGAGATTCGCAGGAGCTTTTTTAAACGGATCGTCCAGACGATAAGCTATCTCCCGCACTTTATCTCCATCGTCGTTGTAGTCGGGATGATGATCGATTTCTTTGCCCGCGACGGTCTGGTGAATCAACTTCTTGGCATGATCGGACTTGAACCGATTGCCTTCATGCAGGAGCCGGGGTGGTTTCGCTTCATGTACGTCTCTTCCGGCGTCTGGCAGGGAATCGGATGGGGCTCTATTATCTATCTCGCCGCCATAGCCAACATTGATCCGACGCTCTATGATGCGGCCCGGATTGACGGAGCGGGACGATGGAAACAGACCTTGCATATTACCCTGCCCGGGATCATGCCGACCATTGTGATATTGCTCATTCTCAACATGGGATCCATGCTTTCCGTTGGGAGCGAGAAAATTATTTTGATGTACAATCCGATGACCTATGAGACGGCCGATGTCATCTCTACCTATGTATTCAGGAAAGGTATACTGGGAGCCGATTTCGGTTATACCGCTGCCGTTGGGCTATTCAATTCGGTCATCAGCTTCATTCTGATTGTACTCGCCAATTCCATTAGCAAACGAGTGAGTGAACATAAATTGTGGTAA	MPNVQRNIVKTTTGNRAEKKWSMIKKDIIRNRYIYLILLPVVAYYIVFHYGPMYGLQIAFKDYGLADGIWGSPWMGFDHFESFFGNYYFWRLIRNTLLINIYELLFAFPASIILALLLNEIRRSFFKRIVQTISYLPHFISIVVVVGMMIDFFARDGLVNQLLGMIGLEPIAFMQEPGWFRFMYVSSGVWQGIGWGSIIYLAAIANIDPTLYDAARIDGAGRWKQTLHITLPGIMPTIVILLILNMGSMLSVGSEKIILMYNPMTYETADVISTYVFRKGILGADFGYTAAVGLFNSVISFILIVLANSISKRVSEHKLW	PGPT0017250_1061	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04465	882	araQ_49	COG0395	L-arabinose transport system permease protein AraQ	ATGTTTCACAAACGCAGCCTGGGTGAATCGATATTTTCCGTCGTCAATACATGCTTCATGCTCCTGCTTTGCTTCGTCACGCTTTATCCGTTCCTGTACGTATTATTCGCATCTTTAAGCGATCCTGCAGAAATCGCCCGATTTCGCGGCATGCTGTTTTTCCCTACCGGGTTTAATCTGGATGCGTATAAAGCCGTCATGGATAATCCCATGATTCTGACCGGTTACCGGAACACCCTCTTCTATGTCGCTGGCGGCACAATCATCAACCTAATCATGACAACGCTCGGTGCCTATGCCCTTTCTCGCCGCAACGTCTATTTCAACAATTCCATCATGCTCATCATCGTGATCACGATGGTGTTCAATGGGGGCCTCATTCCAACCTTTCTGCTGGTGAACAGTCTCGGCATGCTGGATACGCCTTGGGCTCTTCTCTTGCCCGGGGCTATCAGTTCATTTAACTTGATCATTATGCGGACCGCCTTTCAAGCGGTACCCGTTAGTTTGGAGGAATCCGCGCGGATCGACGGGGCCAATGATTGGATCATTATGAGCCGAATCATTGTTCCTCTTTCGATGCCTGTTATTGCCGTCATGGTTTTGTGGTATGCAGTGGGACATTGGAATTCATACTTTAGCGCATTGATTTATTTGCGTGATCGGGAGTTATTTCCCTTGCAGTTAGTGCTCCGTGAAATTCTGATCTCGAACAGTACGGACAGCATGACGACCGGCGCAGCAGCCACAGACCGGCTGGACATCGGGATCACGATCAAATATGCGACGATTATCATCTCTACACTTCCGATATTATGCCTATACCCGTTTCTGCAAAAGTATTTTGTGCACGGTGTCCTGATCGGTGCGTTAAAAGAATGA	MFHKRSLGESIFSVVNTCFMLLLCFVTLYPFLYVLFASLSDPAEIARFRGMLFFPTGFNLDAYKAVMDNPMILTGYRNTLFYVAGGTIINLIMTTLGAYALSRRNVYFNNSIMLIIVITMVFNGGLIPTFLLVNSLGMLDTPWALLLPGAISSFNLIIMRTAFQAVPVSLEESARIDGANDWIIMSRIIVPLSMPVIAVMVLWYAVGHWNSYFSALIYLRDRELFPLQLVLREILISNSTDSMTTGAAATDRLDIGITIKYATIIISTLPILCLYPFLQKYFVHGVLIGALKE	PGPT0017255_1981	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04466	2373	rhaR_56		HTH-type transcriptional activator RhaR	ATGTTATCAATCATTCGAAGAAAGAATGCCGAGAGCCGAAGAAGAAGCCTGTTCATCAGGATGCTCGTATCCAATTGTCTTCTGCTCCTGCTTCCCATCCTGATTTGGTTTGTGTTCTATACCAATATTGAACATATCATGAAATCCAATGCGGAACGGTCCAATCTCGGCATGTTGGAGCAGATGCGTCTCAATATAGACAGCCATTTCAAAGAAATTGAACAGTTATCCCATCAGATTATACTCAATCCGAAGCTGCGTTATTTATTAGATACGGAAATCAAAGACTTGTCAGAACGGTATCATTTGGTCCAGTTTACAAGAGATTATTTAACAATGCATTCGAGAATGACCAAGGATTTTGTGTACGATTTCTATATTTTTTTGGACCGAAGCGATTCTGTGATCAAACCGAATCTCGTAACCGATTCTCACAATTTTTATGATAAATATTATCGCTTTGAACATCTGACCTATGAAGAATGGCTTAAGCAGATGAAGAGCTATCATAGTCAAACCTACCTGCCGTCCTCCACCTTACAACGAAACGGCTACCTGAAGGATGACCCCATGCAAGTGATTACCTTTATGCAATCGTTGCCGGTCGAAGAAACATCCAATATGAAAGGGAATCTTACGGTTCTGATTGATGAAACCAAGATTCACGAAATGACACGACAAATTGAGTCCGCAAACGGGAGTTCCGTTTATATCGTGAACCAAAATCATGAACTCATCAGCAGTACCCCTGGTGCAAGTCCGTTATCAAACTCGATATTGAATGAACTGAAGTCGAACTCCGGTTTACGCAATTACAATCTGAACGGTCAAGATGTAACGGTATCATTCACAACCTCGGGACAAGTCGGATGGTACTATATTGCTGTGATGCCTTTGAATGTATATTTGCAGAAAGTGAAACAAATGGAGCAACTTGCGCTGTGGCTTCTCTTGCTATGTATCCTTGCGGGGAGCGCGGCTGCATATGGAATCGCGTATCGAAACTATTTTCCAATCAAAAGAATGATAGAGGCGATTCAGGCCGGAAAGTCTCATCCACGTAAACCGGCTGTGAATGAATTTGACTACATCCTGGAAATGATGAAAATTTCCTGGGACGAGGAAAGACATATTAAAAACAAACTGACTCAACAACTGCCCATTCTGCGTTCTAACTATTTACATCGTGTGCTTCAAGGCTACTTTGAGCCTCCAGAGCAAATGAAACAATCGCTGGAATTTATGGGCATCCATTTTCCGTTTCCTCATTTTATTGTCATTCTCGTTCAAGTGGACGACATGACCCGGTTCGCACCGAACCAAAGTGAAAAACAATGGGCATTGGTGCGATTTATCATCTCCAATCTGGCTGAAGATACAGTCTATGAAGGCCATACGATACATACGATCGACTTGGAGAAAGACCGGCTGGCCCTGCTCGTTAATCTAATGCCGGATCAGATGGATCATCCGACTTGCCGGGTGAAGGACATCGCATCCGGATTGCATCGCATGCTGGAGACTAGGTTCAAGCTGGAAATCAGCATAGCCATAAGCGGCGTTCATAAGGGCCAGCATCAGATTGGAGAAGCCTATTTGGAAGCGGCTGCCGCCTTGGAGTACAGGATGGTCAATGGGCAGCTATCGACCTTTTACTACCATGACATTCGCCAGAAAAAGCTGCAGTATTATTACCCCGTCGAAACCGAGCTGCAGTTAATCAACTGTATTCGAAGCGGCGATACAGAGCAAGTGGTCCAACTGCTTACACAGCTGTTCGATCGAAATTTTCGCGACGAATCCATCACTCCGGAGCTTGGGAGATGCCTATTATTCAGTCTTGCCGGTACCCTGCTGCGTATACTGGCATCTGATTCGGATACGCTGGCCTACCGGAAGCTTACAGAAGGTGACATCCACCCTGTGCGTTTCCTGCTTTCCTGTAAAACAACCGACGAAATGTTTGAAAAAGCGAAGGACCTGTATGTATCGGCCGCCGAATCGTTCAAACTGGAACGAAGCGATCACAATGAACAGCTCCTGCTGCAAATTCAAACCTGCATTCAAGCGAATTACGCCGATCCAAATATGAGCTTGAATTTAGTGTCTGAGCATTTGCAGATCACGCCGCAATATATTTCACAATTTTTTAAAAGAGTGAGTGGACAGAACTTCAACGACTACCTGACTGTCGTACGCATGGATCACGCTAAGAAACTGATGTCGGATTCTGGACTGACCAACGCACAGATTGCCAAGATGGTCGGTTATACAAGCGATACTGTTTTCATTCGGGTTTTTAAGAAGGTCGAAGGCATTACTCCCGGTAAATATAGAGAGAGTATGACGAAATGTGCTGGATTAAGTGAATAG	MLSIIRRKNAESRRRSLFIRMLVSNCLLLLLPILIWFVFYTNIEHIMKSNAERSNLGMLEQMRLNIDSHFKEIEQLSHQIILNPKLRYLLDTEIKDLSERYHLVQFTRDYLTMHSRMTKDFVYDFYIFLDRSDSVIKPNLVTDSHNFYDKYYRFEHLTYEEWLKQMKSYHSQTYLPSSTLQRNGYLKDDPMQVITFMQSLPVEETSNMKGNLTVLIDETKIHEMTRQIESANGSSVYIVNQNHELISSTPGASPLSNSILNELKSNSGLRNYNLNGQDVTVSFTTSGQVGWYYIAVMPLNVYLQKVKQMEQLALWLLLLCILAGSAAAYGIAYRNYFPIKRMIEAIQAGKSHPRKPAVNEFDYILEMMKISWDEERHIKNKLTQQLPILRSNYLHRVLQGYFEPPEQMKQSLEFMGIHFPFPHFIVILVQVDDMTRFAPNQSEKQWALVRFIISNLAEDTVYEGHTIHTIDLEKDRLALLVNLMPDQMDHPTCRVKDIASGLHRMLETRFKLEISIAISGVHKGQHQIGEAYLEAAAALEYRMVNGQLSTFYYHDIRQKKLQYYYPVETELQLINCIRSGDTEQVVQLLTQLFDRNFRDESITPELGRCLLFSLAGTLLRILASDSDTLAYRKLTEGDIHPVRFLLSCKTTDEMFEKAKDLYVSAAESFKLERSDHNEQLLLQIQTCIQANYADPNMSLNLVSEHLQITPQYISQFFKRVSGQNFNDYLTVVRMDHAKKLMSDSGLTNAQIAKMVGYTSDTVFIRVFKKVEGITPGKYRESMTKCAGLSE				NA	NA	NA	NA	NA
AK002_04467	1428			hypothetical protein	TTGACGAAAGTTAAAGTTAGTTTACGGCCCATTGTTAGCAAGCTAAATTTACCCACTGTGTTGAAAACAACGATTCTTCCGGGCGACTCCATCGAAAGATTATTTATTGCGACTCAGGTAGGAGAGATCTTTTACATAGGAAACGGAGTTATAGAGACTTTCTTAGATATTCGTCCGCGAGTCCTGAAACTAGGGGGTTCTAGCGGCGGATATGATGAACGGGGACTGCTAGGGCTGGCATTTCATCCCCAATTTTATTATAATCGTCTGTTTTATCTCCATTATTCAGCAGCTGGAACCCAAGGTCCAGGGGCCCTTCCAGGTGCTCCTCCTGAATCTTTTAAGCCTAACCCGTGCGATGCTAGCACCTTAAACCTAAAGTGGGCAAATAGAGAACATCAATACGATCATATCGATACAGTCGAAGAATGGATTCTCCAATCGAATGGCCAACCTCACAAAAGGCGGACGTTACTTAATATCAGAAGGCCATTTTTAAATCATAACGGTGTCAATAGCCTAAACTTTTCCCCTGAAACAGGAAAGCTTGTTTTGACAACCGGTGATGGCGGATCAGGCTATGATCCGTTCAATTTAAGCCAAGACGATATGGAAATCGCAGGTAAAATCATCGAAATTGATGTCGTTAAGAATTCGTATATCGATAATCCGCCCGTAGTTACGCGTTTTAATGAACTGCCCGTACCCATTCAGGAAACGCTTACGGTAATCGCCAAAGGCATTCGCAATATACCCGGCATTTCATTTCAAAGGTTTTACAATCAGTATATCAAATACGTAGGAAATGTCGGACAGGATCTCGTAGAGTCGATTTTTTCGTTCGTTCATTATAAACCGATACCGGTTACTCAGCTTATACAAGCTTCTTTAATGAAAACGGAACCTGACCATGAAGGATTTATTAACTTGGGCTGGCGCGGGTGGGAAGGTGCTTTTCCGACCTCGATCATAACCGGCTGCTCTGCAAATCCGGCTTTGAACGAGAAAACCATTGCTTATTACGAGGAAGCCGTAAGAACTTCCGTACGGCGTCTTCAGCCTCTGACAAGTTATTTTCATGAAGATTCCCGAACCGATAAGTTTAGAGCAACTGCACTTACAGGAGTGCAGCCCTATATGGGATGTGGAATCCCCTCTCTATCGGGAAACGTTGTGTTTACCGATCTGGCTCGAGGGGCTGAATCTCAACTTCCCGTTAGAGGGGTCTTAGCTTACACCAAGGTAAGTACGGATGGTAAGCTAAATGATTTTCATGTTATTGAAACCGATGATCCGTTTGGGTCTCAATCCGCGTATTATGTTAGTCTGGGAACGAATCTGAATCAAACCAGACTCTATTTAGGGGTTTATGGCTCGATGAAAGTGGCTGATGCTAACCAAGGTACCGTTTTTGAAATTATTCCATGA	MTKVKVSLRPIVSKLNLPTVLKTTILPGDSIERLFIATQVGEIFYIGNGVIETFLDIRPRVLKLGGSSGGYDERGLLGLAFHPQFYYNRLFYLHYSAAGTQGPGALPGAPPESFKPNPCDASTLNLKWANREHQYDHIDTVEEWILQSNGQPHKRRTLLNIRRPFLNHNGVNSLNFSPETGKLVLTTGDGGSGYDPFNLSQDDMEIAGKIIEIDVVKNSYIDNPPVVTRFNELPVPIQETLTVIAKGIRNIPGISFQRFYNQYIKYVGNVGQDLVESIFSFVHYKPIPVTQLIQASLMKTEPDHEGFINLGWRGWEGAFPTSIITGCSANPALNEKTIAYYEEAVRTSVRRLQPLTSYFHEDSRTDKFRATALTGVQPYMGCGIPSLSGNVVFTDLARGAESQLPVRGVLAYTKVSTDGKLNDFHVIETDDPFGSQSAYYVSLGTNLNQTRLYLGVYGSMKVADANQGTVFEIIP				NA	NA	NA	NA	NA
AK002_04468	840	ecfA1_2	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA1	ATGATTCATAACGAACCAAATCCGGCCAGAATAATGGCAAACGTTGTTTCGTTCAATAACGTATGGTTCCAGTACGATTCGCGCCAGGATTGGACACTTCGGGAAATCAATCTAACCCTTGATGAAGGAGAATGGCTAACGATCGTGGGTGGTAACGGTTCCGGAAAATCAACGTTAGTTCGATTGATTAACGGCCTGCTCCAACCTACATTGGGAGAAGTCGCCGTTTACGGAAAGAAAACATGCGACCATCGGAACTTATGGGATATTCGTCAAACTGTGGGTATGGTGTTCCCCAATGCGGAGAATCAAATTGTTGGCATGACCGTGCAGGAGGATACGGCTTTTGGCTTGTATAATATCGGCGTTTCCCCGGAAGAAGCAGAATCCCGGTGCCGATCCGTCTTGCAATTGCTTGGGCTCTATGAACTGAAAGATCGTCCTCCATATTTTCTATCCGGCGGGGAAAAACAAAAGCTCGCGATTGCCGGAGTTCTGGCCATGGAGCCCAAAGTGATCATTGTTGACGAGTCCACTTCCATGCTCGATCCCCATAGCGCCCGGCAAATTCATGAGATTATGTCCGAACTGCATCGTAACGGATACACGCTTATCCAGGTGACCCATGAGGTCGAAGAGATTTTCACTGCCGATCGTCTTGTTGTGATGCAAAAAGGCAAGATCCGGTTCGATGGAACGCCCCAAGAAGCGGCGGCAAATTCTTGCGTTTTTACGGACTCCGGCCTTCTCCCTCCGTTTTCTGTTCGAATGCGTGATCTTGCCAAGCAAAAAGGGCTGAATGTACCTGCTACGAATGAATTTGGATTCGGGGATGAGTGA	MIHNEPNPARIMANVVSFNNVWFQYDSRQDWTLREINLTLDEGEWLTIVGGNGSGKSTLVRLINGLLQPTLGEVAVYGKKTCDHRNLWDIRQTVGMVFPNAENQIVGMTVQEDTAFGLYNIGVSPEEAESRCRSVLQLLGLYELKDRPPYFLSGGEKQKLAIAGVLAMEPKVIIVDESTSMLDPHSARQIHEIMSELHRNGYTLIQVTHEVEEIFTADRLVVMQKGKIRFDGTPQEAAANSCVFTDSGLLPPFSVRMRDLAKQKGLNVPATNEFGFGDE	PGPT0022045_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022045-bioM-K16784	NA	NA
AK002_04469	858	ecfA2_2	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA2	ATGGATATTGTTTTAGAGAACGTCAATTGCATGCTTGCCACCAGAACCCCTTTTAATACAAAAGCCATTGATCGAATCTCGCTGCATGTTCCTGCAGGGCAGTTCATGGCGATTATGGGACCGACCGGGAGCGGAAAAACCACATTGGGACAGTTGATGGGAGGCCTGATCCTCCCTCAATCAGGGGTAATACGGATCGGACCTTACCGAGTCCATAAAAAGTCCGACCGCCTCCGCCTTTGGAAAACAATCGGATTCTTGTTCCAATTCCCCGAGCACCAAGTCATAGAGGATACGGTTTTCAACCATATCGGAGCCAGACTACATCGACTAAGCACGAGGCGGGATTGGGTTGCCGAGCAAGTGAAACAGACGATGGAAGCCGTAGGGTTGTGCTTTTGGCAGTTCAAAGACCGGTCGCCTTTTCAAATCAGCGGCGGTGAATTAAGGCGGATCGCACTGGCAGGGGTGCTCGTTACAGAACCGAAAATTCTCATTCTGGACGAACCGACAGCAGGCCTGGATAACTGGGAACGGAGCAGAGTGTTATCGTATATAAAGCAAGTTCATAATGAGAGAAAAATGACGGTTCTCTACATGACTCATCGGCTTGAAGAGGCCCTCGAATACGCTGATCGGATTCTCGTGTTGGACCATGGTCAATTATACGCGGATTTCCACCCTTGTAACATTCGGGATCACTGGCAGCAGTTGGAGCGAATCGGTTTTGTGAAAACGCCCCTGCTCCGTTTTATAGATTCACTCGAAGAACGGTCCGCCAACAAACTGCTCGAAGGTGTATATAAAGAGGAGCAATTGATATCATTCATCACAACTCTCTCTAGGGAGGAACTGTGA	MDIVLENVNCMLATRTPFNTKAIDRISLHVPAGQFMAIMGPTGSGKTTLGQLMGGLILPQSGVIRIGPYRVHKKSDRLRLWKTIGFLFQFPEHQVIEDTVFNHIGARLHRLSTRRDWVAEQVKQTMEAVGLCFWQFKDRSPFQISGGELRRIALAGVLVTEPKILILDEPTAGLDNWERSRVLSYIKQVHNERKMTVLYMTHRLEEALEYADRILVLDHGQLYADFHPCNIRDHWQQLERIGFVKTPLLRFIDSLEERSANKLLEGVYKEEQLISFITTLSREEL				NA	NA	NA	NA	NA
AK002_04470	765	ecfT_2	COG0619	Energy-coupling factor transporter transmembrane protein EcfT	ATGCAATGGTTGAAGCTGCTGTCTTTCGGGCCGTCTATGAACACGCGCTCTTTTGTGCAAGACTTGGATCCTCGTTCAAAACTTATCTTTACAGCGACATATTTATCTTTGGTTACCATCTCAAATGATCTTCTCAGCGTGGTTTTCTATGCAATCGTTGGATTGTTGTTGGTTCTCGCCGCCCGATTGCCTCTAGCTTATTTATGGAACGGTTTGCTTGGTTTGCTCCCCCTACTGCTCACGCTGTTTTGTTTCCACATGCTGTTAGGCGATCTTAAAAATGCAATTCTCCTGCCTTGCAAGCTCATTTTTTTTATAACAACGGCTATAGCGCTCAATGCAACAACCCCTCCGACCAAGCTGGCAGACGGTCTAGAGGCCATCCTACGCCCGCTTACTCTCGTTCGATTTCCGGTTCAGAATTTCGTATTTATGATCTCGGTGGCCTTCCGGTTTATTCCGCTCTTTATCGATGAAACCGACTCCATGTTGAAATCGCAAAAAGTGAAACACGCGTGTTATAAAGGCGAAGGTCTTCGAACCACAACACAATCTCTTCTCCAGCTTCTCGTTGCTCTGTTCGTTGCCGTGCTTCGCCGTGCGAACCAACTGGCTCTCGCGATGGACGCTCGCTGTTACTTACCGGGAAATATAATCCGGGCACGTCGTTTACAGTATAGTTGGCGCGATTGGATGACGATCCTTTCTGCGCTGGCTCTGCTACTGATCCATATGCTGTTGAAAGGAGAAGGTTTTGAACGATGA	MQWLKLLSFGPSMNTRSFVQDLDPRSKLIFTATYLSLVTISNDLLSVVFYAIVGLLLVLAARLPLAYLWNGLLGLLPLLLTLFCFHMLLGDLKNAILLPCKLIFFITTAIALNATTPPTKLADGLEAILRPLTLVRFPVQNFVFMISVAFRFIPLFIDETDSMLKSQKVKHACYKGEGLRTTTQSLLQLLVALFVAVLRRANQLALAMDARCYLPGNIIRARRLQYSWRDWMTILSALALLLIHMLLKGEGFER	PGPT0004015_2850	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
AK002_04471	582			hypothetical protein	ATGAATTCCATGAAAAATTACTGGCTAAAGCCTGTAAGTGCAGAAGCTTCAGAGATTCACACCCGTTATGGAGCGGCACGATTTGCCACAAGAAAAATGATTACGGTCGCTTTTCTTGCCTCGTTATCCGCTATTTTTCAATCCATGGGAGGCTTATTGCCAGGGATAGGCTACTTGATTAGTCCCCTCGCCACAGCCCCCATTGTGTTATGTACGATCCTTTCCGTCGGTTCCGGTCTGACCGCCTATTTGCTCGCGATGCTGCTTCTCTTTATTATCCAACCAAGCGAACTGATCGTTTTTCCATTCACGACAGGTTTATTGGGGCTTGGGATTGGCGGTTCGCTGTTATATTTGAAATTACGCTTGCCGGCCGTGATTGCCGGATCGTTTTCTTTGTGGGCGGGAATCCTTTTGTTGCTTTACGTTTTTCGATTTCCTGTTCTGGGCCCTGCAGTTTCATCTACAGTTAGCCTAAGTACGATCTCTATCGTTTATGTGTTCTCGCTTTTCTACAGCTGGCTATGGGTAGAAATAAGCAGGTATCTCATTACGAAAATAAGTAAGGGATTACTTGAATAA	MNSMKNYWLKPVSAEASEIHTRYGAARFATRKMITVAFLASLSAIFQSMGGLLPGIGYLISPLATAPIVLCTILSVGSGLTAYLLAMLLLFIIQPSELIVFPFTTGLLGLGIGGSLLYLKLRLPAVIAGSFSLWAGILLLLYVFRFPVLGPAVSSTVSLSTISIVYVFSLFYSWLWVEISRYLITKISKGLLE				NA	NA	NA	NA	NA
AK002_04472	855			hypothetical protein	ATGTTATATACATTAGGACAAAAAATCGGAGAAGGTGGATGCTCTGAGGTTTTCGAAGTAGGGAATAATAGAATCATAAAACTAGCCAAAGAGAATACAAGTTTCGAAGCTTTAAGAAGAGAGTATTTGAATAATTGCATCGCTTGGGAATGTGGACTCCCTATTCCTCAGCCTTTTGAGTTAACGAAAATGAGTGGAAGACCGGGGATTGTATTCGAACATATTACAGGTGAAACTATGATGGAGCGTTTTTTTAATCAGGTTATCGTTAGCCAGAACAACGAAGTTAAACAAGCCGACGTTCAGCTTACAGCTCAACTACTATTTCGCGTTCACCAAGCATTAGCTGAAGGTAAGGAATTGCCTTGCCAGAAAAGCATAATAAAATCAAACATCTTGAGTGTTCATTACCTGAGTGCCAGTGAAAAAGAGAGCGCAATTTCCTTATTAGAATCGCTAGAAACGAAACAATGCCTGTGTCATGGGGATCCAAATCCACGCAACGTAATCGTTAAGGATGACGGAGAAGCAATCTTGTTAGACTGGATGAATGCAACCATAGGGAATCCTGAAGCGGATATTGCTGAGTATATTGTAATGATTCGATATGCCGTATTGCCGTCCTCCTTTCCCGAGGAAACTAGAGATATGTTTGATTCGATTCGTGAGGATCTAATTGACCTATTTATAGACGAATACTATAGACTCTCTGGGATTTCTTATGATGATGTAGTGCCTTGGATAATACCGATTTTAGCAAGGAAATTGTCTGCTGATGCCATATCTGATGTTGAGAAGAAGAAGCTAGTTGCAGAGATAAGAAGAACCTTAGGGAAACAGAAAAATCGAGTGTAG	MLYTLGQKIGEGGCSEVFEVGNNRIIKLAKENTSFEALRREYLNNCIAWECGLPIPQPFELTKMSGRPGIVFEHITGETMMERFFNQVIVSQNNEVKQADVQLTAQLLFRVHQALAEGKELPCQKSIIKSNILSVHYLSASEKESAISLLESLETKQCLCHGDPNPRNVIVKDDGEAILLDWMNATIGNPEADIAEYIVMIRYAVLPSSFPEETRDMFDSIREDLIDLFIDEYYRLSGISYDDVVPWIIPILARKLSADAISDVEKKKLVAEIRRTLGKQKNRV				NA	NA	NA	NA	NA
AK002_04473	507			hypothetical protein	ATGGAGCTTCAAGAAATCAAACAAAAATTAGAAGTAACCAGAGTCGAATTACTCGGAATTCTTGACGGTTTGAGTGGAGATCAATTAAACCAACAGAAAGACTTAAACAGTTGGAGTATTAGTCAGGTTTGTCAGCACCTTTTTAAAACAGAGGAATTATATGTCGTAGCTATAAAGAAAGGGTTAAAGAGCAAAGAAGATTCATTTATAGAAAATAAATCAGTAGAATTTCTACTTGATAGAAGTCAAAAGCTAGAAGCTCCTGACATTGCTAAACCAACGGATGAATTTTTAGAATATGAAGAGATCATTGAGAAACTAAACAATTCAAGACAGAAGTTACTTGAACTATTAAATACAGTAGAAGACGAGTCAGTGCTGAGCAGAAGACATTTTATACACCCAGTCTTTAAAGAGATGTTATTAATTGAATGGGTTAAGTCACTGTACTTACATGAACAAAGGCATATTAATCAAATAAATGAAATTATAGATAGACTTAAGTAA	MELQEIKQKLEVTRVELLGILDGLSGDQLNQQKDLNSWSISQVCQHLFKTEELYVVAIKKGLKSKEDSFIENKSVEFLLDRSQKLEAPDIAKPTDEFLEYEEIIEKLNNSRQKLLELLNTVEDESVLSRRHFIHPVFKEMLLIEWVKSLYLHEQRHINQINEIIDRLK				NA	NA	NA	NA	NA
AK002_04474	1056			hypothetical protein	ATGGGCAAGAAGAAAAAAACCTTACCGAAAAATTTTGATGAGCTAATTAATGCAGGCGATATATCCGCATTAAAAGAGGTATTTACCCGATGCGAAGTGGATGCCCGTGGCGGTTACAGTAAATCAACAGCCTTGAGCTTTTACCAAGTACCGAATGAATTGGTTCGCTGGCTCGTGGAACAGGGTGCTGATATAAATGCTAGAGACAATTACGGAGCAACGCCTCTGCACAAACATGCCATGAGTTGGTGTGGTCATACGGAGCTGCTGCTTGATTTGGGTGCAGATCTAGAAGCCGTTGATTATCAGAACGAGACACCTTTGTTTGCCGCCGCAAGTTCATTTAAACCAAAAGCGGTTCAGACGTTGGTTGCCAAAGGCGCAAATATCAACGCAATAAATAAGATGAGACAGACTCCATTAGAAAAAGCTTTGGCCATGTGCAGGAACGCGGATATTGTCAATATGGCGGAAGCTGCCGATATTTTGCTTAACGCTGGAACAACTGTAACGCCGGAGATGCAGGACTCTATTAAGCGAATCGGAAACAACTTTGAATTTCACAGAGAAGGTTTTAATAAAGAGTATTTGAATCAAACCGATGAGGCACTTTTACGTCTATATGAGTTATTTGATGTTCCACGAGTAGAGAAGCGAAAGACGCATGACGGCGCCTCTTCGATAACAGTATCAGCAAAGGGATGGCAGGCGCAACATCACGAACTCTGGAATTTACTCATTCCTTCAAAAGGACATGCGAAAACCGTACAGGGTGAGGTTATCCGGATTACGGGTAAAGTGTCATACGAAATTTTAGATAACGGCGGTATGAACTGGGATCAGCAATATCGTAAAATGCTCAATCGTTTGATACATTACTTTAGCTTGGGTACACCATTAGATCCCGCTTCACTTCAGGAGGCAGGAATATTAGCGAAAGAACTTCACAACGGAAATGGCAGCGATGAACCTGCGAGACTGTGCGAGCTGGCAGTGCATTGGGTCCTCAGCAATCCGAATCCTATTACTCTGGAGCAGCCTGACTATAGACGATAA	MGKKKKTLPKNFDELINAGDISALKEVFTRCEVDARGGYSKSTALSFYQVPNELVRWLVEQGADINARDNYGATPLHKHAMSWCGHTELLLDLGADLEAVDYQNETPLFAAASSFKPKAVQTLVAKGANINAINKMRQTPLEKALAMCRNADIVNMAEAADILLNAGTTVTPEMQDSIKRIGNNFEFHREGFNKEYLNQTDEALLRLYELFDVPRVEKRKTHDGASSITVSAKGWQAQHHELWNLLIPSKGHAKTVQGEVIRITGKVSYEILDNGGMNWDQQYRKMLNRLIHYFSLGTPLDPASLQEAGILAKELHNGNGSDEPARLCELAVHWVLSNPNPITLEQPDYRR				NA	NA	NA	NA	NA
AK002_04475	600			hypothetical protein	ATGAAGCACGAAAAATCTTTACATGCGTATCTTCAGGAATCAGAATATATCAATTATTCTAATATTCAAATTCAAGAGCTCATAAGGTCGTTTAAACAAGATACTGAAATGGAACGGATAAAGGCAGTGTTCGAATATGTTCGTGATGAGATCGATCATTCATATGATGTAAAAAAACAGGAAGTAACAAGACGAGCTTCCGAAGTTCTAGAGAAAAGGCATGGAATTTGTTATGCCAAGTCGCATTTGCTCGCGGCTTTATTAAGAGGAATGGATATTCCCGCGGGTATTTGTTACCAGAGATTAACGCTATTTGACAAACCAGAAGACGGATACTGTATTCATGCTCTAAATTCCGTATATTTAAAAGACCTAGGCAAATGGGTCAGAATAGATGCAAGAGGTAACAAGGAAGGGATAAATGCTCAATTCTCCATTGAAGAAGAACAACTAGCATTTCCGATCCGAGTAGAGTACGGAGAAATAGACTATTCAACAAATTATTATGAACCCCATCCAGATATTATTAAAACACTGGAAGAAAACAATAACTGTATACAGATGTATCAGAAAGGTTTACCAGAAGAATTGAGCGTTTGA	MKHEKSLHAYLQESEYINYSNIQIQELIRSFKQDTEMERIKAVFEYVRDEIDHSYDVKKQEVTRRASEVLEKRHGICYAKSHLLAALLRGMDIPAGICYQRLTLFDKPEDGYCIHALNSVYLKDLGKWVRIDARGNKEGINAQFSIEEEQLAFPIRVEYGEIDYSTNYYEPHPDIIKTLEENNNCIQMYQKGLPEELSV				NA	NA	NA	NA	NA
AK002_04476	378			hypothetical protein	ATGATGGTAGCTGTTATAGGAAGTGCAGCTTTTTTCGCTGCATCCGTATTATATATTTTTCTTGCATTAGGATTTCCCTATGGAGAGTTTGCCATGGGAGGTAAGTATAGAATTATGCCGACCAACATGAGATATATGTGTGCCTTTTCCGTATTGATTCAATGGTTTGCCATATTAATCCTTTTACAAACAGCACGACTTGTCCCTTTGTTGTTTTCAAGTGGAATTACAAGAGGAATTTGTTTCTTCTTTGCAGTCTATTTATCCATAAATTCCGTATTGAATGCGTTCTCTAAAAGTAAAAAAGAGAAGTACATAGCTACACCGTTATCCGTGATTACCGCAATATGTTTTTGGATTACAGCTTTTCTTGGATAG	MMVAVIGSAAFFAASVLYIFLALGFPYGEFAMGGKYRIMPTNMRYMCAFSVLIQWFAILILLQTARLVPLLFSSGITRGICFFFAVYLSINSVLNAFSKSKKEKYIATPLSVITAICFWITAFLG				NA	NA	NA	NA	NA
AK002_04477	204			hypothetical protein	ATGAAAAAATCACTACTTCAATGGGTTATTACGCTATCGGCAGTATACTGTATAGGACATATCTTATTTGATTTTAAAGAAACGCGATGGATGAGGATCCTTACCGGGGCAGTTGAAATATCCTTCTTTGGAAGCATACTTCTCTATATATATTTGAAAAAGCGAGAGGATAAGACGGCACCTTCAACGAAACCGAAAAAGTAA	MKKSLLQWVITLSAVYCIGHILFDFKETRWMRILTGAVEISFFGSILLYIYLKKREDKTAPSTKPKK				NA	NA	NA	NA	NA
AK002_04478	225			hypothetical protein	ATGAAATTTAACATTGAGGACTTGGACTGGAAAACTGCTCTGCCATTGTTAACGGTAAGGGGGCAAAGCAGAAAGAAGTTCTTTAATACAAATCCTAATTACTCGATGTACATTAAATCTGATATGGGAATATTCGAACTTGTACATCTTGAACATAAGAACGGCAAGGAAATAGATACATACGACAGTCAACTATATCCTAAACCAAAAATAATTCTTGAGTGA	MKFNIEDLDWKTALPLLTVRGQSRKKFFNTNPNYSMYIKSDMGIFELVHLEHKNGKEIDTYDSQLYPKPKIILE				NA	NA	NA	NA	NA
AK002_04479	1392	melA_3	COG1486	Alpha-galactosidase	ATGAATGGTTCCAACATGCAGCAGCCGAAGGTGGTCGTCATCGGGGCAGGCAGCCTTTTTTTCGGTCGTCAGTCCATATGGCAGATGGTCCACTCCCCTTACCTGAATCGGGGAACGCTTGCTTTGGTGGATACGGATGAGGAAAGGCTGTCGAAAATGGTGAGACTTGCCGAGATGGTGGCCAGGGAGAACAACGTCTCCTTGAAGGTGGAGGGCTCGACGGACCGAAGACAGGTGCTTCCCGGGGCCGACTTCGTTGTACTTAGCTTCGCCGAACAATCGGTGAAATATCGGGGCATCGATTGCCAAGTGTCTTTGAAATACGGCATCCGCATGTGCTCCGGAGATACGATTGGACCGGGCGGGATATTCCGAGCGATGCGGGAGCTGCCGGTCATTATGGAATGCGTCAAAGACATCGAGGAGTTGTGCCCTGACGCTTGGGTGATCAACTATATTAACCCATCTACCGTCCATGGTATCGCATTACACCGATATGCGCCGAAGCTAAAATCGTTCGCGCTGTGCGACAGCCATCATATGCCGCATAAGAAGGCCTATTATGCCGTGCGGGCCGGCATTATCGGAGACAGAAGCGAGTTTACCGAGGAGATTGACCGGAAGTTCGACTTCCGCGTCGCCGGCGTCAATCATTTCACTTGGCTGCTGAAAGCGGAGTTCGAAGGAAAGAATGTCATGCCTGCGATTGCGGAGGCCATGCGCAAGGCAGCTGGCGAAGAGAACAACGGCGGCGACCACGGCGCAAAAGCGCTTCATAACGACGCCATCACGTATGAACTGTACGACATTTTCGGGTACATTCCTACCTGCACGGCCCATACAAAGGAGTATGTCCGGTACTGGCAGGCTCTCGGCAAGACGCGGGACTCCATTCCGCCGTTATCGATTTGGGAGACGGAGGACCGATATCAGCGTCACGACGAGATGTGGCGCCAGGTGGACGATTTCCTCTCGGGGAACATTCCGATTGCCGATTACATGAGCACCTTCGGCCCGGATCATGCGACGGACATTATCGAAAATATGGTAGGAAATCTGGGGAAGCGGTTCTTCATCAATACACTCAACCGCGGGGCGGTAACGAACATGAGCGACGACTCGTTCCTGGAGCTCCTGTGCGACGTAAGCATGGAAGGGGCAAAGCCGGTCCACGTAGGCGAAATGCCGCGGGGAATTCGAGGCATGCAGGAGCTTGTGCTGGATACGCATGAGCTTACGGCTGAGGCGGTCGTGGAACAGAGCTACGAGAAGCTGAGGAGAGCGATGATGACGGATCCGCTCGTGAATTCCATCAGCGACGCGGACCAGATCATCAAAGAACTGCTGGTACTGGAGCGTGAGATGATCCCGGACGCTTGGTACGAAGATTGA	MNGSNMQQPKVVVIGAGSLFFGRQSIWQMVHSPYLNRGTLALVDTDEERLSKMVRLAEMVARENNVSLKVEGSTDRRQVLPGADFVVLSFAEQSVKYRGIDCQVSLKYGIRMCSGDTIGPGGIFRAMRELPVIMECVKDIEELCPDAWVINYINPSTVHGIALHRYAPKLKSFALCDSHHMPHKKAYYAVRAGIIGDRSEFTEEIDRKFDFRVAGVNHFTWLLKAEFEGKNVMPAIAEAMRKAAGEENNGGDHGAKALHNDAITYELYDIFGYIPTCTAHTKEYVRYWQALGKTRDSIPPLSIWETEDRYQRHDEMWRQVDDFLSGNIPIADYMSTFGPDHATDIIENMVGNLGKRFFINTLNRGAVTNMSDDSFLELLCDVSMEGAKPVHVGEMPRGIRGMQELVLDTHELTAEAVVEQSYEKLRRAMMTDPLVNSISDADQIIKELLVLEREMIPDAWYED	PGPT0017850_207	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017850-melA-K07406	NA	NA
AK002_04480	852	rhaS_12		HTH-type transcriptional activator RhaS	ATGTGCGCCAAGAAAATGAACATGAGTATAATCAACGAACTCTCGGAGTATATTAGCCTCCGGATGAGCTCTTATTCAGAACAAGCTCATGATCCGGGCTGGATCGAACACAAGTCGCATCCCGATTACGATCTCTGGTTCATTCAATCGGGCTCGGTGAAGATCACCATCGACGGGTTCGAACATACGGCTGTCCCGGGAGACGTGGTGTTTTTTTACCCCGATATGCCCTATATCGCTTCGACGACCGGGGATGTTTGCCGATTCTTATACATACATTTCGATTTCGGCATCGGAGAACAGCAGCGAATTTTGGGCGAGTTTCAACTCCCGGGTATTGTGGCGGGCGACCTGATCCGGGAAGAGGCAGCGCTGTTCACCAAGGCCTATCGTCGGTTGAAGCAAGGCAGCGGTACGTCGGGAAACCAACTCTACTTAAAAGCCTCTCTTCTCGTCGTGATGGCTAAGATTCTCGAGCTTCACGGGCAAGGTGCCTACGCCGGCAAATTTCTGAACGGCAGGAAGCCGAGAAAAACAGAGGGAAGCCTGGATGTCCTGCAGGACGTATTCCAATACGTGGATGCGAACTTGCAGCGTACCATTCGGATGAACGAGCTCGCGACAATTGCCGGCGTCTCCGAGAAGTATTTTATCTCCTATTTCAAAAAAACCGTGGGCATCACGCCAGGGCAATATATTTCCCAAATCAAAATGAACCGAGCAAGAGATTATCTATACGAAAAAAAATATACGATCCAACAGATCGCCGGCTTCCTCGGTTATCCCGATCCGTTCACATTTTCGAAAGCGTTCAAGAAATATTACAACGTACCTCCTTCGAAATTCGAGTAG	MCAKKMNMSIINELSEYISLRMSSYSEQAHDPGWIEHKSHPDYDLWFIQSGSVKITIDGFEHTAVPGDVVFFYPDMPYIASTTGDVCRFLYIHFDFGIGEQQRILGEFQLPGIVAGDLIREEAALFTKAYRRLKQGSGTSGNQLYLKASLLVVMAKILELHGQGAYAGKFLNGRKPRKTEGSLDVLQDVFQYVDANLQRTIRMNELATIAGVSEKYFISYFKKTVGITPGQYISQIKMNRARDYLYEKKYTIQQIAGFLGYPDPFTFSKAFKKYYNVPPSKFE				NA	NA	NA	NA	NA
AK002_04481	1083	iolG_22		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGAGAACCGTAAAAGTAGGGATCATCGGTTGCGGAATGATTGCGAACGGCAAACATATGCCGTGTTTGTCCAAGGTAGACAACGTACAGATGGTGGCCTTCTGCGACTTGAAGCCGGAAAGAGCCGAGGAAGCCGCGAAAAAATACGGCACGCCTGAAGCAAAGGTGTTTACTAATTACATCGATCTGCTTGCCATGGAAGAGATTGAGGTCGTGCATGTGCTAACACCGAACAGCTCGCACGCGACGATTTCCATTGATGCGCTCGAGAGCGGCAAACATGTCATGTGCGAAAAACCAATGGCGGTCACAGGTGCGGAGGCCAAAGCGATGTACGAAGCCCACTTGCGAACAGGCAAGAAGCTTACCGTCGGATACCAGAATCGTTCCAACGCCAAAAGCCAGCTGTTAAAAAAGATGATTGCCGATGGGGAACTTGGAGATATCTATTTTGCAAAAGCGGTCGCTACCCGAAGAAGAGGCGTTCCGACATGGGGCGTGTTTCTGGATAAAGAGAAACAGGGTGGCGGTCCCATGATCGATATTGGAACCCACTCCCTGGATCTGATCCTATGGTTGATGGATAACTATGAGCCGGAGAGCGTCGTCGGCAGTGTCTTCCATAAACTGAAGTATACCGAAAATGCCGCGAACGAATGGGGGGCCTGGGATCCAAACGAATTCGAGGTAGAAGATTCGGCCTTCGGGTATGTGAAATTTAAAAACGGAGCGACGGTCATCATTGAAACCAGTTGGGCCCTTAACATTGCGGAAGGTGGCGGCAACCTGCTGTGCGGAACGAAGGGAGGAGCGGATTTTGCTAAAAATGAACTGCGGATCAATGGCGAGAGGGACGGGAGCTTGTTCCTGAATAAAATCGAGGTGAATCCGAATGCACGAGAACAATTCAGGGGAGAAGAGTTGACCGATTTCGAGTATGAAGCCAAACAATGGATTCACAGTATCGTGAACGATACCGAACCCTTGGTTAAACCGAGGGAAGCGATGATTGTTTCACAAATATTAGAGGCCGTGTATATATCCGCAGAAACAGGAAAAACCGTTTATTTTGATAAAGAATAA	MRTVKVGIIGCGMIANGKHMPCLSKVDNVQMVAFCDLKPERAEEAAKKYGTPEAKVFTNYIDLLAMEEIEVVHVLTPNSSHATISIDALESGKHVMCEKPMAVTGAEAKAMYEAHLRTGKKLTVGYQNRSNAKSQLLKKMIADGELGDIYFAKAVATRRRGVPTWGVFLDKEKQGGGPMIDIGTHSLDLILWLMDNYEPESVVGSVFHKLKYTENAANEWGAWDPNEFEVEDSAFGYVKFKNGATVIIETSWALNIAEGGGNLLCGTKGGADFAKNELRINGERDGSLFLNKIEVNPNAREQFRGEELTDFEYEAKQWIHSIVNDTEPLVKPREAMIVSQILEAVYISAETGKTVYFDKE				NA	NA	NA	NA	NA
AK002_04482	984	iolG_23		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGTTGAACGTTGCGATGTTAAGTAAGTGGCATGTGCATGCAGATGATTATGCAAGAAGGTTGCAATCTCACGGTAACGTTAAACTCACCGCGGTCTGGGACGAACAGCCTGAACGGGGAAGCGAATGGGCTGCCCGATTGGGAACGGATTTTGAAGCGGATTTGGATACGCTGCTTGAGCGGGAAGACATCGATGGCGTCGTGGTGGATGCCCCTACAAGCATGCACGCTGACGTCATGGTAGCTGCCGCTGAGGCCGGCAAACACATCTTTACCGAGAAAGCCATGGCTCTTACCGTAGAAGAATGTAATCGGATTTCTGCAGCGGTACGCAAAGCAGGCGTCAAGTTCTGCATTTCATTTCCGGCTCGCACAAGGCCTCACCAATTGTTTGCGAAGCAGCTGATCGATGACCATGTATTAGGGGACGTGACGCTTTTGCGCATTCGGAACGGCCACGACGGCGCATTGAACAATTGGCTCCCGGAATACTGGTACGATGAGAAGCAAACCGGCGGCGGAGCGATGATGGATTTGGGATGTCATCCGATGTACTTAGCCAGTTGGATGTTGGGTCAGCCCAAACGAATCACCTCCATGTTTCATTATTTCACCCATCGTGCAGTGGAAGATAATGCGCAGTGCTCCATTGAGTTCGTCAACAATGCGGTCGCACTGGTCGAAACAAGCCTTGTGACGTACAGAACCCCTTCTGCACTTGAGATTTACGGTACGGAGGGCACCTTGATGATCTCAGATGATACCGTTAGAGTCCTCTCGAAGAAGCTCGATTCCCCTTTTTCCGGATGGATCTCACCCACTCAACTCCCTAAAGAGCAGCCGCTTCCGATCATCCAATGGGCGGATGCCTTGATTCATGACAAGCCGATGCCCTTCGGATTAGAAGAGGGAACGAAATTGACGGAGCTATTGGAAGCGGCATACATCGCTCATAAGGAAAACCGAACGGTAGAGTTCAAATAA	MLNVAMLSKWHVHADDYARRLQSHGNVKLTAVWDEQPERGSEWAARLGTDFEADLDTLLEREDIDGVVVDAPTSMHADVMVAAAEAGKHIFTEKAMALTVEECNRISAAVRKAGVKFCISFPARTRPHQLFAKQLIDDHVLGDVTLLRIRNGHDGALNNWLPEYWYDEKQTGGGAMMDLGCHPMYLASWMLGQPKRITSMFHYFTHRAVEDNAQCSIEFVNNAVALVETSLVTYRTPSALEIYGTEGTLMISDDTVRVLSKKLDSPFSGWISPTQLPKEQPLPIIQWADALIHDKPMPFGLEEGTKLTELLEAAYIAHKENRTVEFK	PGPT0018525_55	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018525-iolX-K16043	NA	NA
AK002_04483	789			hypothetical protein	ATGTTAAACCCGGTCGTTTCAGCAGGCGCCTTCACTGAACTCGATAAGTTTATGTTCGAATCGTGGGGTTATTTTGTCATTCCGAATGTGCTGTCGAAAGAGGAGGTCAAAGAATGCCTGCAGGCATCCATTCGACTTCATGAAGCGGCAGGTACAGTCGGTTGGGGTCAAGTCGGCAGAGGGTATGAGTCTGAACACGCTCTTGAAAACTTAATGGATCATCCATCGGTTTTACCGAAGATAAGGGGTTTACTTGGCGATCGATTCATTATGCAGTCCGGGTGGAATACGATGCAGCCGGCGAGGGGGAGGATGGGGGGCTGGCATCAAGACGGATCCAGCGCTTTCGATTTTAGGAATCTGGGGTACCCAGTCCCCCTTATTCAGCTCCGTGCTTCATTTTTATTGACCGATCAGGAAGAACCCGGCATGGGGAATATGGAGCTCATTCCAGGCAGCCACCGCAGTCTCGTTCCACTACCGGATTCGATCCGGACAGCAAATTCGGGTACGCCGATCAGCCATGTGATATGTGCATCTGCAGGATCAGTCCTGGTGTTTCACAACGCCGTGTGGCATCGGGCGCACGAACATAATTGGGATTACGACCGCTATACCATGCATTACATCTATAGCCCTCCGTGGGTAAAGCCCTCGGACCGTTTTCATAACGATGTCAACTTTATGCAAAGAACTACGCCTGTGCGAAGAGCTTTAATGGGGGATTTTTCAAGGCCTGATGCGCCATTTGGAGCAAGTTATACGCCACCTCCCTTTGAAGAAAACTAA	MLNPVVSAGAFTELDKFMFESWGYFVIPNVLSKEEVKECLQASIRLHEAAGTVGWGQVGRGYESEHALENLMDHPSVLPKIRGLLGDRFIMQSGWNTMQPARGRMGGWHQDGSSAFDFRNLGYPVPLIQLRASFLLTDQEEPGMGNMELIPGSHRSLVPLPDSIRTANSGTPISHVICASAGSVLVFHNAVWHRAHEHNWDYDRYTMHYIYSPPWVKPSDRFHNDVNFMQRTTPVRRALMGDFSRPDAPFGASYTPPPFEEN				NA	NA	NA	NA	NA
AK002_04484	1659			hypothetical protein	ATGACACTAATCGCTTTACTGCTTTTAGCAACCATGACGGCATGTACGGGAAAAGGCGGAGGGGAGGATGCAGGTACGGTTGACACGGGTCCGAAGGAGCAAGGTACTGAAGAAATAAAACCGGTGACCTTGTCTTTCCTCAGTGCTTGGAACGGTGGCGGAGCCGGTTTCCCGCAGGACCAGGAGAATAATCCCGTAGCCGGGCAGATCAGGGAAAAAACCGGGGTCACGTTGAAACTGGAATCCATCACGACAAGCGAAGTAGAAAAGCTAAACACCATTTTTGCTTCCGGTACGGTTCCGGATATCGTTAACGCACCTTTCTGGTCTACGACAGGAGGAGAAGGACAAGTCATCAAGAAGGCGGCCATGGAAGGACAGCTTCTGGATTTAACCCCTTATCTCGATAAATACCCGAATATTAAAAGACTTGTGACTACCGGAATCGCGAAGGATTTTGCCGAGTTCGATCTCAATAGTCCCGAATTTGAAGGCAAGACGTATCTCATTCCTACGGAGACCCCGGACGGTACCCCTGAGAGCATTCATAATTGGAATTACGGCCTTTTTGCCAGAGGAGATATCCTGAAAGCTTTAAACGTAAAAGCGGAGGATATTGATACGCAAGAAGAACTAGTCGATCTATTGATCAAGATCAGAGACGGCGGTTTCAAGGATATTGGCGGGAAGCCGGTCATCCCTGCCGGAACGATGTGGAATGGATGGGATTACGGCCAATTCCTTGCCGGGTGGACGGATTACACGATTTCGGACTACCGTGAAGTGGATGGAAAACTGATTCACTGGACGCAGTCCAAGGATCATGAAGCTAGATTGTTATACATGAGGAAGTTATTAACGGAAGGTTTGTTTGATCTTGAAGCCTTCAACAATACGAGTACAACAGCGAATGAAAAGCTGACGACGGGCAAGCTTGCCGTATTCGGAGCCCAGCCTATGTTAGCGGATTTACAAAAAACGCTGTATAAAACGAATCCGGAAATGCAATATGAATTACTCGGACCGATGAAGAATAAGAGCGGAGAGATTCGAACGCAAGTGGAAAAACCCGGCCGTTCCGGATTCCCTGCCCTTTTCTTAAGCGCTAACATCAAAGATCCCGATGCGGCCTTGCGGTACATTGATTATGTCAACAGCGAAGAAGGCCGATTGCTTGCGTATTTCGGGATCGAAGGAACGCACTACAACATGGAGAACGGGATACCTCAATGGATTCCGGATGTGAAAAAACAATTCGATGAAAACCCGGATCTGAAGAGAGACGCAGGGCTCAATTATCTTCCAGGCAGGTTCATCGGGGCATTCTCCAATGAAGTCACTTGGCCTACGCCCGAAGATCAGAAAACGGAGTGGCAAAAGCTGGAGGAGAGCTTCTCGGCAAGATTGCCGATCAAAATCATAGACAAGGTAAGCGCCAGCTACCTTGCAAGAGAGTGGCCTAAATATCAGGAATATATCGATAAAACCAGCAGTTTGAATTTCGATGAGGAATTTAAGAAAGCGTTTTTTGCAGGGTCAGATGAAGAAGCTCTCAATATGCTTCATAGCGTTCAAGAAAAATTCAGAGCGGCCGGCGTGGAAGAAATGGCGGAGTTCGTGGCTCAAAAAGCTGCAGAACGAGATGATGTCGGGTTCTAG	MTLIALLLLATMTACTGKGGGEDAGTVDTGPKEQGTEEIKPVTLSFLSAWNGGGAGFPQDQENNPVAGQIREKTGVTLKLESITTSEVEKLNTIFASGTVPDIVNAPFWSTTGGEGQVIKKAAMEGQLLDLTPYLDKYPNIKRLVTTGIAKDFAEFDLNSPEFEGKTYLIPTETPDGTPESIHNWNYGLFARGDILKALNVKAEDIDTQEELVDLLIKIRDGGFKDIGGKPVIPAGTMWNGWDYGQFLAGWTDYTISDYREVDGKLIHWTQSKDHEARLLYMRKLLTEGLFDLEAFNNTSTTANEKLTTGKLAVFGAQPMLADLQKTLYKTNPEMQYELLGPMKNKSGEIRTQVEKPGRSGFPALFLSANIKDPDAALRYIDYVNSEEGRLLAYFGIEGTHYNMENGIPQWIPDVKKQFDENPDLKRDAGLNYLPGRFIGAFSNEVTWPTPEDQKTEWQKLEESFSARLPIKIIDKVSASYLAREWPKYQEYIDKTSSLNFDEEFKKAFFAGSDEEALNMLHSVQEKFRAAGVEEMAEFVAQKAAERDDVGF	PGPT0017245_1196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04485	921	sugB_1	COG0395	Trehalose transport system permease protein SugB	ATGGGTGCAAGTAGGCTGTCGCCGGCAGACAAAATGTATATGACGCTTAACTATGCGGTGCTGCTTTTATTCTGCGCTACGGCGCTATATCCATTTATCTATTTTCTAGCCCTGTCTTTCAATGACGGCTACGATGCGATGAAGGGGGGAATCTATTTTTTCCCTAGAGTGTTTACATTAGAAAACTATGCAAAAGCTTTTAGCAACACTTTGATCCTAAATTCCTTCTATATTTCCATTACCCGAACCCTTGTGGTTACGGTTGCCTCCGTATTTTTGACGGCCTTATTAGCCTACGCCCTTTCGCGGAAAGGTTTGCCGGGAAGAAAATACATCGTATTCTTCTTTTTCTTCACCACGTTGTTCAGCGGCGGACTGATTCCGACGTTCATTCTGTTCCGGCAAATCCACATCCTGGATACGTTTTGGGTGCTGGTGCTGCCGTCCCTATATAACTTTTTCAATGCGATTATCATGAAAACCTTCTTCGACGGGATCCCTGAAGGTCTGTCGGAATCGGCCCGAATCGACGGGGCAAGCGAGTTGTCGGTATTTGCAAGAATCATTCTGCCTCTATCGATGCCGGTGCTTGCTACCATTGCCTTGTTTGTCGGGGTGGGCGTGTGGAATGACTGGTTTACCGGTCAGTTTTTCATACAGAATGAAAAGCTGCAGCCTGCCGCTACGTTTCTTAACAAGATGATCAGCGAAGCGTCTTTCCAGTCGATGACGTCGTCGTCGGGAAATAGCGGATCCGCCATTCAAAACATGACCGAGACGCAGATGGAATTGCGAGGAGTAACGCCGGAAGCGTTGCGGATGACGTTCGTCATCATTATAACGACCCCGATCATCTGTGTGTATCCATTTCTCCAGAAATATTTTGTGAAAGGCGTATTGGTAGGTTCTCTTAAGGAGTAG	MGASRLSPADKMYMTLNYAVLLLFCATALYPFIYFLALSFNDGYDAMKGGIYFFPRVFTLENYAKAFSNTLILNSFYISITRTLVVTVASVFLTALLAYALSRKGLPGRKYIVFFFFFTTLFSGGLIPTFILFRQIHILDTFWVLVLPSLYNFFNAIIMKTFFDGIPEGLSESARIDGASELSVFARIILPLSMPVLATIALFVGVGVWNDWFTGQFFIQNEKLQPAATFLNKMISEASFQSMTSSSGNSGSAIQNMTETQMELRGVTPEALRMTFVIIITTPIICVYPFLQKYFVKGVLVGSLKE	PGPT0017255_547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04486	951	yteP_54	COG4209	putative multiple-sugar transport system permease YteP	ATGGTACCAAAGGGTGCTCTTATCCCTGGATTTGAACAATTAAAAAAGAATAAGAAACTAACTAGAATATGGTATTTCAGGCACATATACTTATTTTTGCTTCCTGCTATTATCTGGTTCCTGGTGTTTGCTTACTATCCGATGTACGGCATTATCATCGCATTCAAAGACTACAAATTCAATTTGGGGATATTGGGGAGTCCGTGGGCAGGATTTAAATATTTCGAGCAGTTTTTAAACGATTCCAGTTTTTATGATGTGCTCCGAAATACGTTATCCATTAGTGCCCTTAAACTTATTTTCGGATTTCCAGCTCCCTTGATCCTAGCCTTAATGCTCAATGCCGTCATGCACAAAAAAATCAAACGAGTGTTTCAAACGATTTCCTATCTGCCGCACTTCGTTTCGTGGGTCGTTGTCGTTACCTTGCTTCAAAAAATCCTGTCTCCGAACGTAGGGCTTATCAATGACATTCGGTACCAAATGGGTTTGGATCCCATCTTTTTTATGGGAAAGCCGGAATTATTCTATCCATTGGTCCTCATATCCGACATCTGGAAAGGTGTAGGCTGGGGTTCGATCATTTATTTAGCCGCGTTAACGAATATCGATCCACACTTGTATGAAGCTGCGGAAATCGACGGGGCTGGAAGGTGGAGCAAACTATTCAAGATCACGCTTCCATGTCTTACGCCAACGATCGCCATATTGCTTATTTTCTCACTCAGCGGAATACTGAACGCGGGTTTTGACCAAATCTGGCTGATGCAGTCCCCGGCAACCTTAAGCGTCTCGGAGATTTTAGACACTTATGTCTTAAAAACAGGCCTCCAACAGGGGCAATTAGCATATTCCACGGCCATCGGTTTATTCAAATCTGCGATCTCGCTGCTGCTCATTGTTGCTGTCAATAATATATCCAGACGCGTGAGTAACGTATCGTTATGGTAA	MVPKGALIPGFEQLKKNKKLTRIWYFRHIYLFLLPAIIWFLVFAYYPMYGIIIAFKDYKFNLGILGSPWAGFKYFEQFLNDSSFYDVLRNTLSISALKLIFGFPAPLILALMLNAVMHKKIKRVFQTISYLPHFVSWVVVVTLLQKILSPNVGLINDIRYQMGLDPIFFMGKPELFYPLVLISDIWKGVGWGSIIYLAALTNIDPHLYEAAEIDGAGRWSKLFKITLPCLTPTIAILLIFSLSGILNAGFDQIWLMQSPATLSVSEILDTYVLKTGLQQGQLAYSTAIGLFKSAISLLLIVAVNNISRRVSNVSLW	PGPT0017250_1441	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04487	1143	araR_6	COG1609	Arabinose metabolism transcriptional repressor	ATGCCTTTGTATCAGAGGGTTCAAGAGTATATACGCGAGTTGATATCGTCGCAGGTACTGAAGGTTGGAGACCGTATACCTACGGAAAAGGAACTCATGGAGCGCTTTGGAGTAAGCAAGATTACGGTCGTTAATGCCCTGGCCGGCTTGGTTAACGAAAAAATCATAACCAGGGTGCCCGGAAAGGGGACTTTTGTAAGCGAGCCCGAATCTCAAATGCCGGCCACTCCTCCGATAAGTGCCGTAAAACCTGTCCATAAAACTAGCGGAGCAATGGGGACACGGTTGATAGGGCTCATTATGCCCAGCATTTATGATTATTTTACGATTCGACTTATACAAGGTATACAGCAAGCGCTGAATGAGAACGATTACCGCTGCGTTATCTATTTATCAGAGGGCGATATTGATAAGGAAAAAGAGGCGATCCAGACATGCAGTAACATCGGAGTGGAAGGGTTATTGATTTTCCCGGTGGACGAGGAATTATTCAACGAGGAAATATTAAGCATGAAATTTGCGGGGTTTCCGTTTGTTCTCATTGACCGTTACCTTCCGGGGGTGGAAACTCACTATATCGCATCGGACGGCAGGCTTGGCGCTAACATGGCGGTAAATTACCTGTGGGAACTGGGGCATCGTGAAATCGCCATCTGCTCCGATTCGCCCATACAAACCGTAACCGTTCAAGAACGGATCGATGGATATATGAATGCCTTCAAGGAAAAGGGAGCACTCATTAACCCTGCCCACATCGTAACCGGTTTTGAAATCGGAAGCCTTGAGCAAGCTGAAACCCATCCATTGTACCGCTATATCAAAAATCGAATGGCAACGGCTTATATTACGCTTAACGGAATTCTTGGAGTAAAAATCTATCAGATTGCGCGTCAAGCCGGATTGAAGGTGCCTGAGGACATATCCATCATCAGTTTTGACGATCCGACTTCCATCATCGAAGGATACGGCGCGTTCACGCATGTTAAACAATTTGAACGAGACATGGGCTACCGTGCGGCTTATACGCTGCTAGAGGTCATTAACAGTGATGACGGGCAAGACGGAAAATACTTTAAAACCCTAGTGGAGCCGGAATTGGTCATTGGCGAGACGACGGGAAAAAACGTTGCATCCACTTTCTGA	MPLYQRVQEYIRELISSQVLKVGDRIPTEKELMERFGVSKITVVNALAGLVNEKIITRVPGKGTFVSEPESQMPATPPISAVKPVHKTSGAMGTRLIGLIMPSIYDYFTIRLIQGIQQALNENDYRCVIYLSEGDIDKEKEAIQTCSNIGVEGLLIFPVDEELFNEEILSMKFAGFPFVLIDRYLPGVETHYIASDGRLGANMAVNYLWELGHREIAICSDSPIQTVTVQERIDGYMNAFKEKGALINPAHIVTGFEIGSLEQAETHPLYRYIKNRMATAYITLNGILGVKIYQIARQAGLKVPEDISIISFDDPTSIIEGYGAFTHVKQFERDMGYRAAYTLLEVINSDDGQDGKYFKTLVEPELVIGETTGKNVASTF	PGPT0017490_110	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_04488	2652			hypothetical protein	TTGAGTACGATGCAGAATCAGCGGCTGGAAGGTTTAAGCGAGAAGATCTTTTTGGACCGGTATGCCTGGAAGGATGCGGACACCAACAACGCCAAGGTCGGCGACGTGGTGCTCGTGCTGACGAAGGATGATCCTAAATTTCCGACCAAGGAAGTTGGCGAAATCGTGAAACGCGAAGGCCGCAAGGTCACCGTAAAGACACGGAAGGGCGAGCTTGTGGAGTCGGATGTGGAGAAGCTGACGTTAACCATCGAGAAAACGCCGGAAGAAATGTGGGATCGACTCGCAGCCGCCATGTCATCGGTTGAGGCAACGCCGGAACTGCAGGAAGAGTGGCGCGGGAAGTTCCGCGAGATTCTGGATGATTGGAAGCTGGTGCCGGGCGGACGGATTGCGGCCGGAGCGGGTGCAAGCGATGAATTGACGCTGTTCAACTGTTACGTCATTCCTTCCCCGAAGGACAGCCGGGGCGGCATCATGGAAACCCTGAGCGAGATGACCGAGATTATGGCGCGCGGCGGCGGTGTCGGCATCAACTTGTCTTCCCTTCGTCCTCGGCGCGCGATCGTCAGAGGTGTGAACGGGTCCTCCAGCGGTGCGGTATCGTGGGGAGGATTGTTCAGTTATACGACAGGCCTGATCGAGCAGGGCGGAAGCCGCCGCGGGGCGCTCATGCTGATGATCAACGATTGGCACCCGGACGTGGAGGATTTCATTACGGTGAAGCAGACGATGGGACAAGTCACGAACGCGAACCTGTCGGTATGCGTCAGCAACGATTTCATGAAAGCCGTGAAGGAAGATCTGGACTGGGAGCTCGTGTTCCCGGACACCACCGATCCCGATTACGATGAGCTGTGGGACGGCGATTTGGATAAATGGAAGAAGGCCGGACGCAGCATCATTCCATATAAAACGGTTAAAGCACGCGAGGTATGGCACACCATTATCGAGTCCGCATGGAAATCGGCAGAGCCGGGCGTCGTCTTCATGGAATACTACAACCAGATGTCCAACAGCTGGTATTTCAACCCGATCATCTGTACCAACCCTTGCGGCGAGCAGGGACTTCCGGGCTGGGGCGTATGCAACCTGTCCGCGATGAACCTGTCGAAGTTCTACGATGAAGCGAATCATGACGTCGCATGGGATGAGCTGGCTACGACGACGCGTTACTCCGTGCGTTTCCTGGATAATGTCATCGACCGGACGCCTTACCATTTCGAAGAAAACGAATTAAACCAGAAAAAAGAGCGCCGCGTAGGCCTCGGAACGATGGGTCTGGCCGAGCTGATGATCAAGCTGAACATCCGTTACGGCAGCCCGGAATCGCTGGAGTTCCTGGATAAGCTGTATGGCTTCATCGCGCGCGAAGCGTATCTTGCATCCGCGGATATTGCCGAGGAGAAGGGCTCGTTCCAGGCATTCGATGCCGAACTGTATCTGCAAAGCGGCTTCATGAAAAATATGGCCGAGGTGTATCCGGAAGTTGCCGAAGCGGTCCGCAAAAAAGGGGCCCGCAACGTTACCGTCATTACCCAAGCACCGACAGGCAGCACGGGTACGATGGTTGGAACGTCGACGGGCATCGAGCCGTACTTTGCCTTCAAATACTTCCGTCAAAGCCGTCTCGGCTTCGACGAGCAGTTCGTGCCGATTGCTCAGGATTGGCTGGACAGCCATCCGGGCGAAGAGCTTCCGGACTATTACGTCACGGCGATGAGTCTCTCCGCCGAGGATCACATCCGCGTGCAGGCGGCGATTCAGCGCTGGGTGGACAGCTCCATCTCGAAGACGGCGAACTGTCCGGCGGACTTCACGGTTGAAGATACGAAACGCCTGTATGAGCTGGCATTCGATCTGGGATGCAAAGGCGTAACGATCTACCGCGACGGCAGCCGCGACGTGCAGGTGCTGCAGACGGAGAAAAAAGAAGACAAAGCCGCCGAAGCGACGACAGCTTCTACCGCGGAAACGGCGCTGGAGCAAAGCGCGGCAGGCCAAGCCGCTGAGGAAACGGCGAGCGTGGAGCCGGCTGCTGGAAGCGTGGCTGTAACAGCCTCGCCGAGCAAGAGCGGACTGGATAAACAATACAAGAAGCGTCCGCAAGTGCTGCGCGGCGCAACCTATAAAATGAACACGCCGTTCGGCATGGCGTACATCACAATCAATGATCTGGACGGCATTCCAAGCGAAATCTTCCTGAACGTCGGCAAAGCCGGATCGGATGTGTTCGCGATGGCGGAAGCCCTGGGCCGCGTATGCTCCCTGTTCCTCCGTTACGGGGACCACGGCAACAAGGTGGAGCTGCTGATCAAGCACCTCAAGGGCATCGGCGGCACCGGCGCGATCGGCTTCGGCGCGAACCGCGTCGAGTCCATCGCCGACGCCGTGGCGAAGGCGCTCGAGACGCACGTGGCCAACAACGCCGAGGCGGATCATGACCATGATCCGGCACCGGTTGCAGCCACGATGGCGCCTGCCGATGCAGGCGAAGCCGAGGCAACGGCAGCCGCGGGCAACGGCGGACATGGCGCGCATGCAGGCGGCAGCATGTCGCTGGATCTGTGCCCGTCCTGCGGCGGGGCGTCCTTGATTAACATCGAGGGATGCAAGACGTGCGGGAACTGCGGGTATAGTAAGTGCTCTTAA	MSTMQNQRLEGLSEKIFLDRYAWKDADTNNAKVGDVVLVLTKDDPKFPTKEVGEIVKREGRKVTVKTRKGELVESDVEKLTLTIEKTPEEMWDRLAAAMSSVEATPELQEEWRGKFREILDDWKLVPGGRIAAGAGASDELTLFNCYVIPSPKDSRGGIMETLSEMTEIMARGGGVGINLSSLRPRRAIVRGVNGSSSGAVSWGGLFSYTTGLIEQGGSRRGALMLMINDWHPDVEDFITVKQTMGQVTNANLSVCVSNDFMKAVKEDLDWELVFPDTTDPDYDELWDGDLDKWKKAGRSIIPYKTVKAREVWHTIIESAWKSAEPGVVFMEYYNQMSNSWYFNPIICTNPCGEQGLPGWGVCNLSAMNLSKFYDEANHDVAWDELATTTRYSVRFLDNVIDRTPYHFEENELNQKKERRVGLGTMGLAELMIKLNIRYGSPESLEFLDKLYGFIAREAYLASADIAEEKGSFQAFDAELYLQSGFMKNMAEVYPEVAEAVRKKGARNVTVITQAPTGSTGTMVGTSTGIEPYFAFKYFRQSRLGFDEQFVPIAQDWLDSHPGEELPDYYVTAMSLSAEDHIRVQAAIQRWVDSSISKTANCPADFTVEDTKRLYELAFDLGCKGVTIYRDGSRDVQVLQTEKKEDKAAEATTASTAETALEQSAAGQAAEETASVEPAAGSVAVTASPSKSGLDKQYKKRPQVLRGATYKMNTPFGMAYITINDLDGIPSEIFLNVGKAGSDVFAMAEALGRVCSLFLRYGDHGNKVELLIKHLKGIGGTGAIGFGANRVESIADAVAKALETHVANNAEADHDHDPAPVAATMAPADAGEAEATAAAGNGGHGAHAGGSMSLDLCPSCGGASLINIEGCKTCGNCGYSKCS	PGPT0021340_1922	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
AK002_04489	1758	rapA_3		RNA polymerase-associated protein RapA	ATGAACCAACAGCCATCTGCCGACTCAGGCATGATTTTCGACCCGCGCCTTCCCGTTCCATTGCAGATCGACCGTTCTTGGTTTGACGATCTCTCTGGCCGACTGGACAAAGGAGGTCCTTGGGGTGACTATCGTCTGGCCCAGCTTGCCGTTGAGGGCGAGAAATCGCGCCTCGTTACAAGCTTTGAAGAACTGCAGTGCCTCAAGCACCTTGGCGGTTTATCCCCACTCCCCCATCAGACCGATACCGCAAGACGCGTTTTGTTCGAGATGTCGGGCAGAGCCATTCTGGCGGATGAGGTGGGACTTGGCAAGACGATTGAAGCCGGTCTTATTTTAAAAGAATACATCGTGCGCGGACTGGTATCCAAAGTGCTGATTCTCGTACCTGCTTCCCTGGTGCTGCAATGGGTCCGCGAGCTGAACTCCAAGTTCGGCATTCCCGCGGTCGCGCAGAAAAAAGCGTACTCCTGGGGCAATGACATCGTTGTCGCCTCCATGGATACGGCCAAGCGCGATCCGCATCAGGAGCTTCTGCTGAACGAGGAATACGACATGCTCATCATCGATGAAGCGCACAAGCTCAAGAACAAGAAAACATCCAATTATCAATTCATCCAAAAGCTGCGCAAAAAATACTGTCTCCTGCTCACCGCCACGCCGGTGCAGAACGATCTCAGCGAGCTCTTCAATCTCATCACGCTGCTGAAACCGGGCCAGCTTGGCGGCCAAGGACAGTTTGCCGCTAATTTTGTCGTGGATAAACGAAGACCGAAGAACCAGGACCAGCTCAAGGATGAGCTGTCCAAGGTCATGATCCGCAACCGCCGGGGCGAGGGGGAAGTGAAGTTCACGAAGCGGTCCGTCCGCAACGTGGGACTCAGCCTTTCGCCTGAAGAACAGTCATTATACGACGGCGTTACGTCCTTCGTCAAAGATCAGTATCAGGCAGCTGGGGGAAATTTAAGCAGTATGCTGTCGCTCGTCACCCTGCAGCGGGAAGTATGCAGCAGCCGGGATGCCGTCTTCGTAACCCTTGTTAATCTGTCCAAGAAGCTGCCGGAGGACTCTCCGCTGCGCGATAAAATCTGGGAACTGGTCTATCTCATCAAGGCCATCAAAGCTAACACCAAGGCGGAAAAAGCCATCGAGCTCATTCAGCAAATGAACGAGAAGGTCATCGTCTTCACGGAATATCGGGCCACGCAGGAATACTTGCTCAATTATTTTCGCGATCACGGGCTGATTTCCGTCCCGTACCGGGGCGGCATGAACCGCGGCAAGAAGGACTGGATGATGGATCTTTTCCGCGGCAAGGCGCAGGTCATGATCGCGACGGAAGCCGGCGGCGAAGGCATCAACCTGCAATTCTGCCACCATATGATCAACTTTGACCTGCCCTGGAACCCCATGCGGGTCGAGCAGCGGATCGGACGCGTGCATCGTCTCGGCCAAACCAATGACGTGAAGATCTACAACCTGTCGACTTCGGGAACCATCGAGGAGCATATCCTGAACCTGCTGCACGAGAAGATCAACATGTTTGAGATGGTCATCGGCGGGCTGGACGTTATCTTGGAGCGCTTCGAGAAGAAGGAATCGATCGAGAAGAGCCTGTACAAAATCATGCTGGAGTCCGGCAATGATGATGAAATCCGCCAGCGCATCAGCACATTGGGCGACTCCATTCACCATATCAAGCAGGACATCGAGCTGGAAAGCACGGCCGAAGAAACTCTCAGAGAGGAAGAAGCCTAA	MNQQPSADSGMIFDPRLPVPLQIDRSWFDDLSGRLDKGGPWGDYRLAQLAVEGEKSRLVTSFEELQCLKHLGGLSPLPHQTDTARRVLFEMSGRAILADEVGLGKTIEAGLILKEYIVRGLVSKVLILVPASLVLQWVRELNSKFGIPAVAQKKAYSWGNDIVVASMDTAKRDPHQELLLNEEYDMLIIDEAHKLKNKKTSNYQFIQKLRKKYCLLLTATPVQNDLSELFNLITLLKPGQLGGQGQFAANFVVDKRRPKNQDQLKDELSKVMIRNRRGEGEVKFTKRSVRNVGLSLSPEEQSLYDGVTSFVKDQYQAAGGNLSSMLSLVTLQREVCSSRDAVFVTLVNLSKKLPEDSPLRDKIWELVYLIKAIKANTKAEKAIELIQQMNEKVIVFTEYRATQEYLLNYFRDHGLISVPYRGGMNRGKKDWMMDLFRGKAQVMIATEAGGEGINLQFCHHMINFDLPWNPMRVEQRIGRVHRLGQTNDVKIYNLSTSGTIEEHILNLLHEKINMFEMVIGGLDVILERFEKKESIEKSLYKIMLESGNDDEIRQRISTLGDSIHHIKQDIELESTAEETLREEEA				NA	NA	NA	NA	NA
AK002_04490	963			hypothetical protein	ATGACCATGACGCCGCAGGAGGTGCAGCAGCACTTCATGGCCTATTTGGAAGCCACCGAATGCACCGTCATCGAAAAATCGCCTGAGCATGTCACCGTGAAACTGTCGCCGCAGGCCGACAAAATGCTCACCAACCGCCCCTATTACTGGGGGTTCGTGGAACGTACCGGAGCTCCCGCCGAAACGCTGTCGTTCAACTTCGTGTTTGATCCGGAAAAATACGACGAACGGCTCGCCAAGGCCGAAGAAGCCAAAGCCAAAACCCAGCTCAACGCACCCGCGCAGGATCCGCTGCTGGCGCGCTATTACGGGAACGCCCCGGTACTGCCGATCTTGGGGCCAGGCCGCATTCAGCGGGAGAATATCGGTTACGGCAGCAGCCGGCTCGCCCAGATTTGGAATGCCTCCCGCGAAGAGGGCAAATGCGTGTATCTGTTCCAGCAGCGGGATGCCGAACCGCGTCCCAGGGGCCGTTCCACGCCTTATGAGCAGTGGCTGGGCGTCTGCTTCAAGGTGGAGTTCAGCTGCGATCTGAAGCGGGAGGAATTGTTTTTTCTCGGAATCTCGCTGTCCGGCCGCTCGATTACCGAAGACTTCCCTGCCATTCTGAATGGGCGCGAATTGACTCCTCGCCTTCCGGAGAGCGTTCACGTCAGACCGGCGGCTCTCACCCTGGAGCAGGCCGCAGCTGCCCTGGAGAATCATCTGATCAACAAGCTGAGCAAGCTGGATTACGATTGGGCGGCGAAGGCTAGGGAACGCCTCAAAGACGAACTCATGGTCATCGACGGCTACTACGAGGAATTGCTCAAAGAGCAGGACGAAGAGAAAAAGGCGCAGATCGAGGAGCAGTACAAGAACCGCCGGTCGGAAATGCAGTGGCAGTACGAGCCGAAAGTGAGCCTGTCCGCCATAACCTGCGGTCTGTTTCATCTGTGTTCGCCCGTGGGCGCGTCTTCATGA	MTMTPQEVQQHFMAYLEATECTVIEKSPEHVTVKLSPQADKMLTNRPYYWGFVERTGAPAETLSFNFVFDPEKYDERLAKAEEAKAKTQLNAPAQDPLLARYYGNAPVLPILGPGRIQRENIGYGSSRLAQIWNASREEGKCVYLFQQRDAEPRPRGRSTPYEQWLGVCFKVEFSCDLKREELFFLGISLSGRSITEDFPAILNGRELTPRLPESVHVRPAALTLEQAAAALENHLINKLSKLDYDWAAKARERLKDELMVIDGYYEELLKEQDEEKKAQIEEQYKNRRSEMQWQYEPKVSLSAITCGLFHLCSPVGASS				NA	NA	NA	NA	NA
AK002_04491	1110			hypothetical protein	TTGAAGCTGTGGAACATGGAACCCCATTACCAGGATGACAAGGACAACATGCGCAAACCTAAATCAATCGACAACAAACGCTTTATCCAATATCGAAGGTGGTCTGCCTCCTTCATCGTAACGGCACTGCTGTGGTTCAGCACGATCCACCCGCAGGCAGGCATGGCTGCTGCTCGTGAAGCAGACAACCCCAATCCTGCGAGCGGCGTCCGTGCGGCAGACGCTCTGCTTGCAGTCCAGTCCAGCCTCGCCTACAGCAGCATCCAGGCTCAAGTACCGGAAAGTTTGGTGGACTATGCAGAACAGACCGTGGATCAACTATCGGTGCATGCGCCATTTACTGCCTGGGACGGAGCAGAGCTGGAATTCACCCCCCTCGGTCCGGGCACGCACGGATGGCTGGTCACGATTTCCGATCAGGGACTGCCTCAGGGCTACATGATTATCAGCGCAGGAGAAGACGGTGGATATATCTTGAGCGAATACGGGATCGGCTCCACCCTTCCCTACAGTCAAGCACCGCTGAATGAACGGCTTGCGGCCGAGGGATTTCTGAAGGCCGGTGGATCTTTGCCGAAGGGAAGCAGCGTGTGCAAGCTGTATGACGTATCCCCTGTCTGGCAGGTTCAGCTTCCCGGTAAGAAGCCGGTTTATATCAGTGCACTGAATAGCGAAGTCCTTCCGGATGAACTCCAGCAGACAACGACGGCGGTCAAGCCGGTATCGGCTTCGATGCCGGCGGCAAGCAAGGGATTGGTAACTTCATCCGCTCGCTGGATTGCCGGTGCGCCAACCATTGCAGCCGGCGATTCCCGGGATCCTTACGATAATCTGCTGTGGCTGACCTCAAGCAATCTGACGGCCCGAAGCAGTACCGATCTGCGGAATCTACTGCAGGAGCACTCCAGCCTGATATTCAAATCCAAAAAAAGCAATGCCGCATACGGAGCTCCTTTTACCTTAAACGGGTGGCACCGCTGGTCGACAGGGATTCGGAAGCATCCTGCAGCGCTCTATGTGTCGGTTCCATTGCGTAACACGGATACCCTCCGCTTCCTGCCGGCATCCCGCTTGATCGGACAAGGCCAGTTCTATGCTCAACCCAAATGA	MKLWNMEPHYQDDKDNMRKPKSIDNKRFIQYRRWSASFIVTALLWFSTIHPQAGMAAAREADNPNPASGVRAADALLAVQSSLAYSSIQAQVPESLVDYAEQTVDQLSVHAPFTAWDGAELEFTPLGPGTHGWLVTISDQGLPQGYMIISAGEDGGYILSEYGIGSTLPYSQAPLNERLAAEGFLKAGGSLPKGSSVCKLYDVSPVWQVQLPGKKPVYISALNSEVLPDELQQTTTAVKPVSASMPAASKGLVTSSARWIAGAPTIAAGDSRDPYDNLLWLTSSNLTARSSTDLRNLLQEHSSLIFKSKKSNAAYGAPFTLNGWHRWSTGIRKHPAALYVSVPLRNTDTLRFLPASRLIGQGQFYAQPK				NA	NA	NA	NA	NA
AK002_04492	192			hypothetical protein	ATGGCAAGCGGAGATGAATTGATCAAATATATTACCGAGCGCGTGGTTAACTATATAGATACGCCTAAGGAAGTTCGGCGCAAGGCGAAGGTGAAGGAATCCTGGACCACAAGGTGGTTCGGCATGATTCCGTTCTCCATGTCGCTGTGGAAAGACGACGTATCCTCCAAGCGCAAAAAAAGGCAAAAGTAA	MASGDELIKYITERVVNYIDTPKEVRRKAKVKESWTTRWFGMIPFSMSLWKDDVSSKRKKRQK				NA	NA	NA	NA	NA
AK002_04493	801			hypothetical protein	ATGATTAAGTCAGCAGGCGTATGTTTGCTTCTCTTGACGCTGGTACTCCCCGGTTCTGTCACGGAAGCAAGCCCAGTAAAGAAGCAAGCCCTGAAGCTTCCAGCACATGCCGTTCATCCGAAAGTGATGCCGGCAGCCCAGCTTTCCGTAACGCCGGAATCAACCCATTCCTCAGGACGGGAAATCGACCAATCACATCTTAGGCACCTCCACCCATTTGCACATGATGTCGTGCTGATCGATGTGGGCCATGGCGGAATCGACGGCGGAACGTCGTATGGGGACATTCTCGAAAAAGATATCAATCTGGCCATTTCACGCAGACTGTTCATGCTGCTGCGCAAGGAAGGCTATCATGCCGTGCTGAATCGCGACGCCGATTACGCGCTAAGCGACGATAACCGCTGGCATCGAACCTCCTCCAGGCATCGCCGCGATCTGTCGCAGCGCAAGCAGCTCAGCAGCGAAATCCCGACCAAGCTGGTAGTCAGCGTTCACGTGAATTGGGGGAAAAATGCGTCCAAGCGCGGCGGCATCGTACTGCATCAATCCGAGGGCCGAAGCACCTTGCTCGCGGAAACCATTCAAGAACAATTGAATTTGGTATATCGCAGCAACAATGGCATCATCGTAGGCAAGCCTTATTATCTGCTCAATCAAACCCAAGTACCTGCCGTCATCGTGGAAACCGGCTTCCTCAGCAATATGGAGGACCGGAAATTATTGACCAGCCGAAACGGCCAAATGATGATTGCCGAAGCCATCGCTGACGGGATTATCAGTTATTTAACAGCTCTTTAA	MIKSAGVCLLLLTLVLPGSVTEASPVKKQALKLPAHAVHPKVMPAAQLSVTPESTHSSGREIDQSHLRHLHPFAHDVVLIDVGHGGIDGGTSYGDILEKDINLAISRRLFMLLRKEGYHAVLNRDADYALSDDNRWHRTSSRHRRDLSQRKQLSSEIPTKLVVSVHVNWGKNASKRGGIVLHQSEGRSTLLAETIQEQLNLVYRSNNGIIVGKPYYLLNQTQVPAVIVETGFLSNMEDRKLLTSRNGQMMIAEAIADGIISYLTAL	PGPT0024160_5924	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK002_04494	2238			hypothetical protein	ATGTTTGACTGGCTTGGGTATCGCCAAGGACTTCCGCTTTGGATTTCATGGCGTCTGAATCGTAATTTGAAGGAAGACATCGAGGACATATTCGAAGGCATTGCCGAGACGCGCAAGGAGCTGCTGTTCTCCTGGAGCCATGAATATTGGGGACATCTGGACCGATTGAAGGAGCAGCTGAACAAGGACAAGACCCATGGTTCAACAGTCGGCAGCGAGCATCCTCATCCCTTCTCTACAAGCCCATTGAACCAGGAGCAGCTCTTCTCCGCTTTGTACTCGCGCGCTGCCGATTTCACGGAATTATTCTTGCTGAACCCTTCGGGTGAGGTCACGTACTCTACATACGCTTCGCACGTTGGAACCAGCTACAGCAAGAGCAGTCCATTGGGCCACGCAATCATTCATCTCGCCGGCTCGGATACCGGTAAATTGCTCTTCGGGCCGTATGCGGATCCCGTCACGTTCACTATCGGTCCCCGCTCCTCTGCTTTTCACGACAAAATGACGCTGCTGTTCATGAATGCCCTTTACGTCGACGATACGTTCGCCGGCATCCTGTGCGGCCGGGTGCCAAACGACGTGATCGGGGATATAATTCAACGGGAATCCGGCCACGTCTATCCCGATTCCGGCGACAACTATATATTCATGGCCAAGCCCGAGATGAATCGGCATATTGCTCCGGGCACGGCCCTTTCCAGAAGCCGCTTTGAAGACCGGACCTTCACGCACGGCGAGAACCTGAAGGACGGCGTCACGACCGACTGGGGGACCGTATCGGTTCACGAACATACGGAGCTGGAGCTGATGTTCACCGACCCGGCAACGGGTCAGCTTCATCCAGGCGTAGCCAACACCATCGCGAACGGAAGCAATCTGTTCGTGGACTTCCCCGGTTATTCCGATTACCGCCACATCCCGGTAATCGGCAAAGGCGTGACGTTCCGCCTGCCCCACTGTCCGGATGTTTGGGGGATGATGTGCGAAGGCGATCTCGAAGAGGTTTACCGCATTCGCGGCATCCGCTTCAGACACGCTAAGCTCCACGGCTTGTCTACCCTTGTCTCGAGCCTCCTGACGGCTGTCATTGTTTTTATTACGGCTCTTTATTTATCTCCGGCATTCGCAGCCACGGCGGGAGGATTAGCCTGCTTGGTCACCGGCCTTCTCACCTCTTCCCTGGTCGGCCGTAAAGAAATCGGGCGAATCGCGGATCGTCTACGCAGCCTCAACCGCTTCATCCGCATGAATGCCGAAGGCAGCGGAGATCTGACGCAGCGGCTGGACCCCCGCCAATTCGATCAGGATGAAACGCGCGAATTAGCCAAATGGATCAACAATATGATCGATTCGCTGGAAAGCATCATGATGCAGGTGAAGTTGACGGCAGGCGATGTTTCCTCCAGCCAACAGGTAATGAACGACACCACCGCCGTCACCGTTACTTCCGCACAGCGTGTCAGCAGCAACATTAGCGAGATGATCCGCAGCATGCGCAGCCAGCTGCAGGATATCGATGCCGTGAAGGACAGCGCGGAACGGATGCGGGAGACGCTCCGCCAGCTGGAACGCCAAGCGAATGAGCAGATTGATGTGGCGAAGAATGAAGTCGTCCGGATCGGAGACAAGATGTCTCATATTTCTGCGAAAGTCGAGGAAACAAATCAGACCATCCGCACGTTCATGGGAACCGTTCAGGAAGTTACAGGCGTCCTGCACGCGATCGAACAAATATCCTCCCAAACCCATTTGCTGGCCCTGAATGCTTCCATTGAAGCGGCACGGGTCGGAGAACACGGACAAGGTTTTGCCGTCGTTGCAACCGAAATCCGCAAGCTGTCCGAACTGACCAGACAGTCCACGGAAGAGGTCCACCGGATTATCGGCCATATCTATCAGGACGCCCAGCACGCCGTGCTATCGATGAAGGAAGGGACCCGGGTCGTGGAAGAAGGAAATCTGCTGGTTTCCGCGGCTTCCGAGCTGCTTGCCGCCGCAGCCGAAGACGATCTGCGCAAGCACCAGGCCGTAGATGAAGTGGTTCAGCTGATGGAGAAAATCGCTTCGGTCAGCAAGGAGAACCGAAAGATTTCCAAGGATGTGGAGAGCAAAGTGCAGGAGCTGTCGCAGGAAATCGAAAGCGTAAGGTACACCTCAGGCAATGTCGAAGCCATAGCGAAATCGATGCAGCAGCTGGTAGGTCAATTCAAACTCACCGAAGCCCGCATCCGATAA	MFDWLGYRQGLPLWISWRLNRNLKEDIEDIFEGIAETRKELLFSWSHEYWGHLDRLKEQLNKDKTHGSTVGSEHPHPFSTSPLNQEQLFSALYSRAADFTELFLLNPSGEVTYSTYASHVGTSYSKSSPLGHAIIHLAGSDTGKLLFGPYADPVTFTIGPRSSAFHDKMTLLFMNALYVDDTFAGILCGRVPNDVIGDIIQRESGHVYPDSGDNYIFMAKPEMNRHIAPGTALSRSRFEDRTFTHGENLKDGVTTDWGTVSVHEHTELELMFTDPATGQLHPGVANTIANGSNLFVDFPGYSDYRHIPVIGKGVTFRLPHCPDVWGMMCEGDLEEVYRIRGIRFRHAKLHGLSTLVSSLLTAVIVFITALYLSPAFAATAGGLACLVTGLLTSSLVGRKEIGRIADRLRSLNRFIRMNAEGSGDLTQRLDPRQFDQDETRELAKWINNMIDSLESIMMQVKLTAGDVSSSQQVMNDTTAVTVTSAQRVSSNISEMIRSMRSQLQDIDAVKDSAERMRETLRQLERQANEQIDVAKNEVVRIGDKMSHISAKVEETNQTIRTFMGTVQEVTGVLHAIEQISSQTHLLALNASIEAARVGEHGQGFAVVATEIRKLSELTRQSTEEVHRIIGHIYQDAQHAVLSMKEGTRVVEEGNLLVSAASELLAAAAEDDLRKHQAVDEVVQLMEKIASVSKENRKISKDVESKVQELSQEIESVRYTSGNVEAIAKSMQQLVGQFKLTEARIR				NA	NA	NA	NA	NA
AK002_04495	882			hypothetical protein	ATGCGGGAAAGATATAGAAAATCGATGATCTTGCTGTGTTTGGTATGGGGGATCTTGAGCGGAGCACAGATCGGGTACGGGGCGGGGGTGGTTAATGCTGCTGATTCGTTCAACCATGATACCCGAAACGTGCACGAAGAATCCGGTCACGGCAGATCCGCGCAGGAAAAGAAGCCGAATAAGCTGGCCGTCATTATCGATGATTTTGGCAATGATCAGAAAGGGACCGAGGAAATGCTCAATCTGCCTGTCAAAATCACGGTAGCCGTGATGCCGTTTTTGCCGACGAGCAAGAAAGATGCCGAGGCCGCGCACCAGCAAGGGCATGACGTCATTATTCATATGCCCATGGAGCCTAAGCAGGGCCGGTCTTCCTGGCTTGGACCGGGTGCTATCTTAAGTTCGCTCACCGATGAGGAAATTCGTAAACGCATGGAGGAGGCAATCGATTCGGTTCCTTATGCCGTTGGGATTAATAATCACATGGGCTCCAAGGTTACCGGGGATGAACGGGTCATGTCCATCGTGCTCGACGTTTGTAGGGAGAGAGGGCTGTTTTTCGTCGACAGCAAAACGAATTACTACAGCGTGGTCGGCAAACTGGCAGCATCGATGGGAATGCCGTCCATCGCCAACGATATCTTCCTGGATGACGTTCATACCGTACAGCATGTGAGCAAGCAGCTGCAGACCGCGGCGCAGCATGCGGTAGAGAGAACTTCCTGCATTGCAATCGGCCATGTTGGCGTATATGGAATCCGAACGGCAGAGGCGCTGAAAGGCACGATCCCGGAACTGCAAAAAAAAGTGGAGTTCGTCGGGATCAGCGATCTCGTCAGGGAGCACTCAAGCTGGCGGCCTGATCCGCTGCGCTCGTATTAG	MRERYRKSMILLCLVWGILSGAQIGYGAGVVNAADSFNHDTRNVHEESGHGRSAQEKKPNKLAVIIDDFGNDQKGTEEMLNLPVKITVAVMPFLPTSKKDAEAAHQQGHDVIIHMPMEPKQGRSSWLGPGAILSSLTDEEIRKRMEEAIDSVPYAVGINNHMGSKVTGDERVMSIVLDVCRERGLFFVDSKTNYYSVVGKLAASMGMPSIANDIFLDDVHTVQHVSKQLQTAAQHAVERTSCIAIGHVGVYGIRTAEALKGTIPELQKKVEFVGISDLVREHSSWRPDPLRSY				NA	NA	NA	NA	NA
AK002_04496	315			hypothetical protein	TTGCCAGCCAAGTCATGGAGTCTCCAAGAACAGCTTGCCGCCTATGCTTGGCTGCAAGCATTGGGAACGAATATCGCCGCTCTGGGTCAAACGAAAATGCTGTCCAAAAGAAAGAAGCAGCAGGATGAAGGACAAAGGCTCTCCATCCTAGGGAACGCGATGCAATCGATCGCCAATGCGGCTCAGGCCGAAATTACCGCGGAGCTGCGCGGCACGGCAACGAATAAGAAAGCCAACGATCTTACGGTGGCCGGCAATCTTCTGCAATCCGTCGGAAATGCGCTGCAGGTGATTGCGGGAGCGGAGGATTCCTGA	MPAKSWSLQEQLAAYAWLQALGTNIAALGQTKMLSKRKKQQDEGQRLSILGNAMQSIANAAQAEITAELRGTATNKKANDLTVAGNLLQSVGNALQVIAGAEDS				NA	NA	NA	NA	NA
AK002_04498	441			hypothetical protein	ATGGCCATACAGGCTGTTACAACGGAAGAACGGGCATTGATCAAGAGTTACCTGCTGCTGATGTTCATTCATAAGGTGTTTGAGCGGGATTGCCGTATCATACAGGAGAGCGGGGTTTTCAAAACCCCTCAGTTGTACGTAGAGGTTGTGGGAAACGGCGCCAAACGTGCCGCAGTGCTCCTTCGTGAGGTGAAGCAGGAATTCACCAAGCGGGCGATCAAGGTTTATGACATCGGGCAAAGCCAGGACGGGATTCAGGCACGATATGCCTGTCGGGGATACATTGGGTCGATGAACATTCTATGGCCATCCTTCCGTGAGGAGATGATGGATCGCATGCGAGCCTATCTCGGGCTCGTTCCGCCTGAGAGCGAGTCCACCGAGCAAGCCCAACCTCCTGCCGCTGCTTTACTTTCGCGCGCTAGCATCGCTGTGCCTTAA	MAIQAVTTEERALIKSYLLLMFIHKVFERDCRIIQESGVFKTPQLYVEVVGNGAKRAAVLLREVKQEFTKRAIKVYDIGQSQDGIQARYACRGYIGSMNILWPSFREEMMDRMRAYLGLVPPESESTEQAQPPAAALLSRASIAVP				NA	NA	NA	NA	NA
AK002_04499	330			hypothetical protein	ATGGAAATGTCCAATGACAAGGTCTCGGCATACAAAAATGAAATTCAGAATTTGAAGCAGAGCATGCCGGACATGGCAGAAGCGTATCATCAGTTCACCGGCGTTTGCTTTCAGGATGGCGAGCTGGATGCGAGAACGAAGCAGCTGATCGCGCTGGGGATCGGATTGTTTGCCAACAATGAGCTGTGTACCTTCTACCATATGGAGGAGGCCCGTGCCAAGGGAGCCTCGGATGCTCAGATCATGGAGGCCGTAGCCGTGGCGTCTGCCGCCAGCGCGGGACATGCTCTCTCGCAGGGACTGACCCGCGTGCAGCATAACCTTCATTGA	MEMSNDKVSAYKNEIQNLKQSMPDMAEAYHQFTGVCFQDGELDARTKQLIALGIGLFANNELCTFYHMEEARAKGASDAQIMEAVAVASAASAGHALSQGLTRVQHNLH				NA	NA	NA	NA	NA
AK002_04500	219			hypothetical protein	ATGATCAGCGATGAAAGACTCAATGAGCTGCGGCTCTCCGGCGAACTGGTCCGGGTTGTGCGGGATGGGCTGGAGACCAATGATATTATAGGGTTCGTCGTAGCCTGGGACCCGGAGCAGGTTATCATCCGCCGCAGAAACCGGCGGGTCGTTAAACTGGATCGGCGCTACAGCTACCAGCTCAAAAAAGAGCCAAGAGTCAGCCCGGTCGAAGAATAA	MISDERLNELRLSGELVRVVRDGLETNDIIGFVVAWDPEQVIIRRRNRRVVKLDRRYSYQLKKEPRVSPVEE				NA	NA	NA	NA	NA
AK002_04501	330			hypothetical protein	ATGGGGAAACAACCTGTAACCGAGCCGTTTTTGATTGAGAAGCTGTATGAAGCGAAGGTACATTTTGAACGTGCTTTGGATTGTAAACATACGGAGTTTGATGATCTATATCCCTATATGATTGAACATCCTCAGTTCTTCTGGTACAAACGCTATGTTGCCTGGTCAGAACTGCTGACGATTGCCGGATTGTGCGAGGAGGTTTCCTTCGAATGGAAGGAACAGTTTACGCCTCAGCAGGTCGAATATATCGAGAAGCGCGTCATGTCTTCCACCGTGCTGGATTATTGGTACGAGAAGAATGACAGCATCGAGCCGGCTCAGCGTTAA	MGKQPVTEPFLIEKLYEAKVHFERALDCKHTEFDDLYPYMIEHPQFFWYKRYVAWSELLTIAGLCEEVSFEWKEQFTPQQVEYIEKRVMSSTVLDYWYEKNDSIEPAQR				NA	NA	NA	NA	NA
AK002_04502	570	xpt_2	COG0503	Xanthine phosphoribosyltransferase	ATGGATTGGTTAAAGGAGCGGATTGTTAAAGAAGGCGTCGTGTTGTCGGATCAGGTGCTGAAGCTGGATGCCCTGCTGACGCATCAGGTTGATCCGGCATTGATTATGGACATGGGCCGGGAATTTGCGGCGAGATTTAAAGAGAGCGGCGTGACCAAGGTCGTTACGCTGGAATCCTCCGGCATATCGGTTGCCTTTGCCGCAGCGCTTGAATTGGGAGTCCCCATGATATTCGCCCGGCGCAAAAAAACGCTGCTCGCCGATCCAGACGCCTTATGCGAGCGTGTGCCGTCTTTCACCAAAGGCATTGTCACGGATATCATGGTGTCGCGCCAGTTTATCGGCGAGGGCGATAAAGTGCTCTTCATCGATGACATTATTGCAAACGGAGACGCCGCGAGAGGGCTGATCAAAATCATTGATCGGGCCGGGGCGGAATTAATCGGGCTTGGCGTCGTGATCGAAAAGAGTTTCCAAGCCGGGGCGAGAACGCTGCGGGAACAGCATGTTCACGTGGAATCGCTTGTCACCATATCGTCGCTTGAGGATGGGAAGATTTCGTTCAGCTAA	MDWLKERIVKEGVVLSDQVLKLDALLTHQVDPALIMDMGREFAARFKESGVTKVVTLESSGISVAFAAALELGVPMIFARRKKTLLADPDALCERVPSFTKGIVTDIMVSRQFIGEGDKVLFIDDIIANGDAARGLIKIIDRAGAELIGLGVVIEKSFQAGARTLREQHVHVESLVTISSLEDGKISFS	PGPT0007305_968	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816	NA	NA
AK002_04503	1047			hypothetical protein	TTGCGTAATTTTATGCGTGTTTTACAGATCGCCTTTACATATATCGGAACCGTCGTTGGCGCGGGCTTTGCTACCGGCCGGGAAATCCTTCAATTCTTTACCCAGTACGGCCACTGGGCTACACTGACCATTGTGCTTACGACGGGATTATTCATTTGGCTCGGCACGAAAATCATGACAATATCCAGGCGGATCGGAGCCAAATCCTTTGAGGATTTGAACAAATTCCTGTTTGGCGAGAAAGCCGGCGTCTGGATCAGCCTCTTCATGTTTGTCATTCTGCTCGGGGTGAACAGCATCATGCTTGCCGGTGCCGGATCTGTGTTTGTGGAGCATCTGAATTTGAGTTATCAGACCGGATTGTTTGTCACGATGATCGGGACTTTTTTTATTCTCAGAAAAGGCATCCAGTCCATCATGACGATGAACAGTCTCGTCGTGCCCATGATGCTGACCTTATCGGTGGCGGTGATCTCTCAAACGCTTCAGTCCCCGGGCGCCACCCGTTTCTTAACCTTGACCACCGACCACAGCCTGCCTTCGGTTTGGCTTGCGCCGCTGCTCTACACCGCCTTTAACCTGGTGATGGCGATGCCGGTGCTGGTCCCGCTCGGCAGCCAGACCGAAAGCGCGCGAACCGTAACCTGGGGGGGCATCATTGGAGGAACGGGCGTAGGGTTTATGCTAATGGCGGCGCATTTTGCGATGTCCGCCCATATGCCCGGCATTAGCCAATACGAGATTCCGATGGGCAGCATCGCCAACCAGCTGGGCTGGTTCGTACAGATCATCTATCTCATCCTGATCTTCCTTGAAATTTTCAGCACCTTCGTTGCCAATATTTACGGCATCACCCTCCAGGTTCAGCAGCGAACCTCGCTCTCCCCGAGAGTGATCACCCTTGGCATCATGGTGTTCTGTTATTTCTTCAGCCAGTTCGGCTTCAGCTCCCTGCTCTCTCTGCTCTATCCGATGTTCGGGGGATTGTGCCTGCTCTGGGTGCTCCGGCTGACTTTATTCGGAACACCTGAAATCAGGGGTAAATAA	MRNFMRVLQIAFTYIGTVVGAGFATGREILQFFTQYGHWATLTIVLTTGLFIWLGTKIMTISRRIGAKSFEDLNKFLFGEKAGVWISLFMFVILLGVNSIMLAGAGSVFVEHLNLSYQTGLFVTMIGTFFILRKGIQSIMTMNSLVVPMMLTLSVAVISQTLQSPGATRFLTLTTDHSLPSVWLAPLLYTAFNLVMAMPVLVPLGSQTESARTVTWGGIIGGTGVGFMLMAAHFAMSAHMPGISQYEIPMGSIANQLGWFVQIIYLILIFLEIFSTFVANIYGITLQVQQRTSLSPRVITLGIMVFCYFFSQFGFSSLLSLLYPMFGGLCLLWVLRLTLFGTPEIRGK				NA	NA	NA	NA	NA
AK002_04504	3198			hypothetical protein	ATGAACATACAAGGTTTCGGAGCCGTCCGGGACATGAGCATTTCCATCGATGCCCCTGTAACCGTGCTGTATGGACCGAATGAAGCGGGGAAGAGCACGGTCCTGCATTTTATCAGCGCCATGCTCTACGGGTTTCCGGGCAAGGGCTCGCCGGCGGAACGCGGAGAGCCCTCCGGGGAAGGTGTTCACGGAGGCGAGCTGCGTTTTCTTGATAAGGAGGGGATACCTTGGGTGGTCCGGCGCTATAACCGGTCCAGGGACGGGGATGCCGCCTCCGGCAAGGGCGAACGTGTACATATTCATAAACAAGCGGATAACGGGCTCGTGATCGAGCTCGGGCAGCAGGAGCTGGAACAATACGCCTTGGGCGGCGTGTCCAGGGACATGTTTCGCCAGCTGTTTGCCATCTCGTTAAGCGAGCTGCAGGAAATCCGCAGTCTCCAGTCCGCCGAGATGAGCGGCTACCTGTTCCATGCCGGGATCGGCGGCGGAGCCAACATCCTGGAGGCCGAACGCAAGCTGTCCCAAGAGATGGACAAGCTGTATAAGCCTCGCGGGAAGGTACAGCAGACCGCCAAGCTGCTGCAGTCCATAGAGGATTTAAGAACCCGGGTTGCAGATAGCCGGGCTTACGTATCCCGCTATAACGAGGTCGTAAGCTCCATTCTGGATATAGAGCGCCGTTTAAACTTGCTGGAGCAGGAAGGTGCCAGGGCTGGCGAGGATTTATCGCTGCTTCGCAAAGCGCTGGAGATCCGTCCGGCTTGGCTGGAATGGCAAGAGGCCGGGGTGGAATTGAAGGACCTGATGGACAGCAGCCATTTTCCCCCGGATGGAATGCCCCGTTATGACAAGATGCTGGAGGAAGAGCGGGTCCTCCTTGCCCAGTCCATCCGCGTTGAGCAGGCGATCGAGGATGCGGAGGATAAGCTGGCGGCTCTACCCGTGAACGATTTCTTGGAACAATACGGCGAGCGGATTGAGGAGCTGTGGGCAAAACGAAGTCTACATGAAGCCGGGAACCGCGAGCTTGCCGAGCTAACGGCCGAATATAAAGCTCAGGAAAACCGGCTGGAGCAGCTGCTCCGGGATATCGATCCGGCATGGACCCGGCAAGAGCTGCTGTCGTTGCCGGTGTCCGCCTCAGACCGTGAGGAGGTACGGCGGATCGGTGCTGCCTTTGCCGGGTACGATCGCCGGATGGAGGCGCTGTTCATTGAACAGCGCGGGGCCCAGCGCTCGGCGGCTGCAGCCGAATCGGCGCTGCGGGAAGCAAGGCGGCAGCTGCGCGAGGAGTCGGAGAGGGGCCAGGAGGCCTTTGCGATGATTAAGCCTGCTGTGCCGCAGGAGACGGCTGCGTTGTGGAATCAGCTGCAGCTGGAAATCGAGCGTTGGCGCGAGCGCAGACTGTCCGGTGCCGGGCCCGTGCCTGCTTCGACACGCCGGCCGGGGAGAGGACGACTCCCCCGGATGTATGCGGGGCTGCTATCGGGCATGGCGGTCATGACGCTGCTGCTTGCAGCCGTGTTGTTATGGACGGGAGCCGCGGAAGCCGCCGTGGTCTCGGGCATCGTGATGCTGCTTGGTATGGGATATATCTACTGGGGCGCTCAACGCGGGCGCGAGATTCAGGATGAAGCTTCGGAAGGCACTTCCATGCTGGACGGTCAGGGAACGGAACATGTGGACCATCTTTACTCCAGTCTGGTCTCAGCTCCCTATGCCGCGGCAACAGGGAGCACGATTCCGGGCAGCCGAAGGGATCGAAGTGCTGCATTGACTCGTGACCCCCTCATGGTGGAGGCGAGAATGCGCGAGCTTCGGTCCGTGATGGAGGGCTGGCAAGCCTGGCGTCAGCGGCTCGATCGATTGACGTCTGATTGTGCGGCGGCTGAGGAGAAGTCTGCCCTGCAAGCAGCTGAATTAAAAACGATCCACGGCGCCATCGAGCAGGAAGAGAAGCGGTATTTGGAGCTGGAACGGCAGTGGGAGTCCTGGCTGATGTCCCGGTCACTCCCGCAGAGTCTGTCGCCTGACGTGATGCTGGATGTATTCGTGAAGGTTGAGCAGGGACAGGAGCTGATCCGGCAGCAAAAGTCGCTTGGTCTGAAAATGGATATCCTGTTAAGAGAGGCAGAGGATTATATCGTCCAATGCCATGAGATCACGGCGGCGGATCCAGATGCCGACTCTGACGGCAGCCGAAATCCGGGCGTGGCTGAACTTAGCGGCATCCATTCCCGATGGAAGGCGTACCAAGAGGATTCAAGGCAGCGTAAAGTCCTATCCGAGCGAATCCAGGAGCTGCGTAAAGAGGCGGCAGCGATGGAAGAGGAGCGGGAAGGGCTGCGGCAGCGCAAAGCGGCCTTAATCGCATCGTCCCGATCGGCGGACGAGGAAACCTTTCTTCGCATGGGAGCTGCTGCCAAGCGTCGGGAGGAGCTTGTCCGCACGATCCGCCATCATGAAATTACCATGTTCAGCGGGTGGGACGAGACGGGCCGCAGGCAGCTGGTGCAGCTGCTTGAGCTCACCGATGCTGCCGAGCTCGAAGCTCAGTGCGTCGAGAAGGAGGAGGCCGCATCGGCCGCGCACCGTCTTCGAGACGAGCTCCAGGAACGGCGCGGGCGGCTGCTTCAGGAGAGGGAGTCGCTGGAATCGGCGGGTAACCAGGATTCCGCCCTGCAGCAGCTCGAGGAGCACCGATCCGCCCTGCGGGAACTCGTGTCCCAATATGCGGTGCGTTCGATGGCCTCCGAGTTTATCAAACGCACTCGGCGCATGTATGAGGAAGAGAAACAGCCGCAGGTGCTGCAGCTGGCTTCCCGGTACTTCTCGATGCTGACCGGCGGTATGTACAGCCGGGTTGTGATGCGCCTGGGAGACCAGATCCTGCTGGCTGAACGCCCGACGGGTGAGCTGGTGGAGAGCAGCCGATTGAGCCGGGGAACGGCGGAGCAGCTATATTTGGCCATGCGGCTCGGTTTGATCCAATCGATGCCGCATGCGGCGGGGCTGCCGCTGCTGCTTGATGATCTGTTCGTTAATTTCGACGGCGATCGGCTGCGGCATGCGCTCGGGGCTATCTCGGAACTGTCCCGTAATCGGCAGGTTGTCATGATGACGTGTCATCGACATGTCGCCGAGCAGACGATGGAACTCATACCGGATGCACGGCTCATCCCGATGCAGCCATAA	MNIQGFGAVRDMSISIDAPVTVLYGPNEAGKSTVLHFISAMLYGFPGKGSPAERGEPSGEGVHGGELRFLDKEGIPWVVRRYNRSRDGDAASGKGERVHIHKQADNGLVIELGQQELEQYALGGVSRDMFRQLFAISLSELQEIRSLQSAEMSGYLFHAGIGGGANILEAERKLSQEMDKLYKPRGKVQQTAKLLQSIEDLRTRVADSRAYVSRYNEVVSSILDIERRLNLLEQEGARAGEDLSLLRKALEIRPAWLEWQEAGVELKDLMDSSHFPPDGMPRYDKMLEEERVLLAQSIRVEQAIEDAEDKLAALPVNDFLEQYGERIEELWAKRSLHEAGNRELAELTAEYKAQENRLEQLLRDIDPAWTRQELLSLPVSASDREEVRRIGAAFAGYDRRMEALFIEQRGAQRSAAAAESALREARRQLREESERGQEAFAMIKPAVPQETAALWNQLQLEIERWRERRLSGAGPVPASTRRPGRGRLPRMYAGLLSGMAVMTLLLAAVLLWTGAAEAAVVSGIVMLLGMGYIYWGAQRGREIQDEASEGTSMLDGQGTEHVDHLYSSLVSAPYAAATGSTIPGSRRDRSAALTRDPLMVEARMRELRSVMEGWQAWRQRLDRLTSDCAAAEEKSALQAAELKTIHGAIEQEEKRYLELERQWESWLMSRSLPQSLSPDVMLDVFVKVEQGQELIRQQKSLGLKMDILLREAEDYIVQCHEITAADPDADSDGSRNPGVAELSGIHSRWKAYQEDSRQRKVLSERIQELRKEAAAMEEEREGLRQRKAALIASSRSADEETFLRMGAAAKRREELVRTIRHHEITMFSGWDETGRRQLVQLLELTDAAELEAQCVEKEEAASAAHRLRDELQERRGRLLQERESLESAGNQDSALQQLEEHRSALRELVSQYAVRSMASEFIKRTRRMYEEEKQPQVLQLASRYFSMLTGGMYSRVVMRLGDQILLAERPTGELVESSRLSRGTAEQLYLAMRLGLIQSMPHAAGLPLLLDDLFVNFDGDRLRHALGAISELSRNRQVVMMTCHRHVAEQTMELIPDARLIPMQP				NA	NA	NA	NA	NA
AK002_04505	1308			hypothetical protein	ATGGCTTCTTTTCGATTTATTCACGCTGCTGATTTGCATCTGGACAGTCCGTTTATCGGAATCAGCGGACTCGATGAGGATCTGCGGTCCTTCGTTCAGGAATCGACCTTCCGTGCGCTGGAGCGGCTTGTGCAGCTCGCCATCGGGGAGCAGGTTGATTTTATCGTCATCAGCGGAGACGTCTACGACAGCTCCAACATTTCGCTGCGGGCCCAGCTTCGCTTCCTGGATTCCCTCAACCGCTTGGGGCGGGAAGGGATCGCGGTTTATGTGATTCACGGCAATCATGATCCGCTCGACAGCACGAAGCTGTCCATGACGCTTCCCTCCCATGTCCATGTCTTTGGGGCAGAGCCTGCAGCCGTAACGGCTGTTCGCCGTTCGGACCATCAAGAAGTGGCGGTCATCGCCGGCATGTCGTACCCGACCTCGAAGGTCACGGATAATATTGCGATCCGCTATCCTGCTCCCTCACCGGGGCTCTATCATATCGGACTTCTGCATGCGAACGTGGACGGAGATCCCCAGCACGAAACCTATGCTCCCTGTACGAAAAGGGAGCTGGTTCAGGCCGGGTTCCACTACTGGGCGCTGGGGCATATCCACTCCCGCCGCACCCTGCAGGAATCTCCTTATATTGTGTACCCGGGCAATATCCAGGGACGCCATGTCCGGGAGACGGGCCCGAAGGGATGTTATGTCGTCGATGTGGACGGCAGCTTCAACACGAAGCTCAGCTTCCATGAGCTCGATTCGATGCGATGGAACATCGTTGAAGCGCCTATCGATGCTTGCCGGGACGTCGACGAATGGCGACGCTCCCTGGAGTCCATCCTCACCGAAACAGCCAGAGCGAACGCGGATCGGCTAAGCATGATCCGCGTTCGGATTACGGGACGAAGTCCGGTTCATCGTCAGCTGGAGGGCGGATACGTGCTGGACGAGCTGCTGACCGATCTGCGGAGAAGAGAGGCCTCAAAGGGCAAGACATGCGGCTATCGGGGCTGCGTCTGGATCGAGAGCTTCTCGCTTCAATCCGGGGATGCGATCGATACGGAGAGGCTTCTGGCGGAGGACAGCTTTACGGGGGACTTGCTTCGTCTTATCCGGAAGGAGCAGGAACGAATTCATGATCCGGACGGGGTTGTTGCTAAGGGGTTGGAGCCTCTTATGGAACATGCGGAGATCCGCTCGTTGCTTGACGAGACGAGTCCGGAGGAAATGCTGGATTGGGTTCGCAGGGCGGAGGAGCTGACTTTAGGGTTATTGCTGCGAGGCCGTTCGCGGGAGGAAGGTGCCGGAAGATGA	MASFRFIHAADLHLDSPFIGISGLDEDLRSFVQESTFRALERLVQLAIGEQVDFIVISGDVYDSSNISLRAQLRFLDSLNRLGREGIAVYVIHGNHDPLDSTKLSMTLPSHVHVFGAEPAAVTAVRRSDHQEVAVIAGMSYPTSKVTDNIAIRYPAPSPGLYHIGLLHANVDGDPQHETYAPCTKRELVQAGFHYWALGHIHSRRTLQESPYIVYPGNIQGRHVRETGPKGCYVVDVDGSFNTKLSFHELDSMRWNIVEAPIDACRDVDEWRRSLESILTETARANADRLSMIRVRITGRSPVHRQLEGGYVLDELLTDLRRREASKGKTCGYRGCVWIESFSLQSGDAIDTERLLAEDSFTGDLLRLIRKEQERIHDPDGVVAKGLEPLMEHAEIRSLLDETSPEEMLDWVRRAEELTLGLLLRGRSREEGAGR				NA	NA	NA	NA	NA
AK002_04506	1137	mshA		D-inositol-3-phosphate glycosyltransferase	ATGAAACTTCTTCAGGCGTTATTCTTCCCTCCTGAACAGCCGGGCGGCGTCTCGTCCATGATTCCATATTTGCAGGAGCGCTTTCACTCCTCCCGCTGGGAGATGGAGATGTTCTGGCTGCCTAAGCGGATCCGCAACAAAGGCCAGGAGGATCCGGCATTCCACACGTTTGATTGGAGAGAGTTCGAAGGGAGCCCGATCGTGGCCAAATACCTTCAAACCTACCGGGATTATCTGTGGTGGACCCGTCTGCGCATTCAAAAGCCTTATGATCTTATCCATAGTCATCATCCGATCGCAGGCATGTCGATGAAAGCCGTATTCCCCGAGGTGCCGCTCATCCAAACCGTGCACTCCAGTTACGAGCGCGAGCTGATCCTCAACGGAAGAATCAAGGAGGGAGGGCTGGAACACAGGTTCCTGGTGTCTTTGTACAAGGAGCTAGAGCATATCAGCGACCGACTGCTGACCGTGTCGAACTCCTTCAAGGCGTATATGTCTCCCTACGTGAACACGCCCGAATCGATCGGCGTCATCCATAACGGATTCGATGATAAGAGATTCAAGCCCGTTCCCCATGAAAATGCGGTGCCTCAGCTGATTACGGTATGCCGTCTGGTGCCAGCAAAAGGATTGGATATTCTGCTCCAGGCCTGCGCGGAACTGAAACGGAAGGGATATGATTACGTCCTTCATATTATCGGCGACGGACCTTCCCGCCAGGAGCTCGAGGAGATGGCCAAAACGCTGGGCATCTACCAGGAGACGATTTTTTACGGCTACACGCTGCATCCGGAGGAGTTCATGCCGTTCTTTGACATCTTTGTCCTGCCTTCGAGAGCAGAGGCGTTCGGATCGGTGTTCGCGGAAGCGGCGCTCAGCTGTCTCGCCTTGGTAGGGACCGACGTCGGCGGCATCGCCGAGCAGATTGAGGACGGGGTCAACGGTTTGCTTGTACCGCCTGAAGATCCGATGGCGCTCAGCGTGGCGCTCGAGAAGGTCATCAGCGATCCGCTCTATCGTTACGAGCTAGCCCGGACCGCTTCGGATAAGGCAAAGAACCAATACTCCTTGTCCAGATCCGTGAACGAACTGAAAAAAATGTATTTAAAATTTCAACCCCAGATAGAGAGTTAG	MKLLQALFFPPEQPGGVSSMIPYLQERFHSSRWEMEMFWLPKRIRNKGQEDPAFHTFDWREFEGSPIVAKYLQTYRDYLWWTRLRIQKPYDLIHSHHPIAGMSMKAVFPEVPLIQTVHSSYERELILNGRIKEGGLEHRFLVSLYKELEHISDRLLTVSNSFKAYMSPYVNTPESIGVIHNGFDDKRFKPVPHENAVPQLITVCRLVPAKGLDILLQACAELKRKGYDYVLHIIGDGPSRQELEEMAKTLGIYQETIFYGYTLHPEEFMPFFDIFVLPSRAEAFGSVFAEAALSCLALVGTDVGGIAEQIEDGVNGLLVPPEDPMALSVALEKVISDPLYRYELARTASDKAKNQYSLSRSVNELKKMYLKFQPQIES	PGPT0019565_1107	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
AK002_04507	1164			hypothetical protein	TTGTCTTATGAATTGAACTACTGGTCCACTTCTCCACTACCCACCATATTTGCCGTATGCGGAGCTTATATCGCTCTCATGATGCTGATCATGTGTCTCTTTATGTACAGCAAGCAACGCAAGAATGCTTACATATATATGGCGGCAGCTTTCTTCTTCATTATGACATACGAGGGTCTGAACATCCATTCGGCATGGACGGGAAAACCTGTTTTCTCACCGGAGTCGGACGTTCTGCGTTTCATCCAGCTATTTTCGTTCGTTCTGCTGAACATCTCGGTTGTCATGCTGTACCGCAAAATCAAAACCATGCATTATTGGCTTCCCTTGTTGTCGGCCGCACTGCTTATGCTTCCATTCATGCTTCCCTCATTCCTTCCATACACCCTTGACCCGATATGGCAAAGCATATATTTTGACGTGCTGCAGCTCGCTGCGCTCTACCTGGCCTACACACAAGTGACCCCGCGGATCGGACAGCCGATCAAATACGCGCTCGGGCTTGCCGTTTACGTCATCTGGACGATTCTGCAAGCGGTACATACCTATTCCGGCAGCCTGTCGCCTGCGCTTCAGGGACTGGCGCTCGCGCTGCCTGTGCTCTTTTACAGCATCGTGTTCTTCATTCTGTTCAGGCGCATCGTGGAGCTGATGCAGTCCATTTACCGGTCCGCCATTACGGACGGATTAACCGGGCTTTACAACCGCAGGCACTTTATGAAGCATTTGGACCATTACGCGGCACAGGAGCTGAAGATATCCGCCATCTTCTGCGACATCGACAATTTCAAGAAGCTGAATGATACCCAGGGACACGCCAGAGCCGATGAAGTGCTGAAGCAGGTCGCCGCCATCATGGAGGAAGAGCTTGAAGGCATCGGAATTACGGGCCGGTATGGCGGCGAGGAATTGGTCGCCTTGGTCGTTGACCGCAAAGCCAAACCCGCGCAGGTCGCCGAGAAGATCCGAGCCCGAGTGGCGAGCGAGAGCATCGTAACCATCAGCATCGGATACAGCGTTCTGCGCAAAGGCGTTCGCGGCGATGAACTGATGAAACAGGCGGACAAAGCCATGTATCATTCCAAGACGACCGGCAAAAACAAGGTATCCGATTACCGGTCCCTCAAAACCTCATCCACCGAACCAACGGAATCCGCCGGATAA	MSYELNYWSTSPLPTIFAVCGAYIALMMLIMCLFMYSKQRKNAYIYMAAAFFFIMTYEGLNIHSAWTGKPVFSPESDVLRFIQLFSFVLLNISVVMLYRKIKTMHYWLPLLSAALLMLPFMLPSFLPYTLDPIWQSIYFDVLQLAALYLAYTQVTPRIGQPIKYALGLAVYVIWTILQAVHTYSGSLSPALQGLALALPVLFYSIVFFILFRRIVELMQSIYRSAITDGLTGLYNRRHFMKHLDHYAAQELKISAIFCDIDNFKKLNDTQGHARADEVLKQVAAIMEEELEGIGITGRYGGEELVALVVDRKAKPAQVAEKIRARVASESIVTISIGYSVLRKGVRGDELMKQADKAMYHSKTTGKNKVSDYRSLKTSSTEPTESAG	PGPT0015900_1360	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
AK002_04508	1389	rsmF_1	COG0144	Ribosomal RNA small subunit methyltransferase F	ATGGGAAAGGAACTATTGCCTGTCGGTTTCGTCACCAGCATAAACGAAATTCTTGGGGATGCCTCGTGTGACTTTTGGGACAGCTACGATTCGCCCCGCACCCATGGGCTGCGTCTTAACCGGCTGAAAGCGGTTCATGCCGCAGACAGCGTCAAAAAACTCATCCGGAACTTCCGGCTGACGCCTGTGCCCTGGTGTGATACCGGATACTATTATGATGAAAGCGTTCGTCCAGGCAAGCACCCTTATCATGCCGCCGGACTATATTATATTCAGGAGCCCTCGGCAATGTCCGCGGTGGAACTGCTGAATCCTCAGCCCGGGGAGACCATCCTGGATCTTGCAGCGGCTCCCGGCGGCAAGACAAGCCATATCGCCTCGAACATGATGGGCCGGGGACTGCTCGTCTCCAACGAGATCCACCCCGAACGGGCGCGCATTCTGGCCGAGAACGTGGAACGTATGGGAATTACGAATACCGTTGTTACGAGTGCGGCGCCGGATCAGCTATCCCGCCGTTTCGTTGCCTGCTTTGACCGGATCATGCTAGATGCGCCATGCTCCGGTGAAGGCATGTTTCGAAAGGATGCCGCTGCGATTGCCGAATGGTCGCCTGAACACGTGGATCTGTGCGTTGCGCGGCAGTGGGACATTGTCCAGGAGGCTTACCGGATGCTCAAGCCAGGCGGAACGTTGGCGTATTCCACCTGTACGTTCAACACGGCGGAAAATGAGGAGATGATCGAGCGCATTCTCTCGCAGTATCCCGATTTGGAACTGCAGCAAATGAAGCGCTTATGGCCACATTTGGAGCGGGGCGAGGGGCATTTTGTTGCCATCTTGGTCAAAACGCCGGCGGCCGAGGCTTACAGCGACGATCAAGAGACCTTTACTAACAGCGGTAAGGCTCAGGCCAAATCAAACCGGGGCGGCAAACAGGCTCCTGCGCTTTCCGCCCTGGCCGACTTTCAAGACTGGGCGAAACAGGACCTCCCCGGCTTTGAGCTTGGCGGCGGCACGCCGATATTGTTCGGCGAAGAATTATATTGGCTGCCGGTCAGCGAGAGCGTCCCTTGGCACGATAAGCAGCTGAAGGGGCTGAAGATGCCGCGCGCCGGCCTTCATCTGGCCCACCTGAAGAAGAATCGGATCGAGCCGACTCATGCCCTTGCCATGTCCTTGAACCCAGGCCAAGCCGCCAGAAGCTGGGATCTGCCTTCAGATTCTGCCGAAACGGCTGCTTATTTGCGGGGAGAGGTGCTCTCTATTCCTTCCGAATATCGGGGCTGGACTTTGGTGACTACGGACGGACTCCCCCTCGGCTGGGGCAAAGCCAGCGGCGGCCAGCTCAAGAATCACCTGCCCAAGGGCCTGCGCAATCCCAAGTAA	MGKELLPVGFVTSINEILGDASCDFWDSYDSPRTHGLRLNRLKAVHAADSVKKLIRNFRLTPVPWCDTGYYYDESVRPGKHPYHAAGLYYIQEPSAMSAVELLNPQPGETILDLAAAPGGKTSHIASNMMGRGLLVSNEIHPERARILAENVERMGITNTVVTSAAPDQLSRRFVACFDRIMLDAPCSGEGMFRKDAAAIAEWSPEHVDLCVARQWDIVQEAYRMLKPGGTLAYSTCTFNTAENEEMIERILSQYPDLELQQMKRLWPHLERGEGHFVAILVKTPAAEAYSDDQETFTNSGKAQAKSNRGGKQAPALSALADFQDWAKQDLPGFELGGGTPILFGEELYWLPVSESVPWHDKQLKGLKMPRAGLHLAHLKKNRIEPTHALAMSLNPGQAARSWDLPSDSAETAAYLRGEVLSIPSEYRGWTLVTTDGLPLGWGKASGGQLKNHLPKGLRNPK				NA	NA	NA	NA	NA
AK002_04509	1449	hsrA		putative transport protein HsrA	ATGAGCCATGGGCTGAATCCAAAAAAAGTAGTATGCATCGTCTATGTGGCCGCGATGTTTGTGGTTGCCATGGACGCCACCGTGCTGAACGTGGCGCTTCAGACGATCAGCAGGGAGCTTGAAGTGCCCCCTGCGGCTTCAGGCGTGCTGAATGTCGGTTATTTGGTCAGCTTGGCCATCGTTCTGCCGATGGCGGGCTGGCTTGGCGATACATGGGGAACGAAGCGTACGTTCCTCCTGGCACTGGGCCTTTTCACCGGAGCATCCGTATTGTGCAGCTTTGCAAACAGCTTGGCAGCGTTGACGCTTTTTCGCGTGATCCAAGGCATCGGCGGCGGCTTGCTGACCCCTGTCGGCATGGCGATGCTGTTCCGCATGTTCCCGCCGCAGGAGCGCGCGAAAATCTCTCGGGCGCTCATCCTGCCTATCGCGATTGCGCCTGCAATCGGCCCGGTTGTGAGCGGGCTGCTTCTTGAATATTTGACGTGGCGGTGGATCTTCTTCGTGAGCTTGCCGGTCGGCATTCCCGCTCTCGTGTTCGGTTTATTCTGGCTGAGTGAGCATCGGGAGCCGGATGCCGGCAAGCTGGACGTGCCGGGCCTGCTGCTGTCCGCACCGGGGCTTGCCCTGCTGATGTACGCTTTGAGCCAGGGGCCGCTGCACGGGTGGGACGCCCCGCAGGTATGGGGCGCCGGCCTGGCCGGCATCCTGCTGCTTACTGCTCTGGTGAAGGTGGAGCTAAGGACTGCGAAACCGCTGCTGGATTTGCGGCTGCTGGGCAATCGCTTGTTCCGAACGTCGGGTTTCATCGCGATGTGTGCATCAGCAGGTCTGCTGGGCATGCTCTACGTATTTCCCTTAATGTATCAGAACGCCCTCCACGTTTCCGCCTTGGATACGGGGCTGACGACGTTTCCCGAAGCCATCGGGCTGATGGTTGCCTCGCAGCTCGTACCCAGGACATATCCAAGGATGGGCCCTAGGCGAGTGATCATCATGGGATTTGCGGTTACCGCGCTGATTTTTATTATGCTCAGCATGGTGGACGCCGGGACGAATCCGTGGTTTATTCGGGCCCTGCTGTTTGGCGTCGGCATTTTCCTTGGTCAGACCGTGGGATCCGTTCAGATCGCTGCCTTCGCCACCATCCCGCCTGCTTCGATGGGGCGCGCTTCCACCTGGTTTACGGTGCAGAACAGGCTTGGTCCCGCCATAGGGCTGGCTGTTCTATCAGGCATCTTGGCTGTCGTTGGAACGGAGACCGTAAATGCGGCGGGGGAGATGGGGCCGAATCTGACGGCATATCGAGCAGCATTGCTTGGGGCCGCTGGCTTCCTGCTCATCGGTGCAGGCGCGGCGTTATGGATACGGGATGCCGATGCGGCGTCCACGATTCGCAAACCCGCCACAATACCAGCCAAGGAACAGGCGGCTCCAGCCGAGAAATAA	MSHGLNPKKVVCIVYVAAMFVVAMDATVLNVALQTISRELEVPPAASGVLNVGYLVSLAIVLPMAGWLGDTWGTKRTFLLALGLFTGASVLCSFANSLAALTLFRVIQGIGGGLLTPVGMAMLFRMFPPQERAKISRALILPIAIAPAIGPVVSGLLLEYLTWRWIFFVSLPVGIPALVFGLFWLSEHREPDAGKLDVPGLLLSAPGLALLMYALSQGPLHGWDAPQVWGAGLAGILLLTALVKVELRTAKPLLDLRLLGNRLFRTSGFIAMCASAGLLGMLYVFPLMYQNALHVSALDTGLTTFPEAIGLMVASQLVPRTYPRMGPRRVIIMGFAVTALIFIMLSMVDAGTNPWFIRALLFGVGIFLGQTVGSVQIAAFATIPPASMGRASTWFTVQNRLGPAIGLAVLSGILAVVGTETVNAAGEMGPNLTAYRAALLGAAGFLLIGAGAALWIRDADAASTIRKPATIPAKEQAAPAEK				NA	NA	NA	NA	NA
AK002_04510	228	mbtH	COG3251	Protein MbtH	ATGACCAATCCATTTGAGCAAGCCGACGGCAAGTTTCTTGTACTGATGAACCATGAGGGCCAATATTCGCTCTGGCCGGCGTTCGCGGCTATTCCGGCCGGCTGGAACCAGGTTCTGGGACTTAGCACGCGGGAGGAATGCGTCGCCTATATCAACGAGAACTGGGTCGATTTACGGCCGCGGAGCTTGTATGCCGATGCGGGAGCAAATCCGGAACCTGGACCATGA	MTNPFEQADGKFLVLMNHEGQYSLWPAFAAIPAGWNQVLGLSTREECVAYINENWVDLRPRSLYADAGANPEPGP	PGPT0003370_319	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-NOCARDICIN_A-D_METABOLISM,PGPT0003370-mbtH|nocI-K05375	NA	NA
AK002_04511	7230	dhbF	COG1020	Dimodular nonribosomal peptide synthase	ATGTTTGAGCAAAAGAGGGAGCGCTGGTCCCTGTCCGGAGCGCAGCTGGGAATTTGGTATGCCCAGCAGCTGGACCCCGACAATCCGATATTCAACACGGCAGAATGCATTGAGATTCGAGGACCTGTAGATCCGGTTCTCTTCGAGAAGGCTTTGCGCCAAGTGGTGGGGGAGGCCGATGCTCTGTTTGCCCGCTTCGGCGAAGATGCGGACGGTCCTTGGCAGTCGATCGAACCGTCTCCTGACTGGCCTCTATGCGTGATGGATGTCAGCGGGATGGAGGATCCTCATCTTGCTGCCCAAACCTGGATGGAGCATGACCTTGCCCAAGCTATCGATCTAAGCCGAGGACCGCTGTTTACGGAGGCGCTGTTCAAGCTCGCCGCCGATCGCTACTATTGGTACCAACGCATTCATCATATCGCGATCGACGGATTCGGCGTATCGCTTCTGCTGCAAAAAGTTTCCGAGGTCTACACGGACTTAACGGGCGGGGGCGCTTCCGGCATAGGCGCGTTCGGCAGGTTCCGGACGATCCTGGAAGAAGATGCGTCCTACCGTATGTCGCAGCAGCTCGGCTCGGATCGCCAATTCTGGCTGCAGCGCTTTGCCGATGAGCCGGAGGTGGTCAGCTTAGGGGGACAGGCACAGCGTTCGGCAAGGAGCTTCCTGCGCCGTTCGGCGCAGCTTCCGGCCTCTTCAATGCAACGCTTGCAGGCGGCAGCGCAAGCTGCAGGGACAAGCTGGCCGGATGTGATTGCGGCTGCCGCCGCTCTATATGTCCATCGTATAACAGGCGCCGAGGAGGTTGTGCTTGGATTGCCGGTGATGTGCCGCCTAGGCTCGTCATCCATCCGCATTCCGGGCATGGTCATGAATTTGCTGCCGCTCCGGGTGCGCGTTAGGCCCGATATGACCCTGATCGACCTGCTGCGGCAGGTCGCACGGGAGAACCGCGAAATCAAGCGGCATCAGCGGTACAGGCATCAGGACATCCGGCGTGATCTCAAGCTGCTTGCGGACAACCGCAGGTTATTCGGACCGCTCGTGAATGTGATGCCTTTTGCGGAGGAATTGAATGTTGGCGGTTTCCGAGGCAGCGTCCGCAATCTTGCGTCCGGTCCCGTGGATGATTTGACGATGAACGTGTACGGCGGATTGGGCGGGCACGGGCTGAGAATCGACATGGATGCCAATCCGATGATTTACGGCGCAGCGGAGTTAGAGTCCCATTTACAACGCTATTTGTATCTGCTGGACAGCCTTGCCGAAGCGGAGCCGAATGATCCCGTCGGGGGCTTGGTCTTTATTTTGCCGGACGAACGCGAGAAGGCGCTTGTTCGGTGGAACGATACGACCCGCGCGTTGCCGCAGCTGAGCGTACCGCAATTATTTGAGGAGCAGGCTGCGCGTACGCCGCAGGCGGAAGCGGTCATATGCGAAGGGTTATCCCTTTGTTACGAGGACCTGAACAGGCGGGCGAATCGCCTGGCCCGCTTGCTGATTGCCCGGGAAATAGGGCCTGAGCGAATCGTTGCTCTTTCGCTGCCACGGTCGGTGGATATGCTTGTTGCCATCCTCGCCGTGCATAAGGCCGGGGCGGCATACTTGCCATTGGATCCGGACTATCCGGATGAACGGATCGCTTATATGCTTGCCGATGCCAACCCGGCATGCTTGATAACGACCCGGCAGCTGTCTGAACATTTCGCGTCTGTCATGGAAGATAAGGGCGTAATCCTGTTGGATGCCCCGGCTACCCTTCAGCGATTGGAGCAGCAGGCCTTTCATAATCCTGTCGATGCTGATCGCGTACGTCCGCTGCTGCCGCTTCACCCGTCCTACGTTATTTATACTTCCGGATCAACCGGCCGACCCAAGGGGGTCATGCTCACGTTCGAAGGCCTAGCCAATCTGCTGTCGGATATGCGCGAACGTTTGGGCATCGGGGAGCGGGACCGCTGGCTGTCGGTCACCACGATGTCATTCGATATCTCGGTCATGGAGATGCTGCTGCCCCTGGCATGCGGTTCGACGCTCGACATCGTGATGCGGGATACCATTCTCGACGCAGCGGCGCTCATACGCCGAATTCGGGAGACGAGAACCACCATCATGCAGGCGACCCCGACGTTATGGCAGTCGATTGTCGCTTGCCGCCCAGGGAAATTTGAGCGTCTCAAAGTCATTACCGGGGGCGAGGCGCTGCCTGTCAGTCTTAAGCTTGCGCTTCAGGACCTGAACTGCGAAGTGAACAATCAATATGGTCCGACGGAGACAACGATTTATTCGACGGCGGCAAAACTCGATCAAGCACCAGAAAAGCCATCCATCGGAGGACCGCTGTGGAATACGAGACTGTATGTGCTCGATTCTTCGCTCTCACCGGTTCCGCCAGGCGTAACGGGCGAGCTGTATATTGCGGGCTTGGGGCTTGGCCGGGGGTACTTGGGAAGACCCGACTTGACGGCGGATCGGTTTGTCGCCGATCCTTACGGCCCCCCGGGCTCCCGGATGTATCGAACAGGCGACCTTGCCCGCTGGCAGGAGAACGGCTGGATCGATTATTTGGGACGCGCCGACCATCAGATCAAGCTGCGCGGCTTCCGGATCGAGACCGGCGAGATCGAGTCCGTGCTTGTGGCTCATCCGGCAGTGGAGCAGGCCTTTGTCATGGTTCGCGAGGATCGGGTCGGAGATCGCCGGCTTGTGGCTTATATCGTTCCGTCGTCAGACTGGCCACATCCCATCGATTCGGCAGATTTACGGAGTTATGCCGCAGAGAAACTGGCGGAGTATATGGTGCCGTCTGTCATCGCAGCCCTTGAAGCGCTGCCGCTCACGCCGAACAAGAAGGTGGATCGCAAAGCGCTTCCCGTGCCTGATGTCCGGCTGGCGGCCGGGCGTATGCCGCGAACGCCGCAAGAGGAGATGCTTTGCACGATTTTTGGTGAGGTGCTGGGCTTGCCGAGGGTTACCATCGACGATGATTTCTTCGAGCTTGGCGGTCATTCCCTGTTAGCCGGCCGGGTCATGGTCCGTATCCGGGAAGCATTCGGCGCAGAGCTAAGCATTGGCAGCCTGTTCGAAGCGTCAACGGCCGCGAGTCTCGTCAAACGGCTCGATCATGCGCAAGCAGCCAGAGAGGCCGTGCGTCCCGCGGCAAGATACGAGCGCTTGCCGTTGTCGTTTGCGCAGCAGCGGTTATGGTTTTTATATCGGTTGGAGGGTCCGAGCCCAACCTATAATATTCCTCTTGTGGCCCGTTTGTCGGGTGACCTCGATCTGGCATCGCTGCGTATGGCACTGTGGGATGTAGTGGCTCGGCATGAGTCGCTGCGCACGGTGTATCCTGAAAACGACGGGGCTTCGTATCAGCGCATTTTGGATGCCGAGAGGGCCCGGCCGGAGCTAATGGTAACCGAGATCCGCGAAGCGGAGCTTGCGGATCGATTGGCCGATGCCGTCAGGTACCGTTTCGAGCTTGCAGCCGAAACTTCCCTTCGGGCAGAGCTATTCAAGCTGGGCGATCAAGAGTTTGTCCTGCTGTTGCTGCTGCATCATATCGCTGGAGACGGCTGGTCGCTTATCCCGTTGGCGCGGGATCTAGCGGATGCCTACGCGGCAAGGTGCCTGGGGAGTGAGCCGACATGGACTCCGTTACCGGTACAATATGCGGATTATGCCATGTGGCAGCAGAAGCTGTTTGGCCGCTCGGGCGACGAGAACAGCCTGATGGATCGCCAGCTGGCATATTGGACCGAAGCGCTGTCCGGCTTGCCGGAGCAATTGGAGCTGCCTACCGACTTTTCACGGCCCGCCGTGGCCAGCTATCAGGGCGGCAGCGTGCCGTTTTCGATATCCCGTGAGCTGCATCTGCAGTTGAATGGGCTCGCGCAGAGCAACAGGGCGACGTTATTCATGGTATTTCAGTCCGCGATGGCTGCGCTGTTTACGAAGCTGGGTGCAGGTACGGACATTCCGATCGGTAGCCCCGTATCGGGTCGGAATGACGACAATCTGGATCATTTAATCGGTTTCTTCATCAATACCCTTGTGTTTCGCGTGGATACGTCGAACGATCCGACGTTCGATGAGCTGCTGCGACGGGTGCGGGAAAAGAGCTTGGCAGCCTTCGAGCATCAGGACGTGCCGTTCGAGCGGCTTGTCGAGACATTGAACCCTCCGCGTTCCCGGGCGAGACACCCACTCTTTCAAGTGATGCTGGTGCTGCAGAACACGCCGGAAACTTCGCTTGAGCTTCCGGGAATCAGCTCGAAGCTCCAGCTGCAAAGCGTGGGCACGGCGAAGTTCGACTTAACCTTCGAACTGACCGAGCGGCGGGATCAAAACGGCGAGCCGGCCGGAGTGGACGGCCTCATAGAATTCAGCTCGGATTTGTTCGAGCGCGGCACGGCGGAAGCGATGGCGGAACGATACGTGCGCGTATTGGAAAGTGCTGTCGTTGAACCAAGTAAATCCATCAGCAAACTGGATATTCTAACCGTGGATGAACGGGAGGATATTCGTCAACAATGGAGCGCGCCGCTGCCAGTCACCGAGCAGGCAACCTTGTCCGAGCGGTTTGAAGCGCAGGTCAGCCGCTCGCCTCAATCGGTCGCGATTGTCCATGACGGCCAGTCTCTGAGTTATGAGGAGCTGAACGAACGCGCCAACCGGCTTGCCCATTTCTTGATTGCCTCCGGCGTCGGTACGGAGCAGATCGTAGCTCTAGCACTGCCGCGTTCGGTGGATATGGTCGTCGGCATTCTGGCCGTGCTTAAAGCGGGAGCCGCTTACCTGCCTCTGGATCCGGAGTATCCGGAGGATCGATTGGCTTACATGATGGAGGATGCTTGTCCGGTATGCGTCATGACGAGCGTTCACGTGATGGATCAGCTGCCGAGTTTCGGACGATGGCTGCGCGTTGTCATCGATGGACCTGAAGAGGCTATGCAATGGCAGCGTTATTCCAAGGAGAATCCAAGCGACCGTGAGCGTCTTGGAGGGCTTATGCCGCAGAATGCCGCTTATATCATTTATACCTCCGGTTCCACCGGCAAACCGAAGGGCGTGCTGGTGCCGCATCAGAATGTCGTCAGGCTATTCGATTCCACCCGGCATTGGTTCCAGTTTAATGAAACCGATGTATGGACTTTATTCCATTCGTATGCCTTCGATTTCTCGGTGTGGGAAATATGGGGGCCGCTCTTGTCCGGCGGCCGGCTCGTCGTGGTTCCGCATACGGTCAGCCGTTCGCCTGAAGAGATGTTAGGCTTGCTGGTCCGGGAAGGCGTGACCGTGCTGAATCAGACGCCGTCGGCGTTCTATCCGTTGATTCAGGTGGATCGGGAGCAGCCGGAGACGGGGCGGCAGTTGTCGCTAAGGCACGTTGTGTTTGGAGGCGAAGCCTTGGAGCTTGGCCGGCTTACGGATTGGTATCGGCGCCATGCCGACGATGCCCCGCGTCTGATCAACATGTACGGCATAACGGAAACGACCGTGCATGTCAGCTACATGGAGCTGAACCGAAACCTGGCGCTGCCGGGAGCCGGCAGCCTGATCGGCGAAGCGATCCCGGATCTGCGGGTGTACGTGCTCGATGACCGGCTTCAGCCCGTTCCGTATGGCGTCATCGGGGAAATGTATGTCGCCGGCGCAGGATTGGCACGCGGGTACTGGGGACGTCCCGACCTTACCGCCGACCGGTTCGTGGCGGACCTATACGGCCCGCCGGGGACAAGAATGTACCGAACCGGCGATTTGGCGAGACGTTTTGCCGACGGCACGCTGGATTATTTGGGACGGTCCGACCATCAGGTGAAGATACGCGGCTTCCGGATCGAGCTTGGCGAAATCGAATCGGTCCTCGTGCGTCATGAGGCACTCTCGCAGGCGGCTGTCATCGTGCGTGAGGATCAGCCCGGAGACCAGCGGCTTGCGGCTTATGTCGTCGGCAATCCCGGCGAGTCGCCTTCGGGTACGGAGCTGCGCCGTTATGCCGCCTCGCTGCTTCCTGATTACATGGTTCCTTGGGCCTTCGTCATGATGGACAAGCTGCCGCTTACGCCTAACGGAAAGCTGGATCGCAAAGCGCTGCCGGCCCCCGATATGTCGCCGGATGCGGATGGGCGCAATCCGCGAACTCCGCAGGAGGAGGTGTTATGCGAGCTGTTTGCCGAAATACTCGGCGCCAAGCGGGTCGGCATCGATGACAGCTTCTTCGAGCTCGGCGGTCACTCTTTGTTGGCGGTCCGGCTCATCAGCCGGGTTCGCGAAGCGCTCGGCAAAGAATTGAGCATTGCAGCATTATTCGAAGCACCGACGGTAGCGGGGCTAGTCGACAAACTTGAGATGGGCGGCGGGAAAAGCGCGCTGCAGGTCGTGCTTCCGCTTCGGTCGCATGGAGATCAAACCCCGCTGTTCTGCGTGCATCCGGCAGGAGGATTAAGCTGGTGCTACGCCGGTTTGATGAAGCATCTCGGCATGAATTATCCGATTTACGGCTTGCAGGCAAGGGGCATTGCCCATCCGGAGGAGCTGCCGGGATCACTGGAAGTGATGACGGCAGACTACATCGGCCATATCCGCTCCCTACAGCCAGCGGGGCCATATCGGCTGCTCGGCTGGTCCTTGGGCGGCAATGTCGCTCAGTCGATTGCGGTACAGCTGCAGGAAGCGGGTGAAGACATTGAATTGCTCGCTATACTGGATGCTTATCCGAGCCATTATTTGCCGATCAAGGAGAAACCCGACGAAGACGAGGCTTTGACCGCGCTGCTGGCGCTTGGAGGCTTCGACAGGGAGAGCATTGAAGCGGGGCTTGGAGACGCGCCGTTAACCATTGCAGCTGCCCTTGAACTGCTGCGTAACGAGAGCAGCGCGCTCTCGTCCCTTGAGGAAGAAACGATCATGAATCTGAAGACGACCTATGAAAATTCGGTTCAACTGCTAAAGGCTTACGTTCCGAAGCGGTTTGAGGGAGATATGTTATTCTTCCACTCCACGATCATCCCGGATTGGTTTGACCCCATCGACCCGGAGATGTGGGAGCCTTACGTGGGCGGCACAATCGAGCGGCACGATATCGAATGCCGTCATAAGGATTTATGCCAGCCGGGACCTCTGGATGAGATCGGCAAGACTATTCTAAACAAGCTTGAAGAAATGGCATCTAAAACAGAGACGACGAGGGACAGGAGGGAACTGATCTATGACCAATCCATTTGA	MFEQKRERWSLSGAQLGIWYAQQLDPDNPIFNTAECIEIRGPVDPVLFEKALRQVVGEADALFARFGEDADGPWQSIEPSPDWPLCVMDVSGMEDPHLAAQTWMEHDLAQAIDLSRGPLFTEALFKLAADRYYWYQRIHHIAIDGFGVSLLLQKVSEVYTDLTGGGASGIGAFGRFRTILEEDASYRMSQQLGSDRQFWLQRFADEPEVVSLGGQAQRSARSFLRRSAQLPASSMQRLQAAAQAAGTSWPDVIAAAAALYVHRITGAEEVVLGLPVMCRLGSSSIRIPGMVMNLLPLRVRVRPDMTLIDLLRQVARENREIKRHQRYRHQDIRRDLKLLADNRRLFGPLVNVMPFAEELNVGGFRGSVRNLASGPVDDLTMNVYGGLGGHGLRIDMDANPMIYGAAELESHLQRYLYLLDSLAEAEPNDPVGGLVFILPDEREKALVRWNDTTRALPQLSVPQLFEEQAARTPQAEAVICEGLSLCYEDLNRRANRLARLLIAREIGPERIVALSLPRSVDMLVAILAVHKAGAAYLPLDPDYPDERIAYMLADANPACLITTRQLSEHFASVMEDKGVILLDAPATLQRLEQQAFHNPVDADRVRPLLPLHPSYVIYTSGSTGRPKGVMLTFEGLANLLSDMRERLGIGERDRWLSVTTMSFDISVMEMLLPLACGSTLDIVMRDTILDAAALIRRIRETRTTIMQATPTLWQSIVACRPGKFERLKVITGGEALPVSLKLALQDLNCEVNNQYGPTETTIYSTAAKLDQAPEKPSIGGPLWNTRLYVLDSSLSPVPPGVTGELYIAGLGLGRGYLGRPDLTADRFVADPYGPPGSRMYRTGDLARWQENGWIDYLGRADHQIKLRGFRIETGEIESVLVAHPAVEQAFVMVREDRVGDRRLVAYIVPSSDWPHPIDSADLRSYAAEKLAEYMVPSVIAALEALPLTPNKKVDRKALPVPDVRLAAGRMPRTPQEEMLCTIFGEVLGLPRVTIDDDFFELGGHSLLAGRVMVRIREAFGAELSIGSLFEASTAASLVKRLDHAQAAREAVRPAARYERLPLSFAQQRLWFLYRLEGPSPTYNIPLVARLSGDLDLASLRMALWDVVARHESLRTVYPENDGASYQRILDAERARPELMVTEIREAELADRLADAVRYRFELAAETSLRAELFKLGDQEFVLLLLLHHIAGDGWSLIPLARDLADAYAARCLGSEPTWTPLPVQYADYAMWQQKLFGRSGDENSLMDRQLAYWTEALSGLPEQLELPTDFSRPAVASYQGGSVPFSISRELHLQLNGLAQSNRATLFMVFQSAMAALFTKLGAGTDIPIGSPVSGRNDDNLDHLIGFFINTLVFRVDTSNDPTFDELLRRVREKSLAAFEHQDVPFERLVETLNPPRSRARHPLFQVMLVLQNTPETSLELPGISSKLQLQSVGTAKFDLTFELTERRDQNGEPAGVDGLIEFSSDLFERGTAEAMAERYVRVLESAVVEPSKSISKLDILTVDEREDIRQQWSAPLPVTEQATLSERFEAQVSRSPQSVAIVHDGQSLSYEELNERANRLAHFLIASGVGTEQIVALALPRSVDMVVGILAVLKAGAAYLPLDPEYPEDRLAYMMEDACPVCVMTSVHVMDQLPSFGRWLRVVIDGPEEAMQWQRYSKENPSDRERLGGLMPQNAAYIIYTSGSTGKPKGVLVPHQNVVRLFDSTRHWFQFNETDVWTLFHSYAFDFSVWEIWGPLLSGGRLVVVPHTVSRSPEEMLGLLVREGVTVLNQTPSAFYPLIQVDREQPETGRQLSLRHVVFGGEALELGRLTDWYRRHADDAPRLINMYGITETTVHVSYMELNRNLALPGAGSLIGEAIPDLRVYVLDDRLQPVPYGVIGEMYVAGAGLARGYWGRPDLTADRFVADLYGPPGTRMYRTGDLARRFADGTLDYLGRSDHQVKIRGFRIELGEIESVLVRHEALSQAAVIVREDQPGDQRLAAYVVGNPGESPSGTELRRYAASLLPDYMVPWAFVMMDKLPLTPNGKLDRKALPAPDMSPDADGRNPRTPQEEVLCELFAEILGAKRVGIDDSFFELGGHSLLAVRLISRVREALGKELSIAALFEAPTVAGLVDKLEMGGGKSALQVVLPLRSHGDQTPLFCVHPAGGLSWCYAGLMKHLGMNYPIYGLQARGIAHPEELPGSLEVMTADYIGHIRSLQPAGPYRLLGWSLGGNVAQSIAVQLQEAGEDIELLAILDAYPSHYLPIKEKPDEDEALTALLALGGFDRESIEAGLGDAPLTIAAALELLRNESSALSSLEEETIMNLKTTYENSVQLLKAYVPKRFEGDMLFFHSTIIPDWFDPIDPEMWEPYVGGTIERHDIECRHKDLCQPGPLDEIGKTILNKLEEMASKTETTRDRRELIYDQSI	PGPT0003165_20	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003165-dhbF-K04780	NA	NA
AK002_04512	984	dhbB	COG1535	Isochorismatase	ATGGCACTTCCTAAGATTTTACCTTATCCCATGCCAGGGGAGACCGACCTGCCCAAGAACAAGGTAGCATGGACGGCGGATCCGAACCGTGCCGTGCTGCTCATCCACGATATGCAGCAATATTTCATCGACGCGTTCACGCCTGATCAATCGCCGGTCGTGGAACTGATCGCCCATATTCAGAAGCTGCGTTCCTGCTGCGCGGAGCTTGGCATTCCCGTGATCTATTCGGCCCAGCCCGGGGGCCAGGCACCGGAGCAGCGCGGCCTGCTGCAGGATTTCTGGGGATCCGGCATCAACGACGGTCCCTACCAGAAAAAGTTCGTGGACGCGGTAGCGCCGTCGGAACGGGATATGCTGTTGACCAAATGGAGGTACAGCGCCTTCCAGAAGACCGATCTCCATGAAATCATGCGCGAGCTAGGCCGCGACCAGCTTATGATCTGCGGGATCTATGCTCATATCGGCTGTCTGTTGACCGCCGGCGAAGCTTTCATGAAAGACATACAGCCGTTCTTCATTGCGGATGCCCTTGCGGATTTCTCGTTAGAGAAGCACCGCCTGGCACTTGTTTATGCAGCGGAACGCTGCGCCGTTACGCTGACCACGGAACGTCTGATCGCTTCGCTGACGCCGGCGCATCACCCCGTCTCGGGTCGTTCCGAAGCTCCAAGCGGAGAGGGAAGACCCGCAGATGCTGAGGAGGAGCAATCGCCGCTGACGCTGCAAACGTTGCGAGAGAACGTAGCGGAAATGCTGCAGGAACGGCCGTCGAGCATCGGCGAGGATGACCATTTGATTGAATACTGGGGACTGGATTCCATTCGCATCATGAGTTTGGCCGAGCGCTTCCGGCGCGAGGGCTTGGATATCAGCTTTGTGGAGTTGGCCGAGCAGCCGACACTGGCAGGCTGGTGGGGATTGCTGTCGGACAGGCAGAACGTGCGCGTGTCACCGCCCAATTATGATTACTATACGGTGTAA	MALPKILPYPMPGETDLPKNKVAWTADPNRAVLLIHDMQQYFIDAFTPDQSPVVELIAHIQKLRSCCAELGIPVIYSAQPGGQAPEQRGLLQDFWGSGINDGPYQKKFVDAVAPSERDMLLTKWRYSAFQKTDLHEIMRELGRDQLMICGIYAHIGCLLTAGEAFMKDIQPFFIADALADFSLEKHRLALVYAAERCAVTLTTERLIASLTPAHHPVSGRSEAPSGEGRPADAEEEQSPLTLQTLRENVAEMLQERPSSIGEDDHLIEYWGLDSIRIMSLAERFRREGLDISFVELAEQPTLAGWWGLLSDRQNVRVSPPNYDYYTV	PGPT0003215_10	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-ENTEROBACTIN|ENTEROCHELIN|BACILLIBACTIN|VANCHROBACTIN|ACINETOBACTIN|CHRYSOBACTIN_METABOLISM,PGPT0003215-entB|vibB|viuB|vabB|angB|dhbB|basF|cbsB|aebB-K01252	NA	NA
AK002_04513	1653	dhbE	COG1021	2,3-dihydroxybenzoate-AMP ligase	ATGTTGGCAGGTTGTAAGGCTTGGCCGGAGGAATTTGCGGCCCGCTACCGGGAGGCAGGCTGCTGGCAGGGCGAAACCTTTGGAGAGCTCTTGCGGAAACAGGCTGCAGCGCATGGGGAACGGGTTGCGGTCGTGTGCGGCGACCGGCACGTAAGCTACGCCGAGCTGGACAACCGGGTGGATCGATTGGCCGCGGGATTTCTTAAGCTCGGCATCAAGGCACGGGAACGGGTTATCGTTCAGCTGCCGAATATCGCTTCATTTTTCGATACGATATTCGCGCTGTTCCGCATCGGGGCGCTTCCCGTCTTCGCTCTGCCCGTTCACCGCCGGAACGAAATCGTATATCTATGCGGCTTTAGCGAAGCCGCCGCGTATATCATTCCCGATATGGAATCGGGCTTCGACTATCGCGACCTGGCGGCTCAGGTTCAGGCATCGGTCCCTTCCCTCCGCCATGTCATCGTAGCCGGCGACCCGGGTCCGGGGGCGTTCGTATCCCTGGACGATTTGTACCTCGATGATTCGGAGTGCTCTTCGTACGGATCAGACGCGGAAGGCCCTGATCCCGGTGATGTCGCGTTTCTCCAGCTGTCGGGCGGGACGACCGGACTGCCGAAGCTCATTCCGCGCACGCATGACGACTATATGTACAGCTTGCGCATGAGCGCCGAAATCTGCTCGCTGGATAAGGATAGCGTTTATTTGGCGGTACTGCCCGTCGCGCATAATTTCCCGCTCAGCTCGCCGGGCGTGCTCGGGACGCTGTATGCCGGAGGCAGGGTTGTTCTTGCCCGGTCAGCGAGTCCGGATGCGGCATTTCCGCTGATCGCTTCCGAGGGCGTCACGATAGCGGCGGTCGTTCCGCCTCTGGCCATGATTTGGCTTGAAGCGGCACCATCCCGTACCGAAGACCTCTCCAATCTGCAGGTGCTGCAGGTAGGCGGGGCCAAATTCAGTGCGGAGGCGGCCCAACGCGTGCAAACGGTGCTGGGATGCAAGCTGCAGCAAGTGTACGGGATGGCGGAAGGCTTGGTGAACTATACCCGGCTGGATGACCCCGAAGACATAACGGTGCATACGCAGGGACGGCCCATGTCCCCTTACGATGAAGTGAAGCTGGTCGATGAGGATGATGTCGTGGTAGCCCCCGGCGAAGTCGGGGAATTGCTGACACGGGGGCCTTATACGATTCGCGGCTACTATAAAGCGGACAAGCATAACGAAAAGGCTTTTACCACGGACGGCTTCTATCGCACAGGTGACCTTGCCAGCATGACGCCTTCAGGTTATCTGGTGATCCAAGGCCGTTCCAAGGATCAAATTAACCGAGGGGGGGACAAGGTTGCGGCCGAAGAGGTGGAGAACCATCTGCTTGCCCATCCCAGCGTGCACGATGCTGCCGTGGTCGCCATGCCGGACGAGTATCTGGGTGAGCGGACCTGCGCCTTCGTTATCGTTCATCATGGCGCGGTTAGCGGCAATGAGCTGAAGGCGTTTCTCAGAAATAGAGGGCTCGCTGCGTACAAAATCCCGGATCGGGTGGAATTTATGGATTCCTTCCCCCACACGGGTGTCGGCAAAGTAAGCAAAAAGCAGCTGCGGGAGCTCGCGGCTCAGAATCAGGACGCACGGCTGAATCTTTCCAAATAA	MLAGCKAWPEEFAARYREAGCWQGETFGELLRKQAAAHGERVAVVCGDRHVSYAELDNRVDRLAAGFLKLGIKARERVIVQLPNIASFFDTIFALFRIGALPVFALPVHRRNEIVYLCGFSEAAAYIIPDMESGFDYRDLAAQVQASVPSLRHVIVAGDPGPGAFVSLDDLYLDDSECSSYGSDAEGPDPGDVAFLQLSGGTTGLPKLIPRTHDDYMYSLRMSAEICSLDKDSVYLAVLPVAHNFPLSSPGVLGTLYAGGRVVLARSASPDAAFPLIASEGVTIAAVVPPLAMIWLEAAPSRTEDLSNLQVLQVGGAKFSAEAAQRVQTVLGCKLQQVYGMAEGLVNYTRLDDPEDITVHTQGRPMSPYDEVKLVDEDDVVVAPGEVGELLTRGPYTIRGYYKADKHNEKAFTTDGFYRTGDLASMTPSGYLVIQGRSKDQINRGGDKVAAEEVENHLLAHPSVHDAAVVAMPDEYLGERTCAFVIVHHGAVSGNELKAFLRNRGLAAYKIPDRVEFMDSFPHTGVGKVSKKQLRELAAQNQDARLNLSK	PGPT0003270_168	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_AQUIRED_RESISTANCE|SAR	SAR-SALICYLIC_ACID_METABOLISM	SAR-SALICYLIC_ACID_BIOSYNTHESIS,PGPT0003270-entE|psmE|dhbE|basE|angE|aebE-K02363	NA	NA
AK002_04514	1245	dhbC	COG1169	Isochorismate synthase DhbC	ATGTTACACTATGATGCTCCAACCGCAGCGGAGGCTGCGCAACTTATGGAACAATACCAGGTCGGTTCGTCTTTCTTCTTCTCATCACCTCGCAAGACGCTGTTGACGCATGGAGAGTATTCCAGATTGCCGGTTTCCTCGGGGACCGGGCACAGAACGCTGCCGGAACGCGTCCGTGAATTGCTGGAATACGCAAAGCAAGCGGGACGGCCGGATGCCGTTGTTGTTGGCGCCATACCTTTTGACATTCGAAAACCGGCCAGTCTGTTTATTCCGCTTTCGGCCCAGTGGCACGATTCCCTTCTATTCTCTGAAGGCAAGGATCCGGAAATGCCCCGAATTTCCAGTTACAAGGTGCTTTCCGTTCCGGAGCCGCCGGCGTTCGAGAAAGGCGTGAACCGGCTGCTGGACCTCATTTCTCAAAAGAAACTCCATAAAGCGGTGCTTTCCCGAACGCTGGATATCACGCTTCCTCATGCCCTGTCCATTCCACAGATATTGACTCATTTAGCTTATCATCACTCCCATGGCTATACGTTTGCCGTACCGTTGGCACCCGAATCGTCCCACACTTCAAGCCCGGATGCCGTTGCATCCACCCGGACGCTGTTTGGCGCAAGCCCCGAGCTCTTAATTACGAAGAAGGGTTCGCGAATCAAAGGAAATCCATTGGCGGGCTCTGCGGCACGAAGCGCCGATCCCGCTGAAGATCAGCGGCGGGCGGCAGCCCTGCTGTCATCCGCCAAAGACCGATATGAGCATGCCATCGTGATCGATGCCGTGGCATCGGCCTTGCAGCCTTATTGCAGCAAGCTGGAGGTTCCCGCCGAACCTTCGCTCGTACAGACCAAAGCCATGTGGCATCTATCCACCGAAATCAACGGCGTCCTGAAGGATGAATCGGTATCGTCATTGGAGCTTGCCCTGTCCATGCACCCGACGCCGGCAATCTGCGGCACGCCGACCGATGCGGCCCGGGATGCCATACAAGAGATCGAGCCGTTCGATCGCGGCTTCTACTCGGGAGCCGTCGGTTGGTCGGATGCCAACGGGGATGGGGAGTGGGCGGTGACGATTCGCTGCGCGGAAACGGAAGGAACTTTATTGCGGGTGTTCGCAGGCGCAGGAATCGTGACCGGTTCCATAGCGGAGGCGGAGCTGGCCGAGACTTCGGCCAAATTCCGCACGATTCTGGCCGCGATGGGCTTGAATGAACAACAAACAACGATGTTGGAGGAGGAATGA	MLHYDAPTAAEAAQLMEQYQVGSSFFFSSPRKTLLTHGEYSRLPVSSGTGHRTLPERVRELLEYAKQAGRPDAVVVGAIPFDIRKPASLFIPLSAQWHDSLLFSEGKDPEMPRISSYKVLSVPEPPAFEKGVNRLLDLISQKKLHKAVLSRTLDITLPHALSIPQILTHLAYHHSHGYTFAVPLAPESSHTSSPDAVASTRTLFGASPELLITKKGSRIKGNPLAGSAARSADPAEDQRRAAALLSSAKDRYEHAIVIDAVASALQPYCSKLEVPAEPSLVQTKAMWHLSTEINGVLKDESVSSLELALSMHPTPAICGTPTDAARDAIQEIEPFDRGFYSGAVGWSDANGDGEWAVTIRCAETEGTLLRVFAGAGIVTGSIAEAELAETSAKFRTILAAMGLNEQQTTMLEEE	PGPT0003220_56	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
AK002_04515	786	dhbA	COG1028	2,3-dihydro-2,3-dihydroxybenzoate dehydrogenase	ATGGAGAGCACAGGCATTAGAGGGAAAGTAGCACTCGTGACCGGTGCCGCCCAAGGAATAGGCGAAGCGGTGGCACGGGCCCTTGCCCGGCAAGGAGCCGTTGTAGCCGCCTGCGACCGGAAGGAAGACGAGCTGCTCCGCCTTGCGGCCGACCTATCCGGCTCAGGCGCTCATGCCGCGGCTTACAAGGCGGATGTGAGCCGCAGTGCCGAGGTTGAAGCGATGGTCGAACGGGTTGAGGATGAGCTCGGACCGATCGAGATTCTCGTCAACGTTGCGGGAGTGCTGCGGGTCGGCGGGGTCGAGTCGCTTACAGACGAGGATTGGCAGGCCCACTTCAACGTCAATACCCACGGCGTATTCTACACGTCACGCTCCGTCGTGAGACGCATGGCGAGCCGTCATTCCGGAGCTATCGTGACGGTAGGCTCGAATGCGTCCAAGGTTCCGCGGTCCCAGATGTCGGCCTATGCCGCCTCCAAGGCGGCGTCCACGATGTTTACGAAATGCCTGGGGCTCGAATATGCACGCCACCATATCCGTTGTAACGTGGTTTCCCCGGGCTCTACGGACACAGAAATGCAGCGTTTGTTATGGATGGATGATCAAGGTGCAAGGCCCATTATCGAGGGGGCGCCGGACTCCTTCCGCCTCGGCATACCGCTTGGCAAAATCGCGCTCCCTTCGGACATTGCGGATGCGGTCATTTTCCTCGTATCCGATCGGGCCGGGCACATGACGATGCAGGACGTATGCGTGGATGGCGGCGCGACGTTGGGATGCTGA	MESTGIRGKVALVTGAAQGIGEAVARALARQGAVVAACDRKEDELLRLAADLSGSGAHAAAYKADVSRSAEVEAMVERVEDELGPIEILVNVAGVLRVGGVESLTDEDWQAHFNVNTHGVFYTSRSVVRRMASRHSGAIVTVGSNASKVPRSQMSAYAASKAASTMFTKCLGLEYARHHIRCNVVSPGSTDTEMQRLLWMDDQGARPIIEGAPDSFRLGIPLGKIALPSDIADAVIFLVSDRAGHMTMQDVCVDGGATLGC	PGPT0003210_143	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-SIDEROPHORES	ISR-ENTEROBACTIN|ENTEROCHELIN,PGPT0003210-entA|vibA|viuA|vabA|angA|dhbA|cbsA|aebA-K00216	NA	NA
AK002_04516	873	besA	COG2819	Ferri-bacillibactin esterase BesA	ATGAGCCATCATACGACTTCCGTAGACATGATGAGGCACAGCGTGGTGCTGGCCCGTGCGGAGCATTGGGTGATGCACTCGAGGGGCGGGCGCAGCTATCGAATCATAACGGCACAGCCGACGGGACCGGCTCCGCCGTCCGGATATCCGGTCATCTATTTACTGGACGGGAACAGCGTGTTTCACACGATGGTCGAGACGCTGCGCCTGCAGTGCCACAGGCCGGACAAAACCGGGATATTGCCGGCTGTCGTTGTAGGCATCGGTTACGAGACGGATGGGCAGTATGCTTCGGACCGGTTCTATGATTACACGCCCTATCCAAACACGAAGTTCAGAAACAAGCTGGACGGGGATTCCGTGCCGGAGCAGGGGGGAGCGGCTGAGTTTCTGCAATTCATCGAGGAGGAGCTGAAACCGCAGATCAAGGGCGAGTTCAACATTGACCGGCATCGCCAGACGATATTCGGCCATTCCCTCGGCGGGCTGTTCACGCTCTATGCCATGTTCAGCAAACCGCAGGCGTTCTCGTGTTACATCGCCGGCAGCCCTTCTATTCACTGGAATTCGGAGTGTTTACGCGAGCTGGAGCAGCGCTATGCCGATCAGGTCAAGGAAAAACCTTATCCTGTCCGGCTGCTGCTTGGCGCAGGAGAGCTCGAAAGGCCCCATGTCACCGGCAATTGCATCCGTGCATCTGAGCTCGCCGAACGTCTGGCTGTACTGTCCGAGTATGGCATGCATGCCGAATTCAAGGAGTTTGAGGGGGAAGGGCATCTATCCGTGCTGCCGGTCCTCATCAGCAGAGCATTACGGTTTGCCCTTCATCCTGTACAGGAAGGAGATGATCACCATGGAGAGCACAGGCATTAG	MSHHTTSVDMMRHSVVLARAEHWVMHSRGGRSYRIITAQPTGPAPPSGYPVIYLLDGNSVFHTMVETLRLQCHRPDKTGILPAVVVGIGYETDGQYASDRFYDYTPYPNTKFRNKLDGDSVPEQGGAAEFLQFIEEELKPQIKGEFNIDRHRQTIFGHSLGGLFTLYAMFSKPQAFSCYIAGSPSIHWNSECLRELEQRYADQVKEKPYPVRLLLGAGELERPHVTGNCIRASELAERLAVLSEYGMHAEFKEFEGEGHLSVLPVLISRALRFALHPVQEGDDHHGEHRH				NA	NA	NA	NA	NA
AK002_04517	1071			hypothetical protein	GTGGCAAAACGTTTCAATCGTGGAAAGAGAATTTGGAGGATCAATATAGCTGCACTTGCGTGGTTTGCCGTCATCATAGGCTTGCTGTCAGGCTGTGGGGATAAGGCGGAGACCGAAGCGTCCGGTGGCGATCAGGAGGCAGTGAAGACCGCAGCGGTGGAGACGTCCGGCAAAGCAGGGAGCAGCCAAGCGTCGACGGAGGAACCAGGGACGAACCGTGAGGAGACGTCCACGAAGGAGGAACGTACGGTAACGGATGAGCTTGGGCACGAAGTGAAGATTCCGGCTGAGGTGAACAAGGTGTTTGCGCCGAACATGGAAGATTCCTTGCTGAAGCTCGGCGTGAAGCCCGTTGCCCAATGGGCCAACGGCAAGCTGGGGCACTCTTATTTGCAGGAGGAGCTGGAGGGCATTCCCCTGATCGATTTTTCGGGAGGCTTGCCTTCGCCGGAGGCCCTGATGTCCTACGAACCGGATCTTATCGTGCTTCACACGGAGACTTACGCGGCGGACGGCACCTATGAGAAATACGCCAAAATCGCGCCGACGTACGTGTTCAAAAATGCTTCCGGGAATGTCGAGAAATCGCTGACCACCCTGGGCGATCTGCTTGGGAAGGCGCCGGAGGCAGAGACCGCCTTGAAAAATTATCAGCAAAAAGCAAGCGAAGCGAAGGCGAAGCTGAGTTCCGTTGTAGGGGACAAGAACGTGGCCATTATCCGATTCGCACCCAGAGGAGTCAGTTTAATGGGCGGAAATTACCTGTGCGGATATGTCATCCATCAGGACCTGGGACTAGGCAAGTCCAAGCTGGTTGAGAATGAAAATGCAGCTAACATATCTCTGGAAATACTCCCGCAGCTCGATGCGGACTATATATTCGTCATCAACGCCTATGATCAAGGAACGGAACGCATGAAGGAAATGACGGAAAGCCCGATCTGGAAAGGCATGCCCGCGGTCAAGAGCGGTCAGGTCTATGAAGCCGATAACGAATACTGGCTGGGAAGCGGCCTGATCGCTTACGAGAAAATCGTGGATGACGTCGTTCGCTCCATTACGGGGCAATAG	MAKRFNRGKRIWRINIAALAWFAVIIGLLSGCGDKAETEASGGDQEAVKTAAVETSGKAGSSQASTEEPGTNREETSTKEERTVTDELGHEVKIPAEVNKVFAPNMEDSLLKLGVKPVAQWANGKLGHSYLQEELEGIPLIDFSGGLPSPEALMSYEPDLIVLHTETYAADGTYEKYAKIAPTYVFKNASGNVEKSLTTLGDLLGKAPEAETALKNYQQKASEAKAKLSSVVGDKNVAIIRFAPRGVSLMGGNYLCGYVIHQDLGLGKSKLVENENAANISLEILPQLDADYIFVINAYDQGTERMKEMTESPIWKGMPAVKSGQVYEADNEYWLGSGLIAYEKIVDDVVRSITGQ	PGPT0003765_2534	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
AK002_04518	1215	btr_3	COG0614	HTH-type transcriptional activator Btr	ATGCATACGGAAGAAGAGCTGATCATAGATAGCGCATCGGATTCGGATCGCAGCGGAAAAACCAGCCTGGTGGAGATCAAGGAGTACATCGACAGCCACTATCACGAGGCGTTGACCATTGGCCGACTGGCCGGAATGGCTAATATCTGCCCCAAGTATTTCGTGGACCTGTTCAAGAAGACATTCGGCCAGACCACGATTGATTACCTGACGCATGTTCGCATGAATCACGCCAAGCGTTACTTGGCCGAATCGGACGACCGGCTTCGGGATATCGCACAGAAGGTTGGTTATAAGGACGAGTTTTATTTCAGCCGGATATTTAAAAAGAAGGTGGGCATGTCGCCGTCGGAATATGCCCGAAATTCGAGGCAGCTGATCGCGGCCTGTTCTTCTTCGATCATCGGGCAGCTGGTGGCGCTGAACGTCATTCCAGCCGCCGCGCCGCTTGATGCGAAGTGGACCCCGTTTTATTACAATGCCTACAATTCGGAGATCAAGTCCCGCTTGAAATTGACGAGCCCTTATCCGGACAGCCGCTTTGAGGAGAATATCGAGCAGCTGTTCCGCGCCAAACCCGACGTCATTATCGGCATGGATCACCTTAGTGAAGAGGAAATCGCCAAGCTGGAGCCTATCGCCCCCACTTTCATTGTTCCGTCCCATGCAGGGTGGAAGAAGCAGCTGGAGCTGATCGCGGCATTCCTGAACAAGGAAGAACAAGCACAGTTCTGGATCGGACAGTATGAGCGGAAAGTGGCGCAGGCACGCTCGCGAATGCAGGAAGTGGTGGGGAATGATCGTGTTGCCGCGCTGCGGATATATGGGCAAAACCTCTATTCCTACGGTAACCGGGGGCTTGAGGAAGTGCTGTTTCAGGATTTGCAGCTCAAGGGAGCTTACCGATTTGATTCCAGCCGGAATCAGCAGATAACGATGGATGATTTACAGCAGTGCGATCCGGACCGGATTCTGATCGCGGTATGCCCGGAAGCCGCATCGCGGCGCTATTGGCTCGCGCTCCAGCATTCCGCCGAGTGGCATAGGCTTCGAGCCGTCGCTCAAGGAAGGGTCTATACGATCTCGTCCGATCCTTGGTTCGAATACTCCGCGCTTGCCGTGACGAGAATGCTGGACGAGGCGATGCTGCTGTTTACAGGAGATAATCCAAACGGACTTCTGGATAAAAGCCATGGTGAATCGTTTGCTACGTAA	MHTEEELIIDSASDSDRSGKTSLVEIKEYIDSHYHEALTIGRLAGMANICPKYFVDLFKKTFGQTTIDYLTHVRMNHAKRYLAESDDRLRDIAQKVGYKDEFYFSRIFKKKVGMSPSEYARNSRQLIAACSSSIIGQLVALNVIPAAAPLDAKWTPFYYNAYNSEIKSRLKLTSPYPDSRFEENIEQLFRAKPDVIIGMDHLSEEEIAKLEPIAPTFIVPSHAGWKKQLELIAAFLNKEEQAQFWIGQYERKVAQARSRMQEVVGNDRVAALRIYGQNLYSYGNRGLEEVLFQDLQLKGAYRFDSSRNQQITMDDLQQCDPDRILIAVCPEAASRRYWLALQHSAEWHRLRAVAQGRVYTISSDPWFEYSALAVTRMLDEAMLLFTGDNPNGLLDKSHGESFAT	PGPT0003170_296	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003170-btr|ybbB-K21701	NA	NA
AK002_04519	801	yidA_2	COG0561	Sugar phosphatase YidA	ATGGGATACAAATTGGTTGCGCTTGACGTAGACGGAACGCTGTTGAATGATCATCATGAAATTACGGAGAAGACCAGGAACACCGTGATGGAAGCCGCAAAACAAGGGGTAGAGATCGTACTGTGCACGGGCAGAGGACCGCTGAATTCGATTCCTTTCATGAAAAGCATGGGTCTTGGCGGTTATGTCATCAGTCATAACGGCGCGGCAACGGTCGAAGTGGAAACCCATCACATCGTGCATCAGTTCGGCATGGACCCGGCTCAGCTGGAACCCTTCATGAAATATTGCCGTGAGCACGGGGTGCATTTTGACGTGAATACCGCCTTCGAGATGTACGTGGACCAGGTGGAGGAGCTTGCCGGACCGGTACGTTCGATGTACGAAAACTATTTGATGCTGCCTAGCAACCTGCCGTCATGGGAGGAGCTGTCGGACCCGGTCGTGAAATTTACGGTATTCGGCGAATCCGCCGATATCGACCGCGTTTATGCGGATTGGAGCAAGTGGACCCTGCCCTTCAACATGCTGCGAAGCGGCGAGTTCTTTATCGATCTGATGCACAACCAAGCATCCAAGGGAAATGCGCTGAAGCAGCTGGCAGCCAAAAGAGGCTATCGGCCGGACGAAGTGCTGGCCATCGGCAATTACTTCAACGATATTACGATGCTCACTTACGCAGGCATGGGCATAGCGATGGATAATTCGCCGGTAGAGGTCAAGGCCGCCGCCAATGCGGTAACGGCTTCGAATAACGAGGATGGCGTACACGAGGCGCTGGTGAAATACTGCTTGTCGTAA	MGYKLVALDVDGTLLNDHHEITEKTRNTVMEAAKQGVEIVLCTGRGPLNSIPFMKSMGLGGYVISHNGAATVEVETHHIVHQFGMDPAQLEPFMKYCREHGVHFDVNTAFEMYVDQVEELAGPVRSMYENYLMLPSNLPSWEELSDPVVKFTVFGESADIDRVYADWSKWTLPFNMLRSGEFFIDLMHNQASKGNALKQLAAKRGYRPDEVLAIGNYFNDITMLTYAGMGIAMDNSPVEVKAAANAVTASNNEDGVHEALVKYCLS				NA	NA	NA	NA	NA
AK002_04520	762	rluB_2	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGAGCGGCAAAGGCAGGAGAACGCAAAGATTGGACAAGGTGCTGTCCAATCTGGGATTCGGCTCGAGGGCCGAATTAAAGAAAAAAGCGAAGCAGGGGAGCATCGTCGTCAACGGAACGATAACGAAGGATCCGGGGAAACATGTGGATCCCTACGCGGATATCATTGAGTTTGAAGGGGAAACCATTCAATACCGGGAGTTCGTGTATCTCATGCTGCACAAACCTCCGGGCGTCGTCTCGGCAACCGAGGATCTGCGCGATCGTACGGTGCTGGATCTGCTGGATGCGGAATATCGGGTCTTCGAGCCGTTTCCGGTGGGCAGGCTGGATAAAGACACGGAAGGACTGCTGCTGCTTACGAATGACGGCAAGTTGGCCCATGAGCTGCTGTCGCCCCGGAAGCATATCCCCAAGACCTATGAAGCGACCGTAGAGGGCCTCGTGGACGAAGAGGATGTACGTCGGTTTGCCGCAGGAGTCACATTGGATGACGGATACGTAACCTTGCCCGGAGAACTGGCGATCCATTCCCATGAGGAACGGGAGGACGGAGTCCAGCTGTCCCGCATCTCGCTGACCATCCATGAAGGCAAATTTCATCAGGTCAAGCGGATGTTTGAGGCAGTAGGCAAAAAAGTCGTGTATCTCAAAAGAATCAGCATGGGCGAACTTCGATTGGATGAAAATCTCGAGATCGGAACTTACCGGGAGCTGACCGAGCAGGAACTGGCTTTGATCGGAAGAGCCGGATCAGAATAG	MSGKGRRTQRLDKVLSNLGFGSRAELKKKAKQGSIVVNGTITKDPGKHVDPYADIIEFEGETIQYREFVYLMLHKPPGVVSATEDLRDRTVLDLLDAEYRVFEPFPVGRLDKDTEGLLLLTNDGKLAHELLSPRKHIPKTYEATVEGLVDEEDVRRFAAGVTLDDGYVTLPGELAIHSHEEREDGVQLSRISLTIHEGKFHQVKRMFEAVGKKVVYLKRISMGELRLDENLEIGTYRELTEQELALIGRAGSE				NA	NA	NA	NA	NA
AK002_04521	1605	rsmF_2		Ribosomal RNA small subunit methyltransferase F	ATGGCATTACGTCTGCCTTCGCCGTTTCTGGCGAAGATGAAATCGCTGCTCGGCGAAAACTATGACAATTTTATGAAGTCTTATGAACAACCCCCGTTTGCCGGCATTCGGGTGAACACGCTGAAGATCGGCAAGGCCGATTTCTTGGAAATATCCCCCTTTGCCCTTGCGCCCATCCCCTGGTGTCCAACCGGTTACTATATTCAGGAGGGGGAGCGCCCGGGGCGGCACCCTTACTATCATGCAGGGCTTTATTATATCCAGGAGCCGAGCGCCATGGCTCCCGTCGAGCTGCTTGATGTTACGCCGGGCGACCGGGTACTGGATTTGTGCGCCGCTCCCGGGGGCAAATCCACGCAGATTGCGGCGAAGCTGCAGGGTCAGGGGGTGCTGATCAGCAATGATCTGCATCCGGACCGCACCAAAGCGCTGGCCAAAAATTTGGAGATGTACGGCGTGCGGAATGCCGTGGTGCTGAATGAGGAGCCGGAGCGGATTGCCGGAGCTTTTCCCGAATTTTTCACGAAAATATTGATCGATGCTCCATGCTCCGGCGAAGGGATGTTCCGCAAAGACGAATCCATGCTGAAGTACTGGGAGGAATCGTCTCCGCTCAAGTTTCCGGAGATGCAGCGGGATATCCTGAAATCGGCGGCAGCCATGCTCTGCCCGGGAGGCCGGCTCGTGTATTCCACCTGCACCTTCTCGCCGGAAGAGAATGAAGGGATGATTGCGGAGTTTCTGAGCGAACATCCGGATTTTCGCGTGGTTCCGGTGGATCATTCGGAATTCTTTTCCCCGGGAGAAACGGATTGGATGGCGGGCCAAGGGAACGTGAAGGACGATGTGCTGGGGCAGCTTGCCGGTACCGCCCGATTGTGGCCGCATAAGGTCAGAGGCGAAGGGCATTTCATGGCCGTGCTTCAGCGGGAAGGTGAGCTGGACCTTCGGGAGGCCGAGAAAGACCAAGCTCCTTGGATCCAGACAGGCGGCCTGGACCACGGTTCGCTTGCTGTCTCCCCGCGGACCGAACCATCAAGGGAGCGTAAAGGGAAATCCGCGCTCCGGGAAGATCGGCCGGGAAAACCCGGGAGGGGCAGCAACGGCGCTTCGCGTCAGCAGGCATCCCGCCGAAGCGGAGGAGATCGTCAGTCGAATCCGACTTCGATCGACCCGTTCCATGCCTTTATCCATGAGCAGCTGCACGTTAAGCTGCAGGGATATCCCGTTATCTACGGCAGCCATGTGTACGTATCGCCACTGCCGGAGGAGCGTCTGAAACAGCTGAAGGCCATCCGTCCCGGATGGTACATGGGACAGCTGAAGAATGAACGGTTCGTGCCGGGGCATCCTTTGGCCACGGCGCTGCAAGCGGATGAGGCCGCCCGGCATGTGAGCCTGTCTTCACAAGACGGCGAAGCGGTCCGGTATTTGAAAGGGGAAACCTTGTCGATTTCGGAGGAACGCTTGACGTGCCGGTCGGGTGCTGAAGCGAAGGGTTATGTGTTAGTGTGTATAGACGGATACTCGGCCGGCTGGGGCAAATGGCAGTCAGGCATGTTGAAGAACGAGTATCCGGCAGGGTGGAGGTGGACATCGGTATGA	MALRLPSPFLAKMKSLLGENYDNFMKSYEQPPFAGIRVNTLKIGKADFLEISPFALAPIPWCPTGYYIQEGERPGRHPYYHAGLYYIQEPSAMAPVELLDVTPGDRVLDLCAAPGGKSTQIAAKLQGQGVLISNDLHPDRTKALAKNLEMYGVRNAVVLNEEPERIAGAFPEFFTKILIDAPCSGEGMFRKDESMLKYWEESSPLKFPEMQRDILKSAAAMLCPGGRLVYSTCTFSPEENEGMIAEFLSEHPDFRVVPVDHSEFFSPGETDWMAGQGNVKDDVLGQLAGTARLWPHKVRGEGHFMAVLQREGELDLREAEKDQAPWIQTGGLDHGSLAVSPRTEPSRERKGKSALREDRPGKPGRGSNGASRQQASRRSGGDRQSNPTSIDPFHAFIHEQLHVKLQGYPVIYGSHVYVSPLPEERLKQLKAIRPGWYMGQLKNERFVPGHPLATALQADEAARHVSLSSQDGEAVRYLKGETLSISEERLTCRSGAEAKGYVLVCIDGYSAGWGKWQSGMLKNEYPAGWRWTSV				NA	NA	NA	NA	NA
AK002_04522	528			hypothetical protein	ATGAACCGCAAAAAAAAGAATAAATACACCGCGTTATACGCCTTCGGGGGAGTCTTCGTACTGTTGGTTGCCGCACTCGTTTTCTTGAACGGTCAAGGAGAAGCAAGCGATTTATACGGCGGCAAGAAGGTCTCCAGCCTGAACCCGGCTACACAGGAGCTCCTTAATGATCCGAATTACCAGCAAATCGTTTTGCCGGATCAGCTGAAGAGCAAGGTCGACAACAAAGAGAACTTCTTCGTATACTTCTTTGCTTCCGATTGTCCGCACTGCCGGGCGACGACCCCGGAATTGATGCCATTGGCCGATGACGCCGGCATTACGATGCACCAGTACAATCTCCGCGAGTATCAGGAGGGCTGGAGAGAATACAACATCGAGTTCACCCCGACGCTCGTTTACTTCGAGAACGGCGTAGAGAAGGAACGCATGGTCGGCGGCTTGAAACCGGAAGGTTCCAGCGAAGGCTACTCCATCGACGACTTCAAGCAATTCCTGGATAAATACAAAGGGAGCGTGACGAAATGA	MNRKKKNKYTALYAFGGVFVLLVAALVFLNGQGEASDLYGGKKVSSLNPATQELLNDPNYQQIVLPDQLKSKVDNKENFFVYFFASDCPHCRATTPELMPLADDAGITMHQYNLREYQEGWREYNIEFTPTLVYFENGVEKERMVGGLKPEGSSEGYSIDDFKQFLDKYKGSVTK	PGPT0013055_935	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK002_04523	456			hypothetical protein	ATGAACCGCACCCGCGCCATTCTCTTTACCTTCGTCATATCGGGCATGCTGCTGACCGCATGCGGCGGCAAAGAATCCGCTGCCAGCCATCAGCACGGCGCCGATTCCGAACGATACGAGACAACGGCCAGCCTGACGGTGATGCCGGAGTTTCTGTCCAATTACACCGACAATACGCAAGCAACCTATGCCACGGTCGGAGAACTTGAGGACATTATCAAGGAAATCAAATGCTACTGCGGCTGCATGGACGAGGAGACCGGCTATCACGATTCCCTCCACCGCTGCTTCATCGCCGAGAGCAAGGACGGCGAAGTCAAATGGACGGACCATGGTGCCCAGTGCGGCATCTGCCTGACCGAGCTTCAGGATGCCAAACGGCTCCATGACGAAGGAAAATCCGTTGACGAAATCAAACAGTTCATCGATGACAAATATAAAGGCACCGAATCCTGA	MNRTRAILFTFVISGMLLTACGGKESAASHQHGADSERYETTASLTVMPEFLSNYTDNTQATYATVGELEDIIKEIKCYCGCMDEETGYHDSLHRCFIAESKDGEVKWTDHGAQCGICLTELQDAKRLHDEGKSVDEIKQFIDDKYKGTES				NA	NA	NA	NA	NA
AK002_04524	450			hypothetical protein	ATGAAGATGAGCTATGAGCCGCTATATGTCGCTTACCTCGTCTATTTCAACCGGGACCGGGACTACTTCGAATGCCATGAGGTGTTGGAGGAGCTGTGGCTGGAACGGGATCGCGATCCCAGGTACAAGGGGCTGCTGCAAGTGGCAGTCGGGCTCTTTCACTTCCGGAACAACAACGTAAGAGGAGCATATAAGATGTTCACAAGCGCCGCCTCCCGGCTCGAAAGCTATCCCCGGGATGAACTCGGGATTTCGATGGGGAAGCTGGTGAGCGAGGTGCGGGACTACGCCAGGCAGCTGTTAACGTATGACGTTCATCCGTTTCCCTATAGGGATCTGACGATCGAAATTGGGGATACGGAGCTGAAGCGGGCGGTTTTGTTGGCATCGAATCGGATCAAGCCGAACATTCCGCAGCGGCGCAAGCCGGAGCGGGCACATGCCAAGTAG	MKMSYEPLYVAYLVYFNRDRDYFECHEVLEELWLERDRDPRYKGLLQVAVGLFHFRNNNVRGAYKMFTSAASRLESYPRDELGISMGKLVSEVRDYARQLLTYDVHPFPYRDLTIEIGDTELKRAVLLASNRIKPNIPQRRKPERAHAK				NA	NA	NA	NA	NA
AK002_04525	813			hypothetical protein	ATGGACGTTAGAGACTGGGGGACATTTTTGCTTCCGTATGAGCAGACCGTTGAGGAATTGAAGGTCAAATTCAAGACGATGCGTGCCGAACTGAAAAAAAGGGAGGAATACGCACCCATCGAATTCGTAACGGGTCGGGTCAAACGGATCTCGAGCATACTGGACAAGGCGAAACGCCTCAATGTGCCGATGGACCAGTTGGAAACCGGGATTGAGGATATCGCAGGCATTCGCATTATGTGTCAATTCGTGGAGGATATTCGGCGGGTGGCCGAATATATCCGGGCACGGAAAGACCTGACTGTGCTATATGAGAAGGATTACATTACCAATTTCAAAGAGAGCGGCTATCGGAGCTTTCATATGATCATTGAATATCCGGTGCAAACGGCTTTGGGACAAAAGAAGGTGCTTGCCGAAATTCAGATCCGCACGCTGGCCATGAATTTCTGGGCTACGATTGAGCATTCCCTTAGCTACAAGTACCGTGAAAGCCTGCCGGATGACATTCGGGCCCGCCTGAAGAAGGCCGGAGAAGCGGCCAATACGCTGGATACGGAAATGTCGAGCATCCGTGAGGATATTTTGGAGGCACAGCGGCAGTTCGAGGACGATTCCAATATTACGACGCAGGTGCTGAACGCGATACACAAGCTGTACTTTTTCCATCTGGTCAACGAGGCGATCGCATTCCAGAGCCGCTTTAATGCGATATGGCAGGCTCATGACATGGATGAGATGAAGGTGCTTCTGGACGAAGTGAAGGAGCTGCTGGCTGCAGCCAAGAAGAAAGTAAATGAAGATGAGCTATGA	MDVRDWGTFLLPYEQTVEELKVKFKTMRAELKKREEYAPIEFVTGRVKRISSILDKAKRLNVPMDQLETGIEDIAGIRIMCQFVEDIRRVAEYIRARKDLTVLYEKDYITNFKESGYRSFHMIIEYPVQTALGQKKVLAEIQIRTLAMNFWATIEHSLSYKYRESLPDDIRARLKKAGEAANTLDTEMSSIREDILEAQRQFEDDSNITTQVLNAIHKLYFFHLVNEAIAFQSRFNAIWQAHDMDEMKVLLDEVKELLAAAKKKVNEDEL	PGPT0014825_350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
AK002_04526	1095	pyrD_2	COG0167	Dihydroorotate dehydrogenase (quinone)	GTGCTGTACCGCAACATAGGCAAACCTATATTTTTTAGACTGGATCCCGAAAAAGCCCACCACCTTGTGGTTGGCGGCCTTGGACGTGCCTCCGGCGTGGTCGGCGCAGACGCTGTCATGCGGGGGATGTATGGTGTGAACGAAACGCCGGATTTGGCAGTGGACCTGTTCGGGCTTCATTTCCCGACGCCGGTCGGACTTGCCGCCGGGTTGGACAAAAATGCTCACGCCGTCAAAGGCTTCTCCTCCATCGGCTTCGGATTTATGGAAGTAGGCACGGTAACCCCGAAGGGACAACCAGGCAATGAACAGCCGCGATTGTTCCGGCTTCCTCCGGATGAGGCGCTCATCAACCGGATGGGCTTCAATAACGAAGGGGCCGAGGCCATGGCCAAAAGGCTGTCCGCACTCAAGGAACGCCGCATTCCGGTTGCCGTCAACATCGGGAAGAACAAGGCAACGCCAAACGAGAAAGCCAACGATGATTATGAAGCTTGCATTCAAGCTTTATTTCCGTATGGCGACTTTTTTGTTGTCAACATCAGCTCGCCGAACACGCCGGATTTGCGCAGCCTTCAGCATGGAAGCGAATTGTCATCCCTGCTGGAAGCCGTGATGAACGAAATGTCGCGGCAGGCGAAGATCCATGGGGGCGAGAAGGCCGTTCTGGTGAAGATTGCGCCGGATGTGAGCGATGAGGAGCTGGAATTCATGGTGGATACGATCAGCGCTAGCGGCGTTTCCGGCATTATCGCCACGAATACGACGCTTTCGCGGGACGGCCTGACGCACAGCAACGCCAAGGAAACCGGAGGCCTGAGCGGCAAGCCGCTGCGGAACCGCTCGACGGAGATCGTGTCGCGAATCTACAAGCAAACCGGCGGTTCGCTTCCGATTATCGGTTCCGGTGGAATTTTTACGGCAAGGGATGCTTATGACAAAATACGGGCAGGCGCAAGCCTGGTGGAAATTTATACAGCACTTATCTATGAAGGGCCAGAGGTGAATCGCAAGCTTCATTCCGGTCTCCGGGAGCTGCTTGCACGGGATGGCTTCAGCCATATTTCCGAAGCCGTCGGCGCTAATCATCGGTAA	MLYRNIGKPIFFRLDPEKAHHLVVGGLGRASGVVGADAVMRGMYGVNETPDLAVDLFGLHFPTPVGLAAGLDKNAHAVKGFSSIGFGFMEVGTVTPKGQPGNEQPRLFRLPPDEALINRMGFNNEGAEAMAKRLSALKERRIPVAVNIGKNKATPNEKANDDYEACIQALFPYGDFFVVNISSPNTPDLRSLQHGSELSSLLEAVMNEMSRQAKIHGGEKAVLVKIAPDVSDEELEFMVDTISASGVSGIIATNTTLSRDGLTHSNAKETGGLSGKPLRNRSTEIVSRIYKQTGGSLPIIGSGGIFTARDAYDKIRAGASLVEIYTALIYEGPEVNRKLHSGLRELLARDGFSHISEAVGANHR	PGPT0021190_879	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021190-pyrD-K00254	NA	NA
AK002_04527	138			hypothetical protein	ATGTCAGCCAAACGTAAGCCTCCGACCTTGCAGCAAAAAAAAGAAGAGGTTAATAAGAAGGCCATACTATGGATCAGCTCCGGCATCGCTCTTCTGATTATCCTGATTATCGTTCTGATTGTGATCGCCCAGCCTTAA	MSAKRKPPTLQQKKEEVNKKAILWISSGIALLIILIIVLIVIAQP				NA	NA	NA	NA	NA
AK002_04528	1407			hypothetical protein	ATGAACAATTCGCTGTACCTCAAAAGATATGTGGAGACGCATCCTGATAATAAAATGGCCTGGTACCTGCTGGGCAAGGAGTATGAGCAGGCCGGCGAGCAGGGCAAGGCGAACTACTGCTACAACAAGGCCGAAGGGGTCTACGAAGCCTTTGAGCTGAGTCAGGTCCCGTCCGACATATGGAAAAATTACGAGCATCGCTTATTGGAGATGGAGAAGGACAAGGAGCGCAAGCGAAAGAGGACCCGGCGTTTGCTAGCGGCGCTGGTGCTTCTCCTGCTGGTTTTCCTTCCGCCCGCCCAGGCGCCGGGCTCCGCTACAGGGAATCTTGCGGAAGATTTGTTCCCGCCGCATGAGCCGGCGTCCGCCAATGCGCTTAACAAAGAGAAGCCGGATTCGCGCAAGGAACCGCTGTACACAGCCGTTCCTACCGGCCAAGGCAAGGATTCCGCGGGTGCACTGTCCTCATTGCTTCAGCATCCGCAGCAGCTGCCGAATTGGTCGGTTGCGCTGGGGATGAAGCGTTCGGGCAAATGGCTGCTGTGGAGCCGGGACATGGAACGGTTATACGGTCTGCATCGGAATGATCAAGGCGCGATCGCTATTCAGCCTTACGAGGGAGCAGCCGAAGAGTGCGATTGCGAGCCTGCGGACAGTTCGAGGCTTAAGCGGAGCGCGGGGCAGTGGGCCGATCTGCAGGTCGAGACGGCCGTTCTGCAGGAAGCGGCCAAACAGTATAAGGCTCGGCACGGCCGCCTGCCCAAAAGCTTGGATGAATTGACACAGCCGTATCCGAATAATTGGCTGTCCGGCCGCTCGAAAGCGATGGAGCAGATGTTCGAAACGTTAATGCAGCAGCAATCCCAAGGAGCTGGCGGTCAAGGGAAAGCGGGACAGCAGCCGGGGAACAGCACGGAGGAACCTGGATATTGGGGGACTTCGCCGAACGGAGACCCCTTTTTCGAACAGCCGCTTCAGGTCATCATTGACCGGAAACGGCATCGGCTGGCCGTCGTAAGCGGCGGCATCCTGCTGCGTAATTATGAGGTCGGGCTCGGCGGAGCCAAAACGCCGTTGGGTGATTTTCATATCAACGATAAGGTAGTCAATCCGAACGGAACCACGAAGGGTCCCTACGGCACGCGGGGAATGCAGCTTTCCGATACGCTGTACGCGATACACGGGACGCTGGACATGGACAGCATCGGCGCGAACGAATCCGAGGGCTGTATCCGTATGCTGACTGAGGATGTGGAGGAGCTGTTTGACTTGGTTCCGATGGGAACCGCCGTGAAAATAAGGGAAGGGGTCCTGCCCGAGGACCTGTGGACGCCGAAAGAGCGTTTTAAGCTCAAGCATACCCAGGGTCAGACCAACCCGGGCAAGGTGTATCACTGGCTGGATTAA	MNNSLYLKRYVETHPDNKMAWYLLGKEYEQAGEQGKANYCYNKAEGVYEAFELSQVPSDIWKNYEHRLLEMEKDKERKRKRTRRLLAALVLLLLVFLPPAQAPGSATGNLAEDLFPPHEPASANALNKEKPDSRKEPLYTAVPTGQGKDSAGALSSLLQHPQQLPNWSVALGMKRSGKWLLWSRDMERLYGLHRNDQGAIAIQPYEGAAEECDCEPADSSRLKRSAGQWADLQVETAVLQEAAKQYKARHGRLPKSLDELTQPYPNNWLSGRSKAMEQMFETLMQQQSQGAGGQGKAGQQPGNSTEEPGYWGTSPNGDPFFEQPLQVIIDRKRHRLAVVSGGILLRNYEVGLGGAKTPLGDFHINDKVVNPNGTTKGPYGTRGMQLSDTLYAIHGTLDMDSIGANESEGCIRMLTEDVEELFDLVPMGTAVKIREGVLPEDLWTPKERFKLKHTQGQTNPGKVYHWLD				NA	NA	NA	NA	NA
AK002_04529	240			Ferredoxin	ATGGCGAAGTTTACTTGGGTAGATAAAGATACCTGCATCGCATGCGGCGCATGCGGCGCAACGGCACCCGACATTTACGATTACGACGACGAAGGCCTGGCAGAAGTTATTTTCGACGGGGACAACAACCGCGGGGTAACGGAAATTCCGGAAGATATGCATGACGACATGCTGGATGCTTGCGACGGCTGTCCAACAGATTCAATTCGGATTGCAGACGAGCCGTTTAACGCAGAATAA	MAKFTWVDKDTCIACGACGATAPDIYDYDDEGLAEVIFDGDNNRGVTEIPEDMHDDMLDACDGCPTDSIRIADEPFNAE	PGPT0007360_821	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_METABOLISM	PHYTOHORMONE-GIBBERELLINS_BIOSYNTHESIS,PGPT0007360-Uncharacterized_P450_system_3Fe_4S_ferredoxin-K05337	NA	NA
AK002_04530	1323	dinB_3	COG0389	DNA polymerase IV	GTGGGACCAATCGACGATTATTATCCGGCCAGCGGCCGCGTTATCCTGCATGTGGATATGAATGCTTTTTACTGCTCCGTGCATGAGGCGGAGGAGCCGGAGCTCTATCGCGGCAAAGCCACGGCTGTCGCAGGCAGCATCGAGCTGCGCAAAGGCGTCATCGTCACCTGCTCCTACGCGGCGAGGTCGCTGGGGATCCGCACCGGCATGAACGTGAGGCAGGCGCTGCGAATCTACCCTGACCTGATGATCATCCAGCCGGATTTCCATCTGTACCGCAAGTATTCCAATGCGTTCATGAACATAGCTTATGCCTATACGCCGCTGCTGGAAGCGACTTCGATCGATGAATGTTACCTGGATATTACCGGCTCGAAGCAGTTCGGCACCCCTCTGGATATCGCTCGGGAAATCCAGGAGCGCATCCGCGAGGAGCTGTCGCTACCGTGCTCGGTCGGCATTGCTCCCAATAAATTGCTGGCCAAGATGGCCTCGGACATGAAAAAGCCCAACGGGCTGTCCGTGCTGCGAATTCGGGACGTCCCGCAAGTGCTTTGGAACAAACCCTGCGCGGAGCTGTTCGGCATCGGGAGCAAGACGGCCGACAAGCTGCGCAAGCTGAACATTCAGACCATCGGGCAGCTGGCTGCCGCCGACGAAAGCCTGCTGACCTCGACCTTTGGCGTGATGGGGTCATGGATGAAACGGGCGGCCAGCGGCATCGATCATGCTCCCGTCGTCGCGGAGCGGGAACAGAGCAAGTCCATCGGACACACGACCACGCTCCCGCAGGATGTTACCTCGGCTGAGGAGGCCAGAAGGGTGCTGCTGAACTTAAGCGATCAGGTAGCGCGCCGTCTCCGCAGGCAAGGTTTGGTGACCAGCGGCATTCAAATTACGCTGCGCACACCGGACATGAAGACGATCACCAGGTCGAGGCATCTTGCCATTCCGACGGAAAATACCGAGGACATCTACCGGGAAGCATGCGAGCTGTATAACCGGCATTGGAAGCAGGACAAGCCGCTCCGTCTGCTCGGCGTCACGCTGCAGCAGCTCACGGCGAAGGAGGAATCCGCCATTCAGCTGGACCTGTTCGACTACGAGAAGCAGCCCAAGAAAGAGTCGCTGACCCGGGTGATGGACGAGCTGCGCAATAAATTCGGCGAGAGCGCGGTACTGACCGCCGGCATGCTGGGCGATGACCCATCGTCCTTAATCCGCAATCATAAGCGGAGAGGTACATCTTTACAGATGGATTTTGCAAGGGAACTGGGGAACGATAATAAAAATGCCGATCGTCAGGACCGAGATCGCGATTAG	MGPIDDYYPASGRVILHVDMNAFYCSVHEAEEPELYRGKATAVAGSIELRKGVIVTCSYAARSLGIRTGMNVRQALRIYPDLMIIQPDFHLYRKYSNAFMNIAYAYTPLLEATSIDECYLDITGSKQFGTPLDIAREIQERIREELSLPCSVGIAPNKLLAKMASDMKKPNGLSVLRIRDVPQVLWNKPCAELFGIGSKTADKLRKLNIQTIGQLAAADESLLTSTFGVMGSWMKRAASGIDHAPVVAEREQSKSIGHTTTLPQDVTSAEEARRVLLNLSDQVARRLRRQGLVTSGIQITLRTPDMKTITRSRHLAIPTENTEDIYREACELYNRHWKQDKPLRLLGVTLQQLTAKEESAIQLDLFDYEKQPKKESLTRVMDELRNKFGESAVLTAGMLGDDPSSLIRNHKRRGTSLQMDFARELGNDNKNADRQDRDRD	PGPT0014881_486	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
AK002_04531	1617	cimA	COG0119	(R)-citramalate synthase	ATGTCTAAGTCCATTTCCATCTTTGATACGACACTTCGCGACGGAACCCAGGGCGAAGGAATCAGCTTGTCAGCGGACGACAAGGTCAAAATCGCCAAGAAGCTCGATGCTCTTGGTGTTCATTATATTGAAGGCGGTATCCCGGGAAGCAACAGCAAGGACATCGAATTTTTCAAAAGAGTCCAGGATCTCGGCTTAACCTCAAAAGTAACCGCTTTTGGCAGCACCCGGCGCAAAGGTTCCATTGCCGACCAGGATGCCAATCTGCTTCGCATTCTGGAATCCGGCGTTTCTGCCGCCACCTTGGTCGGGAAGTCTTGGGACTTCCACGTCCATACGGCGCTTCAAACGACACTCGAAGAGAATTTGGCCATGATTTATGATTCCATCGCTTTCCTGAAGCGGAAAGGCCTCGAGGTCATTTTTGATGCCGAGCACTTTTTTGACGGTTACAAGAACAATCCGGAATATGCTGTTGCCGTATTGTCCAAGGCACGGGAAGCAGGCGCCGACTGGCTTGTCATGTGCGATACGAACGGCGGCAGTCTCCCGCACGAGATTTCGGACATTGTCACGTCGCTGACGGGTCCATTGCCTGGCGCTCCGCTCGGCATTCATACCCACAACGACTGCGAGCTTGCCGTTGCCAACACCCTGAGCGCCGTGCAGGCCGGTGTCCGGCATGTGCAGGGAACGATGAACGGATACGGGGAACGATGCGGGAACGCCAACCTATGCTCCATCATTCCGAATCTGCAGCTGAAGCTCGGGTATGAGTGCATCGGTGACGACAACCTCCGCACGCTGACGAATACCGCACGGTATATCAGCGAAATCGCCAACGTTAACATGCCGGTTAACCAGCCGTATGTCGGCAACGCCGCCTTCGCCCATAAGGGAGGCATCCACGTTTCCGCGATCCTGCGCGATTCCAGAACGTACGAGCATATCGAACCGGAGAAGGTCGGAAACAAACAGCGCGTGCTGGTCTCCGAGCTCGCGGGGCAGAGCAATATCGTATCAAAGGCGCAGGACATGGGGCTTGACTTTGATCCCGCAAGCGAGCAATCCAAGCATATTATCGGAAAAATCAAGGATCTCGAGCATGAAGGGTATCAATTCGAGGGCGCAGACGCTTCCCTGGAGCTGCTTCTTCGGGAAGCGAACGGAGAGCTCAAGGAGCTGTTTACCTTCGAGTCCTTCAAGATGCTGGTCGAGAAGTCGGCCGGACAGCCGGTCGTCTCCGAGGCCTTCGTCAAAGTCAACGTCGCCGGCGAGAGCATCTATACTGCTGCGGAAGGCAACGGTCCGGTCAATGCGCTCGATAATGCGCTGCGTAAAGCGCTGGTCCAATACTTCCCGACGCTCAAGGAAATGCATCTTGCCGACTATAAGGTGCGTGTGCTGGATGACAAGGATGCAACGGCAGCCAAGGTCCGGGTGCTGATCGAATCCAAGAACTTCGAGAATGCTTGGAACACCGTAGGGGTATCCAGCAATGTCATCGAGGCCAGCTGGGAAGCGCTGGTGGACAGTATGCGTTATGCGCTGCTAGGCCAGATTTCCCCGGAGCAGGTGCATGAGTCTGCGGCAAGGCAAGGCTTGGTAAATCATTAG	MSKSISIFDTTLRDGTQGEGISLSADDKVKIAKKLDALGVHYIEGGIPGSNSKDIEFFKRVQDLGLTSKVTAFGSTRRKGSIADQDANLLRILESGVSAATLVGKSWDFHVHTALQTTLEENLAMIYDSIAFLKRKGLEVIFDAEHFFDGYKNNPEYAVAVLSKAREAGADWLVMCDTNGGSLPHEISDIVTSLTGPLPGAPLGIHTHNDCELAVANTLSAVQAGVRHVQGTMNGYGERCGNANLCSIIPNLQLKLGYECIGDDNLRTLTNTARYISEIANVNMPVNQPYVGNAAFAHKGGIHVSAILRDSRTYEHIEPEKVGNKQRVLVSELAGQSNIVSKAQDMGLDFDPASEQSKHIIGKIKDLEHEGYQFEGADASLELLLREANGELKELFTFESFKMLVEKSAGQPVVSEAFVKVNVAGESIYTAAEGNGPVNALDNALRKALVQYFPTLKEMHLADYKVRVLDDKDATAAKVRVLIESKNFENAWNTVGVSSNVIEASWEALVDSMRYALLGQISPEQVHESAARQGLVNH				NA	NA	NA	NA	NA
AK002_04532	552	resA_4	COG0526	Thiol-disulfide oxidoreductase ResA	ATGAAACGTAATATCATCATTATCGTCCTGCTTCTGGTCGCGGCAGGCGCTGTTGTCTATAATCAAGCCGGCGACGATATCCAGGCCGTCTTCATGCAGGAGAAGCCGCTTCCGACGGAGACGGGGGCCAAAGCCGGCCTACTTGCCCCGACCTTTACCTTGAAGGGGATGGACGATAAGTCCTATTCCGGCGGCGGAGCCCGCGATAAAGCAATGCTTGTCAATTTCTGGGCATCCTGGTGCGAGCCGTGCAAGCAGGAGGCACCGGAGCTCGACAAGTTGGCTGCAGAGTATGCAAGTGAGCTCGAAATCTACGGCGTGAACGTGTCCAAGTATGACAATGCGAAGAAAGCGCGTCAATTTGTTCAGGATTTTAACCTTCAATACCCGATCCTTCTCGATACGAAAGGAGAAGTGTTCGAGGAGCTGTATAAAGGGCAGGTTTTCCCGACGAACGTGCTGATCGATCGTAACGGCGTGATTCAGGAAATCATTCTGGGCGCTCCCGATCCCAAGGATCTTCGTAAAAAGGTGGCCAAGCTGTTAAATTAA	MKRNIIIIVLLLVAAGAVVYNQAGDDIQAVFMQEKPLPTETGAKAGLLAPTFTLKGMDDKSYSGGGARDKAMLVNFWASWCEPCKQEAPELDKLAAEYASELEIYGVNVSKYDNAKKARQFVQDFNLQYPILLDTKGEVFEELYKGQVFPTNVLIDRNGVIQEIILGAPDPKDLRKKVAKLLN				NA	NA	NA	NA	NA
AK002_04533	534			hypothetical protein	ATGAACCCGTCTCACGCGTCCCTGGAGCGGCTTCTGCTGCGCGAGGCCGTCAAAGAGCATATGTCGGACCATATGCATCATCGTTTGCCGGAGGAAGCTTGCGGCGTCCTTATCGGACATGCCGATGAAGCAAGCCGGTCAATCACCGTTACGCAATATATTCCCGTAAAAAATACAGCGGAATTTCCGCTGCATTCTTTTCATCTGGACCCCGTTCAGTGGACTCGCTTGGTATTGGCTGAAAAAGGCATCGTCGGTTTGTTTCACAGTCACCCGCATACCATGCCTGACCCCTCGGGCGAGGATCTGCTTCAGCTCCAATCCTTCGGCGGGTTGCTCCGGGTGTATGCTATTGCTTCTCCTGCAGTTCCCGGCGCCTCCGGCTTAAACGCATTGCAGCTCCATGCCTACAAAATTATCCGGAGTGAGGAAGAACGCGAATCCTTCAGCCAGCTGGCGCCAAGCTCCTGGTCGCTTCAGGGAAGGGCATTTTATTCTCTTGCCCCGATCCCGTTCGCGATCCTAAAGGAATGA	MNPSHASLERLLLREAVKEHMSDHMHHRLPEEACGVLIGHADEASRSITVTQYIPVKNTAEFPLHSFHLDPVQWTRLVLAEKGIVGLFHSHPHTMPDPSGEDLLQLQSFGGLLRVYAIASPAVPGASGLNALQLHAYKIIRSEEERESFSQLAPSSWSLQGRAFYSLAPIPFAILKE				NA	NA	NA	NA	NA
AK002_04534	741	dinG_2		3'-5' exonuclease DinG	ATGACTGAACCGGGACAATCGAACGGCGGTTTCTGGAGATCGCTTCGTTCGGGTAACATCAATTCCGCCATCGCCTCCATGCGCGGTGCGCAGACAGCCCAGCAGTTGGCATTCATCCGATCCCAGATGAAGGATAACCGAAGGCCGGAGGTTCTGGGCACCCCGCTGGACGAGCTGGAGGTTGTCGTGTTCGATCTGGAGACGACCGGTTTCAACCACCAGCACGGCGATGAAATATTGTCTTTCGGTGCGATCCGGGTCATCGGTGAGCAGGTGATCGAGAATGAAACCTTTCATATGATCGTGAACAGCGGTGCCCCGGTGTCTCCATTCATTGCCGAGCTTACGGGTATCACGCAGCAAATGGTTGATGCAGCCCCGCCTTTAATGGAGGGGCTGCATGATTTCATGGCCTTTATTGGGGGGAGGGTGCTTGTTGCCCATGCGGCCGCGCATGACCGGGGATTCTTGAACGCAGCCTTGTGGAAGACCTCCAAGGTTCGATTAACGCATCGGCTGCTCGATACGATGATGCTCGCGCAGAGGTTATATCCCGAACAGAAGGATTACAGTCTGGATGAGCTGCTGCGAAGCAGCGGCATTCCGGTGGAGGGAAGGCACCATGCTCTGTCCGATGCGCGCATGACCGCCCGGCTGTGGGCGGATTACATGAAGGACATTCAGGCGCGCGACCAGGCTACCACGCTAGGAGATTTATACGTCTATCTAAGCGAGGGGTAG	MTEPGQSNGGFWRSLRSGNINSAIASMRGAQTAQQLAFIRSQMKDNRRPEVLGTPLDELEVVVFDLETTGFNHQHGDEILSFGAIRVIGEQVIENETFHMIVNSGAPVSPFIAELTGITQQMVDAAPPLMEGLHDFMAFIGGRVLVAHAAAHDRGFLNAALWKTSKVRLTHRLLDTMMLAQRLYPEQKDYSLDELLRSSGIPVEGRHHALSDARMTARLWADYMKDIQARDQATTLGDLYVYLSEG				NA	NA	NA	NA	NA
AK002_04535	1080			hypothetical protein	ATGAAACCTCTGAAATCCGTAAATCTGTTTCCGGCATTGTCGGAAATTCAGAAAGCAGCAACAGCCCAGCAATTACGAGATGAACGGATCGCTTGTCAGAACCATCTCATCGAGATGCGCAGTAACATGGAGCTGAGAGAGTGGATCGCATCCGTGAATACGATGCACGATCTGATTGGACAGCGTGCCGCGGCAATCTGTGAGCAGGACATGTGGGAGGCTGGCTTTGGCCGGCCTCCTGCGCGTTATGCTTTTGTTGCTTTTGGCAGCTGCGGAAGGCAGGAAGCTACGCTGTGGAGCGATCAAGACAACGGTTTGATCATTGGCGATGAGCTGGAAGAGGAGGCGCTCCCCTTCTTTCGGGAATTTGGGCTTCGGCTGGCGAATCTGTTGGAATATCTCGGGTACCCGAAATGCTCCGGAAAAGTGATGTGTTCCGAGCCATTATGGAGCAAGCGGCTTGGCGATTGGAAGAATCAGATCAGCGAATGGTGCGGAGACCGGCAGTGGGAACCGATACGAAACTTCATCATTGCTTCGGACCTGCGCCATATATCGGGCGATACCGAGCTCTCGGAGGCGTGGGTGGACCATTTCCGCAGCTCCGTCGAGCAGCATCCGGACATCGGCCATGCCGTGCTGCGGAACACGGTCAAGCATAAAGCAACGCTGAATGTCATGGGGCGAATCGTGACGGAGCGGTTTGGAGAGCATGCCGGCGAGTTTGACGTGAAGTATGGCGTTTATATTCCGCTGGTGAACAGCATACGCACCATGGCGCTGCAGCGGGGGATCATCGAAACCTCGACGCAAAAACGCATGGAGAAGGTGATGCTGCTTGAAGGCGGGAACCTGCTGCTGGAAAGCGTGCAGCGCGCTTTTTTGACGGCGCTTCGGCTGAGAAACGATACGCCCTTTCGGGTGGAGGACGGACTGATTACGAGCAGCGGGTATATCCCGCAGGAGCAGCTCAAGAACAAAACCATGCAGTACGAGCTTCGCGATACGCTTGGAGTGGTGAGACGGATACACCGGTCATTGCAGCGCGAGCATCGTTTTGCGGAGAGGAGAAGCCCATGA	MKPLKSVNLFPALSEIQKAATAQQLRDERIACQNHLIEMRSNMELREWIASVNTMHDLIGQRAAAICEQDMWEAGFGRPPARYAFVAFGSCGRQEATLWSDQDNGLIIGDELEEEALPFFREFGLRLANLLEYLGYPKCSGKVMCSEPLWSKRLGDWKNQISEWCGDRQWEPIRNFIIASDLRHISGDTELSEAWVDHFRSSVEQHPDIGHAVLRNTVKHKATLNVMGRIVTERFGEHAGEFDVKYGVYIPLVNSIRTMALQRGIIETSTQKRMEKVMLLEGGNLLLESVQRAFLTALRLRNDTPFRVEDGLITSSGYIPQEQLKNKTMQYELRDTLGVVRRIHRSLQREHRFAERRSP				NA	NA	NA	NA	NA
AK002_04536	1440	nrgA		Ammonium transporter	ATGAAAAAAAGATGGCTAGGTTTAATGGCGGGAGTAATCGCACTACTCGCATTCCCGGCGAGCGCGTTCGCCGCTGATGGGGGAGCCACGAACGTTGAATTAACGGCTGGTCTGAACTCCGTATTCGTATTCTTGGCAGCGCTGCTCGTATTTTTCATGCAAGCAGGGTTCGCTCTGCTGGAGGCCGGTTCGGTTCGCATGAAAAATGCGGGGCACGTTGCAGGCAAGACCTTTCTGACCTTCGGCATTTCGATCGTAGCCTTCTGGGCGCTAGGGTTTGGTCTAGCCTTCGGTAACGGCAACAGCTTCTTCGGATTTGAAGGCTTCTTCTTAAGCGGCGACAATGCAGCAGGCTCATTTGATTCCTTGTCCGCATACGATGTGCCGACGACCATCATGTTCCTGTTCCATCTGTCCTTTGCGGCCGTATCCTTGGCGATCGCTTGCGGCGGTATGGCAGAACGGGCAAAGCTGAGCGTTTATATCGTGTTTGGATTGCTGTTCACCATCGTGATTTACCCCATCGTTGCTCACTGGGTGTGGGGCGGCGGCTGGCTCGGCGCTCTGGGCATGCAGGACTTTGCCGGATCGACGGTCGTTCACTTGACAGGCGCAACAGCAGCACTGGTGGCTACGATTCTTCTGAAGCCTCGCCTTGGCAAATATAATAAAGACGGGAAGCCTAACAGCATACCGGGTCATAACCAAGTTTTATCCGTACTCGGCGTATTCATCATCTGGATCGGCTGGTTCGGGTTTAACCCGGGCAGCACCATCTCGGCACTTACAGACGGTTTCTTCGGTTTCGTGGCATTGAATACGAATATCGCAGCGGCGGCAGGCGCGCTGGCCGCATTGCTGATCTCTTGGGCGGTTCTTGGCAAAGCGGATATTCCTAGCATGCTGAACGGTATCCTCGCTGCATTCGTTGCCATCACAGGCGCTTGTGCTTTCGTGGAGCCTTGGGCGGCCGTCGTGATCGGTGCCGTAGCGGGTACGATTACGTTCTTTACGGCGCAATGGTTTGACCGCAAAGGTATCGATGATCCTGTATATGCATTCTCCGTACACGGCATTGCCGGTATGTGGGGTGCCGTGTCCACCGGATTGTTCGCGGCTCCTAGGCTTGTTGAAATCACGGGCGTAGGCAAGGAAGGATTGTTCTACGGCGGGGGCTTCGGCCAGCTCGGCGTTCAGCTTCTGGGTCTGATCGGCACGTTTGCATTCGTTCTGGTGATCTCGTTCATCATTCTGTATATCATGAAAGTTACGATGGGCATCCGCGTAACGGAGGAAGAGGAATTGATGGGTCTTGATATCAGTGAACATGGAACCTACGGATATCCGGAGCAAATGAAACTTTTGGTGGAATCCGAAGGGAAGTCTCCCGAGTTCCGTTCCGGAAGCAAAGCGGTTCCAGGAAGCGACGCGGCTTTATAA	MKKRWLGLMAGVIALLAFPASAFAADGGATNVELTAGLNSVFVFLAALLVFFMQAGFALLEAGSVRMKNAGHVAGKTFLTFGISIVAFWALGFGLAFGNGNSFFGFEGFFLSGDNAAGSFDSLSAYDVPTTIMFLFHLSFAAVSLAIACGGMAERAKLSVYIVFGLLFTIVIYPIVAHWVWGGGWLGALGMQDFAGSTVVHLTGATAALVATILLKPRLGKYNKDGKPNSIPGHNQVLSVLGVFIIWIGWFGFNPGSTISALTDGFFGFVALNTNIAAAAGALAALLISWAVLGKADIPSMLNGILAAFVAITGACAFVEPWAAVVIGAVAGTITFFTAQWFDRKGIDDPVYAFSVHGIAGMWGAVSTGLFAAPRLVEITGVGKEGLFYGGGFGQLGVQLLGLIGTFAFVLVISFIILYIMKVTMGIRVTEEEELMGLDISEHGTYGYPEQMKLLVESEGKSPEFRSGSKAVPGSDAAL	PGPT0000840_2163	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
AK002_04537	450			hypothetical protein	ATGATGGGGATCACGAGCGGAAACCTCTTCCGGATCGGTGAGCTGGCCAAGGCTGCCGGAATCAGCGAAAGAACCATTGACTACTATACGAAGCTGGGTTTGATCTCCCCTGAAAAACGGACGTTAAAAAACTACCGGCTGTACAGTTCTGAAACCTTAAGCACTCTCGAACGTATTAATCAGTTGAAGCAAGAGAAATATACTCTCGATGAGATTAAGGAGAGACTGGATCGCTGGAAGTCGGTTGCCGATGATTCCGAAATGACGGAGAAGCTAACCAAACTCGAAATACAGATGAAACAGCTGGAACGGGATGTCAAGGAGCTCAACCCGCTTCTTAGCGAATTAAAACCCAGTCAAGCACGGGAGGTGCTCGCTAACATTCTTCCCAAGGGAGCTGCCTGTATCGAGTCGCTGCAAATTTTGCTGAACCAGTTCACTTCGATGTAA	MMGITSGNLFRIGELAKAAGISERTIDYYTKLGLISPEKRTLKNYRLYSSETLSTLERINQLKQEKYTLDEIKERLDRWKSVADDSEMTEKLTKLEIQMKQLERDVKELNPLLSELKPSQAREVLANILPKGAACIESLQILLNQFTSM	PGPT0004165_33	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004165-cueR-K11923	NA	NA
AK002_04538	681			hypothetical protein	ATGTATTCTGACTGGATGTTTATACTCATTATTATTGCGTTTATATTCTCTCTCTGGGCTCAGTTCCGGGTCAAAGGCACGTTCAACAAATGGGCCAAGGTTGAAAACAGCACCGGCATGACCGGATACGATGCAGCGCGTCATATGCTGGATGCCAACGGACTCCATGACGTACCGATTGAACCGGTGCCAGGCACGCTCTCTGACCATTATGACCCGACCAAACGCGTTGTCCGGTTGTCGGAGCCTGTTTATTACGAACGTACCATCTCGGCCGTCTCCGTCGCTTGTCACGAGGTAGGCCATGCGATCCAGCATGCGGAGCACTATCCGATGCTCGTAGCCCGTCACAAGATGTTCCCGGTCGTTAACTTTGCATCCGGTATCGCTCCGTTTCTCTTGATTGCCGGATTCCTGTTCCAAGCCATGAACCTGGTCGGTCTCGGGATTATCTTCTTCTCTTGCGCCGTTGCCTTCCAGCTTGTCACGTTGCCGGTCGAGTTTAACGCAAGCAACCGTGCCCGTCAGCTGATGGTTCAAGAAGGCTATATTGCCAATGACGAAGAACGCGGAGTCGCTAAGGTATTGAACGCTGCGGCCCTGACCTACGTCGCTGCAGCTTTGATCTCGCTGCTCGAGCTGATCCGTTACATCATGATCTTTACGAGCAACCGGGAATAA	MYSDWMFILIIIAFIFSLWAQFRVKGTFNKWAKVENSTGMTGYDAARHMLDANGLHDVPIEPVPGTLSDHYDPTKRVVRLSEPVYYERTISAVSVACHEVGHAIQHAEHYPMLVARHKMFPVVNFASGIAPFLLIAGFLFQAMNLVGLGIIFFSCAVAFQLVTLPVEFNASNRARQLMVQEGYIANDEERGVAKVLNAAALTYVAAALISLLELIRYIMIFTSNRE				NA	NA	NA	NA	NA
AK002_04539	921	gltC_5		HTH-type transcriptional regulator GltC	GTGGAATTACGACAGTTGCAATACTTTGTAAAGGTTGCGCAAAAGGAACACGTTACCCAAGCGGCAGAAGAGCTTCATGTGGCTCAGTCGGCCGTCAGCCGTCAAATACATCAGTTGGAAGAAGAACTGGGTGTTAATTTGTTCATGCAAAAGGGCCGGAATCTGCAGTTAACCCCGGTAGGCCAGCTTTTTTGCAAACGGGTGGAGAGCATTATGAAGGATTTGGACCGTGCGGTCGTCGAGATACATGAATTCCTGGACCCGGAGCAGGGGGAGATCCGCATCGGTTTCCCTCACAGCCTGGGCATACATTTGATTCCGTCCATCGTGGCTGAATTTCGGAAGAAGTACCCGAACGTGAAGTTCCGGTTTAAGCAGGGCATGTTCCCGACTTTGATCCGGGACGTCGTCGGGGCTGAAGTGGATTTGGCGTTTGTGTCTCCGTTTCCGGATCGCCACGATCAAGTGGACGGAGATATCGTGTTGACAGAGGAGCTGTTTGCGATCCTGCCGCCGAATCACCCGCTTGCGGGGGAGCAGTCCATCAAGTTGGAGCAATTGAAGGAGGAGCGCTTTGTGCTGTTCAGCAAGGGCTACTCCTTGCGCCCGATTGTATGGCATGCCTGCCTGGAAGCCGGGTTCACGCCGAAAATTGCTTTTGAAGGCGAGGAGACGGATACGATCCGCGGGCTGGTTGCTGCCGGCATGGGGGTCAGCCTGCTACCTGAAATGGCGCTGTTCCAGACGAATCCGCTTCAGCCGGCACGCGTCCGAATCTCGGAGCCGAAGGTAACGCGTTCCATCGGTCTGATTCACCGCGCGGACGAGAAGCTGCCACCGGTTGCGCAAGCCTTCCGTGCGTTTTTGCTTCAATATTTTGGCATTGATCCGTCGCCGAAAAAGGAAGAGAAAGCGGAATGA	MELRQLQYFVKVAQKEHVTQAAEELHVAQSAVSRQIHQLEEELGVNLFMQKGRNLQLTPVGQLFCKRVESIMKDLDRAVVEIHEFLDPEQGEIRIGFPHSLGIHLIPSIVAEFRKKYPNVKFRFKQGMFPTLIRDVVGAEVDLAFVSPFPDRHDQVDGDIVLTEELFAILPPNHPLAGEQSIKLEQLKEERFVLFSKGYSLRPIVWHACLEAGFTPKIAFEGEETDTIRGLVAAGMGVSLLPEMALFQTNPLQPARVRISEPKVTRSIGLIHRADEKLPPVAQAFRAFLLQYFGIDPSPKKEEKAE				NA	NA	NA	NA	NA
AK002_04540	615	gluP	COG0705	Rhomboid protease GluP	ATGATATTCGTACGTTATGAGAATTGGAAAAGTTATTTGCGTTATTATCCCGTTACATCGCTGCTGCTTGTGATCAACCTGGTGATGTTTGTGATTACATCCTTTGACGGCGGTTCGAGAAATCCGATGACGCTGCTGAAATATGGAGCTTTGTCGGATTTGCCGCAGTTCGTCGACCAGGCATGGAGATACTTTACGGCGATGTTCCTCCATAACGGATTTGACCATTTGTTGTTCAACAGCTTCGCACTGCTGGTATTTGTTCCTCCGCTGGAGAGAATCATGGGGAGCTGGAAATTTGCCATTCTGTATCTGCTCAGCGGTGTTCTCGGTAATGTAATCGGATTGGCTTATTATGAGCGCATGGAGGACTATACCTTCCTTGTAGGCGCCTCAGGAGCCATATACGGAGCTTATGGCGCTTATCTGTACATCGCCTTGTTCCAGCGGCATGTCATAGATGAGTCGTCCCGCAAGACGCTGTTCACCCTGCTTATATTAGGGATCTTGTTCTCTTTTACCCCAGGGGTCAGCCTTGTAGCCCATGTCGGCGGATTGGTAGGCGGATTTTTCCTCTACGGTCTCATGATTCGATTATTCAAACGTCGAACATAA	MIFVRYENWKSYLRYYPVTSLLLVINLVMFVITSFDGGSRNPMTLLKYGALSDLPQFVDQAWRYFTAMFLHNGFDHLLFNSFALLVFVPPLERIMGSWKFAILYLLSGVLGNVIGLAYYERMEDYTFLVGASGAIYGAYGAYLYIALFQRHVIDESSRKTLFTLLILGILFSFTPGVSLVAHVGGLVGGFFLYGLMIRLFKRRT				NA	NA	NA	NA	NA
AK002_04541	519	tpx	COG2077	Thiol peroxidase	ATGGCTCAAGAACGTTCAGGAGCTGCCACTTTCAAGGGCAATCCTATTACACTCATCGGACCACAGCTCAAGGCTGGTGATGCCGCGCCGGATTTTACCGTGAGCAAGAACCTGCTCGAAGACGTATCTCTTAAAGATTATGCAGGTAAAATCAAGCTGATCAGCGTCGTTCCTTCCCTCGACACCGGGGTATGCGACGCACAGACGCGCCGTTTCAACGAAGAGGCCGCCGGACTTGGCGACGATGTCGTGATCCTTACAATCAGTGCCGACCTTCCGTTCGCCCAGGCCCGCTGGTGCGGAGCTGCAGGCGTTGACCGGGTCATTACGCTGTCCGACTATAAATCGCGTTCTTTCGGTGAAGCGTATGGCGTGCTCATCAAGGAGTTTCAGCTCGACATGCGTTCGATCTTCGTCGTGGATGCTAACGATACCATCACCTACGTAGAATACCTTGGCGAAATGACGGAGCACCCGAATTACGAAGCTGCCATCGATGCCGTGAAATCTCTGCGTTAA	MAQERSGAATFKGNPITLIGPQLKAGDAAPDFTVSKNLLEDVSLKDYAGKIKLISVVPSLDTGVCDAQTRRFNEEAAGLGDDVVILTISADLPFAQARWCGAAGVDRVITLSDYKSRSFGEAYGVLIKEFQLDMRSIFVVDANDTITYVEYLGEMTEHPNYEAAIDAVKSLR	PGPT0013105_285	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013105-tpx-K11065	NA	NA
AK002_04542	393			hypothetical protein	TTGTCATTAAAACGAGTTCTAATCGGTATCGTGCGCAGCTATGACGGCACAAGCGACCGTGCTAAAGATCCCAAGCTGAAGACGCGTTATTACAATCTTTCAAAAGAAAAGTGTTTTGAAGAGGTTTCCTCGACACTGAAAAAAATTCCGGGTTACAAAGTTCTGCATGAGGTAAAATCCGTGGGAGAAATCACGTTAGAGAAAAGAACCTCCTTTGGACGTACACTGGACATTACCGTATCCGTGCTCGGCATCAGTCCGGTTCGCAGCGCAGTTGATATGTATTCGGCATCCCGCGGTTCCCTTGGGGATCTGGGGGCGAACTATCGGGTCATCTTGAACCTGTACGCTGTACTGGACAAAAAACTGAGCAAGTATAAAGTGGATGCTTAG	MSLKRVLIGIVRSYDGTSDRAKDPKLKTRYYNLSKEKCFEEVSSTLKKIPGYKVLHEVKSVGEITLEKRTSFGRTLDITVSVLGISPVRSAVDMYSASRGSLGDLGANYRVILNLYAVLDKKLSKYKVDA				NA	NA	NA	NA	NA
AK002_04544	864			hypothetical protein	ATGTACAAAATAAGGTATATTAATAGATACATGCATGATTTGAGTGAGGAGGAAACGGATTTGGAAATGAAAGGAGCCATGGGTGGCTTATATAAGCTCACCGAGTGGATTACCCGTATTGCTTTTTCGAACATCTTGTGGGTTATTTGTACATCGCCTTTCCTGTTTATCGTTCTAACCAAATTCCTAATGGCCGTTCAGACGCCGGAAGCGCATAACGAGCAGCTGCTGTCGAACTGGATCCTGGGAATATTATCACCGTTTGTTCTATTTCCGGCTACGGCGGCTTTATTTACCGTTGTTCGGAAATGGGTAATGGGCAACCCGGACGTGTCCGTGTTCAAAACGTTCTTTAAGGGCTATAAGGAAAATTACAAGCAGAGCATGATCGGCGGTATTTTTTATACGCTGCTGTTCGTGATTATGTACGTGGATTACACGGTTTATATGACGCAGCTCGATGGTTTCCAGCTTGTCGGCATCGTGATGCTGGTGCTGCTCATTGTACTGTTTGTCTCCCTGTTTAATTTCTTCTCCATGACCGTTCATTATGAGATGAAAACGACTCAGCTCCTAAAAAATGCGGTGCTGCTGACTCTGATTCGTCCGTTCCGCGTATTTTCGACTTTGATCGGAAGCGCTGTCTTGGCGTATATCGGCACGCAAATGCCGGTGCTCTTCGTGTTCTTCCTGTTCTGCCTGATGGCCTTGTTCGCGTTCTTTAACTTCTATGCGACCTTTACCAAAATGCAGGAGCAGCAGGAAAAAATGAAGAAGGCCGAGGAAGAGGAGTCGGAAACCGAGCAAGCTCTTCTGGAAAGCATGGATTCTGCCAAAAAGGGAGAGAACGGATCGAAACCTTAA	MYKIRYINRYMHDLSEEETDLEMKGAMGGLYKLTEWITRIAFSNILWVICTSPFLFIVLTKFLMAVQTPEAHNEQLLSNWILGILSPFVLFPATAALFTVVRKWVMGNPDVSVFKTFFKGYKENYKQSMIGGIFYTLLFVIMYVDYTVYMTQLDGFQLVGIVMLVLLIVLFVSLFNFFSMTVHYEMKTTQLLKNAVLLTLIRPFRVFSTLIGSAVLAYIGTQMPVLFVFFLFCLMALFAFFNFYATFTKMQEQQEKMKKAEEEESETEQALLESMDSAKKGENGSKP				NA	NA	NA	NA	NA
AK002_04545	105			hypothetical protein	ATGTCTTGTGAAGGTGGCGGAGGTTACGGCTACGGAAATAACGTCGGTATTGTCCTGGTTCTGTTCATTCTGCTTGTAATTATTCTCAGCACATTCTATATCTAA	MSCEGGGGYGYGNNVGIVLVLFILLVIILSTFYI				NA	NA	NA	NA	NA
AK002_04546	1602	cshA_1	COG0513	DEAD-box ATP-dependent RNA helicase CshA	TTGAAAAATTTCGCAGATTTTGGCTTGGAGCCGCGCGTGCTGCAAGCAATCACTGAGCTTGGCTTTGAGGAAGCCACACCGATTCAATCCCAATCGATTCCGATTGCTCTAACCGGCAAGGATATGATTGGACAAGCACAGACTGGTACAGGTAAGACAGCAGCATTCGGCCTACCTCTTATCCACAAAATCGCCAAGGAAGAGGAGCGTATCGTCGCCCTCATTATGACACCGACCCGTGAACTTGCCATTCAGGTTGCTGAAGAAATCGGCAAGCTGTCCCGTTTTAAAGGAATCCGTTCCTTGGCTATTTACGGTGGACAGGATATCGGGCGTCAAATCCGCGCTTTGAAAAGAAAGCCTCAGATTATTATCGGTACACCGGGTCGATTACTTGACCACATCAACAGAAAAACCATCCGTCTTGATGACGTACAAACCGTTGTATTGGACGAAGCGGATGAAATGCTGGACATGGGCTTCATGGAAGACATCCAGTCGATCCTTAAGCTTGTTCCTGAAGAACGTCAAACCTTGCTGTTCTCCGCAACTATGCCCGCTAACATTCAGAAGTTGGCATCCCAGTTCCTAAAGGAACCTGAGCATGTATCCGTTATTCCTAAGCACGTTAGTGCTCCACTGATCGACCAAGCATATATCGAAGTTCCTGAACGTCAAAAATTCGAAGCCTTGAGCCGCCTTCTGGATATGGAGTCGCCTGAGCTTGCGATTGTTTTCGGACGTACCAAGCGCCGCGTCGACGAATTGGCAGAAGCCCTGCAAAAACGCGGATATTCGGCAGATGGCCTCCATGGCGACCTGTCCCAGCACCAACGCGATACCGTCATGCGTAAATTCCGCGACGGCAGCATCGATGTTCTCGTGGCGACAGACGTGGCAGCGCGGGGTCTCGACGTATCCGGCGTTACCCATGTCGTAAACTTCGACTTGCCGCAAGATCCGGAAAGCTATGTACACCGTATTGGACGTACGGGCCGTGCGGGCAAGGAAGGTACAGCCTGGTCCTTCGTGACGCCGCGTGAAATGGATCATCTGTATTTCATCGAGCGTGTGACGCGCCACCGTATTCCGCGCAAGCCGCTGCCAACGATTGCCGAAGCGATCGAAGGTAAACAGCGCATCATCGCTGAGCGCGTGCTTGAAATCATTGAGCAAGGGGAATTGACCGAGTACAAAGGTCTTGCCATTCAATTGCTGGAGCAGTACGATTCCGTACAATTGCTTGCAGCTGCAATGAAAATCCTGACAGGCGACAAGAAGGAAGCTTCCGATATTCACCTTACCCCTGAGGATCCGATCCGCGCCAAACGCCGGAAGCCGGATATCCGTAATGGCCGCAAGCCTAGCGGCGGTTATGGGGGACGCGGCAACAGCGGCGGATATCGCCGTGACGGAGGAAGCGGCGGCGGCGGTAACCGTGGCGGCTACTCCAAAGGCGGATACAACCGTGACGGCGGTGGTGGTTACAACCGTGATCGCGATGGCGGTGGTTACAACCGTGACCGCAACAACAGCGGTGACCGCAAACCGCGTTCCTATAGCGGCGGAGAGCGTCGTCCTAACCGGAGCGGGGACGAATAA	MKNFADFGLEPRVLQAITELGFEEATPIQSQSIPIALTGKDMIGQAQTGTGKTAAFGLPLIHKIAKEEERIVALIMTPTRELAIQVAEEIGKLSRFKGIRSLAIYGGQDIGRQIRALKRKPQIIIGTPGRLLDHINRKTIRLDDVQTVVLDEADEMLDMGFMEDIQSILKLVPEERQTLLFSATMPANIQKLASQFLKEPEHVSVIPKHVSAPLIDQAYIEVPERQKFEALSRLLDMESPELAIVFGRTKRRVDELAEALQKRGYSADGLHGDLSQHQRDTVMRKFRDGSIDVLVATDVAARGLDVSGVTHVVNFDLPQDPESYVHRIGRTGRAGKEGTAWSFVTPREMDHLYFIERVTRHRIPRKPLPTIAEAIEGKQRIIAERVLEIIEQGELTEYKGLAIQLLEQYDSVQLLAAAMKILTGDKKEASDIHLTPEDPIRAKRRKPDIRNGRKPSGGYGGRGNSGGYRRDGGSGGGGNRGGYSKGGYNRDGGGGYNRDRDGGGYNRDRNNSGDRKPRSYSGGERRPNRSGDE				NA	NA	NA	NA	NA
AK002_04547	822			hypothetical protein	ATGTTGAAGCGTCTATGGACCTATTTCTCGATCGTATTCGGGGGCATGATTATCGCCGCCGGATTCAATTTGTTTCTGATTCCTCATCATCTGCTCAGCGGCGGCGTATCCGGCGTGGCCCTCGTGATCGGTTATTTCACGCCGCTTAATATCAGCATTATGTATTTTGTGCTCAACATTCCGATCCTGATCACCGGCTGGTTCAAGCTGGGCAAAAGGTTCGTCGGTCTCAGCATCCTCTCGGTTATCGTCACAACCTTGTTTCTTGAGCTCATCCCGGTGAATCATGTTGCAACCGATGTGCTGCTGTCCTCGGTTTTCGGCGGCGTGCTTGTCGGGTTCGGCACCGGCCTCTCCTTTCGGGTCGGCGGTTCAACCGGGGGCTTCGATATCATCGGCTCCCTGGTCACGAAACATCGGGACTTCCCAGTCGGCAGCGTACTGGTGACGCTGAACGCCATCGTCATCATGGCGGTGGCTTATCTGGAGCAGGATTGGAACCTGGCGCTCGCTTCCATGGCCTCCATCTATGTTGCCGGTAAAATGGTGGACATGCTTCACATCAGCCACATCAAGGTGACCGTCTTTATCGTCACGAACCGGACGGAGGCCTTGCTGGAGAAGCTGCTCAAGCGCCCCCGCGGCATAACCAAGATCAAAACCCAGGGAGCTTTCAGCCATAAAGAGAAGGATATGCTCATGACCGTCACGACGCGATACGAGCTGGCTGAGCTGAAACAAATCATTACGGAAACCGATCCCGAGGCTTTCGTCAATATCGTGGAAACGACGGCCGTCATGGGGCAATTCCGCAAGAACTAA	MLKRLWTYFSIVFGGMIIAAGFNLFLIPHHLLSGGVSGVALVIGYFTPLNISIMYFVLNIPILITGWFKLGKRFVGLSILSVIVTTLFLELIPVNHVATDVLLSSVFGGVLVGFGTGLSFRVGGSTGGFDIIGSLVTKHRDFPVGSVLVTLNAIVIMAVAYLEQDWNLALASMASIYVAGKMVDMLHISHIKVTVFIVTNRTEALLEKLLKRPRGITKIKTQGAFSHKEKDMLMTVTTRYELAELKQIITETDPEAFVNIVETTAVMGQFRKN	PGPT0014526_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014526-yitT-NA	NA	NA
AK002_04548	195			hypothetical protein	ATGGAAATGGAAACGGTAAAATTGTCACAAATCGTCATGAAGTGGTTCCCGGAAATGATACCGTTCTTCAGACAGAACGAATTGAATTCCATGATCGTTCTTAGGGACGGGCTGAGTATTCTGGAGCAGGAGGACGCTCTTGAGATCATTCAGTTCAGCATTTGCGAACATCAGAATCAAACTCCGCTTCATTAA	MEMETVKLSQIVMKWFPEMIPFFRQNELNSMIVLRDGLSILEQEDALEIIQFSICEHQNQTPLH				NA	NA	NA	NA	NA
AK002_04549	1212			hypothetical protein	ATGAATATCATCTTGGCTTTATTCATCTTGGCATCCGCGGGTTTAGGCAGTTCCAGTCCGCAGGAAGGCAATCTAACCGCCAAACTTCAGGCCTCATTAAACACCGCCATGATCCAGGGCATGCACCAAAACAACAGCCAAGGCAACGGCCAAACCGAGGGCAAAGGCCAGGGGCAAAGCGGCATCAAGCCGAACACGACCGCAATCGATCCGCAGGTCGAGGCGCCTAAAGTCAAGGGCATTTATGTAACGGCTTATAGCGCAGGTGGCTCCAGAATGAATCAGCTGGTGGATCTTTTGGACAAGACGGAGCTCAATGCCATGGTCATCGACATCAAGGATGATGAAGGATACATAACGTACAAGACCGATAATCCTAAACTGAAGGAGCTCGGCAAATCCCAGCCGTTTATCAAAGACATCAAGCAGCTGATGAAGCGGTTGGAGAAACACGATATCTATCCGATCGCCAGGGTTGTTGTGTTCAAGGATACCATTCTTGCCAAGAAAAACCCGGAGCTTTCCTTCCGTAAAAGCGATGGCACCGTATGGACCAACGGCGGCGGCGACAGCTTCGTCAACCCGTACAGCAAAGAGGTATGGGATTACAACATCGAGATCGCCAAAGAAGCCGCCAAACTCGGATTCAAGGAAATCCAGTTCGATTATGTTCGTTTTCCGGAAGGCTTCGAGAAACGGGCCGGTTCCCTGAAATATACCAAGACGGATCAATCGCGCGTGGACGTGGTATCCGATTTTGTGCAGTATGCTCGGGAAGAGCTCGCGCCGCTCGGCATCCGCGTATCCGTTGACATCTTCGGCTATGCGGCCTCGGTGCCTGCGGCAGAAGGCATCGGGCAGGACTTCGTCAAAATCTCCAAAAACGTCGATATCATCAGTCCGATGGTATACCCGAGCCATTACACGGCGGGCTGGTTCGGCTCCCCCGTTCCGGACAAGGCTCCTTACCAGACCATCAAGGGATCTATGGAAGACACCCACAAAAAGCTCGATGAGCTGGGAGAGCAGAAGCCGATCATCCGGCCTTGGATTCAGGACTTTACCGCCAGCTGGCTCGGAAGCGGAAATTATGCCAAATACGGCAAAAAGGAAATCGAGGAGCAGATTCGCGCCCTCAAAGACACGAACGTCGATGAATATTTACTCTGGAATGCTTCCAACCGTTATACGGAAGGCGTCACTCATAAATAA	MNIILALFILASAGLGSSSPQEGNLTAKLQASLNTAMIQGMHQNNSQGNGQTEGKGQGQSGIKPNTTAIDPQVEAPKVKGIYVTAYSAGGSRMNQLVDLLDKTELNAMVIDIKDDEGYITYKTDNPKLKELGKSQPFIKDIKQLMKRLEKHDIYPIARVVVFKDTILAKKNPELSFRKSDGTVWTNGGGDSFVNPYSKEVWDYNIEIAKEAAKLGFKEIQFDYVRFPEGFEKRAGSLKYTKTDQSRVDVVSDFVQYAREELAPLGIRVSVDIFGYAASVPAAEGIGQDFVKISKNVDIISPMVYPSHYTAGWFGSPVPDKAPYQTIKGSMEDTHKKLDELGEQKPIIRPWIQDFTASWLGSGNYAKYGKKEIEEQIRALKDTNVDEYLLWNASNRYTEGVTHK				NA	NA	NA	NA	NA
AK002_04550	1377	mdtK_2	COG0534	Multidrug resistance protein MdtK	ATGCAACCGACCACTACAACGCGGGGAAAGCTGAAACAATTCGCGATCATTCTCATCCCCATTCTCGTAACGCAGCTTGCTTTATCGGCCATTACTTTTTTTGACACCAACATGTCGGGAAAATTCAGCTCGGTCGACTTGGCAGGCGTAGCCATCGCTACAAGCATTTGGATTCCGGTCCAAACCGGACTCAGCGGAATTCTAATGGGGATCACCCCCATCGTTTCGCAGCTCGTCGGCGGACGACAGGAACAAAAAGTCGCCTATCAGGTCAACCAGGCGCTCTGGCTGTCCGTCTTACTCGCCATCGTCGTCCTTGCGATCGGGTATGCCGTCGTACCGAGCATTCTTGGTGCCATGAACCTGGAGCCTGAGGTTCGGCGTATTGCTTCCCAATTTCTCGCCGCCATCTCGATCGGCATCATTCCGTTGTTTGCCTACACCGTGCTTCGCAGCTTCATCGATGCGCTCGGGCAAACGAAAATTTCGATGGTCATCACGTTGATCACCCTCCCGGTGAACGTAGGCTTGAATGCCCTATTGATCTATGGTTTCTGGGGCTTTCCGCAATTGGGAGGCGTAGGTGCCGGCCTGGCGTCCGCCATTACCTATTGGACGGTTCTGGCGATCGCCATCGTCATCATCCATAGAAATCACCCATTCTCTCCATTCGGTATCTTCAGGCAGCTTCGGGGAGTATCCCTGAGCGCTTGGAAGGGCCTGTTAAAAATCGGCGTGCCGATCGGGTTCTCGATTTTTCTCGAGACCGCAGTCTTCGCCGCGGTGACTTTGCTCATGAGCAGCTTTGACACGGCTACCATTGCCGCGCATCAGGCCGCCTTGAATTTCGCTACGACACTGTACATGCTGCCGTTAAGCATATGCATGAGCTTAACCATTCTTGTAGGCTTTGAAGCTGGCTCGGGCCGGATGAAGGATGCCTGGAAGTACGCCAAACTCGGCATCGGGACGGCCGTCATCCTGTCGCTGATCACCGCTGTCGTCCTGTTTATGGCCGGCCGCCAGGTTGCCGGTTTATATTCCAACGAGCCTGAGGTCGTGGCGTTGATCCAGCATTTCCTGCTGTTCGCGATTTTCTTCCAGATCTCGGACGCGATCGCCACGCCGACCCAAGGAGCGCTGCGAGGCTACAAAGACGTTAACGTCGCTTTTATGCTCGCTTTTCTATCGTTCTGGGTCATTGGCCTGCCTGTGGGATACGTGCTCGCCAACTATACCGATTGGCAAGCCTTCGGCTACTGGATCGGGTTGATCACGGGTCTTGGGGTAGGCGCGGTCCTGATGCTTATGCGCTTGGTCAAAGTCCAACGCAAGTTCGCTGGCCAGGCAAAGGCAACGTCCTTATCCGCATCATAA	MQPTTTTRGKLKQFAIILIPILVTQLALSAITFFDTNMSGKFSSVDLAGVAIATSIWIPVQTGLSGILMGITPIVSQLVGGRQEQKVAYQVNQALWLSVLLAIVVLAIGYAVVPSILGAMNLEPEVRRIASQFLAAISIGIIPLFAYTVLRSFIDALGQTKISMVITLITLPVNVGLNALLIYGFWGFPQLGGVGAGLASAITYWTVLAIAIVIIHRNHPFSPFGIFRQLRGVSLSAWKGLLKIGVPIGFSIFLETAVFAAVTLLMSSFDTATIAAHQAALNFATTLYMLPLSICMSLTILVGFEAGSGRMKDAWKYAKLGIGTAVILSLITAVVLFMAGRQVAGLYSNEPEVVALIQHFLLFAIFFQISDAIATPTQGALRGYKDVNVAFMLAFLSFWVIGLPVGYVLANYTDWQAFGYWIGLITGLGVGAVLMLMRLVKVQRKFAGQAKATSLSAS	PGPT0029115_7051	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
AK002_04551	972	pfkA		ATP-dependent 6-phosphofructokinase	ATGGCAGAGGTTAAAAAAATTGCAGTTCTTACAAGTGGTGGCGATTCCCAAGGGATGAACGCGGCGCTGCGCGCCGTTGTACGAAGCGGTTTGTATTATGGACTAGAGGTATACGGGATTCAACGCGGTTACCAAGGTCTTCTGGAAAACGACATTATCAAAATGGACCTTCGCAGCGTAGGGGATATCATCCAGCGCGGAGGCACGATTCTTCGTTCCGCCCGTTGTGAGGAGTTCAAGACGGCGGAAGGGCAGCAGAAAGGCGCCGACATTCTGAATCAGCACGGCATCGACGGTCTGGTCGTCATCGGCGGAGACGGCTCGTACCAAGGTGCGAACAAGCTGAGCAAGCTCGGAATCAAAACGATGGGTCTTCCGGGCACGATTGATAATGATATTTCCTTTACCGATTATACGATCGGTTTTGATACAGCGGTCAGCGTCGTTGTAGACGCTGTAAACAAATTGCGCGATACGATGTCTTCCCATGCCCGCTCGTCGGTTGTAGAGGTTATGGGACGCCACTGCGGTGACATCGCCCTTCACGCGGGCCTGGCTTCCGGAGCGGAGACCATCCTGGTGCCGGAAGTGGAATACAATCTTGATGAAGTGGCGACGCGTCTTCGCGAGAATTTTGCCAAAGGCAAGCGTCACAGCATCATTATCGTAGCGGAAGGGGTCGGACGCGGCGAGGACGTTGTTCACGATCTGAAAGAGTGCCATGCGTCAATCGATGCCCGCGTAACCGTGCTTGGTCATATCCAGCGCGGCGGAGCTCCGACTCCGTTTGACCGCAACCTGGCAAGCCGTCTCGGCGATTTTGCGGTTCGCAGCCTGATTGATGGCCAATCCGACAAAGGATGCGGCATCATCAAAGGCGAACTGGTCCTTACGGATATTGACAAGGTCGTTAACACCAAGAAGGAATTCGACCGGGATCTGTACGATCTGGCATTGCGATTGTCCCAATAA	MAEVKKIAVLTSGGDSQGMNAALRAVVRSGLYYGLEVYGIQRGYQGLLENDIIKMDLRSVGDIIQRGGTILRSARCEEFKTAEGQQKGADILNQHGIDGLVVIGGDGSYQGANKLSKLGIKTMGLPGTIDNDISFTDYTIGFDTAVSVVVDAVNKLRDTMSSHARSSVVEVMGRHCGDIALHAGLASGAETILVPEVEYNLDEVATRLRENFAKGKRHSIIIVAEGVGRGEDVVHDLKECHASIDARVTVLGHIQRGGAPTPFDRNLASRLGDFAVRSLIDGQSDKGCGIIKGELVLTDIDKVVNTKKEFDRDLYDLALRLSQ	PGPT0017595_2781	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
AK002_04552	1083	ytpB		Tetraprenyl-beta-curcumene synthase	TTGAATAATCAAGAGCTAAGCCGTAAGGTTCCGCGCAGTCCGGTCGGGCTGATGAGCCGGGTGTACAAATTCATACTCCCGGAAGTGCGGAGCGAATTGGAGAAGTGGCGCCGGGAGGCTGAGCAAATTCCGGATGAGGAGCTACGAAAGCAGGCACTGGCCAGTATAGATACCAAAAGATTTCACTGCCAGGGCGGTGCGGTGTATGCCGCAGCCAATCTGCCGGAAAAGCACATTCTGATTCCATTGATTGTAGCTTACCAGACAATTAGCGATTATCTCGATAATTTATGTGACCGCAGTACTTCGCTGGATCCAGCGGATTTCAGACAGCTCCATCAGTCGATGCTGGATGCCGTTACACCTGAAGTGGAGCCGGCTGATTATTACGCGCTCCGGTCCGAAAGGGAGGACGGAGGTTATCTTCTCCGCCTTGTGCAGAAATGCCGGGATTGCATCGGGCAATTATCAGGATATGAAGCGGCAAAGCCCTACATAAGGGATTTGGCTGGGCTTTATACCGATTTGCAGGTATACAAGCACATCCATCCGGATAAGAGAGAAGCGGCATTGCTTGAATGGTGGTCCCGGCATGCACACCGGACACCGCATCTGCGGTGGAACGAGTTTGCGGCTGCAACGGGATCAACCTTGGGTGTATTCATGCTGTTCTTGGCTGCAACCGATCCGTTTCTGGATGACGAGGATGCATCGTCCATTCATGCGTCTTATTTTCCGAATGTATGCAGTCTCCACATTATGCTGGATTATCTTATTGATCAAGACGAAGACAGGCTGGGCGGCGATCTGAACTTTTGTAATTATTACGAAGATGCCGATACGATGCTGAACCGTATAGCTTCCATTGTTGAGTGGGCCCGGAAGGATGTCAGAACGATTCCCTCGACCCCTTTTCATCGTATGATCATTGAGGGGTTACTGGCGTTATATTTATCCGATCCAAAAGTCAGCGAGCAGCAACTGGTTCGCACCGTATCCAAACGTTTGATGAAGAAGAGCCCGATGACTCGGATTTTTTTCTACGTCAACAGCCGATGGATTCGTAAGCATAAGCATGAGTGA	MNNQELSRKVPRSPVGLMSRVYKFILPEVRSELEKWRREAEQIPDEELRKQALASIDTKRFHCQGGAVYAAANLPEKHILIPLIVAYQTISDYLDNLCDRSTSLDPADFRQLHQSMLDAVTPEVEPADYYALRSEREDGGYLLRLVQKCRDCIGQLSGYEAAKPYIRDLAGLYTDLQVYKHIHPDKREAALLEWWSRHAHRTPHLRWNEFAAATGSTLGVFMLFLAATDPFLDDEDASSIHASYFPNVCSLHIMLDYLIDQDEDRLGGDLNFCNYYEDADTMLNRIASIVEWARKDVRTIPSTPFHRMIIEGLLALYLSDPKVSEQQLVRTVSKRLMKKSPMTRIFFYVNSRWIRKHKHE				NA	NA	NA	NA	NA
AK002_04553	1191	yegT		Putative nucleoside transporter YegT	ATGAAACTTCCCGCTTCATCCAGACCGGATCAGAATTGGCTCCGCGCCTTTATGTTTACGATATTCGGCACGACAGCCCTTGTCATTTCTTATTTTCCGCTGTATTACAAAGAGATCGGCTTCAGCAGCGCGCAGATCGGCTATCTGTATGCCATCGGCCCGTTGATATCCATGTTCTCCAACATGATTTGGAGCTACACGAGCGACAAATACCGGACCATCAAGCGCATCATGAACATTCTGATTATCGGGCAGCTTGTCACGATGCTTATTCTATGGCAGGTTGCAAGCTTCGGCGTTGTATTGATTACGATCAGCTTGTTTTATTTCTTCTACTACCCGGTCTATCCGTTGGCGGATACGATGGCCATCCAGACGGCGCAGCGGTACGGTCGCAGCTTTACCGTCATCCGCGTATTCGGCTCGCTGGGCTACGCGTTCTTCGCCCTTGGCATTGGATATGCCATCGGTGCAGCGGGCGCTTCGGCTGCGCTGTCGATCGGCATCGGGATCGGCGTGTTTACGCTCATATGCTCCTTTCTTATCCGCGATGGCGTCGCGGCCAAGTCAGAGCCTGTGGAACTGGCAGCCCTGCTCAAAATATTGCGTTCGAAAGAAATATTGTGGTTCTTCGGCTGCACTTTCTGTCTTGCCATCGCCCACCGCATGAATGAAGCCTTTCTGACGCTCACCTTATCGGGGCTTGGTGCGGGCGAGGGGCTTATCGGGTGGTCCTTGATGATCTCGGCTGCCAGCGAGATCCCGATTTTTTTCCTGCTGAGCAAGTATGGCGACAAGATGAAGGAGCTGCCGCTGCTCGGCTTTGCAAGCCTGATGTTTGCGCTCCGCTTCCTGCTCATGGCGCTGGCGTCCGATCCGTTGTCGGTGCTCGCCGTCCAGTCGCTTCACAGCATTACCTTCGGCGTGTTCTATGTAACCGCAGTCCGTTATATTACCAGGATCATTCCGTGGCAGTACCGGGCGACCGGGATGGCGCTCTTCATTATTTTCTGGTCCAGCGTCTCGGGGCTTCTCAGTGGAGCTTTCGGCGGTTTGCTGTTCGAAGCTGCGGGGAGATCGGCCTTCTACCTGCTTGCAGCCCTCCTGTCCTTCGCTGCCTGCCTCGGCTTTATCTACCGGCACCTCTTCGCCAAGCCGGAGGAGATGCATGCCTCTGGATTCGGCGCTTAG	MKLPASSRPDQNWLRAFMFTIFGTTALVISYFPLYYKEIGFSSAQIGYLYAIGPLISMFSNMIWSYTSDKYRTIKRIMNILIIGQLVTMLILWQVASFGVVLITISLFYFFYYPVYPLADTMAIQTAQRYGRSFTVIRVFGSLGYAFFALGIGYAIGAAGASAALSIGIGIGVFTLICSFLIRDGVAAKSEPVELAALLKILRSKEILWFFGCTFCLAIAHRMNEAFLTLTLSGLGAGEGLIGWSLMISAASEIPIFFLLSKYGDKMKELPLLGFASLMFALRFLLMALASDPLSVLAVQSLHSITFGVFYVTAVRYITRIIPWQYRATGMALFIIFWSSVSGLLSGAFGGLLFEAAGRSAFYLLAALLSFAACLGFIYRHLFAKPEEMHASGFGA	PGPT0028051_426	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID,PGPT0028051-hcaT-K05820	NA	NA
AK002_04555	198	cspB_1	COG1278	Cold shock protein CspB	TTGAAAGGTACAGTTAAATGGTTTAACGCAGAAAAAGGTTACGGCTTCATTTCCGTTGAAGGTGGCGAGGATGTATTCGTACACTTCTCCGCAATTCAAGAAGAAGGCTTCAAGAGTTTGGAAGAAGGTCAAGCGGTTGAGTTCGACATCACAGAAGGTAACCGTGGTCCTCAAGCAGCCAACGTAACAAAACTGTAA	MKGTVKWFNAEKGYGFISVEGGEDVFVHFSAIQEEGFKSLEEGQAVEFDITEGNRGPQAANVTKL	PGPT0014675_9649	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK002_04556	234			hypothetical protein	ATGATCAAAAAACATGAAATATACAAAAAAGACAAGTGGAACATGATGACGGTCGAAGTTCAGGGCCGATACATCGTTCTTCGCGAAATTTCCGACCAGTGGGGTGAAGAGACCCATACCTTCATGAGTCGGCCAGCCTTGATGCACTGGGCTCAAAACCGCTTTCCCAAAGAAGATTTCGAAGGCCGGGAAGATGAGTGGAGAGAAATGATGGCTGCCTTTAAGCAGGTGTAA	MIKKHEIYKKDKWNMMTVEVQGRYIVLREISDQWGEETHTFMSRPALMHWAQNRFPKEDFEGREDEWREMMAAFKQV				NA	NA	NA	NA	NA
AK002_04557	183			hypothetical protein	ATGGATTATACGAATATCGTCATCTTCATTATTCTGGCCTTCAGTCTGGGTGCCATCATGATCATGTACCGGGATCGGATACCCCAAAGACTGAGAAAGGGGATGGCCCTGATTGCCGTCGCCTTTATCTTGTTTGCCTTTTACCTTATTGTATACAGTTTCTTGAATCTGGGTTCCTCGTAA	MDYTNIVIFIILAFSLGAIMIMYRDRIPQRLRKGMALIAVAFILFAFYLIVYSFLNLGSS				NA	NA	NA	NA	NA
AK002_04558	1920	pepF1_2		Oligoendopeptidase F, plasmid	ATGAGAGGCGCCAAGGTGCTCTGCATTACGCTTGCCATCAGCCTGCTTGCTCTATCCGCTGCCCGCTCCGAAGTCTTGTCTGAAGGAACCCGGACTCCAACTAATCCATATCATTCAAGGAGGATTTCCATGGAACAATTGTTAAAACGCGCTGATGTCCCTAAGGAGCATCAATGGAAACTCGAGGATTTATTTGCTGATCAAAAGGCTTGGGATGCAAGCTTTGCGGAGCTGAAGAATCTGCTGAAACGCGCCGCCGATTACCAAGGCAAGTTAAACAACGCAGCTTCCATCAAGGAATGCTTCGAGCTCGAAGACGAAATCTCATACCATGCCGAACGCTTATACGTATACGCCCATATGCACCATGACGAAGATACGGCAAACCCTACATATCAGGCACTAACCGCCAAAGCCAAAAAACTGAACGTCGAAGCCGGAGAAGCCCTCTCTTTCATCACGCCTGAAATTCTGTCCCTGTCCGAGGCGGAACTGGATAAACTGATCGATGACCCTTCCCTGAAGGAATTCAAATTCACGCTGACCGAAATGAAACGGGAGAAAGCGCACGTGCTATCCAAAACGGAAGAAGCGCTGCTGGCTCAAGTCGGCAACCTCTCCTCTGCACCGCAGACCATTTTCGGCATGCTCAACAATGCGGACATGAAATTCCCGAAAATCAAAAACGAGGACGGCAAGGACGTCGAGCTTACGCACGGCAATTATATTCAATTCCTGGAGAGCCCGAACCGCGAGGTTCGCGAGCGTGCCTTCAAAGCCGTCTACGAAACCTACGGCAAGCAGAAAAACACGATTGCGGCTACGCTGAACGCCAACGTTAACAAAAATATGTTCTACTCCCGCGTCCGCAAGTACCCTTCCGTTCTGGAAATGGCTCTCTATGGGGATAACATTCCGAAGGAAGTCTACACGAACCTGATCGACACCATCCACGAAAGCCTGCCGCTCCTTCACCGTTACATGGAGCTCCGCAAGAAGCTGCTTGGCGTGGATGAGCTTCATATGTACGATTTGTTCGCTCCGCTCGTAGAAGAGTACAAATGGGATATCACTTACGAGGAAGCGAAACAAATGACCAAGGAAGGCCTTACGCCGCTTGGTGATGATTACCTCAGCAGCCTGCAGGAAGGCTATGACAACGGCTGGATCGACGTGTACGAGAATGAGAACAAACGGACCGGCGCGTACAGCTGGGGCGCATACGGCACCCATCCATATGTTCTGCTGAACCATAAAGATAACCTGAACAGCATGTTTACACTTGCCCACGAGATGGGTCATGCGCTTCACTCCTACTACTCCGACAACGCCTTGAAATACCGTGATGCGCAGTACACCATCTTCCTGGCCGAAGTGGCGTCCACCACGAACGAGGCGCTGCTGATGGATTACCTGCTGAAGAACGCCAAGGATCCGAAGCAGAAGATGTATCTGCTTACCTATTATGCCGATCAATTCCGGACGACGGTATTCCGTCAAACGATGTTTGCCGAGTTCGAGAAGATCGTGCATGAACGCGTGGAAAGCGGCGAATCCCTGACGCCACAGGATCTTTCCGACATCTACTACGAGCTGAACGTGAAATATCACGGCAAAGGCATGCAGGTGGATAAAGAGATCGGCATGGAATGGGCGCGGATTCCTCATTTCTACAACAGCTTCTACGTGTACAAATACGCGACGGGCTTCTCGGCTGCGACCAGCTTCTCCAAGCAAATCCTGGAGGAAGGCCAGCCTGCCGTTGACCGTTATCTCGGCTTCCTGAAGAGCGGAGGCAGCGACTACTCCATCAACATCCTCAAGAAAGCCGGCGTGGATATGTCTTCTCCGGAGCCGATCCGTGAGGCGATGAGCGTGTTTGAAGACGTCATCAACCAGATGGAGCAGTTGACGAAATAA	MRGAKVLCITLAISLLALSAARSEVLSEGTRTPTNPYHSRRISMEQLLKRADVPKEHQWKLEDLFADQKAWDASFAELKNLLKRAADYQGKLNNAASIKECFELEDEISYHAERLYVYAHMHHDEDTANPTYQALTAKAKKLNVEAGEALSFITPEILSLSEAELDKLIDDPSLKEFKFTLTEMKREKAHVLSKTEEALLAQVGNLSSAPQTIFGMLNNADMKFPKIKNEDGKDVELTHGNYIQFLESPNREVRERAFKAVYETYGKQKNTIAATLNANVNKNMFYSRVRKYPSVLEMALYGDNIPKEVYTNLIDTIHESLPLLHRYMELRKKLLGVDELHMYDLFAPLVEEYKWDITYEEAKQMTKEGLTPLGDDYLSSLQEGYDNGWIDVYENENKRTGAYSWGAYGTHPYVLLNHKDNLNSMFTLAHEMGHALHSYYSDNALKYRDAQYTIFLAEVASTTNEALLMDYLLKNAKDPKQKMYLLTYYADQFRTTVFRQTMFAEFEKIVHERVESGESLTPQDLSDIYYELNVKYHGKGMQVDKEIGMEWARIPHFYNSFYVYKYATGFSAATSFSKQILEEGQPAVDRYLGFLKSGGSDYSINILKKAGVDMSSPEPIREAMSVFEDVINQMEQLTK	PGPT0020965_2019	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
AK002_04559	327			hypothetical protein	ATGAAAATTCAATGGTCGTTAATCGCAGCCTTATTGTTTGCCCTGATTACGGCTGTGTTCGCCGTCATCAATGTCAATCCGGTTGCCGTGAACCTGTTATTCGGCACCGTCAACGTACCGCTGATTCTGCTGATTATCGGTTGCTCGCTGATCGGGGGACTGATCGTCGGCACGTTCGGGATTTACCGTCAATATCAAATGCAGAAGGAAATCCGTTCGTTAGCGGAGCAGCTCATACATATCCGTGAAGTAACGGGATACACCCCTGAAATACAAGCGGCGGAAGAGGAAAACAAGAAAGATCAGAAGGACGCTCCCGTTGAATAG	MKIQWSLIAALLFALITAVFAVINVNPVAVNLLFGTVNVPLILLIIGCSLIGGLIVGTFGIYRQYQMQKEIRSLAEQLIHIREVTGYTPEIQAAEEENKKDQKDAPVE	PGPT0014665_513	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
AK002_04560	1035	ypdE	COG1363	Aminopeptidase YpdE	GTGTCGATACAACCGAATGAAACTTACGTGCTGGACCTGCTAAAAGAACTGCTGGATACGCCGAGCCCTACCGGATATACCCACGACATCATGAAGCGGATCGAGCAGGAAGCCGCTTCGCTTGGAGTTTCCCTGGAATGGAATGAGAAAGGCGGAGCCATCCTGTCCGTTCCCGGACAAGACGGCAGCAGAACCATCGGCCTGAGCGCTCATGTGGACACGCTCGGCGCAATGGTTCGTGCCGTGAAATCGGAAGGAACGCTCCGGCTTACCTCCGTCGGCGGATACATGATGAACAGCATCGAGAATGAATACTGCATCATCCATACGCGCAGCGGCAAGAAATATACGGGCACGATCCTGTCCACGCATCCTTCCGTTCACGTGTACAGCGATGCCCGTGATTTCAAGCGCCAGGAAGCCCATATGGAGGTCCGGATCGACGAATTGGTGGAGTCTGCCGATGATGTGAAGAAACTCGGAATCGGCGTTGGTGATTTTGTGTCCTTTGATGCGCGTGCGGTCATTACGCCGAGCGGTTACATCAAATCCCGCCATCTGGATGACAAAGCCAGCGTTGCCGCCCTCTTCGGCTTGCTCGAAAGCATGAAGCGGGATAACTGGAAGCCTGCCTGCAATGTGAAGCTTCTCATCTCGAACTATGAAGAGGTCGGACATGGCGCCGCCTACATTCCTGCCGACATCAATGAACTGATTGCGGTCGATATGGGCTGCATCGGCGATGACCTGAGCTGCAAGGAAACCGATGTATCCATCTGCGCGAAGGATTCTTCCGGTCCTTACGACTACGGCATGACCAGCCGTCTGATCCAGTTGGCTGAAAGCGAAGGCATTGCTTATGCGGTGGACGTGTACCCGCATTACGGCTCCGATGCATCCGCGGCGCTCTCCGCCGGCAGCAACATCAAAGCTGCGCTGATCGGTCCCGGCGTTCATGCCTCCCATGCGATGGAAAGAACGCATAAACAGGCTGTTCTTAACACCGTTAAGCTGCTGGCTGCCTACGTGAAATAA	MSIQPNETYVLDLLKELLDTPSPTGYTHDIMKRIEQEAASLGVSLEWNEKGGAILSVPGQDGSRTIGLSAHVDTLGAMVRAVKSEGTLRLTSVGGYMMNSIENEYCIIHTRSGKKYTGTILSTHPSVHVYSDARDFKRQEAHMEVRIDELVESADDVKKLGIGVGDFVSFDARAVITPSGYIKSRHLDDKASVAALFGLLESMKRDNWKPACNVKLLISNYEEVGHGAAYIPADINELIAVDMGCIGDDLSCKETDVSICAKDSSGPYDYGMTSRLIQLAESEGIAYAVDVYPHYGSDASAALSAGSNIKAALIGPGVHASHAMERTHKQAVLNTVKLLAAYVK				NA	NA	NA	NA	NA
AK002_04561	1938	taeA		ABC-F type ribosomal protection protein TaeA	ATGAATATATTGACCGTGGAACAGGTAACGAAAAGCTATGGAGACAAAATTCTGTTTCAGGATGCTTCCTTCGGGATGGAGGACCAGGATAAAATCGGGATCATCGGCGTAAACGGCACGGGGAAATCCACGTTTATGCGCGTTATCGCGGGGCTTGAGCCGCCGGATGCCGGTAAAATATCGATGGGCAATCGCATCCGGGTGCGTTATCTGGCCCAGAACCCCGAGTTTGATCCGGACAATACCGTCCTGCAGCAGGTATTTGAGGGCGATCTTCCAGAGATGAAGGCGGTGCGGGAGTACACCGAAACGATGGAACTGCTGGAGCTGCATCCGAATCGCGAAGATCTGCAGCAGAACCTGCTGAAACTCAATCAGACGCTGGATACGCTGCAGGCGTGGCAGCTGGAAAGCGATGCGAAAACCATCCTGTCCAAGCTGGGCATCCGGAATTATGACGCGAAGATGGGGGCGCTCTCAGGCGGCCAGCGTAAGCGGGTCGCATTGGCCGCGGCCTTGATTCAGCCTTCCGATTTGCTCATCTTGGATGAGCCGACGAACCATATCGACAATGAATCCGTGGCCTGGCTGGAACAGTATCTGCAGAAGCGCCGGGGTGCGCTGCTCATGATTACGCATGACCGGTATTTTCTGGACCGGGTGGCCAATGTCATGCTGGAGCTGGATCACGGGCGGCTGTTCCGATACGAGGCGAATTACAGCCGCTTTCTGGAACTGAAGGCGGAGCGCGAGGAGCGTGAGGCTGCTTCCGAGCAGAAGCGCCAGAATTTGCTGCGAAGCGAACTGGCCTGGATCCGCCGAGGAGCCAAGGCGCGTACGACCAAGCAGAAGGCGAGGATCGAACGATTCGAGAAGCTCAAGGATCAGGAGATGGTACACAGCTCCGGCGAACTGGACGTCTCGGTCGCTTCCACCCGGCTGGGACGAAAAATTCTGGAGATTGAAGGTCTGCGGAAGAAGAGCGACGACAAAGTTCTCATTCAGGATCTTTCCTACATTGCCGTTCCCGAGGATCGGATTGGCATCGTTGGCCCGAACGGCAGCGGCAAATCCACGCTGCTCAATCTGATTGCCGGGCGGCTTCAGCCGGATGCCGGGGAAGTCGTGCTTGGCCCCACGGTCAAGCTCGGTTATTTCACGCAGGAGCATCAGGAGATGGACGGCAGTCAGCGAGTGATTGAGTATATCAAGGATGAAGCGGAGGTTGTCCGCACGGCGGACGGCTCGGCCATTACCGCGGCCCAGATGCTGGAACGCTTCCTGTTCCCGCCGGCGCTGCAGTGGACGCCAATCGCCAAGCTTTCGGGAGGCGAAAAGCGCAGGCTGTACCTGCTGCGGGTGCTGATGAGCGCGCCGAACGTGCTGCTTCTCGATGAACCGACCAATGATCTGGACATTCAGACGTTGTCCGTCCTGGAGCAGTACCTGGATGAATTCCCGGGCGTCTGCATCGTGGTATCCCATGATCGCTTTTTCCTGGATCGAACGGTGGACAAGATCATGGCGTTTGAGGGCAACGGACAGATCCGTGTCCATGTCGGCTCTTACAGCGAATATGCCGAATGGATGCAGCGCCATGGCGGCGAAGCCGCCGGGGGCAAGGCGGAAGCATCCAGTGCCAAGCCTGCTTCGGGAGGCTCAGGCAGCGGTTCCGCTCAGGAAGCGCCGCGGGAGCGCTTGAAATTCAGTTATAAAGAACAGCGGGAGTACGAGCAGATTGACGGTCTTATCGAAGCCGCCGAGAACAAGCTCGCTTCGATTCAATCGGAGATGGAGACCGCCGGCAGCGATGCGGCCAGGCTTCAGGAGCTGATGAAGTCCCAAGAGGAGACGGAAGGCGAGCTGGAGCATTTGATGGAGCGCTGGACCTATCTGAACGAGCTTGCGGAGAAGATTGAGCAAAGCAAGAAATCTTGA	MNILTVEQVTKSYGDKILFQDASFGMEDQDKIGIIGVNGTGKSTFMRVIAGLEPPDAGKISMGNRIRVRYLAQNPEFDPDNTVLQQVFEGDLPEMKAVREYTETMELLELHPNREDLQQNLLKLNQTLDTLQAWQLESDAKTILSKLGIRNYDAKMGALSGGQRKRVALAAALIQPSDLLILDEPTNHIDNESVAWLEQYLQKRRGALLMITHDRYFLDRVANVMLELDHGRLFRYEANYSRFLELKAEREEREAASEQKRQNLLRSELAWIRRGAKARTTKQKARIERFEKLKDQEMVHSSGELDVSVASTRLGRKILEIEGLRKKSDDKVLIQDLSYIAVPEDRIGIVGPNGSGKSTLLNLIAGRLQPDAGEVVLGPTVKLGYFTQEHQEMDGSQRVIEYIKDEAEVVRTADGSAITAAQMLERFLFPPALQWTPIAKLSGGEKRRLYLLRVLMSAPNVLLLDEPTNDLDIQTLSVLEQYLDEFPGVCIVVSHDRFFLDRTVDKIMAFEGNGQIRVHVGSYSEYAEWMQRHGGEAAGGKAEASSAKPASGGSGSGSAQEAPRERLKFSYKEQREYEQIDGLIEAAENKLASIQSEMETAGSDAARLQELMKSQEETEGELEHLMERWTYLNELAEKIEQSKKS				NA	NA	NA	NA	NA
AK002_04562	807			hypothetical protein	ATGGATTGGCTGATCGGGGCAGCGGGTGCCGTCATCGTGGCAGGAGCCGCTTACAGGAAACGATCGTTATCGGAATCCGGAGCCTTAGCCGCTATTCTGATGGGTACCATATATTACGGAGCAGGGAACGCGTTTTGGTTCGGAACCCTGCTTCTTTTTTTCATAACGTCCACGCTGCTCTCGCGGTATGGGAAGCAGCGGAAGGCGGACCTGGAGAAATCCTATGCCAAGACCGGCCGGCGGGATGCCGGTCAGGTCTTGGCCAATGGCGGCATCGGCATGGTGCTGTGTCTGTTGAACGTATGGATTCCGTCCCATCTGTGGGTGTACCTGTTTATAGGCGTCATGGCTACGGTGACGGCAGATACCTGGGCCACGGAGGTAGGCAGCCTTAGCCGGAAGCCTCCGCGTTCCGTGCTGAACGGAAGGGTGCTGACAGCCGGGGAATCCGGCGGCGTGTCCTGGGTAGGCTCCGCGGCGGCCGCAGCAGGGAGTATGCTGATTGGGGCAGGCGGATGGCTGCTGGCCGAGTGGAGCGGCATGAATGCGGGTCTGTTGCCGTATGTCCTGGCTGCCCTTGCGGGCGGCATGGTCGGAGCTTTTGCCGATTCGTACCTCGGTGCGACCATGCAGGTCATGTATCGCTGCCCGTCGTGCGGCAAATCGGTGGAAGTGTCTCGACATTGCGGCCAGGCTACGGTGCGCATGCGCGGACATGCCTGGATGTCCAACGATGCGGTCAATCTGATCAGCTCATTGCTTGGCGGCGCGGCAGCTTATGGGATTGCGGCGTGGATTGCGTTATAA	MDWLIGAAGAVIVAGAAYRKRSLSESGALAAILMGTIYYGAGNAFWFGTLLLFFITSTLLSRYGKQRKADLEKSYAKTGRRDAGQVLANGGIGMVLCLLNVWIPSHLWVYLFIGVMATVTADTWATEVGSLSRKPPRSVLNGRVLTAGESGGVSWVGSAAAAAGSMLIGAGGWLLAEWSGMNAGLLPYVLAALAGGMVGAFADSYLGATMQVMYRCPSCGKSVEVSRHCGQATVRMRGHAWMSNDAVNLISSLLGGAAAYGIAAWIAL				NA	NA	NA	NA	NA
AK002_04563	624	ycgM	COG0179	putative protein YcgM	ATGTGTGCCCTAGTGAATAACGTTTATTGTGTAGGACGTAATTACCAACTGCATGCGGCGGAGCTCGGCAATGCCGTACCGGAAGAGCCGATGATTTTTCTTAAGCCCTCGCATGCCGTCGTTCCGCTGGACGGCAGCGTGCTGAAGCTGCCGTTGGACAGGGGCAGCCTTCATTTTGAAGGCGAGCTTGTTATTCAGCTAGCGGAGGATTACGCGCCAGGCAAGACCGTGGACGAGCTTGTAAAAACGATGGCCCTGGGCATCGATTTCACGCTGCGTGACGTACAGACGGTCATTAAGGAGAAAGGACACCCGTGGACGGCGGCAAAAGCGTTTAAATCTTCCGCGCCGCTTACGCCATCCATTGCTTTCCCGGGAACCGCCAAGCTTGGGGATAAGGATTTTACCGTTCGGAAGAACGGCGCCCAGGTCCAGCGGGGGAATGTGAAGGATATGATCTTCTCCCTTCAGCGCATCATCGATTACATCGGCGAGCATTACGGTCTTGGTCAAGGGGATTTGATCTTCACAGGCACGCCGGCCGGCGTTGGACCCACGGAATCCGGTGACGTGTTCGAATTGTTCTGGGGAGACGTCCGTCTGGGCCGCTGCGAAATCGGGTAA	MCALVNNVYCVGRNYQLHAAELGNAVPEEPMIFLKPSHAVVPLDGSVLKLPLDRGSLHFEGELVIQLAEDYAPGKTVDELVKTMALGIDFTLRDVQTVIKEKGHPWTAAKAFKSSAPLTPSIAFPGTAKLGDKDFTVRKNGAQVQRGNVKDMIFSLQRIIDYIGEHYGLGQGDLIFTGTPAGVGPTESGDVFELFWGDVRLGRCEIG	PGPT0001620_1204	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001620-nagK-K16165	NA	NA
AK002_04564	774	glpQ_6	COG0584	Glycerophosphodiester phosphodiesterase	ATGAACAATTTATGCGTGGCTCACCGGGGGTTTTCCGGGAAAGCGCCTGAAAATACGCGCGCAGCCATTCAGATGGCGATGGATGAGCCCTTCGTGCATTGGATGGAAATTGATGTGCAGCTGACTCAGGACGGGGTCCCTGTCGTGATCCATGACTTCAGCGTGGATCGTACGACGACCGGGAAGGGCAAGGTGAAGGATCTGACCTGGCAGCAAATCCGGAGGATGGACGCCGGAGAATGGAAGGGACGCCAGTTTAGGGGAGAGCAGGTTCCTTCGCTGGATGAGGTCCTGCAGCTGGTCAAAGGCCGATTGAAACTTAACATCGAACTCAAAACGAGCGGGGACATGTATCCCGGCTTGGAAGCCGCTGTCCTGGAGCGGATTCAAGCCCACCGGATGCTGCCGGACGTGGTGCTTACTTCGTTTGAACCGAAAGCTTTGATGAAGGCCAAGGAATTGGAGCCCGACGTGAAAACCGGACTTATCATCGATGCGCATCCTCGCAATTTGCTGGCACGCTTGAAGCAAATGAAATGTTCCTTTTTATCCATCGGCTATTCCCACCTGGATGCGGCTTTTGCGTCAGATCTGGTGAAGAACGGCATTACGCCCATGGCTTGGACGGTGGATGATGCGAAGAGCATGAGATCGCTCGCCCGAATGAATCCCGCCATCATGATCTGTACGAACCGGCCCGATACATGGGGCCAAATCTTTATTCATAAAATTGCACCAAAAGTTCCGTTCTGGCGAAGAAAATGGAGGTTTTAA	MNNLCVAHRGFSGKAPENTRAAIQMAMDEPFVHWMEIDVQLTQDGVPVVIHDFSVDRTTTGKGKVKDLTWQQIRRMDAGEWKGRQFRGEQVPSLDEVLQLVKGRLKLNIELKTSGDMYPGLEAAVLERIQAHRMLPDVVLTSFEPKALMKAKELEPDVKTGLIIDAHPRNLLARLKQMKCSFLSIGYSHLDAAFASDLVKNGITPMAWTVDDAKSMRSLARMNPAIMICTNRPDTWGQIFIHKIAPKVPFWRRKWRF	PGPT0018470_5674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_04565	1320			hypothetical protein	ATGCAGCATCTGTCACGATCAGAGAAAAGCAAGGCCGAGAAGAAGGCCCGTAAGCAGCGAACCGGACAGGTTTGGCTCATTCTAAACCTATGCTTGATTATTATGATCGCTGCTTTGCTTGTCTATCATTTTAAATTCAAGGAAGATCCGGTTTCGCAAACGGCTTATCCCCCTGGTATGCCGGACTTTGGCATGGAAGGGGAGCAGGCGGGAAGCAACGGCTCCGGGCAGCAGGACGAAGGCGCGGGCACGGATTCGGATCCTTCGAAGACGGCGGAGCCCGGCGAACCTCCCGATTCTGCGATGACCGAGCCTGTTGGTGGCGCAGCGGATGAACCTGCCGATGACGAGACGGCAGCGCGGGTGGTTATGCATTTTGCGGGGGATACGTTGTTCTCGGGCAAGGTGGAGGCTGAGCTGAAGAAGCATGGATATGATTATCCCTACAAGCACCTGGGCACCGCATTCCTGGAGGACGATCTAACCGTGCTTAATCTGGAAACCCCGGTTACGACCGGAGGCGTTGGCGCCGCCAACAAGAAATTCGTATTCAAGTCCTCTCCGGACGTATTGCCCGCCCTCCGGGATGCCGGGGTGGAAGCCGTTAATCTGGCTAACAATCACATCCTGGACCAGGGGCAGGAGGGGCTATTGGATACCTTGAAGCACCTGAAGGACCATGATATCCGTTATGTGGGCGCGGGCCGAAACGAGGAAGAAGCCTTTGCGGCCCAGTATTTCGAACTGCAGGGCATGACGGTTGCCCTGCTGGGCTTCAGCCGCGTCCTGCCGGAGACGACCTGGTATGCGCTGGAGAACAGGCCGGGGGTCGCCGGGGCTTATGACCATGTGCTGCCCAAGGCGGTTGAAGCGATCCAGGAGGCAAGGAACAAGGCCGATCTGGTGGTTGTCATCGCCCATTGGGGGGAGGAGCTTCACAAGACGCCGAATGTCCATCAGATCAATCTGTCACGCGCATTCATTGACGGCGGCGCAGATCTGATTATCGGCGGCCACCCGCATGTGCTGCAGGGATTGGAGCAGTACAAGGGCAAGTGGATTGCGTACAGCACCGGCAATTTCATCTTTACCAAATCATCGAATGCGGATACGTGGAAAACAGCCGTGTTCCGGGCTTCATGCAGCAAGCAAGGAGACTGCGACCTGAAGCTGACGCCTTACCGTACGGAGATCGGACAGGTCATTCCGCTTGAAGGCAAAGAAGCTGAAGCCCTGCTGAAAGAGGTCCAGGAGCGATCCGTCGGCGGCGTCAAAATAGCGCTTGATGGTGAAGTTATAGCAGGCAAGGCCGCAGACTAA	MQHLSRSEKSKAEKKARKQRTGQVWLILNLCLIIMIAALLVYHFKFKEDPVSQTAYPPGMPDFGMEGEQAGSNGSGQQDEGAGTDSDPSKTAEPGEPPDSAMTEPVGGAADEPADDETAARVVMHFAGDTLFSGKVEAELKKHGYDYPYKHLGTAFLEDDLTVLNLETPVTTGGVGAANKKFVFKSSPDVLPALRDAGVEAVNLANNHILDQGQEGLLDTLKHLKDHDIRYVGAGRNEEEAFAAQYFELQGMTVALLGFSRVLPETTWYALENRPGVAGAYDHVLPKAVEAIQEARNKADLVVVIAHWGEELHKTPNVHQINLSRAFIDGGADLIIGGHPHVLQGLEQYKGKWIAYSTGNFIFTKSSNADTWKTAVFRASCSKQGDCDLKLTPYRTEIGQVIPLEGKEAEALLKEVQERSVGGVKIALDGEVIAGKAAD				NA	NA	NA	NA	NA
AK002_04566	942	hemH	COG0276	Ferrochelatase	ATGAAGAATAAGTTTGGCGTATTGGTCATGTCCTACGGCACGCCGGAGAGCATGGAAGGAATCGAAAGTTATTATACGCATATCCGCCGCGGAAATAAGCCGTCGGAAGAGCAGCTCAAGGAGCTGACGGACCGCTATGAGGCGATTGTGGGAGGCGTGTTTCCGCTTCGCGAGAACACGGACCGGCAGGTCCGCACGCTGCAGGATACATTAAATGCGGATCCCCGGGCCATCGATCTTGAGTTTGTATGCTACCAAGGCTTGAAGCACGCGGCTCCGTATATCGAAGACGGCGTGGAGCAAATGGTCCGGGACGGCATCAAGGAAGCCGTAGGCATCGTGCTGGCTCCCCATTACTCCACCATGAGCATCGGATCCTACGTGAAGCGTGCGCAGGCGAAAGCCGATGAGCTGGGACTTCAGATTTCGTTCGTGGAGAGCTATCACATGCATCCGAAACTGATCGAGGCTTTTGCAGACCGGGTGTCGGCGAAGCTGAACCAGTTCGAGCAAGCGGGGGCTGTCCGGGACAGCGTGAGGGTGCTGTTCAGTGCCCACAGCCTTCCGGAACGCATCTTGTCCGTCGGAGATCCTTATCAGGATCAGCTGCTTGAGACATCCAAGGCCGTAGCCGAGAAGGCAGGCGTGAAGCAGTGGCAGTTTACGTGGCAGAGCGCCGGCCGGACGGCGGAGCCTTGGCTGGGCCCGGACATTCTGGATACGCTGCAGACGCTGAACAAAGAAGAACAGGTGGAGGACGTGCTGGTCGCGCCGGTCGGTTTCGTATCGGATCATCTTGAGGTGCTGTACGATTTGGATATCGAAGCCAAAAGCATTGCCAAGGAGATGGATATGCGGCTTGAGCGCATCGACTCCTTGAACAGCGACCCGCTCTATATGGAGGCGCTCAGCGACTCCGTGATCACCTTGATTGGACTGTAA	MKNKFGVLVMSYGTPESMEGIESYYTHIRRGNKPSEEQLKELTDRYEAIVGGVFPLRENTDRQVRTLQDTLNADPRAIDLEFVCYQGLKHAAPYIEDGVEQMVRDGIKEAVGIVLAPHYSTMSIGSYVKRAQAKADELGLQISFVESYHMHPKLIEAFADRVSAKLNQFEQAGAVRDSVRVLFSAHSLPERILSVGDPYQDQLLETSKAVAEKAGVKQWQFTWQSAGRTAEPWLGPDILDTLQTLNKEEQVEDVLVAPVGFVSDHLEVLYDLDIEAKSIAKEMDMRLERIDSLNSDPLYMEALSDSVITLIGL	PGPT0008485_4490	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
AK002_04567	1059	hemE	COG0407	Uroporphyrinogen decarboxylase	ATGACCTATAACGATCAATTCATCCGCGCCTGCCGCAAGCAGGAAGTGGACCACGTTCCTGTATGGTACATGCGACAAGCGGGACGCTACGACCCGGAGTATCGAAAGATTAAAGAAAAGTACTCCCTGCTGGAAATATGCAGTCAACCCGAGCTGGCGGCAGAAGTAACCTTGATGCCGGTACGGAAGCTCGGCGTGGACGCGGCTATTTTATATTCTGACATTATGAATCCCGTTGCCTCGATCGGGGTAGACTTCGATATTGTGAAAAATATCGGTCCCGTGATCGACAATCCGATCCGAAACGCAGCGGATGTAGAGAAGCTTCGCCCGATCGACGTGGAAGGTGATCTCGGCCATGTCTTGGAGACGATTCGCATTCTGGACAAGGAGCTCGACGTTCCGCTCATTACGTTTGCCGGTGCTCCGTTCACGATTGCCAGTTATCTCATCGAAGGCAGACCTTCCAAAAATTATCTTCGCACGAAAGAGCTTATGTACAGCGAGCCGAAGGTATGGTTTTCGCTGATGGACAAGCTCGGCGACATGGTGATCGCTTATTTGCGTGCCCACGTGGCAAACGGCGGGAAAGCGTTTCAATTGTTCGACAGCTGGGTGGGAGCTTTGTCTCCAAAGGATTTCCAAACGTTTGTCCTTCCAACCATTCAGCGTATCTTTGCCGAGCTTCAGGACCTGAGCGTTCCGAAGATCTATTTCCCGGGGGTAAGCTCAGGAGAGCTGCTGCCTACGCTTACGGATCTCAGCACGGATGTCATCGGTCTCGACTGGCGAGTGTCCATTGCGGAAGGACGCCGCCGCTTGGAGCATAAATATGCCGTTCAGGGCAATTTGGATCCGACGGTTCTGACCGGGCCTATGCCGGTCATTCAGCAGTATGCCAAAGAAATTATCGATCAGGGGATTCAGGAGCCGGGCTTTGTGTTTAATCTAGGACACGGTTTATTCCCGGAGGCTTCCCTTGAGAAGTTGCGTGAGCTGACCTCGTATATTCACGAATACTCCGCTCAAGCACTGCAGGCAGGAGCACAACGCTCTTAA	MTYNDQFIRACRKQEVDHVPVWYMRQAGRYDPEYRKIKEKYSLLEICSQPELAAEVTLMPVRKLGVDAAILYSDIMNPVASIGVDFDIVKNIGPVIDNPIRNAADVEKLRPIDVEGDLGHVLETIRILDKELDVPLITFAGAPFTIASYLIEGRPSKNYLRTKELMYSEPKVWFSLMDKLGDMVIAYLRAHVANGGKAFQLFDSWVGALSPKDFQTFVLPTIQRIFAELQDLSVPKIYFPGVSSGELLPTLTDLSTDVIGLDWRVSIAEGRRRLEHKYAVQGNLDPTVLTGPMPVIQQYAKEIIDQGIQEPGFVFNLGHGLFPEASLEKLRELTSYIHEYSAQALQAGAQRS	PGPT0008465_2996	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
AK002_04568	1212	sbnD_1		Staphyloferrin B transporter	TTGACCAATTGGAAAATCAATCTCATTGTGCTTTGGTTCGGGCAGTTCTTGGTCAACTCCGGGATGACCATGATCACCCCGTTCCTGACATTGTATTTAGCCCAGGACCTGAATGTCGTTGGAGACCGGGAGATAGGAGTCTGGGCCGGATTGATCTTTGCGGCCAACTTCCTGACCTCGTTTATTTTTCAGCCGATCTGGGGAAAAGTCGCCGATAAGTACGGACGCAAAATCATGCTGCTGCGCTCGGGCTTCGGCATGGCGCTTGTCATCGCATGCATGGGCTTTGCCACCCATCCGTGGCATCTGCTGGCTCTTCGCCTGCTGAACGGTACCATATCGGGATTTAACCCTGCAGCGATATCACTCGTATCGGGCACGACGCCCAAGAATCGGATGGGGTTTGCGATGGGCATCATGCAATCCGGACAAGTCGCCGGCACCATACTCGGTCCGTTGATCGGCGGACTCATGGCCAGCTGGGTCGGCTTCCGGCCGATTTTCTATATTACGGGCGGGTTAATCTTTACGGCCTCGCTGCTCGCCTTGTTCCTCGTCAAGGAAAACTTCAACCGCGAGCAGGCCGCCAAGGCACCGCAGCCTTCGGTTATCGCCGGGCTCAAGGAGTTGAGCCATATTCCGCAGCTGCCGGCGTTATTTGCCGTCACGTTCCTGCTTCAATTCGCGATGATCAGCCCTATGGCACTGCTCCCGCTGTATGTTCAGAAGCTTCATGGATCCGCGGTGGATATCGCGATATGGGCCGGATTCGTCGTGGCGGTCACAGGGCTGTCGAACATGATCGCCTCCCCGATTCTCGGCAAGCTCAGCGACAAGGTCGGCGCGCACCGCATACTGACGTACGCCTTGATCGGTACGGGACTTACGTTGATCCCGCAAGCCTTCGTGCAATCCGTGTGGCAGCTGATCATCGTGCGGTTCATGATGGGCGTGTTCATGGGCGGGCTGCTGCCGAGCGTCAACGCGCTGATTCGCTCCTACACGCCGGACGGCATGGAAAGCCGCTCCTTCGGCTTCAACACAAGCTCGCTTGCGCTTGGCAACATGCTGGGCGCGGTGATCGGCGGATTCTTATCCGGATTCATCGGAATCGAAGGATTGTTCATTACATCCGGCTGCCTGCTGATCATCAATATGTTATGGGTAAGGCGGAAACTGTTCTCGCATAAGCCTTCGCCCAAATACCGTTGA	MTNWKINLIVLWFGQFLVNSGMTMITPFLTLYLAQDLNVVGDREIGVWAGLIFAANFLTSFIFQPIWGKVADKYGRKIMLLRSGFGMALVIACMGFATHPWHLLALRLLNGTISGFNPAAISLVSGTTPKNRMGFAMGIMQSGQVAGTILGPLIGGLMASWVGFRPIFYITGGLIFTASLLALFLVKENFNREQAAKAPQPSVIAGLKELSHIPQLPALFAVTFLLQFAMISPMALLPLYVQKLHGSAVDIAIWAGFVVAVTGLSNMIASPILGKLSDKVGAHRILTYALIGTGLTLIPQAFVQSVWQLIIVRFMMGVFMGGLLPSVNALIRSYTPDGMESRSFGFNTSSLALGNMLGAVIGGFLSGFIGIEGLFITSGCLLIINMLWVRRKLFSHKPSPKYR	PGPT0029185_23	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029185-mdtG-K08161	NA	NA
AK002_04569	636		COG4122	Catechol O-methyltransferase	TTGCTTACGACCCCTGATGATTATGTTAACCAATTATACCCTGAAGATGAAGAGCTTCAGCTTGTAATAGAAGCCATCCGGGAGCACGGGATGCCGGAGGTTTCGGTGGCACCGGCATACGGCCGGCTGCTGACCATGCTGGTACAGGCTGCCGGCGCAAGGAATATTCTCGAGATCGGCGCCCTTGGCGGCTATAGCGGCATCTGTCTGTGCCGCGGACTTGCAGCCGACGGCAGGCTCACGTCCTTAGAGCTGAAGGAAGAATACGCGTCACTCGCAGGACGTCATCTGGAGAAGGCCGGTTTCAAGGATCAGGTGGAGTACCGCATCGGTCCGGCGGCGGATAGTCTGGAGGCGTTGAAGCAGGAAGGGCGGACATTCGATTTTTTCTTTATTGATGCGGATAAGGAGAACTATCCTCTGTACTTGGAATATGCCATGGAGCTGGCCAATCCCGGCGCCCTCATTGCCGGAGACAACTGCTTTTTGCGGGGCCGGACGCTGAACTCGGAGAAGAACGGTCCTTCGGTTCAGGCCGTCCGCCATTTTAATGAAATCATCGCGACGGACGAGAGGCTGATCAGCACGCTGCTGCCCGCCTATGACGGGCTGATCCTTGCGCGCGTGAAGGGATGA	MLTTPDDYVNQLYPEDEELQLVIEAIREHGMPEVSVAPAYGRLLTMLVQAAGARNILEIGALGGYSGICLCRGLAADGRLTSLELKEEYASLAGRHLEKAGFKDQVEYRIGPAADSLEALKQEGRTFDFFFIDADKENYPLYLEYAMELANPGALIAGDNCFLRGRTLNSEKNGPSVQAVRHFNEIIATDERLISTLLPAYDGLILARVKG	PGPT0011950_23	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	TUMORICIDAL_COMPOUNDS	TUMORICIDAL-ANSAMITOCIN_P-3_METABOLISM,PGPT0011950-asm17-K16028	NA	NA
AK002_04570	1149	rlmL_2	COG0116	Ribosomal RNA large subunit methyltransferase L	ATGCCTCGATTACAATTGATCGCGACGGCCCCGATGGGGCTGGAAGCCGTCGTTGCCCGCGAGTTGAAAGAGCTCGGGTATACCGACATGGAAGTAGAGAATGGAAGAGTTACCTTTTCGGGTGACCTGATCGATATTTGCCGCTGCAATCTGTGGCTCCGGACGTCGGACCGAATCCTCGTCAAGATGGGGGAATTTACGGCCCTGACCTTCGACGAGCTCTTTGAAGGAACAAAAGCGCTGCCGTGGGAGGAATGGATTCCGGCGGATGGCGAATTCCCCGTGGAAGGACGTTCCCATAAATCGCAGCTTAGCAGCGTTCCCGCCTGTCAGGGCATCGTGAAAAAAGCAATCGTGGAGAAGCTGAAGCTCTCGCACCGTACGGAATGGTTCCCCGAGGACGGTCCCCGTTATGTAGTCGAGATATCTCTCTTGAAGGATCGAGCCATCCTGACGCTGGATACGACAGGACCCGCCCTGCATAAACGAGGTTACCGCAAGCTGGTGACGGAAGCTCCGCTGAAAGAAACAATGGCTTCCGCCCTGCTGCAGTTAAGCCGCTGGGGCCCCCATAGGCCGCTGTATGATCCGTGCTGTGGTTCGGGCACGATCCTGATCGAAGCTGCTATGATGGCCTGGAATATTGCGCCAGGCCTGCGCCGGTCGTTCCCGTCCGAGCACTGGGATATCATCGGAGACAACCTGTGGGAGGATGCGCGCGAGGAGGCGTTTGATGCGGTGAAGGACGATATTCCGCTCCATATAGCAGGAAGCGATATCGACCCGAAAGCCATCGAAGTAGCCAAAGCCGCTGCCAAAAGCGCGGGGCTTGCCGGCGAAATCGACTTCAAGGTCCTTCCAGCGGCCAAAGCCATCCCTGATGGCGAATTCGGCTGTATCATCACCAATCCTCCTTATGGCGAACGGTTAAGCGAGAAGGAGGAAGTTGAACGTTTGATCCGCCAATTCGGTTCCGTCATGCATTCGCTTCCGACCTGGTCCTTCTTCGCGATCAGCCCGACCAAGCAATTCGAGCATTACTTCGGCCGCAAGGCGGACAAGCGCCGCAAGCTGTTCAACGGCCGGATCGAGTGCCAGTATTATCAATATCTGGGGCCCTTGCCACCGCGTAACAAATCGGCGGAATAA	MPRLQLIATAPMGLEAVVARELKELGYTDMEVENGRVTFSGDLIDICRCNLWLRTSDRILVKMGEFTALTFDELFEGTKALPWEEWIPADGEFPVEGRSHKSQLSSVPACQGIVKKAIVEKLKLSHRTEWFPEDGPRYVVEISLLKDRAILTLDTTGPALHKRGYRKLVTEAPLKETMASALLQLSRWGPHRPLYDPCCGSGTILIEAAMMAWNIAPGLRRSFPSEHWDIIGDNLWEDAREEAFDAVKDDIPLHIAGSDIDPKAIEVAKAAAKSAGLAGEIDFKVLPAAKAIPDGEFGCIITNPPYGERLSEKEEVERLIRQFGSVMHSLPTWSFFAISPTKQFEHYFGRKADKRRKLFNGRIECQYYQYLGPLPPRNKSAE				NA	NA	NA	NA	NA
AK002_04571	1986	ltaS1	COG1368	Lipoteichoic acid synthase 1	GTGCTCTCATCGCCGTCATGGATCGATATCCGCAGCCGGGTCTCCAGAGGACTGCATTACCGGTACACCGCCTATCTGTTATTCCTTATCCTCATGATGTACAAGCTGATCATGCTGGATCATCGGCTCCATATTGCCAACATGAAGCTGGATCGGGCCGACTATGTGATCGCCGTCGGCTCGATCCTGCTGATCTCCTTCTGGACCTTATGGCTCCCGGCAAGAGGCCGGCTTGCTTCATTAACCTTACTGAATCTGGTATGGACGGGGATCCTGTACGCCGATTTAATCTATTACCGGTACTTCGATGATTTCATCACGGTGCCGGTGCTCATGCAGGCCGGGCAAGTCGGCTCGCTCGGAGACAGCATCCGTTCCCTTATACACGGCGTCGACCTGTTCTTTTTTATCGATTGGGTTGTCATCGTCCCGTTTACGGCCGTGATGATGTTCCGCAAACGGAGATCGAATTCCGAAACGTACGGGTTCCCGGGTGAATTTCGCCGGCACCGGCGGAAACGGGTGCTTGGCCGGTTGGCAGCAGGTGCACTCGTCTTCATCCTTGGCATGGTGATGACTTTCGTTCCCATCAAGAAAGCGTCCGATACTTGGGCTGTCGGCCTCTTTGAAGGCAATTGGTGGAATATTACGCTATATAACGTGACGGGACTGATCGGTTTTCACGGATATGATCTGTACCGTTACGGCCGGGATCATCTCATCGGCCAGCCCAAGCTGGCAGAGGAAGAGGTCAACCAGGTCAAGGCATGGTTTGATGCCAAGCAAGGGAAAGCATCCGGAACCGGGGCTTTGTTCGGCAAGTATAAAGGCAGCAACGTCATCATGATCCAGACGGAGGCCTTCATGAATTTTGTCATTGGCCGGTCGATTGGGGGGCAGGAAATTACCCCCAACTTCAACCGTTTGATGAAGGACAGCATGTATTTCAGCAATTTCTACCATCAAACCGGGCAAGGACGAACGTCCGATGCGGACTTTGTCACGCACAGCTCCCTGCTTCCCCTGCCCACGGGTTCCGTGTTTACGCGATATGCCGACCGCGAGTACGATACTCTTCCGGAGATTCTGAAGGAGCAGGGTTATGCCGCAAACGTGTTCCATGCCTATGACAGCAGCTTCTGGAACCGGACGACGATGTATCGGGAAATGAACTATGACCGTTTTTACAGCAAGAAGGATTATGAAATGAACGATGTGCTCGGATGGTCGCTGAGCGACAAAGCATTCTTCGCGCAATCGCTGGATCGTATGAAAGGCATCGAGCAGCCCTTCTATTCCTTCCTGATTACGTTAACGAGCCATCATCCGTATTATGTCCCGAAGGATGCCCGCAAGCTGGATACAGGAGAATTCGAAGGCACGATGTTCGGGGATTATCTGCAGTCGATCCATTATGTGGACGAAGCCTTCGGCCAGTTCGCGGAGCAGATGAAGCAGCAAGGGCTGTGGGATAATACCATACTGCTCATCTATGGCGATCACGATAATTCGATCAAGGAAATATCGGACTATGAGAAGTTCCTGGGACGGGATCTGAACGCACTCGACATGGAACAGATCATGAACCAGGTCCCCCTGCTCATTCGCCTGCCTGACGGCGGGAATGCCGGAGTCTATCCCGAGGCTGCCGGCATGATGAACGTGACGCCGAGCATCCTTCATCTTCTCGGCGTATCGGAAGCGCCGTATTACTGGATCGGGGGCCATCTGTTTGATGATAAGCCGCGTCTGATTCCGCTGCGCAGCGGCGCTTTTTCCGAAGAGAAGGTGTTCTACCTGCCTTCTGAAACGGCCGGGCTGGAAGGTGGAACCTGTTATGATCTGACGACGCGTCAGCCAACTGACATCCAGGCCTGCCGTGACGGGTACGACGAAACCCGGAAGGAGCTGCAAATCTCGGACCAAGTCATCACGTACGATCTGCTGAAGTTATTTAAAGCACAGGGCAAGGGTGAAACGGAGTAA	MLSSPSWIDIRSRVSRGLHYRYTAYLLFLILMMYKLIMLDHRLHIANMKLDRADYVIAVGSILLISFWTLWLPARGRLASLTLLNLVWTGILYADLIYYRYFDDFITVPVLMQAGQVGSLGDSIRSLIHGVDLFFFIDWVVIVPFTAVMMFRKRRSNSETYGFPGEFRRHRRKRVLGRLAAGALVFILGMVMTFVPIKKASDTWAVGLFEGNWWNITLYNVTGLIGFHGYDLYRYGRDHLIGQPKLAEEEVNQVKAWFDAKQGKASGTGALFGKYKGSNVIMIQTEAFMNFVIGRSIGGQEITPNFNRLMKDSMYFSNFYHQTGQGRTSDADFVTHSSLLPLPTGSVFTRYADREYDTLPEILKEQGYAANVFHAYDSSFWNRTTMYREMNYDRFYSKKDYEMNDVLGWSLSDKAFFAQSLDRMKGIEQPFYSFLITLTSHHPYYVPKDARKLDTGEFEGTMFGDYLQSIHYVDEAFGQFAEQMKQQGLWDNTILLIYGDHDNSIKEISDYEKFLGRDLNALDMEQIMNQVPLLIRLPDGGNAGVYPEAAGMMNVTPSILHLLGVSEAPYYWIGGHLFDDKPRLIPLRSGAFSEEKVFYLPSETAGLEGGTCYDLTTRQPTDIQACRDGYDETRKELQISDQVITYDLLKLFKAQGKGETE	PGPT0023375_547	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
AK002_04572	267			hypothetical protein	ATGAACAGTCACGATTCCAGTCTTCACTCCAACAGTCCAAGCAACAGCGCGTTAGATTCCGTGGAGAAACTGCACCGTGCCGTATCCTCGGCCATGTCCCATCCGACGGAACAGTTAATTCAGCAAGCGGAGAATTCGTTATCCCATACAGAGCAAGCGGTCGCTCAGGTGATCGAGCAGGGGAACCGAAACGCCGTGGAATTGGCGGAAGAGTTGTTAGGTGAAGAGAAGGAACGCCTGTCCAAGCTTCGTTCGGCTAAAAAGTAA	MNSHDSSLHSNSPSNSALDSVEKLHRAVSSAMSHPTEQLIQQAENSLSHTEQAVAQVIEQGNRNAVELAEELLGEEKERLSKLRSAKK				NA	NA	NA	NA	NA
AK002_04573	222			hypothetical protein	ATGGCTAATGATATTCGCGTCTGCGAGAAATGCAGGCATACGAAATTGAAGACAATCATCCCGAAGATTCAGAAAATGGTGCCGGATGCCGATATTAAAATCGGCTGCAAATCCTATTGCGGTCCTTGCGGCAAACGCGCATTCATTTATATCAACGGCCGGTATGTCAGCGCACCTACAGAGGATGAGGTGCTGGCAAAGGCGATGCCGTTTGTGAAGTAA	MANDIRVCEKCRHTKLKTIIPKIQKMVPDADIKIGCKSYCGPCGKRAFIYINGRYVSAPTEDEVLAKAMPFVK				NA	NA	NA	NA	NA
AK002_04574	303	erpA		Iron-sulfur cluster insertion protein ErpA	GTGAAATGTAAAATTACCCGCAATGCGGCCAAAGTGATAAAGCGAGAGCTGGACAAGGAAGAAAACAAGGACAAGAAACTTCGCGTGCTGGTTACCCATGCGCATGGCGACCATGCTCACTATGGACTGGACCTGGACACACCTAAGGAAAGCGATGTCGTCGTATCGACGGATAAAGAGATCGACGTCATTTTGGAGGCTGGACAACCTTTTCTGGACGGCGTCAAAATCGACTATCTTTATTTTCCCGAGGAAGGCTTTGTCATTACGAATCCATCCCAAGGGAATCACGGCGACCACTAG	MKCKITRNAAKVIKRELDKEENKDKKLRVLVTHAHGDHAHYGLDLDTPKESDVVVSTDKEIDVILEAGQPFLDGVKIDYLYFPEEGFVITNPSQGNHGDH				NA	NA	NA	NA	NA
AK002_04575	276			hypothetical protein	ATGAAGTGGAGAAGATTATGGTCGCTTCGGCGCTGGTCGCACGTATTCCAGCGGATATTCGGGTACTTGGCCTCTTCCCGGGTTGCTTTAGGGGACAAGCTGTTATTCCTGGTTCCGGTTGCGCTGTACTGGGTGCTGCCTGATTTCATGCCTTTCATGCCGATCGATGATATCGGAGTCACGATGCTGCTGATGAACTGGTTCGTGTCCCGCGTCGAACGGAAATATCCGGGTTTGCTCGGTGAGAATCAAGGCAAGGTCAAGCGCGCAAGGTAA	MKWRRLWSLRRWSHVFQRIFGYLASSRVALGDKLLFLVPVALYWVLPDFMPFMPIDDIGVTMLLMNWFVSRVERKYPGLLGENQGKVKRAR				NA	NA	NA	NA	NA
AK002_04576	1203			Gamma-D-glutamyl-L-diamino acid endopeptidase 1	ATGCAGCAATATGTCGTACAGAAAGGCGATACACTAAGACGCGTGGCTGCCAGACATGGTCTGGCGTATGAACAGCTGATTACGGCAAATCCATGGGCCGCCCAGCAGCCGTATCTTCAGCAGGGACAAATGCTCTATCTTCCTGCATCGCTGCGCCGGCGGTATGTCATTCAGGAGCATGATACGTTTGATCGTATTGCCAGTGCGTTCCGGTTTCGCAAGGAAGCCTTGGAAGAATTGAATCCCGGTTTATCGGCTAATCAGCTGCCCCAGGGAAAAACGATCGTTCTGCCGGGCCCAACACATAAGCATTTGATACGGTTATCCGGTGAATATGGGCCGGCGGATCTGGAACGCGATATCCAAGAGATGCAGCTGCATTACCCTGTCATCGAGTGGAGCGTCATCGGACGGAGCGTGCTCGGCAAACCCATATATGCGGCCAAAATCGGCAAAGGCCCGAAGAATCTCCACATGAATGCAGCGCTGCATGCCAATGAATGGATCACCACTCCTTGTCTGATGCGATTCATGGAGGAGTACGGCAGGGCGTTGGCTCAAGCCTCAACAGTTTATGATCAGGAGCCGACTGCCTGGTACCAGGACTATACGCTGTGGGTTGTCCCGATGGCAAACCCGGACGGAGTAGAGCTCGTACAAGAAGGAATCACACCTTCTCATCCATATTATGAACGTCTGCTGGAATGGAATGGCGGTCGTGAGGACTTTCGCCGCTGGAAGGCGAATATCAACGGCGTGGATTTGGGCGACCAATTCCCGGCGCATTGGAACGAGGAAGTTGCTCGCAGGGGCAAAACGCGTCCTTCTCCGCAGGATTATGCGGGGGCTAAGCCGCTTAGCGAGCCGGAAGCCGAGACCGTCTATCAGCATACCCTGTCGATCTCTCCGGAACGAGCCGTTTCCCTTCACAGCCAAGGCAGGGAAATTTATTGGAATTACAGGGACTACGAACCTCCGGAAAGCGAGAACATGGCCAGAATAATGGGTCAGGCGGGCGGTTACAGGCCGGTGAAGCTTCAGGGGAGCGATGCGGGCTACAAGGATTGGTTCATCCAGCATTTCAGGAGACCGGGCTTTACGGTGGAGATTGGATATGGGATTAATCCGCTGCCGCTTGAGGATTTCGAGGACCTGTGCGTCGAGGTGGGATCGATCCTGTCGGCGTTCATGTCTTTGGAATAA	MQQYVVQKGDTLRRVAARHGLAYEQLITANPWAAQQPYLQQGQMLYLPASLRRRYVIQEHDTFDRIASAFRFRKEALEELNPGLSANQLPQGKTIVLPGPTHKHLIRLSGEYGPADLERDIQEMQLHYPVIEWSVIGRSVLGKPIYAAKIGKGPKNLHMNAALHANEWITTPCLMRFMEEYGRALAQASTVYDQEPTAWYQDYTLWVVPMANPDGVELVQEGITPSHPYYERLLEWNGGREDFRRWKANINGVDLGDQFPAHWNEEVARRGKTRPSPQDYAGAKPLSEPEAETVYQHTLSISPERAVSLHSQGREIYWNYRDYEPPESENMARIMGQAGGYRPVKLQGSDAGYKDWFIQHFRRPGFTVEIGYGINPLPLEDFEDLCVEVGSILSAFMSLE				NA	NA	NA	NA	NA
AK002_04577	807	murI		Glutamate racemase	GTGCAGCAAGCAATCGCAATACTAGACTCGGGTGTGGGCGGGCTGACTGTCGCCAAAGAAGTGATGAGACAGCTCCCGAGAGAGAAGATTATTTATTTCGGAGATACAGCCCGCGCACCCTACGGACCCCGTACACCGGAAGAAGTCCGTTTATTTACGGAGCAAATCGTAGATTATTTAATTCAATATGATCCCAAAATGATCGTTATCGCCTGTAATACGGCAACGGCGGCGGCGCTTGATTATATTTCGTCCAAAGTGCCCGTGCCGGTCATCGGTGTCATTCATCCAGGGGCACGAGCCGCCATAAGCGCAACGAAGACCGGACACGTCGGCGTGATCGGTACGGTCGGAACCATTGGCAGCGGAGCGTATACAGCGGCTCTGAAACAGCTGTCGCCATATATCGGGGTAGAGAGTCAAGCCTGCCCCGAACTGGTACCGCTCGTCGAACACGGATTGTTCCGGTCCAAGGATTCCCTGCAGGTTGTGGAGCGATCGCTACGAGGCATCAAGGATACCTCCATTGATTGCCTGATCCTGGGGTGTACCCACTATCCGTTCCTCATGAATACGATTCAAACCGTCATGGGGCCGAATGTGAAGCTGATCAGCTCCGCCGATGAGACGGCACGCGAAGTCAGCACGATTCTGTACGATAAAGGCCAGCTCGCGAGCAGCATGGAAGGGCCGGTGCATCAATTTTTCTGTACAGGAGATCCGGAGATTTTTCAGAGCATTGCAACCGAATGGCTTGGTGAGCATATCAAGCGGACGCCAGTGGTATGGCAGATTACGAAGCTATAA	MQQAIAILDSGVGGLTVAKEVMRQLPREKIIYFGDTARAPYGPRTPEEVRLFTEQIVDYLIQYDPKMIVIACNTATAAALDYISSKVPVPVIGVIHPGARAAISATKTGHVGVIGTVGTIGSGAYTAALKQLSPYIGVESQACPELVPLVEHGLFRSKDSLQVVERSLRGIKDTSIDCLILGCTHYPFLMNTIQTVMGPNVKLISSADETAREVSTILYDKGQLASSMEGPVHQFFCTGDPEIFQSIATEWLGEHIKRTPVVWQITKL	PGPT0020200_2592	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
AK002_04578	1098	nos	COG4362	Nitric oxide synthase oxygenase	GTGAATGACAGCATACATCGCACCGGCCTTTTTCAGGCTGCGGAGCAGTTTATCGGGCTCTGTTATGCAGAGTTAAACCGGACCGGGGAAGAAGTGCAGTCCCGGATCAGCGACATTCGCTCACAGATCGAGCGGACAGGTACATATGAACATACGATAGAGGAACTGACGCACGGGGCCAAAATGGCCTGGCGAAACAGCAACCGCTGTATCGGGAGACTGTTTTGGGATCGCCTGAAGGTCCTTGATGCCAGACACTTAACGGAGACCTCCGACATCTTTTCGGCGCTTCTCCACCATATCGAGAGTGCCACCAATGGCGGAAAGATCATACCTACGATTACCATTTTCAGAGCTGCGCGTCCCGGGGAAGCTCCCCTTATGATCAAAAACCATCAATTGATTCGGTATGCGGGTTACGAAACGCCGGACGGCACGATTGGCGACCCGGCTTCGATCGCCTTCACGAAGGAATGCTTGGAGATGGGTTGGCAGGGTGACTTGACCGCCCATGATGTGCTGCCGCTGGTGGTGCAGCAGGGGAATGAGCCGCCTGAGTGGCTGCCGATACCGAAAACCTCCGTGCTGGAGGTCTGCCTGGAGCATCCTGATCTTCCGGAGCTTAAAGAGGAAGGGTTAAAATGGTACGGGGTGCCTCTCATCTCGGACATGCTGCTTGAGATCGGGGGCATTACGTATACGGCCGCTCCGTTCAACGGATGGTATATGGGAACCGAAATCGGTGCCCGCAACCTCGCAGACGAGGCCCGTTACAACAAGCTCCCGCTCATCGCCAGCCTGATGGGACTGGAGACTTCAAGCGAAGCCACCTTGTGGAGGGATCGTGCATTGGTCGAACTCAATGTGGCCGTGCTTTATTCCTACAAAAAGGCGGGTGTCAGCATCGTGGACCATCACTCGGCTGCAGCCCAGTTCGGTCTGTTCGAACAGCGTGAAGCGCAGGCCGGGCGCGAGCTTACCGGAGACTGGAGCTGGCTGATTCCTCCGGTTTCGCCGGCCACCACGCATATTTTCCATGCATCCTATCATAATGACATGCGTTCGCCGAATTTCCATTACAGGAACAAGGGACAATAA	MNDSIHRTGLFQAAEQFIGLCYAELNRTGEEVQSRISDIRSQIERTGTYEHTIEELTHGAKMAWRNSNRCIGRLFWDRLKVLDARHLTETSDIFSALLHHIESATNGGKIIPTITIFRAARPGEAPLMIKNHQLIRYAGYETPDGTIGDPASIAFTKECLEMGWQGDLTAHDVLPLVVQQGNEPPEWLPIPKTSVLEVCLEHPDLPELKEEGLKWYGVPLISDMLLEIGGITYTAAPFNGWYMGTEIGARNLADEARYNKLPLIASLMGLETSSEATLWRDRALVELNVAVLYSYKKAGVSIVDHHSAAAQFGLFEQREAQAGRELTGDWSWLIPPVSPATTHIFHASYHNDMRSPNFHYRNKGQ	PGPT0020095_172	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020095-nos|nosA-K00491	NA	NA
AK002_04579	363			hypothetical protein	ATGAAAGAGAAGAGCAAAGGACTCCTCTGGGGAGTATTGATCGGCAGTGTTGCAGGTTCTGTTACCGCACTTCTTCTGGCTCCGAAATCCGGCAAAGAGCTTCGGGATGACATTGCAGACGGCGCACGCGAAATCGGTGCCAAGGTGCAGGAGGCGGCGGAGAAGGTAGGCGAGCAGGGCGTTAATCTGATCGGCATCATGACGGATCGTGCCGAGAATGTCATCTCCGACATTCAATCCTGGCGGAATCGGCAGGAGAGCTGGCTGGCAGAAGAGGAAATCGCACAGGTGTCCTCGTTTGATGAGGATTTTGAAGAAGAGGCGTATGTGCCCTCTGTTTCGGAAGAGAAGATCAACGATTAA	MKEKSKGLLWGVLIGSVAGSVTALLLAPKSGKELRDDIADGAREIGAKVQEAAEKVGEQGVNLIGIMTDRAENVISDIQSWRNRQESWLAEEEIAQVSSFDEDFEEEAYVPSVSEEKIND	PGPT0015027_221	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA	NA	NA
AK002_04580	453			hypothetical protein	ATGACAGAATGGAGTGCGCTGACCGCTGCCGCCGGCATCGTGCTGATCGCGGTTGCCGCGGTGGTCATGATGCTGTCGATTAGAAAGCTGATGCGGCGGGCTGAGACCATGCTGGGCCGGCTTGAAGAAGACAGCGCCCGATTGACACAGGAGGCTTCGCAAGTGCTTGAGCAGGCTTCCGTCTCTTTGGAGATGATACAGCGTCAGCTGGCAGCCGGCGAAGCTTTTGCCGCTTCCATGTCCAGTGCAGCGACAGCCGTAGCCAAGACGGCCGATGCGGTTCATGCTGTTGGGAAAAAAGCTTCCATAACGGCCATTGAGCATCTGGAACGTGCTCGCCTCGATAATGAACGGCAGATCGGGGAGATGTTCCGGTGGGTGGATGCCGGGATGACGCTCTGGCATTCCTGGAACAAATATGCCTCCAAGTCCGGCGAAAGGCAAGCCAAATAG	MTEWSALTAAAGIVLIAVAAVVMMLSIRKLMRRAETMLGRLEEDSARLTQEASQVLEQASVSLEMIQRQLAAGEAFAASMSSAATAVAKTADAVHAVGKKASITAIEHLERARLDNERQIGEMFRWVDAGMTLWHSWNKYASKSGERQAK				NA	NA	NA	NA	NA
AK002_04581	423			hypothetical protein	GTGTATTATGTGAATCAAGAGCAAATTGAACGGCGGCTGAACGCGATTCCGGACATTGCGGAAGGTTTGCGTGCCGCTGCGCAATCGTGGGACGGAGGCCTGGTGCTGGGCCTGGTTCAGGAGCGTGCGCTTCATCTGGCGATCGAGGTCGTCACGGATGTCGGCAGCTACCTGATCGACGGATTTATTATGCGGGATGCCAGCAGTTACGAAGATATCATGGATATCAATCATGAGGAAAAGGTGTTTCCGCAAGAGGTTCATAAGGTGCTGATGGAGCTGGTTCGTTTACGTAAGCCGCTCGTACAGGACTACTATGATTGGGACCGGCAGGCGCTGCATTCTTTAACGCCCGTACTGGCCGACGTGCTGGAGCAGTTTGCGGGAAACGTTCGCGAATATTTAAAGAACGAACTGTACTGA	MYYVNQEQIERRLNAIPDIAEGLRAAAQSWDGGLVLGLVQERALHLAIEVVTDVGSYLIDGFIMRDASSYEDIMDINHEEKVFPQEVHKVLMELVRLRKPLVQDYYDWDRQALHSLTPVLADVLEQFAGNVREYLKNELY				NA	NA	NA	NA	NA
AK002_04582	288			hypothetical protein	ATGATTAAACATATTGTTTTTTTCAAATTGAAGGATCCAACCGCAGAGAATATTGAGAAAACCGTGCAGGTGCTGCGCGACATGGACGGTAAAATTCCGTTGCTGAGATCCCTTGAAGCTGGTGCCGATGTGATCCACTCCGAGCGCTCTTATGATTTGGCTTTGATCGTTGAAGTGGACAATCTTGAAGATTTGCAGGCTTATGCCGTTCACCCTGTACACCAGGAAGTGATCCAATACATCAATACGGTGAAAGATCATACGCTTAGCGTTGATTTTGAAGTGTAG	MIKHIVFFKLKDPTAENIEKTVQVLRDMDGKIPLLRSLEAGADVIHSERSYDLALIVEVDNLEDLQAYAVHPVHQEVIQYINTVKDHTLSVDFEV				NA	NA	NA	NA	NA
AK002_04583	1431			hypothetical protein	ATGAGCAAATATGATGTTATCGTTGTTGGTGCCGGTCCTGCAGGAATTTTTGCATGTTATGAGCTGACATTGAAATCACCAGGCAGCAGGGTGCTGCTGGTTGACAAGGGACATGATATTTACCGGAGAAGCTGTCCGATTCTGGAGGAGAAGATTAAGCTGTGTCCTCCGGCGGTAGGCCGGAAGGAATTCGCCGGTTGCCTGCCGGCCTGCTCGATTACGGCCGGATTTGGTGGAGCCGGGGCATACAGTGACGGCAAATTCAACATAACCACAGAGTTTGGCGGCTGGATGACCGATTATTTGCCCGGATCCAAAGTCATGGAGCTCATTCAATATGTGGATGCGATCAACCTGGAGCATGGGGCGACACCTGCCATTACAGATCCGACGACCCATGCGATCCGCGATATTGAACAGCGAGGATACGCAGCAGGCCTTAAGCTGCTTCGCGCACAGGTAAGGCATCTTGGAACCGAGCAGAATTTGGAAATCCTGAAGTCGATTTATGAATATTTAAAGACAAGGATTGATATGGCATTCCGGGCGGAGGTCGAGGACATCGTCACCATCAAGGAGGACGGCACCCACCGCGTCACCGGCATCGCGATGAAGGGCGGAGAGGTCCATGAGGCGAATCTGGTGATGGTTGCCCCCGGCCGCGACGGGTCTGCCTGGTTGACCGGCATTCTTAAAAAACGCAGATTGAAAATGCATAATAACCAAGTGGATGTCGGCGTGCGCGTCGAAACCTCGGATGTGGTCATGCGTGAAATCAACGATCATTTGTATGAAGGCAAATTCATCTTCAACACTTCGGTCGGGACCCGCGTGCGGACATTCTGCAGTAATCCTTCCGGCCATGTCGTGGTGGAAAACCACAGCGGAGTCATGGCTGCCAACGGTCATTCCTACAAGGATCCGGCATTGGGCTCAGCCAATACGAACTTTGCGCTGCTGGTATCCCATAAGTTTACGGAGCCGTTTGATAAGCCTAACGAATACGCGCGCGAAATATGCAAGCGGGCGAATGATCTGTCCAGCGGCGGGGTCATCGTGCAGAAATACGGCGACGTGCTTCGCGGCCGGAGATCCACCGAGGGCAGAATCCGCGAAGGGTTTCTTGAGCCGACGCTGAAGGAAGCCGTTCCAGGCGATCTTGGCTTGGTGCTGCCTTACAACACGATGAAAAGTCTGATCGAGATGGTTGAAGCGCTTGATCAAGTCACGCCGGGGATCGCGTCGGAGCACACGTTGTTCTATGGCGTCGAGGCCAAGTTCTACTCCGCAAGGCCGAAGCTGTCGGATTCCTTCGAGACGGAGATCAAGGGGCTGTATTGCGGCGGGGATGGCGCCGGAATTACCAGAGGGCTTGCTCAGGCAGGAGCCGCCGGGGTCTGGATTGCCCGGAACATGCTGAACCATATTTAG	MSKYDVIVVGAGPAGIFACYELTLKSPGSRVLLVDKGHDIYRRSCPILEEKIKLCPPAVGRKEFAGCLPACSITAGFGGAGAYSDGKFNITTEFGGWMTDYLPGSKVMELIQYVDAINLEHGATPAITDPTTHAIRDIEQRGYAAGLKLLRAQVRHLGTEQNLEILKSIYEYLKTRIDMAFRAEVEDIVTIKEDGTHRVTGIAMKGGEVHEANLVMVAPGRDGSAWLTGILKKRRLKMHNNQVDVGVRVETSDVVMREINDHLYEGKFIFNTSVGTRVRTFCSNPSGHVVVENHSGVMAANGHSYKDPALGSANTNFALLVSHKFTEPFDKPNEYAREICKRANDLSSGGVIVQKYGDVLRGRRSTEGRIREGFLEPTLKEAVPGDLGLVLPYNTMKSLIEMVEALDQVTPGIASEHTLFYGVEAKFYSARPKLSDSFETEIKGLYCGGDGAGITRGLAQAGAAGVWIARNMLNHI				NA	NA	NA	NA	NA
AK002_04585	600			hypothetical protein	ATGCCTACACAACTGCAGCAAGAAAAACACTCCATTGAGGCGTGGTCCCTGATCAATCGTAAATATTTGGGGAAAGGCGTGCGAGTCAAGCGCTTTCGTCGGCCGACCCGCTGCCAAATTCGTAACCGCGTCCTGCTAGCCGTACTTATGGCCAACGATATCAAATTGTCGCAATTGGCCGAGGAACTGGGAGTATCCTCCCGTAGCGTCAGCGCCTGGGTATATGAGGGACGCGTTCCCGGAAAAAACAACCTGGAGAAAGCCTGCGACTACTTGGGTTATCCCCGCCACATTCTCTTCAGAGAAGAATTGCTGGACAAGTCGCCCTTGATCTGTCAGCCAGCGGCTTCCCGATTCATGAAACGCACCCTGACACGCTCTCCGGTCAGCAATCGGATTCTGACAGGCCTGTGCATGGTTCATGATTTGTCGGTGAGCGATGTCAGCCGCTGGATCGGCGTACATCCTGGCACGTTCCGCAAATGGCTGCACCAAGGCACCGTACCTTCAGCAGCATTTCAGGAGAAAGCGGAACAGTTCTTCCGAATCCCTAAGTCTGTGTTATTCGCAGATTGCGCACTGAAGCAAGAGTCCCGATAA	MPTQLQQEKHSIEAWSLINRKYLGKGVRVKRFRRPTRCQIRNRVLLAVLMANDIKLSQLAEELGVSSRSVSAWVYEGRVPGKNNLEKACDYLGYPRHILFREELLDKSPLICQPAASRFMKRTLTRSPVSNRILTGLCMVHDLSVSDVSRWIGVHPGTFRKWLHQGTVPSAAFQEKAEQFFRIPKSVLFADCALKQESR				NA	NA	NA	NA	NA
AK002_04586	192			hypothetical protein	ATGAAGCTGCGTCAGAAGGAAATTGGCGCTTCACTGGGATTGCTGGCTGGAACGACCATGGGAAGCGGCATCGGATTCCTGCTTGGATGGCACTCCTACAATCTGATGGTCCTGGTTTCCCTTTTCGGTTTTTTCGGAATTGCAGCCGGTCTTTGGGCAGGCTCCCGAAGAATATTCAAAGAGCTCCCTTAA	MKLRQKEIGASLGLLAGTTMGSGIGFLLGWHSYNLMVLVSLFGFFGIAAGLWAGSRRIFKELP				NA	NA	NA	NA	NA
AK002_04587	696			hypothetical protein	ATGCTGATGATGTTGATCGCAGTCAGCGTAGCTGTCGGATGCCAGTCATCGGATATAGGGAATGGGGCCGGGCCTTTGCCGACTGAGGCATCGGCGAATTCTCCCAAGGGAGATATTCCTGAGACTACGCCGCCTTCCGGCACGGATGAGACCTCAGGCCATACGGATGGCAGCGCAGGAAACGGTTCCGCAGCAGACACGCAAGAAGATCCAGCGGCCGAACCCGATGTGGATTTATCGGATGTGACGGCAGTCCGGCTCGTTAATCATAACTCCGGCTGGATCGGCGGAGAAGGCTGGATTGCTTTTAGTGATGACGGAGGCACCGAATGGGAGGTTCAGGCTCAGCCGAAGGGCACTGTACGCCAAATCTTTGCGCTGAACGGGAAGCAGGCCTGGACCGTGATGGAGAATAACGATCTGTACCGTACAACGGATGGCGGAGAAACATGGAACCGGATCGGAAGCACGCCGAATGCCGGCTTTCTCCATTTTATCTCGCCTGAAACGGGATTCAGCGGTCAAGCCAAAACCGAGGACGGAGGCAAGACCTGGAGTATTCAGGATATGCCGGATACGACCACGCGAGGCCATGACCAAAGAGCCGCCACTGACGGAGTCGTTCAACATTTCAAAAACGATGGCGTTAAGCCTGGGAAATTGTACGTTATTAACGAGACGAAGACCCATAACTAA	MLMMLIAVSVAVGCQSSDIGNGAGPLPTEASANSPKGDIPETTPPSGTDETSGHTDGSAGNGSAADTQEDPAAEPDVDLSDVTAVRLVNHNSGWIGGEGWIAFSDDGGTEWEVQAQPKGTVRQIFALNGKQAWTVMENNDLYRTTDGGETWNRIGSTPNAGFLHFISPETGFSGQAKTEDGGKTWSIQDMPDTTTRGHDQRAATDGVVQHFKNDGVKPGKLYVINETKTHN				NA	NA	NA	NA	NA
AK002_04589	981			hypothetical protein	ATGAAGAAACGTCAAGCAGTGAAAAAGCTGCTGGCCGGTTTCATGGCGGCAGCGATTGGGATCGCCGTTTTCCAGTTCGGAGGAGAAGAAGTTTGGGCATCGGGCACATCTTCAGACCAACCTATTGAAGTTAGGGTGAATGGCGGCAAATTGCTGCTGGATTCGCCTGCTTTTATTCATCAAGGGAGGGTGATGGTGCCATTCCGCGGCATTTCGGCAGCAATGGGTGCCGAGGTGCGTTGGAATCAAGCCGATCGGACGGCGGTCGTGAGCAATGGCAAACATACAACGAGTTATACCGTTGGGCATACCCGTGCCATGAAAGACGGCAAGGTCGTGACCCTGGATGCTCCGCCTCTTCTCAGGGAGGGACGAGTTTACATCCCGCTCCGTTTCTCGGCTGAAGGGCTTGGAGGCAAGGTATCCTGGCATAACAAGGCAAAAGAAGCTATGATTTATCCGCTGCTCACGCCGAAAGAGGCAGAAGCTGCCCTGTCCAAAATCAGTGCTGAAGCGATCACATTTTTAAAAAACAAGGATTTTGAGAAGCTGGCCGAACTCGTTCATCCAAACGGAATCACCTTTTCACCGTATGCTCACGTCGACCGGCAGAAGGACGTAACGCTCGGCAAGCAGCAGCTGCGGCAGGGATTGAACAACGACGCCGTTTACCTATGGGGTGAGTTTGACGGCAGCGGAGAACCGATTTCGATGACTTTTGATGACTATTACAAGAAATTCATTTATTCGCTGGACTTTGCGAAGGCGCCGTGGATCGGATACAACCAATCGAAGAGCGAAGGAAATACGGTGAACAATGCCAGCAGCCAGTATAGAGAGGCCGGCATCGTTGAGTATTATTATGATGGATTTGATCCTGATTATGCGGGCATGGACTGGGAAAGCCTGCGGCTTGTGTTTGAGCGGTATGAGGATCGTTGGGTATTGTCCGGCATCATACATGATCAATGGACGATCTGA	MKKRQAVKKLLAGFMAAAIGIAVFQFGGEEVWASGTSSDQPIEVRVNGGKLLLDSPAFIHQGRVMVPFRGISAAMGAEVRWNQADRTAVVSNGKHTTSYTVGHTRAMKDGKVVTLDAPPLLREGRVYIPLRFSAEGLGGKVSWHNKAKEAMIYPLLTPKEAEAALSKISAEAITFLKNKDFEKLAELVHPNGITFSPYAHVDRQKDVTLGKQQLRQGLNNDAVYLWGEFDGSGEPISMTFDDYYKKFIYSLDFAKAPWIGYNQSKSEGNTVNNASSQYREAGIVEYYYDGFDPDYAGMDWESLRLVFERYEDRWVLSGIIHDQWTI				NA	NA	NA	NA	NA
AK002_04590	726			hypothetical protein	TTGTCTAAGCATGAGATTACATTTCTTACGGGGGGAATTGATTTGAAACGATATGCGCTGCCGTTGTTTATCCTGATCATGAGTCTGCTTTACATTTTCTTCATTCCTTCCGAGCCCTTGCTAATCAAACTGCTGTTCAAGCTCATCCCCATGTGGCTCATCATCCTGTTTGCATATCGCCAGTTCCCGCCCCGTGCCACGAAAGTTCACTATCTTCTGTTATCGGGACTGTTCTTCTGCATGATTGGTGACGGTACGCTCGTCTGGTTTGTCGTCGGCCTTACCTTTTTTCTGATCGGTCACCTGTTCTATACGATCGGCTTCCTGGGACAATGGCGATCTTCGCTTCCCCGCCTCCTCAGCATCGTTCCGATTGCGGCCTATTCGGTCTGGATGGGCATTCAATTGGTGACCTCTCTCGACTCAAATGGGGAGCAGGCTTTGATATTTCCCGTCATCGCTTATATTGCGGTCATCTCGACCATGCTCTGGACCTCCGTCATGACCGGAAACCGGTTAGCCATGCTTGGAAGTCTGCTCTTTGTCATCTCGGACTCGATCCTGTCCTGGAACATGTTTGTTTCCGATATCCTTTATTCGAACGTATGGATCATGACCACGTATTACGCAGCCCAGTTCCTGATAGCCAGAAGCATCTCGGCTTTTAACTGGACGAAAGCGCGGAGCAGGGGCGACTCGTCACTCAATGCTTCCGCCATCCATTAG	MSKHEITFLTGGIDLKRYALPLFILIMSLLYIFFIPSEPLLIKLLFKLIPMWLIILFAYRQFPPRATKVHYLLLSGLFFCMIGDGTLVWFVVGLTFFLIGHLFYTIGFLGQWRSSLPRLLSIVPIAAYSVWMGIQLVTSLDSNGEQALIFPVIAYIAVISTMLWTSVMTGNRLAMLGSLLFVISDSILSWNMFVSDILYSNVWIMTTYYAAQFLIARSISAFNWTKARSRGDSSLNASAIH				NA	NA	NA	NA	NA
AK002_04591	714	sapB	COG1285	Protein SapB	ATGGATGTGTTTCAACTGGATACGGAGACCATGCTGATGCGGCTGCTGTTCGCTGCATTGCTCGGCGGTTTGATCGGTTGGGAGCGGGAACGCCGGAATAAGCAGGCCGGGTTAAAAACCCATCTCTTGGTGGCCGTCGGATCGACGCTGATTATGCTGACTTCCATCTACGGGTTTGACTCTGCACTAATCAATCATCCCAATGCGAGGTTTGATCCTGCCCGGCTGGCAGCACAAGTTGTAAGCGGTATCGGTTTTCTTGGTGCCGGAGCCATATTGCGGCGTTCCAATCATATCATTTCAGGTCTGACCACGGCCGCCACTTTATGGGTGGCAGCGGCTATCGGTTTAAGCGTGGGCTCCGGTTTTTACTGGCCTGCAATCATCACGACAGCGATCGTTCTGGTCAGCACGCTGGTGCTGAATAAATTGGAATCGAGGTTTCTCTTTATCAAAAAGTCCGGCAGCTTAAAGATTATCATCGAGGCGGGTGACCGTCCGGTACATGTGAGCACGATTACGGAATTGCTGCAAAAGGCCAATATGACGGTGGAAGGCATGATCGTGAACAATGACACGACGGAAGACGATTCGACCAAGGTCACAATGGAATTCCGGGTGTACTCGTTCAACAGCAAGGGAATTAACGGATTGTTCGAGCAGTTGTGGCAGGTAGAGGGGATTAAGCAGGTTCGCATGAACTGGCGTGATTAA	MDVFQLDTETMLMRLLFAALLGGLIGWERERRNKQAGLKTHLLVAVGSTLIMLTSIYGFDSALINHPNARFDPARLAAQVVSGIGFLGAGAILRRSNHIISGLTTAATLWVAAAIGLSVGSGFYWPAIITTAIVLVSTLVLNKLESRFLFIKKSGSLKIIIEAGDRPVHVSTITELLQKANMTVEGMIVNNDTTEDDSTKVTMEFRVYSFNSKGINGLFEQLWQVEGIKQVRMNWRD	PGPT0014005_760	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
AK002_04592	606	ygcP	COG1954	putative protein YgcP	ATGAAAACCAGTGTTGAAGGTGCACAACGAATTTCGTATTGCTTGAAGCGTAAACCCATTATTACTTCATTAATGAATGCGGATGAACTTCCTGCCGTGTTAGCGACCGAATCGAACATCGTATTTATTCTCAAGACCGATATTTTTATCATTGAATCGATCGTCGAGGAGATTCGCGAGGCGGGCAAGCTTTCGTTTGTGCATTTTGATCTGATTGAAGGGATCGGCAAAGATAAGACGGGAGTTAAGTACTTGGCTGAGAAGGTTGGCATCGACGGGATTGTCACGACAAAAAACACGGCGATTGTGGAAGCGAAGAAGTTGGGCTTGTTAACGGTTCAACGTCTGTTCGTATTTGACTCCGTCTCCCTGGACAACGGGATCAAAATGATTAAGGCCTCCAATCCCGATGCCATTGAAGTGCTCCCGGGCATGGTGTGCCAGCGGATTATGGAACGTATCCGCGCAGAGGTGGACGTGCCCGTCATTGCAGGGGGGCTCATGATCGATTTGGAGGATTTTGATACGGCTCTAAAGAGCGGTGTAATCGGCATATCCACCTCCAGCAAAGAGTTATGGCGCTGGCAGGATGAACATATGGCATAA	MKTSVEGAQRISYCLKRKPIITSLMNADELPAVLATESNIVFILKTDIFIIESIVEEIREAGKLSFVHFDLIEGIGKDKTGVKYLAEKVGIDGIVTTKNTAIVEAKKLGLLTVQRLFVFDSVSLDNGIKMIKASNPDAIEVLPGMVCQRIMERIRAEVDVPVIAGGLMIDLEDFDTALKSGVIGISTSSKELWRWQDEHMA	PGPT0022030_49	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443	NA	NA
AK002_04593	810	araL	COG0647	Sugar-phosphatase AraL	ATGGATCATTTTGCAGGGTATATTTTTGATTTGGACGGTACGATTTACCTTGGGGCCGAGGCCATCGACGGTGCCGTGGAGACCATTCATTACTTGCAGGGACTGGATAAGAGGCTGTTGTTTTTGACCAACAAAACGATAGACTCTAGGGAGAATTATTTGAAGAAATTAGCGAAGCTTGGCATTCAGGTTGAAATGAATCATATTCTGAATCCCGCGCTTGTTACGATTCATTATCTTCAGAAGCATCATCCGGATGCAAAAGTATACGTTATTGGCGAGGATATATTGAAGAATGAGCTGCTGGACAATGGGATACGATTCGCCTCATCTCCGGAGGAAACCGACGTCGTGGTCGTATCGTGGGATCGGGATTTTCACTATCGTCATCTGGATTTTGCATATCAGGCGATCAAGGGGGGCGCCGAGGTTATTGCTACCCACCCGGATCGAACATGTCCGATGCCTGGCGGTGATGTGCCGGATGCCGGCGGCATGATTGGTGCCATCGAAGGCACTGCCGGCATTACCATTACGACGGTCATGGGCAAACCCTCCGTCTTGACGGCATTGACGGCTCTTGATATTTTGGGAGTGAAGGCCGAAGATTGCCTGATGTCGGGGGATCGGCTGGAGACGGATATCAAGATGGGCAATCAGGCGGGAATGAGCACGGCTTTGGTGCTGACCGGGGTTTCGACCAAGGAGGATCTGATGGACAGCAGCGTGAAGCCCACCTATGTGCTGAATTCGGTTCACGATATTTATCTCAGCGGTACTGCCTTGCAGCAGGCAAACGAAGCACAATGA	MDHFAGYIFDLDGTIYLGAEAIDGAVETIHYLQGLDKRLLFLTNKTIDSRENYLKKLAKLGIQVEMNHILNPALVTIHYLQKHHPDAKVYVIGEDILKNELLDNGIRFASSPEETDVVVVSWDRDFHYRHLDFAYQAIKGGAEVIATHPDRTCPMPGGDVPDAGGMIGAIEGTAGITITTVMGKPSVLTALTALDILGVKAEDCLMSGDRLETDIKMGNQAGMSTALVLTGVSTKEDLMDSSVKPTYVLNSVHDIYLSGTALQQANEAQ	PGPT0021435_300	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021435-nagD-K02566	NA	NA
AK002_04594	1764	glpD_2	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	GTGGGCACAAGCTTATCCGCCAAGATGCGGACCCGTTATTTACAGGACATGTCGGCAAATAAGCTGGATGTACTGGTGATTGGCGGCGGTATCACGGGGGCGGGCATTGCTTGGGACGCCAGCTGCAGAGGGATGAGCGTCGGCTTGGTGGAGATGAATGATTTTGCTTCGGGAACGAGCGGCAGATCAACGAAGCTGATTCACGGGGGACTCCGGTATTTGAAGCAAGGGGAAATCGGCCTGGTACGGGAGGTGGGCTCCGAACGGGCACTGCTTCACCGCAGCGCTCCGCACCTGGTGGAGCCAATCCCCATGCTGCTCCCTATTTATAAAAAAGGCACCTATGGTTATTTTGCCAGTTCCGTCGGATTGTATCTGTATGATTGGCTGGCGGGTGTCAAGCGCAGCGAACGGCGGAAGATGTTTCGAAGGGAGAGCACCCTGGCCCTTGAACCGCTCTTTCGGAAGGAGGGATTGAAAGGTTCCGGTTATTATTACGAATACCGCACCGATGATGCGCGTTTGACGGTCGAAGTGGTAAAATCTGCAAGGGCTAAGGGAGCGCACATCGCGAATTACGCCAAGGTGCAGGAATTTATATATCGAGGAGGAAAAGTAGCAGGAGCACAGGTGGAAGACCTATTGAGCGGGGAGACCTATGCGGTATATGCCAAAAAAATCATAAACGCCGCCGGTCCATGGGTGGATCAGGTCAGGCTGAAGGATAATTCGCTCAAGGGCAAGCAGCTGCTCTTAACAAAGGGCGTTCACCTGGTGGTGGATCATGCCAAGCTTCCCGTACGACAGGCCGCTTATTTTGATGTGCCGGGCGGCCGAATGATTTTTGTCATTCCGCGGGAGGGCAAGACATATATCGGAACGACCGATACTCTCTATAAAGGGGCGATTGAGACGCCCGGCATTACCGAGGAGGACCGCCGCTATCTCATCGATGCGGTCAATCATGCGTTTCCGGATGCAGGGCTGAAGCCAAGCGATATCGAATCCGGATGGGCGGGGCTGCGGCCGCTCGTTCGCGAGGAAGGAAAAGGTCCTTCGGAAATATCGCGAAAAGATGAGTTGTTTATATCCGATTCCGGGTTGATCACGATTGCGGGCGGAAAGCTGACCGGATTCCGGAGAATGGCCGAAAAGGTCGTCAACCTTGCAGCTAGACAGCTTCAGGACGCAGATGGCACCATCTATCCTCCCTGTACGACGGATCGGGTTCCGATAAGCGGAGGAGACCTGAACGGACTCACTTATGCGGAAGCTCAGGAGAAGCTTATTAAACAGGGGGAAACCCTCGGCATCAGGCCTGATGACGTGAGGAGTTTCATGGCCAGGTATGGTACCGATACCCTTGAACTGTTTAAACGGATCAAGGCTGCATCCGACAAAACAGAAGCTATCGGATTTAGATTGCTGCGTGCCGAAATCGAGTATTCCATCGAATGCGAAATGACGATGAGTGCCGTGGATTTTCTGTTAAGAAGAACAGGCTGGATGTTATTCGACCGGCCCAAAACCGAGCGGGTCATTGCTTCCGTCATGAGCTTGATGGGGGAATGCTTAGAGTGGGATCATGAGGAGGTCGACAGACAATGGGAGCTACTGCAGGACCAATTGCAAGCGGCATGGGGAGTGGCGGAAGGCAGCAGAATAGAGTTGGCTGCAGCTCCGACGGATCGGGAACACGCCAATGATGCGGTCTCCGAAGAAGAAGCCGGGCATCCGTCGGCCGTGTCGGCGATGAACCGATAA	MGTSLSAKMRTRYLQDMSANKLDVLVIGGGITGAGIAWDASCRGMSVGLVEMNDFASGTSGRSTKLIHGGLRYLKQGEIGLVREVGSERALLHRSAPHLVEPIPMLLPIYKKGTYGYFASSVGLYLYDWLAGVKRSERRKMFRRESTLALEPLFRKEGLKGSGYYYEYRTDDARLTVEVVKSARAKGAHIANYAKVQEFIYRGGKVAGAQVEDLLSGETYAVYAKKIINAAGPWVDQVRLKDNSLKGKQLLLTKGVHLVVDHAKLPVRQAAYFDVPGGRMIFVIPREGKTYIGTTDTLYKGAIETPGITEEDRRYLIDAVNHAFPDAGLKPSDIESGWAGLRPLVREEGKGPSEISRKDELFISDSGLITIAGGKLTGFRRMAEKVVNLAARQLQDADGTIYPPCTTDRVPISGGDLNGLTYAEAQEKLIKQGETLGIRPDDVRSFMARYGTDTLELFKRIKAASDKTEAIGFRLLRAEIEYSIECEMTMSAVDFLLRRTGWMLFDRPKTERVIASVMSLMGECLEWDHEEVDRQWELLQDQLQAAWGVAEGSRIELAAAPTDREHANDAVSEEEAGHPSAVSAMNR	PGPT0006775_799	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
AK002_04595	858	btr_4	COG0614	HTH-type transcriptional activator Btr	TTGGACAAAACACTGCGAGAACCGATGACGATGCCGGATCCTCAGTTTCCGATCAAGGTTCATCGTTGCGAGTTTGATGGCCGGGGACAGGTATTATTTAATCATCACTGGCATGAGCATCTTGAAATATTATATTTTGTTTCGGGGGAAGCGACGCTGGAATGCGGCTCGACCACCTTTACCGCCAAGGAAGGCGATATGATCGTCATTAACCGGAATGAACTGCATTATGGCCTCAGCCAGTCGGACCATTTGTTTTATTATGCGTTAATCGCAGATTTCTCGCTGCTGCAGAGCCATTCCCTGGATGCGCCCGAGATGAAATTCATCACGCCGATCACCCAGAGCCGGCTGATCTTCGAGAACCGAATCAGCGGGGATGATGCGCTGGCGCCCATGCTATCCATTATCAAGGAGCTGGAACAGCAGGAGTTCGGCTATGAGCTGGCCATCAAATCGGAGCTGTACCGGCTGCTTACGCTTCTGCTGCGAGGTTATGTCGCGACGGTTCTGACGCAGGATGAATACGTCGAGCGGATGAAGAACGTCGAGCGGTTTGCACCGATATTCAAGTATATCGAGGAGCATTACCGTGAGGATCTGTCGGTGGAGCAGTTATCCGGCATGGCAGGTCTCAGCCGGTTTCATTTCAGCAGATTGTTCAAGGAAATCAGCGGCAGGACCGTAACGGAGTACGTGAATGAAACCAGGCTCAACCGGGCGGATTACCTGCTCCGCGAAAGCCCGCTTACGGTATCGGAAATCGCCGCTGCTACAGGATTCAACGATATTTATTATTTCAGCCGGACCTTCAAGAAATATAAGCGGATGGCTCCATCGGCTTTACGGAAAAAGTGA	MDKTLREPMTMPDPQFPIKVHRCEFDGRGQVLFNHHWHEHLEILYFVSGEATLECGSTTFTAKEGDMIVINRNELHYGLSQSDHLFYYALIADFSLLQSHSLDAPEMKFITPITQSRLIFENRISGDDALAPMLSIIKELEQQEFGYELAIKSELYRLLTLLLRGYVATVLTQDEYVERMKNVERFAPIFKYIEEHYREDLSVEQLSGMAGLSRFHFSRLFKEISGRTVTEYVNETRLNRADYLLRESPLTVSEIAAATGFNDIYYFSRTFKKYKRMAPSALRKK				NA	NA	NA	NA	NA
AK002_04596	1059	iolG_24	COG0673	Myo-inositol 2-dehydrogenase	ATGAAATCTATTAATGTTGGCGTCATTGGCACTGGATCAATCTCTGCTATGCATTTGCAATCCTATCAAAAACATGCGAACGCGAACTTGCTCGCCGTGTGCGATTTAAACGAAGAAAGAGCACAGCGCGCAGCTGAAAAATACGGCGCTACCAAAGTCTACACGGACTATAAAGAACTTCTGGCCGATCCGGAAATCGATGCGGTAAGCATCTGTACCTGGAACAATACGCATGCCGAAATCAGCATTGCGGCACTGAATGCCGGCAAACACGTTCTGGTTGAGAAACCGCTTTGCCGCACCGTTGAGGAAGCGCTTCAAGTACAGGAGGCCGTGAAATCCTCCGGCAAGATGCTCCAGGTCGGTTTCGTAAGACGCTATGACCCTAACGCTCAAATGCTCCGCGAGTTTGCAGACAAGGGTGAATTCGGGGAGATCTACTTCGCGAAGGCTTCCTCCATTCGCCGCCTTGGCAATCCGGGCGGCTGGTTCTCCGACATCGAACGTTCCGGCGGCGGACCGCTCATCGATATCGGCGTGCATGTCATCGACCTGTGCTGGTACATGATGGGCCGTCCGAAGCCGGTTGCCGTCAGTGCCAATACATACCGGAAGCTGGGCAACCGCTCCAACGTGCGCAACCTGTCCTTCTATAAAGCAGCGGATTATGATGCCGAGAAGAACACGGTCGAGGATATGGCGAACGCGATGATCCGTTTTGAGAACGGCGCTTCGTTGCTGGTGGACGTGAGCTTCACGCTGCACTCGAAGGAAAATCTGCAATCCGTTAAATTGTATGGAGACAAGGGCGGATTCGAGATTGATCCTGAGGTATCCATCGTGACCGAGAAACACGATACCATTATCAACATCCAGCCGCAAACGGACAGCAAGGGATTCGATTTCGATGCCGCTTTCCAAAGCGAAGTCAATCATTTCATTTCCTGTATCGAGAACGGCACGACACCGCTCAGCCCGGTTGAAGACGGCGTTGAGATCATGAAAATTCTGTGCGGCATCTATGAATCCGCTGAGAAAGGGGCTGAAGTTCTCCTATGA	MKSINVGVIGTGSISAMHLQSYQKHANANLLAVCDLNEERAQRAAEKYGATKVYTDYKELLADPEIDAVSICTWNNTHAEISIAALNAGKHVLVEKPLCRTVEEALQVQEAVKSSGKMLQVGFVRRYDPNAQMLREFADKGEFGEIYFAKASSIRRLGNPGGWFSDIERSGGGPLIDIGVHVIDLCWYMMGRPKPVAVSANTYRKLGNRSNVRNLSFYKAADYDAEKNTVEDMANAMIRFENGASLLVDVSFTLHSKENLQSVKLYGDKGGFEIDPEVSIVTEKHDTIINIQPQTDSKGFDFDAAFQSEVNHFISCIENGTTPLSPVEDGVEIMKILCGIYESAEKGAEVLL				NA	NA	NA	NA	NA
AK002_04597	858			hypothetical protein	ATGAAACTCGGAGTAAGCTCGTACAGCCTGTACCAAGCCATTAACAAAGGCGAAATGACCATTACCGACGTCATCGATTACGTTGCGGAGATCGGCGGAGAGCATATCGAGATCGTTCCGATCGGCTTTAACCTGAAGGAAACGCCGGAGCTGATTGATACGATCAAATCCCACGCCGCTTCTAAAGGACTTGACATCTCCAACTACGCCATCGGCGCCAATTTTGCGGAATTGGATGACGCTGCTTATGCAGCGGAGATTGAACGAGTCAAAGGCGAAGTGGACATAGCGGCTGCGCTTGGCGCCAAGCTCATGCGCCATGACGTAGGTTCCTCCAAAGACTTGTCCATCACTCATTTCCTGGAGGAGCTTCCGCGGATGGCCAATGCATGCCGTATCATTGCCGATTATGCGGCAGAACGCGGCATTACCACCAGCGTGGAGAACCATGGCTACTTCATTCAGCACAGCGACCGTGTCAAAGCGTTGGTTCAAACCGTGAATCACCCTAACTTCAAAACTACTCTGGATATCGGGAATTTCCTCTGCGCAGACGAGGTATCCACGGTGGCAGTGGCAAACAACATCGGCCTGGCTTCGATGGTTCACTTCAAGGACTTCTACTATCGTCCGGCTCACCGTGCACCCGGATCCGGCTGGTTTAACACCTCCAGCGGCAACTGGCTGCGCGGCGCGATTGTCGGCCAAGGCGATATCGATATGCCGGAAGTCGTTCGCATCGTGAAGGAATCCGGGTATGACGGCTATATCTCGATTGAATTCGAAGGGATGGAAGATTGCCGCACGGGTGCTAAATTCGGTTTGGAATATGTCCGTAAAGCCTGGAACGAAGCTTAA	MKLGVSSYSLYQAINKGEMTITDVIDYVAEIGGEHIEIVPIGFNLKETPELIDTIKSHAASKGLDISNYAIGANFAELDDAAYAAEIERVKGEVDIAAALGAKLMRHDVGSSKDLSITHFLEELPRMANACRIIADYAAERGITTSVENHGYFIQHSDRVKALVQTVNHPNFKTTLDIGNFLCADEVSTVAVANNIGLASMVHFKDFYYRPAHRAPGSGWFNTSSGNWLRGAIVGQGDIDMPEVVRIVKESGYDGYISIEFEGMEDCRTGAKFGLEYVRKAWNEA	PGPT0017960_329	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TAGATOSE_DEGRADATION,PGPT0017960-dpe|lre-K18910	NA	NA
AK002_04598	897			hypothetical protein	ATGTCGAAGCCTATCATGCCTAACAAAATTGGCGTTATCGTTGACAGCTTTCGGGTTGGCGTAAGAGAAGGTCTTGTCAAAGCACGGGAGGTCGGCGCGGACGGCGTTCAGATTTATGCCGTTCACGGCGAAATGGATCCGGCCAACCTCTCCGCTTCCGCGCGAAAAGAATTGAAGGATTATATCGATTCCCTGGGACTTGAAATTTCCGCCCTCGTCGGTGACCTTGGCGGACACGGCTTTCAGGATCCCGCCGAGAATGCGGCCAAAATCGAAAAATCCAAACGGATCATGGAGCTCGGTTTGGAGCTTGGAACCAATATCATTACGACCCATATCGGCATCGTGCCGCAGGATCACAACGGCCGCGTATATGAAACGATGCATAAGGCCTGCGTAGAGCTCAGCACCTTCGCGAACTCGATGAACGCATATTTTGCCATCGAGACGGGGCCGGAGCCTTCGGCTCACTTGAAATCATTCCTGGACGGCCTCGGTTCCAACGGCGTATCCGTTAACTTCGACCCGGCCAACATGGTCATGGTTACGGGTGACGATCCAGTACAGGGCGTATATAACCTGAAGGATTACATCGTCCATACCCACGCGAAGGACGGAATCAAGCTGGCAGACTACATCGACCCTCGTGACGTATACGGCGATTTCGGATATGAAGCACCCGCGCTTGACCATGACAAAATTGCCGATATGGCGGAGTCCGGCGAGAAGTTCCGTGAGGTTCCGCTTGGCGAAGGCGGCGTTAACTGGAATGCTTACCTGCAGGCCCTTAAGGATATCGGCTATACCGGGTATTTGACAATCGAACGCGAAGTGAAGGCTAACCCGGAAGCGGACATCAAGCTTGCCGTTGACTTCTTGAAGACGTTCAGAGCATAA	MSKPIMPNKIGVIVDSFRVGVREGLVKAREVGADGVQIYAVHGEMDPANLSASARKELKDYIDSLGLEISALVGDLGGHGFQDPAENAAKIEKSKRIMELGLELGTNIITTHIGIVPQDHNGRVYETMHKACVELSTFANSMNAYFAIETGPEPSAHLKSFLDGLGSNGVSVNFDPANMVMVTGDDPVQGVYNLKDYIVHTHAKDGIKLADYIDPRDVYGDFGYEAPALDHDKIADMAESGEKFREVPLGEGGVNWNAYLQALKDIGYTGYLTIEREVKANPEADIKLAVDFLKTFRA	PGPT0017530_188	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017530-ulaE|sgaU|sgbU-K03079	NA	NA
AK002_04599	1032	iolG_25	COG0673	Myo-inositol 2-dehydrogenase	ATGCTTAAAATCGGAATATTGGGTTTTGGTTTCATGGGCCGCATGCATTTCGACAATTATCTTCGTTTGGCTCAAGAAGGTGCGGACATCGAGCTGGTGGCGATTTGCGATCTGCGCATCGATGAGCTTAAAGACAGCAAAGCCAACGGGAATATGGCGACCGAGCGCGATGTCTACGACCTGGAGCCCTATCGTCTTTACGACCACGTGGACAAAATGCTCGAGCATGAAGAGCTGGATATCGTGGATGTATGCCTGCCGACGTATTTGCATGCGGATATGTCCTGCATGCTGCTGGAGCGCGGCATTCACGTCCTGTGCGAAAAACCTGTTGCGGGCAGCTCGGAAGGAGCCTGGCGCATGGTGAAAACAGCGGAACGCACGGGCAAAACGCTAATGATCGGACAATGCCTGCGTTTCTGGCCGGCTTATGAATATTTGAAAGATTGCGTGGAGGACGGCCGCTACGGCAGCATCGTTGCAGGCGAATTCTTCCGGGGATCGGAGCCGCCTAAGGGCTGGTTCCTGGAAGGGGAGAAGAGCGGAGGCTGCATCACGGACATGCATGTGCATGACGCGGACATGATCCACTGGCTGATGGGCAAACCGGAGCGGGTGTCCACATTCGCCAAAACGATCATTGAGGGAAGCTCGTACGATATCGTATCTACCCATTACACATACCCTGACGGGAAAGTGATTAACGCCCATGCGGATTGGACGCTGCACGGCGAACATGGCTTCTATATGGGATACCGGGTAAATTTCGAGGCGGCTACCCTGGTGTTCGAGAATAATGAATTGAAGGTGTATCCTGAAGACGCACCGGGCTTTTCAGCCGAACTGTCCGGAGATTCCGGCTACTACCGCGAGCTTCAGTATTTCATCGAGCATGTTGCGCAAGGGAAGCCGGTAGCGGTATGCACGCCAGACAGCGCGGCCGGGTCGCTGGAAATTATCGAAGCCGAGATCCGTTCCGCAAGAGCGAACGGGGCTTTGGAGAACGTGACGGGGAAACAGGCGGTATCTTAA	MLKIGILGFGFMGRMHFDNYLRLAQEGADIELVAICDLRIDELKDSKANGNMATERDVYDLEPYRLYDHVDKMLEHEELDIVDVCLPTYLHADMSCMLLERGIHVLCEKPVAGSSEGAWRMVKTAERTGKTLMIGQCLRFWPAYEYLKDCVEDGRYGSIVAGEFFRGSEPPKGWFLEGEKSGGCITDMHVHDADMIHWLMGKPERVSTFAKTIIEGSSYDIVSTHYTYPDGKVINAHADWTLHGEHGFYMGYRVNFEAATLVFENNELKVYPEDAPGFSAELSGDSGYYRELQYFIEHVAQGKPVAVCTPDSAAGSLEIIEAEIRSARANGALENVTGKQAVS				NA	NA	NA	NA	NA
AK002_04600	888			hypothetical protein	ATGAAAAAAGGGATTAATATCTGGTCGTTCCCGGGAGAGGCTTCCATCTCCGACTGTATCCGATTGGCAAAAGAAGCGGGCTTTGACGGAATCGAACTGTCGCTGAACCAAACGGGGGAGCTCGGGCTCCAGGCAGGCGATAAGGAAGTGCAGAACATAGCGGCACAGCTGAAGGACGCGGACCTCGAGATTGCAGGATTGGCGACCGGCTTGTATTGGGATTATCCGATGACCAGCGACGACCCGGCTATCCGTGAAAAGGCTATGGACGTTTGCAAGAAGCAGCTGGAGCTCGCGGCTGCATTCGGAGTGGACGCCATTCTTGTGATACCAGGGGCGGTCGGCGTCGATTTTGTTCCCGGTTCCGCAGTCATCGACTACGAATATGCCTACGAGCGGGCACAAGAATCCATTCGCAAGCTGGTTCCGTACGCGGAAAGCGCCGGCGTTGCGATTGCGCTCGAGAATGTCTGGAACAAATTCCTCTTGTCCCCGCTGGAATTGCGAACCTTCATTGATGAGATCGGTTCCGACTATGTCGGCTCTTATTTTGATGTAGGCAACGTCGTGCACAACGGTTATCCGGAGCATTGGATTCGAATTTTGGGCGAGCGGATCAAGAAAGTCCATTTCAAGGATTACCGCAGGCAGGCAGGCGGATTGCACGGCTTTGTCGACCTGCTGGCAGGAGACGTCAATTATCCTGCAGTGGTGGAAGCTCTGCGCCTGATCGGCTACGACAACTATGTCACGGCAGAGATGATCCCGGCCTACACCCATTACTCGGAGCAGATCATATTTAACACATCCAATGCGATGGATGCGATTCTCGGACGGACGCCGTCTTTGCGCAAGCCGGACGCGCGGCAGCATCAAGGACAATCATAA	MKKGINIWSFPGEASISDCIRLAKEAGFDGIELSLNQTGELGLQAGDKEVQNIAAQLKDADLEIAGLATGLYWDYPMTSDDPAIREKAMDVCKKQLELAAAFGVDAILVIPGAVGVDFVPGSAVIDYEYAYERAQESIRKLVPYAESAGVAIALENVWNKFLLSPLELRTFIDEIGSDYVGSYFDVGNVVHNGYPEHWIRILGERIKKVHFKDYRRQAGGLHGFVDLLAGDVNYPAVVEALRLIGYDNYVTAEMIPAYTHYSEQIIFNTSNAMDAILGRTPSLRKPDARQHQGQS	PGPT0017530_243	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0017530-ulaE|sgaU|sgbU-K03079	NA	NA
AK002_04601	906	rhaR_57		HTH-type transcriptional activator RhaR	ATGGCCGATATGGACCCCGATTATCCGGTAAAACGCGAAGCGCCTTTTTGCGAATGGTCGCCCAGCATTCATTATGCACAGTTTCAACGCATGGCGACGGGAGCTCTCCCGCAGCGCAGGTTATATGATTTCGAGCTGCTCTATGTATGCCATGGGGAAGCCGTTACCACGATGTACGGGAACCGGCATGTCGTTGAAGCAGGCCAGCTGATCTTCCTGCCGTCCGGCGTTTACCACCAGAATGAGGTGGTTTCCCATCCCGACGCGCGTTTTCTGGGCATCCATTTTGATTTTTTCGATGAGCTGGACATCCAGACGGAAGCCGATATGATCGTGAACGAAGCCGTGGTGGATGCGGATAAGTTCGCGCATGAAGCCGTATCATCCGCCTTCCCTCCCCTTTCTTCACGGATTATCTACACGCCACCCCTGCCATGCGTACAGATGATGGAACGCATCGTAGAGGAATTCACCCTGCGTCCCGCCGGCTATGAGCTTGCCTGCAAGGGACTGATGCTGGATGTGCTGGTTCAGCTGTTTCGGACGCACCCCTCCCGGGCATTGACGGAAACGTCGCCGCACGAGGCCAAGCTGATCGAGCTGATGGCTCAAATCGAAAAAGCTCCAGCCAAAGACTGGAGCAACAAAGTCATCGCGGAGCATTTGATGTTAAGCGCGGATCATACCGCCAAATTGTTTAAGCGCCTTGCCGGGATGCCGCCGAGCGAATTCGTGCAATCCGTTCGCCACCGGGAAGCGCGCCGGCTGCTCCGGGAATCCGACATCTCGATCGAGATGGTTGGCGAAGGCGTCGGATACCCGGACATTCATTATTTCAGCCGGATCTTCCGGAGGCTGGAGGGGATTACCGCTACCGATTACCGGAAGCTGTCAAGAATTCTGTAA	MADMDPDYPVKREAPFCEWSPSIHYAQFQRMATGALPQRRLYDFELLYVCHGEAVTTMYGNRHVVEAGQLIFLPSGVYHQNEVVSHPDARFLGIHFDFFDELDIQTEADMIVNEAVVDADKFAHEAVSSAFPPLSSRIIYTPPLPCVQMMERIVEEFTLRPAGYELACKGLMLDVLVQLFRTHPSRALTETSPHEAKLIELMAQIEKAPAKDWSNKVIAEHLMLSADHTAKLFKRLAGMPPSEFVQSVRHREARRLLRESDISIEMVGEGVGYPDIHYFSRIFRRLEGITATDYRKLSRIL				NA	NA	NA	NA	NA
AK002_04602	1203	dapX_1	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGAAGACAACGAGCAGCTTTCTAACATCGACGGTGCAAGTCATGCCGCCATCCGGCATCCGGCAATTTTTTAATGCTGCGGAAGCGGATGACGAGGTCATTTCGCTCGGCGTGGGCGAACCGGATTTCGTGACGCCCCAGTGTGCGATCGACGCATGCAAACGGGCGCTGGAGCATGGGCGCACGATGTACACGCCGAATGAAGGGCTGATGGAGTTGAGGGAAGGAATTGCAGACTATCTGCATGCCGGCTTCCAGCTGCAATACGAGCCGTCGAGGGAGGTCCTGGTTACGGTCGGCGGCAGCGAAGCGATTGATCTTGCGCTGCGGGCGCTCATCTCGCCGGGCGATGAAATTATCATTCCCGTACCGGGATATGTCGCCTATGCTCCTCTAGTGCAATTGAACGGCGGCACCGTCGTCGAGTTGGAGCTATCCGCGGAGCATGACTTCAAATTGACGGCGGATGCACTGCAGCAGGCGATTACGCCCCGGACGAAAGCGATCGTTGTTAACTTTCCGAGCAATCCGACAGGAGCCGTCATGACCCATGAGGATTGGCTTCCGATCGCGCGCCTTGCGGTCGAGCACAATTTGGTGGTGATTTCAGACGAAATGTATGCCGAGCTTACTTATAGCGGTACGCATACGAGCGTTGCTTCCCTGCCGGGGATGCGGGAGCGGACCGTCATCATCGGCGGATTCTCCAAAGCCTTTGCCATGACGGGCTGGCGGGTCGGCTACCTCTGCGGCGATGCCGGGCTGGTGAGCGCTATGGTCAAGATCCATCAGTATACCGCGCTCTGCGCGCCCATCATGGGACAGATTGCGGCCATCGAATGTTTAAGGAACGGGCTCGGGGATCGGGATGTGATGAGGCAGGCTTACGATGAGCGCCGACAAATGTTTGTGCAGGGACTGAGCGATATCGGCCTGAGCTGCCGCGATCCTCAGGGAGCCTTCTATGCATTCCCCAGCATAACCGGAACCGGCCTCGGCTCGCAGCAGTGCGCGGAGCGATTGCTTCGGGAGGCCAAAGTAGCCGTTGTGCCGGGCCATGTATTCGGTGCCGGGGGCGAAGGCTTTATCCGCTGCTCGTATGCCGCTTCATCCGCTCGACTCTGCGAAGCGCTCGAACGAATGGAACGCTGGCTTCAAACGCATGTACGTGCCGAAGATCTTCATGCCTTACAGAATTCTTGA	MKTTSSFLTSTVQVMPPSGIRQFFNAAEADDEVISLGVGEPDFVTPQCAIDACKRALEHGRTMYTPNEGLMELREGIADYLHAGFQLQYEPSREVLVTVGGSEAIDLALRALISPGDEIIIPVPGYVAYAPLVQLNGGTVVELELSAEHDFKLTADALQQAITPRTKAIVVNFPSNPTGAVMTHEDWLPIARLAVEHNLVVISDEMYAELTYSGTHTSVASLPGMRERTVIIGGFSKAFAMTGWRVGYLCGDAGLVSAMVKIHQYTALCAPIMGQIAAIECLRNGLGDRDVMRQAYDERRQMFVQGLSDIGLSCRDPQGAFYAFPSITGTGLGSQQCAERLLREAKVAVVPGHVFGAGGEGFIRCSYAASSARLCEALERMERWLQTHVRAEDLHALQNS	PGPT0007145_138	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007145-yugH-K10907	NA	NA
AK002_04603	918	ddl_2	COG1181	D-alanine--D-alanine ligase	ATGAAGGTTGGCGTCATCATGGGAGGCGTATCATCCGAGAGGGAAGTTTCGCTCATGACCGGCAAAGAGATGATCGCTCATTTGGATAAAAGCCGCTACGAGGTCTATCCGATCGAGATTCACGATAAACGCGAGCTGATCAGCAAAACCGAAGGCATCGATATTGCGCTGCTCGCCCTGCACGGCGCGTTCGGGGAAGACGGCACGGTGCAGGGCACCCTCGATACGCTGGGGATTCCGTATACCGGCAGCGGCGTTCTGGCCAGCAGTCTCTGCATGGATAAAGATTTGAGCAAGAAGCTGCTGCGTTACGAAGGATTGCATACGGCTGACTGGATCATGGTCAGCTGCATGGAAGAGCTGGCGGCCGCCGACGTGGAGGGGCTCGGTTTTCCCGTTGTGGTGAAGCCGAATGCGGGCGGGTCCAGCATCGGTACCCGGATCGTGCGCGACTCGGCTGGCCTAGCATCCGCCGTCGAAGAGGCGCTGCGGTGGGACCGCTTCGTCATGATCGAGCAATGGATCGAGGGAGAGGAAATCACCTGCCCGGTCCTGAACGGCGATATGCTTCCGATTGTGTCGATCAAGCCGAACTCCGAATTCTTCGATTATGCATCCAAATACGAAGAAGGCGAAGCGGATGAGCAGGTGATCGAGCTTCCCACAGAACTTCAGGAGCAGGTGCGCACAGCCGCGCTTCAATGCTATAAGGCGATGAAGTGCAGTGTATATGCCCGGATCGATATCATCCTGAAGGGAAAGATTCCTTATATTTTGGAGGTCAACACGCTTCCGGGTTTAACGAAGACCAGTCTGCTGCCAAGAAGCGCGGAAGCGGCGGGATATTCGTTCAGCGGACTTTTGGATGCCTTGATTGAAACCTCATTATCGGAACGAAAAAGCGAAGGCAAGGAGTAG	MKVGVIMGGVSSEREVSLMTGKEMIAHLDKSRYEVYPIEIHDKRELISKTEGIDIALLALHGAFGEDGTVQGTLDTLGIPYTGSGVLASSLCMDKDLSKKLLRYEGLHTADWIMVSCMEELAAADVEGLGFPVVVKPNAGGSSIGTRIVRDSAGLASAVEEALRWDRFVMIEQWIEGEEITCPVLNGDMLPIVSIKPNSEFFDYASKYEEGEADEQVIELPTELQEQVRTAALQCYKAMKCSVYARIDIILKGKIPYILEVNTLPGLTKTSLLPRSAEAAGYSFSGLLDALIETSLSERKSEGKE	PGPT0020050_5631	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK002_04604	1455	hisC_3		Histidinol-phosphate aminotransferase	ATGTATTTGGATTTCAAGTTGGCGAATGACCGCCCGGCGTATATTCAAGTCAAGGATTACATGAAGCGCTTGATGACAACCGGGGCGCTGCAAGCCGATCAGAAGCTTCCCTCCACGCGTGAGCTAAGCGCGCTGTTTCGAGTGGGCCGCAATACGGTGCTGAGCGCATACTCCGATTTGGAGGATGAAGGCTATATCTACGCGGTTAAAGGGCAAGGACACTTTGTTTCCCCTTCGATCAGCGGGGCATCCGCACAGCCTGAAGGTAAACGGCTGGACTGGGGTCCTCGCCTGAACGAGTATGCCAGGCTTGCGGAAGCGAATGATCTGATGAAGCACGGGATCCGTGCTGAGAAGGGCTCCATATCGTTTACAAGCATCGCTCCCGATGAGAAGCTGTTCGACCTGCCCAATGTCAAGCGCGCATTCCTGGACCGGATGTCGCTTGAAGGGGATATTCTACTAAATTACGGTTACGCCAAAGGCTATAAACCGCTTATTGATTACCTTCTCCGTTACATGGAGAACAAAGGCGTGAATATTCAGGGCAAAGATATGCTGATCACCAGCGGTTTTACGGAAGGCTTAAGTCTGGTGCTATCCGCCTTGAACCAAGGGCATGGCCGCATTCTATGCGAGAATCCCACCCATCATACCGCCATTAAAAATTTTAAAATGCACGGGTACGCCATTACCGGCGTCGAGATGGAGCAAGACGGCATCAGCCTGACAGGGCTCTCACGCGAGCTGTCGGAGCGGTCGTACGACATGGCGTACCTTGTGCCTTCCTATCATAATCCTACCGGAATCGTGATGTCCCACCAGAAGCGGCTGGAAGCGCTGCGGCTGCTGAACGAGCACGAGATTCCCGTGATCGAAGACGGCTTCAACGAGGAGCTGCGTTATTCGGGCTCTCACATCGCGCCTCTCGTTGCATGTGCAGGGGGAGAGAACAACAGCGTGATTTACTTGGGCAGCTTCTCCAAGATTCTGTTTCCCGGCTTGCGAGTCGGATGGGTGCTGGCCGACAAGACCCTGATTCATTATCTGGAAAGCGTGAAGCGGGCCCGCAGCATTCATACGTCGACGCTGGATCAGTCCCTGCTCTTTCAATATTTGTACAATGGCAACTTCGAGAAGTATTTAAAGAGAGCGAAGGCCGAGTACAAGCGAAAATACGAGCTTGCGATCCGCTGCTGCGAGGAGTGGATTCCGATGGAGCGGCTGTCCGGCGACGGCGGGCTACACCTGTTCGTTGAATTCGGTCCCGAATTCCGAACCCGCGAGCTGCTGGAGGCATGTTCCGCCCAGGGCGTGGTATTCACGCCGGGCGATATTTTCTATACCGATGGCGGCGGCCAGCACACCATGCGTCTTGGATTCTCACGCGTCTCCGACGAGAACATCGAGAAGGGGATTCGGATCATCGGCGAGACGGCAAGGAAGTTGGTGTGA	MYLDFKLANDRPAYIQVKDYMKRLMTTGALQADQKLPSTRELSALFRVGRNTVLSAYSDLEDEGYIYAVKGQGHFVSPSISGASAQPEGKRLDWGPRLNEYARLAEANDLMKHGIRAEKGSISFTSIAPDEKLFDLPNVKRAFLDRMSLEGDILLNYGYAKGYKPLIDYLLRYMENKGVNIQGKDMLITSGFTEGLSLVLSALNQGHGRILCENPTHHTAIKNFKMHGYAITGVEMEQDGISLTGLSRELSERSYDMAYLVPSYHNPTGIVMSHQKRLEALRLLNEHEIPVIEDGFNEELRYSGSHIAPLVACAGGENNSVIYLGSFSKILFPGLRVGWVLADKTLIHYLESVKRARSIHTSTLDQSLLFQYLYNGNFEKYLKRAKAEYKRKYELAIRCCEEWIPMERLSGDGGLHLFVEFGPEFRTRELLEACSAQGVVFTPGDIFYTDGGGQHTMRLGFSRVSDENIEKGIRIIGETARKLV	PGPT0016790_2928	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
AK002_04605	1665			hypothetical protein	ATGAGTCATTCCGTAACGTTTGAAACCCGGCTGTTGAGCTCTTTGTCCAAAGTATTCGCCGATGAAGAAATGTCCCAAGCCGCCTACGACACAGGAGCAGCGTTTAACAATGAGACATTCTCGTTTCAAGTTGCCTACCGTTCCAATCGTTTGTTAAAAAACATCCGGGTCATTCTGCAATCTGAGTTAAGCGAACGAATTACCGTTCGTGCCGTAGGTCTAGTTCCGTCGGAGCTGCCTACATATCATGACCATGATGAGTTTGTCTTAAGAGCCACGCCCGGGTTGTATCCGGATCCGTTGCTGCCTCTAACATCAGAATCTGTTGTAAACGGTTACCCGAACCAGTGGAGAAGCCTATGGATCACGGTACGGCCTGATGGTGAGATCAAGGGCGGTACGTATGAAATCCGGATCCGCTTTGAAGCGGAATCGGGAGATACGCTTGGGGAAGAGGTATTTACACTGGAATTGATTCCGGCAGCTTTGCCTGCACAGACGCTGATTCATACGGAATGGTTCCATGCCGATTGCCTGGCGAACTACTATGAAGTGGGGATTTTTAGCGAACGGCACTGGACCTTGATCGATCAATTTATGCAGACCGCAGCTCAGCATGGGATCAATATGATCCTGACCCCGGTGTTTACGCCTCCGCTGGATACGGAAGTGGGCGGGGAGCGGCCGACGGTACAGTTGGTCGATGTCGATGTGAACGAAGATGGAACATATTCGTTCGGGTTTGACAAACTCGACCGCTGGGCAGACCTGTGCGATTCCAATGGGATTCAGTACCTGGAATTCTCCCATCTCTTCACGCAGTGGGGAGCCCGCCATGCGCCGAAGATTATGGCTAACGTGAACGGACAGCCGGAGAAGCTGTTCGGATGGGAGACGGACGCGACGGGAGAAGCGTATCATGCCTTCATCCGGCAATTCATCCCTGCCCTGACCGGCTGGATCGAAAGCCGGGGGCTTGAGCAGCGCTGTTATTTCCATGTATCCGATGAGCCGTCAGAGTCCCATTTGGAGGCTTACGGCCATGCAAGCCGGTTGATGAACGAGCTGCTGCCGGATTACCCGATCATCGACGCGCTTTCCGATATTTCGTTCTATGAGCAGGGGTTGGTGAAGCGTCCGATTCCGGGCAATAACCACATCGAGCCTTTCCTGGATCAGCAGGTAACGCCGCTGTGGACCTATTATTGCTGCTCCCAGTACAAGGAAGTGTCCAACCGATTCTTCAACCTGCCTTCGGCGAGGAACCGGATCATCGGGATTCAGCTGTATAAGTTTAACATCGAGGGATTTCTCCATTGGGGATATAATTTTTGGAATTCGCAATACTCGAAACGCGCCATTGATCCGTTCAAGGTGACGGATGCGGATTGCGGTTTTCCTTCCGGAGATGCTTTTGTGGTATATCCCGGCGAAGAAGGGCCGATCGAATCCATTCGGCTGAAGGTATTCCAGGAAGCGCTTCAGGATTTGAGAGCGCTTCAACTGCTGGAGACGCAGATCGGCAGGGAGGCAGTTCTGCAGGCGCTGGAAGAAGGGCTTGAAGAGCCGATCACCTTCAAAACGTACCCGAGGGATCCGGAATGGCTGCTGTCGAAGCGGCAGTGGATCAATGATAAGATCAGGGAAAGCTTGGCTGTGAAGTAA	MSHSVTFETRLLSSLSKVFADEEMSQAAYDTGAAFNNETFSFQVAYRSNRLLKNIRVILQSELSERITVRAVGLVPSELPTYHDHDEFVLRATPGLYPDPLLPLTSESVVNGYPNQWRSLWITVRPDGEIKGGTYEIRIRFEAESGDTLGEEVFTLELIPAALPAQTLIHTEWFHADCLANYYEVGIFSERHWTLIDQFMQTAAQHGINMILTPVFTPPLDTEVGGERPTVQLVDVDVNEDGTYSFGFDKLDRWADLCDSNGIQYLEFSHLFTQWGARHAPKIMANVNGQPEKLFGWETDATGEAYHAFIRQFIPALTGWIESRGLEQRCYFHVSDEPSESHLEAYGHASRLMNELLPDYPIIDALSDISFYEQGLVKRPIPGNNHIEPFLDQQVTPLWTYYCCSQYKEVSNRFFNLPSARNRIIGIQLYKFNIEGFLHWGYNFWNSQYSKRAIDPFKVTDADCGFPSGDAFVVYPGEEGPIESIRLKVFQEALQDLRALQLLETQIGREAVLQALEEGLEEPITFKTYPRDPEWLLSKRQWINDKIRESLAVK				NA	NA	NA	NA	NA
AK002_04606	1425			hypothetical protein	TTGCACAATTTCATTGAATACGCTGCCAACATCGAGCCCTCGGAACGTCAATTAGCCGTACAGGAGATGGAGTTCTACGCCTTCTTTCATTTTACCATCAATACGTTCACGGATATGGAATGGGGCACGGGAAAGGAAGACCCGGCGCTGTTCAATCCGGCGCAGCTGGATGCGGATCAATGGGTCAGCGCTTGTGTCAGCGCCGGGATGCGCGGCTTGATCCTGACCTGCAAGCATCATGACGGATTCTGTTTATGGCCGAGCCAGTATACGGAGCATTCCGTGAAGAGCAGTCCATGGCGAAACGGCCATGGGGATGTGGTGAAGGAGGTTGCCGATGCCTGCAGGAGAGGGGGGATCAAGTTCGGCATCTACTTGTCCCCCTGGGACCGGCATGAACCGTCCTATGGGGATTCGCCGCGGTACAATCAATTTTTCCTGAATCAGCTAAGAGAGCTCCTGACCGGCTACGGCGAGATATTCAGCGTCTGGTTTGACGGAGCCTGCGGCGAAGGACCGAACGGCAAGCGCCAGGAATACGATTGGGATGCGTATTACGCCCTGATTCGGGAACTGCAGCCGAATGCCGCCATCTCGGTATGCGGACCGGATATTCGCTGGTGCGGAAATGAAGCGGGGCATTGCAGGGAGTCGGAGTGGAGCGTCGTTCCGGCGTCGCTGCGCCAAAATGAAGCGATCCAGGAAAAGTCGCAGCAAACCGATGACCGGGAGTTTGCGCGCCGCTATGAATCCAGCGAAGAGGATCTCGGCAGCCGGAGCGTCATTCAAGGCGAGAAGGAGCTGGTATGGTATCCGGCCGAAGTGAATACCTCGATCCGTCCCGGCTGGTTCTACCATGCGTCCGAAGACGATAAGGTTCGATCGCTGGAAGAATTGCGGCATATTTATTACGGCTCGGTTGGCGGCAATGCCACCTTTCTGCTCAATATTCCGCCGGATACCCGCGGACTCGTTCATGAGAACGATCTGCGGCGTCTGCAGGAACTCGGGGACGCCATCCGAACAACGTTTAATACCGATTTGGCAGCCGGAGCGGATATTACGGCTTCCGAAACGAAAGCCGGATCGGATGCTCGAAATATGGTCGACGGTAACAAGGATACGTATTGGAGCCCTGAGGAGGGCACGGAATACGCCGTGATTGAGCTGGACCTCGGGCGGGCGATCGATTTCGATCATATCGTATTGGCCGAATACCGGTACGGGCAGCGGATCGAGCGCTTCGAGCTTGAATATATGGAAAACGGGAACTGGCACACGATCCAATCCGGGACGGTAATCGGGCGCAAACGCATCTGCCGCTTTCCCGCCGTACGCGCTCAATATATTCGCCTGACCATTTTGGAATCGAGATGGTGCCCGCGCCTGTCCGGCATTGAAGTTTACCGGAGCTCGAGGGATTGA	MHNFIEYAANIEPSERQLAVQEMEFYAFFHFTINTFTDMEWGTGKEDPALFNPAQLDADQWVSACVSAGMRGLILTCKHHDGFCLWPSQYTEHSVKSSPWRNGHGDVVKEVADACRRGGIKFGIYLSPWDRHEPSYGDSPRYNQFFLNQLRELLTGYGEIFSVWFDGACGEGPNGKRQEYDWDAYYALIRELQPNAAISVCGPDIRWCGNEAGHCRESEWSVVPASLRQNEAIQEKSQQTDDREFARRYESSEEDLGSRSVIQGEKELVWYPAEVNTSIRPGWFYHASEDDKVRSLEELRHIYYGSVGGNATFLLNIPPDTRGLVHENDLRRLQELGDAIRTTFNTDLAAGADITASETKAGSDARNMVDGNKDTYWSPEEGTEYAVIELDLGRAIDFDHIVLAEYRYGQRIERFELEYMENGNWHTIQSGTVIGRKRICRFPAVRAQYIRLTILESRWCPRLSGIEVYRSSRD	PGPT0018775_1685	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_04607	1629			hypothetical protein	TTGAAAAGGTTCACTGGATTAGGATTAAGTCTGATTCTCGCGGCAGTGCTGGTTTTATCCGCTTGCGGCAAATCGAGCGAAACAGGAACTGGAAATCCGGCAAGCCCTCCGGAGTCGGGGGCACCCGTTGAACTATCGGTATTCGCTCCTCAGTCCGCCGGCATCGAGAGCCTCGATGTCAATCCATTCTCCAAGCATATCGAAGAGAAGCTGGGGATTACGTTCAAATGGAATACGACGCCCGACGCGGTATTCAACGACAAGAAACTGCTGATGCTGGCCAGCGGGGATTATCCGGCGCTTATTATGAATGCCGGCATATCCAAGGCGGATCAGATCAAGTACGGAATGCAGGGGGCCTTTATCCCTTTGAACGATTTAATCGACCAGCACGCGCCGAACATCAAGAAGGCATTGGAGGAAGTTTCCTATTTGAAATCCGCCATGACGGCCCCGGACGGCAATATATACGCGCTTCCGAAGGTGAACGAGTGCCTGCACTGCACGTATGGCCAGCGGATGTGGATCAATACGACCTGGCTCGAGAAGTTAGGGCTTGAAATGCCAACGACCACCGACGAGTTCTATGAAGTGCTGAAAGCCTTTAAGGAGCAGGACCCGAACGGCAACGGAAAGGCTGACGAAATTCCGATGACCACTTCCCTCGATGTATGGGGAGGAGGAGTTGACGCCTTTTTGATGAATGCTTTTATATACAACAATGGCACGACTTATCTAAGCGTGAAGGATGGCAAGGTGATTTTGTCCGCGGCTGAGCCCGAATGGAGGGAAGGGCTGAAATATCTGCGTAAGCTTTATAGCGAAGGACTGATCGATAAAGGAGCCTTTACGCAAAACGGCGATGCCGTCAAGCAGCTTGGCAACAAAGAGGAGAATGTGGTCGGCACCGTCGGTTATGCGCTGATCAGCAGCGTGCTGGAGCCGACCGACGCCAAGCCCCGCCATAAGGAATACGATGTCGTTCCCCCGCTGAAAGGACCGAATGGCGTGCAGCTGGCAGGATATAGCGTCGGAGCAGGGGACGGATCGTTTGTCATTACGAACAAAGCGACGGAGGAGCAGCGGATCGCAGCGATCAAGCTGGCGGATTACTTGTTCTCCGAAGAAGGCACCGTCATGACTTCCTGGGGGTTCGAGGGAGACGGATGGCGAAAGGCGGAGTCCGGTGCGCTTGATTACAACGGCGAGTCGGCCGCATACGAAGCGTTGAAGCGGGACGTGCCCGAGGGATCCCTTGACGTAACCTGGTGGCAGCTCGGCACGATGCTGATGGTGAATTCCCTCCGCGAATCCTTTGTTGCTCCTGAAGATCCGCTCGGCAACGGAGCCTACGAGTATCGTTTATGGCTGGCTGCCAAGAAATATGAGCCTTTTGCCAAACCGGAGCTAGTGTACCCGACCGATGTGTTCATCGATCCGAAAGACGCAACCTTTATCGCGCAGATTCAGAAGACGATTCAGGATTACGTGAAATCGAACCTGGCCCAGTTCGTAACCGGCAGCAAAGACATCGAGAAGGATTGGGATGCCTATGTCAGCGGATTTAAGGGGCTTCAGCTGGATAAGTATCTGGAGATTCATCAGAAAGCATTAGACAATCAAGGATGA	MKRFTGLGLSLILAAVLVLSACGKSSETGTGNPASPPESGAPVELSVFAPQSAGIESLDVNPFSKHIEEKLGITFKWNTTPDAVFNDKKLLMLASGDYPALIMNAGISKADQIKYGMQGAFIPLNDLIDQHAPNIKKALEEVSYLKSAMTAPDGNIYALPKVNECLHCTYGQRMWINTTWLEKLGLEMPTTTDEFYEVLKAFKEQDPNGNGKADEIPMTTSLDVWGGGVDAFLMNAFIYNNGTTYLSVKDGKVILSAAEPEWREGLKYLRKLYSEGLIDKGAFTQNGDAVKQLGNKEENVVGTVGYALISSVLEPTDAKPRHKEYDVVPPLKGPNGVQLAGYSVGAGDGSFVITNKATEEQRIAAIKLADYLFSEEGTVMTSWGFEGDGWRKAESGALDYNGESAAYEALKRDVPEGSLDVTWWQLGTMLMVNSLRESFVAPEDPLGNGAYEYRLWLAAKKYEPFAKPELVYPTDVFIDPKDATFIAQIQKTIQDYVKSNLAQFVTGSKDIEKDWDAYVSGFKGLQLDKYLEIHQKALDNQG	PGPT0017245_1646	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04608	897	melC_14	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGAGCAGATCAACCGTACGGGAGTCCGCTGCAGACCGGATTTTCCTTGGTATCGTGTATTTATTTCTATCCGTCGTCCTGATCGTCATCCTGTTTCCGCTGCTGCATATTGTAAGCGCATCCTTCAGCTCCCCGGGCGCGGTGTCGTCGGGCAAGGTGTGGCTGTGGCCGGTGGACGTGACCTTGATCGGCTACAAAGCGGTATTCCAGAATTCCAATATTCTGATCGGGTTTGGCAACTCGCTGTTCTATGCCGTTGTCGGCACGCTTGTCAACGTCGCATTCACGGTGATGCTTGCATATCCGTTAGCCCGAAAGACGTTTTACGTTCGCAACATCATCATGATGCTGCTGGTGTTCACAATGTTTTTTGACGGCGGGCTCATTCCGAACTATCTTCTCGTGAAGTCGCTCGGCATGCTCGACACGCGCTGGGCCATGATCATACCGGGTGCGTTAGCCGTGTTTCAGGTCATCATCGCCAGAACCTTTTTTCAAACCACGATCCCGGAGGAGCTCGCCGAAGCGGCCGAAATGGACGGCAGCAGCGACATTACCTTTTTTCTGAAAATCGTCCTTCCGTTATCCAAGCCGATCCTGGCCGTGCTCGCGCTGATGTACGCCGTCGGCCATTGGAACTCCTATTTCAATGCCCTGATTTATTTAAAGGACAGCAGCCTGTTTCCGCTGCAAATCTTCCTGAGGGATATTCTGATCCTGAATTCCGTCAGCGCCGAGATGGTGACCAACGTGAATGAGCTGCTGGTCCGCGAAGGGCTGAAGGATCTGCTGAAGTATTCGCTGATCGTGGTGGCAAGCGCCCCGGTGCTGGTCATTTACCCGTTCGTGCAGAAGTATTTTGTCAAAGGCGTGATGATCGGGTCCTTGAAAGGGTGA	MSRSTVRESAADRIFLGIVYLFLSVVLIVILFPLLHIVSASFSSPGAVSSGKVWLWPVDVTLIGYKAVFQNSNILIGFGNSLFYAVVGTLVNVAFTVMLAYPLARKTFYVRNIIMMLLVFTMFFDGGLIPNYLLVKSLGMLDTRWAMIIPGALAVFQVIIARTFFQTTIPEELAEAAEMDGSSDITFFLKIVLPLSKPILAVLALMYAVGHWNSYFNALIYLKDSSLFPLQIFLRDILILNSVSAEMVTNVNELLVREGLKDLLKYSLIVVASAPVLVIYPFVQKYFVKGVMIGSLKG	PGPT0017255_1231	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04609	981	yteP_55	COG4209	putative multiple-sugar transport system permease YteP	TTGGCTCGTATGAGCAGCGCAATTTCAGTACCTGCAGATGCACAGGCACCAACGAATCTACCATCGAACAAGCCCATGAACCGAACGAGGAAGAAGCTGATGAAGCACTGGCAGTTCTACCTGCTCGTGTTCTTCCCGTTAGTCTACATCATCCTCTTCAAATACGTTCCGATGTTCGGCGTACTGATTGCATTCAAGGAATACAACGTCGTACAGGGGATCTTCGGCAGTCCATGGGTAGGGTTCGATTATTTCCGGCAATTGTTCGACGCGCCGTTCTTCTGGCAGTATGTCCGCAACACGCTCGAGATTTCCCTGTACGGCCTGCTGGTCGGATTCCCTGCACCCATTCTGTTGGCGCTGGCCCTGAATGAGATCAGGAACGGCCGATTCAAGAAAACCGTCCAGATGGTGACGTACGCGCCGTACTTTATTTCAACGGTTGTCATCGTCTCGATTCTGATCGTGAACCTCTCGCCCAACACCGGGCTGATGAGCAACCTGTTCCGGGCGCTGGGACTGGAAACCGTTGATTTTCTCGGCGTGCCGGAGCTGTTCAAATCGATCTATGTCTGGTCCGATGTATGGCAGTTCACCGGTTACGGCGCCATCATCTATATTGCAGCCTTGGCGGGAGTTAATCCCGATTTGTACGAGGCGGCCCGAGTGGATGGGGCGACCCGGTTTCAAAAAATCATCAATATCGATATTCCCAGCTTGTTTCCGGTCATCGTCATTTTGCTCATATTGAATCTGGGCAATTTGATGAGCCTGGGCTTCGAGAAAATCTATCTCATGCAAAACCCGCTGAATCAGAACACGTCCGAAGTCATCTCCACCTATGTGTACAAGGTCGGCCTGCTCGGTGCGAACTTCAGCTTCTCCGCCGCCATCGGCCTGTTCAATTCCGTTATCAATTTCATTCTCTTGGTCATCGTCAATTACGTATCCAGAAAAGTCTCATCCACAAGTCTATGGTAG	MARMSSAISVPADAQAPTNLPSNKPMNRTRKKLMKHWQFYLLVFFPLVYIILFKYVPMFGVLIAFKEYNVVQGIFGSPWVGFDYFRQLFDAPFFWQYVRNTLEISLYGLLVGFPAPILLALALNEIRNGRFKKTVQMVTYAPYFISTVVIVSILIVNLSPNTGLMSNLFRALGLETVDFLGVPELFKSIYVWSDVWQFTGYGAIIYIAALAGVNPDLYEAARVDGATRFQKIINIDIPSLFPVIVILLILNLGNLMSLGFEKIYLMQNPLNQNTSEVISTYVYKVGLLGANFSFSAAIGLFNSVINFILLVIVNYVSRKVSSTSLW	PGPT0017250_463	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04610	2247	rhaR_58		HTH-type transcriptional activator RhaR	ATGGGAAGGAAAGCGTGGTTTTACCGTCAGCTTTTATCGTATATGCCGGTCTTCTTTATCGTGATTTCCTTTGTGTTTTTTGTCTTTTTCCAAATGCTCGGGGAACAGTCGCGGCAGGGCGCGATCCAGGCTAATGAGACGATGATTCAGCAGGCGATGCGTTCGGTCGACAATTCGCTGAAGGCCATCGATCAGATGCTGGTGCAGGAATTGCTGTTCAACCCTGATATGTCGGGATTTTTCAATCAAGAGGATCAGGACAACGTCTATTTGAACATGCAGGCCGTGAAGGCCATGAAGCAGTTCAAGGTTTCCAACCCGCTTGTGGATTCCACGGTCCTCGTTCGAACCCAGGATGAATTCGTCCTAAGCACTTCGTCCACCTTCCGTTTGCAGGATTATGCGGATTATGACTTTCTCCAGCCTTATCTGAGCCAGGTCAATAGCGAAGCAAAATGGAGTGCCCTGCGGAATTATCGGGAATTCAGCTTTAACAGCACGCAGCAGGTGGTCACCCTGGTACGGGATGCCCCCTTCGTTACCCATGGCAAAGGCGTGATTGCCGTCAATATCAAGGTGGACGCCATACATAACATGATTCAGGGCATGGTTAATCCGGAAGTCAGTTTCATTCATGTGATGGACACTGGGGGCAGATCCTTGATCGCCGGCACCTCGGGCGCCGATCACGGGGAACTTGTGTCCCAAGCGATATCCCCTTACACCGGATGGGTTTACGAAGGGGGGCTTACCCAAGGCAGGGTGGTGGGTATCGTCAGCCAATTGTACAATGTCTGGTTTATCGTCGGCCTTCTGATGTGCATGGCCGGCGTGGCCTGGATCGTATTCGTCACGCGCCGGAACTATAAGCCGATTGAAGCCATCGTGTCCCGGATTTCAAAATATTCGCAGACCAAAACGAGCGTTCTGCTCCATGGCGGCAAACAGGATGAGTTTGCTTTTATCGAATCGGCGCTGGAGAGCCTGCTGGAACAGGCGAGCAGCTTTCAGCAGCAGCATCGTGAAGATTTGCTCCTGCGCAAAGCGTACCTGTTTCAGCAGCTGATGGAGGGACAGTATCCTTCTCATCTGGAGCAGTGGAACGAGCAGCGCGAAGCCATGGGGCTGCCGGACCTGTCCCAACCACAGATCGTCAATGTCATCGAAATCGATAAATACCCGCTGTTTTGCGAACAGTATCCCCAGCAGGACCAGTATCTGATCAAGTTTGCCTTAAAAAGCGTCGTTCAAGAAATTGCGGCCGGGCAGGAAACGATGCTTTGGACGGAATGGATTTCAGCCTCGAAGCTGGGAGTTCTCGCGGCAGCGGAAGATCAGGATCCGAATCGGCATGTGGCTACGCTGCTGGAGCAAGCCCGCCAGTGGGTGGAGGAGCACCTGAAGCTGACCATAACCGTTGGCATCGGGGAGAAAGCGGAGCGGTATACGGTTATCCCGGAATCCTATGAGCAGGCACGCGCCGCATTGAAATACAAAATGATCCTCGGCGACAACCGAATCATTCATTACGCCGAAGTATCCGGTGAGGACCGGGGGAATGCATTCGATTTTCTGAACCTGATCCGCTCGATGGCGCAGTCCTTCCGGCTCGTCAACAAGGATTGGCAGGAGAAATACAGCACTCTTATCCATAACATCGAGCAGAACATGCTGGACCGGGACGGCGTGGTGAACCTGGCGGATTACATGATGTACTCGCTGGGACGCGAAATGTCCTGCATGGCGAAGGAATTTCAGGAATTATGGCTTACGGAGGGGCAGCCTGCTTTACGGAACGCGCTTCAGTCGTCCGATACGCTGGAGGAGCTGGAACAGGAACTCGGTGAGGCTTTATCCGCTCTGTACGACAGCATCCTCGCTCTCATGGAGGGCCGAAATCATGCGGACACGATTCAGAAGGTGCGTTTGTTTATGGAGCAGAACTCGAGCAACCCGGACCTGTCCCTCAATTATTTAAGCGAACGCTTCGGCATGAACTGGAAAACGCTAAGCAAGCTGTTCCGGGAGGAGACCGGCCAGAAATTCGTGGATTATTTGATCGAGCTGCGGATGACCCATGCTCGGAGACTGCTGGAAGAAACCCTGCTGCCCGTACAGGATATCGCCACCGAAGTCGGGTATTCCAACGCCATCTCGTTTGGCCGGATGTTTAAAAAGCTGATGGGAATGTCGCCGGGGGATTATCGTGAGCAAGCTGCTATCAAGCAGCAGAAATTCGGGAATTAA	MGRKAWFYRQLLSYMPVFFIVISFVFFVFFQMLGEQSRQGAIQANETMIQQAMRSVDNSLKAIDQMLVQELLFNPDMSGFFNQEDQDNVYLNMQAVKAMKQFKVSNPLVDSTVLVRTQDEFVLSTSSTFRLQDYADYDFLQPYLSQVNSEAKWSALRNYREFSFNSTQQVVTLVRDAPFVTHGKGVIAVNIKVDAIHNMIQGMVNPEVSFIHVMDTGGRSLIAGTSGADHGELVSQAISPYTGWVYEGGLTQGRVVGIVSQLYNVWFIVGLLMCMAGVAWIVFVTRRNYKPIEAIVSRISKYSQTKTSVLLHGGKQDEFAFIESALESLLEQASSFQQQHREDLLLRKAYLFQQLMEGQYPSHLEQWNEQREAMGLPDLSQPQIVNVIEIDKYPLFCEQYPQQDQYLIKFALKSVVQEIAAGQETMLWTEWISASKLGVLAAAEDQDPNRHVATLLEQARQWVEEHLKLTITVGIGEKAERYTVIPESYEQARAALKYKMILGDNRIIHYAEVSGEDRGNAFDFLNLIRSMAQSFRLVNKDWQEKYSTLIHNIEQNMLDRDGVVNLADYMMYSLGREMSCMAKEFQELWLTEGQPALRNALQSSDTLEELEQELGEALSALYDSILALMEGRNHADTIQKVRLFMEQNSSNPDLSLNYLSERFGMNWKTLSKLFREETGQKFVDYLIELRMTHARRLLEETLLPVQDIATEVGYSNAISFGRMFKKLMGMSPGDYREQAAIKQQKFGN				NA	NA	NA	NA	NA
AK002_04611	510			hypothetical protein	ATGAGCAAAGTGATTCCAGGTCGATATACCGCCAACATTGACGGTTCTTTCGTTGTATTCGTCATCGGGTTTCGAATTAACAAATGGTGGGCGGTACATAAGTGGCTGCCGGTCATGAACGCCATGTCCCCGATGCTGCAGGAGCTATACCGGAACAAGGAGGAGCTCGGCTTCATGGACGGTACCTATCATTTTTCGGGGCGCGGGCTTACCCTCATCCAATATTGGAGAAGCTTCGAACACCTCGAGCACTATGCCCGCCACGGAGCCAACCACCTGACGGCATGGCGGGAGTTCAACCGCAAGGTCGGAACGGGAGGAGACGTGGGGATTTTTCACGAAACCTACCTGGTCCAGGAAGGCCAGTATGAATGCCTGTACAACAACATGCCGCGGTTCGGTTTGGCCAAAGCCGGAGCCCATGTATCCGCGACAGGCCGCAGGGAAACGGCAAGCCGGCGGCTTGGCCGCGAGGGTGAACCCGCTGTGCCGACTCCTCCCAATCCCTAG	MSKVIPGRYTANIDGSFVVFVIGFRINKWWAVHKWLPVMNAMSPMLQELYRNKEELGFMDGTYHFSGRGLTLIQYWRSFEHLEHYARHGANHLTAWREFNRKVGTGGDVGIFHETYLVQEGQYECLYNNMPRFGLAKAGAHVSATGRRETASRRLGREGEPAVPTPPNP				NA	NA	NA	NA	NA
AK002_04612	645			hypothetical protein	TTGCAACATCCGGATATCCCATTAAGGGAGTTAAAAAAAGCCAAGAACAAAATCGCGCTGTACGAAGCCGGATTATCCTTGATGAAGGATCGGATGTTCAGCCAGGTCATGCTGGAGGACATCTGCAGGAGCGCCGAAATATCCAAGGTCACTTTTTTCAAGTTTTATCAACGCAAAGAGGATCTGCTGATTTATTTTATGCGGGTTTGGCTGACCGAGCGGATGATCGAGATCGACCAGGAAGGGATGGAAGGGTTTCAGGCATTCCGCCATCTGCTGTCCGAGGTCGCTAAGGAGCATCAAGTAAGGCCGGGCATGATGCCGAGTTTGATCTCTTTTCTCGCGGAGCAGAACATGCAGCCCTGCATGCCGGAGCTCAGCCGGGCGGAAGTAACGCTGCTTTTTCCCGGGCACGAGGAAGCGGGAAGCGAATCGCCCAACATGTATGCATTATTCAAGCGGTTCATGAAGGAGGAAGCTCAAGCCGGCAGGCTGAATAAAGCCTTAACCTTGGAGCAAGCCGTACAGATTTGTTTCACCGTTTTTTACGGGGCGTTTCTGACGGCCCAGTTGTACAATTCCACGGAAATCGGCTGCTTTTACGAAACGCACCTAGGTCTGCTCGAAATAAAGGAAGGGGAGTGA	MQHPDIPLRELKKAKNKIALYEAGLSLMKDRMFSQVMLEDICRSAEISKVTFFKFYQRKEDLLIYFMRVWLTERMIEIDQEGMEGFQAFRHLLSEVAKEHQVRPGMMPSLISFLAEQNMQPCMPELSRAEVTLLFPGHEEAGSESPNMYALFKRFMKEEAQAGRLNKALTLEQAVQICFTVFYGAFLTAQLYNSTEIGCFYETHLGLLEIKEGE				NA	NA	NA	NA	NA
AK002_04613	270			hypothetical protein	ATGACTTGGAAGGGAAAGCGCAGAAATGCCCCTCTTTTTCTGAATAGAGACATGGGGGAAAATGCGGTAACTGGTAACGGTACTTTGAGAAATATGCGGGATAAGGAACACAGAGAATTGCTGGGGAAACGAACCAGGATGACCCATACTGCCGGGAGCGTGATTTTCAGGAGGGACAAACAAAAAGGCAAGTTTCAGGCTACATTCCTGATCTCGCCTCTGATCATAATGGGTATGCAAAAAACGGTGATCCACTGTCAGACAAATTGA	MTWKGKRRNAPLFLNRDMGENAVTGNGTLRNMRDKEHRELLGKRTRMTHTAGSVIFRRDKQKGKFQATFLISPLIIMGMQKTVIHCQTN				NA	NA	NA	NA	NA
AK002_04614	570	sutR_3	COG1396	HTH-type transcriptional regulator SutR	TTGGAACCCATTCATAAAAAGGTAGGGAGAAATCTGCAAGCCATTCGTAAATCACGGGGCCTCAGCCTCGATAACGTAGCCGAGTTGACCGGTGTCAGTAAAGCCATGCTGGGACAGATCGAGCGTGGGGATTCTAACCCGACGATCTCGGTATTATGGCGCATCGTCAGCGGCCTCGGCATTTCATTCACCACGCTCATCGAGGAGGCGGAAACCGAAGTGACCGTGGTCGCTCCGGATGACGTGGAGCCTTTTCACGAGGCGGAAGGCGCGTACCGGGTGCACCCCTTGTTCTCCTACAACCTGCGTACCAAATTCGAGTCTTATATGGTCATCATGGATCCGGGCTGCGACCACGGGTCCGAAGCTCATAATGACGGCGTGGAGGAGTATATTTTTGTGCATCAGGGAGAGCTTGAGCTTTGGCGCGAAGATGAAAGCTATACCGTGCCTGCCGGAAGCTCCGTCCATTTCTCGGCTAACCGGCCCCATCGGTACGTCAATCCTGGCAAGGAAACAACGAAATTTTACACGATTATATTCTATGCGGATGCCGCAGCCAGGGGATGA	MEPIHKKVGRNLQAIRKSRGLSLDNVAELTGVSKAMLGQIERGDSNPTISVLWRIVSGLGISFTTLIEEAETEVTVVAPDDVEPFHEAEGAYRVHPLFSYNLRTKFESYMVIMDPGCDHGSEAHNDGVEEYIFVHQGELELWREDESYTVPAGSSVHFSANRPHRYVNPGKETTKFYTIIFYADAAARG				NA	NA	NA	NA	NA
AK002_04615	969			putative epimerase/dehydratase	ATGAAACGAATTATGGTAACCGGTGCACTCGGTCAGATCGGCTCAGACCTGGTGGCGAAATTGCGCCAGAATTACGGCGAAGAAGCCGTTCTTGCAACGGACATTCGTCAAATCCATCATGAAACGGTCCTATCGGGACCGTTCAAAACACTGGACGTAACCGATCACCATGCATTTCACGAAGCGGCTAAAGAGTTTCGGGCAGATACGATCATTCATCTAGCGGCTCTGTTGTCGGCCAAGGCAGAATCCAATCCGGCACTGGCCTGGAATCTGAACATGGGCGGTTTGTTAAGTGCGCTGGAGACGGCGCGGGCCTTGTCCTGCCAGTTCTTTACGCCGAGCTCCATCGCGGCATTCGGGGCAGACACCCCAAAAAACGCAACGCCGCAAGACACGCTGCAGCGCCCGCTAACCATGTATGGAGTCAGCAAGGTCTCCGGGGAGCTGTTGTGCGACTACTATTACCATAAATACGGAGTGGATACCCGGGGATTGCGCTTTCCGGGACTGATCTCCCATTCCGCGCCTCCGGGCGGGGGAACGACGGATTATGCGGTTGAGATGTATGTGGCCGCGATCCGCAGCGGAAGCTATACTTCTTTTATTGATAAAGGGACCTACCTTGATATGATGTACATGCCGGATGCGATCTCCGCCATCATTGCATTGATGGAAGCGGATCCGGCTAGGCTGAAGCATCGCAATGCTTTCAATGTTACGGCGATGAGCGTCGATCCTGAGGGAATTGCGGCCAGCATCCGCCGGCATATTCCGGATTTCAGCCTCGACTATGACGTGGATCCGGTCCGTCAAGCGATTGCAAGCGAATGGCCGGACTCGATTGACGCAACTGCGGCACGCGAAGAATGGGGATTTGATGTACAATATGATTTGAACCATATGACCGATGATATGGTGTCAAAGCTTATGGAGAAGCGGCGGGCTGATCAGAGCAAGATCAGTTAA	MKRIMVTGALGQIGSDLVAKLRQNYGEEAVLATDIRQIHHETVLSGPFKTLDVTDHHAFHEAAKEFRADTIIHLAALLSAKAESNPALAWNLNMGGLLSALETARALSCQFFTPSSIAAFGADTPKNATPQDTLQRPLTMYGVSKVSGELLCDYYYHKYGVDTRGLRFPGLISHSAPPGGGTTDYAVEMYVAAIRSGSYTSFIDKGTYLDMMYMPDAISAIIALMEADPARLKHRNAFNVTAMSVDPEGIAASIRRHIPDFSLDYDVDPVRQAIASEWPDSIDATAAREEWGFDVQYDLNHMTDDMVSKLMEKRRADQSKIS				NA	NA	NA	NA	NA
AK002_04616	1191			Putative pyridoxal phosphate-dependent acyltransferase	ATGTCCAGTCAATCGTTAAGCGCTTTCTTACAGGATAATCTAACGGAACTCAAGCAGCAAGGGCTTTATAATACCATCCAGCCTCTTGAAAGCCCGAACGGTCCGCTCATTACCATTCAGGGTCGTGAATTCGTGAATTTATCTTCCAACAACTATCTCGGACTGGCAAATGATGAGCGACTGAAAGAAGCAGCCATCCGAGCTACGACCGATTTCGGAACCGGAAGCGGCGCCGTTCGCTCCATTAACGGAACCCTAATGCTGCATGTTGAGCTTGAGGAGAAGCTTGCGCAGTTCAAGGGAACGGAAGCGGTACTTACGTATCAGTCCGGTTTCAATTGCAATATGGCGGCGATCTCGGCGGTGATGGGTGCCGGGGATGCGATTTTGTCGGATGAGCTGAACCATGCGTCCATTATTGACGGCTGCCGGTTGACCAAAGCCAAAGTCATTCGGTTTAACCACTCGGACATGGATGATTTGCGTTTGAAAGCGAAAGAAGCGAGAGAGTCCGGTTTATACGGCAAGATTATGGTGATTACCGATGGCGTGTTCTCGATGGATGGCGACATTGCAAAACTCCCCGAAATCGTGGAGATCGCCGAGACCTATGATCTGATCACTTACGTGGATGACGCGCATGGATCGGGCGTGCTTGGCGGCGGTGCAGGCACCGTGAAGCATTTCGGGCTGTCGGATCGGGTGGATATCCAGATCGGAACCCTGTCCAAGGCGGTTGGCGTTGTCGGCGGTTATGTTGCCGGATCGCGGGACCTGGTGGATTGGCTCAAGGTCCGCAGCCGGCCGTTCCTGTTCTCCACAGCGCTGCCTCCAGGTACCGTAGCCGCTTGCATTACCGCTATCGACATCCTGCAGAACAGCAAAGACCTGCAAACGAAGCTATGGGAGAACACCCGTTATCTGCAGGAAGGACTTAAGCGCCTTGGTTATTCCGTCGGCCGCACGGAAACTCCGATTACGCCTTGCATCATCGGAGATGAAGCAACGACCCAGACATTCAGCACGAGACTGTACGAAGAAGGCGTGTATGCCAAATCGATCGTGTTCCCGACGGTGCCAAAAGGCACGGGAAGAGTTCGGAATATGCCAACCGCCATGCATACGAAGGAGATGCTGGATCGCGCACTTTCCGCATATGAAATCATCGGGCGCGAGCTGGGTCTGATCTAA	MSSQSLSAFLQDNLTELKQQGLYNTIQPLESPNGPLITIQGREFVNLSSNNYLGLANDERLKEAAIRATTDFGTGSGAVRSINGTLMLHVELEEKLAQFKGTEAVLTYQSGFNCNMAAISAVMGAGDAILSDELNHASIIDGCRLTKAKVIRFNHSDMDDLRLKAKEARESGLYGKIMVITDGVFSMDGDIAKLPEIVEIAETYDLITYVDDAHGSGVLGGGAGTVKHFGLSDRVDIQIGTLSKAVGVVGGYVAGSRDLVDWLKVRSRPFLFSTALPPGTVAACITAIDILQNSKDLQTKLWENTRYLQEGLKRLGYSVGRTETPITPCIIGDEATTQTFSTRLYEEGVYAKSIVFPTVPKGTGRVRNMPTAMHTKEMLDRALSAYEIIGRELGLI	PGPT0020495_2049	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
AK002_04617	903			hypothetical protein	TTGACCTTACAACAATTAAAGTATGCCATCGAAGTTGCCAACCGTGGTTCCATGAACGAGGCGGCCAAACGATTATTTATTTCCCAGCCCAGCCTGTCCAACGCGATCAAGGATCTGGAAGAGGAGCTTCGTATTACGATATTCGAGCGGACCAACAAAGGCATATCCTTGTCCAAGGAAGGCGCGGAGTTTCTAGGCTATGCGCGGCAGGTGGTGGAGCAGGCTGAGCTTCTGGAGGGACGTTATCTGAACGCAAAGCCTTCCCCGCAGCATTTTTCGGTATCCACCCAGCACTACGCCTTTGCGGTCAATGCCTTCGTGAAGCTGGTCCAGGAATACGGGCAGGATGAGTACGAATTGGCGCTGAGAGAGACGAAGACCTACGAAATCATCCAGGACGTCAAAACCCTGCGCAGCGAGATCGGCATTCTCTACCTGAACGAATTCAATGCCAAGGTAATCAACAAGCTGCTGAAGGATGCAGGGCTGCAGTTTACCAGCTTGTTTACGGCGAGGCCGCATATTTTTATCAGCATCAAAAATCCACTGGCCAAGCAGTCGATCGTGACCATTGACGAGCTTCAGAATTATCCGTATTTATCCTTCGAGCAGGGGGAATACAATTCGTTCCACTTCTCGGAGGAAATTCTCAGCACGTTGTCTCATAAAAAAAGCATCCGGGTCAATGACCGTGCAACCTTGTTCAATCTGCTGATTGGTCTGAACGGTTATACCATTTCGACCGGGGTGCTGAGCGCCGACCTGAACGGGAACGAGATTATTCCGGTTCCGCTCGCCTGCGATGAGACGATCAACGTCGGATGGATCAGCCATAAAAACGCAACCCTGTCCAAGCTTGCCGCAGCTTATGTCGAGGCGCTGCATGAGGCGATTGCCACCTGA	MTLQQLKYAIEVANRGSMNEAAKRLFISQPSLSNAIKDLEEELRITIFERTNKGISLSKEGAEFLGYARQVVEQAELLEGRYLNAKPSPQHFSVSTQHYAFAVNAFVKLVQEYGQDEYELALRETKTYEIIQDVKTLRSEIGILYLNEFNAKVINKLLKDAGLQFTSLFTARPHIFISIKNPLAKQSIVTIDELQNYPYLSFEQGEYNSFHFSEEILSTLSHKKSIRVNDRATLFNLLIGLNGYTISTGVLSADLNGNEIIPVPLACDETINVGWISHKNATLSKLAAAYVEALHEAIAT	PGPT0003316_5	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FERRICHROME|FERRIOXAMINE_METABOLISM,PGPT0003316-fhuR-NA	NA	NA
AK002_04618	1098	sasA_21		Adaptive-response sensory-kinase SasA	ATGACGGTGCGCGGCAAAATATTCATGGCGATGGGCGTCCTGGTCATGCTTGTAACGGCCGCGTATATCGGCACAACGCAAGGCTACTTGGGAAGCCTGTTTGCCCGGTATGTTCCCGAGGGAAGCGGGGGTGGCCTCGAAGGTCTCGAGGGGCTAAGCAAATATGTGCTTGGCGAAATGAAGCTCAAAGCTCTTATGGTGACGTTGTTTGTTGCATGCGCTGTGGTCATTTTGGGTTATTGGCTTTCAGGTCTAATCATTCATCCGCTCCATAAACTGATCGCGGTTATGCGAAAAGTAGCCGATGGAGACTTGACAACGGAAGTGCCGATCAAGCGAAAGGACGAGTATGGTCAGGTTGGGGAGGCGTTCAATTCCATGACGCACCAATTACGAGAGGCCATGGACCTCCGAAAAAGACTTGTCGAAGATATAGCGCATGAATTAAGGACGCCGCTATCCATCGTTCAATCCAAGCTGGAGTTGATTCAGCAGTCCCCAACCGATGTGAAGCCGGAAGTTTTGCTTCCCCTTCACGACGAGGTGCTGCGTCTGGTGCATTTGGTGGATGAGCTTCATCTTCTGAATACGGCAGAAGCGGGGGAGTTAGTCTTACATAAAGAGAAGACCGATCTGAACTTGCTATTGGTCAATCTCATGGAGCTCTTACAGCCGGAGGCGGATGCTTGCGGGGTTACGTTAAGGCCTGAATATCGGGATTCAGCATGGGCCCAGGTCGATCCGAAACGGCTGAAGCAGCTTTTACTTAACTTGTTAACCAATGCGCTGCGGCATACGCCGGAAGGGGGAAGCATTTCGGTTCGAATCGATGCGAGGGATCTGTCCGGGCAGATTGCGATAGGCATAACGGACACGGGCACAGGCATACCTGCTGATGCGCTTCCTCATGTATTCGACCGTTTCTACCGGGTGGATAGCGGAAGAGGCAGGTCGACAGGAGGCTCCGGTCTGGGGCTTTCGATTGCTAAGCAGATTGCAGCGGCTCACGGTGGATACATCCAAGTACAAAGCGAGCTTGGCAAGGGGACGGAATTTAAGGTAATCCTTCCCTGGAGCCATGATAGCAGTAAAAATTAA	MTVRGKIFMAMGVLVMLVTAAYIGTTQGYLGSLFARYVPEGSGGGLEGLEGLSKYVLGEMKLKALMVTLFVACAVVILGYWLSGLIIHPLHKLIAVMRKVADGDLTTEVPIKRKDEYGQVGEAFNSMTHQLREAMDLRKRLVEDIAHELRTPLSIVQSKLELIQQSPTDVKPEVLLPLHDEVLRLVHLVDELHLLNTAEAGELVLHKEKTDLNLLLVNLMELLQPEADACGVTLRPEYRDSAWAQVDPKRLKQLLLNLLTNALRHTPEGGSISVRIDARDLSGQIAIGITDTGTGIPADALPHVFDRFYRVDSGRGRSTGGSGLGLSIAKQIAAAHGGYIQVQSELGKGTEFKVILPWSHDSSKN	PGPT0003985_1196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
AK002_04619	687	baeR	COG0745	Transcriptional regulatory protein BaeR	ATGGAGATGACGCTGTTGCTTGTGGAAGACGAAGTGGCGATGCTGGAAACGATGAAGCTTTATTTAGAGGGCGAAGGGTTCCGGGTTCTTGCCGTGACCAATGGTCAAGATGCGCTTGAGTGCGCCCGAAGAGAGCAGCCCGCCCTTGTGGTGCTGGATTGGATGCTGCCTGGAAAGAGCGGAATCGAAGTGTGCAAGGAACTGAGGCAATCCAGTGCTTGTGGAATCATCATGGTAACGGCGAAATCAGAGGAAACGGACAAAATTATTGGCCTGGAGCTTGGTGCGGATGACTACATAACCAAACCCTTCAGTTTGCGGGAACTGACTTCCCGCATTCGATCGGTTCTCAGACGAACGGCTCCAATCCAGGTTGAGGCGCCGCCCTTGCAGCGCGGGGATCTGTTGATATCGGAAACCAAATGCCAGGTTACGCGAAACGGGGAGCTCATCCCGCTGACCCCGACCGAGTTCAAGATCTTGCTGACCCTGGCCAACAGGCCGGGGGTTGTGTTCAGTCGATTGCAGCTTATGAAGGCAGCTATGGACGATGATTTCATGAATTATGAACGCACCTTGGACTCTCATGTCAGTAAACTGCGTAAGAAGCTTGAGCCTGATCCTGACCATATGAAATACATTCAAACGGTGTATGGGTTTGGATATCGATTCGGTGAGCCGAGATGA	MEMTLLLVEDEVAMLETMKLYLEGEGFRVLAVTNGQDALECARREQPALVVLDWMLPGKSGIEVCKELRQSSACGIIMVTAKSEETDKIIGLELGADDYITKPFSLRELTSRIRSVLRRTAPIQVEAPPLQRGDLLISETKCQVTRNGELIPLTPTEFKILLTLANRPGVVFSRLQLMKAAMDDDFMNYERTLDSHVSKLRKKLEPDPDHMKYIQTVYGFGYRFGEPR	PGPT0002665_1056	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_04620	2115	ftsP		Cell division protein FtsP	ATGGTGAGAAGCTGGCTAATGTTTGAATACGTACTAACGTTTCTAAATTTTTTTATATGGTGGATCGTCTATTACAGAGTAAAAAAAACATGCCTGCCGCAACCGAAGGAAGACCTGCTTAAGCATCTAAACATTCTTCGCTTCTGGTTGTGGCCCGCCATGATCATGACAGGGCTTAAATTCGCTGCGGGTGCGGTGCTGTGGAATGCCGATTGGGCGTTTGTCGAAGACAAGGTATTCATCCAGCGGCCGCTTTATGCGCTCTCGATTTCCGCCGTCTTTTTCTTCTCACTGCCCGTATTAACGAGTCGCAAATTAACAGTCCTTGATGATAAGTTAAACGACGGTTCAAGCGGGTACCTGAACAACCGCTTCCTTGTGGCACCTTTTTCGGCAGCGTTCTATGCAGCAGCATGCTCCTGCTTATACATGTTGTTTCTCTCGCAATCTCCACTCCGATTCAGCAGTTTTATAACCATCTGGATTGCATTCGGTATTCTGATGGGCATGGCGTGGGTTTCACGCAGAAAACAATTCAAGGAATTGCAGCATTCATTGAACATGGATCACCGTGTAACCTACAAGCAGAGACTTGTCCGATTCTCATGGAAGTGCCTGCTTGTCATTGCCATCACCTCCATAATGGTTTCCGCGGGCTTGATCTCGTCCCGGCTGCCGGACCGAATGAGCATGATGGACCATGGTCGTCATGACAGCAGCGGAAGCCCCGGGAACCATAGCCATCATGGAAGTCACGCGGAAGCATCGAGCATATCTGTAGAGAATATAGAATCGATCAGTGTAGCCAGCTTGCACGGACCGCAGACCTCAACGCCTGACCGCAAATTCGAATTAAGCGCACAGAAAAAGCTGCTCACCATGCCCTCAGGCGAAACCGAAGAGGTATGGGCTTTTAATGGCCTCGTTCCCGGTCCGGAACTCCGTATTCAGGAAGGCGAGCTGGTCGAGGTTACCCTGGTCAATATCGATGTGGAGGATGGCGTTACGATCCATTGGCATGGGCTAAATGTTCCGAACGGAGAAGATGGCGTGGCAGGATTAACGCAGAATGCCGTCATGCCTGGAGAACAGCATATCTACCGGTTCATCGCGGAACAGACGGGCACATACTGGTATCATTCCCATCAGCAATCCTCGGTCCAGGTTGCCAAAGGGCTGTATGGCACGCTAGTCATCGAACCGGATGACGCTACCGTTTTGGAAGATGTCGATTTAACCGTGTTGGCTCATCCGAAAGGAACGAGCAATGGAACAACGATCACCTTAGGAGCCACGGGAAAGCTCCAGCGGCAGACCGTAATGCCGGACAAAACCGTGAGGTTAAGAATAATCAATGCACATAACATGCCTAAAATGTTCTATTTGTCAGGAGCCTCCTTTAAAGTAACCTCCATTGACGGCGTGGATCTGAGCGGTCCCGAGTGGATACAAAATCAAAAGATGCTGCTGGCTGCCGGCGGACGCTACGATATTTCCTTTGCCATGCCGGATCATGCGGTATCGTTGACGCATACTGCCGATGCGATCAACGAACGGAGCGAAGCGATTGTTATGGCCGGCAATGATCGGGACCTGCCGCTTCCTGGCCGGGAGGGCCCGGTATTCAATCCGGCCAAATACGGCACGCCGTCCTCGGTTCCTTTTGACGCTGATACCGTCTATGACCGTAACTTTACGCTTGTTCTCGACAACCGCGTGGGCTTCTATAACGGCATGATGACCAATGTGCAGACCATCAACGGTTATGTCTTTCCGAATACGCCGTCTCTCATGGTTCGCGAAGGGGATATCGTAAAAATGAAGTTTGTGAATCGGGGCTTCATGGATCATCCGATGCATCTGCATGGTCACCATATTCTCGTATTGAAGCGTAATGGAGAACCTGTCGAAGGAAGTCCCTGGTGGACGGATACGCTGAATGTAGCGCCCGGCGAGACGTATGAAGCTGCATTTGAAGCCGACAACCCGGGGCTTTGGATGGATCACTGCCACAATTTGGACCATGCCGCGGCCGGGATGTCGATGCATCTCATGTATGAGGGGGTTTACACGCCTTTCGAAATCGGGAGTGCCACCGTAAATAGATACGAATAA	MVRSWLMFEYVLTFLNFFIWWIVYYRVKKTCLPQPKEDLLKHLNILRFWLWPAMIMTGLKFAAGAVLWNADWAFVEDKVFIQRPLYALSISAVFFFSLPVLTSRKLTVLDDKLNDGSSGYLNNRFLVAPFSAAFYAAACSCLYMLFLSQSPLRFSSFITIWIAFGILMGMAWVSRRKQFKELQHSLNMDHRVTYKQRLVRFSWKCLLVIAITSIMVSAGLISSRLPDRMSMMDHGRHDSSGSPGNHSHHGSHAEASSISVENIESISVASLHGPQTSTPDRKFELSAQKKLLTMPSGETEEVWAFNGLVPGPELRIQEGELVEVTLVNIDVEDGVTIHWHGLNVPNGEDGVAGLTQNAVMPGEQHIYRFIAEQTGTYWYHSHQQSSVQVAKGLYGTLVIEPDDATVLEDVDLTVLAHPKGTSNGTTITLGATGKLQRQTVMPDKTVRLRIINAHNMPKMFYLSGASFKVTSIDGVDLSGPEWIQNQKMLLAAGGRYDISFAMPDHAVSLTHTADAINERSEAIVMAGNDRDLPLPGREGPVFNPAKYGTPSSVPFDADTVYDRNFTLVLDNRVGFYNGMMTNVQTINGYVFPNTPSLMVREGDIVKMKFVNRGFMDHPMHLHGHHILVLKRNGEPVEGSPWWTDTLNVAPGETYEAAFEADNPGLWMDHCHNLDHAAAGMSMHLMYEGVYTPFEIGSATVNRYE				NA	NA	NA	NA	NA
AK002_04621	390			putative protein.1	ATGGCGCAGATCAAAATTTACGGCGTCCGGGAGCAGCTGAACCCGATGAAGGAGCAGCTGTCGGAAGTGATACATTCGTGCGTGGTAGACGCATTTGAACTTCCGGCGGATAAGAAATTTCATCGTTTCTTCCCCATGAGTCGGGAGGATTTCCGCTTCCCTGACGGGAGAACGGATCGTTACACGGTGATCGAGATCAGCATATTTGAAGGCCGGACGGTGGAGGCTAAGAAACAGCTGATTCGATTGCTGTTCGAGCGGATTCAGCATACGCTGCATGTTTCTTCCCAGGATGTGGAGATTACGATTTTCGAAACGCCGCAGCACAACTGGGGAATCCGGGGGCTTCCCGGGGATGAACTGGCTTTAGGGTATAAGGTGAATATTTAG	MAQIKIYGVREQLNPMKEQLSEVIHSCVVDAFELPADKKFHRFFPMSREDFRFPDGRTDRYTVIEISIFEGRTVEAKKQLIRLLFERIQHTLHVSSQDVEITIFETPQHNWGIRGLPGDELALGYKVNI				NA	NA	NA	NA	NA
AK002_04622	1764	bmrA_2	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	ATGGAGCAAACCGTAGATGAGAAAGGCAAGGTAACAAAAACCACGGTTCGATATTTTATCAAGCTGCTGCGTTCTTCGGGCATTCCGAAGCTGGTGCTCTTTCTGGCGATCGTATTAAGTTTGGTCGGGGCGGTGACGGGACTTATCGTCCCGCTCATCACCGGCCAGCTCATCGATAATTTTGCCGCAGATGCGTTTAATATTCGCATGGTCGGCTTTCTGGCCGTCCTCTTCCTGCTGGAAGCCGTGGCCAGCGGACTTTCGTATTATATGCTTGCCTATGTCGGGAACCAGACGGTGAACAAAATTCGGAAACGGCTCTGGACGAAGGTGCTGGCCTTGCCGGTTCCGTTCTTCGACAAGCATCGCTCGGCCGAGACGATGAGCCGTGTGACCAACGACACGAATGAAGTAAAGACGCTGATCACGGATCATCTGATCGCTTTTTGCTCGAATCTGCTGACTGTTCTGGGGGCCGTTGCGATCCTGTTTTACCTGGATTGGCGGATGACCCTCATCATCCTGATTGCCGTTCCGGTCGGGTTCGGCATTTTGATGCCCATCGGCGGTAAAATGTACAAAATCTCCATCAGCATGTATGGACAGCTGGCCCAGCTGTCCGCCATGCTGACCCAGGTGATCGGCGAGATCAGGCTGGTGAAAGCCTCCAATGCAGAGCGGAGGGAGGAGAAAAGCGGGTATGAGGATATGGACAGCCTGTACCGTTTCGGCATGAAGGAAGCCAAGATTAACTCGGTTCTGATTCCGTTGATGTCGATGGTCATGGTCGTTCTGCTCGTGGTCATCATCGGATACGGCGGCGTTCGCGTTTCTTCCGGTGCGCTCAGCGCCGGCGAGCTGGTATCGTTTATCCTGCTGCTGTTCCAAATCATGTTTCCTTTCAGCCAGTTCGCCACGTTTTACTCCCAGCTCCAGAAGGTGATGGCGGCAACCGAGAGATTGCGGCTTATCCTAGAATTCGAACCGGAGAGCGATCATCGTGCGGTGCGACCGGCACCGGAAGGCCATCGGAACGTTGAATTCAAAGAGGTTACGTTTGCTTACCATGAAGGCGAAACGATTCTGTCCGATGTGTCCTTTTCCATTCCAGCCAAGAAGGTCACTGCCCTGGTCGGGCCCAGCGGCAGCGGCAAAACCACGGTATTCTCCTTGATCGAGCGGTTCTATGCACCATCCGGCGGGGAGATTTGCTTCGGCTCGGAAGCAATCCGCGATTATACGCTGGAGTCCTGGCGGCGAAAGCTCGGATATGTGTCCCAGGACAGCCCGCTCATGACCGGAACGATTCGGGACAATATCGTTTATGGACGGGAGGAGCCGGTCTCCGACGAGGAGATTGCGGAAGCAGCGAGGCTCGCCTACGCGGAAGGGTTTATCGAAGCTCTGCCGAGAGGGTACGACACGGAGGTTGGCGAGCGGGGCATCCAGTTATCCGGAGGTCAGCGCCAACGGGTCGCGATTGCAAGGGCTTTGCTGCGGAAACCGGACATCCTGCTTCTGGATGAAGCGACGGCAAGCCTGGACAGCGACTCGGAGCACGAAGTGCAGAAGGCGCTGAACAATTTGATGGTGGAACGCACGACCGTGGTCATTGCCCATCGGTTATCGACCGTCGTCGAGGCGGACCAGATTATTGTGCTTGAGAAGGGTCATATTACGGGAAGCGGTACGCATGAAGAATTGATCCGAAGCCATCCGTCCTATGTCGAGTGGGCGAAGAAGCAGTTCCAGACCGGAGAATAG	MEQTVDEKGKVTKTTVRYFIKLLRSSGIPKLVLFLAIVLSLVGAVTGLIVPLITGQLIDNFAADAFNIRMVGFLAVLFLLEAVASGLSYYMLAYVGNQTVNKIRKRLWTKVLALPVPFFDKHRSAETMSRVTNDTNEVKTLITDHLIAFCSNLLTVLGAVAILFYLDWRMTLIILIAVPVGFGILMPIGGKMYKISISMYGQLAQLSAMLTQVIGEIRLVKASNAERREEKSGYEDMDSLYRFGMKEAKINSVLIPLMSMVMVVLLVVIIGYGGVRVSSGALSAGELVSFILLLFQIMFPFSQFATFYSQLQKVMAATERLRLILEFEPESDHRAVRPAPEGHRNVEFKEVTFAYHEGETILSDVSFSIPAKKVTALVGPSGSGKTTVFSLIERFYAPSGGEICFGSEAIRDYTLESWRRKLGYVSQDSPLMTGTIRDNIVYGREEPVSDEEIAEAARLAYAEGFIEALPRGYDTEVGERGIQLSGGQRQRVAIARALLRKPDILLLDEATASLDSDSEHEVQKALNNLMVERTTVVIAHRLSTVVEADQIIVLEKGHITGSGTHEELIRSHPSYVEWAKKQFQTGE	PGPT0028965_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
AK002_04623	2502	uvrA_4	COG0178	UvrABC system protein A	ATGGAAGGAACGATTAAGATTCGCGGTGCCAGGGAGAACAATCTGAAAAATGTTTCGCTTGAGATTCCAAAATACAAACTGGTCGTCATGACAGGTCCGTCCGGCTCGGGCAAGTCTACGCTGGCCATGGATACGCTGCAGCGGGAATGTCAGCGGCAGTACATGGAATCCATGGGCATGGTGTCGGACTCGGTCAGCAAGCCGAAGGTGGATTCGATTGAAGGGCTCTCCCCGTCGATCAGCGTGGGTCAGCACATTACGAACCGAAACCCGAGATCCACCATCGGAACGGTGACGGATATCTACACGCTGCTCCGGATACTGTTTGCCAAGCTTGGGGAACGAAGCTGTCCTTCCTGCGGCGACAGGGTGATACCGAGCGTGGACGGAGAAGCCTATCACGGTCCCTCTGACGAGGAAGAGATCAGCGATTCCCACGAGACGGTTCATTGTAGGCGATGCGGTCATGGTCTCGACAAATTGACGATGTCGCATTTTTCCTTTAACAAGCCGGAAGGCGCATGCGAAACGTGCAGCGGACTCGGTCAAACGGTCAGCCTGAACCTGGATGCCGTGTTCCAGCTTGACTTAAGCCTAAGAGACGGCGGGGTGGCAATATGGTACAGCGCTCTCACCGATTATAACATCAGCATTCTGAAAGCAGCAGCCCAATATTACGGGTTTGTGTTCGATGAGTTTATGCCGCTTCGGGATTATGGCGACGTTCAGCGCGATCTCCTGTATTACGGCGTGGAGAGCGAGCCGTTCAGCCGGCATTTTCCTGAAGTGAAGCCGCCGAAGTCCGTAGGACAAGGCAAGTACGAGGGCGTAGTCACCGGAATATGGAGAAGGTACCGGGAGAAGGGGAGCGAGTCCGGGGAAGCGTCCCTGTTTCATGAGCATGTCTGTCCGGATTGCCACGGAACAAAGCTGAAGGAGGACAGCCGCCGCGTCCGGATTGACGGCGTCTCCATTAACGAAGTTAACGCATGGTCGATCGGGGAAGCGCTGAATTGGATGGAGGCGCTGCTGAAGAAGCTGACGGCGGACCAATTAACGATCGTGGAACCGCTCATTTATGATTCCGTCGTGAGACTAAAGCGCATCATGGATGTCGGGCTGGGTTACATGTCCATGGAGAGGCAGGTCGTCACGATGTCGGGCGGGGAAGCCCAGAGGCTGCGGCTCGCATCGATTCTGGGCTCCGGCCTCACGGGCGTGCTGTACATTTTGGACGAACCGACGTCGGGTCTGCATCCCAAAGATACCAGGGGACTTATCCAGGTTCTGAAACAACTGAGGGATCTCGGCAACACGGTGCTTGTCATCGAGCATGACGAAGAAGTGATGCGGGCCGCCGATCATATCATTGATATCGGACCGGGTGCGGGAACGATGGGCGGCACGGTCGTCGGTCAAGGAACGCTGGAGGAATTGATAGGGAATCCCGAGTCCGTGACCGGATCGTATTTCCGGGATCCCACGATGCTGACGGCTCCGAGTCGGCGCAGGACCGGAAACGGCAGCCTGCTGACGATTGAGGATGCACATCTGAGAAATCTGAAACATATTACGACCTCTTTTCCGCTAGGCTGTCTCATATCGGTGACAGGCGTATCGGGATCCGGTAAATCCACGCTTTTATTTGATCTTCTGGCGGAATCCGGAAGCGATCAATCAACTCCAATCGGCTGCAAAGCCATCACGGGCTGGGAATCGGTGGGACAGCTGATCAAGGTTGACCAATCGCCGGTATCCCGAATGCAGCGCTCTAACATTGCTACCTATACGGATGTTTACACTCATATCAGAAACTGGTACGCCAGCTTGCCGGAAGCTAAACAGAATCAATTGACGGCCAAGCACTTCTCCTTTAATACGCAAGGCGGGCGCTGTGAGACATGCCAAGGCCTTGGCGTCGTGTCCGTGCATATGCACTTTCTTCCGGAGCTGGAAGTACGCTGCCCGGACTGCAAGGGCAAGCGCTTCAAGGAAGAGGTTCTCCGCGTGACTTTTAACGGTTACACCATCTCCGATATTTTGGATATGACGATTGAGGAAAGTCTTGCCCTGCTGGAAGTGAAGCCAAAGATCATGGAATTGACCCGGCTGCTCTGCGATGTCGGACTTGGATATTTGAAGTGGGGACAATCGGTGAGCACCCTGTCGGGCGGCGAGGGACAGCGGATCAAATTAGCAAAGGAACTGAGTAAAAAAACGAAAAACCACACGCTCTATTTGCTGGACGAACCCTCGACCGGGCTTCACCCGGGAGATGTCCGGCAGCTTCTCGTCCTGTTAAACCGTTTGGTGGATGCGGGGAACACCGTGATTTTGGTTGAGCACAATCTGGACCTGATCTGGAATTCCGATTGGATCATCGATATCGGGCCTGGCGGGGGAGCAGCCGGCGGATCGCTGGTGGCGACAGGAACACCCGAAGAAGTGGCTGCAGTGGTAGCCTCGTTTACCGGCCGCTTTATCAAAGAAATCTATATGTGA	MEGTIKIRGARENNLKNVSLEIPKYKLVVMTGPSGSGKSTLAMDTLQRECQRQYMESMGMVSDSVSKPKVDSIEGLSPSISVGQHITNRNPRSTIGTVTDIYTLLRILFAKLGERSCPSCGDRVIPSVDGEAYHGPSDEEEISDSHETVHCRRCGHGLDKLTMSHFSFNKPEGACETCSGLGQTVSLNLDAVFQLDLSLRDGGVAIWYSALTDYNISILKAAAQYYGFVFDEFMPLRDYGDVQRDLLYYGVESEPFSRHFPEVKPPKSVGQGKYEGVVTGIWRRYREKGSESGEASLFHEHVCPDCHGTKLKEDSRRVRIDGVSINEVNAWSIGEALNWMEALLKKLTADQLTIVEPLIYDSVVRLKRIMDVGLGYMSMERQVVTMSGGEAQRLRLASILGSGLTGVLYILDEPTSGLHPKDTRGLIQVLKQLRDLGNTVLVIEHDEEVMRAADHIIDIGPGAGTMGGTVVGQGTLEELIGNPESVTGSYFRDPTMLTAPSRRRTGNGSLLTIEDAHLRNLKHITTSFPLGCLISVTGVSGSGKSTLLFDLLAESGSDQSTPIGCKAITGWESVGQLIKVDQSPVSRMQRSNIATYTDVYTHIRNWYASLPEAKQNQLTAKHFSFNTQGGRCETCQGLGVVSVHMHFLPELEVRCPDCKGKRFKEEVLRVTFNGYTISDILDMTIEESLALLEVKPKIMELTRLLCDVGLGYLKWGQSVSTLSGGEGQRIKLAKELSKKTKNHTLYLLDEPSTGLHPGDVRQLLVLLNRLVDAGNTVILVEHNLDLIWNSDWIIDIGPGGGAAGGSLVATGTPEEVAAVVASFTGRFIKEIYM	PGPT0014915_6710	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
AK002_04624	624			hypothetical protein	ATGCCGAAAAAAATCGCACCAGAATTTTATTTTATTGGCAACCATCCCGTGCTGGATTTCGTGAATACCAAGATCGCTGTCAGCGGTCAGCCGCTGGATTTGCTGGATACATTCGATTCTTTATTGGATTGGATGGTGAAGGCGAACCTGCTGTCGGAGGTGGAACGCAACCTGCGCAAAGCGGTGTATAACGGCAACGAAGAGGAAGCCCGGATCGTGGAGTCCGCCAGATTGCTCCGCGAACACCTCTTTCATCTGATTCAGCCGGGCAGTGCGAACGAGAGTTCAACGGAAGCAAGCCTGCAGTTCATTAACGGGCTGCTGAAGGAGCAAATCATGCGCACCGTGCTTGTGGTCGAAGGCAGCGCCTACAGCCGCAAAAGCCGGATGCTTTTTCGGAAGCCGCTGGACCTGCTGAGCCCGATCGCCGTATCCGCCGTTGATTTTTTAACGACCCATGACTTGAAGCTGGTGAAAAAATGCGAAAATCCGGCGTGCGTGCTTCGCTTTTACGACAATAGCAAAAACGGCACAAGGCGCTGGTGCAGCCCCAAAACATGCGGAAACCGCATGAAGGTCGCTGCCTATCTGGAGCGTCAGAAACAACAAACGAAGGAATCTTAG	MPKKIAPEFYFIGNHPVLDFVNTKIAVSGQPLDLLDTFDSLLDWMVKANLLSEVERNLRKAVYNGNEEEARIVESARLLREHLFHLIQPGSANESSTEASLQFINGLLKEQIMRTVLVVEGSAYSRKSRMLFRKPLDLLSPIAVSAVDFLTTHDLKLVKKCENPACVLRFYDNSKNGTRRWCSPKTCGNRMKVAAYLERQKQQTKES				NA	NA	NA	NA	NA
AK002_04625	867	oleB	COG0596	Cis-3-alkyl-4-alkyloxetan-2-one decarboxylase	ATGGAACATAAAGTCCAGTATCATACGGCTCAAATCAACGGTTTGGACATTTTTTACCGTGAAGCAGGAGCTCCCGGCTCGCCTGTCGTATTACTGCTGCATGGTTTTCCGACTTCCAGCCATATGTATCGTCAATTGATTCCGGCCCTTGCCGATCAGTATCATGTGATCGCACCTGATTATCCGGGATTTGGTTACAGCAGCGCGCCAGACCATGATCAGTTCCGGTACAGCTTTGACCATTTCAGTCAGCTCATCGAAGAATTGCTGGCACAATTAAATATCCGGACCTTCTACATGTACTTGATGGACTATGGTGCACCCGTCGGGTTCCGGATCGCGGCGCGACATCCCGAGCGAATCCGAGGCCTGATCATTCAGAACGGGAACGCCTACCATGAGGGACTCGAAGAATTCTGGAATCCCATTAAAGCATACTGGGAAGATCCCGCGAATCCGGATAAACGCGAGGCCCTGCGCCGGCTAACCAGCATCGAGGCAACGAAGTGGCAGTATACGCATGGAGTCGCTGACGCCTCCCTCATCAGCCCGGACACCTATACCTTGGATCAAGCGCTGCTCGACCGTCCAGGCAATCAGGAAATTCAACTGGATTTGTTCCTGGATTACGGATCGAATCCTCCCTTATATCCGGCTTGGCAGCAATATTTCCGCCATGCTCAGCCGCCAACCCTGATTGTGTGGGGGCAAGGCGACCACATCTTCCCTGAGAACGGCGCCCATCCGTATCTGCGTGATTTGCCTCATGCCGAGCTGCATCTCCTGAAGGGGGCCGGTCATTTTGCATTGGAATCCCATGGACCGGAAATCGTTCAATACATCCGGGCATTTTTGGAACGGCAATGA	MEHKVQYHTAQINGLDIFYREAGAPGSPVVLLLHGFPTSSHMYRQLIPALADQYHVIAPDYPGFGYSSAPDHDQFRYSFDHFSQLIEELLAQLNIRTFYMYLMDYGAPVGFRIAARHPERIRGLIIQNGNAYHEGLEEFWNPIKAYWEDPANPDKREALRRLTSIEATKWQYTHGVADASLISPDTYTLDQALLDRPGNQEIQLDLFLDYGSNPPLYPAWQQYFRHAQPPTLIVWGQGDHIFPENGAHPYLRDLPHAELHLLKGAGHFALESHGPEIVQYIRAFLERQ	PGPT0013255_10	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK002_04626	702			hypothetical protein	ATGGGCATCCGACCGATTGATATCGCCAAGAAACTGGGGATTACCACAAGTGCGCTCAAGCACTATGAGAAATGGGGAATCGTCCCTCCTGCCGAGCGTGCGCCGAACGGCTACCGGTTATATACCGAGGAGCATGCCGCTTATTTCGAGTGCATCCGCGCCATGTTTCCCGGTTTCGGCGTAGACGTGACGAAGCAAGTCATGAAGAAGCTGCAGGAAAGGGAGCTGGATGATGCGCTCTGGATCGTAAGCGAGGCCCAGGCCCGCCTCCAGCAGGATAAAATCCTTGCGGAGCGCACCATCCGCATTCTGGAAACGGAGCAGCTTGACGCAGTCGATGCCCGAGGCCGCAAGAAAGAGCTGACCATCGGGGAGGTTGCAGCCGAGATCGGCGTTCCCACCTCGGCCATCCGCCATTGGGAGAAGGAGGGCGTCCTTATCCTGCCGCGGGATCAGGATAACGGCTACCGGAAATTCGATGGTGCCCAAATCCGGCAGATTATGATCATTCGGATTCTCCGCTCAGCCAATTACCCGCTTGAAGTCATCAAGGACGTCCTGCAAGAGCTCGAGCATCATCAGGTTCATAACGCCAGACGGGTCCTCAAGGACACGCTGGTGTACCTCAACTACCTCAATCATAACCAAATACGCGGCGTGCACTACTTATATCAGTTGTGCCAAGTATTGAAGTTAATGTAA	MGIRPIDIAKKLGITTSALKHYEKWGIVPPAERAPNGYRLYTEEHAAYFECIRAMFPGFGVDVTKQVMKKLQERELDDALWIVSEAQARLQQDKILAERTIRILETEQLDAVDARGRKKELTIGEVAAEIGVPTSAIRHWEKEGVLILPRDQDNGYRKFDGAQIRQIMIIRILRSANYPLEVIKDVLQELEHHQVHNARRVLKDTLVYLNYLNHNQIRGVHYLYQLCQVLKLM				NA	NA	NA	NA	NA
AK002_04627	879			hypothetical protein	ATGATGGCCGTGAAAATTTCGTCGCTGTTGATATTTGCCGTGCTGGTCGGATGCGATGCTGCCCTAAATGCAGATGAATCGGTAAACCGGGAGCTTGATAAATTAGCGCAAATCGGGAACCTAGCCGGCGAATCGGCGATAGCCATCAGCGATCAAGTAAAACGGGAAGGGAAGGAGTTCGAATGGACGACGGCTCAGGAAGCCGGCACGGCCGAGGGACTGGTCATCGACCATGCCGTAGGCAATATCGAGCTTATCGCGGTACCCGGTAGCGAGGTCAACGTGAAAACAACCGTATGGTTCAACGACAGTTTTTTCAAGAACGATAACATTCGCACCCAGGTGACGGAGCAGGCCGCTACCTCCTTGACGCTCCAGGATGGCATGCTGGAATTAAGGACGCATCCTAGAGACGACTCCGGCATTAGCCTGTGGGACTGGTCGCAGAAGCAGTTCGGCGATTCCGGATTCATGATTGATTATGTGATCGAGGTACCGGAAGCCCTGCAGAATATCCGCATCAAGAATGATGTCGGTAAGGTAAGGGTGAACGAGTTGAAGGGGGCTTTCGAGCTGCAGCTGGGAGCCGGGGAAATTCAGCTCAACCAAACGGAAATCACGGGCAGCTCCAGGATCGTATCCGAAGCGGGCAGCATCAAGCTGGATCTTAAGCAGATCGACACGGACGGCTCGCTGACGGCCAACACATCGGCAGGCAGCATCACCGCTGCGTTCGCGCCGTCCATGAAATATACGCTGGATACCGAAACCGAGCTGGGACAGATTACAGGAGCAAGCCGGGGACAGAGCGACGTCAACGGCGGCGGAGCGAAAATATCCCTGACGACCTCGGTCGGTTCCATCAAGGTTAATCCATAA	MMAVKISSLLIFAVLVGCDAALNADESVNRELDKLAQIGNLAGESAIAISDQVKREGKEFEWTTAQEAGTAEGLVIDHAVGNIELIAVPGSEVNVKTTVWFNDSFFKNDNIRTQVTEQAATSLTLQDGMLELRTHPRDDSGISLWDWSQKQFGDSGFMIDYVIEVPEALQNIRIKNDVGKVRVNELKGAFELQLGAGEIQLNQTEITGSSRIVSEAGSIKLDLKQIDTDGSLTANTSAGSITAAFAPSMKYTLDTETELGQITGASRGQSDVNGGGAKISLTTSVGSIKVNP				NA	NA	NA	NA	NA
AK002_04628	921	qorA	COG0604	Quinone oxidoreductase 1	ATGAAAGCAGCTGCGTTCAGTACGATTGGACCGCCGGAAGTTTTGCGCGTTATGGACTTCGACGATCCTCAGGCCGGCAACGGCCAGATAAGAGTTAACATCAAGGCGGCAGGCGTGCAGCCGGCCGACTGCGGAATCAGGGGGAGCGGCTGGGCGCCGCCCGGTGTGACATTGCGGATGCCGCAAATCCTCGGTAACGAATTCGCCGGAACGGTTGATCAGGTAGGGGAGGGAGTGACGGATTTTAAAATGGGGGATGACGTCATTGGCTGGTCATTGCTCGCTTGTTACGCTGAATATGTCGTGGTCAGCGCAGACCAAGCTGTACGGAAACCCGATTCGATGCCATGGGAGGAAGCGGGTGCCTTGACCGCATCGGGGCAAACCGCCCATACGGCACTTGCGGTGCTAGGGATTGGCCATAGGGATACGGTTTTGATTCATGCGGCAGCGGGAGGAGTCGGCTCTTTTGCCGTCCAGATCGCTCGAGCCTGGGGAGCGCGGGTCATCGGGACCGCAAGCGAGCGAAATCATGATTATCTTCGTTCGCTGGGCGCCGTTCCCGTTGTTTATGGACCAGGCCTTGTAGACCGGGTCAAGGCTTGCGCCACCGAGGGAGTGACAGCCGCGCTTGATGCCGCCGGCGAAGAGGCGCTGCGGGCCTCGGTGGAGCTTGTCGGCGACCGGAGCCGCATCGGAACGATCGTGGCCTTCGATCTGGTGGAAGAATTGGGGGTGCGCCCCATCCGCAGCCAGCGCTCCAAGGATCGATTAGCGGAACTGGTCCAAATGTATGATCAAGGGAAGCTGAAAATCCATGTGTCGCAGACGTTCTCGCTGAGCGAAGCGGCGGAAGCGCATCGTGCCGTGGAATCCGGCCATGTGCGGGGAAAGGTCGTGCTGCGGATAGGCCAGCCATGA	MKAAAFSTIGPPEVLRVMDFDDPQAGNGQIRVNIKAAGVQPADCGIRGSGWAPPGVTLRMPQILGNEFAGTVDQVGEGVTDFKMGDDVIGWSLLACYAEYVVVSADQAVRKPDSMPWEEAGALTASGQTAHTALAVLGIGHRDTVLIHAAAGGVGSFAVQIARAWGARVIGTASERNHDYLRSLGAVPVVYGPGLVDRVKACATEGVTAALDAAGEEALRASVELVGDRSRIGTIVAFDLVEELGVRPIRSQRSKDRLAELVQMYDQGKLKIHVSQTFSLSEAAEAHRAVESGHVRGKVVLRIGQP	PGPT0010290_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-TYPE_II_POLYKETIDE-ACTINORHODIN|MEDERMYCIN|DIHYDROKALAFUNGIN_METABOLISM,PGPT0010290-actVI4-K14629	NA	NA
AK002_04629	879	gltC_6		HTH-type transcriptional regulator GltC	ATGGAAATGTTGCAGCTGAAGTATTTTGTTACCGTAGCAAGGCTTGAACATATGACCAAAGCCGCAGAGGAGCTCCATATTGCTCAGCCTGCGCTCAGCAAAACCATCTCCAGACTCGAAGAGAATCTCGGGGTTCCGTTATTTGAACGCCAAGGCCGGCAAATCCGTCTCAATCCGTACGGCAGAGCATTTTTGGCGAAAGCCAAAGCTGCCCTGCAGCTGCTGGAAGAGGGACGGCGGGAAGTGGAAGATCTTGCGGGGCTGGAGCATGGGCGCATTCATTTGGCCTTATCCAACATGGAGCAGCTCCGCGAGCCTTTACGCTTGTTTCTGCGCGAGCATCCGAAGATCAACTTTCACATTATCCAGTCCTCGATGGAGGATATGGTTCAGACGATTGAACATAATGAAGTGGATTTCTTTCTGACTTCCATGCCCGTTCGGCATCCGGATATACGCAGCTTGCCTTTGCACGTGGAAGAGGTGTTCTTGGCCGTTCCCCCCACCCACCGCTTAGCCGGAAACAATCGCATCCGCTTAATTGAGGCTGCCGGAGAATCCTTTGTGGGTTATAAAGAAGGCCATCCGTATCAGAAGATGAATAACGAGTTTTGCAAGCAAGCCGGTTTTCAACCGAAGGTCGTCTGCGAGGTGGAAGACCCTGGGACCATCGCTGATCTGGTCCGTTCGGGGTTTGGCGTGGCTTTAATCGGGGAATGCAGAAGCAGCGAGGAATTAAAGCTGACGAAGCTCAGCATTCAAGAACCTCTCGCACGCCGGGTATTTCAAATCGCATGGCTGGAATCCAGATACTTGTCCAAGGCCGCGATTTCCTTCCGCGATTACCTCGTTGAATATTACGCGGATCACGGTAATTGA	MEMLQLKYFVTVARLEHMTKAAEELHIAQPALSKTISRLEENLGVPLFERQGRQIRLNPYGRAFLAKAKAALQLLEEGRREVEDLAGLEHGRIHLALSNMEQLREPLRLFLREHPKINFHIIQSSMEDMVQTIEHNEVDFFLTSMPVRHPDIRSLPLHVEEVFLAVPPTHRLAGNNRIRLIEAAGESFVGYKEGHPYQKMNNEFCKQAGFQPKVVCEVEDPGTIADLVRSGFGVALIGECRSSEELKLTKLSIQEPLARRVFQIAWLESRYLSKAAISFRDYLVEYYADHGN				NA	NA	NA	NA	NA
AK002_04630	609			hypothetical protein	ATGCCAACAACAACCCGTCGAAATGCCAAGAAGGAACGGATATTGAACGCCGCTCTGAAGCTGTTCTCCCAGCAGGGATTCCATGCAACGACAACCAAAGAGATTGCGGCCGAAAGCGGCGTGGCCGAAGGACTGATCTTCTACCACTTTGGTGATAAACGGAAGCTGCTGCTCTTTCTTGTGAACAATTTTTCCTTTGCTGCGCAGCTTCAAGAGGATGCCGGGGAACTGTCGAAGCTTCCTGCGGACGAGGCCCTGTTTCAATACGGCATGGCATATCTCCAATTCCTCAGGACGAACATGGATTATCTGATGCTCATTTGGTCACCTGAACTCATAAGGGATGCCGAGGTATCAAAAGAGGTATCGCGGCTGATCGGAGGTTTTGGGGCAGCAGGCAGCAGCATGCTCAGACAGACAGCGGGACCCGATCATCAACCGGAACACACGGTTCAGGTTGCCATGATGATGATGACCTCCTCCATCCTGGTCTATTGCATGCTCCATTCCCGTTTCGGAGAGGAAGCGCTCCCGCTCGGGGACGAATCCTATATTCGAGAGCTCGTCCGGCTGCTGCTGCATGGGATGAACGAAGAACCCGGATCATGA	MPTTTRRNAKKERILNAALKLFSQQGFHATTTKEIAAESGVAEGLIFYHFGDKRKLLLFLVNNFSFAAQLQEDAGELSKLPADEALFQYGMAYLQFLRTNMDYLMLIWSPELIRDAEVSKEVSRLIGGFGAAGSSMLRQTAGPDHQPEHTVQVAMMMMTSSILVYCMLHSRFGEEALPLGDESYIRELVRLLLHGMNEEPGS				NA	NA	NA	NA	NA
AK002_04631	555			hypothetical protein	ATGCTGTCATTCATGCCGGATTGGAATTTCGTCATGTTGTTGTGGCTGCTGCCGGTTGTATTTTTCATTCACGACGGGGAAGAGATTGCCACGATGGAATGGTGGCTCAGGAAGAACAAGAACAGCCCCTGGATCACGAAATTTTCGCCCGTATCCATTCCGTGGGATAAGAACATCACCCTGCAATTCTCCTTTGCCGTACTGCTGATTGGCATCGTTCTCACCTGCGTAACGTTTCTAACGGCGCATACCTTCCATATCGGCAGCCCGTCTAACGCCCTGTTCGCGGGCTTCGTTACGGTGTTCCTGCTGGACGGCGTGAAACATGTTGGCGCCTCAATCGCGCTGAAGGCATACACCCCTGGCGTCATTACAGCTGCGGTCCTTGAAATTCCATACGGACTTTATGCGCTTAACCGCCTGCTGTCCACTGGAATCGTTGATGCCACGGCATTCGTAATGGGAACTTTGATCTCCATGCCGCTCATTCTGTTTCTGGTCTGGTTCGGTTTAACGCTTGGGAAACGGATCGCGCCGCACCGCATAAATACGTAG	MLSFMPDWNFVMLLWLLPVVFFIHDGEEIATMEWWLRKNKNSPWITKFSPVSIPWDKNITLQFSFAVLLIGIVLTCVTFLTAHTFHIGSPSNALFAGFVTVFLLDGVKHVGASIALKAYTPGVITAAVLEIPYGLYALNRLLSTGIVDATAFVMGTLISMPLILFLVWFGLTLGKRIAPHRINT				NA	NA	NA	NA	NA
AK002_04632	1197	oxdD	COG2140	Oxalate decarboxylase OxdD	ATGATGGAGGAGCAGAACCAGAAACGAGAAAATGCCGGCCCTATACCCCAGCCGATTCGCAGCGACGGTGCAGGCGGGCCGGACTATGGTCCGCGGGATGTGATGAGGGATATCGAGAATCCCGATATGCTAGTACCTCCGGTCACGGATGCGGGCTTGATGCCGAATCTGAAAATGTCGTTCTCCGACACGCATATGCAGCTGAATCATGGCGGCTGGTCGCGGGAAATTACGGTACGGGACCTGCCGATTGCGACCACGCTGGCCGGCGTGAACATGAGCCTGACGCCCGGCGGCGTTCGGGAGCTGCATTGGCATCAGCAGGCGGAGTGGTCCTATATGATATGGGGCAGCGCCAGGATTACGGCCATGGATGCAAGCGGCAGGAATTTTATAGCGGATGTGGGACCGGGCGACCTTTGGTATTTTCCGGCCGGCCTCCCCCACTCGATCCAAGGACTCGAGGAAGGCTGTGAATTTCTGCTGGTCTTTGACGACGGCCACTTCTCGGACCTGAACACCTTATCGATCTCCGACTGGTTTGCCCACACGCCTAAGGATGTGTTGTCCGCCAACTTCGGCGTGCCGGAGAACGCGTTTGCCCATATCCCGAAGGAGCAGGTTTATATTTTTCAAGACCAGGTACCGGATTCGCTTGCCAGCCAGGAGGTGCAATCTCCCTACGGAACGGTGCCGCTCAGCTTCAAGCACCGGCTGTTGGCGCAGGAACCGATCATAACCCCTGGAGGAAGCGTAAGGATCGTGGATTCCCGCAATTTCCCGATCTCCAAAACCGTTGCAGCCGCGCTGGTCGAGATCAAGCCTGGCGCCATGCGGGAGCTCCATTGGCATCCGAATCAGGACGAATGGCAGTATTACTTGACCGGGCAGGGAAGAATGACCGTATTCGCCGGCAATGGAGCAGCTCGGACCTTCGATTACAGAGCCGGCGACGTCGGTTACGTGCCCTTTGCCTTCGGTCACTACATACAGAATACTGGCACGGAATCCTTATGGTTTCTGGAAATGTTCAGAAGCGACCGGTTCGAGGATATATCCTTGAATCAATGGATGGCCTTGACGCCTCGGGACCTGGTCCGGGATAACCTGAACGTCGGAAACGAAGTCACCGCCGCTTTGCGCAAGGAGAAGTGGCCCGTCGTAAAATATCCGGGATATTCGTATTATCCGCGATAA	MMEEQNQKRENAGPIPQPIRSDGAGGPDYGPRDVMRDIENPDMLVPPVTDAGLMPNLKMSFSDTHMQLNHGGWSREITVRDLPIATTLAGVNMSLTPGGVRELHWHQQAEWSYMIWGSARITAMDASGRNFIADVGPGDLWYFPAGLPHSIQGLEEGCEFLLVFDDGHFSDLNTLSISDWFAHTPKDVLSANFGVPENAFAHIPKEQVYIFQDQVPDSLASQEVQSPYGTVPLSFKHRLLAQEPIITPGGSVRIVDSRNFPISKTVAAALVEIKPGAMRELHWHPNQDEWQYYLTGQGRMTVFAGNGAARTFDYRAGDVGYVPFAFGHYIQNTGTESLWFLEMFRSDRFEDISLNQWMALTPRDLVRDNLNVGNEVTAALRKEKWPVVKYPGYSYYPR				NA	NA	NA	NA	NA
AK002_04633	453			hypothetical protein	TTGAACGACAAAGCAAGGCAGTGGATCGACCGTTATGTCGATGTCTACCTGCTGGTATCGCGGCGGATCAATGCCCAGATCCGGGAGCAGCTCGGCGAAGACCTCACCAGCGACCAGTTTCAGGTTGTCCGCTTGATCAACGGCATGAATCGCTGTACTTCGTCCTATCTGGCGGAAGCTCTCGCGGTCGGCAAAAGCTCGGTTACGGCCATCGTCAACCGTCTCGTGGATGCCGGCATTATCGACAGGACCAGGGACGAAGCAGATCGCAGGCTGGTGTATCTGACTTTAACGGAGTACGGACATACGATTTTTGAATCGGCCCAGGAGCAGATAAGGGAGATCATCTCCCCTTACCTGCAGCATTTTGAAGAAAAAGATATCGAAATGTTTATCTCGATGTTCGAGAAACTGGGGCAATTGATGTTTGAATCAGGGGGGAGAAAGAATTGA	MNDKARQWIDRYVDVYLLVSRRINAQIREQLGEDLTSDQFQVVRLINGMNRCTSSYLAEALAVGKSSVTAIVNRLVDAGIIDRTRDEADRRLVYLTLTEYGHTIFESAQEQIREIISPYLQHFEEKDIEMFISMFEKLGQLMFESGGRKN	PGPT0013155_3060	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK002_04634	3168	smc_2		Chromosome partition protein Smc	TTGAGAGCTATACTGAAAGCAAGATGGGCCATCATCGTGCTGTGGCTGGTGGCCGCCGTCGCGCTGTTTATGTTCGCGCCTTCCATGGCGGACCTGGTGCGGGAGAAGGGCCAGCTATCCGTGCCGGATGGATATAGCTCTTCGCGCGCGGCTGAAATTCTGAAGGAAGCCTCCGGGGGCGAGGGCGGGGAAACCCTGAACCAGGTTGCACTTGTCTTCAACAAACCCGACGGGTTAAGCGAAGCGGATAAAGAAAGCATCCGGCTGGGCGTTCAAGCTTTAAACGACAATAAAGACAGCCTTCACATCGATTCCATAAATGAACCGTTCACGCAGACGGAGCTGGAAGACACGCTCATTGCCAAAGACGGCAAGACCATCATGGTCGCGCTTCAGGTCAGCGGGGGCGAGGAAGCCGTGAAAGAGCTGCCCGGGAAGGTCGATCAGGTGCTCGAAGGCGTTCAAGCCGACCATTACCTGACCAGCGAAGGTCTCATCAACGAAGATACCATCGTCAGCTCCGAGGAAGGCCTGAAGAAAACGGAATATATTACGGTCATCTTTATTCTGTTGATCCTGTTCGTTGTATTCCGTTCCTTCGTGGCACCGTTCGTGCCGCTGTTGACCGTAGGGCTCAGTTATCTCGTGTCCCAGTCGGTTGTGTCCTTTCTCGTGGACCAGTTCAACTTCCCGATATCCACCTTCACCCAGATCTTTATGGTGGCCGTCATGTTCGGGATCGGAACCGACTACTGCATCCTGCTGATCAGCCGGTTTAAGGAAGAACTCACCACATCCGAAGATACCCAATCGGCCATTATTGAAACTTATCGGAAAGCCGGCGGCACCGTGCTTTATTCCGGGCTTGCCGTATTCGTCGGCTTTGCAGCCATAGGTTTATCCAAGTTCATTCTGTATAAATCCGCGGTTGCGGTTGCGATCGGCATCGCGGTTATGCTTCTTGCGTTAGTCACGGTCGTGCCGTTCTTCATGGCGGTCCTCGGGAAGAAACTCTTCTGGCCGTCACGCGGCAAGCTGGAACACAGCGAAAATAAACTATGGGGAGCGGCCGGTTCTTTCTCCCTCAAGCGTCCTTGGGCCGCCATGCTCGTCGTGGCCGTCATCGTCGGGCCCTTCCTCGCTACGTACAGCGGCAAGCTGTCGTTTAACAGCCTGGAGGAAATCGGTCCGAGTTATGATTCGGTCAAGGGCTTTAATATCATTTCCGACAGCTTCGGTCCCGGGCAGTCGCTGCCTTCCACCATCGTGATCAAGAACGATGACCGGATGGATACGCCGGAGTACATGGGACTCGCGGAAAAAATCAGTCGGGAAGTGGAAAAGGTTGAAGGCGTTTCGAGCGTTCGCGGACTTTCGCGTCCAACCGGCGAGCAAATCAACGATTTCCTCATTCCGACTCAAGTCAAAACGTTAAATGAAGGATTGGGAGAGTCCAAAGACGGGCTGACCCAAATTCAGAACGGACTTTCCGAAGCAGGCAAGCAGCTCAGCGAGAATGCGCCGAAGCTGAATGAGGCTGCTGCGGGAGCGCAAGAGCTGACGAAGGGAACGGCCGACCTGAAGGACGGCATCACCGAGCTTGGTCAGGGTCTCAGCGCCATTCAAAAAGGGATTCAAAGCGGAAGCGCCGGTGCCGGTGAACTCAAAGCCGGACTCGCCAAGGCAGCGCAAAGCGCGAAAGAGTTGGCCGCTGCCCACGACCAGCTTCTACAAGGCTACAAGCAGCTCGACACCGGATTAGCGGCCCTAAACGGCGGCGTTGCTGGAATCCAGGAACAGCTGGGCGGCGTTGCCGCGGCTCTGAAAGGACTTGAAGGCTCCTTCACGGGATTGGAGAGCAGTCATCCGGAGCTTGTTCAGGATACCGATTATCAAACGATTAAAGGCACCGTTACCCAAACTGCAGCAGGCACGGCAGAGCTGGCCGCGGGGTTGGGACAGATCTCCGAGCAGCTTAAGGGCGCATCGGCAGGCTTATCGGAAGCCAACGCCGGCTACGCCAAGGCAGCCGCAGGGCAAACGGCACTTGCCGATGGTCTTCAGCAGCTTGTGTCCGGGATCGCAGAGCTTCAATCCGGCCTCTCGCAAGCCGCTAACGGGCAGGGCCAAATCGTAAGCCAGATCCCTTCCATTACGGGCGGACTGGACCAGCTGCAGGGCGGCCAGAAGCAGCTTGCCGACGGGTTCGGCGATTTTACCGGACAGATCGGAGAGCTGACGGAAGGACTGAATTCCAGCGTCGACGGGCTGAAACAAATTTCGGACGGACTGCATTCCGCTCAGGATTACCTGCAGCAAATTCAGGACGTTCAGGATGAGGATCTCAGCGGATTCTTCATCCCGCAGGAAGCCCTGGAGAACGAAGAATTCCAGACGGTATTCGATACCTACTTGTCCGATGACCGCAAAGTGATGACGCTGGATGTGGTTCTGTCAACCAATCCGTACAGCGAAGAAGCGTTGGGCAGCGTCGAACAGATTCAGGCAGCCGTCGACCGTGCAGTAAAAGACACGAAGCTGGAGAACGCCGAGGTTGCCATCAGCGGCATTACCAGCACCAACAACGATTTGCAGAGCATCTCGAATGAAGATTACACGCGTACCGTGATTCTCATGCTGAGCGGAATCTTCATTATCCTGGTCGTGCTGCTGCGATCCATCGTGATGCCGATCTACCTGATTATTTCGCTGGTCATCACGTACTTTACCGCCGTCGGCGTTACGGAGATGATCTTCGTCCACGGCTTCGGATATTCCGGCATTACTTGGGCCACGCCGTTCTTCAGCTTTGTCATGCTGATCGCGCTAGGGGTGGATTACAGCATCTTCCTGATGGCACGCTTCAACGAGAACAAAGCCTGGAACGTTCAGGATGCCATTCTCCATGCCATGCGCAACATGGGCACGGTCATTCTGTCCGCGGTGGTCATTCTTGGCGGCACCTTTGCGGCCATGTATCCATCCGGCGTATTGTCCATGATGCAGATCGCCACGGTCGTCTTGGTCGGACTTGTGCTTTATGCACTCCTGTTCCTGCCATTCTTCGTGCCGGTGATGGTTCGCATCTTCGGCCGGGCCAACTGGTGGCCGTTCAGCCCTAAGGAACAGGGCGACGCTTCCAGAACGGGACATGATCTGAAGATGTAA	MRAILKARWAIIVLWLVAAVALFMFAPSMADLVREKGQLSVPDGYSSSRAAEILKEASGGEGGETLNQVALVFNKPDGLSEADKESIRLGVQALNDNKDSLHIDSINEPFTQTELEDTLIAKDGKTIMVALQVSGGEEAVKELPGKVDQVLEGVQADHYLTSEGLINEDTIVSSEEGLKKTEYITVIFILLILFVVFRSFVAPFVPLLTVGLSYLVSQSVVSFLVDQFNFPISTFTQIFMVAVMFGIGTDYCILLISRFKEELTTSEDTQSAIIETYRKAGGTVLYSGLAVFVGFAAIGLSKFILYKSAVAVAIGIAVMLLALVTVVPFFMAVLGKKLFWPSRGKLEHSENKLWGAAGSFSLKRPWAAMLVVAVIVGPFLATYSGKLSFNSLEEIGPSYDSVKGFNIISDSFGPGQSLPSTIVIKNDDRMDTPEYMGLAEKISREVEKVEGVSSVRGLSRPTGEQINDFLIPTQVKTLNEGLGESKDGLTQIQNGLSEAGKQLSENAPKLNEAAAGAQELTKGTADLKDGITELGQGLSAIQKGIQSGSAGAGELKAGLAKAAQSAKELAAAHDQLLQGYKQLDTGLAALNGGVAGIQEQLGGVAAALKGLEGSFTGLESSHPELVQDTDYQTIKGTVTQTAAGTAELAAGLGQISEQLKGASAGLSEANAGYAKAAAGQTALADGLQQLVSGIAELQSGLSQAANGQGQIVSQIPSITGGLDQLQGGQKQLADGFGDFTGQIGELTEGLNSSVDGLKQISDGLHSAQDYLQQIQDVQDEDLSGFFIPQEALENEEFQTVFDTYLSDDRKVMTLDVVLSTNPYSEEALGSVEQIQAAVDRAVKDTKLENAEVAISGITSTNNDLQSISNEDYTRTVILMLSGIFIILVVLLRSIVMPIYLIISLVITYFTAVGVTEMIFVHGFGYSGITWATPFFSFVMLIALGVDYSIFLMARFNENKAWNVQDAILHAMRNMGTVILSAVVILGGTFAAMYPSGVLSMMQIATVVLVGLVLYALLFLPFFVPVMVRIFGRANWWPFSPKEQGDASRTGHDLKM				NA	NA	NA	NA	NA
AK002_04635	681		COG4122	Catechol O-methyltransferase	ATGAAAGCGAATGCGAATGATGCTGCGACTTGGGGCAAAGTGGACGATTATGTGACGGAACATTTGATTCCTTATGACGAGGTGCTGGAGAAGGTGTTGGCCGCAAACCGGGAGGCAGGCTTGCCTGAGATCGATGTATCTCCCGCTCAGGGCAAGCTGCTGAACGTGATCGTTCAGATCAAGGGAGCGAAACGAATCTTGGAGATCGGTACGCTTGGCGGTTACAGCACGATCTGGATGGCTAGGGCGATCGGGGCAGAAGGGCGGCTGATTTCATTGGAGCTCGATCCGCATCATGCGAAGGTTGCCAAATCCAACGTAGCGTTGGCTGGACTGGAGGATAGGGTCAGCATCCGCGTAGGCGATGCATTGGCGCAGCTGGAGCAGCTGGCTAAGGAAAAGGCTGAGCCGTTCGATCTGATCTTCATCGATGCCGATAAACCGAACAATCCGAATTATTTGAAGTGGGCCTTGCAGTTCTCCAAGGCCGGCACCGTCATCATTAGCGATAATGTCATCCGGAACGGGGAAGTCATCGATTATCACAGCACAGACCCTCGGGTCCATGGCATCCGAAAATTCATGGATATGCTGTCGGCAGACTCCTCGATTGCCGGCACGGCCATTCAAACGGTTGGAAGCAAGGGATATGACGGGTTTTATATCGGAATTGTGCAGTAG	MKANANDAATWGKVDDYVTEHLIPYDEVLEKVLAANREAGLPEIDVSPAQGKLLNVIVQIKGAKRILEIGTLGGYSTIWMARAIGAEGRLISLELDPHHAKVAKSNVALAGLEDRVSIRVGDALAQLEQLAKEKAEPFDLIFIDADKPNNPNYLKWALQFSKAGTVIISDNVIRNGEVIDYHSTDPRVHGIRKFMDMLSADSSIAGTAIQTVGSKGYDGFYIGIVQ				NA	NA	NA	NA	NA
AK002_04636	888	cmpR_4		HTH-type transcriptional activator CmpR	ATGAATTTACATGCCTTACGGCTGTTTCACGTCATTGCCACAACGGGCAGCGTCACCCGGGCTGCCGAATTATTAAATATAAGCCAGCCGGCCATAACGGCACAGGTTAAGAAATTCGAGAAGGAGCTTTCCCTTACCCTGTTCAAGCCGCAGGGCAGAGGCATCGGATTGACGCAGGCTGGCGCCGAGCTGCTCCCGCTTGCCAAAAGGCTCTTCTCGGTTGAGCAGCAGATCGAACAATTCTGCCGGGATTACCGCAGCGGTTCGAGGGGGCATATCCGACTGGCTGCAACCTACCTCCCCTCCCATTTTCTTCTGCCGGCTTGGCTTGCAAAATACAAGCAGCGGTACGAAGACGTCGAAATGAGCATTACCACCACGAATTCCAGCGATGCGCTTAAGCAGCTGCTGAACATGGACGTGGATCTTGCGATATACGGCGGCCTCCCTGAGGAATCGCCGGATACGATACAGACCGAGGAGCTGTTCCGGGATGAGCTGTGGTTTGTCGTCTCCCCCGACCACCGTTATGCCAATCAGCATATCTCCCTGGATGAAATGATGAGAGAGCCTTTTGTCATGCGGGAGGAAGGAAGCTCGACGCGGGAACGGTTATTTGCCTTATGCCGCACCCACAGCTCCCCTTCGCCCCGCATCACGCTGCAATTCAACGGCCTGCACGAAGCGATCACGGCCGTCATTGCCGGATACGGGGCCAACTTCGTGTCTTCGCTCGTGGTGCGGGAATACGTGGAGCGCGGTGAGCTCAGCCAGGTATACGTCGATGGCATCGAGCTGCAAAATATCATTGCGGTCTGCACCCGCAAGCATGAAGCGTTATCCGCTGCCGCCATGAATTTCGTGGAGATGATCCGGGAACGGCCATAA	MNLHALRLFHVIATTGSVTRAAELLNISQPAITAQVKKFEKELSLTLFKPQGRGIGLTQAGAELLPLAKRLFSVEQQIEQFCRDYRSGSRGHIRLAATYLPSHFLLPAWLAKYKQRYEDVEMSITTTNSSDALKQLLNMDVDLAIYGGLPEESPDTIQTEELFRDELWFVVSPDHRYANQHISLDEMMREPFVMREEGSSTRERLFALCRTHSSPSPRITLQFNGLHEAITAVIAGYGANFVSSLVVREYVERGELSQVYVDGIELQNIIAVCTRKHEALSAAAMNFVEMIRERP	PGPT0001160_1196	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
AK002_04637	516			hypothetical protein	ATGAGTCATATACCAATACCGGGTACCACGCAGCACAAACTCATACAGGCAGGTTTAAAGCGTTTTGCCGAGATGGGATACAACCAAGCGGAAGTTGACGACATTGCTGCCGATGCAGGAGTGACCGTGGGAGCTCTTTATCATCATTACAAATCCAAGAAGAAATTTTACGGCTTGCTTCGGGATGACATAACGCTTCGAATATTGGACCGCATGGAAGCTGTTGCCGATGCGGCTCCTCCCGAGTTGCGCCTGAAATTGGTTCTATTGACCGCCTACGACAGCATGATTCGCCTTAAAGTGGGCCGATTGCTGTCTGAGCCCGATCCCCGCAAAGGAGACAATCCCGTCGCGCGTTATCTCGGTGAACTGGCTGCAGCATCAGGAGAAGAGGCTGGCGATCAATTGGGCATCATTCTGGCGGAGGCATTGCGTGCCGCATTTGCGCAAGTCGTGGAACACGGAGGCGATGAGGCTGCGATGAGGTCGGTATTAAACAGATTATTATCGTCATAA	MSHIPIPGTTQHKLIQAGLKRFAEMGYNQAEVDDIAADAGVTVGALYHHYKSKKKFYGLLRDDITLRILDRMEAVADAAPPELRLKLVLLTAYDSMIRLKVGRLLSEPDPRKGDNPVARYLGELAAASGEEAGDQLGIILAEALRAAFAQVVEHGGDEAAMRSVLNRLLSS				NA	NA	NA	NA	NA
AK002_04638	357			hypothetical protein	ATGGAAGGAAACGTTATTTTTTATTTTGTTCCGGTCAAAGATATCAAGGCAGCCAAATCCCTTTATCGCGACACGCTCGGTTTGGAAGAATCATGGCGCGAAGGGGATTACACGGTTGCTTTTAAGCTCCCGGGAACCAACGTGGAATTGATGGTTGAACAAGTCTCGGAAGGAAGCCAGGATGCTGCCGGACCTGTTTTTCTCGTACCCTCTGTCCGGGATATATACGAGAACAACCCCGGCAAGCTGCAATTGATCGGCGAACCGGGCGAAACTCCTGACGGCCTCTGGTTGAGTGCCAAGGATGATTCCGGCAACGGAATCTACTTTACGGATGAAAGCAAGCACGACTCTTGA	MEGNVIFYFVPVKDIKAAKSLYRDTLGLEESWREGDYTVAFKLPGTNVELMVEQVSEGSQDAAGPVFLVPSVRDIYENNPGKLQLIGEPGETPDGLWLSAKDDSGNGIYFTDESKHDS	PGPT0013300_6262	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
AK002_04639	930	araQ_50	COG0395	L-arabinose transport system permease protein AraQ	ATGATCGGGGAAGGAGAAACGGTTGTGGAACATGAAACTGCCAGAATGCGCATCAACGGCAAGGAGCTGGGATTTAAGATCGTCTTGGGTTTTCTGTGTGTTTTGATTTTTCTGCTGATTGCGTATCCGCTGTATTTTATCATCATTGCTTCGTTCAGCGACTCAACGCTCGTCTCTACGGGGAAGGTCATGTTTATCCCCAAAAATGTTAGTTTTTTTGGTTACCAGGAAATTTTCAAGGATATGCGGATTTGGACCGGGTACCGAAATACGTTGTTTTACACGGTGTTCGGCACCCTGGTGAACATGCTGTTCACGCTTCCGGCAGCTTATGTGCTGTCCAGAAAGGAATTTCGCGCCAGGCGCATCATTATGTTTATTTTCGTGATCACGATGTTCTTCAACGGCGGGCTGATTCCGACCTATTTATTGATGAAGGGTCTTGGCTTGACCAACACGATCTGGGTGTTTATTCTCCCGTTCTCCGTGAATGTGTTTTATTTGATCATTGCGAGGACGTTCTTTGAAAACTCGCTGCCGCAGGAGCTGCATGAAGCCGCCGTCATGGACGGCTGCTCTCACTTTACCTTCTTCTTCAAAGTGGCTTTGCCGCTGTCCAAAGCATTGGTCTCCGTCATCGGGCTCTATTATTTGGTGGGGCATTGGAATGATTTCTTTACGGCGCTGATCTATATCCGGGATACGAAGCTCCAGCCGCTGCAAATCGTTCTGCGGGATATCCTGCTGTCGAACCAGGTATTCTCGAGCGGTGCGGGAACGGGCGGGGATGCCGGAGGGTACGCGCAGCGATATGCCGACCAGATCAAGTACGGCGTCATTATCGTCTCGACGCTTCCGATTCTGCTTATTTATCCGTTTATGCAAAAATATTTCGAGAAAGGCGTCATGATCGGCTCCATTAAAGGGTGA	MIGEGETVVEHETARMRINGKELGFKIVLGFLCVLIFLLIAYPLYFIIIASFSDSTLVSTGKVMFIPKNVSFFGYQEIFKDMRIWTGYRNTLFYTVFGTLVNMLFTLPAAYVLSRKEFRARRIIMFIFVITMFFNGGLIPTYLLMKGLGLTNTIWVFILPFSVNVFYLIIARTFFENSLPQELHEAAVMDGCSHFTFFFKVALPLSKALVSVIGLYYLVGHWNDFFTALIYIRDTKLQPLQIVLRDILLSNQVFSSGAGTGGDAGGYAQRYADQIKYGVIIVSTLPILLIYPFMQKYFEKGVMIGSIKG	PGPT0017255_330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04640	912	yteP_56	COG4209	putative multiple-sugar transport system permease YteP	ATGGGGCCTCGCAAAAGATTGGACACCTTCAGACGTGATTACCAGCTGTGGATTATGATTTTTCCGGCGATTGCCGTCATTCTGTTGTTTAACTATGTGCCGATGTACGGCATCCAGCTTGCGTTTAGGGATTACGATTTCAGCCAAGGCTTGACCGGCGGAGAGTGGCGCGGACTCGCCTACTTTCAGCAATTCATCGACAGTTACCTGTTCACCGATTTGATGCGAAACACGTTTCTGATCAGTCTGGCCACGATCGTGCTCGGCTTTCCGGCCCCGATCATCTTAGCGCTCATTCTAAACCAGATTCGCAGAAAAAGAATGAAGCAGGTGATGCAGACCACCGTTTACCTGCCTCATTTCATATCCATCATCGTGCTGGTCGGGATGCTGAACGTGCTGCTGTCCTCCGAAACCGGGGTTGTCGGTCACTTCATGAAGGCGGTGGGGCTGGGGCATATCAATTTGTTAGCCTCCACCTCGACCTTTATTCCGGTGTACGTGCTCTCCGACATATGGCAGCACTGCGGCTGGAACAGCATTATCTATCTTGCGGCCTTGTCCACCGTGGATCCCCAGCTGTACGATGCCGCCAAGATCGATGGGGCCAGCCGCTGGCAGACGATCCGGTACGTCGACATTCCCGCGCTCGTTCCAACCATCATCATCCTGTTCATTCTCAGCATGGGGAACATCCTCGGGACCGGCTTCGAGAAAATATTCCTGATGCAGAATTCGCTGAACCTTCCCGTCTCGGAGGTCATAGCCACCTATGTTTACAAAATCGGGATCATCTCCAACCAGTTCAGCTTGGCTTCGGCCATCGGTTTGTTTAACACGCTCATCAATTTCGTATTTCTGTATGCGATGAACACGATATCGAAGAGAATGTCGGAAACGAGCTTATTCTAA	MGPRKRLDTFRRDYQLWIMIFPAIAVILLFNYVPMYGIQLAFRDYDFSQGLTGGEWRGLAYFQQFIDSYLFTDLMRNTFLISLATIVLGFPAPIILALILNQIRRKRMKQVMQTTVYLPHFISIIVLVGMLNVLLSSETGVVGHFMKAVGLGHINLLASTSTFIPVYVLSDIWQHCGWNSIIYLAALSTVDPQLYDAAKIDGASRWQTIRYVDIPALVPTIIILFILSMGNILGTGFEKIFLMQNSLNLPVSEVIATYVYKIGIISNQFSLASAIGLFNTLINFVFLYAMNTISKRMSETSLF	PGPT0017250_2392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04641	1617			hypothetical protein	ATGAAGAAAAGGGTAAACGTTTTCATCTCGCTTGTCGTCATCACGGCCATGTTGTTAACAGGCTGCAGCGGGGCCGGAGGCGGCCAGAACGACTCGGCGGAGACTCCCGGAGACCAAACCGGCAGCAAAGTAAAGCTTACCGCCATCATTACCAAGCACCCGCTCACGAAGCCGCTGGCCGAAATGGAGTGGCTGCAAAAGGTTGAGGAGACGGCGGGCGTGGACATCGAATGGCAGGAGATTACCGCGGATTGGGGACAGAAGAAAGGGACGATGCTGGCCAGCGGCGATATTCCGGATCTGTTCATCGGGCCGAACGTCATTACGGATGCCGACTTTGCGCAATTCCAGGGCTTGTTCCAGGATCTATCCGGCATGCTGGAGCAGGCGCCCAACGTACAGAACATGTTTAATGAAAAACCGGATACGAAAATAATCGCCACGCAGTCGGACGGCAAAATCTACGGTCTCCCGAAATATCAGCGGTTCTGGCCCGCTACCGCCAGCAGGCAGTTCATTAACCAGCAGTGGCTGGATCACCTCGGCCTGAGCATGCCGACCACATGGGATGAGCTGTATGAAGTACTGGTGGCTTTTAAAGAGAAGGATGCCAACGGCAACGGCGATCCGAATGACGAGATTCCGATGGATTGGCCGGGAGGCATCGGTGGATATTTTAACCCAGCGGTGCTTTTGGGCAGCATGGGCATTACGCTGACGGACGGCAGCGGACAGGGCTATTTCGTGGAAGACGGTCAAGTGAAGAACTTCCTGACGGATGAACGGTACAAAACGATGGTCTCGTTTCTGAACAAATTGTACAAGGCCGGTCTCATTAACCCCGAAGTGTTCACGCATGATTATACGAAATTTCAATCCATCGCGCGCGGGGAAGGGGATACGGCCAAGGTCGGTTTTACCTGGGGATGGGTGGCGTCCGACCGGTTCGGCGAGCAGCTGGCACCGCAATATGCTTCCATGCCGCCGATGAAGGTGTCGGCAGATTATGCAGGGAAGCTGTCCTGGAGCTACGATCATTACTCCCTGAATTATGGCACCAACCATATCGTCATGTCCGCCAAGACCAAGAACAAAGAAGCGGCCATGAAATTCATCAACGAGCTTTATGCGCCCGAGGTGGGCATGCAGGTGCTGTTCGGATCCCTCGGACCGAACATTAAAGATAACGGAGACGGTACATATGCCGTTCTGCCTCCGGCCGATGCCAAGATGGATCCGGGCACGTGGAAATGGACCTCGACGATGGCGGACAACGGCGCATTTTATATTCCCGATACCTTAAAGCTGACGCTTGGCACCGATATGCAGGAGGTGCTGGGTCAATCGGAGCCGCTGGAGGCGGCCTTGGACGTGGATCCCGATAAAGACGTGTTCCCCGGCATGTTCATCAAGTATTCCACCATGGACAATAACGCCATGAGCCTGAACAATACCAACGTTATGAATCTGGCGGAATCCAGCTTTGCGAAATGGGTCACCAAGGGCGGCGTGGAAGCCGAATGGGACGCGTATATCAAGGAAAGCGAGAAGGCAGGCCTGAAGCAGAATCTTGAGATTATGCAAAAATATTACGACGATTACATGAATCAAAACTAG	MKKRVNVFISLVVITAMLLTGCSGAGGGQNDSAETPGDQTGSKVKLTAIITKHPLTKPLAEMEWLQKVEETAGVDIEWQEITADWGQKKGTMLASGDIPDLFIGPNVITDADFAQFQGLFQDLSGMLEQAPNVQNMFNEKPDTKIIATQSDGKIYGLPKYQRFWPATASRQFINQQWLDHLGLSMPTTWDELYEVLVAFKEKDANGNGDPNDEIPMDWPGGIGGYFNPAVLLGSMGITLTDGSGQGYFVEDGQVKNFLTDERYKTMVSFLNKLYKAGLINPEVFTHDYTKFQSIARGEGDTAKVGFTWGWVASDRFGEQLAPQYASMPPMKVSADYAGKLSWSYDHYSLNYGTNHIVMSAKTKNKEAAMKFINELYAPEVGMQVLFGSLGPNIKDNGDGTYAVLPPADAKMDPGTWKWTSTMADNGAFYIPDTLKLTLGTDMQEVLGQSEPLEAALDVDPDKDVFPGMFIKYSTMDNNAMSLNNTNVMNLAESSFAKWVTKGGVEAEWDAYIKESEKAGLKQNLEIMQKYYDDYMNQN	PGPT0017245_1853	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04642	2274	rhaR_59		HTH-type transcriptional activator RhaR	TTGCGAATCCATAAGATTAACCTGCTGACCAAGTTGTTGATTTCCTATTTGCTTGTGCTGATGTTTCCCGTGATCGTCATCCTGTGTTATTACTATCCCTATTCGGCGGATGTTGTGAAAGAGAAGGAAATGGACTGGAATGCGCATATTACGGAGCAATTCATGACATCGATGGATACGTTTACCCGGTATGTATACAATTTGCCGTTCGAGCTGGTGCAGAATCGGGAATTCAAGATGTACAAGGCCGAGGAAAGCGACTACCAGCGTGTCCTCATTGCCAATGAGATGAAAAAATACAATGCAACCGATGCATTTATTTACAACACCTTGCTGTATGTAAAGAACATCGGTTATTTGTTTTCCAAAACTGGAAGCGCATACAGGTTGGACGACCTGTCCATTCCGGGCGTCGGTTACTACTATGAAAACTGGGCCAGCGAAGATATGATCCAGACTTTGAATGATCTCGAGTCTCCCGTCGTCAGGCCTGTCGAGAACGTGATTGTGCCCGGCAACAACCGGGTTCGAATGCTGACTTTCGTGCAGCCGCTGCCGGTAGGAGGCACGAATTCACCCGGAGCCGTCATGATCATGGTAAGGGAAGATACGATCGTCCGGATGATGAAGTCCGTCTCGGAAACCTATAGCGGCGATTTTTTTGTGTTTGACGGCCAGGGAAGGCGGTTGGTATCTTCCCATGATACGTCATACCAATCCTCCGATGACTTCAGGAAGCTTGTGCAGGGCATAGGTGAAGAGACATCTTCCTCTTCGGGCATTTATGCGATCAGCGGATCGGATTATCTGGTATCGTCCTCGGTTTCGGACAAGAATGGCTGGAAATACGTGAGCCTGCTGCCGGTAGCCTCATCCCTTCAAGGCATTCGGACGATTCAGTTGAATACGGCCATCCTGGTCGGCCTGATCCTGCTGCTTGAAGTGTTTATCATCTATATATCGATCCGGAACAACTATCAGCCGATTCGCCGCCTGGTTGATCTTGCCGTTCAAGTCTTCGAACCGCGGGAGGGGAAGCCCATGAACGAGATCGATACGATCAAATATACGCTGGAGGAGCTTTCGCTGGCCAACAGCAAGCTTGACGAGCATGTGAAGGGATCGTTGCCGATTATGCGGGATAACCTGCTGTTTGAACTGGTGAGCGGGCATCTTGCAGGCTGGGATGATTTTGAACGGGAAGCAAGCAAGGTCGGCCTCCGGTTTCAGCATGATTACTTCTCGGTTGCCGTACTATGCTGCGAAGCGGATGGAGCAGAGATGGAGAAGATACTGGATTACTGCCGGCGCTATGAAGGACGGCTGCCGGAGGATATCCAAGGTCATTTCTTTAAAAGCATCTATCCGCAGGAATTGATTCTGGTGTGCTCCCATGCGGAGAATGTCCCGCTCACATCCTGCCTGGAACGGATGCAGGATGAAATATTGGAGCACACGGGCCGGCGAACGGTGATCGGCATCGGCAAGCCTGGCGAAGCCCCGTCTCCGCAGGACCTCCATCTCTCTTATCTGCAGGCACTCCGGACGGCGGAGTTTCTGCGCATCCGAAAGACCGACGCCGTGCTGGTTTTTGATAACATCGGGATTCCCCAGACCGGAGCCGTCTCCTATTATGCCGAAATCCTGCAATCCCTCGAGCTTGCGATCCTCAAGAATGATGCAGCCATGCTGGCCTCTTTAGCGGAGAGAATGATCGGTTACCTAAGCAATGACAGCCTCCCGCCACATATGATTCAGAGCGTGTATCTCAATACCGTTACCGTCATCTTCAACGGCCTCCAGCGGTTCCGTCATGACGATCAGAGCCTGCTGCGGCTTACGGATGCGGCTTTTAACCATCGTTATACGCTGGAACAGATGGTCGGGATCATAAGGGAAAGCTATGCCAAGCTGTGCGATATGATCAAGGAAACCCTCCCCGTTTCCCGGGCGGCAACCCAGGATGAGATCCTGTCCCTGATTGCGGAGAAAGGGATGGATCCGAACTGTTCGCTGCAGATGATGGCCGATTATTTTGATATGTCGGTCTCCAACTTCAGCCATCACTTCAAAAAAACGATGGGGCAAAATTTCAAAGAGCATATCGATCAGCTTCGGATCCAGAAATCCATTCAGCTTCTGCGGGACAGCGAGGAGACGCTCGAAGCCATCTCCCAACAGGTCGGGTACACCAATACCTCGAGTTTTATCCGATCCTTCAAAAAAATGGTGGGCACGACGCCTGGGCAATATCGAAATACGCATAAAGCTTAA	MRIHKINLLTKLLISYLLVLMFPVIVILCYYYPYSADVVKEKEMDWNAHITEQFMTSMDTFTRYVYNLPFELVQNREFKMYKAEESDYQRVLIANEMKKYNATDAFIYNTLLYVKNIGYLFSKTGSAYRLDDLSIPGVGYYYENWASEDMIQTLNDLESPVVRPVENVIVPGNNRVRMLTFVQPLPVGGTNSPGAVMIMVREDTIVRMMKSVSETYSGDFFVFDGQGRRLVSSHDTSYQSSDDFRKLVQGIGEETSSSSGIYAISGSDYLVSSSVSDKNGWKYVSLLPVASSLQGIRTIQLNTAILVGLILLLEVFIIYISIRNNYQPIRRLVDLAVQVFEPREGKPMNEIDTIKYTLEELSLANSKLDEHVKGSLPIMRDNLLFELVSGHLAGWDDFEREASKVGLRFQHDYFSVAVLCCEADGAEMEKILDYCRRYEGRLPEDIQGHFFKSIYPQELILVCSHAENVPLTSCLERMQDEILEHTGRRTVIGIGKPGEAPSPQDLHLSYLQALRTAEFLRIRKTDAVLVFDNIGIPQTGAVSYYAEILQSLELAILKNDAAMLASLAERMIGYLSNDSLPPHMIQSVYLNTVTVIFNGLQRFRHDDQSLLRLTDAAFNHRYTLEQMVGIIRESYAKLCDMIKETLPVSRAATQDEILSLIAEKGMDPNCSLQMMADYFDMSVSNFSHHFKKTMGQNFKEHIDQLRIQKSIQLLRDSEETLEAISQQVGYTNTSSFIRSFKKMVGTTPGQYRNTHKA				NA	NA	NA	NA	NA
AK002_04643	345	yodB_2	COG1733	HTH-type transcriptional regulator YodB	ATGGAGCCGGTTAAAGAAGACTATCAGGAAAAGCCAGCGTTCAATCATATCTGCTCGGTGCTGCAAATTCTTGGAGCCAAATGGGCGTTCCTTGTCATCGCGCAATTAGCCCAGGGACCGAAACGGTTTAATCAGCTTCACCGGGATGCAGCCATCATCAAGACGCAATCCTTGACGGATGTCCTGCGCCATTTGGAAAGCAGCGGCATCGTGAGACGCGAGGTATTCCCTACCGTTCCGGTCTCCGTGGAGTATTCATTGACCGAGAAGGGGATGGACTTCCTGGATTCTTTGAAGGAGATGGAGAAGTGGGCCGAAAAATGGGGAGTGGAACAATCCTCCTGA	MEPVKEDYQEKPAFNHICSVLQILGAKWAFLVIAQLAQGPKRFNQLHRDAAIIKTQSLTDVLRHLESSGIVRREVFPTVPVSVEYSLTEKGMDFLDSLKEMEKWAEKWGVEQSS				NA	NA	NA	NA	NA
AK002_04644	1176	pbuE_4	COG2814	Purine efflux pump PbuE	ATGAATCGATATACGATATATTTATTGGCGCTCGGGGTTTTTCTTACCGCTACCTCGGAACTGGTCGTCTCGGGTATTCTGTACGCGATTGCTGACGATCTTCATATTTCCTTGGCTTTTGCCGGCCAACTGATTACCGCCTATTCGCTTGCTTTTGCGATCGGAACACCGTTTCTGGTCTCGCTTACCGCTCGAATCAATCGAAAAAAGGTGCTGCTCGGCTCGCTTCTGCTATTCATTGCCGGCAGTCTTGTTTCTTTTTTTAGCACCGAGGTATGGATGCTCATGGCTTCCCGTGTCATTCTGGGTGTAAGCTCAGGCGTCTATCTCGTTGCCGCAATGGGTACCGCAGCCAAAATGATGCCACCGGAAACGTTAGGCCGTGCGATTGGCACCATCGTGCTGGGTTTCAGCAGCGCCATGGTGCTGGGCGTTCCGATCGGCATATGGATCACGAATCTGCTGAACTGGCAGTCCATTTTTCTGCTGCTGGCTCTGCTCAGTCTGTTGGTCGCTTTTGTCCTTATCAGGCTCCTGCCGGATGTTCAAGGGGATGCCCCCGTACCCTTCCGCCAGCAATTCAAAGTGCTGGGGAGTCTCGTGATCGTCAGCGCCCTGCTGCTTACGTTCTTCCGGGAATCCGGCAACTCGGTACTGTTCACGTATGTGACGGCGTTTATCCAGGATATTTTTCGCATCGCGCCATCCGGCATCAGCATCATGATGCTCGGCTTTGGCCTATTGGGAGCCATCGGCTCCAGGCTCGGCGGTTATGGCGTCGACCGTTTTGGGGCGGCCAAGGTGATTGTCCTCAGCACGCTCGTTCATATTGCGGTATTTGCGCTGCTTCCGCTGCTCGCCGGTCAATCGGTCATCGGACTTTCGCTGATGGGAGTCATGGTGATGTCCATGTTTGCGGCGGGCCCGGCGGTCCAGAGCTATTTTATCCAGCGGGCGCCGGGTTCTTCCAATCTGGTTCTCAGCATAAACACCTCCATTGTCCATCTGGGGTTAGCCGCAGGAGCGGGTGCAGGAGGCTTCATGGTCAATACGTCATCCACGCTTCAATACCATCCATGGCTCGGGGGATTCGTGCTCGCGCTTGGCTTGGCGGCAGGACTGGTCAGCTTCTCGGCCGGACGGAAGTCGCCGGTTTCCATCCCGAAATCGGCCTGA	MNRYTIYLLALGVFLTATSELVVSGILYAIADDLHISLAFAGQLITAYSLAFAIGTPFLVSLTARINRKKVLLGSLLLFIAGSLVSFFSTEVWMLMASRVILGVSSGVYLVAAMGTAAKMMPPETLGRAIGTIVLGFSSAMVLGVPIGIWITNLLNWQSIFLLLALLSLLVAFVLIRLLPDVQGDAPVPFRQQFKVLGSLVIVSALLLTFFRESGNSVLFTYVTAFIQDIFRIAPSGISIMMLGFGLLGAIGSRLGGYGVDRFGAAKVIVLSTLVHIAVFALLPLLAGQSVIGLSLMGVMVMSMFAAGPAVQSYFIQRAPGSSNLVLSINTSIVHLGLAAGAGAGGFMVNTSSTLQYHPWLGGFVLALGLAAGLVSFSAGRKSPVSIPKSA				NA	NA	NA	NA	NA
AK002_04645	888			hypothetical protein	GTGGCAGTCTCTTATATGGATTTCACCTCACCGTCCGTTCGGTTTACTTACGATATGAACAATAACCCGTTTTTCAAAAAAGATAGTCAAAATTACATTAATTCTCTCTCCGTAAAAGAATTGAACACGCTCGGCAACGCTTCCCTGCTGGATATATATCTCAGTACCGGAAACGTAGTGGAGCCGCATATCCATCAAAATGCATCGGAGCTGGTATATGTCGTTTCCGGCTCAGCCATCGTTTCCCTTGTCAATCCGTTTACGAAAGAGCTGCTGAACTTCACGGTAACGCCCGGTCAAGTTGCGCTCGTGCCCCAAGGCTGGTGGCATTATGAAATGGCGACGGTTGACAACACGCATCTGATCGCGGTCTTTGACGCGCCGGTGCCTGAATTCATTGGAGGTTCGGATCTCTTGAGATTGACGCCGGCCAGCGTGTTCGCTCACACCTACTGCCTGGATGAAGCCAAAGTCAAAGAGACCTTGGCGCCGATCACCGACACGGTTGTCATCGGGCCGCCAAAAAACTGCCCGCAGCAAGGGCAAGTGCAAGGGCAGATGAAACATCAGCCTCACGCGTCTCATCTTAATCAGCATTATTACCATCAAGGAACGCCTGGCCAGCGAGATTATGAGCTCCTTCAGCAGCAGCAGCAACAGCAGTTCCAGCAACAGCAGCAGTTGTTCCAGCAGCATTTCAATGCTCACGATCAAACCCAGCATGGAACGTATGCTGCTGAACCGCAGCGAACACCAACTCAAGCACAAGAGCAGTTCCGTTCGCAACAGCAATTACAAGAACAACAGCGTCAGCAGTTCATTCAGCAACAGCAGCAGCTGCCATTCCTGCAGCGCCAGCTAATAGGAAATGGCTGGGATAAATTCTGA	MAVSYMDFTSPSVRFTYDMNNNPFFKKDSQNYINSLSVKELNTLGNASLLDIYLSTGNVVEPHIHQNASELVYVVSGSAIVSLVNPFTKELLNFTVTPGQVALVPQGWWHYEMATVDNTHLIAVFDAPVPEFIGGSDLLRLTPASVFAHTYCLDEAKVKETLAPITDTVVIGPPKNCPQQGQVQGQMKHQPHASHLNQHYYHQGTPGQRDYELLQQQQQQQFQQQQQLFQQHFNAHDQTQHGTYAAEPQRTPTQAQEQFRSQQQLQEQQRQQFIQQQQQLPFLQRQLIGNGWDKF				NA	NA	NA	NA	NA
AK002_04646	654	apaH_2		Bis(5'-nucleosyl)-tetraphosphatase, symmetrical	ATGAGTCAGGTGTATGCGGTTTCGGACATTCACGGCTACGGTTATCTGCTTGAGATCCTGCTGCAGCATGTACATTATCAGCCCGAGGCGGATCGTTTATTTTTGCTTGGGGATTATGTGAATAAGGGACCCGATTCAGCCGGGACCCTGGATTATGTGAAGGAGCTGTGTGATGCCGGCGCAGTAGCGCTACAGGGGAACAATGAACGCAAATGGCTGCATCAATTGCCGGAACAAGCCGGTTTCGTGGCTCCTCAAGGGTTACAATATCAACAATTCATTGCAGCTATGCCGCTATGGATCGAGCATGATGAGTATTTGTTCGTGCATGCGGGCATTCGCCCCGATATTCCGCTCCATGCGCAGAAGCCGGAGGATCTGACGGAGATCCGGGAACCGTTCCATCAGTCGCCGCGTTTGATGGATAAAACGATTGTGTTTGGTCATACATCCACGTTTCGCTTGGGTGTAGAGCCCCATCAGCTCTGGTTCGGCGACGGTAAGCTGGGAATTGATACAGGCGCTGGGCACGGATATTATTTAAGCCTGGTGAATTTGACTTCGGGCATTCATTGGTCCATATCGGTTACACGGCCGGAGAACATTGCGTGCCGGAAGCTGAGAATAACGGGAGCATCCGGTCTTGCTAAATAA	MSQVYAVSDIHGYGYLLEILLQHVHYQPEADRLFLLGDYVNKGPDSAGTLDYVKELCDAGAVALQGNNERKWLHQLPEQAGFVAPQGLQYQQFIAAMPLWIEHDEYLFVHAGIRPDIPLHAQKPEDLTEIREPFHQSPRLMDKTIVFGHTSTFRLGVEPHQLWFGDGKLGIDTGAGHGYYLSLVNLTSGIHWSISVTRPENIACRKLRITGASGLAK				NA	NA	NA	NA	NA
AK002_04647	1080	btuD_12		Vitamin B12 import ATP-binding protein BtuD	ATGATCTTAAAGGTAAAGGGCGTATCGAAATCATTCGGCTCACAGCAAGTATTGAAGCCGATCACGTTTGAGGTGGGAGAAGGGGAGCGCATATGCATTCTTGGCCCCTCAGGCTGCGGAAAATCAACGCTGCTCCAGATGATTGCCGGTCTTCAGCGTATCGATGCAGGGGAGGTGGAGATGGCCGGAGTCACCGTCGAACGGCGAGGGCATTATATTCCGCCGGAAAATCGCCCGATTAACATGGTGTTTCAAGATTATGCGCTATGGCCCCATATGAACGTGAAACAGAATATGGAGTATGGGATGAAGCGCCGAAAACTAAATGGGCATGACAGAGCGCGGACATTGGACCGACTCCAATCGCTTTTAAAGCTGGAAGGTTTATTGGACCGGCTGCCGGCCCAGCTGTCTGGCGGTCAGCAGCAGCGCGTCGGCATCGCGAGAGCGCTGGCAACAGAGCCGAAGCTGTTGTTAATGGACGAACCATTGTCCAATCTGGATGTCAAACTGAGAACGGATATGCGTGGTGAATTGGCCAGATTGCTGGGCGAATTATCCATCGCTACCCTGTATGTGACGCATGACCGGATGGAGGCCTTTACGGTGGCTGATCGCATAATGATATTAAGGAACGGGGCGATTGATCAATTCGGGGAACCGAGAGAGCTGTTTGAGCGGCCTGCGAGCCCTTGGGTGGCGCAGCTTATGGGTTACCATAACCGATTGGAAGCCAAACTGAGCCCGAATGGGCAGACTGCAGCCATACTATCCGGAAGTTTGATTGGCGGAAATCTGATAGATATAAATCATGGAGACGACGGTGCCATCGTCATGATCCATCCTGAATCGATCGAAATATGCAGTGACGAAGCTACACCGGAAGGGAACTCGTTGAAGGTAACCATCCTGCAGACGGTCTACGAAGGAACCAGATGGAGAATCATAGCCGAGACGGCAGACCGGCAGCCGATTCATTTATTCCATCATTGCAGCGTAGAAGCGGGAAGCGAACGAAGGATACGGGTGTCACCGGAACAAACCATGATATATGCAGAAAGCAGCATGTTGGCCACATGA	MILKVKGVSKSFGSQQVLKPITFEVGEGERICILGPSGCGKSTLLQMIAGLQRIDAGEVEMAGVTVERRGHYIPPENRPINMVFQDYALWPHMNVKQNMEYGMKRRKLNGHDRARTLDRLQSLLKLEGLLDRLPAQLSGGQQQRVGIARALATEPKLLLMDEPLSNLDVKLRTDMRGELARLLGELSIATLYVTHDRMEAFTVADRIMILRNGAIDQFGEPRELFERPASPWVAQLMGYHNRLEAKLSPNGQTAAILSGSLIGGNLIDINHGDDGAIVMIHPESIEICSDEATPEGNSLKVTILQTVYEGTRWRIIAETADRQPIHLFHHCSVEAGSERRIRVSPEQTMIYAESSMLAT	PGPT0003735_1631	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
AK002_04648	1710			hypothetical protein	ATGAATACTTCGGAAGCTCGCTATGGAGGCGGGGTCACCCTCCTCCTGTTTGTTTTTATTTTTTTGCCGCTGCTCGCCGTCCTGATCAACGTCATCTTTCCCGGGCTATTTTTCGGGCAGATCGAGTCCAGCAGCCTGGGCTTGATCGGAGACATCATGAATCGGCCGTTATGGAAACAGTCCCTTCTGAATTCGGTCACATTATCGCTGGGCACGGCAACGATCGGTACGATCATTGGAGGCGTGCTTGCTACCATTCGGGCACGGTGGGACTTTGCAGCGGCCAAATTGCTGGATATGACGGCTTGGGTATTGTTAATAGCCCCGTCCTTCATGATCGCGCAGGGCTGGGTTTTGTTTGCCGGCTCGGACGGACTGGCTCATCAGTGGCTGGGGCTGACGTGGGTCACCTCGTTTATTTTTCAGCCTGTCGGGCTTATGTTCGTCATGTCACTAAGTAAATTCCCGCTAGCTTATTTGGCCATTATGGCAGCTTCGGAGTGGAACATAAGGCAGTTCGGTTATGCGGCCAGGCTGAATGGCGCAAGGCCATTCACCGTCTGGAGAACCGTCGAACTGCCATTGGCTCTGCCTTCCTATGTGGCTGGCTGGACCCTGGTGTTCATGGATACCATCGGGGATTTCGGGCTGCCCGCCGCTTTGGCAACCGTGTATAAATTCCCAACGTTGACATACTCCATATACTCGGCAATCTACCAGTCTCCGGTCCGATTCGATATGGCGGGTGTGCTGGCATTCTATCTTGTCTTAATTCTGGCACTGGCGATGACCTTGCTTATGGTGACCCTGCGGAAATCCAGGTTCGACTTTTTGAATGCAAGAGCGGTTCAAATGGAGAAGGTAAGGCCGCGGAAAGCCTGGTTGTATAATCTGTCGATTACGATTTTTCTCTTTGTGAGTCTTGGGATTCCGATCGGAACCAGCGCAGCGGTGTCTTTCCTGAAGCAGGCTGGCGGAGGCATACATCTGGATAATCTCACGCTGGATCATTATCGCGAATTATTCGCAGGACAAGCCGGGGATCACAGGCTGCTCGGTTATCTGGAAGGCATGTATCATTCGCTTGTCATAGCAGCCGCAGCTGCATTGTTTAGCATGCTGATCGGGTTTGTTGTAGCCTATATGCTGACTTTTACGGAGTCTCGTCTAAGGCCGTTGCTTCAGCTATTCTCGATCATTTCTTTAGCGGTCCCCGGCGTTGTGCTAGGGATTGGCTATATTTTCATATGGAATCAGAAATGGCTGGAACCTTTAGGACTCCATCTTTACGGAACACCCTCGCTGCTTGTGATCGCCGGGATCGCCGGTGCCATCCCCTACGCAGTCAGGGTCCAGCTTGGCGCGTTCGGCAACATGTCCGGCACCATGCTCAAGGCGGCAGCCATTCAAGGGGCAGGCGTATTTGAACGAATGCGGGATATCGTACTGCCTATAGCACGCCAGTCGCTTCTAATTGCAACCCTGGCCTCGTTCGGAACCAGCGTGTTTGATCTGGCCCTGGCTTCCATGCTGAAACCGGCTAACTATTCGCTGATGCCGCTGGTCATAGACAGGGCCTTTGAATTCTCACGCTACGGATATGCAACGGCTGCTACCGTCGTTAGCTGCGGAGCGGTCGTGCTGATCATCATTCTTCTGCAAGCAGCGGGGCGTACATGGTTCAGATGGCTGGATCGCAATAAATGGTAG	MNTSEARYGGGVTLLLFVFIFLPLLAVLINVIFPGLFFGQIESSSLGLIGDIMNRPLWKQSLLNSVTLSLGTATIGTIIGGVLATIRARWDFAAAKLLDMTAWVLLIAPSFMIAQGWVLFAGSDGLAHQWLGLTWVTSFIFQPVGLMFVMSLSKFPLAYLAIMAASEWNIRQFGYAARLNGARPFTVWRTVELPLALPSYVAGWTLVFMDTIGDFGLPAALATVYKFPTLTYSIYSAIYQSPVRFDMAGVLAFYLVLILALAMTLLMVTLRKSRFDFLNARAVQMEKVRPRKAWLYNLSITIFLFVSLGIPIGTSAAVSFLKQAGGGIHLDNLTLDHYRELFAGQAGDHRLLGYLEGMYHSLVIAAAAALFSMLIGFVVAYMLTFTESRLRPLLQLFSIISLAVPGVVLGIGYIFIWNQKWLEPLGLHLYGTPSLLVIAGIAGAIPYAVRVQLGAFGNMSGTMLKAAAIQGAGVFERMRDIVLPIARQSLLIATLASFGTSVFDLALASMLKPANYSLMPLVIDRAFEFSRYGYATAATVVSCGAVVLIIILLQAAGRTWFRWLDRNKW	PGPT0003730_1531	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK002_04649	1125			hypothetical protein	ATGAACAAGAAAACAGGATTCAAACATGGAATATTCATTGCTTTGACTGCGCTCATGTGGTTGTTGTCGGCATGCGCGCAAACGGATGGACAGCCAACGGTTCGCTCGGGGGAAACCACGGGGCCGACGGCCAGCGGAAGCGGAGGTGCAGCCGGGCAGCCGGACATAACCTTAACGAATGGCAATCCGGAGGATACCGGGGAAACGATCTACTTATACGGAAATGATTTTGTGGATTACATTGCCCCGAAATTTATGGAAGAGACAGGCTTCAAATTAGAAGCCGTGCATTATGGAGGGGGAGAAGCATTGGCCAAAATTGAGGCGGAGCAGGGAAATCCGCAATGGGACGTCTTGATGATGGATGGACACGGTTCGGTGCGCAATTTGGGCGACCGCGATTTTCTGATGACGGATTGGGAGCCTGACAATCTCGGAAATCTGTCCGAGAACGGAAGGAGCCATGTACCCGAAGATTTCGCCTACTTCCCTGTCGGCATTCATGCGGCAGGTGTCATTGCTTATAACACAACGCTGGTAACTCCGGAGAAGGCACCGACGACTTGGGAGCAATTTTTTGCCTATGACGGCCCTGTCGGTCATGCCGATCCGGCCGTGGCAGCGCCTGCCTATCCGCTCGTATCCGCATTTTTTGAGCAATGGGGTGTCGAAGCCGCAGAGCAGACATACGAGCAGCGTTTTAAAAAAGGACTTCATGTATACCCCAAGAACGGTCCTGTCGGGAAGGCGCTGTTAAGCGGAGAAATCGAAGTTGCGGCGCTTCAGGAGCATAATGCTTATGAACTGAAGCTTGCAGGCGAGCCTATCGAGGTAATATGGCCGCGCGAGGGTGCGCCAGGGAGCTTGCGCGTTGTGGCGATCAGCAAGCATACCAAGAATCCGGCAGCGGCCAAAGCATTTGTTGAATATATGCTGAAACCCGAGACACAGCAGATGTTAACGAATCTGGATTCAACGGATAGTTTCTTTACGCCGCTTGTGGAGGGCGTGAGTGCACGAAGTGAGCGTGAACCGAATGGAGCCTTTATGCTGCCTTCCGCGAAGTGGGCATCCGAGCATGAAGTTGAGATCAAAACCTGGTTTGCGGATCAAAATGTAAGGTAG	MNKKTGFKHGIFIALTALMWLLSACAQTDGQPTVRSGETTGPTASGSGGAAGQPDITLTNGNPEDTGETIYLYGNDFVDYIAPKFMEETGFKLEAVHYGGGEALAKIEAEQGNPQWDVLMMDGHGSVRNLGDRDFLMTDWEPDNLGNLSENGRSHVPEDFAYFPVGIHAAGVIAYNTTLVTPEKAPTTWEQFFAYDGPVGHADPAVAAPAYPLVSAFFEQWGVEAAEQTYEQRFKKGLHVYPKNGPVGKALLSGEIEVAALQEHNAYELKLAGEPIEVIWPREGAPGSLRVVAISKHTKNPAAAKAFVEYMLKPETQQMLTNLDSTDSFFTPLVEGVSARSEREPNGAFMLPSAKWASEHEVEIKTWFADQNVR	PGPT0003725_517	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK002_04650	891	cysL_2	COG0583	HTH-type transcriptional regulator CysL	TTGAACTTACAGCAATTCAAAGTGTTTGTACTTACCGTCGAATTGAAGAAACTGTACCTTGTGGCCCAGAAGCTGGGCATTACCCAGCCAACCGTCACCTTTCATTTGAACAAGCTGCAAGAAGAGCTTGGCCTTGCTCTGTTTCACACCAAGTCCTATCATGTCATCAAGCTTACGGAAGCCGGTGAAGCCTTTTATCATTACGCATCGCAGATTCATTCCCTCTCTGAGGAAGCTTCATCAACCATGGACGTATACCGCGGAACCGCTGCGGGAGTGCTTGCGATCGGCAGCACCCATACGCCTGCCACCTATCTGCTACCGCCGTTCCTGAAGCAGCTGAAGCTCAATTATCCGGGATTGTCGATCCTTATGGATGTCCGTCCTGCGGCCTATATTCTGGAAAAAGTCAAGAAATATGAACTCGATGTAGGCATCATTTCGAACACGCAAGTGGATGACCCGGAATTCATCGCGCAGCCGTTGATCCATGATGACCTGGTTCTTATATTCGCCCCGGATCATCCATTCGCAAGCCTAAACGATTTAATGCCCGGCGATCTGGTCGAACATCCTTTCGTTTCCCATGAACCGGGCTCTATCAGCAGGCAGCTTATTGACAACTGGGCAGACAAACATCGTCTACGTCTTCAAATATCACTGGAAATCTCGGGGACCGAGGCGCTGAAATCCGCCGTCCGGCACGGTCTCGGGTACGGCATGATTGCAGAAGCCGCCATACAAGAGGATGTGGCAGAGGGGAAGCTGCATGCACGACCTATTCCGTCCTGGTTGCCTGAACGTCAGATTTATGCGGTTCGACACCGCAATAAGCTGATCAGTCCGGCACTGCGCATGTTCTGGAGAAATCTTTTGGACAATTTTGCATGA	MNLQQFKVFVLTVELKKLYLVAQKLGITQPTVTFHLNKLQEELGLALFHTKSYHVIKLTEAGEAFYHYASQIHSLSEEASSTMDVYRGTAAGVLAIGSTHTPATYLLPPFLKQLKLNYPGLSILMDVRPAAYILEKVKKYELDVGIISNTQVDDPEFIAQPLIHDDLVLIFAPDHPFASLNDLMPGDLVEHPFVSHEPGSISRQLIDNWADKHRLRLQISLEISGTEALKSAVRHGLGYGMIAEAAIQEDVAEGKLHARPIPSWLPERQIYAVRHRNKLISPALRMFWRNLLDNFA				NA	NA	NA	NA	NA
AK002_04651	1362	dapE		Succinyl-diaminopimelate desuccinylase	ATGAGCGTTGATTATAAAGCGTATTTCGCTGAACACCGCGAAACCCATCTGAATGAATTGAAGGAATGGTTGTCCATTCCGAGCATTTCCGCCTTATCCGAGCACAAAGGCGATGTCGCCAAGGCTGCCGAGTGGCTCGCAGGCAAGCTGACCGAAGCGGGACTTGAGCATGTGGAGGTTCACCAGACGGCCGGGCACCCGATTATTACGGCAGACTACCTGCATGCCGAAGGCAAGCCGACCGTGCTCGTCTACGGCCACTATGACGTTCAGCCCGTTGATCCGCTTCATCTGTGGGAAACGCCGCCGTTTGAGCCGGCTGTCCGCAACGGCAAATTGTACGCGCGCGGAGCAACGGACGACAAAGGCCAGCTCTTCCTGCATGTCAAAGCCGTTGAAGCCATTTTGAAGCAAGAGAAGGAGCTTCCGGTCAACATCAAATTCTGCATTGAAGGCGAAGAAGAGGTATCCAGCCCCAACCTGCCGCTCTATCTTGACAACAACAAGGACAAGCTGGCGGCAGATGCCATCGTGATCTCCGATACATCCCTGCTCGCGCCTGGCAAACCGGCCATTTCCACGGGTCTTCGCGGGTTGTGCTCGCTGGAATTGTCCCTGGAAACAGCCAATACCGATCTTCATTCCGGTACATACGGCGGCGGCGTGCCGAACGCCCTGCACGCAATGGTGTCCTTGCTCTCCTCGCTCCATGACGAGCAGGGCCGCGTTGCGGTTGAAGGCTTTTATGACGGCGTACTTGAACTGTCGCCCGAAATGCGCGAGGAATTTGCCAAGCAGCAATTCGACGAGGATAAGCTGAAGCGGGACCTCGGCCTCGATTCCTTGTACGGCGAAGAAGGCTTCTCCTTCGTTGAACGCGTGGGAGCTCGTCCGACCCTTGAGCTGAACGGCGTATACGGCGGGTTCCAGGGAGAAGGCAGCAAAACGGTCATTCCGAAGGAGGCCCATGCCAAAATTACCTGCCGTTTGGTGGCCGATCAGGATCCGCAGGCTGTTCTCGACGCGATCGAGAAGCATCTGCATGCCCACATCCCGGTTGGCGCCAAGATCACCTTCCAGCCGAAGGAAAAGGCATTCGCCTTCAATATCGATCCGTCCCATCCGATGCTGCAAAAAGCTGCAGATGCCTTCGAGAACGTGTATGGCACACGTGCACTGTTCACGAAAGACGGAGGATCGATTCCGATCGTGGAGAAGCTGTCCAGCACGCTGAACGCCCCTGCCGTCATGATGGGCTTCGGCTTGCCGGACGAGAATCTGCATGCGCCGAACGAGCATTTTAATTTGGAGAATTTCGATAAGGGCTTGCTGACGATCGTAGAATATTTGAAGCTGGTATAA	MSVDYKAYFAEHRETHLNELKEWLSIPSISALSEHKGDVAKAAEWLAGKLTEAGLEHVEVHQTAGHPIITADYLHAEGKPTVLVYGHYDVQPVDPLHLWETPPFEPAVRNGKLYARGATDDKGQLFLHVKAVEAILKQEKELPVNIKFCIEGEEEVSSPNLPLYLDNNKDKLAADAIVISDTSLLAPGKPAISTGLRGLCSLELSLETANTDLHSGTYGGGVPNALHAMVSLLSSLHDEQGRVAVEGFYDGVLELSPEMREEFAKQQFDEDKLKRDLGLDSLYGEEGFSFVERVGARPTLELNGVYGGFQGEGSKTVIPKEAHAKITCRLVADQDPQAVLDAIEKHLHAHIPVGAKITFQPKEKAFAFNIDPSHPMLQKAADAFENVYGTRALFTKDGGSIPIVEKLSSTLNAPAVMMGFGLPDENLHAPNEHFNLENFDKGLLTIVEYLKLV				NA	NA	NA	NA	NA
AK002_04652	1140		COG1063	putative zinc-binding alcohol dehydrogenase	ATGAGAGCAGTCACATTTCAAGGCGCCAAAGACATTCAGGTCAAACACGTGGAGGATCCATCCATTCGGACCCAGGATGATATTATCGTCCGCATCACCTCTACAGCCATTTGCGGTTCCGATCTTCATATATACCTAGGGGCTATGCCCACAGCTAAAGATTTCGTGATCGGCCATGAGCCCATGGGGATCGTAGAAGAGGTCGGTGCCAACGTAACCCGCGTGAAAAAAGGCGACCGCGTCGTTCTTCCGTTCAATGTTTCTTGCGGTCACTGCTACTATTGCAATCATGATATGGAGAGTCAATGCGACAATTCCAATGGCAACCCGAATGTCCATGCCGGAGGGTACTTGGGTTACACCGAACGCTACGGAAGCTATCCCGGCGGACAAGCTGAATATTTGCGCGTGCCCTACGGGAACTTTATGCCGTTTGTCATACCGGAGTCGTGCGAGCTGGAGGATGAGGCGCTTCTGTTCTTGTCCGACGTTCTCCCTACCGCCTATTGGAGCGTAGAGAATGCCGGCGTTAAACCGGGCGATACCGTAACGGTGCTCGGCTGCGGGCCGGTTGGCCTGATGACCCAGAAATTCGCCTGGATGAAAGGCGCAAAACGGGTAATCGCCGTGGACCGTCTTCCTTATCGTCTGCAAAAAGCAAAACGGCTGAACAACGTGGAGATCTACAATTTTGAAGACTATGACGATATGGGCAAATACATTCGAGAGATTACCAAAGGCGGCACGGATATCGTGATCGACTGCGTCGGCATGGACGGGAAGAAGTCGACGATGGAAGCCATCGGCCAAAAGCTGAAGCTCCAGGGCGGAACGTTGAGCGCGATTGATATCGCGATCCAGGCCGTGCGCAAATTCGGCACCGTCCAGCTGACCGGCGTATACGGTTCGCTGTACAATATGTTCCCGCTCGGCCATATTTTTGAACGGAACATTACCCTTACCATGGGGCAAGCTCCCGTTATTCATTACATGCCGGAGCTGTTCAAGAAGATCACCGCCGGCGAATTTGATCCGACGGAGATTGTCTCCCACCGGCTTCCCCTGGAACAGGCAAGCGATGCCTATCGGATATTCAGCGATCACGAGGACGAATGCACCAAGGTCATTCTGAAGCCGTAG	MRAVTFQGAKDIQVKHVEDPSIRTQDDIIVRITSTAICGSDLHIYLGAMPTAKDFVIGHEPMGIVEEVGANVTRVKKGDRVVLPFNVSCGHCYYCNHDMESQCDNSNGNPNVHAGGYLGYTERYGSYPGGQAEYLRVPYGNFMPFVIPESCELEDEALLFLSDVLPTAYWSVENAGVKPGDTVTVLGCGPVGLMTQKFAWMKGAKRVIAVDRLPYRLQKAKRLNNVEIYNFEDYDDMGKYIREITKGGTDIVIDCVGMDGKKSTMEAIGQKLKLQGGTLSAIDIAIQAVRKFGTVQLTGVYGSLYNMFPLGHIFERNITLTMGQAPVIHYMPELFKKITAGEFDPTEIVSHRLPLEQASDAYRIFSDHEDECTKVILKP	PGPT0006355_791	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006355-frmA|ADH5|adhC-K00121	NA	NA
AK002_04653	372			hypothetical protein	ATGACATCAGCGGATATTCAGTTTGTCGGCGGAAATAATATTGCCATTAAAATTCCGAAGCACAAGTATGAGGAGACCGTGTTTTTTTACAAAGAGGTTTTACGGCTGCCATATTTGGGCTTCAAGGACGGGTCGCATGCTTTTCAGCACGGCTCGAATACCTTATGGCTGGATTGCATGCTCAACTATTCGCAGCAGGATGTTTGGCTCGAGGTCAACACGGAGGATCCGGAGGAGGCTGCCCGATATTTGAGAGAGCACAGTGTGGACCGCAGGGATGAGGTGGAGGTTTACGAGAACTCGCGGGGCTACTGGATATCGGATCCGTGCGGGACAATCATCCGGGTGAATCCCAGAAAAGCGAGTGAATAG	MTSADIQFVGGNNIAIKIPKHKYEETVFFYKEVLRLPYLGFKDGSHAFQHGSNTLWLDCMLNYSQQDVWLEVNTEDPEEAARYLREHSVDRRDEVEVYENSRGYWISDPCGTIIRVNPRKASE				NA	NA	NA	NA	NA
AK002_04654	936			hypothetical protein	ATGCGGGAAGCGATTCGTGATATCCCGGGGGCTGATGGATGGATTGTCATTCAAGCGGTTGACAAGGGCTGGTCGGCAGATCGTAAATATTATATTCAGGATATGCAAGGGAAGGAGTGGCTCCTCCGGCTATCCGACATCTCTCAGTTCGAGAGGAAGAAATGGGAGTTTGAAACGGTAAAACAGCTGGATCCCATCGAAATGCGCACGTCTCGACCGATGGATTTTGGCGTCTGTCATGGTGGCCGGCAAGTGTATTCCCTGTTCACATGGGTTCCGGGCGAAGATGCAAGGGAGGCGATTCCTTTGCTGGATTCAGAGGAGCAGTACCGGCTTGGCGTTCAGGCAGGCGCATATTTGAACAGGATGCACGGTATTCCGGCAAAAAGCGGTTTGGATACGTGGGCGTCATATTATAATTCAAAAATGGATAGATACATAAAAAATTATGAGAGCTGCGGCATCCGGCTTGCCGGCGCTGAGAACATCATCCGTTTTATGGAGGCGCACCGGTATTTGCTAGAAGAGCGTCCCGTTGCTTTTCAACATGGGGATTATCATGTCGGCAACATGGTGGTTACGCCTGAAGGGGAACTCGGCATCATTGATTTCAACCGGGCGGACTACGGTGATCCTTGGGAGGAGTTTAACCGGATTACGTGGGATGCCGCGATTAGCCCGTGGTTCGCTTCGGGTCGTATTCATGGATATTTCCAAGGACGAGAGGTGCCGGATTCATTTTTCAGATTAATGGCGCTTTATATCGCAAGCAATCAGATTTCCTCCATTCATTGGGCCATCCCGTTCGGAGAGCAGGAAGTGGAGGTTATGATGAACCAGGCTCAAACCGTACTGAATGGGTATGATGGATTCCGGACGCATGTGCCCAATTGGTATATAACGAAAGCCGAGGTTTTGGCAAATCGCCGCGAATAA	MREAIRDIPGADGWIVIQAVDKGWSADRKYYIQDMQGKEWLLRLSDISQFERKKWEFETVKQLDPIEMRTSRPMDFGVCHGGRQVYSLFTWVPGEDAREAIPLLDSEEQYRLGVQAGAYLNRMHGIPAKSGLDTWASYYNSKMDRYIKNYESCGIRLAGAENIIRFMEAHRYLLEERPVAFQHGDYHVGNMVVTPEGELGIIDFNRADYGDPWEEFNRITWDAAISPWFASGRIHGYFQGREVPDSFFRLMALYIASNQISSIHWAIPFGEQEVEVMMNQAQTVLNGYDGFRTHVPNWYITKAEVLANRRE				NA	NA	NA	NA	NA
AK002_04655	498			hypothetical protein	ATGAACATGAGCAAAGCGGATTTTACGACAGAATGGTTAAAAGAGGCGCATATAACGGAACAAGTCATGAACGCTTTAACCGACGATTCGCTTAAAACCGCCATGACGGAGCAGCATCGCACGCTAGGTCAGCTGGCGTGGCATTTGGTTATGTCGATTCAGTACATGACCATGCTCGGTTTGCAATTTGAGGGCCCGTCCCGCGAGCAAAATATTCCCGATTCGGCTGCCGAAATGACCGACAGCTACCGCCGGATCCGGCATGCCCTTCTGGATGCGGTTCAATCGCAGTGGAGCGAGGAGGATCTTCGCGCTACCCGTGAATTCGACGGAGAGCCTTGGACCAATGCGGCATTCCTGCATTTTACCCTGGTTCATCAAGCGCATCACCGCGGACAAATGACGGTGCTGATGAGACAAGCCGGCCTGCGGATTCCCGAGCTCTACGGTCCGACCTACGATTCCTGGATCGACAAGGGCATGGACCCGCTCGTATAA	MNMSKADFTTEWLKEAHITEQVMNALTDDSLKTAMTEQHRTLGQLAWHLVMSIQYMTMLGLQFEGPSREQNIPDSAAEMTDSYRRIRHALLDAVQSQWSEEDLRATREFDGEPWTNAAFLHFTLVHQAHHRGQMTVLMRQAGLRIPELYGPTYDSWIDKGMDPLV				NA	NA	NA	NA	NA
AK002_04656	993			hypothetical protein	ATGTCCAAAGCGGATAATATGCTGTCGATCCTGTGGATGCTTCGCTCGGGCAAAAAAATGACCGCGCAGCAAATCGCCGATGAGCTGGAAATTCATGTTCGAACGGTGTACCGCTGCATCGATTCGTTATGCGCCAGCGGCGCGCCCATCATCGCCGATTCCGGGCCGAACGGCGGCTTTCGGATCCTCGGGCAGTTTACGGAATCCCCGCTGATGTTTGACGCTGAAGAGCAGAAAGCATTGGTACACGCTTCGATCTTTGCCAAAGAAACCGGCTATCCGTTCACGGACGCGCTGGAGCGGGCGATCGGCAAGCTGAAGCTTTATACGAACGAGGAGCAGCTTCATCAGATCGAACGGCACAGCAGCGGCATCGCGGTTTTGCAGCCTCCAGTCCATGACGGGCTTCGCCCGCTGCTGCAGACGCTGGAGAATGCCGCGGCACAGGGACAAACCCTGAAGATGACGTATTCGAAGGGCCGGGAAGGCGCCGGAACCGTCCGAGAGTTCGATCCCTACGGCATTATCCACTGGAAGGGCCAATGGTATGCTGCGGGCTACTGCCGTCTGCGCCAAGAGATTCGCAATTTTCGCGTAGACCGGATCCTCGATCTGGAGACGACAGCACTGGTCTTTGAGCGGCCCGTTGATTTTTCGGCCAGGGATGTCTTGCTTGGCAGTCTTCTCCCGGATCCAGGCAGCACGGAACCCTTGGTCGATGTTGTCATCCAAGCCCACGAGCATGTTCTGAATGAATTGAGCCAGCATTGGTTGTTTGGGCATACCCTCGTATCGCGTCATGATGGAGAGGCTCGTTTCCGGCTGGACACGTCTTCGCTGACGTCCTATGTGCCCTACTTCCTTCTCCCCTACGGCAAAGCTTTAACCATTCTGGAGCCCGCTTCGCTCGTCCTGAAACTGTCCGAGATCACGACAAGCTTGGCGCTCCATTACGAACGCATGTTAACCGGCATGACCAAAAAGGAAGGATGA	MSKADNMLSILWMLRSGKKMTAQQIADELEIHVRTVYRCIDSLCASGAPIIADSGPNGGFRILGQFTESPLMFDAEEQKALVHASIFAKETGYPFTDALERAIGKLKLYTNEEQLHQIERHSSGIAVLQPPVHDGLRPLLQTLENAAAQGQTLKMTYSKGREGAGTVREFDPYGIIHWKGQWYAAGYCRLRQEIRNFRVDRILDLETTALVFERPVDFSARDVLLGSLLPDPGSTEPLVDVVIQAHEHVLNELSQHWLFGHTLVSRHDGEARFRLDTSSLTSYVPYFLLPYGKALTILEPASLVLKLSEITTSLALHYERMLTGMTKKEG				NA	NA	NA	NA	NA
AK002_04657	288			hypothetical protein	ATGTACGGGAAATTGATCGCCCATCCCGGCAAACGGGATGAACTTGCGGAGATCCTGCTTGAAGCAGCCGCGATGCTTCGCGATAACGAAGACTGTGAGCTTTATATCGTCAACGTCTCGGACAGCGATCCGAATGCCGTATGGGTCACGGAATTGTGGAGCAGCCAAGACGCGCATGCCGCTTCCCTGCAGGGAGCGGATACGTCCGAGCTGCTGCAGCGCGGGCGGGCGCTGATTGCCGGCGCAGAGCCGCTCAGGCTTAAGCCGCTTGGGGGCAAAGGGTTTTAG	MYGKLIAHPGKRDELAEILLEAAAMLRDNEDCELYIVNVSDSDPNAVWVTELWSSQDAHAASLQGADTSELLQRGRALIAGAEPLRLKPLGGKGF				NA	NA	NA	NA	NA
AK002_04658	828	araC_7		Arabinose operon regulatory protein	ATGAAGAATGAACGAAATAAACATGAAGCCATTCAGCAGATGCTCCTGAACATGCAGGTTCAGATCTGGGAGGCCGAAAGAACGCAGTGCTGGCCGGAATGGAAGGAATTCGACTACACCGTGTCGTACAACAAGCTCTATTTTATCCTGGATGGGGAAGGGTGGGTGAAGATCGGCGATGAGGAGCTGTATCCCGTACCGGGTCAATTGGTTCTGATGCCGGCACGGACGCGGCAATCCTACTCTGTCATCAGCGGCCGTCCCTATCTTAAATACTGGTCTCACTTCTCGGCGACCGTGGGCGATTCCGATGTGTTTTCCTGGCTGAACGTGCCCCATTGCTACGATTTGTCGGGGAACGCGGAGATGCCTGCATTATTCCAGCAGCTCGTCGATGCGCATCGCTCCGATACCCTCGCCGCGCGATTGAGGGAAAAGTCCGTGATGCTGGACATCCTCTCCCGCGTGTTCGAACACCAGCAGCCGCAGATTCATGCGGACAAAATGGAGGATATGGGCAGGCTCCACAAAGTGCAGCAGTACATCAAAAATCATCTGCATGAGGAAATTACACTGGAGCAGATGGCGGGAACGCTGCATTTGCACCCGAATTATTTTATTAAGTATTTCAAACGGCATTTCGGAATCACGCCGCAAAAATATTTAAGCCTCAAACGAATGGAGCAGGCCAAACTCATGCTGAGGACGACGTCTCTAAGCATCAAGGAAATTGCGGATGCCACCGGCTTTGAATCGGCGAACTATTTCTCGAAAACGTTTCGGAAAGAGGTAGGCTACAGCCCCTCGGAATATCGTAACAATATATAG	MKNERNKHEAIQQMLLNMQVQIWEAERTQCWPEWKEFDYTVSYNKLYFILDGEGWVKIGDEELYPVPGQLVLMPARTRQSYSVISGRPYLKYWSHFSATVGDSDVFSWLNVPHCYDLSGNAEMPALFQQLVDAHRSDTLAARLREKSVMLDILSRVFEHQQPQIHADKMEDMGRLHKVQQYIKNHLHEEITLEQMAGTLHLHPNYFIKYFKRHFGITPQKYLSLKRMEQAKLMLRTTSLSIKEIADATGFESANYFSKTFRKEVGYSPSEYRNNI	PGPT0017485_657	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_04659	1350			hypothetical protein	ATGACAACGACTACCACTCCAACCAATCAAGTCATCCATGATCGAAACCAGCGCGTGCAATGGTTCCAGAACGACCGTTTCGGCATGTTCATTCACTGGGGGCTTTACTCCATCCCGGCCCGAGGCGAATGGCTCCGAAGCACGGAACAGATGAGCATCGAGGACTATCAGGCCTATTTCGATGAATTTGATCCCGTTGACTATAATCCTCGGGAGTGGGCCAAAGCGGCCAAGAAAGCAGGCATGAAATATGCGGTGCTGACGGCCAAGCATCATGACGGATTCTGTTTGTTCGACAGCAAGCTGACGGAATATAAGTCAACGAATACCAAAGCCGGCCGGGATCTCGTGCAGGAATTTCTGGAAGCTTTCCGTGAAGAAGGCCTTAAAGTCGGCCTCTATTTCTCGCTGATCGACTGGTATCATGAGGACTACCCGGCTTATGGAGACCGGATTCACCCGATGCGGGCGAACGAAGCCTTCAAGCGCGATCCGAAAAACTTCGACCGATACCTGGATTACATGCATGGGCAGGTGCGTGAGCTGCTCACAGGCTACGGCAAACTCGATATCATGTGGTTTGACTTCTCTTATGATAACATGCGCGGCGAGGTGTGGCGCGCCACCGAACTAATGAAAATGATCCGCGAGCTTCAGCCGCACATTCTTATCGACAATCGGCTGGAGGGAAGCGGCGAGAGCGGCGGCAGCATCTATACCACCGATCCGTCCGTATACAGCGGCGACTTCGCGTCGCCGGAACAGATCATTCCGCCGCACGGGGTTGTGGACCAGACAGGTGCCCCGATTCCATGGGAAGCCTGTATTACGCTGAACAACAACTGGGGTTATGCCGCAGCTGACCGCAATTACAAATCGGCAACCACCATCATCCGCAAGCTGGTGGAATGCGTCAGCAAGAACGGCAACATGCTGTTGAACGTCGGTCCTGACGCGAAAGGCTCCATCCCGAAAGAGAGCCTCGACGTGCTGGAGGAAATCGGCGACTGGATGAGCAAGAACGGAGACAGCATCTATGGCTGCGCGGCTGCCGATTATCCGAAACCGGAGTGGGGTCGTTATACCCAAAAAGGCAATACGCTCTATGCCCACGTCTTTGAGGAGTCTATAGGACCGATCAATCTCATCGGCATGGCCGACAAGGTGAAGAAGGCCCGGCTGCTCGCGGACGGATACGAATTGTTCCTCAGCCGCCCTTGGAGCGCGGCCGAATTCGTCGAAGACGCATTCGTGAACTTCGCGCGTCCTGAACACTTTACCTATCCGCTCCCCGACAAACGCAATACCGTCATTGAACTGGAGCTTTATGACGAATCGGACCGTTCGTAA	MTTTTTPTNQVIHDRNQRVQWFQNDRFGMFIHWGLYSIPARGEWLRSTEQMSIEDYQAYFDEFDPVDYNPREWAKAAKKAGMKYAVLTAKHHDGFCLFDSKLTEYKSTNTKAGRDLVQEFLEAFREEGLKVGLYFSLIDWYHEDYPAYGDRIHPMRANEAFKRDPKNFDRYLDYMHGQVRELLTGYGKLDIMWFDFSYDNMRGEVWRATELMKMIRELQPHILIDNRLEGSGESGGSIYTTDPSVYSGDFASPEQIIPPHGVVDQTGAPIPWEACITLNNNWGYAAADRNYKSATTIIRKLVECVSKNGNMLLNVGPDAKGSIPKESLDVLEEIGDWMSKNGDSIYGCAAADYPKPEWGRYTQKGNTLYAHVFEESIGPINLIGMADKVKKARLLADGYELFLSRPWSAAEFVEDAFVNFARPEHFTYPLPDKRNTVIELELYDESDRS	PGPT0018775_2394	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_04660	885	drrA_5		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGAGTAACTATGCTGTTGAAATTCGTCAGCTTCGCAAAAGCTTTGGACACCAGACCGTATTGGACGGGATCGACCTGAGCGTGCCGCGAGGAGACGTATTTGCTCTTCTCGGTCCTAATGGGGCCGGCAAGACAACCTTGATTCACATCCTGTCCACGTTGGTGACGCCCGATGCCGGGAGCGTGAGGATTAATGGGTTCGATCTCCGCGATCACAAGCAGGATGTGCAGCGGTCCATTAGTCTGACCGGCCAATTCGCGGCCGTTGACGAAGTGCTGACCGCCGAAGAAAACCTTAGGATGATATGCAGGCTGTCGGGTCTATCCGCGGCGGAAGCCGGACAGAGAACCGCCGAGCTGCTGGAGCACTTCGATCTGGCGGCTGCAGCGGCCAAGCGAGTGAAGACGTATTCCGGCGGGATGAAGAGACGGCTTGATCTGGCGATCAGCCTTGTCGTGCCGCGGCCCGTGCTGTTCCTCGATGAACCGACCACAGGACTTGATACGCGCAGCCGCCGTGCGCTGTGGGATATCATCCTTCAATTGAAGAGCCAAGGCATCACCATCCTGCTGACCACGCAGTATTTGGAGGAAGCCGACCAGCTCGCGGACCGGATTGCGGTTCTGGATGGGGGACGAATCGTGGCTGAAGGTAGTCCGGCCGAGCTGAAGACCCGGGTCGGTGGTGAAATGCTGGAGCTTCGCGATGCACGTGACGAAGTGATCCATAGGATCCCGACAAGCGGCAGCATCGGCGACGTCGCGCATACGCTTCAGGAGTTCATACGCTTGCTCCCGAATGAGACGCGCGTAAGTCTTCACAGACCCAATATGGATGATGTATTCCTGTCGCTTACCGACAAGGAAATGGAGGGAATTGTATGA	MSNYAVEIRQLRKSFGHQTVLDGIDLSVPRGDVFALLGPNGAGKTTLIHILSTLVTPDAGSVRINGFDLRDHKQDVQRSISLTGQFAAVDEVLTAEENLRMICRLSGLSAAEAGQRTAELLEHFDLAAAAAKRVKTYSGGMKRRLDLAISLVVPRPVLFLDEPTTGLDTRSRRALWDIILQLKSQGITILLTTQYLEEADQLADRIAVLDGGRIVAEGSPAELKTRVGGEMLELRDARDEVIHRIPTSGSIGDVAHTLQEFIRLLPNETRVSLHRPNMDDVFLSLTDKEMEGIV	PGPT0006725_17140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_04661	798			hypothetical protein	ATGATAAGAGCAACGGCAACGGCTACAAAAACAAAAACAACGTCCTTAGCAGTTACCCAGTCCGTCTTTATCGGCCGCAGCCTGCGTCACAGCATCCGCAACGCGGAGGCGATGATAACGGCGATGGTGCTGCCGATCATGTTGATGCTGCTGTTCACCTATGTATTTGGCGGTGCCCTCGATCCCAGCGGACAGTATGTTAATTACGTGGTGCCAGGAATCATTCTGTTGTGCGCCGGCTTCGGATCGTCCAGCACGGCCGTCGACGTCTCACAGGATATGACCAATGGCATCATTGACCGCTTCCGCACCATGCCCATTCAAAGCTTAAGTGTCATTACGGGACATGTGGTCGCCAGCCTTGCCCGGAACATGCTTGCGACAGGCGTTGTTATCGCAGTGGCTCTGCTCGTTGGATTCAGGCCATCAGCTGGGCTTATGGATTGGTTACTCGCCATCGGCTTGATCGCGCTCTTCATCTTTGCCTTCACCTGGCTCTACGCCGCTATCGGTCTCGTTGCAGGCAGTCCGGCAGCGGCCAGCAGCTATGGATTCATCCTGCTCTTTCTCCCTTACCTCTCCAGCGCTTTCGTTCCTACCGAGACGATGCCGGCTTGGCTGCAAGGGATCGCGAGCAACCAGCCGATTACGCCGGTCATCGAATCCATTCGCGGATTGCTGACGGGAGGCTCCATCCAGGATCAGATCGGATGGGCGATCGGATGGTGCCTGTTCATCCTGATTGGCTCGATGGTATGGAGCATGTGGACGTTTAAGAGGAAAGCCGGACGACGCTAA	MIRATATATKTKTTSLAVTQSVFIGRSLRHSIRNAEAMITAMVLPIMLMLLFTYVFGGALDPSGQYVNYVVPGIILLCAGFGSSSTAVDVSQDMTNGIIDRFRTMPIQSLSVITGHVVASLARNMLATGVVIAVALLVGFRPSAGLMDWLLAIGLIALFIFAFTWLYAAIGLVAGSPAAASSYGFILLFLPYLSSAFVPTETMPAWLQGIASNQPITPVIESIRGLLTGGSIQDQIGWAIGWCLFILIGSMVWSMWTFKRKAGRR	PGPT0006730_15294	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_04662	801			HTH-type transcriptional repressor	ATGTCTAACGATGAGACGATAGATCCGGATATTGGATCTAAACTGCCCAGAGGGGCGGCTCTTAGCTGGGGATTGGTAAAGCCGCCGCAGCGGGGACCGAAACGGGAGATGAGCCTTTCGCAGATTGTGGAGACGGCCATCGACATCGCCGATAAAGAAGGGCTTTCAGCTGTCTCCATGAATCGAATTGCGTCCACTTTGGGTTTTACCGCCATGTCGCTGTACAGGTACATATCCAGCAAGGACGACCTTTTGGTGCTGATGCAGAACGCCGCGTGCGATATTCCCATTCCGCCGGAAGATTCTGCTGACTGGCGCGAGAATATGCGGGTCTACGTCAAATTGACGATGCAGGTATTCCGGAATCACCCGTGGTTCGGAGACATTCCAATTACGGGTATTCCCATTACGCCGAACAATCTGCGATTTATCGATTGGGGTCTGCGGTTCATGAAGGATCTCCCGCTGAATGATTATGAGCGGATGTCTTTGATACTCTTGTTAAGCAATTACGCTAGATCAAGCGGCATGATGCAGCGGGATATGGACCGCGCCATACAGGCAGGCTCCACCCCGGAACAGTTTAGTGGACTTGATTATACGGCAGCGCTGAAACAGCTTATGAAGCCGGATCGGTTTCCGTTCCTGTACCCGGTAGTGATGTCGGGGGTCTATACGGAAGACAGCGAGGAAGTGAATCCGATAGGCAATGACATTGATTTCGGGTTAGAACGCATTTTGGATGGCATCGAGCAATATTTTCAAGCCAAGAAACAACAGGAACCCTCGGACAAGCCATGA	MSNDETIDPDIGSKLPRGAALSWGLVKPPQRGPKREMSLSQIVETAIDIADKEGLSAVSMNRIASTLGFTAMSLYRYISSKDDLLVLMQNAACDIPIPPEDSADWRENMRVYVKLTMQVFRNHPWFGDIPITGIPITPNNLRFIDWGLRFMKDLPLNDYERMSLILLLSNYARSSGMMQRDMDRAIQAGSTPEQFSGLDYTAALKQLMKPDRFPFLYPVVMSGVYTEDSEEVNPIGNDIDFGLERILDGIEQYFQAKKQQEPSDKP				NA	NA	NA	NA	NA
AK002_04663	168			hypothetical protein	ATGATCATGGATCACGACTGGATCACCAGTTATGGCTCGCAGGAGAAGATGAGCATTCAGATCAGCTTTCCTTCCGAGGGGGGGCGAAGCCGGCAGCTCTCTGCAAAGACTCTGATTCGCCCTCTATACCTATGGATGATGAGATATGTTATACTGTTTATAATATAA	MIMDHDWITSYGSQEKMSIQISFPSEGGRSRQLSAKTLIRPLYLWMMRYVILFII				NA	NA	NA	NA	NA
AK002_04664	741			putative oxidoreductase	ATGTCTAGCGTAAAAGGAAAAGTCGTGGCCATTACAGGCGCGAGCAGCGGGATCGGCGAAGCGGCGGCCCGGCTGCTCGCTCAGCATGGCGCACATGTGGTGCTCGGGGCGAGAAGAACGGACAGGCTGGAGACGCTGGCTGCTGCATTGAATAGGGAAGGCGGCTCAGCCGTTTACCAATCGCTGAATGTCGTTCATATGGATCAGATGGAATCCTTCATCGACTTGGCGGTGAGCCGATTCGGGCGGGTGGATGTCATCCTCAACAATGCAGGCATCATGCCTCTATCTCCCTTGGAAGCCTTGAAGGTGGACGAATGGAACCGGATGATCGACGTGAACGTCCGCGGCGTCCTGCACGGCATAGCGGCAGGGCTGCCGGTGATGCAGAAGCAGGGCTTTGGTCAATTTATCAATATCGCTTCGATCGGTGCGTATGAGGTATCGCCTACCGCTGCCGTTTATTGTGCCACCAAGCATGCCGTTCGCGCAATCTCGGAGGGCCTGCGCCAGGAGGTCGGCAGCAGCGGTATCCGGGTTACGCAAATATCGCCGGGCGTAACGGAGTCGGAGCTGGCCGACGGCATTTCCGATGGTACGGCCAGACAAGTCATGAAGGAGTATCGAAGAATATCGATCCCGGCGATATCGATTGCGCAAGCGATTGTGTATGCCATCGAGCAGCCGCCGGAAGTCGATGTGAATGAAATCATCATTAGGCCAACTGCATCAGGGAGCTAA	MSSVKGKVVAITGASSGIGEAAARLLAQHGAHVVLGARRTDRLETLAAALNREGGSAVYQSLNVVHMDQMESFIDLAVSRFGRVDVILNNAGIMPLSPLEALKVDEWNRMIDVNVRGVLHGIAAGLPVMQKQGFGQFINIASIGAYEVSPTAAVYCATKHAVRAISEGLRQEVGSSGIRVTQISPGVTESELADGISDGTARQVMKEYRRISIPAISIAQAIVYAIEQPPEVDVNEIIIRPTASGS	PGPT0021285_327	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
AK002_04665	264			hypothetical protein	ATGAATACAGCTCTTGATGCGAATGGGTCGAAGCATCCCTATGCAGGCATGTGGGTTACGAAGGACGGATATATCCGCCACGAGCTGCTCCCGAACGGGCGTTACGATGAAGCAAGAGGACTGCGGCAAAGCGCCTATCAAGGCCGCTATTTCATGGAAGGCGATCACATCGAATATGTGGATGATACCGGGTTCACGGCCGACGGCGATTTTCGGGACGGCGTTCTCTATCATGCCGGAATGGTATTGTATCGGGAAATTTAA	MNTALDANGSKHPYAGMWVTKDGYIRHELLPNGRYDEARGLRQSAYQGRYFMEGDHIEYVDDTGFTADGDFRDGVLYHAGMVLYREI				NA	NA	NA	NA	NA
AK002_04666	924	rhaS_13		HTH-type transcriptional activator RhaS	ATGTACAACCATGAAGGAAGCCATCTGCAGAACGAACTTGCAGGATACATAGAAAAATACACGGGCATGGACGGTACATATGGTACGCCGATACCCGCTCTACATTTTATACGGGCATCCAGCGAGACGGAATTGGTCCACACGATTCATGAACCCGCGCTATGCATCGTGGTCCAAGGGCGTAAATTAATCATGCTGGCACAAGAATGCTATGTTTACGACCCGTCCAGCTATCTTGTCGTCTCGCTGCAGCTGCCCATATCCGGCCAAGTTATCCAGGCGGCGCCGGAGCGGCCTTATCTGTGTCTCCGGCTGGACTTTGACAAGCTTCAGATTTTCGAGCTAATCAAATCCGGCCAAGAGACCCCTCCCAAGAAATCCGGCTCCCCAAAAGCCCTGTTTGTCAGCCCGATGAATCAAGCGCTGCTGGATGCCGTCGTCCGCCTCGTGCGCCTTCTGGATACGCCGGAGGATATTCCCGTCCTGGCCCCCCTCTTCACAAAGGAAATTCTTTATCGAATCCTTCAAGCCGAGCAAGGGCAATCCCTGAAGCAGTTTGCCGTCAGCGGCAGTCATGCGCAGCGTATCGCGGCGGCTGCCCAGTTGATCGAGCGTGATTATAATCAGCCCTTGCACATCGCCAAACTGTCCGCGGCCGTCAATATGAGCCCTTCTTCGCTTCATCATCACTTCAAGGAAATCACCGCGATGAGCCCGCTTCAGTATCAAAAGCAAATCCGACTGCAAGAGGCCAGGCGTCTCCTGCTCTCGGAAACCTCCGCGGCGGCCGATGCCGGATTTCAGGTCGGCTATGAGAGCCCCACCCAGTTCAACAGGGAATATGCCCGCATGTTCGGATTGCCTCCGATCCGGGATATCAAACGTCTTCGCGACTCATTGGATTTCGGCACACACGGAACCTGA	MYNHEGSHLQNELAGYIEKYTGMDGTYGTPIPALHFIRASSETELVHTIHEPALCIVVQGRKLIMLAQECYVYDPSSYLVVSLQLPISGQVIQAAPERPYLCLRLDFDKLQIFELIKSGQETPPKKSGSPKALFVSPMNQALLDAVVRLVRLLDTPEDIPVLAPLFTKEILYRILQAEQGQSLKQFAVSGSHAQRIAAAAQLIERDYNQPLHIAKLSAAVNMSPSSLHHHFKEITAMSPLQYQKQIRLQEARRLLLSETSAAADAGFQVGYESPTQFNREYARMFGLPPIRDIKRLRDSLDFGTHGT				NA	NA	NA	NA	NA
AK002_04667	834	sugB_2	COG0395	Trehalose transport system permease protein SugB	ATGAATGCCAAACAACGTAAATTAGTCTATCGAATTCTGCCGTATGCGATCCTTGCGGGGATCGGCATTTGCTTCGTGCTGCCGCTGCTCTGGGTGCTTGTGGCTTCCGTCGATCCGAATGCAATGCAATCCCTCAAAGTGCCCAGCAAGATTACCGGCGCCAATTACGTAGAGGTGATTACCAGCAGCGAGAACCAGCGCGCTTATCTGATCGGCCTGGTGATGTCGCTTGGCCAAGCCGTATTGGTCGTCCTGCTGGCGCTGCTAGCGGCTTACCCGTTATCCCGTTATCAGATGAAATATAAGAAGCCCTTCATGCTGACCATTCTGTTCATGACCTCGCTGCCGATTACGGCCGTTATGGTCCCTGTCTACCAGCTGTTCCTGGGATTAAAGCTGTATGACAACATTTTTGGCGTCATCTTGTTCTATGTAGCGTCGTCCATGCCGTACGGGATATGGATGATGAAGAATTTCATGGATTCCGTGCCGAGCGATCTGGAGGAAGCCGCCTGGGTGGACGGGGCCTCGGTGTTTACGGGGATCCGCAAGGTGGTGGCGCCGCTGATGGTCCCGGGGATATGCACGGTGGCCATCTTTACGTTCTCGGGCAGCTGGGGTAATTTTTTCGTTCCGTATATCTTGCTGCAATCGCCCGAGAAGTTCCCGGCTTCCCTGAAGCTGTACCAGTTCTTCGGTCAGTACGGCATGGTCGACTACGGCAGCCTGGCGGCCTTCTCGGTGCTGTACGCCATCCCGGCGATCATCATGTATATTCTATCCCAGCAGTTTATGTCCAAGGGCTTCGGGCTGCAGGGCGGAACGAAAGGATAG	MNAKQRKLVYRILPYAILAGIGICFVLPLLWVLVASVDPNAMQSLKVPSKITGANYVEVITSSENQRAYLIGLVMSLGQAVLVVLLALLAAYPLSRYQMKYKKPFMLTILFMTSLPITAVMVPVYQLFLGLKLYDNIFGVILFYVASSMPYGIWMMKNFMDSVPSDLEEAAWVDGASVFTGIRKVVAPLMVPGICTVAIFTFSGSWGNFFVPYILLQSPEKFPASLKLYQFFGQYGMVDYGSLAAFSVLYAIPAIIMYILSQQFMSKGFGLQGGTKG	PGPT0016540_7013	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_04668	891	melD_11	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAGCAGTCTGTCCGTGGACGTTTACCCGAAACGAAGAAAAACGTATACCTGGCTCTTTTTTTTGCTGCCTTCAATCGCGATTATGCTCGTGTTTTTTATATATCCCATCCTGTTAACATTCTTCTATTCCTTCACCAATTTGGCCTTGACCGGGGAAGCGGCGAGGGAGCTCAAATTTATCGGCCTCGACAACTATACCCGGATGTTCCAGGATCCCACGGTTCGGATCAGTATCTGGAACACGCTGGTTTTTCTTATCGGTTCGGCGGTGATCGGGCAGCAGGTGCTGGGATTTCTGATTGCGCTGCTGATGAAGCAGAGGAACAAGACGTTTCGGCGAGTGATTGGAACGATTGTGCTTGCGGGCTGGGTAACGCCCGAGATCGTGTGCGCCCTTTGTCTGTACAGCTTCTTCGGGGATGAAGGCACGCTGAATGCGATTATCACATTTTTCGGATTTTCGGAAGTGACCTGGTTGTTTACCGTACCGATGCTGACGATCATTCTTGCGAATATTTGGCACGGCACGGCCTTCTCGATGCTGGTATTTCAAGCCGCGCTGGATGACGTGCCAAACGAAATCGAGGAAGCGGCGGTAGTGGATGGAGCCTCGAAGTGGAAAATTTTCACGCGCATCATCATCCCTTACATCAAAAGCACCATTACCACGAATATGATGCTGGTTACTTTGCAGACGCTCGGGGTGTTCGGGCTCATCTATGCGATGACCGGAGGCGGTCCGGGCAACTCCACGACGACCCTGCCGATCTTTATGTACAATCAGGCGTTTGTGAACTATCAATTAGGCTATGGAACCGCTATTTCGCTGCTGCTGCTGTTGATCGGGATTGTGTTAAGCCTCCTGTATATCAGGTCGATGAAAGAGTAA	MSSLSVDVYPKRRKTYTWLFFLLPSIAIMLVFFIYPILLTFFYSFTNLALTGEAARELKFIGLDNYTRMFQDPTVRISIWNTLVFLIGSAVIGQQVLGFLIALLMKQRNKTFRRVIGTIVLAGWVTPEIVCALCLYSFFGDEGTLNAIITFFGFSEVTWLFTVPMLTIILANIWHGTAFSMLVFQAALDDVPNEIEEAAVVDGASKWKIFTRIIIPYIKSTITTNMMLVTLQTLGVFGLIYAMTGGGPGNSTTTLPIFMYNQAFVNYQLGYGTAISLLLLLIGIVLSLLYIRSMKE	PGPT0016535_6960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_04669	1401			hypothetical protein	ATGAAGTCAGGCAAGAGGGGGATTTGGCTAGTAACGACGGCTTTATTAAGCGTTTCTTTGTTATTCGGTTGTACCGGTGGCAAGGGAACGCCGGCCGATACCGGCGATCCGGAGCCGGGAAAGGACGGAGAGACGGCCAAGAAAATCATTACCGTTACGTTTCGGGATGACGGGATCGGCGAGAACGGAGCGTTCTATAAATGGCTTAAGGAAGTGTCGGCCAGTTACCCTGACAAAAGCGTAGAGATTAAGCCGACACCGATTCAGGCATCGGAAGGCGATTATTTTGCCAAGGTGGCCCTGGCGCTGAAATCCAAAGATACGGCGCCCGATATCGTGACGGAAGATACCTTCATCTTGAACTCGGATGCCAGCGCCGGCTATTTGGAGCCGCTCGATGATAAATTGGCGGGATGGGAAGACTGGGGCAACGGCTCCTTCATCGAAGCGATGAAGAAGGGGGTCACTGCCAGCGATGGCAAGGTATATGGCGTGCCGTACAACACGGATTCCAGGGGCCTTTGGTATAACAAGGATATTTTCAAACAAGCGGGTCTTCCGGAGGATTGGCAGCCTAAGAATTGGGAGGAGGTCTTAAACGCTGCGCGAACGATCAAGGAGAAGGCGCCTGACGTTGTACCGATCTGGATGAACATGGGCAAGGCTACAGGCGAAGCAACCTCCATGCAAACCTACGAGATGCTGCTCTACGGAACGGGTGAAAGGCTGTATGACGATGCCAGCAGCAAATGGATTACGAAAAGCCAGGGCATTCTGGACGCGCTGACTTTTGTGGAAACGGTCAACAAAGAGAAGCTGGGACCGCCGCTCTCCAAAGTATTGAACGGCCAGGCAGGCAACACGGCTTCCCGCGAATACCTGCCGCAGGGCAAACTGGCGATTTCGCTGGACGGTTCCTGGATCACGGGCAACTATATGGAAACAGGCGCGGCGCCATGGCCTGAATACAAAGACGTGCTCGGCTTTGCGCCGATGCCGACCAGCCAAGGGCAGGAGCCCGGCTCGATCACGCTGGCCGGAGGCTGGGCGCTGTCGATTCCAAGCAATTCCAAGAACAAAGACGAGGCATGGGAATTTATCAAGTTTGCGCTCGGCAAGGAAAATACCCAGAAGCTCGTCATGTCCTCCGGCAATATTACGGTGCGTGCCGATGTTGCCAAGGATCCGGAATATACGAAAATGCCGTTTAACGAAATCGCGACCGAATACCTGCAGAACGCAGAGTTCAGACCGGCACAGGAGAAGTATCCGGAAGTGTCGACGCAGATCCAGACGATGGTGGAATCCGTAGCAACGGGAACGTCGCCTGCGGATGCCATGAATAAATATGCGCAGGATGTTACCCGCATTGTTGGTGCGGATCATATCGTGGAGAAATAA	MKSGKRGIWLVTTALLSVSLLFGCTGGKGTPADTGDPEPGKDGETAKKIITVTFRDDGIGENGAFYKWLKEVSASYPDKSVEIKPTPIQASEGDYFAKVALALKSKDTAPDIVTEDTFILNSDASAGYLEPLDDKLAGWEDWGNGSFIEAMKKGVTASDGKVYGVPYNTDSRGLWYNKDIFKQAGLPEDWQPKNWEEVLNAARTIKEKAPDVVPIWMNMGKATGEATSMQTYEMLLYGTGERLYDDASSKWITKSQGILDALTFVETVNKEKLGPPLSKVLNGQAGNTASREYLPQGKLAISLDGSWITGNYMETGAAPWPEYKDVLGFAPMPTSQGQEPGSITLAGGWALSIPSNSKNKDEAWEFIKFALGKENTQKLVMSSGNITVRADVAKDPEYTKMPFNEIATEYLQNAEFRPAQEKYPEVSTQIQTMVESVATGTSPADAMNKYAQDVTRIVGADHIVEK	PGPT0016545_1367	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_04670	486			hypothetical protein	ATGAGTGATCGCTTGATTTTTTTGCTGGCTCTATTTTCAGTGACAGGCTCGGGTCTTATAGCCGGCCTGTTCTTCGCCTTCTCATCCTTCATGATGACCGCTTTATCGCGGATTCCGAACGAACAGGGGATTAACGCCATGCAGTCCATCAATGCAACCATACTCAACCCCACGTTCGGTGCACTGTTTACAGGTACCGCCCTAACCAGTATCGTTCTTGCGGTCCTATCCGTCCTCCGCTGGGGAGAACCGGGATCCGTCTACTTGCTGGCCGCCGGTCTGCTGTATCTGACGGGATTCATCGTAACGATGGCCTTCAATGTCCCGCTCAATGACGCGCTGGCTGCCGTTGATCCTGCGAGCAGCGCAGGAAGCGAGGTCTGGAGTGCCTACCTAAGTAAATGGACGGCCTGGAACCATGTACGGACGGTCACCTCCATAGGGGCCATGATCCTGTTTGTTTTTGCCTTACGGCATATCCCTTAA	MSDRLIFLLALFSVTGSGLIAGLFFAFSSFMMTALSRIPNEQGINAMQSINATILNPTFGALFTGTALTSIVLAVLSVLRWGEPGSVYLLAAGLLYLTGFIVTMAFNVPLNDALAAVDPASSAGSEVWSAYLSKWTAWNHVRTVTSIGAMILFVFALRHIP				NA	NA	NA	NA	NA
AK002_04671	687			hypothetical protein	ATGGGGATTTCCACGATAGGTCAGTGGAATCACACATGCCAACTTGACTCTTCAGCCAAGCCGCGTCGTAACATCGGATGGATATCAAGCAATTGGAGCGGATACGCTATCACTGGAAAAAAAGGGGCTTTCAAACGGGTCTCCGCCAAATGGAATGTGCCGTTTGTTCGGCCAAGCCGCGGGGCGTCCTACTCCTCGGCCTGGATCGGCATTGACGGATTCAGCAACAGCAATTTGATACAGACCGGAACGGGTCATGATTGGATAGACGGCAAGGCTTATTATTATGCTTGGTGGGAGATTCTCCCCGCCTCGGTTACGATCATTCCGCTGCCCATTCAGCCGGGTGACCGCATGCATGCCAGCATCATCAAGTGCAGCGGGTCAAACTGGCTGATCTGCCTTCGCAACGTATCCCGGGACTGGACCTTTCGAACATTGCAGCGGTACGGCGGTCCGCAGACCTCGGCGGAATGGATCGTCGAAGCGCCGCAAATCAATGGGGCGCTTGCCACGATGGCACGTTTGTCCCCCGTTGTCTTCTCCTGCTGCCGCGTCAATGGGAAACGCCCCAAACTCACGGTGGATGATGGGGGCATTATGCTTCAGAATTCAACCGTTACCTCCATTCCCTCCAATCCGAACCGGGCGGGAGACGGTTTCGTTGTCAAAGGCGTTCATCAATAA	MGISTIGQWNHTCQLDSSAKPRRNIGWISSNWSGYAITGKKGAFKRVSAKWNVPFVRPSRGASYSSAWIGIDGFSNSNLIQTGTGHDWIDGKAYYYAWWEILPASVTIIPLPIQPGDRMHASIIKCSGSNWLICLRNVSRDWTFRTLQRYGGPQTSAEWIVEAPQINGALATMARLSPVVFSCCRVNGKRPKLTVDDGGIMLQNSTVTSIPSNPNRAGDGFVVKGVHQ				NA	NA	NA	NA	NA
AK002_04672	1227	atzC_2		N-isopropylammelide isopropyl amidohydrolase	ATGAACGAACAAAGCAAGGCATACTGGCTGCTGCATGTCCGGCTGGAAACGGGTTACCGCTACGAGGAGGATGTCGTGACCGGAACCGAAACGGGACTTTTCCATGTGAAGATAGAGAATGGGGCTTTTTCTGAGATTCGTCCCGAGGAGGCTTTGCCGGATACGCTGCTGCCAACATGGGATGTGAAGGGGAATCTGATGCTACCTTCTTTTAGAGATATGCATATCCACCTGGACAAAACCTATTATGGAGGCCCATGGAAGGCACCGCTTCGTCCGGCTCACGGAATTTTCAGCCGGATCGAGGAGGAAGAGAGGCTGCTTCCCGAGCTTCTTCCCACCGCCAAGGAGCGAGCGGAGGGACTGCTGGATCTGCTGCTGCGTTACGGTTCTACCCACTTCCGCTCCCACTGCAATGTGGATCCCGTCGTCGGTCTGAAAAATTTGGAAGCCACCTTGCAGGCGGCTGAAGGATATAAGGAAAAAGCATTTGTGGAGATCGTTGCCTTTCCTCAGCACGGCTTGCTTCGCAGCCAGTCCGTATCCCTGGTCAGGGAAGCGCTCCGGAACGGAGCCGCGCTGGTAGGCGGGCTGGATCCCACGACGGTGGACGAGGATATGGAGAAATCGCTGAACACCGTGATGGAGCTGGCGGTGGAAGCCAACGCCGGCATAGACCTGCACCTGCATGAGTCGTCCCAGATCGGATTGAATGCCTTTAAACGGATAGCTGATCTTACGGAAGAGGCGGGTTGGAACGGAAGAGTCACGCTCAGCCATGCCCTCGCTTTCGCGGACGTCTCACCAAGCGAGGTGGATGAAGTGGCGATTCGGTTAGCGGACTTGGGTATTTCCATCACCTCCTCCGTACCGCTTGGCCGAACCATCCCGATCCCGCAGCTGCACCGCCGCGGCGTGAACATCTCGCTTGGGCAAGACAGCATTATGGACCATTGGTCCCCGTTCGGCAAAGGGGATAATCTGGACAAGGCGGGCACGCTGGCCGAACGCTTCCATATGAGCGATGAGCGTTCGCTCGGACAGGCCCTAGGGTTTATTACGGGAGGCGTGACGCCGCTAGACCAGGACGGCCGTTATGCGTGGCCAAACGTCGGGGATACGGCGGATGCGGTGATTGTGGAAGCCAGCTGCTCCGCGGAAGCCGTTGCCAGGCGGTCCCGCCGCCATGCCGTGCTGTTCAAGGGAAACCCGGTTTACGGAATATGA	MNEQSKAYWLLHVRLETGYRYEEDVVTGTETGLFHVKIENGAFSEIRPEEALPDTLLPTWDVKGNLMLPSFRDMHIHLDKTYYGGPWKAPLRPAHGIFSRIEEEERLLPELLPTAKERAEGLLDLLLRYGSTHFRSHCNVDPVVGLKNLEATLQAAEGYKEKAFVEIVAFPQHGLLRSQSVSLVREALRNGAALVGGLDPTTVDEDMEKSLNTVMELAVEANAGIDLHLHESSQIGLNAFKRIADLTEEAGWNGRVTLSHALAFADVSPSEVDEVAIRLADLGISITSSVPLGRTIPIPQLHRRGVNISLGQDSIMDHWSPFGKGDNLDKAGTLAERFHMSDERSLGQALGFITGGVTPLDQDGRYAWPNVGDTADAVIVEASCSAEAVARRSRRHAVLFKGNPVYGI				NA	NA	NA	NA	NA
AK002_04673	675			hypothetical protein	GTGCTGCGTATAACAGCTATGCTATTGATCCTTTTCCTGTCGGCCTGTCAACCAAATTCGGAGAAACACGAGGTGAAGAAGGATATGGATCGTCAACTCATTGAATCCGCCGAGCAAGGGAATACGGAGCAAGTGCGACAGCTTCTTCAATCCGGCGCTAACATCGATGCGACGGATGACCAGGGAAGAACGGCCGTGATGGCGGCAACCTACCGCAATCATGTCGATACGGTAGACGCCTTGATCCAGGCTGGCGCCGATATCAATATTCGGGATCATCAACTGAATAATGTGTTTTTGTATGCCGGCGCTGAAGGCATGCTGGACATCCTGAGGCTGGCCATTGATGCCGATGCGGATGTGACGCTCACGAACCGTTTTGGCGGTACGGCTCTCATTCCGGCCTCCGACCGCGGTCATGTGGAGATTGTGCGGGAGCTCCTGACCCGGACCAGCGTCGATGTGAACCATATTAATAATTTGAACTGGACCGCGCTGCTGGAGGCTGTCATTCTCGGTGACGGCAGCGAGAACTATCAGCGTATCGTGAAGCTGCTGCTGGATCATGGGGCAGACCCTGAGCTTCCGGACGGGAACGGCGTAACTCCCCTGCAGCACGCCCGGGAGCGGGGATATCAAGAAATCGAACGCATCTTAATGGAGGCTGCGAACTAA	MLRITAMLLILFLSACQPNSEKHEVKKDMDRQLIESAEQGNTEQVRQLLQSGANIDATDDQGRTAVMAATYRNHVDTVDALIQAGADINIRDHQLNNVFLYAGAEGMLDILRLAIDADADVTLTNRFGGTALIPASDRGHVEIVRELLTRTSVDVNHINNLNWTALLEAVILGDGSENYQRIVKLLLDHGADPELPDGNGVTPLQHARERGYQEIERILMEAAN				NA	NA	NA	NA	NA
AK002_04674	870	gltC_7		HTH-type transcriptional regulator GltC	ATGGATATCAGGCAGCTCCGCTATTTTATTGCCATCGTGGAGGAAGGCACCATCTCGCTGGCCGCCAACCGGCTTCATATATCCCAGCCGCCGCTCAGTCAGCAGCTGAAAGCCATGGAGGAAGAACTCGGGTCGGTCTTGGTATATCGAAGAGGAAAGCGGCTGGAGATCACCGAATCGGGGAAAGCGCTGTACAAATACGCGCTCCAAATGACCCAGCTCATGGAAGAGGCTAAAGCCGAAGTGAAAGAGGTCGGGAACGGAGATAAAGGAACGCTGAGCCTTGGTATCAATACCCTGTCTTCGGTAGAGCTGCCGTCATGGCTCCATGAGTTCAGGGTAAAATATCCCCAAGTCTCGTATAAAATCCAGCAAAACGAGTCGTATCAGCTCTGTGAGCTCGTGCGAAACCGGTCGCTCGAAGTAGCGATCGTACGCCTGCCCCTTGAATTGGACGATTTCTCGATCCTTCATCTGCAGACGGAGCCCTTTTACATGCTCACCTCGGAGCCATCCATCGAACAGGAGACGACCCTCCCCTATATCACGCAGCATCCGCTTATTCTGCCAAGCACGGAAGGGCTGGGCGTGTATTATACGATCCAGATGGCTTTCTCGGAGCAGAAGCTGCAGCCGAACATCGTAGCCGAATGCTCCGACATTTCGCTGCTGCTGCGCTTGGTCTCTTCGGGGTTCGGCGTGGCGATCGTTCCCGAGACCCTGATCAAACAGCAGCTGCCCGCAGCGGTGCATGCCTTCAAAATCAAGGACACCCCGGCTGCGGCCTCCACGGCCTTAATCTGGCTGAAGGATCACCATGTCTCCAGAACGGCGCTGAACTTCATTGACCTGTTGGCTAGCACCTTATAG	MDIRQLRYFIAIVEEGTISLAANRLHISQPPLSQQLKAMEEELGSVLVYRRGKRLEITESGKALYKYALQMTQLMEEAKAEVKEVGNGDKGTLSLGINTLSSVELPSWLHEFRVKYPQVSYKIQQNESYQLCELVRNRSLEVAIVRLPLELDDFSILHLQTEPFYMLTSEPSIEQETTLPYITQHPLILPSTEGLGVYYTIQMAFSEQKLQPNIVAECSDISLLLRLVSSGFGVAIVPETLIKQQLPAAVHAFKIKDTPAAASTALIWLKDHHVSRTALNFIDLLASTL	PGPT0019770_275	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0019770-bsdA-K21755	NA	NA
AK002_04675	1854	yheH_2	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheH	ATGGCACAGGCCATTAACAATTGGCAGCTGGATCAGAAGGCGGATTTGAACGCCCCTCAGTCCAAGCCAAAGTATATTTCCACGTTCCGGGCTTTGTCGGGTTATATGAAGGAACACCGGCTGACCTTTGCCGGGTTTATCGGCTGCACCTTGATTGCCATCTCGGCAGAGCTGCTGCAGCCGTACCTGATGAAAATCGCGATCGACGATAATCTGATGGTCGGCAAGAACGATTACCGGAGCCTGATGATCATCTGCGGCATCTATTTTTCGTTATCGCTGCTCAGCATGATGTTTACCTATCTGCAAAATAATTTGCTGCAAAAAGCGGGGCAGAGCATTGTGGCGAGCATTCGCAAACGGCTGTTTGCCCATATCTCGAGGCTGTCGATGTCGTATTTCGACAAGGTGCCGAGCGGCAGCTTGATTACGCATGTATCCAGCGATACCGAAGCGATCAACCAGTTTTTTAACCAGGTGCTGCTCAGCCTGTTTCGTGACGGCTTCACGCTGATCTTCATCCTGGTGATGATGTTCCAGCTGGACGTCACGCTGACCTTATACTGCCTCATCCTGCTGCCGATCATTGCAGGGATCGCGATTGCGTTCCGGCGGTATATGCGCCACACCTACCAGATGGCGAGAACGCGGTTATCCCGACTGGTGGCTTTCGTGGCGGAGAATCTCTCAGGCATGAACCTGATCCAAGTGTTCCATCAGCAGAAGGAGCAGGAGAAGCAGTTCGAGGAGCGGAATGACTCTTATTTCAAAGCCAACATCCGGGAGATCCGGACCAATGTGCTGTTTAACCGCTCCTACGAAATATTGAACAACCTGGCGATTGCGTTCGTGACGTGGCTCGGCGGGCAAGCCGTTCTGGGGACGACGCTGGAGTTCGGCGTGCTGTATGCTTTTATTACGTATATCCGTTTATTCTTCCAGCCGATCAATACGATCACCCAGCAGTGGAATACGCTGCAATCGGCGACGGTGGCGATTAACCGGATATGGAGCCTGCTCGCGATTCAGCCTGAGGTTACGGATCTACGCAAGCCGGCGGCAATGGAGAAGGCGAAGGTTCAGGGCCGCGTCGACTTTGACCGGGTCACGTTCGGTTACGAAGGCGGGGCTCCGGTCATTCAGGATTTGGATCTTCATATCCAACCCGGGGAAATGATCGGGATCGTCGGAACCACCGGCGCGGGAAAAAGCTCGCTCATTAGCCTGCTGTGCCGTTTCTACGACGTGAACGAAGGGAGCATTCGGATTGACGGGATCGACATCCGAGAGCTGGCACAGTCCGATCTGCATCGGATCGTGGGCCTTGTGCAGCAGGAGCCCTATCTCTACTCCGGAACGGTGCTGGACAATGTGCGGCTGTTCGATGAGGACATATCCAGGGAGCGGGTGATCGAGGCTTGCCGCTTTATCGGTGCGGATTCAATCATCAGGAGGATGAAGGAAGGATATGACACCCGGCTGTCGGAGCGGGGCAGCGGCTTGTCCGCCGGCGAGCGGCAGCTGATCTCCTTCGCGCGAATCATCGTGTTCCAGCCCAAAATTCTCATTCTGGACGAAGCGACCGCCAACCTGGATTCGCACACGGAGCAGCTCATCCAGAATGCGCTGCAGCTCGTTGCCGAGGGGCGGACGACCCTTGTCATTGCCCACCGCTTATCCACCATCATGGGGGCGGACCGAATCCTGGTCATGAGCAGAGGCCGAATCGTGGAGCAAGGAACCCATGAGGAACTGCTGGATTCCCATGGGTATTACGAAGAGCTGTATCTTCACTCCCAAGGACAGAAGCAGGAGCGGGAGGGGGTCGCAGGCTCGTTGTATCGCACGAAATAA	MAQAINNWQLDQKADLNAPQSKPKYISTFRALSGYMKEHRLTFAGFIGCTLIAISAELLQPYLMKIAIDDNLMVGKNDYRSLMIICGIYFSLSLLSMMFTYLQNNLLQKAGQSIVASIRKRLFAHISRLSMSYFDKVPSGSLITHVSSDTEAINQFFNQVLLSLFRDGFTLIFILVMMFQLDVTLTLYCLILLPIIAGIAIAFRRYMRHTYQMARTRLSRLVAFVAENLSGMNLIQVFHQQKEQEKQFEERNDSYFKANIREIRTNVLFNRSYEILNNLAIAFVTWLGGQAVLGTTLEFGVLYAFITYIRLFFQPINTITQQWNTLQSATVAINRIWSLLAIQPEVTDLRKPAAMEKAKVQGRVDFDRVTFGYEGGAPVIQDLDLHIQPGEMIGIVGTTGAGKSSLISLLCRFYDVNEGSIRIDGIDIRELAQSDLHRIVGLVQQEPYLYSGTVLDNVRLFDEDISRERVIEACRFIGADSIIRRMKEGYDTRLSERGSGLSAGERQLISFARIIVFQPKILILDEATANLDSHTEQLIQNALQLVAEGRTTLVIAHRLSTIMGADRILVMSRGRIVEQGTHEELLDSHGYYEELYLHSQGQKQEREGVAGSLYRTK	PGPT0029045_457	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
AK002_04676	1776	yheI_4	COG1132	putative multidrug resistance ABC transporter ATP-binding/permease protein YheI	TTGGACTCTCATCGAATACTTGGAGACTTTTTCAGGAAGACGTGGCCATTTTATGTATTGTCGATTTGTTGTCACTTGGTAGCCAATATCATCCACGTGAATTTCCCGAGGGTGCTGGGCAATTTCACGGATGAATTGAAGGATGGTTTATTGTCGGTCGGCGGTGTTGTGCAGTACAGCTGGACGCTGCTGGGTATCGGCGTCGGCTTTGCCGTCATCGGCGGGATCGGCCAGTTTCTGGTCATGTACACGGGACGTTATTTCGAATTTATGAATCGGCGCCGCCTGTTTGTCCATTTTACGGGGCTCAGCGAGCGGTTTTATTCCAAGAACGGCGTCGGCAAGCTGCTAAGTTATTTCATGAACGACGTGACGACGGTAAGGGAAGCGATCTCGATGGGGATCAATCAGACGGCAAACGCCTCGATCCTGCTGGTCTCCACGATTGTCATGCTGCTGATAACGAATGTTCCGCTGTATCTGGTGGCCGCAAGCATCGTTCCTTTGCTGCTGATACCGATCATCGTCGTCTGGCTCGGGCCGATCATCAGGAGAAGATCGCTCCAGGTTCAGGAAGCGCTCGGCGTGATGACGGAGTCGGCGGAGGAGCAGTTTGGCGGGATTCGCGTCACGAAGAAGTTTGCGGTGGAAGAGACGATGAAACGGCGCTTCGGGGCGACGGTGGACAGTATTCGGGACAAGCAGCTGCGGCTGGTGCGCGTGTCGTCGCTCTTTCAATCGATCATTCCGTTTCTAGGCGCATCCTCCCTTATTATCGCCCTCTCATTCGGCGGTTACTTAACGATCATGGGACGCATCTCGGTCGGTAACTTTGTCGCATTGACGCTTTACATTCGCATGCTGATGAACCCGCTGCAGCAGATCGGGAATGTCATTAATGTTGTCCAGAGAGCGAGGGCCTCGCTTGACCGCTTGAACGATCTGCTTGATAAGCAGGCCGACATTAAGGAACTGCCTGGCGCCAAGAAGCTGAATCTGGAGTATCCAGGCATTGAGGTGCGGGATTTATCTTTTTCCTACGATGCTTTGGACGGCCATGAGGGAGGTTCCAGGCAGGTGCTGCGCGGCATTCGGCTGAGCGTTCCGCCCGGCGCGACGCTGGGCATCATCGGCCGTACGGGAAGCGGCAAAACCACGCTGATGAAGCTGCTGCTGCGCACCTACGACCCGCCTCCGGGGAAGGTGCTGATCGGCGGCGAGGACATTCGGAAGCTTACATTAAAAAGCCTCCGCGAAGGAATCGCTTACGTTCCCCAGGACGGCTTCCTGTTCAGCTCGACCATCCGCGAGAATATTGCCTTCTATAAAAGGGACACGAAACCGACCGTCGTTGAGGAAGCGGCACGAAAGGCACGGGTGTATGACAACATTGCGGAGTTTCCGGACAAGTTCGAGACCCGCTTAGGGGAGCGCGGCATTACCCTTTCTGGCGGACAGCGGCAGCGGACAAGCCTGGCGCGGGGAATCATCAAGGATGCGCCCGTCCTCATTCTGGATGACAGCGTAAGCGCCGTCGATGCGGTGACGGAGACGGAAATCATGGAGACGATTCGCGACATCCGGGAGGGGAAGACCACGATCATCATTGCCCACCGGATTAGTGCATTGAAGTTTGCCGATGAGATCATCGTCCTGGATCAGGGAGAGATTGTCCAGCGGGGTACGCATGAAGAACTGCTGTCTACGGACGGGCTGTACCGGACGCTGCATGACATTCAGGAAGAGGGGATGAAGCATCATGGCACAGGCCATTAA	MDSHRILGDFFRKTWPFYVLSICCHLVANIIHVNFPRVLGNFTDELKDGLLSVGGVVQYSWTLLGIGVGFAVIGGIGQFLVMYTGRYFEFMNRRRLFVHFTGLSERFYSKNGVGKLLSYFMNDVTTVREAISMGINQTANASILLVSTIVMLLITNVPLYLVAASIVPLLLIPIIVVWLGPIIRRRSLQVQEALGVMTESAEEQFGGIRVTKKFAVEETMKRRFGATVDSIRDKQLRLVRVSSLFQSIIPFLGASSLIIALSFGGYLTIMGRISVGNFVALTLYIRMLMNPLQQIGNVINVVQRARASLDRLNDLLDKQADIKELPGAKKLNLEYPGIEVRDLSFSYDALDGHEGGSRQVLRGIRLSVPPGATLGIIGRTGSGKTTLMKLLLRTYDPPPGKVLIGGEDIRKLTLKSLREGIAYVPQDGFLFSSTIRENIAFYKRDTKPTVVEEAARKARVYDNIAEFPDKFETRLGERGITLSGGQRQRTSLARGIIKDAPVLILDDSVSAVDAVTETEIMETIRDIREGKTTIIIAHRISALKFADEIIVLDQGEIVQRGTHEELLSTDGLYRTLHDIQEEGMKHHGTGH	PGPT0029040_488	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
AK002_04677	2067	rep_2		ATP-dependent DNA helicase Rep	GTGCTGAATCCAAGCGAAAACGCAGAGCGGGAATATCTTGCATTGGTATTAAAGGAGCTTCAACGGGCATCGGAGGAATTAGAGGGGAAGGTGTCCGATTCGTATAAGGATATCATTGAAGCCAAGAAATACCTGTGGGTCAACATGGCCCAATTGGATGCGGCGGAGCGTGCGGCCAACCGGGTTGATATTTCTTTGTCGATCGATACCGGAGAGAAACAGGCGGCCAGGCTGCAGAGGATGCGCAAGCTGCTTGCCTCGCCTTATTTTGGCAGGGTGGATTTCCGTACGAACGAACCGAAGGAAGAAGAAGGCGCCTATTATATCGGCATCCATTCGTTCACGAACCCGGAGAGTCAGGAGCATCTCATCTATGATTGGCGCTCGCCGGTAGCCAGCCTGTTTTATGATTACAATGCCGGTCCTGCGTCTTATGAAGCGCCCATGGGGAGGCTGCAGGGCGAAATTACCGTCAAAAGGCAGTATAAAATCAAAGACGGCCAAATGGAATATATGATCGAGAGCTCCATGAACATCAATGACGACGTGCTGCAGAAGGAGCTCAGCAGCAACTCGGACGAGAAGATGAAGAATATCGTGGCTACCATCCAGCAGGAGCAAAATGCCATCATCCGAAACGAAACCGCGCATGAGCTGATCATACAGGGGGCAGCAGGCTCGGGCAAAACCTCGGTGGCCCTGCACAGGGTGGCCTTTCTCCTGTATCGCCATAAGGAAACCTTGACTTCCAGCAACGTGCTGATCATATCCCCCCATAAAGTGTTCTCCGATTATATATCGAGCGTGCTGCCGGAGCTTGGCGAAGAGAAAATCATGGAGGTCACGATGGAGGAGCTTGCTGCCAAAGAGCTCCGAGGATTATGCCGGTTCCAGACCTTCTCCGAACAGGTGGACGAAATCGTACACGCCCATGACGAGCAGGCCATCGAACGGATCCGGTACAAGGCCGGTTTGGATTTTGTGTTTGAGCTGGATGCTTATATGGAATATGGTGATCAGCAGTTTTTCCAGCCAACGGATATTCAGATGAAGGGGTTGTTCATACCGGCCTCGGAGGTCATGGATAAATACCTTGGAACCATGAGTTTGCCGGTCAGGCAGCGATTAGAGAAGACCGCCTCGGTCCTGTCGAACCAGGCCCGTACGGAGGACGGCCTGAGGCTGACTTCGGCGGAAGCTAATACTGTCAAAGCCGCGATCCGAAAAATGTTCAAATATCAAAATGCGTTAAGCCTGTACAAGGCATTCTTCTCGTACAGGAACCAACCGGACATGTTCATCATGAAAAACAGGAAAACGATTGAATACGCTGACGTTTTTCCGCTGATTTACCTCAAGATGCATCTGGAGGGGAGTTCCCCCTACGATAGGGTAAAGCATCTGCTGGTCGATGAAATGCAGGATTATACTCCGATTCAGTATGCCGTCATCTCCAAATGGTTTGCTTGCAAAAAAACGATTCTCGGCGACAGCAACCAATCGGTCAACGTGTATACTTCAACCTCGCTGCCCGATATCCAGCGCGTGTTTCCTCAAGCCGATACGATCGAGCTGGTAAAAAGCTATCGTTCCACGCTGGAAATCATGAAGCTTGCAAAGCGGATCCATCCGCGCAGCACCATGATTCCCGTGGAGCGGCATGGTGAAGAACCGCTGCTGATCCGGTGTCATGATGCGGAGCAGGAGCTGGCGTTCATCCAAGATCTCACCCGAGACTTTCCGAATTCCGGGATGCAGACGATGGGGATCATATGCAAAACGTCATCGCAAGCCCGGCAGGTGTACGAGTCGGTCAGGGGGTTAACGGACAACGTGAGCCTGCTCGATTTTAGCAGCGACCGCTTTCAGGAGGGAATCACGATTACCTTCGCCCATATGGCCAAAGGGCTGGAATTCGACCAGGTTATCGTTCCTTTTGCGGGCACCGCAAACTATCGTACCGAGATGGATCGAAGTTTTCTATATATTTCCTGTACCCGGGCCATGCATAAGCTGCTGCTGACCTATTCCGGCGAACCCGCGGCGTGGTTGGCCGGCTCGGCGTAA	MLNPSENAEREYLALVLKELQRASEELEGKVSDSYKDIIEAKKYLWVNMAQLDAAERAANRVDISLSIDTGEKQAARLQRMRKLLASPYFGRVDFRTNEPKEEEGAYYIGIHSFTNPESQEHLIYDWRSPVASLFYDYNAGPASYEAPMGRLQGEITVKRQYKIKDGQMEYMIESSMNINDDVLQKELSSNSDEKMKNIVATIQQEQNAIIRNETAHELIIQGAAGSGKTSVALHRVAFLLYRHKETLTSSNVLIISPHKVFSDYISSVLPELGEEKIMEVTMEELAAKELRGLCRFQTFSEQVDEIVHAHDEQAIERIRYKAGLDFVFELDAYMEYGDQQFFQPTDIQMKGLFIPASEVMDKYLGTMSLPVRQRLEKTASVLSNQARTEDGLRLTSAEANTVKAAIRKMFKYQNALSLYKAFFSYRNQPDMFIMKNRKTIEYADVFPLIYLKMHLEGSSPYDRVKHLLVDEMQDYTPIQYAVISKWFACKKTILGDSNQSVNVYTSTSLPDIQRVFPQADTIELVKSYRSTLEIMKLAKRIHPRSTMIPVERHGEEPLLIRCHDAEQELAFIQDLTRDFPNSGMQTMGIICKTSSQARQVYESVRGLTDNVSLLDFSSDRFQEGITITFAHMAKGLEFDQVIVPFAGTANYRTEMDRSFLYISCTRAMHKLLLTYSGEPAAWLAGSA				NA	NA	NA	NA	NA
AK002_04678	834	drrB_3		Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB	ATGAGTGCAAGCCAGCATACAGCGAATAAGGACGGCTTGCCGACGGTTCGGCGAGCGGTCATCGTTCCTCCCTCTATCCTGACGTCGATCCGAATCTTTATGTGGAGGACCTGGCAGCATACCAAGCATAACGGGTTTGGTCTGGTGATGGATGCGGTTCTGTCGCCGGTTCTGCTGCTGCTCATCTTCAGTTACCTGTTCGGCGGTGCCATGGCCGGGTCAACCGGGGCTTATATTCAATTCCTCTTGCCCGGCATCCTGATCCTGACGGTCGTTCCCATGACCGTGTACAGCGGAACCACGATATGCTCGGATATTACCAAAGGGGTGTACAATCGTTTCCGAACGCTGCCCTTCTGGCAGCCCGCATCCGTGATTGGCTCCATCCTTACGGATGGGCTGCGTTATGCGGCCGGCGTTATTGCTGCCCTCGGTACGGGCGTGGCGCTGGGTTTCCGTCCCGAAGGCAGCGCCGTTCAGGTCTTATGCGCCATAGCCTACATCCTGTTGTTTGCCTTTAGCGTCAGCTGGATATTTGCGCTGGTCGGCGTCGTGGCCAAACGGCCGGAGACGGTGTCGGGGTCCAGCATGATCGCGATATATCCGCTGCTGTTCGCCAGCAGCATTCTGGTGGATTCGTCGACGATGCCGAAATGGACAGCGACCCTTATTGATCTGAATCCCGTCAGTATGGCGGCTACCACCGTCAGGGCGCTGATGAGCGGTACGGCAGGAACGGCCGAGATCATGACCGGAATCGGAGTCTGCGTGCTGTTTATGGGGATATTTGCCCCGCTTACGCTGTATCTCTACCAGACGAAAAAAGAGCGGTAA	MSASQHTANKDGLPTVRRAVIVPPSILTSIRIFMWRTWQHTKHNGFGLVMDAVLSPVLLLLIFSYLFGGAMAGSTGAYIQFLLPGILILTVVPMTVYSGTTICSDITKGVYNRFRTLPFWQPASVIGSILTDGLRYAAGVIAALGTGVALGFRPEGSAVQVLCAIAYILLFAFSVSWIFALVGVVAKRPETVSGSSMIAIYPLLFASSILVDSSTMPKWTATLIDLNPVSMAATTVRALMSGTAGTAEIMTGIGVCVLFMGIFAPLTLYLYQTKKER				NA	NA	NA	NA	NA
AK002_04679	951	drrA_6		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	TTGTCTTACGCCATTGAAACGAAAGGGCTTCGTAAATCCTATAACGGAACGGAGGTCGTTCGAGGCATCGATCTGCGAGTCGAACAAGGAGAGCTCTTTGCCTTGTTAGGTCCGAACGGCGCCGGAAAAACAACCACCATCCATATGTTAACCACCTTGATTCAGCCGGATGGCGGGTACGCCAGCGTAGCCGGATTTGATATTGTGGGCAATGCCCGGAACGTTCGGAGAAGTATTAGCCTGACAGGCCAGTTTGCGGCACTGGATGAAGGACTCTCCGGTCTTCAGAATTTAAAGCTGATCTCCAGGCTTTACGGTCATTCGGCAAAAGCGGCCCGGTCCGTAAGCGAGGAGCTGATCGAAGCCTTCGGTCTCAGCGAAGCGAAGGATCGCGCGGTTCAGCATTACTCCGGCGGGATGCGGAGGCGGCTGGATATTGCCGCCAGTATCGTTACCGAGCCCGATGTTATTTTTCTGGATGAGCCGACGACGGGACTGGACCCGCAAAGCCGTGTTCAAGTTTGGGATGTTGTAAGGTCGCTCTTGAAACGGGGGACCACGGTGCTGCTCACAACCCAATACTTGGAGGAAGCTGATCAGCTGGCGGACCGGATTGCCGTGATGGATAAGGGGAATTTGATAGCGGAAGGGACGCCCCGGCAATTGAAGGCTTCGATTGGCGACAGGACGTTAACCGTCCAATTCAACGAGCAGGCCGATCGGGATAAACTGGGTACGTGGTTATACGAGGCGCATGCCTTGACCTTATTGCAGGACGATCATCCGTTGGTACATAAGATCCCGGTGAAGGATGCGTTTGCAGCCTATCAGGTCATCCATTCGCTGATGGAGAACGGGTTCGCCATTGACTATTTTGCCTTAAGCGAGCCGAGTCTGGATGAGGTCTTTCTGTCACTGACCGACGCAAAGTCGAAAGGAGGCGCTCCATGA	MSYAIETKGLRKSYNGTEVVRGIDLRVEQGELFALLGPNGAGKTTTIHMLTTLIQPDGGYASVAGFDIVGNARNVRRSISLTGQFAALDEGLSGLQNLKLISRLYGHSAKAARSVSEELIEAFGLSEAKDRAVQHYSGGMRRRLDIAASIVTEPDVIFLDEPTTGLDPQSRVQVWDVVRSLLKRGTTVLLTTQYLEEADQLADRIAVMDKGNLIAEGTPRQLKASIGDRTLTVQFNEQADRDKLGTWLYEAHALTLLQDDHPLVHKIPVKDAFAAYQVIHSLMENGFAIDYFALSEPSLDEVFLSLTDAKSKGGAP	PGPT0006725_2349	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_04680	819	azoB		NAD(P)H azoreductase	ATGACCATTTTGATAACAGGCGCTACCGGAACGGTTGGAAAACACATCGTGCAGCAGCTTGTTCTGCAAGGAAACGAAGTGAGAGCGATCTCACGCAATCCGCAGCAGGCGAAAGTGCCCGAGGGCGTTCAGATGTTTGCCGGCAATCTCAATGACCCGGATAGTCTGATCCCCGCCCTGCAAGGCGTGACGGCGATGCATCTGATCATTTCCAGCGATGAGGCTTGCGGAACCCTTCAGACGGATCCGCGGATTATCGAGCTGGCCGAGAAGGCGGGCGTAAAGCGGGTAACGGTATTGGTGGGCTATGAAGAGGGTCCAGTCGAAGCGGCCCTTCGAAACAGCGGAATGGAATGGACCCTGCTCAAGCCAGGCGAATTTATGGCGAATATTCTGGCCGATTGGCAGGAATCGATCCGAATTGAGGGAGTCGTCCGCGAGCCGTTCGGCCATGCGTTGAGCGCGAGAATCCATGAAGCCGATATCGCTCGCGTGGCCGTTGCCGCACTTCTGGAGGAAGGTCACCATGGCCAAGAATATTTCCTTACGGGACCGGAGGCCATCTCGCGAACGGAAGCAGTTCGGATCATAAGCGAGGTAACCGGCAAGGAGATCCGTTTTGTCGAACTGACCGAGGAACAGGCGAGAGAGCAATGGAGAGAGCAGGGCTACGACGAAGAGTCGATTGAGTTTTTTGTGCAAATGGGGAAAAATCCGCCTGAGATCGGTTATACGGTACTGCCGACGGTGGAGGAGGTCACGGGGCGGCCGGCAGCCACGCTTGCCGATTGGGTCCGTGATCATCTGGACGATTTTTAA	MTILITGATGTVGKHIVQQLVLQGNEVRAISRNPQQAKVPEGVQMFAGNLNDPDSLIPALQGVTAMHLIISSDEACGTLQTDPRIIELAEKAGVKRVTVLVGYEEGPVEAALRNSGMEWTLLKPGEFMANILADWQESIRIEGVVREPFGHALSARIHEADIARVAVAALLEEGHHGQEYFLTGPEAISRTEAVRIISEVTGKEIRFVELTEEQAREQWREQGYDEESIEFFVQMGKNPPEIGYTVLPTVEEVTGRPAATLADWVRDHLDDF				NA	NA	NA	NA	NA
AK002_04681	894			hypothetical protein	ATGAAGCTGGACCGGCTGCTTGGCATTACGATGGAGTTGTTGACCAAAAAAAGAGTGACCGCCACGGCGCTGGCGGCCCGGTATGAGGTTTCCGTCCGCACGATTTACCGCGATGTGGACATCATCAACCAAGCCGGCATTCCGATCGCTTCCTACCCCGGTGCGGATGGCGGGTTTGAACTAATGAGCGGGTTCTACCTGACGAGGCAGCACTTCTCCGTGGATGACTTTTTGGCTATCTATAATCTCTTAAAGGGCATCGAGGGGACTGTGCAGGGGAGATATACAGCGATCATGAATAAGCTCGGAACCCTGCAGCCTGCCTTGTTGAACGGAGGATGTCATGAACAAATCATAATCGAGATGAGCGCGTCGAAACATGAGCGGGCATGGGTCAGGCAAATGTTGAAAGCCATTGAAGGCTCGAACCTGATAACCCTTCATTATACCAGCGCATCCGGCACCCGCTCAGAGCGGCAAGTGGAGCCGCTGCAGCTGTACTGGGAACAAGGCGTCTGGTATTTGGAGGCTTACTGCTTGTTCCAACAGGCAAAGCGAATTTTCAGGGTATCTCGCATATCCAGTCTTGAAGTATCCGAGAACACATTCCTCCGAAGAGGGGGACTGGAGCGGGAGGAGCAAGAGGAAGTGCAGGGAATTGAGGCGCATCTTCGTTTCGATCCGTCCGCCGGTCCGCGGGTGATCGAGCAGTTTCCGGATGCATGGGCCTCCAGCGAGGGATGCTTGGACGTCCAAACCATCTTTTACACCAAAGCCTACGCGATTTCGGTGATCTTAAGCTACGGTGCCAAGGTGGAGATCGTCTCGCCGCCGGAACTGAAGGAAGATCTGCTGAAAGAGCTGGAGGACATACGGAAACGTTACGAGCTATGA	MKLDRLLGITMELLTKKRVTATALAARYEVSVRTIYRDVDIINQAGIPIASYPGADGGFELMSGFYLTRQHFSVDDFLAIYNLLKGIEGTVQGRYTAIMNKLGTLQPALLNGGCHEQIIIEMSASKHERAWVRQMLKAIEGSNLITLHYTSASGTRSERQVEPLQLYWEQGVWYLEAYCLFQQAKRIFRVSRISSLEVSENTFLRRGGLEREEQEEVQGIEAHLRFDPSAGPRVIEQFPDAWASSEGCLDVQTIFYTKAYAISVILSYGAKVEIVSPPELKEDLLKELEDIRKRYEL				NA	NA	NA	NA	NA
AK002_04682	759			hypothetical protein	GTGAAACTTCAGCTTATACGTAATGCTACGTTAAGGATACAGTACGCCCATCTTGAACTGCTGGTCGATCCGATGTTGAGCCAGGCCAAGGCGAACCCGCCGGTCATCAACTCCGCGAACGACAGACGGAATCCGCTTGTCCCGCTGCCGTTCTCCATGGCTGACAAGCTCCGTCCGAACGCGGTTCTGGTCACACACCTGCATCCGGATCACTGGGATCAAGCCGCGATCGACGCACTGCCGAAGTCAACGCCGATCCTGTGTCAACCGGGGGACGAGGATACCTTGGCTTCGCAGGGCTTTACGTCCGTGACGGCCATCCAGGAAAGCCTGGAACATGATGGGGTTACGATCATCCGAACCGGTGGTCATCATGGCACAGGTGAGATCGGTCAGATGATGGGACAGGTATCCGGTTTTATTTTGAAAGCAGAAGGACACCCGACGCTGTATATCGCGGGCGATACCATCTGGTGCGATGAAGTGAAAGAAGCACTCGATGTTCACAAGCCCGATATGACGGTTGTCAATGCCGGGGGCGCTCGGTTTATCACGGGGGACCCGATCATCATGAATGAGGACGATGTGATCGAACTGTTGCGTTATGCTCCTTATACGAGGGCGGTTGCGGTCCATATGGAAGCCATCAACCACTGCCTAGTGACAAGAGAAGCGCTGTCCGGTCGTCTGGCAGCTGAAGGCCTTGGCTCGCGAATCGAAATTCCGCAGGATGGCCAATGGGTCGAGTGGAAAGCGTAA	MKLQLIRNATLRIQYAHLELLVDPMLSQAKANPPVINSANDRRNPLVPLPFSMADKLRPNAVLVTHLHPDHWDQAAIDALPKSTPILCQPGDEDTLASQGFTSVTAIQESLEHDGVTIIRTGGHHGTGEIGQMMGQVSGFILKAEGHPTLYIAGDTIWCDEVKEALDVHKPDMTVVNAGGARFITGDPIIMNEDDVIELLRYAPYTRAVAVHMEAINHCLVTREALSGRLAAEGLGSRIEIPQDGQWVEWKA				NA	NA	NA	NA	NA
AK002_04683	432	lrpC	COG1522	HTH-type transcriptional regulator LrpC	ATGCCAAGCGCTCATGAATTCGACGAAGTCGATCTTCGCATATTGCAGCACCTGCTCGAGGATGCAAGCCTGTCTCACAAAGCGATCGGACAGCGGGTGCATTTGACGGGACAAGCCGTCGGGGCCCGCGTTCGCAAGCTGCAGGATCTGGGTGTCATCGAAGGCTTTACGCTTCGTTGGAATCCGGACAAAATCGGTCTGACCGTACACGCTTTTGTCACCATGTTCTTGGCGCTAAATACGGCTCATTCTCCCTTCCTGTCCTTTATTCAGTCGCACGACATGGTCGCCGAAACCCACCGCGTCAGCGGTGAGGGCTGTTATTGGCTCAGGGTACGGGCGGGCTCGCCCAAGGAATTGAACGATTTTCTGGAAGAGCTTCTGAAGTACGGGAATTATAAAGTCAGCCTGTCCATTGATCAGGTGAAATAA	MPSAHEFDEVDLRILQHLLEDASLSHKAIGQRVHLTGQAVGARVRKLQDLGVIEGFTLRWNPDKIGLTVHAFVTMFLALNTAHSPFLSFIQSHDMVAETHRVSGEGCYWLRVRAGSPKELNDFLEELLKYGNYKVSLSIDQVK				NA	NA	NA	NA	NA
AK002_04684	1272	iolG_26		Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase	ATGACACAATTAAAAGCCATATTGATCGGGGCAGGCGCACGCGGCGCCAGGGGGTACGCCCCCTATGCCCTGGACTACCCGCATGAACTGGCCTTCGTGGCCGTAGCCGAGGCCGATCCGGCGAGGCGCACCCGATTTGCCGAGGAGCATGGCATCCCGCCGGAGCGGTGTTACGAAACCTGGGAACCGCTGCTGGCCGAGGCCCGGCTTGCCGATATCGCCGTCATTTGTACGCAGGACCGTATGCACTATGGCCCAACCATGCAGGCTTTGGAGAAACAGTATCACGTGCTTCTGGAGAAGCCGATGTCCCCGGAGCCGAAGGAATGCCTGGAGATGGAGCAGGCTGCCATCCGTAACAACAGGCTTTTGACCATATGCCATGTGCTGAGGTATACCCCTTTTTGGAGTGCCATCAAACGCGTGCTTCAGGAAGGGACCATCGGCGAGGTGGCTTCGATCCAGTTGAACGAGAATGTGGGATATTGGCATATGGCCCACAGCTTTGTGCGGGGGAATTGGAATAACTCCGACAAGGCAAGCCCGATGATTCTGGCCAAATCGTGCCATGACATGGATGTGCTGTCCTGGTTGATGGACCGTCCTTGCACGCAGGTCACTTCGTTTGGCTCGTTGATGCATTTTCGTGAGGACCAGGCGCCCGAAGGCTCGGGGGACCGATGCCTGGATTGCAAAGTGGAACCCACCTGTCCCTATTCCGCTCCCCGTTTTTACTTGAGCGATGAGTACAAGGGATGGGCGAGGCATTTTACCCAGGAGCTGACCAAGCCGAACATTATTCAGGGGCTTCGCGAGACGGACTATGGCCGCTGCGTATATCGGAGCGATAACAACGTCGTTGATCATCAGGTCGTCAATATGGAGTTTGAGGGCGGCGCCACCGCGATGTTCAGCATGTGCGGATTTACGCATGAACAGGAGCGCAGAATCCAGATCATGGGGACCCGCGGCGAGCTTCGGGGAGAGGAAGGCAGGATCACGGTTTACGATTTCCTGACCGGTCAGAAGACGGAGATTACGATTCCGTCGCAATCCAGCGGACATGGCGGGGGTGACAGCGGGATCGTGGCCAGCTTCCTGAGAGAGGTGCGGAGCTATAATGGGCAGGAGAGCCTGACGTCGGCAAGCGCCTCCGTGCGGAGCCATCTGATCGCGTTCGCAGCGGAGAAATCGAGGCTGAATCAAGGCCGATCCATCAATCTGAACGAATATGCGCGGGAAGTGATGGCGGAAGAAAACGCGGTAAAATAA	MTQLKAILIGAGARGARGYAPYALDYPHELAFVAVAEADPARRTRFAEEHGIPPERCYETWEPLLAEARLADIAVICTQDRMHYGPTMQALEKQYHVLLEKPMSPEPKECLEMEQAAIRNNRLLTICHVLRYTPFWSAIKRVLQEGTIGEVASIQLNENVGYWHMAHSFVRGNWNNSDKASPMILAKSCHDMDVLSWLMDRPCTQVTSFGSLMHFREDQAPEGSGDRCLDCKVEPTCPYSAPRFYLSDEYKGWARHFTQELTKPNIIQGLRETDYGRCVYRSDNNVVDHQVVNMEFEGGATAMFSMCGFTHEQERRIQIMGTRGELRGEEGRITVYDFLTGQKTEITIPSQSSGHGGGDSGIVASFLREVRSYNGQESLTSASASVRSHLIAFAAEKSRLNQGRSINLNEYAREVMAEENAVK				NA	NA	NA	NA	NA
AK002_04685	1614			hypothetical protein	ATGAAGCTGAAGCAATGGGGAAGTCTTCTGTTGACCTGCATGTTGTCGGTATCGCTGGCGGTGGGCTGCAGCCCGAAGGGTTCGGGCGGAACGGACTCGGCCGATGAAGGGAAAGCCGCGATTAATGAAACGGGATTTCCGATTGTCGACGACAAGATGACGGTGACCGGCTTTGCCGGAAAGTTCTTTGCCAATGCCGACTGGAACAACATCAAGCTGTGGCAGGAATATGAGAAAATGACCAATATCAAGGTGCAGTGGGACACGGTGCATAAAGACAATTTGGCCGAAAAACGCAACCTGCTGCTTGCCGGCGGCGATTATCCGGAGATGTTCTATGCTTCCGCATTCCCGAGGGCGGATTTGCTGAAGTACGGCAAGCAGGGCGCTTTTATCCCGTTGAATGACCTGATAAATCAATACGCGCCGAATTTTAAAGCGTTGATGGAGAAATATCCGGTCATCGAGAAGGGGATTACGATGCCGGACGGCAACATATACGGGCTGCCGACGCTGTATGACCCCGAATTCCGGTCCGTGCTGTACGGAACGCCGTGGGTGAAGACGGAGTGGTTGACCAAGCTGGGCCTTCAAGAGCCGCAGACGCTGGATGAATTCTACGATATGTTGAAGGCGTTCAAGGAGAAGGATCCGAACAGCAACGGCCAGAAGGATGAATATGCTTGGGGTGGCGTAGGAACCGCCGGCATCGTCAACTATTTGCGGGGTTCGTTCGGCCTTAATTATCACGGAACCTCGAACATTAACGTGGATACCGACCCGGCAAGCGGGAAGGTCCGGTTCATTCCGACGGATCCAAGATACAAGGAACTGCTTCAATTCGTGAACAAGCTGTATAAGGACGGCCTGCTGGAGCAGGATATCATGTCCGTGAAGAGCACGGAGGTGGACGCCAAAGGCGTTGAAGGCATTCTCGGCGTTGTCGATAACGTGGATCCTGTCGCCATCTACAACCAGGAGGGTTATGTGGGGCTTCCGGTATTAAAGGGGCCGCACGGCGATCAGATGTTCAGCGCTACAGGCTCCCCGCTGGGGAACATCGGGATGTTTGTCCTGACCGATAAAGCGAAGAATCCGGCCGCGCTGATCCGCTGGATGGATTATTTCTACAGCGACGAAGGCATCCGCATGTTCTTCATGGGCTGGAAAGGCGAAACGTATAAGGAAGATGCGGACGGCAATGTGGATTACGTGGACGAAATCAAGAACAATCCGGAGGGTCTCAACCTGGACCAAGCGGTCGGGCAGTATCTGATATGGCCCGGCGGATATTATCCGGGCTTCGTGACGCAGAAATATTTCAAGGGAGCGGAAGGCCTGCCGACGTCCGTAGAGAACGCAAAGAAAGCCGAGCCGTACGTCATCCCTCAAGACAAGGTCTGGCCGCCGTTTAACTTTACGGCCGATGAGCAGTCCGAGCTTACCGGAATCCAGACCGACATTCACACGTACGTGGATGAGATGCGGGATAAATTCATAGCCGGCAACGAGTCTTTTGATAACTGGGACCAGTATGTCGCTAACCTGCAAAAGATGGGGTCGGAGCGCTATCTGTCCATTTATCAATCCGCGGCCAACCGATATACCGAATAA	MKLKQWGSLLLTCMLSVSLAVGCSPKGSGGTDSADEGKAAINETGFPIVDDKMTVTGFAGKFFANADWNNIKLWQEYEKMTNIKVQWDTVHKDNLAEKRNLLLAGGDYPEMFYASAFPRADLLKYGKQGAFIPLNDLINQYAPNFKALMEKYPVIEKGITMPDGNIYGLPTLYDPEFRSVLYGTPWVKTEWLTKLGLQEPQTLDEFYDMLKAFKEKDPNSNGQKDEYAWGGVGTAGIVNYLRGSFGLNYHGTSNINVDTDPASGKVRFIPTDPRYKELLQFVNKLYKDGLLEQDIMSVKSTEVDAKGVEGILGVVDNVDPVAIYNQEGYVGLPVLKGPHGDQMFSATGSPLGNIGMFVLTDKAKNPAALIRWMDYFYSDEGIRMFFMGWKGETYKEDADGNVDYVDEIKNNPEGLNLDQAVGQYLIWPGGYYPGFVTQKYFKGAEGLPTSVENAKKAEPYVIPQDKVWPPFNFTADEQSELTGIQTDIHTYVDEMRDKFIAGNESFDNWDQYVANLQKMGSERYLSIYQSAANRYTE	PGPT0017245_1866	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04686	885			hypothetical protein	ATGCAAATTGAATCCAGAGGGGACCGTATTTTTAATGTCATCAACTATGCGATCCTGATCCTGGTCACCGTCATCGTCATGTACCCGCTGCTTTTTGTGCTCAGCGCATCGTTTAGCGACCCGCAGGCGGTTCTCCGGGGCGAGATGCTGCTATGGCCAAAGGGAGTCAATCTGAATTCCTACGCGAAAATTTTTCAGAACCAGGATATCATCAGCGGCTTTACCAACACCCTGGTGTATACATCGCTGGGCACGTTCATCAACCTCACGATGACCATTCTTGCGGCCTATCCGCTGTCGCGGAAGGATTTTGTCGGGCGAAATGCCATCATGGCACTATTGGTTTTTACGATGTTTTTCAGCGGAGGGCTCATTCCGACGTATTTGCTGATCAAGAACCTCGGTATGCTGAACACGCTCTGGGTCATGATTATCCCGAATGCCGTATCCATCTGGAACATCATCATCATGCGCACCTTCTTCCAGCAGTCCATTCCCGGCGAGCTGCAGGAGGCCGCGACCATCGACGGCTGCTCGAACATTAAAATATTGACCCGGATCATACTGCCGCTGTCCATGCCGATTATCGCGGTGACGATTCTGTTCTATGCGGTCGGTCATTGGAATGCGTTCTTCAATGCACTGTTGTATCTGTCGGACAAAGATAAATTTCCGCTTCAGCTCATTCTGCGCGAAATCCTGATTCAGGGACAAACGAACGACATGGTCAAAATGTCGACCGAATCGGCGATTAAGCAGCAAAGGGAAGTGGAGGGCATCAAGTACGCGGTGCTGGTCGTTGCCAATATCCCGGTGCTGGCGCTCTATCCGTTCCTGCAGCGATATTTTGTCAAAGGCGTGATGATCGGGGCCATCAAAGGATAA	MQIESRGDRIFNVINYAILILVTVIVMYPLLFVLSASFSDPQAVLRGEMLLWPKGVNLNSYAKIFQNQDIISGFTNTLVYTSLGTFINLTMTILAAYPLSRKDFVGRNAIMALLVFTMFFSGGLIPTYLLIKNLGMLNTLWVMIIPNAVSIWNIIIMRTFFQQSIPGELQEAATIDGCSNIKILTRIILPLSMPIIAVTILFYAVGHWNAFFNALLYLSDKDKFPLQLILREILIQGQTNDMVKMSTESAIKQQREVEGIKYAVLVVANIPVLALYPFLQRYFVKGVMIGAIKG	PGPT0017255_1956	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04687	960	yteP_57	COG4209	putative multiple-sugar transport system permease YteP	TTGGCAAATACGACCCTGCAGCCCGCAGCAAATGCGGTTTCCGAGACGAAGCGTAAGCGCTTCATGTGGAATCGCATCCTTCGCAATTGGCAGCTTTATGCTCTGATTTCACCGGTCATCGCCTATTACGTCCTGTTCCAGTACGTTCCGATGTACGGCATCCAGATCGCCTTCAAGGACTTTATAGCAACGCAAGGGATATGGGGCAGTCCGTGGGTCGGCTTCGAGCACTTTGACCGCTTTTTCAACAGCTATTATTTCTGGCGCTTGATCAAGAACACGCTTGGCATCGGCTTATACAGCCTTGCCGTCGGTTTTCCGATCCCGATTATTCTGGCTTTGCTCATGAACGAGGTTCGGGCCGAACGATTCAAAAAATTCGTGCAGACCATCACGTATGCGCCTCACTTTCTCTCTACCGTGGTCGTTGTCGGGATGATGATGATTTTCCTGTCGCCCCGGTACGGCATCATCAACCATTTCATTGAAATGTTCGGCGGTCAGCCGATCAATTTCATGACGGAGCCATCCTGGTTCAAGTCCCTGTACGTGCTGTCGGATGTATGGCAGACGATGGGCTGGAGCTCCATTATTTATTTGGCTGCGCTTGCCGGCATTGACAACCAGCTGCACGAAGCCGCGCGTGTCGACGGTGCGACAAGGCTTCAGCGCATCTGGCATATTAACATCCCGGGCATCATGCCTACGATCATCATCCTCCTGATCCTGAACATGGGCAGCATCATGGGCATCGGTTTCGAGAAAGTGCTTCTGATGCAGAACAACCTGAACATGGAGAGCTCCGACATTATTGCCACCTATGTCTACCGAATGGGGATCCAGAACGCCGAGTACAGCTTCTCCGCGGCGATCGGATTGTTCAATTCCGTCATCAATTTCATTCTGCTGGTGGTGGTGAACTTTATTTCGAAGCGGGTCAGCGAAACAAGTCTTTGGTAA	MANTTLQPAANAVSETKRKRFMWNRILRNWQLYALISPVIAYYVLFQYVPMYGIQIAFKDFIATQGIWGSPWVGFEHFDRFFNSYYFWRLIKNTLGIGLYSLAVGFPIPIILALLMNEVRAERFKKFVQTITYAPHFLSTVVVVGMMMIFLSPRYGIINHFIEMFGGQPINFMTEPSWFKSLYVLSDVWQTMGWSSIIYLAALAGIDNQLHEAARVDGATRLQRIWHINIPGIMPTIIILLILNMGSIMGIGFEKVLLMQNNLNMESSDIIATYVYRMGIQNAEYSFSAAIGLFNSVINFILLVVVNFISKRVSETSLW	PGPT0017250_1147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04688	1041	cytR_2	COG1609	HTH-type transcriptional repressor CytR	TTGGCTAAGCTTAAAGATATCGCCGAAAGGGTCGGCGTATCCATATCCACGGTTTCGCGGGCCATCAGCAACGATGCTAACCGTCCGGTCAATGAAGAAACCAAGCAGAAAATTCGGGAAGCGGCGCTCGAACTCGGTTATAAACTACATGAACCATCCCGAAGCGTACATGCTTACAATACGGCCGACAAACGGGTTGTCTGTGTCGTTCCCCAACACCTGATGGACGATCACCCGTATTTTTCAACGGTTCTAGCCGGTTTTCATAAAAAAATGGAGGAGCTGGGCCAGCCCCCGGCTATCGTCCGCACATGCGAAGAGGTCGGCGATGCGGACCGGATACGGCTCATGCTGAGGGAGACGGGAGCGCAAGGGATCGTAGCCATAAGCTGGTACGACAAGGAGCTGTTTGAGCTGATGCAGCAGGCCGGGGTTGCCATCATGGGAGTAAGTTTGAATGATGACCGGCTGAACGTCCCGGTTGTAGACTGTGACCGGATCCTATCGGCGAGGGCAGCGGTACGCCACCTGATCGACCAAGGGCATTCGCGGATCGCTTATATCGGAGGCCCTGCCTATTCCAAGCAGATGGAAAGCGAGGAACGGTATGTCGGATACAAATTCGCTATGCTCGAGGCCAACTTGGAGGTGCGCGAGGAGTGGCAGATGAACACCGGATGGAACGTGGACCGAAGCTTCAGCAAGTTGTCCGAGCTATTGGGAGGGCTTCCCAAAGGGCAATGGCCGACGGCTGTTTTTTGTGCAAGCGACATGCTTGCCATTCCAGCCATGCGGGCCGTCGTCGAGAACGGCGGCCGCATCCCGGAGGATATCGCGATCGTAGGAATGGATAACATCGATGTGGCCCAGTATACAACGCCGCCGCTGTCCTCAGTATCCGTTCCCAAATACGAAATCGGCAGAGTAGCGGCCAAATCGATTGTGGATTATTTGGATGGTCATTTCCCGATGGCAACCAAGATATTGCTGCCATGCTCATTGATTGTGCGGGAATCCTCCAGATATACCCGAAACGAGTGA	MAKLKDIAERVGVSISTVSRAISNDANRPVNEETKQKIREAALELGYKLHEPSRSVHAYNTADKRVVCVVPQHLMDDHPYFSTVLAGFHKKMEELGQPPAIVRTCEEVGDADRIRLMLRETGAQGIVAISWYDKELFELMQQAGVAIMGVSLNDDRLNVPVVDCDRILSARAAVRHLIDQGHSRIAYIGGPAYSKQMESEERYVGYKFAMLEANLEVREEWQMNTGWNVDRSFSKLSELLGGLPKGQWPTAVFCASDMLAIPAMRAVVENGGRIPEDIAIVGMDNIDVAQYTTPPLSSVSVPKYEIGRVAAKSIVDYLDGHFPMATKILLPCSLIVRESSRYTRNE	PGPT0021075_397	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
AK002_04689	1185	pbuE_5	COG2814	Purine efflux pump PbuE	ATGACGGGTTCATGGAAAATTTATGTTTTGGCAATCGTCAGTTTTTTAGTAGGGACATCGGAGTATATCATATCGGGGGTATTGGATAAAATCGCGGATTCGTTAGGGATTACCATCACCGCTGCAGGCCAGCTGATCACGATTTTCTCGTTGGTATACGCAATCTTGACTCCCGTGCTTATGGCATTGACGGCTAAGGTGGAGAGACGGAAGCTGCTGGTCTACTCACTGGGCGTGTTTGTGGTTGCCAATCTTTTGTCATTCGCTCTGCCGGGGTATATCCCGTTTGTCATCGCCCGCGTTCTTATGGCTATGGGCGCTGGCATGGTGGTTGTCACGGCGCTTGGAATCGCCGCCAAAATCGCGCCGCCAGGCAAGCAGGCGAGCTCGATCGCCACGGTGGTCATGGGCTTCACGGCTTCGCTCATCATAGGCGTTCCGCTCGGGCGAGTCGCAGCCGCTGCTTTTGGATGGAAGTCGGTGTTCGGGTTGATTGCCGTCCTGGGGATTCTTTCGATGTTTGTCCTGCATAAGGCCATTCCCAAAACAACAGGCGATGCCCCGGTCCCGCTGCTCCAGCAGTTCGCCCTGCTCAAGAAACCCAAAGTGGCACTTGGTTTGGCGATTACGTTCTTCTGGCTGGGCGGGTATTCCGTCGCCTATACGTACCTGTCCCCTTATCTTCTGAACGTTAGCGGTTTGAACGAACAATGGATCAGTTCAGCCCTGTTTGCCTTCGGCATTGCCAGTCTCATCGGCTCCAAGTTCGGAGGGTTCAGCACGGACAGATGGGGAGTACCGCTTACCTTAATCGGCGGCATGCTTCTGCATATTATTGCTTTAATCGTCCTGACTTTTACCAATGCGGGCGCATCCGTTATGCTGGTGTTTGCCGTACTTGTGATTTGGTCGCTGGCCGCTTGGTCATCCGGGCCCACGCAGCAGTATAATCTCGTCCAGCTGGAGCCGAATTCCTCGGGGGTCATGCTTGGCCTGAACCAGTCCATGATGCAGCTGTCCATGGCGGCAGGCGCGGGTATCGGTGGAATCGCGATCGAACGAATTTCGTTGTCGTCCATCGCATGGATCGGCGCTGCGGGCGTTGCGATAGCCGCGGTTGTGTCGCTTGTACTGTTTCAATCCATTAAGCAGGAGAGCACGGATCACGCGGCACTCGATGCTTGA	MTGSWKIYVLAIVSFLVGTSEYIISGVLDKIADSLGITITAAGQLITIFSLVYAILTPVLMALTAKVERRKLLVYSLGVFVVANLLSFALPGYIPFVIARVLMAMGAGMVVVTALGIAAKIAPPGKQASSIATVVMGFTASLIIGVPLGRVAAAAFGWKSVFGLIAVLGILSMFVLHKAIPKTTGDAPVPLLQQFALLKKPKVALGLAITFFWLGGYSVAYTYLSPYLLNVSGLNEQWISSALFAFGIASLIGSKFGGFSTDRWGVPLTLIGGMLLHIIALIVLTFTNAGASVMLVFAVLVIWSLAAWSSGPTQQYNLVQLEPNSSGVMLGLNQSMMQLSMAAGAGIGGIAIERISLSSIAWIGAAGVAIAAVVSLVLFQSIKQESTDHAALDA				NA	NA	NA	NA	NA
AK002_04690	303			hypothetical protein	ATGAAACCAATCGAAGTGTTTAAAGCGTTGTCCAATGAATCAAGACTGGAAATATTGCAGTGGCTCAAGGAACCTGAACAGCATTTTACGCCCCACGAAGGGATTGATATGAGGGAAATCGGGGTATGCGTAAGCCAGGTGACCGAGAAATTGAACATGACGCAGTCCACCGCATCGCAGTATTTATCGATTCTGCATCGGGCAGGCCTGATCAAGACGGAACGCTTGGGGAAATTTACGTATTATAAGCGGGATGAAGAAGTGATCCGGGAAATCGGAGAGTATTTGAAGCAGGAGATATAG	MKPIEVFKALSNESRLEILQWLKEPEQHFTPHEGIDMREIGVCVSQVTEKLNMTQSTASQYLSILHRAGLIKTERLGKFTYYKRDEEVIREIGEYLKQEI				NA	NA	NA	NA	NA
AK002_04691	1212			hypothetical protein	ATGAGCCTGCATGATAACGGCGGCAAACAAGCCGTGTTTTTTGAGCGAATCATGGGACTGCCGGTCTTTGATACCCATACCCACCTTGTCGGCGACCGGCTTGGCGCAAGGGATTTCTGGGAAATCGCGCACTACTTCTGGTTCTATCGGGAGCTCCAAGCCGGAGGCTATCCGGATGGAGCGGAGAAGCTGCCTGAGGAGGAACGCATAGCTGCATTTCTGAATGCCTACCGCTCGACGAGAAGCACGCTGATGAACTGGACATTCACTTCCATTATGCGCGAGTTATACGGGATCGGGATCAAGGATGAAGATTCGATCAGGGAAGCCATAACCGCAGTGCGGCATTCGGCCGCCGAAGAGGGATGGGCACAGGAAACGGCAGACCGGATGAATATCCGCCGGTTTGTCGTGAACCATCCGGAGCACGCTGCATTTCAAGGCATGCGGCATCCTGCGGTATGGATTCCCCGCATTGACGGAGCGCTGGGCCGCTGGGTCGATCGGATCGTCCAATCCGAAGAACCGGCCAGGACGTTTCACGCGGTACGGGACGAGATAAACCGGCAGCTTGACGGTTATAAAGATGCGGGCTGCCCGGGCATTATGACCACGCTGCCGCGGTATGAATCGAGCGCGAACATCCGCCGGGAGATCGGCTCGGCAAGCGGACGTGACGACATCATGATGGAGCTCCTGCACTTGATCTGTGCGGCAGCCGATCGCAACGGCTTGCTTGTCCAGCTGTTTCTGGGCGTCGAGAGGTCATGGTGCGGCACGGCGTTCCCTGCGAACGATACAGAGCGGATCCTGAAGCTGGCCGCTTTATTCGAGACGTACCGTTGTCCTTTTGAGCTTGTGCTTGCGTCGGAGCTGAACAATCTGGATGCGGTGCAGGCGGCCTGGAATTTTCCGAATGTACATGTCGGGGGCATGTGGTGGTTCAACTTCCGTGCAAGCACGTACCGGGACAGCATGCAGTACCGTCTGGAAGCACTCCCGGCCAGTAAAAGCTCGGTGATCGTTTCGGATGCCCGCTGCATGGAATGGAGCTACGGCAAGATCCTGCTTGTGAAGAAGCTGGCTGCCGAGTTTCTGTGGGAGCGGGTCACGTCGGGCTGGATCGATGAAGAAACGGCGCTGCATACGGCAGAAGAATGGTTCTACGCGAGTGCCGTGAAACGCTACGGCATTTCGGCCGGAGGAGCTTGA	MSLHDNGGKQAVFFERIMGLPVFDTHTHLVGDRLGARDFWEIAHYFWFYRELQAGGYPDGAEKLPEEERIAAFLNAYRSTRSTLMNWTFTSIMRELYGIGIKDEDSIREAITAVRHSAAEEGWAQETADRMNIRRFVVNHPEHAAFQGMRHPAVWIPRIDGALGRWVDRIVQSEEPARTFHAVRDEINRQLDGYKDAGCPGIMTTLPRYESSANIRREIGSASGRDDIMMELLHLICAAADRNGLLVQLFLGVERSWCGTAFPANDTERILKLAALFETYRCPFELVLASELNNLDAVQAAWNFPNVHVGGMWWFNFRASTYRDSMQYRLEALPASKSSVIVSDARCMEWSYGKILLVKKLAAEFLWERVTSGWIDEETALHTAEEWFYASAVKRYGISAGGA				NA	NA	NA	NA	NA
AK002_04692	1545	lipO_25	COG1653	Lipoprotein LipO	ATGAGTGCGCTAATCGCCTTAACGGCAGTCGGCTGTAACGGTGCCAAGGAAGCGGATGGAGGGAAAGCCGGTACGTCCGGGGCCGCGGCCGATGACAGGCTGTCCTTTACGATGTCCATGGCAACCAGCGGAAACAAACACGCCGAGCGTTCGAAGGATGTGAACGAGGAGAGATGGGTGAAGGAGCTTGAGAAGCTGACCCATACGGACATTCATCTGACGATGCTTCCGCTGAAGGATTTCGATAGCAAAATGACGCTGATGTTCGCTTCCAATGATATTCCTGACGTTGTCCAGAACGTGGGAGGGGCCACGAGCAAGGGGATGTCCGGTTCCGTAGAGGCCGGCGTATTCATGCCGCTTGACGATTTGCTGAAGGAGCATGCGCCGAACCTGATGAAGAGCGTGCCGAAGGAAGCGTGGCAGGAGACCAGCTATGACGGCAAAATATACGGAATCCCGGCCTGGCTGTCCAATCCGTCCCGGCGGGCGTTGTTCATCCGTACCGATCTGCTGGAGAAAACCGGTCTTCCGGCGCCCAAGACGGTGGACGAGTTTTTGGACGTGATGCGTGCGATGAAGAAGGAAGGCGTGGAATTCCCGTATCAGATGCGCGAGAATTTTAAATATGCGGATACGATATTAGGCGCTTTTGATGTGCTGCCGTCCCAGTTTGAGCTGCAGAACGGGGAGGTCGTCCCCAAGTTCTTCGACGTGGAGAATATGACGAAGGCGCTGGAGACCTATAAGACCATGTACGACGAAGGCTTGATTCCGAAGGATTTTGCAACCCTGACGTCCAGTGACTACGGCAAAAACAACGAGAGCGGCAAATCGGGCATGTGGTCGGCCAACGCGCAGCTGCTCGCGGAATACCGCGGCAAGCTGAAGAACGCCGTGCCGGAGGCTAAGCTGGACATCATTCCTGCGCCGAAAGGACCCGAGAACGTCGGAGGCCATCTGCTATACTCCAGCATTAATACGTCTTATTACATTAACAGCAAGGTGTCGGAGGAAAAGGCGATCGGCATCATCAAGTTTTTCGATTGGATGCTGACGCCGGAGGCGGAAACGTACTTCTCGTTCGGGATTGAAGGCGAAACCTATACGAATGAGAACGGAACGATAAAGTTCACGGCGCCGACTACGCCGGAGGCCATGGATGAGGACCGCTTCCGCGCCATGTTCTGGTTTGTGCACGATATGGTGTATAACAAGGCAAGAGAAGAGCTGACGGATGACGGGCGGGATATGATCCAGTATATGGATACCGTGGTCTTTAAGGAAGGACTCGGATCGATACGCTTCTCGCCTGCGCTGGATGCTTATTCTAAATATCCGGATGCCGCGCCGCAGGGCGATGACGTGGGCCCGAAGCTGGTTCTCGATCATATGATCAAAATGATCTATGGCAGGGAACCGATCTCGGACTGGCCGAAAGTGATCGAGGAATATAAGAAAAAAGGCGGCCTTGAAATCATCAAGGAAGCGACCGACCGTTACAACGAAGGGAAGGGCGTCGTCGTTTCGGAAAATCGAAAGTAG	MSALIALTAVGCNGAKEADGGKAGTSGAAADDRLSFTMSMATSGNKHAERSKDVNEERWVKELEKLTHTDIHLTMLPLKDFDSKMTLMFASNDIPDVVQNVGGATSKGMSGSVEAGVFMPLDDLLKEHAPNLMKSVPKEAWQETSYDGKIYGIPAWLSNPSRRALFIRTDLLEKTGLPAPKTVDEFLDVMRAMKKEGVEFPYQMRENFKYADTILGAFDVLPSQFELQNGEVVPKFFDVENMTKALETYKTMYDEGLIPKDFATLTSSDYGKNNESGKSGMWSANAQLLAEYRGKLKNAVPEAKLDIIPAPKGPENVGGHLLYSSINTSYYINSKVSEEKAIGIIKFFDWMLTPEAETYFSFGIEGETYTNENGTIKFTAPTTPEAMDEDRFRAMFWFVHDMVYNKAREELTDDGRDMIQYMDTVVFKEGLGSIRFSPALDAYSKYPDAAPQGDDVGPKLVLDHMIKMIYGREPISDWPKVIEEYKKKGGLEIIKEATDRYNEGKGVVVSENRK	PGPT0017245_2737	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04693	1569	leuA_1	COG0119	2-isopropylmalate synthase	ATGGAACGAAACATTATCGTATTGGACACAACCTTGCGCGACGGAGAACAGGTTCCGGGCGCCAAATTGAACGTACAGCAAAAAATCGAGTTTGCGCAACAGCTGAAGCGGTTGAACGTCGATATTATCGAGGCGGGCTTTCCCGCGTCTTCGGCTGGGGATTTTCAAGCGGTTCAGGAAATCGCCCGAACCGTAGGCGATAGCGTCTCCATTACTGCGCTTGCACGCGCGGTGAAGAGCGACATCGATGCCGTATATGAAAGCATTAAGCTTGCGCAAAATCCGCTGATTCATATCGTGCTTGGCACCTCGAACATTCATGTGGAGAAGAAATTCAACCGCTCCAAGGATGCGGTGCTCCAGATGGGCGTTGATGCGGTGAAGTATGCCAAAACGCTGCTGCCTAACGTCCAATATTCGACGGAAGATGCCTCCAGGTCCGATTTTGAATATCTGTGGAAAACGATCGAGGCCGTGGTAAAGGCCGGGGCAACGATGATTAACGTGCCGGACACGGTCGGTTATGCCGTGCCGGACGAATTCGGCGAATTGATCCGCAAAATCAACGAGCGCCTGAATAATCTGAACGACCAGGTTATTCTCAGCGTTCACTGTCATAACGATCTCGGGCTTGCTACGGCGAATACGCTCAGCGCGGTGAGAAATGGTGCCCAGAAAGTAGAATGCACGATCAATGGTTTAGGGGAGCGCGCAGGAAACACATCGCTTGAAGAAGTGGTTATGGGACTCAAAGTCCGTGAGAATCACTTTAAGGCCTCCACCAATATCCGGCTCAAGGAGCTGATTAGAACTTCCAGGCTGCTGACGCATTTGACGGGCCTGGATGTGCAGGTGAACAAAGCGATTACGGGCGAGAACGCATTCGCTCACTCTTCCGGTATTCATCAGGACGGTCTGCTGAAAGATAAACAGGTCTATGAAATTATGTCGCCGGAGGAAGTCGGGGCCGACAGCATGGAGCTGATCCTGACGGCCCGGTCCGGAAGGCATGCGTTCAAAAATGCGGTGGAGAAGCTTGGTTTCGAGACGGGCGAAGGCGAAGATTTTGAAGCGCTGTTCGAGAAATTCCTGCTGCTGGCCGATGCCAAGAAGGAAGTATATGACCATGACGTCTTTTATCTGGTAACCCAGCACCGCACCCATGAAGAAGTCAGCAGCCATCTGTACGAGCTGGACTCCTTCCAGGTTGTCACCAATGATCTGTATCCGACGGCAACCGTCAAGCTGAAGAAAGGCAGCGAGACATTCAGGGACAGTATGGTGGGGGATGGTCCGATCGATGCGTTGTACAGTGCCATTAAAGCATTGGTCGGTTTGGACGTGCAATTGAAGGATTACAAAATCAACAGTCTGTCGAGAGGAAAAGAAGCCATCGGCCGGGTGAACATCCGTATCGAATACCAGGGCAAAATCTATTCCGGGCGAGCGATGGATACGGATATTATCAAGGCCAGCGCGCTGGCATTTCTTAACGGAATCAACGCGGTATTGCTTGATGCCGGCCACGATTCGCAGGCGCGGGCGCAAGCGCCGGTGAGTGCACGATAA	MERNIIVLDTTLRDGEQVPGAKLNVQQKIEFAQQLKRLNVDIIEAGFPASSAGDFQAVQEIARTVGDSVSITALARAVKSDIDAVYESIKLAQNPLIHIVLGTSNIHVEKKFNRSKDAVLQMGVDAVKYAKTLLPNVQYSTEDASRSDFEYLWKTIEAVVKAGATMINVPDTVGYAVPDEFGELIRKINERLNNLNDQVILSVHCHNDLGLATANTLSAVRNGAQKVECTINGLGERAGNTSLEEVVMGLKVRENHFKASTNIRLKELIRTSRLLTHLTGLDVQVNKAITGENAFAHSSGIHQDGLLKDKQVYEIMSPEEVGADSMELILTARSGRHAFKNAVEKLGFETGEGEDFEALFEKFLLLADAKKEVYDHDVFYLVTQHRTHEEVSSHLYELDSFQVVTNDLYPTATVKLKKGSETFRDSMVGDGPIDALYSAIKALVGLDVQLKDYKINSLSRGKEAIGRVNIRIEYQGKIYSGRAMDTDIIKASALAFLNGINAVLLDAGHDSQARAQAPVSAR				NA	NA	NA	NA	NA
AK002_04695	1071	aroA_2	COG1605	Protein AroA(G)	ATGAGTCAAGGACGTTTGGAGCAATTGAGATCGGAGCTTGATACCGTCAATCTTCAGCTGCTGGAGCTGCTGTCGGAGCGGGCGCGGATCGCCAAGGAAATCGGTCAGGAGAAAGTGAAGCAGGGAGTGCCTGATTTCGATCCGGTACGCGAGAAAAAAATGCTGGATACTCTGGTGGAGCATAACCAAGGTCCTTTCGATAATGAGACGGTGCGTCATTTGTTTAAACAGATTTTCCAGGCATCCTTGAAGCTGCAGCAGGTCGATCACAAGAAGCATTTGCTGGTGAGCCGGAAGAAGAAGCAGGAGGATACGCTGATTCAGCTGGGCAGCACCATCATTGGCGGCGGCACGCCGGTCATGATCGCAGGACCATGTTCCGTTGAGAGTTATGAGCAAGTGCGCCAGGTTGCGGCTGCCCTTAAGGAAGCGGGCATAACCGTCATGCGCGGAGGAGCGTTCAAGCCGAGAACATCGCCTTACGATTTTCAGGGCTTGGGCGTGGAAGGCCTGAAAATTCTGAAGGAAGTGGCGTCCGAGTTCGGGCTGAAGACGATCAGCGAAATCGTGGATCCTGCCCATATCGAGCTTGCGTGCGAATACATTGACGTCATTCAGATCGGTGCGCGGAACATGCAGAACTTCGAGCTGTTGAAAGCGGCGGGGGATGTCCAAACGCCGGTGCTGCTGAAACGCGGTCTCGCGGCTACGATCGATGAGTTCGTGCACGCTGCGGAGTACATCGTGTCCCGCGGCAATACGCAGGTCATGCTCATTGAACGCGGCATTCGGACGTACGAGAAGGCAACGAGAAACACCTTGGACATCTCGGCGGTGCCGATCCTGAAACAAGAAACGCATCTGCCGGTGCTGGTGGACGTGACGCATTCCACGGGCCGCAAAGACATTCTGGCCCCTTGTGCCAGAGCGGCTCTCGCTGCAGGAGCGGACGGCGTGATGGTAGAAGTTCATCCCGATCCGGCTACGGCGTTATCCGATGCGGCGCAGCAGCTGAATATTCCGGAATTCCATGATTTCCTGGCGAATGTGAAAAAGTCCGGATTGCTGTAA	MSQGRLEQLRSELDTVNLQLLELLSERARIAKEIGQEKVKQGVPDFDPVREKKMLDTLVEHNQGPFDNETVRHLFKQIFQASLKLQQVDHKKHLLVSRKKKQEDTLIQLGSTIIGGGTPVMIAGPCSVESYEQVRQVAAALKEAGITVMRGGAFKPRTSPYDFQGLGVEGLKILKEVASEFGLKTISEIVDPAHIELACEYIDVIQIGARNMQNFELLKAAGDVQTPVLLKRGLAATIDEFVHAAEYIVSRGNTQVMLIERGIRTYEKATRNTLDISAVPILKQETHLPVLVDVTHSTGRKDILAPCARAALAAGADGVMVEVHPDPATALSDAAQQLNIPEFHDFLANVKKSGLL	PGPT0012915_301	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012915-aroG-K13853	NA	NA
AK002_04696	762			hypothetical protein	TTGCAAGAGTTTTATTATTTTTACACTTGTGGAATGCTCTTGTTCATCAGGTTGAGAATTTGTGCTTCTTTGTGTTACGGGCCTGTGTATTGGGATGCACTGAATCATATCGCTGCAATATCATTTCCAAAATCAAAGTCGTGGTTTGATAAAGTTTTTTTAGTACCGTATAGTTCTAATATGATGAAAAAATATAAACCCAGTAACCGTGATATTGTCCTTCAAGTCGCAACCACGTTATTCCTGTCAAAAGGTTATCTCGCGACCAGCATGGATGATATTGTAACGTCGAGCAAAGTGTCCAAGACGAACATTTATTATTATTTCAAAAGCAAGGAAGACCTATTGTCCGCTATCATGGATCAACTCATACAATCCTATTCGGAAATGATTCACGATATTTGCGAACGGTCGAGTTTAACTGTGCAAGAACGTTTCAAGGCTATCCTTCGTATGCTGACACACCAAGAGTTGGAATGTTTAGGCGGGTGCCCCTTTATCACCCTATATACACAGATGCCGCAGGATGCTCCAATAATCCGCGAAAAGGTCAGCCGGTTTTTCCGTGATCAAATCGACATCATGGAACAATTAATTTTTGAAGGGATACAAAAACAAGAATTCAAAGCCGATTTATCGGCCAGATCCACTGCACAATTCATCGTCGCGGCGATTGAAGGCGGATTATTCCTGCAACATGCGAGTGAAGACTCAACCCCGTTGGAGCAGTCTCTTCCCACTTTAGCGTTATTGCTAAAGTAA	MQEFYYFYTCGMLLFIRLRICASLCYGPVYWDALNHIAAISFPKSKSWFDKVFLVPYSSNMMKKYKPSNRDIVLQVATTLFLSKGYLATSMDDIVTSSKVSKTNIYYYFKSKEDLLSAIMDQLIQSYSEMIHDICERSSLTVQERFKAILRMLTHQELECLGGCPFITLYTQMPQDAPIIREKVSRFFRDQIDIMEQLIFEGIQKQEFKADLSARSTAQFIVAAIEGGLFLQHASEDSTPLEQSLPTLALLLK				NA	NA	NA	NA	NA
AK002_04697	1869	menH_8		2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGGCACACATTTTTATGACAGGTAGTACAGGATTTATCGGTAGGTATGCATTAAAGGAGCTTGCGATTTCCAAAGAAAATCATATAATCCATGCACTTGTACGATCCCATGCAAAGTGGGAGCAAGTGTGTAAGCAAATGGGGTTAGGACGTGAACACGCGGGACGAATAACCCCCATCATCGGAGACTTGAGTGCACCCCACCTTGGATTGAGCGCGCCTGACCGGCTTATGGTGCAGAAGGCAGATGTGATCATTCATGCAGGGGGGCCTATGGATATTTTGCTGGGCGAGGACGAAGCACGTGCAGTCTTCTTACAGGCGGCGGAGGAAATGCTCGGCATAGCCGAAGAAATTCATAAATACAAGGGGTTACGGCATTTTATTCATCTCGTTGGATTCAAAAGTCCCTTTACCGACGATAACATCCATTCACCGGATTCTATTATCGATCACTTAGGACAACAGCCGCCTTACGAGAGGATGAAGTTCCTTGCCGATTTGCGCATTCGTCAAGTTGCCAAGCGGGCAGGCTTTTCACTCTCCGTCGTCCACCCAAGTGTCGTCATTGGCAGCTCGAAGCACGGCGAAACTGTGCAAACCGGGGGGCTGGGCATTCTCGTGAAATCTGCAGCGCGCAAAATGATGGGCATCGTCCCTGGAGGATCCTCACATTGGCTGCCGCTCGTTCATGTGGATCATGTCGCCGCCTTCATAGGCGCCCTTGCCCGTGAGGCTCTTCCGGTTAACGGGACTTACTATTTGCTGGATGAGAAGAATGGCAGTCCGTCGATGACGGAGCTCGTAACAGTCATTACGAAAGAGCTTCGTGTGGGTAAACCGGTGGGCTCCGTCTCGCCTCGAATACTATCCAAGGTGCTTGACAGTCCCGTCGGCCGGAAGCTGGGGATTCCGAAGGAGTCTCTCGATTTTATTGTCAAAACGGATGAAGCATATCCCCTGGCCGCCGCTCGTGAAGTCCAACATCGATACGGTCTGGCTCATACCGTGAATACCTCGATCATGCCCGCCACTATCGCAGATCTCGATTTTCGTCTTGTACATTCACAAGTAGTTACAGATGGATTAGTGCGTGGGAAAAGAGGTCCCTTGGCTACCCTGGAGCGAAACGGAACCAGGTATAATGGTACTGCCGCAGCGAATACCATCGTCTTCGTGCATGGCACGTTAAGCAGTGCAGATTGCCTGCTGCCGCTTGCCGAGCAGTTCCTGGAATCGACCGTTTGTCTGGTCGATCTCCCAGGCTTCGGACGTTCGCCCTATCACCATGGGCGGAACGTCCTCGAAGGCCACATCGAATCGCTCGTAGAGGCGATTCGTTCTATCGACACCCCGGTTACGCTCATCGGCCATTCGCTGGGCGGCCTGCTGGCTGCCCACGTCTACGCGCGCGTACCGGAACGGATCCGCAGGCTGCACCTGCTGCAACCTGTCCTGCACCGCGCTCCGAAGATGTACCGGAGCCCACTCCTGACCGAGGCTGCGCTTCGCAGGCTGCGCGCACCCGGTCTCAAGAAGCAGCTGTTGGCGCAGAGCTGCTTTACAGACTTAAGTGACATACCGCCGGCGTATGTCACTTATGTGCTGGAAGAGCTGCAGTCACCGCGTGTGCGGAAGACGACTGCGGAGACCTTCTCTGCATTGTCGCGCGCAAAGAGCTTCCGCCTTTCGCAGAATATGTCACTGCGAAAGGATGGGATTTCGATCCTGTGGGGTACCCAGGATCGGGTGTACCGGCTGCCAGAGTCTTTTCGCTCCATGCGTACGCTGGAGATTCCGGCCGCCCACAACTTCCCGATTTCGCATCCGGAAGAAACAGCGAAATATCTACGTCAATTGGGCATTTAG	MAHIFMTGSTGFIGRYALKELAISKENHIIHALVRSHAKWEQVCKQMGLGREHAGRITPIIGDLSAPHLGLSAPDRLMVQKADVIIHAGGPMDILLGEDEARAVFLQAAEEMLGIAEEIHKYKGLRHFIHLVGFKSPFTDDNIHSPDSIIDHLGQQPPYERMKFLADLRIRQVAKRAGFSLSVVHPSVVIGSSKHGETVQTGGLGILVKSAARKMMGIVPGGSSHWLPLVHVDHVAAFIGALAREALPVNGTYYLLDEKNGSPSMTELVTVITKELRVGKPVGSVSPRILSKVLDSPVGRKLGIPKESLDFIVKTDEAYPLAAAREVQHRYGLAHTVNTSIMPATIADLDFRLVHSQVVTDGLVRGKRGPLATLERNGTRYNGTAAANTIVFVHGTLSSADCLLPLAEQFLESTVCLVDLPGFGRSPYHHGRNVLEGHIESLVEAIRSIDTPVTLIGHSLGGLLAAHVYARVPERIRRLHLLQPVLHRAPKMYRSPLLTEAALRRLRAPGLKKQLLAQSCFTDLSDIPPAYVTYVLEELQSPRVRKTTAETFSALSRAKSFRLSQNMSLRKDGISILWGTQDRVYRLPESFRSMRTLEIPAAHNFPISHPEETAKYLRQLGI				NA	NA	NA	NA	NA
AK002_04698	957	yhaM	COG3481	3'-5' exoribonuclease YhaM	ATGAAACCTATTAATAAACTCAGCATACAAGATGATTTTGTCGGTTTTTATTTGTTAAAAGAATTGAACATGAGACAGACCAACGGCACGCCGCCGAAAGACTATTTCGATATTGTTCTTGCGGATGCCAGCGGTCAAATATCGGCCAAGTACTGGGATGTGACCATACAGGATAAAGAAACGTTCCTGCCGATGCAATTGGTCAAAATCCAGGGAACCGTACTGAGCTACAGGGACCAGCCTCAAGTCAAGATCAGCCGTATCCGCAAGGCCACCGATGCGGATGGCGTCTCGTTAACGGATTTTGTGAGGGCGGCGCCCATTCGCCCCGTGGATCTGTTACATACGATCAAACTTACGATGAACGAGATTACGGAGCCGCAGGTGCGAAGCATCGTACAGTATTGCGTGTCGAAGGTAGAAGAGAAGCTGATGCATTATCCGGCTGCCAAAACCTATCATCATGCCTATTACGCCGGGCTGGCTTACCATATCGTCCGCATGCTGGAGATTGGCGATTTTATCTGCAAGCAGCGGCCGTTTCTGAATCCGGATTTGATCAGGGCAGGCATTATCCTGCATGATATCGCGAAGCCGGAAGAGATGATCGCACAAATGGGCATCGTAACGGATTACAGCAACCAGGGCAAGCTGATTGGGCATATTGCCCTGGCGTCCAACTGGATCGTGGAGGCGGCAATCGAGAGCGACATCGCGCTTGAATCCGAAGTGGTGTTGGGCTTGCAGCATCTGGTGCTTTCCCATCATAACCTCGGAGAGTGGGGCAGCCCGGTTCAGCCGCAAACCGCCGAGGCCGTCGCGCTGCATCATATCGACCTGCTGGACGCCAAGCTACAGATGGTAGAGGACGCCCTGGATACGACGCTTGAAACGGAGCCATGGACGCCGATGATCCGCGGCCTGGATAATAAAGCGATTTATCGGTTGAAGGTATGA	MKPINKLSIQDDFVGFYLLKELNMRQTNGTPPKDYFDIVLADASGQISAKYWDVTIQDKETFLPMQLVKIQGTVLSYRDQPQVKISRIRKATDADGVSLTDFVRAAPIRPVDLLHTIKLTMNEITEPQVRSIVQYCVSKVEEKLMHYPAAKTYHHAYYAGLAYHIVRMLEIGDFICKQRPFLNPDLIRAGIILHDIAKPEEMIAQMGIVTDYSNQGKLIGHIALASNWIVEAAIESDIALESEVVLGLQHLVLSHHNLGEWGSPVQPQTAEAVALHHIDLLDAKLQMVEDALDTTLETEPWTPMIRGLDNKAIYRLKV				NA	NA	NA	NA	NA
AK002_04699	921	iolS_3	COG0667	Aldo-keto reductase IolS	ATGAAATACAGACGTCTCGGGAAAACTAATCTGAAAGTATCGGTAGTCGGAGTGGGAACCTGGCAGTTTGGCGGTGATTGGGGGAAGGATTTCAACCAAAAGGAAGTCGATGCCATCTTGACGCATGCCAAGGAGCTGGGCATTAATTTGCTGGATACAGCCGAATGTTACGGGCCTCATCATATGTCCGAGAATTTCATCGGTGATTTCTTGGCGCGCGACCAGCGCGAGGATTGGGTCATTGCCTCCAAGTTTGGCCATCGATGGCATGAGCAATGGGAGAATGCTTGGGATGCGAAGCAGATCCGAATTCAGCTGGAGGAATCACTTAAAGCGCTTCGTACCGATTATATCGACCTGTATCAATTCCATTCCGGCTCGGATGACGTGTTCAACAATGATGAGATGTGGACGATGCTGGACAAGCAGGTTCAGGCGGGAACCATCCGAAATCTGGGCATATCCATCGGAAGCAATAGAAATATCTATCAAACCGACAAGGCGGCGGAGGTGAATGCCAAAGCCATCCAAGTCGTGTATAACCGTCTCGATCAGGCGCCGGAGGAAGAGGTTCTCCCTTCATGTTTGAAGCAGGATCTTGGCGTATTGGCGCGAGTTCCGCTTGCGAGCGGCTACTTAAGCGGAAAATACAAGCCTGGAACGGTGTTCAGCGACAATGTGCGCAAGAACCGTGACCAGGATGAGATCAACGCCAAGCTGAAGCTTGTGGAGGAGATCAAGCAGAATGAAGTGCCGGAGGGCGTGAATATGGCCGAGTGGGCCTTGGCCTGGTGCTTGAAGCATCCCGCCGTCAGCTGCGTCATTCCCGGCTGCAAGAGCGTGGAACAGGTGGAGATGAACGCGAAGGCCGTGGAGCTGGATTTGGTGCAGGACGACCATCCGGGAGCCTGGAAATCTTAA	MKYRRLGKTNLKVSVVGVGTWQFGGDWGKDFNQKEVDAILTHAKELGINLLDTAECYGPHHMSENFIGDFLARDQREDWVIASKFGHRWHEQWENAWDAKQIRIQLEESLKALRTDYIDLYQFHSGSDDVFNNDEMWTMLDKQVQAGTIRNLGISIGSNRNIYQTDKAAEVNAKAIQVVYNRLDQAPEEEVLPSCLKQDLGVLARVPLASGYLSGKYKPGTVFSDNVRKNRDQDEINAKLKLVEEIKQNEVPEGVNMAEWALAWCLKHPAVSCVIPGCKSVEQVEMNAKAVELDLVQDDHPGAWKS	PGPT0018520_319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018520-iolS-K06607	NA	NA
AK002_04700	1356	mgtE	COG2239	Magnesium transporter MgtE	GTGAATTCCCGGACACTGGAGCAATGGATCCCTGACATTACAGAGAGTCTAAAGGCAAAGACGTCAAATGATTTTCAGCGAATCATCGACGAATTTCTTCCTTATGACCTGGCAAAAATACATAGTCACCTGACCGACACGGAACAAACCCGCTTTCTGCAGTTTCTGAACGAGGAACAACTGGCCGACATGATTCAGGAAATGGAGCATGACCGGCAAATCGAAGTTCTGGGCAGGCTGGGCAAAGAAAGAACGGCCATCATCCTGGACTTGATGGATAACGACGACCTGGCCATTCTGCTGGACGAGCTGTCACCCGAGCAGAAGGACGAATTTCTCAAGGGAATGCGGGACGAGGAATCCCAATTTGTCCTGAACCTGATGAAATACCCGCCGGAAACCGCCGGCCGAATCATGACGAACCGTTATGTGTGGATCCCCCAGCATTACACCGTCTCGGAGGTGGTCCAGAAGCTGAAAACCTACGTCTCCATTTCGGAAACCATCAACTATCTGTACGTCATTGATCATGACAAGAAACTGATGGGCGTGGTGTCATACCGGGGACTCATCTTGGCCGAGCCGGAGGAATATATCGTGGACATCATGCACAGCCGGGTGCTGTCCGTGCCCGTGGATGCCGATCAGGAGGAAGTCGCGCACATGATCCAAAAATACGATTTGGTCGCCATCCCCGTCGTTGAGCAGGACAACCGTCTTGTAGGGATCATTACGGTTGACGATATCCTGGACGTCGTCATTAAGGAAGCCGATGAAGACATTCGGAAAATGAACGCTACCGGTGGCAAAACCATCGACTTCAACACCAAAGCAACCGTTGCCGCCTACCGAAGATTGCCGTGGTTGATCCTCCTCTTATTCATCGGGCTGATCTCGGGAACGATCATTTCCAGATTTGAAGAGACGCTGGCACAGGTTGTGGCGCTGGCCTTCTTCATGCCCATGATTGCGGGAATGACCGGAAATACCGGAACGCAGTCGCTTGCTGTCATTGTAAGAGGCCTGACCACCAAAGAAATGACCAAATCGCTGGTGTTCCGGCTGTTAGCCAGGGAGCTGAAGGTCGGGCTAATGATCGGGGTGACGTGCGGCATTCTGATTTCTCTGATCGCATACTTCTGGCAGGGCAACCTCTATTTAGGGTTTGTGGTCGGAAGCTCGTTGATTGCCACGCTGATCGTGGGCACGATGGCCGGCACCATCATCCCCCTCATTCTGTTCAAATTCAAGATCGATCCGGCTGTGGCTTCCGGTCCACTGATTACAACCATTAACGATATTCTCTCGCTTGTTATCTACTTTGGCATCGCTACCCTGTTTCTTGCCTATATCTAG	MNSRTLEQWIPDITESLKAKTSNDFQRIIDEFLPYDLAKIHSHLTDTEQTRFLQFLNEEQLADMIQEMEHDRQIEVLGRLGKERTAIILDLMDNDDLAILLDELSPEQKDEFLKGMRDEESQFVLNLMKYPPETAGRIMTNRYVWIPQHYTVSEVVQKLKTYVSISETINYLYVIDHDKKLMGVVSYRGLILAEPEEYIVDIMHSRVLSVPVDADQEEVAHMIQKYDLVAIPVVEQDNRLVGIITVDDILDVVIKEADEDIRKMNATGGKTIDFNTKATVAAYRRLPWLILLLFIGLISGTIISRFEETLAQVVALAFFMPMIAGMTGNTGTQSLAVIVRGLTTKEMTKSLVFRLLARELKVGLMIGVTCGILISLIAYFWQGNLYLGFVVGSSLIATLIVGTMAGTIIPLILFKFKIDPAVASGPLITTINDILSLVIYFGIATLFLAYI	PGPT0013995_2817	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
AK002_04701	597			hypothetical protein	ATGAGTAAAAATTTATTTCATCCTGAAGCAAGAGAGAAACTAATGTGGCTTCATGAACCTGGGCATTGGGAGTTTACGACAGATGACAGGCTCATCCTGGATGCTCCATCGAAAGCTGATTTTTTCAAAGACCCTGCAGGAAAACATATTGCTCATTCTGCTCCCTATCTTCATCTTCAGGTTGATTCAACATTCCAGCTAATAACGCAGCTTCAGGTAGACATGCACCATTTATATGATTCCGGGTGCTTGATGTTGATGGCAGACGAGAACAATTGGGCCAAGCTATGTTATGAATTCAATGGTGAGCATGCTACCATCGTGTCCGTTGTTACTCGGAACGGCGTGTCGGATGACTGTAATTCTGAGCGTGTATTCGTTAGCAATCCTTATTTGAAAATGACGAAGAAAGACAAAACGATCTCCTTTTACTACTCATCCGACGGTGAAGTTTGGAAATTGATTCGATACTTCGGAATGGAGGCCCCGGTTCCTTTTACTGCGGGTGTGGTCGCTCAATCACCGATGGGAGCAGGCTGCCGAGTCCAATTTCTGTCTTTGTTATTATCAGAATCCGATGAGGAAAGCAGGTTTTAG	MSKNLFHPEAREKLMWLHEPGHWEFTTDDRLILDAPSKADFFKDPAGKHIAHSAPYLHLQVDSTFQLITQLQVDMHHLYDSGCLMLMADENNWAKLCYEFNGEHATIVSVVTRNGVSDDCNSERVFVSNPYLKMTKKDKTISFYYSSDGEVWKLIRYFGMEAPVPFTAGVVAQSPMGAGCRVQFLSLLLSESDEESRF				NA	NA	NA	NA	NA
AK002_04702	1077			hypothetical protein	ATGAATACAGATCAACGTTCACATCATTCGCAAAAAACGGCTTTGGTTGTAGGGGCCAACGGGGTGATCGGCCGCAACCTCATCGAGTACCTTGCGACGCTTCAAGGCTGGGATATCATCGGCGTATCGCGCCGAGGCGGGGAATCCACGAACCGCGTACGTTATATCTCCGCCGATCTGCTTGATCGGGAGGATACGATCGCCAAATTAAGCTCCTTGACCGAAGTAACGCATATCTTCTACGCAGCCTATCAGGACCGGCCAACATGGGCCGAACTCGTCGCGCCGAATCTGGCCATGCTCGTTCATGTCGTGGAAGCCATCGAGCCCATTGCCGACAATCTGCAGCATGTCAGCCTGATGCAGGGCTATAAGGTATACGGCGCACATCTCGGTCCATTCAAGACGCCAGCCCGGGAGACGGATGCGAATCATATGCCGCCGGAATTCAATGTGGATCAGCAGAACTTCCTGGAGGAACGGCAGCAAGGCAAAGCCTGGACCTGGTCCGCGCTCCGCCCCTCCGTTGTCAGCGGATTCGCCCTTGGAAACCCGATGAATCTGGCGATGGTCATTGCCGTCTATGCCTCGATTTCGAAAGAGCTCGGCATTCCTCTGCGTTTTCCAGGTAAGCCGGGAGCCTATCACAGCCTGCTGGAGATGACCGATGCCGATCTGCTCGCGAAGGCGACCGTTTGGGCAGCGACCGATGAACGCTGCGCCAATCAAGCCTTCAATATTACGAACGGGGACCTGTTCCGCTGGAACGAATTGTGGCCGAAGATCGCATCGTATTTTGAGATGGAAACCGCGCCGCCCCTGCAGATGAATCTGGAAACGGTCATGGCGGATAAAGAGCCGGTTTGGAATCGCATGATTGATAAGCATGGGCTTGCGAAACACGATTATGAAGAGGTTTCATCCTGGAAGTTCGGTGATTTCGTGTTCTCCTGGGATTATGATTTCTTTGCAGACGGCTCGAAGGCCCGCCGCTTCGGGTTTCATGAGTATGTCGATACCGAGGCCATGTTCATGAACATCTTTGACGAACTCCGGCGGCGTAAAGTCATTCCCTAA	MNTDQRSHHSQKTALVVGANGVIGRNLIEYLATLQGWDIIGVSRRGGESTNRVRYISADLLDREDTIAKLSSLTEVTHIFYAAYQDRPTWAELVAPNLAMLVHVVEAIEPIADNLQHVSLMQGYKVYGAHLGPFKTPARETDANHMPPEFNVDQQNFLEERQQGKAWTWSALRPSVVSGFALGNPMNLAMVIAVYASISKELGIPLRFPGKPGAYHSLLEMTDADLLAKATVWAATDERCANQAFNITNGDLFRWNELWPKIASYFEMETAPPLQMNLETVMADKEPVWNRMIDKHGLAKHDYEEVSSWKFGDFVFSWDYDFFADGSKARRFGFHEYVDTEAMFMNIFDELRRRKVIP				NA	NA	NA	NA	NA
AK002_04703	375	ytcD_8	COG1733	putative HTH-type transcriptional regulator YtcD	ATGGAGTCTAAAGAAAAAGTGTACAACACGGCGGTCGAAGCTACGCTGGAGGTCATTGGCGGAAAGTGGAAACCGGTCATTCTCTTTCATCTTACTTTCGGTAAAAGGCGAAATAGCGAATTTTTAAGCCTGATTCCCCAGATCACGCAGAAAATGCTGACACAGCATCTGCGGGAGCTGGAAGAGGAGGGCGTTATAGTACGCAAAACGTACAATCAGGTTCCACCCAAGGTGGAGTATGAACTGAGCGAGTATGGCTGGAGCCTGAAGGAGATTCTTCATCTGATGTGCCGATGGGGAGATGCGCATATCGAGCGAAAATACGGCGAGTCCGCAACCGTGCGGGAAAAGCCCGCGCTTGAAGAAACGCATTAA	MESKEKVYNTAVEATLEVIGGKWKPVILFHLTFGKRRNSEFLSLIPQITQKMLTQHLRELEEEGVIVRKTYNQVPPKVEYELSEYGWSLKEILHLMCRWGDAHIERKYGESATVREKPALEETH				NA	NA	NA	NA	NA
AK002_04704	1350	norG_3	COG1167	HTH-type transcriptional regulator NorG	ATGCAAAAATACTTGTCCATTCTCTCGGAGCTGGAAACCAAAATTTCGGAAGGAGAGTATCGTCCGGGACAAAAGCTGCCTTCCGTGCGGCGTGCGGCAGCCATGTACGGATGCAGCATCAGCACCGTACTACGGGCATACGCCGAGCTGGAGAAACGGCATGCGATTTATTCCGTATCCCAGAGCGGGTATTATGTGGTGGACCGTCCGAAATCGGAGGAGGACGGGAGCGTATACACGATGATCGATTTTTCTTCGGCCTCCCCTGACGTGAATGTATTCCCGTATTTGGATTTTCAACATTGCCTGAACAAGGCGATTGATACCTATAAATATGAGCTGTTTACGTATGGCGATACGCAAGGGATGGAGAAGCTTCGCCATACCCTGGTCTCTCACCTGGCCGGAAATCAGGTGTTCACTACCGCTGAGAGAACCATGGTCACGGCAGGCGCTCAGCAGGCGCTCGAGATCTTGGCGAAAATGCCGTTCCCTGGCGGAAAGTCCATCATTCTGGTGGAACAGCCCAGCTACAATAACTACCTGAAGTTTCTGGAGAGCGAGGGATTCCCCGTTATCGGAATCGCGCGCACGGCAGCAGGCATCGATCTGCAGGCTTTGGAGGAGCAATTCCAAACCGGACGCATTAAATTTTTCTATACGATGCCGAGATATCATAATCCGCTGGGCACTTCCTACGGCACCGAGCAGAGGAAGGCCATTGCAAACCTGGCGACCCGATATCACGTTTATATTGTGGAAGACGACTATATGGCCGATTTAGGCGAAGAACGGGGATACGATCCAATCTATGCTTACAACAGATCCTCGCACGTGGTGTATCTGAAGAGCTTCTCGAAGATCATTTTTCCCGGACTGCGATTAGGGGCCGTCGTCCTGCCGGAACGATTGCTCGAAACGTTCCATGCCTACAAAAGTTACGGGGATACGTCCCTGCTGTCCCAAGCGGCACTCGAAATTTATATCAGCAACGGGATGTACGAGCGGCATAAACAGAAAATTTACAGCCAGTACCACACACGTATGCAAGCTCTGAACGCTGCGGTGCGGAAGTTCGAGGGGACCGGGTTCATTGAAGCCGTGCCCGGCGACGGCGGTATATATCAGCTGTTTAAGCTGCCCCAGACCGTAAACCTGGAGCGGTTGATCAGGCGGCTGAAGGAACGGAACGTTCATGTGGTGTCCGGCAAGCTGTTTTATCTGTCCGACTATCTGATGCGCGAGAAGTTTATACGTATCAGCATTTCCAGAGCTCGATTGGACCAGATCGAGGAAGGGGTTCGTGTTATAGTGGAAGAAGTAAAGCGGGAGATCGGAAATCTGTGGTAA	MQKYLSILSELETKISEGEYRPGQKLPSVRRAAAMYGCSISTVLRAYAELEKRHAIYSVSQSGYYVVDRPKSEEDGSVYTMIDFSSASPDVNVFPYLDFQHCLNKAIDTYKYELFTYGDTQGMEKLRHTLVSHLAGNQVFTTAERTMVTAGAQQALEILAKMPFPGGKSIILVEQPSYNNYLKFLESEGFPVIGIARTAAGIDLQALEEQFQTGRIKFFYTMPRYHNPLGTSYGTEQRKAIANLATRYHVYIVEDDYMADLGEERGYDPIYAYNRSSHVVYLKSFSKIIFPGLRLGAVVLPERLLETFHAYKSYGDTSLLSQAALEIYISNGMYERHKQKIYSQYHTRMQALNAAVRKFEGTGFIEAVPGDGGIYQLFKLPQTVNLERLIRRLKERNVHVVSGKLFYLSDYLMREKFIRISISRARLDQIEEGVRVIVEEVKREIGNLW				NA	NA	NA	NA	NA
AK002_04705	984	xsa_2		Xylosidase/arabinosidase	ATGACCAAGCCCGTACAGCCTAACGAACCGATCGTAACCCATATCTATACCGCAGACCCTTCCGCCCACGTATTCGAGGGCAAAATTTATATTTATCCATCCCATGACCTGGATCACGAGAACACGTCCAATGATAACGGCGACCAATATGACATGGAGGACTACCACGTTCTCTCGATGGAGGATGTGAATGCTCCATGCGTGGACCATGGCGAAGCCCTTCATGTGAAGGATGTACCATGGGCGAAGAAGCAAATGTGGGCACCGGATGCTGCCTTCAAGAACGACACTTACTATTTATATTTCCCTGCCAGGGATCATGACGATATTTTCCGTCTTGGCGTAGCTACAAGCTCTTCGCCTTCCGGTCCATTCAAGCCGGAGCCCCATTACATTCCGGGCAGCTACAGCATCGACCCTGCCGTATTCGTGGACGACGATAACCGGGCTTATATTTACTTCGGCGGTCTCTGGGGCGGACAGCTGGAACAATGGCAGACCGGTTCGCACATTCCGGATGCGGAGGGACCTGCGGCAGATGCGCCTGCCATCGGACCGCGGGTCGCTGAGCTGAGCGACGACATGCTTACTTTTAAAGAGGCGCCCCGGGAAATTTCCATCGTTGATGAGAAGGGCAGCCCGATCGTTGCAGGGGATGAGGAGCGAAGATATTTTGAAGGTCCTTGGGTCCATAAATACAAAGGCATCTACTATCTATCGTACTCCACCGGATCAACGCACAAAATCGTCTATGCCACGAGTGAAAGTCCGACGGGCCCCTTTGAGTTCAAGGGCACGGTTCTGACACCCGTTATCGGCTGGACGACCCATCACTCCATCGTTCAATTCCAGGATAAATGGTATCTCTTCTACCATGACAGCTCCCTGTCCGGCGGTGCAGACAACAAACGCAGCGTCAAATTCACCGAGCTGACCTACAACGAGGACGGCACCATCCAGACGATTGACCCGTACGGCAAATAA	MTKPVQPNEPIVTHIYTADPSAHVFEGKIYIYPSHDLDHENTSNDNGDQYDMEDYHVLSMEDVNAPCVDHGEALHVKDVPWAKKQMWAPDAAFKNDTYYLYFPARDHDDIFRLGVATSSSPSGPFKPEPHYIPGSYSIDPAVFVDDDNRAYIYFGGLWGGQLEQWQTGSHIPDAEGPAADAPAIGPRVAELSDDMLTFKEAPREISIVDEKGSPIVAGDEERRYFEGPWVHKYKGIYYLSYSTGSTHKIVYATSESPTGPFEFKGTVLTPVIGWTTHHSIVQFQDKWYLFYHDSSLSGGADNKRSVKFTELTYNEDGTIQTIDPYGK	PGPT0019091_801	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
AK002_04706	639	sdpI	COG5658	Immunity protein SdpI	ATGAGGAAAAAGAATAGTTCGATGCTGGTTATAACAACGCTGATATGCTTGCTGCCGATTATTTTATCGATGACGCTGTACAATCAATTGCCTGATCAGGTGGCGGTTCACTGGGACGCGGCGGGCAACCCGGATAATTATGTGCCTAAGGCGGTTGCGGCGTTTGTGCTTCCGTTGATTACGGCGGTTATTAACGTCATTGTCAATGTGGGGCTTAACAACGATCCTAAGAAAATGAACGCTGCCCCGGTTTTAAGAACAATGGGTCTATGGCTCATCCCCGCACTGTCTCTCATTCTCATGCCAATCACGCTGTTCAAGGCTATGGGGGCCGAGCTGCCGATCCAGACGATTGCACCGGCTCTAGTGGGCATGCTGCTCGTGATCACCGGCAATTATTTGCCGAAGAGTAAACAGAACTATACGGTGGGCATCAAGCTGCCTTGGACGCTGAACAGCCAGGATAATTGGAATAAAACGCATCGTTTTGCCGGGTACCTGTGGATGGCAGGCGGAGCGTTCATGATCCTGACGGCGTTTCTGAAGGTGAACCTTGCCATCGCCATCGTCCCTATCATTATTCTGATCGCGGCGGCTCCGGCGATTTACTCTTTTTCTTTGTTTAAAAAGGGCGTGTAA	MRKKNSSMLVITTLICLLPIILSMTLYNQLPDQVAVHWDAAGNPDNYVPKAVAAFVLPLITAVINVIVNVGLNNDPKKMNAAPVLRTMGLWLIPALSLILMPITLFKAMGAELPIQTIAPALVGMLLVITGNYLPKSKQNYTVGIKLPWTLNSQDNWNKTHRFAGYLWMAGGAFMILTAFLKVNLAIAIVPIIILIAAAPAIYSFSLFKKGV				NA	NA	NA	NA	NA
AK002_04707	225	sdpR	COG0640	Transcriptional repressor SdpR	ATGCTCAAACGCGGCAAAATGTCAGCCGGAGAGATCGGTCAGCATTTCAATATGACCGGGGCGACCATCTCGTATCATCTGTCGCAGCTGAAGAAGGCCGGACTGATATTTGAAACAAAATATAAAAATTATATTTACTATGAGATCAACGTATCCGTCTTCGAAGAAATCATGCTGTGGTTTTCACAATTTAACGGGGGGAAACAAGATGAGGAAAAAGAATAG	MLKRGKMSAGEIGQHFNMTGATISYHLSQLKKAGLIFETKYKNYIYYEINVSVFEEIMLWFSQFNGGKQDEEKE	PGPT0004735_5116	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_04708	510			hypothetical protein	ATGAATTTGAACATACGGACAGGACGGACAGAGGACCTTCAGGAAATCATGGCTTTGATTGCACGCTGCGTAACGGTCATGCAGGCTGGAGGCAGCGATCAATGGGATGATCAATATCCGAACCGGGAGGTAATCGGTGAGGATTTACAGCGCGAAACGTTGTTTGCGGCTGAAGGCGAAGGCCGCATTTTAGGGATCGTTGTTCTCGACGAATCGCAGGCAGAACAGTACCAAACCATTAGCTGGAAGCAGGACGAGGGACCGCATCTTATGATGCATCGCCTTGCCGTCGATCCGGAAGCACACGGGCAGGGCATCGCGCGAACATTGGTAGCTTTCTCCGAAGTGTATGGGGCGCGCCAGGGTTACCGAAGCCTACGACTGGACACCTATGCCAAGAATACGGCTGCGCTTAAGCTGTATCAAGGCTTAGGTTATGACCTGCGGGGAGAAGTGAATTTCCCGGATAGAGCGGCAAGCTTTCCGGTATTTGAGAAGGTGCTTGGATAA	MNLNIRTGRTEDLQEIMALIARCVTVMQAGGSDQWDDQYPNREVIGEDLQRETLFAAEGEGRILGIVVLDESQAEQYQTISWKQDEGPHLMMHRLAVDPEAHGQGIARTLVAFSEVYGARQGYRSLRLDTYAKNTAALKLYQGLGYDLRGEVNFPDRAASFPVFEKVLG				NA	NA	NA	NA	NA
AK002_04709	582	comR_2		HTH-type transcriptional repressor ComR	ATGGGACGAATCCGCGAATTTGATGAAGAGAAGGTATTGGATGCCGCCATGCAGCTGTTTTGGGAGAAGGGATATGAGGCTACTTCATTAACCGATTTGACCTCCAGAATGGGTATTCAGCGGCCCAGTATTTACGCTGCGTTCGGAGACAAAAAAGAACTGTTCGAAACCGCGCTGCGCAAATACACGAGAGGGCATGCTTCCGAGGTGCGAACCAGGCTGCAAAATCATCGATCGGTCAGGGAGGCGTTTCGAGCCTTTTTTGAGAATGTAGTGGATGAGGAATACGCCGAAAGCCGCAGCCGCGGATGTTTTTGCATTAATACGATGGTCGAGCTTGCGCCTCATGATGAGAAATTTGAAATTCTGACAAGGGAACATCAGATGTACCTGGCGGTCATCTTCCAGGAAACCATTGAGCGGGGCATACAATCGGGCGAGCTTGCGAAGGGCACGGACGCCAAAGCTTTATCGCAAGCGCTCATCGTATCCTTGATTGGGCTGACCGTGATGTTGAAATCCCGTCCGGAGCGCTCTTTCGTAAACAATACGATAGAGGTGACTCTTACATTGCTTAAATAG	MGRIREFDEEKVLDAAMQLFWEKGYEATSLTDLTSRMGIQRPSIYAAFGDKKELFETALRKYTRGHASEVRTRLQNHRSVREAFRAFFENVVDEEYAESRSRGCFCINTMVELAPHDEKFEILTREHQMYLAVIFQETIERGIQSGELAKGTDAKALSQALIVSLIGLTVMLKSRPERSFVNNTIEVTLTLLK	PGPT0004136_62	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041	NA	NA
AK002_04710	1272			putative transporter	ATGAAAATGGAGGGGATGTTGGATAAAAAAGCGGCCCGTAACGAAACGGGGGCTGTTACGTCACAGGGGGCGCCAAGTTCGTCTGAATGCGTTAATGCTGCTCCAATGACTCGTTACGTGACGCTATTGTTTGCGATTGCCTGCGGCATGTCGGTTGCTAACATCTACTTTGCACAGCCACTGCTCGATCAGCTGTCAAACGAGTTCAACATGGATTATTCCATCATCGGCATTGTAATTACTGTCACGCAGGTTTTCTATGCATTCGGACTGCTGCTGCTCGTGCCTCTGGGAGATTTACTGAACCAGCGCCGATTGATTATCGGTCAGATGACGATCTCCGCAGCAGCTCTGGTTATCGTTGGGACTGCTTCCTCTGGTGCGATGCTCTTCGCAGGCTTGGCTTTGGTGGGACTGCTTGCCGTTGTGACGCAGACCATCGTGGCATTCGCGGCAACTATGGCTGCCCCTGCTGAAAGAGGGCGTGTCGTCGGCATGGTAACCAGCGGAATTGTGATCGGGATCCTTCTTGCGCGAACCGTTTCCGGTATCCTGAAGGATCTTGCAGGATGGCGCTTCGTTTATTTGGTTTCGGCTGCGTTGATGCTGCTCATGGTTTACGCATTATATAAGGTGCTGCCAAATGCTGCGCACAAGGTAAAGACTCTTTCTTATGCTCAACTGCTTAAGTCGGTATGGATGTTGTTCCTGCAAGAACGGCTATTACGCATCCGCGCTGTGTTGGCTATGCTGATTTTTACGGCTTTCAGCATGTTGTGGACCCCATTGGTACTGCCTCTTAGCTCGCCGCCGCTATCCCTTTCGCACTCGGCTATCGGGGCGTTCGGCCTCGTGGGCGTCGTAGGGGCATTGGCTGCAGCAAAGGCCGGTAAGCTGGCCGATCGAGGTGATGGACAGCGAACGACGGGAATTGCATTGTTCCTGCTATTGCTGTCATGGCTGCCCATCGGCTACACGGAACGGTCCCTGTTCGCCTTGGTCATTGGCATTATTCTGTTGGACTTGGCGGTACAGGCCGTGCATGTCACGAATCAGAGCATGATTTTTGCATTGCGGCCGAAGGCGCGCAGTCGGATTGTTGGCGGCTACATGATGTTCTATTCCATCGGGAGTGCTGCCGGTTCCATTTCTTCAACCCATATTTACGCACACTTCGGCTGGCATGGGGTATGCGTGCTCGGGGCCTCCGTCAGCACTGTTGCTCTCATTTTTTGGGCTGTGACCAAAGGCGCTAAAGGTGCTGCCCACTGA	MKMEGMLDKKAARNETGAVTSQGAPSSSECVNAAPMTRYVTLLFAIACGMSVANIYFAQPLLDQLSNEFNMDYSIIGIVITVTQVFYAFGLLLLVPLGDLLNQRRLIIGQMTISAAALVIVGTASSGAMLFAGLALVGLLAVVTQTIVAFAATMAAPAERGRVVGMVTSGIVIGILLARTVSGILKDLAGWRFVYLVSAALMLLMVYALYKVLPNAAHKVKTLSYAQLLKSVWMLFLQERLLRIRAVLAMLIFTAFSMLWTPLVLPLSSPPLSLSHSAIGAFGLVGVVGALAAAKAGKLADRGDGQRTTGIALFLLLLSWLPIGYTERSLFALVIGIILLDLAVQAVHVTNQSMIFALRPKARSRIVGGYMMFYSIGSAAGSISSTHIYAHFGWHGVCVLGASVSTVALIFWAVTKGAKGAAH				NA	NA	NA	NA	NA
AK002_04711	1482			hypothetical protein	GTGAAGAAATTCAATCGCAGGGTAGCTTATATGTTAGTGACGATCCTGTTAGCAGTTAATTGTACGGTGCTGGGCTCTGCAGGAGCAGCGGAAACAACGAATGGAGATTCCCACCCCATACCGGTAAGCGTGGCCGGGGGCAGCGGACATGGTGTTGCGGCATGGAGCGACGGCTCCGTGACCGCCTGGGGTTATAACAAGTCAGGTCAAGTAGGTGACGGGACCAGCATTCATCAATGGGTGCCCAAGCAAGTCGCGGGTCTGACTGATATTGTTCAGGTGGCGGCAGGCGACAATTCTTCATTTGCCTTGGACAAGAACGGGGACGTGTGGGCCTGGGGCGATTATTACTCGCCTTATATTAACGAGGATCCGTTGTTACCTTTCCAAAAAAGGGGAGGGCTGATCAAGCTGGAAGGTCTTAAGGATGTAGCCAGCTTGTCCATTTCAAACCATGGTTCTGTCGCATTGCATAAGGATGGGTCTGCGACGATATGGAGTCCGACGTTTGATCCGAATGATCATTTAAAGATGACGGTAAAATATTTCCCTATCAAGGGAGTCACGAATGCAAAAACAATAGTGGTCGCCGGACACGAGGCCCTGATTCTCGGTAAAGACGGCAGCGTCGATATGTTAACGGTATATAATAGCTTCTACGACCGGTTCCGCCTGGAACGCGAGTTTCGCGAAGTTAAACCGCTGGTTGCTTCCTCCATTACCGGAATCGCCGCGCATTGGTATGACGTGTTTCTGCTGCATGAGAACGGAACGGTGCTGCGGTGGAATGTGAATACGAAGCAGCAAGCGCCTGCTGCGGTGAAGGGATTAAACGATATCCAAGAGATAAGGACGGGGGCCAACCGTTTATTTATGCTTAAAAACGACGGCACGGTCTGGCAGTGGAATTACAACGATCCGACGGCAAAGCCTTTTCGAGTGAAAGGTCTGACAGGTATAACGGCACTTTGGGGAAGCAAGGGATATACCGGTTATGCAACCAATCAGGACGGCAAGGTGCTGGCTTGGGGAGAAGAGAAATATCAAGGCAGCGGCTCGCCTAACGAGAACGATGGGAATCCGGTCATGGTACAGCCTCCTTTATCTTGGACGGTAAACGGACAAACGGTTAGCTTCTACGGTTCTTCCGCCATGGTGAAAGGCAAGCTGTATGTACCGTATACTAGCGTATTTGAAGCCCTGGGGATCAAAGTGAAGCGCGGACAGTCCAATCCGGATCCGAAACACGGAAATCAGCGGTTTCCGGTATGGTCTTTCTCTTATGGCGAAAATACCGTATCCATTAAATCCAGTGATCCCGCCGTTGTATTGGTGAACGGGAAGGTGACGCGAGATGATGCAAGTGTTCCATTCCTGGCGAATTCGACCATGTTTCCCTTGGAGTTGATCACATCAAAGCTTGGCATTCCGATGTCCTGGAATAAGACGACAGGCGAAGTGATCCTGGGGAAAACGCCATAA	MKKFNRRVAYMLVTILLAVNCTVLGSAGAAETTNGDSHPIPVSVAGGSGHGVAAWSDGSVTAWGYNKSGQVGDGTSIHQWVPKQVAGLTDIVQVAAGDNSSFALDKNGDVWAWGDYYSPYINEDPLLPFQKRGGLIKLEGLKDVASLSISNHGSVALHKDGSATIWSPTFDPNDHLKMTVKYFPIKGVTNAKTIVVAGHEALILGKDGSVDMLTVYNSFYDRFRLEREFREVKPLVASSITGIAAHWYDVFLLHENGTVLRWNVNTKQQAPAAVKGLNDIQEIRTGANRLFMLKNDGTVWQWNYNDPTAKPFRVKGLTGITALWGSKGYTGYATNQDGKVLAWGEEKYQGSGSPNENDGNPVMVQPPLSWTVNGQTVSFYGSSAMVKGKLYVPYTSVFEALGIKVKRGQSNPDPKHGNQRFPVWSFSYGENTVSIKSSDPAVVLVNGKVTRDDASVPFLANSTMFPLELITSKLGIPMSWNKTTGEVILGKTP				NA	NA	NA	NA	NA
AK002_04712	1302			hypothetical protein	ATGACAGAACGGCTGCCATGCCGAAGCGAAGGATGTTCGGCAACGATATTGCCGGCAACCGCGGCCAAAACCGGCGGTTATTGCATGCCGTGCAAGCAGGAGATGGAGCGCGCAGAACGGCAGCGTTACATAGAACAGCACCGGAGAGATATCGACTTGTACGAGGGGATAACGGACCCGGTAGAGATCCTTAAGATCATGCATACCCCGGTGAAGCGGGATCCATTCATCCGATATATTCCCTATCCTCTGAAAAGAGAAGAGGTATATTCCGCTTTATCTGCGGGTGATGCCGACCGCATGCTGAATGCAGCCCTTGAACTGCTGGAATCGGGTGATGAGGACACCTGCCAGGAGATTCTTGTGTCCTTGATCTGCTATCGGAACCGCTCGCTTGAAACCTGCATACCGATACTGCTGGAGCGGGGGATCTATTATCCCGGCATTTTGTTCAAAGATGCATCTGCCCATAGCCGCGACGAACTGCTTCAACAAGTGAAACAGGACAAGGATAACCGCAACCATCTGCTGTTGGCCTTGGCTTGGATCGGGGATGATCAGGTCGTGCACCAATTTCAAGAATGGAGGTTCGATCCTCCATCTTGGGCGAAGGAGCTGTATGTCCCGCCTGAAGCTTATGCGCATGAGGGGGGCTGGGAGCTTGCGGAGAATGGGAGCAAACGCCGACTATTCTACCATGACAGCTACGCCATAGCGAAAATAGTGCCATCAGAAAGCACTTATGCAGCGGAACCCGAGCCCGCACAATTTTTGAAGGAGGATTCCACTTCCTGTCCATGGTGCGGAAACAGCCTGACCACTTTGGCGGATCTGGACATCAGCCATCCGAAGCTTCGATTCCTGGGGTTGTCCGGAGAGAGGCTTCGAGTGACCACCTGCGTGATCTGCAGTTGTTACGATACGATCTATATGGATGTAGATTTCCGCGGAAAATCCGAATGGAGCCAGACTAATATTAAACCGGAATATGTGCCTGAGCCTGATTCCGAGGAGGGTGAGCGAAGCTTTGCGTCGGCGGGGCAATCCTTGCGGCTTGCGGACAACCCTCGCAGCAGCTATTATGCCGCCTATTGGGCGCTCGGGCCGGCGGTCTCGCAAATCGGCGGTTACCCGGCTTGGATCCAGGACGCCGTCTACCCTTCCTGCCCTTGCTGTTCCCGAAGCATGACATTCATCGGGCAGCTGGATTGGGAACAGGTCGAGGAGTACGGGGAAGGCATCTATTATATGTTCCTGTGCGCGGACTGCAAGGTCACGGCAACTTTATTCCAACAAACATAG	MTERLPCRSEGCSATILPATAAKTGGYCMPCKQEMERAERQRYIEQHRRDIDLYEGITDPVEILKIMHTPVKRDPFIRYIPYPLKREEVYSALSAGDADRMLNAALELLESGDEDTCQEILVSLICYRNRSLETCIPILLERGIYYPGILFKDASAHSRDELLQQVKQDKDNRNHLLLALAWIGDDQVVHQFQEWRFDPPSWAKELYVPPEAYAHEGGWELAENGSKRRLFYHDSYAIAKIVPSESTYAAEPEPAQFLKEDSTSCPWCGNSLTTLADLDISHPKLRFLGLSGERLRVTTCVICSCYDTIYMDVDFRGKSEWSQTNIKPEYVPEPDSEEGERSFASAGQSLRLADNPRSSYYAAYWALGPAVSQIGGYPAWIQDAVYPSCPCCSRSMTFIGQLDWEQVEEYGEGIYYMFLCADCKVTATLFQQT				NA	NA	NA	NA	NA
AK002_04713	306			hypothetical protein	ATGGCCATGAGAAAACAGGCCGGTCTCCAACTGAGGTGGACTTACCATAGAGTAGGGGCCGGTCTCCAGTTGAGGTGGACTTACCATAGAGTAGGGGCCGGTTTCCAGTTGAGGTGGACTTACCATAGAATAGGGACCGGTCTCCAGCTGAGGTGGACTTACCATAGAGTAGGGGCCGGTCTCCAGTTGAGGTGGACTTACCATAGAATAGGGACCGGTCTCCAGCTGAGGTGGACTTACCATAGAATAGGGGCCGGTCTCCAGTTGAGGTGGACTTACCATAGAATAGGGCCGGTCTCCAGCTGA	MAMRKQAGLQLRWTYHRVGAGLQLRWTYHRVGAGFQLRWTYHRIGTGLQLRWTYHRVGAGLQLRWTYHRIGTGLQLRWTYHRIGAGLQLRWTYHRIGPVSS				NA	NA	NA	NA	NA
AK002_04714	855			hypothetical protein	ATGAACATATTTGTTGCAGGCTCTACGGGAGTCATCGGCCAGCGGCTGCTTCCCAAGCTGGTGCAAGCCGGTCATGAGGTTGCAGGCATGACTCGGAATAATCAGGGTAAAGGGTTGATCGAATCCTGGGGAGCAAGAGGGATCGTTGCGGATGCTTTTGACCGCGAAGGAATGATCGCCGCAATCGGGGAGATCCGGCCGGATGTCATTATCCATCAGCTTACTTCGTTAAGCCAATGGAATCTGGAGGATAATGCCAGAATTCGGATAGAGGGAACGCGTCATTTGGTGGAAGCCGCCCAAATCCATGGCATTAAGCGAATGATTGCCCAGAGCATTGCTTGGGCGTACGAGCCGGGAGAGCATCCCGCCACCGAAGACGCCCCCCTGGATGTCCATGCGCCTGTACCTCGCAAGTCGACGATAGACGGTATCGTATCGCTGGAGCATGCCGTTGCCCAAATGCCGAGCCACGTCATTCTAAGGTATGGAATGTTCTACGGTCCCGGCACGTGGTACGACGCTAACGGAATCATGGCGGAAAAAGTACGAAGTCGAGCTCTGCCGGCAACGGATGGCGTTCAGTCCTTTCTCCATGTCGAGGATGCGGCAAATGCCGCTCTGCAGGCATTGAACTGGCCGTCAGGCCCGGTCAACATCGTGGACGATGAGCCTGCTGCGGGAACGGCATGGCTGCCGGTGTATGCCGATGCGCTGCAAGCGCCAGCTCCAGCCTATCAAGCAGGGAGCAAGCGCGGCGAGCGCGGCGCATCCAACGCCAAAGCTCGGAAGGAGTATGGCTGGCAGCCGCTCCATCCCACCTGGCGAACCGGGCTAGCGCAATCGCTGAGGTGA	MNIFVAGSTGVIGQRLLPKLVQAGHEVAGMTRNNQGKGLIESWGARGIVADAFDREGMIAAIGEIRPDVIIHQLTSLSQWNLEDNARIRIEGTRHLVEAAQIHGIKRMIAQSIAWAYEPGEHPATEDAPLDVHAPVPRKSTIDGIVSLEHAVAQMPSHVILRYGMFYGPGTWYDANGIMAEKVRSRALPATDGVQSFLHVEDAANAALQALNWPSGPVNIVDDEPAAGTAWLPVYADALQAPAPAYQAGSKRGERGASNAKARKEYGWQPLHPTWRTGLAQSLR				NA	NA	NA	NA	NA
AK002_04715	183			hypothetical protein	ATGAACCATTCCGTTAAAAAGGTGAATATGGGTGTCATCCTATGCAGACATTGCAACGCTCTAATCGATACGGTGGATACGAATCGAATCGCGACCTTTTATGGCGTATGCAATCAACCGGAATGCCGGCAGCAGCGCAGCGCTACGAATGCGTCGATACGGGATGTAACAGAAGAAGAGTAA	MNHSVKKVNMGVILCRHCNALIDTVDTNRIATFYGVCNQPECRQQRSATNASIRDVTEEE				NA	NA	NA	NA	NA
AK002_04716	648			hypothetical protein	ATGTCACGGTTTGATCAACTGTATGAGCTATGGATACACACGAATATACTGAATGAAAAGAATCCCCGCAGGCTCGAAATCCTTAATAAAGGCATAGGCCACGGCACCGTCGAGTTTCTGCGTTCCGTATGGTTTCCGGCGATCGGTCATTTCAATGACTTGCATCCGGAATGGGAAGTACGCGATTTCAGCAATGGTTATCGTTATTTGGACCTCGCCTATATGCCTGGTGATGCTAGAGGAGGCATCGAAATACAAGGATACGGACCGCATGCCCGCGATCTGGACGTCAGAAGGTTTAAGGATTTATGTCGCCGCCACTGTTTATTGGCACTGGATGGCTGGACATTCCTTCCCATAGCCTATCCCTCCATCGTCGAAGAGCCAAAACAGTGCCAGCAGCTCATCCTATCCTTTGTCGGCAGATTCGTTGCAACCGATGTACCTGCGTCATTAAGCTGGCTGGAGGCAGAAGCTGTGCGATTTGCCCGGCGACTTCTGCGCCCTATAACCCCTTTGGAGCTTGCCGCCCATCTTAGGATAAGCGACCGGCATACCCGACGAATATTGCACAAACTGGTCGAGCTCCGGATTCTGGACATCGCAAGCGGAGAACAACGAGCCCGTACCTACAAACTGCGCTTGTAA	MSRFDQLYELWIHTNILNEKNPRRLEILNKGIGHGTVEFLRSVWFPAIGHFNDLHPEWEVRDFSNGYRYLDLAYMPGDARGGIEIQGYGPHARDLDVRRFKDLCRRHCLLALDGWTFLPIAYPSIVEEPKQCQQLILSFVGRFVATDVPASLSWLEAEAVRFARRLLRPITPLELAAHLRISDRHTRRILHKLVELRILDIASGEQRARTYKLRL				NA	NA	NA	NA	NA
AK002_04717	630			hypothetical protein	ATGGCAGGCTCCGTTTTTAAACAAGAAGTGATAAAGGCAACGGAACGTTCGTGGGAAGCATGGGTCGTAGCCCTTGGGCAGGAAGTGGACCCGCTCTGGTCCCATGAGCAGATCAGAAACCACATTGTTGAGCAGCATCAGGTATCCGGGGAGTGGGGCGAATGGATCGCCACGATGTACGAACAGCTGATGGGCCGGGTGCCTGTCGGCGTTACGAAAGATGCCGGGGTTCAGATCGGGATCAGGAAAACGATGGCCGTGACGAAGGAGAGCTTGTGGGATTTCCTCACGTCTCCAGAGGGACTGTCATTATGGATCGGAGCTGTTCCTTCTTTGGAGCTGCGGGTCGGGCAGGAATATGAGTCGAAGGAAGGCGTGTCCGGCAAAATTACGGTGGTCGTCCCTTACCATAAGCTGCGCCTGACGTGGAAACGTAAGGAGTGGGACAACCCGTCCCGGCTGCAAATTTATGTGCTGTCCACGAAAACGGGAAACACGACCATCGCGATCCATCAGGAGATGCTGGATGACGTTTATGTGCGAGAGATCATGAGGCGTTTTTGGGATGAGACGCTGATTGAGATCCAGCATCAGGTGGAGGCGCAGACCGTAGTGAGGTTTGAGGACTGA	MAGSVFKQEVIKATERSWEAWVVALGQEVDPLWSHEQIRNHIVEQHQVSGEWGEWIATMYEQLMGRVPVGVTKDAGVQIGIRKTMAVTKESLWDFLTSPEGLSLWIGAVPSLELRVGQEYESKEGVSGKITVVVPYHKLRLTWKRKEWDNPSRLQIYVLSTKTGNTTIAIHQEMLDDVYVREIMRRFWDETLIEIQHQVEAQTVVRFED				NA	NA	NA	NA	NA
AK002_04718	969			hypothetical protein	ATGTCCAAGGCGGATAATATGCTGGCAATTCTTTGGCTGCTGAAATCGCGCAAGAGAATTTCGGCAAAACAGCTATCAGAGGAACTGGGCGTTCACATCCGAACGATTTACCGGAATATCGATGCCCTATGCATTTCGGGAGTGCCTGTCATTTCGGAGATAGGACGCGACGGAGGGTACTCCATTCCGGATCATATCAAGCTGGAGCCCTTGTTTTTTGATGCCGATGAGCAAAAGGCGCTTCTTCATGCAGCCGCATTCGCACGGGAAGCGGGGTATCCATCCGAAGAGCCGCTGAATCGGGCCATATTCAAAATCAAACGATATACGAATCCGGAGCAGTTGAAGCGTTTGGAGCGACATGAGAACAGCATCGAGGCCATTCATCCGCCCGCAGCTTCCGGGCTTACCTCCATGCTGCATGAGATCCAAACCGGGATCGACCGGCAAACCAGTCTCGAGATCGATTACAAAACAGGCTATGATGGCGTTAAGCAGACACGGACTTTAGATCCCTATGGGCTCGTTCACTGGAAAAGCAAATGGTATGCAGTTGGCTATTGCCATCTGCGCGGTGAAATTCGCTCCTTCCGTGTCGATCGCATGGGCCAAATCCGGCCTACCGACGTCGTGTTTGACCGTCCGGCGACATTTTCCCCACGTGAATTTTTATTGGACAGCCTGTTGACGGAGCAAGGCTCCAAATCCAATCCCCATTTGGTTTCCGTGCATATCCAAGGCATCCCCCAAGCTTTGGACGATTTATGCGGGCATTGGCTGCTCGGCCACGCGCTCGTCGAACGTACGGCGGAGGAGGCGGTGTTTAGACTGGATGAGTCTACGTTGTATACGCAAGTTGCCTACTATCTTCTATCCTTCGGCGGTAAGATTCGCATCGTCGGGCCCGAGGAGCTGAAATCAGGTTTGGCCGATATTGCCGAATCGTTATTCAAATATTATCAAAGCTGA	MSKADNMLAILWLLKSRKRISAKQLSEELGVHIRTIYRNIDALCISGVPVISEIGRDGGYSIPDHIKLEPLFFDADEQKALLHAAAFAREAGYPSEEPLNRAIFKIKRYTNPEQLKRLERHENSIEAIHPPAASGLTSMLHEIQTGIDRQTSLEIDYKTGYDGVKQTRTLDPYGLVHWKSKWYAVGYCHLRGEIRSFRVDRMGQIRPTDVVFDRPATFSPREFLLDSLLTEQGSKSNPHLVSVHIQGIPQALDDLCGHWLLGHALVERTAEEAVFRLDESTLYTQVAYYLLSFGGKIRIVGPEELKSGLADIAESLFKYYQS				NA	NA	NA	NA	NA
AK002_04719	921	tdh_2		L-threonine 3-dehydrogenase	ATGAAAGCAATGGTATGCACCGCTTACGGATCACCGGAAGTTTTACAGCTCCAAGAGGTAGCGAAGCCTATTCCTAAGGATCACGAAGTTCGGATCAAAATTCATGCCACTACCGTCAATTCGGGGGATTGCCGCGTGCGGGGATTTCGCAGTCCTCTATTGTATAAAATCCCCATGCGATTGGTGCTGGGCCTGAGGAAGCCGAGACAATCGATACTCGGGGTGGAGCTGGCGGGGGAAGTGGAAGCGATAGGCCAGGATGTTACACGGTTCAAGATCGGCGATCAGGTTCTGGCATTCAGGGGAATGCGATTTGGCACTTATGCGCAGTACATCTGCATGCACGAAGACGGGATGATCGTAATGAAGCCGGAGCACGTGACTTATGACGATGCGGCCGCGATCTTTTTCGGAGGGACGACGGCCCTGCATTTTTTTAGAAAAGCGAACATCCGGCAGGGGCACAAGGTTCTGATCTATGGTGCATCCGGCGCGGTGGGAAATTTAGCCGTACAGCTTGCCAAACATGCGGGGGCCGTGGTTACCGGCGTTTGCAGCACCGTGAATGTAGAGCTGGTGAAGTCGCTCGGAGCCGACCAAGTCGTGGATTATACCCAAGAGGATATTTCGAAAAGCGGGGAGCGGTACGACATCATCCTGGACGCGGTCGGCAAACTGCCGAAATCCCGTTGCAAGCATTTGCTTGCCGCGGGCGGGAGTTATGTAACGGTAGAAGGGCAGGGAGTAGCCAAGGTGCTGATGGAGGATTTGAGACGGCTTACGGATCTGCTCGGGAAAGGGAAGATCAAACCGGTCATCGATAGAAAGTATGCATTGGAGCAAATCGCCGAGGCACACCGATACGCGGATACAGGGCGTAAGAGGGGCAGTGTTGTCATCACGGTGGGGCATGAACATTGA	MKAMVCTAYGSPEVLQLQEVAKPIPKDHEVRIKIHATTVNSGDCRVRGFRSPLLYKIPMRLVLGLRKPRQSILGVELAGEVEAIGQDVTRFKIGDQVLAFRGMRFGTYAQYICMHEDGMIVMKPEHVTYDDAAAIFFGGTTALHFFRKANIRQGHKVLIYGASGAVGNLAVQLAKHAGAVVTGVCSTVNVELVKSLGADQVVDYTQEDISKSGERYDIILDAVGKLPKSRCKHLLAAGGSYVTVEGQGVAKVLMEDLRRLTDLLGKGKIKPVIDRKYALEQIAEAHRYADTGRKRGSVVITVGHEH	PGPT0006375_1339	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006375-EC_1_1_1_1|adh-K00001	NA	NA
AK002_04720	2709	malT_3	COG2909	HTH-type transcriptional regulator MalT	ATGTCCACGACGATTTTGTCCACGAAATTATACATTCCTTCTCCACGGTCCCAGGCTGTCCTTCGTCCCAGGCTGATCGAACGTTTGAACGAGGGGCTGCGTCTGCACCGGAAGCTGACCACGATTTCCGCCTCTGCCGGGAGCGGCAAAACCACGCTGCTCAGCCAATGGATCGGGGACTGTCCGCAGCCCGTTGCCTGGCTGTCCTTGGAAAAGGAGGATCGTGAGCCATCCAGATTTTTTGCTTACCTCTTGGCTGCCCTGCAAACCATCGGGGTTGATGTCGGAGAGAGGATGGTGAGTACACTCCAGGCTCCCTCACCGCATCCTCTGCCAAACGAAGCCATCGTTATGGCCATGCTGAATCAAATCACGGCCAAACCGGACCGTGTCATCCTTGTGCTTGATGATTACCACGTCCTTGATTCCAAACCGATAGACCGCGCTCTTGGCTTTCTCATTGAGCACATGCCGCCGCAGATGCATGTGGTTATCGCCAGCCGCAAGGATCCCGATCTGCCCGTGGCCCGGCTCCGTGCAAGGAACCAGCTGACGGAAGTACGGACACCGGATTTGCGGTTCACTTCCACTGAAACCTCCGAATTCATGTGGCATGTGATGGGGCTGGACCTGTCCGGGGAGGATGCAGCGCTTGTTGCATCCCGTACGGAAGGCTGGATCGCCGGCCTGCAGTTAGCGGCGCTGTCCTTGCAGGGCCATCCAGACGCTGCGGGCTTTATACGATCCTTCAGCGGCAGCCACCGCTACGTACTGGACTATTTGATTGAAGAAGTGCTGGAGCGGCAGCCTGAGAGCGTGCAGGATTTTTTGCTGCGCACTTCCATTCTCGACCGGCTGTGCGGTTCCTTGTGCGAGTACGTTTTGCATAGGGAGGACGGTGATTCCCCGACGGCCGCCGTTTCCGGACAAGAAACCCTGGAGTACCTGGAGCGCGCCAATCTGTTCATCGTTCCGCTAGATAACGAGCGGCGCTGGTACCGGTATCATCATTTGTTCTCGGATGCGCTGCGGCAACGCCTGTCCCGAAAAGGCAACGATGCCGAAGACGGGAAGAGGATCGTGACCGAACTGCATCGGCGTGCCAGCGACTGGCATGATCGTCATGACTTTCGGCTGGAGGCTTTCCAGCATGCGGCTGCTGCCCAGGACGTGGATCGCGCCGCGCGTCTGATTGAAGGGGAGGGGATGCCCCTGATCTTCCGTGGAGCGATCCACCCTATGCTCGATTGGCTGGATTCCCTGCCGAAGGCAGAATTGGACGCAAGGCCCGCGCTTTATGTCATGCATGCCTCCGCTCTGCTGATGGTCGGCCAAATGAGCGGTGTCGAACGCAAACTTCAAGCCGCCGAGGTTCATTTGCCAGCCGAGGATGACGGCATTACCCGGGATCTCATAGGACATATTGCCTCCATACGTGCGACGCTTGCCGTCAGCAAGCATCAGCCGGAAGTCATTATGACGGAATCGCGACGGGCCTTGGAATATCTAAGTCCGCATAATCTGCCTGTCCGCACGGCCTCGATGTGGACGCTGGGATACGCTTACCAGCTCCGGGGCGATCGTGCCGCGGCAGGCCGGGCCTATGAGGAGGCCGTTGCCATCAGTCAGAAGATCGGACATTTCATGATCGCCATGATGGCAACGCTCGGACTCGGACTTCTTCAGGAAGCGGATAATCAATTATATGCAGCCGCCGTGACCTATCGAAGCGTTCTGGAGTTGGCGGGTGACCCTCCGCCTCCGGCTGCATGCGAAGCGCATTTGGGCTTGGCCCGAATCTGCCGTGAGTGGAACGACCTCGATGCCGCTGAACGGCATGGGCGGAAGGCCCTTCAATTAGCCGCGCAGTTTGAACAAACCGACAGAGCCGTGGCATGCGAGGTGTTTCTCGCGAAGCTGAAGCTATTGCGTGGAGAAGTGAGTGAAGCAGCCGCCATGTTAGCTAAGGCGGATTGCCTCGCCCGTCAGCAGCAGTTCATGAATCAGCTCCCCTTCATTGCCGAAGCGCAGGTCCTTGTCCTGCTTCAACAAGGAAATTTCAATGAAGCCTCCCAGCTGGCGCAGGAGCATGGGCTCCGTCTCAGCCAGGCCAGGGTTTTGTTGGCTAAAGGGGATGCGGGGGCCGCCCTGACGATCATCGAACCCTTGCGCGCGCAGATGGAAGCTAAGGAATGGGCCGACGAGCAGCTCAAGGTCATGGTCGTGCTGGCCCTGGCTCTGCATGCCCAGGGCGATAGGCTGAAAGCTGCCCGGATCGCCGCAAATGCTGTGGCGATGGCCGAGCCCGGCGGTTTTATTCGGTTATTCGTCGATGAAGGGCCTCCGATGCAGGAGCTGCTCAGAGCAGCATCTGCCAGCCAACCGATACGAGAGGCAAACGGCATCCAACCGATGCATGATTATCTGGAGAAGCTGCTGCATGCTTGTGAGATTGAAGGACTGGAAAGCGCGGGCAAGTCCTCTCCAAGCCAGCTTCAGCTTGCGGAGTCTCTGATCGAGCCGCTGAGCAGGCGGGAATTGGAGGTGCTGCGTCTCATTGCCCAAGGACTGTCCAATCGTCAGATCAGCGAAAAGCTTTTTGTTGCGCTCAGTACCGTCAAAGGGCATAACCGGATCATATTCGATAAACTCCAGGCTACCCGCCGTACCGAAGCTGTTGCGCGTGCACGCGAGTTGGGCTTGCTGTAG	MSTTILSTKLYIPSPRSQAVLRPRLIERLNEGLRLHRKLTTISASAGSGKTTLLSQWIGDCPQPVAWLSLEKEDREPSRFFAYLLAALQTIGVDVGERMVSTLQAPSPHPLPNEAIVMAMLNQITAKPDRVILVLDDYHVLDSKPIDRALGFLIEHMPPQMHVVIASRKDPDLPVARLRARNQLTEVRTPDLRFTSTETSEFMWHVMGLDLSGEDAALVASRTEGWIAGLQLAALSLQGHPDAAGFIRSFSGSHRYVLDYLIEEVLERQPESVQDFLLRTSILDRLCGSLCEYVLHREDGDSPTAAVSGQETLEYLERANLFIVPLDNERRWYRYHHLFSDALRQRLSRKGNDAEDGKRIVTELHRRASDWHDRHDFRLEAFQHAAAAQDVDRAARLIEGEGMPLIFRGAIHPMLDWLDSLPKAELDARPALYVMHASALLMVGQMSGVERKLQAAEVHLPAEDDGITRDLIGHIASIRATLAVSKHQPEVIMTESRRALEYLSPHNLPVRTASMWTLGYAYQLRGDRAAAGRAYEEAVAISQKIGHFMIAMMATLGLGLLQEADNQLYAAAVTYRSVLELAGDPPPPAACEAHLGLARICREWNDLDAAERHGRKALQLAAQFEQTDRAVACEVFLAKLKLLRGEVSEAAAMLAKADCLARQQQFMNQLPFIAEAQVLVLLQQGNFNEASQLAQEHGLRLSQARVLLAKGDAGAALTIIEPLRAQMEAKEWADEQLKVMVVLALALHAQGDRLKAARIAANAVAMAEPGGFIRLFVDEGPPMQELLRAASASQPIREANGIQPMHDYLEKLLHACEIEGLESAGKSSPSQLQLAESLIEPLSRRELEVLRLIAQGLSNRQISEKLFVALSTVKGHNRIIFDKLQATRRTEAVARARELGLL	PGPT0018616_747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_MALTOSE_DEGRADATION,PGPT0018616-malT-K03556	NA	NA
AK002_04721	1101	nmoA	COG2070	Nitronate monooxygenase	ATGAACATTCAACTGCAGACCGAGCTGTGCGATCGGTTTGGCATCCGTTATCCGCTTATACTGGCTGGAATGGCCGGGGGGCCGACAACCGTTGAGCTGGTCGCCGCCGTATCCAACGCAGGCGGGCTCGGCACGCTGGGTGCGGCTTATATGGAGCCGGCCGCCATTCGCCATAGCATCCAGGAAATCCGCAAGCGGACGGATAAGCCTTTTGCCGTCAACCTTTTTGCGTCCCGGGCCTCGGATCGCCAGGAGCGAATCGAAGATGTTCAACAGGAGTTAAACCGGATGCGCGGCGACCTTGGCATTCCCCATGCGGGATCGGATCACGTAACAACGCCCGATTGGTTTGAGCAGCAATTCGCGGTTCTGCTCGAAGAGAAGGTGCCCGTTATCAGCACGGCATTCGGTATTCCGGATGAGCCCCTCATGCGGCAAGCGAAAGAAGCTAAGCTGCTTGTGGTTGCGATGGCAACCACGGTGCGCGAAGCTATCCTGGCCGAGCAAGCAGGCTGCGATGCCGTCGTTGCCCAAGGCAGCGAAGCGGGGGGACATCGGGGCACGTTTGATATTTCGGAGCACCCGATGGGGGCCCAAATCGGAACGTTTGCTTTGGTGCCGCAGATCGTGGACCGGGTCAAGATTCCCGTCATTGCCGCCGGGGGCGTCATGGATGGACGCGGACTCGTGGCCTCGCTTGTTCTTGGCGCCCAAGCCGTTCAGATGGGGACGCGGTTTCTGACGGCGGCCGAATCGGGTGCGCATGAGGTTTACCAGCAAGCGCTGCTTTGCAGCACGGAAGAGAGCACGGTCATTACCAAAGCGTTCTCGGGGCGGCCGGCGAGAGGCATCCGCAATGCTTTCATTAAGCAATGGGATGCAAGCGGCTTAGAGCCGCTGCCTTTTCCTACGCAGAATACGGTGACCCGCGACATACGAAATGCCGCCAATCGCCAAAGCAATCCGGAATATATGTCCTTATGGGCAGGGCAAGGCACAAGAGGGCTCACTTCGGGGCAACCGGCAGCAGATATCGTAGCCGAGACGATCCAAGAAGCGCTGTTGATTTGTCCATATCGCAACTCCGTCGATGAGAGCTGA	MNIQLQTELCDRFGIRYPLILAGMAGGPTTVELVAAVSNAGGLGTLGAAYMEPAAIRHSIQEIRKRTDKPFAVNLFASRASDRQERIEDVQQELNRMRGDLGIPHAGSDHVTTPDWFEQQFAVLLEEKVPVISTAFGIPDEPLMRQAKEAKLLVVAMATTVREAILAEQAGCDAVVAQGSEAGGHRGTFDISEHPMGAQIGTFALVPQIVDRVKIPVIAAGGVMDGRGLVASLVLGAQAVQMGTRFLTAAESGAHEVYQQALLCSTEESTVITKAFSGRPARGIRNAFIKQWDASGLEPLPFPTQNTVTRDIRNAANRQSNPEYMSLWAGQGTRGLTSGQPAADIVAETIQEALLICPYRNSVDES	PGPT0006800_831	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
AK002_04722	1260	tyrS		Tyrosine--tRNA ligase	GTGAATATTATCGACGAACTGGAATGGCGCGATGCGATCAACCAACAGACGGATGCCGAAGGCCTCCGGGAGCTTACGAATGAAAAGTCGATTTCGCTGTATTGCGGCGTGGATCCTACGGGCGACAGCATGCATATCGGTCACCTGATTCCCTTCATCATGCTCAAACGCTTCCAGCTTGCCGGCCATCGTCCGGTCATTCTGATCGGGGGCGCAACCGGCACCATCGGGGATCCAAGCGGACGTCAAACCGAGCGCTCCCTGCAGACGCTGGAGCAGGTTCAAGCTAACGTGGACGCGCTGACAGGACAAATGAAAAAGCTCTTCGTGACGGAGGGCGACAATCAAATCCGCATGGTCAACAACTACGACTGGACGCATAAGATCAACATTATCGAATTCCTGCGCGATTACGGGAAGAACTTCAGCATCAACTCGATGCTGGCGAAGGACGTGGTTGCTAGCCGGCTTGACAGCGGGATTTCGTTTACGGAATTCTCATACCAAATCCTGCAGTCGGTCGATTACCTGCATCTGTACCAGCATGAGGACGTGCAGCTGCAAATCGGCGGATCGGACCAATGGGGCAACATTACAAGCGGACTGGATTTGATCCGGAAGAAGGAAGGACCCGAAGCCAAAGCCTTTGGCCTGACCATACCGCTCATGCTGAAGGCCGACGGCACGAAGTTCGGCAAAACGGCCGGTGGCGCGATCTGGCTTGACCCGAACAAAACGACGCCGTTCGAGTTCTACCAGTTCTGGGCGAACACCGACGACCGCGACGTCGTCAAATACTTGAAATACTTCACCTTCCTGACCAAGGAGCAAATTGACGAGCTGGCCGAAAAGGTGCAGAGCGAGCCGCATAAACGCGAAGCGCAAAAAACGCTGGCCGAGGAAATGACGAGATTCGTGCACGGCGAGGAGATGCTGGAGCAGGCCAAGCGCATCACGGCGGCTCTGTTCAGCGGCGATATTAAATCGCTCACGGCCGATGAGATCGAGCAGGGCTTCAAGGAGATGCCGACATTTGAAGCGACACCGGAAACGAAGAATATCGTGGACTGGCTCGTGGATCTGGGCATCGAGCCTTCCAAGCGGCAAGCCCGCGAGGATATCACCAAAGGCGCGATCTCGATGAACGGCGAGCGCGTCAGCGATTTGGGCCACGAGGTGACAGCCGACCAGGCGATTGGCGGCCGGTTTATCATCATTCGCAAGGGCAAGAAAAACTATAGTTTGGTGAAAATGTCCTAG	MNIIDELEWRDAINQQTDAEGLRELTNEKSISLYCGVDPTGDSMHIGHLIPFIMLKRFQLAGHRPVILIGGATGTIGDPSGRQTERSLQTLEQVQANVDALTGQMKKLFVTEGDNQIRMVNNYDWTHKINIIEFLRDYGKNFSINSMLAKDVVASRLDSGISFTEFSYQILQSVDYLHLYQHEDVQLQIGGSDQWGNITSGLDLIRKKEGPEAKAFGLTIPLMLKADGTKFGKTAGGAIWLDPNKTTPFEFYQFWANTDDRDVVKYLKYFTFLTKEQIDELAEKVQSEPHKREAQKTLAEEMTRFVHGEEMLEQAKRITAALFSGDIKSLTADEIEQGFKEMPTFEATPETKNIVDWLVDLGIEPSKRQAREDITKGAISMNGERVSDLGHEVTADQAIGGRFIIIRKGKKNYSLVKMS				NA	NA	NA	NA	NA
AK002_04723	816	drrB_4		Daunorubicin/doxorubicin resistance ABC transporter permease protein DrrB	ATGAGCAGCACGATCATGAAATCAGGGACGGAACGTCGGCTTAAGAACCGCACGAGTTTCGGTCAGACGGTTCGAAACTCGTTGACGATGGCCTACCGGGGTCTGCTGAAGCTCCGGCGCACGCCCGAGCAGTTGTTTGACGTTACGTTCCAGCCCATTATTTTCACGCTGATGTTCACCTATATTTTTGGCGGCGCCATCTCCGGCGACGTGGCCAGTTATTTGCCGGTCATCATTCCCGGCATCCTCGTTCAAACCGTGATTACGACCTCCGTCGTCACAGGCGTGCAGCTGCGCGAGGATATGGATAAAGGCGTATTCGACCGATTCAAGTCGCTGCCGATTGCGCGCATTGCTCCGCTTGCAGGCGCCCTGCTGGCAGATACCGTTCGTTATACCATTGCAACGGTGCTTACCTTTTCGATGGGATACGTCATGGGTTACCGCCCCGGCGGAGGCTTAGGTTACGTTGCTCTTGCCGCGCTGATCGTCATTGTATGCTCATGGGCCATCAGCTGGATATTCGCGTTCTTCGGCGTGATTGCAAGATCCGCCTCCGGCGTGCAGGGGATATCGATGATCGTGCTGTTTCCGCTCACGTTTCTCTCCAACGCGTTCGTGCCGGTAGATACGATGCCGGGCTGGCTGCAGTGGTTCGTGAACATCAACCCGATATCGCATCTGGTGACGGCTGTCCGGAATCTGACGAACTCCGGAACCGTGGGCTGGGATCTGACGATATCCTTGGTCGGCGCCGCAATCATCGTGGCGATCTTTGCTCCGATCACGGTTCGTGCATACATGCGCCGCACCTGA	MSSTIMKSGTERRLKNRTSFGQTVRNSLTMAYRGLLKLRRTPEQLFDVTFQPIIFTLMFTYIFGGAISGDVASYLPVIIPGILVQTVITTSVVTGVQLREDMDKGVFDRFKSLPIARIAPLAGALLADTVRYTIATVLTFSMGYVMGYRPGGGLGYVALAALIVIVCSWAISWIFAFFGVIARSASGVQGISMIVLFPLTFLSNAFVPVDTMPGWLQWFVNINPISHLVTAVRNLTNSGTVGWDLTISLVGAAIIVAIFAPITVRAYMRRT	PGPT0006730_23600	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_04724	1032	drrA_7		Daunorubicin/doxorubicin resistance ATP-binding protein DrrA	ATGGAGCATGGATACAAAAAGAAATTAGAGCCAACCCCTGGTGACTTGGCCGTTGAGGCGTACGGTCTGGTCAAAACCTTCGGCGATAACCGCGCCGTGGACGGCGTGGATCTGAACGTGCGCGCCGGCACGATTTATGGCGTGTTGGGACCGAACGGCGCAGGCAAGACGACGACCATCCGAATGCTGGCCACCTTGTTAAAGCCGGATGCGGGTTCGGCCCGAATCTTCGGGCACGATGTGCTGACGGAATCGCAGATTGTCCGTCAGTTGATCGGGGTGACCGGCCAATATGCCTCGGTGGATGAATCGCTCAGCGCTACGGAGAATCTGATCATCTTCTCCCGCTTGTTAGGGCTGGGACGCACGGAGGCACGGCGGAAGGCGGGTGAGCTGCTTGAGGAATTCGGGTTGTCGGAAGCCGCCAAACGGCCGCTCAAACATTTCTCCGGCGGCATGCGGAGAAGATTGGATCTGGCGGCTAGCCTCATTGCCCAGCCGCCGCTCATCTTCCTGGATGAACCGACGACGGGGCTGGATCCCAGGACGCGTTCCCAGATGTGGGATACGATCCGCCGATTGGTGAAAACCGGCTCAACGGTGCTGCTGACCACGCAGTACCTGGAAGAGGCGGATCAACTGGCAGACCGCATTGCGGTCATCGATTACGGACGGGTCGTAGCCGAGGGGACGGCGGATGAACTGAAGATGTCGGTGGGGACTTCCTCGCTGCACTTGACCGTCCAGGATGCAGTGGATATGGGCCGCGCCCGCCACACCGTGGAACAGGTGCTAGGCGTTCATGCTAACATATCGCCGGAAGCCGGAAAGATAACGGCGCCGATGGCTAATGCGGGTCTTGTTACAGACCTGTTGATTGAGCTGCGTACGGCAGGCATCGGCTTGTCCGAGATGAGCGTGCAGAAGCCGACCCTGGATGAGGTGTTCCTGACGATCACCGACCACGGCGTGAAGGAAGACGATGCCCTATCGTCTAATGAATCCAACGATAGAGAGGTGACAAGAGTATGA	MEHGYKKKLEPTPGDLAVEAYGLVKTFGDNRAVDGVDLNVRAGTIYGVLGPNGAGKTTTIRMLATLLKPDAGSARIFGHDVLTESQIVRQLIGVTGQYASVDESLSATENLIIFSRLLGLGRTEARRKAGELLEEFGLSEAAKRPLKHFSGGMRRRLDLAASLIAQPPLIFLDEPTTGLDPRTRSQMWDTIRRLVKTGSTVLLTTQYLEEADQLADRIAVIDYGRVVAEGTADELKMSVGTSSLHLTVQDAVDMGRARHTVEQVLGVHANISPEAGKITAPMANAGLVTDLLIELRTAGIGLSEMSVQKPTLDEVFLTITDHGVKEDDALSSNESNDREVTRV	PGPT0006725_4975	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_04725	3132			hypothetical protein	ATGAACAACAATCGACAACGGAAGCATAGCTTTTTGGTTTTCGTATTGACGGCAGTACTGATTTGGTTCGGTATGCCGCCTGTCAATGAAGTATCGGCAGAAGGTCCCGTAGGTCCGGTAACTTTAACCGAAGGTTATGGAAATGTGACTCTGCCTTCTAATGAAGGAGAAGTCGTGAAGGAGGAAGAGGACGGATCTGACGAATCTCTCTCAGCCGGAAAGGAAGAGGAGGTGTCTGTGCCGGATGATGGCGCCAAGCAAGCAAAGGAAGACGATATCCGGGCATTCGGCATATTTGCAGGCGGAGACGGCTCACTGGAGTTTCCCTACTTAATCGAGACAGCAGAGCAGCTGGACGCTGTCCGGAATAACCTTGAGGCCCATTACCTTTTGACTCATGATATTGATCTGTCAGGCTTTGCTTTGGTAGGTGGCTGGGAACCGATCGGGATTGATTCGGCCAGATTCAGTGGGACATTCGACGGGCAGGGGCATCGCATTACCGGATTGGGGATAGGTGCTCATTATTGGAGCCCCTTGGGTTTGTTTGGTTTTGTCGGTGACAGCGGAATTATTGAAAATGTCATTCTTGAAGACGTGAGGGTAGGCGTAGGAAGTTATTATCACGGAAGTTCAGGCGGGGCTGCTGGAATTAGCTACGGCACGATCCGAGGAGTGTATGTGACGGGAGCTGTAGAAGGATCCCATTATTCCGGCGGTTTGGCAGGAATGAACTACGGCCTGATTGACGGCTCCTCTTTTTCAGGGACGGTATCAGGTTTAGTCGGCGTCGGTGGTCTGACAGGAGAAAATGACGGTGAAATGAGCAGATCCTATGCTTCGGCGCAAGTCTCTGGAGATGATAACGTTGGAAGCCTTGCAGGACGCAACGACGGCCGGATTCATTCATCATATGCCACGGGAACCGTGAATGGACGACAGTTCTCCGGCGGTTTGGTTGGCGTTAATTTGGATAGCGGCATGATTAGCGACACTTACTTTTCCGGAACCATATCAGGAGCAGGCTACGGTATCGGGGGGCTGGTTGGGATCAACCATGGCTCGGTGGATTCATCCTATTGGAATACGAGTGCATATAATTCGGCCCTTCCTGATAACGGGATCGGAACGCCGGTGCCCGGGGACGAAATGAAGCATTACGAGATATATGATCATTGGGATTTTGAGGATACCTGGTACCTCTATAACGGGCAGACGCTGCCGTTTCTTCAATGGGAGAATCCGTTTGAAAGAACAGTTGTCACGATGGATTCCCAAGCATTGGATGTTGGGGACAGTACTCAAATGGTAGTGACCGCTAATCATCAAAAACAGTCGTCGTTTATTGCAACGAACAACGCTGATTATGCTGTCAGTGAGGGGGAATCTATTGTTGATGTTGGTCAAGAGGGACAGGTTACAGCGAAAGCTCCAGGGAAAGCGGTGATTAGCATCTCGTTGCACGGCGAAACCACCCAGATTGAAGTAACTGTTCATCCGTATACTATCACAGGCGTCATGGAGCCTGATGCGTTAACTGTCGCTAACGGAACGCCCGTCGATGAAATAGGCCTGCCGGATACGGTCCAAGTGACGTTGAGCCCGGGTCAATTGAGGAAATCCGCTGAGGTGGAATGGAGCTCGGCAGATGAGAATCATCCTTATCAGGCTGCAATCCCAGGCATCTATGTCTTCACGGGCAGTTTGGTGAATTTAACGGAAGATATGGCCAATCCGGATGGTATGAAGACAACGATCCATGTAACGGTGGGGCAAAGCTTTATCGTCAAGGTGAACGATATTCCAGCTATCCGGGTAAGCCACGGTACCCCAAAATCCTCCATTACTCTTCCTGAGCAGGTAGAGGTTAGATTAAGTCATGGCGGTACTGCCAAGGCAAATGTGATTTGGGACCATGAAGAACCGGCGTATAATGGACTGCAAGCAGGTGACTACATATTCAAGGGCTCCTTGGAGTTGCCGGAGGGCGTTATCAACCCGGACCAATTACATGCAGTTGTTCATGTCACCGTTCTTGAAAAAAGCGGGGATGGAGGTTCAAGCGGAAGTAACGGCTCCTGGGTGAGCGGCGGGACAGATGAACTGCCGGACAACACATGCGTAAACGGAACGAAAGGAAAAACGATTCCATTTCCTAATGGTAGGATCATTATACCGAAGAGTGCTTGGAACGCGGGGTTTTGTCTCAACTTTAAGGTTATCCAGGACACTAGCGGGCTACCATTAACTGAAACCGATCGGTTTGTCGGCCAAGTGATCGAAATTACGAAGAATTGGACTGGAGCTTTTCACAAAGAGGTCACCCTCAACCTGCAATTTGGAACCGATGCCATCAACCATGAAGAGGATGCCGTGAGTCTTTATTGGCTGGACGAAAAAACGAGCGAATGGATCGAACTAAAGAACATCAAAGTGGATTGGGACCAGAGGACCGTGACCGGGTCAATCGATCATTTGGCCAAATTTGCGGTGATCGCTACAACGGTTAAAAAAGAAGTCGATGTCAACCCTGAGAGAGATTTCACCGATATTGATGGCCATTGGGCTAAGGACATGATTAACCAGGTGGCTCGAATCGGCGTAATTAGTGGTTATTTGGACGGCTCCTTTAAACCTGAACGTCCCATTAGCAGAGCGGAATTTGTATCCCTGCTCGTTCGTTCCCTCAACATGGAGGAGAGAAGCGGACATGTTTTCCCCGATTCAGATGGCCATTGGGCACAAGATATGATTGCGACAGCCCAAGCCTACGGGATCATCGAGGGATATACGGCAACGTACTTCGGAGTGAATGATCCGATTACACGTGAGCAGATGGCCGTGATGGTCATGCGATGGGCGGGATTATCCGCAGCGGAAGGAGCACCGGCATTTATGGATCAGGATAGCGTTTCCTCATGGGCCCGTGAAGCGACGGCGGCAATGTCGGAGCAGGGAGTCATGACAGGCTATCCAGATGGCAGTTTTCTTCCTAAGAAAAAAGTAACCCGTGCTGAGGCCGTGGTCCTTCTCCTCCGAGCTATGGAATTGAAAAGGCCCGTACGAGACGGCCGTGTCATAAACTCGGGCGAGTTGGATGAACAGACGGCCGCTGCAAGCAAAGGACATTGA	MNNNRQRKHSFLVFVLTAVLIWFGMPPVNEVSAEGPVGPVTLTEGYGNVTLPSNEGEVVKEEEDGSDESLSAGKEEEVSVPDDGAKQAKEDDIRAFGIFAGGDGSLEFPYLIETAEQLDAVRNNLEAHYLLTHDIDLSGFALVGGWEPIGIDSARFSGTFDGQGHRITGLGIGAHYWSPLGLFGFVGDSGIIENVILEDVRVGVGSYYHGSSGGAAGISYGTIRGVYVTGAVEGSHYSGGLAGMNYGLIDGSSFSGTVSGLVGVGGLTGENDGEMSRSYASAQVSGDDNVGSLAGRNDGRIHSSYATGTVNGRQFSGGLVGVNLDSGMISDTYFSGTISGAGYGIGGLVGINHGSVDSSYWNTSAYNSALPDNGIGTPVPGDEMKHYEIYDHWDFEDTWYLYNGQTLPFLQWENPFERTVVTMDSQALDVGDSTQMVVTANHQKQSSFIATNNADYAVSEGESIVDVGQEGQVTAKAPGKAVISISLHGETTQIEVTVHPYTITGVMEPDALTVANGTPVDEIGLPDTVQVTLSPGQLRKSAEVEWSSADENHPYQAAIPGIYVFTGSLVNLTEDMANPDGMKTTIHVTVGQSFIVKVNDIPAIRVSHGTPKSSITLPEQVEVRLSHGGTAKANVIWDHEEPAYNGLQAGDYIFKGSLELPEGVINPDQLHAVVHVTVLEKSGDGGSSGSNGSWVSGGTDELPDNTCVNGTKGKTIPFPNGRIIIPKSAWNAGFCLNFKVIQDTSGLPLTETDRFVGQVIEITKNWTGAFHKEVTLNLQFGTDAINHEEDAVSLYWLDEKTSEWIELKNIKVDWDQRTVTGSIDHLAKFAVIATTVKKEVDVNPERDFTDIDGHWAKDMINQVARIGVISGYLDGSFKPERPISRAEFVSLLVRSLNMEERSGHVFPDSDGHWAQDMIATAQAYGIIEGYTATYFGVNDPITREQMAVMVMRWAGLSAAEGAPAFMDQDSVSSWAREATAAMSEQGVMTGYPDGSFLPKKKVTRAEAVVLLLRAMELKRPVRDGRVINSGELDEQTAAASKGH				NA	NA	NA	NA	NA
AK002_04726	117			hypothetical protein	ATGTTCGGGTGTGTTTACGAGACACTGTCAGCCATTTTCCATCTCAGTATGATTAAACAGGCTTTTCACTTGCAGATGCTGAGGAGCTTTGATCCAATAACTAGTGTAATATATTAA	MFGCVYETLSAIFHLSMIKQAFHLQMLRSFDPITSVIY				NA	NA	NA	NA	NA
AK002_04727	102			hypothetical protein	ATGGAGCCCGGATTGCTCGGTCACAACTCCATAATGGGCTGCTTCAATCCGAAAATGTTGGAACAGTTTCCTGTTATAGCAGCTAAACATGTCAGAGAATGA	MEPGLLGHNSIMGCFNPKMLEQFPVIAAKHVRE				NA	NA	NA	NA	NA
AK002_04728	948			hypothetical protein	GTGCTGGAACTTGGTTTTAACGACCCGGAAAGACTGGTCACGGTAGCTCATGCCTTGTCAACGCGTTCTCGGGTGGATATTCTGAGGCTCTTGAATTCCAAGAACCTGAATATCATCGAAATCGCCGAGAAACTCAAACTTCCCGTTTCGACGGTGGCGAGCAACATCAAAGTGCTGGAAGCGGCCGAGTTAATCAATACGGAATTGCTCCCGGCTTCGCGTGGAGCCATGAAGGTGTGCAGCCGGAATTATGATGATATCCATATTGCGTTGAATTTGAAGAATTCGGTTCCTAAAGGAGTCACGCATGTCTATGAAGTCGATATGCCGATCGGCCATTACAGCGATTGCGAAGTGGCGCCTACCTGCGGAATGGCCAATGCGGACGGGTACATCATTAAGGAAGACGAACCGGCGAGCTTTTACCATCCTAAGCACGTGAATGCCCAGATCATCTGGCTTCGCAAGGGATACCTCGAATACTTGATGCCGATGGATATTCCGGCCGGAGCACGAATCGAATCGCTGGAACTATCCATGGAGATGTGCTCCGAGGCCCCCAATTATGATCATAATTGGCCTTCGAATATTTCGGTGTGGGTCAATGGCGTGGAGATCGGCATGTGGACAAGCCCCGGCGATTTCGGGGATCGCCGCGGCAAGCTGAACCCGAACTGGTGGTACGATTGGGCAACGCAATACGGGTTTCTCAAAATATGGCGCGTGGATGATGAGAAAACAACGCTGGATATGGAGAAGATATCGAGCGTTACTTTGGATCAGTTGAATATTACTGCAAGCCCCAAACTGCGGCTGCGCATCGGCATCAAACCCGATGCCGTGAATCAGGGAGGGTTGAATCTGTTCGGCCGCCAGTTTGGCGATCACGAACAGAATATCATCATGCAGGTGAAATATACGATGGATCAGGATGAGGAAGAGCTTTGA	MLELGFNDPERLVTVAHALSTRSRVDILRLLNSKNLNIIEIAEKLKLPVSTVASNIKVLEAAELINTELLPASRGAMKVCSRNYDDIHIALNLKNSVPKGVTHVYEVDMPIGHYSDCEVAPTCGMANADGYIIKEDEPASFYHPKHVNAQIIWLRKGYLEYLMPMDIPAGARIESLELSMEMCSEAPNYDHNWPSNISVWVNGVEIGMWTSPGDFGDRRGKLNPNWWYDWATQYGFLKIWRVDDEKTTLDMEKISSVTLDQLNITASPKLRLRIGIKPDAVNQGGLNLFGRQFGDHEQNIIMQVKYTMDQDEEEL				NA	NA	NA	NA	NA
AK002_04729	1398			hypothetical protein	ATGAAGGTGAATTACCGGAATAAATTGTTGCTCACGATATGCGCATTTCTTATTCTTCCGATGGGTCAGGCGACGCATGCGGCCACGCTTCAGAACAACTTCTATAACGTGGTCATGCAGGATGGAGCGGATCCTTGGGTGTATAAACACACAGACGGCTTTTACTACTTCACGAAAACGACCGGCGGCAATGTGACGATATGGAAGTCCGCCCAGCTTACCACGGTGGACGCGGCTCCGACGAGGGTCGTGGAAACGGGCTGCTGCGGGATCTGGGCTCCCGAATTGCATTACATCAATGGCGCCTGGTACATCTACTATGCCAAGGATGACGGGGATAACGTCAACCACCGCATGTATGTCATGGAGAACACGTCGGCGGACCCGACGCAGGGAACCTGGCAGTACAAAGGCCAGATAACGGACCCGACAAACAAATGGGCGATTGACGGCACGGTGCTGCAGGTTAACGGTCAGCTGTATTTTATCTGGTCCGGCTGGGAAGGGGACACCAATGTGCGGCAGAATCTGTACATCGCCCATATGAGCAACCCTTGGACGATTGATTCAAGCCGCGTCGAAATCGCAAGGCCTACGCACAGCTGGGAAACGAATCATTCCCCGCATGTAAACGAAGGACCCCAGGTGGTTGTACGCGGCGGCGTCATCAGCCTGGTGTACTCGGCAAGCGGAAGCTGGACCAATGATTATTGCCTCGGCCTGATCACGGCAAGCACAACCAGCGATTTGCTGAATCCGGCTTCATGGACCAAACGCAGCCAGCCTATATTCAAGTCCGGCAACGGGCTGTACGGCCCGGGCCACCATTCGTTTACCAAGTCACCCGACGGTACGGAGGACTGGATGCTATACCATGTCGCCAAGTATAACAACGCGGGATGGAACCGTGAGGTCCGAGCGCAGAAATTCACATGGCACGCCGACCATACGCCGAACCTCGGCGTTCCGGCGAATCCGAATGCTCCGATAGCGCTGCCTTCCGGCGAAGCGGCGCACACCCGTTATGAAGGTGAGGAGGGAACGTTCGGCGGCGTCGCCTATGCATCCCAAAGCCCTAACGGTTCGGGAGGCATGAAAGCAGGACATATCGATACGCCGGAGAGCTACGTGGAATTTTCGGTGCATGCCCCGTCAGCAGGCGACTACATTTTGCTGGCCCGCACGGCAAACGGAACGGCCGGAGGGAATTGGTCCCATCTTATGCTCAGCGTGAATGCCGGAACGGCCGACAAATTCCATATTACGAATAAAGGGTGGGAGAACTGGGGCCTGTCCACAGCGCGGGTTCAGTTAAAGGCCGGCGTGAACACGATACGTTTTTCAAAAGGCGAAGGATACGGAGAAATCGACTTCTTTGACATCAAGCCGGCGAATTAG	MKVNYRNKLLLTICAFLILPMGQATHAATLQNNFYNVVMQDGADPWVYKHTDGFYYFTKTTGGNVTIWKSAQLTTVDAAPTRVVETGCCGIWAPELHYINGAWYIYYAKDDGDNVNHRMYVMENTSADPTQGTWQYKGQITDPTNKWAIDGTVLQVNGQLYFIWSGWEGDTNVRQNLYIAHMSNPWTIDSSRVEIARPTHSWETNHSPHVNEGPQVVVRGGVISLVYSASGSWTNDYCLGLITASTTSDLLNPASWTKRSQPIFKSGNGLYGPGHHSFTKSPDGTEDWMLYHVAKYNNAGWNREVRAQKFTWHADHTPNLGVPANPNAPIALPSGEAAHTRYEGEEGTFGGVAYASQSPNGSGGMKAGHIDTPESYVEFSVHAPSAGDYILLARTANGTAGGNWSHLMLSVNAGTADKFHITNKGWENWGLSTARVQLKAGVNTIRFSKGEGYGEIDFFDIKPAN	PGPT0019091_469	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
AK002_04730	1743	uidA_2	COG3250	Beta-glucuronidase	ATGACTCAATTAACACTACCGCGTCCCGAATACCCACGCCCGCAATGGGTAAGGCCGCAATGGATCAATCTGAACGGATCATGGCAATTCGAAATCGACCATGGCCGGAGCGGTAAGGAGCGCGGGCTCCATGACCCGGGACATGAGCTGTCCGGAACGATCACCGTTCCATTCTGTCCCGAAAGCAAGCTGTCCGGCGTGGAATATAAGGATTTCATGGCAGCGGTCTGGTACAAGCGGGAGTTCGAGGTGCCTAAGGACTGGAACGGCAGAATTCTGCTTCATTTCGGAGCCGTGGATTATGAGACCGAAGTCTGGGTAAACGGAGTATCCGTAGGAACGCATCGCGGGGGATATACGCCTTTTAGCTTTGATATCACATCGCATGTGAAGCCGGGCGGGAATATCGTTACCGTCTGCGCGGAAGACGATGTCCGTTCCGGACGCCAGCCGCGCGGGAAGCAAAGCGGACGATTCCATTCGCACGGCTGCGATTACACCCGCACGACGGGGATTTGGCAAACGGTATGGCTGGAGCAAGTGCCGCAGGCTTATATGTCCGATATGAAGCTGGTGGGTGACCCGGATAATGGCTGTGCCCACCTCGAGATTAAGATCAACGGAAATGCAGCAGGCCATAAACTGACCGCATCCGCCCTGTATGAGGGGAATGCGGTAGGGAATGCAAGTGCTGTCGTATCCGGGCCGTCCGTCAAACTCACCCTTCCATTGTCGGAGGTCCATTTGTGGGAAACGGGTCAGGCCAGGCTGTACGATCTGGAATTATCACTGCAAGGAGATGGCCAGGCGAGCGATACGGTCCAATCGTATTTCGGCCTCCGAACCGTCATGCTGGACGGCATGGCATTCCGCATCAACGGTAAATCCGTATTTCAACGCCTTGTGCTGGATCAAGGCTTCTATCCGGATGGAGTCTATACGGCTCCAAGCGATGAGGATCTTCGCAAAGACATCGAAATTTCGATGGGACTGGGCTTTAACGGCGCCAGGCTTCACGAGAAGATGTTTGAACCGCGTTTTCTGTACTGGGCGGACCGGTTAGGTTATCTGGTATGGGGGGAGCATGCGAATTGGGGGCTGGACATTACCACGGCCGAGGGGTTGTCCCATTTCCTGCCGGAATGGCTCGAAGGCATGGAACGCGATTTCAATCATCCGGCCCTCATCGGCTGGTGCCCTTTCAACGAGACTTGGGACCGGGATGGCGCCAAGCAAAATAACGATGTGCTGCGCATTGTGTACGAGGTCACGAAGAAGATGGACCCTACACGCCCCGTGATTGATACGAGCGGCAACTTCCATGTGGTGACCGATATATTCGATATCCACGATTATGACCAAAATCCGGAGACGTTCAAGCAGCGATATGAGCCGATGAAGAACGGTGGCGAGGTATATAACAGCTTCCCGAATAGGCAGCAGTATGGCGGCCAGCCTTATTTTATCAGCGAATACGGCGGCATCTGGTGGAATCCGGATCAGAAAGACGAGAAGTCTTGGGGTTACGGCGACAGGCCGACATCCGAAGAAGCGTTTCTGGAGCGTTATGCGGGGTTAACGAACGTGCTGCTGGACCATCCCATGATGTTCGGCTTCTGTTATACCCAGCTGTACGACGTGGAGCAGGAAGTGAACGGATTGTACACCTATGACAGACGATCGAAATTCGATCCTGAAGTGATCCGCCGCATTAACGCCCGCAAAGCCGCGATTGAAGATTAA	MTQLTLPRPEYPRPQWVRPQWINLNGSWQFEIDHGRSGKERGLHDPGHELSGTITVPFCPESKLSGVEYKDFMAAVWYKREFEVPKDWNGRILLHFGAVDYETEVWVNGVSVGTHRGGYTPFSFDITSHVKPGGNIVTVCAEDDVRSGRQPRGKQSGRFHSHGCDYTRTTGIWQTVWLEQVPQAYMSDMKLVGDPDNGCAHLEIKINGNAAGHKLTASALYEGNAVGNASAVVSGPSVKLTLPLSEVHLWETGQARLYDLELSLQGDGQASDTVQSYFGLRTVMLDGMAFRINGKSVFQRLVLDQGFYPDGVYTAPSDEDLRKDIEISMGLGFNGARLHEKMFEPRFLYWADRLGYLVWGEHANWGLDITTAEGLSHFLPEWLEGMERDFNHPALIGWCPFNETWDRDGAKQNNDVLRIVYEVTKKMDPTRPVIDTSGNFHVVTDIFDIHDYDQNPETFKQRYEPMKNGGEVYNSFPNRQQYGGQPYFISEYGGIWWNPDQKDEKSWGYGDRPTSEEAFLERYAGLTNVLLDHPMMFGFCYTQLYDVEQEVNGLYTYDRRSKFDPEVIRRINARKAAIED				NA	NA	NA	NA	NA
AK002_04731	1005	galM_3	COG2017	Aldose 1-epimerase	ATGGGCGGGACGAATGCCTATGAAGGCGTATACCATAACGAGAAAGCCGTGTTTCTGCGGGCAGGAGCTTATGAAGCGGTCATGCTCCCGGATATCGGCGGTAATTTGATAGCGTTTCGGGACATCGAAAAGGGCTACCGGTTTCTGCATGAGCCGACGCCGGAGGAAATGCCGGCATTCAAAGCAAGGCCGATGATTCACGGCATACCGGTATTGTTTCCCCCGAACCGGTATCAAGATGGCCAGTTCCGGTGGAACGGCATAGTCCATCAGCTCCCGGTCAATGAAGAGGCGACGGGACATCATCTGCATGGATTCCTGTACAATATTCCATGGGTGGTGGACGAATACGGGCATACCGGGCAGGAAGCTTATGTGACCGTATCTGTCCGCGTGGATGAACAGCATCCGGTATTCGGACACTTTCCGTTCCGGTTCCGCATTCAGCTTCGTTACGGCTTAAGCGATCAGGGGTTGTCTAAGCGGGTAACGATCATCAACGCAGGCCAAGAAGCCATGCCGTGTTTGCTGGCGTTTCATACGTCCGTTAACGCGCCGTTCGCCGAGGGGGGCAACGCCCGGGATTACCGCTTAAAGCTGACCGTTGGGAAGCGATGGGAGCTGGATGGGCGAATGCTGCCTACCGGCTCCCATCAGGAACTGTCCGCGAATGAACAGGCCATGCAAGGCGCCGGCGTTTATCCGTTCTTCGAAAGCATGGATAACCACTATACCGCCGTGCCCCAGAACGGAAGGAACCGGATGGAGCTTACTGATGAGGCAGAGAAGGTCACACTGGTTTATGACGTGGGCACCTCCTACAAGCAATGGATGATTTGGAACAACCAAGCGACCGAGGGGTTCTTTTGCCCCGAGCCGCAGATCAATTTGGTCAATGCCCCCAATATGGATATGCCCGCCGAAGAAATTGGGTGCTTCAGTCTCGAGCCGGACGAAATCTGGGAAGAGACCAGCCGGCTGTACGTAAAGGTAAGTCGGGGCTAA	MGGTNAYEGVYHNEKAVFLRAGAYEAVMLPDIGGNLIAFRDIEKGYRFLHEPTPEEMPAFKARPMIHGIPVLFPPNRYQDGQFRWNGIVHQLPVNEEATGHHLHGFLYNIPWVVDEYGHTGQEAYVTVSVRVDEQHPVFGHFPFRFRIQLRYGLSDQGLSKRVTIINAGQEAMPCLLAFHTSVNAPFAEGGNARDYRLKLTVGKRWELDGRMLPTGSHQELSANEQAMQGAGVYPFFESMDNHYTAVPQNGRNRMELTDEAEKVTLVYDVGTSYKQWMIWNNQATEGFFCPEPQINLVNAPNMDMPAEEIGCFSLEPDEIWEETSRLYVKVSRG	PGPT0017825_3696	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
AK002_04732	1779	lacZ_4		Beta-galactosidase	TTGACGACAGAAGTTAGCAAGGCGCAAACGGTTCGCAGCGAATATCCGAGGCCCCAGTTTCAGCGCAAAGAGTGGTTAACCCTCAATGGAGAATGGGATTTCAGTTTTGACGATGAAGCCATCGGCGAGGATGCAGGGTGGTATCATGCGGAAGCGCAGGCTTCCTTTACGAGGAAGATCAACGTTCCCTTTACGTTTCAAAGCAAGCTGAGCGGCATCGACGACCCTTCCTTTCATGATGTCGTGTGGTACCGCAGAACGTTCGAAATTCCGCAGGACTGGAACGGAAAACGGATCGTGCTTCATTTCGGTGCCGTGGATTATTTGGCCAAAGTGTGGGTAAACGGGCACTTGGTAGCCATGCATGAAGGCGGGCATACGCCATTCCAGGCCGACATTACGGCTTCGCTCGTGAAAGGAAGCAACACGCTCGTGCTGCGGGCGGAAGATTTCAGCCGCGACGTCACCCTGCCGCGAGGCAAACAATACTGGCTCGAGCACTCGGCAAGCATCTTCTACACCCGTACGACCGGCATCTGGCAAAGCGTGTGGTTGGAGCCGGTATCCGCGGTACACTTGGGCAAAACGATGATGACGCCCGATATCGACCGCAACGAAATTCGCATCCGGACCTTCCTTGAAGGCTACAAGGCGACGGAGGACCTCAAGCTGCAGATCACCGTATCCTATCAGGGCGAGTGTGTTGCCGAGGATCAATATGCCATTCGAAGCGCGGAGCAGCTGCGGACCATCGGCCTCAGCGATTTTACGGACCATGGCCTGGGACGCCTGTGGAGCCCGGAGCATCCGAATTTATATACCATCGAATTCCGCCTTGTTCAGGATGGAGACGTCGTTGATCAGGTATCCAGCTATTTCGGGATGCGGAAGGTATCGATCGAGAACGGCAAACTGTGCCTGAATAATCGCCCGTATTTCCAGCGGCTGGTGCTGGATCAGGGTTATTTTCCCGAGGGAATCCTGACGGCGCCGTCGGATGAGGCTTTGAAGCGCGACGTGGAGCTGGCGAAGGAAATGGGATTCAACGGCGTGAGAAAGCACCAGAAAACGGAGGACCCCAGATTCCTGTATTGGTGCGACAAGCTCGGCCTGCTGCTATGGAGCGAGGCGGCCAACGCGTACGAATATTCCGAGTCGTATGTTCGCCGTTTCACGGCGGAATGGCAGGAGATCATCGAGCGGGATTATAACCATCCCTGCATCATAACCTGGGTCCCGCTGAATGAAAGCTGGGGTGTTCCCAATGTGCAGATGGATAAGCGCCAGCAGCAGCACGGGCTCGCCATGTACCATCTAACGAAGTCGTTAGACGATAGCAGACCGGTTGTATATAACGACGGATGGGAGCATATGACCACGGACTTGGTCACCATTCACGATTATGAGAGCCGCCAGGAAGTGCTGGAAGAACGGTATGCAACAGCCGCGTCCGCGGTGGAAGCCATGCCGGCGAACCGTAGAATATTCGTCGGCGGCGCATCCTATGACGGCCAGCCCATTCTCGTATCGGAGTTTGGCGGCATTGCCTTCAAGAAGAGCGAATGGGAGGGCTGGGGGTATTCCGGAGCCGAGAACGAGGAGGATTATCTGATCCGGCTCAAAGCCGTGGTGGATCCGATGTTCTCTTCCCCGGTGATCCAGGGATACTGCTACACGCAGCTGACGGACGTCGAGCAGGAAATCAACGGCCTGCTTACGTATGACCGTAAGCCGAAGGCGCCGCTCGAAACCATTCGCAAAATCATGACGGGACAATAG	MTTEVSKAQTVRSEYPRPQFQRKEWLTLNGEWDFSFDDEAIGEDAGWYHAEAQASFTRKINVPFTFQSKLSGIDDPSFHDVVWYRRTFEIPQDWNGKRIVLHFGAVDYLAKVWVNGHLVAMHEGGHTPFQADITASLVKGSNTLVLRAEDFSRDVTLPRGKQYWLEHSASIFYTRTTGIWQSVWLEPVSAVHLGKTMMTPDIDRNEIRIRTFLEGYKATEDLKLQITVSYQGECVAEDQYAIRSAEQLRTIGLSDFTDHGLGRLWSPEHPNLYTIEFRLVQDGDVVDQVSSYFGMRKVSIENGKLCLNNRPYFQRLVLDQGYFPEGILTAPSDEALKRDVELAKEMGFNGVRKHQKTEDPRFLYWCDKLGLLLWSEAANAYEYSESYVRRFTAEWQEIIERDYNHPCIITWVPLNESWGVPNVQMDKRQQQHGLAMYHLTKSLDDSRPVVYNDGWEHMTTDLVTIHDYESRQEVLEERYATAASAVEAMPANRRIFVGGASYDGQPILVSEFGGIAFKKSEWEGWGYSGAENEEDYLIRLKAVVDPMFSSPVIQGYCYTQLTDVEQEINGLLTYDRKPKAPLETIRKIMTGQ	PGPT0017810_3820	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
AK002_04733	936	lacG_7		Lactose transport system permease protein LacG	ATGGAGGAAATCAAGCAACTCAAAGTGAAACGAAGCAGGAAGCATAAAAGCATCGGGGACCGCGTATTCGACTTTACGAACTATACGCTGTTAACCGCTTTAACGTTGGTGTGCTTTTATCCCATATTGCATATCTTGTTCGCTTCCGTCAGCGATCCCGGCGCTTTGGTGGCTCATCGAGGGGTATTGTTCAAACCGCTGGGATTCACGCTTGACGGTTACAAGCTGGTGTTTAAGGACAACAGCCTGCTCAGGGGATACCTGAATACGATCATTTACGTTGGACTGGGCACCTTGGTCAATATGGTCATGACGATATTGGGCGCTTACGTGCTGTCCAGGCGGGACTTGTATTTCAAGAATTACATCATGGTCATGATTACGATCACGATGTTCTTTGGCGGAGGGCTGATTCCCTGGTTCCTGTTAATGAAGGACATCGGCTTGTACAACAATTTGTGGGCCATGATTCTGCCGACCGCTTTAAGCACATGGAACATCATCATTCTAAGGACCGGATTCCAGTCGATTCCGAGAGAGCTCGAAGAAGCGGCACTGATCGACGGCGCAAGCCAAGCCAACATCCTGGTCACGGTGATCCTGCCGCTGTCGAAGGCGACGCTGGCCGTTATCTTCCTGTATTATTTGGTCGGCAATTGGAACTCCTGGTTTAACGCGATGGTCCTGCTGAAGGATAGGGAATTGTTCCCGTTACAGCTGTTAATGAAGGAAATCCTGGTCGCCAATGATTCAACGGCCACCACGATCGGCAGCGCGGGCGGGGTCGTCATTAACAGCGCCCAGAGCTCGACCGCGTTCCGGGAGCTGGTTAAATATTGCGCGATCGTGGTTTCGACGGTGCCGATATTATTGGTATATCCGTTCCTGCAAAAGTATTTCGTGAAAGGCGTTTATGTCGGTTCGATCAAAGGCTAG	MEEIKQLKVKRSRKHKSIGDRVFDFTNYTLLTALTLVCFYPILHILFASVSDPGALVAHRGVLFKPLGFTLDGYKLVFKDNSLLRGYLNTIIYVGLGTLVNMVMTILGAYVLSRRDLYFKNYIMVMITITMFFGGGLIPWFLLMKDIGLYNNLWAMILPTALSTWNIIILRTGFQSIPRELEEAALIDGASQANILVTVILPLSKATLAVIFLYYLVGNWNSWFNAMVLLKDRELFPLQLLMKEILVANDSTATTIGSAGGVVINSAQSSTAFRELVKYCAIVVSTVPILLVYPFLQKYFVKGVYVGSIKG	PGPT0017255_272	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04734	972	yteP_58	COG4209	putative multiple-sugar transport system permease YteP	ATGGAGATATTACGGAAAAACAGGGGAGTAGACCATGTCCGGACACCCTCAGAGCCCAAGAATACCAAGCGCTTGATTCAAAAGGACCTGAAAAAGAATTGGTTCGTTTATCTGATGGCCCTTCCCGTCGTGGCGTGGTTCTTGATCTTCTGCTACGGGCCGATGTGGGGCGTCATGATCGCGTTCAAGGATTTCAAGCCTTTGCTGGGCTTCGCGGATAGCGATTGGGTGGGCTTCAAGCATTTCATTGATTTTTTCTCAGGACCCTATTTTTGGAGAGTCGTCAAGAATACGCTCCTGCTGAATGTATGGGGAATCGTCTTTGGATTTACGGCACCGATCATCCTGGCCTTGCTGCTGAATGAAGTCCGTTCTTCCAAGTTCAAGCGGACCGTGCAAACCATCACGTACATGCCGCATTTTATTTCACTTGTGGTCGTGTGCGGGATCATTCACATCTTTACGTCCAATGAGGGAGTTGTTACGCAGCTGCTTTCCTTCATAACGGGAAAAGACTATTCGTCCCTTCTAGGGTACTCCAATTTGTTCCGGCCGATTTATACCTTTTCCGGAATCTGGCAGAGCATTGGCTGGGACAGCATCATTTACCTGGCTGCGATGAGCTCCATCGATCCTTCGTTATATGAAGCGGCCGATATCGACGGGGTCGGCAGGGTGAAAAAAATGTGGTACATTACGCTGCCTCAGATCAGCCCGGTCATCATCATTCTGTTTATTTTTGCGATCGGCGGATTGATGGCTTCCGGCTACGAGAAAATTATCCTGCTCTACAATCCTTTGATCTACGATACGGCGGATGTCATCGCTTCCTATGTTTACCGAAGGGGCTTGAGGGAAGCGAGCCTGAGTTATTCCACTGCCGTCGGCTTAATAAGCTCCATCGTCAATTTCGGGCTGTTATGGATGACGAATACCATCGTGAAGCGCAGATCTGAATCCAGCTTATGGTAA	MEILRKNRGVDHVRTPSEPKNTKRLIQKDLKKNWFVYLMALPVVAWFLIFCYGPMWGVMIAFKDFKPLLGFADSDWVGFKHFIDFFSGPYFWRVVKNTLLLNVWGIVFGFTAPIILALLLNEVRSSKFKRTVQTITYMPHFISLVVVCGIIHIFTSNEGVVTQLLSFITGKDYSSLLGYSNLFRPIYTFSGIWQSIGWDSIIYLAAMSSIDPSLYEAADIDGVGRVKKMWYITLPQISPVIIILFIFAIGGLMASGYEKIILLYNPLIYDTADVIASYVYRRGLREASLSYSTAVGLISSIVNFGLLWMTNTIVKRRSESSLW	PGPT0017250_663	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04735	1734			hypothetical protein	ATGAACGGAACGATGAAGCGTTTTTTCACTTTGTTATTCATATCCATCCTGATTATTTCGACGGTAACCGCTTGCAGCGGCAAGGCAAGTGACGAGCCGGACAACACCGTAACCCAAGAGGAAGAAGTAGAGAAGAATGAGGTGACGTTCGAAGATATCAGCGGGGACATACGCGGCAATAAAGCACCGACGCAGGAGCAAATCGATGAGGTCAACGGCACGCTGAACGATACATACCTCGGAGATGTATTTGACGAAGTCATTCCAAGCGATTATTCCGCATATCCGGTTAAGGGCGATGTGGTGCTGGATGTTTGGATGCCTGCCAACTCCAACATCCCGGATATGAATAATCACTTGGTTCAGAAGCAGGTGGAGAAGCTCACCGGCATCAAGGTGAACTTCATTACGCCGCCGGTCGGACAGGAAGCCGATGCCTTTACCTTGATGATCTCCTCCGGCGAGCTGCCGGACATCATTATTGACCCGGGCCGTTATCCGGGAGGCTTCGAAGCAGGGGTCAACGATGGCGCTTACCTCGATCTCACCGACCTGATGGAAAAGCACGCTCCGAATTATACGGCATGGCGCAACTCGGACGAAATGAGAAGAAAAACGACCGTGACCGACGACGGCAGGCTGCTGGGCTTCTACGGCATCGCGCCGTATTCCGAATGGACTTGGTTCGGCATGCTGATCAAGCAGGAAGCGCTGGATAAGACGGGACTTCCAGTCCCGAACACGATAGACGAATGGTATGAATTCCTGAAAAAAAGCAAGGAAGTCGGATATAAGGCGCCGCTGAATTACGGCTCGACGTACGGCCAAATTTTTACCGGCATTATTAATGGCGCATATGGCGTTTGGGATTGGACCTTCATGGACGAGAACGGCAAGGCGGCTTGGGGGCCGGCACAGCCGAAAGCCAAGGAATATCTCGCAACGATGCAAAAGTGGAACAAGGAAGGCCTGCTGAACCGGGACTGGGCTACCGCCGATTTCAATCAACGGATGGCCAGCGCGATTTCCGACGATACGGCCGTGATGATGGATTCCCCGGATACGATGTGGAGTTATTGGAAAGTGCAGAACGACATTGATTTCGTGGGGGCACTGAATCCTGTTCTGAATGAAGGGGACAAATCCGCGACCACCTACAAAAACTTCAAAAGAACCGGAACCAGTGCAGCCATCACTACACAGAGCAAAAATGTCGAAGCCGCGATGGCATGGCTGGATTTCAACTATTCCAAGAAAGGCTGGGAGCTGATCAACTTCGGGGAGTACGGCACCGTACACTTGGTGGATGAGCAAGGAATGCCTTATTATCCGGAAAACAGCTATATGTACAATGATCCGGACGGTCAGCCGGTAGACGTCACGCTTTGGAAATACCGCTGGCATAGTTGGCCGAACATCCGCGACGAGCACAATGCCAACCCGTTGATCACGGCGAAAGGCAGCTATTCCGGAGATATTCGTCAGGACTGGACGGAGAACATGGACACCAGCATGGCGATGCCGCCGATCACGTTTACGAAAGAAGAAGCCTCGCGCGAAGCCGAGCTTGGGAACCAGTTGTCCACGCTGCGCGGAGAATATTTCGCGAAGATCATCATGGGCGAATTGCCGGTCGATGCTTACGATAAATTTTTGAAGGAAGCGCAAAGCATGGGGCTGGACGAATTCTTGAGTCTCCATCAAGCAGCCTTGGATCGGTATAACCAACGATAG	MNGTMKRFFTLLFISILIISTVTACSGKASDEPDNTVTQEEEVEKNEVTFEDISGDIRGNKAPTQEQIDEVNGTLNDTYLGDVFDEVIPSDYSAYPVKGDVVLDVWMPANSNIPDMNNHLVQKQVEKLTGIKVNFITPPVGQEADAFTLMISSGELPDIIIDPGRYPGGFEAGVNDGAYLDLTDLMEKHAPNYTAWRNSDEMRRKTTVTDDGRLLGFYGIAPYSEWTWFGMLIKQEALDKTGLPVPNTIDEWYEFLKKSKEVGYKAPLNYGSTYGQIFTGIINGAYGVWDWTFMDENGKAAWGPAQPKAKEYLATMQKWNKEGLLNRDWATADFNQRMASAISDDTAVMMDSPDTMWSYWKVQNDIDFVGALNPVLNEGDKSATTYKNFKRTGTSAAITTQSKNVEAAMAWLDFNYSKKGWELINFGEYGTVHLVDEQGMPYYPENSYMYNDPDGQPVDVTLWKYRWHSWPNIRDEHNANPLITAKGSYSGDIRQDWTENMDTSMAMPPITFTKEEASREAELGNQLSTLRGEYFAKIIMGELPVDAYDKFLKEAQSMGLDEFLSLHQAALDRYNQR	PGPT0017245_275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04736	954		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGGTGAATGGACCGACATTCAACAATCCGATCGTAGAGCAGGCAGCCGATCCTTGGGTATGGAAGCATACGGACGGCTATTATTACTTTATGTCGACGAAACGCGATCATCTGGAACTGACGCAATCCGCAACCTTAACCGGCCTTGCGGAAGGACGGAAGAAAACGATCTGGACTCCGGAACCCGGGGGAAGGTACAGCCATAACCTATGGGCGCCGGAAATTCATCGTTTGGACAACAAATGGTACATCTATTTCACGGCGAATGACGGAGGAGGGGATGAGTCTCGCCAAATATGCGTGCTGGAGAACGCCGAGGCTGATCCGATGGAGGGACAATGGGCATGGAAAGGCGCGCTGCCGACCCCCGTCCCCGGCTTGGACGGCACGGTCATGACCGCAGGCAACCAGCTTTATTTCCTGTATGCCGGATATGGCCATTTCCCGGATTACGGGTCCGCGATCTACATCATGCGCATGTCGAACCCTTGGACATTGGCGGGGGACCATGTATTGCTCACGGCTCCGACTCTGTCCTGGGAAAAACAAGGCGGAATGGCGATTAACGAAGGACCGGTCATTCTCCGGCGGAACGGCCGCATCTTTATGGTGTACTCGGCCAGCACCACCTGGTCGGAGGATTATTCGCTTGGCATGCTCACGATGGAAGAAAACGGGGATCCCATGGATCCGGAATCCTGGACCAAATCGATGCAGCCCGTATTTTGCAAAAGCGTGGAAAACGGAGTGTACGCTACCGGTCACAATAGCTTCACGCAATCGCCGGATGGCGAGGAGGATTGGATCGTTTACCATGCGCTGCCCGCGCCTGGCGTCGAGACGACCTTGCGGTCGACCCGCATCCAGAAATTCGGCTGGAAGCCGGATGGAACTCCGGATTTCGGCGTACCGGCCGGCGAGTCGGACGCCCTAGCCAAGCCGTCCGGAGAATAA	MVNGPTFNNPIVEQAADPWVWKHTDGYYYFMSTKRDHLELTQSATLTGLAEGRKKTIWTPEPGGRYSHNLWAPEIHRLDNKWYIYFTANDGGGDESRQICVLENAEADPMEGQWAWKGALPTPVPGLDGTVMTAGNQLYFLYAGYGHFPDYGSAIYIMRMSNPWTLAGDHVLLTAPTLSWEKQGGMAINEGPVILRRNGRIFMVYSASTTWSEDYSLGMLTMEENGDPMDPESWTKSMQPVFCKSVENGVYATGHNSFTQSPDGEEDWIVYHALPAPGVETTLRSTRIQKFGWKPDGTPDFGVPAGESDALAKPSGE	PGPT0019091_935	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
AK002_04737	693	egtB		Hercynine oxygenase	TTGCCGGTACCTGGGTTTGATCCAAAAGGGATTTCGATGTTGAGCATACCAGCAGGCGCAGTTCAATTAAGGGACGACCGTATAAAGTCATCGTGGACGGTGGAAGTGCCTGCTTTTCAGCTTGCTTCGGTCCCTGTAACGAAGGCGTTATACTTCTCAATTCTGCCAAAGACGTCCGGATGCGATGATTTGATGGAGTCCCCAGCCGTGAATATATCATGGCATGAAGCGATTTTCTTTTGTAATATGTTATCTCGGCGCGAAGGCCTAAACGAATGTTATTCGGTAACGGATGACGGCGAGTCCGTCGTTTGTGACAAGGAGGCGGACGGATACCGCCTTCCCACGGAAGCGGAATGGCAATACGCGTGCAAAGCCGGGAGTCCTGGCTACCGTTACGGAGAGCTTGACGACATCGCTTGGTATGAAGGGAATTCCGGAGGCGTCCTGCATGAGGTGGGCAAAAAGCGGCCGAATGCGTGGGGGCTTTACGATATGCTCGGAAACGTATGGGAGTGGTGCTGGGATCTTTACGATCCGAATGTATACGGCTCCTACAGAGTATTCCGCGGAGGGAGCTGGGCCGAAGAAGCCAGAGGCTGCGGAGCGACATGCCGCCGCCGCAGCCACCCGACGTTTCGGATTGAGGATCTCGGGTTTCGTTTGGCGAGATCGATATCAAGAAAAAGATAA	MPVPGFDPKGISMLSIPAGAVQLRDDRIKSSWTVEVPAFQLASVPVTKALYFSILPKTSGCDDLMESPAVNISWHEAIFFCNMLSRREGLNECYSVTDDGESVVCDKEADGYRLPTEAEWQYACKAGSPGYRYGELDDIAWYEGNSGGVLHEVGKKRPNAWGLYDMLGNVWEWCWDLYDPNVYGSYRVFRGGSWAEEARGCGATCRRRSHPTFRIEDLGFRLARSISRKR				NA	NA	NA	NA	NA
AK002_04738	372			hypothetical protein	ATGAATATCACGAAGGTTGAAACCGATGGAGGAACGATTGCTGTCGTTAGCGGCAGTGAGGTATTGATTAAGGATGTCCAGTCGGCCCTGGATCTCATGGCCACCGTCCAATATGAAACGGACAGCCGCCGCATGGTGATGGATCAATCGTTGATAAGCGAGTCTTTCTTCGATTTGAAGACGCGGCTTGCAGGCGACATTCTCCAGAAGTTTATCAATTATCAGGTGAAAATTGCGATCATTGGAGACTTTTCGGTATATCCAAGCCAAAGCCTTCAAGATTTTATTTACGAATGCAATAAGGGCCATGATTTCTTTTTCTTGCCCAGTGAACAAGAGGGGATCGAACGTTTAAGCAAATGGAGTAATTAA	MNITKVETDGGTIAVVSGSEVLIKDVQSALDLMATVQYETDSRRMVMDQSLISESFFDLKTRLAGDILQKFINYQVKIAIIGDFSVYPSQSLQDFIYECNKGHDFFFLPSEQEGIERLSKWSN				NA	NA	NA	NA	NA
AK002_04739	663	betI_6	COG1309	HTH-type transcriptional regulator BetI	ATGCCCAAATTGGGAATGGAACAAAAGCGCAGGGCAGACGTCATTAACGCCACGTTAACCTGCATCAGCTTGCATGGAATTGAAGGGATGACGCTGGATAAGGTTGCCGAGTATGCGAACTGCTCTAAGGGAGTGGTCACTTATTATTTCAAGAATAAGGATCATTTGACGACCGAAGCCTTCAAGTCGTTCCTGGCCTACTATGGGCTAAAGATCGAATCAGGCATTGAGCCTGCCATGTCAGCGGAGGAAATGATGGAGGTTGTCCTGCAGCATATACTGCCTCCGTACAGCGAGGACACGGATCAGAAGCTGAATGTTTCGCAGCTTGACGGAGTCGATAAGATGTTTATCCCCTATGAGGATCAAGGCAAGCTCTTTGTGCAGTTTTTTTCAAAAGCCATGCTGGACCGTCATTTGCAGGAAGTTGCATCCAAGAGTTACGAGCGCGATCTCCAAGGCATTGCCAAGATTATGGAATACGGTAACCGGACGGGGCAGATGTCGGTTGAAGATTCCAACAGTGCCGCCTATGGCTTGATGGCGATGGTTATTGGCCTGAGCTTCTTTAGAGTAGCGAAGATTCCGCCCGATAAGGACGAGGATAACCGGTACATATGTGAGGATTATGTAAGAGGACTTATCAATAGAGGAGGAGTTTGA	MPKLGMEQKRRADVINATLTCISLHGIEGMTLDKVAEYANCSKGVVTYYFKNKDHLTTEAFKSFLAYYGLKIESGIEPAMSAEEMMEVVLQHILPPYSEDTDQKLNVSQLDGVDKMFIPYEDQGKLFVQFFSKAMLDRHLQEVASKSYERDLQGIAKIMEYGNRTGQMSVEDSNSAAYGLMAMVIGLSFFRVAKIPPDKDEDNRYICEDYVRGLINRGGV	PGPT0013625_73	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013625-betI-K02167	NA	NA
AK002_04740	4482			hypothetical protein	ATGAAAAAATCCGGAAAATTCGGATCCTTGTTTATGGTGATCTGTATGCTCGTTGCCACGTTTCAGCCTTTGACGGCACCGGCCTCTGCGGCGGCGGCACCCGAGGACAAATGGGTCACCTATAAACTTGATGATTTCAGTAATCCCAAACAGGTCGGATTATTCTCGCTGAACGGCCAGGCCAAAGTGATGCAAGACAGTAAAGGTCGCGATATCCTGCGTCTGACCGAGGCACAAGGAAACCGGTTCGGTACGGCTTTTAACAAAAAGCTGATCGCGGCAGGGAACAACTATTCCTTCAGCACTTTTTTCAAGTTCCGCCTGAACGGGGACAATCGTACCAACTCTCCTGCCGACGGCATTACCTTTACCATTCAGGCCCAATCCAACAGTGCGGGCGAAGTCGGTGTGGGCATTGGCTATGGGGGGATCAAACCCAGCTTTGCGGTGAAGTATGATACGTATCAAAACCCGAGCCCGGTCAATGATCCATCCGCTAACTACATCGGACTTGCAAAAAACGGTAGTGTGAACAATACCAACCCGGATTGGTATACAACGAACCTCAATGGCATTACGCTGTCAGGAGGAGAAGATCTATACTCCTGGATCGACTACGATGGACAGACCAAGGTCGTTAAGGTTTACCTCAGCAAAGATGCTACGCGTCCGACAACTCCCGTTCTGGAAACAAGCAACATTGACTTGGACGAAATCTTTGCCGGATATCCCGGCGTTTATGCCGGATTCACCTCCGCCACCGGCGGCTCGATGGAAACCCATGATATCCTTGGATGGTATTTCACGAACGAATTCGAGCCGATCGATACGGCAAATACAGGCTATGTCTACAAACAAGCTCCAACCGACGTCAGAATTGAAGTCGTTCCTACCTCTGAGCCTGGAAAGTATGAAGTGATAGGAACCGCGCTTGATGTAAACGGCGATCCCGTGGAGGGAGCCCCGATTACCTTCTATTCCGAGGAAGGAGTTTGGACTTCTCCATCCCAATCGACCAATAGCCAGGGACAAGCTACGGCCATTCTGGATTTTGGCGATAATCCTCCATCGGGAGAGATAAAGGTTGTGACGGTAGGTGGAGCTTACGCTACGGTTCCGAAGGCTCCGGTCCTTTCATCAGGTAATACACCTGCAACAGCGAATGAGCTGTCGTGGAACACTGTAACAGGAGCTACTTATTATAGTCTTTATAAGGACGGTGTCCTGCTCGACACGAATATCCGTGTTCCCTCGTATACCTTGACGGGGGCAGATCTGGATGAGATCTCACAATACACAGTAACTGCGGTTATATCTGGACCGGCCGGTACGATCGAGACCCTTCCATCTAATCCAGTTACTTTAGGGCTCTACTTTGATAAGCCGGAATACAATCTTAATACGAGCCCTCTTGCACAAAACTACACGCATCCTACGGTGGTCACGTCTGTTTATGAGACCGGTAGTAGAGACGTTACCCTGGAGGTAACGGAGTTTACCGTTAAAAATCCACTCGTAGCTACGATAAGCGAAGACGGTTTACTGACGGCAATAGGTGCGGGCACCACCGTAATCGAGGCCGTATATAACGGTAAGACCACTCAATCCATTGTTAAAGTAAGCATCGATGCTCCGGCGCTAAAGATTGGGCAAGTGAATGCGACCAATGCCGAGTTATTGTGGAACGCCGTCCCGGGCGCTCAAACGTACAACATCTATGATGCCAACGGACAGCTGATCGCCGACGGAGTGACAGGCACTAGCTATGTGTTGTCCGGCCTGAAGCCGGAAACGAAGCAAAGCTATGTCATCAAAGCCGTCAGCAACGGCATTGAATCCCCTGCTTCGCCGTCCGTGGAAATAACCACGCCGGCCTCCGGCCTGCGCGATCTGTTGATCGATCCGGCAAGCGTCACGCTGCAGACCGGTGATCAGCACACGCCTAAGGTAACGGCGGTTTCCTTGGATGAAAGCATTCAGGATGTAACAGGCAAAGCCACATATACATCTTCCGATGATAAGGTGGCCACGGTCGATGCTAATGGCGTCGTTACCGCCGTAGCACCAGGCACGGCCATCATCACGGCTACGCATGACGGAAAATCCGTCACGCAAACCGTCCATGTTCATGATCAGGCATTATCTTACAACCTGGATGTAACGGTGACCCCTGAAGGCGTATTGGCTGACGGGAAGTCTCCGGTCACGGTTACCGCTAAGGCTACCGATTCCAATGGCAACCCGGTTCCTGGAGTGCCCGTGGTCATCACATATGATTCCGGAAAAACCAAGACGGTGACCACCAATGAAGAAGGGATTGCCGTATGGACATACGAACCTTCGGTTTTAACGGACACGACGCCGTTATACGACATCGTGGTGGCGGAGATACAGGATCCCGGCACAGGCACAACCGTTCAAGCAAGCAAGGGCGTACATTACTTCCCTGCCGCCATTGACGGCATCGTTGTGGATCAAATCACCGGCAAACCGGTAGCAGGCGCAAAAATTACCGTGGAATCCGATTTCAACAACGACGGAATTCCTGATTTCTCGGCTGAGTTAACGACCGGCGAGGACGGCTCCTACCAGATACCGGTTCCGCGCGGAAACTATACCTACGAGTTGAATATCGAAACTCCGGTTCAAATCGGAGGGCGTGACGTCACGTTGACGCAAACCAAACAGGTTACGATCGGTACAGTACAACCTGGCCAAACGATCAAACCTTCGAACCTGCTGAGAGGTCAATTATTCGTTGCTTCCGCCAGCGGAGCATCCAACCCTGACACCATCGGGGATATCCTTGGCAGCGGAAAAGCCGTTGCACTGCTTCAAGGCTTGAACGGCAGCAGCTTTAAGCAGCCGCTCACCGTCGCCAATGACGGAACGTTCTCGCTGGATCAAGTCCCGCCGGGGAAATACCAAATATCCTACCAGCTTGAACTGGCGGATGGGACGGTATTGGCAGGTCCTGCTTCCATCTTGGACGTGGATATGACCCAAGACGGACAGACTGCGATCGTGTATTCCCTGATAGATCCTTACGGCGTCATCACGGATGCATCGACAGGAAAAGTGATTAGCGGCGCAGACGTTCAATTGTATTGGGCTGACACTGAGCTTAACCGTCAGAAAGGACGGGTGCCGAATACGCTCGTATCCTTGCCTGCACTGGCTGGGTTTGCGCCTAACCAAAATGCCAATCCGCAGATTTCCGACGCGGCTGGCGAATATGCATGGATGGTATATCCGGAAGGCGATTATTACATCGTCGCGAAACGAAGCGGCTATTACACTTATGACACTCGGGTTTCCAAACCGAATGCCCCAGCCGTTAACGGTTCCGACAGTTATATCAAAGACGGGATCATCCATGTGGGACAGAGCATTATCGCATTTGACTTTGCTATGCAGCCAGTGCCGTCCTCAGGTAATGGCGGGGATTCATCCGGATCGGGTTCTTCTCCATCAACGCCGCCTTCAAGTCAGCAGGGCGAAGTGACATTGAACCTGTCCACGGACAAGAAGCAAGTCCAAGAAGGCACGCAATCGACCATTACCGTCGATTACGTTAATCGTACCAACGCGGCATTACGTGATGCATCGGTTCAAGTTACCCTTCCTGAAGGCGCCGAAGTCGTGAATGCTCACGGCGGAAAGGTTGATGGCAGAACCGTAACCTGGAATGTGGCTCATCTCCCTGCCGGAAGCACCGGCAGCTTCAAACTGGACATCAAGTGGGGACTGATTGCAGCCAAAGAGATTCAATACGAAATCATCGGACAGCTTACGGCAGGAAACAGCAAAAAATCCAACAGCGTCCAAGTTCAAGTATTCTCTGAACGGTTCGGCGATCTCCAGCATCAGCGTTATATTCTCGGGTTCCCTAACGGTAAATTCCAACCGTCCAATACCTTGACCCGGGCCGAGCTCGCTGCAATCGTTGCTCGTCTTTCGGAGAAAACCACAGGTAACGCGAACTCGAGCTTTAACGATATTCGAAAAGGACATTGGGCGACCGATTACATTCAAATCGCGGTATCCCAAGGATACTTCAACGGTTACGCAGACCATACGTTCCGTCCGGATGCACCGGTCACTCGCGGAGAACTGGCTGCGGTGCTGGCCCGTTTCCTGGATCTGGACACATCGGCTTCCGTGAATCGCCATTTTACGGACATCGAAGGAAGCTGGGCTGCCGAATCCATTGAGGCATTATATCGCAACAATTTGTTATCCGGTTATCCTGGAAACACGTTCCGGCCTAACAACCGCATGACGCGGGTCGAAGCCGTCACGTTGATCAACAAAGCGTTATACCGTGGACCTTTGACGGGATTGGAGCCGCTCTTCCCTGATGTAGCAGAAACCCATTGGGGGTTCGGCGATGTTCAGGAAGCAACGGTTTCTCACCAGTCCACTCGTCATTCAGACGGCGTTGAGGTTTGGGTTTCCACGCTTAAGGATAACGTGAAGTAA	MKKSGKFGSLFMVICMLVATFQPLTAPASAAAAPEDKWVTYKLDDFSNPKQVGLFSLNGQAKVMQDSKGRDILRLTEAQGNRFGTAFNKKLIAAGNNYSFSTFFKFRLNGDNRTNSPADGITFTIQAQSNSAGEVGVGIGYGGIKPSFAVKYDTYQNPSPVNDPSANYIGLAKNGSVNNTNPDWYTTNLNGITLSGGEDLYSWIDYDGQTKVVKVYLSKDATRPTTPVLETSNIDLDEIFAGYPGVYAGFTSATGGSMETHDILGWYFTNEFEPIDTANTGYVYKQAPTDVRIEVVPTSEPGKYEVIGTALDVNGDPVEGAPITFYSEEGVWTSPSQSTNSQGQATAILDFGDNPPSGEIKVVTVGGAYATVPKAPVLSSGNTPATANELSWNTVTGATYYSLYKDGVLLDTNIRVPSYTLTGADLDEISQYTVTAVISGPAGTIETLPSNPVTLGLYFDKPEYNLNTSPLAQNYTHPTVVTSVYETGSRDVTLEVTEFTVKNPLVATISEDGLLTAIGAGTTVIEAVYNGKTTQSIVKVSIDAPALKIGQVNATNAELLWNAVPGAQTYNIYDANGQLIADGVTGTSYVLSGLKPETKQSYVIKAVSNGIESPASPSVEITTPASGLRDLLIDPASVTLQTGDQHTPKVTAVSLDESIQDVTGKATYTSSDDKVATVDANGVVTAVAPGTAIITATHDGKSVTQTVHVHDQALSYNLDVTVTPEGVLADGKSPVTVTAKATDSNGNPVPGVPVVITYDSGKTKTVTTNEEGIAVWTYEPSVLTDTTPLYDIVVAEIQDPGTGTTVQASKGVHYFPAAIDGIVVDQITGKPVAGAKITVESDFNNDGIPDFSAELTTGEDGSYQIPVPRGNYTYELNIETPVQIGGRDVTLTQTKQVTIGTVQPGQTIKPSNLLRGQLFVASASGASNPDTIGDILGSGKAVALLQGLNGSSFKQPLTVANDGTFSLDQVPPGKYQISYQLELADGTVLAGPASILDVDMTQDGQTAIVYSLIDPYGVITDASTGKVISGADVQLYWADTELNRQKGRVPNTLVSLPALAGFAPNQNANPQISDAAGEYAWMVYPEGDYYIVAKRSGYYTYDTRVSKPNAPAVNGSDSYIKDGIIHVGQSIIAFDFAMQPVPSSGNGGDSSGSGSSPSTPPSSQQGEVTLNLSTDKKQVQEGTQSTITVDYVNRTNAALRDASVQVTLPEGAEVVNAHGGKVDGRTVTWNVAHLPAGSTGSFKLDIKWGLIAAKEIQYEIIGQLTAGNSKKSNSVQVQVFSERFGDLQHQRYILGFPNGKFQPSNTLTRAELAAIVARLSEKTTGNANSSFNDIRKGHWATDYIQIAVSQGYFNGYADHTFRPDAPVTRGELAAVLARFLDLDTSASVNRHFTDIEGSWAAESIEALYRNNLLSGYPGNTFRPNNRMTRVEAVTLINKALYRGPLTGLEPLFPDVAETHWGFGDVQEATVSHQSTRHSDGVEVWVSTLKDNVK				NA	NA	NA	NA	NA
AK002_04741	708	walR_10	COG0745	Transcriptional regulatory protein WalR	ATGCAATCTCCTAAAACGGTACTGATTATTGAAGATGAGCGGGATATCTCGCGCATTGTGAACGATTATTTGCGTGTCCAGGGATTCAGCACGTTCATCACGGAGAATGCGAGGGACGGATTGCAGGGAGTCCGTAACCGGCAGCCGGATTTTATCATTCTTGATTTGACGCTGCCAGACGCTGACGGAATTGAAGTATGCCGTGAGCTTCGTACATTGACTTCTGCGCCCATACTTATTTTAAGCGCTCGCAGCAGCGACACGGACAAAGTGCTTGCCTTGGGTTTCGGCGCCGATGATTATATGACCAAGCCCTTCTCGCTCAGTGAGCTGGTCGCCCGGGTTCAGGCGCATTTGCGCAGAATGGCCGACCCGAAACTCCAGGCAGCAACACAACAGCTATTGCGATTCGGCACGTTATCGATTGATAAAAGCGCCCGCAAGGTCATGGCCGGACAGCGGGAAATTGCTTTATCCGCGAAGGAATTCGACCTGCTCTATTTTCTCGCATCCAACCCGAACCAAGTGTTTACCAAAACGCAGCTGCTGGATCAGGTGTGGGGGTACTCCGCTTATGTCGAGGATAATACGATCACGGTCTACATTCGGCGGCTCCGCGAGAAGCTGGAACGCAGCGGTATCAAATCCGCTTATATCACGACGGTTTGGGGTGTCGGTTATAAATTCGACCCCGATGAAACGGAGTAG	MQSPKTVLIIEDERDISRIVNDYLRVQGFSTFITENARDGLQGVRNRQPDFIILDLTLPDADGIEVCRELRTLTSAPILILSARSSDTDKVLALGFGADDYMTKPFSLSELVARVQAHLRRMADPKLQAATQQLLRFGTLSIDKSARKVMAGQREIALSAKEFDLLYFLASNPNQVFTKTQLLDQVWGYSAYVEDNTITVYIRRLREKLERSGIKSAYITTVWGVGYKFDPDETE	PGPT0013765_697	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_04742	1440	sasA_22		Adaptive-response sensory-kinase SasA	ATGCACTGGAAACCATGGTATGCAAGAAGGCTCTGGACGGCTTGCCTGTCTCTTCTTGTCATTTTGCTGTCCGTCGTTTGGCTCGCTTGGCCCTCGAACCAGCCTGCTTCGTCCTCCATCGTCAACCACATTCGCTTGCTGACCAATACGATCGTCCATACGTTGGAGAACGAGTTCGTCGAACTGCTCCCTCCCGATGCTCCAATTCGCGAGAAATTAACCGGCTGGAGTCAAGAAACAAGGATCGGCCTTAAGGTCGTGCTTCCTGACGGAACGATGATATATGACAGCGATGATTCATCGGTACGCCGTATTCATCCTCGCTTTGAACTGGACTATACGCTGCGTATGTCCGACGGCGACCCGCCCGATTACCACCTGGCATTTCCGCTGCTGGATGCCGGAACCAACGCCTTCGCAGGCTATGCGCAGTTTACGGTCCCTGCATCTGCAGCGACCGCGGCCACCCCTTCTTCCGGCTTGCTTCTCGTTGTGCCATGGACCTTGCTTTCCTTGGCGCTCCTGACGCTGCTTTATATACTCTTCTCCACCGGACGCCGGGTGCAGCGGGATCTGGTTGAGCCTGTTGCCGGGCTCAAGCCCTATGCGGAAGCCATCCTGAAGGGCGATTACGAGCAGCGCGCCGAATGGGCAAGCAATAACGAGGTCGGCGAACTCTATGCCGTATTTGATCTCATGCGTGAAGAAATTCGCAATTTACATATGCAGCAAGCCTCGCACAGCCAGTCGCACAAGGAACTCATTTCCAATCTGTCCCATGATTTAAAAACCCCGCTGGCGACCATCAAAGCCTACATCGATGCGATTCGTGAAGGCATCTGCCCCGATCTGCCGAGTGTGATGGCTTACCTGGAGGTGGTGCATGCCAATACAAGCAAGATGGCTGTGCTTGTAGACGATTTGCTGCTGCACGCGCTGCGTGATCTGGACCAAATTGCGGTGCGTCCGCTGGAGCAATACAGTTCTTCTACGATTGAACCTGTGTTGCGAACCATGGCGCACTACATACGTACGATGGGAGTGCGCTGCGCGGAGCCTTCTTCCATTCCGAACGTGCTTGTTATCATCGATGCTGTGCGCTTCGAGCAGGTCATCGCCAATCTCGTCACGAATGCCCTGAAGCATACCAAGCCCGGGGATACGATTACGCTCGCCGTTGAGGAGTTGGCCGAATCATCCAGTTTACGGATCATAATTTCCGATACGGGCAGCGGTATTTCCCCGCAGGACATGCCGTTTATTTTTGAACGGTATTACCAAGGCGGTGTCCCGGACCGCAAGAAACTGGCCGAGCGGCACGGGGTTGGACTCGGTTTGTCGATTTGCAAATATATTATGGAAGCGCATGGCGGCACGATCACGTTTCACAGCAAACAGCAGCAGGGAACGACCTTCTGCTTGACTCTGCCGCTAAGCTGA	MHWKPWYARRLWTACLSLLVILLSVVWLAWPSNQPASSSIVNHIRLLTNTIVHTLENEFVELLPPDAPIREKLTGWSQETRIGLKVVLPDGTMIYDSDDSSVRRIHPRFELDYTLRMSDGDPPDYHLAFPLLDAGTNAFAGYAQFTVPASAATAATPSSGLLLVVPWTLLSLALLTLLYILFSTGRRVQRDLVEPVAGLKPYAEAILKGDYEQRAEWASNNEVGELYAVFDLMREEIRNLHMQQASHSQSHKELISNLSHDLKTPLATIKAYIDAIREGICPDLPSVMAYLEVVHANTSKMAVLVDDLLLHALRDLDQIAVRPLEQYSSSTIEPVLRTMAHYIRTMGVRCAEPSSIPNVLVIIDAVRFEQVIANLVTNALKHTKPGDTITLAVEELAESSSLRIIISDTGSGISPQDMPFIFERYYQGGVPDRKKLAERHGVGLGLSICKYIMEAHGGTITFHSKQQQGTTFCLTLPLS				NA	NA	NA	NA	NA
AK002_04743	765	lolD	COG1136	Lipoprotein-releasing system ATP-binding protein LolD	ATGCCTACAAACAAAACCATCATGCTGCAAGCTTCCAATTTATGCAAAACCTATACCACCGGCAAAGAGCAGTACCATGCCGTGCGCAATGTCGATCTGTCGATATATGCCGGCGACTTTACTGTGATCATGGGAGATTCCGGGTCCGGAAAGTCGACCTTGCTTTACTTGCTTAGCGGACTTGACGCCGTGACGGCCGGTGAAGTCCACCTTAAGGGACAGCGCCTCGATCAATTTTCGGCTAAGGAGCTTGCGCGTTTTCGAGCAGATCAGATCGGTTTTATCTATCAAAACAGTAATCTCGTGCCGGATTTGACGCTGTTCGATAACGTCGCTCTTCCTGGTTATATCGCCAATCGGGATAAAGAAGCCGTAAAACAAAGGGCCAATGACCTGATGACAAGCCTGCAGCTCGAAAAACAAGGCACCCGGCTGCCTTCCCAGGTGTCCGGAGGCCAGCAGCAGCGGGCCGCCATCGCCAGGGCGCTCATCAACAATCCGGATATGATTTTTGCCGATGAACCCACCGGCAGCCTCAACTACGAACAAGGTGTTACGGTGCTCGATATCCTGAGCCGGATGAATGCGGAGGGCCAATCGATTGTCATGGTCACCCACGATATGAAGGCAGCCTGCCGCGGCAATCGCCTGATCTACATTCGCGATGGCAAGATCGGCGGCACGCTGGATATGGGACCCTACGTCCCGGAGTTGGCCTCCGAGCGGGAAGCGATGATCTTTGCTTATGTCACCGGGAGGAGGTAG	MPTNKTIMLQASNLCKTYTTGKEQYHAVRNVDLSIYAGDFTVIMGDSGSGKSTLLYLLSGLDAVTAGEVHLKGQRLDQFSAKELARFRADQIGFIYQNSNLVPDLTLFDNVALPGYIANRDKEAVKQRANDLMTSLQLEKQGTRLPSQVSGGQQQRAAIARALINNPDMIFADEPTGSLNYEQGVTVLDILSRMNAEGQSIVMVTHDMKAACRGNRLIYIRDGKIGGTLDMGPYVPELASEREAMIFAYVTGRR	PGPT0013345_3298	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_04744	2373			hypothetical protein	ATGCGTGCCATATTGACGCTGTGCTGGGGGAACATTCGCAAACGAAAATTGCAAAACGCGCTGATCGCATTGCTCATTGCGCTATCTGCTCTATTAGTCAGCGCCGCTTTCACGGTCTTGATGAATACGGAAAATGTATTCGAAGAGCGCCATACGGCTGCTCAAGGTGCCCATGAAATCATAAATATGACCCGCGGGCTGCATGATGAACGCATGGTTGCCGATTGGTGGTCAACCCAGGAGGGCGTGACCGCCTCCAGCCTTATTCCTTACAAGCCTTGGACCGGCTTGGTCTATAACGGGCAAGAACTGCCCAATCTTTATCTGTATATGATCGATACGCCTCCGATGCCGCATGGGGTCAATAATCCGCTCCCCGGCGCCGGACCGGCTCAACTGACCGTTCCGGAAGCCGGAACCGTCTGGGTACCCACCTCGCTCGCCTACAAATACGACATGGAAGTCGGCGATGAACTGGTGTTCACGGCCGGGGCTGCCCCGGTACAATTCACGATCGGCGCTATCGTTATTGACCTGTCACATGGCGGCCCCTTCACCACCACTGCCCGCATCTGGATGAACGAAGCGGACTACCTTTCGACCATGGGCGGCTTGTCCACGCCGGAGCAGTACCTGGTGTCGCTTCGCTATGCGCATCCCGAACAAAGCGGGGAGTACTGGCAGCGCTTTGAGCAGGCGCTCGGATCGCCGTTTTTGGAAGAACGCGTTTCGTTTGCCGAGCTGTCCGCCTTTTACTTTATCATGAACAAAGTGATCGGCTTCGTCATGAGTTTCCTCGGACTGGTCATGATTGCTGTCGCCTTGCTTACGATCGGCTTTACGATCACGGACACGATCCTGGCCAATTACCGCACGATCGGCATTCTCAAATCCATCGGCATGACCTCCGAACGCATCATCGTCACCTATATGCTGCAGTACGGCTTGTTGACGGTTATCGCCTTGATCCCTGCCCTGATCGGCAGCCGTCTGCTGTCGGATGTCATCATTCAGAATTCCTTATCCTTCCTTAAATCCGAGGCAGCGCCAGTTTCCGTGCAGGCGCTGGGAGTCGCAATCTGGACCGGCATCGGCATGCTGATCATCATCCTCTTGTGCGTCGTCCTCTATGCAGCCAAAACGCGCCATATCGAGCCGATTCAGGCGATCCGCTATGGCATGTCGGAGTCTTCGCATACCCATGCACATCGACATGGAACCGGCACAAGGCTGCTGGACCGATGGTCCGTACCCGCCGTCATCGGATGGAAGCATGTGACCGGCAACAAAAAAGGGGCGGCGCTGGTCTTTCTGTTGATGAGCATTACCGCGGCGGTGCTCGTCTTTGGCACCCTGCTGGTAACGAGCGTCTATCGCATCAGCGAAACCTCCGCCCAGTGGGGCTACGACGATGCGGATATCGCCATCATGGTGATCAACGCTGACGGAATGGATCGTACAGAATTGCAATCTTATATCGAGAAGGATCCCCGGGTCCTCAGCCTGAATTGGTCCGGCTCGGCTATTGGAGTTGTTGCGCAAGCAGATGGCACTCAACCGACGTTCAGCCTCCCGCTGACCGTGGTGGAAGGCAGCATGGACGAGATGGGATTGGCCTCGCTGACAGGCCGGAACCCCGTGCTGCCTAACGAAATCACGATCGGAGTCAACATTGCACGCAAATTGAATAAAGATATTGGCGATGCCGTCACGATCTACATCGAAGGAAAACCGCATCAGCTGCTGATCACCGGCACGTTTCAGTCCATTTCCAACCTGTCGAATATCGCTCGGATCACATCGGATCTTGTCGGACAGATCCATCCGGACGCCGGGTTTGTTCAACTTCGGAACCAAGCGGATAGCGATGAGTTCGTGCGACAGCTGAATCAACGCTATGGTCCGGTGATCCAGGCCCTCAAGCAGGAAGTGCTCCTGGATTCCGTATTCAAGGAGGCCACTGCCGTGCTGCTCATTCCGATGAGTTTGCTGGCCCTTCTGTTCCTCACCGTCACTTGCCTGATCGTCTATAGTACGTGCCGCCTGCATATTCGCAAGGAAACGAAAACCTACGGCATTTACGCTTCGCTCGGCCTGACGGCATCAGACATCCGCCGCGCGTTGACAAGCGGCATTGCCGGAGTGGCTGCCCTCGGTACGCTGGTTGGCATGGTATGCGGAGTCTACGCGCTGCCAGCCGTACTGCGCGGCTTGCTGTCTGCCTACGGCATCGTCAAGGTGCCGCTGGTCATGGAGTGGCCGCTGGCGATTGTCCTGACGCTGATCGCTCTTACTATTGCCGTCAGCGGCTGCTGGTTGGCTTCGCGAGCCCTTGACCGCACCTCCTTGCGAGTGCTGGTGACGGATTCTTGA	MRAILTLCWGNIRKRKLQNALIALLIALSALLVSAAFTVLMNTENVFEERHTAAQGAHEIINMTRGLHDERMVADWWSTQEGVTASSLIPYKPWTGLVYNGQELPNLYLYMIDTPPMPHGVNNPLPGAGPAQLTVPEAGTVWVPTSLAYKYDMEVGDELVFTAGAAPVQFTIGAIVIDLSHGGPFTTTARIWMNEADYLSTMGGLSTPEQYLVSLRYAHPEQSGEYWQRFEQALGSPFLEERVSFAELSAFYFIMNKVIGFVMSFLGLVMIAVALLTIGFTITDTILANYRTIGILKSIGMTSERIIVTYMLQYGLLTVIALIPALIGSRLLSDVIIQNSLSFLKSEAAPVSVQALGVAIWTGIGMLIIILLCVVLYAAKTRHIEPIQAIRYGMSESSHTHAHRHGTGTRLLDRWSVPAVIGWKHVTGNKKGAALVFLLMSITAAVLVFGTLLVTSVYRISETSAQWGYDDADIAIMVINADGMDRTELQSYIEKDPRVLSLNWSGSAIGVVAQADGTQPTFSLPLTVVEGSMDEMGLASLTGRNPVLPNEITIGVNIARKLNKDIGDAVTIYIEGKPHQLLITGTFQSISNLSNIARITSDLVGQIHPDAGFVQLRNQADSDEFVRQLNQRYGPVIQALKQEVLLDSVFKEATAVLLIPMSLLALLFLTVTCLIVYSTCRLHIRKETKTYGIYASLGLTASDIRRALTSGIAGVAALGTLVGMVCGVYALPAVLRGLLSAYGIVKVPLVMEWPLAIVLTLIALTIAVSGCWLASRALDRTSLRVLVTDS	PGPT0013350_8429	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK002_04745	483			hypothetical protein	ATGAGCACCGGTTTGAATAAATACGCAAAATATGCCCTCGTCCTGCTGCTTAGCGTCGGTCTTATTTTATTTACGGAGCAAATGAAGTTCATCAAAAACGGCGAAGGCCATATTACGATAGGGACGATAGCCGGCTTATCCGTGCTTTGGCTTTTTTCCTTCATCGGCGTTCTGATCTCGACGCTCATGAAAAAGGTTCCGCTGAAATTCCTGCAGGAATTCCCGGTTCTCGGCTGGGTATCGATCGTTTCGCTGATCTGCTGCCTGATTTCGGATGTGTTTGTGGACGCCATTGCCAACGTCAACTTTTTGTCCATCACCACTCCGATTTTGGCGTTCGCCGGCATTTCCGTAGCCGACAGGCTGGTTGATCTTCGCAAAACCTCCTGGCGCGTCGCGATCGTTGCGGTGTTCGTGTTCACGGGCACGTACGTGGGAAGTGCGCTGCTGTCAGAGCTCGGCCTTTATTTGTCCGGTAAGTAA	MSTGLNKYAKYALVLLLSVGLILFTEQMKFIKNGEGHITIGTIAGLSVLWLFSFIGVLISTLMKKVPLKFLQEFPVLGWVSIVSLICCLISDVFVDAIANVNFLSITTPILAFAGISVADRLVDLRKTSWRVAIVAVFVFTGTYVGSALLSELGLYLSGK				NA	NA	NA	NA	NA
AK002_04746	798			hypothetical protein	ATGAAGTTAAAACTACAGTATCTCTATTTGCTTGCATTCGTGCTCATTGTTATAGCGGTTGCCGAATTTATCGGCATTCAGTCCATCAAGGTCGGCTCCGTGAAAATAAGCCTGCTTCCACTCGTATTCGCCATTTTGATCACGATGGTGCTCGGCTTGTCGATATTCCGTAAAGGCTTGATGAAGAAAATTTACAGCAAGGAAAACGTCGGTTTCTCCAGCAAGTATCTGATCTTTATTATGCTGCCGCTTATGGCGAGATACGGAGCCGACGTTGCTCCTAGATTAGAAGAAATCTTAAAAGTAGGCTGGGTATTCATCATTCAGGAAATCGGCAACCTGGGGACGATTGTGCTCGGACTTCCCATCGCCATCCTGCTCGGCCTGAGAAGGGAAGCCATCGGCGCTACGCTTGGCCTTGGAAGGGAAGGGGAACTCGCTTACATCTCCGAGAAGTATACGCTCGACTCCGACGAAGGCCGCGGGGTACTGTCCCTCTATATTATCGGTACCCTATTCGGCACGCTGTTCTTCAGCATTCTGGCGCCGGTCATGGTTGCCGCCGGCTTCTCGATCGAAGCGCTGGCGATGTCCTCCGGGGTCGGTTCCGCCAGCATGATGACAGGCTCTTCTTCCGCGTTAATCGCGCATTCTCCTGAAATGACGGAGACCATTAACGGATACGCTGCTGCGAGCCAGCTGCTTACCAGCTTTCTCGGAACGTATACGATGGTATTTCTCGCGGTCCCGCTGCAGCGGTTTATGTACAAATTAATGGTCAGAGGTGAAAAGAAATGA	MKLKLQYLYLLAFVLIVIAVAEFIGIQSIKVGSVKISLLPLVFAILITMVLGLSIFRKGLMKKIYSKENVGFSSKYLIFIMLPLMARYGADVAPRLEEILKVGWVFIIQEIGNLGTIVLGLPIAILLGLRREAIGATLGLGREGELAYISEKYTLDSDEGRGVLSLYIIGTLFGTLFFSILAPVMVAAGFSIEALAMSSGVGSASMMTGSSSALIAHSPEMTETINGYAAASQLLTSFLGTYTMVFLAVPLQRFMYKLMVRGEKK				NA	NA	NA	NA	NA
AK002_04747	1263			N-acetyldiaminopimelate deacetylase	ATGAGTTTTAAAGAACAGTACGAAGAAATTGCAGGTGTAGGACAGACCATATTCGATAACCCTGAGCTTGGCTACAAGGAATTTAAAACCAATCAAACGGTAGTGGATTTTCTGAAAAAGGTTAATCCGGATATCGAGCTGCAATCATTCAGCACAACCGGCCTTCGGACAACGCTTGGCGGCGGCAAGCCGCTGAACATCGCTTTTATCGCGGAGCTTGATGCGGTATATGCTCCAACCCATTGGCGATCGGACGAGGCAACGGGTGCGGCACACAATTGCGGTCATTATACGCAGGTGGCGATTGCCCTGGCTTTATACAAACATTATTTCGAGTCCAAGGCGTACGACGCTTTGGATTATAGTCTAACGTTTATTTTCATTCCCGCCGAGGAGTATTTGGATCTCGCTTACAGGGACGAGCTGCTCGGAAGCGGCAAGATCTCCTATTACGGAGGAAAACCCGAAGCGATGAAACTCGGCGTGTTCGACGATATCGACATCGGGCTGTGCGTACACGCCATGGGAGGAGAGTTTGCCGAGCGCACGATCGAAATCAACTGCGACCTGGCCGGATTCTTATATAAGCATTACACGTTTACCGGAAAAGCAACCCACGCCGGTTTCGATCCTTTCTCCGCCAAAAATGCCTACAGCATGTCGACCCTGTTCAATGTGGCGTTAGGCCTCAGCAGGCAGCAAATGAAGGACAGCGAGAAGGTCCGCATGAACCCGATCGTCCTGGAGTCCGACATGTCGACCAACGTCATTCCCAACCGGATTACGGTTGGCAGCGATCTGCGCACCCAGTCGGTGGACTACATGAAGGAAGCGGCCTCCAAGATGGATGATGCGGCCAGGGGCAGCGCGCTGGCCCTTCAAGGCGAGGTCGAGATTAAGACGCAGATGGGATATTTGCCGTTCGTTCAGGACCGGTATTTGTCCGAGTTCGTGCTGGAGGCGTTCCAGGATAACGAGGAGATCGCGCGTATTTGGAACAACAACGCCATCAGCGCTGCAGGAGACATTGGGGATTTAGCCTTCATGATGCCCTGCATTCAAATCGGCTACAGCGGCTTTACGGGAACGATCCACGGCGACGATTTCAAGGATATCGATCCGGAATTTATTTATGAAGTGTTCCCGAGATTTTTAACGCAGGTGCTGGAGCGCATGAGCGGACGTATCGACCGCTCGAAGCTCTACCGCCGCACATTCGCCGAATACGAGCAGCTCCTTGCGTCGATCGTTGGCTCCCATTAA	MSFKEQYEEIAGVGQTIFDNPELGYKEFKTNQTVVDFLKKVNPDIELQSFSTTGLRTTLGGGKPLNIAFIAELDAVYAPTHWRSDEATGAAHNCGHYTQVAIALALYKHYFESKAYDALDYSLTFIFIPAEEYLDLAYRDELLGSGKISYYGGKPEAMKLGVFDDIDIGLCVHAMGGEFAERTIEINCDLAGFLYKHYTFTGKATHAGFDPFSAKNAYSMSTLFNVALGLSRQQMKDSEKVRMNPIVLESDMSTNVIPNRITVGSDLRTQSVDYMKEAASKMDDAARGSALALQGEVEIKTQMGYLPFVQDRYLSEFVLEAFQDNEEIARIWNNNAISAAGDIGDLAFMMPCIQIGYSGFTGTIHGDDFKDIDPEFIYEVFPRFLTQVLERMSGRIDRSKLYRRTFAEYEQLLASIVGSH				NA	NA	NA	NA	NA
AK002_04748	600			hypothetical protein	ATGAAGGTAGTAATCATTGGCGCAAGCGGCACGATCGGACGAGCAGTCGCTAAAGAATTAGAAAAAAATCACGAAATCGTACATGCCGGGCGAAACGGCTTCGATGCCCAAGTGGATATTACTTCCGTCAACAGCATTAAAGACATGTATAAAAAAATCGGAAAAGTGGATGCGGTCATCAGCGCAACAGGCGGTGCGCATTTTGGTCCTATTGCAGAATTGACGCCGGAGCTAAATGAGATGGGCATTGAAAGCAAACTTAAGGGCCAAATTAATCTAGTCCTTCTAGGACTGGATTATATGAATGACGGAGGAAGCTTTACCTTAACAACCGGAATTATGATGGATGATCCCATTCCTCAAGGCGCATCGGCAGCCATGGCAAATGGCGGTGTCAAGGCATTCGTTAAATCCGCAGCCATTGAAATGCCGAGGGGAATTCGCATAAACAGCGTAAGCCCTAATGTTTTAGTGGAGTCCCTAGATAAATACGGCGAGTTTTTCCCGGGCTTTGAAGCCGTGCCGGCCGCACGTGTAGCGCTAGCGTATAAAAAGAGTGTGGAAGGGGCTCAAACCGGGCAAAACTATGAAGTTTATTAA	MKVVIIGASGTIGRAVAKELEKNHEIVHAGRNGFDAQVDITSVNSIKDMYKKIGKVDAVISATGGAHFGPIAELTPELNEMGIESKLKGQINLVLLGLDYMNDGGSFTLTTGIMMDDPIPQGASAAMANGGVKAFVKSAAIEMPRGIRINSVSPNVLVESLDKYGEFFPGFEAVPAARVALAYKKSVEGAQTGQNYEVY				NA	NA	NA	NA	NA
AK002_04749	954	yteP_59	COG4209	putative multiple-sugar transport system permease YteP	ATGAGCTCTCAAGCCGAACCCAAAAAACGAAAGCGCTTACGAATGCGCTGGCACAAGCAGGATACGGAATTGACCCTCTTGGCGCTGCCAACCACGATCTGGTACATCCTGTTTAGTTTCTTACCGATGTTCGGGATCATTATCGCCTTCAAAAATTTCAAGATTAGCGGCGGGTTCTTGAGCAATGTGTTCAACAGCCCTTGGATCGGGTTCAAAAACTTCGAATTTCTATTCAAGTCGAATGACGCCTGGATCATTATTCGAAACACGATAGGATACAACATTGTGTTTATTGTGCTGGGGATCGTTCTGCCCGTCCTATTCGCGATCATGATCGGCCTCCTCCACAGCCGCAAAGCCAGCAAAGTCTATCAGACGATGATGTTCCTCCCCTATTTCCTGTCGTGGGTCGTCGTATCCGCCGTAGGCTGGGCATTCCTGAGCTTTGATAAAGGGATCGTCAATCAAATGCTCGTCTCGATGGGCAGCGATCCCATTAACTGGTATATGGAGCCGAAGTATTGGCCGTTTTTTCTGATTCTCTTGAATGTCTGGAAGGGCCTGGGCTATGGCATGGTCATCTATCTGGCGACCATCACGAGCATAGACAGCACCTATTATGAAGCAGCCGTCATCGATGGCGCGTCCATTTGGCAGCAGACAAGATTCATTACGCTGCCCATGCTCAAGCTGGTGATCGTCATGATGTTCATACTGGCGGTAGGGCGCATATTTTACACCGATTTCGGTTTGTTCTATCAGGTCACGCGAGACTCCAATTCGCTGTTCAACGTGGCGACCACGATCGATGTCATGGTGTATAAACAACTGAAAACGGCTACCGTAGGCATGGCATCCGCAGCCGCATTCGTACAGTCTGTTCTGGGATGCGCTACGATTCTGGCCGCTAACTGGATCGTTCGCCGAATCGATCCCGATAGCGCGATGATGTAA	MSSQAEPKKRKRLRMRWHKQDTELTLLALPTTIWYILFSFLPMFGIIIAFKNFKISGGFLSNVFNSPWIGFKNFEFLFKSNDAWIIIRNTIGYNIVFIVLGIVLPVLFAIMIGLLHSRKASKVYQTMMFLPYFLSWVVVSAVGWAFLSFDKGIVNQMLVSMGSDPINWYMEPKYWPFFLILLNVWKGLGYGMVIYLATITSIDSTYYEAAVIDGASIWQQTRFITLPMLKLVIVMMFILAVGRIFYTDFGLFYQVTRDSNSLFNVATTIDVMVYKQLKTATVGMASAAAFVQSVLGCATILAANWIVRRIDPDSAMM	PGPT0017250_1401	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04750	930	araQ_51	COG0395	L-arabinose transport system permease protein AraQ	ATGACATCGAAATCTACTTATCAGACAGGCCTTGAGAAGTTTAACCGTACAAACAAAGCCGTCAACCTTTTGTTCAACCTGATCTTCATTCTGTTGGCGCTGCTCTGCGTCATACCTGTAATCGTAGTCCTGTCCATCTCCTTCTCCAGCGAGGAGTCCATCCGCGAGACCGGATATCATCTGCTGCCGGTCGCCATGTCGGCCGAGGCTTACGTATACATCATCAAGCAGGGAACGATGATTCTGCGGGCCCTCGGCGTATCCGCCCTCGTTACCGTGGTCGGTACCGTGCTCGGGGTGCTGCTGACCGCCTCCATGGGTTACGTTCTCTCTCGCCCCAACTATAAGCTGAGGGGATTTCTGACCTGGGTGGTATTCATTCCGATGGTATTCAACGGCGGCTTGGTATCCAGTTACTTCATCAACACGAATTTGCTGGGACTGAAAGATAGCATCTGGGCGCTGATTCTCCCGCTCGCCGTTTCATCGTTCAACGTCATCATATGCAAAACCTTTTTCAAAAGCACGATTCCCGACGGGCTGATCGAATCGGCCGAAATCGACGGCGCGAGCCAGCTGCGAATCTTCTTCTCCATCATCATGCCGATCTCGCTGCCGGTCATCGCCACCATCGGACTGTTTCTCTGCTTTGCTTACTGGAACGACTGGTTCCAATCGATGCTGTATATCGACAACCAGAACCTGTATTCCCTGCAAGCGCTGCTCAACAGCCTAATGAGCAATGTGGACGCACTCGCGAAGAATGCAGCGAGTATGGGCGTAAGCTACGCCATGCTCGTCGCAACGATGCCGAAGGAATCCGCCCGCATGGCGGTCGCCATTCTCATCGTGCTGCCTGTAGCATTCGCCTACCCTTTCTTCCAGAAATATTTTATTTCCGGATTGACGGTCGGCGCCGTGAAGGGCTAA	MTSKSTYQTGLEKFNRTNKAVNLLFNLIFILLALLCVIPVIVVLSISFSSEESIRETGYHLLPVAMSAEAYVYIIKQGTMILRALGVSALVTVVGTVLGVLLTASMGYVLSRPNYKLRGFLTWVVFIPMVFNGGLVSSYFINTNLLGLKDSIWALILPLAVSSFNVIICKTFFKSTIPDGLIESAEIDGASQLRIFFSIIMPISLPVIATIGLFLCFAYWNDWFQSMLYIDNQNLYSLQALLNSLMSNVDALAKNAASMGVSYAMLVATMPKESARMAVAILIVLPVAFAYPFFQKYFISGLTVGAVKG	PGPT0017255_344	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04751	1497			hypothetical protein	ATGAAAAGAGCATTAAAGTTCATCTCTACGCTGTGCGTGCTGACGCTTATGTTGACTGCTTTGGCAGCCTGCGGCGGCTCGAAGCCTGCACCTGCGACAGACGGATCCCAAACGACGCCGGACACATCCAATGACACCGAAACGGCAAGCAAGGATGTACCGACGTTGACCTGGTGGACCATCGGCGGCCAAGTGCCTAACAATTTCAGCAAAGCGGTGGATGCCATGAATGCCTACACGGCCGAGAAGATTGGCGTGAAGGTCGACATCAAGGTAGCCAGCTGGGGTGAATGGGACACCAAAATGAATACCATCGTGAATACCGGCGAGCCATTCGACATCATGTTCACGAACAGCGGTAAATACAGCAAGCAAGTAGCTATGGGCGCGTTTGCCGATATTACGGATTTGGTTCAGAGCGAAACGCCGGACTTATACAAACTGATTCCCGAGAAGGTATGGGAAGGCACAAAGATCGGCGGCAAATATTATTCCGTTCCGACTTACAAGGATTCCGCGCTGACGCAGTACTGGGTATTCGATGATAAGTACGTGCAAAAGTACAATATCGACATCAACAATATCAAAACATTGCAGGACCTGGATAAACCGCTTCATGACATGAAGGCCGGCGAAGGCAAAAGCTTCTATCCGCTGCCAATGACGCAAGGCGAAGGCTTGAACGGCTTCTTTAACGACTATGACGATTTAACCCTGGGCTTCCCTCCGATCGGCGTCAAAGCGGACGACGCATCGCGCACGGTTGTCTCCGTGCTGGAGCAGCCTGATGTTGTGGCTAATCTGAAGCTGCTGCATCAATGGTACCAGGATGGCATCATCAACCCGGATGCGCCGACGAAGACGGAGAACGACAAAGGCAGACCGTTCTTTGCAGCCCAGGCATTCCCGGGAGCCGAGATCAGCTGGCAGATCAATGACGCCATCGAGAAGTACGATATGGTCCAGCATTACGGGCCGATCTATACCACCAGTACGATTCAAGGCTCGCTGAACGCGATTTCGGCGAATTCCAAGTATAAGAAGGAAGCCTTGAAATACCTTGAATTGGTGAATACGGATCCTAAACTTCGCAATATGCTGGCATTCGGCGAGTTGGGCGTGGATTACAACAACGTCGATGGCGAAAAAGTGATTGAGCGTACATCCGATACTTGGCCGCTTGCGGCTTACACGCAAGGCACGTTCTTTAATCTGGCGGTTACGAAAGGCGCTCCTGAAGATCAATGGGAGCAGGTTAAAAAGCTGAACGATGCAGCGAGCTCCTCCACCGTCCTCGGCTTTGCGCTGGACATCACCGATCTTCAGACCGAAGTGGCGAACTGCCAGGCCGTGTGGGATAAATACAAATATGAAATCATTACAGGAGCATCCGATCCGGAGAAAGTGATACCGAAAGTCACCGCTGAATTAAAGTCGGCCGGCATGGACACGATCATGCAAGCGGCCCAAGAGCAGATCAATAATTACTTCAAGTAA	MKRALKFISTLCVLTLMLTALAACGGSKPAPATDGSQTTPDTSNDTETASKDVPTLTWWTIGGQVPNNFSKAVDAMNAYTAEKIGVKVDIKVASWGEWDTKMNTIVNTGEPFDIMFTNSGKYSKQVAMGAFADITDLVQSETPDLYKLIPEKVWEGTKIGGKYYSVPTYKDSALTQYWVFDDKYVQKYNIDINNIKTLQDLDKPLHDMKAGEGKSFYPLPMTQGEGLNGFFNDYDDLTLGFPPIGVKADDASRTVVSVLEQPDVVANLKLLHQWYQDGIINPDAPTKTENDKGRPFFAAQAFPGAEISWQINDAIEKYDMVQHYGPIYTTSTIQGSLNAISANSKYKKEALKYLELVNTDPKLRNMLAFGELGVDYNNVDGEKVIERTSDTWPLAAYTQGTFFNLAVTKGAPEDQWEQVKKLNDAASSSTVLGFALDITDLQTEVANCQAVWDKYKYEIITGASDPEKVIPKVTAELKSAGMDTIMQAAQEQINNYFK	PGPT0017245_3163	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04752	1764			hypothetical protein	ATGGGCTCATTTTTACAAATCAAAATCTATCGCCACAAGTTTATTGCCTATGTCATCTTCGTCGTGGTCATCGGTCTGACGCTTGGTACGCTGACCAGTGCCATGCTGCTGAATCAATGGGTGGGCAATGCCCGCATCGAGGCGGCTAATGCCTTTGCGCGCGTGGAGAATGAGCTGCAGTATGATGCTGACCGAATCGAGGCTTACATGCAGCGCATCTACTCCAATACCGGACTGATGGACGATGCTCGCAGCTTTCTAAGCAGCAGCGCGGAAGGCTATTTAACCAGCAGGCTGCAGAACAGCCATTTCTCCCAGCCGCTGGTTTCGTTTCCCGAGGATGTGAAGACCTATCTGTACAGCTGGGCGCAGGGCGAAATCACGCAGATTAGCCTGCATACCGGCCATTACGGCAATGTCGTACGTTTTAATGAGCACGGGATAACAAGCTTTACCTTCGGGCTGCCGAATACGGACGAGGCGTTCCGCGATACGATCATGAAGGGCTTCGTCTATCGCAAGAAACTGTCAAATCCGACGCCGGGCGCTCAGGAGTTCGGGGAAATGCGCTTTTTGGTCAGCAGCGATCAAATCTTTAAATCCATTCGAAATTTCCGGTTTGGCAATGCCGCCGCGGTCAGTGCTACCGGCGAAACCTACCTCATCGGCAATGGGCAGGACCAGGACTTGGAGGAGCTGTCCCGACTGGCCGAGGCAGACGGCCGCAGTCATGGTTTTATATCGAGGGGTGTACGGAAGCATGTCTTATTCGTTTCCTTTCCGTCCACCAAGTTTAATTTCAAATTTATTAGCATCATTGATTTATCCATGCTGATTCGTCAGCATGCCGGGATGCTGGTCGCCATCTTTCTGATCGTATTGACGGCCATGGTCAGCGTGCTTCTTCTCATTGCATATAATATGCGGGATGATGCCCTCTTCCTCCGCCGCATCATTCAATCGATCGGACGGGTGAAAATGGCCAATTTTACGCCGAACCGCCCCGCCCGGTACCGTCGCAACGAATACGGCATGATCGCCCGGGAATTGGACGATATGATTCAGCAGCTGGACAAGCACATCCGCAATGAATATCTGCTCAAAATCAAGCAGCAGGAAACCGAAATGAAAGCGCTTCAACATCAAATCAACCCTCATTTTTTATACAATACGCTGGAGGTTATCCGCTCCACGGCGCTAGTGAATCAGGACCGAGACACCGCCGACGCCATTGCTACGTTAGGCACGCTCTATCGTGAAATCGTCAAAAAGGAAAATATCATATCGATTGCTAGCGAGCTGGAATTGCTTCAGAAGTACTTGGAGATTATGGAGTTCAAGTATCCCGAGCGTTTTTATTATCAAATCAATGTTGAGCCGGCGCTGCACTCGATCCCTACCGTGAAATTCTGGATGCAGCCCCTGGCCGAGAATTTTTTCATTCATGGCTTTAACGCGAATCATGAGTTTAATCTGTATGTCGTCAACGGATTTGAAGCGAATGATGCTTATGTGCTGGAATTCGTGGACAACGGAAGCGGGATTCCGCCGGAGCGTTTGGATATCGTTCGCAGCACGCTGTCCAACCATGATGAAACTTCTTCCCATAGTATCGGACTGCGCAACGTATATACGCGCCTTCATTTCTTTTATGGAAACGGCCTTTCGATCGAGATTGAGAATAATGAGGAAGCTGGAGTCAAGATTTCCGTGCGGATTTCAAAAGAGGTGATTGAACATGTACAAACTGATGATTGTGGATGA	MGSFLQIKIYRHKFIAYVIFVVVIGLTLGTLTSAMLLNQWVGNARIEAANAFARVENELQYDADRIEAYMQRIYSNTGLMDDARSFLSSSAEGYLTSRLQNSHFSQPLVSFPEDVKTYLYSWAQGEITQISLHTGHYGNVVRFNEHGITSFTFGLPNTDEAFRDTIMKGFVYRKKLSNPTPGAQEFGEMRFLVSSDQIFKSIRNFRFGNAAAVSATGETYLIGNGQDQDLEELSRLAEADGRSHGFISRGVRKHVLFVSFPSTKFNFKFISIIDLSMLIRQHAGMLVAIFLIVLTAMVSVLLLIAYNMRDDALFLRRIIQSIGRVKMANFTPNRPARYRRNEYGMIARELDDMIQQLDKHIRNEYLLKIKQQETEMKALQHQINPHFLYNTLEVIRSTALVNQDRDTADAIATLGTLYREIVKKENIISIASELELLQKYLEIMEFKYPERFYYQINVEPALHSIPTVKFWMQPLAENFFIHGFNANHEFNLYVVNGFEANDAYVLEFVDNGSGIPPERLDIVRSTLSNHDETSSHSIGLRNVYTRLHFFYGNGLSIEIENNEEAGVKISVRISKEVIEHVQTDDCG				NA	NA	NA	NA	NA
AK002_04753	762		COG4753	putative response regulatory protein	ATGTACAAACTGATGATTGTGGATGACGAACCTCAGATTTTGGAGGGAATGAAGCGAATCCTGGATTGGAAGCAATACGGATTTGGACGGATCGAAACCTGTGAATCCACGGGGGAAGCGATGTCCAAGGTGGTGGACCTGCTGCCGGACGTCGCCATTTTCGATGTCTGCATCGGCAAGGAGCTTGGATATGAAGCGATCCAGAGACTCAACGAATTTCAAATCCCTACGAAATACATCATCATGAGCGGCTACAGCGAATTCAAGTATGCCCAGGAAGCCATTCGGTGCGGCGTCAAAGACTATCTGCTCAAGCCGGTTGAACGTACCAAGCTGCAGCAAGTGATCGAGAAGATCATCGTCGAGGATCTGGGCGGTTCGATAGGTGACCGAAACGGCGAAAGCTTGAACCAGGATCCGGTGCTTGGCGTTAGCTATGACAGCTTATCCAAGCTGGTGAACCGGATTCTGCTGATGATCAGGACGGAGTATGCACAGAACATCACCTTGAAATCCGTGGCGGAGCGTTTCCAGATGAACAGCACCTACCTCGGACAATTGTTTCTCAAAGAAACCGCGATGAAGTTTTCCGAATACCTGATGGCTTACCGCATGCTTTTGGCACAGGAGAGAATTCAATCGACGGATGAGAAAATTTCCTATATCGCGTTTTCCGTGGGTTACAACAATCTCAATTATTTTTATACGCACTTTCACAGCTTTTTCGGGAAATCTCCTTCTGAACTGCGGGGAAAAGGGTAA	MYKLMIVDDEPQILEGMKRILDWKQYGFGRIETCESTGEAMSKVVDLLPDVAIFDVCIGKELGYEAIQRLNEFQIPTKYIIMSGYSEFKYAQEAIRCGVKDYLLKPVERTKLQQVIEKIIVEDLGGSIGDRNGESLNQDPVLGVSYDSLSKLVNRILLMIRTEYAQNITLKSVAERFQMNSTYLGQLFLKETAMKFSEYLMAYRMLLAQERIQSTDEKISYIAFSVGYNNLNYFYTHFHSFFGKSPSELRGKG				NA	NA	NA	NA	NA
AK002_04754	1521			hypothetical protein	ATGGTTAAATACGCTAGAAGCTTACGGTCTATAATGATGATCAGCCTGCTGCTGCTGTTCACATTCTATACAACCGGCTGCTTCGGACAGCCTGGTTTTGACGACGAACCGCATGTCGGCGACACGGTCAACCTGATCTATTATACGATCGGTGAGCCCGACAAGGATCTTCGCCTCGTCAATGATAAAATCAATGAAATCATGGCTCGCAAGATCGGCGTGACGATCACCTATATCAAGGTAAGCTGGCAGGAGTATGAAGATCGGCTGAACACGCTGATATCCGCCGGAAGCCCGTTCGACATTGCTTTTGCGCCCGACTATGCAACCACCGCGATGCGCGGAGCCTGGCTGAGGCTTGATGACCACCTGGCCGGCCTGGGCAAGGATATGTACGAGGCCATCGATCCCACCTTTTGGCAGGGGGTCCGCATGAACGACGGCAGCATTTACGGCGTCCCTACCAATAAGGAGTTAGCCGTACGCGATCAGTGGATGTACCCCGCCTCGATCGTGGACAAACACCATATCGACATCACCAAGTACAATACGCTGGAATCGCTTGAGCCGCTCCTCCGGATGATTCAGCAGAAAGAGCCGGATTACATTCCTATGGAGTTGGATCGGGATTCCCATAATTTCTTCGCTCTCTACGGATACGAATACATCATGAACCATAAAGTGCCCTTGATGATCAAATCGCTCGACCCGGACGCACCGGTGGTGAATATCTTCGAAACCAAGGAAGCCCGGCAGGTTCTCGATACGCTGCGGCGTTATTATAAGCAAGGCTTCATCAATAAGGACGCGGCGCTGCGCGAGCCGGGAGGACTCAAACGAGGCGCCAAGGTGTTCTGGAAGTCCTCCGGCGGGGGTCCGCTCTCGGAGACGACTTGGAGCAAGGATCGCGGTTATAAGGTGGTAGCGAATCCCGTAACCCCCAGCACCGTAACTACGGAATCCGTCCGGGGAGGCATCATGACCGTTAATGCCAATACCAAGCATCCCGTAGAATGCATTAAGTTTCTGAATTTGCTTAATACGGACCCAGAGATACGGAATTTATTCAATTATGGGATAGAGGGCATCCACTACACTTTGGACGAACAGGGGCAGGTCGTTCCGAAAACAGACAAAGACAGCCAGGGCGAACCGATCCCGGATGCGCCTGCAAGCAGCTATTCAGGCGTGCAGTACACGCAGGGGAATTGGTTTATCCTGAAAACCATGGGCGGCGATAATCCGGACCCGCTCGACAAATGGGAGCAATTCCGTCAATACAACGCCGGAGTCGTCAATTCCACCGTGCTTGGATTTACGCCGGATCTATCCGCGCTGACCGCTCAAACCGATAACATCGAGATGGTCTGGCATAAATATTACCCAAGCCTCATGACAGGCTCCGTGGATGTCGATACGATCCTCCCCAAGTTTAACGAGGAGCTGAAGCTAGCAGGCATGAATGACGTGATCCAAGAGGTGCAGAAGCAATTGGATGCTTGGCGCATCGGCAGGAAGTAA	MVKYARSLRSIMMISLLLLFTFYTTGCFGQPGFDDEPHVGDTVNLIYYTIGEPDKDLRLVNDKINEIMARKIGVTITYIKVSWQEYEDRLNTLISAGSPFDIAFAPDYATTAMRGAWLRLDDHLAGLGKDMYEAIDPTFWQGVRMNDGSIYGVPTNKELAVRDQWMYPASIVDKHHIDITKYNTLESLEPLLRMIQQKEPDYIPMELDRDSHNFFALYGYEYIMNHKVPLMIKSLDPDAPVVNIFETKEARQVLDTLRRYYKQGFINKDAALREPGGLKRGAKVFWKSSGGGPLSETTWSKDRGYKVVANPVTPSTVTTESVRGGIMTVNANTKHPVECIKFLNLLNTDPEIRNLFNYGIEGIHYTLDEQGQVVPKTDKDSQGEPIPDAPASSYSGVQYTQGNWFILKTMGGDNPDPLDKWEQFRQYNAGVVNSTVLGFTPDLSALTAQTDNIEMVWHKYYPSLMTGSVDVDTILPKFNEELKLAGMNDVIQEVQKQLDAWRIGRK	PGPT0017245_2974	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04755	432			hypothetical protein	ATGGATTTGAACAATGACGCTAAAGAAATGGCTCCTGCTGCTGAAGAAAATCAGCAAAAAGAAAAAGAACGACGCCCGATGTCGACCAGCAGCGGGCTCCTGGAATCGGCCATCGACAAGTTTGCCAGAGAAGGCGGCTTTGACGACTTGCCGTTGAAGGGAAAGCCGATCAAGATCGAGGACGGCGATGTGCTAACCAGTATCATGAAGAACGCGAATTACCAGCCGGCCTGGGTGGAGCTGAGAAAAGAAATCGCCGCCGACATCAAGCGTCTTCTTGACCTTCAGGACCCGAATGCGATTCCCGAGGCCGAGGTAGAGGCCATCAACCAGAAAATTATGAAGTATAACCGGATCGTTCCGAATCCGCAGCTGCAAAAAGGACTCCTGTCCGGGAGCAACTTGCACGCAGCCTACGATAAGTGGGAGTAG	MDLNNDAKEMAPAAEENQQKEKERRPMSTSSGLLESAIDKFAREGGFDDLPLKGKPIKIEDGDVLTSIMKNANYQPAWVELRKEIAADIKRLLDLQDPNAIPEAEVEAINQKIMKYNRIVPNPQLQKGLLSGSNLHAAYDKWE				NA	NA	NA	NA	NA
AK002_04756	3126	cbgA_2		Beta-galactosidase	ATGAAACAGCAGGTTGAACGGGGAGTCGCGCCAAGCCTTGCATGGTTGTCCGACCCCGGCATATTCGCTGTAGGCAGGATGCCTGCGCACTCCGATCACCGATACTACGAAACGATACGGGAAGCCGAATGGCTTGGAGAGATGCCTTGGCGCCGCAGTCTGAATGGAAGCTGGAAGTTTAGTTATGCGCATAACGCCAAGGAACGCCAAGCGGATTTTTATAAAATGGACGTTTCCTGCAGAGGCTGGGATGATATTGAGGTTCCCGGACATATCCAGCTTCAGGGTTACGGGCAGCCGCAATACGTGAACACGATGTACCCATGGGACGGTGTGGAGTTTCTTAGACCCCCGATGATCTCAGAGGACCACAATCCCGTGGGCAGCTATGTGAAGTATTTCGACGTTCCTGCCGGCTGGCAGCAGCGTCCGTTGTACATTTCTTTTCAGGGAGTTGAATCGGCCTTCTATGTATGGCTGAACGGGGAGTTTGTCGGTTACGGCGAAGACAGCTTTACGCCGAGCGAATTCGACCTCACGCCGTACTTGGCGGAAGGCGAGAATAAGCTGGCTGTCGAGGTCTATCAACGCAGCACCGGAAGCTGGCTGGAGGATCAGGACTTTTGGCGCTTTTCCGGTATTTTTCGCGACGTGTATCTGTACACGGTACCTGACGTTCATGTGCAGGATCTGCATGTTCAAACCGATTTGGATGAAACGTATGAACTTGGAACGCTGAAGGCTGCCATGCAGCTTAAGGGCAGGCCTGCTTCGAAAATAGTCCTTGAGCTTAAGGATGCAGCAGGAAATCCTGTGGTCCGGGGGGAGACCGGAGCTTCCGGGGGAACGGCGTCGATTGAGTTAGCTGCAGGAAAGGTCGAGCGGTGGAGCGCGGAGGAACCTAATTTATATACACTGTACGTATCCGTCTATGACGCATCGGGAGACCTCGTGGAGGTCGTGCCGCAAAAGATAGGTTTCCGCAAATTCGAGATGCTCGACAAGGTGATGCACTTAAACGGCAAGCGCATTGTATTCAAAGGCGTCAACCGGCACGAATTCAATTCCCATCGCGGACGCTGCATTACGAAAGAGGATATGCTGTGGGATATCAAGGCATTGAAGCAGGCGAATATCAACGCCGTTCGGACGTCGCATTATCCGAATCAGACGCTATGGTACGAGCTGTGTGACGAGTACGGCGTGTACGTCATCGACGAGATGAATCTGGAGACGCATGGATCGTGGCAGAAAATGGGGGCCGTTGAGCCATCCTGGAACATACCGGGCAGCAGGCCGGAATGGCGGGATATCGTTCTGGACCGTGCGATTTCCATGATCGAGAGGGACAAGAACCACCCATCGATATTGATCTGGTCTTGCGGCAACGAGTCTTATGCGGGTGAAGTCATTCGGAACGTTGCGAATGTTTTCCGGGAGAAGGATCCTACCCGGCTCGTGCATTACGAAGGAGTGTTCCATAACCGGGAATATGACGATGCGAGCGATATGGAGAGCCGCATGTATGCAAAACCGGCGGATATTGAACAGTATCTGCAAAACGAACCTTCCAAGCCCTATATCAGCTGCGAGTATATGCATGCTATGGGCAATTCCGTCGGCGGATTGCATAAGTACACGGAGCTGGAACGGAAGTATCCGATGTATCAAGGCGGCTTCATCTGGGATTTCATGGATCAGGTTATCGTGAAACATGATCGTTACGGCAAGCCTTTTATGGCCTATGGAGGGGATTTTGACGATCGCTCAACCGATTACAACTTCTCCGGCAACGGCATCGTATATGCAAATCGGACATGGTCCCCCAAAATGCAGGAAGTGAAATTCCTGTATCAGAACATCAAGCTGACACCGGATCGTTATGGCGTCACGATCCGAAACGAGAATTTGTTCGTGGGTTTGGATGCTTATCATGTTACATACTCTCTGTATCATGAAGGCAGGGAAATCTATAGCGGAGCTGTATGCACCCAGGTTGGTCCCGGCGAAGAGAGATACGTAAAGCTGGAACTGCCTGAGGCCGGGTATCCAGCCGGTGAGTATGCGCTGGACGTTTCACTCGTGACCAAGAAGGATTCGTTATGGGCGGAAGCCGGTTATGAAATTGCTTTTGGACAATTAGTTTTCCAAGTGAAGGACACGTTGGCTGTTGACGATACTGACAATGCGTCAGCGTCGGAGGCAGAACGCCTGCAATCAGGTTCAGAGGTTTCGCATGATAAGCCAGCGAATGATTTCCGTGTAGTCGAAGGGGACGTAAATATCGGCGTTCACGGCCGCGATTTCTCCGTTTTGTTCTCGAAGCAGGCAGGGACCCTCATATCCGTCAAGTATGCGGGACGGGAGATGATCTCTTCGCCGCCGGCGCCGCTCTTCTGGAGAGCGATGACGGATAACGATAAAGGGGCCGGGCTGCCGTTCGACTCCGCGCTTTGGTATGCAGCAAGCCTGACTCGAAGAACGGAAAGCTGCGAGCTGATGGAGTACTCAGACCGCGCAACCGTGACCTACGTGTATAAACTGAGCGTATCCGAAGGAATACGGGTGCGTGTATCCTACACGGTGTTTACCGATGGCAGCATTCATGTAAAGTCGGGGTATCAAGGAGAGCCGGGGCTGCCGAAGCTGCCGATCTTTGCTCTTACCTTCAAAGTGCCGGCGGACTACGACAACCTGGATTGGTATGCAAACGGGCCGGAAGAGAACTATATCGATCGTGCGTTCGGAGCTAGATTGTGTCGCTTCCGAAGTCGTGCAGCGGATCATGTTTCAGCCTATTTGGTACCGCAGGAATCGGGCAATCGTACAGGCGTGCGGGAGGTATCCATAACGAGCGATCAAGGTCATGGCCTTACGATAAAAGCCTCGGCGGCAGCACCGGTTGAAGCGAATATATCGCCCTATACCGCATTCGAGCTGGAGAATGCGACGCATCATTATGAGCTGCCGAATGTTCACCATACCGTTGTTACCATTGCCGGACGGCAAATGGGGGTTGGGGGTGACGACAGCTGGGGGGCTCCGGTTCATGACGAGTATCAACTCGATCCTTCGACGGACATGTCCTTTGAATTTACGATATGCAAAAGCCTATTCATGAAATAG	MKQQVERGVAPSLAWLSDPGIFAVGRMPAHSDHRYYETIREAEWLGEMPWRRSLNGSWKFSYAHNAKERQADFYKMDVSCRGWDDIEVPGHIQLQGYGQPQYVNTMYPWDGVEFLRPPMISEDHNPVGSYVKYFDVPAGWQQRPLYISFQGVESAFYVWLNGEFVGYGEDSFTPSEFDLTPYLAEGENKLAVEVYQRSTGSWLEDQDFWRFSGIFRDVYLYTVPDVHVQDLHVQTDLDETYELGTLKAAMQLKGRPASKIVLELKDAAGNPVVRGETGASGGTASIELAAGKVERWSAEEPNLYTLYVSVYDASGDLVEVVPQKIGFRKFEMLDKVMHLNGKRIVFKGVNRHEFNSHRGRCITKEDMLWDIKALKQANINAVRTSHYPNQTLWYELCDEYGVYVIDEMNLETHGSWQKMGAVEPSWNIPGSRPEWRDIVLDRAISMIERDKNHPSILIWSCGNESYAGEVIRNVANVFREKDPTRLVHYEGVFHNREYDDASDMESRMYAKPADIEQYLQNEPSKPYISCEYMHAMGNSVGGLHKYTELERKYPMYQGGFIWDFMDQVIVKHDRYGKPFMAYGGDFDDRSTDYNFSGNGIVYANRTWSPKMQEVKFLYQNIKLTPDRYGVTIRNENLFVGLDAYHVTYSLYHEGREIYSGAVCTQVGPGEERYVKLELPEAGYPAGEYALDVSLVTKKDSLWAEAGYEIAFGQLVFQVKDTLAVDDTDNASASEAERLQSGSEVSHDKPANDFRVVEGDVNIGVHGRDFSVLFSKQAGTLISVKYAGREMISSPPAPLFWRAMTDNDKGAGLPFDSALWYAASLTRRTESCELMEYSDRATVTYVYKLSVSEGIRVRVSYTVFTDGSIHVKSGYQGEPGLPKLPIFALTFKVPADYDNLDWYANGPEENYIDRAFGARLCRFRSRAADHVSAYLVPQESGNRTGVREVSITSDQGHGLTIKASAAAPVEANISPYTAFELENATHHYELPNVHHTVVTIAGRQMGVGGDDSWGAPVHDEYQLDPSTDMSFEFTICKSLFMK	PGPT0017810_1075	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
AK002_04757	822	lacG_8		Lactose transport system permease protein LacG	ATGAGAACGAAACGCGTGTTTACTTACCTGTTTTTAATTATCGCTGCCCTGATCTCCATCTTTCCGTTTATCTGGATGGTTGTCAGTGCCACCAATCCGTCCGTGGACGTAACGAAAGGGACGCTGCTGCCGGGCTCGCACCTGGTCAAGAATATCAACAATCTGTTCAGCTCCGTGGACATGTGGCAAGCTCTGTGGAATTCCGCAAAAATCTCGGTGGTGACTACCGTCCTTTCCCTGCTGGTTGCATCAGCCGCTGGTTACGGATTTGAGATGTACCGCAGCCGCGGCAAAGATATCGTATTTAATATCCTACTGGCCTCGATGATGATTCCGTTCGCGGCGATCATGGTGCCTTTATTTCAGATGTTTGCCAAAGTATCGGGGGTTGTACCCTTTCTAGGGATTGATACGGCGGGGGCTGTCATCCTGCCGACATTCACGACGGCCTTCCTTATCTTCTTCTTCCGTCAAAGCACAAAAATGTTCCCGAAGGATATGATGGAGGCCGGTCGCATCGATGGACTGTCGGAGTTGGGCCTATTCTTCCGCATCTATATGCCGACGATGAAATCGACCTATGCCGCCGCAGCGATTATTACCTTCCTGAACAGCTGGAACAACTATTTGTGGCCGTTGATCGTGCTGCAATCGCCGGAGAATATGACCGTGCCCCTGCTGATATCGAATCTGGGATCAGGTTATGCTCCCGACTACGGTTTGATCATGTCTGCGATTGTCATTACGACGCTGCCGACGGCACTGGTGTTCTTCATGATGCAGAAGCAGTTTGTTGCCGGAATGACAGGTTCAGTGAAATAA	MRTKRVFTYLFLIIAALISIFPFIWMVVSATNPSVDVTKGTLLPGSHLVKNINNLFSSVDMWQALWNSAKISVVTTVLSLLVASAAGYGFEMYRSRGKDIVFNILLASMMIPFAAIMVPLFQMFAKVSGVVPFLGIDTAGAVILPTFTTAFLIFFFRQSTKMFPKDMMEAGRIDGLSELGLFFRIYMPTMKSTYAAAAIITFLNSWNNYLWPLIVLQSPENMTVPLLISNLGSGYAPDYGLIMSAIVITTLPTALVFFMMQKQFVAGMTGSVK	PGPT0016370_203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|ARABINOSE_TRANSPORT,PGPT0016370-lacG|araQ-K10190	NA	NA
AK002_04758	921	lacF_20		Lactose transport system permease protein LacF	GTGAATGCAGAAAAAGCCAGGCTAAGCCCGCAAATTCACAAGGGCCTTAACAGTCAAAGGCGGATACGTTTGACAGGCTGGTTCTTCGTCCTTGTGCCGGTCGTCATGATTGGCATTTTTTATTTCTATCCGATGGTTCAAGCGTTAATCCTATCCTTCAAATCGGGCAGGGGCAGCAATCTTCAGTTTGTCGGAATAGACAACTATATTCGCTTGTTCAGCGATACCACCTTCCTTACGGCCGTCAAGAACACGTTTATTTACTTACTTGTTCAGGTCCCGGTTATGCTGGTGCTGGCGCTCTTTATCGCCGTGCTGCTCAATGACGATCGATTGAAATTCAAAGGTTTTTTCAGAACGGCTATTTTCCTGCCGACGGTAACGTCGCTTGTAGCGTACTCCGTCGTTTTTAAGTACATGTTCGGAGCTGACGGCATCGTCAATAAATTTCTGGTGAATCTTCATCTCATCCGGGAACCGATTCAATGGATTACCGACCCGTTCTGGGCCAAAGTCACGATTATCATCGCGATCACCTGGCGTTTTACAGGCTATAATATGATTTTCTATTTATCGTCACTGCAAAATATCGATAAATCCGTATATGAAGCTGCACGCATCGATGGTGCGAATGCCTTCACGCAATTTTTCAAAATTACGATTCCGCTCTTGAAACCAATCATCTTGTTTACGACGATCACATCGACCATTGGAACGCTCCAGTTGTTTGACGAGGTGGTCAACATCACCAAAGGCGGCCCCGGAAACGCAACCATGTCGATATCGCAATATATTTACAATCTTTCCTTTGAGTACACGCCTGACTTTGGGTACGCAGCTACCGTTTCTTATTCGATCGTACTCATGGTGGTCATATTGACGATGATCCAGAACAAAGTTGGAGGTGACAAGAGATCATGA	MNAEKARLSPQIHKGLNSQRRIRLTGWFFVLVPVVMIGIFYFYPMVQALILSFKSGRGSNLQFVGIDNYIRLFSDTTFLTAVKNTFIYLLVQVPVMLVLALFIAVLLNDDRLKFKGFFRTAIFLPTVTSLVAYSVVFKYMFGADGIVNKFLVNLHLIREPIQWITDPFWAKVTIIIAITWRFTGYNMIFYLSSLQNIDKSVYEAARIDGANAFTQFFKITIPLLKPIILFTTITSTIGTLQLFDEVVNITKGGPGNATMSISQYIYNLSFEYTPDFGYAATVSYSIVLMVVILTMIQNKVGGDKRS	PGPT0016365_48	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|ARABINOSE_TRANSPORT,PGPT0016365-lacF|araP-K10189	NA	NA
AK002_04759	1311	lacE_3		Lactose-binding protein	TTGAAAAAATTAATGAGCTTACTGCTGGCTGGCGTTGTACTCTTGTCGGCATGTTCTTCGGGCGGTAAGGAAGGCGGAACAGACAGCAACGGCAATTCCGGCAATGAAGGCAGTACCGGGACAAAAGAGATTACGGTTTGGGCTTGGGACCCGGCATTTAACATTGCGGCCATGAATGTTGCCAAGGAAGCCTACGCTCAAGTGAATCCGGATGTCACGATTAATGTGGTAGAGAATGCACAGGCCGATATCGTCCAAAAGCTGAACACAGGGCTCAATTCCGGTTCCACGAAAGGGTTGCCTAACATCGTGCTCATTGAGGATTACCGTGCACAGAGCTTCTTGCAAGCGTATCCGGATTCCTTCTACGAATTGACGGACGTCGTGAAAGTGGACGATTTCGCGGATTACAAGATTGGCCCGACCAGCGTCGACGGCAAGCAGTACGGCGTTCCGTTTGACTCCGGCGTGACGGGAATGTACGTACGAACGGATTATCTCGAGCAGGCAGGCTACAGTCTGGACGACCTGCAGGACATCGACTGGAAGCAGTACATCGAGATTGGCAAAGCCGTCAAAGAGAAAACCGGCAAAAGCATGATTACGCTGGATCCTAATGATCTGGGACTTATCCGCATGATGATCCAATCCGCGGGGGCGTGGTATACGGCGGAAGACGGCCATACGCCGACAATTGCAGGCAATGCTCCATTGAAGGAAGCCTTTGAATTGTACAAAGAAATGATGGATTCCGGCATCGTGAAGGTGAACTCGGACTGGAGCCAATTCGTCGGAGCATTCAACAGCGGTGAAGTGGCTACCGTGCCGACCGGCAACTGGATCACCCCTTCGATCAAAGCCGAAGCTTCCCAATCCGGTAAATGGGCGGTAGCCCCGCTGCCTAAGCTTGCGGCAACAGATGGCTCAGTCCATGCATCCAACCTGGGCGGCAGCTCCTGGTATGTGATGAACGTAGAAGGCAAAGAAGCAGCTGCGGAGTTCCTCGCGAAGACGTTTGCTTCCGATGCTGAGCTCTATCAGACATTGAATACAAAAGTCGGGGTGATCGGCACCCTGAAAGCCGCTGCAAGCGGAGAAGCTTACGCGGCAGCGGATGAGTATTTCCAAGGGCAGAAGGTCGTTTCGGACTTTGCCGCTTGGACCGAACAAATTCCTAACGTGAACTACGGCATGAACACGTACGCCATCGAGGACATTATGGTCGTTGCCATGCAGGCATATCTCGGCGGTAAAGACGTGGAAACCGTTCTGAAAGATGCGCAGGCGCAAGCCGATACGCAAATCCGTTAA	MKKLMSLLLAGVVLLSACSSGGKEGGTDSNGNSGNEGSTGTKEITVWAWDPAFNIAAMNVAKEAYAQVNPDVTINVVENAQADIVQKLNTGLNSGSTKGLPNIVLIEDYRAQSFLQAYPDSFYELTDVVKVDDFADYKIGPTSVDGKQYGVPFDSGVTGMYVRTDYLEQAGYSLDDLQDIDWKQYIEIGKAVKEKTGKSMITLDPNDLGLIRMMIQSAGAWYTAEDGHTPTIAGNAPLKEAFELYKEMMDSGIVKVNSDWSQFVGAFNSGEVATVPTGNWITPSIKAEASQSGKWAVAPLPKLAATDGSVHASNLGGSSWYVMNVEGKEAAAEFLAKTFASDAELYQTLNTKVGVIGTLKAAASGEAYAAADEYFQGQKVVSDFAAWTEQIPNVNYGMNTYAIEDIMVVAMQAYLGGKDVETVLKDAQAQADTQIR	PGPT0016360_108	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_LACTOSE|ARABINOSE_TRANSPORT,PGPT0016360-lacE|araN-K10188	NA	NA
AK002_04760	1806			hypothetical protein	ATGATCGGAAATGTTATAACCAAGCTGCGAAAACAGGGCTTGTTCCTTAAGCTGTTTCTTGTGACCCTCATCAGCATCGTTACCGTTTCCCTCCTGACGCTGTCCATTACCATCAGCATGTCGGAAAAATTATTTCTGCAAACTTTCAGCATCACGAACGGCAAGCTGTTGAACCAGATGAAGTCAAACCTGGAGTCCTATAATAACGCCATAGCCACCGGTGCCACCATGATCGCCCAGAATGCGGCGATCCGTAGCTATTTATCGGGCGGAGAAACGGAGGCCGTGGCTCTGGCGATGAAAACGTACCGGATGACAGAGGGCATGAAGTCGATTCAGTCCAACTTTAGCGCCTATGACGTCGGCATCATGATCGTTGGAGCGAACGGCAGAAGTTATTCTACCGATCCTTGGTATTGGTCGGTCTCGGCCGAGGAACTGAAGGATCACCCGATTACCAAGACAACGAAGGCCCATCCTGCGCAAATCCTGTACCAGCTCTATCGCGGCGATGATCCTAATAACGCACAGGAGCCCATGCTCGTCGCCTCCAAAGCTCTCTTTGACCAGTCTACCGGCAGAATTTACGGCACCTTGTACGTAGTCATTCGCGACCGTAATTTTAAGCCCTTCTATGCGAATTTTACAAGCGAAGGCAATGACGTCGTGCTGTTGAACAAGGAAGGGGTCATTGTTTCCAGCAACAGGACCGAATTGATCGGGATGTCGGATAAGGGACTGCTTCAGGAGGTCGTAACGGATCAAGACGAGGGAGAAGACGATCAGTCTGCCTATATAATGGGGAACGAACGAATTGTGTTCTCGGAATATTTGCCCGAATTCGAATTTTATTTAGTGAATATGATCGACAAGAAAGCCGTGACCGGACAGATGGTGAATGCCAAAGCCGTCACGTTGACAATCATGGCTATCGTTGCGATATCGCTTGTCATTGTTTTTCTGATCACCCGACGAATGACGCAGTCGCTCCGCGTACTCGTCGAACAGATGTCGAGCATTCCGACGAGCGGGTTCGATCATCATGTAGATGTTGCAAACAGCAGTTATGAAGTGAAGGAGCTGGGGAACGCCTTCAACTTTATGCTGGATGCGCTGCATGATTATGTAGACCGATTGATGGAAACCCAGAAGCAGCAGCGAAATGCGGAGCTGGCCGCGCTTCAAATGCAGATCAATCCGCATTTTTTGTATAACACGCTGGCTTCGGTCAAATTTCTGGTGCAGCAGGGCAACAAGGATAAAGCCGCAGGTACGATTAACGCGCTCATATCGCTTCTGCAAAATACGGTCAGCGATATTCATTCCACCATTCCTGTGCGGCAGGAACTCGAGACGCTCAAGCATTATGTGTATATTAATCATGTGCGGTACGGAGAGAAAATCCGCGTCCATTACTTCGTGGAGCCGGATAGCCTGGATTATCATATGCCCAAGCTCATTCTTCAGCCTTTTATTGAGAATGCATTCTTCCACGCATTCAACATCAAGGGAGAGGGAAGAATTTTGATCATGATTGCCGTTCAGGAAGACCAGCTTGTGTGTGAAGTCGTAGATGACGGGGACGGTATGAATCTTGAGCAGAACCCGCCCAAAGAAGACTCGTTGCCTGCACCGATGAGCAAACGCCAATTGTTCTCCGGCATTGGGATACGCAATGTGGATGATCGAATTAAATTGATGTACGGCGAGAAATACGGGGTCCACATTACAAGCAAACGCGGTGAAGGAACAAAAATCATCCTTACGCTACCATTGACCAAAGCTAAAGATATTACAAGAATCTAA	MIGNVITKLRKQGLFLKLFLVTLISIVTVSLLTLSITISMSEKLFLQTFSITNGKLLNQMKSNLESYNNAIATGATMIAQNAAIRSYLSGGETEAVALAMKTYRMTEGMKSIQSNFSAYDVGIMIVGANGRSYSTDPWYWSVSAEELKDHPITKTTKAHPAQILYQLYRGDDPNNAQEPMLVASKALFDQSTGRIYGTLYVVIRDRNFKPFYANFTSEGNDVVLLNKEGVIVSSNRTELIGMSDKGLLQEVVTDQDEGEDDQSAYIMGNERIVFSEYLPEFEFYLVNMIDKKAVTGQMVNAKAVTLTIMAIVAISLVIVFLITRRMTQSLRVLVEQMSSIPTSGFDHHVDVANSSYEVKELGNAFNFMLDALHDYVDRLMETQKQQRNAELAALQMQINPHFLYNTLASVKFLVQQGNKDKAAGTINALISLLQNTVSDIHSTIPVRQELETLKHYVYINHVRYGEKIRVHYFVEPDSLDYHMPKLILQPFIENAFFHAFNIKGEGRILIMIAVQEDQLVCEVVDDGDGMNLEQNPPKEDSLPAPMSKRQLFSGIGIRNVDDRIKLMYGEKYGVHITSKRGEGTKIILTLPLTKAKDITRI				NA	NA	NA	NA	NA
AK002_04761	1572	rhaR_60		HTH-type transcriptional activator RhaR	ATGAAACCCGTATTCAAGATCATGATCGTGGACGACGAAATGCTTGTCAGACAGGGGATTAAGCACCTTCTGGATTGGGAACAGGAGGGGTACCGAATCGTAGGCGAGGCTTCTAACGGTCTGGAAGCACTGAATTTGATGGATGAAGTGAGCCCTCATGTCATTCTTACCGACATCGTAATGCCCGTCATGGGAGGGGAGAAGCTGGTCAAGGTCGTTAAGGAGAAGTATCCCCACATTGAAATCATCGTTCTTAGCAGTTTCAGCGAGTTCGATTATGTTCGGTCTACTTTTCAGAGCGGCGTAGCGGATTATATCCTGAAGCCGAAGCTGGAAGCCGATTATCTGATGTCCATCCTCAATAAGGTTACGGCCAAAATGGTCGCCATGAAGCCGGACGCCGATCCACGTGCGGATCAAGGGGAAGCGCAGATCCTGCAAGCCATCGAGAAACTCATGACGGGGTATGAGTCTTCGCTGGATCCCTTGCTGGTGCATTCGAGGTTTCCTTTCGGACAGTATTTGTTTTTCGGTGCGGATCTGAAGCATGTGAAAGAATCCGGGGACAGATGGAGTTTCGGAAACGAATTGGAAAGCGAACTTCGAAAGATAGCGATGGCCGACATGGTGTTTATGCGGTTGAAGTTTGTCAACGATACGGCTCTTTTTTTGCTGAACGTGAATCCCGAGCGGAGGAACGAACTTGTCATTGAATTCCGGCAATTGATCCCCAAACTGGCTCATGATACGAGCGAGACGCATTTTGTTATCAGCCAGTGCTTCGCCGACTTTAATAGTCTCGGCGAGGTATACCATGACAATTATCTGAAACTCATGCGATACGGCTTCTTCCTTAAGGATCGGACGCTGATTGAATACGAACATTTGCCGGGCCTTCCGGATTCGCCTCTCGAATACGACATGGGCGAGCTCTTGGAACAGTTGAAACGCAAGCAGTACCGGAAGGCCTTCACCGGCTTTTTGGAATACGCCTGCCTGCGCTCAATGGATTATCGTACCGATATTTTCGAATTCAAATCGTCGTTGGGGAATTTCATATTTAACGTGGCGACCACGCTTGGAAAAATGAAGGTCGAGACCGGAAGCCTGGAGAATGCAAAATACGACTATTTCCGAAAAATAGACGAAGCCAGGTATGCCGGCGAAGCTATCGCCGTTGTCGAAGCATTCATCCGCGAAGCGGAACGTGCGATAGGCGAGACGAATACATCCGTTAATCCCAATATGGACCGGCTGCTTGAATATATTCAGGACCATTACGCCGACCCCATCACACTTACCGGAGTGGCCAGGCAGTTCCACTTTAATGCTTCTTATCTGTCGAGTTATTTTGCTTCGTATAATGGGGAGGGATTCAGCGAATACCTCAATAAAATCCGTTTGGAAAAAGCCATGGAGCTGCTTCTGACAACGGAATTTACGATTTCCGAAATCAGCGCCAGCGTAGGGTACTCCGACCAGAGTTACTTCACTAAGGTGTTCAAGAAGCAGACAGGCATCTCTCCGAGTCAGTTTCGGAGACAAGACGCGCGGGAGATACGGGAATCATGA	MKPVFKIMIVDDEMLVRQGIKHLLDWEQEGYRIVGEASNGLEALNLMDEVSPHVILTDIVMPVMGGEKLVKVVKEKYPHIEIIVLSSFSEFDYVRSTFQSGVADYILKPKLEADYLMSILNKVTAKMVAMKPDADPRADQGEAQILQAIEKLMTGYESSLDPLLVHSRFPFGQYLFFGADLKHVKESGDRWSFGNELESELRKIAMADMVFMRLKFVNDTALFLLNVNPERRNELVIEFRQLIPKLAHDTSETHFVISQCFADFNSLGEVYHDNYLKLMRYGFFLKDRTLIEYEHLPGLPDSPLEYDMGELLEQLKRKQYRKAFTGFLEYACLRSMDYRTDIFEFKSSLGNFIFNVATTLGKMKVETGSLENAKYDYFRKIDEARYAGEAIAVVEAFIREAERAIGETNTSVNPNMDRLLEYIQDHYADPITLTGVARQFHFNASYLSSYFASYNGEGFSEYLNKIRLEKAMELLLTTEFTISEISASVGYSDQSYFTKVFKKQTGISPSQFRRQDAREIRES				NA	NA	NA	NA	NA
AK002_04762	1014	lgoD	COG1063	L-galactonate-5-dehydrogenase	ATGAAGGGTATCATATGTCAAGAGATCGGGAAATTTCAATACCGGGAGGATTTGCCCGAGCCTCCATTGCTCGAAGGAGAAGCCATCGTCCGCATCAAGCGGATCGGGATTTGCGGTACGGATCTGCATGCCTTTCGCGGGAATCAGCCCTTTTTTACGTACCCGCGTATTCTCGGCCATGAGCTATCCGGCATCATTGAAAAAGTCGGAGCTAACGAAGAGGGATTGAAGCCCGGAGACACCGTCTGCGTCATTCCTTACATTCACTGCGGGGAATGTATGCCTTGCCTTAGAGGCAAAACAAACTGCTGTAGATCGTTGAAGGTGATGGGTGTGCATATCGACGGCGGCATGCGCGAGCGCATCTCCGTTCCGACTCGCCATTTGATGCGGGCGGAAGGGCTGACCTTGGATCAGGCTGCCTTGGTAGAACCGCTTGCCATCGGCGCTCATGGCGTTAAACGGGCGAATGTGACCCCGAATGATACGGTTTTAGTCATCGGAGCCGGTCCGATAGGACTGGGGATCATGGTTTTTGCCAAAGCGCTAGGGGCAACCGTTATTGCCATGGATATGAACGCCGATCGGTTGGCCTTCTGCAAAGCCTGGGCGAAGGTGGATCATGCCATCCAGGTTGGAGATGAATTGTCCGATCTTTCGGCGCTAACGGATGGAGAATTTCCCTCCATCGTTTTGGACGCAACGGGAAACCAACCCTCCATGACCAACGCTTTTAACATGGTTGGGCATGGGGGAACCTTGGTGTATGTCGGTTTGATTCAAGGGGACATTTCATTTCGGGATCCCGAATTCCATAAGCGGGAATTGACGCTGATGGGCAGCCGAAACGCGACCAGGGATGATTTCCATGATGTGATGCAGCGGATCTCGGAAGGCGGCATTGATGTAGATCCGTACATCACCCATCGATGCCGGTTCGACGAATTGATCCAAGAATTCCAGGGCTGGCTCCGTCCTTCCGCCAAGGTCATTAAGGCGATGGTGGAACTTTGA	MKGIICQEIGKFQYREDLPEPPLLEGEAIVRIKRIGICGTDLHAFRGNQPFFTYPRILGHELSGIIEKVGANEEGLKPGDTVCVIPYIHCGECMPCLRGKTNCCRSLKVMGVHIDGGMRERISVPTRHLMRAEGLTLDQAALVEPLAIGAHGVKRANVTPNDTVLVIGAGPIGLGIMVFAKALGATVIAMDMNADRLAFCKAWAKVDHAIQVGDELSDLSALTDGEFPSIVLDATGNQPSMTNAFNMVGHGGTLVYVGLIQGDISFRDPEFHKRELTLMGSRNATRDDFHDVMQRISEGGIDVDPYITHRCRFDELIQEFQGWLRPSAKVIKAMVEL	PGPT0018195_104	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0018195-lgoD-K23007	NA	NA
AK002_04763	942	fdh		D-threo-aldose 1-dehydrogenase	ATGAAATACCGTAAGTTAGGCCGAACCGGTCTGGATGTTTCGGTATTAGGCTTCGGAGCGTCTTCCTTAGGCTCCGTCTTTCGGGAAACCGACGACAGCGAGGGAATCCGTACCGTGCACGCAGCCATGGATGCGGGCATCAATTTGATCGATGTATCCCCTTATTACGGATTGACGAAGGCGGAAACCGTGCTGGGCGAAGCGATCCGACAATTACCCCGGGACCAATTCATCCTGTCTACGAAAGCAGGCCGCTATGGCGAGAATGATTTTGATTTCACGTCCAAGCGGATTATCGCCAGTATCGATGAGAGCTTGAAGCGACTCCAAACCGATTACGTGGATATACTCTTTTTGCATGATATTGAGTTCGTTCCCGCATCCGTTGTAATGGAGGAGGCCCTTCCTGCACTCCAGCTTTTGAAGGAAAAGGGGAAAATCCGTTTTGGAGGGATTTGCGGTCTGCCTCTGCAGCTGTTCGAAAAATTGCTGCCCCAAATCGAAGTCGATGCCATCATTTCTTACTGCCATTATTCTTTGAACGATCAGACGCTTACCAGTTTGCTGCCGCTGCTTGACAAGGAGGGAACTGGGCTTATTAACGCCTCTCCCTTATCCATGGGCCTTCTCGGTTCCCGAGGAGCACCGTCTTGGCATCCGGCTTCAACGGAGATCAGGGAAGCCTGCAGACGTGCGGCCGAGTATTGCGCTAAAGCCGGAACGGATATCGCGAAGCTAGCCGTGCAATTCTCGACTTCGAATGAACAGATCCCGACGACGCTGGTCAGTACGGCCAATCCCGACAATATACAACGTAATGCTGCTTGGAGCGAAGAGCCGCTGGATCAGACCCTCTTGGCGGAAGTATTGAAGATATTGGAGCCCGTACAAGGACGGACTTGGATAAGTGGACGCCAGGAATACAATGAAGGCATCCGATGA	MKYRKLGRTGLDVSVLGFGASSLGSVFRETDDSEGIRTVHAAMDAGINLIDVSPYYGLTKAETVLGEAIRQLPRDQFILSTKAGRYGENDFDFTSKRIIASIDESLKRLQTDYVDILFLHDIEFVPASVVMEEALPALQLLKEKGKIRFGGICGLPLQLFEKLLPQIEVDAIISYCHYSLNDQTLTSLLPLLDKEGTGLINASPLSMGLLGSRGAPSWHPASTEIREACRRAAEYCAKAGTDIAKLAVQFSTSNEQIPTTLVSTANPDNIQRNAAWSEEPLDQTLLAEVLKILEPVQGRTWISGRQEYNEGIR				NA	NA	NA	NA	NA
AK002_04764	861			hypothetical protein	ATGAGATTGGATGCCCACCAGCATTATTGGCTGATTGAGAGAGGGGACTATGAATGGATCACGCCGGAGGTTCCGGAGCTTTATCGAAACTTCTTGCCCTCCGATCTTAAGCCGCATTTGGATTCGCATCAATTGGACGGCAGCATAACGGTTCAGGCGGCACCGACCTTGGAAGAGACGGACTATCTGTTATCGTTGGCGGATCGCGATGCTACCATTGTCGGAGTGGTAGGATGGATCGACCTGTTCGATCCGGAGCACCGCCGGCATTATGAGCGATTTCGGAAACATCCGAAATTTATCGGCTTTCGCCTCATGATTCAGGATATGCCGGACGCCAACGTCATCTTGGAGCCGTCATTTATCCAAGCATTGAACGAATATGCCAAGGAAGACGTTCCGATCGATCTTCTTGTTCGGAGTCATCAGCTGGAGCCGCTGCTGAAGCTGATTGAGCAGGTCCCCGGCATCCGCGGCGTCATCGATCATCTGGGCAAGCCGCCGATCCGAAGCGGACAGATGGAGCCTTGGGAGAGCTTGATGAAGCGAATCGCCCGTTTTCCGCGCATCTACTGCAAGCTATCCGGTATGGTGACCGAGGCGGAGCATCGCCGGTGGAGCCATGAAGACTTTAATGGGTATGTACATAAAGTGGTCGCGATGTTCGGTCCCGATCGGGTCATGTTCGGCAGCGATTGGCCCGTGTGCCTGCTATCGGCGGGATATGACCAAGTGGTTGACGTATTGGCAGAAGCGCTGCCGAAGCATTGGGGAGAACGGGAACATGCGCGTTTGTTCGGTCTGAACGCCAAGGCGTTCTATAAGTTGGATAAGGGTGGTGTTCATCATGAAATACCGTAA	MRLDAHQHYWLIERGDYEWITPEVPELYRNFLPSDLKPHLDSHQLDGSITVQAAPTLEETDYLLSLADRDATIVGVVGWIDLFDPEHRRHYERFRKHPKFIGFRLMIQDMPDANVILEPSFIQALNEYAKEDVPIDLLVRSHQLEPLLKLIEQVPGIRGVIDHLGKPPIRSGQMEPWESLMKRIARFPRIYCKLSGMVTEAEHRRWSHEDFNGYVHKVVAMFGPDRVMFGSDWPVCLLSAGYDQVVDVLAEALPKHWGEREHARLFGLNAKAFYKLDKGGVHHEIP				NA	NA	NA	NA	NA
AK002_04765	876	btr_5	COG0614	HTH-type transcriptional activator Btr	ATGACTCCCCTGCGTAAACCCTTTCATGGGGACCCCCTGTTTCCGATGGAAATGGTTTATCGGACTATAAAAAGCCCCCAATTGGAGCTGCCTCATCACTTGCATGATCTTTACGAATTGGTTTATGTGTACCAGGGAAAAGGCACTTTTTTTATTGAGAACAAGCTGATGGAGAAAAATGAAGGCGACCTTTTCATCATACCCGGGAACACGATTCACAGCTCTTTCCCTGACCCGGACCAGCCCATTGTTTCGAGTGCTTTATTCTTTGCGCCTTCGCTTGTACTCGGTGCGAACGGAAGCGATTTGCAATACTCCATTCTCAGCTGTTTTGAATATGCCCAAAGAACAGGGTCCTACCGTCATCAATTGCCCAAGTCGAACCAAGCCTATATCGAGGACATGCTGAAAGGAATCTCGGAAGAGATCCGGCTTGCCCAGCTAGGATTCCGCGAGGCGCTCGTGCTTCAACTGCGCTCCTTGCTGCTGCACATCAATCGCTATATCAGCACCCTGTCCGCAGAACAGACGGTCCACTCCCAGATCGGCCCGGCCTGGCTGATGGATTCCATCCAATGGATTCACGAACACCTGGATCAGCCTATCGGACTATCTGCTCTGTCGGCACAAGCTGCGGTGGACCCCGCCCATTTCTCCCGCATGTTCAAGAAATACACCGGGTTGCATGTGACGGGTTACATGCATGCTAAACGGATTGCCCGTGCCAAAGAGCTCCTGCGAAACCATGAGGAGTCTGTCGGGCAAATCGCTGAAATCTGCGGGTATGCCACGCTGACGCACTTTCATCGCAATTTCAAAAAATTGACGGGTATGACCCCGGGAGCATACAGAAAGCAGGCTGCTTCCCATCGTTAA	MTPLRKPFHGDPLFPMEMVYRTIKSPQLELPHHLHDLYELVYVYQGKGTFFIENKLMEKNEGDLFIIPGNTIHSSFPDPDQPIVSSALFFAPSLVLGANGSDLQYSILSCFEYAQRTGSYRHQLPKSNQAYIEDMLKGISEEIRLAQLGFREALVLQLRSLLLHINRYISTLSAEQTVHSQIGPAWLMDSIQWIHEHLDQPIGLSALSAQAAVDPAHFSRMFKKYTGLHVTGYMHAKRIARAKELLRNHEESVGQIAEICGYATLTHFHRNFKKLTGMTPGAYRKQAASHR	PGPT0017785_85	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
AK002_04766	924	ykfA	COG1619	putative murein peptide carboxypeptidase	ATGCCGATACGTCCGCCAATACTACAGAGAGGCGATACTGTTGGAATCGTTACCTTGGGCAGCCCGCTCGCTGCCAGCATCATTGATGCACGGATCGAATTTTTGAGAGCAATGGGGTTCAATATTGTATTGGGTCAATATGTTTATGCGCAAAACGGGTTTCTGGCTGGCACCGACGAACAGCGGGCATCCGATTTAATGATGATGTTCCAAAACGAGCAGGTTAAAATGATACTGCCTACCAGAGGCGGCACAGGCGTAGCCGGAATCCTCCCGTACCTGGATTATCAGGTTATCCGGAATCACCCGAAAATCTTGACGGGCTACAGCGATATCACGGTTCTATTAAACGCCCTGCATCAACTGGTCGATTTAATTACCTTCCATAGTCTATTGCTTATTGACTTCAAACCCGAAACGCCAGCCTATAATTTCGATCAGTTTTTTGCGGCAACGTCCCTGTATTCATTAACGCGTCCCATCCTGAACCCGCCTGGAATGCCCCTGATCGGCCGGATTCCGGGCAACGTTACGGGGCCGCTTGTAGGCGGTAATTTAACGTCATTTGTTGATACGCTGGGGACTCCCTTCGAAATCGATACACGGGGGAAAATCATCGTTCTTGAAGAAACGCATGAACCTACCAATACCGTCTACAGATACTTCAACGATTTGAAGCTCGCCGGAAAATTTCGTGACTGCATCGGCATCATCATGGGGGAATGTACAGGCTGCCAGACGGCTTACGGCAAAGCCTATGAGGATGTCATCAACGAGTTCATCGTGCCTCTCGGCAAGCCGTTGATCACGAATCTTGCGACGGGCCATGGTATGTATAAAGCAGCTCTGCCGATTGGCGCAACCGTTAATCTCGATTCCATCCGTAATGCCATAACGGTGGTCGAACCCACGATCAGCGTATGA	MPIRPPILQRGDTVGIVTLGSPLAASIIDARIEFLRAMGFNIVLGQYVYAQNGFLAGTDEQRASDLMMMFQNEQVKMILPTRGGTGVAGILPYLDYQVIRNHPKILTGYSDITVLLNALHQLVDLITFHSLLLIDFKPETPAYNFDQFFAATSLYSLTRPILNPPGMPLIGRIPGNVTGPLVGGNLTSFVDTLGTPFEIDTRGKIIVLEETHEPTNTVYRYFNDLKLAGKFRDCIGIIMGECTGCQTAYGKAYEDVINEFIVPLGKPLITNLATGHGMYKAALPIGATVNLDSIRNAITVVEPTISV	PGPT0023815_1881	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK002_04767	915	rihA		Pyrimidine-specific ribonucleoside hydrolase RihA	ATGACTACTTTTCCAACGATCCCGGCAAGCCAATTGGTGCAGCGTCTGGAGCATCCGGGACATAAAATCCGCCTGGTGCTGGATACCGACGCGTTCAATGAAATCGACGATCCGTTTGCGATCGCTTACGCGCTGAAATCCGCGGATAACATGACCGTAGAGGCAATATATGCAGCGCCTTTCTTCAATGAGCTATCTTCAGGTCCTGCGGACGGAATGGAAAAAAGCTACCAGGAAATATGGAACATCCGCCGCATTCTGGGACGTGAAGACATCCCTGTCTATCGCGGCTCCACGGGTTACCTTCCTGCTTCCGACCAGCCGGTCGAAAGCGAAGCCGCGCGCAATCTCGTTGAGCGGGCCATGGCAAGCGATCCTGCCGATCCCTTGTATGTCGTTGCGATCGGTGCCATCACGAATGTTGCATCCGCCCTGCTCATGGAACCCCGGATCCTCGAACGGATCGTGCTGGTATGGTTAGGCGGGCATGCCCTGCATTGGAGCGATACGAAGGAGTTTAACCTTTTTCAGGATTTGCACGCATCCAGGCTGGTCTTGAACTGCGGCGTCCCGCTCATACTCGTTCCTTGCCTCGGCGTGGCATCTCATTTGCAAACCTCGTTATCCGAACTGCGGGACTTCGTCAAAGGCCAAGGCGAGATCGGGGATTATTTATTCCAAACATATTTAAGTTGTTCCGACGATCATTTTGCTTATTCCCGGGTCATATGGGACATTGCCGTCATTGCCTGGCTCAACAACCCGGAGTGGTGCCCGAGCGCTCTGGTTCACAGTCCGCGAATATCCGAGGATTTTCGATGGATGCATGATCCATTACGGCACATGATTCGCTCCGTTCATTTCATTCGGCGTGACGAGGTGTTCCGGGATCTTTTCTTGAGGATTGCCCGATAG	MTTFPTIPASQLVQRLEHPGHKIRLVLDTDAFNEIDDPFAIAYALKSADNMTVEAIYAAPFFNELSSGPADGMEKSYQEIWNIRRILGREDIPVYRGSTGYLPASDQPVESEAARNLVERAMASDPADPLYVVAIGAITNVASALLMEPRILERIVLVWLGGHALHWSDTKEFNLFQDLHASRLVLNCGVPLILVPCLGVASHLQTSLSELRDFVKGQGEIGDYLFQTYLSCSDDHFAYSRVIWDIAVIAWLNNPEWCPSALVHSPRISEDFRWMHDPLRHMIRSVHFIRRDEVFRDLFLRIAR	PGPT0013465_2767	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK002_04768	1149	dgoD	COG4948	D-galactonate dehydratase	ATGAAAATTACGGGTTACGAATTATTCCTAGTACCGCCCCGCTGGTTGTTTTTAAAGATGGAGACGGATGAAGGGATTGTCGGCTGGGGCGAACCTGTCATTGAAGGAAAAGCGAGAACGGTAGGAACCGCAGTCGAAGAGTTAATGGAGAATTTAATAGGGAAAGACCCATTAAGAATAGAGGACCATTGGAATCTCATGTATCGATCAGGCTTTTATCGGGGCGGCCCCATCTTGATGAGTGCGATTTCGGGCATTGATCAAGCCTTATGGGACATCAAAGGGAAATATTATAACGCGCCCGTTCATCAATTGCTTGGGGGAAAAGCAAGGGAGTCCATCAAGGTCTATTCATGGATTGGAGGAGATCGTCCTTCAGATGTCGGCAATTCGGCAAAAGAAGTGGTCTCCCGAGGATTTACAGCCGTAAAAATGAACGGTACGGAAGAACTTCAATATGTCGATTCCTATGAGAAAATAGACCAGGTCATTGAGCGCATTGCAGCTGTCAGGGAAGCGGTGGGTCCGTATGTTGGAATCGGCATTGATTTTCACGGTCGCGTGCATAAGCCAATGGCCAAAATCTTAGCCAAAGAGCTGGAGCCTTTTCGCCCGATGTTTATTGAAGAACCTGTTTTGCCCGAAAATAATGAAGCGCTGCGCGACATTGCAAATCATGTAGCCATCCCTATTGCAACAGGTGAACGAATGTTCTCCAAATGGGAGTTTAAACGTATATTGATGGATGGATATGTTGATATTATTCAGCCGGATCTATCCCATGCAGGCGGTATTACAGAATGCAAAAAAATCATCTCCATGGCTGAAGCGTTTGATGTGGCGGCAGCTCCGCATTGTCCACTTGGACCGATTGCATTAGCCTCTTGCCTTCAAGTCGATGCCACTTGCCACAATGCATTTATTCAAGAACAGAGCCTTGGCATTCATTATAATCAGGGGAGCGATTTACTCGATTACATTGTGGATAATCTTGTGTTCGAGTATGAGAACGGTTACGTGAAAATACCGGAGGGTCCTGGCTTAGGAATTGAAATCAACGAAGATCATGTGCGAAAAATGGCCGATATCGGACACAATTGGAGAAACCCCGTTTGGCGGCATACGGATGGAAGCATCGCGGAGTGGTGA	MKITGYELFLVPPRWLFLKMETDEGIVGWGEPVIEGKARTVGTAVEELMENLIGKDPLRIEDHWNLMYRSGFYRGGPILMSAISGIDQALWDIKGKYYNAPVHQLLGGKARESIKVYSWIGGDRPSDVGNSAKEVVSRGFTAVKMNGTEELQYVDSYEKIDQVIERIAAVREAVGPYVGIGIDFHGRVHKPMAKILAKELEPFRPMFIEEPVLPENNEALRDIANHVAIPIATGERMFSKWEFKRILMDGYVDIIQPDLSHAGGITECKKIISMAEAFDVAAAPHCPLGPIALASCLQVDATCHNAFIQEQSLGIHYNQGSDLLDYIVDNLVFEYENGYVKIPEGPGLGIEINEDHVRKMADIGHNWRNPVWRHTDGSIAEW	PGPT0002220_1261	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTONATE_DEGRADATION,PGPT0002220-dgoD-K01684	NA	NA
AK002_04769	636	dgoA	COG0800	2-dehydro-3-deoxy-6-phosphogalactonate aldolase	ATGAATACCATGTCCAGCATTCTAGATAACAAAATAATAGCGATTATCCGCGGCGCCAATTCAAAAGACGTCTTGAACATGGCAAAGGCGCTGCACGAAGGCGGGGTGAACATGCTAGAAATCACCATGAATTCACCAAACGCATTGTCTGCCATTGAAGAGATAACCGCTGAACTTGGAGATCGAGTGGTGGTGGGGGCGGGTACCGTTCTGGACTCGGAAACTGCGCGAGCCGCTATCTTAGCAGGGGCCAAATTCATTCTGTCTCCTACGGTTGACATAGAAACGATAAAAATGGCAAAACGATACGGAGCAGTAAGCATCCCGGGTGCCTTTACTCCAACTGAAATTCTATCAGCCTATGAAAATGGCGGAGATATTATCAAAGTGTTTCCTGCGACGTTGGGACCAAGCTTCATTAAAGATATACGCGGACCGCTTCCGCAAATTCCGTTGCTGCCAACTGGCGGCATAGATTTAAACAATATTCAGGAATTTATGAAAGCGGGCGCTATTGGTTGTGGCATTGGAAGCGCACTCGTGAATACGCAGCTGGAGATAACAGATGAGTATTTCGTGCAATTATCAGAAAAAGCGAGACAATTTGCTTCAGCCGTAAAATCTAACGAGGATTAA	MNTMSSILDNKIIAIIRGANSKDVLNMAKALHEGGVNMLEITMNSPNALSAIEEITAELGDRVVVGAGTVLDSETARAAILAGAKFILSPTVDIETIKMAKRYGAVSIPGAFTPTEILSAYENGGDIIKVFPATLGPSFIKDIRGPLPQIPLLPTGGIDLNNIQEFMKAGAIGCGIGSALVNTQLEITDEYFVQLSEKARQFASAVKSNED	PGPT0002060_1140	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
AK002_04770	2004			hypothetical protein	ATGAATACTAGGCTGAAACGTTCTGGGCTGCTTGCAGTCATCGTTATGCTGTTCATGTCAACCTTAGCCGCGCCAACGACGCAGGCGGCTGCTATCGGAACGGTTGTATATAGTAATCCGGCTGAACCGGAGCCTTATTATGTAAGGGCGGTCAAGCTTGATAATGGAGATATTCTGACGACCTTCACCCCGCGGTTTCCCGGCAACGCAGGATGGAGCGGCATGCAGCCCTTTCCCTTTTACAAGAGCACGGACAACGGGGCAACCTGGTCCTTATTCAGTGAAATTGATCCGAATGATTACGGACTGAACCGGAATCAGCAAGGCATGACAACGCTGTATGTACTGCCTCAGCAGGTTGGGGATTATCCGGCAGGAACCTTATTGTTTGCATCCACGGATTGGGACAACTCCGCACCGTATACGATTCATATCTGGAGAAGCACGGACAACGGCGCCACTTGGCAGTTTCACAGCAACCTGGCTGCAAGGGGAACCGAGGGGACAAAGCGTACATGGGAGCCGGAGTTTGCGATCACGGCCGATGGCCGGTTGATTTGCTATTACTCGGATGAGCGGAAACCGGGGTATAACCAGGCAATCGCGCAGGAGATTTCCAGTGACGGTGGACTGACCTGGGGAAATTACAGCATCATTGTGGGCAATCAGGCAGATTGGAATTGGCGTCCGGGGATGCCGAGGGTCATACAAGCGAAGAACGGAAGCTATTTCATGTTTTTTGAGATGCTGGGGGCAGCCCCTAACTTTGCGGTCCGGTTCAAAACCTCACCTGATGGCATCCATTGGGGAAGCCCGACGGATCTGGGGGAGGTTGTAGGAACAGGAATATATCGCGCATCCCAGACACCGGAGGTTGCTTACATCGATGACGGAACCGCGAATGGCCGCTTTTACGTTCGGGGCATGACGGATGTGGTTTCTTCCGCTAACAAAATGTTTACGAGCGCCGATTACGGAGCGACCTGGACGCAAATGGACGCCCCGCTGACCGTAAAAGGGACTAATCAGAGCACACCGGCTGCCTGGAGCGGAACGCTGCTGCCGCTAGGCCCGTCATTGCTCCTGGAGGTCAATACCGTAAAAGTAGGGAGCCGGAATGAAATCCGCGCCAATGTAGCCCAGGTGGACAAGGAATTCTCCCTTGTTTCCGGGGGGACCTATAAGCTGGTCAATCAGAATAACCAGCTTCTTCTGGATAATGCCGGCGGCGGTTCGCCGGCCGGGACAAACGTCATCCAGTGGAACGATCTCGGGGCAGATACCCAGTGGTGGCGGTTGGATTACAGAAACGGCGGCTTCTTCCGGGCAATGAATGTAAACAACAGCCTGATCCTGGATAATCCCAACGGAGCCACGACACCGGGTACAAACGTGATCATGTGGACGAATAATGAATTGGATACTCAGAGGTGGAAATTTACGCACAAGGGCAACGGATACTACACCAGCATGAACGAGCGCAGCGGATTGATGCTGGACAATGCGGGTGCCGGCGCTCCGGCCGGTACCAAGGTCATTCAATGGACGGCCAATGGTTTGGATACGCAGAATTGGAAAGCGGTGCGGGTGGATGCGGAAATTCCGGTCAATCAGTTCGAGAGCTTTAACATCGCAAACAGTTTTGTTCGTTATCATGACGGCCGAGGTAAGATTGACGGGGGGCAGTACAGCGGTGAATCGCAATGGAGAATGGTTCCTGGACTGGCCGATCCATCCGCCGTCTCCATCGAATCGGTGTCCTTTCCAGGTCAATATCTCAGACATCGCGACGGCAAGATTTGGCTGGAGTCCAATAATGAGTCCTCTCTGTTTAAACAGGATGCGACATGGAAGTTGCGTACCGGCTTTTCAAGTCCATGGGCAGCCTCCTTCGAGTCTTATAACATATCCGGAACATTTATCAGGCACCGGGACGGCATGTTGGAGATCTCGCCGATCACGACTGAATTGGATCAGAAGGACGCCACATTTTACGTGAAGTGA	MNTRLKRSGLLAVIVMLFMSTLAAPTTQAAAIGTVVYSNPAEPEPYYVRAVKLDNGDILTTFTPRFPGNAGWSGMQPFPFYKSTDNGATWSLFSEIDPNDYGLNRNQQGMTTLYVLPQQVGDYPAGTLLFASTDWDNSAPYTIHIWRSTDNGATWQFHSNLAARGTEGTKRTWEPEFAITADGRLICYYSDERKPGYNQAIAQEISSDGGLTWGNYSIIVGNQADWNWRPGMPRVIQAKNGSYFMFFEMLGAAPNFAVRFKTSPDGIHWGSPTDLGEVVGTGIYRASQTPEVAYIDDGTANGRFYVRGMTDVVSSANKMFTSADYGATWTQMDAPLTVKGTNQSTPAAWSGTLLPLGPSLLLEVNTVKVGSRNEIRANVAQVDKEFSLVSGGTYKLVNQNNQLLLDNAGGGSPAGTNVIQWNDLGADTQWWRLDYRNGGFFRAMNVNNSLILDNPNGATTPGTNVIMWTNNELDTQRWKFTHKGNGYYTSMNERSGLMLDNAGAGAPAGTKVIQWTANGLDTQNWKAVRVDAEIPVNQFESFNIANSFVRYHDGRGKIDGGQYSGESQWRMVPGLADPSAVSIESVSFPGQYLRHRDGKIWLESNNESSLFKQDATWKLRTGFSSPWAASFESYNISGTFIRHRDGMLEISPITTELDQKDATFYVK	PGPT0019091_231	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
AK002_04771	957		COG3940	Extracellular exo-alpha-(1->5)-L-arabinofuranosidase	ATGTCAAATCGCACAACGACGTTTAGCAATCCAATCGTAGCAAACGCAGCCGATCCTTGGGTGCTGAAGCACACGGATGGCTATTATTACTTTATGTCCACGCAGCCGGGTCGCCTGGAACTTACCCGATCCTCCAGCTTGACCGGACTTGCAGAGGGCCGAAGGAAGACCCTATGGTCTCCGGAACCGGGAGGCCCCTACAGCTATAACTTGTGGGCACCGGAAATACACTATCTGAATGACAAATGGTACATCTACTATACGGCTAACGACGGCGGAGGAGACGAATCGCGGGGGTTATGCGTGCTGGAGAACGAACATAGCGATCCGCTCGAAGGCGAATGGGTTTGGAAAGGGGCGATGAAGACTCCCGTTCCGGGCTTGGACGGCACCGTGATGACGGTTCGGGACCGGCTTTATTTTCTATACGCCGGATACGGACATTTTCCCGAATACGGATCTGCTATTTATATTGCGCAAATGGTTAATCCTTGGACATTGACCGGGGAACACAGCTTGCTAACGGCTCCGACGCTTACGTGGGAAAAACAAGGCGGAATGGCCATTAATGAAGGTCCCGTCACGCTGCATAGGAACGGCCGCATTTTTCTGGTTTATTCCGCCAGCACGACCTGGTCCGAGGATTATGCCCTGGGTATGTTGACGATGGATGAAGATGCCGATCCGATGGATCCGGCTTCATGGCAAAAGTCGATGGAGCCTGTTTTTCGCAAAAGTATAGAGAACGGAGTCTATGCGACCGGCCACAACAGCTTTACGAGGTCTCCGGATGATCAAGAGGACTGGATCGTCTTCCATGCGCTTCCTTCAGCCGACGCCGATGCGAGCATCCGCTCGACGCGCATACAGAAATTCGGCTGGAAACTTGATGGGACGCCTGATTTCGGGGTTCCTTGGAGCGATGCGCATCATCAGCCCGTACCATCGGGGGAGTGA	MSNRTTTFSNPIVANAADPWVLKHTDGYYYFMSTQPGRLELTRSSSLTGLAEGRRKTLWSPEPGGPYSYNLWAPEIHYLNDKWYIYYTANDGGGDESRGLCVLENEHSDPLEGEWVWKGAMKTPVPGLDGTVMTVRDRLYFLYAGYGHFPEYGSAIYIAQMVNPWTLTGEHSLLTAPTLTWEKQGGMAINEGPVTLHRNGRIFLVYSASTTWSEDYALGMLTMDEDADPMDPASWQKSMEPVFRKSIENGVYATGHNSFTRSPDDQEDWIVFHALPSADADASIRSTRIQKFGWKLDGTPDFGVPWSDAHHQPVPSGE	PGPT0019091_930	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
AK002_04772	885	rhaR_61		HTH-type transcriptional activator RhaR	ATGAATAGAGAAGGACTGCGTATTAGAAGCCTCATAGAAAGAGGATGGAACATGGAAAACAGTGAAAAGAGCTTTGTGATCAGTATGGAGCGCTTTAAGCCTCACACCTTTCAGGCCGAGCAGGGAGAGGGCCTCTTCCAGTCACATGCCCATGAATACGATGAGCTGACGCTGGTATTGGATGGGGAAGGGTACTACAGCTCTTCTGAACAGAATATCAAGGTAGCTGCCGGCGATCTTATCCTGATACCTGCCCGGCTTCATCACGGCTTCGTTTGTACGAGGCCTTGGCAGGGGATATCCGTTCATTTCTTCCACGATAGGCTTCCGGTCCATTGCCAATACCTCTTTCATGACATAGAGTCCAAACCACATCGGATCCGGAGCGCCCATCTTCACGAAGATGATATGCGGTGGGCGGAAATCAGTTTTTTTCAGCTGGAGAAAGAATGGAATTCCAAGAGGCAAGACATCGATGCCTACAACATGATGCGGATTGCCTTTGAGACAACCTTGCTGATATTCCAGCGTAACAGGGAAACGTCGATAAGGGCGGCAGGTACCGATGAGGTCGTATTGGAAGCGGTATTAAAAGAAATTCATAGCAGCTATTATACACAGATTACGGTTAACGAGCTCGCAGCTCGCCATTTTATTTCCGAAAGCAATCTTCGCAGGAAGTTCTCGGAATCCTTCGGCGTCTCGCCAAAGCAGTATATCATCAACCTTCGTTTGATGGAGGCTAAACGGCTGTTGCGACAAACCGATAAGGCGATCGAATCGATCTCCGCCGAGGTGGGCTTTACCTCTTCCAGTCGGTTTTATGAGTTCTTTACTAAATCGAATGGAGCCACACCGCTTGAATGGCGTAAGCAGAATCCATGA	MNREGLRIRSLIERGWNMENSEKSFVISMERFKPHTFQAEQGEGLFQSHAHEYDELTLVLDGEGYYSSSEQNIKVAAGDLILIPARLHHGFVCTRPWQGISVHFFHDRLPVHCQYLFHDIESKPHRIRSAHLHEDDMRWAEISFFQLEKEWNSKRQDIDAYNMMRIAFETTLLIFQRNRETSIRAAGTDEVVLEAVLKEIHSSYYTQITVNELAARHFISESNLRRKFSESFGVSPKQYIINLRLMEAKRLLRQTDKAIESISAEVGFTSSSRFYEFFTKSNGATPLEWRKQNP	PGPT0017785_71	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017785-rhaR-K02854	NA	NA
AK002_04773	1761	ptsI_3	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGAATAGGCTGGATATTCAAGGAATCGGCGTATCGGAGGGTATCCGGATTGCAAAGGCCTATATCTACAAATCTTCGGTGGGGGCCAGCGGCGAAAGCAGCCCCGAAGGGAATTATATTCCCGATACCTCGGCTGCGGTCCAAGACGAGCTTCATAAGCTTCGCGAAGCCAAAGCGGGCTGCGCCGAGCAAATGGAGAAGCTGATTGAGAAAGCGAAGGAAGCGGTAGGCGAAGAGCAAGCCGGCATTCTTGCGGGACACCGAAAGCTGCTGGACGATCCGGCTTTCTACCCGAAAATGGAGGCGCGGATCCGGGAGAAATTGGAGACGGCCCCGAGGGCCGTTGCCGAGGTTGTCAACCAAGTCGCCTCCATGTTTGAAGGCATGAGCAATGATTATATGAAGGAGCGCGCAACCGACATCCGCGATATCGGCGGCCGTCTTCTCGCCTGTCTGTCGCCTGGACAATCGCAGGGACTTGCCGGAATCACCGAGCCGGTGATTCTCGTTGCCGACGATTTGACGCCTTCGGATACGGTGCAGCTGGACCCTGCCTTGGTGGTCGGCTTTATCACCCGTACCGGGGGAGCAACCTCGCATACTGCGATACTCGCGCGGTCGCTCGGCATTGCCGCTGTCGTCGGCGCGGGAGACGGGATTGACGGCATCGAGGACGGCGATCTGCTCGTCCTCGACGGATCAGCCGGGCTGTGCATCGCCCGGCCGGAAGCGGCGGAGGCGGAGCAGCATCGGCTCCGCATGCAGCAGGACCTCGAGCGCAGGCAGTCGCTCGAGGAATACACTGCGCGTCCGGCGGTGACCGCCGACGGTACGCGCGTAGAGCTCGCGGCGAACATCGGCAGCGCCGCGGAAGCCGAGGCCGCCGTCCGGCAGGGCGCGGACGGCGTGGGGCTGTTCCGCACGGAGTTCCTGTTCATGAACGCCACGGCCATGCCGGGCGAGGCGGAGCAGTTCCGTGCGTACCAGGAAGCGGCCCGGCTGATGGAGGGCCGCCCCGTGATCATCCGCACGATGGACATCGGCGGAGATAAGGAGCTTCCGTACCTGCAGCTGCCAAAGGAAACGAATCCCTTCCTGGGCTACCGTGCAATACGGGTAGGGCTTGTCCGCCAGGAGCTGCTTCGCACGCAGCTGCGGGCGGTGCTGCGGGCCAGCGCCTTCGGTGCGGTGAAGGTCATGTTCCCGATGATCTCCGGTTTGCAAGAATGGAGACAGGCGAGATCCATCCTGGCGGAAGTGCAGGGTGAATTGAGGGAGGAGGGCGTACCGTTCGACGAGAAGATGGAAGTCGGCATTATGGTCGAGATTCCCTCCACGGCCGTGTTGGCAGGACTTTTCGCGGACGAAGTCGATTTCTTCAGCATCGGTACGAATGATCTCGTTCAGTACACGGTTGCCGCGGATCGCATGAACGAACACGTAGCGCACCTGTACGATTATTTCCATCCCGCCGTGCTTCAGCTCATCCGGACGGTGATCGATGCTTCCCATAAGGCCGGTAAATGGACCGGCATGTGCGGCAGCATGGCGGGCGACCCGTTGGCCGCACCGCTCTTGCTCGGTCTGGGCCTTGACGAATGGAGCATGGAGGCTGGCAGGCTCAGCTCGATTAAGGAAAGGCTCGAAGGATTGGATCGAGCGGAATGCCGCGATCTGGCGGAACGCATTCTTCGTCTGGACACGCCCCAAGCCATTCGTCAGGAGCTGGAGGCATTTTGCAGCGCTAAGATTCCCTGCTGA	MNRLDIQGIGVSEGIRIAKAYIYKSSVGASGESSPEGNYIPDTSAAVQDELHKLREAKAGCAEQMEKLIEKAKEAVGEEQAGILAGHRKLLDDPAFYPKMEARIREKLETAPRAVAEVVNQVASMFEGMSNDYMKERATDIRDIGGRLLACLSPGQSQGLAGITEPVILVADDLTPSDTVQLDPALVVGFITRTGGATSHTAILARSLGIAAVVGAGDGIDGIEDGDLLVLDGSAGLCIARPEAAEAEQHRLRMQQDLERRQSLEEYTARPAVTADGTRVELAANIGSAAEAEAAVRQGADGVGLFRTEFLFMNATAMPGEAEQFRAYQEAARLMEGRPVIIRTMDIGGDKELPYLQLPKETNPFLGYRAIRVGLVRQELLRTQLRAVLRASAFGAVKVMFPMISGLQEWRQARSILAEVQGELREEGVPFDEKMEVGIMVEIPSTAVLAGLFADEVDFFSIGTNDLVQYTVAADRMNEHVAHLYDYFHPAVLQLIRTVIDASHKAGKWTGMCGSMAGDPLAAPLLLGLGLDEWSMEAGRLSSIKERLEGLDRAECRDLAERILRLDTPQAIRQELEAFCSAKIPC	PGPT0002025_473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0002025-ptsI-K08483	NA	NA
AK002_04774	270	ptsH_2	COG1925	Phosphocarrier protein HPr	ATGTTCACACAAACGGTAACCATACAGAATGAGCAGGGCTTTCATGTACGTCCGGCTCAGCTATTCTCGGAAAAAGCAGGACAATTTGGAGGAGAGGTTCGTCTGAAGACAAACGAAGGTCGATCGGCGGATGGCAAGAGCATGCTGGAGCTGATGACGCTTGGCATTGAACAAGGAGCCGTCGTGACCATCGAAGCAAACGGAGACGGTGAACAAGAAGTCGTCGAAGCCCTGATACAGCTCGTCGAAAGCAAGTTTGGTGAAGCCTGA	MFTQTVTIQNEQGFHVRPAQLFSEKAGQFGGEVRLKTNEGRSADGKSMLELMTLGIEQGAVVTIEANGDGEQEVVEALIQLVESKFGEA	PGPT0016875_2147	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE_PTS_SYSTEM_I,PGPT0016875-ptsH-K02784	NA	NA
AK002_04775	738			hypothetical protein	ATGATGATGGACACCTATTTTGATGTGATTGGCGGGTTGTTTGACAAAGTACGAGCGGAGCAGGCCAAGTCGATCCGTGAAGCGGCGGAAAAGGTGGCGGCCTGTATTCAGCAGGGCGGCATTATTCATCTGTTCGGCTGCGGGCATTCGCATATATTGACCGAGGAAGTCTTCTACCGGGCAGGCGGACTCGTACCGATCCGTCCGATTCTCATAGAGAAGCTGATGCTGCATGAAGGCGCGGTACGTTCGTCCGAGCTGGAAAGACAAAACGATCTTGCCGTCGAATTCATGAGCAAGCAGGACATCCGCAAGGGAGAGGTCGTATTCGTCCTGTCCACCTCGGGCCGCAATCCGGTTCCCGTGGATGTCGCTTTGATGGCGAAGGAGAAGGGGGCCTTCACCGTAGGCATTACCTCACTGGAATATTCCAAAAGCATGCCGTCCCGGCACAGCAGCGGCAAGCATCTGGCGGATGCCGTGGATCTGGTGATCGACAATTTCTCGGTCAAGGGCGATGCGGTATTGAGCCATCCCGGCCTTCAGGTCCCCTTTACCCCGAGCTCGACAGTGATCGGAGCCTTGATTTTGAACGCCCTGTTCGCCGAATCCATTGAGATTATGATTGAACAAGGCTTTAACCCCCCTGTATTTCTTAGCGGAAATATCGACGGCTCCGATGAGCATAACCAAGCGCTGGTCGAGGCGTATAAAGGCCGGATAACCTTGCTGGCCTGA	MMMDTYFDVIGGLFDKVRAEQAKSIREAAEKVAACIQQGGIIHLFGCGHSHILTEEVFYRAGGLVPIRPILIEKLMLHEGAVRSSELERQNDLAVEFMSKQDIRKGEVVFVLSTSGRNPVPVDVALMAKEKGAFTVGITSLEYSKSMPSRHSSGKHLADAVDLVIDNFSVKGDAVLSHPGLQVPFTPSSTVIGALILNALFAESIEIMIEQGFNPPVFLSGNIDGSDEHNQALVEAYKGRITLLA				NA	NA	NA	NA	NA
AK002_04776	729	iolN	COG1402	3-dehydro-scyllo-inosose hydrolase	ATGAAATTCGAACTCGAGAATTCGGTTGAGGTGGAGGAGAAAATCCGCAAACTCGGCGCGGCCATACTTCCAATCGGGGCCGTTGAAGCGCATGGTCCCCATCTGCCGCTGGGCACGGATAACCTGCTTGCGTCCAGGCTCGCGGACAAATTGGCGGAACGGACGGACAGCTTCGTTCTGCCGACCCTTCCTTATGGTCAAGTGTGGAGTCTGCGCAATTTTCCGGGAAGCATCAACGTGTCGAACGAAGCGCTCATCCGGCTGCTTGCCGATATCGGCGAGAGTATATATCATCAGGGATTCCGCCTATTCATCATGGTCAACGGCCATCTCGGCAATGCGGTAGCGCTGAAGGAAGCGGCGAGAATTTTATACGAACGGGTACCCGAATTGAAAGTGTTCTACTTCTTTTATCCAGGCACGAAGGAAATCACGGCGGAAGTACGCGAGGCTTCGGCCGCTCATGGCAGCTACATGCATGCCGATGAAATCGAGACGTCCTACATGCTTTATCTCGCGGGCGAATACGTGGACATGAGCAAGGCGATCGACGGCGCTCCGCAGATCCCGATTGAAGCGGACTTCACGCCTACACCCTGGGAGGAAATGACGGCTTCCGCGGTGCTTGGGGATGCAACGTTGGCAACGAGGGAGAAGGGAGAGCGGATTATCGAGCGAAGCCTGGAAGTCATGGCCGACATGGTACTCCGGGCGAAAAAAGCGATATGA	MKFELENSVEVEEKIRKLGAAILPIGAVEAHGPHLPLGTDNLLASRLADKLAERTDSFVLPTLPYGQVWSLRNFPGSINVSNEALIRLLADIGESIYHQGFRLFIMVNGHLGNAVALKEAARILYERVPELKVFYFFYPGTKEITAEVREASAAHGSYMHADEIETSYMLYLAGEYVDMSKAIDGAPQIPIEADFTPTPWEEMTASAVLGDATLATREKGERIIERSLEVMADMVLRAKKAI				NA	NA	NA	NA	NA
AK002_04777	993			Phospho-furanose lactonase	ATGGGCTTTATCCGTACCTTGCATGGAGATATCAGCAAAGAGGAATTGGGCTTTACGTATTCCCATGAACATATCGTATGCCGTCCGGCCTACTGGCAGGAACGGGGAGTGGACGATTTGCTGCTGGATGATAAAGAGAAGTCCAAGCGCGACGTTCTGGATTTCAAACAACACGGCGGATGCTCCATCGTGGATGCTACAGCCGTCGATTATGGACGGGATGTTCAAGCGGTGCAGGAAATCGCGCTTGAAACCGGCATTCGCATTGTAGGAACGGCGGGCTTCAATAAAAGCTTCCTGTGGGATGCCAAAATCAAAGAGGAGCTGAAGCCGCTGATCGGCGATTATGAGAGTTATGCGCAGTGGATCGAGGCCAAAAGCATCAACGAGCTGGCGGATTTCGTCATCCGGGAGGTGGAAGAAGGGCTGGAGGGCACGCCATTCAAAGCAGGCCAGGTTAAATTCGGGACAGGCTATAACCGCATCACGCCGCTGGAGGAGAAGACGCTGCGCGCTGTAGCCCGCGCTCATCACGAAACAAAAGCCCCCATCCACTCCCATACGGAAGTCGGCACCATGGCGCTGGAGCAAATCGAACTCCTAAAGAGCGAAGGCGTGGATCTATCCTACTTGAGTTTAGGGCATATGGACCGGAACCCCGACCCGTATTACCATGAGCAAATCGCCGCAACCGGAGCCTACATGAGCTTTGACGGTATCGGCAAAATCAAGTATGCGCCGGAAAGCACCCGCATCTCGCTAATTCTGGAGCTTGTCCGTAAAGGCTATGAGGATCAGATTCTCATCAGCGGAGATACCGCCCGTAAAACCTACTACAAGCATTACGATTACGGTCTCGGGCTGGAGTATATTATTTCCAAATGGGTGCCGCGCTTTGTAGATGAGGCGAATCGCAGCGGCTTTGACGGCCGGAAGCTGGTGGAGAAATTTTTCGTGAGCAATCCGGCCAACTGCTTCTCATTCAAAAAGTAA	MGFIRTLHGDISKEELGFTYSHEHIVCRPAYWQERGVDDLLLDDKEKSKRDVLDFKQHGGCSIVDATAVDYGRDVQAVQEIALETGIRIVGTAGFNKSFLWDAKIKEELKPLIGDYESYAQWIEAKSINELADFVIREVEEGLEGTPFKAGQVKFGTGYNRITPLEEKTLRAVARAHHETKAPIHSHTEVGTMALEQIELLKSEGVDLSYLSLGHMDRNPDPYYHEQIAATGAYMSFDGIGKIKYAPESTRISLILELVRKGYEDQILISGDTARKTYYKHYDYGLGLEYIISKWVPRFVDEANRSGFDGRKLVEKFFVSNPANCFSFKK				NA	NA	NA	NA	NA
AK002_04778	1296	ulaA	COG3037	Ascorbate-specific PTS system EIIC component	ATGGACGTACTTTTTTGGATCGCTACCAACATTTTTGGAACGCCGGCCATTCTGCTCGGGTTTATCGTTCTGATCGGCCTGCTGCTGCAGAAGAAATCAACGAGTCAGCTCGTAAGCGGCACCTTTAAAGCGATCATCGGCTTCCTCATCATCGGCGCAGGCTCTGACGTTATCGTAAAAGCCTTGAACGTATTCGAGCCGATGTGGAAAGAAGTCTTCGGATTGGAAAGCGGATCCCTCGGTGCCTTTATGGGGCAGGAGGCATTCAATTCCAAATTCGGCAGCGCCGTTACGCTTGCCATGCTCATCGGCTTTCTGATCAACGTTCTGCTGGCACGCTTCACCCGGTTTAAATTTATTTATCTGACCGGGCACATGATGTTCTGGACGTCGACCGTTTTTGCGGGCGTCATCGTCCATGCGTCCAGCGGAATTCCGATCTGGAAGCTGGTACTGATGATCGCCGTGGTTCTCGGGGTGTACTGGACGTTCCAACCGGCGCTGGTTCAGCCGTTCCTGCGTAAAATCACGGGCAACGATAACATTGCTCTTGGACACACGTCGGCTTCGGTTGCGCTATTGGCTGCCTTGTTCGGCAAATTGCTCGGCAACAAAAACAACGATTCCGAGAAAATCAAAGTACCGAAGGGCTTCGAATTTCTTCGCGATTCCAACGTCATCACGGCGCTCAGCATGGGCGTGTTATTCCTGATCGGGGCCATTATTCTCTCGACGAAGGGCACGCCGGCTGCGGCAGAACTGATGAAACAATCGGGTGACCAGAACTTTATCATCTATTCCATTATCCAATCGTTTACGTTCGCAGGCGGAATCGCCATCGTTCTGATGGGGGTCCGGATGTTTGTCGGCGAGCTGGTGCCGGCCTTCAACGGGATTGCTACCAAACTCGTACCAGGCGCCAAACCGGCACTGGATGCGCCAGTCGTATACCCTTACGCACCGAATGCGGTGGTGCTTGGCTTCCTGGGAGCTTTCGGTGGCGCGATTATCTGGCTGCTCGTACTGGGCAACACCGTTTCTTACATCTTCGTGCCGACGATGATTGTTCTATTCTTCCACGGCGCTACGGCAGGGGTGTTCGGGAACTCGACAGGCGGTGTCCGCGGTGCCGTTATCGGCGGCTTCATCACGTCAACCGTAGTCGCTTGGGGTCAGTTCCTGATGGTCCGCTTCTTCATCGCCTCGACGGTGCCGGATACGGCCATGTGGGCAGCCGATTCCGACATGTTCATCATCGGACCGATTCTGCACTTCCTGGCGAAACTGTTCTTTTAG	MDVLFWIATNIFGTPAILLGFIVLIGLLLQKKSTSQLVSGTFKAIIGFLIIGAGSDVIVKALNVFEPMWKEVFGLESGSLGAFMGQEAFNSKFGSAVTLAMLIGFLINVLLARFTRFKFIYLTGHMMFWTSTVFAGVIVHASSGIPIWKLVLMIAVVLGVYWTFQPALVQPFLRKITGNDNIALGHTSASVALLAALFGKLLGNKNNDSEKIKVPKGFEFLRDSNVITALSMGVLFLIGAIILSTKGTPAAAELMKQSGDQNFIIYSIIQSFTFAGGIAIVLMGVRMFVGELVPAFNGIATKLVPGAKPALDAPVVYPYAPNAVVLGFLGAFGGAIIWLLVLGNTVSYIFVPTMIVLFFHGATAGVFGNSTGGVRGAVIGGFITSTVVAWGQFLMVRFFIASTVPDTAMWAADSDMFIIGPILHFLAKLFF	PGPT0017105_1044	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017105-ulaA|sgaT-K03475	NA	NA
AK002_04779	264	ulaB		Ascorbate-specific PTS system EIIB component	ATGAAAATTTTATGCGTATGCGGTTTAGGACAAGGAACCAGCTTGATTCTGAGAATGAATGTGGAGAATGTGCTGAACGGCATGGGAGTAAACGCCGATGTGGAGCACACGGACGTTTCGACGGCATCGGGAACCGCAGCCGATTATATCATTACAAGCAACGAGCTGGCACAAAGCCTGCAAGGGCATGAAGCCAAGGTCGTTATCGTCAACAACTATTTTGACAACGACGAGATCAAACAGAAGCTGGAAGAAGTGCTGTAA	MKILCVCGLGQGTSLILRMNVENVLNGMGVNADVEHTDVSTASGTAADYIITSNELAQSLQGHEAKVVIVNNYFDNDEIKQKLEEVL	PGPT0017110_1144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017110-ulaB|sgaB-K02822	NA	NA
AK002_04780	444	ulaC	COG1762	Ascorbate-specific PTS system EIIA component	ATGAAATTTTTGGAACCGTCACTAATTGCCTTGGATGTTGAGGCCGAGACGGCGGAAGAAGCGATCCGTTTGGCAGGGGCGCTGCTGGCGAATGCCGGAGCGGCGGAAGAACGTTATGCCGATGCCATGGTGGAATCGTATCGTGACAAAGGGCCGTACTTTGTTCTTGCGCCGCACATCGCCCTACCGCATGCCCGTGCGGAGGACGGGGTGAGGGAAGCCTCCGTCTCGTTGCTTCGATTGAAGACACCCGTCGTTTTTGGCCATGCCGCTAATGATCCGGTCCAGCTTGTATTCGCGCTTGGCGGCTCCTCAAGCTCGGAGCACATCGCCATGCTGCGCAAGCTGACGACATTGCTCAGCAATCCGGACAACGTGGAACGATTCAAGCAGGCATCGGATGTAGAGTCAATCCAACAACTAATTAGGGGGAACGAACAATGA	MKFLEPSLIALDVEAETAEEAIRLAGALLANAGAAEERYADAMVESYRDKGPYFVLAPHIALPHARAEDGVREASVSLLRLKTPVVFGHAANDPVQLVFALGGSSSSEHIAMLRKLTTLLSNPDNVERFKQASDVESIQQLIRGNEQ	PGPT0017115_845	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_TRANSPORT,PGPT0017115-ulaC|sgaA-K02821	NA	NA
AK002_04781	2088	manR_2	COG1762	Transcriptional regulator ManR	TTGACGCTGCTCGATGAGGCAGCCGATTATGTATCGCTGGAAGAACTGATGCAGAAGCTCGGCATCTCCAGACGAACCGTTTACTATGATATGGAAAAAATAAACGATTGGTTGAAAGCGATTCAACTTCCATCGGTCCAATATGTCAGGACAGCAGGCTACTATTTGCCTGAAGAAAGCCGGGCGGGGCTTCCAAAGTTGAGTGAAAAGCCCCATGCACAGCAGTACTATTTGTCTCCGCGCGAAAGGCTGGCCTGGATGTCGCTTTACCTATTGTCGGCGGAGAGTCCGCTCTTCGTTCACCATCTGACCGAACTTCTGCAGGTTAGCCGCGGAACCGTGCTCAAGGATTTGAACATGGTCCGCTCGGAGATGAAGTCCGTAAAACTCAAGGTAACCTACGACCGTAAGCGGGGCTACGGCGTGCACGGGGAGGAGCGTGACAAGCGGAAGACGCTGAGCCATTACTTCGGGCAGATTTTCGGTCATGCGGGCTGGGAACAGGCATTCAACTTGAACCCGGAATCGGGAATTCCCGATCTTGCCCCACTCCTGTTTCCGCCTATGGAAGAAGGAGGTTTGGAGCAGGTCTATCGCCTGATCTCGGATAGCGAGATCACGCTGGGCGTAGATTTGACGGATGAGATGCTATTTCATCTGACCGCCCGCTTCCTGTTGTATGTAAGACGGATTCAAACCGCGCAATGGGTCTCGATCGACGATGATGAACGAAGCGTTCTGCGAAGGACGCCAGAGTATGAAGCTGCCGCGCGCATTGCGGAAGGTCTCGGGCAAATGTTCGGCGTTTCCGTTCCGGATGATGAAGTCTGCTACTTCGCGATGCATCTGCTGGGGGCGAGAGTCAATCGGATGGAACAGATGACGGGGTCCGAAGAAGTGCTGAAGCAGCTTCGGAACGTGACGACGGAGATGACCGACCATTTTCAACGTTATGCCTGCGTATTTCTGCCGAACCGGGAAGCCATGGAGGAGAATCTGCTGGTCCACTTGAAACCGGCTTATTACCGAATCTTGTATGGTCTCAGCCTGGAAAATCCGCTGCTCGAAAATATCCGTTCCAAGTACGGGGAAGTATTCGAGCTTACCCGCCGTTCCGCCGCACCGTTCGAGCAGTTGGTTGGACGTAAACTTGACGATCACGAGATCGGATACCTCGCGATGCATTTCGGCGGTTGGCTGCGCAGAGAGAATACGAAGCCGGCCGTAAGGAGGCAGGCCGCCATCGTCTGCGTGAACGGCATTTCCGCATCGCGGATGCTGAAATCGCAGCTGGAGAACCTGTTCTCGGCAGTGGACATCACAGCCGTATTGTCGCTCCGCGATTATGAGTCGTTTCGCGAAGAAGATGTCGATTTTATATTCTCGACGGTACCGCTCCCGGACAGCAAAGTGCCCGTTCTCCTGGTGAATCCGATTCTGAGCGATAAGGATAAAGAGCATTTGCTGAACCAGATCAACATGGTTTCCGGACGCAAATCAAGAACCCAGGCCAACACGGTTCAAGCGCTGCTGGACATCGTCCATAAATACGCGGCGGTAAGGGATGAAGCCGGACTTACGGAGGAGCTTAACCGCTACATGTCCTTAGGGAAAACTTGGCTCAGCGAGGCCCGCAAGCCATCTCTGACGGATCTGCTCACCGGGCAAATGATTCGGATGAAAAGAGAAGCGGCAGATTGGCGGAGCGCCATACGCGAAGCCTCCGAACCGCTGTTGAAGGATGGACGCATCGAAGAAGCTTACATTGATGCGATGATCTCCAAAGTGGAAGCGCTCGGCCCTTACATTGTCGTAGCACCTGGCATCGCCATCGCGCACGGCAAGCCGCAGGATGGAGTCCGGCGGCTTGGGATCAGTCTGCTCCGGCTGGAGCAGCCCGTCGCCTTCTCGGAGGAAGCGCGCCATCAGGTGCAGATCATTCTGGTCCTGGCGGCGATTGACGGCGAATCCCACCTGAAAGCACTGTCGGAGCTGACGCTCCTGCTGAGAGATAAGGAAAACCTGATCCGACTGAAAGAGGCCAGGACAAAAGAACAGATACTTCAACAATTACAAACCGGTCCTTAG	MTLLDEAADYVSLEELMQKLGISRRTVYYDMEKINDWLKAIQLPSVQYVRTAGYYLPEESRAGLPKLSEKPHAQQYYLSPRERLAWMSLYLLSAESPLFVHHLTELLQVSRGTVLKDLNMVRSEMKSVKLKVTYDRKRGYGVHGEERDKRKTLSHYFGQIFGHAGWEQAFNLNPESGIPDLAPLLFPPMEEGGLEQVYRLISDSEITLGVDLTDEMLFHLTARFLLYVRRIQTAQWVSIDDDERSVLRRTPEYEAAARIAEGLGQMFGVSVPDDEVCYFAMHLLGARVNRMEQMTGSEEVLKQLRNVTTEMTDHFQRYACVFLPNREAMEENLLVHLKPAYYRILYGLSLENPLLENIRSKYGEVFELTRRSAAPFEQLVGRKLDDHEIGYLAMHFGGWLRRENTKPAVRRQAAIVCVNGISASRMLKSQLENLFSAVDITAVLSLRDYESFREEDVDFIFSTVPLPDSKVPVLLVNPILSDKDKEHLLNQINMVSGRKSRTQANTVQALLDIVHKYAAVRDEAGLTEELNRYMSLGKTWLSEARKPSLTDLLTGQMIRMKREAADWRSAIREASEPLLKDGRIEEAYIDAMISKVEALGPYIVVAPGIAIAHGKPQDGVRRLGISLLRLEQPVAFSEEARHQVQIILVLAAIDGESHLKALSELTLLLRDKENLIRLKEARTKEQILQQLQTGP				NA	NA	NA	NA	NA
AK002_04782	1380	sasA_23		Adaptive-response sensory-kinase SasA	ATGATCAGATCCTTATATATTCGAGTAGTCCTGACGTTTCTAGTGTCCGTTATCGGTGGCACGGTCCTTTCGTTTTTTATGTCTACTTGGATGTTCAAGGAACAATTGAACGAGAACGCGCAAATCAACTTACGCAACTTCGGTCAAGATGTCGTCCGGATTTACAAGACACTTCCGTTACGTGAAGCCGACTTGTTCGTTCGTGAAATGAAGCAGCTCGATTCCTATTATATCCGCATCTACGAAGCGACGGGCCAGTACAAGGCTTACGGCAAGCTTAACGGACACAAACCTGCTGAAGTAACGATGGATAAACTAAAGGAGGTAATCGAGGGAGGCGTTGTTCAAGACACGCAGAAAGGCATTGCTACGGTTCTTTTAGGGCTGCCGTTGAAAACGGAAACGGGAACGAAGGCGATGTTCCTGGAAATGCTCGCCCCTCCTTCTGCCTCTTTTGTCGTCAAATGGGGATCGATCTTTGCTACCAGTTCGTTGATTACAGGGAGCTTATTGATCCTGATTGCCTCCATCTACTTGGTAAGGCCGATCAAAAAGCTGACAAAAGCGACCCGCCGCATTGCAGCAGGAGATTTTAGCGTCAAGCTGAATATTAAGCAAACAAGCGAGCTGGGTACGCTGGCTCGCAGCTTTGAAGACATGATGCACGAGCTGCAGCAGCTGGAGCAGATGCGCAGGGAATTCGTAACGAACGTGTCGCACGAGGTGCAATCGCCGCTCACCTCGATATCCGGGTACGCTCAAGCGCTGAAGCAGGTAGATCTCTCGGATGACGAGCGAAGACGTTATCTGGACATTATCATCGCTGAAGCGAAGCGGATGTCCAAAATGAGCGACAGCCTGCTCAAGCTGAGTTTGCTTGAATCCCAGTCACAGCAGCTGGGGCTCAGCACGCTCAGCTTGGATGAACAGATCCGACGGGTCATCGTGGCGCTCCAGCCGCAATGGGCCGCCCGCAGCATTCAGTTTGAGCTTGATTTGCAGGCCGTTAAAGTTACGGCCGATCATGATCAATTAAACCAGGTATGGACGAACATCATTGGCAACAGCATCAAATTCTCAAAGGATGGCGGCGTGATTCACGTCAGCGTCAAACAAGACATGAACCACGTGACCGTTCGAATATCCGACGCGGGCATAGGTATTTCGCTTGAGGATCAGAAGCGTATATTCGAGCGTTTCTTCAAAACCGACCGTTCCCGCAGTCGTAAATTTGAGGGCAGCGGCATGGGACTTGCCATAGTCAAACTGATCGTATCGCTTCATCAAGGCGATATCCGGGTGGAAAGCGAGCCTGGTCAAGGAGCGACCTTCATCGTCACCTTGCCAATCATGACGCCGGCGGATCAGACAGATTCTTAG	MIRSLYIRVVLTFLVSVIGGTVLSFFMSTWMFKEQLNENAQINLRNFGQDVVRIYKTLPLREADLFVREMKQLDSYYIRIYEATGQYKAYGKLNGHKPAEVTMDKLKEVIEGGVVQDTQKGIATVLLGLPLKTETGTKAMFLEMLAPPSASFVVKWGSIFATSSLITGSLLILIASIYLVRPIKKLTKATRRIAAGDFSVKLNIKQTSELGTLARSFEDMMHELQQLEQMRREFVTNVSHEVQSPLTSISGYAQALKQVDLSDDERRRYLDIIIAEAKRMSKMSDSLLKLSLLESQSQQLGLSTLSLDEQIRRVIVALQPQWAARSIQFELDLQAVKVTADHDQLNQVWTNIIGNSIKFSKDGGVIHVSVKQDMNHVTVRISDAGIGISLEDQKRIFERFFKTDRSRSRKFEGSGMGLAIVKLIVSLHQGDIRVESEPGQGATFIVTLPIMTPADQTDS	PGPT0004100_2840	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
AK002_04783	675	hssR_3		Heme response regulator HssR	ATGCCTACTATACTGGTTGCTGACGACGATGCGAACATTCGCGAGCTCGTCTGTTTATTTCTACGCAATGACGGATTCACCACGGTCGAGGCGGCTGACGGCAAGGAAGCGCTCAGCGTCTATGGCTCGACGCCCGTCGATCTTGTCGTCCTTGATATTATGATGCCGATGATGGATGGCTGGACGTTATGCAAGGAGCTTCGAAGAGCCAATCCGGATTTGCCGCTGCTTATGCTGACGGCGAGAGGCGAAACGTGGGAAAAAGTAAAGGGTTTCGAGCTGGGGACGGACGATTATTTAACGAAACCATTCGATCCGTTGGAGTTGACGGTCCGCGTTAAGGCATTGCTGAAACGATATCGGATCGGCTCCACGCAGACGATCCAGTTCGGCAACGTCATTCTCGACAGGCAGACCTATAAGGTGAGCAGCGGGCCGGAGACGCTCACGCTGCCGCTCAAAGAGTTCGAATTGCTGTACAAGCTGGCTGGAACACCCGGACAAGTCTATACACGTGAGCAGCTGATCGATCAGATTTGGGGAATCGATTACGCGGGAGATGACCGAACGGTGGATGTACATATTAAACGTCTTCGCGAAAGGTTCGCAACGACGCCGGATTTCCGGATCGAAACGGTGCGCGGGCTGGGGTACCGGCTTGAGGTCTATGAATGA	MPTILVADDDANIRELVCLFLRNDGFTTVEAADGKEALSVYGSTPVDLVVLDIMMPMMDGWTLCKELRRANPDLPLLMLTARGETWEKVKGFELGTDDYLTKPFDPLELTVRVKALLKRYRIGSTQTIQFGNVILDRQTYKVSSGPETLTLPLKEFELLYKLAGTPGQVYTREQLIDQIWGIDYAGDDRTVDVHIKRLRERFATTPDFRIETVRGLGYRLEVYE	PGPT0028965_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
AK002_04784	966			hypothetical protein	ATGAACCATCGAGAGCTTACGAATTCATTATACGGTTATTTGTTCGTTCATTTTATCGGTGATCATGAGGACGGCGAGCAAATCTATTTCGCCCTGAGTAAGGACGGCATGCATTGGCAGGATCTGAATCAGAAACAGCCGGTCTTGCGATCAACCGTCGGAGAGCGCGGGGCACGCGATCCCTATTTGCTTCGAAGCGCGGACGGCAGCTGCTTTTATTTGCTTGCCACCGACCTTAGCATTTACCATCGCGGCGGCTGGGAGCATGCTCAGGCGACGGTTACCGGCAGCCGGTCACTCGTCATTTGGGAATCGCCTGATTTGGTGAACTGGTCGGAGCCGCGCTTGGTTGAAGCCGCTCCGGAGGAAGCGGGCTGCGCGTGGGCGCCTGAAGCGATCTTTGACGAGGACAATGGGGATTATCTGGTATTCTGGGCTTCCAGCCGGGACGCTCATGACGGCGATGGCCGCGGACACCATATTTACTGCAGCAGAACGCAGGATTTCCGCTCGTTTACGCCGGCCGAGCCTTATATTACCCGAGAGGAAAACCGTGCGATTATCGACACGACGATCATTAAGGCCAGCGGCAAGTATTATCGGGCTTCCGGCGACGGGCAGATTACCATCGAGTCGAGCGACCGCCTGATGGGAGAATGGAAAGTCATTTCGACGTTGGAGTCGCTTGGACTTGCGCTTACGGGAAAGGACGTCGAGGGTCCAGAGTTTTTCAAATTTAACGGCGAAGAAAAGTGGGGGCTGTTGGTTGACCAGTACGCAACCGGCAGTGGATATATGCCCATCCTGACAACCGACATCGGCGATCCGACGGGAGCATGCTGGAGGAAACCTGAACCGAGAGAATACGACTTCGACAGCCTTAAAAAACGTCACGGCTCCATCCTGCCTATTACCCAAACCGAATATGAAGCGCTCAAAGGGTTCTATCGCAACGAATCGATGTGA	MNHRELTNSLYGYLFVHFIGDHEDGEQIYFALSKDGMHWQDLNQKQPVLRSTVGERGARDPYLLRSADGSCFYLLATDLSIYHRGGWEHAQATVTGSRSLVIWESPDLVNWSEPRLVEAAPEEAGCAWAPEAIFDEDNGDYLVFWASSRDAHDGDGRGHHIYCSRTQDFRSFTPAEPYITREENRAIIDTTIIKASGKYYRASGDGQITIESSDRLMGEWKVISTLESLGLALTGKDVEGPEFFKFNGEEKWGLLVDQYATGSGYMPILTTDIGDPTGACWRKPEPREYDFDSLKKRHGSILPITQTEYEALKGFYRNESM	PGPT0019091_491	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
AK002_04785	1521		COG3507	Non-reducing end alpha-L-arabinofuranosidase BoGH43A	GTGGAAATGACATACCAAAATCCTGTGATTAGCGGCTTTCATCCCGATCCCAGTGTCTGCAGGGTCGGCGGCGATTATTATCTTGTAACGAGTTCCTTTGGATATTATCCGGGAGTTCCTCTTTTTCACAGCAATGATCTTGTGCATTGGACACAGATCGGCCATTGCTTGACTCGGAAGGAGCAATTGGATCTTCGAAATGCAGGCACCTCGACAGGGATATATGCTCCAACCATCCGTTTTTATCAAGGCATGTTCTACATGACCACAACCAATGTTTCGGGAGGAGGGAATTTTTATGTAACCTCTGAGGATCCTAGCGGGGCTTGGTCCGATCCGGTATTCGTTGACCATCCCGGGATTGACCCCGATTTGTTTTTTGACGAGGATGGAACGGTTTATTATACAACATCGTGGAACCAGGGGATCTATCAAAGCCGGATTGATATTGAAACTGGACAGAAGCTCTCCGAGGTCCGTTTATTATGGAACGGAACGGGCGGGCAATATCCGGAGGCCCCGCACCTGTATCGGGTTGGAGCGTGGTATTACCTGCTTATTTCCGAAGGAGGAACCGAATACGGACACATGGTGACCGTGGCCAGAAGCAAGCGGCCGGAGGGTCCGTTTGAGAGCTGTCCGCACAATCCGATCCTGACTCATCGGAGTCTGTTAAAGCCGATTCAAGCTACAGGCCATGCGGATCTGGTTCAAGCCCCCGACGGTAGCTGGTGGGCGGTCTTCCTCGGCATTCGGCCCGTCGGTTATCCTCAGCGTCATCATCTCGGCAGAGAAACGTTTCTCGCCCCTGTATCCTGGACAGGGGACGGATGGCCTGTTATTGGAGAGAACGGCGTCGTTCATGAGACGATGCCATCAGGGAACCTTCGATTACAACGCGTGACGAGCCCCCCTGTAAGAGATGATTTTGTAGACTCGGAGCTCGCGCCATATTGGAATTTCCTTCGATCACCGCATCCGGACCATGGGTCCCTGACCGAGAAGGAGAGCTGCCTGACATTGAACGGTTCAGCGGCAACGTTGAATGACGGTGCTGCTGCCTTCCTCGGAAGAAGGCAGCAGCATTTTAACATGAAGGCTTCAGTGCATTTGACTTTCGCGCCGCAGCAGGACGGCGAGGAAGCTGGATTAACCGTGTTTATGAACGAGCGGTTCCACTACGAGTTGGCTGTGATCCGAATCGATGGTCGCCGAAAGATGATCTTCCGCAGAAGGATCGGAAGCTTGTGGAAAGTCGAAAGCGAGGCCCCTTGGTCTTCGGATTCGGTTGTGCTCACCATTCAAGCCGACAAAGAGAAGTATGCGTTCGGATTTGCCGGCGGTGGTCAGGAGCCTTGTTGGTTCGGTGAAGGCGAATGTGCCATGTTGGCTACGGAGGTAGCCGGCGGGTTTACGGGCGTGCTCATCGCCATGTATGCCACAGGCAACGGCGTTCGATCCGTCTCACCGGCACACTTTGATTGGTTTGATTACCAAGCTCTCGAGGATGTGGTGTTATAA	MEMTYQNPVISGFHPDPSVCRVGGDYYLVTSSFGYYPGVPLFHSNDLVHWTQIGHCLTRKEQLDLRNAGTSTGIYAPTIRFYQGMFYMTTTNVSGGGNFYVTSEDPSGAWSDPVFVDHPGIDPDLFFDEDGTVYYTTSWNQGIYQSRIDIETGQKLSEVRLLWNGTGGQYPEAPHLYRVGAWYYLLISEGGTEYGHMVTVARSKRPEGPFESCPHNPILTHRSLLKPIQATGHADLVQAPDGSWWAVFLGIRPVGYPQRHHLGRETFLAPVSWTGDGWPVIGENGVVHETMPSGNLRLQRVTSPPVRDDFVDSELAPYWNFLRSPHPDHGSLTEKESCLTLNGSAATLNDGAAAFLGRRQQHFNMKASVHLTFAPQQDGEEAGLTVFMNERFHYELAVIRIDGRRKMIFRRRIGSLWKVESEAPWSSDSVVLTIQADKEKYAFGFAGGGQEPCWFGEGECAMLATEVAGGFTGVLIAMYATGNGVRSVSPAHFDWFDYQALEDVVL	PGPT0018665_1723	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
AK002_04786	891	melC_15	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGGCTTATGAAAGCAAATTGTTACAGTGGTCCGCCCATGTGATCCTAGGATTGTTTGCGGCGGCATGTTTGATCCCATTTGCTTTGCTGATCGTATCTTCTCTGAGCAGCGAAGCAAGCATTATCCAGAACGGCTACTCCTTTTTTCCAACGGAGTTAAGTTTGGATGCCTACCATTATTTGTGGACGCATGTCGGGGAGCTTGGAAGGGCCTATGGAATCACGGTTCTCATCACCGTCGTCGGTACGGCAGTCAGTTTGGCGATCAGTTCCATGCTGGCTTATCCGTTGTCCCGCCACGACATGCCTTTAAAGAACTTTTGGACTTTTTTCGTATTCTTTACGATGTTGTTCAACGGCGGGCTGGTTCCAACTTATATGGTCTATACGCAGCTCTTCGACATCAAGAACACGCTGTTTGGGCTGCTCATACCGGGGCTGCTCATGAACGGTTTTAACGTTCTTCTGGTACGGACCTTCTTCATGACTTCCATTCCTTCAGCCTTGCTCGAAGCGGCCAGCATCGACGGGGCAAGTGAAATTAAAACATTTTACCGGATCGTTCTTCCGCTGTCGCTTCCTATCATGGCAACCATCGGGCTGTTTCAAGCCATCGCATATTGGAACGACTGGTTCAACGGACTGATCTATTTAACGGACACGAGATTGTTTGGCATCCAAACGATTCTGAATAAAATGATGACGGATATCCAGTTTCTTACGAGCAACAGCAACCTTGCCAGCACGGGCGCAGGGCAAGCCATCATGGAATTGCCAAGCACGACCGTACGTATGGCAATTGCTGCTATAGGGGTATTGCCGATTCTGATCGCATATCCGTTCTTTCAGAAGTACTTCGTTAAAGGGATTACGATCGGAGCAGTGAAGTAA	MAYESKLLQWSAHVILGLFAAACLIPFALLIVSSLSSEASIIQNGYSFFPTELSLDAYHYLWTHVGELGRAYGITVLITVVGTAVSLAISSMLAYPLSRHDMPLKNFWTFFVFFTMLFNGGLVPTYMVYTQLFDIKNTLFGLLIPGLLMNGFNVLLVRTFFMTSIPSALLEAASIDGASEIKTFYRIVLPLSLPIMATIGLFQAIAYWNDWFNGLIYLTDTRLFGIQTILNKMMTDIQFLTSNSNLASTGAGQAIMELPSTTVRMAIAAIGVLPILIAYPFFQKYFVKGITIGAVK	PGPT0017255_1455	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04787	924	yteP_60	COG4209	putative multiple-sugar transport system permease YteP	ATGACCAGACGGAGCGGGCTGAAACGGTTCAGGAAATACACGCCTCTATATCTCCTAATGCTCCCGGGAATCGCTTATCTCATCATCAACAATTATGCTCCTATGTTCGGCATGTTTATTGCTTTTAAAAATATAAATTTCTCGGCTGGAATTTTTGAAAGCGACTGGATCGGCTTTAAAAACTTCGAATATTTATTCAAAACGACAGACGCCTTTATCATCACGCGGAATACGATTTTATATAATGCCGCCTTCATTGTGATTGGCACCGTGCTTTCCATTGCCGTCGCCATCTTGCTGAACGAGATCAGAGTCAAGGTGCTGTCGCGTTTCTACCAGAGCGTCATTGTGCTGCCGCATCTTATTTCTTTTGTTGTGGTCGGCTACTTGGTATATGCGGCTCTTAGTTTAGAAACGGGTTTCATGAATAAGACCATACTTCCCCTATTCGGAATCGAGAGCATTTCGTGGTATACCGAGCCGAAATATTGGCCGGTGATCTTGACGGTGGTCCAGCTTTGGAAAAGCGTCGGTTTCTCCTGTATTATCTTCCTGGCTTCCATTATCAGCATCGATCCCGAGTATTATGAGGCGGCAAGATTGGACGGGGCCTCGAAATGGAGGCAAATTCAGTCGATTACGATTCCGTTGATTACGCCGGTGATTGTTATGCTTACGCTTCTGAGCATCGGCCGGATGTTCTATTCCGATTTTGGATTATTTTATCAGGTGCCGATGAATTCAGGCATGCTCAACGATACAACGAACGTGATCGATACGTACGTGTACCGAAGTTTGATGATCATGGGGGATATCGGCATGGCTTCGGCAGCGGGCGTCTACCAATCCTTTGTCGGGTTCGTACTTGTTCTGAGTGCCAACTATATCGTGCGTAAATTCAATAGGGAGAACGCGTTGTTCTAG	MTRRSGLKRFRKYTPLYLLMLPGIAYLIINNYAPMFGMFIAFKNINFSAGIFESDWIGFKNFEYLFKTTDAFIITRNTILYNAAFIVIGTVLSIAVAILLNEIRVKVLSRFYQSVIVLPHLISFVVVGYLVYAALSLETGFMNKTILPLFGIESISWYTEPKYWPVILTVVQLWKSVGFSCIIFLASIISIDPEYYEAARLDGASKWRQIQSITIPLITPVIVMLTLLSIGRMFYSDFGLFYQVPMNSGMLNDTTNVIDTYVYRSLMIMGDIGMASAAGVYQSFVGFVLVLSANYIVRKFNRENALF	PGPT0017250_2127	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04788	1527			hypothetical protein	ATGAAGAAAAAGTGGGGATGGTTTAGTCTGTTGCTGGCTTTGATGGTCATGGTATCGGCCTGCGGGGGGAATGATTCGAAAGGAAATTCCGCAGCAGGCTCAAAAGATGACGGCGCGGCTTCCTCTGGTGCATCCGATGCTCCTTATGAAGTGGTTTATGCATACCCGACCTTTGACAGCGTACCGGCCGACATCCAGCTCGTTCAGGATGAAATCAACAAGATTGCCAAAGAAAAAATCAATGTGACAGTAAAGCTGCTACCCATCAGCAACAGCGCATTCGCCAATCAAGTGAATTTGATGATGTCGAGCGGAGAAAAGCTGGATATGATTGCGATGCTCGGAAACTACAGTACTCAAGTGGCCAAGGGCGTACTTTATCCGATCGGAAATATCATGGAGAAAAATGCTCAGGGAATTATCGACGTCCTTGGCACCGACTATTACAATGCAACCAAAGTGGGGGGCGTAAGTTACGGTGTGCCAAGCATAAGGGACTTAGCGCAGGATTATGGTTTTGTCATGCGAAAGGATTTGGTGGATAAACATAACATCGATCTGGGTCAAGTTCAGACTTTCGATGATTTCGAGAACATTTTCAAGATCATTAAAGAGAACGAACCGGGCATGGCCGGAGCGGCCAACTTGTCGAATGGTTCGATTATGAGCACCTATGCCATACATGACCCGCTCGGCAATAATCTGGGGGTCTTGCTGAACAACGGTCTTGACGATTTGAAAGTCGTTAACTTGTTCGCTTCAGAAGAATATGAGCACATTCTGAAGAAGCTTCGGGAGTGGTATCTCGCGGGATATTTAATGAAAGATGCCGCGACCAGCCCTGAGTCTACAAACGTGCTGGTCAGTAATGGAAAGGCTGCTGGATGGATGTCCGCGATGAAGCCGGGATTTGAAGTCCAGGAAAGCCGGAACGTCGGTATGGAAATGACCGCCGTTCGTACCTTGCAGCCTGTCGCCAAGACGGATACGGTCACGAACGTTGCCGTCGGTGTCACCTCCAATTCGGAAAACCCTGAGAAAGCACTGCAGTTCATGAATCTGCTATATACCGATAAAGAGATTGTCAATTTAATGGTTTGGGGCATCGAGGGCAAGCATTATGTCAAAGTCGAAGGACAAGACAATATGATCCGATATCCTGACGGCGTCACAAGCGATAACGTTGGATACAAAAATTATGGCTGGATGCACGGGAATCAGTTTCTTACCTATGTGTTCGAGGGAGACGACCCTGGCATTTATGAGCAGATGGACGAGTTTAATAAGTCGGCGGCGAAATCGAAAGCACTCGGATTTTCATTCGATTCCGAACCCGTAAAGAATGAAGTAGCCGCCTGCAATAGCGTGCTTGAGCAATACCGGAGAGCATTGGAGAGCGGAATCCTGGATGTGGAGAAGGCACTGCCTGAATTCCTCAATAAGCTTGAAAATGCCGGTATTCAAAAAATTATCGAGGAAAAACAAAAACAGCTTGACGAGTGGGCTAGCGGAAACGGAGTACAATAA	MKKKWGWFSLLLALMVMVSACGGNDSKGNSAAGSKDDGAASSGASDAPYEVVYAYPTFDSVPADIQLVQDEINKIAKEKINVTVKLLPISNSAFANQVNLMMSSGEKLDMIAMLGNYSTQVAKGVLYPIGNIMEKNAQGIIDVLGTDYYNATKVGGVSYGVPSIRDLAQDYGFVMRKDLVDKHNIDLGQVQTFDDFENIFKIIKENEPGMAGAANLSNGSIMSTYAIHDPLGNNLGVLLNNGLDDLKVVNLFASEEYEHILKKLREWYLAGYLMKDAATSPESTNVLVSNGKAAGWMSAMKPGFEVQESRNVGMEMTAVRTLQPVAKTDTVTNVAVGVTSNSENPEKALQFMNLLYTDKEIVNLMVWGIEGKHYVKVEGQDNMIRYPDGVTSDNVGYKNYGWMHGNQFLTYVFEGDDPGIYEQMDEFNKSAAKSKALGFSFDSEPVKNEVAACNSVLEQYRRALESGILDVEKALPEFLNKLENAGIQKIIEEKQKQLDEWASGNGVQ	PGPT0017245_2924	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04789	1620	rssB_19		Regulator of RpoS	ATGCTGAACATGATGATCGTTGATGATGAGAAGCTGTTAACCGACTCGCTAAAGTCGGATGTGGATTGGCAGAGCTTAGGGATCGAAGCCGTTTTTACCGCTTATAACGCCCGCCAAGCCAAGGAAGTGTTTGAACAGGAACGGGTTGATCTTATTTTATGCGATATCGAGATGCCTCAAGAAAGCGGGCTGGAGCTGCTTGCATGGGTCAGGAATAACTACCCGCAAACGGAGACCGTGTTTATGACATGCCATGCCGAATTCAAACTGGCGCAGCGAGCGCTCAAGCTGGGCAGCTTCGATTATTTGCTCAAACCGATTCCAGGCGATGAGCTCCAGCAAGTGATCGGCAAAGTCGTGGAAAAAATCATGAGAGATCAAGAGGTGCAGCAATATAGCCGGATCGGCCAGTTCTGGGCGCGTCATCAACCGCTGCTAGCGGAACGGTTATGGCTTGACGTCATCAACCATACGATCCCTTCGCATCCGGAACACATTCAAAGGGCGGCGGAAGAGCGAAATATTCCCTTCGACCGGCGTATGAGACTTCTTCCGATCCTGATCTCCGTGCAGCGCTATCACAAAACGTTTTCTCCACGCGACGAGAAGATCATCGAATACGCGTTGTTGAACAGCGGCGAAGAAATACTTCATGTCCACGGAAACGGGCTGCTGTTCGGATTAACTGAAGGCACTCTTCTCGCGCTGATTCCTTTTGAGCGGGAAGCGGAATCATATAAAGAGACGCTGCGGAATCGCAGCGAGGAATTCATAGCATCGTGCACGGCATGGTTTTATTGCGACGTGTCGATCTATATTGGGAATGCGGTGTACGGCCATGAAGTGAGCGAAATGGTCGGCCAGTTGGTGCGATGGGACAAAGGCAATGTGACGTTTACGAATAAGGTCTTCGTTTGGGGAAGCAAACAGCGTATCCATGACACCATTAAGATCCCGGACATGAATGCGTGGTCGATCATGCTGAAAGAGGGACAAGGTGTTCAGGTCGTCATCGAGGCCGAGGTTGTTTTGAAAAGCTGGATCGGGACCGAAGGGCCCGGGGCAGAAACGCTTCACCGCTTCCATCACAACTTTCTCCAGATGGTATTTTACGTATTGAAGCTTAAGGGAATCGAGGCTCATCTCCTCTTCGAAAACGAAGCCTCCGAACGATTATACCAACGGGCCGTCCGTTCGGTGTCGGACATGATCCTCTGGGTTAGGCATACCGTCAACACAGCGATGGAATCGATGGGGACGCTGCAGCGAACGGACTCCATCATCGATAAAGTGGAGCAGTTTATTCAGGAACGGATCGAATCGGAAGAGCTTTCACGAGAAACGGTGGCGAACCATGTCTATCTCAATCCCGATTATCTGGATCGTTTGTTCAAGAAAGAGGCCGGGGCATCCGTCACCGAATACATCATGAGGAGGCGTCTGGATCTGGCAAAAGATTTGCTCCTGAAAACCAATTTGCCGATCGGCGCCATCGCTTCGCAAACCGGCTATTCGAATTTCGCCCACTTCTCTAGGAGATTCAAAAAGCAGTTCGGCATGAGCCCTGCCGATTACCGAAAACAAGCTCCCAACGGCTCGATCAAGGAAAAGTCGATTTGA	MLNMMIVDDEKLLTDSLKSDVDWQSLGIEAVFTAYNARQAKEVFEQERVDLILCDIEMPQESGLELLAWVRNNYPQTETVFMTCHAEFKLAQRALKLGSFDYLLKPIPGDELQQVIGKVVEKIMRDQEVQQYSRIGQFWARHQPLLAERLWLDVINHTIPSHPEHIQRAAEERNIPFDRRMRLLPILISVQRYHKTFSPRDEKIIEYALLNSGEEILHVHGNGLLFGLTEGTLLALIPFEREAESYKETLRNRSEEFIASCTAWFYCDVSIYIGNAVYGHEVSEMVGQLVRWDKGNVTFTNKVFVWGSKQRIHDTIKIPDMNAWSIMLKEGQGVQVVIEAEVVLKSWIGTEGPGAETLHRFHHNFLQMVFYVLKLKGIEAHLLFENEASERLYQRAVRSVSDMILWVRHTVNTAMESMGTLQRTDSIIDKVEQFIQERIESEELSRETVANHVYLNPDYLDRLFKKEAGASVTEYIMRRRLDLAKDLLLKTNLPIGAIASQTGYSNFAHFSRRFKKQFGMSPADYRKQAPNGSIKEKSI				NA	NA	NA	NA	NA
AK002_04790	1764			hypothetical protein	ATGAATATCAAGCCAAGGTACCGAGGCCTTAGGCAATTAACGTGGCAGTCGATCCGGGTCAGGATGATTGGAGGACTACTGCTGGTCGTCATGCCATTGATCGGATTTCTGTTGTATTCCAACATATACGCTATCGATGTAGTCCGTAATCAGGTAGCAAGTTCCAACAAGGATTTGCTGGTGCTCTACAGGGATCAAATTGATGCAACACTGAAAGAGGCAGATGATTATCTCATTGAATTAATGATTGGAACGGATCTGAATGAATTGGATTATGCCGTGAATCCGGAAGAACGATTTTTCGCGTCCCAACGCATTGCTGCCAATCTCTCCAGCTCGATTTCACGATATAGCGTCCTGGACGGTCTGTACGTGTACGAGCCTTCCAGCGACAACTATTATTATTCGTTCCAGAGCCGTTCGACGTACGAGGACCGGCAGTATATTAGGTCGCATGTATACGAGACTTTCAAGGCCGGTGCATCCCCTTTGGAATTAAATCGTAAGAAATGGTACGTCCAGAATTACAACGGCCAAACCTACCTTATCCGTCTATTGAAGATGAAAAACGGTACGACAGTAGGCGCTTGGTTGAATGCTCGCTCCTTTCAAACCCCGCTTGAGCTGCTAAGCGTTGGGAATAAAGGAGCCGCCCTCCTAATCGATGACCGAGGAAAAGCGATGGTCAACCAAACCTTTATCGACGATAGCGGTGTGGAGGTGCAGCTCAATCCGCAGTCCTATTATTTAACGGGAACCTCCAGCCGTTATTTGACGGTCGGGGAACACTCGCGGTTGGGCGAGTTCAGCTTGTATGCTTTTATTCCGGAAGAGACGATATTGCAGCACCTGCCCATCTTAAAAACCATTTCTACCCTATTGCCTTTCGGGTCCGTGGTTATTCTGATCATCGGATTGATTTTGCTTCGAAAGTGGCTGCTGGTTCCCATAAACCGACTGCTCAGAGCGATGAATCGGATCGAGCAAGGCCATGTCGACACGCAAATCCGGGAGTATCCAACCTCCATCGAGTTTCGAGCCATGAACGATACGTTCAATAGCATGGTCGGACAAATCAAAAGCCTCCGGATCAACATTTATGAAGAGCAACTGAACAAGCAAAAAGCGGAGCTTCAGCATTTGCAATTGCAGATCAAACCGCATTTTTACATCAATGCCTTGAATATGATACATACGTTGGCCCGCAGAAACGATGTGAGGCGGATTGAGGACATGTCGCTTTATATGGTCCGTTATTTTCGCTACATGTTTCAAAGCAATTTGACGTTCGTTTCGTTAAAGGATGAAATCCAGCATATTCGCAATTATCTGAACATTCAGGAGCTGAGGTTTCCGGGTCAAATTATCCATGAAATTGAGGTGCCGGATTTTCTTCTGCGGACTCCTGTTCCCCCACTGGTTATGCAGACGCTCGTGGAGAATGCGATGAAGCACGCCATATCGCTCGATGAGCCGGTTCGGGTCCAAGTCCGGGTGGAAATGGATGAGTCTCCGGAACGAGGACTCATCATTCAAATTCAAGATACAGGTCCCGGTTTTAAAGAGGGAATGATTGAAAAAATCGCTGCCGATGAACGGATCATCGACGAGGAGGGAGAGCATATCGGCTTCTGGAACTTGAAGCAAAGGCTGCGCCTTCTCTACGGGAATCGGGCAAAGGTGGAGCTGCGAAACGTTCAACCGCACGGAGCCATGGTTGAACTGAGACTTCCCTTCTCACCGGATGGGGGCACCACAGTATAG	MNIKPRYRGLRQLTWQSIRVRMIGGLLLVVMPLIGFLLYSNIYAIDVVRNQVASSNKDLLVLYRDQIDATLKEADDYLIELMIGTDLNELDYAVNPEERFFASQRIAANLSSSISRYSVLDGLYVYEPSSDNYYYSFQSRSTYEDRQYIRSHVYETFKAGASPLELNRKKWYVQNYNGQTYLIRLLKMKNGTTVGAWLNARSFQTPLELLSVGNKGAALLIDDRGKAMVNQTFIDDSGVEVQLNPQSYYLTGTSSRYLTVGEHSRLGEFSLYAFIPEETILQHLPILKTISTLLPFGSVVILIIGLILLRKWLLVPINRLLRAMNRIEQGHVDTQIREYPTSIEFRAMNDTFNSMVGQIKSLRINIYEEQLNKQKAELQHLQLQIKPHFYINALNMIHTLARRNDVRRIEDMSLYMVRYFRYMFQSNLTFVSLKDEIQHIRNYLNIQELRFPGQIIHEIEVPDFLLRTPVPPLVMQTLVENAMKHAISLDEPVRVQVRVEMDESPERGLIIQIQDTGPGFKEGMIEKIAADERIIDEEGEHIGFWNLKQRLRLLYGNRAKVELRNVQPHGAMVELRLPFSPDGGTTV				NA	NA	NA	NA	NA
AK002_04791	1044	yesR_2	COG4225	Unsaturated rhamnogalacturonyl hydrolase YesR	ATGAAACTGAAATTGGAACTCACTTCGGAAGATCTAAAGCAAACCGCGGAGCGCGTTGCAGACTATACGTTCGGCATGGATTTGACATGGGACTGGCCGGGCGGCGTTGCATTCTATGGCGTCAGCCGGCTGCTCGATGTGACGGGTGAGCATGCTTACCTGAAACGGATGATCGATTGGGTGGAGGAATACCTGGAAGCGGGCCTTCCAGAGGGATGGACCGTGAACACCTGTGCAATGGGGCATATGCTGCTCACCCTGTACGAACAGACGAAGGATCAAAAATATCTGGACATTATTTCAAGCAAGATCGATTATTTGGAACATCACGCTCTGCGGTTCGGAGACCGGGTCCTTCAGCATACGGTGTCGGCTAACAATGACTTTCCCGAGCAGTGCTGGGCGGATACCCTGTTCATGGCGGCATACTTGGAGCTTCGGGTCGGCGTGCTGCTTGAGAAGAAGGCACTCATTGACGACGCGCTCCATCAATTCGAAAGGCATATTCATTACCTGCAGGATGAGGATTCCGCTCTGTGGTACCACGGCTACAACCATGTCACAAAAGACCATATGTCCGGCATCCATTGGGCGCGCGCCAACGCATGGGCGGCCTATACGATGTCGCGTGCGGCGCGAGGGCTGCCTGAAGGCTATCTCTATCCTCCCATGATGCATATATGGAGCTCATTGCGCGACCAGCTGGCGGCGATCAAACGGCTGCAGCATGACGACGGCTTGTGGGGGACCGTACTCGATTACCCGGAGGCCTACGGCGAAGTATCCGCGACAGCGGGGATCGCCGCGGCGATGGTCATGCAGGGCAATCCGCTGCATGCGAAATATGTGCGAAAAGCCTTGGATGGCGTTCTTGCCAATATTGCGGATAACGGAAGGGTTCTGAACGTATCCGGAGGTACGGCTGTCATGAACGATATCGAAGGATATCTCGGCATCGACCGAAAGTGGGCGCAAGGATGGGGGCAAGGACTGGCACTTGCGTTCCTGGCAGCCGTCATTGAAGTTGTCGAATCTCAAGCATAG	MKLKLELTSEDLKQTAERVADYTFGMDLTWDWPGGVAFYGVSRLLDVTGEHAYLKRMIDWVEEYLEAGLPEGWTVNTCAMGHMLLTLYEQTKDQKYLDIISSKIDYLEHHALRFGDRVLQHTVSANNDFPEQCWADTLFMAAYLELRVGVLLEKKALIDDALHQFERHIHYLQDEDSALWYHGYNHVTKDHMSGIHWARANAWAAYTMSRAARGLPEGYLYPPMMHIWSSLRDQLAAIKRLQHDDGLWGTVLDYPEAYGEVSATAGIAAAMVMQGNPLHAKYVRKALDGVLANIADNGRVLNVSGGTAVMNDIEGYLGIDRKWAQGWGQGLALAFLAAVIEVVESQA	PGPT0018255_1388	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0018255-yteR|yesR-K15532	NA	NA
AK002_04792	1653			hypothetical protein	ATGGGCAAACGGAAAATCATGTCTATGTTTATGACTTTACTATTCATTGCCGCTCTTATAGCAGGCTGTACGGGGAACAGCACCAATAGCTCGAAGGAGTCTTCTCCATCCGATGAGGGTACCAGCCCAAACCAAAACGCCGCAGGCAGTTATCCCGATTACTCGCAAGGGTTTTCGGAAAAAGTCACAATGGAAATTCCCGTATATGAACGGGCGTTCGAAGGCTGGAACGTAACCGACAACTACTACACGCGCTGGATTCAAAAGGAATTCGGAGACAAATACAACATCGAAGTGAAGTTCACCCCGATCGCCCGCACCAACGAAGTTACGACTTATCAGCAGCTGCTCGCAGCTGGCAAGGCGCCGGATATCATTTTTCACTATGACATGCCGCAGGCGCTTGCTTACTACGGAGAAGGTGTTATGCAGGAGCTGGACTGGAAAGAGATTGAGCACTATGCACCAACCTATTGGAGCAATATGAGCGAGACGATTCAGCAATATGGCGTCGTCGATGGAAAAAACACATTTTTCTTCGGTAAGCGTCCGGACTTAAATAACTATGGCAACTTTGTCAATATCATTCGTAAAGACTGGGTGGAGAAAGTGGGGATGAAGGTTGAGGACTTGACCTCGCTCGAGAAGTACAATGAAATGCTCATGAAATGGAAGGAAGCAGGAATCGGCGTTGCCGGGGCCGGTCTTACACGAAATGTGTTCAACTACAGCTATGGCTTCCGGGATTGGCCGACCGACCCGAAGGTCCACGCACTTTATGCAGATCTATCTGTTGCGGACTTTACGACCGCGGCAACCGAAGGATGGTTGCGTAACTTAAGTTATCAATATCATAATGGACTTATTGACAAAGAGTTCTATCTTCGCGACGATGATAATAAGCTTAAGGCCGAGTTTGTTGCAGGCAATACAGGCACGTACGGACTGTACATTACGAATAACACCGACGTGTTTGAAGCAACACTGAAGAACAATCCGGGAGCTGAATTTGCCGTAATTCCACCAGGGACTGGCGTGCCGGAGGGCAATGTGCCGCAAGGCCGCGCCGACTGGACGTTCGGCTTGATCATGGGCATCAACCATGCATCAACGGCGGAGGAGCGCGCAGCCGTATGGATGTACCTCGAGTGGATGAGCCAACCGGAGAACCTGATGTTCCTGCAGAACGGAGTAGAAGGGGAAAACTATACGCTTGATTCCGATGGCCTGCCGGTAAAAGACCCGGATTTCAAGGGCGAATCCGTACTCTCCCAGAACAATAACAAGGACTATTGGGCACTTATAACGGAAGCGCCTACATTTGAAACACCCGAGCTCACGCTTAAGGCAAACAAAAACAACTGGACGCCTGCCGGTTACGAGCAAATTGTCGAAGACATGATAAAATATCGGCAAGAAATAAAACCGTATCAGATCCAGGATCCGCTGTTCACCGTAGTTCTTGAGAAAGTAAACGAGTATAAGGCGGATTTAAACAACCTCTTCCAGGAGTTGTATCTGGACATTGTCCTTGCGCCGGAAGACCAGTTTGATGCGAAGTACGAAGCAGCCAAGCAGAAATTCCTCGATGCAGGCTATCAAGAGATCTTGGACGAGAAGCAAAAAGCGATCGACGCAGGCCAATTCCGGTAA	MGKRKIMSMFMTLLFIAALIAGCTGNSTNSSKESSPSDEGTSPNQNAAGSYPDYSQGFSEKVTMEIPVYERAFEGWNVTDNYYTRWIQKEFGDKYNIEVKFTPIARTNEVTTYQQLLAAGKAPDIIFHYDMPQALAYYGEGVMQELDWKEIEHYAPTYWSNMSETIQQYGVVDGKNTFFFGKRPDLNNYGNFVNIIRKDWVEKVGMKVEDLTSLEKYNEMLMKWKEAGIGVAGAGLTRNVFNYSYGFRDWPTDPKVHALYADLSVADFTTAATEGWLRNLSYQYHNGLIDKEFYLRDDDNKLKAEFVAGNTGTYGLYITNNTDVFEATLKNNPGAEFAVIPPGTGVPEGNVPQGRADWTFGLIMGINHASTAEERAAVWMYLEWMSQPENLMFLQNGVEGENYTLDSDGLPVKDPDFKGESVLSQNNNKDYWALITEAPTFETPELTLKANKNNWTPAGYEQIVEDMIKYRQEIKPYQIQDPLFTVVLEKVNEYKADLNNLFQELYLDIVLAPEDQFDAKYEAAKQKFLDAGYQEILDEKQKAIDAGQFR	PGPT0017245_1306	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04793	900	melC_16	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGAAAACATCCGTTAGCAGCTATGCCGTTCGCCGCAGCAGGAAACTGGACATATGGGATATCCTGATCCGTCTCTTTCTTATTGCTGCCTCACTTGCTTGTTTGCTTCCATTCGTTCATGTCGTTGCAAAATCTTTAAGCGAAGACGCGTACGTCATTGCTAACAAGGTGTTTCTCTGGCCAGCGGGTTTCACTCTGGAGGCCTATGGCAAAGTTTTCGCTGATCAGAGTATCCTGAAGTCTCTTTATGTAAGCGTTGTTATTACGGTGCTGTTCACCATGATCGGTATGATCGTCACTATTTGTGCAGCATACCCGCTATCGCGAAAGCAGCTTAAGGGCCGTTCATTTTTTACCTTCATCTTTATGTTTACGATGTTTTTTGGCGGCGGCATTATTCCCGAGTATATGCTGATCAACAGCCTGGGGATGCTCGATACGATATGGTCCCTCATCTTGCCGTTGTCCTTTAGCGCGTTCAACCTGCTGATATTGAGGACTTCGATCTCCAGCAATATTCCGGTCAGCCTGGAAGAGTCGGCTCGGATGGATGGGGCGGGGCATTTCCGGATCCTGTTCAGCATCGTACTGCCGCTCTCAAAGCCGATTCTGGCGACATTGTCCCTTTTTTACGCGGTCGGTCGATGGAACGCTTATCAGGATGCCCTATTCTACATTAAGCATAATGTCGATCTGCGGCCATTGCAGTTGAAATTGTATTACCTGGTTGTTCAGGCAAGCGAGAGCTTTCAACTTGAGATGACGCAAGTTTCGCTGAGCAATCCGGAAGTGCTCAAAGCAGCATGCGTTGTATTTGCGACGTTGCCGATCATTTGCGTCTATCCGTTCATTCAGAAGTATTTTGTCCAAGGAGTCATGCTTGGGGCTATCAAGGAATAG	MKTSVSSYAVRRSRKLDIWDILIRLFLIAASLACLLPFVHVVAKSLSEDAYVIANKVFLWPAGFTLEAYGKVFADQSILKSLYVSVVITVLFTMIGMIVTICAAYPLSRKQLKGRSFFTFIFMFTMFFGGGIIPEYMLINSLGMLDTIWSLILPLSFSAFNLLILRTSISSNIPVSLEESARMDGAGHFRILFSIVLPLSKPILATLSLFYAVGRWNAYQDALFYIKHNVDLRPLQLKLYYLVVQASESFQLEMTQVSLSNPEVLKAACVVFATLPIICVYPFIQKYFVQGVMLGAIKE	PGPT0017255_1128	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04794	1092	yteP_61	COG4209	putative multiple-sugar transport system permease YteP	ATGACGAAAATGTATCAATATTCGGCGTTTACCTGCGGACGATCGGGGCGATATGATAAGTCCAACCTCGAGGTCGCCGAACTAGGAAACCGAGTCGGGGAGATCGTGAACGGAGGAGGTGAGATTTTGAAAGGTCTAGTCATTGCATCCAAAAATGAAACCGCTTCAACCTCCTTAACAGATAAGAAACTGGGGATTCTTTATTATCTTCGTCGGGATTGGCAGCTCTACTTCCTGCTCCTCATTCCTCTCTCGTTTGTGTTGGTTTTTAAGTATGCGCCCATGAGCGGTCTCGTGCTTGCATTTAAGGATTTTAAGATTGCCAAGGGATTCTGGGGCAGCGAATGGGTCGGATTCGAAGTGTTTCAAGACATATTCGCTAAATCCGAATTCAGCCGCGCAATTCGCAACACGCTTCTGCTGAATGTGTCGGACCTCTTATTTAGCTTTACAATGCCGATTGTGCTCTCATTGTTACTTAATGAGGTCAAGAATGTTCTATTCAAGCGCGTAAATCAGACCCTGCTCTATTTGCCGCACTTTCTGTCCTGGGTCATTATCGGCGCAATTGCTTATCAATTATTGGGTGAAGGAACCGGCATGATCAATAATTTGATCGCGCATCTGGGGGGGACACGCATCCCGTTCCTTCAAGAAGACGTCAATTGGCTGATCAGTTATGTCTTCATTGGGGTATGGCAGAGCATGGGGTGGGGGACGATCATCTATCTGGCCGCAATAAGCGGCATTAACCCAGAGTTGTATGAAGCGGCGGTCGTGGATGGTGCAGGCCGGTGGCGGAAAATGTGGAACATAACCCTGCCCTCGATCCGAGTCACGATCGTGACATTGCTGATTTTGAATTTGGGCCACGTGATGGCAGGTTCCTTTGAGCGTGTTTTTGCCTTAGCGAATAAGGCAACTACGGAGTATACCACAACGATTCCCGTTTTGGTATATCGCTGGGGCATCGAAGGCGGGAACTTCAGCCGAGCAACCGCTCTCGGGTTGTTCCAGGCTGTCGTGGGGCTCGTCCTTATATTAATTGCTGATCGGGTTGCCAAGAAACTGGGCGAAGACGGTGTCATTTAG	MTKMYQYSAFTCGRSGRYDKSNLEVAELGNRVGEIVNGGGEILKGLVIASKNETASTSLTDKKLGILYYLRRDWQLYFLLLIPLSFVLVFKYAPMSGLVLAFKDFKIAKGFWGSEWVGFEVFQDIFAKSEFSRAIRNTLLLNVSDLLFSFTMPIVLSLLLNEVKNVLFKRVNQTLLYLPHFLSWVIIGAIAYQLLGEGTGMINNLIAHLGGTRIPFLQEDVNWLISYVFIGVWQSMGWGTIIYLAAISGINPELYEAAVVDGAGRWRKMWNITLPSIRVTIVTLLILNLGHVMAGSFERVFALANKATTEYTTTIPVLVYRWGIEGGNFSRATALGLFQAVVGLVLILIADRVAKKLGEDGVI	PGPT0017250_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04795	2271	rhaR_62		HTH-type transcriptional activator RhaR	ATGAAGCGAATACCGATGATGATGCAATTGGCATTGATCCTGTTCTGCATCATGGCCATTCCGATGGCGATATTAACCTGGTATAGCAGCTCTCAAATTCTACGGAATTCAGAGCATGCCTTCGCGGAAACTTCGCTTGCAGAATTAAATGCCAATCGCGAGCTTAACGAGAATGCCTTGAACAATTTGTCCCAGAATACGGTACGGCTTGGCGGCACCGACATCTTCGATCGAATTCGACCGTTCAAGTCCCTTGCCGAACTCAAAACGAATTACATGAATGTGAGCAAAGCGATGGCGGTTCTCAAAGAATTGTTGAATCTGAATCAAAGCGTCGATGGGGCGTATTCGTCTTTCTTTTATCTCGACGATGCGAATTACGTGATTTCGACGGATAAAGGCATTACGAGTTTGGACAAATACGAGTCCATCGACTGGCTGAACGAGGCGCTTATCGAGCAAAAAGGGATACGTGGCGTATGGTATCCGCGCAGGCTTGATTCGGGAGTGAACGTTCTATCGTTCGCGCTGCCTTTAAACCGGCTTTCAACCGCTACTCGCGGAACGATCGTTATCAATTTGAAGGAGGAGCAAATCGAGCAGTATTTGCAATCAACCAAGTCGGGTAAGCAAGGCTATCTGCTCATGAAGCCAAGCGGGGCCATCATCTCACATCATGACAAGAGTTTGTTGCTCAAGAGCGCTTATGGTGAGCCGTTTATTCGCGAAATTATCGAGGAAGAATTGCCAGAAGGGTACACGTTCCGCGAACTTGACGGAGAGCGGTTGCTGTACGCGTGGTCACGCTCGAAAGAATTCGATTGGACTAACGTGAGTATATACTCGGTCGACGAACTAATGAATAAACCGCATTCTATGCAGAGAGGGATCATTTTCCTTACGATTGTCATTATTTTTGCGGGATCCATACTGACCGTTTTTATGGCAACGTGGTTGTCCAAGCCAGCCAGGGAATTGGTCCGAACGATTCGCGGACGCGTCAATCCGGGGGTGCAGGATAAAAATGAGCTTGTATTCCTGGAGGCGGCATTCAGACGAATGCAAGAAGAGGAGGAAGGGCTTTATAAGCTGCTGAGCATCCGCGAGCAGGATGCCCAGAGCCACGCGATTCATGGTTTGTTGCGGGGGGAAGTGACGCCTCAGGCCGAAGAAATCTTCCCGGCCTCGCACTTTCTGGCTGCCGTCGTTTCTATCGATGGCTATCGAAATTATATCAGCCGGAACAATCCGGAAACTCGCAGCTACCATCGCTACCTGCTTCTCTCGAAATGTGATCATTTGTTCCCGAAAGAGGTTTATGCGCGCTGCGTCTATCATGGTGACGGTCACTTTGTAATTCTGATCAACTACAGACAGGAGGAAGATGGCAACCATAGAAAAGGCATTCATAACGCTTTGGATATGATCAGGGACACTGCGGCTGAATTGCTGGGGCACTCCGTAACCATCGGGGTAAGTAGTCCGGCAGATTCGATAGGTATGGTCTCGGGATTGCTTGCAGAGGCATTGGAGGCGATCAAACAGCGGATGATCGCCGGCAGCGGCGGTATAACGTACTGGAAGGAGGAGGAACCGCGGGAGAAAAAATATCTCTATCCCGCTAAAAGCGAAAGACGAATACTCAACTTCCTTGGCAATGCCGATCTGGACAGCATCATCGAAGAACTGAGAATCATTCGCGACGAAATTCGCTCTGCCGAATACGTGTCCTACGATAACATCTTGTTCATCTATCATCAATTGGTCGGCGTGACCATTAAACATCTGAGAGAGAATAATGTCAGCACAGCGCGGATATTCTCGAGACGGGGCAACATTTACGCTGCCTTGGCTTCTTTTGATACGCTTGATGAGCTTGAAGAATATGTTATTGGATTTTACAGCGAGATCGTTCACTACCTTACGTGTTCACCAGTCGCGTCCAACAAATACGCCGAGCGAATCATTCATTATTTGAACGAGCGCTATCGTGAAGAAATCGTTTTTGAAGAGATGGCTAAGGATATCGGAATCAGTTACTCCTATATGCGAAAGATTGTCTACGAACAAACGGGGAAAAGTATATCGGATTATCTTAATTCGCTGCGAATTGAGAAGGCAAAAGAATTGCTTCTGAACAGTCACCTGTCAATCGGGCAGATTGCTTCCGAGGTAGGCTGCATGAATGTTCGAAGCTTCAATCGCTTGTTTCGAAAATTTGAAGGGATGCCGCCGAGCAGCTATAAGATGCAGAGGTCCAGAACATCGTGA	MKRIPMMMQLALILFCIMAIPMAILTWYSSSQILRNSEHAFAETSLAELNANRELNENALNNLSQNTVRLGGTDIFDRIRPFKSLAELKTNYMNVSKAMAVLKELLNLNQSVDGAYSSFFYLDDANYVISTDKGITSLDKYESIDWLNEALIEQKGIRGVWYPRRLDSGVNVLSFALPLNRLSTATRGTIVINLKEEQIEQYLQSTKSGKQGYLLMKPSGAIISHHDKSLLLKSAYGEPFIREIIEEELPEGYTFRELDGERLLYAWSRSKEFDWTNVSIYSVDELMNKPHSMQRGIIFLTIVIIFAGSILTVFMATWLSKPARELVRTIRGRVNPGVQDKNELVFLEAAFRRMQEEEEGLYKLLSIREQDAQSHAIHGLLRGEVTPQAEEIFPASHFLAAVVSIDGYRNYISRNNPETRSYHRYLLLSKCDHLFPKEVYARCVYHGDGHFVILINYRQEEDGNHRKGIHNALDMIRDTAAELLGHSVTIGVSSPADSIGMVSGLLAEALEAIKQRMIAGSGGITYWKEEEPREKKYLYPAKSERRILNFLGNADLDSIIEELRIIRDEIRSAEYVSYDNILFIYHQLVGVTIKHLRENNVSTARIFSRRGNIYAALASFDTLDELEEYVIGFYSEIVHYLTCSPVASNKYAERIIHYLNERYREEIVFEEMAKDIGISYSYMRKIVYEQTGKSISDYLNSLRIEKAKELLLNSHLSIGQIASEVGCMNVRSFNRLFRKFEGMPPSSYKMQRSRTS				NA	NA	NA	NA	NA
AK002_04796	1017	celE_1	COG2730	Cellulase/esterase CelE	ATGTTGGAGTTTAGCTTTGCCAGGCTGATGGGGAGATTTGATCTGACCGAGAGAGAGAGGCCGAAATGCGCCTGGGTCAACAGCGCGGTTTTTCTTGCCTTCCGAGGTACGGCCGTCTCGATGACGGCTGAGGATTCCGATGGCCAGGATTACGTTGAAATTGTGGTGGACGGTGTCGCTCGCAATTGGATCCATTTGAAGAAGGGGGTTCATCAATACATAATCGAACAGGGACTCCCAAAGGGTGAACACACTTTAGAGATCCACAAGCGAACGGGAATCCTGACCGGAAGTATAGCATTTCATCATTTTTCGCTGCCTGATGGCGGAAGCTTCCTTGCCCCGCCCACGGCAAAACCACTCCGGCTTGAGTACTTCGGGGATTCCATCACGGATGGGGCAGGGATCGGCCATCCGCATGTGCTCGCTGAAGCTCCGCATCTTGACGACGGATACATGTCCTTTGTCGGAATCAGCGCCAGAATGTTGAATGCGGAATATCATACGATGGCCATTTGCGGGATCGGCGTTTGGCAGGATGCGCTAGGGAACAAGCAAGGATTGCCGGAACATTTTTCTGGGACGCTCGGCAAAGGGACCGCGTCATGGGACTTTTCCCGGTATACTCCTGATGGAGTCGTCATTAATTTGGGACAGAACGATTATTCGACGCCAATCGATGATGAGGCGTACATTGCCGCTTATATTGAATTCATTCAGGTTATTCTGGAACAATATAACGATCCCTATGTCTTTTGCTGTGTCGGAACCATGAATAACAACTATCTTGCCAGCGTGAATAAGGTTGTGTCCTATTTCAGTCAAAGCGGAAACGGGAAGGTATTCGTGGTTGATCTGGGGTTGATTCATCCCGAGGTGGAAGGATGGGGCGGCCGATATCATCCCGGCTATCAGACGCATTACCGAATGGGCTGGGAGCTTGCCTCTTTTATATCCGCCAAAACCGGATGGGAATTGCTTAAGCGTCCGTCGATCGCCACGGAATGCGTGTTCTGA	MLEFSFARLMGRFDLTERERPKCAWVNSAVFLAFRGTAVSMTAEDSDGQDYVEIVVDGVARNWIHLKKGVHQYIIEQGLPKGEHTLEIHKRTGILTGSIAFHHFSLPDGGSFLAPPTAKPLRLEYFGDSITDGAGIGHPHVLAEAPHLDDGYMSFVGISARMLNAEYHTMAICGIGVWQDALGNKQGLPEHFSGTLGKGTASWDFSRYTPDGVVINLGQNDYSTPIDDEAYIAAYIEFIQVILEQYNDPYVFCCVGTMNNNYLASVNKVVSYFSQSGNGKVFVVDLGLIHPEVEGWGGRYHPGYQTHYRMGWELASFISAKTGWELLKRPSIATECVF				NA	NA	NA	NA	NA
AK002_04797	1062	araR_7	COG1609	Arabinose metabolism transcriptional repressor	GTGAACGAGCCGAAGTACATGACGGTAAAACAAGCGCTGCTGCATCAGATTCAAGTCGGCGAGCTTCGTCCCGGCGATAAACTGCCGAATGAAGAAGATCTTATGAAACAATTTCATGTAAGCGGAATAACGATTCGAAAAGCGATGACGGAACTGGCAAACGAAGGCGCAATCACCCGAATCAAAAGAAAAGGCTCTTTTGTAAACGGAGCTCAAGCCGCGGACCATTCCAGTCACTTGATCGCGTTCATTTTATCGGCAGAGGACAATTACGATGTATCGTATATGAAAATCATCAAAGGCGCGCAGCAAGCGGCAGCCGAATTCAATTACTCCTTAATCGTGGAATGGAGCAATGAAAATTTGGCCGTTGAACAATCATCCATTCAGAAAATGCTGGACCGGAAAGTCGACGGCTTCTTGATTTATCCGTTCGATCCGATCCAGAGTCAGGATAACTACCTAATCATCGAACAAAACAACATCCCCTATCTGTTGGTAGACCGGTACAATGTGGACCATCCCAGCTATTTTTCCGGAAGCAACAACTACGACGGGGCGATCCTGGCCACCCGGGAGCTGATGCGTCTGAAACACACCAAAATAAAGTTTGCAAGCTATCACTTCTTTCTTCACTCCGAGCAGGAGCGGTTCGCCGGCTACTGCAGCGCCATGCGTCAGGCAGGGTTTCCGGTAACCGACGATAACTTGCTGACCCGCGTGGATTATGACGCACTGGCCGACAGTATTTTGAAGCGGAATGTTACCGCTTTGTTTTGCTGCAATGACAAACTTGCCATAGAAATGATCGAGAAGCTCACCGACCGCGGCGTTAGAATTCCGCAGGATGTTTCCATTATGGGATTCGACGATTGGGACCATGCCGGCAACCTATCGATCGGATTGTCTACCGTCCGGCAAGATTTCGAGGAAATCGGCAGAAACGCTGCGAATTTACTCCACCAAGTTATTCAAGGCAAAACTCATGGACGCAACACGAAAATATTGTCAGGTGTTTCGTTGGTGATCCGGGAGTCTATATGCGAGAATCCTTACGCCTAA	MNEPKYMTVKQALLHQIQVGELRPGDKLPNEEDLMKQFHVSGITIRKAMTELANEGAITRIKRKGSFVNGAQAADHSSHLIAFILSAEDNYDVSYMKIIKGAQQAAAEFNYSLIVEWSNENLAVEQSSIQKMLDRKVDGFLIYPFDPIQSQDNYLIIEQNNIPYLLVDRYNVDHPSYFSGSNNYDGAILATRELMRLKHTKIKFASYHFFLHSEQERFAGYCSAMRQAGFPVTDDNLLTRVDYDALADSILKRNVTALFCCNDKLAIEMIEKLTDRGVRIPQDVSIMGFDDWDHAGNLSIGLSTVRQDFEEIGRNAANLLHQVIQGKTHGRNTKILSGVSLVIRESICENPYA	PGPT0017490_516	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_04798	1005	celE_2	COG2730	Cellulase/esterase CelE	ATGAAATTCGACTTTTCGACTTCCAGTCTGAGACACGGGCTCTTTCATCAAGAGCCGGATGGCATCTCCTGTTTTCTTCCCGGCAGTGCCATAACCGTGCGCTTTCATGGACGGGAAATAACGGCCGAGATCGAGGATGTCAACGGAGAAGGGAAAAGCTGGCTCAACGTCTATATCGATGATCTTCCGGTAAGGGTGATGAGAATCGATCCGGATAACCGGCTGTACCAGCTTGCGGACGACCTGGAGGACGCGCCCCATACCTTAACGCTGCAGAAGCGTACGGAAGCGGCATTCGGCAGCATTAAATTTACCGATTTGACGACGGAGAACGGAGCTTTTCTGAGCCCGCCACCCCCTCTTCCCCATCGTCTGCTCATCATCGGCGATTCGATCACGTGCGGCTTCGGCAACGAAGCGCAGATTCCCTGCGACTGCGATGCTTCTCGCGAAAATATCGCGCTTGCTTACAGCTCGCTGACCGGTCAGCTTTTGAATGCCGAAACTTTGATTGTGGGCGCGTCCGGTACGGGATGCTATCAGAATTTCGGCGGTGGCAAGGAAGGCCGCATGTCGGATTATTTCATGGAAACCATCTGTCCTGATCTCGATCAAGAAGCCATGGACCTGTTTCATCCTGAATGGGTTGTCGTTAATCTCGGGACCAACGATTGGTCCGCACCTATCGAGCCTGCGGATTACCTTGAACAATATCGCAAATTGACGGGTTTTATTCGCGATAGATATCCGTCCGTCCCATTGTTCTGCGCAATCGGTCCGATGACCCTCGGTCCCGCTCCCCATTTGAAAGCTCTCGTCAAAAGCCTCAACGAAGAAGGCGACGACAATATTCATTTCGTCGAATTCCCGCTCATTAAACGGCCGGAAGACGGCATGGGAGGCTGCGGACACCCCTCCGTCAAGAAGCATAGGCTAATGGCCGAACACCTGGCCGCGACGATCCGTCAAGTTTGTTCCCTGCCCCCTTTCCCCGGTAGCTGCTAA	MKFDFSTSSLRHGLFHQEPDGISCFLPGSAITVRFHGREITAEIEDVNGEGKSWLNVYIDDLPVRVMRIDPDNRLYQLADDLEDAPHTLTLQKRTEAAFGSIKFTDLTTENGAFLSPPPPLPHRLLIIGDSITCGFGNEAQIPCDCDASRENIALAYSSLTGQLLNAETLIVGASGTGCYQNFGGGKEGRMSDYFMETICPDLDQEAMDLFHPEWVVVNLGTNDWSAPIEPADYLEQYRKLTGFIRDRYPSVPLFCAIGPMTLGPAPHLKALVKSLNEEGDDNIHFVEFPLIKRPEDGMGGCGHPSVKKHRLMAEHLAATIRQVCSLPPFPGSC				NA	NA	NA	NA	NA
AK002_04799	1539			hypothetical protein	ATGGCCAAATCAAAACGCAAATTCTTGGTGACGGCGCTGCTCGGACTGGCCATCGCTTTGTCCGGGTGCTCCGGATCCGGCGGGGGCGTCTCCGCGCCGGGCGATTCCGGGGGAAACGGCGCCCAGTCCCTTGAACCGGTCACTTTGGAGGTTGTCATTCCGGGGGCCAAGGGGGCTAACTATGACGAGGTGCTGGCTGAAGTCAACAAGCGATTAAAAGCCGAAATCAACACGCAGGTTAAATTTACCTTTGTCGACTTTGCCGATCTAAATCAGAAGACCAATGTCATGCTGGCTTCGGGAGAGAATGTGGATTTGATGTTTGATGCCCCGTGGCTGCATTTGGACACGATGGCTTCCCAGGGCTATTACGAAGAAATAAGCGAACTGCTGGACCAATACGGCCCTAATGTGAAAAAGACGAGGCCGCAACAAATGTGGGACGCGAACAAAATTAACGGTAATATCTACGGCGTTCCCTTGGGAAGCGCCTATACCCAACAGAGATCGATCTTCATCCGAAAGGACCTGAGGGAGCAGTTAAACTTGCCGCCCGTAAAGACGTATGAGGATCTAAAAGCTTATCTTTACGCCGTTCGTGACAGTAACTCCGGCATCACTCCGCTCCTCGCGGGCGCAGACGACGTCACCTACAGCTGGGTCAACTGGCTGATCAGGGACGATACCAGCGTCAACATTCGTCCAACGAATTTTGCTGGAGCCAGCTTGATGCTGTATTACAAGGGTAACGATGGCAAGGTCTATAACTTCTTTGAAACCCAGGAACCAAAGATCTGGTCCGGCATCCAGGATGTCCGCCAGCTGTTCGTTGACAAAGTCATGTCGCAGGACGTCTTGACGAATAAAAGCAGTCCGGGAGACATGCAGCTCCAGAACAAAGTCGCGGCCACGCCCCAAATGGCTTTTGGCATTCCCAAAACGTACAACGACCAGTTGAAGCAGGTCGTACCCGATGGAGAGCTGGAAGCGGTTCGTCTATTCGATCTGACCCCTGGAAAGAACTTATCCAATTTCAAGATGGATAATTACATCTGTATTGTAAAGACGAGCAAACATAAAGACCGTGCGATGATGTTCCTCGATTGGGCCAACCGGCAGGAGAATTATGATTTGTTGGAGCACGGCATCGAAGGCGTGAACTGGAAATCGGTCGGCGAGCATCAATATGACACGCTGAACAACGATGGCGGCATTGTCTCGTTCCAGCTCATGTTGAATCCTGCGTTAGAACGGGAGTGGGCCGGTATCGACAAAGAGACCCGAGAGTATAGTCAATTCATTACGCAAGCCGACAACTTCACGAAGGATATCATGACCGGCTTCACTTTCGATCCGACGCCGGTGAAGAACGAAGTGGCCCAGTTCGCGACCATTCAAGCCAAATATTATAGCGGATTATTTAACGGCGCGCTTGATCCGGACGAATACTTCGCCAGATTCAAAACGGAAGGCGAAGCGGTGCTGAAGCAAATCCAGACTGAACTGCAGAATCAGGTAGATGCCTTCTTGGCAAAATAA	MAKSKRKFLVTALLGLAIALSGCSGSGGGVSAPGDSGGNGAQSLEPVTLEVVIPGAKGANYDEVLAEVNKRLKAEINTQVKFTFVDFADLNQKTNVMLASGENVDLMFDAPWLHLDTMASQGYYEEISELLDQYGPNVKKTRPQQMWDANKINGNIYGVPLGSAYTQQRSIFIRKDLREQLNLPPVKTYEDLKAYLYAVRDSNSGITPLLAGADDVTYSWVNWLIRDDTSVNIRPTNFAGASLMLYYKGNDGKVYNFFETQEPKIWSGIQDVRQLFVDKVMSQDVLTNKSSPGDMQLQNKVAATPQMAFGIPKTYNDQLKQVVPDGELEAVRLFDLTPGKNLSNFKMDNYICIVKTSKHKDRAMMFLDWANRQENYDLLEHGIEGVNWKSVGEHQYDTLNNDGGIVSFQLMLNPALEREWAGIDKETREYSQFITQADNFTKDIMTGFTFDPTPVKNEVAQFATIQAKYYSGLFNGALDPDEYFARFKTEGEAVLKQIQTELQNQVDAFLAK	PGPT0017245_2796	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04800	912	araQ_52	COG0395	L-arabinose transport system permease protein AraQ	ATGAATCGTCCGGTTGCTCTGATCCCGCCCCCACGAGTCCGACGGACAAACGGGTTCTCCGATAAAATGGCGGTGTTCTTGTTCGGACTGTTTTTGATTTTGTTTGCGCTGGTTTGCTTGTTTCCTTTTTGGCTGATGGTCATCAATTCATTCTCCAGTACCCGAAGCTTGGCGGTGAACGGATACTCCATATGGCCGGATGAATTTACGCTGGAGTCGTATCGCTTCCTCCTTCAGGGCAAGCAAATGTTTACCAGCTATGGCATCACTATTGCGGTTACAGCCATCGGAACCGTATTCGGCCTTGTTGTCACCGCGTTGTTTGCTTACGTGCTGGCCCATCCGAAGAACCGATACGGCGGCTTACTCTCGTTCATGACCTACGTGCCGATGGTCTTCGGCTCTGGGCTCGTCGGCTTCTATCTTCTGGTCGTCCAATGGCTGCATCTGAAAGATACGCTGTGGGCGCTTGTGCTCCCTTACGTCATGAATCCGTTCTTTGCATTCATCTTAGTCTCGTTCTATCGCTCGTTGCCTTATGAGCTGAACGAATCGGCTAACATGGACGGTGCCGGAGAGTGGACGATCTTCTTCAAAATTATCCGGCCGATCTCAACGCCGGTTATGGCGACGATCAGCTTGTTCTATGCGCTGCAATATTGGAACGATTGGTGGCTGTCGCTTCTGTTTATCGATAACAGCGATATGTACCCGCTCCAGCTGCTTCTTCGGCAGCTCATGTCACAGATGCAGCTCACGTCGCTCAATCACGGCAATGTGCTGACGCTGCCGCCGGCGGAAGGGGTTAAGTTGGCAACGGTATGCCTGACGATCGGCCCGATTATACTCGTCTATCCGATGGTCCAGAAGTATTTCGTCAAAGGTCTGACCCTCGGCTCGGTGAAAGGTTAA	MNRPVALIPPPRVRRTNGFSDKMAVFLFGLFLILFALVCLFPFWLMVINSFSSTRSLAVNGYSIWPDEFTLESYRFLLQGKQMFTSYGITIAVTAIGTVFGLVVTALFAYVLAHPKNRYGGLLSFMTYVPMVFGSGLVGFYLLVVQWLHLKDTLWALVLPYVMNPFFAFILVSFYRSLPYELNESANMDGAGEWTIFFKIIRPISTPVMATISLFYALQYWNDWWLSLLFIDNSDMYPLQLLLRQLMSQMQLTSLNHGNVLTLPPAEGVKLATVCLTIGPIILVYPMVQKYFVKGLTLGSVKG	PGPT0017255_751	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04801	912	yteP_62	COG4209	putative multiple-sugar transport system permease YteP	TTGAGAATGTTTAGGGATCTTGTAAAGAACCGGGGCTTGTATTCGATGGCGATACCGGGAGTCATCTTTCTCGTTGTCTTCTCTTATATTCCTCTGTCCGGGCATCTGCTAGCGTTCAAAGACTTTCAGATCAGCAAAGGCATATGGGGTAGTGATTGGGTGGGGTTGGATAATTTTCGCTTCTTTTTCTCCAATCGGGATTGGATTCAAGTTACGGTCAATACGGTTTATTTAAATGCGCTGTTTATTATTTTCGAGATGGTTTTTGCGCTTCTCATTGCGCTCTTCTTGAATGAGATTCGCTTGAAATGGTTTAAACGTACGATCCAATCCGTCGTCTTCCTGCCTTACTTCATTTCCTGGGTCGTCGTAGGGTATATGACATTCATTCTATTCAACAACACGGACGGTCTGATTAACCGCGTGCTGAGCATGAGCGGACTTCAAGCCGTCGATTGGTACCAGACCCCGTGGGTGTGGCCGATTATTCTAACCTTAACGCGAATCTGGAAAAGTGCCGGTTACTACTCGATTATTCTGCTCGCTGCCATAACCGGGTTCTCCACCGACTATTATGAGAGCGCCCGCCTGGACGGAGCCACGAGGCTGCAGCAGATGAAACACATTACGCTGCCTTTGCTGAAGCCGCAAATCATCATTCTCGTCCTCTTGGGAGTCGGACGGATCTTCTACGGGGATTTCGGCATGATCTACGGAATTATCGGAGACAACGGGATTCTATTCCCGACGACCGATGTCATCGATACATACTCCTATCGGGCGTTAAGACAGCTTGGTAATTTCAGCATGTCATCGGCTATCGTATTCTATCAGTCTATTATGGGGCTAATCGCCGTCGTTTCGTTTAATGCGCTGGTTCGGAAAATCGATAAAGACTCCAGATTATTTTAA	MRMFRDLVKNRGLYSMAIPGVIFLVVFSYIPLSGHLLAFKDFQISKGIWGSDWVGLDNFRFFFSNRDWIQVTVNTVYLNALFIIFEMVFALLIALFLNEIRLKWFKRTIQSVVFLPYFISWVVVGYMTFILFNNTDGLINRVLSMSGLQAVDWYQTPWVWPIILTLTRIWKSAGYYSIILLAAITGFSTDYYESARLDGATRLQQMKHITLPLLKPQIIILVLLGVGRIFYGDFGMIYGIIGDNGILFPTTDVIDTYSYRALRQLGNFSMSSAIVFYQSIMGLIAVVSFNALVRKIDKDSRLF	PGPT0017250_280	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04802	2292	yesS_11	COG2207	HTH-type transcriptional regulator YesS	ATGAAGATCAAACCTATTTTACAGAAGACCTATTTTCGAACCTTTCTTTTAATGACCACCGTTCTGATCTGTTCCATTATTCCTTTCGTCTATTTACTGTCTGCGGAATTCGCAAAATACACCATGCTGGAGGTTCGCAGCAATTCGCAGAACGAAGTCAACAACCTGGCGTCGAAGGCCGAAATGATTCTCGGCAATTTGAAAGCTAACGGGCTCAGCATGTACGCCGATCAGAATATTCAGAACTGGTTCTTCAATACAAGCAACGATCCGCTCATCAACCATGCTGCACTCGTCGCCCAATCCAATTTCATGTCCACCGAACCGCTCATCCAGCGATCCTATCTGATTAATCTGAAGCACGATCTTATCGTCGATTCCAAAGCCGGAATCGTCCGCAATGAATCCTTTGCCGACCAGCGCATGCTGGAGCGCGTGGAGTCATTCCACCCCCAATACTTGCGTTTCTTTAATCATTCGCTGGATGGCTTGGACTCCCTGGCCCTTATTCTGCCTGCAACCCCCGAGAAGCCGTCTGACTATTATCTCGTGCTGCTCGTTGATAAACCGCTGCTGTCGAAGCTTCTGTTCGGCCAAACGGTCTCCTCGGAGCAAGACATTCGGATTCTCGACGAGCATGGGCAACTTCTATTGGGTGTACCTAATCCCGCGCTGAGCGGACAGCTTTATCAAGCGAGCCGGGAGCGGCAGGACAGCGATTTTCAAGTTCGGCTCCCCCATCAGAGATGGTTCGTCAATACAGCCAAGCTGACTACTGAAAATTGGTCGGTATACTATTCGAATGAGTATCATATTTTGACACGCCATATCTCCTTATTCCAGCAAAAATTGATAACGTATACATTGCTGCTATTGGCACTCCTCTCCTTGTTGTTCTACTGGAGTTCTCGCCGTTCCTTGCGCTCCATCACCTTCTTGTCGGAAAAGCTGAAGGGAAAGGTTGCATTCGCAAACGCCACGTCCGATGCCAAGCCGGATATCCAATGGATCCATGACGGCATCGATATGCTGCTGAACAATGTGGAACAACTTCATGCATCCATGAGAAACCAATCCGAGCTCGTTCGAACGGAGTTTCTCGCCCAGTGGATGCTCCACGGGACACCGGGTACCAAGAGCTACGAATATATTCAGACCAGGACCAAACTGGCCTCCTGTGAAGCTCTGTTTTTGGCCGTCCTCCGGATCGAAGCCTATACGGTCTTTTGCGAACGTTACGATTTCCCCTCCCGGAAATTGATCAAGTACGCCATACGCAATATTAGCGAAGAAGTGATTGGCGCAGGTTCTTATGCGGCCGAAGGCTTGGATATGGGCGGAGACCATATCATTCTGGTCATTGGAGGCTATGCATCCGGCGGGCTTCAACTACAACGTCTTCTGGAGGAGACGCAGAATCAGGTGGCACGTATCCTGAACGTGGATACAACCGCCGCAGTCAGCAATGCCTATGATTTTAGCGCCAATATCCGAAACATTTATGATCATATCTACGAATTGACGAAACTGCGATTTCTTAACGGAGAGAAGCAAATTTTTCTGGAGAGCGATTATGAAGAGTTTATGGCAGGGTATCCTTCTGCGTCTGAGGCGCTTGAGACAGCGGAGATCATCAAGTCGATCCGCCGCGGCCGTCCGGAGACCGCGCTCGCTACGCTGCGTCAGCAGATGAAGCACGTCCATGAGCTTCCTTATCGCGACTGCAAGCTTAACCTGACCTACTTTACCTATGATTTGCTCAAGAACTTCAACAAGTCCAGCGTCCTGCATGAGATCAGCAGCATTCATCAATTACTCGAGCGGTACAGCACGTTGTCCGAGTTTCAAGCATGGCTGGAGAGCATCGTCACGATGCTCGCGTCCGAGACCGAAGTTCCGAAATCTTCAAGCCGCAAGGAAGAAATCGTCCTGGAGATCAAAGAGTACGTGGACAACCACTTGCAGGATGCGCAACTGTCGATCGAGCAGGTAGCCGACAATTTTTCCTTTTCTGTGAGCTATATCCGGCAGCTTTTTAAAGAGATCATGAACGTATCATTGTCCGAGTACATCCTTCAGGAACGAATCGAGAAAGTGAAGGAGAAACTGATATCCAGCCAGTTCTCGGTGCTGGAGATCGCAGATCAATGCGGCTTCATATCCAAAGGCCATTTTTTCTCCGCATTCAAGAAGTTCACGAATCTTACTCCGAAGCAGTATCGGGAAATCCACGGGGACTCCGCCGGTAAAGATATCGTTCCTCCCAGCTTATCATGGAGAAGCGGCAGCTAG	MKIKPILQKTYFRTFLLMTTVLICSIIPFVYLLSAEFAKYTMLEVRSNSQNEVNNLASKAEMILGNLKANGLSMYADQNIQNWFFNTSNDPLINHAALVAQSNFMSTEPLIQRSYLINLKHDLIVDSKAGIVRNESFADQRMLERVESFHPQYLRFFNHSLDGLDSLALILPATPEKPSDYYLVLLVDKPLLSKLLFGQTVSSEQDIRILDEHGQLLLGVPNPALSGQLYQASRERQDSDFQVRLPHQRWFVNTAKLTTENWSVYYSNEYHILTRHISLFQQKLITYTLLLLALLSLLFYWSSRRSLRSITFLSEKLKGKVAFANATSDAKPDIQWIHDGIDMLLNNVEQLHASMRNQSELVRTEFLAQWMLHGTPGTKSYEYIQTRTKLASCEALFLAVLRIEAYTVFCERYDFPSRKLIKYAIRNISEEVIGAGSYAAEGLDMGGDHIILVIGGYASGGLQLQRLLEETQNQVARILNVDTTAAVSNAYDFSANIRNIYDHIYELTKLRFLNGEKQIFLESDYEEFMAGYPSASEALETAEIIKSIRRGRPETALATLRQQMKHVHELPYRDCKLNLTYFTYDLLKNFNKSSVLHEISSIHQLLERYSTLSEFQAWLESIVTMLASETEVPKSSSRKEEIVLEIKEYVDNHLQDAQLSIEQVADNFSFSVSYIRQLFKEIMNVSLSEYILQERIEKVKEKLISSQFSVLEIADQCGFISKGHFFSAFKKFTNLTPKQYREIHGDSAGKDIVPPSLSWRSGS				NA	NA	NA	NA	NA
AK002_04803	1626			hypothetical protein	ATGAAAATGAAACAGTGGAAACGTGCGGGGATATGGACTTGCATCCTGCTGATGGCCATGACGGCCCCGGGCGCCGCGATGGCAGCGCAGGCTGCCGGAAGCAGCGCCGAGCAGAATGCGAGCAGCGAGAAGATAAAGGTCAAGGAGCCTTTCATGATCAAGGTCGTGGATGCCGAGACAGGCAGGGGCATTCCTCATGTCCAACTGAAGACGACGAACAGTGTGCTGTATTATACGGACAGTGCCGGTATTGTGGCATTCGACGAGCCAGGTCTGATGGATCAGACGGTCTTCTTCCATATGTCGAGCGACGGCTACGACATTCCTGCCGATATGTTTGGCAACCGGGGGCAGGCTGTAGAGGTTAAGCCAAAGGGCAGTGTAACGCTCGAGATGAATCGGATCAACATTGCAGAGCGGCTGTACCGGCTGACAGGCCAAGGCATTTATCGCGACAGCTTACTCGTTGGCCAGAAGCCTCCCATTAAGGAGCCGCTGATCAACGGTCTGGTCATGGGGCAGGATTCCGTGCAGACGATTGAGTACAACGATAAGCTGTACTGGTTCTGGGGCGATACGGATAGACCGGCCTATCCGTTGGGGAACTTCCGGGTGACGGGTGCGACTTCCAAGCTTCCGAGTAAGGGGGGGCTGGACCCGGATGTCGGCGTTAATCTGGACTATTTTACGAATCAGGACGGTTTCGTCAAAAGCTTGGTGCCGCCTCTGCCTGACGGTGCAGGCATAGCCTGGGTATTCGGTCTGATGACCGCCAAAGATAGCACTGGACAGGAGCGTCTGCTCGCCGGCTACAGCACGCACAATCCTGAACCCACCGCCTTCGGTATTCTCGTCTTTAACGACACCACGAAGGAGTTCGAGCAGGTCGTCCAGTTCCCTTCGAAAGACGATTGGCGCCATCCGGGCGGACAGGCGACCTACTACGAGGAGGGTGGGAAGGGATACTGGCTCTTTACCGAACACCGAATTCCGAATTTGCGCGTTGCTGCCAGCTATGACGCCATTATCGACTATACCCAATACGAATCGTTTACGTGCCTAACGCCGGGAACGACATACAACGGGGCTCAAACCTCGCTGGAACGCGACGCGGACGGCAAGCTCGTATGGGGCTGGAAAAAGGACACTCAGCCGCTCAACCAAGAACAAGAGAAAGAGCTGATCCAGTTAGGCCTGATCAAAACTGACGACCCGCATTATTATCAATTGAAGGATATCGATACTGGTGAAGACGTTCAAATCGCCCAAAGCTCCATAGAATGGAATGAATATCGGCAGCGTTACGTGATGATCGCGCAGCAGGTACTAGGCAAGACATCGGTACTTGGGGAAGTCTGGTACGCGGAAGCGCCATCGCCTCAAGGTCCTTGGACCAATGCCAAGCATATCGTTACGCATAACGACTATACTTTTTATAACGTAGCCCAGCATGAATACTTCAGCAAGGATGGCGGCCGGGTCATCTACTTCGAAGGAACCTATACGAATACTTTCACGAATCATGTTCCAACCCCGCGGTATAACTACAATCAGGTCATGTATAAACTCGACTTGGCGAATCCGAAGCTAGGGCTTGAGCCGGTTCAAGAAACGACCGGTAAATAG	MKMKQWKRAGIWTCILLMAMTAPGAAMAAQAAGSSAEQNASSEKIKVKEPFMIKVVDAETGRGIPHVQLKTTNSVLYYTDSAGIVAFDEPGLMDQTVFFHMSSDGYDIPADMFGNRGQAVEVKPKGSVTLEMNRINIAERLYRLTGQGIYRDSLLVGQKPPIKEPLINGLVMGQDSVQTIEYNDKLYWFWGDTDRPAYPLGNFRVTGATSKLPSKGGLDPDVGVNLDYFTNQDGFVKSLVPPLPDGAGIAWVFGLMTAKDSTGQERLLAGYSTHNPEPTAFGILVFNDTTKEFEQVVQFPSKDDWRHPGGQATYYEEGGKGYWLFTEHRIPNLRVAASYDAIIDYTQYESFTCLTPGTTYNGAQTSLERDADGKLVWGWKKDTQPLNQEQEKELIQLGLIKTDDPHYYQLKDIDTGEDVQIAQSSIEWNEYRQRYVMIAQQVLGKTSVLGEVWYAEAPSPQGPWTNAKHIVTHNDYTFYNVAQHEYFSKDGGRVIYFEGTYTNTFTNHVPTPRYNYNQVMYKLDLANPKLGLEPVQETTGK				NA	NA	NA	NA	NA
AK002_04804	138			hypothetical protein	ATGAAGCTAAGAGAAGGGGGGCGCCTGGTCATGATCGGCGGCTCGATCACGGTCTGTGAGCGTAAGTATCCATACGGGAGTCAATCGGGTTCGATTGGTCGCGCATGCGAATGGGCTCCTGACGTCTACTGTCCTTAG	MKLREGGRLVMIGGSITVCERKYPYGSQSGSIGRACEWAPDVYCP				NA	NA	NA	NA	NA
AK002_04805	3051			hypothetical protein	TTGAGTGAAAAAAAAGAGATTTTATTCCATGTGGAAAAGCTGCTAAACAAAAGAGATTCATTTATGATAACGAAGCTTTCTTCTATAGAATTTTCCGGTTTTACGACAATGGAACAATTGTTCATTCATGAAATGGATGGACAACCGTTTGAGAGTTTCGCTCCGGGTCTGCGGTGGGGAGAAAATTGGGGCTACGGCTGGTTCCGCTCGAACATTATCGTTCCCGAAGAGGCCGAAGGCAAACGGCTTGTGGCCATGCTTGATTTCGGATCCGAAGCGACCGTATACATAAACGGTGTCGTGAGCGGCGCAAAGGACCTTAACCATCATTACGTAACTTTAACCCGTTCGGCAAAAGCCGGCGAGCCATTTGAAATCGTCGCGGAGGCGTACGCCGGCCATTCGGATTCCAGGCCGACGTTCGGAGAGTCGCAGCTCTGCGTTTTTGAAGAGGAAGTCTACCAGTTTTTCATCGATTTGGAATGCTTGTACGATCTTCGCAATCATCTGGATGCCAAATCCCTCCGCGTGGCGGAGATTGATCGTTGCCTGACTCAGGTGTTCGCGACGATCGACCTGACCCTCCGGCAGGAATCGCTTGGTGAGAACGCTAAGCAGTGTCGGAAGTTGATGGAGCCCTTATTGGCCTGCGTGAACGGTTCGACGGCGCCGACCCTGTACCTGATGGGACAGTCCCACCTGGATGTCGCCTGGCTGTGGCCGATCGCGGAGACAAAGCGGAAGATTGCGCGGACCATGTCCAATCAGCTGGCGCTCATGGACGAATATCCGGAATATACTTACACCCAGAGCCAGCCGTATTTGTTTCAGTTGGTCAAGACGCTGTATCCGGAGCTGTATGAGCGAATCAAACAGGCAGTGAAGGAAGGGAGAATCGTTCCCGAAGGCTCCATGTGGGTGGAGCCCGATACGAATCTGCCAAGCGGCGAGAGCCTGATCCGTCAGGCGCTGCACGGCAAGCGTTTCTTCAAGGGCGAATTCGGCGTGGACAACGAGATGCTGTGGCTGCCTGACGTATTCGGCTATTCCGGGAACCTGCCGCAAATCATGAAAGGCTGCGGGATCCATTATTTTGCGTCTACAAAATTGTTCGGTACTTATGATAATGTAGCGGACCCGTTCCCGCATAATACGTTCATGTGGGAAGGGATCGACGGTTCGCGAATTTTGACGCATCTGATGAACTACGGCGATTACTATCCAATTCGGATCAACCCGTCGTTCTTGATCCATCAGTGGAGCGATCGCGTCCAGCTTGAGGGAATTTCCTCGCGGCTCACGCAGTTCGGACACGGCGACGGGGGCGGCGGCTCCAATCGGGATGATCTCGAATTTATGCGCAGGCTCGCCAATTTGGAAGGCGTCCCCAAGACGAAACATGGCTCGCCGATCGAATTTTTTGAGGATCAAATCGAAAAAGGCATTCCTGAAGCCAAATATGTAGGAGAGCTCTACTACCCCGCTCACCGCGGGACGTATACGACGCAAGCGATCATCAAAAAGCTGAACCGGAAGGCGGAAATCGGTTTCCGCGAGGCGGAGCTGTGGGGGGCTGCGGCGGAGCTGCTTAGTAACCGGGCTTACCCTTACGAGGACTTGGAACGGTTGTGGAAGACCCTGCTGCTGCACCAGTTCCACGATATTCTGCCGGGCTCCTCCATCCATCGCGTCCATGAAGAGGCACAGATTGAGCTGAAGAAATTGAATGAGAACGTGTACGACTTGGCTTCGGATACAAGGGATGCGCTCACGGACGGCGATGCCTCCCGGGTTACCGTCTTTAATTCGCTGTCCTGGCCGAGAAAGGAACTGGTCGCGTTGCCTGTCCGCGTTCATGGCATTGCGGAGGAGAACGGAGCAATTCTGCCGGTGCAACTGCACGAAGGCGTTCGCTATGCCGAGGTAGAGGTGCCTTCCATGGGCTGGTCGACGTACAGGGCTGAAGAAGCGGAAGCGACGGGCGCTCCAGCAGCGTCGGCAGTCCTTGCGACGGAATCGCGTCTGGAGAACGAATGGATTGCGCTAGAAATAAACAAACGGGGCGAGTTAACGACTATTTTTGACAAGGAGACCGGCACGGAATGGGCGGCGGATCGCTGCAACGTCATGCGGATGTATCGGGATCAGAATTCGGATTTTGATGCTTGGGAGATCGATCGGCGCTACCGCTTGGCACCCGTTGAGCTGAATGCGAGCGCCAAAGTATCCGTTACGGCGAACGGCCCGCTCTTCGCGAATATTCGGGTTGAGCGCGAACTGAACCAATCGACCCTGATCCAGGATATCCGGCTTTGTGCCGGCAGCCGCCGGGTGGAATTCCATACGACGGTTCACTGGCGCGAGAAGAATAAGCTGCTAAAAGTCGATTTCCCTGTTTGCGTTCACACAAACGAGTCGTTGCAGGAAATTCAGTTCGGTTACGTCAAGCGGCCGAATCATGCTTCGCGTCCGCATGATGCGGATCGTTACGAAGTGGTTCAGCATAAATGGTCGGCGCTTGCGGAGACAAACCGCGGCTTTGCGCTGCTGAACGATTGCAAATACGGGATTTCTGTCAACGACAATACGATGAGTTTAACGCTGCTTCGGGCTCCGACGTGGCCGGATGAGACGTCCGATCAAGGGACGCACCATTTTACATATGGATTTACGTTCTGGAACGGCTCGTTCCTGGATAGTCCTGTCGTGCGGGAAGCTTACGAGCTGAACTATCCTGTCAGCCTCGTTTCCGGAGGAGGCCGGGAGGCGCAATCGTTGCTCTCTATCGATCAAGCCAATGTGATCGCGGAGACGGTCAAGCTTGCCGAAGACGGATCGGGCGATTGGATCGTGCGTCTGTATGAGAGCAAGGGAGCTTCCGTAGCGTGCGGGCTTCACTTCGGGCTGTCCGTTGCGGCGGTTTATGAGACCAATATGCTGGAGGAGAAGTTGGCGGCTTTGCCGCACGAGGGCGAAGAGGTATCGCTTCAGTTCCGTCCGTTCGAGGTGAAGACGATCAAGCTCCGGCCGAGTGGGAGGAATAGGGGATGA	MSEKKEILFHVEKLLNKRDSFMITKLSSIEFSGFTTMEQLFIHEMDGQPFESFAPGLRWGENWGYGWFRSNIIVPEEAEGKRLVAMLDFGSEATVYINGVVSGAKDLNHHYVTLTRSAKAGEPFEIVAEAYAGHSDSRPTFGESQLCVFEEEVYQFFIDLECLYDLRNHLDAKSLRVAEIDRCLTQVFATIDLTLRQESLGENAKQCRKLMEPLLACVNGSTAPTLYLMGQSHLDVAWLWPIAETKRKIARTMSNQLALMDEYPEYTYTQSQPYLFQLVKTLYPELYERIKQAVKEGRIVPEGSMWVEPDTNLPSGESLIRQALHGKRFFKGEFGVDNEMLWLPDVFGYSGNLPQIMKGCGIHYFASTKLFGTYDNVADPFPHNTFMWEGIDGSRILTHLMNYGDYYPIRINPSFLIHQWSDRVQLEGISSRLTQFGHGDGGGGSNRDDLEFMRRLANLEGVPKTKHGSPIEFFEDQIEKGIPEAKYVGELYYPAHRGTYTTQAIIKKLNRKAEIGFREAELWGAAAELLSNRAYPYEDLERLWKTLLLHQFHDILPGSSIHRVHEEAQIELKKLNENVYDLASDTRDALTDGDASRVTVFNSLSWPRKELVALPVRVHGIAEENGAILPVQLHEGVRYAEVEVPSMGWSTYRAEEAEATGAPAASAVLATESRLENEWIALEINKRGELTTIFDKETGTEWAADRCNVMRMYRDQNSDFDAWEIDRRYRLAPVELNASAKVSVTANGPLFANIRVERELNQSTLIQDIRLCAGSRRVEFHTTVHWREKNKLLKVDFPVCVHTNESLQEIQFGYVKRPNHASRPHDADRYEVVQHKWSALAETNRGFALLNDCKYGISVNDNTMSLTLLRAPTWPDETSDQGTHHFTYGFTFWNGSFLDSPVVREAYELNYPVSLVSGGGREAQSLLSIDQANVIAETVKLAEDGSGDWIVRLYESKGASVACGLHFGLSVAAVYETNMLEEKLAALPHEGEEVSLQFRPFEVKTIKLRPSGRNRG	PGPT0018760_1171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-MANNOSIDASE,PGPT0018760-mngB|ypdB|manA-K01191	NA	NA
AK002_04806	1626			hypothetical protein	ATGAACAAATTGGCAAAGATGCTTGTCCTCGGACTGGCTTTACTGATGGTTTTTTCCGGATGTTCGAATAATTCCAAAAAAACCGATACCCATGAAGAGAATCAAGAAGTCATGCGTTTTTCGGTCACCCTGCCTGCGAACGGTGTGGATAATCCGAACAGCCTGGTAGGCAAGGAATGGCATAAACGCATGGAAGCTTATATGGGCAAGAAGGTAGAAATTGAATATAACTATATTCCGTCTTCCGAATATGACGAGAAGGTCAAACTTATGATCGCAAGCGACGATCTGACGGATTTCTTCGTGACGCCTTTGTTCTATGATACGACCGAAATGGCCGAACAAGGCCAGCTTCTCGAGTTAGGCCAGTATCAAGATTTGATGCCGAACTATATGAACTACATTGGCAAGGTAAAAAACGGGATGAAGCGGGTAACGGATGCCGACGGCAACATGTACACCTTTAAAGAAACCTCTACGCCTAGATTCCCCGAGGATCGCGGGATGCTCATCCAGAATACGTCTGCCTACCGCTATGACGTGTTCGAAGCCAATAACATCAAAATTCCGGAAACGCTCGATGAATTTTATGGGGCTGCCAAAAAACTTAAAGAGCTCTACCCCGACAAATATCCCGTTGCGACCAAATGGAATAGCTTGAGATCTCTGTTCTCCGCGAACCATATCCGGGATGAAATTTTCTGGGACGGCGAGAAATACGTATACGGAGTTCTGGATGAAGGATATAAAGATGCGCTCCAATTTGCAAATAAGCTGTATGCGGAGAAGCTGTTAGATCCGGAGTATACGATTGATACAGACGATACGCTGAAAAGAAAAGCGCTGAACGGCGACAACCTCATGTGGCTGACGCAGTGGTTTACGACGCCGGCCGAGTATACGAGAACGGCCGACGATGGGAAGATTTTCGCGGTTTCGTTGTATCCCGACAATCCGAAGTACGGGAAAGCCTGGCAGGAGGTTGTGAACGGCAATACCCCTGACTTGGGCTGGGGAGTCTACGGCGTAAGCTCAAAAGTTAAAAACCCTGAAGAATTGATTAAATTCATCGATTATCAATATTCGGATGAAATGATCCAGCTCATCACTTGGGGAATCGAGGGCACGACCTATACGATCGGAGAAGACGGCGTTCCGACCTTTGTCGACTCGCTGAAAACGGCCAAGGATCCCTGGTTGGAGGGGGATAAATACGGCATGCGCGCAAGCCGGAACCATAATCCCGGTTTGCAGATGGTAAGCGACGCAAGAGCGTTCGTGGATTTTGCCGCGACAGACTATACGGTATTCAACGGTAAATATGAAGAGGTGCCGATTGAGAAGGCGGAATTCCTGACGAGTCTGCCCATGCCCGAGAACGACTATGTTCCTTCTTGGTTGAGCGAGCCGTCGATTCAACTCACGAGCAGTGAAAGCCAGCGGATTTCGGAGATTATGAACCCGATCAAGACGTTCGTTACGGAAGAACAAGCCAAATTCGTAGCAGGCAAGAACAGCTTCGACAATTGGCAGGCATTCATCGATAAGGTCAAAAAAATGGGCAACATTGATGAAGCGCTGAAAATCTATAATGATGCTGCACAAAGAGCGCTAGGAAACGAATAG	MNKLAKMLVLGLALLMVFSGCSNNSKKTDTHEENQEVMRFSVTLPANGVDNPNSLVGKEWHKRMEAYMGKKVEIEYNYIPSSEYDEKVKLMIASDDLTDFFVTPLFYDTTEMAEQGQLLELGQYQDLMPNYMNYIGKVKNGMKRVTDADGNMYTFKETSTPRFPEDRGMLIQNTSAYRYDVFEANNIKIPETLDEFYGAAKKLKELYPDKYPVATKWNSLRSLFSANHIRDEIFWDGEKYVYGVLDEGYKDALQFANKLYAEKLLDPEYTIDTDDTLKRKALNGDNLMWLTQWFTTPAEYTRTADDGKIFAVSLYPDNPKYGKAWQEVVNGNTPDLGWGVYGVSSKVKNPEELIKFIDYQYSDEMIQLITWGIEGTTYTIGEDGVPTFVDSLKTAKDPWLEGDKYGMRASRNHNPGLQMVSDARAFVDFAATDYTVFNGKYEEVPIEKAEFLTSLPMPENDYVPSWLSEPSIQLTSSESQRISEIMNPIKTFVTEEQAKFVAGKNSFDNWQAFIDKVKKMGNIDEALKIYNDAAQRALGNE	PGPT0017245_1677	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04807	897	araQ_53	COG0395	L-arabinose transport system permease protein AraQ	TTGAAAAAGGCTGGTTTGGGTTCCAGAGCTTTCGATGTATTCAATGTTGTTATCATGCTATTCATCCTGATTGTCGTGCTGTATCCGATTCTGAACATTATCGCGACATCGTTAAGCGGCACGCGTTACATCTCCTCGGGGAGCGTAACGATTTGGCCCAAGGGATTTAATCTGGAAGCGTACACGACGGTATTTCAGGATCCTTACATTTTCAAAGGATATCTGAACTCGATCATTTATGCGGCCGGCTCTACGGGCATCATGCTGCTGTTTACGGCACTGATGGCGTATCCGCTCACGATCCCGGGATTTGCGGGCAAGAAATTTCTGACCATTTTTCTCATGATTACGATGTTTTTCGGCGGCGGCTTAATTCCGACCTATCTGCTTATGCGCGGTTTGAACCTGTTGGATACGGTCTGGGTCATGATTCTCCCCGGTGCGATCAGTGCTTATAATGTGTTTCTGTTTCGGACCTTCTTCCTGAATATTCCTTCTGAACTGAAGGACTCCGCCTATATCGACGGGGCAAGTGACTTGGTGGTTCTCTTCAGGATCATACTGCCGTTGTCGAAAGCGCTGTTTGCAACCTTTGCTCTATTCGGTCTGGTCGGAAGCTGGAATAGTTGGTTCGAGGCTTTGATTTATCTGCGAGATCAGGACAAGTATCCCTTGCAGATGGTGCTCCGAAACTATCTGTTTACTTTGGATACGACTGCGATTCAAGGACGGGTAGGAGGCGGCGCGGTCGCCATCAATGCTCCGGGGGAAACGCTTGATCCCAAGGCGGTACGAATGAGCGTCATCATTATTACCATGTTTCCGATCATGTGTATTTACCCGATCTTCCAGAAGCATTTCACCAAAGGGATATTCGTCGGCTCCATCAAAGGCTAG	MKKAGLGSRAFDVFNVVIMLFILIVVLYPILNIIATSLSGTRYISSGSVTIWPKGFNLEAYTTVFQDPYIFKGYLNSIIYAAGSTGIMLLFTALMAYPLTIPGFAGKKFLTIFLMITMFFGGGLIPTYLLMRGLNLLDTVWVMILPGAISAYNVFLFRTFFLNIPSELKDSAYIDGASDLVVLFRIILPLSKALFATFALFGLVGSWNSWFEALIYLRDQDKYPLQMVLRNYLFTLDTTAIQGRVGGGAVAINAPGETLDPKAVRMSVIIITMFPIMCIYPIFQKHFTKGIFVGSIKG	PGPT0017255_1295	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04808	915	yteP_63	COG4209	putative multiple-sugar transport system permease YteP	TTGAAGACAACCAATAACAGGCTGGTGGCCAGGATCATCAAGCACCGCTATCTCTATCTTATGGTGCTTCCCGGCTTTCTGACGCTGTTAATCTTTCACTATTTTCCGATGTATGGAATATTAATCGCTTTCAAAGATTTCAATGCTTCCAAGGGGATTTGGGGAAGCGAGTGGGTAGGTATAAAATACTTCACTTCTTTTTTTAATGATCCGATGGCGTTCAGGGTATTAAAGAATACTTTGCTTCTTGGTTTGTATACTTTATTTTGGTCATTTCCGGCACCGATTATATTGGCTCTGTTGTTTAATGAATTGAAAAATAAGGGCTTTAAGAAGCTTGTACAGACGGTTTCTTATTTTCCGCATTTTATTTCGGTCGTCATTGTTGCGGGGATGCTTAAGGAATTTACGGCAAGAGACGGTTTGTTTAACCATATTGTCGGATTCTTCGGCGGAGACCCGATCATGTTTCTTCTCGAACCTGACTATTTCCGGACCATCTTCATTTCTTCCGGCATATGGCAGGGCGTCGGGTTCGGCACCATCATCTACCTTGCAGCATTAAGCGGAATTGATCCTACGCTGTATGACGTGGCCGATGTAGACGGCGCAGGCCGGTGGAAAAAAGTCTTGCACATCACATGGCCGTCGCTCAAGCCGACCACCATTATATTGCTGATTTTTGCCGTCGGAGGAATCCTCGGGAGCGATTTCCAGAAGATCATTCTGCTCTATTCGCCTGAGACTTACGAAGTAGCGGATGTCATCGGATCCTATGTTTATCGTCAAGGTATACTGGGCGCACAATACGAGTACACGACGGCCATCGGATTATTCATGTCGGTTATTTCCTTTACGATCCTTTACTTGACCAATTGGTTAAGCCGGAAAGTATCAGAGACGAGTTTGTTCTAG	MKTTNNRLVARIIKHRYLYLMVLPGFLTLLIFHYFPMYGILIAFKDFNASKGIWGSEWVGIKYFTSFFNDPMAFRVLKNTLLLGLYTLFWSFPAPIILALLFNELKNKGFKKLVQTVSYFPHFISVVIVAGMLKEFTARDGLFNHIVGFFGGDPIMFLLEPDYFRTIFISSGIWQGVGFGTIIYLAALSGIDPTLYDVADVDGAGRWKKVLHITWPSLKPTTIILLIFAVGGILGSDFQKIILLYSPETYEVADVIGSYVYRQGILGAQYEYTTAIGLFMSVISFTILYLTNWLSRKVSETSLF	PGPT0017250_2324	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04809	849	chbR		HTH-type transcriptional regulator ChbR	ATGTTAAAGCTTTATGCGGCGGACGGCATTGATCCTGAAATTCAGGCCCACTATCGGCTGATCGCTTCGGTGCGCGACACGATCGGCATGCATACGCACGACTTCTTTGAATTGTTTCTTATCCTGAAAGGAAGCGTTGTACATGTCATTAACGGCAAAAGACAGCTGCTGCAGGAAAATACACTCGTGTTCATACGGGATCGGGACGTTCATTATTATGAGCAAACGACGGACAGCGATTGCCAGTTCATCAATTTGTCGTTCCATCGCCAGGTCCTGGAAGACCTCATCGCTTTCTTGGGAGAAGGGTTTCCAAGCGAAAGACTGCTTGGACCGGCCATGCCGCCGTCGACCTTGCTGTCCAAAATGGAAAAGGAATATGTGCGGTACCGGCTGGACCAGCTCAGTCTGATCCCGCAGGAGAAGAAGCTGGCCGTCAAAGCGGAGGTAAGAGCCGTCATGACCGACCTGTTCTCTAGGTATATCAAGGCTGACGCGGATCCGATTGAACTTACTGGACAACCGGAATGGTTTAAGTCCCTATGCAGAGAGGCAAAAAAGAAAGAGCACTTCACGCGGGGAACGGCTGCGCTTGTCCAGTTGTCGGGCAAATCGCATGCCTACGTATGCAGAATGTTCAGGAAGCACCTCGGAATGTCCCCGACCCAGTACATTAACGAATTGAGAATGTCCTACGCCGAGAATTTGCTGATGAACACGGATATGGATATTGTGGACATCAGCCTTGAAATCGGACTTGATAATGTCAGCTACTTCTACGACTTATTTAAGCGGAGGCATAATGTAACGCCCCATCGGTATCGTCAGTTCGGCACGATTCGGAGATAG	MLKLYAADGIDPEIQAHYRLIASVRDTIGMHTHDFFELFLILKGSVVHVINGKRQLLQENTLVFIRDRDVHYYEQTTDSDCQFINLSFHRQVLEDLIAFLGEGFPSERLLGPAMPPSTLLSKMEKEYVRYRLDQLSLIPQEKKLAVKAEVRAVMTDLFSRYIKADADPIELTGQPEWFKSLCREAKKKEHFTRGTAALVQLSGKSHAYVCRMFRKHLGMSPTQYINELRMSYAENLLMNTDMDIVDISLEIGLDNVSYFYDLFKRRHNVTPHRYRQFGTIRR				NA	NA	NA	NA	NA
AK002_04810	942			hypothetical protein	ATGAACTTATTGGAACAACGTCAGCAATTCGAAGCAAACAAACGCATTTATGAAAGCGCCAAGCTTGTCTTCCGAGGAGTCGAAGGCTTCGATGTCTACAATCCTTCCATTCCGTTCGCATGGAACGGAAAGCGCTACATTTACGGACGCGTGGAGAAACGACATGAGTGGGCAAGGTCATGGGTTCGCTTGTTCGAGCAGAGCGGTCCGGACGAGTGGACTGCCGTGCCGGATACGATGATTTATCAGCTTGAAGACCCTTATATTAGCGTGATCCACAAACAGCTCGTATTGGGCGGCACGCATGTCCGTTACAAGCAGGGACGGCTCGATACGTTCTACGGTTATTTCTACAAAGGCAGCGATCTTCACGATCTCCTCTACTTCACGACAGGTCCGGATTATATGAAGGACATTCGGCTCGTTGAGCTCCAGGACGGGAGAATTGGCGTCTTCTCCAGGCCGCGCGGCGAAGGGATCCGCAAGGAATTCGGCAGCGAGTCCTTGGTGGGATTCACCATCATCGACAGCCTTGACGATCTGTCACCGGATGTCATCGAGAACGCCCCTTATATCCGAGGATTATTCAGCAAGGATGAGTGGGGCGGCTGCAACCAGGCTTACTTGCTCGAAAGCGGGAAGATCGGCGTCATCGGCCATATCTGCTACGCTCAGGGAGATACGTCGACTTACATGAACATGGCTTTCGTACTGGACCCGCGGACGAATCAATTTTCGGATTTGAAAATCATCGGCACCCGGCTTTGTTATCCGGATGGCCCCGCCAAGAAGGCACATCTGACCGACTGCGCGTTCACCGCCGGCATCGAAATGCGTCCCGACGGCAAGGTCAATCTGTACAGCGGCATCGGCGATACCGAAGCGGCTCGCATCGTCATCGACTACCCGTTCGAGAAGGAAGGCGCCATTTTAACCTTATAA	MNLLEQRQQFEANKRIYESAKLVFRGVEGFDVYNPSIPFAWNGKRYIYGRVEKRHEWARSWVRLFEQSGPDEWTAVPDTMIYQLEDPYISVIHKQLVLGGTHVRYKQGRLDTFYGYFYKGSDLHDLLYFTTGPDYMKDIRLVELQDGRIGVFSRPRGEGIRKEFGSESLVGFTIIDSLDDLSPDVIENAPYIRGLFSKDEWGGCNQAYLLESGKIGVIGHICYAQGDTSTYMNMAFVLDPRTNQFSDLKIIGTRLCYPDGPAKKAHLTDCAFTAGIEMRPDGKVNLYSGIGDTEAARIVIDYPFEKEGAILTL				NA	NA	NA	NA	NA
AK002_04811	1086	araR_8	COG1609	Arabinose metabolism transcriptional repressor	TTGAACAAGAAGGACTTGGCTCTGCCAAAGTACCAGATGGTAAAAGACTATGTCTTATCCCAGATCGAGAATCGGGAATTTACGAAAGACGATCGGATTCCTAGCGAGTCGGAGTTCTCCAAGCTGCTGGATGTCAGCTCCATCACGGTGCGTAAAGCGCTGTCCGAGCTGGTGAACGAGGGCGTGATCTACCGCGTCCGAGGTAAAGGAAGCTTTGTCGCCAGCCAAGCCGACGCCTCGGAGAAGACCTCCACCTCCAATCTGGTGGCCTTCGTCATCTCCGGCGTCGATCTGTACGACAGTTCGTATATGCAGATCATGAGAGGCATTCAATCATTTCTAGGCCAGCATGGCTGCAAGCTCATCATCGAATTCGTGGAGAACGACTTCGAACAGGAACGCGAGCTCATTCTGGGACTCATTCAAACGGAGCTAAGAGGCTTACTCATCTATTCCTCCGATCCCGAAGCTGCAAAGGGCTATCTCGGAGAGATTCGAAAAAAATCGATTCCGTTCGTTATGTTGGATCGTTCCCCTTCGGGCTATCCGGTGAACGTTGTCACCTGTAACAATCATGACGGTGCTTATGAAGCAGTAGAATACTTGATCCAGCAGGGACATCGGCGAATCGGATTCGCCGCTTACGACTATCATCTAAGCCCGGAGGTTGACCGATATAACGGTTATTGCAACGCCATGTCGAATGCGTCCATTCCGATACCCGATTCGCTCTTGTTCCTGGATAAGGAACTAGACTATGCTGCACTTGTGAGCCTTATCCAAAATGGTGGGCTGACCGCGCTGTTCTGCGCGAACGACAAGCGGGCCCTGGAGATAATCGAACAGCTCACCACACTTGACATACGCATACCCGAACAATTATCCCTCATGGGCTTTGACGATTTCGAGAGCTCCAAGTTCGCCAAGGTGGCCTTGAGCACCGTGAAGCAATATTTCGACGTCCTCGGCTATGAAAGTGCCAAACTGCTGTTTGAAATTACCGAGGGCTCATCTTACGGCAATAAGAAAGTCATGTTGCCTACAAGCTTGATCATACGCGACACGATCAAGCCGTTCCAAGGTTAG	MNKKDLALPKYQMVKDYVLSQIENREFTKDDRIPSESEFSKLLDVSSITVRKALSELVNEGVIYRVRGKGSFVASQADASEKTSTSNLVAFVISGVDLYDSSYMQIMRGIQSFLGQHGCKLIIEFVENDFEQERELILGLIQTELRGLLIYSSDPEAAKGYLGEIRKKSIPFVMLDRSPSGYPVNVVTCNNHDGAYEAVEYLIQQGHRRIGFAAYDYHLSPEVDRYNGYCNAMSNASIPIPDSLLFLDKELDYAALVSLIQNGGLTALFCANDKRALEIIEQLTTLDIRIPEQLSLMGFDDFESSKFAKVALSTVKQYFDVLGYESAKLLFEITEGSSYGNKKVMLPTSLIIRDTIKPFQG	PGPT0017490_412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_04812	1299			hypothetical protein	ATGGGAGCAACGGGTGAAGCATCGGCAGGGGAATATTATGTTTCGCCTCAAGGTAAAGACGCTAATCCGGGGACGATGAATGCCCCGCTAGCCAGCATCCAGAAAGCAATCGAATTAGTCAAGCCGGGCGGTTCCGTCATCCTTCTTGAAGGAGTATATCACCAAACGGTGAGCATCGAAAAATCAGGATCGTCAGACCAGGGCTACATATCATTGCGCAGTGCAAAGGGACATACGGCAGTCATGGACGGCAAAGGCGTTCAACCCGTTGAAAATGGCGTCATCCATATTGACAATGCCAGCTATGTACGCGTGGAAGGGGTAGAAATACGCCATTACGATACAAGTTCCGCTGATGTCACTCCCATCGGCATTCATGTGAGCGGCAGCGGCAGAAATATTGAAATCATAGGGAACCGCGTTCACGATATGGGGACCCATGCGGGTCAGAAGGCAGGCGGCGGCAATGCCCATGGCATTGCTGTTTACGGCAACTCGGCAGCTCCGCTCAAGCAGATTGCTATAATCCAAAATGAGCTGTACAACCTGAAGCTGGGAGCCAGCGAGGCCATGGCGATTAATGGAAACGTAGACGGTTTTCGTGTTACGAAGAACCACGTCCACCATAACAACAATATCGGCGTCGACATCATAGGGTTTGAAGGTACCGGACCGAACCCCGTTTTAGATCAGGCGCGAAACGGTGTTATTCAGGAAAATCAGGTATACAGCAATTCCTCTCATGGCAATCCCGCATATGGAAACGACTATTCCGCCGCTGGTATCTATGTTGACGGTGGCAAAGATATCAAAATCATCGATAACGACATTCACGGCAATGATTTTGGAATTGAATTGGCAAGTGAGCATGCCGGAGGTTCAACTTCAAATGTAGAGGTGACACTTAACCGCATTTATAACAATAGCGCGGCAGGCATCACGCTTGGCGGCTATGACGAAGATCGCGGAAGGACGGAAAATTGTATCATTAAAGAGAATGAGTTCACTGAAAACAACACCAAGCATCTTGGTTACGGTGAAATCAATTTGGCCTTCGATACAAGGAACAATGAAATGCGCTATAACTCCATCAAAGCGAATGAGGATGGGCTAATGATCACCAACGAGTTCACCCAAAATGAAGGGAACATAGTGGACTTTAATCACTACAGCAGCAAAAATCAATCGCTTTGGATCTGGAAAGGCGAAGAATATGATGACTTCAGCGCTTATCGGACACAGACAGGGAATGATTTGCATTCGGATTTGAACTTAGAGAGGATTACTTCTTCGTTATAG	MGATGEASAGEYYVSPQGKDANPGTMNAPLASIQKAIELVKPGGSVILLEGVYHQTVSIEKSGSSDQGYISLRSAKGHTAVMDGKGVQPVENGVIHIDNASYVRVEGVEIRHYDTSSADVTPIGIHVSGSGRNIEIIGNRVHDMGTHAGQKAGGGNAHGIAVYGNSAAPLKQIAIIQNELYNLKLGASEAMAINGNVDGFRVTKNHVHHNNNIGVDIIGFEGTGPNPVLDQARNGVIQENQVYSNSSHGNPAYGNDYSAAGIYVDGGKDIKIIDNDIHGNDFGIELASEHAGGSTSNVEVTLNRIYNNSAAGITLGGYDEDRGRTENCIIKENEFTENNTKHLGYGEINLAFDTRNNEMRYNSIKANEDGLMITNEFTQNEGNIVDFNHYSSKNQSLWIWKGEEYDDFSAYRTQTGNDLHSDLNLERITSSL	PGPT0018240_177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_PECTATE_LYASE|ESTERASE,PGPT0018240-pelX-K22994	NA	NA
AK002_04813	1128			hypothetical protein	ATGAGATGGGTTAAACCATTCTCTGCTGCGGTTATGGGCTGCATGCTGCTGCTTGCCCTGATAGGCTGCAGTAATGACAAAACCAATCTTGAAGATGCAACCGTACCTTTAGCCCTCGGTCTGGATGTCAAAGACGGGAAGCTTCGTTATTATTTGTCCGCGCCGGTATTTAGCAGAGATATTAAGAAGAAAAGCCGTGAGGGGGAAGGAATAGCAGAAGGTTTAAGACAGGCAAGAAACCAGGAAGACGCCCAGTTTCCAGGAGCGGTTGCCGGCCGTAATTTTCAGGTGATCGTTGTGGGGAAGAAGCTGCTTCAATATAAGGATTGGTTTAAAGTGCTCGATGTTACGTTCCGCGACCCACGCAATACGACTACCAACCGCATCATTGCTTATGACGGTCCCGTTGCCGATGTCATTAATTTTCAAGCAATGGATCAGCCAACAACCTCCGTGTTTTTAAGAGCGCTGATCGATTCGGGAAGCAGGAGGTCAACAACGGTAAAGACGACGGCTCAAGAGATGCATAGACAATTTCATGACCGTGCAATAACCCCTGCTATCTCGGAGATCATGATCGAGAATGGAAAGATTTTGCTCAAGGGCACGACGCTGCTATCTCAAGAAGGACAGTACCGGGATTCCCTTAGCTATCAAGAAACTTCGCTTCTGCAAATTTTAAAAAAAGAAGCTAAACCAGGAGTCAGCCTCACTTTTCCTGTTGAGGGGGTGCGGGAACGATTGCCTTTTAACACCGATTTGGTGAGTTTTAGCATAGGGGACATCTCGGTGAAGGTTAAGTCTTCCCATGAAGATGGCAGGTTCCATTACTACATTAAGATAAACTCGTTTATCAGCATTACGGAAAAGTTTCTTGAATATGAGCTTCTGGAGAATTCCGAGGAAATGGCGAGTAATTTAAGCAAGGAAATGAAGAAAAGCATCGAGAAGCTCATCGATAAATTTCAGAAGCACAAAATTGACCCGGTAGGATTCGGCCTGTATGCAAGAGCATATCATTATCCGTTATACAAGGCCGCCCAGGATAACTGGGGCGAAGAGCTGGCCCGAGCTCAATTTCACGTAGAGGTTGACCTTCGGATCGGCGCGACGGGGGCTGTGGAGTAA	MRWVKPFSAAVMGCMLLLALIGCSNDKTNLEDATVPLALGLDVKDGKLRYYLSAPVFSRDIKKKSREGEGIAEGLRQARNQEDAQFPGAVAGRNFQVIVVGKKLLQYKDWFKVLDVTFRDPRNTTTNRIIAYDGPVADVINFQAMDQPTTSVFLRALIDSGSRRSTTVKTTAQEMHRQFHDRAITPAISEIMIENGKILLKGTTLLSQEGQYRDSLSYQETSLLQILKKEAKPGVSLTFPVEGVRERLPFNTDLVSFSIGDISVKVKSSHEDGRFHYYIKINSFISITEKFLEYELLENSEEMASNLSKEMKKSIEKLIDKFQKHKIDPVGFGLYARAYHYPLYKAAQDNWGEELARAQFHVEVDLRIGATGAVE				NA	NA	NA	NA	NA
AK002_04814	1095			hypothetical protein	ATGAAGACCATTCGTCAGGTATCCATGCTTCAATTTACGCTGATGGTTTCGGCTTTTCAAATCAGCGTTGCATTTTTATCCCTTCCTAGAGAACTGGCCAGACAAGCGGGAACGGATGGTTGGATCGCGATTTTTTTTGGCTGGGGAATGGCAACATTGGCATCCGCAGCGCTCGTTAAGGTGATGAAAAATAGTCCAGACGGTTCGATACTAGAGTTGATACAGCGGTATATGGGAGTCTGGGCAGCTAAAATAGCTGCTTTCATATTTATGGCCTATTATTTGTTACTGGCTTATGACGGTTTTATGATTGCTTCACTTGTTATCAAGCTTTGGTTATTGCCCAGCACGTATATCTATGTTCTAGTGCTGCTGCTGCTCATTCCTACGTTTCAAATTGCGCAGCATGGGTTCCAAGCAATCGGCAGATATAGCGAAATCGTGGCGCTTATCTCCATATGGATTCCATTCGTTTATTTAACTACACTGCGCCATGCCCGCTGGCTTTATTTGCTGCCTGTCTTAAAAGAGGGCTGGTTTCCGGTGCTTTCAACCGTAAAAATCATGTTCTACCCGATGCTGGGTATCGGGCTCGCGTTCTTTATTTACCCCCATCTCGTTAAAAAAGAAAAAGCTTTGACGGCCATGGTGATTTCGAACACGCTCACCTGCCTGGTTTACCTGGGAATCACCCTTGTGTGTTATGTGTACTTCAGTCCTGATGAAATCGGCGAATTCAATGAACCGGTCATCAGCATCATGAAGTCGATCGAACTTCGGTTTATTGAGCGGATAGAAGTTCCCTTTATTGCATTCTATTTGTTTGTGTTCTCTTGCATATGGATCCCTTCCATGCATCTTGTCTCCATGAACTCGGCATGGCTATTGGGGAAAGACAAAGAAAGAGGTCACCTAGCCGTTTGGTGTTTCGCAGTTGCGGTTAGTTTTTTCATCTATAGGCCAAGCTTTATCGATGTCGCTCGAGTTAATAACTTCCTAAACCTCACGGGTTTTGTGATGGAATTTGCTTTGCCTGTATGCCTTCTTATGTATGTGGCCATGACCAAAAAGGTAAGAGGGGGGAGACGCTCATGA	MKTIRQVSMLQFTLMVSAFQISVAFLSLPRELARQAGTDGWIAIFFGWGMATLASAALVKVMKNSPDGSILELIQRYMGVWAAKIAAFIFMAYYLLLAYDGFMIASLVIKLWLLPSTYIYVLVLLLLIPTFQIAQHGFQAIGRYSEIVALISIWIPFVYLTTLRHARWLYLLPVLKEGWFPVLSTVKIMFYPMLGIGLAFFIYPHLVKKEKALTAMVISNTLTCLVYLGITLVCYVYFSPDEIGEFNEPVISIMKSIELRFIERIEVPFIAFYLFVFSCIWIPSMHLVSMNSAWLLGKDKERGHLAVWCFAVAVSFFIYRPSFIDVARVNNFLNLTGFVMEFALPVCLLMYVAMTKKVRGGRRS				NA	NA	NA	NA	NA
AK002_04815	1497	gerBA_6		Spore germination protein B1	ATGATGAAGGAACATTCTGCCAACCATGAGCAAGAGGAACAAATTACTCCGTGTCTAACCGAGTCCATAGGCAGAATCCGAGACATGTTCACGGATACTCCCGACCTGATCGTACGAAAACTAACCATTAAACAAACCGGGGAAAAAGCGGCAATCGTGTATATGGAGGAATTGACCGATAAGACATGCCTCAATCACGATATTCTTGCTCCGCTTCAGCTTGAGTCCGGGAACCCGTCCGATGACTTTATTACAAATGTAGGATATGTTAAGCCTGAATCCTTATGGACTAAACTGAGGCTGAGCCTTATGCTCGGTAACAGCGTGTTGTTCATCGAAGGTCGCGGCGTCGCGTATATACTGGACACCAAAGGACTGCCTACACGCGCGATCGAAGATCCGCAGCAGGAGCCCTCACTCAAAGGGGCGCATCAAGGATTCATTGAAATCGGCTCACAAAATATTGCCATGATCCGTCGTTATATCCCAGACAAGGAGTTGAAGTTAAGGCGCTACATCGTTGGAAGAAGGGGACAAACGGCGGTTACGTTAATTTATTTGGAAGATGTCGCTCAACCGGAAATTATTAAGGTATTCGAGGAACGCATTCAATCCATCGATGTCGATGCCATTATTAATACCGGTGAGCTAGCCGAATTCATTGAAGACCAGCCTCTTGCGCTGCTTCCGCAGATCCTTACGACCGAAAGGCCGGATACGGCCGCTTCACATATTTTGCAAGGACGCTGCGTCGTTGTTGTGGACGGTTCGCCCAGTGTTTTGGTGGCGCCTGCAACTTTTATGTCTTTTTTTCAGACGGTGGATGATTACAGCTCTCGTTGGTCCATATCGTCGTTCCTTCGAATTTTGCGAATCTTTGCATTTTTTATCGCTATTTTTTTACCTGGTTTTTTCATTTCGGTCATCTCTTATCACTTTGAAATCATCCCCATGAAACTGCTGCTAACACTTGGCGAATCACGGGGGCAAGTTCCGTTTCCCCCATTCGTGGAAGCGATCATTATGGAAATCACGCTTGAGATGCTGAGGGAAGCGGGGGTTCGGCTTCCTGCGCCTATTGGGCAGACGGTGGGGATCGTCGGCGGTATCGTGATCGGACAGGCTGTGGTGCAAGCAGGACTGATCAGCAATGTCATGGTGATCGTAGTTGCTTTCACGGCTATCTCTTCTTTCATTATTCCTAATCAAGATATGTTGGCTGCCGTCCGTCTCATGCGATTCATGATCATGGTTCTTGCGACTTGGTTCGGCTTCATTGGCCTGATTGTGGGCATGATGACGATCATGGGGAGACTCATCACGCTTAACTCGCTTAATACCTCCTACAGTACGCCGATTGCTCCGTTTAAAGCTGCAGACTGGAAGGACACCCTTCTGCGCGTTCCGCTATGGCTGATGAGCAACCGTCCCACAAGTACAAGAGCAATACAAGCAAAACGGCAAGGAAGGACCCGAGGCTGGAAGGAGAAACAATAA	MMKEHSANHEQEEQITPCLTESIGRIRDMFTDTPDLIVRKLTIKQTGEKAAIVYMEELTDKTCLNHDILAPLQLESGNPSDDFITNVGYVKPESLWTKLRLSLMLGNSVLFIEGRGVAYILDTKGLPTRAIEDPQQEPSLKGAHQGFIEIGSQNIAMIRRYIPDKELKLRRYIVGRRGQTAVTLIYLEDVAQPEIIKVFEERIQSIDVDAIINTGELAEFIEDQPLALLPQILTTERPDTAASHILQGRCVVVVDGSPSVLVAPATFMSFFQTVDDYSSRWSISSFLRILRIFAFFIAIFLPGFFISVISYHFEIIPMKLLLTLGESRGQVPFPPFVEAIIMEITLEMLREAGVRLPAPIGQTVGIVGGIVIGQAVVQAGLISNVMVIVVAFTAISSFIIPNQDMLAAVRLMRFMIMVLATWFGFIGLIVGMMTIMGRLITLNSLNTSYSTPIAPFKAADWKDTLLRVPLWLMSNRPTSTRAIQAKRQGRTRGWKEKQ	PGPT0014780_188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK002_04816	1710			hypothetical protein	ATGAATGCCCGGAACCTGAGCGCCCGGCTGGCTTCCGTAAACCCTGTTTCGATCCTTTTATACGGGTTGATTGCCTGGTTTGTCATTGCCTTCCTGATTTATCCGAACTTGAATATTTACGGCGAAATTTTCTTTAAGGACGGCAAATTTACGCTCGAAGCGGCAGAGAAGCTGTTTTCTTCCGAGCGCGCGATGAGAAGTTTATATAACAGCTTTATTCTCGCCTTTTCCCTTGTCGTTACGGTAAATGTGGTGGGTATAACACTGGTTTTGATTTCGGAATATTTCGATATCAAAGGCGCGAGATTTTTGCGGCTGGGTTATTTTACGACCTTGATTTACAGCGGAGTCGTGCTGGTGTCCGGCTATAAATTCGTTTATGGCGAAGAAGGGTTTATGACCAAGCTCCTGGCTCAATGGTTCCCTTCTTTTAATACGACATGGTTTCATGGCTACTGGGCGGTTTTATTCGTCATGACGTTCGCATGCACGTCGAACCACTTCCTGTTCCTGAGCAATGCGATTCGCAAAATCGACTTCCAAACGGTGGAAGCCGCGAGAAATATGGGGGCGTCTACTTGGTATATCTTAAGGCGGGTCGTACTTCCGGTCCTGAAGCCTACGATCTATGCGTTGACGATCCTGACTTTTCTCACTGGCCTGGCTGCGACGTCCGCGCCGCTTATTCTCGGGGGGAAGGAATTCCAGACGATTACGCCGATGATTCTGACGTTCTCGAAAAGCATGACGTCAAGAGATTTGGCTGCACTGCTGGCGCTTATTCTCGGAGTAGCCACGCTGGTGTTGTTGACCGTGATGATCCGGTTCGAACGAAAAGGCAACTTCATGTCGGTCTCCAAAGTCAAATCGGAGCTGGTCAAACAAAAAATCCGCAGCAAATCCGGTAACATAGCCGCTCATATTCTGGCTTACAGCCTGTTTGTCCTCTACATCGTTCCGGTTGTGCTGATCATCATCTTTTCGTTCACCGATGCGGCAAGTATCTCTACCGCCACGTTGAATTTAAACAGCTTCACGTTGGATAATTACATTCAAGTGTTTTCATCCATGTCGGCATTCAAGCCTTATCTTGTGAGTATTCTATATGCCGCGGCAGCCTCGGTCATTGTCGTCGCATTGGCGCTGGCCGCGTCAAGGATATTGCATAAATATAAGAACAAGTGGGCGCTTGCCCTGGAATACGCATTGCTGATTCCGTGGATTCTGCCGTCGACGCTGATTGCGATCGGACTGATCGTGACCTTTAACACGCCGAAGCTGATGATCGGGAATACGGTGTTGGTTGGCACGATCTGGATGCTTCTGATTGCCTATGTCATCATCCATATTCCTTTCACCCTGCGAATGGTCAAGGCCTCCTTCTTCAGCTTGGACAGCAATCTGGAAGATGCTGCAAGGAATTTGGGTGCTAAACCGTTCTATACGTTCAGAAAAGTATTGCTGCCGATCATTCTACCGTCGACGCTAGCTGTGCTTGCCTTGAATTTCAACGGAATTTTGGCCGATTATGACGTTACCGTGTTCCTCTATCATCCTTTGTACCAGCCGTTAGGAATCGTCATCAAGAACAGCACGGATGCGCAGGCGCTCGCGGATACCAAAGCGTTGACCTTGGTTTATTCGGTTATACTGATGATCATGTCGTCCATTACGTTATATTTCGTTTATGGAAGAAACAGCAGATCCTGA	MNARNLSARLASVNPVSILLYGLIAWFVIAFLIYPNLNIYGEIFFKDGKFTLEAAEKLFSSERAMRSLYNSFILAFSLVVTVNVVGITLVLISEYFDIKGARFLRLGYFTTLIYSGVVLVSGYKFVYGEEGFMTKLLAQWFPSFNTTWFHGYWAVLFVMTFACTSNHFLFLSNAIRKIDFQTVEAARNMGASTWYILRRVVLPVLKPTIYALTILTFLTGLAATSAPLILGGKEFQTITPMILTFSKSMTSRDLAALLALILGVATLVLLTVMIRFERKGNFMSVSKVKSELVKQKIRSKSGNIAAHILAYSLFVLYIVPVVLIIIFSFTDAASISTATLNLNSFTLDNYIQVFSSMSAFKPYLVSILYAAAASVIVVALALAASRILHKYKNKWALALEYALLIPWILPSTLIAIGLIVTFNTPKLMIGNTVLVGTIWMLLIAYVIIHIPFTLRMVKASFFSLDSNLEDAARNLGAKPFYTFRKVLLPIILPSTLAVLALNFNGILADYDVTVFLYHPLYQPLGIVIKNSTDAQALADTKALTLVYSVILMIMSSITLYFVYGRNSRS	PGPT0003730_1641	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK002_04817	1029	potA_3	COG3842	Spermidine/putrescine import ATP-binding protein PotA	ATGATTACATTCCAGAACGTTGACATTAAATTCGGAGAATTTCATGCGGTCAAAAACCTTAATTTGCATATTCGGGAAGGGGAATTCTTCACATTCCTCGGTCCCTCGGGTTGTGGGAAGACGACGACCCTCCGCAGTCTGGTCGGGTTTATTATGCCTACGAGCGGACAGATCCTGCTGAAAGACGCCGACATTACCCGTTTGCCGATCGAAAAAAGAGAGATCGGGATGGTATTTCAAAGCTATGCATTGTTTCCAACGATGAATGTGTATGAGAATATCGCCTTCGGCTTGCGAGTCAAGAAGTTTTCCAAGGCGGAAGTGGACCAGAAAGTAAAGGACATTGCCCGGAAGGTTGATTTGAAAGATGATCAGCTGTTCAAGAAGGTATCGGAGCTATCCGGAGGCCAGCAGCAGCGCGTCGCGATTGCCAGGGCGCTGGTTTTGAAGCCGAGCATCTTGGTATTGGACGAACCTTTATCCAACTTGGACGCCAAGCTGCGGGTGCAGCTGCGCAACGAGCTGAAACAACTGCAGAAGAAATTCGGGATCACAACGATTTATGTCACGCACGACCAGGAAGAAGCATTAACGCTGTCCGACCGGATTGGAGTATTCAATCATGGGGTCCTGGAGCAAGTGGGAACGCCCTTGGAAGTTTACAATCAATCGCAAACGGAGTTTGTATGCAATTTCATAGGAGATATTAATCGGATCGATCCGCGGATGGTGGAGAACAGCCGGTTGAACGATGTTGTTCAGCCAGGGAATATCGCCTATATCCGCAATGAAAAGGTAAGCCTGCTGCCCCTGCAGGGGATCGATACGGTCGAACTGAAAGGCAAGATCGCGGACCGGGAATTTTACGGTTTATACAGCAAGTACGTATTGGAGATTGCCGGCGGCGGACGGCTAAAGACCATCGAAATCGAAAGCCGGCTCGTCCATCATGAGGTCGGCGACGATGTGGACATCTACCTCCCGGTCCGCGATATTTTGCAATACCCGATGAAGGAGGGGGAAGCATGA	MITFQNVDIKFGEFHAVKNLNLHIREGEFFTFLGPSGCGKTTTLRSLVGFIMPTSGQILLKDADITRLPIEKREIGMVFQSYALFPTMNVYENIAFGLRVKKFSKAEVDQKVKDIARKVDLKDDQLFKKVSELSGGQQQRVAIARALVLKPSILVLDEPLSNLDAKLRVQLRNELKQLQKKFGITTIYVTHDQEEALTLSDRIGVFNHGVLEQVGTPLEVYNQSQTEFVCNFIGDINRIDPRMVENSRLNDVVQPGNIAYIRNEKVSLLPLQGIDTVELKGKIADREFYGLYSKYVLEIAGGGRLKTIEIESRLVHHEVGDDVDIYLPVRDILQYPMKEGEA	PGPT0003735_3619	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
AK002_04818	1104			hypothetical protein	ATGAGAAAACTTTCAATGGCGCTACTTCTCATTATGTGTGTGATTGTATCGGCTTGCGGAGGCGGCAACAATGCCGGCAATGCAAACGCAGGCACTTCGGAGGGGACACCGGGTGCGTCGGAATCGTCATCAAATGAACCAGCCCAGAATGAAAAGCTGATCGTGTACACCAATGCAAACTCCGACGGCCGCGGTGAATGGCTGATTGAGAAAGCGAAGGGTGCGGGCTTTGACATCGAAATTGTCGGAGCGGGCGGCGCCGATTTGACGAACCGGTTGATTGCCGAGAAGAACAACCCGATCGCGGACGTTGTATACGGCTTGAACAATATGCTTTATGAGAATTTGAAAAAGGAAGACGCTCTGGCTAAGTTTGTTCCAAGCTGGGCGGGAGATGTTGAGCAGGGCTTGAACGATCCGGAAGGCTACTATCATGGGCTTGTGAAGCAAGCGATTCTGCTTGGTTATAACCCGAACGAATTCTCGGCCGATACTGCGCCAAAGGACTGGACGGACCTTTATAAGAACGATGCTTATAAAGGGAAATACGAAGCTCCTACGCTGCTTGGACAAAATACGCCTCGCCTTGTTGTAGCGGGCATTCTGACCCGTTTCCAAGATCCGAACGGCGATCTGGGCGTATCCGAGGAGGGCTGGAATGAAATTCAGCAATTGTATGACAACGGAGTCAGCGCAGTCGAGGGCGAAGACTTCTATGCCAATTTGGCCAGTAGTAAAACGCCGCTAGGAGCGCTCGTCTCCGGAACCCTGCAGCAGAAGGAAGAGCAATATAACGTGAAAGCAGGCATTGTCAGCCCGGAAATCGGCGTACCAATGGTCGTGGAGCATGCGGCGATCGTAAACGGAACGAAGAAGCAGGCAACGGCGGAGCGGTTCGTGGAATGGCTCGGATCCAGCGAAGTCCAAGGGGAATTTGCGGCTGAGTTCAATGCCATGCCGGCAAATACGAAGGCGGTCGAGCAAGCCAATGAGTCTGTCAAGGAGCTGTTTACTTCGTTAAAACCTCAAGATTTCGATTGGGCCTTTATTGCCGAAAACATGGATCTGTGGGCGGAGAAAATCGAATTGGAGATTATGCAATAA	MRKLSMALLLIMCVIVSACGGGNNAGNANAGTSEGTPGASESSSNEPAQNEKLIVYTNANSDGRGEWLIEKAKGAGFDIEIVGAGGADLTNRLIAEKNNPIADVVYGLNNMLYENLKKEDALAKFVPSWAGDVEQGLNDPEGYYHGLVKQAILLGYNPNEFSADTAPKDWTDLYKNDAYKGKYEAPTLLGQNTPRLVVAGILTRFQDPNGDLGVSEEGWNEIQQLYDNGVSAVEGEDFYANLASSKTPLGALVSGTLQQKEEQYNVKAGIVSPEIGVPMVVEHAAIVNGTKKQATAERFVEWLGSSEVQGEFAAEFNAMPANTKAVEQANESVKELFTSLKPQDFDWAFIAENMDLWAEKIELEIMQ	PGPT0003725_666	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK002_04819	819	phnP_1	COG1235	Phosphoribosyl 1,2-cyclic phosphate phosphodiesterase	TTGAAAATTCACTTTCTAGGAACCGCAGCCGCAGAGGGCTTCCCCAATGCATTTTGCCGCTGCGAGCATTGCAACAAAGCGCGGGAGCTTGGGGGAAAAAATATCCGCACACGAACTTCCGCCATCCTGGACGATGTCATCAAGTTTGACTATTCCCCGGATTCCTATATGCAGGCGCTGCGGGACAATATCGATCTGGGAGCAATCGAGCACCTGCTCGTCACGCATTCGCATATGGACCATTTCAATGCCGCTGATCTGGAATGCCGCAGGGAAGGGATTGCGCACGGCCTCCAGCATCCGCTGCACATTTACGGGAATGGTACCGTGATGCACCACACGCGTGCCGCCATCGGCCGCTTTGAAGGACAAAGGTATCAATTTCATCTGTTGCGCCCGTATGAGACCTTCGCTATGGGCGATGCAACGGTAACGCCATTGTTGGCCGATCATGACCGGATGGAAACCTGTCTATTATACGTGATCGAAAAGGAAGGAAAAAAACTGCTGTACGGGCATGATTCGGGCTGGTTCCCGGATGCGACATGGGCGTGGTTAAAGGGCAAAAGCCTGGATTGCGCCATTCTCGACTGCACGCATGGATATACGGGGAACTCCCGCGACCGCAATCATATGTGCGTGGAAACGGTGCTGGAAGTCCAGCGCGAGTTCCAAAAAGAAAATATCCTGAAGCCCGAAGGCCAAATCGCCGTCACACATTTTAGCCATAATTCCAAGCTGCTACATGAGGATTTTGTCCGCATCTTCAGCCCCGTCGGTATTTTGCCGGCATATGACGGGTTGATCATCAACATTTAA	MKIHFLGTAAAEGFPNAFCRCEHCNKARELGGKNIRTRTSAILDDVIKFDYSPDSYMQALRDNIDLGAIEHLLVTHSHMDHFNAADLECRREGIAHGLQHPLHIYGNGTVMHHTRAAIGRFEGQRYQFHLLRPYETFAMGDATVTPLLADHDRMETCLLYVIEKEGKKLLYGHDSGWFPDATWAWLKGKSLDCAILDCTHGYTGNSRDRNHMCVETVLEVQREFQKENILKPEGQIAVTHFSHNSKLLHEDFVRIFSPVGILPAYDGLIINI	PGPT0002480_306	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002480-phnP-K06167	NA	NA
AK002_04820	1152	purR_3		HTH-type transcriptional repressor PurR	ATGAAAGATGCACGTTTGATGAAACAGAATCAATTATATCACCGGGTGGCTGATCAGGTAATCGAGATTATTCAGAGTCGTCGGCTGCGGCCGCATGATCCTGTTCCATCCGAAGGAGAGCTTGCCAAGCTATTCGGCGTAAGTCGGATGACGAGCAAGCTGGCGCTTCAAAAGCTGGCAGAGCAGGGACTGGTGTACCGCCTGCCCCGCAGAGGGACCTTCCTTGCCCAGCCGCAAGATGGATTGCTGGCCGATGGAGGAACTTCACCAAAGGTCACCGAGGCGGCGCCGAACGTAGAGAGGCCGTTCGGACAGATCGCACTCATTATGCCTCATCTATCCGATTACACTTCCAGAATCATCGCCGCCGCCGAGGCTGAAGTGCGAAAGCACGGGTGCGACCTCATTTTAAAAATGACGAAGGACCGCGACGATGAGGATCTTTGTCTGGAAAGGCTGGTCGAAGGAGGGATCACCGGCATCATTCTGTTTCCTCAGGGGCGGAAGACCTGCAGCGATCAGGTGCTGCGACTAAAGCTTTGCAAACTGCCGCTGGTGATCATCGATCGTATTTTCCATGAAGTGGAGATCGATTGCGTGTATCACGACCATTATATGGGCTCTTATCAAATGACCAAGTATTTGATCGAGAAGGGGCACCGGGAGATCGGATACACTTCGAACCCGATCGACAATATCACAAGCCGGAAGGAACGGTATCAAGGCTATATCCAAGCGCTGCTCGATCATAAAATTCCGGTGAAGATCCAGAACATTCATTTTCGAAGCGTCACTTGCGATACCAGCCGCATTAATGAGCTCGATCCGGAACAGGAGCGGTTTATTCAGGACAACCCCCGGATGACGGCCATCATGTGCGGGGATGACCATGTCGCCATCTCGACCATTCACACCGCACTGCAAATGGGGATTCCGGTTCCTGAAAAGCTGTCCATCGTCGGGTTTTCCGATATCCAGTTAGCGGCATATATTCCGACACCGCTTACGACGGTTCGACAAGACACCGAGAAGCTTGCCCGATCGGCCGTTGATTTGCTGATGAAGCGCGTTGGCAACTCCAACGAGAATCCCATCACCATTAAAATTCAAACATCGATAGTAGAACGGCAATCCGTTCAATCCTGGACGTAA	MKDARLMKQNQLYHRVADQVIEIIQSRRLRPHDPVPSEGELAKLFGVSRMTSKLALQKLAEQGLVYRLPRRGTFLAQPQDGLLADGGTSPKVTEAAPNVERPFGQIALIMPHLSDYTSRIIAAAEAEVRKHGCDLILKMTKDRDDEDLCLERLVEGGITGIILFPQGRKTCSDQVLRLKLCKLPLVIIDRIFHEVEIDCVYHDHYMGSYQMTKYLIEKGHREIGYTSNPIDNITSRKERYQGYIQALLDHKIPVKIQNIHFRSVTCDTSRINELDPEQERFIQDNPRMTAIMCGDDHVAISTIHTALQMGIPVPEKLSIVGFSDIQLAAYIPTPLTTVRQDTEKLARSAVDLLMKRVGNSNENPITIKIQTSIVERQSVQSWT	PGPT0017490_88	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_04821	1425			hypothetical protein	ATGAAGGAATATCAACTTATTTTGAAAGAGAAGAAAATCGTTTGGGGAGAAACCATAGATATTGAACAGTTCATTGATAACAAACCAGTCAATTCCATCAGACAGGGCGAAAACTCGAACATGGATTGGAATTTGCCTGCAGGCGTATATCGAGCCAAAGAAATTGTTATCGAACTCGATAAAATGCTTGAGGCCATGCTGGTTCAGCTGGGCAAACCAGTAAACAGCGATCCGACAGTACTCTTAGATAGCCTGCTAGCCAATCTGGCGATTTCCGGACGCCTGTCTTCTTTGCCCTTAAAATCATTGGAACTTGAAGATCATGCCGGTACAGAGATTAGAGCTCAAGCGGTACGCATCGGAGAACAATTGGTAAGCTGGGCCAGAGAAATCAATGCTGAGAAAAAGACATTGGCTGAGTATGGGAAAGAAACGCTTAGTGAACTGGAATTTCGAAGCCACTGTTATGGTCATCCGCTGACCCCGGAAGCCACTGCTCAGGTTTGGGGACCATTCGGCGGACCAAGGATTATGCAGATTTATAATGAATACTTACACCAATTCGTTTTACTTCGGGATGCCTTGTTGCCATTTGCTAATTGGGAAGAGGTTCCGTTTGAGGTCAAGGAATATAGAGAATTCAAAGGATTGCGCTTTCTGGAGCCATCCCGAGAAGTATTCTTAACGCAACTGTTCAAGAAAAAATTGACACATAAATCGATCATCCAATATGCACAAAGTGTGGTTAGCTCAGGGCTCGAAAAGGCCGGTTACGGCTTCCAATATCGTTTAGGTACCGTTTTGCCGGCTGGTTTGGGTGAGTCTGCCCGTACGGCATCCCGCTATCTCCTGAGATGGCATCCAGTACAAACGATACAGGTAGTTGATGGAGAAGGTTTGACTGCGGTCTCGTTCGATTATGAATATGAAGATTATTATTCCGCGCCCCGTACGGAGGCAGGAAAAGGAACACCGGCAGACGATAAATTGCTTCCTGAGTATGGGGAGGATTACAATGAACCATCGATTGCCAGGTTGCTGCCAAATACAATTACGGATCGAACGACTCTACAGTTCAGTATCGAGATGAATGGCAGCGAGTTTGCAGTAGATCTTGGTCAGCTTTTTAGGGGGCAGCGCTTTTTATATCGGCCACAGATAAACAGCAATGCTGGGAGCGAATTTATAAAGCGCGAATACCTCCACTGGCACCCTGCTGAAGACATTCTCTCGCACTCCGGATTAGTCACCAATGTAGATGGCATCCATTTCATTCCGACTGGCAAAAATGAACTTGTCCTACGGGCTTTACTAGGTAAACTCTATCCCGAAAATGTAGTTTTATTGGATAAAGGAGATCAGGAGGAACTGGAAGCGGCTTATGTTTCCGGCAAAGGCTTCGGTACGCAATTTCTAGTGCTGTAA	MKEYQLILKEKKIVWGETIDIEQFIDNKPVNSIRQGENSNMDWNLPAGVYRAKEIVIELDKMLEAMLVQLGKPVNSDPTVLLDSLLANLAISGRLSSLPLKSLELEDHAGTEIRAQAVRIGEQLVSWAREINAEKKTLAEYGKETLSELEFRSHCYGHPLTPEATAQVWGPFGGPRIMQIYNEYLHQFVLLRDALLPFANWEEVPFEVKEYREFKGLRFLEPSREVFLTQLFKKKLTHKSIIQYAQSVVSSGLEKAGYGFQYRLGTVLPAGLGESARTASRYLLRWHPVQTIQVVDGEGLTAVSFDYEYEDYYSAPRTEAGKGTPADDKLLPEYGEDYNEPSIARLLPNTITDRTTLQFSIEMNGSEFAVDLGQLFRGQRFLYRPQINSNAGSEFIKREYLHWHPAEDILSHSGLVTNVDGIHFIPTGKNELVLRALLGKLYPENVVLLDKGDQEELEAAYVSGKGFGTQFLVL				NA	NA	NA	NA	NA
AK002_04822	1221	pbuE_6	COG2814	Purine efflux pump PbuE	TTGACCAGACAACAAAAGTTTTTGACAATGAATTTATTTTTATTGACCTTTATTCTAGGGACCAGTGAATTTTTGATGGTCGGATTATTATCTGAAATTGCCACAGATATGAAAATCGCCATATCGACTGCAGGCTTTCTGGTGACGGCTTTTGCGCTTACCTTTGCTATAGGGACCCCGGTCTTCACAGCATTATTCAGCCGATTTTCCAAATTCCCGCTCATCCTTGTCTTGCTCAGTATATTTATTGTGGGGAATATCGTTACGGCTTTATCAGGATCATATGGCCTGCTTCTGGTGTCCAGAATAATCACGGCCGTGGTTACCGGCGTCTTGATTGCACTCGCGATGTCAGTGGCAAGTGAAGTCATGCCTCCAGAAAAAAGAGGGCCGGTGATCTCTATCATCTTTACTGGTTTCACTGTGGCGAGCGTCCTTGGCGTACCCCTTGGCACTTTTATCGGACAATGGGGCGGGTGGCATTTGGCCTACTGGTTTACCACAGTGTTAGGAATCATTTCTTTGATAGCAAGCGTCGCAACCATTCCTAGAGGACTAAAAGGAAAACACAGTTCACTCACAAAACAACTCAGATTGCTCGCTTACCCCAGAATTGTGCTTGCTTTTGCCATTATGATGTTAAGCATAGCAGCTACTTATAGCATCTATACGTATTTAGCTCCTTTGCTTCAGGATGTGCTTTTTGTTCCGGCCCGTTATATTAGTCTCATCTTTTTACTGTATGGTGTTGTGTCTATTTTCAGCACGCTAATCGGAGGAAAGCTGGCTGTCGGCGACGGGATGAGAAAAATTCGCTATGTGCTTCTGGCTCAAGCCGTCATCTTGGTGTCACTTTATTTTACTTCCGGCTCTCTTGTTGGGGGACTGGTCAGCATCTCATTCATGGCTCTCGTTGTTTATCTTATGAACTCGACGATGCAGTTGTACTTCATTGATTATGCCGATGAGCATGTTCCGGAGGCAAGAGATTTGGCTTCATCCTTAACCTCCGTCGCCAACAATGTTGGCATTGCGATCGGATCCGCTTTAGGTGGAATTATCACTACGAACATGAAGCTTATTGATCTTTCCTGGTCTGGTGGGATTGTGGCCGTACTCGCGGCAGTGTTGGCATGGGCCAACTATCGTTTGAAGCAAGGAACTGTCAGTACGACTAAAGAGAATAATGCACTGCATGAGCAATACCAAGGAAATATATAA	MTRQQKFLTMNLFLLTFILGTSEFLMVGLLSEIATDMKIAISTAGFLVTAFALTFAIGTPVFTALFSRFSKFPLILVLLSIFIVGNIVTALSGSYGLLLVSRIITAVVTGVLIALAMSVASEVMPPEKRGPVISIIFTGFTVASVLGVPLGTFIGQWGGWHLAYWFTTVLGIISLIASVATIPRGLKGKHSSLTKQLRLLAYPRIVLAFAIMMLSIAATYSIYTYLAPLLQDVLFVPARYISLIFLLYGVVSIFSTLIGGKLAVGDGMRKIRYVLLAQAVILVSLYFTSGSLVGGLVSISFMALVVYLMNSTMQLYFIDYADEHVPEARDLASSLTSVANNVGIAIGSALGGIITTNMKLIDLSWSGGIVAVLAAVLAWANYRLKQGTVSTTKENNALHEQYQGNI	PGPT0028991_970	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
AK002_04823	363	hxlR_2	COG1733	HTH-type transcriptional activator HxlR	ATGATAAACTTTAGAGACAAAGAATATCGGTGTACCTCGGAAATTGTACTCGGCTTAATCAGTGGGAAATGGAAGATATCCATTTTAAACCGCTTAGCAAAAGGTCCAGTACGGTACAATGAGCTGCGACGGGAACTTCCTGAAGCAACCCAACGCATGGTTACGATGCAGCTAAGAATGCTAGAAAGCGACGGACTTATTATTCGCAAGGTTTATCCAGCTTCACCGCCAAAAGTGGAATATTGCTTGTCTCGGCTAGGCGAACAACTGGCCCCTATGCTCACGATGTTATGCGATTTTGGAACCGACTATATCGAAAGCTTTCCCGATGAAGTATTGTACACAAATCACAAGAATGCATAA	MINFRDKEYRCTSEIVLGLISGKWKISILNRLAKGPVRYNELRRELPEATQRMVTMQLRMLESDGLIIRKVYPASPPKVEYCLSRLGEQLAPMLTMLCDFGTDYIESFPDEVLYTNHKNA				NA	NA	NA	NA	NA
AK002_04824	627	comR_3		HTH-type transcriptional repressor ComR	ATGCCGCGAACAGGACGTCCACGTACATTTAATCGTGACGAGGCGGTTGCCGCCGCCATGATTCTTTTCTGGGAATATGGCTTTGAATCCACTTCACTGGCTCAGTTAAAGGCCGCAATGGGAGATATATCCTCTGCAAGTTTCTACGCAGCGTTTAAGTCAAAAGAAGAACTGTTCCGTGAAGTGATTGATCGCTACATATCGATGTATGGACATGCTTCGGAAACTTTCAAAAATACAAACATAACGTCGAGAGCAGCCATCGAAATGGGATTGCTAGAAGCAGCTCGGTTCCAGACAGAGAACACTCACCCTTTAGGTTGTCTGTTGGTTTTGTCCACAGTTAACTGTTCTCCTGAGCAACAACATATCCAAGACCTTCTGTCAAAGGAAAGAAAGAGAGTCCGGGGGTGGATCAAAGATTGTATAGAACGAGCCGTAACCAACGGGGAGTTGCCAGGATCCACGGATATCTCCATGGTGATTACGTTATTTGAAACCTTCTTACGAGGGATTTCTACACAAGCCCGAGACGGTGTTCCATATGAGGAAATTGCAGCTGCCATAACTCATTTGATGAGCGTATGGGATTCGTTATCTGTTGAACACGATATTAGGGAGGATTGA	MPRTGRPRTFNRDEAVAAAMILFWEYGFESTSLAQLKAAMGDISSASFYAAFKSKEELFREVIDRYISMYGHASETFKNTNITSRAAIEMGLLEAARFQTENTHPLGCLLVLSTVNCSPEQQHIQDLLSKERKRVRGWIKDCIERAVTNGELPGSTDISMVITLFETFLRGISTQARDGVPYEEIAAAITHLMSVWDSLSVEHDIRED	PGPT0004136_288	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041	NA	NA
AK002_04825	870			hypothetical protein	TTGAGTAAGAACCAACGAGAACATATTGCACTGATTACAGGCGCAAGTAACGGGATCGGATTGGCGTTGACCCGGAAAATGCTGTCGGGGAACTGGCAGGTGGTTGCTTTGAACCGATCGGATTTTCCAGCGGACGATAGATTCCTCCAAAAACATCTCAAGGACGGACGGCTCCGGGCCTATAAAGTGAAGGATCTCACCGATTATGGCAGCTTGAGGCACTCTTTGGAAGAAATCAAAGGCAAGGAACAGCGGATCGATATTATGTTTAACAACGCCGGAGGAGGCTTAAGTGAGCTGCGCTATTCCAAACAAGGCCGCGAATTGCATTATGAATTGTTGACGGTCGTTCCTTTTATTGTTCTGATGGAATTGAAGGAGCTGTTGAAGAACGGCAGCTTAAAAACCGTGATTAACACTTCCTCGCAGGTGTTTAGATTTACGAAGGAGTTTACGATCGAAAAATTGGAGCATCCCAAAACCTTCCGCAAAATGTATGGACCCTATGCGACTTCAAAGCTGGCTCTTTCGTTGTGGACCCAAGCCGTCGCACCGCAGCTTGCAAAGGAAGGCATTAAGATCCGCAGCGTTGACCCAGGCATTAACAATACGCTAAGAAAAGGAAAAGATTCCGGACTGACCGCAGGGTTTGAACTGTTTATGAAGTTTTTTTCCTCTCCGCCTACTCATGGAGCCAACCTATTATATGAGGGAGCTCTGGGCAAAAACAGCAATGAGACCGGCGTGTTTCTGTTCAAAGATCGGATTGCGGACTTGAAATTTACAGAACATGCGCAGCGTGTGCTGGAAAAAATCTCCGATATATATAGCCTTGAATATCTTGGAGGGAATGTTCAAGTTAATGGCTGA	MSKNQREHIALITGASNGIGLALTRKMLSGNWQVVALNRSDFPADDRFLQKHLKDGRLRAYKVKDLTDYGSLRHSLEEIKGKEQRIDIMFNNAGGGLSELRYSKQGRELHYELLTVVPFIVLMELKELLKNGSLKTVINTSSQVFRFTKEFTIEKLEHPKTFRKMYGPYATSKLALSLWTQAVAPQLAKEGIKIRSVDPGINNTLRKGKDSGLTAGFELFMKFFSSPPTHGANLLYEGALGKNSNETGVFLFKDRIADLKFTEHAQRVLEKISDIYSLEYLGGNVQVNG				NA	NA	NA	NA	NA
AK002_04826	951	tdh_3		L-threonine 3-dehydrogenase	ATGGAGACTACCATGCGGACCATCCGATTCCACGAATACGGAGAACCAATGGATGTCTTATGCTTGGATGAGGTGGCGATCCCAGAGCCAGGGCCGGGACGCATTCGCGTGAGAGTACGCGCTTGCGGCTTAAATCCGGTTGACTGGGTGACGTGCCAAGGCCATTTTGTCGGTCAATTGCCCTTGCCTCGCGGAATCGGGCTGGACGTGGCCGGTATGGTAGACGCAATCGGAGAGGGCGTAACCGATGTTGCCATCGGCGATTCCGTTCTGGGTGGGGCAGATTTCATGAATGGATCGAGCGCCGGTGCGTCGGATCAAGCGATTATGTACTACTGGTTCCGCATGCCGGCCGGACTCGACTTTGTTCAAGCTGCAGCGTTGCCAATGGCAGTCGAAACCGCTTACCGTGGCATTGATACTCTTGGGGTGAAATCGGGTCAGACCGTACTCGTGCACGGAGCCGGCACCACGGTAGGGTTCGCTGCCGTTCAAATTGCCCTCATGCGCGGTGCCCGTGTGATCGCAACCGCTGGGCCCACCTACGCCGACAAGCTCCGCTCCATGGGGGCGTTGGTGACCTCGTACGGTGATGGAATGGTCGAACGAGTGACCGAACTGACGAAACAGCCGGTTGACCTCGCCCTGGATACGGCGCCAAACAGCGGTTCATTGAAAGATCTGGTCGAAATCGTCAACGGGCATCCCCAGCATGTCCTAACCGTCAGCGATTTCGCCGCAGCCGCTGAACTTGGCGTTCGCACCAGCTATGGAGAACTACATACCGCACGTTATGACGTTGTCGGCGACTTTGCCGGGTACGCAGCGGACGGCAAGTTCACGATTCCGGTCGCGAAGACTTTCGAACTCGATGAATGGCGTTCAGCTGTTCAAATCAGCCAGAGCGGGGGTGCCCACGGCAAACTGATTCTCCTGCCCGACTCCGACTGA	METTMRTIRFHEYGEPMDVLCLDEVAIPEPGPGRIRVRVRACGLNPVDWVTCQGHFVGQLPLPRGIGLDVAGMVDAIGEGVTDVAIGDSVLGGADFMNGSSAGASDQAIMYYWFRMPAGLDFVQAAALPMAVETAYRGIDTLGVKSGQTVLVHGAGTTVGFAAVQIALMRGARVIATAGPTYADKLRSMGALVTSYGDGMVERVTELTKQPVDLALDTAPNSGSLKDLVEIVNGHPQHVLTVSDFAAAAELGVRTSYGELHTARYDVVGDFAGYAADGKFTIPVAKTFELDEWRSAVQISQSGGAHGKLILLPDSD				NA	NA	NA	NA	NA
AK002_04827	759	baiA		3-alpha-hydroxycholanate dehydrogenase (NADP(+))	ATGGAATCATTCAGTAAGGGCAAATTTTTTGGAAAAAAGGTCGTGATCACGGGAGGCAGCAGCGGAATCGGCCTTGCGACGGCGAAGCTGCTAGTGGATGAAGGCGCACACGTTCTGATTACTGGACGTACTCAGGCGACGCTGGATGCGGCTCGTGAACAACTCGGAAGCCACGCGATCGCGGTCTTAAGCGATGCCGCCTCATTGAAGGATATCGCCGCATTAGCCGATCGAGTGGAGGCTGAATTTGGAACCGTAGATGCCCTGTTCGTTAACGCTGGTGTCACGGGGTTTGTCCCTTTCGAAGCAATGACAGAAGAAAAGTACGACGAGATACTTACAATCAATGCCAAAGGACCGTACTTTACCGTGCAGAAGCTCGCTCCGCTGCTTGGCTCAGGTAGCGGGGTAGTCCTTACCACCTCAATCGTGAACGTAGTGGGTCTCCCAATGCTCAGTGCTTACGCAGCTAGTAAGGCGGCGCTGCGCTCCATGACTCGAGGTCTGGCGCGCGAATTATTACCTCGAAATATTCGCGTCAACGCAGTCAGTCCCGGCGTTATTGACACAGGCATCATGGAAAAGGCAATGCCGGAAGAAGCTGCCGAGCAGACAAAGGCACAGATGAGACAGCAAATTCCAATGCTGCGTTTAGGCGATCCAGTTGAGGTAGCTAAGGCTGTTGCATTTCTAGCATTTGAGGCCACCTATACCACCGGGGCTGAGTTCCCTGTCGATGGAGGCGGCTCCCAGATTTAA	MESFSKGKFFGKKVVITGGSSGIGLATAKLLVDEGAHVLITGRTQATLDAAREQLGSHAIAVLSDAASLKDIAALADRVEAEFGTVDALFVNAGVTGFVPFEAMTEEKYDEILTINAKGPYFTVQKLAPLLGSGSGVVLTTSIVNVVGLPMLSAYAASKAALRSMTRGLARELLPRNIRVNAVSPGVIDTGIMEKAMPEEAAEQTKAQMRQQIPMLRLGDPVEVAKAVAFLAFEATYTTGAEFPVDGGGSQI	PGPT0003180_20634	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
AK002_04828	639			hypothetical protein	GTGAGAAAAGCTGTGAGTGTAGATACCTATGTGGAAAAAATAAAACCCATTATAAGAAAAACAAAATTCAGCCAACTGAAAGTCGACGATCTCGCAAAATATATGGATATCAGCAAAGTGACACTCTATAAGCATTTTTCCTCCAAAGACGACATCATCGAACAAGTCGTGGATTATTACATTGATTATTCGAAGAAGGCTGACACCGTTGTGAAAGACGATGCCGTCTCTTTTTTGGATCGTTTTCAATTAACATTTTTACAATCTTTAATGTGTGCCGCGTATATCTCTGATTTGTTCTTGCAAGATCTGAAGGAATTTTATCCACAGCATTTTGAGAATCTGTCCGTTGCCCTACAGAATCGGAATAAAAGCTTACAAACTTTTTTTGAATCCGGTATGGAGCAACAGATTTTCAACAGATTGAATGCCGTGTTGTTTATGGTTCAAGATGACGCTGTTCTGCGACGCTTTATCGAGCCCTCATTTTCGATTCAGTATGATATCACTGTGAAACAAGCGATTATGGATTTCTACTACATGAAGCAGTATCAATTGCTCAAACCTGAATATCTGAAAATGATTGACGACTCCGATATGGAAAGGAAGATCGTTCATATTTTGCAAGCCATTTCGTAA	MRKAVSVDTYVEKIKPIIRKTKFSQLKVDDLAKYMDISKVTLYKHFSSKDDIIEQVVDYYIDYSKKADTVVKDDAVSFLDRFQLTFLQSLMCAAYISDLFLQDLKEFYPQHFENLSVALQNRNKSLQTFFESGMEQQIFNRLNAVLFMVQDDAVLRRFIEPSFSIQYDITVKQAIMDFYYMKQYQLLKPEYLKMIDDSDMERKIVHILQAIS				NA	NA	NA	NA	NA
AK002_04829	1365	ilvB_1	COG0028	Acetolactate synthase large subunit	ATGGGCACGGATGCTTTTCAGGAAGCGGACATTATTAGCATCACGATGCCGATTACGAAGCACAGCTACATGGTTCGCGATGTACACGACCTTCCTCGCATCATTCATGAAGCGTTCTACATTGCAAATACGGGCCGCAAAGGTCCTGTCTTGATCGATATTCCAAAAGACGTGACCAATCAGCGGATGGCATATCGTTCAGCGGACACGGTTCGGTTGCGCGGATACCATGGAGCTCCGGAACCGAATCCGGCAGAAATGGATGCGCTGCTTCAGGCGATTGCCGAAGCGCGCAAGCCGGTTATTATCGCAGGCGGCGGCGTTGTCTATTCGAACTCCTCGCAGGAGCTGATCAAGTTCGTCCACACTACGCGAATTCCGGTCGCGACGACTCTGCTCGGCCTCGGCGGGTTTCCGAGCGATGACGAGATGTGGCTGGGCATGCTCGGACATCATGGCGTATATGCGGCGAACATGGCGGTACAGAATGCGGATCTCATTATTTCGATCGGCTCGCGTTTCGATGACCGGGTCACGATGAAGCTGGACGGGTTTGCGCCTCAGGCCAAACGTATCGCCCATATCGATATCGATCCTGCGGAAATCGGCAAGAACGTCAAGACAGATCTCGCATGCATCGGCGATATTAAAAACGTGCTGGCTTATGCGAACACGAAAGCGCAAGCAGCCCAGACGGGCACCTGGCTTGAGCAGCTTCAAGAGTATAAGGTGCAGCATCCGCTTCGGTATACCGATTCGGATACAGTCATTAAGCCGCAATATGTGCTCGAGATGATTAGCGAGACGACGCAAGGAGAGGCAATCATCACCACCGATGTAGGCCAGCACCAAATGTGGACCGCGCAGTTTTACCGCTTCAAGCATCCTCGCTCGCTCATCACGTCGGGCGGTCTTGGCACGATGGGCTTTGGCTTCCCGGCCGCGATCGGCGCTAAAGTCGGAAATCCGGATCGTCTCGTCGTCTCGATCAACGGCGACGGGGGCATGCAGATGTGCGCGCAGGAGATGGCGATCTGCGCGATTCATCAGATTCCGGTCAAGATCGTGGTCTTGAACAACCAGGTGCTCGGCATGGTTAAGCAGCAGCAGGAATTGATGTACGAGCGACGCTACAGCCAGATTGATCTGTCCGGCAGTCCGGACTTCGTCAAGCTAGCGGAAGCATACGGGATCAAGGGATTAAGGGCAACGAACAAGGATGAAGCCTCCAAGGTCTGGTTAGAAGTGCTGCAGACGACAGGACCTGTGCTCGTCGAGTTCGTCATCCCGACCAATGAGAATGTGTACCCAATGGTGCTTGCCGGCACGCCGCTGGACCAAATGATTCTAGGGTACGACGAATAA	MGTDAFQEADIISITMPITKHSYMVRDVHDLPRIIHEAFYIANTGRKGPVLIDIPKDVTNQRMAYRSADTVRLRGYHGAPEPNPAEMDALLQAIAEARKPVIIAGGGVVYSNSSQELIKFVHTTRIPVATTLLGLGGFPSDDEMWLGMLGHHGVYAANMAVQNADLIISIGSRFDDRVTMKLDGFAPQAKRIAHIDIDPAEIGKNVKTDLACIGDIKNVLAYANTKAQAAQTGTWLEQLQEYKVQHPLRYTDSDTVIKPQYVLEMISETTQGEAIITTDVGQHQMWTAQFYRFKHPRSLITSGGLGTMGFGFPAAIGAKVGNPDRLVVSINGDGGMQMCAQEMAICAIHQIPVKIVVLNNQVLGMVKQQQELMYERRYSQIDLSGSPDFVKLAEAYGIKGLRATNKDEASKVWLEVLQTTGPVLVEFVIPTNENVYPMVLAGTPLDQMILGYDE	PGPT0008185_3775	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
AK002_04830	405			hypothetical protein	GTGGAACAGAAATTAGGAATGAAGAATGAAACAACGACGCCATCAGAGGAATATATCACCGGTTCGGAGGTGCTTTTGCGCGGCTTGCTGCAGGAAGGCGTAGAGTGCGTATTCGGTTATCCTGGAGGAAATGTGCTCTATATCTATGACGCGATGGTACATCAGCCGGATTTCAAGCATATCTTGACCCGGCACGAACAAGGCGCGATCCACGCGGCGGACGGCTATGCTAGGTCGACGGGGAAGGTTGGGGTATGCATCGCGACATCCGGTCCAGGAGCAACAAATCTGGTGACCGGGATTGCAACCGCCTATTATGGATTCGGTGCCGCTGGTGATCATAACCGGGAACGTATCTACGAATGTCATGGGCACGGATGCTTTTCAGGAAGCGGACATTATTAG	MEQKLGMKNETTTPSEEYITGSEVLLRGLLQEGVECVFGYPGGNVLYIYDAMVHQPDFKHILTRHEQGAIHAADGYARSTGKVGVCIATSGPGATNLVTGIATAYYGFGAAGDHNRERIYECHGHGCFSGSGHY	PGPT0008185_3775	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
AK002_04831	855			hypothetical protein	ATGAAAATGAATCGTTCCTCATCCGCATTGGGTGACTTCCTTAAATCGCGCAGAGAACGGTTGCAGCCTTCAGAGGCCGGGATTCAGCCGCTGCCCGGACGAAGACGCACTCCGGGACTTCGAAGAGAAGAAGTCTCTTATCTTGCCAATATAAGCGTGACTTACTATGCCTGGCTGGAGCAAGGCAAGGAGGTTAATCCTTCGCCGGAAGTGCTGCTAAGTATCAGCAAAGCGCTTCAGCTTGACGAAGACGAGCAGAAGCATCTATTCGATCTGGCCAATGTAGATGTGGCGAGCGTCGTCACAGTGCCAAATAACGGTGGGCCGGATACGGGAGTTCTGCAGAAAATCGTAAATCAATTGCATTATCCTTCTTTTATCACAGACGAAGGTACGGATGTTATCGCTTGGAATCGGGCGGCTGAACTGATCGTAGCCGATTTCGGCAGTCTGCCGGACAACGAACGGAATATGATGGACATTATGTTTTTAAAGCCTGATTACCGCAACAGACTGGTGAATTGGGAAGGCGCTGCCCGTTACTCTGTAGCCATTCTGCGGGCAGGCTTCGATCTTTACAAGAACAACCCGTTATATATGGAACGGTTTGAACGCTTGACGCGGGAAAGCGTGGAGTTCGTACATTTCTGGGAGCTGTATGAAATCAAACAAAAACGCGTAGCCACCGCTTTATTCCGTGTTCCTGACGCACAGGAGATGGAGTTCGAGCTCCATTCCGCGGCTGTAATCGATAATGACCCGGGACTGCACTGGTGTTTCTTTGTTCCGGTGCCCGGTTCAGGTACGGAGGAGAGATTATTGCGTTTACTTGAGCAGGACAGGCAGCTACCGTAG	MKMNRSSSALGDFLKSRRERLQPSEAGIQPLPGRRRTPGLRREEVSYLANISVTYYAWLEQGKEVNPSPEVLLSISKALQLDEDEQKHLFDLANVDVASVVTVPNNGGPDTGVLQKIVNQLHYPSFITDEGTDVIAWNRAAELIVADFGSLPDNERNMMDIMFLKPDYRNRLVNWEGAARYSVAILRAGFDLYKNNPLYMERFERLTRESVEFVHFWELYEIKQKRVATALFRVPDAQEMEFELHSAAVIDNDPGLHWCFFVPVPGSGTEERLLRLLEQDRQLP				NA	NA	NA	NA	NA
AK002_04832	873	hcaB_3		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGCAAACTTGGTTCATTACAGGAGCATCAGGAGGCTTGGGTTCACGTATAACTCGCCAGTTGCTTGATAGGGGGGACCGTGTCGCCGCAACGGTACGCAAGCCGGGGGTGCTGGATGATCTGCAGGCACAGTATGGCTCTGGGCTTTGGCAGGCTAATTTAGATCTGACAAACTCTCAGCAAATTGCTGAAGTGGTGGAACGTGCATTTTTAGAACTGGGCACGATCGATGTGTTTGTCAATAATGCAGCCTATGGCTTGTATGGCGCAGTGGAAGAAGCAAGCGACAGGCAAATTGAGCATCAGTTTATGACCAATGTGCTTGGCTCCCTGCGTGCAGCGCGTGCAGTCCTGCCCTTTTTCCGTAAGCAGGGCGGCGGTCACATGGTACAGATTTCGAGTATGGCGGGTCATTATTCTATTCCGGGTATGGGACTGTATTGCTCTACGAAATGGGCGGTCGAAGGAGCCTTTGAAGCGCTAGCTAAGGAAGTGGCTCCGTTCAATATTAAGACCACTATGGTGGAGCCCGGCGGAATCCGAACGAATTTCATTACAAGCAACGCCGTATTCGGCGAGCGGATGGACGAATACCGGGATACGGAGGCGGGCCAATTCGTTAGCCTGATGAAGGGAGAACTGCCTGGTATAGATATGAGCATGTTCAATCAAATGGTTGTCGGCGATCCGGATAAAATGGCGCAGCAGATTATCCGCCGAGTCGACCAGGGAGAGGGTCCGATACGTATGGCGTTGGGCAGTGACGCCTATGAGCAAATCCGGGCAGCCCTGCTGGACAGACTCGCCGCTCTGGAAGCACAGAAAGAGCTGGCTCACTCCACTGATTCAGATGATGTGGTAAAACAATTTTAG	MQTWFITGASGGLGSRITRQLLDRGDRVAATVRKPGVLDDLQAQYGSGLWQANLDLTNSQQIAEVVERAFLELGTIDVFVNNAAYGLYGAVEEASDRQIEHQFMTNVLGSLRAARAVLPFFRKQGGGHMVQISSMAGHYSIPGMGLYCSTKWAVEGAFEALAKEVAPFNIKTTMVEPGGIRTNFITSNAVFGERMDEYRDTEAGQFVSLMKGELPGIDMSMFNQMVVGDPDKMAQQIIRRVDQGEGPIRMALGSDAYEQIRAALLDRLAALEAQKELAHSTDSDDVVKQF				NA	NA	NA	NA	NA
AK002_04833	1176	pbuE_7	COG2814	Purine efflux pump PbuE	ATGAGAAACTCATGGAAAATTTATATTCTGGCTATTGTCAGCTTTTTAGTCGGAACTTCGGAGTTTGTGATTACCGGCATTTTGGATATGCTTGCAAGCGATATTGGAGTGTCGGTAGTAGCGGCCGGGCAGTTGATTACGGTTTACTCGCTTGCTTATGCCATCGGCACCCCGATTCTTATTGCACTTACGGCAAAAATGGATCGAAGAAAGCTTATGCTATCGGCTTTGGGATTATTTTTCGTTGGGAATTTGATCACGTTCACAACTACAGGCTACGGCATGCTGCTCGGAGCAAGAATTATTTTGGCGATCAGCACGGGGGTATTTATGGTCGTCGCCATGACGGTTGCCGCCAAAATGTCTCATCCTGGAAAACAGGGCAGCGCTATCGCCACGGTTTTAGTGGGCTTTAACCTCGCACTTATTCTAGGGGTCCCGCTTGGGAGGATCATTGCGGGCTCACATGATTGGAAAATCATCTTCACGGGAGTCGGGGCCCTAAGCTTGGTCGCGATGGTGGTCCTTTTGCTTACGATTCCGAAATCGGAAGGAGAGGCTCCCGTTCCTATTCGGGAACAGCTTGCCTTATTAAAAAGCCCCCGAATCGCTGTCGCGCTTTCCATCAGTTTTTTCTGGATATTGGGCTATACGATGCTGTACACCTATATAACGCCGTTTCTTCTGGACATTACGGGGATGAGCGAAGGGATGGTCAACGTCGGGTTGTTTGCGTTTGGGCTGGCCAGTCTCATAGGCTCCCAAGTTGGCGGCTACGGTGCAGATAAATGGGGTATCCCCCGTACGATGATTGGGGGCCTGCTCTTTCACTCCGGAATATTATTGTTACTGACTGCGTTCTCCCACTCGTCCATGTTCGTGTTGCCTTTGCTTATGTTCTGGTCCTTTTTTGCTTGGTCGATGGGGCCGGTTCAACAGGTTTATTTAATCGGCATGGCTCCTCAGGCTTCGGGGATCGTCCTGAGTTTGAACAATTCGATCGTGCAGTTGGGCATGGCCGTAGGGGCTGTAATTGGGGGTATCGTTGTAGAAAGCATCTCTCTTGCAGCAGTTGGTTGGTTTGGCGGAGTTGGCGTCGCAATGGCACTCATCCCGGCTATTATTTCTTTATCCATGCGTCGCCGATCTGCAGCGGCGGAACAAAGCGGAGCGTAA	MRNSWKIYILAIVSFLVGTSEFVITGILDMLASDIGVSVVAAGQLITVYSLAYAIGTPILIALTAKMDRRKLMLSALGLFFVGNLITFTTTGYGMLLGARIILAISTGVFMVVAMTVAAKMSHPGKQGSAIATVLVGFNLALILGVPLGRIIAGSHDWKIIFTGVGALSLVAMVVLLLTIPKSEGEAPVPIREQLALLKSPRIAVALSISFFWILGYTMLYTYITPFLLDITGMSEGMVNVGLFAFGLASLIGSQVGGYGADKWGIPRTMIGGLLFHSGILLLLTAFSHSSMFVLPLLMFWSFFAWSMGPVQQVYLIGMAPQASGIVLSLNNSIVQLGMAVGAVIGGIVVESISLAAVGWFGGVGVAMALIPAIISLSMRRRSAAAEQSGA				NA	NA	NA	NA	NA
AK002_04834	1068			hypothetical protein	ATGAGCGGTCAAACAAATACGATGGAGATTGGAATGAGCACCTTCCTCCATGCTAATCCCGGGAATGGCGGTGTCTCGCATGCCGAGAGGCTGCGCCAAGCGATCGAAGAAATCCAATTGGCAGATCAGGTCGGCCTTGATGTTTATGCCATCGGCGAGCATCATCGCATCGAATACACAAGCTCGTCGCCAGCCGTCATTCTGGCAGCAGCTGCAGCTACAACGAAGCGGATCCGGCTCTCGAGCGCAGTGACGGTGCTGTCTTCGGACGATCCGGTGCGGGTATATCAGGACTTTGCAACGCTGGACGGTCTGTCGAACGGGAGAGCGGAGATCATGGCCGGACGAGGTTCGTTCATCGAATCGTTCCCGCTATTCGGCTATGACCTGAAAGATTACGAGGAATTGTATGAAGAGAAACTGGAACTGCTGTTGAAGATTCGCGCTTCCGAAAAGGTCACATGGCGTGGCGGTCATCGCCCGGCGATTGACAACATGGGCGTCTATCCTCGTGCACAGCAGGAGCCTTTGCCTGTCTGGATCGGAACAGGGGGCAGCCCGGAGTCGGCTGTTCGGGCCGGCCTGCTGGGACTTCCGATTACCTTCTCTATCCTGGGCGGAGCGCCGCAGAGATTCGCACCCTTGGTGGAGCTTTATAAAGAAGCGGCCGTGAAAGCCGGCCACGATCCGAATAAGCTGCAAATTGCTACGCATTCACATGGCTTTATTTCGGATACGGCACAAGAGGCAGCTAAGCGGTATTATCCTGTCATGGCTGGCCAAATGAACCACATTGGACGGGAACGAGGCTGGCCTACCTATACACGTGACTCGTACGATTCAGCCCGCAGCCTTCACGGCGCTCTTTACGTCGGAGATCCCGAATATGTCGCAGAAAAAATCGTGCTGCTGCATAAGAATCTTGGCTTGACTCGCTTCATGATGTACATCGATTTCAGTTCATTGCCGCATCGCGACTTGCTGCGGACGATTGAGCTTCTCGGCACCAAAGTAGCGCCGATTGTCCGTAAGGAGCTCGCCCATCAGACGTCTGACCATAACGCCTAA	MSGQTNTMEIGMSTFLHANPGNGGVSHAERLRQAIEEIQLADQVGLDVYAIGEHHRIEYTSSSPAVILAAAAATTKRIRLSSAVTVLSSDDPVRVYQDFATLDGLSNGRAEIMAGRGSFIESFPLFGYDLKDYEELYEEKLELLLKIRASEKVTWRGGHRPAIDNMGVYPRAQQEPLPVWIGTGGSPESAVRAGLLGLPITFSILGGAPQRFAPLVELYKEAAVKAGHDPNKLQIATHSHGFISDTAQEAAKRYYPVMAGQMNHIGRERGWPTYTRDSYDSARSLHGALYVGDPEYVAEKIVLLHKNLGLTRFMMYIDFSSLPHRDLLRTIELLGTKVAPIVRKELAHQTSDHNA				NA	NA	NA	NA	NA
AK002_04835	282			hypothetical protein	GTGGGAGAAAATCAAGAAGCTATGGGGCAAGCGGTTAAAGTGTATAAAGCTTTGGGGGAACCAACCCGGCTGAAGATAGCTTTACTGCTTGCGAAAGAGAGCAATTTATGCTTCACCGCGGTCGGTGAAAGGCTTGAATCGGTTGCAGGCTCGACGCTATCGCATCATTTAAAGCAATTGACGGACTCTGGCTTGATTGATTCTCGCAAGAATGGATCGTTTATTCACTATAACGTCAATCGAGAAGTAGCGGAAAAATTTGCGCCCTTTTTGTTGGCGTAA	MGENQEAMGQAVKVYKALGEPTRLKIALLLAKESNLCFTAVGERLESVAGSTLSHHLKQLTDSGLIDSRKNGSFIHYNVNREVAEKFAPFLLA	PGPT0004735_4999	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_04836	612			hypothetical protein	ATGAACAAGAAAACCGACCTAAGAATACTGCGCACGAAACAATCGATTCGAAAGGCGTTTTATGAGCTTATTCAGGAAAAGGGATATGAATCGATAACGATCCAGGATATTGCCGATCGGGCTATGATCAATCGAAGCACTTTTTATCTCCACTACCAAAATAAGCCTGATTTATTAGATACATGTATGAATGAATTGTTGAGCGAATTAAAGGATGCGGTCATTCTTTGTCCCATCAGCATGAATCCTTTCAGTATTTCTCTACTCGAGACAGTCATGCAGACTGTACTGGAGCATATTTCTCTAAATTTGACCTTTTATCATTCCATGTTAATAGATGAGAATAGAATCTATCAGTTTCAAGCGAAAATGGAGGATATCATTAAAGATAAATTAATTGAGGGGTGGAAACCTGCTCAGGGAAACTCCCCATTAGCGATATCCAAGGAATTGCTGATCGAATACCTCGGATCGTCTTTCATGGGGATTGTAATTTGGTGGATTAAAAACGATAAACCCCTTCCTGCAGATGAAGTTTCATCTCAGTTTAGCAGAATCGTTGCCTACGGGCATTTAAGAGCTGCCGGCATCGCCGTCGAGGAAAAAAATTAG	MNKKTDLRILRTKQSIRKAFYELIQEKGYESITIQDIADRAMINRSTFYLHYQNKPDLLDTCMNELLSELKDAVILCPISMNPFSISLLETVMQTVLEHISLNLTFYHSMLIDENRIYQFQAKMEDIIKDKLIEGWKPAQGNSPLAISKELLIEYLGSSFMGIVIWWIKNDKPLPADEVSSQFSRIVAYGHLRAAGIAVEEKN				NA	NA	NA	NA	NA
AK002_04837	780			hypothetical protein	ATGACATCCAACCATCAAAATGAGCTTGTTCGTAAGGCAGTCGCCGTACTGGAAAGTTTTGAGAGCGGCAACCCCGAAGCGATTACGGCTTACGTTCATCCAGATCAATATATTCAGCATAACCAGGCCTTACCCGATGGTCGTGAATCCATGCTTGGCGCACTTGATCATTTACAGGAAATGGGTACTAAGGTAAGCATTAAGCGTACTTTAGTCGACGGAAATTATGTGGCTCTTCATTCTGTATATCATTTTCACGGCCCTAAAATCGTATTTGATCTCTTCCGTTTTGAGAATGGACTAATCGTCGAGCATTGGGACAATTTGCAAGAGATGGTGGAGAAGACACCAAGCAATCATACGATGATTGACGGACCGGTTACGATTAAGGATATCGACAAGACGGATGCCAACAAAGCATTTGTCAAAAGCTATGTTGAGAACATCTTGCTCGGGAAGAACCCTGACCTGCTTGCCTCTTACTTTGATGGAAATCACTACATTCAGCATAGTCCGCATATTGCAGACGGCCTTTCCGGTCTTCACGCTGCTTTGCAGGCTCTGAAGGAGAGAAATATTGAGTTTCAATATACTCATGTCCACCAAGTAATCGGACAAGGCAATTTTGTCCTTACAATGAGTGAAGGTCTATTTGATGGTCAACATACTGCTTTCTACGATATGTTCCGCGTAGAGGATGGAAAGATCGGTGAGCATTGGGACGTAATCGAGGCCATACTGCCGGCAGAAAAACGAAAAAATTCGAACAGTAGATTTTGA	MTSNHQNELVRKAVAVLESFESGNPEAITAYVHPDQYIQHNQALPDGRESMLGALDHLQEMGTKVSIKRTLVDGNYVALHSVYHFHGPKIVFDLFRFENGLIVEHWDNLQEMVEKTPSNHTMIDGPVTIKDIDKTDANKAFVKSYVENILLGKNPDLLASYFDGNHYIQHSPHIADGLSGLHAALQALKERNIEFQYTHVHQVIGQGNFVLTMSEGLFDGQHTAFYDMFRVEDGKIGEHWDVIEAILPAEKRKNSNSRF				NA	NA	NA	NA	NA
AK002_04838	1191			hypothetical protein	ATGAAAATGCTGACACAAAAAATGATGTGGCTGGGAATGGTGCTCGTCCTGATCGTGTTGACCGTATTCGGGGCAGCGATGATGGGATCGGTGCTTGGATCAAAGCCAAAGGAGGTCCCGGTGGCCCTCGTTATCCTTGACCAGCCGGCGGAGCTGCCGACCGGAGGAACGTTTGCGATAGGGGAAATGATCCGGGAAAAGTTGCTGTCGAGCCCGGCAATGCCGTTTGTCTGGCATGTCGTGGATTCCGAGGAAAAGGCTCGGGAAGGACTGGATAAACGCGAATATTACGGAGCGATGGTGATTCCGACGGATCTGAGCAGCGGTTTACTCTCGTTAGCAACTCACTCGCCGATTCACCCTAATGTGAAAATCATCTCCAACGAGGGTATGAACACCCAAGCCTCGATGGTCGTAAGACAGACAATGGGGCAAGCAATGAAAATGATCAATGGGGAACTGTTGCAGCAGCTGCTTGGACAGATCGGACAGCAAACGGAGCAAATTCCGGTTGAAACGGCTAAAGCTTTAATGACACCGGTGAACGTTCTGGAGGAAGTCGTGCATCCAACGGGAGTGAATAATGCGTCGGGGAATGCGCCGGGTTTGTTGACCCAGATTATATGGATCGGCAGCATGGTGACCGGAGTCGTCTTGCTCCTGGCTAGCCAGAAGGCGATCGCCGCGGGTTCAAGAAGATGGACAGTCAGCGCGCTGCAAGCTATCGGGGGGCTTGCGATCGTCGGCATCGCCACGTGCTTCACCATATGGATGGCTTCGTCGTGGTACGGCATGGAGCTGGCGAACGCGGGGGAGACGTGGTTGTTCTTATGGTTGGCTGGATCGGCGTTCTTCTTGTTGCAATCTTCCTTGCTGAATTGGATCGGATTCCGGGCAATACCGCTGCTCGTACTGCTGATGTTCTTCTCCGTGCCGCTGCTGAACATGGCTCCGGAGTTCTTGTCGCAGACGACGCGAGCTTGGATCTATTCGTGGACGCCACTGCGGTTCGCGGCAGGAGGGCTACGGGAAGTAATGTACTTCGGCGGACTGGACGCAGCTCACTCAAACGCCTTGATTTTGCGGGGCGTCGCCGGTGGATTTTTGGTCTTGCTGCTCACTTCCGGATTTAAGGCCGATCGAGCAACACATGCCGCCCCTGCTTCTGTTACAGGCGATACAATAAAGTAA	MKMLTQKMMWLGMVLVLIVLTVFGAAMMGSVLGSKPKEVPVALVILDQPAELPTGGTFAIGEMIREKLLSSPAMPFVWHVVDSEEKAREGLDKREYYGAMVIPTDLSSGLLSLATHSPIHPNVKIISNEGMNTQASMVVRQTMGQAMKMINGELLQQLLGQIGQQTEQIPVETAKALMTPVNVLEEVVHPTGVNNASGNAPGLLTQIIWIGSMVTGVVLLLASQKAIAAGSRRWTVSALQAIGGLAIVGIATCFTIWMASSWYGMELANAGETWLFLWLAGSAFFLLQSSLLNWIGFRAIPLLVLLMFFSVPLLNMAPEFLSQTTRAWIYSWTPLRFAAGGLREVMYFGGLDAAHSNALILRGVAGGFLVLLLTSGFKADRATHAAPASVTGDTIK				NA	NA	NA	NA	NA
AK002_04840	474	nrdR	COG1327	Transcriptional repressor NrdR	ATGAAGTGTCCATATTGCAGTTATGCCGGAACGAAAGTGCTGGATTCCAGGCCAGCCAACGAGAACAAGTCCATCCGCCGCCGCAGGGAATGCGAGCAGTGCAGCAAGAGGTTCACAACCTTTGAAATGGTGGAGGAAACGCCGCTGATCGTCGTGAAAAAGGACGGAAGCCGCGAAGAGTTCAGCCGGGAGAAGGTGCTCCGCGGTTTGATAAGGGCATGCGAGAAGCGTCCGGTATCCGTGGACCAGCTGGATATGATCGTTTCGGATGTTGAGAAGGCGCTGCGCAATACGGCGGCAGCGGAAGTGGAGAGCCGCCAGATCGGGGAGCTTCTGATGGAACGGTTATATCCGGTCGACGAGGTGGCTTACGTTCGGTTTGCGTCCGTATACCGGCAATTCAAAGATATCAATATGTTCATGAAGGAACTGAAAAGCCTGCTGTCCAAGGATACGGACGTACAGGAGCTGTAA	MKCPYCSYAGTKVLDSRPANENKSIRRRRECEQCSKRFTTFEMVEETPLIVVKKDGSREEFSREKVLRGLIRACEKRPVSVDQLDMIVSDVEKALRNTAAAEVESRQIGELLMERLYPVDEVAYVRFASVYRQFKDINMFMKELKSLLSKDTDVQEL				NA	NA	NA	NA	NA
AK002_04841	228			Small, acid-soluble spore protein alpha	ATGGCACAAAGCAACAACAACTCCAACAACCTGGTTGTTCCTCGCGCAAACGCTGCTCTTGAGCAACTGAAATACGAGGTAGCTCAAGAACTTGGTATCTCCATTCCACAAGACGGATACCAAGGTAACATGACTTCCTATGAGAACGGTTCGATCGGGGGATACATCACAAAACGTCTTGTAACCCTGGCCGAGCAACAATTGGCTGGTCAATACTCCGGTCAATAA	MAQSNNNSNNLVVPRANAALEQLKYEVAQELGISIPQDGYQGNMTSYENGSIGGYITKRLVTLAEQQLAGQYSGQ	PGPT0024865_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024865-SASP_B|sspB-K06419	NA	NA
AK002_04842	567	mltC		Membrane-bound lytic murein transglycosylase C	ATGAAGTGGCTTCGTAAAAAAAGGGTGCTGCTCCTGCTGTTCGTTTCTTTTGTAGCGCTGCTGTTCCTAAGCTCCAATTGGATGACCCTGCTGTATCCGATCCATTATAAGGATGAGATCCGCAAACATGCCGCCTATTATGAGGTTGATCCGTTTCTGGTGGCCTCGATCATCCGGGTGGAAACGAATTTCAAGCCGGGCAAGGAATCCAAGAAGGGCGCGCTGGGCATTATGCAGCTGATGCCGGATACGGCGAACTGGGCGATGGAAATGGCCAAGCTCCCGTCGGTGAACCTGCTGAGCGTAAAGAATGAAGTGGATGCAAACATCCAGCTGGGCACCTGGTACATTCAGAATCTGCACAAAGAAATGGACGGCAATCCGATTGCCGCCATCGCCGCTTATAATGCGGGCCCGGGGAACGTCAAGAATTGGATCAACAAGGGCATGTGGGATGGAACCTATGAGAACGTGAAGAGTATACCCATCGGGGAAACCCGGCATTATGTACAGCGCGTGATTTATTATTATAATCAATATACGGATGTGTATAAGGGCGGCTTCTAA	MKWLRKKRVLLLLFVSFVALLFLSSNWMTLLYPIHYKDEIRKHAAYYEVDPFLVASIIRVETNFKPGKESKKGALGIMQLMPDTANWAMEMAKLPSVNLLSVKNEVDANIQLGTWYIQNLHKEMDGNPIAAIAAYNAGPGNVKNWINKGMWDGTYENVKSIPIGETRHYVQRVIYYYNQYTDVYKGGF	PGPT0024070_3072	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-SOLUBLE_LYTIC_MUREIN_TRANSGLYCOSYLASE_ACTIVITY,PGPT0024070-slt-K08309	NA	NA
AK002_04843	600	coaE		Dephospho-CoA kinase	ATGAATATCGGTTTAACCGGAGGAATTGCAACAGGCAAAAGCACCGTGTCCTCCATGTTGGCCATGAAGGGAGCGCTTCTCGTCGATGCGGATATCATCGCCCGGGAAGTGATGCTCCCGGGTCATCCGGTGCTGGGTAAAGTGACCGAACATTTTGGACAAGCGATCCTGTTTGAAGACGGTACGTTGAATCGAAAGAAGCTCGGGGAGATGATCTTCCATCATCCGGAGCAAAGAGCGGCTTTGAATGAGATTACGCATCCGGCAATCCGGCAGGAAATCCGGGAACGGACGGAGGCGTATGAACGGCAGTATCCCGACCGGCTGGTGGTAGCGGATATTCCATTGCTGCTGGAGGCAAGGGAAGCCTATCCTTATCTGAAGCAGATCGCTGTCGTCTATGTCCCGCGCGAGCTGCAGCTTGCGCGTTTGATGGAGCGGGACGCTCTTACCCGGGAAGCGGCAGAGGCGCGTCTTAGCAGCCAGATGGACATTGAGCAGAAGAAGCTTCGAGCGGATATCCTGATCGATAACAGCGGCACGTTGGCCGAAACGCAGCAGCAGGTGGACAACCTGTGGAACAGGTTGGTTCAGTTATGA	MNIGLTGGIATGKSTVSSMLAMKGALLVDADIIAREVMLPGHPVLGKVTEHFGQAILFEDGTLNRKKLGEMIFHHPEQRAALNEITHPAIRQEIRERTEAYERQYPDRLVVADIPLLLEAREAYPYLKQIAVVYVPRELQLARLMERDALTREAAEARLSSQMDIEQKKLRADILIDNSGTLAETQQQVDNLWNRLVQL	PGPT0008835_3682	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
AK002_04844	741	ytaF		putative sporulation protein YtaF	GTGCTCAGTCATATTTTCTCGTCTGCCCTGCTGGCCATGGCGTTAAGCCTGGACGGATTCGGGGCAGGGGTTACATACGGTCTGCGCAAAACAAGGATACCGCTGCTGTCTGTATTGATCATCTCGCTGTGTTCCGGTTTGGTGCTTGGCGTCTCCATGCAGGCAGGCGCGCTGCTGCAGCGGTTCTTATCCCCATCTGCGGCATCCGTGATCGGAGCTGCCATTTTGATACTGCTGGGCCTATGGTCTTTATATCAGCAGGTTCGGAGAAGCAGCGAGCCTGAAGTGCAGCCGGCATCCGCCGTGGATTCTTCCGCATCGCTTACGGAAACGCAGGGAGCCATTCGTCAAGGGACACCGCGTCGTGAAGTTACCACGGCAGGCCAAGAGCAGCTTCAGCGAGCGGTATTCTCCCTTGAAATACCGAAGATCGGCGTCGTCATTCAAATTCTCCGCAGCCCGACGAAAGCGGATCTGGACGACTCCGGCAGCATCTCTCCATGGGAGGCGATGTGGCTGGGGATCGCGCTGTCGCTCGATGCGTTCGGAGCCGGGCTCGGCGCAGCGATGCTGGGTTTCTCGCCGCTAGGCACCGCAGCCGTGGTTTCCTTGTTCAGCGGGATATTTCTGGTGCTGGGCATGCGGGTCGGCCTCCGTTTTGCGGCCAAGGGCGGCATGCGTTTTATCTCGTATTTGCCTGCTTTTTTATTAGTTGTCATGGGTATAATGAAGCTGTTATGA	MLSHIFSSALLAMALSLDGFGAGVTYGLRKTRIPLLSVLIISLCSGLVLGVSMQAGALLQRFLSPSAASVIGAAILILLGLWSLYQQVRRSSEPEVQPASAVDSSASLTETQGAIRQGTPRREVTTAGQEQLQRAVFSLEIPKIGVVIQILRSPTKADLDDSGSISPWEAMWLGIALSLDAFGAGLGAAMLGFSPLGTAAVVSLFSGIFLVLGMRVGLRFAAKGGMRFISYLPAFLLVVMGIMKLL				NA	NA	NA	NA	NA
AK002_04845	834	mutM_2	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCGGAATTGCCGGAAGTAGAAACCGTGAAACGAACACTTAACCAATTGATTAAAGGTAAGCATATAGATCATGTATACGTGAACCTGCCGCGGATTATCCAGCGTCCTGACGACATCGAGGCATTTGCTTTTATGTTAAAGGGCCATACCGTGGAAGGCGTGGAGCGCCGCGGGAAGTTTTTGCGGATCTTGCTGGACGGGCTGGTGCTCGTTTCGCATCTTCGGATGGAGGGGCGTTACGGGGTGTACCGAGCCGAGGAGCCGGTGGAGAAGCATACCCATGTCATCTTCCATTTCTCGGACGGGACGGAGCTGCGGTACAAGGACGTGCGCCAATTCGGAACGATGCATCTATTTGCGCCGGGGGAAGAGTTCCAGCATGCTCCCCTTGCCAAGCTTGGTTATGAGCCGCTGGATGACACGTTTACGTTCGGAACCTTCAAGGAAGTCATCGGCACCAAGAAAACGAAGATCAAAGCGGTGCTGCTGAATCAGGCATATGTGGTCGGCATCGGCAATATATATGTTGATGAGGCCTTGTTCCGGGCCAAGATTCATCCGGAGCGGAACGCGAACAGCCTGAAGGATGCCGAGCTCAAGCGATTGTATCATGCGATCGTGGATACGTTGTCCGAAGCCGTCGATGCGGGCGGTTCTTCCATCAAGTCCTATGTCAACGGGCAGGGCGAGATGGGGATGTTCCAGAACAGCCATCAGATTTACGGTCGGAAGGACAAGCCGTGCCATGCATGCGGCGGCCCGATTCATAAGATCGTGGTCGGCGGACGGGGGACCCATTACTGTCCGAAGTGTCAGCCGGTCAAGAAGTAA	MPELPEVETVKRTLNQLIKGKHIDHVYVNLPRIIQRPDDIEAFAFMLKGHTVEGVERRGKFLRILLDGLVLVSHLRMEGRYGVYRAEEPVEKHTHVIFHFSDGTELRYKDVRQFGTMHLFAPGEEFQHAPLAKLGYEPLDDTFTFGTFKEVIGTKKTKIKAVLLNQAYVVGIGNIYVDEALFRAKIHPERNANSLKDAELKRLYHAIVDTLSEAVDAGGSSIKSYVNGQGEMGMFQNSHQIYGRKDKPCHACGGPIHKIVVGGRGTHYCPKCQPVKK				NA	NA	NA	NA	NA
AK002_04846	2661	polA		DNA polymerase I	ATGGACAAGCTGATTCTGATTGATGGAAATAATATCATTTACCGGGCATTCTTTGCGATGCCGCCGCTGACCAATGCCAGCGGACAACAGACGAATGCGGTTTACGGCTTTACGACGATGCTGCTTCGCTTGATCGAGGAGCATAAACCGACGCATATGATGGTGGCATTCGATGCCGGCAAGGAAACGTTCCGGCATGCGGATTTTCAAGAGTACAAGGGCGGCCGACAGAAGACGCCGCCGGAGCTCTCAGGACAATTCCCGCTGCTGAAAGAGCTGCTGAAAGGCCTGGGCGTCTCCCAATTCGAAATCGGCGGTTATGAGGCCGACGACATTATCGGCACGATTACCCGCCAGGCTGACGAAGCCGGACGCAAGGTGATGGTCGTCTCCGGGGACAAGGATATGCTGCAGCTGGCTTCGGAGCATACCACGATCGCGATGGTCCGCAAAGGCGTCACCGAAATCGAGTATTACGGACCGGAACAGATTAAGGAGCGGTATAACCTGACGCCTGATCAGATTATCGACCTTAAGGGATTGATGGGCGATGCTTCCGATAATATTCCCGGCGTACCGGGAGTAGGGGAGAAGACTGCGCTGAAGCTGCTTCATGAATTCGGATCCGTTGAAGCGGTGGTGTCCCGGACCGATGAGCTGAAGGGCAAGATGAAAGAGAAGATCGAGGAGCATGCGGATTCCGCCATACTGAGCAAGAAGCTGGCTACGATCTTCCGCGAAGTGCCGCTGGAACAGTCGCTGGATGAAATGGCATTTACGGGCCTGAATGAAGAGACGGCTGGTCCCGCACTGGCGAAGCTCGAGTTTAAATCGCTTATTGAACGGTTGAACCTGAGCACAAGCGGGGCCGCTGGTGATGCGGCGGAGTCGAAGCCCGAAGCGAAGATCGACGTGACCCTTGTGGACGCGACGGGAATTGCCGAGGTTGCGGATCATCTGGCACAAGCGACCGTGCTCCATGTGGAAACGCATGGGGACAACCCCCATCATGCGGACGTGATCGGGCTGGCACTCGCGACGGAGGAGCGGCAGTACTTCCTCCCGTTTGACGTGCTGAAGTCGGAAGAGGCGGAGCCTGTCCGTGCTTGGCTTGCCGATAGCGAGATCCCAAAACGCGGGTATGACCTGCACCGTATTGACCTGGCGCTGCATTGGCAGGGCATCGCTTTTGCCGGCGCGGCATTCGACGTTCACCTGGCAGCCTACCTGCTGGATCCTACGGAATCGAATCAAACCCTTAGCGGGCTGGCCTCCAAGTACGGACTGGCCTATCTTCAAGCCGATGAGGACGTGTTCGGTAAAGGGGCCAAGTACAAGGTTCCCGATGTGGAGAAGCTCAGCGAGCACATGGCCAGAAAATGCCTGGCCGTATCCGAACTGGTTCCCATTCAGGAGAAGGAACTGGCTGCGAATGAAATGCTCCCGCTGTTCCATGATCTGGAGATGCCGCTTTCGCGCATTCTGGCCGATATGGAGAAGCAGGGTATTGCCGTGAATGCGGAGGATTTGAAGGAGCTGGGACGCGAGTTCGAAGGGCAGATCGCGAAGCTCGTTCAGGAGATCTACGAGATCGCCGGAACGGAATTCAATCTCAATTCGACTAAACAGCTCGGCGAAATCCTGTTTGTTAAGCTGGAGCTGCCGGTCATCAAGAAGACCAAAACCGGTTATTCCACCGATGCCGAGGTGCTCGAAAAGCTGGCGCCTTATCACGATATCGTCCGCTTGATTTTGCAGTACCGTACATTGGCCAAGCTGCAATCCACTTACGTGGAAGGACTGCTGAAGGAGATTTCATCCGTAACCGGCAAAGTGCATACCTACTATCGTCAGACCATTGCCGCTACGGGGCGTCTGAGCAGCCAATACCCGAATTTGCAGAACATTCCGATCCGTCTGGAGGAAGGGCGCAAGCTGCGCAAGGTTTTCGTTCCGTCGGAACCGGGCTGGAGCATTCTGGCGGCGGACTACTCCCAAATCGAGCTTCGCGTGCTTGCGCATATCTCGGACGACGAACGGCTGAAGGAAGCCTTCGTCCACGACATGGACATCCACACCAAGACGGCGATGGACGTGTTTGGAGTCGGCATGGATGAGGTGGACTCCAATATGCGCCGGTCCGCCAAGGCGGTTAACTTCGGCATCGTGTATGGAATCAGCGACTATGGCCTGTCCCAGAACCTGAACATTACGCGGAAGGAAGCGGCAGCATTTATCGACCAGTATTTCGAGGTGTTCCAGGGCGTGCGGCGCTATATGGACGTGATCGTCAAGCAGGCGAAGCAAGACGGGTATGTGAAGACCTTGCTCGAACGCAGACGGTATCTGCCGGAGATTAACGCCAGCAATTTCAACCTGCGCTCTTTTGCGGAGCGGACGGCGATGAATACGCCGATTCAGGGAACGGCCGCGGACATCATCAAGCTGGCCATGGTCCACATGGACAAGGCGCTCCATGAGCGCCAATTGAAGAGCCGCATGCTGCTCCAGGTGCACGATGAATTGGTGTTCGAGGTACCGGAGGATGAGCTGGAGGTCATGAAGGAATTGGTGCCGGACGTGATGAGTCAGGCGCTGAAGCTGTCCGTGCCGCTGAAATCGGAAGTCAGCTATGGCGAGAACTGGTACGAGGCGAAGTAA	MDKLILIDGNNIIYRAFFAMPPLTNASGQQTNAVYGFTTMLLRLIEEHKPTHMMVAFDAGKETFRHADFQEYKGGRQKTPPELSGQFPLLKELLKGLGVSQFEIGGYEADDIIGTITRQADEAGRKVMVVSGDKDMLQLASEHTTIAMVRKGVTEIEYYGPEQIKERYNLTPDQIIDLKGLMGDASDNIPGVPGVGEKTALKLLHEFGSVEAVVSRTDELKGKMKEKIEEHADSAILSKKLATIFREVPLEQSLDEMAFTGLNEETAGPALAKLEFKSLIERLNLSTSGAAGDAAESKPEAKIDVTLVDATGIAEVADHLAQATVLHVETHGDNPHHADVIGLALATEERQYFLPFDVLKSEEAEPVRAWLADSEIPKRGYDLHRIDLALHWQGIAFAGAAFDVHLAAYLLDPTESNQTLSGLASKYGLAYLQADEDVFGKGAKYKVPDVEKLSEHMARKCLAVSELVPIQEKELAANEMLPLFHDLEMPLSRILADMEKQGIAVNAEDLKELGREFEGQIAKLVQEIYEIAGTEFNLNSTKQLGEILFVKLELPVIKKTKTGYSTDAEVLEKLAPYHDIVRLILQYRTLAKLQSTYVEGLLKEISSVTGKVHTYYRQTIAATGRLSSQYPNLQNIPIRLEEGRKLRKVFVPSEPGWSILAADYSQIELRVLAHISDDERLKEAFVHDMDIHTKTAMDVFGVGMDEVDSNMRRSAKAVNFGIVYGISDYGLSQNLNITRKEAAAFIDQYFEVFQGVRRYMDVIVKQAKQDGYVKTLLERRRYLPEINASNFNLRSFAERTAMNTPIQGTAADIIKLAMVHMDKALHERQLKSRMLLQVHDELVFEVPEDELEVMKELVPDVMSQALKLSVPLKSEVSYGENWYEAK				NA	NA	NA	NA	NA
AK002_04847	660	phoU	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGATCCGGAGAATTGAGTTTGATCAGCAGCTTGATGAGCTGAGAAGTTTACTGCAGGATATGGGCAAGCATATGGAGGAGGCGCTGGCAAACAGCGTGGATTCCCTCCAGACCTTGGATGCGGAGAAAGCGCAGGCGGTTATCAAGAACGATGTGCAGTTAAACAACATGGAAGAGCAAATCATGGACATCGGCTCCCGCTTAATCGTGACCCAGCAGCCTGTGGCAAAGGATTTGCGCCGAATATTGGTTGCTTTCCGGATTGCAAGCGATTTGGAGCGTATGGGAGACTTGGCGCGGGATGTCGCTAAAGTCACGATCCGTCTGCAAGGCCAGAAACTGATCAAGCCTTTGGTGGATCTTCCGCGGATGTCGGATATGGTGCAAGCGATGGTTTCGGAATCCATCGAATCCTATCTGACGGAAAATACGGATCTGGCTTATAAAATGGCACAGGATGATGATCAGGTCGATCACTTGTACAGCGTCATTCTGCAGGACCTGTATTCGCATCTGACGTCCGATCCGGATTCGGCCAATCAAGCGATGCTGCTGATCATGGTGGGACGCTACATCGAACGGATCGCCGACCATGCAACCAACATCGGCGAGAGCACGGTGTACCTCGTAACGGGTCATCGTCCCGACCTCAATCAATAG	MIRRIEFDQQLDELRSLLQDMGKHMEEALANSVDSLQTLDAEKAQAVIKNDVQLNNMEEQIMDIGSRLIVTQQPVAKDLRRILVAFRIASDLERMGDLARDVAKVTIRLQGQKLIKPLVDLPRMSDMVQAMVSESIESYLTENTDLAYKMAQDDDQVDHLYSVILQDLYSHLTSDPDSANQAMLLIMVGRYIERIADHATNIGESTVYLVTGHRPDLNQ	PGPT0002630_3578	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
AK002_04848	756	pstB3	COG1117	Phosphate import ATP-binding protein PstB 3	ATGGAATCCATCATACAGATAAAAAAATTGAATTTATACTACGATACGTACCATGCGCTTAAAAACGTCGATCTGGACATTCCGGAGAAAACGGTGACGGCATTCATCGGACCGTCGGGCTGCGGTAAGTCAACGCTGCTGCGTACGCTGAATCGAATGAACGACATGATCCCTTCCACCCGGATCGAGGGCAGCGTGCAAATCGGCGGGACGGAAATCTACAGCGAGGAGGTCCACGTCGAGGCCTTGCGCAAGCAGGTAGGGATGGTGTTCCAGCAGCCGAATCCGTTCCCTAAATCGATCTATGACAACATCGCTTACGGGCCGCGCCTGCACGGCATCCGCAATAAAGCGGAGCTTGACCAAATCGTGGAGCAAAGCTTGAAGCAGGCTGTGCTGTGGGACGAGGTCAAAGATTATCTCAAGCGTTCCGCGCTTAGCCTGTCCGGCGGCCAACAGCAGCGCCTGTGCATTGCCCGGGCCCTTGCCGTACAGCCGGATATCCTGCTAATGGATGAAGCCACGTCCGCGCTGGATCCGATCTCGACGCTGAAGATTGAAGAGCTGGTGCAGGAGCTGAAGAGCAAATACACCATCGTCATGGTTACGCACAATATGCATCAGGCTGCACGCGTATCCGGGCAGACGGTATTTTTCCTGAATGGCGAAGTGGTTGAATCCGCGAACACGGATACGCTGTTCTCGACGCCGTCGGATGCACGTACCGAGGATTATATCTCGGGCCGTTTCGGTTAA	MESIIQIKKLNLYYDTYHALKNVDLDIPEKTVTAFIGPSGCGKSTLLRTLNRMNDMIPSTRIEGSVQIGGTEIYSEEVHVEALRKQVGMVFQQPNPFPKSIYDNIAYGPRLHGIRNKAELDQIVEQSLKQAVLWDEVKDYLKRSALSLSGGQQQRLCIARALAVQPDILLMDEATSALDPISTLKIEELVQELKSKYTIVMVTHNMHQAARVSGQTVFFLNGEVVESANTDTLFSTPSDARTEDYISGRFG	PGPT0002615_4743	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002615-pstB|phoT-K02036	NA	NA
AK002_04849	876	pstA	COG0581	Phosphate transport system permease protein PstA	ATGGAACAATTGAATCTGGGAGACAGCAAAGGAATCAACCGGAGACGCCGTAGTGACCAGACGCTGCATATGATATTCCTGGCTTGTACCAGCATCGGTATTCTTGTTTTGATGGCTTTGATCGTGACGATCGTGATGGATGGCGTTCATCGGCTCTCGCCTGAGCTGTTCACCAACTTTCCGTCGCGCATCGCGGATAAAGCAGGACTGAAATCGCCGATTGTCGGCACGATTTATTTGCTTTTGCTCATGGCTCCACTGTCATTTGTACTGGGCGTGGGCGCGGCCATCTTTCTCGAAGAGTACGCGGGCCGCAGCCGCTGGGTTCGGCTCATTCAGCTGAATATCAGTACGCTTGCAGGGGTTCCTTCTATTATATACGGTATCCTGGGGCTGGCGATTTTCGTGCGCGGCATGAATCTTGGCCGCAGCCTGTTGTCCGGGGTATTAACGATGACGCTGCTCGTGCTCCCGATTATCATCGTTGCGGCGCAAGAGGCGCTTCGCGCCGTGCCTAAGAACCGGCGTGACGCTTCATATGCGCTGGGCGCAACGAAATGGCAAACGGTATCCAGCGCCGTGCTGCCGTCAGCGATTCCTGGAATCATGACCGGGGTTATCCTGGCCTTGTCTCGTGCGATCGGCGAAACCGCACCGCTTATCATGATTGGTGCTTTAACGTACGTGGCCTTCTTGCCGGAAAATCTGCTCGATTCGTTTACTGTCATGCCGATCCAGATCTTTAACTGGGTATCCAGACCAAGTGAGGCATTCCACGAGCTGGCAGCTTCGGGTATCATCCTGCTGCTCATCATGCTGTTCATCATGAACATCGCAGCCGTGTGGATTCGGAACAAGTATTCGAAGAACATCTAA	MEQLNLGDSKGINRRRRSDQTLHMIFLACTSIGILVLMALIVTIVMDGVHRLSPELFTNFPSRIADKAGLKSPIVGTIYLLLLMAPLSFVLGVGAAIFLEEYAGRSRWVRLIQLNISTLAGVPSIIYGILGLAIFVRGMNLGRSLLSGVLTMTLLVLPIIIVAAQEALRAVPKNRRDASYALGATKWQTVSSAVLPSAIPGIMTGVILALSRAIGETAPLIMIGALTYVAFLPENLLDSFTVMPIQIFNWVSRPSEAFHELAASGIILLLIMLFIMNIAAVWIRNKYSKNI	PGPT0002610_4069	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
AK002_04850	933			hypothetical protein	ATGAACAAAACTTCACCCGTGGCGGCAAACACTAAAAGCATGACATTCCGTCGAAGCAAAACGCGCATCTCAGACAAAATCATTCCAATCCTGCTCGGCTTGTGTGCCATGCTTTCGGTGTTTACCACCATCGGTATTGTATATACGCTTCTACAGGAATCCGTGATCTTCTTCAAGGAAGTGCCGGTATGGTCCTTCTTGACCGGAACGACATGGAGTCCGATTCTCCCTCCAAAAGAATTCGGCGTGCTGCCCCTGCTGGGCGGCACATTGCTGATTACAGGCATTGCGATCATTTTCGCAGTGCCTATCGGCTTGGCATGCGCTATTTATCTCAATGAATACGCTCCTGCCCGGGTTCGGGGGGTTGTAAAGCCAGTGCTTGAAGTGTTGGCTGGTGTACCAACGATTGTTTACGGATATTTTGCGCTTGAAACCGTAACGCCATTCCTTCAAAAGATTTTCCCCGATATGGGGATATTCAATGCGCTTAGCGCGGGGCTCGTTGTCGGCATCATGGTCCTGCCGATGATTTCGTCTTTAAGCGAAGACGCGATGCGTGCTGTTCCCAAGAGTCTTCGTCATGGAGCATACGCGCTGGGTGCTACCCGATTTGAGGTTGCGCTGAAGATCGTGCTTCCAGCCGCTCTGTCCGGGGTCGTGTCCTCATTCGTATTGGCATTCTCGCGCGCGATCGGCGAAACGATGATCGTGACGGTGGCTGCAGGCGCCACGCCGCAGCTGACGTTGAATCCGCTGGAAAGCATTCAGACGATGACTTCGTATATCGTTCAGGTAAGCATGGGAGACGTTCCGCGAGGAACGATTGAATACGGCACGATTTTTGCAGTAGGTTTGACCTTGTTTGTCATCACCTTCTTGCTTAATATATTGGCGCAGTGGGTCGCTCGCCGCTTCAGGGAGGAATACTAG	MNKTSPVAANTKSMTFRRSKTRISDKIIPILLGLCAMLSVFTTIGIVYTLLQESVIFFKEVPVWSFLTGTTWSPILPPKEFGVLPLLGGTLLITGIAIIFAVPIGLACAIYLNEYAPARVRGVVKPVLEVLAGVPTIVYGYFALETVTPFLQKIFPDMGIFNALSAGLVVGIMVLPMISSLSEDAMRAVPKSLRHGAYALGATRFEVALKIVLPAALSGVVSSFVLAFSRAIGETMIVTVAAGATPQLTLNPLESIQTMTSYIVQVSMGDVPRGTIEYGTIFAVGLTLFVITFLLNILAQWVARRFREEY	PGPT0002620_3723	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002620-pstC|phoW-K02037	NA	NA
AK002_04851	1005	sphX	COG0226	Protein SphX	TTGTTTAAAAGAAGGGGTCGTAAACCAGCAGGTATTCTCGTACTGGTATTGATGCTGAGCACGCTTTTGGCGGCATGCGGCGGAGGAACAACTTCCGGCGGTGCTTCCGGAGAAAATACAGACAACGGTTCAGCACAGCAAAATGAAGGAAGTACAACAACAGCTTTGTCGGGGACGATTGAAATTGACGGCTCCAGCACATTGCATCCATTGACCGAAGCCATTGCCGAAGAGTTCGGCGCAGCTAACCCGGATGTCCGCATTCCGATCGGAACAGGCGGAACAGGTGGCGGTTTCAAACGCTTTAACAATGGAGAGATTCCAATCTCCAATGCATCCCGTCCAATTAAAGACAGTGAAGCTGAAGAAGCAAAATCCAAGGGCATTTCCTATCATGAGGTTCTGGTAGCTTATGACGGACTATCCGTTGTTGTTAACCCGAGCAATGAATTCGTAGATAAATTGACAGTAGATGAGCTGAAGAAAATTTACGAGCCGAACAGCACCGTAAAAACATGGGCTGACGTTCGCGAAGGATGGCCGGCAGAGGAAATCAAAATTTACTCTCCTGGTACAGACCACGGAACATTCGACTACTTCACAGAAGCGATTAACGGTGAAGCACAAGCAAGCAGAAACGACAGCCAAATCACGTTCAGTGCCGATACAAACGCAGTCGTACAAGGAGTTGCTGGCGACAAAAACTCCATCGGATACTTCGGATTCTCCTTCTATGAAGAGAACCAAGACAAGTTGAAGCTGGTTCCGATCGATAACGGTACAGCTACCGTAGCTCCAAGCATGGAAACGATCAAGGATAACAGTTATGCTCCATTGTCCCGTCCGCTGCTGCTTTACGTAAACGATAAAGAGCTTGAGCGCCCGGAAGTGAGTGCATTCATGACCTTCTACCTTGATAATGCCGCTAGTCTTGCTGGCGAAGTCGGTTTCGTACCGCTTCAAGACGAACAGTATCAAGAAGAAAAAGACAAGTTGGCAAAATAA	MFKRRGRKPAGILVLVLMLSTLLAACGGGTTSGGASGENTDNGSAQQNEGSTTTALSGTIEIDGSSTLHPLTEAIAEEFGAANPDVRIPIGTGGTGGGFKRFNNGEIPISNASRPIKDSEAEEAKSKGISYHEVLVAYDGLSVVVNPSNEFVDKLTVDELKKIYEPNSTVKTWADVREGWPAEEIKIYSPGTDHGTFDYFTEAINGEAQASRNDSQITFSADTNAVVQGVAGDKNSIGYFGFSFYEENQDKLKLVPIDNGTATVAPSMETIKDNSYAPLSRPLLLYVNDKELERPEVSAFMTFYLDNAASLAGEVGFVPLQDEQYQEEKDKLAK	PGPT0002625_4286	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
AK002_04852	1116			hypothetical protein	ATGGATGGCCAATCAGCAAGCAAACCTGAAGCAGGCGCATTATATCGGCAGTACATAAGAAAGGTCCCTATTATCCGAAAATCCGAAACCTGCCTCGACGTGCTGAATGTTTTTACGAAGGATCAGCATATTCCTTGCGTTATTTATTGCGATGAGTCAGACAGGCCGTCGGGGCTGATCATGCGGGATGCTTTTTACCGGCGAATGATGGGCCGGTTTGCCGTTGACCTGTATTATTCCAGGCCGGCCTTCCAGTTTGGGGACCATCAACCGATGAAGGTCGATGTGACCGAGAAGGTAGGAACACTGCTGCAATTGGCCCTGCGGCGCCCGGATTCGAAATTTTATGATTGCGTCCTGATGACGGAGGCTGACCGCCTGCTGGGCGTGCTTACCGTTCGGGATTTAATGAGCCTGTCGAGCGGTCTCCAAACGGAAGCCGAAGAGAAGCGGGAGCTGATTCTTCAGGAAAGCTTCCGGCATACCGGGAACATCCAATCCTCGTTGACCGAGGTTCGAGCGGCGGCAGCCAGAACGAATGCGGAATGTATACGGATGAGGGAATGGTCCCAGACGGGTAAGAAGAAGCTTGACCATGTCCGAACCTCTTATCTTGGCCTAGTGGAGGATATGACGAAGCGTGAAGGGCAGGCTGCCGAGCTCGCTGCGGATGCCAGCCGCATTTCCTCGATAACCGGGATGATTACCGAGCTGGCCAATCAAAGCAGTTTGCTGGCAATGAATGCTTCGATTGAAGCTGCGCATGCCGGAGAGCATGGGCGGGGATTTCAAGTGGTAGCGGCAGAGGTGCAGTCGCTGGCCAAACAAACGCGTAAGCTGTCAGGGGATATCGCCCAGCTGCTGGAGCATATCCAGCGGCTGGCGGGAGATACAGCCGTAGGCGCCGTATCTTCGCTGAGGGAAATCCAGTCCTGCGAGGGGTATGTAACCGAAGGCGCCGAAATGTTTAACGAAATGGAGACCGCCGTCGAGAAGGTTCAGAAGTCGGGGAATCAGGTTTATCAACTGGCGGAGGAAACCGTTAGGCGCGTGGAGCGGGTGAAGGATGAGCTCGCAGGATTAAACGGATCGTTAGAAGAAAAGCCGAGCCTATGA	MDGQSASKPEAGALYRQYIRKVPIIRKSETCLDVLNVFTKDQHIPCVIYCDESDRPSGLIMRDAFYRRMMGRFAVDLYYSRPAFQFGDHQPMKVDVTEKVGTLLQLALRRPDSKFYDCVLMTEADRLLGVLTVRDLMSLSSGLQTEAEEKRELILQESFRHTGNIQSSLTEVRAAAARTNAECIRMREWSQTGKKKLDHVRTSYLGLVEDMTKREGQAAELAADASRISSITGMITELANQSSLLAMNASIEAAHAGEHGRGFQVVAAEVQSLAKQTRKLSGDIAQLLEHIQRLAGDTAVGAVSSLREIQSCEGYVTEGAEMFNEMETAVEKVQKSGNQVYQLAEETVRRVERVKDELAGLNGSLEEKPSL	PGPT0015710_26147	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_EXCLUSION,PGPT0015710-mcp|tlpC|tlpA|dcrA-K03406	NA	NA
AK002_04853	732	phoP_4	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	TTGACGCAACGCATGCTTGTCATCGAAGATGAGCCGACACTTTCGCGGCTGTTGTCTTACAATTTGACGCAGGAAGGCTTTCAAGTCGAGGTAGAGGAACACGGTACGGCAGGTTACGAGAAAGCGTCACAACATGAATACGATTTGATCCTGCTGGATGTTATGCTGCCTGGCATGAACGGCTTTCAGATCTTAGAGAAACTACGCAGTAACGGAATTACGACGCCGATCATCATTTTGACCGCGAAGAACGCCGAAGAGGAAGTTGTTCAAGGTTTGAAGATGGGGGCGGATGACTATATTACCAAGCCGTTTGGCGTGTCCGAGCTGCTGGCTCGCGTATCGGCCGTCATGCGCCGGGTGTCCGGTCATGCTGACGAGGTAAAGACGACGGACAATCAAGGCAACGTCATTGCGCTTGGGCAGCTGGAAATCTATCCTGAGAAATACGAGGTGCGGCTTGGCGGTCAGAGCATTAATCTCCGTCCGAAAGAATTCGAGGTGCTTCTCTATCTGGCCAAGAAACCGGGCGTGGTGTTAACAAGGGACGATCTGATGAACGTGGTCTGGGGCTTCGATTATATCGGCGGACAGCGAACCGTCGACGTTCACGTGAGCTCCCTGCGCAAGAAGCTTGAACTTGATCCTGAGTCCGTACACATCGACTCCATCCGCGGAGTTGGTTATAAACTTGTGGTAAATCCTATTAAAGGCTCCCATCATTCGATTTGA	MTQRMLVIEDEPTLSRLLSYNLTQEGFQVEVEEHGTAGYEKASQHEYDLILLDVMLPGMNGFQILEKLRSNGITTPIIILTAKNAEEEVVQGLKMGADDYITKPFGVSELLARVSAVMRRVSGHADEVKTTDNQGNVIALGQLEIYPEKYEVRLGGQSINLRPKEFEVLLYLAKKPGVVLTRDDLMNVVWGFDYIGGQRTVDVHVSSLRKKLELDPESVHIDSIRGVGYKLVVNPIKGSHHSI	PGPT0002665_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_04854	1818	phoR	COG0642	Alkaline phosphatase synthesis sensor protein PhoR	ATGAGGCAGTATCGCAACCGTTTGACTCTGATTATGCTTACTTTAATCGGGTTATCCATGCTTGCGGCAGGCCTGGCTATGGTGACGGTGTTCAAACAGTCCCATATCCAGCTGCTGGAGGATAATATGGTCCGGGAGATTCGGCTCCTGCAGACCATGATGGAGTTCCCGGATACGGACGGCGCGGAAGCCGTTTCGTATTATACCGACAGGTCCTTGCAGCTGGAGGAGCTGTCCGATGCGAGAGTGACGTTCATACTGAAGGACGGCAGGGTGATCGGGGATTCGGAAAGCGACCCGTTGACCATGGATAATCATGCTTATCGCGAGGAGATGCTTCAAGCGGTCAAAGAAGGCCGCGGGAGTACCATTCGCCGCAGCGATACGCTTCAGCAGGATATGCTGTATGTCGCTCTCCCGGTCAAGGCCGGGGAGAATTTCGACGGATTCGTCCGGTTGTCCGTCAGCCTGAAGGAAGTCGACCAGGGAGTCAAGCAAGGCTGGACCGTTATGGGGATTGGCCTGCTGGTGCTGTTTCTGATTGCTGCCTTGGTGAGCTACCGCGTCGCTCAAGGATTGACTTCGCCGCTTGAGAAGATTACGCGCGTAGCTAGACGGATTTCGCGTCTGGAATACGATGCGAGAGTAAAGATTCACCGTAAGGACGAGATCGGTCAATTGGCGCAAGCCATCAATGGAATGGCAGACAGCCTTCAAACCCAGCTGCGGACGATACGGGATAACGAAGACTTGCTGCAAAGCGTCCTCAACAATATGACAGGGGGCATCGTCTTGGTTAGCGGAGCCGGCCAAATCATCCTTGTAAACCGGGCTGCTGAGAAAATGCTCGGCATTAATGCCGAGGTGATTACCGGGAAATCGTACCGCGAGCTGAAGCAGCATTATGAATTGACCAAACTGATGGAGGAAGGCCTTGGAAGCCAAGCGGACTTCCATGAAGAACGCAACGTTTATTATCCGGTGGAATCGATTATCCGCATTGACGGAGTGACGATGATGCAAGAGGAAGAGCAGGAGCCTTATCGGCGCGGCATGCTCTTCCTGCTGCAGGACGTTAGCGATATTCGCAGGCTCGAACGCATGCGAAGCGAATTCGTTGCCAATGTGTCTCATGAGCTGAAGACCCCGCTGGCTGCGGTGAAAGGATTTGCCGAAACGCTGCTCGGCGGCGGAGTGACCGACGAGAAGACGTCACGTTCCTTCCTCCAGATCATCTATGACGAATCCGAACGGCTGAACCGTTTGATCGGTGACATTCTGGAGCTGTCCAAGATCGAATCGAAGCGGATTCAGATGGATTACTCGCCGATTCATCTGTCGGCGTTCTTCGATACGATATCCGAAATGATGCGCACGGTAGCGGAGAAGAAGCGGATCAGCCTGGAGCTCGACGTTCCGGAGGAGCTGTTTATGGAAGGCGATGAGGATAAGCTTCGCCAGATATTTATGAATCTTCTCTCGAATGCCATCAGTTATACGCAGGAGGGCGGACGAGTAAAATTAACGGCGCGTGAAAAGCATAATAACGGGAGTGCCGATGATTTGGTGGAATTCGTTGTCAAGGATTCCGGGATCGGCATTCCGAAGAAGGATCTGCCCCGCATTTTTGAACGATTCTACCGTGTGGATAAAGCGCGTTCGCGCGGATCCGGCGGAACGGGGCTCGGCCTATCGATCGTTAAGCATCTGGTGGACCTTCACCACGGAACCATCAAGGTTGAAAGCGAGCTGGGCATTGGAAGCTCCTTCATCATCGAGCTTCCGATCCTGCAGGAAACCCACGATACAGGGAGTTAA	MRQYRNRLTLIMLTLIGLSMLAAGLAMVTVFKQSHIQLLEDNMVREIRLLQTMMEFPDTDGAEAVSYYTDRSLQLEELSDARVTFILKDGRVIGDSESDPLTMDNHAYREEMLQAVKEGRGSTIRRSDTLQQDMLYVALPVKAGENFDGFVRLSVSLKEVDQGVKQGWTVMGIGLLVLFLIAALVSYRVAQGLTSPLEKITRVARRISRLEYDARVKIHRKDEIGQLAQAINGMADSLQTQLRTIRDNEDLLQSVLNNMTGGIVLVSGAGQIILVNRAAEKMLGINAEVITGKSYRELKQHYELTKLMEEGLGSQADFHEERNVYYPVESIIRIDGVTMMQEEEQEPYRRGMLFLLQDVSDIRRLERMRSEFVANVSHELKTPLAAVKGFAETLLGGGVTDEKTSRSFLQIIYDESERLNRLIGDILELSKIESKRIQMDYSPIHLSAFFDTISEMMRTVAEKKRISLELDVPEELFMEGDEDKLRQIFMNLLSNAISYTQEGGRVKLTAREKHNNGSADDLVEFVVKDSGIGIPKKDLPRIFERFYRVDKARSRGSGGTGLGLSIVKHLVDLHHGTIKVESELGIGSSFIIELPILQETHDTGS	PGPT0002705_171	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
AK002_04855	972			hypothetical protein	TTGAGAAGTTTTGGACTGGCCTTTGCATCTTGGTTTGAAAAGTACACCTTTCTTTTGATTCCCGGGTCGCTGGTGCTAGGCTGGCTGCTCTCGGACGTGCTGCTGGACTTTGTTCACTGGATTCCTTATCTATTCGGTTATATTACGCTGGTCATGGCGCTTGGCTGCGGCATCCGCCATCTGCAAGGGGTGCTGAAACGCCCCTTTGCCGTCATGCTGACGCTGTTTCTTGCCCATGCGGCCGCACCGGTGCTCGCCTATGGATTGGGCTCGGCCGTATTCGGCGCGGACTCGGACTATACGATAGGCTTGCTGCTGTTCGCGATCATTCCGCTCGGGATATCCTCGGTGATGTGGGTCGGAAGCTCCGGCGGCAGCGTTCCGTTCATCTTGGCGGTGGTGGTGCTGGACACCATACTCAGTCCCTTGGTCGTGCCGGCTCTGATGGATATGTTTATCGGAGATGCACTGGTTGCATGGAATGCGTCCGAGCTGATACTTGATTTGCTGACTATGGTGGTATTGCCCACTCTGATCGGGGTGATGCTGTATGAGGTATCCAAAGGACGGATCAAGGAGTGGTCAGCTCCCGTGACGCAGCCGATATCGAAGCTGTTTTTCATGCTTGTGGTGATGCTGAACGCGGCGGCTATCGCTCCCCATGCCGCAGGCATGAAGGAGGAAATGCTGGTGGTCATCCCGGTTGTCGTTGCGCTGATCGTGATCTGTTATTTACTCGGCTACTTTGGCTCCTATGCGATGCCGGGACGGACACAGGACATGCAAATTACATTTACCTACGCGTCCGGCATGAGGAATATATCCCTCGGGATGGTGCTTGCGACATCGTATTTTTCGCCCCAGGCGTCCATTCCGGTCGTGCTGGGCATTATGTTTCAACAGCCGGCGGCAACGGTCATTCACGCACTGTTCCACCGAAGACGGACACGGGCGGTAAGTTATCCAAAATGA	MRSFGLAFASWFEKYTFLLIPGSLVLGWLLSDVLLDFVHWIPYLFGYITLVMALGCGIRHLQGVLKRPFAVMLTLFLAHAAAPVLAYGLGSAVFGADSDYTIGLLLFAIIPLGISSVMWVGSSGGSVPFILAVVVLDTILSPLVVPALMDMFIGDALVAWNASELILDLLTMVVLPTLIGVMLYEVSKGRIKEWSAPVTQPISKLFFMLVVMLNAAAIAPHAAGMKEEMLVVIPVVVALIVICYLLGYFGSYAMPGRTQDMQITFTYASGMRNISLGMVLATSYFSPQASIPVVLGIMFQQPAATVIHALFHRRRTRAVSYPK	PGPT0013890_1061	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
AK002_04856	1554			hypothetical protein	ATGAAGTTATTTGAAGAGAGCATGTATCGACTGATTGTAGAAACCTCCACGAATTTGCCCGGAGACGTGCGAAGAGCAGTCAACCGTGGACGAGCGTCCGAGGATGCGGCAACGCGAGCGGGGCTGGCACTTGCAACGATCGCTCAAAATATCGAGATGGCCGAGCAGGAAGTATCGCCGATCTGCCAGGATACGGGCATGCCGACGTTTATCGTGCATACACCCGTGGGTGCGAATCACATCGAAATGAAGAAGGCGATCTACGCGGCGGTGGTTCGCGCCACGCAGGATGGCAAGCTGCGTCCTAACTCGGTGGATTCGTTGACAGGCGCCAACAGCGGGGATAATCTCGGTCCAGGTTCGCCCGTCATCCATTTCGAACAATGGGAGCAGGATAAGGTGGACGTCCGTCTCATCCTGAAAGGGGGCGGCTGCGAGAATAAAAACATCCAGTACAGCCTTCCCGCAGAGCTTGAAGGATTGGGAAAAGCGGGACGTGACCTGGACGGAATCCGTAAGTGCATCATGCATGCCGTGTATCAAGCTCAGGGGCAGGGCTGCAGCGCCGGATTTATCGGCGTAGGTATCGGAGGCGACCGCACGACCGGATACGAGCTTGCGAAGCATCAGCTGTTCCGGCATGTGGAAGACGTGAATCCGAATGAGGATCTGGCGAAGCTCGAAGATTACATATTGGAAAATGCAAACAAGCTGGGGATCGGCACGATGGGCTTTGGCGGAGAAGTCACGCTGCTCGGCTGCAAGGTCGGTGCGATGAACCGCCTGCCGGCAAGCTTTTTTGTGTCGGTGGCCTATAACTGCTGGGCGTTCCGTCGTCAGGGCGTACTGATTGAGCCGGAAACCGGGGAGATCGCGGATTGGCTGTATGAAGCAGGCAGCGAGGTGCAGATGAATGCAAACTCCGAAACGGCAGCGTCCCGAGTCGAAGAATCAGCGCCGAGTGATTCCCAGGGACGTGAAGTAGTGCTTCAGACGCCGATCAGCGAGGAGCAGATCCGTTCCCTGCGTGTCGGGGATGTGGTGGTGATCCGAGGCGAGATGCATACCGGACGTGATGCGCTTCATAAATACCTGATGGATCACGATGCCCCAATCGATCTGAACGGAGCCGTGATTTATCACTGCGGTCCGGTTATGATGCAGGATGAAGAGGGATGGCATGTCAAGGCGGCAGGCCCGACGACCAGTATTCGGGAAGAGCCGTACCAAGGCGATATTTTGAAAAAATTCGGCATTCGCGCGGTCATCGGAAAAGGCGGCATGGGACCGAAGACGCTTCAAGCCTTGCAGGAGCATGGCGGCGTGTATCTGAATGCCATCGGCGGGGCTGCCCAGTATTATGCGAGATGCATCAAAAAAGTTAACGGCGTGGATTTCATGGAGTTCGGCATTCCGGAAGCGATGTGGCATTTGGAGGTCGACGGCTTTGCCGCCATCGTTACCATGGATTCGCACGGAAACAGTCTGCATGCCGATGTGAGCAAGGATTCCGCACAGAAGCTGGCGATGTTTAAAGAGCCGGTGTTCTCCTGA	MKLFEESMYRLIVETSTNLPGDVRRAVNRGRASEDAATRAGLALATIAQNIEMAEQEVSPICQDTGMPTFIVHTPVGANHIEMKKAIYAAVVRATQDGKLRPNSVDSLTGANSGDNLGPGSPVIHFEQWEQDKVDVRLILKGGGCENKNIQYSLPAELEGLGKAGRDLDGIRKCIMHAVYQAQGQGCSAGFIGVGIGGDRTTGYELAKHQLFRHVEDVNPNEDLAKLEDYILENANKLGIGTMGFGGEVTLLGCKVGAMNRLPASFFVSVAYNCWAFRRQGVLIEPETGEIADWLYEAGSEVQMNANSETAASRVEESAPSDSQGREVVLQTPISEEQIRSLRVGDVVVIRGEMHTGRDALHKYLMDHDAPIDLNGAVIYHCGPVMMQDEEGWHVKAAGPTTSIREEPYQGDILKKFGIRAVIGKGGMGPKTLQALQEHGGVYLNAIGGAAQYYARCIKKVNGVDFMEFGIPEAMWHLEVDGFAAIVTMDSHGNSLHADVSKDSAQKLAMFKEPVFS	PGPT0001635_1246	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
AK002_04857	375			hypothetical protein	ATGATGAGAAAAGTTACAGTCTCCCAGGTTGTTTTTCCAAGACTTGCCCTGTTCAGAAATGAGTTTTACAGAGGACGGCGTTTTGTGGTGCGTGGCAATGTAGGGATCCGGAATCTCGAGAGAGCTTTTGGCGACATTGAAAGCTTAAGATTCTTCTCCCCCAACGCTAACGCAACCCTGGTCCTGTTCTCGGAGCCGAATTTCAGGGGCAGATTCAGAGTGTTCCGCGGCAGCACCAACATCGGCGATCTTGACGATATCATCCGCGGTGAAGAGCCAGAGTCCATTATTAGTTCGAACCGCCGTTTGACGCTGGCTCAAATCCGGGCGATCCGCGATACCGGACGGCTTCCAAACGGGTTTAGAACCATCTGA	MMRKVTVSQVVFPRLALFRNEFYRGRRFVVRGNVGIRNLERAFGDIESLRFFSPNANATLVLFSEPNFRGRFRVFRGSTNIGDLDDIIRGEEPESIISSNRRLTLAQIRAIRDTGRLPNGFRTI				NA	NA	NA	NA	NA
AK002_04858	867	ydaD_2		General stress protein 39	ATGCCACAAGATCAACAGAAGCAGACATTGCCGCCCCAGCATCAGGATCACAGACCCGGAACCGAATCGGAGATGCACCCGAAGCCGGAGTTTGAAAGTAACGAGTACAAAGCAGCCGGTAAGCTAAAAGGAAAGGTAGCGCTGATTACCGGAGGCGACAGTGGGATCGGCCGTGCGGTTGCGGTTTACTATGCCAAGGAAGGCGCGGATGTATCCATTGTGTATCTGAACGAGCACAAGGATGCGGAAGAGACCAAGCGACAGGTAGAGCAGGAAGGGCGTAAATGCCTGCTGATCGCCGGCGATGTCGGCGACGACGCGTTTTGCCGCGATGCAGTCACCGAAACCGTAGAGAAGCTTGGGAAGCTCGATATTCTTGTCAACAACGCAGCCGAACAGCACCCGCAGAAGAAGATCGAGGACATTACCAAAGAACAACTGGAGCGGACATTCCGCACGAATATTTTCGGGATGTTCTATTTGACGCAGGCGGCGATGCCGCATCTGTCCAAGGGAAGCTCCATTATTAACACGACCTCCATCACGGCTTATCGGGGAAGCCCGCAGCTGCTGGATTATGCATCAACCAAGGGAGCCATCGTGGCCTTTACGCGTTCCTTGTCGATGAACGTGGTCGGTCAAGGAATCCGGGTAAATGCCGTTGCGCCGGGACCCATCTGGACGCCGCTGATTCCTTCGACGTTCCCGGCGGATCAGGTAGCCGAGTTTGGAGCGACCCAGCCGATGAAACGTCCGGGTCAACCGGAAGAATTGGCTCCTGCTTATGTATATCTGGCATCAACGGACTCCTCCTACGTGAGCGGTCAAGTGATTCATGTGAACGGCGGCGAAGTGATTAACGGTTAA	MPQDQQKQTLPPQHQDHRPGTESEMHPKPEFESNEYKAAGKLKGKVALITGGDSGIGRAVAVYYAKEGADVSIVYLNEHKDAEETKRQVEQEGRKCLLIAGDVGDDAFCRDAVTETVEKLGKLDILVNNAAEQHPQKKIEDITKEQLERTFRTNIFGMFYLTQAAMPHLSKGSSIINTTSITAYRGSPQLLDYASTKGAIVAFTRSLSMNVVGQGIRVNAVAPGPIWTPLIPSTFPADQVAEFGATQPMKRPGQPEELAPAYVYLASTDSSYVSGQVIHVNGGEVING	PGPT0014705_836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
AK002_04859	426			hypothetical protein	ATGTGGAACGTGACATTTTTTCTGCATATGGTCGGTACGGCGGCGCTAGGATTTTACTTGATCCTGCCGTTTGTTGTTGGCGGTATTCAGAAGCTGTCTCTGGGCGCTCAAGAAGGAGCCGTGAATACGATTCGGGTGGCGAACCGTTTTGCGCAGTACGGCTTGGTCATTCAGCTGTTGACTGGCGGATACATGATGTCCCAAGGCGAGTATTCGGTTCCTTGGATGATCATTGTAACGGTGTTGCTGCTGGCGATGTTTGCGATTGGAGGCATTATGAGCAAGCCGCTCAAGAATGCGCTTGCAGGCATCCGCGAGAAGCGTGAAGTGAAGGAAGAAACAAGCAAGCTCGGCACGCTTAGCGCATTGCTCGCCTTGCTGCTTCTGGTTATGATTTTCTTCATGGTATTCAATCATATCATCTAA	MWNVTFFLHMVGTAALGFYLILPFVVGGIQKLSLGAQEGAVNTIRVANRFAQYGLVIQLLTGGYMMSQGEYSVPWMIIVTVLLLAMFAIGGIMSKPLKNALAGIREKREVKEETSKLGTLSALLALLLLVMIFFMVFNHII				NA	NA	NA	NA	NA
AK002_04860	942	mdh	COG0039	Malate dehydrogenase	GTGGCAATTACTCGTAAAAAGATTACGGTAGTAGGTGCTGGCTTCACAGGTGCGACTACCGCCCTGATGCTGGCTCAGAAAGAACTGGGTGATGTGGTGCTGCTGGATATCCCGCAGCTCGAGAATCCTACCAAAGGTAAAGCGCTGGATATGCTCGAAGCAAGTCCCGTTCAGGGATTTGACAGCAACATAGTCGGTACATCCAACTATGAAGATGCAGCTGATTCCGATATCGTAATCATTACAGCAGGCGTAGCCCGCAAGCCGGGCATGAGCCGCGATGACCTCGTCAACACCAATGCAGGAATCGTGAAGTCCGTATGCGAGAACGTGAAGACTCATGCACCGAACTCCACGGTCATCATCCTGAGCAACCCGGTGGATGCCATGACCTATGTGGCATACAACACGCTCGGATTTCCCAAGAACCGCGTCATCGGTCAATCCGGCGTATTGGATACGGCACGCTATTGCACCTTTATCGCGCAAGAGCTGAACGTATCCGTTGAGGATGTCCGCGGTTTCGTTCTGGGCGGCCATGGCGATGACATGGTTCCTCTCGTTCGTTACTCCAGCGTGGGCGGCATTCCGATCGACACGCTGATTCCGGCTGAACGCATTGAAGCGATCGTGCAGCGCACCCGGGTCGGCGGCGGCGAAATCGTCAATTTGCTGGGGAACGGCAGCGCCTACTACGCGCCTGCTGCTTCCTTGGTCCAAATGACGGAAGCGATTCTGAAGGACAAGAAACGGATTATTCCGGTTATTGCCCTTCTGGAAGGCGAGTACGGTTATGACAACCTGTTCATGGGCGTACCGGCCATTCTCGGCGGAGACGGCATCGAGCGCATTTTCGAGCTTGAACTGACCGCCGAAGAGAAAGCGGCGCTGGATAAGTCGGCGGAATCCGTGCGCAACGTGACTTCGGTCGTGAACCTGTAA	MAITRKKITVVGAGFTGATTALMLAQKELGDVVLLDIPQLENPTKGKALDMLEASPVQGFDSNIVGTSNYEDAADSDIVIITAGVARKPGMSRDDLVNTNAGIVKSVCENVKTHAPNSTVIILSNPVDAMTYVAYNTLGFPKNRVIGQSGVLDTARYCTFIAQELNVSVEDVRGFVLGGHGDDMVPLVRYSSVGGIPIDTLIPAERIEAIVQRTRVGGGEIVNLLGNGSAYYAPAASLVQMTEAILKDKKRIIPVIALLEGEYGYDNLFMGVPAILGGDGIERIFELELTAEEKAALDKSAESVRNVTSVVNL	PGPT0001435_2299	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
AK002_04861	1293	icd	COG0538	Isocitrate dehydrogenase [NADP]	ATGAAACTGGAAAAATTCGCACTGCCGACTGAAGGCGAGAAAATCACGATTGATAACGGAACCCTGCAGGTGCCTAACAACCCTGTTATTCCTTTTATTGAAGGCGACGGCACAGGCCGTGACATCTGGAAAGCTTCCAAGCGCGTCCTGGATGCAGCTGTAGAAAAAGCGTATAACGGTTCCAAGAAAATTGCCTGGTATGAAGTATTTGCCGGTGAGAAGGCATACAATACATACGGTGAGTGGCTCCCGAACGATACGCTTGAAGCGATTCGCGAGTACATCGTTGCAATTAAAGGACCTCTTACAACGCCAATCGGCGGCGGTATCCGTTCCCTGAACGTAGCCCTTCGCCAAGAGCTGGATCTGTACACCTGCTTGCGTCCTGTCCGTTATTTCAACGGCGTACCGTCTCCGGTAAAACGTCCTGAGCTGGTCGACATGGTTATTTTCCGCGAGAACACGGAAGACATCTATGCAGGCATCGAATACAAAGAAGGCTCCGACGAAGTGAAGAAAGTGATCAAGTTCCTTCAAGACGAAATGGGAGCAAACAAAATCCGTTTCCCGGAAACTTCCGGTATCGGCATCAAACCGGTGTCCTCCGAAGGTTCCAAGCGTCTTGTACGCGCAGCGGTTGAATATGCGATCAAGCATGGCCGCAAATCCGTAACGCTCGTTCACAAAGGCAACATCATGAAATTTACGGAAGGTGCCTTCAAAAACTGGGGTTACGAAGTGGCTGAAGCCGAATTCGGCGATAAAGTGTTCACTTGGGCCCAGTACGATATCATCAAGGACAAAGACGGCGTAGATGCAGCTAACGCTGCTCAAAAAGCGGCTGAAGAAGCCGGCAAAATCATCGTTAAGGATGCGATTGCCGACATCGCGCTGCAGCAGGTTCTGACTCGCCCAACCGACTTTGACGTCATTGCGACATTGAACCTGAACGGCGACTACCTGTCTGACGCTCTGGCTGCACAAGTTGGCGGTATCGGTATTGCTCCGGGCGCTAACATCAACTACGTAACAGGACATGCGATTTTCGAAGCGACTCATGGTACGGCTCCGAAATATGCAGACAAGGACGTAGTTAACCCTGGTTCCGTTATCCTCTCCGGCGTTATGCTGCTTGAGCACCTCGGATGGCAGGAAGCGGCTGACCTGATCTACAAAGGCATGGAAACGTCCATCAACAACAAAACCGTGACTTACGACTTCGCCCGCCTGATGGAAGGCGCTACTGAAGTGAAATGCTCCGAGTTCGCAGACGAAATCATTAAAAACCTGTAA	MKLEKFALPTEGEKITIDNGTLQVPNNPVIPFIEGDGTGRDIWKASKRVLDAAVEKAYNGSKKIAWYEVFAGEKAYNTYGEWLPNDTLEAIREYIVAIKGPLTTPIGGGIRSLNVALRQELDLYTCLRPVRYFNGVPSPVKRPELVDMVIFRENTEDIYAGIEYKEGSDEVKKVIKFLQDEMGANKIRFPETSGIGIKPVSSEGSKRLVRAAVEYAIKHGRKSVTLVHKGNIMKFTEGAFKNWGYEVAEAEFGDKVFTWAQYDIIKDKDGVDAANAAQKAAEEAGKIIVKDAIADIALQQVLTRPTDFDVIATLNLNGDYLSDALAAQVGGIGIAPGANINYVTGHAIFEATHGTAPKYADKDVVNPGSVILSGVMLLEHLGWQEAADLIYKGMETSINNKTVTYDFARLMEGATEVKCSEFADEIIKNL	PGPT0001170_2713	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
AK002_04862	1113	citZ	COG0372	Citrate synthase 2	ATGACAGCTACCAAGGGTTTGGAAGGCATTGTAGCTACCACCTCCGCGATTAGTTCGATCGTCGATGGCGTTCTGACTTATCGTGGATATGATATTGACGATCTCGCAGAACATGCAAGTTTTGAAGAGGTAGCCTACCTGCTCTGGTTCGGAAAGCTTCCGAATGTAGAAGAGCTTAAGGCGCTTCAACAAGATTTGAGCAACTATGCCGCCATTCCGGATGAGCTTATCCAGCAGATCAAATTGTATCCGAAGGACGGCAATACGATGGCTGCTCTTCGTTCGGCTGTATCCGCGCTCGCTCTGTACGACGCCGAAGGCGACGATATGAGCCGTGAAGCGAACGAGAAGAAAGCGGTTAAACTTCAAGCTCAGCTTCCGACGATCATCGCTGCCATTGCCCGCGTTCGTCAGGGCAAAGAGCCGGTGGCTCCGAAAGCAGGCGCCTCCATCGCGGAAAACTTCCTGTATATGCTCAGAGGCGAGGATCCTGACCAGACTTCCATTAAGGCTCTGGATCAGGCGCTCGTATTGCATGCGGACCATGAGCTTAACGCATCCACGTTTGCGGCCCGCGTGACCGTAGCCACGCTGTCCGACATTTATTCCGGTGTTACTTCCGCCATTGGCGCGCTGAAAGGCCCTCTGCACGGCGGCGCCAACGAAGCCGTCATGAAGATGCTGAACGAAGTCGGTTCGATTGATCGGGCGCAGGCGTACATTCAAGAGAAGCTGGACAACCGTGAAAAAATTATGGGCTTTGGACACCGCGTATACAAAAACGGCGATCCGCGCGCGAAGCATCTCCAAAAAATGTCGCGCGAGCTTGGCGAAATGAAAGGCGATACCACGTTGTACGATATGTCGGTGCTGATCGACGAAACGGTTACCAACCAAAAAGGCCTGAAGCCGAACGTCGATTTCTATTCCGCCTCCGTCTATACGCAGCTTGGCATTGAACACGAATTGTTCACGCCGATTTTCGCGATCAGCCGCGTATCCGGATGGACCGCGCATATTCTTGAGCAGTATGAAGGCAACCGTATTATCCGCCCGCGCGCAGAGTATACGGGGATGACTGATCAAAAATATGTGCCGATAGAACTTCGCTAA	MTATKGLEGIVATTSAISSIVDGVLTYRGYDIDDLAEHASFEEVAYLLWFGKLPNVEELKALQQDLSNYAAIPDELIQQIKLYPKDGNTMAALRSAVSALALYDAEGDDMSREANEKKAVKLQAQLPTIIAAIARVRQGKEPVAPKAGASIAENFLYMLRGEDPDQTSIKALDQALVLHADHELNASTFAARVTVATLSDIYSGVTSAIGALKGPLHGGANEAVMKMLNEVGSIDRAQAYIQEKLDNREKIMGFGHRVYKNGDPRAKHLQKMSRELGEMKGDTTLYDMSVLIDETVTNQKGLKPNVDFYSASVYTQLGIEHELFTPIFAISRVSGWTAHILEQYEGNRIIRPRAEYTGMTDQKYVPIELR	PGPT0001455_6146	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
AK002_04863	1119			Sodium-lithium/proton antiporter	TTGGAACGATTGATGCTTAAACGTTTGGGCCGGGGAGTGTGGGTGCTGTCTTCCATCTTCGTGATCGCCTATTTGATATATGTACTGCTGCCGCTGCTTTATCCCTTCCTTCTGGCCTGGATCATCGCCTATGCGATGAACCCCTGCGTCAACCTGCTCCAGCGGAGTTTGAGAATGCCGCGCTGGATCGCCGTCACGTTGTCCCTCCTCCTGTATTTCGGCGCAGCCCTGTTGATTCTCACCGCGGCTGTCAGCAGGCTGGTCAAGGAACTGATTGCCCTGTCCCAGTCCTTTAATCTCCACATTGACGCCTGGATGGAATGGCTGACGGCCTGGACGCAGAATGAGAGCTTCCAGAATATCGTCAATGAGATCAGCCGTTTCTATCAGAACAACCCGAATTATCACGATACCATCAACCAAAACATCACCCGTACGACGCAGACGATTGGCACGGCCGTGACCGACCTCGTTACCGGTATTTTTAACGGTATCCTGCAAATTATTTATTATTTGCCGAATTTGGGGACGATTTTCATTGTCGTGCTGCTGTCCACGTTCTTTCTCAGCAACAGCTGGGAACGTCATAACCGCGCGCTGCTCCGTCTCCTGCCCGACGTCATTCGTAAACCGATGAACTATATCTTCTCGGATCTGAAAAAAGCGTTGTTCGGATTTGCCAGAGCCCAGCTGATTCTCATATCCATTACGGCTGTCATCGTCACGATCACGCTCTATGCGCTCGGCGTGGATTCCGCCTTCTCCATCGGGCTTCTGATCGGCTTGGTGGATCTGCTCCCGTACCTGGGTGTGGGCATCGTCCTGATTCCGTGGTCGCTGTATGCTTTTATGTCCGACGACCTGACGCTCGGCATCGGGCTGACGGTCCTGTACAGCATCATTCTGGTCGTCCGTCAGATCATGGAGCCCAAGGTGCTGGCCAGCAGCGTCGGGCTGGATCCGCTTGCCGCTCTGCTGGGCATGTTCGTCGGGCTTAAGCTGTTCGGGATTTTGGGACTGATCATCGGTCCCGTGTCGCTTGTCATCCTGGATGCCTTTCATCGGGCCCATGTGTTCAAGGACCTGAGGAATTACATTATCGGGGGCAGGTTCAGGTAG	MERLMLKRLGRGVWVLSSIFVIAYLIYVLLPLLYPFLLAWIIAYAMNPCVNLLQRSLRMPRWIAVTLSLLLYFGAALLILTAAVSRLVKELIALSQSFNLHIDAWMEWLTAWTQNESFQNIVNEISRFYQNNPNYHDTINQNITRTTQTIGTAVTDLVTGIFNGILQIIYYLPNLGTIFIVVLLSTFFLSNSWERHNRALLRLLPDVIRKPMNYIFSDLKKALFGFARAQLILISITAVIVTITLYALGVDSAFSIGLLIGLVDLLPYLGVGIVLIPWSLYAFMSDDLTLGIGLTVLYSIILVVRQIMEPKVLASSVGLDPLAALLGMFVGLKLFGILGLIIGPVSLVILDAFHRAHVFKDLRNYIIGGRFR				NA	NA	NA	NA	NA
AK002_04864	393			hypothetical protein	ATGTTCAAATGGATGCTGGCAGCGATTATTTTTGTGCCTACTATTGAGATATTCGGCTTTCAGTTTGTTGCGGACCGCGTAGGCGGCATGAATACATTGCTTTTGACACTGCTGACCTCTGCCGTCGGCGTGGCCATGATGAGATTCGAAGGCCGCAAAGCGATGGAAGACGCCAAGCAGAGAATGAATACAGGCATGGTTCCGGGTGCTTCCATGGCGGACGGTTTATGTATATTTGCGGGTGGAGTACTTCTCATTCTGCCGGGTTTTGTAACCGACATGATCGGCTTTACGTTGATATTTCCGTTGACCCGCCCGCTGTATCGGATTTTGCTGTTGAAATGGATGAAGAAAAATATGAAAAACGGCAAGATTACGATCTTTCGCAGATAA	MFKWMLAAIIFVPTIEIFGFQFVADRVGGMNTLLLTLLTSAVGVAMMRFEGRKAMEDAKQRMNTGMVPGASMADGLCIFAGGVLLILPGFVTDMIGFTLIFPLTRPLYRILLLKWMKKNMKNGKITIFRR				NA	NA	NA	NA	NA
AK002_04865	510			1,4-dihydroxy-2-naphthoyl-CoA hydrolase	TTGGCTAATCCATCCGTACCGACGCGAAGCCGCTGGTTCTGGACATCCTTTCGGGTGCGTTACCAGGAAAGCGATCAAATGGGTGTCGTATATCATGCGAACTATTTAAACTGGTTTGAGATCGGGCGTACCGAAATGATCCGTGAAATGGGATTTACGTATCGGGGAATGGAAGAAGAAGGCGTCCTGCTCCCTGTAGTGGATCTGGACATCAAGTACCGCCGGCCGGCGCGATATGATGATCTCGTGACAATATTTACAAGAATGACTGCTTTCTCCCCGCTGCGAATACACTATGAATACGAGGTCCGTCTGCTGAGTGAGCAGGAGCTGGCGGATTTGGGAGCGAGGGGTTGGCATACCGATGCCGAGCTCCCCGGTGCCTTGTTAACGGCAGGAGCGACCCGGCATGTATGGCTGAACCGGGAGTGGAAGCCGGCCCGACTGGATAAATGCGCGCCAAAGCTGTATGATGCATTGAAGGATACCCTTTTGGGGAGGAAGGAGTAG	MANPSVPTRSRWFWTSFRVRYQESDQMGVVYHANYLNWFEIGRTEMIREMGFTYRGMEEEGVLLPVVDLDIKYRRPARYDDLVTIFTRMTAFSPLRIHYEYEVRLLSEQELADLGARGWHTDAELPGALLTAGATRHVWLNREWKPARLDKCAPKLYDALKDTLLGRKE	PGPT0001850_456	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK002_04866	1428	pyk_2	COG0469	Pyruvate kinase	ATGCGCAAAACAAAAATTGTATGTACCATCGGTCCTTCCAGTGAATCGTTGGAAAACACCAAGAAGCTCATTATGGCCGGCATGAACGTGGCTCGTCTGAACTTCTCTCACGGCGACTTCGAGGAGCATGGCAACCGGATCAAGAACATCCGCCAAGCTTGCGAAGAGTTGAACAAAACGGTAGCGATCCTGCTTGATACCAAAGGACCGGAGATCCGTACAGGCAAACTTGAAGTGGAACCGATTGAGCTTGTACAAGATGAATATATCACCCTTACTACCGAGGAAATCCTTGGTGATAAGAATCGTTTGTCCATTACTTATAAAGAGTTGCCTCAAGACGTTCAAGTCGGATCGACGATCCTGATCGACGACGGTCTGATCGGTCTGACCGTGGTGGAGATTCAAGGCACCGAAATCAGATGCCGCATCGTTAATGGCGGAACCATTAAGAGCAAAAAAGGTGTTAACGTGCCGGGAGTCGCGATTTCCCTCCCAGGCATTACGGAAAAAGACGCCAACGATATCATTTTCGGGATCGAGCAGGGCATCGATTTTATTGCGGCTTCCTTCGTTCGTAAAGCAAGTGACGTGCTGGAAATTCGCGAATTGCTGAAGAAGCACAATGGCGAGCACATCCAAATCATCTCCAAAATCGAGAACCAGCAGGGCGTTGACAACCTGGACGAAATCCTGGAAGTATCCGACGGCTTGATGGTAGCCCGTGGCGACCTCGGCGTTGAAATTCCGGCTGAGGAAGTTCCATTGGTTCAAAAACGCATGATCGAAAAATGTAACCTGGCCGGCAAACCGGTCATTACGGCTACGCAAATGCTGGATTCCATGCAGCGCAACCCGCGTCCTACCCGTGCGGAAGCAAGTGACGTTGCCAATGCGATTTTCGACGGAACCGATGCCATCATGCTCTCCGGCGAAACGGCTGCAGGTAAATACCCGGTGGAATCCGTATTGACGATGTCCCGCATTGCGGAAAAAGCGGAATCTGCACTGAACTATCGTGAATTGTTCTTGAAGCAGCGCATTGCACAAGAAACCAGCGTAACCGAAGCGATCAGCCAATCGGTTGCGATTTCGGCACTCGACCTGAATGCCAAAGCGATCATTTCGTCTACCGAATCTGGTCAAACGGCTCGCATGGTATCCAAATACCGTCCACAGGCTCCTATCGTCGCCGTAACGACTCAAGAAAGAACGCTGAGACGTTTGGCACTGACTTGGGGCGTAACGCCGGTTAAAGGCGAGCAGGCTTCTTCTACTGACGAGATGTTTGATTATGCGCTGCAAGGCGGCGTGAAATCCGGACTCGTGAAAGAAGGAGATCTTGTTGTGATTACGGCGGGCGTGCCGCTGGGACGTTCCGGTTCCACGAACCTGCTGAAAGTGGACCAAATTCCACAGCAGAAGTAG	MRKTKIVCTIGPSSESLENTKKLIMAGMNVARLNFSHGDFEEHGNRIKNIRQACEELNKTVAILLDTKGPEIRTGKLEVEPIELVQDEYITLTTEEILGDKNRLSITYKELPQDVQVGSTILIDDGLIGLTVVEIQGTEIRCRIVNGGTIKSKKGVNVPGVAISLPGITEKDANDIIFGIEQGIDFIAASFVRKASDVLEIRELLKKHNGEHIQIISKIENQQGVDNLDEILEVSDGLMVARGDLGVEIPAEEVPLVQKRMIEKCNLAGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAIMLSGETAAGKYPVESVLTMSRIAEKAESALNYRELFLKQRIAQETSVTEAISQSVAISALDLNAKAIISSTESGQTARMVSKYRPQAPIVAVTTQERTLRRLALTWGVTPVKGEQASSTDEMFDYALQGGVKSGLVKEGDLVVITAGVPLGRSGSTNLLKVDQIPQQK	PGPT0002020_6266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
AK002_04867	984	accA	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGTCAGGCGAATTGCCTTTTGAAATGCCACTTGCCGAAATGCGCAAGAAGATAGATGAACTGAAACAATTCGGACAGGAAAAAGGGATCGATTTCACGGATGAAATCGCCCGCCTGGAAGAACGATATAGTCGTTTGGAAGAAGAGATTTATTCCTCGATTTCGCCTTCCCAGAAAATGCATCTGGCCCGTCATCAGCAGCGGCCGACGTCGCTTGATCTGATCCAGCTGATCTTTACGGATTTCATCGAGCTGCATGGAGACCGTCTCTACGGGGACGACCTTGCCGTCGTCGGCGGCTTGGCCAAACTTGACGGCGTTCCGGTCACGGTGGTCGGCCAGCAGCGCGGCAAAGACACGAAGGACAACATCGCCCGTTTCTTCGGAAGTCCGCATCCGGAAGGCTTCCGAAAAGCCCTGCGGCTTATGCAGCAGGCGAACAAGTTCAAGCGCCCCATTATCACTTTTATTGATACAAAAGGCGCATATCCGGGTAATACAGCAGAAGAAAGAGGTCAGTCCGAGGCGATCGCCCGCAATTTAAGGGAGATGTCGTCTCTTGGGGTGCCTGTTGTTTGTGTGGTCATCGGCGAAGGTGGAAGCGGCGGTGCTCTTGCGATGGCTGTAGGCAATCGCGTGCTGATGCTGGAGCACGCCATCTATTCCGCCATCTCGCCGAACGGCGCGGCATCCATTCTATGGAAGGATGCGTCCAAGGCGGACCAGGCCGCGGAAGCGATGAAGATCACCGCCAAAGACCTGCTTGAAATGGAAGTCATCGAGGAGATCATTCCTGAGCCTAAGGGCGGTGCGCACCGTAACTACGAGGAGACGGCCGCTGCCATTCGGAGCGCCCTGATCAGCCAGCTGAAGGAGCTGTCCGTGATGGATGCCTGCGAGCTGAAGGAAGACCGGTACCGCAAATTCCGCAAGATCGGCGAATTCGACTTTGCGAAGGCGGAACCGGAAGACGTTATCCTCTAA	MSGELPFEMPLAEMRKKIDELKQFGQEKGIDFTDEIARLEERYSRLEEEIYSSISPSQKMHLARHQQRPTSLDLIQLIFTDFIELHGDRLYGDDLAVVGGLAKLDGVPVTVVGQQRGKDTKDNIARFFGSPHPEGFRKALRLMQQANKFKRPIITFIDTKGAYPGNTAEERGQSEAIARNLREMSSLGVPVVCVVIGEGGSGGALAMAVGNRVLMLEHAIYSAISPNGAASILWKDASKADQAAEAMKITAKDLLEMEVIEEIIPEPKGGAHRNYEETAAAIRSALISQLKELSVMDACELKEDRYRKFRKIGEFDFAKAEPEDVIL	PGPT0001695_464	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
AK002_04868	894	accD	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	GTGTTTAAAGACTTGTTTCAGAAAAAAAGAAAATACGCAACGATCCCATCGGAACGACTTGGGACGGCAGGGCAGCCTCAGGAAGGCGAACGCCCGAAACGGGAAATTCCGGAAGGTCTGATGAATAAGTGTGCCAAGTGCGGCACCATTCAATACAGCAAAGAGCTTGAGAAGAATCTGAAGGTTTGTCAGGAGTGCGGGCATCATATGCGCTTGAACGCGGTTGAGCGGATTGCCATGACGCTGGATGAGACAGGCTTTGAAGAGTTTGACGCAGAGATGATCTCGGTGGACCCGCTCAAGTTTCCGGGATATGCGGCCAAGCTGGAGCAGCAGAAGATGAAATCCGGTCTGCATGATGCGGTGATTACCGGCCAAGGCTCCATTCTGGGCCAGCCCGTTGTGGTGGCCGTGATGAGTTTTGAGTTCTTCACGGGAAGCATGGGCTCCGTCGTTGGGGAAAAAATCACCCGTGCGATCGAGTTTGCGACGGACAAGCGTTTACCGCTCATTATTTTCTCCACTTCCGGCGGCGCCCGGATGCAGGAGAGCATTCTCAGTTTGATGCAGATGGCCAAAACAAGCGCGGCCCTGTCCAGGTTCAATGAACTCGGCGGGCTCTACATTTCAGTGATCACGGATCCGACGACCGGCGGCGTGTCCGCCAGCTTTGCGACGCTTGGCGATATCAACATCGCCGAGCCGGGAGCCGTATTCGGCTTTGCGGGCCGTATCGTTATTGAACAGACCATTCGCCAGAAGCTGCCGGACGATTTCCAGACAGCGGAGTTCAATTTGGCGCATGGTCAGCTTGACATGGTTATTCATCGGAAAGATATGCGCTCCATGCTTGGTAAGCTGCTGGAGATGCATACCGTGAAAGGGGGATTCTGA	MFKDLFQKKRKYATIPSERLGTAGQPQEGERPKREIPEGLMNKCAKCGTIQYSKELEKNLKVCQECGHHMRLNAVERIAMTLDETGFEEFDAEMISVDPLKFPGYAAKLEQQKMKSGLHDAVITGQGSILGQPVVVAVMSFEFFTGSMGSVVGEKITRAIEFATDKRLPLIIFSTSGGARMQESILSLMQMAKTSAALSRFNELGGLYISVITDPTTGGVSASFATLGDINIAEPGAVFGFAGRIVIEQTIRQKLPDDFQTAEFNLAHGQLDMVIHRKDMRSMLGKLLEMHTVKGGF	PGPT0001710_1251	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
AK002_04869	189			hypothetical protein	ATGTGGACGGTTATCTATATTGCGCCAACTGCAAAGGTGGCGGAAATGATCAAGACCAGGCTAACGGAAGAAGGGTTTTTGGTTCAAAGCCGTCCTGTGAATCTTTCCAAACAGCAGTTTGAGATTTTGGTACCCTCCGGAGAGCTTGAGGAAGTACAGGAAGTGTTGAATTCGATATTGCACCCCTAG	MWTVIYIAPTAKVAEMIKTRLTEEGFLVQSRPVNLSKQQFEILVPSGELEEVQEVLNSILHP				NA	NA	NA	NA	NA
AK002_04870	585			hypothetical protein	ATGTTGGCCGAGTATTCGCCTGAAAGAAAGCACTTTACGGCGATGACCGTAGTGACAGGGCAACGGCCAAAGACGCGGGGGGGATTTGTGGTGTCAATGGACTTGGCAGAGAGCATGCTCAGCCGCAGAGGAGTCAGCGTTAACTCCATCGCGGATATTGTGTTGAAGCTTCAACAGCGTTACCATCCGACGCTAACCATCGAGCAGTGCGAGGAAAGCGTGCGGGCCGTGCTCGGGAAGCGCGAAGTGCAGTATACGTTGTATACGGGCATTGCGCTGGATGAGCTGGCGGAGAAGAAACTGCTGCCGGAGCCGCTGCAATCAATTATGGAGCAGGACGAACCGTTGTACGGTGTGGATGAGACCATGGCGCTCGGTGTCACGAGCATATACGGCATGATTGGACTGACCAGCTTCGGCTACCTGGATAAAGAAAAAATTGGCGTGATTGAGATATTAAATGAAAAAACGGACGGGATTCATGTGTTTCTGGATGATCTCGTTGCAGGCATTGCCGCCGCCGCTTCCTCGCGAATCGCGCATAACAATCCCGATGCGGCCCATTATACCGCGGGATCTGACTGA	MLAEYSPERKHFTAMTVVTGQRPKTRGGFVVSMDLAESMLSRRGVSVNSIADIVLKLQQRYHPTLTIEQCEESVRAVLGKREVQYTLYTGIALDELAEKKLLPEPLQSIMEQDEPLYGVDETMALGVTSIYGMIGLTSFGYLDKEKIGVIEILNEKTDGIHVFLDDLVAGIAAAASSRIAHNNPDAAHYTAGSD	PGPT0007710_293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095	NA	NA
AK002_04871	3729	dnaE	COG0587	DNA polymerase III subunit alpha	ATGAGCTCTTTCGTGCATTTGCACGTGCATAGTGAATACAGTTTGCTCGATGGAGCGGCACGTATCGGTGACCTGGTGCGGGAAGCGGCGGCGCTTGGCATGAAATCGCTGGCGCTGACGGATCATGGCGTGATGTACGGTGCCGTTCCGTTCTATAAAGCCTGCCTGGCGCAGGGCATCAAACCGATTATCGGCTGCGAGGCCTATATCACGGCAGGCTCCCGCAAGGAGCGGGGAAGCCGCAAGGACCAGCCGATCTATCATTTGATTTTGCTTGCCAAGAATGAGACCGGCTATCGCAATTTAATGAAGCTGTGCTCGATCGGGCATTTGGAGGGGTATCATTACAGACCCCGAATCGATATGGAGGCGCTGGCCGCCCACCATGAAGGAATCATATGCCTCAGCGCCTGCTTGGGAGGCGAGGTTCCCCAGCATCTGCTTCATGGACGCGAGGCGGAAGCCAAGGCGGCAGCGCTCCGTTACCAGGCGATTTTTGGAGAGGATTACTACCTTGAGCTGCAGGATCACGGCATTCCGGAGCAGAAGCGCGTGAATCCCCAGCTGATTCAGCTGAGCCGCGAGACCGGCATTCCGCTGGTAGCGACCAACGATGTGCATTATCTGACCGAGAACGATGCCGAGGTTCAGGACGTCCTGATCTGCATCGGCACGGGAAAGACGGTCGAAGATGAAGACAGGCTGCAGATTCAGACGAACCAGCTCTATCTGAAGAGCGGCAGCGACATGGAGCGTCTGTATCCCCATGTGCCTGAAGCTATATTGAATACGGCTAAGATTGCGGACCAGTGCCATTTGGAGCTGGAATTCGGCAAATCCATTTTGCCGGAATACAGCTCGCTTCCGGAAGGGAAGGATGCTGCGGAATACCTGCGGGATCTCTGCCTGAGCGGATTGCGGGAACGCTACGAAGGCACGGAGCGGTGGCAGGATGAAGGGCAGCGCAGCGAGCTGGAGCAGCGGCTCGATTATGAGCTCGGCGTTATCGAGAGCATGGGCTTCAGCGATTATTTCCTGATCGTATGGGATTTTATCGCCTATGCCCACCGGAAAGGCATCGCAGTCGGACCCGGAAGGGGTTCCTCGGCAGGAAGCCTAGTGGCTTATACCCTGCAGATTACCAATGTGGATCCGATGAAATACAAGCTGTTGTTTGAACGCTTCCTGAATCCGGAACGGATCACGATGCCGGATATCGATATCGATTTCAGCGATGAGCGCCGGGACGAGGTCATCGATTACGTGGTGGACAAATACGGGAAAGAGCATGTGGCCCAGATCATTACGTTCGGTACGATGGCCGCAAGGGCAGCCGTCCGCGACGTCGGGCGTGCGCTTAATGTGCCGTTCGGGGATGTGGACAAGGCGGCCAAGCTGATCCCTAACCACTTGGGCATCAGCATTGAAAGAGCGATGGAGCAAAGCCCGCAGCTGAAGGAGCAGTACGAAACGAAGCCGAAGGTACGCGAGCTGATCGACATGGCGATGAAGGTCGAGGGCATGCCGCGCCATGCATCGACGCATGCGGCCGGCATCGTCATTTCCAGGGAGCCCTTGACGGATGCGGTGCCGCTGCAGGAAGGCAGCGAGAAGACCGCGCTGACGCAGTATTCCATGGAGAATTTGGAGAGCGTGGGGCTCCTCAAGATGGATTTTTTGGGCCTGCGGACGCTGTCGATCATCGAGCGCACGCTGAGATGGATTCAAGAATTGACCGGCAGAGAGCTTGATTTCGAACAAGTGCCGGATGACGACCAAGCGACTTACGAAATGCTGGGCCGGGGGGAGACCGCGGGCGTATTTCAGCTCGAATCGGCCGGAATACGGCGGGTGCTGAAGGATTTGAAACCTTCGGTGTTTGAGGATATCGTATCGGTGAATGCCCTGTACCGCCCGGGTCCCATGGAATTTATTCCGAAGTTCATTCAGGCCAAGCACGGCCGGATCGAGCCGGAGTACCCCCATCCGGACCTGATCCCGATACTTGGCGATACGTACGGCATTATCGTTTACCAGGAGCAGATTATGCAGATCGCTTCGACGATGGCGGGCTTCTCGCTCGGGGAAGCGGATCTGCTGCGCAGAGCGGTATCGAAGAAGAAACGCGAGGTGCTGGACCGCGAGCGCAGCCACTTCGTTTCAGGGAGCCTGAAGCTGGGCTATACCGAGGATGAGGCCAACCGCGTGTACGACATGATCGTCCGGTTTGCCAACTACGGATTCCCGCGCGCGCATGCTGCCGCTTACGGCGTGCTGGCCTTCCAGACGGCTTACCTCAAGGCGCACTATCCGGTTCCGTTCATGGCTTCCATGCTGACAGCCGTCATGGGCAGCCATCGGAAGGTAGCCGAATACGTGCTGGAGGCGCGGCGCATCGATATCGAGGTCATGCCGCCGGACGTCAACGAAAGCGGGACGTATTTCACGCCGGTCATGAGCCGTTCTGCTGCCGAAGGCAGCGAACTGCAGGCCGATTCTCCAGCCGGCGGAGGGATCCGATTCGGGCTTGCCGCCATCAAGAACGTCGGCACGCAAGCGGTGGAGAATATCGTCGAGATCCGGCGCGAAAAGCCGTTTGAAAGCCTGCTTGATTTCTGCCGCCGCGTCGACCTCCGCGTATGCAATAAGCGCGTGATCGAGTCCCTGATCCAGGCGGGCGCCTTCGATTCCTTGCAGGGGCACCGCTCCCAGCTGGTCGCCATGCTGGACGAAACGGTGGAAGCGGCCGTGAAGTGGAGAAAGGAGCGGGATGATCTTCAGATTCAGCTCTTCGACTTCGTGGAAACCGCGAATTGGGACATTGAATATCCGGACATCCCGCCTTATACGGCAAGTCAGCAGCTCGAATTCGAACGCGAGCTGCTGGGCATGTATTTGTCCGGTCATCCGCTGGACGGCTTTGAAGAGACGCTGACGGAGTCCGGAGCGGATCGGCTCATGGATCTGCATGAAGCGGAGGATGAGTCGATGGCTACGGTTGCCGGCATGGTGGTCTCGCTGAAGACCATTACGACGAAACAGGGGAAAGCGATGGCCTTCATGGAGTGCGAGGATCAAATCGAGCGCTGCGAGGTCGTTCTCTTTCCGGAAGTGTGGAAGCGAAGCGCGCATCTGATTGAAAAAGGAGCCCTTCTCGCGATCCGGGCGAAGGTCCAGCTGCAGGACGAAGGCTTCAAGCTGCTGGCCGAAGAAATCGCTCCGCTTGAAGCGCAGACCCTGGGCCAGCTCGTTCGGCGGAGCAAGGTCCGGGGAACGCAGGGCGGCGGCAGAGGCAGGGCCGAGGGAGCAGGCCGGGGCGCCGCATCGGGCGCAACCGGCAAGCAGGCGGCTTCGGCCGGCGAACCAAAGGCCGTTCTGAATGCAGCGCAGCCGCTTGCCGCCACGAAAGGCCAAGACCTGCCTCCGATCGGAAAGGAAGTTTCAGGCATTAACCGAACGTCCGGGAAGGAATCTCGAGCAGGCGCATCGAATCCTAAAGCAGAGCAGCGCGTGTTTGTGAAAATAACGGCCGATGCGGAGCGATCGGAGATGCTGGTCAAGCTGAAAGAGCTTCTGCAGCGGCATCCGGGGCCTGTCGCAACGGTGTTGTTTTATGAACGAAGCCAGAAGGTGCTTGCGCTCAGTGATGCCTATCGGATCAAGCCTTCGCAAGAGCTCATTGCCGAAATGGAGAGCATGCTGGGCAAAGACACCGTTAAAGTGAAGTGA	MSSFVHLHVHSEYSLLDGAARIGDLVREAAALGMKSLALTDHGVMYGAVPFYKACLAQGIKPIIGCEAYITAGSRKERGSRKDQPIYHLILLAKNETGYRNLMKLCSIGHLEGYHYRPRIDMEALAAHHEGIICLSACLGGEVPQHLLHGREAEAKAAALRYQAIFGEDYYLELQDHGIPEQKRVNPQLIQLSRETGIPLVATNDVHYLTENDAEVQDVLICIGTGKTVEDEDRLQIQTNQLYLKSGSDMERLYPHVPEAILNTAKIADQCHLELEFGKSILPEYSSLPEGKDAAEYLRDLCLSGLRERYEGTERWQDEGQRSELEQRLDYELGVIESMGFSDYFLIVWDFIAYAHRKGIAVGPGRGSSAGSLVAYTLQITNVDPMKYKLLFERFLNPERITMPDIDIDFSDERRDEVIDYVVDKYGKEHVAQIITFGTMAARAAVRDVGRALNVPFGDVDKAAKLIPNHLGISIERAMEQSPQLKEQYETKPKVRELIDMAMKVEGMPRHASTHAAGIVISREPLTDAVPLQEGSEKTALTQYSMENLESVGLLKMDFLGLRTLSIIERTLRWIQELTGRELDFEQVPDDDQATYEMLGRGETAGVFQLESAGIRRVLKDLKPSVFEDIVSVNALYRPGPMEFIPKFIQAKHGRIEPEYPHPDLIPILGDTYGIIVYQEQIMQIASTMAGFSLGEADLLRRAVSKKKREVLDRERSHFVSGSLKLGYTEDEANRVYDMIVRFANYGFPRAHAAAYGVLAFQTAYLKAHYPVPFMASMLTAVMGSHRKVAEYVLEARRIDIEVMPPDVNESGTYFTPVMSRSAAEGSELQADSPAGGGIRFGLAAIKNVGTQAVENIVEIRREKPFESLLDFCRRVDLRVCNKRVIESLIQAGAFDSLQGHRSQLVAMLDETVEAAVKWRKERDDLQIQLFDFVETANWDIEYPDIPPYTASQQLEFERELLGMYLSGHPLDGFEETLTESGADRLMDLHEAEDESMATVAGMVVSLKTITTKQGKAMAFMECEDQIERCEVVLFPEVWKRSAHLIEKGALLAIRAKVQLQDEGFKLLAEEIAPLEAQTLGQLVRRSKVRGTQGGGRGRAEGAGRGAASGATGKQAASAGEPKAVLNAAQPLAATKGQDLPPIGKEVSGINRTSGKESRAGASNPKAEQRVFVKITADAERSEMLVKLKELLQRHPGPVATVLFYERSQKVLALSDAYRIKPSQELIAEMESMLGKDTVKVK				NA	NA	NA	NA	NA
AK002_04872	327	ytrH		Sporulation membrane protein YtrH	ATGAGCGTTTTTTTATCCAAAGCGATCCTGGACTTTTTTATAGCCTTCGGCATCGTGCTGGGAGGGGCCATGGTGGGAGGCGTGGGCGCCGTGCTGTCCCTGCAGCCCCCGACCCTGACCATGATAGAAGTGGCCGACCGGATTAAGATATGGGCGCTTGCCGCCGCCATCGGAGGGACCATTGATCCGATGCGGGTCATTGAAAGCAACATGGTAGTCGGCAATCTATCCCCTGCCATCAAGCAGGTTTTATATCTGGGTTTTGCATTTCTTGGAGCACATATGGGCAGCGAGCTGGTCAAATGGGTGTGCTCCAGCCGGAGCTGA	MSVFLSKAILDFFIAFGIVLGGAMVGGVGAVLSLQPPTLTMIEVADRIKIWALAAAIGGTIDPMRVIESNMVVGNLSPAIKQVLYLGFAFLGAHMGSELVKWVCSSRS				NA	NA	NA	NA	NA
AK002_04873	504			hypothetical protein	ATGCGCGTACCTCCGGCCCACCGATTCCGTCCCTTCTATCAGGTCGCATCCATCTTCGTGCTGGGGATGGTCGTCGGCAGCATCCTCTACAATTCGGTTTATCATGCAGCCTACAATAAATTATGGGAAACGAATCAGGAACAGCAGCTCAAAATAACGCAGTATGAAAAAGATATCGATTCGTTAAAAAAATACAATAAACAATCCACGGTCATCAAAGAAATCAAGATCCGCAGCGAACAAAACGACAGGGAGCCTCTTGATCCCGTCATCATCAAAGAGCTCGTCAGGCTTATGAGCGACGATCTGGCCGCCCTTCGCGGCCGCAACGTGTTTGATATCGATACGGACAGCAAGCTGACCCGTTCCCTCCTCAGCGACAAAATCTATACGGTCCGGGAAAAAGATTACAAGGTCCAAATCAAAACCATGCTCGTCATGGAAGGCGTGCTGCAAATCTGGGTCGGCGTCGATCATCTGGATGCAAAGTCAACGGGATCATGA	MRVPPAHRFRPFYQVASIFVLGMVVGSILYNSVYHAAYNKLWETNQEQQLKITQYEKDIDSLKKYNKQSTVIKEIKIRSEQNDREPLDPVIIKELVRLMSDDLAALRGRNVFDIDTDSKLTRSLLSDKIYTVREKDYKVQIKTMLVMEGVLQIWVGVDHLDAKSTGS				NA	NA	NA	NA	NA
AK002_04874	312			hypothetical protein	ATGATAACCGTCATCCACTATATCCTGTACATTATCCTTGTCCTGTCCGTCGTAGCTGCCGCGCTGTATAGCATTCGCGCACGGCGAGTAGCGGATCCGGTCGACCGCGGAATCCATATGTCCATGATGAACCTCTGCATGGGCATTATGCTGGTTTCCCTTTCGCTGGTATGCATGTTCCTGTTCAGCGGCTCCACGCCCGCTGTCATTGTGGAAGCGGCGTTTTTGGTGCTTGGCGCATTCAATATATTTGCCGGCATTCGAAGCCGCACCTATTACAGCAGACTGAAGAATTCGCGGACGGCCGGCTGA	MITVIHYILYIILVLSVVAAALYSIRARRVADPVDRGIHMSMMNLCMGIMLVSLSLVCMFLFSGSTPAVIVEAAFLVLGAFNIFAGIRSRTYYSRLKNSRTAG				NA	NA	NA	NA	NA
AK002_04875	1335	IMPDH		Inosine-5'-monophosphate dehydrogenase	TTGGACGTTCGGGATGATACGATTACAAAACACGAGCAGCTGGTTCAGTATATTGAAAGTTTGAAGGTGGGAAGCAAAATATCGGTGCGGCGGCTGGCCAAGGAGATGGGCGTCAGCGAGGGGACCGCTTACCGGGCGGTGAAGGAAGCGGAAAGCCTAGGCATCGTTGTCACGAAGGAGCGGATCGGTACGGTTCGCGTGGAACGGAAGCCGCGGAACATATCCGAGCAGCTTACGTTTGCCGATGTCGTCGAGATCGTGGAAGGACATGTGCTTGGCGGTGCCGAAGGGCTGAATAAAAGCCTGCACAAGTATGTGATCGGCGCGATGAAAGTGGAAGCCATGATCCGCTATATCGACGCCGGAAGCCTCATGATTGTCGGTAACCGCGAAGATGCCCATTCCCTGGCGTTAGAACAGGGGGCAGGCGTGCTGATTACCGGCGGTTTCGGCACGAGCCGGGAAGTGAAGCTGCTGGCGGATCAGCTGGATCTGCCTATCATCTCGTCCCGACATGACACGTTTACGGTCGCCTCCATGATCAACCGTGCCATTTTCGACCGTTTAATTAAGAAGAAAATTATGCTGGTGGAGGATATCGCCCATGATAAGCCCAAGAATCACCAGTTGAAAAACTCCGTCACCGTTCAGGAATTCAAACGGATTTCGCAGGAGACGGGGGAAAACCGGTACCCGGTCACGGACGAATGGAACCGGGTCATCGGCATCGTCGGGGTTCGCGACGTGGAAGGTCTGGCCGAAACCCAGCCGATCGAGAAAGCGATGACCCGCAATCCGGTGACGGCCAGCATGAAGACCTCCCTTGCGTCAGCCGCGCAGATCATGATGTGGGAAGGGATCGATTTTCTGCCGATCGTGGATCGGAACCGCAAGCTGCTTGCCACCGTCACCCGAAAAGAGGTGCTTGGCGCACTGCGGGATGCGCGAAACCAGCCTCAGCTCGGCGAGACGTTCGATCAGCTGATCTGGAACGGGATCGCGGAGGATCGGGATGAGGAAGGGCGATTGTTCTTCCACGGCTTTATCACGCCCCAGATGGCTTCGGAACTCGGAACGATTTCGCAAGGGGTGCTCACCACCGTGATGAGCCAGGCGGCCGTGAAGGCGGCCAAGGATATCAGCGGCTGGGATCATGTCCTCGATCATCTGTCGACGTATTTCATCCGGCCTGTGCAGATCGAGGATCCGATTGTCATTATGCCGAAATTGCTGGAGCTCAGCCGGCGCACCTGCAAGATGGAGATTGAAATCCAGCATCAGACGAGCCTGATTGCCAAAGCGGTCATGACGATGCAGGCGATCGATCACGGCTAA	MDVRDDTITKHEQLVQYIESLKVGSKISVRRLAKEMGVSEGTAYRAVKEAESLGIVVTKERIGTVRVERKPRNISEQLTFADVVEIVEGHVLGGAEGLNKSLHKYVIGAMKVEAMIRYIDAGSLMIVGNREDAHSLALEQGAGVLITGGFGTSREVKLLADQLDLPIISSRHDTFTVASMINRAIFDRLIKKKIMLVEDIAHDKPKNHQLKNSVTVQEFKRISQETGENRYPVTDEWNRVIGIVGVRDVEGLAETQPIEKAMTRNPVTASMKTSLASAAQIMMWEGIDFLPIVDRNRKLLATVTRKEVLGALRDARNQPQLGETFDQLIWNGIAEDRDEEGRLFFHGFITPQMASELGTISQGVLTTVMSQAAVKAAKDISGWDHVLDHLSTYFIRPVQIEDPIVIMPKLLELSRRTCKMEIEIQHQTSLIAKAVMTMQAIDHG				NA	NA	NA	NA	NA
AK002_04876	288			hypothetical protein	ATGAAAAAAAAGAAAAACAAGTTTAAACACACCGCATATTTATTGGTTGCACTCGGCATGCTGATATACGCCCTTCCGAGCATTTCTTTCTCCGGCGGGTTCTCTTGGGTTTCGCTGTTCGGTGCTGTCTGGGCAGGCTTTGCCCTGCTCGTGATCGGTTCGCATCTCTATTATCTTATCGGAGTAGACGAGGCGAAGCAGAAAGCGCTGGACGCAATCCGCAAGGAGAAATTGAGCCAGTGGGAACTGAAATGGCCTGAGGAACAGAAGAGCCAGGAAGCCAATTAA	MKKKKNKFKHTAYLLVALGMLIYALPSISFSGGFSWVSLFGAVWAGFALLVIGSHLYYLIGVDEAKQKALDAIRKEKLSQWELKWPEEQKSQEAN				NA	NA	NA	NA	NA
AK002_04877	348			hypothetical protein	ATGAACATTTATGACAAAGCACATGATCTGGCAAAAGCAATGAAGGAGAGCCAGGAGGTAGAAGAGATTACCTCCGCGATGAAACTCGTGGATGCGGATCCGGAGAGCAGACGCATGCTGGACGATTTCCGCCAGCGCCAGATGGAGCTTCAACAGCGCATGATGTCTGGAGACATGCCGGCCCAAGAGGAAATGGAGAAGATGGAGAAGCAGTTCGAGGTGCTGAGCCTGAACCTGAACATCCGCCGTCTGTTTGACGCCGAGCGGCGTCTGAGCGTCATTATCGAAGACGTGAACAAGATTATATCGGACAGCCTGCAGCATCTGTACGGACCGGCCCAATCCTAA	MNIYDKAHDLAKAMKESQEVEEITSAMKLVDADPESRRMLDDFRQRQMELQQRMMSGDMPAQEEMEKMEKQFEVLSLNLNIRRLFDAERRLSVIIEDVNKIISDSLQHLYGPAQS	PGPT0026336_73	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA	NA	NA
AK002_04878	1167			hypothetical protein	ATGCAGAACTGGCTGTTTATTTTGGTGAACGTGTGCGTTGCTGCTTTTGTTGGCGGCGTAACGAACCACTTTGCGATAAAAATGCTGTTTCATCCCCGCGAAGAAAAAATCATCCTGGGCCGCCGCGTACCCTTTACCCCGGGGCTCATCCCCAAGCGCAAGGACGAGATTGCCGAGTCGCTGGGGCATGTGGTTTCGGATTACCTGGTGACAAGCGAGGGCCTGCAGGATCTGATTCGCAGGCCGGTGTTCCGCAGCAAGATGGAGGAAAGCCTCCGGCGGAAGCTGGAGGAATGGAGCGAATCGGAGCTGAGCTTCGGCGACTTGGCGCTGAAAGTATGGAGCCCCGAACAGTGGGAGCAGATGAAGGTCCGGGCGGAACAATTGGCGCGCGAGCTTACGGCCCGAGGTGCCGCTGCCATATGGCACGGGTATGGGCTTGAGGCGAAACCGCTGAAGGAGCTCGTTCCCGGCTGGTCGGAGGAAACGATTCAGGGCTGGAGCGCGGCCGCAGCCGATACCGTGCTGAAGGAGCTGAAGCATACGCTCTTGTCGGCAAAGGGGCAGCTCATGCTGTCGGACGTAGCTTCTTCACTTATCGATAAGGCGGGCGGATTTCTCGGTACGATGGCTTCAATCTTTGTGGATGAGGATAAACTGGTACAGAAGATGACCCCTGTGCTGATCCAGCAGCTGGAGGGAGAGAAGGTCCGCAAGACCATCACGGACATCATCTCCGGAAAGCTGTCTCATTACGGGGAGATGCCGATTGGGGATATCATCGAACATGCATCGGATGAGCCGGGGCTTGCGTGGCTGACCCGGACACTGGATGACAAGCTTCCTTGGTCCACATGGATTCAGCGGATCGAGCTTCTTCGCGTTGGCGAAGCGATCGGCCCGCGCATGCCGGCTATCGAGGCAGCCCTGCCAGGAATGCTCGATAAGGGGCTGGGCTTTTTGGAGCGAAGCATCCCGGGGGCGATGAAGGCCGTTAACTTGCCTCAGCTCGTTCAGGAGCAGGTGGAGAAATTTCCGATCGAGCGGCTGGAAGAGGTCATATTGAGCGTATCCGGCCGCGAATTCAGGGCTATTACCTGGCTCGGGGTTCTGCTGGGCGGGATCATCGGATTACTCCAATCGCTGCTGACGATACTGTGGAGATGA	MQNWLFILVNVCVAAFVGGVTNHFAIKMLFHPREEKIILGRRVPFTPGLIPKRKDEIAESLGHVVSDYLVTSEGLQDLIRRPVFRSKMEESLRRKLEEWSESELSFGDLALKVWSPEQWEQMKVRAEQLARELTARGAAAIWHGYGLEAKPLKELVPGWSEETIQGWSAAAADTVLKELKHTLLSAKGQLMLSDVASSLIDKAGGFLGTMASIFVDEDKLVQKMTPVLIQQLEGEKVRKTITDIISGKLSHYGEMPIGDIIEHASDEPGLAWLTRTLDDKLPWSTWIQRIELLRVGEAIGPRMPAIEAALPGMLDKGLGFLERSIPGAMKAVNLPQLVQEQVEKFPIERLEEVILSVSGREFRAITWLGVLLGGIIGLLQSLLTILWR				NA	NA	NA	NA	NA
AK002_04879	1395	yheD_4		Endospore coat-associated protein YheD	ATGCGCAAATCCAAGATCAAATCCAACACCAAATCCAAGATATCGGTTCAATTAATCCGCTCAGCCCAGCTTCCGGATAACGATATCAAGCTTGGTGACCGGCTCATAAGACAGCTCCGTATCCCGACAGATTCACCGATACAGCTTGCCTTTGGCTCCTTCAAGCAGGAAATCCGCGTTACTTCAGGAGGAAAATCGAACACGCTGGCCCTAAGCCCCACCATATTCAGCAGTTCGGAACTGCTTCCTCGCAGCACGATGAATGTCAGATATTATCCAACGGAAAAAATGCTGAAGCTCGGTCCGCTCATCGGTGTCATGGTCAGCCGCTTTTTACCGGATGAACCTGATAAACCTTTCGGGTCGATTTCGGCTTTCTGTTTGGAAATGGTAAACGCGGCCAAGAAACAAGGCGCATATGTGTACTTTTTCACCCCTGACATGATCGGTTCGAACCCGTCAACACTTGAAGCAATTATCTATGACGCGGGCTGGAAAAAGCGCAGCGTTCCAGCTCCGGACGTCATTAATAACCGGCTGTCTACCCGCAAACTGGAGAATAGTCCTAGCGTACAGCATTTTATGAGAGAAGTAAAATCACGATTCGGCACCCACATCTTTAACGAAAAATTCCTCGATAAATCCGATGTCTTCGAGGCGCTCGGACCCGATGCGAAGCTCCAAAAATATTTGCCGGAATCCTATTTGCTCAGCGGTTATCCGACTCTCAAAAAAATGTGCACCACGTATCGGACGGTCTTCCTGAAACCGGTGCGGGGAAGTCTGGGAAAGGGAATCATCCGGATTTCCCGGCAAGAGAACGGCCATTACCAAACGATGACGACATCTCTTGAAGGATCCAAGAAGAGCACCTACTCCTCGCTTCCAAAGCTGTTCAGCAGCTTATCCGGAAAAATAAAAAAAACGCGTTACCAAATTCAGCAAGGATTGGATTTAATCCGCATCAACCGGCGAAACGTCGATTTTCGCGCGCTTGTTCATAAAGACAAAAACGGCAAATGGGCAGTGACCTCGGTCGTAGCCCGAATTGCCGGCGGAAACCACTTTGTTTCCAATCTCGCCAGAGGCGGTACGCTATCTTCCGTCAAGGACGCGCTGGCCATGAGCAGCATTCCGTTATCCTCCAAGCAAACGGCTCCCGCCCGAATGAACCAAGCGGCGCTCGATATCGCTCATGGATTGGAGGCTGCCATTCCTTATCACTTTGGAGAACTGGGCATCGACTTGGCGATTGATACCTCGGGACGCATTTGGCTTCTGGAGGTCAACTCCAAGCCATCCAAAGGCGAAAACGCGCCATTGAATGCCGACTCCAAAGTAAGGCCGTCTGCCGTACGACTCGTTCAATACTGTCAATACTTGACGGGTTTGTAA	MRKSKIKSNTKSKISVQLIRSAQLPDNDIKLGDRLIRQLRIPTDSPIQLAFGSFKQEIRVTSGGKSNTLALSPTIFSSSELLPRSTMNVRYYPTEKMLKLGPLIGVMVSRFLPDEPDKPFGSISAFCLEMVNAAKKQGAYVYFFTPDMIGSNPSTLEAIIYDAGWKKRSVPAPDVINNRLSTRKLENSPSVQHFMREVKSRFGTHIFNEKFLDKSDVFEALGPDAKLQKYLPESYLLSGYPTLKKMCTTYRTVFLKPVRGSLGKGIIRISRQENGHYQTMTTSLEGSKKSTYSSLPKLFSSLSGKIKKTRYQIQQGLDLIRINRRNVDFRALVHKDKNGKWAVTSVVARIAGGNHFVSNLARGGTLSSVKDALAMSSIPLSSKQTAPARMNQAALDIAHGLEAAIPYHFGELGIDLAIDTSGRIWLLEVNSKPSKGENAPLNADSKVRPSAVRLVQYCQYLTGL				NA	NA	NA	NA	NA
AK002_04880	1137	yheD_5		Endospore coat-associated protein YheD	ATGCCCTCAAAGATAATAGGCACCCTGGGTGTCATGGCATGCCGCAAACCGGGCTTCCCGCCGTTTGCCGAGAAGCAATTTCTCCGCGAGCTAAGCTTGAAGTCCGAGGGCCTCGGCATGCAGGTATTTGTTTTTTGTCCGGATGATGCCTCACCTGCTTCAGGTGCGGACAGCGCCGCGGACAGGATAAAAGGATATCGCTTCAATCCGGAAGAGGGCTGGAGCACCGGCACCTTCCCGCTTCCTGACATCGTCTATGACCGTTGCCTGCACCGAAGCGGCGAGGAAACGGCCGCAGCCGGTGAACTTCTGAACCGAATGTCGCAGCTTGGCGTTAAGCTGTGGTCACGCGGTCTGCCGGGCAAGCAGAAGGTTCATCAGCTGTTAAAGCGCTCCTCAGCCATCAAGCCTTATTTGCCGGCAACCTTAAGTTATACGGGAGCCGAATCCCTCAGCCGGGCTTTGCTCGCCTTTGGCGGACGTCTCTTCATGAAGCCAAGCGGAGGCTCTCAGGGCCGTCACACCTTGTACCTCGCGTTGACAGATCAACAGCGTGTCAGACTGCAAGGAAGGGATCGGAGCAATCGCATGTTCCTGCATACCATTCCCGTGCAAGAGATGAACGAATGGGTGAGAGGTTTTACCGGCCGCCGCCGGTTTATCATTCAGCCCTTCCTGAAGCTTCGCAACGGTAATGGGCACCCGTACGATATCCGGTCATTGGTTCAAAAGAATGATCGCGGCATATGGTCCGTCACAGGAATCGCTGTTAGGCAAGGAGCCGACCAAGGATTAACCTCAAACCTTCATGGCGGAGGCACGGCTTTTCCCGCCCTCCCCTATCTAACGACCGATTTCGGAGAAGAAAAGGCCAAGGGGATCATGCGGACCATCCGGGATTTGTCCGCTCAGCTTCCAGCTCTGCTGGAGGAAGGATTCGGCCGGCTCGGCGAGCTGGGAATCGATTTTGGCGTGGATACCAGCGGACGGGTCTGGATCCTGGAGGTCAACTCCAAACCTGGCCGACGCGCATTTACACTAACGGGAGATGGTCACGCAGCCCGGCTGTCCGTCGAACATCCGATTCAATACGCCCGTTATTTATTGCTTCGACAACTTAGGAGGGTAAATACATGA	MPSKIIGTLGVMACRKPGFPPFAEKQFLRELSLKSEGLGMQVFVFCPDDASPASGADSAADRIKGYRFNPEEGWSTGTFPLPDIVYDRCLHRSGEETAAAGELLNRMSQLGVKLWSRGLPGKQKVHQLLKRSSAIKPYLPATLSYTGAESLSRALLAFGGRLFMKPSGGSQGRHTLYLALTDQQRVRLQGRDRSNRMFLHTIPVQEMNEWVRGFTGRRRFIIQPFLKLRNGNGHPYDIRSLVQKNDRGIWSVTGIAVRQGADQGLTSNLHGGGTAFPALPYLTTDFGEEKAKGIMRTIRDLSAQLPALLEEGFGRLGELGIDFGVDTSGRVWILEVNSKPGRRAFTLTGDGHAARLSVEHPIQYARYLLLRQLRRVNT				NA	NA	NA	NA	NA
AK002_04881	1368	yheD_6		Endospore coat-associated protein YheD	ATGAGTTTGAATTTCGGAAATATTCATTTCTCGCAGCAGCCCGAAAAAGTCGTCTTTTTATCCGGTTCGCTTCTCAAGAGCCTGGGGCTATCAAGCAAGAAATCGATAAAGCTTCGCATTGGCACCAATACCGTGTCCGCTGCCCTGAAACCGATCGAACGGTCGGGAAAGCACATCTATTTAAGCAGCGGAGTCCGAAACAGCGTCAACGTTCCCAGACAGGGTCCTGTATACATCCATTCCCCCCGGGAAGGAGAACTTGAACTGGGGCCCGTGGTCGGGGTTCTGTCCGACGGCCCCCCGAATCCGTCCAGTCCTTTTGGAGCCCGCACTTCGTATATCCGGCAGCTGCTTCGCGAAGGCAACAAAAAAATGTTCGTATATGCCTTTGCCCCACGGGATATCAACTGGCAGCGCGAAACCGTTCATGCCTATATGCTTGGTTCCGGCGGCGGCTTCATTCGTAAGACCGTTCCGCTTCCTGATGTCGTTTATAACCGCCTACCGAGCCGGAAAACCGACTTTTCCCCTTTTACCAACCAACTGAGGGACCGATTCGGCAAACGCAACATCAAATTCTTCAATTGGGCGTTCTTCAATAAATCGGATGTCTACTCGCAGCTGGACGGTGACCTGCAGGCGGGCAAATATTTGCCGGAAACCTACAACAATCCTAGTCCCGAGCGGATTAAGGATATGATGGAACGCCATCATTTCGTATATTATAAGCCTTCTGCCGGAAGTTTAGGCCTGGGCATCTACCGGTTAACCTATCTTCCCAAAAAAGGATACTATGCCCGCTATCACGGAAACGGCGGCAACACGCTGCTCAAATTCCCGAACTTTAACAGTCTGATGCGGATGCTTCAGGCAAAACACGGTGCCAAGCTGAAGAGCTACGTCATCCAGCAAGGAATCCGTCTCATTGAAATCGACGGATGTCCCATCGACTTCAGGTTCCATATGCATAAGAACAGCAGAAACCGTTGGGCCGTGGTCGGCATCGGCGCCAAAAAAGCCGGACGCGGCAGCGTCACCACGCATATCAAGAACGGCGGCTCGCTGATGACGCCGGAACTGGCGCTCTCCCGCGCTTTTGGAACCAGATCGCGTGATGTGCTGGAGCGCGCCAAGGAAGCCGCCATTGCGATGTCGGAAGCGATTGAGAATCACCACCCGCATCTGCTAGGGGAAATCGGGTTCGATATCGGCATAGACGATAACGAGAGAATCTGGATGTTTGAAGCGAATTCGAAGCCGGGCAGATCGATTTTCAGCCACCCTTCACTTAAAGCGGAAGGAAGAGCATCAGTCGAGCATATTTTTGATCACAGTTTGTATCTGAGCGGCTTCCACAGGGGGGAATGA	MSLNFGNIHFSQQPEKVVFLSGSLLKSLGLSSKKSIKLRIGTNTVSAALKPIERSGKHIYLSSGVRNSVNVPRQGPVYIHSPREGELELGPVVGVLSDGPPNPSSPFGARTSYIRQLLREGNKKMFVYAFAPRDINWQRETVHAYMLGSGGGFIRKTVPLPDVVYNRLPSRKTDFSPFTNQLRDRFGKRNIKFFNWAFFNKSDVYSQLDGDLQAGKYLPETYNNPSPERIKDMMERHHFVYYKPSAGSLGLGIYRLTYLPKKGYYARYHGNGGNTLLKFPNFNSLMRMLQAKHGAKLKSYVIQQGIRLIEIDGCPIDFRFHMHKNSRNRWAVVGIGAKKAGRGSVTTHIKNGGSLMTPELALSRAFGTRSRDVLERAKEAAIAMSEAIENHHPHLLGEIGFDIGIDDNERIWMFEANSKPGRSIFSHPSLKAEGRASVEHIFDHSLYLSGFHRGE				NA	NA	NA	NA	NA
AK002_04882	1107	yheD_7		Endospore coat-associated protein YheD	GTGATCAGCCGAGTGGAGAGTGATGGAAGACCGGTTGTAGCAATCTTGACCATGCACGATACTCAAACCATGTTCAGAGGCAACCGGCAAAACTTTCAGGAAATCATCAAGACAGGAAAAGATATGGGGTTTCTGGTCTATGTGGTCACGGTACGCGATCTGAAGCTTGATACGGATGCTGTCAAAGGTTATATGCTGTTGAGCGACCATTCCTGGGAGCAGAGGTTATGTCCTCTGCCCCAGGTTATCTATAACCGGATTCCATACCGTGAGGATGAAGCCCTGCCGTGGGTTCGCCGCAAAATCAAGGAATGCCAAAGGCATCCCCATATCGTCCTCTACAACCCACATTTCTTTAATAAGTGGAGACTGTTCGCTTGGCTGAACAAATCGCGGTTAACCAAGCAATGGACTCCTCTGACTAAGCGCTTGAAGGGGTATCCGACTTTATATGAGATGATGAAGCAGAAACCCTACCTGTATCTAAAACCGGAGGATGGCAAAGCCGGTCAAGGAATTATGAGGATTCGGTACCAGAAAAACAAATCGCTCCCCTACCGCATCCAGATTCAGAACAACAAAAACAGTACCACGTACAAAGCGGCTTCCTTGGAAAGGCTCTGGAACCGGGTTTATCAGGAAACCAAAGGAAGCTCATACCTTATTCAGCAGGGAATCGAGCTGGCTCAGGTCCATGGCCGTTCCTTTGATCTCCGCATTCTTGTGCAAAAGAACGATTCGGGTTCCTGGGCGGTCACGGGAATCGGAGCACGCATGGCAGGGGCCAAGAGCATAACCACGCATGTTCCCCGCGGGGGAACGATTGAGGACCCGGAGAAGCTGCTGCCGATCGTATTCGGTCCGGAACGTTCCGATGCCATCCTGGGCGAGGTTAGAAAGGCAGCCGTGCATATGGCACGGCAGATTGAGAAATGCTCCGGGCAGATCCATGGGGAAATGTCCATGGACCTCGGAATCGATAACGAAGGCATCCTTTGGTTCTTCGAGGCGAATTCAAGACCGATGAAATTTGACGAACCGGCGATCCGCAAAAAATCACTGGAGCGGATTTTTCAATATTCCGACTACCTGATCAAGCATAAGTAA	MISRVESDGRPVVAILTMHDTQTMFRGNRQNFQEIIKTGKDMGFLVYVVTVRDLKLDTDAVKGYMLLSDHSWEQRLCPLPQVIYNRIPYREDEALPWVRRKIKECQRHPHIVLYNPHFFNKWRLFAWLNKSRLTKQWTPLTKRLKGYPTLYEMMKQKPYLYLKPEDGKAGQGIMRIRYQKNKSLPYRIQIQNNKNSTTYKAASLERLWNRVYQETKGSSYLIQQGIELAQVHGRSFDLRILVQKNDSGSWAVTGIGARMAGAKSITTHVPRGGTIEDPEKLLPIVFGPERSDAILGEVRKAAVHMARQIEKCSGQIHGEMSMDLGIDNEGILWFFEANSRPMKFDEPAIRKKSLERIFQYSDYLIKHK				NA	NA	NA	NA	NA
AK002_04883	525			hypothetical protein	GTGGAAATCTCATGTCTCTCTCTCGCAGGCCCGGAAGAATGGCCGCATGCCAGACAGCAATGCAGCGAGTTCTTCAGGCGTTACAGCAGCAAGCGTCTAACCCGCGAAGGTTATCAGCGTCTGGCATCGTTATCCTACGACGAGCTGCTGCAGCCCGGCACTTCGATCGTGGCGGCAACGGTTCGGGGCGATATCGGGCGCATACCGGTGGGGATTTGCTTTGCGGCGGATTATGGAGAAAGTGCCTGTATGATTGCTGTACACCCTCTATACCGCAACCGGCAAATCGGTTCTTCCCTGATCCGCTCGCAATTATCCAGGTTCGGGCGGCTGCGATGCAAAGTGGCTGCAGATCATACGGCAAGTTTGCAAATGTGCTTTCATGCAGGGATGCAGGCCATTGCTCTTGAGCAGGGTCCGACAGGAAAACCTACGCTCATTATGAGCGGAATCCTGCCCCTGCACCAATCATTTAATGCTGACTCTATTCAAGAAGGTGAACCTCTGTGTCGAAACCCGTCTTAG	MEISCLSLAGPEEWPHARQQCSEFFRRYSSKRLTREGYQRLASLSYDELLQPGTSIVAATVRGDIGRIPVGICFAADYGESACMIAVHPLYRNRQIGSSLIRSQLSRFGRLRCKVAADHTASLQMCFHAGMQAIALEQGPTGKPTLIMSGILPLHQSFNADSIQEGEPLCRNPS				NA	NA	NA	NA	NA
AK002_04884	1116	yheD_8		Endospore coat-associated protein YheD	GTGTCGAAACCCGTCTTAGGTATTATGACGCTTTACTTGGATGAACGGAAAAAGCTGGAGGAACGGCATATCTACGAGCATATGATCAAGGAAGGAAAGGCAATGGGGCTGGACGTCTACGTCTTCACCCCCGCCGAGGTCAACAGCGCCCAAGGGCTGATCAACGCCATGGAATACGACCCTGACCACCAAAGATGGAGCCGGAGGTGGCGGTCGTTTCCCGACATGATCTTTGACCGCTGCCGCATTCAAAAGAGTCCGCGCTTTCAACAGCTGCTGCGCTTTCGTTCCCGCTACCGGTACTTGCTGTTTCTGAACCGGCCGCTGCGCAACAAATGGACGATTCATCAAATACTGTCCACCAAAAAACGCTTCCGGCCGCATCTGCCGGACACCCGGATCGTTACGAGCACCAGTGACATTCACCGGATGCTCCATGTTCACCCTGTCGTTTATTTTAAGCCGATCAACGGAACGGGCGGACGCGGAATCCTGCGGATTGCGAAAGTGCCGGGCGTTACGGGCACGTATGAAATCAGGGGACGCAATTCCAATCGGAGCATCATTAAACCGAAACGGATGCCATCGGGCCATTTGGCGCAATATTTATCGGGCTGGGGCAATAAAGACCGATATCTCGTCCAAGAGGGAATACAGCTGGAGCTGCCGGACGGAAGAGTGCATGACTACCGAATGCTCGTGCAGAAAGACGGTGCCGGTCAATGGCAGGTGACCGGCTGCGTGGGACGCGTCGGGGCGCCGAAGAGCGTAACCTCCAACCTGCATGGCGGCGGAAGCGCAACGATGATGGAAGAATTGTTAAGCAAATGGATCGCAGATCCGGCAAAGCGCGCCAGCATCCGCGAGGAAGCCGATTCCCTCGGCGTGGCCATAGCCCAATTTCTGGACGGACAATATGGAGGCTTGTGCGAGCTTGCGCTGGATCTGGCAGTGGATAAAACCGGAAGGGTTCTTCTCTTGGAGGTGAATCCTAAGCCATCAAGGGAAGTATTCTCGCAGATCGGCGATATGGCTGCCTACCGCGAATCCATGGTGAAGCCCTTAGAATATGCCATGTGGGTATACAGTCAAAAAAAATCCGCGAAGAATGCTTAA	MSKPVLGIMTLYLDERKKLEERHIYEHMIKEGKAMGLDVYVFTPAEVNSAQGLINAMEYDPDHQRWSRRWRSFPDMIFDRCRIQKSPRFQQLLRFRSRYRYLLFLNRPLRNKWTIHQILSTKKRFRPHLPDTRIVTSTSDIHRMLHVHPVVYFKPINGTGGRGILRIAKVPGVTGTYEIRGRNSNRSIIKPKRMPSGHLAQYLSGWGNKDRYLVQEGIQLELPDGRVHDYRMLVQKDGAGQWQVTGCVGRVGAPKSVTSNLHGGGSATMMEELLSKWIADPAKRASIREEADSLGVAIAQFLDGQYGGLCELALDLAVDKTGRVLLLEVNPKPSREVFSQIGDMAAYRESMVKPLEYAMWVYSQKKSAKNA				NA	NA	NA	NA	NA
AK002_04885	687	gph_6		Phosphoglycolate phosphatase	TTGGAAAAAACAGCTACGTTAATCAAGCCGGAAGCGATGATATTTGACATGGATGGAACGCTGTTTCAGACGGAGACCCTGCTGCTGCCCGCCTATCACAAATTGTTCGACATTCTGCGCGAAGAGGGGCACTACGAAGGAGAAACGCCGGATGAGGAGCTCATGCTTGGATGTCTGGGGATGCTGCTCGAAGACATTTGGAAGAAGGTCATACCGGATGCGACGCCGGCAGCCCATAACCGTGCAAACGAGCTGCTGCTGCAGCTGGAGCTCGAAGGTTTAAGCGATGAAGCAGCCGTTTTGTATCCTGAGGTGAAGGAGACGCTGGAGGAGCTTCATCGGCGCGGCGTCCGACTGTTTGTTGCCAGCAACGGCCTGGAGGATTACGTGAAGGGCATCTCCCAAGCGAGGGGGCTTATGCCGCTTTTTGAAGGAGTCTACAGTGCCGGAGAGCACGGAACGGCTTCGAAGGTGGATTTGGTCAGATTGCTGCTGGATCAGCATGAAATCAAGGATGCCTGGATGGTAGGAGACCGATCATCGGATGTGGAGGCAGGCAAAGAGAACGGACAAACCGTCATTGGCTGCCGCTATGCAGGTTTTGGCGAGGATCAGGAGCTGAAGGGATCGGACGTTGTCATCCATTCTTTTTCACAGCTGCTGAAGCTTCATGACCAAGCCGAGTAG	MEKTATLIKPEAMIFDMDGTLFQTETLLLPAYHKLFDILREEGHYEGETPDEELMLGCLGMLLEDIWKKVIPDATPAAHNRANELLLQLELEGLSDEAAVLYPEVKETLEELHRRGVRLFVASNGLEDYVKGISQARGLMPLFEGVYSAGEHGTASKVDLVRLLLDQHEIKDAWMVGDRSSDVEAGKENGQTVIGCRYAGFGEDQELKGSDVVIHSFSQLLKLHDQAE	PGPT0001730_2603	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK002_04886	279			hypothetical protein	TTGCCGGAAACAAGAGAGTCTGGTGAAGCATCGGCCATCGGGCTGCTGGAAGCCGAACTGCTGGCAGAGCTGGACCGGTATGATCCCCGTGAGCAAGCCGCCATTCTCAAGCGGATGGTTAACCGGCTTAAGAAGGGCCGATATGTCCGAAGCCCGATCGCCCTGGTGAAGGAGATGGTTCGGACACCGCTTGTATGGTACCTGTTGTCCCTGGGGATTGTGATACCGATCCTGTTCTATATCCTGTTCGTTTGGATCTCGCTGGCGGTTGAAGGGTAA	MPETRESGEASAIGLLEAELLAELDRYDPREQAAILKRMVNRLKKGRYVRSPIALVKEMVRTPLVWYLLSLGIVIPILFYILFVWISLAVEG				NA	NA	NA	NA	NA
AK002_04887	207			hypothetical protein	ATGAGAAGCCTTGCCGTGCTGGTTATGGCTTTAATCGGAGGTTTTGCAGGCGGGATCGTTCTGAATGCAGTGATCGCCGTTACGTCGCACATGGTATTTGGAGGAGACGAGGACGGGTTGAAGGGTCTCAAATATCTGCCGTTTGTTACCTCGGCATGGTGCGCCGCTACTTTAATGATCTGGCGGCGCCCGGAATTTGAACAATAA	MRSLAVLVMALIGGFAGGIVLNAVIAVTSHMVFGGDEDGLKGLKYLPFVTSAWCAATLMIWRRPEFEQ				NA	NA	NA	NA	NA
AK002_04888	393			hypothetical protein	ATGACGCAACAACCTGTAAGAAAAACACCGCTGGCCGTATGGATTTCGTTAGGGCTGGCATGGTTATTTGTTGTTTGTATTGCCGTTCAGACGTTTATTGCCGGCATGGCGCTGTTTCACGACGGATCGATGTGGAGAAGCCACACCCTGTTTGTCCATTTTTTTGAAATCGTGCCGCTGCTCATGCTGATATTTGGTTTTACAGGCAAACTGCCCGCCCCGTATAAATGGAGATCACTGGCTCTGTTGTTATTGGTCTTCGGCCAATACCTCACGGCGAACCTGCCTGTCGCAGGGGCATGGCATCCGGTCATTGCCATCGGATTGTTCTGGCTTGCCGTGGATACGGCACGTGGTGTACTCCCATCCTATCGGCAGGAACAGAAGGGGTAA	MTQQPVRKTPLAVWISLGLAWLFVVCIAVQTFIAGMALFHDGSMWRSHTLFVHFFEIVPLLMLIFGFTGKLPAPYKWRSLALLLLVFGQYLTANLPVAGAWHPVIAIGLFWLAVDTARGVLPSYRQEQKG	PGPT0017355_2818	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
AK002_04889	687	phoP_5	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	ATGGCACATACCTTGCTTCTTGTGGACGATGAACGGAAAGTCATTGAATTTATGGAGCCATTCCTCCGTCAGGAGGGATTTCACATCATTACCGCTGCGACCGGAACGGAGGCTTTGGCCAAGGCGAGAGACGCCAAGCCGGCGCTGGTCGTATTGGATTGGATGCTGCCGGAATTAAGCGGCATTGAAGTATGCCGGGAGCTCAGAAAATCAAGCCGTGTCGGCATCATTATGGTTACCGCCCGGATTGAGGAAACCGATAAGCTGATCGGACTGGAGGTAGGCGCCGACGATTACATGACCAAGCCTTTCTCCCTGCGAGAGCTGGCTGCGCGCATTCGGTCGGTCCTTCGCAGAATAGAAGGCGAATCGGTTACTGAAGAAATGCTTAAGCGCGGCGATTTAACGATCTCGGAAACCCAATGCCGGGTATGGAAACACGACCGGGAGATCCTGCTTACTCCTACCGAATTCAAGCTCCTCCTGACCCTTGCTTCCAGGCCTGGCGTGGTATACAGCCGTCTGCAGCTGCTTCAGGCGGCCATGGAGGATGATATCCACAATGATGAACGGACCGCGGACGCCCATATCAGCCGGATCCGCAAAAAAATCGAAGATGACCCGGCCGAGCCCGTTTTTATCAAAACGGTGTATGGATTCGGTTACCGGTTTGAGCAGCAGCCATGA	MAHTLLLVDDERKVIEFMEPFLRQEGFHIITAATGTEALAKARDAKPALVVLDWMLPELSGIEVCRELRKSSRVGIIMVTARIEETDKLIGLEVGADDYMTKPFSLRELAARIRSVLRRIEGESVTEEMLKRGDLTISETQCRVWKHDREILLTPTEFKLLLTLASRPGVVYSRLQLLQAAMEDDIHNDERTADAHISRIRKKIEDDPAEPVFIKTVYGFGYRFEQQP	PGPT0002665_1056	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_04890	1371	rcsC_16		Sensor histidine kinase RcsC	ATGAGCGTGGGCCGCAAAATCTTCATCGTCCTCTCGTCGTTCATTATCGGTTTCAGCACCGTCTTCGTCCTTCTTACTTATATCGTGATCCGCGATTCCATGGATGTCATGCTGCAAACCTCGCGCGAAGAAGAGCTGGATCAGCTCCAGGACCGGCTGGTCGGCTACTACGTAAAGAATGGGCATACTTTCCGTGCCGTTCAGGATCAGGCATGGTTAGCGGACAGTCCCCGTTCGGCTGACCGCCAGGAGAGCATCCTGCTGGTATCCGGGGAACAAACGGCCCTCTTGCATGAGGGGGAGGCTGTAGAGCAGCTGATCAAACGTCTGGGGGTAAAGCGGACGTTACATGTTGAAGGCGAAGCGGTCGCAGAGCTGTATTATTATGATACGGATGTGGCAAACCTGACCAAGCTTCGGATCGGTACGCCCACATCCATCATCATTCTGCTGGGCGGAGGCACCATCCTCTTCGTCCTGCTATCCCTTGGCGCGGCATACTGGATATCGCGAAGGCTCACGGCGCCCCTGCGCAAGCTCGTCCCGGCCATCGAACGCCTCGGTCAAGGCGAGTACGGCATTCAGGCCCCCGTCACCTCGGAGGACGAATACGGGAGGGTCGCCGTCGCTTTTAACGGAATGTCTTCCAAGCTCGAACAATCGGAAATGATCCGCCGCAATTTGGTGGCTGACGTCGCCCATGAGCTTCGCACACCGCTGACCATCGTGAGGGGAAAGCTGGATCTGCTTCAACAGAATCGGCAGCCGATCGAACCCGAACTGCTGCTTCCCATTCAGGACGAATTGATTCGCTTAACCCGGCTCGTGGGTGACCTCCATCAATTATCTTTAGCCGAAGCGAAGCAGCTGCCGCTGGTTCGAATACCAACCGATATGCTGGTTCTGCTGAGTCAAATCCGGGAACGGTTAGAGCCTGAGGCGGAGGCTAAGAACTTGGCCCTGCGACTGACGAGCGCTACGGAACGCACCTCCGTACCCGTTGATCCGAGCCGAATCACCCAGGTGTTCCTGAATCTGTTCGTCAACGCGATCCGGTATACGCCCCATGGCGGGCTTGTCCACGTTTCGCTGTTAGAGGAGTCCCCATCCGGCATGCTTCGGATTGATATTCGGGATACGGGCCCAGGGATTGAAGAAGAGCATCTTCCTTATCTCTTTAACCGCTTCTACCGCACGGATGAAGCGCGTGCGCGGCATCAAGGCGGCATGGGACTAGGTCTTGCGATTGCCAAGGAATTCATCGTATCTCATGGAGGCACGATTCAGGCAGAGAGCAAGCCGGGGCAGGGTACCACCTTTACGGTCCGGCTGCCGTATCATGATTCGGACCAGGAACTGCACGGGACCTAA	MSVGRKIFIVLSSFIIGFSTVFVLLTYIVIRDSMDVMLQTSREEELDQLQDRLVGYYVKNGHTFRAVQDQAWLADSPRSADRQESILLVSGEQTALLHEGEAVEQLIKRLGVKRTLHVEGEAVAELYYYDTDVANLTKLRIGTPTSIIILLGGGTILFVLLSLGAAYWISRRLTAPLRKLVPAIERLGQGEYGIQAPVTSEDEYGRVAVAFNGMSSKLEQSEMIRRNLVADVAHELRTPLTIVRGKLDLLQQNRQPIEPELLLPIQDELIRLTRLVGDLHQLSLAEAKQLPLVRIPTDMLVLLSQIRERLEPEAEAKNLALRLTSATERTSVPVDPSRITQVFLNLFVNAIRYTPHGGLVHVSLLEESPSGMLRIDIRDTGPGIEEEHLPYLFNRFYRTDEARARHQGGMGLGLAIAKEFIVSHGGTIQAESKPGQGTTFTVRLPYHDSDQELHGT	PGPT0003985_920	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-ENVELOPE_STRESS_RESPONSE,PGPT0003985-baeS-K07642	NA	NA
AK002_04891	570	ydbD_2	COG3546	putative manganese catalase	ATGTGGGTATATGAAAAAAAACTTCAGTATCCGGTGCGCGTAAGTAAATGTGATCCGAGAATGGCAAAATTTTTGATGGAGCAATATGGAGGCGCTGACGGCGAGCTGGCCGCCGCGCTGCGTTATCTGAACCAGCGGTATACGATTCCAGACAAAGTGATCGGATTGCTCAACGATATCGGAACCGAGGAATTCGCACATCTCGAGATGATTGCCGCGATGGTGTACAAATTGACGAAGGATGCAAGCGTGGCGGAGCTGGAGGCAGCCGGATTGGGCGCGCACTATGCCAATCACGATCATGCGCTGTATTATGAGAACGCGGCCGGCGTACCGTGGACGGCAACCTATATTCAAGCCAAAGGAGATCCGATTGCGGATTTGTACGAGGACATTGCGGCAGAAGAGAAGGCGCGCGCTACATATCAATGGCTTATCGACATGACCGACGACGTGGATTTGCAGGACAGTCTCAAATTTTTGCGGGAACGGGAAATCATTCATTCCCTCCGCTTCCGGGAGGCCGTTGAGATTATCAAGGAAGATCGGGAAACGAAAAAGATTTTCTAG	MWVYEKKLQYPVRVSKCDPRMAKFLMEQYGGADGELAAALRYLNQRYTIPDKVIGLLNDIGTEEFAHLEMIAAMVYKLTKDASVAELEAAGLGAHYANHDHALYYENAAGVPWTATYIQAKGDPIADLYEDIAAEEKARATYQWLIDMTDDVDLQDSLKFLREREIIHSLRFREAVEIIKEDRETKKIF	PGPT0025185_117	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025185-cotJC-K06334	NA	NA
AK002_04892	276			hypothetical protein	GTGAACGAAGCCAGACCCCAGGTTGGAGATCGGAAGTATTACGAAATGCTGGAGCAGCTACAGGCATTGGATTTTGTCCTGGTGGAGCTGAACCTGTATTTGGATACTCATCCGGATGATCTCAAGAGCATCGAGCAGTTCAACAAGCTAACACAGGAAAGGACGGTGCTTGCGAAGCAATTTCAAGAGCTGTATGGGCCGCTGCAAAATTTTGGTCGTGCTTTTTCCAAGTATCCGTTCGAATGGGCCCAAGGCCCGTGGCCTTGGCAGGTTTGA	MNEARPQVGDRKYYEMLEQLQALDFVLVELNLYLDTHPDDLKSIEQFNKLTQERTVLAKQFQELYGPLQNFGRAFSKYPFEWAQGPWPWQV	PGPT0025180_57	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025180-cotJB-K06333	NA	NA
AK002_04893	222			hypothetical protein	TTGAAGGAAAACCATGAGGTGCGCGTATACCCGGTATTTCATTCGCCATTTGATCCTTGCCCGCCTAAGCCCTACAGAACGTATGTGGTGCCTGTTAACCAGTTTATCGTGTTTCAACCGCCCGGCCTGCCGCAGTTTAGCCCTGCCGAGGCATTGAGACACGGAACGTTATGGCCGTCCTTGTATAGCCCGTATACCTCGCGAAAATTTAAAGGAGAGTGA	MKENHEVRVYPVFHSPFDPCPPKPYRTYVVPVNQFIVFQPPGLPQFSPAEALRHGTLWPSLYSPYTSRKFKGE	PGPT0025175_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025175-cotJA-K06332	NA	NA
AK002_04894	1032			Sodium-lithium/proton antiporter	ATGTCGATTAAGCAGCTGATCTTTATCGGTCTGGGGCTCCTGTTGCTGTACGGAATGTTTACGGTCGGGGCTCCGTTCCTGTTGGCTATCGTGATTGCTATTGCACTGGAGCCGTTAAATCGGCTCTTGATGAAAAGGCTCCGGCTGAACCGCATTGCGGCCGCAACCGTGACCAGCACGCTATTTCTTCTCTTGATGCTGCTTCTGGCTTATCTGATCGGGCTTCAGGTGTTTAACCAGCTGGTCGAATACTGGAGCAGGGCTCCGCAATATTTTGCGGGAGCCAATGAATTCCTTCAGCATACGATTATTCAGGCTCAGGACATGCTGAACGGCGTTTCGCCGGGCCTTGCCGACAGTCTTACCGAATTTATGTCGAATATTTCTTCCTATGTGCAGTCGCTGGTCAATTCGGTATCTTCAACCTTCCTGTCCTTTGCCAAAACGCTGCCTAACCTGTTTGTCACGTTCATCGTATTCTGCGTGGCGGTATACTTGTTTGCGTTCAGCCTCGATACGATGCGCGAAAAGGCGTTGTCGCTGTTCGACGAGTCTTCCCAGTCGCAGGTGAATGAAGTGCTGCTCAGCCTGAAAAAATCGATATTCGGCTTTTTGCGGGCCCAGCTGATCCTCAGTTTGTTCACGTACGTGATCACGCTGCTCGGCTTGCTGGTATTAGGTATCAATTACCCGCTTGCCATCGCCCTGCTTGTCACGATTGTCGACATCCTGCCGATCCTTGGCGTAGGCTCCGTATTGATCCCCTGGTCCATTTACCTGCTCGCGGTAGGCGATATTTTTACAGGGATCGGCTTGATTTTCCTGTTTATCCTGATAACGGTGATCCGCCGCGTGCTGGAGCCGAAGGTCATTGGGGATGCCGTCGGCATCGGCGCATTACCGGCCCTGGTCAGCATGTATGTCGGATTTAAGCTGGTTGGCGTGATCGGATTTTTTATCGGCCCCTTGGTCGTCATTATCTATTCCGCCATGCGTAAAGCGGGCTTGTTCCAAATCAAGATCAAATTCTGA	MSIKQLIFIGLGLLLLYGMFTVGAPFLLAIVIAIALEPLNRLLMKRLRLNRIAAATVTSTLFLLLMLLLAYLIGLQVFNQLVEYWSRAPQYFAGANEFLQHTIIQAQDMLNGVSPGLADSLTEFMSNISSYVQSLVNSVSSTFLSFAKTLPNLFVTFIVFCVAVYLFAFSLDTMREKALSLFDESSQSQVNEVLLSLKKSIFGFLRAQLILSLFTYVITLLGLLVLGINYPLAIALLVTIVDILPILGVGSVLIPWSIYLLAVGDIFTGIGLIFLFILITVIRRVLEPKVIGDAVGIGALPALVSMYVGFKLVGVIGFFIGPLVVIIYSAMRKAGLFQIKIKF				NA	NA	NA	NA	NA
AK002_04895	1332			hypothetical protein	ATGGCAGAGGAATTTGAGGTCGGGAAACTGATTTTGAATTTACTCTTGGTTTTCCTGCTCGTTTTGTTGAACGGCGTGTTTGTAGCCGCCGAATTTTCACTCGTGAAAATGCGCCAATCCCGGCTGACCCAGCTCGTTAGCGAAGGGAACCGGCTTGCCGGCATTGCGCTGAAAGTAAACCAAAAGCTGGATGCTTATTTATCCGCCACCCAACTCGGGATTACCCTGACTTCCCTGGGACTCGGCTGGATCGGGGAGCCCGCCATTTCCGAATTGCTGGTAGCTCCCATCATGCACAGCATCGGCTTTGCGGATGAGCGATTGATCAGCACGATATCGGTCGCGGTGGGCTTCTGTATTATCACCTTTTTGCATATTGTGTTAGGGGAGCTTGCACCGAAATCTTTGGCTATTCAGCGGACGGAGGGCACGGCACTGCTTCTGTCAGCCCCGCTGCTCTGGTTTTACCGCATTTTTCTGCCGGTGATCTGGGTGCTCAATGCTTCCGCTAACCGTATTCTGAAGCTGGTCGGCATCGAGCCCGCAAGCGAGGCCGAGGCGGCCCACTCCGAGGAAGAGATTCGGATTCTGATGACCGAGAGCGCACGGAGCGGTGTCATCGACGAGAACGAGATGAAATTGATGGACAACCTGTTCGATTTTTCCGATTTGAGAGCCAGGGAAATTATGCTGCCGAGGACGGATATGGACGTATTGTTCACCAATTTTACCTTGGAGGAGAATCTTCGGATCGTCAACGAGACGAAGCATTCCCGTTACCCGGTTGCAACGGACAACAAGGACCGCATCATCGGATTTGTCCACATTACGGATCTCCTTCTCGCAGAGCCGGAGAAACAGCGTGATCTGACATCCTTGGTGAGACCGATTATGGACGTATCGGAATCCATGGAAATCAGCCAGGTGCTGCGGAAGATGCAGGCAAGACATGAGCAGCTTGCGCTCGTGGTGGACGAATACGGAGGGACCGCCGGCATTCTCACGGCTGAGAAGATTCTGGAAGAGATTGTCGGGGACCTGTACGATGAGTTCGAAGACGAGCGGCCGGAAATCGAAGTGTATGATGAGTCCTTTTCGGTAGACGGGCGAATGCTCATCGAAGAAGTGAATGATTTGACCGGCTTGATGATTGATGAGCATGACGTCGATTCCATTGGCGGTTGGCTGTTCAAGGAGCTGGAAGGGAACCCGGCAGTCGGGAAGAAAACCGCCTTTGACGGGGTGGTCTTTGAAGTTGAGGAGTCTACCCGGTTACGCGTAACCCGCGTCATGATTCATCAGAAGCTGGAAAGCAGCCTCACCCAGAACTAG	MAEEFEVGKLILNLLLVFLLVLLNGVFVAAEFSLVKMRQSRLTQLVSEGNRLAGIALKVNQKLDAYLSATQLGITLTSLGLGWIGEPAISELLVAPIMHSIGFADERLISTISVAVGFCIITFLHIVLGELAPKSLAIQRTEGTALLLSAPLLWFYRIFLPVIWVLNASANRILKLVGIEPASEAEAAHSEEEIRILMTESARSGVIDENEMKLMDNLFDFSDLRAREIMLPRTDMDVLFTNFTLEENLRIVNETKHSRYPVATDNKDRIIGFVHITDLLLAEPEKQRDLTSLVRPIMDVSESMEISQVLRKMQARHEQLALVVDEYGGTAGILTAEKILEEIVGDLYDEFEDERPEIEVYDESFSVDGRMLIEEVNDLTGLMIDEHDVDSIGGWLFKELEGNPAVGKKTAFDGVVFEVEESTRLRVTRVMIHQKLESSLTQN	PGPT0014013_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014013-yrkA-NA	NA	NA
AK002_04896	1140			hypothetical protein	ATGAGTAATACAGCACAGCCGTTTCCATCAGCCGTAAGGCCTATTTCGCCGAGTTATGATCCGTGGGATCCGATAACTTCCCTGCGCGAGCATGGCCGCCACGTGCTGACCAGCGTGGAAATGACAGTGACGCATCTGTGCAATATGCGCTGCGAGCATTGCGCTGTCGGTGATATGCTCGTCATGAAGGAAGCCCCGATGCTGCCCCTGGATACGATGCTGAAGCGGCTGGATGAGGTAGAGCATCTGCAGACGATCAGCCTGACGGGCGGTGAACCGGCGTTTCTGGGCAAAACGGTGGATAACGTGATTGTTCCCCTGCTCAAGTACGCCAAGGAACGGGGAATCCGGACTCAGATCAACTCCAATCTGACGCTGGATATCGGCAGGTACGAGAAGATGCTGCCCTATCTGGACGTTATGCATATTTCGTTCAATTACTTGAACGGGGACGACTTTTATGAGGTCGGATTTGCGAATAGCGCTCGCCCCGTCTCCAAGGAAACGGCATACAAGATGTACGACACGATGCTGGTCAATTCGGAGAAGCTGAGCGCGGCCGGCATGTACATATCCGCCGAATCCATGATTAACTACAGAACGCATACGAAACTGGGCGGCATTCATAAGCTGATCAAGGACATGGGCTGCAAGCGGCACGAGGTTCACCCGATGTATGCTTCGAACTTTGCATCCGCGTTGCCCGTCTTGTCCTTGGCCGATACGAAAGCCGCCATCCATCATTTGCTGGATGTCCGAGACAGGGACATGTGGATGCTGTTCGGAACGCTGCCGTTCTATGCCTGCAGCTCGGACGATCATGACCAGGAGATCATTCGCCGCTTGCGGCAAGAACCGAACGTAACGGTTCGGAACGATCCGGATGGCCGTAACCGGGTGAATGTGAATTTATTCTCGGGCGACGTGTACGTAACGGATTTTGCTGATATCCCGGCTTTTGGTAATATTAAGGAACAGAAGCTGGACGATATTTTTGACGCATGGTCTACAGGTCATCCGTTGAATCAAACGGTCAACTGCCACTGCGATGCAGTGAGCTGCTGCGGTCCGAACCTGTTGGTAGCCGACATGTACTATCGGGGTGTGGATTTCAAGTCGAGAAAAGCAAAGACAAACTAG	MSNTAQPFPSAVRPISPSYDPWDPITSLREHGRHVLTSVEMTVTHLCNMRCEHCAVGDMLVMKEAPMLPLDTMLKRLDEVEHLQTISLTGGEPAFLGKTVDNVIVPLLKYAKERGIRTQINSNLTLDIGRYEKMLPYLDVMHISFNYLNGDDFYEVGFANSARPVSKETAYKMYDTMLVNSEKLSAAGMYISAESMINYRTHTKLGGIHKLIKDMGCKRHEVHPMYASNFASALPVLSLADTKAAIHHLLDVRDRDMWMLFGTLPFYACSSDDHDQEIIRRLRQEPNVTVRNDPDGRNRVNVNLFSGDVYVTDFADIPAFGNIKEQKLDDIFDAWSTGHPLNQTVNCHCDAVSCCGPNLLVADMYYRGVDFKSRKAKTN				NA	NA	NA	NA	NA
AK002_04897	2262	ydfJ	COG2409	Membrane protein YdfJ	GTGAGACGTAACGGCCATGCAACATTGCTGCATACATGGGGGCGACTGATTTACCGCTACCGTAAAGCCATTGTTGTAACCTGGCTTATTTTGTTTTGCGTGCTGCTTCCGTTTGCGTTCAAGCTGCCGTCCATATTGCAGCATAACGGGTTTACGCCGAAGGATAGCCCGGCCCAGATCGGAATCGAGAAGCTGGAGGAGGGTCTGGGATTGTCGGCAGCCTCGCTGGATATCGTCGTTGTCAGTCGACACGATGAGAACCTGACGGCGGGGACGGCGCAGAGGCGGATACTGACGGAGCTTGCGCCTTTGCGTGACCGCCCATATGTCAGGGATATGTATATGAATATGGCAGCTCATAAGGCTGGCCAGGATCATATCGTATCCGTGACGGTGCTGCTGGATCCGGATTCCTCGAAAGCCCTGCAGCAGTTTGAAGAGATCAGAGACTCGGTTCCCGACATCACGGGAGCGGATACGTACATAACGGGGAATACCGCCATCTTCGCCGATATGAATCAAGCCGTTAAGAGCGATATTATCCATGCGGAAATGATAGGCATTCCTGCAGCCTTGCTCATCCTGGCGGTCGTATTCGGCACATTGACTGCCGCGCTTCTTCCCTTAATCGCCGGAATTGTCAGCGTGGTGGTCACGATGGGCATTCTGTATTTTGTCGCTCTGGCCGACGGCACGATCAGCAATTTTCTTCCGAATGTCGTCACGATGCTTGGTTTGGCCGTAGGCATTGATTATGCCTTGCTGATCGTTAGCCGCTTCAAAGAAGAATTGCGAACACGGAGCGGGGATGTGGGATCCGCACTGGCTGTCACTTGCGCAACCGCCGGCAAAGCAGTGATGTTCTCGGGTGCTGCCGTGTTGATCGGTTTTGTGGCGATGAGTTTCATCGACCTGCCGATCTTCCGCTCTTTCAGCATAGGCGGCATTACCGTCGTGCTGTTCTCGGTGCTGGCCGGCAACACGCTTCTTCCGGCTTTATTGGGGATGCTGGGCCCCCGCATCGATGCGCTCCCTCTCTTTCCGGCCAAACTCCGGGCGCTTCGGGGCCGGCAGACCTTGGGCATGTGGAGAAGGATCTCCGGTTTTGTTATGGCCCATCCCGTGACCATCTCTGTAGCAGCGATCGGTTTGCTGCTGGTGGCGATCTATCCGGTCCGAAACATGAACATTGCCATCCCCGCTGCCGAAGTGCTGCCCCCCGCCTATGAATCCCGTTATGGCCACGACCTGCTTACGCAAGCTTATGACGAACGCGAATTGAATTCGATCGTTGTGGCGGTGGAGCTTCCGTCTTCCTATGCGGATCCGCACAGCATCGAGCTTATGAAAGCATACACGGATGAAATCAGGCTCATGCCAGGCGTGAAGCGGGTAGAGAGTTATCTAAGCGTTGGCAGGGGTTCGGTGGAGGAGGTATCAAACGTTCTGTCCCGCCAAGACATCCGCCAGCAGCTGGAGCAGCATCGTTTTGTCAGAGGAAATATGGCAGCCGTTGCCGTGACTCCGGAGCATGAGGAATCCCATGCACTCACGATGCAGCTTGTCCAAGCGCTGCGGACCATGGATACGAATGAACTGAAGACCTATGTCACCGGCAGCCCCGCGTATAAACTGGACATCATGGAAGCCATCCAGCAGAACATTTCCTACGTCCTGGTATTCGTATTTGCGGTGACTTATATCATCCTCCTCTTCGCATTCCGGTCGATCGTGCTCCCCTTAAAGGCCAGCGTCATGAACATGCTCAGCCTGGGCGCCGGACTCGGTATCGTGGTGTGGGTATTTCAGGAGGGCATTGGTGCGGAGTGGCTGGGCGTTTCTTCTACAGGGTCCATCTTCGCGCTCCTGCCGGTCCTGATATTCTGCGTGGTGTTCGGCATATCGATGGACTATGAAGTCATGATGCTCTCGCGGATCATGGAGAACTATGAACGGACGGGGGATAACGAATTCAGCACGGCCGAGGGCTTGGAGAGTACGGGCGGTCTGATTACCAGCGCGGCTCTGATTCTGGCCGTCGTTGTGGGTGCCTTCGTATTTACGGACAATGAAGTGATGAAAGCGATCGGTTTAGGCCTGACAGCAGCCATTCTGCTGGACGCGACCGTGATTCGGGTGCTGCTTGTGCCTGCATTCATGAAGATGCTGGGCAGAGCGAATTGGTGGAGTCCCGCATGGATGTTTCCGGCATCTAAGCTTGCTTCCAAGGAACGTTCGGACAAACGGGGGGAAGCCGGATGA	MRRNGHATLLHTWGRLIYRYRKAIVVTWLILFCVLLPFAFKLPSILQHNGFTPKDSPAQIGIEKLEEGLGLSAASLDIVVVSRHDENLTAGTAQRRILTELAPLRDRPYVRDMYMNMAAHKAGQDHIVSVTVLLDPDSSKALQQFEEIRDSVPDITGADTYITGNTAIFADMNQAVKSDIIHAEMIGIPAALLILAVVFGTLTAALLPLIAGIVSVVVTMGILYFVALADGTISNFLPNVVTMLGLAVGIDYALLIVSRFKEELRTRSGDVGSALAVTCATAGKAVMFSGAAVLIGFVAMSFIDLPIFRSFSIGGITVVLFSVLAGNTLLPALLGMLGPRIDALPLFPAKLRALRGRQTLGMWRRISGFVMAHPVTISVAAIGLLLVAIYPVRNMNIAIPAAEVLPPAYESRYGHDLLTQAYDERELNSIVVAVELPSSYADPHSIELMKAYTDEIRLMPGVKRVESYLSVGRGSVEEVSNVLSRQDIRQQLEQHRFVRGNMAAVAVTPEHEESHALTMQLVQALRTMDTNELKTYVTGSPAYKLDIMEAIQQNISYVLVFVFAVTYIILLFAFRSIVLPLKASVMNMLSLGAGLGIVVWVFQEGIGAEWLGVSSTGSIFALLPVLIFCVVFGISMDYEVMMLSRIMENYERTGDNEFSTAEGLESTGGLITSAALILAVVVGAFVFTDNEVMKAIGLGLTAAILLDATVIRVLLVPAFMKMLGRANWWSPAWMFPASKLASKERSDKRGEAG				NA	NA	NA	NA	NA
AK002_04898	1068			hypothetical protein	ATGGTTCTTGGTAAGAAAATATACAATAGTGACGGTTTAATCCTGCTTGCCGAGGGCGTGGAACTGACAGCCGGGCTGATCCGCCGTCTGGGCACGCTGGAACTCGGGTATGTATACATCGAGGATCCGATGACGGAGGATATCGTGGTTCCGGAGTTGTTGACCGAAGAGACGCGGCTGCAGGCGATCCAATCGATTCGGACCAGCTTCAAGAACCTGGAGAGCCAGGCTGCTCTGAAAGGCAGCTTCCTTCATTTGGGCAAAACGTTCTCTGGGATGATGGAATCCATTATGGATGAAATTTCGGAACATGATGAGGGCATGGTGCTGCTGACCGATATGAATACGAACGATTACAACCTGTACCGTCATTCTCTGAACGTATGCGTCTACTCGACGGTTCTTGGCGTTTCTTACGGGTATAACCGGGAAGAGCTGAGGGTGCTCGGCCTGGGGGCCCTGCTGCACGATATCGGCAAAACGCGGATCAGCCAGAAGCTGCTGAATCATCCAGGACGGCTTAGCGAGGAGGAATTTCGCGAGGTCCAGAAGCACACCGAGATCGGCTTCAAAATATTGAAGGACGAGCCCAACATTCCGCTGTTATCGGCGCATTGCGCCCTGTCACATCATGAGCGCCTGGATGGCAGCGGTTATCCCCGGGCTTTGAAGGGACCTGACATCCATGAATACGCGAAATGGATCGCGATAACGGATTCTTACGATGCGATGACCACGCAGCGGGTGTACAAGCCTGCATTGCTGCCGCACGAAGCGGTGGAGGTCATGTACGCCGGATCGGGAACGCTGTATGAACAATCATTCCTGGCCATGTTTCGGGATCGGGTAGCGATATATCCTCCCGGGATCACCGTGAAATTGCATACGGGTGAGAATGGAGTGGTATCCAGGATCCACGCGCATGTGCCGCATCGACCCGTTGTCCGCGTATTGACGGATGCCGAGGGCACCCCGTTATCCGCGCCTTACGAACTGGATTTATCCGAGACGCTGGCCGTTATGATCGCCGGCATCGGACAGAGCACCATAGATCAAACTGGAGCATAA	MVLGKKIYNSDGLILLAEGVELTAGLIRRLGTLELGYVYIEDPMTEDIVVPELLTEETRLQAIQSIRTSFKNLESQAALKGSFLHLGKTFSGMMESIMDEISEHDEGMVLLTDMNTNDYNLYRHSLNVCVYSTVLGVSYGYNREELRVLGLGALLHDIGKTRISQKLLNHPGRLSEEEFREVQKHTEIGFKILKDEPNIPLLSAHCALSHHERLDGSGYPRALKGPDIHEYAKWIAITDSYDAMTTQRVYKPALLPHEAVEVMYAGSGTLYEQSFLAMFRDRVAIYPPGITVKLHTGENGVVSRIHAHVPHRPVVRVLTDAEGTPLSAPYELDLSETLAVMIAGIGQSTIDQTGA				NA	NA	NA	NA	NA
AK002_04899	825	uppP_2	COG1968	Undecaprenyl-diphosphatase	ATGGATTTTATCACATCCATCATACTGGGGATCGTGGAAGGACTAACCGAATTCATTCCGGTGTCTTCCACGGGCCACATGATTTTGACGGCCAAGGTGCTCGGTTACGACGACCAAACACCGATCATGAAGACGTTTGAGGTTGTCATTCAGCTAGGAGCCATTTTGGCGATCGCGATTGTTTATTGGAATCGGATTTTGAATCTGCTCGGGTGGAGCCGAAGCGAGCCGTTGACCCGGAAAGTGCCTCGGAGGCGATTGAACCTGATGCATATATTTTTGGGGATTGCTCCGGCCCTGCTGGTTGCGTTTTTTGCGAGGGATTTCATCAAAAGCCTGTTCCATGCGCAGACGGTGCTGTTTGCACTCGTTGCCGGCGGCATTTTTATGATTTTTGCGGAATGGTACAATAAGCATAAAGTCCAAGTGACCGCGCATGATATGGATGATTTGACATATAAGCAGGCCTTTCTGATTGGGATCTACCAGATCATATCCGTCCTATGGCCGGGCTTTTCCCGTTCGGGGTCTACGATCTCCGGGGGCATGCTTAGCGGTGTGAGTTATAAGGCATCGGCCGATTTCTCGTTTATTATCGCGATTCCCATCATGTGTGCCGCATCGGGATATGAATTGCTGGATTCTTACCGATATTTTACTTTAGATACGATCGGCGTATTTCTAGCCGGATTTATCGTTTCGTTTGTTGTCGCTTATTTTGTCGTCTTGGCCTTCATGAAACTCATACAGAAGATAAGGCTTACTCATTTTGCGATCTACCGTTTTGGTCTCGCCGCCGTTTTTTGGCTGTTCATCATGCATTAA	MDFITSIILGIVEGLTEFIPVSSTGHMILTAKVLGYDDQTPIMKTFEVVIQLGAILAIAIVYWNRILNLLGWSRSEPLTRKVPRRRLNLMHIFLGIAPALLVAFFARDFIKSLFHAQTVLFALVAGGIFMIFAEWYNKHKVQVTAHDMDDLTYKQAFLIGIYQIISVLWPGFSRSGSTISGGMLSGVSYKASADFSFIIAIPIMCAASGYELLDSYRYFTLDTIGVFLAGFIVSFVVAYFVVLAFMKLIQKIRLTHFAIYRFGLAAVFWLFIMH	PGPT0024165_2686	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK002_04900	1434	mggB	COG0737	Mannosylglucosyl-3-phosphoglycerate phosphatase	ATGGGTCTTAAAAGCAATAAACAAAAGCTGACCATATTATATACCAACGATATACACAGCCATTTCGAGATGATGAGCAATGTGGCGGCACTTATTTCCCGGGAAAAGACGGCTGCCGGCGATAAGTCGATCGTGCTGGATATCGGCGACCATATGGATCGCGCATCGGTGGAAACCGAAGGCTCGATGGGGCAAGCGAATGTGGATGTCATTAATTTGACAGGATACGACGCGATTACAATCGGCAATAACGAAGGCCTGACCATTTCGTACGATGTTCTGGAGCATGTATATGCCGGACTGCAGTGCCCCGTCGTTTGCTGCAACATCAGGGAGACGGAGAGCGGCAGTCCTCCTTCATGGATGAAACGGCATGTGATCCTGGAACGGGATGGCATTTCGATCGGGCTCACCGGCGCAACGGCAGCTTTTGCAGGATTTTATCAATTGTTAGGCTGGGAAGCAGGAGACCCGGTGGAGGCCATCGCCGAACAGGTTCGAGCGCTTCAGGGCCAGTGTGATATCGTTATCGTTTTATCCCATTTAGGACTAACGATTGATAAAAGATTAGCAGAACATGTAGAAGGCATTGATGTCATACTTGGCGGCCATACCCATCACATCCTTGAAGAGCCGCTAATGATCGGGAAGACAGCCGTATGCGGCGCGGGCAAATTCGGACAATACGTAGGTCGCCTCGTTATGGAGCGAAACGACGTTGGTGAACGGTTTACCTGCGTAGAGGGAACCTTGCTGCCTGTGGATAAAAGTCTGATGGAGCCCATCGTGGAGCAGGCCATCCTGAAACATCATGAGCTGGCCAAGGAGAAGTTAACCGAAGCCGTGGCCGTGATCGACCGCAGCCTGCCGATCCATTATGAGGAGGAATCGCCGTTTGCGAACCTGTTGGCTCAGGCCGTGCTGCAGCACACGGGTGCGGAAATTGCGATCGTCAATTCCGGGCAGCTGCTGGGACCGCTGCCGGAGGGCGAAATCAGCACCGGGATGCTGCATGGTTTGTGCCCGTCACCGATTAATCCCTGTGTCGTGAAATTGCGGGGAGAACATATCTATCAGGCGCTTGAAGAGAGTCTGCTTCCGGAGTTTAGCGGGAAGAAGATCATGGGCTTCGGCTTCCGCGGGTATCTGTTAGGGGGCCTGGCCGTCGATGGATTAAAGATCCGATATGACAAGGATGGGGAGCCTTACCGGAAGATCACGCAAATCTCCTTCAAGGGACAACCGCTGGAATGGCAGCGGGAATATCATGTGGGAACGCTCGACATGTTTACTTTTAAAATCGGATACGAGACCCTGGCGCTTGGAACGGATACGGTTTATATGCTGCCCGAGTTTATTCGAGACCTGCTGCGGAGCGAGCTTTCGCGTCCCGGATCGCTTGAAGCGTCCATGATTCCACGCTGGATATCCTGA	MGLKSNKQKLTILYTNDIHSHFEMMSNVAALISREKTAAGDKSIVLDIGDHMDRASVETEGSMGQANVDVINLTGYDAITIGNNEGLTISYDVLEHVYAGLQCPVVCCNIRETESGSPPSWMKRHVILERDGISIGLTGATAAFAGFYQLLGWEAGDPVEAIAEQVRALQGQCDIVIVLSHLGLTIDKRLAEHVEGIDVILGGHTHHILEEPLMIGKTAVCGAGKFGQYVGRLVMERNDVGERFTCVEGTLLPVDKSLMEPIVEQAILKHHELAKEKLTEAVAVIDRSLPIHYEEESPFANLLAQAVLQHTGAEIAIVNSGQLLGPLPEGEISTGMLHGLCPSPINPCVVKLRGEHIYQALEESLLPEFSGKKIMGFGFRGYLLGGLAVDGLKIRYDKDGEPYRKITQISFKGQPLEWQREYHVGTLDMFTFKIGYETLALGTDTVYMLPEFIRDLLRSELSRPGSLEASMIPRWIS	PGPT0013395_1826	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
AK002_04901	738			hypothetical protein	ATGTCGACAACCATTTCCATACTGCTATTCGCCGGATTAGCCGATCGCATCGGCACCGCTTCACTTGCATTCGGCGTACCCGCCCTCCCCCTTACGACCGGGGATTTGAAGCTGCTTCTTAGCGAGGCTTATCCTGATGCCCAATCCCAGATTGCCACGGCCTTCGTTGCGGTCAATCAAGAATATGCGCTGCCGGATCAGCTTATTCAGAGCGGGGACGAAGTGGCTCTGATTCCGCCTGTGTCCGGCGGGGACGGAACCAACCTGCAGGACACAGGCTCCAGTTCCTCGTCAGACGGAACGTGCACCATCACCTGCCACCGGCTGTCCGTGGAAGAAACCATCGCCAAAGTGCATGATGATAACCATGGCGCAACGCTTTCCTTTGTAGGCACGACGCGGGAGATAACCGGCCAGATGCGAACGGTAACGCTGGAGTATGAAGCTTACATTCCGATGGCCCTGAAAGAAATGCAGCAAATCTGCATGGACATCCACGGCCGATGGCCCGGCACGAAATGCGCGATTTCCCACCGTATCGGCACAGTCGGAATCGGGGAAACCAGCGTCGTTATCGCCGTATCTTCACCGCATCGGGAAACATGTTACGAAGCAAGCCGATATGCCATCGATCAGTTGAAGCGATCCGTTCCGATCTGGAAGAAGGAGATATGGGACGATGGTTCGGAGTGGAAAGGGGCGCAGACCGGACCCTGGGACCCAACGGCTAGGCAATAA	MSTTISILLFAGLADRIGTASLAFGVPALPLTTGDLKLLLSEAYPDAQSQIATAFVAVNQEYALPDQLIQSGDEVALIPPVSGGDGTNLQDTGSSSSSDGTCTITCHRLSVEETIAKVHDDNHGATLSFVGTTREITGQMRTVTLEYEAYIPMALKEMQQICMDIHGRWPGTKCAISHRIGTVGIGETSVVIAVSSPHRETCYEASRYAIDQLKRSVPIWKKEIWDDGSEWKGAQTGPWDPTARQ	PGPT0008415_27	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
AK002_04902	1047			hypothetical protein	TTGAGAGTACATGTCACGGACCTGAAACCCGGTGATCAAATACAGCAGGATGCTTACAATACGAACGGCGTTCATGTTCTGCAAAAAGGGGCTTTGCTTCGTTCAGAGGATATATCCAAGCTATTGCAGCACGGTATCGATTACATAGAAATACAGCCGCGCGCGCTGTCTGTATCCCTCGATCCGTTATCTGAAATTTCGGACTCGTTCAACAAGGTTAAACCTCACTTTAACCTTGCGTTTGACGGATGCTCCGCCTTATTTACGGAAGCATCCCAATCCGGAAAGTTCAATGAATCCGTTGTAGACGATGTTTTCCAGCCACTGGTCGGCTCGCTGAACGAGCATACGGATGTGGTATCCCTGCTTCTGCTGTTTAATGGAACAGATGATTATACCTACAGGCATTCCATTCAAGTAGGGATGCTATCCTACTACATCGCGGATTGGATGGGTTACTCCGGCAAGGAAGCCTATGAAATCGGTAAAGCGGGCTATCTCCATGATATCGGCAAGAGTAAGATTTCAAGGGATATCCTGGACAAGCCCGGCAAGCTGACCCCCGAGGAATTCGAGGAAGTGAAGCTGCACACCATCTATGGTTACGAGATGATCGCCGAATCCATGGATGATAAGGTGACCGCCATGGTCGCACTTCAGCACCATGAAAGGGATGACCGTTCGGGCTATCCGCGAGCGCTCCATGCAGACCAGATTCATCCGTACTCTCATATTTGCGCGGTAGCCGATGTCTACAGCGCCATGACAACGAACCGGGTCTATCAGTCCAAGCAGCAGCTGCTAACCGTTTTGCGCGAGCTGTACAGTCTCAGCTTCGGGAAGCTGAACGGCAAGCCGACGCACGCTTTCATTCAGCAGATGCTGCCGAATTTCATCGGCAAAAAGGTTCTGCTGACGACGGGCGAATCCGGCATCATCGTCATGAACCATCCTTCGGACTACTTCCGTCCGCTTGTAAAGACCGATGATCGTTTCATCGACCTCTCCAAGGAATATCATACCGAGATTCAAGAGATTCTGTTGTAA	MRVHVTDLKPGDQIQQDAYNTNGVHVLQKGALLRSEDISKLLQHGIDYIEIQPRALSVSLDPLSEISDSFNKVKPHFNLAFDGCSALFTEASQSGKFNESVVDDVFQPLVGSLNEHTDVVSLLLLFNGTDDYTYRHSIQVGMLSYYIADWMGYSGKEAYEIGKAGYLHDIGKSKISRDILDKPGKLTPEEFEEVKLHTIYGYEMIAESMDDKVTAMVALQHHERDDRSGYPRALHADQIHPYSHICAVADVYSAMTTNRVYQSKQQLLTVLRELYSLSFGKLNGKPTHAFIQQMLPNFIGKKVLLTTGESGIIVMNHPSDYFRPLVKTDDRFIDLSKEYHTEIQEILL				NA	NA	NA	NA	NA
AK002_04903	1398			hypothetical protein	ATGGCTAAAAAAGCACCAGAAATGGAAGAGTATAAATACGGTTTCCGTGACGAGCACAAAGCTATTTTTCAGACCGGTAAAGGTTTGACGCGTGAAGTCGTGACGGAAATATCCAAAATCAAGAACGAACCTGAGTGGATGCTGGAATTTCGTTTGAAATCACTGGAGCAGTTCGAGAAAATGCCGATGCCTCGCTGGGGCGGCGACCTCGATGAGCTGGATTTCAATGATATCCAGTACTATGTAAGACCTTCCGAGAAACAAGGGAAGACTTGGGAGGAAGTACCTGCCGAGATTAAGGAAACCTTTGATAAATTGGGTATTCCGGAAGCCGAGCAGAAGTTTCTGGCGGGCGTATCCGCACAGTACGAATCCGAAGTGGTTTACCATAACATGCAGAAGGATCTTGAGGATCAAGGCGTTATCTTCATGGATACCGATACGGCTCTCAGAGAGCATCCGGAGATTCTGAAAGAATACTTTGCAACGGTTGTTCCTCCAGCCGATAATAAGTTTGCTGCGCTGAACAGTGCCGTATGGTCTGGCGGAAGCTTTATCTATGTTCCAAAAGGCGTAAAATGTGAAATTCCGCTTCAGGCATATTTCCGTATCAATTCCGAGAACATGGGCCAATTCGAACGCACATTGATCATTGCCGACGAGGACAGCTTCGTACATTACGTAGAAGGCTGTACAGCCCCCATCTACAGCACGAACTCGCTGCATAGTGCGGTAGTTGAGATCATCTGTAAGAAGAATGCTCGTGTTCGTTATACAACAATTCAGAACTGGGCACCAAACATCTACAACCTGGTAACGAAGCGTGCTGTTGCTGAAGAGAACGCCACGATGGAATGGGTGGACGGCAACATCGGCTCTAAGCTGACGATGAAATACCCTGCCGTTGTTCTGAAGGGTCGCGGTGCTAAAGGTTCCGTACTTTCCATCGCAGTAGCAGGCAAAGGCCAGCACCAGGATGCAGGTGCGAAGATGCTCCATCTGGCACCGGACACTACGTCTACAATCGTATCCAAATCCATCAGTAAGCATGGTGGTAAAGTAACATACCGGGGACTTGCTTCCTTTGGCCGCAATGCGGAGGGCGCAAAAGCCAATATCCAGTGTGATACGCTCATCCTCGACAATGAATCGACGTCCGATACGATTCCTTATAACGAGATCAAGAACGATAATATTACGCTGGAGCATGAGGCGACCGTATCTAAGGTTTCCGAGGAACAATTGTTCTACCTCATGAGCCGTGGACTCAGCGAATCCGAAGCTACGCAAATGATCGTTATGGGCTTTATCGAGCCGTTCACCAAAGAACTTCCGATGGAGTATGCCGTTGAAATGAACCGCCTGATCAAATTCGAAATGGAAGGTTCCATCGGCTAA	MAKKAPEMEEYKYGFRDEHKAIFQTGKGLTREVVTEISKIKNEPEWMLEFRLKSLEQFEKMPMPRWGGDLDELDFNDIQYYVRPSEKQGKTWEEVPAEIKETFDKLGIPEAEQKFLAGVSAQYESEVVYHNMQKDLEDQGVIFMDTDTALREHPEILKEYFATVVPPADNKFAALNSAVWSGGSFIYVPKGVKCEIPLQAYFRINSENMGQFERTLIIADEDSFVHYVEGCTAPIYSTNSLHSAVVEIICKKNARVRYTTIQNWAPNIYNLVTKRAVAEENATMEWVDGNIGSKLTMKYPAVVLKGRGAKGSVLSIAVAGKGQHQDAGAKMLHLAPDTTSTIVSKSISKHGGKVTYRGLASFGRNAEGAKANIQCDTLILDNESTSDTIPYNEIKNDNITLEHEATVSKVSEEQLFYLMSRGLSESEATQMIVMGFIEPFTKELPMEYAVEMNRLIKFEMEGSIG				NA	NA	NA	NA	NA
AK002_04904	420	sufU	COG0822	Zinc-dependent sulfurtransferase SufU	ATGCAACTTGACGATTTGTACAGACGTGTCATCATGGATCATTATAAGAACCCCCGCAATCGCGGCAAGTTTGAAGAAGATGCGGTAACCATCGATTTGAACAATCCGACCTGCGGAGATCGCATTTCCTTGCAGCTTAAGGTAGAGAACGGCGTGGTCGCCGATGCCAAATATACGGGGGAAGGCTGCTCCATCAGCATGTCTTCCGCCTCGATGATGACAGACGCCGTAAAGGGCAGAACGCTGGACGAAGCGATCAGTCTGGCGGACCGCTTTTCTTCCCTTATGAAAGGCGATGAAGTGGAATTTGACGAGTACGAGGATATTGAAGCCCTATCCGGTGTTAACAAGTTTCCTGCCCGCATTAAGTGTGCAACACTTGCGTGGAACGCACTCCGAAAAGGAATAGACGTAAAGTAA	MQLDDLYRRVIMDHYKNPRNRGKFEEDAVTIDLNNPTCGDRISLQLKVENGVVADAKYTGEGCSISMSSASMMTDAVKGRTLDEAISLADRFSSLMKGDEVEFDEYEDIEALSGVNKFPARIKCATLAWNALRKGIDVK	PGPT0000075_2114	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
AK002_04905	1221	sufS	COG0520	Cysteine desulfurase SufS	ATGATCGCCTCCGTCCGTGAGCAATTTCCCATTCTTCACCAGGAGATCAACGGACATCCGCTGGTATATCTCGACAATGCCGCGACATCGCAAAAGCCGCAGGTGGTCATAGATGCCGTCAAGCGGTACTACGAATGGGAGAACTCCAATGTGCACCGCGGAGTTCATACGCTCGGCAGCCGTGCTACCGATGCTTATGAAGGAGCCAGGGAGAAGGTTGCCCGTTTCATAAATGCCGAGAGTTCGGAGCAGATTATATTCACCCGCGGAACGACGACGGCCCTGAATCTGGTGGCTTCATCCTACGCACGCTCCGTTTGTGGTCCTGGAGATGAAATCGTCCTGACGGAAATGGAGCATCACAGCAATCTCATTCCGTGGCAGCAGGCGGCCATCGCCGTCGGCGCTACGCTGAAATATATTCCTCTACAGCCTGACGGTACGATCCGTGTCGAAGATGTAGAGGAACTGGTTACCGAACGGACGAAAGTCGTAGCCATCGCATACGTGTCCAACGTTATGGGCGTCGTGCATCCCGTCAAACAAATCGCGGAAATCGCGCATCGGCACGGTGCCGTTATCGTGGTGGACGGGGCGCAAAGCACGCCGCACATGAAAGTGGACGTTCAGGACCTGGACTGCGATTTCTACGCTTTGTCCGGACACAAGATGTGTGCTCCGACAGGTATCGGCGCATTATACGGCAAGAAGGCGCTGCTGGAATCAATGGAGCCGATCGAATTCGGCGGAGAGATGATCAATGACGTCGGGTTGTACGAATCGAACTGGAAGGAGCTCCCTTGGAAGTTTGAGGGCGGCACGCCCATCATTGCAGGAGCTGTCGGACTTGGCGCCGCGATCGATTTCCTGGAGGAAATCGGAATGGATGCCATCGAACGGCATGAGGCTCAGCTTGCGAACTACGCCATGGACCGGATCTCCGAGATCGAAGGCATCTCCATTTACGGTCCCCGTAAGCGTAAAGTGGGCCTTATCACATTCAATCTTGGAGACGTTCATCCGCATGACGTGGCAACCGTTCTGGATGCCCAGGGGATTGCGATTCGTGCAGGACATCATTGCTGTCAACCGCTTATGCGTTGGTTAAAAGTATCTTCCACGGCACGCGCGAGCTTTTATCTGTATAATACAGAAGAGGACGTTGATCGATTAGTTAGCGCCTTAATCCAGACAAAGGAGTATTTTGGCGATGCAACTTGA	MIASVREQFPILHQEINGHPLVYLDNAATSQKPQVVIDAVKRYYEWENSNVHRGVHTLGSRATDAYEGAREKVARFINAESSEQIIFTRGTTTALNLVASSYARSVCGPGDEIVLTEMEHHSNLIPWQQAAIAVGATLKYIPLQPDGTIRVEDVEELVTERTKVVAIAYVSNVMGVVHPVKQIAEIAHRHGAVIVVDGAQSTPHMKVDVQDLDCDFYALSGHKMCAPTGIGALYGKKALLESMEPIEFGGEMINDVGLYESNWKELPWKFEGGTPIIAGAVGLGAAIDFLEEIGMDAIERHEAQLANYAMDRISEIEGISIYGPRKRKVGLITFNLGDVHPHDVATVLDAQGIAIRAGHHCCQPLMRWLKVSSTARASFYLYNTEEDVDRLVSALIQTKEYFGDAT	PGPT0020195_3757	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
AK002_04906	1305			hypothetical protein	ATGACTACACAAACCATACTTCCGGTCAACGCTGAGGCTTTGAAGGCTTTGTCCGAGAGTAGACAGGAACCAACTTGGCTGACAGACAGCCGTTTGGCTTCTTTGGAACTTGCCGGCCAATTGGAATTGCCCAAGCTGGAGAAACAACGCATTGAGCGTTGGAACATCCACAGCTACGGTGAATATAAAGAAAGCAAAAAACTCGCTTCCCTCGATGAACTGCCAGAGCGGGCAGCACAGCTTGTCGAAGGTTCAAGGGAAGGCGGACTGGTTATTCAACGCAACTCCGGAACGGTATATACAAGTCTGGCTTCGGAACTTGCTGCCAAAGGCGTGATTTTTACGGATTTGGAAACAGCCGTGAGAAAGCATGAGGATCTGGTTAAACCTTACCTGCATCAAGCGCTTAAGAATGACGAGCACGCACTGGCTGCTCTCCATGCTGCGGTTTGGAACGGCGGAGTCTTTCTTTATGTTCCTAAGAATGTTGAGGTTGATGTTCCGCTTCAAGCGGTAATGCTGACTGATGATGCCGAAGCGACTTTCGCTCCGCACGTGCTGATTGTAGCCGAAGCTAACAGCCAAATCACATATGTAGACAACTATGTATCGGATTCTCTGGCTGCGCCGGTAACACATAACGGAGCGGTAGAGATCTTTGCCAAAAATGGTGCGAAAGTTCGTTATGCTTCCGTTCACCAGTTGACTGTAGAAACAACGGATGTTACGTTCCGCCGTGCAGTACTCGACAATGATGCTTCGATCGAATGGATCGTTGGCGAGATGAACGATGGCGATACAGCCAGCGATACCATGAGTATTCTGAAGGGCAACGGTTCGACATCCGATGCGAAAGTCATTGCTGTAGGTTCCGGGTCCCAAAAGATCAACTACACAACGCAAGCGAAGCATTATGGTAAGAGCTCTGCTTCCCAGATGATTACGCGTGCAGTTATGCGTGAAGAAGCACAAGCCATCATCAACGGAATTACCAAGATCGAGAAGGGTGCCACGAAGGCGGACGGACAGCAAACTGAGCGCGTTCTGATGCTGAGCCCAAAAGCCCGCGGCGACGCGAACCCGATCCTGTTGATTGACGAGGATGATGTAACAGCAGGACACGCGGCGTCCGTAGGACAAGTGAACCGGGAGCAAATTTACTACCTGATGTCCCGCGGTATCTCCCGTTCCGTTGCAGAATCCCTGATTATTTACGGCTTCTTGGCTCCGGTTGTCAGCGAAATTCCGCTCGAGGGACTTCGCGACCAGCTGCAGGGGCTCGTTGAAAGGAAGCTGGGACAATGA	MTTQTILPVNAEALKALSESRQEPTWLTDSRLASLELAGQLELPKLEKQRIERWNIHSYGEYKESKKLASLDELPERAAQLVEGSREGGLVIQRNSGTVYTSLASELAAKGVIFTDLETAVRKHEDLVKPYLHQALKNDEHALAALHAAVWNGGVFLYVPKNVEVDVPLQAVMLTDDAEATFAPHVLIVAEANSQITYVDNYVSDSLAAPVTHNGAVEIFAKNGAKVRYASVHQLTVETTDVTFRRAVLDNDASIEWIVGEMNDGDTASDTMSILKGNGSTSDAKVIAVGSGSQKINYTTQAKHYGKSSASQMITRAVMREEAQAIINGITKIEKGATKADGQQTERVLMLSPKARGDANPILLIDEDDVTAGHAASVGQVNREQIYYLMSRGISRSVAESLIIYGFLAPVVSEIPLEGLRDQLQGLVERKLGQ				NA	NA	NA	NA	NA
AK002_04907	783	sufC	COG0396	Vegetative protein 296	ATGTCAACCAAGTTTGTCATTGAAGGATTGAAAGCAACGATCGAAGGCAAGGAGATCCTGAAGGGGATCAACCTTGAGATGAAGGGCGGAGAAGTTCATGCCATCATGGGACCAAACGGAACGGGTAAAAGTACGTTGGCTTCCGCGTTGATGGGTCATCCTAAATATGAAGTTACGGAAGGCAAAGTATTGCTTAACGATGAAGACGTGCTGGAGATGGAAGTTGATGAGCGTGCGCGGGCAGGTATGTTCCTGGCCATGCAATATCCAAGTGAAATCGCTGGTGTAACAAATTCCGACTTCCTGCGCAGCTCCATCAATGCACGCCGCGGTGAAGGCAATGAGATTTCCCTGATCAAGTTCATTCGTCAAATGGAAGGCAAAATGAAAGAGCTCGAGATGAATCCCGAGTTCGCTCATCGTTATCTGAACGAAGGCTTCTCCGGTGGTGAGAAGAAGCGTAACGAAATCCTGCAGATGATGCTGCTGGATCCGAAACTCGTCATTCTTGACGAAGTAGACTCCGGTCTTGATATCGATGCATTAAGAATTGTAGCAAACGGTGTGAATAGCATGAAATCCGAAGAACGTGGTTTCTTGATTATTACCCACTACCAACGTTTGCTTAACTATATTACTCCAGATTTTGTGCATGTTATGATGCAAGGACGTATCGTGAAATCCGGCGGACCGGAACTGGCTGAGCGTTTGGAAGCAGAAGGCTATGACTGGATTAAGGAAGAGCTGGGCATTACGGATGAAACTGTAGGTCAAGACGCGTAA	MSTKFVIEGLKATIEGKEILKGINLEMKGGEVHAIMGPNGTGKSTLASALMGHPKYEVTEGKVLLNDEDVLEMEVDERARAGMFLAMQYPSEIAGVTNSDFLRSSINARRGEGNEISLIKFIRQMEGKMKELEMNPEFAHRYLNEGFSGGEKKRNEILQMMLLDPKLVILDEVDSGLDIDALRIVANGVNSMKSEERGFLIITHYQRLLNYITPDFVHVMMQGRIVKSGGPELAERLEAEGYDWIKEELGITDETVGQDA				NA	NA	NA	NA	NA
AK002_04908	477	dps	COG0783	General stress protein 20U	ATGGCAAAAACTACATCTGGCAAAGCTGCAGGAAAAACGAAAAACGCAAGTCTGGAGCAATTGCTCAATCAGCAGGTTGCGAACTTCAACGTGCTCTACGTCAAACTTCACAATTATCACTGGTATGTAACCGGAGAGCAGTTCTACTCCCTTCATGTTAAATTCGAAGAGCTGTATGACGAAATCACGCTTAAAATGGATGAGGTTGCGGAGCGCCTGCTTTCGATCAAAGGCAAGCCGGCTGCAACGATGAAAGAATATCTGGAGCTTGCGACCGTTCAGGAGGCATCCGGCAACGAGGATACCCGCGGCATGGTACAAGCCTTGGTCGAGGACTTCGCTACCGTATCCGAGGAATTGGCGGAAGGCATCGAAATGGCGGAGGAAGCCGGAGATGCGCCGACAGCCGACATGTTCACCGGGTTCAAGGCCGATCTCGAGAAGCATATGTGGATGCTGCGCTCATACCTTGGATAA	MAKTTSGKAAGKTKNASLEQLLNQQVANFNVLYVKLHNYHWYVTGEQFYSLHVKFEELYDEITLKMDEVAERLLSIKGKPAATMKEYLELATVQEASGNEDTRGMVQALVEDFATVSEELAEGIEMAEEAGDAPTADMFTGFKADLEKHMWMLRSYLG	PGPT0004055_2646	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0004055-dps|dpsA-K04047	NA	NA
AK002_04909	1224	mtnK	COG4857	Methylthioribose kinase	ATGTCTGCATATCATCCGCTGAACGCGGACGAAGCGATACAATTAGCTAAAAGTATACCCGGCCGGTTCCCGGAGCATGCCGAACTCGAATGCCGCGAAATCGGCGACGGCAATCTCAATCTGGTGTTTCATGTCACCGCCAAAAATACGGCTGATAGTATCATTATCAAGCAAGCTGTTCCTTATGCAAAAGTCGTAGGCGAATCCTGGCCGCTGTCTCTCGACCGCGCGCGCATCGAACGTCTCGCCCTGGAGACGGAGTACTCCCTGTGCCCTGACCTCGTTCCGAAAGTATACGGCTATTCGGATGAGCTCGCCTACACCGTGATGGAAGACTTGAGCGAGTACACCATCATGCGCAAAGGCCTTATCGAAGGCATCGCCTATCCGAAGTTCGCGGAGCATATCGGCCGGTTTTTGGCCAGAACCCTGTTCTATACGTCGGATCTGGGCATGAACCAGCAGAAGAAGAAGGAACTTGCCGGCCGTTTCGTTAATCCGGATCTATGCAAAATTACCGAGGACTTAATCTTTGAGGATCCATACCGTGAATCCGCCAACAACAACTATGAACAGAGCATTGCCGATGAAGCGGAAGCCCTTCGCGCCGACCTGCCGCTTCACTTCGAAGTCGCGCTGCTGCGCCATAAGTTTCTGACCCATGCGCAAGCTCTGCTCCACGGGGATCTGCATACGGGCAGCATCTTCGTCACGCCGGAATCCACCAAGGTGATCGATCCGGAATTCGCTTATTTCGGCCCGATGGGATTCGATATCGGCGCGGTGATCGGCAACCTCCTGCTGAACTACGCGGCACAGCCGGGCTGGAGCGGGGACGAGCAGACGCTGGCCGCCAGGGAAGCCCGACTCCTCGAGATGGCGAGCGGCGTTTGGACCCACTTCGAGAACAACTTCCGCTCGCTGTGGAACGATGATCTCTTGGACGAGATGTCCCGCACGCCAGGCTATCAGGACCATTATGTGTCGCAGGTTTTGAAGGATGCCGCAGGATTCGCGGGCTGCAAAATGATTCGGCGCATCGTCGGATTGTCCCATGTTGCGGACATCGATACCATAGCAGATGATAAGGCCAGAGAGACTGCACAGCGCAAAGCGCTCGCCATCGGCAAAAATCTCGTGCGCCATCACCGCAGCATCAAGTCCTTCGAGGACATGCTGACCTTGATCAAGCAAGCATCCAAAGGAAATGAGGTATCGATATGA	MSAYHPLNADEAIQLAKSIPGRFPEHAELECREIGDGNLNLVFHVTAKNTADSIIIKQAVPYAKVVGESWPLSLDRARIERLALETEYSLCPDLVPKVYGYSDELAYTVMEDLSEYTIMRKGLIEGIAYPKFAEHIGRFLARTLFYTSDLGMNQQKKKELAGRFVNPDLCKITEDLIFEDPYRESANNNYEQSIADEAEALRADLPLHFEVALLRHKFLTHAQALLHGDLHTGSIFVTPESTKVIDPEFAYFGPMGFDIGAVIGNLLLNYAAQPGWSGDEQTLAAREARLLEMASGVWTHFENNFRSLWNDDLLDEMSRTPGYQDHYVSQVLKDAAGFAGCKMIRRIVGLSHVADIDTIADDKARETAQRKALAIGKNLVRHHRSIKSFEDMLTLIKQASKGNEVSI				NA	NA	NA	NA	NA
AK002_04910	1080	drdI		5-deoxyribose 1-phosphate isomerase	ATGAGCGGTATGACTACCGGCAATACCAGCACCTATGAACCGCTAAGCTCGGTTTACTGGGGAGGAGACCATCTGGTCCTTCTGGATCAGCGCTTGCTCCCGGAAGAGATCGTCTATCTTAAGCTCTATACGCCAGAGGAAGTCTGGGAAGGGATTCACTCCATGAAAGTCCGCGGCGCACCGGCGATCGGCATCGCGGCAGCATTCGGCGCCGTACTCGGCGGAATGCAGGTGGAAGCCGACCGTCGCGAGGAGTGGCTTCAGCAAATCGCCAAAACCTGCGCTTATCTCGCAACGTCCAGACCGACGGCCGTCAATCTGTTCTGGGCGCTGGACCGCATCAAGCTTGCAGCCGAGAAGCTGGCGGCTTCGGATCTCGACACGGCTGGTCTGAACGCGGCGCTGCTCGCCGAAGCCGAGGCCATCCGGGCCGAGGACGAGGATGTATGCCGCCGCATCGGCGAGCACGCCCTGCCGTTCTTCCGGGACGGGATGGGCGTGCTCACCCACTGCAATGCGGGGGGATTGGCGACCGCCAAATACGGGACCGCCCTGGCGCCAATGTATCTGGCCCATGAGCAGGGCCTGAACATCAAGGTGTTCGCGGATGAGACGAGACCCGTTCTGCAAGGTGCCCGCCTAACCGCCTTTGAACTCCAGCAGGCCGGCATCGACGTTACGCTGCTGGCTGACAACATGGCCGCCATGGTCATGTCCAAAGGTTGGATACAAGCGGTTATCGTCGGTACGGATCGCGTAGCCGCAAACGGCGATGTCGCTAACAAAATCGGTACGTATGGGGTCGCGGTTCTGGCGAAAGCCCATGGCATACCTTTTTATGTGGCGTGCCCGTTGTCCACGATCGATCTGAATACGAAGACGGGTGCCGATATTCCGATTGAGGAGCGGCCGGCGGAAGAGATCACGGAAGGTTTCGGCAAGCGCACCGCTCCGCAAGGCGTTAAAGTGTACAATCCTGCCTTCGACATTACGCCGAACGAATACGTGACAGCGATCATTACGGAAAAAGGCGTCGTGCAAGCACCTTACGAAGAGAGCTTGAAAAGCTTGTTCGAATAA	MSGMTTGNTSTYEPLSSVYWGGDHLVLLDQRLLPEEIVYLKLYTPEEVWEGIHSMKVRGAPAIGIAAAFGAVLGGMQVEADRREEWLQQIAKTCAYLATSRPTAVNLFWALDRIKLAAEKLAASDLDTAGLNAALLAEAEAIRAEDEDVCRRIGEHALPFFRDGMGVLTHCNAGGLATAKYGTALAPMYLAHEQGLNIKVFADETRPVLQGARLTAFELQQAGIDVTLLADNMAAMVMSKGWIQAVIVGTDRVAANGDVANKIGTYGVAVLAKAHGIPFYVACPLSTIDLNTKTGADIPIEERPAEEITEGFGKRTAPQGVKVYNPAFDITPNEYVTAIITEKGVVQAPYEESLKSLFE				NA	NA	NA	NA	NA
AK002_04911	303			hypothetical protein	TTGGTGACTTTACTGCCGATCGAGATTGAAGGACATACCGTTATGGGCGTCGAGGTCAAACTTCCGAAAACTACGCTGCTGGCTGTATACACTTCCCGTGGTTATATTATGTGCGGTGCCCTCGATGTGGGCCTTCTGAACGAACAGCTTGCAGACCGCAAGATTATTGCCGGGAGAGCCGTTGGGGTTCGCACATTGGAGCAGCTGCTGGAGGCACCGCTGGAATCGGTAACCTTGGAGGCGGAGAAGTGGGGCATTCATCCCGGCCTCGCCGGCAAGGATGCGATCCTGCGGATGATTTGA	MVTLLPIEIEGHTVMGVEVKLPKTTLLAVYTSRGYIMCGALDVGLLNEQLADRKIIAGRAVGVRTLEQLLEAPLESVTLEAEKWGIHPGLAGKDAILRMI				NA	NA	NA	NA	NA
AK002_04912	552			hypothetical protein	ATGATAAAAGCTATGAACACAATTCCTGTCACCGATGATAACGGCTTTTTATTCAACGTTGATATTCTGGTCAAGAGTCACTCCAACGCACTGGCTTTGCAATATTTGCTGGAAATGCTGAACGACAAGGCCGAAGTCGTCGATTTCCGGATTAAGTCCGGAATGGAACTTGGAGAAATTATCAACACCTTGGTCCAAGCCAAGAAAGATTCCGTTATTAGCAATGCCTCCCGGAAGATGGCTTCTTCCATGACTCAGCACGAGAAACCTGCTCCGCCTGCGATATCCTCGCCGGAAAAAAAGATCGCTGCAAGCGCACCTCCTGTCCAAACTCCACTCGCCGGAAATGATCCCTTTGAATGGATTAAAGTATACAGTAAGGACAATCGCCTTGTTCGCCTGACAACCAACCGCCACGGTAAGCAGACAAGCCTACCCTGCCGAATACTCAATTATGACGAAAGCAATTTCCTGGTCAACGTCTATCATGTCGATGAGAAGCAGGTATATACCTTCAAACTCAATGAAATCGACGAGTTCAGCGTGAGCTGA	MIKAMNTIPVTDDNGFLFNVDILVKSHSNALALQYLLEMLNDKAEVVDFRIKSGMELGEIINTLVQAKKDSVISNASRKMASSMTQHEKPAPPAISSPEKKIAASAPPVQTPLAGNDPFEWIKVYSKDNRLVRLTTNRHGKQTSLPCRILNYDESNFLVNVYHVDEKQVYTFKLNEIDEFSVS				NA	NA	NA	NA	NA
AK002_04913	378			hypothetical protein	ATGAGTCGTGCTTTCATCGCATGGGGCTCGATCCTGATGGCATTGTCCGTCGCCATTGGAGCATTCGGCGCCCATATGCTGGAGGATATCATTACGCCGGACGAGCTTGCCACCTATGAGACGGGCGTCCACTATCATATGATTCACGGACTGGCGGTCCTGATTACGGGGATTGTGGCCAAGGTGCTGGGCGAATCCCGGAAGCTGTTTTGGGCGGGGGCTTTATTCATCGCGGGAACCGTTATTTTTTCCGGCAGTCTCTACGTGTTAAGTATATCCGGCATCAAATGGCTAGGGGCGATTACGCCGATCGGCGGCGTTTCCTTTATTGCAGGCTGGCTGATCCTGATGTCCTCGGCGCTGTCCCGTAAAAACTAG	MSRAFIAWGSILMALSVAIGAFGAHMLEDIITPDELATYETGVHYHMIHGLAVLITGIVAKVLGESRKLFWAGALFIAGTVIFSGSLYVLSISGIKWLGAITPIGGVSFIAGWLILMSSALSRKN				NA	NA	NA	NA	NA
AK002_04914	429			hypothetical protein	ATGTACATGGATCAACAATCACCTTCCTCTCCATCCGAGGGGCAAGATTCGCCCAAGCGACCTATAACCACCTTCATTCCTCCCGAGGACAGAAAGAACTCCCGCTTCGGCATCGCATCATTCATTCTGTCGATCGTGACGCTGCTTGGTTATATTCTGCTCGGCGCACTCGGCACCACGATGATTGAACCTTACATGACGGAAAACGGGCCGATCCTGGAGCCGACGCAGGAAACGCTTGAAGCGATGACCACGCTGGCGGCCGTTTTCATTCTCGTGATGATCATCAATATCGTCGGCCTGGCGCTTGGCATTGTCGGCTGCTTCTCTAAGACACGCAAGCGTGCCGTCGCCGTCATTGCCACCATCGTGAACGGCGTAGTCATCGTCACCATCGGCGCCCTTTTCCTATTCGTATTAAGCGCATAA	MYMDQQSPSSPSEGQDSPKRPITTFIPPEDRKNSRFGIASFILSIVTLLGYILLGALGTTMIEPYMTENGPILEPTQETLEAMTTLAAVFILVMIINIVGLALGIVGCFSKTRKRAVAVIATIVNGVVIVTIGALFLFVLSA				NA	NA	NA	NA	NA
AK002_04915	1161			hypothetical protein	GTGCAAAATGAAGACGCTCTGTCGTTTGTCGTATCCCGTGAAGACTGGTCGCTGCACCGCAAAGGCTATCAGGATCAGGTACGTCACCAGCATAAAATCCGCGAAGTGATCAAACGCAACCTGCCCGACCTTATTACTGAGGAAAACATTATTTTGTCCGACGGAAAGCAGATCATTAAAGTTCCGATCCGAAGCCTTGACGAATACCGTTTCATCTACAATTACCAGAAGCAAAAGCATGTCGGTCAAGGCGACGGTGACAGTCAGGTTGGGGACGTCCTTGGACGCGACCCTTCAGCGGCCCAGCCCGGAAAAGGAGAATCGGCCGGTGACCAAGCGGGACAGGATATTGTGGAAACCGAGGTCAGCCTGGAAGAGCTGGAGAATATGCTGTTTGAGGAGCTGGAGCTCCCGCTTCTGCAGCCCAAGGATAAAGAGCAGATCGAGACGGAGTCCATCGTGTTCAACGACATCCGCAAAAAAGGCATCATGTCCAACATCGATAAGAAACGCACCATCCTGGAGAATCTGCGCCGCAATGCGAGGGACGGCAAGCCCGGCATTCACGGCATCAGTCCGGACGACCTGCGCTACAAAACCTGGGACGACACCGTCATACCGGAATCCAATGCGGTCATCATCGCCATGATGGACACTTCCGGTTCCATGGGTTCCTTCGAGAAATACTGCGCTCGCAGCTTTTTCTTCTGGATGACCCGTTTCCTCCGCAAGCAGTACGAGAAGGTGGAAATCGTGTTTATCGCCCACCATACCGAAGCGAAGGAAGTGACCGAAGAGGAGTTCTTCACGCGCGGCGAAAGCGGCGGTACGATATGTTCATCCGCGTATCAGAAGGCGCTGGATATCATTCACCACCGGTACCCTCCTTCCAAATACAACATCTATCCCTTCCACTTCTCGGACGGCGATAATCTCACATCCGATAATGAACGCTGCGTCAAACTCATCGGGGAGCTGCTGAAGGTGAGCAACATGTTCGGTTACGGCGAGGTCAATCAATACAATCGCAGCAGCACGCTGATGTCGGCATATAAAAATATCAAGCTGGACCAATTCATGTACCATGTCATAAAGGACAAAGGGGAAGTGTACGAGGCGCTCAAGACCTTTTTTCGGAAACGGCAAGGAGCCGCTACCTGA	MQNEDALSFVVSREDWSLHRKGYQDQVRHQHKIREVIKRNLPDLITEENIILSDGKQIIKVPIRSLDEYRFIYNYQKQKHVGQGDGDSQVGDVLGRDPSAAQPGKGESAGDQAGQDIVETEVSLEELENMLFEELELPLLQPKDKEQIETESIVFNDIRKKGIMSNIDKKRTILENLRRNARDGKPGIHGISPDDLRYKTWDDTVIPESNAVIIAMMDTSGSMGSFEKYCARSFFFWMTRFLRKQYEKVEIVFIAHHTEAKEVTEEEFFTRGESGGTICSSAYQKALDIIHHRYPPSKYNIYPFHFSDGDNLTSDNERCVKLIGELLKVSNMFGYGEVNQYNRSSTLMSAYKNIKLDQFMYHVIKDKGEVYEALKTFFRKRQGAAT	PGPT0025005_1329	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786	NA	NA
AK002_04916	168			hypothetical protein	ATGCAGGAGACGTTTATCGAATCCTGTAATATCCTGCAACAAGATGTCATAGCTAATACTACCATCCTTGGAAAAACAGAAGGTGACAAAAAAATGAACCTACGGCTACATTGTGATGTCAATAATAAGACAGATTTTTCATTTGAAATGACAAACCGTTATGCTTGA	MQETFIESCNILQQDVIANTTILGKTEGDKKMNLRLHCDVNNKTDFSFEMTNRYA				NA	NA	NA	NA	NA
AK002_04917	2211			hypothetical protein	GTGCCGATATCCGATAAACCCCATTCACGCTACATGCCCGGTCTTGACGGACTGCGGGCCCTCGCATTAATCGGAGTGATGGGCTACCACTGGAATTTTGGCTTTGCAGGCGGCGGGTTTCTCGGGGTAAGTTTATTCTTCGTTTTGTCCGGTTACCTCATTACGGATATTTTGGCTTCGCAATGGCATCATCATAGGCGGATTGATCTCAAGGATTTCTGGATACGGAGATTCCGGCGTCTCCTGCCGGCGATGCTGCTCATGCTGTTCATCCTTGTGGTATGGGTAACGCTGTTCGACCGGTCAAGATTGGCTACGCTTCGAAGTGAAGTGCTCGGAGCGGTTACGTACATAAGCAACTGGCAGTTTATTTTTCAGCAGCAATCCTATTTTGAATCATTTGGTCCGCCTTCTCCGCTGGGGCATTTCTGGTCGCTAGCGGTGGAAGAACAATTCTACCTGCTGTGGCCGGTTATCATGCTGGCGGCGCTCAAGCTGTTTCCCCGCCGAGGGCAGCTCTTTGGGTTCATTGCCGCCGGTGCCGCGATTTCCGCGCTGCTCATGGCCTTGATCTATCAGCCGGGCGACGATCCAAGCCGGGTCTACTACGGTACGGATACCCGGGCGTTCGGCCTGCTCATCGGAGCGGGGCTGGCCATTGTATGGCCCAGCTGGAAGCTGTCCTCCCGCGCCTCAAGAGGCATCCGCTATAAACTCAACATGACGGGCGCCGCGGCAATGCTTATCATTCTCTACATGATGTGGCAGGTGGACCGTTACGATGCATTCCTGTATCAAGGAGGCATGTTCCTCTTTTCCTTGGCCGCTGCCGTTCTCGTAGCGGTGCTGGCCCACCCTGCGGCTTCCATCAGCCGCTTGTTAAGCTGGAAGCCGCTGCTGTGGATCGGCGTTCGTTCCTATGGCATCTACTTATGGCATTACCCGGTCATGATCCTGACCTCGCCTGATTCCGGCGCAAGCGATCTCAGTTTGCTTCAGACTGCGCTGCAAATCACCGCAAGCGTTCTGCTGGCCGCGCTATCCTGGAAGTATGTCGAAGAACCGATACGGCATGGCGGGCTTAAAAAATTATGGCTTAAAGCCCGCTCGCTTCGCCGCCGCCCGGCTTCGATTTCGTTAAGAGGCTGGATCGTGTCCCTGAGCTCTCTTATGCTGATCGGCATATTCTGTTCGGGGATGATGAGCAGCGTGTCCTCTGCAAGAACGGTGGGCGATATCGCTGCCATGCTGAACATCGATGACCCTGCTCCGGAGGAAGCGGCGCAGACTCCAAGCACCGGACCTGCTACGGTCGAACCGCCGCAACCGGTCGACACGAACGGAGACAACGCAGCGCCTCCTGCCGTAGAGCCAACGAATCAACCGGATACGGTGAAGGAGCCGAATTCTAGGGATGAAGGGGCTAAGGCTCCGCTTTCGGACGGAGCGGCGGACTCTGGAAATAACGACCCCGCCGGTGCTGCTGAGAACGAAGTGCGGGACCCAGTTGCGGAGAACAACCTAGACGTCCAAGACAAGCAAACCGGCGGAGAAAGCGATCCTACGGATAAGGCTGACTCCGGGAAACCGATTCCGGATCAACCGGATGAGGATAAGACTGATAAGCCGAATGCAGATCAGGTCGATAAGCCGGATCCATCCAAGGACCCGGCAAGCGGAACTTCCGGCGGCAAGAGCGATCCTGCCAAACCGACGACGAAGCCGGAGCAGCCACCGGTAACCAAGTCCGCCATCACGGCCATCGGGGATTCGGTGATGCTCGGGGTCTCCCCTTATCTGGAAAAATCGCTGCCCGGCATTCACGTCGATGCGGTCATTGGCCGTCAAATGCGCCAGGCCGATGAGCTGATTCCGGCCCTGAAATCCCAAAATCGGATTGACGGCGGCATTGTCATCATCGGGCTCGGAACCAACGGGGCCTTCTCGCAAAAGGATCTCGATTCCCTGCTGGGCCCTCTGGATTCGGCCAAACAGATTCTGCTCATCAATACGCGCGTTCCGCGCGATTGGGAACAGAACGTTAACGGCATGCTCGCCAAAGCGGCTGACCGGAACCCGAAGGTTACGCTGGTGGATTGGTATTCAGCCAGCAAGGACCATCCCGAATACTTCCGGTCCGACGGCGTCCATCTGGAGCCGGAAGGCGCCGAGGCTTATACGTCCATGCTGCTTCAAGCCATCAAGAAATAA	MPISDKPHSRYMPGLDGLRALALIGVMGYHWNFGFAGGGFLGVSLFFVLSGYLITDILASQWHHHRRIDLKDFWIRRFRRLLPAMLLMLFILVVWVTLFDRSRLATLRSEVLGAVTYISNWQFIFQQQSYFESFGPPSPLGHFWSLAVEEQFYLLWPVIMLAALKLFPRRGQLFGFIAAGAAISALLMALIYQPGDDPSRVYYGTDTRAFGLLIGAGLAIVWPSWKLSSRASRGIRYKLNMTGAAAMLIILYMMWQVDRYDAFLYQGGMFLFSLAAAVLVAVLAHPAASISRLLSWKPLLWIGVRSYGIYLWHYPVMILTSPDSGASDLSLLQTALQITASVLLAALSWKYVEEPIRHGGLKKLWLKARSLRRRPASISLRGWIVSLSSLMLIGIFCSGMMSSVSSARTVGDIAAMLNIDDPAPEEAAQTPSTGPATVEPPQPVDTNGDNAAPPAVEPTNQPDTVKEPNSRDEGAKAPLSDGAADSGNNDPAGAAENEVRDPVAENNLDVQDKQTGGESDPTDKADSGKPIPDQPDEDKTDKPNADQVDKPDPSKDPASGTSGGKSDPAKPTTKPEQPPVTKSAITAIGDSVMLGVSPYLEKSLPGIHVDAVIGRQMRQADELIPALKSQNRIDGGIVIIGLGTNGAFSQKDLDSLLGPLDSAKQILLINTRVPRDWEQNVNGMLAKAADRNPKVTLVDWYSASKDHPEYFRSDGVHLEPEGAEAYTSMLLQAIKK				NA	NA	NA	NA	NA
AK002_04918	837	sseB_1	COG2897	Putative thiosulfate sulfurtransferase SseB	ATGAACAATATCGTGACAATGAAATGGCTGCTGGCAAGACTCTATGAACCGGATCTGGTCATCGTCGATTGCCGTTTTGCCCTCGGCAAACCGGAAAGCGGCCGAGCCACATACGAGGAATCGCATATTCCGCGGGCGGTTTACCTCGACCTGGAGAAGGACCTCTCCTCCCCCATTACCGAGCACGGCGGTCGCCATCCCCTGCCGGACCTGGATCGCCTTGCACAACGTCTAGGCCAGTCCGGCATTCAGGGCAGCAGCCGCGTCGTGATCTACGACGACCAGGGTGGAGCCATGGCCAGCCGACTATGGTGGCTGCTGAAATATACCGGCCATGAGCAAGCTTATGTATTGGATGAAGGGTTTACGGCTTGGAAGAACGCTTCGTATCCGGTAACGGACGAACAGCCGGTCGTCATTCCGGTTACATATGGCATCAACCTTAAGCCGGATAAACTGGTCCGCGTCGATGAAGTACGCAAGGCTTCGCAGCAGGGCAGCATAACGCTCATCGATTCCCGAGAGCCGCGCAGATATGCCGGATTGGAGGAGCCCATGGACGCCAAAGCCGGGCATATTCCGGGTGCTGTGAACTATTTCTGGAAAGGCGTCCTGGATGATTCCGGACATTGGAAGGATGCGGAAGCGATCCGCGAGCATTTCTCGGACATCCCGCAAGATGCCGAGATCATTGTATACTGCGGCTCCGGCGTCACCGCTTGTCCGAACGTGCTAGCCCTGGAGGAAGCCGGGTACGGCAACGTAAAGCTGTACGCGGGCAGCTGGAGCGATTGGATCAGTTATGAGGAGAACCCGGTGGCGACTCGGGAAGAATAA	MNNIVTMKWLLARLYEPDLVIVDCRFALGKPESGRATYEESHIPRAVYLDLEKDLSSPITEHGGRHPLPDLDRLAQRLGQSGIQGSSRVVIYDDQGGAMASRLWWLLKYTGHEQAYVLDEGFTAWKNASYPVTDEQPVVIPVTYGINLKPDKLVRVDEVRKASQQGSITLIDSREPRRYAGLEEPMDAKAGHIPGAVNYFWKGVLDDSGHWKDAEAIREHFSDIPQDAEIIVYCGSGVTACPNVLALEEAGYGNVKLYAGSWSDWISYEENPVATREE	PGPT0002045_4579	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
AK002_04919	231			hypothetical protein	GTGCCGATTATTATACGTCTGGACCGAGTTCTGGCCGACAAAAAAATGAAATTGAATGATCTGGCCGACAAGGTAGGGATCTCGAACGTCAATCTGTCCAATCTGAAAACGGGGAAAGTGAAGGCGATTCGGTTCTCTACCTTGGAAGCGATCTGCGAAATTCTAGACTGTCAGCCGGGAGACATTCTGGAATTTGTTCCGGCCGATAGCGACAGCTGTGAAATTGATTGA	MPIIIRLDRVLADKKMKLNDLADKVGISNVNLSNLKTGKVKAIRFSTLEAICEILDCQPGDILEFVPADSDSCEID	PGPT0014940_608	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
AK002_04920	618			hypothetical protein	ATGAACGGAATTGAATTCAAAGCCAAACCTGGCTTCAAAAGAATGCACACTGCGCTTAAGATCGGATACTGGGGAGGAATCGGGCTGCTCATTGCATACGTCTGTTTCAATCTATGGCTCGGATTGAAGCCCCAGGAGATGTTCTACGCAGAGAAGGGAATCGCGCACTGGTTCTTTTCAGTACCGTTATCGGATACGGTGACGAAGAGCGTCATGGTGCCTTTCACTTATTTTCAACCGATCAATCCCGACATGTTCGATGCCAAGAACGCTTATCTGGTCGTCAGCTTGACCAATGCCACACTTGTCTTCTGTGCCTACATTTACTCGATCGGCCAGATTCGCTATATAATAGGAAGCATACTTAGCGGAAACAGCCCGTTTAGTCTGGCGAATGCCGCCCGTCTGAAAAGGCTGGGAATCATCGTTATCCTGTATTCTTTGCTGGCGAAGCTCGTTCTCAATATTCTGATCTGCCTGTTCGTTACTCGCATCTTCTCAATCAATCTGGGCGGTATCGCTTTAATCGGAATTATCATCGGCATACTAGTGCTGTTCGTCTCCGAGATTTTCAAGTACGGTGCTCTTCTGCAGGAAGAGCATGATTCGACTTTATGA	MNGIEFKAKPGFKRMHTALKIGYWGGIGLLIAYVCFNLWLGLKPQEMFYAEKGIAHWFFSVPLSDTVTKSVMVPFTYFQPINPDMFDAKNAYLVVSLTNATLVFCAYIYSIGQIRYIIGSILSGNSPFSLANAARLKRLGIIVILYSLLAKLVLNILICLFVTRIFSINLGGIALIGIIIGILVLFVSEIFKYGALLQEEHDSTL				NA	NA	NA	NA	NA
AK002_04921	1011			hypothetical protein	ATGAGCGAGCCGTGGGCTGCATCGATGAGCGGTGCTCCCTGGAGCACGGACAAAATGCATAGTGCCGTTAAACAGCTGAGAAACCGTGCAACCATCGGTTTTGTTGTCGGGGCAGACGATGCGGAAGATCTGCTGAAGCTGGACGAGCAGGTGTTTTCCAAGCGTCCGGACTTGATACTGCATATTTATCATGCAGAAGCGAACGGAAGATATACCGATGAATTTCTGAAGACGCTCGCGGGATTGAAGTTTGTTGCTGCTTTGCATCTGGATCTGAAACAGAGGCAGGATTTAACCAGGCTGGGTGCGATGGATCGAATGGAATTTCTTAAGTTACGCTCGCCCAAAACGCAAGGCATCGATTTTATCCGGAGCTACAAGTTTCTAAAATACCTGGAACTCAGCGGTAAATTCGATGATCTAGCGCCGATTGCCGACTGCATTCGCCTGGATGCGCTGGTCCTGAACTGCTCCATCGATCAACTGGATTTTGTCGCGGATTTGCCCTTGATAAAGTATTTGGCCCTAGACAGCTGTACCGTGAACGGTTCGCTTAACGTGTTGGCGGAATCGAATGTAAGCATGCTGAGGTTGTCCTCCGTCCGCAACCTGGTGCATATTGATGACCTGGCGGCATTGGATCATCTGGCCTTTCTGCACTTGTCGCTGCCGAAAGTCGAGCGCTTGTGCGATTTCTCGCATATGCGTAATCTTCGGCAGCTTGAACTGGATTACATGAAATCCTTGCAGGAGATCGGGAATCTGTGGACTGCGGACCGGTTGGAGGTTCTAATGCTGAAGGAGATTTCTACAAGGATCAAGGCGGAAGCCTTGGACGGCTTAACAACAATGGAGTGCCTGCGCCAGATCGACTTCCGGTTTATCGATTCCGGCAAAGGCCGAATTGCTGCTCTCCGCAAGCGAATGGCGGAAGCGGGTAAAGAGGCTCTGCTCTACGAGAATATCCCTGAGGAGAATCGGATACGCTCGATGGCTCTTGAGCATCTGTAA	MSEPWAASMSGAPWSTDKMHSAVKQLRNRATIGFVVGADDAEDLLKLDEQVFSKRPDLILHIYHAEANGRYTDEFLKTLAGLKFVAALHLDLKQRQDLTRLGAMDRMEFLKLRSPKTQGIDFIRSYKFLKYLELSGKFDDLAPIADCIRLDALVLNCSIDQLDFVADLPLIKYLALDSCTVNGSLNVLAESNVSMLRLSSVRNLVHIDDLAALDHLAFLHLSLPKVERLCDFSHMRNLRQLELDYMKSLQEIGNLWTADRLEVLMLKEISTRIKAEALDGLTTMECLRQIDFRFIDSGKGRIAALRKRMAEAGKEALLYENIPEENRIRSMALEHL				NA	NA	NA	NA	NA
AK002_04922	498			hypothetical protein	ATGGTAAAACAACTGATCATCGGCGATGCAGCGCAGGAACTGGCTCATACGCGCCGCGTTCTGGAACGCTTGCCCGAGGAGCATATGTCGTGGAAGCCGCACGAGAAATCGATGTCACTGGGCGGGCTGGCCACGCACCTGATTAACCTGCTGAACTGGCAAATCGCGATTTTTCAGTACCCGGAGTTCGATCTTTCGAGTGTGCCGCTGCGACGGGAGGCTTTGAACAAACGCGCCGACGTTCTGGAGGAATTCGACGCGAACGCCGGCAAGTTGGAGCAGCTGCTCGCCGAATGCGACGAGAAAACGCTCGGCGAGGAATGGACGCTGCGCCACGGCGACCATATCATCCTCCGCGCGCCGCGGGCGATTGCGCTCCGCACCTTCGGCTTCAGCCACATGGTTCATCATCGGGCTCAGTTAGGGGTATATCTGCGGCTTCTCGATATTCCGGTGCCGGGCATCTACGGTCCATCTGCCGACGAGGCAGCGCAATGA	MVKQLIIGDAAQELAHTRRVLERLPEEHMSWKPHEKSMSLGGLATHLINLLNWQIAIFQYPEFDLSSVPLRREALNKRADVLEEFDANAGKLEQLLAECDEKTLGEEWTLRHGDHIILRAPRAIALRTFGFSHMVHHRAQLGVYLRLLDIPVPGIYGPSADEAAQ				NA	NA	NA	NA	NA
AK002_04923	669			hypothetical protein	TTGACCTACACCTGGATTTCCCTGCCCGAGACCAGAGTGCAGGCCGCCTCGAGGATTAACACGTTCTCGGTGGTCAAGCGTCTGCTCTTTGATCGCAGAGTATGGGGATTCGGTTTTCTTATTGGAGCGACCAACGGCATTTTGTTCAGTTATTATGCGGAGGCGCCCTTTATTTTTATTGAATTTTTTCAGATGAGACCAGCTGCGTTCGGCTTCTTCGGAATCTTTGTGGCGATGTCCTCGATTGTAGGCGCGCTGCTGTCGAAAAGGCTGCTGACCCGGCTCAAGGCAGAGCGCATTATCTTGCTCGGCACGTTCATTACGTCCGTGGGGGCCCTTTGCTTCACGGGTTTTGCCCTTAGCGGGATCAAAGCCACCGTGACGGATTTGGTGTTGATGGTATCCTGTATTTTTATTATTCTGCTCGGCATCGGAATGGCCATTCCCAACTGCCTCAGCCTGGCGCTGATCCATTACGGAGACGTGCTCGGGACGGCAGGGGCCATCTTCGGATTGGGTTATTACGTTGTCGTCAGCCTGATAACGAGCGGCATGAGCTTTCTTCACGACGGTTCGTTAGTCGCCATGCCTTTGTATTTTCTTGGGCTGGCCGCGGTCATGGTCTTCGTGAGCGGAATGCTCGCCCGTCAAGCACGAAGCAGTTCATAG	MTYTWISLPETRVQAASRINTFSVVKRLLFDRRVWGFGFLIGATNGILFSYYAEAPFIFIEFFQMRPAAFGFFGIFVAMSSIVGALLSKRLLTRLKAERIILLGTFITSVGALCFTGFALSGIKATVTDLVLMVSCIFIILLGIGMAIPNCLSLALIHYGDVLGTAGAIFGLGYYVVVSLITSGMSFLHDGSLVAMPLYFLGLAAVMVFVSGMLARQARSSS	PGPT0020800_415	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
AK002_04924	375			hypothetical protein	GTGCAAAGAAAAATCTCAAAACCGTCGCTGCTGTTGTTTATTGTTCTTGTGGGTTTCCCGCAAATAAGCGAAACGATATATACGCCTTCATTACCGGATATCGCCCATCATTTAGGGGCGGGCAATAATGCGATCCAGCTTACGCTCAGCATTTACTTTCTGGGCTTTGCCTTTGGCGTATATTGCTGGGGGAGGCTGTCCGATTCCATCGGACGGCGCCCCGCCATGCTGTGGGCATCCTGGTTTATGGGTTGGGCAGCCTGGGCTGCTATCTGTCCGCTTCGGTCGAATGGTTATGGGTCAGCCGGTTCATACAGGCTTTTGGTGCCAGCACGGGCTCTGTCGTCACGCAAACGATTTTGCGCGAAACTGTAG	MQRKISKPSLLLFIVLVGFPQISETIYTPSLPDIAHHLGAGNNAIQLTLSIYFLGFAFGVYCWGRLSDSIGRRPAMLWASWFMGWAAWAAICPLRSNGYGSAGSYRLLVPARALSSRKRFCAKL				NA	NA	NA	NA	NA
AK002_04925	537			hypothetical protein	ATGTGGAATATTGATTTTGAGCACGCGTACGACATACGCGCGGGTGCCACCGAAGAACAAATTGCCCGTTTTGTTATGGAGTGGAATGCAGGGCTTTCCGTGCAGGAGATGGATGAAATCAAGGGGAGGCAAGTGAATCCTTTTCACAAAAGCTCCCCCTTCTACGATCAATATGTTCCGCTGGATCCTGCAGGCTGGAAGCTGCCTCGGCGAAACTTTCCCGCAAGCTATTTGGATTTATTGAAGTATTCCAACGGCGGGGAATTTCAACAGGGAGCACGTCTTTTCCAGTTCTTTGACACGGATGACCTGAGGGAGATGAACCTGGCCTACGAGCTGCCGGAGTATATGCCTGGTGCGGTGTCGTTTGCGATGGATGGAAGCGGAAACCATTATATGTTCGATATGAGGGAAGCGCCGACAAACGGCGAATATGCGATTTTGTTCGCGCATTCCGGCAACCTGGGGTATGAAGACTGCGAGCGTGTTGCGGATTCTTTGCCTGCGTTATGCACGGAGACTTGGGAGCTGTATTGA	MWNIDFEHAYDIRAGATEEQIARFVMEWNAGLSVQEMDEIKGRQVNPFHKSSPFYDQYVPLDPAGWKLPRRNFPASYLDLLKYSNGGEFQQGARLFQFFDTDDLREMNLAYELPEYMPGAVSFAMDGSGNHYMFDMREAPTNGEYAILFAHSGNLGYEDCERVADSLPALCTETWELY				NA	NA	NA	NA	NA
AK002_04926	765	fabG_11		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAAACATTGAATGGAAAAATTGCCTTGGTTACGGGCTCCAGCCGAGGCATTGGGCGTGGTATCGCGACACGATTGGCGAAGGAGGGAGCGTTGGTAGCCGTTCACTATGGCAAGAACCGTGAGGCGGCAGAAGAGGTCTTGGGCGAGATTACGCAGGCCGGAGGGGAAGCTTTCTTGGTAGGAGCGGATCTTGCCTCCTTGGATGGGATAAGTACTCTGTATGGTGTGCTGGATGAGACGTTGAAAGCACGAACCGGAAATACGCATTTCGACATTCTGGTCAACAATGCTGGAGTCGGCTTGATGGAAACCATAGAGGATACCACGGAGGAAACCTTTGATGAAGTGATGCGAATGAACGTGAAGTCGCCATTCTTCATCATTCAGCAGGCTCTCCCACGCCTTCGAGACGATGGGCGCATTATCAACCTATCATCTGCGGTAACGCGAATCTCCTTGCCCGGTATTCCGGCGTATTCGATGACAAAGGGGGCCATTAATTCGCTGACCCTCTCTCTGTCGAGCCAGTTGGGTACCCGTGGAATTACGATCAATGCGATACAGCCCGGATTCGTTGCTACCGACATGCAGGCCTCCATGCTTCAGGACCCGGCCTCTTTCCAATTTGGGGCCAGCTATTCGATTTTCGGAAGATGGGGTGAGCCTGGGGATATCGCGGACATAGCTGCATTCCTGGCATCTCCGGACAGCCGATGGATCACCGGTCAATGCATCGATGCCAGTGGAGGATCCCATCTGTGA	MKTLNGKIALVTGSSRGIGRGIATRLAKEGALVAVHYGKNREAAEEVLGEITQAGGEAFLVGADLASLDGISTLYGVLDETLKARTGNTHFDILVNNAGVGLMETIEDTTEETFDEVMRMNVKSPFFIIQQALPRLRDDGRIINLSSAVTRISLPGIPAYSMTKGAINSLTLSLSSQLGTRGITINAIQPGFVATDMQASMLQDPASFQFGASYSIFGRWGEPGDIADIAAFLASPDSRWITGQCIDASGGSHL	PGPT0003180_8314	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
AK002_04927	837			hypothetical protein	ATGAAAAAAAGAGCGTTTGATATGATCATGCTGCTCATCGGGGCATTTATTTTTGCGCTGGCGGTCAATTTATTCGTCATTCCGAACGATTTTGGCGAAGGCGGCGTAACCGGGATATCGATCATCCTGTTTTATGTGCTGAAATGGTCGCCGGCGCTGGTCGGCATTGTGATTAACGGGATATTGCTGATGATCGGCTACAAGCTGCTGGATAAAAAAACGACGGTTTACACCATCATCGCCGTTGCCTTTCATTCCCTGTTCCTGCACTTGACGGAGAACTGGCGCATCGCGTCGGATGAGCCGGTGATCAACGCCATTTTCGCCGGACTGTTCGCCGGCGTCGGGATCGGACTCATCGTCCGTGTGGGCGGAACGACGGCAGGCACGGTGATACTGGCTCGTCTGGCCAATAAATATTGGGATTGGAATATCAGTTATGCCCTGCTGTTCTTTGACCTGATCGTGGCCGGACTGTCCGTCTTCGTAATCGGGATCGAGAAGGTGATGTTCACCGTGGTCATCCTCTACATCGGCACCAAGGCAATGGAATTCATCATTGAGGGCTTGAATCCCAAAAAAGCCGTTACCATCATCTCGACACATCATGACCGCATTGCCATTCGGGTTACGGAGATTATGGACCGTGGGGTAACCGTGCTCCGGGGGTACGGATATTACACCGGTCAGACCAAAGACGTACTCTACATCGTCATCAGCAAACAGGAAGTTTCCATGCTCAAAAAAATCGTCCGTGCCGAGGATAAAAACGCCTTTGTTACCATCCACGACGTACGTGACGTGTTCGGGGAAGGATTTATTGATATTTCCAAGTAA	MKKRAFDMIMLLIGAFIFALAVNLFVIPNDFGEGGVTGISIILFYVLKWSPALVGIVINGILLMIGYKLLDKKTTVYTIIAVAFHSLFLHLTENWRIASDEPVINAIFAGLFAGVGIGLIVRVGGTTAGTVILARLANKYWDWNISYALLFFDLIVAGLSVFVIGIEKVMFTVVILYIGTKAMEFIIEGLNPKKAVTIISTHHDRIAIRVTEIMDRGVTVLRGYGYYTGQTKDVLYIVISKQEVSMLKKIVRAEDKNAFVTIHDVRDVFGEGFIDISK				NA	NA	NA	NA	NA
AK002_04928	888			hypothetical protein	ATGAAAAAGATATGGGCAGCGCTGTTCATGACGGCCCTATGTACCTTGACCGCATGCGCGGATTCGGAGAACGGGAAGGTCGAACCCCCATCCGTTTCGAGCGTGGAGCCGGCCCCTGACGTAAAGGAGGACCAACCCTTGGTGATCCGGGATGTGGCTGCCTTACAGGAAGGGACCTTTGCATTTTCCGACGAAACGGGGCATAGGCTGCTCGTTAATCCGGATGCCGCGATTCAGGATGAAGAAGCCTCGCTGATTGCCATCGGCCAGGGCGGCGAGCCGCTTCCGGTCCAATATGCGGGTGAGCAGCAAGCGACGGAAGAAGATAACGGCAGGCAAACTTCGCAGAATTTCAGCCATCAGGACGGGCAGCTGTACGAGGTGACGGAGGGGACGGCCGCCCCGAATGCAACGTACTTCATCATACCAAAGCGCCATCTTCCGGAAGAGGCGCTGTTGACCATCCAGCCGGCCAAGCCGGAGCAGGCCGATGGACAAGTGCTGCAGGAGATCAAGAACAGCAAGGGGAGAGCGGTAGAGCAGGCATGGCCGCTTATTCAGCTTCCGGACGGAGAGTCCCTCTATCTGGTGCAGTTCGTCAGAGAAGGTGACGATATGCTGGCCAGCTTGGCGCTGAAACGCGAGAGCGGCTGGCTGTATTACGATTATCCGGCGAAGTACGATCCGAGCTCGACGTGGAGAGTGGATGACCAAGGAGAGGTGCGTCCGGCCATGTTCTCGTTTCTGTTTGCGGCAGAATCGGAGCTTGGTCTTGTGCTTGGCGTGCAGTGGATGGGCGCGGAAGGTGAGAATGTTTCGCTTCTGTCCGTATCGGACGATGCGATTACGGATCTCGGGCTGGAATATGGAAGATATATGTCCCCCTGA	MKKIWAALFMTALCTLTACADSENGKVEPPSVSSVEPAPDVKEDQPLVIRDVAALQEGTFAFSDETGHRLLVNPDAAIQDEEASLIAIGQGGEPLPVQYAGEQQATEEDNGRQTSQNFSHQDGQLYEVTEGTAAPNATYFIIPKRHLPEEALLTIQPAKPEQADGQVLQEIKNSKGRAVEQAWPLIQLPDGESLYLVQFVREGDDMLASLALKRESGWLYYDYPAKYDPSSTWRVDDQGEVRPAMFSFLFAAESELGLVLGVQWMGAEGENVSLLSVSDDAITDLGLEYGRYMSP				NA	NA	NA	NA	NA
AK002_04929	1482	gdh	COG0334	NADP-specific glutamate dehydrogenase	ATGGTTTTGTACAAATGGTTCAAGACGGACGTCCCTTTCCTGCAACACCAACGATTTTTCTCGCAATTCTACTTTAACGATTTGAAGGAGTGCATCGCAAAAGTGACTACGAATATTTCTGTAACTTCACCCCTTACTGCCGCGCAAGAATATGTGGAATCCATCTATAACCAAGTTGTAGCCCGCGATCCGCATGAGTCCGAGTTTCACCAAGCCGTCCGGGAATTTGTGGATTCCCTCGTCCCTGTGTTAGCCCAGCACCCGAAATATCGTGAACACGGCATTCTGGAGCGCCTTGTCGAGCCGGAGCGCATGGTCACCTTCCGCGTACCTTGGGTGGATGATCAAGGCAAAACGCAAGTCAACCGCGGATTCCGCGTTCAGTTTAACAGCGCACTTGGTCCGTACAAAGGCGGCATCCGGTTCCATCCGTCGGTTTATGCCGGCATCGTCAAGTTCCTCGGTTTTGAGCAAATCTTCAAAAACTCGCTCACCGGCCAGCCCATCGGCGGCGGCAAAGGCGGTTCGGACTTCGATCCGAAAGGCAAATCCGATCAGGAAGTCATGCGTTTTACCCAGAGCTTCATGACCGAGCTGTACCGTCATATCGGACCTGATTCCGATGTGCCTGCGGGCGATATCGGCGTGGGCGCTCGTGAGATCGGTTATATGTTCGGTCAATACAAACGCATCCGCGGAGGGCATGAGGCCGGCGTGCTGACAGGCAAAGGCGTCATTTATGGCGGAAGTCTGGCACGTACGGAAGCAACCGGTTACGGCTGCGTCTACTTCGTACAGGAGATGCTGGCTGCGAAGGGCCTTAGCTTCCAGGACAGCCGCGTCGTGGTGTCCGGTTCGGGCAACGTCTCCATCTACGCCATCGAAAAGGCACAGCAGCTCGGTGCGCACGTCATCGCTTGCAGCGACTCTAACGGATATCTGTATGATCCGGAAGGAATTAACCTTGAAACCGTCAAGCTGCTCAAGGAGCGGGATCGTCTGCGGATCAGCGAATACGTGAAGATTCATCCGCATGCCGTATACACCGAAGGCTGCACGGGAATCTGGACGCTTCCATGCGATATCGCACTCCCTTGCGCCACGCAGAATGAGCTCGACGCCGACGCTGCGAAAACCCTCATTTCGAATGGAGTGAAGGCCATCGGCGAAGGCGCGAACATGCCTTCCACGTTGGAGGCGATTGAGCTGTTCATCAGCAAGGGCATATTGTTTGGGCCGGCTAAAGCCGCCAATGCAGGCGGAGTTGCCGTATCGGCTCTCGAGATGAGCCAAAACAGCATGAGAATGTCATGGACGTTTGAAGAGGTGGATGCGAAGCTCCATCAAATCATGAAGAACATTTACACCAGTGCGGTAGATGCTGCAGAAGAGTATGGCGTAGCCGGCAATCTTGTGGCCGGTGCCAACATCGCAGGCTTTATCAAAGTGGCCGATGCCATGATCGCGCAAGGAATCGTATAA	MVLYKWFKTDVPFLQHQRFFSQFYFNDLKECIAKVTTNISVTSPLTAAQEYVESIYNQVVARDPHESEFHQAVREFVDSLVPVLAQHPKYREHGILERLVEPERMVTFRVPWVDDQGKTQVNRGFRVQFNSALGPYKGGIRFHPSVYAGIVKFLGFEQIFKNSLTGQPIGGGKGGSDFDPKGKSDQEVMRFTQSFMTELYRHIGPDSDVPAGDIGVGAREIGYMFGQYKRIRGGHEAGVLTGKGVIYGGSLARTEATGYGCVYFVQEMLAAKGLSFQDSRVVVSGSGNVSIYAIEKAQQLGAHVIACSDSNGYLYDPEGINLETVKLLKERDRLRISEYVKIHPHAVYTEGCTGIWTLPCDIALPCATQNELDADAAKTLISNGVKAIGEGANMPSTLEAIELFISKGILFGPAKAANAGGVAVSALEMSQNSMRMSWTFEEVDAKLHQIMKNIYTSAVDAAEEYGVAGNLVAGANIAGFIKVADAMIAQGIV	PGPT0000690_138	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
AK002_04930	984	ddh		Meso-diaminopimelate D-dehydrogenase	TTGAACGCAACTATTAAAGTAGGGATCGTAGGTTATGGAAACTTGGGCAAGGGCGTGCAGAAAGCCATCGGGCAAAATCCGGATTTGGAGCTGGTAGCCATCTTCACGCGCAGAGACCCGCAGCAAATGCCGGCCAATTCCGGTGCACGTTTCGAGCATATTTCAGTGGCAGAGCAATATATCGGGAAGATTGACGTGATGATTCTGTGCGGCGGTTCGGCTACCGATTTGCCGGAGCAAACGCCACAGCTTGCCAGCATGTTCAATACGGTAGACAGCTTTGACACGCACGCAAAAATTCCTGAGTTTTTCCAGGAGGTTAACAAAGCGGCGATGGGCGGCGGCCATATCAGCGTCATCTCGACAGGCTGGGATCCGGGCTTGTTCTCCATGAACCGTCTGCTTGCCGAAGCGATTTTGCCGGAAGGCAAAGATTATACGTTCTGGGGCAAAGGCGTGAGCCAAGGCCACTCCGATGCGATCCGTCGCGTACCCGGAGTGAAAGCAGGCGTTCAATACACGGTTCCTGTAGAAGAGGTTATTAACCAGATCCGTTCCGGCGAGACACCGGAGCTTGCCACTCGCGAGAAGCACCGGAGAGATTGTTTCGTCGTTGCGGAAGAAGGCGCGGACCAAGAGCAAATCCGTCAGACGATTGTGTCGATGCCGAACTATTTCTCCGATTACGATACAACCGTTACCTTCATTACGCAAGAAGAACTTGAGGCTGAGCATGCCGGGATGCCACACGGCGGATTTGTCATCCGCAGCGGGGTTACCGGAAACGGAAGCAAGCAAATTGTTGAATTTGGCCTGAAGCTGGACAGCAACCCTGAATTTACGGCAAGCGTGCTCGTGTCTTATGCAAGAGCTGCGCATCGCTTGAGCAGAGAGGGACAGCAGGGCGCCAAGACGGTGTTTGACATTCCGCTCGGGTACCTGTCGCCAAAAACGCCCGAACAGCTCCGCAGCGAGCTCCTATAA	MNATIKVGIVGYGNLGKGVQKAIGQNPDLELVAIFTRRDPQQMPANSGARFEHISVAEQYIGKIDVMILCGGSATDLPEQTPQLASMFNTVDSFDTHAKIPEFFQEVNKAAMGGGHISVISTGWDPGLFSMNRLLAEAILPEGKDYTFWGKGVSQGHSDAIRRVPGVKAGVQYTVPVEEVINQIRSGETPELATREKHRRDCFVVAEEGADQEQIRQTIVSMPNYFSDYDTTVTFITQEELEAEHAGMPHGGFVIRSGVTGNGSKQIVEFGLKLDSNPEFTASVLVSYARAAHRLSREGQQGAKTVFDIPLGYLSPKTPEQLRSELL				NA	NA	NA	NA	NA
AK002_04931	1062			hypothetical protein	ATGACATATGAAGATAACGCACCCGGCTGGGACGCGATTGACGATGCACTGCTGAAGCTGTATGGAGAGCAGGAGCCGAAGCATTACGGAGCGCTGATTCCGTATGCGCTTGGAGGACCCGATCCGCTGAATGGAATCAGCGCTTATGCCTCTGATACGCCAATGCCGCATTGGCATATGGTTACCTATGGTTTTAGCGAGCTGTATGATAAAGAATCGGATCATCTGGAGGAGAGCGGTTACGGCTTCGAATTGACGTTCAGGATGGCTAAGCCGAAGGATGAGGAAGAGCCGCCGGCGTGGGCGCTAAATCTGCTTCAGAATATGGGGAGATACGTGTTTAACAGCGGGAATATTTTTCGCTCGGGCGATTATTTGGATGCCAATGGACCGATCTGCCTGGGTGCCGATACGCAGCTGACCGCACTCGCCTTTATCGAGGATCCCGAGCTGCCGGCCATGGATACACCGAATGGGCGGGTCGAATTCCTGCAGATGATCGGCATTACCCGGGAAGAGCTTGAGGCGATGCAGACCTGGAATACGCTTGGCGTGCTGCAAGCCTGTGCAGAACATATGCCGCTTTACATAACGGATTTGAATCGGGATTCGTTTCTTAAGATACCTTCGATCTCGGAAACCGTGGATAGAGGAATGAAGGAGGAAGGCTCGAACACTGGATTTCTCTATGTGAGCCAGCTGGCTTTTGAACCGGGAAAAAAGGGCTGGTTAAGCAAAACCCCGGCTGCGCTCCAAATCGGCGCCAAGCAGGCGGGCATCATCGGCAAGCTGCTGCAGGGGCGAATTCTGAAGGAGAAGAGCTTGAGCCTTGTAGGTTCGGAGGTTCGGGTCATATTTGAGCCGGGGAACGAGAGCCGCTGGACCTCGGAGGATGGAGACGTTAAGTTGATCCTGGACGATCGGACGGCGCGTGAATTCTCAAGCCATTTGGTTCCGCAGGTCAGCACCTTCGAGCTTTCCGGTTTACCTGGAATCCGAATTGAAATCGTGAAGACGGAAATCAAGGATCAGGAAGGAAACGTTGTTCAAGTTATCGGGTAG	MTYEDNAPGWDAIDDALLKLYGEQEPKHYGALIPYALGGPDPLNGISAYASDTPMPHWHMVTYGFSELYDKESDHLEESGYGFELTFRMAKPKDEEEPPAWALNLLQNMGRYVFNSGNIFRSGDYLDANGPICLGADTQLTALAFIEDPELPAMDTPNGRVEFLQMIGITREELEAMQTWNTLGVLQACAEHMPLYITDLNRDSFLKIPSISETVDRGMKEEGSNTGFLYVSQLAFEPGKKGWLSKTPAALQIGAKQAGIIGKLLQGRILKEKSLSLVGSEVRVIFEPGNESRWTSEDGDVKLILDDRTAREFSSHLVPQVSTFELSGLPGIRIEIVKTEIKDQEGNVVQVIG				NA	NA	NA	NA	NA
AK002_04932	738			hypothetical protein	ATGTTCATGAAAAAACGAACGGCATTATCAGTAACCTTAACGCTCACCGCTTCGCTTACAGTCTCTTCGCTAGCCCTGCAGCCGGCCTCTGCCGACGCGGCCTCCGCCAAGGAATGGATACAAATTTCCGAACGGACGTCCTATTACGGCGAAGCGGCTGACGGCCAGCCTAACGGACGCGGCACCATCAAGTGGGGCAACGGCAAACAATATTCCGGCGATTTCATTGACGGGAAGCGTGCCGGGAGCGGTAAATACATTAACGAATACCAATTGGACGGCGAAGCGCATAAGGTGGTGTACAGCGGCCGCTGGAACCATGACAAGATGGATGGCGAGGGCATCCTGACCCATAAGGTGACATTGCCGGACGGGTCCGTCCGATGGAATCAGATCCAGAAAGGGACATTCAAGGCTGGCGTCTTCCAAAGCGGATACGATGTCATTCATGCCGTGGCCGATCCCGACTACAGCTTTACCTACAAGAAGGGCAAGGAACTGCTCGTGATTATGGGCACCAATCAGAACATGAAGAAAAACTGGGCCAGCGGAACGATGTTCAGCGCTCAATACAAGAATGGTTCCGTTAACCACCATTACTCGATCTTCCCGGCCAATTCGGCGGCCGAGCAGCGTCAGAACGACGCCGCGCTCCGATATTTCAAGAGCATTCAAGCCAAGATTGCTCCGCATCTGCAGCAATTCGAAGCATTGTCCAAGCAGGTTCCGTTAAAATAA	MFMKKRTALSVTLTLTASLTVSSLALQPASADAASAKEWIQISERTSYYGEAADGQPNGRGTIKWGNGKQYSGDFIDGKRAGSGKYINEYQLDGEAHKVVYSGRWNHDKMDGEGILTHKVTLPDGSVRWNQIQKGTFKAGVFQSGYDVIHAVADPDYSFTYKKGKELLVIMGTNQNMKKNWASGTMFSAQYKNGSVNHHYSIFPANSAAEQRQNDAALRYFKSIQAKIAPHLQQFEALSKQVPLK				NA	NA	NA	NA	NA
AK002_04933	762	kduD_3		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGCAGCCCAATTTCAGCATTCAGGATAAAATCGCAATCGTGACGGGTGCCAGCAAAGGCATCGGTTACGGACTAGCCCAAGCGCTCGCAGCGGCAGGAGCCAAGGTTGCCGTCATGGCACGAAGCAAAGCGTCGCTGGATCGATTGGTTGAGGAAATCTCCCGGGCGGGAGGCCAGGCCAAGGCCTATGAGCTGGATGTGCGCAATGTGGAGCAGATCCGATCCGTATTTGGACAGGTAGCCGAGGACTTTGGCAGGCTGGATATCGTGGTCAATAACGCGGGTTTAGGAGAGGGCATGCTCGCGGAAGACATCACGGAAGATTATTGGGACGAGATGATGGACGTTAATTTGAAGGGCGTATTTTTCTGCTGTCAGGCTGCCGGCCGCCTTATGCTGGAGCAAGGCTATGGAAAAATCATCAACGTCAGCTCGCAGGTCAGCGTCGTCGGGATTACCGAAGGCGCTGCCTATTGCGCCTCCAAGGGCGGCGTTAACCAGCTGACGAAGGTGCTGGCGCTGGAGTGGTCCAGCCGGGGCGTCAACATCAATGCGGTAGGTCCCACCTTCATCCATACGCCGGGAACGGCCGAGAGATTGGACTCCCCCGAGTTTCGGGACGGCGTATTGGCGCGGATCCCGGCTGGCCGGATCGGCACCATAGACGATGTGGCCGGCGCCGTTATCTATTTGGCATCGCCGGCATCCGACCTCGTTACGGGCACCGTGCTGCTTGTGGATGGCGGCTGGACGGCACAATAG	MQPNFSIQDKIAIVTGASKGIGYGLAQALAAAGAKVAVMARSKASLDRLVEEISRAGGQAKAYELDVRNVEQIRSVFGQVAEDFGRLDIVVNNAGLGEGMLAEDITEDYWDEMMDVNLKGVFFCCQAAGRLMLEQGYGKIINVSSQVSVVGITEGAAYCASKGGVNQLTKVLALEWSSRGVNINAVGPTFIHTPGTAERLDSPEFRDGVLARIPAGRIGTIDDVAGAVIYLASPASDLVTGTVLLVDGGWTAQ	PGPT0018065_1287	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
AK002_04934	1113			hypothetical protein	ATGAGCGAACGGTTAACCGAAGCGCAGCGGCAAGCGATTCTTCATGTCGAATCGTTAGCGGCGAGCTCACGGAAGAGCACCTCGGCCATGACGGAGCATATTTTACGAAAACATGGAAAAGAACCCGTTACGGTGCGCCGACAGTTAACGCGCATTGGGAAGCATGCCCGAGTCACGTTGAATTTCCATCCGGATCGGATACTGCCTACAGGCCGCTCCGTTATCGAGTCTCTCCTGATGGAAGGCGTATATCATAACCAGTTCATCACGAGCGTGACCAACGGAAGCCGTACGGCCTACCCGGGCGGCGACCGCGACCAATGGGAACGGCTCCTGTTTGGCGGAGCCTACCAGCAGCCCGGCGTTCGCCATGACGAGCGGCCGAAGTACGGCGCACTCAATCTCATGAATTATGCTGACGGGGCATCTCCCCGCTTCGGTTCTTGTTTTCTGGTGCTGTCTCCGGGCATATTGAAACGCAGTACCTTTACATTCGGTGACAGTCATGCAGGTCCCGAGTTTGTAGGCACCCTCCGTCAGTGGGATTCGATTCTCGCGGCGCTCTTGCAGCAAGTGGAATCCACCGGCTCGGCCCTGGGTTCTCCGAATGTAAATATTCCAGCTATGCTGGAGCGGCTGATTCATCTTCCTTCATCGCATACCGGTCCCTCCGGACCGGTCGGCCGCTCCTTGGACGATTATATTGAAGCACAAATCCATGGTACGATCGGCTTGTCCAGCGATGCGGAGGCCCTGGTTGCCGATCCGTCCTACAAGCATACCCCGATCGGCCGCCTGCTCCATGCGCTGTGTGAGCGATATCATCTTGCCCTGTCCTGGCATCCAGGGTTCTCTCTTGCCGTGCAGGATGTCCCCGATAACTTCAGGGGGCCCGCCATGCCGCCGCTGGCCAAGCGGATCGACCAGAGTTACGCAGGCTCGAAAGGCGTCCTGGATGCGGCCATCATCGGCAAAGCGGCTGCTCACCTGGAGGATGATCCAAGCCATTGGAGCGATTGGGGAACCTATGAAGAGACTTTTCAGCATCTCAAACAGCTGTGGCATGTGCTCGTAAAATATGGACATCCGAATCCGAATGCAGCAGACCGCTGA	MSERLTEAQRQAILHVESLAASSRKSTSAMTEHILRKHGKEPVTVRRQLTRIGKHARVTLNFHPDRILPTGRSVIESLLMEGVYHNQFITSVTNGSRTAYPGGDRDQWERLLFGGAYQQPGVRHDERPKYGALNLMNYADGASPRFGSCFLVLSPGILKRSTFTFGDSHAGPEFVGTLRQWDSILAALLQQVESTGSALGSPNVNIPAMLERLIHLPSSHTGPSGPVGRSLDDYIEAQIHGTIGLSSDAEALVADPSYKHTPIGRLLHALCERYHLALSWHPGFSLAVQDVPDNFRGPAMPPLAKRIDQSYAGSKGVLDAAIIGKAAAHLEDDPSHWSDWGTYEETFQHLKQLWHVLVKYGHPNPNAADR				NA	NA	NA	NA	NA
AK002_04935	858	rhaR_63		HTH-type transcriptional activator RhaR	ATGGATTGGGTCCAGCGGATGAATGAAGCCATCGGCTATATAGAAGCGAACATAACCGAAGAGATCGATTACGCTGAAGCGGCGCAGGTCGCCTGCTGCTCCGTATACCATTTTCAACGCATGTTTCCGTTCATTACGGATGTCACGCTCTCCGAATACATACGGAGACGGAGATTGACGCTGGCCGCCTTCGAGCTGCAAAACAGCGAAATCAAGGTCATCGACCTTGCACTTAAATACGGCTATGATTCCCCGGAAGCGTTCGCGCGTGCATTCCAGAACATGCACGGCACAACGCCGACGGCCGCCCGCCAAGCCGGTACCAAGCTGAAGGCCTATCCCCGCATCTCCTTTCAATTCTCCATGCGAGGGGCTGCCGAAATGAATTACAGAATCGAAGAAATGAAGGCATTTTCCGTTGTCGGATTCAAGAAGCAAGTAAGCACGCAGCGCGCCTATGAAGAGGTTCCTTTTCTCTGGAAAGACGCCCATGCGGAAGGCATCTTCGACAAGCTGTGGAACTATCGTGCGCAAGACCATCCCATCCGGGGAATTCTCGGGGTTTGTGCAGACGGCGACTACGGGAAGAACGAGTATTTCGACTACATCATGTCCGTCGTATCGACGCATAATCCTCCGGAGCCGATGGTGCTGCGGCATTTCCCTGCCGCTGCATGGGCGGTATTCGAGCTGGAAGGAGATCCGAGCCGTATTGCGGAGATGTGGAAGCGTCTTTATACCGAGTGGATCCCGTCCCATGCCTACGATCTAGCGCCGCTGCCTGCAATCGAATGCTATCTTCCCCCGGACGAGTATAAGAACGAATTATGGATTCCTGTCATTCGAAAGGCGCAATAA	MDWVQRMNEAIGYIEANITEEIDYAEAAQVACCSVYHFQRMFPFITDVTLSEYIRRRRLTLAAFELQNSEIKVIDLALKYGYDSPEAFARAFQNMHGTTPTAARQAGTKLKAYPRISFQFSMRGAAEMNYRIEEMKAFSVVGFKKQVSTQRAYEEVPFLWKDAHAEGIFDKLWNYRAQDHPIRGILGVCADGDYGKNEYFDYIMSVVSTHNPPEPMVLRHFPAAAWAVFELEGDPSRIAEMWKRLYTEWIPSHAYDLAPLPAIECYLPPDEYKNELWIPVIRKAQ				NA	NA	NA	NA	NA
AK002_04936	495			hypothetical protein	ATGAACATCGATCAACGAAATGAAGCAGCGGTTACGAGAAAGCCGGCATTTCAGGCGGTTGGATTGAAGTGGGAGGGCACATTTGCCGAGGCAGGCGCAGGCGGAATCCGGGCGGTGCAGCGGACGCTGCAAGAGCGTCTCGCGGAGATTCCTTACGCAATCCATGCGGACACCCTGCTCGGATTATCTTACCACGCGGCTCCCGGGGGCGACGGATTCATCCATTATGCCGTCGTCGAAGTGGAGCGGATTGAGGAAGTACCGGAAGGGATGGTTACGATATCCGTTCCCGCATTAACCTATGCCGCTTGTTCCCATCGCAAAGGGCAGAGCATCGACCAATCTTACAACAATATCTACGCCTGGATTACGGAACAAGGCTACTCGGAATACAATCCGGATCATTTAACGCATTTTGAACAATATCCGATGAGTCAGGACCCGTATACGGATGACCCTGAGTTTATGATCATGATTCCCGTTCAAACCGAATAG	MNIDQRNEAAVTRKPAFQAVGLKWEGTFAEAGAGGIRAVQRTLQERLAEIPYAIHADTLLGLSYHAAPGGDGFIHYAVVEVERIEEVPEGMVTISVPALTYAACSHRKGQSIDQSYNNIYAWITEQGYSEYNPDHLTHFEQYPMSQDPYTDDPEFMIMIPVQTE				NA	NA	NA	NA	NA
AK002_04937	693			hypothetical protein	ATGCCCAAAACCGAACGGATCCTTAACGTCATGCAGCGAGTGTATGAACGGCAGAACTTCACCGTCGGCGAGTTAGCCGAGGAATTCTCGGTCTCGTATCGTACGATGCTCCGCTATCTTCATGAACTGTCTCGGCTAGGCGTTCCCTTATACGCCAATGAAGGAAAGAATGGCGGCTATTCCATCCTGACTTCTCGGCAGAAGCGGGAACGATCCGAGCAGACGAACGAGACCATTCAGCGGATCATCAAACCGCGGACGCTGATCGTCGGCCTGGAGATGAAGCTCCCCTTCACAGCCTATTACATGTCTCAGGCCCTCAAGCCCAGGCTGTGGCAGGAGCTTCAAAACCGGATGGAGGAGATTCCCTATATCCGCCATAAAACGTCGAACCCCTTGTTTATTGCTGCTGTTTTGAATCGGCAGCCGATCTATCATTATGTAGCAGGGTTCGAGGTCAGCACGATCCGTGATATGCCGGAGCGGATGGTGAGTTTAACCCTGCCGACGCAGGAATATGCGATGTACACCCATGAAGGTCATTCCGAACGGGAGGATACCGACCAGTCCTATTCCTATGTTCTTCAGCTGCTGAAACAACGCGGACTTATGCCGAACCCCGAACACTACAGCCTGGAGCTGAGAACCTCGGTGCATGCCTCGAAGACCCAGATCTACATCCCTATAACCTGA	MPKTERILNVMQRVYERQNFTVGELAEEFSVSYRTMLRYLHELSRLGVPLYANEGKNGGYSILTSRQKRERSEQTNETIQRIIKPRTLIVGLEMKLPFTAYYMSQALKPRLWQELQNRMEEIPYIRHKTSNPLFIAAVLNRQPIYHYVAGFEVSTIRDMPERMVSLTLPTQEYAMYTHEGHSEREDTDQSYSYVLQLLKQRGLMPNPEHYSLELRTSVHASKTQIYIPIT				NA	NA	NA	NA	NA
AK002_04938	1191	fabV	COG3007	Enoyl-[acyl-carrier-protein] reductase [NADH]	ATGATCATTAAACCTAGAACACGCGGATTTATTTGCACGACATCCCATCCTGTAGGCTGCGAAGCCCAAGTGCAGGAGCAGATCCATTATGTACTGAAGCAGCCTGGAATCGAAGGGCCGCGCAATGTGCTGGTCATCGGCGCCTCCACGGGGTACGGCTTGTCGGCCAGAATAGCTGCCGCATTCGGCGCCCGGGCGAATACCGTAGGCGTATATCGTCCAAGTCAGGCCACCGAGAAACGGACCGCATCGGCGGGCTGGTACAATTCGGCCGCTTTCGAGAAGGCAGCGGATGCCGCCGGCTTGAAATCGTACAGCGTGACGGGAGATGCCTTCACGCAGGAGACCAAAGCCAAAACGGTTGAACTGATCCGCAAAGAGCTGGGCCAGGTCGATCTCGTGGTCTACAGCGTTGCCTCGGCTCGCCGCACGCTCCCTGAAACAGGCGAGACGGTCAGCTCGGTATTGAAGCCGATCGGACCAGCGTATACCAACAAAACGGTTAACTTCCATACCGGTGAAGTGACGGAGGTTACGATTGAACCGGCAACGGAAGAGGAAGTGAAGAACACCGTTGAGGTCATGGGCGGCGACGATTGGGAATTGTGGATGAACGAGCTGGCGGAAGGCGGCGTATTGGCTCCTGACGTGACCACCATTGCGTTCTCTTATATCGGCTCCGAGATTACCAAGGCCATTTATCGGGACGGATCTATTGGTCAAGCCAAGGATCACCTGGAGGCCACCGCGCTGAAACTGAACGAGAAGCTTGCCACCGGAGGCGGACGCGCATACGTTACGGTGAGCAAAGCGTTAGTGACTCAATCCAGCTCGGCGATTCCGGTCGTGCCGCTGTACGTATCGGCGCTGTACAAAGTCATGAAGGAAAAGGGGCTGCACGAGGGCTGCATTGAGCAGATTTACCGTCTGTTCTCGGATCGTCTCTATAACGGGCAAGAAACGCCGGTGGACGAGAAGGGCCGCATCCGTATCGACGATTGGGAGCTTCGCGAGGACGTGCAGGCCGAAGTAGCCGAATTGTGGAGCAAAGTGACCAGTGAAAATATCGGAGACTTGACCGACCTTGCCGGTTACCGCCGCGAGTTCTTCCAGCTGTTCGGCTTTGAAACCGACGGCGTGGATTATGATGCGGATGTAAATCCCGTGGTCGACAATCCGAAAGCCATTTAA	MIIKPRTRGFICTTSHPVGCEAQVQEQIHYVLKQPGIEGPRNVLVIGASTGYGLSARIAAAFGARANTVGVYRPSQATEKRTASAGWYNSAAFEKAADAAGLKSYSVTGDAFTQETKAKTVELIRKELGQVDLVVYSVASARRTLPETGETVSSVLKPIGPAYTNKTVNFHTGEVTEVTIEPATEEEVKNTVEVMGGDDWELWMNELAEGGVLAPDVTTIAFSYIGSEITKAIYRDGSIGQAKDHLEATALKLNEKLATGGGRAYVTVSKALVTQSSSAIPVVPLYVSALYKVMKEKGLHEGCIEQIYRLFSDRLYNGQETPVDEKGRIRIDDWELREDVQAEVAELWSKVTSENIGDLTDLAGYRREFFQLFGFETDGVDYDADVNPVVDNPKAI	PGPT0001825_739	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001825-fabV|ter-K00209	NA	NA
AK002_04939	750	cpnA_1		Cyclopentanol dehydrogenase	ATGTCAGAACAACGTGTAGCGGTAATTACCGGTGGAGCGAGCGGAATCGGTCGCCAGGTCTCCCTTAAATTCGCAAGAAAAGGCGATCGCGTCGTCGTTGCCGATTTTAATGAAACTGCCGGGCAAGAGACCGTCGATATGATCAAAGCAGAAGGCGGCGAAGCTTCATTCGTTCAAGTCGACGTTTCCAAACAAGAAAGCGTCGAGGCGCTTGTGGATAAAGCGGTTGAGCTCTACGGCCGCATCGACGTCATGCACAACAATGCCGGCATTGGCGGCGCCGGGCCGGTCCTTGAACAAAATATGGATCTTTACCATCGCACGATTAACGTGAATCAGCACGGGGTTGCCTACGGTATCATCGCGGCAGGCAGAAAAATGAAAGAACTGGGCATTAAGGGCGTTATCATCAACACGGCTTCCGTATTCGGCTTCTTGGCTTCGCCGGGAACATTTGCTTACCATGCGACAAAGGGTGCCGTCATCATGATGAGCAAATCCGCCGCGCTTGAACTGGCCCCATACGGCATTCGTGTTGTGGCCGTTGCTCCTGGAGCCGTCGATACACCGATCATCCAGGGCTATAAAGATTCCGGCATGCTGGATTCCATGAGAGCCAAAGTCATGGGCGGAGAATTGACGCAGCCCGAAGTGGTCGCCGATACCGTGTATCTCGTGTCGCTGGACGAAGCGGCTGCGATTACGGGCAGCGTGGTCATGGCCGACCAGGGCTATGCTTCATTCAAATAA	MSEQRVAVITGGASGIGRQVSLKFARKGDRVVVADFNETAGQETVDMIKAEGGEASFVQVDVSKQESVEALVDKAVELYGRIDVMHNNAGIGGAGPVLEQNMDLYHRTINVNQHGVAYGIIAAGRKMKELGIKGVIINTASVFGFLASPGTFAYHATKGAVIMMSKSAALELAPYGIRVVAVAPGAVDTPIIQGYKDSGMLDSMRAKVMGGELTQPEVVADTVYLVSLDEAAAITGSVVMADQGYASFK	PGPT0014705_1056	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
AK002_04940	900	cysB		HTH-type transcriptional regulator CysB	GTGAATCTCGAACAATTGGAATATATCGTGGAGACGGCCAAGACAGGATCGTTAACCAAGGCAGCCCAGAATTGCAACGTTACCCTTTCCGCGGTGAGCCAAGCCGTATCCAGCCTGGAAGCCGAGTTCGGTTTTTCTTTGTTCACCCGTTCGCGGCTTGGTGCTGTACCTACGGCCGAGGGTCAGCGGATTCTGCGGAAGGCTTATGCCATTTTGGAGCAATTTCAGGAGCTGAAGGCGGAGGCCGAAGGCTATTCTAATTTGCTTGGCGGGTCATTGCGGATTGCTACCGTACCGGTGCCTTTAACGCTGTCCATCGATGCCATTATCCGGTTCAAAAAAGACTTTCCGCAAATCAAACTCGACATCACGGAGAAAGCGACGCTCGATATTATTGAGGATATCAAGCAGAATCACGCGGATATCGGTCTGATCTTCGTCGATGAATCCATCATTCAGCAGCATCGCGGCCTGCATTTCGGGAAGCTCCTCGAGAGCAAATTCGTGGTGGGGGTCAGCCGCCAATCCCCTCTCGCCATGCGGCCATCGATCACGCCCGAAGAGCTCCGCGGATATCCCTTGGTACTGTATAAGGATGACAATCTGTTCAAGCTGATGGATGTATTCCAGGAGCAGTACGGAGACATGGATGTGCTGTTCTCCACCAACCAAACGAGGGTCATACAGAAGCTCGTCGAAGAGAATGTGGCGGTTACGGTAGGTGTCGACTTGTCCTTCACCAGCTTCGCTTCCGTTCCTTCGGGAAACATCGTGACGCTGGAGCTGGAGATGCCTCCCGGCCTCGCCGCTTCCTCCTTCGGGTGGGTGCAGCCCGGAACCCACCACCTGTCGAAGCCGGCGGCGATCTTTCTGGACAAGCTGAAGCATCAGATTGGATAA	MNLEQLEYIVETAKTGSLTKAAQNCNVTLSAVSQAVSSLEAEFGFSLFTRSRLGAVPTAEGQRILRKAYAILEQFQELKAEAEGYSNLLGGSLRIATVPVPLTLSIDAIIRFKKDFPQIKLDITEKATLDIIEDIKQNHADIGLIFVDESIIQQHRGLHFGKLLESKFVVGVSRQSPLAMRPSITPEELRGYPLVLYKDDNLFKLMDVFQEQYGDMDVLFSTNQTRVIQKLVEENVAVTVGVDLSFTSFASVPSGNIVTLELEMPPGLAASSFGWVQPGTHHLSKPAAIFLDKLKHQIG				NA	NA	NA	NA	NA
AK002_04941	753	exoA	COG0708	Exodeoxyribonuclease	ATGAAGCTAGTATCATGGAACGTCAACGGATTGCGGGCCTGCGTTACGAAAGGCTTTATGGATTATTTTAATGAGGCGGATGCCGATATATTTTGCGTGCAGGAAACGAAACTGCAAGCGGGACAGATCGAGCTCGATCTGGGTCCGGAATATCAGCAATATTGGAACTATGCAGAGAAGAAGGGATACTCGGGAACGGCGGTATTTACGAGAATCGCCCCATTGTCCGTTCGCTATGGTCTGGAGGAAGACAGCGAGCCCGAGGGCAGAGTGATCACGCTGGAGTTTGAGGACTTCTATCTCGTGAACGTATACACGCCGAACGCGAAGCGCGACCTGAGCCGGCTGGATTATCGGCTGGAGTGGGAGGAACGGTTCCGCACTTACCTGCTTCAGCTCGACGAACGCAAACCCGTGATCGTATGCGGGGACTTGAATGTGGCGCACCAGGAAATCGACCTGAAAAATGCCAGATCCAATCATGGGAATTCCGGCTTCACGCTGGAGGAGCGCGGCAAAATGACCGATCTGCTGGCAGCGGGCTTTATCGATTCCTTCCGCCACTTCTACCCGGACCGTACGGACGTATACAGCTGGTGGTCCTATATGGCCAAGGTAAGGGAGCGGAATATCGGCTGGCGCATCGATTATTTCCTGACGTCTGCCCGTTTAGCCGAGAAGCTGAAGGATGCCGAGATCGACTGCCATGTGCTCGGAAGCGATCATTGCCCGGTGAGTTTGACGCTTGAGTAA	MKLVSWNVNGLRACVTKGFMDYFNEADADIFCVQETKLQAGQIELDLGPEYQQYWNYAEKKGYSGTAVFTRIAPLSVRYGLEEDSEPEGRVITLEFEDFYLVNVYTPNAKRDLSRLDYRLEWEERFRTYLLQLDERKPVIVCGDLNVAHQEIDLKNARSNHGNSGFTLEERGKMTDLLAAGFIDSFRHFYPDRTDVYSWWSYMAKVRERNIGWRIDYFLTSARLAEKLKDAEIDCHVLGSDHCPVSLTLE				NA	NA	NA	NA	NA
AK002_04942	144			hypothetical protein	ATGACTGGCAGAAACAGCAAGCCTAAGAACGACGGCCCTTCCAGCAGCCCTGAACGTTTGGATCAATACGGGGACAAGCTGGCTTCCGAGAACGAAGAGGAGTTCACCTCCGCGGCCGAAGAGCATTGTCGGGATCAGGAATAA	MTGRNSKPKNDGPSSSPERLDQYGDKLASENEEEFTSAAEEHCRDQE				NA	NA	NA	NA	NA
AK002_04943	1017	yfiY_3	COG0614	putative siderophore-binding lipoprotein YfiY	ATGAGTCTTTTCAAGAAAAAAATATGGATTATCGCAGGACTGCTGGCGGCTTTAACGCTGCTTGCAGCTTGCGGAAACAGCAAGGACGCAGCCGGCAACGAGCCGACGGGGACGCCAACGCCAAGCGAGCAGAACGGCGGCACCGAAGCCAAGCCGGAGGAAGGAAGCACGGAAGCGAAGACGGAACGAACGTTGACGGACGCCATGGGCCATGAAGTGAAAATTCCGGCGGAGCCGAAACGGGTGATCGCTTCTTACTTGGAGGATAACCTGGTGGCATTGGGCATTACCCCGATCGCGCAGTGGTCGGTCAAGGGCGGAAACGTCCAGGATTATCTGCAGGATGCGTTAAAAGACGTGCCGACCATTGAGCATGATCTTCCCTTTGAAGCGGTAGCAAGCTTTCAGCCGGACCTGTTGATCATGGACTCCGCTTCTATGGTAGAAGGCAACAAATACAGCCAGTACAGCAAGATTGCTCCTACCTACGTCATCGGCAACGAAGTCAATAACGATTGGCGCGAAGAGCTGAAGAAAGTAGGCGAAATCTTTGGCATGGAGGAGGAAGCTCAAGCGGCGCTTGATCGATACGAGCAGAAGGCCAAGGATGCCAGGGAGCAAATCCAGCAGGCGATCGGCGGTGAATCCGCTGCGGCTATATGGCTTGTCGGCGGCAAATTGTTCGTTGTCAGCGAGACGCTGTCCAGCGGCGCCGTAATGTACGGCGACTTGGGACTCACCGTTCCGAGCGTGGTGAAGGAAATCTCGGCATCGGCTACCGGCAACTGGTCTTCCATTTCCCTGGAGAAATTGGCCGAGCTCGACGCGGATCATCTGTTCTTTATTAACAGCGACGGCGAAGGCGCCGAAGTGCTTCAGGATCCGCTCTGGGCGAATATTCCGGCCGTCAAGAACGGCAACATCTATGAATATGGAAAAGATACAAGCTGGCTCTATACCGGCACGATTGCCAACAGCCAGATCATTGATAACGTGCTGGAAAGTTTGGTGAAATAA	MSLFKKKIWIIAGLLAALTLLAACGNSKDAAGNEPTGTPTPSEQNGGTEAKPEEGSTEAKTERTLTDAMGHEVKIPAEPKRVIASYLEDNLVALGITPIAQWSVKGGNVQDYLQDALKDVPTIEHDLPFEAVASFQPDLLIMDSASMVEGNKYSQYSKIAPTYVIGNEVNNDWREELKKVGEIFGMEEEAQAALDRYEQKAKDAREQIQQAIGGESAAAIWLVGGKLFVVSETLSSGAVMYGDLGLTVPSVVKEISASATGNWSSISLEKLAELDADHLFFINSDGEGAEVLQDPLWANIPAVKNGNIYEYGKDTSWLYTGTIANSQIIDNVLESLVK	PGPT0003765_5047	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
AK002_04944	1041	feuB_1	COG0609	Iron-uptake system permease protein FeuB	ATGCAGGCAAATCATCCCAATCACAAAACAACCGCAAAATCCATTTACCGTCCCAAAACAGCGGCGGCCGTCATTCTCCTGGGGCTTGGTCTGCTGGCTGCCGCGATGGCATCTTCGATTATCTATGGCGCGTCGAACATTAAACTGTCCACCATTTGGGAGGCGTTTGTCCGCTTCGATGCCGATTCCACCCCGCACCAGATTATCCAGAGACTTCGAATGCCCAGGGCCTTGGCGGCTGCGCTAATCGGCGGTTCCTTGGCCGTATCGGGAGCCATCATGCAGGGCATGACAAGGAATGCGCTCGCCTCCCCTTCCATTATGGGTGTCACCGCCGGTGCCTCCTTCATGATGTCGATCGGGTTTGCCTTTATGGAGTCGCCATCCATTACTGCGCTCATGCTGTTATCTTTTGCAGGCGCCGGCCTGGGGGCCGGGCTTGTGCTGCTGATCGGCTCGTTATCCAAGCGGGGATTGACGCCTGTCAAGCTGGCCTTGGCCGGGTCAGCCGTTACCGCGCTGCTGAGCTCGATATCCTCGGCCATTGCCATCCGCTTTAACGTTGCCAAGGATATCAGCTTCTGGTATGCCGGTGGCGTGTCTGGCGTGCAATGGGTGAACGTGAAACTTCTGATCCCCGTCGCCATCGTCGGGCTGTTGATTGCGCTGGCGCTCAGCAGATCCATTACCGTCATGAGCCTGGGCGAGGAGGTCGCTACCGGGCTTGGCCAAAAAACGGGAACCGTCAAGTTCCTGGGCACGCTCGTTGTGCTGCTGCTGACAGGCGCAGCGGTGGCTGTAGGCGGAACGATCGGATTCGTGGGGCTCGTCATCCCGCATATCGTCCGCTTCATCGTCGGACCCGACTATCGGCTGATCATCCCTTGCTCCGCCGTCATGGGAGCACTTCTGCTGGTGTTTGCCGATGTGGGTGCGCGGATGATCAATCCTCCGTTCGAGACGCCGGTCGGGGCAATTACGGCGATGATCGGCGTTCCCTTCTTCCTCTATCTTGCACGGCGCGAAGGGAGAGGGCTGTAA	MQANHPNHKTTAKSIYRPKTAAAVILLGLGLLAAAMASSIIYGASNIKLSTIWEAFVRFDADSTPHQIIQRLRMPRALAAALIGGSLAVSGAIMQGMTRNALASPSIMGVTAGASFMMSIGFAFMESPSITALMLLSFAGAGLGAGLVLLIGSLSKRGLTPVKLALAGSAVTALLSSISSAIAIRFNVAKDISFWYAGGVSGVQWVNVKLLIPVAIVGLLIALALSRSITVMSLGEEVATGLGQKTGTVKFLGTLVVLLLTGAAVAVGGTIGFVGLVIPHIVRFIVGPDYRLIIPCSAVMGALLLVFADVGARMINPPFETPVGAITAMIGVPFFLYLARREGRGL	PGPT0003770_4132	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
AK002_04945	1005	feuC_2	COG0609	Iron-uptake system permease protein FeuC	ATGAATACAACGAGAAAAATCATGTCCGTATCCATGATTTTGCTGCTGACTATAATTGCCGTGTTCCTGGTCAGCCTGAATATGGGAACGATGAAAATCCCGCTAGCTGAAGTGGTCAAAGCGTTCAATGGGACAGGTTCCGAACAGAATTATACCGTCCTGATGCACTTTCGCCTTCCCCGCATGGTCATTGCCATCCTGATCGGTGCGGGAATCGCCGTCTCCGGCGCCATACTGCAAAGCGTTTCGCGAAACGCGCTGGCAGACCCGGGCATTCTCGGCATCAACTCCGGGGCAGGATTGGCCGTCGTACTGTATATTTTTTATTTTCAAGGCAGCTCGTTCAGTTCCGGCATATGGTCCGTCTATATCATGCCTTTTGCCGCGCTAGTCGGTGCATTTCTTGCCGCCTTCCTCATCTATTCGCTGGCCTGGAAGCAAGGCGTCACGCCGATCCGGCTGGTGCTTGTGGGGATCGGCATCAACGCGGCCTTCGGGGCGCTGATTATCGTATTCCAGCTGATGATGGACCCTAACAATTTCATGCAGGCCACCATCTGGCTGTCCGGCAGCATCTGGGGGGCAAGCTGGGAGTATGTCGTTGCGATCCTTCCGTGGATCCTGTTCCTGGTTCCTTGGGCCGTATATAAATCGCAAAATTTGAATGTGCTCAACCTGGGGGACCACACGGCTGCCGGGCTTGGGGTTACGGTCGAGCGCGAGCGTAGAACGCTGCTGTTCATCTCCGTTGCCCTGGCGGGCGCCTGCGTCGCCGTTGGCGGCGGCATCGCGTTTCTCGGACTCGTAGCTCCGCATCTGGCGCGCAAGCTGGTGGGCCCCCGTCATCAGGGAATGCTGCCTGTCTCCGCGCTTCTCGGCTCGCTGGTGCTGCTTGTGGCCGATATGATCGGCAAGAACCTGATGGCCCCTTCCGAAATCCCGGTCGGCTTGGTCGTTTCCTGTCTCGGAGCGCCTTACTTTATCTATTTGCTGATCAAGGATTAA	MNTTRKIMSVSMILLLTIIAVFLVSLNMGTMKIPLAEVVKAFNGTGSEQNYTVLMHFRLPRMVIAILIGAGIAVSGAILQSVSRNALADPGILGINSGAGLAVVLYIFYFQGSSFSSGIWSVYIMPFAALVGAFLAAFLIYSLAWKQGVTPIRLVLVGIGINAAFGALIIVFQLMMDPNNFMQATIWLSGSIWGASWEYVVAILPWILFLVPWAVYKSQNLNVLNLGDHTAAGLGVTVERERRTLLFISVALAGACVAVGGGIAFLGLVAPHLARKLVGPRHQGMLPVSALLGSLVLLVADMIGKNLMAPSEIPVGLVVSCLGAPYFIYLLIKD	PGPT0003770_7922	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
AK002_04946	1050	gutB	COG1063	Sorbitol dehydrogenase	ATGCAAGCACTACGCTGGCATGGAGTAAAGGACCTGCGTTTGGAGACGATCGCGGAGCCGCAAGCTACGAACGGAAAAGTGAAAATCAAGGTCGAGTGGTGCGGGATTTGTGGCAGTGATCTGCACGAATACGTGGCCGGGCCTATATTTATACCTGAGAATACGCCTCACGCCCTTACCGGAGAACAGGCTCCGGTGGTTATGGGCCATGAGTTTTCCGGCCAGGTGGTAGAGGTTGGCGAAGGCGTTACGAAATTCAAGGCTGGCGACCGCGTGGTTGTTGAGCCTGTATTTGCGTGCGGAAAATGTGCGGCTTGCAGACAAGGGAAATACAATCTGTGCGACAAAATGGGCTTTCTCGGGCTCGCCGGCGGTGGCGGCGGTTTCTCCGAATATGTAGCTGCGGATGAGCACATGGTTCATAAAATTCCGGACAGCGTTTCTTATGAACAGGGGGCTCTGGTGGAACCTTCGGCAGTCGCGCTATACGCCGTGCGCCAAAGCCAGCTGAAGGCCGGAGATCGGGCGGTCGTATTCGGTGCCGGGCCGATCGGCCTGCTTGTCATCGAAGCATTGAAGGCAGCGGGAGCATCCGAGATTTACGCCGTGGAGCTGTCCCCGGAACGCAAACAGAAAGCCGAGGAATTGGGGGCTATCGTCATTGATCCGAAGGCCTGCGATGTAGTAGAAGAGCTTCATCGCCGTACCGGTGCCGGAGTCGATGTGGCATTCGAGGTGACCGGGGTTCCGCCGGTTCTTACCCAAGCGATCAACTCGACGAAGATCGGCGGACAGATTATGATTGTCAGCATCTTCGAAACCTCCGCTCCGATCGTGCCGAATGACATCGTGATGAAGGAACGTAACATTACCGGTATCATCGGCTATCGCGACGTATTCCCGGCTGTGATCAGCCTGATGGAAAAAGGCTTCTTCCCGGCGGATAAGCTGGTCACCCAGCGGATCAAACTGGATGAGGTTATCGACCGGGGCTTTGAGGCCCTGCTCAAAGAGAAGAACCAAGTGAAGATCCTGGTGAGCGCTCACTAA	MQALRWHGVKDLRLETIAEPQATNGKVKIKVEWCGICGSDLHEYVAGPIFIPENTPHALTGEQAPVVMGHEFSGQVVEVGEGVTKFKAGDRVVVEPVFACGKCAACRQGKYNLCDKMGFLGLAGGGGGFSEYVAADEHMVHKIPDSVSYEQGALVEPSAVALYAVRQSQLKAGDRAVVFGAGPIGLLVIEALKAAGASEIYAVELSPERKQKAEELGAIVIDPKACDVVEELHRRTGAGVDVAFEVTGVPPVLTQAINSTKIGGQIMIVSIFETSAPIVPNDIVMKERNITGIIGYRDVFPAVISLMEKGFFPADKLVTQRIKLDEVIDRGFEALLKEKNQVKILVSAH	PGPT0008200_663	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008200-butB-K00004	NA	NA
AK002_04947	1029	degA_4	COG1609	HTH-type transcriptional regulator DegA	ATGGTGAACCCCAAAAAAGTAACGATTGAAGATGTCGCCAAACAAGCGGGTGTCGGTATCGCAACCGTGTCCCGGGCCATCAACGACAGCAAGGGCATCAGTCCGAAAACGAAAGCACGGATCATGCAGGTGATCGAAGAAATCGGCTTTAGTCCAGATACATCGGCCCAAAGCCTGAAGGTCCGGCAGACGAATCAAATCGCCTTGGCCGTGCCTGACATCCGAAATGCGATCATCCCGGAAATCGCCTGGTCGGTCGAGCAGACCGCCAAACAGCACGGCTATCGGGTCGTTCAGATCAATACGGCCGGAAATGCACGGAACGAGCTGGAAATCGTCAGGGATATCAAAAAACTGCACGTGGACGGCCTGATTATCATGCCGCTGGCTTATCCCAAAACACTGGGTGACCTGATTAACAAATCAAGCTTGCCCGTCTCGATTATTAATTACGGGAAACAGCTGGGAGATGAGTATAAAGCCGATATCGTTGGTCTGGCACGCCAGGAGGGCAAGCTCGTCATGGAGCATCTCCTGAAAATCGGGCGGAGCCGAATCGCCTATGCCGGTGCGCCCAAGGATAAAATCGAAGAGCGGTATTGGGCTTATGAGCAGTCGCTGCAGAAAGTCGATCCGTCGCTTGTCTATTTTGGGGAGGACTTCTCGTTTGAGACGGGGGTTCGCGCGGCGGACTATTTTTATGGCCTGAAGCATATGCCGGATGCCATCTATGCGGTTAACGATATGGTTGCCATCGGCATCGTCAACCGTTTTAAGGAGCTGAAGGTTCGGGTTCCCGACGATGTGGCGGTCGTCGGCATCGATAACAATGCATGGACCACCGTCACGACGCCGCAGATCAGTTCGGTGTCCATCATGGGCGATGAAGTAGCCCGGCTTGCGACGGAATTGCTGCTGAAGCGGCTTCGCGAGCAAAAGACCGGCCAATACGAGCGCGTGCAATTCGAGCCGCGGCTTATCGTCAGGGAATCGAGCGTGTCCGTGATCCGAAACGCAACAACCGACTAG	MVNPKKVTIEDVAKQAGVGIATVSRAINDSKGISPKTKARIMQVIEEIGFSPDTSAQSLKVRQTNQIALAVPDIRNAIIPEIAWSVEQTAKQHGYRVVQINTAGNARNELEIVRDIKKLHVDGLIIMPLAYPKTLGDLINKSSLPVSIINYGKQLGDEYKADIVGLARQEGKLVMEHLLKIGRSRIAYAGAPKDKIEERYWAYEQSLQKVDPSLVYFGEDFSFETGVRAADYFYGLKHMPDAIYAVNDMVAIGIVNRFKELKVRVPDDVAVVGIDNNAWTTVTTPQISSVSIMGDEVARLATELLLKRLREQKTGQYERVQFEPRLIVRESSVSVIRNATTD	PGPT0017992_6856	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
AK002_04948	519			hypothetical protein	TTGAAAACATGGATATTGAAGCAGTACGATTACCACGTATGGGCTAACCGGAAGGTTTGCGAATATTTGCAGGGGCTTTCGGAAGAGGTATACCGCAAGGAGATTGTCAGCGTCTTTCCATCCATTTATGACACGATGGTGCACATCTATGTCATTGATTCCGGCTGGCTGTCGTTCTTTAACGCGGGCGGAGTCGCGGAGGTGTCGCCTGCGTACTTGGAGAGTCTGAAGGATTCGATTGCTCGGCTGGTTGCGGAAACGGAAGGCAAGCGCATCGAAGAATTGGGCCAGCTAATGGACGATCTGGCGGCGCGCTTCCGGTTGTTTATCGAACAGCATGAGAATCTGGACGCCATCTATCCGTCCGGAGATTTTAGAGCCAGCTGCCTGGATTATATCCAGCATATAATTAATCACGGGACCTATCATCGTGGGAACGTAACCGCCATGCTCCGGCAAATCGGACATCCCGGCACGCCTACCGACTATGGCTATTATTTGTATACGTTAAGCCATTAA	MKTWILKQYDYHVWANRKVCEYLQGLSEEVYRKEIVSVFPSIYDTMVHIYVIDSGWLSFFNAGGVAEVSPAYLESLKDSIARLVAETEGKRIEELGQLMDDLAARFRLFIEQHENLDAIYPSGDFRASCLDYIQHIINHGTYHRGNVTAMLRQIGHPGTPTDYGYYLYTLSH				NA	NA	NA	NA	NA
AK002_04949	1314	licH_1	COG1486	putative 6-phospho-beta-glucosidase	ATGGGCACTGGATTGAAGGTTGCTGTTATCGGGGGCGGATCCTCGTATACCCCCGAGCTGATTGAAGGTTTCATCCGTCATTATGAGTCGTTTCCCGTGACGGACATCGTCCTCGTGGATATCCCGGAAGGGCGCCGCAAGCTCGAAATTGTAGGCGGTCTGGCCCAGCGGATGATTGAGCGAAGCGGACTGCCGATCCGCATTACGTTGACCTTGGACCGCCAGGAAGCACTGAGAAATGCCCATTATGTATCGACTCAGATGCGGGTCGGACTGCTGGAGGCCAGAGGCTGGGACGAAACGATCCCCCTGAAATACGCGATGCTCGGGCAGGAAACGACAGGAGCCGGCGGCATGATGAAGGCTCTGCGGACGATACCTGTGCTATTGGATATATGCAAGGACATGGAGGCATTATGTCCGGATGCCTGGCTGCTGAATTTCACCAATCCCGCCGGGATGGTAACGGAAGCCATCATGAAGCACTCCGACATCCGCACCATCGGTTTGTGCAACTCCCCTATCGCCGCTTACAAGTGGTTGTCCGGGCTTTACGAGGTGCCGGTCGAGCGAATCTACTGCGAGTTTGCCGGATTGAATCATCTGCACTGGATCAGCCGGATCGAGGTCGATGGCGTGTCGAAGCTGGAGGAGCTGCTGGCAACGGGAGGGAGCTACTCAGCTCGCAACGTGCCGCAGCTTGCCTGGAATGATACGCTGATTCGGGCGATGGGTGCGATTCCGTCCTATTATTTAAAATATTATTATCTCCACCGGGAGATGCTGGAGGAGCAGCAGGCTGCCGCGGCCAGAGGCGAGACAAGGGCCGAAACGGTCCAGCGTCTTGAGGACGAGCTGTTTGAGATTTACAAGCGGCCGGAACTTGCGGAAAAGCCGAAGCAGCTTGAGCAGCGCGGCGGCGCTTATTACTCCGAGGCGGCTGTCAACCTGATGAAGGCCATTCATACGGATAGTGGGGAGATTCAAACATTGAACGTGATGAACGGCGACGCGCTGGACTTCCTGCCGGCGGATGCCAGTATCGAAGTGAACTGCGTCGTGACGAAGAACGGCGCGGTGCCGGTACCTGTCGAGCGAGTGCCGGCTGCGGCGATCGGCCTGATCCAAGCCGTGAAGACCTACGAGAGCCTGGCCATCGAGGCAGCGGTCACGGGCAGCAGGGAGAAGGCGCTGCTAGCTCTTAGCGCGCATCCGCTTACCGATTCCGTCAGTGCCGCTGAAGCCATGCTGGATGAAATGCTGGAGAGGAACCGTTCGTTTTTGCCGAGATTTTTCCAAAAGGTCAAAGATTAG	MGTGLKVAVIGGGSSYTPELIEGFIRHYESFPVTDIVLVDIPEGRRKLEIVGGLAQRMIERSGLPIRITLTLDRQEALRNAHYVSTQMRVGLLEARGWDETIPLKYAMLGQETTGAGGMMKALRTIPVLLDICKDMEALCPDAWLLNFTNPAGMVTEAIMKHSDIRTIGLCNSPIAAYKWLSGLYEVPVERIYCEFAGLNHLHWISRIEVDGVSKLEELLATGGSYSARNVPQLAWNDTLIRAMGAIPSYYLKYYYLHREMLEEQQAAAARGETRAETVQRLEDELFEIYKRPELAEKPKQLEQRGGAYYSEAAVNLMKAIHTDSGEIQTLNVMNGDALDFLPADASIEVNCVVTKNGAVPVPVERVPAAAIGLIQAVKTYESLAIEAAVTGSREKALLALSAHPLTDSVSAAEAMLDEMLERNRSFLPRFFQKVKD	PGPT0019105_885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
AK002_04950	993	murK_1	COG2971	N-acetylmuramic acid/N-acetylglucosamine kinase	TTGAATTACTACTTGGGAGTCGACGGCGGAGGAAGCAAGACGCTGGCCGTCGTGGCGGACGGAACAGGACGAATCGCTGGAAAGGGAATGGGCGGCTGCGGCAACCATCAGCTTGGCGCAGCTCGTGCGGAAGCAAGCATCAGGCAGGCCGTTGAAGAGGCGCTTGGACAGGCGGGACTCGGGCGAGAGGACATCGCCTGCGCGTCGTTCGGGCTGGCGGGAGCCGACCGCGAGGCGGACTTCCGCATCTTGCGGCCCATGATCGGCGCCATGGGCTTCAAGAAACACCATATCGCCTGCGATACCGTCATTGCCATGAGAGCCGGCACAAGACAGAGGGACGGCGTCGTCCTTATATGCGGAAGCGGGACGAACGGTTATGGCGTCAACGCGGCAGGCGAGGAGGTTCAGATCGGAGGATTCGGTTATGCGTTCGGCGATTTCGGCGGAGGCGCCGACCTGGCCGTCGAGGTATTTCGGACGGTCGTTCGTTCCTGGGAAGGCCGTGAGAAGCCGACTTCATTGACGCCGCTAACGCTGGATGCGCTAAGGTTCGGCAGCGTGGAAGAGATGTTTCACCGATTTTTGGACGAGGGCAGAAGGGCGCCGCATACACTGGCGAAATTGCTGTTTCAAGCCGCACCCGCCGATGAAGCTGCAAGAGAGATATTGGAAAGGCAGGGCATGGAGCTGGGGAAAGTCGCCAGCGCGGTAATTCGTAAGCTCGGCATGGGCAATGACACCTTCGATGTCGTGCTGGCCGGCAGCGTACTGACCCGGGGAGAAAGGGATTACGTCGTTCCGTATATTGAGTCTCAGGTTCTTGCGGCAGCCCCGAATAGCCGGGTACGCATTTTGGCCCTTGAGCCCGCAGCGGGTGCCGTCCTGCTCGCAATGGATGAGAACGGCGTGGTTCCTGGCACGGCCGTGTATGAACAATTGCAGCATGAGCTTGCCGTGAAGGAGAGGAATGTAGAATGGGCACTGGATTGA	MNYYLGVDGGGSKTLAVVADGTGRIAGKGMGGCGNHQLGAARAEASIRQAVEEALGQAGLGREDIACASFGLAGADREADFRILRPMIGAMGFKKHHIACDTVIAMRAGTRQRDGVVLICGSGTNGYGVNAAGEEVQIGGFGYAFGDFGGGADLAVEVFRTVVRSWEGREKPTSLTPLTLDALRFGSVEEMFHRFLDEGRRAPHTLAKLLFQAAPADEAAREILERQGMELGKVASAVIRKLGMGNDTFDVVLAGSVLTRGERDYVVPYIESQVLAAAPNSRVRILALEPAAGAVLLAMDENGVVPGTAVYEQLQHELAVKERNVEWALD				NA	NA	NA	NA	NA
AK002_04951	1668			hypothetical protein	ATGAAAAAAAGGGGAAAAAGGCTTCTATCTGCATGGTCAGTCACGCTTGTCATCGTCATGGCTTTAACGGGATGTTCGGGTTCGGGAGGGAATGCCGCAAGCCCGGAGAAGGAAGGTCCAAGCTCGCAAAACAATGAGAAACCAGCCGGAGAGGATACCTTTGTGCTGGGAGAGAAGCCGCTGGAATTCTCGTTCTATGGCCACTATGACTGGTATACGATGCCGGATTGGGGCGCGGATCTTGCAACCAAGTGGATCCAGGAGAACAAGAAGGTCAACGTGGTTCCGGTCAGCTCCGGCGGCGTTGCCAAGAACAAGCTCAGTACGATGATCGTGTCCGGGGAGCTGCCGGATGTCATATGGATGGAACGGGGCGCGGAGGTCGAGAAGCTGCGTGCCGAGGGCATGCTGGTGCCGTTCGACGATTATCTGGATAAATACCCAAATCTGAAAAAATGGGCCGGGGAATCCACGCTCGATCTGCTTCGCTCGCCGGACGGAAAGCTGTATCAATTCCCGAACTGGTACACAACGCAGCCGAACGGCAATGCCGGCTATCTCGTCAATAAAAAGATATACGAGGAGCTTGGAGCGCCAAAACTGGAAACGCCGGATGATCTGTACGCCTATTTGAAGCAAGTGAAGGCGAAGTATCCGGATGTCGTTCCTCTGGAGGTGGGCCAATCGGCAGCGGGCGTGGACATCATGGTGTCCGCTTTTGCCGAGAACCGCCCGTATACGTTCAACAGTATGATCGCCGTACCCCAGGGGGATCAACTCGTATCGCTGTTCACGGATCCCGTTTATCGCGAGCTGCTTCAATACATGAGCCGATTGTACCGCGAGAAACTCATTACGCAGGATGCCTTCACGCAGAAGCTGGAGCAAGTCGAGCAGAAGATTCTGAGCGGCAACGTGGCGGTTTATGTAGCCTCCAGCCCGACCGAGTTCGGTTCCAAGGGCAACAATCTGCTGAAGGCGCAGGACCCTGATGCCGGTTACATCATGATATGGCCGGTACACAAGGAAGGATTGGATCGCGACAAGATTTTCCCGGGCGATTACAAGCAGCTAGGCTGGAATGTCAGCGTCATTACGCAAGCGGCGAAAGATCCGGAAGCTATCTTTGCATTCCTGGATTGGTTCACCGGTCCCGAGGGCCAGCGGACGATCATGTGGGGACCTGAAGGCTTGTACTGGGACGGTACGGACGAAGAGGACGTGCCGCTGTTCACCGATAAATTCACCAGCGATGCGAAGGGGCGCGATGAGTTGATGAACGCCACGGTGAACTTCCAGTGGAACGGCAACACGGTGTATGTCGACAATTCCAAGATGAAATTCGAATCCACGCTGCCGCCGGAGAAGCGGAACTTTGAAACGTATTGGCAATCGGAGATTACCTGGAAGACGCAGATGAACACGACGGAATACGTCAACCTCGATCCGGCAGGCGATTCCGAGGAAGGCATAATTGCGCAGCGCGTGTTCGAAATTTATGAGCAGGCCAGAGCCAAGGCGATCAGCTCGGCCTCCTCGGACCAGGAAGTGCTCTCGCTTCTGGATAAGGCAGAGGCAGATGCGCAAAAAGCGGGTTACGACAAGCTATTACAGTACAAAACAGCAAAATGGCAGGAGAATAAGCAGAAGCTGGAAGCATCGAAATAA	MKKRGKRLLSAWSVTLVIVMALTGCSGSGGNAASPEKEGPSSQNNEKPAGEDTFVLGEKPLEFSFYGHYDWYTMPDWGADLATKWIQENKKVNVVPVSSGGVAKNKLSTMIVSGELPDVIWMERGAEVEKLRAEGMLVPFDDYLDKYPNLKKWAGESTLDLLRSPDGKLYQFPNWYTTQPNGNAGYLVNKKIYEELGAPKLETPDDLYAYLKQVKAKYPDVVPLEVGQSAAGVDIMVSAFAENRPYTFNSMIAVPQGDQLVSLFTDPVYRELLQYMSRLYREKLITQDAFTQKLEQVEQKILSGNVAVYVASSPTEFGSKGNNLLKAQDPDAGYIMIWPVHKEGLDRDKIFPGDYKQLGWNVSVITQAAKDPEAIFAFLDWFTGPEGQRTIMWGPEGLYWDGTDEEDVPLFTDKFTSDAKGRDELMNATVNFQWNGNTVYVDNSKMKFESTLPPEKRNFETYWQSEITWKTQMNTTEYVNLDPAGDSEEGIIAQRVFEIYEQARAKAISSASSDQEVLSLLDKAEADAQKAGYDKLLQYKTAKWQENKQKLEASK	PGPT0017245_1045	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_04952	894	araQ_54	COG0395	L-arabinose transport system permease protein AraQ	ATGAGGCTGTCAAACGGGGATCGGGTATTCGTTGGGTTCATCTACGGCTCTTTGTCATTGCTGGCATTTATCGCGCTGTACCCATTCTGGAACGCTGCCGTCATCTCGTTTAACTCGGGGTCCGACACGATGCAGGGAGGCATTACGTTCTGGCCGCGCGAATTTACGCTGGAGAATTACCGCGTAGTGTTCAAGGACGAGCGCCTCATTGACGGGTTCGTCATCTCGGTGCTCCGTACGGTGACCGGTACTTTTCTCTCCATTGCAGCAACCGCGATATTCGCTTATGGCATATCCAAACGCGAGTTGATGGGCCGGAATTTTTATATGGTCACCTGCATCGTGACGATGTACTTCAGCGGCGGACTCATTCCGAATTATTTGCTGATTCGGGAGCTGGGCCTGATGAACTCGTTCTGGGTTATGGTCGTACCAGGCATCATCAGCGTGTGGAATATGATTATATTCCGGACGTTCTTTAAGGGCATCCCGCCCGGCCTTGAGGAGTCGGCCCATATCGACGGTTCCTCGAACTGGGGCGTATTCTTCCGAATCGTGCTTCCGCTATCGGGACCGGTCATTGCGACGCTGTCGTTGTTCACGGCCGTGTATCATTGGAATGATTGGTTTGCGCCAAGCATTTACATATCCAACACGGATTTGCTGCCGATCCAGACGAAGCTTCAGCAGATCCTCAATGCCAACATTATGATGGAACAGATGCAGAACATGGATGCCGGGGCGCAGGGCCGGATGAGCGCGATGAAGGCCGTAACGACCAAGTCCTTGTCCATGGCGACCATGATGGTGGCAACCGTCCCGATCCTGTGCGTATACCCGTTCGTTCAGAAGTATTTTGTGAAGGGCGTATTAATCGGTTCTTTGAAGGAGTAA	MRLSNGDRVFVGFIYGSLSLLAFIALYPFWNAAVISFNSGSDTMQGGITFWPREFTLENYRVVFKDERLIDGFVISVLRTVTGTFLSIAATAIFAYGISKRELMGRNFYMVTCIVTMYFSGGLIPNYLLIRELGLMNSFWVMVVPGIISVWNMIIFRTFFKGIPPGLEESAHIDGSSNWGVFFRIVLPLSGPVIATLSLFTAVYHWNDWFAPSIYISNTDLLPIQTKLQQILNANIMMEQMQNMDAGAQGRMSAMKAVTTKSLSMATMMVATVPILCVYPFVQKYFVKGVLIGSLKE	PGPT0017255_1400	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_04953	954	yteP_64	COG4209	putative multiple-sugar transport system permease YteP	ATGCCGCAAATCGGGATCGACAGCAGGGCGGGGACACATGTGAAGAAAGGGCGCTTGCGCCGCTTTCTGAAGCAATGGGATATACAGCTGATGGTACTTCCGGCTATGATGTTCATTCTGGTTTTCAGCTACATTCCCATGTACGGGGTACTCATGGCGTTCCAGGACTACAGCCTGTTCAAGGGCTTTCTGAACAGCCCGTGGGTCGGCTTCAAGCATTTTGAGATGTTTTTTGGGGCGCCGGAGTTCTGGACCATTATGCGGAACACCTTGGTCATCAGCCTGCTGAAGCTGTGCATCGGGTTTCCTGCACCGATCCTGCTCGCACTGATGCTCAATGAGGTTGGGAGGCATTCCTTCAAACGGATCGTCCAGACGATCAGTTATCTGCCTCACTTCTTATCGTGGGTCATCGTCTCGGGCTTTACGATCTCCATTCTGTCCACGGACAACGGCAGTCTGAACATTCTGCTGCAGAAGCTGAGCCTGATCGATGAACCGATCAATTTTCTATCGGAGCCAAAGTACTTCTGGAGCATCCTGACGGTAACGAATGTGTGGAAGGAGATCGGTTTTTCCTCCATTGTGTATTTGGCGGCCATTGCGGGCATTAATCCCCAACTGTATGAAGCGGCTTCTATTGACGGTGCGAGCCGTCTGAAGCAGATCATCTCCATCACTATTCCGTCTATTATGCCGATCATCGTTGTGTTCTCGATTTTGGCGATCGGCAACTTCCTGAATGCCGGTTTCGAGGACATTTTGCTGCTGGCTGGCAATCCGGTATTGCGGGATGTCAGCGACGTGCTGGACACGTACGTCTACCGGATTGGCATTCAGAACAGCCGATACTCCTACGCTACGGCGGCGGGTCTATTCAAGGCAATCATCAGCGTATTGTTGTTGGCCGGAGCCAACTACTGGGCCCGACGGTCGGGGAACAGCTTATGGTAG	MPQIGIDSRAGTHVKKGRLRRFLKQWDIQLMVLPAMMFILVFSYIPMYGVLMAFQDYSLFKGFLNSPWVGFKHFEMFFGAPEFWTIMRNTLVISLLKLCIGFPAPILLALMLNEVGRHSFKRIVQTISYLPHFLSWVIVSGFTISILSTDNGSLNILLQKLSLIDEPINFLSEPKYFWSILTVTNVWKEIGFSSIVYLAAIAGINPQLYEAASIDGASRLKQIISITIPSIMPIIVVFSILAIGNFLNAGFEDILLLAGNPVLRDVSDVLDTYVYRIGIQNSRYSYATAAGLFKAIISVLLLAGANYWARRSGNSLW	PGPT0017250_1432	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_04954	879	rhaS_14		HTH-type transcriptional activator RhaS	ATGCCATCGATCATGCGGGAAGAAGCGATACCGAAGGAAAAAGTAATATTAGCCAAGAAATATCCGATTTTTGTCGCCGATACGATTGGCGTGACCAGCCCCTATCAGAAACTTCATTGGCACAACGTGCTGGAGATAAATTACATTAAATCCGGTACGGGTTACTACATCATCAACGGGCAAAAATTTGAATTCCAGCAAGGGGATGTACTTCTCATCAACTCGAATGATCTTCACTGCGCTTACGAGACGAAGGATCTGGTCATGACGGTCATTTCATTTGATTCGACTTGGTTTATCCATAACCTCCGGTTCGATCCGGAGCTGTTCAGCCCGTTCCGCGAGATGGGCAAGCATTACATGAACCTGATCCCCCGCGACCATCCGGCCATGGGGAAGCTGCGTTCGCTGCTGTTTGAGCTGCAGGAGGAGCATGTGGGGGAACAGCGGTCTTACGCTACGGTAGTATACTCGCTTCTGCTCCAATTCCTGGCCATCGTAAACCGGCAGTGCCGGATCGAAGGGGAAGGCGGAAGCGAACCCAGCATCAGCGAACGGCAGCTGGAGAAAATGCGTCAAGTCATCATGGTGATGGAGCAAAATTTCGCCCACCCCTGGACGCTGGAGGAGTTGGCTTCCCTGGTCTATCTGAGTCCTTCCAGGTTCAGCGAAATATTCAAGCGTGCGGTCGGCATGCCGCCCCTCTTGTACCTGATCCACATTCGGCTGGAGCAGGCGGTCACAATGCTGGAAGGAGGCCATATGAAAGTGATGGACGTCGCCCTGGAATGCGGCTTCCGCACGCTGACCAATTTTAATCGTCTGTTCAAAAAGCACATCGGCATGACGCCGAAGGCTTCACAAAAGCAACATTCCTGA	MPSIMREEAIPKEKVILAKKYPIFVADTIGVTSPYQKLHWHNVLEINYIKSGTGYYIINGQKFEFQQGDVLLINSNDLHCAYETKDLVMTVISFDSTWFIHNLRFDPELFSPFREMGKHYMNLIPRDHPAMGKLRSLLFELQEEHVGEQRSYATVVYSLLLQFLAIVNRQCRIEGEGGSEPSISERQLEKMRQVIMVMEQNFAHPWTLEELASLVYLSPSRFSEIFKRAVGMPPLLYLIHIRLEQAVTMLEGGHMKVMDVALECGFRTLTNFNRLFKKHIGMTPKASQKQHS				NA	NA	NA	NA	NA
AK002_04955	771	bglS	COG2273	Beta-glucanase	ATGAAAAAGCTAAGTATGTTCAGAAAGAGAATGACGACAATGCTTATGGCTGGCAGCTTGTTATGCGGATTGTTGGTACCGATTCAAGCGTCGGCTGCCGACGTTGCATTTAATGAGCCGCTGAATAGCAAGAACCCTAATCTGTTTTATACTTCCGACGGATGGGCGAATGGTCCGGATTTCGGGGTGGGCTGGAAGGCGGCAAACCAGGAGTTCTCTAACGGGATTATGGCTTTACGGCTTGATAATGCGGGATGTCCTGCGAGCTGCTCGGGCAAATCCTATGCTTCCGGTGAATACGCGACACATCTGAAGTACGGCTACGGCCGGGTTGAAGCGCGGATCAAGGCGGCTAAGGGAACGGGCTTGGTGACGAGCCTCTTTACGTATTCCGGTCAAGCCACAGGCACGTCCAATGACGAAATCGATATTGAAATCCTGGGGAAGGACACCACAAAGATGGAAACGAATTATTTTACGAATGGCGTAGGCCAGCATAGCACCATCATCAACTTAGGGTTTGACGCGTCGCTCGATTTCCATAATTATGCGTTCGAATGGTCACCATCATCCATCAAATGGTACGTAGACGGTCAACTGGTTCATACGGAGAATGGCTCCCGCGGGGCGCTTCCGACAAGTCCGGGCCATATCATGGTTAATCTGTGGTCAGGATCGGGACCGGCTGAGATATGGACCGGAACATTCAATTACACGGGTACGCCGGTACGCGCGTATTATGACTGGATCAAATTCACGCCGACCAACTAG	MKKLSMFRKRMTTMLMAGSLLCGLLVPIQASAADVAFNEPLNSKNPNLFYTSDGWANGPDFGVGWKAANQEFSNGIMALRLDNAGCPASCSGKSYASGEYATHLKYGYGRVEARIKAAKGTGLVTSLFTYSGQATGTSNDEIDIEILGKDTTKMETNYFTNGVGQHSTIINLGFDASLDFHNYAFEWSPSSIKWYVDGQLVHTENGSRGALPTSPGHIMVNLWSGSGPAEIWTGTFNYTGTPVRAYYDWIKFTPTN	PGPT0019425_27	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_LICHENAN_DEGRADATION,PGPT0019425-EC_3_2_1_73-K01216	NA	NA
AK002_04956	858	rhaS_15		HTH-type transcriptional activator RhaS	GTGAAGGAGATGGTCTTCGAGCATGCGAATATGAAGTACTGCATACCTTCGGACATGGAAAGAAAAGGCGGGATCTGGATTCTCCGTGCAGGCCGGAGTTTGGCCAGGCCCAACTACAGCGTCGGCCCCAAAATATCCGAGAACTATGCGCTGCATTTTGTCCTGAACGGGAAAATCTCGCTGGCATTCGGGGATAAGGTGGTTACGTTGTCGGCAGGGGATGCCTTTTGCCTGTTTCCACATACGAGGTACAGTTATTGGGAACCGAACGGCGATCCCGAACCGACGCTGCGCATGCAGTGGATCGTCTTGGACGGAGAAGCAGCGGAGAGCGCATTGACCCGAATCGGGCTGCACCCATCCACGCCCTTTCTGCCTAACGTGATGAAGGGCGGGCTGCAGGCGGTGCTGGATCAAATTTACGGGTGCGTGGATGACGATACCATCGGTCACGAGTTTGGACGGCAGAAATGGTTGTATCAGCTGTTTGAACTTTTGGCTGCCACCCCGGCCAAAAGAGGAACTAAACCGAATTGGCTCGAACAAAGCGTGCATTACATGGATTCCCACTACATGGAAGGGATCACGGTGACGGATGTGGTCCATCAAGCCGGCGTGCACCGGACGCATCTGTACTGCGAATTCATTCGGGTGCATGGCATCAGTCCGAGCCATTATTTGATGAAGCTGCGGATGGAGCGGGCAGCGGTTCTGCTGACCGAAACCGACGTGTCCGTGACGGAGGTGGCGTTCTCGCTGGGGTATTCCAACCTCCACACGTTTTCGAGAGCATTCGCTAAGTATTACCGCATATCGCCTACCTCGTATCGGCTGCGGCATGCGCCGGTACCTCTATAG	MKEMVFEHANMKYCIPSDMERKGGIWILRAGRSLARPNYSVGPKISENYALHFVLNGKISLAFGDKVVTLSAGDAFCLFPHTRYSYWEPNGDPEPTLRMQWIVLDGEAAESALTRIGLHPSTPFLPNVMKGGLQAVLDQIYGCVDDDTIGHEFGRQKWLYQLFELLAATPAKRGTKPNWLEQSVHYMDSHYMEGITVTDVVHQAGVHRTHLYCEFIRVHGISPSHYLMKLRMERAAVLLTETDVSVTEVAFSLGYSNLHTFSRAFAKYYRISPTSYRLRHAPVPL				NA	NA	NA	NA	NA
AK002_04957	897	ptlH		1-deoxypentalenic acid 11-beta-hydroxylase	ATGAAGGTGACCATCGGACAAAGGGAATTAGAGTGGGGAGGTAAATACCTCACGGAATTAAGAGACTGCAATGACATGCTGGAGGATACGGTAGCGCTGCGAAACCGGCTGCAGGAGGATGGATATCTCCTGATTCGCGGTTTCCATAAGCGGGAACAGGTCTTGAACGCAAGAATGGAGTTCTTGACCAAACTCGGGGCCATGGGCAAGCTGGATCCCCATGCCCTTGTCGAAGACGGGATCATCGGACCCGAGAATAAGGGCGGAATGTGGGGCGGCAGTACCGAGCAATTGCAGCCGGATTTCCCCCAGTTTTTGGACGTTGTCAATTCGCCGGCGGTGCTGGACTTCTTTGGACGATTGCTGGGCGGAGCCGCGATGACATACGACTACAAGTGGCCGCGCGCCGTCGCTCGCGGAGGCAATACCGGGGCTCATTACGATGTTGTGTATATGGGTAGAGGCACGAAGGATCTGTACACCATGTGGACGCCGTTTGGGGATATCCCTCTTGAAATGGGAACGTTGGCGATGTGTCTCGGGTCACAGCATTTTACGAAAATCAAGCAGACCTACGGGGAAATGGACGTTGATCGTGACAATGTTGCCACGGGCTGGTTCTCTGAGGATCCCGTCGAGATTGTGGACCGTTACGGCGGGCAATGGGCAACGACCGCTTTTGAAGCCGGCGACGCCATTATATTCGGAATGTACATGATGCACACCTCGCTGAACAATAACACCAGCCATTACCGAATCAGCGCGGATACCCGTTATCAGCTTGCATCCGAACCGGTGGATGAGCGATGGATCGGCCGCAAACCCAAGGGTCATTATGCTTGGGGACGAACGCCGCAGAAGTCGGTAGCTGAAGCCCGAAAGGAATGGGGAGTATAA	MKVTIGQRELEWGGKYLTELRDCNDMLEDTVALRNRLQEDGYLLIRGFHKREQVLNARMEFLTKLGAMGKLDPHALVEDGIIGPENKGGMWGGSTEQLQPDFPQFLDVVNSPAVLDFFGRLLGGAAMTYDYKWPRAVARGGNTGAHYDVVYMGRGTKDLYTMWTPFGDIPLEMGTLAMCLGSQHFTKIKQTYGEMDVDRDNVATGWFSEDPVEIVDRYGGQWATTAFEAGDAIIFGMYMMHTSLNNNTSHYRISADTRYQLASEPVDERWIGRKPKGHYAWGRTPQKSVAEARKEWGV				NA	NA	NA	NA	NA
AK002_04958	780	rhaR_64		HTH-type transcriptional activator RhaR	ATGGAATGTAAAAGTTTTATTGGCGCGCATGATGAACATTGGGAAGATGACGGCTTAAGAAGCCACCAGGAACTGGAGATTACGTTGATCATGGAAGGAAGCGGCCGCTTTTGCGCGCACGGCAGGGAAGCGAGAGTGGAATCCGGTAACGTGGTTCTCATTCCGTCCGAGGTTCCCCATTCGTTCCACGCGCTGTCCCCTATACGCTTCGGCGTGCTTTTGGCGGACCGCATTCCGTCTGAGGTGAAAGAGCTGTTCGACAGGCTTATTCCGGATGGCAGCACTCGTATCATCGCCCTGTCCCGTCTGGATCGGGACCGTTATGAACGCTTGTTCCGCGAATGGCTGAGAATCCGTTCTGCCCCGTTGAAAGATCCGATACGGAATTATGCGGTCTGGGTGGAGCTGCTTTTATTGTTTCTTAACGAACACGCCCATTCCGATCATCAGGCGCTGTCCATCTCGTTCATCGGCGACTACATCCGTCAGCATATCCGGGATCCAATGCATGTCTCTACCCTGGCGGAAATGGCAGGACTGTCCGAGGATGGCTTCCGCAAGCAATTCGCCAAAATATACGGCATGACCCCGAAGCAGTACCAGCAGCAATGCCGGCTTGCGGAAGCGAAGTGGCTCTTAAGCTCCTCCGATAAAGACCTCCAGTCGCTTGCCGAATCGGTCGGCTTCTCCCAGCTTCACTCGTTCTCGCTCTGGTTCAAAAAAATGGAGGGCTGCCCCCCATCGGAGTGGAGAAACCGGCAGCGCCTATATCATCACTAA	MECKSFIGAHDEHWEDDGLRSHQELEITLIMEGSGRFCAHGREARVESGNVVLIPSEVPHSFHALSPIRFGVLLADRIPSEVKELFDRLIPDGSTRIIALSRLDRDRYERLFREWLRIRSAPLKDPIRNYAVWVELLLLFLNEHAHSDHQALSISFIGDYIRQHIRDPMHVSTLAEMAGLSEDGFRKQFAKIYGMTPKQYQQQCRLAEAKWLLSSSDKDLQSLAESVGFSQLHSFSLWFKKMEGCPPSEWRNRQRLYHH				NA	NA	NA	NA	NA
AK002_04959	843	sseB_2	COG2897	Putative thiosulfate sulfurtransferase SseB	ATGTCAAATATCGTAAGCAAGGAATGGGTGCTGGAACAGCTGCAGTCGAATCCGGGTCAGCTTGTCGTTGCGGACGTCCGATTCAGCCCGGGCGATGCGAATTACGGCTACGAGGCTTATCAGCGCGAGCATGTGCCCGGTGCCGTATTCGTTGATTTGAAAAAGGATTTGACGGATCCACAAGGCGAGCACGGCGGCCGGAATCCCTTGCCGCATACGCAGGAGCTGGCCCGGCGGCTCGGCAAGCTCGGGATCGATGCGAGTACGCCCGTCGTTGTCTATGACGATGACCTTCGCCCGGAAGGTGCGCGGTTATGGTGGATTTTGAAATACCTGGGCCACGGTTCGGCATATATATTGGATGGAGGATTCGCCGGCTGGAAGTCGGCCGGATATCCGCTCACCTCGAAGAGAAGAGAGGCGGCTCCGCGCGTATTCCAGCCGAACGTGCGGGAGGAATGGCTGGCTGATGTGAATGAGGTGAGGGCAAAGATCGGCAAAGCCGGCGTGACCCTGCTCGATTCAAGGGATTGGAAGCAGTTCACGGGAGAAACGGCACCACAGGATCCCGTGGCCGGACATATTCCGGGAGCGGCGCATGCCTATTGGAAGGACGGGATCGATGAAGACGGGACGCTAAAGGGAGCCGAGCGGCAGCGGGAGCGTTTTGCCGGGTTGTCCTTCGATGATGAAGTGATTGTATATTGCGGATCAGGGTTGTCGGCTTGCCCGAACGTGCTGGCTTTGCGGGAAGCCGGGTACCGCAAGGTGAAGCTGTACGCAGGCAGCTGGAGCGATTGGATCAGCTACAAGGACCATGAGATTGCTGCAGGTGAAGTTTGA	MSNIVSKEWVLEQLQSNPGQLVVADVRFSPGDANYGYEAYQREHVPGAVFVDLKKDLTDPQGEHGGRNPLPHTQELARRLGKLGIDASTPVVVYDDDLRPEGARLWWILKYLGHGSAYILDGGFAGWKSAGYPLTSKRREAAPRVFQPNVREEWLADVNEVRAKIGKAGVTLLDSRDWKQFTGETAPQDPVAGHIPGAAHAYWKDGIDEDGTLKGAERQRERFAGLSFDDEVIVYCGSGLSACPNVLALREAGYRKVKLYAGSWSDWISYKDHEIAAGEV	PGPT0002045_4093	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
AK002_04960	774	nrtD	COG1116	Nitrate import ATP-binding protein NrtD	ATGTCCGGCTTTACGGTTGAAAATGTCTCGAAGGTTTATGGCGGCGATCTTCCAACGATCTCGCTTCAAAATATAAACCTGCAGGTGCGGGACGGCGAATTCCTGTGCGTCCTCGGGCCGAGCGGCTGCGGAAAAAGCACGCTGCTGGAGCTGCTGGCGGGATTGCAGCTTCCGACGGAGGGCGACATTTGGCTGGATGGCGAGAAGGTTCAGGGGCCCACGCGGAGCTCTGGGGTCGTATTCCAGGATGCATCCCTGTACCCGTGGCGCACCATTTCGCAGAACGTCGGCCTTGGGCTGGAGCTCGCCGGCATGAAAAAAGCGGAGCGGCAAACGCTCGTGGACAAATATCTGAGCATGGTCGGCTTGGAGGGGTTCGGCTCGAAATATCCACATCATTTATCGGGAGGCATGCGGCAGCGAGCAGGGATCGCAAGGGCGCTCGTAAGCAGTCCCAACATCCTCCTGATGGACGAGCCGTTCGGCGCGGTGGACCATCTTACCCGGCTTCAGCTTCAGCAGGATCTGCTCCGCATATGGCAGGAGGAGAAGAAGACGGTGGTGTTTGTGACCCATGACGTATCCGAAGCCGTCTTTCTCGCAGACCGGGTCGTCCTGCTGTCCCCGCGCCCCGGACGCATTCACCATATTTTCGACGTTCCCCATGAGCGTCCGCGCAAGCGGGAGGATGCCAGCCTACTGAAGATTCAGAACGACATCTACGCTGCGATTTATGACGTCAAGACGGAAGCGGATTTGGAATTTACGATTTAA	MSGFTVENVSKVYGGDLPTISLQNINLQVRDGEFLCVLGPSGCGKSTLLELLAGLQLPTEGDIWLDGEKVQGPTRSSGVVFQDASLYPWRTISQNVGLGLELAGMKKAERQTLVDKYLSMVGLEGFGSKYPHHLSGGMRQRAGIARALVSSPNILLMDEPFGAVDHLTRLQLQQDLLRIWQEEKKTVVFVTHDVSEAVFLADRVVLLSPRPGRIHHIFDVPHERPRKREDASLLKIQNDIYAAIYDVKTEADLEFTI	PGPT0001140_6454	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK002_04961	1017	ssuA_3	COG0715	Putative aliphatic sulfonates-binding protein	ATGAACAGAAGAGGAATACGTCCATACCTAATAGCACTTGCGGCGCTATGGCTGATCGCCATGACGGCCGGCTGCGCAAGCGGTCAAGATAACGGCAAGGAAGCGGCACCGTCCGCCGGGGACGGAGAGAGCGCGGCAGGCGCCAAGCTGGAGAAGATCCGGTATGCGCCGCTTAGCGGGGTCAGCGGGCTGGCGGTGTCCTTCGGGGCGGAGAAGGGATTCTTTGAGGAGGAAGGACTCGACGTCGAATTTATCACCACCAAGGACCCGATAGCCGGTCTGACCAGCAAGGACATTGACGTGGTCGACGTGGCTACGACGACGGCGATCGTGGCTGCGGGCAAGGGCGCTCCCGTCAAAATCGTCTCCTCCATGTTCCGGACCAAGGGGCCGTTCTACCTGATCGCCTCGCCGGAGATCCAGAAGGTGGAAGACCTGAAGGGCAAGAAGGTGGGCATCGCCGTGTTCGGCAGCGGCCTCGAGGTATATACGCAGGTCATCCTGAAGGAGCACGGATTGAGTCCGGACGATGTGACTTTCATTGCCAACAGCACGCATCAGGCGGCTTACGCGAGTCTGGAAACCGGACAGGTCGACGCCACCATCATTCATGAGCCGTTCGCTTCTCTTGCGGAAAAGCAGGGAAAAGGCCATATCATCGCTACAGGCTGGGATTACCTGCCGACCTTCCACACCGGGGTGCTGGCGGCGCGCGACGGTATTCTGGAAGAGAAGCCGGAATTGGTCGAGAAGCTGCTGCGAGCTTACTTCAAATCGCAGGAGTATGCGAAGAGTCATCCGGACGAGTTTAAGACTTACTATCTGAACAACATCGAGATCGATCCCGAGGTGCTGGATCTGGCGCTGAAGCGCGAAGAGGTGCTGTGGGAGAACAATCCGGACGTGGACGTCAACGCGTTGAATGATACCCAGCAGATTCAGAAGGAGCTGGGGTTCCAGGATGAGATCTACAAGGTGGAGGACATTCTGGACCTCAGGTTTATTCCGAAAAAATAA	MNRRGIRPYLIALAALWLIAMTAGCASGQDNGKEAAPSAGDGESAAGAKLEKIRYAPLSGVSGLAVSFGAEKGFFEEEGLDVEFITTKDPIAGLTSKDIDVVDVATTTAIVAAGKGAPVKIVSSMFRTKGPFYLIASPEIQKVEDLKGKKVGIAVFGSGLEVYTQVILKEHGLSPDDVTFIANSTHQAAYASLETGQVDATIIHEPFASLAEKQGKGHIIATGWDYLPTFHTGVLAARDGILEEKPELVEKLLRAYFKSQEYAKSHPDEFKTYYLNNIEIDPEVLDLALKREEVLWENNPDVDVNALNDTQQIQKELGFQDEIYKVEDILDLRFIPKK	PGPT0001135_4464	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK002_04962	777	ribX_3		Riboflavin transport system permease protein RibX	ATGGGAACGAGTAATGCCAAGAAATCCCCAGGCATCTGGGCGGGGCAGGGGGCATTGCTGCTGGTCATACTGGGGATCTGCGAGATTCTGGTTCGCACGGAGGCCGTCAGCAGCTTGTATCTGCCTGCGCCTTCCCAAGTATTTCGCGAACTATTCAAGCTGTTCGGTGACGGGGAGATCTGGAAGCACCTGTACGTCACATTGGCCGAGTTCGTTGCGGGCTATGGCATTGCGGCCATTGGCGGGCTCGCCGTCGGCATGGCTATGGTGCTGATCCCATGGGCGGAGCGATTCTTCCGGCCGTACCTTTCGGCGCTGATGGCGATTCCGAAGGTGACGATCGTTCCGCTGCTGGCGCTCTGGCTCGGGATCGGGATCACGCATAAAATATCGATTGTGTTCCTGTTCTGTTTCTTTACGATCACGGTCAACACGATGACCGGAATCAAACAGACGGCGGACAACCATCTGAAGGTCGCCAAAGTATTCGAGGCGACGCGGTATCAGACCATCATGAAGGTGATATTGCCATCGGCTGCGCCCACCATTTTTGCCGCTCTCCGAATTTCGGCCGCTACCGGACTGGTCGGGGCGCTGTTCGGGGAGATGCTGGCGTCGAAGGATGGCCTTGGCAATATTCTCGTGAAGGCGACATCGCTGTACAATACCGCGCAGGCTTTTGCCATTGTAGCGCTGGTTACCGTCGTATCCGTACTTATCATTTCATTAATCGATTTGTTGGAACGCAGCGTTTTTTTGAAATGGAAATCATCATAG	MGTSNAKKSPGIWAGQGALLLVILGICEILVRTEAVSSLYLPAPSQVFRELFKLFGDGEIWKHLYVTLAEFVAGYGIAAIGGLAVGMAMVLIPWAERFFRPYLSALMAIPKVTIVPLLALWLGIGITHKISIVFLFCFFTITVNTMTGIKQTADNHLKVAKVFEATRYQTIMKVILPSAAPTIFAALRISAATGLVGALFGEMLASKDGLGNILVKATSLYNTAQAFAIVALVTVVSVLIISLIDLLERSVFLKWKSS	PGPT0001145_6763	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK002_04963	1347	ntaA_2		Nitrilotriacetate monooxygenase component A	ATGAGTATGAGTTCAAAACGTCGTCAATTGCATCTTGGATTGTTCTTATTCGGGACGGGCTATCATCCCGCGGGCTGGAGGCTGCCCGAAGGCAAAACGGACGGGGCTTACGATCCCCAGTTCCTGAAGGAGGTCGCCCAGAAGCTTGAAAAGGCCAAGTTCGATTTCTTTTTCCTGGGGGACCGATTGGCCACGAGCGCGGATATGCAGCATTTATTCCCTTCCCAAATGACGCGGCTGGAGCCGTTCACCATGCTGTCCTATCTGGCAGCGGCAACGGATAAAATCGGTTTGATCGGCACGGTGAACACCACCTATGCCGAGCCTTACAACATCGCACGCTTCACGGCATCGCTGGATCATCTCAGCCGGGGCCGGGCCTCATGGAATGTCGTGACAGGCTCCGATACGCGGGCTGCGCTGAATTTCAGCCGGGAGAAGCATTGGGATAACGCCAAACGGTACGACTATGCCGAGGAATTCATCGAAATCGTCAGCGGGCTGTGGGACACTTGGGAGGATGACTCCCTTCCGCGGGACAAAGCAAGCGGCGTGTTCGCCGACGGCAGCAAGGTGCATGCCCTGGACCATGTCGGCGAGCACTTCTCCGTCGCCGGGCCGCTGAACATTCTGCGACCGATACAGGGACAGCTTCCGCTGATCACGGCAGGAACCTCCCTGCGCAGCCAAATGCTGGCGGCCCAATATTCCGACATGGTCTTCACCGGAACGAACGTCAAAGAAGTCGCCGTGAAATTTTACCAGGAAGTGAAAGGACGCCTGCCGGAGCATGGAAGGGAAGCTACGGATTTGAAGGTCCTCCCCGGGCTGGTTCCGATCGTGGGCCGGACGGAGGAAGAAGCACGGGCCAAATATGCGGAGCTGAACGAACTGGTGGTGACCGATTTCGATCTGGGACCCCTTTCGGATAAGATCGGAATCGACCTGAGGGGATATTCGCTGGAGGATCCGCTGCCTGACCTATCCGCTTCGGAAGCCGCGCTGCACTGGGCCGACTTGGCCAGAGGGGCGAACGGACGCGAGGATATAACGATCAGGGACCTGTTCTATTTCTTCACCGTCACGGTCCGCGGGCATCTGCTCGTGGTCGGCAGCGCGCAGCAGGTAGCGGATATCATCGAAGAGTGGTTCCGGGATGAAGCGGCCGACGGATTCAATGTCTGCCCTCCCTATATGCCTGGCGGTCTGGATCTGTTCCTGGAGCTGGTTGTGCCGGAGCTTCAGCGCAGAGGCTTGTTCCGCACCGAGTATGAAGGCAGCACCTTCCGCGAGCATTTGGGACTGAGCCGCCCATGGAACCGTTATGACCTGATTGCGAAGGGGTGA	MSMSSKRRQLHLGLFLFGTGYHPAGWRLPEGKTDGAYDPQFLKEVAQKLEKAKFDFFFLGDRLATSADMQHLFPSQMTRLEPFTMLSYLAAATDKIGLIGTVNTTYAEPYNIARFTASLDHLSRGRASWNVVTGSDTRAALNFSREKHWDNAKRYDYAEEFIEIVSGLWDTWEDDSLPRDKASGVFADGSKVHALDHVGEHFSVAGPLNILRPIQGQLPLITAGTSLRSQMLAAQYSDMVFTGTNVKEVAVKFYQEVKGRLPEHGREATDLKVLPGLVPIVGRTEEEARAKYAELNELVVTDFDLGPLSDKIGIDLRGYSLEDPLPDLSASEAALHWADLARGANGREDITIRDLFYFFTVTVRGHLLVVGSAQQVADIIEEWFRDEAADGFNVCPPYMPGGLDLFLELVVPELQRRGLFRTEYEGSTFREHLGLSRPWNRYDLIAKG	PGPT0003040_16	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
AK002_04964	981	yajO_4	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGCAGTATAGAACACTGGGCAGAACCGGGGTTCAAGTGTCGGAGGTAAGTCTCGGGACGATGTCTTTCGGGCGCTGGATCGATGAGAGGGCTTCGGCCGCCGTATTGGATCAAGCGCTTGGTTCCGGCATCAATCTGATCGATACGGCTGACGTGTACGGCACGGGCATGGATAACGGAAACGTCAATCAGCTCGGGGAATCGGAAGAAATTCTGGGCAGGCTGCTGAAGGAGCGAAGACAGGACATTCTCCTGGCAACCAAGCTGCATAATCGCATCGGACCCGGCATCAATGACCAGGGCCAAAGCCGCTATCATATCTACCGTGCGCTGGAGAACAGTCTTGCCCGGCTCCAAACGGATTATATCGATCTCTATCAGGTGCATCGGTTTGATGAGTTAACCCCGCTGGACGAGACGCTTGAGGCGCTTACGGATCTTGTACGGCAGGGGAAAGTGCGGTACATCGGCTGCTCGAACTACGCGGCTTGGCAGCTCGCCAAGGCCCACGGCATCAGTGCGCTGCATGGCCTTCGCCGGTTCGAGAGCGTACAGCCGGAATACAGCCTTATTACTAGAGAGATTGAAAGCGAGCTGATTCCCTTTGCCCAGTCCGAGCAGGTCGGGGTTATCGTGTACAGTCCGCTCGGACGGGGCATATTGTCCGGCAAATATCGGGCGGGCGAAGCACCCCCAACGGACTCGCGCCTAGCTGCAGGCGAGCAGCGGTTACGATTGCTGCTGAACCAGCGGCATGCGCTTTCCATCGTGGAAGGGATCCGGCCGCTGGCCGAGCAGCGGGGATGGACGCTTCCGCAGTTCGCCCTGAATTGGGTGCTCAGCCGCCCTGGCATCACGTCAGCCATTGTCGGGGCATCGAAGCCTGAACACATCGCGGATACGCTGAAGCATTCGGATGAACGGCTGACAGAGGAAGAACTGCAGGAGATCGACCGCTTGACGGAGGAATTCCATGGATAA	MQYRTLGRTGVQVSEVSLGTMSFGRWIDERASAAVLDQALGSGINLIDTADVYGTGMDNGNVNQLGESEEILGRLLKERRQDILLATKLHNRIGPGINDQGQSRYHIYRALENSLARLQTDYIDLYQVHRFDELTPLDETLEALTDLVRQGKVRYIGCSNYAAWQLAKAHGISALHGLRRFESVQPEYSLITREIESELIPFAQSEQVGVIVYSPLGRGILSGKYRAGEAPPTDSRLAAGEQRLRLLLNQRHALSIVEGIRPLAEQRGWTLPQFALNWVLSRPGITSAIVGASKPEHIADTLKHSDERLTEEELQEIDRLTEEFHG	PGPT0017540_1377	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
AK002_04965	1323	ntaA_3		Nitrilotriacetate monooxygenase component A	ATGGGTTCAGATCAACGCCAATTCATCCTGGGCGCTTTTCTGATGAATTACGGCCATCATATCGCTGCATGGCGGCATGCCGATTCGGCAGGGGTCGGGGCGATGGACTACGATTTCTATAAACGCTGCGCCCAAGCAGCCGAACGCGGGAAATTCGATATGGTATTCCTTGCGGACAACAACTCGATCCCGTTGATCGAGGATTTACGGACGAATGTCAGCTTTCTGCAGCCCGAAGCGCTCACCATGCTGAGCGGCCTCGCCGGGGTGACGGAACGTATTGGATTAGCCGGAACGGCCTCTACAACCTTCAACGAGCCGTACGGATTGGCCAGGCGTCTGTCCACGCTGGACCATATCAGCGGCGGCAGGGCCGCCTGGAATGTGGTGACCTCCACGAAGGATGCGGAGGCACGCAATTTTGGATCGGCGGAATTAATGGAACACGACAAACGGTATGAAAGGGCGGAGGAATTTCTACGAGTCGTGACCGGATTATGGGACGGCTGGGAGGACGATGCCCTTGTATTGGATCGGCAAAGGGCGGTCTTTGCCGATACGGCACGGATTCATCGGGCGCATCATGAAGGCGAGTACTTCAGGGTGGAAGGGCCCTTGAACATGCCCAGATCTCCGCAGGGGAGGCCTGTCATCATTGAAGCGGGAACCTCGGCTGCCGGAAGAAGGCTGGCGGCTCGAACGGCTGATGTCGTGTTCACGGCCTGTGAGAGTAAGGAGGATGCGATCAAGTATTACCGCGAGTTTAAGGACTTGCTCATGGAGTATGGACGGGAGAGGGAAGAGGTAAAGGTTCTGCCGGGGCTTCAGATATTCCTTGGGGACAGCGAAGCCGAAGCTGTGGCATATCACCGGACATTCAGCGAGCTCATTCTGCCGGAGGCAGGGGTGAAGTATGTGTCCCAGCTGCTGAATGCGGATTTGACCGGATATCCGGTAGACGGCCCGCTGCCCGATTTGCCGCGGGAAGGAAACAGCAGCCGGGCGATCATGATTATGGATATGGCTGCGAAGTCAGGGATGAGCATTCTGGAGCTCGGCCGGCATTACGCGGTGGCGAGGGGACATATGACGATGGTTGGCACTGCGCGGCAAGTTGCCGATATGATGGAGGATTGGTTCCGCAGCATGGCATGCGATGGATTCAACATTATGGCCCCTCTCCTCCCGAGCGGGCTCGAACAGTTTGTGGAGCGCGTAGTCCCGCTGCTTCAGCAGCGGGGGCTGTTTCGCGAGGAATATGCGGGCAGGACGTTACGGGATCACCTCGGGCTGACCCGGCCGCAAACCCAACATGAAAAATAA	MGSDQRQFILGAFLMNYGHHIAAWRHADSAGVGAMDYDFYKRCAQAAERGKFDMVFLADNNSIPLIEDLRTNVSFLQPEALTMLSGLAGVTERIGLAGTASTTFNEPYGLARRLSTLDHISGGRAAWNVVTSTKDAEARNFGSAELMEHDKRYERAEEFLRVVTGLWDGWEDDALVLDRQRAVFADTARIHRAHHEGEYFRVEGPLNMPRSPQGRPVIIEAGTSAAGRRLAARTADVVFTACESKEDAIKYYREFKDLLMEYGREREEVKVLPGLQIFLGDSEAEAVAYHRTFSELILPEAGVKYVSQLLNADLTGYPVDGPLPDLPREGNSSRAIMIMDMAAKSGMSILELGRHYAVARGHMTMVGTARQVADMMEDWFRSMACDGFNIMAPLLPSGLEQFVERVVPLLQQRGLFREEYAGRTLRDHLGLTRPQTQHEK	PGPT0003040_16	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_DEGRADATION,PGPT0003040-ssuD-K04091	NA	NA
AK002_04966	573			hypothetical protein	ATGAGCAGAAAGAATTGGCTGATCGTTGTCCTGCTGCTGATCGGCATCGGGGGCATGGCGGCCCTGGAGGGATACATCAAGCCCAAGGCAAATGAACAAGCGGTTCAATATGAAGCGGAGCAAAATGATCCGTTGACGCACGATATACGGAATTCGCTGAACTTCGCCAGCCCATACATGGGCAATGCCGGTAACCTGATCAATTTGAACGCATCGCTTCCCATGCGTGACATTGAGCGGACGTTTCAGCTGTATCCGGAAGAATTGACAGCCGAGCTTCGGTTCAGGTCCAGGATCGGTGATCTGAAAGAGGACATGCTGAAGCAGACGCTGGTCTATAATTCCACTGCGAATTTTGCCATGATTGATAATTTGGATACACTGATTTTCAAGTTTGAAGACCGGTCTTTCACCATCCGTCGGGATGAGGTGGAGGCATGGTATGGCATCGGGACGGGTCTTGCGTCTTTGCGGGAAGCCGTGACATGGGAGAAGGAAGTACAAGCCCGTCTTCACGATAACAAGTATGTCAGTGAATACGTAGATAACCTCATCGAGATCAAGAATCTATAG	MSRKNWLIVVLLLIGIGGMAALEGYIKPKANEQAVQYEAEQNDPLTHDIRNSLNFASPYMGNAGNLINLNASLPMRDIERTFQLYPEELTAELRFRSRIGDLKEDMLKQTLVYNSTANFAMIDNLDTLIFKFEDRSFTIRRDEVEAWYGIGTGLASLREAVTWEKEVQARLHDNKYVSEYVDNLIEIKNL				NA	NA	NA	NA	NA
AK002_04967	681			hypothetical protein	ATGACCAACAGGCATGATCTGGAGATTTTTGTGGATCGCCTATTCGCGAATCAACGCAAAACCAAGGAAGTTGTGGATCTGAAGAATGAGGTTCTCAGCAATTTGGAGGCGCGGGTCACGGATTATATGGAGAACGGCATAGCATATCAGTCGGCGATCAGTCTGGCGATCGAAAATATGGAAGACATCGAAGCTCTGATTGACGATAACCAGAAAATCTACAGCTACCGTTTCCGTCATGACCTCCTTCAGAGCACCCTTATTTATTCCTTGCTGGCCTGGATCGCTACCATTCCGGCCCGGTTTTTGCCAAACGGGATGTGGGTGAACACGCTCCTCCTCTGTTTGGCTGCATTAACCGGTGCGGCGTATCTTTCCATGTCACGGCATCTGAAACGATACGAAAAGCAGACAGCCGTCATCAACGCAGGCAAATTGAACCAGTGGAGCAAGTGGGCATGGTGGCTGTGGTCGATATTTATCGTGGTTATCTCCATGTATACCTTCGTGATTCAATACGGCAGCGATTTATGGTTTGGGCGTGAACTGTCGGTCGATGGGCCTTATTCGTTCTACGTGACCGTCATGCGGTATGTTATCCCGATGACGTCGGTCATCATTCCGCTGCTGGTCCAGAAAGCTTATAAACTAACGTTTCAACTTGAGGTGAATGAACCATGA	MTNRHDLEIFVDRLFANQRKTKEVVDLKNEVLSNLEARVTDYMENGIAYQSAISLAIENMEDIEALIDDNQKIYSYRFRHDLLQSTLIYSLLAWIATIPARFLPNGMWVNTLLLCLAALTGAAYLSMSRHLKRYEKQTAVINAGKLNQWSKWAWWLWSIFIVVISMYTFVIQYGSDLWFGRELSVDGPYSFYVTVMRYVIPMTSVIIPLLVQKAYKLTFQLEVNEP				NA	NA	NA	NA	NA
AK002_04968	351			hypothetical protein	TTGATTGAACCCTTACATAACAGTGACTTGGTACGCGGCAATATCGATACCTTTATTTTGCGCGTGCTATCAGACGGAGATAATTACGGCTATCAGATCATTAAGGAGATCGCGATCCGAAGCGGGAATCGATTTGAACTGAAGGAGCCTACGTTGTATTCAAGTCTGAGGAGGCTGGAGAAGCAGGGATTGATACGCTCCTATTGGGGAGAAGAAACTCAGGGCGGGAGGCGTAAATATTACAATCTCAGCCAGGAGGGAATGAAGCGATTGCTGCGCAACCAAGAAGAATGGAAGGCGGCACGCGAGATTATCGATGTTCTGATCGGAAACGGAAAGGAGTTGAAATAG	MIEPLHNSDLVRGNIDTFILRVLSDGDNYGYQIIKEIAIRSGNRFELKEPTLYSSLRRLEKQGLIRSYWGEETQGGRRKYYNLSQEGMKRLLRNQEEWKAAREIIDVLIGNGKELK				NA	NA	NA	NA	NA
AK002_04969	528			hypothetical protein	TTGCTTCATAAATACATTCGACGACTGAAATACTATATTCTCCGGACCCTTCGCATGCAAAATAGCGATCATCGGATCGCTCTCGGCTTTGCCGTCGGCTTCTTCCCTTGCTGGTATCCCACCTTTGGCATCGATCTGCTGCTGGCTCCGCTGCTGGCTCGCATGGTAAGGGGAAACATCCCCTCCGCCTTCCTTGCAGCCTCCGCAGGCTCCGTCTTGTGGCCGATCCTGTTCTATCTAAACTACAGAATCGGCGTGTTTGTGCACCTGTTCACTACGTTTCCCGCGACCTTCGAAATCGAAGATGCGCTCACGGTTCCCGTTCCGGAGACGGATTATATCGTTGAAACGGACCATTTCGGCAGGTTGGGCGACATGGGCGTTAACTTTCTCGTCGGCGCCTTGATCAACAGCGTTCTATCTACGCTGATCCTTTACATTTTGCTGCGAATCATGCTCTCCGTCTACCGCAAACCTTTGCTCCACAAGATCAAAGAATCCATTCGTAGAGGAAAATCGAAGCCTTAG	MLHKYIRRLKYYILRTLRMQNSDHRIALGFAVGFFPCWYPTFGIDLLLAPLLARMVRGNIPSAFLAASAGSVLWPILFYLNYRIGVFVHLFTTFPATFEIEDALTVPVPETDYIVETDHFGRLGDMGVNFLVGALINSVLSTLILYILLRIMLSVYRKPLLHKIKESIRRGKSKP				NA	NA	NA	NA	NA
AK002_04970	1461	gerAA_3		Spore germination protein A1	ATGAAATCGAAGGTACGGCCCGCACTGCTCGATCCTGTTAAAATGCGGCTGGAACATTGCGAAGATGTCATCTACCAATCCTTGCGTCTCCATGGATCCACGTGTACCGTCATCTACATTGAAACTATCGTGGATATCAGCACCCTGCATGAATACATCGTCAAACCATTGATTAAGGAAGCCGCGAAGGTTCAGCATGATTTCCTTAATTTCATTGACCGCATGGATCGCGGAGACATGCTGTCGGTTCCGTTCGAGCGTTCTTCCTCCGCCGAGTATATTGCCGATATGATCGTTGAAGGCAGGGCCGTCGTGATTGTGGAACAATTGGCGGAGGCTTATTTGTTCGACATCGTCTTGTATCAGAAGCGGGCGGTTTCGGAATCCCAGAACGAGCTGGTCGTGAACGGACCGCAGGAAGCGTTTATCGAAGACATCGGAACAAATCTATCGCTGCTCCGGCACAAAATCAAACATACGGATCTCAAAACCGTGCGCTACCAGATCGGCGACTACTCCAAAACTGCCGTGTACATGGTGTACGTCGACGGCTTGTGCAAACCTGAAATCGTCGCTCAAGTGGACCGGCAGCTGAGCAGCATGTCCATCGACGGGACGTTCGGGATCAGCACCTTGTCCGAGCAAATGAAGGAAGGCGTAAAATCCCCCTTTCCTCAGTTTCAGTACACGGAACGCCCCGATTCCGTTGCGGCATCCCTGCTCGAAGGCAGGGTCGGCATCATGCAGGACGGAACGCCGTCGGCGCTGATCGTGCCCGTCACCCTATTTTCCCTGCTGCAGTCGTCCGAGGATTATTATCACAGCTTCTTCTCCTCCAGCTGGATTCGGATCGTCCGGTTCATGTTCGCGATTATTTCATTATTGATGCCCGCCCTGTATGTCGCTATCACAACATTTCAGCCATCCATCATACCAACCGATTTGCTGATCACTTTAGCCGCATCGCGTGAAAATATACCGTTCTCCGCCTTAGCGGAGGCGCTGATCATGGAACTGACCTTTGAAGCGCTGCGAGAAGCCGGGACTCGTATCCCGAAGCCCGTCGGGCAGACGATATCCATCATCGGCGCCATTGTCATCGGACAGGCCGCGGTGGAAGCGGGGATCGTATCGAACCCCATGGTCATCGTGGTTTCGATAACGGGCATCGCTTCTTACATCATTCCGCACTTCGAGCTGGGGCTGGCGTTCCGCTTGCTGCGATTTCCTATCCTCATACTTGGAGGGACGCTCGGTCTGATCGGCGTGTTCACGGCCGCCTTCCTGGTGTTTGGACATATGGCTTCCCTGAAGTCGTTCAATACGCCGTATCTGCAGCCCGTTGCACCCCTTGTCTTATCGGAATGGAAGGACACCTTCGTGCGGGCGCCGTCCATGCTGATGAAGAACAGGCCTAAAATCTATGCATCATCCAACAATTTAAGGAGACGAAAACGATAA	MKSKVRPALLDPVKMRLEHCEDVIYQSLRLHGSTCTVIYIETIVDISTLHEYIVKPLIKEAAKVQHDFLNFIDRMDRGDMLSVPFERSSSAEYIADMIVEGRAVVIVEQLAEAYLFDIVLYQKRAVSESQNELVVNGPQEAFIEDIGTNLSLLRHKIKHTDLKTVRYQIGDYSKTAVYMVYVDGLCKPEIVAQVDRQLSSMSIDGTFGISTLSEQMKEGVKSPFPQFQYTERPDSVAASLLEGRVGIMQDGTPSALIVPVTLFSLLQSSEDYYHSFFSSSWIRIVRFMFAIISLLMPALYVAITTFQPSIIPTDLLITLAASRENIPFSALAEALIMELTFEALREAGTRIPKPVGQTISIIGAIVIGQAAVEAGIVSNPMVIVVSITGIASYIIPHFELGLAFRLLRFPILILGGTLGLIGVFTAAFLVFGHMASLKSFNTPYLQPVAPLVLSEWKDTFVRAPSMLMKNRPKIYASSNNLRRRKR	PGPT0014780_236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK002_04971	1167			hypothetical protein	ATGCTTCTACTCAAATGGTTGAAAATTCTGCTGCCATTATCGTTGTTGACAGGCTGCGGCTTCAACCTGACCAAGGTTGAGATCAACGAGCAAACCTTTGTTTTTGCCATGTACGTGAATAAAAGCCAGAAAGACGGAAGCGTGGAAGTTACGATCAGCGCCCCCTTGCCGAACCGGCTCACATCCGGGCGTCAAGCAGGCGGGAAGGGTGGCGGAGATCCGTATGCCATGGTAACCAAATCCTCCACCACCGTGCAGGATGCCCTCCACCTGATCCAACGGGATCTTTCACGGCGTTTCGACTTCAGCCACACCAAGGTTGTTGTCGTAGGCAAGAGCTATGCGGAAGCGGGATTAGAGGATCTGATGGATTGGCTCCAGCGGGAACCGACAACGAATATGAGCATCTATATCATGGTTGCGCCTGGAGACGCGAAAAAGGTCGCCGAGCTGACGCCGGTTTTTGAACAGATGCCTTCGGAGGTGCTCATCCGGTTTGCGGACCAGCACAACATGATCACCACGAACCTGAAGGATTGCCTCTTTGCCGATTCGGGCAATCAAGGATATGCCCTGACCTATTTGGCGGCAGGCATGAAGCCTATGGTCGCTGACCAGGAAAAGCTGGAGCCGTGGACGGGAATTCAAGGCACGGCGCTGTTTCATCAACATAAGCTGGTGGCCACCCTTCCTATGGAAGAGTCGCTTGCCGTCAGTTGGGGAGTGAATGAATTAAAAGCCCCCCTGTATACCGTTTCATGGGATGAAAAAGGAAAAGCCAGCGCTTTCCTGATTTCAACACGCTCCAGCAAATCCGTACGCATGGTTTCGGGCCATCCGGTATTCACCGTCAAGCTGAGCGGGACAGGGGATATTGTTTACAAAAACATTCATAAGCAATTGGATACCCTTCAGGCGAAAGAGCTTATTGAGCGTGAGCTCAACGAGCTCATTGCAGGTCATCTCCGAAAGGCGCTCCGCACCTCGCAGCGAGTCGGCGCAGACGTCCTGCAGCTCGGGATGCTGGTGGACTGGAACTACCCCGATCATTGGCAGAAGGTTCGCCCCAACTGGTCTGATTATTACAAAAACGAAGTGGAGATACAGGTGGTCACCGACATTCAGATTCGAAACTTCGGGGCCGTACTCAAAACGAATCCGAAATAA	MLLLKWLKILLPLSLLTGCGFNLTKVEINEQTFVFAMYVNKSQKDGSVEVTISAPLPNRLTSGRQAGGKGGGDPYAMVTKSSTTVQDALHLIQRDLSRRFDFSHTKVVVVGKSYAEAGLEDLMDWLQREPTTNMSIYIMVAPGDAKKVAELTPVFEQMPSEVLIRFADQHNMITTNLKDCLFADSGNQGYALTYLAAGMKPMVADQEKLEPWTGIQGTALFHQHKLVATLPMEESLAVSWGVNELKAPLYTVSWDEKGKASAFLISTRSSKSVRMVSGHPVFTVKLSGTGDIVYKNIHKQLDTLQAKELIERELNELIAGHLRKALRTSQRVGADVLQLGMLVDWNYPDHWQKVRPNWSDYYKNEVEIQVVTDIQIRNFGAVLKTNPK	PGPT0025060_743	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK002_04972	204			hypothetical protein	ATGCTGGCTCTTCTGTTCCTCGTCTACGCCTTGACGGAATGGTACTTCGCGAAGAAAAAAGTAAGGTCACGCCGTGAAAAATGGACGATGCTCATTCTGATCCTTGCCTTTTCCGTCTGGAATATAATCGCCTTGTATTCTTACGAGTGGCTGACCCCCAACCATCTGATCATGCTGCTGTTCGGCTGGCTGGATGAGCTGTAA	MLALLFLVYALTEWYFAKKKVRSRREKWTMLILILAFSVWNIIALYSYEWLTPNHLIMLLFGWLDEL				NA	NA	NA	NA	NA
AK002_04973	1116			hypothetical protein	ATGCGCAATACGCCCTGGCAGCTGTTTCGTTTCGGATTTGTCTATCTTAACGCCATACCTACGGGATTTCTAGTCACTCCTCTCTTGTGGAACTCGGCATATTTGGGATGGGCCTCGATTCTGGGCGGTTATGCGATGAGTTTGGTCTTCTTGTGGTTTATGCTGAAGGTCGGGCTGTGGGATCCTCGGAAACCCTGGATCGATTTTGGCAGTGCCCTGGTCAGCAAGTGGATTCACTTCCCTGTCGTCGCTTTGGTATTCTTCTGGTCTATCAATTACATAGGGATGGATATCGAAGGTTTCACGTTATTCTTCGATACCAATTACATGCGGGAATCTCCCCAGTGGTTCATCCTCCTGATTGTGGGCCTGGTCGTTATGGTTACGGCCAGGTGGGGCATGGAGACGATGATTTATATTTCCGACGGGCTGTTTCTTGTCATCGTTGTTGCCATTGTTGCCATGAATATGTTTTTCTTCAAGGAAGCGCATTGGGATATGATGATCGCGATGGTCAGGCATCACAATTATGAGTCGGCGATCAAGGACAGTTTGTTCTGTCTTTCATTCTTCGCGGAATGGATCGTGTTCCTCTTTCTCGCTCCTTATATCCAATTCAACAAAAAATCCTTTCGCAACCTTGCTGCGGCAGGACTGTTGGTCACCATAGGCGTAATGCTCCAATGGGCATCGGCATTGCTGAATTTCGGCCCCTATCTAGGGCGCGAGATGCAGTATCCGCTCGTCGAATTAATGCGTGCAGCCAGCGGGTTCCTCGGCAATTCCGATCCGCTGATCATTGGGTTATGGAGCAGCTCGATGTTCTTCCACAGTGCCTTCCTCATCCACGTGAGCGTAAGGTGTATGGCGAAACTCCTTAACCTGAAACAAATGGATGGTCCCCTGATCGCGATCATTGGGGGAACCGCTATCGTAATTGCGTACCAGTATTCGCAAAATCCGATCCTTTTTCAGCAAGACTTCAATTCCTTCGGGATGGCGGTATTTTTCATTCTCATGGAGTTAATCCCGATTTTCTATTGGATTGCCTCCCTGTTCCATAAACGTAAGCGTAAACCAAAATCAAGACCAAAGCCTGACCAAAAAACCGCTTGA	MRNTPWQLFRFGFVYLNAIPTGFLVTPLLWNSAYLGWASILGGYAMSLVFLWFMLKVGLWDPRKPWIDFGSALVSKWIHFPVVALVFFWSINYIGMDIEGFTLFFDTNYMRESPQWFILLIVGLVVMVTARWGMETMIYISDGLFLVIVVAIVAMNMFFFKEAHWDMMIAMVRHHNYESAIKDSLFCLSFFAEWIVFLFLAPYIQFNKKSFRNLAAAGLLVTIGVMLQWASALLNFGPYLGREMQYPLVELMRAASGFLGNSDPLIIGLWSSSMFFHSAFLIHVSVRCMAKLLNLKQMDGPLIAIIGGTAIVIAYQYSQNPILFQQDFNSFGMAVFFILMELIPIFYWIASLFHKRKRKPKSRPKPDQKTA	PGPT0025055_238	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
AK002_04974	861			hypothetical protein	GTGCCTCAATGGTTGGAAATCGTACTTAGAACCGTATGTGCCGTGGTCGTGCTGTTCCTGATGACGAAACTGCTTGGCAAGCGTCAGGTGACGCAGCTATCTTTTTTTGAATATTTAACAGGGATCACGATCGGTAGCATAGCTGCCTATATATCGTTGGATCTGGAAGCAAACTGGTATTTAGGGCTCGTGGCTCTGGGCGTCTGGGTTGCCTGCTCGCTTCTCATCGAATTCCTGCAAATCAAGAGCAAAAAGGCAAGGGATTTTATCGACTTTAAATCAACCGTGCTCATTCAAGGCGGCAAGATATTAGAAGATAATTTAAAGAAGGAAAGGCTGTCGACCGACGAGCTGATGCAGCAGCTCCGCAAAAAAGACGTGTTTCAGGTCGCCGACGTGGAATTTGCCATCATGGAATCCAGCGGTGAGATCAATGTCCTGCAGAAGCGCGAAAGTTTGCCTTTGACTCCCAAGGATCTAGGTATACAGGTAGCGCCGGAAAAACCTGGGCAGGTTGTGATCATGGATGGGGAGGTCATGGATGAACCGCTGCGCGTCTCGGGCTTCAATCATGGATGGCTGGTGGAAGAGCTGGACAAGCAGGGCGCCAGGATCAAGGACGTATTCCTTGCTCAAGTCGATACCTATGGACAATTAACCGTCGATTTGTATAACGATCAGATCCAGGTGCCCCAAAATGAGGAACGGAAGCTCTTGTATGCAAATTTAAAGAAATGCCAGGCGGATTTGGAATTGTTCAGTCTCAGCACGAAAAGCAAGAAAGCTAAGAAAATGTATGAGGAGAGCTCCAAACGGATGGAGAAAATTTTAGCCGATGTACAGGCGATTCTGAAAACGTAA	MPQWLEIVLRTVCAVVVLFLMTKLLGKRQVTQLSFFEYLTGITIGSIAAYISLDLEANWYLGLVALGVWVACSLLIEFLQIKSKKARDFIDFKSTVLIQGGKILEDNLKKERLSTDELMQQLRKKDVFQVADVEFAIMESSGEINVLQKRESLPLTPKDLGIQVAPEKPGQVVIMDGEVMDEPLRVSGFNHGWLVEELDKQGARIKDVFLAQVDTYGQLTVDLYNDQIQVPQNEERKLLYANLKKCQADLELFSLSTKSKKAKKMYEESSKRMEKILADVQAILKT				NA	NA	NA	NA	NA
AK002_04975	207			hypothetical protein	ATGACCGTAGCTTCCGATGTGAAAACATGCCTCTCATCCTTAAAAAGCGCTCAGGCTAGCCTTGAGCAATTTGCGCTGTCTACGCAAGATCAAAATGCCAAGGACCTGTTCACTACCGCGGCACAACAAACGCAGCAAGTCGTAGACCAAGTAGCCCAGCGGGTTCAGCAGCTTGAACAGGAAGAGCCTCAGTATAAAGGTTTCTAA	MTVASDVKTCLSSLKSAQASLEQFALSTQDQNAKDLFTTAAQQTQQVVDQVAQRVQQLEQEEPQYKGF				NA	NA	NA	NA	NA
AK002_04976	963	kdgK	COG0524	2-dehydro-3-deoxygluconokinase	ATGAATAATGGTATGCGTCCTATCGATGTCATCACGTTCGGCGAATCGATGGGATTATTATATCCCGAAGGCACACGAGGCATTGGCCAGGGAGGAACCATGGCCCAGTCCTTCGGCGGCGCCGAAAGCAACCTCGCCATCGGGCTTTCCAGGCTTGGCTGCAGCAGCGGATGGTTCGGCCAGCTGGGCAACGATCCGATCGGAACCGGCATTTTGAAAACGCTTCGAGGTGAAGGGGTCGATGTTTCCAGCGCCAGACAAACGGATGCGGCACCGACCGGTCTTATGCTGAGACAGAACGTTCGCGGTCAATCCTCCGTCTATTACTACCGCAAGGGCTCTGCCGCCAGCCAAATGACGCCGGACCATGTAGACTCCGAATACATAGCCAAGGCCCGCATCCTTCATTTCACGGGCATCACCGCCGCCTTAAGCAGCAGCTGCCTGGAGACGATACGGCATGTCATTTCCGTATGCAAAACGCATGGCGTCCAGATCAGCTTTGATCCGAACCTCAGGCTGAAGCTGTGGAACATTGAGGAGGCTCGCCCCGTATTGCTGGAGCTTGCCGAAAGCTGTGATTATTTCCTTCCTGGCTATGATGAATGCAAGCTGTTGTTCGAAACGGAGGACGAGCAGGTGATCCTGGACCGTCTGCGTCAGCTGCCCGGCATGTCCGTGATCAAGAGTTTCGACGGAAACAACGTTATTGTTCGGGAAACCGGGACCTACTCCCTTCCTTTTGAGCGTGTGGATAACGTAGTGGATACCGTTGGCGCGGGAGACGGCTTCTGCGCAGGCTTCCTGGCAGGCATCGCCAAAGGCTGGACACCGGAGGAGGCCGTGTCCCTAGGCGGATTAACCGGATCCCTGGTCATCCAAGCCCCAGGTGACTGGGAAGCGCTTCCGACCTGGGAGGAAGTTCAGCAGCGGCGAGGAAATGCCGCCCATATCGAACGTTGA	MNNGMRPIDVITFGESMGLLYPEGTRGIGQGGTMAQSFGGAESNLAIGLSRLGCSSGWFGQLGNDPIGTGILKTLRGEGVDVSSARQTDAAPTGLMLRQNVRGQSSVYYYRKGSAASQMTPDHVDSEYIAKARILHFTGITAALSSSCLETIRHVISVCKTHGVQISFDPNLRLKLWNIEEARPVLLELAESCDYFLPGYDECKLLFETEDEQVILDRLRQLPGMSVIKSFDGNNVIVRETGTYSLPFERVDNVVDTVGAGDGFCAGFLAGIAKGWTPEEAVSLGGLTGSLVIQAPGDWEALPTWEEVQQRRGNAAHIER	PGPT0018060_1786	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
AK002_04977	672	kdgA_1	COG0800	KHG/KDPG aldolase	ATGAAAAAATTGAAACTGATCGAACAGATCCATCAGGCTGGCGTTGTCGCGGTCCTGCGCGGCGATTCTCCCGATGAGGTTGTAGAGATTGCCAAACGCGCGATTGAAGGCGGCATCAAGGTCATCGAGGTGACCATGACCGTACCGTTCGCTACGGAAGCCATTACGACGTTATCCAAAATGTACTCTTCCAAAGACCCGCAAGCGGACAACTATGCCATCATCGGAGCCGGAACGGTTCTGGATGCAGAAACAGCCAGAATCACGATCCTGGCCGGTGCCGAGTTCGTGGTCTCCCCAGGGTTCGACCGCGATACGATTATGCTCTGCAACCGATATCGCATTCCGGTCATGCCGGGCGCCGTAACCGTTCATGATATCGTTGCCTCGCTTGAGCTTGGCGTCGATGTCGTTAAGCTCTTCCCGGGTAATCTGTACTCTCCGTCCGTCATACCGTCTCTGAAGGGCCCGCTGCCGCAGGCCAATATCATGCCGACCGGAGGCGTGAATCTGGACAATCTGCATGAATGGATCAAGGCCGGGGCATTCGCGGTCGGAATCGGGTCCGATCTGACCAAAGACGCGCTTAAGAGCGGAGACTTCAATTTGATTACGGAGAAGGCCCGTGCTTATATCCACGCCTTTCAGGAAGCTCAAACCTCCCATAAATAA	MKKLKLIEQIHQAGVVAVLRGDSPDEVVEIAKRAIEGGIKVIEVTMTVPFATEAITTLSKMYSSKDPQADNYAIIGAGTVLDAETARITILAGAEFVVSPGFDRDTIMLCNRYRIPVMPGAVTVHDIVASLELGVDVVKLFPGNLYSPSVIPSLKGPLPQANIMPTGGVNLDNLHEWIKAGAFAVGIGSDLTKDALKSGDFNLITEKARAYIHAFQEAQTSHK	PGPT0002060_385	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
AK002_04978	603			hypothetical protein	ATGCTGTCATTTCGAAAACATGTCATTATCGTGATCGGAAGCTTTCTGATCGCGATGGGGACAAATTTTTTTCTTGTCCCGCATAAAGTTCTGGATGGCGGAGTTATCGGGATTGCTCTGATCGCCAACTACGTGTTTGACCTACATATCGGATTCGTAATCATTTTGTGCAGCATCCCCATGTTTATCGCCGCCTGGATGTTAAATCGCGAAATCTTTTACAACAGTCTGTCAGGCATGCTGATATCTTCGTTTGTCATCGATTTGCTCTCCCCGTTGCAAACGGATTTTTTGCGTTTTTTTGCTCCCCATGTGATAATCAGCGCGCCCATAGGCGGTGCGTTGATCGGAGCCGGGCTAGGATTGATGCTGAGGAATGATGCAAGCACGGGCGGAACGGATCTGTTGGCTCATTTTCTGGCAAGGTATGTGCCATTGAATGTAGGCGTCATTATTTTGCTGATGGATGCCGTCATCATCGGATTCGGCGGCGTTCTGCTCTCGGGAAGCACTTTCGTGTACTCCATTCTGACGATTGTTGCAGGCGGTTTTACAACGGGCATGATTACACAGAAACGATGGTTTTCGAAAGAGAAGGATTAA	MLSFRKHVIIVIGSFLIAMGTNFFLVPHKVLDGGVIGIALIANYVFDLHIGFVIILCSIPMFIAAWMLNREIFYNSLSGMLISSFVIDLLSPLQTDFLRFFAPHVIISAPIGGALIGAGLGLMLRNDASTGGTDLLAHFLARYVPLNVGVIILLMDAVIIGFGGVLLSGSTFVYSILTIVAGGFTTGMITQKRWFSKEKD				NA	NA	NA	NA	NA
AK002_04979	855	ulaG		L-ascorbate-6-phosphate lactonase UlaG	ATGAGAGAACAGAACAACAGCAGCCGGGGGTCTGAGCAGCTGATCGATGAAATCAACCGGACGTCTACAACCGATGGGATGGCAGCCGTATGGTTTTTGGGTCAGGAGAGCGTTGTCCTGAAGGGCGGAGAGGTCGTTATCTATATCGACCCTTATATGTCAGCCGACCTGGAGCGCAAAGCGGGATTTCAGCGAGCGTTTCCGGCTCCGCTGCAGCCAGAGCATATTACGAATGCAAACATGGTCCTGATCACCCATGAGCACGATGATCATATGGATCTCGGAACGATTGCGGTCATCGCCAAACAGAATCCGGAAACAGCGTTTGTAGCGCCGGCATGCTGCCATGAAGCGATGCGCGGTGCCGGCGTGGCGCCGGAGCGGCTGTTTGCGGCCGTATGCGATGAATGGCAGCAGTTTGACGGCTTTCGTCTGATGGCGATTCCGGCTGCCCACGAGACCTTGGATGAGCATGAAGAGTTTGGACACCGATTCGTCGGTTACCTGGTGGACATCCAGGGCGTGTTGATCTACCATGCGGGAGATACCGTAGTCTATCCCGGATTGGTGGAAAGGCTGCAGGCGCACTCCATCGATATCGGGATGGTGCCGATCAATGGGGGAGATGCCTTCCGCCGGAAGGACGGCATCGTCGGGAACATGGGCTTCCGGGAAGCCGCAGAACTTGCCGCAGCGTCGGCATTCGATTTGACCATTCCGATGCATTACGATATTTTTCCATGGAATGGAGAGAAGCCGGGGTACTTCGTGGATTATTGCTATGAGAATCATCCGTATATGAAAACCAAAGTGATGGCGCGCACCGAGCGTTTGCTTTATGTAAAAGCCGAATAA	MREQNNSSRGSEQLIDEINRTSTTDGMAAVWFLGQESVVLKGGEVVIYIDPYMSADLERKAGFQRAFPAPLQPEHITNANMVLITHEHDDHMDLGTIAVIAKQNPETAFVAPACCHEAMRGAGVAPERLFAAVCDEWQQFDGFRLMAIPAAHETLDEHEEFGHRFVGYLVDIQGVLIYHAGDTVVYPGLVERLQAHSIDIGMVPINGGDAFRRKDGIVGNMGFREAAELAAASAFDLTIPMHYDIFPWNGEKPGYFVDYCYENHPYMKTKVMARTERLLYVKAE	PGPT0019580_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ACROBIC_ACID|VITAMIN_C_UTILIZATION	PLANT_DERIVED_VITAMIN_C_UTILIZATION,PGPT0019580-ulaG-K03476	NA	NA
AK002_04980	1971	fruA	COG1299	PTS system fructose-specific EIIABC component	ATGAGAATTACGGATTTAATGATACAAGCAACGATGATCATGGATCTGAAGGCGGCCACGAAGGAGGCTGCCATCGATGAACTGATCGGGAGTCTGGCCGCCAGCGGGCGGATCAACGATCCGGTTTTGTTTAAAGAGATGATCCTGAAGCGTGAAGCCGAATCCAGTACGGGGATCGGCGGCGGCATTGCGATGCCCCACGCCAAGACGAAAGCGGTTAACGAGCCGACCGTCGTGTTTGCCAAGAGCAGCGGGGGCGTGGATTTCGAAGCGCTGGACGGTGAGGCGGCGCATGTATTTTTCATGATCGCCGCTCCCGAAGGAGCGGGGAATACGCATCTGCGTACCCTTGCAGCGTTATCGAGGCTGTTGATCGATGCGGAATTCATCGCGCAGTTGATGAAGGCGGAGACGCCGGCGGAGGTAACGGCTTTATTCGACTCCAAGCAGACGGTTGAAGAAGCCGCCAAGGCTGAGAGGGAAGCGGCCAAAAAAAGGGAAGCCGCACAAAAAGAAGCGGAGAACAAGCATCGGGAATCCGGCATTGCAGCCCAAGCTGACCAACGGGATGTTTCCGCCGGGGACTCGACTCCGTTCGTGGTTGCCGTAACGGCTTGCCCGACCGGCATTGCCCATACGTTTATGGCCGAAGACGCCCTTAAGAAGAAAGCCCAGGAGATGGGCGTCGAAATCCGGGTGGAAACGAACGGCTCGGAGGGCGCGCAGAACGTATTGACGGAAGAGGAAATCCGCAGGGCCTCAGGCGTCATCATTGCCGCCGACAAAAACGTGGAGATGGCCCGCTTTAACGGAAAACCCGTTCTCCAGCGTCCTGTCAGCGACGGCATCCGCAAATCGGAGGAGCTGATCCGCAAAGCGATGGGCGGCGATGCGCCGATCTACCGCAGCGAAGGCGGCGGTGAGCCGAAGGCGAAGGACGCGGAGAAGGGCAGCATAGGCACAAAAGTGTATAAGGACCTGATGAATGGTATTTCGCACATGCTGCCGTTTGTCGTGGGCGGCGGCATTCTTCTCGCCATCTCCTTCCTGATCGAGCAGCTTGCCGGCGAGGATCATCCGCTCTTCCAGCTGCTGCAAACGATCGGCGGAGGAGAGGGTGCCTTCCACTTCCTGATTCCGGTTCTGGCGGGCTTCATAGCGCTCAGCATAGGCGATCGTCCGGCATTGATGCCCGGCATGGTCGGAGGCCTGATGGCCCTCAATTCCAATTCGGGATTCCTTGGCGGTCTTGCGGCAGGTTTCTTGGCCGGTTACGTGGTTATCCTGCTGCGCAAAGCGTTTGCGGGGCTGCCCCGAGCGCTTGACGGCTTAAAGCCGATTCTGTTGTACCCGGTCGTCGGCCTGCTTATTACCGGAACGATCATGTTCTACTTGTTCGATCCGTTCTTCAGCTGGATCAATCTCGGCCTGATTGATATTCTTAACAATTTGGGTACCGGCAACGCGGTGATTCTCGGTCTGATTCTGGGCGGGATGATGTCGATTGATATGGGCGGTCCCTTCAATAAAGCGGCTTATGCATTTGCGATCGGCGTATTCACATCCAGCGGCAACACGAACGGAGCCATGATGGCTGCGGTCATGGCCGGCGGGATGGTGCCTCCGCTGGCCATTGCTCTGGCCACGACGTTCTTCAAGCATAAGTTCACGGAGCAGGAACGCAAATCAGGCGTGACCAACTATGTGATGGGCCTTTCCTTCATAACGGAGGGGGCGATCCCGTTCGCCGCGGCCGACCCGCTGCGCGTACTGACATCCTGTATTCTTGGTTCCGCGGTGGCAGGCGGGCTGACGCAGCTGTGGAGCATCAACGTTCCGGCCCCGCACGGGGGAATCTTTGTCGCTGCTCTTGCCAATCATGCGCTCCTATTCCTGCTCTCGGTTCTCATTGGTTCGGTGATCTCGGGTGTGCTGCTTGGAGTTTGGAAGAAGCCGCTTGAACGAAAATAG	MRITDLMIQATMIMDLKAATKEAAIDELIGSLAASGRINDPVLFKEMILKREAESSTGIGGGIAMPHAKTKAVNEPTVVFAKSSGGVDFEALDGEAAHVFFMIAAPEGAGNTHLRTLAALSRLLIDAEFIAQLMKAETPAEVTALFDSKQTVEEAAKAEREAAKKREAAQKEAENKHRESGIAAQADQRDVSAGDSTPFVVAVTACPTGIAHTFMAEDALKKKAQEMGVEIRVETNGSEGAQNVLTEEEIRRASGVIIAADKNVEMARFNGKPVLQRPVSDGIRKSEELIRKAMGGDAPIYRSEGGGEPKAKDAEKGSIGTKVYKDLMNGISHMLPFVVGGGILLAISFLIEQLAGEDHPLFQLLQTIGGGEGAFHFLIPVLAGFIALSIGDRPALMPGMVGGLMALNSNSGFLGGLAAGFLAGYVVILLRKAFAGLPRALDGLKPILLYPVVGLLITGTIMFYLFDPFFSWINLGLIDILNNLGTGNAVILGLILGGMMSIDMGGPFNKAAYAFAIGVFTSSGNTNGAMMAAVMAGGMVPPLAIALATTFFKHKFTEQERKSGVTNYVMGLSFITEGAIPFAAADPLRVLTSCILGSAVAGGLTQLWSINVPAPHGGIFVAALANHALLFLLSVLIGSVISGVLLGVWKKPLERK	PGPT0017120_588	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_FRUCTOSE_PTS_SYSTEM_I,PGPT0017120-fruA-K02770	NA	NA
AK002_04981	912	lacC	COG1105	Tagatose-6-phosphate kinase	ATGATATATACGGTTACACTGAATCCTTCCATTGATTACATCGTGGAAGTTGAACATATCGAGCTTGGCGGATTGAACAGAATGACCCGGGACATGAAGTTTCCTGGCGGGAAAGGAATTAACGTATCGCGTGTGCTGAACCAGCTGGGAGCCGATAATACGGCTATCGGTTTTCTTGGCGGTTTCACCGGCCGTTATATCGACGAGATGCTCGGTAAGGAAGGAATCCGCACGGATTTCGTGAACATCGCGGACGATACCCGCATCAACGTTAAGCTGAAGCATGGCGGAGAGACCGAGATCAACGGCTTGGGACCCGATATCCGGGAAGACGAAACGAAAGAGCTGCTCCATAAGCTGTCACAGCTTGAAGCCGGCGATATCGTTGTGCTGTCAGGCAGCGTGCCGCCTTCCCTGGGCTCGGACTTTTATGGCCGTCTGATCGAAGCCTGCCGAAAGGGCGGCGCCGAATTCGTCATGGATACCACCGGCGAGGCTCTAATGAGGGCATTGGCCTATAAGCCGCTCCTTGTGAAACCGAACCACCACGAGTTGGCCGAGTTGTTCGGCGTTGTCATTGACTCGAGGGAGCAGCTTGTGGAGTACGGACAAAAACTGCTTGAGAAGGGCGCGCAGCATGTCCTGATTTCCATGGCCGGAGAAGGGGCGCTGTTCATCACGGCCGATCGGGTCTATCACGCCCATGTTCCGCCGGGTACCGTCCGTAATTCGGTCGGTGCCGGCGATTCGATGATTGCCGGATTCGTCGGCACGCTTGCGAAGGGCCAGGGTCCGATCGAGGCATTCCGGACGGGGGTCGCCTCTGGAAGCGCTACGGCGTTCTCGGACGACTTGGCGGCAAGGGAAGCGATTGATGAGCTGCTTCCTCTGGTTAGGATCACGGAGTGGTGA	MIYTVTLNPSIDYIVEVEHIELGGLNRMTRDMKFPGGKGINVSRVLNQLGADNTAIGFLGGFTGRYIDEMLGKEGIRTDFVNIADDTRINVKLKHGGETEINGLGPDIREDETKELLHKLSQLEAGDIVVLSGSVPPSLGSDFYGRLIEACRKGGAEFVMDTTGEALMRALAYKPLLVKPNHHELAELFGVVIDSREQLVEYGQKLLEKGAQHVLISMAGEGALFITADRVYHAHVPPGTVRNSVGAGDSMIAGFVGTLAKGQGPIEAFRTGVASGSATAFSDDLAAREAIDELLPLVRITEW	PGPT0017580_2007	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0017580-fruK|fpk-K00882	NA	NA
AK002_04982	750	glcR_3	COG1349	HTH-type transcriptional repressor GlcR	ATGCTGACGGAAGAAAGATACCGAATCATATTAGAGCGCTTACAACAGCGAGGTGTCGTGAAGCTGCAGGAATTGGTAGAACTCCTTGAAGCTTCGGAATCGACGGTAAGGCGAGATTTGATCGACCTTGAAGAACGCCAATTGCTAAAGCGTATTCATGGCGGAGCCGCTCTGCCGAGCCCAAAGATACAAGAACCTGGAATTGAGGAAAAAACGTTCAAAAACATTCAACAGAAAAATGCGGTTGCCCGGCTGGCTGCTGCACAGGTTGAGGATGGAGAGAGCATTTACCTGGATGCGGGTACGACCACGCTAGCCATGATTCCGTTCATCGACGCCAAAGACGTCACGGTTGTCACGAACGGTTTATCCCATATCGAAGCGTTGGTCAGCAAGCGGATCAAAAGCTATCTGCTGGGCGGCATGATGAAGATTCATACCAAAGCCGTCATCGGAAGCATCGCGCTGCAAAATATGGACAATTTCCGTTTTGACCGGTGCTTTCTGGGCACGAACGGCGTGGATGCGGAGATGGGCTACACCACCCCCGATCCGGAAGAAGCCTTGATCAAGCGGCGGGCCCACCAGCTGTCCGCTTCCAGTTACGTCCTTGCGGATTCCAGCAAAATCGGAGAGGTTTCCTTCGCCAAATTGCTGGACCTGAGCGAAGCAACGCTGATTACGGAGTCCTTGCCGGAATCATGGAGGAAGGTCATTTCACAGAAAACCAAAATAATTGAGGGATCATGA	MLTEERYRIILERLQQRGVVKLQELVELLEASESTVRRDLIDLEERQLLKRIHGGAALPSPKIQEPGIEEKTFKNIQQKNAVARLAAAQVEDGESIYLDAGTTTLAMIPFIDAKDVTVVTNGLSHIEALVSKRIKSYLLGGMMKIHTKAVIGSIALQNMDNFRFDRCFLGTNGVDAEMGYTTPDPEEALIKRRAHQLSASSYVLADSSKIGEVSFAKLLDLSEATLITESLPESWRKVISQKTKIIEGS	PGPT0017590_1708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK002_04983	912			hypothetical protein	ATGGACCAACTGAAAGAAGCCTATGAGCGGCTCGGTCTGCCGGAGGATGCAACCAAGGAACAGCTTGACGACCGGTATACGCTGCTCATGCGCCAAACCCGTTCGCATCAAAGGCGGGAGCCGGACCGGGTGGAGGAGATCGAAGCCGAGTTTGCCGAAATCACCAGAGCCTATAAATTCATCCTTGAAGAAGAGAACCGTAAAGCTTTGGAAGAGATGAATCAGAAACGGTACGGTAAATACAAGAGGTTTGCCGGGACGGCGGAGAAAACCGACCATTTCTTCCGTTATTATAAATTCCACGTACTCGGCGGCATTGCCCTGGTGGGCGTACTCATTTATATCGTGATCAGCATTTTCAACCATCAGGCAGAGAAGGAACGGCTGGCCAGCCTGCCCCCGGTTGACCTGGAAGTCATGTTCCTCGGTTCTTATATGAGCCAGGATGGCGGACAGGACCTTAAACCGATCGAAGACGCGATTTTGGCCCAATTTCCCGATTGGAAACGCGTAACCGTTAACATTAACTACGTGCCTCCCCTGGATTCCAACAATCCGCAGGATGCCGCCATGCTGCAAAAGGCACTGCTGGTGCTGTCCACCGAACGTCCTGATCTGTATATCATGGATCAAACCGCCTTTGATTGGATTGGCAATCAAGGCATGGTACGCCCGCTCGAAGGGGAAGTCGAAGGCGAACTGAAGGAACTGCTTACGCCGGAGATGCTGGTGAAGGGTACAAATGAGGAAGACGGCGCGGAGCATGTGTATGCCGTGGATATTATGGGCAGCCCGCTTGGCGAAGAACTGCCCGTCCTGAAGAAAGAAATGTTTGCGGGGATTCGCGAAGGCACGGAACGCGATGCGAATGCACTGCGCTTCATTAAGCAGTACTTGGAGACGTCCAAGTAA	MDQLKEAYERLGLPEDATKEQLDDRYTLLMRQTRSHQRREPDRVEEIEAEFAEITRAYKFILEEENRKALEEMNQKRYGKYKRFAGTAEKTDHFFRYYKFHVLGGIALVGVLIYIVISIFNHQAEKERLASLPPVDLEVMFLGSYMSQDGGQDLKPIEDAILAQFPDWKRVTVNINYVPPLDSNNPQDAAMLQKALLVLSTERPDLYIMDQTAFDWIGNQGMVRPLEGEVEGELKELLTPEMLVKGTNEEDGAEHVYAVDIMGSPLGEELPVLKKEMFAGIREGTERDANALRFIKQYLETSK				NA	NA	NA	NA	NA
AK002_04984	891			hypothetical protein	ATGGCAAAGCGAAAGCATTGGAGCAAAATAATCACAGCAGCTGCCGCAGCTATGCTGATCATGGCAATGACGGCATGCAGCGGCGAAGGCCCGACTTCTCAGCCGCCGGCGGATCCGAATCCAGTCGAGGATGACGTGAAGGAACCGGCTGAACCTGCAGAAGAGCCCAAGTACGAGATAAAGCAAGGAACCGGTACTTACGTAGGTCAAATCGATAACAATTCGATCGAAATCGAGACGGCCGACGGTCCGACCGCATTCCGGCTGGGCGAGGGGATGGATCAGGTCATATCCAAACTTCAGGGAGAAGAGTCCGTCTCCTATGAGTACAGGGAACAGCCGGTTGAAGGCGAGGAAGATTTGAAGCAGCTGATCCTCATCGAATTGACGGTGGACGATGAAGGCGGCGGCTCGGGTTCCGAGAACGCGCAGCTTCCGGAAACCAAGGATTTCGAGCTGGAGCTGGAGGGCATGAAAGAAACCAAAGCAGCCAAACTGGCCGAGGGTGACGGCTATGCGCTGTATATATTCGATATTTTTTCCTTTGATGCAAAAACCAACAGGCTGACCATGAATGTGGACCCGGATTATTACGTCGAGATTACGAAGCTGCCTTCGGATTACAACGCGGACATACTCAAGCTTGAGGGGGAGAAGGAGCTTGCGGAGGTTGGCAAAGTCCATGAAGCTGAGGGCAGTGAAAGGCACAAAGTCATAGAGGATGCATCCGTGTATATGATAGGCGAAGGCGAGGGCCTGACCAAGATGTACATTGTGGATGAGTTTGACGGCCAGGGTTATATATTCCGCGTAAATAACCCTCACCGCGAACCTTCCGAAGGATTTGCTACACATGCTTTTACATCCTTGAGCTCGATTGTTAATCGATAA	MAKRKHWSKIITAAAAAMLIMAMTACSGEGPTSQPPADPNPVEDDVKEPAEPAEEPKYEIKQGTGTYVGQIDNNSIEIETADGPTAFRLGEGMDQVISKLQGEESVSYEYREQPVEGEEDLKQLILIELTVDDEGGGSGSENAQLPETKDFELELEGMKETKAAKLAEGDGYALYIFDIFSFDAKTNRLTMNVDPDYYVEITKLPSDYNADILKLEGEKELAEVGKVHEAEGSERHKVIEDASVYMIGEGEGLTKMYIVDEFDGQGYIFRVNNPHREPSEGFATHAFTSLSSIVNR				NA	NA	NA	NA	NA
AK002_04985	858		COG1307	Fatty acid-binding protein	ATGCCTGGTAAAATTAAAATTTTTGCTGACAGCACCTGCGACTTACCACCTTCGTGGATAGACGAATATAATATCGGCATCGTTCCGCTCTACGTCGTATTCGGAGAACAATCCTTACGGGATGGAGTCGACATTACACCGGAACAGTTGTATGCCAAAGTCGATCAGATCGGCAGCCTGCCCAAAACAGCGGCACCTTCTCCGTCCGACTTCATTGCGGCCTTCTCGCCTTCGATTGAACAGGGTGAGGATATCCTGTTCCTCAGCATTTCGTCAGAGCTTTCTTCCACCTACCAAAATGCGTTGATAGCTGCAGGCGAGCTGCCCGAAGGGCGGGTTACCGTGTTTGATTCGCGCAATCTTTCCTCCGGCATCGGACTGCTTGTGATGAAGGCTGTTCACGCGGCCAATGAAGGCTCGTCCATACCGCAAATTGTGGAGCTATTAAGCCGTACCGTAAACGAAGTGGAGTGCGAATTCGTTGTCGATACGCTGGATTATTTGTATAAAGGCGGACGCTGCTCCGGCATGCAAAACATCATCGGCAGCCTGCTCAAAATCCGTCCGGTGATCAAAGTCGTGGACGGCGGCATGATCCCGGCTTACAAGGTACGCGGCAAAAAAGAAAAGGCGCTGGATCAAATGATTCAGAATGCACTGGCTCAAGTGGATAAGATGGACAATGATCTGATAGTTGTTGTACATACCATGGCCGAGGAGGAAGCCCGATTCCTGCAGAAGGAACTGCAGGAAAAGACAGGCGCACGACAGGTCAGCATTTCTACGGCGGGCTGCGTCATTTGCAGCCACTGCGGCCCTCAAACCGTCGGACTGATGTATACCAAGAAGCCATCATAA	MPGKIKIFADSTCDLPPSWIDEYNIGIVPLYVVFGEQSLRDGVDITPEQLYAKVDQIGSLPKTAAPSPSDFIAAFSPSIEQGEDILFLSISSELSSTYQNALIAAGELPEGRVTVFDSRNLSSGIGLLVMKAVHAANEGSSIPQIVELLSRTVNEVECEFVVDTLDYLYKGGRCSGMQNIIGSLLKIRPVIKVVDGGMIPAYKVRGKKEKALDQMIQNALAQVDKMDNDLIVVVHTMAEEEARFLQKELQEKTGARQVSISTAGCVICSHCGPQTVGLMYTKKPS				NA	NA	NA	NA	NA
AK002_04986	504			hypothetical protein	ATGACGAAACGTACAATCTTGGCACCTCTGCTCATCCTGCTCGGCGCATACTTGCTCTTGAACCAAGGCGGTACCGTAGGCGCCGGTTCTATCTTTGCCACGTTCTGGCCTACCCTGTTCGTGATCCCGTTAGGCCTGTTTTTTCATTGGATGTACTTCTCGCTGGTCGGACGTCAGGGAATCGGGCTATTGATACCGGGCGGCATTCTGCTCACAGCCGGTATTGTCAGCCAAATCGCTTCCTTGTTCGACTCTTGGGGGTCGATGTGGCCCGGCTTTATTCTTGCCGTTGCGGCCGGATTGTTCGAGTTCTACTGGTTCGGTTCGCGTAACAAGTGGCTGCTCATCCCGATTAACATTCTGACCGTCCTGTCGCTGCTGTTCTTCGTGGTATTCTCGATCGGTCCCGTACTCAATTACCTCTCGGTCGTTCAGCCTGTCATCGCGGTGCTGCTTGTGCTTGGAGGAGCTTGGCTGATGCTCGGGCGTAAGAGGCACGGGTGA	MTKRTILAPLLILLGAYLLLNQGGTVGAGSIFATFWPTLFVIPLGLFFHWMYFSLVGRQGIGLLIPGGILLTAGIVSQIASLFDSWGSMWPGFILAVAAGLFEFYWFGSRNKWLLIPINILTVLSLLFFVVFSIGPVLNYLSVVQPVIAVLLVLGGAWLMLGRKRHG				NA	NA	NA	NA	NA
AK002_04987	978	glpX	COG1494	Fructose-1,6-bisphosphatase class 2	ATGGAGAGTTCATTAGCATTGGAGCTTGTAAGAGTGACGGAGGAAGCAGCGCTGCAATCCGCCCGCTGGACAGGAAGAGGTGACAAGAACAGTGCTGATGAAGCCGCAACGGTAGCGATGCGCAAGCATTTTGATTCCGCAGCGATGGATGGGGTCGTGGTCATAGGGGAAGGCGAGATGGATGAAGCGCCGATGCTGTATATCGGAGAGCGCGTAGGGAACCGCAAAGGTCCGAAGATGGACGTGGCGGTGGATCCGCTCGAAGGAACGGAAACGGTGGCGAACGGGCTGAACAATGCGTTGTCCGTGATTGCCGCGGCTCCACGAGGAACCCTGCTGCACGCGCCCGATATTTATATGCATAAGCTTGCGGTCGGCCCCGAGCTTGCGGGCAAGCTGAGTTTGAATGACCCGATTGAGGTTACCCTTCGAAAAGCATCGGAGATCTTATCCAAGCCGCTGTCGGAGATGACCGTGTCCATTCTCGACCGCGAGCGTCACAGCACGATGATCAGGGCTCTGCGAGAATCCGGGGTAAGGATCAAGCTGCTGAGCCACGGCGATGTCATGGGAGCGATCGAGACCTGCACGGACAGCGAGGTCGATCTCTACGTGGGTTCCGGAGGAGCTCCGGAAGGCGTTCTGGCCGCAGCCGCCTTGAAATGCCTGGGCGGAGAAATCCAGGGACGGCTCATACCGGAGACGCCGGAGGATTTCGTCCGATGCCAGGGCATGGGATTGAAGCATCCCGAGCAGCTGTTGACGATGGAGGATATGGTAGGACGGGAAGGCGTGCTGTTCGTAGCCACCGGCGTGACGGCTGGAGATTTCCTGCGCGGGGTTAAATATATGCCGGGTCAGCGGGCCGAAACGCATTCGGTCATGATGTACTCCGGCACGAGAACCGTCCGTTATATCCGGAGCGTCCATCATCTGTTCCAAAGCAATGAAACCTTAGCCGCCGCTGCATCTTCTTGA	MESSLALELVRVTEEAALQSARWTGRGDKNSADEAATVAMRKHFDSAAMDGVVVIGEGEMDEAPMLYIGERVGNRKGPKMDVAVDPLEGTETVANGLNNALSVIAAAPRGTLLHAPDIYMHKLAVGPELAGKLSLNDPIEVTLRKASEILSKPLSEMTVSILDRERHSTMIRALRESGVRIKLLSHGDVMGAIETCTDSEVDLYVGSGGAPEGVLAAAALKCLGGEIQGRLIPETPEDFVRCQGMGLKHPEQLLTMEDMVGREGVLFVATGVTAGDFLRGVKYMPGQRAETHSVMMYSGTRTVRYIRSVHHLFQSNETLAAAASS	PGPT0017655_1200	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017655-glpX|cbbF-K02446	NA	NA
AK002_04988	807	yqfL	COG1806	Putative pyruvate, phosphate dikinase regulatory protein	ATGAATCAGGCATTAACTCATTTCATAGCAATCTGTTCGGACTCCATCGGGGAGACGGCTGAAGCGGTTGTTCAAGCTACCCTGCGCCAATTCGAGCTTCCGAATACAGAGGTTAAACGTTATATGAACGTTCGCGACGAGGAAGAATTAACCGAATTGATGGAGGAGGTGGCAAGGCGCGGAGGATTTGTGGCTTATACGCTCGTTCAGCCGGAGCTTCGCGAGGTCATGCGGGAAGAAGCCGTCCGGCTCAACATTCGCACCGTGGATATCATGGGGCCGATGATGCAGGCCTTTGCCGACACGTTCAACGACTATCCCAAGCGGCTGCCGGGCCTGCTGCACCGCTTGGACGACAGCTATTTCCGGCGGGTGGACGCAATGGAATTCGCCGTCCAGTATGACGATGGCAAGGATGTCAGCGCCATTTTGAAGGCGGACATCATCCTGCTGGGCGTATCCAGGATCTCAAAGACGCCGCTGTCGATGTTTCTCGCACATAAAGGCTATAAAACGGTCAATTTTCCGATCGTGCCGGAGATGTCGCCGCCCTCGCAGCTCAGAGAGGTCACGAACGGCACGATCATCGGGCTTACGATCGAGCCGGAGCATCTTCTCAAAATCCGCAGCGAGCGCTTAAAGGTCATGGGACTGCCGCATCAGGTGCAGTATGCAGCGCTGGAGCGGATCCAGGAGGAGCTGGATTACGCCTTGTCGCTGTACGAGGAGCTCGGATGTCCCGTCATCGACGTCACGGATAAGGCAATTGAGGAATCCGCAGGACTGATCATGAATTATCTGAAATAA	MNQALTHFIAICSDSIGETAEAVVQATLRQFELPNTEVKRYMNVRDEEELTELMEEVARRGGFVAYTLVQPELREVMREEAVRLNIRTVDIMGPMMQAFADTFNDYPKRLPGLLHRLDDSYFRRVDAMEFAVQYDDGKDVSAILKADIILLGVSRISKTPLSMFLAHKGYKTVNFPIVPEMSPPSQLREVTNGTIIGLTIEPEHLLKIRSERLKVMGLPHQVQYAALERIQEELDYALSLYEELGCPVIDVTDKAIEESAGLIMNYLK				NA	NA	NA	NA	NA
AK002_04989	663	ccpN	COG0517	Transcriptional repressor CcpN	ATGCACGCAGGAGGGATCACTATCGAACTGACGACAAGGCAGCAGGATATCGTCGATATCGTAAAAAAACATGCACCCATTACAGGAGATCAGATTGCGGAGATGCTGAATGTCAGCCGAGCCACCCTTCGCACCGATTTATCCAAGCTTGTGGTTCTGGATTATATTGATGCCAAGCCCAAGGTCGGGTACTTTCTGGGAAAGCGGGGAACGCGCGACCGGGAGGAAAAGTTTCGCCTTCTCAAAATGAAGGTTGGCGATCTGCACGGCGTTCCGGTGATTGTGCGTGAGACCACGACGATTCACGAAGCCGTTGTATCCTTGTTTCTGGAGAACGTGGGAAATCTGATCGTTACCGATGCCGACGGCCATCTGGCCGGTATCGTGTCCCGCAAGGATCTGCTCAAGGTAACGCTTGGCAACCCGACGGCCTCCTCCATGCCGGTAAGCCTGATCATGACCCGCCGGGCCAACGTAACAACGGTGCAGCCGGAAGACACGGTGCTGGATGCCGCACGAAAAATCATTAATCATCAAATCGATAGTCTGCCGGTGGTCGTTCCATCCACCACGGGAAATCCGGGGGAGCACTGGAAGGTTGTCGGTCGGATCACAAAAACGAATATTATCAAAATGCTGCTCGACATGGTAGCCGAGGAATAA	MHAGGITIELTTRQQDIVDIVKKHAPITGDQIAEMLNVSRATLRTDLSKLVVLDYIDAKPKVGYFLGKRGTRDREEKFRLLKMKVGDLHGVPVIVRETTTIHEAVVSLFLENVGNLIVTDADGHLAGIVSRKDLLKVTLGNPTASSMPVSLIMTRRANVTTVQPEDTVLDAARKIINHQIDSLPVVVPSTTGNPGEHWKVVGRITKTNIIKMLLDMVAEE				NA	NA	NA	NA	NA
AK002_04990	174			hypothetical protein	ATGAAAGCGTTAACAAGACCGGAGGCAGCCAAAGGCAAGGCGAACGAGGAATGGGGCCTGATCATATGCTCCAGATGCGATGAGATGGTGGACACGATTCCAACCGACGGAGTGAAAATCATTTATGGATTTTGCGGAAAAGGGGAATGCAAGGGCACGGACTATCAGAACTGA	MKALTRPEAAKGKANEEWGLIICSRCDEMVDTIPTDGVKIIYGFCGKGECKGTDYQN				NA	NA	NA	NA	NA
AK002_04991	984	fieF		Ferrous-iron efflux pump FieF	TTGAATAACACATGGCAGCTCATTAAGAAAGGAAATACCTCATCCGCCATTGCCGCACTGGGCAATACGGGATTGGCCATCATCAAGGGGATTGCCGCTTCCATCAGCGGCAGCGGGACGATGTTTGCCTCCGCCATGCATTCGGTGGCCGATGCCGTGAATCAGGGATTCGTATTCGTAGGCAGCGTCCTGGCCGAGCGGAAGCCGACCAAGAAGTTCCCCACCGGCTTCGGCAGGGTCATTAACCTGGTCTGCATGGTCGCGGTGATCGTGGTCACCATCATGGCCTATGAAACGATACTGAAGGGCTTCAAGCTGTTAAAACATCCGGAAGAAGCCACGAATTTCTGGCTCAATTTCATTGTGCTGGCCATTGCTGTTATCATTGACGGTTCCATCCTGGTTAAAGCCATGAAAGAAATTATGAAGGAAACCCGCACCGAAGCATCGGGACTTTCCTTGCTGCCCGCCGCTTTCAAAAATGCCGGCCGCGCCGCCCCGCCGACACGGCTTGTGTTCTATGAAGATATTGTTGCAACGCTTGGCGCCCTCTTCGCGCTGATCGCCATCGTGTTCGCGCATTTCTTCAATTTCCTCATCCTGGACGGAATCGCCACGATCCTGATCGGCTGTCTGATGGTGGGCGTAGCCTTTAAGGTCGGATATGACAACATGGTCGGTTTAATCGGGGTGGCCGCTCCGAAGGACGTGGAAGAGAAGATCTCCGGAATCATTCTTGCCGATCCGGATGTTCGTGACATCAATCGTCTGCGTATTCTGCAGGAAGGCCGTAATTATCATGTGGAAGCCTACATCGAGCTGAAAAAGGGGATGACCCTGGCCGAGGCCGGGCAATCCAAAATGAGAATCAACACCCTGTTGACCCAGGATCCGAACATCTCGGACGTGACCTTGGGCATACTGGAGGACGACGGAATCAAGCTCTGGAATCCTAGAGAGGATCTGGATCATCCGGGTCAATAA	MNNTWQLIKKGNTSSAIAALGNTGLAIIKGIAASISGSGTMFASAMHSVADAVNQGFVFVGSVLAERKPTKKFPTGFGRVINLVCMVAVIVVTIMAYETILKGFKLLKHPEEATNFWLNFIVLAIAVIIDGSILVKAMKEIMKETRTEASGLSLLPAAFKNAGRAAPPTRLVFYEDIVATLGALFALIAIVFAHFFNFLILDGIATILIGCLMVGVAFKVGYDNMVGLIGVAAPKDVEEKISGIILADPDVRDINRLRILQEGRNYHVEAYIELKKGMTLAEAGQSKMRINTLLTQDPNISDVTLGILEDDGIKLWNPREDLDHPGQ				NA	NA	NA	NA	NA
AK002_04992	1797			hypothetical protein	ATGATCGATTTTCCTAAGCCCGATGTGGAGCAATTTTTTCAAACGTATGGCATTCGTACCTTCGGAATCAGTGCAGACGAGTCACGGCTTGTATTCAGCAGCAGTCTAAACGGAAAGTTCAATTTATGGGCCATGGAGTTAGAAGGGGAGACGTCCTACCCTTATCCGCTTACATACAATGACCAGATCGCAAGCTTCATTAAGCTGGACCCGGAAGGGCGGCATATCTTGACGGCGTTTGACCGCGACGGGAATGAGAATTATCAGTTTCATGCGCTGCGCTGGAACGGCGGCGAGCCGATGCCTTTGTTCGAAGGGGCGGACGCGGAGGACAAACATTATTTCGTGCATTTGTCAGAGGACGGCAAGCGACTGTATTACGTCACGTCGAAGGGGAATCCGTCCTACCTGAATTCGCGCGTATATCATCTGGACACCAAGGAGGATCATTTGCTGCATGAGGGCGAGGCGACGTCGACCGAAATGTGTGCCGTGAGTCCCGACGAGAAAACCATCGCGTATACGAAAATGTATGCCAACACCTACTATGTCAGTTACGTGAAGCGAGAGGGCGAAGAGCCGCTGTGCTTGACGCCTACGCCTGAACAGGTGCATATTTCGGGGGATGTGCTGTTTGTCAGCAATGACCAGGTCATTTTTGCAACAGACTATGAATCCGAATTTTCTTATGTGGCCCGTTACGACATCCCGCAGCAGAAGTTTGAACCCCTGTGCCGCATCGATCGGGAGAGCATCCAACTCTTGCGCTTCCATAAGGATTCACGAACCCTGTACATCGTTACGGAAAAAGGGGTAGAGGATCGACTGTATGCCTATTCGCTCGACAGCGGTGAGTTAACCGCCATTCCTCTTCCATCGGACATCGTGGAGCAGCTGAACGTCACGAAGTCCGGCAATCTGTACCTGCTCGCCCGGGGTGCGGTGAAGCCGCTTAACATTTACCGTTATGCAGGCGGCTCATGGAGCACGATCACAAAGAACGTGCTGACAGGGTTGACCGATGAGGACTTGGTGACGCCGGATGTCGTGACGTACCCATCTTTTGACGGGATGGAGATCGAGGCCCTCCTGTTCCGCGCCAAAGACAACGTGGCCAACGGTTATACGGTGTTTTGGCCGCATGGGGGCCCGCAAGCCTCGGAGCGCAAGCAGTTCCGCTCCATGTTCCAGTATATCCTGGCCAAAGGGTATCACATCTTCTGCCCGAACTTCCGGGGAAGCACCGGTTACGGCAGCTCCTTCGTGAAATTGGTGGAGCAGGATTGGGGCGAGGGACCGCGCATGGACTGCTTGGCAGGCATGGATTGGCTGTTCGAGCAAGGGATTTCGAGCCGCGAGAAGCTCTTCGTGATGGGCGGAAGCTACGGCGGTTATATGACCCTGCTGCTGGCGGGCCGGAATCCGGAGTATTTCAAGGCGGCCATCGACATCGTCGGGGTCAGCAACCTGTTTACCTTCTACGATTCGGTGCCGGAACACTGGAAACCAATTATGGAGCGCTGGATAGGCGATCCGGAGCGGGATAAAGAACGCTTCATCAAGGATTCGCCGATTACGTATCTGGATGATATGGTGAACCCGATGCTCATCATCCAGGGAGCCAACGATCCGCGCGTCGTTAAAGAGGAGTCAGACCAAATCGTCGAGGCCTTGAGAGCCAAGGGCCGTGACGTGGAGTATCTTGTGTTCGAAGACGAGGGGCATGGGATTACGAAGAAGGCCAACGAAAAGATCGCTTATGCACGGATGGTCGAATTCCTGAAGCGCAATCATTAA	MIDFPKPDVEQFFQTYGIRTFGISADESRLVFSSSLNGKFNLWAMELEGETSYPYPLTYNDQIASFIKLDPEGRHILTAFDRDGNENYQFHALRWNGGEPMPLFEGADAEDKHYFVHLSEDGKRLYYVTSKGNPSYLNSRVYHLDTKEDHLLHEGEATSTEMCAVSPDEKTIAYTKMYANTYYVSYVKREGEEPLCLTPTPEQVHISGDVLFVSNDQVIFATDYESEFSYVARYDIPQQKFEPLCRIDRESIQLLRFHKDSRTLYIVTEKGVEDRLYAYSLDSGELTAIPLPSDIVEQLNVTKSGNLYLLARGAVKPLNIYRYAGGSWSTITKNVLTGLTDEDLVTPDVVTYPSFDGMEIEALLFRAKDNVANGYTVFWPHGGPQASERKQFRSMFQYILAKGYHIFCPNFRGSTGYGSSFVKLVEQDWGEGPRMDCLAGMDWLFEQGISSREKLFVMGGSYGGYMTLLLAGRNPEYFKAAIDIVGVSNLFTFYDSVPEHWKPIMERWIGDPERDKERFIKDSPITYLDDMVNPMLIIQGANDPRVVKEESDQIVEALRAKGRDVEYLVFEDEGHGITKKANEKIAYARMVEFLKRNH				NA	NA	NA	NA	NA
AK002_04993	1392			hypothetical protein	GTGCACCAAGACGAGATCGCGGAACTGGAACGTTCCATTGCGGAGATTACCGAGATCGCTACAGGCTTTGGCCTTGATTTTTACCCTATGCGATATGAGATCTGCCCGGCAGACATCATATACACCTTCGGCGCCTACGGCATGCCTACCCGGTTCAGCCACTGGAGCTTCGGTAAAACCTTCAATAAAATGAAGATGCAGTACGACTTCGGCCTTAGCAAAATCTACGAGCTCGTGATCAACTCCAATCCGTGTTATGCGTTTCTCCTGGACGGCAACTCCCTGATCCAGAATAAACTCATTGTCGCCCATGTCCTTGCACACTGCGATTTTTTCAAAAACAACGCACGTTTCTCCGTCTCCAACCGCAATATGGTCGAGAGCATGTCCGCCACGGCCGAGCGCATCTCCCGCTATGAGATCGAACACGGCACGGAGGCGGTTGAGCAGTTCATCGACGCCGTGCTGGCGATTCAGGAGCATGTGGATCCCCATATCGTGAGGCCCGATAAACTCGATAAACAGCGCTACACGGCACGGCGGATGCAGGAGCAGAAGGAGGAAGCCAAGCGGCAGAAGCCTCCCGGCCGGTATGACGATTTATGGGAAATGGACGAAGACGGCGACAAACAAACCGATAAATTGCCGGCGGCGCCCAAGCGCTTCCCGCCCGAGCCGGAAAAAGACATCATGTGGTTCATTCAGGAGCACTCCGACATTCTGGAGGATTGGCAGCGGGACATTATGAGCATGCTGCGCGAGGAAATGCTGTACTTCTGGCCGCAGATGGAAACCAAAATCATGAACGAGGGCTGGGCTTCGTATTGGCATCAGCGCATCCTGCGGGAAATGGACCTGACCAGCGAGGAAACGGTGGAGTTCGCCAAGCTCAACGCCTCGGTCGTGCAGCCGTCGCGCCATAGCCTGAATCCCTACTACCTCGGACTGAAAATCTTCGAGGATATCGAGCGCCGATGGGATCGGGAGAAGATGTTTGATGTACGCGAATACGATTCCGATATTTCCTTCCTGCGCAATTATTTAACAAAGGATCTCGTGGAGGACCTGGACCTCTATGTCTTCGAGAAAAAAGGCCCGGAGTGGAAAATCACCGACAAGGCATGGGAGAACATCCGCGATCAGCTGGTCGTCTCCCGCGTAAACGGCGGCTCGCCGTTTCTCGTCGTGACCGACGGCGATCATCTCCGTTCCGGCGAGCTGATGATCAAGCATCTGTACGAGGGCATTGAGCTCGACCTGAAGTATATGGAGCGCACCATCCCTTATGTTTACCGGCTCTGGGGCAAACCCGTGCATCTGCACAGCATCATCGAAGGCAAACCGATTCTGTTCTCCTATGACGGCAAGAAGCTGCATCGACGGTTTATTTAA	MHQDEIAELERSIAEITEIATGFGLDFYPMRYEICPADIIYTFGAYGMPTRFSHWSFGKTFNKMKMQYDFGLSKIYELVINSNPCYAFLLDGNSLIQNKLIVAHVLAHCDFFKNNARFSVSNRNMVESMSATAERISRYEIEHGTEAVEQFIDAVLAIQEHVDPHIVRPDKLDKQRYTARRMQEQKEEAKRQKPPGRYDDLWEMDEDGDKQTDKLPAAPKRFPPEPEKDIMWFIQEHSDILEDWQRDIMSMLREEMLYFWPQMETKIMNEGWASYWHQRILREMDLTSEETVEFAKLNASVVQPSRHSLNPYYLGLKIFEDIERRWDREKMFDVREYDSDISFLRNYLTKDLVEDLDLYVFEKKGPEWKITDKAWENIRDQLVVSRVNGGSPFLVVTDGDHLRSGELMIKHLYEGIELDLKYMERTIPYVYRLWGKPVHLHSIIEGKPILFSYDGKKLHRRFI	PGPT0024845_1021	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415	NA	NA
AK002_04994	1065	hemAT_1	COG0840	Heme-based aerotactic transducer HemAT	ATGATTGATGTTTCCCCGAAAAGACGCCAGCAGTTGGAGTATATCGGATTGGACGAGCAAGGATTGGAGCTTCTCGCAAATCATCGTGAGGTATTTGCGAAGGTGGTTGAAGAGGTCGTGGACCGGTTTTACGCGCAGATCGGAACGCAGCCGCAGCTGATGCAGATTATCGGGCGCACCTCGACCGTGGAACGGCTTAAGGAAACCCAGCGGGTGTATTGGATGTCGCTTGCCGCAGGAAGAGTGGACGATGCTTATATTGCCGAACGGATTAAGATCGGACAAGTTCACTCCAGAATCGGCCTGACCACGGACTATTATCTTGGAAGCTACATGGTTTATTTGGATATTGCCGCCGATTTACTGAAGAAGCTCGTACCGGATCAATGGATTCAAGTGGTGCATGCCCTGAGCAAAATGTTTAACCTGGACTCCCAGCTCGTACTGGAAGCTTACGAAATGAAAGAGAAAGAGAAAATCAGCAACCTGGCTTCGGATCAGCAAAAAATGTTGGAAGCGATTACAACCGCGGTTCAAGAGTTGACGGCAATGATCGTGGAGCTGGATCAGAGCGCGGCGCTGATGGCCGACAACGCCATGAAAACGGCGGAGGCGCAGGATAAGGCGCATACGCTGACTTCCGAGCTGGGCGAAGAAATTTTGCATATCGAGCAGATGGGAAGTTTGATACGGGAAATTTCGGATCAGAGCCACCTGCTTGGCCTGAACGCGGCGATCGAGGCTGCCCATGCCGGGGAGTTAGGCAGAGGCTTCGAGGTGGTTGCCGGCGAAGTGCGGAAGCTGGCCACCAACTCCAAGAAGGCGATGGATGAGATTCAGGACAAGGTCAGCGGCATTATTCGCAAGCTGGGGCTCGTGGAGCAGGAATCGGAGAAAACGTCCATGAACGCGCGTAATCAGGCGGCAAGCTCGCAGGAATTGGCCGCCTTCGTGAAAATGATGGAGAAGCTGGCCGATGATTTGGAATCGCTTCAACACGAATATGATATTCGGAAGCACGATATCGAGATCGACGAAACCTCATCCGAGAAGGTCAGCGTATAA	MIDVSPKRRQQLEYIGLDEQGLELLANHREVFAKVVEEVVDRFYAQIGTQPQLMQIIGRTSTVERLKETQRVYWMSLAAGRVDDAYIAERIKIGQVHSRIGLTTDYYLGSYMVYLDIAADLLKKLVPDQWIQVVHALSKMFNLDSQLVLEAYEMKEKEKISNLASDQQKMLEAITTAVQELTAMIVELDQSAALMADNAMKTAEAQDKAHTLTSELGEEILHIEQMGSLIREISDQSHLLGLNAAIEAAHAGELGRGFEVVAGEVRKLATNSKKAMDEIQDKVSGIIRKLGLVEQESEKTSMNARNQAASSQELAAFVKMMEKLADDLESLQHEYDIRKHDIEIDETSSEKVSV	PGPT0015705_316	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015705-hemAT-K06595	NA	NA
AK002_04995	1896			hypothetical protein	ATGGATATTTTCGAACGCATAGCATCGTATCGGGCAGAAGGCGACCGTTTGGCGTGGAGCGGCACATTCAGGGAATACATTGAAATACTTAAGAAGGATCCCTCTCCAGCCATGACGGCCCATGCCCGTGTATATGACATGATCGAATCCTACGGTTTCGAAGAGAGCGGGGGCCAGAAAAAATATAAGTTTTTTGAGCAGGAAATCTTCGGCCTTGACCGGGCTGTCGAGAAACTCGTGGAGGAGTACTTCCATTCGGCAGCCCGCAGGCTCGATGTACGCAAACGCATACTGCTGCTTATGGGACCTGTCAGCGGCGGCAAATCCACGCTTGTCACGATGCTGAAGCGCGGCCTCGAGAAGCATTCCCGTACCGACCGCGGAGCGGTATACGCGATCGCCGGCTGCCCGATGCAGGAAGAGCCGCTGCATTTGATTCCGACGGAGCTAAGACCGGAGATCGAGAAGGAGCTCGGCGTCCGAATCGAGGGGAATTTGTGCCCGGCCTGCCAGCTACGCCTTAAAACCGAGTACGGCGGCGATATCGAAAAGGTTGAAGTTGAACGGATATTAATCTCCGAGGAGAACCGGGTCGGCATCGGCACGTTCAGTCCGTCGGATCCCAAGTCGCAGGATATTGCCGATTTGACCGGCAGCATCGATTTCTCCACCATCACGGAATACGGCTCCGAATCGGATCCGCGCGCCTACCGGTTCGACGGCGAGTTAAACAAAGCGAACCGCGGTTTGATGGAATTCCAGGAGATGCTGAAATGCGACGAAAAATTTCTATGGAACTTGCTCTCCCTGACCCAGGAAGGGAACTTTAAAGCGGGCCGGTTCGCGCTGATAAGCGCGGATGAACTGATCGTGGCCCATACCAACGAATCCGAGTATAAGGCGTTCATTGCCAATAAGAAAAACGAGGCTCTGCAATCCCGGATGATTGTCATGCCGATCCCGTATAATCTGCGTGTCAGCGACGAGGAGAAGATCTACTCGAAGCTGATCGGCCAAAGCGATATGAAGCATATCCATATCGCGCCGCACGCGCTTCGTTCTGCCGCGATATTCTCCGTCTTGACGCGTTTGAAGGAAACGAAGAAGCAGGGCATGGATCTGATCAAGAAGATGCGCATGTACGACGGGGTGGAGGTTGAAGGGTATAAGGAAGCGGACCTGAAGGAGATGCAGAACGAATATCTGGAGGAAGGCATGTCCGGCATCGATCCGCGTTATGTCATCAACCGGATATCCAGTGCTTTGATTAAGCAGGATCTTCAGTGCATTAACGCGCTGGATATGCTGCGGGCGATCAAGGATGGGCTGGATCAGCATGCGTCCATTGCCAAGGAGGAGCGGGAACGCTACCTGAATTTCATTGCCGCCGCTCGCAAGGAGTATGACGATCTGGCCAAGAAGGAAGTCCAGAAGGCTTTTGTGTATTCCTTCGAGGAGTCCGCCAAGACACTGTTCGAGAATTATTTGGATAACATCGAAGCGTTCTGCAACTGGACCAAAATCCGCGATCCGTTGACCGACGAGGAGATGGATCCAGACGAAAGATTAATGCGCTCGATCGAGGAGCAGATCGGCGTCTCGGAGAACGCGAAGAAGGCGTTCCGGGAGGAAATCATGATTCGTATCTCGGCTTATTCCCGCAAGGGCAAAAAGTTCGAGTACCACAATCATGAGCGCCTTCGGGAAGCGATTGAGAAGAAGCTGTTCACGGACCTCAAGGACATCGTCAAAATTACGACCTCGACCAAAACGCCGGATGCCGTGCAGTTGAAACGGATCAACGAGGTAAGCTCCAGGCTGATCGAGGAGCATGGGTACTGCCCGGTATGCGCCAATGAGCTGCTGCGTTACGTGGGCAGCCTGTTAAACCGGTAA	MDIFERIASYRAEGDRLAWSGTFREYIEILKKDPSPAMTAHARVYDMIESYGFEESGGQKKYKFFEQEIFGLDRAVEKLVEEYFHSAARRLDVRKRILLLMGPVSGGKSTLVTMLKRGLEKHSRTDRGAVYAIAGCPMQEEPLHLIPTELRPEIEKELGVRIEGNLCPACQLRLKTEYGGDIEKVEVERILISEENRVGIGTFSPSDPKSQDIADLTGSIDFSTITEYGSESDPRAYRFDGELNKANRGLMEFQEMLKCDEKFLWNLLSLTQEGNFKAGRFALISADELIVAHTNESEYKAFIANKKNEALQSRMIVMPIPYNLRVSDEEKIYSKLIGQSDMKHIHIAPHALRSAAIFSVLTRLKETKKQGMDLIKKMRMYDGVEVEGYKEADLKEMQNEYLEEGMSGIDPRYVINRISSALIKQDLQCINALDMLRAIKDGLDQHASIAKEERERYLNFIAAARKEYDDLAKKEVQKAFVYSFEESAKTLFENYLDNIEAFCNWTKIRDPLTDEEMDPDERLMRSIEEQIGVSENAKKAFREEIMIRISAYSRKGKKFEYHNHERLREAIEKKLFTDLKDIVKITTSTKTPDAVQLKRINEVSSRLIEEHGYCPVCANELLRYVGSLLNR	PGPT0014345_1265	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180	NA	NA
AK002_04996	780			hypothetical protein	ATGGCGATAAAGCATGAAGCCGAGCTGTACGCTCCCCTGAAGGCCTTTTTCGAATTAAACGGATATGAAGTCAAAGGCGAGGTACGGAATTGCGATCTGGTCGGCATGAAAGACGGTGCCGATGAACCGCTGATCGTGGAGCTGAAAAAAACGTTCAATCTGGCCCTTCTGCTCCAGGGCATTGAGCGGCTGAAGCTGACCCCGTACGTATACCTGGCCGTCGAGAAGAGCCGGGCGAAGAAAGGAGCGGTCAACCAGCGCTGGTCCGAGCTGACGGGGCTTTGCGGACGACTGGGATTGGGGCTCATCACGGTCACCTTCTACAAAACCAAGGCGCCCTTCGTCGAAGTGCTCTGCGAGCCGGAGATGGCCGTCCAGAAGGGCCGCACCGCCATTAGGCGCAAGGAACGCCTGCTGTACGAGTTTCGGGAGCGCAGCGGCGATTACAACACGGGCGGGGTGACGAGGGCCAAGCTGGTGACGGCTTACCGCGAGAAAACGCTGCGGGTTGCTGCTGCCATGAATGCAGCGGAAGCGGAACAGCGCAGCATGCACGAACCGGCCCCCGATGGGCTTGAGCTCCAAGAAAAAGCTGTCCCTGCTGTGCCGCCCGGCATTTCTCCCGCGGCTGTGCGGGATCGGAGCGGCGTGGGTTCGGCGGCAGACATTCTGCAGCGCAACTACTACGGCTGGTTCCGCCGGGTGAGCCGCGGACGCTACGTGCTGACGCCGGCAGGCGTGCAGGCCTTGGCAGACTATGCCACCGTATTGAAATCATAA	MAIKHEAELYAPLKAFFELNGYEVKGEVRNCDLVGMKDGADEPLIVELKKTFNLALLLQGIERLKLTPYVYLAVEKSRAKKGAVNQRWSELTGLCGRLGLGLITVTFYKTKAPFVEVLCEPEMAVQKGRTAIRRKERLLYEFRERSGDYNTGGVTRAKLVTAYREKTLRVAAAMNAAEAEQRSMHEPAPDGLELQEKAVPAVPPGISPAAVRDRSGVGSAADILQRNYYGWFRRVSRGRYVLTPAGVQALADYATVLKS				NA	NA	NA	NA	NA
AK002_04997	1215	lysN_2	COG1167	2-aminoadipate transaminase	ATGCAGTATTCCTTTGCTTCCCGTGCACAGACCCTTTTGTCATCCCCGCTGCGCGATATCAGGGAACTTGCGAAGCGGGATTCTTTTATTTCCTTGGCGGAAGAGCTGCCGGCCGAAGAGTTATTCCCTTTGCATTCTCTGGCGGAGGCGGCGACATCGGTGCTGTCCGAGGACCCGCTGGCCCTGCAGTACGGTGAGGCGGAAGGCTATGGGCCGCTCCGCGAGTGGCTGAGCGAGGACTTCTCCCGGCGGAAAGGCCTGAGCGTCCAGCCCCAGCATATTTTGCTGACGACAGGCACCCAGCAGGCCATCGATTTGCTGGTCAGGGTGTACGTGGACCCTGGGGATCCGGTGCTGGTGGAGAATCCGACCTCCCCGGGACTGCTTCAGGTGCTGCGTCTTCAAGGTGCCGTCATCGTTCCTGTGGAGGGAGATCATGACGGGATGCTGCCCGAGCATCTGGAGGCCATGATCCGGCAGCATAAGCCGAAACTGCTTATGGCCGCGCCTAATTTTACCAATCCGACCGGCGTCATGTGGAGTTTGGAACGGCGTCAGCAGGTGCTGAAGCTATGCGTCTCGCATGGGCTTCTTGTCGTGGAGGATGATTCATACGGCGACCTTCATTTCGCGGATGCCAAGAATCCGAAGCCCCGCATTCCTTCCATCTTCTCGCTCGAAGAGCCGCAGGGAGGACATGTTCTGTATGTGGGCTCATTCAGCAAAACCGTAGCCCCCGCGCTTCGAACGGGATGGGCCGCCGGGAGCCGGCGATTGATCGAGATGATGACGGCCGTGAAGCAGATGGCCGACTGGCAATCCAGCATGCTCAACCAGCGGATGCTGCACCATCTGCTGGAATCGAAGCATTTTAAGCTGGAGGATCATATCGACATGCTCAACCGGGAATATGCAACGAGGCTCAAGCTGATGGTGGAGCTGCTGAAACGCAGCGCATGGAAGGATTCGAGGTACGCGGTACCGCCCGGCGGGATGTTTCTCTGGGTGCAGCTGCCCCCAGGCTTGGACGGGGAAGCGCTCCTGAGGGCGGCCTTGCTGAAGGGAGCGGCATTCCTTCCGGGCTCGATGTGCTCGCCGGCAGATCGAACCAGGGAGTGCATCCGGCTGAATTTTACGCATCCCGGGCGGGATGAGCTGCTGCTCGGCATGAATCTTATCAGCGAAGCCGTGATGGAATTTACGGCCCGGAATTAG	MQYSFASRAQTLLSSPLRDIRELAKRDSFISLAEELPAEELFPLHSLAEAATSVLSEDPLALQYGEAEGYGPLREWLSEDFSRRKGLSVQPQHILLTTGTQQAIDLLVRVYVDPGDPVLVENPTSPGLLQVLRLQGAVIVPVEGDHDGMLPEHLEAMIRQHKPKLLMAAPNFTNPTGVMWSLERRQQVLKLCVSHGLLVVEDDSYGDLHFADAKNPKPRIPSIFSLEEPQGGHVLYVGSFSKTVAPALRTGWAAGSRRLIEMMTAVKQMADWQSSMLNQRMLHHLLESKHFKLEDHIDMLNREYATRLKLMVELLKRSAWKDSRYAVPPGGMFLWVQLPPGLDGEALLRAALLKGAAFLPGSMCSPADRTRECIRLNFTHPGRDELLLGMNLISEAVMEFTARN	PGPT0007135_832	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
AK002_04998	657	narL	COG2197	putative transcriptional regulatory protein NarL	ATGAATCAGGTTTGGCGGGTAGTTATCGTCGGAAGTCAACCTACAAGCATGCTGGGAACGAAATTGATTTTGGAAGAGCAGCAGGATCTGCTCGTAGAGGGAATGACATCCTCGGGCTCGGAAGGGCTTCGAATGGTCGAGGATTTGCTTCCTGACTTGGTACTATTGGATTATCATTTGTCGGATCATACGTCCGAAGCGGTGTTGGAGCAGATGAAGCTGCTGTCACCGAAGACCCATGTCGTCATTATGACCGATAATGACGGGCTTCCCTTGCTCCAGTCTTTGATCAGTCGCGGCGCAAGCGGCCTGTTGTCCAAGCAGGCATCCACTTTCCAGCTCATACATATGATTACCGGACTTCGGGAGGGCGTTGCCTCGCTGCCGCTCGACTGGGTAAGGCAAGGCATCTGGCCGCTGACGGCCTCTGCGATGAACGAAGGCGGGCTCCAGCTCTCCGAGACGGAGGCTTTTATAATGGAACGGATCGTCCAAGGCATTACGTACGACAAAATCGCCATGGAAATTCAGGTAAGCCGCCGCTCGATCGACAACTACCTTCGCAAAATATACGTGAAACTCGGGGTTTCCACCCGTGCGCAGGCCATCGAGAAGTATGCCCTGTACACCCGCCAAGGCAGGCAAATTTATGCCTAA	MNQVWRVVIVGSQPTSMLGTKLILEEQQDLLVEGMTSSGSEGLRMVEDLLPDLVLLDYHLSDHTSEAVLEQMKLLSPKTHVVIMTDNDGLPLLQSLISRGASGLLSKQASTFQLIHMITGLREGVASLPLDWVRQGIWPLTASAMNEGGLQLSETEAFIMERIVQGITYDKIAMEIQVSRRSIDNYLRKIYVKLGVSTRAQAIEKYALYTRQGRQIYA	PGPT0028590_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TOXINES_NEUTRALIZATION_YDF_SYSTEM,PGPT0028590-ydfI-K11624	NA	NA
AK002_04999	414			hypothetical protein	ATGCCAATGTTGGAGCCGGAAAACAATACCCCCTATAAATCCCGTGAGGAAGTGCATCAAAAGGGGCCATCCGCCAAATGGTTCTGGGTATTTTGGATTGTGCTGATCGGGCTGGGTACCACCGCAGCCTACCTATATAGCAATCATCTGAAAGAGCAAGTCGTGGTGCAGCTGCAGCAGGATACGCGCCAGGAGATGGCGGCATTCAAAGCGGAGTACGACCAAAGGTTTAACGAGCTGGTTCAGGAAATGGACGAGATGCAGAGCAAGGTTCAGTCGTTTAATGAGCTGCTGACCTTTACCAAGGATCAGGCAAGCGGCAAGACGGACAACAGCAACAAGCTGTACAGTCAATTGAGCCAAGTCGAGAAACAGCTGAAAGAGCTGGAACGCAAGATGGAGCTGCTGAAGTGA	MPMLEPENNTPYKSREEVHQKGPSAKWFWVFWIVLIGLGTTAAYLYSNHLKEQVVVQLQQDTRQEMAAFKAEYDQRFNELVQEMDEMQSKVQSFNELLTFTKDQASGKTDNSNKLYSQLSQVEKQLKELERKMELLK				NA	NA	NA	NA	NA
AK002_05000	1086			hypothetical protein	GTGAGAAAACTGAAGTATATCCGTCCTAAACAGTTAAACCGTACGTTTATGCTTGCCATTGCACCATTTATCGGGATGCTGCTGTGCATGTGGTTAATCACCGAGCCGCCGCGCCTGTCGCACGAAACCGCAGAGTACATACCGTCGGGCAGCATATCGGAACAGTCCGCCATGATCAAGCAGGATCTGGATCAAGCTGCAGTCTCAGCAGAACAGACGATATCCTCCATTGAAAAAACGGCCAAGCTCTATCGGCAGACGACCGCTACGGTAGGAACCATTCTGCATACAGCGGAATCACAAGCCGCGCGGCCGGAGCAAATCTATAATCGCCGGATCACAGCCAAACTGGGTGTCCCGATCGAGACGGTCAACAGCGACCGGATTCGAATCGAATTGTACAAGATCAATCCGGGCACCTATCGCGGCTATGCGATGAAGGTTAAACTGAAGGATCCTTCCGCAATGAAGATGTCGCTCGGCAGCGAAAGCGGCAGACCCGGATCCGTCGAAACCACGATGCGCGCCGTAAGCCGGCATGGCGCCGTTGCGGGGATTAATGCCGGCGGATACGCTGACGGGAACGGGGGCAGACATCCGCTGAGCACGACCTTTTACGACGGCAAATACGTCTCGGGATTTCAACCGAGCTTTAAGGATCTGGCCTTTGTCGGCCTGAGCAAATCCGGCAAGCTGATCGGCGGCAAGTTCTACAGCCAGAGCGACCTTGACCGGCTCGATCCGATGTTCGGGGCCACCTTTGTGCCGGTGCTGCTCCAAAACAGCAGGAAAACGACGATCCCCGACAAATGGAAAACGACTCCCGGCCGGGCACCACGCACGGTCATCGGCAATTACAAGGACGATCAGCTGCTCATCCTCGTTACCGAAGGATATGATGAGAAGGGAAAATCGGGAGCCACGCTGCAAGAGCTGCAAACCAAACTGAAAAAAATGGGCGTGATCGACGCCTATAACCTGGATGGCGGCGGTTCCGCATCCCTTGTTCTGAACGGACGCGTCGTGAACAAGCCGTCGGACGGCAGTCTGCGGCCGGTACCCACGCACTTCTTGTTTTTCAAATGA	MRKLKYIRPKQLNRTFMLAIAPFIGMLLCMWLITEPPRLSHETAEYIPSGSISEQSAMIKQDLDQAAVSAEQTISSIEKTAKLYRQTTATVGTILHTAESQAARPEQIYNRRITAKLGVPIETVNSDRIRIELYKINPGTYRGYAMKVKLKDPSAMKMSLGSESGRPGSVETTMRAVSRHGAVAGINAGGYADGNGGRHPLSTTFYDGKYVSGFQPSFKDLAFVGLSKSGKLIGGKFYSQSDLDRLDPMFGATFVPVLLQNSRKTTIPDKWKTTPGRAPRTVIGNYKDDQLLILVTEGYDEKGKSGATLQELQTKLKKMGVIDAYNLDGGGSASLVLNGRVVNKPSDGSLRPVPTHFLFFK				NA	NA	NA	NA	NA
AK002_05001	105			hypothetical protein	ATGTCGTTCTCATTAACATTTTGGATCGTCATGCTCGTATTCGCCCTTTATATGGTTGGCATTTGGACCGCGGCATACAATGATGACAAAACCAAAGGCCTGTAA	MSFSLTFWIVMLVFALYMVGIWTAAYNDDKTKGL				NA	NA	NA	NA	NA
AK002_05002	255			hypothetical protein	ATGAAACCTGCTGGTGTTGTCCGTAAAGTTGATCAGCTGGGAAGAATCGTTCTGCCTAAGTCTCTGCGCAAGAGATATCAAATGAACGAGGGGGATCCCGTAGAAATCCTTGTACAGGGGGACCATATTATATTGGAGCGCTATCGTCCGAAATGCGTCTTCTGTGGCTCCATGGACGGCGTAAGCGAGTTTAAGGAGCGCTATATCTGTTCGCAATGCATGTCCGAAATGCAGCAGCTTCCTAAACATGCCTAA	MKPAGVVRKVDQLGRIVLPKSLRKRYQMNEGDPVEILVQGDHIILERYRPKCVFCGSMDGVSEFKERYICSQCMSEMQQLPKHA	PGPT0014790_512	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK002_05003	465	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	ATGGCATTACACATCGTACTAGTCGAACCGGAAATTCCAGCCAATACGGGCAATATCGCCAGAACCTGTGCCGCCACGGGCACGCATCTGCACCTGGTCCGTCCACTCGGCTTTAATACAGACGACAAGACATTGAAACGGGCCGGACTGGATTACTGGTACGCCGTACATATTGAATATCACAATTCCTTTGAGGAATTGCAGGCGCTCTATCCGGAAGGGCGTTACTTCTACGCTACGACGAAGGCTACCAAGCGTTACATGGACATCGAATATCAGGATGGGGATTTTTTGGTGTTCGGCAAAGAAACCAAGGGATTGCCTCCGGAACTGCTGGCCGCAAATACCGAGCATTGCATCCGCATGCCGATGACGGATAAGGTTCGATCGTTGAATCTGTCCAACTCCGCGGCGATTATGGTATATGAGGCACTACGCCAGCTGGATTTCCCGGGTATGGAATAA	MALHIVLVEPEIPANTGNIARTCAATGTHLHLVRPLGFNTDDKTLKRAGLDYWYAVHIEYHNSFEELQALYPEGRYFYATTKATKRYMDIEYQDGDFLVFGKETKGLPPELLAANTEHCIRMPMTDKVRSLNLSNSAAIMVYEALRQLDFPGME	PGPT0013375_29	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
AK002_05004	1089	serC		Phosphoserine aminotransferase	TTGAGCAAGAGAGCATACAATTTTAATGCAGGACCTGCTGCATTGCCGCTTGAAGTGTTGGAGCGCGCCCAGGCCGAATTCGTCAATTACGGAAATACCGGCATGTCGATTATGGAAATGTCTCATCGCGGCGCCGTTTATGAAGCCGTTCATAATGAAGCGCAGGAGCGCCTGCTGTCCCTGCTGGGGAATCCATCCGGGTACAAGGTATTGTTCATCCAGGGCGGCGCAAGCACGCAATTCGCCATGATTCCGATGAACTTCCTGGGTCAAGGCCAGGTCGCGAACTACGTGATGACGGGAAGCTGGGCGGACAAGGCTATTAAAGAAGCCAAGCTGATCGGCGATACCCATGTGGCGGCATCTTCCGAGGAGAGCAAATACATGACTCTGCCCCGCATTCAAGACATTAAGCTGTCGGACAATGCAGCTTATCTCCATCTGACTTCCAATGAAACCATTGAAGGCACCCAGTTTAAGGAATTCCCGGATACCGGTTCCGTTCCGCTCATCGGTGATATGTCAAGCGATATTCTCAGCCGTCCATTCGATATGAACCAGTTCGCGATGGTGTATGCGGGAGCGCAGAAGAACCTCGGACCATCCGGCGTGGCGGTCGTGATCGTCAGAGAGGACATGATTACAGATTCTCCTAAACATCTGCCGACTATGCTTCGTTACAATACTTATATGAAAAATAACTCGCTGTACAACACGCCGCCTTCTTTCGGCATTTACATGATCAACGAAGTGCTGAAGTGGATTGAGGAGAAGGGCGGTCTCCAAGGTGTTCAACAGTTGAATCGCAAGAAAGCGGCTCTGATCTATGATGCCATCGACAGCAGCGAAGGCTTCTACCGTGGCTGCGTGGACGCAGAGGTGCGTTCCGATATGAACATTACGTTCCGTCTTGCCTCCGAGGAGCTGGAGAAGGAATTCGTGAAGGCTTCGGAGCAAGCGGGCTTTGTCGGCCTCAAGGGCCACCGCAGCGTCGGCGGCTTGCGGGCTTCCGCATATAATGCCGTTCCTTATGAGAGCGCTCAGGCCCTCGTGGAATTCATGCAGGAGTTCAAGAACAGCCACAGCTAA	MSKRAYNFNAGPAALPLEVLERAQAEFVNYGNTGMSIMEMSHRGAVYEAVHNEAQERLLSLLGNPSGYKVLFIQGGASTQFAMIPMNFLGQGQVANYVMTGSWADKAIKEAKLIGDTHVAASSEESKYMTLPRIQDIKLSDNAAYLHLTSNETIEGTQFKEFPDTGSVPLIGDMSSDILSRPFDMNQFAMVYAGAQKNLGPSGVAVVIVREDMITDSPKHLPTMLRYNTYMKNNSLYNTPPSFGIYMINEVLKWIEEKGGLQGVQQLNRKKAALIYDAIDSSEGFYRGCVDAEVRSDMNITFRLASEELEKEFVKASEQAGFVGLKGHRSVGGLRASAYNAVPYESAQALVEFMQEFKNSHS	PGPT0009160_2869	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
AK002_05005	885			hypothetical protein	GTGGGACATCAACTAGCGAACGGACGATTGGAAGTCGAAATAGCGAAAGTCGGACGTTATCAAGGCACGCGTTTTGACCGCACGGGTTTCATCACCCAGGTGAAATTGACCGAGAGCGGCCATACCTTCTGTGTTCATGAGTTAGCGGAAGGGTTTAACCCGCAGGCCGGGTCCGGGTTATGCAACGAGTTCGGACTCCATGAAGGGATGGGGTACGCGGAGGCCAAAGTTGGAGATTGGTTTCCTAAATTAGGGGTGGGCCTTCTTAAACGGGTCAGCGAGGCCCCGTATAACTTTCAGTATGCGTATCCGGTGGAGCCTTTCGATGTTGAGGTCATTTCGGGTGACTCGAGCATCTCCTATACGGTTCGTTCCAGGAGCATGAATGGTTATGCGGCAAGACTGGTGAAGAAGATCTCGATTGAAGATACCGTATTAATGATAGATTACGAGCTTATTAACGAAGGAAGCCGAAAGATCGATACGGAGGAGTATATCCATAATTTCATAGGGATCAACGAGGAAGCGGTAGGACCCGAGTATAAGCTGAAGCTGCCGGTTCCTGTCCGGTTTACGGAGGTCGAATCAGACTATACCTCGGACCTGCTGTCTGTCCAGGATAACGAGATAGGCTGGACCGCCAGACCGCATAAGCCCTTCTATGGAAGAATGAAAGGCTTCAACGGCAGCGATTATCCGTATTCCTGGGAGCTGACGCACAATGCCCGCAGGGCGGGGGTAAGGGAAATCAGCGATTTTCCGGTTGCGCATATGGCCCTGTGGGGGACAGGACACGTTATTTCGCCGGAAGTGTTTGTTCGATTAAGCCTGGCATCCGGAGAAAAGAGATCCTGGAGCAGAAAGTACCAATTCTTCTGTTGGTAA	MGHQLANGRLEVEIAKVGRYQGTRFDRTGFITQVKLTESGHTFCVHELAEGFNPQAGSGLCNEFGLHEGMGYAEAKVGDWFPKLGVGLLKRVSEAPYNFQYAYPVEPFDVEVISGDSSISYTVRSRSMNGYAARLVKKISIEDTVLMIDYELINEGSRKIDTEEYIHNFIGINEEAVGPEYKLKLPVPVRFTEVESDYTSDLLSVQDNEIGWTARPHKPFYGRMKGFNGSDYPYSWELTHNARRAGVREISDFPVAHMALWGTGHVISPEVFVRLSLASGEKRSWSRKYQFFCW				NA	NA	NA	NA	NA
AK002_05006	2727			hypothetical protein	ATGAAATCAACGGGATGGAAGTTCGAGGGGGATCAGGGCGTCTTTACGCTGCGTCATCCTGAACGTCATAACTATTTATATTTTCCTTTGGTCAACGAGGCGGGCATGATGTCGGCCATCACGCCGAATCTTCACGGCGAAATGACCAGCAGCCACAATACGTTTTTGATGTCGCCGGTATCTGTGGAGGATCTTCATAATTCCAAGTCCGCGCGCAACTTTTGGGTGCACATCGACGGGCATGGCGCATGGTCCGTATCCGGAAACTCCGCGAAGCAGAATGCGAACCGGTTCATGCATCAGGAAGAAGAAGGCCAATTGGAAGCCGGGTTCCTATGGCACAAGCTGAAGCGGATGAACGGGGAGGCCGGACTGCAAACGGAAGTTACCAGCTTCGTGCCGGTGACCGATGACCAGATCGAGTTAATGAAAGTAACGCTGACCAATGTAGGCCAGCAGACGCTTAAACTGACCCCTACCGCGGCTGTTCCGCTGTATGGCCGTTCGGCGGATGATCTGCGGGACCATCGTCATGTGACATCCCTGCTGCATCGCATTTATGTCCATCGGGAAGGGGTCGAAGTGCAGCCCGTGCTCTCGTTTGACGAGCGGGGCCACCGTATCAATCGCGTTTCCTACAGCGTGCTGGGTGCGGAGGGGGACGGCTCAGCCCCAATCGGTTATTTCCCGGTGCTCGAGGAATACATCGGGGAGGGCGGGGCTCTCGATTGGCCGGAGGCCGTCATTGCCAATAAGCCGGCATACGCGCAGGCTGGAGACTCCATGGAAGGGTACGAGGCCCTTGGCGGCCTGCGGTTCGCGGAGGCGGAGCTGCGGCCCGGTGAATCCAAAGCCTATGTTGTGGCAATGGTCATAGCGAAGGATCGCGCAGACATCGAAAGGCTGTCCGAAACGTATTTATCGGCGAAACGGTTTGATGAGCTGTTTGCACAGAACGAAGCCTATTGGAATGAGAAACTGAATACGGTATCCTTCCAGACCGGTGATCCGAAGCAGGACCTATGGATGAAATGGGTAACCCTGCAGCCGATCCTGCGCCGTTTATATGGGAATTCCTTTCTTCCATATCATGATTACGGCCGAGGTGGCCGCGGATGGCGCGACCTGTGGCAGGATTGCCTGGCCTTGATGATTATGGAGCCTGCCGAGGTTCGATATCTGCTGCTCAATAACTATGCGGGCGTCCGGATTGACGGAAGCAATGCTACGATCATCGGCACGAAGCCGGGCGAATTCGTTGCTGACCGGAACAACATTCCGCGCGTATGGATGGATCACGGCGCTTGGCCTTTCATGACCACGCTGCTTTATATCGATCAGAGCGGGGATATGGATTTTCTAAAGCAGCCGCAGATCTATTTCCGCGACGTATTCGTGAAACGCTGCCAGGAGAAGGACGCCGGATGGCTGCCTGAGCACGGGAATCGACTCTTGACCGCCAGCGGCGAGGTGTACGAAGGTACGGTCCTGGAGCATATGCTGCTTCAAAATCTGGTGCCGTTCTTTAACGTCGGCGAACACAACAACATCAAGCTCGAGGGAGCCGACTGGAACGACGGTCTGGACCTCGCTCCGGGCAGAGGGGAGAGCGTGGCCTTTACGGCGTTTTATGCCAGCAATTTGATGCAGCTTGGCGATCTGCTGCTGGCGTGGCAGGATACAGAAGGCGTCGAGCATTTGGAAATAGCGGAGGAAATGGCGGTGCTTCTCGATTCGGTAACGGCTCCCGTCTCGTACGAGGATGTGCAGGGCAAGCTGAATTTGCTGGATAGCTATTATGAGACCGTCAAGGTGTCCGTGACCGGAAACAAACGGAAATTCAGCGTTGCGGACGTTGTGCAGGATTTGAAGCTGAAGGCGGATTGGCTCGTCCAGCATTTGCGCTGCAACGAATGGATCACGAGCCAAGAAGGGTACTCCTGGTTTAACGGGTATTACAATAATGACGGCGCCCGCGTGGAAGGCGATCATCCCCTGGGCGTGCGCATGACGCTAACAGGCCAGGTCTTTGCCGTCATGGGCGGAATTGCGGACGATGAACAGATAGGGCACATCACGAAGTCGGTTGACCGTTACTTAAAAGACCCTAGCATCGGTTACCGCCTCAATTCGAACTTTGGCGAGATCCAACAAAACCTGGGGCGGGCATTCGGCTTCGCGTTCGGACATAAAGAGAATGGGGCCATGTTTAGCCATATGAGCGTCATGTACGCCAATGCGCTTTATAAGAGAGGTTTTGTCCAAGAGGGCTACGAGGTATTGCGTTCGATTTATGATCTGAGCCAGGATTTTGAACGCAGCCGCATGTATCCGGGCATTCCCGAGTACATTAACGAGAAGGGAAGGGGGATGTATCCCTACCTTACCGGGTCGGCAAGCTGGCTGCTGCTCACCATGCTGACCGAGGTGTTTGGAGTGAAAGGGAACCGGGGACATCTTCGCCTGGAACCGAAACTAAGGTCTGCTCAATTCGATGCCGACGGTCATGCCACGGTCACTACCGGGTTTGCCGGAAAACAGCTTCAAATCGTATATGGCAATCCAAACCGGTTGGATCACGGAAGCTATGCGATTCAATCGGTTATGCTGAACGGTGAAAAGATACAGCTGCGCAGTCAAAAACCCGGGGCCGTCGAGCTGGATCGCAGCATGCTGTCTTCGTTAACCGGCAGCGAGCGGGCTTTGATTCACGTTGAGCTTGCCTGA	MKSTGWKFEGDQGVFTLRHPERHNYLYFPLVNEAGMMSAITPNLHGEMTSSHNTFLMSPVSVEDLHNSKSARNFWVHIDGHGAWSVSGNSAKQNANRFMHQEEEGQLEAGFLWHKLKRMNGEAGLQTEVTSFVPVTDDQIELMKVTLTNVGQQTLKLTPTAAVPLYGRSADDLRDHRHVTSLLHRIYVHREGVEVQPVLSFDERGHRINRVSYSVLGAEGDGSAPIGYFPVLEEYIGEGGALDWPEAVIANKPAYAQAGDSMEGYEALGGLRFAEAELRPGESKAYVVAMVIAKDRADIERLSETYLSAKRFDELFAQNEAYWNEKLNTVSFQTGDPKQDLWMKWVTLQPILRRLYGNSFLPYHDYGRGGRGWRDLWQDCLALMIMEPAEVRYLLLNNYAGVRIDGSNATIIGTKPGEFVADRNNIPRVWMDHGAWPFMTTLLYIDQSGDMDFLKQPQIYFRDVFVKRCQEKDAGWLPEHGNRLLTASGEVYEGTVLEHMLLQNLVPFFNVGEHNNIKLEGADWNDGLDLAPGRGESVAFTAFYASNLMQLGDLLLAWQDTEGVEHLEIAEEMAVLLDSVTAPVSYEDVQGKLNLLDSYYETVKVSVTGNKRKFSVADVVQDLKLKADWLVQHLRCNEWITSQEGYSWFNGYYNNDGARVEGDHPLGVRMTLTGQVFAVMGGIADDEQIGHITKSVDRYLKDPSIGYRLNSNFGEIQQNLGRAFGFAFGHKENGAMFSHMSVMYANALYKRGFVQEGYEVLRSIYDLSQDFERSRMYPGIPEYINEKGRGMYPYLTGSASWLLLTMLTEVFGVKGNRGHLRLEPKLRSAQFDADGHATVTTGFAGKQLQIVYGNPNRLDHGSYAIQSVMLNGEKIQLRSQKPGAVELDRSMLSSLTGSERALIHVELA	PGPT0018685_49	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_COMPLEX_SUGAR_UTILIZATION	PLANT_DERIVED_CELLULOSE|HEMICELLULOSE_DEGRADATION,PGPT0018685-cbp-K00702	NA	NA
AK002_05007	837	melC_17	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGCGAAATTCCAAAACCACGCAAATCCTCTCTTATGCCGTCATAGGTTTGCTGCTGATTCTGTACGTCGTTCCGCTTCTGCTCGTCTTCAATGTATCGCTCAAATCCTTCAACGAATACTTGCTCAACCCGATCGGAATCGTGAAGAACATCGAATGGGGCAACTATTCCCAGGCATGGTCTGAAGGAAATTTCGCGGGTTATTTTGCGAACAGCCTGATCTATACGGTGACGGCGACGGTGCTGACCATCATCGTATCGTTGTTTGCGGCGTTTCCGGTCGCACGCGGTTATGTGATGTGGAGCGGCTTTATCTACATGTTCTTTTTGCTGTCCCAGTTCCTTCCGAACCCGATGGTTGCGCAGTATAAATTGATGCTGTCCTTCAAGGAAAGCGTTTCGTTCTTCGGGTATGATACCAAGCTCGGCTATATCCTGCTGAAAACGACGGGGACGGGCGTGGTGTTCATGATGTTCGTCGGTTACATCAAGTCGATCAGCCGCGATTTGGATGAGGCGGCAGGCATGGATGGCTCCGGCTATATCCGTTACTTGTTCCAAATCATTCTGCCGCTGATGAAGCCGGTGATCGCAACGGGCGTCATTCTGACCGCCATCGGAATCTGGAACGATTTTGTCGGGCCGATCATGTACCTGCCGAGTCCGTCCAACTATCCCATTACGTTCGGCCTGAAAGAATTCAGAGGGCAGTACGGGAACAACTGGCCGCTGCTTGCATGCGGAATTACGATCGTTGCCGCACCATTGATCATTCTGTATACGTTCATACAGAAGTATCTGGTGGACGGTGCCCTGGCGGGAGCCGTCAAATCCTAA	MRNSKTTQILSYAVIGLLLILYVVPLLLVFNVSLKSFNEYLLNPIGIVKNIEWGNYSQAWSEGNFAGYFANSLIYTVTATVLTIIVSLFAAFPVARGYVMWSGFIYMFFLLSQFLPNPMVAQYKLMLSFKESVSFFGYDTKLGYILLKTTGTGVVFMMFVGYIKSISRDLDEAAGMDGSGYIRYLFQIILPLMKPVIATGVILTAIGIWNDFVGPIMYLPSPSNYPITFGLKEFRGQYGNNWPLLACGITIVAAPLIILYTFIQKYLVDGALAGAVKS	PGPT0016340_1309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_05008	894	ugpA_4	COG1175	sn-glycerol-3-phosphate transport system permease protein UgpA	ATGTATCCATTTGGAAAAGGGTTTAACCGCTTCATACCATTGTTGCTGCTATTGATACCGATGGCGTTATACATCGTTTTTTATTTCGGGCCTTCGATCCTGACGGTCATCTATTCCTTTACCGATGTGAAGAACCTGCCGGGCAGCACCTATCAATTCGTCGGGCTTGATAATTACCGGGAGCTTTTCTTCTCGGGGAACTCGGGCGAGCGGTGGCGCTCGATCGTAAATACCCTGATCTTCATGTTCGTCGTGACGATCGTGCAAAACGGGGTCGCCCTGTTTATCGCCGTAATCATTAACCAGCGGCTGAAAGGCGATTACTTCTACCGCGCGGTATTCTTCCTGCCGGTCGTACTCGGCGTAGCCGTGGTTGCACTGATCTGGGGCATGATGTTCGATCCGTTGAACGGACCGGTCAACCGCCTTTATGACGCTCTTTTCGGCTATCAGGACATGTTCTTCGGCAGCTTTACCCATGCGTTCGGTTATATTATTTTCGTTCAGATCTGGATGTACATGGGCTACTCCATGCTGATCTTTCTGGCTGGCCTCCAGTCGGTTCCGAAGGATTTATACGAGGCGGGTCATATTGACGGCACCAACAAGTGGCAGTCTTTCCGCCACATCACCTTCCCCCTGATCGCTCCGTCCTTCACGGTGAATATGCTGTTATCCATTATCGGCGCCATGTCGACGTTCGATATCATATTGGCGACAACGGACGGTCGTTTCAATACTAGGACGATGGCTTACGATGTGTACAAGGAAACGTTCCGGGGAAGCTTGGAAATGGGCCTTCCTTCGGCACTGTCCGTGATCCAGTTCCTGATTATTCTCCTGTTTGTTGTCGTAGCCGTCAGACAGACGCGTAAGAGAGAGGTGGAATATTGA	MYPFGKGFNRFIPLLLLLIPMALYIVFYFGPSILTVIYSFTDVKNLPGSTYQFVGLDNYRELFFSGNSGERWRSIVNTLIFMFVVTIVQNGVALFIAVIINQRLKGDYFYRAVFFLPVVLGVAVVALIWGMMFDPLNGPVNRLYDALFGYQDMFFGSFTHAFGYIIFVQIWMYMGYSMLIFLAGLQSVPKDLYEAGHIDGTNKWQSFRHITFPLIAPSFTVNMLLSIIGAMSTFDIILATTDGRFNTRTMAYDVYKETFRGSLEMGLPSALSVIQFLIILLFVVVAVRQTRKREVEY	PGPT0016335_1360	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_05009	1341			hypothetical protein	ATGATTAAGAAGTTATCAGCATTACTTTTGGCTGGCGCTCTAACCTTCTCGCTGGCAGCTTGCGGGAGCAGCGATTCAGCCGATCATGGCGCACCTGCCAAAGGCGATAAAAAGGTCATCAAAATTTTACACTGGAAACAAGATAACATCAATAAAGCGATTGAAGAGATCAACAAGAAATTTGAAGAGAAGTATCCCGAGTATACGGTAGAGTATACCACTACGGGTCCGGATGACGAATACAAGCAGGCGCAGAGAGCAAGAATCACCGCCAATGACGTGGACGTCCTGGCCGATTTGTCGGGAATGAGACTCTCTCCGCAGGAATGGACGCCGGGCGCTAAAGTTCCCGATTGGCAGCAATGGATCGATACCGGATTGATTGCGGATTTATCCGACCAAGCCTTCATTAAGAATTATAACGCAAACGATATCGAAAAAGCCGGAACTTATAACGATAAAGTATATGCCGTTCCTACAGGCAAGGTTGCGATGTCCGGTCTCTTCTATAACAAAGAAATCTTCGAGCAGAACGGCTTAAGCGTTCCGAAAACGTGGTCGGAGTTCATGAAGCTGAACGATGACTTGAAAGCCAAAGGCATCACACCGATTGTTGTAGCAGGTAAAGACGTATGGCCTTTGAAACTTCCAGTGTTCGCCCTGCAGGCCAAAATCCTGGGCGGCGGAGACCAGCAGAAATGGATCGAGGGCGTGTGGAAAGGCGAGACGGCTTATAACGATGAAGAAGCCATCGAGGTTTTGGAAAAAATGAAGACGCTTCAAGACAATTACATGATCGACGGCTTCATGGGGATCGATTATGCAACGGCGCCTTCCTATTTTGCAACAGGCAAAGCTGCGATGCTGGCTGACGGCTCTTGGGATGCCCCTACCGTTGCGGCAGCTAATCCAGAGCTGAAATTCGGTTACTTCCCGCTTCCGGCCACCGAGGATGCAGCGAAGAACGCCTCCTTTGTCGGCAAGTATGACGTAACATGGTATGCGGCCGAGAAAGGTCCGAACAAAGAAGGAGCCCTGAAGTGGCTTGAATTCTTCTCGGAGCCGGAAAATTACACGACATTCGTGAAGGCAGCCGGATTCATTCCGACGCAGGACAACATTCAGACGGAAAGCGACTTCATTGACAATGAACTGACTCCTTATCTCGGCGAGTTTGAATTGGCGTACGAAATCATGATGATCAACCGCCAGAATATCGGCGAGCATCTGGCCGCAGAAGGCGTTCACACGGAATTCCTGGCACCGGGCGGACCATATAAAACGGCAAAAGAGCTGGCTGACATTCAGCAGAAAGAATGGGAAGCAGCCGCTCCGAAATAA	MIKKLSALLLAGALTFSLAACGSSDSADHGAPAKGDKKVIKILHWKQDNINKAIEEINKKFEEKYPEYTVEYTTTGPDDEYKQAQRARITANDVDVLADLSGMRLSPQEWTPGAKVPDWQQWIDTGLIADLSDQAFIKNYNANDIEKAGTYNDKVYAVPTGKVAMSGLFYNKEIFEQNGLSVPKTWSEFMKLNDDLKAKGITPIVVAGKDVWPLKLPVFALQAKILGGGDQQKWIEGVWKGETAYNDEEAIEVLEKMKTLQDNYMIDGFMGIDYATAPSYFATGKAAMLADGSWDAPTVAAANPELKFGYFPLPATEDAAKNASFVGKYDVTWYAAEKGPNKEGALKWLEFFSEPENYTTFVKAAGFIPTQDNIQTESDFIDNELTPYLGEFELAYEIMMINRQNIGEHLAAEGVHTEFLAPGGPYKTAKELADIQQKEWEAAAPK	PGPT0016330_672	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_05010	1041	exuR_7	COG1609	putative HTH-type transcriptional repressor ExuR	ATGGCGTTAAACATCAAAACAATCGCTAAAATGGCAGGGGTCTCCGTATCGACCGTCTCCAAAATTATCAACAACTACAGTGATGTATCCGATGAGACCAAAGCTCGCGTGTTGGAAATTATGAGAGAAACCGGATATACTCCTTCCAATTCCGCAAAAACGTTAGCAACCAAAAAATCCAATCTAATCGGCGTCATCTTTGCGGGAAAGCTGAACGTTGATTTTACCCACCCGTTTTTTGTTGAGGTGCTGAATTCTTTTAAGAAGCAGATGGGCGTTCTCGGCTACGATCTGCTGTTTTTTTCGAACGAGAAATTCCAGGGGGAGGATGCCGACTATCTCGGACGGTGCCGCCATTATCAGGTTGACGGCTGCGTCATTATATCCGGCGAGGAAATCGAGCCCTCGATTAAGGAGCTGGATGAGAGCGATATTCCCTGCATCGGGGTCGATATTGAGCTGTTCGGCGAAATGTCGGGTCATATCATGTCCGACAATTACAAGATGTCCTCGAAGGTCGTGGAGCATTTCTATCTCCAGGGCTTCCGGGACTTGGGCTTCATTGGCGGCAGCAAGGAGTCCGAAATCTCCAACATGCGAGAGGCGGGTTATCGCAACGCCATGGAAAGCTTCGGCCTTCCGGCCCGTGCGGAGTGGTTCCTGAACGGCGATGATTTCTATGAGGCCAGCGGATATAAAGCCATGACACGGCTGATTAAGGCCGGATCCCTGCCCCGAGCCATTTTTGCAGCCTCGGATCAGATTGCTATCGGCGCCATCCAAGCGCTTCAAGAACATGGTCTGAATGTCCCTGACGACATGTCGATCATCGGCTGCGACGATATCGAGGCTTGCAAGTACACAACGCCTAAACTAACGACGATTCGGCAAAACAAAGAGAAAATCGGCCGCTTGGCGGCACTCATGCTCTACGACCTCATCCATAAACAGTCCCCCGTCAGTTCCTTTGTCGTCGAGCCCGAACTCATCGTCCGCGAATCTTGCGGGAGCAACACGCATCACTACGGGTATTTCGGATAA	MALNIKTIAKMAGVSVSTVSKIINNYSDVSDETKARVLEIMRETGYTPSNSAKTLATKKSNLIGVIFAGKLNVDFTHPFFVEVLNSFKKQMGVLGYDLLFFSNEKFQGEDADYLGRCRHYQVDGCVIISGEEIEPSIKELDESDIPCIGVDIELFGEMSGHIMSDNYKMSSKVVEHFYLQGFRDLGFIGGSKESEISNMREAGYRNAMESFGLPARAEWFLNGDDFYEASGYKAMTRLIKAGSLPRAIFAASDQIAIGAIQALQEHGLNVPDDMSIIGCDDIEACKYTTPKLTTIRQNKEKIGRLAALMLYDLIHKQSPVSSFVVEPELIVRESCGSNTHHYGYFG	PGPT0017992_4703	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
AK002_05011	1425	glnA_2		Glutamine synthetase	ATGTCGGTAGAGAAAGTATTGCAAACCATTAAAGAGAACAATATTGAGTGGGTCGATTTTCGTTTTGTAGACTTGTCGGGACGGGTGCATCACATTAGCTTGCCGGCTTCAGAAGTAGACGAAGAAACTTTCGTGAACGGGGTAGCGTTTGATGGATCTTCTATTCCAGGATTCCGCGGCATTGAAGAATCGGATATGGTCATGATGCCTGATCCGGAGTCTTGCTATATTGATCCGTTTACTGCACACCCTACACTTAACATTATGAGCAATATCTATACTCCGGAAGGCGATGCTTATGAGCGTGACCCGCGTGGAATCGCGGCTCGTGCCGAGCAATACCTTCAAGAAGCCGGCATCGGAACAGCAGCCTTCTTCGCACCGGAATCCGAATTCTTTCTGTTCGATGAAGTCCGCTATGAAAGCTCCATGAACAGCTCCAGCTACTTCGTAGACTCCGAGGAAGCCCAGTGGAATACGAACCGCAAGGAAGAAGGCGGCAACTTGGGATTCAAAGTAGGGGTTAAGGGCGGATATGTTCCTGTAGCGCCAGTGGATACTCAACAGGATATCCGCAGCGAAATGTGCCGTCTCCTCGACGAAGCAGGTCTTCGCGTTGAGCGTCATCACCATGAGGTGGCAACTGCCGGCCAGGCCGAAATCAATTTCCGTTTCGATACATTGAAGAAAACAGCTGACAATTTGTTGATCTATAAATATATTGTGCATAACACAGCCCGCCAATACGGCAAAACGGCTACGTTCATGCCGAAGCCATTGTTCGGGGATAACGGTAGCGGCATGCACGTTCACCAATCCATTTTCGACGGCGACACTCCGCTGTTCTACGAAAAAGGCGCTTATGCGAACCTGAGCGAAACGGCGCTGCACTATATCGGCGGTATTCTGTACCATGCGCCTGCCTTGATCGCTTTGACGAATCCGAGCACCAACTCCTTCAAGCGTCTGGTACCAGGCTATGAAGCACCGGTTAACCTCGTATTCTCCAAGGGCAACCGTTCTGCCGCAGTACGGATTCCGGTTGCTGCCGTAACGCCTAAAGGCTGCCGCATCGAGTTCCGCACACCGGACTCCACAGCGAACCCTTACCTTGCATTCTCTGCTATGCTGATGGCCGGTCTGGACGGGATCAAACGTAAAATCGATCCTACCGCACTCGGTTACGGGCCATTCGATAAAAACATTTACGAATTGTCCGACGCCGAGAAGAAGGAAATCCGCAGCGTACCGGGTTCCCTGGACGAGGCATTGGATGCACTTCAAGCAGACTATGAGTTCTTGACAGAGGGCGGCGTATTCACGCAAGAATTCCTCGAGAACTTCATCGACTTCAAGCGTGCCGAAGCCAAAGCGGTTAACATCCGCGTTCATCCGCACGAGTACTCCCTGTACTACGATATCTAA	MSVEKVLQTIKENNIEWVDFRFVDLSGRVHHISLPASEVDEETFVNGVAFDGSSIPGFRGIEESDMVMMPDPESCYIDPFTAHPTLNIMSNIYTPEGDAYERDPRGIAARAEQYLQEAGIGTAAFFAPESEFFLFDEVRYESSMNSSSYFVDSEEAQWNTNRKEEGGNLGFKVGVKGGYVPVAPVDTQQDIRSEMCRLLDEAGLRVERHHHEVATAGQAEINFRFDTLKKTADNLLIYKYIVHNTARQYGKTATFMPKPLFGDNGSGMHVHQSIFDGDTPLFYEKGAYANLSETALHYIGGILYHAPALIALTNPSTNSFKRLVPGYEAPVNLVFSKGNRSAAVRIPVAAVTPKGCRIEFRTPDSTANPYLAFSAMLMAGLDGIKRKIDPTALGYGPFDKNIYELSDAEKKEIRSVPGSLDEALDALQADYEFLTEGGVFTQEFLENFIDFKRAEAKAVNIRVHPHEYSLYYDI	PGPT0000645_2203	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
AK002_05012	1056	aroF	COG2876	Phospho-2-dehydro-3-deoxyheptonate aldolase	ATGATCGTCATTACATCCAATCAAATATCAGAGGAACAAGTTCAGCATATCGTTACCGAAATTGAGAAGGAAGGGCTCCAGGCTCACGTATCGAAGGGGGCGGACCGCACGGTGATCGGCCTGATCGGCAGCGTGAACCCGAAGCTTGCGGAGCATCTTCGCCAAATGAAGGGCGTAGAGAATGTAGTTAAGATCTCCAAGTCCTACAAGCTTGCCAGCCGTGATTTCCATCCGGATGATACGGTGATCGATATTAAGGGAACAAAGATTGGCGGAGGCAATCTGGTTGTCATGGGCGGTCCATGTGCCGTTGAATCCGCGCAGCAGATTGATGAAATTGCGCAGCTGGTGAAAGCAGCAGGCGGACAAGTGCTAAGAGGAGGCGCATTTAAGCCTCGTACGGGGCCATACAGCTTCCAGGGCGTTGGCGTCGAAGGTCTGATCATGATGGCGGAAGCCGGGCAAAAGCATGGCCTGTTGACCATTACCGAGGTGATGACGCCCGAATACGTCGATATCTGCGCGGAGTATGCCGATATTCTGCAAGTGGGCACCCGCAACATGCAAAATTTCGATCTGCTTCGGAAACTTGGCACCTGCGGCAAACCGGTTTTGCTGAAAAGAGGCTTCAGTGCAACCTATGACGAATTCCTGAACGCAGCGGAATACATCCTGGCCGGCGGCAATCCGAATGTCATGCTCTGCGAACGCGGAATCCGAACATTCGAAACTTATACCCGCAATACGCTGGATTTATCTGCCATTCCTGTTTTGCAAGGATTGAGTCACCTTCCGGTCATCTCGGACCCGAGTCACGGAACGGGCCGGCGCGAGCTGGTCGAACCGATGTCCAAGGCATCCGTCGCGGCCGGAGCCGACGGTCTTATCATTGAAATGCATACGGATCCGGACAACTCGATGACAGGCGACGGGGTCCAATCCCTGTTCCCGGACCAATTCGCCGCACTGCTTAAAGACTTGGAGAAGCTGGCTCCATTGGTAGGGAAGAGCTTTGCTACGGCCAAAGCGCCTGCTTCTGAATTCGCGCGCGTATAA	MIVITSNQISEEQVQHIVTEIEKEGLQAHVSKGADRTVIGLIGSVNPKLAEHLRQMKGVENVVKISKSYKLASRDFHPDDTVIDIKGTKIGGGNLVVMGGPCAVESAQQIDEIAQLVKAAGGQVLRGGAFKPRTGPYSFQGVGVEGLIMMAEAGQKHGLLTITEVMTPEYVDICAEYADILQVGTRNMQNFDLLRKLGTCGKPVLLKRGFSATYDEFLNAAEYILAGGNPNVMLCERGIRTFETYTRNTLDLSAIPVLQGLSHLPVISDPSHGTGRRELVEPMSKASVAAGADGLIIEMHTDPDNSMTGDGVQSLFPDQFAALLKDLEKLAPLVGKSFATAKAPASEFARV	PGPT0012910_242	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012910-aroF-K03856	NA	NA
AK002_05013	1737			hypothetical protein	ATGTTTTCGTACTGCGTATTTATCATTATACCGGTGCTGCTTGTCGGTCAGATAGCGAATCAGGTCTTCGTGAAGTCCACCCGAGAGCAGACGTATAACAACATTCAGGGCACGCTTCATCAGATGAGCGAGAACATATCGTATAAGATGGAGGACATGATCCGGATATCGGATATGCTTTATTTTGATACGACCTTTAACAGCCGTCTGCGTTTTACCGAAAGCGCTTGGATAAGCTATGACACCACGATCAACGTGCTGATTCCGAAGCTGGAGACCGCGGTAAGCACGGCGAACCGAAGGATCTGGTTATCGATCTACCTGCGCAACGACGACCTTAGGGAGATCTATGACAGTTATACGTATACAGACCCGCTGGACTCCAACAAACGTCTGTTTGATATTTATCAATATGACAGGCTGGAGGACCGGTCCTGGTATAAATTATATCCGAAGGAAGAGAATTACGGCGTAACCCTGCAGTGGAAGCAGATTGAGGACGATGTGAGCAACGGGCGCATATCCTTGCTGCGGCGGCTGGTGGATATCAGCTCGACCATCAAACCGCAGGAAATCGGGTTCATGCGGATGAACGTCAGTATGACGGACCTGTTTGAAAGCATGGATTACAAGAAGATCGGTGACGGGACTGCATTGTATTTATCGGATGCACAGGGCCGGGTCGTTCTTTCATCAGGGGGAAAATCCACAAACGTTTTCAAGGAGAAGGAACTTCGCAAGAACGGGGACCTTCTGATTCGGAAGCCCATTCCCCAGCTCGGCTGGGATTTGATTGCCGTCGTGCCTGCTCAAATCGTGGAAAAAGACACGGTCAAAATACGTAATCTAACCTATCTGATCTGTCTGATCTGCATCGGTATCTTCTTCGTGGTCAGCATCGTGGTGTCCAGATATTTCAGCCGCCGGGTGTCCAAAATCGTATCCGTGCTGGACTCGTTCCAGGAAGGCGAATTCCATAAACGGGTATCCTTTAAGGGGAATGATGAATTTACGCATATTTCCTCTGCGTTGAACGATATGGGCAGCAACATCGGCAAGCTGATCAATGAGGTGTATCTGGCCGACCTGCAGAAAAAGGAAGCGGAGCTGGAATCGCTGCACGCGCAGATTAATCCGCATTTCTTATACAATACCCTATCCTCCATCAGCCGCCTCGCGCGGTTCGGGATGCTGGATAAGCTGCAGCGCATGGTAATGGACCTGGCGAAGTTTTATCGTTTGTCGCTCAACGACGGCCGGAACATCATATCCGTGAAGAATGAATTGGAACAGGCCCAAGCGTACGTGGACATTCAAAAGATTAAATACGACGACCGGATGCAGGTTACTTATGATTTTGAGCCCGAGGTGGTCCGGTATGAAACCGTGAAATTGATTTTGCAGCCGTTTATCGAGAATGTGCTCGAGCATGCGTGGACCGGAGACTATATTCATATCCGGATTACGGCCAGATTGCTGGAAGACGCTCTGGAATTCAAAATCATCGATAATGGCGTCGGTTTCCCGCCCGGCCGCGTGCTGGATAATACAGGGGGACAGGATCTGACCAATGCGGGTTACGGCATACGAAACGTAGATCAACGGATCAAGCTTCACTACGGCAGCGAGTATGGAGTCACGTTATTCAGCCGCGCCGGCATCGGGACAACGGTAAGAATTGTCATACCGCTGGTGAAGCGAACCGTAGCGGAAGGACGCAACAAAACGCTGATGTAA	MFSYCVFIIIPVLLVGQIANQVFVKSTREQTYNNIQGTLHQMSENISYKMEDMIRISDMLYFDTTFNSRLRFTESAWISYDTTINVLIPKLETAVSTANRRIWLSIYLRNDDLREIYDSYTYTDPLDSNKRLFDIYQYDRLEDRSWYKLYPKEENYGVTLQWKQIEDDVSNGRISLLRRLVDISSTIKPQEIGFMRMNVSMTDLFESMDYKKIGDGTALYLSDAQGRVVLSSGGKSTNVFKEKELRKNGDLLIRKPIPQLGWDLIAVVPAQIVEKDTVKIRNLTYLICLICIGIFFVVSIVVSRYFSRRVSKIVSVLDSFQEGEFHKRVSFKGNDEFTHISSALNDMGSNIGKLINEVYLADLQKKEAELESLHAQINPHFLYNTLSSISRLARFGMLDKLQRMVMDLAKFYRLSLNDGRNIISVKNELEQAQAYVDIQKIKYDDRMQVTYDFEPEVVRYETVKLILQPFIENVLEHAWTGDYIHIRITARLLEDALEFKIIDNGVGFPPGRVLDNTGGQDLTNAGYGIRNVDQRIKLHYGSEYGVTLFSRAGIGTTVRIVIPLVKRTVAEGRNKTLM				NA	NA	NA	NA	NA
AK002_05014	1575	rhaR_65		HTH-type transcriptional activator RhaR	GTGTATAAAGTGCTGCTGGCAGACGACGAAATACTGGACCTAGAGGGCATGAAAAGCTTTATTCCATGGGAAGATCTCGGAATGAAAGTGATCGATTCGGTCAATAACGGCTTCGCTGCTTGCGAGGTGCTCGAAAGAGAGAAGGTCGACATCCTCGTTACCGATGTACGCATGCCGAATATGACCGGGCTTGAGCTTGCTCAGCGGGCACTGAAACTGCAGGAGGAACTCCGGATTATCTTCGTAAGCGGTTACCAGGACTTTGGTTACGTAAAACAAGCGATTGCATTGAACGCATGCAGTTATGTGTTAAAGCCGATGGAGGACCAGGAGCTGATCGATGCATTAACGAAGGTGAGGATGGAACTGGATCGCCTACATGAACGCAAGGAGACGGAGGAAGCTTACCAGCAGATGATCCCCATCCTCAAAAATCAGTATCTCCTGCAAATCCTTCAGCGGCCCTATGACGGAGCCATCCTGGATATTATCAAGCGGGAGTACCGGCTGACAGAGCTTCACTGGCCGGTCTGCGTCATTCTGCTGGAGCTTGACAATGTGAGCACCTGGCGAACCGGCTCGCTCGATTCCGAGGAAAAGCTGAGTGCCATAGAGGAGTATTTCACGAGACTGCATAAACTGCTTGAACAGCGCGGCTTTGAATATATATGCAAGGTAACCGATCAGCGAACGGCTGTACTCCTTAACGGGGGCCGGGGCAAGGAAGAGATTCAAGCCCTGCTTGAGGAATTAAAACGGGAATATAACTATTCGATGACGGTCGGGGAAGGCAGGGCCGTCCATCAGCTGGAGCAGCTTCACACGTCGTACATGGAGGCTTTGGACGCGCTGGATTATAAGATGTTCCGGGGCAAGGGCAAATGGATCCTGTACAGCGAGGTGCCGACAGAGGACCGGGAAGACGTAAAAAGCCTCGACATCCGTCTGGATGCTTTATTTACAGCCATGACGGAGTATGATATCGTTCGTATCTATGATGAACTGGAAGCGATTCAACTGCTGGCATCCAGCATCCGATCCAAGTTCACCATACGCAATTTGGCCGTGTATATCATGGTGAAGCTGGAAGGACATCTGCAAGCGATGAACGAAGAGTTATATCGTATGGCTGGACTGGAGCTCAAAAACCTGGATATTCTGCTTCAATTCGAAACGATGGATGATATTTTCTCATGGCTTCGCATGAAGGCAATGGAAATTTCGGAAATGCTCAAGAACCGCAAATCAACCAAGAATGGCAGGCTGGTCGAAGAGATTATAGAGAATATCCAGGCACGCATGCACGAGAATATTACGCTGCGGGATATGGCGAACCGGTTTTCTTTTTCACCGAATTATCTCGGGGTGCTCTTCAAGGAAGAAACCGGGCACAACTTTAGCGATTATGTGATCAAGCTCCGCATGGAGCGCGCCAGGGATCTCCTCAAGACGACCAAGCTCAAAATATATGAAATTGCATCACAGACAGGTTATCAATATCTGCCTTATTTCAGCAGGCAGTTTAAGGAAATGTATGGAATGACGCCTCTGGAATACCGGCGCAAGCACTCGTAA	MYKVLLADDEILDLEGMKSFIPWEDLGMKVIDSVNNGFAACEVLEREKVDILVTDVRMPNMTGLELAQRALKLQEELRIIFVSGYQDFGYVKQAIALNACSYVLKPMEDQELIDALTKVRMELDRLHERKETEEAYQQMIPILKNQYLLQILQRPYDGAILDIIKREYRLTELHWPVCVILLELDNVSTWRTGSLDSEEKLSAIEEYFTRLHKLLEQRGFEYICKVTDQRTAVLLNGGRGKEEIQALLEELKREYNYSMTVGEGRAVHQLEQLHTSYMEALDALDYKMFRGKGKWILYSEVPTEDREDVKSLDIRLDALFTAMTEYDIVRIYDELEAIQLLASSIRSKFTIRNLAVYIMVKLEGHLQAMNEELYRMAGLELKNLDILLQFETMDDIFSWLRMKAMEISEMLKNRKSTKNGRLVEEIIENIQARMHENITLRDMANRFSFSPNYLGVLFKEETGHNFSDYVIKLRMERARDLLKTTKLKIYEIASQTGYQYLPYFSRQFKEMYGMTPLEYRRKHS				NA	NA	NA	NA	NA
AK002_05015	1671			hypothetical protein	ATGAGGTTGAGAAAGAAATCGCTGGCCACGTCCATGACAGCTTTGCTTGCGGCAGCGCTGATGCTTTCTGCATGCGGCGGCGGCGGTGGAACCAAGACTGCTGATCCGGCGCCTGCAGGCGAAAACGGAACCAGCACGCCTCCAACGGAGGCATCCGACAAGTTTGTGCTTGGCGAAACACCGCTTGAGTTCAGTTTCTACGGCCATTATAACGAGTACACCATGCCGCCATGGGGACAAGACGAATCTTCGAAATGGATTAAAGAGAACAAGAAGGTAACCGTCAACGCGATCCATTCGCAAGGTAACGCACAGCAAAAATTCAATACCATGATCGCATCCACGGAGCTTCCGGATGTGATGTGGATGGACCGTGGTCCGGACGTAGAGAAGCTGCGTCAAGCCGATATGCTCGTACCTTTCGATGAATATCTTGATAAATATCCTAACCTGAAAGAGTGGATGGGCGACGAAGGTCTGAACATGCTTCGCTCTCCGGACGGCAAGCTGTATCAGTTCCCGAACTGGTATACGAACCAACCGAACGGTAATGCAGGTTATGTTGTAAACAAGAAGATTTACAAAGAGCTTGGCGAGCCTAAGCTGGAAACGACGGATGATCTGTATGAATACCTGAAAGCCGTCAAAGCGAAATACGGCGATCAAGTGGTTCCTTATGAGCCGCACGTACAAGGTCAAGGTATCGAGGTGCTGTACTCTGCATTTGCAGAAAACGCTCTGACTCGTTGGATCAGCATCCGCGGTGTGCCTAACGGTGATAAGCTGACTTCGATCTTTACGGATCCGATTTTCCGCGAGTCGATGCAGTATTCCGCGAAGCTGTTCCGCGAGAAATTGATTTCTCAGGATGCCATGACCCAAACGGCTGACCAAGTAAAAGAAAAAGTGAACACGGGACGCGTTGCTGTGTATGCCGCTTCGAGCCCGACGGAAAATGCAATGAATGCCCACGCTGAATTGACGGCGAAGGATCCGGAAGCCGGTTACTTCATGATCTGGCCGATTCACAAGGAAGGTCTGGACAAGAACAAGATCTTCCCTGGTACTTATACGCAATTGGGTTGGAACGTAAGCGTAATTACGAAATCCGCTAAAGATCCCGAAGCGATTTTCGCATTCTTGGATTGGTACACAGGTCCTGAAGGCCAAAGCGTTCTCATGTGGGGGCCTCCAGGAGGATATTGGGACGGATTTGAAGAGGATGGCGTAACACCGAAGTTCACCGAGAAATATGTAACGGATGCTGCCGGTCTCGGCAAGTTGCAAGCCATCACAACGAATCTTCACTGGAATGGTAACACCGTGTTTGTTGATACAGCGAAAGCGAAATACGAGAGCACGTTGCCGGAAGAGCAGCGCAACTGGTCCACTCGCTGGCAATATGAAATCACTTGGAAAACTCAAGCCAATGCTACGGAGTACATTAACCTCGATCCGGCTCCGGACAGCGAGGAAGGAATTATCCGTCAACGCGTAGAAGATATCTTTACGGAATCCAGAGCGAAAGCCCTGTACGCGAAGGATGATGCCGAAGTATTGGCAATCCTCGACAAGGCTGAGGCCGATGCTCAATCTGCAGGATACGATAAGCTGCTTGCATTCAAAACAACGAAATGGCAAGAAAACGTTACGAAAATGAAAGGCCAATAA	MRLRKKSLATSMTALLAAALMLSACGGGGGTKTADPAPAGENGTSTPPTEASDKFVLGETPLEFSFYGHYNEYTMPPWGQDESSKWIKENKKVTVNAIHSQGNAQQKFNTMIASTELPDVMWMDRGPDVEKLRQADMLVPFDEYLDKYPNLKEWMGDEGLNMLRSPDGKLYQFPNWYTNQPNGNAGYVVNKKIYKELGEPKLETTDDLYEYLKAVKAKYGDQVVPYEPHVQGQGIEVLYSAFAENALTRWISIRGVPNGDKLTSIFTDPIFRESMQYSAKLFREKLISQDAMTQTADQVKEKVNTGRVAVYAASSPTENAMNAHAELTAKDPEAGYFMIWPIHKEGLDKNKIFPGTYTQLGWNVSVITKSAKDPEAIFAFLDWYTGPEGQSVLMWGPPGGYWDGFEEDGVTPKFTEKYVTDAAGLGKLQAITTNLHWNGNTVFVDTAKAKYESTLPEEQRNWSTRWQYEITWKTQANATEYINLDPAPDSEEGIIRQRVEDIFTESRAKALYAKDDAEVLAILDKAEADAQSAGYDKLLAFKTTKWQENVTKMKGQ	PGPT0017245_1008	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_05016	897	araQ_55	COG0395	L-arabinose transport system permease protein AraQ	GTGGTACGTCTAGCATTTGGTGACAAAGTGATGATGGTCATCATTTATATCTTCTTGGCATTCTTGGCCTTTGTAACGTTTTATCCGTTTTGGAACGGACTAGTCATTTCATTTAACTCTGGTTCAGATACGGCAATGGGGGGCGTTACCTTCTGGCCCCGTGATTTTACGCTTGAGAATTACGGCATCGTGTTTCAGGATAACCGGTTGCTGAATGGTTTCAAGATTTCGGTGCTTCGTACCGTGATCGGAACGATTTCCTCCATATTGGTAACCTCCATCTTCGCTTACGGGATGACCAAGAGGGAACTGATCGGCCGCAAATACTACATGATTATGTGTATCGTAACGATGTATTTCGGCGGCGGCTTGATTCCGACTTTCATGCTCGTTCGCGGTTTGGGTCTGATGGATTCCTTCTGGGTGTTCATTATCCCGAGTTTGGTAAGCGTGTGGAACATGATCATCTTCCGGACATTCTTCAACGGCCTCCCAAGCGGTCTTGAAGAGTCCGCCAAAATCGACGGCTGCGGCAACTGGGGCATTTTCTTTAAGATCATTCTGCCTCTGTCCGGTCCGGTCATCGCAACATTATCGTTGTTTACGGCGGTTTCCCATTGGAATGAATGGTTCTTGCCGAGTATCTACATCAATAACGAGAACTTGCTTCCGATTCAGACCATGCTTCGTCAAATATTGAACTCCAATATTATGTCTGAACAGATGAGCAACCTGGATTCCGCTTCGCAGGCGGTGCTCTCCCGGATGCAAAGCGTAACCTCCAAGTCGTTGTCCATGGCAACCATGATGGTGGCAACGCTTCCGATTATTATGGTGTATCCATTCGTACAGAAGCACTTCGTTAAAGGTGTTCTGGTAGGTTCCCTGAAAGAGTAG	MVRLAFGDKVMMVIIYIFLAFLAFVTFYPFWNGLVISFNSGSDTAMGGVTFWPRDFTLENYGIVFQDNRLLNGFKISVLRTVIGTISSILVTSIFAYGMTKRELIGRKYYMIMCIVTMYFGGGLIPTFMLVRGLGLMDSFWVFIIPSLVSVWNMIIFRTFFNGLPSGLEESAKIDGCGNWGIFFKIILPLSGPVIATLSLFTAVSHWNEWFLPSIYINNENLLPIQTMLRQILNSNIMSEQMSNLDSASQAVLSRMQSVTSKSLSMATMMVATLPIIMVYPFVQKHFVKGVLVGSLKE	PGPT0017255_1265	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_05017	957	yteP_65	COG4209	putative multiple-sugar transport system permease YteP	ATGGCGCAAATATCCGTAGAACAGGAACCTGTTCCGAAACGGAAGAAGGAAAGCTTATTGCTTCGCTTTGCTAAACAATGGGATATACAGTTAATGGTGCTTCCTGCACTGGCACTCGTTTTTGTGTTTAGCTACATACCGATGTACGGTATTTTAATGGCTTTCCAAGACTTTAACATTTTCAAGGGGATGGGCGACAGCCCGTGGGCCGGATTCAAGCATTTCGAAATGTTTTTTGAATCGCCGGAATTTATGACGGTCATGAGAAACACGATCGTCATCAGTTTGCTCAAGTTTCTTATTGGATTTCCGGCACCGATTCTGCTGGCGCTTATGCTGAACGAAGTTCGGCATATGTTCTTCAAGAGACTGGTGCAAACGGTCAGTTATCTTCCGCACTTTCTGTCCTGGGTTATCGTCTCAGGCTTTGCGATTTCGCTCTTATCAACGGATAACGGCAGCGTAAACATTTTGCTGCAGAAGCTGAATTTGATCGAAGAGCCGATCAACTTCCTGTCGCTACCGGAATATTTCTGGGGAATTCTCGTAACGACAGGGGTATGGAAAGAGATTGGATTCTCCTCCATCGTATACTTGGCGGCGGTTGCCGGGGTTGACCCCCATATGTATGAAGCGGCTGACATGGATGGCGCAAGCAAATTCAGGCAGATCTTCACGATTACGCTTCCATCGATCATGCCGGTCGTCGTTATTTTCATGATTCTTGCCATTGGTAACTTGCTGACTGCAGGCTTCGAAGACATCTTGCTCTTGGCTAAGAACCCGGTATTGCGAGAGGTATCCGACGTTATCGACACATATGTCTATCGAATAGGTATCGAAAACTCCCGATTCTCATATGCAACGGCCGTAGGCTTGTTTAAAGCGGTGATCAGCGTCATGCTTCTGACGATTGCCAACTTGATTGCACGCAAATCAGGAAACAGCTTATGGTAA	MAQISVEQEPVPKRKKESLLLRFAKQWDIQLMVLPALALVFVFSYIPMYGILMAFQDFNIFKGMGDSPWAGFKHFEMFFESPEFMTVMRNTIVISLLKFLIGFPAPILLALMLNEVRHMFFKRLVQTVSYLPHFLSWVIVSGFAISLLSTDNGSVNILLQKLNLIEEPINFLSLPEYFWGILVTTGVWKEIGFSSIVYLAAVAGVDPHMYEAADMDGASKFRQIFTITLPSIMPVVVIFMILAIGNLLTAGFEDILLLAKNPVLREVSDVIDTYVYRIGIENSRFSYATAVGLFKAVISVMLLTIANLIARKSGNSLW	PGPT0017250_1281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_05018	981	ispH	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGGATTACTACGGAAAGCAGGTGGGGATCATCGAAGTCTTGAAAATATCACCGAGAGGTTATTGTTACGGTGTCGTCGACGCCATGGTCTTGGCGCGTCAGGCGGCGCAGAATCTGGATCTTCCTCGGCCTATTTATATATTGGGCATGATTGTGCATAACAGTCATGTCACGCAATCCTTTGAGGACGAAGGCATCATTACCCTGGACGGTCCGAATCGGATGGAAATTCTGAGCCAGGTGGAGAGCGGAACCGTAATCTTTACCGCACACGGGGTCTCTCCCGAAGTGCGCAAGCTTGCACGGGATAAAGGGTTGACCACGCTCGACGCCACTTGCCCGGATGTGACGAAAACCCATGATTTGATCCGGGATAAGGCAGCTGACGGTTATGAGATCATTTACATCGGGAAGAAGGGGCATCCCGAGCCGGAAGGGGCGATCGGGATCGCACCGGAACATGTGCATCTGATCGAGAAGGAAGAAGAAATTGAACAGCTTCAGGTGAATTCGTCCCGAATCATCATCACGAACCAGACCACGATGAGTCAATGGGACATCAAGCATATCATGAAGAGTCTGCTCGATAAATTCCCGGGTGCGGAGATTCATAATGAAATTTGTCTTGCAACGCAGGTGCGTCAGGAAGCGGTAGCCGAACAAGCCGGTCAGGCGGATTTAGTTATCGTGGTAGGAGATCCTCGCAGCAATAACTCGAACCGTCTTGCGCAGGTATCCGAAGAGATAGCAGGAGTACCGGCCCACCGTATTGGCGATGTGACGGAACTCAAGCGCGAATGGCTTGAAGGAGTAGGCAAAGTGGCAGTTACATCAGGGGCATCAACACCGACTCCGATCACGAAGGAAGTCATCGCCTATTTGGAACAGTATGAACATGATCAGCCGGAAACTTGGGAGATCAAGCGTACGGTGAATATGAGTAAATTGCTTCCGCCTGTTCGGGTGAAGAGCAAATCATAA	MDYYGKQVGIIEVLKISPRGYCYGVVDAMVLARQAAQNLDLPRPIYILGMIVHNSHVTQSFEDEGIITLDGPNRMEILSQVESGTVIFTAHGVSPEVRKLARDKGLTTLDATCPDVTKTHDLIRDKAADGYEIIYIGKKGHPEPEGAIGIAPEHVHLIEKEEEIEQLQVNSSRIIITNQTTMSQWDIKHIMKSLLDKFPGAEIHNEICLATQVRQEAVAEQAGQADLVIVVGDPRSNNSNRLAQVSEEIAGVPAHRIGDVTELKREWLEGVGKVAVTSGASTPTPITKEVIAYLEQYEHDQPETWEIKRTVNMSKLLPPVRVKSKS	PGPT0007615_1317	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
AK002_05019	1455	sasA_24		Adaptive-response sensory-kinase SasA	ATGTCCATTCGGTTAAGACTGACAGCATGGTATACCGGCATTTTGTTCGTGACACTGCTGATATTCAGTTCGGCGGTGTATGGCTTTGTCCATTTGTATACGTATGAGGAGTTGAAGCAGCGGATTGTCCAAGAAGTCAATAAAATTGGTGTGACATCTGATGCAGTGTCATTACTACCTGACCGTTCTTCCACTATAAATATGGAAGCAGCTGACTTATACGTACAGCTGTATACATTCTATAATGGAGCTGTTTGGAGATCCGGCAATATGGAGTTTAGCGGCTTGAGGTTTGAGAATCCAACCGTTGAAAGAGCATTAAATACTACCAAAAACGAATTTAAACGGTTTACGGTAAAAGGTAATTCATTCCTATTATTTGAGGCACCCGTATTTGAAGAAAGGACGGGTAAACTTTACGGTTGGCTACAAGTCGGGGCAAACACACGCACCATCGAGCAAACCCTGGACAGACTTCAATCCATCCTCATCATGGGCTCGGCAGCGACACTCGTGATCGCATCAACATTAGGTTTATTCCTGGCCCGGAAATCCATGAAACCGATCGGCAAGGTTACGGAGGCAGCGGAGCAGATCCAAAAAGGCACCGACCTTAGCGTACGGATCGAATACGACGGGCCGGAGGACGAGATCGGTCAGCTTATCGGCACGTTTAACGGGATGCTTGAGAGGACGGAGAGCTTCTATAAAGAGCTTGAGGATGCCTATGCGGCGCAGCGGCGCTTCGTATCGGACGCTTCCCATGAACTTCGGACCCCGCTGACTACCATCCGGGGCAATGTGGATCTTTTGCAGAAAATGTGGACGGTAGCTCCCGGCGAGAGAGCGGATATGGATGAGGAAATGATCAAGGAGATTTCGGTTGAAGCGGTAGGCGATATATCCGATGAAGCGAAGCGGATGAGCCGGCTGGTGAACGATATGCTGTCTCTGGCGCGGGCCGATACCGGCCAGACGTTTGAGCTGGACCCGGTGCCGCTCCAGCCTTTGGTTGAAGAGGTTGCACGGCGCGCTCATTTCCTGGAGAAAACCGCAGAATGGCATGTCGGAGAGCTGTCTGTCCTGAACGGTGTTTATGTGGAAGGAAATAAGGATTATTTGCAGCAGATGCTGTTCATTTTTATCGAGAATGCGTTCAAGTACACGCCTGAGGGCGAGGTTAGTCTGGATGTTGTTCTGTACAAGGGTCAGGTAGGCTTGCGGATTTCGGATACGGGAATCGGTATGGATAAGGATGAGGTTCCGTTCATATTCGAACGCTTCTACCGTGCGGATCAATCGAGAGGCATCACGAGCGGAACCGGACTCGGGCTGTCCATCGCCAAATGGATCATCGATGAGCATAAGGGCTCTGTCGAGGTCGTTACCCGAAGAGGGGAAGGCAGCACCTTTATCGTCTGGCTCCCCGTCGTCTTTGCTCCTCCCCTGGAATAG	MSIRLRLTAWYTGILFVTLLIFSSAVYGFVHLYTYEELKQRIVQEVNKIGVTSDAVSLLPDRSSTINMEAADLYVQLYTFYNGAVWRSGNMEFSGLRFENPTVERALNTTKNEFKRFTVKGNSFLLFEAPVFEERTGKLYGWLQVGANTRTIEQTLDRLQSILIMGSAATLVIASTLGLFLARKSMKPIGKVTEAAEQIQKGTDLSVRIEYDGPEDEIGQLIGTFNGMLERTESFYKELEDAYAAQRRFVSDASHELRTPLTTIRGNVDLLQKMWTVAPGERADMDEEMIKEISVEAVGDISDEAKRMSRLVNDMLSLARADTGQTFELDPVPLQPLVEEVARRAHFLEKTAEWHVGELSVLNGVYVEGNKDYLQQMLFIFIENAFKYTPEGEVSLDVVLYKGQVGLRISDTGIGMDKDEVPFIFERFYRADQSRGITSGTGLGLSIAKWIIDEHKGSVEVVTRRGEGSTFIVWLPVVFAPPLE	PGPT0004100_1645	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	OTHER_HEAVY_METAL_RESISTANCE_SYSTEMS	HEAVY_METAL_RESISTANCE-CUS_TRANSPORT_SYSTEM,PGPT0004100-cusS|copS|silS-K02484	NA	NA
AK002_05020	687	mprA_2	COG0745	Response regulator MprA	ATGCGATCCCGGATTTTGATTGTAGACGATGATGAGAAGATTATTTCCATGCTGCGCAGAGGGCTTGCGTTTGAGGGCTATGACGTCCTGACCGCATCCAACGGAGCAGAAGGATTGAAAGTGATATTGAGTGAGGACCCGGATGTCGTCGTTCTGGACGTAATGATGCCTCAGGTCGATGGATTTGAAGCGCTGCGCAGACTCCGGGAGGGCGGAAGCACGATACCGGTGCTGATGCTGACGGCAAAGGATGAGGTGGAGAACCGGGTAAAGGGGCTGGATACCGGAGCGGATGATTATCTGGTCAAACCCTTTGCGCTGGAGGAGCTGCTTGCCCGCGTCCGGGCTTTGCTGCGCCGTAAAACCGGAGATGATACCTCGAACCACCGACTGACCTTTGATGATCTCGTGATGGATACGGATGCGAGGGAAGTCATTCGAGGCGGGCAGAGACTGGAGCTCACTGCCAAGGAATTCGAGCTGCTGCACCTGTTTATGCAAAACCCGAAGCGGGTGCTGTCCCGCGATTTGATTATGGATAAAATATGGGGCTATGACTACAGCGGGGAGTCGAACGTGCTGGAGGTTTATATCGCCATGCTCCGGCAGAAGACCGAGGAACATGGAGGTAAACGGCTGATCCAGACGATCCGCGGAGCCGGCTATATTTTAAGAGGAGATAACTAG	MRSRILIVDDDEKIISMLRRGLAFEGYDVLTASNGAEGLKVILSEDPDVVVLDVMMPQVDGFEALRRLREGGSTIPVLMLTAKDEVENRVKGLDTGADDYLVKPFALEELLARVRALLRRKTGDDTSNHRLTFDDLVMDTDAREVIRGGQRLELTAKEFELLHLFMQNPKRVLSRDLIMDKIWGYDYSGESNVLEVYIAMLRQKTEEHGGKRLIQTIRGAGYILRGDN	PGPT0004105_1634	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
AK002_05021	1659			hypothetical protein	ATGGACGACCAAAGAAAGCGTTACGGGTACCCGGATGATGAGGGAATGAACAGCGAAGCGAATAACAATGAAGCAACGAGACGTGAGGAAGCATCCACGGAGAATTCTTCTTATTACTATTCTTACGGACCGTTCCAGTCCATATCGAGTAACCGCGACGATGAGAAAACGGAACGGCCTTACCAGAGCCGGGAACCTCAGGAGGTGGAGGTTACCGCTCCGCAGCCCGTAAAACCGATTCCATCCTCCAGTTTCTCGCAGGCCCATTCCTCCGGAAGCCAGGGCGGCGGGGGGCCTGTGGATTCCATGAAAAGAAACAAAGAGTGGAACTACAGCCAGAAGCCCAAAAATTCCGTCAAGACCGTGCTATTGTCTTTCTTGGCAGGCGTCCTCGTCATTTCGAGCCTGATGTTTGCCGCTGACCGAACGAATCTGTTTACGCCGGATGCGGCGTACTCATCGGAGCCAGCCCAAGAAACTTCGGCTAACGTCGAGGATAACGGCGGAGATAACGGCGGAGCTACTACCGCATCAGCGATGATTCCATCGAATCCTGGCGACGTATCGGCAGTGGTGGATCAGGCGAGTCCGGCCGTCGTGCTGATCGAGACGCTTGTAAACAGCAGCAATAGACAAAGCACGAATCCGAATATGAACGATCCGTTCTGGTACTTCTTCGGCGGCGGTCAATCGAGCCAGGAAGGCAATGGCGGAAACAGCGGAAACGGTGGAAGCAGCAACAACGGAGGTCAGGAATCCCAGCTTCAGCCTTCAGGCATCGGCTCGGGTTTCATCTTTGAGAAGTCGGGATACATCTTGACGAACGAGCATGTGATCCATGGCGCAGATGTGATCCAAGTGACGGTACAGGGTACCAAAAAGCCTTATGAAGCGAAGCTGCTCGGTTCCAGCTATGAGCTTGATTTAGCCGTTTTGAAAATCGAAGGGGCGGATTTCCCTTCAGTACAGCTAGGTGACTCCGACTCGCTGAAGGTTGGTGAATGGCTTGTTGCCATCGGGAACCCGCACGGTTTTGAACACACGGTTACCGCTGGTGTACTTAGCTCGAAGGAACGCGAGATCGATATTCAAGGCACGAACGGCGAACAAGACCGCAATTATGAACACCTTCTCCAGACCGATGCTTCGATTAATCCGGGTAACTCCGGCGGGCCGCTTCTCAATCTGAAGGGCGAGGTTATCGGAATGAACGTAGCCGTCAGTGCGGAAGCACAAGGGATCGGATTTGCGATTCCGTCCAGCACGATTAAGGAAGTTGTGGAATACCTGAAAAACAACGAGGAAGTGCCGAAAGAGCCGGTTCCGTTCATCGGGGCCAGCCTGGGAACGGTCACTCCGCAAATTGCCCAATCCCTGGGTACGGACGTGAAGGAAGGTTCTTACGTTGACAGCGTCGTGTTCCGTTCGCCGGCTTATGAAGCGGACCTGCGCCAATATGATATTATTGTGGGTGTGGATGGTACCAAATATCCGACCGCGCAGGACCTGATTGAATTGATTCAATCGAAGAAGGTAGGAGACAAAATCACGCTGAATGTGGTTCGTAACGGCAAGAACATGGACCTAGCGCTAACGATCGGCGACAAGAACGATTTTGATCTAACCCAACAGCAGCAACAACGGCAACAGCAGCCGTAA	MDDQRKRYGYPDDEGMNSEANNNEATRREEASTENSSYYYSYGPFQSISSNRDDEKTERPYQSREPQEVEVTAPQPVKPIPSSSFSQAHSSGSQGGGGPVDSMKRNKEWNYSQKPKNSVKTVLLSFLAGVLVISSLMFAADRTNLFTPDAAYSSEPAQETSANVEDNGGDNGGATTASAMIPSNPGDVSAVVDQASPAVVLIETLVNSSNRQSTNPNMNDPFWYFFGGGQSSQEGNGGNSGNGGSSNNGGQESQLQPSGIGSGFIFEKSGYILTNEHVIHGADVIQVTVQGTKKPYEAKLLGSSYELDLAVLKIEGADFPSVQLGDSDSLKVGEWLVAIGNPHGFEHTVTAGVLSSKEREIDIQGTNGEQDRNYEHLLQTDASINPGNSGGPLLNLKGEVIGMNVAVSAEAQGIGFAIPSSTIKEVVEYLKNNEEVPKEPVPFIGASLGTVTPQIAQSLGTDVKEGSYVDSVVFRSPAYEADLRQYDIIVGVDGTKYPTAQDLIELIQSKKVGDKITLNVVRNGKNMDLALTIGDKNDFDLTQQQQQRQQQP	PGPT0015105_349	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
AK002_05022	705	liaR_3	COG2197	Transcriptional regulatory protein LiaR	ATGAGGAAGTGCTGGCTGAGCCAGTGGAATAGAGAGGGGACAACAATCATTATGGGTACGATTCGGATATTGCTGGCTGATGATCATGATATGGTTCGCATGGGGTTAAAAACATATTTATCGTTGGATCCGGGGTTTGAAGTGATCGGAGAAGCAGCGAATGGCCAAGAGGTCGTTGATATGCTGAGAAACGGGGAGGAGGCCGACCGGCCGGATCTCATTCTAATGGACCTGATGATGCCGGTGATGAACGGGGCGGAGACCACGCGCGCGGTTATGTCCGAATTCCCGGATCAGAAGATCGTGATTCTGACCAGCTTTCTCGAAGACGAGCTTGTGGTCGAGTGCATTGAGGCGGGGGCAGTCAGCTACGTGCTAAAGACGGTTTCGGCTGACGAGCTCATTTACGCCCTTCAGGGAGCGTTCCGGGGCATGCCGGTCATGACCAAAGACGTGTCGGAAGCACTCACCAGGGGAATCCGCCGGCATATGGTGAACGGGGATGAATCCGGGCTTACCGAGCGGGAGAAGGAAGTGCTGCTCCTGATTGCCGAAGGCAAGAGCAACAAAGAGATCGGCGAAGAGCTGCATATCAGCATCAAGACGGTTAAAACCCATGTCAGCAATCTGCTGATGAAGTGCGAGCTGGAGGACCGGACGCAATTGGCGATTTATGCCCACCGGAAGGGCTGGGTCAAAATATAG	MRKCWLSQWNREGTTIIMGTIRILLADDHDMVRMGLKTYLSLDPGFEVIGEAANGQEVVDMLRNGEEADRPDLILMDLMMPVMNGAETTRAVMSEFPDQKIVILTSFLEDELVVECIEAGAVSYVLKTVSADELIYALQGAFRGMPVMTKDVSEALTRGIRRHMVNGDESGLTEREKEVLLLIAEGKSNKEIGEELHISIKTVKTHVSNLLMKCELEDRTQLAIYAHRKGWVKI	PGPT0014870_166	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
AK002_05023	1083			hypothetical protein	ATGATGGGGATATTGAAAAATACCAAATGGGTGATATTGTTTTACTTTCTGTTGATCGGAGCCGGGGTTGCTGTTTTCCTGTACACAGCAAACCAATCCGGCTACATACATATTGAAGATAACCGGCTGTGGGTGTATTACACGGTCGGTGTACTTCTGTTTACGGGGATTGCGGGATACATCGCGGGACAGCGCATCCAGCGGCCGCTGGATCTGCTTCATCTGAACATGCTGCAGGTTGCCAAAGGAAATCTGAACGTACGGCTGCCTGCCATGGAGGACGGGTCTTTTGCCAGAGTGTACGATGAGTTTAACGGGATGACGGAAGCGCTGGAGAAGAAAATGAAGCTGCTGCAGCGCCTCGGCGAGCAGGATGTCATTGAGAAGGAGATTGCCGCGGAAGCCGCTGTCCTCGAGGAAAGGCGCCGGATGGCAAGGGATCTGCACGATACGGTCAGTCAGCAGCTGTTTGCGATCCACATGTCGGCTTCATCCCTTCCGGCGGTACTGAAGCGAAATCCGGAGCACGGGGACAAGGTGCTCGGCCAGTTGATCGAGATGTCCCATGTGGCGCAGAAGCAGATGCGGGCGCTGATTGCGCAGCTTCGACCCGTGGAGCTGGAAGGCAGAACCCTGGAAGAAGCACTGGAACGGTGGTTTCCGGATTACTGCCGCCAAAACGGCCTGAAGGGCATGAAGGATGTCGAGCTCTACGGCGGGGTATCGGATGCGATTGAGCATCAGCTCTTCCTGATCATCCAGGAAGCGGTGGCTAATATCGTGAAGCATGCCGGTGCGGGCCTTGTCAGCATGTCGCTTCGCGAGGACCAGAAACGCGTGATTTTAAGCATCAGCGATGACGGTGTCGGCTTTGACGAGGTGGCAGGCAAGCAGGGATCGTACGGGCTGTCGACGATGCGCGAACGGGCCGAAAAGCTTGGCGGACAGGTCGATATTATAAGCAAGAAGGGCGCGGGAACGACGGTGCGCGTGAATATTCCGTTATTTGAGGCCGAGGGCAATACCGGAGCGGCGGAGGAAGAGAACAAGGATGAGGAAGTGCTGGCTGAGCCAGTGGAATAG	MMGILKNTKWVILFYFLLIGAGVAVFLYTANQSGYIHIEDNRLWVYYTVGVLLFTGIAGYIAGQRIQRPLDLLHLNMLQVAKGNLNVRLPAMEDGSFARVYDEFNGMTEALEKKMKLLQRLGEQDVIEKEIAAEAAVLEERRRMARDLHDTVSQQLFAIHMSASSLPAVLKRNPEHGDKVLGQLIEMSHVAQKQMRALIAQLRPVELEGRTLEEALERWFPDYCRQNGLKGMKDVELYGGVSDAIEHQLFLIIQEAVANIVKHAGAGLVSMSLREDQKRVILSISDDGVGFDEVAGKQGSYGLSTMRERAEKLGGQVDIISKKGAGTTVRVNIPLFEAEGNTGAAEEENKDEEVLAEPVE	PGPT0014865_103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014865-liaS-K11617	NA	NA
AK002_05024	1113			hypothetical protein	ATGAGTAGAAAAGGATGGAGCCAGCTTAGCAATGGATTGCTGCTCATCGGCATTGGTGTGGTGTTTCTTCTAAATCAGCTCGATATTATACATGTGGACCTTGGTTATATATTCTCGACATTTTGGCCGGTGTTCATCATCTGGTTCGGGCTGCAAAGCTTGATTTATGCCCGTGGCGGAGCATTGTGGGGTTCGATCGTACCGATCGTGATCGGATCGTACTTTCTCGGAAGAAATCTGGACATGGTCCATTTCTCTTTCGGCGATTTGATCAAATACGCGATTCCGATCATCCTGATCGGGTACGGATTGCAGGTTATTTTCAAACCGAAGGATCATACGCCGCCGCCATCACCGCCAAGTCCGGATGATTTCGGCTCGCATCGTCGGGACGATTACGATATCCCGGAGCCGCCTGAAGCGCGTCCGCTGGAATCCTCCCTGGACGAAGAATTCGAGCGAAGATTCGGCAAGCCAGACAAGGCTGACAAGGCTTATGAAGAGCCGGAGTTCGAATCAAGGGACTCGCACGATTCAAGCAAAGGGTACCGCTGGCAGGGACAGCAGCATGAGCGCCCGCGCCAGGAACGACAGGACCGCAGCAAGTTCAGAGTTCATGTGGATTTTGACGATAACGGCAAAAGCTACGGCGACGGATCGGAATATAAGGACGAACACCACCATCATCAACATCAACATCAACATCAACATCACCAATCCTGGCATAGCCATGATACGGTGAACAAGTCCTCTTTTATCGGGGACGTGCACATGGGGAAGGATTATTTCCAGCTGAAGCCGACGAATATTTCGCAGTTCATCGGCGATACGGTACTGGATCTGACCAAAGCTCAAATCCCTTACGGCGAAACGAAAATCAACATCTCGGCGTTTATCGGGGATGTCAAGGTGTTCGTTCCGAACGATTCGGACGTCGGCATTCATGTCACGACCAATTCCTTCATCGGCGATATGAAGGTGCTTGAGGAATCCCGGAGCGGCTTTATGAGCAATGCCGGCCTGGAAAGCCCGCATTACAGGGAAGCGGGCAAGAAAATTCGAATTACCGTGAGCGTATTTATCGGTGACGTCAAAGTGAATAGGGTAGGTTAA	MSRKGWSQLSNGLLLIGIGVVFLLNQLDIIHVDLGYIFSTFWPVFIIWFGLQSLIYARGGALWGSIVPIVIGSYFLGRNLDMVHFSFGDLIKYAIPIILIGYGLQVIFKPKDHTPPPSPPSPDDFGSHRRDDYDIPEPPEARPLESSLDEEFERRFGKPDKADKAYEEPEFESRDSHDSSKGYRWQGQQHERPRQERQDRSKFRVHVDFDDNGKSYGDGSEYKDEHHHHQHQHQHQHHQSWHSHDTVNKSSFIGDVHMGKDYFQLKPTNISQFIGDTVLDLTKAQIPYGETKINISAFIGDVKVFVPNDSDVGIHVTTNSFIGDMKVLEESRSGFMSNAGLESPHYREAGKKIRITVSVFIGDVKVNRVG	PGPT0028815_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028815-liaF-K11622	NA	NA
AK002_05025	201			hypothetical protein	GTGGCTAAAAAGAACAAGGTGCAAGAGAACTTTAAAACACCTAACGAAAAGTTTAACGCTGAGTTTGCTGAAGAGACCAGCATCGCCAGCAACCCAAAAGGGAACTCCAAAGTACAGGAGAACTACAAAAAACCGAACGAGAAGTTTGACGCTGAGTTTGGCGATCTGAACACACCAGGGGACCATTCTGCAAACCGTTAA	MAKKNKVQENFKTPNEKFNAEFAEETSIASNPKGNSKVQENYKKPNEKFDAEFGDLNTPGDHSANR				NA	NA	NA	NA	NA
AK002_05026	747			hypothetical protein	ATGATCCAATGGAAAACATGGCAGAGGTTTTTTGCTGGTTTTATTTTATCAGCCATCTTGTTCAGCGCGAGCTCTACGGCAGTAGAGGCCCGCAATTTGATTCTAAGCGAATCCTACGAATCGACGGACACCCGAAATGTGTATGATCCGTCAGAGGAAATACATGGCTCCGATTACGTTGAGATGTCTCGCTTCTATGCGCTACGCGTGGTGGGTTTTAGTGATATGAATAGATATTTGGAGGTTCCAAGTACGGGGCCGAAGACCAGCGAGCCCGGCAAGAAACGCGAGTCCATGCCGGTGCTTGCCCCAAGGGAGGACCAGGTGCTGCATACGGTGAAGGTAACCGCTACGGGATACACGGCAGGTTACGAGTCGACCGGGAAGAAGCCGGGACATCCCCAGTATGGAATCACCTACTCCGGGGTGAAGGTCAAGCGGGATCGAAATACGCTGTCTACGATTGCCGCGGATCCTGATGTATTCCCGCTCGGCAGCATTCTCTATATTCCCGGCTATGGGTATGGGATCGTAGCGGATATCGGGTCAGCCATCAAGGGCCAGAAGATTGACCTCTATTTCTCCACCACCAAGCAGGTGTTTAAGGAGTGGGGGAAAAAGGACGTTGAGGTGCAGGTCATTAAAACCGGAAGCGGCAAATGCACGGAAGCCATGCTGAGAACCTTGGAGGACGCGATTGAGACCTATCGTTTCCTGCCTTCATCCGTGCTGGAGGAAGCCATTTAG	MIQWKTWQRFFAGFILSAILFSASSTAVEARNLILSESYESTDTRNVYDPSEEIHGSDYVEMSRFYALRVVGFSDMNRYLEVPSTGPKTSEPGKKRESMPVLAPREDQVLHTVKVTATGYTAGYESTGKKPGHPQYGITYSGVKVKRDRNTLSTIAADPDVFPLGSILYIPGYGYGIVADIGSAIKGQKIDLYFSTTKQVFKEWGKKDVEVQVIKTGSGKCTEAMLRTLEDAIETYRFLPSSVLEEAI				NA	NA	NA	NA	NA
AK002_05027	1938	thrS	COG0441	Threonine--tRNA ligase 1	GTGGCTATTAGCATTAAACTGCCTGACGGCTCCGTACGGGAGTATGAGGCTGGAAGCAATATCGAGGATGTGGCTGCGTCGATCAGCAGCGGACTGAGAAAGAATGCCGTTGCGGGAAAAATGGACGGGATCGTCGTGGATCTATCCACTCCGCTTCAGGACGGCGCGCTGATCGAAATCGTAACGCAGGATACGCCCGAAGGGCTTGAGGTGATGCGCCACAGTACAGCGCATTTGCTGGCTCAGGCAACCAAGCGTTTGTATGGACAGAAAGAAGTCAAGCTTGGCGTAGGGCCGGTCATCGAAGACGGCTTCTATTACGACATGGACCTGGAAGAGCCTTTGAATCCGGAGGATCTGCAGAAGATCGAGAAGGAAATGGAACGCATTATCGGCGAGAACCTCCCGATCGTTCGCAAGGAAGTGAGCCGTGCGGAAGCGCTGCGCATTTTCGGCGAGCTTGGCGATCCATACAAACTGGAGCTGATCAACGCCCTGCCGGAGGACAGCATCATCACGATTTACGAGCAGGGCGAATTCTTCGACCTTTGCCGTGGACCGCACGTCCCTTCAACCGGCAAGATCAAGGTGTTCAAGCTGATGAACGTAGCGGGCGCATACTGGCGCGGCGACAGCAAGAACAAAATGCTTCAGCGTGTTTACGGTACGGCGTTTGTGAAAAAAGCGCAGCTCGACGAGCATCTTCGCCTGCTGGAGGAAGCCAAAAAGCGCGACCATCGCAAACTGGGCAAGGAATTGCAAATGTTTACGTTCTCTCAGCTCGTTGGACAAGGCTTGCCGATCTGGCTGCCTAACGGCGCGAAACTGCGCCGTACCCTGGAGCGTTATATCGTGGACATGGAGGAACGCCTGGGTTACCAGCACGTGTACACCCCTGTACTCGGAAACGTGGAACTGTACAAAACCTCCGGTCACTGGGAGCACTATCAGGAAGACATGTTCCCGAAAATGGAAATGGACAACGAGGAGCTTGTCCTGCGTCCGATGAACTGCCCTCACCATATGATGGTATATAAGAGCGATATGCACAGCTACCGTGATCTGCCGATCCGCATTGCGGAGCTTGGCATGCAGCACCGCTACGAGATGTCCGGCGCACTGACCGGCCTGCATCGCGTGCGCGCGATGACGCTGAACGACTCGCATATTTTCTGCCGTCCGGATCAGATCAAGGAAGAGTTTGCCCGGGTCATTCAGCTGATCATGACGGTCTACAAGGACTTCGGCATTCACGACTATCGCTTCCGTCTGTCTTACCGGGATCCGCAGGATACCGAAAAGTACTTCCAAAACGACGAAATGTGGGAAATGTCCCAGCGCATGCTGCGTGAAGTAGTGGAGAGCCTGGACATGCCGTTCTATGAAGCGGAAGGCGAAGCTGCCTTCTACGGACCGAAGCTTGACGTTCAGATCCGCACGGCACTGGGCAAGGAAGAAACGCTGTCCACCGTTCAGCTCGACTTCCTGCTGCCTGAGCGCTTTGAGCTGGAATATGTCGGCGACGATGGCCAGAAGCACCGTCCTGTCGTCATCCACCGCGGGATTCTGGGCACCATGGAACGCTTTACGGCATTCTTGCTTGAGAATTTTGCAGGGGCGCTGCCGTTGTGGCTTTCCCCGGTACAGGTCAAAGTCATTCCGGTATCCAACGCCTTTGAAGACTACGCCAAGGAAGTGGCCGAGAAGCTTCAATTCGCCGGTATTTCCGTCGAACCGGATCTTCGCAACGAGAAGCTGGGCTACAAGATTCGCGAAGCACAGCTCGAGAAGATTCCATACATGTTCATCGTTGGCGAGAACGAGAAAAGTGCCGGAGCGGTTTCCGTCCGCAAGCGCGGCGAAGGGGATATCGGGGCCCAGCCGCTGGACGAAATCATCCTCAAGCTGCGTGAAGAAATTAACACCCATGTAGTTTAG	MAISIKLPDGSVREYEAGSNIEDVAASISSGLRKNAVAGKMDGIVVDLSTPLQDGALIEIVTQDTPEGLEVMRHSTAHLLAQATKRLYGQKEVKLGVGPVIEDGFYYDMDLEEPLNPEDLQKIEKEMERIIGENLPIVRKEVSRAEALRIFGELGDPYKLELINALPEDSIITIYEQGEFFDLCRGPHVPSTGKIKVFKLMNVAGAYWRGDSKNKMLQRVYGTAFVKKAQLDEHLRLLEEAKKRDHRKLGKELQMFTFSQLVGQGLPIWLPNGAKLRRTLERYIVDMEERLGYQHVYTPVLGNVELYKTSGHWEHYQEDMFPKMEMDNEELVLRPMNCPHHMMVYKSDMHSYRDLPIRIAELGMQHRYEMSGALTGLHRVRAMTLNDSHIFCRPDQIKEEFARVIQLIMTVYKDFGIHDYRFRLSYRDPQDTEKYFQNDEMWEMSQRMLREVVESLDMPFYEAEGEAAFYGPKLDVQIRTALGKEETLSTVQLDFLLPERFELEYVGDDGQKHRPVVIHRGILGTMERFTAFLLENFAGALPLWLSPVQVKVIPVSNAFEDYAKEVAEKLQFAGISVEPDLRNEKLGYKIREAQLEKIPYMFIVGENEKSAGAVSVRKRGEGDIGAQPLDEIILKLREEINTHVV				NA	NA	NA	NA	NA
AK002_05028	906			hypothetical protein	ATGGAACTGTTCAGCATTTCTGTCGGTACGCGGACGGAAGACGAGAAAAAGGCGTTCCACCGCATATTGTCAGACAAGCAGAAAGAGCTACATAAACAGTGCAAGCCGCTCAAATTCACATTCAGTGCTTCGAATGACCGCGTGATTTGGACGTGCTCTGGCAAGCTTCCGCTGTCTTCGTGGACCGCATCGGCCGACACGCTGCGCCGGCTTGCTGCCGAAGCAGTCACGGCTTACATTCTGGAGGAGAAGGAGCAGGAGATTGCTGCACGGTTAATGTTCTCGGAATTCGAGTTTGATGATGAGGAAGAAGCAGGGCGGATCTTGCAATGGTTTTTGATGCTCCTGCAAAAAGAAGACGGCCCGTCCGGAGATTTCTGGCAGAGCCGCAAACGCAAGCTGTCCGAAGGCATCTATCAATGCCTTAACGAGGCGCCGGAGCTCAATCTGGACGGTTTCATGACCTTCCGGCTTCGGGCCTATGAACAGGAGCTTCGCGAGATGGCCGAGTACGCGGTGGATGAGTTCATGCTTGATCAGCAGTATGAGGAGTTCGTAAGCCTGCTGAAATATTTCGTTTATTTTCAGGAGCCCAAAATGCCGCTGGTTCACGTCATTCATAAAGGGGAAGAGGACTTTTTGCTGCTGGACGGCAATCTTCGCCCGATCGAACGCCCTCGTGACGACGGACTGGTTATGGAAAGGCTGGACCAGGAGATGGAGATTGAGGATATGGTCGTCAGCACGCTGATTTCGGTATCTCCGGCCCGCATGATTATCCACACGAGGCAGCCGGAGCTTCCCGTCATCGCAACATTGGCCCATATCTTTGATAACCGAGCCGAAGTATGCTGCAGCTGTCCGGAATGCAGCGCGCTTCTGGGAAGCGGACGAATGATGACTTGA	MELFSISVGTRTEDEKKAFHRILSDKQKELHKQCKPLKFTFSASNDRVIWTCSGKLPLSSWTASADTLRRLAAEAVTAYILEEKEQEIAARLMFSEFEFDDEEEAGRILQWFLMLLQKEDGPSGDFWQSRKRKLSEGIYQCLNEAPELNLDGFMTFRLRAYEQELREMAEYAVDEFMLDQQYEEFVSLLKYFVYFQEPKMPLVHVIHKGEEDFLLLDGNLRPIERPRDDGLVMERLDQEMEIEDMVVSTLISVSPARMIIHTRQPELPVIATLAHIFDNRAEVCCSCPECSALLGSGRMMT				NA	NA	NA	NA	NA
AK002_05029	1134	mqnC	COG1060	Cyclic dehypoxanthine futalosine synthase	ATGAGTGCGGTAAACCGTATATTGGATAAAGCTTTACGCGGTGAGCGTTTAAATTTGGAAGATACCGTGACCCTTTTTGAGAGTGATGAGATCGAGAAGATTGGCCATGCGGCGGATGTGATGACCAAGCGCCTGCATCCGGATCCCATCACGACGTTTGTTATCGGCCGGAATATCAACTATACCAACATATGTGACGTATTCTGCCGTTTCTGTGCTTTTTATCGCAGACCCGGCTCTTCCGAGGGCTATGTTCTGCCGGATGAGACGATTTTCCAGAAGATTCAGGAAACCGAGGACGTGAACGGCACTGAAATTTTGATGCAGGGCGGAGTCAATCCGGATTTGCCTTTCAATTATTATACGGATCTGCTTCGCAACATTAAGAAGCGGTTCCCTAACATTACGATGCATTCCTTCTCCCCGGCGGAAATCATGAAGATGGTGGAGATCTCCGGGCTCACACTCGAAGAGGTGATGCGCGAGCTTCACAGCGCGGGTCTGGATTCGCTGCCGGGCGGCGGCGCGGAGATTCTGGATGATCGCATCCGCAAAAAAGTCAGCCGTTTGAAAGGTACATGGCGCCAATGGATGGATGTCATGCAAACGGCCCATAAGGTCGGAATGAACACGACGGCTACCATGGTCATCGGTCTTGGCGAAACGATGGAAGAACGGGCGCTGCACATGCTTCGCGTACGTGACGCACAGGATGAATGCATCCAGAACGGGTATGACTCCAAAGGCTTCCTGGCCTTCATTCCGTTTACCTTCCAACCGGACAACACGAACCTCAAGCGCGAGCGCGAAACGCCGGAAGCGTACCTGAAGACGGTAGCCATCGGCCGGCTTGCGATCGACAACGTGCCGAACCTGCAATCGTCCTGGGTAACGATGGGGCCTGAGATCGGCAAGCTGTCGCTCAGCTACGGCTGCAACGACTTCGGCAGCACGATGATGGAGGAGAACGTGGTGTCTTCCGCAGGCGCCGTGTACAAGGTCAACATTGAGTCGATTATCCAATTAATCCGCGAGACCGGCAACATTCCGGCTCAGCGCAACACCCGGTATGATATTCTTCGCGTGTTCGAGGATAACAGCACCGTGGAGCGCGACTTCGTGATGCAGAACTAA	MSAVNRILDKALRGERLNLEDTVTLFESDEIEKIGHAADVMTKRLHPDPITTFVIGRNINYTNICDVFCRFCAFYRRPGSSEGYVLPDETIFQKIQETEDVNGTEILMQGGVNPDLPFNYYTDLLRNIKKRFPNITMHSFSPAEIMKMVEISGLTLEEVMRELHSAGLDSLPGGGAEILDDRIRKKVSRLKGTWRQWMDVMQTAHKVGMNTTATMVIGLGETMEERALHMLRVRDAQDECIQNGYDSKGFLAFIPFTFQPDNTNLKRERETPEAYLKTVAIGRLAIDNVPNLQSSWVTMGPEIGKLSLSYGCNDFGSTMMEENVVSSAGAVYKVNIESIIQLIRETGNIPAQRNTRYDILRVFEDNSTVERDFVMQN	PGPT0009445_259	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009445-mqnC-K11784	NA	NA
AK002_05030	1221	metC	COG0626	Cystathionine beta-lyase MetC	ATGAGCATCGATAAAGGTCCATCCGGCTTGGAAACGCAAGCTAAGCAGGTATCAGCAAAACGCGGACACGATGAAGAACTCCGTTTCGAGACGAAACTATTGCATTTCGGCGGGGAAATCGATCGCGCAACCGGCGCTTCAAGCGTTCCGATCTATCAAGCCTCGACGTTTCATCATGAAGACGTCTTTAACCCGCCGCTGCACGATTACAGCCGATCCGGCAATCCGACGCGGCAGGCGCTGGAAGATTATATCGCCCTCTTGGAAGGAGGCGTTCGCGGCTTCGCTTATGCTTCCGGCATGGCGGCGATCTCCAGCTCGTTCATGCTGCTGTCCGCGGGCGATCACATGATCGTGACGGAGGATGTATACGGCGGAACCTACCGCCTGCTGACCAGCATACTGAGCCGTATGGGCATCGAGAGCACCTTCGTCGACATGACCGATCTGGATCAGGTGAAGGCGGCCCTCAAACCGAATACAAAAGCGGTTTATATGGAAACCCCTTCGAACCCGACCTTGAAAATTACCGACATCGGCGCCGTCACGGATTGGGCGAAGGAGCAAGGCCTGCTTACCCTGCTGGACAATACGTTCATGACGCCGTTCTATCAGCGCCCGATCGAGTTCGGCGTGGATATCGTCATCCACAGCGCAACCAAATTCCTTGGGGGACACAGCGATGTGCTGGCAGGTCTCGCCGTAGCCAGAACCCAGGAGCTGGGAGACCAGTTGAAACAGCTGCAAAATGGTTTGGGCACGGTGCTTGGGGTCCAGGATTCCTGGCTCCTTATGCGGGGCATGAAGACGCTCAGCACTCGGATGGCCCACTCCGAGCAGAGCGCGGCCAAGCTGGCGGCCTGGCTGCAAGGGAGAAGCGACATTGAGCAAGTGTATTACCCCGGCCTCTTGAATCATCCGGGACGGGAAGTCCATGAGAAGCAGTCGAGCGGTTACGGCGCGGTCATCTCCTTTGACGTCGGCTCAGGCGAGCGTGCGAAGCAGGTGCTGAACCGCGTGAAGCTGCCGCTGGTAGCCGTCAGCCTGGGAGCAGTGGAGAGCATCCTGTCGTATCCGGCGATGATGTCCCATGCGGCCATGGGCGAGAAGGTTCGGCATGAGCGCGGCATTACCGACGGTTTGCTCCGCTTCTCGGTCGGACTGGAGGATGTGGATGACCTGATTGCCGATTTGGACCAGGCCTTTTCTACCAGCAACTAA	MSIDKGPSGLETQAKQVSAKRGHDEELRFETKLLHFGGEIDRATGASSVPIYQASTFHHEDVFNPPLHDYSRSGNPTRQALEDYIALLEGGVRGFAYASGMAAISSSFMLLSAGDHMIVTEDVYGGTYRLLTSILSRMGIESTFVDMTDLDQVKAALKPNTKAVYMETPSNPTLKITDIGAVTDWAKEQGLLTLLDNTFMTPFYQRPIEFGVDIVIHSATKFLGGHSDVLAGLAVARTQELGDQLKQLQNGLGTVLGVQDSWLLMRGMKTLSTRMAHSEQSAAKLAAWLQGRSDIEQVYYPGLLNHPGREVHEKQSSGYGAVISFDVGSGERAKQVLNRVKLPLVAVSLGAVESILSYPAMMSHAAMGEKVRHERGITDGLLRFSVGLEDVDDLIADLDQAFSTSN	PGPT0001995_970	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
AK002_05031	1185	metI	COG0626	Cystathionine gamma-synthase/O-acetylhomoserine (thiol)-lyase	ATGGAGAAGAAACCTTTGAATATAGAGAGCCGGCTGGCACAGATCGGATCGGTGCAGGAACCGGTAACGGGAGCAGTGAATTTTCCGATTTATCAGGCTACGGCATACCGCCATCCTAAATTAGGCCAGAGCACGGGGTTTGATTATGCCCGCACCAAGAATCCGACCCGTTCGGTACTAGAGGATGCCTGCGCCGAGCTGGAATCCGGTGACGCCGGCTTTGCCTGCAGCTCGGGCATGGCGGCCCTTCAGACGATTTTTGCGCTGTTCGGTCAAGGCGATCACCTGATTGTATCGCTCGATCTGTACGGAGGGACGTACCGGCTGCTGGAGCGGATCATGTCCAAGTTCGGGGTAACGGCGACCTACGTGGATACAAACGACTTGGATGCGCTGGAAGGATCCAGACAACCGAACACGAAGGCCGTATTTATCGAAACGCCGACGAATCCGCTCATGATGATTACGGATATCGAAGCCGTCTGTACATGGGCAAGACGCCATCAATTGATCAGCATCGTGGATAATACGCTGCTAACCCCGTATTTCCAGAGACCCATCGAGCTTGGGGCGGATATCGTCATACATAGCGCCACCAAGTATCTGGGAGGGCATAACGATGTGCTGGCAGGCATCATCGTGACGAAGGGCAAAGAATTATCCGAGGAGATGGCCTTCCTTCATAACTCCATCGGGGCGGTGCTGAGTCCTTCCGATTCCTATCAGTTAATGAGGGGTATGAAGACGCTTGCGCTTCGCATGGACCGGCACGAATCGAATGCAACTGCGGTGGCAAGCTTTTTGACAACCCACCCGGCGATCGGAGAGGTGTATTACCCTGCTCTGCCGGATCATCCGGGGCATGAGATCCAGAATCGCCAATCCAGCGGCAACACGGGCATCTTCTCCTTCAAGGTGAAGGACGCCCGCTATGTCGAGCCCGTGCTGCGGCACATCAAACTGATTGCATTTGCAGAAAGCCTCGGAGGCGTCGAGTCCCTAATGACATACCCGGCGGTCCAGACCCATGCGGACATCCCGCTTGAGATTCGGGAAGCGATCGGCGTGGACGACCGCTTACTCCGGTTTTCGGTCGGCATCGAGCATGCGGATGACCTGATCGCGGATTTGGGTGCTGCGCTGGGCGCGGCTATGGCAGAAGTGGAAGGGAGCACGGGAGCATGA	MEKKPLNIESRLAQIGSVQEPVTGAVNFPIYQATAYRHPKLGQSTGFDYARTKNPTRSVLEDACAELESGDAGFACSSGMAALQTIFALFGQGDHLIVSLDLYGGTYRLLERIMSKFGVTATYVDTNDLDALEGSRQPNTKAVFIETPTNPLMMITDIEAVCTWARRHQLISIVDNTLLTPYFQRPIELGADIVIHSATKYLGGHNDVLAGIIVTKGKELSEEMAFLHNSIGAVLSPSDSYQLMRGMKTLALRMDRHESNATAVASFLTTHPAIGEVYYPALPDHPGHEIQNRQSSGNTGIFSFKVKDARYVEPVLRHIKLIAFAESLGGVESLMTYPAVQTHADIPLEIREAIGVDDRLLRFSVGIEHADDLIADLGAALGAAMAEVEGSTGA	PGPT0001985_154	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001985-mccB-K17217	NA	NA
AK002_05032	918	metAA		Homoserine O-acetyltransferase	ATGCCAATTAAAATTCCGGATGCCCTGCCGGCAAAGGAAGTTCTGGCTGGAGAAAACATTTTTGTCATGGATGAGAGTCATGCGTTTCATCAGGATATCCGCCCGCTGCGGATTGCGATCCTCAATTTGATGCCAACCAAGGAAACGACGGAGACCCAGCTGCTGCGATTGATCGGCAACTCCCCGCTCCAGGTGGATGTCGTCCTTCTTCACCCGAGCTCACACGTATCGAAGAATACGTCGGCCGAGCATTTGAAATCATTTTACAAAACCTTTGAAGAAGTGAAGAACCGTCGTTTTGACGGCATGATCATTACTGGAGCTCCGGTCGAGCAGCTGGAGTTCGAAGAAGTGAATTATTGGGATGAGCTTACTGAAATTTTTGAATGGACCAAGACGCATGTGACCTCTACGCTCCATATCTGCTGGGCATCGCAAGCCGGGCTTTATTATCATTACGGCGTGCCGAAATACAGCCTCGAGGAAAAATGCTTTGGCGTATTTCCGCATACGATCAATGAAGCGTGTACCAAGCTGCTCCGCGGATTTGACGAAATGTTCTTTGTTCCGCATTCCCGTCATACGGAAGTTCGGCGCGAAGACATTGCAGGCGTGGACGATTTGGTCATCCTGTCCGAGTCCGAGGAAGCAGGGATTTATTTGGTATCCAGCCGGGACGGCAAGCAGATTTTTGCCACAGGGCATTCCGAGTATGATGCGGACTCCCTGAAATGGGAGTATGACCGGGACGTTGCCAAAGGCATGGACATTGCGCTGCCGCGCAACTATTATCCGAACGACGATCCAACAAGAACACCTCCGTCCATATGGCGCGCGCATGCAAACTTATTATTCACTAATTGGCTCAATTACTATGTATATCAGGAAACGCCATATGATATCGGTCCGCAAATTTAA	MPIKIPDALPAKEVLAGENIFVMDESHAFHQDIRPLRIAILNLMPTKETTETQLLRLIGNSPLQVDVVLLHPSSHVSKNTSAEHLKSFYKTFEEVKNRRFDGMIITGAPVEQLEFEEVNYWDELTEIFEWTKTHVTSTLHICWASQAGLYYHYGVPKYSLEEKCFGVFPHTINEACTKLLRGFDEMFFVPHSRHTEVRREDIAGVDDLVILSESEEAGIYLVSSRDGKQIFATGHSEYDADSLKWEYDRDVAKGMDIALPRNYYPNDDPTRTPPSIWRAHANLLFTNWLNYYVYQETPYDIGPQI				NA	NA	NA	NA	NA
AK002_05034	936	corA_2	COG0598	Cobalt/magnesium transport protein CorA	ATGAAAATCCGGTTGGTCGATTCGGGCGTTTTTACCCCTGTTGATGACATCGAAATGACGCTGACAGCTCCGGCCAGCGGCTTCTACTGGCTGGATGCGGACGTGGATGATTTAGCCGAACTGCAGCCCCTCTTCTCCCTGCATGATCTTGCCGTTGAGGATTGCCTCAGCGAAGAGGAGCAGCGTCCCAAAATTGAAATATACGAGAACCACTATTTTATCGTCGTGAACAGCATCCGGTTTGACGACGAAGAGATTTTCCTTCGGGCATTGAATGTTTTCCTGGGCAGGCATTTTATTATTACGGTGACCAAGCAAAAGATCCATGAGCTTCGCACCGTCAAACCGCTTCTCTGGGAGGATGAAGTCAGCACGCCTGACCGCTTCCTCTATCTCTTGATCGACCTCGTCACGGACAACTACTTCTCCGTAGGGGACCGAATAGAAGCGCGAATTGAAAAGCTGGAGGAAGACATTCTGATGCATACCAAAAAATCCCACCTCAGCGAGATCATCGGTCTGCGAAGCGAGATTCTTTGGTTGAAAAAGGTGCTTGGACCTCAGAAGGAAGTTATCAATACGCTCAACAAAAAAGATCTTCGGCTGATCGATGACCAGCTGCAGAAATACTTCAGCGATATCTATGAAAATGCCGTTAAAATTTCCGAAACGTTCGAGACCTATCGGGATCTCATGGGGAACCTTCGGGAAGCCTACCAATCCAGTATCGCCAATCGGGCCAATGAAATCATGCGCGTGTTTACCGCTATTACAACGATCTTTATTCCATTGACGCTGATTACGGGCATCTACGGCATGAACTTTGAGTATATGCCGGAACTTCATTGGAGATATTCCTATTATGTGGTTATCGGCATCATGGTTTTTGCCGGCGCGCTCATGTTTTATCTGTTCCGTAAAAAGGATTGGATATGA	MKIRLVDSGVFTPVDDIEMTLTAPASGFYWLDADVDDLAELQPLFSLHDLAVEDCLSEEEQRPKIEIYENHYFIVVNSIRFDDEEIFLRALNVFLGRHFIITVTKQKIHELRTVKPLLWEDEVSTPDRFLYLLIDLVTDNYFSVGDRIEARIEKLEEDILMHTKKSHLSEIIGLRSEILWLKKVLGPQKEVINTLNKKDLRLIDDQLQKYFSDIYENAVKISETFETYRDLMGNLREAYQSSIANRANEIMRVFTAITTIFIPLTLITGIYGMNFEYMPELHWRYSYYVVIGIMVFAGALMFYLFRKKDWI	PGPT0014010_4886	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
AK002_05035	1026			hypothetical protein	ATGCAAATTGTGTTCATGAATCGGATGAGCGGAGCGGATGAGTCAGGTCATCTCCGTTCGGCTCAAGTATGGATCGGCGAGGAAGAAGGAGGATGGAGGCTCGGCTGGCGGAATATGGAACCGGACGGTGAAGTTTCCGATGACGAGTGGTATGAAGGCAACTCATGGAATGAGCTGCTGTGCGTGTATCGGCATCAGCTTGCGAAGAAGCTCGGAGAGGGCTTCCGCCCGCTAATCGAAGGGGTATTCCATGAACCGGGGGAGACCGGGAGCAAGAATCTCGGCACTCAGAAGCTGCAATGTTACAGCGAGCTGTATGGATCGGAGGAGCTGTACACGGAGCTGTGCGCCTGGCGCAGGAGAAAGGCCGCATCCGGAAGAAAAGCGCCCTATTTCATTGCCAGCAACCGGGTGCTGCGCATGATCAGCGCCTTTGTTCCCCAGAGTGAGGAAGAGCTGCTGCAGCTTCCGGGAATCGGGGTTAGCAAGGCTTCGGAGCACGGGGTGGAATGGCTGGAGATTACGACGAAAACCGAGCGAACCACAACGTTTCCACTGGATTGGGTGTATACGCAGCTGCCGGAAGAGGAATTCTTGTCCTGGCTGTATAAACAGAAGGAACAGAGATATCAGCAGGAGCTTGAACGCTTCCGAACCCGCCGTGCGATGCTGATTGGCATAGCCGAGGGCGCTTCGCTGTCCGAGCTTGAAGCGCGTACCTCGCTGTCGCGTCGGGATTTGGTCGAGGAATTGGAAGGGCTTGAGAAGGAAGGCTATGATACGGAGCAGCTGCTCCAGGTCGAATTGAACATGATGACGGCTGCGGAGCAGGAAAACGTATGGAAGGCGTTTGAAGAGTTGGGCGATACGTTTCTTAAACCTGTGTTACAGCGGGTATACGGACAGGGACAAGCCGAGAACGCAGAAGCAGAAGAGCTGGGGGGGACGGAAAGGCTGTATGAACGGCTTCGTCTCATACGGATCCGCTTTCGGCGGGATCAGCCCGGCAAAGCGAATGCCGGTTAA	MQIVFMNRMSGADESGHLRSAQVWIGEEEGGWRLGWRNMEPDGEVSDDEWYEGNSWNELLCVYRHQLAKKLGEGFRPLIEGVFHEPGETGSKNLGTQKLQCYSELYGSEELYTELCAWRRRKAASGRKAPYFIASNRVLRMISAFVPQSEEELLQLPGIGVSKASEHGVEWLEITTKTERTTTFPLDWVYTQLPEEEFLSWLYKQKEQRYQQELERFRTRRAMLIGIAEGASLSELEARTSLSRRDLVEELEGLEKEGYDTEQLLQVELNMMTAAEQENVWKAFEELGDTFLKPVLQRVYGQGQAENAEAEELGGTERLYERLRLIRIRFRRDQPGKANAG				NA	NA	NA	NA	NA
AK002_05036	897	gmuE_3	COG1940	Putative fructokinase	ATGAGTTTACTTGGAGCAATTGAAGCAGGAGGAACCAAGTTCGTTTGCGGCGTGGGTACGGAGGATGGAACGGTTGTGGAGCGAGTGAGCTTTCCGACGACAACCCCTGAAGAAACCATGGCAAACGTCTTTAACTTTTTTGCTGATAAGGATATAGAGGCGATCGGAGTCGGTTCGTTCGGACCGATTGACCCGGTGAAAGGCAGCCCGACCTATGGCTGCATTACAACGACGCCGAAGCCGCATTGGAGCAATTACAATATCGTCAAAGCATTGGAAGGGCGTTTTGACGTTCCAATCGGATTTGATACGGATGTAAACGGAGCGGCTCTTGGAGAATATACGTGGGGGGCGGCCCAGGGACTGGACAGCTGTCTTTATATCACCATCGGAACGGGAGTAGGAGCAGGCGCCGTGGTATCCGGCGAACTGATTCACGGCCTGTCCCATCCGGAGATGGGGCATATTTACGTCCGCCGTCATCCGGAAGACAAATATGAGGGGACCTGTCCTTATCATGCAGACTGTTTGGAGGGGCTTGCTGCGGGACCGTCTCTTGGCAAACGCTGGGGTGTTCCCGGCGTGGAATTGACGCCGGATCATCCGGCTTGGGAGATGGAAGCTTATTATCTCGCTCAAGCGCTGATGAATTATGTCCTCATCTTGTCCCCTCAGCGAATCGTGATGGGTGGAGGCGTGATGAAGCAGGAGCAGCTGTTCCCGCTGATCCGCACGAAGCTTCAAGAGCTGCTGGCGGGATATGTTCAGCATCCAAGCCTTCATGACGGGATCGATCAATTCATCGTTCCGCCGATGCTCGGCGATAATGCGGGTCTCTGCGGCGCATTGGCATTGGCCAAGCTGGCAGTGGATGAAACCAAGAGCATTCAAGCTTAG	MSLLGAIEAGGTKFVCGVGTEDGTVVERVSFPTTTPEETMANVFNFFADKDIEAIGVGSFGPIDPVKGSPTYGCITTTPKPHWSNYNIVKALEGRFDVPIGFDTDVNGAALGEYTWGAAQGLDSCLYITIGTGVGAGAVVSGELIHGLSHPEMGHIYVRRHPEDKYEGTCPYHADCLEGLAAGPSLGKRWGVPGVELTPDHPAWEMEAYYLAQALMNYVLILSPQRIVMGGGVMKQEQLFPLIRTKLQELLAGYVQHPSLHDGIDQFIVPPMLGDNAGLCGALALAKLAVDETKSIQA	PGPT0017625_4335	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
AK002_05037	225			hypothetical protein	ATGGTTGCAGGCAATATACCGTGCGTCACGCAAACGCTGCCCACGGCGATTTACGTTGCGGTTAGCAATGTCGAAAGCGGGCTGGCATGGGCGTGGACGGCGGTCATTATTTTGTTCTCATGGCTGTTACTCGCCGCGTCTCGGAACGGGGCAGAGGCAGGGAAAGAGGCAGGCAGACTTGACGGGAGCACAATGTTTACATATGCTTCGAATAGAGCTTGTTAG	MVAGNIPCVTQTLPTAIYVAVSNVESGLAWAWTAVIILFSWLLLAASRNGAEAGKEAGRLDGSTMFTYASNRAC				NA	NA	NA	NA	NA
AK002_05038	897	ypcP	COG0258	5'-3' exonuclease	ATGACCGTGATACCCAATCCACAACCATCCTTAATGCTCGTCGACGGGATGGCTTTATTATTTCGTGCTTATTATGCAACAGCGTCCAGCGGTTATATCCGCCGTACCAAAGCGGGTGTGCCGACCAACGCGATTTACGGCTTCCTGCGGTATATGTGGGATGCCATCGATAAATTTCAGCCTACCCATGTGGCTTGCTGCTGGGATATGGGCTCAAAAACATTCCGTACGGAGCAATTCGCCTCGTATAAAGGCAATCGTCCGGAAGCGCCGGATGACTTGGTTCCGCAGTTCTCGCTGGTTCGCGACGTGACGGAATGCCTCGGGATCCCGAATCTGGGCGTCGTGGGTTATGAGGCCGATGACTGCATCGGTACGCTTGCCAGACGGTTCGGCGATAGCATGAACGTCATGATCCTGTCGGGCGACCACGATTTGCTTCAGCTCGTGAACGATTCGACTTCGGTCATCATTATGAAAAAGGGGCATGGCAATTATATGCACTATACCCCGGAGACGCTTTATGCCGAAAAGGGGCTTTCACCAAGACAGGTGATCGATGTAAAAGGCCTGATGGGAGATACGAGCGACAATTATCCGGGCGTACGCGGGATCGGCGAGAAGACGGCAGTCAAGCTGATCCAGGAATATGAATCCGTGGAAGGCATCCTTGCGAATCTCGATTCATTGACCAAAGGGGTTCGCACCAAGATCGAAGCGGATCTGGAGATGCTGCATCTGTCCCGGGCCCTGGCCGAAATTCATTGCGAGGTTCCGATGGAATGCGAGCTGGATTTGTGCCGCCTGAGCGTGGATCACGAACGTGCGTTAACCAAACTGGAGGAGCTGGAAATGAAGAGCCTCGGCCATCTTTTTGGGGTGGCGGTGGTTTCCTAG	MTVIPNPQPSLMLVDGMALLFRAYYATASSGYIRRTKAGVPTNAIYGFLRYMWDAIDKFQPTHVACCWDMGSKTFRTEQFASYKGNRPEAPDDLVPQFSLVRDVTECLGIPNLGVVGYEADDCIGTLARRFGDSMNVMILSGDHDLLQLVNDSTSVIIMKKGHGNYMHYTPETLYAEKGLSPRQVIDVKGLMGDTSDNYPGVRGIGEKTAVKLIQEYESVEGILANLDSLTKGVRTKIEADLEMLHLSRALAEIHCEVPMECELDLCRLSVDHERALTKLEELEMKSLGHLFGVAVVS				NA	NA	NA	NA	NA
AK002_05039	363	arsC_2		Arsenate reductase	ATGAGCAAACTGAAAGTATATCAATATCCGAAATGCGGGACTTGCCGTAACGCCGTGAAATGGCTGCAGAACGAAGGACATGAGCTGGAGCTTCAAAATATTTTCGAACAACCGCCAAAGAAAGATGAGTTAGCCGACCTGATCGCCAAGAGCGGACTGGAGCTAAAGAAATTTTTCAATACTAGCGGCGAGGTATACAAGGAAATGAACCTGAAGGACAAGCTGCCCGGCCTTTCCGATGAGGAGAAGATCGAACTATTGTCTTCCAACGGAAGATTGATCAAGCGTCCGATCGTGACCGACGGCAGCAAAGTAACCGTCGGCTTCAAAGCGGAGCAATATCAGGAGACATGGCAGAAGTAA	MSKLKVYQYPKCGTCRNAVKWLQNEGHELELQNIFEQPPKKDELADLIAKSGLELKKFFNTSGEVYKEMNLKDKLPGLSDEEKIELLSSNGRLIKRPIVTDGSKVTVGFKAEQYQETWQK	PGPT0004720_1593	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
AK002_05040	1065	rluD_2	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGGGTCTGTACTATCCGCCAATCCGCTATGTCGTACCCACACACGAAGACGGCATGCTGCTTAAGACCATTTTGCAAAAACGAATGGGGGTATCCCGCAAGCTGCTCTCCCGCCTCAAATTGACGGAGCAGGGCATTATGCTGAACGGAACCCGCGTATATATTAGCGTTAAAGTGCAAGCGGGCGATTTGGTCGAAATTCGGATGGAGCAGGAACGTTCCAACGATATGCTGCCCCAGCCCATGGAGCTTCATATTCTGTACGAGGATGAGCATCTGCTTGTCTTGAACAAGCCGGCAGGGGTCATCGTGCATCCGACGCACGGGCATTATACCGACACGCTGGCCAACGGCGTCGTTCATTATTGGCAGGAGAAGGGCTGGAATTACCGGTTCAGAGCGGTTCACCGGCTCGATCAGGAGACTTCCGGCGTACTGGTGATCGCGAAGAATGCGTATATTCATCAGCATGTTTCCGAACAAATGATTGCCGGCACCGTCGATAAGAGGTATGTCGCTTTTGTGCATGGAAGACCTTCTTCGCCGACAGGCGATATTGACGGTCCGATTGACCGGGATCCGTTGGAGCCCCACCGGCGAATCGTAACTCCGGAAGGATATCCTTCGCTTACGCGGTATAGGGTATGCGAAACTTACCCCTCCGCATCCTTGGTTGAATTGAAGCTCGAAACAGGCCGGACGCATCAAATTCGGGTGCATATGCTAAGCATCGGTTGTCCATTGATCGGAGATCAGATGTACAGGCATCCCGTATACAGCGATCAGGGATTGTTACCGGATTCGCCGGTGAGGGATGAGGATTCCAATGGGGCCGTCGGGTCATTGGATCCGTTAGCCGCAACGATCATGAGGCTGGACGGCTATATGGACAGGCAGGCGCTGCATGCGGCAAGCCTGACGCTGATGCATCCGATAGAGGGGAAGACGATGGTATTCAGGGCCCCGCTACCTGAGGACATGAAATCATTGAGATTAGCGCTCGCGCAAGAAGCTGTCACTTCATTATGTAACACTACAACATTAGAGGGAGAACCTATTGAATGA	MGLYYPPIRYVVPTHEDGMLLKTILQKRMGVSRKLLSRLKLTEQGIMLNGTRVYISVKVQAGDLVEIRMEQERSNDMLPQPMELHILYEDEHLLVLNKPAGVIVHPTHGHYTDTLANGVVHYWQEKGWNYRFRAVHRLDQETSGVLVIAKNAYIHQHVSEQMIAGTVDKRYVAFVHGRPSSPTGDIDGPIDRDPLEPHRRIVTPEGYPSLTRYRVCETYPSASLVELKLETGRTHQIRVHMLSIGCPLIGDQMYRHPVYSDQGLLPDSPVRDEDSNGAVGSLDPLAATIMRLDGYMDRQALHAASLTLMHPIEGKTMVFRAPLPEDMKSLRLALAQEAVTSLCNTTTLEGEPIE				NA	NA	NA	NA	NA
AK002_05041	561	yvqK	COG2096	Corrinoid adenosyltransferase	ATGAAGGTATATACAAGAACGGGAGATGCGGGGGAGACTTCGATTATTGGAGGTCGCGTGCCTAAGGATGATCCGCGCATCGAAGCGTACGGCACGATCGATGAATTGAACAGCTTTGTCGGTCAGGCCGTGTGTTTGGCCAAGGAAGCCGATTTTGAGGAGCTGTATCTTCAGCTCGTTCAAATCCAGCATGAACTGTTCGATTGCGGCTCGGATCTGGCTTATGCGAGGCCGCGGGAGGATAAACTCAAGGTCGGTGCCGAGCTTGTGGATCGTCTGGAGGCGTGGCTGGATGCATTCGAAGAGAAGAACCCTCCGCTGGAGCGCTTTATTCTGCCGGGCGGAAGCGCCTTGTCTTCTTCGCTGCATGTATGCCGGACCGTATGCCGGCGCGCAGAAAGGCTGACCGTTACGCTGCAGCGAACCACCGAGATCAATCCGGAGGTCCGCCGGTATTTGAACCGGTTGTCCGATTATTTTTTTGTTGCCGCACGGGCAGCCAATGTGCATGCCGGGATACCTGATGTTGAATATGAGCGAAGCGGAAAGGTGTTCCGGTAA	MKVYTRTGDAGETSIIGGRVPKDDPRIEAYGTIDELNSFVGQAVCLAKEADFEELYLQLVQIQHELFDCGSDLAYARPREDKLKVGAELVDRLEAWLDAFEEKNPPLERFILPGGSALSSSLHVCRTVCRRAERLTVTLQRTTEINPEVRRYLNRLSDYFFVAARAANVHAGIPDVEYERSGKVFR				NA	NA	NA	NA	NA
AK002_05042	264			hypothetical protein	GTGTTTTGTGATTATGAATTGTCAAACTACCGTGGTGATTATACGGCTGAAGACAATAATCACGGTAAATGGTCAATTAAATCAGCCAAATCCACTCCTCAGGAAATTACCTTGGAAGACGAAATTCACATGCTCCGCCGGAAGATGGAGCAAATATTTTTGGAAGAGCAGTCCTTCACGTCGGAAATCGTGATCGAGATCAGCAGCTTGCTGGATCTGAAGATCAACGAATATATGAAGGCCCATCCCAAAAAGAAACTCTAA	MFCDYELSNYRGDYTAEDNNHGKWSIKSAKSTPQEITLEDEIHMLRRKMEQIFLEEQSFTSEIVIEISSLLDLKINEYMKAHPKKKL				NA	NA	NA	NA	NA
AK002_05043	1206	dapX_2	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGATTTTGAACGAACAGCAGCTTGCAGAAAATAACAGGAAATCGATGAGCTCCTATTTGGCGCCTAGAGTCAGGGATATTCAACCCTCCGGAATCCGGAAATTTTTCGATCTCGTCAGCGGAAACAAGGATATCATCACGCTAGGCGTCGGGGAGCCTGATTTCGTAACGCCGTGGCATGTACGAGAAGCGTGCGTATATTCATTGGAGCGCGGGTTTACGGGCTATACGTCCAATGCCGGCATGCCGGAGCTGAGGGAAGCGATCGCGGAATATTTGAACGACAGCTTCCATGTGACCTATAATCCTGCGAATGAAATCATCGTTACCGTGGGCGGCAGTGAAGCGATTGATCTGGCGCTGCGGGCCTTGATTGTTCCCGGAGATGAGATTCTGATTCCGGAACCGTGTTACATTTCGTATTCGCCGATCGCTTCAATCGGCGGCGGCGTGCCCGTCGGCATCGAAACGACGGCGGAGCATCATTTCAAACTGACGGCCGAAGCGCTGGAAGCGCAAATCACGCCCAAATCAAAGATTCTGATTCTCTGCTATCCAAGCAATCCGACCGGGGCGATCATGACCTACGAGGATTGGCTTCCGATTGCGGAAGTGGTGGAAAAGCACGATCTGATTGTGATTTCAGATGAAATTTATGCCGAGCTCACGTATGAAGGCAAGCATGTCAGCTTTGCCTCGATGCCCGGCATGATGGACCGCACCATACTGGTCAGCGGCTTTTCGAAGGCGTTTGCTATGACCGGCTGGCGTATGGGTTATGTGTGTGCCCATACGGATCTCATTGCCGCCATGCTGAAAATTCATCAGTATACGGTCATGTGTGCACCGGCCATGGGGCAAGTCGCCGCGCTTGAAGCATTGCGTAACGGCATGGGGGAGAAGGACCGAATGGTTGAATCCTATAACCAGCGGCGCAGGCTCGTTGTGCAGGGGCTGCGGGAGATCGGTCTGGATTGCCACGAACCCCAGGGAGCGTTCTACGCCTTCCCAAGCGTCAAGGGAACGGGACTCGGCTCGGAAGAATTTGCTCAGCGATTGCTGACCGAAGCCAAAGTGGCCGCAGTGCCGGGTACTGCCTTCGGGCTCGGCGGGGAAGGTTTCATTCGCTGTTCTTACGCTACATCCATTGCTCAACTGAATGAGGCATTGGAGCGAATGGGCAATTTTGTGGAAAAAATAAAGTAG	MILNEQQLAENNRKSMSSYLAPRVRDIQPSGIRKFFDLVSGNKDIITLGVGEPDFVTPWHVREACVYSLERGFTGYTSNAGMPELREAIAEYLNDSFHVTYNPANEIIVTVGGSEAIDLALRALIVPGDEILIPEPCYISYSPIASIGGGVPVGIETTAEHHFKLTAEALEAQITPKSKILILCYPSNPTGAIMTYEDWLPIAEVVEKHDLIVISDEIYAELTYEGKHVSFASMPGMMDRTILVSGFSKAFAMTGWRMGYVCAHTDLIAAMLKIHQYTVMCAPAMGQVAALEALRNGMGEKDRMVESYNQRRRLVVQGLREIGLDCHEPQGAFYAFPSVKGTGLGSEEFAQRLLTEAKVAAVPGTAFGLGGEGFIRCSYATSIAQLNEALERMGNFVEKIK	PGPT0007145_124	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007145-yugH-K10907	NA	NA
AK002_05044	501			hypothetical protein	ATGGAAGAGCTAAGCGAATTGAAACTGAAGGTGCTTGACCTGCTGAAAGAGGACGCGAGAAGATCGCCGGCTCTACTCTCTACTCTACTCGGTGTAGAAGAGGAAGAAGTAAAGACCTCCATTGCGGAGCTTGAACGAGATCACGTCATTGTCAAGTACGCCACCGTTGTCAATTGGGGCAAGGTGGAGGACGAGAAGGTTACGGCGCTGATCGAGGTTCAGATAACGCCTGAGCGCGGAAGAGGCTTTGAAGGAATCGCGGAACGGATTTATTTGTTCCCGCAGGTGAAGTCGGTTTATCTGATGTCTGGCGCCTACGACCTGCTGGTCGAAGTGGAAGGCGGTAACCTTCGCGAGGTGGCCAATTTTGTTTCCGAGAAACTGTCGCCTATTGATTCTGTTTTATCGACCAAAACGAATTTCATTTTGAAAAAATATAAACAAGACGGGATTATTTTTGAAGAACGTCAAGAAGACAATCGTCTCCTGATCTCGCCGTAA	MEELSELKLKVLDLLKEDARRSPALLSTLLGVEEEEVKTSIAELERDHVIVKYATVVNWGKVEDEKVTALIEVQITPERGRGFEGIAERIYLFPQVKSVYLMSGAYDLLVEVEGGNLREVANFVSEKLSPIDSVLSTKTNFILKKYKQDGIIFEERQEDNRLLISP				NA	NA	NA	NA	NA
AK002_05045	387			hypothetical protein	ATGGCAACCCCTAACGGATCTTCATTCCTGCCCGAAGAGGATTTGCTCAGCCCGATACTGGGAGAGCTGAAACGGGCCGTTCGAGAATATACGACAGCCACGACGGAAGCCACTTGCCCTGACGTGCGTCAAATGTTTACCAATTTGACCACGGATACGCTGAGCCTGCAAGGCGAATTCTTTAATATGATGAAGCAGCAGAACATGTACACCGCAGGCACGCATGCGCTGAAATACGACGTGGACAAGCAGCATAAACAAGCGCAGCAGTCCGTACAAAAAACTCGGGAAACGATTAATCAAAAAACTTCAAGCATAGGCGCGTATGCGCACAATCCGAACGTTGAGCCCCATGCAACCAATGTATCCCCTGCTCCTTATATGTAA	MATPNGSSFLPEEDLLSPILGELKRAVREYTTATTEATCPDVRQMFTNLTTDTLSLQGEFFNMMKQQNMYTAGTHALKYDVDKQHKQAQQSVQKTRETINQKTSSIGAYAHNPNVEPHATNVSPAPYM	PGPT0025160_83	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025160-cotF-K06329	NA	NA
AK002_05046	237			hypothetical protein	ATGACACCCAATCAGCAATTACAGCCTCTCACTTCAAAAGAGCTGGATTATATCGTGGACTGCATCTCCAACGAGACCATGCTGGCCAAGCATTGCGCCGCTACGGCGGCAGCCAGTCAGAACCCTGCCATTCAGCAGGCACTGCTTGGATTCGTCAAGCGACATGAGCAGCATCTTGATATGTTGGTGAACTCCCTTCAGACCCACAGCAGCGTTGCGCCCAACCAGCCGCAGTAA	MTPNQQLQPLTSKELDYIVDCISNETMLAKHCAATAAASQNPAIQQALLGFVKRHEQHLDMLVNSLQTHSSVAPNQPQ				NA	NA	NA	NA	NA
AK002_05047	1227	puuB		Gamma-glutamylputrescine oxidoreductase	ATGTTACTGACCGGCGGAACAACGCCCTGGAAATATTTAAATACCGAGCCGGTAAAAAAATACCCCGCGCTCTCGGACCGGCTTAGCTGCGACGTGCTGGTCGTCGGAGGCGGTATCAGCGGTGCCCTGATGGCCTATGTCCTGAGCGTGCAAGGCGTCAACGCCATACTCTTGGAGAAAAATCGAGTATGCGAGGGCAGCACTTCCGCCAATACGGGACTGCTGCAAATCTCCAACGACTGTCCCCTTTCCGATTTGATTCAACATTTCGGCGAGGACCGGGGTACCGCCTTCTACAGGATGTGCAGAAATGCCATACGTCGGCTCACTGAAATCGCGAATACGTTGTCAAGGGATTCCGGGTTGATCTCTCGAAGCAGCCTATACTATGCCAGCAACCCTCAAGATATCGGCTTGATTCGTCATGAGTATGACCTTCTCAAACGCAAGGGCTTCGACGTGCAGTACTGGAACCGCGATGATGTGAAGGCTAAATTTCCGTTCTCAAAGGAAGCCGCCATCTATACCCGCGGCGATGCCGAAGTCAATCCCTACCGTCTCGGACATCATCTTCTTCAAGATGCCGGTGATCAGGGGCTGCGAATTTATGAAAACAGCGAAGTGAAAGAAACCAGGTATACAGACAACGATGTCACGGTCATGACGGATCAGGGAAGCGTTTCAGCCAAACACGTGATCTGGGCTACCGGGTACAGCACCCAAGAATGGAAGCCGGACTATCAAGTGGATCTCCTCAATACCTACGCCATTATGACCGAGCCTGTTCCCGATCTGTCTTCGTGGTATGAGCGGGCTCTCATATGGGAGACCGACCGTCCATATCTCTATTTCCGAACAACGCCGGACCGGCGGATCATGGCCGGTGGACTGGATGAACCGCTGCCTCCTTCAGGCAAACCGGAGGAATACGCCGAGCCAAGAAGCCAGAGACTGCTGAATGAAATTCATAAGCTGTTCCCTACGATGACGGACCTGAAAATGGCATGCAGCTGGGCTGGCGTGTTCGCCTCCACCAAAGACGGCATCCCGCTGATCGGCAGACATCCGCAGTATCCGCACAGCTACTTCATCGAGGTTTATGGCGGAAACGGTATGGTTTACAGCATGATCGCCGCCGATCTCCTGGCCGAGACGATTGCCGGCAGAGAGCCCGAAGAACTGAAGTGGTTCTCGCTGAGGCGTCCGATCGACCTGAACTTCACATAA	MLLTGGTTPWKYLNTEPVKKYPALSDRLSCDVLVVGGGISGALMAYVLSVQGVNAILLEKNRVCEGSTSANTGLLQISNDCPLSDLIQHFGEDRGTAFYRMCRNAIRRLTEIANTLSRDSGLISRSSLYYASNPQDIGLIRHEYDLLKRKGFDVQYWNRDDVKAKFPFSKEAAIYTRGDAEVNPYRLGHHLLQDAGDQGLRIYENSEVKETRYTDNDVTVMTDQGSVSAKHVIWATGYSTQEWKPDYQVDLLNTYAIMTEPVPDLSSWYERALIWETDRPYLYFRTTPDRRIMAGGLDEPLPPSGKPEEYAEPRSQRLLNEIHKLFPTMTDLKMACSWAGVFASTKDGIPLIGRHPQYPHSYFIEVYGGNGMVYSMIAADLLAETIAGREPEELKWFSLRRPIDLNFT				NA	NA	NA	NA	NA
AK002_05048	1203			hypothetical protein	ATGAAGTTGACAAAGGACCCCCAGGCTATGCTTCTGTTATCGGTTCATGGGTTGTTTATTCTATCGAGCGCATTGTCGGGTACGTTCCTCAATGTATACTTATGGAAAAGCCGCCAGGATTACACCATGCTCGGCTGGTTCACGATTGCGCAGCAGGTGGCGCTTGGCCTGACGTTCTGGGCTGCCGGCAAATGGGTGAAGGAGCATAACAAAATGAATGCGCTTCGCCTGGGAATTGCCGTGTCCGGCTTGTTTTATCTATGCGTGCTGTGGGCAGGGAGGGACGCCGTCCATTACATTTGGCCCCTCGGCCTGCTGTTCGGGGTGTCTTTAGGATTGTTCTGGTTGGCCTTTAATGTGGTTTATTTCGAGGTTTCGAGTGCGGAGAACCGGGACTGGTTTAATGGCTGGATCGGGCTCTTGGGCTCCATAACGGGGATTATCGGTCCGTGGCTGGCAGGCTGGATCATCACGCTAATGCATGGGGATCAGGGCTATCGGTTTATTTTTACCGTGTCGATGGCCATCTTCGCCGTGACGGTGGTCATGAGCTTTTTTCTGCGAAAAAGGCCGGTTCAAAGCGATTATCACTGGCTGGAAGGGGTAAGCCGCCTCAAGGAGGGCGGCGTTTGGAAATACGCGGTATTAGGCTTGGCTGTTCAGGGAATCCGGGAGGGCGTGTTCTCCTTTCTCATCACGCTGCTTGTTTTCGTGGCGACGGATCAGGAGTCCAAGCTGGGGCAATTCGCTTTAATTACTTCGGCTGTTTCACTGGTCAGCTACTGGGCCTGCGGGAAATGGTTCAAGCCCAAATTCCGTAAAACCGGCATGCTGGTTGGTTCCGTATTGATGCTGCTTGTCATCATGCCGCTGCTGTTTACGGTCAACTACACTACGCTGCTGGTGCTGGGAATCGGGACGTCGCTTTTCATTCCGCTGTACATGATGCCGGCTATATCGGCCAGCTTCGATCTTATGGGCGTGAATCAGGAAAACGTGGAGAAACGAGTGGAGCTGGTCGTGCTCCGGGAACTCAGTCTGACGATAGGCCGAATTACGGGCTTGCTCGTTTTCATTCTTGTACTGTCATTCAGGCAGGATACGTTTACGATAACATTGCTGCTGTTGTTTCTGGGAGCGTCCCCCATCGGATCTTGGCTGTTCATACGAAAGCTATTTCCTACCAAAGAACAAGCCGCCTGA	MKLTKDPQAMLLLSVHGLFILSSALSGTFLNVYLWKSRQDYTMLGWFTIAQQVALGLTFWAAGKWVKEHNKMNALRLGIAVSGLFYLCVLWAGRDAVHYIWPLGLLFGVSLGLFWLAFNVVYFEVSSAENRDWFNGWIGLLGSITGIIGPWLAGWIITLMHGDQGYRFIFTVSMAIFAVTVVMSFFLRKRPVQSDYHWLEGVSRLKEGGVWKYAVLGLAVQGIREGVFSFLITLLVFVATDQESKLGQFALITSAVSLVSYWACGKWFKPKFRKTGMLVGSVLMLLVIMPLLFTVNYTTLLVLGIGTSLFIPLYMMPAISASFDLMGVNQENVEKRVELVVLRELSLTIGRITGLLVFILVLSFRQDTFTITLLLLFLGASPIGSWLFIRKLFPTKEQAA				NA	NA	NA	NA	NA
AK002_05049	567			hypothetical protein	ATGGAACCGACGGTTTGCCCATGGTGCCAAAGTGAGATTGTATGGGATGAGGAGATAGGTCCCGAGGATACCTGTCCTCACTGCGCGAATGAGCTTAAAGGCTACCGCACATTGAATATCGCATTGCAAGATGAAGATGAAGATGAAGATGACGTCGGGGAGGAATATGAAGAGACTTATGAGCCTTCCGATGAGGAGGCGCGCGATCTTCAACGCATCTGGGGCTCCGACCATGAATCGCTGTCATCGCTTCGCACCGTGGATAAGTACGGGGAAGATCACGATCTTTTTGCATTCGAGGAGACGGTGGAGGGGATCCTGGACCAACAAGAGGAAGTGCCCGAGTGTCTGCATTGCCGAGAGTATATGCTTCATGCAGGAACGCAGCGCGTGAGCGGAGAAGGCTTCCAGCCGGTTCACGCACCCTTGATCCAAGCTCCCATTCTGCAGCCTCCGTATGATCTGAACGTTTATGTATGTCCCGGATGCTTCCATGTGCAGTACAATTTGTCAGAGAACGACCGGCTTCGGATGATCAAGAGTTTTATCCATAAAAAAAAGGAATAG	MEPTVCPWCQSEIVWDEEIGPEDTCPHCANELKGYRTLNIALQDEDEDEDDVGEEYEETYEPSDEEARDLQRIWGSDHESLSSLRTVDKYGEDHDLFAFEETVEGILDQQEEVPECLHCREYMLHAGTQRVSGEGFQPVHAPLIQAPILQPPYDLNVYVCPGCFHVQYNLSENDRLRMIKSFIHKKKE				NA	NA	NA	NA	NA
AK002_05050	420			hypothetical protein	ATGACGGAAGCGATTGATCATTTGCTGACCCATCCACTTGGGGTGCTCGTCGGCTATTTCTCTGTTGCGATACTTGCACTTATTGTTTACTTGTATTGCTTTGAATTGGTTACCAAGTACAATTGCTGGGATGAAATACGCAAAGGAAATGTTGCCGCAGCCATGGCGACCGGCGGCAAGGTCTTTGGCATCTGTAACGTGATGCGGTACAGCATCACGGCTAATACGTCCATTTACGGCATGATTAAATGGTCGTTCTTCGGGTTTATACTGCTTTTATTGGCTTATTGGCTGCTTGAGTTCTTGACGCCTGTGTTTTCGGTCGATGAAGAGATCGGCAAGGATAATCGGGCAGTGGGCTTGATCGTGCTTCTTATCACCGTATCTTTGTCTTACATTATTGGAGCGAGCATTACTTAA	MTEAIDHLLTHPLGVLVGYFSVAILALIVYLYCFELVTKYNCWDEIRKGNVAAAMATGGKVFGICNVMRYSITANTSIYGMIKWSFFGFILLLLAYWLLEFLTPVFSVDEEIGKDNRAVGLIVLLITVSLSYIIGASIT				NA	NA	NA	NA	NA
AK002_05051	2370	mutS2_2		Endonuclease MutS2	TTGAACGACAAGATTTTGCACACTTTAGAATACCGGAAAATTTTAAATACATTGACGCAATATACCCAAACCTCCATGGGAAGTTTGAGGGCGGAAAGGTTAATGCCAGAGACCGACCTCGAAGCCGTTAAGGATCTGCTCGCTGCCACCGACCAGGCTTACACCGTAGACAGGCTTAAGGGCAACCCGTCCTTCCGCGGCATTACCGACATCAACGATGCTTTGAAGCGGGCCCGAATCGGAGGCACGCTGAATCCGCATGAATTGCTTGCCACGTCGAACACGATTCACGGGTCGCGACGAATCAAACGGTTTATCGCTGCGATTCATGAGGATGAGAAGATTGATATTCTCTTTAATTTAAGCGATCTTATTTCGGAGCAGAAGCCGCTGGAGGATGCCATTCGGCTCTGCATCGATGAAACGGCCGAGGTGCTGGACTCCGCAAGCGCGGAGCTGTCGCAAATTCGGAGGGAGCTGCGCGGCGGAGAGGTACGCATCCGCGAGAAGCTGGAATCCATGATCCGTTCGCAATCGGTGGCGAAGATGCTGCAGGACCAGTTGATTACGATTCGCGGCGACCGATTCGTCATTCCCGTCAAAGCGGAGTATCGCTCCCACTTTGGCGGTATCGTGCACGACCAGTCCGGCTCGGGCGCGACGCTGTTCATCGAACCGGAGTCCATCGTGGCGATGAACAACAAGCTGCGCGAGACCCGGATGCGGGAAGAGCGGGAGATCGAAGTGATTCTGCAGAAGCTGACCGCCCAGGTCGGCGAGCAGGCTGAACTGCTGTCCATTGACGTCGATCTGATCGGGCAGCTCGATTTTATTTTTGCCAAAGCCCGTTTAGCTCATGTGATGAAGGCTTCGCTCCCGCGTATGAACGACAGAGGATATATTAAGCTGCGCAGAGGCAGACATCCGCTCATACCGACGGACCAGGTCGTGCCGCTGGACGTGGAATTGGGCAATTCCTATACCTCCATCATCGTCACGGGCCCGAATACCGGCGGTAAGACGGTTACGCTCAAAACGATCGGTTTGTTAAACCTGATGGCGATGTCCGGACTGTTTATCCCGGCCGAAGAAGGCAGCCAGATGTGCGTGTTCGATGCGATTTACGCGGATATTGGCGACGAGCAAAGCATTGAGCAGAGCCTGAGTACCTTCTCCAGCCATATGACCAACATCATCCGCATCTTAAGCCAGATGACGCCGAAGAGCCTGGTCCTGCTCGATGAAGTGGGGGCGGGGACCGACCCGGCGGAAGGTTCGGCTCTGGCAATTTCCATTCTGGAGCATATCCACCGCATGGGCTGCCGCATGATCGCGACGACGCACTATTCCGAATTGAAGGCGTACGCCTATGAACGCAAAGGCGTGATCAATGCCAGCATGGAGTTCGATATAAACACACTAAGTCCGACTTATCGGTTGCTGGTGGGCGTTCCTGGACGCAGTAACGCGTTTGCTATTGCAGAACGTCTGGGATTGCCGGGATCCATTCTTGAATTCGCCCGCGGGGAAGTGAAGGAAGAGGATCAGCGGGTAGAGCATATGATTGCGTCCCTCGAGGAGAACCGGCATACCGCTGAAGTGGAGCGTGAGAAGGCGGAACAGGTCCGGAAGGAAATGGAGGAGCTGCGTCAACGCCACCAGCAGGAGCTTCAGAAGCTGGAGGAGCAGAAGGACAAGCTCGTTGATAAGGCTCGGGCGGAAGCAAGACAGATCGTGGACAAGGCGCGGAGCGAAGCCGAGGAGATCATTGCGGACCTGCGTAAGATTGCCCAGGAGGAAGGGGCTTCCGTTAAGGAGCACAAGCTGATCGCGGCCAGAAAGCGCCTGGATGACGCCGAGCCGCAGCAGGGCAAGAAAACGGGCGGCCAGCGTTCTGCGAAGCAGCAGCGCAGCATTGAGCCCGGGGATGAGGTTCGGGTATACAGCCTGAATCAGAAGGGGCATGTCGTGGAGATGTCCGGCTCGAAGGAAGCCGTCGTTCAGCTTGGCATTATGAAGATGAAGGTCGCGCTGGACGATTTGGAGCTGCTGTCGAATCCGGCCGCCAATGCCAAGCAGGCACCGAAACAGCATGCCACCGTCCTGAAGCGGACCCGCGATGCCAACATCCGGAATGAGCTGGATTTAAGGGGAGCGAACCTGGAAGAAGCGTTGATCGAAGTGGACCGGTTCATTGATGAGGCGTTTTTGGGGAATCTGGGACAGATCTACATCATTCACGGCAAGGGAACCGGCATTTTGCGAACCGGCATTCAGGATTATTTGCGCAAGCACAAACATGTCAAGAGCCATCGTTTAGGCAATTACGGCGAAGGCGGCAATGGCGTAACTATTGCCGAGTTGAAATAA	MNDKILHTLEYRKILNTLTQYTQTSMGSLRAERLMPETDLEAVKDLLAATDQAYTVDRLKGNPSFRGITDINDALKRARIGGTLNPHELLATSNTIHGSRRIKRFIAAIHEDEKIDILFNLSDLISEQKPLEDAIRLCIDETAEVLDSASAELSQIRRELRGGEVRIREKLESMIRSQSVAKMLQDQLITIRGDRFVIPVKAEYRSHFGGIVHDQSGSGATLFIEPESIVAMNNKLRETRMREEREIEVILQKLTAQVGEQAELLSIDVDLIGQLDFIFAKARLAHVMKASLPRMNDRGYIKLRRGRHPLIPTDQVVPLDVELGNSYTSIIVTGPNTGGKTVTLKTIGLLNLMAMSGLFIPAEEGSQMCVFDAIYADIGDEQSIEQSLSTFSSHMTNIIRILSQMTPKSLVLLDEVGAGTDPAEGSALAISILEHIHRMGCRMIATTHYSELKAYAYERKGVINASMEFDINTLSPTYRLLVGVPGRSNAFAIAERLGLPGSILEFARGEVKEEDQRVEHMIASLEENRHTAEVEREKAEQVRKEMEELRQRHQQELQKLEEQKDKLVDKARAEARQIVDKARSEAEEIIADLRKIAQEEGASVKEHKLIAARKRLDDAEPQQGKKTGGQRSAKQQRSIEPGDEVRVYSLNQKGHVVEMSGSKEAVVQLGIMKMKVALDDLELLSNPAANAKQAPKQHATVLKRTRDANIRNELDLRGANLEEALIEVDRFIDEAFLGNLGQIYIIHGKGTGILRTGIQDYLRKHKHVKSHRLGNYGEGGNGVTIAELK				NA	NA	NA	NA	NA
AK002_05052	360			hypothetical protein	ATGCAATTTCTCGGGCATGTCGTTCGATTTATCGTAGCGGCTCTCGTCCTTATGGTCGTCGGATGGATCGTCCCTCAATTCTCCGTCGGCGGATTCGGAAGCGCCCTGCTGCTTGCACTCGTCATCGCCCTGTTTGGCTGGGCTATCGAGGGCATCTTCGGCAAAAAAGTCACGCCGTTTGGACGCGGCATCGTGGGCTTCATTGTGAGCGCGCTTGTCATTTACCTGGCCCAGTTCATCGTCGGAGGCGTTAGCGTCTCCATTCTGGGTGCTCTGCTTGCTGCACTGGTCATCGGGATCATCGATCTGTTCATTCCGATCTCCACCCCGTTTGAAGCAGGCAAAAGCCGCAAAGAATAA	MQFLGHVVRFIVAALVLMVVGWIVPQFSVGGFGSALLLALVIALFGWAIEGIFGKKVTPFGRGIVGFIVSALVIYLAQFIVGGVSVSILGALLAALVIGIIDLFIPISTPFEAGKSRKE				NA	NA	NA	NA	NA
AK002_05053	387			hypothetical protein	GTGAAAAAAGGCATAGCACTACTTGTTTCATGTATGCTCCTTTTTGTATTGGCGGCCTGCGGCGGAAACCAACAAGAGTCCGAGGGCAATTCGGGGATCACGGATACCGGCGTAGCACCGGAAGCAGAACTCGTGATTAAAGGCTCCAACTTCCAATTTGACCAAGCCGAATATCACCTCAAAAAAGGGGTGCCCGTCAAGATTACTTACGAGAACGAAGACGGCAACCACGGCGTTATGATTCCTGCGCTTGGCCTGCAGTTGGACCGAAAGAACAACTCAACCGTCGTTACGCCTGACAAGGCAGGAGAATTCGAGGTTTCGTGTTCCATTATGTGCGGAGCCGGTCACAGCAAAATGATATCCAAACTGATCGTCGAAGAATAG	MKKGIALLVSCMLLFVLAACGGNQQESEGNSGITDTGVAPEAELVIKGSNFQFDQAEYHLKKGVPVKITYENEDGNHGVMIPALGLQLDRKNNSTVVTPDKAGEFEVSCSIMCGAGHSKMISKLIVEE	PGPT0004030_4345	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
AK002_05054	1998	zapA		Cell division protein ZapA	TTGACTACATCTGACCGTAAAAGCGTTACCGTAGACATCTACGGAACTTCCTATAAACTCGTTGGAAACAGCAGTGATTATACCAGACAGGTAGCCAATTACGTGGATGATCGCATGCGTACCATCTCCAAGGCGCACTCCCGGTTGGATACCCCGCGCATTGCCGTCCTTGCCGCGGTACATATGGCTGAAGAAGCTTTGCAGAAGCTGGAATATCAGAACGAGGCCAAGCAGATGACGGCCGAGCGGAATGAGCTGCGAACGGAACTGGCCAAGGTGCAGGGACTTCAAATCGAGCAGCAGGAGAGACATCGTCAGCAGCTGGAGCAGCTTGAGCGCAAGCTGGCGGAGCAGACAACGCTGGCTGAAGAATACAGGAAATCCAAGGAGAACCTGACGGCGGAGTCGGAGCGTACGAAGGAGCTGCTCCAGAAGGAATCCGACCGGGTGGCGGAACTGCTGAAGGAGAAGCAGCAGCTTGAGATGCGTCTTAAGGAGCAGCGCGAGAAGCTGGAGAGCGGCCACAAGCAGGCGATGGAAGATATGAAACGCCGTTATGAAGGGCAAATATCACAGTCGGCGCTCACGCATAAGCAGGCCGTCGAGAAGCTGGAACAGAGTTTGCGCACTTCTGCGAAGCAGGCTGAAGAGAAGCTGGCTGAACAGTTGAAGAAACAGGAGAGCACTTATAAACAAGAGGCGCTTTTGAAAGAACAGCAGCACTCGAAGACGGTGCAGGATCTGAAGCAGCAGAATTCGAAGACGGTGCAGGATTTGGAGCAGAAGTACACGAAGACGGTGCAGGATCTGAAGCTGGAGCACTCGAAAACCGTACAGGATTTGGAGCAGCAGCACTCAAAGACCGTGCAGGATCTGGAGAAACAGCTTGCCGAGCAGCGCACTCGCGGCGGCCAGCTGCACTCGCGGTTGTCGACCGCGGAGAAGGAACTGAACACGGTAAAAGCGGAATCGGACAAGCTGAAGGAAGAGCTCCATTCGTCCAAGCAGCAAGCTGAAGCTTCCTCGCAGGAATTGCGTACCTTCCGTACGAAGGCGGAAGGGCTGGCGAAGGAACTCGAGGCCCTGAAGCAGGAATCCGGCAAGTCGGAGGAAGAGCGTCGACGTCTGCAGAAGCTTGTGGTGGATGCGAATCAGACCTCCCGCAAGCAGCAGGAAGAGCTGCAGCGTCTAAGCAGCGAGCTGCAATCCTGGCGGACGCTGGCCGATCAGCGCAAGGAGGAGACCGGCGAGCTCGAGATGAGAATCGTCGAACTGATGGAATTGAACGAAAGCCTGGAAGAGGGAATGAAGGGTCTTCAGGATGAAATCCATGTCATGAAGGACGAAGCGGACCGGATCCTTTCCGAGCGCCGAAGCGCCCAGGAGGAATTGAAGGAGCTCCAGCTCCGCAACGAAGAGCTCGAGAAACTCACCCAGGACGCGGGAATCCGCGAGGAAGAGACCGGCAAACTCTACGCCATGCTGGAAGAAGAATACGATACGGTGTCGAATCAGCTCGATGAGCTTCGCAAGAAGGCGACAGCCAGCGAAGAGCGTGCAAGCGAACTTGCCGAGCAGCTGAGGGAGTCCGAAGAACGCGCCGTTCAATGGCAGGACCAATACCAGCAATGGATGGCGGAACGGGAACAGCTGGCTTCAGACAGCGAGAAGCTGGCCGCAGAGCGCGATGAATGGAAACGAACCAAGCTTGCGCTGGAAGAAGAGCTTCAGTCCTGGCAGCAGGAGATTGCATCCGCGCGTCAGGTCTGCGACCGTCTGGAAGGCGAGAAAAGCGAAGCGGCACAGCAGTATTCCGAGCTTGGCGAACAGTACGAGCTGGTCATGCACCAGTATCGGCTGCTGCAGGCAGAACAGGAATTGAAGGCGGAGCAAGCCGCACAGCTTGAAGAAGAACATCGCAAGCTGAAGGAAGAGTATGCGAAGCTCCAAGTTGAATATAATGAATGGATCGAGTTGATTGAGCAGGATCAGCGTTAG	MTTSDRKSVTVDIYGTSYKLVGNSSDYTRQVANYVDDRMRTISKAHSRLDTPRIAVLAAVHMAEEALQKLEYQNEAKQMTAERNELRTELAKVQGLQIEQQERHRQQLEQLERKLAEQTTLAEEYRKSKENLTAESERTKELLQKESDRVAELLKEKQQLEMRLKEQREKLESGHKQAMEDMKRRYEGQISQSALTHKQAVEKLEQSLRTSAKQAEEKLAEQLKKQESTYKQEALLKEQQHSKTVQDLKQQNSKTVQDLEQKYTKTVQDLKLEHSKTVQDLEQQHSKTVQDLEKQLAEQRTRGGQLHSRLSTAEKELNTVKAESDKLKEELHSSKQQAEASSQELRTFRTKAEGLAKELEALKQESGKSEEERRRLQKLVVDANQTSRKQQEELQRLSSELQSWRTLADQRKEETGELEMRIVELMELNESLEEGMKGLQDEIHVMKDEADRILSERRSAQEELKELQLRNEELEKLTQDAGIREEETGKLYAMLEEEYDTVSNQLDELRKKATASEERASELAEQLRESEERAVQWQDQYQQWMAEREQLASDSEKLAAERDEWKRTKLALEEELQSWQQEIASARQVCDRLEGEKSEAAQQYSELGEQYELVMHQYRLLQAEQELKAEQAAQLEEEHRKLKEEYAKLQVEYNEWIELIEQDQR				NA	NA	NA	NA	NA
AK002_05055	2451	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGAGAGTTTCAACCGATTGGTTGTCCGATTATATTTCGCTCGAAGGCGTAACCTCAGAGGATTTGGCAAGCCGCATTACATCGGCCGGCATTGAAATCGATGTGATCGAGAAACGGAATCAAGGCATTAACAACGTGGTCGTAGGCTACGTCAAGAGCAAGGAGAAGCATCCCGATGCCGATAAGCTGAACGTGTGCGTCGTCGATGCAGGCCAGGAAGAAGATCTCCAGATCGTATGCGGAGCAAAAAACGTGGATGCTGGCCAGAAGGTGCCGGTAGCGCTTGTGGGCGCGAAGCTGCCGGGCGGGCTGGATATCAAGAAAGCCAAGCTGCGCGGCGTGCTCTCCCAAGGCATGATTTGCTCGGCTAAGGAACTGGGCATGAATGACAAACTGCTGCCCAAAGAGCTGCAGGAGGGGATTTTGGTGCTTCCGGCTGACACGGAGATCGGCAAACCGATTGTGGATGTGCTGGGCCTGAACGATGAAATTCTGGAGCTGGACCTGACGCCGAACCGTTCCGACTGCCTCAGCATGCTGGGCACGGCTTACGAAGTGAGCGCCATCCTCGGCCGCGAGCTGAGCCTGCCGAACCCGGAGAAGGAAATGCTGGAGGTTCATGATGCAGCAGCCGATCATATCTCGGTTACGATCGGTGCGGATGAGCAGTGCAGCCATTATGCTGCACGCTATATCACGGGCGTAACGATCGCTCCTTCCCCGCTGTGGATGCAGAACCGGTTGATGGCAGCCGGCGTGCGTCCGATCAATAACATTGTGGATATTACCAATTATGTGATGCTGGAATACGGCCAGCCGCTGCATGCTTTTGATGCGGATCGACTGAAAGACGGGGCGGTTCACGTGCGCATGGCTGAGGCCGGCGAGACGATGGTGACGCTGGATGGCGCGGAGCGGAACCTGGAGCCGCATATGCTGGTGATTACGGCAGGCGGCAAGCCGGTGGCCTTGGCTGGCGTTATGGGCGGCCTGGACTCCGAAGTAACGGACGGAACGGTGAATATTTTCCTGGAGTCCGCTAAATTCGATGGCGGCACCGTCCGCAAAACCTCCCGTCAGCTGGGACTTCGCTCAGAGGCAAGCTCCCGCTTCGAGAAGGAAGTGGATCCGGCCGCAGTGATCCCTGCTCTGAACCGAGCGGCTGCACTGATGGCGAAATATGCCGGCGGGTCCGTGCATCAAGGAATCGTCGAAGCAGGAAGTGCGCAAACCGAGCCGTCCGTGATTACGTTGTCGCTGGAGAAGCTCAATCGTTATCTGGGCACGGAGCTGTCTTTGCTTGAGGTCAAAACGATCTTCTCCCGACTGCATTTCCCTAGCGGGGATGCGGGCCAGGGATTGGTGGATATCCAAGTGCCTTCCCGCCGCGGCGATATTACGCTCGATGTAGACCTGATCGAAGAGGTTGCCCGCCTGTATGGCTATGACAACATTCCGACCACGGCGATTGAAGGACCGACGACGCCGGGTTCGTTGACGGAAGCGCAGGCCATCCGCCGCTCGCTTCGCCGTCTGCTGACGCACAGCGGATTCCAGGAGGTTCTGGGTTACTCCTTCATTCATCCGCAGCAAGCGGAAGTGTTCACTTCCCTATCGGAAGGCGGGAAGGCGGTTAAGCTGGCGATGCCGATGAGCGAGGACCGCAGCGTGCTGCGTACCAGCTTGCTGCCGCAGCTGCTGGATATCGCGGTGTATAACCATAACCGCAAGCAGCCGGACCTGGCCCTGTTTGAAATAGGGAACCTGTTCCATACGCAGGAGGAGACGTTGACCAAGCAGCCCCAGGAGCGTCCGGTTCTCGGTCTGCTGCTGTCAGGACGAAAAGGCAGCAAGCAGTGGAACGTCCAGCCGGCCAAAGTGGATTTCTTCGATTTGAAGGGTGCGCTTGAAACGGTGCTCAATTATCTCGGCATTCGCGCTGACGACATTGCTTACGAAGCGAACGGGCCGGCAGGCTTCCATCCGGGACGTTCCGCTTCCGTTTACGTAGGTCAGGGCGAGAACAAACATCTGCTCGGCGTGCTCGGACAAATTCATCCAAAAACGCAGCAGGAGCTGGATTTGGAAGATACCTATGCCGCCGAGATCCTGCTTGAGCCGCTCTATGATCTGACCAATGCCCGCGTCGCTTACCGCGATCTGCCTAGATTCCCGGGCATGGAACGCGATCTTGCCATCGTGGTGAATGAGGAAGTAGAAGCCGGCTCCCTGATCCAAGTCATCCGAGAGAATGCCGGAGAGCTTCTGCAGCAGATTCAGGTGTTTGACGTCTTCACGGGCAGCAAGCTGGGAGAAGGCAAGAAGAGTGTTGCGATCTCCTTGACGTACCGCCATCAGGAGCGGACGCTGACCGATGAAGAGGTTGCCGGGGTTACGGAAAAAGCAGTCGCTGCCCTTCAGCAAACTTTTGGCGCAGAATTAAGAAAATAG	MRVSTDWLSDYISLEGVTSEDLASRITSAGIEIDVIEKRNQGINNVVVGYVKSKEKHPDADKLNVCVVDAGQEEDLQIVCGAKNVDAGQKVPVALVGAKLPGGLDIKKAKLRGVLSQGMICSAKELGMNDKLLPKELQEGILVLPADTEIGKPIVDVLGLNDEILELDLTPNRSDCLSMLGTAYEVSAILGRELSLPNPEKEMLEVHDAAADHISVTIGADEQCSHYAARYITGVTIAPSPLWMQNRLMAAGVRPINNIVDITNYVMLEYGQPLHAFDADRLKDGAVHVRMAEAGETMVTLDGAERNLEPHMLVITAGGKPVALAGVMGGLDSEVTDGTVNIFLESAKFDGGTVRKTSRQLGLRSEASSRFEKEVDPAAVIPALNRAAALMAKYAGGSVHQGIVEAGSAQTEPSVITLSLEKLNRYLGTELSLLEVKTIFSRLHFPSGDAGQGLVDIQVPSRRGDITLDVDLIEEVARLYGYDNIPTTAIEGPTTPGSLTEAQAIRRSLRRLLTHSGFQEVLGYSFIHPQQAEVFTSLSEGGKAVKLAMPMSEDRSVLRTSLLPQLLDIAVYNHNRKQPDLALFEIGNLFHTQEETLTKQPQERPVLGLLLSGRKGSKQWNVQPAKVDFFDLKGALETVLNYLGIRADDIAYEANGPAGFHPGRSASVYVGQGENKHLLGVLGQIHPKTQQELDLEDTYAAEILLEPLYDLTNARVAYRDLPRFPGMERDLAIVVNEEVEAGSLIQVIRENAGELLQQIQVFDVFTGSKLGEGKKSVAISLTYRHQERTLTDEEVAGVTEKAVAALQQTFGAELRK				NA	NA	NA	NA	NA
AK002_05056	1035	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGAAGGAAAAATTGGAAGCTTTAAAGCAGGAAGCATTGGCGCAATTGCAGGATGTTACCGATCCGCAGCAGCTGAATGATTTGCGGGTGAAATACCTTGGCAAAAAAGGGGCCCTGACGGAAATCCTGCGCGGCATGGGAGCACTCAGCGCAGAGGAGCGTCCCGTTATCGGCCAGGTGGCCAATGACGTTCGCGGCGCAATCGAGGAAGTCATTTCCGGCAAGCAGGAAGCGTTCCTGCAGCAGGAAACCGAAGAGCGTCTGCGCGCAGAGAAAGTGGACGTGACCCTTCCGGGTCGCAAGCTCAGCCAAGGTGCGGTGCATCCACTCAGCAAGGTGATCCAGGATATCGAGGATATTTTCATCGGGATGGGATACCGCGTAGCGGAAGGACCCGAGGTGGAGACGGACTATTTCAACTTCGAGGCGCTCAATCTGCCGAAGAACCACCCGGCACGCGACATGCAGGATTCCTTCTATTTGACGGAAGATCTGCTGATGCGGACCCAGACTTCCCCGGTGCAAGCCCGGACGATGCTGTCGATGCAAGGAAAAGCGCCGGTCAAAATCATCTGTCCTGGGCGCGTATTCCGCCGGGACGACGATGACGCGACCCATTCGTTCCAGTTCCATCAAATCGAGGGTCTCGTGATCGGCGAGAACATTCGCATGAGCGATTTGAAAGGGACGCTGCTGCAATTCGTTCAGGAAATGTTCGGCGATAACACGCAGATCCGTCTGCGTCCAAGCTTCTTCCCATTCACGGAGCCCAGCGCGGAAGTGGACGTATCCTGCGTCAAATGCGGCGGCAGCGGCTGCCGCGTATGCAAGCAAACGGGCTGGCTAGAGATTTTAGGCTGCGGCATGGTTCATCCGAAGGTGCTCGAAATGGGCGGCTATGACCCTGAGAAGTACAGCGGATTTGCTTTCGGCATGGGGGTTGAGCGGATTGCCATGCTGAAATACGGCGTGGATGACATCCGCCACTTCTTCAACAACGATACGGCATTCTTGAATCAGTTCACGCGGATCTAA	MKEKLEALKQEALAQLQDVTDPQQLNDLRVKYLGKKGALTEILRGMGALSAEERPVIGQVANDVRGAIEEVISGKQEAFLQQETEERLRAEKVDVTLPGRKLSQGAVHPLSKVIQDIEDIFIGMGYRVAEGPEVETDYFNFEALNLPKNHPARDMQDSFYLTEDLLMRTQTSPVQARTMLSMQGKAPVKIICPGRVFRRDDDDATHSFQFHQIEGLVIGENIRMSDLKGTLLQFVQEMFGDNTQIRLRPSFFPFTEPSAEVDVSCVKCGGSGCRVCKQTGWLEILGCGMVHPKVLEMGGYDPEKYSGFAFGMGVERIAMLKYGVDDIRHFFNNDTAFLNQFTRI				NA	NA	NA	NA	NA
AK002_05058	1869	ybiT_2	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGACAATGATTCTAAAAGCGAAGGATATCAGCATGGAACTTCAAGGAAAGCCGCTGTTTGAAGGCATTCAGCTGGAAGTAGCCGAAGGAGAGCGGATCGCGCTGTATGGGCGCAACGGTACCGGCAAAACCACGCTCCTCTCCATCCTGGCCGGTGAGCTTGAGCCGACCTCCGGCGTTGTGGAGGCGATCCTTCCAAGAGAGCGCTGGGGCTGGCTGAGACAGCAGGATGAACCGGAGGAAGGCGATATGAGTGCGATCGATACGGTGCGCAGCCGCAGTCATCCAACGTTATGGGAGCTGAAGCTTCGGCTTGCGGGAATCGAGCAAGGGATGAACGGCGGCAGCGCTGCGGAAATGGAGCAGCTGCTTGAGTTATATGGCAATCTGCTGGAGCGTTATGAATCCCAGAACGGTTTCCAGTGGGAGACCGAGGTGGAGAAAGCGATGACGATGCTGGGCATCGGGCCGGAGGTGTGGCCGGTGTCCTATCGCGAGCTGAGCGGAGGCCAGAAAACGAAGGTGATGCTGTCGGCGCTCCTGGTGTCGGCCCCGAAATTTCTGCTGCTTGACGAGCCGACGAACCATCTGGACAGTGAAAGCCTGGTCTGGCTGGAGCAGTGGCTGGTGTCGTCCTATAAAGGAACGGTGCTGTTTGTATCCCATGATCGGGAATTCATTGACCGGGTGGCGACCGCCGTCTGTGAGCTGACGTCGGAGGAACTCCGGCGTTACCGGGGAGGATACACGGATTACCGGCGCGAAAAGGAACGCGAGCTGCGCGAGCAGGAGACGCTTTATCGCAAGCAGGAGCTGGCCCGCAAGGCGCTTGAGGAGTCGATCCGAAGATACGAGGAATGGTTCCATAAAGCGCATAACGCGGCCGGGGACGTGAATGAAGTCAAGATCACCGCCAGTTTCTACAAGGCCAAAGCGAAGAAGAACATCTCCAGATACCATGCCAAGGAAAAAGCGCTGGAACGGCTGGAAGCCGAACGGGTGGATAAGCCGCGCAGCGGGCCCAAGCTGAACATGGAGCTGGAAGGGGAGGCATTCGGCGGCCGAACCCTGGTCCAAGTGAAGGACATCTGTTTTGGATACGGAGATCAACCGCTTTTTAATAAGCTCACCTTCTATTTGAACCGCGGCGACCGGCTGGCCGTAAGAGGCCCCAACGGAAGCGGAAAAACGACGCTGCTCAAGCTGCTGCTGGGGGAAATCGATCCGCAGGAAGGCCGGATTACCCGGAATCCTTCCGTCAAGATCGGCTATTTTTCGCAGGAGCTTGAGGGGCTTGAACCGGAAACCACGCTGCTGGACAGCCTTCTTGTCATTCCCGGCATGACGGAGAGCCGTGCGCGTACCCTGCTGGGCTCGTTTCTCTTCAGGAGAGACGACGTGTTTAAGAAGATGGGACAGCTCAGCATGGGGGAGAAGTGCAGAACGGCTTTTCTCAAGCTGTATTTCAGCGGGGCGCATCTCCTTGTACTGGATGAACCCTCGAATTACCTGGACGTGGATACCCGAGAAGTGATTGAACAGGTGCTCGTAAGCTTTCCGGGGGCAATCGCGCTTGTATCGCATGACCGGTATCTGGTGCGCAAAATCGCCAATCGGCTGCTTACGCTGAAGCCTGGGGATGCTCCCGCATGGTTCGAGGGAAGCGTCGGCGAGGAGGAGGAACAGGCTTCTCGAACCGGGGTGATCAAGGGAGATACGGAGAAGGACAATCGCCGGATGGAGCTCGAGTACCGGATTCAGGAATTGCTGGGGTTATCCGCTGATGGACTGGAGGACGGGGATGAGGCGAGCTGGCTTGCCGAAATTAGGGAGCTGCGGGCCGAGCTTGCCGGGCTTTTGTCGGATTAA	MTMILKAKDISMELQGKPLFEGIQLEVAEGERIALYGRNGTGKTTLLSILAGELEPTSGVVEAILPRERWGWLRQQDEPEEGDMSAIDTVRSRSHPTLWELKLRLAGIEQGMNGGSAAEMEQLLELYGNLLERYESQNGFQWETEVEKAMTMLGIGPEVWPVSYRELSGGQKTKVMLSALLVSAPKFLLLDEPTNHLDSESLVWLEQWLVSSYKGTVLFVSHDREFIDRVATAVCELTSEELRRYRGGYTDYRREKERELREQETLYRKQELARKALEESIRRYEEWFHKAHNAAGDVNEVKITASFYKAKAKKNISRYHAKEKALERLEAERVDKPRSGPKLNMELEGEAFGGRTLVQVKDICFGYGDQPLFNKLTFYLNRGDRLAVRGPNGSGKTTLLKLLLGEIDPQEGRITRNPSVKIGYFSQELEGLEPETTLLDSLLVIPGMTESRARTLLGSFLFRRDDVFKKMGQLSMGEKCRTAFLKLYFSGAHLLVLDEPSNYLDVDTREVIEQVLVSFPGAIALVSHDRYLVRKIANRLLTLKPGDAPAWFEGSVGEEEEQASRTGVIKGDTEKDNRRMELEYRIQELLGLSADGLEDGDEASWLAEIRELRAELAGLLSD				NA	NA	NA	NA	NA
AK002_05061	966	mhpE		4-hydroxy-2-oxovalerate aldolase	ATGATTAAGAGTAGTCAGACAAAGATTGTAGACTGTACCATTCGCGATGGCGGATTGGTGAACAACTGGGATTTTAGCGTAGAATTCGTGCAAAATTTATATGCAGGCCTAAATGAGGCTGGCGTGGACTATATGGAAATCGGTTATAAAAATTCGCCTAAGCTCCTAAAAGGCGCTGATCAAGCCGGCCCGTGGCGTTTTTTGGATGATGAATTCCTTCGAGAAGTTATTCCCCATAAAGGTAAAACCAAACTGTCCGCACTGGTCGATATCGGCCGGGTGGATGAGGATGATATTTTGCCGCGAGAGGAGAGCCTGCTGGATCTCATCCGCGTTGCATGTTACATCAAAGACGTGGATAAGGCGCTTGCGCTGGTTCAGACCTTCCATGATCGCGGTTACGAGACGACGCTGAACATTATGGCCCTCTCCAACGTGATGGAGAATGAGCTGCTGGAAGCCTTTGAGATGATCAGGGAGAGCGTCGTGGATGTGGTATACATCGTCGATTCTTACGGAAGCCTGGATCATAAAGACATGGAATACCTGGTAAATAAGTTCAAGACGCATCTGCCAAACAAACGTCTTGGCGTTCATACCCATAACAATATGCAGCTGGCGTTCTCCAACACGTTGGTAGCCGCCGACCTCGGCGTTGAGCTTCTGGATGCGTCCGTATACGGCATGGGCCGTGCAGCCGGCAACTGTCCGACCGAGCTTCTGGTTACCCATTTGAAAGGAACGAAGTACGAGCTGCGCCCGGTACTGGACATTATTGAGCGCTTCATGATCCCTCTTCGCGAAAAAGAGGAGTGGGGTTACATCATGCCCTACATGATTACAGGCACCCTGGACGAACATCCGCGCTCCGCCATGGCACTTCGCGCTTCGGACGATAAAGACAAAATTGTGGATTTTTACGATAAATTGACGACGCCGGAAGTGACGTTCGACAAAAAGAAGTAA	MIKSSQTKIVDCTIRDGGLVNNWDFSVEFVQNLYAGLNEAGVDYMEIGYKNSPKLLKGADQAGPWRFLDDEFLREVIPHKGKTKLSALVDIGRVDEDDILPREESLLDLIRVACYIKDVDKALALVQTFHDRGYETTLNIMALSNVMENELLEAFEMIRESVVDVVYIVDSYGSLDHKDMEYLVNKFKTHLPNKRLGVHTHNNMQLAFSNTLVAADLGVELLDASVYGMGRAAGNCPTELLVTHLKGTKYELRPVLDIIERFMIPLREKEEWGYIMPYMITGTLDEHPRSAMALRASDDKDKIVDFYDKLTTPEVTFDKKK	PGPT0002050_1011	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,PGPT0002050-mhpE-K01666	NA	NA
AK002_05062	1518	pepA_2	COG0260	Cytosol aminopeptidase	ATGAAATGGACATATGAAAGCAATTTAACAGCCGGGCAAGTACAAGCGGATGCCATCATCGTTCCCGTTACTAAAAAACAAGCGAAGGAGGGCGGCATTTCCGCGGCCTGGGATCCGCTATTAAAGCAGTTGGCGGAGAACCGGCTGTTCGACGGCACCGTCAACCGGTCACTCGTATGGCCGGAGAGCATTTCGAGCGGATCGCGCCTGTTAATATGGGTAGGCCGTCCCGAAGGGATCCTGACATCCGAGCAGCTGCGTTTGGTTGCGGCTCAAGCAGCTAAGGCGGCCGTAAAATCGGGAATACGCAGCGCGGCGATTCAAATTCCGCATACGATGGTCAGCTTCACCGCCGAACAGACGCCCCGCGACGCCGCTCAGGCTTTAACCGAGGGATTTATCCTGGGAAGCTACCGGAAACCGCATTATAAACGCGATGCTTCCGAACGTACGGATTTAGAAGAAATCCTCTATTATATAGAAGGAAATGCGGAAGCGGAATTTGAAGCCGCGTGGAAGGAAGGCATGTCGCTGGGCCAAGCGATTGGAGAAGCAACCTGCCTGGCACGAGATTTGACGAACCTTCCCGGCAATAAACTGTTACCGGAAGACTTGGCCCAGAAGGCGCTTCAGCTGGCGAAGCGGTACGGCTTCGAAGCACAGGTCCTGGATGAGGAAGCCATGGTCGAGAAAGGAATGGGCGGCCTCTTGGCCGTAGGGAAAGGCAGCATACATCCGCCGCGCATGATTACGATCCGTTATCAGGGACGGGAGACATGGGACGATGTGATCGGCCTGGTCGGCAAGGGGATCACATTTGATACCGGCGGCGTTTCGCTGAAGAGGGCAGCCGGAATGGAGGATATGATCAGCGATATGGGCGGGGCGGCTACAGTGCTTGGCGTTATGGAGGCTCTCGGGCGTATTCGCCCCAAGGCGAATGTCGTGATGGTGATCCCGTCTGCGGAGAACGTGATGAGCGGCGGCGCCTTTAAACCCGGCGATATCGTGACGACGCTGAGCGGCCGTACCGTCGAAGTGCTGAACACGGATGCCGAGGGCCGCATCGTGCTCGCGGATGGAGTAACCCATGCCAAACAGCTCGGTGCTTCGCGCCTGATTGATGTGGCCACGTTGACCGGGGCCGTCGTTTCGGCGCTTGGGGATATCGCCACCGGGGCCGTAACCAATGACGAAACCTTTTTGCAGGAGCTTATCGCTTCTTCCCGTAGGGCCGGCGAAAAAATATGGCCGCTCCCATCCTATCCGGAGTTTTGGGATAAATTGAAGAGCGAGGTGGCGGATTTGCGAAATCAAACCGGGCGAGAAGGCGGGACGATCACGGGCGGTCTTTTTGTGGGTACGTTTGCTGACGGGCTGCCTTGGGTTCATTTTGACATAGCAGGTACGGCTTACTTGTCCAAGGAGCGGGACGTGGATCCCAGAGGGGCAACCGGCGTGCTCGTCCGAACCATCAGCGACTGGATACTCAGAGAGGCCGAGGCCGTCAAGGATTGA	MKWTYESNLTAGQVQADAIIVPVTKKQAKEGGISAAWDPLLKQLAENRLFDGTVNRSLVWPESISSGSRLLIWVGRPEGILTSEQLRLVAAQAAKAAVKSGIRSAAIQIPHTMVSFTAEQTPRDAAQALTEGFILGSYRKPHYKRDASERTDLEEILYYIEGNAEAEFEAAWKEGMSLGQAIGEATCLARDLTNLPGNKLLPEDLAQKALQLAKRYGFEAQVLDEEAMVEKGMGGLLAVGKGSIHPPRMITIRYQGRETWDDVIGLVGKGITFDTGGVSLKRAAGMEDMISDMGGAATVLGVMEALGRIRPKANVVMVIPSAENVMSGGAFKPGDIVTTLSGRTVEVLNTDAEGRIVLADGVTHAKQLGASRLIDVATLTGAVVSALGDIATGAVTNDETFLQELIASSRRAGEKIWPLPSYPEFWDKLKSEVADLRNQTGREGGTITGGLFVGTFADGLPWVHFDIAGTAYLSKERDVDPRGATGVLVRTISDWILREAEAVKD				NA	NA	NA	NA	NA
AK002_05063	1122	sasA_25		Adaptive-response sensory-kinase SasA	TTGAGTCAAATCCGTGAATCTGAGCTGCAGGCAATTCGTTCATTTCATTCCAGTCAGCTTATTAGGAACAAGTATGAGAACATACTGGAGAATCTCGACAGCGGGATTATCCTCTTTGATAGTGATGGAGTGTTGGCATTTGTTAACGTGCAGATGGCAAAACTGTTAGGCGTATCCCGTAAATCGCTGACAGGCTGTACGCTGACCCAGCTATTGCGTCATCCCCAGCTCTCCAGATTCAAGAAGAAAAAAATACTTCGCATTTTTCGGGAAACGGTATTCCATCGCCGAAGATTCCATGAATTGGTTGATGAATTCGGCAGATCGTGGCTGATCACGATGACGTATGGGGACCAAATGGAAGGCGATTTTCTGATCAGCGTGAAGGATGTATCGGATTTCAAACGAATTGAGCAAACCGCGTATCAGAACGATAAACTGGCCATGCTGGGAAAAATCTCGGCTTCCATTGCCCATGAAATCCGAAATCCGCTGACATCCATTCGAGGCTTTATCCAGCTGCTGCGTCCGCATCTCGTAAGTTTGGGAAAGGACGAGTATGCCAGAATCATACTAACGGAGATCGATCGCGCAAACGATATTATATACGAATTTCTCAATTCCTCCAAACCCTCGGCTCCAGAGACCAAGATTGTATCCGTATCCTCATTGTTGAAGGAAGTTGTTCTATTAACAGAGAGCGAAGCCTTGATGAAGGGATGCCAGATCAATCTACATACCGATAAGACCCCACCTGCGTTTATTTCCGTTGATGTCAAGCAGATCAAACAGGTGATTCTGAATATTATTAAAAATGCCCTCGACGCCATAAATGAGCATCATGACGAGAACATTACCGGGATGATTGATATTTCAGCCCGTGACACGGGCAAACATATTAACATTTGCATTTCGGATAACGGGGGAGGGATGGATCAGAATACGCTGAACCACCTCTTCAATCCCTTTTTTACGACGAAAGAGAGCGGCACGGGACTTGGATTGTCCGTGAGCTACAGCATCATCCGAAACCATGGCGGCACCATTGCCGTGGATAGCCAGGTTGGGGCCGGGACCGAGTTTGTGATCACGTTTCCCAAGCTGGACGTGTCGGAAGTCTGA	MSQIRESELQAIRSFHSSQLIRNKYENILENLDSGIILFDSDGVLAFVNVQMAKLLGVSRKSLTGCTLTQLLRHPQLSRFKKKKILRIFRETVFHRRRFHELVDEFGRSWLITMTYGDQMEGDFLISVKDVSDFKRIEQTAYQNDKLAMLGKISASIAHEIRNPLTSIRGFIQLLRPHLVSLGKDEYARIILTEIDRANDIIYEFLNSSKPSAPETKIVSVSSLLKEVVLLTESEALMKGCQINLHTDKTPPAFISVDVKQIKQVILNIIKNALDAINEHHDENITGMIDISARDTGKHINICISDNGGGMDQNTLNHLFNPFFTTKESGTGLGLSVSYSIIRNHGGTIAVDSQVGAGTEFVITFPKLDVSEV				NA	NA	NA	NA	NA
AK002_05064	408			hypothetical protein	ATGAGTTTTTGCTGTGGGGCTAGTATGATGGGTACAAAGGGTACACTGAAGCATTATCGCACTCAAGTACATAATGTTCCCCTACTGTCTTGTCCGGTCTGCCATCGCGTCGAGGTTCATCATCGGGTTGAGAATGAGTATGAGATATTGGCTGAATATGCCCATGGTGACGGTGCATCCCAGGTGGATTTTCAGGATTACGTGATGGAAGATGAGGATGCCATTTTTGAGAATGTGATCAATCGGGAGTCGGAGGATCCGCTCACGGTTGTTCAGAGTCAGATTGATATGTCGCTGGATCTCCTGGTGGTTGCCAAATGGATGGAGGACGAGAAGTGGCAGGGCGAACTGAAAAGACGGCTTGCCGTGATGAGCCAGCGCAGGCTCCGACTCCAGAAGCAGCCTTAA	MSFCCGASMMGTKGTLKHYRTQVHNVPLLSCPVCHRVEVHHRVENEYEILAEYAHGDGASQVDFQDYVMEDEDAIFENVINRESEDPLTVVQSQIDMSLDLLVVAKWMEDEKWQGELKRRLAVMSQRRLRLQKQP				NA	NA	NA	NA	NA
AK002_05065	540	ahpC	COG0450	Alkyl hydroperoxide reductase C	ATGGCAGAACGTTTGGTTGGTAAAGCGGCTCCTGATTTCACAATGGAAACTGTATCAGGAGACGGTAAAGATTTTGGTAAAGTCAGCCTGTCCGACTACCGCGGCAAATGGCTCGTATTCTTCTTCTATCCGCTGGATTTCACTTTTGTATGCCCAACTGAAATCACGGCTCTCAGCGATGCTTACGATCAATTCAAAGCATTGGATACGGAAATCCTGGGTGTGAGCGTTGACTCGATTCACAGCCACAAAGCTTGGATCAACACAGCTAAAGAAGCTAACGGTCTGGGAGCATTGAACTTCCCGCTGGCTTCCGACATCACCAAGAACGTAGCTAGAGACTACGGCGTTCTGATCGAAGAAGAAGGCGTTGCTCTGCGCGGCCTGTACATCATCGATCCAGAAGGCGAATTGAAATATCAAGTTGTTAACCATAACGACGTTGGCCGCAGCGTAGAAGAAACGCTTCGCGTGCTTCAAGCACTGCAATCCGGCGGATTGTGCGCAATGAACTGGAAGCCGGGCGACAGCAACCTGTAA	MAERLVGKAAPDFTMETVSGDGKDFGKVSLSDYRGKWLVFFFYPLDFTFVCPTEITALSDAYDQFKALDTEILGVSVDSIHSHKAWINTAKEANGLGALNFPLASDITKNVARDYGVLIEEEGVALRGLYIIDPEGELKYQVVNHNDVGRSVEETLRVLQALQSGGLCAMNWKPGDSNL	PGPT0013130_2561	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
AK002_05066	1077	leuB	COG0473	3-isopropylmalate dehydrogenase	ATGGCAGAAACGAAAAAAATCGCGGTAATCGCGGGAGACGGCATCGGTCCTGAGGTAGTGGCGGAAGCGGAGAAAATCATTAAGCGTACCGAAGAGGTATTCGGACTTTCATTCACGACGGAACATGCGTTGTTTGGCGGCATTGCGATCGACGAGAAAGGAACGCCGCTCCCGGAAGAAACGCTGAGCGTATGCAAAAGCGCCGATGCGGTATTGCTCGGCGCGGTAGGCGGACCGAAATGGGACAACAACTCGAAGGAGCTTCGCCCGGAAACCGGATTGCTCGGCATCCGCAAAGAGCTTGGCCTGTTCTCGAACCTGCGTCCGGCCGTCATTTTTGACTGCTTGAAGGATGCATCCACACTGAAGCCTGAGGTTCTGGAAGGAACCGACTTGATGGTTGTTCGTGAACTGACGGGAGGCATATACTTCGGCGAGAAGTTCAGACGCGAAGGTGCAGGCGGAGAAGAAGCGGTAGATACCTGCGTATACAATACCGCCGAGGTAGAGCGCATCGTGCATCAAGCCTTCGAGATTGCACAGAAGCGCCGGAAGAAGCTGGCTTCCGTCGATAAAGCGAACGTGCTGGAAACGTCCCGCTTGTGGCGCGAAACCGTAAACCGCATCGCTCCTGAATATCCGGACGTCGAGCTGGAGCACGTGCTGGTAGACAACTGCGCAATGCAGCTTCTGCGCCGCCCGTCCAGCTTTGATGTCATCGTAACCGAGAATATGTTCGGTGACATTCTGAGCGACGAAGCAGCCATGCTGACAGGATCCATCGGCATGCTGGCATCCGCATCCATGGGCGAAGGAGCTTTCGGTCTGTACGAGCCGGTACACGGTTCGGCTCCGGACATTGCCGGCCAAGGCTTGGCGAACCCGATCGCAACGATTCTTTCCGTAGCGCTTATGTATCGCCTGACGTTCGGATACGAGGATGCGGCTGACGCCATTGAACGCGCAGTTGCCGAGGTGCTTGATGCAGGACACCGGACGGCAGACATTGCCGTTGATAGAAGCAAGGCGCTCAGCACCACGGAGATGGGCGATTTGATTGCCGCGTCTATCCGTTAA	MAETKKIAVIAGDGIGPEVVAEAEKIIKRTEEVFGLSFTTEHALFGGIAIDEKGTPLPEETLSVCKSADAVLLGAVGGPKWDNNSKELRPETGLLGIRKELGLFSNLRPAVIFDCLKDASTLKPEVLEGTDLMVVRELTGGIYFGEKFRREGAGGEEAVDTCVYNTAEVERIVHQAFEIAQKRRKKLASVDKANVLETSRLWRETVNRIAPEYPDVELEHVLVDNCAMQLLRRPSSFDVIVTENMFGDILSDEAAMLTGSIGMLASASMGEGAFGLYEPVHGSAPDIAGQGLANPIATILSVALMYRLTFGYEDAADAIERAVAEVLDAGHRTADIAVDRSKALSTTEMGDLIAASIR	PGPT0001441_2671	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
AK002_05067	981	yajO_5	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGAAGTACGCAGCTCTAGGTAAATCCGGCATGAAAGTAAGTCGTCTGTGTTTGGGGACGATGAATTTCGGTCCTGCTACGGATGAAAAGGAAGCCTTCCGCATTATGGATGCAGCGCTTGACGCCGGCGTCAATTTCTTTGATACGGCGAACATCTACGGCTGGGGCGAGAATTCCGGCATGACCGAAACCATCATCGGACGCTGGTTTAACCAAGGCGGAGGCCGCCGCGAAAAAGTCGTTTTGGCTACTAAATTCTACGGTTCCATGAGCGATCCTCTGGATGGCCCCAACAATGAAGCCGGGCTGTCGAGCTATAAACTTCGCCGTCATCTCGAAGGGTCGCTGAAACGTCTGCAGACCGACCATATCGAGCTGTACCAAATGCATCACGTCGATCCTTCTGTCACTTGGGACGAGCTGTGGGGCGCTTTTGAGGTTGCGGTTCATCAAGGAAAAATCGGATATGTCGGATCCAGCAACTTTGCCGGATGGCAGATTGCGGTTGCGCAGGCCGCGGCCCAGAGCCGTCACTTCCTCGGTCTCGTTTCCGAGCAGCACAAATACAGCCTGACCTGCCGATTGCCGGAACTCGAAGTGCTCCCCGCTTCGCAGCAGCTGGGTCTCGGCGTGATTCCTTGGAGTCCGCTGGACGGGGGACTGCTGGGACGCAATGCCCTTAAAAAAATCGAGGGCTCGCGCAGCGGAGGCAATGCGGAGCGCGTAGAGAAGCACCGCGCGCAGCTGGAACAGTTTGCCGCTCTCTGCCAAGAGCTGGGCGAACCGCAGGATAACGTCGCTCTTGCCTGGGTGCTGAAGAACCCGGCCGTTACCGGACCGATTATTGGGCCGCGCACGCTGGAGCAGTTCGAAAGCTCCCTGCGCTCGCTTGAGATCGAACTCGATGAATCCGTGATGAAGCGCTTGGATGAAATATTCCCGGGTCCGGGCGGCGCCGCCCCGCAGGCCTACGCCTGGTAA	MKYAALGKSGMKVSRLCLGTMNFGPATDEKEAFRIMDAALDAGVNFFDTANIYGWGENSGMTETIIGRWFNQGGGRREKVVLATKFYGSMSDPLDGPNNEAGLSSYKLRRHLEGSLKRLQTDHIELYQMHHVDPSVTWDELWGAFEVAVHQGKIGYVGSSNFAGWQIAVAQAAAQSRHFLGLVSEQHKYSLTCRLPELEVLPASQQLGLGVIPWSPLDGGLLGRNALKKIEGSRSGGNAERVEKHRAQLEQFAALCQELGEPQDNVALAWVLKNPAVTGPIIGPRTLEQFESSLRSLEIELDESVMKRLDEIFPGPGGAAPQAYAW	PGPT0010855_19	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-ERYTHROMYCIN_METABOLISM,PGPT0010855-eryBII-K13315	NA	NA
AK002_05068	1539	leuA_2		2-isopropylmalate synthase	ATGCGAAAGATTTATGTCTTTGATACAACGCTGAGAGATGGTGAGCAGTCTCCTGGCGTGAATTTGAACACTCGGGAAAAGGTGGAAATCGCCCTTCAGCTCGAAAAGTTGAAAATCGACCGCATGGAAGCAGGGTTTCCAGCGGCGTCACCCGGTGACCTTGCAGCTGTGAATGCAGTGGCACGCGCGGTTAAGGACGTTACGGTCATTGGATTGTCACGCTCCAGAGAAAATGACATCGATGCGGTTCGCGAAGCGCTTCAAGGCGCCCAGGACCCGTGCATTCACGTGTTCCTGGCCACTTCGCCGATTCACCGCAAGTTCAAGCTGCGGATGGAGAAGCAGCAGGTGCTGGAAACGGCGCAGGCTTCGATCCGTTACGCAAAGAAATACTTTTCCAAAGTGGAATTTTCCCTGGAGGATGCGGGCCGGACCGAGCTTGATTTCATGGCCGAGGTCGTCGCCATGGCAGTGCGCGAAGGCGCCAATGTCGTGAACATTCCGGATACCGTGGGATATTTGAACCCTTCGGAATACGGGGCCATCTTCAAATACTTGAAGGAAAATGTTCCGGATATCGAGAAGGTTCAGCTGAGTGCGCACTGCCATAACGATCTGGGCATGGCCACGGCGAACACCCTTGCCGCCATTCTGAACGGGGCCGATCAGATCGAAGGCACGATCAACGGAATCGGTGAACGTGCAGGCAATACCGCGATCGAGGAAATTGCGATGGCGCTCGAGACGCGTTCCGAATTCTTTGGAGCGAAGACGGGGCTGGCCTTAACCGAAATCGCCCGCACGAGCCGCCTTGTAAGTAAGCTGACCGGCATGGTCGTGCCAGGCAACAAAGCGATTGTCGGCGCGAACGCATTCGCCCATGAATCCGGCATTCACCAGGACGGTATGCTGAAGGAGAAGACAACCTACGAAATTATGACCCCGGAGTCCATCGGACTCAAAGAAAGCAAGCTGGTATTAGGCAAACATTCCGGCCGCCATGCTTTCCGGGAGAAGCTGCTGGATCTGGGTTATGAGCTGACCGAAGAACAGGTGAATGACGCATTCGCCAAATTCAAGGTGCTGGCCGACAAGAAGAAGGAAGTATCCGATGAGGATCTTCTGGCTCTGCTGGAGGAAAAACTGATCGATACGCCGGAGGTCTTCAAGCTGGAAACGATCTTTGTTGCTTACGGCAATGAATCAACGCCGACGGCGCGGGTGCGCATTGCGACAGAAGATCAGACGATTGAAGAAGAGGCCGAGGGCAACGGTTCCGTGGACGCGATTTATAACGCGATCGACAAGGTGACCGGAGAAGAGGTTACGCTTGCGGATTATTCCATCAAGTCGGTAACGCACGGCAAGGATGCCCAAGGTGAAGTGCATGTCGTGCTGTCGCAAAACGACGTGGCCGCTCAAGGCCGCGGCTTGAGCACCGACATTCTGGAAGCGAGCGCACGAGCCTACGTCGATGCGGTGAACGTCCTGATCGAGAAACGCAAAACGTTTAGCCGGCGCGAGCGCGCTACGCTGTAA	MRKIYVFDTTLRDGEQSPGVNLNTREKVEIALQLEKLKIDRMEAGFPAASPGDLAAVNAVARAVKDVTVIGLSRSRENDIDAVREALQGAQDPCIHVFLATSPIHRKFKLRMEKQQVLETAQASIRYAKKYFSKVEFSLEDAGRTELDFMAEVVAMAVREGANVVNIPDTVGYLNPSEYGAIFKYLKENVPDIEKVQLSAHCHNDLGMATANTLAAILNGADQIEGTINGIGERAGNTAIEEIAMALETRSEFFGAKTGLALTEIARTSRLVSKLTGMVVPGNKAIVGANAFAHESGIHQDGMLKEKTTYEIMTPESIGLKESKLVLGKHSGRHAFREKLLDLGYELTEEQVNDAFAKFKVLADKKKEVSDEDLLALLEEKLIDTPEVFKLETIFVAYGNESTPTARVRIATEDQTIEEEAEGNGSVDAIYNAIDKVTGEEVTLADYSIKSVTHGKDAQGEVHVVLSQNDVAAQGRGLSTDILEASARAYVDAVNVLIEKRKTFSRRERATL				NA	NA	NA	NA	NA
AK002_05069	993	ilvC		Ketol-acid reductoisomerase (NAD(+))	ATGGCAATTACTACTTATTATGAACAAGATGCAGAACTCAGCGTGCTGAAAGACAAAACAATCGCGGTTATCGGCTACGGAAGCCAAGGTCATGCGCAAGCGCAAAACCTGCGCGACAGCGGACTTCAGGTTGTCATTGGTCTTCGTGAAGGCAAATCGTTCGACAAAGCGAAAAACGACGGTTTCGAAGTACTCCCTGTAGCGGAAGCCGTTAGCCGTGCGGATGTAGTACAAATCCTGATGCCGGATGAAACGCAAGCAGCGGTGTACAAAAACGATATCGAGCCAAACCTGAAAAAAGGCGCGGCACTGATGTTCTCCCACGGTTTCAACGTTCATTTCGGTCAAATCGTAGCTCCTAAGGACAACGACGTTCTTCTGGTTGCTCCTAAATCCCCGGGTCACATGGTTCGCCGTACGTACGTTGAAGGCTTTGGCGTACCTGGATTGATCGCAATCGAGAAAGACGCGACTGGACAAGCTAAGGCGATCGGTCTTGCTTATGCAAAAGGCATCGGCTGTACCCGCGCAGGCGTTATCGAGACTTCCTTCCGCGAAGAAACCGAAACAGACTTGTTCGGTGAGCAAGCGGTATTGTGCGGCGGTGTCTCCGCATTGGTCAAAGCAGGTTTCGAAACGTTGACCGAAGCTGGATATGCGCCGGAAATGGCATACTTCGAGTGCCTGCATGAACTGAAGCTGATCGTGGACATGATCTATGAAGGCGGTCTTGCAAGCATGCGCGACTCCATCAGCAACACGGCGGAGTATGGCGACTATGTAACAGGCCCTCGCGTGGTAACCGAAGATACCAAGAAGGCAATGAAAGAAGTCCTGTCCGATATTCAACAAGGTAAATTCGCCCGCGACTTTATCCTTGAGAACCAATCGGGACGCGCTTTCCTGACAGCTACTCGCCGCAACGAGTCCGAGCATCCGATCGAAGTGGTGGGTGCAGAGCTTCGCGAAATGATGCATTGGATCAAAAAATAA	MAITTYYEQDAELSVLKDKTIAVIGYGSQGHAQAQNLRDSGLQVVIGLREGKSFDKAKNDGFEVLPVAEAVSRADVVQILMPDETQAAVYKNDIEPNLKKGAALMFSHGFNVHFGQIVAPKDNDVLLVAPKSPGHMVRRTYVEGFGVPGLIAIEKDATGQAKAIGLAYAKGIGCTRAGVIETSFREETETDLFGEQAVLCGGVSALVKAGFETLTEAGYAPEMAYFECLHELKLIVDMIYEGGLASMRDSISNTAEYGDYVTGPRVVTEDTKKAMKEVLSDIQQGKFARDFILENQSGRAFLTATRRNESEHPIEVVGAELREMMHWIKK	PGPT0008735_4343	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
AK002_05070	486	ilvH	COG0440	Acetolactate synthase small subunit	ATGAGTACAAAACATACCATTGCCGTACTAGTAAACGACCAGCCGGGTGTCCTGCAGCGTGTATCCGGGTTATTCGGACGCCGGGGCTTTAACATCGAGAGCATTACCGTGGGGCAGTCGGAGGAAATCGGCTTGTCCCGGATGGTTATCGTAACCACCGGAGACGAAACGACGCTGGAGCAGGTAGAGAAGCAGCTTTACAAGCTGATCGATGTTATTAAAGTCATCAATCTGAGCTCGAAGCCGATGGTCGCCAGGGAGCTCGCCCTGATCAAAGTAAAAGCCGAGCCGTCGGCAAGACCGGAAATTATGGGCGTTGTCGAGACCTTCCGCGCATCCGTCGTGGATATCGGCACGACCAACCTGATGGTTCAGGTTGTCGGCGATACCGTCAAAATCGATGCGATGATCGAGCTGCTTAAGCCTTATGGCATCCAGGAGCTTTCCCGTACCGGGGTTACCGCGATGATTCGCGGTAACGCGTAA	MSTKHTIAVLVNDQPGVLQRVSGLFGRRGFNIESITVGQSEEIGLSRMVIVTTGDETTLEQVEKQLYKLIDVIKVINLSSKPMVARELALIKVKAEPSARPEIMGVVETFRASVVDIGTTNLMVQVVGDTVKIDAMIELLKPYGIQELSRTGVTAMIRGNA	PGPT0008205_3532	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
AK002_05071	1743	ilvB_2	COG0028	Acetolactate synthase large subunit	ATGAGCGCGCAAACTCCAGAAGTGCGGTCTACAGAACAATTACGAGAGAAATGGTTGAAGCCTGAAGTGATTACCGGTTCGGAAATCTTGCTTCGGAGTCTTCTGCTCGAAGGTGTCGAGTGCGTCTTCGGATATCCGGGCGGAGCCGTCCTGTATATCTACGATGCGATGTATGGTTTTAAGGATTTCAACCATGTCTTGACCCGACACGAGCAAGGTGCCATTCATGCCGCTGACGGTTACGCCCGCGCAAGCGGCAAAGTCGGCGTATGCATAGCAACTTCAGGACCGGGGGCAACGAACCTTGTGACCGGTATCGCAACAGCTTACATGGATTCCGTTCCGCTCGTTGTTATTACCGGTAACGTTGCAACAACCCTGATCGGTACGGATGCTTTCCAGGAAGCGGACATTACAGGCATCACGATGCCGATTACGAAACACAGCTATCTGGTAAGGGACGTTAAGGATCTGCCAAGGGTGATTCATGAGGCCTTCCATATCGCCTCAACCGGCCGCAAAGGACCGGTGCTGATCGACATTCCGAAGGATGTATCGGCGGCAACCACGCTGTTCCAGCCGGAAGAGCGAATCCAGCTGAGAGGATATAATCCTCGGACGGTGCCGAACAAACTTCAGTTGGATAAACTGGCCCGCGCGATCGAGGAGGCCGAGCGTCCGATGATTCTTGCCGGCGGCGGCGTGATTTACTCCGGTGCTCATGAAGGACTGTACGAATTCGTGAACAAAACCGGGATTCCGATCACGACAACGCTTCTCGGCCTTGGCGCCTTCCCGACAGGCAACGATCTGTGGACAGGAATGCCGGGCATGCACGGAACCTACACATCGAACCATGGTATTCAGCAGTCTGATCTGCTGATCAACATCGGGGCAAGATTTGATGACAGGGTTACCGGCAAGCTTGACGGATTCGCGCCTCACGCGAAGATCGTTCATATCGACATTGACCCGGCCGAGATCGGCAAGAACGTGCCGACCGATATTCCGATTGTCGGTGACGTGAAGACGGTGCTTGAGATGCTGAACCCGATCGTTTCGTACGCTGCGAAAGCAGACGCGTGGAGAGACCAGATCCGCAAATGGAAAGCCGAGTATCCTTTCCGTTACGTCGATTCGGATACGGTGCTGAAGCCGCAATGGGTTATCGAAATGCTGAACGATACCACGAAGGGCGAAGCCATTGTAACGACTGACGTTGGTCAGCACCAAATGTGGGCCGCGCAGTATTACAAGTTCAACCAGCCGCGTTCCTGGATCACCTCCGGCGGACTCGGAACGATGGGCTTCGGATTCCCGTCCGCGATCGGGGCACAGATGGCGCATCCGGAACGCCTGGTCATTTCGATCAACGGAGACGGCGGCATGCAGATGTGTTCGCAAGAACTTGCCATCTGCGCCATCAACAACATTCCGGTGAAGATCGTTGTCATCAACAACCAAGTGCTCGGCATGGTTCGTCAATGGCAGGAGCTGATTTACGATAACCGATACAGCCACATCGATCTGGCAGGCAGCCCTGATTTCGTCAAGCTGGCCGAAGCTTACGGTGTCAAAGGACTTCGCGCCACGACGAAAGAAGAAGCTCAGCGTGCTTGGGCCGAAGCGATGGAAACACCGGGACCCGTCCTCGTTGAATTCGTTGTTGAGAAGGGCGAGAACGTGTATCCGATGGTGACGCAAGGGTCGACAATCGATCAAATGCTGATGGGGGATGCGTAA	MSAQTPEVRSTEQLREKWLKPEVITGSEILLRSLLLEGVECVFGYPGGAVLYIYDAMYGFKDFNHVLTRHEQGAIHAADGYARASGKVGVCIATSGPGATNLVTGIATAYMDSVPLVVITGNVATTLIGTDAFQEADITGITMPITKHSYLVRDVKDLPRVIHEAFHIASTGRKGPVLIDIPKDVSAATTLFQPEERIQLRGYNPRTVPNKLQLDKLARAIEEAERPMILAGGGVIYSGAHEGLYEFVNKTGIPITTTLLGLGAFPTGNDLWTGMPGMHGTYTSNHGIQQSDLLINIGARFDDRVTGKLDGFAPHAKIVHIDIDPAEIGKNVPTDIPIVGDVKTVLEMLNPIVSYAAKADAWRDQIRKWKAEYPFRYVDSDTVLKPQWVIEMLNDTTKGEAIVTTDVGQHQMWAAQYYKFNQPRSWITSGGLGTMGFGFPSAIGAQMAHPERLVISINGDGGMQMCSQELAICAINNIPVKIVVINNQVLGMVRQWQELIYDNRYSHIDLAGSPDFVKLAEAYGVKGLRATTKEEAQRAWAEAMETPGPVLVEFVVEKGENVYPMVTQGSTIDQMLMGDA	PGPT0008185_3273	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
AK002_05072	450			hypothetical protein	ATGATCCGTTACCGAAAACCGGACCAGGATGATCCGATGATTCTGCAGCTCATCGAGTCCCAACTCGTCCCGCTTTCCCATATGACCAAAAAAGAGCTGGACCTCATCCGCAAGGATATTCCCTCTCGTTTACGGCGCGGCGTGACCCTTGTCGCTTCGCCTCAGGATAACGAAAAAATCGTTGCTTTTATCCATTTCATGATGCACGGCGAGCTGCTGTATATCGATATGCTGGCCGTCGCATCCACCGCACAGCGAAAACGGTGGGGTGTCCGTTTGATGGAACATGCCGAACGTTTCGCTGTATCCCGCGGATGCAAACGTGCCAAAGTCATGGTGGACATCGGCAACCACACCGGCCTTCATTTTTACCGAAAGCTTGGCTATACGGTGACCAGAATGATCGAACCCAGCCGATGTTATGAGCTGGAAAAGATTTGGTTCCTCTAA	MIRYRKPDQDDPMILQLIESQLVPLSHMTKKELDLIRKDIPSRLRRGVTLVASPQDNEKIVAFIHFMMHGELLYIDMLAVASTAQRKRWGVRLMEHAERFAVSRGCKRAKVMVDIGNHTGLHFYRKLGYTVTRMIEPSRCYELEKIWFL				NA	NA	NA	NA	NA
AK002_05073	369			hypothetical protein	ATGCACAAGCCTGTCAGCAAGGCGAAAGTGAAATCATACGTGGGCAAAGAGATCGTGGCGTATAAGAAAAACGGAACTGTGGTGACGGGCAAGCTGGTACGCGTCTCTGGCAACCGCCTTTTTGTGGAACCGGCAACCAAGGGGAAAAAGGTGAAAACCAAGGCGATTATTCCGCTCGCATTGTTTGACCTTCTTGCCATTGGTACGGCCCCTTATGCATATGGCGGCGGGTTTGGAGGCTACCCTGGCGGCGGGTTTGGAGGCTACCCTGGCGGCTTTGGACCGGGTTACGGCGGCTTCGGGCCGGGCTTTGGACCAGGCTTTGGACCGGGTTTTGGACCAGGCTTCGGGCCAGGCTTCTTCTGGTAA	MHKPVSKAKVKSYVGKEIVAYKKNGTVVTGKLVRVSGNRLFVEPATKGKKVKTKAIIPLALFDLLAIGTAPYAYGGGFGGYPGGGFGGYPGGFGPGYGGFGPGFGPGFGPGFGPGFGPGFFW				NA	NA	NA	NA	NA
AK002_05074	360	rplT	COG0292	50S ribosomal protein L20	ATGGCACGAGTTAAAGGCGGATTTGTCGTTCGTCGTCGACATAAAAAAGTATTGAAGCTTGCGAAAGGTTATTTCGGTTCCAAACACCGCATTTTTAAAACAGCGAACGAGCAGGTTATGAAATCCCTCGTTTATGCATACCGCGATCGTCGCAATACGAAGCGTAACTTCCGCAAATTGTGGATCGTTCGTATCAACGCGGCTGCTCGTCAAAACGGTCTGTCCTACAGCAAATTGATGCATGGACTGAAGCTTGCTGGCGTGGACATCAACCGCAAAATGCTGGCTGATCTGGCTGTGAATGACTTGAACGCGTTCAATTCCTTGGCTACTGTAGCTAAAGAAAAAGTGAACGCTTAA	MARVKGGFVVRRRHKKVLKLAKGYFGSKHRIFKTANEQVMKSLVYAYRDRRNTKRNFRKLWIVRINAAARQNGLSYSKLMHGLKLAGVDINRKMLADLAVNDLNAFNSLATVAKEKVNA				NA	NA	NA	NA	NA
AK002_05075	201	rpmI	COG0291	50S ribosomal protein L35	ATGCCTAAAATGAAAACACATAGCAGCCTGAAAGGCCGCTTCAAAATTACTGGTACTGGTAAAGTTAAACGTTATAAAGCTTACAAAAACCACTTGCTTTCCCACAAATCCAAGCGTGCGAAGCGCGTATTGTCCAATAGCCCTGTCATGGCGCCTGGAGATGTTAAACGTTTGAAGCAAGGTCTGGCTAACTTGAAATAG	MPKMKTHSSLKGRFKITGTGKVKRYKAYKNHLLSHKSKRAKRVLSNSPVMAPGDVKRLKQGLANLK				NA	NA	NA	NA	NA
AK002_05076	495	infC_2		Translation initiation factor IF-3	ATGATCAATGACGAGATTCGGGCCAAAGAAGTACGTTTGGTTGGTGCCGAAGGTGAGCAAATCGGGATCAAGCCGATTCGTGAAGCACTGCAAATGGCAATTGATCTCAATCTGGATCTGGTGAACGTGGCCCCTCAGGCGAAACCGCCGGTATGCCGCATCATGGACTACGGTAAATTCCGCTATGAGCAGCAGAAGAAAGAGAAGGAAGCACGGAAGAACCAGAAAATTGTGGACATCAAAGAAGTATGGTTCCGAGCCAACATTGAGGAGCATGATTATCAAACCAAGCTTCGCAATGTCGTTAAGTTTTTGAAAGACGGCGATAAAGTGAAATGCTCCGTGCGTTTCCGCGGCCGTGAAATCACCCATGCTAACATCGGTCAGAAGATTTTGGAGCGCGTGAAGACGGAAGTGGCGGATCTCTGCGTCATTGAGCGTCAGCCGAAATTGGAAGGCCGCAGCATGATTATGATTTTGGCTCCAAAAGCCTAA	MINDEIRAKEVRLVGAEGEQIGIKPIREALQMAIDLNLDLVNVAPQAKPPVCRIMDYGKFRYEQQKKEKEARKNQKIVDIKEVWFRANIEEHDYQTKLRNVVKFLKDGDKVKCSVRFRGREITHANIGQKILERVKTEVADLCVIERQPKLEGRSMIMILAPKA				NA	NA	NA	NA	NA
AK002_05078	1239	icaA	COG1215	Poly-beta-1,6-N-acetyl-D-glucosamine synthase	ATGACAGACGCCATCTTTATCGCGCTCCAACTATTCTTGGCCGCGGTGGGTGTGTACCAGTTCGTATTCTCTTTGTTTGGTCTGGTCAAAAGAAAAAAGAAACAACAGTTTGAACCCAATAAATCATTTGCAGTGTTAGTTGCTGCGCATAACGAAGAGCAGGTTGTCGGAGCATTAATGGAGAACCTGAAACAGCTTAATTATCCGAAACATCTGTACGACGTATTTGTCATTTGCGACAACTGTACAGACCGTACAGCAGAGATCGTCCGTGCCCACGGGATGAACGCCTGCGTGCGCACGAATCAGAATCTTCGAGGCAAAGGCTATGCCATCGAATGGATGCTGAAAGAGCTCTGGGCGATGCCGCGCCAGTATGACGCGGTCGTTATGTTTGATGCGGATAATCTGGCGGATCCGAATTTCTTGAATGAAATGAACAACGATCTTTGCTCTGGAGCGAGAGTTATCCAGGGATATATCGATACCAAGAACCCAGAGGATTCTTGGATCACCGCTTCTTACGGGGTTTCCTACTGGTATATCAACCGCTTGTGGCAGTTGTCCCGCAGCAATCTGAACATGGCCAACTTCCTCGGCGGAACGGGAATGTGCTTTGAGACCAATCTCTTGAAGGAGATCGGCTGGGGCGCGACCAGTCTGGTGGAGGACTTGGAGTTCACCATGCGCAGCGTCATGCGCGGCGTGTATCCGAAGTTCAATTACGACGCGAAGGTATTCGACGAAAAGCCGCTTACGTTTAAGGCTTCCGCCAGACAACGTCTGCGCTGGATGCAGGGTCACTTTACGGTTGCCCGCCGTTATTTCTTCCCGCTGTTGTGGCGTGCCATTAAGGAGCGCAGCCTTGTGAAGCTGGACTTGGCCCTTTACGGAGTCAACGTCTACATCGTGCTGTTGACTTTCTTGTTGACGGCCATCATCTGGGTTGACAGCTCGTTCTTCAATGGTCCGAACATCGCGAACCTGTACGGTTATTTACCGCTGTGGCTGAGCTTTACGGCAATTGCAGCGAATGTGTTCACGTTCATGATTGCGATGATTCTGGAGAAGGTGAAGTACAAGAAGGTATATATGTATCTGGTGCTGTTTCCGATTTATCTGCTGTCGTGGTATCCCATCACGGTATACGCGTTCTTCACGCAGAACAACAAGCAGTGGAGTCATACGGAGCATACCCGGGTTGTGCGCCTTGAAGAAGTTCAGAGCAAACAAGGCTAA	MTDAIFIALQLFLAAVGVYQFVFSLFGLVKRKKKQQFEPNKSFAVLVAAHNEEQVVGALMENLKQLNYPKHLYDVFVICDNCTDRTAEIVRAHGMNACVRTNQNLRGKGYAIEWMLKELWAMPRQYDAVVMFDADNLADPNFLNEMNNDLCSGARVIQGYIDTKNPEDSWITASYGVSYWYINRLWQLSRSNLNMANFLGGTGMCFETNLLKEIGWGATSLVEDLEFTMRSVMRGVYPKFNYDAKVFDEKPLTFKASARQRLRWMQGHFTVARRYFFPLLWRAIKERSLVKLDLALYGVNVYIVLLTFLLTAIIWVDSSFFNGPNIANLYGYLPLWLSFTAIAANVFTFMIAMILEKVKYKKVYMYLVLFPIYLLSWYPITVYAFFTQNNKQWSHTEHTRVVRLEEVQSKQG				NA	NA	NA	NA	NA
AK002_05079	165			hypothetical protein	ATGATTCAAACGGACGTCAAAAAGTTTATTAGAGAAAGAGCACTGAAAAAAACGAAAACTTTTTGGTTGTCTGTTGCGTTTATTTATTGGCGGACAAGTCGAAAAAGAAAAAATGGGCAGCCAAGAGAAATAAAAAGCAAGAAAACGGATGAAAATAAGAACTAA	MIQTDVKKFIRERALKKTKTFWLSVAFIYWRTSRKRKNGQPREIKSKKTDENKN				NA	NA	NA	NA	NA
AK002_05080	1128	ugtP_2	COG0707	Processive diacylglycerol beta-glucosyltransferase	GTGGCTAAAAAAAGAGTCTTGCTGTTATCTGAAGGGTTCGGTGCAGGCCATACACAGGCCGCTCATGCACTCTCCAGCAGCCTGCGCCAGTTGTCCCCTAGCGTACAGACCAAAGTTCTCGAGCTCGGGAGCTTCTTGAACCCTAAAATCGCTCCACTGATCATTTCGGCCTACAGAAAGACCATTACGACTCGCCCAAGATTGGTCGGGTACATGTACCGCCATCAAAAATCCTTTAACCGTTTTACCGCTTTAGCTCTTCACCGAATGTTCTATACAAGCACCAAGAACGTGGTCAGGCAGCTCCGACCCGACATCATTGTGTGCACCCATTTCATACCAAGTGCGGTCATCTCGCGTTTGAAACGGCTGGGCACGAATGTGCCCCTGTGTACCGTTATAACCGATTATGATGCTCACGATACATGGATCAGCCCTGAGGTCGACCGATATTTCGTGTCCACGCCGGAAGTGAAGCGAAAGCTGCTCAATCGCGGGGTTTCCCAAGCCAAAATTCAGGTCACCGGCATTCCGATCCATCCCGACTTCTGGACGCATCCGAGCAAAGAGGAAATCCGGGAGCGGTTTAACCTGTCCGATATGCCTACCGTGCTGGTGATGGGCGGAGGCTGGGGCATCATGAATGACGAAGTTGTGCATGAATTTCTGACCCGATGGCGAGAAGAAGTCCAGATCATATTTTGCCTCGGCAATAATGATAAGGGACGCGAGGAGATGGAGCGAAATTCCAGGTTCCAGCATCCGAACATCCGGATATTGGGCTTTACGCGGGAGATCGACAAGCTGATGGAGGTGTCGGATCTGCTCGTTACGAAGCCCGGCGGCATGACATGTACCGAAGGCCTGGCCAAAGGAATTCCGATGCTGTTCCATCAGCCCCTTCCGGGACAGGAAGAAGAAAACTGCCAGTACTTCACGGCGCAGGGATTGGGAGAGCCCATCCATTCCCTGGAGGTTCTGGGCAAATGGATGAACAAGCTGCTTCATCAATACGACCTGATTCAAGAACAACGGGCGCAAAACTTGCAGGACATCGAACGCTTTCATCCCATGCAAAGCGCCCGCAGCATCATCGACATGCTGGAAAACGAAAAGGTGTACTCCTGA	MAKKRVLLLSEGFGAGHTQAAHALSSSLRQLSPSVQTKVLELGSFLNPKIAPLIISAYRKTITTRPRLVGYMYRHQKSFNRFTALALHRMFYTSTKNVVRQLRPDIIVCTHFIPSAVISRLKRLGTNVPLCTVITDYDAHDTWISPEVDRYFVSTPEVKRKLLNRGVSQAKIQVTGIPIHPDFWTHPSKEEIRERFNLSDMPTVLVMGGGWGIMNDEVVHEFLTRWREEVQIIFCLGNNDKGREEMERNSRFQHPNIRILGFTREIDKLMEVSDLLVTKPGGMTCTEGLAKGIPMLFHQPLPGQEEENCQYFTAQGLGEPIHSLEVLGKWMNKLLHQYDLIQEQRAQNLQDIERFHPMQSARSIIDMLENEKVYS	PGPT0023400_614	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023400-ugtP-K03429	NA	NA
AK002_05081	714	trmB	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGCGTTTACGCGGAAGAAAAGGTATACGGGAAAATCTGGAGCAGCAGGAAGACCTGGTCGTTTTGGACCCCGGTCAATATAGAGGGAAGTGGGCTTCGTTATTTGGCAACGACCTTCCGATCCATGTCGAATTCGGCATGGGCAAGGGCCAATTTATAAGCCAGATGAGTTACAAGCATCAGCAAGTGAATTTCATCGGCGTCGACATGTACGACGAGCTGATTCGCCGCGCAAGCGAGAAGGGGCGCAACGTCTGGGCCCAGGAGGGAGTCGATACCCCGCCGAATCTGAAGCTGGCGCTGTTTAATATCGAGAATGTCGAGGAGGTTTTTGAGCCCGGCGAAATTGAACGGTTATATTTGAACTTCAGCGATCCGTGGCCAAAAACAAAGCATGCACGCCGTCGTCTGACGCATCCGCGCTTTCTGGACAAGTATTCCCGGATCCTGAACGAGCGGGGGGAGATCCATTTTAAGACCGATTCGGTCACGCTCTTCGAATTCTCCCTGAATGCATTTGCCGATTATGGTCTGCAAATGACGAACATTTCGCTGGATCTGCATCGCGACGGGCTGAACGAAGAGCACGTCATGACAGAATACGAAACGAAATTCGTCGGCCAAGGCATGCAAATTCATCGCTGCGAGGCGATTGTAGGCAAGGAAGCCCTTGCTTCATACCATCAGAATCGCCTTGAAAAATACGGAAAATAA	MRLRGRKGIRENLEQQEDLVVLDPGQYRGKWASLFGNDLPIHVEFGMGKGQFISQMSYKHQQVNFIGVDMYDELIRRASEKGRNVWAQEGVDTPPNLKLALFNIENVEEVFEPGEIERLYLNFSDPWPKTKHARRRLTHPRFLDKYSRILNERGEIHFKTDSVTLFEFSLNAFADYGLQMTNISLDLHRDGLNEEHVMTEYETKFVGQGMQIHRCEAIVGKEALASYHQNRLEKYGK				NA	NA	NA	NA	NA
AK002_05082	183			hypothetical protein	ATGAATTCATCGACAGTAAAGAATGACAGTAAAGACAAAATCGCTGTGGAGCTTACCCCGAATGAAGCCCTAGCCCTTACCGGCGTGGAGTTTAACTCCGACCAGGGAGTCAAGGCTTCGGCACGTCGCAAGATTCGGGCCGCCTTTGAGAAGACGTTTGATTTTACGTCGGAAGAAAGGTAG	MNSSTVKNDSKDKIAVELTPNEALALTGVEFNSDQGVKASARRKIRAAFEKTFDFTSEER				NA	NA	NA	NA	NA
AK002_05083	1020			hypothetical protein	ATGGGTTCCCAAGGGCCTTGGCTGAACCTGTCTCAATTCAACTTAAGCGGCTATAAAGGAGCAAACATGAGCACACCACTTATACCCGCCCCGACCTTATGGGGCGACAAACGTTTTCATACATGGAATTACGAGATGCGCGGCCAGTTCCAGGAGAAGGTATTCAAGGTTATGCTGGATGCCGGCTTTACGTGTCCGAACCGTGACGGCACGATTGCCAAGGGTGGATGCACCTTTTGCAGCGCCCGCGGCTCCGGCGATTTCGCGGGAAGGCGGCGGGATGATCTCGTTACCCAGTTCAACACCATCCGTGACCGGCAGCACCAAAAATGGCCGAACGCCAAATATATCGGCTATTTCCAAGCCTATACCAACACGTATGCTCCGGTCGAAGAACTTCGCGAATATTATGAAGTCATTCTGCAGCAGCCGGGGGTCGTCGGTTTGTCGATCGCCACACGTCCCGATTGCCTGCCTGACGATGTCGTGGAATACTTGGCGGAGCTGAACGAGCGAACCTATCTGTGGGTGGAAATGGGTCTGCAAACGATCCATGATTCCACTTCCGAGCTGATCAACCGTGCCCATGATACCGAATGTTATTTGAAAGCCGTCGAGAAGCTGCGCAAACATAATATCCGGGTCTGCACACACATCATTTACGGACTTCCGCAAGAGGATCATGACATGATGCTTGCCACCGGCCGGGCGGTCTCCAAGATGGATGTGCAGGGAATCAAAATCCATCTGCTGCACCTTATGCGCAAGACGCCGATGGTGAAGCAATACGAAGCCGGGCTGCTGCGATTCCTGGAGCAGGACGAATACATCAGCCTTATCGTGGATAGCCTGGAGTTTTTACCTCCGGAAATGATCGTCCACCGCCTAACCGGAGACGCTCCCCGGGATCTCTTGATCGGACCGACGTGGAGTCTCAAAAAATGGGAAGTGCTTAACGGCATTGACGCCGAGCTCAAGCGCCGGGATACGTGGCAGGGTAAATTGTGGGGGGTATCCTGA	MGSQGPWLNLSQFNLSGYKGANMSTPLIPAPTLWGDKRFHTWNYEMRGQFQEKVFKVMLDAGFTCPNRDGTIAKGGCTFCSARGSGDFAGRRRDDLVTQFNTIRDRQHQKWPNAKYIGYFQAYTNTYAPVEELREYYEVILQQPGVVGLSIATRPDCLPDDVVEYLAELNERTYLWVEMGLQTIHDSTSELINRAHDTECYLKAVEKLRKHNIRVCTHIIYGLPQEDHDMMLATGRAVSKMDVQGIKIHLLHLMRKTPMVKQYEAGLLRFLEQDEYISLIVDSLEFLPPEMIVHRLTGDAPRDLLIGPTWSLKKWEVLNGIDAELKRRDTWQGKLWGVS				NA	NA	NA	NA	NA
AK002_05084	591			hypothetical protein	ATGGGCTTTCTCTCGGTTTTGAGTTTTGCCCACAAACTGGTGTCCGAAAGGCTCCGTCCCGGAGACATCGCGCTGGATGCAACCGCCGGAACCGGAGCCGATACGCTGTATTTAGCCAAATGCACAGGATCAAAAGGCAAAGTGTATGCCTTCGATATTCAAGAGCAGGCGCTGCAGCTGACTCGGGAAAGGCTGGACAAGGAGCCGACCGGCACCCTCGCGGAGGTTAGCCTTCTTCTTCAAAGCCATTCGCTTATGAGGGAGTACGTACCTGAGATTGAGCACGGCCGCATGGGTGCGATCATGTTCAATCTCGGCTACCTTCCGGCGGATTCATCGGATAAACGGATCATGACGGAGACCGCCAGTACGCTCACGGCCCTGGAGGCTGCAATCGAGCTGCTCCGCCCCGGGGGCATTATCACCATCGTGCTGTATCCAGGCCACAAGGGCGGCGATGCCGAGGCGGACGCGGTCCAAGCTTGGGCGGGGGAATTGCCCCAGCACAAAGTGCAAACGATTTTGTATCGCGGCCTTCAGCGTTCCGAAGCGCCATATCTCATTGCACTGGAACGAAAGAAGCCGATATGA	MGFLSVLSFAHKLVSERLRPGDIALDATAGTGADTLYLAKCTGSKGKVYAFDIQEQALQLTRERLDKEPTGTLAEVSLLLQSHSLMREYVPEIEHGRMGAIMFNLGYLPADSSDKRIMTETASTLTALEAAIELLRPGGIITIVLYPGHKGGDAEADAVQAWAGELPQHKVQTILYRGLQRSEAPYLIALERKKPI	PGPT0008955_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
AK002_05085	969	manA_2	COG1482	Mannose-6-phosphate isomerase ManA	ATGACAAAACCATATCCATTATTGTTCCAGCCTGAATTTAAAGAACGCGTGTGGGGAGGCCGGGCACTAGAGCAGTTCGGCTTGGATATTCCTGAAGGACATATCGGGGAAGGCTGGATGATCGCCGACCATCCGAACGGCACGACCAGCATCGTGAACGGCGAGCTTGCCGGACGCGGCCTGGATGAGGTCCGGGAGCAATTCGGGCGGGAATGGTTCGGAAGCAAAGGATTCTCCGAGGTTAACGGACGTTTCCCGCTCCTGATCAAGCTGCTTGACTGCAATGACAACCTCTCCGTTCAGGTCCATCCGACCGATGACTACGAAGGGCTTCCGAAGGGCGAGCTTGGCAAGACCGAAATGTGGTATGTGCTGGATGCTAAGCCGGACGCCAAAATCATCTACGGCCTGAAAGAAGGCGTGAACCGGGAAACCTTGAAGGAAGCCATGGAAAACGGCACCGTTATGGACCAGCTTCAAGAAGTGTCCGTAAAAGCCGGAGATACGTTCTACATACCTGCAGGAACCGTGCATGCGCTCTGCGCGGGCGTTGTGGTGGCGGAAATCCAGCAAAACTCGGATACGACCTACCGGATTTTCGATTATAATCGACCGGGCCTTGACGGTAAGCCGCGCGAGCTTCATATCGAAGATTCCTTGAACGTGACGGCCTATGAAGGATCGGGCGCAACCACCATGAGCACGGAAGGAACGGCGCCGGGAGAATGGCTTGAGCTTGCCAAATCCCCGTATTTCGTCGTGGAAAAAGGCGTCGTGAGCGGTGCATGGTCCTTGTCCACTTCCGCGGAAAGCTTCACGATCGTGGTTGTATGCGACGGCCAAGGAACCCTCAGCTGGGATAACGGCTCCATCGATTACACGTCAGGACAGTGCTTCCTGCTGCCTGCGAATCTGGGGGCCTATACATTGGACGGGCAATCCACGGTTCTGCGTTCATATTTGCCTTAA	MTKPYPLLFQPEFKERVWGGRALEQFGLDIPEGHIGEGWMIADHPNGTTSIVNGELAGRGLDEVREQFGREWFGSKGFSEVNGRFPLLIKLLDCNDNLSVQVHPTDDYEGLPKGELGKTEMWYVLDAKPDAKIIYGLKEGVNRETLKEAMENGTVMDQLQEVSVKAGDTFYIPAGTVHALCAGVVVAEIQQNSDTTYRIFDYNRPGLDGKPRELHIEDSLNVTAYEGSGATTMSTEGTAPGEWLELAKSPYFVVEKGVVSGAWSLSTSAESFTIVVVCDGQGTLSWDNGSIDYTSGQCFLLPANLGAYTLDGQSTVLRSYLP	PGPT0017860_2459	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
AK002_05086	966		COG2267	Monoacylglycerol lipase	ATGATGCAAACCGACACGTTTACGATGCTGAATACGCAGGGTATGCATGTTTTTGTATATGAATGGCTGCCCGGCCCGGATGATCCCGTTCGTGCCATTGTGCAAATCGCGCATGGCATGTGCGAAACCGGCAAGCGCTACGAGGAGCTTGCCGAATTGCTCACGGAGCACGGCTATGCCGTATACTGCAACGACCACCGTGGCCATGGGCTAACGGCCGGGCTTACGCATCTCGGCGATGCCGGGGAAGACGGCTTTGAAGGAATGATTGAAGACCAGCTGCTTCTTGCTGCCGAGCTCAAGAAGCGCCATGACGGCGTTCCGCATTATTTGATGGGGCACAGCATGGGATCCTTTTTGACGCAAAAAATCATCTGTTCGGACGGTGAATTATTCGACGGATTCATCCTGTCAGGCACCAACGGTCCCCAGGGACTACTGACGTTCGGCATGAGCTTGGCGGCTGCACAAATGCGCCTGCAAGGAAACACGCACCGGAGCCTGATGCTGAACGCCCTGGTGTTCGGTCCTTACAACAAAGGATTCGGTCCTATTCGCACGCCGTTCGATTGGCTATCCCGGGATGAAGCCGAAGTGGATAAGTATATCAACGACCCATACTGCGGCAAGGTGTGCACCGCTCGCTTCTTTCGCGATTTCTTCAAGCTGCTGTCACAGATCCACCAGCCTCAATTGATGAAATGTCTTCCGAAGGATAAACCTGTCTATATTTTCTCGGGCGAGGATGATCCGGTCGGACACCGCGGCAAAGGCGTGCGGCGGTTGATCGAATTGTACCGGAAGCATGGCGTTCAGGACCTCGAATACCGTTTGTATCCGGGCGGCCGCCACGAAATGCTGCACGAGACCAACCGTGCCGATGTGGCAGCCGATGTTCTCGACTGGCTCGAACGGCACACCTCCGGCTCGGACAATGTACCGCAAGAATCGATACGAGTGATGTAA	MMQTDTFTMLNTQGMHVFVYEWLPGPDDPVRAIVQIAHGMCETGKRYEELAELLTEHGYAVYCNDHRGHGLTAGLTHLGDAGEDGFEGMIEDQLLLAAELKKRHDGVPHYLMGHSMGSFLTQKIICSDGELFDGFILSGTNGPQGLLTFGMSLAAAQMRLQGNTHRSLMLNALVFGPYNKGFGPIRTPFDWLSRDEAEVDKYINDPYCGKVCTARFFRDFFKLLSQIHQPQLMKCLPKDKPVYIFSGEDDPVGHRGKGVRRLIELYRKHGVQDLEYRLYPGGRHEMLHETNRADVAADVLDWLERHTSGSDNVPQESIRVM	PGPT0023520_1015	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
AK002_05087	177			hypothetical protein	ATGAGCGACAATCGGAAGGGGCAAGAACAGCTTTCGTCTGATGAGCCGACCATCGCACCGGGCATGGAAACCAATGACGATCTGCGCGAAGAGGCTACCGAGGACGAGGTAGCGCATGGAGAGTACACCGAGGTCACGCAATTGATCATCGATCGCACGCCGAGCGATGAAGAGTAA	MSDNRKGQEQLSSDEPTIAPGMETNDDLREEATEDEVAHGEYTEVTQLIIDRTPSDEE				NA	NA	NA	NA	NA
AK002_05088	1773			hypothetical protein	ATGAAAGTCATACTATCAACCTTGAATGCCAAGTACATTCACACCTCCTTGGCCATTCGCTGCCTGAAGGCATACAGCGAGAAGGATTTCGATATCGAACTGACGGAGTACACGATCAAGGATCCCGTGATGAATATCGTCTCCGACCTGTTCCAGCGCAAGCCGGATGTGATCGGATTCTCCTGTTATATATGGAATATCGAAGAAACGATTAAAGTGATCGATATCGTGAAGAAGATTATGCCGGAGGTCACGATCATACTGGGTGGACCTGAAGTATCCTACGATACGGAGTATTGGATGAAACGGCTGCACAATGTCGACTTTATCGTTATGGGTGAAGGCGAGGAGACCTTCCACCATTTGCTGCAAACGATTGAAGGGGACCGGAAGTATCATTTCGTTTATGGCGTGGCTTACCGCAAGCAGGACGAAATTATCGTGAACCCGGGAAGACCGAAAAGCATCCTGGCCGAGCTGCCTTCCCCGCATCGTTTTCCGGAGGATATCCCGCACCTCGGGAAGCGGGTTGTCTATTTTGAGACCAGCCGGGGCTGTCCCTTCAGCTGCCAGTTCTGCCTGTCGAGCATCGAGGTGGGGGTTCGTTATTACGACATTGAACGGACCAAGACGGACATTCTCTACCTGATCGAGAACGGGGCCAAATTGATCAAATTCGTGGATCGGACCTTTAATATTAAGCGGGATTATGCGCTTGAAATGTTCGAATTTCTGATCGAGAACCATGGCGGCTGCGTATTCCAGTTTGAGATCACGGCGGATATCATGCGTCCGGAGGTGCTGGATTATTTGGCAAACCATGCGCCTCCCGGCATTTTCCGCTTTGAAATCGGCGTGCAGTCCACGAATGATCCGACCAACGAGTTGGTGAAGCGCCGCCAGAATTTCACCAAGCTGTCACGCACGGTGACGATGATCAAGGACAGCCGCAAGATCGACCAGCATTTGGATTTGATCGCAGGGCTTCCGGAGGAGGATTACAATACGTTCCGCAAAACGTTTAACGACGTGTTTGCCCTTGGACCGGAGGAGCTGCAGCTGGGCTTCCTGAAGATGCTCCGGGGAACCGGGCTGCGGATCGATGCGGACAAGTATAACTACACTTACATGGACCACGCTCCATATGAAATTCTGGGCAGCGACGTGCTTCCTTTCTCGGATATCGTCCGGTTGAAGAGGCTGGAGGACGTGCTGGAGAAGTATTGGAACGCCCATCGGATGGACCATACCCTGAATTATTTGATGAAGCATGAATTTTCGTCGCCGTTCGATTTCTTCCAGGAGTTCGGCGACTACTGGGAAGGACAGGGCTGGCAAAAAATCGGCCATCAGCTCGAGGACCTGTTTACGCGTTTAACGGCCTTCCTGGAGTTTCGGAACACGCCGAACATGAACGTGGTCTCCGGTCTGATGAAGTTTGATTATTTCCTGGGTCATAAATACAAACCGCGCAAAATATGGTGGGAACATGCCCAAGACAAAGCGCAGTGGAACGCCAATGTTCGTAAAATCGTGGAAGACCCCGCGGCACTGTCCGCCGATTTCGCCGATCTTGGGATCACGGAGCGCGATCTTCAGAAGCATGCGATGATCGAGGTGCTGCCATTCAACCTCGACGATGCCATTCAAGGAGGTACGGGCTATCCGGACCATGCGGTGCACGCCACGATGCTGCTGGTATTGTACCAGCAGAACGAAACAGGGCAGCCCCAGTACTACACGATGCCTTTGGAGTTAGCAACGCAGGCATAA	MKVILSTLNAKYIHTSLAIRCLKAYSEKDFDIELTEYTIKDPVMNIVSDLFQRKPDVIGFSCYIWNIEETIKVIDIVKKIMPEVTIILGGPEVSYDTEYWMKRLHNVDFIVMGEGEETFHHLLQTIEGDRKYHFVYGVAYRKQDEIIVNPGRPKSILAELPSPHRFPEDIPHLGKRVVYFETSRGCPFSCQFCLSSIEVGVRYYDIERTKTDILYLIENGAKLIKFVDRTFNIKRDYALEMFEFLIENHGGCVFQFEITADIMRPEVLDYLANHAPPGIFRFEIGVQSTNDPTNELVKRRQNFTKLSRTVTMIKDSRKIDQHLDLIAGLPEEDYNTFRKTFNDVFALGPEELQLGFLKMLRGTGLRIDADKYNYTYMDHAPYEILGSDVLPFSDIVRLKRLEDVLEKYWNAHRMDHTLNYLMKHEFSSPFDFFQEFGDYWEGQGWQKIGHQLEDLFTRLTAFLEFRNTPNMNVVSGLMKFDYFLGHKYKPRKIWWEHAQDKAQWNANVRKIVEDPAALSADFADLGITERDLQKHAMIEVLPFNLDDAIQGGTGYPDHAVHATMLLVLYQQNETGQPQYYTMPLELATQA				NA	NA	NA	NA	NA
AK002_05089	1884	recQ	COG0514	ATP-dependent DNA helicase RecQ	ATGAATGTGGAAACAAATGATAGAGAATCGATGAATATGGACACAGCGCGGGAATACCTGCAAAAATATTACGGCTATCCCGATTTTCGGGACGGACAGAAGAAAATCGTCGCGAGCCTGCTAACCGGCCAGGATACGCTCGGGATTATGCCGACGGGCGGGGGCAAATCCATCTGTTATCAGATCCCGGCACTCCTCAGCCCGGGCCTGACGTTGGTCGTATCGCCTCTGATCTCCCTGATGAAGGATCAGGTGGACGCACTTACGACGGCGGGCGTGGCGGCGGCTTATATCAACAGCACGCTCAGCGGCAAGGAAGTGAACGAGCGCATACGCGCGGCCAAGCGCGGCGACTTGAAGCTGTTATATGTCGCCCCGGAACGGCTTGAGCTGGATTGGTTCCGTGAGGAGATGGCAGGCCTCGACATTTCGATCGTTGCTGTCGACGAAGCGCACTGCGTATCCCAGTGGGGTCATGATTTTCGGACAAGCTATCTCTCCGTGGCTCCTTTCGTAAAAGGGCTGCCGAACCGCCCGATTGTCGCGGCCTTTACGGCGACGGCTACGCCGGAGGTTATGGAGGACATGCAGCGCCTGCTTCGACTGGAGCAGCCGCAGGTGTTCGTGACGGGACTTGGGCGCGACAATCTGGAAATGTCGGTGCTTCGCGGCGAGAACAAGCGGGAGTTCGTGCTGGATTATGCGGCTTCGCATACCCACCAGCCGGGTATCATCTATGCTGCCACCCGGAAAGAGGTGGATGATTTATGCCAGCGCCTGCAGGCGAAGGGGCTACTTGCCGGACGTTATCATGCCGGCATGAGCGATGCGGAGCGAGCGGACAGCCAGGAGGCCTTCCTGTATGACGATAGTCGCGTCATTGTCGCAACGAACGCGTTCGGCATGGGGATCGATAAATCCAACGTTCGGTACGTCATCCACTACAATATGCCGAAAAATATGGAGTCTTACGTCCAGGAAGCCGGCCGCGCCGGGCGGGACGGAGAGCCCAGCCAGTGCATCCTGCTGTTCAGCGCCCAGGATATCATGACGCAGAAATTTCTGATCGAACAGAACCCCCAGGAGGGCGAGCGGAAGCAGAACGACTACCGAAAGCTGCAGCAGATGATCGATTACTGTTACACCACAAGGTGCCTGCGCAGCGCAATGCTGGATTATTTCGGGGAAGAACACGAAGACAAGCCCTGCGGTACGTGCAGCTCCTGCACGGACGACCGGGAGCTGGTGGATATCACGGTGGATGCGCAGAAAATCTTCTCCTGCATTCATCGGATGCGCGAGCGCTTTGGCGTGTCGATGATCGCCTCCGTGCTGAAGGGCTCGCGGGCGAAAAAGGTGCTGGAATACGGCTTTGACCGGCTTCCAACCTATGGCGTCATGTCGAACCGAACGGAGAAGGAAATATCCGAGACGATCAATGTGCTCATCTCGGAAGGGTTCCTGGCGCTGACCGAAGGCCAATATCCCGTCGTGAAACTTCAGAGCGAGGCGGCCGACGTGTTAAAGGGCCAGCGCGAAGTGATGCAGCGCGTTCCGCGGCCTTCCAAGGCTGCAGGCAGCCAGCGCAGCGGCAGCCGCCGCGACTACTCGCCGTCAGCCGTTAACGAGACGGTGTTCGAGCAGCTGCGCTTAATTCGGCGCGAACTGGCAAGCAAGGAGCATGTGCCGTCCTACATCATTTTTAACGATGCAACGCTGCGCGAGATGAGCGTGGTCTGCCCGCAAAGCGAGGATGAGATGCTGAACGTCAAAGGGGTCGGCGAAGTGAAATTCCGTAAATACGGACGTCCGTTCCTTGAGTTTTTCCTGAATGGTCAGGGCGCGTCGAATGACGGTGACGATTTGTATGATTATGAAGAATAG	MNVETNDRESMNMDTAREYLQKYYGYPDFRDGQKKIVASLLTGQDTLGIMPTGGGKSICYQIPALLSPGLTLVVSPLISLMKDQVDALTTAGVAAAYINSTLSGKEVNERIRAAKRGDLKLLYVAPERLELDWFREEMAGLDISIVAVDEAHCVSQWGHDFRTSYLSVAPFVKGLPNRPIVAAFTATATPEVMEDMQRLLRLEQPQVFVTGLGRDNLEMSVLRGENKREFVLDYAASHTHQPGIIYAATRKEVDDLCQRLQAKGLLAGRYHAGMSDAERADSQEAFLYDDSRVIVATNAFGMGIDKSNVRYVIHYNMPKNMESYVQEAGRAGRDGEPSQCILLFSAQDIMTQKFLIEQNPQEGERKQNDYRKLQQMIDYCYTTRCLRSAMLDYFGEEHEDKPCGTCSSCTDDRELVDITVDAQKIFSCIHRMRERFGVSMIASVLKGSRAKKVLEYGFDRLPTYGVMSNRTEKEISETINVLISEGFLALTEGQYPVVKLQSEAADVLKGQREVMQRVPRPSKAAGSQRSGSRRDYSPSAVNETVFEQLRLIRRELASKEHVPSYIIFNDATLREMSVVCPQSEDEMLNVKGVGEVKFRKYGRPFLEFFLNGQGASNDGDDLYDYEE				NA	NA	NA	NA	NA
AK002_05090	786			hypothetical protein	ATGAACGATGAACATGCCGAAGCCGTGCGGCAAACCATTCAATATATGAAGGAGCATCTGGACGAGCCGATGACAACCGAGCTGCTCGCCGATCTCGCGGGGTACAGCCCCTACCATTTCTCCAGGATATTCAAGCGGGTAACCGGCATTTCCGTCAGGCAGTACCTGTCCGCCCTCCGGGTCGAATCGGGCAAAACCGAGCTCCTTCAAAGCCCCTCCCTGCTTGTGAAAATCGGAATGAACATCGGTTTGGCAAGTCCCGGCACATTCAATACCCGCTTTAAGCAGTTTGTCGGCCTGTCTCCAAAAAAGTTCCGCACCACCACGGAGTCCCTGCATCGTTACGTGAATCAATATGAGCACAAGCCATTAACCTGGACAGATGAAGAAGGGCATGCTCTGCCCCGGATTCATTGCCGGATCGAAGCTCCCGAGAGGTTTCGCGGCATGATTTACGTCGGTCTGTTTCCAAGACCCGTGCCCGATCAGAAGCCCGTAACCGGTACGGCCGTCAACCTCAAGAACCGGACCTGCACGTTAACCGGCATCCCGGCCGGTACGTATTATGTGCTGGCAGCGGGCATCCCCTGGAGCCTCAATCCGCGGGATTATTTTCTGCTGAGCAAATCCTTGCGAGGCAAGATGGAGGAGCCTGTCCATATCGACGAAGGAACCGATCTCGCCGTGAAGATTACCTTGCGCGAGCCTCTGCCCTATGACCCGCCGATTGTTGTAAATCTGCCTCTGCTCTTGTTTGAGAAGGATCGGAACAACAGCGCAAAGTAG	MNDEHAEAVRQTIQYMKEHLDEPMTTELLADLAGYSPYHFSRIFKRVTGISVRQYLSALRVESGKTELLQSPSLLVKIGMNIGLASPGTFNTRFKQFVGLSPKKFRTTTESLHRYVNQYEHKPLTWTDEEGHALPRIHCRIEAPERFRGMIYVGLFPRPVPDQKPVTGTAVNLKNRTCTLTGIPAGTYYVLAAGIPWSLNPRDYFLLSKSLRGKMEEPVHIDEGTDLAVKITLREPLPYDPPIVVNLPLLLFEKDRNNSAK				NA	NA	NA	NA	NA
AK002_05091	459			hypothetical protein	ATGACCATTATTCAAGAAACCGTGATTCAGGCCGATGTGCAGCTCCTGTGGCGAGCATGGACCGAGTCCGCAAGGATAACCGAGTGGTTTGCGCCGGCTGCGGAAATCGAGCCGAGAGCGGGCGGAAAATTCGAGCTGTATTTTAACCCGGCCGATCGAGAATCGATGTGCACCGCCGGGTGTACCATTTTGCAGTATGACGAGCCACGCGTGCTTGTTTTTGAGTGGAAAGGTCCCGATCCCTTCGCGGAAACGATGAATCAAGGCGAGCTGACGGCGGTTAAGGTTGCCTTTTTCCCTGAGGCGGACGACACGAGAATTACCCTGGAGCATACAGGCTGGAAGGATTCCGAAGCGTCCCGGCAAGCCCGGGAGTGGCATATCGATGCGTGGAAGGGGATGCTGGCCAGCTTGAAATCTAATATCGAATCCGGGAACGGGATTCTGTGCTGCAAGTAA	MTIIQETVIQADVQLLWRAWTESARITEWFAPAAEIEPRAGGKFELYFNPADRESMCTAGCTILQYDEPRVLVFEWKGPDPFAETMNQGELTAVKVAFFPEADDTRITLEHTGWKDSEASRQAREWHIDAWKGMLASLKSNIESGNGILCCK				NA	NA	NA	NA	NA
AK002_05092	363			hypothetical protein	ATGCCGAACCTATGCGTTCTATCGATCAATGTAAGCGATATACAGCAAGCCAAACAGTTTTACTGCGATGTTCTGGGTTTCGAAATCTCGAGGGTTTATGATGACCAGATCGTCAGCTTGAAGCATGAGGGCATGTCCCTCGTTCTGCAGAAATGCGACCGTCCAACGGATACGGAATACCCGCATGAGGCACAGGTGATCATCGGAATCGAGACCCCGGATGTAAACGAAGCCATTGCGAACTACAAATCGAAGGGCGTCGACGTCATCTTCGATACGCCCAAGCCTTGCCCTCCCGGGCTGTACAGCGCCATCCGCGACCCGTTTGGCAATGTGATCGAGCTGCTGGAATTTACGGAGTAA	MPNLCVLSINVSDIQQAKQFYCDVLGFEISRVYDDQIVSLKHEGMSLVLQKCDRPTDTEYPHEAQVIIGIETPDVNEAIANYKSKGVDVIFDTPKPCPPGLYSAIRDPFGNVIELLEFTE	PGPT0013300_6094	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
AK002_05093	288			hypothetical protein	ATGCCAGAGGGGAAGCAGCGGCGGCTCCCCAACTCCAAAAAGGCCAACCGGATTTCTCCGGCTGGCCTTATCTATCAGAACGACACCTGCTGCATGCAGCTTATCCCTCTGGCGTTTATATGGATTCACTTCGTATGCTTGAACATTGATGCTGCCGAACGGATGGATTACTCCGTAAATTCCAGCAGCTCGATCACATTGCCAAACGGGTCGCGGATGGCGCTGTACAGCCCGGGAGGGCAAGGCTTGGGCGTATCGAAGATGACGTCGACGCCCTTCGATTTGTAG	MPEGKQRRLPNSKKANRISPAGLIYQNDTCCMQLIPLAFIWIHFVCLNIDAAERMDYSVNSSSSITLPNGSRMALYSPGGQGLGVSKMTSTPFDL				NA	NA	NA	NA	NA
AK002_05094	816	speD	COG1586	S-adenosylmethionine decarboxylase proenzyme	ATGGATATGACACCAGAACAACGCGTGACCCTGCATGGGTTCAACAACTTAACGAAATCGCTCAGCTTTAATATGTATGACGTCTGCTATACGAAGACCCGGGAGGAACGGGAAGCGTACCTTGAATATATTGATGAGCAGTATAACGCGGATCGGCTGACGAAAATATTGAGCCATGTGGCCGAAATCATCGGCGCGCATGTCCTGAACATTGCCAAGCAGGATTATATTCCGCAGGGCGCCAGCGTGACGGTGCTAGTCTCCGAGGGCCCCGTCGTGGAGGTGCCGGAGGAATCTTATGACGAATCGCCGGGGCCGCTGCCGGATAACGTGGTGCTCCAGCTCGACAAGAGCCATATTACCGTCCATACGTATCCCGAATTCCATCCGGACGAGGGCATCAGCACTTTCCGGGCCGATATCGACGTGTCGACCTGCGGGGAAATCTCACCGCTCAAAGCCCTGAACTACCTGATCCACTCCTTCGATACAGATATTATGACGATAGACTATAAAATCCGGGGATTCACGAGGGATATTCACGGACACAAGCTGTTTATCGACCATGAGATCAGCTCCATCCAGAACTATATTCCGGACGAAGCCAAGGAGCTGTTCGATATGATCGACGTCAACGTATACCAGGAGAACATCTTTCATACCAAGTGCAAGCTGAAGCAGTTCGATCTGGACAACTATCTGTTCGGTTACACGAAGGATAAGCTGTCCGAGGCCGAGCAGCAGGAAATCACCGAACGCATCAAACTGGAGATGGACGAGATTTATTACGGCAAGAACATGGACCGGAGTTACTGA	MDMTPEQRVTLHGFNNLTKSLSFNMYDVCYTKTREEREAYLEYIDEQYNADRLTKILSHVAEIIGAHVLNIAKQDYIPQGASVTVLVSEGPVVEVPEESYDESPGPLPDNVVLQLDKSHITVHTYPEFHPDEGISTFRADIDVSTCGEISPLKALNYLIHSFDTDIMTIDYKIRGFTRDIHGHKLFIDHEISSIQNYIPDEAKELFDMIDVNVYQENIFHTKCKLKQFDLDNYLFGYTKDKLSEAEQQEITERIKLEMDEIYYGKNMDRSY	PGPT0007760_1029	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-OXIDATIVE_STRESS_SIGNALLING,PGPT0007760-speD-K01611	NA	NA
AK002_05095	2577			hypothetical protein	ATGAAGAATCTTAGTAGACTCAGCTTGCATCGCAAGCTGTTGGCAGCGGCTCTTACGCTCCCCATGATCATCACGGGGAGCATCGAGTCGTTAGCGGCGCCCTCGCATCAAGCGGCAAGCGGCACGCAGCAAGTTGCCACTAAAACCAGCCGGATTCAGCTGGAGTATTTGGATAGGGGGATCGTATCGGCCCCCACTTCAGAGGGCAACTTTCTGAGCTGGCGATTGCTTGCCGGAGAAGTAACCGGATATGGCGACACGGGGCTTACCGGTCCAACCTTTCATGTCTATCGGGACGGCACCCGGATTGCCATCGTCGAGAACAGCACCAATTACCTGGACCGATCCGGCACGTCATCGTCCTCCTATTACGTATCTGCCGTCGTGAATGGAAAAGAGGTCGACCAGAGCCCCACCTCCACTCCCTGGTCCTCCCCCTATTACGATCTGAAGCTAAACAAGCCGGATGGCGGAGTCACCCCGGCCGGGGAGCCTTATACTTACTCTGCCAATGACGCCAGCGTCGGCGATGTGGACGGCGACGGGCGGTACGAGCTTTTTGTCAAATGGGACCCTTCCAACTCCAAGGACGTTTCCCAAATCGGGTATACCGGCAACACGTACATTGACTGTTATACACTGGAGGGCATCCTGCTGTACCGGATCGACCTCGGCGTCAACATCCGTTCGGGCGCCCACTATACGCAGTTCATGGTGTATGACTTTGACGGGGACGGCAAAGCGGAAATGATGCTCAAAACGGCACCGGGCACCAAGATTCTTCGCTATGATCCTGCCGGCAACATGATCTCCCAGAGATACATCACGCTGCTGCCCGAGGATATGAAGGCCGGATATTCCAATCAGGACGATTACCGGCTGAGCAAAACCGGCTACTACGAGCACATGGTAAACCTCTTCATGAACTGGCATCAGCATGAAGAGGTCGTAAGCGGCCGCTGGCCGGCCACGCTCGAAGAAAGCTTCGGCATCGATAAGAAGTACCATTATCCGTTATCCCGTACCGATGCCGAAAGCCTGGTCGATCACTTCATGGACACCTATGCGCCGCAGCGAAGCGCCCGCAACAATCTCCGGGCGTTCGAAGGGTTCATCTTGGATGGTCCGGAATATCTCAGCGTATTTGAAGGCGCGTCCGGCAAAGAGCTCGAGACGATCCGGTATAAACCCGGCAGGCATGACGACGGTCTCATGTGGGGTGATTACGCCATGGCCCGGATCGAACCCGGCAATCGCGTGGATCGCTTCCTTGCCGCCGTTGCTTACCTTGACGGGGAACAACCCTATGCCGTATTCGCCCGCGGTTATTACACCCGATCCACACTCGTATCCTACAAGTGGGATGGCCGGCACTTAAGCGAGCATTGGGTTGTGGACAGCGGCTGGACCCCGATGACCAATCCGTTTAACGACAGTCCGCATGGCCGGGACGGGACCGATGCGGCATTCGGTACGTTAACGACGCAAGGGGCCCACTCGTTAAGCGCGGCTGACGTCGACGGCGAGGGCAAACAGGAAATCGTCTACGGTTCGGCAACGATTGACCATGACGGCACGCTGCTGTACAGCTCCATGGATGTGCTCCCTCCTCAAAGCGCGGATCCTGGAGCGATGGCCCGCCTTGGTCATGGGGACGCCATGCACGTCACCGACATCGATCCGGATCGGCCGGGTCTTGAGATCTTCATGGTTCATGAAGGCGGTGCCTACGCCCCTTACGGCTATTCCCTCCGTGATGCGGCAACAGGCGGGCTCCTCTACGGCGGCTATACCGGAAAAGACACCGGACGCGGCATGATCGGCGATATCGATCCCGATCAGCGGGGACTCGAAACATGGGCCGTCGGCACGTGGTCTGCAAATGGAGAACAGCTCTCTACGGCCATGCCGGGCACGAACATGAACATCAAATGGTCTGCGGATATGACCACCCAGATCGTGAATGGTAACTTGGATCAGACGCCGTTCATCGAAAGCTGGCGCAACGGGACGCTGCTAACTGCAGAAGGCACGCGCACCAATAACGGGACGAAGGGAAGTCCTGCCCTCGTCGCCGATCTTTTCGGGGATTGGAGAGAGGAACTGGTGGTCCGGACCGCGGACAGCTCGGCCCTCCGGATTTACCTGAGCACCGAGGTCACCGACCGTAAGCTCTATACGCTCATGCATGATCCGCAGTATCGGGTCGAGGTTGCCAGACAAAATACAACGTATAACCAGCCCTCTTACACCAGCTTTTATTTTGCATCCGATACGGATTTCTCGGAGGTTCCTATCCCCGTCTATCAATCCCCGGGCATGCTGAACGTGCTGGATCAACTGGTGAGCGAGTATGCCCGCGCAGGGGAACTGGCTAACCCGCTGCTGTCCCGGTTGAGCAATGCCTTGAAACAGGCAGAGCATCACATGAGCAAGGGCTCCAGGGAACAAGCGCTCAAATTTTTAAATACATTCGTTTCTCAGCTGGAGGAGCATAAGAAACCCGGTGCGATATCGGATAGAGCCCGGATGAACTTGTCTTATCAGGTATGGACGCTCATCAGCATGTGGAAATAG	MKNLSRLSLHRKLLAAALTLPMIITGSIESLAAPSHQAASGTQQVATKTSRIQLEYLDRGIVSAPTSEGNFLSWRLLAGEVTGYGDTGLTGPTFHVYRDGTRIAIVENSTNYLDRSGTSSSSYYVSAVVNGKEVDQSPTSTPWSSPYYDLKLNKPDGGVTPAGEPYTYSANDASVGDVDGDGRYELFVKWDPSNSKDVSQIGYTGNTYIDCYTLEGILLYRIDLGVNIRSGAHYTQFMVYDFDGDGKAEMMLKTAPGTKILRYDPAGNMISQRYITLLPEDMKAGYSNQDDYRLSKTGYYEHMVNLFMNWHQHEEVVSGRWPATLEESFGIDKKYHYPLSRTDAESLVDHFMDTYAPQRSARNNLRAFEGFILDGPEYLSVFEGASGKELETIRYKPGRHDDGLMWGDYAMARIEPGNRVDRFLAAVAYLDGEQPYAVFARGYYTRSTLVSYKWDGRHLSEHWVVDSGWTPMTNPFNDSPHGRDGTDAAFGTLTTQGAHSLSAADVDGEGKQEIVYGSATIDHDGTLLYSSMDVLPPQSADPGAMARLGHGDAMHVTDIDPDRPGLEIFMVHEGGAYAPYGYSLRDAATGGLLYGGYTGKDTGRGMIGDIDPDQRGLETWAVGTWSANGEQLSTAMPGTNMNIKWSADMTTQIVNGNLDQTPFIESWRNGTLLTAEGTRTNNGTKGSPALVADLFGDWREELVVRTADSSALRIYLSTEVTDRKLYTLMHDPQYRVEVARQNTTYNQPSYTSFYFASDTDFSEVPIPVYQSPGMLNVLDQLVSEYARAGELANPLLSRLSNALKQAEHHMSKGSREQALKFLNTFVSQLEEHKKPGAISDRARMNLSYQVWTLISMWK	PGPT0018715_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_POLYSACCHARIDE_DEGRADING_FUNCTIONS	PLANT_MEMBRANE_RHAMNOGALACTURONAN_ENDOLYASE,PGPT0018715-yesW-K18197	NA	NA
AK002_05096	807	gloB_2		Hydroxyacylglutathione hydrolase	ATGGACAATAATCAATATACCATCGTGATCGATGATGCGTGGTTTACGGTATCGCAGCTGGATGAGGGCACGGTTGCCATCAGTGAGTACGGGCATTGGGAGAAGGTGCATTCGTTTCTGTTGATAGGGGACGAGCGTGCCGCATTGATCGATACGGGCCTTGGCATCGACGACATGAGGAGGATGACCGATCAGCTGACGGATTTGCCTATCATGGTACTGACCACGCATGTTCACGCAGATCATATCGGCAGTCACCGGCAGTACGGGGAGATTTACGTGCATGAGGCCGAAGAGGATTGGCTGGTCAGCGGCATTAAAAAGCTTTCGATTGAGCAAATCCGCAAGGATATATCGCGCGATATTACGAGACCCGTACCGGCTTCCTTCGATCCGGCAGCGTACACCCCTTATCGGGGGCGGCCGACCGGTCTGCTTCGGGATGGGGACGTTATCGAGCTTGGCGGGCGAAGCCTGGTCATCTACCATACGCCGGGCCATTCGCCCGGACATATTGCAATATTTGAACCCGACCGCGGGTACTTGTTCACTGGCGATTTGCTGTATGATGAGACGCCGGTATATGCCTTCTACCCGACGACAAGTCCCGGAGATCTCGTTAACTCGCTGGAGCGGATCGCGAATATCGAAGGCGTAAATCGGATCTTCGGTTCTCATAATACGCTTGGACTGGACCCGGCATGGCTGGACGTGGTAAAAGAAGCCGTGCAGGAGCTCCGGGAAAAAGACCTTGTCCGATTTGGAACGGGCATTCACCGGTTCAACGGATTTTCGGTTCAATTCTAA	MDNNQYTIVIDDAWFTVSQLDEGTVAISEYGHWEKVHSFLLIGDERAALIDTGLGIDDMRRMTDQLTDLPIMVLTTHVHADHIGSHRQYGEIYVHEAEEDWLVSGIKKLSIEQIRKDISRDITRPVPASFDPAAYTPYRGRPTGLLRDGDVIELGGRSLVIYHTPGHSPGHIAIFEPDRGYLFTGDLLYDETPVYAFYPTTSPGDLVNSLERIANIEGVNRIFGSHNTLGLDPAWLDVVKEAVQELREKDLVRFGTGIHRFNGFSVQF				NA	NA	NA	NA	NA
AK002_05097	606			hypothetical protein	ATGACTGGTGTCTATAAAATTCAGACCCATGAGCAGCTCAAAGCGATTGCGGATCCTCTCCGCACCAAAATGCTGATGAATCTGGTGAAGGATGCCTACACCGGTCAGCAGCTGGCCGAAATGCTCGGCATCACGCGGAACAATATTTACTTTCATCTCAAGGAGCTGGAGAAGCATGGCATCATCCATGTGGTCAGGAAGGAAGAGAAGAACGGTATCGTGCAGAAATACTATCGCGCCGTTGCAAGCCGCTTCATTCCGGAGGATCATTTGCTGCCAAGCCTGGATTTGGTGGAAACCTCAAGACAGGTATTCATGGAGACGCTTGATGTAACGCGGGCCAAAATCGAGACCGCCCCGGCTTCTTCTTTTGCATTGGACAGTACGAGTGAGCACCACAGGAAAAATCTTGCGGGAACCTACCGCTTTCGTGCAACGCAGGAAAGCTTCCATGCTTTTGTGGAAGAATTCAAGGGGCTTCTGGATAAACACTTCAAGATGGAAGGGGCCGAATCCGGCAGAAGCTCGCTTTCCGAGGAGGAGAAGAGCTATTATATGTCGTTGATAGCATTCCAAGATGATCATGAGAATATCACCATTCGATAA	MTGVYKIQTHEQLKAIADPLRTKMLMNLVKDAYTGQQLAEMLGITRNNIYFHLKELEKHGIIHVVRKEEKNGIVQKYYRAVASRFIPEDHLLPSLDLVETSRQVFMETLDVTRAKIETAPASSFALDSTSEHHRKNLAGTYRFRATQESFHAFVEEFKGLLDKHFKMEGAESGRSSLSEEEKSYYMSLIAFQDDHENITIR				NA	NA	NA	NA	NA
AK002_05098	516			hypothetical protein	ATGTTTGACCCGACTATATTCGAAAATTTAAAGGTTGGCATCGAGAATACGGTTTATGACCTCGACAATCTCGATGAAATCATCCGCGTTACCGATCGGAAGGACCTCCTGGATATGGCGACCTTGTCCAGAAGTTTTAGCCTCCGGTTTGAGCTGGTTCAGCAATCCGAGGCTTCAGCCGAAATTTGCCTGGAGACCGGGCTGCGGGATTTGGCCGCCGAGATTTTGGAAATTCCGGAAGAACAGCCGGGCTGCGAGTTGAAGCTCCGCTTTCATAAAAACATTGCCGATCCTGCCTACTCGTGCCCGGTTATCGCGCAGATGATTAAAGAGATATGGAACCCCGAGCTCCCGCCGGTGCAAACGATACGCTACGCCTACGGCAACGATACGGTCCCCATCCATAACGCGATCGAGCTTCGCTTTCCCCGCAAAATCAACGAAGAGCAGATGGGAGACATTCCGAATATCACAGAGTTCATGCTCCGTACGCTGGTTGAATTAAACCGGATCTAG	MFDPTIFENLKVGIENTVYDLDNLDEIIRVTDRKDLLDMATLSRSFSLRFELVQQSEASAEICLETGLRDLAAEILEIPEEQPGCELKLRFHKNIADPAYSCPVIAQMIKEIWNPELPPVQTIRYAYGNDTVPIHNAIELRFPRKINEEQMGDIPNITEFMLRTLVELNRI				NA	NA	NA	NA	NA
AK002_05099	855	catE	COG2514	Catechol-2,3-dioxygenase	ATGACAGCCATTATACATCCATCCACAAAGCTCGGACCCGTATCTCTTCGGATTAGCAATTTGGCACAATCGGTACGCTTTTACACGGAAGTCGTTGGATTAAAAATGCTGCGCCAGCATGGCCGGGTGGCCGAATTGACGGCTGACGGCAAGCAGCCGCTGCTGATCATTGAGGAGGTTTCGGACCTGATAAGACCGCAGACCCGGACGGCAGGGCTGTACCACTTTGCGATCCTGGTACCGGATCGGGAATCGCTAGGGCTCGCGCTTGCCAATCTGATCGCTCATAACATGCCGGTCGGCCAAGGCGATCATCTGGTCAGCGAAGCGCTGTACATTAATGATCCGGACGGAAACGGCATTGAGATTTATGCCGACCGGCCACGGGATACCTGGAAGCGCGATGCCAAAGGGGAATATGTGATGGCCACCGACCCGGTCGATGTTGAAGGACTGCTGGCTCTCTCCAAAGAGAAGGAATGGCTTGGACTTCCGGAAGGGACCGTCATCGGGCACGTGCATTTCCATGTGTCCAACCTGCAGGATGCCCGTGCATTCTATTGCGATGTGCTGGGTTTTGAACTGACCGCCCATTATGGGGGAGCAGCGTTGTTTATATCCGCAGGAGGATACCATCACCATATCGGGCTCAATGTTTGGGCGGGAATCGGTGTACCGAATACGCCGCCGAACGCTGCGGGAATGGAGAATTATACGATCGAGCTTCCGAGCCATGAGGCGCTTGAGGCGGTAACCGGCCGTATTCGCGAAGCGGGGCTGCACCTGGAACAGCGAGACGGCGTCTGGGCCGTTCAAGATCCTTCGGACATCTGGATCCGGTTGGTTGTTGCTTAA	MTAIIHPSTKLGPVSLRISNLAQSVRFYTEVVGLKMLRQHGRVAELTADGKQPLLIIEEVSDLIRPQTRTAGLYHFAILVPDRESLGLALANLIAHNMPVGQGDHLVSEALYINDPDGNGIEIYADRPRDTWKRDAKGEYVMATDPVDVEGLLALSKEKEWLGLPEGTVIGHVHFHVSNLQDARAFYCDVLGFELTAHYGGAALFISAGGYHHHIGLNVWAGIGVPNTPPNAAGMENYTIELPSHEALEAVTGRIREAGLHLEQRDGVWAVQDPSDIWIRLVVA	PGPT0005050_587	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL_RESISTANCE,PGPT0005050-catE-K07104	NA	NA
AK002_05100	444	ywnA	COG1959	Putative HTH-type transcriptional regulator YwnA	ATGAACATAAGCAGCCGATTTGCAGTGGCCATTCATATTCTTTCCGTGCTGGAGATGAATAAGGCTGGCGTCAGCACTTCAGATTATATTGCGGAGAGTGTGAACACGAATCCGGTGGTCATCCGGCGGATTGTCGGCATGCTCAGCAAAGCGGGCCTGGTCGAGGTGAAACCCGGCGTAGCGGGAGCGAAGCTGGCTAAGCCTCCGTCCGGGATTACGCTCCTGGATATTTATCATGCCGTTCATGTCGTGCAGGAGGGTTCGCTGTTTGGTATTCACGAGAATTCGGACACGAAATGTCCTGTTGGCAAACATATTCAAACGGCGATCGTTCCGGTGTTCTCGGCCGCTCAGAAGGCAATGGAGGATACGCTGCATGAGGTGAATTTGGAGCAAATCGTCCTGAAAATCCATGCGTCTGCAAACGGAACATCCAGTGAATAG	MNISSRFAVAIHILSVLEMNKAGVSTSDYIAESVNTNPVVIRRIVGMLSKAGLVEVKPGVAGAKLAKPPSGITLLDIYHAVHVVQEGSLFGIHENSDTKCPVGKHIQTAIVPVFSAAQKAMEDTLHEVNLEQIVLKIHASANGTSSE				NA	NA	NA	NA	NA
AK002_05101	165			hypothetical protein	ATGAGCAGACCGCGTGACCGAGACGTGGAGATCGAGACCCGTAATATCGAGGAGCGTAACGACTCCAGCAGGGTAGCTTCTACGTTGATCAAGTATGTTGCTTATCTGATCATCTTTTTTGGTTTCTTGTACTTCCTGATCAAATACGTATTCCCAATGTTCTAA	MSRPRDRDVEIETRNIEERNDSSRVASTLIKYVAYLIIFFGFLYFLIKYVFPMF				NA	NA	NA	NA	NA
AK002_05102	924			hypothetical protein	ATGATCTCTTCTTTCTTGGCTACGATTTACAGCGTATTCCTTCCGATATCGCTGCCCGTCATCGGCGGAGCGCTGCTTAAGCGATTTAAAGGAATTGAAACCAAGGGGCTCTCGGCCCTGTCTTTATATGTGCTGAGCCCGGCACTGATCTTCGAGACGCTGGAAAAGGCTTCGATCACCTCGAACGAGGTGACGGTGACGGTTGCCTTTTGCCTGTTGAACGTGATCATCCTCTGGGCGCTCAGCGCCTTTGCAGGTAAAATGCTCGGCTTGTCCCAGACGGAGAAATCGGGCCTCGCCTTGACCACCATTTTTACCAACAGCGTGAATTACGGGCTTCCTCTCGTGCTGCTTGCATTCGGGCAGGCAGGGCTGGATAAGGCTTCCGTGTATGTCATCGTGCAGATCATCATCATGAATACATTAGGCGTGTATTTGGCAGCGCGGTCTCATTTTTCGGCCGTAAAAGCGATCAAGACCGTATTTACACTTCCTTCGGTTTACGCCGCAGCGCTTGCCGTACTCTTCCGGTTGACGGATTTCCAGCTCCCCGAAGGGTTGAATACCGGTGTTTCCATGCTGTCCGCCGCCTATGCGCCGCTGGCTCTTGTCATACTGGGCGCCCAGATGGTTGGGGTTCGGGAGGGTGGAGCGTCGCTCGCCGTCTCAAAGCGCGGATTCTGGTCGGGCATGGCGATGCGAATGCTGGTGGGCCCGTTGGTGGCTTGGGGATTGCTCGCGATGTTATCCATTGAGGGAACCTTGTTTGCAGTCATTCTGATTCTGTCGGCGATGCCTGCAGCCGTGAATGCGGTCATCCTTGCCGAAGAGTACGATGCCGCGCCCAAGCTTGTATCCAGGTGCATTCTGTGGACCACGCTGGCTTCTTTTATCGTTCTGCCTGCCATGATTGGCTTTCTTTAA	MISSFLATIYSVFLPISLPVIGGALLKRFKGIETKGLSALSLYVLSPALIFETLEKASITSNEVTVTVAFCLLNVIILWALSAFAGKMLGLSQTEKSGLALTTIFTNSVNYGLPLVLLAFGQAGLDKASVYVIVQIIIMNTLGVYLAARSHFSAVKAIKTVFTLPSVYAAALAVLFRLTDFQLPEGLNTGVSMLSAAYAPLALVILGAQMVGVREGGASLAVSKRGFWSGMAMRMLVGPLVAWGLLAMLSIEGTLFAVILILSAMPAAVNAVILAEEYDAAPKLVSRCILWTTLASFIVLPAMIGFL	PGPT0007208_5608	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
AK002_05103	3150	rcsC_17		Sensor histidine kinase RcsC	TTGTCGATCTATTCCAATATCAAATCGAAGCCCGTCTCCGGCAGAAGGTTGCTGGGGATTACTTTTCTGTTTATCGTGATTTTACTTTCCGTGCGCTTGGTCTGGTTCAACACCATTACGGTACCCGAGGAACTTCCATTCCGGGAAGGCGTGCTGGATCTTCGGGCTTGGCCGGCGGATGACCGGAGCAGGGTCGCCCTGAACGGGGAGTGGGCCTTTTATCCGAATCAATGGAAGGGCCCGGATGGAACGTCCGAAGGAGAGCCTGCGGGAGCCGACCCGCACTGGATACAGGTTCCGGGGCCATGGGAGGGCGTGAACGAGAATGGAAACCAAATCGGCTACGGGACTTACCGCCTCAAGCTGCTCGTACCGGATCGGAACAAAACTTACGGCATCTGGATCAGCGATATCCGTACAGCCTATCGTTTGTATGTAAACGGGGAATTATTGCACGCATCAGGACATCCGTCCGATCTGCCAGAGACCCATGTGGCCAGAATCGTCCCCCATATGGAGCTCATCCCCCCGACTGGCGGTGATGAGCTGGATATCATCGTGGAAGTGAGCAACTATCAGTATGCCGATTCAGGCGGGATCCGGCTGCCGATCCAATTCGGAACGGCGGAAGCGGTGATGAGGGGAAAAGCCTTCTCCGAGAACATGCAGCTGCTGGTGTGCATCGTGCTATTGCTCCATGTGATCTATGTTTTTATTTTGTACTTGATCGGCTATCGAAGCAGAGGGCTTTTTTATTTTGCCGGGCTTATTCTGTTTACGCTGCTGGCTACGCTGAGCGACGATGATAAGCTTCTGTTGGTGTGGCTGCCTGGCATCCCTTTCGAGTGGGCGGTGAAGCTTAAGGTTATTGCTTATGTCGCGATATCTTTATGCTTGATTCTGTGCACCAAGCATTTGCTAAAGCCGAGGATCAAGGAGGGCTTTTACCAAGCCTACACGATGTTTGTGGTTTCGTATGCCGCAGTTTATTTGCTGCTTCCGTTTCATCTGATGGTCCATCTCTCTAAATATTTGTCGGTGGTATTGATAAGCGCCGTGCTGTTCGTGCCTTCGCTAGCCAGGAAGGCGGTCAGCGAGCGGACGGAAGCTGCGATCTTCATCCTGCTGTCGGCGGTTGCGGTTTCCTGCAACATTATGATAAGCGGAATTTTAAGATTCCGGTATTTTAAGGAACTGCCTTTTTACCCGATCGACCTGATCGTTGCGTTTCTCGGGTTTGCTTCCTTCTGGTTTATCCGGTTTACCAGAAACAGCGTCATGCTTAGGGAACAGGCCGAGCAGTTGCAGCGTGCGGATAAGATGAAGGATGAGTTTCTGGCGAATACGTCCCATGAGCTGCGAAATCCGCTGCACGGCATCATCAACATGGCGCAAACGCTGCTGGAACGCAAAGGGAGCGTATTGGAGCAAGAGGATCGCAGTCAGCTGGAGCTGATCACCGGCATCGGAAGACGGATGTCACTGCTCCTGGACGACTTGTTGGATGTTTCGTTATTGAAGGACAAGCGCGTTCGGTTGAATGTGCAGAGCGTCCACCTCGGTTCGGCTGCTCAAGGCGTGCTGGACATGCTCCGTCCGATGGCGGAAGGCAAGCGAATCGAGCTCGTATGCGAGATCGCGGAGGAGGGCCCCAAGGTATGGGCGGATGAAAGCCGCTTGGTTCAAATCATGTTCAATCTGATTCACAATGCCATCAAATATACGGAGGCCGGACGTATCACGGTGGCTGCGGAGGTCATTGAAGGAAGGGCTTATGTCCACGTTCGCGACACGGGGATCGGTATGGACGAAAAGACGTTAAGCCGAATATTCCTCCCCTACGAGCAGGGAGATTCCGGTTTTGCCGCTTCGGGAGGCGGTTTGGGGCTTGGACTGGGCATCAGCAAGCAGCTGGTTGAGCTCCATGGAGGGGATATTTCCGTAACATCCGCTCCGGGTCAGGGGAGCGACTTTACGTTCACGCTGAAAGTGGACGATATGATGAAGCAGGAGAACGCGGATAAACAGGAGGTTATCGCGGTCTCCCCGGCTTCAAATCCAGAGAAAGAGAAGGAGACGCAATCGAATATGTCAGATATGCACGAACAGGATGACGCCGAATCGGAGGCTCTGGCGCTTGCCCGTCCAAGCGACGGCAGGCTGCTTATCGTTGACGACGATCCGGTTAACCTGAAGGTCATCCATCATTTGCTTGCAGACGAGGGGTATCGGATCGTGGCCGTTACCCGCGCCGAGGAAGCTCTTCAGCTGTTGGAGCAGGGAGAATGGGATCTTATCATTTCCGACGTGATGATGCCCCAGGTGTCGGGGTATGAACTGTCCAGGACGATTCGGCAGAGGTATATGCTATCGGAGCTTCCCATCCTGCTGCTGACCGCCAGAAATCGGCCGGAGGACATTCATATGGGGTTCATCTCGGGAGCTAACGATTACTTGATAAAACCGGTGGATCACCTGGAATTAAAAACGAGGGTACGCGCCTTGCTGGAGCTGAAGCGGTCCATTAAGGAGAGGCTGCATATGGAAGCGGCTTGGCTCCAGGCCCAAATCCAGCCGCATTTCCTGCACAACACCTTAAATTCAATCGCTTCGCTAAGCGAGGTGGATCCTTCCCGGATGATTGCGCTCATCGCAGAATTCAGCCATTATCTGAGAGCCAGTTATGATATCAGCAACTTGGATCGTTTCATACCGTTGGAGCAGGAGCTTGGCTTGGTTCGCTCTTACCTGTATATCGAGGGGGAGCGATTCGGGGAACGGCTGCGTGTCCGTTGGCATATCTCCGACGAGGTTGCCGTGCAGCAATGGAAGCTTCCTCCCTTGACGATGCAGACGATCGTGGAGAATGCGGTCGTTCACGGGGTGTTGGCACGGACCCAGGGAGGGACCGTAACCATCCGCATCGTACGAGAGGCTGAATCAGCCAAGGTGATCATCGCGGATGACGGCGCGGGGATGGATCCCGAGAAGCTCCGAAGGATGCTGGGAAGCGGACATCGCGCCACCAAGGGGGTCGGGCTTATGAACACGGACCGCCGTTTGAAGCAAATTTATGGGCAGGGCCTCATGATCGACAGCTCAAGGGACAGAGGAACCACGGTATCATTTGTCATCAGGAAGATGGCATAA	MSIYSNIKSKPVSGRRLLGITFLFIVILLSVRLVWFNTITVPEELPFREGVLDLRAWPADDRSRVALNGEWAFYPNQWKGPDGTSEGEPAGADPHWIQVPGPWEGVNENGNQIGYGTYRLKLLVPDRNKTYGIWISDIRTAYRLYVNGELLHASGHPSDLPETHVARIVPHMELIPPTGGDELDIIVEVSNYQYADSGGIRLPIQFGTAEAVMRGKAFSENMQLLVCIVLLLHVIYVFILYLIGYRSRGLFYFAGLILFTLLATLSDDDKLLLVWLPGIPFEWAVKLKVIAYVAISLCLILCTKHLLKPRIKEGFYQAYTMFVVSYAAVYLLLPFHLMVHLSKYLSVVLISAVLFVPSLARKAVSERTEAAIFILLSAVAVSCNIMISGILRFRYFKELPFYPIDLIVAFLGFASFWFIRFTRNSVMLREQAEQLQRADKMKDEFLANTSHELRNPLHGIINMAQTLLERKGSVLEQEDRSQLELITGIGRRMSLLLDDLLDVSLLKDKRVRLNVQSVHLGSAAQGVLDMLRPMAEGKRIELVCEIAEEGPKVWADESRLVQIMFNLIHNAIKYTEAGRITVAAEVIEGRAYVHVRDTGIGMDEKTLSRIFLPYEQGDSGFAASGGGLGLGLGISKQLVELHGGDISVTSAPGQGSDFTFTLKVDDMMKQENADKQEVIAVSPASNPEKEKETQSNMSDMHEQDDAESEALALARPSDGRLLIVDDDPVNLKVIHHLLADEGYRIVAVTRAEEALQLLEQGEWDLIISDVMMPQVSGYELSRTIRQRYMLSELPILLLTARNRPEDIHMGFISGANDYLIKPVDHLELKTRVRALLELKRSIKERLHMEAAWLQAQIQPHFLHNTLNSIASLSEVDPSRMIALIAEFSHYLRASYDISNLDRFIPLEQELGLVRSYLYIEGERFGERLRVRWHISDEVAVQQWKLPPLTMQTIVENAVVHGVLARTQGGTVTIRIVREAESAKVIIADDGAGMDPEKLRRMLGSGHRATKGVGLMNTDRRLKQIYGQGLMIDSSRDRGTTVSFVIRKMA				NA	NA	NA	NA	NA
AK002_05104	492			hypothetical protein	ATGAAATTCATTCGGAAATTTAAGGAATCTTCGCTGCATAAAGCCATGGGGCTGGAGCTTGGTACGTTTCGGGAGATCGAGCTGGATGCAGCTAAGGATGTCCAGCATTGCCGAGGCTTCTATGTTTACTTCAACGGCAAGCGGATTGGCATCGTTGCTACGGACGAGGGACCGGTATTTCTGTGTGATCAGGAGAAGTTTTTGCTGGATGAGCGTACCGTTCATTTTTTGCTGCAAAAAAATGCCGAGTTTAATACGTTTATCTTCATGTGGAATGGAGGCGTGAAGCTCCAGATTCCATATTTGCGGTCGTTAATCGAATATAACGGAAGATGGGTGGATGATTCGATATTCGACTTTTTTTCGTGGATTTATGAAGCTTCCGGAAGAAAAAGATTCTACTCCTACTATACGGTGAAGTATGTATCCGCTGACGAATTATGCCCGCACCAGCCTCTTCAGCGTTCGGGCAAAACGCTTTCGATTGTTTAG	MKFIRKFKESSLHKAMGLELGTFREIELDAAKDVQHCRGFYVYFNGKRIGIVATDEGPVFLCDQEKFLLDERTVHFLLQKNAEFNTFIFMWNGGVKLQIPYLRSLIEYNGRWVDDSIFDFFSWIYEASGRKRFYSYYTVKYVSADELCPHQPLQRSGKTLSIV				NA	NA	NA	NA	NA
AK002_05105	1158	cheB_16		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAAGGTAATTCTCGTAGATGACGAACCGTTGGCCTTGAAGTATTTAGAACGTCAGCTGTTAAAACTGGATACCATGCCTATAGATGTAATCGGTACGTATACGAATCCTTTTGAGGGGCGTAAGGAAATTCTTGCAAGGGACGTGGATATCGTGTTTTTGGATATCAGCTTGCCGGAATTGAACGGGATCGAGCTGGCGGAACAGCTGCTGGAGCAGAAGCCCCATCTCTGCATTGTATTTGTGACGGGATATCACGAATATGCAGTTACCGCATTTGAATTGAATGCCGTCGATTATATCGTCAAACCGGTCCAGATCGATCGAGTAGCCAAAACGATGGAGCGGTTGCGAAGCCGCATTGCGTCCAGACCGGAAGAGGTCCTGAACCCCAATCGTAAAATTCGGATGACGATGTTCCGCCAGGTTATGATCGAACAGCCGAACGAGCAGGGGCAATTCGCCATGCTTCATTGGCGGACAACCCGGGCCCAGGAAATATTCATTTACTTGCTGCAGCATCGGGGGCAGCTGGTGCGCAAGTCGGCACTGATCGATATGCTATGGCCGGAGTTTGACATGGATAAGGCCTATCCCCAGCTGTATACCGCCATTTATCATATCCGGAAAACATTGGAGCCCTATGATACCCGATTTCAAATCACCAACACGACGGAAGGCTATGTGCTGAATGTCGAAGACGTGCAGCTGGACATCGAGGAGTGGGAGAACTGGTTCATGGCGACCCCCTCGGTATCGGCCGATTCGATCGATGGCCATCTTGAAATGATGAAGCTGTATACGGGCGATTACCTGCAGGAATATGATTATTGGTGGGCGGAAGGCGAGCGTCAAAGACTGAAGGAGCTGTGGCTCAGCGTATCGTTATCCATGGCGGAATGGTATGTGGATCAGGAACGCTTCGAAGAGGCCGTACTGTGCTTCGCCTCGATCCAGAGGCTGCATCCTTTGGAAGAGAAGGCCTATTTTTCATTGATGAAAATATACGGCTTGCAGGGGAACCCGGCCCAGGTACACCGTCAATTCAGCCTGCTGCGTCAAGTGCTGGAGGATGAGATGGGTGAGGAGCCGAGCCCTTACATCAAGAAATGGTATGACGAGTGGAGCGATGGAATCCAAATCACCCATGTGCAATAA	MKVILVDDEPLALKYLERQLLKLDTMPIDVIGTYTNPFEGRKEILARDVDIVFLDISLPELNGIELAEQLLEQKPHLCIVFVTGYHEYAVTAFELNAVDYIVKPVQIDRVAKTMERLRSRIASRPEEVLNPNRKIRMTMFRQVMIEQPNEQGQFAMLHWRTTRAQEIFIYLLQHRGQLVRKSALIDMLWPEFDMDKAYPQLYTAIYHIRKTLEPYDTRFQITNTTEGYVLNVEDVQLDIEEWENWFMATPSVSADSIDGHLEMMKLYTGDYLQEYDYWWAEGERQRLKELWLSVSLSMAEWYVDQERFEEAVLCFASIQRLHPLEEKAYFSLMKIYGLQGNPAQVHRQFSLLRQVLEDEMGEEPSPYIKKWYDEWSDGIQITHVQ	PGPT0026304_19	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
AK002_05106	345			hypothetical protein	ATGGAACATGGCGATAAAGAACCGACATCTCTGTCCCTTGATGATTATCTGGATCTTCTCAACTTGGCGATTCGCTTGGAAGATCGGAAGTGGCAAGCAGACATCATTCGTACACTTCACCACATGCAGGAATCGCTGGGCGAGGAACAAGCGAAGTCGGAGGAATGCACGGAACAGGAGCTGTGGCAATGCGTGGATCAAATCAATGAACGGATGTCTGCCCTGTATCATGAATTGAAAGCAACAGACGATAAAGATATACAGCGGAAGCTGCTGGACCAAATGTGGGAGCTGAAAATTGCCCGGGTTGAGGTTTTTCGAAAAATACGCTCGATTTATCAATAA	MEHGDKEPTSLSLDDYLDLLNLAIRLEDRKWQADIIRTLHHMQESLGEEQAKSEECTEQELWQCVDQINERMSALYHELKATDDKDIQRKLLDQMWELKIARVEVFRKIRSIYQ				NA	NA	NA	NA	NA
AK002_05107	477			hypothetical protein	GTGGAGGATGTGAAGGCAGAGATTCGCATATATCAAGCAGAGCTGAAGGATCTGGACAAAGCGGCCGCGATGTTGAATCAGTATCGGCAATTTTATGAGCGTGAAGATGATTTGGACGGGGCCCGGCAATATATCAGGGAAAGGCTGACCCGTGGCGATTCCGTTATATATTTAGCGGACTGCACCCGCGGGGAAACCCTGGCCACGCCAGGCTTTCTACAATTATATCCATCCTTCTCGTCGCTATCCATGTCTAGGTTGTGGATTCTGAATGATCTGTACGTGGATTCCGAATATCGCGGGCTTGGCATTGGAAGGGAACTGCTTCATCAAGCCCGTGCGCACGCCGTTCAGACCAAGGCCAAAGGCTTGACACTCTCGACGCAGCTTCACAACACGGCCGCTCAACGCCTGTACGAATCCGCAGGATATAAGCGGGACGATGAATTTGTGCATTACCATTTGAATTTATCCTGA	MEDVKAEIRIYQAELKDLDKAAAMLNQYRQFYEREDDLDGARQYIRERLTRGDSVIYLADCTRGETLATPGFLQLYPSFSSLSMSRLWILNDLYVDSEYRGLGIGRELLHQARAHAVQTKAKGLTLSTQLHNTAAQRLYESAGYKRDDEFVHYHLNLS				NA	NA	NA	NA	NA
AK002_05108	501	ywnH_2	COG1247	Putative phosphinothricin acetyltransferase YwnH	GTGACGCATCCATACCGTATCGATTATGCCGTCAAAGAGGATTTGCCGGCCATTGTGGACATTTACAATTCAACGATTTCAAGCAGAAAAGTAACGGCCGATCTGGAGCCGGTCACGGTGGAGAGCCGCATACGCTGGTTTGAAGAGCACAGCAACGATTTTCGCCCTCTTTGGGTCATGCGATCTGATGACGGGCTGGTTGCGTGGATGAGCTTTCAATCCTTCTATGGCCGTCCCGCCTATAACGGGACAGCTGAAATCAGTATCTACGTTAACGAGAAATATCGCGGCGTTGGTGCCGGCAGCCTATTGATCCAGAAGGCCATCGAGGAGTGCCCGCGTCTTCGCGTCAGCAACCTCGTCGGATTCGTCTTCGGTCATAATGAACCAAGCCTCAAGCTGTTGAAGAAGTTCGGCTTCGACCAGTGGGGGCTTCTCCCAGCGGTTGCGGAGCTTGACGGAGTCAAGCGGGATCTGGTTATTGTAGGACGTGCGATCTAA	MTHPYRIDYAVKEDLPAIVDIYNSTISSRKVTADLEPVTVESRIRWFEEHSNDFRPLWVMRSDDGLVAWMSFQSFYGRPAYNGTAEISIYVNEKYRGVGAGSLLIQKAIEECPRLRVSNLVGFVFGHNEPSLKLLKKFGFDQWGLLPAVAELDGVKRDLVIVGRAI				NA	NA	NA	NA	NA
AK002_05109	150			hypothetical protein	ATGTTCTACCTCCGAATAGATGTCTTTATTACGAGATCTATTGTACAAGAGGTAACGGAAAAACGCTTCTATTTTCTCAAGCCGCGATTCATTCACGAGGAGAACTTTACTTACGCGATGGAACGCGATACCCTTACATTAACGGCATGA	MFYLRIDVFITRSIVQEVTEKRFYFLKPRFIHEENFTYAMERDTLTLTA				NA	NA	NA	NA	NA
AK002_05110	1089			putative peptidase	ATGAACGAACGACTGCAAAGTTTGCTGTTATCCATGAAGGATCAGGGCTGGGATCATGTCCTGGTGACAGACCCCAAGCACGTTTATTATTTGACCGGTTTTGCGAGCGATCCCCATGAGCGCTTTCTCGGCCTGCTCCTCTCCTCCGCCAATGATCCGGTGCTTATCGTGCCGGCATTGGATGCGAACGCGGCCGAGGCCGCTTCAACCGTGAAGAACATTGTCACGCATCAGGATACCGATAACCCTTACCTTTTGCTTAAGGAGCAGATTCAAGGCACCGCCGGAACGCTGGCGCTGGAGAAGGATCAGCTGACCGTCTCCCGCTATGAACAGCTGCGGCAGCATGTGAACGCGGACCGCATCGAAGATGTCGGCCTTGCGCTGCGGGATCTTCGGATTCGAAAGTCTGCCGAGGAAGTGAAGATCATCAAGAATGCGGTGAGGCTGGTCGAAGATGTTCTGACGCAAGGCCTGGCCCGGGTAACAATCGGCGTCAGCGAGCTGGAGCTTGTCGCGGAACTGGAGTACTTGATGAAAAAGCTTGGCGCGGACGCGCCCTCCTTCGCCACGATGGTATTATCCGGCCCCAACACCGCCTTGCCTCATGGCGTTCCCGGTGCGCGCCGAATCGAAGCCGGGGATCTGCTCATGTTCGATTTGGGAGTATACGCCGGCGGTTATGCGTCGGATATTACCCGTACCTTTGCCGTAGGCGATCTGAAGCCGGAAGCCGTTAACATCTATGAGACGGTTCTTGCTGCAAATCTGGCCGGGATTCAGGCCGTCAAACCCGGCGTGACCTATGGCTCGATCGACCAAGCGGCACGCAAAGTGATTGACGACGCGGGTTACGGCCATGCCTTCGTACATCGCCTAGGTCACGGGCTTGGCATGGATGTCCACGAATATCCGTCCGTTCACGGGTTGAATCAGGACATATTGCAGCCTGGGGCGGTCTTCACCATCGAGCCCGGCATTTACCTGCAAGGCATCGGCGGCGTGCGAATCGAGGACGATGTCATCGTGACCGGCGATGGCGTCGAGGTACTGACCTCCTTCCCGAAAGGACTGACCGTCATCGGATAA	MNERLQSLLLSMKDQGWDHVLVTDPKHVYYLTGFASDPHERFLGLLLSSANDPVLIVPALDANAAEAASTVKNIVTHQDTDNPYLLLKEQIQGTAGTLALEKDQLTVSRYEQLRQHVNADRIEDVGLALRDLRIRKSAEEVKIIKNAVRLVEDVLTQGLARVTIGVSELELVAELEYLMKKLGADAPSFATMVLSGPNTALPHGVPGARRIEAGDLLMFDLGVYAGGYASDITRTFAVGDLKPEAVNIYETVLAANLAGIQAVKPGVTYGSIDQAARKVIDDAGYGHAFVHRLGHGLGMDVHEYPSVHGLNQDILQPGAVFTIEPGIYLQGIGGVRIEDDVIVTGDGVEVLTSFPKGLTVIG	PGPT0006760_2725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0006760-opaA|pepQ-K01271	NA	NA
AK002_05111	1395	tcyP	COG1823	L-cystine uptake protein TcyP	ATGGAAACGCTTTGGGTTATCATCAATGTCCTTGTTCTGATTCTGCTGGTCGGTATTTTGTACTGGATGCAGAGAAAGCATTACTCGTTTACCAAACGCGTGTTTGCCGGACTTGGACTGGGTGTGTTGTTCGGAGTGGCACTGCAGCTCATCTACACTTCAACCTCCGATGTGGTGGTGAAATCCACCGATTGGTTTAATCTGGTTGGCTACGGTTACGTCAGACTGCTGCAGATGATGGTCATTCCGCTGATCATGGTGTCGATCATATCGGCCATCATGAAGCTGAAGGGCGGAAAGAACCTGGGCAAAATGAGCGGACTGATCATTACGGTGCTGCTTCTGACGACGGCGGTAGCCGCCGCTGTCGGAATTACGACCGCGCTGGCGTTCGATTTGTCCGCCGTCAATATTCAGGGCGGCGCTGCCGAGGAGCAGCAGGGCGCGCTGCTGCAAGAACGGCTCGGGGATGTCGAGGACCGTACGCTGCCGCAGCAGATTCTGGATTTCATTCCGAGCAATCCGTTTGCCGACATGACGGGAGCACGAAGAACTTCGACGATTGCGGTCGTCATATTCTCGGCATTCATCGGGATCGCCGTGCTCGGGTTGGACCGTAAAAACAAGGAGCAGGCGGAGACCTTCCGCAACATGATCTCCGCCGTATACGGCGTGGTCATGCGTATCGTGACGCTGGTGCTTCGTCTGACGCCTTACGGGATTCTGGCGCTGATGGCCAAGACGATCGCCACGACCGATCTTGCGGTAATCATGAATCTGATCGATTTCGTTCTGGCTTCGTACGTGGCCTTGATCGCCATGTTCATTATCCATCTGGTGCTGCTGGCGATATTCGGGTTCAACCCGTTCAAGTACGTCAAGAAGGTGTTCCCGACGCTGACCTTTGCCTTTACGTCGCGTTCCAGCGCGGCTACGATCCCGCTTAACGTGCAGACCCAGAACAAAAAGCTGGGCGTCTCGGAAGGCATCGCGAACCTTTCGGCATCGTTTGGCGCCACGATCGGGCAGAACGGCTGCGCGGGCATTTATCCTGCCATGCTGGCCGTCATGATTGCACCGACAGCCGGCGTGGATCCGACGTCGTGGTCGTTCATCCTTACCTTGATCGTGGTCGTTATGATCAGTTCCTTCGGCGTGGCGGGTGTCGGAGGCGGAGCTACCTTCGCATCGCTCATCGTGCTCTCCACGATGAACCTGCCGGTTGCCTTGGCAGGCCTGTTGATTTCCGTCGAGCCGCTGATCGATATGGGACGGACGGCACTGAACGTGAATGACTCCATGACGGCCGGCGTGATTACCGGGAAAGTCATGAATGAAGTGGATAAAGACGTGTATAACGACGACAACATTGAACTGGATATGGTTCAGGCATAA	METLWVIINVLVLILLVGILYWMQRKHYSFTKRVFAGLGLGVLFGVALQLIYTSTSDVVVKSTDWFNLVGYGYVRLLQMMVIPLIMVSIISAIMKLKGGKNLGKMSGLIITVLLLTTAVAAAVGITTALAFDLSAVNIQGGAAEEQQGALLQERLGDVEDRTLPQQILDFIPSNPFADMTGARRTSTIAVVIFSAFIGIAVLGLDRKNKEQAETFRNMISAVYGVVMRIVTLVLRLTPYGILALMAKTIATTDLAVIMNLIDFVLASYVALIAMFIIHLVLLAIFGFNPFKYVKKVFPTLTFAFTSRSSAATIPLNVQTQNKKLGVSEGIANLSASFGATIGQNGCAGIYPAMLAVMIAPTAGVDPTSWSFILTLIVVVMISSFGVAGVGGGATFASLIVLSTMNLPVALAGLLISVEPLIDMGRTALNVNDSMTAGVITGKVMNEVDKDVYNDDNIELDMVQA				NA	NA	NA	NA	NA
AK002_05112	822	cobS	COG0368	Adenosylcobinamide-GDP ribazoletransferase	ATGAGCAAGATGATCGAAGCGGCTGCGGCCGCTTTTCAATTTTTATCGAGGCTTCCCGTGCGGAGGGAAATTCCCTTTACGCCCGAAGTTCAACAGCGGAGCGTCGTTTTTTATCCTTTCGTAGGGGCAATCATAGGTGTTATCGTTGCCGCATTGGGACTGGGCTTAAGCTTTGTGCTGCCTTCCTTTCCTGCTGCCGTCATCCTGCTGGCCGCTTGGGTAGCGCTAACCGGAGGGCTTCATCTCGATGGCTGGATGGACAGCGCGGATGCGCTGCTGAGCCATCGGTCGCGCGAACGAATGCTTGAAATTATGAAGGATAGCCGGGTAGGCGCGATGGGGGTCATGGCCTGCATGCTGCTGCTCCTTCTGAAAGCTTCCTTAATCATGTCCGTTTGGGATTTGTCTGCGGGGGTATGGAAGCAAGAAGCGTGGCTGCTGGTGCTCGCTCCGGTCTGGAGCCGCTGGTTTATGGTTCACGCCATGTATCGATGGCCGATGGCACGGGGAAGCGAGGGGCTGGCGGCTTTGTTTCACGGACTGTCCGTCAGAAGGAGGTCGCTGGCAGGCATAGTCGCGATCCTGTTAACGCTGGTCGTCATAGGCCTTCTCTGGTGCACGACAAGCACGCTGGATTTTGCGGCGATTGGAATCGGAGGAATCCTCGTCATCCCGTTGGCAGCCTGGGCGGTTGGGAGTTGGACGGCCGAACGGATGAGCCGAAGACTCGGGGGACTGACGGGAGATACCTATGGGGCGTTGAATGAATGGATCGAAACGTTTGTGTTAATTTTGGTAGTTCTCCTTTTGAAGTTTACATGA	MSKMIEAAAAAFQFLSRLPVRREIPFTPEVQQRSVVFYPFVGAIIGVIVAALGLGLSFVLPSFPAAVILLAAWVALTGGLHLDGWMDSADALLSHRSRERMLEIMKDSRVGAMGVMACMLLLLLKASLIMSVWDLSAGVWKQEAWLLVLAPVWSRWFMVHAMYRWPMARGSEGLAALFHGLSVRRRSLAGIVAILLTLVVIGLLWCTTSTLDFAAIGIGGILVIPLAAWAVGSWTAERMSRRLGGLTGDTYGALNEWIETFVLILVVLLLKFT	PGPT0004590_298	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
AK002_05113	579	cobP		Bifunctional adenosylcobalamin biosynthesis protein CobP	ATGAGTCATCGTGGAAGCGTGTTGGTTACGGGCGGGGCGAGGAGCGGGAAGAGCTCGTTCGCGGAGAAGCTGTGCATGAAGCGCGCCGATTCCGGTACATATATAGCGACTGCGCAAGCCTATGACGATGAGATGCAAGAACGGATCCGTATTCATCAAGACCGCAGGCAGGATACAGCCTATGGTTGGCAGACGGTGGAGGAGCCTGTCGCACTGCCCGAATTGCTGGAAACGCTCGGCCAGTCTGCCTCGGATGCCCCTGCGGTGGTAGTGGACTGCCTGACGCTGTGGCTTACGAACGTGCTGCTGCAGGCCGAACCTGAAGGCACGGCCGTCATGGAAGAACGGCTGGGGCTTCAAATCGGCAGGCTGGCAAGAGCGGTTCAGGTTTACCCGGGCATGGTTATTTTGGTAACAAACGAAGTGGGTTCAGGGATTGTGCCCGAATATCCGCTGGGCCGGATTTATCGCGACTGGGCAGGGATCATGAATCAACGACTGGCCCAGGTCTGTGACGAGGTATTTCTGGTAACCGCCGGAATTCCAATGGAAATCAAGAGCAAGGAGTATCGGATATGA	MSHRGSVLVTGGARSGKSSFAEKLCMKRADSGTYIATAQAYDDEMQERIRIHQDRRQDTAYGWQTVEEPVALPELLETLGQSASDAPAVVVDCLTLWLTNVLLQAEPEGTAVMEERLGLQIGRLARAVQVYPGMVILVTNEVGSGIVPEYPLGRIYRDWAGIMNQRLAQVCDEVFLVTAGIPMEIKSKEYRI	PGPT0004585_485	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004585-cobP|cobU-K02231	NA	NA
AK002_05114	1071	cobT	COG2038	Nicotinate-nucleotide--dimethylbenzimidazole phosphoribosyltransferase	TTGACGGATACACTCATAAGTCGTTTGAAGGGAATCACCGCTAACATTAAACCGCTGGATGCCGAAGCGCAGGCGGAAACCGCCTCCTATTTGGATCGTTTGACGAAGCCTCCGGGCAGTTTGGGCAAGCTGGAGTCGCTTGCGATCCAATTAGCGGGAATTACGGGGGAAATGAAGCCCTCGTTTACCAAAACATCCGTGGTTGTCATGGCCGGCGATCATGGGGTGTGTGATGAAGGAATCAGCGCATTTCCGGCCGAGGTGACGCCCCAAATGGTGATGAACTTCCTTAATGGAGGGGCGGCCGTTAACGTGCTGGCCCGTCAGGCGGGGGCAGACGTTCATTGCGTGGATATCGGCGTAGCGACCGAGGTGACCCATGAGAGGCTCCTGTCCCGGAACATTGGCAGAGGAACCGCCAATATGGCCAAAGGACCCGCAATGACAATGGAAGAAGCGCTGCAATCCGTAGTGACCGGAGCTGAGGTGGCGGCAGAGCTGGTTAAACAAGGCACGCAGATGTTCGTAACCGGAGAGATGGGCATCGGGAACACGACGCCAAGCGCGGCTATTTTCTCGGTTCTGTCCGGCAAGCAGCCGTCCGAGGTTGTGGGACGAGGAACCGGCGTGACGGATGAACGGCTGAACCATAAGATTCGTGTTGTGGAACGGGCGATACAAGTTAATGCGCCTCATGCCGCTGACCCGCTCGACGTGCTCGCCAAAGTCGGGGGCTTCGAAATCGGCGGATTGGCCGGATTGATTCTGGGTGCGGCTGCTCATGGGTGTCCTGTCATCATTGACGGATTCATATCCAGTGCCGCGGCGTTGGTTGCCAAATCAATCTGCCCGGATGCCCTTCCTTATATGATTGCTTCCCATGTTTCGCATGAACAGGCGCATGTTCTTCTGCTGAAAGAGCTGGGACTCCAGCCGATGCTTCAAATGGACATGCGTCTTGGCGAGGGGACGGGCGGGGTGCTGTGCCTTCATCTGGTCGAGGCGGCGTGCAGGATCGTGAACGAGATGGCGACGTTTGAGAGCGCCGGCATCAGCGGAGGAGCCGTATGA	MTDTLISRLKGITANIKPLDAEAQAETASYLDRLTKPPGSLGKLESLAIQLAGITGEMKPSFTKTSVVVMAGDHGVCDEGISAFPAEVTPQMVMNFLNGGAAVNVLARQAGADVHCVDIGVATEVTHERLLSRNIGRGTANMAKGPAMTMEEALQSVVTGAEVAAELVKQGTQMFVTGEMGIGNTTPSAAIFSVLSGKQPSEVVGRGTGVTDERLNHKIRVVERAIQVNAPHAADPLDVLAKVGGFEIGGLAGLILGAAAHGCPVIIDGFISSAAALVAKSICPDALPYMIASHVSHEQAHVLLLKELGLQPMLQMDMRLGEGTGGVLCLHLVEAACRIVNEMATFESAGISGGAV	PGPT0004595_786	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
AK002_05115	786	fecE	COG1120	Fe(3+) dicitrate transport ATP-binding protein FecE	ATGATTACGGCCCAAGGGCTTGGCAAAGCCTATGGCAAGGCGTCGATTCTATCCGGGGTGGACCTTCAGATTGCCGAAGGGGAATGGTGGGGGATCATCGGACCGAACGGCAGCGGCAAGTCCACCCTCATGCAGCTGTTATCCGGCGTGGAGAGTCCTACGGAAGGAAGCGTGACGCTTCGGGGCAAGGACCTTGGACGCTATAACCGGAAGGCACTGGCCCGAATCGTGGCGGTTCTGCAGCAGGAGGGACTCGACCCTACCGATTTTACCGTCCGGGAAGTGCTGGAGATGGGGCGATTCCCGTTCTTGAACTGGCTTGGCCGTGAGGATAAGGATGCGGCCCCGCTTATCGAGGCCGTTATTCGAAAGCTGGATCTGGACGGCCTGGAGGAGCGCAGGCTTACCGAGTTAAGCGGAGGACAGCGCCAACGTGTCGCTTTGGGCAAGGTGATGGTCCAGGAGCCTTCGCTGCTGATGCTGGACGAACCGACGACCTATCTGGATATCCGCTATCAGCTTCAGTTCATGGATATGGTGGCGGAATGGCGGAACTCGTCCGGCATTACGGTGATCAGCGTACTGCATGACCTCAATCTGGCTGCTCAATTCTGCGATAAGCTGCTGGTTCTGGATCAGGGACGGATTGCAGGGGTGGGCAAGCCGGAGGACGTGCTGACGGCAGCGTATATCCGCCGGATTTTCCGGGTGGAGCCCTCCATCGTGACCCATCCCGAGAATGGGGCTCCGCAGGTGCTGTTAACGGCGAACAGCACCTGGTCCTAA	MITAQGLGKAYGKASILSGVDLQIAEGEWWGIIGPNGSGKSTLMQLLSGVESPTEGSVTLRGKDLGRYNRKALARIVAVLQQEGLDPTDFTVREVLEMGRFPFLNWLGREDKDAAPLIEAVIRKLDLDGLEERRLTELSGGQRQRVALGKVMVQEPSLLMLDEPTTYLDIRYQLQFMDMVAEWRNSSGITVISVLHDLNLAAQFCDKLLVLDQGRIAGVGKPEDVLTAAYIRRIFRVEPSIVTHPENGAPQVLLTANSTWS	PGPT0003760_2104	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK002_05116	1047	hmuU	COG0609	Hemin transport system permease protein HmuU	ATGAGTAAAAAACTTGCAGGATTCGGTGCGGCCGGCCTGATCCTTTTACTGTTAACTTTGGTTGCCAGTCTCGGAATCGGCTCCGTTCACCTGCCTGTGAGAGAGATTGGAGCGATGCTGCTGCACTGGCTGCCGGGAATCGGCGATTCCATCGTTCCAGGCTGGGAAGCTTCCTCCGAGCAAATTCTGATGAAGGTGAGATTGCCGCGGATCCTGCTCGGGATGCTTGTTGGAGCCTCCCTGGCGGTGGCCGGAGCCGCCTTTCAAGGCGTGCTTCGCAATCCGCTGGCGGATCCGTTTACGCTCGGTGTGTCCTCGGGTGCTGCGCTTGGCGCGGCATCCCTGATTTTTTTCGGAATGGAATATTCCTTTGCCGGAGGTTACACGCTGCCGCTTGTAGCGTTTCTGACCGGAGCAGGCACCCTATGGGCCGTTCTGCTGCTGGCAAGGGATCAAGGAAAGCTGCCGATCCATGGGCTCATCCTGTCCGGGGTGGTGATGCAGTCGTTTCTGGGCGCCGTCGTTTCGTTTCTGACGGTGATGTCCAAAGATACGGTGAACCAAATCCTGTACTGGACGATGGGAAGCCTAAGCATGCGCGGATGGTCGTATACGGCCATCCTTTTCCCGTATTTTGCAGCGGGTTTCGTATATCTATGGAGCAGGTCGCGGGCGCTTAACATTTTGTCGCTCGGGGAACGGCAGGCTGCTCATATGGGATTGAATGTCGATCGGCTGAAGACCAGCGTGCTGATCGTCGCTACCCTGCTTGCCGCTGCAGCCGTATCGGTTTCCGGCGTGATCGGGTTCGTCGGGCTTGTAGTGCCGCATATGATTCGGCTGATCACCGGCTCCGATTACCGCGTGATTGTTCCCCTGTCGGCGCTGGGCGGCGCGATTTTCATGGTTTGGTGCGATACGGCGGCCCGTTCCGTCTTGGCGCCGACGGAAATCCCGCTCGGGGTGGTCACGGCATTCATAGGCGCTCCGTTCTTTGCTTATCTGCTGTACCGGAACAAAAAACGGCGCAGGGAGGGGTTATCATGA	MSKKLAGFGAAGLILLLLTLVASLGIGSVHLPVREIGAMLLHWLPGIGDSIVPGWEASSEQILMKVRLPRILLGMLVGASLAVAGAAFQGVLRNPLADPFTLGVSSGAALGAASLIFFGMEYSFAGGYTLPLVAFLTGAGTLWAVLLLARDQGKLPIHGLILSGVVMQSFLGAVVSFLTVMSKDTVNQILYWTMGSLSMRGWSYTAILFPYFAAGFVYLWSRSRALNILSLGERQAAHMGLNVDRLKTSVLIVATLLAAAAVSVSGVIGFVGLVVPHMIRLITGSDYRVIVPLSALGGAIFMVWCDTAARSVLAPTEIPLGVVTAFIGAPFFAYLLYRNKKRRREGLS	PGPT0003770_3784	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
AK002_05117	1005	btuF		Vitamin B12-binding protein	ATGAAAGCATTAAACAAAACATGGTCCGTACTTCTGGTAGCCATACTGATGGCCTTGGCCTTGATCGGCTGCGGCGGCGAAGAAGCAGCACCGAAGGATGCGACGCCGCCGGCACAGCAGCAAGAGCAGAATAACGAAGCGCCTGCGGATTCGGCGGAAGAGCTTAAGACCACGTATCCGCTGACCGTCAAGGATTCAACGGGAGTGGAAATGACGTTTGAGAAAGCGCCCACCAAGATTGCGTCCCTGACTCCGTCCGAGACGGAAAAACTGTTTGCATTGGGACTGGATGAGGAGATCGTTGGCGTATCCGATAACGACGATTACCCCGAAGCGGCCAAATCCAAGCCTAAACTGGGCGGGTTTCAAGTGAACGAAGAGGCGATCATCGCAGCCGACGCCGACGTGGTATTCGCCGCTTCGATGAATGCCCAGAATGCCGAGAAATTGCGCGAGCTTGGCGTTACCCTGTTCGTCAACGATCCGAAAACCATCGATGCGGTGATGGAGAACATCGAGCTGATCGGTCAAATTACGGACCGTCAAGCCGAGGCGAAAGCGGTCGTCGATCAGATGAAGCAGGAATTGGCTACCGTTACGGAAGCCGTGAAATCCGTGAAGGATGAAGACAAGAAGAAAGTGTACGTGGAGTTCTCTCCGGGATGGACCGTCGGCAAAGGCGAGTTCATGGATGAGATCATTACCGCAGCTGGCGGCGTCAATGCAGCCGGCGATGCGGAAGGCTGGTTCGAAATCAGCGAGGAGAACATCATCGCCGCGAACCCGGACGTTATTCTTTACACGGACGATGTGGTGGACGAAGCCACCAAGAAAACATTGGACCAGCTGATCAAGGAGCGCGGCGGCTGGGATCAGATCGAAGCCATCAAGAACGATCAGGTCATTTCCGTGGATGCCAATCTGCTCAGCCGTCCGGGCCCGCGCGTGACGCAAGGACTGATTGAAGTGGCGAAGGCCGTTTATCCGGAATTGATGAATCCATGA	MKALNKTWSVLLVAILMALALIGCGGEEAAPKDATPPAQQQEQNNEAPADSAEELKTTYPLTVKDSTGVEMTFEKAPTKIASLTPSETEKLFALGLDEEIVGVSDNDDYPEAAKSKPKLGGFQVNEEAIIAADADVVFAASMNAQNAEKLRELGVTLFVNDPKTIDAVMENIELIGQITDRQAEAKAVVDQMKQELATVTEAVKSVKDEDKKKVYVEFSPGWTVGKGEFMDEIITAAGGVNAAGDAEGWFEISEENIIAANPDVILYTDDVVDEATKKTLDQLIKERGGWDQIEAIKNDQVISVDANLLSRPGPRVTQGLIEVAKAVYPELMNP				NA	NA	NA	NA	NA
AK002_05119	783	gpmB_2		phosphoglycerate mutase GpmB	ATGGATATGAGGATCATCCTGCATCTGGTCCGCCACGGCCGCACGTTGTGGAACGAGGAGCGCCGTTATCTCGGCCATGAGGATCAGGGAATTCTGGCCGAGGGAAGGGAACAGCTCCTCCCGCTGCGGGAGGAACTTCGTTGCAGGCATTTTGTTCGGATCTATTGCAGCGATCTCCTTCGCTGCCGGCAGACGCTCGATGTGATCTTATCGGATTCAAAAAGGGGTGCTGTTCCTGATGATGACATGTCGGGCCAGTTTATTCCGGGCGTCGAGTATGACCCGCGGCTGCGAGAGCTGGATTTCGGGGATTGGGAAGGTAAGACCTACGAGGATTTGAAGACGGATTCCCTCTACCGGCGCTGGATCGATAACCCTGCGGAGGTTACGCCGCCCAGCGGGGAGAGCTGGGAAGCTTTCGGTTCCCGCGTCCAGGCCTTTTTGACGGGATTGCATTTGGATGTGAAGGAATTATTGCATATGGAGGAAGCTCCGGATACCCTTGCGCAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCAGAGGCCAGGCGTGGTGATGATGGCCGTGGAACGCTTGCTGAAGGAGTTGACGTGCTTGTGGTCACCCACGGCGGCGTTATTCGGGAGATGGCAGCGGCTACCGTGCCGGATACGGAATTCTGGGCGACGTCGGTTATGCCGGGCGAGGTGCTCAAGCTGCAGCTGACATGGGACGGAGCGCGCTGGCGGGGCGTACGGTTAAGCGAATAA	MDMRIILHLVRHGRTLWNEERRYLGHEDQGILAEGREQLLPLREELRCRHFVRIYCSDLLRCRQTLDVILSDSKRGAVPDDDMSGQFIPGVEYDPRLRELDFGDWEGKTYEDLKTDSLYRRWIDNPAEVTPPSGESWEAFGSRVQAFLTGLHLDVKELLHMEEAPDTLAQAEAEAEAEAEAEAEAEAEAEAEARRGDDGRGTLAEGVDVLVVTHGGVIREMAAATVPDTEFWATSVMPGEVLKLQLTWDGARWRGVRLSE	PGPT0004650_25	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
AK002_05120	978	cobD_1	COG1270	Cobalamin biosynthesis protein CobD	ATGACCGTCGTATGGGTCATATGGGCGGCGGTTGCGCTGGACCTGCTGATCGGAGATCCGAGATGGCTGCCGCATCCCGTCATCGGCATGGGGAAGGCGATTCGCCGGGTCGAAGGATGGATTCGCCAGCGGACGACCTCCGCTCAGGGACTGAAGCGGGCGGGGATATTGCTGCCGGTAATCGTGGTCGGCGGCTCCTTCGTGCTGGCATGGCTGCTGCTGGAGCTGTGCGCAGCGATTCATCCTTGGCTTTCCTGGGGTGCGGAGATCGTTCTCATTGCGACTACGATTGCGATCAAGGGGCTGCGCGAGGCAGGATTGGAAGTCTACGGCCATCTTCGTTCCGGGAATATCGCCGAGGCCAGGCAAGCGCTCAGCATGGTGGTCGGGAGGGACACGGCCCATCTGGATGAGCCGGAAATTGTGCGGGGGACGGTGGAGACGGTTGCGGAAAATATCGTGGACGCGGTCATCGCTCCGCTTTTTTTTGCCCTGATCGGAGGGGCGCCGCTTGCGTTGGCCTACCGCGCCGTGAATACGCTGGATTCCATGGTTGGTTATAAAAACGAGAAATACCTGCATGTAGGCTGGGCCTCCGCCCGGCTGGACGATCTAGCCAATTGGATACCGGCACGCCTGACCGCCGGGCTGTTGACCATCGTAGCGGCGATGTTCTCGCTGCAGTGGAAACAAGCGATCAAGATGGTCAAACGAGATGCGCGAAAGCATCCCAGTCCCAACAGCGGCTTCCCGGAATCGGCCGTTGCCGGTGCCCTGGGGATTCGCTTGGGAGGCGAAAATTCGTACCAAGGCGTGATCTCGTTCCGGGCTTACATGGGGGACCCCGACCGACCGCTCGAAGCGGAGGATATCCGGGTGACAAACCGCCTGCTTGTGGGCGCGTCGGTTTTGTTTACGATGCTGGGTACCGCGGTGCTCGGACTTGCTGCCGCGGCAGGAGGAAGCCTATGGATATGA	MTVVWVIWAAVALDLLIGDPRWLPHPVIGMGKAIRRVEGWIRQRTTSAQGLKRAGILLPVIVVGGSFVLAWLLLELCAAIHPWLSWGAEIVLIATTIAIKGLREAGLEVYGHLRSGNIAEARQALSMVVGRDTAHLDEPEIVRGTVETVAENIVDAVIAPLFFALIGGAPLALAYRAVNTLDSMVGYKNEKYLHVGWASARLDDLANWIPARLTAGLLTIVAAMFSLQWKQAIKMVKRDARKHPSPNSGFPESAVAGALGIRLGGENSYQGVISFRAYMGDPDRPLEAEDIRVTNRLLVGASVLFTMLGTAVLGLAAAAGGSLWI	PGPT0004660_833	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004660-cbiB|cobD-K02227	NA	NA
AK002_05121	735			hypothetical protein	ATGGCAGTACCTTTTCTGAAAGGCAGCAATCGTCCATATAACTCGGATGCATGGCCGGGAGCCATCGTGTCCTTGGATTCGGAGCAGCAGCATCCGCATATTCGGATCTCGCTTCCGAGTCCGGCTGCGTCCATAAGCAGCGCAATATACGGCGGCGGTTTTCTGCACTTGGACCATATCGTGAACCGTTATGTCGACAAGCATTACGATTGCAGCGATCCGATAAACGATATGGTTAACTTTATGGCTGGGTACGGCTATCCGGCCGATTCCACGGCAGGATTGATGACGGCGGTAAAACTGAAATATGCCTCCATTCGGGAGGCTCGGGGCGAGCAAGCTTCCGTTCTATGCTGTACTACCGCGGGCGTGGGCAATGCTGCCCGCGCCGGGGCGAGGCGCACGACCTTCGCGGCTTACCAGCCGGGCACGATTAATGTCGTGCTGGTGGTGGACGGAAGGCTGACGCCGGCTTGCATGGTGAACGCCATGCTGACGGCAGCGGAAGCGAAAGCCGCGGCGCTGCATGACCTGGGGGTGAAGGATCATGAAACCGGAGCCGCCGCCACGGGAACGACGACGGATGCGATGGTCCTTGCGGTCAGCGGCAATTCAGCCTATGGCGTGAACCATCATTATGCCGGAACCGCGACCGATCTGGGCGGCATGATCGGACGTCTTGTCTACGACAGCGTCACGGAGAGCATCGCCGCCGAAAGAGAAGATCGGATATGA	MAVPFLKGSNRPYNSDAWPGAIVSLDSEQQHPHIRISLPSPAASISSAIYGGGFLHLDHIVNRYVDKHYDCSDPINDMVNFMAGYGYPADSTAGLMTAVKLKYASIREARGEQASVLCCTTAGVGNAARAGARRTTFAAYQPGTINVVLVVDGRLTPACMVNAMLTAAEAKAAALHDLGVKDHETGAAATGTTTDAMVLAVSGNSAYGVNHHYAGTATDLGGMIGRLVYDSVTESIAAEREDRI	PGPT0009300_143	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009300-cbiZ-K08260	NA	NA
AK002_05122	1125	cobD_2	COG0079	Threonine-phosphate decarboxylase	ATGAGCGATAATAACCAACCTTTGATCGAGGTGTACGGGCACGGCGGGGATGTGGAAACGGCGGCCGCCGCATTTGGAAGGGGAGCCTCGGCTTTTCTGGATTACAGCGCCAATATTAACCCGTTGGGACCGCCCCAAGGGGTCCTGGCAGCGTTAGAAGAAGGGATGAGCGCGGTGATTCGTTATCCGGATCCGGGGCACCGCGAATTCAAGAGGCTGCTTGCGGAGGAATTGGACACCGATGCCCGGCGCATTCTTGTCGGAAATGGAGCTGCAGAGTGCATGGCATTGCTGCTGCTGGGCCTGCAGCCCCGAACGGTCGGCGTGGTCGATCCTTGTTTTTCCGAATACCGGGAGTTGTCCTTGAAATTTGGTTCGGACATCCGCTCCGTGTGCGGGCAGCCGGAGCGGGACTTTCGTGCGGACAAGGCGGATATGATGGAGCTGATCGCCTGCACGGATCTCGTTTTTGTGGGACAGCCGAACAATCCGAACGGGGTTCAGTACAGCCTGAAGGATATTCGCGGGTTGGCGGCATGCGCTGAGCAAGAAGGGACCTGGCTGGTGCTGGATGAGGCCTTCATCGATTTCATTCCGCCGGAGGACAGACAGACGTTGATGCCGGAACTGCAGGAATATCCGCGGACGATCATTGTCCGGTCGATGACCAAGTTTTATGCGATACCTGGCCTGCGGCTCGGGTATACGGTTGCCGACCCCGACGTGATACGCGCCATGGCAGGCAAACAAGTGACGTGGAGCGTCAATGGACTGGCGCTGCTTGCGGGAGAGGCTTGTCTTGGCAGCGGCAGGGAATATGAACTGGATACGCTTCAATTGATTCGCGAGGAACGCGAGAAGCTGATACATGGTTTACGAGCGCTGGGGCTTGACGTTACCCCGGGGGAGGCAAATTTTCTGCTGATGGAGCTTCCGCGGCCTTGGAATGCAGGGATGTTCCAGCAGGAAATGGGAAGGCGGGGCGTGCTCGTCCGCAGCTGCGCCATGTACCCGGGCCTCGGTGAGCGCCACATCCGGTTAGCCGTTAAGGATGCCGGATCTAACGACAGACTGCTGGCGATAATTGCGGAGGTCCTTGGAAATCCTTCTGCTGACGCGACTTAG	MSDNNQPLIEVYGHGGDVETAAAAFGRGASAFLDYSANINPLGPPQGVLAALEEGMSAVIRYPDPGHREFKRLLAEELDTDARRILVGNGAAECMALLLLGLQPRTVGVVDPCFSEYRELSLKFGSDIRSVCGQPERDFRADKADMMELIACTDLVFVGQPNNPNGVQYSLKDIRGLAACAEQEGTWLVLDEAFIDFIPPEDRQTLMPELQEYPRTIIVRSMTKFYAIPGLRLGYTVADPDVIRAMAGKQVTWSVNGLALLAGEACLGSGREYELDTLQLIREEREKLIHGLRALGLDVTPGEANFLLMELPRPWNAGMFQQEMGRRGVLVRSCAMYPGLGERHIRLAVKDAGSNDRLLAIIAEVLGNPSADAT	PGPT0009315_101	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009315-cobD-K04720	NA	NA
AK002_05123	1002	lplJ	COG0095	Lipoate-protein ligase LplJ	ATGCTATTTATCGATAATCAAGGGATTCACGACCCATCCATCAACCTAGCGATTGAAGAATATGCGCTTAAGCACTTGTCCATGGACGAGAGCTACCTTCTCTTTTATATCAACAAGCCTTCCATCATCATCGGAAAGCATCAGAATACGATCGAAGAGATCAACCAGGAATACGTTCGCGACAACAACATCCAGGTTGTGCGCCGGCTGTCCGGCGGCGGAGCCGTGTACCACGATCTCGGCAACCTGAATTTCAGCTTCATTACGAAGGACGACGGCCAGTCGTTCCACAACTTCCTGAAGTTCACGCAGCCGGTCATCGACTTCCTGCAAAAGATGGGCGTGCCGGCCGAGCTCAGCGGCCGGAATGACCTGCAGGTCGGCGAGAAGAAAATTTCGGGGAACGCTCAGTTCTCGACGCGGGGACGCATGTTCAGCCACGGCACGCTCATGTTCGATCTGAATCTGGATGACGTGCAGGCCTCGCTGAATGCCAATCCGGAAAAGTTCAAATCCAAGAGCACCAAGTCCGTGCGCAGCCGCGTAGCGAACATCAAGGAGCTGCTTGGCACCGACATGACCATTGAACAGTTCCGCGGGGAGCTGCTTCGCTCGATCTTCGGGATGGAACCGGATCAAGTACCGCAATACGTGCTTCAGGAGAAGGATTGGGAGATCATCAACCAGATTTCGAAGGAACGCTACCAGAATTGGGATTGGAACTACGGGCTGTCCCCTGAGAGCAACGTGAAGCATGCGAGGAAGTTCCCGGTGGGCATCATCGATATCCGCATGGACATCCGTGAAGGGCATATCGGTGAGATTAAAATTTACGGCGATTTCTTCGGCGTCGGCGATGTCGCGGATATCGAGAATCTGCTTCGCGGCAAACGGTACGAAGAAACGGCGGTGCGCACCGCGCTATCCGGCATCGACGTCAAGCATTACTTCGGCAACCTCGAGCTCGACGATCTGATCGGCCTCATCTTTCTTGAGGAATAG	MLFIDNQGIHDPSINLAIEEYALKHLSMDESYLLFYINKPSIIIGKHQNTIEEINQEYVRDNNIQVVRRLSGGGAVYHDLGNLNFSFITKDDGQSFHNFLKFTQPVIDFLQKMGVPAELSGRNDLQVGEKKISGNAQFSTRGRMFSHGTLMFDLNLDDVQASLNANPEKFKSKSTKSVRSRVANIKELLGTDMTIEQFRGELLRSIFGMEPDQVPQYVLQEKDWEIINQISKERYQNWDWNYGLSPESNVKHARKFPVGIIDIRMDIREGHIGEIKIYGDFFGVGDVADIENLLRGKRYEETAVRTALSGIDVKHYFGNLELDDLIGLIFLEE	PGPT0003945_1380	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003945-lplA|lplJ|lipL1-K03800	NA	NA
AK002_05124	711			hypothetical protein	ATGATGGGCAGAGCTCATTTGATTATCAGCACAGGGGTCACGTTATCCGTCATGGGCATGATCGGAGTGCCTGTCACGCTGCCGGCCGCGGCAGTGGCTTTGGTCAGCTCGCTGCTTCCCGACATCGACGAGCCCAACTCCCTGCTGGTGCGCAAGGCGATTCCTTCCGGGCTGCTGCGAATTCTTCAGCTGGCGATGATTGGCGCTGCCATATTCGTTGTATTCTACGGCAAGGAGTATGCTCCTTGGAATATCGCACTGGCCGGGCTGATCGGGGTTGTTTCGTACCTGCCGAGCCGGACGCTGCGCCATGTCGTCATGTTCTTGATTGGCTTGGGACTGATCTCCTTCGGGCAGGGCTTCAGCCCATGGAATACGATCGCAGGCAGCGTGCTGATTGCAGGCTCCTTGGTGACCCATCGGGGGTTAACCCATACCGTCTATGCCGCAGCCGGATGGACGGGCCTGCTATATTTTGCGTCACAGGGCAAGATCGGCGGGGAAAGCCTATGGTTTGCCGGCGGTTTATCCTACTCGATTCATTTGCTCGCAGATGCGCTGACCAACCGCGGAATCCGTCCGCTTCCTCCGTTCAAATGGAGAATCAAGCTGAAGATCATGAGCACCGGAAGCAAATGGGGACGCACGGTAGAGAATGCTTGCATTGTGCTGACGCTGGTCCTTGTTTGGTACGTGTTTATGGCTTCTTGA	MMGRAHLIISTGVTLSVMGMIGVPVTLPAAAVALVSSLLPDIDEPNSLLVRKAIPSGLLRILQLAMIGAAIFVVFYGKEYAPWNIALAGLIGVVSYLPSRTLRHVVMFLIGLGLISFGQGFSPWNTIAGSVLIAGSLVTHRGLTHTVYAAAGWTGLLYFASQGKIGGESLWFAGGLSYSIHLLADALTNRGIRPLPPFKWRIKLKIMSTGSKWGRTVENACIVLTLVLVWYVFMAS				NA	NA	NA	NA	NA
AK002_05125	978			hypothetical protein	ATGGCTTACGCCCGGGGACGAATGTACGGGAAGCTGCAATTTGAGTTTCGCATCATCGGAAAGGATGACTACCTAGTGAATCGCTCACGTATCGCCGACATCAGCCTGCTTCTGGTGGCCATGATGTGGGGCTCCACGTTCCTCATCGTTCAGTATGCGGTGCGCGTCCTCCCGCCCATGGCCTTTAATTCGGCCCGCTTTCTGGGAGCGGCCCTGCTCCTCGCATTGATCATCACCCTCTTTTACCGGAATCAGTGGAAGCTAATATCCGGCAGGATGCTGCTGCATGCTTGCCTGCTCGGTCTTTTTTTGTTTATCGGCTATGCCTTTCAAACGGCGGGCCTTCTGTACACGACCACGTCCAATGCAGGTTTCATTACCGGCTTGTCCGTCGTGCTGGTGCCTTTCATATCGTACGCGCTGTTAAAGCACTCCATCTCCAGATTCACTTGGATCAGCGCCTTGCTTGCTGCAGCGGGCCTGTACCTGCTCACCTTCGCCGGATCCGGCATGAGCCTGAACAAGGGCGATGTGCTCGTATTCGTTTGCGCCATCGGTTTTGCGCTCCATATCGGTTATACGGGCGTTTATGCCGGCCGATATCCCTCCCTGCTGCTGGCAGCGCTCCAGATGGCCGTCGTTGGGGTATTCAGCCTGATAGCTTCCGCTTTAACCGAACATGTGGGCAATGCAGCGGATCTGATGGAGAAGCTGACCGAGCCGAACGTGCTGTGGGCGCTCGCCGTATCCATCGGCCCAACCAGCGCATTCGCCTTCTGGATCCAAACCGTCTGCCAAAAATACACGACGCCGTCCAGGGTTGCCATCATCTATGCAACGGAGCCCGTATTCGCGGCACTGACGGGAATTCTGTTTGCCGGAGAACGGCTTACGCTCATCGGCGGCATCGGTTGCCTGTGTATTTTGGCGGGAATGGTGATTGCGGAATTGAAGTCTGCGCCACAGAAGGTACAATAG	MAYARGRMYGKLQFEFRIIGKDDYLVNRSRIADISLLLVAMMWGSTFLIVQYAVRVLPPMAFNSARFLGAALLLALIITLFYRNQWKLISGRMLLHACLLGLFLFIGYAFQTAGLLYTTTSNAGFITGLSVVLVPFISYALLKHSISRFTWISALLAAAGLYLLTFAGSGMSLNKGDVLVFVCAIGFALHIGYTGVYAGRYPSLLLAALQMAVVGVFSLIASALTEHVGNAADLMEKLTEPNVLWALAVSIGPTSAFAFWIQTVCQKYTTPSRVAIIYATEPVFAALTGILFAGERLTLIGGIGCLCILAGMVIAELKSAPQKVQ				NA	NA	NA	NA	NA
AK002_05126	807			Putative phosphatase	TTGACAACTTACAAATTGATGGCCATCGACATTGACGACACCCTGATCAATGACGATAAGGAAGTAACCCCTGGCGTCCAGCAGGCGCTTGAGCAAGCGGTCGCCCACGGCGTCGTCGTGACGCTGGCAACCGGACGTGCCTATGCGTCAGCCCAGGCGATTGCCCGTCAAACCGGACTCAACGTTCCCATCATCACCTACCAAGGTGCCTTGATCAAAAATCTGCTCGACGAAAAGGTTCTCTACGAACGCTTCGTTCCCGTCGACGCTGCCGTAAAGCTGTTTGAATACTGCGTGGAGCACAATCTGCATCTGCAAACCTACATTGATGACAAGCTGTATGCCCGCGAAGAGAATCAGAAGCTGATCGATTACTGCGCCCTGAACCGGACGCCTTATTATATCGAGCCTGATTTTATGACGATGGTTCGGAAACCGACACCGAAAATGCTCATTATTGACGATCCCGACTATCTCGATGAACTGATCCCTATATTCCGCGAGCTGCTTGGCGATGAAGTCCATATTACCAAATCCAAGCCGCATTTTCTGGAGTTCATGCATAAGGAAGGCACAAAGGGACATGCGCTGACCTTCCTGGCCGATCATTTTGGCTGCGATCTCAAGGAAACCATCGCTGTCGGCGACTCCTGGAACGACCACGAAATGCTGGAGGCAGCCGGACTTGGCGTCGCTATGGGCAATTCGATTGAGCCGCTTAAGGCGATTGCCGATTACGTTACGCTGGGGAATAACGAAGACGGCGTAAAGCATGTCATTGATAAATTCGTGCTCAACCAAGGTTAA	MTTYKLMAIDIDDTLINDDKEVTPGVQQALEQAVAHGVVVTLATGRAYASAQAIARQTGLNVPIITYQGALIKNLLDEKVLYERFVPVDAAVKLFEYCVEHNLHLQTYIDDKLYAREENQKLIDYCALNRTPYYIEPDFMTMVRKPTPKMLIIDDPDYLDELIPIFRELLGDEVHITKSKPHFLEFMHKEGTKGHALTFLADHFGCDLKETIAVGDSWNDHEMLEAAGLGVAMGNSIEPLKAIADYVTLGNNEDGVKHVIDKFVLNQG	PGPT0017727_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0017727-yidA-NA	NA	NA
AK002_05127	762			hypothetical protein	ATGCATTACTACAAGCCGAAAGACATCGCCAAAGAGCTGCATATCAGTACGAGTGCTTTAAGGCATTACGAATCTTGGGGAGTGGTGCCCTCACCTGAGCGGAACGAGAAGGGGTACCGTCTATACACGAAGATGCATCTCGCCTACTTCCGGTGTCTGCGGGCCATGTTCCCCGGGTTCGGTTATGCCGTAACCTATGATGTGATTCGCCATATCCAGAAGAGGGAGATGGATGAAGCCCTCTGGCTCGTGAACGGGGAGCAGGTCAAACTGCAGCAGGAAAAGACCATTGCGGACGAAACGTTAGCCCTGCTTGAGAATCCCGGGCTTGACAGTATCAGGGATAAAAAGCTGAAGGCTCATATGACGATCGGCGAAGTTGCCGAATTGACCAACGTGGAGTCGTCCGCCATTCGTCACTGGGAGAAGGAAGGCTTGATCACTCCCGATCGCAACCCCGAGAATGGATATCGGCTGTACAGTCCCTCGCATGTCCGGCAGATTTTGCTGATTCGCTCGTTAAGGCGGACCGTGTATTACCTGGAGAGCATCAAGGAGATTATTCAGGCCGTGGAGCATCAGAGCATTGAGCAGGCCAAAAAATTGGTCCGCGAAGCGTTGTCGGTCATTCATCAACGAAATTTGCAGCAATTCAACGGCATTCATAAACTGATGGAGCTGTGCATGGAGGTAGGCTTGCTGGAGTTCAACGATGCGGCTCTTCTGAAGCCGATTCTAACATTTAACCCGGATCGGGAATGA	MHYYKPKDIAKELHISTSALRHYESWGVVPSPERNEKGYRLYTKMHLAYFRCLRAMFPGFGYAVTYDVIRHIQKREMDEALWLVNGEQVKLQQEKTIADETLALLENPGLDSIRDKKLKAHMTIGEVAELTNVESSAIRHWEKEGLITPDRNPENGYRLYSPSHVRQILLIRSLRRTVYYLESIKEIIQAVEHQSIEQAKKLVREALSVIHQRNLQQFNGIHKLMELCMEVGLLEFNDAALLKPILTFNPDRE				NA	NA	NA	NA	NA
AK002_05128	411			hypothetical protein	ATGATGAATATGCACATAACCGAGGAAGTTCCACAGCTTAAGGAATATTTCGATCTTAGATTCGATGCAGGGCTGACTGAGGTCGAGGAATCGATCGCAGAGACCGCTCTCAACCGCAGCCTGCTCTCCGTCCTTGTCCGTGACGGCAATGACCGGCTGATCGGTATGGGGAGGGTGATCGGCGACGGCGCTTTGTATTTTCAACTGGTAGATGTTATGGCCGCGGCATCCTATCGGGATCAAGGGCTTGAAGAAACGATCGTGTCCGAACTGCTCGGCCGCTTGAAAAAAATAGCGCCAAGCGGAGCCGAGGTCACCGTCATCACGGACGTTCCCGGAATCAAGCTGTATCAACACGCCGGCTTCAAGCTGCTGTACCCTGAACGATACGGTATGGCCGGATCTGTGTGA	MMNMHITEEVPQLKEYFDLRFDAGLTEVEESIAETALNRSLLSVLVRDGNDRLIGMGRVIGDGALYFQLVDVMAAASYRDQGLEETIVSELLGRLKKIAPSGAEVTVITDVPGIKLYQHAGFKLLYPERYGMAGSV				NA	NA	NA	NA	NA
AK002_05129	780	phnP_2	COG1235	Phosphoribosyl 1,2-cyclic phosphate phosphodiesterase	GTGAGCGGAGATACATTAACTTTTCTGGGAACCGGGGATGCGATGGGCGTCCCGCGGGTATATTGCGATTGCGAGGTATGCACGGAAGCGAGGAGTACGGGCGTGAACCGGCGATTGCGCTCCTCGGTGATGGTGGAGTGCGGCGAAACGTCCTTCATGATCGACTGCGGTCCGGATTGGCGCGGCATGATGGAGGGGCTCGGGATTCGAAAAATGAGCGATATGCTGATTACGCACGCCCACTTTGATCATATCGGAGGCCTTCCGGAATGGAGCGATGCCTGCAGATGGCAGAGGGAAAAAGGCCGGCTATACGCCCCAGCCGAGGTGCTGGACCAGATTGTCCGGCAGTACCCGTGGCTTCCGCGGCAGATGGAGATGACGCCAGTCGATGAAGGATTTACATTAGCTGGCTGGGAGATTTCGTGCTGGAAAGTAAACCATGGCAAGAACGGGTACTCCTACGCCTACCGGTTCCAGAAGGACGGGTACACATGGGTATACAATTCGGATTCGATTCATCTCAGCCTGGAGGAAAAGGAGCCGCTGAAAGGCGTGGATCTCCTGGTACTGGGAACCAGCTTTGTTCATGAAACCGCCCAATTCGAGACCCGTTCCGTCTATGACATGAAGGAAGCTGCAGAGCTGCTCGCCGAGGTGAAGCCTCGCCAAACGGTGTATACCCATATGTCGCATGACGTCGACGTTCGGAAAGAGCTGCCTCTGCCAGAGGGAGTCCGTGTGGCGGTGGCGGGGATGACCGTGAGATTGAATAAATGA	MSGDTLTFLGTGDAMGVPRVYCDCEVCTEARSTGVNRRLRSSVMVECGETSFMIDCGPDWRGMMEGLGIRKMSDMLITHAHFDHIGGLPEWSDACRWQREKGRLYAPAEVLDQIVRQYPWLPRQMEMTPVDEGFTLAGWEISCWKVNHGKNGYSYAYRFQKDGYTWVYNSDSIHLSLEEKEPLKGVDLLVLGTSFVHETAQFETRSVYDMKEAAELLAEVKPRQTVYTHMSHDVDVRKELPLPEGVRVAVAGMTVRLNK	PGPT0002480_893	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-OTHER_ACID_METABOLISM	P-SOLUBILISATION-PHOSPHONATE_DEGRADATION,PGPT0002480-phnP-K06167	NA	NA
AK002_05130	237			hypothetical protein	GTGAGCAGGAATGAGAAGAAGAGAACGTCAGGTCATCCGCAGGGGTCCGCCAATGGCAGCAGCTGGGTGGTTCGGGGGCCCGTACCGATGATGAGTACGCTGAAATCCCGGAAGCGCTCGGTCAGACGCTCAAGCAAGAGCAGTGTATATGTCGGTCCTTCCGTGGAAGGTGTGGATAAGAAGTACGTCAAGGTCATCAGCGGAGCTGTTGACGATAATAAGCCCTCGTTTGCTTAA	MSRNEKKRTSGHPQGSANGSSWVVRGPVPMMSTLKSRKRSVRRSSKSSVYVGPSVEGVDKKYVKVISGAVDDNKPSFA				NA	NA	NA	NA	NA
AK002_05131	1029			hypothetical protein	ATGACCATACCGAAGCCCAATTTATTCATAGGTTCTTCCAGAGAGGCCATCAAGTATGCAAGGGCGATCCACGAACAGATCAAACGCTCCGCCCAAGTGACGCCTTGGTACGGGGGTACGTTCGGGGCGAATATGTATACGATGGAAGCTTTGGAGAAGCAGCTGGCGTCCAGTGATTTTGGTGTGTTCGTCTTTTCTCCGGATGATGTGGCGCTCATTCGAGGCAAACATGTATTTGTTACCCGCGACAACACGTTGTTTGAGATGGGGCTATACTGGGGAAGGCTCGGGCGGCGAAGGGTATACTGCATCATTCCGGATCAGGTAGAGGCAGACAGCAGTTCCGTTCAAGACGTGATCGTTAAGGATTATCACCTACTCTCCGACCTGCAGGGCATTACGCTGCTCGAATACGAGCTTCGAAGCGACGATGATTATAAATCTGCCGTCGATGTCGCCTGCGGGCATATTCTGAGCGCGATCGAAACCGAAGGATTCTATAACAACCCGAGCACATTGATTGAACAGAAGGATGCGGAGCTGAGACGCAAGCAAAGCGTGCTGCATTTTTTCTGGGAATATAACCGAAACGTGCATGTGAGCGATGAAGCGGAAAAATATCATGCACTGAGTGAAGCCGTCCGAAACTCCTTGCTCCCGCCGGCTGCAGGGGATTTCCGGGTGACCGGCGCAGCCTTTTGGGGACGAAGGGATGAAGGCATTGCCCAAATTGGGGGTAATGTAGGTAAAGGACGGTATTTCCCGTTCGATGGGAAAAAGGATCATTCGCCAAGCAACCAGTCGATTTACGTGATTGATGTCTATAATAGTGGAAAATGGGCATTTTATCACGAAGAGGAAGTTGCGCAGGTGTATGTGTTCTGCTATCCTTTAGGTGTAAATCATGTATTGTCCGTGCATTTTACGGGACATGAGATTCTTACGGATGAAGATCTCGCGGAGGTTGTGGAACAGAATCGTGAGCTGCTTCGTACCATCAGGCATTTAGTTGGAGGGGATTCGTCGTGA	MTIPKPNLFIGSSREAIKYARAIHEQIKRSAQVTPWYGGTFGANMYTMEALEKQLASSDFGVFVFSPDDVALIRGKHVFVTRDNTLFEMGLYWGRLGRRRVYCIIPDQVEADSSSVQDVIVKDYHLLSDLQGITLLEYELRSDDDYKSAVDVACGHILSAIETEGFYNNPSTLIEQKDAELRRKQSVLHFFWEYNRNVHVSDEAEKYHALSEAVRNSLLPPAAGDFRVTGAAFWGRRDEGIAQIGGNVGKGRYFPFDGKKDHSPSNQSIYVIDVYNSGKWAFYHEEEVAQVYVFCYPLGVNHVLSVHFTGHEILTDEDLAEVVEQNRELLRTIRHLVGGDSS				NA	NA	NA	NA	NA
AK002_05132	1278			hypothetical protein	ATGCGGAATAAAAAGATACTCACAGGCCTATGTTTGCTTGTTGGGCTTACCGCCTGCGCTCAGGACAGCGGGATCCAGCCAGGGGAATCGCAGGGCATTGCGCATAAGCAGACCAAAGTGAAGGAATTGTCGGCGCAGGAACGCAAAGAGGTATTAGGCAAGGTGGATGCCGGCATGGTGAAAGCGCAGAATGATTTTGGTTTACGGTTGCACCAGGCGTTATCGGATAACCCTGAGTACACGAGCGATAACCTGATTATTTCTCCATACAGCATCACGCAGGCCTTGGCACTGGCTTATAACGGGAGCGCGGGCGATACGGCTGCCGAGATGGCCGATATGCTGGGCTGGAGGGGCATGAATGATGCAGGCATCAATGAAGGCAACCGCCAGCTCCGCTCCTTGCTGGAGAATGGAGGCGGCGTTGTGCTGAACGTAGCTAATTCCGTTTGGCACCGGCCAGGTCTTAAGCTAAAGGAGGCTTATGCGGAGGCCGTAAAGGACAGTTACGGCGCGGAGGTCAGGGAGACGGACCTTAAGCAGGAGGAGGCAATGCATGCAATTAACCAATGGGTGAAAGACAAAACCAGCGGCATGATCCCTAAGATATATCATGAGCCGCCAGGCGGCGTTGCGGTCCTGATCAATGCCATATATTTCAACGGCGGGTGGACGGATGAATTTGATCCGGCAAATACCGTGGATGAAGAATTTACGCTATCTGACGGCACCACTCAACAAGTCCCGATGATGAAGAGGGAAGATAGATACAGCTATAAAGAAGGAGAGTCCTGGCAGGCCATCCGCATTCCATATGGAGATGGCCGCATGCACATGCTGGTCATCCTGCCGAAGGAATCCTCCACGATCGATAAGCTGCATCGGCAGCTGTGGAAGGATGCGTCCGTTTGGAAAGGCGATTACACGTTCGAAACGGTTCAGCTCAGTCTGCCCAAGTTTAAGGCGGAGCAGAGCTTTGAGCTTCCGGATGCCCTTAAGAGCCTTGGCATGGTCAAGGCATTCGACGCCGTCGAGGCTGATTTTAGCAAAATGGCCGAACAAGGAGATGGATTTTGGATCGATCATGTCACACACCAGACGATTGTCGATGTCAGCGAAAAAGGGACAAAGGCCGCAGCTGTGACAGCGGTGGGAATAACGGAAAGCGCCGAGCCTACCGAGCCGATCGCCATGAATATCAACCGCCCTTTTTTCTTTGCCATTGAAGATCGGGACACGGGTGCATGGTTATTTATGGGGTCTGTTTTGAAACCGTAG	MRNKKILTGLCLLVGLTACAQDSGIQPGESQGIAHKQTKVKELSAQERKEVLGKVDAGMVKAQNDFGLRLHQALSDNPEYTSDNLIISPYSITQALALAYNGSAGDTAAEMADMLGWRGMNDAGINEGNRQLRSLLENGGGVVLNVANSVWHRPGLKLKEAYAEAVKDSYGAEVRETDLKQEEAMHAINQWVKDKTSGMIPKIYHEPPGGVAVLINAIYFNGGWTDEFDPANTVDEEFTLSDGTTQQVPMMKREDRYSYKEGESWQAIRIPYGDGRMHMLVILPKESSTIDKLHRQLWKDASVWKGDYTFETVQLSLPKFKAEQSFELPDALKSLGMVKAFDAVEADFSKMAEQGDGFWIDHVTHQTIVDVSEKGTKAAAVTAVGITESAEPTEPIAMNINRPFFFAIEDRDTGAWLFMGSVLKP				NA	NA	NA	NA	NA
AK002_05133	567			hypothetical protein	ATGCAAAAAATCCGTCTTGAAGGCAGCAAAGTGACGCTGCGATCCAGGAAACCCGAGGATACCCCTGTTCTATATAATCTGATCTATGGCACGAAGAACCCGGAATGGAAAAAATACGACGCCCCTTATTTTCCGCTCAAGCAGATTTCCTACGAAATTTTTGAAACGCAGTGGAATGCCGACTTCGAAACCGATCAATTTCCGAGCGATCTGCTCATCGAAGTCGAGGGCACAACGATTGGCATCGTCACATTCTATTGGGAGCATGAGGCCTCTCGCTGGCTTGAAGCCGGCATCCTGATTTATGACCCGGGCCGTTGGAGCGGCGGGTACGGTACGGAAGCACTGTCGTTGTGGGTAGATTGCCTGTTCCAAAACCTCACCATCGCCCGTGTCGGCATTACGACCTGGTCCGGCAATCCGCGAATGATGCGCTGTGCGGAAAAGGTGGGCATGCAGCTCGAAGGCCGTATGCGAAAGTGCCGGTATTACGACGGCGTCTATTACGACTCCATTCGCATGGGCATTCTGCGAGAAGAATGGGAAGCGCGCAAAACAACCGTATAG	MQKIRLEGSKVTLRSRKPEDTPVLYNLIYGTKNPEWKKYDAPYFPLKQISYEIFETQWNADFETDQFPSDLLIEVEGTTIGIVTFYWEHEASRWLEAGILIYDPGRWSGGYGTEALSLWVDCLFQNLTIARVGITTWSGNPRMMRCAEKVGMQLEGRMRKCRYYDGVYYDSIRMGILREEWEARKTTV				NA	NA	NA	NA	NA
AK002_05134	1059	sbpA	COG1613	Sulfate-binding protein	ATGCGGATCTTGAATATGAAACGAACTTCATTCCTGCAAGTGGGCATGGCGCTTCTCTTCAGTTTGCTTATCGCAGGATGTGCTGATGATCAGCCCGTCAGCGAAGCAGCGATATCGCAGCCGGGCGAGCGAACGATCGTGCTGGGCGCGTACAGCGTGGCCAGGGATGCGTTGTCCGAGATTATCCCCGCTTTTCAAGCCGAGTGGAAGGCACAGACGGGAGAAACCATTCGTTTTCAGGAATCCTACGAGGCCTCCGGAACACAGGCGCGCGCCATTACGGGCGGGTTTGAGGCTGACGTCACGCTGCTTGCCATGGAAGGGGATGTCGATAAGCTCGTCAGGGCAGGACTCGTCGACAAGGAGTGGAAATCCCAGCCGTATAACGGCATGGTGACACGCTCGATTGTCGTTCTCGGTACCCGCGCCGGAAATCCGAAAGGGATACGGGATTTCGACGATCTAACCCGTTCGGACGTCAAGGTGCTGTATCCGAATCCGAAGACCTCGGGCGGAGCGCAGTGGGACATCAACGCGATATACGGCGCCGGCCTGAAACAATCGGAAGAGAATGGAACGCGTGATCCTGCCGAAGCGAAAGCCTTCCTTGAAGCGGTTCACCGCAATGTGGAGTCGCTCGATAAAAGCGGGCGGGCTTCGATGGCGGCTTTTGAATACGGGGTAGGGGATGTGATCGTTACGTATGAGAACGAGCTGCTGGCCCGGATTGCCCAAGGCGTCCAGTATGACATTGTTGTACCGCAGCATACGATGCTGATCGAGAATCCGGCCGCAGTCGTGGAGCGGTTTGCGAAGAAGCACGGCACTGAGGATGTATCGGCGGCTTTTGTGGAGTACTTGCGTACGCCGGAGGCGCAGAACATCTTCGTGAAGCATGGCTTCCGTCCCGTCGAGGAATCGGTGTTTGAACAGACGAAGGAGCGGTTTGCCAACCCGCCGGGGCTGTTCGACATCGAGTATCTGGGCGGATGGGACCAGGTGCGCGAGACGCTGTATTCGAAGCGAGGGGTTTGGTATCAGGTGCTGGCAGGGCTGTGA	MRILNMKRTSFLQVGMALLFSLLIAGCADDQPVSEAAISQPGERTIVLGAYSVARDALSEIIPAFQAEWKAQTGETIRFQESYEASGTQARAITGGFEADVTLLAMEGDVDKLVRAGLVDKEWKSQPYNGMVTRSIVVLGTRAGNPKGIRDFDDLTRSDVKVLYPNPKTSGGAQWDINAIYGAGLKQSEENGTRDPAEAKAFLEAVHRNVESLDKSGRASMAAFEYGVGDVIVTYENELLARIAQGVQYDIVVPQHTMLIENPAAVVERFAKKHGTEDVSAAFVEYLRTPEAQNIFVKHGFRPVEESVFEQTKERFANPPGLFDIEYLGGWDQVRETLYSKRGVWYQVLAGL	PGPT0003015_343	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003015-sbp-K23163	NA	NA
AK002_05135	1065	cysA	COG1118	Sulfate/thiosulfate import ATP-binding protein CysA	ATGCATGTGGAAGTTCGCGATCTGAACAAGCATTTCGGTACGTTTCACGCCGTCAAGAATGTCAGCTTCGAGATTGAAAAGGGACATCTGATCGGGCTGCTGGGGCCCAGTGGAGGCGGTAAAACCTCCATCCTGCGCATGCTGGCCGGGCTTGAAAATCCGGATTCCGGACAAATCTCCTTTCATGGCCAAGTGGTCAATGACCTGCCGCCGCAGGAGCGCGGCATCGGCTTTGTGTTCCAGAACTATGCCTTGTTTAAGCATATGACCGTGTTTGACAACATCGCTTTCGGCTTGAAGGTGAAGAAGGCCGCCAAGGCCAAAATCAAAGACCGGGTAATGGAGCTGGTGGAGCTGACGGGCTTGAAAGGCTTCGAGAGCCGCTACCCGCACCAGTTATCGGGCGGACAGCGCCAGCGCGTAGCCTTTGCCAGAGCGCTTGCGCCCGAGCCGCAGCTGCTCTTATTGGATGAACCGTTCGCCGCAATCGATGCGAAGATCCGCCAAGAGCTTCGCTCCTGGCTTCGCGATCTGATCGAGCGGGTCGGCATCACGTCGATTTTTGTTACGCATGATCAGGACGAGGCCATTGAAGTCGCGGACGAGATCATGATCATTAATCAGGGGCGCGTCGAGCAGAAGGGAACGCCGTGGGATATTTACAAGGAGCCGAAGACGCCGTTTGTCGCTTCCTTCATAGGCGAGTCCACCGTCATTTCAAGCGCTGCCGAGCTGAAGGGATTTGAGGCAGCCGCTAACAAGAATGCGACGCGCGCATTAATTCGCCCGGAATATATCGAGATTGGAAGCGAGCATGATTTCAGCGTGCTGTCCGCCACGGAGACGGGGATCGTCCGCCATTTGCATTTCCGCGGCAGCGAGTGGCTGGTGGAGGTGGAGGTCAAGGGACATAAACTGATCACCTACCGGTCGCTGGAGAAGGAAACGCTGCAGCCGGGCCAAGAGGTCCGCGTCCTCGTTCATCGGGCATATCTCTTTAACGACGAGCACAGCTGGATCGAGGAAAATCGCCTGAAGGTCGATCCGATGCCGATTATGATCTGA	MHVEVRDLNKHFGTFHAVKNVSFEIEKGHLIGLLGPSGGGKTSILRMLAGLENPDSGQISFHGQVVNDLPPQERGIGFVFQNYALFKHMTVFDNIAFGLKVKKAAKAKIKDRVMELVELTGLKGFESRYPHQLSGGQRQRVAFARALAPEPQLLLLDEPFAAIDAKIRQELRSWLRDLIERVGITSIFVTHDQDEAIEVADEIMIINQGRVEQKGTPWDIYKEPKTPFVASFIGESTVISSAAELKGFEAAANKNATRALIRPEYIEIGSEHDFSVLSATETGIVRHLHFRGSEWLVEVEVKGHKLITYRSLEKETLQPGQEVRVLVHRAYLFNDEHSWIEENRLKVDPMPIMI	PGPT0002990_851	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002990-cysA-K02045	NA	NA
AK002_05136	798	cysW_2	COG4208	Sulfate transport system permease protein CysW	TTGAAACGATTATGGATCGGACTTACGTATGCCGTATTTATCATCCTGCTGATCATTCCGCTGTCCCGAATTGCGATCGGTGCGTTCGATAAGGGGCTGGACGGGTTTGCGGAGGGGCTGCTCAGGCCTGAAGCCCTGCATGCCCTGATGATGACGGGTCTGATTGTGGTATTCGTTACTTTTTTGAATGCGTTGTTTGGCATCATGATGGCGCTGTATCTGGTGCGGGCAAATTGGCTCAGCCGAAAGATCAAGGGCATTCTGAACAGCATTGTCGACCTGCCCTACGCTGTTTCGCCGGTCATCGGCGGTTTGATGATTGTGCTGCTGCTGGGACCCGACAGCATCATCGGCGGTTTTTTTGAAGGAATCGGGTTTAAGGTGGTGTATGCGTTCCCCGGCATGGTGATCGCAACGCTCTTCGTTACGTTCCCGCTGATGGTTCGCGAGGTCATGCCCGTGCTGCAGGAGATCGGAAACGATCAGGAGCAGGCGGCAGCGACGCTTGGGGCATACGGGTGGACCACGTTCGTGAAAGTAACGTGGCCTTCCATCCGGTGGGCCGTCGTATACGGTCTGGTGCTCACGGTAGCCCGTTCATTGGGCGAGTTCGGCGCCGTGCTGGTTGTATCCGGCAACATTATGAACAAAACCCAGACGGCGACGACGCTAGTGTATCAGGACGTGGAGAATTTCAACGTGGCTGCGGCGAATGGAGTGGCGCTGGTACTGGCCGCCTTCTCCGTAGGTCTCTTGCTGCTGATGGAATGGGCCAAAAAAAGAAAGGATGTGCATTGA	MKRLWIGLTYAVFIILLIIPLSRIAIGAFDKGLDGFAEGLLRPEALHALMMTGLIVVFVTFLNALFGIMMALYLVRANWLSRKIKGILNSIVDLPYAVSPVIGGLMIVLLLGPDSIIGGFFEGIGFKVVYAFPGMVIATLFVTFPLMVREVMPVLQEIGNDQEQAAATLGAYGWTTFVKVTWPSIRWAVVYGLVLTVARSLGEFGAVLVVSGNIMNKTQTATTLVYQDVENFNVAAANGVALVLAAFSVGLLLLMEWAKKRKDVH	PGPT0003005_1883	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003005-cysW-K02047	NA	NA
AK002_05137	870	cysT_2	COG0555	Sulfate transport system permease protein CysT	ATGGTTTGTGGAGGAGTCGACCGGAATGCCATCCGGAGGCGGGAGGGATACGAGATGACAACATGGATTCGTCATAAAGGTTGGACTTGGGGTTTTCGAAGCACCGTACTGCTTTATTTTCTTGCCTTGATCGTACTGCCGATCTTTGGGGTGTATGTGCAATCATTCTCTGCGGGATGGAGCCATTTTGCGGAAAGCGTAATGGATCCGATCGCCTGGAAGGCCGTGCTGCTTACCATTAAACTGGGCCTAATCTCTACTTTCATCAACGTGCTTATCGGAACGATGATTGCTTGGGTGCTCATACGGTATGGATTTCCGGGAAGGACGCTGCTGAACAGTCTGGTGGATCTGCCCTTTGCGCTGCCGACGGCCGTTGGCGGCTTGATGATTTTGCTGCTGCTTGGGCCGGGGAGCTTGCTTGGAGGCCTGGCGGAGAAGCTCGGCTTTGAAATTGTGTTCCATCAGCCTGCGATCGTGGTCGCCATGCTGTTTGTCACGTTTCCGTTTGTAATCCGGGCGGTTCAGCCGCTGCTGGAAGAGCTGGACCCGCTGGAGGAAGAGGCCGCATATACGATGGGCGCTTCCAGAACGAGAACCTTTTTTAAAGTTATCCTGCCCTCGATGCTGCCGGGAATTATCAGCGGAGGGATGCTGGCCTTCTCGAGGGCATTGGCTGAATTCGGTGCCGTCGTCCTGGTGGCCGGCAACATTCCTGGCAGGACGCTGATCGCTTCGGTATTTATTTTTGGTGAGGTGGAGAGCGATAATCCGGCCGGAGCGGCTGCCGTATCGATTCTGCTTCTTACGCTCTCCTTCATCATCCTCTGGGTGATCAATGCCGTGCAGCAGAGGGGGAGACGAGCTTGA	MVCGGVDRNAIRRREGYEMTTWIRHKGWTWGFRSTVLLYFLALIVLPIFGVYVQSFSAGWSHFAESVMDPIAWKAVLLTIKLGLISTFINVLIGTMIAWVLIRYGFPGRTLLNSLVDLPFALPTAVGGLMILLLLGPGSLLGGLAEKLGFEIVFHQPAIVVAMLFVTFPFVIRAVQPLLEELDPLEEEAAYTMGASRTRTFFKVILPSMLPGIISGGMLAFSRALAEFGAVVLVAGNIPGRTLIASVFIFGEVESDNPAGAAAVSILLLTLSFIILWVINAVQQRGRRA	PGPT0003000_1690	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0003000-cysT|cysU-K02046	NA	NA
AK002_05138	402			hypothetical protein	ATGCTGTATACGGGTGAATTGGCTACGCAAGGACGCGATGAGATGAGGGATATTACAAGGGAGATCCACTCTTTCGTGAAACAAAGCGGAGTCCAGCAAGGAACGGTCCTGATTTATTGTCCGCACACGACGGCGGGAATCGCCATCAACGAAAACGCCGATCCCGATGTGAAACGGGACGTGCTGATGTCTTTGGATGAGGTCTATCCATGGAAGCATCCCAAGTATCGCCATGCGGAGGGCAACACGGCCTCCCACCTTAAATCGATCACCTGCGGCCCTTCGCAGACCGTGATCATTCAGAACGGGCACCTGCTTCTTGGACGCTGGCAGGGAATTTACTTCTGCGAATTCGACGGACCGAGGCAGCGCCAATATCATGTGAAGATCATGGAAGGATAA	MLYTGELATQGRDEMRDITREIHSFVKQSGVQQGTVLIYCPHTTAGIAINENADPDVKRDVLMSLDEVYPWKHPKYRHAEGNTASHLKSITCGPSQTVIIQNGHLLLGRWQGIYFCEFDGPRQRQYHVKIMEG	PGPT0015021_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015021-yugU-NA	NA	NA
AK002_05139	594			hypothetical protein	ATGGCAAGAAGAGCAGTCGAACGCGAGTTGTCGAGAGAGCGGATACTGGAAGCAGCCAGGCATTTGTTCATAACCAAAGGATACAGGGCCATTTCGATGCGAAGCATCGGGCAGCATTTGGGTTATAGCCACGGCTCTTTGTATTATCACTTTAAGGAAAAGGCGGAGCTATTCTACGCCATTGTCATGAAGGACTTTAATGATCTTAATGATTTGCTGTTGGAGGTCTCGGTAAAGCCTCCCTGTGACGGGGTATCGAAGCTGGAGCAGCTGATGCTGGAATTCGTCCGTTTCGGTCTGGATAATCCTTACCAGTACGAAATCATGTTCATGATCCGGGACGAAGAGCTGCTGTCTTACTGTCGCTCTGAGCAGGGACGCTGTTTTGAAATGTTTGCTATGCTGGTTCGTCAGTATTTGCTGGAGGAGAATTACAGTGAGGAAGAACGGCGAACCGTTCCGCTGACTTTGTTTTTGTCGCTGCATGGATTTATATCGTATTATATTCAGGACAGAATCGGTTTTGATGAGATTAAACCAGCCGCTCTTACCCATATCAAAGTGTTATGCCGGAGTCTGTACAGCAGAGTCTAA	MARRAVERELSRERILEAARHLFITKGYRAISMRSIGQHLGYSHGSLYYHFKEKAELFYAIVMKDFNDLNDLLLEVSVKPPCDGVSKLEQLMLEFVRFGLDNPYQYEIMFMIRDEELLSYCRSEQGRCFEMFAMLVRQYLLEENYSEEERRTVPLTLFLSLHGFISYYIQDRIGFDEIKPAALTHIKVLCRSLYSRV				NA	NA	NA	NA	NA
AK002_05140	633	yigZ	COG1739	IMPACT family member YigZ	ATGCTGGATCGTTACAAAACGGTACGTCAGGCGGGCTCCAAGGAGATCGTCATCAAGAAATCGCGTTTCATCGGGCATGTAATGCCGGTAGAAACCGAAGAGGAAGCCGTCGCTTTTATTGAAGAGATCAAGAAAAAACATTGGAATGCTACGCACAATTGTTCCGCTTACATGATTGGCGAGCGGGATGAGATTCAGAAGCAATCGGATGACGGGGAACCGAGCGGAACGGCCGGCAAGCCGATTCTCGAGGTGATCCGCAATCAGGGCCGGAAGAACGTAGCTATCGTGGTCACGCGTTATTTTGGCGGCATTATGCTGGGTGCGGGCGGATTAATCCGGGCGTACACCGATGGAGCCGTGGCTGCGATCGAGTCAGGCGAACCGATTACAAGGGTTCTTCACCGGGAGATTTTTGTGGAGCTGGATTATACCTGGCTGGGTAAGGTGGAGAACGAGCTTCGTAACCGGAACGTACGCATGGGAGAGACAAACTTTGCCGACACGGTGACTTTGACCTGCTTGCCGCTCGATGGTGATGCGGAGAGCTTTATGACTTGGATGGTGGATTTGACACAGGGGCAGTCCTTGATCACGGAGGGAGAGCGGCTTTATTTTATTGAAGGGGAATAA	MLDRYKTVRQAGSKEIVIKKSRFIGHVMPVETEEEAVAFIEEIKKKHWNATHNCSAYMIGERDEIQKQSDDGEPSGTAGKPILEVIRNQGRKNVAIVVTRYFGGIMLGAGGLIRAYTDGAVAAIESGEPITRVLHREIFVELDYTWLGKVENELRNRNVRMGETNFADTVTLTCLPLDGDAESFMTWMVDLTQGQSLITEGERLYFIEGE				NA	NA	NA	NA	NA
AK002_05141	1356	pgi	COG0166	Glucose-6-phosphate isomerase	ATGTCTAAAAAAATCAAGTTTGATTACAGTAAAGCACTGACCTTTGTCAATCAGCACGAAGTTGATTATTTCGCTGAGCCGATCCGCACAGCTCATGAACAGTTACATAACGGTACGGGCGCCGGCTCCGATTATTTGGGCTGGATCGACCTGCCGACTCAGTACGATAAAGAGGAATTCTCCCGCATCCAGAAAGCGGCCGCCAAAATCCAAAGCGACTCGGACGTCCTGATCGTAATCGGAATCGGAGGCTCCTACCTGGGTGCGCGCGCAGCCATTGAAATGCTGTCGCATTCGTTCTATAACGAGCTGTCGAAGGACCAGCGCAAGACGCCGGAAATCTACTTTGCGGGCAACAACATCAGTTCCACGTATGTTTCGCATCTGCTTCAATTGATCGAAGGCAAAGACTTCTCCGTCAACGTTATCTCCAAATCCGGCACAACGACGGAACCGGCAATCGCTTTCCGTATTTTCCGTGCGGAGCTGGAGAAGAAATACGGCAAGGAAGAAGCGCGTAAACGCATTTACGCGACGACGGATCAAGCGAAGGGCGCCCTCAAGAAGCTGGCGACCGAGGAAGGCTACGAGTCCTTTATCATTCCTGACGATGTGGGCGGACGTTATTCCGTTCTGACCGCGGTAGGTCTGCTTCCGATCGCGACGGCAGGCATCAATATCGAAGAGATGATGCAGGGCGCGGCAGACGCCTCCAAGGAGTACAGCAGCCCGAACGTTGCCGAGAACGAGGCTTACCAATACGCAGCGGTTCGCAACGCGCTTTACCGTAAAGGCAAAGGCATCGAGATCCTGGTGAACTATGAGCCTTCCCTGCATTTTGTATCCGAATGGTGGAAACAGCTGTACGGCGAGAGCGAAGGTAAGGATTACAAGGGGATCTACCCGGCATCCGTCGATTTCTCTACCGATCTGCACTCCATGGGTCAATTCATCCAGGAAGGCAGCCGCAACATCTTCGAAACCGTTATTCAGGTGGAGAACGTATCCGAGCATATTACGATCGAATCGGATCCGGACGATCTGGACGGATTGAACTTCCTGACCGGGAAAACATTGGATTTTGTCAACAAAAAGGCGTTCCAAGGCACGATGCTGGCCCATACAGACGGACAAGTTCCGAATTTGATTGTGACAATTCCAGATTTCACTCCCTATTCGTTCGGATATCTGGTATACTTTTTCGAAAAGGCCTGCGGTATCAGCGGCTATCTGTTGGGTGTCAACCCGTTTGACCAACCGGGCGTAGAGGCGTACAAGAAAAATATGTTCGCGCTGCTCGGCAAACCTGGGTACGAGAAAGAGAAGGCCGAATTGGAAGCTAGACTTTCCGAATAA	MSKKIKFDYSKALTFVNQHEVDYFAEPIRTAHEQLHNGTGAGSDYLGWIDLPTQYDKEEFSRIQKAAAKIQSDSDVLIVIGIGGSYLGARAAIEMLSHSFYNELSKDQRKTPEIYFAGNNISSTYVSHLLQLIEGKDFSVNVISKSGTTTEPAIAFRIFRAELEKKYGKEEARKRIYATTDQAKGALKKLATEEGYESFIIPDDVGGRYSVLTAVGLLPIATAGINIEEMMQGAADASKEYSSPNVAENEAYQYAAVRNALYRKGKGIEILVNYEPSLHFVSEWWKQLYGESEGKDYKGIYPASVDFSTDLHSMGQFIQEGSRNIFETVIQVENVSEHITIESDPDDLDGLNFLTGKTLDFVNKKAFQGTMLAHTDGQVPNLIVTIPDFTPYSFGYLVYFFEKACGISGYLLGVNPFDQPGVEAYKKNMFALLGKPGYEKEKAELEARLSE	PGPT0017735_4553	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
AK002_05142	897	garR_3	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAAAAAAATCGGGTTTATCGGACTGGGCACCATGGGCGCTCCCATGGCCTCCAATCTGCTGAAGCAGGATTACGATGTGACGGTATATAACCGCACACACGAGGAATGCCGTCCGCTCGCCGAACAGGGAGCCTCCATCGCGGAGACGCCTCGGGAAGCGGCCGAAGGGCAAGATCTTGTCATTACGATGGTAAGCAACGACCAATCCATCCGGGATGTATTCTACGGAGAGAACGGCCTGCTTGGCTCCCTGACGAGCGGGATGACCGTCATTGACTGCAGCACGATCTCCGAAAGCCTGGTTAAGGAAATTGCCTCCGCCGTTTCCGGCCTCGGCGCTTCCTTCCTGGATGCCCCGGTAACCGGCAGCAAGCCTGCAGCGATTGATGGCACCTTGGTCTTCATGGTTGGCGGTGATGCCGCCGTCATCGAAGCGCAAGCCGACGTTTTTGACACCCTGGGCAAAAAGGTCATTCACATGGGGCCTAACGGAAGCGGCGCCGTGGCCAAGCTCGCGCACAATACGATTGTGGGCATTAACAACCTGGCACTGGCTGAAGGCTTCGCCATCGCCGCGAAATCAGGCATACCGGCAGACAACTTCCTGGAGCTCGTGCAGCTGGGATCGGCCGGCAGCAAAGCGGCGGAGCTGAAGGGACGCAAAATCATCGAAGGCGATTTCAGCAACCAGTTCTCGCTGGCGCTCATGCTCAAAGACCTGAAGCTGGCCTCTTCGCTCACCGACGGCATCGGGATGCCGTCGCCCATGCTGAACCTGGCCAAGAGCCTGTTTCAAGCCGGTGCCAGCGAAGGCTATGGCGACGAGGATCTCTCCGCCGTCGTGAAGTGCTACGAGGCTTGGATCGGCCAGAAGATTGGCGGCCAGCAGCCATAA	MKKIGFIGLGTMGAPMASNLLKQDYDVTVYNRTHEECRPLAEQGASIAETPREAAEGQDLVITMVSNDQSIRDVFYGENGLLGSLTSGMTVIDCSTISESLVKEIASAVSGLGASFLDAPVTGSKPAAIDGTLVFMVGGDAAVIEAQADVFDTLGKKVIHMGPNGSGAVAKLAHNTIVGINNLALAEGFAIAAKSGIPADNFLELVQLGSAGSKAAELKGRKIIEGDFSNQFSLALMLKDLKLASSLTDGIGMPSPMLNLAKSLFQAGASEGYGDEDLSAVVKCYEAWIGQKIGGQQP	PGPT0018170_182	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
AK002_05143	927			hypothetical protein	ATGAAATGGACCAATCGATTAAAAGCAATGGCAGCCGCTGTCGTACTAACCGCTGTTCTGTCCCCTGCAATAGGCGGTTTGCCAGCCTCTGCAGCAGTTAAACCATCCGCAACCATTAACAACGTAACCGCAAGCGGCGACGTGCTGATCAGGCAGGGCACCACCTTTGTTACCCTTACCGATCTCAAGCCTCTGGGCAACTACGTCATGAAGTACGACAACCAGAAGAAACAGGTGACCATTCAAGGCGATAACCGAACGGTGATTCTCGCGGCCGGAATCACCAGCATGGAGGTGAACGGCGTTAAGAAGGCGCTCCCTGCAGCCCCGCTGCTGCATAACGGCAAAACCTTGATTCCCCTAAGGGCCGTTGCCCAAGCCTTCGATGCCAGCGTCTATTGGAACGGCTCTTTAAAAACAGCTTATATCAATAAGGCAGAGCCCGATATCATCGCCGACTTAAAGAGCTCCGATCTGGCCACCGCCCGGAATGCTGCAGCCAAGCTTCCGTATTCATCCGAATTGAAGAAACCTGAGCTGGACATGCTGCCCGTGGAAATGCAGGGCGTGGATTATTATTTTCCCAAAGGCCAATCCCAACGCTTTTTCTTGGTAGATAACGATATCGCCAGCTATTTCGAAATCCGCGGCAGCGTTAAATATCTGAAATGGCAGGGCAAGCTGGATTATTCCGCCAAGGCACCGGCAAACCAAGATCTGTTCTTCCTGCCTGCGCTGAAAGCGGAGATCGGCAAGCAGCCGGATACCGGCAATTGGACCCTTGCCAAATTCGTATTCCGCTACCCTTCCGGCGTCACCAGCTACCGCCTGCTCGACCGCATCCAAGAATGGGGCGAAGGATACGTAGAGCTGGACAACCGGGCTCCCGGATATAAAGGCGAGATCGTGACGATCCCCGAGGAATAA	MKWTNRLKAMAAAVVLTAVLSPAIGGLPASAAVKPSATINNVTASGDVLIRQGTTFVTLTDLKPLGNYVMKYDNQKKQVTIQGDNRTVILAAGITSMEVNGVKKALPAAPLLHNGKTLIPLRAVAQAFDASVYWNGSLKTAYINKAEPDIIADLKSSDLATARNAAAKLPYSSELKKPELDMLPVEMQGVDYYFPKGQSQRFFLVDNDIASYFEIRGSVKYLKWQGKLDYSAKAPANQDLFFLPALKAEIGKQPDTGNWTLAKFVFRYPSGVTSYRLLDRIQEWGEGYVELDNRAPGYKGEIVTIPEE				NA	NA	NA	NA	NA
AK002_05144	318	ppnP	COG3123	Pyrimidine/purine nucleoside phosphorylase	ATGTCTCAATTCAAGAATGCGACCGTCACGAAAGCAGCCAATGTGTACTATGAGGGGAAGGTAACCAGCCGCACGGTGCTGCTGGAGAATGGGGAGAAGGTCACGCTCGGCATCATGCTGCCGGGAAGCTATGAATTCGGCACGGATGGCCCTGAAATCATGGAAATCCTGTCCGGCGATTTGCGTGTTCTGCTGCCCGGGGAGCAAGAGTGGTTGGAGATTCAAGAGCCCACGACCTTTAACGTGCCGGGCAATTCTAGCTTCAAGCTGGAAATCCGCGCCGTGACGGATTATTGCTGCTCTTATCCGACGATGTAG	MSQFKNATVTKAANVYYEGKVTSRTVLLENGEKVTLGIMLPGSYEFGTDGPEIMEILSGDLRVLLPGEQEWLEIQEPTTFNVPGNSSFKLEIRAVTDYCCSYPTM	PGPT0021300_203	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021300-ppnP|yaiE-K09913	NA	NA
AK002_05145	2022	tkt		Transketolase	ATGACAACTGAACATAACCAAACGATCGACAACCTGTCCATCGCAACGATCCGGACATTGGCGATCGACGCGATCGAAAAAGCCAACTCCGGTCATCCGGGCATGCCGATGGGATCCGCGCCTATGGGCTACCAGCTGTTCGCGAAGACGATGAATCATAACCCGGACCAGCCGGCGTGGATTAACCGCGACCGTTTCGTCTTGTCTGCAGGACATGGCTCCATGCTGCTCTACAGTCTGCTCCACCTGAGCGGCTATGACTTGTCCATTGAGGACCTGAAGCAGTTCCGTCAATGGGGAAGCAAAACCCCGGGGCACCCGGAATTCGGCCATACGGCCGGCGTTGATGCAACGACAGGTCCGCTCGGACAAGGCGTGGCCATGGCCGTAGGTATGGCAATGGCTGAGGCTCACTTGGGCGCGACTTACAATAAAGACGGGTTCAACGTGGTGGATCACTATACGTACGCGATCTGCGGCGACGGCGACATGATGGAGGGCGTGGCTTCCGAGGCGGCTTCCCTGGCAGGTCACCTGAAGCTTGGCAAATTGATCATGCTGTACGATTCCAACGATATCTCCCTTGACGGCGAGCTGAACCTGGCCTTCTCCGAGAACGTGGCGAAGCGTTTTGAAGCATATGGCTGGCAAGTGCTGCGCGTAGAAGACGGCAACGATCTGCCTGCGATCGAGAAAGCGATCGAGGAAGCGAAAGGCGATTCGAACCGCCCGACGCTGATCGAAGTGAAAACGGTCATCGGTTACGGCAGCCCGAACAAGCAAGGCAAAGGCGGCCATGGCGGTACGCACGGTTCTCCGCTCGGAGCCGACGAAGCGAAGCTGACCAAGGAATTCTATAAATGGGTATATGAAGAGGACTTCTACGTGCCGGAGGAAGTGCGCGAGCATTTCGGCAAAGTGAAAGAACGCGGCATTGCTGCGTATCAAGCGTGGGTGGATCAGTTCGCGAAATACAAAGAGGCTTACCCAGAGCTGGCTGCGCAATTCGAGCGCGGCGAATCCGGCAAATTGGCTGAAGGATGGGACAAAGACCTTCCGAAATACAGCGCGGACGACAAAGCGGTTTCCACTCGCGTGGCTTCCGGTAAAGCGCTGAACGGTTTGACGGCAGGCGTACCGCAGCTGCTTGGCGGATCGGCTGACCTGGAAAGCTCCACCATGACTCACTTGAACGACCTGGCATCTTTCACCGCGGAGAGCTATGAAGGCCGCAACGTGTATTATGGCGTTCGCGAATTTGCGATGGCTGGCGCGATGAACGGTATCGCTCTCCATGGCGGATTGAAAATTTTCGGCGGTACGTTCTTCGTATTTACCGATTATCTGCGTCCGGCCATTCGCCTGGCTGCGATCATGAAGCTGCCGGTTACGTATGTGCTGACACACGACAGCATCGCTGTCGGCGAAGACGGCCCTACGCATGAGCCGATCGAGCAATTGGCTTCCCTGCGCATCATTCCAGGCGTGACCGTTATCCGTCCGGCAGATGCGAATGAGACTTCCGCTGCATGGGCTTATGCGGTTGAGAACACGGATCGTCCGGTAGCCTTGGTGCTGACTCGTCAAAATCTGCCGATCCTCGCAGGCACGGCGGACCATGCGCGTGAAGGCATCAAACGCGGAGCTTATGTGGTATCCGACGCGAAAGATGGAAACGTGCAGGCTCAAATCATTGCAACGGGTTCCGAGGTTCAGCTTGCCGTTAAAGCACAAGCGGCATTGGCCGAAGAAGGCATTGCCGTACGCGTCATCAGCATGCCGAGCTGGGATCTGTTCGACAGCCAGGATCAGGCTTACAAAGATTCCGTGCTGCTTCCTGACGTTAAAGCCCGTCTCGCCATTGAAATGGCTCATCCGTTCGGATGGGAGCGTTACGTGGGCGACAAAGGCGACATTCTCGGCATCAACACGTTTGGCGCTTCCGCTCCTGGCGACCGCGTCATTGCCGAGTACGGATTTACCGTTGAGAACGTCGTTAGCCGCGTAAAAGGTTTGCTGTAA	MTTEHNQTIDNLSIATIRTLAIDAIEKANSGHPGMPMGSAPMGYQLFAKTMNHNPDQPAWINRDRFVLSAGHGSMLLYSLLHLSGYDLSIEDLKQFRQWGSKTPGHPEFGHTAGVDATTGPLGQGVAMAVGMAMAEAHLGATYNKDGFNVVDHYTYAICGDGDMMEGVASEAASLAGHLKLGKLIMLYDSNDISLDGELNLAFSENVAKRFEAYGWQVLRVEDGNDLPAIEKAIEEAKGDSNRPTLIEVKTVIGYGSPNKQGKGGHGGTHGSPLGADEAKLTKEFYKWVYEEDFYVPEEVREHFGKVKERGIAAYQAWVDQFAKYKEAYPELAAQFERGESGKLAEGWDKDLPKYSADDKAVSTRVASGKALNGLTAGVPQLLGGSADLESSTMTHLNDLASFTAESYEGRNVYYGVREFAMAGAMNGIALHGGLKIFGGTFFVFTDYLRPAIRLAAIMKLPVTYVLTHDSIAVGEDGPTHEPIEQLASLRIIPGVTVIRPADANETSAAWAYAVENTDRPVALVLTRQNLPILAGTADHAREGIKRGAYVVSDAKDGNVQAQIIATGSEVQLAVKAQAALAEEGIAVRVISMPSWDLFDSQDQAYKDSVLLPDVKARLAIEMAHPFGWERYVGDKGDILGINTFGASAPGDRVIAEYGFTVENVVSRVKGLL	PGPT0011200_2123	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
AK002_05146	3024			hypothetical protein	GTGGGCGTTCAATTTAGCCAACCATGGTTGTTGCTGCTGCTGATTCCGGCAGGTTTATTTCTCTACTATGCCTACAAATCGGATTTCCGATTAAGCGGTTTTCGCAAAAAACTGGCCTTATTCTTTAGAACCTGCGTCATTCTATTATTAATCCTTATGATTTCGGGCTTGCATGGCTTTACCGTTCTCAGGGATAAACAGGTCGTGTATCTGGCTGACCGTTCCGACAGCATGGGGGATTCGGCCCGGATCACGAGCTGGATCAACGATTCCCTTGCGGCAAAAGGCGAGAAGGATGGCACCGCCGTTGTTTCCACAGGTCTTGAAGGCGCCGTGGAGCGGCGTCTATCCCCTGCGGAGAATGCGGGCGCTTCCTTGAACGCGCTCCTGGAGCAGCGGTTTACCGGGCTGGAATCCGGTCTTCAGCTGGCCGGCAGCCTGTTTGAGGGCAGGAGCGATTCCCGAATCGTGTTGATCTCCGACGGGGAGGAGAATGTGGGCAGCATGGCGGCGGCGGGAAGGCTGCTGAAGGATCGGGGGATAGCCGTTGACGTGCTTCCGACTCCGAGGCAGGCCGTCCAGGATGCTGCCGTGGAGGAGCTGAAGGTTCCGGACAAGCTGTATCAGGCGGAGTCGTTCTATGTGGAGGTCATGGTTCGCAGCACATTCAAGACCTCAGGCGAGCTGCGCATTTACGAGGATAACCGAGAGATCGGCCGGGAACGCGTGGATGTAACGCCAGGCGAGAACCGGTACGCCGTGAAGGGCCTGGCCAAGAACCCGGGGCTCCACCGTTACCGTGCCGAAATCTTCATGGACGGGGATGAAGCCTCGGCCAATAATGCGGCATTCGATTTTACCCGGGTGGAAGGTCCGCCGAACGTGCTGATCGTGGAGGGAACTCCGGGCACGTCGGGCAATATCACGGCAGCGCTCGAGTCCGGCATGATCGGCACCGAAGTGATTCCGCCGGAGCTGCTCCCGCTGGAAGCGGCCAAGTATGCCGTGTACGACAGCATCATCTTTAATAACGTTTCCGGCAGCGACGTCGGCGGCAAACCGATGGAGCTGATCGAGCAGGCTGTCCGTAGCTTTGGCATCGGGTTCATGATGGCGGGCGGCGAGGACAGCTTCGGGATGGGCGGATATTTTAAAACCCCGATCGAAAAGGCGCTGCCGGTCTCGATGGAGCTGGAAGGCAAGCGGGAGATTCCATCGCTTGGCCTCATACTGGTCATCGACCGTTCGGGCAGCATGGACGGCAACAAGATCGAATTGGCCAAAGAATCGGCCATGCGCACGGTGGAGCTGATGAGAGCCAAGGACACGGTCGGTGTCGTCGCCTTTGACGACCAGCCGTGGTGGGTCGTACCGCCGCAGAAGCTCGGTGATAAGGAAGAGGTGCTAAGCAGCATCCAGTCGATTCCGAGCGCGGGAGGGACCAATATCTATCCTGCCGTTTCCTCGGCGCTGGAGGAAATGCTGAAGATTGACGCCCAGCGCAGGCATATCATTCTCATGACCGACGGTCAGTCGGCGATGAATTCCGGATATCAGGATTTGACCGATACGATGGTGGAGAACAAAATCACGATGTCTTCCGTGGCGGTCGGGATGGATGCGGACACCAACCTGCTTCAATCCTTGGCGGATGCGGCCAAGGGCCGTTATTATTTCGTTGAGGATGAAACCACGCTGCCGGCGGTATTCAGCCGGGAGGCCGTGATGCTGGCCAAATCCTATATCGTGGATAAACCCTTTGTCCCGGCCGTTCAGAACCCGGGCGATTGGGCGAGTTTGTTCCAGCAGGGCGTTCCGGGGCTGTATGGTTATGTCGCGGCAACGCCGAAGTCTTCCGCCCAGACGGTTCTGTCCAGTCCGGAGCCGGACCCGATCCTGTCGCGATGGCAGTACGGATCCGGCCGGACGGTGGCATGGACGAGCGATTTAAGCGGGAAGTGGTCCAAGGAGTGGGTGTCGTGGTCCGGGTTCGCCGATACGTTGACCGAAATCGTGAAGTGGACGTTCCCGCAGTTTACGTCGTCGCCCTATGAAGTCACTACCGAGACGGCCGGCAACCAGGTGAAGCTGCAGGTCATCGCCAATGGGGAGAATCCGCCGGAGAAACTGAATGCGGTGATCGGGGATGACGAGGCCGGCGAGCAGACGGTGGAGCTCATTCAGGAGGCGCCCGGCCGTTATACCGGACTCGTCAACGTCTCCAAGCCGGGAGCCTTCCTCATGTCCCTTGAGGACGCGAGCGGGGAAGAGCCGCTGCAAGCTGCGCCGGGCACCGGCTTCGTGGTGCCGTATTCGCCGGAATACCGGCTATCTTCCGGCAGCGGCGAGGAAGCGATGAAACGGCTGTCCGAAGCGACAGGGGGCCGCGTGTTATCCTGGGATGACCCGGCCGAAGTGTTCGACCGGGAGGCGACCTCGCGGATGCAGCTCCATGATTGGAGCTACCCGCTGCTGGCGGCGGCCCTGCTGCTGTGGGTCGCCGACATCGCCGTGCGGCGCCTGGCTCTGCCATGGGGCGCCATCGGCGCACGGATGGCCGCCCTGCTCCGCAGGCGGCCGGCCCCTGCCGGCGAGGCCGCGCCTGACGCCGGCCTCGAGCGGCTGGCGGCGCGCAAAGCCCGCGCCGCCCAGTTCTACGGCGGCAGCTCCGCGAAGCCGCCGCCGCAGGCCCCGCCCGCGCGCGAGCGAAGCGGCGCGGGCCAAGGTGCCGGGGGCGGAAGCCCTGCCCCGGCACCCGGCGCAGCTCCGGCAGGGGGCCGCAAGGCCCCGCCGGAGGCGCGCGAGTCGCAGCGGGCGAATGCTCCGCTGCGGGAAGAGCGGCCGGCGCAGGCGAAGCCGGCCGCAAGCCAGGGCGCGCGCAAGGGAAGCGCGCCCACGCCGCCACCCCCGCCGCCGAAGGCGCAGGGGGACGGCAGCGGCCGGCCCGGGGAGACCGGGCCGGCTCCGGAAGGAGGCTCCTCCATGGATCGCCTCCTCAAAGCCAAAAAACGCGGCACGCGCTGA	MGVQFSQPWLLLLLIPAGLFLYYAYKSDFRLSGFRKKLALFFRTCVILLLILMISGLHGFTVLRDKQVVYLADRSDSMGDSARITSWINDSLAAKGEKDGTAVVSTGLEGAVERRLSPAENAGASLNALLEQRFTGLESGLQLAGSLFEGRSDSRIVLISDGEENVGSMAAAGRLLKDRGIAVDVLPTPRQAVQDAAVEELKVPDKLYQAESFYVEVMVRSTFKTSGELRIYEDNREIGRERVDVTPGENRYAVKGLAKNPGLHRYRAEIFMDGDEASANNAAFDFTRVEGPPNVLIVEGTPGTSGNITAALESGMIGTEVIPPELLPLEAAKYAVYDSIIFNNVSGSDVGGKPMELIEQAVRSFGIGFMMAGGEDSFGMGGYFKTPIEKALPVSMELEGKREIPSLGLILVIDRSGSMDGNKIELAKESAMRTVELMRAKDTVGVVAFDDQPWWVVPPQKLGDKEEVLSSIQSIPSAGGTNIYPAVSSALEEMLKIDAQRRHIILMTDGQSAMNSGYQDLTDTMVENKITMSSVAVGMDADTNLLQSLADAAKGRYYFVEDETTLPAVFSREAVMLAKSYIVDKPFVPAVQNPGDWASLFQQGVPGLYGYVAATPKSSAQTVLSSPEPDPILSRWQYGSGRTVAWTSDLSGKWSKEWVSWSGFADTLTEIVKWTFPQFTSSPYEVTTETAGNQVKLQVIANGENPPEKLNAVIGDDEAGEQTVELIQEAPGRYTGLVNVSKPGAFLMSLEDASGEEPLQAAPGTGFVVPYSPEYRLSSGSGEEAMKRLSEATGGRVLSWDDPAEVFDREATSRMQLHDWSYPLLAAALLLWVADIAVRRLALPWGAIGARMAALLRRRPAPAGEAAPDAGLERLAARKARAAQFYGGSSAKPPPQAPPARERSGAGQGAGGGSPAPAPGAAPAGGRKAPPEARESQRANAPLREERPAQAKPAASQGARKGSAPTPPPPPPKAQGDGSGRPGETGPAPEGGSSMDRLLKAKKRGTR	PGPT0014015_39	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
AK002_05147	2001			hypothetical protein	TTGGGGATTCAATCTTGGCTGAGTCTATGGTTCGGTTTAACGCTGCCGGCCATCGTGCTCATGTATATGTTCAAGCGGAAATATGTGGATACAACCGTTCCCAGCCACTTGCTGTGGGAGCGGGTGCTCCGGAACCTGGAGGCCAACAGGCCGTGGCAGAAGCTGCAGAACCGGCTTCTGCTGTGGCTCCAGCTGCTTGCTGCGGCATTGATGGTCTTCGCACTGATGCAGCCCTTTATGCAGGTGTCCGGCGGAGGCAGCGCCCATGTGGTCATCGTTGCCGATACCTCGGGCAGCATGAGCGCGCAGATGCAGCCGTCCGCTGAAGGCGGAGCCGCAACCAGGCTGGAATGGATGCAGCAACGAATTAAGGAATATGTGAAGGACCGGGGGAGACGGAGCGAGATTACCCTGCTGTCCGTAGGAGCAAGTCCCATGACGCTTGTATCCCATGAAAGCGACCGTGCCGCCATCGATAAGGCCGTGGATGATTTACGTCCCTATTACGGACAGGCGTCCTACAGGGAAACCTTATCGCTCGCTTCGGCGATGACGCGGGAAGAACATGATGCAGAGGTCGTAATCTTTACGGACAGCTACTGGAAGCCGGACACGGCCCCCATAGCGTTTCAGGTTCCGGTTTCCGTTGAGAAGGTGCAGGGCGAGCTCCCGCATAACGTGTCCATTGATCAATTCGGCATTTCACCTAGAGATAATGCGGATTCATCATATGCGGCGGTCGCCGTCCTCAGCACGAATGCCGAGGCATCTGTATCGGCCGAAGTAAATCTTTACGGAGATGAAGAGCTGCTGACCAGCAGGATGCTTGAATTGGAGCCGGGGAAGAGATTAACCGAATCCTTTTCCGATCTGCCGTTTGCTGAAGTGTACCGACTTGAGTTATCTCAGGATGACGGGTATACGGCAGACAATCATTCCTTTGCGTTCGGTTTGGGGCACGGATCTTCGCGCGTCCTGCTGCTGACTTCAGGCAATCTGTTCTTGGAGAAGGCGCTTCAGCTGAGCAGTGCCGAAGTCACCCGGGTAGCTTTGGACGAATCCAAAGATAAGACCGCCGAGGATAACGGCAGTGCGGAGAAGGAGGCGGGCAGCGCAGCTGCGGATGTGCCGCCCGTGCCTGAAGGCGAATTTGATCTGCTTGTCATTGACGGGAACGTGCCGGAAGGGTTCCGGCAAGGGAAGTGGGCGGATCTGACCGCCAAGACTCCGTTATGGACGATTGGCGGAGAAGGTGCCAAAGTCGGCAACCAAGGAGGACGCGCCGTGCTGGCCAAGCATCCGGTGACTGCCTATGTCACCTTGTCCGGAGTCTATTTCGGTACGCTGGTGGATCAGGCCCCTGCTTGGGGGGAACCCGTCATCAAGCTGGGGGATCAACCGATCGTCTATGCGGGAAGCGAAAACGGACGGCCTCGATTATCCTTCAATTTCCTGCTTCAGGATAGCGACCTTCCGTTATCCCCGGAATTTCCGGTCATGGTCAGCAATGCGCTGGAGTGGATGACCTCAGGCAAGGGAAGCGGACTTGGCCGATATATGGCCGGCGCGCAAGCGGATATTCCGATTGCAGCGGATACGGTAGCGGCCAAATGGATCCCCAAGAGCGGTCTTGCTCTGGCTGACCGCCTCCCTGCTGCGGAAGTCCTCCGGAATGAGCAAGGGATATCGCCGGTACAGCTCGTGCCGGAATATCCGGGGCTGTACGCTTTTGAACAGCAGAATGAAGCGGGCGAGAAGCTTAATTATTGGCTTGCTGTAAATGCAGACCCGTACGAGGCGGATTGGAGCAACGATCAGGGCCCGGCGGTAAGTCAAGCGGCAACGAACGCGGGTGAGTCTGAAGCGGGAGCTGATTCCGGCACATCCGGGAGTAACGAAACGACGAGCCGTGCCGGCTCGTTAATGCCATGGCTGGCCGCTTTGGCACTGGCTGTGATCGCAGCGGAATGGGGGGTGTACCAGCGTGGGCGTTCAATTTAG	MGIQSWLSLWFGLTLPAIVLMYMFKRKYVDTTVPSHLLWERVLRNLEANRPWQKLQNRLLLWLQLLAAALMVFALMQPFMQVSGGGSAHVVIVADTSGSMSAQMQPSAEGGAATRLEWMQQRIKEYVKDRGRRSEITLLSVGASPMTLVSHESDRAAIDKAVDDLRPYYGQASYRETLSLASAMTREEHDAEVVIFTDSYWKPDTAPIAFQVPVSVEKVQGELPHNVSIDQFGISPRDNADSSYAAVAVLSTNAEASVSAEVNLYGDEELLTSRMLELEPGKRLTESFSDLPFAEVYRLELSQDDGYTADNHSFAFGLGHGSSRVLLLTSGNLFLEKALQLSSAEVTRVALDESKDKTAEDNGSAEKEAGSAAADVPPVPEGEFDLLVIDGNVPEGFRQGKWADLTAKTPLWTIGGEGAKVGNQGGRAVLAKHPVTAYVTLSGVYFGTLVDQAPAWGEPVIKLGDQPIVYAGSENGRPRLSFNFLLQDSDLPLSPEFPVMVSNALEWMTSGKGSGLGRYMAGAQADIPIAADTVAAKWIPKSGLALADRLPAAEVLRNEQGISPVQLVPEYPGLYAFEQQNEAGEKLNYWLAVNADPYEADWSNDQGPAVSQAATNAGESEAGADSGTSGSNETTSRAGSLMPWLAALALAVIAAEWGVYQRGRSI				NA	NA	NA	NA	NA
AK002_05148	948		COG1721	putative protein	GTGAGCGGGGGCGCGCACCTGCTTCCTCCGGAATGGCTTCCCCGTCTGGAGCGCTTGAGCCTGGATGCCAAACGACGGGTCGCCGGAACGCTGCAGGGAAAGAGGCGATCCCGCCGGCTCGGCTCGTCCCTCGAATTCGCCGATTACCGCGTGTATTCGCCCGGGGATGATGTCCGCAGGTTTGACTGGGGCGTTTATTCCCGTACGGGAAAAGCCTTCGTTCGTCAATTCATGGACGAGCAGGAGCTGACCGTGAGCCTTTTCGTGGATTGCTCCGCATCGATGGGGGCCGTCATGTCATCGCCTACGGAACCAAGCGCCGCCGATCCGGCGGGAACGAAGGGCAGCTCTAAATGGCTGCTAGCGCGTCAACTCGCCGCAAGCATCGGCTACATGGCGTTGTCGTCTTACGACAGGCTGCAGGTTGCCTGTTACAGCCGTTCGATTAACGCCCGTCTTCCGATCATGAGAGGAAAGGGCTCGGCTCATCGCCTGTTTTCGTTTCTGCAAGGGGCAGAAACGGGTGGCGAGGGCAGCTTGGGCGCAGCGCTTGCGGTTCCTGGCGCACTGCCCCGGCAGCCGGGAATGACCTGGGTGTTCTCCGATTTTTGGCTGGAGGGCGGCGAGGAGGAATTGTTCAGGTCGCTTTCCCTTTTGTCAGGTACCGGACAGGAAGTGGTGCTGGTGCATGTATTGTCGCGGGAGGAGCTGGAGCCTAAATTATCCGGCGATCTGCGGCTGGTGGACAGCGAAACGATGAGCGGCAAGGAAGTGGCGCTGACGGGCAAAGTGCTGGATGCTTACAAGGAGGAGCTGGAGCGATACCGGACGATGCTGTCCCGCGTATGCGCGGAACGGGGCATGTCTTACGTGCTCATTCCGGCGGATATGCCGCTTACGGACGCGATGTTCGGGGTGCTTGCGGGAGCTGGTCTGGTTACTGGATAG	MSGGAHLLPPEWLPRLERLSLDAKRRVAGTLQGKRRSRRLGSSLEFADYRVYSPGDDVRRFDWGVYSRTGKAFVRQFMDEQELTVSLFVDCSASMGAVMSSPTEPSAADPAGTKGSSKWLLARQLAASIGYMALSSYDRLQVACYSRSINARLPIMRGKGSAHRLFSFLQGAETGGEGSLGAALAVPGALPRQPGMTWVFSDFWLEGGEEELFRSLSLLSGTGQEVVLVHVLSREELEPKLSGDLRLVDSETMSGKEVALTGKVLDAYKEELERYRTMLSRVCAERGMSYVLIPADMPLTDAMFGVLAGAGLVTG				NA	NA	NA	NA	NA
AK002_05149	990			hypothetical protein	ATGTCGGATATTGCAGTGAGACCACAGGAATGGATGGAGAAAATATCAGGCCTGCGCGAACATATCGGCAAGGTGATTGTCGGACAGCAGGATGTTGTGGAGCAGATGCTTTGGTGTATCTTTGCGGGGGGCCATGCCCTCCTGGAAGGGATTCCGGGTCTCGGCAAAACGATGCTCGTCCGCACCGTTTCGGAGGCTTTGGACCTGTCCTTTTCCCGCATACAGTTTACGCCGGATTTGATGCCGAGCGATATAACGGGCACCAATATCCTGTCGTTCGGACAGCATGGGGACACCGGGATGACCTTTCAAAAGGGTCCGCTGTTCAGCAGCATCGTGCTGGCCGATGAGATTAACCGCGCCACGCCCAAAACCCAGAGCGCCTTGCTCGAGGCGATGCAGGAGAAGACCGTCACCGTGGGGGGCGTAACCCATCAGCTGCCAAAGCCTTTCTTCGTTCTGGCCACGCAAAATCCCTTGGAGAACGAGGGGACGTATCCATTGCCGGAGGCCCAGCTTGACCGCTTTCTGCTGAAGATCGAAGTAACGTATCCCAGCGCGGACGAATTGAAGGAAATCGTGAAGCGGACGACGTCCTCACACGAATTCCAGGTGGAACGGCAAATGACCGGGGACGAGCTGCTGGAAATCCAGCGCGGGGCGAAGGAAGTGTTGGTTGCCGAAGAGATTCTGGATTATGCGGTTCGTCTGCTGATGATGACGCATCCGGAGGAGGCGGCCGCACCGGAGGCTGTCCGTAAATACGTCCAATTCGGTTCCGGACCGCGCGGCATTCAGTCCATCATCTCGGTAAGCAAAGTCCGGGCCTTGTGCAGCGGGCGGATGCATGTATCCACGGGCGATATTCGCGCCGTGGCTTTATCAGCGCTGCGCCACCGCTTGTTCCTGAATTTCGAGGGGCAGGCGCTCGGCATTACCACGGACCATGTCATTCGGGAGGTTCTGCAAACGCTGGAGGCATCCGCGTGA	MSDIAVRPQEWMEKISGLREHIGKVIVGQQDVVEQMLWCIFAGGHALLEGIPGLGKTMLVRTVSEALDLSFSRIQFTPDLMPSDITGTNILSFGQHGDTGMTFQKGPLFSSIVLADEINRATPKTQSALLEAMQEKTVTVGGVTHQLPKPFFVLATQNPLENEGTYPLPEAQLDRFLLKIEVTYPSADELKEIVKRTTSSHEFQVERQMTGDELLEIQRGAKEVLVAEEILDYAVRLLMMTHPEEAAAPEAVRKYVQFGSGPRGIQSIISVSKVRALCSGRMHVSTGDIRAVALSALRHRLFLNFEGQALGITTDHVIREVLQTLEASA				NA	NA	NA	NA	NA
AK002_05150	1686			hypothetical protein	ATGGACAACATCATGCGTTTTATCGAAGCCGCAAGACGGCGGCTGCAGCGGTTCCGCGTCATCACGTATGCATTATACGGGCTTATGGCAGGGTTGGCCGCGCTGCTGCTGCTTCTGGTGCTTGGGAGATTCGTGCCTATAGCCTGGCTTCCCGTCGCATCCGTGGCCGTTCCCGTGGGGGCGGGCTTCATAGGCTTGTTATGGGGATGGCTGCATCGGGTGCCGATCGAAGAAGCGGCTTCAGCGATGGACCATGTTCCGGACGGATCGGAGCGAAGCGATATGATGGTGACGGCGCTGTCGTTCAAGGAGGAAGAATCGTTGGCCGCCAAATGGCAGCGCGAGCAGGCGGAGCGTTACGGTGCGCGTTTTGCGGAACGGCTGCCGGAGCGTCTGCCTTCCCCTACCCGAAAAAAACAGCTTCTGATCTGCGGTGCCTCGCTTGCTGCCGTACTCATCCTGGTGTTCGTTCCGAACCCGATGGATAAGAAGGTGGAGGCTGCCAAAGAGGCGCAGAGCTGGATGAAGGAGCAGGCAGCCAAAACCGAACAGCTGGCGGAGGAGCTCCAGAAGGAAACGCTGGATCCTGCCGATCGAAAAAAGCTTCAGGAAAAGCTGGATGAACTGAAAAAAGCGCTGGAGCAGGAGAAGCATCCTGAGCAAGCGCTGGAGAAGCTGGAAGAAGCCATGAAAGAGCTGGAGAAACTGGCGAAACAGCAGGAGGAAAAAGCGAAGGCGCTGTCGGAGCTGGCTAAGCAAATGCAGCAGGAGAAGGCGCTGTCCCAGGTGGGGAAAAAGCTTGCCGAGGGCATGGCCGATGAACTGAAGCAGGAAATGAAGAAACTCACCGAGCAGGTGAAGAAGATGTCCCAGGAAGAGAAGAACGAGCTGTCCGATGCTTTGAAAAAGCTGGCTGAGGAAGCTGCCAAGCAGATGGAAGACGGCAAGCTGGAGCAGGAGCTCAAAAAAGCGGCCGATGCGCTGAAGGAGGGCAAGCTGCCGAAGGAGCTGGAAGAAGCGCTCCAGCAGCTGGCCGAGGAGCTGGCGAAAGCAGCGCAAGCCAAAGCCGCGTCGGACAGCCAGTCGCAGTCCGCGTCCTCGCTAGCGTCCTCCCTTGCTTCGCAAGGATTGAGCTTGGCCGATCAGATGGCGGCTGCAGGAATGTCGGTATCCGATGCGTGGAGTAACGGCGGCAGTGCCGAGGCGTTGGCTCAGGCCGGCTCCGGTGCAGGCTCGGGCGAACAAGGAGAGGGCTCGGAGGGAGCCCCAGGTGAAGGCGGCTCCGGTGCAGGCCAAGGTCAAGGCTCCGGCACAGGCAGCGGCTCCGGATCGGGAAGCGGCTCGGGCTCAGGAGCAGGTTCCGGATCGGGCGGCAGCGGCGGATCGGGAAGCGGCACAGGCAGCGGAGCCGGTCTTGGCTCAGGCGGCCGTGAGCTCGTGACCATCCCTAGGGATTATAAGGGCAGCGGCAATGTGCAGAACGATTCCGGCGAGATCAAGGGCAGCGGCGGAGATATACAGAAGGGCGGCGTATCGCCGACGGTCCCGGGCATGTCGAGGCCTTATGAGGAAGTGTACCGCGATTATGAGACCGAAGCGCGAAAAACATTAGACCGCAATCAGCTGCCGGACCAGATGCAAGGTTTGGTTGAGGAATATTTCATACAGATCAATCCGAACCCGTAG	MDNIMRFIEAARRRLQRFRVITYALYGLMAGLAALLLLLVLGRFVPIAWLPVASVAVPVGAGFIGLLWGWLHRVPIEEAASAMDHVPDGSERSDMMVTALSFKEEESLAAKWQREQAERYGARFAERLPERLPSPTRKKQLLICGASLAAVLILVFVPNPMDKKVEAAKEAQSWMKEQAAKTEQLAEELQKETLDPADRKKLQEKLDELKKALEQEKHPEQALEKLEEAMKELEKLAKQQEEKAKALSELAKQMQQEKALSQVGKKLAEGMADELKQEMKKLTEQVKKMSQEEKNELSDALKKLAEEAAKQMEDGKLEQELKKAADALKEGKLPKELEEALQQLAEELAKAAQAKAASDSQSQSASSLASSLASQGLSLADQMAAAGMSVSDAWSNGGSAEALAQAGSGAGSGEQGEGSEGAPGEGGSGAGQGQGSGTGSGSGSGSGSGSGAGSGSGGSGGSGSGTGSGAGLGSGGRELVTIPRDYKGSGNVQNDSGEIKGSGGDIQKGGVSPTVPGMSRPYEEVYRDYETEARKTLDRNQLPDQMQGLVEEYFIQINPNP				NA	NA	NA	NA	NA
AK002_05151	948			hypothetical protein	ATGAATTGGAGCAGAAAGCTGATCAATCCGGTCATCGACAAGGAATTCCGGCTGCGGATGCGTTCTACGCGTTCCATGCTGTCGGTGTTGTTTTATGTATTGGCGCTAGGCGCCATAGCCATGGGCTTCATTTATCTCTTCTTATATTTGGGGCAGCAGGGGCCTCAGCGATTCGATCCGCAGATGAGCCAGATGATGTTCTATGTCCTGAGTTTTGCCCAGCTTGTCCTTATCGCGTTCATGGCCCCTGCGCTTACGGCGGGCGTCATCAGCAGCGAGCGGGAGAAGCAAACGCTGAGCATGCTGCTGACGACGCAGCAGAGCTCGGCTACGATCGTGCTGAGCAAGCTGGTATCGGCACTCAGCTTCATGACGCTGATCGTGCTGGCTACGCTGCCGATCTACAGCATTGTGTTCCTGTACGGCGGGATTTCGCCGAAGCAGCTCGTTTCCGTGTTTGCCTTTTATTTATTCGTGATGCTGCTGCTCGGTTCGCTCGGCGTGATGTTCTCCACGTTATTCAAAAGAACCATCGTCGCGATTATCGTCACCTACGGGGCCGGCCTGATCATATTCCTTGTTACAGGCCTGCTGTACCTGTTCTTCATGGGAATCGAACAGCGGAATATGTATCAAAGCGGGCAGCCGATCGTACCGGGCAGCTATTCTTGGGTCGGTTATGTGCTGGGCCTGAACCCGGCCGGGGCGATGATGAGTTTGTTCAACCCGTCTTTTTCGGAGGACGCGTTCTTGCTGCGCGGAGGAAGCCTGAACAGCAAAGCGCCGATCGAATTGTGGCTGGAATTTTTCATCGTGTATTCGGTGGTGATCGTTCTTGCCCTGTGGGTTGCCGTACGGAATATCCGTCCTGTCGCAAGGCGCAAACGCAAGGATAAGAACGAAACCCAGCTGCCGCAGGAGTCGGAAACGGCGGGGAACGAAGCGTAA	MNWSRKLINPVIDKEFRLRMRSTRSMLSVLFYVLALGAIAMGFIYLFLYLGQQGPQRFDPQMSQMMFYVLSFAQLVLIAFMAPALTAGVISSEREKQTLSMLLTTQQSSATIVLSKLVSALSFMTLIVLATLPIYSIVFLYGGISPKQLVSVFAFYLFVMLLLGSLGVMFSTLFKRTIVAIIVTYGAGLIIFLVTGLLYLFFMGIEQRNMYQSGQPIVPGSYSWVGYVLGLNPAGAMMSLFNPSFSEDAFLLRGGSLNSKAPIELWLEFFIVYSVVIVLALWVAVRNIRPVARRKRKDKNETQLPQESETAGNEA	PGPT0006730_9157	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_05152	930	lnrL_7	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGATCGAGATTAGAAATCTGAGCAAAAGATACGGAGCGTTCCATGCGCTGAAAGATATCAGTCTTCATATCGAAAAAGGGACGGTATTCGGATTTGTCGGTCCTAACGGAGCAGGCAAATCCACGACGATGTCCATATTGGCTACCCTGATGCTTCCTACCTCGGGCGTTGCCAAGGTCGGCGGCTATGACGTGACCCAGCATCCCAAAGAGGTCCGCAAGCGGATCGGTTATATGCCCGATTTCTTCGGCGTGTACGATCAGCTGAAGTCTACAGAATATCTGCATTTCTACGGGGCAAGTTACGGCATCCCGCGCGCCGAGCGGGAGCAGCTCATTCCGCAGCTGCTGGAGCTCGTCAATCTGAGCGACAAGGCGGATACGTACGTTGACAGTCTCTCGCGGGGGATGAAGCAGCGTTTATGCCTGGCCCGGTGCCTGGTGCATGATCCGGAGGTATTGATCCTGGATGAGCCGGCCTCGGGGCTGGATCCGCGGGCGCGGATCGAGATGCGCGAAATATTGAAGGAACTGAAGCTTATGGGCAAGACCATCATCATTTCATCGCATATTTTGCCTGAGCTGGCCGAGATGGTGGATGAGATCGGGGTAATCGAGCACGGAGAGATGGTTGCCCAAGGCAAGGTAGCCGATATTCAGAGCCGTCTTCGCGTAAAAAAAGTCATTCATATTCGCACGCTGGAGCGTGCAGAGGAGCTGGCCGAGAAACTGCGTGACGAACCATTCGTCACGTCGGTATTAACGGATAACACCGGCGTCCATGTTCATTACGGCGGGGATGACGCGCAGCAAAGCGCCCTGCTTCGGCAGGTGGTTTCCTGGGAAATTCCGATTGTCTCGTTTCAGGAAGCGCAGAGCAATCTGGAGGATGTATTCCTCGAAATTACCAAAGGAGGGCCCCGCGAATGA	MIEIRNLSKRYGAFHALKDISLHIEKGTVFGFVGPNGAGKSTTMSILATLMLPTSGVAKVGGYDVTQHPKEVRKRIGYMPDFFGVYDQLKSTEYLHFYGASYGIPRAEREQLIPQLLELVNLSDKADTYVDSLSRGMKQRLCLARCLVHDPEVLILDEPASGLDPRARIEMREILKELKLMGKTIIISSHILPELAEMVDEIGVIEHGEMVAQGKVADIQSRLRVKKVIHIRTLERAEELAEKLRDEPFVTSVLTDNTGVHVHYGGDDAQQSALLRQVVSWEIPIVSFQEAQSNLEDVFLEITKGGPRE	PGPT0006725_9487	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05153	2361			hypothetical protein	TTGTCGTTTTATACAAAGAAAACGTGGATGCTGCTGCCGATGGTGGCGCTGCTGATTGTGGCAACGTTATCTCTGTCGATTCCGGCAGGAAACGTCTACGCCGACGGAGCGAAGATTGGCATTCAATCCGAAATGGGCTACCAAGGCAAAATCAAACATGAGAAATGGAACCCGCTCAAACTCACCCTAACGAGCGACCGGGATATATCCGGCGATGTGGTCGTGCAGGTTCAGAACTACAACGGCTTCGGGTATCAGACTTCTTATGTTCAGCAGGTGGACCTACCGAAGGATACGCCGAAGGAAGTCGTGATCGGCATTCCGGGAGCCGTACTGAATAAAGACAATAACCAAATCCTTTTCTATGAAGGTTCTTATACGAAGGGGAAGCAGGTACCGTTTGCCACCGGCAAAAATTACGTGCAGGCTTCTCCGTATCAAGGCGCACTCATGGCCGTTTTATCCGATGATCCGGACACGATGAATTTCATGAACGTCCTGAACGGCAAAGGCAGCAGCGTGAACGTGTTCCCGCTTAAGGACGCAAGCGTTCCAACGGATGCGATGCTGCTGAACGGGCTGGATGTCATCGTAATGAACAATTATGCATCCGATACGCTGTCAGAGCCTCAACAAAAGGCGATTACGGATTGGGTCAATGGCGGCGGCACCTTGGTTCTGGCCGGGGGCGCGGGGTATGCCAAAACGGCGGCGCCGTTTGCCGACATATCGCCGGTCGCTGCGAATGGCACCACGACCGTGAACTCGCTGGATGAACTGGAGAAGCTTGGCGGGAAACCGCTGAAACTGGATGGGCCATTTACCATTTCTACGGCGAAAGCGGTGGAAGGCGCCCAAATCGGGATTGCCGCGGACGGACAACCTTTGTTTGCCTCGAAGGCTTATGGCCAGGGCAGCGTTCAATATGCCGCTTACGATCTGGCGATGGAGCCGGTAAGCTCTTGGGCAGGCCATCCGGACGCGTGGGCATCGGTACTGCGCAATAACCTGCCGATGATGAATTCGCAGAATGGCATGTATTACAATTCGCTCATGGACAATTTGAATTATGTTCTGGAGTATTTCCCGTCGCTGAAGATGCCTTCCTTCACGCTGCTACTGTGGATGCTCATTATTTATGCGGTCGTCGTCGCACCGCTGCTCTACTATATATTGAAGAAGGCGGACAAGCGGGAATGGGCGTGGTTCTTGATTCCGATCATTGCCGTCATCGCGAGCGCTTCCGTCTATGCGGTCGGCTCGTCGGACAAGACGCGCGAGCTCGCGCATACCATCAATCTGATTGAACTAAATGGCCAGGGAGATGCGGTGAAATCGACTGCTTCTGCATTCTTCACGCCTCGAAGCGGGAACTATGCCTTGGAGTTTGGGGAGAATACGTATTTGAAAACGGGGCAGTCCCGGAACACGTTTGGGGGAACCGCCGAGAACAAAAGTTTTGTCCGGGTAGGTCAGGAGTCCACGACGCTGGAGCTTCGGGACATGTCCCAATGGTCGTTGGCCAAGGTTTGGGTGGACCATCAGGGTACGGAGGAGATGGGGCGTCTGGGCATGAATTTAAAGCTGGATGCCAAAGGGGGATTAAACGGCAAGATCACCAATGACACCATTAACGATTTGACCGAGGTGGTGCTGGTTGTCGGAGGCAGTGCCTATAAGCTGGGAGATATCAAGAAGGGCGAGGCGGCAGCCATTCCTCAGGATCCGAAACAAATCATCAAATTTACGGGCGGTGACTTGTCCGGGATGCTGTACCCATACTCGCAGAATGATCCGAAACAGCGGGAGCGCGACATTTTGTCCAACTACGGATACTCGAAGGGAATGGTCAACAAGGATGCTTACATTCTGGGATGGAGCAAAGACCATTTGACGAATTATACCCTGAAAGGCGCCGAGGTGGACAGTGATCAGCTCAATTTCTGGATACAGCCGGTGGAAATGGATTGGGGACTGAGCGGGGAAATCAACATTCCTTACGGCTTCCTGTCTCCGGAGATATCGCAGGTGAATTCGCCGATGTTCGGGGTATATCCGCACGGGGTTGAAATGGGACAAGGCAATCTGATCGCCGAATTCCCGCTCATATCCGAAGGCCAAGTAAAGTATTCCGAATTGTCCATCAAAGGCACCAAATTCAACAACAATGTCACGATGGAGATCTGGAACTCGAAGAAGAGCGAATGGGAGCCTGTTACAGACGCGAACAATGTGCATACCATTAACCAGAATCCGGAGCAGTATATCGTGGGGAATCGAATCCGATTCATGATCACTGCCAAGGATCAGACCAACTTTATGATGCCGGAGCTGTCTGTGAAAGGGGAGGCCACTCAATGA	MSFYTKKTWMLLPMVALLIVATLSLSIPAGNVYADGAKIGIQSEMGYQGKIKHEKWNPLKLTLTSDRDISGDVVVQVQNYNGFGYQTSYVQQVDLPKDTPKEVVIGIPGAVLNKDNNQILFYEGSYTKGKQVPFATGKNYVQASPYQGALMAVLSDDPDTMNFMNVLNGKGSSVNVFPLKDASVPTDAMLLNGLDVIVMNNYASDTLSEPQQKAITDWVNGGGTLVLAGGAGYAKTAAPFADISPVAANGTTTVNSLDELEKLGGKPLKLDGPFTISTAKAVEGAQIGIAADGQPLFASKAYGQGSVQYAAYDLAMEPVSSWAGHPDAWASVLRNNLPMMNSQNGMYYNSLMDNLNYVLEYFPSLKMPSFTLLLWMLIIYAVVVAPLLYYILKKADKREWAWFLIPIIAVIASASVYAVGSSDKTRELAHTINLIELNGQGDAVKSTASAFFTPRSGNYALEFGENTYLKTGQSRNTFGGTAENKSFVRVGQESTTLELRDMSQWSLAKVWVDHQGTEEMGRLGMNLKLDAKGGLNGKITNDTINDLTEVVLVVGGSAYKLGDIKKGEAAAIPQDPKQIIKFTGGDLSGMLYPYSQNDPKQRERDILSNYGYSKGMVNKDAYILGWSKDHLTNYTLKGAEVDSDQLNFWIQPVEMDWGLSGEINIPYGFLSPEISQVNSPMFGVYPHGVEMGQGNLIAEFPLISEGQVKYSELSIKGTKFNNNVTMEIWNSKKSEWEPVTDANNVHTINQNPEQYIVGNRIRFMITAKDQTNFMMPELSVKGEATQ				NA	NA	NA	NA	NA
AK002_05154	900	purU	COG0788	Formyltetrahydrofolate deformylase	ATGGAAATTCACATCAAGAAGGATCTGCCGTCTGCGGCAGGTCAGTACCCTAATCGTGCCCGCATGCTGATCTCCTGTCCGGATGGACCGGGAATCGTGGCAGCAGTATCCCAGTTCCTGTACCAGCATGGCGCGAATATCGTTCAGTCTGACCAATATACGATGGACCCGGCCGGCGGCATGTTTTTTATGCGGGTTGAGTTCGATCTGGAGGACTTGAACACGAAGCTTCCCCAACTGGAGGAATCCTTCCGGGAAGTAGCCGATCAATTCCGCATGGAATGGAATATCTACCATGCCGCCCGCAAGAAACGCCTGGCGATTTTTGTTTCGAAAGAGGATCACTGCCTTGTAGAGCTGTTGTGGCAATGGCAGGCTGGCGACCTGGATGCGGATATCGGTTTGGTGGTCAGCAACCATCTGGATATGAAGGAATACGTGGAATCCTTTGGTATCCCGTATCACCATATTCCGGTTACGGCAGATACGAAGCCTCAAGCGGAGCAGCGTCAGCTGGACGTGATCGACGATGATATCGACGTGATCATCCTTGCGCGTTACATGCAGATTATTTCGCCAACCTTTATTGATCATTACCGGAACCGGATTATCAACATCCACCATTCCTTCCTCCCGGCCTTCGTCGGAGGCAAGCCTTATGCGCAAGCATATAACCGCGGCGTCAAGATTATCGGGGCAACCGCCCACTACGTAACGGAAGAGCTCGATGGCGGACCGATTATCGAGCAGGACGTGCAGCGCGTAAGCCACCGGGACGACGTCAATGAGCTGAAGCGCATCGGACGTACCATCGAACGCGTGGTGCTGGCAAGAGCCGTCAAATGGCATGTGGAGGATCGGATTCTGGTCCATAACAATAAAACGGTTGTATTCAGCTAG	MEIHIKKDLPSAAGQYPNRARMLISCPDGPGIVAAVSQFLYQHGANIVQSDQYTMDPAGGMFFMRVEFDLEDLNTKLPQLEESFREVADQFRMEWNIYHAARKKRLAIFVSKEDHCLVELLWQWQAGDLDADIGLVVSNHLDMKEYVESFGIPYHHIPVTADTKPQAEQRQLDVIDDDIDVIILARYMQIISPTFIDHYRNRIINIHHSFLPAFVGGKPYAQAYNRGVKIIGATAHYVTEELDGGPIIEQDVQRVSHRDDVNELKRIGRTIERVVLARAVKWHVEDRILVHNNKTVVFS	PGPT0008155_505	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
AK002_05155	1122	nfo_3		endonuclease 4	ATGTTGAAAATTGGTTCCCACGTGTCGTTTTCGGACAAGGGATTGCTGACAGCGACGGCTGAAGCCACGTCTTACGGCTCAAGCTCGTTCATGATATATACCGGCGCACCGCAAAATACGCGCCGCAAGCCGATCGACTCCATGTTTATCGAAGAAGGCAAAGCCGCCATGCAGGAAAGCGGGATTGAAGAAATCGTGGTCCACGCGCCGTACATTATCAACCTCGGATCGTACAAGCCCAATACGTTTGAGCTGGCGGTGAGCTTTCTGCAGGAGGAGATTCGCCGCACGCATGCGGTCGGCGTGAAGAACATTGTTCTCCATCCCGGCGCATATACCGACAAGGATGCGGAATACGGCATCGACCGAATTGCGGAAGGTCTTAATGAAGTGCTCGGCGGTACGGATGAGACCGAAGTGAAGATTGCGCTTGAGACGATGGCCGGCAAAGGCACCGAAATGGGACGCAGCTTTGAAGAAATTGCTTCCATTATTGATAAGGTGAAGTACAACGACCGTTTGGCCATTTGCCTGGACACCTGCCATATTCATGACGCGGGATATGACATCGTGAATGATCTGGACGGCGTGCTGGAGCAGTTCGACAAGCTGATCGGACTCGACCGTTTAACGGTCGTCCACGTGAACGATAGCAAGAACCCGCGCGGAGCAGGCAAAGACCGTCATACGCCGATTGGAACCGGATGGATCGGGTATGAAGCCATTCAGAGAGTGGTTCATCACGAGAAGCTCCAGGGCAGACCGTTCATTCTCGAAACGCCGTGGATCGGTAAAGATCCAAAAACCCAGCGTCCGATGTACGAGATCGAGATTGCGCTTCTGCGCGGGGATGTGGAGGGCCGTTTCGGTCCAGCTTTCACGCAGCAAGTGGAAGAGCTGGGTGCTTTCTTTGCCAAGGAAGGCATCGAGTCCCGTTCATTTGTACTGGATACCTGGACGCTGCTGAAGAATGATGCCAAAGCCAAAAAGGCCGATCCGCGCGAACCGATGGAGCGCCTGTACGATATGGTCATGGCGGCCGGCCTGCTGTCCGACATGTCGGAGGAGCAGATCAATCAGCGCCTGATCGCATGGTTGTCTGGTGCTTCCCTGACATCCTAA	MLKIGSHVSFSDKGLLTATAEATSYGSSSFMIYTGAPQNTRRKPIDSMFIEEGKAAMQESGIEEIVVHAPYIINLGSYKPNTFELAVSFLQEEIRRTHAVGVKNIVLHPGAYTDKDAEYGIDRIAEGLNEVLGGTDETEVKIALETMAGKGTEMGRSFEEIASIIDKVKYNDRLAICLDTCHIHDAGYDIVNDLDGVLEQFDKLIGLDRLTVVHVNDSKNPRGAGKDRHTPIGTGWIGYEAIQRVVHHEKLQGRPFILETPWIGKDPKTQRPMYEIEIALLRGDVEGRFGPAFTQQVEELGAFFAKEGIESRSFVLDTWTLLKNDAKAKKADPREPMERLYDMVMAAGLLSDMSEEQINQRLIAWLSGASLTS				NA	NA	NA	NA	NA
AK002_05156	474			hypothetical protein	ATGAAGAGCACAGGGGCCGTCATGGGCTATTTGTCGTCCAGTGCGCCGCCGTCATGGTTCATGAACTCCATTGCCTTCTGGGGATGGGTCATGCTCGGGCTGATGGGCATCGGCGGATTTTTCATGTTCCGCAAGTTTCTGAAAGTGCTTCCCAAGGCCGACGGCAAATCGAAGCTCGATTGGCAAAATTACTGGGTAGAGCGAAGCCGCCCGCTGTGGACGGATGAATCCAAAGCATTTCTGGACGAGCTGGTGCAGCCTGTTCCGGGACCGTTCCGGGATATCGCCAAACACTCCATTGCAGCCGAAATCGGCAAAATCGCCGTCGAATCCGGCGCAACCGAAGTCACCCGGGATCACTGCATCAAAGGTTACATCGTGGCTACGCCGAAGCGGGATTACAAATTCCTGATGAACTTCCTCCAGAAGAAGGAAATCGACTATAAGCCTTATCAGCATTTGATCAATAAGTAG	MKSTGAVMGYLSSSAPPSWFMNSIAFWGWVMLGLMGIGGFFMFRKFLKVLPKADGKSKLDWQNYWVERSRPLWTDESKAFLDELVQPVPGPFRDIAKHSIAAEIGKIAVESGATEVTRDHCIKGYIVATPKRDYKFLMNFLQKKEIDYKPYQHLINK				NA	NA	NA	NA	NA
AK002_05157	1011		COG2152	1,4-beta-mannosyl-N-acetylglucosamine phosphorylase	TTGAAAACCACAAATATACCTATCATCGGAGCGCTGGCGTCCAGCCCGATCATTCGCCGTCATCCGGCAAATCCCGTACTGGACGCGGCTCGCGTGCCGTATCCTACCGCGCTCGTCTTCAACGCGGGCGTCGCCAAGTTCGGCGGCCGTTATTGTATGGTATTCCGCAACGACTACGGTTCGCTGGAGAAGCAGACGATCGAGCCGAGCCATACGACGGATCTCGGCATCGCCCTCAGCGACGACGGCATTCACTGGACGGCGGGGCCGAAGCCGATCTTCAAGCTGCACGACGAAGAGATCGTGCGCGCCTATGATCCGCGTCTGACGGTCATTGACGGCCGCTGCTACATGTGCTTTGCCGTAGATACGCGGCATGGCATCCGGGGAGGTATCGCAGTAACGGACGATTTTGAATCCTTTGAAGTATTGAGCATGTCAACGCCAGACTTGCGAAATATGGTGCTATTCCCGGAACGGATCAACGGCAACTACGTTAGGCTGGAACGGCCGTTCACGGTGTATAGCCGCGGCGGAGTGGACCGGTTCGACACCTGGATCTCGGAGTCGCCGGATCTGATCTATTGGGGCCGTTCCGAGCTCCTGCTGGCGGTGGAGCAGGTGCCGTTCGCAAATGACAAGATCGGTCCGGCCGCACCGCCCGTGAAGACGGATAAGGGCTGGCTCACTACGTTCCATGCGGTGGATATTGATTCCGCTAGAGGGAAGAACGGCTGGGAGCCGACCTGGAAGAAGCGGTATACTGCCGGCATTATGCTGCTCGATCTTGACAATCCGAAGAAGATCCTTGGCATGAGCGCATCGCCCCTGCTTGCGCCTGAGGCACTGTACGAGACGGATGGGGGCTTCCGCAATGATGTCATTTTCCCCGGCGGCATGGTGCTGGAGGAGGATGGAGAAGTGAAAATCTATTACGGGGCCGCCGACACGGTGGAATGCTTGGCTACCGCTCATGTGGACGATCTAATTCGGCTCTGTTTGGAGGGATAA	MKTTNIPIIGALASSPIIRRHPANPVLDAARVPYPTALVFNAGVAKFGGRYCMVFRNDYGSLEKQTIEPSHTTDLGIALSDDGIHWTAGPKPIFKLHDEEIVRAYDPRLTVIDGRCYMCFAVDTRHGIRGGIAVTDDFESFEVLSMSTPDLRNMVLFPERINGNYVRLERPFTVYSRGGVDRFDTWISESPDLIYWGRSELLLAVEQVPFANDKIGPAAPPVKTDKGWLTTFHAVDIDSARGKNGWEPTWKKRYTAGIMLLDLDNPKKILGMSASPLLAPEALYETDGGFRNDVIFPGGMVLEEDGEVKIYYGAADTVECLATAHVDDLIRLCLEG	PGPT0018740_102	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
AK002_05158	945			hypothetical protein	TTGAAGAAGCAACGAATTGAATTTGAAGCGACAAAAACGATCTATGAAAGTGCAACCTTGAAATTTCATGGCGTGGATGGTTTTGATGTCTACAATATTTCGATTCCATTCAAACGGGATGGGAAGCGCTATTTGTTCGGGCGGGTAGAACGTCGCGAGGAATGGGCCCGCTCTTGGGTTCGCCTGTTCGAGGAAACGGGACAGGACGAATGGACGTTGGTGAAAGACAGCATGATCTATACGCTGGAGGACCCTTACATCAGCGAAATCGGTGACGAGCTTGTCATGGGCGGAACTCATGTGCAATATCAGAGCGGAAAATACAGCACGTTTTTCGGCTATTTCTTCCGGGGCACCGATCTTCATGATTTGTACTACTTCACTACCGGCCCCGACAAAATGAAGGATATTCGCCTTGTTTCGTTGTCGGACGGCAGGATCGGCGTCTTCTCGCGTCCGCGCAGCGCCGAGATGAGGGGCAAATTTGGGAGCGAATCCATGATCGGCTTTACGATCATTGACCGGCTGGAAGAGTTGACTGCGGAGGTTATCGGGAACGCGCCGTACATTCACGGCATCTTCGGGGAAGGCGAGTGGGGGGGCGTGAACCAGGCCTATCTGCTGGACAGCGGCAAAATTGGCATCATAGGCCATATTTGCTACCCGGATCAGGATGAGCACGGAGGGGAAGTGAAGGTATATCTGAACATGGCCTTCGTCTTCGATCCGACAACCCGAAAATCCTCTAACCTTCATCTGATCGGAAGCCGCTCCTGCTATCCGCCGGGACCCGCCAAGGCGCCGCAATTGGTCGACTGCGTCTTCTCTTCGGGCATTGTGATGCGCCCGGACGGCAAGGTCGATCTCTACAGCGGCATAGGCGATTGTCAGGCAGGGCGCATCACGATTGACGATCCGTTCGCAGGATACGGACGCCTTGTTTAG	MKKQRIEFEATKTIYESATLKFHGVDGFDVYNISIPFKRDGKRYLFGRVERREEWARSWVRLFEETGQDEWTLVKDSMIYTLEDPYISEIGDELVMGGTHVQYQSGKYSTFFGYFFRGTDLHDLYYFTTGPDKMKDIRLVSLSDGRIGVFSRPRSAEMRGKFGSESMIGFTIIDRLEELTAEVIGNAPYIHGIFGEGEWGGVNQAYLLDSGKIGIIGHICYPDQDEHGGEVKVYLNMAFVFDPTTRKSSNLHLIGSRSCYPPGPAKAPQLVDCVFSSGIVMRPDGKVDLYSGIGDCQAGRITIDDPFAGYGRLV				NA	NA	NA	NA	NA
AK002_05159	1536			hypothetical protein	ATGAAAAAGTATGGTGTGTTTCTATTGGCTGTGGTTCTTGTGCTTTCGACTTTAATTGGATGCGGTAAGGGAGACAATTCTTCAGTCTCCAATTCAGAGAATGATGACAAGCCTGCCAATACGGTCAAAATCAAATATTTAGTTCCAGGCACAGAGCCGAAAGACTACAAGGAAGTGTTCCAAAAGGTCAATGAGAAGCTGGCTGCGGACGGTGTCGGCGTTGAGGTGGAAAAAATATATATACCGTGGGATGCGTGGGATCAGAAGCTGAACTTAATGCTGTCCACTGGGGAAGATTTCGACCTGTTCCACGTCATGCAGGACCGCACGCCGTTCTCGAGCTACTATAACCGCGGTGCACTGGCGGATATCACGGATGCAATCGAAAAGCATGGAGAAAATCTGAAGAAATATATTCCTGATGATATCTTCGAGGGAGCTAAAATCGATGGCAAGTATTATGCCGTTCCCTCTTATTGGGTTGAAATGGCGAGTGAAGGTCAATTCAATATTCGTCGTGACATTCTCGCTGAGAATAATCTCAAAGAGCCGACGACTCCAGCTGAATTGATTAGCGCTTGGGAGATTGTCATGAAGAACTGGAGGGGAAGCAATAAGCCCTATCTTGGCACTCGCGCTGACTTTGACCCGATCTACCTGCATACGTCCATCCTGCACCGGACTTATGACACGTTCCCGTTTACCGTGAAGGATAAGTTCTTCTATGTGAATCAAAGCGGTGAGGTTAAGTCTTGGATTGAGACCGAAGAGTTCAAGAAAGATGCGTCTTTCATGCGCGAGCTGTACACAAAGGGTATTACCAATCCCGATATCCTGGTCATGAAGCAAGAGCAGGTAGATGCACAACTCGACAGCGGTGAATGGTTCGTCCGTTTGGGAACTGGCGGAAGCTTGAACGGGCTGAAGAAGTACAATCCAGAAGCCACTGTAAACGATATCGGCGTTGTATGGTTTAACCCGGAGAAAGAATATATGCGTCCGCTCACCTTCAAGAACGGAAATGCAGTACCGGTAAATAGCAAAAATCCGGAAGCGGCCGTCAAATTCATGGATTGGATGCTGGCAAGTCAAGAAAATTATGATCTTGTACAATATGGCATTGAAGGCAAGCACTACACTAAGGACGGTGAGACGGGCTTTAAGCCGATCAAAGATCCGAATAACAATAATAATCCGGGGTTTAGAGGTTCTGATTCGCAAAACGGCAACGTAAACTTCATGCGATTTGACTTGGAGAACAGCATTCCAGATAACAACAAAGTCTTGTTTGAGCCAAATCCGAATGCAATCAACAGTATCGCGGCGAACTTTATTTTTGACCCGACGAATGTAAGGGCCGAATACACCAATATTTTGTCGGAAGCTTCGGCAAGCATCACTCCGATTTATATGGGGGTTCAAGAATACGATAAGGCCTTCCCGGCTGCACTAGAAAAAATGAGGAAAGCCGGTCTGGATAAAGTGGTTGCTGAATACCAGAAGCAATTCCAGGAGTATCAAGCTTCACTCAAATAA	MKKYGVFLLAVVLVLSTLIGCGKGDNSSVSNSENDDKPANTVKIKYLVPGTEPKDYKEVFQKVNEKLAADGVGVEVEKIYIPWDAWDQKLNLMLSTGEDFDLFHVMQDRTPFSSYYNRGALADITDAIEKHGENLKKYIPDDIFEGAKIDGKYYAVPSYWVEMASEGQFNIRRDILAENNLKEPTTPAELISAWEIVMKNWRGSNKPYLGTRADFDPIYLHTSILHRTYDTFPFTVKDKFFYVNQSGEVKSWIETEEFKKDASFMRELYTKGITNPDILVMKQEQVDAQLDSGEWFVRLGTGGSLNGLKKYNPEATVNDIGVVWFNPEKEYMRPLTFKNGNAVPVNSKNPEAAVKFMDWMLASQENYDLVQYGIEGKHYTKDGETGFKPIKDPNNNNNPGFRGSDSQNGNVNFMRFDLENSIPDNNKVLFEPNPNAINSIAANFIFDPTNVRAEYTNILSEASASITPIYMGVQEYDKAFPAALEKMRKAGLDKVVAEYQKQFQEYQASLK	PGPT0017245_2535	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_05160	873	araQ_56	COG0395	L-arabinose transport system permease protein AraQ	ATGAAGGCGTTTTCACTCAGCAAAACGATCATGTATGCTCTCATTACGGTTTATTCGGCGCTTTGTTTGCTTCCGATGCTTCTGGTTCTGATGATCTCGGTCACGGATGAGGATGCCATATTAAAGAACGGCTACAGCCTTTTCCCGGAGGAGTTCTCTCTGTATGCCTATAAGTTAATCTTTACGGGCGGTTCCCAAGTCATGCAGAGCTACGGTATTTCCATCTTTGTCACGATTGTCGGCACGGTGCTGGCTATTCTGATTACTTCTATGGCCGGCTACACGTTGGCGAACAAAAATGTGAAAAACCGCAATCTACTGGCGCTCTATTTCTTTATTACCATGATTTTTTCCGCGGGGATTGTGCCCTGGTATCTGATGAATCGTTCGCTCGGATTGACCAACAACATCCTGGCTTTGATCATTCCGTCGCTGCTATTCAGCCCGTTCAACCTCTTCCTTGTGCGAAATTTCATGAGCGGGATTCCCGACTCGCTGCGAGAGTCGGCAAACATAGACGGGGCCAGCGATATTACGATTGCCTTCCGGATCTATCTTCCTTTATGCAAACCGGTATTGGCGACGATTGCGCTATTCTACGGACTTGATTACTGGAACAATTGGTGGAATGCAATCATGTTGATTGACAGCAAGGATTTGTACCCGCTGCAATTTATGCTACTGCAAATGCAATCGGAGATCAGCATGCTGAACGAGATGACGATGCTGGCCGGAACAAGCGACATCACGCTTCCTTCAGAATCGGTCAAGATGGCAACAGCGATCGTGACGATCGGGCCGATCGTCTTACTCTATCCGTATTTGCAAAAGTACTTCGTCAAAGGCCTAGTTATTGGTTCTGTCAAAGGCTGA	MKAFSLSKTIMYALITVYSALCLLPMLLVLMISVTDEDAILKNGYSLFPEEFSLYAYKLIFTGGSQVMQSYGISIFVTIVGTVLAILITSMAGYTLANKNVKNRNLLALYFFITMIFSAGIVPWYLMNRSLGLTNNILALIIPSLLFSPFNLFLVRNFMSGIPDSLRESANIDGASDITIAFRIYLPLCKPVLATIALFYGLDYWNNWWNAIMLIDSKDLYPLQFMLLQMQSEISMLNEMTMLAGTSDITLPSESVKMATAIVTIGPIVLLYPYLQKYFVKGLVIGSVKG	PGPT0017255_2584	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_05161	936	yteP_66	COG4209	putative multiple-sugar transport system permease YteP	TTGGAAAAGAGACAGCGACCGGCATTCGGCATGTTTTCTGATATCCGTAGGAATGGAACATCTTACTTGCTGGTCCTTCCGGCGATGGTTTACACGTTTATTTTCGGGTATATGACGTATCCGTATATACTGATTGCTTTCCAACGATTCAATTATACAAAGGGCATATTTCATAGCGAGTGGGTAGGATTAAAGAACTTCGAGTTCTTTTTCGGGTCGAGCAAGGCGTTTACGGTCACCTTTAACACAATCTTTCTAAATTTGCTCTTTATTGTCTTTGGAACGCTGACGGCACTGGCCATCTCACTGATCCTGAACGAGCTGCGCAAGAAGCTGTTCGTCAAAATCAGCCAATCCATGATGTTGTTTCCGAACTTCATTTCCTGGATCGTCATCAGCTATGTGCTGTATGCGTTTTTTTCTATGGATATGGGGATCGTGAACAAATTGCTGAACCAGCTTGGCCTCGTCTCGGTCAACTGGTACACCGAGCCGAAGGTATGGCCGGCTGTTCTTACCGTCATGCATGTGTGGAAAGGAGCAGGGATGAGCGCCATCATTTATCTGGCTACCATCACCGGGATCGATGAGACGTTGTATGAAGCTGCCGAGATTGATGGGGCTAACCGGTGGCAGATGTGCATGCGCATTACGATTCCGTTGATGATGCCTACAGTGGTTATATTGATGCTGCTCTCGGTCGGCAAAATCATGTACGGCGATTTCGGGATGATCTACGCCTTGATCGGTGACAATGGCACCTTGTATTCGACCACGGATATCATCGATACATATGTATTCCGCTCTTTGCGTCAGATTGGCGACCCTTCCGAAGCAATGGCTGTCGGACTGTTCCAGTCCGTCATCGGGTTTATCCTTGTCTTCGGCACAAATGCCATTACCCGCAAATTTTTTAAAGATGGGGCGTTGTATTAA	MEKRQRPAFGMFSDIRRNGTSYLLVLPAMVYTFIFGYMTYPYILIAFQRFNYTKGIFHSEWVGLKNFEFFFGSSKAFTVTFNTIFLNLLFIVFGTLTALAISLILNELRKKLFVKISQSMMLFPNFISWIVISYVLYAFFSMDMGIVNKLLNQLGLVSVNWYTEPKVWPAVLTVMHVWKGAGMSAIIYLATITGIDETLYEAAEIDGANRWQMCMRITIPLMMPTVVILMLLSVGKIMYGDFGMIYALIGDNGTLYSTTDIIDTYVFRSLRQIGDPSEAMAVGLFQSVIGFILVFGTNAITRKFFKDGALY	PGPT0017250_1452	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_05162	2325	yesS_12	COG2207	HTH-type transcriptional regulator YesS	ATGCGGAACACCATGAATCGGCTTGTTCGATACAAGGCGTTTCAAAAACTTACAATTTCATATTTCCTGCTCGTTCTACTAACCGTCAGCCTGCTGTCCGGCGTCCTCTTCCTTCTCTTCTCCAAAAGCGCCGTCAAGGAGATCGACCGCAATTCCAAAGCCATGTTATCCCAAATCACTTACGCCTCGGAGGTCGTCTATAACCAAGTCATGACAATCGGCAATGCGCTGCTCATCCAGCCGGAGATCACCTCATTCCTGAATGACAAGTTGGAGGACAAGACGAACAATTATCGGATATTCCAACAAATGAACCAGATTATAAGTGTGTATCCTTATATTTACAGTGCCGGGATCTACCGGCCTTCTACGGGAACAGCCGTCGATACTGCCGGGCTTCCATTCGACTCCTCGCTCATCACCCTTGGCGCGGAGCGGTACATGGAATTCTATCCACGTAGCTTGACCGTTGCCGACCGCAACAACGATGCGCCGCTTCAGCTCCTGACCTTTCTGCTGTACCCGGATTTTTCATTTAAGACCTCCGACAACCCGCTTATCTATATCAATGTGGAAGAAAAGTCGATTCTGACGACGATCCGCAAAATCAGCAAAACGGATTCCGCCAACAACGTTTTTGTCATCAACAAAGAGGGCAAAGTGCTCTCCCATACCGATTCAAGTTTATTTCTGAAAGATTGGTCCGAGGAACAGTATGTGCAGCAAATTCTAAATCAGGACAAGGAAGAGAACAGCTTCACAACAAATATTCTAAATAAAAAGCATCTGGTCACTTATGTGAAGTCGGAAAAAATGGACTGGTATTTTGTAAGCGTTTCCCCCTACTCCGGACTCATCTCCAACATTGACCGTCTCCGCAACGTTACGCTGCTTGTGACAGCCGGAATTGTACTGACAGGTCTGCTGATCTCTATTTTTCTGACCAAGAGCATTTATAGACCGTTATCGACGCTGTTTGAAAGGATCATGCCGGACACGGATTCTCCAGTCTCCGATTCGCCGTTCATAGATGAATATAAGATGATGACCGAGGTTTTCCATTCGTTGGAGGAACGTGAAAAATCGATGCAATTCGTGATCAACCGCTCTTCCCGAACGATTCGTGAGCATTACTTACTTTCGTTACTCTGGGGTCATCCGCTGGAACATTCTGTTCCGAGCGAATTAATTCGGGATATCGACAAGAAAGTATCGGGGCCTTATTTTTGCGTGCTTGTATTCAAAATCAATGCGCTGGAACCGACAAGAGGGAGGATGGAGACGGAACAGCAGCCGCTGCTGCTCTTCGCTCTAGGCAATATCGCAAAAGAGATGCTGGAGCCTATCGGAGCATGTGATTACCTGTTTATGGGGGGAAATGAAGCCGTCGCAATCCTTCAGTGTACGAACAACCAACAGCCTGAGGAGCTCGAGGCTGCCTTGGGCAATATTCAGAGTTTTCTGAACCGTTACTTCAAGGTGACGGTATCCATTGGCATAGGGGATATAAGTTACGGCAGGAAAAATATTTCTTTCTCCTATACTTCGGCGCAGCAGTATGTTAAATACCGGCTAATCTACGGGAAGGAATCGATCCTGGATGCCGTAACAACACGGCCCCATATGATGACGGCCTTAAGTTATCCCAGCGCCTTCGAGAAGAAGCTAATCGATGCTGTGCAGTCCGGGAAGCCGGAAGCAATCCGGGATGCAATCGGACAATTCGTGGAACAGATCTCTAACGGTTCAATCAATCAGGTCATTACATACAGCACCCAGCTCATGCTATCCTTACTTAAACACTTTGACTATTTGCAACATGTGCCAGATTCCAATTTCAACGAGTATCTGGATGCGGTGACCGAAATTGAATCCGCCGAACATCTGACGGAAATCAAGGAAACTTTCAATCGCTATTGTTTTAATATCTGCACATTAATCGAAGAGAAGAATCTCTGGATGAATGCCCAGAAGCACAATGTTATCATTGAAAAAGTGCAGAATTACATCCAGGAACATTATGCCGAGCCAAACTTATCTCTGGAGCTGGTGTCTAACATTGCCGGCCTGTCGCCAAGCTATTTGGGTAAGCTCTTCAAAAAAGCAACCCGTCAATCGTTCAGTGAATACCTGAATCACACCAGGCTGGAGAAAGCTAGGGATTTGCTTGCTTCCACCCATGAGACTGCAGCCAAAATCAGTGAATCGGTCGGAATGTACAATATCACTTACTTCTCCACTCTATTCAAGAAAAAATACGGCCTAACTCCTTCCGTCTTCCGCGAGCAGGAGGCGATAAGAGGCAATGAAAGGGCTGGAGAATAA	MRNTMNRLVRYKAFQKLTISYFLLVLLTVSLLSGVLFLLFSKSAVKEIDRNSKAMLSQITYASEVVYNQVMTIGNALLIQPEITSFLNDKLEDKTNNYRIFQQMNQIISVYPYIYSAGIYRPSTGTAVDTAGLPFDSSLITLGAERYMEFYPRSLTVADRNNDAPLQLLTFLLYPDFSFKTSDNPLIYINVEEKSILTTIRKISKTDSANNVFVINKEGKVLSHTDSSLFLKDWSEEQYVQQILNQDKEENSFTTNILNKKHLVTYVKSEKMDWYFVSVSPYSGLISNIDRLRNVTLLVTAGIVLTGLLISIFLTKSIYRPLSTLFERIMPDTDSPVSDSPFIDEYKMMTEVFHSLEEREKSMQFVINRSSRTIREHYLLSLLWGHPLEHSVPSELIRDIDKKVSGPYFCVLVFKINALEPTRGRMETEQQPLLLFALGNIAKEMLEPIGACDYLFMGGNEAVAILQCTNNQQPEELEAALGNIQSFLNRYFKVTVSIGIGDISYGRKNISFSYTSAQQYVKYRLIYGKESILDAVTTRPHMMTALSYPSAFEKKLIDAVQSGKPEAIRDAIGQFVEQISNGSINQVITYSTQLMLSLLKHFDYLQHVPDSNFNEYLDAVTEIESAEHLTEIKETFNRYCFNICTLIEEKNLWMNAQKHNVIIEKVQNYIQEHYAEPNLSLELVSNIAGLSPSYLGKLFKKATRQSFSEYLNHTRLEKARDLLASTHETAAKISESVGMYNITYFSTLFKKKYGLTPSVFREQEAIRGNERAGE				NA	NA	NA	NA	NA
AK002_05163	1860			hypothetical protein	ATGTTCGGATTAAAGGCGGATTTTATGCAGAACGGCGGAACGATCATGGTGCTGGACCGGGATGAAGGGATCCAGTCAGCAGAACTGAATCATGTGCAGCTGGGCATGATCCGTTCTTCGAGAATCCCGCACTTTTTGAAGCTGCATATGAAAGAAGTCGATTACAAAGTAACCTTGGAATATGATATCACCGGCAAAAAGATGCTGTCACAGGCATTGAAGAGCGAGCGCATGACGTTGACCGAGTACTACGGGTTGCTGCTGCAGATCGCTACCGCATTGGAGGACAGCAGGCTGTATATGCTTCAACCCGAGAATTACATACTTCATGAGGATTTTCTGTTTGTTGAAGGCTCCCTGCATCTTGGCACATTATATTTAACTTACGTTCCCCTTGCCGTTAATGAGAAAAGCAGTAACCGTCTCCCTGTAACGCTTAAGGAGCTTATGACAAGGCTGCTCTTATCGGTCTCGGAGCTGAAAGGAGGAGGGATACAAGCATTGATGTCCTTCTGCAGTGAACAGAGCTTCAGTTTGCCGGGACTTAAGCGGCTTGTCATTGAACTGCTTGCAGGAGAAGATGGTGAAAGCGATCAAGCAGGAACGCAAGCGAAGATGGCAGTGCCTGCACGTGTGAATGAAGGATTGCCTTATACCGATAATCCCTCAAACAGCAGCGTCTTCAGGCCTGCCTTCTCATTTGCAGAGCCGGCTCACAGCCGGAGTGCGGCATCGCAGACGGAGAATGACGGCAACACGGATAAACAGAGTTTAATTCGAAGCCTGACGGAACGTACCAACGAGATGTTTGGAAAAAGCGGCCGAAACGAAGAAGATAATTCTCACGCCGGTCGAATCCCATCAGGTCTTCCCGCGTGGTCATCTGGCACAGATGATTCAAGTCTTGATGAAGCGGAGCATGGCAAATCTTCGCCGGTTCGGACCTATATTTTGCTAGGATGTTTGCTCGCCGCAGCGGGAGCTTGGAGAATGTTGTACATGAATCAACCGGGTCCGCTGATGCTGGGGCTATCGGTAGGGATTACAATTCTGCTTGCCGTGATCGCTTGGCTCGGCTACACGGGCAAACTCCGGCTGCTCTCACGGAGAGCGGAGGATTGGTCCGGTTCATTGCCCGTGTTTGAATCCACAGAGCTGAGTCCGCAGGAGCATGCCAAGTGGAAGTCCGTCCCGCGTTTTGAGGCAGATCCCTTATCAGGTCTTCTTACGGGAAAACAGGCAGCGGATTCAGGGAAAGCGGCAGAAGCAGAGCTTGGTGAGAGGAAAGAGCATTGGAGATGGCAGGTTCCTAAATCTCCATTTAACCTTGAGCGGGATCAGCCTTCAGCGGGATCTTCCGTACAGTCTTTGCGGGACCAGGCTTTTTCGCGTTCGCCTAACGCCGGGGCAGGAGATTCTTATGGGGAAGAAGGGGATTATTATGCCCAGTTGTCCCAACGGACGGAGGTGCTTTCGTCCTCTGGTGGTGGGGGAGCTACCGTGCTGTTAAGTCCAGAGACCGCCGTTCGTCCGCCCGGGCAACATTCGGCCAGGGACTATCTTGAGCTTACCGAACCGAATGCAGCCGTCCCGCAGCGAATTGAACTGCATCAGCCCCATTTCATCATCGGCCGCTCTCCCGACGTCGCCCAATTCGTAGCTGAAGGTGTGGGGACTTCACGGGCACATGTCGAGCTCTCTCGCGAAAGCGGTGGATACGTCCTGAAGGATCTAGGTTCCAGAAACGGTACGATGTTGAAGGGAGAATCCATGGTGCCTTATAAAGAATACCCTTTGATGGAAGGGGATGCCTTTATTATTGCCGGATGGACGTTTACCCTTCGCAGGGGGTTATATTAA	MFGLKADFMQNGGTIMVLDRDEGIQSAELNHVQLGMIRSSRIPHFLKLHMKEVDYKVTLEYDITGKKMLSQALKSERMTLTEYYGLLLQIATALEDSRLYMLQPENYILHEDFLFVEGSLHLGTLYLTYVPLAVNEKSSNRLPVTLKELMTRLLLSVSELKGGGIQALMSFCSEQSFSLPGLKRLVIELLAGEDGESDQAGTQAKMAVPARVNEGLPYTDNPSNSSVFRPAFSFAEPAHSRSAASQTENDGNTDKQSLIRSLTERTNEMFGKSGRNEEDNSHAGRIPSGLPAWSSGTDDSSLDEAEHGKSSPVRTYILLGCLLAAAGAWRMLYMNQPGPLMLGLSVGITILLAVIAWLGYTGKLRLLSRRAEDWSGSLPVFESTELSPQEHAKWKSVPRFEADPLSGLLTGKQAADSGKAAEAELGERKEHWRWQVPKSPFNLERDQPSAGSSVQSLRDQAFSRSPNAGAGDSYGEEGDYYAQLSQRTEVLSSSGGGGATVLLSPETAVRPPGQHSARDYLELTEPNAAVPQRIELHQPHFIIGRSPDVAQFVAEGVGTSRAHVELSRESGGYVLKDLGSRNGTMLKGESMVPYKEYPLMEGDAFIIAGWTFTLRRGLY				NA	NA	NA	NA	NA
AK002_05164	513			hypothetical protein	GTGGCCGTTGCCTTTGGTATTTGTGCCGTTTATCTGATTGCGGCCTTTATTACAGACCTTCGTTCCATGAAGATACCGAATGCTCTAACCGTATCGGCAATGCTGTCCGGTCCGGTTTATCATGGCGCTCTAGACGGGTGGGAAGGCCTGCTCTTTTCTTTGAAGGGTCTTGGAGCAGGGTTTCTCATCTTATTGATCATGTATTTTATAGGGGCTGTAGGAGCAGGCGACGTTAAGCTGTTCGGTGGGATCGGCGCCTGGACCGGCTTGTGGTTTACCTTGCAGGGCATTATGTATTCTGTCCTTTTTGCCGGTGCCATCGGTTTGCTCATTCTGCTCTGGCGGCGGGAGACGATGAAGCGAATACGCCATGTCGTCGGCAGTATCGCCGGAGTTTTTGTCATGAAGAGCTGGTTGCCATGGCGCAACAGCCAGGAGGAGCACTTGCGATTTCCCTTTATGATGGCTGTCCTTCCTGGCATGATCAGCACGTATCTAGTACTGCACATGTAG	MAVAFGICAVYLIAAFITDLRSMKIPNALTVSAMLSGPVYHGALDGWEGLLFSLKGLGAGFLILLIMYFIGAVGAGDVKLFGGIGAWTGLWFTLQGIMYSVLFAGAIGLLILLWRRETMKRIRHVVGSIAGVFVMKSWLPWRNSQEEHLRFPFMMAVLPGMISTYLVLHM	PGPT0016000_662	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016000-cpaA-K02278	NA	NA
AK002_05165	921			hypothetical protein	ATGGTCGTGGAAGCTGCGCTTGTGCTGCCGATGTTTATGTTTTTTGTCATTTTTCTTATATATATCGTGCAGATGACGTTGATATCGACGGCGCTCCAAAGCACCGTTTCCGATACCGTCAAAACCGTAGCGGCCCATATGTATCCTGTTTCTCTAGCCGTGCAGGCGAATGCAGGCGGTAACGGAACAGGCGTAGGCACGCCCAGCACGTCCCATTGGGAAATACCCAAATTGTCGCTGTCCGATTGGGTTTCGAAATATAGCGACTCGCTTCCTTCTCCTGCTAAGGAGTGGATCACGGAAGCCGTCGCTTCGGGTGAGGAGCCTCTGCAACAGCTTAAGAACCAAGCCGTGGAAGCCGTACTTGATCCCGTGGTCAAGCCGATGATGAAGCCGTTCATGCCTGACCGCCTTCTGGATTATGACCGAATCCATGTGTCCAATGTTCACATACCCAATTTGAAGAGCGGCACGAGTCCTTATTTTGGCATTGAGGTGAATTATGCCCTTCCAATCCGAGTTCCTTTCTTGAACAAACGCATCGTGCTGCAAGCGAAGGCTCAGGAGAGGCTGTGGATTGGAGACACCGGAGAAGGCGGGGGCGATTCAGGGAACGGGGACGGCTCAGAGAACGGAACCATTGAGCTGATGGAGAAGCCGAATCCGGCCGTCGCAAGCAAGCAGGCTAAGGTGAAGGTGAAAGTAGAACCAGGGGCCAGCGCTCAATTATCAGTCTATTATAAGAGCGGCCAGAGCACGGCTAAATATTTGGGTTGGAAGACCGCGGATAGTAACGGCTATATCGATTGGGAATGGAACGTGGGATTTAATACAACGCCGGGGACTTGGCTGTTTGTGGTTGAGACGGCCGACGGGCAGCGGATCGAGGTGCCGTTTACGGTGGTCGCGCGGTCGGGTTGA	MVVEAALVLPMFMFFVIFLIYIVQMTLISTALQSTVSDTVKTVAAHMYPVSLAVQANAGGNGTGVGTPSTSHWEIPKLSLSDWVSKYSDSLPSPAKEWITEAVASGEEPLQQLKNQAVEAVLDPVVKPMMKPFMPDRLLDYDRIHVSNVHIPNLKSGTSPYFGIEVNYALPIRVPFLNKRIVLQAKAQERLWIGDTGEGGGDSGNGDGSENGTIELMEKPNPAVASKQAKVKVKVEPGASAQLSVYYKSGQSTAKYLGWKTADSNGYIDWEWNVGFNTTPGTWLFVVETADGQRIEVPFTVVARSG				NA	NA	NA	NA	NA
AK002_05166	2232			hypothetical protein	ATGACGAAGCATGGGAAAGCGAGGTCTAGTCGGAGAAGGAGAGAGGTGGGCCGATCGTCCGATGGATCTGTATCTGTTTTTTTGATTATCGCCCTGGCAGCCGTATTTATGTTTGTAGCCATATTCATTGATTTCTCGCGTATCGCGGCCATGAAGGCGCAAAGCGAGAGGCTGACAAGAGCAGCCGTACGCTCCGTGATGTCATCCTACGATCCGCAGCTGCAGAAGGAATACGGACTGTATGCCCATGGGGGCACCAGTGGGGATCTCATTATGGGCAACGTGCTGAATGACAGCTTGAAACCGGGAGACCGCAGCGACGCGTTCCGGTTAATGGCGATGGAACTCGATAGCTCGGGGCTTGAATTGCAGCGTCCATTGGGAACTTATGACATCTTCAACCGGCAGATCATCGAGGACATGAAGTATAAAGCGCCCATCGATTTCACTTTGGAATTAGTGGGTAAGTTCAAACCTTTATCGCAGTCCATGAAGGAAGCTTCCAATACGGTCGATGTGCTTAAGAAGCTGCGCAAGCTGTATGACAAGCGGGAAGCGGCGCTGGATGAGATGCTGGCAAAGCAGCGCAAGGCAGGTGAGCATGCGATCCAGCTATCGAGACTGGTTATGGATCCGCCTGGACAACCGATCAATGATACTTCGCTTGGGGGCAGCATCCAAACGGCTGCCGACGGGGCATCGCAGTATGAGGATTATAAAGATAAACAACAGGAGGACGCGGACAGGCCTCCCAAGGAGAAACAGTATACGCTTTTGCTCGTGGCTTACAGGAGCGGAATGTCTTCCATCGGCTCGAAGATATCGAGAGAGGACGGGCGGTTTCAGCGAGAGAATGACAAGCTCCTAGCGGATGCGCAGCAATTATGGGAGGAAGCCAGGAATTTGAACGAGGAGATGAAGCAGGTCATCAAGGAATCCGAGAACCGTTCATCTAATGTGGGGTATGACCAAGTGACGAATGACGTAACGCCGGGGTCTGCTGCTTCCTCCGGATCGGAAGCGGAGATGATCCAATCCATTCGGAAGCAAGCGGACAAATTAATTCATAGCGATGACTTCTTAAACGGCTTTCGGCAAGAAATTGACAACCAGGAGCGTCGATATCAACAGGTTGTCCGAGCTGTGGCCGCGCTACAGTCTTCATTGGGCGGAGAGGGGATGAAAGGAGCCGTACTCGGAGCTAGCCGCGAATTGCAGAATTATATTTCTAATTATGGGGTATCAGGCAACGGAAATATCATGGATCGGCAGCAGGCGGCATTGGAGCAGTTTCGCACATCGGATAAGGAACGGAAGGCGATGGAGAAGCTGGCCAATCAGAAGCTGAAGCAGGCATCCAAAGCCATCGAGGCGATCAACGGGCTGAATGGGCAGCATCAAGCCATTATGGATGAGTTTCGTGAACTCCAGCAGTACTATGACGAAAGCCTTCAATTCAATGCGGAAGGAGACAGCATGAGTAAGGGAAAGCCGCTGGACGACGATCCGTATGATGCCGGCAAACAAGCAATGGATAATATGGACGGTATGTTTGGATTTATGGGGAACGTGCTTGGCGGTGTTAGGGATGAACTGTTTCAGAATGAGTACGCCGTTCATTATTATCAGCATTTCGATGTCGGGAACTTATCCGGAATCGTTGACGGCTCCAGCACGGGAGAGGAGATGCTGCAGGAGTTTGCTATTGGGAACCAGGAAGTGGAATACATTCTGTACGGATTTCACAATCCCGCCGGGAATATATCGGCGGCTTATGCAGAAATCTTCGCTTCCAGGCTCGCGATTCGGACGATGGAAGGATTCGTCGTCAACAGCAAATTAGGAAATCCGTTGGCGGTTTTGGCGGCAGCCATCCTGTATGGGATTGAGAAGGCTATCGAGGATATGATCCAGCTGTGTCAGAAGGGAAGCGTTCAGCTTTCCAAGTATGTACCCGTTGAGCTTACCTACAGGGATCATTTACGAATATTTTTGTTTATTCACAGCAATAACGAGAAGAAGTTATCACGCATGCTGGCGCTGATACGATTAAACACCGGCATCAATCCTGCGGAGCGATTTACTTATGCTACAGGGGAAGTTAGGACGGCCATGCGTTTATGGTTTCTTCCGGGAGTGACGAAGTCGATCGGCGTTGTATTCGGAAGCGATGGGGATGAAGTTCAAGGAAGTCGGTACTTGGTCAAGCGCAAGGCGGATTTTTCCTATTAG	MTKHGKARSSRRRREVGRSSDGSVSVFLIIALAAVFMFVAIFIDFSRIAAMKAQSERLTRAAVRSVMSSYDPQLQKEYGLYAHGGTSGDLIMGNVLNDSLKPGDRSDAFRLMAMELDSSGLELQRPLGTYDIFNRQIIEDMKYKAPIDFTLELVGKFKPLSQSMKEASNTVDVLKKLRKLYDKREAALDEMLAKQRKAGEHAIQLSRLVMDPPGQPINDTSLGGSIQTAADGASQYEDYKDKQQEDADRPPKEKQYTLLLVAYRSGMSSIGSKISREDGRFQRENDKLLADAQQLWEEARNLNEEMKQVIKESENRSSNVGYDQVTNDVTPGSAASSGSEAEMIQSIRKQADKLIHSDDFLNGFRQEIDNQERRYQQVVRAVAALQSSLGGEGMKGAVLGASRELQNYISNYGVSGNGNIMDRQQAALEQFRTSDKERKAMEKLANQKLKQASKAIEAINGLNGQHQAIMDEFRELQQYYDESLQFNAEGDSMSKGKPLDDDPYDAGKQAMDNMDGMFGFMGNVLGGVRDELFQNEYAVHYYQHFDVGNLSGIVDGSSTGEEMLQEFAIGNQEVEYILYGFHNPAGNISAAYAEIFASRLAIRTMEGFVVNSKLGNPLAVLAAAILYGIEKAIEDMIQLCQKGSVQLSKYVPVELTYRDHLRIFLFIHSNNEKKLSRMLALIRLNTGINPAERFTYATGEVRTAMRLWFLPGVTKSIGVVFGSDGDEVQGSRYLVKRKADFSY				NA	NA	NA	NA	NA
AK002_05167	675			hypothetical protein	TTGAATAATTGGCTAAAGAGAAGATGGAAGGACGATACGGGGAGCTTCACGGTTGAAGCCTCCCTGGTTCTTCCCATCGTGCTGATGGTGACGGTTTTGCTTCTGTTCCTATGCTTGTATATCTATCAGCAGTCCATACTGGTCCAGGCGTCGGCCGCGGCTTCCGAAAGGACCGCGTATAACTGGGACAACAGCCATAAGATCGCTGCCTCGGGATCCGTGGAACAGGGACGCCATGATGCGTTATATTGGCGGTTAACCGACGATAACGTTGTCGGAACCTTATTCGGTTTGGCGGGGGGAGACAGTACGAGGTCGATTGCACTGCCGCAAGGGGAGGCTGAGGGCGGAAAATTGCCCGAGCTTAAGATGTCCAAGGGCGGCACGGCCGTGCCTTCCAGCATGGCTGGGGAGATGCGTTATACGAATCAGCTGCTCATACGAAAAGTAACGACGTCGTTAAACGAGCAGGTCTCTCTGACGCCAATCAGCCGAATGATGGACGATGGCGGCCGGATCAAGGTCAACTCACAATCGATTGTGGTTGATCCCGTTGAATTTATCCGCACGGTGGATTTGATGCGATATTACGGATCGAAGTTTCAAGGCGGGAGAAACGGAACGGATAAGGCAGCCGCAGGTGAAGTTCTACAAAAGTTCGGAGGTTCGCGATAG	MNNWLKRRWKDDTGSFTVEASLVLPIVLMVTVLLLFLCLYIYQQSILVQASAAASERTAYNWDNSHKIAASGSVEQGRHDALYWRLTDDNVVGTLFGLAGGDSTRSIALPQGEAEGGKLPELKMSKGGTAVPSSMAGEMRYTNQLLIRKVTTSLNEQVSLTPISRMMDDGGRIKVNSQSIVVDPVEFIRTVDLMRYYGSKFQGGRNGTDKAAAGEVLQKFGGSR				NA	NA	NA	NA	NA
AK002_05168	192			hypothetical protein	ATGATGTTAAACATGGCGAAGAACGGGATGAAAGCTTTTTGGAAGGATGAGAAAGGGATCGGAACGCTTGAGATGATCCTGATCCTCGTCGTTATTTTGATAATCGCGCTTATATTTAAAGATCAGATTACGGCCTTGGTGAACAACTTGTTTAAAAACGTGAACAACAAGAGTAAAGAGTTCCTTGAATAA	MMLNMAKNGMKAFWKDEKGIGTLEMILILVVILIIALIFKDQITALVNNLFKNVNNKSKEFLE				NA	NA	NA	NA	NA
AK002_05169	873			hypothetical protein	ATGCTGACATGGATGTCCGGCGCGCTGATGGTTCTGCTTGTGGGTGGTTGGGTGGTGCTGAATCAAACGTGCGGCGAACGATACCATCGTCTTGGAAGATTGTCCATGGATGGGCTCAGGCTTCAGCGGTTAGCGCCGCCTCTGTTGTTCCTGTTGGAGCGGGGGAAGGTTCCGATGCGCCTCCCGATTGTATTTTACCGGATGCAGGGCTCCGTTCAGAAGATCCATGGTCTGCGGCACAGCGCGGAAATGACGTTATTATTTATGGCTGAGGCCCTTGCGTATACATGGCTTATTTTGATCGGCGGCTGCTTGTGGTCGTTGCTGTCCGGGGACGTAATCGGACTTCTGGCTGGATTCGCATTGGGGGCATTGCTGCCCGTCGCTTTGGTGAAGGACCTCCATAAAAAGGTCACGCTGCGTGAGCAGGATATCGTGATGGAGCTGCCGGAGCTTCTGAACAAGATTGTGCTGCTTGTCGGCGCCGGCGAGACGGTGCAGCGTGCGATCATTCATTGCGTGGAACGGAACAAGGACGCGAGCCATCCCCTGTATGCTGAGCTGAAGAGAATGGTGCTTGAATGGGAGGGAGGCCATCCGTTCCAGCAAGCCTTCGAGCAGTTCAATAAACGGTGCGGCGTTCAGGAAGTATCGATATTTACAACAACCGTCCTGCTTAATTTTCGGCGCGGCGGGAATGACTTTGTCCTGGCACTGCGGGATTTGTCCCGCGTGCTGTGGGAGAAGCGCAAGGCCATTGCAAGAACAAGGGGCGAGCAGGCCTCCTCAAAGCTGGTGCTGCCAATGGTGGTCATCTTCATGATCGTGATTGTTTTGCTCGGAGCGCCTGCATTTATGATGATGAACATGTAG	MLTWMSGALMVLLVGGWVVLNQTCGERYHRLGRLSMDGLRLQRLAPPLLFLLERGKVPMRLPIVFYRMQGSVQKIHGLRHSAEMTLLFMAEALAYTWLILIGGCLWSLLSGDVIGLLAGFALGALLPVALVKDLHKKVTLREQDIVMELPELLNKIVLLVGAGETVQRAIIHCVERNKDASHPLYAELKRMVLEWEGGHPFQQAFEQFNKRCGVQEVSIFTTTVLLNFRRGGNDFVLALRDLSRVLWEKRKAIARTRGEQASSKLVLPMVVIFMIVIVLLGAPAFMMMNM	PGPT0022295_1961	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022295-tadC-K12511	NA	NA
AK002_05170	858			hypothetical protein	ATGAAACGCTCCGGCAGTTCAGCCTGGATGTCCGAAGAGGGCCAAGGCGGCCAAGTGATCAAGAGGAGCAAGGCCTCCGGTAAGCCCGAGCATGCAGCCACGGCCCGAACCCATGCCCTTCCGGATTACAGTGTCTATCACCTGTCGATGATGCAGAGAACGGCATGTGTCATCCTTGGCGGCCTTTTGTTTTGCTTCATCGGCTATCTGTTTTATCACAATCTGATATTGTCGCTGTTGCTGGGAGCTGGAGGACTGATGATCCCTAAATTGTGGCGGCAGTTTATGCTGGAACGCAGACGCAGGACGCTGAATCTTCACTTCAAGCAAGCTCTCTACTCCCTGTCCTCGTCCCTGTCGGCCGGCCGCTCCGTGGAGAACGGATTCAGGGATGCCGTTCAGGACTTGCTGCTGCTGGATCCCGGAGGAAGCAGCGATCTGATCTTCGAACTCAAAGTCATTGTGTCCCGTTTGGAGTACGGAGAGCCTATCGAAGCGGCACTGCAGGATTTTGCAAGAAGGGCGGGGATGGAGGATCTAACGAATTTTGCCGATGTCTTCTCGACTTGCAAACGCACAGGCGGCGATTTGGTCGAAGTCGTGCGCAGAACCTCCTCCGTCATCGGGGAGAAGCTGGATATTCAGCAGGAGATATCCGTGATGATTGCACAGAAGCGGTTCGAATCCAAGGCGCTTCTAGCCGCCCCGTTCCTCCTGCTGCTGTTCATGAATATGACATCCCCCGATTATATGGAGCCCATGTACAGCGGATCGGGGATCATGATCTCTACTTTTGCACTGGCGGCTTTAGGAGGCTGTTTCTTATGGATCACCAAAATGATGAATATCAAGGTGTAA	MKRSGSSAWMSEEGQGGQVIKRSKASGKPEHAATARTHALPDYSVYHLSMMQRTACVILGGLLFCFIGYLFYHNLILSLLLGAGGLMIPKLWRQFMLERRRRTLNLHFKQALYSLSSSLSAGRSVENGFRDAVQDLLLLDPGGSSDLIFELKVIVSRLEYGEPIEAALQDFARRAGMEDLTNFADVFSTCKRTGGDLVEVVRRTSSVIGEKLDIQQEISVMIAQKRFESKALLAAPFLLLLFMNMTSPDYMEPMYSGSGIMISTFALAALGGCFLWITKMMNIKV	PGPT0022290_2111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0022290-tadB-K12510	NA	NA
AK002_05171	1251			hypothetical protein	ATGCCTGAGGATCCGTTTAAATCGGTTCGGGATCAGGTTCGGTCCGAGCTTGATATGAGTGCGAGCGTTAACAACTCGGAATTGATGGCCCGCATCGAGGAACTGGTGTGGAGAAGACGCGAGCTTATGGAGCTGACAGCCGCCGAGAAGCGGAGGCTGGTGCGGAGGGTATTTGATTCATTTCGCGGGTTGGATGTGCTCCAACCATTGGTGGATAATCCCCGAATTACGGAAATTATGATTAACAGCCACCAGGATATATTCATTGAGCAGGATGGCGAGGTGAAGAAGCTGCCGCTTCAATTCGAATCGCAGAGCCGCCTGGAGGATATCATTCAGAGCATTGTCGGTACGGTAAACCGGGTGGTGAATGAATCGACGCCCATCGTTGACGCAAGATTGAAGGATGGCTCCCGGGTAAATATCGTGCTCCCGCCCATCGCGCTGAAAGGGCCAACCATGACGATCCGCAAGTTTCCGGAATCGCCGATGACGATGGATGACCTGGTTGGAAGGGGAGCCCTGACGGAGGAGGCGGCAGAGCAGCTTCGCATATTGGTTAAGGGCAAGTACAACATTTTTATAGGCGGCGGGACGGGGTCGGGGAAGACGACTTTCCTGAATGCGCTGTCGCAATATATTCCGCCTGATGAACGTGTCATTACGATCGAGGATTCGGCGGAGCTGAAGATCGTGACGGTCCCGAACCTCGTGTCGCTGGAGACCCGGAATGCCAACACGGAAGGCCGGGGGGAGATCGCGATGCGCGATCTGATCCGTTCCTCGCTTCGGATGCGTCCTAATCGGATCGTGGTAGGCGAGGTGCGGGGCAGCGAGGCGCTGGATATGCTGCAGGCGATGAATACCGGGCATGACGGAAGCTTGTCGACGGGGCATGCCAACAGCACGCAGGACATGATCAGCCGTTTGGAGACGATGGTACTGAGCGGTGCGGATCTTCCGATCAGCGTAGTCCGCCAGCAGATTACCTCGGCGATTGATATATTTGTGCATTTATCCCGCTTAAGGGATCGCTCGCGACGCGTAACGGAGATTAGCGAAGTGATTGGAATGAGCAGCGGCGAGGTAGTGCTGAATCCGCTGTACCGGTTCCGTGAGACGGGCGAATCGGGCGGCCGGGTGATTGGGCGCCTGGAGCCTTGCGGCAACCCGCTCCAATCGGCGGACAAGCTTCATATGGCCGGGATTACGGCTTGGCCGCTGCAGAAGATGATGGAGGTGACCAAATGA	MPEDPFKSVRDQVRSELDMSASVNNSELMARIEELVWRRRELMELTAAEKRRLVRRVFDSFRGLDVLQPLVDNPRITEIMINSHQDIFIEQDGEVKKLPLQFESQSRLEDIIQSIVGTVNRVVNESTPIVDARLKDGSRVNIVLPPIALKGPTMTIRKFPESPMTMDDLVGRGALTEEAAEQLRILVKGKYNIFIGGGTGSGKTTFLNALSQYIPPDERVITIEDSAELKIVTVPNLVSLETRNANTEGRGEIAMRDLIRSSLRMRPNRIVVGEVRGSEALDMLQAMNTGHDGSLSTGHANSTQDMISRLETMVLSGADLPISVVRQQITSAIDIFVHLSRLRDRSRRVTEISEVIGMSSGEVVLNPLYRFRETGESGGRVIGRLEPCGNPLQSADKLHMAGITAWPLQKMMEVTK	PGPT0016025_2433	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-TIGHT_ADHERENCE_EXPORT,PGPT0016025-cpaF-K02283	NA	NA
AK002_05172	1158			hypothetical protein	ATGATGATACCGGCCCGACTTGTGCTGGCAGTGCAGGATTCCCGGTATGTCGAACCGCTGCTGAATTATGTGCATGGAAGCCCCTACGGATCGGCTCTGCAGGTGACCGCATTTACCCGCGTAGAATCATTCCTTCATTATATGGACTCGGGGGAGACGCCAAATTTGGTCGTGGGGGATACGGATATGCTGGAGAGCTGGCTCAGCCGGGGGGAGGCATCGGTTCCATGGCTGCTCCTAAGCGAAGGCCATTCAGCGCTTTCTCTTATGGAGGGCTGCGACAGCACCCCCAAATACCAGCCGCTGCCTCAGCTGCTGGACATCATGGTAACCCGTTGCAAGCGAAGCGGGGGAACGCTGGAGAAATTGAATTCGGGATCAACATCGGTGATCGGCATCGTATCTTCCCTGGGCGGGAGCGGGAAATCAACGATTGCCATGAACATGGCGAAGCAGCTTGGCGTGCTCGGTTTGAGAGTTTTCTATCTCAATTTAGAGAGCGTGAACAGCAGTGCGTTGTTTCCGTCCGGATCCGTGGGCATGGAGGGGAGCTTTTCGCGATTACTGTATGACGTTAAGGCCTCCCAAGAATCGGCTTCCGAGACGGAGCTGTCAATAGTTCCCTATATCATCAGGCATCATGGCTTGAAGTGCGATTCCTTTGAGCCCAGCTACAACGTTAAGGAAATATCGGAAATGACCGTGGACGATACATCCCTGCTGTTGACCTCCCTGATCGAATGCCATCATTACGATGCCATTGTGGTGGATACCGAAGGGGATTCGGGGGAACGATTGCAGGCGGTTCTCGGACAGGCCGGACTGCTGATCTGGGTGCTGTTGGATGACTTGATCAGCATGCATAAGAGCGGCGTATGGCTGGATCAATTAGAGCTCAAGGATTCCACGCTTTTCGAAAGCCTGAAGAAGCGGAGCCGATTCATCGTCAACCGGTACACGGGTCAGCTTGTTAACGGGCTTCCCCGCAAGGATATGAGCATAGACGGGGTGCTGCCTTATATACCTTCATGGAAGCAGCTCCATCGGGAAGATCTGCTGTTGTCCTCGCCGATCTATCAAAGGGAGGTATTGAAGCTCTGCCAGCAGCTGCTGGAGGGCTCGGGTATCATGCCGGTTCATGCGGGCGGTGGGAAGTGA	MMIPARLVLAVQDSRYVEPLLNYVHGSPYGSALQVTAFTRVESFLHYMDSGETPNLVVGDTDMLESWLSRGEASVPWLLLSEGHSALSLMEGCDSTPKYQPLPQLLDIMVTRCKRSGGTLEKLNSGSTSVIGIVSSLGGSGKSTIAMNMAKQLGVLGLRVFYLNLESVNSSALFPSGSVGMEGSFSRLLYDVKASQESASETELSIVPYIIRHHGLKCDSFEPSYNVKEISEMTVDDTSLLLTSLIECHHYDAIVVDTEGDSGERLQAVLGQAGLLIWVLLDDLISMHKSGVWLDQLELKDSTLFESLKKRSRFIVNRYTGQLVNGLPRKDMSIDGVLPYIPSWKQLHREDLLLSSPIYQREVLKLCQQLLEGSGIMPVHAGGGK				NA	NA	NA	NA	NA
AK002_05173	861			hypothetical protein	ATGAACAAACGCTTACTAGCCGCGTTTCTAACCGCCCTGCTGTTATTATCCGGCTGCAGCCAGCCGCTGATGTCCCCGGCGACATCGAACGAAGAAACCGCAACGACCCGTACATCCGAAGCCAAGACAGACGCCGGCACAACGAATGCCAAGCAGACGACCTATCCCACCGATGATCTGAACCTGCCGCGGGTTGCCGTGGAATTGGTCAAAGCCGTTGACGGCGACACCATCAGCGTCATGTTCGAAGGCAAAAAAGAGAATGTTCGCATGCTTCTGGTCGACACGCCCGAGACAAGCCATCCGAAACTGGGCGTCCAGCCGTTCGGGCCCGAGGCCAAGGCTTTTACGAAGGAGCTCGTGGAACAAGCCGATCGGCTTGAATTGGAGTTCGATATCGGTCCGAACCGGGATAAATACTCCAGGCTGCTCGCTTACGTGTATGCCGATGGGAAAATGGTCCAAGAATCGCTGCTTGAAGAAGGACTGGCCCGTGTCGCCTACATCTATCCGCCCAACACGCGCTATGTGGACAAATTTGATGATTTGCAGCGGATCAGCCGAGACAAGGGGCTCGGCATATGGAGCGTAGAGAACTACGCCCAGGAAGACGGATTCCATCCGGAAGAACAGGACGACACGAATAAGAACAACAACCATGACACTACACCACCCCAAGCGCCAACCGAGAAGCCACAACCGTCCAAGCAAGCCTGCGACATTAAAGGCAACATCAACTCCAAGGGCGAGAAAATCTATCATACGCCCGAATCCCCGTACTACGAGCGCACGAAGCAGGAGCAGTGGTTCTGCAGCGAGGAAGAAGCCGAGCAAGCCGGTTTCCGGGCACCGCTTAAGTAG	MNKRLLAAFLTALLLLSGCSQPLMSPATSNEETATTRTSEAKTDAGTTNAKQTTYPTDDLNLPRVAVELVKAVDGDTISVMFEGKKENVRMLLVDTPETSHPKLGVQPFGPEAKAFTKELVEQADRLELEFDIGPNRDKYSRLLAYVYADGKMVQESLLEEGLARVAYIYPPNTRYVDKFDDLQRISRDKGLGIWSVENYAQEDGFHPEEQDDTNKNNNHDTTPPQAPTEKPQPSKQACDIKGNINSKGEKIYHTPESPYYERTKQEQWFCSEEEAEQAGFRAPLK				NA	NA	NA	NA	NA
AK002_05174	1413			hypothetical protein	ATGGGGAAAAAGAAAACGCCGGCAGCCAAACCCAATGAAAATCAACCAGCAAATCCAAGCTCTGCCGCATTGTACAAAACCGTCTGGAGATGGCATTTCTATGCCGGCATCATTTTCGCTCCTTTTCTGATCATCCTGGCTGTATCCGGCTCCGTTTACTTATTTAAGCCCCAGATTGAACAAGCGTTATATCGGGACTACTACACGGTAACCCCTCAGGTCGAACGGGTAACGCCCAGCAAGCTGGTCGGACAAGTGAAAGAGCTCTACCCTGACGCTACCATCACGAAATACCGCCCCGGCGAGTCGGATTCCCGCTCCACGGAAATCAGTCTGACCTCGGGCAGCGAATCCATGACCGTCTTCATGGACCCCTATACGGGAGAAAAGATAGGCGAACTGAAAGACAACGACCGGATCATGGACAAAATCGAGGAGTTCCACGGCGAGCTGATGGTCGGGACCATCGGGGACCGGATCGTGGAGCTTGCCGCCTGCTGGGCGATCGTGCTCATCATCACCGGTTTGTTTTTATGGTTCCCGAAAAATAAAAACAAAAGCAAAAAGAAAAGAAGCCTTGCAGGCATCCTGTACCCGAGGCTCGGCAAGGGCAAGCAAATTCTTCGCCGGGACCTGCACGCCGTTCCCGCATTCTGGATTGCGGCTGGCATGCTGTTTCTCGTCATGACCGGATTACCCTGGTCAGGCCTGTGGGGCAGCAATTTCCAAACCGTGGCAACCAATACCGGTGCCGGCTATCCTCCTTCCATCTGGTCGGGCAGTGCGCCATCCTCCCATGTGGTACAGACGAAGGAAGTGGCAGAGGTGCCTTGGGCGGCCGAAAATCTGGAGGTTCCCAACTCCACCATCTCCGACTTTATGCCGCTTCCGATTGAAGATGTCATGTACGTAGCCCGAAGCGAGGGAATGCATCCGAGTTACACCATCAGCATCCCGCAGCAAGCGGACGGGGTGTACACGTTGTCGGCCTATCCGCCGAAAGCGCAGGACGAAGCCACCATGCATATCGACCAGTACAGCGGCGCGGTGTTGGCGGATTATCGCTATGATCATTACGGATTCGTCGGCAAAGCCGTTGCCCTGGGCATTACCCTGCACAAAGGAACCCAATTCGGCATCGTCAACCAGATTTTCAGTTTGCTGATATGCCAAGGCATCATTCTCATTGCGGTAAGCGGTTTGTACTTGTGGTGGAAACGAAAACCGGATCACGGACTGGGGGCTCCGAAAGCGCCCGAGGCAGGCGCCAAGAGCATGAGGCTGTTCCTGCTGCTGCTTATCGCATTGGGGATTCTGTTCCCGCTTGTGGGCTTGTCTCTCATCATCGTGTGGATCATCGATTCTGTCATTGTGCGGAAGATACCGGCGATCAAGGCTTTCCTGAACGCCTGA	MGKKKTPAAKPNENQPANPSSAALYKTVWRWHFYAGIIFAPFLIILAVSGSVYLFKPQIEQALYRDYYTVTPQVERVTPSKLVGQVKELYPDATITKYRPGESDSRSTEISLTSGSESMTVFMDPYTGEKIGELKDNDRIMDKIEEFHGELMVGTIGDRIVELAACWAIVLIITGLFLWFPKNKNKSKKKRSLAGILYPRLGKGKQILRRDLHAVPAFWIAAGMLFLVMTGLPWSGLWGSNFQTVATNTGAGYPPSIWSGSAPSSHVVQTKEVAEVPWAAENLEVPNSTISDFMPLPIEDVMYVARSEGMHPSYTISIPQQADGVYTLSAYPPKAQDEATMHIDQYSGAVLADYRYDHYGFVGKAVALGITLHKGTQFGIVNQIFSLLICQGIILIAVSGLYLWWKRKPDHGLGAPKAPEAGAKSMRLFLLLLIALGILFPLVGLSLIIVWIIDSVIVRKIPAIKAFLNA				NA	NA	NA	NA	NA
AK002_05175	477			hypothetical protein	ATGATCGTAAAAGGCCGTATTATTATAACCGTACTGCTATCGGTTCTGCTGCTGAGCGCTTGTTCGGCCAGTCCCGAGGCAGCCGACCGGTATGAAAAAGAAATCCCGTTGATGGCCGAGGTGAACATTCCGGATGCATTATCCGTCCAACAGCCGGAGACCATCGAGATTATTCTTACCCAAGACGGCAAAAGAGTGCCCGGTGCGGATTTTGTCCACTACGAGCTGTGGAGCCATGACGGTTCCCTACGGGATCCCATGACGGATGCGGTCGAGGTGGGCGATGGCGTGTATACGGTGACCAAAACCTTCGATAAAGAGGGGCTGTATTTCATCAAGCTGCACAGCGGCAACAACGGCTCCATCATCATTCCCCAGAAACCGTTCGCCGTCGGCAAACTGTCCGAGGCCGAGCTTGCCTACCTGGAGGCGGGAACTCCGACATTCCAAGAAGGCACGGCAGAGCATCATCATTAA	MIVKGRIIITVLLSVLLLSACSASPEAADRYEKEIPLMAEVNIPDALSVQQPETIEIILTQDGKRVPGADFVHYELWSHDGSLRDPMTDAVEVGDGVYTVTKTFDKEGLYFIKLHSGNNGSIIIPQKPFAVGKLSEAELAYLEAGTPTFQEGTAEHHH				NA	NA	NA	NA	NA
AK002_05176	426			hypothetical protein	ATGAAGGATCGTGCAACCGAAAATCATGAGGAATATGCAATTGTGCTGATTGATGGCGTGTGCCATTTGTGCCAGGGGCTGACTCAATTCATTATCAAGCGAGATCCCGCGGGTGTTTTCCGGTTCGCTTCGCTGCAATCCGATATCGGTCAGGAGCTGTTGAGGCAGGGAGGGCTCGATGGAGATTCGCCGGAGACGATGGTGCTGATTGAACAGGGGAGATATTACACCAGATCGACGGGAGCTCTTCGGATTGCGCGGCGTCTTCGTTTTCCTTGGCCGCTGTCGTATGTCCTGATCCTGATTCCCCCTTTCTTACGGAACCTGGTGTACCGCTGGGTGGCGAAGAACCGTTACCGGTGGTTCGGGCAATCCAGTGAATGCATGGTTCCGACGCCGGACATTCGGCGCCGGTTTTTATCCTGA	MKDRATENHEEYAIVLIDGVCHLCQGLTQFIIKRDPAGVFRFASLQSDIGQELLRQGGLDGDSPETMVLIEQGRYYTRSTGALRIARRLRFPWPLSYVLILIPPFLRNLVYRWVAKNRYRWFGQSSECMVPTPDIRRRFLS				NA	NA	NA	NA	NA
AK002_05177	276			hypothetical protein	ATGCCATACAGACCGCAGATTGCAAATGTGACCACAGCTGGAAGCAATGAAAAGGAAGGGCTTTACGAATTCATTATCCACACGGCTGACGGAACGGATATTCGCGTATTCTATAACCGCTTCCCGGAATGGAAACTGACTGCGCTTAGCCGACTTGGGAAAGTACCTTGCCCGGTTTGTCGTAAGGATTTCATATGCAAATGCATGGAGAAATTCTCGAACGAATTCGACCAGCAGATGAGAGACGGCGAGTGGCTGAACAAAGCTGCTGAGTAA	MPYRPQIANVTTAGSNEKEGLYEFIIHTADGTDIRVFYNRFPEWKLTALSRLGKVPCPVCRKDFICKCMEKFSNEFDQQMRDGEWLNKAAE				NA	NA	NA	NA	NA
AK002_05178	243			hypothetical protein	ATGCGAATAGAACAAATGATAGAGGAACGGTTTGTATGCAGCAAATGCGGAGGGAACCACTGCGAGACGAAAGAGGTCTCGATGTCGGGGGCAGGCTTGAGCAAAATGTTTGATATTCAGCACAATCATTTCCTATTTGTTTCCTGTACGAACTGCGGATATGTGGAAGTCTTCAACCCGGATATATTGGAAGGTAAAAAGAGGGGGCAGTTGGGCTCGATCCTGGATGTGTTCTTCGGTTGA	MRIEQMIEERFVCSKCGGNHCETKEVSMSGAGLSKMFDIQHNHFLFVSCTNCGYVEVFNPDILEGKKRGQLGSILDVFFG				NA	NA	NA	NA	NA
AK002_05179	420	ohrA	COG1764	Organic hydroperoxide resistance protein OhrA	ATGAAACCATTATACACAGCAGATGTCAAAGTCATTGGAGGGCGGGAAGGCTCCGTAGAATCTACCGATGGCGTTCTCAACCACAAATTAAGCATGCCGAAGGAGCTCGGAGGTCCGGGTGGAGACGGAACCAATCCGGAGCAGCTGTTCGCGGCCGGTTATGGGGCCTGCTATGAAAGCGCCCTGGCCAACATCGCCCGCAAGGAGGGCGTCGAGCTGAAGGATGTCGTGATCCACTCCCAGGTGTCGATCGGAAAAGACGAAGGCGCTGACGGCTTTAAGCTGGCAGTGAAGCTGAAGATCGAAATGCCGGGCATCGAACGAAGCCAGGCGGAGGATCTCGCGAAGAAAGCGCACGCGTTTTGCCCGTATTCCAAAGCAACCCGGGGCAACATCGACGTGGAGTTAAGCGTAAGCTGA	MKPLYTADVKVIGGREGSVESTDGVLNHKLSMPKELGGPGGDGTNPEQLFAAGYGACYESALANIARKEGVELKDVVIHSQVSIGKDEGADGFKLAVKLKIEMPGIERSQAEDLAKKAHAFCPYSKATRGNIDVELSVS	PGPT0013160_3430	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
AK002_05181	366			hypothetical protein	ATGCAGTCTATTTACCAACGAATCGAACATCTCATAGAAAGCCGGGGTATGACCAAGAAGGCGTTTTGTGAAACCCTCGGGATCAGCACAGGAAATTTTGGTGACTGGAAGAGGGGAAAAACAACGCCGAGCACGAATAAATTGATTGAGATCGCAGCATTTTTTTCCGTCAGCCTAGATTGGCTCATTATTGGCAAGGGCAGTCCAACCAACCGTGTCAAGGAAGCCCGCGGGGAGTATGAAGTGGATCCGGAATCATTGGATCCTGCCTTAATGTCCGGTCTGGCTGAGCATGAGAAGGAGTTTATCCGCGAATACATCGAGTTTTCGGCCTATCGGAAGGATAAGCGGGGCGATAAGAGCTAG	MQSIYQRIEHLIESRGMTKKAFCETLGISTGNFGDWKRGKTTPSTNKLIEIAAFFSVSLDWLIIGKGSPTNRVKEARGEYEVDPESLDPALMSGLAEHEKEFIREYIEFSAYRKDKRGDKS				NA	NA	NA	NA	NA
AK002_05182	642			hypothetical protein	TTGCCCTACGATACCATGACCACATCCTGGAATAATGCGGTTCACTCCTTGAATAAGGGGCTGATGGTCATTACTCCGGATGGCATCATAGACAAAATCAACGATCCGCTCATTACCATGGCCGAAAGATACGGTGTCCCGCCTGACTTCAGGTGGCATGGGGCATCTTTTTTTGATATGACTTCCCAGCATCTTGGTTCTGTATTCGATCATTTTTCCCATGAGCTGGATATACCCTCCGTAAGGGAAGTTATACTGGGTAAGCTGCCTGATTATTCTTTTGAATATGCCGTGGAATGGAATGAACGGCAGAACTGGGTTCTGTGCGAGGTGCTGCCGCTGATGATGAACAAGGACAGCCGCGTCCACGGAGCCATGATATCATTCACGGATATTACAAAGTTCAAGCACAAGGAACTGCTGCTGGAACAAGCGCTGGCTCACAGCTTCCCTCTTCCAGGACATATCCCAATCTGTGCCGTATGCAAATATGTTCGCCATGCGGATGAATGGGAGCCTGTGGAGAGCTATTTGGAGAGCCGTCTCCCCATTGAGTTTACCCATGATATTTGTCCGGATTGCATTCGCAGATTATACCCGAAATATTCTTCCATCCTCGATGATCCGGAATTGCCCGATTAA	MPYDTMTTSWNNAVHSLNKGLMVITPDGIIDKINDPLITMAERYGVPPDFRWHGASFFDMTSQHLGSVFDHFSHELDIPSVREVILGKLPDYSFEYAVEWNERQNWVLCEVLPLMMNKDSRVHGAMISFTDITKFKHKELLLEQALAHSFPLPGHIPICAVCKYVRHADEWEPVESYLESRLPIEFTHDICPDCIRRLYPKYSSILDDPELPD				NA	NA	NA	NA	NA
AK002_05183	1632			hypothetical protein	ATGAATCGTTACAAGCAGCTGGTAGTTGAGGGCAGAGAGCTTACACTGTATCTGCCTCCTTCCTATCTGGAGTCTGACCGTTCCTATCCTGTTGCCTATGTTCAAGATGAAGGAGATATGTTCATGGACTGCCTGAACTATTTGAATCATTTGTTTGCGGCAGGCCGGCTGGGAGAGGTCATCCTGGTCGGAATCTCGACAACGAACCGGAATCGTGAATATACGCCTTGGCCGGCTGAGCCTTTGCTGGCGAGCAACCCTCCTTTCGGCGGGGAGGGGAGAGCTTATGTCGATGAGGTAGCGGATGTCATCAAAGCATACATAGACCATCAGTACCGAACGCTTCCAGCGCCTGAGCATACGGCCATCATCGGAGGTTCCTTTGGCGGATTGATCTCGATGTTCGCCGGATATTGGCGTCCCGGTACCTTCGGACGAATCGGCATGCTGTCGGCTTCGTTATGGTACGAGGGGGTGATGGACTACATCCGGCAGCAGGGAAAATGGCCGGCTGAGCAGCGGGTGTATATGTCCGTCGGGCAGCTTGAAGGGGCGTACAAGCAAAATGCGCAGAAAAACATGTTTGTGAACAACGTGGAGGCCCATCGGTTCTGGCTTGAGCAAGGGGTGAGCCCTGAGAGGCTGCAGCTGGCGGTAGATCCTGACGGAACCCATGATCCTATCTTTATGTCCAGAAGATTTCCGGATGCGCTGCGGTGGCTGTTCGTCGGGGAAGCAGAGGAGCAAGTTTCGGCGAAGGGGCGAGCTCAACATGAGGATCCGGATATTCAGGAAAAGCACGAATTGCATAATGACCAAGATAAACAAGATAACCAAGTAAAGACCCCATTGTTTTCCGTACCGGGAACCCTGACCTGGTCCATGCAGTCCGACGAGACGGGCCGCGAATACCGCATTTTCATCGCCGAGCCGATGGGACCGCCTCCTGAGGGAGGTTATCCCGTGTTATATTCATTGGATGCCAATGCCACCTTCGGCACGCTGGCCGAAGCCATCCGCCTGCAATCCCGTACGCCGCGGGGCATTCCCTCGGCGCTCATCGTCGGCATCGGCTTTGACAGCGACAGCCCCATCGTGAGCAGCGAGCGCTTCTATAACTTTACGGAATATGCCGATCCCGCTGAACTGCCTGTCCGGCCAAACGGCATGAATTGGCCGGAGACGGGCGGCGTGGAGGCGTTTCTTACCTTCATCGAGCAGCAGCTGAAGCCGGCCGTGGAGCGGCGGTATGCGGTGAACCGTTCGAAGCAGGCGCTGTTCGGACACTCGCTCGGTGGATTTTTTACCTTATATACCTTATTCACCAGACCGGATGCCTTTTCGCGGTATATTGCGGCATGTCCCTCGGTGTGGTGGAAGAACTACGCGCTGTACAAGCGATGGGAAGAGGGGGAGGCTTGTTTAAGGCAGAGCGGGGAGCGCAAGTCGCTCCGCTTGTACGTGGGGGCCGAGGAGAAGCCGTCCATGGTGAAGGACGCAAGGGAGCTCTATGCGTTTCTCAAAGGGCATGAAGAGGTGCTGGAGACGACGTTCGACGAAATTGAGGGTGAGGGGCATGTTTCGGTACTGCCGACCCTCATAAGCCCCCTGCTTCGTTTTGTAAACGCGTAA	MNRYKQLVVEGRELTLYLPPSYLESDRSYPVAYVQDEGDMFMDCLNYLNHLFAAGRLGEVILVGISTTNRNREYTPWPAEPLLASNPPFGGEGRAYVDEVADVIKAYIDHQYRTLPAPEHTAIIGGSFGGLISMFAGYWRPGTFGRIGMLSASLWYEGVMDYIRQQGKWPAEQRVYMSVGQLEGAYKQNAQKNMFVNNVEAHRFWLEQGVSPERLQLAVDPDGTHDPIFMSRRFPDALRWLFVGEAEEQVSAKGRAQHEDPDIQEKHELHNDQDKQDNQVKTPLFSVPGTLTWSMQSDETGREYRIFIAEPMGPPPEGGYPVLYSLDANATFGTLAEAIRLQSRTPRGIPSALIVGIGFDSDSPIVSSERFYNFTEYADPAELPVRPNGMNWPETGGVEAFLTFIEQQLKPAVERRYAVNRSKQALFGHSLGGFFTLYTLFTRPDAFSRYIAACPSVWWKNYALYKRWEEGEACLRQSGERKSLRLYVGAEEKPSMVKDARELYAFLKGHEEVLETTFDEIEGEGHVSVLPTLISPLLRFVNA				NA	NA	NA	NA	NA
AK002_05184	1020	feuC_3	COG0609	Iron-uptake system permease protein FeuC	GTGCGTAACACATCTTATCGGTTCCCGATAGTGCTGGCAGGCGGGATAGCGGTCGTATTGGCAGCCGTTTATTTCAGTCTGACCAACGGAACGTTTGACATGTCCATCAAGGAAGTATTCCAGACGCTGTTTCGGATGAAGCCCAATTCGGACTTTGATCTTGTCGTGTTTGAATTCAGGCTCCCCCGAATCGTGCTTGGCGCCCTTGTCGGGTTTGCGCTGGGTATGGCCGGTGCCGTCATCCAAGGGGTAACCCGCAACGGGCTTGCGGATCCGGGCATCCTCGGCATCAATGCAGGCGCCGGCATGGCGGTCGTATTGTTTATGTTCCTGCTGCAAGGGCAGATCACGATGACCGGCTGGCTCGGGGTGATGATGATGCCCATGTTCGGCATCGCGGGCGGTTTGGCAGCGACAACGGCCATATACATGTTTGCTAGAGAAAACGGAAAGCTGGATCCCCAACGGCTCATACTTGTGGGCATTGCGATCGCATCCGGCTTTGGAGCCGTTACCATGTATGTTTCGCTTAAAATGAACCCGAAAGATTATGAGATGGCGGTTGCCTGGCTCGCCGGCAGCCTTCATAGCGCCAACTGGAAGTTTGTGGTGACCATGCTGCCGTGGCTCGTTATTTTGCCGCCTGTCATCTGGCTTCGCTCTCAAGTGCTCGACTTGTTCCAGCTGAGCGAGGAAAGCGTGAAGAGCGTCGGGGTATCCGTCGAGCGCGAGAAAAATATATTGCTTCTCTGCAGTATCGGCCTGGTGAGCGCCAGCGTAGCCGTATCCGGCAGCATCGGGTTTGTCGGTCTGATTGCTCCGCATATGGCCAGGCAGCTTGTGGGACTTAGGCACAGGCATATCATCCCGATCAGCGGCATTGCGGGCATGGCGATTGTTGTCATAGGCGACTTCATCGGCAGGACGATATTCGCTCCGGCCGAGCTGGCTGCAGGCATTGTGGTATCCGTGATCGGGGTTCCGTATTTTATCTATCTATTAATTCGCATGAGAAAATAA	MRNTSYRFPIVLAGGIAVVLAAVYFSLTNGTFDMSIKEVFQTLFRMKPNSDFDLVVFEFRLPRIVLGALVGFALGMAGAVIQGVTRNGLADPGILGINAGAGMAVVLFMFLLQGQITMTGWLGVMMMPMFGIAGGLAATTAIYMFARENGKLDPQRLILVGIAIASGFGAVTMYVSLKMNPKDYEMAVAWLAGSLHSANWKFVVTMLPWLVILPPVIWLRSQVLDLFQLSEESVKSVGVSVEREKNILLLCSIGLVSASVAVSGSIGFVGLIAPHMARQLVGLRHRHIIPISGIAGMAIVVIGDFIGRTIFAPAELAAGIVVSVIGVPYFIYLLIRMRK	PGPT0003770_6227	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
AK002_05185	1008	feuB_2	COG0609	Iron-uptake system permease protein FeuB	ATGGGGTTCAAAAAATCGCTGCCGGCTGTCATCCTTGTGATGGCCCCGGCAGTCTGCTTATTGCTCATAGCGGCCTCCATCCTGTATGGAGCCAAGAATATTTCGATGGATACCGTCTGGGATTCCATCTTTGCTTTTGACCCGGAGAGCATCGACCATCAGATCATTATGAGCTCCCGGCTGCCCAGAGTCGTCGGGGCTATGCTGATCGGGGCTTTTCTGGCGGTTTCGGGCGCTCTTATGCAGGGGATGACAAGAAACTATTTAGCCTCCCCCTCCATTATGGGGGTATCGGACGGTTCGGTGTTCGCGGTGACCTTGTTCATGGTATTCATTCCGAATGCCAGCTCCAATATGTACATTGTCAGTTCATTGGTAGGTTCCGCGATCGGCGCAGCCGTCGTGTTCGGATTAGCATGGCTTATTCCAGGGGGGCTCAGTCCGGTTCGGCTGGCTATACTCGGAACCGTGATCGGGACGTTTCTAAGCGGAACGGCTGAAGCTTTGGCAGCATATTTTCAGATTTCCCAAAGCATCAGTTTTTGGTACAATGCCCGGCTGCATGCCATGGATCCCGAGCTGATTAAGCTGAGCATTCCGTTTGCGATCGTCGGTTTGTGCCTCGCCGTGGTCTTGTCCAAATCGATCACGCTGCTCTCCCTCGGGGACGAGACAGCCAAGGGGCTTGGCGTCAAGACATGGCTGGTGAAAGGTCTCGCGATGCTGGCGGTTGTGATCCTGACGGGCGTATCGGTGGCGCTGGCAGGGAAGGTTGCCTTTGTAGGCTTGATTGTCCCTCATATTGCACGGTACTTATCGGGCTCCGATTACCGATGGATCGTACCGGTGTCGGGCGTGCTTGGCGGCATGTTCCTGGCGCTGTGCGACATTCTCGCCCGGTTCGTGAACAGCCCGTTCGAGACGCCGGTCGGTGTCATCACTTCGCTGATCGGCGTGCCGTTCTTCCTCTATCTGATCAAGACGAGGGGAGGGGCTCAGCGTGCGTAA	MGFKKSLPAVILVMAPAVCLLLIAASILYGAKNISMDTVWDSIFAFDPESIDHQIIMSSRLPRVVGAMLIGAFLAVSGALMQGMTRNYLASPSIMGVSDGSVFAVTLFMVFIPNASSNMYIVSSLVGSAIGAAVVFGLAWLIPGGLSPVRLAILGTVIGTFLSGTAEALAAYFQISQSISFWYNARLHAMDPELIKLSIPFAIVGLCLAVVLSKSITLLSLGDETAKGLGVKTWLVKGLAMLAVVILTGVSVALAGKVAFVGLIVPHIARYLSGSDYRWIVPVSGVLGGMFLALCDILARFVNSPFETPVGVITSLIGVPFFLYLIKTRGGAQRA	PGPT0003770_7574	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
AK002_05186	1017	feuA	COG0614	Iron-uptake system-binding protein	ATGAAACGGATGAAAATGGTCTTGGGGTTATTGCTGGTATTTGCTTTGGTACTATCTGCTTGCGGCGGAGGTAACGAGGCTAAAGATACAGACGGAGCAAGCACGAGTAATGCAGGAAGCACGAACACCGCTGAGGAGAATAAAGCCTCGAACGAAGAAACACCCGCTGCGGGCGAAACCAAAGTTGTGAAATATCTTGATCAGGAATACACGCTTCCTGCCAAAACGGAGCGGATCGTTATCACGGGTGCCGTCGAAGCCATGGAGGACTCTATTGTACTGGAAGTGAATCCGGTCGGAGCGATCAGCTTCTCGGGCTCTTTCCCTCCATTGTTTGAGTCGATTACGAAGGATGCCCAGTCGGTAGGCGAGAAAACGGAGCCGAATTTCGAAACGATCCTCTCGCTGAAACCGGACGTGATTTTGGGATCTTCCAAGTTCAAGCCGGAGGTCGTGGAACAATTGAATAAAATTGCCCCGACGATACCTTATTCTCATGTATCCACCAACTGGGAGAGCAATTTGAGATTGCTGGGCGAGTTGAGCGGCAAGCAGGAACAGGCTGAGCAAGAGATCGCTAAATATAAAGAGGATCTGGAAGCCGCAAAGGCAACCATCGGAGACGGCCTGAAGGACAAGAAGGTTTTGGCGCTACGGGTTCGTGCGGGGGAGATGTACATTTACCCGGCTGGGGTATTCTTTAATCCGGTATTGTACGAGGATCTGGGAATCGCCGTACCGGCTGAGGTAGAAGCCGCGCAAGCGCAGGAGCTGGTCTCCAAAGAGAAAATGGCTGAGATGAATCCGGATTACGTGTTTGTCCAGTTCTCTCCGGACGAGAACAAGGATACGCCGAACGCACTGGAAGAGCTGCAGAATGATCCTATCATGAAAAACCTGAACGCGTTCAAGAACGGAACGGCTTTTGTCAACGTGGTTGACCCGCTTGCTCAAGGCGGTACCGCGTACAGTAAAATCGAGTTTCTGAAAGCTGCCGTCGAAAATCTTACGAAGTAA	MKRMKMVLGLLLVFALVLSACGGGNEAKDTDGASTSNAGSTNTAEENKASNEETPAAGETKVVKYLDQEYTLPAKTERIVITGAVEAMEDSIVLEVNPVGAISFSGSFPPLFESITKDAQSVGEKTEPNFETILSLKPDVILGSSKFKPEVVEQLNKIAPTIPYSHVSTNWESNLRLLGELSGKQEQAEQEIAKYKEDLEAAKATIGDGLKDKKVLALRVRAGEMYIYPAGVFFNPVLYEDLGIAVPAEVEAAQAQELVSKEKMAEMNPDYVFVQFSPDENKDTPNALEELQNDPIMKNLNAFKNGTAFVNVVDPLAQGGTAYSKIEFLKAAVENLTK	PGPT0003765_5043	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
AK002_05187	1668	btr_6	COG0614	HTH-type transcriptional activator Btr	ATGATGTTAAACCTATCCATGAATACCAGCAAGGAAGAGCTACGCGAATGCAGCGGGTTCATGGCCCGTTTATGGAATATGGACATTGTTCATGGGCAAGGGATGTCCTTGGAACAACAGTTGGCCGTGCAGCCGGCCTTGATCGTCCCGCTTAGTGGAGAGACCTGTTTGCAGCAGGCAGAGCAAGTGACACGCATGAATAAGGGGTGCGTTTATTTTTGCGCGGCTGGATCTACTTTCGGTATTACGAGCGGCGAGTACTGGAGTTCCGAGGAACAGGAACAGACAGCGGTTGCGATCCTTCATTTTGGCTTCTATGAAGGGATGTCGGGCTGCGGTCGGTTGCATGAAGTGGACGGCTCCGCATTCATGCCCTATGATGGCATCTTTGTCATCAGCTCTCCGGACCGCTTGAATCTCGTCTGCCGGGCGATGTATAAGGATTTTCACAGCAAGGAGCCCATGAAGCAGTGGAGGGCTCAGCTGGATTTTCAAGAGCTGCTGTACACGATGATGGCCGAATGCAGCCCATATGCCAAGAATGATAAACGGCAAGCGCTGGAGCGGGTGAAGGAGTATATCGAGGAGCATTACGATGAAGATTTAACGATCGAGCAGCTGGCGAATCTCTCCGAGCTGAGCCCCAAGTATTTTGTAGAGGTATATAAGAAGACCTATGGGCACAGCGCAATGGATTATTTGGCGAGCGTCCGTTTGAACAAGGCCAAACAATTGATGCTGGGTTCGGATTCCTTGCTGCGTGAGGTTGCCCATATGGTGGGGTATAAGGATGAATTTTATTTCAGCCGCAAGTTTAAGAAAGCTTTTGGGATCTCGCCCTCCGCCTATATGAAGACAAGGAAAAATAAACTGGCGATGTATGGCTCAACGAGCCTATTGGGTTACGCCATGCCGCTGGATTTCACGCCGTATGCGGCTCCGCTTCATCCGAAGTGGTCACAGCATTACTATAACAATCTCGGCCCGGATATTCCGGTCCATCTGGATGCATACCGCCAGAACCATAACAAATATGCGAATCTGGAAAAGCTGGCTACGGCACGTCCGGAGCTCATCGTGTGCGCGCAGGGGGTCGAGGAGTGGGAGAAGGAGCAGCTTCGGCAGATCGCCCCTCTCTATGAAATGCCGGGAGAGCAGGAAGGATGGCGGTTCAATCTGCTCAGTCTCGCCAAAATGCTGGACAAGCTGCCTGAAGCAGAGCAGTGGATTGAAGCGTTTCATCACAAGATATCGGCTTACCGGGAGAAGCTCCCCTCTAGCAATAGGGAAGCCCGCACGCTTTTGACCGCGCGCCTGCATCAGGATGAACTTCGGGCATACAGCCATCCGGGCATGAAGGAAATACTATTCGATGATTTCGGTTTTCAGCCGGCCCTGCCTATGGATCAGCAGAATGAGGGGTGTTTAACGATGGAGCAGATCAGGGATAGCCGTGCAAACCATCTGCTTCTTCTGATCCGTCAAGATTCCGAAACGCTTGCCTATTGGAGAAGACTGCAGGCGACGCCGGAGTGGATGACCATCTCCGCGGTGAGGGAGGGAACGTTCCATCAATTATCCTCATATCCTTGGCGTGAGTATTCGCCCATTGCAATGGAGCAGATGGCGGAGGAGGCCTTCCGGTTGTTTTCCGGAAAATGTCCATGA	MMLNLSMNTSKEELRECSGFMARLWNMDIVHGQGMSLEQQLAVQPALIVPLSGETCLQQAEQVTRMNKGCVYFCAAGSTFGITSGEYWSSEEQEQTAVAILHFGFYEGMSGCGRLHEVDGSAFMPYDGIFVISSPDRLNLVCRAMYKDFHSKEPMKQWRAQLDFQELLYTMMAECSPYAKNDKRQALERVKEYIEEHYDEDLTIEQLANLSELSPKYFVEVYKKTYGHSAMDYLASVRLNKAKQLMLGSDSLLREVAHMVGYKDEFYFSRKFKKAFGISPSAYMKTRKNKLAMYGSTSLLGYAMPLDFTPYAAPLHPKWSQHYYNNLGPDIPVHLDAYRQNHNKYANLEKLATARPELIVCAQGVEEWEKEQLRQIAPLYEMPGEQEGWRFNLLSLAKMLDKLPEAEQWIEAFHHKISAYREKLPSSNREARTLLTARLHQDELRAYSHPGMKEILFDDFGFQPALPMDQQNEGCLTMEQIRDSRANHLLLLIRQDSETLAYWRRLQATPEWMTISAVREGTFHQLSSYPWREYSPIAMEQMAEEAFRLFSGKCP	PGPT0003170_39	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003170-btr|ybbB-K21701	NA	NA
AK002_05188	465	gsiB_5	COG3729	Glucose starvation-inducible protein B	ATGGCTAATAACAATAATGGAAAGATGAGCCGTGAAGAAGCAGGACGTTTAGGTGGAGAAGCTACAGCGAACAACCATGATAAAGAATTTTACCAAGAGATCGGACGGAAGGGCGGCGAAGCGACATCCCGCTCCCATGACAAAGAATTTTACCAGGAAATCGGCAAAAAGGGCGGAGACTCCACGTCAAACTCCCATGATAAGGAGTTTTATCAAGAGATCGGCCAGAAGGGCGGCGAAGCGACTTCCGACTCCCATGGCAGGGAGTTCTATGAGGAAATCGGCCGCAAAGGCGGCGAGGCTACCTCGGATTCCCATGGTCGCGAGTTCTACCAAGAAATTGGACAGCAGGGCGGCGAAGCCAGAAACAGCAGCGGCAGCAACGGGGATGGCAAGATGAGCCGTGAAGAAGCGGGCCGCAAAGGCGGCGAGGCTAGAGCCCGGCAGCGCCAACGGGGAAATTAA	MANNNNGKMSREEAGRLGGEATANNHDKEFYQEIGRKGGEATSRSHDKEFYQEIGKKGGDSTSNSHDKEFYQEIGQKGGEATSDSHGREFYEEIGRKGGEATSDSHGREFYQEIGQQGGEARNSSGSNGDGKMSREEAGRKGGEARARQRQRGN				NA	NA	NA	NA	NA
AK002_05192	657			hypothetical protein	ATGGAACCTGATAATTTGCTGCTGGATCGCTATGTTTTGGCACAAGTATCGAAAGAAATGCCTGAAGTGTGTTTTGTTCCGACGGCAAGCGGGGATGCGGATGGGTATGTTGAACGTTTCTATCATGCTTTCCGGACACTGCCGTGTATTCCCAGTCATCTGTCGCTGTTCCAGCCGAACTTTGCCGATCTTCGGTCTTTTGTACTCGAGAAGGATATCATTTATGTTGGCGGGGGCAATACCCGGAATATGCTGGTCTTGTGGAAGGAATGGGGCCTGGATCAGATACTCAAAGAGGCGTATGAACAGGGTGTCATTTTAACCGGGTTAAGCGCTGGCTCCATTTGCTGGTTTGAGCAAGGGGTGACGGACCCGTTGAACGGGCCTTTATACAAGCTTGAGGGTTTGGGTATATTACAAGGCAGTCATTGTCCGCATTATGATGGAGAGAGCAAAAGAAGACCCGCCTATCACAAACTCGTGCTTCAAGGTGAAGCAAAAGCAGGATATGCTGCTGATGACGGGGTTGCATTGCATTTTATGGATGGACGGTTGCATCGAATCGTAAGCTCAAGGGAAAACGCACATGCATACCATGTGAAGCGTGAAGGAAATAGCGTTCAAGAAGGGAAGTTGACACCTGTTTTTTTAGGCTGA	MEPDNLLLDRYVLAQVSKEMPEVCFVPTASGDADGYVERFYHAFRTLPCIPSHLSLFQPNFADLRSFVLEKDIIYVGGGNTRNMLVLWKEWGLDQILKEAYEQGVILTGLSAGSICWFEQGVTDPLNGPLYKLEGLGILQGSHCPHYDGESKRRPAYHKLVLQGEAKAGYAADDGVALHFMDGRLHRIVSSRENAHAYHVKREGNSVQEGKLTPVFLG				NA	NA	NA	NA	NA
AK002_05195	504			Protein SprT-like protein	GTGACAACGAACGAGATGAGTAATGAGGAGCTGCAGGCCTGGGTCGAGAAAATCTCGCTGGAGAGCTTTCGGGTTCCGTTCAGGCATCAGGCTACGTTTAACCGGCGATTGTCCTCGACCGGCGGCCGCTATTTCATGAAAAGCCATCATATCGAGATCAATCCGCATCAGCTGGCCACGCACGGCAGGGAAGAGGTGGAGAAGATCATCAAGCATGAGCTGTGCCATTATCATCTGCACATTGCGGGCAGGGGATATCGCCATCGCGATGCCGATTTCAAGAAACTGCTGCTGGCCGTTGGAGGAAGCCGTTTCTGCAAATCGTTGCCGAAGGGCAAGGCGGCGGGCCGACGTCAACCGGAACCGTACCGATACATGCTTCGCTGCGGCGATTGCGGGACTGAATACCTGCGTAAACGGAAGATGGATCCGGCCCGGTATCGGTGCGGAAAGTGCGGCGGGCGTCTTACGCTTCTGAAGCTTGACTCCCCTAAGAAGTCATGA	MTTNEMSNEELQAWVEKISLESFRVPFRHQATFNRRLSSTGGRYFMKSHHIEINPHQLATHGREEVEKIIKHELCHYHLHIAGRGYRHRDADFKKLLLAVGGSRFCKSLPKGKAAGRRQPEPYRYMLRCGDCGTEYLRKRKMDPARYRCGKCGGRLTLLKLDSPKKS				NA	NA	NA	NA	NA
AK002_05196	351			hypothetical protein	ATGCCGAATATGCGCTACGTTATTTTAAAGGGTCAGGACGAGCTGTTCTTTGTCGAAATGCCCAGTGACTATGCTTACCAGCTCAGTGCCCTGAATTTACGCCTGAACAAGGAAATCGATAAACTCACCGCCGCAGGCAAACCTCAGCTGCCTCTTGCCGTAGCCGAATGCGACCATTTGGATTTGCTGCAGGAATCGCTGAGCATTCAGGGTGGTCTTGAATACATAAATGAGCTTGAGCAGGCCTTTGCTTCCCTGAACGAAAAGGAATATCCGCTCATCTCGCTGCTTACCGAAATTCGGGCCCTTCAAGCTCAGCTCGAGCAATGGTACGAGGAAGAAGCGCAATAA	MPNMRYVILKGQDELFFVEMPSDYAYQLSALNLRLNKEIDKLTAAGKPQLPLAVAECDHLDLLQESLSIQGGLEYINELEQAFASLNEKEYPLISLLTEIRALQAQLEQWYEEEAQ				NA	NA	NA	NA	NA
AK002_05197	471			hypothetical protein	ATGAACATGAAGGAATTGCTGCTGCAAAATTGGGATTATGCGATGGATCAGGAGGATTGGTATCCTCCGATTCTCCCCGCGCTGAAGGAGGTTACGCTTGAGCAGGCATTGTGGAAGCCGGAAGGGGAGGCGGCGAATTCCATCTGGGAGAACGTGCAGCATTTGCTGTATTACAAGCAGCGTCTGCTCGGAAGATTGGAAGGGAGACCGCTTCATAATGAAGGGATAGGAAACGACGAGACGTTTCTGATCCATGACACCAACGAGGAGGCCTGGGATACGGCCCGGAATCAGCTTCAGGAAGTTCATGCAACGTTAAGACAGAAGTTCGAGGCGATGACGGAAGCCGAGATCGAAGAATCGCCGCAGCGGATACTCAGCTTAATCATGCATGACGCATATCATACGGGGCAAATCGTTTTTATTCGGAAGCTTCAGGGCTCCTGGCCAGCTAGACGAAGCGAATTATAG	MNMKELLLQNWDYAMDQEDWYPPILPALKEVTLEQALWKPEGEAANSIWENVQHLLYYKQRLLGRLEGRPLHNEGIGNDETFLIHDTNEEAWDTARNQLQEVHATLRQKFEAMTEAEIEESPQRILSLIMHDAYHTGQIVFIRKLQGSWPARRSEL				NA	NA	NA	NA	NA
AK002_05198	561			hypothetical protein	ATGTTATGGGATGATTTTATAAACAGCGAATGGCATGACTGGAGAGGCAGCGGCCGATCCGAGGACCGGCTCGCCCGTGAGGATTGGCTCACTGAATTTATTAGCGAGCATGAGCTCCACATCGCCGTTCCGCTGACTTCGGATGAACTGGAACTTCTCCGGCAGCTTCGATCCTTCCTGCGAACATGCGTTCAGCGCATCGTTGGGGGTGCTCTTCCCTCCCACCAGCAAGTAGAGGAGTTGAACCGCTGGATGGCGACAGGGCCGGTCATTCGACAGCTCAAGATCGATGAGGATCAAAAAGGGGCACTTTCTTATATACCGCAAAATCCAGGCCTGCAAGCAGCCGCTGCCGAGATCGCCGGCTCCTTTGCACAAACCATCGAGCAAGGCGAGCTGTCGCGATTTCGCATCTGCACCAATCCGGATTGCCTCTGGGTGTATTACGACGATACGCGAAACCGCTCCAAACGTTATTGCGACGATAAAATGTGCGGCAATCTGATGAAGGTCAGACGCTTTCGAGCGAAGAAAAAGCAGCAGTCAGAGCCCGGGAAATAG	MLWDDFINSEWHDWRGSGRSEDRLAREDWLTEFISEHELHIAVPLTSDELELLRQLRSFLRTCVQRIVGGALPSHQQVEELNRWMATGPVIRQLKIDEDQKGALSYIPQNPGLQAAAAEIAGSFAQTIEQGELSRFRICTNPDCLWVYYDDTRNRSKRYCDDKMCGNLMKVRRFRAKKKQQSEPGK				NA	NA	NA	NA	NA
AK002_05199	2217	yhgF	COG2183	Protein YhgF	TTGTCTGAATTAGAAGCTGTTGTGGAAGTAAATGAAGAACAGATTCGCAAGGAAGAATCGAAACGGATCGTGAAGCAGATCGCGAAGGAGCTTCAATTGTCCGAGAAACAGGTGCGCACGACCGTTGAACTTCTGGATGAGGGCAATACCATACCGTTTATTGCGCGTTACCGTAAAGAAATGACAGGCGAACTGGATGAGAACCAATTGCGTGATATCGAAGAGCGGACAGGCTATTTGCGCAATTTGGAGGTCCGTAAGCGGGAAGTCATCCGCATCATAGAAGAGCAAGGCAAGCTAACGGAAGAGCTGAAAGCATCGATTACGGCGGCTGTGAAGCTGCAGGAGGTGGAAGATCTCTACCGTCCGTATAAGCAAAAACGCAAGACGCGGGCGAGCGTCGCCAAGGAAAAGGGACTCGAGCCGCTGTCGGAGTGGATATGGTCGCAGCCGAAGCAGGCCGATGCGATGGTGGAGGCTGCGAAATATATCGATGAGGAGAAAGGCGTGGCTTCGGCAGAAGAGGCCCTCCAAGGCGCGATGGATATATTGGCGGAGAACATTGCCGATGATGCAGCCGTTCGTTCCTGGGTACGCCGGTTCAGCCTGGACCATGGCATTTTGACGTCGGAGGCAAAGGATACCGAAGCGGAATCCGTGTACGAGAACTATTACAATTACCGGGAATTGGCGAAGAAAATGCCGCCGCATCGAATACTGGCCATTAACCGTGGCGAGCGCGAGAACATTTTGAAGGTGGGGCTGGAGGTTCCTTCCGAATCCATACACGGGTATATCGGGAAGCAGGTGCTTAAAGGGCCATCGGCCGTGACGGACATTCTGACGGCTGTGATCGAGGACTCCTACAAGCGTCTCATTGCCCCATCGATAGAGCGCGAGGTGCGCGGGGAGTTGACGGAAAAAGGGGAGAACCAGGCGATCTCCATCTTTGCGGGAAATCTGCGCAGCTTGCTGCTGCAGCCGCCGGTAAAGGGGCGCTGCGTGCTGGGCGTCGATCCGGCTTACCGTACCGGATGTAAGCTTGCTGTAGTTGATGACACGGGCAAGCTGCTTGAGGTAGCCGTCACGTATCCGACGCCGCCGGCCAACAAGAAGCGGGAGGCTGCCGCGAAGTTCAAGGAGCTGATTGCGAAATACGGAATCAAGCTCATTGTCATCGGGAACGGTACGGCATCCCGCGAAACGGAGCAATTCGTAGCGGAAGAAGTCATTGCGGAGCTCGCCGACCCTGAGCTTGCTTACCTCATCGTAAACGAAGCCGGGGCGAGCGTGTATTCGGCCTCGAAGCTGGCGCAGGAAGAATTCCCGGATCTGGATGTGGCCGAGCGCAGCGCGGCCTCCATTGCACGCCGCGTGCAGGATCCGCTGGCCGAGCTGGTGAAGATTGATCCGAAGTCGATCGGCGTGGGCCAATATCAGCATGACGTAACCCAGAAGCATTTGGAGGAAAGCTTGAAAGCGGTCGTGGAGTCCGCGGTGAACCATGTCGGGGTAGACGTGAATACGGCATCGCCATCGCTGCTCTCTTATGTGGCCGGCATCAATGCCACCATTGCGAAAAATATCGTGAAGTACCGGGAAGAGAACGGGAAGTTTGTCAGCCGGAAGCAGCTGCAGAAGGTTCCGCGTCTCGGCGCCAAGACCTATGAGCAGTGCGTGGGCTTCATGCGGATTTCGGAAGGCGAGAACATCCTGGATCGTACTCCGATTCACCCGGAATCCTATGCGGTGGTTGACCGTTTGTTCCAGGAGCTTCAGGTCGGCCTGGACAAGCTGGGAAGCAAGGAGCTGGCTGGGCTGCTGGATGCCCAGCAGCCGGAGAGCCTGGCCGTGAAGCTTGAGGTGGGCGTGCCGACGCTTCGCGATATTCTGGACAGCCTGCAGCGTCCGGGACGCGATCCGCGGGAGGAACTGCCGCTGCCGATTTTCCGCCAGGACGTGCTCAAGATCGAGGATCTAGTGCCGGGAATGGAGCTTCAGGGAACGGTACGCAATGTCATCGATTTCGGCGCCTTTGTCGATATCGGCATCAAGAGCGACGGCCTGGTGCATATCTCCCAGCTGAGCGATGGATTTGTTAAGCATCCGATGGATGTCGTCTCCGTAGGGGATAACGTGACCGTTTGGGTGCTGAATGTGGATTTGAAGAAGGGGCGCGTCGGCTTGACGATGCGCAAGCCGAAAGACCAAGGATAG	MSELEAVVEVNEEQIRKEESKRIVKQIAKELQLSEKQVRTTVELLDEGNTIPFIARYRKEMTGELDENQLRDIEERTGYLRNLEVRKREVIRIIEEQGKLTEELKASITAAVKLQEVEDLYRPYKQKRKTRASVAKEKGLEPLSEWIWSQPKQADAMVEAAKYIDEEKGVASAEEALQGAMDILAENIADDAAVRSWVRRFSLDHGILTSEAKDTEAESVYENYYNYRELAKKMPPHRILAINRGERENILKVGLEVPSESIHGYIGKQVLKGPSAVTDILTAVIEDSYKRLIAPSIEREVRGELTEKGENQAISIFAGNLRSLLLQPPVKGRCVLGVDPAYRTGCKLAVVDDTGKLLEVAVTYPTPPANKKREAAAKFKELIAKYGIKLIVIGNGTASRETEQFVAEEVIAELADPELAYLIVNEAGASVYSASKLAQEEFPDLDVAERSAASIARRVQDPLAELVKIDPKSIGVGQYQHDVTQKHLEESLKAVVESAVNHVGVDVNTASPSLLSYVAGINATIAKNIVKYREENGKFVSRKQLQKVPRLGAKTYEQCVGFMRISEGENILDRTPIHPESYAVVDRLFQELQVGLDKLGSKELAGLLDAQQPESLAVKLEVGVPTLRDILDSLQRPGRDPREELPLPIFRQDVLKIEDLVPGMELQGTVRNVIDFGAFVDIGIKSDGLVHISQLSDGFVKHPMDVVSVGDNVTVWVLNVDLKKGRVGLTMRKPKDQG				NA	NA	NA	NA	NA
AK002_05200	351	ndoA	COG2337	Endoribonuclease EndoA	GTGATCGTTAAACGGGGCGACGTATTTTTTGCGGATTTATCACCTGTTGTCGGTTCTGAGCAAGGCGGCGTGAGACCGGTCCTTGTCATTCAGAACGATATCGGCAACCGGTTTAGTCCGACTGTGATTGTTGCAGCCATTACGGCACAGATTCAAAAAGCCAAGCTGCCGACTCACGTCGAAATCGACGCGGCGTCGCATGGATTTGACCGGGATTCCGTCATTTTGCTAGAGCAGATCCGGACGATTGATAAGCAGCGGCTAACCGACAAAATCACCCATCTTGATGATGAAATGATGAGCAAGGTGGATGATTCCCTGCAAATAAGTCTGGGCTTGATTGATTTTTGA	MIVKRGDVFFADLSPVVGSEQGGVRPVLVIQNDIGNRFSPTVIVAAITAQIQKAKLPTHVEIDAASHGFDRDSVILLEQIRTIDKQRLTDKITHLDDEMMSKVDDSLQISLGLIDF	PGPT0027390_1012	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027390-toxin_mazF|ndoA|chpApemK-K07171	NA	NA
AK002_05201	273	ndoAI	COG0864	Antitoxin EndoAI	ATGCAGAACACCAAACGAATCATGATCAGTTTACCGGATCATCTTTTGCAGGAAGTGGACGGGATCGCTCAGCTGGAAAATTCCAACCGCAGTGAGCTTATTAGGCAGGCCATGAAGTTGTACCTGAATGAACGGAAGAAACGTTACATTCGTGAATCCATGCAGCGGGGTTATATGGAAATGGCCAAAATTAACCTGACCATGGCTTCTGAGGCGTTTCACGCGGAGGAAGATGCAGACAACACTCTAGACCGCTTAGTAAGCGGGGTGTAG	MQNTKRIMISLPDHLLQEVDGIAQLENSNRSELIRQAMKLYLNERKKRYIRESMQRGYMEMAKINLTMASEAFHAEEDADNTLDRLVSGV	PGPT0027400_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027400-REGULATION|antitoxin_ndoAI-K07723	NA	NA
AK002_05202	1188	alr		Alanine racemase	TTGCAAGCGATATATCGACCTACCCTGGCGGAAATCAACCTGGACCATCTGCGCGCCAACTATAACGCTTTTCGTGAGGCGCTGCCGGATCACATGAAATTGCTTGCTTGTGTGAAGGCGAACGCTTATGGTCACGGAGCCGTAGAAGTGGCACGCGAACTTCAGCAACTGGGTGCGGCATACTTAAGCGTGGCTTTCCTTGATGAAGCGCTTGAGCTTCGGCAAGGCGGCATCTCTGTCCCGATCCTGGTGCTCGGTTATACCCCACCGGAGGCTGTAGAGATCGCTTACGAGTATGATGTAACCATAACCCTGTTCAGTTCGGAAGTGCTCCAAGCGATAAAGGCACTGCCGGTCAAGCCGGAGAAGCCGCTTAAGGTACACATCAAGATTGACAGCGGAATGGGTCGTTTGGGCCTGCTTCCCGGCGAAGATGCGATTTCTTTTATAGAAGAAGCGTTTTCGCTGCCGCAGGTTGTGGTCGAAGGTATGTTTACCCATTTTGCAAGAGCGGATGAAGAGAACAAAGACTATACGTTGGGACAGTATCGCCGTTTCCAGGGCGTTGCGGACGCTCTTCGGGATAAGGATTACCATATCCCGATCATACATACGGGCAACAGCGCTGCTGCGATCGATACACCTGAACTATCCTATAATATGGTTCGTGTCGGCATCGGCTTGTACGGACTATATCCTTCGGACGAGGTGAATCGAAAGACAGTAAGCCTCCGCCCTGTCATGACGCTAAAGACAAAGCTTGTCTACGTCAAAAATTTACCTCCGCATTCCGGCATCAGCTATGGGACGAAGTATGTAACGGAGCAGGAAGAACGAATTGGAACCCTTCCCATCGGTTATGCCGATGGCTTCTCTCGTATGCTGAGCGGTAAAGCGGAAGTGCTGATACGCGGCCGCCGCGTCCCTGTAGTCGGAAATATCTGTATGGACCAATGTATGGTATCGCTCAAATCTTTCGCCGAGGAGGCGGAACAAATCAAAGCTGGTGAAGAGGTTGTACTCATCGGCCAGCAATCTGGCGAATGTATTACGGCAGATGAGCTGGCAGCCAAGCTGGGGACGATCCACTATGAGGTCGTCTGCATGATTGCCCACCGGGTACCGCGTCTTTATATACGCGATGATATACCGGTAAAGACCGTAAACGCGCTCTGGAACAACCTTTAA	MQAIYRPTLAEINLDHLRANYNAFREALPDHMKLLACVKANAYGHGAVEVARELQQLGAAYLSVAFLDEALELRQGGISVPILVLGYTPPEAVEIAYEYDVTITLFSSEVLQAIKALPVKPEKPLKVHIKIDSGMGRLGLLPGEDAISFIEEAFSLPQVVVEGMFTHFARADEENKDYTLGQYRRFQGVADALRDKDYHIPIIHTGNSAAAIDTPELSYNMVRVGIGLYGLYPSDEVNRKTVSLRPVMTLKTKLVYVKNLPPHSGISYGTKYVTEQEERIGTLPIGYADGFSRMLSGKAEVLIRGRRVPVVGNICMDQCMVSLKSFAEEAEQIKAGEEVVLIGQQSGECITADELAAKLGTIHYEVVCMIAHRVPRLYIRDDIPVKTVNALWNNL	PGPT0020040_707	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
AK002_05203	1113	ydcC	COG2834	Sporulation protein YdcC	ATGCGCCGGATTTCATGGGTGCTGCTCGCGGTAGTATTATGCTTAACTACAATACTGGCGGGATGCGGGAAGAAAAATGCAGACAGCGTTGTGAAGGATCTGGGTAAGGTGGCTGATAAGCTGGAAAGTGCCAAGGGCGCTTACCAGGGAGCGGGCGTTATGACCATACATACCGGTTCGGCGCCGCAGGAGTATCAGGTTGAGGTATGGTACCAATCTCCATCTTACTATCGGATCAGCTTAACCAACGGGCAAAAGGATATTACGCAAATCGTGCTTCGCAACGATGACGGCGTGTTCGTACTGACGCCAAGCTTAAATAAGAGCTTCCGCTTCAAGAGCGACTGGCCGGATAATCAGGGGCAGGTATATCTGTATCAAACGCTGCTTAGCAGCATTCTGAGCGACAATACGCGCCAGTTTGCCGAGGACCAGGACAGCTACGTGTTTGATGTTGCCGCCAACTACCACAGTCATTCCTTGATTCGTCAAAAGATCTGGCTCGCCAAGGACAACTACACGCCGAAACAGGTACAAGTATCGGATTCGGAAGCCAATGTCGTCGTTGAAGTGAAGTTCAATACCTTTACATTCGATACGAACCTGACCAAGGATTCGTTTGATACCAACAAGAATCTGAGTGCCATGAACGATGCGAAGGGGACGATTGCGGAAGTGGACGAGAACGGGGTACCAGTTGCTTCCACTACGGATGGGAACGGCGCTCAGGGAACCGAGGGCCTGACGGAAACGGCTGCCGGCGGCGACATGGGATCCTTCGGCATCATTTATCCGGAATATGTGCCTGCAGGGGTTACCAACAAGGACACCATGGAAGTTCCGGAGAGCAAGGACCATGCGGTTATTCTGAAGTACGACGGCGTATACCAATACACGATCATGGAATCCAGACCGTCGGATCGTGCGGTTTCACTCGTTCCGGGCGAAGCGGTTTATATTGATTTCACGACGGTCGGCCTGCTCACCGGCGATCAGCAAAGAACGCTGACTTGGAGTTCGGAAGGCGTGGAATACCGGATCACGAGCGCTAATCTGCCAGTCGAAGAAATGAAGAAAGTCGCTGCTTCCATGCAGGGAGAATCGGGTAAATAA	MRRISWVLLAVVLCLTTILAGCGKKNADSVVKDLGKVADKLESAKGAYQGAGVMTIHTGSAPQEYQVEVWYQSPSYYRISLTNGQKDITQIVLRNDDGVFVLTPSLNKSFRFKSDWPDNQGQVYLYQTLLSSILSDNTRQFAEDQDSYVFDVAANYHSHSLIRQKIWLAKDNYTPKQVQVSDSEANVVVEVKFNTFTFDTNLTKDSFDTNKNLSAMNDAKGTIAEVDENGVPVASTTDGNGAQGTEGLTETAAGGDMGSFGIIYPEYVPAGVTNKDTMEVPESKDHAVILKYDGVYQYTIMESRPSDRAVSLVPGEAVYIDFTTVGLLTGDQQRTLTWSSEGVEYRITSANLPVEEMKKVAASMQGESGK				NA	NA	NA	NA	NA
AK002_05204	1329			hypothetical protein	GTGGAGATTTTAAAGAATCGCAATTTTCTGCTGTTGTTCATTGGCCGAATCCTTACGAATATCGGTGACAGCCTGTATGCCGTGGCGGCCATGTGGCTGGTATACGATCTGGGAGGTTCGACGCTGTATACAGGACTTGCCGGCCTCCTCTCGATTCTCCCCCGGATCATTCAATTGTTGTCCGGCCCGATGATCGACCGCGTTCCCATCCGAGGGCTTCTGGTGTACACCCAGTTCATTCAAGCGCTCCTTCTGTTGATCGTTCCGCTTGCATTTTATTTCGACTTTCTGACGGTCGGCCTTGTACTGGCGATTACGCCGATTCTATCGACGCTGAATATGTGGGTATATCCGGCTCAAATGTCGGCCCTTCCTAAAATTCTCGAAAAGAAGCAGCTGACGCAAGGCAACTCGCTGTTCTCCCTGGCTTACCAAGGCATCGATGTCGCTTGCAATGCCATATCCGGCGTATTGATTGTCGTGCTGGGCGCCGTATCCCTTTACTTATGGAATTCCATTGGATTTTTCATCGGAGCTTTGTTATTTGCGCAATTGAAAATCAAGAAGTCCATTAAGACTTCTGATAACAACGATAATAGAACAACTGCGAAAGCAGCCGTAACTTCAAAAACGATGCAAAAGGCTCTCAGCGATTATTGGGCCGACATGAAAGAAGGTCTGCGCTACATCCTGGCAACCCCGCTCGCACGGGTACAGATGGGGATTATCGTCATCAATGCCGCAGGCGGCGCTACCTTCACGGTGATGCCTGCGTTCGCCGACAGCCTCGGCGGAGCCGGCGTGTACGGGATCTTGCTCATGGCCCAGGCTTGCGGAAGTTTGTTGGGAGCGATCCTGGCTCCGTATTTGAAGCTGGAGCGCCTGCCGCTTGGATATCTTTTTGCCGGAGCGTTTTGTTTATCGGGTGCTGCCTGGTGCCTCAGCGTGTTCACCCCTTGGACTTGGCTTGTCGTTCTGGTGTACGGCCTGGCATGGTTTCCCGGAGGCATTACGAACGTCATCATCAATTCGGTCATTCAGAAGGCGATACCCGAGAAAAGATTGGGCACGGTGTTCGCAGCAGCAAGCGGACTCAGCGGAATTGCCATGCCGCTGGGCAGCCTGATTGGAGGTGCCCTTGGCGTGGTTGCGGCAAGCTCCTCCGTTATCGCGGGATGCGGAATCGCCGTGTTCTGCGTAGGGATCTTCTGGGTCTTCGACTCGACCACCCGCAGCCTTCCGGCACCTGACCAAGTGGATGAGGAATGGTTCGCGCCTTATACGAATGCAGCGCCTGAGAAGTCCGTTTCGTTGCATGCCGCCAATTAA	MEILKNRNFLLLFIGRILTNIGDSLYAVAAMWLVYDLGGSTLYTGLAGLLSILPRIIQLLSGPMIDRVPIRGLLVYTQFIQALLLLIVPLAFYFDFLTVGLVLAITPILSTLNMWVYPAQMSALPKILEKKQLTQGNSLFSLAYQGIDVACNAISGVLIVVLGAVSLYLWNSIGFFIGALLFAQLKIKKSIKTSDNNDNRTTAKAAVTSKTMQKALSDYWADMKEGLRYILATPLARVQMGIIVINAAGGATFTVMPAFADSLGGAGVYGILLMAQACGSLLGAILAPYLKLERLPLGYLFAGAFCLSGAAWCLSVFTPWTWLVVLVYGLAWFPGGITNVIINSVIQKAIPEKRLGTVFAAASGLSGIAMPLGSLIGGALGVVAASSSVIAGCGIAVFCVGIFWVFDSTTRSLPAPDQVDEEWFAPYTNAAPEKSVSLHAAN				NA	NA	NA	NA	NA
AK002_05205	498			hypothetical protein	ATGGATCAAGATCAAAATCAAAGCATCGAAATATCGGTGGAACAAGCGAAGCTGCTCGGCAGCGCCCAGCGGGTGAAAATTCTCGGAACCATGCTGGATACGGCCAAAACCTCCAAGCAAGTCGCGGATGAATTGGGAGATTCGCCGGGAAGCATCCATTATCATATCCAGAAGTTATATGACGGCGGGCTGATAGATTTGGTGGAGACCCGAACGGTCGGCGGCATCGTTGAGAAATATTATAAATCCAAAGCGAAGTGGTTTAACACCAAGGGAACGCAAACGATGGACCCGGTTCTTGCCGAAGATTATGACGCGGCGACCCGAACCCGAATTAGCTTGAGGCTGCAGCTGAATGCCGACCAATATGAAGAGATGACAAAGGAATTCAAGGAACTGCTCGAAAAATGGGTGAATAAGACCATCGCGACCAAAGGGGAAGACAGCAAGGAGTATGCCGTTGGGATCAACGTGGTTTCGACGGAAACGTCCAAATAG	MDQDQNQSIEISVEQAKLLGSAQRVKILGTMLDTAKTSKQVADELGDSPGSIHYHIQKLYDGGLIDLVETRTVGGIVEKYYKSKAKWFNTKGTQTMDPVLAEDYDAATRTRISLRLQLNADQYEEMTKEFKELLEKWVNKTIATKGEDSKEYAVGINVVSTETSK				NA	NA	NA	NA	NA
AK002_05206	561			hypothetical protein	ATGACCATCAGATCAGCAAGGCCACAGGATGCGGTTGCGGCAGCCAGGCTGCTGTATGACGCACTGCACGATGTAGCGCATCGGTTAACGGGGGAAGAGAGCGAAGAGAATGCGATTGAAGTGCTGGAGCAATATTTCCGGGCGGAAGAAGGCAGGCTCAGTTACCGTCAGTCTGCCGTGAAGGAGATCGACGGCGAGGTGGCCGGCATCATCGTTGCTTACGGCGGCGATCAAGCGGCGGAATTGGATCGTCCCATCCTGGATCGGCTGCGGAAGCTGAAGAACGACCCTTCCGTAACGCTGGATCAAGAAGCGGATGAGGATGAGTACTATATCGATACGTTATCCGTTTCCCCGCAGTTTGGAGGCAAGGGGATCGGTTCGGCGCTTATACTTCATGCGGAGAACCGGGCGAAGGAGCTGAAGTACCATAAAATTGCCCTCGCCGTGGTGACGGACAATCATCGTGCCCATTCCTTGTACGACCGAAAAGGATATAAAACGGATAAGGACATCATGATTAACGGGCATGTTTATCATCATATGGTCAAGCCCGTGTAG	MTIRSARPQDAVAAARLLYDALHDVAHRLTGEESEENAIEVLEQYFRAEEGRLSYRQSAVKEIDGEVAGIIVAYGGDQAAELDRPILDRLRKLKNDPSVTLDQEADEDEYYIDTLSVSPQFGGKGIGSALILHAENRAKELKYHKIALAVVTDNHRAHSLYDRKGYKTDKDIMINGHVYHHMVKPV				NA	NA	NA	NA	NA
AK002_05207	1329			hypothetical protein	ATGGTCAGTATGTCCTCAAGAATGGTAGAGATCGCAGATTTTCCATCGGTTAGCTTAAGCAATACCCGGAGTTTGTATGTATATCTTCCACCCAGTTATCACGAGAATACGGAGAAGCATTATGCCGTACTCTATATGCATGACGGGCAGCACGTATTTTCGGCGGATGAACGTGGCGGCTCGTGGGATATGCACATCACCGCGGATCGGCTGGTTTCCGAAGGGCGGATGGAGGAGATTATCATCGTTGGCATCGCCACGGTTCCCCATCAAAGGCTGAACGAGTATTTCCATGACAACCCACGGATGCATCAGGTGTTCGATCCGCCGTTTGCCGGCGAACGGTACGAAGCCTTTATCATTGAAGAAGTAATGCCTTATATCAACCAGAATTTTCGCACGTTGAGGGGCCCGGAGCATACGGCTATGATGGGTTCGTCCGCGGGCGGGATCGTCACCTACAACATCGGTTTCCGGAGGCCGGATGTGTTCGGTAGCATTGCGGTCATGTCGCCTTATTTCGTCAGAGCCCAATTCGATGAACGGGGCGAACTGAAGGAACATACCTTTTATGAAAGATACGGTACGCACCCGAATCTTCGGGTTTGGCTGGATATGGGCGGTGCGGAAGGAGTTTTCATGGAAAAATACGCCCGGGCGGAAGCGGAACGCTTGGTTCAGGACGGTTTTGTGCCGGGGGATGATCTTATGCTGTTCCTGGATCCGGGAGCGGCTCACAGCCAAAGCGACTGGGCAGGCAGAGCACAGGCGCCGCTGCTGTATTTTTTCGGAAACATTGGTGAACCGGTCTCGATCAAGCTGTATGGCGACGGCGTCGCAGGGGTAAACGGCCCCGTCAAGCAACTGAATCCGGTCATTACATACGACAGCGGATTTGTTCAAACGTTGATGAATGGAACATATCATGTTGAGTCTCCGGAATTACTCACGATACTGCCGGACGGAACGCTCAAGCCTCGGACTCCCGGCAGCACCCGGATTACGCTGCACATGGGAAGCTTAAGCGCGGATAAAGAGATTACGATTGTTGAAGAACTTCCGGAATTCGTGAAAGTCGCGATTGAGGTGAAGGTCCCGCCTGCAACGCCCGTTTCTCCAATGATCTATGCCGGATTTGAGATTCCGTACAGCGGAGAGGGCGTTTACAGGGGAAGCGCGATGGTACCGCATGGTTTGTCTTTTACGTTCAAGGTATCGCGAGGGTTTGGATTGCATGAGAAGATCGGGGATCCCAAAGTGAAACGGCGTTCGTTTACGGCATCGTCCGACTTGGAGCTGTTTTACGAGGTTGAGGACTGGGATGTTTAA	MVSMSSRMVEIADFPSVSLSNTRSLYVYLPPSYHENTEKHYAVLYMHDGQHVFSADERGGSWDMHITADRLVSEGRMEEIIIVGIATVPHQRLNEYFHDNPRMHQVFDPPFAGERYEAFIIEEVMPYINQNFRTLRGPEHTAMMGSSAGGIVTYNIGFRRPDVFGSIAVMSPYFVRAQFDERGELKEHTFYERYGTHPNLRVWLDMGGAEGVFMEKYARAEAERLVQDGFVPGDDLMLFLDPGAAHSQSDWAGRAQAPLLYFFGNIGEPVSIKLYGDGVAGVNGPVKQLNPVITYDSGFVQTLMNGTYHVESPELLTILPDGTLKPRTPGSTRITLHMGSLSADKEITIVEELPEFVKVAIEVKVPPATPVSPMIYAGFEIPYSGEGVYRGSAMVPHGLSFTFKVSRGFGLHEKIGDPKVKRRSFTASSDLELFYEVEDWDV				NA	NA	NA	NA	NA
AK002_05208	570	opcR	COG1510	HTH-type transcriptional repressor OpcR	ATGGGCTTGTACCATTTAGATGATGAACGGCAGGCAGCCGTGCAGAAGATTCGTAAGCGTGTCATTGAAAATATTGGACGGAATATGGACTTGTACGGCATTCCACACTCAACGGGACATTTATACGGATTACTTTATTTTGCAGATAAACCGATGAACCTGGATGAAATGGGACAGGAAATGAAGATGAGCAAGACCAGCATGAGTACAGGCGTGCGGACGCTGCTCGATTATAAAATGGTCAACAAGGTATGGGAGAAGGGCTCTCGCAAGGATTTGTATGAAGTGGAGTACGACTGGTACCAGACCTTCTTTGATTTTTTCGATATTAAATGGCGTAAATCGGTGGAGAGCAACATTTTGGTCCTTCGCAAAGCGCTTGACGAAACGGAGAAGCTCTGCAAAGCGCATGAGGATGACGAAGAGCTGGTAGCGGTGCTGCAAGAGGATCAGGCGAAGATGCGTGAGGCCGTTGCTTACTATAAATGGCTGGAGCGATTGATTGATACTTTCGTGGATGGCGAAATCTTCAACTATGTGCCGAAAGAGCCGCCTGAGGGCAAATCCTGA	MGLYHLDDERQAAVQKIRKRVIENIGRNMDLYGIPHSTGHLYGLLYFADKPMNLDEMGQEMKMSKTSMSTGVRTLLDYKMVNKVWEKGSRKDLYEVEYDWYQTFFDFFDIKWRKSVESNILVLRKALDETEKLCKAHEDDEELVAVLQEDQAKMREAVAYYKWLERLIDTFVDGEIFNYVPKEPPEGKS	PGPT0013690_37	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109	NA	NA
AK002_05209	1203	opuAA	COG4175	Glycine betaine transport ATP-binding protein OpuAA	TTGGCTATTCTGCAAGTTAACAAAGTCAGCAAATTGTTCGGCGCGAACCCGGAACAAGGGCTTCAATTGCTTGAGCAAGGCTGGAGTAAAGCGCGAATTGCAAAAGAGAAAAATATAACGGTTGGCGTTAACCGTGTCAGCTTCGATATTCAGGAAGGCGAGATCTTCGTGATCATGGGGCTGTCGGGCAGCGGAAAGTCTACACTCGTCCGTTTGCTAAATCGGTTGATTGAACCAACATCGGGTGAAATCTTGATACACGGCAAGGACCTGCGAAAAATGAACAAGGAACAGCTTCGGGAAGTGCGCCGCAAAAAAATCAGCATGGTGTTCCAGAAGTTCGCCTTGTTCCCCCATCGCACGGTTGTGGACAATGTGGAATACGGTTTGGAGATTCAAAAGGTAGACAAGAGCAAGCGCCGCGAAGCCGCCATGAAGTCGCTTGAGCTTGTAGGTTTAAAGGGCTGGGAGGAAAAAATGCCCGATCAGCTCAGCGGCGGCATGCAGCAGCGCGTCGGTCTGGCCCGTGCGCTTGCCAACGATCCGGAGATTCTGCTGATGGACGAAGCCTTCAGCGCACTGGATCCGCTCATTCGCAGAGATATGCAGGACGAATTGATCGAGCTCCAGGACAAAATGAAAAAAACCATCGTGTTCATTACCCACGACTTGGACGAAGCTCTTCGGATCGGCGACCGCATTGCCTTGATGAAGGACGGCTCGATCGTGCAGATCGGCACGCCGGAGGAGATCTTGACCCAGCCTGCCAACGACTACGTTGAACGGTTCGTGGAAGACGTGGATCTGTCCAAGGTGCTTACCGCTTCACGGGTTATGCGCCGTCCGGAAACCATCACGATGGATCGCGGGCCTCGGGTTGCGCTGGAGCTTATGCGTGAACGCGGCATCTCGAACCTGTTCGTGATCGACCGTTCGAAGAAGCTGCTCGGCGTCATTACGGCGGAAGATGCATCGGATGCCATGAAGAATAACCGCAAGCTTGCGGATATTCTCATCACGGACGGACCGAGCGTCGGACCCGACACGCTGCTAAATGAATTGTTTGAAATTACGAGCATGTCCAAAGTGCCATTGGCCGTTGTGGATGACACCGGCCGACTGATGGGCGTTATCGTCCGCGGTGCCGTCCTTGGTGCCTTGGCCGGGGAAACCAAGAACGAGGAGGTGACGCAAGATGCCTAA	MAILQVNKVSKLFGANPEQGLQLLEQGWSKARIAKEKNITVGVNRVSFDIQEGEIFVIMGLSGSGKSTLVRLLNRLIEPTSGEILIHGKDLRKMNKEQLREVRRKKISMVFQKFALFPHRTVVDNVEYGLEIQKVDKSKRREAAMKSLELVGLKGWEEKMPDQLSGGMQQRVGLARALANDPEILLMDEAFSALDPLIRRDMQDELIELQDKMKKTIVFITHDLDEALRIGDRIALMKDGSIVQIGTPEEILTQPANDYVERFVEDVDLSKVLTASRVMRRPETITMDRGPRVALELMRERGISNLFVIDRSKKLLGVITAEDASDAMKNNRKLADILITDGPSVGPDTLLNELFEITSMSKVPLAVVDDTGRLMGVIVRGAVLGALAGETKNEEVTQDA	PGPT0013630_750	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
AK002_05210	834	opuAB	COG4176	Glycine betaine transport system permease protein OpuAB	ATGCCTAAGATCCCTCTTGCCAGCTGGGTTGATTCCTTGGTCGATTGGATGGGAGACGTGTTCTCCGGATTCTTTGATGCCATCTCCTTCATTATCGAGAACGTTGTGCAGTTGTTTACGGATTTGTTCATGCTTCCTCATCCGTATCTGTTCATCGTTATCCTGGCCGTCATTGCCTACCTGCTGGGTCGCCTGCCGTTGACCTTGTTCACGGCCATCGGCTTCCTGCTGATCGACAACTTGGGCTACTGGTCACAGACGATGAGCACGCTCAGTCTGGTCATCACGGCCGCATTGATCTCCGTTATACTGGGTGTTCCGCTGGGGATATGGGCGGCCTACAGCAAGTCCGCATCCCGCGTGATCATACCGGTTCTGGACTTTATGCAGACCATGCCGGCCTTTGTGTACTTGCTGCCTGCCGTCACGTTCTTCAGTCTGGGTGTGGTTCCGGGGGTTATTGCTTCGGTTATCTTCGCTATTCCGCCAACGATTCGCCTGACCCGTCTCGGGATTAATCAAGTATCCGGTGAATTGACGGAAGCTGCGGATGCATTCGGTTCGACTTCCGGGCAGAAATTGTTCAAGGTGCAGCTGCCGCTGGCCATGCCAACCTTGATGGCCGGCATCAACCAGACCATCATGCTCTCGTTGTCGATGGTGGTTATCGCTTCGATGATCGGTGCCCAAGGTATCGGTGCCGAGGTATATCGTGCAGTAACGCAGCTGCAAATCGGTAAAGGGTTTGAAGCCGGCTTGGCCGTCGTCATTTTGGCGATTGTCCTCGACCGCTTTACTCAAAATATATTTAAATCGAAAAAAAGGGGTGCTTAA	MPKIPLASWVDSLVDWMGDVFSGFFDAISFIIENVVQLFTDLFMLPHPYLFIVILAVIAYLLGRLPLTLFTAIGFLLIDNLGYWSQTMSTLSLVITAALISVILGVPLGIWAAYSKSASRVIIPVLDFMQTMPAFVYLLPAVTFFSLGVVPGVIASVIFAIPPTIRLTRLGINQVSGELTEAADAFGSTSGQKLFKVQLPLAMPTLMAGINQTIMLSLSMVVIASMIGAQGIGAEVYRAVTQLQIGKGFEAGLAVVILAIVLDRFTQNIFKSKKRGA	PGPT0013635_2514	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
AK002_05211	921	opuAC	COG2113	Glycine betaine-binding protein OpuAC	TTGAAGAAACAGAAGTTTTGGTTGCTGCTGAGCTTGGCTGCTATTCTGGTCCTGTCCGCTTGCGGTCAGGGCGGAAACGGTGGCGCGAATGGAACGACGGACAACGGGGCTGATGGCGGTTCCACCGCTTCCCTCGGCGATCAAGTCAAACATGAAATCATCGGTATTGATCCTGGCGCGGGTATTATGAAAGCAACGGCTGCTGCGATTGAGGAATATGGATTGACCGACTGGAAACTGATCGAAGGTTCCGGCGCGGCCATGACGGCAACTCTCGATAAAGCCATCAAGAACGAAGATCCGATCATTATTACCGGTTGGACTCCGCACTGGATGTTCGCCAAATACGATCTGAAGTATCTGGAAGATCCGAAGAAGGTCTACGGTGAAGCGGAAGAGATCCACACCGTTGCCCGCCTTGGACTTCAGGAAGATCATCCGGAAGCTTATAAGTTCCTGAGCAATTTCAAATGGACGTCCGACGATATGGGTCAGATTATGACCGCGATCCAAGAAGGCCAAGACCCTGAGGCTGCTGCTAAAGAATGGGCGGACAGCAATGCGGAGAAAGTCGATGCTTGGCTCGAAGGCGTTCAGCCGGTTGACGGCAAAAGCTTCAAATTCAGTTATGTGGCTTGGGATTCCGAAATTGCCAGCACCAACCTGCTGAAAGTGATCATGGAAGAAAAGCTGGGTTACAAAGTTGAGGCCCTTCAAGTTGAAGCAGGCCCTATGTGGACCGGCGTTGCCAACGGCGACGTGGACGCCACCGTGGCTGCTTGGCTGCCACTGACGCATGCGGACTACTGGGATAAATTCAAGGACCAAGTGGAAGACCTTGGCGCCAACATGGAAGGCGTAAAAACCGGACTGGTGGTTCCGTCTTACGTGGAAGCCAATTCGATTGAGGATCTGAAATAA	MKKQKFWLLLSLAAILVLSACGQGGNGGANGTTDNGADGGSTASLGDQVKHEIIGIDPGAGIMKATAAAIEEYGLTDWKLIEGSGAAMTATLDKAIKNEDPIIITGWTPHWMFAKYDLKYLEDPKKVYGEAEEIHTVARLGLQEDHPEAYKFLSNFKWTSDDMGQIMTAIQEGQDPEAAAKEWADSNAEKVDAWLEGVQPVDGKSFKFSYVAWDSEIASTNLLKVIMEEKLGYKVEALQVEAGPMWTGVANGDVDATVAAWLPLTHADYWDKFKDQVEDLGANMEGVKTGLVVPSYVEANSIEDLK	PGPT0013640_2967	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
AK002_05212	732			hypothetical protein	ATGGAACAACAACGCGTTTTTGGTGATTTTCACTCCATCCTGTCCGAGAGCGGGACGTGGAAGATCGGCGGTTTTCCGCTGCCGGACGGTTCATTCTGGGAATATCGCGAGCCGAATGCGGTCGTTATCGTCCGCAATGGCATTCTGTACGTGCGCGCACCGCTGAGCCGCCAGAATAACCAGATCCAAATTCTCGATAACGCCAAGCATATGTATTATTCCAACGAAGAAGTGGACGTGCCGGAATCCGGCGAGGTGACCTTCGAGCTGCAAATTCGGGCCCGCACCCAAGGTACGGTGCCCGGCGACTTGTATGACGGCTACGTATCTTTGAATCTGCTTGATTTCAGCACCGGCGCGGCACTGGACTTTTTTGCCTCGAACGACAAATACGCCAGCGTGTATGCGGTCCTGCCGTTCCCGGGCGTGCAGGTGCCGGAATCGGACAAGACCCGTTACTTCTGCATTTTCAAAGAGGAAGATACGCACTTTACGCCGCGTGAATTCAACACGTACAAAATCACGTATAACCGTGCCGAAGACGAAGCTGTCTTCTACGTGAACGGCGAAGAGATCCGCCGGGAGAAAAACATCCCGATCAAGTTCAACAAATTCACCATCGCGCTTGGCATCATGACCGAAAAAGACCTGACGCCGGAGGGCAGCGTATCCGTGCATGGACAAACCGTCATTGCCGAATACTCTCCCGTGACGGTCACGATAAAAGAGTAG	MEQQRVFGDFHSILSESGTWKIGGFPLPDGSFWEYREPNAVVIVRNGILYVRAPLSRQNNQIQILDNAKHMYYSNEEVDVPESGEVTFELQIRARTQGTVPGDLYDGYVSLNLLDFSTGAALDFFASNDKYASVYAVLPFPGVQVPESDKTRYFCIFKEEDTHFTPREFNTYKITYNRAEDEAVFYVNGEEIRREKNIPIKFNKFTIALGIMTEKDLTPEGSVSVHGQTVIAEYSPVTVTIKE				NA	NA	NA	NA	NA
AK002_05213	927	menA_2		1,4-dihydroxy-2-naphthoate octaprenyltransferase	GTGGATGCCCTTACACAGTTTAAAAAAGCTTCCCGAATCAAAGTGATTCCCGTCATGCTGATTCCGGTCGCTTTGGGAGCGCTCGGGGCTTACGTATGGACGGGTACATTTCATATAGGCCTTTTTTTATTGACCTTGATCGGGAGCGGCGCTGCCCATTTGTTCTCCAATATGGTGAACGATTTATGGGACTATAAGAACGGAACGGACACGGAAGCGCAGGAGCATGTAGATGCGATCTCCACCAACTCCGGGTTTTTGACCAAGGGGGTCTGGTCGCTCCGTAAGTTCGAGGTCGTCACCTGGACGCTGTTCGGGATCGCGGCGCTGAGCGGCATCATCCTCAGCTTGATCAGCGGCTGGTGGGCTTTTGTCTTTGGCGGGCTCGGCGGGTTGATCGCTTACTTTTACGTCGCACCGCCGATCCAATTCGGTTATCGAGGCAAGGGCTACAGTGAAATTGCGATTTTGCTGTCCTTTGGTATTTTGCCGGTGATGGGCGCATACTACGTTCAAACCTCACATATGGATGTTCGGGCCTTGCTGCTGTCACTGCCCATCGGGCTGCTGACAACGTTGATTTTGTTCAACCATCACTTTTTGCATTGGCAGGCAGACCGTCAGGCCGGGAAGAAGACCCTGGTCGTGGTATGGGGCGAAAAGAGAGCGCTGAACTTCTCGCGAGTTCTGCTGCTGCTGGCCTGCCTCTCCTTGATAGCCTGCGTATTGGCCGGAGCACTCCCGCCTTACGCACTGATTGCGCTGCTTACGATTATTCCGTTGTATCTTGTCTATGGAAGGCTGAAGGACAGCAACCGTTCCGAGGCGTATTTACCGCTGATGGGCGCGTCAACGATGACCACCATGCGCTGCGGCGGCGTTCTGATCCTGTCATTGATCATTCAGGGAATCATTCAGACTTTGTAA	MDALTQFKKASRIKVIPVMLIPVALGALGAYVWTGTFHIGLFLLTLIGSGAAHLFSNMVNDLWDYKNGTDTEAQEHVDAISTNSGFLTKGVWSLRKFEVVTWTLFGIAALSGIILSLISGWWAFVFGGLGGLIAYFYVAPPIQFGYRGKGYSEIAILLSFGILPVMGAYYVQTSHMDVRALLLSLPIGLLTTLILFNHHFLHWQADRQAGKKTLVVVWGEKRALNFSRVLLLLACLSLIACVLAGALPPYALIALLTIIPLYLVYGRLKDSNRSEAYLPLMGASTMTTMRCGGVLILSLIIQGIIQTL	PGPT0009395_960	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
AK002_05214	1002	ccpB		Catabolite control protein B	GTGGATGAAGGGGGCATATCGATTGTGGCCAATATTAAAGAGATAGCCAAGCTTGCAGGCGTGTCGGTATCAACTGTATCCCGGGTGCTGAATAACCACCCTTATGTCAGAGAAGAGAAGCGGGCACGCGTGCTGGAAACGATGAAGCAGCTGAAATACGCCCGGAATATGAATGCGGTCCATCTGATTACAGGGAAAACGATGAATATTGCCATTATGCTTCCGTTTATTAATCATGCCTACTTCTCCTTGCTGATGGAAGGAGCCGGCCAAGAAGCGCTTGCCGCTAGCTATCGCCTCATCCTGTGCCAAACCGGGTATGCGCCGGATAAGGAAATGGAAGTGCTGGAGATGCTGCGTAACCGCGAGATTGACGGCATCATTATTCTATCATCGGCCGTGACGCCTAAACAGATCGAAGCCTATTGCGCTTACGGACCGATTGTATGCTGTCAGGATGCAGGGGAACGCTTATTTTCTTCTATATATATAAACCATGCTGAGGCATTTCGCAGTGCCATGCATTATTTGATAAGGCGGGGACATCGCCGCATCGGCTTCACCGTAGGAAGACTGGACAGTCCGAGCACGAGAGCGCGCCAAGCGGCCTATGAAGAAGTGCTTCAGGAAATCGGAGAGCCTTACCGCGAGGAATGGATCCTGGACGGCTGTATTGATCTCGAGGACGGTGCAGCGATTATGGATCGGCTGTCGGGTATGGAGGAACGTCCCAGCGCCATATTGGTGACGGGTGACCATGTGGCCGCCGGGTTAATCTATGAAGCGGAGAAAAGAGGGCTGTCCATCCCGCAAGAGCTGGCCGTCATCGGATTCGACAACCAGCCGATCGGCAAAATGCTGGGCCTTACTACGATCGATAACCGCCTGTTTGATATGGGTACGGAGGCTTTCAGGATACTCTATGTCCATATTCAAGGGGAGCAGAAGGAGCCGATTCGCAAGGAGCTTGCTTTCGAGCTGATTGAACGTTCGTCGGTCTAA	MDEGGISIVANIKEIAKLAGVSVSTVSRVLNNHPYVREEKRARVLETMKQLKYARNMNAVHLITGKTMNIAIMLPFINHAYFSLLMEGAGQEALAASYRLILCQTGYAPDKEMEVLEMLRNREIDGIIILSSAVTPKQIEAYCAYGPIVCCQDAGERLFSSIYINHAEAFRSAMHYLIRRGHRRIGFTVGRLDSPSTRARQAAYEEVLQEIGEPYREEWILDGCIDLEDGAAIMDRLSGMEERPSAILVTGDHVAAGLIYEAEKRGLSIPQELAVIGFDNQPIGKMLGLTTIDNRLFDMGTEAFRILYVHIQGEQKEPIRKELAFELIERSSV	PGPT0021075_1725	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
AK002_05215	318			hypothetical protein	ATGTCGAAACTGTTCAAGACGCTTGGCGCTGTATGGTTCATCGGCGGTTTTATCGGAGGAGTCATCATTCATATCATCATGGAGGGCAATTGGCTGACAGGCATCGCTTGGCTTATTGGCGGCGCAATCTTGGGCGCCTTATTCTATACGGTGGGCGAAATTCATGAAATCGTGTGGGAGAATCATGCCCTGCTTCGGGAAGTGCTTCACCGTCTGCCTCCGGAACCAGGCGACAAAAAGCCGCCGCTTGGGAATTCCCGAGCCAATCTGAGCGCTTTGAAGGATTATAAAATGAACGCAAAAGATGAACAGCGATAA	MSKLFKTLGAVWFIGGFIGGVIIHIIMEGNWLTGIAWLIGGAILGALFYTVGEIHEIVWENHALLREVLHRLPPEPGDKKPPLGNSRANLSALKDYKMNAKDEQR				NA	NA	NA	NA	NA
AK002_05216	177			hypothetical protein	ATGATGGAGACGTTCGGCAGAGGCTGCCTGTACTTGATCATTGGCATGGTGGTATTGCTGCTGCTTGCCCTGCTATTGGGGACCACGATTACGATCCCATGGTTTATCTTCATTCCGCTTGTCGTTATTGCCTTTGCCGTGGCTGCATCCAAGAGCAAACGCAAGGATGAGGATTGA	MMETFGRGCLYLIIGMVVLLLLALLLGTTITIPWFIFIPLVVIAFAVAASKSKRKDED				NA	NA	NA	NA	NA
AK002_05217	831			hypothetical protein	ATGGCCATGCAAACAAGAGCAGAAGTATTAGCGAAACTAAAATCAGAGGTTGCAGCGGGTAAGGTGTTGTTGGGAGCTGGAGCAGGGACAGGGATTTCTGCCAAGAGCGCCGAAGCGGGCGGGGTAGACTTAATCATTATTTATAACTCGGGCCGTTACCGGATGGCCGGGCGGGGATCTCTCGCTGGACTGATGGCTTACGGGGATGCCAATCAGATCGTGGTGGACATGGGGAACGAGGTGCTGCCGGTCGTGAAGCATACGCCGGTGTTGGCGGGAGTTTGCGGCACGGACCCGTTCCGGATCATGGATATTTTTCTGAAGCAGCTGAAGGAGCAAGGGTTTGCGGGCGTGCAGAACTTTCCGACGGTGGGCTTGATTGACGGCGTATTCCGGGCGAATCTGGAAGAGACGGGCATGGGCTATGATCTTGAGGTCGAGATGATCCGGAAGGCGCATGAGCTGGATTTGGTGACCACGCCGTATGTGTTTGACGTCGATCAGGCGAAGAAAATGGCTGAAGCCGGAGCCGATGTTCTAGTTGCTCATATGGGTCTTACCACGAAAGGCACCATAGGCGCGAAAACGGCACTAACGCTCGACGATTGCGTGGACAAAATTCAAGCGATCTGCGATGCCGGAAAAGCCGTCAACCCGGAAATTATGATTCTGTGCCATGGCGGTCCGATTGCGGAGCCTGAGGACGCGGCGTATGTATTGTCCAGAACCCATGGAGTGGAAGGATTCTTCGGAGCATCCAGCATCGAGCGTTTTGCCACCGAGGTTGGCATCAAGCAGCAGACAGAGGTATTCAAGAATATTTCGAAATGA	MAMQTRAEVLAKLKSEVAAGKVLLGAGAGTGISAKSAEAGGVDLIIIYNSGRYRMAGRGSLAGLMAYGDANQIVVDMGNEVLPVVKHTPVLAGVCGTDPFRIMDIFLKQLKEQGFAGVQNFPTVGLIDGVFRANLEETGMGYDLEVEMIRKAHELDLVTTPYVFDVDQAKKMAEAGADVLVAHMGLTTKGTIGAKTALTLDDCVDKIQAICDAGKAVNPEIMILCHGGPIAEPEDAAYVLSRTHGVEGFFGASSIERFATEVGIKQQTEVFKNISK	PGPT0021745_12	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021745-atoC-K07714	NA	NA
AK002_05218	1212			hypothetical protein	GTGAAAACCATAGCCATTGCGGGGACGTTTGATACGAAGGGTGCTGAGTTTTTACACGTTAAATCGGTGATCGAGAGCTTGGGGTTAAAGACGTTTACGATTCATAGCGGCGTGTTTGAGCCGATGTTCACGCCGGATGTAACCAACATCGAGGTTGCAGGTGCGGCAGGTGCGGATCTGCGCGAAATCGCGGCCCGGAAGGACCGGTCGGAAGGTACTGAAGTATTGGCTCAAGGGATGGAGCAAATCGTGCCGAAGCTGTATGCAGAGGGCAAATTCGACGCCATACTGTCATTCGGCGGTACGGGGGGAACTTCCATCGTCACCGCCGGCATGCGCGCATTGCCGATCGGCGTACCGAAATTGATGGTCTCCACCGTCGCTTCCGGCAATACGGCGCCTTATGTAGGGACAAGCGACATTATCATGTTTCCGTCCATCGTGGATGTATCCGGCCTGAACTCGTTTTCCACCAAAATATTCACGAACGCGGCACACGCGATAGCCGGCATGGTTAAGTTTGAATCGGCTGCGCCGATGGATAAAAAGCCGCTGATTGCAGCGACGATGTTCGGGGTAACGACCCCCTGCATCGATTATGCCAGAGAGCATCTGGAGTCACATGGGTACGAAGTGCTGGTGTTCCATGCAACCGGCACGGGCGGGCGAACGATGGAAAGCCTAATTGAGGCCGGATTCATTGACGGTGTATTGGATTTGACGACAACGGAATGGTGCGATGAGCTGGTTGGCGGCGTTTTGGCGGCAGGGCCGAATCGGCTGGAAGCAGCCGGACGCTGCAAGGTGCCGCAGGTCGTATCGACCGGGGCGCTCGATATGGTCAACTTTGGTCCGTACGATACCGTGCCGGAGGCATTCCGGGGACGAAACCTGTACAAGCATAACCCTTCGGTTACGCTGATGCGGACCACGGTGGAGGAGAACCGGCAGCTTGGCGGGATCCTTGCGGATAAACTGAATTCGTCGAAAGGTCCTACGGTGTTGATGCTGCCGCTGAAAGGCGTATCGATGCTCGATGTGGAAGGCGAAGCATTCCATGGAACGGAAGAGGATAAGATGCTGTTCGACACGTTAAGACAGCGGATAGACCGTGAGTCCGTTGAGCTGATCGAGATGAATACCGATATTAACGATCAAGCTTTTGCAGTGGCCGCGGCCGATAAGCTGATGGAATTGCTGAAGCGGCAATGA	MKTIAIAGTFDTKGAEFLHVKSVIESLGLKTFTIHSGVFEPMFTPDVTNIEVAGAAGADLREIAARKDRSEGTEVLAQGMEQIVPKLYAEGKFDAILSFGGTGGTSIVTAGMRALPIGVPKLMVSTVASGNTAPYVGTSDIIMFPSIVDVSGLNSFSTKIFTNAAHAIAGMVKFESAAPMDKKPLIAATMFGVTTPCIDYAREHLESHGYEVLVFHATGTGGRTMESLIEAGFIDGVLDLTTTEWCDELVGGVLAAGPNRLEAAGRCKVPQVVSTGALDMVNFGPYDTVPEAFRGRNLYKHNPSVTLMRTTVEENRQLGGILADKLNSSKGPTVLMLPLKGVSMLDVEGEAFHGTEEDKMLFDTLRQRIDRESVELIEMNTDINDQAFAVAAADKLMELLKRQ				NA	NA	NA	NA	NA
AK002_05219	1242	rhaR_66		HTH-type transcriptional activator RhaR	ATGACGGTCAGATTGAAGATAAGGGGACCAATAACTTTGATAACGACCAGAGAACAGGTATTGGATCGATTACATAGGGGGATACAGACCCAGGAGCGATTGATCGGGGTAGCGGCAGGGGCAGGAATATCGGCAAAATATGCGGTCAAGGGCGGCGCCGATCTGATACTGGCCTTGAATTCGGGCCGTTTTCGGCAGATGGGGCTGGGCTCCCTGGCGGGCTTCATGCCCTATGCGAACTGCAATGAAATGGTGATGGATTTCGGCTCGCGCGAAATTCTGTCCGTGGTCCGCGACGCACCGGTGATATTCGGTTTATGCGGAACGGATCCAACCGTTCAGCTGCCGGGATACTTGGATGCCATTCGCGGAAGCGGTTTTGCCGGCATCATCAACTATCCGACGGTGGGAATGATTGACGGACAGTTCCGCGAAGCCTTGGAGGAAGAAGGCATCACGTATCTGCAGGAGGTGGAAGCCATCCGGATTGCCCATGAGCGCGATATGTTTACGATGGCCTTCGTATTCAATCCGGAGCAGACGACATGGATGCTGGATGCGGGAGCGGATATCATCTGCGCCCATCTGGGCGTTACGGCAGGCGGGATGATGGGGACCTCGAAATCATGGTCGCTGGAGAAGGGCGCCGAAATAGCCAGAGAAATTTTTGCCGTCTGTGACGACTCGGGCAAGCAGCCGATCAAGCTCGTATATGGCGGTCCGGTCCATACGCCCATCGATGTCCAGTACATGTACGACAACACGTCCGCCATGGGGTACGTGGGCGGCTCGAGCTTTGAGCGAACGCCGACGGAAGAAGCCATCGTGGATGCGACGCATCGTTTTAAGGCTACGGGCCATCTGGAGCAGGACCGGCAGCTGATGGACAAGCTGACGCAGCTTGATGAACCGATGGACTATGTTGCCTTTGTGAAAGAATACGTAGCCGAGCATTATGCAGACCCGATTTCAATGACGGAGCTGGCCGAACGGATCCACGTTTCAAGAACGCATCTTAGCGCGCTTTTTAACAGGGAAGTGGGGTGCAGCTTTCCCGAATATACAGCCAAATACCGTATTCACAAGGCGCAGGATATCATGAAGCACAGCAAGCTGTCCCTGGGCAGAATAGCGGAGCTGGTCGGTTACCCGGACTATGTTCATTTCAGCAAGACCTTCAAAAAATACGCGGGGATGTCTCCCCAGGCCTATCGCCAGCATATGAAAGACAAATATACATAA	MTVRLKIRGPITLITTREQVLDRLHRGIQTQERLIGVAAGAGISAKYAVKGGADLILALNSGRFRQMGLGSLAGFMPYANCNEMVMDFGSREILSVVRDAPVIFGLCGTDPTVQLPGYLDAIRGSGFAGIINYPTVGMIDGQFREALEEEGITYLQEVEAIRIAHERDMFTMAFVFNPEQTTWMLDAGADIICAHLGVTAGGMMGTSKSWSLEKGAEIAREIFAVCDDSGKQPIKLVYGGPVHTPIDVQYMYDNTSAMGYVGGSSFERTPTEEAIVDATHRFKATGHLEQDRQLMDKLTQLDEPMDYVAFVKEYVAEHYADPISMTELAERIHVSRTHLSALFNREVGCSFPEYTAKYRIHKAQDIMKHSKLSLGRIAELVGYPDYVHFSKTFKKYAGMSPQAYRQHMKDKYT				NA	NA	NA	NA	NA
AK002_05220	636			hypothetical protein	ATGTCAAAAATTCCGTTTCAATCGGTCGTTTCATCGGAGGAGGAGCTCCGAAACTTGTTCGGCGATTCCAATCGCGTGGTCAAACACAAAACGATTCATCGATTGGACCATCACTGCAAAGACTTTATTTCGAAGAGTCCCTTGTTGTTTATGGCTACTTCCGACGCATCCGGAGCCTGCGACGTTTCGCCTCGGGGAGATGCGGCGGGATTCGTGCATGTGATCGAGGAATCCTGCTTGGTCATTCCGGAGCGTCCGGGCAATCGACGGTTTGATTCACTGCGGAATATCCTGTCCAACCCTAAAGTCGGGATCGTGTTTGTCATACCGGGTTTGAAGGAGACCTTGCGAATCAACGGCAGCGCCGTCTTGGTAAGGGACGAGGAAATCCTGGATCGGCTTAGCGTACAAGGCAAACGCCCATGGCTTGGCATTGCGGTCTCGGTCGAGGAATGCTATATGCACTGTGCAAAAGCTTTCATGCGTTCGCAAGCATGGGATCCCGATTCCTGGATTCCCAGCGAACAGCTGCCGAACCCGTCCAAGATCATCGCGGATCATGTGAATCAAGATCACGTGACGGAGGAGATCGTTGCCCGGGGAATGCAGGACAGTTACACGAATCGGCTCTATTGA	MSKIPFQSVVSSEEELRNLFGDSNRVVKHKTIHRLDHHCKDFISKSPLLFMATSDASGACDVSPRGDAAGFVHVIEESCLVIPERPGNRRFDSLRNILSNPKVGIVFVIPGLKETLRINGSAVLVRDEEILDRLSVQGKRPWLGIAVSVEECYMHCAKAFMRSQAWDPDSWIPSEQLPNPSKIIADHVNQDHVTEEIVARGMQDSYTNRLY				NA	NA	NA	NA	NA
AK002_05221	813	uppP_3	COG1968	Undecaprenyl-diphosphatase	ATGGAAGATTTCATCTTGTGGTTGAAGTACCTGCTGCTGGGGATTGTGCAGGGGGTTACGGAGCCGATTCCGGTATCCTCCAGCGGTCATTTGATTGTCGCCCAAAGGCTGATGGGCATGGAGCAGAACGGGCTGTCGTTCGAAATACTGACCAATACAGCCTCATTGATTGCGATCGTGTTCATCTTTCGCAAGGATTTGCAGAGATTGATTGTGAATGGCCTAAGTTATGTTCGGACACGACGACCGGAGTTTAAATCCGACTTCATGTTCATTCTGTATATTATTGTGGGTACGATTCCGGCTGTCATCATCGGACTGTTGTTCAAAGACCAGATTGAGGAAATATTCGCTTCGGTTCGCACGGTAGGCGTCGCGCTGCTATTTACGGGAGTCGCCCTTTGGCTGATTCGGAACCTTCGCGGCCGCAAGCTGGATAATGATTTGTCGTTCAAGGACGCGCTTATCGTAGGCTTGGCTCAGGCGGTGGCGCTGATTCCGGGGATCAGCCGATCCGGCTCGACCGTCATTACGTCGATCGCCGTTGGGATGAAACAGGAGACGGCCCTGCGGTTTTCCTTTATGCTGTACATTCCAATAAGCCTTGGCGGCATGGTTCTGGGCGTGTCGGATATCGCATCGGATCCCGATTTTTCACCGCTGTTCATTCCCTATTTGATCGCATTTATCGCGACGCTCATCTGCACCTATTTTGCGATGAAATGGTTCATGAATATCATGGCGCGCGGGAATCTGAAATATTTCGCTTATTATTGCTTTGTTGTCGGCATTTTGCTGCTTGTCTTCTTATAA	MEDFILWLKYLLLGIVQGVTEPIPVSSSGHLIVAQRLMGMEQNGLSFEILTNTASLIAIVFIFRKDLQRLIVNGLSYVRTRRPEFKSDFMFILYIIVGTIPAVIIGLLFKDQIEEIFASVRTVGVALLFTGVALWLIRNLRGRKLDNDLSFKDALIVGLAQAVALIPGISRSGSTVITSIAVGMKQETALRFSFMLYIPISLGGMVLGVSDIASDPDFSPLFIPYLIAFIATLICTYFAMKWFMNIMARGNLKYFAYYCFVVGILLLVFL	PGPT0024165_3297	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK002_05222	993			hypothetical protein	ATGGAAACCCAACCCTATACGGGCGAGAACTTCTCCTTTTCATATCCTTCTACATGGAAGGATGCACAGCTTAACATGCCTCAAATCGTTGCTGCATTTGTCGACTCGAATCCCAAGGGCAATTTTGCCGATAATCTAAATTTGATTGTCGAGGAATCATCAGCAACTCCCGAGGAAGCAGCTAACTCCTCAGTCCATGCTTTATCCAATGGAGCTGGCGGAGAGGTGATACAAAACTTTCAAAAATTGAATTACATCGACGTTCCCGAGAAAGCAGCCGGGATCCTGGAGAGCGAATACACCCAAGGAGAGTTAAACGCGCAAGTGGTATTGACTCAATATTTTGTTTCGAACGGCAATGAGCTCTACACTCTTTCGATTTCCTATTCCAAAACAGCTTACGATAACGGGGGTAAAGCGGTTGTCCAAAATATAATGAATTCATTCGAAATCGTTAAAATTAGCGAAGAGCCTGCACTCTCGGATACTAATGATGGCAGTAGTGCCGAGGAATTGACAGAACAAAACCTATTCGCTGAAATCATGGCTTATATTATCCCAATAGAGATTGAAGACGGCGCACTTGACGAGCTAACCTACAACTACTTTGTCGAGCACTATGAGTTATTTCCAGCGCTTACGCCTGAAGCTCAAAAGAGAGCGAAGGCTGAAGTCGATCCCAACATCACGTCACGTCACCTCAACAAAAATCTGAGCCCCTATTTGGACCAGATGTTCGAGGTCAGTGGATACGTAGTTGATATCATCGAAGAGGAACTCGACGAGGGAGTTACCGTTACCGAAATTCACATCGTCGATGATAACGACAACTCCATTATCGGTTTTTATGCCCACTCTACCGGCGATATTTTACAAGACGATAATGTAACGATGAGGGGCGTTCCGGCAACCTATTATTCATTCGAAAATATTAGCGGCGGAACTACCAATTCCATTCTTATAGGAGTTTCGACCATCGAAAAAACCCCATAG	METQPYTGENFSFSYPSTWKDAQLNMPQIVAAFVDSNPKGNFADNLNLIVEESSATPEEAANSSVHALSNGAGGEVIQNFQKLNYIDVPEKAAGILESEYTQGELNAQVVLTQYFVSNGNELYTLSISYSKTAYDNGGKAVVQNIMNSFEIVKISEEPALSDTNDGSSAEELTEQNLFAEIMAYIIPIEIEDGALDELTYNYFVEHYELFPALTPEAQKRAKAEVDPNITSRHLNKNLSPYLDQMFEVSGYVVDIIEEELDEGVTVTEIHIVDDNDNSIIGFYAHSTGDILQDDNVTMRGVPATYYSFENISGGTTNSILIGVSTIEKTP				NA	NA	NA	NA	NA
AK002_05223	165			hypothetical protein	ATGCTAAAAACATTGAAGGTCGAGCTCTTTAGCGATTCCAATCTGGACGATTTGCAGGATCAGGTGAATGAATTCCTGTATAACATTCATCCTGACGATGTGAAGGATATTAAGCTTTCATCGGCAGACGGAACGTATGATATTTTGGTCATATATAAAGAATAA	MLKTLKVELFSDSNLDDLQDQVNEFLYNIHPDDVKDIKLSSADGTYDILVIYKE				NA	NA	NA	NA	NA
AK002_05224	375			hypothetical protein	ATGCATGTCATTCACCGCGAGCCCGTGAGCGGGGGCACTCTTTTATTTATGAAACGACCTTACCAAGCGGGAAGCCATAATTTGCAAGTAGAATATGTACGAAAAACTCGGATCGGTTGGAAATGGGCTTGGGGCGGCGGATATGGAATCGGCGAATCTTCACAATCCATAGCAGCGTTAAATTACATGGGCATGCCTGAATTAGACCATCTCTCTACCCCTTTTCCCATGGTGTTCGGGGATATTCTGGACCCCTCGATAAAAAAAGTAAGCGTCAAAATCAAGGGCAAAGGTAGTTATAACGCTAAGCTGACTGCTGCGGAAGCTGGAAGAATGATCTGGTTCGTATTTCTGCCGTCGCCCGCAAAACAATAA	MHVIHREPVSGGTLLFMKRPYQAGSHNLQVEYVRKTRIGWKWAWGGGYGIGESSQSIAALNYMGMPELDHLSTPFPMVFGDILDPSIKKVSVKIKGKGSYNAKLTAAEAGRMIWFVFLPSPAKQ				NA	NA	NA	NA	NA
AK002_05225	237			hypothetical protein	ATGAAGAAAATCTGCATGTCTTTTCTCGCGGCTATGAGCATTGCTTGCACGTTAGTTGTCCCTGTTTCCGCCGAAAGCAACAGGAATGCAAATGACATGAACACAAACAACGTTAACGCTAGAAGTTATAACACCAACGCAGCCACCAATGATAACGATACAGACTGGGGTTGGCTTGGGTTAATCGGTCTTGCCGGCCTTGTTGGGTTAAGACGCCGTACCCCGGAGCGCCATTAA	MKKICMSFLAAMSIACTLVVPVSAESNRNANDMNTNNVNARSYNTNAATNDNDTDWGWLGLIGLAGLVGLRRRTPERH				NA	NA	NA	NA	NA
AK002_05226	450			hypothetical protein	ATGCTATGGATGTTATTTGGCGTGGTTATCATTCTAAATTGCCGTTATAACTACATGAATCCGGATTCGGATTGGATACGATGGAATAAACGGTTACCGGAAGACTACGAGCAGGACGATCATGATTTGTTAAAAAACCAGGTTGGTGCGGCAATAGGTGGATTTATTGGCGGCGTATTGGTCTTAATCGGGTTAGCGACGCTTGTTCAACCTGGCGGTACCCCTATGTCGTGGGGGGCCCTTTTCGGGTTTGCTGTGATCCTCCTAGGTATAGGGCTCCTTGCCAGAAGGTATCCGACATTCGGCTGGAGCAGGGATGAAGGCTGGAAAGTCAAAGGGGATTCGGAACGAAGCGATACTTACATGGATTTAGTAAAATTCGGCGGATTGGTTTCCATTTGCCTCGGATCCGCTTTTTTTGTACTTGGCCTGATCATTTTATTGGTTTGA	MLWMLFGVVIILNCRYNYMNPDSDWIRWNKRLPEDYEQDDHDLLKNQVGAAIGGFIGGVLVLIGLATLVQPGGTPMSWGALFGFAVILLGIGLLARRYPTFGWSRDEGWKVKGDSERSDTYMDLVKFGGLVSICLGSAFFVLGLIILLV				NA	NA	NA	NA	NA
AK002_05227	99			hypothetical protein	ATGAGTGGATATGAAGGTTCTGGGTATGGCGGTAGTGTTGGTGTTATTCTCGTTCTCTTTATTCTGCTTGTCATTATACTCCGTACTTGGGGATTCTAA	MSGYEGSGYGGSVGVILVLFILLVIILRTWGF	PGPT0024985_358	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK002_05228	390			hypothetical protein	ATGGAAATAAAAATCACGGGCTTTGTTGTTCATTCCGATAACTCTGATTCCAGTCATTCACATCAACTCTTTCTAACATCTTGGGATGGAAGACCGGTTAACGTTCATGTCCATCCCTTTCAAGGAGATACCTCTTTTGACGTTGGGCATTTCCATCATTACGTGGGTATAACTGAACCAGCTCCAAGCGGCGTGCCACACGTCCATAATTACCATGCCCAAACATCATTTAATGACCAGCACAAGCACATGATTAGAGGAACAACTGGACCCGCCATTCCATTGGCAGGCGGCGGGCACTATCATTATTTTGAAGGTTATACCACCGTAGATGGCAGGATCCCACATGCTCATCGTTATAGCGGAAACACAGGTGATGAACAAGGGTAA	MEIKITGFVVHSDNSDSSHSHQLFLTSWDGRPVNVHVHPFQGDTSFDVGHFHHYVGITEPAPSGVPHVHNYHAQTSFNDQHKHMIRGTTGPAIPLAGGGHYHYFEGYTTVDGRIPHAHRYSGNTGDEQG				NA	NA	NA	NA	NA
AK002_05229	819			hypothetical protein	TTGTCGGATCCTTTTGTAGTCAGATCATTAGACGAAATACGTTTTTGGTCACGCATTATGAAAGAACATTCCTTTTTTCTTCGATTAGGATTTAGATGTGAAGATACGCAGTTAATCAATGAGGCTAATCAATTTCATGCCATCTTTGAGGATATTGAAAGAAGATCACATGCATATCAAGCAGATACCGATCCACAAACGATTCGACAGTTTAATTCAGAAGTTCACAATGCCGCTGCACACATTTGGGCATTTAAGAGGAAGGTTCTTGGACTTATACTTAGGTGCCAACTCCCTGGGGGAACAAATTTCCCTTTGCTTGTAGATCATGTTAGCCGAGAAGCGAATTACTTTAGAAATCGGTTAGAGGAACTCAATAACGGGAGACTTGAACCATTACCTGATGCAATTATCGATGAAAATGTCTTTTTCCTAAAAATCATGGCTGACCATGCAAAATTTATAGGTCATCTGCTTGATCCATCGGAGCGAAAATTAGTGGAACAAGCAAGGGAGTTTAGCCAAGATTTTGATACGTTGATGTTTCAAGCCATTGACCTAAGTTCCATGCGTCCACAATCGCAAACCCATCCATTACTAAGTCAATTTGTTGATGAAAACCGCGTTTCAGTCAAATCATTGCGCGATTTTAAGAAAACTGCGCGCGACTTAATTGAAGAGTGCCGAATCAAAAGTATCATTCATCCTTTATTAGCAGATCATGTTTTTCGTGAAGCTGAACGATTCTTATTTATCCTAGACATGTTCGATCGGTCATTATCTGGCATGAAGGTAAACAAGAAAGAAATCATGCATTAA	MSDPFVVRSLDEIRFWSRIMKEHSFFLRLGFRCEDTQLINEANQFHAIFEDIERRSHAYQADTDPQTIRQFNSEVHNAAAHIWAFKRKVLGLILRCQLPGGTNFPLLVDHVSREANYFRNRLEELNNGRLEPLPDAIIDENVFFLKIMADHAKFIGHLLDPSERKLVEQAREFSQDFDTLMFQAIDLSSMRPQSQTHPLLSQFVDENRVSVKSLRDFKKTARDLIEECRIKSIIHPLLADHVFREAERFLFILDMFDRSLSGMKVNKKEIMH				NA	NA	NA	NA	NA
AK002_05230	900	cynR_3		HTH-type transcriptional regulator CynR	ATGGAAATCCGGCAATTAGAATATTTCATGGCTGTTTGCCAAGAGCTGCATTTTACAAGAGCATCCGAGAAATTGGGGGTCACGCAGCCTACCCTAAGCCACCAGATAAAAGCAATTGAGGACGAATTGGGAATGCCTTTATTCGATCGGATAGGCAAAAAAATAGCAATTACTGATGCCGGATTCATTTTGCTAAAACATTGCCACACTGTTTTTCACAGCTTCAAGAGTGTACGTGAAGAAATTCAAGAATTGCAAGATATCAAACGGGGACGCCTTTCGATTGGGGTTTTACCGGGTGAATTAAATTCGCTTGTTTGCCGGCTGCTGCCGGAATTTCATGAGGCCTATTCAAAAGTTCAGGTTAGGGTCATCAGCGCGGACAATGTTGCGGAACGCTTGCTCAATAACGAGATCGACCTGGCTCTTACTATTATTCCTGTTCATGATGAACGTATCGTTTCCCAACTGCTGTACAATGAAAAGCTTTATTTAGTAGTCAATGCCGACCATCCCTTAGCAGAAGGGCCCGAAGTAAGCTTAGAAGTTCTTATGGACCTCCCTCTTGTTTTGTTTCCTAAAAATTATCGGTGTCGACATCAATTGGATTCTATCTGCAACTTGAAGGAAATTGAATTGCGACCAGTCATCGAAATTGATTCCATTGAATCAATGATCACCCTGATAGAAGCAGGGGCAGGCTGTTCCATCCTTTCCGAAACCTTGATGAAGCAGTGGGACAAACCTGGGATAAGAATAGTGAATATAGCAGAAAACCCATTTTTACGGCAAGTTGGACTAATTTATCACAAGGATAAGTACAGGGGGCAAGTTGTCCTAAAATTCACCGAACTTCTTCATAAACAAATAAGCCAATTAGGAATATCCTATACGTTTTAA	MEIRQLEYFMAVCQELHFTRASEKLGVTQPTLSHQIKAIEDELGMPLFDRIGKKIAITDAGFILLKHCHTVFHSFKSVREEIQELQDIKRGRLSIGVLPGELNSLVCRLLPEFHEAYSKVQVRVISADNVAERLLNNEIDLALTIIPVHDERIVSQLLYNEKLYLVVNADHPLAEGPEVSLEVLMDLPLVLFPKNYRCRHQLDSICNLKEIELRPVIEIDSIESMITLIEAGAGCSILSETLMKQWDKPGIRIVNIAENPFLRQVGLIYHKDKYRGQVVLKFTELLHKQISQLGISYTF				NA	NA	NA	NA	NA
AK002_05231	639			hypothetical protein	ATGTCACATGTAGTTGCAGAAATCCAAATACCGGACAGTACGTTGACCAAAGCAGCCGCAGAGTTGCTTCGTGAGCACGGAAACGATTTACTGTGGAATCATTCCCACCGGGTATATCTATTTGGTGCACTTATGGGGAAACGAAACAATGTAAAATATGATGTAGAACTGCTGTATATCAGCGCATTGTTCCACGACTTAGGACTCACCAAGCACTACAGCAGTCCGGATAAACGTTTTGAGGTGGACGGAGCTAACGCCGCACGTGATTTTTTACGAAGTTATGGAGTGCCAGAAGAATCTGCTCGGCTCGTATGGGATGCGGTCGCCTTGCATACAACTATTGGAATAGCCCAGTATAAAGAACCGGAAGTTGCCTTGATTAACTCTGGCGTTAGCTATGACGTTGTTGGGGAAAATTTTGATGCATTTACCGAAGATGTGCGAAACCAAGTAACGATGGCATATCCGCGTAATGGATTTAAGAACAAGATTTTACCCGCATTTCTTGAGGGTTTTGCTCACAAACCGGAAACGACCTACGGCAATATCAAGGCAGATGTATGCGCTCGGTTACTCCCGGGCTTCAAACGCAAAGATTTTTGCGATAGTGTACTTCATTCGCCATGGCACGAATAA	MSHVVAEIQIPDSTLTKAAAELLREHGNDLLWNHSHRVYLFGALMGKRNNVKYDVELLYISALFHDLGLTKHYSSPDKRFEVDGANAARDFLRSYGVPEESARLVWDAVALHTTIGIAQYKEPEVALINSGVSYDVVGENFDAFTEDVRNQVTMAYPRNGFKNKILPAFLEGFAHKPETTYGNIKADVCARLLPGFKRKDFCDSVLHSPWHE				NA	NA	NA	NA	NA
AK002_05232	441			hypothetical protein	ATGAAAAAGTTATTCATGAAATTTGGAACAGTGGTCTTATCTTTATTACTGGTTTGGTTGGTCCTTAATTATTTTCCGGAGTTAGATGACAGTGATGTAAACCCACCAATACGGGGTACCGTTGTCGAATTAGAGTTTCCAGCGGATAAATATCCTGAGACGGCGGATCACATAAAAAAGGCCATTGAATCCGGCCATTCCGATGTTTGTACCATTGATCGAACTGGTGCAGAGGATAACAGGAGTTCTTCACTAAAGGGAATCCCTACGAAAAAAGGATATGATCGGGATGAGTGGCCGATGGCCATGTGTGCCGAAGGAGGAGACGGTGCAAGTGTCGAATACATAGATCCATCTGACAATCGAGGAGCAGGCAGCTGGGTAGGTAACTATTTGGAGGGATACCCGGACGGTACCCAGGTACATTTCATTTTTAGATAG	MKKLFMKFGTVVLSLLLVWLVLNYFPELDDSDVNPPIRGTVVELEFPADKYPETADHIKKAIESGHSDVCTIDRTGAEDNRSSSLKGIPTKKGYDRDEWPMAMCAEGGDGASVEYIDPSDNRGAGSWVGNYLEGYPDGTQVHFIFR				NA	NA	NA	NA	NA
AK002_05233	1629	groL	COG0459	60 kDa chaperonin	ATGGCAAAAGACATTAAGTTCAGTGAAGACGCCCGTCGCTCCATGCTTCGCGGTGTAGATGCTTTGGCAAATGCAGTTAAAGTAACACTCGGACCGAAAGGCCGTAACGTGGTTCTTGAGAAAAAATTCGGAAGCCCGCTCATCACGAATGACGGCGTAACCATCGCTAAAGAAATCGAGCTGGAAGATGCATTCGAGAACATGGGTGCTCAGCTAGTTAAAGAAGTAGCTACCAAAACCAACGATGTTGCCGGTGACGGTACAACAACGGCAACGGTTCTGGCACAAGCCATGATCCGTGAAGGTCTGAAGAACGTTACAGCTGGCGCAAACCCAATGATCATCCGCAAGGGTATCGACAAAGCGGTTAAAGCAGCCGTAACCGAGCTTGCGAATATCGCGAAAGAAGTGAAAAACCATCAGGAGATCGCTCAAGTCGCTTCCGTATCCGCAGCTGACGAAGAAGTAGGTCAACTGATTGCCGAAGCTATGGACAAAGTGGGTAAAGACGGCGTTATCACCGTTGAAGAATCCCGCGGCTTCTTGACGGAGCTTGAAGTAGTAGAAGGTATGCAATTCGACCGCGGCTACATCTCTCCATACATGATCACCGATACGGATAAAATGGAAGCTGTTCTTGAGAATCCATACATCCTGATTACCGATAAAAAAGTAACCAACACGCAAGAAATCCTGCCGATCCTTGAAAAAATCGTACAGCAAGGCAAACCGCTCGTACTGATCGCAGAAGACATCGAAGGCGAAGCGCAAGCGATGCTGATCGTGAACAAACTGCGCGGAACGTTCAACGCTGTTGCTGTTAAAGCTCCTGGCTTCGGCGACCGTCGCAAAGCCATGCTGCAAGATATCGCTGCATTGACTGGCGGCCAAGTGATTACGGAAGAGCTCGGCCTCGACCTGAAAACAGCTTCCATCGATCAATTGGGTACCGCTCGTCAAGTGCGCGTAACCAAAGAGAACACAATCATCGTGGATGGCGCTGGCAACAAAGAAGATATCGATGCTCGCGTGAAGCAAATCCGCAACCAATTGGAAGAAACGACTTCCGATTTCGACAAAGAGAAACTGCAAGAGCGTCTGGCTAAATTGGCTGGCGGCGTAGCGGTTATCAAAGTCGGTGCGGCTACTGAGACGGAATTGAAAGAACGCAAACTGCGCATCGAAGATGCCCTGAACGCAACTCGCGCTGCGGTTGAAGAAGGTATGGTATCCGGTGGTGGTACAGCGCTCGTTAACGTATACAACGCTGTTGCTGCTGTTCAAGTTGAAGGCGACGAGAAAACAGGCGTGAACATCGTTCTGCGCGCTCTGGAAGAGCCAATCCGCACGATTGCAGCTAACGCTGGCCAAGAAGGTTCCGTCATCGTAGAGCGTCTGAAAAAAGAAGAGATCGGCATCGGCTACAACGCCGCTACCGATACTTGGGTGAACATGTTCGAAGCAGGTATCGTTGACCCTGCCAAAGTAACGCGTTCCGCTCTTCAAAACGCTGCATCCGTTGCGGCCATGTTCCTGACAACCGAAGCGGTTATCGCTGACAAGCCAGAACCAGAAAAACCAGCTATGCCTGATATGGGCGGCATGGGCGGTATGGGCGGCATGATGTAA	MAKDIKFSEDARRSMLRGVDALANAVKVTLGPKGRNVVLEKKFGSPLITNDGVTIAKEIELEDAFENMGAQLVKEVATKTNDVAGDGTTTATVLAQAMIREGLKNVTAGANPMIIRKGIDKAVKAAVTELANIAKEVKNHQEIAQVASVSAADEEVGQLIAEAMDKVGKDGVITVEESRGFLTELEVVEGMQFDRGYISPYMITDTDKMEAVLENPYILITDKKVTNTQEILPILEKIVQQGKPLVLIAEDIEGEAQAMLIVNKLRGTFNAVAVKAPGFGDRRKAMLQDIAALTGGQVITEELGLDLKTASIDQLGTARQVRVTKENTIIVDGAGNKEDIDARVKQIRNQLEETTSDFDKEKLQERLAKLAGGVAVIKVGAATETELKERKLRIEDALNATRAAVEEGMVSGGGTALVNVYNAVAAVQVEGDEKTGVNIVLRALEEPIRTIAANAGQEGSVIVERLKKEEIGIGYNAATDTWVNMFEAGIVDPAKVTRSALQNAASVAAMFLTTEAVIADKPEPEKPAMPDMGGMGGMGGMM	PGPT0014570_5373	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
AK002_05234	282	groS	COG0234	10 kDa chaperonin	ATGATCAGACCTTTAGGTGAACGCGTATTGGTAGAACCGATCGAACAAGAAGAAACTACGGCATTCGGGATTGTACTTCCTGACTCTGCTAAAGAAAAGCCGCAAGAAGGTAAAGTTATTGCTGTAGGCAGCGGCTCCCTGAAAGACGGCGCACGTGTACCTTTGGAAGTTAAAGAAGGCGACCGCGTTATTTTCTCCAAATACGCTGGAACAGAAATCAAATACGAAGGTAAAGAATATTTGATTATGAAAGAAAGCGACATCCACGCGATCTTAGGCTAA	MIRPLGERVLVEPIEQEETTAFGIVLPDSAKEKPQEGKVIAVGSGSLKDGARVPLEVKEGDRVIFSKYAGTEIKYEGKEYLIMKESDIHAILG	PGPT0014565_5080	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
AK002_05235	819			hypothetical protein	ATGAATATAACGCAGGAAATGAAATCGACGATTCAACAAGAACTTAAGCGGATAGAGCGGGAGGAAGGGGTCCTAATCCTGTATGCTTGCGAATCAGGGAGCAGGGCCTGGGGCTTCCCATCGACGGACAGCGATTACGACGTAAGGTTTATCTATATCAGACCCGTGGAGTGGTATTTATCGATCTTCGACAAGCGAGATGTGATTGAGCGGCCAATCAACGACAGTCTGGATATGAGCGGTTGGGATTTAAAAAAAGCATTGGGGCTTTTTCGCAAGTCGAATCCACCCCTGCTTGAATGGCTGGAGTCCCCCATCAAATATAAGGAGACGCTTGGCATCGCCCAGCAAATCCGAAGCATATCTCCGCTTGCCTTCTCGCCTAAATCTTGCATGCACCACTACCTGAACATGGCCAAAGGCAACTACCGGATGTATTTGCAAGGGGGAGACGTTAAGATCAAAAAATATTTCTATGTACTGCGTCCGATCCTGGCATGCGACTGGATTCAAACCTACAACGAGATGCCTCCCATGGAATTCGAGCTGCTTACGGATCGCTTATTAGATCAAGGAAGTGCGCTGAAACAGGAGATTGATCAATTGCTTCTTCGCAAACGTTCGGGTGAAGAGATGAATATTGAACCGAAGCTTCCTATCATTAACGCATTCATTGAAGAGAAATTGAACGAATATGAGCAGCTGGCCAAGGATAAGAAGCATCAAGATACGGATCTGGATCAAAGCCTGGATGCTTTGTTTCGGAACGCGCTGGTTGAAGCCTGGGGAGCCGGCGGACCACAGCTATTCACGGTTTGA	MNITQEMKSTIQQELKRIEREEGVLILYACESGSRAWGFPSTDSDYDVRFIYIRPVEWYLSIFDKRDVIERPINDSLDMSGWDLKKALGLFRKSNPPLLEWLESPIKYKETLGIAQQIRSISPLAFSPKSCMHHYLNMAKGNYRMYLQGGDVKIKKYFYVLRPILACDWIQTYNEMPPMEFELLTDRLLDQGSALKQEIDQLLLRKRSGEEMNIEPKLPIINAFIEEKLNEYEQLAKDKKHQDTDLDQSLDALFRNALVEAWGAGGPQLFTV				NA	NA	NA	NA	NA
AK002_05236	1332			hypothetical protein	ATGGCTCGGGAAAGCTTCGATAAAGAAATCCAATTTCTTCGTATTCTGGCGCTGGCCGGCGGCGCATACAACCGGCAACAACTGGCTGATCGCCTTGGCATTTCAGTACATACCTATGACAAAACGCTCCGAAATTTAAAAAATATGATTGAATCGCTTCAGCCGCAGCTCTCGGAAGAACAAAGTCTCACCCTATCCGAAGGCCTGCGCTATTCATACTATGAAACCGCTGATCCGCTCCTGCTGCTGCTGTTCCGCGGCAAATCGCTCAAAGCATCGGAAAGCTTGAGGCTATCCATGATCCTCACCCAGCTGCAGCATCAGCAGTTAACCGCGAAGGAACTCATCGAACGCTGCGGCGATCAATTCCCGGGCGGAGAATCCCTGCCCGATGAGAAGACGATACGCGGGGATCTCAAATACCTGGAAGAAGTCGGAGTCATCGTAAAGACAGGTGCAGAACGGCCGTACCGTTACAGAGGCGCCCGTGATCTCATCGATTCGTTGTCGGATGACGAGCTACTTGATCTCTACGATTATGTGGACGTCATGTCGAACACGCAGCTCCCCTCTGTTCAGGGGTATATGCTTCGAGACAATTTAAAAAGGGCCTTGCGCAATCGTGACATCGCCGCACACTCGGCCCCGGCCTATTTTTATAAGTATCATTACCATTCACGCATATTGGATGAGGCGCATCTGCACACCATTTTTCAGGCGATCACCAAAAGAGCGAGACTCCGTTTCCTGTATTTATCGCCAAAAAGCTCTTCACGCTATGCTTCCCGAAACACGAATCCGCTGTTCCATAGGGAATCCAAAGGGCTTCGGGAAACGATGCTGCCGCTGCGCGTGATCTATGACCATCAATACGGCCGATGGTACCTGATCGGTCATAACGGCAGACAGGGGCTCATGAAATTTCGCATGGAAGGATTGACTCAAATCGAAGAAGGCGAAGCAGTTGAAGAAGAGGTATTCCAGCAGCGACTCATGGAAACGCTGGCCGAATTCGAGTACAGCTGGGTTACCGATACCCGGAATCCCACCAAGGTCGTAGCCAGATTCTTTAACCCGGAGGACAGCAAAGTGAATTTCGTGCTGAACCGGGTTAAGGCGCAAGGGCAATGGGGGACCGTAACCATGGAATCCGAGAGCTCTTTCTTATACGAAATTGAAGTGAACGGCACCAGCGAAATTAAGCCTTGGCTCCGCAGCTTCGGCTCCAGCTGCGAGGTGCTCCAGCCACGCTCCCTTCGGCAGGAGTTCATTAAGGAATGGAAGGAGATTGCCGCTTATTATGAGCCAGAATCCATTCGAGAAGATATTTAA	MARESFDKEIQFLRILALAGGAYNRQQLADRLGISVHTYDKTLRNLKNMIESLQPQLSEEQSLTLSEGLRYSYYETADPLLLLLFRGKSLKASESLRLSMILTQLQHQQLTAKELIERCGDQFPGGESLPDEKTIRGDLKYLEEVGVIVKTGAERPYRYRGARDLIDSLSDDELLDLYDYVDVMSNTQLPSVQGYMLRDNLKRALRNRDIAAHSAPAYFYKYHYHSRILDEAHLHTIFQAITKRARLRFLYLSPKSSSRYASRNTNPLFHRESKGLRETMLPLRVIYDHQYGRWYLIGHNGRQGLMKFRMEGLTQIEEGEAVEEEVFQQRLMETLAEFEYSWVTDTRNPTKVVARFFNPEDSKVNFVLNRVKAQGQWGTVTMESESSFLYEIEVNGTSEIKPWLRSFGSSCEVLQPRSLRQEFIKEWKEIAAYYEPESIREDI				NA	NA	NA	NA	NA
AK002_05237	816			hypothetical protein	ATGAGCCAGAATCCATTCGAGAAGATATTTAACTACCAGATCATAACAAGGCTTGAGGAAACTGACTCGATTGCCATTACCGCTCAGGAACGGGGATGGCTGAAAATGATGCTGATGCACCCCGAGGCGGCAAACGCCTTTACGCCCGGTACCTTAGAACGGCTCAAGCAGCTCCTCCACTTGGAGCATAGCGGTGCCGAGATGAAAGGGATCATTCTGGAGAAAGCCAAGGGACAGGAACGAAGCGTATACCATCCGCATCTTCGAACCTTGCGTAGAATGATCATGCAGGATCAGGGCTTTCGCCTAAGCTACCGCACGAAGCTTGGAGAAACGCGCAGCAATCAGTCCGGTTTCCCGTACAAACTGGAGTATTCCATGATCAAACGGGAATGGATGCTGATCTGGTACAGCAAAAGCCGTAGAGGACTCATGTACACGAAACTCGATCATATTTTATATATACAAGGGACTTCGCTCCCCTCCTTCCGGATCGATCGCATAAAGGAACGGCTGCAGCGGCTGATGGAAAACCGGGAAAAGCAAGCGATCATTGAAATCCAACGGCGATACAACGGGGAATTGTCGCGGATCCTTTACGCCTTTTCCTGCTTTGACAAAACGGTGCATTATGAGGAAGCTTCCGATACCTACCGCATTCAGGTCTGCTATTTGGAGGATGAGTGCGAATTTCTGCTCTCGCGCATTCGCTTTCTCGGCCTGAGGGTGAAAGTCGTGGAAGGAAGCACGCTGCAGACCCGGATGCAAGAAACCGCAGCGCTGGCTCTGGCGAGATATGCGCAAGATGAAGGTTAG	MSQNPFEKIFNYQIITRLEETDSIAITAQERGWLKMMLMHPEAANAFTPGTLERLKQLLHLEHSGAEMKGIILEKAKGQERSVYHPHLRTLRRMIMQDQGFRLSYRTKLGETRSNQSGFPYKLEYSMIKREWMLIWYSKSRRGLMYTKLDHILYIQGTSLPSFRIDRIKERLQRLMENREKQAIIEIQRRYNGELSRILYAFSCFDKTVHYEEASDTYRIQVCYLEDECEFLLSRIRFLGLRVKVVEGSTLQTRMQETAALALARYAQDEG				NA	NA	NA	NA	NA
AK002_05238	774	tatC2_2	COG0805	Sec-independent protein translocase protein TatCy	TTGTCGGAGCAAGTGAAAGATATGGCGCTTGTGGAGCATTTGGGCGAGCTTCGCAAACGAATTATAATCGTGCTCGTGGTATTCGTAGCAGGACTGGTCGGGGGGCTTTTCGTTGCGGACCCGATCTATCATTATTTGACGGCGGCCGAAGAAGCCAAGAACTTTGAGCTGCATGCCTTCTCCTTTTGGGATGGCATCGGAATCTACATGAAAATCGCCGCTATTTTTTCGCTCGTCATTTCCGTACCGCTGATCTTCTATCAGCTCTGGGCGTTCGTCAAGCCGGGGCTGCGCAAAGAAGAACAGAAAGCGGCCATACGTTACGTGCCGTATGCATTTATTCTGTTCATCGTCGGAATCACGTTTGGTTATTACATCGTATTTCCGATGACGCTGTCGTTTACCACGGCGATCACGCAGGGCATGGGGCTCCAGGAGACCTACGGCATTACCAATTACTTGAATTTTATGTTCAATCTCGTATTGCCGCTGGCCTTGCTGTTTGAGCTTCCGCTTGTGGTGATGTTCTTAACGAGAATTCGCATTCTGAATCCGCTGCGGCTTCGCAGGATGCGCAAGGTCGCGTATTTCGCGCTGGTCTTTATCGCGGTCGTCATAACGCCGCCGGACTTTATATCGGATTTCCTGGTTACGATTCCGCTGCTGCTTCTGTACGAATTCAGCGTGTTTCTGTCTTCCGTGATCTATCGCAAGCAGTTAGAAGCGGACATGGAACGGGACAGCCGCTACGTAAGGGCGGACGAAGAGGATTGA	MSEQVKDMALVEHLGELRKRIIIVLVVFVAGLVGGLFVADPIYHYLTAAEEAKNFELHAFSFWDGIGIYMKIAAIFSLVISVPLIFYQLWAFVKPGLRKEEQKAAIRYVPYAFILFIVGITFGYYIVFPMTLSFTTAITQGMGLQETYGITNYLNFMFNLVLPLALLFELPLVVMFLTRIRILNPLRLRRMRKVAYFALVFIAVVITPPDFISDFLVTIPLLLLYEFSVFLSSVIYRKQLEADMERDSRYVRADEED	PGPT0029295_2927	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
AK002_05239	234	tatAd_3		Sec-independent protein translocase protein TatAd	ATGAGTACAATTGGAGTGCCGGGCATTATTTTGCTCGTTATTTTGGCGCTGCTCTTGTTCGGACCGAACAAACTTCCTGAACTGGGACGTGCGGTCGGAAGAACATTCCGTGAGTTTAAGGATGGTGCGCGGGAGATTATCGCAGACGATGCACCGAAGAAGAAAGAAGAGGCTCCCCAGCAAGCCGTTGCCGCTGAGCCAGCCAAGATTGAAGACAAACGTCTTCCGGAATAG	MSTIGVPGIILLVILALLLFGPNKLPELGRAVGRTFREFKDGAREIIADDAPKKKEEAPQQAVAAEPAKIEDKRLPE	PGPT0029290_2735	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
AK002_05240	516	mog	COG0521	Molybdopterin adenylyltransferase	ATGAGTGGGAAGGAGAGAGGGCAGATGGTGTGGAAAACGGCGATCCTGACGGCGAGCGATAAAGGCTCGCGGGGGGAACGCGAGGATACGAGCGCTCAAGTGATCCGGGAATTGGTGGAGGAAGAGCTGAGCGGTGAAATCATCGAATACCGGATCGTACCGGACGAGCAGGACGAAATTATCGCGGCATTGATCGAGCTTACGGATTATTATCAAGTGGACCTTGTCCTCACGACAGGCGGTACGGAGCTGGCGGTGCGGGATGTTACGCCGGAGGCGACCAAGCGGGTCATCGAACGCGAAGTGCCCGGCATTGCGGAAGCGATGCGCGCTACCGTCATGCAGAAGAATCGGAGCGCGATGCTGTTTCGAGGCGTATGCGGCGTCCGCGGCCGTACCTTGATTGTCAATCTCCCGGGCTCTCCCAAAGGCGTGCACGAGAATCTGGCGGCGGTCATGGATCAGCTTCCGGAGGCACTGTTGATGGTAACGGGCCAGTATCGCGAGCAGCTTTAA	MSGKERGQMVWKTAILTASDKGSRGEREDTSAQVIRELVEEELSGEIIEYRIVPDEQDEIIAALIELTDYYQVDLVLTTGGTELAVRDVTPEATKRVIEREVPGIAEAMRATVMQKNRSAMLFRGVCGVRGRTLIVNLPGSPKGVHENLAAVMDQLPEALLMVTGQYREQL	PGPT0008425_1233	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008425-mogA-K03831	NA	NA
AK002_05241	477	moaC	COG0315	Cyclic pyranopterin monophosphate synthase	ATGGAACTGAGTCATTTTAATGACCAAGGCAGAGCACGAATGGTGGATGTCAGTGATAAGGATGTGACCGCCCGGACAGCGGTAGCGAAGACAACGGTCCGTATGCATCCGGATACGCTGGCCCGCATCCAGGAGGGGAAAATCGGCAAGGGAGATGTGCTTGCCGTGGCACAGGTTGCGGCCATTATGGCGGCCAAGAACACGTCGAACTGGATTCCGATGTGTCATCCGCTGCCGTTGACCGGCGTGAATGTGGCGTTCAGCGATAACGCCAAAGACGAATTATATATAGAAACGACCGTGAAAACCACAGGCAAAACCGGTGTTGAAATGGAAGCTTTGACAGCTGCTTCAGCCGCTGCGCTGACGGTCTATGACATGTGCAAGGCCCTGCAGAAAGACATGATCATCGGCCCGACCCTGCTGGTAAGCAAAACCGGCGGGAAGAGCGGGGATTACATACAAGAAACGACATAG	MELSHFNDQGRARMVDVSDKDVTARTAVAKTTVRMHPDTLARIQEGKIGKGDVLAVAQVAAIMAAKNTSNWIPMCHPLPLTGVNVAFSDNAKDELYIETTVKTTGKTGVEMEALTAASAAALTVYDMCKALQKDMIIGPTLLVSKTGGKSGDYIQETT	PGPT0008405_2757	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
AK002_05242	648	yqgN	COG0212	putative protein YqgN	GTGAACCCTGAGGAAGATTTGAAGCGGGCATCCGTAAAAGCCGCCCTGCGCAAAACGATGGCATTGCGACGGAACGAGTTATCAGAGGAAGAGCGGACCAAGCGGTCGAAGCAAGCCTGCGCGTTTGCTGCGGAGGTCATGGATCGTCTCCATCTTCAGAGCATGATGATTTATGTTCCCTTTCGTTCCGAGTTGGATTCCCGGCCTCTTATCGAATGGGCATGGAAACAGGGGATCCAGGTTATCGTTCCACGGAGCTTGCCCCAAGACCGTTCGATGGAATTGTATAAGCTTCAGGCATGGGACGAGCTGGTTGTCGGCGCTTACGGCATTTCGGAGCCCGATCCGTTGCGGTCGCAAAAATGGAATCATCCGGGACCGGATATCGTCTGGGTACCCGGGCTTGCGTTTGATAGAATGGGCGGAAGGCTTGGATACGGAGGCGGTTATTATGACCGGCTGTCGGACAGGCTTAACCAGGGAGCACAAGCCGACGCTCGTCGGATCAAGAAGCCTTTGTGGGTGGGGATCGGTTACGAGGTTCAGGTCTTGGAACAAGTTCCTATGGAAGAACATGATAGGGTATTGGACGGTTTGGTTACGGAACAGGGGCATAACGTGAAGACCAGACCTGCAGCGGAGGGATAA	MNPEEDLKRASVKAALRKTMALRRNELSEEERTKRSKQACAFAAEVMDRLHLQSMMIYVPFRSELDSRPLIEWAWKQGIQVIVPRSLPQDRSMELYKLQAWDELVVGAYGISEPDPLRSQKWNHPGPDIVWVPGLAFDRMGGRLGYGGGYYDRLSDRLNQGAQADARRIKKPLWVGIGYEVQVLEQVPMEEHDRVLDGLVTEQGHNVKTRPAAEG	PGPT0008170_1071	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
AK002_05243	1953	yheS	COG0488	putative ABC transporter ATP-binding protein YheS	ATGCTGCTGCAAGCCAATGGCATTACGAAATTATATGGCGTCACGCCCGTCCTGGACGGGATCAATCTGCAAGTCCTTGAACGCGAAAGAATCGGCCTCGTCGGAGTCAATGGAGCCGGGAAATCGACGCTGCTTAAAATTTTGGCCGGCGAGATGTCCTATGATGGAGGACAAATCTTCAAAGCCAAGGAAACCACCGTCGGTTATCTTGCCCAGAACAGCGGGCTTCAGTCCGATTCCTCCATATGGAACGAGATGCTGGATGTCTTTACTCCCCTGCTGGAGATGGAGCGTGAGCTTCGTCAGATGGAAGAGCAAATCGCCGACCCCAAGTCGAGCGAAGATCCGAAGAAATACCAGGAGCTTCTGGATCGTTATGCGGTCCGCTCGGACTGGTTCAAGGATCAAGGCGGATATGAGATCGAAACACGCATCCGCAGCGTGCTGCACGGCATGGGATTCGGCAGCTTTTCGCCCGATACGTCCATTGCCACGTTAAGCGGCGGGCAGAAGACAAGGCTGGCCCTTGCAAAAATACTGCTGCAGGCACCCGACCTGCTGATGCTGGACGAACCGACGAACCATCTGGATATCGCAACCCTCACCTGGCTGGAGGATTATTTGCGCGGTTATTCCGGCTCGCTGCTCGTCGTTTCCCATGACCGGTATTTCCTGGATCGGCTCGTGACCACCATCGTGGAGATCGAACGCCGCCATTCCAAAAAATATACCGGCAACTACAGCCGGTACATTGAGCTGAAAGCAGCCGAATACGAATCCCAGCTGAAGCAATACGAGAAGCAGCAGGACGAGATCTCCCGCATGGAGAACTTCATTCAGCGAAACCTGGTACGGGCCTCTACGACCAAGCGTGCGCAGAGCCGCCGCAAAGCGCTGGATAAAATGGAGCGGCTCGACAAACCGCTGGGCGATCTTAAGAAAGCTCATTTTTCTTTTGAAGCCGAGTATATGTCAGGGAAAGACGTCCTTCATGTACGTGATCTGTCGCTTGCGTTCGAGCAGGACAAACCGCTGTTTCGGCAAGTTTCCTTTGATCTCAGCCGCGGGGAAACCGTAGCTTTGATCGGACCCAACGGGGTGGGCAAATCGACACTTCTGAAATGCTTGATCGGTACCATGAAGCCGACGGCGGGGTCGCTGCAATGGGGTACAAAAGTAAAGATCGGCTATTACGATCAGGAGCAATCGGAGCTGAATCCAAGCAACACCGTCCTGGAAGAGCTGTGGGGCACCTATCCGCAGATGGAGGAAGCCCGCATTCGTACCGTTCTGGGCAATTTCCTCTTCAGCGGCGAAGATGTGCTCAAGAAGGTCAGCTCCTTAAGCGGCGGGGAAAAAGCACGCGTCTCGCTTGCAAAGCTCATGCTTCTGGAAGCCAACATGCTCATCTTGGACGAGCCGACGAACCATCTAGACTTGTTTGCAAAAGAGGTGCTGGAATCGGCACTCATGGATTACGAGGGCACTTTATTGTTCATATCCCATGACCGTTACTTCCTTAATAAGATGGCGGAACGCATCATCGAGCTTCATCCGGACGGTATTCAACATTTCCTGGGTAATTATGACGACTATACGGAGAAAAAACAGGAAATTCTTGATATGAACAATGAGCCTTCCGAGCCGTTTGCCCGCCACACCCTGAAACAGGAAGGGAAAGCCGAGGCTATGCCTGAGAAGCAAGGGGCCGTTTCCTTCGAAGCCGAGAAGCAGGCGAAACGGGAGGAACGAAACCGTCAGCGCAGGCTTGCCAGCCTGGAGGAGCAAATTCATGTCCTGGAATCGGACATTGCCCAATTGGAAACCGAAATGACCTTGCCGGAGATCTATCAGGATTATATGGCGCTCCAAGAACGGCAGCAGTCGTTAGAGGAGAAAAAGAGTCAGCTTGAGCAAATTTTTGCCGAATGGGAGTCATTGCTGGAAGCCTAA	MLLQANGITKLYGVTPVLDGINLQVLERERIGLVGVNGAGKSTLLKILAGEMSYDGGQIFKAKETTVGYLAQNSGLQSDSSIWNEMLDVFTPLLEMERELRQMEEQIADPKSSEDPKKYQELLDRYAVRSDWFKDQGGYEIETRIRSVLHGMGFGSFSPDTSIATLSGGQKTRLALAKILLQAPDLLMLDEPTNHLDIATLTWLEDYLRGYSGSLLVVSHDRYFLDRLVTTIVEIERRHSKKYTGNYSRYIELKAAEYESQLKQYEKQQDEISRMENFIQRNLVRASTTKRAQSRRKALDKMERLDKPLGDLKKAHFSFEAEYMSGKDVLHVRDLSLAFEQDKPLFRQVSFDLSRGETVALIGPNGVGKSTLLKCLIGTMKPTAGSLQWGTKVKIGYYDQEQSELNPSNTVLEELWGTYPQMEEARIRTVLGNFLFSGEDVLKKVSSLSGGEKARVSLAKLMLLEANMLILDEPTNHLDLFAKEVLESALMDYEGTLLFISHDRYFLNKMAERIIELHPDGIQHFLGNYDDYTEKKQEILDMNNEPSEPFARHTLKQEGKAEAMPEKQGAVSFEAEKQAKREERNRQRRLASLEEQIHVLESDIAQLETEMTLPEIYQDYMALQERQQSLEEKKSQLEQIFAEWESLLEA				NA	NA	NA	NA	NA
AK002_05244	1524	leuA_3		2-isopropylmalate synthase	ATGAATGAATCCAAGAAAACGATCCGAATTTTCGATACGACATTGCGGGACGGAGAACAGGCACCAGGGGCAAGTCTCCAGCCTGAGCAGAAGATTGTGCTGGCCGGAAAGCTGGCGGAATTGGGCGTTGACGTGATGGAGCCCGGGTTTCCGGTGTCCAGTCCCGGAGAGTTCGCCGCTGTGCAGGCCATTTCAAGGCAGCTGCAGCAGGTGGAGATTTGCGGGTTCGCGCGAGCGGTAAAAGGGGATATTGATGCGGCCGTCAAGGCAACCCAGGATGCGGCCAGAAGGCGGATTCACCTGTTCATATCCTCTTCCGACATCCATCTTCGCCACCAGCTGCGCATGAGCCGTCCGGAAGTCGTGGCAAGGGCGCGTGAAATGACGGCTTATGCGAGGCAATTCAGCGATGTGGTGGAATTCACGGCAATGGATGCTTCACGAACGGGCATTGACGACCTGATCGAGATGGTGGAGGCCGTTATAGAAGAGGGAGCCACGATCATCAATCTGCCGGATACGGTCGGATATGCGCTTCCGAACGAATACGGCGAGATCTTCCGGCGCGTGCGGGATGGCGCCCGAGGCGGGAAGACGGTCGCCTACAGTGCCCACTGCCATAACGATCTCGGTTTAGCCGTGGCCAACAGCCTGGCCGCGATCGAGAACGGCGCGAGTCAAATTGAGGTCACCGTGAACGGGGTGGGCGAACGTACAGGCAACTGCGCGCTGGAAGAGCTTGTCATGGCTCTATCTACCCGGGGTGACATGCTGCGGGCAGAGACGGGCATTACGGCCGAGAAGCTGTACGAGGTATCCCGCCTCGTCAGCGGTGCGATGCATTTTCCGATCGCCTTCAATAAGCCCGTGGTCGGCCGGAACGCCTTCCAGCATGAATCCGGCATTCACCAGGACGGTCTTCTGAAGGATCGAAGCACCTATGAGATTATGGATCCGGAGAAGCTGGGCATTCCGCGAAGCATGATCGTACTGGGCAAGCACTCCGGCCGCCATGCCCTGAAGGATCGCTTGGCCCGTTACGGTGTCCGGCTCGAGGGAGCCGAGATGGAATCCTTGTACGATACCTTCAAGGAAGCGGCTGACCGTCAAAAGGTGGTCAGCGATGATCAGCTGCTGCAGATGGTCAGCAGCACATTGGGCAAGCCGGCACAGGTGTACGAACTGGCCGAGGCGCAGGTCATTTCCGGCACGGGAAGCAGCAGGGTTGCCGCGGTTACGCTGCGCCAATTGAGCGAACAGACGGAAGCCACCTACTCCAGCGTGGCGGACGGTCCCGTGCAAGCCGTCATATCGGCGATCAGCCAAGGAATCAGCAGCGACATCCGGTTTGGCGATCTGGAGCTCCATTCTTTAAGCAGCGGCGAGGACGCGCATGCCGAAGCGGCGGTAACGGTGGAGAAGGCCGGCAAGATCTTCCGCAGCACGGCCGTGCACCAGGATATCGTCATGGCCGCAGGCTTGGCATACGTTGCGGCATGCAACTCGGCGTTGATGTCGGTTTAG	MNESKKTIRIFDTTLRDGEQAPGASLQPEQKIVLAGKLAELGVDVMEPGFPVSSPGEFAAVQAISRQLQQVEICGFARAVKGDIDAAVKATQDAARRRIHLFISSSDIHLRHQLRMSRPEVVARAREMTAYARQFSDVVEFTAMDASRTGIDDLIEMVEAVIEEGATIINLPDTVGYALPNEYGEIFRRVRDGARGGKTVAYSAHCHNDLGLAVANSLAAIENGASQIEVTVNGVGERTGNCALEELVMALSTRGDMLRAETGITAEKLYEVSRLVSGAMHFPIAFNKPVVGRNAFQHESGIHQDGLLKDRSTYEIMDPEKLGIPRSMIVLGKHSGRHALKDRLARYGVRLEGAEMESLYDTFKEAADRQKVVSDDQLLQMVSSTLGKPAQVYELAEAQVISGTGSSRVAAVTLRQLSEQTEATYSSVADGPVQAVISAISQGISSDIRFGDLELHSLSSGEDAHAEAAVTVEKAGKIFRSTAVHQDIVMAAGLAYVAACNSALMSV				NA	NA	NA	NA	NA
AK002_05246	1044	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGAAGGATGAAAAAATAGACCGGCAGCATAGCTGCATATTGGCGATAGAAACGAGCTGCGATGAAACCTCGGTTGCCGTCGTAAAGGATGGCTGCGAGGTATTGTCCAGCGTCATTGCCAGCCAGATTGAAACGCATAAAGCATTTGGCGGGGTGGTGCCCGAGGTGGCCTCTCGCAAGCATGTGGAGAGCATTACGTTAATTATTGAGCAGGCCGTAGCCGAGGCCGGGATCGAAATGAAGGATTTGTCGGCGATCGCCGTCACGCAGGGTCCCGGTTTGGTCGGAGCGCTTCTCGTGGGCGTCATGGCTGCCAAAAGCCTGGCTTTTGCGCTGGGCAAGCCGCTGATCGGCACGCATCATATTGCGGGTCATATTTACGCAAACCGCTTTGTGGGCGATATCGCCTATCCTTCCATGGCGCTGGTTGTTTCCGGCGGCCATACCGAGCTGGTCTACATGAAAGACGAGGGCAGCTTTGAGTTAATCGGCAGGACGCGGGATGATGCGGTTGGCGAAGCGTACGACAAGGTGGCAAGGGCCCTTGGCTTCCCGTATCCCGGAGGCCCTCATGTCGACCGTATGGCCTTGGAAGCCGAGGAAGTCGTGGATCTTCCCCGCGTATGGCTGGAGCCGGATTCTTATGACTTTAGCTTCAGCGGTTTGAAATCGGCTGTATTAAATGTCGTCAATCAGAGCAAAATGCGTGGAGAGGACGTTCGGACGGAAGCGATAGCCCGGGGCTTTCAGGAATCCGTCGTGGAGGTGCTTGTGGAGAAGGCGGTTCGCGCGGTCAAAGCATACGATGCCAAACAGCTGCTGCTGTGCGGGGGCGTAGCCGCCAATCGCGGACTTCGTCAAGCATTGTCCGATCGGTGCGGGCAGGAAGGAATTCCGCTGACGATCCCGCCATTTCAATATTGCACCGATAACGGAGCGATGATTGCGGCCGCGGCGCATTTGAAATGGAAGCGGGAGAGCTTTACGCCGCTGGATATGAAGGCTGATCCTCAAATGTCGCTGGAATTTTGGGCGGAACATTAA	MKDEKIDRQHSCILAIETSCDETSVAVVKDGCEVLSSVIASQIETHKAFGGVVPEVASRKHVESITLIIEQAVAEAGIEMKDLSAIAVTQGPGLVGALLVGVMAAKSLAFALGKPLIGTHHIAGHIYANRFVGDIAYPSMALVVSGGHTELVYMKDEGSFELIGRTRDDAVGEAYDKVARALGFPYPGGPHVDRMALEAEEVVDLPRVWLEPDSYDFSFSGLKSAVLNVVNQSKMRGEDVRTEAIARGFQESVVEVLVEKAVRAVKAYDAKQLLLCGGVAANRGLRQALSDRCGQEGIPLTIPPFQYCTDNGAMIAAAAHLKWKRESFTPLDMKADPQMSLEFWAEH				NA	NA	NA	NA	NA
AK002_05247	525			hypothetical protein	ATGGACGAGCAGAAGAAGCCGGCGGACGGTGAAGATGGTTTGTCCTTCCGGCTGATGACCCTGGAGGATATACCGGAGGTTCTCAAGGTGGAGCGCGAAGCGTTTACCGTGCCCTGGACCGAGGAAGCTTTTCACAATGAGCTGAAACTGAATCATTTTGCGCGTTATATGATTATGGAATACGAAGGCCGAACCGTAGGGTATGCCGGCATGTGGACGATCGTGGATGAAGCGCATGTCACGAATATTGCCCTGCTGGAGCAGTATCGCGGACGCAAGTGGGGCGATCGGCTGCTGACGGAACTGATGAAGACCGCTGCCTATATGGGGATGGAGAAAATGACGCTCGAGGTTCGGGTGTCCAATCACGTTGCCCAGCGTTTATATATCAAAAAAGGGTTTAAACCAGCCGGTGTCCGGAAGGGGTATTATTCCGATAACCAGGAAGACGCACTCATCATGTGGGCAGATCTGCCCCCTTATCGGGAGGACGATGGCGAGGAAGGAAGTCAAAGGCTATCATGA	MDEQKKPADGEDGLSFRLMTLEDIPEVLKVEREAFTVPWTEEAFHNELKLNHFARYMIMEYEGRTVGYAGMWTIVDEAHVTNIALLEQYRGRKWGDRLLTELMKTAAYMGMEKMTLEVRVSNHVAQRLYIKKGFKPAGVRKGYYSDNQEDALIMWADLPPYREDDGEEGSQRLS				NA	NA	NA	NA	NA
AK002_05248	813	tsaB	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGAAAAATGGGGTAGCACGAATGAACAACAATGACAAAAAGCCGCAGCAGCGGTTTTTGGCGCTGGATACGTCAACGGCTTCGCTGGCGGTATCCGTGATGGAGCAGGACAAGCTGCTGTCGGAGGTTAACACGAATGCGGACCGCAACCACTCGGTGCACCTGCACCCCGTGATGGATCAGGCGCTTGCGGAAGCCGGCATCGGCATGGACCAGGTAGACGGCATTGCCGTAGGATTGGGGCCAGGCTCCTATACGGGCATCCGCATAGCGGTGACCGCAGCCAAAACATTGGCATGGGCTAATCAGCTTCCGGTCGTCGGGGTATCCAGCCTGCATGCTTTGGCATGGGGGGGCTTGAAATCCGGATGGAGCGAGACGGCGGCTGAACAGGGAGTCCACTGGGTCGTTCCGCTGCTGGATGCCAGACGGGGACAGGTGTATACGGCATTATTCGCTGCGGATTCCGAACGCCAAGCGGAAGCGCCGGTACGTATGGAGACGGACGGCATCCGTCTGATGCAGACCTGGGTGGAAGCCATAAAGGAACGAATCAGCAAGCTGCCTGAAGAGGAGCGCCCGGTCTGCATATGGTTTATCGGGGAAGTGGACCTTCATGCGGAGGCCGCCCGAGGTCTGGAGCCGTCGTTTGGAGACGGGCTCCGGATTCATCCGTACTCGCTGGAGGGCCGCTGGATGGGGTATCTGGGAGCAGCCAGATTACTCGCCGGGGAAGCGGATGATGTGCATACCTTGGTGCCCAATTATACACAGCTTTCCGAAGCGGAAGCGAACCTGCTGCGCAAGCGGTGA	MKNGVARMNNNDKKPQQRFLALDTSTASLAVSVMEQDKLLSEVNTNADRNHSVHLHPVMDQALAEAGIGMDQVDGIAVGLGPGSYTGIRIAVTAAKTLAWANQLPVVGVSSLHALAWGGLKSGWSETAAEQGVHWVVPLLDARRGQVYTALFAADSERQAEAPVRMETDGIRLMQTWVEAIKERISKLPEEERPVCIWFIGEVDLHAEAARGLEPSFGDGLRIHPYSLEGRWMGYLGAARLLAGEADDVHTLVPNYTQLSEAEANLLRKR				NA	NA	NA	NA	NA
AK002_05249	471	tsaE	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	ATGACTTCAAGCAGTCTGGAGGAGACGGAGCAGCTTGCTGCTTGGCTGGCCGCGAGGGCGGAGCCGGGGACCGTCATCGGTCTGGACGGGGATCTTGGAGCAGGAAAAACGGCATTCTCCCAACAATTTGCACGGCATCTTGGGGTGAACGGGGTTGTGAATAGTCCGACGTTTACCATTATTAAAGAATATGAGGGGCGTCTGCCGCTCTACCATATGGATGTATACCGTTTGTCGGTCGATGAGGCGGATGAGCTTGGGCTGGACGAATACTTTTATGGTGAAGGGGTTTGTCTCGTGGAATGGAGCAGCCTGATCACCGAGCTTATGCCTGAGCAGTATCTTCATATCCAGCTAGAAACGACGGGCGAAACGAACCGGATCATCACGCTTTCAAGCCAGGGCGGGCCTTATGGCGATTGGTGCCGGGATTTGAATGAAAAATGGGGTAGCACGAATGAACAACAATGA	MTSSSLEETEQLAAWLAARAEPGTVIGLDGDLGAGKTAFSQQFARHLGVNGVVNSPTFTIIKEYEGRLPLYHMDVYRLSVDEADELGLDEYFYGEGVCLVEWSSLITELMPEQYLHIQLETTGETNRIITLSSQGGPYGDWCRDLNEKWGSTNEQQ	PGPT0019050_174	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
AK002_05250	1182			hypothetical protein	ATGAACGGAACAAACCAACCGAATGCAATCTCTTCTTCAGAAACGACCATAACTCCCTTTCGCATTCAAATTCCGGAGGCGGACCTGATGGATCTTAAGGATCGTTTGGGCCGTACCCGCTGGCCTGATGATCTGGAGGATAACCACTGGGATTATGGGATGCCGCTTCCTTACTTGAAGAAGCTGTCCGCCTATTGGAAGGATTCGTACGATTGGCGTAAATATGAAACCATGTTAAATCAATTCCCACAATTTACGACCACGATCGATGGACAAAACATTCACTTCCTGCATGTTCGCTCACCTGAACCCGATGCGCTGCCTCTAATCGTTACCCATGGCTGGCCGGGATCGGTCGTGGAGTTTATGCATATGATTGAACCGCTCGCCAACCCAAGCAAGTACGGCGGAAATCCGTCCGATGCTTTCCATCTCGTTATTCCCTCCCTCCCGGGTTTCGGCTACTCCGGGCACACAAAGGAACGGGGATGGAATATCGAGCGCGTGGCAAAAGCATGGGATGAACTTATGCGTCGACTGGGGTATGAACGTTATGGAGCTCAAGGAGGGGATACAGGGTGTATGGTTTCGGCTGAGCTTGGCCGGATTGCCGCAGGGCGTATCGTTGGCGTTCATTGCAATGGTTTGTCGGTGTTTCCGAGTGGCGATCCGGCTGAAACCGAGAACCTTACCGCTGCAGAGCAGCTGCGCTATGATGAATTAGCCGGAGGCGGCTTTGACGGGTCAGGCTATGCCATCTTGCAAGCGACCAGACCCCAGACACTATCCTACAGCTTAACGGATTCCCCGGTTGGCCAGCTAGCATGGATTGTAGAGAAGTTTAAGGAGTGGACCGATCCAACCGCTGGTCTTCCTGAAGAGGCGGTAGACCTTGATCTTCTTCTTACGAATGTCTCGATCTACTGGCTGACGGCAACAGCAGGCTCATCTGCAAGAATCTACAAAGAAAGCTCCGGCAATTGGGGAGCGCCGGCACCGTATTCCTCGGTACCTACCGGCGTCGCGGTTTTCCCTAAGGACCTCTCGATCCGCAGTATGGTCAAGCGCCAATACAACATCGTGCACTGGTCGGAGTTCGACCGGGGCGGCCATTTCGCCGCATTGGAAGCTCCTGATCTGCTGATGGATGATATCCAATTATTTTTCAGAGGGCTGCGTTAA	MNGTNQPNAISSSETTITPFRIQIPEADLMDLKDRLGRTRWPDDLEDNHWDYGMPLPYLKKLSAYWKDSYDWRKYETMLNQFPQFTTTIDGQNIHFLHVRSPEPDALPLIVTHGWPGSVVEFMHMIEPLANPSKYGGNPSDAFHLVIPSLPGFGYSGHTKERGWNIERVAKAWDELMRRLGYERYGAQGGDTGCMVSAELGRIAAGRIVGVHCNGLSVFPSGDPAETENLTAAEQLRYDELAGGGFDGSGYAILQATRPQTLSYSLTDSPVGQLAWIVEKFKEWTDPTAGLPEEAVDLDLLLTNVSIYWLTATAGSSARIYKESSGNWGAPAPYSSVPTGVAVFPKDLSIRSMVKRQYNIVHWSEFDRGGHFAALEAPDLLMDDIQLFFRGLR				NA	NA	NA	NA	NA
AK002_05251	183	sspH_2		Small, acid-soluble spore protein H	ATGGATATGCAGCGCGCCGTGGAGATTTTTAACTCCAAGGATACCTATAAGGTGAATCTGGAAGGGGAGCCGGTCTGGATCGAGCAGATCGATCCGCAGAACGGGATGGCTACCGTTCAGGTTGGTTCCCGTCCGACCAATACGCTGACGGTGAATGTGGACCGGCTGAAGGAAGGCGAATAG	MDMQRAVEIFNSKDTYKVNLEGEPVWIEQIDPQNGMATVQVGSRPTNTLTVNVDRLKEGE	PGPT0024895_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024895-sspH-K06425	NA	NA
AK002_05252	291			hypothetical protein	ATGATGGAGTCTAGAGAAACCGAAACGTCGGAAGAGATACAGAAGGACAGAGCCTCGGACCACTCCGCATCCGAACCGGTGAACGGCGACATGGTGGATTGGAACAGCCTGACCTCGGAGGAGAGCGAGATCTCTCGGGAATCTACCATGTTCGATATTGACCGGATGATTAACGAAGGCCTTGGCGGAGGCAATGTCACGATGGATAACGGACTGATCGGCCCATCCACCACCGATACGATGGAGGTCGTGGACGAATCGCCAAGAGAACTGGAAGAAGGAGGATCATAA	MMESRETETSEEIQKDRASDHSASEPVNGDMVDWNSLTSEESEISRESTMFDIDRMINEGLGGGNVTMDNGLIGPSTTDTMEVVDESPRELEEGGS				NA	NA	NA	NA	NA
AK002_05253	930	ku	COG1273	Non-homologous end joining protein Ku	ATGCATACGGTTTGGAAGGGCGCGATCAGCTTTGGTCTGGTGCACGTGCCGGTGAAGATGTTCTCGGCTACGGAAGACAAGGATATTTCGATGCGGTACATTCACAAAGAGTGCGGCAGCCCGCTCTCCTATATCCGCAAATGTCCGGTATGTGAAGAGGAGGTTGCCTGGGAGGAGATTACGAAGGGCTATGAGTACGAGAAGGGGAAATTCGTGTTGTTCGAAAAAGAGGAGCTGGAGCAGCTCGCCGAAGCGAACAGCAAAAACATCACCATTCTGGACTTTGTCGATCTGACCGAGATCGATCCGATCTACTTCCAGAAGACCTACTATCTCTCGCCGGATCAAGCAGGTGCCAATGCATATCGGCTGCTGCTGGAAGCGATGAAGCAGTCCGGCAAAATCGGCATCGCCAAAATTGCCATTCGCTCCAAGAGCAGTTTGGCTGCGATTCGCGTGCTGGATGAATGCCTGTCGATCGAGACGATTTTCTACCCGGATGAAATCCGGCCGATTTCGCAGGTCCCGAATTTGCCGGAGCGAACCGAGGTCAACGTCAAGGAGCTGGATATGGCCAAACTGCTGATTGACCAGTTGTCGACTCCCTTTGACCCTGAAAAATATACGGATGATTATCGCGAGCGCCTGCTGGATCTGATCAACAGCAAAGTGTCCGGCGAAGAGATCAAGATTGCCCCTGCCCGTCAGGAGACCAACGTCGTGGATCTGATGGCGGCCCTTCAGGCCAGCATCGAGGCAGTAAAGCCGATCGGAACGGACCCGGGCACCAAGCCGAAGCCGCGTAAACCGACCCGGAAGACCGCTGCCAAAGAGCCTGCAGCCAAGGTCAGCGGCGGGGAAGCTGACGCGGATGCACCGAAGCCGAAACGCCGGACGACCAAATCCAAGAAATCCGATTCCCCATCCTAA	MHTVWKGAISFGLVHVPVKMFSATEDKDISMRYIHKECGSPLSYIRKCPVCEEEVAWEEITKGYEYEKGKFVLFEKEELEQLAEANSKNITILDFVDLTEIDPIYFQKTYYLSPDQAGANAYRLLLEAMKQSGKIGIAKIAIRSKSSLAAIRVLDECLSIETIFYPDEIRPISQVPNLPERTEVNVKELDMAKLLIDQLSTPFDPEKYTDDYRERLLDLINSKVSGEEIKIAPARQETNVVDLMAALQASIEAVKPIGTDPGTKPKPRKPTRKTAAKEPAAKVSGGEADADAPKPKRRTTKSKKSDSPS				NA	NA	NA	NA	NA
AK002_05254	888	ligD	COG1793	Multifunctional non-homologous end joining DNA repair protein LigD	TTGCTGCCGAAAGAGCCGATGGCTCCGATCTCGACGGATCAGATTGCGACCGGCGAAGATTGGGGTTATCAGCTGAAATGGGATGGCGTACGCATTCTGGCCGGGCTTGACCAGAACCGCGTATCCCTGTATTCCCGCAAGCTGCTCGACAAAACATCCCTGTACCCCGAAATCGTTCAGGCTTTATCCCTCCTGGAGGATCGGCGTCTTCTCCTGGATGGCGAGGTCGTGTATTTTCATCCGGAGCTTGGCCGCCCCGTCTTTCAGAAGGTTCTTCAGCGGGAGCGTTCGCGTACGGTCAGTACGAGCGCTCCTCTGTTTACTTATGTGCTGTTCGATATCTTGGTGGATGGCGACGAAGACTTGCGCAAGCTGCCTTATCTGGAACGTCATCATCGTCTCAAGGAGACGGTTTCCGACATTCCGGGCCTGCTGACCGCCGATCTGTTTCTTGAAGGCGAACCGTTATGGGACTGGGCGGAACAGCGCGGTTGGGAGGGCATTGTCATGAAGCGCCTCTCCTCGCCTTACCGTGAGGGCAAAAAGCATCGGGATTGGTACAAAAAGAAAATTGCCGTGAACATGGCAGCCTCCGCCGTCGCCATGATCATCAGGGAAGGTCGCGTAGCCAGCCTCGTCATCGCAGGCGACGATGGGAACTACATCGGCCGTGCTTCCCTGGGGCTCAATGAGCAAACGAAGAAGAGGCTGCTGCAATATGCCGAAAGCCATCGTGCTGACGCGATATGGAGAACGCTCCATACCGACCTGAAGAAAGAACAGCTGGCCTGGCTTAGCCAGCCTCTATCAGTCCAGGTCACATTTCTCGAGTGGAGCCAGGATGGCATGATGCGCCATCCCAAACTCGTATCGATTGAGGGGGTGTAA	MLPKEPMAPISTDQIATGEDWGYQLKWDGVRILAGLDQNRVSLYSRKLLDKTSLYPEIVQALSLLEDRRLLLDGEVVYFHPELGRPVFQKVLQRERSRTVSTSAPLFTYVLFDILVDGDEDLRKLPYLERHHRLKETVSDIPGLLTADLFLEGEPLWDWAEQRGWEGIVMKRLSSPYREGKKHRDWYKKKIAVNMAASAVAMIIREGRVASLVIAGDDGNYIGRASLGLNEQTKKRLLQYAESHRADAIWRTLHTDLKKEQLAWLSQPLSVQVTFLEWSQDGMMRHPKLVSIEGV	PGPT0014910_2385	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
AK002_05255	918	ligd	COG1793	Bifunctional non-homologous end joining protein LigD	ATGGCTCGTACCGTTAAAGGCACCCTGACGATCGAGGGGCAAGAGATTCAAATTACGAATCCCGACAAACCGCTGTGGCCGGAGGTCGGCATTACCAAGGCAATGTATTTGCAAAAGCTTGCGGCCATCTCACCTTTCTTGCTCCGGTACTGCCGGGGCAGGCTGCTCACGACCATCCGGTATCCGCACGGAGCCCAAGGCGAATCCTTCTACCAGAAAAATGCACCTGAGCCGCTGCCGCCCTTTGTTCAGACTTATGTGCACGAAAATATAAACTACGTGCTGCTCAACGGGCTGCCGGAGCTGCTCTGGCTGGGGAATCTGGCTGCGCTTGAGTTTCACCCTTCCCTGCATCTGGCAGGCAGCCATCTGCCCTGCGAATGGATGATCGATTTGGATCCCACGCTCCCGGAGGAGCCCCGGATTATGGAGGCGACGGCCATTGTAGGGGACGTGCTGAGCTCCCTGGGCCTGTCCTCCGTCCCGAAAACCTCGGGAGCGACCGGGGTGCAGATCATCGTTCCGATTCCGGAAGGCGTAACCTTCGATGAACTTCGAACGGTTGGCCAATTCGTGGGCCAGTACGTGACGGAGAAGTTCCCGAAGCTGTTCACCATCGAGCGGCTGAAGAAGAACCGCGGCGATAAAATCTACTTCGATTATCTTCAGCACTACAGCGGAAGGACGCTCGCCGCTCCTTATACCCCGCGGGCCCGGCGGCTCGGGACCGTCTCCACGCCGCTCACTTGGGACGAAGTCCGCCAGGACGTTTCTCCCACGGAGTTTCACCTGCTGAACATCGAAGAACGGCTGAGGGAAAAGGGCGACCTGCTGCAGACCCTGCCGCCCCAACCGATCGAGAATGTCATCCGGCATCTGTTGCCAAAGGGTAAGGCAGCGTCAAAAAGGAAAGGATAG	MARTVKGTLTIEGQEIQITNPDKPLWPEVGITKAMYLQKLAAISPFLLRYCRGRLLTTIRYPHGAQGESFYQKNAPEPLPPFVQTYVHENINYVLLNGLPELLWLGNLAALEFHPSLHLAGSHLPCEWMIDLDPTLPEEPRIMEATAIVGDVLSSLGLSSVPKTSGATGVQIIVPIPEGVTFDELRTVGQFVGQYVTEKFPKLFTIERLKKNRGDKIYFDYLQHYSGRTLAAPYTPRARRLGTVSTPLTWDEVRQDVSPTEFHLLNIEERLREKGDLLQTLPPQPIENVIRHLLPKGKAASKRKG	PGPT0014910_2266	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
AK002_05256	1074			hypothetical protein	ATGGCTCGCACGCAATATGAACGCATAACCACCAAGCAAACATTAAACCGAGTGAAGGAAGAACGGATGCCCTTCGATTGGTCCATCAATCCGTATCGAGGCTGCGGACATGGCTGCAGCTTTTGCTATGCCCGCGCATTTCAATCGTTTATCGGGATGGGAGCGGAAGACGAGTTTCAGCACCATATTTTTATGAAGTCGAATGCGGCGGAAGCGCTGGAGAAGCAGCTGTCGAGCGCGGCGAGGAAGTTTAACTATGATATTGAAGCGATGCGGAGATCGATCGGACAGGTGACGATCGGAACGGCAACCGACCCGTACCAGCCGATCGAGGGCAAGGAGACCCTTACGCGGGAATGTCTGAAGCTGCTCGCTAAATACCGCATTTCTACCAGCATCACGACGCGTTCTCCGCTCGTATTGAGGGATTTGGATATCTTGACCCGGATGGAGAACGTGTCCGTCAACATAAGTCTCAACACGATGAGCGGGGACGTCACCCGGAAGCTGGAGCCGGCATCGCCTCATCCGGAGGCCAGGCTTGATGCAATCCACAGGTTATCGGCTGCTGGCATTAGAACAGGCTTGTTTGTGGCGCCTGTTCTGCCCTTTTTGACGGACGAGGAGCCGGAACTGAAGGAGCTCTTGTCCCAGGCAAAGGAAAGAGGCGTTTCCTTTGCGATGATCTCCTTGCTAAGACTGTCGCGCGACGTGAAGAAATGGTACCTCGAAACGCTGAAACACCACTTCCCCGAGGTGGTTCAATCCTACCGCGAGTTATATGGGCAAGGCGCTTATGCGGAAGAGCATTACGTTCGTTCCTTCAAGTCGATGGCGTCCAGGCTGTTGAACGAATATGGGATGAGCGGATTGACCATGGGGGCACCTGCTGCCGTCAACCGGTCCGGACCGATTGCAGCCTCGGAGAACGATACATCGGATGAAGGGGCCAACGATCACCCTGCGAGGGAATGGGCTGCTCCTGTACGTCCAAGGAAGCTTCCTCAACCGGCGGCCCCGGTTTCCGGAGAGGAGCTTACTCCCGATGTTGAGCAGCTATCCTTTCCTTTTTGA	MARTQYERITTKQTLNRVKEERMPFDWSINPYRGCGHGCSFCYARAFQSFIGMGAEDEFQHHIFMKSNAAEALEKQLSSAARKFNYDIEAMRRSIGQVTIGTATDPYQPIEGKETLTRECLKLLAKYRISTSITTRSPLVLRDLDILTRMENVSVNISLNTMSGDVTRKLEPASPHPEARLDAIHRLSAAGIRTGLFVAPVLPFLTDEEPELKELLSQAKERGVSFAMISLLRLSRDVKKWYLETLKHHFPEVVQSYRELYGQGAYAEEHYVRSFKSMASRLLNEYGMSGLTMGAPAAVNRSGPIAASENDTSDEGANDHPAREWAAPVRPRKLPQPAAPVSGEELTPDVEQLSFPF				NA	NA	NA	NA	NA
AK002_05257	576			hypothetical protein	ATGGCACCAAAAACGAAGTTTACCAAACAAGATATCGTGGTAGCCGCATTCGACATTGCCAAAACGGATGGCATCGAGTCCATTACGATCCGAAAAGTAGCCGAACGTCTCGGCAGCTCCATCGCGCCGATCTATGTCAATTTCAACGACGTCCAGGAACTGCTTCAGCAGGTGGTCGAAAGAGCCTTGCAAGTGGCCAGAGGCATGATCATGGAGGAGCAATCCGGACAGCCCTTCCGGGATATCGGCATGGCAAGTCTCCGCTTTGCCAAGGAATATCCCGTGCTTTATCGGGATCTCATGATGAAGGACAATCCCCATATGAAGAATACGCCGGAACAACTGGGCGAGGTTATCGGGCTGATGAGGCAGGATCCGGAGCTCGCGGAATTTTCGGATCAGGAGCTGCAATCTATTTTATTGAACATGCAGGTGTTTCAGACAGGTCTCTGCGTCATGGTGGCAAACGATCTGTTCACGAAGAACGTGGATGACGAACAGATGATGAATATGATGGACGAAGCCGCTGAAGCGTTCATACGTGCCGCGCATGCTCGGAAACTTGAGAGGAACTGA	MAPKTKFTKQDIVVAAFDIAKTDGIESITIRKVAERLGSSIAPIYVNFNDVQELLQQVVERALQVARGMIMEEQSGQPFRDIGMASLRFAKEYPVLYRDLMMKDNPHMKNTPEQLGEVIGLMRQDPELAEFSDQELQSILLNMQVFQTGLCVMVANDLFTKNVDDEQMMNMMDEAAEAFIRAAHARKLERN				NA	NA	NA	NA	NA
AK002_05258	1071	yfeW		Putative D-alanyl-D-alanine carboxypeptidase	ATGGGAACAACCCTGAAGCAAGCGGTTCTGGATGCATGTGTGACTCAAACCGCCAATAAAAGAAATGTGTTTAGCACGGTGATGTGCGTCGAGGACCAGGAGCGGTCATTGTCCATAGTCAGCAGCGGAGGTGATATGCGGCCTGACGACCGCTATTTCATTGCCAGCGTGACCAAGTTGTACGTGACTGCCGTACTCTTGAAATTACGCGCGGAGCGGCGGCTCGAGCTCCATGATCCCATTGGCAAGCACCTGCCCGAAGAGATTATGACCGGGCTCCACAGGTTTAAGAACCGGGATTACGGCGAAGAAATCACCATCCAGCATTTGATGTCCAATACGTCCGGCATCCCGGACTATTTCTCGGGGACCGTTTTCTCGAATCTGATCGCCGGGAAGGATCAAGCCTGGAGCCTGGACCAAGTCCTGGCCGCGGCCAAAAGGAAAACGCCAAAATTCAAACCGGGGCAGAAGAAAAAAGCCCAATATTCCGACACCAACTATCGTCTGCTTGGCCAAATCATCGAGCATGTCAAGGGCGAATCCATTCAGGCCGTATTCCAGGAATACATCTTCGACAAGCTCAAGCTGACGCAAACCTATTTTTATCATGACCCGGAGGATGCGTCCCCCGTTCCGTTCCATTACAAGCAGAAGCGACTGGACCTTCCCTTGTATATGGCATCAGTCGGTGCGGAGGGCGGGATCGTCTCCACGGCAAGAGAAACGATGACGTTTTTGCGATCCTTTTTTAACGGGGATCTGTTTCCGCTGGGTGATTTGAGGGAGCTCCAGAGGCAGTGGAACTTCCTGTTTGCTCCCGGCCCCTTCTTCTATGGCATCGGCATTTCAAGACAGCCGCTATCTCCTTTCAGTCTGGGACGCGGACTCATCGGCCACTGGGGCCAATCCGGGGCATTCGCCTTCCATCACCCGGAATCGGGCCTCTATTTCACCGGAACCGTGAACCAGGCCGTCGGTCAATCCGCCGCCGTCCAGGCCATGTCGCGAATCATTCGTCATTATGTGCGCGAGAAGAAGGCGCTGCGCCTGCAAGCCGATACTCTTTAA	MGTTLKQAVLDACVTQTANKRNVFSTVMCVEDQERSLSIVSSGGDMRPDDRYFIASVTKLYVTAVLLKLRAERRLELHDPIGKHLPEEIMTGLHRFKNRDYGEEITIQHLMSNTSGIPDYFSGTVFSNLIAGKDQAWSLDQVLAAAKRKTPKFKPGQKKKAQYSDTNYRLLGQIIEHVKGESIQAVFQEYIFDKLKLTQTYFYHDPEDASPVPFHYKQKRLDLPLYMASVGAEGGIVSTARETMTFLRSFFNGDLFPLGDLRELQRQWNFLFAPGPFFYGIGISRQPLSPFSLGRGLIGHWGQSGAFAFHHPESGLYFTGTVNQAVGQSAAVQAMSRIIRHYVREKKALRLQADTL				NA	NA	NA	NA	NA
AK002_05259	918			hypothetical protein	ATGTCAAGTGATGTGAAGATTCTGGCGCAAGTGAAAGCGGAGCAGCAGAAGCCGGAGAATCCCAAGGCAGGCTCAGCGACCTTGAAGCTTCTCCGCCGTCTGGTGTTCTTAACTTTCGGCGCGATTTTGATGGCAGTAGGGCTGGAAATCTTTCTGGTGCCGAACAAGATTATCGACGGGGGGATTACCGGAATCTCGATTATGGTTTCCCATATCACCGATATTCCGCTGGGTGTATTCCTGACTTTGTTCAACCTTCCGTTTTTGTTTATGGGATATAAACAGATCGGAAAAACCTTTGCATTATCCACGCTGTTCGCCGTATTGGTCATGTCCATCGGCACTTATTTCCTGCATCCCGTCGATCCGATCACGATCGATCCGCTGCTTGCGGCCGTGTTCGGCGGCGTGCTTCTCGGAATCGGGGTCGGCCTTGTTATCCGGTCCGGCGGTTCCTTGGACGGCACGGAAATCGTGGCCATTCTGATCAACAAGAGAACGCCGTTCTCCGTCGGCGAAATCGTGATGTTCATCAACGTATTCATTCTAGGCAGCGCAGGTTTCATTTTCGGCTGGGACCATGCCATGTACTCGCTGATTGCGTATTACCTTGCGTTTAAATTGATCGATATTACGATTGAAGGCATTGATCAATCCAAATCGGTTTGGATTATCAGTGATAAGCATAAGGAGATCGGTGATGCGCTGACCCAGCGGTTGGGACGCGGCGTAACCTATCTCGAAGGCGAGGGCGCTTATTCCGGAGACAGCAAGAAGGTTATCTTTGTGGTTATCACTCGCCTGGAAGAAGCAAAGCTCAAATCCATTGTGGAAGACTGGGACTCCCAGGCCTTCGTCGCCGTCGGCAACATCCATGATGTGAAGGGCGGCCGCTTTAAGAAAAAGGCAATCCATTAA	MSSDVKILAQVKAEQQKPENPKAGSATLKLLRRLVFLTFGAILMAVGLEIFLVPNKIIDGGITGISIMVSHITDIPLGVFLTLFNLPFLFMGYKQIGKTFALSTLFAVLVMSIGTYFLHPVDPITIDPLLAAVFGGVLLGIGVGLVIRSGGSLDGTEIVAILINKRTPFSVGEIVMFINVFILGSAGFIFGWDHAMYSLIAYYLAFKLIDITIEGIDQSKSVWIISDKHKEIGDALTQRLGRGVTYLEGEGAYSGDSKKVIFVVITRLEEAKLKSIVEDWDSQAFVAVGNIHDVKGGRFKKKAIH				NA	NA	NA	NA	NA
AK002_05260	1431	clsA_1	COG1502	Major cardiolipin synthase ClsA	ATGGTGTGGCTTCTGGTTGCACTTATTACTTTTATTTTGCAGATGGTTGCGGTGCTGCTGCTTGAGTTTCGAAATCCGTCCAAGGCCGTGGCATGGCTGTTTATTTTATTTTGCCTCCCCTTTATCGGGTTTGTACTCTATTTCTTTGTGGCGCAGGATTATCAGAAGCGATTGAAGATTCGCAAGCGGGGTTCCCGTTTGTTTCAGGAAATCAGGGCACATTTGTGGGATCGGGCGGCGGTCGTCCGAAGAAAAGGAGATATGAACAATCCCGGCTTTCATCATAATGACCGTTTGTTCAATCTGCTCAATCACTTGTCGGAGAGTCCCATCACGGGCTGTAATCAAAGCCGGGTGTTGACCGATGGGGAAGAGACGTACGAGGCCATGCTGAACGCAATGGAGGAGGCCAAGGATCACATTCACGTGGAGTTTTACATTTTTCGTCATGACCGGATCGGCACGAAGTTTCAGGACGTCATGATCCGAAAAGCGCAGGAAGGCGTCAAGGTGCGCCTGGTTTGTGACGGGCTGGGCAGTTATAAACTCAAGAAAACGTTCATTCAACGCTTCAAAGAATCGGGAGTGGAGTTCTATTTCTTCCTGCCCGCAATGGTCTCGATGTTCAGCCGCAGAATCAATTACCGGAACCACCGCAAAATCGTCGTCGTGGACGGCACGATCGGTTTTCTGGGCGGCATTAACGTCGGGGACGATTATCTCGGCGAATATCCGAATATGGGCTACTGGCGCGACACGCATCTGGAAGTAAAGGGGGATGCGGTCTATTTTCTGCAAAATGTGTTTCTGCACGATTGGAAGCTCGCGTCCGGAGAGCGCATTGCGGATTTCGGGCTGTTTCCGGAGCATCAATGCACCGGGGAGGAGCAAGTGCAGATATTGAGCAGCGGACCGGATCTGAACTGGAATGCCATTCAGGAAATGTGCTTCGGGGCGATTTCCGTGGCCAAAGAACGGATATGGATCACCTCGCCGTATTTCATTCCCGATGAAGGAATTTATGAAGCCCTGAAGACGGCTGCGGTGAGCGGCGTGGACGTACGGATCATTATTCCGGATCACGCCGATTCCCGCCTCGTCAAGATGGCAAGCTTGTCCTACGTGGAAGAGCTGCTGGCAGCGGGAGTCAAGTTCTACGAGTATGAAAAAGGGTTCATCCATGCCAAGGTGCTCATTGTGGACGAGCTTCTCGGTTCGGTCGGTACGGCGAATATGGATATGCGGAGTTTCTTCTGTAACTTCGAGCTGACGGCCGTGCTGTTCGATCGGCTGCCTATTGAGCGGTTGGTTTCGGATTTTAAGGAGGATCTGCAACATAGCAGGCTTATTGATGCGGAGGTATTCCGTCAGCGCGGAAGATGGCAGAAAGCGGCCGAAATTATGTGCAGGATGCTGTCGCCATTGCTGTAA	MVWLLVALITFILQMVAVLLLEFRNPSKAVAWLFILFCLPFIGFVLYFFVAQDYQKRLKIRKRGSRLFQEIRAHLWDRAAVVRRKGDMNNPGFHHNDRLFNLLNHLSESPITGCNQSRVLTDGEETYEAMLNAMEEAKDHIHVEFYIFRHDRIGTKFQDVMIRKAQEGVKVRLVCDGLGSYKLKKTFIQRFKESGVEFYFFLPAMVSMFSRRINYRNHRKIVVVDGTIGFLGGINVGDDYLGEYPNMGYWRDTHLEVKGDAVYFLQNVFLHDWKLASGERIADFGLFPEHQCTGEEQVQILSSGPDLNWNAIQEMCFGAISVAKERIWITSPYFIPDEGIYEALKTAAVSGVDVRIIIPDHADSRLVKMASLSYVEELLAAGVKFYEYEKGFIHAKVLIVDELLGSVGTANMDMRSFFCNFELTAVLFDRLPIERLVSDFKEDLQHSRLIDAEVFRQRGRWQKAAEIMCRMLSPLL	PGPT0007725_3136	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
AK002_05261	972			hypothetical protein	ATGAAAACCGCACACCGTAAACAACGCTTAACCTTGCTGGTGCTTCGGGATGCCCAGCATTCAGTCAAACAGGTCCATCTATCCAAACCTTTGATGATAGCGGTGCCCGCGGCCGCTATTTTGTCCATCGCCGGACTGATCGTTTCCCTCCAAATCCAGTCGGCTCAGACCATCTCGGGGCTGGAGCAGCAGCTGACGCTGAAAAGCCTGGAAGCCTTAAAGATGGAAGTGACGGTCACCGATAAGGATGAAGCCATCGAACGCCTAAATAAAGCGATCATTCAGCTATCGGGTGAAGCAGAGCAAACGAAGGTCCAGATGGAGCGCGTTCAGCAGCTGGAGCAGGAGCTTCAGCAGTTTATTGAGAAGCACGGCAGCCTGTCCGGCCAGACCTCCTCCATCGCTGACGAGGATAAGCAGCATGTCGGCGGTGAATTCATTGCCGTTCATGAGAATGAAATGTTAAACCTCGCCAGGGAGACCCAGGATGATTTCGAGAACATGCAGCAGTTGATTTCACGCATGGAGCAGCATATTCCGCGTACGCTGGATCAGGCCCAGGAAACCCAGGAAAGGCGTGAGGGCACGCCTTCATTATGGCCAACCACCTCCAAGCGGCTCACCTCGAATTTTGGTTATCGAAGCGATCCTTTTACCGGCCGCTCGGCCTATCATGCCGGCATCGATATTGCCGGGAAAACCGGCGATCCTATCTATGCCGCAGGCGCCGGCGAGGTAACGGCAGCGGAACGCAGCGGGGCGCGGGGGCTGTATATCGTCATCAGGCATCCGAATGGTCTGGAGACGTGGTACATGCATCTGGACAGCCTGGACGTGTCGGCAGGCGATCATGTCGAGCAGGGCGAAACGATTGGCAAGCTGGGCTCCTCCGGGCGAAGCACGGGCCCTCACCTTCATTTCCAGGTCGTCAAAAACAATCAGACGATTGACCCTTTGCCTTATCTGCAATAA	MKTAHRKQRLTLLVLRDAQHSVKQVHLSKPLMIAVPAAAILSIAGLIVSLQIQSAQTISGLEQQLTLKSLEALKMEVTVTDKDEAIERLNKAIIQLSGEAEQTKVQMERVQQLEQELQQFIEKHGSLSGQTSSIADEDKQHVGGEFIAVHENEMLNLARETQDDFENMQQLISRMEQHIPRTLDQAQETQERREGTPSLWPTTSKRLTSNFGYRSDPFTGRSAYHAGIDIAGKTGDPIYAAGAGEVTAAERSGARGLYIVIRHPNGLETWYMHLDSLDVSAGDHVEQGETIGKLGSSGRSTGPHLHFQVVKNNQTIDPLPYLQ				NA	NA	NA	NA	NA
AK002_05262	420			hypothetical protein	ATGAAGAAGAAAAACAAGAAAAAACGGGCGTCAGAGCGGACCGATACGCTGATCGGCCCAGGAAGCGAAGTGGAGGGCGTCCTGCAATGCGAGGATGACCTGAGGATCGACGGCCGCTTTAACGGCTCCATCGAAAGCCAAGGCTGCGTCACCATAGGCGAAGCCGCGATTGCCCGCTCCAATATTTCCGCTCGGGAAGTCATCGTGGCCGGCAAGGTCTATGGAGATGTGACGGCGGAAAATAAACTGACGATTACGACAACGGGGCAAATGTACGGGGATGTTCACGCCGCTTCCCTTATCGTTATGGAGGGCGGGCTTCTTCACGGGGCAAGCCGGATGGATCAGCAGACCTCTACTCAGGAAGACTCGAAACCCACTGACGCCGCACTGCCCCTTCAGCGTCCGGAAGCAGGTTAA	MKKKNKKKRASERTDTLIGPGSEVEGVLQCEDDLRIDGRFNGSIESQGCVTIGEAAIARSNISAREVIVAGKVYGDVTAENKLTITTTGQMYGDVHAASLIVMEGGLLHGASRMDQQTSTQEDSKPTDAALPLQRPEAG				NA	NA	NA	NA	NA
AK002_05263	777			hypothetical protein	TTGTTGAATAACTTTACCCGTCTTGTTGCCAATGAGAATATGAAAATTTACTACCGCGTGCGGACATGGGTCATGCTGGGCATACTTGTCTTATTTAATGCGGCCATGCCTGTCATGCTGTACTTGACGGATGCGCCGATGGATGTCTGGACCGTGTTCACTTGGACGGAGAGTTTCACCATATACCTGAGCGCGATCTTCACGGTTGTCATCGCTGCGGATATCGTGGCCGGGGAATTTAGCGGGGGCACCATCAAATTGCTGCTGATCCGGCCGTGGAGCCGGGGGAAGATTCTGTTATCCAAATTTGCCGCCTTGTGTCTGTTCGGGCTGCTCTGTGCGGGAATCACCATGGTGGTGGGCATCGCTGTCTCGATGCTGCTGTTCTCCGGCAATGCCGGATTCTCGGACGGATTTGATGGATCGCCCATGAGCAATTCCCTCTTGCTCCTGCTGACGGATACGATCCAGGTGTTTGTCATTTCGCTGATTGCGTTTATGCTCTCCACGGTATTCCGTTCAGGCGGGCTTGCGATTGGATTATCGCTGCTGGTCCTGTTCACGAAGGATATCTTCGGTTTTATCTTTAACCCGGAGCGGTTTGTATGGGCGAAGTATTTGCTCTTTCTTCACACCGATCTGAGCGGGTACATCAGCTCGCCCGTCGGGCCGGGAGGCGTGGGGCTTGGCTTTTCCGTAGCGATTTTGGCCGTCTATTGCTTACTGTTCATGCTGGTCTCGTGGCTGGCCTTCACCAAGAGAGACGTAGCAGCATAA	MLNNFTRLVANENMKIYYRVRTWVMLGILVLFNAAMPVMLYLTDAPMDVWTVFTWTESFTIYLSAIFTVVIAADIVAGEFSGGTIKLLLIRPWSRGKILLSKFAALCLFGLLCAGITMVVGIAVSMLLFSGNAGFSDGFDGSPMSNSLLLLLTDTIQVFVISLIAFMLSTVFRSGGLAIGLSLLVLFTKDIFGFIFNPERFVWAKYLLFLHTDLSGYISSPVGPGGVGLGFSVAILAVYCLLFMLVSWLAFTKRDVAA	PGPT0006730_17341	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_05264	918	bcrA_7		Bacitracin transport ATP-binding protein BcrA	ATGAAGCAGGAACCGCTGGTAAGACTGCTCGGGGTTACGAAGAAAATATCGTCGAAGGTTCTGGTAGATGATGTGACCTTTGATATCGCACCTGGGCAAATCTTCGGATTCCTTGGGCCGAACGGGGCAGGCAAGACGACAACCATCCGCATGATGGTCGGGCTGATGTCCATTACCCAAGGGGATATAACCATCGGGGGATACAGCATTCGGAAAAATTATGAGCAGGCTGCTGCCCAGATCGGGGCGATTGTCGAGAATCCGGAAATGTACAAGTTTCTATCCGGTTACAATAATTTGAAGCATTTTGCACGCATGATGCAGGGGATTACGAAGGAGCGTATCGACGAAGTGGTGGAACTCGTCGGGCTCGGGAACCGAATCCATGAGAAGGTGCAGACTTATTCGCTGGGGATGCGCCAACGGCTCGGGGTGGCACAGGCGCTGCTGCACCGGCCCAAACTTCTGATCCTGGACGAGCCTACGAACGGCTTGGACCCGCAGGGCATTCGGGAGCTGCGTGATTATTTGCGGCGTTTGACGCAGGAGGAAGGGACCACCGTCTTCGTATCCAGCCATCTGCTGTCGGAAATGGAGCTGATGTGCGATACCGTCGGTATCATCCGTCACGGCAAGCTGGTCGATATCCGGCAGCTTCGCACGGACGGGGGAGAGCGGATGTTTGAAGAGACGGCATTTACCGTCAGCGACGCGGATGCCGCCGCAGCGCTCCTACAGGACTACCAGGCGATAGCCCGGGAGCATCGCGTCCTTGTTCGCGGTGACCGGGATATGATTGCGGACATCAATGCGGCATTGGTCGAAGCGGGCATACGCGTATATGCCATACAGCCGGTTACCCGGTCGCTGGAGGATCAATTTTTGGAAATGACGGGAGGGGGATCTCTTGTTGAATAA	MKQEPLVRLLGVTKKISSKVLVDDVTFDIAPGQIFGFLGPNGAGKTTTIRMMVGLMSITQGDITIGGYSIRKNYEQAAAQIGAIVENPEMYKFLSGYNNLKHFARMMQGITKERIDEVVELVGLGNRIHEKVQTYSLGMRQRLGVAQALLHRPKLLILDEPTNGLDPQGIRELRDYLRRLTQEEGTTVFVSSHLLSEMELMCDTVGIIRHGKLVDIRQLRTDGGERMFEETAFTVSDADAAAALLQDYQAIAREHRVLVRGDRDMIADINAALVEAGIRVYAIQPVTRSLEDQFLEMTGGGSLVE	PGPT0006725_12562	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05265	174			hypothetical protein	ATGGAAAATGAACTGAAAATGTACTGTATATGTTGTCGTCGGATCGTGTCGATGATCGAGGGAGTCAGCGTGTTTAAAACCGGTTTTTATCGATACGATATGCCTATGGGCATATGTGGAAAGTGCAAAACGGCTGCATCCAATGAGCTATTTTACATGGCGCAGGACCTTTGA	MENELKMYCICCRRIVSMIEGVSVFKTGFYRYDMPMGICGKCKTAASNELFYMAQDL				NA	NA	NA	NA	NA
AK002_05266	1794			hypothetical protein	ATGCCTGTACTGAACAGTCAAGCCAATGTGAAAAATTTCGGTGCAAAAGGTGATGGCGTTTCAGATGATACGTTAGCCTTCCAACAAGCGATCCAAGCGTGTGCCTCCGGTGCATATTCCGTCATCTATATGCCTAAAGGCCGATATCGCATAACGCAAACCTTGGTATTACCGAAACAGGAAAGGCCCAACACCAACGCCACGCAAGGAATTGGACTTACCATCTACGGGGACGGAATGTATGACAGCGGTATTATTTATACGGGAACAGACTTTGCCCTATACAGTGATAAAGACATGGCCGAGACTATCTTATTTAGGGATTTTTATATTAACCACGCTGCGGGTGGAGGCATCTATCTGCCGCAGGGCGCACACCAAATGTTTGAGCGTTTCTTCTCAAGCGCATGCGGTGAAGGAAAATTCGGAGTTTATATTCAGGGGATGCGAAGCGGGACGAATCCCACCTCGGGCTATGGAGGCTATATGATCTCGTTTCGCGATTGCCGTTTCTGGCAGGAGACGGGTTACTTGGGTACGGGCTTAAAGTTAGAGGATATTGTGTTGTGCACAACGATTGATAGCTGTTTCTTCTCCAGGTCTGTGCGAAATTACCCCCATCTGGAAATTGTGAATTCGGACAGCATTCATATAACCTCAACGGCCTTTGAGAGAAGCGAACAAACCGTCCCCCCTGCTTCTCCTGCAGAGGGACGCACCGAGGAAGATGTCATGAGGGATGCGATTGCGGCGAATCAAGTGATGACCGCCCCACTCATCAAGCTGGATAATGCCCGTGCCGTTTCGATCGAAGAATGCCACGCGGAAGCGACCTATGAGAGCTTTGTGGGAATTTACGGACATACGTCAGGCGTGTGGATTGACGGATGCCGTCTGGATCACTACGCGATCACGGATTACAATCCCAATAAAGGATACATCGTCACCGTAGATCCGGGTTCTACGGCATCGCAGGATATCATCCTCGGACCGCGTAACTACCGGATTCAAGCCAATCATCCCAATACGACACACGGCACGCTTATCAAGGACCCTGTCGGCTGCGTAGTTGTCGAGAATATCGCGGACCGGACATCATTTCGGGATGCGTTCTATTTAACGGAACGACGTACCGTACCTTATATCGGCTCCTCTGGCCATAACCTGCTTCGAAACCCGTCTCTCAGCGCCATGTTTACGAATGATGTCCCGTATTCCGTCGAACCTGACCCGGATTTTGCCTTTAAACAAGCGGCTCCATCCGGCTGTATCGTCACCCAAAGTTCGACCGGCTCAAAGACCAAGCTCCGTATGAGAACCGTAGAACGTCTGCATAAGCATGAATATTACACCTTCGTGCTGTCTGGCACGAACCTGTCGGGGAAATCAACGCCGCTATTTATTGATATCGGCGGGGACACCAACGATCTGACTCTTATTCTTCCTTCCGGCTCCGAACGATTTACCATTACGAAAACGTTCAAGAAATACTACACGGACATCGTCGACCTCGTGGTATACGAGCCGCTTAATCTCCAAGTCCATTCGATATTCGTGCTGCCGAATCTGGTAAATAACATTCCTTACGGGGAGGAAACGATCGCAAGTTCGGCTGTCTTTACCGAATTGGTTCGCTCCAGCAGCATGATCCTCAGTCCGTTGCCTGCGATACCGGCTGCTTCTGCTGCCCACCGCGGCCGAATCATCATGGTTGAGGACAGTAACGGGGTAGATTCGCTGTATATTTGCAAACAGCGTTCAAAAGGCGTCCATTCCTGGATCAAGTTAGGATAA	MPVLNSQANVKNFGAKGDGVSDDTLAFQQAIQACASGAYSVIYMPKGRYRITQTLVLPKQERPNTNATQGIGLTIYGDGMYDSGIIYTGTDFALYSDKDMAETILFRDFYINHAAGGGIYLPQGAHQMFERFFSSACGEGKFGVYIQGMRSGTNPTSGYGGYMISFRDCRFWQETGYLGTGLKLEDIVLCTTIDSCFFSRSVRNYPHLEIVNSDSIHITSTAFERSEQTVPPASPAEGRTEEDVMRDAIAANQVMTAPLIKLDNARAVSIEECHAEATYESFVGIYGHTSGVWIDGCRLDHYAITDYNPNKGYIVTVDPGSTASQDIILGPRNYRIQANHPNTTHGTLIKDPVGCVVVENIADRTSFRDAFYLTERRTVPYIGSSGHNLLRNPSLSAMFTNDVPYSVEPDPDFAFKQAAPSGCIVTQSSTGSKTKLRMRTVERLHKHEYYTFVLSGTNLSGKSTPLFIDIGGDTNDLTLILPSGSERFTITKTFKKYYTDIVDLVVYEPLNLQVHSIFVLPNLVNNIPYGEETIASSAVFTELVRSSSMILSPLPAIPAASAAHRGRIIMVEDSNGVDSLYICKQRSKGVHSWIKLG				NA	NA	NA	NA	NA
AK002_05267	936	tagU_4	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAAAAAATGGCTGAAGATTACGGCGGGAGCGCTCTTGAGTCTGACCGTGCTGGCAGGCGGTTACGGTGTGTATGTGTACCAGTCCGTCAAAGCGACGGCTGAACAAATTTATGAGCAGCGGGAACCCTCATCGCCTCCCGCTTTTATAACAGCCGATCCCATCCTGCAGGAAATCCAGACGGCGGATATTGATCGGCGTGAGCCCTTTACGGTGCTTGTGCTGGGAGTAGACGAACGCCCGAATGACCGGGGAAGGTCGGACGCGATGATTATGCTGTCCGTCAATCCGTCGAAACAGTCGATCCTGATGTTTAACATTCCACGAGATACTCGTACAGTCATCGCGGACCACGGCACGGAGGATAAAATCAATCATGCCTACGCGTTTGGAGGCATCCAAATGTCCGTTCGGACCGTTGAGGAATGGCTCCGATTTCCGGTGAATTATTACGTTAAAGTCAACATGGAGGGCTTTGCGAACATCATAGACGCGCTTGGCGGAGTCGATATTGATAACGCGTTGGCATTTGATTATGAGGGCCATCATTTTGCCAAGGGACAGCTGCATTTGAACGGCCGGGAAGCATTGGCTTTTTCTCGGATGCGTTACGAGGATCCCCGCGGCGATTTAGGCAGGAACTCCAGGCAGCGTCAAATCGTGAAAGAAGTGTTGAACAGCGCGCTTGACGTGTCAACGGTCTTCAAGCTTGAAGCTTTGCTTAAGGAGGTCGGGTCAAGCGTCAAGACAGACGTCCGATTTGATGAAATGAAGACGTTTGTAACCGACTATCGCCAGGACATGAAAACCATCAAACAGATCGAAATTCAGGGAGGCGGGCAGAAGATCGACGGTGTCTGGTATTATCAAGTGAGCGAGAAGGAACGCCAGCGTATCCATCAACTGCTTAAAGAGCATATGGATCGAAACGAATGA	MKKWLKITAGALLSLTVLAGGYGVYVYQSVKATAEQIYEQREPSSPPAFITADPILQEIQTADIDRREPFTVLVLGVDERPNDRGRSDAMIMLSVNPSKQSILMFNIPRDTRTVIADHGTEDKINHAYAFGGIQMSVRTVEEWLRFPVNYYVKVNMEGFANIIDALGGVDIDNALAFDYEGHHFAKGQLHLNGREALAFSRMRYEDPRGDLGRNSRQRQIVKEVLNSALDVSTVFKLEALLKEVGSSVKTDVRFDEMKTFVTDYRQDMKTIKQIEIQGGGQKIDGVWYYQVSEKERQRIHQLLKEHMDRNE	PGPT0023440_3168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK002_05268	567			hypothetical protein	ATGACGGGGGAGAATGCCGTGGGCAGAAACAGAAGCAGCTACAGGAGCAGGAGGCTCCTGTTTATAATCGTCATTGTTTTCGTTTGGATGAGCATCATTTTTTTCTTCTCCTCCCAGTCGTACCAGCAGCAGGATCTAAGGCCGTGGCTGCAGGAACACTTGCCAGAGGCGGCGATTGAACATTGGTTTTCATGGGTTTCGTTTACTTATGCCGGAGAGATCGTCAGCATCGATGCCAAGGGTGTGCCCGGTTTCGTTGAATTTTTTATCCGAAAGGCAGCCCACATCGGGGAATACTTCGTCCTTGGTGGCCTGTTGCTGCTGCTGTTGACGAATTTGCTGCGAATCAGGGCTAGCATAGTCATACCTGTGTCATGGTGCTTGTGCGCGTTGTATGCCGTTAGCGACGAGCTGCATCAAAGCACATCGGGGTACCGCATCTTTAAGGCACAGGATGTTGTCCTGGATTCGATTGCCGCATTGGCCGGAATAACGCTGGTCAGTGCATATACATATTGGAGGTCTATGAAATCGAGGCCGAGGGAAGTGTTAGACCGGAAAGGATGA	MTGENAVGRNRSSYRSRRLLFIIVIVFVWMSIIFFFSSQSYQQQDLRPWLQEHLPEAAIEHWFSWVSFTYAGEIVSIDAKGVPGFVEFFIRKAAHIGEYFVLGGLLLLLLTNLLRIRASIVIPVSWCLCALYAVSDELHQSTSGYRIFKAQDVVLDSIAALAGITLVSAYTYWRSMKSRPREVLDRKG				NA	NA	NA	NA	NA
AK002_05269	1365	algA_1	COG0662	Alginate biosynthesis protein AlgA	ATGAAGATTATTTTATTGTCCGGCGGTTCGGGTAAGCGTCTGTGGCCTCTCTCCAACGAGCTTCGCTCCAAACAGTTCCTTAAGGTGCTCCCTGGAGAAGAAGGAGAATCCGAGTCCATGGTGCAGCGCGTTTGGAAGCAACTGCAGAGGAGCAACCTGGCGGATTCATCCTTTATTGCCGCAGGCATATCGCAGATTGAAATTATTCGAAATCAGCTTCCCGGCAGGGTGCCGATCATCGTAGAGCCGCAGCGCAGAGATACGTTCCCAGCGATCGCGCTAGCCGCGGTGTATCTGTATTCCATAGCCAACGTCAATTTACAGGAAACCGTTACCGTACTGCCGGTAGATCCTTTTGTGGAGGAGCCGTTCTTTCATACATTATCTTCTTTGGATCGCGTTTTGGAAGAGTCCGGAGCGGATATAGCGCTTATGGGGGTGAAGCCAACCTATCCTTCGGAGAAGTACGGTTATATTCTCTCTGAACAGACGGAGGATGCCTCGGCTGGGTACCGCAACGTAAAAAGCTTCAAAGAAAAACCAAGCGAAGAGCAGGCTTCGCAATACATCGCTCAATCCGCTTATTGGAACTGCGGCGTGTTCTCTTTTAAGCTGGACTATCTGATCCAGCTTCTCATCGATAAGGGACTGCCGATTCAATATGAGGAAATGTCCAAACAGTATGCAAGGCTCTCGAAAATTAGCTTCGATTATGAGGTGATCGAGAAGGCTCAGCGCGTCGTTGTGGTTCCTTATGAAGGGAGCTGGAAGGATCTGGGCACTTGGAACACGCTTACGGAGGAAATTCCATCGCCGATCAACGGGAAAGGGACCATCAGCGACGATTGCTACAACACCCATTTGATTAATGAACTGGATATTCCGGTAGCGGTGCTGGGACTCTCCAATGTCGTGGTAGCCACTGGCGCAGACGGCATTCTGGTTACGGAGAAATCATCCAGCCCGCGGTTGAAGGAATTTATTTCCCATATCGAACAACGGCCCATGTATGAGGAACGCCGCTGGGGATGGTACCGTGTACTCGATCTGCAAAAGCATAAGAACGGACATGAGGTTCTTACCAAGCGGATTCGGATTGATGCAGGAAAGAACTCCAGCTATCATTATCATCTGCATCGCGAAGAATACTGGACGATCACCAGCGGTACAGGTGAAGTTTGCATTCAAGACCAGGTAAAGTCCGTTCAGGCTGGGGATGTGCTCAAAATACCCGCCGGCACCTTGCATGGGATTCGCGCGCTTGAAGATCTTGAATTCATAGAGGTTCAATCCGGTACCGAAGTATCAGAGGAGGATACGATCCGGTTAACCTTTCAATGGGAAGAGATGACCCAGTTCGTCTAA	MKIILLSGGSGKRLWPLSNELRSKQFLKVLPGEEGESESMVQRVWKQLQRSNLADSSFIAAGISQIEIIRNQLPGRVPIIVEPQRRDTFPAIALAAVYLYSIANVNLQETVTVLPVDPFVEEPFFHTLSSLDRVLEESGADIALMGVKPTYPSEKYGYILSEQTEDASAGYRNVKSFKEKPSEEQASQYIAQSAYWNCGVFSFKLDYLIQLLIDKGLPIQYEEMSKQYARLSKISFDYEVIEKAQRVVVVPYEGSWKDLGTWNTLTEEIPSPINGKGTISDDCYNTHLINELDIPVAVLGLSNVVVATGADGILVTEKSSSPRLKEFISHIEQRPMYEERRWGWYRVLDLQKHKNGHEVLTKRIRIDAGKNSSYHYHLHREEYWTITSGTGEVCIQDQVKSVQAGDVLKIPAGTLHGIRALEDLEFIEVQSGTEVSEEDTIRLTFQWEEMTQFV	PGPT0022660_810	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
AK002_05270	1233			hypothetical protein	ATGAAAAAAGAAATCGTGTTTGTGGCCAATTATTTTCATCCGGATTATGCTTCGTCCGGGCAGCTGCTAACTGAACTTTGTTTGGAGCTCCAGCATGATTTTGATGTGACGGTTATCGCCGTTCAGCCGGAAAACGCAAATCACGTCCAGAAGAAAAGAATGTTTGAATACGATCAACTGGAACGTATACGGATTATCCGTCTCCGTACTCCTCAAGTGAATAAGCGAAGCAAATTCAGCCGCATCCTGTTTATTCTCTCCTATTTTCTATTAGCTGTTATCGCATTGCTTCGCATTAAGAAAGTGGATGTCATCTATACGATATCTTCTCCACCGATTATCGGCGGATTGATTGGCGCCATCGGCAAGGTGCTGAAACGCGGAAAACTCGTCTACAACATCATGGATTTTAATCCGGAGCAAGCCGAAGCTATCAGTTACACGAATCGAAAATGGCTGTTTCGTCTGGCCAAGAGAATGGATAATTTGAGCTGCCGCATAGCCGACCATATCATCACGGTTGGACAGGACATGCAAGAGACGCTGAACAGCCGCTTTCGTGGACGCAGGGTACCGAGCAACAGCGTAATTAATAACTGGACCGACGAGCAGGATATCACGCCGCTGCCCCGCAGCCATGCTAACGTGTCGAAGTTTTTGAAAGATCATGATCTGCAGGGGAAATTTATCGTGATGTACTCGGGGAATCTCGGTCTTTATTACGATCTGGAGAACATTATACGGGTCGCTTCGGATTTTAAGGATCATCCGGATATCCTGTTCGTTTTTATCGGAGATGGCGCCATGAAGCCCGAGATGCAGCGATATGTGGAGGAGAAGGGACTGGGAAATGTTCGCTTCCTTCCGTTTCAGCCTAAAGAAAACATCAAATACTCTTTATGCGCTGCGGATGTCCATTTGGTCGTCAATCAGAAAGGGATCAAGGGCGTCTCGGTTCCGAGCAAAATCTACGGCGTCATGGCCGCGGGAAAGCCGATACTCGGCGTTCTCGAGCAAGGAAGCGAAGCCGCCGTCCTAATTAAGGAAAGCGGATGCGGAGTCGTTGTGGAACCGCAACAATACCGCGAAATCTCCCAACACATAGCGAACATGTACGCATGCGGTCCGGAAACGTTGGAATTGACCGGACGTGGCGGAAGATTGTACTTGGAACGGTATCTCGCTAAGGCTCAGTCAATCGACAAATACCGGACGCTCCTGCAGTCCATATAG	MKKEIVFVANYFHPDYASSGQLLTELCLELQHDFDVTVIAVQPENANHVQKKRMFEYDQLERIRIIRLRTPQVNKRSKFSRILFILSYFLLAVIALLRIKKVDVIYTISSPPIIGGLIGAIGKVLKRGKLVYNIMDFNPEQAEAISYTNRKWLFRLAKRMDNLSCRIADHIITVGQDMQETLNSRFRGRRVPSNSVINNWTDEQDITPLPRSHANVSKFLKDHDLQGKFIVMYSGNLGLYYDLENIIRVASDFKDHPDILFVFIGDGAMKPEMQRYVEEKGLGNVRFLPFQPKENIKYSLCAADVHLVVNQKGIKGVSVPSKIYGVMAAGKPILGVLEQGSEAAVLIKESGCGVVVEPQQYREISQHIANMYACGPETLELTGRGGRLYLERYLAKAQSIDKYRTLLQSI	PGPT0023340_416	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023340-wcaI-K03208	NA	NA
AK002_05271	1290			hypothetical protein	ATGAATCACAATCTGAGTTTCCCTGCTGATACATTGCATAATCGGAGCAGAAGCTCAGTGGCCAACTTGGGGGGATTCGGATTTATAGCAGCGTTGCTGTTATATGCCTTGTTCAGTTCCCCTTTTCCAGCAGAGCCCGGCATCGCAGAAGCTTTGATTGCTGTTCTTCTGATCTTGTTTGTATCGATCCCGACCGGAATCATTGTTATGGGCGGCGGCTTCTCGTTATATCGCCATTACGGGACCGTGCCTGTCGTTATTCATGCCGGCTTCTTCTTTTTGCTGTGGATTGGGCTTCTGAACGGCGGTGTTGTTTATGGGTGGGATATGACGGATATTATTCGCGATTTGATTCCGTGCGTGTATCTGTTCGTTCCGCTCCTGCTCTTGCCGGCAATGAAACGCTCAACGCTCAATTGGCTTTCGATATTGCCTTGGATCATCTCCGTAATGGGCGTTATTTTATCCATCAGATTCTACGTGGTTGTACAGATTTCCCCTCTGGAAGTGGGCAGAATGTATTACTTTGATAATTTTCTGTATCTTCCGTATGATCCCAGCGTTTCGTTTGCCGGCGTATTTCTTCCCATCATGGCGATTCATACTTGGAAAAGCTCCAGCCCGTTTCGCTGGCTGGGGAGCCTCGTGATGCTGACTGGCGGTTTCCTGGCCCTCGGGTCTCTCATGGCCGTTGCGCAGCGCGCGCCGCTTGCGCTTGCTATGCTGTGCTTTGCCGTTTACTTCATCGTAAGCTCGCGCAAATCGATGAATAAGCTGATCATTGGTCTGATCATTCTCGTCGCCGCAGGGATGCTTGCCCAGGAGCAAATATCCAACTCATTTGAATTGTTGGTATCCAAACAGGAGGATTTCGGCGCGAACGGAAAGACGGATGAGCTCGCCGCCGTACTGGCTGAAACGTCCGCCTCTCCATATTCCATGCTGCTGGGAGTGGGGTGGGGAGGCCTGTTTCACGATCCGGCGGTAAACAACATTCTTGTATCCTACACTCATTCGGCGGTTAGCTTTTTCCTGCTCAAGGGAGGGCTGATCGGGATTGCAGTGTTGATGACTTATCTGATCTGGATCCTGTATAGGGCTCTTCAGCGGTTTACGATCACCATGCTCCCCTACATGCTGGCAGCCTTTGTACCTGTCATTATCGGCTTGTTGTTTCAGGTCAGCTATAAAACCTTGTCGTACGGAATGATCCTTACCATGATCTGTTTGATACATAAGGATCCCGGTAGCGTTCATTCAGGCGGCGAAAAGAACATTCCAAGACAGTAA	MNHNLSFPADTLHNRSRSSVANLGGFGFIAALLLYALFSSPFPAEPGIAEALIAVLLILFVSIPTGIIVMGGGFSLYRHYGTVPVVIHAGFFFLLWIGLLNGGVVYGWDMTDIIRDLIPCVYLFVPLLLLPAMKRSTLNWLSILPWIISVMGVILSIRFYVVVQISPLEVGRMYYFDNFLYLPYDPSVSFAGVFLPIMAIHTWKSSSPFRWLGSLVMLTGGFLALGSLMAVAQRAPLALAMLCFAVYFIVSSRKSMNKLIIGLIILVAAGMLAQEQISNSFELLVSKQEDFGANGKTDELAAVLAETSASPYSMLLGVGWGGLFHDPAVNNILVSYTHSAVSFFLLKGGLIGIAVLMTYLIWILYRALQRFTITMLPYMLAAFVPVIIGLLFQVSYKTLSYGMILTMICLIHKDPGSVHSGGEKNIPRQ				NA	NA	NA	NA	NA
AK002_05272	1185			hypothetical protein	ATGGGGGGGCTTGCCTTTATTCTGGCCCTCTTGATTTACGCGATTTTCAGCGCGCCCTTTCCAGCCAATCCCGGCATGACGGAAGTGCTGATCGCGGCGTTGCTGGTATTGTTTGTTTCGCTTCCGACAGGAATTCTGGTCATGAGCGGCGGTTTTACGCTGTATCGCAGATATGACACCGTCCCCATGCCGCTGCATTTGGGCTTTTTTGTGCTGCTGTGGCTGGGGCTGTTGAATGGAGGCGTCATCTATCGTTGGGATTCAACGGATATACTACGTGATCTTATTCCGTGCGTATATTTGTTTGTCCCACTATTGTTGCTGCCCGCAATGAATCGTTCCAAATTCAAATGGCTGTCTATTCTTCCGTGGCTCATCGCGGTAATGGGCGTTATTTTATCGATCAGATTCTATATGGAAGTTCGCATTTCGCCGCTCGATATCGGGAAAATGTATTATTTCGATAATTTTCTGTATTTGCCGTATGACCCGAGCGTTTCGTTTGCCGGCGTCTTCCTGACGATTATGGCCGTGCATACGTGGAAAAGCACGAATCCGCTCCGCTGGCTAAGCAGCCTGGCCATGCTGATCGGCGGTTTTTTGGCGTTAGGCTCGCTCATGGCCGTAGCGCAGCGGGCCCCGCTGGGGTTGGCTGCCCTGTGCTTTGCCGTGTATTTCGGCGTAAGTTCCGGAAGGTCCATACGGAAGCTGATCGTCATTATCGTGATCTTGATTGGAGCCGGGATTCTGGCCCAGGAGCAGATCACGAGCTCGTTTGATTTGCTGTTATCCAAGCAGGTGAACTATGGAGCGAACGGGAAGACGGATGAATTGGCGGCTGTGCTTCAGGAAACGTCCAAGTCGGTGTATACGCTGCTGCTTGGTATAGGCTGGGGGGGACTGTTTTTTGATCCGACCTACATGTCTGAGGTCTCGTTTACTCATTCGGCGTTTACCTTCTTCCTGTTAAAGGGAGGGGTTATCGGTATTACTGTCTTTTTGGCTTATCTGAGCTGGATTATATGGAAGTGCTTAAAGCGCGTAAACATGCAGAATCTCCCGTACATGCTTGGGGCCGGGGTTCCGATCATGATCGGATTGTTGTTCCAGCCCAGTTTCAAGACGCTCTCCTACGGAATGCTCCTCACCGTTCTGATCTTAAAAGATAAGGAGTCAATCCCATGA	MGGLAFILALLIYAIFSAPFPANPGMTEVLIAALLVLFVSLPTGILVMSGGFTLYRRYDTVPMPLHLGFFVLLWLGLLNGGVIYRWDSTDILRDLIPCVYLFVPLLLLPAMNRSKFKWLSILPWLIAVMGVILSIRFYMEVRISPLDIGKMYYFDNFLYLPYDPSVSFAGVFLTIMAVHTWKSTNPLRWLSSLAMLIGGFLALGSLMAVAQRAPLGLAALCFAVYFGVSSGRSIRKLIVIIVILIGAGILAQEQITSSFDLLLSKQVNYGANGKTDELAAVLQETSKSVYTLLLGIGWGGLFFDPTYMSEVSFTHSAFTFFLLKGGVIGITVFLAYLSWIIWKCLKRVNMQNLPYMLGAGVPIMIGLLFQPSFKTLSYGMLLTVLILKDKESIP				NA	NA	NA	NA	NA
AK002_05273	849			hypothetical protein	ATGAAAAATAAAATCCCGGTGTCCGTCATTATCATGACAAAGAACGAGGAAAAAAACATAGCCAAGTGCTTGGCTTCAGTATCCGCTTTTGACGAGGTGTTCGTCGTGGATTCCAACAGCACGGATCGAACATGTGCCATTGCAGGGGAAATGGGTGCACATGTTATCAATTTTACATGGAATGGCCAATATCCGAAGAAAAAGCAATGGTGCCTTGAGGAGCTGCCGTTCCGCAATGACTACGTGTTTTATGTGGATGCGGATGAAGAAGCCACTCCCCGGCTGGTCGCCGAGATAGAGGGGTTGTTTCAAGAAAAGCGGGATCTGGCGGCAGGCTATTTCGTGGCGTATGACTATGTATTCATGAACAAGGTGCTGAAGCACGGGCACAGGATGTATAAGCTGGTATTGTTCCACCGTCGGTTAGGCAGATTTCTGGACCATGACGATCTGTCGGCGTCGAACATGTGGGAAGTGGAAGGGCATTATCAGCCTCAGATTGATGGAAGTACCGGGGTGCTCAGCAGTTGTATGGTGCACTATGATCATGATTCTCTGTTTGATTATTTCGCGAAGCATAACCGTTATTCGGATTGGGAGGCGGTGGTGCGCACCAATGGCGGCTTTCGGAACCTGAACGAATCCCAAATTTTCATCCGAAGCCTCCAGAAGAAGCTGTTCGACCGGATGCCTTTGAAGTGGGCGGTTGCATTTATACACTCTTATATCATTAAGCTTGGCTTTCTCGATGGTTCCGCCGGCTTCCACTATGCTTTCGCACGTTCGGTTTATTACTGGCAGATCGGAATCAAGATGTCGGAGCTCCGGAAAGTAAGCCAGGGGACATGA	MKNKIPVSVIIMTKNEEKNIAKCLASVSAFDEVFVVDSNSTDRTCAIAGEMGAHVINFTWNGQYPKKKQWCLEELPFRNDYVFYVDADEEATPRLVAEIEGLFQEKRDLAAGYFVAYDYVFMNKVLKHGHRMYKLVLFHRRLGRFLDHDDLSASNMWEVEGHYQPQIDGSTGVLSSCMVHYDHDSLFDYFAKHNRYSDWEAVVRTNGGFRNLNESQIFIRSLQKKLFDRMPLKWAVAFIHSYIIKLGFLDGSAGFHYAFARSVYYWQIGIKMSELRKVSQGT				NA	NA	NA	NA	NA
AK002_05274	801			PGL/p-HBAD biosynthesis glycosyltransferase	ATGATACGGACTCAATGGGTAGAAGACAGATCTGAAGTTTTTCTCTCCGTAGTCACGGTCTGCAGAAATAATCTACAGGGTCTGATCAAAACGTGGCAAAGCGTGAAGTCGCAATCCTGCTCGCTCGAATGGATCGTCGTTGACGGCAACTCGGATGACGGCACGCTGGCTTTTCTTCAGAATATTGAAGATGAACGAGTGTCCTTTGTCAGTGAACCGGATCAAGGGATATATGATGCGATGAATAAAGGACTGGAATGTTGCAATGGTCAGTATGTTGTCTTCATGAATTCCGGCGATCGATTTTATGATGATACGATTGGCGAACGGCTTCGTGTGCAAGCTATCCAGCATCAACTCCCGGATTTGCTGTATGGCGATGCGCTTGAAGAAGCGCGGTCGGGTGAACTGTTGTATAAGACGGCCCGCAGTCATAAGCGCATGTGGTACGGCATGTTTACGCATCACCAATCCATGGCTTTCAGGCGGGGAAGTTTGAGCAGCATCAGGTATCGTCTGGAATACCCGATCGGAGCGGATTATGCCCTGACAGCGGAACTCTTGTTGCAGGGCGGGACAACAGCGTACCTCCGTAAACCCATATGCATTTTTGAGCAGGGCGGTATCTCCCAAACCCAGCATAAACAAGGCCAACGGGACCAGTGGTTTATCCGTAAATCCATTCTCGGGATGCCAATCGTCCTCCGCGCTGCGATCGCGCTGCTGCAATGGGGCGTTCGTTTGGTTAAACATAGCTTTCCTAAATTCTATAAGAGGGTGCGCTTTTCCTATGAAAAATAA	MIRTQWVEDRSEVFLSVVTVCRNNLQGLIKTWQSVKSQSCSLEWIVVDGNSDDGTLAFLQNIEDERVSFVSEPDQGIYDAMNKGLECCNGQYVVFMNSGDRFYDDTIGERLRVQAIQHQLPDLLYGDALEEARSGELLYKTARSHKRMWYGMFTHHQSMAFRRGSLSSIRYRLEYPIGADYALTAELLLQGGTTAYLRKPICIFEQGGISQTQHKQGQRDQWFIRKSILGMPIVLRAAIALLQWGVRLVKHSFPKFYKRVRFSYEK	PGPT0023325_20	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023325-wcaE-K13683	NA	NA
AK002_05275	1461			hypothetical protein	GTGAGAAGCAAACGATCGTCCAGCACGCGGCATAAGTTAGAAAGGTTTCACGATCTTCGCAAACTCACCCGTAATCGAACGGTCAACGGCGGTTTGTGGATATTTGCAGGGCGGGCATTCTTTGCAGGGTCCGCGCTGCTCATTAATATCTTACTGTCCAGGGTACTGAATACGGCAGCCTTCGGCGCCTATTTGATGGCTTTCAATATCGCCTTTTTTGGCGGCGTGGTTGGCACGCTGGGTTTGAACCAGAGCATCATACGTTTTTTGGCCGAGCAGAGGGAGAAAGGAAAGCAGACATGGGCCCGTAAAACCGCGCTGCTGTCTCTGAAGATTGCGATGATCGGAGCAGCCGGTACAGGCATACTGTATACACTCCTGCAGCTGACGCTGCTTCGAGGCGTTTTGGGCTCGGAAATTATGGCATCGGCCGCGTTATGGACCGGGCTGTGGATCATGTTAACGGTTCTGCAAAATGTAATGGCCGAGACCTTTCGGGGACACGGTGATGTGAGGCAGGCTACATTGTTTAGCGGCGTTTTGTCCAACTTTCTCATGCTGGCAGGTTTAGGGTTGTTGATGTGGCTCGGGCGTTCATCATTATCGTTGGAGCATGCGCTCATCTTGGTTACGGTCTGCATGGGGATTAGCTGCTTCGTCGCCGGTTGGAGATTGCTGAAGCTTCTCCAGGGAGGGTTCCGGAACCAAACGAATGAGCCGGCCGCAGATCATGGGCCAAACGCCGGGCAGCTGCTTGCCGTCTCTCTCCCGATGATGGCTTCGAACGTCGCGCTGTTTATGCTCACCTCTAGCGATATCTGGATTCTGGGCGTTTTTTACGATGAGAGCGAAGTGGCGATTTATGGTGCAGCCGTACGCTTAATGGCCGTGCTTAATTTCTTCGTCGTGTTGATGAATACGCTGATGACAAGCATCATTTCCAAGTATTTCGGCAGCGGCCAGTTCCCGAGCATTCAAAATGCCGGCCGGATCATTGTTGGCATATCTACGCTGCCCGCAATCGTCATTGGAATGGTTTTTATGTTGATGGGCGAGAAAGTGCTTCAATTGGCATTTGGATCTGCCTATGGCTCAGGTCATGCCATTCTGGCTGTTTTGTCGCTGGGTCAGCTCATCAATTTATTCGCAGGCCCGTCAGGACTTCTTCTGACCTTAACCGGCCATGAGCGGGCCATGTTGAGAATCACGCTGATTACCAGTGTCGTGACGGTAATTGCGGCCGTGACGGTCGTTCATGCATGGGGGCCGTTTGCGCTTGCCGTCGTGATGGTATGCGGTTTGCTTGCGCAGAACGGTTGGATGTGGGTAGAGGTGCGGCGAAAACTCGGCATTTCGGTGCATTTCCACCCCGTTGATCTGATACGTCAGTTGATGCGTCTGGCAGGCAGGAACAAAAACATAGAACAGCAAGTTCGATTAAAGGGAGCCAGTTACAAATGA	MRSKRSSSTRHKLERFHDLRKLTRNRTVNGGLWIFAGRAFFAGSALLINILLSRVLNTAAFGAYLMAFNIAFFGGVVGTLGLNQSIIRFLAEQREKGKQTWARKTALLSLKIAMIGAAGTGILYTLLQLTLLRGVLGSEIMASAALWTGLWIMLTVLQNVMAETFRGHGDVRQATLFSGVLSNFLMLAGLGLLMWLGRSSLSLEHALILVTVCMGISCFVAGWRLLKLLQGGFRNQTNEPAADHGPNAGQLLAVSLPMMASNVALFMLTSSDIWILGVFYDESEVAIYGAAVRLMAVLNFFVVLMNTLMTSIISKYFGSGQFPSIQNAGRIIVGISTLPAIVIGMVFMLMGEKVLQLAFGSAYGSGHAILAVLSLGQLINLFAGPSGLLLTLTGHERAMLRITLITSVVTVIAAVTVVHAWGPFALAVVMVCGLLAQNGWMWVEVRRKLGISVHFHPVDLIRQLMRLAGRNKNIEQQVRLKGASYK				NA	NA	NA	NA	NA
AK002_05276	999	gmd_1	COG1089	GDP-mannose 4,6-dehydratase	ATGAAAAGAGCATTAATCACTGGCGTTACCGGTCAAGACGGTTCGTATTTGGCTGAGTTTCTGCTAAGCAAAGGGTACGAGGTTTTTGGATTGCGCCGCCGGACCAGCACACCCAATTACGAGAACGTAACCCATATTAAAGATAAGATTCACTGGATATCCGGTGATTTGACCGATCTCGCCTCGTTAATCGAAGCGGTCCGTATCGCCGATCCGCACGAAGTGTATAACCTGGCAGCCCAGTCCTATGTAGCCGCTTCTTGGCCGCAGCCGCTGGCAACGGGCCAAATGACGGCGATCAGCGTAACCAATATGCTGGAGGCGGTCCGGCTGGTGAAGCCGGAGGCGCGTTTCTATCAGGCGTCCAGCAGCGAAATGTTTGGCAAGGTCGTGGAAACGCCTCAGAAAGAGACAACGCCTTTCTATCCTCGGAGCCCTTATGGCGTAGCCAAGGTATACGGCCATTGGATCACGGTGAATTATCGCGAAAGCTTCGGGATGTTCGCATGCTCCGGCATTTTATTTAATCATGAGTCGCCCAGAAGGGGATTGGAGTTCGTTACCAGGAAGGTCACGGATGCCGTTGCCCGGATCAAGCACGGTTTGCAGCAGGAGCTGCGAATGGGGAATCTGGATGCATTGAGGGATTGGGGATTTGCAGGGGATTATATCAAAGCCATGTGGCTCATGCTCCAGCAAGAGCAGCCGGACGATTTCGTGATATCAACGGGCGAAATGCACACCGTAAGGGAACTCCTTGAGGTAGCCTTCTCTTACGTGGGCTTGCATTACGAGGATTACGTCGTCATTGATCCCGAATTCGTGCGTCCTGCAGAGGTTGACCTGCTCCTTGGCGATTGCACAAAAGCTAAAGAGCAGCTCGGGTGGGAGCTTGAGGTCAGCTTCGAACAGCTGATTAAGATGATGGTAGACGAGGACATGAAGCGGGTGCGCGCAGAGATCAAATACCAAGAAGCGCTGTCGGCGGCATACGTGTGA	MKRALITGVTGQDGSYLAEFLLSKGYEVFGLRRRTSTPNYENVTHIKDKIHWISGDLTDLASLIEAVRIADPHEVYNLAAQSYVAASWPQPLATGQMTAISVTNMLEAVRLVKPEARFYQASSSEMFGKVVETPQKETTPFYPRSPYGVAKVYGHWITVNYRESFGMFACSGILFNHESPRRGLEFVTRKVTDAVARIKHGLQQELRMGNLDALRDWGFAGDYIKAMWLMLQQEQPDDFVISTGEMHTVRELLEVAFSYVGLHYEDYVVIDPEFVRPAEVDLLLGDCTKAKEQLGWELEVSFEQLIKMMVDEDMKRVRAEIKYQEALSAAYV	PGPT0022770_2457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0022770-gmd-K01711	NA	NA
AK002_05277	960	fcl_1	COG0451	GDP-L-fucose synthase	ATGAATTTAGATTCCCGAATATATGTGGCTGGTCATCGCGGTCTCGTGGGATCTGCCATTGTTAGGGCATTGGAGCAGCAAGGATATCGCAACCTGGTTACCCGTACCAGTCAGGAGCTGGACTTGCGTGAAGGTGATCGCGTGGAACGCTTCTTCAGCAGTGAAGGGATAGAGTATGTGTTTCTAGCCGCCGCCAAAGTCGGCGGTATCATTGCGAACCGGGATTACCCAGCGGATTTCATACGGGACAATCTTCTAATCCAGAATAATATCATAGATCTTTCCTATCGGTACGGGGTAAAAAAACTGCTCTTTCTCGGATCTACCTGCATCTACCCCAAACTGGCTCCGCAGCCAATGAAGGAAGAATATTTGATGACCGGCGCCCTGGAGCCTACCAATGAGCCCTATGCCGTTGCCAAAATCGCGGGAATCACGATGTGCCAATCATACAATCGGCAGTATGGTACCCGGTTCATTTCGGCTATGCCTACGAACTTATACGGCCCGAACGATAACTACGATCTGGAAACCTCCCATGTTCTTCCCGCGCTGCTGCGCAAGATACACGAGGCTAAGGAGACAGGCCAACGCGAGGTGGAAATTTGGGGTACCGGTCAGCCGAAGCGCGAATTCCTTTACGCTGACGATCTTGCCGATGCCTGTTTGTTCCTGATGAAGCATTACGAGGAGAATACAATCGTCAATATCGGTTGCGGAGAGGATGTGTCCATCCGGGAACTTGCAGAGAGCATAGCCTCCACTGTCGGTTATGACGGAAGTTTTGTCTATAACGCCTCAAAGCCCGACGGTACACCCAGAAAGCTGGTGGATGTCAGCAAGCTGACAGCCCTCGGCTGGAAGCCGTCGATCAGCCTTGAGCAAGGATTGGCCCGAACTTATGAGCACTATTTAGAATCGCAACAGATCTACAGTAAATCCGTTGGAGGATCAATATGA	MNLDSRIYVAGHRGLVGSAIVRALEQQGYRNLVTRTSQELDLREGDRVERFFSSEGIEYVFLAAAKVGGIIANRDYPADFIRDNLLIQNNIIDLSYRYGVKKLLFLGSTCIYPKLAPQPMKEEYLMTGALEPTNEPYAVAKIAGITMCQSYNRQYGTRFISAMPTNLYGPNDNYDLETSHVLPALLRKIHEAKETGQREVEIWGTGQPKREFLYADDLADACLFLMKHYEENTIVNIGCGEDVSIRELAESIASTVGYDGSFVYNASKPDGTPRKLVDVSKLTALGWKPSISLEQGLARTYEHYLESQQIYSKSVGGSI	PGPT0022775_1272	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0022775-fcl-K02377	NA	NA
AK002_05278	705	wecA		UDP-N-acetylgalactosamine-undecaprenyl-phosphate N-acetylgalactosaminephosphotransferase	ATGAATATCGAAACGATTGAAACAAGGACGTTGGAAACCGCTGCAGCCGAAGAATTTCCCGTTATGACAGGTGCGAGCTCTTTTCCGGTGAAGCCCCGTTTAGGGTACTTCCGGCTGAAACGGGCAACGGATGCGATGCTGTCCGCTGTTGGCCTTATTCTACTTCTGCCTCTGTTTATGATCATCTTCTTGTGCATGAAGGTGGAGAGCCCCCGAGGACCGATGCTGTTCTCGCAGATTCGGGTAGGCAAGAACGGAAAAACGTTCAAAATGTACAAAATTCGCTCCATGGTCGTTAATGCGGAACAGCTTCAACAGAAGCTGGTTCATCTAAATGAGGTTGAAGGTGCCATGTTTAAAATGAAGAACGACCCACGGATCACGAAGGTGGGACGCATTCTTCGAAAAACGAGCTTGGATGAACTCCCGCAGCTGTGGAACGTACTGAGAGGCGAGATGAGCCTGGTCGGACCGCGGCCGCCGCTCCCTGCGGAAGTAGAGGCCTACACCCCTTACGATATGCAGCGGCTGAGCGTGGTTCCGGGCTGTACCGGCTTGTGGCAGGTAAGCGGCAGAAACGCCCTGGGGTTCCGCGAAATGGTGGAGCTGGATTTAAGGTACATCCGTGAACAATCCACGACCCAGGACATTCGGATCCTGTTCAAGACGGTCCGGGTGTTCATGGGGTCCAAAGATGCTTTTTAG	MNIETIETRTLETAAAEEFPVMTGASSFPVKPRLGYFRLKRATDAMLSAVGLILLLPLFMIIFLCMKVESPRGPMLFSQIRVGKNGKTFKMYKIRSMVVNAEQLQQKLVHLNEVEGAMFKMKNDPRITKVGRILRKTSLDELPQLWNVLRGEMSLVGPRPPLPAEVEAYTPYDMQRLSVVPGCTGLWQVSGRNALGFREMVELDLRYIREQSTTQDIRILFKTVRVFMGSKDAF	PGPT0026575_116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-SUCCINOGLYCAN_METABOLIC_PATHWAY,PGPT0026575-exoY-K16566	NA	NA
AK002_05279	894	gtaB_1	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGGCAACCATTAAAAAGGCTATCATTCCTGCTGCCGGACTGGGTACTCGATTCTTGCCAGCTACAAAAGCAATGCCCAAAGAGATGCTTCCGATCGTGGATAAGCCTACGATCCAGTACATTGTGGAAGAAGCGATTGAGTCCGGCATCGAGGACATCATTATCGTTACAGGCAAAGGCAAGCGGGCGATTGAGGATCATTTCGACCATGCTTTTGAACTGGAGCATAAGCTTAGGCAGACCAAGAAGCTTGAATTGCTTCATGAGGTGCAGCGCCCCTCTCGCATGGCGGACATTCATTATATTCGCCAGAAAGAACCCAAAGGGCTGGGGCATGCCGTATGGTGCGCACGAAAATTCATAGGCAACGAACCGTTTGCCGTCCTGCTCGGGGATGATATTGTTCGTGCGGAGAAGCCGTGCATCAAGCAGTTAATCGAACAGTATGAACAGACCCGGAGTTCCGTGATTGGCGTTAAGTACGTATCTCCTGAGGAAGTACACCGATATGGAATCATTGATCCGTATCCGGTGCCCACCATCGGAGGGCTGTCCAGAGTGCAAGGAATGGTAGAAAAACCGAAAGCCGAGGACGCACCTTCCAATCTGGCGATCATGGGACGTTATATTCTGACCCCGGCGATTTTCTCTTACCTGGAGCAGATGGAGGAAGGAATCGGCGGAGAGATCCAACTAACGGATGCCATTCAGCGAATGACCGAAATCGAGGAAGTGTATGCCTACCAATATGAAGGGACGCGCTATGATGTCGGGGAAAAGCTCGGGTTCATTCTTACATCGGTTGAATTCGCGTTGATGAAAGAGGAGCTGCGGCTCCCCCTTTTGCACGGACTTGAGCAAATGATACATAAGAACCGAACGTTGGCTAGATAG	MATIKKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIVEEAIESGIEDIIIVTGKGKRAIEDHFDHAFELEHKLRQTKKLELLHEVQRPSRMADIHYIRQKEPKGLGHAVWCARKFIGNEPFAVLLGDDIVRAEKPCIKQLIEQYEQTRSSVIGVKYVSPEEVHRYGIIDPYPVPTIGGLSRVQGMVEKPKAEDAPSNLAIMGRYILTPAIFSYLEQMEEGIGGEIQLTDAIQRMTEIEEVYAYQYEGTRYDVGEKLGFILTSVEFALMKEELRLPLLHGLEQMIHKNRTLAR	PGPT0014875_3008	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0014875-gtaB|UGP2|galU|galF-K00963	NA	NA
AK002_05281	762	ywqC	COG3944	putative capsular polysaccharide biosynthesis protein YwqC	GTGGAACTTGAAATTAAAGAGTATGCAACCGTGTTGAAGAAAAGGCTGTGGTTAATTCTCCTCGTGGTTGCCGTGGTCTGCGTACTCGTTGGATTTTACAGTTATCGAATGGTTGAACCCCAGTACGAAGCAAGCAACAAGATGATCGTGACCAATAAGACCGAAGAAAAAAAGTCTGTCCTTAGTTCAGATGATATGGATATGGGGATGCGTCTGGTTTATACATACAAAGAAATTATCGGAACTAGCGTGATTCTGGAAAAAGTGGTGGAACAGCACCCGGAATTGAAACTAACCGTGAAAGACCTGATGGATATGATGGTGGTCGATACCGTACAGGATACACCTGTCATGACGATATCCGTCAGGGATTATAGTTACGATGGCGCGCTCAAAGTAGCCACGGCCGTTGCCGACGTATTCAAATCCGAAATATCCTCTATCATTCCCGGCGGGAACATCACCATCCTATATGAGAATAACGCCGATCCCAGACCGGTCACTCCAAGTCCTTTGCTGTATGTTGTGATTGCTTTCGTTGTGTCGCTGATGCTGTCGATAGGTTTCTGTTTCTTGCTCGAATATTTGGATGATTCCATCCGCACTGACAAAGAGGTTGAACTGGTTCTCGGACTTCCGACACTGGCCGTTATACAGCACTTCAAGTCAAGTGACTTCAAAGCGAGAGGCAGCTCCGTATCAAGACGCAGTCCGGTTGAACCGCCCGGTTCCGGAAAGGCCATCGTTAACGCTTCCGAATAA	MELEIKEYATVLKKRLWLILLVVAVVCVLVGFYSYRMVEPQYEASNKMIVTNKTEEKKSVLSSDDMDMGMRLVYTYKEIIGTSVILEKVVEQHPELKLTVKDLMDMMVVDTVQDTPVMTISVRDYSYDGALKVATAVADVFKSEISSIIPGGNITILYENNADPRPVTPSPLLYVVIAFVVSLMLSIGFCFLLEYLDDSIRTDKEVELVLGLPTLAVIQHFKSSDFKARGSSVSRRSPVEPPGSGKAIVNASE				NA	NA	NA	NA	NA
AK002_05282	498			hypothetical protein	ATGATGGTAGCGCGAAGGGAAGCATGGGCTCAGGACCAAAGTCTTCGACTCTATCGTAACGGGAGAGGCGAACTAGAGGCGGAAATGAACCGAGAGACAATCGGTAAAGTGCGCCTTGTTCTGACATTTCCGGTCACGAAGCCGGAGGGGTACATTTCTGTACGCTCTGCATTGGATCAAGAGGTTCATTTTATTCTTTCGCTGGATGAACTGGATAAGAAAAGCCAGTCGGCTGCCAGGGAAGAACTGCAGCGAAGCTATTTGATACCCGAAATATTAAAAATTATGGGAATCAAGCGCCGGGGCAGGAATTGGCTGTGGGAAGTGGAGACGACGTATGGCAGGATCTCATTTCGCATAGACCAGCCGCAAGAGAGCATCGATTTCCTCTCGGAGAATGATTATACAATCAAGGATACGGAGGGCAGACGATACGTCCTCCGCGATGTAACACGTCTCGACAAACAGAGCAAGCTCTATTGGAATAAGATCAATTAG	MMVARREAWAQDQSLRLYRNGRGELEAEMNRETIGKVRLVLTFPVTKPEGYISVRSALDQEVHFILSLDELDKKSQSAAREELQRSYLIPEILKIMGIKRRGRNWLWEVETTYGRISFRIDQPQESIDFLSENDYTIKDTEGRRYVLRDVTRLDKQSKLYWNKIN				NA	NA	NA	NA	NA
AK002_05283	2241	btuD_13		Vitamin B12 import ATP-binding protein BtuD	ATGAGGATATTACGAAAACGAGGATCGAGGATTTCGGAACGATCGGAAACGCACGGCAAAGAGACGCCCTGGCTAATATTGCACGGAGACTTGAATCGTGATGTGCGTTTTGAACCGTTGCAGCTTGTGTTTACAGCTTCCAGTCTGCAGGTGCTGGATCGGGAAGGAAGGGAATTGCTGGAGATTCCCAAGCGTAAAATGATGAACATCGACCTGGTTGAGGTCATCGGCGGTGGTTGTCTTGTCGCCGGCACTGCGGATGGCCCGGTTGAAATTTTACGATTCACGGAACCGTACCTTGAGTCCTGTCGCAAGGCTCTGCCGCAAGTCGAACAGTGGATAACGGATTCATCGCCGCATCGAATGGACCAACGCGGCGATTTGGACGAAAAGAAGGGGAAATGTGACCGCTGCGGACGCGCAAAACGGACAGCTTCCGGTTTCTGCATACGCTGCAATCCCAAATGGAGTACGGTGTCCCATCTTCTTCAGCGGAGCAGAGCCTATAGATCTTCTATCATGATGATGGGAATCATCGTAATCGTTACCGTTCTTGTATCCCTGGCACCACCCTACGTAATCAAATGGATCATTGATGAAATATCATCGCCTACTCGCTCAGACGGGGATTCCGCGTCATTGATAGGGTTGGCCGTAATGCTCGCCGGTTTGTATATTCTGCAGGCTTTGCTTCAGATGATCGAAGGTTATACGGCCATTAGGATCGGTGGACGCTTCCTTGGGGAGATTCGCAGAGATATGTTTCATGCCCTGATGAAACAATCGATGCGTTTTTTTGATAACCGGCAGGTATCCCAATATATCGGACGCATTAATCAGGATACGGATGCGCTCAAAAATTTTATGTCGCAAGGGATTGTTCACCTGACCTCTCAGTTTTTATCTGCTATTTGTATTATGGGAATGTTGTTCTATTTGGATTGGCGTTTGACCTTGATGATCCTTCTGCCGCTGCCGCCGCTTGGAATCCTTGTGATGCGTCTGTGGCCGAAAGTCCGGGATATGTGGTATGCCCAGTGGCAGTCGTCCATTCACGTTCAAAATATGGTAGGGGAGGCTCTTCAGGGAATACGAATTATAAAAGCCTTCTCCAAGGAACAAGCCGAGAAAACACGTTTTGATCAGGTCAATCAAAAATATGTTCATCGCATGATTTCAATTCAAAACTTATGGATGTTCATGACGCCGGTACTCACGTTATTCATTTCACTGTTTGCAGCCCTCGTATGGTTTGCCGGAGGACGGAGTGTGCTGGAAGGCAGCATGACTGTGGGAACATTAAGCGCATATGCATCGTATTTGATCATGTTCTTCGGTCCTGTCAAATGGCTGGCGCAATCAGCCAGCTGGATCAATGAGGTGCTGGGATCGGCCGAACGAATCTTTGAGGTGATTCAAACGCCTGCTGAAGTGAAGGATGACGAGAAAGCTCCGCGCTTTAACAACGTTCAAGGTGAAATCGTCTATAATCAGGTGGCTTTCGGCTATACGCAAGATCGACGAATTCTCCAAGGGATCAACCTTCGAATAGCACCTGGCGAGATGATAGGCATCATCGGTCCGTCAGGAGCGGGGAAGTCGACCTTGATCCATCTGTTGTGCCGATTTTATGATCCGGACGAGGGAGACATCTATGTGGACGGACGAAGGCTTACCAGCATTAAGCAAGAGGAGTTAAGGAGAAATATTGGGGTAGTGTTTCAGGAAACCTTCCTCTTCGATGGGACCATAGCGCAGAATATCGCTTATGGATGCCCCGAAGCCAGTACAGAGGACATTATTCAAGCGGCAAGGACCGCAAATGCGCATGACTTTATATGCCGCCTCCCTGACGGCTATGAGACAAAGGTAGGAGAGAGAGGGCATCGGTTGTCCGGAGGAGAGAGGCAGCGTATAGCCATTGCCAGAGCCGTGCTGCTCGATCCCCCGATTCTGATCTTGGATGAGGCGACCTCCTCGGTCGATGTGGAGACCGAAGCTGTCATTCAGGAGGCGCTGGATACGGTGGTTCAAGGCAGAACGACTCTTGTCATTGCTCATCGGCTGTCGACTCTTCGGCGGGCGGATCGGCTTCTGGTTCTTGAAGGAGGGAGGCTAGTCGAGAGTGGAAGCCATGAAGAGCTTCTGAGACGCCAAGGGGTATATCATCGTTTGCTTCATGCAGCGCAGGCGAAAGCCCCAAAAGACGAATGGATACCGATGCAGGAGGTTGCTACATGA	MRILRKRGSRISERSETHGKETPWLILHGDLNRDVRFEPLQLVFTASSLQVLDREGRELLEIPKRKMMNIDLVEVIGGGCLVAGTADGPVEILRFTEPYLESCRKALPQVEQWITDSSPHRMDQRGDLDEKKGKCDRCGRAKRTASGFCIRCNPKWSTVSHLLQRSRAYRSSIMMMGIIVIVTVLVSLAPPYVIKWIIDEISSPTRSDGDSASLIGLAVMLAGLYILQALLQMIEGYTAIRIGGRFLGEIRRDMFHALMKQSMRFFDNRQVSQYIGRINQDTDALKNFMSQGIVHLTSQFLSAICIMGMLFYLDWRLTLMILLPLPPLGILVMRLWPKVRDMWYAQWQSSIHVQNMVGEALQGIRIIKAFSKEQAEKTRFDQVNQKYVHRMISIQNLWMFMTPVLTLFISLFAALVWFAGGRSVLEGSMTVGTLSAYASYLIMFFGPVKWLAQSASWINEVLGSAERIFEVIQTPAEVKDDEKAPRFNNVQGEIVYNQVAFGYTQDRRILQGINLRIAPGEMIGIIGPSGAGKSTLIHLLCRFYDPDEGDIYVDGRRLTSIKQEELRRNIGVVFQETFLFDGTIAQNIAYGCPEASTEDIIQAARTANAHDFICRLPDGYETKVGERGHRLSGGERQRIAIARAVLLDPPILILDEATSSVDVETEAVIQEALDTVVQGRTTLVIAHRLSTLRRADRLLVLEGGRLVESGSHEELLRRQGVYHRLLHAAQAKAPKDEWIPMQEVAT	PGPT0029040_752	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
AK002_05284	438			hypothetical protein	ATGCTGGATGAGGCCAGAATCGCCAACGAATGGATGGAAAGACGCGGGGGGATCCAACTTCCCTCCTTGGGGCGCAGCATGTACCCCTTCATGGTGGAGGGGGAGCTAAGTTCTTTTGAAAAGCTCAATCATGAGGAAGCCAGAATCGGTGAAGTCTATCTCTTTGTTACAGGAGCGGGAAGCCTCGTCTGTCATCGGCTTCATGACATTCATGGCGAAGGCGGCTTGAAACGATACATATTTAAAGGGGACACCAACATTGTCCCGGATGAGCCGGTACGGAAAGAACAAATCTTGGGACGGTTTACCGGTACTTATAAAAGGAAGGGTTGGATTCCTGCCGATCATTGGAAATTGTCGATTCTAACCTGGATAACGCTCAACATACCGCTGTGGCCAAAGATGGTAAGGCGGTATTTGTCGTTAAGAAGGCTTTAA	MLDEARIANEWMERRGGIQLPSLGRSMYPFMVEGELSSFEKLNHEEARIGEVYLFVTGAGSLVCHRLHDIHGEGGLKRYIFKGDTNIVPDEPVRKEQILGRFTGTYKRKGWIPADHWKLSILTWITLNIPLWPKMVRRYLSLRRL	PGPT0026405_1853	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-SPORULATION_RELATED_FUNCTION,PGPT0026405-sipW-K13280	NA	NA
AK002_05285	282			hypothetical protein	ATGAGCCAAACACAAACAAGGCTGCTGATAAGAAACGAGCATGTTGAAAGCGAAATGATCGGAAACGAATGGATACTGCTGAACATGAAGGAGCATGTGGCAACCAAGCTGAATGAACTCGGGGGGTATATCTGGAGCATTATTCCGGAATATGGGCACATGGAAGGAATCATTGAAAAAATTGCGGAGGAGTATGACATTGACAGTCATACTGCTGAGCAGGACGTAAAACCATTTATTGAAGAACTGTTGGGCAGCGGCCTTCTGACGTATGCTGGATGA	MSQTQTRLLIRNEHVESEMIGNEWILLNMKEHVATKLNELGGYIWSIIPEYGHMEGIIEKIAEEYDIDSHTAEQDVKPFIEELLGSGLLTYAG				NA	NA	NA	NA	NA
AK002_05286	792			hypothetical protein	ATGTATGTAGCAACGGCAATAGTCGGAAAGTCCCGGGTGTCCTTTAAAACCGAATCGAAACGGATAGCCGAATTTGTCGCCAAGCGATTTAGGGTATCCGCCATTTCTGGTCAGGATCCTCAGGCTGATTTGTATGTTCGTATTCGAGGTGGGTACGGAGAGCCATTTGATGATGGACCTGTCCAGATTTCTGTATCCGAACATCTAATTAACTTCAAACGCTGTGATTATCATATGATTTCATCCCGGGATTACAGTTCGGCGGAAATCCATGTCTATGACGAGTTTGCCCTGAAGCATGCATTAATTAATTTGTACAGCTCATGGCTAATCCATGGAGAGCGCGGACTGCTGATCCATTCCTCTTGTGTGGTTCAAGACGGCAAAGCGTGGATGTTCGCAGGCCAATCCGGTGCAGGTAAGTCGACTGTCGCTGAGCTGTCGCGTCCCCGTCCGATTTTATCTGATGAAGCTACGTTTCTGTACATAGAAGAAAACGGACGTGTAACCGTGTTCGATTCTCCATTTCGCAGCGAGATGGAGAATCCCTGTGAACTTGAAGAAGCCGAATTATCCGGCATCCATTACATTATTCAATCCCCTGAAGTGGAGCGTGTGTCCATAACGCCGTTGGATGGATTCGCGCTAATGCTGGATAAGGTGTTTTATTGGCGTCATGATCCTGAGGAAACAAGAAATATGATTGCTTTATGCAAGAAGGTAGTGCAGCAAGTACCTTCCTATCAGCTTTATTTTCAGAAAAATGATACGTTTTGGGAGAGGATTTCATGA	MYVATAIVGKSRVSFKTESKRIAEFVAKRFRVSAISGQDPQADLYVRIRGGYGEPFDDGPVQISVSEHLINFKRCDYHMISSRDYSSAEIHVYDEFALKHALINLYSSWLIHGERGLLIHSSCVVQDGKAWMFAGQSGAGKSTVAELSRPRPILSDEATFLYIEENGRVTVFDSPFRSEMENPCELEEAELSGIHYIIQSPEVERVSITPLDGFALMLDKVFYWRHDPEETRNMIALCKKVVQQVPSYQLYFQKNDTFWERIS				NA	NA	NA	NA	NA
AK002_05287	105			hypothetical protein	ATGAAAAAGACCTACGAGGCTCCAAAAATTTTGGCACAGGGCAAAGTGGAGTTTGGCACGACTCGTCCCAGCAACCCGGGCGGCGGCGGAAATCCTATTTGGTAG	MKKTYEAPKILAQGKVEFGTTRPSNPGGGGNPIW				NA	NA	NA	NA	NA
AK002_05288	1053			hypothetical protein	ATGAAGAACCGCGACATTCTGGTTATGTTTCTGGATGAGTTGTACCAGGGGAGGATTCCTTCCCTGAGTGAATCTCAATATGACAAACTGATGGAAGATGTCGAATTGTTTGATATCGGGCCCCAGGTTTTCTCAGAGCTTCAGCGAAAACACCTTCTTCTTCAAATCCCGGAAAAATTCCGGCGCAAATTAAGCTCTGATGCAAATACCGTACTCTTACAGAACCTTTTTATAAAAATCGAGCTCAAAAAGATCCTGCAGACCTTCGAAGCGTCCTGTATAGAAGCGATCCCTCTCAAGGGAACGCTGCTTGCAGAACGCTATTTTGGCGGTCTCGCAGCGCGCGGCACGACAGATATCGATCTGCTTGTGGGCAAGGAGGACTTGCATCGAGCTGCCACGCTGTTGACGAATGCTGGATTTGTTAAAGCTGCGGGCGATGCTACACATTTTCACGAAGAATACGTCAAATCATTGGATAACGATAATTTTCCCTCGCTAACCATTGAATTGCATTGGAATATAAGCAGAGAGGATTTTACGGCTACGGATGTGTCCCGTTTGTGGGACGAAGCTTGTGTGATAAGCGATTTTAATTACATTTACGAGCTAAGCCCGTTGCACACCTTTTACCATATTTGTCTGCACGGCATGAACCATCACATGATGTCGATGAAATACTTTGTTGACATTGCAACGCTTATACATTCCCTTGATACAAGGCTGGATTACGAGAAACTGTTGGATATGGCCGCTGCGGATCGAAATCTCTCGAAGGTATGGATCGCTTTGAACCTGGTTTACAGCATGTTCCCGCATCTTCAGGCACGATGGCCGCTGCCGCTGCTTTCATACAAGTTTAAATATCCAGGATGGAATCTTGAAAAGGCGCGTAAAGTTATGCAGGGTCGCAAAGGCTTTAGCTACTCATGGTTTAGAATGATGACCGCCTTCACGGTCCATGATACTTGGAGGCAGCGCTGGTCTCAGGTGGGATTCCTGATTTGGAATTTGCCGCTGCTGTGGATAAGAAAACGTGAAATTTTCAGATAG	MKNRDILVMFLDELYQGRIPSLSESQYDKLMEDVELFDIGPQVFSELQRKHLLLQIPEKFRRKLSSDANTVLLQNLFIKIELKKILQTFEASCIEAIPLKGTLLAERYFGGLAARGTTDIDLLVGKEDLHRAATLLTNAGFVKAAGDATHFHEEYVKSLDNDNFPSLTIELHWNISREDFTATDVSRLWDEACVISDFNYIYELSPLHTFYHICLHGMNHHMMSMKYFVDIATLIHSLDTRLDYEKLLDMAAADRNLSKVWIALNLVYSMFPHLQARWPLPLLSYKFKYPGWNLEKARKVMQGRKGFSYSWFRMMTAFTVHDTWRQRWSQVGFLIWNLPLLWIRKREIFR				NA	NA	NA	NA	NA
AK002_05289	690	ywqD	COG0489	Tyrosine-protein kinase YwqD	TTGGCGAGAAAATACAAAAATCCTCTGGTTACCGTCATTAATCCGAAATCTCCGGCAGCGGAATCGTATCGGGGGCTAAGGACGAACATTCAATTCTCCGTTCATGACAAACAGGTTAGGGTGATCATGGTTGGCTCGGCTCAAATGAACGAAGGCAAAACAACCACAGTTAGCAACTTGGCCGTCGCCTATGCGCATGAAGGCAAAAATGTGCTGTTGATTGAAGCGGATTTGCGCAAACCCTCACTGCATCATGTATTCGGCGTTTCGAACGATACCGGATTGACCAATGTCTTGGCCCAGCAGGTAGACGTTGAAGACGTCATCCGGCCGACGGCGGTTACGAATCTCTCCGTCATAACTTCCGGCTCCATTCCGTACAACCCTTCCGAAATGCTAGGTTCTCACAACATGCAAATGTTAGTTCACGATCTTAAGCAACGCTATGACATGATTTTGTTTGATACTCCTCCCATATTGGCAGTGAGCGATGCGCTTATTGTGAGTGCTTTATGCGATGGCGTCGTTTTGGTTGTACTGGGTGGGAAGGTGAAGAAATCCCAGGTGAGAAAAGCCAAAACTCAACTTGAGCACGTTAAGGCCCATCTTCTTGGGGTAGTGCTTAACAATATAACGATCAGAGAAAATGAAGCAGAGCAGCTTTATTACGGTAGTAAGTGGTTGAAATGA	MARKYKNPLVTVINPKSPAAESYRGLRTNIQFSVHDKQVRVIMVGSAQMNEGKTTTVSNLAVAYAHEGKNVLLIEADLRKPSLHHVFGVSNDTGLTNVLAQQVDVEDVIRPTAVTNLSVITSGSIPYNPSEMLGSHNMQMLVHDLKQRYDMILFDTPPILAVSDALIVSALCDGVVLVVLGGKVKKSQVRKAKTQLEHVKAHLLGVVLNNITIRENEAEQLYYGSKWLK	PGPT0026560_539	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
AK002_05290	411			hypothetical protein	ATGTCAAGCGAAACGAAGCATCTTATTAAGGTAGGGATTAGAGTCATGGAGATTGGTCCCCTGAGCCTGCACGGCAGAAGCCACGATGTGACGCCGATCGAGCTGGGTCCGGAGAAGCTTGTTTTCCTGTGTTCCTGGGATATCCCCATGAGTCCCAAGATAAAGCTGCGTTATGAAATCGATGACATGTTTGATCATATTCAGGTTTATGGGAGGATACAGACTCAAGAGCCATTGCAGGATTATCGGTTGTATCAGGTTCAAATATGTACGGATCGTGATCAAAAAGCACGGATAACGGGCATGCTTAACCGGATGATAAGCAGTCATGTGGCGTTTAGCCATGCCGTTTATCAAAATTACATATATCGTTCGCCAGGCCAATATAATAAAAAGCTAATCATACAGTAA	MSSETKHLIKVGIRVMEIGPLSLHGRSHDVTPIELGPEKLVFLCSWDIPMSPKIKLRYEIDDMFDHIQVYGRIQTQEPLQDYRLYQVQICTDRDQKARITGMLNRMISSHVAFSHAVYQNYIYRSPGQYNKKLIIQ				NA	NA	NA	NA	NA
AK002_05291	369			hypothetical protein	ATGAACTACGGAGAACGAATTGCAGAACTACGTGAACAGCGCGGGTGGACTCAAGAAGAACTCGCTACCTCTGTCGGCATTACTCGTGCTGCACTATCCCATTACGAAAAAAACCGGCGCAAGCCGGATTTTGAAACATTGACTCGCCTGGCAGACCTCTTTGACGTATCCATAGATTATCTGATCGGGAGAACAACATTGGAGAAATCGGTGCTTGATCCGGAGGTTCGCTCATTTGTGGACGGACTTGAGCTTTCGGACCAGGATTTGCTGGAGCGTTTCAATCTCACGGTGGATGGCCGCAAGTTAACCGAAGAGGAAGCCAAAAGATTCATTGCTTTTGTTCGCATGGAACGCTCCATGAAATAA	MNYGERIAELREQRGWTQEELATSVGITRAALSHYEKNRRKPDFETLTRLADLFDVSIDYLIGRTTLEKSVLDPEVRSFVDGLELSDQDLLERFNLTVDGRKLTEEEAKRFIAFVRMERSMK				NA	NA	NA	NA	NA
AK002_05292	147			hypothetical protein	ATGAGTGTGGACAAGGAGAGAGGCTCCGGAAGCACCGAGCAGCGGCTTGACCAGCAGAAGACGAACATCGACATCAATAAGCTCATGACTCAATTGGGAATCCATCCTGATAAATGGCTGCAAATGGAGGAAGCTCATAACGATTAA	MSVDKERGSGSTEQRLDQQKTNIDINKLMTQLGIHPDKWLQMEEAHND				NA	NA	NA	NA	NA
AK002_05293	4668	gltB_2		Ferredoxin-dependent glutamate synthase 1	ATGTCCAACCTTTACGTTTTTCTGTTATTGATCAGCAGCATTTTATTCTATAAAAAAGAAAGGTTGCATCTTATGAGACATACTGATTTTCCCCAGAAACAGGGCCTCTATGATCCGCAGTTCGAAAAAGATGCTTGCGGTATGGGTTTCGTTGCCCATATCAAGGGTAAGCCATCCCATGAAATCGTCAGCAGCGCGCTGACCATGCTTGCCAATATGGAGCATCGCGGCGGTCAGGGCAGCGAGCCGAACTCCGGCGACGGTGCGGGGATCATGTTGCAAATTCCTCATTCCTTCTTTGCTGCCGAAGCGGCGAAACTGGGCTTTGAGCTTCCCGAAGCCGGGCATTACGGTGCAGGCATGCTGTTCCTTTCCCATGATCCTGCCGTCCGTTCGGCACATGAGGAGCAGTTGGCTTCGATTATTGCCGAAGAAGGCCAGACCCTGCTTGGCTTCCGCGATGTACCCACCCATGATGAAATGCTGGGCAAGTCCGCAAAAGCGGCAAAGCCGTATGTTCGCCAAGTGTTCATCGGACGCAGCGCCGACATTCAGGATGATCTCTCGTTCGAGCGCAAGCTGTATGTCATCCGCCGCCGCGCCGAGCTGGCGATCCGTTACAGCGGCAAGCCCGAAGGCGACAGCTTCTACGTATCCAGCCTTTCCTGCAGAAAAATCGTATATAAGGGCATGTTGACGACGGAGCAGGTGGGGGAATTTTACCTGGACCTGCAGGATGAGGGCTTGGAATCGGCGATTGCGCTCATTCACTCCCGTTTCAGCACGAATACGTTCCCGAGCTGGGAGCGTGCGCATCCGTACCGTTTCATGATTCACAACGGCGAAATCAATACGCTGCGCGGAAATGTGAACTGGATGCACGCGCGCCAGTCCATGTTCGAGCATGAGCTGTTCGGAAGCGATCTGGAGAAGGTGAAACCTGTCATCAACCCGGACGGTTCCGATACCGGGATGTTTGATAATACATTTGAATTCCTGTACCTCAGCGGTCGTTCTCTGCCGCACGTGGCCATGATGATGGTTCCCGAGCCGTGGAGCAACCATGAGAGCATGGATAAGACCAAAAAAGCATTCTACGAATACCACAGCACGCTGATGGAGCCATGGGACGGACCAGCGGCGATGGCATTCACGGACGGCGTTCAGATCGGCGCCACCCTGGACCGGAACGGGCTGCGCCCATCCCGTTATTACGTGACGAAGGATGATCTGATCATCCTGTCTTCCGAAGCGGGCGTTCTGGACGTTGCGCCGGAAAATGTGCTGTACAAGGATCGCTTGCGTCCTGGACGCATGCTGCTTGTCGACACGAAGGAAGGCCGTATCATTTCCGACGAGGAAGTCAAAGCCAGCATCGCGGCGGAGCTTCCATATTCCGAATGGCTGGATGAGCATCTGGTAGAGCTGCATGATCTTCCTGATGCGCCGGAACTTCCGGATCCGAAGCATGAGAATGTGCGTCAGCTCCAGCAAGCGTTCGGCTACACGTACGAGGAACTGCGCAAAGTGATCGAGCCGATGGCGATCACGGGCGCCGAAGCGATCGCTTCCATGGGATATGACGCACCGCTTGCGGTGCTGTCCGACCGCCCGCAGCGGCTGTTCAACTACTTCAAGCAGATGTTCGCCCAAGTGACGAATCCGCCGATCGATGCGATCCGCGAGGAGCTGGTCACTTCGACGGCGACGACGATCGGCCCGGAGCGCAATCTGCTGAAGCCTGAACCGGAAAGCTGCCGCCACATCCGCCTGGATTCGCCGGTGCTGTCCAACGAAGAGTTTGCGAAGCTGCGTCATGTCCGCCGTCCGGGCTTCAAGTCCATGACGATTCCGATTTTCTTCCCGGCGGCCGAAGGAGCCGAAGGGCTTCGCAAGGCGATCGACACCCTCTGCGAAGCCGCGGACCGAGTCATCGCCAAGGGGCATAACATCTTGATCCTGTCCGACCGCGGCGTGGATAAGGACAATGCGGCGATTCCCTCGCTGCTAGCCGTTTCGTCGCTCCATCATCACCTGATTCGTCAGGGAACCCGGACCAAGGTGGCGATCCTGCTTGAATCCGGCGAGCCTCGCGAAGTGCATCATTACGCCCTGCTGCTCGGTTACGGCGTGAGCGCGGTCAACCCGTATCTTGCGTTCGAAACGCTGGACGACATGATTCAGGAAGGCATGCTTCGCGGCATCTCGCATGAGAAGGCTGTGAAAAATTACATTAAAGCGGCAAGCAAAAGCGTTGTGAAAGTGTTGTCGAAGATGGGGATCTCCACGATTCAGTCCTATCGCGGCGCACAAATCTTTGAGGCCGTCGGCCTGAAGGAAGATTTCGTGGAGAGCTACTTCACGCGGACGCCGTCCCGCATCGGCGGCATCGGTCTGGAGGAAGTGGCCAGGGAAACGCTGGCCCATCACGAGCGTGCCTTTACCGACAAGGACGGCAACGATAAAGCGCTGGATTCAGCCGGCGAATATCAATGGAGAGCGGACGGGGAAGAGCATTTGTTCAATCCGAGAACCATCCATTTGCTGCAGCAGGCCGTCCGGACCAATGACTACGCAACTTACAAGAAATACGCCGAGCTCGTGCAGGGTGAGAATGAGCAGCATCTGACGCTTCGCGCCCTGCTCAAAATCAAGCCGGCCGGCAAACCGGTGCCGCTCGATGAGGTTGAATCCGTGGCATCCATCATGCGCCGATTCAAAACAGGCGCGATGTCCTTCGGATCCATCAGCAAGGAAGCGCATGAAAGCCTCGCGATCGGGATGAACCGCATCGGCGGCAAGAGCAACACGGGTGAAGGCGGAGAGGATCCGGCCCGCTTCATTCCGGATGCCAACGGCGATTCCCGCCGAAGTGCCATCAAGCAGGTGGCGTCGGGACGTTTCGGCGTCACCTCCAATTACCTGGTGAATGCGGACGAAATCCAGATCAAGATGGCGCAGGGAGCGAAGCCGGGTGAAGGCGGACAGCTGCCGGGCCGCAAGGTATACCCTTGGGTGGCCGAGGTCCGCGGTTCGACGCCTGGTGTAGGGCTGATCTCGCCGCCGCCTCATCATGATATTTACTCCATCGAGGATTTGGCGGAGTTGATCTATGACTTGAAAAATTCCAATCCGCGCGCGGATATCAACGTGAAGCTCGTATCCGAAGTGGGCGTAGGCACGATTGCCGCAGGCGTTGCGAAGGGCCGCGCGGACATCATCCTGATCAGCGGCTACGATGGCGGCACGGGTGCTTCGCCGCAAGGCTCCATCCGTCATGCAGGCATGCCATGGGAGCTTGGCCTGGCCGAGACCCATCAAACCCTCATCATGAATAATCTGCGTGACCGCGTGGTGCTGGAGACCGACGGCAAAATGCTGAACGGGCGCGATTTGGTGGTGGCGGCACTTCTAGGAGCCGAAGAGTATGGATTCTCAACGGCACCATTGATTGCCGTCGGGTGCATTATGATGCGCGTCTGCCAAATGGACACCTGCCCGGTTGGCGTAGCCACGCAGAATCCGGAGCTGCGCAAGAACTTTACGGGGGATCCGGAGCATGTCGCCAACTTTATGCGCTTTGTCGCTCAAGACATGCGCGAGCTGATGGCTGAGCTTGGCTTCCGTACGATAAACGAGATGATTGGTCGTACGGATTGCCTGGATGCCGTCACAGCGGATCATCACTGGAAGAAGAAAGGCGTGGATATTTCGGCATTGCTGTATACGCCGGAGCTTCCGGAGGGCAGCACGCCTTATCGTACCCAAAGACAGAATCATGGTCTGGAACAGACGCTGGATATGCGTTCGCTGCTTAGCACCGCCGCGCCGGCATTGGAATCGGGAGCTGCTGTGGAGGGCACCTTCCCGATCACGAACGTGGACCGTGCCGTGGGAACCATCCTGGGAAGCGAGGTCACGCGCAAGTATGGGGCTGCCGGATTGCCGGAAGACACCATTCAATTCAACTTCGTGGGTTCCGCAGGGCAGAGCTTCGGCGCATTTGTGCCGAAAGGGATGACGCTGACGGTTGAAGGAGATGCCAACGACTATATCGGTAAAGGACTTTCCGGCGGCAAGCTGATCGTAAAGCCTTCACCTAAAGCAACCTTCAAAGCCGAGGAGAACATTATTGCGGGGAATACCGCATTCTACGGGGCTACAGGCGGAGAAGCCTATGTAAGAGGCATTGCCGGCGAGCGTTTTGCCGTTCGTAATTCTGGCGCGAGCATCGTCGTCGAAGGCGTCGGCGATCATGGATGCGAATATATGACCGGCGGCCGGGTGGTCGTTCTCGGAGAAACCGGACGCAACTTCGCGGCCGGGATGTCCGGTGGCATAGCCTACGTCTATGATCCTGAGGGTATCTTCGTGGATCGCTGCAATTTGGAGATGGTGCTTCTGGAACGGGTCGAGGACGGAACGGAAGCGGAAGCCCTCCACCGTCTTGTCCGGCAGCATGAGCAGTATACCGGCAGCGTACCGGCACAGCAAATTCTGGGAGACTGGGATCAAGCGCTCAGCCGCTTTGTCCGTATCATTCCGAAGGATTACAAACGCATGCTGCTGCATATCGAGAAGGTACAAGATCAAGGCCTGACGGGGGAAGCAGCGCTCCTCGCCGCCTTCGAGGCGAATATGAAAGAGCTGGCACGTACAGGGAACTAG	MSNLYVFLLLISSILFYKKERLHLMRHTDFPQKQGLYDPQFEKDACGMGFVAHIKGKPSHEIVSSALTMLANMEHRGGQGSEPNSGDGAGIMLQIPHSFFAAEAAKLGFELPEAGHYGAGMLFLSHDPAVRSAHEEQLASIIAEEGQTLLGFRDVPTHDEMLGKSAKAAKPYVRQVFIGRSADIQDDLSFERKLYVIRRRAELAIRYSGKPEGDSFYVSSLSCRKIVYKGMLTTEQVGEFYLDLQDEGLESAIALIHSRFSTNTFPSWERAHPYRFMIHNGEINTLRGNVNWMHARQSMFEHELFGSDLEKVKPVINPDGSDTGMFDNTFEFLYLSGRSLPHVAMMMVPEPWSNHESMDKTKKAFYEYHSTLMEPWDGPAAMAFTDGVQIGATLDRNGLRPSRYYVTKDDLIILSSEAGVLDVAPENVLYKDRLRPGRMLLVDTKEGRIISDEEVKASIAAELPYSEWLDEHLVELHDLPDAPELPDPKHENVRQLQQAFGYTYEELRKVIEPMAITGAEAIASMGYDAPLAVLSDRPQRLFNYFKQMFAQVTNPPIDAIREELVTSTATTIGPERNLLKPEPESCRHIRLDSPVLSNEEFAKLRHVRRPGFKSMTIPIFFPAAEGAEGLRKAIDTLCEAADRVIAKGHNILILSDRGVDKDNAAIPSLLAVSSLHHHLIRQGTRTKVAILLESGEPREVHHYALLLGYGVSAVNPYLAFETLDDMIQEGMLRGISHEKAVKNYIKAASKSVVKVLSKMGISTIQSYRGAQIFEAVGLKEDFVESYFTRTPSRIGGIGLEEVARETLAHHERAFTDKDGNDKALDSAGEYQWRADGEEHLFNPRTIHLLQQAVRTNDYATYKKYAELVQGENEQHLTLRALLKIKPAGKPVPLDEVESVASIMRRFKTGAMSFGSISKEAHESLAIGMNRIGGKSNTGEGGEDPARFIPDANGDSRRSAIKQVASGRFGVTSNYLVNADEIQIKMAQGAKPGEGGQLPGRKVYPWVAEVRGSTPGVGLISPPPHHDIYSIEDLAELIYDLKNSNPRADINVKLVSEVGVGTIAAGVAKGRADIILISGYDGGTGASPQGSIRHAGMPWELGLAETHQTLIMNNLRDRVVLETDGKMLNGRDLVVAALLGAEEYGFSTAPLIAVGCIMMRVCQMDTCPVGVATQNPELRKNFTGDPEHVANFMRFVAQDMRELMAELGFRTINEMIGRTDCLDAVTADHHWKKKGVDISALLYTPELPEGSTPYRTQRQNHGLEQTLDMRSLLSTAAPALESGAAVEGTFPITNVDRAVGTILGSEVTRKYGAAGLPEDTIQFNFVGSAGQSFGAFVPKGMTLTVEGDANDYIGKGLSGGKLIVKPSPKATFKAEENIIAGNTAFYGATGGEAYVRGIAGERFAVRNSGASIVVEGVGDHGCEYMTGGRVVVLGETGRNFAAGMSGGIAYVYDPEGIFVDRCNLEMVLLERVEDGTEAEALHRLVRQHEQYTGSVPAQQILGDWDQALSRFVRIIPKDYKRMLLHIEKVQDQGLTGEAALLAAFEANMKELARTGN	PGPT0000635_1063	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
AK002_05294	288			hypothetical protein	ATGAGCCGATATAACGTGGCGACCATCGATGCGATAGCCGGTATGTTGCGTCAAGGTTCATCGGCTCCCCTCAACCTGCTGCTGGAAATATTCCCGAGAACCGATCATGAAGGAGCTTCATTTTATATAGGATGGATGGTCAGGATGACCCACGGCTTCACTGCCGGAGAGAGAGTGAGCGGCCAAAGCGGAGCGATTTGGTCACGAATCACGAAAAATGTGATGAAAACCGCTTGTTCGGAATGTTCTATTTGCATGTTTTTTTGCATTATTATACATAATATTTAA	MSRYNVATIDAIAGMLRQGSSAPLNLLLEIFPRTDHEGASFYIGWMVRMTHGFTAGERVSGQSGAIWSRITKNVMKTACSECSICMFFCIIIHNI				NA	NA	NA	NA	NA
AK002_05295	2268	smc_3		Chromosome partition protein Smc	ATGAAGTCATTATCTGTGTTTGCCAAAGATCTTGGCGCCGCCGTTCGGAACAAAAAAATATTGATTCCGATCATCGCGGTGCTGTTCATACCGGTCATGTACAGCGGTATGTTCCTCGGGGCCTTCTGGGACCCGTACGGAAAGATGGAGGATTTGCCCGTTGCGGTCGTCAATAACGACCAGGGCGCCGTTTTTGAAGGAAAGAGGCTTCACGCCGGCGAGGATTTGGTGGCCGAGCTGAAGAAGGGAAAAGATTTTAATTGGCAGTTCGTTAACCGGAGTGAAGCTGAGCAGGGCATGCAGGATAACAAATACTACATGACCATCAGCATTCCGGAAAACTTCTCGCAGCAGGCGACGACTTTAATGGATGAACATCCGCAGCCTGCGCAAATCGTATTCGAGCCGAACGAAGGCTACAACTTCCTTGCTGCCCAGATCGGCGGATCTGCCGTGAAGCAGATTCAGTCCAAGGTGTCGGCGAAAGTGACGGAAGCCTACACGGAAACCCTGTTCGATCAAGTGGCCAAAGTATCTGACGGCCTAAGCGAAGCGGGGGACGGCGCCACGAAGCTGTCCGAAGGTGCCGTGAAGCTGGACGACGGCGCGGTGAAGCTGAAAGAGAATCTGGCTAAACTCGTCAGCGGCACGCAGGAGCTGCAGGACGGCATCGCGCCATTGACGCAGGGCGTGCAGGAGCTGAATAGCGGTGCAGGCAAGCTGAACGCGGGAGCGGGCACCCTCGCCTCCGGCTTGGATCAGCTTAAGGCGGCTCACAGCCAGCTGCAAGCAGGGGCTGAAGAGGCCGGCAAGGGCGGCGCCAAGCTGCAGGCGGGCATTGAATCGGCCGCAGCCGGCAGCACGGCGCTGAATGAAGGCCTGCAAGCCAACCAGGCAGGGGCGGCCCAGCTTGCCGCTGGCGCGAAGAGCGCTCATGATGGCAGCGGCAGCCTGAAGGCCGGCCTGAATCAATCGCTGGAAGCCACGGCAGCGCTGGAGCAAGGCGCAAAGGCCGTTGCGGACGGCCTGAAGCAGCTGGCCGAAGGCAATCCGGAGCTGGCGCAAAGTCCGGAGGTGCAGCAGCTGCTGGCCGCGAGCCAGTCCGTCGCCTCCGGCACGAGTGAGCTGAATGCCGGTCAGAAGCAGCTGGCGCAAGGCGCAGCTGAGCTGAATCAAGGCACGCAGCAGCTGCAGGAAGGCGCAGGCAAGCTGAGCGCCGGCGCGAACCAGCTCGCAGATGGCGGCAAACAGCTCGCCGCGGGCGGCCAAGAGCTGCTGGCAGGCGCCAAACAGCTGAACGCCGGCCAAAATCAATTGGCCGACGGCATGAAGCTGTTCGGCACGAAGCTGAGCGAAGCGGCAGCCGGCGGCAAGGAGCTTGCCAGCGGAGCAGCGACCCTGTCGCAAGGCACGCAGCAGCTGGCAGGCGGAGCCGGTAAGCTGGGAAGCGGCGTAACGACCCTCGCCGACGGCTCGAAACAGCTGGATTCCGGGGCTGGCGAGCTGGTCAACGGTATGAACGAATTGAAGGAAGGCAGCGGGGAGCTTGCAGGCAAGCTGAACGAGGCTGCCGACAAGACTGGCGGTATCCAAACCACCGACGAGACGGTCACGATGTTTGCCGGACCGGTACAGGTGGATGAGCATAAAGTGAACGAAGTACCGAACTACGGTACCGGATTCGCGCCATACTTCCTGTCGCTCGGCTTGTTTGTCGGAGCCCTGCTCTGCACGATTATTCTGCCGATCCGCGAGGCATCGGTACCAAACGCATCGGGCTGGAACCGGTTTGTCAGCCGTACGCTGTCCTTTGCCGGCATGGGATTGATCCAAGCGCTGCTGGCTTCGGTTGTCATGCTGTACGGATTGAAGCTTGAGGTTCAGAGCGTTCCGCTCTTCTATCTTTTCTCCATCATTACCAGCTTGTCGTTCATGTTCCTGGTGCAAATGTTCGTCACATGGCTGGATCAGCCTGGACGCTTCGTCGTCATCGTAATCCTGATCCTTCAATTGACAACGAGCGCAGGCACGTTCCCGGTAGAGCTGATTCCGAACTGGATGAAGGCTTTGAATCCGCTGCTGCCGATGACCTACAGCGTAAAAGGCTACAAAGACGTCATTTCCACGGGAAGCTTCGACGGCATGTGGGCCAACGTGGGCGTACTGGCCGGATTCGGTCTGGTGTTCCTGGTGTTGACCGCCGTGTACTTCCTGGCAATCCGAAACAACAAGCAAGCTGCAGACGCCGATACAGCGGTGACTGCATAA	MKSLSVFAKDLGAAVRNKKILIPIIAVLFIPVMYSGMFLGAFWDPYGKMEDLPVAVVNNDQGAVFEGKRLHAGEDLVAELKKGKDFNWQFVNRSEAEQGMQDNKYYMTISIPENFSQQATTLMDEHPQPAQIVFEPNEGYNFLAAQIGGSAVKQIQSKVSAKVTEAYTETLFDQVAKVSDGLSEAGDGATKLSEGAVKLDDGAVKLKENLAKLVSGTQELQDGIAPLTQGVQELNSGAGKLNAGAGTLASGLDQLKAAHSQLQAGAEEAGKGGAKLQAGIESAAAGSTALNEGLQANQAGAAQLAAGAKSAHDGSGSLKAGLNQSLEATAALEQGAKAVADGLKQLAEGNPELAQSPEVQQLLAASQSVASGTSELNAGQKQLAQGAAELNQGTQQLQEGAGKLSAGANQLADGGKQLAAGGQELLAGAKQLNAGQNQLADGMKLFGTKLSEAAAGGKELASGAATLSQGTQQLAGGAGKLGSGVTTLADGSKQLDSGAGELVNGMNELKEGSGELAGKLNEAADKTGGIQTTDETVTMFAGPVQVDEHKVNEVPNYGTGFAPYFLSLGLFVGALLCTIILPIREASVPNASGWNRFVSRTLSFAGMGLIQALLASVVMLYGLKLEVQSVPLFYLFSIITSLSFMFLVQMFVTWLDQPGRFVVIVILILQLTTSAGTFPVELIPNWMKALNPLLPMTYSVKGYKDVISTGSFDGMWANVGVLAGFGLVFLVLTAVYFLAIRNNKQAADADTAVTA				NA	NA	NA	NA	NA
AK002_05296	582			hypothetical protein	ATGCCAGCTGTGGACCGACGGAAGCAGGTGCTAGATGCTGCCTCCAAGTCGTTTGCTTTGTTCGGATACAAAGCGACGACGATGGAACAGGTGGCGAAGATTGCAAATGTTGGGAAAGGCACGATCTACACGTTTTTCACGAATAAGGATGAGCTGTTCGACGAGATCCTGCTATCGGCCATCATGGAGATGAAGCGTCTGGCCGAACGGGAGATACGGAAGGACAGGGATTTCTTTGACAATCTCTACCGGGTGCTGGATGCGCTGCTTGAATTCCGAAGCGAGCATGAGCTGTTCATCAAGCTGTCGCAGGAAGTTCGGGACATCGGCACGCCGAAGGCGCATGAGGGATTGACGAAAGTGGAGAACGGAATCGTCGGGTATCTCAAGGGAATCGTGGAGAATGCCATGTCGATTGGTGAGATCAAGCCGCTGGATGCTCAGGTGGTATCCTTTGTGATGCTGAAGCTGTACGTTGCCCTCACGACCGACTTCAATCAGCTTCACAAGCCGCTCAGCAAGGAACAGATCAAGGAATATATGATGGTGTTCTTGGCTGACGGGCTCAAAGCCTCCTCGTAA	MPAVDRRKQVLDAASKSFALFGYKATTMEQVAKIANVGKGTIYTFFTNKDELFDEILLSAIMEMKRLAEREIRKDRDFFDNLYRVLDALLEFRSEHELFIKLSQEVRDIGTPKAHEGLTKVENGIVGYLKGIVENAMSIGEIKPLDAQVVSFVMLKLYVALTTDFNQLHKPLSKEQIKEYMMVFLADGLKASS				NA	NA	NA	NA	NA
AK002_05297	1176	ugtP_3	COG0707	Processive diacylglycerol beta-glucosyltransferase	ATGCGATATACAAGAGTGCTCCTCTTCTCAGAGGGTTTCGGCACAGGACATACGCAAGCTGCGTATGCGCTGGCTGAAGGTATACAGCGGATGAATCCCCGGATCCACTGCCGCGTCATTGAACTTGGCAATTTTTTGAATCCCACCGTGGGGCCGTTAATCTTGTCCGCTTATCGAAAAACCGTCAGCACCCGGCCGCGCCTTGTCGGCATGCTGTACCGTTCGCAATATAAGAAATCGTTAAACCGTCTGACGCGGCTCGCGCTGCATCGGATTTTCTATGCGCAGGCCCAGCGGGTCATCGAGGAATTGAAACCGGATCTGATCATATGCACCCACCCGTTCCCCAACGCCGTGGTCTCCCGCCTGAAGCGCCAGGGGCTTGATGTTCCGCTTTATACGCTGATTACCGACTATGATGCGCACGGCACCTGGGTTAATCCGGAAGTGGATGAATATCTCGTATCGACGCCTCATGTGAAAAAAATGCTCATGCTGCGGGATATTGAGCCGGAATTCATCCATGTGACCGGCATTCCGGTGCATCCGAAGTTCTGGGAAAGAGCCAGCCGGGTGGCGCTGCAGGCCGAGCTTGAATTAAAGAACATGCCTACCGTGCTGATCATGGGAGGCGGATGGGGCCTCGTATTCAACAAGGAGCTGCTCAGCAAGCTGGCCGCCAGGGCCGATGATATCCAGCTGGTCTTCTGTATGGGACAGAACGATAAGCTGGTTGCCAGCATGCGCGAAGATCCGATCTTCCAGCATCCCAACATTCATGTTCTCGGTTATCGGGACGATATACATAAACTGATGGACGTGTCCGATCTTCTCATTACGAAGCCCGGCGGAATGACCTGCACGGAAGGAGCCGCCAAGGGAATTCCGATGCTGTTCTATGAGCCTATCCCGGGACAGGAAGAAGTGAATTCCCACTTCTTTGTCAGCGAAGGCTACGGGGAAATTCTCGACTCCCCTGCCGTGATCGACAAGTGGCTGAACCTGCTGTCCGACCATCATGACCAGGTGGAGAAGAAGCGTAACGGAGCGGTCCGGCAGCGCACGCCGCATCTGGAGCCCGACCACTGCGCCGGCCAGGTGATGGGATTGCTGACCGAAGGACGCATACCCGTTTATCCCGAAGATGCCGTCAAGATATTGGCGGACCAGCCCTAA	MRYTRVLLFSEGFGTGHTQAAYALAEGIQRMNPRIHCRVIELGNFLNPTVGPLILSAYRKTVSTRPRLVGMLYRSQYKKSLNRLTRLALHRIFYAQAQRVIEELKPDLIICTHPFPNAVVSRLKRQGLDVPLYTLITDYDAHGTWVNPEVDEYLVSTPHVKKMLMLRDIEPEFIHVTGIPVHPKFWERASRVALQAELELKNMPTVLIMGGGWGLVFNKELLSKLAARADDIQLVFCMGQNDKLVASMREDPIFQHPNIHVLGYRDDIHKLMDVSDLLITKPGGMTCTEGAAKGIPMLFYEPIPGQEEVNSHFFVSEGYGEILDSPAVIDKWLNLLSDHHDQVEKKRNGAVRQRTPHLEPDHCAGQVMGLLTEGRIPVYPEDAVKILADQP	PGPT0023400_222	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023400-ugtP-K03429	NA	NA
AK002_05298	684			hypothetical protein	ATGAATATTACGTATTATGGCCATTCCAGCATATTGGTGGAGGAAGGCGGCGTTCGTGTCATCATCGACCCGTTGCTGTCCGGTAATCCGGGTTCAGGCATCGAACCCAGTGACGTGAAAGTGGATGCAGTGGTTCTGACGCATGGGCACTCCGACCACTTTGGCGACTGCATCGAAATTGCGAAGCAGAATGATTGTCCGATTATCGCCGTGTACGAACTCGCCGTGTATTGCGGCCAGCAGGGAGCCAAATCCCATGGAATGAATATCGGCGGAAGCGCGCAGTTCGACGGTTTTAAGGTGAAGTTTACCCCGGCCTTTCACTCTTCCTCCATCTCGGTGGGGGATACCTGGATCTATGCGGGGCAGCCTGGAGGCGTCATTCTGACCATGGGCGGAAAAACGTTCTATCATGCAGGCGACACAAGTTTGTTCGGCGATATGCGCCTGATCGGAGAGATGAACGACATCGATGCAGCCGCGCTGCCGATCGGGGATATGTTGACGATGGGCCCGCAGGACGCCCTGCTGGCCGCACAGTGGATTCGTGCGAAGCATGTCATCCCGGTGCACTACGACACGTTCCCGGGCATTAAACAGGATGCAAGGGCCTTCTGCGACGAACTGGCCCAAACGGGCATTCAGGGTCATCCGTTGAAAGCAGGAGAAACGCTGGAAATATAG	MNITYYGHSSILVEEGGVRVIIDPLLSGNPGSGIEPSDVKVDAVVLTHGHSDHFGDCIEIAKQNDCPIIAVYELAVYCGQQGAKSHGMNIGGSAQFDGFKVKFTPAFHSSSISVGDTWIYAGQPGGVILTMGGKTFYHAGDTSLFGDMRLIGEMNDIDAAALPIGDMLTMGPQDALLAAQWIRAKHVIPVHYDTFPGIKQDARAFCDELAQTGIQGHPLKAGETLEI				NA	NA	NA	NA	NA
AK002_05299	897			hypothetical protein	ATGGTTATGAAAGTGCTACGGCAAAATCGCTGGGTTGCGCTGCTCATCGGAGCGCTCTTTGTGAGTTTGTCTCTTATAAGTTTGCTTGGAATGCAATCGAAAACGACGGAAGGGAAAGAGCCAAAGCAGGACATGCCCAAATTTGTAACGGCTGCTCCGGTTCCGGAAGGCGACCCTGATCACTACGTTAAAGCTGCGAGTAGGCAGCAGGATAGGGAACCTGTCAACATTTTGTCTTCAATTGTTTTCCAAGAGTGGAATAAGCCGGGGAGCAAGGTTCATGCTTTTTCAAACGCAAAAGGCATTGGTTTAGCCTCCGGGAAGATCGACTCGAAAGCATCATTGAAGACTGCAGATGAGAAGAAGAAAGCAACCAAATCTCAGGCTGCGGACGGGAAACCGGCAAAACAAAAGGGGACTCATGTCGTCAAATCCAAGGCGGAAAGCCTATCACCCCCCACAACTTTATTCTTCACAAGAACAAATACGTTAACCCAGGACCAAAAAGACAAAGCGACCTGGACCTATGATTTGTCAGCTGAAGAACTGCTTCTGCTCCAGAAGATTGTCATGGCAGAGGCGGAAGGCGAACCGTACGAAGGCAAGGTGGCAGTTGCCAACGTTGTCTTAAACCGGCTGCGGTCAGCCAATTTTCCCGATACGATTACCGATGTCATCTATCAAAAGCATCAATTTAGTCCTGTAGCGAACGGGCGTCTTAAACGTGTCCAGCCGAACGAAGAGACGATTAAGTCCGTGAATGCGGCGCTTCATGGCCAAAAAGAGGTGAAGGACGATACGTACTTCTTCCTGTCTTTGAAGCTGGCTCAGGATCTCACGGTGCATCATTCCAGGACTTTTGTTAAAAAAATAGGAAATCACTCTTTTTACAAGTAG	MVMKVLRQNRWVALLIGALFVSLSLISLLGMQSKTTEGKEPKQDMPKFVTAAPVPEGDPDHYVKAASRQQDREPVNILSSIVFQEWNKPGSKVHAFSNAKGIGLASGKIDSKASLKTADEKKKATKSQAADGKPAKQKGTHVVKSKAESLSPPTTLFFTRTNTLTQDQKDKATWTYDLSAEELLLLQKIVMAEAEGEPYEGKVAVANVVLNRLRSANFPDTITDVIYQKHQFSPVANGRLKRVQPNEETIKSVNAALHGQKEVKDDTYFFLSLKLAQDLTVHHSRTFVKKIGNHSFYK				NA	NA	NA	NA	NA
AK002_05300	558	ytlP		RNA 2',3'-cyclic phosphodiesterase	ATGGATCGTTTGTTTGTTGCCGTGCGTCTGCCTTCGGAGGTCTCCTCCCGGATACAGGATTGGACGGAAACATTGAGGAAGCAAGCCAATTTCAAAAAATGGGTTCATCCGCAGGATTATCACATTACCTTACAGTTTCTGGGCGATACGCCCTCTCATCGCATAGCGGAGCTTACCGGTGCGCTCCAGGAGGTAGCCAAGGAACGCAAGCCCTTCAAGCTCAGTCTTTATGATGCCGGCGTGTTCGGGGCAAGCGGCTCCCCAAGGATTCTATGGGCTGGGGTCGGCGGGGATCTGAATGCGCTCGCTGAGCTGCAGCAATCGGTCGTGTTGCGGATGGAATCTTTCGGATTCGTCCCGGAGGAGCGCCCCTTTCGACCGCATATTACGGTTGGCCGGAAATTTCAAGGAAATCAAACATTTTCTATGGATGTTATCGGAAAAGGACCCGAACCTATCCAGTGGGACGTGCTAGAAATGGTTCTTTTTCGAACAAATTTACATGCGAGCCCGATGTACGAAACCGTAGGTGTGGCGCGGCTTTCGACCATTTTTTGA	MDRLFVAVRLPSEVSSRIQDWTETLRKQANFKKWVHPQDYHITLQFLGDTPSHRIAELTGALQEVAKERKPFKLSLYDAGVFGASGSPRILWAGVGGDLNALAELQQSVVLRMESFGFVPEERPFRPHITVGRKFQGNQTFSMDVIGKGPEPIQWDVLEMVLFRTNLHASPMYETVGVARLSTIF				NA	NA	NA	NA	NA
AK002_05301	954	hpr	COG1052	Hydroxypyruvate reductase	ATGCCGAACATCTTGTCCATACACGACTTAACCGCCGAGCAGCAGCAAAAAATCAAGGAGATTGCCCCCGACTATGACCTATTGGTGACAAAAGCGAAAGAGCTGACGGGAAGCATCGTTCGGGATGCCGAGATCATGATCGGCTGGTCACGCTCCATGCAGGAGGAGGTACTGTCCGCCGACAGTAAACTCAAATGGATTCAAGCCTGGTCGGCCGGGGTAGATAAAATGCCGCTCCGTGAACTTGAGGAAAAAGGCATTCAGTTGACCAACGCCAGCGGCGTACATAGCGTTCCGATCACGGAGCATATTTTCGCGATGATCCTGGCCTTCAACCGCAACCTTCATCTGGCGATCCGTCAGCAGTCGAACAACAAGTGGGATACATCCGGCACGTTCACGGAATTGGCTGGCAAAACCATCGTCATCGTCGGCGTCGGCCAAATCGGCAGCCATACGGCACGGGTGGCCCAGGCGTTCGGCATGCGGACCGTTGGGGTCCGCAACTCCGGCAAGTCCGATCCTAACGTGGAATCGATGTATAAGGTCGATCAGCTCGATGAAGCACTGGCGCAAGGCGATTATATCGTCAATATCCTGCCGCTCACCGATGAAACCCGCGGACTGTTCAATACGGCAAGATTCTCGGCGATGAAGGACTCCGCCTTCTTCGTGAACGTAGGCCGCGGCCAGACCGTGGTCACGGACGACATGGTTCAATCGCTGCAATCCGGAGCTTTGGCAGGCGCGGGACTGGATGTCTTCGAGGAAGAGCCGCTTCCTGCGGACCATCCGCTGTGGAACCTGGACAACGTCATCATGACGCCTCACATGGCAGGGGATACGGATCGATACGGCGAGCGTGCCGTGGATATTTTCCTGGAGAATTTAAAGCACTACGTAAACGGAGAGCCGTTATCCCGCAATGTGATCGATTACAGCAAGTCGTACTAA	MPNILSIHDLTAEQQQKIKEIAPDYDLLVTKAKELTGSIVRDAEIMIGWSRSMQEEVLSADSKLKWIQAWSAGVDKMPLRELEEKGIQLTNASGVHSVPITEHIFAMILAFNRNLHLAIRQQSNNKWDTSGTFTELAGKTIVIVGVGQIGSHTARVAQAFGMRTVGVRNSGKSDPNVESMYKVDQLDEALAQGDYIVNILPLTDETRGLFNTARFSAMKDSAFFVNVGRGQTVVTDDMVQSLQSGALAGAGLDVFEEEPLPADHPLWNLDNVIMTPHMAGDTDRYGERAVDIFLENLKHYVNGEPLSRNVIDYSKSY				NA	NA	NA	NA	NA
AK002_05302	312	atl	COG3695	DNA base-flipping protein	ATGCAGCCGTATACAAAACGCGTCATTGAAGTGATTCAGAGCATTCCGGAAGGATACGTGATGACTTATGGACAGGTGGCCAGACTGGCCGGCAGCCCCAGGGGTGCCCGACAGGTCGTCAGAATACTTCACACCCTCAGTCATATTCATAAGCTGCCGTGGCATCGAGTCGTCAACGCCAAAGGAGAAATCGCCATCCAAGACGACGAGTCCAGGCTCATGCAGGAGCTGTATCTGCAGGACGAAGGCGTTGCCGTCAATCATAAAGGCATCATTGATTTGGAGAAGTATCGATATGATCCTGCCGAATAA	MQPYTKRVIEVIQSIPEGYVMTYGQVARLAGSPRGARQVVRILHTLSHIHKLPWHRVVNAKGEIAIQDDESRLMQELYLQDEGVAVNHKGIIDLEKYRYDPAE				NA	NA	NA	NA	NA
AK002_05303	981			hypothetical protein	ATGATGAATACGAACGACTTTGACATGACCTTCGGTCCGTCCTCCATGAGCGATATATCATCTTATCTGTATACGTATGCCTGTCATGAAACCGAGCGGGCGCTATGCTTGATGGAGCTGACGGAGCTGTTCGGTCAGGGGCCTGACGGAGCGGACTGGCTGGAAAGCGAGCGGCGGGTCGATCCGGATCGCAGCCCGTTCCTATCGGCCTGCCTTGACGTCAAGATGATTGGAGAATCCATCGAAAGCATCGCCGAGCAAGCAGGCCGCATTCAACTGAACCAAACGACCTTCAAAGTCGTCTGCCTTAAGGCGGGCGATCGTTTCAGCTATGATCAATTGCGCGGTTTCGAACGGATGGTAGGTGGCCGAATTGAAGGAACGGCGAAGATGAAATCTCCGGATGTCACGCTCGGTTTGATATCCCTAAACGGAATCTGGCGATTGGGGGTAATGCACGAGCCTGAACGTGCTTGGCTGGAGCATAAGCGGAAGCCGCAAAATTATTCGACAGGCCTCAGCTCAAGGGTGGCCAGGGCGCTGGTCAATCTGGCCGTTCCTCGGATAAGCGGTGCTACACTCCTGGATCCCTGCTGCGGAATGGGGAATGTATTGATCGAGGCATTCTCGATGGGAATCCCGGCCGAGGGCCGTGACATCAATCCGCTGGCGGTTCGCGGAGCGAGGGTGAATCTGCGGCACTACGGCTATGATGACAACAAAGTTGCCATCCAGGACATGAATACGCTGCACGGACATTATGATGCCGCTGTACTGGATTTGCCGTATAATCTATGTTCCGTTTTTCCGGAGGAAGAGCAGCTGCGCATGCTGAAAAGCTTACGCCGCTTGTCAGATCGCGCTGTCATCGTTAGTACGGAGCCGCTAAGAGAGCAGCTGACGGACACGGGGTGGAAGGTGCTTTCTCATTGCACGACCCGCAAGGGGAGCTTCGCAAGAGATATTTGGCTGTGCGTATAA	MMNTNDFDMTFGPSSMSDISSYLYTYACHETERALCLMELTELFGQGPDGADWLESERRVDPDRSPFLSACLDVKMIGESIESIAEQAGRIQLNQTTFKVVCLKAGDRFSYDQLRGFERMVGGRIEGTAKMKSPDVTLGLISLNGIWRLGVMHEPERAWLEHKRKPQNYSTGLSSRVARALVNLAVPRISGATLLDPCCGMGNVLIEAFSMGIPAEGRDINPLAVRGARVNLRHYGYDDNKVAIQDMNTLHGHYDAAVLDLPYNLCSVFPEEEQLRMLKSLRRLSDRAVIVSTEPLREQLTDTGWKVLSHCTTRKGSFARDIWLCV				NA	NA	NA	NA	NA
AK002_05304	942			hypothetical protein	ATGAATAGCCAATTGAAACTGAGCGTGCTTGATCTGGTTCCGCGATGGGGAGAGAGCTCGTTCGAAGAAGCCTTGCAGCAAGCGGTGATACTGGCGCAGTCTGCGGAACAATGGGGCTACGGGCGATACTGGGCAGCGGAGCATCATGATCTGGAGCATCTGTCCTGTGCGTCGCCCGAGATCCTGCTGTCCCATATCGGCGCCCGGACAACGCACATCCGGCTTGGTTCCGGGGCCGTGCTGCTGCCCCATTACAGCCCGCTGAAGGTGGCGGAGAATTTCCGCATGCTGGCGGCGCTGTATCCCGGTCGCATCGATCTCGGGATCGGGCGGGCGCCGGGAGGTTCGGCCCATACGAGCATGGCGCTTAGCGGGAATTTCCTGGGGCATGTGGCGGATTTGCCGCAGCGGATTCGGGCTTTGACCGAACTGCTGGAGGACCGGTATCGCTATGAAGACGTGCCAGTAGCGGCGAAACCAGTGCCCGCAGCTCCGCCGGTGATGTGGATGCTCGGCACGAATACGAAAAGTGCGGGGTATGCGGCCGAATTCGGGACGGGCTATGTATTCGGCCAGTTTATGAGCGATACGGACGGGGCGGAGATTCTCCGTTCTTACAGGGAAGGCTTTCAGCCAAGCGCTGATCTGAGAGAACCGCGTGCGATGTTGGCGGTGAGCGTGATTTGCGCGGAGACGGAGGAGCAAGCAAGGAAGCTGGCCGCGCAAATTCCACGGCCTGGGGAGAGCACCCATCCTTCGGAACCGACGGATTCCGATTCTTCCGGTCCATCCCGGAGGCTAATCATCGGCACGCCTGCAAGCGTGCGAGATAAGCTGCAGTTGATGGCGGAAAAATACCGGTGCGACGAGTTCCTGGTCGTTACCCCCGTGAGCGATTACGATGCGCGGCTGGAATCGTATCGGCTGTTAATGGGGCAGTAG	MNSQLKLSVLDLVPRWGESSFEEALQQAVILAQSAEQWGYGRYWAAEHHDLEHLSCASPEILLSHIGARTTHIRLGSGAVLLPHYSPLKVAENFRMLAALYPGRIDLGIGRAPGGSAHTSMALSGNFLGHVADLPQRIRALTELLEDRYRYEDVPVAAKPVPAAPPVMWMLGTNTKSAGYAAEFGTGYVFGQFMSDTDGAEILRSYREGFQPSADLREPRAMLAVSVICAETEEQARKLAAQIPRPGESTHPSEPTDSDSSGPSRRLIIGTPASVRDKLQLMAEKYRCDEFLVVTPVSDYDARLESYRLLMGQ				NA	NA	NA	NA	NA
AK002_05305	1416			Deoxyguanosinetriphosphate triphosphohydrolase-like protein	ATGACACTGAAGGAGCTTAGAGAGCATCGCCAATATCCGGAGCAAACGAAGTCGGATGCTTCGCGCGCGGTATACGAGCGGGATTATTCGCGCCTGATCCATTCGCCGACGTTCCGCAGGCTGCAAGGAAAATCGCAGGTATTCGGCGCCGGCACCGGCGATTACTACCGGACGCGCTTAACGCATTCGCTTGAGGTGGCGCAGATTGCGAGAGAAGCGGCACGGAGCCTGACGCGCCTTTATCCCGAAGTGCTGCCGGAGCAGGCCGAGAACGCAGGGCTGATGATTGATCCCGAGGTGGTGGAATGCGCTGCGATCGCCCATGATTTCGGGCATCCTCCGTTCGGCCACAAGGGCGAAGAGGTGCTCCAGGGCATTCTGGAGAAACTCATTGACCGCAGGACCGAGAAGGAGCTGACGCGCCAGCCCGGCACGCCGACACCGGAGCAGGCGTCCGAGGTGCAGCAGGCCATGCGGCGCAAATATGAGCATTTTGAAGGGAACGCGCACAATTTCCGGCTGATCATGTTTTTGGAGAAAAGGGAGAACGTAAACGGCCTCAACCTGTCGGATGCGGTGCTGCTTGGCATCAACAAATATCCGTTTTCCGGCCTGGATAATCCCAAGGGGATGTATCGGCATGAGTGGGAATACATTTCCCATATCCGGAAGGAGTGGCAAATACCCGGCACGCACAGAACGCTGGAAGCGCAGCTTATGGATCTGTGCGATGACATCGCGTATTCCGCGCACGATCTGGAGGATGGCATCAAAGCCGGGAAGATTGAGGTGCACGAGCACTTTCTGCGGGACAGCCATCTCAACAAATTGATCGTGCAGAAGATCATGACGCTGGAAGACGAGGTGTGGAAGGGATGGACCAAGGAGCAGATCCAGCCGAAGGTGGATTTGGTGCTGGACGAGTTTCTGAAAATATGGAACGAAAAAATGCCGACCTGCGAGAATGATTATTCACGTACCCGGCGCGAGGTCAAGGCCTACTGGGTCAGCCTGTTTGTGGGCAGCCTCGGTGTGATCGCGAACGGGGATTGGAAAAAGGTAACGTTTGTCAAAGACGGCGTCGAAGACGAGGATATGCTGCGTACCGTCAGCGTCCTGAAAAGTTTCGCCTGGGTGACCATGATTCGCGACCTGCGGGTTCAGCGCCTGCAGAAGCGCAGCGAATGGATCATCAAGCGCCTGTGGGATGCCTTTCTGGATCCTGTCGCTTCAACGGCGATCATTCCATCCGACTGGCTCCAGCGATACGAAGCGGACCAGAAGCGGGCGAATCCGATCTGGACGTGGGAGCATATGGTGATTGATTATATCGCAGGGATGACGGACGCTTTTGCCGAGAAAATCTATAACGAGTTGTATGGACTTAAGGTAGGTTCAATCTATGATTTGGATTAA	MTLKELREHRQYPEQTKSDASRAVYERDYSRLIHSPTFRRLQGKSQVFGAGTGDYYRTRLTHSLEVAQIAREAARSLTRLYPEVLPEQAENAGLMIDPEVVECAAIAHDFGHPPFGHKGEEVLQGILEKLIDRRTEKELTRQPGTPTPEQASEVQQAMRRKYEHFEGNAHNFRLIMFLEKRENVNGLNLSDAVLLGINKYPFSGLDNPKGMYRHEWEYISHIRKEWQIPGTHRTLEAQLMDLCDDIAYSAHDLEDGIKAGKIEVHEHFLRDSHLNKLIVQKIMTLEDEVWKGWTKEQIQPKVDLVLDEFLKIWNEKMPTCENDYSRTRREVKAYWVSLFVGSLGVIANGDWKKVTFVKDGVEDEDMLRTVSVLKSFAWVTMIRDLRVQRLQKRSEWIIKRLWDAFLDPVASTAIIPSDWLQRYEADQKRANPIWTWEHMVIDYIAGMTDAFAEKIYNELYGLKVGSIYDLD	PGPT0021495_599	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021495-dgt-K01129	NA	NA
AK002_05306	1320			hypothetical protein	GTGAAACGAAGGTTTGCTTTATCCAAAAGAATAACCTTCTGCCTGATCAGTGCAGCCATGCTGCTTGCTCCTCTGTTTGAAGGACAGAGCATGGCTGCTAATGAGAGCAAGTACCCCGCTTCCGCATCGGCCAGCAGCTACGACACCCGCTGTGCTTGCGATGCATCGAAAGCGGTGGACGGCAGTCTTAGCACACGCTGGTCCGGCGGAGGCGACGGCACTTGGCTGAGGCTGGATCTTGGGTCCGCCCAACCGGTTTCACTGGTCAAGATCGCATTTTACAACGGGGACTCGCGTACATTCACCTTCGATATCCAAACCTCATCGGATGGCTCCAACTGGCTTCAAGCACGGAACGCTGTCACTAGCGCTCAAAACAACCAGCTGCAATCCTACTCCATCCCCGTCGCTGAAGCCCGGTATGTACGCATTGTGGGCTACGGCAACACCTCCAATGACTGGAACAGTTACACAGAGGTCGAAATTTGGGGAGGTACTACGGATGGAGGAGGCGGAACCCTTGACCCGGCGAAGCCCCCTTCGGGCAATTTTGACCTAACCAAGTGGAAAATCACCCTGCCTGACGCGTCCGAGATCCCGGCCGGCACACTCGCCGGCGGCTATGAGCATCCGGACTGGTTCTATACCGATCCCGTCACCGGCGGCATGGTGTTCACATCCCCTAATATCGGCGAGACCACCACGAACAGCACCTACACCCGCTCCGAGCTTCGGGAAATGCTGAATCCGGCGACGAACAGCGCCTCCTCATGGGCCAACAACTGGGTAACCTCTACCTCCTCCCCTTCCATTAAGTCACAGGCCGGCGGTGTGGATGGAACGATGAAGGCTACCTTAAGGGTGGATCATGTATCCGTCAGCGGGAACGAAGCCGATAAAATCGGCCGCGTCGTGGTCGGGCAGATCCATGGCCCCAGCACCGAGCCTATACGGCTTTATTACCACAAGCGTCCTTCGGACAGCAGGGGTGCGGTTTATTTTGGAACCGATGATCTCGACAACAACAACACCTGGGTGAACATTCTCGGTGGACCGAACCAGCTTAACCCCTTAAACGGCATTGCCCTCGGCCAGACATGGAGCTATGAAATCAAGGTGACCGGACTGCTCATGACGGTAAAAGTAATCCCGGAGGGCGGATCGGCCACCACCGTGACCCATACCCTTCCAAGCGGTTATAACGATAAATATCTGTACTTCAAGGCAGGCGTCTATAACCAAAACAAATCCGATACCACACCTGATCAATCCGACCATGTCAAAGCCACTTTCTTCTCTCTGACGCACATGCATCCGTAG	MKRRFALSKRITFCLISAAMLLAPLFEGQSMAANESKYPASASASSYDTRCACDASKAVDGSLSTRWSGGGDGTWLRLDLGSAQPVSLVKIAFYNGDSRTFTFDIQTSSDGSNWLQARNAVTSAQNNQLQSYSIPVAEARYVRIVGYGNTSNDWNSYTEVEIWGGTTDGGGGTLDPAKPPSGNFDLTKWKITLPDASEIPAGTLAGGYEHPDWFYTDPVTGGMVFTSPNIGETTTNSTYTRSELREMLNPATNSASSWANNWVTSTSSPSIKSQAGGVDGTMKATLRVDHVSVSGNEADKIGRVVVGQIHGPSTEPIRLYYHKRPSDSRGAVYFGTDDLDNNNTWVNILGGPNQLNPLNGIALGQTWSYEIKVTGLLMTVKVIPEGGSATTVTHTLPSGYNDKYLYFKAGVYNQNKSDTTPDQSDHVKATFFSLTHMHP	PGPT0019417_92	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_ALGINATE_DEGRADATION,PGPT0019417-putative_alginate_lyase_2-NA	NA	NA
AK002_05307	756			hypothetical protein	TTGAAGAAGAAACTTTACCGGTTCTCATGCCTAGTCCTCTGCCTGCTGATAACCATGAGCGTCATGGCATCCCCAGGGCAGCTTTCTGTTACATCTGCACAATCTGTTGCAGGATTCGATCTTGCGGCAGAATCTGTTGCCTCTGCTTCCGATCCCCTGCCGGAGCCGGAAGGTCCGGATATTCTGTTCTTCTCCGATAACTTCGATTCGGAGCGATACGGCACCACCGGAGGAGTCGTCGTTCCCCTGCCCTGGGTTCAAACCGGGGAAGGCGGAAGCAAAGCCAAGACCTCCGTATCCGGCAGCGCGCCGTCCACGCCAAACCTCATGAAAATCGACGTGACCGATTCCGTCTATCTGCCCGTCAATACGACGGGTTATGGCAACATCAAGCTGAGTTATTATACGAGAGCCTCATCTTATGTCAGCGGAAGCATCGTGGCAGAGTGGTCCGGCGATGAAGGCGCGACTTGGAGCCTGCTGGAGGATTTCAAGCTGGCCCCTGGAACGCCTGAAGCGCCGCGCAGCGAATCCAACACCTTAAAAACCTGGACGCTGCCGCCGGAAGCGAACAGCAATCCAAACGTGCGAATCCAGTTCCGGGTAGGTGATCCGATGAACGCCAATATGTATATCGACAGCGTCTCGCTGTCCGGTCAGGCTATACCGGGCATTCCGCCTGCGATCGATCCCGTGCCTGAGCCTCCGCCAACCGAAACCGGCCCATACCCTGCTCCGGAAGGCGTAACCCTCTAA	MKKKLYRFSCLVLCLLITMSVMASPGQLSVTSAQSVAGFDLAAESVASASDPLPEPEGPDILFFSDNFDSERYGTTGGVVVPLPWVQTGEGGSKAKTSVSGSAPSTPNLMKIDVTDSVYLPVNTTGYGNIKLSYYTRASSYVSGSIVAEWSGDEGATWSLLEDFKLAPGTPEAPRSESNTLKTWTLPPEANSNPNVRIQFRVGDPMNANMYIDSVSLSGQAIPGIPPAIDPVPEPPPTETGPYPAPEGVTL				NA	NA	NA	NA	NA
AK002_05308	4200	aes		Acetyl esterase	TTGATCGGCAAAGCCGGCGACCGGGACCTCTATACGTCCATCGCCGTTCCGAGCACTCCGCCGGCCGAGCCTATGCCGGTCATGATCTACATTCACGGCGGAGGCTGGAACAAGGGAGACCGCAAAAACGCCCTGGGCAGCATCTGCAACTATGTCCTTAAACGCGGGTACATCGGGGTCTCCTTAAGCTACCGTCTAACTCCCGAAGCGCCTTACCCGGCCCAAATTCAAGACGTGAAGCTGGCCATCCGTTATTTGCGCGCCCACGCCGAGCAATACCACATCGATCCGAGCCGAATCGGCGTCTGGGGCACTTCGGCTGGAGGTCACCTCGCTTCCCTGCTCGGAACGACGGGAGACCTGACCTTGGAGGATACGGTCACGCTGGATACCGGGGATACGGTGCATCTGCCCGATATCGAAGGCGCCGGAGGGTGGCCGGAATACTCCACCAAGGTGCAGGCCGTGGTGGACTGGTATGGACCTGCCGATTTCACGACCGATTTTGCCGACCGGTACAGTTCGGTTACGAAGCTGCTCGGCGGACATAACGCCCTGTCCGTCCCGATTGAAGCACGGCTTGCCATGCCCGGAACGTACGCCACTCCCGATGATCCGCCGTTCTGGATTCGGCATGGAGACGCGGACGCCACCATCCCTTATACCGACAGCATCACCTTCGCCGATCAATTGACGGCTGCCGGCGTTCCTGTGGTCGATTTCGAAATCGTTCCCGGCCAAGGCCACGGCTTTACCGGAGAAGCCAAAACAACCGCGGATGCGGAAGCTTGGGCCTTCATGGAGCAGCACGTAAAGAATCTGGAGGTCACGACGCCGATTCTCTACAAAGACGGCTACACGCCTCCTGATCCGACGGATCCGACCGATCCCACCGACCCAACCGATCCTTCAACGGGCATCCCCGTTGAGGTTGGCCGTTTGGAGCCCTCAGACGATGCCTTGATCGACAGCTCCAAACCGGACGCCAATATCAATTCCGCTACAGGCACAAGCGTCGGTCTTTTTAGCGTTTCATCCGGTACAACCAACAAAAGGTATGTCTATTTCAAATTCGATGCTTCCACTCTGAGCGATCCCGAATACCGCTACGAATTCCAGGTCGCCGCGAAGAAAGGCACCAGCAACACGGATCTTGAGCTCTCCCTCTATGGGATCGAGGATACAGCCTGGAGCGAAAGTCAACTGACCTGGAACAATGCACCCGTGAACGTTCTCGATCCAAATGCTTATATTGGATCGTTTACCGTTACGGCCGAGAATGGCGGCCGGCCGGAGGTGTACAGCGTCGATGTGACGGACTATGTCCGCAGTCATCTAACAGATGGCAGCGTATCGTTCCTCCTGGCGGATGCGGCCCAAACCGGTGTCAGCGTCAATATCTATACCAAGGAAGCCAACGGTTCCAGCAATCCAAGACCTGCTATGGTCGTAAGCGAATGGGTGGATTCCAGTCAGGATACAACGCTGCCGTCCTGGCCGGACGGAAGCCGCCTGTCCATCGGCAGCATTGGCGAAGATTATGTGCATCTGTCATGGCCGACGGCGGAAGACAACAAGATCGTCGCGAAGTATAACGTTTATCAAAACGGCGTCAAAGTCATGGAGCTCGGCTCCGACATCACCCGCCATGAAGCGGAAGGACTATCTCCGCACACGGAGTACAGCTATAAGGTCGAGGCCGTGGATGCCGCCGGAAACGTCAGTCCGGTTCCGCTGACGCTGTCGGTTACGACGCTTAGCGCTCCCTTAGCGCCTTGGCCCGTGGTCTCGGTCACGGCAAGCGGCAGCGACGGCAACATCGAGGATAATACCCTGGACCAAAATCTGTACACCCGCTGGTCTGCCGCCGGCGACGGTCCGTGGATCATGTACGATCTCGGCAAGACCCGGGACATCGGTTATCTGGGCATCGCCTTCTATAAAGGGGACGCTCGCGCTACGGAGATCGATATCGAAACCTCCGATGACGGCGTGACCTGGTCTCCGCTTATCAACGGTTCGAGCAGCGGAACCACTAACGCGATGCAGCCTTTTGACGTTCCGGACACGAGGGCGCGTTACGTGAAGCTGATTGGGCGCGGAAATTCGGACGGCAGTGCCTATACGAGCCTAACGGAAGTTCATATCTATCCGCCTTTCGCTAACGGGGATACGCCCGTGGCGATCATTCCGGATTTTGTGCCGCAGCCGCCGGAGGGTACCGTTCCTTTTACCGCCCCAGGCATGAAGAATGCGGACGGCAGCGACCATCCGGTGCACCAAGCTTTTGCTGCTACCGGAAGAACGTTGAACGTGGTCGATTACGGGGCTGATCCTGCGGACAACGGCTCGGACGATCGACCGGCGATTCAACGAGCAATGGATGAAGCGGTCCCGGGCGACGAGGTGTTTTTCCCGAATGGCGTATACAACTTAAACAGTGCGCCCGATGGACTGACCAATCTAATGCTGAAATCGGAGGTCAATTTACGGGGGGAGAGCCAGAAGGGTGCGATCCTGAAGACCTCGCTGAACAAGGTCCGGAATAGCTCGATGTTGAAATCCGCGAAGCAGCATGATCTGACCATCTCCAATCTGACGCTGACCTCCGCATGGGAAGGCCAATATTCGACCGATCACAGAATCAACAACCCGGATGCCGGCGGTCCGGACATGATGATCATTGCCGCCAATTATGGCGAGGCGCCTTCATACAACATTACGATCGACGGCGTGACGATCGAGAAATTCAGCCGCATGGGCGTCCGCATCGAGAACAGCCATGATATCGTCGTCCGCAATACCACGTTCCGAAATGCCACGGATCTCGGCCCGGGCGGGGCCGGGTACGGCGTAGCCATTCAGGGGGTGCCGAAGGTCGATCGCAACGGATTTGCCAACGATACCAGGTGGAATCTGGTCGAAGACTCCTCCTTCGAGGGACCTTACCTGCGCCATGGCGAACTCATTCAATATGTGGCCCATAACAATGTGATCCGGCACAACGAATTCCACCAGGTCCGGCTGGATGCGATTGATCTGCACGGGGAGCTGGAGTATTTTAACGAGATCCACGATAACCTGATCACCGACATGCCGTATGGCGGCGGCATCGGCATCGGGAATACCGGGGGGACCGCCCCGACCAATCACAGCAAATCCGGCCAGCAAAACTATATCCACGACAACACGATCCGCAATGCGCGGGAAGGCATCGTCGTATCGATGGGCTCGCCGGATACCATCATCGAGAACAACCGAATCGAGAATACCGTCGATATTCCTAACGCTGCAGGCATCAACATTTTGAACGGGCCGGGCACGATCATCAAAGGCAACACGATCCGCCAGAACACCGCCGAGCATTATTGGGCCATCCTGCTCGAGCACGACAACGGGGACACCAACGCGGGCGGCATCGGAGCCGGAGATCCGGAGAACGTGCAGATTCTGGACAACGTCATCACCGGCAACAGTAACGGAATTCAGCTCCAGGCAGGCAAGAATATCAAGCTAAGCGGCAATACGCTGGACAATATCGGCGAGAACTTCACGGCAGCACCTGGCGTCACGTATACCGATTTCACGGTGGGCCTGGAGTACAGCACGACGGCCCCAACGAATGGGGACGTTGTAGCAGCCTTGGTGTCGGAGAGTCCGATTACCGTTACGAATAACGGCGGATCTCCAACTTACAGGTTTACGGAGAACGGTTCGTTTACCTTCGAATATGCGGATGAGGACGGCAACGAAGGCACCCTAACGGCAACCGTGTCGAACATCGATAAAATCGCCCCGGTGCTTACGGTTAAGCTCTCGCCTTCCGTACTGAAGGCGCCGAATCACAAAATGGTCGATATTCGCGCTAGCCTCGAATCCAGCGATGAAGGCTCTGGCATTGCGTCCATCATGCTAACCTCCATCACCAGCGAGAGTACAGGTGGCAAGGGGCATAGCGGAGATATCCAGGATATTTTGACTGTGCAAGATAAGGATGCAGGTATCAGCGAAAGTAAAGGCAAGGGAGGTGATCGAGGACCGGATATTCAGGATGCCGAATTCGGTACCGATGACACTCATTTCCGGCTGCGAGCGGAGAAATCGGCACGCGGTCAAAGCCGAATCTACACGGTGACCTATACCGTTACGGATCATGCGGGGAATCAAGCAAATGCGGTGGGAACGGTGAGGGTGAAGTGA	MIGKAGDRDLYTSIAVPSTPPAEPMPVMIYIHGGGWNKGDRKNALGSICNYVLKRGYIGVSLSYRLTPEAPYPAQIQDVKLAIRYLRAHAEQYHIDPSRIGVWGTSAGGHLASLLGTTGDLTLEDTVTLDTGDTVHLPDIEGAGGWPEYSTKVQAVVDWYGPADFTTDFADRYSSVTKLLGGHNALSVPIEARLAMPGTYATPDDPPFWIRHGDADATIPYTDSITFADQLTAAGVPVVDFEIVPGQGHGFTGEAKTTADAEAWAFMEQHVKNLEVTTPILYKDGYTPPDPTDPTDPTDPTDPSTGIPVEVGRLEPSDDALIDSSKPDANINSATGTSVGLFSVSSGTTNKRYVYFKFDASTLSDPEYRYEFQVAAKKGTSNTDLELSLYGIEDTAWSESQLTWNNAPVNVLDPNAYIGSFTVTAENGGRPEVYSVDVTDYVRSHLTDGSVSFLLADAAQTGVSVNIYTKEANGSSNPRPAMVVSEWVDSSQDTTLPSWPDGSRLSIGSIGEDYVHLSWPTAEDNKIVAKYNVYQNGVKVMELGSDITRHEAEGLSPHTEYSYKVEAVDAAGNVSPVPLTLSVTTLSAPLAPWPVVSVTASGSDGNIEDNTLDQNLYTRWSAAGDGPWIMYDLGKTRDIGYLGIAFYKGDARATEIDIETSDDGVTWSPLINGSSSGTTNAMQPFDVPDTRARYVKLIGRGNSDGSAYTSLTEVHIYPPFANGDTPVAIIPDFVPQPPEGTVPFTAPGMKNADGSDHPVHQAFAATGRTLNVVDYGADPADNGSDDRPAIQRAMDEAVPGDEVFFPNGVYNLNSAPDGLTNLMLKSEVNLRGESQKGAILKTSLNKVRNSSMLKSAKQHDLTISNLTLTSAWEGQYSTDHRINNPDAGGPDMMIIAANYGEAPSYNITIDGVTIEKFSRMGVRIENSHDIVVRNTTFRNATDLGPGGAGYGVAIQGVPKVDRNGFANDTRWNLVEDSSFEGPYLRHGELIQYVAHNNVIRHNEFHQVRLDAIDLHGELEYFNEIHDNLITDMPYGGGIGIGNTGGTAPTNHSKSGQQNYIHDNTIRNAREGIVVSMGSPDTIIENNRIENTVDIPNAAGINILNGPGTIIKGNTIRQNTAEHYWAILLEHDNGDTNAGGIGAGDPENVQILDNVITGNSNGIQLQAGKNIKLSGNTLDNIGENFTAAPGVTYTDFTVGLEYSTTAPTNGDVVAALVSESPITVTNNGGSPTYRFTENGSFTFEYADEDGNEGTLTATVSNIDKIAPVLTVKLSPSVLKAPNHKMVDIRASLESSDEGSGIASIMLTSITSESTGGKGHSGDIQDILTVQDKDAGISESKGKGGDRGPDIQDAEFGTDDTHFRLRAEKSARGQSRIYTVTYTVTDHAGNQANAVGTVRVK				NA	NA	NA	NA	NA
AK002_05309	264			hypothetical protein	ATGGCAAAGTATCTGTTAACGCATGTAGAAGGGGAGAAAGCTTATCCAGGTGTGGAGGAATTCGACGGGGATATTCATGCTTTCATGGAATCAAAGGCATTGTATATCCGTACCATTCCCTTGACTAGCGGTGTGAACGGAAATTATGTCTACGCCGACGGTCAGAAGGACCGCTTTGGTGATTCCGTCACGCTGGGCCTTCTGACTTTTGTGCAGAATACGATCCCCGCCCGGCATATTCGCTGGATTATTGCCCCGTTGTAG	MAKYLLTHVEGEKAYPGVEEFDGDIHAFMESKALYIRTIPLTSGVNGNYVYADGQKDRFGDSVTLGLLTFVQNTIPARHIRWIIAPL				NA	NA	NA	NA	NA
AK002_05310	786			hypothetical protein	ATGAAGCCCTCTGAATTTATAGCCAAGCTGGCACCCATAGCTGCTCAGGACATGCTTCAATACGGGGTACCCGCTTCGCTTACGCTTGCCCAGGCAATCCTGGAATCCAACTGGGGAACGAGCGGCCTGACGCAAAAGGCGAACAATCTGTTCGGCATCAAAGGAACCGGCCCGGCGGGCAGCGTCACCATGCAGACAACGGAGTATCGGGGACAGACGCCCTATACGACCCAAGCCTCATTTCGAAAATACAACCATTGGCATGAATCGGTTGCCGATCATACCCGGCTGATCCTGAACGGTACGCGCGACAAGCCGCAGCGCTACCATGGCGTGTTATGGGCGGATTATAAAACGGCGGCAACGGAGATTTGGAGAGGCGGCTATGCCACAGACCCCAATTATCCCAAAAAGCTCATTTCCATTATGGAGCAGCATTCGCTCCATCAATATGATGTGCCAAGTCCGGAGGAGGAGGAACGCATGAAAATCGAACAATTAACAGCCGAGCTGCAAAAAACACAGGACCAGGTTCGGCAGCTTAACGAGCAATATGCCTCGGCAATGAAACTGCTAACCGAGCAGGACAATGCCATCAAGCAGATGAATGCCAGGCTTAAGGCGGCGGAGACGGATAAGCCTGCGAAGGTTCCGTCTTGGGCGGAACCGGCGGTACAAGCTGCAAAACAGGCAGGAGTACTTCATGACCCTGAGGGCAGCTTCGATTTTTACCGGATCATGACCGTGCTTTATCGTCTGGGGATTATCAATAAAGAGAGCAATTGA	MKPSEFIAKLAPIAAQDMLQYGVPASLTLAQAILESNWGTSGLTQKANNLFGIKGTGPAGSVTMQTTEYRGQTPYTTQASFRKYNHWHESVADHTRLILNGTRDKPQRYHGVLWADYKTAATEIWRGGYATDPNYPKKLISIMEQHSLHQYDVPSPEEEERMKIEQLTAELQKTQDQVRQLNEQYASAMKLLTEQDNAIKQMNARLKAAETDKPAKVPSWAEPAVQAAKQAGVLHDPEGSFDFYRIMTVLYRLGIINKESN				NA	NA	NA	NA	NA
AK002_05311	453			hypothetical protein	ATGTATGAGCACATCGGTCAGTTTTTTAAGATGCTGGTGGCGGGGACGGGGGCCGTGACAGGGTACGTCTGGGGCGGATGGTCGCTGCCGCTGCATCTGTTGTTGTGGTTCGTGGTGATTGATTGGTTGACCGGATGGGGCGCGGCCTGGATGAACGGCGAGCTGCGCAGCCGTCTTGGTTATACTGGAATTGCACGCAAAATGACCATTTTTCTCATCATCGCCCTGATGCATCTGGTGGACCGGGTGCTGGGGGAGATGAATTATTTTCAGAATACGGTGATCTTCTTCTATCTCGCGAATGAGCTGCTGTCCATTATTGAGAACGTAGGAAGAATGGGGGTACCGATCCCCCAGTCCCTGCGTAATGTGGTACAGGTATTCCAGATCAAATCCGAAGAAGGGGAAAAGCCAACCGCAGGAAAGGAGGAGAAAAAGGATGAAGCCCTCTGA	MYEHIGQFFKMLVAGTGAVTGYVWGGWSLPLHLLLWFVVIDWLTGWGAAWMNGELRSRLGYTGIARKMTIFLIIALMHLVDRVLGEMNYFQNTVIFFYLANELLSIIENVGRMGVPIPQSLRNVVQVFQIKSEEGEKPTAGKEEKKDEAL				NA	NA	NA	NA	NA
AK002_05312	138			hypothetical protein	ATGTTCGAAAACGATTTTGAACGCTTGAAGTATTACTATGAAAAGAAGTGGGCGCAGAAATCTCAATTGAGACAGTATGTTGCGTTTGGCGTGATCACCTCGTATGAATATGAAGTCATCACTGGCGAGGCATATTAA	MFENDFERLKYYYEKKWAQKSQLRQYVAFGVITSYEYEVITGEAY				NA	NA	NA	NA	NA
AK002_05313	582			hypothetical protein	ATGAAAGCCGTACCTAAAGTAAATACAAACGGCCTCTATTTAGAGGACACGCTTGTGGACGATACCTTTTCTGGTGTCGTCCCTTTTTATTCCAACATGCAACAAGGAATATTAGATGTGCTAACGACAACAGAAAACGTAACTCAACCAGATGGCGAAGCACCCAACGATTATGAATCCAATATCACCGGCTACATCATCGGCATCCCGGTAACCCCCGGCTTGTTCCACCCGCGCTTTGATCTTGCAGCCTGGAATGCATACGAGGCTGCCGTAAGTACAGCACAAGATTCATTCCAACAAGCCTTGTCTAAATGGCATGCACTCCCGGAAGAGCAGCGTGGCGACATGCCGGTGCTGGAGTCTCCGGCCCAGCCGATATTTTGGGTAGAAGGCTTAACCTCAGAGGAAATCGAGGAGCTAACCAGACCTCAACCAGTAGAGCCTAATGAAATGGATCGCTTAGGGAGCGAGATGGTAACGCGGGAACTGGAGGTCTTGGAGCTGCGTCAGCAGAACGAGGCACAGGGCGCTCTAATCGTGGGACTTGAATTGCGGTTGCTGTCGCTTGAAAATAGCTGA	MKAVPKVNTNGLYLEDTLVDDTFSGVVPFYSNMQQGILDVLTTTENVTQPDGEAPNDYESNITGYIIGIPVTPGLFHPRFDLAAWNAYEAAVSTAQDSFQQALSKWHALPEEQRGDMPVLESPAQPIFWVEGLTSEEIEELTRPQPVEPNEMDRLGSEMVTRELEVLELRQQNEAQGALIVGLELRLLSLENS				NA	NA	NA	NA	NA
AK002_05314	2604			hypothetical protein	ATGACGAATCCGGTTACGCCGAATATCGGGTTGAACAAAATTGATCGAACCTCGCCGTCCACGACGTATTTCGATCTGGAGAAGTATATTGATCAGAACGCGGATGCCGTAGATCGGTTCGCGGGTGAAACGAACGAGTCCATCAATGCACTGGGAAAGCGTCTGGATACCGAAGAACGCAGGGAAGTCGTGCTGCAGCCGGGGCTTCAGATCGTGAACGCGGAGCGGAGCGCGCCTTTTAAGCTGAGTGGGATTAAGGGGCGGACGTTGGTGAATTTGTTGGGGCGAGTGGGATCTTGCGACTCTTTGAGTGGTATTTCCCCATATAATACTTTGATCGAAATCGTTAATAATCAATCACAGGGTACGGCAGCATTAAAAGTAACAGTAGCGCAAGGTTTTCCGAGTGGGGCTGCATTCTTTCCAAATGTTAAATTCTCTGCCAATAAAAAATATGTTCTTATTGTCGAAGCTCAGGTGGCGAATGCCGAGTATGCAAGAATCCATCTGCCATCAGCGGGTGCGATTGGTAATAATGTAACTTCGGCTACCTTTAAGCCTTCCATAGCCCTATTTAGTCCTACGTCGGATGTAGTGTCTAACGTTGATTTAGCTTTAAAAGGGACAAGTGGTTCCGTTGGGTATTTTGATGCAGCCCGCATATATGAGATTACCGATGCAGAATACGCTACACTCTCCAGTATGACTCCTGAGCAAGTTGCTTCTAAGTATCCGTACGTCGATAGTGTTCAACCTGTGCGAAATCCGTATGCTATCCGGTACGGGGAGAATTTGCTGCCACCATTTTATAAGTGGGCCAGTCGCCAACCTTACCACACAGAAGAATTATACAAAGTTTTCAGTAAAGCAGCTCCAGCACAAGTAATCTATGTTGATATACCTGTGTGCCCAGGCATACTGTACACACTTTTATTCGAATCTTTAAAATGTGATTACGTTGCCGTTCATGATAATAGTGGGGCAAACGCCAGCAGTATGAGTTACCTCGTAAAAGTAGATAGGAATCCGGCCGATGATAGCCCTTATATCGTCCAATTTAATGGGCCTAAAAGTGGGGTAGTTCGCATTCATCTATACGCGTACGATTTGCAAGCTGAGATAGATGGGGTGGATAGAAATTCATTACCGGCATACGATATACACGCTACGAACCCTATCCTTACAATTGGCCTCACACCCAAACCATTCAAACCACGTGAAGACTCTATGCTCGCATTGCAAACAGACTTATACGCTGATCCAGTATCAGGTGCGGATGCTGATGAAGTGTTCGAAAAAGACGGACAGTATTTCAGGTTGGCGAAGTGGGTGAAAGCTACTTTAACCGACAAATTTAACTTTGTTGGTATTGGTGGGAAGGGAGCCGGATGGAAACAGACTTTCTTTGATTTACCCAGTAACACATCGGGACCGTATTCTGAAACAGTCATAAAATATGACGGCAAAAAACTCCAATCGAATCAGATTACCAGTAGCCCAGACATTAGTGCAATTGATTCAGGAAACGCAAAGCGTTGTTATATTTCAATAGCCAATACAGACAGCGGCTGGGGCGACAACTATTCACCTACAGCTGACGAGATTAAGGCGTATTTTATGGGATGGATGATGTACGACGGATCAGGAAGTAACGCAACGCCTGATTATCCGGTTAATAACTTTTACAACGGAACAGGGGTAAAAGCGTGGGCTTATCGGGCGGACGGTGTGACTAGAACGTGGTTAGGCTGGACAGATAAACTTCCAACAACTCAAGCTCCTAATTGGACGCCTTACCAACTATTGTACCGACTAGCTAATGAATCTATCGAACCTATCGTTTCCGAAGGCATGTTGACGTTTAACGAGGGGGATAATCAGATCGAGGTTGGAACGGGAATTGTGTTACGGGAGAAAGCGACTCCTGTTCTGAATGGCCCGCATTACAACGTGAACAACACAAATTATCCTTTGTCATTGTTAGATAATAAAACAGAAAGAATTATACGTTTTTACAAAAATAACGCTGATGATCCGTGGAGTAAATTTACTAATCTCGCATACGGAAATGAAGGGCTATATACACTTGCCGCCAACTTTGATCCCTCCGCTACCTATTCCGTCACGTACCTGATGCTGGACAAATCACCAATTGTTCCGTTCACTGGATCGTACGCATCCAACGAAAAGGCCATGATCGAAGAGTTAAACGAAGCCGTTCAGCAGAATGCGACCTCTGTATCGGTGCTGATGAATAAGAAGGTGGAAAAGAATGTGTCTGTCGTTCAAATTAAACCTACACTTTTGAATGGGTGGGTAGAATATCTAAGCGGGTATCATCATGTTCGGTATTATAAGGATTCATCTGGAATTGTGCATTTGACAGGGCTTGTCAAAACCGGAGCTATAAATTCAGAGATGTTTAAACTGGCTGAGGGCTATAGACCTGTAGCTACTATAGTTTTCGCACAACAAGCAAGTACGGGTAGCACTGCTCGTTTAGATATCTTTCCAGGAGGCGGTGTCTATTTCAACTACGCTGCTTCTTGGAATGCTGATTCGTGGGTTAGCTTGGACGGGATTTCATTCCTAGCCGAACAATAA	MTNPVTPNIGLNKIDRTSPSTTYFDLEKYIDQNADAVDRFAGETNESINALGKRLDTEERREVVLQPGLQIVNAERSAPFKLSGIKGRTLVNLLGRVGSCDSLSGISPYNTLIEIVNNQSQGTAALKVTVAQGFPSGAAFFPNVKFSANKKYVLIVEAQVANAEYARIHLPSAGAIGNNVTSATFKPSIALFSPTSDVVSNVDLALKGTSGSVGYFDAARIYEITDAEYATLSSMTPEQVASKYPYVDSVQPVRNPYAIRYGENLLPPFYKWASRQPYHTEELYKVFSKAAPAQVIYVDIPVCPGILYTLLFESLKCDYVAVHDNSGANASSMSYLVKVDRNPADDSPYIVQFNGPKSGVVRIHLYAYDLQAEIDGVDRNSLPAYDIHATNPILTIGLTPKPFKPREDSMLALQTDLYADPVSGADADEVFEKDGQYFRLAKWVKATLTDKFNFVGIGGKGAGWKQTFFDLPSNTSGPYSETVIKYDGKKLQSNQITSSPDISAIDSGNAKRCYISIANTDSGWGDNYSPTADEIKAYFMGWMMYDGSGSNATPDYPVNNFYNGTGVKAWAYRADGVTRTWLGWTDKLPTTQAPNWTPYQLLYRLANESIEPIVSEGMLTFNEGDNQIEVGTGIVLREKATPVLNGPHYNVNNTNYPLSLLDNKTERIIRFYKNNADDPWSKFTNLAYGNEGLYTLAANFDPSATYSVTYLMLDKSPIVPFTGSYASNEKAMIEELNEAVQQNATSVSVLMNKKVEKNVSVVQIKPTLLNGWVEYLSGYHHVRYYKDSSGIVHLTGLVKTGAINSEMFKLAEGYRPVATIVFAQQASTGSTARLDIFPGGGVYFNYAASWNADSWVSLDGISFLAEQ				NA	NA	NA	NA	NA
AK002_05315	546			hypothetical protein	ATGAGTAAAGCCTACGCCTGGCTGGGTTACTTGCCGTCCTTTTATCACGATGTTCGGGAAATGAAAGCCCTCGCCGGAGCCGAAGGGGCTGAGTTGGACAAGCTGGCGCAAGAACTGGAGGATCAGTTGGACCAGTATTATCCCGAAACCGCCACCTGGACGCTATCCAGGTATGAGCAGGACCTGAACATCCCGGTCAACTTATCCAAGCCGATTGAACAGCGGCGGTCGGTGATTATCTCGAAGATGCGGGGGAGCGGGAAGGTGTCTGCCAGCATGCTCAAAAATGTGGCGCAAGCCTATGAGCGGGGTAGCATCGAGGTATCTGTCCAGCCCGCGGAGTATAAAGTGACGATTCATTTTCGAGATACGCTGGGCATTCCGCCCAATTTGAGTGACTTGAAATCGGCCATTGAGGAGATCAAACCCGCCCATATGGCGGTTGATTACGCCCTGCGTTATCTCACCATTGCCGAGGTGGAGGGCATGACGTTCGAGGAAATATCAGCAACGACACAAGACAGATTGTTGGGAGGAGGAGCCTAA	MSKAYAWLGYLPSFYHDVREMKALAGAEGAELDKLAQELEDQLDQYYPETATWTLSRYEQDLNIPVNLSKPIEQRRSVIISKMRGSGKVSASMLKNVAQAYERGSIEVSVQPAEYKVTIHFRDTLGIPPNLSDLKSAIEEIKPAHMAVDYALRYLTIAEVEGMTFEEISATTQDRLLGGGA				NA	NA	NA	NA	NA
AK002_05316	1059			hypothetical protein	GTGGTTGAGGAACAGACGTATGAAGCCATTCTGGAGCGGATGCTGGATCGCGTCCCGGAGGGTATGGACAAAAGAGAGGGCAGCATCATCTACGATGCGTTGGCGCCTTCTGCGGCTGAGCTTGCCCAGATGTACATGGAATTGGAGTATTCCATGAACCTGAAATTTGCCGCTACGGCATCGGGCGAATTTTTGGATCGAAGCATTGCCTGGTCGGGACTTACCCGAAAACAGGCTACAAAAGCACAGCTGCTGGGGCAATTTTCGGGCAGTAACGGCGCCCCGGTGGATGTGGCTATGGGGAGCCGTTTTTCATTGGATCCACTGAATTACAAAGTCATGACTCGGCTGGGTGCAGGGCAGTACGTGCTGGAATGCGAGTCAAGCGGGAAGGAAGGCAACCGTCGATTCGGTTCGCTGCTTCCGCTGGAATACGTAGAAGGTTTGGTTAAGGCCGAGCTGGTGGAACTCTGGGTACCTGGCGAAGACACCGAATCGGATGAAGCGTTATATGACCGATACCGCGAAAAAATCTCCCGGCCCGTGACCAGTGCGAACCGGAATCAGTATGAGTTATGGGCGAGGGAGAAAGCCGGAGTCGGAAAAGCCAAGGCTTTCCCGTTATGGAACGGTCCGGGCACCGTCAAGGTGGTGCTGCTGGATAACGAGATGCGATCGCCTACGCCTTCCGTTGTGGAATCGGTGCAGCAGCATATCGATCCGACTATGGATGGCATGGGAGAAGGGGCGGCTCCCGTCGGTTCGGTGGTCACCGTAGTGGGAGCGGCTGAAGTGCCAGTCCATATTGAAGTGCAGGTTACGCTGCTCGATGGGGCTGGCTTGGATGGTGTGCAGGGAGCGATTGAGCAGGGCGTGCGCCAGTATCTGAAAGACCTCGCCATGTCCGACCCGTTGGTCCGGTATAACCGGATCGCCAACGTGATTTTGGATATTCCGGCTGTCATCGACTACGAGGTATTGACCGTGAACGGAGGAACGGACAGCATTCCGATCGAACCGGAGGCGGTAGCCGTACTGGGGACGGTGACGGTCCGATGA	MVEEQTYEAILERMLDRVPEGMDKREGSIIYDALAPSAAELAQMYMELEYSMNLKFAATASGEFLDRSIAWSGLTRKQATKAQLLGQFSGSNGAPVDVAMGSRFSLDPLNYKVMTRLGAGQYVLECESSGKEGNRRFGSLLPLEYVEGLVKAELVELWVPGEDTESDEALYDRYREKISRPVTSANRNQYELWAREKAGVGKAKAFPLWNGPGTVKVVLLDNEMRSPTPSVVESVQQHIDPTMDGMGEGAAPVGSVVTVVGAAEVPVHIEVQVTLLDGAGLDGVQGAIEQGVRQYLKDLAMSDPLVRYNRIANVILDIPAVIDYEVLTVNGGTDSIPIEPEAVAVLGTVTVR				NA	NA	NA	NA	NA
AK002_05317	414			hypothetical protein	ATGATCCCGCAAGGAGGAACGCTGCAGCCGGGTAGCGAGATTGTGGAAACCTTGGAGCAGCCTAGTTTGACATATGATTTGAATCTGGAGGAAGGGAAGATATCCGGTCACATTGATGCTCTTGAGGCCGTTAAACAGGCGGTCGTCAAAATCCTTCAGACTCGCCGATTTGAGCATCTGATCTACAGCAGCAACTATGGGCAGGAGCTGGACTCCGTCATTGGCCGCGACCCGCTGTGGGCCTATGCCGAAATCGAGCGGCATATCAAGGAAGCGCTGCTGCAGGATGATCGCGTGTTGTCGGTGGATGACATGAATATTACGTTCACGGGCGAGTTGGCCATAGCTGAGTTTACGGTCCGAAGCGTGCATGGAACTTACAGTATGACTAAGGAGGTGAGGGAGAGTGGTTGA	MIPQGGTLQPGSEIVETLEQPSLTYDLNLEEGKISGHIDALEAVKQAVVKILQTRRFEHLIYSSNYGQELDSVIGRDPLWAYAEIERHIKEALLQDDRVLSVDDMNITFTGELAIAEFTVRSVHGTYSMTKEVRESG				NA	NA	NA	NA	NA
AK002_05318	297			hypothetical protein	ATGCTGGATATTATCAAAAAAGCCAGTCTCAGCGCCGTGGGCAGCACAAACCCGATGGCGGTGCTGTACGGCACAGTCACATCAATCCATCCTCTGGAGGTGAACGTGGACCAGCGTTTCAGCCTGACGGAGGATTTTTTAGTTATCGGAGAGTTGATGACCGAGTACAAGCTGAACATTGGCAGGGAGGAATATGTGATTCGAAAAGGGCTGGAAACGGGAGACACGGTGCTGCTCATACGTTATCAGGGCGGGCAAACGTATCTCGTGCTGGATCGGTTGGTGAAGCCGTCATGA	MLDIIKKASLSAVGSTNPMAVLYGTVTSIHPLEVNVDQRFSLTEDFLVIGELMTEYKLNIGREEYVIRKGLETGDTVLLIRYQGGQTYLVLDRLVKPS				NA	NA	NA	NA	NA
AK002_05319	966			hypothetical protein	ATGATCGAACTGATGATTGACCGCAAGAATGGAAGCGTGTGGGATTTGGGGCAGATCGTAACCGACATCACATGGAAAACAAGCCGTCAGGCAAAGCCGGCAAGTCTGGATATCAACTATGTGAACGATGGCCTGGCGCAGAGCAAGGCATTCGAAGTGGAGAACGGCGACATTGTGCGGTTCCGGAAGGATAACAAGGATCTGTTTTATGGGTATGTTTTTTCCAAAGAGTGGGGCATGGACGCCCAGGTCAAGGTGATGGCTTATGACCAGCTGCGCTACTTGTCCAGCAACGACACCTACCGGTTCACGAATGCCAAGGTGGAGGATATTATCCGGAAGATTGCCAAGGATTTTAATCTGAAGACAGGCACGCTGGCCGATACCGGCCATACGATCCCTGCCATGCTGGAAGCGGACAAGAAACTGATCGATATTATTTGCAAGGCCCTGGATTCCACGTTGATCGCGACCAAGCAGTACTATATGTTTTACGACCGGTATGGCGAACTGACGTTAACCAACATCAACGACATGCTGCTCATGCTAGCGGTGGGAGAAGACAGCCTCATGACGGATTTTTCATATAAAAAAAGCATCGACAACGAGACGTACAACCGCATTAAAGTCGTGCGGGACAACAAGCAGACGGGCAAGCGGGACGTTTACCTATACCAGCACGGACAAAACATTGCCCAGTGGGGCCTGCTCCAGTTGTATGAGGTTGCTGACGAGAACATGAATCCCGCTCAGTTAAAGCAGTTAGCGCAAAATTTGCTCGAGCTGAGGAACAGGGAGCAGCAGACGTTGTCGATTGAGGCTATCGGGGATTTGCGGGTCCGTGCCGGAAACACGATCTATGTGAATCTGCCGGAAGAAGGCTTGAAGCCGTATCTCATCGATGAGTGTACGCATAAATTCTCGGACGGTACGCACACGATGTCGCTGAATATGAAGGTGGTGTAA	MIELMIDRKNGSVWDLGQIVTDITWKTSRQAKPASLDINYVNDGLAQSKAFEVENGDIVRFRKDNKDLFYGYVFSKEWGMDAQVKVMAYDQLRYLSSNDTYRFTNAKVEDIIRKIAKDFNLKTGTLADTGHTIPAMLEADKKLIDIICKALDSTLIATKQYYMFYDRYGELTLTNINDMLLMLAVGEDSLMTDFSYKKSIDNETYNRIKVVRDNKQTGKRDVYLYQHGQNIAQWGLLQLYEVADENMNPAQLKQLAQNLLELRNREQQTLSIEAIGDLRVRAGNTIYVNLPEEGLKPYLIDECTHKFSDGTHTMSLNMKVV				NA	NA	NA	NA	NA
AK002_05320	720			hypothetical protein	ATGAGCGATTACGGATTTTTTCTGAGCTTCAATAACCAGGAGGAGGTTTTCCGATTTCCGGTGAATCCGGAGCGGATTGATGTCAAGGATAGCGGTGAAGGCAAATCCTATACGGTCGCGGGGCTTGGCGAAGTGAATGCGATTCTGCACCCGAAGCTGACGGAGATCTCGTTTGAAAGCTTTTTTCCGGGGAGAGTGTATCCCTTTGTCCATCTAGGGTCTGACCAGAAGCTGAAGCTTCCGATTGAATATGTAAATACCATTAAAGGCTGGATGGAGTCTCGAAGGCCTGTTCGCTTTGTCATGACGGGGCTTGTTCCCGATCCGCTGAGCGGTACGGATGGCAAGAATGTGGTGAGAGCGATGAAGTCTTTTGGCATCAACATGGCGGCCTCCATCGAAAGTTTCAACTGGAATACGATGTCCGGTTCGCCGGAAGATATCGAGTTCTCGATCACGCTTAAGCGCTATGTGTTCTATGGGGCACGCAAGGTTATGCCGGTTAAGGACAAAAAGGCCGCTGCGGTGAAAACCAAAGACAGGCCGGATGACCGCAAAAAACCAACCTCCTATACGGTTGCCAAAGGCGACACCCTGTGGAGCATTGCCCAAAAGCTGCTCGGCAGCGGTTCCCGTCATGCAGACATCCAAAATCTGAACGGAATCAAGGACCATGATGTCCGGAAGCTGGCCGTCGGCCGGGTTCTGAAAATTCCCTAA	MSDYGFFLSFNNQEEVFRFPVNPERIDVKDSGEGKSYTVAGLGEVNAILHPKLTEISFESFFPGRVYPFVHLGSDQKLKLPIEYVNTIKGWMESRRPVRFVMTGLVPDPLSGTDGKNVVRAMKSFGINMAASIESFNWNTMSGSPEDIEFSITLKRYVFYGARKVMPVKDKKAAAVKTKDRPDDRKKPTSYTVAKGDTLWSIAQKLLGSGSRHADIQNLNGIKDHDVRKLAVGRVLKIP				NA	NA	NA	NA	NA
AK002_05321	1983			hypothetical protein	ATGGCGAGTGTAAAGGATGCGCTGTCGTACTTTAACAACATGGCCAATGATGTGTTGGTTGGTCAATGGCTGCAGTTTGAAAAGGGATACGAACAGGTTGTCAAACAGATTACTAAGGCTAAGGAAGAGCAAGAAAAATTAACGCGTTCAACGGCAAAATCTGTCTCGTATAAAGAAAAAATGCTTCAGATGACCGAAAAAGTCGTGGATGGAATCGAACAAATGAATCAAAAAATGGGAGAAGGCGAGAAGAAAGCGAGCGCCCTTAGCAAAGCTTTAAAATTTGCCAAATCGGCATATAAAGCGGGAGGAATTGTCGTCAAGGCGACTATTGCTCCTGCTGCTCAGGAACAGAAGCTAGAAGATCTATTTAAAGTAAAATCAGGCAATGCAGAAGTGGGAACTGCGATGTTTCAGACTTTTAAGAATAATGCGCTGAAGACGGGCTCGGATGTTAATCAATCTCTAGAAAACGCACTGACCTTTATGTCGGCAACCAAAAATTCGGATCAACTCACGCAGCTTACTGGCTTTGCCGATCGAATGAGCATGATGTCGTCAGGAAACAAGAGTTCTAAAGATGCAACAGAGGCAATTATGAGTGCAATGCGCGGAGATGCTAGTTCTTTAGCGAAAAATTTTAATATTCCTGATGCCCAAATCAAAAGCTTCAATGCGGAAATTACCTCATCTAAGGGCAATTTTACTGCGTTTCTCTCATCCATGGATAAGCTGCTTCAAAAATCCGGCATGACGCAAGAAGCATTAGGCTCAATGATGGATTCTCCCGTTAACAAGTGGCAGAAGCTGCTGGGACTAGTGGATAACTCGTTTGTTCAGATTGGAACTGGAGCTTTGGCAGCCATTATGCCGTTAATGGAAATGATAAGTGCCGCATTTGAATCAGGAGCATTTCAGCCGTTCATTGATGCTTTAACCATTGGGTTATCTGTATTGGTCCAAGTGTTTATGTGGATTGCAGAACTGGTGCCACCGGCATGGGAATTTATTAAAGGTGCGATTTCTGGCGTAGGAATGGCAATCTGGAACGTTATCAGCATATTTATGGGGTTACTGCCCATCATTACGTTTGCAGCTGTATTACTAGGAATCCTCAATATTGGGCTAATAACCAGTAGAATCGTTGCTTTAGGTTATGGAGCCGCTCAACTAGCTGCAGCTATGAAAACGAATCTCTTAACGGCAGCAACCAGCATCCAAGCCGGAGCAATGAGGATTCTTAATATGATTATTAATGCGAATCCACTTATGTATTTAATTGCTTTAATTATCGCCGTGATTTCAGCATTCGGTGTTTGGAGTGTAGTCACACAAGGACTGAAAAAGGTTTTTAGTAACGTGTTCGGCTTCATTGTCGATCTGGCGCAAAACACGGTCAACACGGTCATTTCCGTCATTAACGGGATCATTAAAGGTGTGAACGCGGTAGCGGGCTTTTTCGGTAAAGTTCTAGGCGTAGATACCAAGCAAATCGCCGAGATTGAGTATAAAGCAGACTTTACGAATTTTAAGGATACGGGACAGAAAGCGATAGAAGATTTTTCGATGGATACCTTCAAGGGTAAATTCATGCCTGATAAGAACTTGGGCAAGAACAACGAGGATCTTTTAAAACAATACAACAACGGCAAAACCGGATACGATGTTACCGTTCCGAAAACCACCCCAACCCCGTCCATGCCCGCCATGCCAACGGCTCCAATCCCGGTAGCCCCTGCGGGCGGCAGCATCGATTCCATTGGTAAAGTGGATAACTCGGTGGACGTGGCAAGCGAGGATCTAAAGGTGATGCGCGATTTGGCGGAAGTGAATGCGATCAGCAATATGATCACCCTGACGCCGACTGTGCAGATGACGACGGGAGATATTAACTCGGGGGCCGATCTCGATACGATCATGTCGAGAATTAACCGAACGCTGGAGGAGCAGTTTGTGTCCAGTGCCGAGGGGGTGTATTTGTAG	MASVKDALSYFNNMANDVLVGQWLQFEKGYEQVVKQITKAKEEQEKLTRSTAKSVSYKEKMLQMTEKVVDGIEQMNQKMGEGEKKASALSKALKFAKSAYKAGGIVVKATIAPAAQEQKLEDLFKVKSGNAEVGTAMFQTFKNNALKTGSDVNQSLENALTFMSATKNSDQLTQLTGFADRMSMMSSGNKSSKDATEAIMSAMRGDASSLAKNFNIPDAQIKSFNAEITSSKGNFTAFLSSMDKLLQKSGMTQEALGSMMDSPVNKWQKLLGLVDNSFVQIGTGALAAIMPLMEMISAAFESGAFQPFIDALTIGLSVLVQVFMWIAELVPPAWEFIKGAISGVGMAIWNVISIFMGLLPIITFAAVLLGILNIGLITSRIVALGYGAAQLAAAMKTNLLTAATSIQAGAMRILNMIINANPLMYLIALIIAVISAFGVWSVVTQGLKKVFSNVFGFIVDLAQNTVNTVISVINGIIKGVNAVAGFFGKVLGVDTKQIAEIEYKADFTNFKDTGQKAIEDFSMDTFKGKFMPDKNLGKNNEDLLKQYNNGKTGYDVTVPKTTPTPSMPAMPTAPIPVAPAGGSIDSIGKVDNSVDVASEDLKVMRDLAEVNAISNMITLTPTVQMTTGDINSGADLDTIMSRINRTLEEQFVSSAEGVYL				NA	NA	NA	NA	NA
AK002_05322	423	yqbN_2		putative protein YqbN	ATGAGCGATTTTAGTATGTTTTTTGCTGGCCAGTCGTCTGCGGAGATCACGGAGGAATTCGTGGTCTCTGTTCGTTTTAAGAACGCAGAAGGGAGCCCCGTTCCTTGGAAGCTGCGCAGCATCACGGAGGAGGAGAACCAGGAGTGCCGCAAAGCGGCTACGCGTAAGGTCAAGGGTAAGAATGGCGTCTTCACGCCGGAAATCGAGCCGAACGACTATATGGCGAAGCTGATGGTATCGAGCGTCATTTACCCGGATTTGAAAAACAGCGAGCTGCAAAAATCCTACGGCGTGCTCGGTGCAGAGTCCCTGCTCCGCAAAATGCTGCTGCCCGGCGAGTTTGCCGCGCTTGGCGAGCGGGTCCAAGCCCTGAACGGTTTTGACCGCGATATGAACGATCTGGTGGATGATGTAAAAAACTAA	MSDFSMFFAGQSSAEITEEFVVSVRFKNAEGSPVPWKLRSITEEENQECRKAATRKVKGKNGVFTPEIEPNDYMAKLMVSSVIYPDLKNSELQKSYGVLGAESLLRKMLLPGEFAALGERVQALNGFDRDMNDLVDDVKN				NA	NA	NA	NA	NA
AK002_05323	459	xkdM_2		Phage-like element PBSX protein XkdM	ATGGCATTTTTGCGGGCAAGCGACACGATTTCGGGGCAAGAGGGCAAGGCATTCGTCAAGATTGGCGACCGTATGGAGGAAATGTTCTACATTAAAACACTGGAAGCTACGGTGGAGAAGGAAAAAGCCGAGCTGAAAACGATGGGCCAACGCGCTGTGCAGCACAAAGCCATTGGCTGGAAGGGCAGCGGCACGATGACCATTTATTACGTGACCACGCTGTTCCGCGAGCTGATGATGGAATACATTCAGACCGGCAAAGACGCCTACTTCATGATCGAAGTGCGCAACGAGGATCCGGGCTCGTCGACGGGACGTCAGACGGTGATTTTGGAAGGGGTCAACCTGGACAGCGTCATTATGGCATCTCTCGACACGGAAGCGGAGGCACTGGAGGAAGAAGTAGCCTTCACGTTTGAGAATGTGCGGATTGAGACGCCGTTCAACCCATTGGCTTAA	MAFLRASDTISGQEGKAFVKIGDRMEEMFYIKTLEATVEKEKAELKTMGQRAVQHKAIGWKGSGTMTIYYVTTLFRELMMEYIQTGKDAYFMIEVRNEDPGSSTGRQTVILEGVNLDSVIMASLDTEAEALEEEVAFTFENVRIETPFNPLA				NA	NA	NA	NA	NA
AK002_05324	1320			hypothetical protein	ATGGCCGGAGGAACATGGACAACACCCAACAAAGTAAGACCAGGCGTTTATACCCAAATCTCATCGCAGGAGCAGCCGATCGGGCGCGTAGGTGAAAGGGGGATTTCCGCACTGGGCTTGTCCCTTCCATGGGGAGAGCCGCAAAAGATTCTGACGATCAAACCAGGTACCAATCTGGTTGAGGTGCTGGGTTATGATATCACGGCACAACAGGTGCTTATGGTAAAAGAAACCCTCAAGCGTGCAGGTACACTCTTGTTGTACCGCTTGAATAGCGGCGTACAGGCGGCCGGTTCTGTGGCCGGACTGAAAGCAACCGCTCTTTACGGCGGAGAGCGCGGGAATGACATCCAGATCGTTGTTGAGAACGCGGTGGATGATCCCGGCAAGTTTGTGGTCAGCACGCTGCTGAGCGGCAAAGCTGTGGACAAGCAGCTTGTAGCTAGTGCAGCCGAACTGCAGCCGAACCTGTACGTAACCTTTGCACCGGATACCGGCGATTTGGCGGCAACGGCAGGATTCGCTCTGACTGGCGGCGCCAACGGCACCGTGACGAACCAAGAGCATGTGGACTTTCTTGCCGCGCTTGAGGTCCAAGACTTCCAGACCGTTGGCCTGTTGTCTGCAGACCCAACGCTCAAGTCCTTGTATACCGCTTTCGTCAAGCGGCTTCGCGAACAGGAAGGCAAGAAGGTTCAAGCTGTAATGTCCGACTATCCAACTGCGGATTATGAAGGAATCATCTCCGTGAAAAATGGCGTTGTTCTCACCGACGGCACCATATTAGACAAGGTGAAGGCGGTGGCTTGGGTCACAGGAGCCACGGCTGCGGCAACGGTCAACGAATCCTTGACGTATGCGGCTTACGATGAAGCAGTGGATACCGATGTTCGTCTTAGCCACACGGAGATTGAAGAAGCGCTGACGAAGGGCGAGTTCCTGTTCAGCTACAGCGGCGGCAAGGCCGTGGTCGAGCAGGATATTAACAGTTTTACATCGATTGAGCCGGCCAAAGCGCGCCATTTTTCCAAAAACCGTGTGGTCCGCGTCCTGGATGGCATTGCGAATGATCTGAAGCTGATTTTCGAGAAATCCTATATCGGGAAGGTAGACAACAATGTGGATGGCCGGACGCTGTTTTGGGCGGAATGCGCGGCGTATTTTGCGTCTTTGCAGAACATCGGGGCTATCCAAAATTTCGATGCGAACGAAGATATTGTGGTGATGCCGGGCACGGAAGGCGATGTGCTGTTTGTGGACATCAAGGTACAGCCGGTGGATGCGATTGAAAAAGTATACATGAAAGTGAAGGTGGTCTAA	MAGGTWTTPNKVRPGVYTQISSQEQPIGRVGERGISALGLSLPWGEPQKILTIKPGTNLVEVLGYDITAQQVLMVKETLKRAGTLLLYRLNSGVQAAGSVAGLKATALYGGERGNDIQIVVENAVDDPGKFVVSTLLSGKAVDKQLVASAAELQPNLYVTFAPDTGDLAATAGFALTGGANGTVTNQEHVDFLAALEVQDFQTVGLLSADPTLKSLYTAFVKRLREQEGKKVQAVMSDYPTADYEGIISVKNGVVLTDGTILDKVKAVAWVTGATAAATVNESLTYAAYDEAVDTDVRLSHTEIEEALTKGEFLFSYSGGKAVVEQDINSFTSIEPAKARHFSKNRVVRVLDGIANDLKLIFEKSYIGKVDNNVDGRTLFWAECAAYFASLQNIGAIQNFDANEDIVVMPGTEGDVLFVDIKVQPVDAIEKVYMKVKVV				NA	NA	NA	NA	NA
AK002_05325	174			hypothetical protein	ATGAGTAAAAAAGAAGCAGCACCGGCGTTCAACAAACACCAGCTGGCCCAATCCAATCAATTCAGTAATCGCGAGAAGGATGTGCTGATCGCCATTCTCGAAGAGGGCAAAACGTACACCATTCAGCAAGCGAAAGAGCAACTCACCACATTTTTGAAAAAGGAGGTCATCTAA	MSKKEAAPAFNKHQLAQSNQFSNREKDVLIAILEEGKTYTIQQAKEQLTTFLKKEVI				NA	NA	NA	NA	NA
AK002_05326	438			hypothetical protein	ATGACTACCCAACAAATATACAATCCATTGGTAACTAAACTTACAAGCTCCTTCCCCGACATCCCCTTCATCTCCAAAGAGGATGCCGAGCCACTACCCCCAACCCCATACTTCCAAACCGAGCTAACCCTAGCCGAGTTCGAGCCGATATCGACAAATCGATATGCGGCTCGTTTTCGTTTCAAGATCTATTATGTTCCGGTAACTGGGAAGCCAGTGGCTACGATCATGGACGAGATGCTGGAAAGCTTAACATCTCTTGATGTCGAAGGCCGGCCTTGCCGCGCCTCATCAGTGGCGTGGGAGCGGCCAACGGGGAATGATGGGACATCGGGAGAAGGATATTTTCGCGCAGAGTACGTCATTCAGCTGACGACCGATCAGGTCGAAACGGAAAGCAAGATGCAAACATTGAAACAGGGAGGCGGATTGAAATGA	MTTQQIYNPLVTKLTSSFPDIPFISKEDAEPLPPTPYFQTELTLAEFEPISTNRYAARFRFKIYYVPVTGKPVATIMDEMLESLTSLDVEGRPCRASSVAWERPTGNDGTSGEGYFRAEYVIQLTTDQVETESKMQTLKQGGGLK				NA	NA	NA	NA	NA
AK002_05327	126			hypothetical protein	GTGTGGTATTCGGTCATCAAGCGATTCTATGATAACGGACATCCAGCTTACACAATAGAAGCCTTGAAGATGTTTGTAGTGGCGAGGATGATCACATCGGAAGAATACGAACAAATTATGGAGTAG	MWYSVIKRFYDNGHPAYTIEALKMFVVARMITSEEYEQIME				NA	NA	NA	NA	NA
AK002_05328	450			hypothetical protein	ATGAAAACCATTGAACCCCTCGGTAGGCGCTTCTTTTGGGTGAAGTCTACTGGGAATATCGTGGCACATCGTAACGAAATGCCCGCAGGCATAGAATCTACGAAAGAGGAAGATTTCGAAGTCTATATAGAATTAAAACCGTACGATCCGGATGCTATCGAGATGACGACACTCGAACATGGGCAATACTCGGAAGATTTCAAAAGAGCAAAGGACTGGCGATTTAATCCGCAAACCGGCGATATCGAATTTTCCTATAACGACCCAAACGCATCGGAAGAGCCACCAGTGTATCGTAGACCTTTGACAGAAGAGATCGAGGAATTGAACCTGACCTTCAGAAATATCGTTTTGGAGAGCACCAACGACAAGACAATCATTGCCTCCTTGGAGGATATGGTGGGGAATCTGTTGCTTGAGGTGGCGATCTTGAAAGGAGGTGCACAATAG	MKTIEPLGRRFFWVKSTGNIVAHRNEMPAGIESTKEEDFEVYIELKPYDPDAIEMTTLEHGQYSEDFKRAKDWRFNPQTGDIEFSYNDPNASEEPPVYRRPLTEEIEELNLTFRNIVLESTNDKTIIASLEDMVGNLLLEVAILKGGAQ				NA	NA	NA	NA	NA
AK002_05329	1083			hypothetical protein	TTGTCCAGTAACACACCGAATTTAGGATTGTTGAAGAAAGACCCGATGGTGGATGGCAATGAAACCTTTAACATCGAGACGATGCTGAACGAGAATTGGGATAAGGTTGATGAGGCTGTGGGACAGGTCCGGGAGGAACTTGGAAATATCGATGTGGATATTCCGGAAGCTTCGTTGACAGAGAAGGGGATTGTGCAGCTATCCAGCGCCACGAATGGTACGCGGGAGAATGTGGCGGCTACGGAGAAGGCGGTGAAGGCGGCTTATGATCGGGGAAGTGAAGGCGTAACAGCAGCAGATGCGGCACAAGTAAAGGCAAGTGCAGCAGAAACAAATGCAAAAAACTATGTGGATGCAAAGCAGTGGCAGAAAAATAGGGTCACAAATGACAATGGCGTAACTCTTAACATTAGTAATCAGAATTTAAACTCCATCGTATCTACTGGATTTTATGCTGGAGAAAACATAGTAAATGCTCCTACAACTGCTGTTGGGGCTTGGTGGTATATCGAAGTGATTGCAATGAGCGGGTCGCATATTAAACAAATAGCTATGGATTTATTTAATAATTCCTATCAGCAAAGAACCAACAATGGCTCAGGCTGGAGTGCATGGTCACCGGAGCTTTTTACCTATGTCGCTAACGGGAAACAGGCGATCGCTACCGCCATTAGCGGCAAGGGAGTAACAGCATCAGGTAGCGACGAGTTTGCGGTATTAGCGAATAAAATATCTCAGATTAAGACGGACGTTAAAATTGCTACAGCCAGTCTTAATACTGCCGCTGGAACGATTGCGAACTTACCCCTAAAACCCATGATGATTATGTGTAGAGTAAATCCAAGGGCCTGGTCTTCCAGTGGAGGATCAGCATATTTTGGGGCGGGATATATAGGAGCTTATTTAAATTCTTCTTTGCAAGTTGTTAAATTAGCTCCTGTACAAGGGGGGCGTTACAACGACACCACGAGTTCAGTGCATCTAACCGATGTAACGTTCGGCGAAAATTCGGTTTATGTGAACTTAACTTACTACACTGAAGCCGGAAATTACACTCTCGACTGCACGATTTTTGGAACTTAA	MSSNTPNLGLLKKDPMVDGNETFNIETMLNENWDKVDEAVGQVREELGNIDVDIPEASLTEKGIVQLSSATNGTRENVAATEKAVKAAYDRGSEGVTAADAAQVKASAAETNAKNYVDAKQWQKNRVTNDNGVTLNISNQNLNSIVSTGFYAGENIVNAPTTAVGAWWYIEVIAMSGSHIKQIAMDLFNNSYQQRTNNGSGWSAWSPELFTYVANGKQAIATAISGKGVTASGSDEFAVLANKISQIKTDVKIATASLNTAAGTIANLPLKPMMIMCRVNPRAWSSSGGSAYFGAGYIGAYLNSSLQVVKLAPVQGGRYNDTTSSVHLTDVTFGENSVYVNLTYYTEAGNYTLDCTIFGT				NA	NA	NA	NA	NA
AK002_05330	567			hypothetical protein	GTGAATAATGCCCGAATGAACAGCTTGCGCGGTCGCGAGCTGTTTTCTTATCTTCCGGCTTATTACGAGACCTCCCGCGTCATGCAATCCGATATGGATGCCAAGGGCAGCGAGCTGGACGCACTTTACCAAGCGCTGAACTCAGCCGCAGACCAGTTTTTCGTCCGTACAGCAACCTGGGGCTTGGAGCGCTGGGAGATGGAGCTTGGCATTCCCACCGACCAAAACAAGCCGATCGAGCAGCGGCGGGCGGTGCTGGGGTCCAAGCTGCGCGGAGCGGGAACCTTCTCCGGTGCGCTCGTGAAAAACGTGGCGGAGGCTTACGATGGCGGCACGGTCGAGGTGTCTTTTCAGCCCGAGGAATGGGGCTTTACGGTTAAGTTCGTGGATACGTTCGGCATCCCGCCGAATCTGGAGGATTTGAAGTCAGCGATCGAGGAGATCAAGCCGGCGCATCTGGCGGTGGCGTATGCATTCAACTACTTGCTGATACGCGATATTCATGACGTAATGACTTTGGGCGAGCTGGGGCAGACGCCGTTAAACAAATTTGCAGGAGGTGTTTGA	MNNARMNSLRGRELFSYLPAYYETSRVMQSDMDAKGSELDALYQALNSAADQFFVRTATWGLERWEMELGIPTDQNKPIEQRRAVLGSKLRGAGTFSGALVKNVAEAYDGGTVEVSFQPEEWGFTVKFVDTFGIPPNLEDLKSAIEEIKPAHLAVAYAFNYLLIRDIHDVMTLGELGQTPLNKFAGGV				NA	NA	NA	NA	NA
AK002_05331	1155			hypothetical protein	ATGGCAGATTTGCCGTTGTATTTGTTGGATCAGACGGAAGAGAACATTATGAACCGCATGCTGAACAAAGTGCCTTCGGACATTGACAAGTCGGAGGGCTCTTTTATTTGGGATGCGCAGGCGCCGGTTGCCTTTATGCTGTCTGAGGCTGCCTTGTGGGCGCAGGAGCTGCTGCGTCGGGGCTTTGCGAGCACCGTGGCAAGCGATCATCCCGATATCCGGTCTGCCGAACTCGATCTGAGGACGGCAGAGCATGGGATTACCCGGAGGGAAGCGGTCGCTTCGTCCGGCAGCGTTGTGTTTACGGGGAAGCCGGGGACGATCGTTCCTGCCGGAACCTACGTAGCTACGCCAGCCGATGAGGGCTCCGGTGAATCCTCCGTGGAGTATGTGACTACGTCAGGGGTGACGCTGAGTGATTTGGGTACCGGCACGGCGCCAATCCGCGCGGTTACGCCGGGCAGCAGCGGGAATGTTCCTGCAGGCGTCATTCAGCTTATGATGACGTCGGTCAGCGGGATAACATCGGTTACGAACCCGGAACCGACGCGGAGCGGGACGGATACCGAAAGCGACCAGTCGCTTCTGGAGCGTTTTTACGCCAAAGTCCGCAGCCAGGGAACGAGCGGCAACAAAGCACAGTATATGCAGTGGGCCAATGAGATTGCCGGCGTTGGCGGTGTGGAAGTGGCGCCGTTGTGGAAAGGGCCCGGCACCGTTGGGCTATATCTCATAGATACGGACAAGCGTGCGGCAAGCCAGGATATCGTGGACGCCGTTCAGCAGTACATTGACCCGTCCCAGGATGGACAGGGCGAAGGCGTTGCCCCGGCCGGTCCGGTAATCACGGTGATGCCTGCGGCGGAAGTGGCGATTGATATCTCCGTCAAAGTGCAGCGAACGCAGGAGCAGCCTTCGACGATGGACGAAATTCGGAAGCTGATCGAGGACGGCGTTCGGGCGTATTTACAGCAGATTGCTTTTAATAGGAAAGATCCGTTGGTAAGATACACTCGTATTGCCGCCGTACTGCTGGATATCCCGATTATCGTCGACTACTCGGATTTGACGATTAACGGCCATACCGAGCAGCAAAACATCGAAATAGGCTCCGGTCAGGTAGCGGTGCTGGGGACGGTGAGCGTAAGTGAATAA	MADLPLYLLDQTEENIMNRMLNKVPSDIDKSEGSFIWDAQAPVAFMLSEAALWAQELLRRGFASTVASDHPDIRSAELDLRTAEHGITRREAVASSGSVVFTGKPGTIVPAGTYVATPADEGSGESSVEYVTTSGVTLSDLGTGTAPIRAVTPGSSGNVPAGVIQLMMTSVSGITSVTNPEPTRSGTDTESDQSLLERFYAKVRSQGTSGNKAQYMQWANEIAGVGGVEVAPLWKGPGTVGLYLIDTDKRAASQDIVDAVQQYIDPSQDGQGEGVAPAGPVITVMPAAEVAIDISVKVQRTQEQPSTMDEIRKLIEDGVRAYLQQIAFNRKDPLVRYTRIAAVLLDIPIIVDYSDLTINGHTEQQNIEIGSGQVAVLGTVSVSE				NA	NA	NA	NA	NA
AK002_05332	459			hypothetical protein	GTGGCTAATTTGTTTCCCGAGAACGAGGACATGGTTTGGACAAATGCCACGGATCCGGAGGTACTGGAGGTTGAAGGAGCTGTTTTTGGACGGAGCTGGCGGTATGATTTTGAAGCCGGCGAGTTCGTGATGACTCCCACCCGGAAGATTCCGGTTGCGGACGACAAGGAAGCCTGGGTCATCTGGTGCGAAAAAGCGATCCGTACGCCGCGTTATCGCCATTTGATCTATACGCGCGATTACGGCAGCGAGCTGGAGGAGCTGGTCGGCAAAGGCTACGACCGATCTCTGCAAGAGAGCGAAATTCAGCGCATGGTAAACGAGACGCTGCTGGCGGACGCGCGGACGGAGAGCGTGGATCAGTTTCTTTTTGAATGGGAAGGAGAAGCCTGCCGTTTCAGCTGCCGCATTACGAGCGTACGGGATGAGACGGAAATCATAGAAAGCGTGGTGATCTGA	MANLFPENEDMVWTNATDPEVLEVEGAVFGRSWRYDFEAGEFVMTPTRKIPVADDKEAWVIWCEKAIRTPRYRHLIYTRDYGSELEELVGKGYDRSLQESEIQRMVNETLLADARTESVDQFLFEWEGEACRFSCRITSVRDETEIIESVVI				NA	NA	NA	NA	NA
AK002_05333	390			hypothetical protein	TTGAATAAAGACCCCTATGGACAATTGGCGTCCTCCTTATATGCCTCTTTGAACAAGCAATCCCGTCAAGCCATGGGCGGCGTAGGGGCCGTGCTCGGCACGATAACCTCGACGGGACTTAAGCTGGATGATTTTAAGCATGAGCTGCAGGATTATATGGTGGCGGAGCTGCCAGGAATGCTGTCCTTGCCCCGTTATACGGCTGCTGGTACCGCCACTTTGGGAGGACAGCAGCAGGAAATGACATTTGATGTGGAAGAAAATGAAGTCGAAGATACCCTTTTTGAGCTAGGAAAAGGCTTGAAACCGGGGGACCGCGTTCTGGCCGTTCGGGTCAACAGCGGCAATGACGTGGTGGTTGTATGCAAGGTGGTGAGCAGCGGTGGCTAA	MNKDPYGQLASSLYASLNKQSRQAMGGVGAVLGTITSTGLKLDDFKHELQDYMVAELPGMLSLPRYTAAGTATLGGQQQEMTFDVEENEVEDTLFELGKGLKPGDRVLAVRVNSGNDVVVVCKVVSSGG				NA	NA	NA	NA	NA
AK002_05334	978			hypothetical protein	ATGAGTTACAAGGTGATTTTGCAGGATCAATACGATCTGTCTCCCTTGGTGGAAGCTATCAACCTGCGGGATTCGCTTGAACAAGTCGCATACCAGGGAACCGTCAATCTGGTTGTCACGCCGGATATGCCGCCGATTTCGCCGGGAATGGCGATCCGGATCAGCGGAATTCCATACGGTAAAAAAGATTATGTCCCCCTGCTGCACCCGGCTGTCGTGTGGGAAGTGGAAACCTCCAATAATGGGGTGAAGCGGATGACCCTCACACTGTACGATCGGACGGTATACCTCGACAAGTCGGAGGATGAATATCTGTTCCCGGCGAAGCAGACCGCCACCCAGCGGTTCAAAAAGTATGCGGCGGACTGGAACCTGAAAATTGCCGTTTTGCCGGATACCGAGAAGCAGCTGGGGCGTTCCGTTTACCGGACGCAGTCGATTTATGCCAGCATGTTCGCTGATTTGCGGGAGACGGCCAAAGCCGGCGGCAAGCTGTATCATCCGCGGATGATCTCTTCAGGGCTTGAGCTGTACGAGTTGGGAACGAACAAAGAAGTCTACATCCTGGAGGCTATCACGGATACCACGCAATCGCGGACGTTGGAGGGCGCGGCGACCAAGGTCAATGTGCTGGCGACAGCCGCCAGCGAGACCGGGCAAGAGGTTCCTTCCAAGGTAATGGCCATCGAGGAGAAGGATATCGCCAAATACGGCCAACTCCAAGCGATCATTCAGGATGATGAAGTGAAGTCGCCTGCGGCTGCCCGCCAGCTGGCACGGAGCAAACTGAGAGGGATCCGGGAGACCATCTCCCTGAATGCACCCGATATCAATACGATCCGTGCAGGTGATGCGGTCATGCTGGGCTCGATGAAGCTGCTCGTGATTTCCGTCAGCCGTGAGCTGGGAAGCCCGGGGAGCATGATGCTGGAGCTGGGGAGTTATGACGATGTAAAAAGGAGGTTTTACCTTGAATAA	MSYKVILQDQYDLSPLVEAINLRDSLEQVAYQGTVNLVVTPDMPPISPGMAIRISGIPYGKKDYVPLLHPAVVWEVETSNNGVKRMTLTLYDRTVYLDKSEDEYLFPAKQTATQRFKKYAADWNLKIAVLPDTEKQLGRSVYRTQSIYASMFADLRETAKAGGKLYHPRMISSGLELYELGTNKEVYILEAITDTTQSRTLEGAATKVNVLATAASETGQEVPSKVMAIEEKDIAKYGQLQAIIQDDEVKSPAAARQLARSKLRGIRETISLNAPDINTIRAGDAVMLGSMKLLVISVSRELGSPGSMMLELGSYDDVKRRFYLE				NA	NA	NA	NA	NA
AK002_05335	645			hypothetical protein	GTGGAGTTTATTTTGAAGAACGGCAAAGGCATGACTTTCCGATTCCCGGTTAATCCGGAAGAGGTAACCATTTCAAGGCAAAAGGGACTGGAAACGGCCACGATTCTCAACTATGGGGAGTTTGATTTTCCACAAGGCCATCGGATTAAGGAGATATCGTTCTCTTCCTTTTTCCCACAAGAGTATGATGCAGCTTTTTGTAAAGGCCATGAGAGAGATCATATCAAACCGCAAACCGCGATGAATAAACTCAACGAGTTTCTGGCATATAAAACACCGCTGCAATTTGTCATTACCCAGACGGCGGTGAACGTACCGGTGTACGTCGCCTCCCATCAGTCCACGTTCCGGGGCGGGGAGGTTGGGGACGTATATTTTGACATCACGCTCCGGACATGGAGCGACATGAAGGTGGCCAAAACGGCAGGCAGCAGCGGGGCAGCAGGAACCAATAAAAAGCCCCGGGTCGACATGAAGGACAAGAACAAGACGTATATCGTGAAGGCGGGAGACTCCCTTTCCAAAATCGCCAAGCTGGAGCTCGGGGACAGCTCGAAATGGAACCAGATCTACAAGCTGAACCAGAAGAAAATCGGCAAAGACCCGAGCGCCATCGAGCCCGGGCAGAAGCTGGTGCTGTCATGA	MEFILKNGKGMTFRFPVNPEEVTISRQKGLETATILNYGEFDFPQGHRIKEISFSSFFPQEYDAAFCKGHERDHIKPQTAMNKLNEFLAYKTPLQFVITQTAVNVPVYVASHQSTFRGGEVGDVYFDITLRTWSDMKVAKTAGSSGAAGTNKKPRVDMKDKNKTYIVKAGDSLSKIAKLELGDSSKWNQIYKLNQKKIGKDPSAIEPGQKLVLS				NA	NA	NA	NA	NA
AK002_05336	1746			hypothetical protein	ATGGCTGAAGCCATGAACTACCGCATGAATCTGGTCATCGATCCGAAAAACGTGATCAAAGCCAACCGCGAGCTGCGGGCGATGGAACGTTATTTTGAGCGGATCCAGGGACGCGTCCTGCGAATCGGGCGTACCCGAATGGTGCCAGAAATCGTGCTGAAGGACAGCGCCTCGAAAGGGCTGGACAACCTGCTGGCCAAAATGCAGCGGGTGAAGTCGCAAGTCATCCAAGCCTCGGCGAATGTGAAGCTGAACGTGCAGAAGCAGGTTGAGTCGAGTGTTAAAGTGGATTTGAAGGCAACAGGGATTGATTTCTCACCGATGATTGATGCGTTGAAGGCGAATACGGATGCGGTAAATCAGCTTACAAGTACGCTTGAGTCGCAAAAGTCAGGGGACGGGAACGGTAAAAAATCTTTTTGGGATAAGGCGATAGTTGCGCTAGGAATCGTCTCTTTGGCTGGCTCCACGCTTCGAAACGGGGGGCTAATGAAGGATAAATCAAAAAAGATGTTTGATTCTTGGGGTAAAGATAAATCTGCAACAAACACGCGTCCTGTGGTCGACAAAAACAGAAGGGTTGGTCCTAGAAATAGAGGGCGCTCGGCCAATCAAAGCACGGTTGCTGCTCCTAAGACAGAACAAGCGGGTAAGCCTCAAACAAAGTGGGGCAAGGCTTTTAGCAGAGCTGAAAAAACGGGAGACGTTATTGAATCCGCTGGCAACCTAGGGAAAGGGGCATTGGATCTAATCAAGAAAGCCTCAGATTTCGCTAAGGGGATGTTCGGTGGCGGTGGTGCCAGCGGTATCGTTTCCGGAGGTGTAAGGGGTGCTGCCAAGACAAGTGTAGGTTCCAATGCAGCTAAACAAGCTGCGAAAGGCGGCACACAAGCGAGCGTGGTAAAGAGTGTTGGCAAAAGCACCCTAGACTCCGGCTTGATGAAGGGTATTGGCAAACGCGCCCTTGGCCCGTTGAGTTATATAGCTGATGCGGCCGCAATCGCTTCCGCTGCACCAGGGAAAGAGCGTAACCAAGCGATCGGCTCTGCTATCGGTGGCGGTATCGGCAGCACAATCGGCGGTTTCGTTGGCTCTGTGGTTCCGGGCGCAGGCACATTCGTTGGCTCCATGCTTGGCGGGACCGTCGGAAGTTTTGTTGGCGAGAAGGTGGGCGGCGCCATTACGGGTATCAGCGATTCGCTCAAAGAAAGCAAGGAGAAGGTCACCAAGTGGTTCTCCAAGACGTTTTCTTTCGGGAAAAAAGACAAGGAAGCCGTGCAGTCGAAGGATGCTCCAAAGATATCACCTTCCAGCTCAACGGCGGTTGCTGTTCAAGGACCGATAATTTCAAATGCTGCTCCCGCAAATGTAAGTGCGCCACTGCTTCCTAATCAAGCATCGAAACAGACATACGGCCCGTATGTGCCGCCTACTCATGCTACAAGCATGAGTACTTTGGGTCCACCTGCGAGTGCAGCGCAAAACCAAGCTTTTGCAGGGAAGCCGACGTCCCCGCAATCCGTTCAGATCAGCCCGGAGCAGATGAGCACGATATCCGGCTTGCTGATGGATTTCAAAACAGAGACAACCGTGAATTACAATCTACCTTCAGGCGCGGTACAGGTAACGGTGCATGAGGAGCACCCGATCGATGTAGAAGGATTGATTCTTCTGATCGGGCAGCGGCTAAGAGCCGAATTCAGCAAAGCAGCCCAGAACCGGAAGCCGACTCCGATGGCCTATTGA	MAEAMNYRMNLVIDPKNVIKANRELRAMERYFERIQGRVLRIGRTRMVPEIVLKDSASKGLDNLLAKMQRVKSQVIQASANVKLNVQKQVESSVKVDLKATGIDFSPMIDALKANTDAVNQLTSTLESQKSGDGNGKKSFWDKAIVALGIVSLAGSTLRNGGLMKDKSKKMFDSWGKDKSATNTRPVVDKNRRVGPRNRGRSANQSTVAAPKTEQAGKPQTKWGKAFSRAEKTGDVIESAGNLGKGALDLIKKASDFAKGMFGGGGASGIVSGGVRGAAKTSVGSNAAKQAAKGGTQASVVKSVGKSTLDSGLMKGIGKRALGPLSYIADAAAIASAAPGKERNQAIGSAIGGGIGSTIGGFVGSVVPGAGTFVGSMLGGTVGSFVGEKVGGAITGISDSLKESKEKVTKWFSKTFSFGKKDKEAVQSKDAPKISPSSSTAVAVQGPIISNAAPANVSAPLLPNQASKQTYGPYVPPTHATSMSTLGPPASAAQNQAFAGKPTSPQSVQISPEQMSTISGLLMDFKTETTVNYNLPSGAVQVTVHEEHPIDVEGLILLIGQRLRAEFSKAAQNRKPTPMAY				NA	NA	NA	NA	NA
AK002_05337	135			hypothetical protein	ATGCTGTATCATCTGTGGGTCCGGCATCACCTTCGTCCCGGAGATTTTTGGCGGCTCCCGCGAGGCGAGCGCCTGCTGCTGCTTGCTTTCTCCCAGGAGGAGATCGAGGGCATGGCCGATCAGAGTGTGAAGTGA	MLYHLWVRHHLRPGDFWRLPRGERLLLLAFSQEEIEGMADQSVK				NA	NA	NA	NA	NA
AK002_05338	435			hypothetical protein	ATGAGCTTGCACGAGAACATGAGCGAAGAGCAAATTTTGGACAGTCTGTTTGAAGCGGCAGAGAAGCTGCCTGAGGAAACGGTGCGCATTAAGCGGCTGGATATGCAGATGGTGCTGCAGGGCTTGACTTCAAGCAAGGTGGACAGCATCCGCGAGCGCTGCACGGTTCGCCGTACGGTGAAGGGTGCGGTGGATGAGAAGGTGGATACCGAAACCTTTAATGCGCTGCTCATCTCCGAAGCGACGAGCAGTTTGTCGGTGAAGGGCTTGACGCTGAGCGGCTGGGGCGATCCGCGGATTACGAGCCGCTTGAAGCTGTCGGGCGGTGAGCAGGCGGTCCGCCGCATGCTGCTGGCCGGAGAACTGGACGCCGTAGGCGATAAAGTGCTGGAGCTGTCCGGCTTCGGGGTTGAGATTGCTGACCTAAAAAACTGA	MSLHENMSEEQILDSLFEAAEKLPEETVRIKRLDMQMVLQGLTSSKVDSIRERCTVRRTVKGAVDEKVDTETFNALLISEATSSLSVKGLTLSGWGDPRITSRLKLSGGEQAVRRMLLAGELDAVGDKVLELSGFGVEIADLKN				NA	NA	NA	NA	NA
AK002_05339	408	xkdM_3		Phage-like element PBSX protein XkdM	ATGTTGGATGCTTCAAGAGTCATTATGGGGACATACGGCCAGGCATATATTGACGGGGTCTGGCAGACGCACATTAATAAGCTGGAAGCCAGCGTGGAATTGGAGAAGCGCGAGCTGAAGCTGGTCGGCAACGACTGGACGGTGCACAAAAACGGCAGCAAAAAAGGAACCGGCACGATGAGCGGGTACAAGGTCACTTCCGATATGATCTCCCGCGGCTTCACCAAATTCGATATCATCTCCAAGCTGGACGATCCCGAATCCTACGGCCATGAGCGCGTTCGCCTGATCCGCTGCATGCCGGACAAAATCCAGCTGGCCAATTGGACGGCCGGCGAGGAAGTGCAGGAGGAAACCTCGTTTACCTTTGAGGGGTACGAGCTGTTGGATCCGATTCAGGGGGATTAA	MLDASRVIMGTYGQAYIDGVWQTHINKLEASVELEKRELKLVGNDWTVHKNGSKKGTGTMSGYKVTSDMISRGFTKFDIISKLDDPESYGHERVRLIRCMPDKIQLANWTAGEEVQEETSFTFEGYELLDPIQGD				NA	NA	NA	NA	NA
AK002_05340	1467			hypothetical protein	ATGGCAGGTGGAACATGGGAAAGCACGAATAAACCGGTACTGCCGGGTTTGTATATGAATTTCAAGGCTGCAGCCGCGTCGGCTGTTCAGGGCGGCAGTCGCGGTACGGTCGTCGTGCCGGTCAAAGCCAATTGGGGACCGGTGCGGGAGTTCGTGGAAATCGGGAGCGAGTTCGCGATTTCCGAGCTGTATTCCGCAGATAGCCAGGATGGCGCTACCGCTTACGAGACGCTTTATCTGGCCTTGCTCGGCGGTCCGAAAAAGCTGCTGGCTTATCGTTTGGCGGACAACACGGCGGCAGCGGCTAGCGTGACGCTTCAAAACGCGGAAGCTGCGCCTTCGGACGTGCTGAAGCTTCAGGCCAAATACCCGGGCAGCCGCGGCAACGGCTTCTCCGTAACGGTGCAGCCGTCGCTGATCGACCCGGCCGCACGCGAGCTTCGCCTCTATGAAGGCGCCAAGCTGCTTGGCACCTATTCCAGCCCGGACGGATCCGCCGCGTCGATGGCGGCGCAGATCAACGAAGATGCCGAGAACCTCTGGGTGACGGCAATTGCACTGGAAACGTCCGGCGTTCCCGCTGACGTGAACGGAGCCGCGCTGTCCGGAGGCACGAGCGGCAACGGCGGCATGACGAATGCAGATTATATCGAGATGTTGGATGCAGTCGAAGGCCAGGAATTTAACGTACTCGCCTTGGATTACGCTGCGGATATGGCTCTGCTGCAGAGCTTTGCGGCCTGGGTAAAGCGTCTCCGTCAAGAAGGACGCGGCGTGATGGCCGTATTCGGCGGAAGCGCGGCGGACGACATCTCCAAGGATGCAGCCAAACTGGCTGCAGACCGGTCCCTTGCATTGAACCATGAAGGGATCATCAATGTGGGTACGGGCGTGCGTCTGTCCGGCGTGAACTACAGTTCCGCGCAGACGGCTGCTTACGTGGCCGGGCTTATTGCCGGTCAACGCTTGAACCAATCCGCTACATACGCGGTAACGCCGTTCGAGGATGTGACCCGCCGCTGGACTCGCTCCGAGCAGGAGCAGGCCGTACGCAACGGCGTGTTCGTCCTGTTCTACGACGGTCGTCAGGTCAAGGCGCTGCGCGGCATCAACACGCTGGTGAATCCGGCGGAAGGCCAAAACAATGCCTGGAAAAAAATCCGTTCCATCCGCGTGATGGATGCGATCCATGCGGATTTGCAGCTGGCCGCGGAACAGACCTACATCGGCAAGGTGAACAACACCGAGGAAGGCCGACTCGCGCTGATCGGCGCCGTGAAGGAATACCTCGCTTCGTTGTCGTTGAGCAATGTCATCGAGCCGGATGGTTATGACGTCATTCTCGATCCGGCCTACTATGGCGACTCCGCCGTGAACACGCCGGAACCGGACCAGGTCTTCCTGCAATGGAACGTGAAGCTGACCGACGTGATGGAGCAGCTGTTCGGCACGTTTTACGTGCAATAA	MAGGTWESTNKPVLPGLYMNFKAAAASAVQGGSRGTVVVPVKANWGPVREFVEIGSEFAISELYSADSQDGATAYETLYLALLGGPKKLLAYRLADNTAAAASVTLQNAEAAPSDVLKLQAKYPGSRGNGFSVTVQPSLIDPAARELRLYEGAKLLGTYSSPDGSAASMAAQINEDAENLWVTAIALETSGVPADVNGAALSGGTSGNGGMTNADYIEMLDAVEGQEFNVLALDYAADMALLQSFAAWVKRLRQEGRGVMAVFGGSAADDISKDAAKLAADRSLALNHEGIINVGTGVRLSGVNYSSAQTAAYVAGLIAGQRLNQSATYAVTPFEDVTRRWTRSEQEQAVRNGVFVLFYDGRQVKALRGINTLVNPAEGQNNAWKKIRSIRVMDAIHADLQLAAEQTYIGKVNNTEEGRLALIGAVKEYLASLSLSNVIEPDGYDVILDPAYYGDSAVNTPEPDQVFLQWNVKLTDVMEQLFGTFYVQ				NA	NA	NA	NA	NA
AK002_05341	210			hypothetical protein	ATGGCTGTGAAAAAAACACTCAAATCCGAAGCTAGCGGGAGCAGCGCTTCCCGATATGCCTTGGCAGAACTTGAAGCACACGCCCATGAACTGTTCCAGGTTCGGGCGGAAGTGCTCGCAGGTGCCATGTATGGGGCAGACGGAGAGCAGTTCACGGTAACCGAGGTCAAAGAAAGAATCCAACAATTCATGAAAGCGAAGGTGGTCTAA	MAVKKTLKSEASGSSASRYALAELEAHAHELFQVRAEVLAGAMYGADGEQFTVTEVKERIQQFMKAKVV				NA	NA	NA	NA	NA
AK002_05342	840			hypothetical protein	ATGAGAGGGGCGGTCAAACAGGCCGTTGCATTCCTCATTCCGGAGCTTGACGGCCATGTATATGACGTGCATCCGCCGGACGGGGTAAGCGAACCGCTATATGCCGTGATCACGCTCGGCGAGGACGTCTGGAAATCCTCATGGGCCGGGTACCGGCAGGTGGTGCGATTGAAGCTGCATGGGGATCGTTCCGATCTGCCGCAATTGGATCGATGGGCGGATTTACTCATTCAGGGACTTCATCGCAAGCGGGTTTCCGGAGCGGAGGGCAATGCATTCAAGCTTCATTATTTGGGTGTTCCGGAGGCCGACAAGCTTGATCCTGTTTCAGGCAACCTGATCCGGGTCTTGCGATTCGGGATCTATATGCCGCAGGCATCCGGGACAGGCTCCGTCGGACAGCCGGATGAATGGCTGAATACGCTGACAGCCTGGACAGGTGATATGCTGGGTGGTCCTTGGCGCATCTACCATACGGCATGGCCTGCGGGGCGGGAGGATCACGCCGTATTATGGCGGATGACCGGCTGCGAGACCCGAATGGCGGGAGCTTCGATGTTCGAGGTCCGCAAAACCTTTATCGGTCATATCGCCTCCCTGGATTCCGCGGACGAGCAGCTCACGGCTGCAAGGCTGGTGGAGGAGCTAGGCACCCAGGTCCAGCTGGTTCTGGACTTACAGGAACGCCGTTATTTATCCGTTGCGGAAATTTCCTCCGATATGCAGGCCGATCCCATTCTGGACGGTCAGCTGAAGCTGACCCTGGCCCAGCGGAAGAACCGTTCGCCGGAGGAAGCCGCCTTGATCAGGCGCGTTAACATTCATCCTATCTTAAAGTGA	MRGAVKQAVAFLIPELDGHVYDVHPPDGVSEPLYAVITLGEDVWKSSWAGYRQVVRLKLHGDRSDLPQLDRWADLLIQGLHRKRVSGAEGNAFKLHYLGVPEADKLDPVSGNLIRVLRFGIYMPQASGTGSVGQPDEWLNTLTAWTGDMLGGPWRIYHTAWPAGREDHAVLWRMTGCETRMAGASMFEVRKTFIGHIASLDSADEQLTAARLVEELGTQVQLVLDLQERRYLSVAEISSDMQADPILDGQLKLTLAQRKNRSPEEAALIRRVNIHPILK				NA	NA	NA	NA	NA
AK002_05343	204			hypothetical protein	ATGGAGGTCCTCCGGTTTTTTATTCCTAATATAGAAGGCAGCATTTCACGGGAAAAGCAAGTTAAGACTGGGAAATCAACTATAAATACGAACATAGGTTCGTACTATTTTCCGCCGACATTCCGCTTAAAGTTCAGCATGAACCGTCCCATAAGGCGTCAGCGCATCCGATTTAGGGGTGTAAGATTGTATTATCGGAAATGA	MEVLRFFIPNIEGSISREKQVKTGKSTINTNIGSYYFPPTFRLKFSMNRPIRRQRIRFRGVRLYYRK				NA	NA	NA	NA	NA
AK002_05344	477			hypothetical protein	ATGAATCCATTGTTACCGGAATTGGATCGCAGAAAGACCCAAAGCGCCGTTGAAGCGATATTCGAAAAATATCGCATCTATAAAACCATTACATTCGAAGTCAGGGAGATGAGCTTGACCGCATCCTACACGGAACGGTTCCACGGGCCGACCAACGTCACCTCGGACCAGACGGCAGCGGTTGCCATATATAATGTAGATATGCCGGCGGCCAGGAAGCAGTATTGCGAAACGATCGAATCGATCGTGGAACGGCTTGGCGAGCGGGAGCAGATCCTGATTCGGGAACGGTACATGAAGCAGGACGACGTATTCGATTACAAAGTGTACAACCATATCCTTGAGCCGCCGGTCAGCAAGGACACATACACGAAGATCCGCACCCGGGCTTTTTATAAATTGGCCTTGGCCTTGGCGGACAGAGGACTGCTGAAGCTGCAGGAATTGGAGAAAGCCGCCAAGAGCAAAATGAGCTAA	MNPLLPELDRRKTQSAVEAIFEKYRIYKTITFEVREMSLTASYTERFHGPTNVTSDQTAAVAIYNVDMPAARKQYCETIESIVERLGEREQILIRERYMKQDDVFDYKVYNHILEPPVSKDTYTKIRTRAFYKLALALADRGLLKLQELEKAAKSKMS				NA	NA	NA	NA	NA
AK002_05345	420			hypothetical protein	GTGGAACGCATATTTGGATCGTACTTGAAAGAGATGAGGGAGAACAAAGGCTGGAGCATCAATCAGCTGGCCCAGGCCGCCGACATCAGCGGATCGCAGATCTCGCGGATCGAGAATGGGCTGCGGGGCATACCCAAGCCGCAAACGCTGCGCAAAATGGCGGAGGCGCTCGAGGTTCCCTATGAAGAGCTGATGAACAAAGCAGGTTATCTGCAGCAGGATGCCGCCAAGCACGAAGAGATACCGGCTCCCGCTTGGGCAACCTCCAGGGATAAACGGGATTTCAAGAAAATGCTCGAGGATGACGGCGAGCTCATGTTTGACGGGGTCCCTCTGAGCGGGGAGGACAAGCAGCGCATCAAGGACGTCTTGACCGGACTGTTCTGGGAAGCCAAGCAGATGAACAAACGCAAGAAATAA	MERIFGSYLKEMRENKGWSINQLAQAADISGSQISRIENGLRGIPKPQTLRKMAEALEVPYEELMNKAGYLQQDAAKHEEIPAPAWATSRDKRDFKKMLEDDGELMFDGVPLSGEDKQRIKDVLTGLFWEAKQMNKRKK				NA	NA	NA	NA	NA
AK002_05346	426			hypothetical protein	ATGGATGATCATTTACAACCTTTAATCCGTCAGCTGATCAAAAAACATCACACCAACTGCCCCTTTGAAATAGCGGCTTCCTTGGGCATACATATTCGGTTCGCGGATTTAGGCCAGACGACCAAAGGACTGTATTTCCGTAAACTAAGACGGAGATTCATCGTCATCCACAATCAGCTGCCGCCGCCGTGGCAGCGCTTCGTATGCGCGCATGAGCTGGGGCATGACCGTCTTCATAAGGGAATCAGCCGTTTTTTTCTGGAGGAGCATTCCTATTTCAGCCCGGGCAAACTGGAGCGGCAAGCAAACCGCTTTGCCATTGCCCTGTTGACCGCAGGTCTCGTGCCCGGAGCGGGAGAGTCCCTGCACGAATTCTACCTGAGAGCCGGCATTCCGCAAGAAATGCTATATTTTTTTAGATTTTAG	MDDHLQPLIRQLIKKHHTNCPFEIAASLGIHIRFADLGQTTKGLYFRKLRRRFIVIHNQLPPPWQRFVCAHELGHDRLHKGISRFFLEEHSYFSPGKLERQANRFAIALLTAGLVPGAGESLHEFYLRAGIPQEMLYFFRF				NA	NA	NA	NA	NA
AK002_05347	738	aviRa		23S rRNA (guanine(2535)-N(1))-methyltransferase	ATGGAATATATCTATGAATCAGCCCAGCGCAGCTACGAGGATTTCGCCAGCGGCCGGGTGCTGTATAATGCGCAGGGAACGACGTCGTTTCCCGTCAGGCTGGCTAGCGAGATTGCCCAGCGGTGCTTTCATATATTAGAGGAAAAAGGCGTACAAGGGCCATATACCTTATACGATCCCTGCTGCGGCGGGGCGTATCTGTTGACGGTGGTGGGCCTTCTGCACGGGCGGCGCATTCGCCGCATGATCGGCTCGGACATTAACGCGGAGGTGCTCGGCATCGCCGGGAAGAACCTGTCGCTGCTCCGTGAAGAGGGGCTGGAACAACGCACTGAACAGCTGAAAGAGCTGCTCGCGCTCTATCATAAGCCATCCCACCAGGATGCGCTGGAAAGCGCTGACCGACTGAGGGAGCTGATAAGAATGTCCCGTTTGGAAGAAGCGGTTTGTTTTCAAGCCGACATCACCGAGCCCCAACCGGAGGAAAGCCTGGCCCCCTGCAAGGGGACCCAGATCGTCATGACCGATCTCCCTTACGGGGACATGGTTAGCTGGAGCGGCGGAAGCCAGGCGCCGGTGGAGGATTTTTTTAACGGCATACATGCAATCCTGGACCCTGCCCGTTCGGTGGTTGCCGTCATTTCCGACAAAGGCCAGAAATTAAAGCATGACCGGTTTAAAAGAATTCAGCATCTGAAGATTGGCAAGCGGCAGGTTGCCATCTTTGAACCGTTATGA	MEYIYESAQRSYEDFASGRVLYNAQGTTSFPVRLASEIAQRCFHILEEKGVQGPYTLYDPCCGGAYLLTVVGLLHGRRIRRMIGSDINAEVLGIAGKNLSLLREEGLEQRTEQLKELLALYHKPSHQDALESADRLRELIRMSRLEEAVCFQADITEPQPEESLAPCKGTQIVMTDLPYGDMVSWSGGSQAPVEDFFNGIHAILDPARSVVAVISDKGQKLKHDRFKRIQHLKIGKRQVAIFEPL				NA	NA	NA	NA	NA
AK002_05348	201			hypothetical protein	ATGGAAGTATACCAAACATTGACGCTAATGATCTCGTTCGCGACGCTGGTGGTGTTAATACTTTCGTTCCATAAGAAAAACCGTCTATCGACGTACATTCACAGAAGACAGACCGCGTTTAGAGGACGTTTTTCTTGCGATTATCGAATGAGTTCAGCTTCGCTGAAAACTTATAAATTCTATAATCTTAAAAAGAAATAG	MEVYQTLTLMISFATLVVLILSFHKKNRLSTYIHRRQTAFRGRFSCDYRMSSASLKTYKFYNLKKK				NA	NA	NA	NA	NA
AK002_05349	780	rhaS_16		HTH-type transcriptional activator RhaS	ATGGAGCAGTTTATTTATAAAAAAGCGGTGGGCATCACCGCATTATCCGCGAGCCTGACGGATTTCAAATACAAGAAGCATTACCACGAAGAGTATGCCCTCGGCGTTACGCTGCGCGGCATACAGAAGTACTCCCTTGACGGCAGCCAGCAGGCTTCTTACCAAAGCGGGGTCATGCTGTTCCATCCGGAGCAGAATCATGACGGCTGGTCCCAGGAACGAACGGGCATCGACTATGTGATGATCTATATTCACCCGGAGCTCTTTCTGGAATTGACTCAGAAAAAGGATATCGTGCGGTTCCAATCTCCGATCGTATATCATGCCGGACTGCGGCAGAGCATTCTCAATGTGACGAGGTCGATCTTCACGGGTCAGCCGGAGGCTAAGAGCAGCGAGCTGCTGCTGGGCCTGGCGGCGCATTTTAACGAGGATATTCTGAACCCGGACAGCCGGAAGGACAGCGTATTTACGCGGAAGGCGAAAGACATGATGCACGATCATCTGGAGCATGTCCTCCGTTTGGACGAATTGAGCGGGGAGTTCGGGATGTCGAAGTATCAGTTCATCCGTACCTTCAAAGCGAATACGGGGCTGTCGCCCTACCAGTATTATTTGAACTGCAAAGTGGAGCGTGCCAAGCATCTGATCGAGGACAGCCGGGATGTATATCAAGCCGTGACCCAATGCGGCTTCACGGATCTTGCCCATTTGAACCGGCATTTCAAGAACGTGTACGGCACGACGGCGTTTGATTATATGTCCCATCTGGATAAGTAG	MEQFIYKKAVGITALSASLTDFKYKKHYHEEYALGVTLRGIQKYSLDGSQQASYQSGVMLFHPEQNHDGWSQERTGIDYVMIYIHPELFLELTQKKDIVRFQSPIVYHAGLRQSILNVTRSIFTGQPEAKSSELLLGLAAHFNEDILNPDSRKDSVFTRKAKDMMHDHLEHVLRLDELSGEFGMSKYQFIRTFKANTGLSPYQYYLNCKVERAKHLIEDSRDVYQAVTQCGFTDLAHLNRHFKNVYGTTAFDYMSHLDK				NA	NA	NA	NA	NA
AK002_05350	597	eamB_2	COG1280	Cysteine/O-acetylserine efflux protein	ATGAACCTGTCTTCGTTTTTTATTTATTGTTTTATCGTGGCCTTCTCGCCGGGACCGTCCAATATCGTCATTCTGTCTTCGGTTCAGAACTCCGGCATGAAGAAGACCTTGCGCTACATCGCCGGTGCCTCCATCGCTTTTTTCTTATTAATCGCCGCTTCGGTCGTATTAGGCCAGCTGCTGTCCTCCGGCATGCCGATCATTCTGCCGATCATGCGGGTAGCCGGCTGCCTGTTCATGCTGTATCTTGCGTATCAAGTGTATAATATGGACGTATCCAAGTCCGGCGTTAACCAAACGGCTTCTTTTACGTCTGGATTTCTGATGCAGTTTCTCAATCCGAAGGTGGTAATGTTCACGCTGACGGTCATTCCCAGCTACGTGATGCCGCATTATACGGCAGGCCCCGTCATTTCGGCGTTCGTTGTGGCGGTTTCGTTAATCGGGCTGTCCGCGTATATGACCTGGGCCGTGTGCGGTAGCCTTTTTCAAGGAATTATGCAAAAATATCGGAGGACGACCAACACGATCCTGGCTTTGTTTCTGCTGTATTCGGCCATCGTCGTATCCGGCATACCGGAGCTCATAAAGGGGTGA	MNLSSFFIYCFIVAFSPGPSNIVILSSVQNSGMKKTLRYIAGASIAFFLLIAASVVLGQLLSSGMPIILPIMRVAGCLFMLYLAYQVYNMDVSKSGVNQTASFTSGFLMQFLNPKVVMFTLTVIPSYVMPHYTAGPVISAFVVAVSLIGLSAYMTWAVCGSLFQGIMQKYRRTTNTILALFLLYSAIVVSGIPELIKG				NA	NA	NA	NA	NA
AK002_05351	750			hypothetical protein	ATGAGTATGGTGATGCTGAATCTGCTGCTGATGTTTGTCTTTATCTATATGATCATTCCATATGTTATCACACGGATCTGGGGATTTGGAGTAACCCTGCGCGGTCGGCGTGGCCGGCAGATCGCTTTTACCTTTGATGATGGCCCAGACCCGCTGCATACTCCTAAACTGCTGGATCTTCTCAAGAAAAAAAGGATCAAGGTGACCTTTTTTGTACTGGGCAGCAAAGCGGAGCGATACCCGGAGCTTATGAAACGCATCCACATGGAAGGGCATCAAATCGGGATTCACAACTATTCCCATCTTCCCAATTGGCTAATGAGTCCGCGCCATATCCGGAATAAGCATGTCCACCGGTCTGCCGATATCATCGAACGAATCACGGGCGAGCGCCCGGCATTTTACCGTCCTCCATGGGGGATTTTGAATTTAGGCGATTTATTTGCTTTGCGAAAATACCGGATCGTGCTGTGGTCGATCATGGGGTGGGATTGGGGCAAGGGGAGCAAGAACAAACCGCTCAAAGAACGGATCTTGGATCAGCTTGAGCCTGGCTCGATTATTTTGCTGCATGACAGCGGAGATACTTGGGGGGCGGAGCCTGATGCCCCAAGCAGAATGATCGCAAGCCTTGAGGAAGTGATTGACACGGTCCATATCCAAGGGTATGAATGCGTCCGCGCCGATGAACTGCTGCATAAGCCGCATGATTCGCGCAGCGACCTTTCAAAAGGCTTCCGGGTTGGATGA	MSMVMLNLLLMFVFIYMIIPYVITRIWGFGVTLRGRRGRQIAFTFDDGPDPLHTPKLLDLLKKKRIKVTFFVLGSKAERYPELMKRIHMEGHQIGIHNYSHLPNWLMSPRHIRNKHVHRSADIIERITGERPAFYRPPWGILNLGDLFALRKYRIVLWSIMGWDWGKGSKNKPLKERILDQLEPGSIILLHDSGDTWGAEPDAPSRMIASLEEVIDTVHIQGYECVRADELLHKPHDSRSDLSKGFRVG	PGPT0018645_3715	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_05352	591			hypothetical protein	ATGAACATGTTAGCTACCATTACGAAGGCAAGCGCTCAGTCGGTATGGATGGCTTGGGAAGCGGTTTTTGATCAAATCACGAAACTGCGCAGCGCCGGACTAAAAAGATACGGGATTTGCAAGCTGGTCATCCGCCGGCATCATGGAAAAAACCTGAAGTGCCAGGACGGAGAGTGGATTTATTCGGGAGATTGGGTCGGTGAACTCCATTTGGACAACCGGCAGGTATTGGAGCTTTCCAAAGAGCTGGGGGCTGACCGGGCCGCACTTTTGACCGCAAGAATGCTGCGGAGATCGATCACGCAAATTAGCGAGGCGATGGAGACGGAACCGGAGCTTGCGCAGGTCAAAGCTTTGACTGGAATAACGCTGTTGCACCGCGGTATTATTCACGGGCTCGGTTTTGAGCTGCATCCGCTGGAATCCAAGGGGTTTCGACTGTTCTCTACTTATTATTTGCGGCTTTTACTCAAGGTGCTGCATCCGGTGGGCCGGGAACGCACAAAGAAAAATGCTCCCAAGCTTGTGCCCAAAATGCTGATGCTGACCAGAAAATCATTGCTTTTGCGTTATTCTAAGGAAACGGCATGA	MNMLATITKASAQSVWMAWEAVFDQITKLRSAGLKRYGICKLVIRRHHGKNLKCQDGEWIYSGDWVGELHLDNRQVLELSKELGADRAALLTARMLRRSITQISEAMETEPELAQVKALTGITLLHRGIIHGLGFELHPLESKGFRLFSTYYLRLLLKVLHPVGRERTKKNAPKLVPKMLMLTRKSLLLRYSKETA				NA	NA	NA	NA	NA
AK002_05353	741			hypothetical protein	ATGCTTAAGCTGATCCGTATGGAGATGAAAAAGCAGAAGTTAGCCTGGTTTTACAGAGGGGCGGTTATTGCAACGATCCTATGCGCCGGTTTCATGTGTCTTATAGCCTACACGGAGGGGGGCGGAGATCCTGCATTCGGGAGTCTCGCCGATATAGCCTACACGGAGAGGGGCGGAGGTCCTGCATTCGCGAGTTTCGTCGATGCGTTATCGATAGCGGGGCTACTTTGCCGTGCGATATTTATCGTGTTTGCTTCAGTCTTGCTAAGCAGATTTATTATTGAGGAATACAAAAATAAAACGATCAGCTTATTGTTTACGTACCCGGTCGAGCGTAAAAAACTGATCATGGCGAAAATGCTGCTGGCTCTGGCTCTTACGTTTGGAGCGATGCTCATCTCGACTTTTATAATCTGTATATCCATTCTGGCTCTGAACAGCCATTTTCAGTTTATTCCGGGAAAACCGGAGGCCGGCGTACTACTGCATACGGGGATCCAATTGTTGATCCAAACATTGTCAGCAGCGTGCCTCAGCCTCATTCCTTTATTCTTCGGGATGCGAAAAAAATCCGTACCGACAACGATCGTATCCTCGATCATTATCGTGGTCTTAGTCAGCAACAACACCCAGGGCCTTTCGCTTAGCACAAATATTACGATACCGTTGATCTTGGGAGTTATCGGTCTCCTGATTGCTTATCTCTCGTTCCGTAACGTAGATAAGACGGACGTAGCTTAA	MLKLIRMEMKKQKLAWFYRGAVIATILCAGFMCLIAYTEGGGDPAFGSLADIAYTERGGGPAFASFVDALSIAGLLCRAIFIVFASVLLSRFIIEEYKNKTISLLFTYPVERKKLIMAKMLLALALTFGAMLISTFIICISILALNSHFQFIPGKPEAGVLLHTGIQLLIQTLSAACLSLIPLFFGMRKKSVPTTIVSSIIIVVLVSNNTQGLSLSTNITIPLILGVIGLLIAYLSFRNVDKTDVA				NA	NA	NA	NA	NA
AK002_05354	924	bcrA_8		Bacitracin transport ATP-binding protein BcrA	ATGAGTTATGTCATCAGTACCCGCCATGTCAGCAAAACCTATAAAGGCAAAGATGTTGTCTCTGACGTCAGTATGAATATCAAGCAGGGGCAGATTTACGGACTGCTCGGTCCAAACGGAGCCGGTAAAACAACGCTAATGAAAATGATGCTGAATCTGGTCAAACCAACCAGCGGTGAAATTGAAATATTCGGAGAGAAGCTTACGCCTTCATCGGTTGAAATGTTTAAACGCATTGGCAGCATCATCGAGTATCCGATTTTTTACGATAAAATGACGGCGATTGAAAATCTGGAGATGCATGCGGAATATATGGGTTATTATAACAAACATGCAATTAACGAGGCACTTGAGATGGTTAATCTAACTTCCATCCAAGGCAAATCGGTATCCGAATTTTCGCTTGGCATGAAGCAGCGCCTGGGCATGGCCCGCGCCATTATAACCAAACCCGAGCTGCTCATTCTGGATGAACCAATCAATGGACTTGATCCGGTCGGGATTAAGGATTTTAGAAGTTTGCTGAGCATGTTGAGCAAGGAGTACCGGATGACGCTGCTGGTCTCCAGCCATTTGCTGGGTGAGATCGAACAAGTTGCAGATACGATCGGCATTCTTCAGGGCGGTAAATTTATCCGTGAAGTGTCTATGGATGAGATGCGCAGCGAAAACACAGATTATATCGAAATTGTGACCCCACAATGCAAACAAGCTTTATTTGTACTGGAAGATCAGTTGAAAGTCAGCAATTTCAAAATCGTCGGTGATTCAGCCATACGCATTTACGAGTCCAAATTTACGCAGCAGGAATTGACCAAGGCGCTGGTACTGAATGATGTGGCGATTGAATCGATAAACCATAAGCATACTTCGCTTGAGGAGTATTTTATGCATCAGATTAGCGGAGGTGAGCAGTATGCTTAA	MSYVISTRHVSKTYKGKDVVSDVSMNIKQGQIYGLLGPNGAGKTTLMKMMLNLVKPTSGEIEIFGEKLTPSSVEMFKRIGSIIEYPIFYDKMTAIENLEMHAEYMGYYNKHAINEALEMVNLTSIQGKSVSEFSLGMKQRLGMARAIITKPELLILDEPINGLDPVGIKDFRSLLSMLSKEYRMTLLVSSHLLGEIEQVADTIGILQGGKFIREVSMDEMRSENTDYIEIVTPQCKQALFVLEDQLKVSNFKIVGDSAIRIYESKFTQQELTKALVLNDVAIESINHKHTSLEEYFMHQISGGEQYA	PGPT0006725_11194	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05355	933	sasA_26		Adaptive-response sensory-kinase SasA	GTGGTTGCCGTTCTGCTGATTGTTGTGATCATGTTGGCGTTGCTGAATGTGATGCAGTGGATGGGTCGGAAAAAAAGAGCTAAGCAGCTCGGCTACATCATCGATAAACTGAATACGATTGGCGATTCGTCCTCGCAGGAGCAGCTGCTGCTTTTTACGGAGGATCCAGGATATCGTAGACTGTTGATTGCCATCAATCACTTGCTTTTGCAAACCAGGCAGTCCGAGACAGGATTTATGCGTACAGAAATCGCGATGCGCCGGATGTTGGCAAACATATCGCATGATTTGAAGACGCCGCTTACCGTGGTGCTCGGTTATATCGAAACGTTGAACCAGAAGGCCGACTTGCCAATGGAGGAAAGGGAGCGGCTACTGGATAAGGTGCATACGAAGACTGTAGAGATCGTAGAGTTGATCAACCGTTTTTTTGACCTGGCCAAGCTGGAATCGGGGGATAAGGAGATGCCCCTGACCCGCATACATATCAATGAAATTTCCAGAAACAGCATGCTGATGTTTTATGATCTGATCGAATCCGAAGGGTTGCGGGCAGACATCGATATTCCGGAAACACCGCTTTATGCATGGGGCAATGAAGAAGGGCTAAACCGCGCATTAAACAATGTGCTGAGCAATGCGATCCGTTATGGTTCACAGGGCAAGGTGATCGGCATGAAGCTGCGGGATGAGCAGGGCCGGGTGCTTATCGACATTTGGGACAAAGGCAAAGGTATTCATGAACGGGATCAGGAGCTTATTTTCGAGCGGATGTATACGCTGGAGGATTCAAGGAATAAAAGATTCCAGGGCAGCGGTTTGGGTCTGACGATTACGAAAAGACTGATCGAGCTGATGGGTGGGGAAATTCGCGTCGCAAGCAAGCCGTATGAACGGACCGTTTTCACGATTTCGTTAAAGAAGCTATCGTAG	MVAVLLIVVIMLALLNVMQWMGRKKRAKQLGYIIDKLNTIGDSSSQEQLLLFTEDPGYRRLLIAINHLLLQTRQSETGFMRTEIAMRRMLANISHDLKTPLTVVLGYIETLNQKADLPMEERERLLDKVHTKTVEIVELINRFFDLAKLESGDKEMPLTRIHINEISRNSMLMFYDLIESEGLRADIDIPETPLYAWGNEEGLNRALNNVLSNAIRYGSQGKVIGMKLRDEQGRVLIDIWDKGKGIHERDQELIFERMYTLEDSRNKRFQGSGLGLTITKRLIELMGGEIRVASKPYERTVFTISLKKLS				NA	NA	NA	NA	NA
AK002_05356	699	regX3_4	COG0745	Sensory transduction protein regX3	GTGGCTTCGAACATACTTCTTGTAGAGGATGACAGCTCGATTGGCGAAATGGTAGAGAGCTATTTGACGATGGAAGGTTTTCAGGTGGTGCTTGCCAAAGACGGAGAGGAGGCGCTCGAGCGGTTTGCCGAACGAGATTATGACCTCGTACTGTTGGATATGATGCTGCCCAAGATCAGCGGTATGGATTTTCTTAAAAAAATCAGGGAGAAAAGCCATGTGCCGGTACTGATCGTATCCGCAAAGGATGGGGAAGTGGACAAGGCGCTCGGCCTTGGTTTTGGCGCGGATGACTATATTACGAAACCTTTTTCGATGATTGAGCTGACGGCGAGAGTGAAGGCCGCTATCCGCCGCGTGACGGCTTATGTAATAGCACCCCCAACGGAGCAAAATAAAATCATCCGGGTCCATGAACTAGAGATGGATCTGGATCATTTGACCGTGACCAAAAACGGCCAGGAGATCAAGCTGACGGCCAAAGAGCTGCAAATCTTAAAGCTGTTTATGACGAATCCGAAAAAGGTATTCACCAAGCAGCACATTTTCACATCCGTCTGGAATGAGGACTATTTCGGCGATGAAAATGTCATTAATGTGCATATGAGCCGTTTGCGCGATAAAATTGAAGATCAGCCCTCCGATCCGCAGTACATCAAAACGCTGTGGGGCATCGGCTACCGTTTGGGGGAATTTTAG	MASNILLVEDDSSIGEMVESYLTMEGFQVVLAKDGEEALERFAERDYDLVLLDMMLPKISGMDFLKKIREKSHVPVLIVSAKDGEVDKALGLGFGADDYITKPFSMIELTARVKAAIRRVTAYVIAPPTEQNKIIRVHELEMDLDHLTVTKNGQEIKLTAKELQILKLFMTNPKKVFTKQHIFTSVWNEDYFGDENVINVHMSRLRDKIEDQPSDPQYIKTLWGIGYRLGEF	PGPT0013765_169	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_05357	360	ebrB		Multidrug resistance protein EbrB	ATGCATTGGATATATCTAAGTTTGGCTATTCTGTTCGAGGTGGCGGGCACGCTGAACATGAAGCTGTCGGAAGGATTCAGCAAACCGCTGCCAAGCGTGCTGCTGGTCGTGTTCTATATTTGCAGCTTGAGCTTCCTGACATTGAGCCTGAAACAGATTGAAATATCCGTGGCTTACGCGATCTGGTCGGGACTCGGGATCATGATCATTACGCTGATCGGATACATGTTCTTTGCGGAGCAGATTAACGGGCTCAAGGTATTCTCGATTCTGCTGATCATCGCAGGGGTCGTGCTGCTCAATTTATCCGGCAGCGCGCATGCGCAGGAGCAACCGAAGACGCACCAGTCCGGTCATTAA	MHWIYLSLAILFEVAGTLNMKLSEGFSKPLPSVLLVVFYICSLSFLTLSLKQIEISVAYAIWSGLGIMIITLIGYMFFAEQINGLKVFSILLIIAGVVLLNLSGSAHAQEQPKTHQSGH	PGPT0029230_304	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
AK002_05358	570			hypothetical protein	TTGCGCGAGCGAATATTGAATGAAACGATCCGCTTGATTCAGCGGCAGGGGTTCACGTTTACGGTCAGTGATCTGGCCCGTGGCCTTGCGATTAGCAAACGGACGATATATGAGCATTTTTCATCCAAGGAAGAAATCGTTGAGCATATCATTGACGGGATGATTCGTCACATCCAGCAGCGCGAACGCGAAATTGCGGCGGACCAGACGCTTACCGTTCTGGAGAAAATCCATCAGATCCTGATCTGCCTGCCTCAGGAGATGGAGAAGATGGATTTGGGGATGCTGCCGGATCTGAAGCGGTCGCATTATCCGCAGTGGGAGAAGCTGGACACCTTTTTCCGAGAAGAATGGGGCATTGTCACGGAGCTGATGGAGCAGGGCATGGTAGAAGGCAGCATCAAGCGGATTCATATGCCGCTGTTCATCGACCTGTACCTCGGGTCGCTCCATCAGATTTACGATTCGAGGGCGACGGTGAAGCATCAACTGCCGCTGGGGGAGTTGCTGCAGTCCGTCATGGATATTTTATTGTTCGGCATAGCCGCTGAGAAACGGAAGGAGTCTTGA	MRERILNETIRLIQRQGFTFTVSDLARGLAISKRTIYEHFSSKEEIVEHIIDGMIRHIQQREREIAADQTLTVLEKIHQILICLPQEMEKMDLGMLPDLKRSHYPQWEKLDTFFREEWGIVTELMEQGMVEGSIKRIHMPLFIDLYLGSLHQIYDSRATVKHQLPLGELLQSVMDILLFGIAAEKRKES				NA	NA	NA	NA	NA
AK002_05359	807	ykoC_2		Putative HMP/thiamine permease protein YkoC	ATGAATATATGGAATCCTGTGCGGATCACTTGGCTGCACCGGGCGAATCCGGTGGTGAAGCTGGGACTGATCTGTGCGCTGTTTTTTATGACGGTGCTGACCCATGATCTTGATTTTGTCATGTATCAGGCCTTTATCTTTATGATTTGCCTCGTGGTGCTCAGCGGGGTGAAGCCGTGGAAGATGCTGCTGTTTTTCATTCCGTTCCTGCTTGCCTTCATATCGTCCGCCTCTTCCATGATGCTGTTCGGTAAGGGGGAGACGATCTGGTGGGAATGGGGGTTGTTCCGGGTATCGGAAGAAAGCTTCTATCGGGGGCTGCATCTGGGCTTTAAGGGGATTGCCTTTGCATCGGAGGGGCTGCTGCTCGTGACGACAACGTCCTCGGTGGATCTGTTCTACAGCCTGATGCAGAAGCTGAGGCTGGCGCCGAAGTATGCATACAGCTTCATGGCTTCGATCCGGCTGCTGCCGATGGTCTGGGAGGAATATGTGATCCGCCGCCAGGCCTTGAAGGTACGGGGAGTCCGCCCGATTCGGGGAGTTCGCGGCATGGTGAACCGTGCAGGCATGTATGTGGTGCCGCTCCTGGCGCAAAGCATCCGCCGGGCACACCGGGTAGCTGCGGCGATGGAGGCGAAGCAATTTGACGGGGAACGGGCGAAGGCCCGAACGTATTATTACCCGTCACGATATTCCCGCTACGATCTTCTGGTCGTCGGTTTACTGGCAGCAGCCGCCTGCTGCGCCTATATGGCGGCCGGATATTTTCCTTGGTTCGGCATTGGCGACGTGCGGTTTGATTAA	MNIWNPVRITWLHRANPVVKLGLICALFFMTVLTHDLDFVMYQAFIFMICLVVLSGVKPWKMLLFFIPFLLAFISSASSMMLFGKGETIWWEWGLFRVSEESFYRGLHLGFKGIAFASEGLLLVTTTSSVDLFYSLMQKLRLAPKYAYSFMASIRLLPMVWEEYVIRRQALKVRGVRPIRGVRGMVNRAGMYVVPLLAQSIRRAHRVAAAMEAKQFDGERAKARTYYYPSRYSRYDLLVVGLLAAAACCAYMAAGYFPWFGIGDVRFD	PGPT0004015_1537	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
AK002_05360	1677	ykoD_2	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGTCTAAAACCGCCGCCCGCTGGGTTTCGGCTTCAACCGCCGAGGCGGTTCCAGAGCAGGCCGTGCATGTGGAGGGATTGCGCCTGAAGTATCCGGGCGAGGAGCGTTTGATGTTTAAGGACTTGTCCTTCTCGGCTGCCCGGGGGGAGAAGGTGCTGCTGCTCGGTCCGAGCGGCTGCGGCAAATCCACGCTGCTTCAGGTGCTTAGCGGGATGATTCCCCGCGCCACGGAGGTGCCGATGAAATGCGAAGTCCAGCTGGTGCCTCGCTCTTGGGGATATGTATTCCAAGATCCGGATACCCAGTTCTGCATGCCGTACGTGGATGAAGAGCTGGCCTTCGTGCTGGAGAACCTCAGCGTTCCCCGCGACGAGATGAAGGAGCGAATGCAAGCCGTCCTGCATGAGGTAGGGCTTGACCTTCAGGAGCTGCATATGCCGATCAGTCATCTGTCGCAGGGGATGAAGCAGAGGCTTGCGCTGGCTTCGGCCCTTCTGCTGGAGCCGGAGGTGCTGTTCCTTGATGAGCCGTCCGCGCTGCTCGACCCGGAAGGCAGGGAGCAAATCTGGTCTGCGGTGAAGGCCGTATCGGAAAGGCGTACGCTGATTATCGTGGAGCACCGGATTGAAGAAATGGCCCAATACGTGGACCGCGTGGTGCTGTTCACCCCGGATGGCGCCATTCTGGGCGATGGCCCGCCGGCAGCGATATTCGCCGAATATGCGAGCGAGCTTCAGGCGTATGGCATCTGGTATCCCGGCGTATGGGAGGATTATGCGGAGTCTCGGGCAGGACGGGAGCTGTTTGCTCCGGTCGACGCGCCAGGCGATGAGCTGGGAAGTCTCATGCATGAGGCAGACTCATCGTACGACCACCTTGGGGAGCCTGTCATTCGGTTAGATGATTTCCGGGGACTGCGATGGGATAAACCGGTCATCTCCCTTCCTTCGGCTGAGGTATACCCCGGAGAGTTCATTGCGGTGATCGGTCCGAACGGCGCAGGCAAAAGCTCGCTGCTGCTCAGTTTGATGGGGCTCCTGCGCGCCGAAGGGACCTATGTGCTCTGCGGGGAGGAGGTCATCCAGGGCAAGAGCAGGAAGGTGAAGAAAAAGAGAGAGCGGCAGCTGCGCCAAATCGGATTCGTGTTTCAGAATCCGGAGCTTCAGTTTCTGACGGAACGTATCGGCGATGAGGTGATGTACTCGCTGCTGGTGGACCATATGCCGCCGGATGAAGCGAAGGCACGGGCCGACCGATGCCTGGAACGCTTTGGGCTGGACGGCATGGATAACAGGCACCCGTACCAGCTGTCGACAGGCCAGAAGCGCCGGCTGAGCGTTGCTACGGCCATGGCAAGACAGCCGGCCGTCCTGCTTTTGGATGAACCGACCTTCGGACAGGATGCGCGGAACACGTTCGCAATTCTGGAGATGTGCGAACGGCTGCGCCGCGCCGGAACCGCCATTCTCATGGTGACCCATGAAATGGAGATCGCGGAGCGGGCGGCCACGCACATTTGGGAGATTCGGGAAGGGCGGTTGACGTCAAGTTTGCCTTCCCCGCGCTGGTGTAGCGGGACGGAATTCGGACGGGAGACGGGCGAAGCGAATCACGCTGATGCTTCGCGGGATACGCTGGCAGCATCCGGTCATCTCCATACGGGGGTGAACGCATGA	MSKTAARWVSASTAEAVPEQAVHVEGLRLKYPGEERLMFKDLSFSAARGEKVLLLGPSGCGKSTLLQVLSGMIPRATEVPMKCEVQLVPRSWGYVFQDPDTQFCMPYVDEELAFVLENLSVPRDEMKERMQAVLHEVGLDLQELHMPISHLSQGMKQRLALASALLLEPEVLFLDEPSALLDPEGREQIWSAVKAVSERRTLIIVEHRIEEMAQYVDRVVLFTPDGAILGDGPPAAIFAEYASELQAYGIWYPGVWEDYAESRAGRELFAPVDAPGDELGSLMHEADSSYDHLGEPVIRLDDFRGLRWDKPVISLPSAEVYPGEFIAVIGPNGAGKSSLLLSLMGLLRAEGTYVLCGEEVIQGKSRKVKKKRERQLRQIGFVFQNPELQFLTERIGDEVMYSLLVDHMPPDEAKARADRCLERFGLDGMDNRHPYQLSTGQKRRLSVATAMARQPAVLLLDEPTFGQDARNTFAILEMCERLRRAGTAILMVTHEMEIAERAATHIWEIREGRLTSSLPSPRWCSGTEFGRETGEANHADASRDTLAASGHLHTGVNA				NA	NA	NA	NA	NA
AK002_05361	630	ykoE_2	COG4721	Putative HMP/thiamine permease protein YkoE	ATGGGAACGTCAGTGCAAGAGAAATTGGGGGTACAGCCTAGAAAAGGGCTGCGTTTAAGCGATATTTTGGTGACGGTGCTGTTATCGCTTGTGCTCGGCGTCATTTATCACTTCTGGGGATCGGTTTACAATCTGCTGAAACCGCTGTTCTTCGAAGCGGATGAACTGTTATACGGCATGTGGTTCGCAGCGGCCACGCTCGCTTACCTGCTGATCCGCAAGCCGGGAGTGGCTATCATCGCGGAGGTGGCGGCGGCCCACGTGGAAGTTCTGTTCGGCAGCGGCTGGGGACTGACGCTGCTGCTGTACGGCCTCATTCAAGGGCTGGGCGCGGAATTGGTATTCGCGGCGTTCCGTTACCGGAGCACCTCGGCGTGGACGGTGGCGATTGCCGGGGCCGGCGCGGCGGTCGGCTCGATGGTGATGGACTTCTATTACAGCTATACCGATGATCTGCAGACCTGGATGTTCCTGGCCAAGTATGGCATGCGGATTCTCAGCGGCGCCGTCATTGCCGGCTTGCTCATGCTGCTGCTGGCCAAAGCGCTCGACCGTACGGGCGTTACATCGCTGCTGCGCCCCGCGTCCAAGAAGGATTATGAAGCACTGGATGATCCGCGCCATGTCTAA	MGTSVQEKLGVQPRKGLRLSDILVTVLLSLVLGVIYHFWGSVYNLLKPLFFEADELLYGMWFAAATLAYLLIRKPGVAIIAEVAAAHVEVLFGSGWGLTLLLYGLIQGLGAELVFAAFRYRSTSAWTVAIAGAGAAVGSMVMDFYYSYTDDLQTWMFLAKYGMRILSGAVIAGLLMLLLAKALDRTGVTSLLRPASKKDYEALDDPRHV				NA	NA	NA	NA	NA
AK002_05363	804	psd	COG0688	Phosphatidylserine decarboxylase proenzyme	ATGGCTAAACAATTGCTGCGTCTGATGACCGAGCTGTCCTCCCGCAAGTGGCTGTCCCGCATTATGGGGCATTGTTCCCACAGCCGGCTGAGCCGTCATCTAATACCTGCATTTATACGAATCTACCAAATCCCGGCGCATGAAGCGGAGAAGGAGATCCACGAATACCGTTCGCTGAACGAATTCTTTTCCCGCCGGTTAAAAATAGGCCTGCGCGCCATAGACGACACCGCCGATGCCATGGTAAGCCCCGTCGATGCCACGATTTCGGCGATGTGCACCGTCAACGCCGGCACCATTCTCAGCGTCAAGGGACAGGATTATACCCTGAGCGAGCTGCTCGCCAAGTCACCGAGAATGGAGAATTACATCAACGGTTATGCATTCGTATTGTATTTAAGCCCGACCGACTATCATCGCATACATTCCCCGGTAACCGGCATTCAAGCGGAAAGCGAGCATTTGAAGGGCCGGGTATACCCCGTGAACGATTTTGCGATGACCCATATCCGGAACGTGCTCAGCCGCAACGAGCGTCTCATTACCTATATTGCCCATGAATTCGGCGAAGTTGCGGTCGTGAAGGTCGGAGCCATGAACGTAAGCAGCATCCGTTATGCCGACGAGAGCGTGAAGAAATACGACATCGGCGACGAACTTGCGTACTTTGAATTCGGCTCTACCGTCGTGCTTTTGACGGAGAACGGCACGTTTACTCCGCGCGGCGACTTGGAGCCGGGCTCCAAGGTGAAGATGGGGGAACTGCTTGGTTTGCTGCACCCTTCCACAGCCCGAAAAGGGTAA	MAKQLLRLMTELSSRKWLSRIMGHCSHSRLSRHLIPAFIRIYQIPAHEAEKEIHEYRSLNEFFSRRLKIGLRAIDDTADAMVSPVDATISAMCTVNAGTILSVKGQDYTLSELLAKSPRMENYINGYAFVLYLSPTDYHRIHSPVTGIQAESEHLKGRVYPVNDFAMTHIRNVLSRNERLITYIAHEFGEVAVVKVGAMNVSSIRYADESVKKYDIGDELAYFEFGSTVVLLTENGTFTPRGDLEPGSKVKMGELLGLLHPSTARKG	PGPT0007700_2968	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
AK002_05364	855	budC		Diacetyl reductase [(S)-acetoin forming]	GTGGTAAAGGGGAGAGCAGGGAAGGCTGCGCTGGTCACGGGCGCGTCGAGCGGGTTCGGACTGCTGATCAGTCTGGAGCTGGCAAAAGCAGGTTATGACGTGGCCGCGGGTCTTCGCAGACCTGAGGCGGCGGCAGAGCTGTTGGCTCAGGCTGAACAAGCCGATGTTACCGGGCGCATTCACATCTTCCGACTGGATATATGTGCCGAGGAGCAGGTCAAGGCTGCTGCTTTGGCGCTGGAGCAGAAGTTCGGCCGCTTGGACGTGCTGGTGAACAACGCCGGCGAGGCGGTGGGCGGCATGGTGGAGGAAGTGCCGCTGGGCGGCTGGCGAAAGCAGATGGAGACGAATTTCTTCGGGACCGTATCGGTGACGCAGCATATGCTCCCGCTGCTGCGCAAGTCCGGACGGTCCAAAATCATTCTCATGAGCAGCATTAGCGGCAGGGTCGGCTTTCCGGGTTATGGTCCCTATGCGGCGTCCAAATTTGCGCTGGAGGGGTTCGGCGAGAGCCTGTCCATGGAACTGATGCCCTTTGGCATCGATGTCGTGCTGGTCCAGCCCGGTGCCTACGGCACGCCGATCTGGAATAAGAGCTTTGGGGAGTTAAAGGTTAAGGAAGGATCACCCTACAACGCTCTGCTGAAGGGCGTGCTGGACTATTCCGAGCGGACGGCCAAGGGAAGCGGGGATCCACAGGAGGTAGCCAGGCTTGTGGCAAGAATCGCGTCTATGTCCAAGCCCAGGTTCCGCTATACGCTGCCCCGAGGCACGCGGATGACCGCGCGGATCAAGGGCGTGCTGCCGGATCGGCTGTTTCAGCGGATCATTTACCGGCTGCTGAGCAGGCGGTAA	MVKGRAGKAALVTGASSGFGLLISLELAKAGYDVAAGLRRPEAAAELLAQAEQADVTGRIHIFRLDICAEEQVKAAALALEQKFGRLDVLVNNAGEAVGGMVEEVPLGGWRKQMETNFFGTVSVTQHMLPLLRKSGRSKIILMSSISGRVGFPGYGPYAASKFALEGFGESLSMELMPFGIDVVLVQPGAYGTPIWNKSFGELKVKEGSPYNALLKGVLDYSERTAKGSGDPQEVARLVARIASMSKPRFRYTLPRGTRMTARIKGVLPDRLFQRIIYRLLSRR				NA	NA	NA	NA	NA
AK002_05365	786	rhaR_67		HTH-type transcriptional activator RhaR	ATGCTGAATGCATCGCCGTCTTCGTTTATAATCATGCCTGCGCTTGCCAAAATCGTTTGCGAGCCGGGCTGGAAATGGCAAAAACGCGAAAGGCCCATGCAGAACTACGATTTGTTCTATGTATGGAGCGGCGAAGGCACGGTCGAGCTTAATGACGAGCCCTTTACCGTGGGAAAGGGAAGCTGCTTCCTGTTCCGACCCGGAGATCATACGAGCGCGACGCATAATCCGCAGAAGCCGCTCGTATTGACATATATCCATTTTGACGTGACCGACCCGGTCGAAGAGATTCCGGCATCGTATCGCAAGCTGACGGAAACGATGGATTTCGAATATTTGCTTGCACGCTATGTGCGTTTGTATCTGGACAAGCCCTATGGTTCACTGGAAGAGGGCCAGCTCATTCTGAAGCAGCTGATGATTCATCTGCTGCGCTCGGATCTGGATGCGCCGGTGGTCAAAAAAGCAAGCAATCAGCTGTCCGAGGCGATCCATGAAATCGCGAATTACGTCCGCCAGCACCCGGGGGTTCCCCATCGGGTCGAGGATTTGGCGGCCAGAGCGGGGTTGTCTCCCCGCTACTTCTCGATCAAGTTCAAGGAGCTGATCGGCACGCCGGTGCAATCCTATATCATTCAGATGCGGATCGAGCGGGCGCAGCATCTGCTGCTGCATCAAGGGATGAACGTAACTGAAGTGGCCGACGCGCTGGGTTATCGGGATATTTTCTTTTTCAGCCGACAGTTCAAGCAGTATACGGGCAAGAGCCCATCCGAAATTCGGTGA	MLNASPSSFIIMPALAKIVCEPGWKWQKRERPMQNYDLFYVWSGEGTVELNDEPFTVGKGSCFLFRPGDHTSATHNPQKPLVLTYIHFDVTDPVEEIPASYRKLTETMDFEYLLARYVRLYLDKPYGSLEEGQLILKQLMIHLLRSDLDAPVVKKASNQLSEAIHEIANYVRQHPGVPHRVEDLAARAGLSPRYFSIKFKELIGTPVQSYIIQMRIERAQHLLLHQGMNVTEVADALGYRDIFFFSRQFKQYTGKSPSEIR	PGPT0017485_836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017485-araC-K02099	NA	NA
AK002_05366	1467	gabR_4	COG1167	HTH-type transcriptional regulatory protein GabR	ATGGAGCTTGGATTGCCATTCGAGACCTATGTGGAACAATATCGATTTAAATATTTGGCTCTGTACCACGCGATTCGCGCTGCGATCCATAGCGGCAAGCTGCCGGAAGGCACGAGGCTTCCCGCAACCCGCGAGCTGGCCAAGCTCTACGGGGTGTCCAGGGGATCGGCCGCGCAGTGTTATGACATGCTGATGGCCGAGGGCTACGTCGTATCCCGGCAGGGCAGCGGAACTTACGTGGCCGAGGGGATCGCTGCCACGGCAGACCAGCCGCCATTGGCCGAGCGGGCACCGGCGCTCTCCGCTTGGGGGCAGCGACTGATGAGCCAAAGCGGGGAATATGTCTCGGCACAGCTGCTGCTGAAGGAGCCTCCCCCGGGTACGATCTCTTTCGCGAATGCGAGGATGCCCATGGAGGATTTCCCTTATTCGGAGTGGCGGAGCGCGTTATCCTATGCAGGCGGAAGCGGGGGAGCCGAGCTGCAGAACGGAGCGCCGCCGGAAGGGGATATCGAACTGCGCCGGGCGATAGCCGGACACCTTCGGTTCACGCGGGGCATACAGGCGGATCCCGAGCATATCGTGGTTTTCAGCGGTTCCATGCAGGGACTTGTCCTGATGTTTCAGCTGCTGGTTGATCCCTGCGATCACGTGGTGATGGAGGATCCGGGTTATCAGGGAATCCACCGGGGCATAAGCTTGAGCGGCGGGATTCCGCTGCCGTCCCCTGTCGACGACGCCGGATTGATTCCGTGCGAATGGGACGCAGGCCTGCTGGTCGTAAGCCCCAGCCGTCAATACCCGACGGGCGCGGTGCTGCCGCTGGAGCGAAGAAGGGCGCTGCTGAATTGGGCGCGAAGCCGCCAGGCCTTTATTATCGAGGATGATTACGACAGCGAATTCCGCTGGGGCGGCAAGCCGATCGAGCCTCTGAAAATGCTGGACGACGAGGGACGCGTCATCTTTGTCGGTTCATTCTCCAAAACGATGTTCACCGGCCTCCGCATCGGTTATGCCGTGCTTCCCCCGAGCCTGGTTGAGGCGGTCGTTCAGGCCAAGGCTCTGTACGAGCCGATCTCGCCAGCCGTATTGGAGCAGCGCGCCTTGGCCCGCTTTATTGTAAGGGGAGGTTACGGGCGGCATCTCAGAAGAATGACTCGGCTGTACGGCGCGCGGTATGAGGCGCTTCGCCATGGGATGGAAACCCATGCCTCGGGTTTGTTTCGCCTTCACCCCGGCGATGCCGGCCTGCACGTCTACGCGAACTGGCTGCGCTCCGCGGAAGAGTATGCCCTGTTCCAGAAGGCTGCCCGCAAGCGCGGCGTCATGTTTCGGGATGCAGCTGCCTATCATCGTACGCCCGGGCCGCCTGCCGCCTGCTTCGGCTTCTCGCATCTCGGCATATCCAGCATCGAAGAAGGGGTTGCCCGGATGGCGCAGGCATGGCGGGACATGCAAAAAACATAA	MELGLPFETYVEQYRFKYLALYHAIRAAIHSGKLPEGTRLPATRELAKLYGVSRGSAAQCYDMLMAEGYVVSRQGSGTYVAEGIAATADQPPLAERAPALSAWGQRLMSQSGEYVSAQLLLKEPPPGTISFANARMPMEDFPYSEWRSALSYAGGSGGAELQNGAPPEGDIELRRAIAGHLRFTRGIQADPEHIVVFSGSMQGLVLMFQLLVDPCDHVVMEDPGYQGIHRGISLSGGIPLPSPVDDAGLIPCEWDAGLLVVSPSRQYPTGAVLPLERRRALLNWARSRQAFIIEDDYDSEFRWGGKPIEPLKMLDDEGRVIFVGSFSKTMFTGLRIGYAVLPPSLVEAVVQAKALYEPISPAVLEQRALARFIVRGGYGRHLRRMTRLYGARYEALRHGMETHASGLFRLHPGDAGLHVYANWLRSAEEYALFQKAARKRGVMFRDAAAYHRTPGPPAACFGFSHLGISSIEEGVARMAQAWRDMQKT	PGPT0016790_2407	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
AK002_05367	615			hypothetical protein	ATGAGAAGAGACGAATTTGCGATGGAGGATCCCCAAGAGATCGAGAACTTCCTTCGCGGGATGAGCTTTGGTTTCCTTGGAACGGCCGATGAGGAAGGAATCCCACGTGTAACGCCTTTGAATTTTGCCTATGTCAACGGAGCGTTCTATTTTCACGGCAGCCGGATGGGTGAGAAAATGGACCATCTCCGCCGGACGCCCGCCGTATGCTTCACCATAGCGGATGAGTATGCCCTCATCCCTTCCTATTTCTCCGACCCCGAGATGGCATGCCCGGCCACGGCCTATTTCAAAAGCGTTACCGCTATCGGCGAGGCCGTGATTGTAGACGATCTGGAGGAAAAAGCGCTTGCGATGGAGGCGCTGATGCAAAAGCTGCAGCCTGAAGGCGGATACCGCGCCATCGACGCGAACGACCGGGCTTACACCTCCAGACTGAAAGGGGTAGCCGTCATCCGGCTGACTCCGCAGCGGATGAGCGCCAAGTTCAAGTTCGGCCAGAACCTGAAGCCGGATCGGCTCCAAGCCGTCGTCGAAGGCCTGGAATGCCGCGGCAAGAATCGGGACGAGGAGACGGCAGGACTGATTTGCAAGTATCACCCTGGACCGCGTTAA	MRRDEFAMEDPQEIENFLRGMSFGFLGTADEEGIPRVTPLNFAYVNGAFYFHGSRMGEKMDHLRRTPAVCFTIADEYALIPSYFSDPEMACPATAYFKSVTAIGEAVIVDDLEEKALAMEALMQKLQPEGGYRAIDANDRAYTSRLKGVAVIRLTPQRMSAKFKFGQNLKPDRLQAVVEGLECRGKNRDEETAGLICKYHPGPR	PGPT0028780_831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-5-NITROIMIDAZOLE_ANTIBIOTIC_RESISTANCE-AZOMYZIN,PGPT0028780-nimD-K07005	NA	NA
AK002_05368	1299	hisC_4		Histidinol-phosphate aminotransferase	ATGAACCCATTGGTTGGTCAATTGAATGGAAAAATGCAAGCTGGCAATCCGCATGTGTACGACATGCTCTCCACACTCGGCAGGGAAATCTACTTCCCGAAGGAAGGCATCCTGAGCCAATCCGCGGAAGCGACGAGCCATGCGAAAAAATATAACGCTACGATCGGCATTGCAACCGAGGGCGGAATCCCGATGCATCTGGGCGTCATCCAAGACAAACTTTCGGCATACCAGCCGAAGGATCTGTACCCGTATGCTCCTCCGGCCGGCAAGCCGGAGCTTCGCTCCGTATGGCGGAACAAGATGATTCAGGAAAATCCTTCGCTTGAAGGCAAGAGCTTCAGCAATCCAATCGTCACGAATGCGCTGACGCATGGACTTAGCATCGTAGCCGATTTGTTCGTGGATGAAGGGGATGCCGTCATTTATCCCGACAAAAACTGGGAAAATTACGAGCTGACCTTCGGCATTCGCCGCCATGGCATTCATGTAACCTATCCTCTCTTCACGGACGATATGAAATTTAACGCCGACGGACTTCGTCAGGCTCTGCTGAGCCAGAAGGATAAAGGCAAAGCCGTCGTTCTGCTGAACTTCCCGAACAACCCGACGGGCTACACGCCCGGCGCGGAAGAAGGTGCGGCCATCGTGTCCGCGATCCAGGAAGCTGCCGAGGCCGGCATGAACGTTGTCGTCGTAACGGATGATGCGTATTTCGGCTTGTTCTTTGAAGATTCGCTGAAGGAATCGCTCTTCGGACGCCTGGCAGGCCTTCATCCTCGCGTGCTTCCCGTGAAAGTCGACGGTGCTACGAAGGAAGAATTCGTTTGGGGATTCCGGGTCGGCTTCATTACGTATGCGGCTGAAGATAAAGACGTGCTGGACGCTCTGGAGCAGAAAACGCTCGGCATTATCCGCGCAACGATATCCAGTGCCTCCCACCCTTCGCAGACCTTTGTTCTGGAAGCGCTGAAATCGCCTGAATTCCACGAGCAGAAGGAAGAGAAATTCGTCATCATGAAGGGCCGAGCCAACAAAGTGAAGTCCATCCTCGACAGCGGCAAATACGGCGATGTTTGGGAGTATTATCCGTTCAACTCCGGCTACTTCATGTGCCTTAAGCTGAACACGGTAAACGCCGAGGAGCTCCGCTCCCATCTCATTCATGAGTATGGCGTAGGAACCATCGCCCTCGGCGAGCATGATCTCCGGATCGCCTTCTCTTGTATTGACGAGGAGTATTTGGAGGATCTGTTCGACCTGGTATACAAAGGGATTCAGGATCTGCAGAAGGCTTGA	MNPLVGQLNGKMQAGNPHVYDMLSTLGREIYFPKEGILSQSAEATSHAKKYNATIGIATEGGIPMHLGVIQDKLSAYQPKDLYPYAPPAGKPELRSVWRNKMIQENPSLEGKSFSNPIVTNALTHGLSIVADLFVDEGDAVIYPDKNWENYELTFGIRRHGIHVTYPLFTDDMKFNADGLRQALLSQKDKGKAVVLLNFPNNPTGYTPGAEEGAAIVSAIQEAAEAGMNVVVVTDDAYFGLFFEDSLKESLFGRLAGLHPRVLPVKVDGATKEEFVWGFRVGFITYAAEDKDVLDALEQKTLGIIRATISSASHPSQTFVLEALKSPEFHEQKEEKFVIMKGRANKVKSILDSGKYGDVWEYYPFNSGYFMCLKLNTVNAEELRSHLIHEYGVGTIALGEHDLRIAFSCIDEEYLEDLFDLVYKGIQDLQKA				NA	NA	NA	NA	NA
AK002_05369	1221			hypothetical protein	ATGAATCTGCGTGAGCTGTATGTCAAACGACGCGGGCAGTTCTGGGGTGAAATCCTTCCCTATTTGGGTTATGTCATACAGAGCGGCGTAGCCGTCGTATTCCTGTTCCTGCTGATTGCATTCGCGGCATGGTATACCGCACTTCTGCAGCAAGTTCCGCCAGATCTGCCGATACGCTGGATCATGCTGATTTTCCTTGCGCCCCTCATGATCAACAGCAGCATCCGCACGTATCTGCGCACGGCGGATACGGTGTTCCTCATTCCGCAGGAATCCCGAATGAAGGAATATTTCCGCAAAGCATGGTTTAGCGGAGTCATATATAAAATCATCGGCTTGGGATTGGTCCTGCTCATTCTATGGCCTCTATACATACGCAGCGATGTTTCGCCAAAGGCGCTGCTGGCTACGTTTGCTGTCCTGACCGTGTTCAAGCTGCTGTCCAGCTATGGCAGCTGGAAGGAGCAGCTTATGGTGTCACGGAACGCGGCAGCAGCCTATCGGGCACTCCGCTGGATCGTTCCGGCACTGAGCCTGGCTGCCTGGCTATGGCATCCAACGGGCCGTGCCCTTCTATTCATGGCGCTGCTCGGCCTCACGTATGTTGCTGCGTTATCCGTTCCCGTCAAACACTTGGTCGCCTGGGAGCGATTAATCGCCGTCGAGCAGCGGCAGGCAAGCCGGGTTATGATGGTGCTGAGCTGGTTCGTGAATGTGCCTCAGCGGGAGCAGCGCGTCCATGCGCGGAAATGGCTGTCCGGATGGGGGAAAGGATTGGCGTGGAAGAAGGAGAGCGCTTATCGTTTTCTTCTTATCAAGAGCCTGACACGCAGCGATATTCTGGGCATTCTGTTCCGTGTCGGACTGCTCGGAGCCTTTATCGTATGGGCCACCCGGGATGGCCTGGTATCGGCGCTTGTATATCTGATCAGCCTGATGATTGTCGGGCTCCAATTGTCTGCGCTGCGCAAGCTGCACCCGGAATCGTTCTGGCTGCACGTCTATCCGCTTCCGGAAGGAACTCGCCGCGACAATGAAGGCAAGCTGATCTTCCAGGTACAGCTGTTCTGGGCCGTACTGCTGTGGCTTCCGCTCGTTCCGGGCATCCTTAACGCGCCAGGGCGGGTCCTCGGGACGATGGCTGCAGGCATCGCGATTGTGTTCCTGTTCCGAAGCGCCGCTGCCCGAAAGAGCCGGCGCGAAGACGATGACGACGAATAA	MNLRELYVKRRGQFWGEILPYLGYVIQSGVAVVFLFLLIAFAAWYTALLQQVPPDLPIRWIMLIFLAPLMINSSIRTYLRTADTVFLIPQESRMKEYFRKAWFSGVIYKIIGLGLVLLILWPLYIRSDVSPKALLATFAVLTVFKLLSSYGSWKEQLMVSRNAAAAYRALRWIVPALSLAAWLWHPTGRALLFMALLGLTYVAALSVPVKHLVAWERLIAVEQRQASRVMMVLSWFVNVPQREQRVHARKWLSGWGKGLAWKKESAYRFLLIKSLTRSDILGILFRVGLLGAFIVWATRDGLVSALVYLISLMIVGLQLSALRKLHPESFWLHVYPLPEGTRRDNEGKLIFQVQLFWAVLLWLPLVPGILNAPGRVLGTMAAGIAIVFLFRSAAARKSRREDDDDE				NA	NA	NA	NA	NA
AK002_05370	753	ecsA_2	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGAGCGAACAGCCGGTATTGTCTGTTCAAGGATTAAGCGGCGGATATAGCATAAACCGACCGGTTCTGCATGATGTAACCTTTCAGGTGGAACCGGGGGAAATGGTAGGTTTGATCGGCCTGAACGGCGCGGGCAAGAGTACGACGATGAAGCATATCCTCGGTCTGATGAATCCGCAAAAGGGGACCATCCAGGTCCAGGGGAAGAGCCGCTCGGAGCATTCGGAAGCGTATCACAGCGCCTTGGCTTTCGTTCCCGAATCCCCGCTGCTGTATGAGGAAATGACGGTGCGCGAGCATTTGGAATTTACGGCTCGTTCCTACGGCGTGTCCCGCGAGGATTATGAGACGCGCTCGGCGCAGCTATCGAAGATGTTCCGAATGGAAGAGAAGATGGACAGCCTGTCCACGCATTTGTCCAAGGGCATGCGCCAAAAAGTGATGATCATGTGCGCGTTCGTCGCGAGACCGTCGCTGTACATCATCGACGAGCCCTTCCTTGGGCTTGATCCGCTCGGGATCCGTTCGCTGCTTGACTTTATGCTGGAATTGAAAGCATCCGGTGCTTCCGTATTGCTAAGCTCCCATATTCTCTCGACGATCGAGAATTATTGCGACCGGTTCATCGTGCTGCACCGCGGCAGCATCATTGCTCAGGGGACGCTGAAGGAAATCCAGGATCAAGCGGGAAGACCGGGCATGTCCCTGGAAGAGCTGTTCAATGTGCTGATTCAGGACGGTAAGGGCGAATGA	MSEQPVLSVQGLSGGYSINRPVLHDVTFQVEPGEMVGLIGLNGAGKSTTMKHILGLMNPQKGTIQVQGKSRSEHSEAYHSALAFVPESPLLYEEMTVREHLEFTARSYGVSREDYETRSAQLSKMFRMEEKMDSLSTHLSKGMRQKVMIMCAFVARPSLYIIDEPFLGLDPLGIRSLLDFMLELKASGASVLLSSHILSTIENYCDRFIVLHRGSIIAQGTLKEIQDQAGRPGMSLEELFNVLIQDGKGE				NA	NA	NA	NA	NA
AK002_05371	1347	deaD		ATP-dependent RNA helicase DeaD	ATGACTGGAACTACATTTCATACATTAGGAATAGCGGAGGATTTGTCCTCCCGATTGGCGGAGTTCGGCATTGTCACGCCTTCTCCCGTTCAGGCCGAGGCGATTCCTCCCATACTCGAAGGCAAGGACGTGCTGGCGACTTCCCAGACGGGCACGGGAAAGACGCTTGCTTATTTGCTGCCCGTTCTTCAGGGCATCGATCCGGAGATCAAGGGAGCCCAGAAACTGATTCTCGCTCCGACGCAGGAGCTCGCCGTCCAGATTGTGAGAGAGAGCGAGCGCTACGGGGAAGCCCGCGGAATCGGCGTGCTCGGCCTGATCGGCGGTGCCGCGGCCAAGCGTCAGATTGAGAAGCTGCGGCTGCATCCGCAGCTGATCGTCGGAACACCGGGACGCGTGCGGGAACTGATCGAAATCCGGAAGCTGAAAATGCACCAAGTGACCACGATCGTGGTGGACGAAGTGGACCAGGTGTTTAATCTGGGCGGCGCCGGCGATGTGGATCGCATTCTGCGCAGTGCCTTGCGCGACCGTCAATTGGTATTCTTATCCGCAACGGTGAGTCCGGAGACGGCCGAGCTCGTGAAGAAGGAGATGGATCAGCCCGTTGAAATCGGGATCGATCCGGAGCGTCGGACGCCGTCCGCTCTGGAGCATTATTATTTCGTCTCGGAAGAGCGCGACAAGCTGGACATGCTGCGCCGCGTGGTTCGGCATTACAATCCCGACCGTGCGATCGTGTTCGTCAATGCCACCGAGGATTTGGCAGAGGTGGAGGCGAAGCTGAATTACCTTGGATTAAACGCAGCTGCCCTTTACGGGGACGCCGACAAGATGACCCGAAGCCGGGTTTTGAACGCGTTTAGAGAAGGGCGCACCAAGCTTCTGGTGGCTAGCGATGTCGCCGCCCGGGGGCTCGATATCGAAGGTCTCGGCATGGTGATCAATTACGATCCGCCTATTGATGCCGAGCATTACACGCACCGCGCAGGCCGTACGGGACGCATGGGGCGGAGCGGCATGGCGATTACGCTTGTCACGGACCGTCAAACGTTCATCATGCGCAAGTTCAATCGCGAGCTGGGCATATCGATCGAAGAACGCGCCCTGTATGGCGGCAAGGTAAGAACCCCGCGTTCCGCGCCAACCGATCGGGGCCAAGGTCCCCGCGGGTCAGCTGCGGGGGCTGCCCGAAAAGACAAGCCTACCCGAAAGCCCGCTTCCATCAGCGTTAATGGCAAGTCCGGAAACGGCAAGGCATCGGGCGAGCGTCAAAGTGAACGGGAGCGTGACCGCAAGAACAAGGGCGCTCCGAAATGGTTGAAGAATAAGCCTCCACGGGGCTAA	MTGTTFHTLGIAEDLSSRLAEFGIVTPSPVQAEAIPPILEGKDVLATSQTGTGKTLAYLLPVLQGIDPEIKGAQKLILAPTQELAVQIVRESERYGEARGIGVLGLIGGAAAKRQIEKLRLHPQLIVGTPGRVRELIEIRKLKMHQVTTIVVDEVDQVFNLGGAGDVDRILRSALRDRQLVFLSATVSPETAELVKKEMDQPVEIGIDPERRTPSALEHYYFVSEERDKLDMLRRVVRHYNPDRAIVFVNATEDLAEVEAKLNYLGLNAAALYGDADKMTRSRVLNAFREGRTKLLVASDVAARGLDIEGLGMVINYDPPIDAEHYTHRAGRTGRMGRSGMAITLVTDRQTFIMRKFNRELGISIEERALYGGKVRTPRSAPTDRGQGPRGSAAGAARKDKPTRKPASISVNGKSGNGKASGERQSERERDRKNKGAPKWLKNKPPRG				NA	NA	NA	NA	NA
AK002_05372	996	cynR_4		HTH-type transcriptional regulator CynR	ATGTTATACGATTCTTTAGAAAGAATACGGGTAGCGGAGGAATTCGAAGATGAACTCTCGAATTTCAATCCAAGGTTCCTGTTATCATTTGATAAAATCGAGGTCATCATGATGGAAATCAATATGGAGTGGTATCGCGTCTTTTATTGGACTGCGCGGCTCGGCAGTTTATCGAGGGCAGCGGATCATCTGCATATCACCCAGCCAGCCGTCAGCCATACCGTTAAGCATTTGGAGGAAACGATCGGAGGTCCGCTGTTCTTTCGGACCACCAAGGGAGTGAAACTCACGTCCGAGGGCGATGTGCTGTTTCGCTATATCGAGCAAGCCTTCGGTTTGATCGAAATCGGCGAGAAGGCGATCGCGGACATGCATAATTTGCACAGCGGCGAAATCAATATCGGGGCAAGCGATACGCTGTGCAAGTATTACCTGCTGCCGCATTTGGAGTATTTCCACGCCGCCTATCCGGATATTCGCATCCGCATCACCAACCGAACCACCCCGGAAACGCTGTCGCTTCTTAAGGAAGGGAAGATTGATTTTGGCATCGTCCATTTACCGGCTTCCGATAAACAAATCGACTTTCGCTCAAGCTCGCCGATCCATGATTGTTTAGTGGCCGGCAGGTCGTATGCGGAGCGGGCCGGATTACCGCACCCGTTGTCCCTTCACGATATCGGGAACTACCCGCTGCTTATGCTGGAGACCGGCGGAAGCACGAGGAGGTACGTGGATCAATTCGCCGAGCTCCAGGGCGTAAAGCTAAAACCGGAGTTCGAGCTTGGCAGCATCGAGCTGCTGGTACAGTTTGCCCGAAGCGGCTTCGGACTGGCTTTTGTCATTCGCGACTATGCCAACGACGAATTGCAAACAGGCCAGCTGATCGAGGTGCCGCTCGATCCGCCGATTCCCGAGCGCAGCATTGGAATTGCAACGCTTCGAGGCATTCCGCTATCTGCGGCGGCCAAGTCGTTTCTCGCTCTACTGCCCTAG	MLYDSLERIRVAEEFEDELSNFNPRFLLSFDKIEVIMMEINMEWYRVFYWTARLGSLSRAADHLHITQPAVSHTVKHLEETIGGPLFFRTTKGVKLTSEGDVLFRYIEQAFGLIEIGEKAIADMHNLHSGEINIGASDTLCKYYLLPHLEYFHAAYPDIRIRITNRTTPETLSLLKEGKIDFGIVHLPASDKQIDFRSSSPIHDCLVAGRSYAERAGLPHPLSLHDIGNYPLLMLETGGSTRRYVDQFAELQGVKLKPEFELGSIELLVQFARSGFGLAFVIRDYANDELQTGQLIEVPLDPPIPERSIGIATLRGIPLSAAAKSFLALLP	PGPT0001160_882	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-RuBisCo	CO2_FIXATION-RuBisCo_BIOSYNTHESIS_REGULATION,PGPT0001160-cbbR|cmpR|ndhR-K21703	NA	NA
AK002_05373	1281	purA_1	COG0104	Adenylosuccinate synthetase	TTGACAGTCACAGCCATTGTAGGAGCCAATTGGGGAGATGAAGGCAAAGGTAAAATGACGGATGTTCTTGCGGCGCAATCGTCGTATGTCGTTCGATTTCAGGGAGGGAGTAACGCGGGGCACACCATTATCAACGATTACGGGAAATTTTCGCTGCATATGCTGCCATCGGGTGTATTCTATCCAAACGTAACGAATATCATCGGTCCGGGAACGGCTTTGGATATGGAGGTATTGATCGGGGAACTGCAGGAACTGGAAGCCAGAAACGTTCCCGCGCCCAAGCTGTTTATATCCGAGCGCGCTCAGGTCGTGCTTCCCATTCATCGGCTGCTGGATGAACTCGAGGAAGAACGGCTCGGCGCCCGGGGATTCGGTTCCACGAAACGCGGAATCGCGCCCTTCTATGCGGATAAATATGCCAAGCTGGGCATTCAGGTCGCTGATCTGTTACACCCCGAACGACTTCGTGAACGGCTCAAGCAGATGCTTGACATCAAGAATGTGCAGCTGCAGCATCTTTACGGAAGGGACCCGCTGAGCGTTGATGAGATGGTCAAGCAGCTATTGGAGCCTTTCCAGTTCCTATCCTCCTATATCCAGGATACGACCACGCTGCTGCAGCAAGCTTATATGAAAGGCGATCCGATCCTCGTGGAGGGCCAGTTAGGAGCACTGCGCGACCCGGATCACGGGATTTACCCGTTTTCCACCTCCTCCTCCACGCTGGCAGGCTATGCACCGGTCGGGGCAGGACTTCCGCCGTACGCTATCAGCCAAGTCATTGCCGTTGTTAAAGCATACTCAAGCTGCGTCGGCGCAGGCCCCTTCGTGACCGAACTGCATGGAGATGAAGCGGATGAACTCCGCCGCCTTGGCGGCGATGCAGGCGAATACGGAGTTACGACCGGCCGGCCAAGACGAATGGGATGGTTTGATACGGTAGCCACCCGTTACGGCTGCATGATTCAGGGAGCTACCGAAGCCGTTCTCACCAACCTTGACGTACTGGGGTATCTGGATGACATTCCGGTATGCGTCGGCTATGAATTAGAGGATGGAAGCATCATTGACCATTTTCCGGTAACGGCCGATCTGCAGTCCGCAAAGCCTGTCCTGCGAACGCTGAAGGGCTGGAAATGCGACCTGTCGCATATCCGTTCCTTCGACGAGCTCCCGGAAGCCGCGCAGCAATACGTGCAGTTTATTGAATCGTCCATTGGCGTACCCGTCAAGACGATCTCCGTCGGCCCGAGACGGGATCAGATTATGATGAGATAG	MTVTAIVGANWGDEGKGKMTDVLAAQSSYVVRFQGGSNAGHTIINDYGKFSLHMLPSGVFYPNVTNIIGPGTALDMEVLIGELQELEARNVPAPKLFISERAQVVLPIHRLLDELEEERLGARGFGSTKRGIAPFYADKYAKLGIQVADLLHPERLRERLKQMLDIKNVQLQHLYGRDPLSVDEMVKQLLEPFQFLSSYIQDTTTLLQQAYMKGDPILVEGQLGALRDPDHGIYPFSTSSSTLAGYAPVGAGLPPYAISQVIAVVKAYSSCVGAGPFVTELHGDEADELRRLGGDAGEYGVTTGRPRRMGWFDTVATRYGCMIQGATEAVLTNLDVLGYLDDIPVCVGYELEDGSIIDHFPVTADLQSAKPVLRTLKGWKCDLSHIRSFDELPEAAQQYVQFIESSIGVPVKTISVGPRRDQIMMR	PGPT0020140_4749	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
AK002_05374	762			hypothetical protein	ATGACTAAACAACAAAAAATGATGAAGGAAGAACTGGGGTTTGTTTTTATACATGGGGCCGGAATGAACGGAGGCGTGTGGGATATCGTTGCGGAAGGACTGGGCTATCCGTGTCTGAAGGTTGATTACCCGTCGCGGGAAGAGGCTGCAGGGATGCCCGGGCATCATTTGACGCTGGAGGATTATGTAAGCCATATGGCGGAGCAGGTGAGGAGATGGGATACGGACAAGTTCGTCCTTGTGGCGCATTCCCTGGGCGGGGTGTTGGCCATGGAGCTGGCCGCCAGGTTAGCCGAACGGGTAGCCGGATTCGTTGCCATCGGTGCCGCCATACCTAAGCGCGGCGGTTCGTTTGTTTCGGCGCTTCCGTTTCCCCAGAGGATCATCATGCCGGTATTATTAAAAATGGCCGGAACGAAGCCGCCTGAATCCGTGATCCGCAAGGGGCTGTGCAGCGATTTGCCGGAGGAGCAGGCCTCCCGCATCGCAGCAGAGTTCATCCCGGAATCCCGTAGGGTCTATACGGATCGCGTTCAAGCATCCGTACCCCAAGTGCCTAAGCTTTACGTGAAGCTCACCCAAGACAAGGAGTTCGGAGAATCCTTGCAAGAGCGCATGGCAGCCAATCTGTCGGCGGACTGGGTGGAGAGCCTCAGCACCGGTCATCTGCCGATGCTGAGCGATCCCCTTGGTGTCCGGCGCATTCTGGAAGGCTTCGTTGGCCAAGTGAAAGCAAGCCGTGAATCAGCTATCTCATCATAA	MTKQQKMMKEELGFVFIHGAGMNGGVWDIVAEGLGYPCLKVDYPSREEAAGMPGHHLTLEDYVSHMAEQVRRWDTDKFVLVAHSLGGVLAMELAARLAERVAGFVAIGAAIPKRGGSFVSALPFPQRIIMPVLLKMAGTKPPESVIRKGLCSDLPEEQASRIAAEFIPESRRVYTDRVQASVPQVPKLYVKLTQDKEFGESLQERMAANLSADWVESLSTGHLPMLSDPLGVRRILEGFVGQVKASRESAISS				NA	NA	NA	NA	NA
AK002_05375	942			hypothetical protein	ATGCAGAAATCGCAGCGCCTGATTCAATTAATGATGATGATCAATGCAAAAAAGTCGTTTACCGTAAGAGAGCTGGCCGACGAATTCGGACTCTCCGTCCGAACGATATCAAGAGATCTGGATGAGCTGAGCGGGCTCGGCGTCCCCATTTACTCTGTGCAAGGACGAGGCGGCGGCTACAGATTGCTGCAGGAACGTATGCTGCCACCGATCAGTTTCACGGAAAGCGAAGCGATTGCCATCTTTTTTGCCTGCCAATCCCTGAGCTACTTCAGTACGCTGCCCTTTGGTGAAGGAGCCGCCACGGCACTCCATAAGTTCTATCATTACCTGCCGGCAGATATTAAGGAGCAGATCGACCGTCTTAAGGATCGCGTCATGATTCACAGCCCGTTCCGTCCGATGTCGGCCGATATTTTACAAACGTTAATGCAAGCCGTCATGGTCCGGCAAGCGGTCACGATCTCCTATCGTTCTTCCGCCGGAAGCAGCCAGCGGCATATCCAGCCGATCGGGCTGTATGCAAGCTCGGGGTACTGGTATTGTCCCGCCTACTGCTTTACGCAAGAGGACATCAGGCAATTCAGGGTTGACCGGATGACGGCGGCCAGCCCCAATGAATCCTTATCGATCCGTGAAGATATCGCGAGTCAAACGCTGCAGGACATTCCCGGGATCGGGGATGTCGAGATGAAGTTTTTTGAGGTAGAATTAACTTCCAAAGGGGTTTGGCTGCTCGAGACGGATACACGGCTCGGTTCCCATATCCATAGGAACACGGACGGCAGCGGGGTCGTTCGGCTTGAAATACCGGCAACCGACGTCAACTTTTATTCGGACTATGTATGGCGTCTCGGAGAGGAGGCTGTCATCACCTCCCCAGCCGAAGCAGTTCAATGGACCCGGGAGAAAATTGAATCCATGAGGCTAAGGTATACATAA	MQKSQRLIQLMMMINAKKSFTVRELADEFGLSVRTISRDLDELSGLGVPIYSVQGRGGGYRLLQERMLPPISFTESEAIAIFFACQSLSYFSTLPFGEGAATALHKFYHYLPADIKEQIDRLKDRVMIHSPFRPMSADILQTLMQAVMVRQAVTISYRSSAGSSQRHIQPIGLYASSGYWYCPAYCFTQEDIRQFRVDRMTAASPNESLSIREDIASQTLQDIPGIGDVEMKFFEVELTSKGVWLLETDTRLGSHIHRNTDGSGVVRLEIPATDVNFYSDYVWRLGEEAVITSPAEAVQWTREKIESMRLRYT				NA	NA	NA	NA	NA
AK002_05376	834			hypothetical protein	ATGACTTCACAAGTGGATCGCTTAATTGAGCGGATAACGGAAGAGCTTCGCGGGGTACCCGGCGTTACAGGAGTCGTTCTCGGGGGATCCAGGGCCAAAGGAACCGCCAGACCGGATTCCGATATCGATATCGGCATTTATTATGATGAAGCCCAAGGATTCAGGGTGGAGGACATCGCCAAAATCGCGAAGAAATTAGATGACGAGCATCGGGACGGGATTATCACTTCATTGGGCGAATGGGGAGCCTGGGTTAACGGAGGCGGCTGGTTAGTGATCGAGGGGTATCATGTGGATTTCTTATTCCGGGATGTGCACCGCGTGTCCGGCATCATCGACGACTGTTCGGGAGGTAAGGTGTCCGCCCATTACCAAACCGGACATCCGCATGCTTATCTGAATGTCATGTATATGGGGGAAATTGCGATCTGCCGTATATTGTGGGACTCGGATAACCGCATACAGACTCTGAAAGCCAAAACGGCTCCCTATCCGAAGCCACTGCAGGATGCGATGATCGGCTATTTCACTTTCGAGGCATCCTTCTCTTTGATGTTGGCGAGTAAAACGGCTTCCAGCGATGACGTCACGTATGTTACAGGTCACTGCTTCCGCTCCATTTCGTGCTTGAACCAGGTGCTCTTTGCCAAAAATGAAATGTACTGTATCAATGAGAAGCGTGCGGTGGCCATGATCGAGACCTTCTTCCGCAAGCCGGCGAATTACAAGGAACGCCTGGACCAAGTGATCACGCTGCTCTCATCGGATACAGAAAAAACAAAACAAGCCACTGCGCTGCTTCAGGACCTTATAACCGAAACGGAAGCTTTGTAG	MTSQVDRLIERITEELRGVPGVTGVVLGGSRAKGTARPDSDIDIGIYYDEAQGFRVEDIAKIAKKLDDEHRDGIITSLGEWGAWVNGGGWLVIEGYHVDFLFRDVHRVSGIIDDCSGGKVSAHYQTGHPHAYLNVMYMGEIAICRILWDSDNRIQTLKAKTAPYPKPLQDAMIGYFTFEASFSLMLASKTASSDDVTYVTGHCFRSISCLNQVLFAKNEMYCINEKRAVAMIETFFRKPANYKERLDQVITLLSSDTEKTKQATALLQDLITETEAL				NA	NA	NA	NA	NA
AK002_05377	813	hcaB_4		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGGAGGGCTGTGCCGGTGAGGAAAGGGATAATGAAATCATGCTGAATCATAAAGTTGTAGTTGTTACGGGAGCATCCAGCGGAATCGGTGCCTTGATCGCGGAGAAGCTCTCCGCTCAGGGAGCTTACGTTGTTCTGTGCGCCCGTTCGGCCGATCGTCTGCAGGAGGTGGGTGCGCGTTTATCCGGTCCCCACGAGCTGGCAACCATGGATGTTCAGAACTCTGAGCAGGTGTCGTCTGTCATGGAGGCCGTATTTCAGCGGCACGGCAGAATCGATGTGCTGATTAACAACGCCGGATACGGCAAGTTTGAAAGTATTATGGACATGCCGCAGGAAGAGTTTCAGGATATGATGGACGTCAACTATATGGGCATTGTACGCTGTACGCAAGCGGTGCTGCCGTGCATGCTGAAGCAAGGGGACGGCCAAATCGTCAACATTGCATCCATGGCGGGGAAGATCGGAACGGCCAAATCCACCGCCTATTCGGCTACCAAGCATGCCGTGCTAGGGTTCAGCAATTCACTCCGGCAGGAGCTGCGGAACACGGGCATAACCGTATCGACCGTAAATCCCGGACCGATTGATACTCCGTTCTTTTCCTTGGCCGATCCGACCGGCGGGTATGTCAAGAATGTAAGCTGGTTCATGATGAAGGCGGATTATGTTGCGGATCAGGTTGTAAAGCTGGTTCATAAACGCAAGGAAGAACTGAATCTTCCGAGACTGGCCTCCTTTGGCATAAGGCTGTATCAGCTGTTTCCGCGGTTTGCAGACCGTGTGTCTTACAAATGGATGAATAAGAAATGA	MEGCAGEERDNEIMLNHKVVVVTGASSGIGALIAEKLSAQGAYVVLCARSADRLQEVGARLSGPHELATMDVQNSEQVSSVMEAVFQRHGRIDVLINNAGYGKFESIMDMPQEEFQDMMDVNYMGIVRCTQAVLPCMLKQGDGQIVNIASMAGKIGTAKSTAYSATKHAVLGFSNSLRQELRNTGITVSTVNPGPIDTPFFSLADPTGGYVKNVSWFMMKADYVADQVVKLVHKRKEELNLPRLASFGIRLYQLFPRFADRVSYKWMNKK	PGPT0030485_664	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
AK002_05378	459			hypothetical protein	ATGAAAGCGGAAGTCATCAATCCTTTTTTAGAGTCCGCACGACACGTTATCGAACAAGTCATACAGGTTTCACCCTCCACGGGGAATCTTGGGGTCAAAGAGATCGGATATATGGAGAATCATATCTGGATCCAAATCGGCATGACAGGCCAAATGAACGGTGACATTGTATTTGGAATTCAGGAGCAGGTAGCGCTGCAGATGGTATCGGTGATGATGGGCGGCTATGTCATTACCGAAATGGATGAGATGGGGCAAAGCGCGATTTCAGAGCTCGGCAACATGATCAGCGGCAATGCCAGCACCATTTTATCGAACCAGGGCGTCAGCGTGGATATCACACCTCCCAAGGTAATGAAGTCGGATAGCACCTCCAGTCTTATTCAGAAGAAGGCGCTTTGTATTCCGCTTCGAATGGAAGGAATCGGAGAGCTGGATATTCAAGTCATGATTTCATAA	MKAEVINPFLESARHVIEQVIQVSPSTGNLGVKEIGYMENHIWIQIGMTGQMNGDIVFGIQEQVALQMVSVMMGGYVITEMDEMGQSAISELGNMISGNASTILSNQGVSVDITPPKVMKSDSTSSLIQKKALCIPLRMEGIGELDIQVMIS	PGPT0015685_598	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015685-cheX-K03409	NA	NA
AK002_05379	903	cmpR_5		HTH-type transcriptional activator CmpR	ATGAACATCAGCCAATTGGAAACGCTTATTACCATCTCCAAAACGATGAGCTTTCGCAAAGCGGGAGAGCTTCTTAATCTGACACAACCGGCGGTATCCGCCCAGATCAAGAGCTTGGAGGAAGAATTTAAAACGGTGCTGGTGGACCGGAGCCAGCCCGTGACGTTAACGGACCGGGGCCAGGTCTTCGTGGACCATGCCGAGCAGATCCTCGGCATCGTGGATGAGCTGAAGCAGCGGCTGTCGGACCTTGATCAAACCCCCCAGGGTCATATCCAGCTGGGCACAACCACTTCCATAGCGATTCAGATCCTGCCGCGGGTACTTTCCTACTTCCAGGATCAATTCCCTCACATAAAAACAACCATTCAATCCATGGCCTCTTCCCAAATCTACCACAGCGTGGAGAACGGGCTCATCGACATCGGGATCGGCTATCTGATCGAGCGCAATCCCAACTTAAGCACATCCGTTCTGTATTACGATACCTTTGAGCTGGTCGTATCACCCCAGCATCCGCTGGCCAAGCTTTCCACGGCCAACATGGATGTGCTGGCCGGAACCCCCCTTATTCTGCTAACGCGCGACACCGTCGGCCGCCGCTTCGCCGATGAAGTCATGAAGAAGCACGGCGTCGATCCTCAGGTGGTCATGGAACTGTCCAGCAGCGAAGAAATCAAGCGGATGGTCGAGATCAATCTGGGCGCAGCGATCATATCGAAGCAATCCGTCGCGACGGAGCTGCGCAACGGCACCCTGCAGATCGTTCCCCTAAGCGAGCTTGAAGTCAGCCACCCTGTCGGCGTAATCTATAAGAGCGGGCGTTATGTCAGCTCGGCCATGCGCCAATTCCTTAGCGACCTGAAGGGCATGCCCGAGACCCAATTCATCAGCAGTGAATAA	MNISQLETLITISKTMSFRKAGELLNLTQPAVSAQIKSLEEEFKTVLVDRSQPVTLTDRGQVFVDHAEQILGIVDELKQRLSDLDQTPQGHIQLGTTTSIAIQILPRVLSYFQDQFPHIKTTIQSMASSQIYHSVENGLIDIGIGYLIERNPNLSTSVLYYDTFELVVSPQHPLAKLSTANMDVLAGTPLILLTRDTVGRRFADEVMKKHGVDPQVVMELSSSEEIKRMVEINLGAAIISKQSVATELRNGTLQIVPLSELEVSHPVGVIYKSGRYVSSAMRQFLSDLKGMPETQFISSE				NA	NA	NA	NA	NA
AK002_05380	810	hisK_2	COG1387	Histidinol-phosphatase	ATGAAATTCGATCTGCATACCCATCACTTTCGCTGCGGCCACGCCGACGGCAATATCCGGGATTACATCGAGGCTGCGATCGCGGCAGATTTAAAGGTCATCGGGATCTCCGACCATACGCCATACTTCGGAAGCCCGGAAGAGCAGCCCTTCCCGGCCATCTCCATGGCAAAAGCGGACTTTGCGGCATACGTGCAAGAGGTTTTGGACTTAAAACGGGAATATGAGGGGAAAATCAAGGTCCTGCTGGGCATCGAATCCGATTATTTCCCGAACCATGCCCAGGTTTACCAGCAGGCGTTATCGGCCTATCCCTTTGACTACATCATCGGCTCCATCCATCACGTCAGGGATGTCAGCATCTTCAACAAGAACCGCTGGAAGAAGCTGACGCCTCAGCAGCAGGTTGCGGATAAAGAGGAATACTTCAATCTGATCCGCCAATCCGCCAGAAGCGGAATGTTCCAGATCATTGCCCATATGGATGCGATGAAGGGCAATTATCCGCTGTTCTCCGAGATCAAAGCCGATGAAGCGATCGAGGAAACGCTGAAAGTCATTGCGGAATCGGGCCTCGCCATCGAAATCAACACGTCCGGCAAAACCAAGCTGTGCGGCGGCTGGTATCCGTCGAACGCCATATTGGAAGTAGCTCACCATCACGGCGTCGAGGTCACCTTCGGCTCCGATGCCCACAAACCGTCCCGGGTCGGAGACGAATTTGACGAAGTGGCCAAGGTGCTTAAGGAAATCGGATACACGGAATGGGTCTATTTCGAACAAAAACAGAAGGTGCCCGTACCTCTTTAA	MKFDLHTHHFRCGHADGNIRDYIEAAIAADLKVIGISDHTPYFGSPEEQPFPAISMAKADFAAYVQEVLDLKREYEGKIKVLLGIESDYFPNHAQVYQQALSAYPFDYIIGSIHHVRDVSIFNKNRWKKLTPQQQVADKEEYFNLIRQSARSGMFQIIAHMDAMKGNYPLFSEIKADEAIEETLKVIAESGLAIEINTSGKTKLCGGWYPSNAILEVAHHHGVEVTFGSDAHKPSRVGDEFDEVAKVLKEIGYTEWVYFEQKQKVPVPL				NA	NA	NA	NA	NA
AK002_05381	909	lpxG	COG1408	UDP-2,3-diacylglucosamine pyrophosphatase LpxG	ATGAGAAATCTATCTTCGGAGATGCCCCAGGGTACAGCCGGCGGGGAGGCGAAGCGAGATCTTAAACAGAAGAGGATGTCGCGCCGCCGATTTCTGAAGATCGGCGTTTCCGTCTTGGCCGGAGCTGGCCTTGCGGGCGGAGCTTATGCGTCGTTATGGGAGCCTCGTCAATTGGATATTACGAGACACACGCTAACGTTTCCTTCGCTGCCCAAGGCTTTTGATGGCATGAAGATCGTCCAGTTTAGCGATTTACACCTGGGCTTTCATGCAGGGGCGGACAACGCGGCCCGTGTGGTGCAAGCCATTCATCATGAAAAACCGGACATGATCTGTTTTACGGGAGATATGGTGGACGGCAATGCGGAAGATATGAGGGCTGCGATACAACCGCTCGCTCAGCTGAAAGCCCCGCTAGGCTTATTCTCTATATTAGGCAACCATGATTACGGGGACGTTCAGAAATTGATTGCTCTGGAGGAGGAGGCCGGGTTTCAAGTGCTGCGAAACGACGCCGTGAAGCTGAGGCGGGAGGGTGCCGTCTTCGCCGTTGCGGGTTTGGACGATGGCATCTGGGGAACGCCGGATCCGGAAGCCGCCATTCGGGATCTGCCCGAAGGCATGTTCAAGCTGCTGCTGATGCACGAGCCGGATTATGCAGATACTGCGGCAGCCTATCCCTTTCATCTTCAGCTATCCGGACACAGCCACGGAGGACAGATCCGCCTGCCTTGGATGGGCGAGGTGATCACGCCGCCTGGAGCCAAACGTTACGTGCAGGGCCTGTACACTATAGGTTCCCGAAGCATGCAGCTCTATGTAAACAGGGGAATCGGCACGACGCATCTGCCTTTTCGTTTTCTATGCAAGCCGGAGCTTACCGTGCTTACATTGCGGTCCATGGTTTAA	MRNLSSEMPQGTAGGEAKRDLKQKRMSRRRFLKIGVSVLAGAGLAGGAYASLWEPRQLDITRHTLTFPSLPKAFDGMKIVQFSDLHLGFHAGADNAARVVQAIHHEKPDMICFTGDMVDGNAEDMRAAIQPLAQLKAPLGLFSILGNHDYGDVQKLIALEEEAGFQVLRNDAVKLRREGAVFAVAGLDDGIWGTPDPEAAIRDLPEGMFKLLLMHEPDYADTAAAYPFHLQLSGHSHGGQIRLPWMGEVITPPGAKRYVQGLYTIGSRSMQLYVNRGIGTTHLPFRFLCKPELTVLTLRSMV	PGPT0022365_2755	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK002_05382	1380	aldH1	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	ATGACTGTTAACGATTCGATCGCAGCCATAGTTTCGGCACAGCGGCATTTTTTTCATAAAGACATTACCAAGGAAGTGGATTTCCGTCTCCAGCAGCTGACCAAGCTGCGCCAAATCCTGATTGCCAGAGAGAACGATATCATGGAGGCGCTGCGCAAGGACCTGAACAAGAGTGAACAGGAAGCCTTCACGACCGAGATCGGAATCGTCTACAAGGAGCTCTCCTTTATCATAAAGAATTTGAAGCGCTGGGCCAAGCCGCACCGCGTCAAAACCGCGCTGACGCATGTGGGCAGCAAGGGAATGGTCTACCCGGAGCCCTATGGGACGGTTCTGATTATCGCTCCCTGGAATTATCCTTGGCAGCTGGCCATCTCCCCGCTGATCGGTGCCTTGGCCGCCGGGAACACGGCCATTGTGAAGCCCTCCGAACTGACGCCTAACGTATCCGGACTCATTACGGCCATCACGAAGGAGACGTTTGAGCCGGAATACGTGGTTTCTGTAGAGGGAGGACCCGAGGTTAGCACGAGCCTGCTGGAGCAGCCTTTGGATTATGTCTTTTTTACCGGCAGCACCCACGTCGGCAAAATCGTCATGGAAGCCGCCGCCAAGCAATTGACACCGGTAACGCTGGAGCTCGGGGGCAAGAGCCCTTGCATCGTCCACGAGGATGCGCCCCTTGCCCTGGCGGCTTCGCGTATCGCATTCGGCAAGTTTACGAATGCAGGCCAAACGTGCGTCGCTCCCGATTATGTGCTTGTGCACAGCAAGGTGAAGGAGAAGTTCATCGCGCACCTGAAAGACGCCATCACTTCATTCTACGGCGAGACCCCGCTAACCAATCCCGATTATGGGCGCATCGTTTCGGAGAAGCATTTTGACCGGCTTTCCAAGTTTCTGGACAACGGAACCCTGCGCCACGGCGGGGGCACGTCACGGGAAAAGCTGCTCATCGAGCCCGCCGTGCTTGACGATATCACCTGGGATATGCCGATCATGGAGGAAGAAATCTTCGGTCCGCTGTGTCCGATCCTGACTTATGAGGATCTGCACGAGGCGGTCCAAGCGATTCAAGCCCGTCCTAAGCCGCTCGCGCTTTACCTGTTTACCGAGAATGAAGATGTGCAGGATTACGTGCTCTCCTCGGTTTCTTTTGGCGGGGGATGCGTCAACGACACGCTGATGCACCTGGCAACCCCCTTCCTTCCGTTCGGAGGCGTCGGCGAGAGCGGGATCGGCTCGTATCACGGGGAATACAGCTTTCACACGTTCTCCCATAGAAAAAGCGTGCTTAAGCAAACCAACCGGTTTGATTTTAAATTCCGTTATCCTTCCAAGAACGGGCTGGGCATTTTAAAAAAGCTGATGAAGCCTTAG	MTVNDSIAAIVSAQRHFFHKDITKEVDFRLQQLTKLRQILIARENDIMEALRKDLNKSEQEAFTTEIGIVYKELSFIIKNLKRWAKPHRVKTALTHVGSKGMVYPEPYGTVLIIAPWNYPWQLAISPLIGALAAGNTAIVKPSELTPNVSGLITAITKETFEPEYVVSVEGGPEVSTSLLEQPLDYVFFTGSTHVGKIVMEAAAKQLTPVTLELGGKSPCIVHEDAPLALAASRIAFGKFTNAGQTCVAPDYVLVHSKVKEKFIAHLKDAITSFYGETPLTNPDYGRIVSEKHFDRLSKFLDNGTLRHGGGTSREKLLIEPAVLDDITWDMPIMEEEIFGPLCPILTYEDLHEAVQAIQARPKPLALYLFTENEDVQDYVLSSVSFGGGCVNDTLMHLATPFLPFGGVGESGIGSYHGEYSFHTFSHRKSVLKQTNRFDFKFRYPSKNGLGILKKLMKP	PGPT0006875_9469	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK002_05383	687			hypothetical protein	ATGTCTTGGTGGATGTGGCTGCTCAATTTGGCAGGCTTGCTGTTGTTGATCTATCTGTTTTACAGCATGGACAAGAAGTGGTCCAGCAGGCCTTTGCTGCTGGCGCCGCTGCTCATTTATATCCTGATATCGGTCGAGGATCTGCTCGGCTGGATTGATCTCATGCATGTCGTACCCGGAGAAGGCGGCATGCGGGCCCTGATTCTGCTGTTTTCATTATGCTCCGTTATTTTCTATGTGCTGTATATCTTCGATAAGATTGCAGACTCTGTCCATCAGCATGTCGATATGAAAACGACCCTGGTTCGGATCAGCATGGCGGCGGGGATGTGCATTCTATTTTTCACGGTGGTGTATATGTCGATCTATAAGCTGTTCGGGGGCGTTTCCTTCGAAGGCGAGAACCTCGGTCAGGATTTGCTGAGCCAGTTCATTACCTTCCTGTATTTCAGCATGGCGACGTTTGTCACGGTCGGGTATGGCGATGTAGCCCCTGTCGATAATACGTCCCGGCTTGTCGTGGTGCTGGAGATTGCATTCAGCTTCGTTACCGTTGCTTATGCGCTGTCCATGCTGGGGACGCTGCGCCGGATCTTTAAGCCCGGCGACGACGGACTGGAGACGGAGGGCGGCGAAGTGAAGACAAAGGGCAATATGCCGCATCGCAGAAAACATTCATCCAAGTGA	MSWWMWLLNLAGLLLLIYLFYSMDKKWSSRPLLLAPLLIYILISVEDLLGWIDLMHVVPGEGGMRALILLFSLCSVIFYVLYIFDKIADSVHQHVDMKTTLVRISMAAGMCILFFTVVYMSIYKLFGGVSFEGENLGQDLLSQFITFLYFSMATFVTVGYGDVAPVDNTSRLVVVLEIAFSFVTVAYALSMLGTLRRIFKPGDDGLETEGGEVKTKGNMPHRRKHSSK	PGPT0002715_4832	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK002_05384	801	yokD_2	COG2746	SPbeta prophage-derived aminoglycoside N(3')-acetyltransferase-like protein YokD	TTGATCATAGAAAGACCGATTACGACAAAGGATATTAGCGATGATTTGGCCGCTCTGGGCGTACGGAAGGGCATGACCTTGCTGGTCCATTCCTCGCTCAGGAGTGTGGGCGGGTGGATCGTCGGCGGTCCGGAGGCCGTCATACTGGCACTCGAAGACGTGCTGGGGGAAGAAGGGACGCTGGTGATGCCGACGCAATCCGCGAACTTAACCGATCCAAAGACATGGGGAAATCCGCCGGCCGATCCAAAATGGTGGAATCTGATCCGCGAGGGCATGCCGCCGTATGATCCGGATCTGACGGTCACTTCGGGAATGGGGATCATTCCGGAAGCGTTCCGTAAACAAGAAGGGGTTATCCGAAGCGCTCATCCGCATGTTTCGTTTGCGGCACGCGGCAGGGATGCCAGAGTCCTTATGCAATCCCATCCGCTGGATCATAGCTTAGGCGAAGCGTCTCCACTGGCACGCTTATATGATGCGGGCGCGTACGTGCTTATGCTGGGCAGTGGTTATGGCAACAATACGTCGTTCCACCTCAGCGAATACCGCGCCAATTGGAAGGGCAAGGAGGCGGTTACCGCTCATGCGCCAGTCCGCAGGGTACAGGGAGTAACGGAGTGGCAGGCGTTTCAGGATATCAACTATCATTCGGACGACTTCGAGGCATTAGGGGCTTCGTTCGAAGCGCAGTGCCCCGATGCGTATATCCATGGACGCGTAGGAAAGGCGGACTGCATACTGGCTGAACAGCGGGCCATGGTGGATTATGCCGTGTCGTGGATGGAGAAGAACCGTTAA	MIIERPITTKDISDDLAALGVRKGMTLLVHSSLRSVGGWIVGGPEAVILALEDVLGEEGTLVMPTQSANLTDPKTWGNPPADPKWWNLIREGMPPYDPDLTVTSGMGIIPEAFRKQEGVIRSAHPHVSFAARGRDARVLMQSHPLDHSLGEASPLARLYDAGAYVLMLGSGYGNNTSFHLSEYRANWKGKEAVTAHAPVRRVQGVTEWQAFQDINYHSDDFEALGASFEAQCPDAYIHGRVGKADCILAEQRAMVDYAVSWMEKNR	PGPT0028625_420	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028625-aacC-K00662	NA	NA
AK002_05385	765	frdB	COG0479	Fumarate reductase iron-sulfur subunit	ATGTCTCAAACGGCAGCTGCCTCAAAGAGCGTTAAATTTATCATTACACGTCAGGACAATCCGGAGACGAAGTCCTATACCGAGGAATTCGAAATTCCTTACCGTCCCGGCATGAACGTCATTAGTGCGCTGATGGAAATTCAGCGCAATCCCAAAAATGCGCAGGGCCAAACCACCGCACCCGTATGCTGGGACTCCAACTGCCTGGAAGAAGTGTGCGGAGCTTGCTCCATGGTCATTAACGGGAAGCCGCGCCAAGCATGCGCGGCCTTGATCGATAAGCTGGAGCAGCCGATTCGGATTCAGCCGATGAAGACGTTCCCGGTCGTGAGAGACTTGGTGATCGACCGCAGCCGCATGTTCACGGCTCTCAAGCGCGTGAAAGCGTGGATTCCGATCGATGGCACCTATGACCTTGGTCCTGGCCCCAAAATGGCGGAGAAGAAGCGTCAGTGGGCTTACGAGCTGTCCAAGTGCATGACCTGCGGCGTATGCCTGGAGGCTTGCCCGAACGTCAACGAAAAAACGGACTTTATCGGACCGGCCGCGATCTCCCAGGTTCGCTTGTTCAATGCTCACCCGACAGGCGAGATGAACAAGGAGGAGCGTTTGGAAGCGCTGATGCAGGACGGAGGCATCGAGGGCTGCGGTAACTCGCAGAACTGCGTGCGTTCTTGTCCGAAGGGCATTCCGCTGACAACGTCCATTGCGGAGATGAACAAGGATACGACCAAACAGCTGTTTAAGCGCTGGCTTAGCGTTTAA	MSQTAAASKSVKFIITRQDNPETKSYTEEFEIPYRPGMNVISALMEIQRNPKNAQGQTTAPVCWDSNCLEEVCGACSMVINGKPRQACAALIDKLEQPIRIQPMKTFPVVRDLVIDRSRMFTALKRVKAWIPIDGTYDLGPGPKMAEKKRQWAYELSKCMTCGVCLEACPNVNEKTDFIGPAAISQVRLFNAHPTGEMNKEERLEALMQDGGIEGCGNSQNCVRSCPKGIPLTTSIAEMNKDTTKQLFKRWLSV	PGPT0001600_1893	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
AK002_05386	1743	frdA		Fumarate reductase flavoprotein subunit	ATGGCATCTAATATTATCGTAGTGGGCGGCGGCCTCGCCGGGCTGATGGCAACCATCAAAGCGGCGGAAGCAGGCGCTCACGTTCATCTATTCTCGCTTGTACCCGTTAAACGCTCTCACTCCGTGTGCGCGCAAGGCGGCATCAATGGAGCCGTAAATACGAAAGGTGAAGGTGACTCTCCTTGGGAGCATTTTGACGATACCGTATACGGCGGCGACTTCCTTGCGAATCAGCCTCCGGTCAAAGCGATGTGCGAAGCGGCGCCGGGCATCATCCACTTGATGGACCGCATGGGCGTTATGTTTAACCGCACGCCGGAAGGCCTGCTCGATTTCCGCCGCTTCGGCGGAACGAAGCGCCACCGTACCGCGTTTGCCGGCGCGACCACCGGCCAACAGCTGCTGTACGCGCTTGACGAGCAGGTTCGCCGCTGGGAAACTGCGGGGCTTGTGACCAAATACGAGAACTGGGAGTTCCTGAATGCGATCATCGACGACGAAGGCGTATGCCGCGGCATTGCCGCCCAGGATCTGCGCTCCATGGAGATCAAGTCGTTCAAGGCTGAAGCCGTCATTCTCGCCAGCGGCGGTCCCGGCATTATTTTCGGAAAAACAACCAACTCGGTTATCAATACGGGAACAGCGGCTAGTGCCGTGTATCAGCAAGGCGTTCATTATGCGAACGGCGAGTTCATCCAGATTCACCCGACGGCCATTCCGGGCGACGACAAGCTCCGCTTGATGTCCGAGTCGGCACGCGGCGAAGGCGGACGGATCTGGACCTATAAAGACGGCAAGCCCTGGTATTTCCTCGAAGAGAAATACCCTGCTTACGGAAACCTGGTGCCGCGCGATATCGCTACGCGCGAAATCTTCTCCGTCTGCGTTGATATGGGACTCGGCATCAACGGCGAGAACATGGTCTACCTGGACCTCTCCCATAAGGATCCGAAAGAGCTGGACGTCAAGCTCGGCGGCATCATCGAAATCTATGAGAAATTCATGGGCGACGATCCGCGCAAAATCCCGATGAAAATCTTCCCGGCAGTCCATTACTCCATGGGCGGCATGTGGGTCGATTACAACCAAATGACCAACATTCCAGGGCTGTTCGCAGCCGGCGAATGCGAGTATCAATATCACGGCGCGAACCGTTTGGGAGCCAACTCCCTGGTATCCGCCATTTACGGCGGCATGGTGGCCGGACCGAAAGCGATCGAATATGTCAAAGGCCTGAAGAAATCCGCAGAGGATGTATCCTCCACGGTATTTGACCGCGCAGCGAAAGAGCAAACCACCAAGTACGAAGGCCTGCTCAAGATGGAAGGAACCGAGAATGCTTATGTGATCCATAAAGAGCTCGGTGAATGGATGACCAACAACATGACGGTTGTTCGTTATAATGACAAGCTTGAAGCAACCATCGGCAAAATCAAGGAATTGAAGCAGCGTTACCGCAATATCAATATGACGGATACCTCCCGCTGGAACAACCAGGGCGTGGCGTTCACGCGTCAGCTGTGGAACATGCTGGAGCTGTCCGAGGCCATGACGCTGGGTGCGCTTCTCCGGAACGAAAGCCGGGGCGCTCACTACAAGCCGGAATTCCCGGATCGTAACGATGAAGACTTCCTCAAGACAACCAAAGCAACTTGGACGCCGGATGGACCACAGATTTCATATGAAGAAGTGGATGTTTCCTTAATCCCGCCGCGGATTCGCGACTATTCGAAAGACAAGTAA	MASNIIVVGGGLAGLMATIKAAEAGAHVHLFSLVPVKRSHSVCAQGGINGAVNTKGEGDSPWEHFDDTVYGGDFLANQPPVKAMCEAAPGIIHLMDRMGVMFNRTPEGLLDFRRFGGTKRHRTAFAGATTGQQLLYALDEQVRRWETAGLVTKYENWEFLNAIIDDEGVCRGIAAQDLRSMEIKSFKAEAVILASGGPGIIFGKTTNSVINTGTAASAVYQQGVHYANGEFIQIHPTAIPGDDKLRLMSESARGEGGRIWTYKDGKPWYFLEEKYPAYGNLVPRDIATREIFSVCVDMGLGINGENMVYLDLSHKDPKELDVKLGGIIEIYEKFMGDDPRKIPMKIFPAVHYSMGGMWVDYNQMTNIPGLFAAGECEYQYHGANRLGANSLVSAIYGGMVAGPKAIEYVKGLKKSAEDVSSTVFDRAAKEQTTKYEGLLKMEGTENAYVIHKELGEWMTNNMTVVRYNDKLEATIGKIKELKQRYRNINMTDTSRWNNQGVAFTRQLWNMLELSEAMTLGALLRNESRGAHYKPEFPDRNDEDFLKTTKATWTPDGPQISYEEVDVSLIPPRIRDYSKDK	PGPT0001605_4148	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
AK002_05387	669	sdhC	COG2009	Succinate dehydrogenase cytochrome b558 subunit	ATGAAAGGGTATTATTCCAGAAAGCTGCATTCTTTGCTCGGTGTCATACCGCTTGGGGCATTTTTGCTCAGCCATATGATTTCCAACTTTAAGGCTTTCGAGGGTGGAAAGGAAGGCTTCGCGAGCGCGGTCCATTTTTTGAACAGCATGCCGCTGATTTTTTTCCTCGAGCTGTTCCTGATCTGGCTGCCATTGCTATATCACGGCGTCTACGGGTTATACATCGCTTACCAGGCGAATAACAACGTGGGCAACTACAACTATGAACGGAACATCCGCTTCACCATCCAACGGATCACCGGCGTTATTACGTTCGTTTTTGTCATCTGGCATATGTACGATACGCGCTTCCAAATCATGATCGGCAAAATCACGCATGACGATTTGGGCGCCACGATGCACGGCATCATGAACAATCCGGTTCTGTTTATTCTGTACGTCATCGGCGTTGTTTCCGCTACCTTCCACTTCGCTAACGGCCTGTGGGCGTTCCTCGTCAGCTGGGGCATCACCGTCGGTCCGCGCGCGCAGAAGGTATCCACTTACATCTGCATGGGCTTGTTCGTATTGATGAGCGTGCTGTTCGTTCTTGCCATGACAGCATTCCGCGGTTCCGAATTCCAGGCGGCGACGGCAGCGATCGATGTAGTTAAGACAGTCTTAAGTTAA	MKGYYSRKLHSLLGVIPLGAFLLSHMISNFKAFEGGKEGFASAVHFLNSMPLIFFLELFLIWLPLLYHGVYGLYIAYQANNNVGNYNYERNIRFTIQRITGVITFVFVIWHMYDTRFQIMIGKITHDDLGATMHGIMNNPVLFILYVIGVVSATFHFANGLWAFLVSWGITVGPRAQKVSTYICMGLFVLMSVLFVLAMTAFRGSEFQAATAAIDVVKTVLS	PGPT0001595_992	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
AK002_05388	918	cynR_5		HTH-type transcriptional regulator CynR	ATGTTCGAAGAACTGGACGTGTTCGCCGTCGTCGTGGAGCAATCCAGCATCAATCAAGCCTCCAAGCTGCTCAACTTGTCACAGCCGGCCCTGTCCCGAAAAATAGCCAAGCTGGAGGACCAGCTCGGGCTGCAGCTGTTCAACCGCCGCGGCAAAAGGCTGGAGCTTACCTCCATCGGGCAGATTGTGTATACCTTCGCCCTGGAGCAGCGCCAGCAGCAGATCAAATTCTTGCAGACCTTGGCCCATTACCGGGAAGGGGACCAAATCTCGATTAACCTGGGCGCCAGTCTGACCACGCTGCAGACCACCCTGCCCCCGCTGGTCAATGCCTTCATGGAGCGTCATCCGTCAGCCGAAATCAAGCTCATCACCGGCAAGACCCATGAAATCGTGTCTTATGTAAGAGATAAACGGGTGGATGTCGGCATTGTTGCTTCATCCATCAATCAGCCGGGCTTGAACTGCATCCCGCTGTTCGATGACCATCTGGAGCTTGTCATCCCGTCTTCACATCCGCTGGCGGAAATCGAGGATGTGGGCATCGAACAGCTTCAAGGCCTGCCGATGATCATATTTTCGACCGGAACCTGGTACCGCAAGCTGACGGACGATCTGTTTCACCGCTGGGGCATCATGCCCGATATCCGGATGGAGATCGACTCCTTCGAAGCGATCGTCAGGCTGATCCCGACCTGCAAGGCGGCCGCGCTGCTGCCCAAATCCTATCTGAGGCCGCAGCTGCTGTCCGATAACGGGCTCGTCGACATTCATATTCCGGCACTCATCGAAACCCGGCGAACGACTTCGCTGATCTACGGACAAGCCTCGGAGCTGAGCAAGGCGGCCAGCCGCTGGATCGAAGAAACGGAGATCCTGTTCCGCAAGCTGGAGGAAAATAAATCGAAAAAAAACTGA	MFEELDVFAVVVEQSSINQASKLLNLSQPALSRKIAKLEDQLGLQLFNRRGKRLELTSIGQIVYTFALEQRQQQIKFLQTLAHYREGDQISINLGASLTTLQTTLPPLVNAFMERHPSAEIKLITGKTHEIVSYVRDKRVDVGIVASSINQPGLNCIPLFDDHLELVIPSSHPLAEIEDVGIEQLQGLPMIIFSTGTWYRKLTDDLFHRWGIMPDIRMEIDSFEAIVRLIPTCKAAALLPKSYLRPQLLSDNGLVDIHIPALIETRRTTSLIYGQASELSKAASRWIEETEILFRKLEENKSKKN				NA	NA	NA	NA	NA
AK002_05389	675	ktrA_1	COG0569	Ktr system potassium uptake protein A	ATGAAACCAAAGCAATTTGCAATCATCGGTTTGGGGCGATTTGGCGCCAGTCTGGCGCTGGAGCTGATGGAACAGGGATATGAGGTGCTCGGCATCGACCGGAACGAAGAGGTCGTCGAGGACATGAGCGAGCTGCTGACGCATACGGTGGTGGCGGACGCGACGGATGAGGAAGTGCTTAAATCGCTCGGCATCCGCAACTTCGACTGCGGGATCGTTGCGATCGGGAACGACATTCAGATGAGCATCCTCTCCGCCATCCTGTTGAAAGAGCTGGGTGTCGCGATGGTCGTTGCCAAGGCGATTTCGGTGCTGCACGGCCGGGCGCTGGAGAAGCTTGGCGTGGACCGGGTCATCTTTCCCGAGCGGGATATGGGGATCCGGGTAGCGCACCAGCTCGTGACGCCGAACCTGCTTGATTATATCGAATTATCCAAGGATTATCTGATTGTGGAGATGACGGTCACGGACTGCATGGACGGGAAAACGCTGAGCGAGCTTAATACGAGGGTCCGGTACGGCGTCAGCGTGGTGGCGCTGAATAAACAGTCCGGCATTATCGTTGCTCCGACGGCCATGGACGTCGTGAACTCCGGCGACATTATGGTCGTCATCGGCTCCAATGACAACGTGGACCGCTTTGAGTCCGAAGTCGTGAATATGCTCGAAAAATAA	MKPKQFAIIGLGRFGASLALELMEQGYEVLGIDRNEEVVEDMSELLTHTVVADATDEEVLKSLGIRNFDCGIVAIGNDIQMSILSAILLKELGVAMVVAKAISVLHGRALEKLGVDRVIFPERDMGIRVAHQLVTPNLLDYIELSKDYLIVEMTVTDCMDGKTLSELNTRVRYGVSVVALNKQSGIIVAPTAMDVVNSGDIMVVIGSNDNVDRFESEVVNMLEK	PGPT0002710_3128	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
AK002_05390	1341	ktrB_2	COG0168	Ktr system potassium uptake protein B	TTGAACGCTAAATTAAACTGGCTTACATTGTCTCCGCCCCAAATTCTCGTGCTTGGTTTTGCGGCCATCATCTTCATCGGGACCGGGCTGTTAATGCTGCCAATCTCGACGACGACGGGCGAACCGCTTGGATTTACTGACGCCTTGTTCACTTCCACCTCGGCAACGTGCGTAACGGGCCTGGTCGTGGTGGATACGGGAACGACATTCAGTTCCTTCGGAGAAGTCGTGATCATGCTGCTGATTCAAATCGGCGGGCTCGGATTCATGACGATGGCTACTTTATTCGCCTTGGTTCTGAAGAGACGCATATCGCTCAAAGACCGTCTAATCTTGCAGGAAGCGATGAATCAGTCCTCGATGGAAGGCATCGTAAGGCTGATACGCAGAGTACTGCTGTACTCGCTCGTCATCGAGGCCTGCGGCGCAGTCCTTTTATCGGTTCGTTGGGCGTTTGATATGCCGCTGGGCCGGGCGATATATTACGGAGTTTTTCATGCGGTGACGATGTTTAACAACGCCGGCTTCGATTTGTTTGGCGATTTTCGGAGTTTGACCGGGTATGTATACGATCCGGTAGTCAACTTCGTCGTGATGTTCTTGATTGTTTCCGGGGGCATTGGATTTATTGTGCTCTCCGATCTGATCGATTACCGAAAACAGCGGAGGCTCTCCCTGCACTCCAAGGTGGTGCTCACGATGACGGCTGCCTTGCTTGCGGTCGGATTTATCGTCATTCTCATATTTGAATTTACCAACCCGAGAACGCTGGGTTCCCTGAACTGGGGCGGGAAATTCTTCGGCGCGTTATTCCAATCCGTAACGCCGCGTACGGCGGGCGCGAATACTATAGATATTACGGGGCTCAGACAGGCAACGCAATTTTTTATCGTCATCCTGATGTTTATCGGAGCATCTCCAGGGTCAACCGGCGGCGGCATCAAAACCACGACCTTTACCATTATGGTAGGGGCGGTCATTGCGATGATGCGCGGGCGGGAAGACATCGTCATGTTCCGTTATCGCCTGGCCCAGGAGCGGGTGCTGAAGGCACTGACCATTGCCTTGCTGGCCCTGCTGCTCGTTCTAACCGTCTCGATGATTCTGTCGACGACAGAGGAAGGGGACTTCCTGGAGATTCTATTCGAAACGACATCCGCCTTCGGTACGGTAGGTCTCTCCATGGGCTTAACGCCCGATTTGACCGTGTTCGGCAAGATCCTGATCAGCCTTACGATGTTTGCGGGTCGATTGGGGCCTTTGACGCTTGCTTATGCACTAGGGCCGAAAAAGGGTAAAGAATTATATCGTCATCCGGAAGGCAAAATGATAATTGGATAA	MNAKLNWLTLSPPQILVLGFAAIIFIGTGLLMLPISTTTGEPLGFTDALFTSTSATCVTGLVVVDTGTTFSSFGEVVIMLLIQIGGLGFMTMATLFALVLKRRISLKDRLILQEAMNQSSMEGIVRLIRRVLLYSLVIEACGAVLLSVRWAFDMPLGRAIYYGVFHAVTMFNNAGFDLFGDFRSLTGYVYDPVVNFVVMFLIVSGGIGFIVLSDLIDYRKQRRLSLHSKVVLTMTAALLAVGFIVILIFEFTNPRTLGSLNWGGKFFGALFQSVTPRTAGANTIDITGLRQATQFFIVILMFIGASPGSTGGGIKTTTFTIMVGAVIAMMRGREDIVMFRYRLAQERVLKALTIALLALLLVLTVSMILSTTEEGDFLEILFETTSAFGTVGLSMGLTPDLTVFGKILISLTMFAGRLGPLTLAYALGPKKGKELYRHPEGKMIIG	PGPT0002735_4543	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
AK002_05392	1689			hypothetical protein	ATGAATCGTGCAAGAGAGCCCTTGAAGCTGAAGCCCAATCTGAAGCAGCTCATCGCGCCTGCCGCAGTCGGCCTGATTCTGTTCCTATTATTTCAGGTATTTCCGTGGGCGAATCCGGACGATACCGAGATGGCCTCGCCGGATATCATTTCCAAGGAGCAGGCTCGGCAGGCAGCTTCAAGGTTTGCTCAGGAGCATCTGCAGTTTGCGGCTGCGGACACGGACGAAGCCTTGGTTACATATCAATCCAAATCGGAACTTTACGGATATCTGGCGAAGGAGAAGAGACTTTCGGAATATAACAAAACCTATGAAGCCAAATATCCCTATGACGTATACCGCGTTCGCTTCAGCGAGCCTGGAGGCGATGCCCTCAATGTGGACGTGCACATGCAGAATTCCGGCATCGTCGGATTCTCGTATGATTATGCCCGCTCCAGCTTTGACCGGATCGAGCTGAACAAGGGCGAAATTCAGAGACAGATGCTGCTCGTCGTTGAGGATGGCATGACATTGGCCGAGAAGCAGGCGCTGGCCGAGCCATGGCTTCAGCGGGCGGGTTATGACCTGTCGAATCTGGAGCTGGTTACGAAGGAAGGGGAGCCCCGTCTCAAATATGTGGACCCTGAATCCAGGATCGGGGACTCCAGGCTGGAGCACCGCTTCACCTTCGAGCAGGGGAAATTGCGCTCTTATGAGCCCTCCTTCTCGGTCCCGGCCGCCCACTCCGCTTATGTCAACAAGCAGACGCAGGATGCCACCCTGCTGACGCTCGCCGGGTACGGCCTGTTCACCCTAATCCTGGGCATTCTTGCGATTGTGTACAGCGTAAAGACCAGGGCCTACACCTCGTTTAAGCGCGGCCTGTTCTTATCGGCGCTGCTGTTCGTCATTCAGATGCTGAACACGTACAATCTGATTCCCGTTTTCAAATCCGAAGGCATGTCGCAAACCGGCGTGCTCGGGATGATGATTTTCTATGCCGTCTATTCGCTCGTTTTCTCCGCCCTGCTCTATTTCTCCCTTGTCGGCGGCAGCGGGCTGTGGCATAAAGAAGACGGGCTCAATCCATGGCCGCGCGCCAAAGAACCCGGATACGGGCACTACGTGCTGGACAGCATGAAGCTGGGGTATATGTGGGCCTTCATCCTGCTTGGCGTCCAATCCGTCATCTTTATCGGTCTTGGCCTGACCCTGAATACATGGTCCACCACGGATGCGACGCAGTCGCCTTACAACATGCTGTATCCTTGGCTGTTTCCATTGATGGCCTGGCTGGCCGGCATATCCGAGGAGGCCGTGTACCGGCTGTTCGGCATCAAGATGGTGAAAAAGATCGTCCGCAATACCTTTGTCGCAAGCTTGATCACCTCGCTCATCTGGGCGCTGGGACATACGCTCTATCCGATATACCCCGTGATCTCCCGGCCGATTGAGCTGGTCATCATCGGTTTGCTGTTCAGCTACATCTTTTTGAAATACGGGTATTTGGCGGCCATGTTCTCCCATGTCATCTTCAACAGCATCCTGATGGGCATCAGCCTGATCATGCTCAAGGATGCCGCCAACCTGCTGACGGGCGCTTTTTACATGGTGCTTCCGGCGATTGTAGCCTATGCGATTTACCGTTTCAACCCGACAAAAAAAGAGAAGCCGTATGTCACGACTCCTCCTCACGAAGTGCATTAA	MNRAREPLKLKPNLKQLIAPAAVGLILFLLFQVFPWANPDDTEMASPDIISKEQARQAASRFAQEHLQFAAADTDEALVTYQSKSELYGYLAKEKRLSEYNKTYEAKYPYDVYRVRFSEPGGDALNVDVHMQNSGIVGFSYDYARSSFDRIELNKGEIQRQMLLVVEDGMTLAEKQALAEPWLQRAGYDLSNLELVTKEGEPRLKYVDPESRIGDSRLEHRFTFEQGKLRSYEPSFSVPAAHSAYVNKQTQDATLLTLAGYGLFTLILGILAIVYSVKTRAYTSFKRGLFLSALLFVIQMLNTYNLIPVFKSEGMSQTGVLGMMIFYAVYSLVFSALLYFSLVGGSGLWHKEDGLNPWPRAKEPGYGHYVLDSMKLGYMWAFILLGVQSVIFIGLGLTLNTWSTTDATQSPYNMLYPWLFPLMAWLAGISEEAVYRLFGIKMVKKIVRNTFVASLITSLIWALGHTLYPIYPVISRPIELVIIGLLFSYIFLKYGYLAAMFSHVIFNSILMGISLIMLKDAANLLTGAFYMVLPAIVAYAIYRFNPTKKEKPYVTTPPHEVH				NA	NA	NA	NA	NA
AK002_05393	2004	uvrC_2	COG0322	UvrABC system protein C	ATGGACGATTCTGCCAAACGGCTTCAGGATCAGGAGAAGGCGCAGGAGAATATTCGCCACAAGCTGGCATTGCTGCCGGATCAGCCGGGCTGCTACCTGATGAAGAACCATGAAGGCACGATTATTTACGTGGGCAAGGCCAAAGTGCTGAAGAACCGGGTGCGCTCGTATTTTACCGGGAGCCATAACGGGAAGACCCAGATGCTCGTTTCGGAAATCCGCGATTTCGAATACATCGTGACGGGCAGCAACATGGAAGCGTTAATTCTGGAGTGCAATCTGATCAAATCCCATCAGCCGAGATTCAATGTGCTGCTGAAGGACGATAAAACCTATCCCTACCTTAAGATAACGAATGAAGAGCATCCCCGCCTGGAAGTGACCAGGAGGGTGCTTAAAGATAAAGCCAAATACTTCGGTCCGTATCCCAACGCGTATGCGGCGCAGCAGACCAAAAAGCTGCTGGACCGGATGTATCCGCTGCGCAAATGCGGCGTTATGCCGAAAGAGGTCTGCTTGTATTACCATATGGGACAATGCTTGGCTCCATGCGTGAAGGAAGTGCCGAAGTCCGCCTATGAACAGATTACGGGAGAGATTACTTCCTTCCTGAGCGGCGGGCACGAAGAGATCAAGAAGGAACTGCAGCGAAAGATGCAGGAGGCCGCGGAGGATTTGTATTTCGAGCGTGCCAAGGAGCTCAGGGACCAAATCATCCATATTGATACCCTCATGGAGAAGCAGAAGATCACGACAACGGATACCCGGGATCGCGACGTATTCGGTTATGCCGTGGACAAAGGCTGGATGTGCGTGCAGATTCTGTACATGCGCCAAGGCAAAATGGTGCAGCGCAACAAGTCCGTTTTTCCGTTCTACGGGGATGCGCACAGTGATTTCATGTCGTTCATAGCCCAGTATTACAGCGATAATCCTGCATTGCCGCAGGAAATTCTGCTGCCTGGGCCGCTGTTGGCAGAGGAGGCCGGCTCCGAGACGGCAACCGGAAGCGCCGGAGATCAAGGTGCCCGGGACGCAGGCGAAGCCGCGGAAACGGAGAAGAAGCTGACCACGGATGCATCCGAAGAACAGCGGGAAGTCCTTGTCCAAGCCCAGGCGGAGCAGGCGGAGGCCGCCGGCCTCGTAGATGCTGCCGGGGGCGCTGCCGCCTTGCAGGAATGGCTGGGCGTGAAGGTTCACGTGCCGCAGCGGGGCTTGAAGAAACAGATGGTCGGCATGGCGTCGGATAACGCAAAGGTGTCCCTGGATGAGAAATTCCGCTTGATTGAGCGCGATGAAGAACGGACCTCGGTTGCAGCGGCCAATCTGGGCGAGGTGATCGGCCTTCAGTCGCTGAACCGGATCGAGGCGTTTGATAACTCGAACATTCAGGGCGCAAATCCGGTATCGGCCATGGTTGTATTCACCAACGGGAAACCGGATAAGAAGGAATATCGCAAATATAAGATCCGTACCGTGCAGGGGCCGGACGATTACGATACGATGCGTGAAGTGATCCGGCGGCGTTACGAGCGTGTATTGAAGGAGAACCTGCCGCTTCCGGACCTCATTGTCGTCGATGGGGGGAAGGGACAGATCTCAGCGGCCATCGACGTGCTGGAGAATGAACTGGGGCTGTTCGTCCCGGTCTGCGGGCTTGTGAAGGATGCCAAGCATAAAACGGCGCAGCTGATGGTCGGAGACCCGCCGGAGCCGGTGTCGCTGCCTCGGGACAGCCAGGAGTTCTATTTGCTCCAGCGCATTCAGGATGAGGTTCACCGTTTCGCGATTTCCTTCCACCGCGAGCAGCGCGGGAAATCGATGGTGACGTCTAAGCTGGATTCGATACCGGGCATCGGGGAGAAGCGCCGCAAAATGCTGCTGAAGCATTTTGGCTCGGTCAAAAAAATAAAAGAGGCTTCAGTCGAAGACTTCAAGCCCCTTTCAATCGGTGAAAAATTAGCAACGGAAATTCTTAATGCACTTCGTGAGGAGGAGTCGTGA	MDDSAKRLQDQEKAQENIRHKLALLPDQPGCYLMKNHEGTIIYVGKAKVLKNRVRSYFTGSHNGKTQMLVSEIRDFEYIVTGSNMEALILECNLIKSHQPRFNVLLKDDKTYPYLKITNEEHPRLEVTRRVLKDKAKYFGPYPNAYAAQQTKKLLDRMYPLRKCGVMPKEVCLYYHMGQCLAPCVKEVPKSAYEQITGEITSFLSGGHEEIKKELQRKMQEAAEDLYFERAKELRDQIIHIDTLMEKQKITTTDTRDRDVFGYAVDKGWMCVQILYMRQGKMVQRNKSVFPFYGDAHSDFMSFIAQYYSDNPALPQEILLPGPLLAEEAGSETATGSAGDQGARDAGEAAETEKKLTTDASEEQREVLVQAQAEQAEAAGLVDAAGGAAALQEWLGVKVHVPQRGLKKQMVGMASDNAKVSLDEKFRLIERDEERTSVAAANLGEVIGLQSLNRIEAFDNSNIQGANPVSAMVVFTNGKPDKKEYRKYKIRTVQGPDDYDTMREVIRRRYERVLKENLPLPDLIVVDGGKGQISAAIDVLENELGLFVPVCGLVKDAKHKTAQLMVGDPPEPVSLPRDSQEFYLLQRIQDEVHRFAISFHREQRGKSMVTSKLDSIPGIGEKRRKMLLKHFGSVKKIKEASVEDFKPLSIGEKLATEILNALREEES	PGPT0014925_867	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
AK002_05394	318	trxA_2	COG0526	Thioredoxin	ATGGCTATCGTCAATGTTACCGACCAAACCTTCGTCAATGAAGTAGAAGGACAAGGCACGGTTGTAGTTGATTTCTGGGCGCCATGGTGCGGCCCTTGTAAAATGCTTGCTCCGATTCTGGACGAATTGTCTTCAGAACTCGGCGATGATGTAAAAATTGCAAAGGTGAACGTGGATGAGAATCCGGAATCCGCAGCACGCTTCGGCGTCATGAGCATTCCGACCATGATCTTCTTTAAAGACGGCCAGCCTGTCGATAAAGTCGTAGGTCTGAACTCCAAAGAAGCCTTGAAGGGCATCATTGCAAAACATCAATAA	MAIVNVTDQTFVNEVEGQGTVVVDFWAPWCGPCKMLAPILDELSSELGDDVKIAKVNVDENPESAARFGVMSIPTMIFFKDGQPVDKVVGLNSKEALKGIIAKHQ	PGPT0013055_9450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK002_05395	156			hypothetical protein	ATGGATGTAAACGTACGCGTTAACGATCCACGGGAGCACATCAATGAAGAACCACGCAATGACTTTGGCGATTTGATGATGGGCTTCGTGGGGATGTTCGGTTTCATGACCATCATCTTTTTCGGATTCGTCATTATCAAGTTCTTGGTCGGTTAA	MDVNVRVNDPREHINEEPRNDFGDLMMGFVGMFGFMTIIFFGFVIIKFLVG				NA	NA	NA	NA	NA
AK002_05396	954	dnaI	COG1484	Primosomal protein DnaI	ATGGAGTCCCTTGGTGAACTGCTGGAAAGCATGAAAAGTACTGCGCTCCTGCGCAGAACCGAGCAAATTACGGAGGATTTGCTCAGGAATCCTCTGATTCAAGCACTGCGAAGCGAATATCCGGAGATCGATGACCGGGTCATACGATTGAATTTAAGCAAGCTGTATCAATATGCGGGAGACCAGGCCCACTGCCAGGCTTGCCCGGGTCTGGACCGGTGTCCGAATGATTTCCAGGGACATTTCAGCAAGCTGGATATCCAGCGGATGAACGGCACGGTGGAGATCTATGAACGGAAGGCGCCGTGCTCCCTGCAGATTGCAAAAACCAATGAGGATCAGATCAAAAAGCGGATTCGCAGCTTTTATGTTGACGAGCATGCCTTGAGCGAAGGGTACGACAACATGGAGATTATGGCGAAGGACCGCTTGCGGGCACCTGCGGTGCACCAGGTCTTCAAATATATCCGGGATACGAAGGAGAACGGCTTGTCCCCGCGCGGCTTGTATCTGACCGGTTCGTTCGGTACCGGGAAAACGTACCTGATGGGTTACCTGATGCATGAGCTCGCGAAAGCGGGCCATTCGGGCGTGATCGTCTATATGCCCGATTTCGTGGAAGATCTGAAAACCATGATGCAGGACGGCCAGAAGCTGAAGGACATGGTCGAGACGATGAAGCATTGCGACCTGCTGATCTTTGACGACATTGGAGCGGAGAATTTGAATCCGTGGGTACGGGATCATGTCCTCGGCTCCATCCTGAATTTCAGGATGAACCGGCTGCCGACCTTCTATACGTCGAACTATCCGCTCGACGGGCTGGAACAGCATCTCAGCTTCACGAGCAAGGACGGCGAGGAGCTTCACAAAGGGCAGCGGTTGATGAACCGGATTGCGCCTTTCGTGGATGTCGTTCATTTGTTCGGGGAGAACCAGAGAGGGAAGTTTTAG	MESLGELLESMKSTALLRRTEQITEDLLRNPLIQALRSEYPEIDDRVIRLNLSKLYQYAGDQAHCQACPGLDRCPNDFQGHFSKLDIQRMNGTVEIYERKAPCSLQIAKTNEDQIKKRIRSFYVDEHALSEGYDNMEIMAKDRLRAPAVHQVFKYIRDTKENGLSPRGLYLTGSFGTGKTYLMGYLMHELAKAGHSGVIVYMPDFVEDLKTMMQDGQKLKDMVETMKHCDLLIFDDIGAENLNPWVRDHVLGSILNFRMNRLPTFYTSNYPLDGLEQHLSFTSKDGEELHKGQRLMNRIAPFVDVVHLFGENQRGKF				NA	NA	NA	NA	NA
AK002_05397	1506	dnaB	COG3611	Replication initiation and membrane attachment protein	ATGCGCATGACTAATTTTTTACATTTTACAGAGAATCACCGTTACTGCGTATACCGTGACTTCTGCTTAAGCGGCCTGGACGACAAAATGCTTGGTTCGATATATCAACCGATGGTCGGCGCGTTTGCGGTCAGCCTGTACCGTCTTCTCGTATCGCATGTGCCGCTGGAGAAGGTGGGCTATTCGGCCATAGAACAGCAGCGAAGATTATTTTTGACATTAGGGCTGGAGCCCAGCGAAAAAGGACGCCGCTATCTCATTGAGCAAACCTCCAAGCTGGAAGCGGTAGGATTGCTGCAGACCAGCCGGATGTTCGTCCCGGAAACGGACGACCATGTCTATGAATATGAGCTTCAGGCGCCGCTCAGTCCGGCAGAGTTCTTCAATACCCAGCATTTGACGCTGCTGCTTCGCGACAAGGTGGGGAAATTCGCCGTCCTGTCGCTGAGGGAAGAGCTTTGGAGCAAGGAACCCCTGGAATGGTCCGGCATTTCCCTGAACAAGGAGAACATCTCGGTTCCCTTTTACGATATTTTCGAGTTGAACACGCATGTCATTGATTATGAACTGGAGCAGGCGCTGGAAGAGGTAGCGGTATCAAGGAAGTCGGTGCTGCCGCCGAATCCGCAGGGAGAAGGCCTGAACTACGCGGACATTATTCTGCGATTCCCGCGCGAGTCCCGCAATCGCGTCTTTGTGGAGCGTCTTCGCTATGACCATGAACAGATGGGCATCGTGAATTACGTCGTACGCAAGTACGATCTCAGCACGCAGGATTTGTGCCGCCTGCTTGACGAGGACGGCATCTTTACCGAGCACGGCGAGGTTGTCCTGGACGATTTGCAGCACAAAGCCAGCCTTCACTTTAGGCAGGGCATGAAGATGCAAGAGAAGCGGCAGATTACGGCGGGCAAGGTGGTTGCCCTGCATCAGGAGATGACGGCCGATCCGGACGAGCCTGCGCAGGAGCATGCCGTACAGATGGAATATTACGTCGAGGTTCCGGCCCAGTTCCAATCCAAATGCGATATTCACCAATATAATATGATGCTTCGCAACGAGCCTTATACACGGCTCCTGCAGACGTTCTTCCCGGGCTCGGTTCCCGCGCAGTTTCTGGACATCTTCGAAAAGATCGACCTGAGCTACAAGCTGCCGGGCGAAGTCATCAACGTGCTCATTCATTATTTGATGTCGCTCATTGCCGCAGGCGGCGAGCAGCGGATCAACCGCAACTTCGTGGAAGCCATCGCTTCCAATATGCTGCTGAAGCAAGTAAACAGCTATGAGAAAGCCGTTCAGTATATACGGGATCAAGCCAAGATGAAAGGCAAGCAGAAGGCAGCCTCGCAGCGCACGCGTACATACGCTAAAGGCGGAAAGGTGAAGCCGGAAATTCCAGTGGCTTTGGAGTCCGATCAGGCGGAGGCCGTATCGGATGAGGAGTTCGAAGAAATGATGCGGTTTGCGGCAGAAATGCAGGCTGGCAACAAGAAGGGCGGATAA	MRMTNFLHFTENHRYCVYRDFCLSGLDDKMLGSIYQPMVGAFAVSLYRLLVSHVPLEKVGYSAIEQQRRLFLTLGLEPSEKGRRYLIEQTSKLEAVGLLQTSRMFVPETDDHVYEYELQAPLSPAEFFNTQHLTLLLRDKVGKFAVLSLREELWSKEPLEWSGISLNKENISVPFYDIFELNTHVIDYELEQALEEVAVSRKSVLPPNPQGEGLNYADIILRFPRESRNRVFVERLRYDHEQMGIVNYVVRKYDLSTQDLCRLLDEDGIFTEHGEVVLDDLQHKASLHFRQGMKMQEKRQITAGKVVALHQEMTADPDEPAQEHAVQMEYYVEVPAQFQSKCDIHQYNMMLRNEPYTRLLQTFFPGSVPAQFLDIFEKIDLSYKLPGEVINVLIHYLMSLIAAGGEQRINRNFVEAIASNMLLKQVNSYEKAVQYIRDQAKMKGKQKAASQRTRTYAKGGKVKPEIPVALESDQAEAVSDEEFEEMMRFAAEMQAGNKKGG				NA	NA	NA	NA	NA
AK002_05398	300			hypothetical protein	ATGCTTCAATTTATTCCTGTGCTCGTGCTGATGATTTTGTTTTTTGTCATGATGTTCGGTATCGGTTTTATCCTAAATATGTTGATGAAGACGACCTGGTTTCCGTGCTTTCTGTTCGTGATTGTCATTCTGCCGGTCGTTGTATACAGCTTGTGGGATCGGGGCCAAATGTCGTTCTGGACTCACGTCGGATCGTTCCAGTTGGTGGATTACTTAACGGGAGTTGCGGGTCTGATCGGGGCTTACATGAGCGGATGGACCATTAAGACATTGCGTATTAAAGGGTTTAGAATGTTTTAA	MLQFIPVLVLMILFFVMMFGIGFILNMLMKTTWFPCFLFVIVILPVVVYSLWDRGQMSFWTHVGSFQLVDYLTGVAGLIGAYMSGWTIKTLRIKGFRMF				NA	NA	NA	NA	NA
AK002_05399	750		COG3253	Putative heme-dependent peroxidase	ATGAACGAAGCTGCAATGACGCTCGAGGGCTGGTATGCGCTGCATGATTTCCGCACCATCAATTGGCCGGCCTGGAAAGCTGCAGACGAAGAAGTACGCGCATTTGCGCTGGACGAGCTGAATGCGTTCCTTGCGGAATGGGATGCCGTCGAGACCGCCAAGCAGGGCAGCACCGCCGTATATACCATCGTCGGCCAGAAAGCCGATTTTGTTTTCATGCATTTGCGCGAGACGCTGGAAGAGCTGAACGCGATCGAGAACGCTTTTAACAAAACGACGTTTGCCCAGTTCACCACCAAGGCTTATTCCTATGTCAGCATCGTCGAGCTGAGCAATTACTTGGCAGGCTCCTCCGATGAGGATCCGATGCAGAACCCGCATGTCATTGCCCGCCTGAAGCCGGTCCTGCCAAAATCGAAGCATATCTGCTTCTACCCGATGAACAAAAAGCGGGATTTGTCGGACAACTGGTACATGCTGAGCATGGATGACCGCAAATCCATGATGAAGAGCCACGGGATGATCGGCCGCGGTTATGCCGGCAAGGTCAAGCAGATCATCACCGGTTCCGTCGGCTTCGACGATTGGGAATGGGGCGTTACCTTGTTCAGCGACGATGCGCTTCAATTCAAAAAGCTCGTGTACGAAATGAGATTTGACGAAGTGAGCGCGCGTTTCGGCGAATTCGGTCCTTTCTATGTCGGCAACTTGCTCGATCAGGCTTCTTTCACCGACTTGATGAAGGTATAA	MNEAAMTLEGWYALHDFRTINWPAWKAADEEVRAFALDELNAFLAEWDAVETAKQGSTAVYTIVGQKADFVFMHLRETLEELNAIENAFNKTTFAQFTTKAYSYVSIVELSNYLAGSSDEDPMQNPHVIARLKPVLPKSKHICFYPMNKKRDLSDNWYMLSMDDRKSMMKSHGMIGRGYAGKVKQIITGSVGFDDWEWGVTLFSDDALQFKKLVYEMRFDEVSARFGEFGPFYVGNLLDQASFTDLMKV	PGPT0008490_289	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435	NA	NA
AK002_05400	261			hypothetical protein	ATGAGACATTGCAGCGTTCAAGTACGGGGGCTGCTCACAAGAGGTGAACTGGATCGCTACAACGCCCTGATGGAGGTCGGCTCCTACCTGGAGTCGCAAGAGCGGTACGATCTGGCTTATACCGTTCAGCAGGAAGTCGACATTCTCATTCTTCCTGCCATTGAGCGCCTCAAGGATAAAGGGCGGGCCCGGGACCGGGCCACCGCTGAATATCTTGAAACCTTGCGCAAGCAAGAGCAAGATGAGGAAGACGGCGAATAA	MRHCSVQVRGLLTRGELDRYNALMEVGSYLESQERYDLAYTVQQEVDILILPAIERLKDKGRARDRATAEYLETLRKQEQDEEDGE				NA	NA	NA	NA	NA
AK002_05401	1194		COG1252	NADH dehydrogenase-like protein	ATGAGCAGCATACCGAAGATCGTAATCCTTGGCGCGGGTTACGGGGGCATATTGACAGCGCAGCGGCTGCAAAAAGAGCTGAATTATAATGAGGCCGATGTTACATTGGTGAATCGCCATGATTATCATTATATTACAACGCATTTGCATATGCCGGCAGCAGGAACCGACAGCATTGAGAATACCCGGGTATCCATATCCAAGTTGATAGACGAGTTCAAAATCGATCTGGTCAAATCCTCGGTTCAGGAAATCCGCCTTCACGATAAGAAGGTTATCCTTGAAGATGGAACGTTATCCTATGACTATCTTGTCATTGGACTCGGCGGCGAGCCGGAGACCTTCGGGATCCCGGGACTCGCAGAGCATGCGATGACGATCCGAAGCATCAACTCGGTACGATTGATTCGAGAGCATATTGAATATCAATTTGCTTTATATAAGAATGAACGCAGACCGCAAGAGCGCATCAACTTCGTGGTTGGCGGAGCCGGGTTCAGCGGCATCGAGTTTGTAGCCGAGCTGGCGGACCGCATTCCGAGACTGTGCAAGGAGTATGACGTCGATCCGACATTGGTGAACATTTATAACGTAGAAGCCGCGCCGTCGGCGCTGCCGGGGTTTGCCCCCGAGCTGGTTGAATACGCCATGAACGTTCTCGAGAAGAAGGGTGTTACCTTCAAGATGGGCATTGCGATCAAGGAATGCCTGCCGGGCGGAGTCGTGCTGAACAACGGCGAAGAGATCCGGGCGGCAACGGTCGTATGGACCGGAGGCATCCGCGGGAACCGCCTGGTTGAGTCGGCCGGCTTCGAAACAATGAGGGGCCGCGTGAAGGTTGATGAATATTTACGCGCTCCGGGATACGAGAACATTTATATTATCGGCGATAACTCCCTCATTTTTAACGAAGAAGGCAGACCTTATCCGCCGACCGCCCAAATGGCGATGCAGCAGGGCGTATGCTGTGCCCAGAATATCGTTGCGGCGATCCGGGACAAGTCCATGCGCAAATTCGAGTTCCATAATAAAGGCACGGTTGCTTCCCTCGGCCGGGGCGAAGGCATTGCGGTTGTCGGGGATAAGAAATACCAGGGATGGAAAGCGGCCCAGCTGAAAAAATTGGTTGATCTGCGCTACCTCTTCATTATCGGAGGCATTCCGCTCGTCCTGAAAAAAGGCAGGTTCCTATAA	MSSIPKIVILGAGYGGILTAQRLQKELNYNEADVTLVNRHDYHYITTHLHMPAAGTDSIENTRVSISKLIDEFKIDLVKSSVQEIRLHDKKVILEDGTLSYDYLVIGLGGEPETFGIPGLAEHAMTIRSINSVRLIREHIEYQFALYKNERRPQERINFVVGGAGFSGIEFVAELADRIPRLCKEYDVDPTLVNIYNVEAAPSALPGFAPELVEYAMNVLEKKGVTFKMGIAIKECLPGGVVLNNGEEIRAATVVWTGGIRGNRLVESAGFETMRGRVKVDEYLRAPGYENIYIIGDNSLIFNEEGRPYPPTAQMAMQQGVCCAQNIVAAIRDKSMRKFEFHNKGTVASLGRGEGIAVVGDKKYQGWKAAQLKKLVDLRYLFIIGGIPLVLKKGRFL	PGPT0004020_5022	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
AK002_05402	1002		COG0492	Ferredoxin--NADP reductase	ATGACAACGATGCCACAAGACAACAATATGACGGATCTTTTGATTATCGGTGGCGGACCTGCAGGCATGTTTGCCGCTTTTTACGGCGGAATGCGCCAAGCCTCGGTTAAACTTATCGAGAGCATGCCTCAGCTCGGAGGCCAATTGGCTGCGCTGTATCCCGAAAAATATATCTATGACGTGGCAGGCTTCCCGAAGGTTACCGCCCAGGAGCTTGTGAACAATCTGTCCGCGCAAATGGAGCTCTTTAAAACGGACATCCGTCTTGAAGAGAAAGTCCAAGCTGTGGAAAAGCTTGAAGAACGTCATTTTGTCGTGAGAACGAATCTGGGCGAACACCATGCCAAAGCCGTCATCATTACAGCCGGCGTTGGGGCGTTCCAACCCCGCCGACTGGAGATTGAAGGTGCCGAGAAGTACGAGAAGGCCAACCTTCATTATTTCGTCAACGATCTCAGTCGCTTTAAAGGCAAGAAGGTTCTCATCAGCGGCGGCGGCGATTCCGCGGTAGACTGGGCGCTCATGATCGAACCGATCGCCGAGCAGGTTACGCTGGTTCACCGCCGCGACAAGTTCCGTGCCCACGAGCATAGCGTGGAGCAGCTGATGGCCTCGAAGGTGAACATCGTGACACCAACCGAAATCACGGAGCTGCATGGTGAAGATGCCATTACAAAAGTGACGCTGTCGCATATTAAGACCAAAGAGACGCAAGAGATTGAAGTTGACGATGTCATTGTCAATTTCGGTTTCGTTTCCTCCCTCGGTCCGATCTCCGAGTGGGGCATCGCCATCGAAAGCAACTCCATCGTCGTGGACTCCCGCATGGAAACCAGCATCCCGGGTATTTTTGCGGCCGGCGATATCACGACCTATCCTGGCAAGGTCAAGCTCATTGCCGTCGGATTCGGCGAAGCGCCAACCGCCGTCAACAATGCCAAAGTATACTTCGATCCTGAAGCCAGATTGGCTCCGGGACATAGCAGCAACATGAAATTGTAA	MTTMPQDNNMTDLLIIGGGPAGMFAAFYGGMRQASVKLIESMPQLGGQLAALYPEKYIYDVAGFPKVTAQELVNNLSAQMELFKTDIRLEEKVQAVEKLEERHFVVRTNLGEHHAKAVIITAGVGAFQPRRLEIEGAEKYEKANLHYFVNDLSRFKGKKVLISGGGDSAVDWALMIEPIAEQVTLVHRRDKFRAHEHSVEQLMASKVNIVTPTEITELHGEDAITKVTLSHIKTKETQEIEVDDVIVNFGFVSSLGPISEWGIAIESNSIVVDSRMETSIPGIFAAGDITTYPGKVKLIAVGFGEAPTAVNNAKVYFDPEARLAPGHSSNMKL	PGPT0013060_1963	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK002_05403	138			hypothetical protein	ATGTTGACGGATGAGATGCTTCTCGATTCCTATCATATGGCTGTTGAATTGAAGTTGGAACGAGAGTTCATCACTCTACTGCTAGCCGAAATTCATAAACGGAACTTGGACACCGATTCCGGCAGCATCCTGCATTAA	MLTDEMLLDSYHMAVELKLEREFITLLLAEIHKRNLDTDSGSILH				NA	NA	NA	NA	NA
AK002_05404	663	yheD_9		Endospore coat-associated protein YheD	ATGGCGGGAAGACAATTGGCCAGCAAGTGGCTGAAGACGGAAGCGCTGCTGACCGATCCGCAGGTTGCTCCCTACATTCCGGCGACCCAGTCGTATGGAGGGGATACCCTGGTCTCAATGCTGGATGAACACGAAATGGTCGTGATCAAGCCGATTGTAGGCACCGGTGGTAACGGAGTCATCCGAATACAGAAAGACGGAACGGGATACTTGGTAACCCATAAGAGGCGTACTGTTCATGTAGATACATTGAATTCCCTGTTGCACGTATTGAACAGAATGAAACTGAAACGGCGTTACATGATACAGCAGGGGATTCATCTGGCTAAAATTCAGGGACGTCCGCTGGATTACCGCGTTAAGGTAGTCAAGGAAAGAGGAAGATGGGAATTCCGGGCCATGCTAGGTCGGCTCGCGAACCCGGGGCTGTTTGTGACGAACATTTGCAAAGGGGGGACGCTGCTTCGTTGCCGCCATGCTCTGCGGCTGTCGCTGCCCCATATCAATGCCAGGGAGAAGCGTAATGAAATGCGCCACTTAACCAGACAGTGCATCACGATCCTGGAATCGCGCTTTCCCGGGATCGGGGAACTGGGATTCGATTACGGACTCGACGTCGAAGGCAAGATATGGATTTTGGAAGTAAATACAAGACCAAGCTGA	MAGRQLASKWLKTEALLTDPQVAPYIPATQSYGGDTLVSMLDEHEMVVIKPIVGTGGNGVIRIQKDGTGYLVTHKRRTVHVDTLNSLLHVLNRMKLKRRYMIQQGIHLAKIQGRPLDYRVKVVKERGRWEFRAMLGRLANPGLFVTNICKGGTLLRCRHALRLSLPHINAREKRNEMRHLTRQCITILESRFPGIGELGFDYGLDVEGKIWILEVNTRPS				NA	NA	NA	NA	NA
AK002_05405	210			hypothetical protein	TTGGCAGCATTGTTTGAAGTTTTGTACTGGATTGCCATTGTCGGCATGTCGGTTGCCCTTGCAGCCATCACCGTTCTGATCTTTGTCATGGGCTTCAAGTTCATCAAAGACAAGCGCCGCGGACTCGGGGCCGGCTGCATCGTTTTCTCGCTCGTGGCTGCCGGCATGATCGTGCTGATGCTGAACGATACCTTCTTCTTCCCGGTATGA	MAALFEVLYWIAIVGMSVALAAITVLIFVMGFKFIKDKRRGLGAGCIVFSLVAAGMIVLMLNDTFFFPV				NA	NA	NA	NA	NA
AK002_05406	360		COG0316	Protein	ATGATATCAATCAGCGAAACAGCTGCAGAACGTTTGAAAGAAATGCTTGCTGAACAGGAAACGCCCAATATGTTCCTTCGACTGGGTGTCACTGCCGGCGGATGCAGTGGTTTTTCATATGCAATGGGCTTCGATGATCAAGAAACGGAAGCGGACGTATATATGGACCTGCAGGATATGAAAGTCGTTGTCGAGAAGGACGATCTGAAATACCTGAACGGTCTCGAAATCGACTTCGAGGAATCCGGCATGACGGGCGGGTTCACCATCCACAACCCGAACGCGACCGTAACTTGCGGCTGCGGATCTTCCTTCCGCACGGCAACGGATACGGGCAAACCGAACGAAGAGCCTTGCTAA	MISISETAAERLKEMLAEQETPNMFLRLGVTAGGCSGFSYAMGFDDQETEADVYMDLQDMKVVVEKDDLKYLNGLEIDFEESGMTGGFTIHNPNATVTCGCGSSFRTATDTGKPNEEPC				NA	NA	NA	NA	NA
AK002_05407	1107	mqnE	COG1060	Aminodeoxyfutalosine synthase	ATGTCCACGATTGTGACACCATTTACCGATCAGAGAATGGCCGAGATCGTTGCGAAAGTCCAACGCGGCGAACGCCTGAATCTTGAAGACGGTGTGTATTTGTATCAAACCGATGACCTGCTGACCCTCGGGCAGCTGGCTAATGAAGCCAATTTGCGCAAGAACGGGAAAAAGGTTTACTTCATCGAGAACATGAGTCTCTATTTTACCAATGTATGCGAATCCCGCTGCGCTTTTTGCAATTTCCGGAAAGACCAAGGCGAGGAAGGCTCCTATACCCTCTCCGGCGCGGAAATGATTGAGTATGTGGAACAGCATATTCACCCAGGCATCCGTGAATTTCATATCGTTGGCGGACATAATAACCATGTCCCGTTCCAGTACTATGTAGATTCGCTGAAGGCATTGAAGGAACGTTTCCCTGAAGTTACCCTGAAAGCCTATACCGCGGCGGAGATCGAATTCTTCACCCGCATCAGCGGACTCAGCACGAAGGAAGTGCTGCAGGAGCTGCAGAAGGCAGGTCTTCAATCCTTGACGGGCGGCGGAGCCGAAATCTTGTCTGACCAGTACCGTCAGAAGATGAAGGTGGATAAAGCCAACGTGGATCAATACCTCGACGTTCATCGTACCGCGCATAAGCTCGGCATGAAGACGCACACGACCATGCTGTACGGCTCGATCGAGAGCCATGAGGACCGGATCCGCCATATGCTGCAAATTCGGGATCTTCAAGATGAAACGAACGGATTCATGGTATTCATTCCGCTGTCCATGCAGCCGAAGAATAAGAATGCGGGCATCATGCGCCGCAATTCGGCTTACGAAGATTTGAAAACCATTGCCATCAGCCGATTGATGCTGGATAATATCGACCACATCAAGGCTTACTTCATTAATATCGGGCCTCAATTGACGCAGGTCGCTCTCAGCTTCGGCGCATCGGACGTCCATGGCACGATCCTGAAGGAACGCATCAGCCATGCCGCAGGAGCGCTAACGCCAGAAGGGCTGACCCGCAAAGAGCTTGTATGGCTCATCCAAGGCGCCGGCCGCATTCCGGTCGAACGCGATACCTTCTATAACGAGATCAAGGTTTACGAATAA	MSTIVTPFTDQRMAEIVAKVQRGERLNLEDGVYLYQTDDLLTLGQLANEANLRKNGKKVYFIENMSLYFTNVCESRCAFCNFRKDQGEEGSYTLSGAEMIEYVEQHIHPGIREFHIVGGHNNHVPFQYYVDSLKALKERFPEVTLKAYTAAEIEFFTRISGLSTKEVLQELQKAGLQSLTGGGAEILSDQYRQKMKVDKANVDQYLDVHRTAHKLGMKTHTTMLYGSIESHEDRIRHMLQIRDLQDETNGFMVFIPLSMQPKNKNAGIMRRNSAYEDLKTIAISRLMLDNIDHIKAYFINIGPQLTQVALSFGASDVHGTILKERISHAAGALTPEGLTRKELVWLIQGAGRIPVERDTFYNEIKVYE	PGPT0009420_399	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009420-mqnE-K18285	NA	NA
AK002_05408	1059	yjlD_2	COG1252	NADH dehydrogenase-like protein YjlD	ATGAAAAAGCTCGTCATTCTCGGCGGAGGCTATGGTGGTCTTGCCCTAATTCAAGAATTGTTCAGCGGCTATCTTCCTCCGGACGTGGAGGTCGTGCTCATCGACCGCATGCCGTACCAAGGACTCAAAACCGAATATTACGCGCTGGCAGCAGGCACCGTGGCCGATACCGCTGTTCGTGTTAAATTCCCGGTGTATGACCGCCTCCATGTTGTATACGGTGAAGTCCTATCCATTGATCTTGAGAAGAAGCTTGTGAACCTGACGAACAACGATCCAGTGGAATACGATCAGCTGGCCATTGCCCTGGGATGTACGGACCGTTATCATGGGGTACCGGGCGCTGAAGAATTCACGTTCAGCCTGCAATCTTTTGCGGCATCCCGGGAGACCTATTTGAACCTGAACAACCTCAGACCTTATGGTCAAGTTCATATCATTGGCGGAGGCTTAAGCGGCATCGAGCTCGCTGCCGATCTTCGGGAAAGCCGGCCTGACCTGAATATCGCCATTTTGGACCGGGGACAACGGGTGCTTTCTTCTTTTCCTAACCGTTTGTCTGCTTATATTCATCGCTGGTTTGAGGAGCACCACGTGGACATCCACAGCGGCGTATCCGTATCCCGAGTGGAGAAGGACGCCGTGTACAATCTGGATGTGCCGATCGCAACCGATCTGGCGGTATGGACCGCCGGCATTCAACCCGTAAAGGTCGTACAGGATCTGGATCTGCCAAAAGACCGCAGCGGACGCATTCTGCTAAACGAGTGGTATCAGGTTCCGTCCCATCCCGAGGTATATGTGATCGGCGACTGCGCCAGCCTCCCCTTCGTCCCGAGCGCGCAAGCGGCAGGGGCTCAGGCCGAGCAAGTGGGACATGTCATGAAAGCTTTATGGCGCGACGATACGCCTAAGGTATCTCCGCTGAAGCTGAAGGGAACGCTGGGTTCCCTCGGCAAACATGCGGGCTTTGGACTCATGGGCAGCACGTCGGTCATGGGCCGGGTACCAAGGATATTAAAGAGCGGCGTGCTCTGGAAATCCAAGCGTCATTACTAG	MKKLVILGGGYGGLALIQELFSGYLPPDVEVVLIDRMPYQGLKTEYYALAAGTVADTAVRVKFPVYDRLHVVYGEVLSIDLEKKLVNLTNNDPVEYDQLAIALGCTDRYHGVPGAEEFTFSLQSFAASRETYLNLNNLRPYGQVHIIGGGLSGIELAADLRESRPDLNIAILDRGQRVLSSFPNRLSAYIHRWFEEHHVDIHSGVSVSRVEKDAVYNLDVPIATDLAVWTAGIQPVKVVQDLDLPKDRSGRILLNEWYQVPSHPEVYVIGDCASLPFVPSAQAAGAQAEQVGHVMKALWRDDTPKVSPLKLKGTLGSLGKHAGFGLMGSTSVMGRVPRILKSGVLWKSKRHY	PGPT0004020_5981	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
AK002_05409	279			hypothetical protein	ATGTCCATTATCATTGAGTTTTGCACAAGCAATTCCTATTTCGGCACGGATAAAGTGCTGCAGACGCTTGAAGGCAAGTACGATTGCCAGGTCATCGAATATGGCTGCCTGACCAGCTGCGGCCAGTGCTATTTGATGCCCTTCGCTTACGTGGATGGCGATTGGGTTGAAGCCCCTACGGCTGAAGAGCTGCTTGAGGTTGTCATCCGCAAGCTCGAAAGCTTTCGGGACGGTGAAGAGGAAAGCGCTCCTCGGCGTCCCTCCCCAGTAGAATCATAA	MSIIIEFCTSNSYFGTDKVLQTLEGKYDCQVIEYGCLTSCGQCYLMPFAYVDGDWVEAPTAEELLEVVIRKLESFRDGEEESAPRRPSPVES				NA	NA	NA	NA	NA
AK002_05410	246	nfuA		Fe/S biogenesis protein NfuA	ATGAGTGAAAACACGCAAACCACTGTATATGATGAAGTGGCTGAAGTGCTTGATAAACTTCGTCCGTTCCTGCAGCGCGACGGCGGTGACGTGGAACTGGTTGACGTTGAAGACGGCATCGTTAAGCTGAAATTGATGGGTGCATGCGGTAGCTGCCCAAGCTCCACCATTACTCTGAAAGCAGGGATCGAGCGCGCCCTGGTTGAAGAAGTAGAAGGCATCCAAGAAGTAGTTCAAGTATTCTAA	MSENTQTTVYDEVAEVLDKLRPFLQRDGGDVELVDVEDGIVKLKLMGACGSCPSSTITLKAGIERALVEEVEGIQEVVQVF	PGPT0012225_450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK002_05411	774	fabG_12		3-oxoacyl-[acyl-carrier-protein] reductase FabG	TTGAAGGGAAAAGTGGCGCTGATTACAGGCAGTGCGACAGGTTTGGGAAAAATGACGGCAATGTCGTTAGCCCGGCAGGGATGTCATATAGCCATAAATTATGTGAACAGCAAGGATGAAGCGGAGGCGCTTTCCCGTGAAATCGAGGGGTTTGGCGTGAAATCCATCGCAATTAAAGCCGATATCGCCAGCGAGCCTGAGCTGTATTCATTGGTGGATCAGACGGAGGAGCGGCTGGGCAGCGTCGATATCCTGGTTAACAATGCTGGACCGTTCATCCGGGAACGCCGTCTGTTCTCGGAGTACAGCCGCGACGAAATCGTACATATGGTAAATGGCAATTTAACCGGCGTCATGCTGCTGGACCATCGCGTTCTGCCTGCCATGCGGGAGAAAAAATGGGGACGCATCATCCACTTTGGTTTCGGGCATGCCGGTGAAGCCCGCGCATGGCCTCAACGCTCCGCCTACGCGGCTGCGAAGGTGGGCCTGGTCTCCTTTACGAAGACGCTGGCCGTGGAAGAGGGGCCGTATGGGATCACCGTGAATATGATCTGTCCGGGGGATATCCGCGGTGCGAACAAAGAGAAAACCATCGATGAAGTATCCGGCATTCAGGACGGGTTGACTCCTCGCGGACGATCGGGCAGCGGTGAGGACGTCGCCAGGGTGATCGAATATTTATGCCTGGATAAATCGGATTTCATAACCGGCAATATTATGGATATATCCGGCGGGCTGGACCCGATTCGCCCGTTAATCAAGCCGGAATAA	MKGKVALITGSATGLGKMTAMSLARQGCHIAINYVNSKDEAEALSREIEGFGVKSIAIKADIASEPELYSLVDQTEERLGSVDILVNNAGPFIRERRLFSEYSRDEIVHMVNGNLTGVMLLDHRVLPAMREKKWGRIIHFGFGHAGEARAWPQRSAYAAAKVGLVSFTKTLAVEEGPYGITVNMICPGDIRGANKEKTIDEVSGIQDGLTPRGRSGSGEDVARVIEYLCLDKSDFITGNIMDISGGLDPIRPLIKPE	PGPT0003180_6542	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
AK002_05412	843	metQ_2	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAAAAATGGACATTGGCATTGATCAGCTTGACCTTGGTTACGGTGCTGGCTGCATGCGGCAGCAAGCCTGCGGATAACGCATCCGAGCCAGGGGGAACAACGGGAGGCGGCGGTCAAGAGACCGTAACCTTGAAAGTAGGGGCTTCGCCATCACCGCATGCCAAGATTCTCGAGCATATCAAACCTGCGCTTGAAAAAGAGGGCGTAAACCTGGAAATCGTAGAATTCACGGATTATGTGCTGCCGAATACGCAAGTGGATTCCAAAGAAATCGACGCGAATTTCTTCCAGCACAAGCCTTACCTGGATAACGAAATCAAAGAGCGCAAGCTGAACCTGGAGTCCGTGATCGCCGTGCACGTGGAGCCGCTGGGTGCGTACTCCAAAACCATTACATCTGTGGATGACCTGAAGGATGGAGCGGTTGTAGCCATTCCGAATGATCCTTCTAATGCTGGCCGTGCATTGACGCTGCTGTCCAAGAACGGCGTGATTAAGCTGAACGACGAAAGCAAGCTGGAAGCAACCGCCAAGGATATCGTGGAAAATCCGAAGAACCTGGAGTTCAAGGAAGTTGAAGCCGCCATGCTGCCGCGTATGCTGGATGAGCTGGATCTGGCTGTCATCAACACGAACTACGCGCTGGAAGCGGGACTGGACCCAACGAAGGATGCGCTCTTCATCGAAGACAAGGACAATCCTTATGCCAACCTGCTGGTAGCCCGTCCGGACAACAAGGACTCCGACGCCATCCAAAAACTGGCGAAAGCGCTGACTTCCGAGGACGTGAAAACTTTTATTGAAGAAGAGTATAAAGGTGCCGTCATCCCGGCATTCTAA	MKKWTLALISLTLVTVLAACGSKPADNASEPGGTTGGGGQETVTLKVGASPSPHAKILEHIKPALEKEGVNLEIVEFTDYVLPNTQVDSKEIDANFFQHKPYLDNEIKERKLNLESVIAVHVEPLGAYSKTITSVDDLKDGAVVAIPNDPSNAGRALTLLSKNGVIKLNDESKLEATAKDIVENPKNLEFKEVEAAMLPRMLDELDLAVINTNYALEAGLDPTKDALFIEDKDNPYANLLVARPDNKDSDAIQKLAKALTSEDVKTFIEEEYKGAVIPAF	PGPT0020510_1560	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK002_05413	669	metP_2	COG2011	Methionine import system permease protein MetP	ATGTTCGGACTTGATTTTACCCAGATCGACTGGAAAGAGATATGGACGGCAACATTGGATACCCTGCGGATGCTGGGAGCTTCGGCCTTGTTCAGCTTCATCATCGGACTGCCTGTCGGCGTGCTGCTCTACATGGCCGCAAGGTCCACGTCCGGGTTGGTACGCTTCGGCTACACGATTCTGTCGTTCATTGTAAACATTCTGCGCTCGGTTCCGTTCATCATCCTGATCGTGGCGATGATCCCGATTACGAAGTCGATCGTAGGCGTTTCGTACGGCGTGCTGGGCACCATTCCGCCGCTGGTGATCGGCGCTGCTCCATTCTTTGCAAGGCTCGTGGAAACGGCTTTGAATGAAGTGGATAAAGGCGTGATTGAGGCGGCTCATGCCATGGGCTCTTCGACAAGCCAAATCGTATGGAGGGTGCTCCTTCCGGAGGCGCGTCCGGGCCTGCTTGCCGGGATGACCATCACGATTGTAACCCTGGTATCTTACACCGCGATGTCCGGTCAAGTCGGGGGCGGCGGTTTAGGGGATTTGGCCATCAAGTATGGCTATTACCGTTATGAGACCGAGATCATGATTCTGGCTGTCGTGCTGATGATTGTCCTGGTCCAGCTGCTGCAGATGGCAGGAGATCGTCTGGTGCGGCATTTTACAAGAAAATAA	MFGLDFTQIDWKEIWTATLDTLRMLGASALFSFIIGLPVGVLLYMAARSTSGLVRFGYTILSFIVNILRSVPFIILIVAMIPITKSIVGVSYGVLGTIPPLVIGAAPFFARLVETALNEVDKGVIEAAHAMGSSTSQIVWRVLLPEARPGLLAGMTITIVTLVSYTAMSGQVGGGGLGDLAIKYGYYRYETEIMILAVVLMIVLVQLLQMAGDRLVRHFTRK	PGPT0020515_1963	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
AK002_05414	1017	metN_2	COG1135	Methionine import ATP-binding protein MetN	TTGATTGAGCTCAAGCAATTGACGAAGCAGTACGGAAAAGCCGGGTCATTAACAACTGCGTTGTCCGAATTGGATTTGTCGATTGAAAAAGGAGAAATTTTCGGAGTGATCGGACACTCCGGTGCAGGGAAAAGTACATTGATCCGCTGCATCAATTTACTGGAGCGTCCCACCTCGGGCGAGGTGTGGGTGAACGGCAAAAATTTGACGTCGCTCGGCAAGAAGCAGCTTCAGGCGGAGCGCCGTAAAATCGGTATGATTTTTCAGCACTTTAACCTGCTGTCTTCCGCGACGGTGTACGATAACATTGCGTTTCCGCTGCGTCTGATCAAGACGCCGAAGGTCGAACTGGAGCGTAAAGTATCCGAGCTGCTGGCTTTGGTCGGCTTGGAGGCGCATCGCGACAAATACCCGTCCCAGCTGTCAGGGGGCCAGAAGCAGCGGGTGGGCATCGCCAGAGCGCTCGCGAGCGATCCGGAAGTGCTGCTGTGCGACGAGGCCACTTCGGCCCTTGACCCGCAAACGACGGATTCGATTCTGCGCCTGCTGCTGGACATTAACAAAAAGTTTCATCTGACGATCGTGCTGATTACCCATGAGATGCATGTCATTCAGAGCATATGCGACCGGGTCGCCGTTATTCATCAGGGCGGCATCGTAGAGCAAGGACCGGTAACGCAAGTGTTCCTGAAGCCGAAGCATGAAGTGACGCAGGAATTCATCCGCCAGGAGATGGACAGCGGCGAAGCGCTGCGGCTGGCTATGCAGGGTCAGGTAAACGGCCCCTCAAGAGCGGTTCAAATCACGTTCCTGGGATCGAAAACGTACGAATCGATCCTGTCGCATACCGTTCATGAGACGGGCGTGAATTTTGCGATTCTGCAGGGTACGATCTCTACGATCAAAGATACGCCTTACGGCCAGCTCATCGTCCGTTTCGAAGGGGAAGAGCGCTCGATTGAAGATACGATCCGGAAGCTGCTTGAACAAGGACTAGACGTGGAGGTGATTCATTGA	MIELKQLTKQYGKAGSLTTALSELDLSIEKGEIFGVIGHSGAGKSTLIRCINLLERPTSGEVWVNGKNLTSLGKKQLQAERRKIGMIFQHFNLLSSATVYDNIAFPLRLIKTPKVELERKVSELLALVGLEAHRDKYPSQLSGGQKQRVGIARALASDPEVLLCDEATSALDPQTTDSILRLLLDINKKFHLTIVLITHEMHVIQSICDRVAVIHQGGIVEQGPVTQVFLKPKHEVTQEFIRQEMDSGEALRLAMQGQVNGPSRAVQITFLGSKTYESILSHTVHETGVNFAILQGTISTIKDTPYGQLIVRFEGEERSIEDTIRKLLEQGLDVEVIH	PGPT0020520_3035	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK002_05416	720			hypothetical protein	ATGCTTCGAATGTTACTTGGGGAACAGCCCCGGCAGAACAACGGCCTGCTTGAGGAAGCCATCGAATCGATGGTTAAGACAACCCGGCTGCTGCAGAAGGAAATGGATAAAAATCAAGATCCGACGCATGATTTTCGCAAGCTGGAGATTTGGACCCGGGGACTGATCGTCTCCCTGGATGAGCTGGAGCAGAGCTGGAATGCGGCCAAGCATTTCAGTCAATCGGTCAAATCGGGTTACATCGATGATATGTCGATTCAGGAGCAAGGGGAATATCAACGATATGTGTATTTTTACAAAAACGGCTTCATCCGCGTATTCTCGATCCTTGACAAGCTGGGCACGGTGCTGAACGATTTGTTTGATCTGCATACCTCCAAGGTAAAGGCGCATTTTTCTTATTTTACGGTCCTGCGGCAGTTCAAATATCTTAAGGCCCACGGTGAGCTGGCTGAAGAGCTGGAAGCGATCAAGGATCGCTACAAAGCACCGCTGAACGCGCTCCGCAAAAGGCGCAATGCTGAAATTCACTACATGAACTCCGAGATGCAGGATGATTTGTGGCAGCGCCATCAAGGACTGTCCGACAAAATCGAGCTGGAGGATATCGACAAGCACCTGGACGATCTCCAACAGGGCATCGATATGGTATGCCGCAGCCTGGCCGCCTCGTATAAATATACGAACAAGCTGTGGACTGAAAATGGTGTGCGGGCTTAG	MLRMLLGEQPRQNNGLLEEAIESMVKTTRLLQKEMDKNQDPTHDFRKLEIWTRGLIVSLDELEQSWNAAKHFSQSVKSGYIDDMSIQEQGEYQRYVYFYKNGFIRVFSILDKLGTVLNDLFDLHTSKVKAHFSYFTVLRQFKYLKAHGELAEELEAIKDRYKAPLNALRKRRNAEIHYMNSEMQDDLWQRHQGLSDKIELEDIDKHLDDLQQGIDMVCRSLAASYKYTNKLWTENGVRA				NA	NA	NA	NA	NA
AK002_05417	975	ctaA	COG1612	Heme A synthase	GTGAACGATAAACAATTAAAGTGGCTGAGTTACATAACATGCTTAATTATGTTCTGCGCGACTTTCGGGGGCATGGTTGTGACAAAGACGGGGTCGGGGCTTGGCTGCGGCCAAGAGTGGCCGCTGTGCAACGGTAAATTTGTTCCCGCTTACACGGTGTCCTCGATGATCGAATATTCCCACCGGGCCGTAAGCGGAATGGCCGGCTTGGCCGCCTTGGCCTCGCTGATTGCGTTCTGGAAGTACAAGCGGGACCGCCGGGATTTGATGGCTTACGTCATCGGAACCTCGATATTCGTCGTGGTACAAGCAATCATGGGTGCCCTCGCGGTGGTTAAACCTCAATCGGCGGCGATCATGGCGCTGCATTTTGGCTTCTCGCTGATTGCTTTTGCCAGCTCGGTCATGCTGGCTTTGGGCATGCGCCGAATCGAACAAGCGAAGGGGCCCGCTGACCTGGAGCGTTTGCCGCGGGTGGGCAAGGGCTTCCGCAATTTGGTCTGGGGCACGACTTTGTACAGCTACATCGTGGTGTATATCGGTGCATTCGTCAGCCATACGGATTCCCGGGAAGGCTGCTCCGGCTGGCCGTTGTGTAACGGAGAAGTGATACCGGAGCTGAGCGGAGGGGTCGGCATCGCCTTTATGCACCGCGTGGCCGCGCTTCTGCTGCTGATCGTGGTGGCGGTGATGGGGCATTTTGCATATTGGCGCAATCGCGATAACCGGGAGATCCAGATGCTGGGCATTTCGGCAACCGTGCTGTGCCTGCTGCAGGTGTTCAGCGGCGCCCTCATTATGGCTACGATGCATAACGAGGAAGTTTACGTATTCTCCGCACTGGGTCATACGCTGCTGATCTCGGCGCTGTTCGGCGTACTGTGTTATTTAAGCGTCCGGGTATGGCAGCTCAGCAAGCCGCTCGAAGCTGAAATACGGAAGGGCCACGACGTGCCCCGCGAAAAGATCGTATAA	MNDKQLKWLSYITCLIMFCATFGGMVVTKTGSGLGCGQEWPLCNGKFVPAYTVSSMIEYSHRAVSGMAGLAALASLIAFWKYKRDRRDLMAYVIGTSIFVVVQAIMGALAVVKPQSAAIMALHFGFSLIAFASSVMLALGMRRIEQAKGPADLERLPRVGKGFRNLVWGTTLYSYIVVYIGAFVSHTDSREGCSGWPLCNGEVIPELSGGVGIAFMHRVAALLLLIVVAVMGHFAYWRNRDNREIQMLGISATVLCLLQVFSGALIMATMHNEEVYVFSALGHTLLISALFGVLCYLSVRVWQLSKPLEAEIRKGHDVPREKIV	PGPT0008525_2540	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
AK002_05418	345	ytpP		Thioredoxin-like protein YtpP	ATGGAAAAAATCACTTCAGAAGCAGAATTTCAGGTTGCAATCCAGTCTCCACGACTGACAGTTGCCGTATTTAAAGCGGACTGGTGCGGCGATTGCAAGTTTATCGATCCATTCATGCCGGAGGTTGAGACGAAGTTCTCCAACCAATTGACTCTGGTGGAAGTTGACGTCGATGCTGTCGGTGACGTGAGTCAGCAGCAAAATATTCTGGGCATCCCTAGCTTTGTTGCATACTCTGACGGTCGCGAGCTGGTTCGCTACGTTAACAAACTCCGCAAATCGCGCGAGGAGATTGAAGATTTCCTGCAGCGTGCCGTAGACGTATACGGTACGATTCACAAGTGA	MEKITSEAEFQVAIQSPRLTVAVFKADWCGDCKFIDPFMPEVETKFSNQLTLVEVDVDAVGDVSQQQNILGIPSFVAYSDGRELVRYVNKLRKSREEIEDFLQRAVDVYGTIHK				NA	NA	NA	NA	NA
AK002_05419	1428			hypothetical protein	ATGAGGTTCACGGTCTGGAATTATCATCAGAAAGTGCAGGTGACAACCGGCATGCACTCGCACGGAGCCAAGGACAAACCAAATCGGGGCAGGAATTACGGGGCATGGACAGCCGCCATTTCGCAAGCCCTGGCGGAATCGTGGTCGGGTATGATGGCAGCTTGGCGAAATTCCTTAAAGCTTCGGACAAACAGGCATGAATTGCAGTGGGATCCTACAGCCGTTAGGGCCATTCGCAGGCAGCTCAAGAGCATTCTCTCCTCCCATCCCTATCTGCCGCAGGACATTTCTTCGTTCCTCCCTCTGCAAGAAGGTCACAGCGAAATTCGCGGCCATGAACCGAACCTGCAGCCAACGCATGAGGAGCAGGAGCTGATCCATCGCATTCAGGAGGCAACTACCGGCGCCAACCGAAGCAACGTGACTCGAACCGAGGCCTATTTGGACTGTTACGAGTCGCATCCAGAGCTGCATTGGGCCCTGCTTGCCCATATGGTATCACGCAATGCCGGATGGAATATGAGCGATCTGAAGGGCGGGCTGATGTCGGATCTTATGGCTCCCCCATTCCAAAACCATCTGTACAGTTTCTTGGAGCGCTGCAATGCGCTGATTTTTCAGGATGCCTATCCGCAGCTGCTTCTCTATATGCACAGTCGAAAAATAGGAAAGCCCTTATTCCATTTGCTCCCCCGCTTCCATGTTTCATCGTTCATGACACCGTTCTGGGAACGGTTCTGGCACGACCAAGGCAGTTCGCTGCTTACGGTCGCCCTCATCATTAATGAACAGAACTATATTGAGGGGCGCGTGGCAAGACATCCTTTTTACCGTCAGCATATTCTTCAGAATCCTCTCTTCCGGATGCATGAGCTAACCCGGTTGAATCAAATTGTGTTCCCGCTGGGTCAAAGCCATCAGACAAGCACAGACTCTGCCGATTATCCCGTTTCCCCTACCCGGCCGCTGGCCGGACTCACCATCCCCAAGTTTGACGACCTGTCCATCCGGATCAAGGCAGGCCGCTCGCTGTACGCTTTACTGTTCGGTTATGAGGATATTTACCATGCCGTGCTGACATTCGCTCGTTCCACCAAGCATCAGGGCTCGCGTGCTGAATATTGGCCGGCGTTATTCACGCCGACGCGGGATCAAGCCATGAATCACGGCCACGAGGGGCTTGAGCTTGTCCAATCGGAATGGCTGCCGGACGGCCGTCGTCTGTATAGCCCCCGTCTCGAGGAGATCTGGCAGGATGAACCCCCGGAACCGATTCCCCGGTACGACTGGTATCAGGGCCACACGATGTTTAAGTTTATTCGCAAGCCGAAACCGCCGATGCTGCCGGATATCACCCACGCCCATCGGGCCGCCCTGGAGAAAACCTCCATCGCCCATGACGTATCCGATCCGTCCCACCGGCAATAA	MRFTVWNYHQKVQVTTGMHSHGAKDKPNRGRNYGAWTAAISQALAESWSGMMAAWRNSLKLRTNRHELQWDPTAVRAIRRQLKSILSSHPYLPQDISSFLPLQEGHSEIRGHEPNLQPTHEEQELIHRIQEATTGANRSNVTRTEAYLDCYESHPELHWALLAHMVSRNAGWNMSDLKGGLMSDLMAPPFQNHLYSFLERCNALIFQDAYPQLLLYMHSRKIGKPLFHLLPRFHVSSFMTPFWERFWHDQGSSLLTVALIINEQNYIEGRVARHPFYRQHILQNPLFRMHELTRLNQIVFPLGQSHQTSTDSADYPVSPTRPLAGLTIPKFDDLSIRIKAGRSLYALLFGYEDIYHAVLTFARSTKHQGSRAEYWPALFTPTRDQAMNHGHEGLELVQSEWLPDGRRLYSPRLEEIWQDEPPEPIPRYDWYQGHTMFKFIRKPKPPMLPDITHAHRAALEKTSIAHDVSDPSHRQ				NA	NA	NA	NA	NA
AK002_05420	1626	murJ_2	COG2244	Lipid II flippase MurJ	TTGTCTAAGAAAGAGTCATTTATTAAAGGCACCATCATCTTGGCCGCTGCTGCACTGGTAGCCCGGGTGCTGGGCCTTGCTCAGCGGGTGCCGCTGGAGCATATGCTGAATGATATCGGGGATGCCTCGTTTACGATTGCCAATAACGTATATCTAATGCTGTTAACGGTAGCAACGGCCGGCATTCCCAGCACGCTCAGTAAAATGGTATCGGAGCGCCATGCTTTGAACAAGCCTGCGGAGGCTCGGCGCGTCTATCATGCTGCGCTTATTTTTGCCGGGGCAGCGGGCGTTGTCATGACGCTGCTCCTTTACTTCGGAGCTCCTTTTTATGCCACTCATATAGCCAAGCAGCCGGAGGCGGCTGCTGCCATTCAAGCACTCGCTCCGGCGCTGCTGCTGTTTCCGGCCATCGCCATGATGCGGGGATACTTCCAAGGGCGCAATAATATGACGGCTGGCGGCATATCGCAAATTATCGAGCAGATTGCAAGGGTTCTGACAGCGATCGGCTTGGCCTATGTGCTGCTGCGTTTGGGATATGACGATACCTGGATCGCGGCAGGTGCCTCCTTCGGTGGCGTCCTCGGCAGTATCGGGGCATTTGCGGTCATGCTGTATTTTACGTTGAAGCTTCGCCGAAGCGATCGTGAGCTCAAAATGCCGGCGGCGGACCGCTCGATTCCGCTTGGCGGGATATACCGGGATATATTCACGCTGTCTATACCGATTGTGCTGTCTTCCCTGGCGGTTCCGGCGGTCAACTTCATTGACAGCTCCATTGTGAAGCCGCTGTTGATCGGGCAGGTTGGTCTGGGAGAGGCTACTGCAGCCCTCGCGGTATTAGGAAACCGAGCGCAAAGCGTAGCGGGCATTCCGCCGATTCTAGCCATTGCCCTCAGCACCTCGCTCATTCCGATCATCTCTGCCGCTTTTGCGAGGAAAGATCAGGAGCATTTGGAACAGCAAGTGTCGCTGGCCATGCGCGTTGCCATATTGACGGGTATGCCGATGGTGATTGCGCTCTGCGTTGCATCCTATTCCATCAACGGATTGCTGTTTAGTTCCCTCGGTGGAAGCGGGATCATCGGGTTCCTGACATTCGGTACGATTTTTCAGATCACGATGATGACAACGAACTCCATTCTTCTTGGAATCGGCAAGGCCAAGCTCTCGATGGTTCACGTGATGATCGGGATAGCGGTCAAGCTTGTTGCCAGCTTCCTGCTTGCTCCGTTGTTTGGCATTTATGGCATCATCGGGAGCACGGCTCTCTGTTTCCTTGTCATTACGATGCTGAACGTCAGATCAATCAAGGCGATTGTATCCTTCTCGATCCTGGGCAAACGCTGGATGGGCTTCATACTGACGGTTGCTACCGCAGGAGGGATCGGTTACGGCCTGAATCTGGCCGGTATTCAGATGGTCGATATCATGCCGGCTCGTTTGGCATTCCTGCTGACCTGTCTGGTTGTAGGCATAGCCGTAGTCATTATATATCTTGTACTGCTGGTGGTGTTTGGCGTACTCCGGCAATCGGAGCTTAGCAGTTACCCGCGTCTTTTACAGAAGGTGTTCCGTCCGCTGATGAGGCTGCAGCCTGCGCGAATGCGGGAGCGGGGTTAA	MSKKESFIKGTIILAAAALVARVLGLAQRVPLEHMLNDIGDASFTIANNVYLMLLTVATAGIPSTLSKMVSERHALNKPAEARRVYHAALIFAGAAGVVMTLLLYFGAPFYATHIAKQPEAAAAIQALAPALLLFPAIAMMRGYFQGRNNMTAGGISQIIEQIARVLTAIGLAYVLLRLGYDDTWIAAGASFGGVLGSIGAFAVMLYFTLKLRRSDRELKMPAADRSIPLGGIYRDIFTLSIPIVLSSLAVPAVNFIDSSIVKPLLIGQVGLGEATAALAVLGNRAQSVAGIPPILAIALSTSLIPIISAAFARKDQEHLEQQVSLAMRVAILTGMPMVIALCVASYSINGLLFSSLGGSGIIGFLTFGTIFQITMMTTNSILLGIGKAKLSMVHVMIGIAVKLVASFLLAPLFGIYGIIGSTALCFLVITMLNVRSIKAIVSFSILGKRWMGFILTVATAGGIGYGLNLAGIQMVDIMPARLAFLLTCLVVGIAVVIIYLVLLVVFGVLRQSELSSYPRLLQKVFRPLMRLQPARMRERG	PGPT0024825_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024825-spoVB-K06409	NA	NA
AK002_05421	480			hypothetical protein	ATGGACGTATTGGGCTGGATTATCGTCATCGCTCTGTTTATCATTGGGATGGCCGGGGCGATATACCCTATTCTGCCGGGGGTTGTCGCCATTTACCTGGCGTTGTTCGTTTATGGCTGGTTCTTTACATTCGAGCATTACAATGCATGGTTCTGGATTATCCAGACCATCATTCTGGTGGTGCTCTTCATTGCCGATTATGCGGTTAATGCCTGGGGAGTCAAGAAGCTAGGCGGTTCCAAAGCCTCGATCTGGGGCAGCACGATCGGACTTATTATCGGACCGTTCGTGATACCGGCCTTCGGCTTGATTATCGGACCGTTCCTGGGGGCATTTCTGGGAGAAATGCTGGCAGGCTCGGGAGCAAGCAAATCCATGAAGGTTGGCTTCGGATCGGTTGTTGGATTGTTTAGCAGCATTGTGGTGAAGATTATATTGCAGCTTGCGATGATCATCATTTTCTTCATCTGGATTTTCTAA	MDVLGWIIVIALFIIGMAGAIYPILPGVVAIYLALFVYGWFFTFEHYNAWFWIIQTIILVVLFIADYAVNAWGVKKLGGSKASIWGSTIGLIIGPFVIPAFGLIIGPFLGAFLGEMLAGSGASKSMKVGFGSVVGLFSSIVVKIILQLAMIIIFFIWIF				NA	NA	NA	NA	NA
AK002_05422	747	ycsE_1		5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YcsE	ATGAAACATAAATATCGGTTGTTGGCACTGGATATGGACGGTACGCTGCTTCAGGACGACCATGAAGTATCCGAGGAAACGGTGAAGTGGATCAAGGAGGCGGTGCGGCACGGCATTCACGTCTGCCTCTCGACGGGCCGGCCGTTTCAGGATGCTTATCCGTATGCCAAGCAGCTTGAACTGACGACACCGATGGTAACGGTGAACGGCGGCGAAGTATGGCGTGCGCCGTATGAATTGCATCGCCGCGCGCTGCTCGACAGCAAGCTCGTGGAACAAATGCATGCACTCGCGATTGAAACCGGATCGTGGTTCTGGGCGTATTCAGTAGATAGATTGTATAACACTGAGAACTGGACCGACGATGTCGCGAATCAGGAGTGGCTGAAATTCGGATATAACACGAATGATCATGAGGTACGCCACAATATCATGATGCGACTGCAGGATATGGGCGGACTAGAGATCACGAACTCTTCGCCGGATAACCTGGAAATCAATCCGCAGGGCGTCAACAAAGCGACCGGGATCGGGCAGGTGTGCGAGCTGCTCGGTATCAGCATGTCCGAGGTTGTAGCCGTAGGAGACAGCCTGAACGACCTGGCCGTCATCCAGCAGGCCGGCCTCGGCGTGGCCATGGGCAATGCCCAGCAGACCGTGAAGGATGAGGCGGATCTTGTGGTTTCCAGCAACAATGAGGACGGCATCGTCGAAGTCATCAGGGATCATATTTTGATCGAAGGGTGA	MKHKYRLLALDMDGTLLQDDHEVSEETVKWIKEAVRHGIHVCLSTGRPFQDAYPYAKQLELTTPMVTVNGGEVWRAPYELHRRALLDSKLVEQMHALAIETGSWFWAYSVDRLYNTENWTDDVANQEWLKFGYNTNDHEVRHNIMMRLQDMGGLEITNSSPDNLEINPQGVNKATGIGQVCELLGISMSEVVAVGDSLNDLAVIQQAGLGVAMGNAQQTVKDEADLVVSSNNEDGIVEVIRDHILIEG	PGPT0008595_874	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
AK002_05423	462			hypothetical protein	ATGACCAAGCTCAATGAGAATCCCGTCGTCACGGCAGAGATGTTGATTCGAAGACCCGTTTCAGAAGTTTTCGAGGCTTTCATCGACCCTGATATCACAACCAAGTTCTGGTTTACCAAAAGCAGCGGCAGACTTGAGAAGGGCCGGCATATCCGCTGGGATTGGGAAATGTATGGCGTGTTTGATGACTTGTATGTGCACGATATCGAGGAGAACCGCCGCATCGCCATCGAATCTTCCGATCAGACCAGGACCGAGTGGATATTCACCACGCGGGGCGAACATGAGACCTTCGTTACCATTACCCATTCCGGATTTACAGGAAGTGATGATGAGATATTGCATGGGGCCATTGATTCCATGGGAGGATACACCATGGTGCTCTGCGGCCTCAAAGCGCTGCTGGAGTTTGGCGTTGTTCTGAATCTCGTGGCGGACAAGGCCCCGGACGCCCATGTATGA	MTKLNENPVVTAEMLIRRPVSEVFEAFIDPDITTKFWFTKSSGRLEKGRHIRWDWEMYGVFDDLYVHDIEENRRIAIESSDQTRTEWIFTTRGEHETFVTITHSGFTGSDDEILHGAIDSMGGYTMVLCGLKALLEFGVVLNLVADKAPDAHV				NA	NA	NA	NA	NA
AK002_05425	1146			hypothetical protein	ATGTCGGCATGGAAGGAAAGTGTGCTGGATGGGAACGGAATCACCATCTTGCTGCTGCTGATTGTGGCTTTTTCACTCATTCAGGGATGGAGTCGCGGAGCCTCCCGCTCAGCCGGGAAGCTTGTTTTTTTTCTGGGGGACGCGGTGCTTCGCCTGGTCGGGCTTGCGATCTCCGTTCCTTTTACATTATGGCTGTCGCCTAAGGCAGGCGATTGGCTGGGCACGGTCTCCGGTTTACCGAATCGGGAGCTGCGCTTCTGGGAGCAGATTTATTATACGGCCGTAAAATCGCTGGCGGATTTCCCGCTGCTTCGATTTGCGGTCCTGTTTATGCTGAGTTATGCCGCTATCGTGTTTATGCTGCGGCTGCTGGTTTCCCTTATCATGGGAGGCGGGCTGGGACTCTTCGGAACGAAAAAAGAAACCTCGGCATCGCTGCTGAGCCGGCTGACCGGTGCCGGAATCGGCGTCATCATGGGTGCAGCCCGGAGCATTATTGTAATTGCTATCTTATTCATTTTCGTCAGTCTGAATCCTGATCACGGCTTCAGCCGGTATGTCGAGGCTTCTCCGGTTTATCAGCAGGGGGCGCGGGCTGTGATCGAGCCTTTGTCGGGTTCTCTCGTCAAGGAAAAGCTGCCGGTGTTTACCCAGTCGGTTCAGGAAGAATTGAATGGGATCATTCAGCGGAAGTACGAGGTCATCGACCATCAAATCCCCGAGGGCATCGAGCAGACGGCTCTCCATGTCGTGAAGGGGGCGTCAACCGATGAAGAGAAAGCGCGAAAGCTCTATGATTGGGTAGGCAGCCGGATCGCATATGACCACGACAAAGTGACGCTGTATGAAGAGCAGCGCATATGGAAAGAGCAGACGCCGCAGGATACCTACGATACGAGGTTAGGGGTATGCATTGATTACGCCCGGTTGTATGCCATGATGGCGAGGTCCCAGGATCTTAAGGTCAGAGTGGTTACCGGCAGGGGATATAACGGACAGGGCGGTTATGGTCCGCACGCATGGAATGAAGTCTACTTGAGCGAAGAGAAGCGCTGGATACCTCTTGACCCGACCTGGGCACAGAGCGGCAACTGGTTTAATCCGCCGCGCTTCAACGAGACGCATATTAAAGAGCAGGTATTTTAA	MSAWKESVLDGNGITILLLLIVAFSLIQGWSRGASRSAGKLVFFLGDAVLRLVGLAISVPFTLWLSPKAGDWLGTVSGLPNRELRFWEQIYYTAVKSLADFPLLRFAVLFMLSYAAIVFMLRLLVSLIMGGGLGLFGTKKETSASLLSRLTGAGIGVIMGAARSIIVIAILFIFVSLNPDHGFSRYVEASPVYQQGARAVIEPLSGSLVKEKLPVFTQSVQEELNGIIQRKYEVIDHQIPEGIEQTALHVVKGASTDEEKARKLYDWVGSRIAYDHDKVTLYEEQRIWKEQTPQDTYDTRLGVCIDYARLYAMMARSQDLKVRVVTGRGYNGQGGYGPHAWNEVYLSEEKRWIPLDPTWAQSGNWFNPPRFNETHIKEQVF				NA	NA	NA	NA	NA
AK002_05426	447			hypothetical protein	TTGGATACTCAGGTCTGGATTGAATTTCTTAAACAAAATTGGCTGGTCATCGCCATCGCCTTAATCATCTTGTTTATCGTGCTGAATGTGGTGAGAACCGTCATTAAGTGGGCACTTGCCGTGCTCATCATCGGGGGATTGCTGGTGTACAGCGGAATTTCCCTCGACAAAATCGGCGAGGTTGTAACCACGGTCAAGGAAGAGACGGTGGATACGATAAAAAAAGAAGCGCTGAACATGATGATGAAGGAAGCGAAGGAAGCACAATATACTTCGAATGGAGACGGCACGTACTCCATTAAAGCGCCCAATCTCGAGCTGAAAGGAAGCGCCGGTTCGAAAGAAGTGGAAGTCACCTTCCGCGGTGTTTCGGTAGGGAAGTGGGACATCAACGATACGATTCAGAGCTTTATCGATGATGCCAAGAGCAATTCGGCATCGAAATAA	MDTQVWIEFLKQNWLVIAIALIILFIVLNVVRTVIKWALAVLIIGGLLVYSGISLDKIGEVVTTVKEETVDTIKKEALNMMMKEAKEAQYTSNGDGTYSIKAPNLELKGSAGSKEVEVTFRGVSVGKWDINDTIQSFIDDAKSNSASK				NA	NA	NA	NA	NA
AK002_05427	1173	mdtG		Multidrug resistance protein MdtG	TTGAAAACCGCTTTATGGCTCTATATGTTTTTGTTTCTGGCGTTTTTTGATTTGCATGCTCAGTATCCTGTACTGACGCCCTTTGCCATTTCACTTGGAGCAGCCCCTACGTTTATCGGCTGGATGATGGGCATTTATGCTCTAACCCATCTGCCCGGCAACCTGCTTGCGGGCAGTCTGATCGATCGTCACGGCAGCAGACGCTACATTATTTTCAGCCTAACCGCCGCCGGTATCATCCTGCTTCTTCAGGCCCATGTCCAATTGCCCTGGCAGCTGCTCGTGCTCCGCTCGATCAGCGGCTTCGTGCTGGCCTTTCTGTCACCGGCCTGCCTGGCGCTGCTGGCGTCGCTCTCCCGGGATCCCGTTACGCAGGGCAAATATATGTCCGGTCATGGCGTGATCCACACCCTTGCCTCTGTCTTGTCGCCGGCTGCAGGAGCTTTCATCGTCGCCAATGCGGGATTTTCCGGCACATTCCAGAGTCTGGGCTGGCTTTTGATTTTCACAGGCTTGATGGCGTTTTTCAGTCTCCCGAAGCCGATGTCAGCCGCTGCTAAACATAAGGGTCAGCAGGCTGAACCGATCAATAACGAGGAGCCGGCACGGCTTCCGTTTAGCTTGCGCTTATATTTGATTCCTTTTGCGATCGCTTGCTCTCAAGGAATCCTGTTCTTTGAAATACCGCTTCGGGAAAGCGGGCTGGCAAGCATTATGTCCACCGGGCTTCTCTTCTCCGTCATTAGCCTTGGAGCCCTGGTCACGCTAAGCATGCTGTTCCTCAACCGTTATGCGCCTCATATCAGGGTGACCATTGGCGTATTCGGGCTGGCCATATGCTTCTACGCCCTCGCTGCAGCAGACCATGTACCGATTATGATTATCCTGTTTACGCTCGGACTTGCCAAAGGCTTGCTATTCCCGGCTCTATCCTCTTTGTTCATTCAGCTCAGCGGCGGAGGCAGGCTTGGCAAAGTGTTCTCATTTCAGTCCATCGCCATGTCGCTGGGATCCTTTGTCGGCCCGATCGCGGCTGGACAGCTGCGCACGGTGGTATCTCCTTATTTTGTTGCGTTTCTCATGCTGATGACGGTTCTGCTGCTGCTTCCCAAACGCAATCGTGAAGCACCTTTGACAGCCATCTCGCCCGAAACCCCAATCTCAACCGTCTGA	MKTALWLYMFLFLAFFDLHAQYPVLTPFAISLGAAPTFIGWMMGIYALTHLPGNLLAGSLIDRHGSRRYIIFSLTAAGIILLLQAHVQLPWQLLVLRSISGFVLAFLSPACLALLASLSRDPVTQGKYMSGHGVIHTLASVLSPAAGAFIVANAGFSGTFQSLGWLLIFTGLMAFFSLPKPMSAAAKHKGQQAEPINNEEPARLPFSLRLYLIPFAIACSQGILFFEIPLRESGLASIMSTGLLFSVISLGALVTLSMLFLNRYAPHIRVTIGVFGLAICFYALAAADHVPIMIILFTLGLAKGLLFPALSSLFIQLSGGGRLGKVFSFQSIAMSLGSFVGPIAAGQLRTVVSPYFVAFLMLMTVLLLLPKRNREAPLTAISPETPISTV	PGPT0029185_1159	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029185-mdtG-K08161	NA	NA
AK002_05428	348	rnmV_2		Ribonuclease M5	ATGCCGATATTTCTCATTGTAGAGGGCAAGAACGACCGGAGTCGGCTGCGTCGGCTGCTGACTTCGGATATAACCATCCTGTGTACTTTCGGAACGTTAAACACCGCCAAGCTTGAGAGCCTGCATAAACAGGTGAAGGATCAAGAGGTGTACCTTTTTATGGATAACGACAGCTCCGGCAAGAAAATTCGCGGGGCTCTGCGCGACGTCTTTCCAGATGCCGAACAAATCTATACCCGCCGGGGATATGCCGGCGTTGAAGGAACTCCCGACGAATACTTGATTGCCCAGCTGGAGAAGGCAGGGCTGGAGGAATTCATCATCTACCCGCCCCCTGACGTATTCTGA	MPIFLIVEGKNDRSRLRRLLTSDITILCTFGTLNTAKLESLHKQVKDQEVYLFMDNDSSGKKIRGALRDVFPDAEQIYTRRGYAGVEGTPDEYLIAQLEKAGLEEFIIYPPPDVF				NA	NA	NA	NA	NA
AK002_05429	618	ypmQ	COG1999	SCO1 protein	ATGAATGCATTCAAACGTTACAAATGGACTTGGGTACTGCTCGCTGTATGCGTAATAGCAGCCATCTACCTGGTATACAACTCGCTTGGATTCGGAAAGGAGAAGTTTCCGATCGTTCGTGAGGTTGCTGCCTATTCCATGGAGAATGTAGATGGGAAAACGATCACGTCGGAGGATACCAAAGGCAAGGTGAAGCTTATGTACTTCTATTTCACCAGCTGCCCGGATGTGTGCCCGATTACGACGCTGGTTCTGTCTCAGATCCAGGAAGACTTGAAAAAAGAAGGTTTATTCGGTAAAGAAGTTAACTTTGTGTCCATCTCCTTTGATCCGGTGACCGATACGAAAGAGAAGATTAAGGAGTTCGGAGACCGATTCTATGCCGATTACAGCGGCTGGTACTTCCTGCGTGGAGACCAGGAGGAAACGCGGAAGCTGATGCAGGAGTCTTTCAAAATTCCGCTGCTGGGCAATAACTCGACGAATTTCACGCATGGCAATTCCATTGCCTTGGTGGACCGGGACAATAATATCCGGAAGACCTATAATGCTGCGGATCCATCCGAAGTGAAGACCGAGGATATCGTGAAGGACATCAAGGCTTTGATTAAGGAATAA	MNAFKRYKWTWVLLAVCVIAAIYLVYNSLGFGKEKFPIVREVAAYSMENVDGKTITSEDTKGKVKLMYFYFTSCPDVCPITTLVLSQIQEDLKKEGLFGKEVNFVSISFDPVTDTKEKIKEFGDRFYADYSGWYFLRGDQEETRKLMQESFKIPLLGNNSTNFTHGNSIALVDRDNNIRKTYNAADPSEVKTEDIVKDIKALIKE				NA	NA	NA	NA	NA
AK002_05430	939	ctaB1	COG0109	Protoheme IX farnesyltransferase 1	GTGGATAATCACTTGAGATACCAGGCTCCTTCAGAATCCGCAGCACTGGCCTCGGCAGCGCCTGCACCTCCCGATAAGGCGGGGACTTGGAAAGATTTTATCACGGTGACGAAACCCGGAATCATCCGGTCAAATTTGATAGCGGCTTTTGCCGGATTTTGGCTGGCATCGCGTTGGGATATCCAATTTGGATTGATGATTATGACACTTCTCGGAACTGTGCTTGTCATGGCTTCGTCCTGTGTTTTCAATAACTATTTCGACCGGGAGCTCGACATGAAGATGGAGCGTACCCGGAATCGCTCCCTTCCAACCGGGCGTTTGACACCCAAGGTTGTTCTTTGGTATGCCGTCATTCTGGGGGTCGTGGGACTAGCCGTCCTGTTCCTGTTCTCAGGGGTGCTGGCAGGCCTATTCGGAGCCGTCGGAATGTTCGTTTACGTTGTGGTGTACACTCTCTGGCTTAAACGTTCTTCTACATGGAGCACGTCGGTCGGAGCGATCTCTGGTGCCATGCCTCCGGTAATCGGCTATGTGGCCGTGACCGGAAGCGTGGATATGGCAGCCGTCCTGCTCTTCGCTCTGCTGTTTCTCTGGCAGCCGCCGCATTTCTGGGCGCTGGGCATTCGCCGGGTGGAAGAATACCGTGCAGCGGGATTCCCTTTGCTGCCGGTTGTCAAAGGAATTAAACGCACGAAGTATCAGATGATTCCTTACCTGGTGCTTCTCATACCGATTCCCATCCTGATGTACGCATACGGATATGCCGGTATATTCTTTCTGGTCATCGGACTCCTTCTGGCTATTTGGTGGCTCTACGCCGCACTCCAAGGTTTCCGTGCCAAGGACGATGAAGCTTGGTCCAAAAAAGTATTCATTATCTCCATCAACTACTTGACCTTGAGCCTGATCGTTCTCATACTCAATACCACCTTTTAA	MDNHLRYQAPSESAALASAAPAPPDKAGTWKDFITVTKPGIIRSNLIAAFAGFWLASRWDIQFGLMIMTLLGTVLVMASSCVFNNYFDRELDMKMERTRNRSLPTGRLTPKVVLWYAVILGVVGLAVLFLFSGVLAGLFGAVGMFVYVVVYTLWLKRSSTWSTSVGAISGAMPPVIGYVAVTGSVDMAAVLLFALLFLWQPPHFWALGIRRVEEYRAAGFPLLPVVKGIKRTKYQMIPYLVLLIPIPILMYAYGYAGIFFLVIGLLLAIWWLYAALQGFRAKDDEAWSKKVFIISINYLTLSLIVLILNTTF	PGPT0008520_1583	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008520-ctaB|cyoE-K02257	NA	NA
AK002_05431	219			Small, acid-soluble spore protein alpha	ATGGCAAGTCGCAGCAACAATTTGGTTGTACCTCAAGCTACTGCAGCATTACAACGTTTGAAACTCGAGGCTGCTCAAGAATTAGGCGTAACGATTCCTCAGGACGGTTACTATGGTAACTATACTTCCCGTGAAACAGGATCCCTGGGCGGATACATTACTAAACGTTTGGTACAGCAAGCTGAACAGGCTCTTTCGGGGTCTGGCCGCACGCTGTAA	MASRSNNLVVPQATAALQRLKLEAAQELGVTIPQDGYYGNYTSRETGSLGGYITKRLVQQAEQALSGSGRTL	PGPT0024865_95	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024865-SASP_B|sspB-K06419	NA	NA
AK002_05432	168			hypothetical protein	ATGAGTAAAGGCTTATCCCTATGGTTTGCGGTATCTTCCATCGTCCTGTTGACCGCCTCCGCCATATCCATCAGCTACAACGGATTTCTGGCCGTCGGTCTGGCACTGCTCTCCATCCTCAACATAGGCTGGGGATTCATTATTAAATCCAAGCGCAAGCCTTCCTAG	MSKGLSLWFAVSSIVLLTASAISISYNGFLAVGLALLSILNIGWGFIIKSKRKPS				NA	NA	NA	NA	NA
AK002_05433	987	trpS_1		Tryptophan--tRNA ligase	ATGAAAACCGTATTATCGGGAATTCAGCCAAGCGGTAATTTAACGCTCGGCAACTACATTGGAGCCATTAAAAATTTTGTGAAGCTGCAAAACGAGCATGACTGTTATTTTATGGTGGTCGATCTGCACGCAATAACGGTACCGCAGGAGCCCAGCTCGCTGCGGGATCGCTCGGAATCGGTCGCGGCCCTGTACGTTGCCGCCGGAATCGACCCGAACCGTGCCAATATCTTTTTGCAGTCCCATGTTCCTCAACACGCCGAGCTGGGATGGATCATGACCACCCTGGTGAATATGGGCGAGCTGGAACGGATGACCCAGTTCAAGGACAAATCGGAAGGCAAGGACTCGGTTGGGGCCGGCTTGTTCGTTTATCCTGCGCTCATGGCCGCAGACATTTTGCTGTATAATGCAAATCTTGTGCCGGTGGGAGACGACCAGAAGCAGCATCTGGAAATCACGCGCGATTTGGCTGCACGCTTCAATCATCGGTTCGGTCCGTATTTCAATATTCCGGAACCGTTCATCCCTGAAGTCGGTGCGCGAATCATGTCGCTGGACGACGCCTCCAAAAAGATGAGCAAGAGCAATCCGGTTGAGGGCAGTTATATCGCAATGCTGGATACGCCGGATCAAATTCGCAAGAAAATCAGCCGGGCTACAACCGACTCCGGAGCCGAAGTGGTGTATGATCCTTCCGCTAAGCCTGAAGTGAGCAATCTGATGAGCATCTATTCGGAGTGCGCAGGAGTGTCTTTGCAGGAAGTGCAGTCTCGTTTCGAAGGAAAAATGTACGGGGCATTCAAGAAGGAGCTTGGCGAAGTTGTAGTAGCCGCTCTGGAGCCGCTTCAAAACAGATACTACGAAATTCGCCAAACCGGTGAAATTCATGACATTCTCGCCAAGGGAGCCGAGCAGGCGCAGAAGACCGCGGCCCAAATACTCGATGGCGTGAAGGACAAGATGGGATTTCTGGCTCCTAAATAA	MKTVLSGIQPSGNLTLGNYIGAIKNFVKLQNEHDCYFMVVDLHAITVPQEPSSLRDRSESVAALYVAAGIDPNRANIFLQSHVPQHAELGWIMTTLVNMGELERMTQFKDKSEGKDSVGAGLFVYPALMAADILLYNANLVPVGDDQKQHLEITRDLAARFNHRFGPYFNIPEPFIPEVGARIMSLDDASKKMSKSNPVEGSYIAMLDTPDQIRKKISRATTDSGAEVVYDPSAKPEVSNLMSIYSECAGVSLQEVQSRFEGKMYGAFKKELGEVVVAALEPLQNRYYEIRQTGEIHDILAKGAEQAQKTAAQILDGVKDKMGFLAPK	PGPT0007120_6227	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
AK002_05435	990	galM_4	COG2017	Aldose 1-epimerase	ATGAATCAAGTGACCAAAGGCCAGTGGAATGGTTACGACACCTATATTTTAAACAGCGGCCGTCTTGAAGTGACTCTCCTTCCTCGTCTAGGTAATAACGTCATTGGGATTAAAGACAATGAAAACTCACGCGAAATCCTCCGAAAACCAGATGAAAGCGAGCTTGCATTCTATCTACAGAAGCCTTACCACTTCGGCATTCCGATGCTCATACCGCCAGGCCGGATTTCCAAGGGCCATTTCGAATATGGCGGAACGTCGTATCAATTTGACCAAAATACCGCGAACGACAATCATATCCATGGCCTCCACCGATCACAGGCTTGGTGTGTCAGCGACATAGAGGAGGAGGATGACGGGTGCGCCGTTTCGACCGAGTTCATCTCATCGGATGATCCGAAATGGATTGCCCAATTTCCTGAGCCGCTGAAGCTGGAGATGACCTTCCGTCTTCAGGGGACACGCTTAACGCAGAGCCTTCGCGTAACGAATCTGGGCGCCAGCCCCGTTCCGTTCGGCATGGGTTACCATACGTGGTTCCTGCTGGACGGCGAACCGCATCGCTGGACGCTGGATCTGCCAGTTGAAGGCATTTATACTTTGAATAATGAACTGATCCCGACCGGCGATCTTTCACCTCTCGGCCATTTGGAACAACTGAATTCGGGACTAAACCTGAAGGATGCCGACCTGGATACGATATTAAAGATCCCTGAGGGCAAACCTGCCGAGGCCTTGCTGAAGCGGGACGATGGTTACCAAATTCATTATTCGGCAGACCGTGCCTTCTTCAAGCATTGGGTGCTCTATACCAAAGGTGTTGCCGAGCAGTTCCTCTGCATCGAACCGTACACCTGGCTTCCCAACGCACCCAATTTGAATCTCCCGAACGAAGAAACCGGGCTGATTCATTTGGAACCGGGACAGACCGTGAATCTGACGACCAAGATCAGCATTCAGAATACGTCACCGGAGGCAGAGCAAGGATAA	MNQVTKGQWNGYDTYILNSGRLEVTLLPRLGNNVIGIKDNENSREILRKPDESELAFYLQKPYHFGIPMLIPPGRISKGHFEYGGTSYQFDQNTANDNHIHGLHRSQAWCVSDIEEEDDGCAVSTEFISSDDPKWIAQFPEPLKLEMTFRLQGTRLTQSLRVTNLGASPVPFGMGYHTWFLLDGEPHRWTLDLPVEGIYTLNNELIPTGDLSPLGHLEQLNSGLNLKDADLDTILKIPEGKPAEALLKRDDGYQIHYSADRAFFKHWVLYTKGVAEQFLCIEPYTWLPNAPNLNLPNEETGLIHLEPGQTVNLTTKISIQNTSPEAEQG	PGPT0017825_3936	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
AK002_05436	222			Small, acid-soluble spore protein alpha	ATGGCTCAAGGTCGTTCTTCTAACAATCTTGTCGTACCTCAAGCAACTGCAGCTCTTCAACAATTGAAGATGGAAGCTGCTCAAGAACTGGGCGTAACGATTCCACAAGACGGTTACTATGGAAACTATACTTCCCGTGAAACCGGTTCTTTGGGAGGTTACATCACCAAACGTCTGGTACAATTGGCTGAGCAGCAATTATCGGGTCGTTCGAACCTGTAA	MAQGRSSNNLVVPQATAALQQLKMEAAQELGVTIPQDGYYGNYTSRETGSLGGYITKRLVQLAEQQLSGRSNL	PGPT0024865_72	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024865-SASP_B|sspB-K06419	NA	NA
AK002_05437	405			hypothetical protein	ATGGTAAAACTAGATCAATTATCACTGGCTAGGCAGCTGGACATCGTGTTTAAAGAGCTGGAAGAAGAGTTGGGAGGTCTAAGCTCGGGGACGGTTTTTGTACAAATACGAAACAATGTAATTGGTAAATTTGGCATACGGCATAACCCATTGTCTGGGCGTAACGGGATCATAGCTCCGCAAGAGGAGGGGCTAAGTGAGGCTCAACAATTCTCTTTTCGTTCGATGGCGCTTGAAAGTCTGAAACATAAACGCCATTGGACACATGGCGAAATCAGTTATGAATTTATGGTGCGACAAGGCATCGTCGTTGTGGATGCTGTGCTTGAATCCAACTATAACATGGCCAACTTGATGATACGGTACCCTCGTAATACATATGCCGAAGCTGCTTCGGAATCCTGA	MVKLDQLSLARQLDIVFKELEEELGGLSSGTVFVQIRNNVIGKFGIRHNPLSGRNGIIAPQEEGLSEAQQFSFRSMALESLKHKRHWTHGEISYEFMVRQGIVVVDAVLESNYNMANLMIRYPRNTYAEAASES				NA	NA	NA	NA	NA
AK002_05438	1794	pepF1_3		Oligoendopeptidase F, plasmid	ATGGCACTTCAACAAACTTGGGATTTGGAATCGATATTTCCAGGAGGCTCCTCCTCGCCGCAGCTCGGGAGCTTTATTGAGGCTTTGGAGCAGGATGTACATAAGCTTCAGCAAGACGTCAAGGCATTGGCTGTTCCAGAGACCATCGAGAGCGCATCCAGTCTGGAGCGCTTCCTTGAGCAGTTCCAGAGCGCCTATGCAAGGATCCGCGAGGTTTCTGCCTTTGTTGGCTGCCTGACCGCACAGAACGTGAATGACAAGAAGGCGGTTCAATTGTCCGGGCGGGTAACTACGCTGTCTGCGGCCCTGCAGTCGGTGAAGAACCAGTTCGATAACGTGCTTCGGGGAATGAACGATGAGCTCTGGACCGCATGGACCGGTACGGATAAGGTGTCCGAGCTGGAATTCGTACTGAACGAAAGCCGCAATCTCGCGAAGGATAAGATGAGTCCCGAGCTGGAAAGCCTGGCTCTGTCGCTGGGGGTAGACGGTTATCACGGATGGGGAGAGTTCTACGACACCATCGTGAAGAAAATCCAAATTCCGTATGAGGAAGACGGAGAGACGGTCATGCTGTCGGCAGGGCAAGCGTTCAATAAAATGCATGATCCACGCCGGGAAGTGCGCCAATCCATGTTTGAGAAGTGGGAGAAGGCTTGGGGAGACTCCGCTGATTACTGCGCGGATACCTTGAACCATCTATCCGGCTACCGCCTGAAACTGTACGAGAACCGCGGCTGGGACGATGTCCTGAAAGAACCGCTGGCGATTGGCCGGATGAGCCGCGAGACGCTGGACACGATGTGGGCCGTCATTCAGGATACGAAGTCGGTGCTTGTAGAGTACCTGAACCGCAAAGCGAAGCTGCTCGGTCTGGACGGGTTGTCCTGGACCGATGTGGATGCTCCGCTCCGTACTTCGGCAACCAAGATCTCGTATGACGATGCCGCTGTTAACATCGTGGAGCAATTCCGTAAGTTTAGCCCGAGATTGGCGGATTTTTCGCAGATGGCGTTCGACAAGAGCTGGATTGAGGTCGAGGACCGCCCCGGGAAGCGACCTGGCGGTTTCTGCACCTCCTTCCCGGCAAGCGGCCAGACGCGGATTTTCATGACGTTTGGCGGAACGGCCTCGAACGTTTCGACCTTGGCTCATGAGCTGGGTCATGCCTATCATCAGCATCTGATGGGCGGAATTCCGGTGCTTAACCAAAAGTATGCGATGAATGTCGCCGAGACGGCATCCACCTTCGCCGAGATGATTGTTTTTGATGCGATGGTGAAGGGGGCAGGCAGCGAAGAGGAGAAGCTGGCTCTGTTGGAAGAGAAAATTCAGAACAGCGTGGCCTTCTTTATGAACATTCATGCACGTTTCTTGTTCGAAACCCGCTTCTATGACAAGCGGAAGAACGGTCTGCTGAGCAGCGAGGAGATCTCCGATTTGATGGTGGAGGCACAGAAGGAAGCATACTGTGATGCCCTGACCTCGTACCATCCGCATTTCTGGGCATCCAAGCTTCATTTCTATATCACGGGCACCCCGTTCTACAACTTCCCGTATACCTTCGGTTATATGTTCAGTACGGGCCTCTATGTTCGGGCATTGGAAGAAGGTCCGACCTTTGCGGACAAATATGATGCTTTGCTTCGAGACACAGGCGTAATGTCCGTGGAGAACCTGGCAAAGAAACATCTGAATGTGGATCTGACCCAGCGTGACTTCTGGCAAAGCGCGGCGGACTCCTGCGTCAACGATATTAAGCAGTTCTTGCAAATGACCGAGCATCTAGCATAA	MALQQTWDLESIFPGGSSSPQLGSFIEALEQDVHKLQQDVKALAVPETIESASSLERFLEQFQSAYARIREVSAFVGCLTAQNVNDKKAVQLSGRVTTLSAALQSVKNQFDNVLRGMNDELWTAWTGTDKVSELEFVLNESRNLAKDKMSPELESLALSLGVDGYHGWGEFYDTIVKKIQIPYEEDGETVMLSAGQAFNKMHDPRREVRQSMFEKWEKAWGDSADYCADTLNHLSGYRLKLYENRGWDDVLKEPLAIGRMSRETLDTMWAVIQDTKSVLVEYLNRKAKLLGLDGLSWTDVDAPLRTSATKISYDDAAVNIVEQFRKFSPRLADFSQMAFDKSWIEVEDRPGKRPGGFCTSFPASGQTRIFMTFGGTASNVSTLAHELGHAYHQHLMGGIPVLNQKYAMNVAETASTFAEMIVFDAMVKGAGSEEEKLALLEEKIQNSVAFFMNIHARFLFETRFYDKRKNGLLSSEEISDLMVEAQKEAYCDALTSYHPHFWASKLHFYITGTPFYNFPYTFGYMFSTGLYVRALEEGPTFADKYDALLRDTGVMSVENLAKKHLNVDLTQRDFWQSAADSCVNDIKQFLQMTEHLA	PGPT0020965_1865	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
AK002_05439	186			hypothetical protein	ATGAGACCTTTGCAAATTTCACCGGAGACGGCGGTTACACTGTCCAAGCAGCTGGGCGTTCCGCTGGAACAGCTGATGCATATGCCTCAGCATATATTAATGCAGAAGATTGCCGAGCTTGCCAAGAATGAGGAAGCGAAAGCAGCCCCGAAAGACGATGAGTCCCATTCATCGGAGAACTCATGA	MRPLQISPETAVTLSKQLGVPLEQLMHMPQHILMQKIAELAKNEEAKAAPKDDESHSSENS				NA	NA	NA	NA	NA
AK002_05440	231			hypothetical protein	ATGATTCCTTTTTCGAATACGTGGCCTTATGATGTCGTTGGCAACGACGTATATGTACACAGCTGCCCCTTCTGCGGGACCGACAATGTCTTGCTTCCCATGAAGCCTAAGGAGCTTGTAAGCGTTAGGGAAGGGAAAAAGAAGCTGCTCATCTTCCCCTGCTGTCACAACAAAGTTACCGTGCTGGACAGCGACATCGACTATTTGCTCACGGATCAGCGATTGCGCTGA	MIPFSNTWPYDVVGNDVYVHSCPFCGTDNVLLPMKPKELVSVREGKKKLLIFPCCHNKVTVLDSDIDYLLTDQRLR				NA	NA	NA	NA	NA
AK002_05441	696			hypothetical protein	GTGAAATTGGAACCCTTGTATTCCATCAAGGTGGCTTGTGCGCACTGTGATCATGAATACTTAACGTCCAGGGTGAGACCAAGCTTTAAGAAAGCATTCCGTACGGATACGGATTTCTGCGCTTATTACAAATCGGAGAACCCCGATTTTTACGTGGTGCGGGTCTGTCCCGAATGCGGATTTGCTTCGACGGAACACTCGACCCTGAAATTGAATGAACGGCAGAAGACGCTCTTCTATGACCAGGTTGGATGCCGCTGGGAGAAGAGGGATATGGGCGGTCCCCGCAATCTGGAGGATGCCCTGGAGTCGTACAAGCTGGCTCTCCTCTGCGCCCAGGTGATCGGGGAGCGGGACCGCATCGTGGCCAGCCTGCTGCACCATATCGCATGGCTGTACCGGTATCAGGGCAACGAGGATCAAGAGAAGCGGTTTTTGGGGTACAGCCTGGAATCCTATATCCGGGTGTTTGAACTGGAAGGGGTAGGGGCGAATGATGCCCGTCTGCTGTACCTGATCGGAGAGATTCATCGCAGGCTGGGACAGTTCCAGGAGGCGGTCCAGTGGTTCTCCAGAGTGGTCCAGGACGAGAAGATCATGGATGCTGCCATGATCCGAGCCTCCAGAGAGCAGTGGAAGCTGATAGCCGAACAGATCCGGGAGCAGAAGAACGCGGCGATTCAGGCGGAGTCATAA	MKLEPLYSIKVACAHCDHEYLTSRVRPSFKKAFRTDTDFCAYYKSENPDFYVVRVCPECGFASTEHSTLKLNERQKTLFYDQVGCRWEKRDMGGPRNLEDALESYKLALLCAQVIGERDRIVASLLHHIAWLYRYQGNEDQEKRFLGYSLESYIRVFELEGVGANDARLLYLIGEIHRRLGQFQEAVQWFSRVVQDEKIMDAAMIRASREQWKLIAEQIREQKNAAIQAES				NA	NA	NA	NA	NA
AK002_05442	378	yjbI	COG2346	Group 2 truncated hemoglobin YjbI	ATGAATCCGAACTTAAGCATCTATGATAACCTCGGGGGTGCCGAGGGTGTACGATCGCTCGTCGAAGCTTTTTATCCGAGAGTGCAGCAAAATGAGCTGCTTTCGCCATTGTTTCCGGAAGATATCATGCCGGTGATGGAGAAGCAATATATGTTCTTGAGCCAGTTTTTCGGAGGGCCGGCCTTGTTCTCGGAAGCGTTCGGACACCCGATGATGCGGGCCAGGCACATGAAATTCCCGATAACCGACCGTCATGCCGAAGAATGGCTTGGCTGCATGGCCGGAGCCTTAATCGAAATCGGCGTGGAGGATGATTTACGTGATTTTGTGCTGCAGCGTCTTTCGGGTCCCGCCCACCATTTCGTGAATACTCCGTAG	MNPNLSIYDNLGGAEGVRSLVEAFYPRVQQNELLSPLFPEDIMPVMEKQYMFLSQFFGGPALFSEAFGHPMMRARHMKFPITDRHAEEWLGCMAGALIEIGVEDDLRDFVLQRLSGPAHHFVNTP				NA	NA	NA	NA	NA
AK002_05443	1218	ylbJ_2	COG3314	Sporulation integral membrane protein YlbJ	ATGACCATGAAAAAATTGGGCTGGCTCATGCTCGTGTCGGCTCTGATCAGCGTGATTGTCCTGATGGCTTTGTTTCCCGAAGCGGCGCTCCAATCCGCACTCCGCGGCCTGGCGATATGGTGGGACGTGCTGTTTCCATCCCTGTTCCCGTTCTTTGTCATTTCAGAGGTGCTGTTAGGGTTTGGCGTGGTGCATCTGATCGGCACGCTCCTGGACCCCATGATGCGACCGTTGTTCCGAATTCCGGGTGCAGGAGGGTTCGTGGCCGCGATGGGATATGTTTCAGGTTACCCCGTCGGTGCCAAATTAACCGCCAAGTTGTGGGAGCAAAAAATGGTAAACCGGGAGGAAGGTGAGCGACTTGTTGCCTTTACCACCTCTTCGGATCCTATATTTCTGATTGGAGCGGTATCCATCGGTTTCTTTCACGATCCCAAAATAGGTCTCATTCTGGCCCTCGCCCATTATGGCGGAGGTTTTCTCGTAGGGCTGTTGATGAGATTTCATGGCAAGCGCGAGTCCAATACATCAACCGATTCGCTACGCCTGTCCCAGTCGAAGACAAGCCGGCTTAAATCCGCCTTTCAGGCCATGCATGCAGCGCGGGAGCAGGATGGCCGTGATCTCGGCACGCTGCTAAGACAAGCGATTCAATCATCGCTTCAGCTGATTATCGTTGTCGGCGGTCTTGTGGTTTTCTTCTCCGTGTTTCTTGAACTCTGGACCCGGGCCGGCGTCATGCCCGCGCTAACGGAGGTCATCAGTCTGCTGTTATCCCTCGTTGGCATGCCTGAATCCTTATCCACTGCCATCGTGGGGGGACTGTTTGAAGTGACGCTGGGCGCACGCTATGCCGGGGAGGCAGGTGCCGTTATTCCTCTGCCTTACAAAGCGGCCGCGGCAGCCTTTATCTTGTCTTGGGGCGGCCTGTCCGTTCATGCCCAGATCATCAGCATCCTGAACTCTACCAACCTTAGGTATTTTCCGTTTGTCGTAGCCAGGCTGATCCACGGCGTTATTGCCGCCACCGCCGTGTTGCTGTTGTGGAGAAGCGTCATGGGTTCTTCGATACCGACGCTGGCGGTGCCGTCTGTTTCGGATTCCTCCCTAAACGGGTATACCCATATTATGGCGGCTTTCTGCATCCTGCTCGGTTTCCTGATTGCAGTTGCGTTGTTTATTCAGATCCTTCGAGGACTGCAGCAGAAATTCCGCTAA	MTMKKLGWLMLVSALISVIVLMALFPEAALQSALRGLAIWWDVLFPSLFPFFVISEVLLGFGVVHLIGTLLDPMMRPLFRIPGAGGFVAAMGYVSGYPVGAKLTAKLWEQKMVNREEGERLVAFTTSSDPIFLIGAVSIGFFHDPKIGLILALAHYGGGFLVGLLMRFHGKRESNTSTDSLRLSQSKTSRLKSAFQAMHAAREQDGRDLGTLLRQAIQSSLQLIIVVGGLVVFFSVFLELWTRAGVMPALTEVISLLLSLVGMPESLSTAIVGGLFEVTLGARYAGEAGAVIPLPYKAAAAAFILSWGGLSVHAQIISILNSTNLRYFPFVVARLIHGVIAATAVLLLWRSVMGSSIPTLAVPSVSDSSLNGYTHIMAAFCILLGFLIAVALFIQILRGLQQKFR				NA	NA	NA	NA	NA
AK002_05444	804	ppnKA	COG0061	NAD kinase 1	TTGAGATATTATGTTCTGGACCGCGGTGACCCATTGTCTGTCGAGCTGACCCAGCAGTTTCACAAGCTGGCGGAACAGCGGGGGTTTGTGCTGGATGCAGAATCTCCGGAGATTGTGGTCTCGATCGGTGGAGACGGTACGATGCTGCACGCCTTCCATACGTTTATAGACCGTATTCCCGACCTCGCCTTCGTCGGCGTCCATACGGGCCACTTGGGATTCTATGCTGACTGGAAGGCGGATGAACTGACGGAGCTAATTGATCATATGAGCGGAGAAGGCGAACACGGCAACGTGAAGCCGCGCCTCGTCAAGTATCCCCTGGTTCAACTGGAAATCCATAAGAAATCAGGAACGTCCTCTTACATTGCCTTAAACGAATTTACACTTAAAGGCGTTGACGGTACCGTTGTCGCGCAGATTGACATCAACGACGTGACCTTTGAGATGTTCAGGGGAGACGGCATTTGCGTATCCACGCCGTCCGGCAGCACGGCGTATAACAAGAGTGTCGGCGGGGCGATGGTTCATCCCTCGATCGATGCGCTTCAGATTGCGGAAATCGCCTCGATTAACAACCGGATTTTCCGTACGCTGGGCTCGCCGCTGCTTCTGCCCAAGCATCATCATTGTGATATATTCTCGCGAAAAGAACAGCGTTTGCTGCTTACTATCGACCACGTTAATATCTCGATTGACGACCTCGTATCCGTGCGCTGTCAGGTGGCGGAGCAGCAGGTCAGTTTCGCACGTTATCGGCCGTTTCCGTTCTGGAACCGCGTCCGCGATGCATTCCTTGGTTAA	MRYYVLDRGDPLSVELTQQFHKLAEQRGFVLDAESPEIVVSIGGDGTMLHAFHTFIDRIPDLAFVGVHTGHLGFYADWKADELTELIDHMSGEGEHGNVKPRLVKYPLVQLEIHKKSGTSSYIALNEFTLKGVDGTVVAQIDINDVTFEMFRGDGICVSTPSGSTAYNKSVGGAMVHPSIDALQIAEIASINNRIFRTLGSPLLLPKHHHCDIFSRKEQRLLLTIDHVNISIDDLVSVRCQVAEQQVSFARYRPFPFWNRVRDAFLG	PGPT0013490_5285	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
AK002_05445	540			hypothetical protein	ATGATCGTTATCGGAAACAAAAGCTATGAAGTGTTAAAGGACCATCGAAACGGCTGGAATCTGGAAGCTTTCCGGGAGCGGTACAGCGAGGTGCTGGACCGCTATGATTACATCGTGGGAGACTGGGGTTATAATCAGCTTCGGCTTAAAGGCTTCTATCGGGACAATCATCCCAAGGCTGCCAAGGATTCAACCTTTTCCAGCATGTCCGATTACATTAACGAATATTGCAATTTTGGCTGTGCTCACTTTGTGCTTCAGAAAACGAAGGAGCAGAAGGAAACGAAAGAGCATGCCTCCAATACGAAAGAGCCTGTAGAGGTTCGAGAAACATCCCCTAAGGATAACCGGGCTGAGGGGGAAGCACAGGGGGGCAAGGAACCCCAAGAGGGCCCAAAACCGGGCAAGGAGCACAAGGACCAGCGCGAGCGGCGCGAAGGCAAGGATTCAAGACGCGAACCGCGCGAAGCCAAGGCCCCCAAGGAGAAGGAAGCAAAGCCTTCCAAGGAGCCTCATGTGGCTTCAGAGAAGCCGCAATAA	MIVIGNKSYEVLKDHRNGWNLEAFRERYSEVLDRYDYIVGDWGYNQLRLKGFYRDNHPKAAKDSTFSSMSDYINEYCNFGCAHFVLQKTKEQKETKEHASNTKEPVEVRETSPKDNRAEGEAQGGKEPQEGPKPGKEHKDQRERREGKDSRREPREAKAPKEKEAKPSKEPHVASEKPQ				NA	NA	NA	NA	NA
AK002_05446	894	lipA	COG0320	Lipoyl synthase	TTGTCTAAAACCAAACAGCCAAAACCTGACTGGATTCGAATCAAGCTGACTACTGGCGATAATTATAAAGAAATCAAAAGCATGATGCGATCCAAAACACTTCATACGGTGTGTGAAGAGGCTCGCTGTCCAAATATTTACGAATGCTGGGCTAACCGTACGGCAACCTTCATGATTCTGGGTGACATTTGTACCCGCGCTTGCCGATTCTGCGCCGTGAATACGGGGCTTCCAACGGAGCTGGACCTGCAGGAACCGGAACGGGTAGCGGAGGCGGCCGAGCAAATGAATTTGCGTCACTGCGTGGTAACAAGCGTTGCACGGGATGATCTGAAGGATGGCGGTGCCTACATATTCGCCGAAACCGTCAAAGCCATTCGCCGACGCCTGCCGCTGTGCTCGGTGGAAGTGCTGATCCCGGATTTTATGGGAGACGAAGAATCGCTGAAAATCGTGATGGACGTAAAGCCGGATATTCTGAACCACAACATTGAGACGGTGGAGCGTATGTCTGATCGCGTACGTGCCAAAGCCAAGTATTCCCGCTCATTGCAGCTGCTGAAGAATGCCAAGGCGATGCAGCCTGACATTCCGACCAAATCCAGCATCATGCTGGGCGTCGGGGAACAATGGCATGAAATTCTGGAGGCGATGGACGACTTGCGTTCGGTGGGATGCGATATCATGACGATCGGCCAATACCTGCAGCCTTCGCCGAAACATCTGAATGTTGAAAAATACTACACGCCGGAAGAGTTTGCGATCTTGAAGGAAGAAGGAATGAAGCGCGGATTCAGCCACGTGGAATCCGGCCCACTTGTGCGCAGTTCCTATCATGCACACGAGCAAGTGAAATCTGCGGAACGCAACAAGGAAGAGACGGTGCAGTCTTAA	MSKTKQPKPDWIRIKLTTGDNYKEIKSMMRSKTLHTVCEEARCPNIYECWANRTATFMILGDICTRACRFCAVNTGLPTELDLQEPERVAEAAEQMNLRHCVVTSVARDDLKDGGAYIFAETVKAIRRRLPLCSVEVLIPDFMGDEESLKIVMDVKPDILNHNIETVERMSDRVRAKAKYSRSLQLLKNAKAMQPDIPTKSSIMLGVGEQWHEILEAMDDLRSVGCDIMTIGQYLQPSPKHLNVEKYYTPEEFAILKEEGMKRGFSHVESGPLVRSSYHAHEQVKSAERNKEETVQS	PGPT0003935_4028	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
AK002_05447	1083	lytH	COG0739	L-Ala--D-Glu endopeptidase	TTGAGGATTTTACAACCATTGCGAGCAAGGTGCATCATGTATCGGTCCACGGCTGCAGTCGTGGCTGCCTTGATGGCTGCCTGCTGCATGTGCGGGCCTGCGTCCGCATCCGCCTCCATGGCGGTCAGCGCGGCTGACGATGCGACTAAATCAACGGACGCTGCAGCGAATTTTGCAGACCGGAAGTCTTTATACGATCAGGTTTCCACCGTTACCCAAATTCCTTGGCACCGCCTGGCGGCCATTGACCAGTATGAACGAACGCTGACCCGGGTTCATCCCAAGGATCGAAAGCATCCGGACCGCACCCTCGGTATCTTTATCCCTTCCACCCGATGGGCCGGCCCGTTGAATCCCAATCAGGAAGACGTGAATCCTATGTCGATCAGCGTGTTCTCCGGGATCGGGCTCGATGGGGACGGGGATGGCAAGGCAGACCCCAATAATGATATCGACCTGCTCTACACGGTTGCGACAAGACTTTCCCCTTATGGGCATGCCGCTGATGATTTCAGCATCGGCCTATGGTCATACTACCAGAACACGCGGGCCGTACAGCGCATCATGCAGTATGCCAAACTGTACGAGACCTTCGGGAAGCTGGACCTGTTCGACCATGCGTTTCCCCTTCCCGTCAAGAGCAACTATTCCTACCGAAGCACCTTTGGCATGGGGCGCAACTGGGGAGGTAAAAGGGTTCACGAAGGAACGGATTTGTTTGCTTCATACGGAGTCCCCGTTCGAAGCACCTGTTACGGCGTCGTCGAAATTAAAGGCTGGAATAAATACGGCGGCTGGCGCATCGGCATCCGTGATTTGAACAATCATTACCATTATTACGCCCATCTGCAGGGCTTTGATAAAGGGATTTCGCTCGGGGATGTCGTTACGCCGGGTCAAACCCTCGGCTGGGTCGGCAGTTCGGGCTACGGCAAGCCCGGAACCCAGGGCAAATTCCCGCCGCACCTGCATTACGGCATCTACCGGGACACCGGATTGACCGAATGGGCTTTCGATCCTTACCCGCTGCTGAAGCACTGGGAACTGGAAGAAAAACGCTCGAAGAAAAAAACGCGCTCCTGA	MRILQPLRARCIMYRSTAAVVAALMAACCMCGPASASASMAVSAADDATKSTDAAANFADRKSLYDQVSTVTQIPWHRLAAIDQYERTLTRVHPKDRKHPDRTLGIFIPSTRWAGPLNPNQEDVNPMSISVFSGIGLDGDGDGKADPNNDIDLLYTVATRLSPYGHAADDFSIGLWSYYQNTRAVQRIMQYAKLYETFGKLDLFDHAFPLPVKSNYSYRSTFGMGRNWGGKRVHEGTDLFASYGVPVRSTCYGVVEIKGWNKYGGWRIGIRDLNNHYHYYAHLQGFDKGISLGDVVTPGQTLGWVGSSGYGKPGTQGKFPPHLHYGIYRDTGLTEWAFDPYPLLKHWELEEKRSKKKTRS	PGPT0024030_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024030-lytH-K21472	NA	NA
AK002_05448	963			hypothetical protein	ATGAGACGAAAGAGATGGGGAAGCAGGCGTTTGGCCTTTCCGTCGCTGTCGTGGCCTAAACCAAGGAGAGCTTACAAACCACCGCGCAGAGGCTTTCGGCCCGTACCGCAGAGCCGGGGGCGTCCTCAGGCTGCCAAACGGCGAAGCACAAAAAAATGGTGGCTGATCGGCGCTCTGCTCCTTGTGTTTGGGATCGTTGAGTTTTTTATGTATATCGAGCAGAATCTGCGGCCGCCGATCATGCATTTAGCCCAAATCCGGGTTAAGCAGATCGCTACCGAAGCCATCAATAAAGCGATCACCTCCCAGGTGACGCAGGGCAAGGATTTTGATAATCTGGTCAACTGGAAAACGGACAGCTCGGGCAAAGTGACCGGATTTATGCTGAATTATGCCGAGCATTTAAAAATCACGTCCCATACGACGCAGGTCGTGCAGAGCACGCTGGACGAAATCCATAAGCGCAAAGAGCAAATTCCGCTGGGACAGGTGTTAAAAAGCCCGATCATCGCTTCATTCGGTCCGCAAATACCTTTAAAGATCGAACCCCAAGGAGCGGTAAAGGTTCAGCTGGATACGAGGCAGCAGGGGGCCGGCATCAATATGATCCTGGTGGAGGTATTCGTCCACATCGTGACGGAGGTAGCGGTTGTCGTTCCTTTTGACATGGAGCCGCAAATCGTGGAGACCGATATTCCGATCTCGTATCTGCTCGTGGTAGGCGATGTGCCGATGTATTATTACGACGGCCAAGGAAAGGCGGTCGGCGAGAATAAGGCAAGCGCACCGAGCATCGCGATACCGCCGCCGGTAACGGACGAGAACACCCATGACGGGCAGCAGGAGATTCCGCCTGCAACGACGCCGGACCCTCCTGCCCAGGGAACGACGACGCCTCTTGTGCCTACGCCGGGCGGCGCCGACATGCCAGGGCATACGGAGGGAAGCGGAACAGGCGAGTAG	MRRKRWGSRRLAFPSLSWPKPRRAYKPPRRGFRPVPQSRGRPQAAKRRSTKKWWLIGALLLVFGIVEFFMYIEQNLRPPIMHLAQIRVKQIATEAINKAITSQVTQGKDFDNLVNWKTDSSGKVTGFMLNYAEHLKITSHTTQVVQSTLDEIHKRKEQIPLGQVLKSPIIASFGPQIPLKIEPQGAVKVQLDTRQQGAGINMILVEVFVHIVTEVAVVVPFDMEPQIVETDIPISYLLVVGDVPMYYYDGQGKAVGENKASAPSIAIPPPVTDENTHDGQQEIPPATTPDPPAQGTTTPLVPTPGGADMPGHTEGSGTGE	PGPT0025000_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025000-yunB-NA	NA	NA
AK002_05449	354			hypothetical protein	ATGTCGCAGGCCGCTCCGAAGCATGATGTCTACCAAGCCATCGCAGATCCGACTCGTCGTAAGCTGCTCGGCTTGTTAAGCGATAAGGAAATGCCGGTTAAGGAAATTACGGGATATTTCTCCATGACGCGAACCGCCGTGTCCAAGCATCTCCGAATTTTGGAGGAAGCGGGTCTGGTGCAGGACCGCAAGGTTGGACGCGAGACCCGCTATCGCCTGCAAGCAGAGCCGCTTAAGGAATTGAAGGATTGGCTGTCTTATTTCGACCGCTTCTGGGAGAACAAACTGTCGATGCTGAAATACTACGTGGAAGATCAAGAAAACGATCCAAAGATCGCTAAGGAAGAAGAGTGA	MSQAAPKHDVYQAIADPTRRKLLGLLSDKEMPVKEITGYFSMTRTAVSKHLRILEEAGLVQDRKVGRETRYRLQAEPLKELKDWLSYFDRFWENKLSMLKYYVEDQENDPKIAKEEE	PGPT0004735_3488	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK002_05450	426	yndB	COG3832	putative protein YndB	ATGGACAACGCAACAAACGGCAAGCTGCCGGATATTCGTCATACTCTTGTGCTGAAAGCGCCCATCCAGAAGGTGTGGAAAGCCGTAGCCACGGCTGAAGGGATTTCGTCGTGGTTCATGCCTAACAATTTTGAACCGGTTGAAGGGTTCGAGTTTCAATTGAATGCCGGCCCCTTCGGAAATTCACCATGCAAGGTGACGCTTATTGATGAGCCTAACCGGTTGTCTTTTAACTGGGGCAAGGATTGGAGCGTTACCTTCGAACTGGTGGAGCAGGGAGATCATACGGAATTCACGCTCATCCATGGCGGATGGACAGCGGATCAAGTAACCGAGTTCGGGGAAGCGCATGACATCGTTCGAGGCCGCATGGACAACGGCTGGGCTGGCATTGTTCAGAAGCTTGCGGGATACGTCGAGGCGTAA	MDNATNGKLPDIRHTLVLKAPIQKVWKAVATAEGISSWFMPNNFEPVEGFEFQLNAGPFGNSPCKVTLIDEPNRLSFNWGKDWSVTFELVEQGDHTEFTLIHGGWTADQVTEFGEAHDIVRGRMDNGWAGIVQKLAGYVEA				NA	NA	NA	NA	NA
AK002_05451	426			hypothetical protein	GTGTACGAGCAAAAAACAAAAGAAACGGATCACAGCGTGGTGGAGTTTATCGAGCAAGTGGATTCGCCGAAAAAACGGGAGGATGCCTATCGTTTGCTGGAGATTTTTGAAGAAACGAGCGGTTTTGCGGCCAAAATGTGGGGACCGAGCATCATTGGTTTCGGCTCCTACCATTATCGTTACGCCTCCGGGCATGAGGGAGATGCGCCGTTTGTAGGATTCTCCCCGCGAAAAGCGAAGATCAGCCTGTATTTTGCGCCAGGCGATGATCAGCGGGAGGAGCTGCTGACGAATTTTGGCAAGCATACGGCAGGGAAAGGCTGCGTGTACATCAATAAAGTGGCGGACATTGATGTTGAGGTGCTGAAGCAGCTGATTCGCGAATCGATCGCGTTCCTGAAAAAGACTTATCCGGATCAACCCTAA	MYEQKTKETDHSVVEFIEQVDSPKKREDAYRLLEIFEETSGFAAKMWGPSIIGFGSYHYRYASGHEGDAPFVGFSPRKAKISLYFAPGDDQREELLTNFGKHTAGKGCVYINKVADIDVEVLKQLIRESIAFLKKTYPDQP				NA	NA	NA	NA	NA
AK002_05452	801	aviRb		23S rRNA (uridine(2479)-2'-O)-methyltransferase	ATGGAGATATTATCGCCGCAGAATGCCAGAGTGAAGGGCTGGGCACAGCTGCAGGAGAAAAAACATCGGGACAAGCAGAACAAGTATGTGGTGGAAGGCATTCATCTCGTACAGGAAGCCCTGTCGTCCGGCGCGGACATCGAGTGCGTGGCTTATGACGTGGACAAGGGCATCCCCCAAGAGCTTCGTCATATTACGGATACAGGACAAGGTGCCGAATGGATCGGCGTATCCCATGCCGTCATATCGAAGGTCAGCGATACGCCGTCGCCGCAGCAGGTGTTTGCCGTCATTCGCAAGGAAGCGCGGCAATGGCAGGACCTGATCCTGCGCGAGAACGGTTTGGTCGTTGTTCTCGACGGTCTCCAGGATCCGGGCAATGTGGGAACCATCATACGAAGCGCCGATGCCGTAGGGGCTGCCGGCGTGGTCCTGGGGCGAGGCTGCGCGGATTTGTACAATCCCAAGACGCTGCGCTCTACCATGGGATCCCTGTTCCATCTGCCGGTGCTGGAGGGTGATCTGCTGAGCATCCTGCCGGAAGCCAGGGAACGGGGAGCCAGATTGGTGACCACCATGCTGGAAGGACAGCGCTCATGCTTCGAGTACGACTTCAAAGGGACAAGCTGGATCGTCATCGGCAGCGAAGGACGCGGCGTCTCGCCTGAGGTCGCGGCACTCGTGGACGATGCCATCCGTATCCCCATGCCGGGGCGTGCCGAATCGCTGAATGCGGCGATGGCCGCTTCCGTATTGATGTACGAGGCTTTAAGGCAGAGGGAGTACGCTGCTGAACTATAA	MEILSPQNARVKGWAQLQEKKHRDKQNKYVVEGIHLVQEALSSGADIECVAYDVDKGIPQELRHITDTGQGAEWIGVSHAVISKVSDTPSPQQVFAVIRKEARQWQDLILRENGLVVVLDGLQDPGNVGTIIRSADAVGAAGVVLGRGCADLYNPKTLRSTMGSLFHLPVLEGDLLSILPEARERGARLVTTMLEGQRSCFEYDFKGTSWIVIGSEGRGVSPEVAALVDDAIRIPMPGRAESLNAAMAASVLMYEALRQREYAAEL				NA	NA	NA	NA	NA
AK002_05453	663	ktrA_2	COG0569	Ktr system potassium uptake protein A	ATGGCTAAGAAGCAGTACGCAGTAATCGGTATGGGGCGTTTTGGCACAAGCGTTGCCAAGGAATTGAGCAGCATGGGTTTTGACGTATTAGCCGTTGATGCGAGCGAACAGCGTATTCAGGAAACTGCCAGCATGGTCACGCATGCCGTTTCGGCGGATTCGACCGATGAAGAGGCGCTCCGGGCGCTCGGCATTCGGAATTTTGATGTGGTTGTCGTGGCTATCGGGGAGGATATTCAATCCAGCATTTTGACGACGCTGATTCTGAAGGATCTTGGCGTACCGGCTATTATCGTAAAAGCGAAGAATGAGCTGCACGGAAAAGTGCTTAACAAAATCGGCGCGGACAAGGTGATTTTCCCAGAGCGGGACATGGGGCTTCGGGTTGCCCACCATCTGGTGTCGCCGAATATTCTGGACTATATCGATTTGTCGGACGACTACAGCATTATGGAGATGCTGGCTACAGGCGAGCTGATTGGCCACAATTTGAGAGAGCTGGATATTCGCGCACGATTCGGGTGCAATGTCATGGCGATTCGAAGCGAAGCGGACATGAACATTTCGCCAAGTCCGGATGACCGGATTGAGGAAGGCGATGTGCTCGTCATCGTGGGACATAAGAATGACTTAACGAAGCTGGAGCTTGCTTATCCCAAATAA	MAKKQYAVIGMGRFGTSVAKELSSMGFDVLAVDASEQRIQETASMVTHAVSADSTDEEALRALGIRNFDVVVVAIGEDIQSSILTTLILKDLGVPAIIVKAKNELHGKVLNKIGADKVIFPERDMGLRVAHHLVSPNILDYIDLSDDYSIMEMLATGELIGHNLRELDIRARFGCNVMAIRSEADMNISPSPDDRIEEGDVLVIVGHKNDLTKLELAYPK	PGPT0002710_4347	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
AK002_05454	237	sspI		Small, acid-soluble spore protein I	ATGTCCATATTGTTAGATCTAAGGCAAGCCGTCATTCATAAAGTCCACAATCAGGACGAAGAAGAGCTGCGCTCCATGATCGAGGGTTCCGTTGACGGGCCTGAAGCCGCCCTGCCGGGACTCGGCGTGATGTTTGAAATGATGTGGAAAGACATGGATGCTGCCCAGCAAAATACCCTTGTCTCTTCCCTTCACGACCATTTGAAAACCGTTACGCCTGGCAATCTTCAGGGATAA	MSILLDLRQAVIHKVHNQDEEELRSMIEGSVDGPEAALPGLGVMFEMMWKDMDAAQQNTLVSSLHDHLKTVTPGNLQG	PGPT0024900_15	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024900-sspI-K06426	NA	NA
AK002_05455	1581	prfC		Peptide chain release factor 3	ATGGCAAAGCTAATAGATGAACTGCAGCAGGAAGTGGATAAGCGTCGCACGTTCGCGATTATTTCCCACCCTGACGCCGGTAAGACGACGCTGACCGAGAAGCTGCTCTTGTTCGGGGGCGCCATTCGTCTGGCCGGATCGGTAAAAGCTCGTAAAGCGAGCAAGCATGCAACGAGTGACTGGATGGAGATCGAGAAGCAGCGGGGAATCTCCGTCACGTCGTCCGTGATGCAATTTGATTATTTAGGGCATCGGATTAATATATTGGATACGCCGGGTCACCAAGACTTCAGTGAGGATACTTATCGTACGTTGACGGCTGCCGACAGCGCCGTCATGTTGATTGACGTAGCCAAAGGGGTCGAGGCCCAGACCATCAAGCTGTTTCAGGTCTGCGCGAAGCGGGGCATTCCGATTTTCACCTTCATCAACAAACTCGACCGCGAAGGACGCAGTCCGTTTGACCTGATGGAGGAGCTTGAGCAGGTGCTGGGCATCCGCTCCGTACCGATGAATTGGCCGATCGGTTCCGGCCGCGACCTGTGCGGCGTGTACGACCGGGTGAAGAATCAGGTGGAATTGTTCCAAGGGGACGACCATTCCACGATTAAAGTGCAGAAGGTCGAAGGGTATGAAGATCCGCTCATCCGCGAAATGGCTGGCGATTATCTGCATGACCAGTTATGTCAGGATCTGGAGCTGCTGGATGTTGCCGGCGACCCGTTTGATCTGGAGAAAGTGATGCAGGGTCAGTTAACGCCTGTATTTTTCGGCAGTGCGATCAACAATTTCGGCGTCCAGACCTTTCTTGAAAACTTCCTCCAGCTTGCGCCGAAGCCGGAGCCGCGCCGCAGCACGGAAGGCGTGGTGGAACCGACCGATGAGAAATTCTCCGGTTACGTATTTAAGATCCAAGCCAACATGAATCCGGCTCACCGGGACCGCATCGCTTTCCTTCGAATCGTATCGGGCAAGTTCGAACGCGGTATGAGCGTGAAGCATGTGCGGGTAGGCAAGGAAATCAAGCTGGCGCAGCCGCAGCAATTTTTGGCGCAGGATCGAGATATTGTGCAGGAAGCATACCCTGGCGATATTATCGGTCTGTTTGACCCGGGGATTTTTCGGATCGGGGATTCCCTCAGCCAAGGACGCGAGGTTGTATTCGACGAGCTTCCGACGTTTTCCCCGGAGATCTTTGCCAAAGTAACCGTGAAGAATGCGCTGAAGCATAAGCAATATCAGAAGGGGATTGACCAATTGACGGAAGAGGGGACCATTCAGGTATTCCGCACCGTTAGCTTCGACGAGACCATTCTCGGGGTGGTCGGTCAGCTCCAGTTCGAAGTGTTCGAGTATCGGATGAAGGGGGAGTACGGCGTCGATGTCCAGCTGCAACGGATGCCGTATCAGTTCGCCCGCTGGCTCGTGGACGACAACATTGATCCGTCCAAGTTCCGGATTAACTCCACCCTCGTGAAAGACAAGAAGGATAATTATGTCGTTCTCTTCGAAAATGAGTATGCGATGAGAACCGCCATAGACAAGAACCCAACCGCCCAGTTTCTTGAGACCGCTCCGTAA	MAKLIDELQQEVDKRRTFAIISHPDAGKTTLTEKLLLFGGAIRLAGSVKARKASKHATSDWMEIEKQRGISVTSSVMQFDYLGHRINILDTPGHQDFSEDTYRTLTAADSAVMLIDVAKGVEAQTIKLFQVCAKRGIPIFTFINKLDREGRSPFDLMEELEQVLGIRSVPMNWPIGSGRDLCGVYDRVKNQVELFQGDDHSTIKVQKVEGYEDPLIREMAGDYLHDQLCQDLELLDVAGDPFDLEKVMQGQLTPVFFGSAINNFGVQTFLENFLQLAPKPEPRRSTEGVVEPTDEKFSGYVFKIQANMNPAHRDRIAFLRIVSGKFERGMSVKHVRVGKEIKLAQPQQFLAQDRDIVQEAYPGDIIGLFDPGIFRIGDSLSQGREVVFDELPTFSPEIFAKVTVKNALKHKQYQKGIDQLTEEGTIQVFRTVSFDETILGVVGQLQFEVFEYRMKGEYGVDVQLQRMPYQFARWLVDDNIDPSKFRINSTLVKDKKDNYVVLFENEYAMRTAIDKNPTAQFLETAP				NA	NA	NA	NA	NA
AK002_05456	1548	zwf	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGGCTGAAAATCAAAATCTAGATACAATGAAGACACCGGGAGCTGTATTTTTCATCTTTGGAGCGACTGGTGATTTGGCAAGACGTAAGTTGTTTCCGGCGATCTACAGTCTTTATCGTGAAGGAAAACTGGATGAGGATTTTGCTGTAATCGGCGTGGCGCGGCGTCCGCGCACCCAGGAGGAGTTTCGGGAGGACGTGTATCGTTCGATTCAGGAATTCTGCCGATATAGTTCGGAACAGGATAGTGAATGGAATGCATTTGCACAGCATTTTGAATATAAATCTTTAGATATCAACAATATTGACGGTTTCCGTGAGCTCCGCGAACAAACGGAGCAATTGGAAACGAAATTTAATATACCGGGCAACCGCTTGTTCTATCTCGCGCTTGCACCGGAATTGTTCGGCAGCGTATCGTTCAACCTGATGAAGGGCGGCATGCTTGACGGAGAGGGCTGGAACCGTCTTGTGATCGAGAAGCCGTTCGGCTACGATCTGGAGTCCGCTGCCAAGCTGAACGAAGAGATCCGTAAAGTGTTCAAGGAAGAGGAGATCTATCGGATCGACCATTACCTCGGGAAGGAAATGGTGCAGAACATCGAGGTTATCCGTTTTGCGAATGCTTTCTTCGAGCCGCTCTGGAATAACAAGCATATTGCCAACATCCAAATCACGCTTGGTGAAACGGTTGGCGTCGAGGAGCGGGGAGGTTATTACGACCATGCGGGCGCACTCAGGGATATGGGTCAAAACCATATGCTGCAGCTGCTGACCATGATTGCCATGGAGCCGCCTAGCCGTCTGCTCGCAGAAGATATTCGCGACGAGAAGGTGAAGGTGCTTCGCTCCCTGCGTCCATATGCCTCAAACGAAGAAGTCAAGAACAACGTGGTTCGCGGTCAGTATACGAGCGGTTCCGCAGGCGGCAAAGATCTGCCGGCTTACCGTGAAGAGGATAAGGTGAATCCTGAATCCAATACGGAAACCTATTTTGCGGCCAGAGTCTTTGTGGATAATTTCCGCTGGGCGGGCGTACCGTTCTATATCCGCACGGGCAAACGGCTTCCGGTTAAGACGACCGAGGTGGTCGTAGAGTTCAAACGGATGCCAACGAACGTATACTTGGGCCAGAAGCATTCCCTGGAGCCTAACCTGCTCGTTATCCGGGTCAACCCGATGGAAGGCATCTACGTGAAGATCAACGCGAAGAAGCCTGGCTCCGAGTCCGAGATCGCTCCGGTTGCGATGGACTTCTGCCAAAGCTGCATCGTGGGCATCAACTCTCCAGAAGCGTATGAGCGTCTGCTGCATGATGCCGCCCGCGGGGATTCCACCTACTTTACGCGTTGGGACGAAGTGGCTTCCGCTTGGTCCTTCGTGGATCGCATCGCTAGCGCTTGGAGAGAGAACCAGGGCGAGCTGGAATCGTATCCTGCCGGCTCCTGGGGACCTGACAAAGCGGATGAGCTGCTGAAGGAAGACGGCTTCCACTGGTGGCCGGTTAACGGTCAGCTTGAGGATAACGTAGTGTGGTTGAAAAAATAG	MAENQNLDTMKTPGAVFFIFGATGDLARRKLFPAIYSLYREGKLDEDFAVIGVARRPRTQEEFREDVYRSIQEFCRYSSEQDSEWNAFAQHFEYKSLDINNIDGFRELREQTEQLETKFNIPGNRLFYLALAPELFGSVSFNLMKGGMLDGEGWNRLVIEKPFGYDLESAAKLNEEIRKVFKEEEIYRIDHYLGKEMVQNIEVIRFANAFFEPLWNNKHIANIQITLGETVGVEERGGYYDHAGALRDMGQNHMLQLLTMIAMEPPSRLLAEDIRDEKVKVLRSLRPYASNEEVKNNVVRGQYTSGSAGGKDLPAYREEDKVNPESNTETYFAARVFVDNFRWAGVPFYIRTGKRLPVKTTEVVVEFKRMPTNVYLGQKHSLEPNLLVIRVNPMEGIYVKINAKKPGSESEIAPVAMDFCQSCIVGINSPEAYERLLHDAARGDSTYFTRWDEVASAWSFVDRIASAWRENQGELESYPAGSWGPDKADELLKEDGFHWWPVNGQLEDNVVWLKK	PGPT0017380_1236	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
AK002_05457	831			hypothetical protein	ATGCGGAAGATACGTTTACAGCTGATTGTGATGATGTTGTTGCTGTGCGGGGCAGCAGGGATGATGGCCGGTTTTGCGGGAACAACGGAACGCAATGGGGAGGAATCGGTTCCGCAAACGGCAGAGGCGTCAGCTTGGAAGGGAACGGCGAATGGAGCAACAGAAGCAGGGACTATAGCCGAAAGCAATTTGGAGCTTCTTGCAGCCCTTGGACAGGAACATATGGATCCTTCCGCGCTCCTCACGGTAAAAATTCAAGGCGAAATGATAAATTCGATTTCTAAGGATCAAGCTAAGACTGCAGCCGAAAAATTGGCTCGTGCAATGGGGCTTTCCGGCATTACCTCGAACGAGCTTCAAGGAAATGACGTATTCCAAGCGGAAGGCGATCGATCGGGCGTCTCCGTACATTTGGATTGGGCCCTCACGAAGCAAGGCCATAGTTATGCCAGAGTCATGCTTGTCGGAGAGGCAGCAGCGCAGGCCCGGGAAATGATGAGCCTTCAGCAGCATGTTCAAGAACGGATGGAGCAAGCAGGCATACCGAATACGTGGAATGCGTCCATTCAAGGATATGCAACGAAGTCAGGCAGCGTGGATGGAACGATGGCCCAAGTAGAAGAGGCCGTAGCCCGAAAGCTTCCGCTTCGTTCCGTTGAGGATTATGCGGATGTTACAACGATCAGCCGATCCTATGAGGCGCCTTCGCTGGGGACTTTTGTGAAGAGTGGCAACACGCCGATTCATATGCAGATCGCGGTGCATGAAGATTCGGTGAAGAAAAGCAGTAGAATAACGATCGGATTTCCTGTCATTACAATAGAATATTGA	MRKIRLQLIVMMLLLCGAAGMMAGFAGTTERNGEESVPQTAEASAWKGTANGATEAGTIAESNLELLAALGQEHMDPSALLTVKIQGEMINSISKDQAKTAAEKLARAMGLSGITSNELQGNDVFQAEGDRSGVSVHLDWALTKQGHSYARVMLVGEAAAQAREMMSLQQHVQERMEQAGIPNTWNASIQGYATKSGSVDGTMAQVEEAVARKLPLRSVEDYADVTTISRSYEAPSLGTFVKSGNTPIHMQIAVHEDSVKKSSRITIGFPVITIEY				NA	NA	NA	NA	NA
AK002_05458	645	liaR_4	COG2197	Transcriptional regulatory protein LiaR	ATGGAAGCACCGATTAAGGTACTGCTGGTGGATGATCATGAGATGGTGCGGATCGGATTGGCTGCCGTGCTTGGCACCGAAGACGGCATTGAGGTGGTAGGCGAAGCGGGCAGCGGCGAGGAAGGCATACGCCTGGCGCAGGAATATCATCCTGACGTGGTGCTGATGGATCTGGTCATGGATGGGATGGACGGCATTGAGACCACGCGGGAGCTGATGAAGCAATTTCCGAATCTTAAGGTGATCGTACTAACCAGCTATCTGGACGATGAGAAGATGTATCCGGTCATTGAAGCAGGCGCATTCAGCTATCTGCTGAAGACCTCCCGGGCTTCCGAGGTCGCCGATGCTATACGTGCCGCCGCACGGGGGCAGTCGGTTCTGGAGTCTCAGGTCGCTTCGAAGATGATGAATCGTTTCCGCCATCCGCAAAATGAAGCGCCAGCGCATAATGACCTGACGGACCGGGAGATGGAAGTGCTGCGATTGCTGGCACAGGGCAAATCCAATCAGGACATTGCCGATGATTTGATTATAGGCATCAAAACCGTGAAGTTTCACGTGACGAATATTTTGGGCAAGCTGGGGGTAGAGGATCGGACCCAAGCTGCCATTTACGCTTATAAAAATGGGCTGGCGGAGTAA	MEAPIKVLLVDDHEMVRIGLAAVLGTEDGIEVVGEAGSGEEGIRLAQEYHPDVVLMDLVMDGMDGIETTRELMKQFPNLKVIVLTSYLDDEKMYPVIEAGAFSYLLKTSRASEVADAIRAAARGQSVLESQVASKMMNRFRHPQNEAPAHNDLTDREMEVLRLLAQGKSNQDIADDLIIGIKTVKFHVTNILGKLGVEDRTQAAIYAYKNGLAE	PGPT0014870_196	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
AK002_05459	1074	liaS	COG4585	Sensor histidine kinase LiaS	GTGGAAACGGAAAAGAAAGCAAATATCATTACCCGAAGTATGCGTGAGGGGACCCTTCTGGGATTGGTTGTCATGCTCGTTGTCCTTTATTTATTATATACATATGGTTATCTTCGACCGTTTGAGACGTGGAAGAACCGGATCGAGGCAGGCATAACCCTGGTATTGCTGCCGATCGGGCTGGGAGCGATTTATGGCTTCTTCCAGGGATACCGGGTAAAACGGCGGGTCGATCTCGTTAGGGAAACACTCGTGAACTGGGAAAAAGGGAGTCTGACGGACGTCATGCCGGACATCGGCGAAGACGAAGTGGGCCGGCTTGGAGAACAGCTGGTGAAGATCAGCAAGCGCTGGGAGGATCAGGTGTCTTCCCTGCAGCGGTTATCCACGAACAATGCCCAGCTAGCCGAGCAGGCCAGGGTTACGGCGATCGTGGAAGAGAGACAGCGTCTGGCGCGCGAGCTCCATGATGCGGTTTCTCAGCAGCTGTTTGCCATCTCGATGACGGCAACAGCTGTGGGCAGGACGCTGGATAAGGATTTTGACAAAGCGCAGCGCCAGGTGGCTCTGATTGAGGAAATGTCGGCTGTGGCACAGTCCGAGATGAGGGCGCTTCTCCTTCATCTGAGGCCGGTTTATCTCGAAGGAAAAGCACTGGAGCAGGGGCTGCGGGATTTGATCACGGAATTGCGGATCAAAGTACCTATGGAAATTACGTTTGAGATGGACGATGACATACATTTGCTTAAAGGGATCGAAAATCATCTGTTCCGCATTATTCAGGAGGCCATGTCGAATACGCTTCGGCACTCGAAGGCGGAAAAAATGGACATCCGGATTCATCGCAGGCAGAACACCGTTCGGGTAATGCTGCGAGATGACGGGGTCGGGTTCGAACTGGACGACAAGAAACAGACTTCCTACGGTCTTTCGACCATGCAGGAACGGGTGACGGAAATCGGCGGCTCGTTACAATTCATCACGGCCCCGGGTAAAGGGACGCGGATTGAGATTATCGTGCCGCTCATAAACGAAGAACGCAAACGGGGGGATGGAGATGGAAGCACCGATTAA	METEKKANIITRSMREGTLLGLVVMLVVLYLLYTYGYLRPFETWKNRIEAGITLVLLPIGLGAIYGFFQGYRVKRRVDLVRETLVNWEKGSLTDVMPDIGEDEVGRLGEQLVKISKRWEDQVSSLQRLSTNNAQLAEQARVTAIVEERQRLARELHDAVSQQLFAISMTATAVGRTLDKDFDKAQRQVALIEEMSAVAQSEMRALLLHLRPVYLEGKALEQGLRDLITELRIKVPMEITFEMDDDIHLLKGIENHLFRIIQEAMSNTLRHSKAEKMDIRIHRRQNTVRVMLRDDGVGFELDDKKQTSYGLSTMQERVTEIGGSLQFITAPGKGTRIEIIVPLINEERKRGDGDGSTD	PGPT0014865_136	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014865-liaS-K11617	NA	NA
AK002_05460	645			hypothetical protein	ATGGACAGAAACCGCTGGATAGCAGTAGGTTTAATCAGCTTGGGTTTTATTATGCTTTTCGGCCGATGGTTTGGTTTCTTCACCATTGTCGCCCTGTTGCTCATCTTCGCGGGCGTCCTTCAGATCAGGCAAGGCCATGTGAAGAAGGGGTACATTCTGCTCGGCGTCGGAGCCGTGCTGCTGCTGCTCGAGCATCTTATGTTGATTATTGGCGTCAGTTTGATATCGCTGGGTATTTTCTACGGCAAGTCCAAACGGGCCCATACCACGACCAGATATATTCAGAAGCAGAACTTTATGTCCAACTTTGACTGGGACCGTGCACCCTGGGTGATGCGCAGCTTGAGCGTGTGGCATGTGCTCGGAGAAGCGGATGTGGATCTGTCCCTGGCGCTTCCCGAAGAACGGCAAACGGTGCTCATGTTCCACGGAATGCTCGGTGATATCGATCTGATGATTCCGGACTATTACGGGGTGGAGATCGAAGCATTCATCTTGTTTGGATCGATTCATATGGACGACCGGAAGGAAACCGGCATATTGAACCGAGTGAAATATCAATCGCCCAATTATGAGACCAGCGAATATAAAGTGAAATTTATCGTTTCTTATTTAGGCGGAGATTTGAATATAAGAATGACATAA	MDRNRWIAVGLISLGFIMLFGRWFGFFTIVALLLIFAGVLQIRQGHVKKGYILLGVGAVLLLLEHLMLIIGVSLISLGIFYGKSKRAHTTTRYIQKQNFMSNFDWDRAPWVMRSLSVWHVLGEADVDLSLALPEERQTVLMFHGMLGDIDLMIPDYYGVEIEAFILFGSIHMDDRKETGILNRVKYQSPNYETSEYKVKFIVSYLGGDLNIRMT	PGPT0028815_431	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028815-liaF-K11622	NA	NA
AK002_05461	687	liaH_2	COG1842	Protein LiaH	ATGGGAGTATTTAAAAGAATCAAGGATATGACGAAAGCATCGGTGAACGAGCTGCTGGATAAAGTGGAGGATCCGATCGTAATGCTGAACCAGTACCTGCGCGACATGGAGGCAGAAATTCATGAAGCTGAGGTAACGGTTGCGAAGCAAATGGCAAATGAGCGTCGCATGAAGCAGCGCGTCGATGAGGCTGTGAAGATGGCGGCACAACGTGAAGCTCAGGCGGAATTGGCTCTGAAAAACGGTCAAGAAGAAGTGGCTCGCAAGCTGCTTGAAGAAAAGATCTATTTCGATCAAAAAGAAACCGAGTACGTGGAACTTCACCTGCAATCCGAGGCTCAAGCGAAAGAGCTTGTTGCTCAGCTGCATGAAATGAAAGACGAGTTCTACAAAATGCGCAACAAGCGCAATGAGCTTGTAGCTCGCGCTCAAATGGCGAAAGCGAAGAAGCAAATGTCTCAAGTGAGCAGCCTGCACACCATTGAAAGCGGCAGTGCTTCGATGGGCTTCCACCGCATGGAAGAAAAAATCATGCAAATGGAAGCTGAAGCTGATGTGCTTCGCGCACCATACCGCCCTAACAACGCAGCATACACAAGTCCAGTGGATGCTGAGAAGCAACTGAAGGTGGATGAGCAGCTGCAAGCGCTGAAAAACAAAATGGGGAAACCCTCGAAATCCGAGTAA	MGVFKRIKDMTKASVNELLDKVEDPIVMLNQYLRDMEAEIHEAEVTVAKQMANERRMKQRVDEAVKMAAQREAQAELALKNGQEEVARKLLEEKIYFDQKETEYVELHLQSEAQAKELVAQLHEMKDEFYKMRNKRNELVARAQMAKAKKQMSQVSSLHTIESGSASMGFHRMEEKIMQMEAEADVLRAPYRPNNAAYTSPVDAEKQLKVDEQLQALKNKMGKPSKSE	PGPT0014646_1169	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
AK002_05462	489			hypothetical protein	ATGACAAGATTGTACCGTTCCACCCGAGACAAGATGTTCACAGGGTTGATCGGCGGTATATCCGATCATTTCGGAGTCGAATCTACCCTACTTAGAATCATATTTGTAGTCAGTATCTTTTTCACAGGCGGTACAACGCTGTTGATCTATCTGATTGCAACCCTCGTCGTTCCTAAAGAGCCGTATTATCACGATCCGTACGGACCGCAAGGAAGACATGGCGGCGGATACCGTTACAACGACCATCCGGGCCCGGGGCCAGGCTACAACAGCTACAATGACGCTTATGGACGTCATCAAGGCTACCCTAATCCTAATGAGCATGGAAGCTTTGGTCCCAAATATGACCGTCCCAACGGCACAAGAACGAACGCGTCCACCGATTCCGATCTGGATGCGATGATGAAGGATATTGAAAGAAAAGCCATGCAAAAAGAAATCGAAGAATTGAAGAAAAAACTTTCGAACTATGAGAAGGGAGATAAATAA	MTRLYRSTRDKMFTGLIGGISDHFGVESTLLRIIFVVSIFFTGGTTLLIYLIATLVVPKEPYYHDPYGPQGRHGGGYRYNDHPGPGPGYNSYNDAYGRHQGYPNPNEHGSFGPKYDRPNGTRTNASTDSDLDAMMKDIERKAMQKEIEELKKKLSNYEKGDK	PGPT0027520_132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-PspC-PspB_TOXIN-ANTITOXIN_SYSTEM,PGPT0027520-toxin_pspC-K03973	NA	NA
AK002_05463	678	liaH_3	COG1842	Protein LiaH	ATGAGTGTTTTCCGGCGGATAAGAGACATAACCGTAGCAACATTGAATGAAAAGCTCGAGCAGAGCCAGGATCCGGTTCGATTGATCGACCAGTTCCTACATTCAACCAGACAGGACATTGCTGAGGCCGAGAAGCTGCAGCAGCAATGCCAAGTACATTCCAGACAGCTGAAACAGCAGGTGGATCAAGCGGAAACCATGCGATTTAAACGCGAAGAGCAGGCACTGCTTGCCTTGAAGGCCGGCGAAGAGCATCTTGCCAAGCTGGCATTGCAGGAGAAGCTGATTTATGAGGAAAAGATTGAACAGTATCAAGGCCTGTTATCCTCAAGCCTGGAGTCGTTGAAAGAAATCGAGGAGCAGCTCGGTGAGCTGCGGATGGAATATCAGACGGTCTACAGCAAACGCCAGTATTATGTTGCCCGAGTGGAAACCCTTCGTCTTCAGCAAAAAATGAATGAACGTACGGGATCCTATGGCGGGGGTCATGATGTACCGAAGATGTTCAATCGCCTCGAGGACCGTATCAGCGACTGGGAACTGGAAGCCAGAAGCCTTCGCGATTTACGCCGCATGGGGCAGGAATACATGGATCAGGCTGGAGAATCCGTCTCCACGGTATTGGAAAAGGAACTTGCCCGCTTGAAGCAAAAGCTGAATAACAGCGGAAAGGAGTAA	MSVFRRIRDITVATLNEKLEQSQDPVRLIDQFLHSTRQDIAEAEKLQQQCQVHSRQLKQQVDQAETMRFKREEQALLALKAGEEHLAKLALQEKLIYEEKIEQYQGLLSSSLESLKEIEEQLGELRMEYQTVYSKRQYYVARVETLRLQQKMNERTGSYGGGHDVPKMFNRLEDRISDWELEARSLRDLRRMGQEYMDQAGESVSTVLEKELARLKQKLNNSGKE	PGPT0014646_1371	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
AK002_05464	300			hypothetical protein	ATGAGGAATTCAAAAGGCAATGGAATGAGTATCCTGTTGATTGGTTTAGGGATCTTGGTTCTTCTGGGAGTATTCGGTCCTCTGCTTGGATGGTTGTTCAGTCTTCTAATTCCGATACTGATGGTTGCTTTGGGATACTACGGAATTCGAAGAGGCAATACCTTGATGGGATGGATCATTCTCGGTATCGGCATCATCTGGTTGATGGGTAAACTGTCTTGGCTGATCGGTCCGATCCTTGGTGTTATCTTAATCATCTACGGAGTGTCCCGATTGAAGAATGGAAGACCCCGTTATTGA	MRNSKGNGMSILLIGLGILVLLGVFGPLLGWLFSLLIPILMVALGYYGIRRGNTLMGWIILGIGIIWLMGKLSWLIGPILGVILIIYGVSRLKNGRPRY	PGPT0028800_175	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028800-liaI-K11619	NA	NA
AK002_05483	882			hypothetical protein	GTGGAATTAACCAACTTTTCTTTTTATTATGGAAATACGGTTGATGAGGAAGCTGTAGGAGCGATAGCATACCGTAATTCGGACAAAATGCAGCGAGGATCACTTGTTCACGATTTTGAGGTCAATATTGTTGTCGTGTATGACGGAACGCCTGATGAGCCTCCCATCCAGCATTCTATCGTAGGCGGGGAACGCTGTCAGGTGTTAAGCATCGGCTTGGACGAATTGCATCGGGAGCTCCTGAGGGGCACGGACAAAGTATTGATCAAATGCCTCCTGGAAGGGGATGTCATAAAAGACAATCAAGATCGCCTTTCCAATCTGCGACGAGATTTCCTCAGGTTCGCAGAACCGTTCCGGGAGCAAAAATTGTTTATAGGCTTTGCCCACTTCCTGCAAAAGTACATGGATGCCAAGATGCTTTTGAAGGAGGAGCGGGTGCTGGATGCTTACCATACTCTATTGGAAGGTCTGCACCATTGGGGCGAGCTGGAGCTGATCGAGCGGGGGATTCATCCGGAATCGGCGGTCTGGGAGCAGATTACAGGATTAAACACACCTGTACGCAAGTTATATGAAGAGCTTACGGTCAGCACGGAAACGCTGGGACAACGGGTAGAGCTGGCCTTGCTTGCCTATGAATTCTCCATGATATCCAAGCTGGAGAGCTCTTCTGCACTATTGCTCCGCATATTAAGAAGCCGTCGGAATCCTTGGACGATACAGGAGCTGGTGCTCCACCCTGAGCTGGCACCAGTATGCAAGGAGCTGCCGATCGTGATGCGCAAATTGGTGTATCGGTCGCTGGTGAAGGAAGTTCCGGTATGGAGGGAATCCAGATCCTACGGGTCTGAAGCCATCCGGTACTACACCGACTTATGA	MELTNFSFYYGNTVDEEAVGAIAYRNSDKMQRGSLVHDFEVNIVVVYDGTPDEPPIQHSIVGGERCQVLSIGLDELHRELLRGTDKVLIKCLLEGDVIKDNQDRLSNLRRDFLRFAEPFREQKLFIGFAHFLQKYMDAKMLLKEERVLDAYHTLLEGLHHWGELELIERGIHPESAVWEQITGLNTPVRKLYEELTVSTETLGQRVELALLAYEFSMISKLESSSALLLRILRSRRNPWTIQELVLHPELAPVCKELPIVMRKLVYRSLVKEVPVWRESRSYGSEAIRYYTDL				NA	NA	NA	NA	NA
AK002_05484	366			hypothetical protein	ATGATCTTTAAGAATGCAAAAATCAACGCCTTCCGCACATGGGGACTGCTGCTGACTATGCTCGGCATGGGCCTTATGGTGCTTGGCACGGCCGGTATCGTATTCTTTGGACAAGCAGGCAAAATATTTGCCGGTATCGGATTGGTGTTTGGCCTGATTATGATGCTGGGAAGTCTCGGCATTTACTTTTGGGCAGGCATGCTGTCCACGAGCGCCGTCCAAATCCAGTGCCCGGAGTGCAATAAACTGACCAAAATGCTGGGCAAAACCGACCGCTGCATGTTCTGCCATACGATTTTGACGCTGGATCCGAGCCAAGCCAACATCACAGCAGAAGAGCTTGAAGCCCAGCAAATCAAATCCTAA	MIFKNAKINAFRTWGLLLTMLGMGLMVLGTAGIVFFGQAGKIFAGIGLVFGLIMMLGSLGIYFWAGMLSTSAVQIQCPECNKLTKMLGKTDRCMFCHTILTLDPSQANITAEELEAQQIKS				NA	NA	NA	NA	NA
AK002_05485	1716			hypothetical protein	TTGGCAAGAAGAAGATATCGGGGAAAAAAGAGGCGTACAAACAGAAGCTCTTTTTATCTAGGGCTGATGCTGATTGCGGCGGGGGTCTGGTGGGTTGTCACCACGTTGTTTCCGAACCAGACCTATACCGTACCGGACTGGCGCGGAATGGACAAGCCGATTTTCGTTCAGGGCGAATTGAAGGAGCATCCTGCTCTGGGATCTGGCGAAGAGCTGCTGCTGCCGATAACGGTAATTCAGGAGAGCGTGGATGCCAACATCCGTTTCGAGCAGGAAACGGAATCGATTATTATTACGACTTCCGAATCGGTTTTTCGCATGAAGATGGATAGTCTGAAGGGGGAACTGAACGGCAAAGCGGTTACCCTGCCTTATGCGCCTGAACTGGTTAACGGCATTGCTTATGTTCCGCTGAAGCCGCTCAAGCAGCATTATGGGGTGGCCGTTCACGAAGACTCGGCAACAGGCGCGGTCATTTTGATGCGCGCCGGGGATGCGATTCAGCTTGCGAAGGCGGCTCCCGGTAAACCCGAGGACACCGTTGCTCTGCGCGAGAGCGGGGAGAAGAAGTCCCCGATCGTACTGGACATGCCGGCCGGCGAGCGGCTTCGGGTATGGCGCGAAGAGGAGGGATGGTTCTTCGTTCAGGCGGATAACGGGTATACGGGATATGTTCTTAAAGAGCAGATCGAGCTTGGGGAACTGAAGGAAATTCCGGCTCTGAAGCAGATCCCTTCGCGGGCTGAGCTGGAATGGAAGGACAAGTCGGTCAACCTGGTATGGGAAGCCGTCTACACCAAGAATCCGAGCACGGATAGCATTGGCGAACTGCCTGGTGTCAACGTGGTCAGTCCGACCTGGTTCAGCATCGTGGACGGAGAAGGAACGGTCAAATCCAAAGCGGTTAAGCAGTATGTGAGTTGGGCGCATAACAGGAACAAGGAAGTTTGGGGTCTCATGGACAACAGCTTCGACCCTGACCTGACCACCGAAGCGCTGTCTACGTTCGATAAAAGATCCCATATCATTGAACAGATGCTGGCTTATGCCAAGCAATACAATCTCGACGGTATCAATATCGACTTTGAAAATGTCTACACCAAGGATAAAGATCATGTCGTACAATTCGTGCGGGAAATGAAGCCGCTTGCCAAAGCCAGAGGTTTGATTGTGTCCATCGATGTTACGCCCAAATCGAACAGCGAGATGTGGTCGCTCTTTCTCGACCGGAAACGACTCGGCGAAACCGTTGATTACATGATGGTGATGGCCTATGACGAGCACTGGGCCACCAGTCCGAAAGCGGGATCGGTCTCCTCATTGCCATGGGCTGAGCAGTCGGTAAGGCGAATCCTGGAAGAAGATGCAGTCCCGCCATCCAAGCTGGTGTTGGGCGTACCGTTGTATACGCGGGTCTGGACCGAAACGAGCGAAGCGGGAGAGACGAAAGTGTCCTCCAAAGCGATTGGTATGGAGAAGCTGCAGGCCCTGCTGAAGGAGGAGAAGGTGAAAGGCTCGCTGGATGCCGGGACCGGACAGAATTATGTCCAATTCGAGGAGGGAGAGTCCATTAAGAAGATATGGATGGAAGACGGCACTTCATTGCAATCCCGGGTCAAAATGGCCAAAAAGCTGGAGCTTGGCGGCATTGCTTCCTGGAATCGAAGCTTTGCCGTCCCGGAAACGTGGCATGTTCTTAAGACGATACATGATTAG	MARRRYRGKKRRTNRSSFYLGLMLIAAGVWWVVTTLFPNQTYTVPDWRGMDKPIFVQGELKEHPALGSGEELLLPITVIQESVDANIRFEQETESIIITTSESVFRMKMDSLKGELNGKAVTLPYAPELVNGIAYVPLKPLKQHYGVAVHEDSATGAVILMRAGDAIQLAKAAPGKPEDTVALRESGEKKSPIVLDMPAGERLRVWREEEGWFFVQADNGYTGYVLKEQIELGELKEIPALKQIPSRAELEWKDKSVNLVWEAVYTKNPSTDSIGELPGVNVVSPTWFSIVDGEGTVKSKAVKQYVSWAHNRNKEVWGLMDNSFDPDLTTEALSTFDKRSHIIEQMLAYAKQYNLDGINIDFENVYTKDKDHVVQFVREMKPLAKARGLIVSIDVTPKSNSEMWSLFLDRKRLGETVDYMMVMAYDEHWATSPKAGSVSSLPWAEQSVRRILEEDAVPPSKLVLGVPLYTRVWTETSEAGETKVSSKAIGMEKLQALLKEEKVKGSLDAGTGQNYVQFEEGESIKKIWMEDGTSLQSRVKMAKKLELGGIASWNRSFAVPETWHVLKTIHD	PGPT0025110_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
AK002_05486	420	perR_1	COG0735	Peroxide operon regulator	ATGGGAACGTCCGTACAGCATGCGCTGGAACAACTGAAAACGACCGGTGTCCGTATCACGCCGCAACGTCATGCGATTTTAACGTATTTGGTGGAATCTATGGGCCATCCGACAGCGGATGATATTTATCGGGCTCTGGAACCTAATTTTCCTAGTATGAGCGTAGCCACAGTATACAACAATTTAAAAATGTTTATTGAAGCCGGCATGGTGCGCGAGCTGACGTACGGAGACAATTCGAGTCGTTTTGACGCCAACGTCTCCGACCATCATCATGTCATCTGTCAAAGTTGCGGCAAAATCGAAGATTTCAGCTATCCGTCCCTCGAAGATGTGGGAGTGCAGGCTGAGAAAAGCACCGGATTTGAAGTAAAAGGACTGAGAATGGAGCTGTATGGGCTCTGCAAGTCCTGTCAATAG	MGTSVQHALEQLKTTGVRITPQRHAILTYLVESMGHPTADDIYRALEPNFPSMSVATVYNNLKMFIEAGMVRELTYGDNSSRFDANVSDHHHVICQSCGKIEDFSYPSLEDVGVQAEKSTGFEVKGLRMELYGLCKSCQ	PGPT0012945_905	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012945-perR-K09825	NA	NA
AK002_05487	1320			hypothetical protein	ATGAAACATAAAATCAGAGTTGGGCGATATACGGCCGCCTTGCTGCTTGTCAGTACGGGCGCTTTGCTGCTGCTTGACGAGTGGAGAGGGACGGATTATATATTCATGCTCCAGCGTTGGTGGCCGCTGCTGTTTATCCTGCTCGGCGTTGAATATATCGTCAGGTATACACTGTCCCGAGCCCTGGGCCGTCGTAGGGAATTTCGGTTTCGGCCGGATATTCGGGGGATTCTGCTGGCAGTCGCCGTTACGGCGTCCGTATTCGTGATTTCCCAGCAGGAGCATTTCCTTCATCTCTGGAACCGGGTGAGCCTGAATTTGACGGCAGCGGGCGTGGATTACAGCGAAGCGGAAGATAACCGGTTCCAGAAGCCGGCACTGGATATACCGGTGGAGCTCAATACCGAGAAGATCATCGTCGATCACTTGAACGGAGATATCTCCATCACGCGGCAGGACGTCGACGATATCCGGGTGGAGGCGATAGTGTGGGTCGACCGAGAGCAGCCTGGTGTAGCGGAGGCGATCGCCGAGCAGTCGACGATCGAGGTCGGGGAAGGCAAGACGATCACGATTCGGTCCAAGGGAAAAGCCTATGGAGAATCGGGTAAACGGCAGCCCCGAATGAATTTGAATATCGCGGTCCCGGATGATCGCCGGTTCAATTTTGAGATACGGACGATGAACGGAGCGATTACCTTAAACCGGGTGGAAGCGATTGAGAATATTTTGCTGGAGAGCGGGAATGGGCCTATCACGATGGATCGGGTCTACGGGAATGTGACAGGCAAAACGCTGAACGGCGAAATGACCGCGCGCGGCGTTATCGGTAATGTTAAAATGTCCACCAACCGCGGGAATATGCTGGCCGTTGACATCACGGGCGAGACCGACTTGACCACGCAAGTAGGAAACATGACGGTCAAGCGAACGACGGATCATATCCGGGTCCAGACGAGGAACGGCAATATTCTGATCAGCGGTGCGGAGTCGCAATTAAGCGCCGAGTCCCTTAATGGCGGAGTAGCCATTCGTTCCCCCCGGATCGGAGGCGATTGGAATGTATATAGCGCGGTTGGAGAGATGAATCTTCACGTTCCTCTCGAGGGCGATTACAAGCTTGAAGGGACGATTAGTTACGGAAGAATTCTGACCACGCTGCCTAATCTTAAGATCGAGCAGAAAACCATTTCCGGGGAATCCGGCACCGGCGAGCATTCCATTCGCATTGAAGGTAACAGTAACCTGAACATTTACCGGAGCTACCCGGAACAGGAGGAAGGCCGGAACAGCGGGGGCTGGACGCCTCTGCCGGATTGA	MKHKIRVGRYTAALLLVSTGALLLLDEWRGTDYIFMLQRWWPLLFILLGVEYIVRYTLSRALGRRREFRFRPDIRGILLAVAVTASVFVISQQEHFLHLWNRVSLNLTAAGVDYSEAEDNRFQKPALDIPVELNTEKIIVDHLNGDISITRQDVDDIRVEAIVWVDREQPGVAEAIAEQSTIEVGEGKTITIRSKGKAYGESGKRQPRMNLNIAVPDDRRFNFEIRTMNGAITLNRVEAIENILLESGNGPITMDRVYGNVTGKTLNGEMTARGVIGNVKMSTNRGNMLAVDITGETDLTTQVGNMTVKRTTDHIRVQTRNGNILISGAESQLSAESLNGGVAIRSPRIGGDWNVYSAVGEMNLHVPLEGDYKLEGTISYGRILTTLPNLKIEQKTISGESGTGEHSIRIEGNSNLNIYRSYPEQEEGRNSGGWTPLPD				NA	NA	NA	NA	NA
AK002_05488	618			hypothetical protein	ATGAATCCAACCACCGAAACGCAAACCGCAGTCCGCAAGAAAAAAAGGCGCTCGATTCGGATGAAGCGGCATCCCGGACTTCAGCGAAAAAGACGGAAATTCTACGCGCTTTTATTAGCCGCACTCATTCCAGGGCTGGGTCATCTGTACCTCGGCATGTACCGTAGGGGAATCACGTTCATCATGCTGCTGCTGCTGGATATATCGGCGCTTTTATATTTCTCTTCCATCGGCATGCAGATCAACGTTCCGCTGCTTGTCGTGCTGGGGCTTCTGATTCCGATCGGTTATTTCTATAACGTGTTTGACGTGCTGCAGGCAGCCGAATATATTATTTCCCGAAAAAGACGCGGCGAGGCAGCCGCTGCTTCCGGAGGTGACGGAAGAGGGAACGGGGCTATTCATCTGTTTCGCGGCGAGCGGGGAATCGCTTTTGGCTTGATGCTGGTTGTTACCGGGTCCCTGCTCATTTTGTTTCACCAGAAGCCGCCTTGGCTGCAGCAGGGAATTCGCGACTACGGTGCGGAGGCCTCCGCCGTCGTGCTCATCGTTATCGGGATTTGGGCCGGGATCCGGGAAGCTCTCAGGCATCATAAAGACAAGAGAAAATCCCTATAG	MNPTTETQTAVRKKKRRSIRMKRHPGLQRKRRKFYALLLAALIPGLGHLYLGMYRRGITFIMLLLLDISALLYFSSIGMQINVPLLVVLGLLIPIGYFYNVFDVLQAAEYIISRKRRGEAAAASGGDGRGNGAIHLFRGERGIAFGLMLVVTGSLLILFHQKPPWLQQGIRDYGAEASAVVLIVIGIWAGIREALRHHKDKRKSL				NA	NA	NA	NA	NA
AK002_05489	714			hypothetical protein	TTGACTAATCCTTGGGTGATAGATAATGTATCCATATTATTACGATTGCTGCTGGCTATGCTGCTTGGCGGCTTGATCGGTTTTGAACGGGAGCGTTCCAACCATGCGGCAGGATTGCGCACCCATATCTTGGTGTGTCTGGGCTCTGCGCTTATTATGCTGTTATCCATTTACGGTTTTTCCGATTTCGTTGCCGAGATTAACGTTCGGATCGACCCTGCGCGCTTGGCCACGGCCGTCATTACCGGGATCGGGTTCCTTGGCGCCGGCACCATTTTGTTTACAGGCAAATCCATTACCGGATTAACGACCGCCGCGTCCATCTGGGTTGTGGGTGCCGTGGGGCTAGCCGTAGGGGCCGGGTTTTATTTTGCGTCGATTGTATCCACGGTGCTGATCCTTCTGAACCTGGTGGTCTTTAATAAGCTGGAGCAGCGGTACATCCGCGGCAGCAAACTGCATTTGATCACCCTGCATGCGGCGAATACGCCGAATATTTTGGATGACATATCGGCAGTTCTGGAGGAGCAGGAATTCGTGATCAAGAAGCTCGTCGTAAACGAGCGGAGCAATGCGGCATACGGGGAATTGCAGCCTGCGGTGCTAGGACTCGAAATTTCGCTGCAAGTCTTGACCGACCGTAAATTCGAACCGATGGAGATCACCCGGCAATTGCGGGGAATCGGCCACGTAACGATGGTAACGGCTGAATAA	MTNPWVIDNVSILLRLLLAMLLGGLIGFERERSNHAAGLRTHILVCLGSALIMLLSIYGFSDFVAEINVRIDPARLATAVITGIGFLGAGTILFTGKSITGLTTAASIWVVGAVGLAVGAGFYFASIVSTVLILLNLVVFNKLEQRYIRGSKLHLITLHAANTPNILDDISAVLEEQEFVIKKLVVNERSNAAYGELQPAVLGLEISLQVLTDRKFEPMEITRQLRGIGHVTMVTAE	PGPT0014005_763	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
AK002_05490	459			hypothetical protein	ATGATTAAGGAACTATCCTTGGAGGATCGGGATACCGTGCAGCAGATATGGAGCCTGCAGCACATGGCGTACCCTTTGGAAGCCGAATTGATCGGATTCTCGGAAATTCCTCCGCTGCTGGACACCTTTGAGACGATCCGTGCGAGCGGGGAAACCTTTTTTGGTTATATAAATGAAGAAGGGGATCTTATCGGAGCCATAGCGGTGGAGCCCGAAGAGGATCAGGTCACCATATCGCGGATGATGGTCCATCCCGGTCATTTTCGCAAAGGTATCGCGGGGAGTTTAATTCGCCATGTATTGGAAAGCTACAAGGAGGCGCCGATGTTCACGGTATCGACAGGGACGCGCAATACGCCGGCTGTGACCTTGTACGAGAAATTCGGGTTCGTGAGGGACCATGCATTCGAGGTTGCCCCGGGCGTGGAATTGACCGAGTTCCATCTTCATAAACAATGA	MIKELSLEDRDTVQQIWSLQHMAYPLEAELIGFSEIPPLLDTFETIRASGETFFGYINEEGDLIGAIAVEPEEDQVTISRMMVHPGHFRKGIAGSLIRHVLESYKEAPMFTVSTGTRNTPAVTLYEKFGFVRDHAFEVAPGVELTEFHLHKQ				NA	NA	NA	NA	NA
AK002_05491	1440	gatB	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGTCTACATCTAAATATGAAACGGTTATCGGATTGGAAGTTCACGTAGAGCTGCATACCCATTCCAAAATATTTTGCGGCTGCTCCACTGCGTTCGGAGCTCCGCCGAACACGCATACATGTCCCATCTGCCTTGGCCATCCCGGCGTTCTGCCCGTATTGAACCGCCAGGCTGTGGAATATGCCATAAAGGCTGCCATGGCGCTGAACTGCACCATCGGCGATGTCAGCAAATTCGACCGCAAGAACTATTTCTACCCGGATTCCCCGAAAGCATACCAGATTTCCCAGTACGATCAGCCGATCGGCGAGAACGGCTGGATCGATATTGAGGTGGACGGGAAGACGAAGCGGATCGGCATTACCCGCCTGCACCTGGAGGAAGATGCCGGCAAGCTCACGCACGTCGACGGAGGTTATGCATCGCTGGTCGACTTTAACCGGGTCGGAACGCCGCTCGTTGAGATCGTGTCCGAACCGGAGATCTCGACGCCGGAGGAAGCCAAGGCATACTTGGAGAAAATGCGCGCGATTATGCAGTACTGCGACGTATCCGACGTGAAGATGGAAGAGGGCTCGCTTCGCTGCGACGCCAACATCAGCCTTCGTCCATGGGGACAGAAGGAATTCGGAACGAAAGCCGAGCTGAAGAACATGAACTCCTTCCGCGGCGTGCAGCGCGGGTTGGAATATGAGCAGTTCCGTCAAGCGGAAATCCTTGATGAAGGCGGCGTGATCGTACAGGAAACGCGGCGCTGGGACGAAGCCCAGGCGAAGACCTTCTCCATGCGAGGCAAGGAGCAGGCGCACGACTACCGCTATTTCCCGGACCCGGATCTGGTGTCGGTGCATATCAGCGAAGAGTGGAAAGAGGCGGTTCGCGCGACGATCCCCGAGCTTCCGGATGCCCGCAAGGCCCGCTATGCTTCCGAGTACGGCTTGCCGGACTATGATGCAGCGGTCATCACGTCATCCAAGCTGCTCGCCGACTTTTTTGAGGACAGCTTGAACTACACGAAGGATGCCAAATCCGTATCCAACTGGATCATGGGCGATCTGCTGGGTTATTTGAACTCGAACAATCTGGAGCTGTCTGAAGTGAAGATGACGGGTCAAGGCTTGGGCGAGATGATCGGCTTGATCGAGAAGGGGACCATCAGCAGCAAAATCGCGAAAACCGTCTTTAAGGAGATGCTGGAAAGCGGCAAGCTGCCTGCGCAAATCGTTGAGGAAAAGGGACTTGTCCAAATCAGCGATGAAGGTGAGATCAAGGGCATCGTTGAGCAGGTGGTCGCGAACAATCCGCAATCCGTGGAGGATTACAAGGCAGGCAAACAGAAGGCGATCGGCTTCCTGGTTGGTCAAGTGATGAAAGAGAGCAAAGGGAAAGCCAACCCGGCCCTCGCCAACAAACTGCTGGTTGAGGTGCTGAACGGATAA	MSTSKYETVIGLEVHVELHTHSKIFCGCSTAFGAPPNTHTCPICLGHPGVLPVLNRQAVEYAIKAAMALNCTIGDVSKFDRKNYFYPDSPKAYQISQYDQPIGENGWIDIEVDGKTKRIGITRLHLEEDAGKLTHVDGGYASLVDFNRVGTPLVEIVSEPEISTPEEAKAYLEKMRAIMQYCDVSDVKMEEGSLRCDANISLRPWGQKEFGTKAELKNMNSFRGVQRGLEYEQFRQAEILDEGGVIVQETRRWDEAQAKTFSMRGKEQAHDYRYFPDPDLVSVHISEEWKEAVRATIPELPDARKARYASEYGLPDYDAAVITSSKLLADFFEDSLNYTKDAKSVSNWIMGDLLGYLNSNNLELSEVKMTGQGLGEMIGLIEKGTISSKIAKTVFKEMLESGKLPAQIVEEKGLVQISDEGEIKGIVEQVVANNPQSVEDYKAGKQKAIGFLVGQVMKESKGKANPALANKLLVEVLNG				NA	NA	NA	NA	NA
AK002_05492	1458	gatA		Glutamyl-tRNA(Gln) amidotransferase subunit A	TTGAGTCTGTTTGATTACAAGTTATCGGAGATACATAATAAGCTGCAGAATAAGGAGCTTTCCGTAACCGATCTGGTCGACCAAGCGTTTACCCGTATTTCCGAACGTGAGGATCGGGTAAAGGCATTTATTACGCTGGACGAGGAAGGCGCGCGTACATCGGCCAAGGCTTTGGACGACAAGCTGGCTGCTGGGGAGACGCGCGGACTGTTGTTCGGACTTCCTGTCGGAATTAAGGACAATATCGTAACGGAAGGGCTTCGCACCACATGCGCAAGTCAGTTTCTGTCTAACTTCACGCCGGTTTACGATGCGACGGTTGTCGGTAAATTGCGTGCGGCGGACACCGTAACGATCGGCAAGCTGAACATGGATGAATTTGCAATGGGAGGCTCCAATGAGAACTCCAGCTTTTATCCCGTGCGCAACCCATGGGACCTGGACCGGGTACCAGGCGGCTCGAGCGGCGGCTCGGCTGCGGCCGTGGCTGCCGGCGAAGCTTACTTCGCGCTGGGCTCGGATACCGGCGGCTCCATTCGGCAGCCGGCTTCTTACTGCGGTGTCGTGGGACTTAAGCCGACCTACGGACTCGTATCCCGGTTCGGTCTTGTCGCCTTCGCTTCATCGCTGGATCAGATCGGGCCTTTGACGAAAAACGTAGAGGATTCTGCCTATGTCCTGCAAGCCATCGCCGGTTATGACCCGATGGATTCGACATCCGCCAAAGTGGACGTGCCCGACTATCTGAGCGCATTGTCCGGAGACGTTGCCGGTCTGCGCATCGCCGTGCCTAAAGAGTATCTGGGCGAGGGCGTTGACGCCGAAGTGAAGGAAACCGTCCTGAACGCGCTGAAGGTGCTTGAATCGCTGGGCGCTACCTGGGACGAAGTTTCCCTGCCGCATACCGATTATGCGGTCGCTACGTATTATCTGCTTGCTTCTTCGGAGGCTTCCTCGAATCTGGCCCGCTTTGACGGCGTACGTTACGGCGTTCGTTCCGACAATGCAGGCAGCCTGATCGACCTGTATCACGAATCCCGCAGCCAAGGCTTCGGGGATGAGGTGAAACGCCGCATCATGCTGGGGACTTACGCGCTCAGCTCGGGCTATTACGATGCCTATTATTTGAAGGCGCAGAAAGCCCGTACCCTCATCAAGCAGGACTTCGATAAAGTATTCGAGCAATATGATGTCATCATCGGACCAACGGCTCCGACTACGGCTTTCAAGCTGGGGACGCAGGTCGATGATCCGCTGACGATGTATTTGAACGATATCCTGACGATTCCTGTCAGCCTGGCGGGAGTGCCGGCAGTAAGCGTCCCTTGCGGATTCGCGGACGGACTGCCCGTAGGAATGCAAATTATCGGGAAAGCCTTTGATGAGTCGACCGTGCTGCGCGTAGCGCATGCCTACGAGCAAAATACAGATCATCATAAACGGCGCCCTGAACTGTAA	MSLFDYKLSEIHNKLQNKELSVTDLVDQAFTRISEREDRVKAFITLDEEGARTSAKALDDKLAAGETRGLLFGLPVGIKDNIVTEGLRTTCASQFLSNFTPVYDATVVGKLRAADTVTIGKLNMDEFAMGGSNENSSFYPVRNPWDLDRVPGGSSGGSAAAVAAGEAYFALGSDTGGSIRQPASYCGVVGLKPTYGLVSRFGLVAFASSLDQIGPLTKNVEDSAYVLQAIAGYDPMDSTSAKVDVPDYLSALSGDVAGLRIAVPKEYLGEGVDAEVKETVLNALKVLESLGATWDEVSLPHTDYAVATYYLLASSEASSNLARFDGVRYGVRSDNAGSLIDLYHESRSQGFGDEVKRRIMLGTYALSSGYYDAYYLKAQKARTLIKQDFDKVFEQYDVIIGPTAPTTAFKLGTQVDDPLTMYLNDILTIPVSLAGVPAVSVPCGFADGLPVGMQIIGKAFDESTVLRVAHAYEQNTDHHKRRPEL				NA	NA	NA	NA	NA
AK002_05493	288	gatC		Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C	ATGAGCATTACCGATAAGGATGTTCAGCATGTAGCGAAGCTGGCCCGATTAAATTTGACGCCTGAAGAAGAGCAGATGTTTACCGGCCAACTGAATGCGATTTTACAATATGCCGAGAAATTAAACGAATTGGATACGGACGGCGTTGAGCCGACTACGCACGTGCTGCACCTCAGCAATGTCATGCGGGAAGACGAAGTGCGCGAGAGCCTGCCGATCGAGAAAGTGCTGCTCAACGCACCGGATGAAGAAGACGATCAAATTAAAGTACCTGCTGTTTTGGAATAG	MSITDKDVQHVAKLARLNLTPEEEQMFTGQLNAILQYAEKLNELDTDGVEPTTHVLHLSNVMREDEVRESLPIEKVLLNAPDEEDDQIKVPAVLE	PGPT0023460_3132	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023460-gtaC-K02435	NA	NA
AK002_05494	381			hypothetical protein	ATGCTGCGTTTAGGGGAAAAGATCACAATCGTTGCGGATGCCTTTGAGCAGAATCTTCCAATCGGTCAATACGGTTATATCATCGCGTATGACCGAAATCCGGACAATGCGTTCGATTACGTCATTCGGATTCCGAGCCTCAACCGTAATTTTTTTGTTCCGGCGGATGATGTAGAGCTGGAATCAATCGTGTTGAAACAGGAAGCCGAGCGGGTCGAGCGGGAAGCGCTCATCGATTTCGCCCTGTCGACATATAATGAGAAGCTGTTTCGTCAAGTGATGAACGGCGAGTTGGAAAGTGTTGAAGAGGAAGAGGAAACCAAGGAAGCAATGTCCCAGGCGGACTTCATCAAACAGGTGAATCTTCGCGCTTGGATCTAG	MLRLGEKITIVADAFEQNLPIGQYGYIIAYDRNPDNAFDYVIRIPSLNRNFFVPADDVELESIVLKQEAERVEREALIDFALSTYNEKLFRQVMNGELESVEEEEETKEAMSQADFIKQVNLRAWI				NA	NA	NA	NA	NA
AK002_05495	777	yxlG		putative transmembrane protein YxlG	ATGAAGCCGTTCTGGATCTATTATCAAAAAGAGATGCTTGAGTCCGGCCGGACCTATAAATGGATTTGGGTCCCCGCCGTTTTTCTGCTGCTTGGCATTATGCAGCCGGTATCGACCTATTATTTGCCGGAAATCCTGACCATGGCCGGAGAAGTGCCGCCGGAAGCGGCGGCGTTATTTACCGTCCCGTCCGCCGAGAGCGTGATGGCATCAGCCTTAAGCCAATTCAGCGTTATCGGCCTGCTAGTGCTTGTGCTTGCGGGGATGAACACGGTAGCAGGAGAAAGGGCCACCGGCACGGCTGAGCTCGTTCTTGCCCGCTCGGTATCCACGATTCCCATGATGGCTGCCAAATGGGCCGCCATGATGACTTTGGTAGCCGCATCCTTTGCGCTTGGGCTTGGCGGCGCAGCGTATTACACGCATCTGCTCATCGGTCCCTTGGAATGGGGGGCGGTGGCCAGCGGCGGGGGCTTGTATGTCGTATGGCTGGCTTGGATCGTAACGCTTGCCCTGCCGCTCGGCGCCGTCCTCCGCGGGCCTGCTGCTGCTTTCATCAGCTTGGCGGTGGCCGGCGCGCTTTCGCTCTTGTCCGGTTTGCTGCCCTCCCGCCTTCAATGGAACCCGGGCCGATTAAGCAGCATGGCCGCGGAGCGGATTGTCGGCGAAGGGAGCAACGTCTGGTCTCCGATAATCGTGGCAATACTGCTCATGGTGCTGTCGATTATCGTTGCCGCGAGGCTGCTCAGACGGAGCCCATTGTCCCCGCAATCCTAG	MKPFWIYYQKEMLESGRTYKWIWVPAVFLLLGIMQPVSTYYLPEILTMAGEVPPEAAALFTVPSAESVMASALSQFSVIGLLVLVLAGMNTVAGERATGTAELVLARSVSTIPMMAAKWAAMMTLVAASFALGLGGAAYYTHLLIGPLEWGAVASGGGLYVVWLAWIVTLALPLGAVLRGPAAAFISLAVAGALSLLSGLLPSRLQWNPGRLSSMAAERIVGEGSNVWSPIIVAILLMVLSIIVAARLLRRSPLSPQS	PGPT0006730_17378	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_05496	924	yxlF_1	COG1131	putative ABC transporter ATP-binding protein YxlF	TTGACGGAGAAACTTCTTAGTATTCATGAACTGACCAAAAGCATCGGAAGCATCATGCCGGTTAAAGGCATCTCGTTTGAATTGAAGCGCGGAGGCTGTACGGCGCTGCTGGGACCGAACGGCGCAGGGAAGACGACAACGCTGCGAATGCTGGCAGGATTGATTCCTCCGACCCGAGGCGAGATTCGATATGGATCGGGAGATGGACATACGGACAGTTGGCGTCACCGGATTGGTTACTTGCCGCAGTATCCGAAGTTTTATGGCTGGATGTCAGGCATGGAATATTTGTCATTTAGTGCCAAGCTGTCGGGATTGTCCGGAAAAGAGGCCCTTCGGCGAAGTCGGGAAGTGATCGAGATGGTGGGCCTGCAGGAGGCTGCCAAACGCCGGATATCCGGTTATTCCGGCGGAATGAAGCAGCGGCTTGGCATCGCACAGGCGCTTGTGCACGAGCCGGAGCTGATCATGCTGGACGAGCCGGTATCGGCGCTGGACCCGATCGGACGCCGGGAGGTTATGGACCTGCTCGACCGGCTGCGAGGGGAAGTCACCGTTCTGTTCTCGACCCATGTGCTTCATGATGCGGAGGAAATTTGCGATGACATGATACTGATGGTAGACGGGGAGATTGCGGAGAAGGGCGCGCTTAGCGAACTTCGCACGAAATACCGCCAGCCGGTCTTATCGATTGATGTTGAACCGGGGGAGCGGGAAGTTGTTTGGCTCGACAGTCTCGCGAACCGTCCTTATGTGCAAGAGATCGAGCTCGGCAAACGCGGCGCCAAGCTGATGGTGACGGATATGGAGGTGGCGCGTGCCGCTTTAATCCAAGAGCTTGCCGACGGCGGAATCGAGCTGCTTCGTTTTGAAGCCGGCACGTCTACGCTCGAGGATATGTTTATGAAGGTGGTGGGCTCATGA	MTEKLLSIHELTKSIGSIMPVKGISFELKRGGCTALLGPNGAGKTTTLRMLAGLIPPTRGEIRYGSGDGHTDSWRHRIGYLPQYPKFYGWMSGMEYLSFSAKLSGLSGKEALRRSREVIEMVGLQEAAKRRISGYSGGMKQRLGIAQALVHEPELIMLDEPVSALDPIGRREVMDLLDRLRGEVTVLFSTHVLHDAEEICDDMILMVDGEIAEKGALSELRTKYRQPVLSIDVEPGEREVVWLDSLANRPYVQEIELGKRGAKLMVTDMEVARAALIQELADGGIELLRFEAGTSTLEDMFMKVVGS	PGPT0006725_11474	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05497	195	yxlE		Negative regulatory protein YxlE	ATGGATATTAACTGGGGATTGATCTGGCCGATCCTTGCACTGCAAGCGATTCTTGCGGTCACGGGTCTTCTATCTTTGTTTCGGGCAGAGCCGGCAAACATACGTGGGCCGAGATGGATGTGGGTGTTGATTATATTGCTGGGTAACATTCTTGGCAGCATTGCTTATTTTATTGCGGGGAGGCGAGAGGCTTGA	MDINWGLIWPILALQAILAVTGLLSLFRAEPANIRGPRWMWVLIILLGNILGSIAYFIAGRREA				NA	NA	NA	NA	NA
AK002_05498	210	yxlD		Negative regulatory protein YxlD	ATGAATGAAGTGAACGAGAGCCCGCTGGTAGTGATCGTCCTTGCCGTTGTGCTGGTGCTGATCCAAGGGACATGGCTTTTCCTGGATGCAAGGAAGCGGGGGCTTGGCAAGATGGCTTGGTTCTGGGGGATATGGGGGTCTACGACGATGCCGTTACCGCTGCTCTTTTACTGGATATTCGTCATTCGTAAAGACGGCAGCGAGTCTTAA	MNEVNESPLVVIVLAVVLVLIQGTWLFLDARKRGLGKMAWFWGIWGSTTMPLPLLFYWIFVIRKDGSES				NA	NA	NA	NA	NA
AK002_05499	339			hypothetical protein	ATGGTCAAAGGACCTGAACATGAGGATGAAAAATGGATTGAAGAATTGAACCAGGAAATGAAGCGGGTGGATCAATTGTTTGAAGATGCGCCATCCCCATCCCTGGAAGGAATGCATGCGTTGGCCGTTCATACCTTGGAACGCAAACGGAAGAGGATGAAATACGAGCTGCTTCTCTTTCTTCTGGTTGCGCTCTTTATCGTCGGCGGGGGATTGATGGCTGCCTTGGCAGCGCCGATGATCCTGCTGTTTATTCACGGGTTCGGCATGGTCGCGGGGATTTCCGTTCTTGTATTTTCCAAAAGCCTGAGATCTGCCGGAAAGAAGGGAATCCGATGA	MVKGPEHEDEKWIEELNQEMKRVDQLFEDAPSPSLEGMHALAVHTLERKRKRMKYELLLFLLVALFIVGGGLMAALAAPMILLFIHGFGMVAGISVLVFSKSLRSAGKKGIR				NA	NA	NA	NA	NA
AK002_05500	489	sigY	COG1595	RNA polymerase sigma factor SigY	ATGGCGCTGCTGTTCAAGCAGCATTACTCCTTCCTTTATAAATATTTGCTGAAAGTGACGATGGACCCGATGCTTGCCGAAGATACCGCGCAGGATACCATCGTTCGATGCATGGAGAATATGAACCGTTACAACGGGACTTCGTCCTTCTCCTCTTGGATGATTACCATTGCTACCCGTTTGTTCATCGATAATACCCGGCGAAAGAAACGGGAGAAGAAATGGCTGGAGCAGGAGGCGGTTCAATCGGCAAGGCGGATGCGCTGGCAGATGGAGCGGCGGGGAGAAGACTGGACGGATATGCTGGATGGATTGTCCCGATTATCCGAGGATCATCGGATTGCCATCCTGCTGAAGCACTATTACGGCTACAGCTACGAGGAAATCGGAACGATGCTCGGAATCCCCGAAGGAACGGTGAAATCGCGGACCGCCTACGGCATTAAACAGCTGCGAAAGGAGATGGGTGACGATGGTCAAAGGACCTGA	MALLFKQHYSFLYKYLLKVTMDPMLAEDTAQDTIVRCMENMNRYNGTSSFSSWMITIATRLFIDNTRRKKREKKWLEQEAVQSARRMRWQMERRGEDWTDMLDGLSRLSEDHRIAILLKHYYGYSYEEIGTMLGIPEGTVKSRTAYGIKQLRKEMGDDGQRT	PGPT0014960_8729	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_05501	192			hypothetical protein	GTGAGGAAAGATCATCTATCGCTGCTGAACGGGAATGTTACAAGAAGCGAAGCGATTGATCGGCAACCGGAGTTCCGCCGGCGGGGCCAGACGGATATTTCATCCGTTGTCTGGGACAGGCTGGTGAAGGATGAAGGGATCGCGCAGCAGCCATGGCATCATCGGCTGCAGGTTATCAGATTGAATCAATAG	MRKDHLSLLNGNVTRSEAIDRQPEFRRRGQTDISSVVWDRLVKDEGIAQQPWHHRLQVIRLNQ				NA	NA	NA	NA	NA
AK002_05502	639			putative protein	ATGACACTTCATATTGAGACCTTTAATTTAGGACCGCTTCAGACGAATGCATATTTACTGACAGGGCCTGTGGAAGGCAAAGCGATCATTATCGATCCTGGCATGAACCCGGGGCCCCTTGTGAAGAGAATAGCCGATTTGGAGATTGAAGCGATCCTGCTGACCCATGCGCATTTCGACCACATGGGGGGCGTCGAGGAGATCCGCAAGCTGAAGGAATGTCCTGTCTATCTCCACACCTTGGAGAGCGAATGGCTGGCCAGTCCCAAGCTTAACGGTTCGCTGATGTGGCCTCAGGTCACCGGACCGCTGTCCACCGAGCCGGCGGAGTATGATTTGGCCGATGGGCTGGAGCTGCAGCTAATCGGGCATACCTTCAAGGTCTTTCATACACCGGGCCATTCGCCGGGAAGCGTGAGCTTCAAGTGCGGAAATGATCTGTTTTCCGGCGATGTGCTGTTCCGTCTAGGCGTTGGGCGAACGGATCTTCCGGGCGGCCGTGAACGCGATTTGGTTGATTCCATTCAGAACACGCTGTATACGTTTGCGGATGAGGTCGTTGTGTACTCCGGCCACGGGCCACGGACCACCATTGGCTATGAAAAGCAGCGGAATCCTTATGTTCCTGCGAGCAGGTAG	MTLHIETFNLGPLQTNAYLLTGPVEGKAIIIDPGMNPGPLVKRIADLEIEAILLTHAHFDHMGGVEEIRKLKECPVYLHTLESEWLASPKLNGSLMWPQVTGPLSTEPAEYDLADGLELQLIGHTFKVFHTPGHSPGSVSFKCGNDLFSGDVLFRLGVGRTDLPGGRERDLVDSIQNTLYTFADEVVVYSGHGPRTTIGYEKQRNPYVPASR	PGPT0001770_7108	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK002_05503	567			hypothetical protein	ATGAGTATGAATATGGCAAATCATTTGGGTACGGGCATATCTCCGCAGCAATTCATGGACGGCATGCAGAAGAACCAGGAGACGTTCAAGGCAGGCTACGAGCAGTTTAAATGGGAGAATGAAGAGGATAAAGAGTTTTTTGAAAGCCTCAATTTCAGGGATGATCTGCGTGTCCTCATTCTGGCAGCGGATTGGTGCGGCGATGTTGCGCGCAATATTCCTGTCGTATTCCGTGCGATGGAGGCCGCGGGAATTGAGACGGAAGTGCTGATTATGGAAGAGAATCTGGATGTCATGGATCAGTTCCTGACTATGGGCGCCCGTTCCATTCCGGTTGTTATCATTTCGGATACCGGGGGACATGTCCTCGGCACATGGGGACCGCGTCCGGCGCATGTTCAGAAGTTTATGATTGAGTTCAAGCAGAACAATCCGGATCGTGAAGCCTCAGACTATCAGGACAACCTTGCCGTCACGCGGCAAAGCATCATCCAAGCCTACGGGGAAGGGTATGAGTTTCACGCTGCCATCATTAAGGAATTGCGTGAACTGATGTCAGGGTTCTAA	MSMNMANHLGTGISPQQFMDGMQKNQETFKAGYEQFKWENEEDKEFFESLNFRDDLRVLILAADWCGDVARNIPVVFRAMEAAGIETEVLIMEENLDVMDQFLTMGARSIPVVIISDTGGHVLGTWGPRPAHVQKFMIEFKQNNPDREASDYQDNLAVTRQSIIQAYGEGYEFHAAIIKELRELMSGF				NA	NA	NA	NA	NA
AK002_05504	612			hypothetical protein	GTGGAATTCTTTTACGAGGCTGTGGGCCGACTGTTTGAATGGATCCAGCAGCTGGGCTATTTCGGAATCATGCTCGGATTAATGGTGGAGGTCATCCCAAGCGAGATCGTACTCGCCTATGGCGGTTATCTGGTTTCCATGGGGGAGGTTCATTTTATCGGTGCCATGATTTTTGGTACCGTTGGCGGCGTGCTCGCCCAGTTATTCATTTATTGGATCGGCCGTTACGGGGGGAGGCCCTTCCTGGAGAAGTACGGGAAGTACATACTGATTAAGAAGAAGCATATCGACTACGCCGAGGAATGGTTCGGCAAGTATGGTACCGGCGTTATATTTACGGCTCGGTTTGTACCGGTGGTAAGACATGCGATTTCCATCCCGGCGGGCATATCCAAAATGCATGTGGGCAGGTTTACGCTGTTGACCACCCTAGCGGTTATTCCGTGGACGGCATTATTCTTATACCTCGGATTGCTTCTGGGCGACCAGTGGGAGCATATCGACGAGAAGGCAGGGCCTTACGTTCGGGAAATTCTGCTGGGCGCATTAGCCGTCATGATTCTTTATTTTTTGATAAAATGGATAAAATCAGCGAAGGCGAGGTCGAAATAA	MEFFYEAVGRLFEWIQQLGYFGIMLGLMVEVIPSEIVLAYGGYLVSMGEVHFIGAMIFGTVGGVLAQLFIYWIGRYGGRPFLEKYGKYILIKKKHIDYAEEWFGKYGTGVIFTARFVPVVRHAISIPAGISKMHVGRFTLLTTLAVIPWTALFLYLGLLLGDQWEHIDEKAGPYVREILLGALAVMILYFLIKWIKSAKARSK				NA	NA	NA	NA	NA
AK002_05505	315			hypothetical protein	ATGCATTCTCCCCATGCCAAACGACCGGGCAGCAAGCCCCCCTCCCCGCGCGGGATACGGCGGGCCTGCAGCAAAGAATTATACCGTACGACCAAGCGGCTCAAGCTGTACCTTCCTCCGGAAACCTTAAAGCAAGGAGAGGAATTGTATTATCGGAAGGTCATCGGAAACCTGATCTGGATTCACGAAAACTACAGCAACAAAAAACTGCTGTGCGACTGGTGGGAAAAAGACGTCTGCGGCGAGCTTGCCGAGCTCTGGCAGGTTCCGGAGCGCCAACTGGCCTCCGCTTTTCGGGATGCCTTCGGGGGATGA	MHSPHAKRPGSKPPSPRGIRRACSKELYRTTKRLKLYLPPETLKQGEELYYRKVIGNLIWIHENYSNKKLLCDWWEKDVCGELAELWQVPERQLASAFRDAFGG				NA	NA	NA	NA	NA
AK002_05506	2148			hypothetical protein	ATGGCATCGAATACCCTGCATCGTGTTTGCGGGATGATGCTGATCGGGCTGGGGCTTGCTGCCAGTATCCGGAGCGGAATGTTTTTTGACGAGGATATATATTGGATCGGAGCGGGTTTCGGCGTGCTTCTGCTGCTCATGACGGGAGCCGATTGGCAGGGTGCCGTTCAAGGCCGCCGGAAGAATCATGGCATGGGAAAACTGCCGGAGGCGGTTCCTTCAGACAGAGAATTGCGGGTGGTTCTTGGCTGCATCTGCGCAATCCTTCTCATCTACGTCTTTCACGGGATAGGGCGCCCCCTCTCTCTGGAAGGCACGATGAAGGAGATCATCCTGTGGGGAAGCTATGGTTCTTTTGCCATTGTTGCTTGGCGCACGTGCCGTACAGGCCCCGGCTTACGGATCATGCATGCCGGCTGGCATCTGCTGGGCGCCGTGCTGTGCGGCAGCGCATTGCTTGCCGTATACGGGCTTATGGAGCTGCCGTATGGGATCTATCATACGGCGGATGCGGACATTAGCGCGACTGGCGCGAGGCTTGGCGGCCTGCTTCAGTACCCGAACACGTTCGGTGCGGTGATGGCCGCCTTTTTGCTGGAGCGGCTGTTCGCGCTGCCGTCCGTCCTGCGGAACCGGACGGGCACGCTCCGCGCAGCGGCTGCGCTGCTGCCGCTGCTGCCTTACACTGCCGCGCTGCTCCTAACGGAGTCGCGCGGCGCCTGGCTCGCGGCCGCTCTTGCGTGCGCGGCCGGCTTCGCCAAGGAGCGGCGTGCCTTGGCGCCGCTCCTGGTGGCTGCCGCCGCGCCTGTGGCGAGCGCGGCGCTGCTGTACCGCCAGCTGGCGGATGCCAGGCTGGCGCCAGCCCTGCTGCCCGGCCTGCTGTGGCTGGCCGGGCTTTGGGCCGGCGGCGTCCTCGCCGGCCTGCTGCTGTGCCGCTGGCGGCACAGGGGAGGGCCCGGGCGGCGTTACGCCGCGCCCGGGGCCTTGGGAGCTGCGGCCTTGCTGGCAGCCGCAGCGATGGTCGTGATCCTGCTCCAGGTGCAGGATCGGACCCTGGGCGGCGCGGCAACGCTCAGCGCGCGCCGCCTCATGTACAGCGACGCCTGGCAGCTGGCCCGGTCGTCGCCGTGGCTGGGACGGGGAGGGGAGACGTGGCGGCAATCCTATCTCGCCATTCAGTCCCAGCCCTATGTGGGTGCCGAGGTGCACAACGGATATATGGATATCCTGTTGAATACGGGAGTCATTGGGCTGCTGCTTGTCCTTATTCTGATTATCTTTATGGTTGCTAAGCTCATCGCGGCAAGCTCCCGATTCATGCCCCCCGCCCTCGTGCTGATCGGACATGCGTCCGTGGATTTCGATTGGGGCTTCGGGTTGGTATGGCTGCTCCTATTGTGGCTTACGGTAATGGGCTTGGCCGGGGGTTCCCCCGATGAGGCGCCGCAGCTTGGATCTATGGCAACTCGGCTACCCCGGCCGTTCAAACGATGGAATCAACTGCAAACCGGCTATGAAGGGAAGGGGGCCCGTTCCAGGGTTATGGTCATTCTCCCGATCGTGGCTTGGACTTTCCTCGCCGCGGCGCTGGGCATCAGCGAGCTCCAAGAGCGGTGGGCCGCATCAGAGCCGCCAGGCCGGCAGATCGTGCTCCTCCGATCCTCGTTGAAGTGGAACCCCGCCAATACGGATGCGGCCATAAAGCTCTCGGCATGGCTTCCCCCAAGCGAGCGGATTCCGCTGCTGGAACGAAGCATGAAACATGCGCCGAATCACCCGGGTTTAAGCTGGAGGCTGGCAGAAGGCTATTCCCTAAGAGGCGAATCGGAGGAAGCGGCGGCATGGTTCAAAAGGGGGATCGAACTGGATCGTTTCAATCCGGTCAAGCAAACCCGGGCCGTGCTGAAGCTGGCCGCCCTTGCGGACTGGCACCGCAGGGCGGGAGATTCCGCCAGAGCGGTTGACGCGGCCCGGGCCGGATGGGATACCTTGAAGCGCTATCGCTTTCTTGCGGCCGCCCTTCATGAGCTTGATCCTTTTCGAAATGACCGTGGCTTTCATCTGTCCGTGCTTGCGGCTCGGCAGGCCAACCGCTTCGATAACACGATGACATGGGGAGAACGGGAGCATGCTGCAAGGCAGCCCTGA	MASNTLHRVCGMMLIGLGLAASIRSGMFFDEDIYWIGAGFGVLLLLMTGADWQGAVQGRRKNHGMGKLPEAVPSDRELRVVLGCICAILLIYVFHGIGRPLSLEGTMKEIILWGSYGSFAIVAWRTCRTGPGLRIMHAGWHLLGAVLCGSALLAVYGLMELPYGIYHTADADISATGARLGGLLQYPNTFGAVMAAFLLERLFALPSVLRNRTGTLRAAAALLPLLPYTAALLLTESRGAWLAAALACAAGFAKERRALAPLLVAAAAPVASAALLYRQLADARLAPALLPGLLWLAGLWAGGVLAGLLLCRWRHRGGPGRRYAAPGALGAAALLAAAAMVVILLQVQDRTLGGAATLSARRLMYSDAWQLARSSPWLGRGGETWRQSYLAIQSQPYVGAEVHNGYMDILLNTGVIGLLLVLILIIFMVAKLIAASSRFMPPALVLIGHASVDFDWGFGLVWLLLLWLTVMGLAGGSPDEAPQLGSMATRLPRPFKRWNQLQTGYEGKGARSRVMVILPIVAWTFLAAALGISELQERWAASEPPGRQIVLLRSSLKWNPANTDAAIKLSAWLPPSERIPLLERSMKHAPNHPGLSWRLAEGYSLRGESEEAAAWFKRGIELDRFNPVKQTRAVLKLAALADWHRRAGDSARAVDAARAGWDTLKRYRFLAAALHELDPFRNDRGFHLSVLAARQANRFDNTMTWGEREHAARQP				NA	NA	NA	NA	NA
AK002_05507	1182			hypothetical protein	TTGGATGCATTAAGAAAATTGATTCATAACATCATGGAAGAAGCATCATTGATTACGGCTACGCTAAGCCAGCTTCGTAAGCGGGAAGGCATGACCTACAGCAAAGTAACGGTTAAGCCCATAGAGCTCAAGAACAAGCTGCACTATCAGCTCGCCTATTATTCCGCAACCAAGGTCACCCATCAGAATGTGCCTGCGGATGAGGCGGAGGCCGTACTGTTGGATATGTTCGAAAATGTATTCCGGCAAGCGATGATCTATACGCCGGAAGCGGACTATCAGGTTCTGATTTCGAAGAAATACAAGGTTTCGATTCTGACCAAATCCGCTTCCAAGACCAAAACGGATTTGTCGCATAACCGGAAAAAGACGTACATTCTTGAAGAGGGAGAGCCGGTTCCGTTTCTGGTGGAGCTGGGCATCATGGGCGAGGATGGCAAAGTATTTGCCCGCAGATACGATAAATTCAAACAGATCAACCGCTTCTTGGAGATGGTGGAGGATGTCCTCCCTCATCTGCCGGAGGACCGTCCGCTTACGATCGTCGATTTTGGCTGCGGCAAATCCTATCTGACCTTCGCCTTGTATCACTATTTGGCGGTAACCGCGCGCAGAAAGCTGAATATTGTCGGATTGGATCTCAAGGCGGATGTCATCGAACACTGCAGTATGCTGGCGAAAAAACTGAATTATACTCAATTGCGGTTTCTTGTCGGCGACATTGCGGAATATGACGAACTGGAGCAGGTGGATATGGTGGTCACGCTGCATGCATGCGACACGGCAACCGATGCGGCGCTGGAAAAAGCGGTCCGCTGGGGGGCTTCGGTGATTCTGTCGGTGCCTTGCTGCCAGCACGAGCTGTTCGCCCAAGTCCAGAGCCCAGTCATGGAGCCGCTGCTGTCCCACGGTATCTTGAAGGAACGCTTCTCAGCTCTTGCCACGGACGCCATTCGGGCCAAGCTCCTCGACCTGATGGGCTACAAGACGCAGCTGCTGGAGTTTATCGATATGGAACATACGCCCAAGAATATTTTGATCCGTGCGGTCAGCGGTTCTGCCGGAGATCGGAATAAACTATGGCAGGAGTATACCGCGTTTCGCGATTTTTTAAGTGCCTCGCCGTACCTTGAACGGGCTTGCAAGGATCTGCTCCCGAATACGGAAATGGAATCGCGTTGA	MDALRKLIHNIMEEASLITATLSQLRKREGMTYSKVTVKPIELKNKLHYQLAYYSATKVTHQNVPADEAEAVLLDMFENVFRQAMIYTPEADYQVLISKKYKVSILTKSASKTKTDLSHNRKKTYILEEGEPVPFLVELGIMGEDGKVFARRYDKFKQINRFLEMVEDVLPHLPEDRPLTIVDFGCGKSYLTFALYHYLAVTARRKLNIVGLDLKADVIEHCSMLAKKLNYTQLRFLVGDIAEYDELEQVDMVVTLHACDTATDAALEKAVRWGASVILSVPCCQHELFAQVQSPVMEPLLSHGILKERFSALATDAIRAKLLDLMGYKTQLLEFIDMEHTPKNILIRAVSGSAGDRNKLWQEYTAFRDFLSASPYLERACKDLLPNTEMESR				NA	NA	NA	NA	NA
AK002_05508	693			hypothetical protein	ATGTTTCGCAGGGATTATCTTGTGCGGCTTATTGAGGATATGACACAGATGATAGCCAAAGTGTTTTCGCTCAAGCAGGAGCGCAAGCACACCGAGGCTTTATGGGAGCTGGATGAGCTTTTTAAACGGCAGTTCCGGCTAAATTCAGGGCTGCTTCGCTCCTTGTCCGCAGCCGATATCGAGCAGCTCTTTCGTAATCATGGTTATCTGGAAGCGGACAAGCTGCAGAGTGCCGCTAGGCTGATGGAAGAGGAAGCATCGCTGCTGCTCGAGCTTGAGCGCGAAGAAGAAGCCGTTATGCTCTATACCAAGGTCTTTCAGTTATATTTGAAGTCAGCCCTGCAAGGGGCGGATCCGAAACTGATCGGGTTGACGGAACGAATCGGTCTGGTGAAAGAACGTTTAAGGGCTTACGCGTGGCCCGAAACGGCGATGCTGGATTATTATGCGTATACGGAGCAGCAGGGGATGTTCGCGGAAGCGGAGAATACCCTGTACCAACTGCTGGATAGCGGTAAGATCGAATATGACGAAGCCGTAAGGTTCTATCAAAGATTGCAGCAGAAACGGCCCGAGGATTTGGCAAAAGGCGGGCTTCCGCTGGAGGAAGTCGAGGAAGGCATGGACGAGCTCCACCGCCGTTTTCCGCATGCGGCGGTGGACGGAGATAAACCGATTCCCGGCCTCGATTAA	MFRRDYLVRLIEDMTQMIAKVFSLKQERKHTEALWELDELFKRQFRLNSGLLRSLSAADIEQLFRNHGYLEADKLQSAARLMEEEASLLLELEREEEAVMLYTKVFQLYLKSALQGADPKLIGLTERIGLVKERLRAYAWPETAMLDYYAYTEQQGMFAEAENTLYQLLDSGKIEYDEAVRFYQRLQQKRPEDLAKGGLPLEEVEEGMDELHRRFPHAAVDGDKPIPGLD				NA	NA	NA	NA	NA
AK002_05509	792	catD_4	COG0596	3-oxoadipate enol-lactonase 2	ATGGAAAAAGTACAATGCAACGGCAGCACGATTTGCTACGTGGATCAGGGACAAGGTGAGCCGGTCATTCTGCTTCACGGTTTCTGCGGAAGCTCCGCCTATTGGGAACAGGTACTGCCATATCTTCAAGGCTTCAGAGTCATTGTACCGGATCTCCGGGGGCACGGGCGGTCCGATGCACCGATGGGATCGTATACCATCGAACAAATGGCGGACGACGTCCTGCTACTGATGGATGAGCTCGATATTCCGAAGGCGGCGTTGCTCGGTCATTCCCTCGGAGGATATATAGCGCTCTCCTTCGCCCAGCGCTACGCTTCTCGATTGAACGGCTTTGGCTTGATCCATTCTACGGGCTATCCGGATTCGGATGAAGCGAAGGAGAAACGGGTGAAAGCGGTCAGCACCATCCAAGGGGAGGGCATTACGTCTTTTGTTGACGGATTGGTGCCGGGCCTGTTTGCTCCGGATACGAAGGAAACCAAGCCGGAATGCATTCAGCGGGCGAAGGAGATCGGTTACCTTACGCCGCCGCAAGGAGCGATAGGTGCGGCGCTGGCCATGCGCGAGCGGCCGGACCGGCGAGATGTGCTATCGGCATCCACGCTGCCGATCCTGCTTGTGGCAGGAGAGAAGGACGGCTTGATTCCGGCGGAGCGCACCTTTACCACAGACCATGACAACGTAACCCGGATCGTGATCGAAGGCGCGGGTCATATGAGTATGATGGAGACGCCCGAGAAGCTCGGCGAAGTCATTTCCGCTTTCATGGGACGGCTGGAGCAAGAATAA	MEKVQCNGSTICYVDQGQGEPVILLHGFCGSSAYWEQVLPYLQGFRVIVPDLRGHGRSDAPMGSYTIEQMADDVLLLMDELDIPKAALLGHSLGGYIALSFAQRYASRLNGFGLIHSTGYPDSDEAKEKRVKAVSTIQGEGITSFVDGLVPGLFAPDTKETKPECIQRAKEIGYLTPPQGAIGAALAMRERPDRRDVLSASTLPILLVAGEKDGLIPAERTFTTDHDNVTRIVIEGAGHMSMMETPEKLGEVISAFMGRLEQE	PGPT0004995_1482	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROXYCINNAMIC_ACID_RESISTANCE,PGPT0004995-pcaD|catD-K01055	NA	NA
AK002_05510	540			hypothetical protein	ATGAGCGAACAAGCCGGCAAGACGCCAAGCGTGCATGCTGCCAAAGCCAAGATGTCGGGCCATGAACTGGCCGATTTTTTTCGGGGGATTTCGCAGCGCCATGCGCTGGGCAGCATCGTATTTTTATGTATTGGCACCGACCGTTCCACAGGTGACGCGCTCGGTCCGTTGACTGGAAGCCGGCTTGTGGAATACGGTTTTCCGCAGGTGATCGGCACGCTGCCCGAACCATGTGATGCTTTCAATCTTGAGGCAAAGCTTCAAGGCATACCCGAGGATCAGGTGGTTATTGCCATTGATGCTTGCTTGGGACAATCCTCTTCCGTCGGTTATTTCTTTGCAAGCGAAGGTCCGCTGGCGCCGGCCCAATCCGTCGGCGGGAAGCTGCCGGCAGTGGGAGACTACAGCGTGGCAGCGGTCGTGAACGTTCATGGACCGAAGCCGTATTGGACCCTCCAAGTGACGTCCCTTTACCAGGTCATGGGAATGGCGGAGCAGATAGCGAAGCAAGCCGCGGCGGCCTTTGGCCTTAGGCCGTAA	MSEQAGKTPSVHAAKAKMSGHELADFFRGISQRHALGSIVFLCIGTDRSTGDALGPLTGSRLVEYGFPQVIGTLPEPCDAFNLEAKLQGIPEDQVVIAIDACLGQSSSVGYFFASEGPLAPAQSVGGKLPAVGDYSVAAVVNVHGPKPYWTLQVTSLYQVMGMAEQIAKQAAAAFGLRP				NA	NA	NA	NA	NA
AK002_05511	228			hypothetical protein	ATGGATTTGAGTGAAAAATCCCAAGCCAATGTCGAGTATATGATCGAACAGATTAAAACGAAGCTACGGATGGCTACAGGCGCTGCCATGCAGGCCTCTGCCTTCTCGGTTAACCAATATGACGATATTTATGATCTGTACGATATGGTCATGAATAAACAGAATCTTAGTATTTCGGAAGTGGAAGCCGTTGTATCCGAGCTTGGACAGCTCCGCGGAAACCAGTAG	MDLSEKSQANVEYMIEQIKTKLRMATGAAMQASAFSVNQYDDIYDLYDMVMNKQNLSISEVEAVVSELGQLRGNQ				NA	NA	NA	NA	NA
AK002_05512	720		COG1741	Putative quercetin 2,3-dioxygenase	ATGATTAAAATCATGACGGCAGCGGAAAGACATACTACCCATGAAGACGGTATTCATAGCGAATTCAGCTTTTCTTTTGGTGATTATACAGACCCGCATAACGAGCACTTTGGAAGCCTTCTGGCGCATAATGAATACGTGCTCCAACCGATGGAGGGGTTTGATCGCAGGTTTCATCATGATTTGGTGATTGTGCATTTGGTGCTGGAAGGCACGTTGACGTATGAGGATGATACAGGGAAGCTCATGGAGCTTACGCCCGGTACGATTCATGTCGTGAATACAGGCTCCGGCGTGTACCATGCCGAGAGGAACGCCTCATCTTCGGAGGACGTACGCTATCTGGAAATGTGGTTTCTCCCTGCGGAGCCGGGCCTTGAGACCAGTCACCATCAAAGCAATTTCACAAAAGAACAGCAATTGAACCAGATGCTTCCGATCATCGGTTCAGGCAATGGTGAGTCGAGCCTGCCCCAGTCGCTGGATGTTGTGATGTACAGCAGCATACTGGAGACCGGACAAGAACTGACGTACAGTCTGGCCGGGGATCGTAGAATGCATCTATACGTCATAAGCGGTGATGTCGTAATATCATCGGAAGACGGCGTATTCGATATTAAGGCGGGCGATGCGGCAAGGATACAGCGTCGTCATGAGCTGACCTTCCGGGGGAACTCCAGTGAGGGAAGCTCGGAAATGGTCCTTATCGATATGCCATAA	MIKIMTAAERHTTHEDGIHSEFSFSFGDYTDPHNEHFGSLLAHNEYVLQPMEGFDRRFHHDLVIVHLVLEGTLTYEDDTGKLMELTPGTIHVVNTGSGVYHAERNASSSEDVRYLEMWFLPAEPGLETSHHQSNFTKEQQLNQMLPIIGSGNGESSLPQSLDVVMYSSILETGQELTYSLAGDRRMHLYVISGDVVISSEDGVFDIKAGDAARIQRRHELTFRGNSSEGSSEMVLIDMP	PGPT0019980_4649	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
AK002_05513	1005			hypothetical protein	ATGGACACTGTATTGGTGAAGGAATATCGGGCGGACATATTGGAGTGCGTCCACAATGGACATATATGCATTGTGAATGAACAAGGTAAGGTCGAGGCTTATGCGGGAGATCCGGATTATGTCGCATTTACGCGTTCTTCGGCCAAGCCGATGCAGGCGATTCCTTCCATTCGCGGCGGGCTGGCGGATCATTACGGACTGTCCGATGAGGAAATTGCGATCATGACGGCCTCGCATCGTGCGGAGCAGGCTCATGTGGAAGTATTGGAGCGGTTTGCACGCAAGGCGGGCATCAGCGAAACTCACATGGTGTGCGCATCCAGCTGGCCGCTGGACGAAGGAAGCAAAGAAACACTTCTGCGAGGCGGCGGCGATAAAAGTAAATGGTACCATAATTGCTCCGGCAAGCATTATGGCATGCTGGCCTACTGCCAGATGGCGGGATATCCGCTGACGGGATACGATCAGCCGGAACATCCGCTGCAGCAGGAGATCCTTCGGACGGTCGCCTATTTGGCTGGATTGGCTCCGGGCGATGTTAAACTGGGAACCGATGGATGCGGCTTGCCGGTATTCGCCATGCCGCTCCGCGCTTTGGCAACAGCCTACATGAAGCTTGCATGCCCGGACCTTATAGAGGACGAGCCGACGCGAAAGGCAGTCATTCGAATCACGAAGGCCATGCATGCAGCGCCTTATATGGTGGCGGGTAAACATAAAGTGGATACCCTTCTTCTGGAAGATCCTAATATTGTGGCCAAGGGCGGCTTCAAGGGAGTGTACTGTTTCGGCCTTAAGAAGGAGCGGCTCGGCATCTCTTTCAAAATTTCGGACGGCTCCGAGGAAGAATGGGGCTGGATCGCGGAGTCCATATTGGAACAGATCGGCTACGGCAGCAAAGCGACCATCGAACGGCTGAAAGCTGCATATCCTAAGGATTTATATAATGATGAGGGTCTTCGAGTAGGCAGGGTAGAAACCGGATTTAAGCTGCTCCACGCTTAA	MDTVLVKEYRADILECVHNGHICIVNEQGKVEAYAGDPDYVAFTRSSAKPMQAIPSIRGGLADHYGLSDEEIAIMTASHRAEQAHVEVLERFARKAGISETHMVCASSWPLDEGSKETLLRGGGDKSKWYHNCSGKHYGMLAYCQMAGYPLTGYDQPEHPLQQEILRTVAYLAGLAPGDVKLGTDGCGLPVFAMPLRALATAYMKLACPDLIEDEPTRKAVIRITKAMHAAPYMVAGKHKVDTLLLEDPNIVAKGGFKGVYCFGLKKERLGISFKISDGSEEEWGWIAESILEQIGYGSKATIERLKAAYPKDLYNDEGLRVGRVETGFKLLHA				NA	NA	NA	NA	NA
AK002_05514	258			hypothetical protein	ATGTGGGGAATCATCATCAGCATCGTGATGGCAATCATCATCGGGATAATCGGGGATGCGCTGGTTGGTCATGAAATGCCGGGCGGAATTATCGGTTCCATGATCGCAGGTTTCATAGGCGCATGGCTCGGACCGTGGCTCTTCGGAGCATGGGGTCCTGTCATAGGCGGATTTGCCATTGTGCCCGCAATCATCGGTACGGCCATCTTTGTATTCCTGCTCGGTCTTGTTGCCAAGTTGTTTAGACGCACAGCCTGA	MWGIIISIVMAIIIGIIGDALVGHEMPGGIIGSMIAGFIGAWLGPWLFGAWGPVIGGFAIVPAIIGTAIFVFLLGLVAKLFRRTA				NA	NA	NA	NA	NA
AK002_05515	411			hypothetical protein	ATGAATAACGCAGAACAAGAATATCCAGTACAAAGCGGTTCCACATTCTTCAAAGGTGCTTTTATCGGTGCCTTGGTCGGGGCGGCGGCAGCTCTGTTGTTCGCTCCAAAGCCAGGCCGCGAGCTTCGCGGGGATTTATCCGAGAAGCTGAGCATGGTGTCGGATAAAACCAAAGAAGTCGCTTATACCGTAGGCGATAAAGCTTCTGAACTGGCAAAAACGGTGGGCAGCAAAGCCTCCGATGTCATGGCCACCGTGAATGAAGGCCGCCAAAGCATTATGTCCAGCGTCAAGGAAGCATCGGCAGACGTGTCGAGCGAGGTTTCAAGTGCTTCCAAAGATGTGAAGGATAAAGCGATGGACACCTCTTCCGAAGTCAGCCGTGAAATGAAAACGACAACGAATTATTAA	MNNAEQEYPVQSGSTFFKGAFIGALVGAAAALLFAPKPGRELRGDLSEKLSMVSDKTKEVAYTVGDKASELAKTVGSKASDVMATVNEGRQSIMSSVKEASADVSSEVSSASKDVKDKAMDTSSEVSREMKTTTNY				NA	NA	NA	NA	NA
AK002_05516	432			hypothetical protein	ATGAGTAAAGCAAACCCATATCATGGCGGCTCCGGCTTCTCAACCCGAAGCGGCAGTCGTTCGACACGAAACGAGGAACAACGTGGGCAATCCGAATCATCCAGGGAAAGACACTCCATAGAGGCGGATGAGGTCCAGGAGCATCCCTTTGAGCTTAGGCACGAAGTGAAGAAATTGAACACGCGACTGGACAAAATCGCCGCCACGCTGGAGAAGTCCGAAATGAAGGACATGATCGATAATTACATGAATCCCAAAAAACGCATCATTGCCAACCTCACTGCCGGCTTGGCCCGGGGGTTGGGCTTAACCCTTGGCACGGCTCTCGTGCTGGGTCTTCTGGGTTATATTCTCAGCTTCTTTGTCAATGTGCCGATGATAGGGGATTTCATCTCGAACCTGCAGGGATATATTGAACAATCCAAATCCTAA	MSKANPYHGGSGFSTRSGSRSTRNEEQRGQSESSRERHSIEADEVQEHPFELRHEVKKLNTRLDKIAATLEKSEMKDMIDNYMNPKKRIIANLTAGLARGLGLTLGTALVLGLLGYILSFFVNVPMIGDFISNLQGYIEQSKS				NA	NA	NA	NA	NA
AK002_05517	978	corA_3	COG0598	Magnesium transport protein CorA	ATGCTTGGGCCGGATACGACAGAAGGTCAGGATGTTTATGATTATGCAGGGGGGTGGCAATGGCACGATGTCCGAACCGAGAACTGGCAATCCTCCTGGATCGGCGAACTTCGGTCACGCTATCCTTATACAGCTGAATGGTTTAATCTGGCAGCGTCGTTAAAGGACCGGAATTACTTATCCGTTCGTTTCAAGGATGGGGTGGAGCCGGTCATTATGGGGTCCATGCTTTATAAGGTCACGAATGAACACGAGCATCATAAGGCGGAACAGTTCTATTTCTATGTGGATGCTCATGTGCTGATCACCATTAATTTGGATGAGCATACCCGCAGCGTGATGGTCAAGGCCGATAGAGCCTCGATGCTTCATCAATGCGAGCGGCCCGTAGACGGCATGTTTGTATTGGCCCGGGCCATTCTGCATTATTACCATGCAGGAATGGATCAATTCGAACATAACCTGCGCCTCGTCGAAAAGGATATGCGTACACGCAACCGAAGATCTTTAATGGATAACATTCTCTCGTCGAGGTTTGAGCTGCTGGAATGGAGCAACCTGTTTATTCCTTTTCAGGAGCTGATCGCTGCGGCGAAGGAAGGATATCACGGCGAGCTGGATGCCAGCCGCTCGTTCCAACAGCTCCTGCATCGAGTAGAAAGAATGGAAAGGCTGATTTATCACTATGAGCGCGAAATCGATACGCTGGTATCCATCGATGATGCAATCTCGGCGTTCCGCGGTAATGAAATCATGAAGACCTTGACCATCTTTACGGTCGTATTCACACCGGCAACCGTGATCGGAGCCGTATGGGGCATGAATTTCGAGAACTTGCCCGGCATTAAGACGTTCTGGGGCTTCACGGCAGTCATCGGCTTCACCTTGCTCTGGACCGGAGGGATGTACCTTTGGATGCGTGCAAAGGGATGGACGGGGGACCTGCTTCAAGTAAAGTCCAAAAACAGGAATATTTGA	MLGPDTTEGQDVYDYAGGWQWHDVRTENWQSSWIGELRSRYPYTAEWFNLAASLKDRNYLSVRFKDGVEPVIMGSMLYKVTNEHEHHKAEQFYFYVDAHVLITINLDEHTRSVMVKADRASMLHQCERPVDGMFVLARAILHYYHAGMDQFEHNLRLVEKDMRTRNRRSLMDNILSSRFELLEWSNLFIPFQELIAAAKEGYHGELDASRSFQQLLHRVERMERLIYHYEREIDTLVSIDDAISAFRGNEIMKTLTIFTVVFTPATVIGAVWGMNFENLPGIKTFWGFTAVIGFTLLWTGGMYLWMRAKGWTGDLLQVKSKNRNI	PGPT0014010_2764	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
AK002_05518	771	sigB	COG1191	RNA polymerase sigma-B factor	ATGAGTGATAAGGCGACTCCCCAAGAGTCCAGGGATGAAGCAGTGCATTTAATAGAACAGTATCAGCAGACGAAGGATAACGATATCGCAACGGTGCTGATTAAAAAATATGAACCGATGGTCAAGATGGCAGCAGGCAAAATTGCCCGGAATCGGCCCGATCTGTATGAGGATTTATATCAGGTTGGCCAAATGGCATTAATCCGTTTGCTTCAGCAATACGACATTAGCCTGGGGATTCCGTTTGAGCCCTATGCCATGAAGAGTATGATCGGGCATATGAAAAACTTCCTTCGCGATAAATCGTGGTACATTCAAGTGCCAAGACGAATCAAGGAGAAGGGGGCCTTGGTCCAGCAAGCGATTGATGAACTAATGGTGAAGCTTGAACGATCCCCTGATGTGAATGAGATTGCATCCTACCTGGATCTTTCCGTGGAGGAAACCGTTGAAGTGTTGGCGGGAAGGGAATGCTATCATTATGTATCATTGGATTCCCCATTGTCTCAGGAAGAAACCGGGGCCACGCTTGGAGAACTGATCAGTTCGGACGTGAACGACTTTGATTCCGTCGAGAAGCGGATGGATCTTCAACAGGCGATGAGCCAGCTGAAGGAGCAAGAGCAGAAGGTGCTGCTGCTGGCATTTCAGGAGGGGCAGTCCCAGCGAACGATCGCTCAAAGGTTAGGCGTGTCGCAAATGAGTGTCTCGCGTATCCAGAAGCGGGCAACGGAAAAACTGAAGCAGATCATGTCCAATTCTTCGTATTGA	MSDKATPQESRDEAVHLIEQYQQTKDNDIATVLIKKYEPMVKMAAGKIARNRPDLYEDLYQVGQMALIRLLQQYDISLGIPFEPYAMKSMIGHMKNFLRDKSWYIQVPRRIKEKGALVQQAIDELMVKLERSPDVNEIASYLDLSVEETVEVLAGRECYHYVSLDSPLSQEETGATLGELISSDVNDFDSVEKRMDLQQAMSQLKEQEQKVLLLAFQEGQSQRTIAQRLGVSQMSVSRIQKRATEKLKQIMSNSSY	PGPT0015025_1623	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	OTHER_MOTILITY_REGULATION,PGPT0015025-sigM|rpoE-K03090	NA	NA
AK002_05519	450	rsbW	COG2172	Serine-protein kinase RsbW	ATGAATTCAGATGTACAAAGAATAACACTTAATTTGCCTGCCAGTGCTGAATACGTGGATATTGTAAGATTGAATCTATACGGGATAGCTTCCAAGATGGGCTTTTCCTATGAAGAGATCGAAGATATGAAGGTTGCGGTGTCGGAGGCCTGTAACAACTCGGTTTTATATGCTTATAGCCAGGAAGGCGGAATGGTAGAGGTTTTATTTCAAGTGACCGGCGAGTCGCTATCCATTACGGTCAGAGACGAAGGGGAGAGTTTCGACAGTGTGGGGGCGGTTGGCAATCGTACACTTCATGATAAAGATCTCAGCGAGGTCCAAATCGGAGGACTTGGCTTCTACCTGATGGAGGCGCTTATGGACGAGGTGAGCGTGACAAACCAGGCTGGAAAGGGAACCGAGGTTACGCTGACGAAGCGGCTCGCAAGAAGTGAGGAGCCAGTATGA	MNSDVQRITLNLPASAEYVDIVRLNLYGIASKMGFSYEEIEDMKVAVSEACNNSVLYAYSQEGGMVEVLFQVTGESLSITVRDEGESFDSVGAVGNRTLHDKDLSEVQIGGLGFYLMEALMDEVSVTNQAGKGTEVTLTKRLARSEEPV	PGPT0014950_871	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
AK002_05520	324	rsbV		Anti-sigma-B factor antagonist	ATGAATACAAAAACGAATGATAAGTTCAATGCCAAGACCCAAATGAACGAGGGCGTATGCACGGTATTTTTGAGCGGTGAACTTGATCTGTCCGTCGCTCCGGATTTTCGATTGGTAATGGAGCCTCTTGTCGGCAATTCCGAGGTAGACTTGATCGTCAACATGAAGGACATGACATATATTGATAGTACGGGCATTGGTATTCTTCTGTCGATACTGAAAGCCAGACATGGCATGGAAGCACGCTTTGCAGTTGAGGAAGTTCCGCCGCAAATTCAAAAGCTGTTCGATATGACGGGTATTGCGAAGTTCTTTCAGTCGTAA	MNTKTNDKFNAKTQMNEGVCTVFLSGELDLSVAPDFRLVMEPLVGNSEVDLIVNMKDMTYIDSTGIGILLSILKARHGMEARFAVEEVPPQIQKLFDMTGIAKFFQS	PGPT0014350_2750	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
AK002_05521	1680	rcsC_18		Sensor histidine kinase RcsC	ATGGGGTTTCACGAACCGATTCATATTCTGTTGGTAGATGACCGCCCTGAAAACTTACTTGCACTCGAAGCTGTTCTGGACAGCGAACAATACACGCTCATTAAAGCTACTTCAGGCGAAGAGGCTTTGCGATATCTCTTGAAGTATGATTTTGCCGTGATTGTTCTTGATGTCCAAATGCCCGGCATGGACGGCATTGAAACGGCAAGGCTGATCAAGGCGAGAGACAAGACGAAGGATATTCCGATAATATTCATTTCCGCAAACAGCAAGGACGCGGAGCATCTTTTTGCGGGATACTCCGCCGGTGCAATCGACTATATGGTTAAACCCTTCATCCCTCAAATCTTGAAATCCAAGATCGAGGGTTTTGTCGATATGTATCGGACCAATAACAGGCTGAAGATCCAGTCCGCGCAATTACACCAGAAGACTCAGGAACTGGAAAAGATTAATCAAGAGCTTGTGCTGGCCAAGGAAGAGGCCGAGATTGCCGCCAAAGCCAAAACCGAGTTTCTGGCGATGATGAGTCATGAGATCCGAACGCCGATGAATGGCGTCATCGGGATGATTGATTTGCTGATGGACAGCGAGCTACAGGATGAACAGCGTGAATATGCCACGATTATCCGCAACAGTGCGGATGCCTTGGTTAATATCATTAATGACATTCTGGATTTCTCCAAGATGGAATCCGGCAAAATGGAGCTGGAGGAATATCCGTTTGATCTTAAGTCCTGCGTTCAGGAAGTGTTTGGTTTGTTCTCCGGAGAAGCCTCCAAGAAAAACCTGGAGCTTACGTATTTTATCGAGGATCAGATCCCTTCGATGGTATTCGGCGATATGGGGCGCCTTCGTCAAGTGTTGGTGAATTTGGTATCCAATGCCGTGAAATTTACGAATGAGGGCGGCGTGTATTTGGTTGTTTCGCTTGCCAAGGCCGAAGAGAATCGATTAACGCTTGAATTCACGGTAAAAGATACGGGAATCGGTATCTCATCGAAGAAGCTTGACCGGCTGTTCAAGCCGTTCTCTCAACTGGATTCCTCGATGACCCGACGCTACGGCGGAACAGGTCTGGGGCTAGCGATCTGTAAATCGCTTGTGCAGATGATGGGCGGAGAGATTGAGGTTGACTCCAAGGAAGGGGAGGGAGCCACCTTCGTATTCACGATCTGCGTTCACACGCATGAGGAGGAGCATCCTCGGCTCCGGGAAGAGGAACATTCGGGCAAATATCGGGTGCACGGGGGAAGACAGCCGAACATTCTGATCGTGGACGACCATCCGATTAATCGAAAGCTGATGGAGAGCATGCTTGAAAAGATGGGAATGAATGCGGATATGGCCGAAGACGGCAGGCAGGCCGTCGAGATGGCTGCCGGGCCTAAGGCTTACGACATGATCTTTATGGATTTGCAAATGCCGGTTATGGACGGTTTGGAGGCCGCTCGCCTCATCCGCCAGATGAAGCCGGAAGCGGACGCTCCCGTACTCGTTGCGATGACAGCCAATGTGATGGACGGGATTCAGAAGCGCTGCTTTGATGCCGGCATGAATGAATATATCAGTAAACCGGTCAAAATCAGCTGTGTAAAGCACCTGATATCCCGTTATATGCCGGTAGAGCCGGACGGGTGGGACATCAGCCCAAGCCAAGTTCGAATCATCAACGGCTAG	MGFHEPIHILLVDDRPENLLALEAVLDSEQYTLIKATSGEEALRYLLKYDFAVIVLDVQMPGMDGIETARLIKARDKTKDIPIIFISANSKDAEHLFAGYSAGAIDYMVKPFIPQILKSKIEGFVDMYRTNNRLKIQSAQLHQKTQELEKINQELVLAKEEAEIAAKAKTEFLAMMSHEIRTPMNGVIGMIDLLMDSELQDEQREYATIIRNSADALVNIINDILDFSKMESGKMELEEYPFDLKSCVQEVFGLFSGEASKKNLELTYFIEDQIPSMVFGDMGRLRQVLVNLVSNAVKFTNEGGVYLVVSLAKAEENRLTLEFTVKDTGIGISSKKLDRLFKPFSQLDSSMTRRYGGTGLGLAICKSLVQMMGGEIEVDSKEGEGATFVFTICVHTHEEEHPRLREEEHSGKYRVHGGRQPNILIVDDHPINRKLMESMLEKMGMNADMAEDGRQAVEMAAGPKAYDMIFMDLQMPVMDGLEAARLIRQMKPEADAPVLVAMTANVMDGIQKRCFDAGMNEYISKPVKISCVKHLISRYMPVEPDGWDISPSQVRIING	PGPT0004750_1221	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
AK002_05522	873			hypothetical protein	ATGTCATCTAGTGACCATATGGAATCAGAACAACTGTTGTTGACAGAGAATAGCGAGCGTGAACTGGAACAGATCGAGATCGAACTTCTTTTGGATGGCATTCATCGATTCTATGGTTACGATTTTCGAAATTACGCCATTCCTTCGTTGAGGCGGAGAATCTGGCATCATGTTCATGCAGAGGGTGTTTCCACGATTTCTGCCCTCCAAGACAAAGTACTGCACGACCGTTCATGTTTTGAGCGGCTCATATATAATTTGTCGATTCCTGTTACCGAAATGTTCAGGGATCCGAAACTATTCCTGACATTCAGGCAGTCGGTGGTTCCATTGCTTCGTACGTATCCGTATATACGGATTTGGCATGCAGGCTGCTCAACCGGAGAAGAAGTGTATTCCATGGCCATTTTGCTTCATGAAGAGGGATTGTATGAAAAATCCCGGATTTATGCGACGGACATGAATTCGCGTTCGCTCCAGCAGGCCAAGGAAGGCGTATTCGATATCAAACGCATGAAGCAATATACGAAGAATTACTTGGAGGCGGGCGGTACCCGCTCGTTCTCCGAATACTATACCGCGAAGTACAACTCGGTTATTTTTCAGCCGTTCTTGAAGAAAAACATGATATTTGCCGAGCACAATTTGGCAACGGACCGTTCCTTTAACGAGTTTAACGTGATTTTTTGCCGGAATGTCATGATTTATTTTAATGACCAGCTGCGAGATCACGTGCACGGATTGTTTCACGAGAGTCTAAGCCATTTCGGTATTCTCGTCCTGGGCGCCAAAGAGTCCATACACTTTACGAATTATAGCGAAGCTTATGAGACACTGGACCGCGTCGAGAAAATTTATCGAAAGATTAAATAG	MSSSDHMESEQLLLTENSERELEQIEIELLLDGIHRFYGYDFRNYAIPSLRRRIWHHVHAEGVSTISALQDKVLHDRSCFERLIYNLSIPVTEMFRDPKLFLTFRQSVVPLLRTYPYIRIWHAGCSTGEEVYSMAILLHEEGLYEKSRIYATDMNSRSLQQAKEGVFDIKRMKQYTKNYLEAGGTRSFSEYYTAKYNSVIFQPFLKKNMIFAEHNLATDRSFNEFNVIFCRNVMIYFNDQLRDHVHGLFHESLSHFGILVLGAKESIHFTNYSEAYETLDRVEKIYRKIK	PGPT0015670_1152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
AK002_05523	3660	rcsC_19		Sensor histidine kinase RcsC	ATGAAGCTTAAGAGCAAGTTAGTCATTGGTTTTACAACATTACTGGCGCTTATGCTGGTTTTGACCCTGATCGGGTACGACCGGATCAGTTACATGAACAACCAGATGGACCAAATCTTTCAGGAGCGCTACCAGAAGGTGCGAAACTCCAGCGGCATGCGCGGAGAAGTCAACAATATGGCGCGCGAACTTACGAATATGATCCTGAGCAACGATCCGTCTACGTATACGGTGTCCAAACAGGAAATCGAGACGATGACGGCGCAGGCGGAGGAGTATTTTAGGGCCATCAAGGAAAGCGTAAATACCGCAGAGGAACAGCAATTGCTGGTCCGGATCGAGCGTGCGGTTAACGAATATATCGTGTATCAGAACAAGACGCTGGAATTGCTCTCTACCAGCGACGCAGATGGGGCCAACGCACTCCGTAATTCTACCGGGCAATCGGTCCAGGAGGAGATGCTGATCAGCCTGAACGAGCTTAGCAGCTACGAGAATCAGAAGATCAACGATGATATAGCCGCAGCGAAAGCCGCTTACGACCGCTCCGTGCAAATGTTCATCTACATCATGGCCGGTGGGCTTCTTATCGGAATGCTGGTCATTCTATGGATTCTCCCAAGCATTACCCGGGGCATCAACGTGGTCTCCATGATGCTGAAGAGCTTCGGCGAAGGCAGGCTGAAGGCCATCCGCCGTATCAAGGTTACTTCGAAGGACGAGTTTGGGGACGTAGCTCGAGTATTCAAAGACTTGTCCGAAGACATCATCGAGAAGCAGCGCATCGAGGAAACGTATCTCCAAGCGCAGCGTGATCAATCCTGGCTGAACTCGAATATGGCCAGAGTCACCGAGCTGCTGGAAGGAATCAATTCCCTGGAAGAGGTCGGCCAGCGGTTCATCAGCGAATTCACGCCGATCTTGGGAGCTCATTACGGAGCCATCTATATCCGTCAGGAAGACAAACATCCGAACAAATTGGAGATGAAGGGCTCCTATGCCCATGAAGGCGGAGAAGAGCCGAAGGTTGCCTTCATGATCGGGGAAGGGCTTGTAGGCCAGGCGGCGCTCGATAAGAAGCCGGTCGTCCTGAAAGGCGCTCCGGAGGGCTATATGAATGTGGAATCCGCGTGGGGTTCATCGAAGCCGGTGTCCATCATGATCTACCCGCTTCTGTTCGAGAATGAAGTGCTGGGCGTCGTCGAGTTGGCTTCGTTCGAGGAAACGACAACTTTGCAGGAACAGCTGATGTCTCAGCTAAGCCAGTCCCTCGGCATCATTCTGAACAATATCACAGGCCGACTGCGGGTCGAGCAACTGCTGCGCGAATCGCAAGCCATGACCGAAGAGCTTCAGGTTCAGTCGGAAGAGCTGCAGACGCAGCAGGAAGAGCTTCGCCGTACCAACGAGAATCTGGAGGAGCAGACCAATGCCCTCAAGCGTTCCGAGGATCTGCTGCAGCGCCAGCAGGAAGAGCTGGAGCATTACAATACCGAGCTTGTTGCCAAGACGCGTGCGCTTGAGGAGCAAGTGCAGGAAGTGGAAGAGAAGAACGATGAAATCGAGAAGGCGCGAATGCAGCTCGAGCAGCAAGCGAAGCAGCTCTCGATTACAACCAAATACAAGTCGGAGTTCATGGCGAACATGTCCCACGAATTGCGCACCCCTCTTAACAGCCTGCTGATATTGTCGCAGCTGTTGTCCGAGAACAAGGATGGGAATCTGAGCTCCAAGCAGATTGAATATGCACAGACGATTTACATGTCGGGCTCCGACCTGCTCAAAATGATCGATGAAATTCTCGACTTATCGAAAGTGGACGCCGGGAAAATGGAAATCAACTATGAAGACGTCCAGCTTCCGGATATCGAAGCCTTCGTGGAGCAGAATTTCGCAGCGGTGGCATCGCGCAAGCATATCAATTTGGGAGTGCGCATTGAAGAGGAACTCCCGCAAAGCATCGTGACGGACAGTCATCGCGTGAAGCAAATTCTGCGCAACCTGTTATCGAATGCTTTCAAGTTTACGAATAGCGGCTCTGTCGAGTTGCTTGTAGAGAAGGCAGACAAGGACAAGCTTCCGGTTTACCTGAATGCGGAATCGGACTATGTGTCCTTCGCTGTCAAAGATACCGGAATCGGCATTCCGGCAGACAAAACGGATCTGATCTTTGAAGCCTTCCAGCAGGTGGACGGTACCACCAGCCGGAAATACGGAGGGACCGGGCTTGGACTTTCCATCAGCCGCGAGCTTTCCCGCCTGCTGGGCGGGGGGATTACGGTTGAGTCGGAGGAAGGCAAAGGAAGCTGCTTCACCCTTTTCCTGCCGGCAAGCCATCCAGAAGTGGCAGACGGTGCGAAGGAAGCGGCCGCAGCGATGGAGGCACCGCCGGAGAGCTCTCTGATCGTACCGAAAGCCAAGATGGTTACTAAAGAGGTTCAGCCTGCCATACAGGTAGACGATGATCGCAACCAGCTTGGGCCAACAGATAAAGTGCTGCTCATCATTGAGGATGACGTGAAGTTTGCCAGAATCCTGCTGGATATGGCCAGAGGCCGCGGCTTCAAGGCTTTGGTCGCACTGCAGGGTGACATTGGACTGGAGATGGCCAAGTCGTACAGACCGGATGCCATCATTCTGGATATCCAGCTCCCGGTTATCGACGGCTGGTCCGTCATGGGCGAGCTGAAGAGCTCTGCGGTTACCCGCCATATTCCGGTGCATGTCATCTCCGTTGTGGATGAAGTGAAGCAAGGCTTAATGATGGGAGCGATCGCTTACCTGAAGAAGCCTTCAAGCCGGGAAGCGCTGGAGGACGCGTTTACGCATATCCAATCCTATGCGGAAAAATCGATGAAACATCTCTTGATTGTCGAGGATGACGATATTCAGCGGAATTCCATTATCGAATTGATCGGTCATGACGATGTGTCGATTACCGCGGCATCCACGGGCGCCGAGGCGCTCAGCGAGCTGCGTAAGCAGCGCTATGATTGCATGGTGCTTGATCTGATGCTGACGGATATGACAGGCTTTGAACTGCTTGACCAGATTCGCGATGACGAGAACCTGGTGGATCTGCCTATTATTATTTACACCGGCAAGGATTTGGATTCGAAGGAAGAGATGCAGCTTCGCAAATATGCGGAGTCGATCATCATTAAGGACGTGAAGTCACCGGAACGGCTTTTGGATGAAACGACGCTGTTCCTGCATCGGGTTGAGGCCGATTTGCCGGAGGATAAACGTAAAATCCTGCAGAAGCTGCACAACAAGGAAGAACTGTTTGAAGGCAAGAAAATTCTGCTTGTGGATGACGATATCCGCAACGTGTTTGCCCTCTCCAGCGTGCTGGAAGGATACAATATGGAAGTGACCTTTGCCGAGAACGGCCGGGAAGCGATCGAGCTCCTTCAGCAGAAGCCGGATTTCGATCTGGTGTTAATGGATATGATGATGCCGGAGATGGACGGTTATGAGGCGATGCGCCGTTTACGCGAAATGCCGGAATTCGACAAATTGCCGATTATTGCCCTGACGGCCAAAGCCATGAAAGAGGACCGCGCGAAATGCATTGAAGCGGGTGCTTCCGATTATATGAAGAAGCCGATTCAGACAGAGCAACTTCTTTCCCTAATGAGGGTTTGGTTGTATTCGTAA	MKLKSKLVIGFTTLLALMLVLTLIGYDRISYMNNQMDQIFQERYQKVRNSSGMRGEVNNMARELTNMILSNDPSTYTVSKQEIETMTAQAEEYFRAIKESVNTAEEQQLLVRIERAVNEYIVYQNKTLELLSTSDADGANALRNSTGQSVQEEMLISLNELSSYENQKINDDIAAAKAAYDRSVQMFIYIMAGGLLIGMLVILWILPSITRGINVVSMMLKSFGEGRLKAIRRIKVTSKDEFGDVARVFKDLSEDIIEKQRIEETYLQAQRDQSWLNSNMARVTELLEGINSLEEVGQRFISEFTPILGAHYGAIYIRQEDKHPNKLEMKGSYAHEGGEEPKVAFMIGEGLVGQAALDKKPVVLKGAPEGYMNVESAWGSSKPVSIMIYPLLFENEVLGVVELASFEETTTLQEQLMSQLSQSLGIILNNITGRLRVEQLLRESQAMTEELQVQSEELQTQQEELRRTNENLEEQTNALKRSEDLLQRQQEELEHYNTELVAKTRALEEQVQEVEEKNDEIEKARMQLEQQAKQLSITTKYKSEFMANMSHELRTPLNSLLILSQLLSENKDGNLSSKQIEYAQTIYMSGSDLLKMIDEILDLSKVDAGKMEINYEDVQLPDIEAFVEQNFAAVASRKHINLGVRIEEELPQSIVTDSHRVKQILRNLLSNAFKFTNSGSVELLVEKADKDKLPVYLNAESDYVSFAVKDTGIGIPADKTDLIFEAFQQVDGTTSRKYGGTGLGLSISRELSRLLGGGITVESEEGKGSCFTLFLPASHPEVADGAKEAAAAMEAPPESSLIVPKAKMVTKEVQPAIQVDDDRNQLGPTDKVLLIIEDDVKFARILLDMARGRGFKALVALQGDIGLEMAKSYRPDAIILDIQLPVIDGWSVMGELKSSAVTRHIPVHVISVVDEVKQGLMMGAIAYLKKPSSREALEDAFTHIQSYAEKSMKHLLIVEDDDIQRNSIIELIGHDDVSITAASTGAEALSELRKQRYDCMVLDLMLTDMTGFELLDQIRDDENLVDLPIIIYTGKDLDSKEEMQLRKYAESIIIKDVKSPERLLDETTLFLHRVEADLPEDKRKILQKLHNKEELFEGKKILLVDDDIRNVFALSSVLEGYNMEVTFAENGREAIELLQQKPDFDLVLMDMMMPEMDGYEAMRRLREMPEFDKLPIIALTAKAMKEDRAKCIEAGASDYMKKPIQTEQLLSLMRVWLYS				NA	NA	NA	NA	NA
AK002_05524	1176	cheB_17		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGAGAATATTAATCGTAGATGACAATCCGACTAACGTCATTATTATTCGAGAAATCTTGAAGAAGGAAAATTATCACAATACGCTATCTGCATCTTCAGCCCTGGAAATGCTGGAACACCTGGGAATCGGCGATCGCAGCCAAGATCCGAATCCCCGTAGGGCGGATATCGATTTGGTGCTGCTCGATATGATGATGCCTGAGATGGATGGAATAGAAGCTTGCCGTATTGTTCAGCAATACGAGCATTTGAAAGATATACCGATCATTATGGTCACCGCCGTCGGAGATTCGAAGAAGCTGGCGGAAGCGCTGGATGCCGGCGCCGTCGATTACGTCACGAAACCGATCAACAAGGTGGAGCTGATGGCACGGATACGCCTCGCGCTTCGGTTGAAGCAAGAGAAAGACTGGCATATTGAAAGGGAACAGCGGGTCCAGGCGGAATTGAAGCTTGCGGCCATGGTTCAGAATGCCGTGTTAAGCTCTCCCATCGAAGATGAACAGCTGGAGATTCATGCGCTGTACCAGCCCTCGGCAGAGCTTGCGGGAGATTTGTATGCATGGTTTCCGCTAGGCGACGGCCGATATGGCGTGATTCTGCTGGATATGATGGGACACGGGATTACTTCGTCCCTGTTTTGCATGTTCATCGCTTCGGTGCTGAAGGATACGGTGACGACTTATGTCGAACCGGAGAAGGTAGTTCAGGAATTGAATCGCAGATTCAATCAGTTGAACCTGGGCGAACAGCTGATTCAGTACTATTTTACGGCCATCTATCTTGTCGTGGACACTCGTTTGAAGCGGGTGGACTATGTCAACGCAGGACATCCCCCGGCCCTGTTCTTCAAGGAGGACGGCGAAGTCATGACGCTGGATCAAGGCTGCTGCCCGGTTGGCTTGTTCGACCGGATCGAGGACATGGAGCCAAGAAGCTTTCAGTATGAAGGCGAAGGTCATTTGGTTATGTATACGGATGGCCTGCTCGAACTGGTAGAGGGCGGGCATGACGAGAAGCTGGATCATCTGAAGACGCATTTGGGCGGCCCTCACCATTGGAGAGAAGACGAAATGAAGGAACAGTATTTTGTGGATGATCCATCGCAGGAGCGAGAGGACGATAAATGCCTGGTTTGGATATCTCTTAAAAAAGGAGAGGAAACCAATCAATGA	MRILIVDDNPTNVIIIREILKKENYHNTLSASSALEMLEHLGIGDRSQDPNPRRADIDLVLLDMMMPEMDGIEACRIVQQYEHLKDIPIIMVTAVGDSKKLAEALDAGAVDYVTKPINKVELMARIRLALRLKQEKDWHIEREQRVQAELKLAAMVQNAVLSSPIEDEQLEIHALYQPSAELAGDLYAWFPLGDGRYGVILLDMMGHGITSSLFCMFIASVLKDTVTTYVEPEKVVQELNRRFNQLNLGEQLIQYYFTAIYLVVDTRLKRVDYVNAGHPPALFFKEDGEVMTLDQGCCPVGLFDRIEDMEPRSFQYEGEGHLVMYTDGLLELVEGGHDEKLDHLKTHLGGPHHWREDEMKEQYFVDDPSQEREDDKCLVWISLKKGEETNQ				NA	NA	NA	NA	NA
AK002_05525	342	yflT		General stress protein 17M	ATGGAATTCACCAATACGAAGTCATATGCCAAAGTCGTGGAAAACGGGACGCAAGCGGTTCAGGAGGTTCAGAATCTTCGGCAGTCCGGTTACGATCTGGATCACATTTATGTATTGGCCCATGATTCGGACAAGACGAGCCGGATTGTGGAAGCAGCCGATGCCAATAACGTAGGCATTAAGGAAGAAGGCGTGTTTGATGCCCTGGCGAATCTGTTTCGGTCCCGCGGGGATGAGCTGCGTGCCAAGATCGTATCGCTTGGCTTTACCGAAGCCGAGGCGGGATTTTACGAGAAACAATTGGACCTTGGCAAAGTGCTCGTGATTGCTAAGAAGGATTGA	MEFTNTKSYAKVVENGTQAVQEVQNLRQSGYDLDHIYVLAHDSDKTSRIVEAADANNVGIKEEGVFDALANLFRSRGDELRAKIVSLGFTEAEAGFYEKQLDLGKVLVIAKKD	PGPT0014649_50	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
AK002_05526	534			hypothetical protein	ATGTGGAATGTCGCACTGTTGATGGTCGGGCTCATGGTTTACTCCGGAGGTGGAGGTGCTGCGGCAGCGCAGCAGCCTGCTGCCGAGATATGGCAACCGCCTGTAGTTCATGCCGCTGCGGATGTTGGACAAGCACACACCGGCGACAACTCTTCAGAGGGCTACGGGACGTTAAACGGGATATCGCTTGCGGATACCAAGCGTGATATCGTCCACAAGCTGGGAACGCCTGCACGAATCGAGCAGGACAGCCTGAGCGGAACCACTAAGCTTCTTTATAAAGATATGGAGGTTGGAGTCCGCAACGGCTACACGGAATATGTTCATGTCAAGCCCTCTGCCGAATCCTTTCAGGTTGAAGGCCAGCATATAGGCATGTCAACCGATCATGTCCGGGCATCCCTGGGTAAACCGTATTTTAAGGCGGAGGACGGAGATGTATACCTTGAGAACCATCATGCGCTTAAGGTATACATTGATCGGGATACCGGTGAAATCGAAGGCGTCGATTTATTTTTCTATTATAGCGAATAA	MWNVALLMVGLMVYSGGGGAAAAQQPAAEIWQPPVVHAAADVGQAHTGDNSSEGYGTLNGISLADTKRDIVHKLGTPARIEQDSLSGTTKLLYKDMEVGVRNGYTEYVHVKPSAESFQVEGQHIGMSTDHVRASLGKPYFKAEDGDVYLENHHALKVYIDRDTGEIEGVDLFFYYSE				NA	NA	NA	NA	NA
AK002_05527	522			hypothetical protein	ATGCTAACTCAAATCAGTGTTGCCATTATTGCCGTGGCATTTGCGGTTCTCGTATTCTTCTTGATCAAGACATTGAAGGCAGCCACGCAATCGCTCGAAAAGGTAACACAAACGCTTCAGGAAGTGCAAAAGACGGTCGACGAATTGAGTTATGAAGTGAAGCAGACCATTCGAAATACGAACGATATTACGGTGGATGTTCAGCATAAGATGAAACAAATTGATCCGGTTATGGATACCGTCAAAAACCTGGGAGAAGCTTTAAGCGAAGTCACTTATGCGGTGAAGCAAGTATCTTCCGGCATGGTTAGCCGCTTTAAGCAATCCCGGATAGAGCAGAAGAAAGAGCAGCCCGCCCGCATGGAAGTGCCTTTGACGGCACAAGATCGCACGTTCCAGTCGTATGACGCCGTTTATCAGAAGACGGAAGCGGAAGAAAAATCCCGCAGCCGGAATTGGCTGTCCTACGTGGACACGGCAGTTGGCCTGTGGAACAGTTTCCGTCGTCAAAAAGCCAGATAA	MLTQISVAIIAVAFAVLVFFLIKTLKAATQSLEKVTQTLQEVQKTVDELSYEVKQTIRNTNDITVDVQHKMKQIDPVMDTVKNLGEALSEVTYAVKQVSSGMVSRFKQSRIEQKKEQPARMEVPLTAQDRTFQSYDAVYQKTEAEEKSRSRNWLSYVDTAVGLWNSFRRQKAR				NA	NA	NA	NA	NA
AK002_05528	168			hypothetical protein	ATGATGTTAAAATGGTCCGTAATTTTTCTGGTGGTTGCACTGATTGCAGGGATCTTCGGCTTCTTCGGCATCGTTGAGGCTGCAGCCAGTATCGCGAAGGTTCTGTTCTTCGTCTTCGTTGTCCTGTTTGTGATCTCTCTCTTTACCGGACGCAGACGAAGTATGTGA	MMLKWSVIFLVVALIAGIFGFFGIVEAAASIAKVLFFVFVVLFVISLFTGRRRSM				NA	NA	NA	NA	NA
AK002_05529	1506	emrB_1		Multidrug export protein EmrB	ATGAATACCCATACTGCTGCTCGTCCCGGCGAGCCTGTCAAGAAAGGCCCCATCATTGCCGCATTAATGATTGGCGCTTTTGTCGCCATTCTTAACCAGACTTTGATGAATGTTGCTCTGCCGAGCATCATGGAAAATTTAAGCATCAAACCGACGGTAGCCCAGTGGCTGACCACAGGCTTTATGCTGGTGAACGGGGTGCTGATTCCCGTTACCGCCTACCTGATTGCGCGATTCTCGACCAGGCAGCTGTTCATCAGCGCCATGACGCTGTTTACGATCGGCACCTTGCTGTGTGCCATCAGCCCTAACTTCGCATTTCTTCTAACCGGACGCCTCGTTCAGGCAGCGGGTGCAGGAATTCTCATGCCGCTTATGACTGTCGTATTTCTGAACATTTTCCCTATAGAGAACCGCGGTAAAGCCATGGGGATGATGGGGATCGCCATGATTTTTGCTCCTGCGATCGGACCTACGCTTTCCGGATATATCGTGGAGCATTACGATTGGCGGGTGCTGTTTTACATGATCCTGCCTTTCTCCGTTATCGCTACGTTAATCGGGGTCTTCTTCCTTAAAAACGTGACCGAGGTCAGCCGGCCCAAGCTGGACATGATCGCCATCATTTTGTCTACCCTGGGCTTCGGCGGCTTGCTCTACGGCTTCAGTGACGCCGGGAACGACGGCTGGTCCAGCACGCCGGTTGTGACGACCCTTGCGGTCGGCACGGTTGCCCTCATCCTGTTTGTATGGCGGGAAATGAAGGCCGACAATCCGATGCTGGAATTCCGTATATTTAAGTACAACATGTTTACGTTAACGACCTTGATCAATGTCATCGTCACGATGGCGATGTATGCCGGGATGATCCTGCTGCCGATTTATCTGCAGCAGATTCGCGGGTTTACGCCGGTGGAATCCGGTCTGCTCATGCTTCCCGGCGCTATTCTGATGGGAATTATGTCACCCATCACGGGCGCGATATTCGATAAGGTTGGCGCAAGATGGCTGGCTGTTATCGGTCTGGCGATTACGGTCATTACGACGTGGGAGTTCAGTAATCTGACCGAAACGATGTCTTACGGCCAGATCATGATTATCTATACGGCCCGCATGTTCGGTATGTCGATGCTCATGATGCCGATTCAGACCGCGGGACTGAATCAGCTGCCGCGGAGCTTGAACGCCCATGGTACGGCGATGTCGAATACACTCCGCATGGTTTCCGGCTCGATCGGAACCGCGATTCTCGTTACCGTCATGTCCACCCAGGCGGAGAGCCGAGGAGAAGCCTTGATGCAGTCGGGGGTGTTCGATCCGAAGAATCAGGCCGACCTGCTTAAGCTGGGCAACGAAGCAACGATTTATGGCATTAACTATGCCTTTGTTATTGCCACCTGGATCAGCGTGGTTTCCTTGATTCTGGCTTTCTTCATCAAGAAGACGAAGCCGGCGGAAGAGCCGAAGGCAGCCGGAAGCCGGGAGGCTGCAGCAACGCACGCTTAA	MNTHTAARPGEPVKKGPIIAALMIGAFVAILNQTLMNVALPSIMENLSIKPTVAQWLTTGFMLVNGVLIPVTAYLIARFSTRQLFISAMTLFTIGTLLCAISPNFAFLLTGRLVQAAGAGILMPLMTVVFLNIFPIENRGKAMGMMGIAMIFAPAIGPTLSGYIVEHYDWRVLFYMILPFSVIATLIGVFFLKNVTEVSRPKLDMIAIILSTLGFGGLLYGFSDAGNDGWSSTPVVTTLAVGTVALILFVWREMKADNPMLEFRIFKYNMFTLTTLINVIVTMAMYAGMILLPIYLQQIRGFTPVESGLLMLPGAILMGIMSPITGAIFDKVGARWLAVIGLAITVITTWEFSNLTETMSYGQIMIIYTARMFGMSMLMMPIQTAGLNQLPRSLNAHGTAMSNTLRMVSGSIGTAILVTVMSTQAESRGEALMQSGVFDPKNQADLLKLGNEATIYGINYAFVIATWISVVSLILAFFIKKTKPAEEPKAAGSREAAATHA	PGPT0029035_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029035-mdeA-K18936	NA	NA
AK002_05530	450	yusO		putative HTH-type transcriptional regulator YusO	ATGTCCATGCGGAATGAAATTCTGGAGTTGGAGATGCTATTTAAGAAGATGCTTCGGACTGTGCAGAATGAATGGCAGAAGGAGGGGTTCCCTAAACTGGGGAGAACCCAGTACACCGCCTTGGAGAAGCTCCACGAACAGGGTGCTTTGAGATTGTCTGACTTGGCGGATTCCATTCATGTGACGTGCGGTGCGGTCACGGGCATATCCGATAAATTGATCGAAGGCGGATTCGCGCGCCGCGTAAGGGATACAACCGACCGCAGGGTCATCCATCTGGAGATTACGCCGCTCGGGCGGGAGCTGATCGAGCAGTTGGCCAATAAACGCGCTGAGCTTAGCGGTTTGTTATATGGTTTTCTAACAGATGAAGAGGTTAAACAGTTGAGTTCCCTGTACCGCAAAATTTTGACGAATGTTGAGTATATCCAAGGTCAGCTGTCCACATAG	MSMRNEILELEMLFKKMLRTVQNEWQKEGFPKLGRTQYTALEKLHEQGALRLSDLADSIHVTCGAVTGISDKLIEGGFARRVRDTTDRRVIHLEITPLGRELIEQLANKRAELSGLLYGFLTDEEVKQLSSLYRKILTNVEYIQGQLST				NA	NA	NA	NA	NA
AK002_05531	579			hypothetical protein	ATGGTACGCCGAAAGAAACGAACCGGGCGATTCCTATTGGGAATACTTGTCTTGTTGCTTGTGATCATCGGTGCGGCAGTCTGGTTTGTTTATCCTACGCAATCCCTGGACATGCGCTATCGATCCGTTGATTTCAAGGACAAATTGATGACCATGGTGTCGAACCGGGATACCCGCATGAAACTAAGCACCGAGGAAGTCGGGGAACTCAGCAAGAAGAACATGGTAAAATATATGAGCACGCATGACCTTGGCGTCGATATAACCGGTGCCGATTTCGCAATGAACGGTACCACCATGTCAGCCAGCATGAACGGTAAATGGGGAATCCTTCCTTTTGGTGCCGTTCTGCGCTTTCAGATGTCAGCCGAGGGAAGCTATCTTCACTTGACGCATGAATCGACAACGATTCGTGGCGTTGAGATTCCGCTGAATGTGTTCCGGCTTGAGCCCATTCAAATTTCGCTGAAGGACTATTTGCCGGATTTGGTAACCGTGAAGAATGTTAAGTTTCTATCCGATGGCCTGGAATTGAACTTTACGATGGATTGGATGTCGATTCCTTCGCTGTTTAAGTAA	MVRRKKRTGRFLLGILVLLLVIIGAAVWFVYPTQSLDMRYRSVDFKDKLMTMVSNRDTRMKLSTEEVGELSKKNMVKYMSTHDLGVDITGADFAMNGTTMSASMNGKWGILPFGAVLRFQMSAEGSYLHLTHESTTIRGVEIPLNVFRLEPIQISLKDYLPDLVTVKNVKFLSDGLELNFTMDWMSIPSLFK				NA	NA	NA	NA	NA
AK002_05532	345			hypothetical protein	ATGAAAAAAACACTAAGCATTACTGCAGCCCTAGCACTCACCCTGTCTCTAACCGCCGTAGCAAGCGCGGATCCGATTAACGGTACGGTATCCAACACTTCAGGACCGGCTCCGATCTCGGTGGAAGACCCGATCATCAAACCTGAAGAAGTCGTGATCGTACCGACGCCGATGATTGAGCTTACAAGCAAAACTTACTTCTACAACGCTCCAAACGGCGAAAAGCTTGGTGCCTTGGCTCCGCAAAAGCTCGACACAACCGGCAATCGTTACGATGTCATGCTTGGCGGGGAATGGGTTGAAGTATATACATGGCTCGGTAAAGCTTGGATTTATGTAGAGTAA	MKKTLSITAALALTLSLTAVASADPINGTVSNTSGPAPISVEDPIIKPEEVVIVPTPMIELTSKTYFYNAPNGEKLGALAPQKLDTTGNRYDVMLGGEWVEVYTWLGKAWIYVE				NA	NA	NA	NA	NA
AK002_05533	873	mneS_2	COG0053	Manganese efflux system protein MneS	GTGAATGCCTATGATAACATCAAACAAGGGGAGCGCGGGGCCTGGATCAGCATTGCGGCATACCTCGTGCTGTCATCGTTTAAAATATTCTGTGGATATTTGTTTGCATCCAGTGCTTTGCTCGCCGACGGTTTTAACAACCTGACGGATATCGTGGCATCGCTCGCCGTATTGATCGGGCTGCGAATTTCCCAGAAGCCGCCGGATTCCGATCATGCATACGGGCACTTGAGGGCGGAGACGATCGCGGCGCTGGTGGCCTCCTTCATCATGGCTGTCGTGGGCATCCAGGTGCTGGTCGAAGCCGTCCGTTCTTTTTTTGAAGGCTCCAAGGAAGTGCCGAATGTATGGTCTGCCGGCGTGGCCGGCATCTGTGCCGTTGCGATGCTGGGCGTATATCGTTACAATCGGAACCTTGCGCGGCGCATCGATAACCAGGCGCTGATGGCAGCGGCCAAGGATAACTTGTCCGATGCGCTCGTCAGCGTTGGGGCCGCTGTGGGCATCATCGGCGCACAATTCGGCCTGCCCTGGCTGGATACCGTGGCGGCTGTAGCGGTTGGCGTCATTATTTGCAAAACGGCTTGGGAAATATTCAGGGATTGTACCTATAGCCTCACGGATGGCTTTGATGAAAACCGTTTGTCTGATTTGCGCAGCACGATTGCCCGTACGCCCGGTGTCGAGGGAATCAAGGATATGAAAGCCCGAATCCACGGCAATCATGTACTGGTGGATGTCGTTATCGAGGTAGACCCGGATATCAGCGTTTTGGAGGGCCATCAGATCAGTGACCGCATCGAGGAGCAGATGGAGAAGATTCACAATATTATGAGCGTCCATATTCATGTGGAGCCTAAGGGATCCTCCTAA	MNAYDNIKQGERGAWISIAAYLVLSSFKIFCGYLFASSALLADGFNNLTDIVASLAVLIGLRISQKPPDSDHAYGHLRAETIAALVASFIMAVVGIQVLVEAVRSFFEGSKEVPNVWSAGVAGICAVAMLGVYRYNRNLARRIDNQALMAAAKDNLSDALVSVGAAVGIIGAQFGLPWLDTVAAVAVGVIICKTAWEIFRDCTYSLTDGFDENRLSDLRSTIARTPGVEGIKDMKARIHGNHVLVDVVIEVDPDISVLEGHQISDRIEEQMEKIHNIMSVHIHVEPKGSS				NA	NA	NA	NA	NA
AK002_05534	189			hypothetical protein	ATGCCCGAGAATAATGAGCCACGCAAAGTGAATTTGGCTGATGCGATCAAGCAAAAGCTGGAACAAAAGAAACAGCAAAATACATCCGCGAACAAGCCGGGACAATTCCAAGCCGGTTCAGCGCAAAAAATGAAAAGCCAAAATAACAAAAAACCAAACAACCAGCGTCGTCGTACCGGCGGTTCGTAA	MPENNEPRKVNLADAIKQKLEQKKQQNTSANKPGQFQAGSAQKMKSQNNKKPNNQRRRTGGS				NA	NA	NA	NA	NA
AK002_05535	1626	ybiT_3	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGATCAGTACAAGCGGCGTAACGCTCCGCTATGGCAAACGAGCACTATTTGAAGATGTCAATATAAAATTCACCCCGGGCAACTGCTACGGCCTCATCGGCGCTAACGGGGCGGGTAAGTCTACATTTCTGAAAATCCTCTCCGGCGAGATTGAACCGAACTCAGGCGAGGTTCATATGACTCCCAACGAACGGATGGCGGTTCTGAAGCAGAACCACTATGAATATGACCAATATCCGGTTCTGGAGACGGTCATCATGGGTCATGCCAGACTGTATACCATCATGAAGGAGAAGGATGCGCTGTATGCAAAAGCCGACTTTTCCGAAGAGGACGGCATGCGTGCGGGTGAGCTGGAAGGCGAATTCGCCGAGCTGAACGGATGGGATGCCGAGCCGGATGCGGCTGCGCTCCTGATCGGCCTCGGTATTCCGCGTGAGCTGCACGACAAGAAAATGTCGGAGCTGAGCGGCAACGAGAAGGTCCGCGTTCTCTTGGCCCAAGCCTTGTTCGGCCGGCCGCATAACCTGCTGCTCGATGAGCCTACCAACCATTTGGACCTCGAATCGATTCAGTGGCTCGAGAACTTCCTGATGGATTATGAAGGCACCGTTATCGTGGTATCCCATGACCGTCACTTCCTGAACAAGGTATGTACGCATATTGCGGATATCGATTTCGGCAAAATCCAGCTGTATGTCGGCAACTACGACTTCTGGTATGAATCCAGCCAGCTGGCCCTCGCGCTCCAGCGCGAATCCAACAAGAAGAAGGAAGAGAAGATCAAGGAACTTCAAGCCTTCATTCAGCGCTTCTCCGCGAATGCTTCGAAATCGAAGCAAGCGACATCCCGGAAGAAGCAGCTCGATAAAATTACGCTGGACGATATCCGTCCATCCAACCGTAAATATCCGTTCCTCAACTTCAAGCCTGAACGCGAAGCCGGCAAACAATTGCTGACCGTGGACAGCCTGACGAAGAGCGTGGAAGGCGAGAAACTGCTGGACAACGTGAGTTTTGTCGTGAATAAAGGGGACAAAATTGCGTTTGTCGGGCCAAACGGCTTGCCGAAAACGACCTTGTTCCAGGTCATCACCGGCGAAACCGAAGCGGAAGCCGGCGAATACAGCTGGGGCGTAACCACGACCCAAGCGTATTTCCCGAAAGACAATTCGGCTTATTTCGACGGAGTCGACCTGAATCTCGTGGAATGGCTGCGCCAATATTCCAAGGATCAGGACGAGACGTTCCTGCGCGGATTCCTTGGCCGCATGCTGTTCTCAGGGGAGGAAGCGTTGAAGAAAGCCAGCGTATTGTCCGGAGGCGAGAAGGTTCGCTGCATGCTGGCCAAAATGATGCTGAACGGCGCGAACGTGCTGATCTTCGATGAGCCGACGAACCACTTGGATCTGGAGTCCATCACGGCGCTCAACAACGGCTTGATCGATTTTGACGGAACCATCTTGTTCACCTCGCATGACCATCAGTTCATTCAGACGATTGCGAACCGGATTATCGAGATTACGCCTAACGGCATCATCGACCGCAGCATGAGTTATGACGAGTATCTGGAGAGTGAAGAGATCAAGGGGCTTCGCGAAAGCATGTACCCGGTTGAAGTTTAA	MISTSGVTLRYGKRALFEDVNIKFTPGNCYGLIGANGAGKSTFLKILSGEIEPNSGEVHMTPNERMAVLKQNHYEYDQYPVLETVIMGHARLYTIMKEKDALYAKADFSEEDGMRAGELEGEFAELNGWDAEPDAAALLIGLGIPRELHDKKMSELSGNEKVRVLLAQALFGRPHNLLLDEPTNHLDLESIQWLENFLMDYEGTVIVVSHDRHFLNKVCTHIADIDFGKIQLYVGNYDFWYESSQLALALQRESNKKKEEKIKELQAFIQRFSANASKSKQATSRKKQLDKITLDDIRPSNRKYPFLNFKPEREAGKQLLTVDSLTKSVEGEKLLDNVSFVVNKGDKIAFVGPNGLPKTTLFQVITGETEAEAGEYSWGVTTTQAYFPKDNSAYFDGVDLNLVEWLRQYSKDQDETFLRGFLGRMLFSGEEALKKASVLSGGEKVRCMLAKMMLNGANVLIFDEPTNHLDLESITALNNGLIDFDGTILFTSHDHQFIQTIANRIIEITPNGIIDRSMSYDEYLESEEIKGLRESMYPVEV				NA	NA	NA	NA	NA
AK002_05536	1032		COG2220	putative protein	ATGCCAAGAATTCGCTATAACAATATCGATAACGTCAGCACGGACAAAACGCTTAAACAGTTCAAGCAGTGGCGCGACGAACGTCGTCAGAAGAAGAAGGATTATTCCTACTGCATTCCGAACCTGACGCCGGATCTTCAGTATTTGCATAGCAACCGGCACGAAACCTCCGTTACCTGGATCGGGCACGCCACGTTCTTCATTCAATACGAAGGCATGAATATTGTGACTGATCCCGTATGGGCGCGGAGAATGGGGTTTAATAAGCGCCTTGGGGAACCTGGACTTCCCATTCATGAGATCCCCCCGATCGATGTCATTTTGATATCGCATTCCCACTATGACCATATGCATGTTTCCTCGATCCGTAAGCTGTACCGTGCGGACACCACCATCATTGTACCGGTTGGTCTGCGCCGGAAAATGATCAATAAAGGCTTTCGCCGCGTGATCGAACTGCAGTGGTGGGAATCGGTCGCCATAAAAGGCGTGAAATTTTCCTTCGTGCCGACACAGCATTGGACGCGGCGCACGCCGTTTGATACGAATACGTCCCATTGGGGAGGATTCGTGATGGAGCCCGTGCTGCAGGATGGAAAGACGGATTCGAGTTCTTCCGATGAATCGCCATGCAATAACGAACCCGTCGCTGAGGACGGCACCCGACTGCTTCCGCCGAATTTGTATTTTGCGGGAGACAGCGGTTATTTCGAGGGTTTTAAGCTGATCGGCGAACGGTTCAACATTCACCTCGCTTTGATGCCGATCGGGGCATACGAGCCGGAATGGTTCATGACGTCTCAGCACGTCAATCCGGAAGAGGCGCTGCAGGCGTTTCAGGACGTGAAGGCGGAGACGATGATTCCGATGCATTACGGGACCTTCAAGCTGGCCGATGATACGGCCAGGGAAGCGCTGGACCGGATGGAAGCGGAACGAAAGCGGCTCGGGATTGCCAAGGAGCGGATTCGCGTCTTGAAGTACGGGGAAACCTTCAAGGTTCAGCCGGAACGAAGAAGCGTGACTTCGTAA	MPRIRYNNIDNVSTDKTLKQFKQWRDERRQKKKDYSYCIPNLTPDLQYLHSNRHETSVTWIGHATFFIQYEGMNIVTDPVWARRMGFNKRLGEPGLPIHEIPPIDVILISHSHYDHMHVSSIRKLYRADTTIIVPVGLRRKMINKGFRRVIELQWWESVAIKGVKFSFVPTQHWTRRTPFDTNTSHWGGFVMEPVLQDGKTDSSSSDESPCNNEPVAEDGTRLLPPNLYFAGDSGYFEGFKLIGERFNIHLALMPIGAYEPEWFMTSQHVNPEEALQAFQDVKAETMIPMHYGTFKLADDTAREALDRMEAERKRLGIAKERIRVLKYGETFKVQPERRSVTS				NA	NA	NA	NA	NA
AK002_05537	102			hypothetical protein	GTGGAGGACTTCGGCATTTTCATAGCACCGCTGCTCACGGTACTGGCTGCCGTAGCCTTTATGGCGATTTACGTCGTCAAGTATAAAGACCCTTCGGATTGA	MEDFGIFIAPLLTVLAAVAFMAIYVVKYKDPSD				NA	NA	NA	NA	NA
AK002_05538	1032	ythB_2	COG1294	Putative cytochrome bd menaquinol oxidase subunit II	GTGAGCTATGCCATGGTAGCCATAACCGTTCTATGGACGTTCCTGTTCGGCTATTTGCTGGTGGCCTCGATTGATTTCGGCGCCGGATTCTTCAGCTTCTATAGCGTGCTTACCGGACATGAGAACAAGATCCACAATATCATCCAGCGATATCTGTCCCCCGTTTGGGAAGTGACCAACGTGTTCCTGATCTTTTTTGTGGTCGGACTCGTCGGATTCTTTCCCGATGCCGCGTATTTTTATGGCACCGCGCTGCTTGTCCCGGGCAGCTTGGCGCTCGTGCTGCTCGCCATCCGAGGCGCTTACTACGCCTATCATACGTATGGCAGCCAGACGGGCAACAATATCGTATACATGGGACTATACGGAGCGACGGGGCTGCTCATTCCTGCCGCCTTGTCGACGATATTGGCCATATCCGAAGGCGGCATCATCTATATGGACGGCGGGAAGGTGGAGCTTCACTGGTACACGTTCTTCACGAATCCGTACACGTGGTCGGTCATTCTGCTTGCCCTTGTCAGCGTACTGTACATCTCGGCGATGTTCCTGTCCTATTACGCGCAGCGTGCCGGGGATGAGGTGGCGTTCGGCGTGGTCCGGGGTTATGCACTGGGTTGGAGCGGGCCGACGATCCTGGCTTCGGTGTTCGCGTTTTTCCAGATCAACCATCAGAATCCGGTGCATTTTGGGCAAATGCTGGATATCGCCTGGATGTTTATCGCGTCGTTCGTCTGCTTTGTCATCGCGGTATACCTCGTGTGGAAACGCATCCGCCTTGGCATCGCATTTATCATGGTCATGCTTCAATTCGCTTTTGCCTGGTACGGATATGGTCGCTCGCATCTGCCGTACATTCTCTATGATTACATCCACATTCATGAGAGCATCACCAACGATACGATGGCCATCGCTTTGATTACCGCGTTTATTCTCGGCTTCTGCGTGCTGGTGCCTTCCCTGATCCTGCTGATGCGATTGTTTTTGTTCGATGCGAACTACATTCGCGGCAAATCCGCGAAGAAGGGGTGA	MSYAMVAITVLWTFLFGYLLVASIDFGAGFFSFYSVLTGHENKIHNIIQRYLSPVWEVTNVFLIFFVVGLVGFFPDAAYFYGTALLVPGSLALVLLAIRGAYYAYHTYGSQTGNNIVYMGLYGATGLLIPAALSTILAISEGGIIYMDGGKVELHWYTFFTNPYTWSVILLALVSVLYISAMFLSYYAQRAGDEVAFGVVRGYALGWSGPTILASVFAFFQINHQNPVHFGQMLDIAWMFIASFVCFVIAVYLVWKRIRLGIAFIMVMLQFAFAWYGYGRSHLPYILYDYIHIHESITNDTMAIALITAFILGFCVLVPSLILLMRLFLFDANYIRGKSAKKG	PGPT0026705_2130	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
AK002_05539	1353	ythA_2	COG1271	Putative cytochrome bd menaquinol oxidase subunit I	ATGTCATCACTGGATCCAGTACTGATGAGCCGCATACTGACCGGACTGACCCTGTTTGTACATATTGTTCTGGCAACCATCGGCGTCGGGATTCCCATTATGCTGGCTCTGGCGGAATGGAGGGGGATCCGGACGGGGGATGACCACTATACCTTGCTCGCCAGGCGCTGGGCGCGGGGATATGTGATTACCGTGGCTGTTGGCGTCGTGACAGGAACCGCCATCGGCTTGCAGCTCAGCCTGCTGTGGCCCACCTTTATGCGCGTAGCCGGTAAGGCCATTGCGCTGCCGCTGTTCATGGAAACCTTCGCTTTTTTTGTGGAGGCGATCTTTCTTGGCATTTATCTCTATACGTGGGATCGGTTCAAAAACAAATGGACCCACCTGCTGCTGCTAATTCCCGTGGCGATCGGCTCCTCCGCTTCTGCTTTCTTTATCACGAGCATGAATGCATTTATGAACCAGCCGCAGGGCTTTGAGCTGGTGGACGGGGTGTTTACGAACGTGAATCCGTTCGTGGCCATGTTCAATCCGGCGACGCCGACCAAGGTGAGCCATGTGCTGGCGTCGGCGTTTACGACAAGCGCTGCGGCGCTGGCCAGCATCGCGGCTTTCAGCTTACTTCGGGGAAGCAGGCACGTCTATTTTAAGAAAGCGCTGAAGCTTACCGTCGTTTCCACCTTTGTTTTTGCCGTGGCCACCGTGATGATCGGAGACTTTTCCGGCAAATTCCTGGCCAAATACCAGCCCGAGAAACTGGCGGCCGCCGAGTGGCATTTTGAGACGATGACCGAAGCCCCGCTCATTTACGGCGGCTTTCTGGATGAGAATAACGAAATCAAGTATGCGTTAAAGATTCCGTACGCGCTTAGCATACTGGCAGGGAACAGCCCCAGTACGGAGGTCATCGGCCTGAATGAATTTCCGGAGAACGAGAGACCGCCGATGTCCGTGCATTATTTTTTTGATTTGAAGGTGACCAGCGGCGCCGTGATCGTTCTGATTCCTCTCCTGTATATGTTCCGAAGGAAACTTCCTGGCAAAAAGCCTTACCCAAAGTGGCTGCTGCTCAGTATATTGGCTTTAGGGCCTCTATCGATGTCAGCCATATGGCTGGGCTGGTTCCTTGCCGAGATCGGAAGGCAGCCGTGGATTGTGCGGGGATATATGAAGGTATCGGATGCGGCGACCACTTCATCGAGCGTCGGCTGGATGCTGTTGTTGTTTATTCTACTGTATTTGGTCTTGTCCGTATCCGCAATCCGCGTGCTGAGCCAATTGTTCCGGAATAAAAGCGCGGAAGAGGAAATCCGGCTGCTGGGACTCGAAATCGAAGGAGGAGACCGCAAGTGA	MSSLDPVLMSRILTGLTLFVHIVLATIGVGIPIMLALAEWRGIRTGDDHYTLLARRWARGYVITVAVGVVTGTAIGLQLSLLWPTFMRVAGKAIALPLFMETFAFFVEAIFLGIYLYTWDRFKNKWTHLLLLIPVAIGSSASAFFITSMNAFMNQPQGFELVDGVFTNVNPFVAMFNPATPTKVSHVLASAFTTSAAALASIAAFSLLRGSRHVYFKKALKLTVVSTFVFAVATVMIGDFSGKFLAKYQPEKLAAAEWHFETMTEAPLIYGGFLDENNEIKYALKIPYALSILAGNSPSTEVIGLNEFPENERPPMSVHYFFDLKVTSGAVIVLIPLLYMFRRKLPGKKPYPKWLLLSILALGPLSMSAIWLGWFLAEIGRQPWIVRGYMKVSDAATTSSSVGWMLLLFILLYLVLSVSAIRVLSQLFRNKSAEEEIRLLGLEIEGGDRK	PGPT0026700_4348	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
AK002_05540	111			hypothetical protein	ATGTACAGGAAGCAGGAGAAAAAGCTTGCGATTCTATGCTTTATCGTGGCCGCCATTATGCTGTACGGTGCCGTGAAAGGATATTTGCGCTACATGCATCATTTTGGATAA	MYRKQEKKLAILCFIVAAIMLYGAVKGYLRYMHHFG				NA	NA	NA	NA	NA
AK002_05541	1131			hypothetical protein	ATGAAAATTACATTCATTGAACCAACCCCGAGCCCGAACTCCATGATGCTTCATCTTGATGAAACCCTGGAGTCCGGAATTCGCAGAACATATACACTAGACAACGAACGGTCGGCTCCTCCCTGGATCAGGCAGCTGCTCCATATCCCGGGCGTAAAGAGCGTGTTCCATACCCTCGATTTCATCGCGCTCGACCGTAAAGGCAACGCCGATTGGCCTTCCATCCTGGGCGCCGTTCAGGAAATATTCGGCCAGGAGGGGCTCGCCGCCGGACTCAAGGAAGGCGCGGATGATATCGCATTTGGGGAAGCCCAAGTGTTCGTGCAATATTTCCGCAATATTCCGATGCAAATTCGTGTCAAAAGCGGGAATCAGGAAGAACGTATCGGCCTGTCGGAGCGCTTCTCCCAAGCCGTAGCCGCGGTAGGGACTTCTACGCTTATCAAGGAACGCAAGCTCAAGGAGTACGGCGTACGCTACGGCCAGCTGGGAGACATCGCCCGTGACGTGGAGCAGGAGCTGGAAGCCGCATTCCCGCAGGAGCGCCTCGATAAGGTCATTGCCCAGGCGATTGCCCACGGTGCCAGCGACGAGGATTTCGTCGAGCAGCGCCGGAAGCTGACGGACGAGGAAACCGAGGCCGCGATGCAGGATGAGGACTGGCGCGTGCGTTATGCCGCGCTGGATGCGCTGGAGCCGACGGAGAAACACCTTCCGCTGCTTCGCAAAGCGCTTCGGGATCCGAAGATGCAGATCCGCCGGCTCGTCGTTGTGTATTTGGGCGACCTTCGGACGCCTGAAGCGATGGAGCTTCTGTATGAAGCCATGCGCGACGAAACCCCGGCCGTTCGCCGTACCGCTGGAGATACCTTGTCCGATATCGGCGATGCCGCCGCTACCCCGGTCATGGTCGAATCGCTCAAAGACAGCAGCAAGATCGTTCGCTGGCGTGCGGCCCGCTTCCTGTATGAAGTCGGTACGGAGGAAGCACGTTCCGCCCTTGAGGAAGCCGCCAACGATCCGGAATTCGAAGTGAGCCTCCAGGCGCGAATGGCGCTGGAGCGCATCGAATCCGGCGAAGAAGCTGCCGGAACCGTCTGGCAGCAAATGGCTAAACGGAATCAATCGTAA	MKITFIEPTPSPNSMMLHLDETLESGIRRTYTLDNERSAPPWIRQLLHIPGVKSVFHTLDFIALDRKGNADWPSILGAVQEIFGQEGLAAGLKEGADDIAFGEAQVFVQYFRNIPMQIRVKSGNQEERIGLSERFSQAVAAVGTSTLIKERKLKEYGVRYGQLGDIARDVEQELEAAFPQERLDKVIAQAIAHGASDEDFVEQRRKLTDEETEAAMQDEDWRVRYAALDALEPTEKHLPLLRKALRDPKMQIRRLVVVYLGDLRTPEAMELLYEAMRDETPAVRRTAGDTLSDIGDAAATPVMVESLKDSSKIVRWRAARFLYEVGTEEARSALEEAANDPEFEVSLQARMALERIESGEEAAGTVWQQMAKRNQS				NA	NA	NA	NA	NA
AK002_05543	1452	lysP	COG0833	Lysine-specific permease	TTGAATCGCAAAAAAGCACCGGCTGCTTCGCTTAAGCAGAGCTTTAAAGCCCGTCATATGACGATGATCGCCCTTGGCGGATCGATCGGTACGGGCCTGTTCCTGGCAAGCGGAACGGCCATCGCCTCTGCCGGTCCGGGCGGAGCGCTTATCGCGTATGCCGCCGTAGGCCTCATGGTTTACTTTCTGATGACCAGCCTGGGCGAACTCGCTACGTATCTTCCGGATTCCGGCTCATTCAGCACCTACGCCTCCCGGTTTGTCAGTCCCGCCTTCGGATTTGCCGTCGGCTGGAACTTCTGGTACAACTGGGCCGTTACCATTGCCGCCGAACTCGCGGCGGCGACGGTTATTATCAAGTTCTGGTTCCCGGACAGCCCTTCATTCCTATGGAGCCTTCTGTTCCTGTCGATTATGTTCGGCTTAAACATTCTATCCGCCAAAGGATACGGGGAATCGGAATATTGGTTTGCTATCATTAAAGTAGCGACCGTCATTGTTTTCCTTATCATCGGCGTCATGATGATTTTCGGCATTCTTGGCGGCAAAGCGGTCGGATTCAGCAACTTCAGCCTAGGCGACGGGCCGGTACACGGCGGATTCTTCGCGCTGGTCGGCGTGTTTATGGCCGCAGGCTTCTCCTTTCAGGGAACCGAGTTGATCGGGGTAGCCGCAGGCGAAAGCGAGAATCCGAGAAAACATGTGCCCAAAGCCATTCGTCAGGTTTTCTGGCGCATCCTGATTTTCTATATTTTCGCCATTTTTGTTATCGGCATGCTGATCCCGTACACCCATCCGAGCTTGCTTCAATCCGGGGTCGACAATATCGGTGTCAGCCCATTCACCTTGGTGTTTGAGAAAGCCGGCCTTGCGTTTGCGGCTTCCGTAATGAATGCGGTCATTCTCAGCTCCGTGCTGTCGGCCGGCAACTCCGGGATGTATGCCTCGACCCGCGTCCTGTATGCCATGGCGAAGCAGGGCATGGCTCCGAAATGGCTGAGCCGCCTGAACAGCCGCGGCGTGCCGGTTGCAGCCCTGATCGTAACCTCCGCCGTGGGCATGCTGGCGTTCCTGGCCTCCTTCTTCGGCGATGGCGTCGTTTACGTGTGGCTTCTGAACGCCTCCGGAATGTGCGGATTCATTAACTGGCTGGCGATTGCGGTGAGTCATTACCGCTTCCGCAAAGCCTACGTTGCCCAAGGCAAGGACCTGAAGGATCTTCCGTTCCGTGCGCGCTGGTTCCCCTTCGGCCCCATCTTCGCTTTCCTGCTCTGTCTCGTGGCCATTATCGGTCAAGGCAATTTCAGCGGGGAGATCGACTGGTTAACGATCATTGCCACGTATGTCAGCATTCCGTTGTTCCTCTCCATCTGGTTCGGCTACCGCTTGATGAAGAAGAGCCGAATCGTGCCTTTGGATGAGTGCGATTTGAGCACGGATGCCAAATCATAA	MNRKKAPAASLKQSFKARHMTMIALGGSIGTGLFLASGTAIASAGPGGALIAYAAVGLMVYFLMTSLGELATYLPDSGSFSTYASRFVSPAFGFAVGWNFWYNWAVTIAAELAAATVIIKFWFPDSPSFLWSLLFLSIMFGLNILSAKGYGESEYWFAIIKVATVIVFLIIGVMMIFGILGGKAVGFSNFSLGDGPVHGGFFALVGVFMAAGFSFQGTELIGVAAGESENPRKHVPKAIRQVFWRILIFYIFAIFVIGMLIPYTHPSLLQSGVDNIGVSPFTLVFEKAGLAFAASVMNAVILSSVLSAGNSGMYASTRVLYAMAKQGMAPKWLSRLNSRGVPVAALIVTSAVGMLAFLASFFGDGVVYVWLLNASGMCGFINWLAIAVSHYRFRKAYVAQGKDLKDLPFRARWFPFGPIFAFLLCLVAIIGQGNFSGEIDWLTIIATYVSIPLFLSIWFGYRLMKKSRIVPLDECDLSTDAKS	PGPT0020630_954	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_LYSINE_TRANSPORT,PGPT0020630-lysP-K11733	NA	NA
AK002_05544	1143			hypothetical protein	ATGAAACGAAGCCGAGGAACGATCGTTAAATTACTGTTCATAGGGACTTTGGCGGTAACCGTTGCAGCAGTACCAGAACCAGCTAATCTCAGTGATGTCTATGCCACTTCCAACAAAGCGGTCGTGAAGTCGGTCCATGCGATACAGCAGAAACTGCTGACAGCGATGAGCGACAGGCAATCGACGGTGCGTTTTGTTTACCAGGGCGAGACCAAATCGCTGAAATCGCAGCTAAAAGACGCACTTGATCAGGCGATGGCCAGTGATCCTTATATCCATTACACCATCGCCAGCTATAGCTACGACTATCGTGGAACATCCAGTTCCGCCAATGTTACCGTCCGGTTGAGCTATCGCGAGACCGCGGAGCAGACGAACTACGTGAACCAGCATACCGACCGCATTTTGAAGCAGATCATCAAGCCGGGCATGAATGATCATGAGAAGGTGAAAGCCATCCATGATTGGGTTGTCCGCAACTTGAAATACGATACAACGCTTACGAAATATACGGCCTATGACGGGCTATACACGGGTAGCACGGTATGCCAGGGTTATTCTCTGTTAACGCATAAGCTGCTGAAGGAAGCCGGGATTCCGAACAAAATCGTGGAGGGTACGGCTTACGCCTCCGACAATCCACAGGGCCAGCTCCATGCCTGGAATCTGGTCCTTCTGGACGGCAAATGGTATCACTTGGATACGACTTGGAACGATCCCGTGCCGGATCGTGACAACGAGGTATCCTACACGTACTACCTCCGGACGGATGAGCAGATGGGCCGGGATCATACCTGGGTGAAATCCTATCCGAAGGCGAATACGCTTTACCGCAATACGCTGGCCGGGCTGGCCGCGAAGGATCGTTCGAAAGCGGGAGCATACGAAGCGATTAAGAAGGATCTGGAGTATCAGCTGTACGATGCCCGCGCCATCGTCAGCTCCCACCTTCAGCTTCAGCCGCTGGTGAAGGCAGCGAAGGCGGAAGGCAGCCGCAAGCTGGTATTCCGGTTTGACGGCAGCGAGCGAGAGCTTGTGAGCGTGCTCCAGCAGCTTCAGTTAAAGAACAATCTGGGGTCCATCAAATATTATCACAATGCTTTTGAAAACACGGGTGATCTTAGAGTGCAGATCATATGGTAG	MKRSRGTIVKLLFIGTLAVTVAAVPEPANLSDVYATSNKAVVKSVHAIQQKLLTAMSDRQSTVRFVYQGETKSLKSQLKDALDQAMASDPYIHYTIASYSYDYRGTSSSANVTVRLSYRETAEQTNYVNQHTDRILKQIIKPGMNDHEKVKAIHDWVVRNLKYDTTLTKYTAYDGLYTGSTVCQGYSLLTHKLLKEAGIPNKIVEGTAYASDNPQGQLHAWNLVLLDGKWYHLDTTWNDPVPDRDNEVSYTYYLRTDEQMGRDHTWVKSYPKANTLYRNTLAGLAAKDRSKAGAYEAIKKDLEYQLYDARAIVSSHLQLQPLVKAAKAEGSRKLVFRFDGSERELVSVLQQLQLKNNLGSIKYYHNAFENTGDLRVQIIW				NA	NA	NA	NA	NA
AK002_05545	2352			hypothetical protein	GTGAATCCATCGGGGAAGAAGAAAGTAAGGGTAAAAAAGACCGTTTGTGCGGTTACGGCTACGGCCATGCTTTGTTTGGGGCAGCCGGTATGGGGGGACAATTCCGTTCCGGGCAGCGGAGTCGCTGTATCCGAAACGGTAACTTCCGTCGGCAGCAGTGGTCAAGCCGGTTCCGAAAGCGTTACGGATAACGAAATACCGAAGGGCGCAAAAATTTCGTCCAAACAGGCGGAAGAAATCGTGAAGAAGGCTTTCCCGGAACTCAAGAACGTGAAGGTGTCGAACGTGCAGTTCCTGGAGAATGACGACATGAGATCGAGCGCGCTTGCATGGGATCTGCAATTGGTGCTGACCAAAGGGAACTCAACCTCCGGCTTCAATGCCCAGGTCAATGCGGTTACGGGTGAACTTATTCATATCTATCTCCCTAATTCTTTGTTGAAGCTGGATAGCGACAAACCGGCGTTAACCCGGGAAGCAGCCAAGGAGAAGGCGCTGAAATGGATCAGCACCCATGTGTCGGACGTGAAAGCAAGCGAGCTTAAGGAGAATGAAGCGTATCTCGGTATGCAAGCAGCTTTGTTCAGTCCGCCCCGGTTTGATTTTTATTTCCAGACCTCGGTGAACGGAATTGAATCGGATGTGAACAGCATTACGATCACGCTGGATGGACAGGGAAATACGATTCAATATTCCCGCAATCAAGTCAGTGAGGAGTTTCCTTCATCCACGCCGAAATTGAACGAGGCCTCGATCCGCAAATTGTTTGAAGATCAATTCCAAGTATCCTTGGCGTATGTGCCGGAAAATTTATATAACAATGCCAAAGGCGAATATTTTTTAGGTTACATACCTAATGATCTGTCAGGTTATTCAATGGATGCCAATACCGGCAAATTCATCAGTTTCACGGGGGAAGAGAGCGGGCTTGTCTCCGTTGAGGACGGCACGATTCCGGCAACCGAAGAAACCTTTAAGCCGATCGCGGGTCCATTCGCCGGCGGTGATGCGGCAGCCCGATGGGTGGAGTCGCAGATCAAGCTGCCGTCCGGCTTGAAGACAGAATCCAAGACGCTGGGTACAAGATGGAACAACAAAGAGGTTAAGACGTGGAACATCAGATGGGGCGAACATAGTATCTCCGCCATGGGCGGAGGAGAGATGGTATCCGCAGAGGTGGACGCCAAGACCGGACAGATCTACTCGTACAACCGTTATCGTTATGACCGGACCGAAACTGCGGAAGTGAAGAACCCGATTTCGCAGCAGGCTGCGCAGGAGCTTGCTTTTGAGACGGTAAGCAAGCTGGTACCCAACGCTTCCGAGGAATGGAAGCTGACATCGGTTGATAAAATGGGCAAGGACACGAAAACCCTCAACTATCAATTTTCATTCCAGCGCTATGTCGGCGATATTCGCGTCATGGGCGATTCCCTGAACCTCACGATTGAGGCCAACGGGCAAATCCAGGGCTTTAGCGTGAATTCGGAAGGCGTCCTCTCCAAGCTGCCAACGGACGTAAAGCCGGCTATTACCGAGGAGCAGGCAAGAGCGCAGTATTTGAAGGAGATTGACCTGAAGCTGAAATACGGCTATTACGGCGGTTACCTGTCTGCCAATAATGAAATCACGAAGCCTTTCATCAAGCTGATTTATTATCCGACACATAAACAGCAGGCTTTAGGCGGCATGCAGGTACCGCTTGATGCCAAGAGCGGAGAATGGCGCGATATCATGCCGGAAATGAACCGCAAGGATATTCCGGCAGTGACTGACGCGTCAGGGCATTCGGCCGAAGCGGCTCTCAAGGAGCTGGTGAAATATCGGGTATTGGTTCCGGACAAGGACGGCAAGGTGTACCCGGATCGTCAGATCACCCTTGGCGAATGGTATCAGCTGGTAGCGGCTTCGGTTAGCCCGTCCTACGAGCAGATATACGGAAGATCCACCATGGATCCGTACGCGGGCCTGCAGCCGGACCATCCGTATTACCAGGCCATTCAAGTGTTGATCGGGCAGAACTGGATTCCGTATGACCCGGACAGCCCGCTGCAGCTGGACCGTAAGCTGACCAGGGATGAACTGGCGAGCTCGCTGACCCGGATTTTGAATTACGAGAAGCTGTCCAAAGCCTTTATTCTTCCAACCGATGTGCAGGGGATATCCGATGCCGACGCCGTGACGAACAAAGGCGCAGCCCTGATCGCGCTCAAGCTGGGACTTCTTCCGGCGGTGGATGGCAAGTTCCTGCCTAATCGCGAAGTGACGCGCGCGGAAGCGGCTGAGGTTCTGGTCCGCATGTCGAAGCTGGCGGGACGAAGCGATTCCTTCTTGTCCTCATTCTATTGGTAG	MNPSGKKKVRVKKTVCAVTATAMLCLGQPVWGDNSVPGSGVAVSETVTSVGSSGQAGSESVTDNEIPKGAKISSKQAEEIVKKAFPELKNVKVSNVQFLENDDMRSSALAWDLQLVLTKGNSTSGFNAQVNAVTGELIHIYLPNSLLKLDSDKPALTREAAKEKALKWISTHVSDVKASELKENEAYLGMQAALFSPPRFDFYFQTSVNGIESDVNSITITLDGQGNTIQYSRNQVSEEFPSSTPKLNEASIRKLFEDQFQVSLAYVPENLYNNAKGEYFLGYIPNDLSGYSMDANTGKFISFTGEESGLVSVEDGTIPATEETFKPIAGPFAGGDAAARWVESQIKLPSGLKTESKTLGTRWNNKEVKTWNIRWGEHSISAMGGGEMVSAEVDAKTGQIYSYNRYRYDRTETAEVKNPISQQAAQELAFETVSKLVPNASEEWKLTSVDKMGKDTKTLNYQFSFQRYVGDIRVMGDSLNLTIEANGQIQGFSVNSEGVLSKLPTDVKPAITEEQARAQYLKEIDLKLKYGYYGGYLSANNEITKPFIKLIYYPTHKQQALGGMQVPLDAKSGEWRDIMPEMNRKDIPAVTDASGHSAEAALKELVKYRVLVPDKDGKVYPDRQITLGEWYQLVAASVSPSYEQIYGRSTMDPYAGLQPDHPYYQAIQVLIGQNWIPYDPDSPLQLDRKLTRDELASSLTRILNYEKLSKAFILPTDVQGISDADAVTNKGAALIALKLGLLPAVDGKFLPNREVTRAEAAEVLVRMSKLAGRSDSFLSSFYW				NA	NA	NA	NA	NA
AK002_05546	624	kdgA_2	COG0800	KHG/KDPG aldolase	ATGAAACTGACAGCCGAACTGAAACGCCAGAAAATCGTTGCCATCGTGCGCGGCATTACAAAAGAACAAGCGGGCTTCGTAGGGGAAGGATTGAGCCGGGGCGGAATCCGGTTTATGGAAGTGACGATGAATACGAAGGGCGCTATACATATGATTCAGGATTGGCGCGCCCGCTATGACGGTGACGTGTATGTCGGCGCGGGTACCGTCCTTGATGTGGAGATGGCCAAGGAAGCGGTCTCTGCGGGAGCCCAATTCCTGATCTCGCCGAACACGTATCTTTCCGTCATCGAATTTGCCCTGGAGCAGGGAATCGACGTATGGCCCGGGGCGATGACGCCAACGGAGATCGTTGCGGCGTACGCCGCCGGGGCGGAGATCGTGAAGCTGTTTCCAATGGCAAGCCTTGGCTTGTCATTTATCCGGGAGCTTCAGGGCCCGCTGAATCACATTCCGCTGCTCGCCACGGGCGGAGTTACGCTGGACAATATTCCGGATTATTTTAACGCAGGCGCGGCAGCGGTGGGTTTAGGGAGCGCGCTGCTTCCGAAGGATGCCCTTGCGTCCGGCAATACGGACGAGATCCAGCGCCGTGCAGCGGCTTTCGTGGAAGCGGCGAAATAG	MKLTAELKRQKIVAIVRGITKEQAGFVGEGLSRGGIRFMEVTMNTKGAIHMIQDWRARYDGDVYVGAGTVLDVEMAKEAVSAGAQFLISPNTYLSVIEFALEQGIDVWPGAMTPTEIVAAYAAGAEIVKLFPMASLGLSFIRELQGPLNHIPLLATGGVTLDNIPDYFNAGAAAVGLGSALLPKDALASGNTDEIQRRAAAFVEAAK	PGPT0002060_3314	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
AK002_05547	1497	xylB_1	COG1070	Xylulose kinase	ATGAGTTACGTTATCGGAGTTGATTTGGGGACCAGTGCCGTGAAGACCGTGCTGGTGGACCGCAGCGGCACGGTGGTTGCCGAGCATTCGGAGTCATACCCGCTGAGCCAGCCGAAGCCCGGTTACAGCGAACAGCGGCCGGAGGACTGGGTAGACAAAACGGTATTGTCGTTACGAGAATTAATGAAAGGAAACAACATAAATCCATCCGAGGTTGAGGGCTTGAGCTTCTCCGGCCAAATGCATGGTTTGGTCCTGGTAGACGGAGAGGGCGCCGTGCTGCGGCCGGCGATCCTGTGGAACGATACCCGGACAACGGCGCAATGCCGCCGCATCGAGGAGACCTTGCAGGAGAAACTGCTTGGCATTGCACGCAATCGCGCGCTGGAAGGCTTCACTTTGCCGAAGATTCTCTGGGTTCAGGAGTTTGAGCCGGAGCTGCTGGAACGGGCTGCCCTGTTCCTGCTGCCTAAGGATTACGTGCGTTTCCGCTTGACCGGACAATACGCGATGGACTACTCCGATGCAGCCGGAACGCTGCTGCTGGACGTGGCCGGTAAATCCTGGAGCACCGACATTTTGGATGCTTTCCAGCTGCCGCACACCTTATGCCCGCCGTTGGTCGAATCCTTCGACGAATGCGGCACGCTGCTCCCCGAGATCGCCGAGCAAGCCGCTCTGCTGCCGGAGACGAAGGTGTTTGCCGGCGGAGCGGACAACGCCTGCGGCGCTATCGGGGCCGGCATTCTCGAAGAAGGGCAAACGATGTGCAGCATTGGTACATCGGGCGTGGTGCTGTCCTATGAGGAGCGTCGTGAGGTGGATTTTGAAGGGAAGGTCCATTTCTTTAGCCATAGCGAGAAAGATGCTTATTATATCATGGGGGTAACCCTAGCAGCGGGATACAGCCTGACCTGGTTCAAGGATACCTTTGCTCCCGATGTTTCCTTTGACGCGCTGTTAAGCGATATCGGGAATATCCCGGTAGGCAGCGGCGGGCTGCTGTTCACGCCGTATATTGTCGGCGAACGCACGCCCCATCCGGACGCCACCATCCGCGGCAGCTTCATTGGCATGGACGCCGGGCATAAGCTGCCTCACTTCGCGCGTTCGGTACTCGAAGGGATCACGTTCTCTCTCCGCGAATCCATCGATATCCTCCGGTCATCGGGCAAGCAGATCGACCGCGTGATTTCCATTGGCGGCGGAGCCAAGAACGAGACCTGGCTGCAAATGCAGGCGGATGTGTTTAACGCCGAAATCGTGAAGCTGGAAAGCGAGCAGGGCCCGGCCATGGGCGCGGCCATGCTTGCAGCTTACGGCTGCGGCTGGTTCCCAAGCCTTCAGGATTGCGCGAAGGCGTTTTTGCGGCAGGCACGCTCGTATTCTCCAAACCCGCAAGCGGTTCAGGCCTATGACAAATTGTTTGGACTCTATCAAAGCGTATACGGAGCCACGCGTGAGCTTGGCGCGGAGCTGTCCGAATTCCGCGGATAA	MSYVIGVDLGTSAVKTVLVDRSGTVVAEHSESYPLSQPKPGYSEQRPEDWVDKTVLSLRELMKGNNINPSEVEGLSFSGQMHGLVLVDGEGAVLRPAILWNDTRTTAQCRRIEETLQEKLLGIARNRALEGFTLPKILWVQEFEPELLERAALFLLPKDYVRFRLTGQYAMDYSDAAGTLLLDVAGKSWSTDILDAFQLPHTLCPPLVESFDECGTLLPEIAEQAALLPETKVFAGGADNACGAIGAGILEEGQTMCSIGTSGVVLSYEERREVDFEGKVHFFSHSEKDAYYIMGVTLAAGYSLTWFKDTFAPDVSFDALLSDIGNIPVGSGGLLFTPYIVGERTPHPDATIRGSFIGMDAGHKLPHFARSVLEGITFSLRESIDILRSSGKQIDRVISIGGGAKNETWLQMQADVFNAEIVKLESEQGPAMGAAMLAAYGCGWFPSLQDCAKAFLRQARSYSPNPQAVQAYDKLFGLYQSVYGATRELGAELSEFRG	PGPT0017535_1620	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017535-xylB-K00854	NA	NA
AK002_05548	1317	xylA		Xylose isomerase	ATGGCCTATTTTAACAACATTAGCAAAGTCGAGTACGAAGGCAGCAAATCGACCAACCCTTATGCTTTTAAATTTTATAATCCGACAGAAGTCGTAGCCGGCAAAACGATGGAAGAGCATCTCCGTTTCGCGATGGCTTACTGGCATACATTGACTGCAGGCGGCTCCGATCCGTTCGGTGCCGACACGGCAGTTCGTCCTTGGGGCAACTACTCCGGCATGGACCTTGCCAAAGCACGCGTTGAGGCAGGCTTTGAATTCATGGAGAAGATGAACCTTCCGTATTTCTGCTTCCACGACGTGGACATTGCACCGGAAGGCAGCAGCCTGCGCGAGTTCTACAGCAACATCGATACGATTGTGGACTCGATTGAAGACCATATGAAGTCCACCGGCAAAAAACTGCTGTGGAACACGGCCAACATGTTCACGAATCCTCGTTTCATGCACGGTGCGGGCACTACGTGCAACGCCGATGTATACGCTCATGCGGCTGCGCAAATCAAGAAGGGCCTCGAAGTCGGCAAACGCCTCGGCGCCGAGAACTACGTGTTCTGGGGAGGCCGTGAAGGCTACGAGACCCTGCTGAACACGGATATGGGCCTAGAACTGGATAACCTGGCGCGCCTGTTCCATATGGCGGTGGATTACGCGAAGGAAATCGGCTTTGACGCCCAGTTCCTGATCGAGCCTAAACCGAAGGAGCCGACCAAGCACCAATATGACTTCGATGCGGCTACTACGATTGCATTCCTGCAGAAATACGGTCTCGACAAGCACTTTAAATTGAATCTCGAAGCAAACCACGCCACGCTGGCCGGTCATACCTTCGAACATGAGCTTCGCGTAGCACGCATCAACGGCATGCTCGGTTCCCTCGACGCGAACCAAGGCGATATGCTCATCGGATGGGATACGGACGAATTCCCGGTTAACATCTATGACGCTACATTGACGCTGTACGAAGTGCTGATGAACGGCGGCCTCGGCCGCGGCGGCGTGAACTTCGACGCGAAGGTTCGCCGTCCATCCTTCGAGCCGGAAGATCTGTTCCATGCGCACATCGCCGGTATGGATACTTACGCAAAAGGCTTGAAAGTGGCAGCGAAGCTGATCGAAGACCGCGTATTCGAGGACTTCATCGCGAAGCGCTACAGCAGCTTTAATGAAGGCATCGGCGCAGACGTCGTAAACGGTAAGGCTACGCTGGCTTCCCTTGCGGAATACGCGCTGAACAACGAGTCCCCTCGCAAAAACGAATCCGGACGCCAAGAAATGCTGAAGGCGATCCTGAATCAGTACATTCTTGCGAATTAA	MAYFNNISKVEYEGSKSTNPYAFKFYNPTEVVAGKTMEEHLRFAMAYWHTLTAGGSDPFGADTAVRPWGNYSGMDLAKARVEAGFEFMEKMNLPYFCFHDVDIAPEGSSLREFYSNIDTIVDSIEDHMKSTGKKLLWNTANMFTNPRFMHGAGTTCNADVYAHAAAQIKKGLEVGKRLGAENYVFWGGREGYETLLNTDMGLELDNLARLFHMAVDYAKEIGFDAQFLIEPKPKEPTKHQYDFDAATTIAFLQKYGLDKHFKLNLEANHATLAGHTFEHELRVARINGMLGSLDANQGDMLIGWDTDEFPVNIYDATLTLYEVLMNGGLGRGGVNFDAKVRRPSFEPEDLFHAHIAGMDTYAKGLKVAAKLIEDRVFEDFIAKRYSSFNEGIGADVVNGKATLASLAEYALNNESPRKNESGRQEMLKAILNQYILAN	PGPT0017550_1063	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017550-xylA-K01805	NA	NA
AK002_05549	1173	nagC_4	COG1940	N-acetylglucosamine repressor	ATGACGAATATTACCGGTGACCAGGCTCTGGTCAAGAAAATAAACACTTCCATCATTCTCGATACGATACGTCAACACGCGCCGGTCTCCCGGGCGAAGGTGTCCAAGCTGACAGGCCTCAACAAGGCAACCGTCTCCAATCTTGTGCAGGAGCTGTGCAGCAACCACCTGGTCCAGGAAATCGGGCCCGGCGAATCCAGCGGCGGCAGGAAGCCGCAGCTGCTGCTGTTTAACGGACAAGCCGGGTATGCCATCGGCGTCGAGCTGCGCGTGAAGCAGATAACCGCCGTGCTTACCGATCTGGAAGGACGGATCCTTGCCGAAGAAGACACCGCGCTTGAAGGGCACGACGTTGAATCGGTGACGAGGCTGATGGTGGGCATGATCCACAGCCTGATGCGTCAAGCCCCTCCCTCCCCGTACGGCATCATCGGGATCGGCGTGGGCGTCCCGGGGATGGTCGACGGCGACGGCACCGTCCTCTTCGCCCCCAACCTGGGGTGGGACATGGTCCCGCTGCAGGAGCAGCTCGAGCTTGAGCTCGGACTCCCCGTCACCATCGACAATGAAGCGAACGCGGGTGCCCAGGGCGAGCTGCGCTTCGGAGCCGGCCGGGACGCCCGCCATCTCCTCTATATCAGTGCCGGCAGCGGTATCGGCTCCGGCATTATCATCAATGGCGAGCTCTATAAGGGAGCCCGCGGATATGCCGGCGAAAGCGGCCATATGTCCATCGAAGCCGATGGACGGGAATGCAGCTGCGGCAACCGCGGCTGCTGGGAGCTGTACGCCTCGGAGAAATCCTACGACGGCAAAGATGCCGTTCTTCCGTCCAGGCGGACGTCCGAGCTTGTCCATCATGCCGAGCTCGGCCATGAGGAGACCATCCGGCATTTCGAGGAGCTCGGACGCTATCTCGGCATTGGGATAACCAATCTTGTCAACGGATTCAATCCGCAATCGGTCATCATCGGCGGTCCGCTGTCCGACGCCCGGGCTTGGATCGAAGAAACGCTCCAGCAGGTCGTTGCCCAGCGCACGCTTCCATACCACCGTGAGCGGATGGAGATCCGGTTTGCGGAGCTGGGCAGCCGCTCTACCATGATCGGTGCGGCCTACTCTGCCATTTCGCAATTTCTCAGCCCGGTACGGGTCTCCATGCCGATTCATTAA	MTNITGDQALVKKINTSIILDTIRQHAPVSRAKVSKLTGLNKATVSNLVQELCSNHLVQEIGPGESSGGRKPQLLLFNGQAGYAIGVELRVKQITAVLTDLEGRILAEEDTALEGHDVESVTRLMVGMIHSLMRQAPPSPYGIIGIGVGVPGMVDGDGTVLFAPNLGWDMVPLQEQLELELGLPVTIDNEANAGAQGELRFGAGRDARHLLYISAGSGIGSGIIINGELYKGARGYAGESGHMSIEADGRECSCGNRGCWELYASEKSYDGKDAVLPSRRTSELVHHAELGHEETIRHFEELGRYLGIGITNLVNGFNPQSVIIGGPLSDARAWIEETLQQVVAQRTLPYHRERMEIRFAELGSRSTMIGAAYSAISQFLSPVRVSMPIH	PGPT0018870_504	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018870-nagC-K02565	NA	NA
AK002_05550	204			hypothetical protein	ATGACCTATGTAAGCACTGCGGAAATATCGGCACAAATGTTTGTGACCGTATTGCTGTTTCTCCTAGTTATCGCACCTTTGTTCAGTCTCGCCATTATGCGTTTTTTTCAAGGCAAGAAAAAAGCCGGCTTCATTCTCCTCGGCTCCGGCGTGGCGGCATACGTCGTATTCCAGATCATCATGAGCCTGTTTTTCAGCAAGTGA	MTYVSTAEISAQMFVTVLLFLLVIAPLFSLAIMRFFQGKKKAGFILLGSGVAAYVVFQIIMSLFFSK				NA	NA	NA	NA	NA
AK002_05551	237	nrdH	COG0695	Glutaredoxin-like protein NrdH	ATGGAAAACGTGATTGTATACACTTCGAACAACTGCCCGCACTGCAAACAAGTAAAAGGCTTCTTGTCCGATCAAGGCATCGAGTTTGAAGAGCGCAACATCGAGCAGAACGACGAATTCGCGCAGCAGGTATGGGATATGGGCGTTCGCGCGGTACCTCTCACCATCATCGGTGAGCACCGTATTCTTGGCATGAACAAGATCCAGTTCAACAAAGCGTTGAATCCTGAAGCTTAA	MENVIVYTSNNCPHCKQVKGFLSDQGIEFEERNIEQNDEFAQQVWDMGVRAVPLTIIGEHRILGMNKIQFNKALNPEA				NA	NA	NA	NA	NA
AK002_05552	942	trxB_4	COG0492	Thioredoxin reductase	ATGTACAAATCCGTTATTATAGGCACAGGCCCTGCCGGGCTTACGGCTGCCATTTATCTGGCTCGCGCGAATTTGAGCCCGCTCGTCATTGAAGGTCCGCAACCTGGCGGACAGCTGACAACCACGACCGAAGTTGAAAATTTCCCGGGGTTTCCCGAAGGCATCATGGGTCCTGAGCTGATGGACAATATGCGTCAGCAGGCGGAACGTTTTGGCGCGGAATTTCGTACAGGCTGGGTGAACAGCGTGGAATTCGGAGAGCGTCCGTTCAAGCTGGACGTTGACGGAATGGGCGAGGTGGTTGCAGAGACGCTGATTATCTCTACGGGCGCAACGGCCAAATATCTCGGCATTCCGGGAGAGCAGGACAATGTGGGACGCGGCGTCAGCACTTGCGCAACCTGCGACGGATTCTTCTTCCGCGGGAAAGAGATCGTTGTTGTCGGCGGCGGCGATTCCGCGCTGGAAGAAGCTAACTTCCTGACCCGCTTTGCATCCAAAGTAACGCTGGTTCACCGTCGGGAGGAGCTTCGTGCATCGAAAATCATGCAGGATCGCGCCCGTGCCAACGAGAAAATCGAATGGGCGTTGAACCGCACGCCGCAGGAAGTCATTGCGGACGAGACAGGCGTTAAGGGCATCAAAGTGCTCAACAATGAGACTGGCGAAGAAGAGACGATTACGGTCAGCGGCGTGTTCGTGGCGATCGGCCACCATCCGAACACCGGTTTCCTTGGCGGAAGCATTACGACCGACCCGAACGGATATATCGTAACGACTCCGGGAACATCCGAAACGAATATCCAAGGCGTATTTGCTTGCGGCGACGTGCAGGACACCCGTTACAGACAAGCGATCACGGCAGCAGGAAGCGGCTGTATGGCGGCTATGGATGCGGAGAAATACATCGAGAGCTTGGAACACAGCGCTGTCGTGTTGTAA	MYKSVIIGTGPAGLTAAIYLARANLSPLVIEGPQPGGQLTTTTEVENFPGFPEGIMGPELMDNMRQQAERFGAEFRTGWVNSVEFGERPFKLDVDGMGEVVAETLIISTGATAKYLGIPGEQDNVGRGVSTCATCDGFFFRGKEIVVVGGGDSALEEANFLTRFASKVTLVHRREELRASKIMQDRARANEKIEWALNRTPQEVIADETGVKGIKVLNNETGEEETITVSGVFVAIGHHPNTGFLGGSITTDPNGYIVTTPGTSETNIQGVFACGDVQDTRYRQAITAAGSGCMAAMDAEKYIESLEHSAVVL	PGPT0013060_7290	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK002_05553	1047			hypothetical protein	ATGGCATTTTTTTACGACTCTCCAAGGGGAGCTGCTTATTCCTGGCTGATTGATTATGCGATGGAGCGGTCGGCGGTATTCGTGTTAGCAAGGCGCGGAGAGTTCCAGCTCATGGAGGAAGCCGAGCGTGTGTTCTCGCAGCTTGAGCCTTATCTGATCGAAAAACGCAAGATTAGCGAGCACGATATCATGAAGCGATTGGATGAGGAGACGATGCATGGCAACGGGATTGAATACGGAGCAGGCACTTACTACATCTATGGGTGCTGCGAGGAAGCCGCTGTTGTGTTGAAGCAGGCGGCGGATGATCTGTTTGCATGGCAGCATCCCCATCTGCCGGAGGATTTGAACTTTTGGGATCAGGATGGACAGGACCTCTTACATAATGTAGCTCATGAACGAATGGGCGGGCTTCAGATCGGCAAAGTAGAAGCCGAGAACATATCGGCCATGGTTCCGGGCCTGTTTCTAAGCCGTCCGGAACATAAGAAGTTTGAAGTGTTCTGGCAGGATGTATTGTTTCATAAACCGCGCAAGCTTGAAATTTTCGGTTTTGGCATCCAGGAGATTCCTGAAAGCATCGGAGAGCTGAAGGAGCTGAAGGAACTTATGATCCATGAAAGTTACGTCACCAGACTGCCTGCGGCCCTGTTTGGTCTAACGGAATTAGAGGATTTAACGGTATATACGGAGGATCTGGTGGAGATTCCGGCGGAGATTGGTGATTTGACCAAGTTAAAACGCTTGAATATCGCGTGCGGGAGTTATCATGGACCTACAGATCATGTGATCCGGAGAGAGGAAGTATCGTTGACGCGGGTCCCTCCGGAGATCGGACGATTGAGGTTGCTGGAGCTGCTTAGTATGAATTACACGGGGATTATGGAACTTCCCATGGAGATGGGGCAGCTGCAGAATCTGAGTTTCCTTGACCTAAGCCGAAACCAACTCCAGAGCGAGCCGGAATTCATAGAGAAACTGACGGGACTTTCGTATGTTAATCTGTCGGATAACCGGTACAATCCAAGTCCTCAAAATCAGTTTTAG	MAFFYDSPRGAAYSWLIDYAMERSAVFVLARRGEFQLMEEAERVFSQLEPYLIEKRKISEHDIMKRLDEETMHGNGIEYGAGTYYIYGCCEEAAVVLKQAADDLFAWQHPHLPEDLNFWDQDGQDLLHNVAHERMGGLQIGKVEAENISAMVPGLFLSRPEHKKFEVFWQDVLFHKPRKLEIFGFGIQEIPESIGELKELKELMIHESYVTRLPAALFGLTELEDLTVYTEDLVEIPAEIGDLTKLKRLNIACGSYHGPTDHVIRREEVSLTRVPPEIGRLRLLELLSMNYTGIMELPMEMGQLQNLSFLDLSRNQLQSEPEFIEKLTGLSYVNLSDNRYNPSPQNQF				NA	NA	NA	NA	NA
AK002_05554	2025	zosA	COG2217	Zinc-transporting ATPase	ATGCAATGGATACAAAATCAAACGACAACTGGACGCATATCGACAATAGAAAATGGAGCCGATCCGCGTGAGCCGAGGCAGCCGGGGAAATGGGATATCCGCAGCCTGCTGAGCAATGCGGAGGTAGTGGCTGCGCTGGGCAGCGGGTTGCTGATGCTGGTGGCCTGGCTGACCAGCCAATGGTCTGAGCCGCTCTCCGTTGTGCTGTACGTGATATCCTACGCCGTCGGCGGATGGGTGAAAGCCAAAGAAGGCGTCGAGACCCTTCTGAAGGAACGCGATCTGGATGTGAACCTGCTGATGATCGCTGCCGCTATGGGGGCTGCAGCGATCGGATACTGGAACGAAGGCGCGATGCTGATCTTCATCTTTGCCCTCAGCGGAGCGCTTGAGAGTTATACGATGGAAAGAAGCCGCAAGGACATCTCATCCTTGATGGAGCTGCAGCCGGAGACGGCCCTTCGCATCGAGAAGGGGGAAATGGTGTCGGTATCCATTAACAAGCTGGAGATCGGCGATCTCATTCTGGTGAAGCCGGGCGAGCTGATTCCGGCAGACGGCAAAATCTATCGCGGCAGCTCCTCCGTGAACCAGGCCTCCATTACCGGCGAATCCGTGCCGGTCGATAAGTCCGTAGGCGATGAAGTGTTCACAGGCACCTTAAACGGGGAAGGGGTCCTGTATATTGAGGTTACCCAATCGGCGGAATCTACGTTGTTCGCCAAGATCGTCCGGCTGGTGGAAGAAGCGGAGAACGAGGTGCCGGAATCGCAGCGGTTCATCAAGCGGTTCGAATCGATATATGCCCGCGTCGTTGTCATTGCGACCGTGGCGTTGATTGTTCTGGCCACTCCCGTTCTGGGATGGGATTGGGATACTACCTTCTACAAAGCGATGGTGTTTCTCGTGGTGGCATCCCCTTGCGCGCTGGTATCTTCCATCATGCCTGCGATGCTGTCGGCGATTTCCAATCGTGCCCGAAAGGGCGTCTTGTTCAAGGGCGGCGCCCATATCGAGAATATGGCGCGTACGGCGGTTGTCGCATTTGATAAGACCGGTACCTTGACGCTCGGCACACCCGTGGTTACGGATTTTATCGCAGGCGAGGGATGGGATCGGCACGAACTGCTCGGCATCAGCGCTTCCATCGAACGGATGTCGAAGCACCCGCTGGCCCTGGCGATTGTCCAATCGGCCGAAAAAGAGGGAGCTCCGCTGCAGCAGGTAGAGAACGGTCAGTCCATCACTGGCTGGGGCATGCAGGCGGAAGTCGCGGGAGTCACCTGGAAAATAGGCAAAAGCGACATACTGGAGGAAGGGACCGAAGATCCGCGTTCGGGTGCGATTTCCGATCAAGATGAAAGCTTGGGCGCGGTTCAAGAGAATCGCCAGCACTGGCTGTCCATTCGGGACACGCTGGAATCCGAAGGAAAAACGGTATCCGTTATCCTGAAAGGGGACAGCATCGTGGGCATGATCGCGCTGCAGGACGCGGTCCGTCCTCAGGCGGCCATGGCCGTTAAGCGGCTCCAGCAGCTGGGTATCAAGGTAGCGATGCTGACGGGGGACCGCAAGGCGACGGCAGAAGTCATCGCCAAGCAAAGCGGTGTCGACATGGTGTTCTCCGACCTGCTGCCGGAGGATAAGGTTACCCATATTAAGGACCTGCGTGCCCGTTATGGCCATGTGGTCATGGTAGGGGATGGCGTGAACGATGCACCGGCGCTGGCCACGGCAACCGTCGGCATCGGCATGGGCGTTTCGGGAAGCGGAACCGCGCTGGAGGTGGCGGATGCGGTGCTAATGAACGACAACATCGATGAAATCGCCGGTACCGTTAAAGTGGCACGCAAGGTTCAACGCATCGTGAAGCAAAACATGATCTTTGCCATTACCGTCATTTTGACACTGATTGCAGCCAATTTCATCGAGGGCGTAGCGCTGCCGCTCGGGGTCATCGGCCACGAAGGAAGCACGATTCTGGTCATCCTGAACGGGCTTCGTCTCCTGCGCAGCAGCCGTTAA	MQWIQNQTTTGRISTIENGADPREPRQPGKWDIRSLLSNAEVVAALGSGLLMLVAWLTSQWSEPLSVVLYVISYAVGGWVKAKEGVETLLKERDLDVNLLMIAAAMGAAAIGYWNEGAMLIFIFALSGALESYTMERSRKDISSLMELQPETALRIEKGEMVSVSINKLEIGDLILVKPGELIPADGKIYRGSSSVNQASITGESVPVDKSVGDEVFTGTLNGEGVLYIEVTQSAESTLFAKIVRLVEEAENEVPESQRFIKRFESIYARVVVIATVALIVLATPVLGWDWDTTFYKAMVFLVVASPCALVSSIMPAMLSAISNRARKGVLFKGGAHIENMARTAVVAFDKTGTLTLGTPVVTDFIAGEGWDRHELLGISASIERMSKHPLALAIVQSAEKEGAPLQQVENGQSITGWGMQAEVAGVTWKIGKSDILEEGTEDPRSGAISDQDESLGAVQENRQHWLSIRDTLESEGKTVSVILKGDSIVGMIALQDAVRPQAAMAVKRLQQLGIKVAMLTGDRKATAEVIAKQSGVDMVFSDLLPEDKVTHIKDLRARYGHVVMVGDGVNDAPALATATVGIGMGVSGSGTALEVADAVLMNDNIDEIAGTVKVARKVQRIVKQNMIFAITVILTLIAANFIEGVALPLGVIGHEGSTILVILNGLRLLRSSR	PGPT0004200_2993	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
AK002_05555	1110			hypothetical protein	ATGACGGAAAGGCATTGGGGAGCAGGCAGTGAATTGGGAGAGCGTTTATGGGAAGATAAGAAGTTTATCGAAGCAGAGGACATCACGGCAAACGATTTTTCTCCCGAGACGGATCTGCTGAAGCATTTTGCTATGGCAGGAGGAGTCACCCATGAGGAGGTATTGCTGTTGCTGGCATCGCCTGATGACATTGAAGAAGCCCTCAGGGTTTCGGGGATTCGTCATAACGGCACGGACAGACCTTCCTTGACCCGACTGCTGGGGTGGAGTGACAGGAACCGAAGACTGAAAGTCATGAGCCGATCCGCGGATCCTGAATCCATCACACGTGATCTCGAGCAGGGTGCTCAGGGAATCGGACTGATACGCGGTGAGGATGCTTTGCAGCATGGCCTGCTGCAGGAGGTATATTCGGCATGGCTGAATTCACGGAGCGCGGAGAAGAGCGCTTTGTTAAGACGAAGACTCATTATGTTATGGGTGACGTATTGGGTGTCGGTGTTTCAAGCGGCAGCCGGAGCCCGATGCGCGATCAGTTTGCTGCAAGATGCCCGGCTTTCCAATACGATGGATTTACGCGAGGCGCAGGATGCTCAGCTCGAGTCGTTGTTCCGGGCGATGGAGCAGTGCGGGGCGGAAGGCATAGACTGCCATTTAGAGCTGTTGGCTGTGCGTCCGGCACATGCGGATGAGTTTATATCGATCCATAATTTTATCGAAGAAGTGGCGGAGCAGACGCTGATGGATCAGAAGCGTTTTGTCCGAATCCGTTACGGGGCGTTGCTTGGCGAAGGAATGAGCCCGTCGGCTGCGGCGGAGATTGCCCGTTTGGCCGATGTGCTGGTATTCGATTGCGAAGGCATAGGAGATTCCGCATCATCGGATGAAGCAGGTCAGAAGGTCTCGGCGTTCTCGGAGATGATCAGTCGAATCAGACGGACGAAGCCGCAGTTGACGCTCCGGATCAATGGCGTAGGCACTGCGGATTTGCGGATGGTGTACCGGCAGGGCATACACGAGGTATGCTGTCATTCTTCGGAACTTGCGGCCATACGGATAACCGGCGCAAGATTGGAAATGCGGCGCAGATGTTCCACGATCATCGATTGA	MTERHWGAGSELGERLWEDKKFIEAEDITANDFSPETDLLKHFAMAGGVTHEEVLLLLASPDDIEEALRVSGIRHNGTDRPSLTRLLGWSDRNRRLKVMSRSADPESITRDLEQGAQGIGLIRGEDALQHGLLQEVYSAWLNSRSAEKSALLRRRLIMLWVTYWVSVFQAAAGARCAISLLQDARLSNTMDLREAQDAQLESLFRAMEQCGAEGIDCHLELLAVRPAHADEFISIHNFIEEVAEQTLMDQKRFVRIRYGALLGEGMSPSAAAEIARLADVLVFDCEGIGDSASSDEAGQKVSAFSEMISRIRRTKPQLTLRINGVGTADLRMVYRQGIHEVCCHSSELAAIRITGARLEMRRRCSTIID				NA	NA	NA	NA	NA
AK002_05556	408			hypothetical protein	ATGCGAACCGATTATGACCATTGGGAACCCGTCAGCGTATCGGAGGCTGCCGGGATTTTTGCGAAAATCCCTGTTCATTGGTATATCGCAGGAGGATGGGCGTTAGATTTGCATTTGGGAGAGCAGACCAGAGAACACAGCGATACCGATATCCTGATCCATCGCGAAGAGCAGGCCGATGTTTACGCCGCCTTAGCCAAAGCTTGGACGCTGTACAAAGCCGATCAAGGAAACTTGTCGTTATGGGAAGAAGGCGAGTATCTGCATTCCGTCGGGGACGTATGGGTCAGCAGGAATGACAAAGCTCCATTTGCATTCCAGCTCATGTTGACGGAAACCGAACAGGATTGCTGGGTCTATCACCGGCAACCGTCGATCCGAAGACCGCTTCGCGCGATATCTTGTTGA	MRTDYDHWEPVSVSEAAGIFAKIPVHWYIAGGWALDLHLGEQTREHSDTDILIHREEQADVYAALAKAWTLYKADQGNLSLWEEGEYLHSVGDVWVSRNDKAPFAFQLMLTETEQDCWVYHRQPSIRRPLRAISC				NA	NA	NA	NA	NA
AK002_05557	213			hypothetical protein	TTGAAGACAGACCAAGGAATCCCCTACCTGAAGCCGGAAATACAACTCCTGTGTAAAGGAGGCAGCAGGAACATCCGCGATAAAGACGAGCGGGATTTCAGGACGGTCCTCCCCACCCTGGACCATGGGGCTGTTGAGTGGCTGGCCCAATCGCTCCGCACGCAATTTCCGGAAGGTCATCCCTGGATCGACTACATCGAATCAACGGGGTAA	MKTDQGIPYLKPEIQLLCKGGSRNIRDKDERDFRTVLPTLDHGAVEWLAQSLRTQFPEGHPWIDYIESTG				NA	NA	NA	NA	NA
AK002_05558	1293		COG2873	O-acetyl-L-homoserine sulfhydrylase	ATGTCAGAAGAACGCCAATTTTCCATTGAAACGCTAGCGGTTCACGCCGGTCAGGAGCTTGACCCGACCACATTATCCCGCGCGGTCCCTCTTTACCAGACCACTTCCTACGGGTTTAAAGACAGCGAGCACGCAGCTAATCTGTTTGCGCTTAAAGAATTCGGCAACATCTATACGCGCATCATGAACCCGACCACGGATGTATTCGAGAAACGGATTGCAGCGCTTGAAGGCGGGGCCGGAGCGCTGGCGACATCTTCCGGGCAGGCAGCCATCACCTTCTCCATTCTGAACATTGCGGGTGCAGGTGATGAAATCGTTTCCTCCTCGAGTTTGTATGGCGGCACTTATAATTTATTTTCCAATACGCTGGCGAAGCTGGGCATCAAGGTCCATTTCGTGGATTCCACGGATCCGGAGAATTTCCGCCAAGCGATCAACGGCAAGACGAAGGCGCTGTTCGCCGAAACGATCGGCAACCCGCAGGGGAATGTGCTGGACGTGGAAGCCGTTGCTGCCATCGCGCATGAGAACGGCATTCCGCTGATCGTCGACAATACGTTCCCTAGCCCGTATCTGCTGCGCCCGATTGAATATGGAGCGGATATCGTCGTTCATTCCGCGACCAAATTCATCGGCGGCCACGGCACTTCCATCGGCGGGGTCATTGTCGATAGCGGTAAATTCGATTGGACCGCTAATGACAAGTTCCCAGGATTGACGCAGCCGGATCCAAGCTATCATGGCGTCGTGTATACAGAGGCCGTAGGCCCGATCGCCTACATTATCAAAGCGCGTGTGCAGCTGCTGCGGGATATCGGCGCGTCGCTGTCCCCGTTCAATTCCTGGCTGCTTCTTCAAGGGCTGGAAACGCTGCATCTCCGGGTGGAGCGCCATAGCGAGAATGCGCTGAAGGTTGCCAAGTATCTGGAGAATCACGAAGCCGTGGAATGGGTCAGCTATGCAGGGCTGCCGAGCCACCCTTCGTATGAGCTGGCGCAAAAGTACCTGCCGAAGGGCCAAGGCGCCATTCTGACCTTCGGCATTAAAGGCGGGGCAGCAGCAGGGCAGAAGGTGATCGAGAATGTGAAGCTGTTCTCACACCTTGCCAATGTTGGCGATTCCAAGTCGCTTATCATCCATCCGGCCAGCACGACGCATCAGCAGCTGTCCGAAGACGAGCAGCTTACAGCAGGCGTCAATCCGGAACTGCTGCGTCTGTCGATCGGGACCGAGTCCATCGACGATATTTTGTACGATCTGGAACAAGCGATTGCGGCCAGCCAGAAGTAA	MSEERQFSIETLAVHAGQELDPTTLSRAVPLYQTTSYGFKDSEHAANLFALKEFGNIYTRIMNPTTDVFEKRIAALEGGAGALATSSGQAAITFSILNIAGAGDEIVSSSSLYGGTYNLFSNTLAKLGIKVHFVDSTDPENFRQAINGKTKALFAETIGNPQGNVLDVEAVAAIAHENGIPLIVDNTFPSPYLLRPIEYGADIVVHSATKFIGGHGTSIGGVIVDSGKFDWTANDKFPGLTQPDPSYHGVVYTEAVGPIAYIIKARVQLLRDIGASLSPFNSWLLLQGLETLHLRVERHSENALKVAKYLENHEAVEWVSYAGLPSHPSYELAQKYLPKGQGAILTFGIKGGAAAGQKVIENVKLFSHLANVGDSKSLIIHPASTTHQQLSEDEQLTAGVNPELLRLSIGTESIDDILYDLEQAIAASQK	PGPT0001995_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
AK002_05559	117			hypothetical protein	ATGAAGGGGTTTTCAAATCTCATGCAGAATAAAATATTATATTCCGATGAAATTAGTTGGGTATTACTCTTTTCAAACGAAGGAAAGTATGAGAGAATGGGAGAAATTATGAAATGA	MKGFSNLMQNKILYSDEISWVLLFSNEGKYERMGEIMK				NA	NA	NA	NA	NA
AK002_05560	828	golD		NAD-dependent glycerol dehydrogenase	ATGGGAACCGTAAGTAAACAGGGAACGGAGAAGGTGGCACTGGTAACGGGCGCTGGCGCGGGAATCGGACGAGGCATTGCCAAGGTGCTGGCTGAAAAAGGCTACCGGCTGGCGATGACCTACAATTCGAGCAAAGAAGGAATCGTGGATGTAGCGGAGGACATCGGCCATACCTACGGCAAGGAGCCGCTTATTATTCAGAGCGATTTGACCGTTCGCAGCGAAGCGGAGAATACGATACGAAAGACGCTGGAAGAATTCGGCCGGATCGATTTGCTGGTGAACAATGCCGGTATCGGTCTATACGACGAGTTGACGGAGCTAGAAGAGGATGCGCTGGACATGACGATGCATCTAGATTTCCGGGCGCCGATGCTGCTCAGCAAATATGCGGTTCGGGAGATGATCGCCCAAGGAATTCCGGGAAACGTCATTTTCATTACGTCCTCCCGGGGAGAGAGGGCCTATCCGAAGGACAGCATCTACGGCGGCATGAAGGCGGCGCTGATCCGCGCGGCGCAATCGCTGGCGCTGGAATGGGCGCCGCATGGCATCCGGGTGAACTGCGTCGCTCCGGGTGCGACGGTTCACAAGCCGGAGCAATCGGCGGAGGAAGAGCCGCTTGGCAGCAAAATCCCGCTGGGGCGATTGGGGACGCCTTCGGACATCGGGGAAGCCATCGCTTGGCTGTGCTCGGATGCGGCTTCCTACATTACCGGCGTTAACCTTCGTATTGACGGCGGCCTGATCTTGCCGGGCATGCCCGAGGATACGTCCCCCGAAGCCGGTTATGGGTGGGGTAAAGTTTATCGAGAGGAGAAGGAATGA	MGTVSKQGTEKVALVTGAGAGIGRGIAKVLAEKGYRLAMTYNSSKEGIVDVAEDIGHTYGKEPLIIQSDLTVRSEAENTIRKTLEEFGRIDLLVNNAGIGLYDELTELEEDALDMTMHLDFRAPMLLSKYAVREMIAQGIPGNVIFITSSRGERAYPKDSIYGGMKAALIRAAQSLALEWAPHGIRVNCVAPGATVHKPEQSAEEEPLGSKIPLGRLGTPSDIGEAIAWLCSDAASYITGVNLRIDGGLILPGMPEDTSPEAGYGWGKVYREEKE	PGPT0014705_90	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
AK002_05561	270			hypothetical protein	ATGAGTTCTGAGATGTGGATGATTGCGAGCGTTCTGGTCGCCGCATTCCTGATCATGATTCCCGTACAGTACCGGTATATTGCAGCGTTAAAGGAAGATCCCCGAAGGCGGGGGGGGGCGATCAGGAAACGTATTACAACAACATGTCGTTTCAAGAAGAACAGCTCCACTACAATACGCAAGTCTTGTTTTTGCCTTCCACCATGGTTGCTTCGTGGATTTATAATTGGAGGCATAAGAGCGGAAAAACGACCAGGTAGACGGCTTTAA	MSSEMWMIASVLVAAFLIMIPVQYRYIAALKEDPRRRGGAIRKRITTTCRFKKNSSTTIRKSCFCLPPWLLRGFIIGGIRAEKRPGRRL				NA	NA	NA	NA	NA
AK002_05562	858	btuD_14		Vitamin B12 import ATP-binding protein BtuD	ATGATTAGACTGGAAGGACTGGAACGGCAGGCAGGCACGTACCGGCTTGAAATCGAGAAAGCTGAGATTCAATCCGGCCTGAACCTTATCGTGGGGGCGAACGGCGCCGGAAAAACAACCCTGATCGAGCTGCTGACCACGCTGCAGGCGCCCGATGCAGGCGATATACTGTACAGCGGGCGCAGGGCAGGGGATCATTTGCCGCTGATCCGCAGTCAAATCGGGTATGTTCCGGCGGATATCGAGCTGTATGGGGATATGAAGGTCGGCAAGCTGCTGACCTATATGGCCGAATTGAAGGGCGTGTTTAATCCGGAGGCTATTGACAGGCTGATGGCGGACTTTCGGCTGGAGCCTTTCCGCAAGAGCAAGGTCAAGAATTTGTCGCAAGGGGTGCAGCGGCGCATTGCCGTCGTACAAGCGCTGTTAGCCTCACCGTCCTTTCTGTTCTTGGATGAGCCTTTGAACGGCATGGACGCGGAGGAGCGCAAATTTCTCATCACATATCTGACCAAATATGCCAGGGGCCGTATGGTGATCGTTGCGGCCCACGAGCTGAACGAATGGGAAGAGGCGGCGGATACCGTCATCTGGATACACCGCGGCCGCCTCCGGTATATCGGTTCGCCGACCCAATGGAAGCTGAATGTGGCCTCCAGCGTCTGGGAAGGCGAGATCGATTTGGAGGACTTTGAGCGGATACCGCAGGAGCTGCTGATTCACTTTCAAATGACGGAGCATCGGATGAGAGTCAGGCTGATGGGGAAAAAGCAGCCGGGTCCCGAGTTCATGGAGAAGGCGCCTACCTTAGAGGACACCTTTTTCCTACATATGAACGCATTAGCCAGACGCGGCTGA	MIRLEGLERQAGTYRLEIEKAEIQSGLNLIVGANGAGKTTLIELLTTLQAPDAGDILYSGRRAGDHLPLIRSQIGYVPADIELYGDMKVGKLLTYMAELKGVFNPEAIDRLMADFRLEPFRKSKVKNLSQGVQRRIAVVQALLASPSFLFLDEPLNGMDAEERKFLITYLTKYARGRMVIVAAHELNEWEEAADTVIWIHRGRLRYIGSPTQWKLNVASSVWEGEIDLEDFERIPQELLIHFQMTEHRMRVRLMGKKQPGPEFMEKAPTLEDTFFLHMNALARRG	PGPT0006725_19311	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05563	843			hypothetical protein	ATGGATCATCCATTCGATAATGAATTGAGAAGACTTGAAGACGAGCTTCGCGGCCCGCTCAGACGCGCGGCTCTTCCGTCGCCGACACCGGATGAGACGGCCCGGCTCATCGCGTCCCTTCAGGGGGAGTTCAATCAGCTCCGGATTGACCCCGAGTCTCCCAAGCTGGATTTTAATCCGCAGGTCGACCCGCCCTCATTGAAACAGATCCTTCGGAGCCAGATTCGATTGAATCAAAGATCCATTCTGCTCACGGCAGGCGCGGTATTCTGCATGCTGGTCATGCTGATCGATCCGGAATATCCGCTTGATCAATTTGCCGGCTTGCCCGGCGGCATTTTTCCATTGATTACCCCTCTGCTGCTGATCGTATCGATGCTGTTCAGCAGTCGAACCTGGGATAAAGGGATGCGGGCCGTGGAGACGCTGACCCCTTACCCGCCGGCACTGGTCTTGTATACCCGCCTGCTTCTCGTGACGGGCATCGTCGTCGGAATGGCCTTGCTCAGTACCCTTGCGCTCGGGCTTCGATCCATCCAAGCAGAATCCTCCCGCTTTTTATTCGGGCCCTTTATTCTGGAGTGGATGGGCATTCTGCTGGTGACAGGAGGGGCCGCGATGTATATGCTGTTTCGCAAAGGCATGGTCTATTCGCTGATCTCGGCGGTGTTGGTGTACGGCATGTGGATCGTGATACAGGGCCAGATCGTGGACCACGGCGTTTCCATGAGCGGCAAAATGCTGACAGACATGTCCCTGCTTGTGATCGGCTTGATTCTGCTGATTTCTTCCTACGGACGAAGCTTGAAGCTGAACGGAGCCTGGAGATTGGCGAATGATTAG	MDHPFDNELRRLEDELRGPLRRAALPSPTPDETARLIASLQGEFNQLRIDPESPKLDFNPQVDPPSLKQILRSQIRLNQRSILLTAGAVFCMLVMLIDPEYPLDQFAGLPGGIFPLITPLLLIVSMLFSSRTWDKGMRAVETLTPYPPALVLYTRLLLVTGIVVGMALLSTLALGLRSIQAESSRFLFGPFILEWMGILLVTGGAAMYMLFRKGMVYSLISAVLVYGMWIVIQGQIVDHGVSMSGKMLTDMSLLVIGLILLISSYGRSLKLNGAWRLAND				NA	NA	NA	NA	NA
AK002_05564	690			hypothetical protein	ATGATTTCCGATCAGCAGCTGTCCGAACGCATGGCTGCCGGCGACCAGGAAGCGTTTGAAATGCTGGTGACGAGGTACCATGGTCCGCTGCTCAGTTATACGACCCAGAGGCTGGCCGACAGGCAAAAGGCCCAGGATATCGTTCAGGAAACCTTTATCCGGCTCATACGGCATCTGAAGCAGCACGGGACGCTCGAGCATGTTCGCTCCTGGCTGTACCGCGTCGCTCTAAATATGTGCAAGGATTATTGGAAAAGCGCATCCTACAGGTCCGAAGGTCTTGCGGGTGAGGAGATGCCGGATGCATACGACCCTGAACCGGGCGCGGAGGAGCTTGTGGAAAGGCAGGAAACTTCCCTCGAAATTGCGGCGTCGCTCGAGACCTTGCCCGATATACAACAGGAAGTCATATCGCTTCGGTTCTTTCATGACCTGAAGCTGCAGGAAATCGCCGACCTGGTCGACCTCCCCTTGAGTACGGTCAAAACGCATTTATATAACGGCTTGAGAAAGCTGAAGAAAACATTGTCCATGGAGCATTCCGATTTGGTTCCCGTCCATTCGTCCCGAAGGACGCGGGAGAAGAGTCCTCAGGAACAGGTACGGAACCGCTCCAAGTCGGAAGAATCTGATTCGCAGAGCAAAGTAAAAGAAAGTGAGGTGTATCTCCATGGATCATCCATTCGATAA	MISDQQLSERMAAGDQEAFEMLVTRYHGPLLSYTTQRLADRQKAQDIVQETFIRLIRHLKQHGTLEHVRSWLYRVALNMCKDYWKSASYRSEGLAGEEMPDAYDPEPGAEELVERQETSLEIAASLETLPDIQQEVISLRFFHDLKLQEIADLVDLPLSTVKTHLYNGLRKLKKTLSMEHSDLVPVHSSRRTREKSPQEQVRNRSKSEESDSQSKVKESEVYLHGSSIR				NA	NA	NA	NA	NA
AK002_05565	2202			hypothetical protein	ATGCATAAGTGGTGGAGGCATAGTCTGCTGGAGCTGCGGCTTTTGTTCGGCAATCCCTTGTTTGCCTCGCTTCCGGTCCTCTACGCGATTCTGTTCATCGTCATCATGCTGCAGGCGGCAAGCGGAAACGGACCGAATCATAACTTGTACTCGGCTGCGTATTCCTTTCACATGCTGGGTCATACGATGACGCTGGGTACGGCGATGTTAATCGGCATCTTGTCCATCCGGCGGGATGTCCGCCGTCGGTCGTTTGAATGGAACCACAGCCTGCCTGTGTCCTTCTTCACCCTGCTGTCGTCGAAATATGCGGTCAGCTTGCTGTACTTTTCCCTGTTTACCCTCTCGACGTCGGTTATATTCTATATCCTGTCGGTCAGCCAGGGGATAGCCGGTGATATCGCGATGGTGCATACGATGCAATTCGCGGTGCAGTATGAGGTTTCCTATATGGTGACGCTCGCGCTAGCGATGCTCCTCGGGGCAAGCATACCGAATCGGATCGTGTATTTGATCGGTTTCTGTGCATGGATGTTTGGAACGTTTTTTATGGAAATTTACTTCATCAGCGAATTAAGATGGATGCCGGCCCAAGTGTTTCACCTTAACCAATTCTTCCTTCAATCCAATCGGTTTGAATATGAGAATTGGGGGTACGGCCTACTATCCAAGGATATCCAGCTGTCCCGTTGGTTCGTGCTGGCCTTCACGTTCCTGCTGCTGACGGTGTGTTTGTTCTTGTTAAACTCGAAGCGCCCCACGATGCTGAAAAAGGCAGGGTGGCTGGGCGTGCTGGGGGCTGTCGTGTTGACGGCAGCCGCCGCCGTGCCCTACGGCACGCTTTGGGCGGAACGGTATGCCCAAATTGATGCGAAGCTGGGAGACCCGACGATTTCTTATGTCGATGATCCTGAAAATATTGCCTTCTATCATGTGTCTTCCTATGACATCAAGCTGAAACGGCTGCCAAACGACGAGCTTCGCGTGACGGCGAAGCTAACGATACCATCCTCCGAAATATCGGGCATGAGGCAGCTGCCGTTAACCTTGAACCGAATGTTCAAGCTTGAACGTGTCCAACTCCAGGGCATCGATGCTGCTTATCGCAGACAGGGAGAGCGGATATCGATCAGGATGGTTGGCGATGCCAAGGGAGGGGACCTTCAAGCCGAGCTGGAATATAGGGGCAAGGTGATGGATTTTATGGCCGGGTACTCCAATGAAGAATTTGCGGCCTATAGCGTGGGGCCTGAAGTTAAACTGGAGGGACATATGGCCTGGTATCCGCTTCCGGGTCATCAGGAGGTATATTTAAAGAGTGATAATGGAGACCTTACGTCAAAATATGTTTATCTGGGCTGGCAATACGGCAAGCTGCGCTACTCTGTAGGAGAGATGAAGCTGGTGGTGGAGGGTTATCCGCAACCCTTGTATACAGGAATGAAAGAGCTGGAGCGGAAGCCGGGCTACCAGCGGTTTGAGGACAGGGAGATCGACCAGAATATCTCTCTGTACGGGGGACAATTTTGGAAGGAAATCCACCAGAACGATCTCCCGGTTACCATCGTGACAACGCCTTATCTGGAGAAGGCATCTGTGTCGCTGCTGAGGGATATGAAAAAGAAATATGACTATTTTTCCGAATGGATACCCGAGTTCAACAGCAGGGTCGAGAAGATCTTGTATTTGGGTCAAGGTTTTGATTACCCTCAGGTGAATCATCGCCTGATTCTGTCCTCGAACCACTACACCTATAACTTCGCTAACTTGCCCGGCGAATGGATGAACTCGATTCTGTTCGGCAACCAGGGTGCGTTCCATTATAATTTTGAGCATCCGGAACGAGACGTGCGCGGGAAGATCAGCAGTCTTTTCTGGTATGTGTATTACGTGGAGGAGAAAGGGCTTAGCGATAAACAATTAAGATCGGCTTACGGAAATCTCCGGTCGGTACAGCAGCTGCTGTTCAAAAACGGAAGCGGGGAGGATCCCCAAAACCAAATAGGCATAAGTATGGCCAGACAGGTTAGAAAGGCGCTGGAGGAAGGTAGAGGGAATCAGGTCAAAGAGCTGCTGGTGCAGTTTTATGGGCAGGGGCTGATGCTTCCCGACACCGAACGCAACCCGGCCTTACGACCGGAGAACCCGATCACGTACAAAGAGTGGCAGCAGGAGTGGGATGCCGTGATGAATGTCAAATAA	MHKWWRHSLLELRLLFGNPLFASLPVLYAILFIVIMLQAASGNGPNHNLYSAAYSFHMLGHTMTLGTAMLIGILSIRRDVRRRSFEWNHSLPVSFFTLLSSKYAVSLLYFSLFTLSTSVIFYILSVSQGIAGDIAMVHTMQFAVQYEVSYMVTLALAMLLGASIPNRIVYLIGFCAWMFGTFFMEIYFISELRWMPAQVFHLNQFFLQSNRFEYENWGYGLLSKDIQLSRWFVLAFTFLLLTVCLFLLNSKRPTMLKKAGWLGVLGAVVLTAAAAVPYGTLWAERYAQIDAKLGDPTISYVDDPENIAFYHVSSYDIKLKRLPNDELRVTAKLTIPSSEISGMRQLPLTLNRMFKLERVQLQGIDAAYRRQGERISIRMVGDAKGGDLQAELEYRGKVMDFMAGYSNEEFAAYSVGPEVKLEGHMAWYPLPGHQEVYLKSDNGDLTSKYVYLGWQYGKLRYSVGEMKLVVEGYPQPLYTGMKELERKPGYQRFEDREIDQNISLYGGQFWKEIHQNDLPVTIVTTPYLEKASVSLLRDMKKKYDYFSEWIPEFNSRVEKILYLGQGFDYPQVNHRLILSSNHYTYNFANLPGEWMNSILFGNQGAFHYNFEHPERDVRGKISSLFWYVYYVEEKGLSDKQLRSAYGNLRSVQQLLFKNGSGEDPQNQIGISMARQVRKALEEGRGNQVKELLVQFYGQGLMLPDTERNPALRPENPITYKEWQQEWDAVMNVK				NA	NA	NA	NA	NA
AK002_05566	870	btuD_15		Vitamin B12 import ATP-binding protein BtuD	ATGATTACCATTGAGCATCTATCAAAAACCTATCGCAAGGGCGCTTGGGCGCTCTTGGATGTTTCATTACAATTGGATAAAGGCATGACGGGTCTGCTTGGACCCAATGGCGCCGGAAAAACAACCTTAATGCGCATCCTGGCAACCTTATTGACGCCGACCTCCGGGCAGGTGAGGGTGAACGGAATATCCCTTGGACGGCCGGAGGAGATTCGGCAGATGATCGGTTATTTGCCGCAGCATTTTCACATTTATCCGCAGCTGACCGGCAGAGATTATCTGGATTATGTGGCGGCCATGAAGGGGATCACGGACCGGAGCGCTAGGTTGAAGGAGATCTCCAGGCTGCTTGAGATGGTCAATCTTCAGGAGAAGGCGGACAAAAAAGTGCGTACGTACTCGGGGGGCATGAAGCAAAGATTGGGCATTGCCCAAGCGCTGCTCGGTTCCCCGGATATTTTGATCGTAGACGAGCCGACGTCGGGGCTGGATCCCCAGGAGCGTGTCCGGTTCCGGAATGTGTTAACCCGTTTCAGCATCGACCGGACGGTCCTGTTGTCCACTCATATCGTAGCGGATATCGAGAGCAACTGCCGCCGCATCGCCGTAATGAACAAGGGGAGATTGGCCATGAACGGCAGCCTGGCCGAACTGCAGGCCTGCGGAAAGGGACAAGTGTGGGAAGCGGTGATGGGGCATGAGGAATTTGCCTTGATGGATCCCATGTCCGTCGTGTCCACTCGAACGGTACCGGAAGGCGTGCTTTGCCGGTTTATCAGTGCAGCGGCCCCAGTGACCGGCGCGTTTCCGGCGGATCCGACCCTGGAGGACGGCTATCTGGCTCTGCTGCGGAGGGATCGCCATGCATAA	MITIEHLSKTYRKGAWALLDVSLQLDKGMTGLLGPNGAGKTTLMRILATLLTPTSGQVRVNGISLGRPEEIRQMIGYLPQHFHIYPQLTGRDYLDYVAAMKGITDRSARLKEISRLLEMVNLQEKADKKVRTYSGGMKQRLGIAQALLGSPDILIVDEPTSGLDPQERVRFRNVLTRFSIDRTVLLSTHIVADIESNCRRIAVMNKGRLAMNGSLAELQACGKGQVWEAVMGHEEFALMDPMSVVSTRTVPEGVLCRFISAAAPVTGAFPADPTLEDGYLALLRRDRHA	PGPT0006725_18666	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05567	906	iolS_4	COG0667	Aldo-keto reductase IolS	ATGAAAACCAATCGGCTGGGCTCTTCGGAATTGTATGTAAGCGAAATCGGGCTGGGCTGCATGTCGCTGGGTACGGACGAAGGACAAGCGGTGAAGCTTATTCATGAAGCGTTGGATCGAGGCGTGAATTTTCTGGATACGGCGGACCTATACGATGAAGGCCGCAACGAGGAACTGGTTGGCAAAGCGGTTCAGGGCCGACGTGAGGACGTCATCATCGCCACCAAAGTGGGCAACCGCCGCGTGCCGGGACAGGAGGGCTGGGTATGGGATCCTTCGAAGGACTACATCAAATCAGCCGTTAAGGACAGTCTGCGCAGGCTGGGTACGGATTATATCGATCTGTACCAGCTTCACGGGGGGACGCTGGATGATCCGATCGAAGAGACGATTGAAGCTTTTGAAGAATTGAAGCGGGAAGGGTGGATTCGATATTACGGCATATCGTCCATCCGGCCGAACGTCATCCGCGAGTATGTCGCGAAATCCCACATCGTCAGCGTCATGAGCCAGTACAGCATCCTGGACCGGAGACCGGAGGAAACGGTCCTTGATCTGCTTGAGGAGAACGGAATATCCGCGATTGCCCGGGGTCCCGTTGCCCGCGGCATCTTGTCGGACCGAGGACAAGCCAAAGCCGAGAAGGGATACCTGGATTACAGCAAACAAGAGCTGCTTGACGTGCTCAAGAAGCTTGAAACGTTTGGAAGAGGCCGGGATTTGTCCCAACTGGCGATTCGTTATGCTTTGGCCCATGCCGCTGTTGCCTGCACCATTCCCGGGGCAAGCTCGCTTGAGCAGCTGCTGCATAACCTGGCTGCGGGGGATTTGGAAGCTTTATCGCCTCAGGACATCCAATCGATCCAGGCGATCAGCCGCGCCAACCAATATGAGGCACATCGGTAA	MKTNRLGSSELYVSEIGLGCMSLGTDEGQAVKLIHEALDRGVNFLDTADLYDEGRNEELVGKAVQGRREDVIIATKVGNRRVPGQEGWVWDPSKDYIKSAVKDSLRRLGTDYIDLYQLHGGTLDDPIEETIEAFEELKREGWIRYYGISSIRPNVIREYVAKSHIVSVMSQYSILDRRPEETVLDLLEENGISAIARGPVARGILSDRGQAKAEKGYLDYSKQELLDVLKKLETFGRGRDLSQLAIRYALAHAAVACTIPGASSLEQLLHNLAAGDLEALSPQDIQSIQAISRANQYEAHR	PGPT0017540_1450	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
AK002_05568	795			hypothetical protein	TTGATAGTGCAACTTGTAGTCATGGTCTTTATAGGTATCATCGGTTCTTTTTTCTCAGGGTTGCTGGGAATAGGCGGGGCGATCATTAATTTCCCCTTGCTTCTATATGTACCTTCCTGGTTTGGACTGGAGGCCTTCACCTCCAAGGAGGTCGCATCCATCAGTATGCTGCAGGTATTTTTTGCTTCCTTGTCAGGCATGCTAACCAATCGGATGAGTTCGCGCGGCGGTGAGTCGTACGTTCACAAGCGATTGGTCATCCAGATGGGGGCCAGTACCTTGATTGGCAGTCTGATCGGGAGCCTTTCCTCGATGCTTATGACGAGCGGAACGATTAACGTGATTTATGGATTTCTGGCGGTGATCGCGGTGTTATTGATGATCGTGCCGACCCGGGCATCCATGGAGAACAGATCGGTGAGCGAGGTGACTTACCATGAATGGATTGCGATGGGAGCGGCCTTTATTGTCGGCGGCATTGCCGGAATCGTCGGGGCCGGCGGCGCCTTTATCCTGATCCCCATTATGCTGACGGTTCTTAAGATCCCGACGCGGATCACCATCGCATCCTCGCTCGCGATCGTCTTTCTGTCCGCGGTCGGGGGCGTTATCGGCAAAATCGCCTCGGGCGACATTCCGATTTGGCCGTCCCTGTTTGCCGTTGCCGGAAGCTTGATGGGTGCCCCCATCGGCGCGATTATCAGCCGCAAGATGAACGTCCGCCTGCTGCGGTACGCCTTGGCTCTTCTCATTGCGGTGACGGCGGTCAAGATCTGGATCGATATTTTAGGGTAA	MIVQLVVMVFIGIIGSFFSGLLGIGGAIINFPLLLYVPSWFGLEAFTSKEVASISMLQVFFASLSGMLTNRMSSRGGESYVHKRLVIQMGASTLIGSLIGSLSSMLMTSGTINVIYGFLAVIAVLLMIVPTRASMENRSVSEVTYHEWIAMGAAFIVGGIAGIVGAGGAFILIPIMLTVLKIPTRITIASSLAIVFLSAVGGVIGKIASGDIPIWPSLFAVAGSLMGAPIGAIISRKMNVRLLRYALALLIAVTAVKIWIDILG				NA	NA	NA	NA	NA
AK002_05569	186			hypothetical protein	ATGTTGAATAAGCTGAAATCTCTATTCCAGGACCGATGCCCCGACTGCGAGCAGAAGCTGATCTCCAGGCAAGAAGACATGGCAACGATCAAGCACTGCCCGGATCATCACTACACCGAAGAAATATATAACCAGTTGGGCGTTACGATCGTGTATCATCCCAGCAAAGACAATGGTTCAACATGA	MLNKLKSLFQDRCPDCEQKLISRQEDMATIKHCPDHHYTEEIYNQLGVTIVYHPSKDNGST				NA	NA	NA	NA	NA
AK002_05570	555			hypothetical protein	ATGACTAGGGCTTACGGGCGTATGGGCTGGGGCCTGTTGTTTGTAATTGTCGACTTTAAGCTGGACTCGGTGGATATGTTGCCCGATATGCTCGGGTACCTGCTGATCGCTTCGGGACTATGGCGGCTCCAGAAGTTGAACGGATATTTTAAGGCAGGGCATCTGTCGGCTTGGCTGCTGATGGCCTGGTCGGTGTTACAATTGTTTTGGTTTACCGAAGCGGGGATAGACGGCTTACCCGTGCAATCCGCGAAGGATGTATGGATCCAGCTGCCTGCCCTCTGCTTGCATACCGTATTGATTTACGGAATTTGCAGAGGCATCCAGGCGCATTTCGCGGGTAACGCGTCCGGACTGGATCACAAGGCAAGCTTCCGGCTGCACTTATTTATGGCGGGACAGTTCCTGTGGCTGATCGTGTACCCATTCATTTTAAATCTGGATTCGGGCGATATGTTCCTTGTGTTCTTTCTGTGCTCGCTCATCGTAATGGCGGCCGAGATCGCGGTTCTGCTCCTGGTCAGGCTTGCCGTACGGAAATCGACCGAGATCTAG	MTRAYGRMGWGLLFVIVDFKLDSVDMLPDMLGYLLIASGLWRLQKLNGYFKAGHLSAWLLMAWSVLQLFWFTEAGIDGLPVQSAKDVWIQLPALCLHTVLIYGICRGIQAHFAGNASGLDHKASFRLHLFMAGQFLWLIVYPFILNLDSGDMFLVFFLCSLIVMAAEIAVLLLVRLAVRKSTEI				NA	NA	NA	NA	NA
AK002_05571	903			hypothetical protein	ATGAGCAAGAAATGGTATTACGTACTCGCCATCCTGCTCGCAGCCTGCAGCTGGATCGGGAATGTCTGGTATTACGAAGCCAACCAACTGGGAAGAACGGTATTCCTCGAGCATCATGTGGAGACAAGGGAAGGGGGAGGCCGCGTATTCGACTTGTATTATGTGGAGGACAAACAAGCAGATAAGAGGTTGAGCTCCATCCGGATCGAAGGTTACCCTGGACAGATCGTGACGCCCTATCCCCGATATGCGGAGTATCAGAGGCAGTACTTAGGAAAAATGATGGTGAACTTAAATGCCCCTGAGAAAAAAGGGACAGGAGAGAAGCTGGAGGAGCCGATTCTTATTCGGGAAGTTACCGCGCTTTATTCCGACGGAAGCTCGGAGCAAGTGAATGTCGGGGAAATATACGTTTGGCCCGGCGTATATCATCAGGAAGATCAAGATCCGATATCGTGGACATCCGGCGGATCTTCCTCCGATCATTCGGGATACGACTCCGCTGTTGTGAAGCGTCCGGTACAGTTAACGGCGTTCTCCTCGAAACTGCTGGATATCGCTCTAGAGGGGCATCTCCGAATCTATGCCGACATTTCAAGTCAAATACCAGGTACCAGCTACCGGTCGCAGCCTTCGGAAGCGCACATCGAGTTAAGAGGCGAGCTCATCGATGAGATTCAGCTTCCACTTAACATTCATAAAGGGGATTCCATTCGAATCAGCCACCAATTTGATATGCCGTCGCTTGAGAAGAGCATGCAGGTTTACCAACTCCTATTGAAAACAACCTTTATGGAGGAAAGCGGTCGCCAGTGGCATGGAGAATCGGTAATTCCCTATCACCCGAGACCGACGGATCAAGAATTGTCGGAATTTGTCCGGGATAGCAGGAGGACACCATGA	MSKKWYYVLAILLAACSWIGNVWYYEANQLGRTVFLEHHVETREGGGRVFDLYYVEDKQADKRLSSIRIEGYPGQIVTPYPRYAEYQRQYLGKMMVNLNAPEKKGTGEKLEEPILIREVTALYSDGSSEQVNVGEIYVWPGVYHQEDQDPISWTSGGSSSDHSGYDSAVVKRPVQLTAFSSKLLDIALEGHLRIYADISSQIPGTSYRSQPSEAHIELRGELIDEIQLPLNIHKGDSIRISHQFDMPSLEKSMQVYQLLLKTTFMEESGRQWHGESVIPYHPRPTDQELSEFVRDSRRTP				NA	NA	NA	NA	NA
AK002_05572	342			hypothetical protein	ATGATGAATCCATCGATCGAAGAGGTTACGAACTGGCTTCAATCCAATAGCAACCGCACGCTGCACATATCCAAGCAAGAAGAGAAGGATCAAGACCAGATTGAATTACGGCTGGAACGATTTGAACATCAGCAGCAGCAAGCGCAGTCCATCGACGGGTATGGAGATCGCCACGCTCTTCTGCTGCACGGCCCCGGCGTGGTCATTACGGCAGGCCACAAAGCCCCGCTGCCAAGCAATGCCTTCGTCATCGGGCTGGACGGGTTGACGGCCGCGGAGATTCAAGACCGTCAAGTGGTGCTCACAACGGAACGGGGTATTTATTCCATCACGGCGACCTGA	MMNPSIEEVTNWLQSNSNRTLHISKQEEKDQDQIELRLERFEHQQQQAQSIDGYGDRHALLLHGPGVVITAGHKAPLPSNAFVIGLDGLTAAEIQDRQVVLTTERGIYSITAT				NA	NA	NA	NA	NA
AK002_05573	2190	agaA_3		Alpha-galactosidase AgaA	GTGAGTATACATTTCCATGAAGATCTGGGGATATTCCATCTCCAGAGCGATCGGTCAAGTTATGTGATTGAGCTGGTGCGCGGCGTTTATCCGGCGCATGCCTATTGGGGACGCCGGATTCGCGATAACCGCGTCCTAGGATTACTGGAACGGAGGGGAAGAGCATCCTTTTCGCCGACGCCGTTTCGCGAGGATGCTTCCTTCTCCCTGGACAGTTTGCCTCAGGAATACCCGGGCTATGGCAGCGGCGATTTTCGGCAGCCTGCATATCAGGTACAGCTGGCTAACGGGACCACGGTCACCGAGGCCGAATATGTCCGTCACCGGATCTACAGCGGCAAGCCGAAGCTTGAGGGCTTGCCTGCCGTATACACGGAACAGGATGACGAGGCGGATACGCTGGAGCTGGAACTGTTTGATCGGGTAAGCGGTTTGACGATTTATTTGTCTTATACGGTCATGAAGGCGTTTGACGCTATTTCCCGCTCCGTATCCTTCCGCAACGACAGCAAGGAGAACATGACGCTGCTGCGTGCCATGAGCGCCAGCGTGGATATGGATCACAGCCGTTATGACCTGCTGCATCTCCATGGGGCATGGGCGAGAGAGCGCCATGTGCAGCGTAGAAGACTATCCCCGGGCATGCAGGGCATCGAGAGCCGCAGGGGGTCAAGCAGCCATAACCACAATCCGTTCCTAGCGCTGCTGTCCGAGGGGGCAGGCGAAGAGTTCGGCGAGGTGTACGGCTTCAGTCTGGTATACAGCGGCAGCTTCTCCGCGCAGGTCGAGGTAGACCAATACGATACGACCCGGGTCACGATGGGATTGAATCCGTTCGATTTCACGTGGCTGCTGGAGCCGGGACAGTCGTTCCAGACGCCGGAAGCGGTGATGGTCTTCTCGGCGGAGGGCCTCGGCGGCATGTCCAGACGCTATCATAAAATGTACCGCACAAGGCTGTGCCGGGGGCAATTCCGGGATGCCACGCGCCCGGTGCTGGTGAACAATTGGGAAGCAACCTACTTCAACTTCAATGCCGATAAAATCGAGCAGATTGCAAGCGCGGGACGGGATCTCGGCATCGAGCTGTTCGTGCTGGACGACGGATGGTTCGGCAAGCGCAACGACGATACGACTTCCCTCGGGGATTGGGTCGTTGACAAGAACAAGCTGCCCGACGGCCTCGAGGATCTCGTGAAGAGGGTCCGCGGTCTGGATATGCAGTTCGGCTTGTGGTTTGAGCCTGAAATGATATCGCCGGACAGCGATCTGTACCGTAAGCATCCCGACTGGTGCCTGCACGTGGAAGGACGCCGGCGGACGGAAGGGAGACAGCAGCTGATCCTGGACTTCTCCCGCGAGGAAGTAGGCGACGCGGTGGCCGATATGGTTCGCGGCATCCTGAGAAGCGCGCCGATCACCTACGTGAAATGGGACATGAACCGGAACATGACGGAGATCGGATCTGCTGCGCTGCCGCCTGAGCGCCAGCGGGAAACGGCCCATCGCTATATGCTCGGTCTGTACAGGGTGATGGAACAGCTGACGACGGAGTTCCCGCATATTTTGTTCGAGAGCTGCTCCGGGGGCGGCGGACGCTATGATCCGGGAATGCTGTATTACATGCCGCAGACGTGGACAAGCGATAACTCCGATGCCGTCAGCCGATTGAAGATCCAATACGGAACGAGCCTGGTTTATCCGCTTAGCTCCATGGGAGCGCATGTGTCCGCCGTTCCGAATCATCAGGTGCACCGGAATACTTCGCTGCGGACGAGAGGACACGCGGCAATGTCGGGCAATTTCGGTTATGAGCTGGACCTGACGGCCTTCAGCGAACAGGAGAAGGAGGAGGTCCGCGAGCAGGTAAAGCTGTACAAAGAGATTCGGCACCTCGTGCAGTTCGGGGATTTCTACCGCCTTCGGAACCCGTTCGAAGGGAATGAAGCGGCCTGGACGATCGTCTCCGAGGATCGCTCGGAAGCGGTGCTGTATTATTTCCGCATCTTAAGCGAGGCGAATGAGCCGATTCGGTGGCTGCGTACGATGGGGCTGGATCCGGAAGGGGATTACAAGTGCCTTGAGGACGGGAACATCTACGGCGGAGACCGGCTGATGAACGCCGGCTTGGCCGTTCCGCCGATGCACGGCGATTTCCAAAGCTTTATCTGGAGATTCGAACGGGTATAA	MSIHFHEDLGIFHLQSDRSSYVIELVRGVYPAHAYWGRRIRDNRVLGLLERRGRASFSPTPFREDASFSLDSLPQEYPGYGSGDFRQPAYQVQLANGTTVTEAEYVRHRIYSGKPKLEGLPAVYTEQDDEADTLELELFDRVSGLTIYLSYTVMKAFDAISRSVSFRNDSKENMTLLRAMSASVDMDHSRYDLLHLHGAWARERHVQRRRLSPGMQGIESRRGSSSHNHNPFLALLSEGAGEEFGEVYGFSLVYSGSFSAQVEVDQYDTTRVTMGLNPFDFTWLLEPGQSFQTPEAVMVFSAEGLGGMSRRYHKMYRTRLCRGQFRDATRPVLVNNWEATYFNFNADKIEQIASAGRDLGIELFVLDDGWFGKRNDDTTSLGDWVVDKNKLPDGLEDLVKRVRGLDMQFGLWFEPEMISPDSDLYRKHPDWCLHVEGRRRTEGRQQLILDFSREEVGDAVADMVRGILRSAPITYVKWDMNRNMTEIGSAALPPERQRETAHRYMLGLYRVMEQLTTEFPHILFESCSGGGGRYDPGMLYYMPQTWTSDNSDAVSRLKIQYGTSLVYPLSSMGAHVSAVPNHQVHRNTSLRTRGHAAMSGNFGYELDLTAFSEQEKEEVREQVKLYKEIRHLVQFGDFYRLRNPFEGNEAAWTIVSEDRSEAVLYYFRILSEANEPIRWLRTMGLDPEGDYKCLEDGNIYGGDRLMNAGLAVPPMHGDFQSFIWRFERV	PGPT0018835_831	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
AK002_05574	2043	bgaP_1		Beta-galactosidase BgaP	ATGATTAATCAACGTTTTCCTAAGATATGGTATGGCGGGGACTACAACCCCGAGCAATGGGACAAGGCAACGATGGAAGAGGACCTGCGGATGTTCGAGCTGGCGGGCGTCGACGTGGCGACCCTCAATGTATTCTCCTGGGCCAAAACGCAGCGCGATGAGGAAAGCTATGATTTTGCGTGGCTTGATGAAATTATGGATCGTCTGGCGGAGGAGCAGGTTCATGTCTGTTTGGCAACCAGCACGGGGGCACACCCTGCTTGGATGGCCAAGAAATACCCGGACATCCTGCGCGTCGATTACGATGGGCGCAAACGCAAATTCGGCGGCCGCCATAATTCATGTCCGAACAGCCCGACCTATCGCAAATATTCCGTGCTGATGGCGCGCAAGCTGGCTGAACGGTATAAGGATCATCCGGCGCTGGTCATCTGGCACGTCTCCAATGAGTATGGCGGGTATTGTTATTGCGACAACTGCGAGCGTCAGTTCCGCGTCTGGCTGAAAGAGCGTTACGGGTCGCTCGATAAGCTGAACGCCGCATGGAATACCGGGTTTTGGGGCCATACCTTTTACGAGTGGGACGAGATCGTGGTGCCGAATGCGCTCAGCGAGGAATTCGGCGGAAACCGGTCGTTCTTCCAGGGAATATCGCTGGATTACCGCCGTTTCCAGTCCGACAGCCTGCTGCAATGTTACCGGCTGGAAAGAGATGAGCTGAAGAAGGTCACGCCGGATATTCCGGTCACCACCAATCTGATGGGCTTTTATCCGGAGCTGGATTACTTCGAGTGGGCGAAGCATATGGATGTGGTGTCCTGGGACAACTATCCCGCGATCGATACGCCGGTGAGCTTTACGGCGATGTCGCATAACCTGATGCGCGGGTTGAGAAGCGGACAGCCGTTCATGCTGATGGAGCAGACCCCGAGCGTCCAGAACTGGTCGCCCTACAACTCCGCGAAGCGTCCCGGCGTCATGCGGCTGTGGAGTTATCAGGCCGTAGCGCACGGCGCGGATACGGTCATGTTCTTCCAGCTCCGCCGTTCCGTGGGGGCGTGCGAGAAATTCCACGGCGCATTGATTGAGCATGTCGGACATGAGCATACCCGGGTCTTCCGGGAGTGCGCGGAGCTGGGGCAAGAGCTGCAGCAGCTCGGAGACAAGCTGCTCGACTCCCGTTCGGACGCCAAGGTGGCGATCATGTACGACTGGGAGAACCGCTGGGCGCTGGAGCTGTCAAGCGGACCTTCCAAAGCCCTGAACTACGTGGATGAGGTTCATAAATATTATGACGCGCTGTATCAGCAGAATATCCAGACCGATATCATCAGCGTCGAAGAGGATCTAAGCAAGTATGATATCGTGATTGCCCCCGTGATGTACATGGTGAAGCCGGGCGTAGCCCAGCGCGTGGAGCGGTTCGTATCGCAGGGCGGAACCTTTGTGACCACCTTCTTCAGCGGCATCGTCAATGAGAACGATCTGGTGACCCTCGGAGGTCATCCGGGCGAGCTGCGCAACGTGACCGGCATTTGGGCTGAGGAAATCGATGCATTGCTGCCCGGAATGCAAAATCAGATCGACATGAAGCAGGATTGGGGATCGCTGCGTGGAAGTTATCCATGTGGAATTTTGTGCGATGTCATCCATGCGGAGACGGCGGAGGTTCTGGCTGAGTACGGATCCGACTTCTATAAAGGCACGCCTGTTTTAACGAAGAATGCGTTTGGCGAAGGGCAGGCCTATTATGTGGCCAGCAGTCCGGATGCGCAGTTCCTGCAAGGGTTTCTTGCCAATCTGTGCGAAGAACAAGGCGTGAAGCCGCTGCTGGATACACCACAAGGGGTAGAGGTGGTGGAGCGGGTGAAGGACGGAAACTCCTATCTGTTCATATTGAACCACAATGCCGAAGAGATGACGTTTGATGCAGGTTCTGCCAAATCATTCGATCTCCTGGGCAGCCGGCAGGTTACGGGCCATGTCACGATTCCGGGAAGGGACGTCATGATTCTGGAACGGGCTGCCGCCGCCCGGTCTTAA	MINQRFPKIWYGGDYNPEQWDKATMEEDLRMFELAGVDVATLNVFSWAKTQRDEESYDFAWLDEIMDRLAEEQVHVCLATSTGAHPAWMAKKYPDILRVDYDGRKRKFGGRHNSCPNSPTYRKYSVLMARKLAERYKDHPALVIWHVSNEYGGYCYCDNCERQFRVWLKERYGSLDKLNAAWNTGFWGHTFYEWDEIVVPNALSEEFGGNRSFFQGISLDYRRFQSDSLLQCYRLERDELKKVTPDIPVTTNLMGFYPELDYFEWAKHMDVVSWDNYPAIDTPVSFTAMSHNLMRGLRSGQPFMLMEQTPSVQNWSPYNSAKRPGVMRLWSYQAVAHGADTVMFFQLRRSVGACEKFHGALIEHVGHEHTRVFRECAELGQELQQLGDKLLDSRSDAKVAIMYDWENRWALELSSGPSKALNYVDEVHKYYDALYQQNIQTDIISVEEDLSKYDIVIAPVMYMVKPGVAQRVERFVSQGGTFVTTFFSGIVNENDLVTLGGHPGELRNVTGIWAEEIDALLPGMQNQIDMKQDWGSLRGSYPCGILCDVIHAETAEVLAEYGSDFYKGTPVLTKNAFGEGQAYYVASSPDAQFLQGFLANLCEEQGVKPLLDTPQGVEVVERVKDGNSYLFILNHNAEEMTFDAGSAKSFDLLGSRQVTGHVTIPGRDVMILERAAAARS	PGPT0017815_1010	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
AK002_05575	1287			hypothetical protein	ATGAACAAAATGAAATTATCACTCGTGATGCTGCTGGCTTTCTCGCTGCTGCTTGCAGCTTGCGGCGGCAAGTCGGAAGAAGGCCAGGGCGGAAGCTCGGATGGAGCTTCCGGCGAAGTCAAAACGGTCAAGATTTTTCAATTCAAAACCGAGATCGTGGACGGCTTGAATGAGCTTAAAGTCGAATTCGAGAAGGAATACCCGAACATCAAGCTGGATATTCAAACGGTAGGCGGCGGCGCTGACTATGGTGCTGCATTGAAAACCAAATTCGCATCCAACGATGCGCCAGATATTTTCTCCAATGGCGGCGACGCCGAGATGGAGATGTGGATCGACCGTCTTGAGGATCTGTCCGATCAGCCTTGGGTGAACGATCTGGTCGACATGGCGAAAGAGCCGATGACCAAAGACGGTAAAGTATACGGCATGCCGATGAACCTTGAAGGATGGGGTTACATCTACAATAAGGATTTGTTTGAGCAGGCTGGCATTACCGAGCTTCCTAAAACGTATACCCAGCTGGCGGATGCCGCGAAGAAGCTGGAAGCCGCAGGCATAACTCCTTTTGCGAACGCTTACCAGGAATGGTGGTTGATCGGCAACCAGGGAATTAACCCGGCATTCGCCCAGCAGGATGACCCGAATGCGTTTATCCAGGGCTTGAACGACGGCACGCAAAAATTCGTGGGCAATGGGAAGTTCGAAGAGTGGACCAAGCTGATGCAGCTGACGTTGGACCACGGCAACAAGAACCCGCTGACCACCGACTACAATACGGCCATTTCCCTGCTGGCTACAGGTAAAGCTGCCATGATGCAGAACGGGAACTGGGCTCAAACCGAGATCGATGCCATCAATCCGGATCTGAATCTCGGCTACCTGCCGATGCCGCTTGGCGACAATGCGGAGCAAAATGACAAGCTGAACGTCGGCGTACCTGCCAACCTGGTCATTAACAAAGATTCCGCTTCGAAGGAAGAAGCGAAGATCTTCCTGAACTGGTTTGTCACATCCGATATCGGCAAAGAGTACATCGTGAAAAAATTCAAATTCATCCCGGCCTTGAAGACCATCGAAGCAACGCCTGAGGATATGGGCGACTTGGGTTCGGCCGTATGGGAGTACGTGCAGGCAGGCAAAGTGCTGCCAAGACAATCCGCGAAGTTCCCAGATGGCGCCGCACAGGAATTCTCCGGCGCGATGCAGGCATTCTTCGCCGGCAAATCCGATACGAACAAGATGCTTGAAGATATGCAGACATCATGGGATAGCTTGAGCAAGTAA	MNKMKLSLVMLLAFSLLLAACGGKSEEGQGGSSDGASGEVKTVKIFQFKTEIVDGLNELKVEFEKEYPNIKLDIQTVGGGADYGAALKTKFASNDAPDIFSNGGDAEMEMWIDRLEDLSDQPWVNDLVDMAKEPMTKDGKVYGMPMNLEGWGYIYNKDLFEQAGITELPKTYTQLADAAKKLEAAGITPFANAYQEWWLIGNQGINPAFAQQDDPNAFIQGLNDGTQKFVGNGKFEEWTKLMQLTLDHGNKNPLTTDYNTAISLLATGKAAMMQNGNWAQTEIDAINPDLNLGYLPMPLGDNAEQNDKLNVGVPANLVINKDSASKEEAKIFLNWFVTSDIGKEYIVKKFKFIPALKTIEATPEDMGDLGSAVWEYVQAGKVLPRQSAKFPDGAAQEFSGAMQAFFAGKSDTNKMLEDMQTSWDSLSK	PGPT0016330_1834	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK002_05576	840	melC_18	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGAGATCGAAGAAACCTCCCATGTCGGCCTCCACGATCGTATTGCAGATTGTGATGGTCATTGTTGCCTTGATCTTCTTGGCACCGTTCTACTTCCTGCTGGTAAACTCGGTCAAATCGCTGGGCGATATTATGGTCGACGCGGCCAACTGGCCAACGGCCTTTCACTTTGACAACTACAGCAAGGCTTGGGAAATGACCCGCTTCCCGGAAGCATTCACGAACTCCATCATCATTACGGTCATCAGCAATCTGATCATTGCCCTGCTGAGCGCGATGGCAGCTTACCGGATGGTCCGGTCCAATACGAGATTCAATCGAATCGTGTTCATGCTGTTCGTATCGGCCATGGTCATTCCGTTCCAATCCATTATGATTCCATTGCTGCAGGTCATTAACTTTCTCGGCGTCAACAACAGCATCGTGGGTCTGATTCTCAGTTATCTCGGACTCGGCATACCGCTGTCGGTCTTCCTGTTCCACGGTTTCGTGAAAGGCATTCCGCTGGAGATCGAAGAGGCCGCCACGGTCGACGGCGCTTCTCCGTTCAGGGTATTTGGCCGCATCGTTTTGCCGATGCTGAAACCTATGATGGTCACGGTCATCATCCTGAACTGCCTGTGGGTCTGGAACGACTACCTGCTGCCATCCTTGATTCTGCAAAGTCCGGAACTGCGGACGATTCCGCTTGCGACCTTTGCGTTCTTCGGGCAGTATTCGAAGCAGTGGGATATGGCGCTGCCGGCGCTCGTGCTGGGCATTACGCCGATCATCATCTTCTTCCTGTCACTGCAGAAGTACATCGTTGAGGGCGTCGCTGCCGGCTCCGTTAAGGGGTAA	MRSKKPPMSASTIVLQIVMVIVALIFLAPFYFLLVNSVKSLGDIMVDAANWPTAFHFDNYSKAWEMTRFPEAFTNSIIITVISNLIIALLSAMAAYRMVRSNTRFNRIVFMLFVSAMVIPFQSIMIPLLQVINFLGVNNSIVGLILSYLGLGIPLSVFLFHGFVKGIPLEIEEAATVDGASPFRVFGRIVLPMLKPMMVTVIILNCLWVWNDYLLPSLILQSPELRTIPLATFAFFGQYSKQWDMALPALVLGITPIIIFFLSLQKYIVEGVAAGSVKG	PGPT0016340_1544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK002_05577	882	melD_12	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGAACAGCAAGAGAACGGCTGCTTTGACGCAGCAGTTGGTTTATATCGGACCCGCGCTGCTGTTTTTCGGTATTACGATCATTATCCCATTTGTGATGGGGATGTATTACTCGTTTACCGACTGGAATGGCGTTTCCGGGAACGTCGAATGGGTCGGGCTGGACAATTTCAAACAGATTTTCACAAATGACAGCGCATTCGCCCAATCCTTCTGGTTCACCACCAAATTTACGATCGTCGGCGTGCTTCTGACGAATTTGGTCGGATTCTTCCTGGCCTACTTCTTAACGAAAAATATTCGGGCGCGCAACTGGCTGCGGACGATATTCTTCATGCCGAACGTGATCGGCGGATTGCTGCTCGGCTTCATCTGGCAGTTTATCTTCATAAAAGGCTTTGCAACCGTTGGCGAAGCGACGGGAATTCCGTTTTTTAATCTTCCGTGGCTGGGAGACGAAGTAACCGGCTTCTGGGGCATCATCATGGTATTCGTATGGCAGTCGTCAGGCTATCTGATGGTCATCTACATCGCCTCCATTACGAACGTGTCCAAGGAAGTCATGGAAGCTGCCGAGATTGATGGGGCCAACCGGTTCCAAGTGCTCAAGAGCATCATCGTACCGCTTATTATGCCGGCGGTTACCGTATGTTTGTTCCTGGCGATTTCCTGGTCCTTCAAAATGTTCGACCTGAACCTGTCGCTGACCAAGGGCGGACCTTACCGCTCCACGGAATCGCTGGCGATGAACGTGTACAACGAGGCGTTCCTGAACAACCGGTACGGTCTCGGGACGGCCAAGTCCTTGATCTTCTTCCTGGTCGTTGCCGTCATTACGCTCATTCAAGTCCGTTTAACGAAGCAGAAGGAGGTTGAAGCTTAA	MNSKRTAALTQQLVYIGPALLFFGITIIIPFVMGMYYSFTDWNGVSGNVEWVGLDNFKQIFTNDSAFAQSFWFTTKFTIVGVLLTNLVGFFLAYFLTKNIRARNWLRTIFFMPNVIGGLLLGFIWQFIFIKGFATVGEATGIPFFNLPWLGDEVTGFWGIIMVFVWQSSGYLMVIYIASITNVSKEVMEAAEIDGANRFQVLKSIIVPLIMPAVTVCLFLAISWSFKMFDLNLSLTKGGPYRSTESLAMNVYNEAFLNNRYGLGTAKSLIFFLVVAVITLIQVRLTKQKEVEA	PGPT0016335_1688	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK002_05578	1836			hypothetical protein	TTGAACTGGAACTGGAACAGCATCCGCACCAAACTGATTACCTTCATGATCATGGCGACCATCATTCCGACCACCATTTCCATGATCATCAGTTATGTCATGACAACCAACTCGCTCAAGGAACGGGCCGTTGTTGAGAATATGAACCTTCTCTATCAGGGACGGTTGAATTTGGAGAGCTATTTGGAAGAGATGAACCGTAGCTCCCTTACGGTCTACTCGGATCCGGATTTTTTCCGCAGTCTCTATTACAGTCATGAGAACATCAACGCCAGCGGCAGGCAATCCGCCACGCTGCAATCCATTCAAAAAGCCATCAGCGGCTCAAGGCAGGTCTATCTTTACGTCGACGGCAAACGGGAAGCCACGTTATTCGCGCAGGATATCGCCAGAAAAACAAGCGAAGTCAACCTCTATCCCGAGATTCCCGATCTTCGTAACGATACGGTGTTCCTTCAGCCGCCGCATCCCCTTCATACGTACGGGTTTCAGTTAGCTTATCCCTATGAAGCCGATCAACAAGTATTCACGATGTACCGGGTCATTGAACGGGTCCCTTCAACCGAACGATTGGGCATTCTCGCCATCGATCTGGACATGGATTTCCTGAGCAGGATCAGCGGCCAGCTGTTCCAGCCTGATCATGAACAGCTGTACATTGCCAATGAAGACGGGTATATCATGTATTCCGGCAATGACGAAATGCTGGGACAACAAGTCCAGGGGGACTGGTACGCCAGCATCAAGCAATCCGGCAAGAAGGAAGGCCATTTCGAGTATAACAACAAAATCTATTTATATAACAATATCAAGACGTCGGTCAGCGACTGGACGATGATCAAGGAGATTCCTTCCTCCTATATTTTAAGCAGCGCGGACAAAGCTGCCTTCGTCAATATTTTGCTGATCGGCGTATCCCTTATTCTCATCATCGCCGCCACGATCTGGATTTCGGTCTATATCACGGCCCCGATCCGCGAATTGGTTGGCCTCATGAGCCAGGTCAAAAGCGGACGAATGACCGTGGATATCTCGTCCAACCGCAAAGACGAAATCGGAGCCCTCCATCGCAGGTTCGGCAGCATGATGGATACGATCAACAACCTCATCCTGCAGGAATACAAGCTGAAGCTGGCGAACCGGACTAACCAGCTCCGGGCGCTGCAGGCGCAGGTGAATCCGCATTTCATGAACAATGCACTGCAGACCATCGGCACCCTTGCGCTGGAGCATGGCATGAAGAGGATATACTCCCTGATCTCTGCTCTGGCCCGGATGATGAGATACAGCATGTACAATACCGACAAGCCGGTCACGCTGGCCACGGAGCTTGATCATATCAAGGATTACGTGGAACTTCAGAAGGAACGATTTGAGAATCAGTTCGACTTCCGTTACGATGTGGATGAGTCGACTCTGCAGGTGTTGATTCCGAAGATGCTGGTTCAGCCGCTGATCGAGAACTTTTTCAAGCATGGCATGAACCCCTTGGAGCAAGACAATTTCATTGCGCTCACAAGCCGGCGCCTATCGGCCTCGATCGTGCAGATCACGGTCGAAGATAACGGAAACGGGATGCTGGAGGAGCCGTTCCAAGCCCTTCAGGAGCACTTGCTTCGGATGGAAGAGTTGGATCTGGAACAGCTTCAGGTTCTGTCCGAGCTGGAGACGGAAGACAGCAGCGGAATCGGACTCATCAACATCATGACGAGGCTGAGGCTGTACTATCGTGGAAAATCCAAATTCAACATCGAAAACAACCAGCCGCACGGCTTTCGTGTAGTGCTGACTATAAATGTGGAAGGTGAAACGGATGAAGGCATTGATCGTGGATGA	MNWNWNSIRTKLITFMIMATIIPTTISMIISYVMTTNSLKERAVVENMNLLYQGRLNLESYLEEMNRSSLTVYSDPDFFRSLYYSHENINASGRQSATLQSIQKAISGSRQVYLYVDGKREATLFAQDIARKTSEVNLYPEIPDLRNDTVFLQPPHPLHTYGFQLAYPYEADQQVFTMYRVIERVPSTERLGILAIDLDMDFLSRISGQLFQPDHEQLYIANEDGYIMYSGNDEMLGQQVQGDWYASIKQSGKKEGHFEYNNKIYLYNNIKTSVSDWTMIKEIPSSYILSSADKAAFVNILLIGVSLILIIAATIWISVYITAPIRELVGLMSQVKSGRMTVDISSNRKDEIGALHRRFGSMMDTINNLILQEYKLKLANRTNQLRALQAQVNPHFMNNALQTIGTLALEHGMKRIYSLISALARMMRYSMYNTDKPVTLATELDHIKDYVELQKERFENQFDFRYDVDESTLQVLIPKMLVQPLIENFFKHGMNPLEQDNFIALTSRRLSASIVQITVEDNGNGMLEEPFQALQEHLLRMEELDLEQLQVLSELETEDSSGIGLINIMTRLRLYYRGKSKFNIENNQPHGFRVVLTINVEGETDEGIDRG				NA	NA	NA	NA	NA
AK002_05579	1638	rhaR_68		HTH-type transcriptional activator RhaR	ATGAAGGCATTGATCGTGGATGACGAGTCTCGCGTGCGCAAAGCCATCCGCCTGCTGGTCCAGTGGGAAGCGCACGGGATTACCGATATAGAGGAAGCGGCCAACGGGCTAGAGGCGATGGAGCTGATCCCGGCGTTTCGGCCCCATCTTGTGCTGATGGACATGCTGATGCCCCTCAAAAACGGGGTGGATCTCATGGAATGGATTCACAAGCATTACCCGGACATCAAATTCATCGTCATCAGCGGGCATGACGATTTCGAATTCGTGCGCAACACCATCTGGTACAGCGGCACGGATTATATCCTGAAACCCATCGAGGAGGACGTCATCAACCAAGCGGTCGCCAAGGCGACCGCGGCCTGGAAGGCGGAGGAACAAGAACGCCTTGCGGCGCGGCAGCAGCATGTTCAGGTGAACGAGTACCGGCCGGTCTATTCGGAGAAGCTGTTATCCAGCCTTATTGATGACAGGAGCGCCCATTCCCAGGTGGTTAACCGCCTCAGGGATGAAGGCATCGTGCCGGCGCAGACCAACGCAATACGTCTGGCCGTCATGCAAATCGACAAGTCAGATCATGCGCTGTACAGCCGCTTCGGCCATCATCAGGATCTGCTGATGTTCGCCCTGTTGAATATTTGCAATGAATTTCTGCAAAAGGACCGGATCGGGATTGCTTTCCGTCCATTCGGATCGCCGCATCAACTGGTCCTCTTATTGTGGGAACAACTCGCCACGGTCCCTACGCTGCTTCAAGAGATCAATAGCGGGATGTTTCGGACGCTGTCGCGCCAGATGCATTTTGGCATAAGTCCGGAAGGTCGATATCCGGTAGACGTACCCGAGCTCTATGCCCAATGCTCGAATGCCCTGCGTTCGCGTGATTTAACGGTCCTGAACCATTTCATCCACGATGCCGAGCAGCAGCGCCGATCCGGGATGGATCATCATCGGGGCGTTCAGTTCAGCGGGTTCGAGGATACCTGGAAGCTCGCTGTACTTAGCGGTCAGCCTGCTCCCATTGCCGAGGCCGTCGATTCGTTCCTTGCCGCCATCCGAAAAAGCGGCGTTCTCACGCCGGAGCTTCTGGAGCGATGGGACCGCGAAATTGATCGGTTCGCCAATCACGTCATTCATGAAACCGCAAACCCGTCGTCTGAGGCTTTGTTGAAATTGTACAAAGAGGAAAGCGCCACCATCGAGCGGCCAAGCCCGGACAAATATGTATGCTCCCTGGCAGAATGGCAGCAGTATTGGGATCAATTAATGAGCCTGCTGGCCTCGGCGCTGCAGTCCCAGAAGCAGACGGGGCAGGACCTGATCCACGACATCACGGCGTTTATCGAGCAAAACTATCAGAATGACGTATCACTGTACGATATTGCAAACCGGTTTCACGTAAGCCGGGAGTACATCTCCCGCAAATTCAAGCAGAAGCACGGGATTAATATCCCCGAGCATCTGAACCGAATCCGCATCTCGAAGGCCAAAATCCTGCTGCAAAATCCGGGGCTGAAAATGGCCGCGATTTCCGAAATGGTCGGCTTTAAGAACGAGAAATATTTCAGTCTTGTTTTTAAGAAACAAGAGGGCATTTCGCCCAAGGAATTCCGAAAGCTGCACGAGAAGGAAGCCTAG	MKALIVDDESRVRKAIRLLVQWEAHGITDIEEAANGLEAMELIPAFRPHLVLMDMLMPLKNGVDLMEWIHKHYPDIKFIVISGHDDFEFVRNTIWYSGTDYILKPIEEDVINQAVAKATAAWKAEEQERLAARQQHVQVNEYRPVYSEKLLSSLIDDRSAHSQVVNRLRDEGIVPAQTNAIRLAVMQIDKSDHALYSRFGHHQDLLMFALLNICNEFLQKDRIGIAFRPFGSPHQLVLLLWEQLATVPTLLQEINSGMFRTLSRQMHFGISPEGRYPVDVPELYAQCSNALRSRDLTVLNHFIHDAEQQRRSGMDHHRGVQFSGFEDTWKLAVLSGQPAPIAEAVDSFLAAIRKSGVLTPELLERWDREIDRFANHVIHETANPSSEALLKLYKEESATIERPSPDKYVCSLAEWQQYWDQLMSLLASALQSQKQTGQDLIHDITAFIEQNYQNDVSLYDIANRFHVSREYISRKFKQKHGINIPEHLNRIRISKAKILLQNPGLKMAAISEMVGFKNEKYFSLVFKKQEGISPKEFRKLHEKEA				NA	NA	NA	NA	NA
AK002_05580	2034	bgaP_2		Beta-galactosidase BgaP	ATGATTAACGAAAAGCTGCCGAAAATGTGGTACGGCGGGGATTATAATCCCGAGCAGTGGGATGCGGAAGCGTGGAAGGAAGATGACCGCATGTTCAAGCTGGCGGGAATCGATGTAGCCACCATAAATGTATTCTCCTGGGCTTTGAGTCAGCCGAATGAGGATACGTACGATTTTGCTTGGCTCGACGAGACGATTGACCGGCTGTACCGGAACGGGGTGTATATCTGTTTGGCAACGAGCACGGGAGCTCATCCGGCCTGGATGGCGCGCAAATACCCGGATGTGCTGCGCGTCGACTACGAGGGCCGCAAACGCAAATTCGGCGGACGCCATAACTCCTGTCCGAACAGCCCCACCTACCGAAAATACGCCAAAATCATGGCAGGCAAGCTGGCGGAACGCTATAAGGATCATCCGGCCGTCCTGATCTGGCACGTGTCGAACGAATATGGCGGGTACTGCTACTGCGACAACTGCGCCGCGGCATTCCGGACTTGGCTCGAGCAGCGATATGGCACGCTGGATGCCGTAAACAAGGCATGGAATACCCGCTTCTGGGGCCACACCTTCTATGACTGGGAGGACATCGTCGTTCCTAACGCTTTAAGCGAGGAGTGGTCCGGCAACCGGACGAATTTCCAAGGCATATCCCTGGATTACCGCCGTTTCCAGTCCGACAGCCTGCTGGACTGCTACAAGCTGGAGCGGGATGAATTGAAGCGGATCACGCCGGATATACCGGTGACCACGAATCTTATGGGTTTTTATCCGGAGCTGGACTATTTCAAATGGGCCAAGGAGATGGATGTCGTATCCTGGGACAACTATCCGTCGCTGGATACTCCGTACAGCTATACCGCCATGGCGCATGCCCTGATGCGGGGGCTTAAGGGCGGTCAGCCCTTTATGCTGATGGAGCAGACGCCGAGCGTTCAGAACTGGCAGCCGTATAACTCGGCCAAGCGCCCTGGGGTAATGCGATTGTGGAGCTACCAAGCGGTTGCCCACGGCGCGGATACGGTGATGTTCTTCCAGCTGCGCCGTTCGATCGGGGCCTGCGAGAAGTATCACGGCGCGGTCATCGAGCATGTCGGACATGAACATACCCGCGTATTCCGCGAGTGCGCCGAGCTGGGCAAGGAGCTGCAGCAGCTGGGGGACCGGATCCTGGATGCCCGTTCCGATGCCAAAGTCGCGATCATCTACGACTGGGAGAACCGGTGGGGCATTGACCTGTCGAGCGGTCCGACCGTCGCCCTCAATTACGTGAACGAGGTCCATAAATATTACGATGCCCTGCACCAGCTGCATATTCAGACCGATATGATCAGCGTGGAAGAGGACCTCCGGAAGTATGACGTTGTCATCGCGCCGGTGATGTATATGGCAAAACTGGGATTTGCAGAACGCGTGGAGGCCTTTGTATCGCAAGGAGGCACCTTTGTGACGACCTTCTTTAGCGGCATCGTGAACGAGAATGATCTGGTGACGCTGGGCGGTTACCCGGGCGAGCTGCGCAAGGTCATGGGAATTTGGGCCGAGGAGATTGATGCGCTGCTTCCGGGCCAGCAGAATCAGATGGTGATGCGGGGGCGGAAAGGCCAGCTGGAAGGCACCTACGACTGCGGCATTCTGTGCGACGTGATCCATGCCGAGGGAGCAGAGGTCGTTGCCGAATACGGCTCGGATTACTATCAAGGCATGCCAGCGTTGACCGTGAACGCTTTCGGACAAGGGAAGGCCTGGTATGTGGCCACAAGCCCGGAGCCTAGATTCCTGCGAGATTTGATGCAAACGATATGCATCGACCATGGCATTGAGCCTGTCCTGAACGCTCCCGAAGGCGTTGAGGTGACAAAGCGGGTGAAGGAGGACGCGGAGTTTACCTTTGTGCTTAATCACATGCCCGAGCGCAAATCCGTGTCCTTGGATGGGGAAACCTATGTTGACCTGCTGACAGGGGAGGAGCTTCGGGATACCTGCGAAGTGCCGGCACGAGGAGTGTTGATATTAGAGAAGCGGTTAGGATAG	MINEKLPKMWYGGDYNPEQWDAEAWKEDDRMFKLAGIDVATINVFSWALSQPNEDTYDFAWLDETIDRLYRNGVYICLATSTGAHPAWMARKYPDVLRVDYEGRKRKFGGRHNSCPNSPTYRKYAKIMAGKLAERYKDHPAVLIWHVSNEYGGYCYCDNCAAAFRTWLEQRYGTLDAVNKAWNTRFWGHTFYDWEDIVVPNALSEEWSGNRTNFQGISLDYRRFQSDSLLDCYKLERDELKRITPDIPVTTNLMGFYPELDYFKWAKEMDVVSWDNYPSLDTPYSYTAMAHALMRGLKGGQPFMLMEQTPSVQNWQPYNSAKRPGVMRLWSYQAVAHGADTVMFFQLRRSIGACEKYHGAVIEHVGHEHTRVFRECAELGKELQQLGDRILDARSDAKVAIIYDWENRWGIDLSSGPTVALNYVNEVHKYYDALHQLHIQTDMISVEEDLRKYDVVIAPVMYMAKLGFAERVEAFVSQGGTFVTTFFSGIVNENDLVTLGGYPGELRKVMGIWAEEIDALLPGQQNQMVMRGRKGQLEGTYDCGILCDVIHAEGAEVVAEYGSDYYQGMPALTVNAFGQGKAWYVATSPEPRFLRDLMQTICIDHGIEPVLNAPEGVEVTKRVKEDAEFTFVLNHMPERKSVSLDGETYVDLLTGEELRDTCEVPARGVLILEKRLG	PGPT0017815_1112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
AK002_05581	2295			hypothetical protein	ATGGTGTTCGGAGGCGTGCAGGAAGAATGCATTCAATGGAACGAAGATACGCTCTGGTCCGGGTTTCCCCGGGACACGAATAATTACGAGGCTCTCCGGTATCTGGCAAAGGCAAGGGAATTGATTGCGTCCGGCAAGTATGCTGAAGCGGAACAGTTGATCGAGGGCAGGATGGTTGGCAGAAATACGGAGTCCTTTTTGCCGCTGGGAGATCTGTTGATCCGACAGTCGGGAATAGGGGATTCATGCTCGGAATACAGGCGCGAACTGAACCTGGATACGGGGATTGCTTCCACTCGTTTTCAAGTAAGCGGCTCCGATCCTATTTTCAGCAGGCATATGTTCATCAGTGCGGTTGACCAGGTCGGGGTTATCCGTTATGAAAGCACGGGGAGCAGCTCCGTCCAATTGGAGATCGGGTTACGTTCACCGCTGCAGCATCGTACACGCACAGAGGAAGACGGGACGCTGGTGTTGCATGGGCATGCTCCGACCCATATTGCTGATAATTACAGGGGCGATCATCCCGGGTCGGTGCTTTATGAGGATGGGCTGGGCATTCGGTACGAAATGAGGCTGCTGGCCTTGACGGACAGCGGCCAGGTGACGGTCGATGACAGCGGCATGCGCATTTCCGCGGCAGGCTCGGTTACGCTGCTGATTGCGGCTGCTACGAATTTTGAAGGCTTCGATCGTTTTCCGGGTTCTGGCGGTACCGATCCGTCCGGCATATGCAGGGAGAGACTTCAGGACGCCATGCGGCATGGTTTTGAACAATTGCGCTCACGGCATGTCCAGGACCATCAAGCCTTGTTCAGACGCGTGGAGCTTCAGCTTGGCCGTCCAGAGAATGAGCGCTCCATAGCAGCTTTAGCCACCGACGAACGGATGGAAGCGTACCGGGAAGGACGGGAGGATGCTGCGCTCGAAGCGCTGATGTTTCAATTCGGAAGATATTTGCTCATTGCCAGCTCCCGGCCGGGTACACAGCCCGCCCATCTGCAGGGTATATGGAATCCCCATGTCCAGCCGCCATGGAACAGCGATTACACAACGAATATCAATACCGAGATGAATTATTGGCCGGCGGAAACGACGCGTCTGAGCGAGTGCCACGAGCCGCTCATCCAAATGATCCGGGAGCTTAGCGTAAGCGGTGCCCGGACCGCGAAGATTCACTATGGCGCCCGTGGATGGGTCGCCCATCATAACGTGGATTTATGGCGAATGGCCAGTCCGAGCGATGGCAGAGCCATGTGGGCCTTCTGGCCAATGGGCGGTGCTTGGCTGTGCCGCCATCTATGGGAGCGTTACCAATTCCAACCGGATATTGAATACTTGCGGGAAACAGCGTATCCGCTGATGCGTGGAGCCGCTTTGTTTTGCCTGGATTGGCTGATTGAAGACGGGGAAGGGTATCTGGTGACCAGCCCGTCGACATCGCCGGAGAATCAGTTTTTTACCGCGGAAGGGCTGCCTTGCAGCGTGTCGGCAGGCTCGACCATGGATATGGCCATCATTCGCGATTTATTCCATAACTGCATCGAAGCTTCGCAGCTGTTGGAGCAAGATGATGAACTGCGGGAAGAATGGAAAGCGGCGGTCGCGCGCCTGCTGCCTTACGCCATCGATGACGAGGGCAGGCTCATGGAATGGAGCAAGCCGTATCCGGAAGCGGAGCCCGGACATCGGCACGTATCCCATCTGTACGGATTGTATCCCGGCTCTGATATTACCCTCCAAGATACGCCGCAGCTTGCGGAAGCCGCTTATCGTACGCTTATGTCGCGCATCGATCACGGAGGGGGGCATACGGGCTGGAGCTGCGTTTGGCTCATTAACCTGTTTGCCCGACTGCAGCAGCCGGAGAAGGCTTATGATTATGTCCGGACCCTGATTTCCCGCTCCATGCATCCCAATCTGCTCGGGGACCATCCTCCGTTCCAGATCGATGCGAATTTTGGAGGCAGCGCCGGACTTGTGGAAATGCTGCTCCAGAGCCATTTGGATGCCATTCAGCTGCTGCCGGCGCTGCCGAAAGCGTGGGCAGAAGGCTCCGTGCGGGGATTGAAGGCCCGCGGAGGATTTATCGTGGATATGGAATGGAAGGACGGCATTCTTGCGTCCGCAAGCATAACCTCTACGCATGGCCGGAACTGCAGAATTCAATATTCCGAACCTCTCGCCGTTCGAAGGGAAGACGGAAGCGTTGTGACCACGGGAGATCGGCTTTCTTTTGAGACGGTGAGCGGCATGACCTACCAGATTGCATTGGCTGCTATTGAGGCATTGTGA	MVFGGVQEECIQWNEDTLWSGFPRDTNNYEALRYLAKARELIASGKYAEAEQLIEGRMVGRNTESFLPLGDLLIRQSGIGDSCSEYRRELNLDTGIASTRFQVSGSDPIFSRHMFISAVDQVGVIRYESTGSSSVQLEIGLRSPLQHRTRTEEDGTLVLHGHAPTHIADNYRGDHPGSVLYEDGLGIRYEMRLLALTDSGQVTVDDSGMRISAAGSVTLLIAAATNFEGFDRFPGSGGTDPSGICRERLQDAMRHGFEQLRSRHVQDHQALFRRVELQLGRPENERSIAALATDERMEAYREGREDAALEALMFQFGRYLLIASSRPGTQPAHLQGIWNPHVQPPWNSDYTTNINTEMNYWPAETTRLSECHEPLIQMIRELSVSGARTAKIHYGARGWVAHHNVDLWRMASPSDGRAMWAFWPMGGAWLCRHLWERYQFQPDIEYLRETAYPLMRGAALFCLDWLIEDGEGYLVTSPSTSPENQFFTAEGLPCSVSAGSTMDMAIIRDLFHNCIEASQLLEQDDELREEWKAAVARLLPYAIDDEGRLMEWSKPYPEAEPGHRHVSHLYGLYPGSDITLQDTPQLAEAAYRTLMSRIDHGGGHTGWSCVWLINLFARLQQPEKAYDYVRTLISRSMHPNLLGDHPPFQIDANFGGSAGLVEMLLQSHLDAIQLLPALPKAWAEGSVRGLKARGGFIVDMEWKDGILASASITSTHGRNCRIQYSEPLAVRREDGSVVTTGDRLSFETVSGMTYQIALAAIEAL	PGPT0018650_816	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018650-afcA-K15923	NA	NA
AK002_05582	1713			hypothetical protein	ATGAAACATAAGAAGAGATTGTCGCTCTTGCTCGCGATCATGATGATGGCTACATTCGTTCTGGCGGCGTGCGGCAACGGCGACAGCAACAATAGCGCAAACGGCGGCGATGAGGGCAGCGGCGGAAGCGATACGCAGCAGGAAGAGAAGCTCGAGCCGATGACCATGACGTATTACAGCGCGGATTCCAATGCGAACTGGGCCAACATGCAGGATGCGGTCGGGAAGAAGCTGACCGAAAAGACCGGCATTACGATCCAGGCCGAATATGCGGTGGACGGCTCCAATCAGAAGCTTCCGCTGATGGTGGCGAGCGGGGAATACCCGGACTTGGTATTTGCCAAGGGGGACGCCAATCTGTTCGTGGATTCCGGGGCGTTTATCGATCTGACGGATCTGATCGAAGAGCATGCGCCAAACATCAAGAAGGTGTACGGAGATTACATGAGCCGCCTGAAATGGAGCAACGAGGACGAAGCCATCTATGTCCTTCCGACGCTTGCAGCGGTGGACCATCAGGCACTCGATGCCGGCGGCACGTTCCAGATCCAGCATGAGGTGCTGAAAGAACTCGGATACCCTGAGCTGAAAACGGTGAAGGATTATGAGAAAGCGCTGAAAGACTATGCCGAGAAACACCCGACCATTGACGGCCAGCCGACGATTCCGCTGACGTTGAATGCGGACGGATGGAGAATCATGATCTCGGTAACGAACCCGGCGTTTATCGCGACAGGCGTATCGGATGACGGCGAGTACTATATCGACCCGGAAACAACCGAGGCGAAGCTTCATTACAAGCGGCCGGAAGAGAAGGAATACTTCCGCTGGCTGAATCATATGAACGCCGAGGGCTTGTTGGATAAAGAAACGTTCGTGCAGAAAACGGACCAATACGAAGCGAAAATTTCCTCCGGCCGCGTCCTTGGCGTCATTGATCAGGAGTGGGGCTTCGGCAATGCAACGAACGCACTGAGAACTGCCGGCAAGGAAAACCGCACCTATGCGAGATTCCCGATCCAGCTGGATGAGTCGACGAAGGATGCAACGTTCCAAGACACGGGTTACGTCGCCGGATGGGGCGTAGGCATTACGACATCCGCCAAGGATCCGGTTCGAATCATCAAGTTCCTGGATTATCTGGCTTCCGAAGAAGGGCAAGTTTTGATGAATTGGGGTATTGAAGGCGAGCATTACAACGTGGTGGACGGCAAGCGAGTTATTCCTGAAGACGTCCAAGAGCGTAAAACCTATGATAACGCCAACTTCACGAAAGAAACAGGAATCGGCTTGTACAATGCGATGTTCCCTCGTTACGGCGACGGCGTGAAGGATTCGACGGATAACTATTACACAACGAACTTCCCAGAGACGATCATCGAGAATTATACGCCGGCCGCGAAGGAAACGCTGAAAGCGTACGGCGCGGAAATGTGGAAAGACCTGTGGCCGAAACAAGAGGAATTTGATGTGAAGCCGTGGGGCGTTGCTTACAACATTCCGGTACCGAGCGACTCCAATATCAATATCACGTACAAAAAGGTGGAAGAGATTACCCGGAAGCGGATTCCGGAAGTCATTCTTGCCGATCCGGCGAAATTCGATGCACTGTATGACCAGTTCATCAAAGAACTGAATGATGCCGGCGCCGAGAAAATGGAGCAGGAATACACCCAATTGGTACGCGAACGCGTGGAACTCTGGAATAATTAA	MKHKKRLSLLLAIMMMATFVLAACGNGDSNNSANGGDEGSGGSDTQQEEKLEPMTMTYYSADSNANWANMQDAVGKKLTEKTGITIQAEYAVDGSNQKLPLMVASGEYPDLVFAKGDANLFVDSGAFIDLTDLIEEHAPNIKKVYGDYMSRLKWSNEDEAIYVLPTLAAVDHQALDAGGTFQIQHEVLKELGYPELKTVKDYEKALKDYAEKHPTIDGQPTIPLTLNADGWRIMISVTNPAFIATGVSDDGEYYIDPETTEAKLHYKRPEEKEYFRWLNHMNAEGLLDKETFVQKTDQYEAKISSGRVLGVIDQEWGFGNATNALRTAGKENRTYARFPIQLDESTKDATFQDTGYVAGWGVGITTSAKDPVRIIKFLDYLASEEGQVLMNWGIEGEHYNVVDGKRVIPEDVQERKTYDNANFTKETGIGLYNAMFPRYGDGVKDSTDNYYTTNFPETIIENYTPAAKETLKAYGAEMWKDLWPKQEEFDVKPWGVAYNIPVPSDSNINITYKKVEEITRKRIPEVILADPAKFDALYDQFIKELNDAGAEKMEQEYTQLVRERVELWNN	PGPT0017245_399	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_05583	909	lacG_9		Lactose transport system permease protein LacG	ATGGCACGAACCAAAGCAGCATTCAAGCCCTCGCTCTCCGATCGGGTGTTTGATATCGCGAATTTTACCATCATGGCACTGGTCATGATTGTCACACTCTACCCGTTCCTGAACGTTCTGGCGATATCGCTGAACGATTCCGTTGATACGGTGCGCGGGGGAATCTACATCTGGCCGAGGGAGTTCACGCTGGATAACTACGTGCAGATTTTTAAATACGACGGCTTGGTCACCGGGGCCAAAAACACGATTCTCCGTACGCTTGCAGGGACCTTTCTGGGCTTGCTAAGCGGCACGATGCTGGGCTACGTCCTCAGCAGGGTAGATTTTCAGGGAAGAAAGTTCATGTCGACCTTTCTTGCGCTGACGATGTACTTCTCCGGCGGAATGATTCCGGTGTTCATCCTGATCCGCGACCTGAACATGATGAATTCGTTTTTGGTCTACATCATTCCGGGCATGGTGAGCGCGTTTAACGTATTCGTCATCCGGTCTTTCATCGACAGCCTGCCGTACTCGCTGCAGGAATCGGCAAAGCTTGACGGGGCCAACGATTTTACGATCTATTACAAAATCATTCTTCCGCTCTGTAAGCCCGTGTTGGCTACCATCGCCCTGTTCCTGGCTGTCGGGCAGTGGAACTCTTGGCTCGATACGTATCTTTACAACGGTAACGCACCCCATCTCACCACGCTCCAATTCGAGCTGATGAAGGTGCTGCAGAGCACCCAGGGGCAAACCAGCGGCATGATGACCGGGCAGAATATGGCCGAGATCGTGAAGCAGGTGTCGCCGGAGTCGATCAAAATGGCAATCACGATCGTGGTAACGGTTCCGATATTGCTCGTGTATCCGTTCCTGCAGCGGTATTTTGTGAAAGGTATGACGCTTGGAGCGGTAAAAAGCTAA	MARTKAAFKPSLSDRVFDIANFTIMALVMIVTLYPFLNVLAISLNDSVDTVRGGIYIWPREFTLDNYVQIFKYDGLVTGAKNTILRTLAGTFLGLLSGTMLGYVLSRVDFQGRKFMSTFLALTMYFSGGMIPVFILIRDLNMMNSFLVYIIPGMVSAFNVFVIRSFIDSLPYSLQESAKLDGANDFTIYYKIILPLCKPVLATIALFLAVGQWNSWLDTYLYNGNAPHLTTLQFELMKVLQSTQGQTSGMMTGQNMAEIVKQVSPESIKMAITIVVTVPILLVYPFLQRYFVKGMTLGAVKS	PGPT0017255_847	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_05584	963	yteP_67	COG4209	putative multiple-sugar transport system permease YteP	TTGAAAGCGGTAACAAAAACGGAAAGCAGCATCCAACCTGCCGCAAAGAAAAAGAAAGGCTTTTGGACCACTTTCAAAGAGCAGAAAGTACTGTACGGAATGTCGCTTCCATTCATCGTCATTGTATTCATCTTCAGTTATTTGCCGGTGTGGGGCTGGCTGATGGCATTCCAAAATTACAAGCCGGGCAAAGGGATATTCGAGCAAAAATGGGTGGGCCTGGACCATTTCGCAGCACTTTTCGCGGACGATAAGTTTTATCTGGTGTTGCGAAATACACTCGCCATGAGTTTCATGGGATTGATCGTTGGATTCACGATTCCGATCCTATTCGCAGTCTTGTTGAATGAGCTTCGTGGAAGCGTATTCAAGAGGACCGTACAGACGATATCTTATCTGCCGCATTTTGTGTCCTGGGTCGTAGTTGCCGGTATCGTGACCAAAATGCTGTCCACGGATGGAGGCGCAGTCAATCAGCTGCTGATGTGGCTGGGGCTCATTGATCAGCCGATACAGTTCATGGCTCAGGGGAACCTGTTCTGGTACATCGTAACGGGCTCCGATATATGGAAGGAAATGGGCTGGAGCGCGATCATTTATTTGGCAGCGATTACAGGGATTGATCAGGAGCAGTTCGAAGCAGCCAAGGTTGACGGCGCGAGCCGGATTCGCCAAATATGGCACATTACGCTGCCGAGCATCGCCCCTACGATTGCTATCCTGCTGATCATGTCCATCGGTCATTTGATCAGCATCGGTTTCGAGAAGCAGTTCCTGCTGGGTAATCCGCTGGTCGTGGATTATTCCGAGGTGCTTGACCTGTATGCGCTGAATTATGGACTTGGCATGGGACGTTTTTCATTCGGTACGGCCATCGGAATGTTCAACTCGGTCGTAAGCATCATCCTGCTGCTGCTTGCCAACGGCGTGTTCAAAAAATTCACGAAGCAATCGATTATGTAA	MKAVTKTESSIQPAAKKKKGFWTTFKEQKVLYGMSLPFIVIVFIFSYLPVWGWLMAFQNYKPGKGIFEQKWVGLDHFAALFADDKFYLVLRNTLAMSFMGLIVGFTIPILFAVLLNELRGSVFKRTVQTISYLPHFVSWVVVAGIVTKMLSTDGGAVNQLLMWLGLIDQPIQFMAQGNLFWYIVTGSDIWKEMGWSAIIYLAAITGIDQEQFEAAKVDGASRIRQIWHITLPSIAPTIAILLIMSIGHLISIGFEKQFLLGNPLVVDYSEVLDLYALNYGLGMGRFSFGTAIGMFNSVVSIILLLLANGVFKKFTKQSIM	PGPT0017250_1054	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_05585	1557	cheB_18		Protein-glutamate methylesterase/protein-glutamine glutaminase	ATGATGAAAGTGTTGATCGTGGATGACGAACCCAAACTGCGCGAAGGGCTGAAGAGCATTGTGCCATGGACAGAGCTTGGGTATCAGGTTGTTGATACTGCAGCGAACGGGAACGAAGCGCTGGAGAAGCACGGGAAGTACGACCCGGATTTGATGCTGATTGATATCCGGATGCCGGGAATGGACGGATTGCAGCTGATCGAAGCCATCCGAAACCTGGATTCCGAAATTCATCTGCTCATCTTGAGCGGATATGCCGATTTTGATTATGCCAAGCGGGCGATTTCCCACCGCGTGGACGGATACCTTCTAAAGCCGGTGGATGAGGACGAGCTGAGCAAGTATTTGCTGCAGATTAAAGAAGCCATCGAGCAGGAACAGGAGAGGAAGGCGCTGAACAGGGCAGCCTCCGATATGAGCCGCGAGCAGTTCATTCAGACATGGTTCAACCCGGAGAGCAAGCCCGATCCAGCCGCTTTGCGGCATATGGCCGAGCGGTCGGGACTGTTATGGAACCATTACCAAGTGCTGCTTGTTCATCATAACGGCAGCGATGAATCCGGTGAGGAAACCGACGACCGGTTGAAAAACCAGCTGATCGAAGCTTTTGAAGATAACGGCCGCGGCGCGGTGTTTTCCATGCATGGACAGCTCGGTATCCTAATGCCCACGCCGGTCTTGACGGCAGGTGGACGTAAGGAATTGCTGCAGTTGGTAGAGGAAGCCGCAAGCCGGGCTGGCACGGCGATAACGGCCTCTTTGGGACGTCAGGTCCACCGTCTGGAGGATGTAGTGGATTCGTATCGTTGTGCCAAAGAACGGATCCGCGAGCGGTTCTTCTATGCTCCAGGGGAGATGCTGTTTCCTGAATCCGAGCGGTTTGCCGGCGGCAACACGGATGAAGAACGGCAGCCCTATGATCCGAAGCAGCTGATGGAACAGCTCTATTATGCAGTGGATGTGGGCAATGTGGAGGTGCAGCAGAAGCTGCTGCATACGGCAGCGTATGCCATGGTGAATGAAGAATACACGGAGGAGAGGATGAAACGCGCCTTCGTGGAGCTTCTGACCGGGGTGCACAACAAACTGATGCAGCATCATACGGAGCTGCAGTCCCGCACGAAGGAATACTCGGATCGGATTGCGGCAATATTCCGACAGCGCACGGCCTATGATCTGTGCCGCCATTCGTCCCAATTCCTGGAGGAGCTGATCTGGCAGGCGGGCAATGGCGGACGGGATCAGGAGATGAAGCGCATCATGGATCTGATTCAGCGCAATTACAAGGAGAACATTAAGCTGGAAACGCTGGCTTCGATATTTAATTACAACAGCGCTTACCTTGGAAAAATGTTCAAGAATACGACCGGGGAATATTTCAATACGTATCTCGATAAGGTCCGGATCGACAAAGCCAAAGATTTTTTGAGGCAGGGCATGAAGGTGTATCAGGTCGCGGAGAAGGTCGGTTATACGAACGTCGATTATTTTCATAGCAAATTCAAAAAATACGTCGGCACGTCTCCGTCCAATTTCCGCAAGGAGCTGGACCTTTAA	MMKVLIVDDEPKLREGLKSIVPWTELGYQVVDTAANGNEALEKHGKYDPDLMLIDIRMPGMDGLQLIEAIRNLDSEIHLLILSGYADFDYAKRAISHRVDGYLLKPVDEDELSKYLLQIKEAIEQEQERKALNRAASDMSREQFIQTWFNPESKPDPAALRHMAERSGLLWNHYQVLLVHHNGSDESGEETDDRLKNQLIEAFEDNGRGAVFSMHGQLGILMPTPVLTAGGRKELLQLVEEAASRAGTAITASLGRQVHRLEDVVDSYRCAKERIRERFFYAPGEMLFPESERFAGGNTDEERQPYDPKQLMEQLYYAVDVGNVEVQQKLLHTAAYAMVNEEYTEERMKRAFVELLTGVHNKLMQHHTELQSRTKEYSDRIAAIFRQRTAYDLCRHSSQFLEELIWQAGNGGRDQEMKRIMDLIQRNYKENIKLETLASIFNYNSAYLGKMFKNTTGEYFNTYLDKVRIDKAKDFLRQGMKVYQVAEKVGYTNVDYFHSKFKKYVGTSPSNFRKELDL				NA	NA	NA	NA	NA
AK002_05586	1809			hypothetical protein	ATGTTATCGAATTTCATTCAGCTTATGAATGACATGAAAATCCGCAATAAATTGATATTGTCATTTGTGGTCGTGGTCTTTGTACCGGTAGCCATCGTAGGGATATTCCTTACGGGAGAGCTCCGTAAATTTGCATTCGACAATGCTTTGGAACAAGCCTATCAGAACGTGGACCGGGTCAAGAAACGGTCGACCGAAGTCATCAACGTGGCGGATGATTTATCTTACCGCTTGTCCTACGACGAGCGTCTGAGGAATCTGGCCAACCGGCAATATGAAAGCGTATACGACGTGTTCGTGGCATACAGGGAGTATCCAGATTTGCAGCAGGCGATACGGATGTACAAGGAAATATCGAATATCCGATTCTACAGCGACAATCCGACCATGCTGAACAATTGGGAGTTTCTATATCCCGAGGATGAAATCAGGAGTACGGAATGGTATCGGCGGGCGGAGGACGATATCGGGGTCATCTATTGGGACTACATTGAGGATGAGCGTGATCAGAAGGTGTACCTAAGCTTGATCAAGGGGGTTGATCTTGGAAGCAAGGACAACCGCGGCGTGCTGGTGATCAATGTCAACACCGGCATGCTCAATACGATCCTGAGCCAGGAAGCGTTCGACACGATTATCGTGGACAGCAGTAACAATATTGTCGCGGCTAACCGCCCGGAGCTGTACGGGAAAACGTTAGCCGAGATTGAAGATGCCAGCGGGGCCGTTTACCACGCGAGCGGCAGCTACGAGTCGGTCATCCATGACGAAGCCTCCAAGGTGCTGATCGAACCGCTGAATACGGAGTCCGGAGTGAACGGCTTGCGCATTATTTCGATATTCTCGATCGATAGCATCGTGGCGGATGCCAACCGGATCAGCAAGCTGGCGATGACCGTCATCATCATCAGCCTGCTGCTGGCCGTTCTTCTGATTTACAGCTTCTCTTCACTGATCTCGAACCGGCTGCTGCGTCTCAGCAAGCATATTACGAAGGTAGGTACCGGTAACCTTGGCGTTGCCATGGAGATCGACGGCAAGGATGAGATCGGCCAGCTGTCCCGTCAATTCAACTCCATGGTGGGCAACGTTAACGACCTGATGAACGAAGTGCAGGAGTCCAACGAACAGAAGCGGTTAATGGAGCAGAAGCAAAACGAAATCAAGTTCAAAATGATGGCCAGCCAGATCAATCCGCATTTTCTCTTTAATGCCCTGGAGTCCATTCGCATGGAGGCCCATCTCAAGGGCGAGACCGAAATTGCCCGGATCGTGCGGCTGCTCGGCAAAATGATGCGGAGCAATCTCGAGGTGGGCAGCGGAAAAACCACAATCAAGGACGAAATCGAGATGGTACAGTGCTATCTCGACATTCAGAAGTTCCGATATGAGGACCGCCTGAAATATGAACTTCAGGTGAACCCTGAAGCGAACCGGGTAAGAATCCCGCCTTTGATCATCCAGCCGCTTGTGGAGAATGCGGTCATACATGGGATGGATCACAAAGAAGAGGGAACCTCCATAAGGGTCAGGGTCACGGCCAGCGAAGGGAAACTGCACGTCATGACCGAGGACAATGGTGCAGGCATATCCCTGGACAGATTGCAAATGATCTACGGCTATTTGAACGATACCGACGAGAAGGACGGCGGACGGATCGGGCTCCGTAACGTACATGTCCGTCTGCAGCTCACGTACGGCCCTGAAGCGGGTCTGATTATTTATAGCGAACCGGGCATAGGAACGCGTATTGAATTCAGTATTCCGACAGGAGGAAAGAGCGATGATGAAAGTGTTGATCGTGGATGA	MLSNFIQLMNDMKIRNKLILSFVVVVFVPVAIVGIFLTGELRKFAFDNALEQAYQNVDRVKKRSTEVINVADDLSYRLSYDERLRNLANRQYESVYDVFVAYREYPDLQQAIRMYKEISNIRFYSDNPTMLNNWEFLYPEDEIRSTEWYRRAEDDIGVIYWDYIEDERDQKVYLSLIKGVDLGSKDNRGVLVINVNTGMLNTILSQEAFDTIIVDSSNNIVAANRPELYGKTLAEIEDASGAVYHASGSYESVIHDEASKVLIEPLNTESGVNGLRIISIFSIDSIVADANRISKLAMTVIIISLLLAVLLIYSFSSLISNRLLRLSKHITKVGTGNLGVAMEIDGKDEIGQLSRQFNSMVGNVNDLMNEVQESNEQKRLMEQKQNEIKFKMMASQINPHFLFNALESIRMEAHLKGETEIARIVRLLGKMMRSNLEVGSGKTTIKDEIEMVQCYLDIQKFRYEDRLKYELQVNPEANRVRIPPLIIQPLVENAVIHGMDHKEEGTSIRVRVTASEGKLHVMTEDNGAGISLDRLQMIYGYLNDTDEKDGGRIGLRNVHVRLQLTYGPEAGLIIYSEPGIGTRIEFSIPTGGKSDDESVDRG				NA	NA	NA	NA	NA
AK002_05587	2325	yicI	COG1501	Alpha-xylosidase	ATGAAATTTACAGACGGCAACTGGCTAATCCGGGAAGGATATTCCGTTTCGGGAGCGGTTCAGGCATATGATTTTGCGGTAAAAGGAGATACGTTGACGGCTTATGCTTCCACGGCACCGATTCCGGGCAGAGGAGCGACCATCAATGCACAGCTGATCACCGTGCAATTTCATTCCCCGGCACCCGGCGTCATCGGCGTGAAGCTGGTCCACTATGCGGGCGTAAGAGATCGTGGACCAGCATTCGAATTGTACAAACAGGAGGGTGACCATACGGTCATCGAAGAGAACGATCAACAGGCTGTTCTTCGGAGCGGCAATCTGAGCGTCGTGATCAAGAAAGGCCCGGAATGGTCGGTCCACTTCTATAGAGGAGAAGAACGCATCACCGGCAGCAGAGCCAAATCCATGGCGCATATCGTGGAGGACGGCGGACAGACCTACATGCGCGAAGAGCTCGACCTTGGCGTGGGCGAGTGGGTGTACGGCCTTGGCGAGCGATTCACTTCGTTTGTGAAGAACGGCCAGGTTGTGGATATTTGGAACCAGGATGGCGGCACAAGCTCCGAGCAAGCCTATAAAAATATTCCGTTCTACGTGACCAACAAAGGCTACGGCGTGTTTGTCAACCAGCCGGACCTCGTATCCTTTGAAGTAGCTTCAGAGAAAGTGAAGAAGGTTCAGTTCAGCGTGCCGGGCGAGTCGCTGGAGTATTTCGTGATTGACGGGCCCGACCCGAAAGGCGTTCTGGACAAATATACAAGCCTGACAGGCAAACCGGCGCTGCCGCCGGCTTGGACCTTCGGATTGTGGCTATCGACCTCCTTTACGACGCAATATGACGAAGCGACCGTAAACTCCTTCGTGGACGGTATGCTGGAGCGCGACATTCCGCTGCAAGTGTTCCATTTTGACTGCTTCTGGATGAAGGGCCTCAACTGGACGGATTTCCAATGGGATGAAGAGGTATTCCCGGATCCTGAAGGCATGCTGAAGCGACTGAAAGAAAAAGGCTTGAAAATCTGCGTATGGATCAATCCGTATATCGCGCAGCGTTCGCGCCTCTTCGAGGAAGGCCGTGAGAAGGGCTATCTCGTGAAGAAAGCCAATGGCGATGTTTGGCAGTGGAATTTGTGGCAGCCGGGTATGGCGCTGGTGGACTTCACGAATCCGGATGCTTGCGAATGGTACGCAGGGTACCTGCGCGAGCTGGCTGATATGGGCGTGGACAGCTTCAAAACGGACTTTGGCGAGCGGATTCCGACGGACGTTGTGTATTTTGACGGCTCCGATCCTCATAAAATGCACAACTACTACACCCAGCTGTACAACAAAGTGGTCTTTGACGTGCTGGTCGAAAAATTCGGCAAGAATCAGGCGGCGGTATTCGCGCGCTCCGCAACCGTCGGCGGACAGCAGTTTCCTGTTCACTGGGGCGGCGATTGTTATGCGGATTATGAATCGATGGCGGAGAGCCTGCGCGGCGGCTTGTCCCTCGGTCTCGGGGGCTTCGGCTTCTGGAGCCATGACATCGGCGGCTTCGAAAATACGGCTCCGGCCCATGTGTTCAAGCGCTGGCTGGCGTTCGGCTTGCTATCGAGCCACAGCCGTCTCCATGGTAGCAGCTCTTACCGGGTGCCATGGTCTTACGACGAAGAGGCCGTAGACGTTACGCGCTTCTTCACGAAGCTGAAGAGCCGCCTGATGCCGTATCTGTTCCATACCGCCGTACAGGCATCGGAGCAAGGCGTGCCGAGCATGCGCGCCATGTTCTTGGAATTCCCGGAGGATCCGGCCGTTGAAATGCTGGATCGTCAGTACATGCTGGGCGATTCCCTGCTCGTTGCACCGGTATTCAGCGAGAAAGGCGACGTGAAGTATTATCTGCCGAAGGGCCGCTGGACGCATCTGTTAACCGGAGAAACGGTGGATGGCGGAACCTGGCGCAAGGAAACGTACGGTTTCCTCGGACTGCCGTTGTTCGTACGCGGCAACTCGTTCCTCGCTTTGGGTGCGAGCGACGCTCTTCCGGAATATGACTATGCAGACGGAGTAGAGCTTGGCTTGTATGCATTGGAAGACGGCAGCGAGGCTTCCGCCATCGTTCGCAACATGAACGGAGAGAGCGAGCTGGTTGTACGGGCTGTACGTGCAGGCAGCCGGATCAATTTTACGGTGGAAGGCAGCGGCAAGCCATTTTCGGTGAAGCTGTATGACACAGGAAACGTTTCCTCCGTGGAGGGCTCGGGAGTGAGTCTGCAGGAAGGGAAAATTCAAGTGGAAGCCGGTCAACAAGCGATGGCCTTCAGCGTTGAGCTAGGATAA	MKFTDGNWLIREGYSVSGAVQAYDFAVKGDTLTAYASTAPIPGRGATINAQLITVQFHSPAPGVIGVKLVHYAGVRDRGPAFELYKQEGDHTVIEENDQQAVLRSGNLSVVIKKGPEWSVHFYRGEERITGSRAKSMAHIVEDGGQTYMREELDLGVGEWVYGLGERFTSFVKNGQVVDIWNQDGGTSSEQAYKNIPFYVTNKGYGVFVNQPDLVSFEVASEKVKKVQFSVPGESLEYFVIDGPDPKGVLDKYTSLTGKPALPPAWTFGLWLSTSFTTQYDEATVNSFVDGMLERDIPLQVFHFDCFWMKGLNWTDFQWDEEVFPDPEGMLKRLKEKGLKICVWINPYIAQRSRLFEEGREKGYLVKKANGDVWQWNLWQPGMALVDFTNPDACEWYAGYLRELADMGVDSFKTDFGERIPTDVVYFDGSDPHKMHNYYTQLYNKVVFDVLVEKFGKNQAAVFARSATVGGQQFPVHWGGDCYADYESMAESLRGGLSLGLGGFGFWSHDIGGFENTAPAHVFKRWLAFGLLSSHSRLHGSSSYRVPWSYDEEAVDVTRFFTKLKSRLMPYLFHTAVQASEQGVPSMRAMFLEFPEDPAVEMLDRQYMLGDSLLVAPVFSEKGDVKYYLPKGRWTHLLTGETVDGGTWRKETYGFLGLPLFVRGNSFLALGASDALPEYDYADGVELGLYALEDGSEASAIVRNMNGESELVVRAVRAGSRINFTVEGSGKPFSVKLYDTGNVSSVEGSGVSLQEGKIQVEAGQQAMAFSVELG	PGPT0019340_430	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0019340-xylS|yicI-K01811	NA	NA
AK002_05588	879	exsA	COG2207	Exoenzyme S synthesis regulatory protein ExsA	ATGGATCAATCCATCCGCCAGTCGTTAAAAGAAAGCACCATCCACGGGAATGAGCGTTTCCCATTCGGTGCCTATTGGTATCAATTTGCCCCCGGCGCCCATGTGGTAGACTCCCATTGGCATAAGGAAGCGGAGATTTTTTACGTGCTGGAAGGCGAGGTGCTGTTTCAGATCGATTCGGAATATATCCCCGTCCGTGCGGGCGAAGCGATATTTATCGATGGGGGAGATCTGCACACCGGCCACGCCCAGGGCAATGAAGGGTGCAGCTTCTGCGCCATGGTGTTCGATGTCGGCATGCTCGCCAGCAGCAGCTATGATCTTGTGCAGGAAGGGATGATCGTTCCCTTCCAGGAGCGGAGAGCCGCTTTTCCAAGACGGATGACAGCCGGAACCGATGGGCGCCTGCTTGAACATATAAAAGAAATGATGCTGCTGTCCAAGCACAAACCGGCTGGATATGAGGCTGCCATTAAGGGGCATCTGTTTCTCATGCTGTTTCAGGCCGCTTCCTCCGGCAGGCTTGCCAACCGCAGCCGGAGCGAAGCGGCGGACATGACGAGAACGGAACGCTTGAAGAAGGTCATTCTCTACATCCAGAGTCATTACCATCGACCTATCCGTCTGAGTGAGCTGGCTGACCTGATCCCGATGAGCGAAGGTCAATTTTGCCGCTTCTTCAAGTCCATGACCGGTCAAACGCCCGTCGACTATATGAATTCCTATCGCGTTCGCCAGGCGGCGGAGCTCCTTCGTTCGCCGGACAATAAAATATCCGACATCGCACTCGATGTCGGATTTGGACACATCAGTTATTTTGTTCGGGTATTCCGCAAAATCATGAACTGCACGCCTTCGGAATATCGGAAGAAATTATAA	MDQSIRQSLKESTIHGNERFPFGAYWYQFAPGAHVVDSHWHKEAEIFYVLEGEVLFQIDSEYIPVRAGEAIFIDGGDLHTGHAQGNEGCSFCAMVFDVGMLASSSYDLVQEGMIVPFQERRAAFPRRMTAGTDGRLLEHIKEMMLLSKHKPAGYEAAIKGHLFLMLFQAASSGRLANRSRSEAADMTRTERLKKVILYIQSHYHRPIRLSELADLIPMSEGQFCRFFKSMTGQTPVDYMNSYRVRQAAELLRSPDNKISDIALDVGFGHISYFVRVFRKIMNCTPSEYRKKL				NA	NA	NA	NA	NA
AK002_05589	1404			hypothetical protein	ATGACAAGGCTGTCCAGAACGATGAAAGGATGGATTCTCGGACTTATCGCCGTACTGGTGTTTAGTGTCTTTCCTACGTCCCAGGTCCAAGCCGCCGAGGTCTGCGCTGAGCCTGCTTGGAGCAGTTCTGCCGTATATGGCGGGGGCAATATCGTATCCCACGGAGGTAAGGCCTGGAAAGCGAAATGGTGGACTCAGGGTGAAATCCCCGGAACGACGGGACAGTGGGGAGTATGGGAGGACCTGGGAGCGTGCAATCCAGGGACACCGCCGGTAGATCCACCGGTGGATCCGCCAGTAGACCCGCCGGTAGATCCTCCGGGGACTGGTGATCGGATGTACGTCGCTTACGCCAGCTCTTGGAACACCAGTATCTACGATTTGACGGCTGCGAACATTCCCAATTACATCACGCATCTCAATCTTGCATTCGTAAGGCCGGACACCACGTATACGCAAGGGTCGTATGCGTTTGATCAAGCCGTAGCGGGCTTGGAATTCGTGGAAGGAGCCACGACGCCGAATGGGCAGCGTAAATTTACGGCCCAGCAGTCGCAGGATCTGCGCAACAACATTGCCGCACTGAGAGCCCGCGGAACGAAAGCGTTCCTCTCGGTAGGAGGCTGGTCATACAGCCAAGGATCGCAGTGGTCCAGATTCAATGCCAAGAATATCGTCGATTTGGCCCTGGATCTTGGCGCAGCCGGCGTCGACATTGACTGGGAATCCAGCGGCAGCAGCTGCAACAAAGGAACGGCTGCCCAGTTCAGCTGTACCAAGGATGGCGAGATCGCAGGCATTATTACGAGCCTCTACAATGAAATCCATGCCAGGAACGCGAATTTGCAGATTTCCATCGCCGGCTGGTCCACGGGCGCCTATTACGTGAAGGGAACGCCGTTTGAGGAAGGCAAGGTCCAGTGGGGTTCTCCTTTTGGCGGTACCATGTACCGCGTAGTTAAGGATCATGGCAGCAAGATCGACTTTATCAATCTGATGTCCTACGACGGCGGTATTTATTACGACCCGCGCGAAGGCTATGAATCCTACAAGGCGATATACAACGGACCCATCAATATGGGCATGCAGATTGCGCCGGAGGGATCCGGCGGGGCCGTCCTGCAATTGAATGCCGCGCCGGGTACGGTATACGATGCCGATATGATGAACGGTCAGAATAACATCGCGACGGCTTATTATAATGTAGAAACGATGGTAAACTACATCAAGAACAAAGGAAGAGCGAATGATGGATTCATGCTGTGGCAGCTCTGGAAGCAGCGGGTTCATCAGCCAGCTCCGCCCGGCGCGGCGAACGAAAACAGCGCCGGCCAATACGTATGCCGGAACCTGCCGCTTCAGGGGGACTGCAATCAGGTCATACCAAGCCTGCCGAAATTATAA	MTRLSRTMKGWILGLIAVLVFSVFPTSQVQAAEVCAEPAWSSSAVYGGGNIVSHGGKAWKAKWWTQGEIPGTTGQWGVWEDLGACNPGTPPVDPPVDPPVDPPVDPPGTGDRMYVAYASSWNTSIYDLTAANIPNYITHLNLAFVRPDTTYTQGSYAFDQAVAGLEFVEGATTPNGQRKFTAQQSQDLRNNIAALRARGTKAFLSVGGWSYSQGSQWSRFNAKNIVDLALDLGAAGVDIDWESSGSSCNKGTAAQFSCTKDGEIAGIITSLYNEIHARNANLQISIAGWSTGAYYVKGTPFEEGKVQWGSPFGGTMYRVVKDHGSKIDFINLMSYDGGIYYDPREGYESYKAIYNGPINMGMQIAPEGSGGAVLQLNAAPGTVYDADMMNGQNNIATAYYNVETMVNYIKNKGRANDGFMLWQLWKQRVHQPAPPGAANENSAGQYVCRNLPLQGDCNQVIPSLPKL	PGPT0012130_2898	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK002_05590	753			hypothetical protein	ATGAGCGGTTTAATGAGGTTGGACGATATGGATGCAGCCTATGGATTGCCGGAGGAATGGCAGCGGGAAGCGATCGTTAAGCTGACTGAGAAAATGACGGATCGTTCCGCCAAATTCCCCTGTATTCCGGCAGTGCAAGGACATGCGCTGAATCATTTTAGATACGGTTTTATCAACCGCGGCGAATCGCAGGAGGCGGCGGGGGAATTGGCCGCACTGCTGCAAGAGTTCGGGCTAGGCTCCAGGGGCTTTGGCCCGTATACTTCACTTGTCGTATTGATCCATACGGAGCATGGCCGAGATAACCTCGAGGGTGTGGAGTATTATGAGCGTTTGTTCTGGCAGCTGCTGAGCCGGACCACCGAATACGATACGGAGCCTTGGCCGGCGGACCTGCCGGAGGAACCAGACGATCATCTGTGGGAATTTTGTTATGCAGGCGAGCCTTATTTCGTGTATTGCGGAACGCCGGCACATGAGCTTCGCCAGAGCAGGTATTTCCCCTACATGATGCTTGCTTTTACGCCTCGTTGGGTCCTGAAGCAGTTCAATGCCCGGGCTAGGCAAGCGGAACATACCAAGGTGCTGATACGCAAGCGGTTGACCGAATATGATCCAGTCCCCCCGCACCCGGACTTGAAGTTCTACGGGGCGGAGGACAATTATGAATGGAAGCAATATTTCCTGCGGGATAACGAGGAGTCTCTGTCGAAATGTCCGTTTGCAAGGCTGCACAAAGAGACTCATAAATAG	MSGLMRLDDMDAAYGLPEEWQREAIVKLTEKMTDRSAKFPCIPAVQGHALNHFRYGFINRGESQEAAGELAALLQEFGLGSRGFGPYTSLVVLIHTEHGRDNLEGVEYYERLFWQLLSRTTEYDTEPWPADLPEEPDDHLWEFCYAGEPYFVYCGTPAHELRQSRYFPYMMLAFTPRWVLKQFNARARQAEHTKVLIRKRLTEYDPVPPHPDLKFYGAEDNYEWKQYFLRDNEESLSKCPFARLHKETHK				NA	NA	NA	NA	NA
AK002_05591	1719	rnjA_3	COG0595	Ribonuclease J1	ATGTCTAAACCCCTGCTAACCGATAAGATTCAAACTGCCAAACCGGCCAAAAAACCGAGGCCTTCCGCTCCGCCCGTGCGCATCTTTGCGCTGGGGGGACTTGGCGAGATCGGAAAGAACATGTACGGCGTCGAATTCAAAAACGAGATCATTATCATTGATGCCGGGCTGAAATTCCCGGATGCCGAAATGAGCGGCGTCGATTACATTATTCCGGATATCCGTTACTTGCTCGATAATAAGCACAAAGTAAAGGGTATGTTCCTGACCCATGGCCATGAAGATCATATCGGGGCTATTCCTTACGTGCTTCGTCAAATTCAGATGCCGATTTATGGCGGAGCCCTGACCATCGGCCTGGTTCGTGCGAAGCTGGAAGAGCATCGCCTGCTGGATCAGAGTGATCTGCGCATATTCCATGAAGACGAGACGATTGCATTCCGTCATCTTTCCGTTCATTTTTTCAGAACCACCCACAGCATTCCGGATGCCTTCGGGGTCGTTGTCGAAACCCCGTACGGACCGATCGTACATACCGGGGACTTTAAATTTGATTTTACGCCGGAGGACAAGCCTGCCAATCTGCACAAAATTCTGCAGATCGGCGGGCGCGGCGTACTGGCCCTGATGGCGGACAGCACCAATAGCGAACGTGACGGGTTCACCCCTTCGGAGCGCACCGTCGGCGATTCCATTCTGCGCCTGTTCCATGAATGTCCCGGGCGGATCCTGTTTGCGACCTTTGCATCCAATGTTCATCGTCTGCAGCAGGTCGTCGAAGCCGCCATTCGAACCGGCCGCAAAATCGCTATCGTCGGCCGCAGCATGGAAAAGGTGTTTGTGATCGGCCAAGAGCTTGGTTATATTCGCGTGCCGGACGGCATGATGATTGATGTCAAAGCCGTTAACCGCTATCGCGACGACCAGGTGCTGATTATTTGCACGGGCAGCCAGGGCGAACCCAATGCGGCGCTGACGCGCATCGCTTCGGGTGCCCATCGTTCGATTCAGATTCATCCCGAGGACACCGTCATTTTCTCGTCATCGCCGATTCCCGGGAACACCCAGAACGTTAACCGCAGCATTGATCTCTTAATGCGTGCCGGGGCCGAAGTTAAATACGGCTCCATTCTCGATATCCATACCTCGGGCCACGGCTGCCGCGAAGATTTGAAGCTCATGATCAGCAGCTTGCGTCCCAAATACTTCGTGCCGATTCACGGAGAATACCGGATGATGCTCAATCATCGTCATCTTGCCGTGCAGGTCGGGGTTCCCGACAGCAACGTCTACTTGATGAACATCGGCAACACGCTGTCCCTTTTCCGCAATTATGCGCGTAAGGGCCGGAACATCCCTTCGGGTGACGTCTATATTAACAATGGTGAACTTCGCACCCATGAGAAGGAGCTGCTTGAGGAACGCGTGCAGCTCGCACACGATGGCGTGGTGATCGTCGCGATTACCATCAACCGGGAAACGCGCAAGCTGCTCTCCGGACCGGAGCTGATTACCCGCGGGTTCGTGTATATGCAGGACTCCAAACCGCTTCTGCGCCGGGCCGAAGCAATGCTGCGCAAACAGCTGAACAAAGCCGGCGAACAGCGGGAATACAACCGTGCTGCCTGGGAGCAGATGACCAACAACACGCTCAACCGCTATTTCAAGCGGGAGCTGGGCAGAAGCCCGTACATTATGCCTTCCATTATGGAGGTATAA	MSKPLLTDKIQTAKPAKKPRPSAPPVRIFALGGLGEIGKNMYGVEFKNEIIIIDAGLKFPDAEMSGVDYIIPDIRYLLDNKHKVKGMFLTHGHEDHIGAIPYVLRQIQMPIYGGALTIGLVRAKLEEHRLLDQSDLRIFHEDETIAFRHLSVHFFRTTHSIPDAFGVVVETPYGPIVHTGDFKFDFTPEDKPANLHKILQIGGRGVLALMADSTNSERDGFTPSERTVGDSILRLFHECPGRILFATFASNVHRLQQVVEAAIRTGRKIAIVGRSMEKVFVIGQELGYIRVPDGMMIDVKAVNRYRDDQVLIICTGSQGEPNAALTRIASGAHRSIQIHPEDTVIFSSSPIPGNTQNVNRSIDLLMRAGAEVKYGSILDIHTSGHGCREDLKLMISSLRPKYFVPIHGEYRMMLNHRHLAVQVGVPDSNVYLMNIGNTLSLFRNYARKGRNIPSGDVYINNGELRTHEKELLEERVQLAHDGVVIVAITINRETRKLLSGPELITRGFVYMQDSKPLLRRAEAMLRKQLNKAGEQREYNRAAWEQMTNNTLNRYFKRELGRSPYIMPSIMEV				NA	NA	NA	NA	NA
AK002_05592	1224	naiP		Putative niacin/nicotinamide transporter NaiP	ATGGGCAATATGCAATTGTTAAAAGAGCCTAAACGGCGCAAGCTGCTGTTCAGTGCGGGTGCCAGCTGGATGTTCGATGCGATGGATGTCGGCATGATTTCGTTTGTTGTTGCGGCATTGGCAGCGGAATGGTCGCTAAGCTCGCAGCAGGTCGGCATTCTGACAAGCACCACATCGATCGGAATGGTATTCGGCGCGGCCATGGCCGGATTTCTGGCGGATAAATATGGACGGAAAAATATTCTGCTGTGGACACTGCTCATATTCTCGATAGCGAGCGGTCTTTCCGCTCTGGCTACCGGTTTTGTCATGCTGTGCTTGATGCGCTTTATCGCCGGCTTCGGACTTGGCGGAGAGCTTCCGGTAGCTTCGACGCTGGTATCCGAAAGCATGCCCGTTCATGAACGGGGGAGAGCGGTGGTGCTGCTGGAAAGCTTTTGGGCGGCAGGCTGGATACTATCCGCGCTTATTGCTTACTTCGTCATTCCGGATTACGGCTGGCGGACAGCCTTTGTCATCGGGGCTCTGCCCGCGTTCTATGCACTCTACCTGCGGCGAGCCATCGAGGATTCGCCAAGGTATATCGAGCAGAAGGCCAAGACCGTCCGGAAGCTGACCTTCGGGCAGCGTGTGGCCTCAGTCTGGTCGGTCGAACATCGGCGTACGAGCATTATGCTGTGGGTGCTGTGGTTTACGGTCGTATTTTCATATTACGGGATGTTCCTGTGGCTTCCCACCGTTATGGTCGATAAAGGATTCAGCTTGGTTCGAAGCTTCCAGTACGTTCTGATTATGACGCTTGCTCAATTGCCGGGGTATTTTACGGCAGCGTATTTTATCGAGAAGTTCGGACGTAAATTCGTGCTGGTTACTTATTTGGTGCTTACGGCGCTGAGCGCAATCTGGTTTGGCTACGCCAATACGGAAGGCTCGCTGCTCGCGGCAGGCATATCCTTGTCCTTCTTCAATCTGGGAGCATGGGGAGGCTTGTATGCGTATAGTCCGGAGCTTTATCCGACAAAGGTTCGTTCCACGGGAGTCGGGCTTGCCACATCGTTCGGTCGGATCGGTGGCGTGATCGCGCCGCTGCTGGTCGGCGTGCTGAAGCAGAATGGGACCCGCATCGAAATCATTTTCGTAATGTTTTTCGTAACCATCCTGATCGGGGCGCTGGGGGTACTGGTGCTTGGCAAGGAAACGAAAGGCCTGGAGCTTGCAGACTAA	MGNMQLLKEPKRRKLLFSAGASWMFDAMDVGMISFVVAALAAEWSLSSQQVGILTSTTSIGMVFGAAMAGFLADKYGRKNILLWTLLIFSIASGLSALATGFVMLCLMRFIAGFGLGGELPVASTLVSESMPVHERGRAVVLLESFWAAGWILSALIAYFVIPDYGWRTAFVIGALPAFYALYLRRAIEDSPRYIEQKAKTVRKLTFGQRVASVWSVEHRRTSIMLWVLWFTVVFSYYGMFLWLPTVMVDKGFSLVRSFQYVLIMTLAQLPGYFTAAYFIEKFGRKFVLVTYLVLTALSAIWFGYANTEGSLLAAGISLSFFNLGAWGGLYAYSPELYPTKVRSTGVGLATSFGRIGGVIAPLLVGVLKQNGTRIEIIFVMFFVTILIGALGVLVLGKETKGLELAD	PGPT0014435_2025	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_SYMPORTER,PGPT0014435-ydjE-K08369	NA	NA
AK002_05593	1074	sasA_27		Adaptive-response sensory-kinase SasA	ATGATGAATAGTGAATGTCTCAGCTATGATTTTATGGTTCAGGCGATAGAAGTTGCGCCGATTGGATCGGTATTCATCGATTCAGAGGGGAGCATTATCCGAATCAATCCGGCCGCTTGCAGAATGCTCGGATATGAGGAGGAAGAATGTCTGCATCATCCCTATAACGATTGGGTTTATCCGGAGGACGTAAATAAGGACAGGGAAATGATGGAAAACTTTAAAACGGGCCGGATCTCTTCCTTGCAAATGGAAAAGAGATTGATACATAAACAGGGGGATATCAGGTGGGTATCGTGTAGGCTAAGCACAGCCCGCAGCAGAGAGGGAAGGGCGCTGGGCTATGTGGCGCATTTGACGGATATCACCGACATGAAGAGAGCGGCCGATCAGGAAGAGAAGCGGCTGATCCAGTCCGACAAGCTGTCCATGGCCGGGCAGCTTGCCGCAGGAATCGCCCATGAAATCCGTAATCCGATGACGTCCATCAAAGGATTCGTGCAGCTGATTCGCTCCGGCGCCGGACGGAAGGATGAATACTTCGATATCATCTCTTCGGAGATTGAAAGGATCGAACTGATCGTAAGTGAGCTTCTGTTCTTGGCGAAGCCGCAAAGCGTGAAATTCGAGCGTGCCGATATCCGGCAGCTGCTGGATCAAGTGATTACGCTATTAAATACGCAGGCGATTATACATAACGTAGAGATCATAACCGATTTTGGAGAGCAAGAGGCCAATGTAGACGGTGATGTGAATCATCTGAAGCAGGTCTTCATAAATTTTATAAAAAATGCGGTGGAGTCGATGCCGGACGGCGGCAAGTTGACCATACGGCTGGAGAGAGGCAGCGACCAGACTGTGGCGATTCATTTCACGGATAACGGATGCGGAATCCCGGAATCGATCCTTTCCCGTCTCGGGGAACCGTTCTTCACAACGAAGGAGAAAGGCAACGGCTTAGGGTTCATGATCAGCAAAAAAATGATCGAGGATCACAGGGGGCAGGTGCATGTGACTAGCAAGCTTCAGGAGGGAACGACCATAACGGTCATGTTGCCGCTCAGCATAATCTAG	MMNSECLSYDFMVQAIEVAPIGSVFIDSEGSIIRINPAACRMLGYEEEECLHHPYNDWVYPEDVNKDREMMENFKTGRISSLQMEKRLIHKQGDIRWVSCRLSTARSREGRALGYVAHLTDITDMKRAADQEEKRLIQSDKLSMAGQLAAGIAHEIRNPMTSIKGFVQLIRSGAGRKDEYFDIISSEIERIELIVSELLFLAKPQSVKFERADIRQLLDQVITLLNTQAIIHNVEIITDFGEQEANVDGDVNHLKQVFINFIKNAVESMPDGGKLTIRLERGSDQTVAIHFTDNGCGIPESILSRLGEPFFTTKEKGNGLGFMISKKMIEDHRGQVHVTSKLQEGTTITVMLPLSII	PGPT0025286_127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025286-kinC-K07698	NA	NA
AK002_05594	621			hypothetical protein	ATGTACACGGAACAAGATATTTGGATTGTGCTTACAGGCACGGGCACCTGGTTCAGCAGAATGATCCAATATTTCACGAAGGCCCCACTTAACCATGCATCCATTGCGTTTGATTCCGAGTTACGCGAAGTGTACAGCTTTGGGCGAAAGAAGGCGAACAATCCGTTTGACGGCGGTTTGGTTCGCGAGAACCTGCGCGACCCTTTCTTCTACACTTCGGAGTGCGCGGTATACCGCTTCCGCGTCAGTAATGAAGACTATCAACGCATGCACAATCTTGTCAAAGAGATGATGCGTGATCAGGACCGCTACAAATATAATCTGCTAGGGCTGCTGGGTATATTGTTTCGGATTCATATTGATCGTGATGATGCTTTCTTCTGCTCCCACTTTGTCGCGACGGTGCTGGAGCAAGCAGGCCTGCGGCCTGTGAACAAGCCTTGTCATCTTGTAACGCCGGAAGATTTCTCCCACTCCCCCCAGTTGAATGAAGTCTATCGCGGGCCTCTCCATGGTTATCTTGCTCAAGACATGCCAGCCCCGTTGTCCCCGTCGCCGACATTTGTTCCTGTGACCACGAAAGGCCGAGGCAAGTTCTTCAGAATCGGAAAAACGGGTTAA	MYTEQDIWIVLTGTGTWFSRMIQYFTKAPLNHASIAFDSELREVYSFGRKKANNPFDGGLVRENLRDPFFYTSECAVYRFRVSNEDYQRMHNLVKEMMRDQDRYKYNLLGLLGILFRIHIDRDDAFFCSHFVATVLEQAGLRPVNKPCHLVTPEDFSHSPQLNEVYRGPLHGYLAQDMPAPLSPSPTFVPVTTKGRGKFFRIGKTG				NA	NA	NA	NA	NA
AK002_05595	651			hypothetical protein	ATGTTTCAGGACATTTTGGATTTTTTAATGAAGTTTGGTCCATGGGGATTGTTTATTCATTCGTTTGCGGATGCTGTCATTTTTCCGGTTCCCGCCTTTTTTCTGCAGGTTTCGCTTAGCATCATGCATCCGCAGAATGCGCTGTGGCTTGCAACGTATGGTTTTATCGGATGCTTGCTGGGGACGCCGCTGGGCTATTTGATCGGAAAGCTGCTTGGGAAGTCGGTATTATACAAGATACTGAAAAAAGAGTGGATTGACGCTGCAACGAACATGTTTCAAAAAAACGGCGAAGCCGCCATACTGATCGGCTCCTTTACGCCGGTTCCCTTTAAAGTGTTTACGATTCTATCGGGATGTTTGAAATTCCCCCTATGGAGACTGTTGGCATATGCCGCGCTGGGCCGGGCTACCAAGTTTTATGTGGTGGGTACCCTGTTCTATCTGTACGGTAACGCCGCGGAGGGCATGGTTAAGGATGTATCGTTATATATTGCGCTCATCGCCGTTCCGCTTCTGTTGATCGGCGTGTACTTTAACCGCAAACGCAAGCGTAAGAAAATGGAGCAGCAAAAACTGGCTGAATCCGGTCCCGTCGTGGTGGAGCAGGCGGTTCTGGAGCAGGCGTCGGATCAGACTCCATCGGCCTAA	MFQDILDFLMKFGPWGLFIHSFADAVIFPVPAFFLQVSLSIMHPQNALWLATYGFIGCLLGTPLGYLIGKLLGKSVLYKILKKEWIDAATNMFQKNGEAAILIGSFTPVPFKVFTILSGCLKFPLWRLLAYAALGRATKFYVVGTLFYLYGNAAEGMVKDVSLYIALIAVPLLLIGVYFNRKRKRKKMEQQKLAESGPVVVEQAVLEQASDQTPSA				NA	NA	NA	NA	NA
AK002_05596	813	pdxK	COG0351	Pyridoxine kinase	ATGACGATACGAAAAGCATTAACCGTAGCCGGCTCGGATACAAGCGGCGGCGCTGGCATCCAGGCCGATCTGAAGACCTTTCAGGAATTTGACGTATACGGAATGACCGCACTGACCACGATTGTCTGCATGGAACCAAAAACATGGGATCACCAGGTTTTCCCGGTAGCATTGGATATCGTTGAAACGCAGTTGAAAACCGTGCTTGAGGGCATCGGCATCGATGCCATGAAGACCGGCATGCTCGGATCCGTAGAGATCATCGAACTCGTTTCCCAGTATATCGACCGCTATGATCTGAAACGGATCGTCATCGATCCGGTGATGGTCTGCAAAGGCACGGATGAAGTGCTGCAGCCCGAAAATACGGAAGCGATGCTGGAATTCCTTCTCCCGCGCGCCGATTTGGTAACGCCAAATCTGTTCGAGGCGTCCCAGTTGGCCAAATCCGGTCCGATCACGTCCCTGGATCAAATGCAGGAGGCTGCCGCCATCATTCACGAGCGCGGCGCAAAGAACGTGCTGATTAAAGACAGAGGCAAGATCCGCGAAGGCAAAGCCATGGATCTGCTCTATGACGGAAACAGCTTCGAATGGTTCGAGGCCGACGCCATCGTTACCAAGTACACCCACGGTGCGGGCTGCACATCATCCGCTTCCATCACGGCCAATCTTGCCAAGGGCTTGAGCGTTCGCGAGTCGGTACAGCAAGCGAAAGCCTTCATTACCCAGGCGATTTCGAACGGCTTCCCGCTGAATGAATTCGTAGGTCCGACAAGGCATTCCGCACACCGCAGTTTATCTGCAAATTAA	MTIRKALTVAGSDTSGGAGIQADLKTFQEFDVYGMTALTTIVCMEPKTWDHQVFPVALDIVETQLKTVLEGIGIDAMKTGMLGSVEIIELVSQYIDRYDLKRIVIDPVMVCKGTDEVLQPENTEAMLEFLLPRADLVTPNLFEASQLAKSGPITSLDQMQEAAAIIHERGAKNVLIKDRGKIREGKAMDLLYDGNSFEWFEADAIVTKYTHGAGCTSSASITANLAKGLSVRESVQQAKAFITQAISNGFPLNEFVGPTRHSAHRSLSAN	PGPT0009125_2722	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009125-pdxK|pdxY-K00868	NA	NA
AK002_05597	747	map_3	COG0024	Methionine aminopeptidase 1	TTGATAATCCTCAAAACACAAGAACAAATCGCCAAGATGAATAAAGCCGGCGATATTCTCGCCGAATGCCACCGACAGATCGCCAACATGATCAAGCCGGGCGTAACGACGCTGGAGATTGATCAGTTTGTCGAACGGTTCCTGGCGGAGCGCGGCGCGACGCCGGAGCAGAAGGGGTATCATGGTTATCCTTTTGCGACCTGCGCATCGGTCAATGACGTGATCTGCCATGGTTTTCCGAGCCATGAGCCGCTGAAGGACGGGGATATCGTTACCATTGATATGGTGGTGAAGTATGATGGTTGGCTCGCCGACTCGGCTTGGTCCTATCCGGTCGGAAACGTCTCCGAGGAAGCGCAGCATCTGCTGGACGTGACGAAGAAAGCTCTGTACCTCGGAATTGAGCAAGCGGTGATCGGCAACCGGATCGGCGATATTTCCCATGCGATTCAATCCTATGCGGAAGCGCAGAATTTATCGGTTGTCCGTCACTTCGTGGGGCACGCCATCGGCGAAAATATGCATGAGGAGCCGCAGGTACCGCATTACGGGCCACCCCACCGCGGGATTCGCCTTAAAGAGGGCATGGTCATCACCATCGAACCGATGCTGAACCTGGGAACATATCAATGCAAGATCGATTCGGACGGATGGACCGCCAGAACCGTGGACGGGAAATGGTCCGCGCAGTATGAGCATACGCTCGCCATCACGAAGGATGGCCCGGTGATCCTGACGGAGCAATAA	MIILKTQEQIAKMNKAGDILAECHRQIANMIKPGVTTLEIDQFVERFLAERGATPEQKGYHGYPFATCASVNDVICHGFPSHEPLKDGDIVTIDMVVKYDGWLADSAWSYPVGNVSEEAQHLLDVTKKALYLGIEQAVIGNRIGDISHAIQSYAEAQNLSVVRHFVGHAIGENMHEEPQVPHYGPPHRGIRLKEGMVITIEPMLNLGTYQCKIDSDGWTARTVDGKWSAQYEHTLAITKDGPVILTEQ	PGPT0020010_9344	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
AK002_05598	786			hypothetical protein	TTGGAAATGGGACTGTTGCTCGAATATGGGTGGGTGCTGCTGGTGTTGATTGGACTCGAGGGGATCCTCGCAGCCGATAATGCCCTGGTGATGTCCATCATGGTTAAGCATTTGCCGGAGGACAAAAGGAAGAAGGCGTTATTTTACGGATTGGCCGGTGCGTTTGTGTTCCGTTTCGCATCCCTCTTCATTATCTCTTTTCTGGCGGATGTCTGGTACGTACAGGCGATTGGAGCCTTCTACCTGCTGTATATCAGTATCAATCATATGGTGAAGCAGTTCTTTGTAAAGAAGAAGAAACATCTGAAGGAAGCGGAAATGAAGCAAGAAAAATTCTGGGTTACCGTGTTAAAGGTAGAGCTTGCGGATATTGCGTTTGCGGTTGATGCGATTTTGGCCGCCGTAGCCCTTGCCTTGACGCTGCCCGAAACCGGCCTTCCGAATATCGGGGGCATGGACGGCGGACAATTCCTGGTTATCCTGGCAGGCGGAATTATCGGCTTGGTGATCATGCGGTTCGCGGCATCGTATTTCGGCAGGCTGCTCGTAAGAAGGCCCGGCTTGGAAACGGCTGCATTCCTGATCGTGGGATGGGTAGGAATCAAGCTGGCCGTCTATACGCTCGCGCACCCGGATATCGCTGTATTAGAGAAGACGTTTCCCAAGAGTGCCGGCTGGAAGCTCATATTCTGGGGCGTATTGATCCTGATCGCGGTCCTCGGCTGGTTTTTGTCCAAGGAGAAGAGCGATATGACCCAGAAGGAACGGAAACAAGTGGAAAGCTAA	MEMGLLLEYGWVLLVLIGLEGILAADNALVMSIMVKHLPEDKRKKALFYGLAGAFVFRFASLFIISFLADVWYVQAIGAFYLLYISINHMVKQFFVKKKKHLKEAEMKQEKFWVTVLKVELADIAFAVDAILAAVALALTLPETGLPNIGGMDGGQFLVILAGGIIGLVIMRFAASYFGRLLVRRPGLETAAFLIVGWVGIKLAVYTLAHPDIAVLEKTFPKSAGWKLIFWGVLILIAVLGWFLSKEKSDMTQKERKQVES	PGPT0003867_2	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003867-ykoY-NA	NA	NA
AK002_05599	636			hypothetical protein	ATGATGAGAAAATCCAAGGTTATAATCATGCTTAGCTGTTTGCTCTTGCTCGTCAGCCTGTATACGATAAAACCATCCGACGTCTTTGCTTGCTCATGTGCCGGACCGCCTGAGGTTGCGGAAAGCTTGGAACGGAGCGCAGCGATATTCGCAGGCAAGGTGACTCAGATCGCGGGCCCGACGCGGAAGCTGGTCATGTCCTCGGCAGATCCGGTTCATGTTACGTTAGAGGTAACGGAAATATGGAAAGGCGAGCTGAACCCCGTAACGGAGCTTACCACGGCCATGTCATCGGCCAGCTGCGGTTATGACCAGTTTGCCGTAGGCAGCGAATATCTGGTGTTCGCGTCCGCGGAGTCGGGACGGCTGACAACAGGGCTTTGTGACGGAACGAAGCCGCTCACCACCGCCGGCAAGGAGCTATCCGAGCTAGGGGCCGGATATCCTCCGAAAGCTGCGCCTCCACCTGGCGAAACGGGGTCTGATACGCTTGCTGAGGGAATGCTTCCAAGCGAAGGTGAGGCTGCAGATCAGACATTTATGCAGAGGCCTTTCCTGTGGGGAGCTGTCGCAGTGCTGATGGCAGCTGGACTATGGCTCTATTTTTGGAGGAAGAGAAAAAGAAATGTAAAGTGA	MMRKSKVIIMLSCLLLLVSLYTIKPSDVFACSCAGPPEVAESLERSAAIFAGKVTQIAGPTRKLVMSSADPVHVTLEVTEIWKGELNPVTELTTAMSSASCGYDQFAVGSEYLVFASAESGRLTTGLCDGTKPLTTAGKELSELGAGYPPKAAPPPGETGSDTLAEGMLPSEGEAADQTFMQRPFLWGAVAVLMAAGLWLYFWRKRKRNVK				NA	NA	NA	NA	NA
AK002_05600	567	COQ5_9		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAAAGAGAGTTTTGATCCGTCACTCATCGAGCGATTGGAAAGTCCGGAAAGGAAAAAAGAGCTGCCGGCTTCTTCACTGCTTAAGATGCTTCAGGTGAATGGCGAGGTGGACGTGCTGGATATCGGGGCGGGCACCGGCTATTTTTCCATACCGGCAGCCTCATTAACGACAGGCACCGTTTACGCGCTGGATACCGAGCCAGCCATGCTCGACATGATGCGCGGGCGTGCACAGGAACAAGGAATCACGAATGTGAAGGTGATGGAAGGCGTGTTGGAACAGCTTCCCTTCCAGGATGAAACCGTGGATCGAGTCATCGCCTCCTTGATTCTTCACATCACCGATCGGCTGGAGGAGTCTATCTCCCAAATCGCTAGAGTGATGCGGCCAGGCGGGCGCTGCTTGTGTCTGGAATGGCAGGAGGACCCGTCCGAGAAGCGGGTTCCGAAGCCGAACCGGGTTGACCCGCAGGTGTTGAAAGCTTTGTTGGAGCAAGCAGGGCTTCAGGTTGACGGAATCCGGTATCCCACGGATCGCCACTATCTGATCATTGCCAGTAAATAG	MKESFDPSLIERLESPERKKELPASSLLKMLQVNGEVDVLDIGAGTGYFSIPAASLTTGTVYALDTEPAMLDMMRGRAQEQGITNVKVMEGVLEQLPFQDETVDRVIASLILHITDRLEESISQIARVMRPGGRCLCLEWQEDPSEKRVPKPNRVDPQVLKALLEQAGLQVDGIRYPTDRHYLIIASK				NA	NA	NA	NA	NA
AK002_05601	1398	lutA_2		Lactate utilization protein A	ATGAATTCAACCCATGAGAAGCTTGCACAATCGCTGAAGCTAACGCTGGACGAGGATCAATTGACGAACTGTATGCGCTGCGGGTTCTGTCAGACCGCATGTCCGACATTCATCGAAACCGGGCTCGAGGCTGCCTCCCCACGCGGGCGGATCGCCCTCATGAAGGCGGTTGTCGATGGTTTGATGGAACCGGATGAGAGCTTTCGGAGCCAAATGGATCTCTGTCTGGGGTGCAGGGCATGCGAGCCGGCATGTCCGTCCGACGTGAAATACGGCCAATTGATCGAGCAGACCCGGGCGGCCATTGCGGCGGAGAAGCCTTATTCGCTGCCGGTACGAGTCGTCCGCAAGACGTTCCTGCAAGGGATTTTCCCGCATCGCGGAAGACTGAAGCTGATCGGCAAGACGCTTTCGTTCTATCAGAAATCCGGGCTGCAGAAATTTGCGCGCAGCTCCGGGGCCATGAAGCTGTTTCCCGACCATCTTCAGCAGCTGGAAAAGGCGCTGCCTGACGTAACGGGCGATGGTCTGGAAGAGCTGTGGAGCAAGGCCGGCTTGCCCTACCGCCGCGAGAGGACAGGGAGCGGTTCCAAGCTTATGGTGATCCCCGCGTCAGGCGCAAAGGTCGGCCGGGTCGGCATGTTCCGGGGCTGCATTATGGATGTCATGTTTGCTTCTACGAACGTGAACACCGTTCGGCTGCTGCGCCAGGCCGGGTTCGAGATTGTCATTCCGGAGGAGCAGGTATGCTGCGGTGCGCTGCATGCCCATGCCGGTGAAATGGACGATGCCAAACAGCTGGCCGGCCAGAATATATGGGCTTTTGGGGAAGCGAACGTGGATTACATTGCAAGCAATGCGGGGGGCTGCGGCGCCCTGCTGAAGGAATACGATCATCTGATGCATGCCGAACAGGATGAGCGGCTTCAGGTAGCGGCCGTTCGTTTCGCAGAACAGGTAAAGGACATCTCGGAGCTGCTGAGCAGCCCGGGACGGCCGCTTACGCCAATTCAAGCGGAAAGCGCGAATAAGACCGTCAAGGTCACCTACCAGGATTCTTGCCATCTGCGCAACGTCATGCGGGTGCAAGGAGAGCCTCGCCAGCTGATGCAGCAGCTTCCGGGCGTAGACATGTGCGAGCTACAGGGAGCAGAGGTTTGCTGCGGGTCCGCAGGCATTTACAATCTGACCCAGACAGAAATGTCGACGACGCTGCTCGATCATAAGATGGAGCATGTGGAGGCAACAGGGGCCGAGGTCATCGTGACCTCGAATCCGGGCTGCCTGCTGCAGATGAAGTGGGGCATCGAGCGTGCCGGGAAACAACGCGGCATCGAGGCTGTTCATCTTGCCGATTTTCTGGCAGGGCAGGTATGGATTGAGGATAAGGGCGAGTAA	MNSTHEKLAQSLKLTLDEDQLTNCMRCGFCQTACPTFIETGLEAASPRGRIALMKAVVDGLMEPDESFRSQMDLCLGCRACEPACPSDVKYGQLIEQTRAAIAAEKPYSLPVRVVRKTFLQGIFPHRGRLKLIGKTLSFYQKSGLQKFARSSGAMKLFPDHLQQLEKALPDVTGDGLEELWSKAGLPYRRERTGSGSKLMVIPASGAKVGRVGMFRGCIMDVMFASTNVNTVRLLRQAGFEIVIPEEQVCCGALHAHAGEMDDAKQLAGQNIWAFGEANVDYIASNAGGCGALLKEYDHLMHAEQDERLQVAAVRFAEQVKDISELLSSPGRPLTPIQAESANKTVKVTYQDSCHLRNVMRVQGEPRQLMQQLPGVDMCELQGAEVCCGSAGIYNLTQTEMSTTLLDHKMEHVEATGAEVIVTSNPGCLLQMKWGIERAGKQRGIEAVHLADFLAGQVWIEDKGE				NA	NA	NA	NA	NA
AK002_05602	1476		COG0277	putative FAD-linked oxidoreductase	ATGCTGGAATCTGTCATTCGCGAGCAGCTGGCCGCCGTGGTTGGCGGGAAGTGGTTCAAGGATGATCCGGAAAGTCTCGTCTCATACAGTTATGATGCTACACCTCTGTATCAGGCGATGCCGGACGGGGTTATCTTTCCTGGAAGCACGCAGGAGGTCTCCGACATCGTCAAAATTTGCTCGAAGCACCGGATACCCGTTATTACGCGGGGAGCGGGCAGCAATCTGTGCGGCGGCACCATTCCGCTTCAGGGCGGTCTGATCGTGGTTATGACCCGTATGAACAAGCTGCTGGAGATCGATGCGGATAATCTAACCGCGACCTTCCAGACGGGTCTGAATACAAAGCAGTTTCATCTGGCGGTCGAGCGGACGGGGCTGTTCTATCCTCCGGATCCGAGCAGCATGATCATCTGCACGATGGGCGGCAATATTGCCTTGGGAGCCGGCGGGCTGCGCGGATTGAAGTATGGAACGACCAAGGATTACGTACTCGGCCTGGAGGCCGTATTGCCGGACGGCAGTATCCTGCGCACGGGCGGCAAGCTGGTGAAGGATGCCGCCGGGTATGATTTGACCCGATTATTGGTGGGATCGGGCGGAACGTTAGCCATACTGACGGAAGCCACGGTGAAATTAATTCCGAAGCCTTCATACAGAAAGGCCATGGTCGCCGTATATGATGACCTTCAAGCGGCGGCTCGAACGGTATCCAACATTATAGCCAATCATATATTCCCGTGCACCTTGGAGTTCATGGATCAGCCGACGCTTCAGGTGGTTGAGGATTTTGCCAAAATCGGGCTCCCGGTTCACGCCAAAGCGATGCTGGCGATCGAGCAGGACGGCAGCGTGGAGGATGTGGAGCGGGATCTGAAGAAGCTGGAGGAGATATGTCTTGCTTCCGGCGCGGTGCAGCTGAATATCGCCAAGACCCCGGAAGAAGGGGCGAAGGTGATGGAGGCGAGACGGAGCGCGCTCGCTGCGCTGTCCCGTCTGCGGCCGACCACGATCTTGGAGGACGCAACGGTTCCGCGTTCGAAGATTGCGGACATGGTGCTTGAAGTTCAGCGCATTGCCCAGAAATACGATGTGCAGATCTGCACGTTTGGCCATGCCGGGGACGGCAATTTGCATCCAACCGCGATGACGGATGCCCGCGACCCGGAAGAAATTCATCGCGTGGAAGAGGCATTCGCCGAAATCTTTGAGGCGGCGATTGCCATGGGCGGCACGATTACCGGCGAGCATGGCGTCGGTATCGTGAAGGCGCCTTACCTGGAATGGAAGGTGGGCGAAGCCGGCATCCGGATGATGAAATCCATCAAGGATGCAATCGACCCGCACCAGATCATGAATCCGGGCAAGCTGTTTGCGGAAACCCGAAAGCGCATCGTATTCCAGGAGCGGACGGAGCAAGCAGGGCGGGACTCAGCTTCGGATCAGGATCAGGATCGGAAGATCGAAACATCGTGA	MLESVIREQLAAVVGGKWFKDDPESLVSYSYDATPLYQAMPDGVIFPGSTQEVSDIVKICSKHRIPVITRGAGSNLCGGTIPLQGGLIVVMTRMNKLLEIDADNLTATFQTGLNTKQFHLAVERTGLFYPPDPSSMIICTMGGNIALGAGGLRGLKYGTTKDYVLGLEAVLPDGSILRTGGKLVKDAAGYDLTRLLVGSGGTLAILTEATVKLIPKPSYRKAMVAVYDDLQAAARTVSNIIANHIFPCTLEFMDQPTLQVVEDFAKIGLPVHAKAMLAIEQDGSVEDVERDLKKLEEICLASGAVQLNIAKTPEEGAKVMEARRSALAALSRLRPTTILEDATVPRSKIADMVLEVQRIAQKYDVQICTFGHAGDGNLHPTAMTDARDPEEIHRVEEAFAEIFEAAIAMGGTITGEHGVGIVKAPYLEWKVGEAGIRMMKSIKDAIDPHQIMNPGKLFAETRKRIVFQERTEQAGRDSASDQDQDRKIETS	PGPT0028045_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_QacA,PGPT0028045-smvA|qacA|lfrA-K08167	NA	NA
AK002_05603	1191	anmK	COG2377	Anhydro-N-acetylmuramic acid kinase	ATGATGTTCTCGCCATGGAAAGAGGGCAGGCCGGTCATTGTGGTCGGCCTGATGTCCGGTACTTCGCTGGACGGCATCGATGCGGCCATCGTCCGCATACAGGGAAGCGGCTTCGAGGCATCGGTTGAGCTGCTGCATTATTATAGCAAGCCTTACGAACCGGAGCTCCGGCAGCGGCTGCGCGATTTGTGCAGTGAGGAGAATTCGAACAGCGCTGCTGTCTGCAGCATGAATGCATACTTGGGGTATCAGTTTGGAGCAGCAGTCCTGGAAGCGGTTGCCGATGCCGGCATGCGCATAGATGAAGTGGATTTGGTAAGCTCCCATGGACAAACGATTTGGCATCAGCCCGTACCGGAGCAAGGAGATCCGTATTCCGTCTCTTCGACTTTGCAGATCGGCGATATTTCCGTTATCGCCAAGCACACCGGCAAACTTACGGTAGGAGACTTCCGGCCCGCGGATATGGCGGTTGGGGGTCAAGGGGCACCGTTTGCGCCTTACGGAGACTTGATCCTGTTTCGGCATCCGGAGCGGGGGAGGCTGCTGCAGAACATCGGCGGGATCGGCAATTGCACGGCGCTGCCCGCAGGGGCGGATCCTTCGGATGTGCTTGCCTTTGATACCGGACCCGGCAATATGATCATGGATGCGGTGGCCCATATGCTGACCGAAGGGCGATTATCCTATGATGAAGGCGGCACATGGGCTGCCCGGGGGTACCCGGATCAGGTCTTATTAAGGGAGATGATGGCGCATCCCTATTTTCAAGCAGAGCCGCCGAAATCAACGGGTAGGGAACTGTTCGGCCACAATTACGCGGTTTCGTTTCTGGAGCAAGCCAGGCTCAGGAGCCTCTCGGATGAGGATACGATGGCCACGGCGACGGCGTTTACCGCACATTCCATTGCCGATAGCTATGTGAACTATGTGTTTCCTCACCACAGAATGGATGAGGTGATCGTAACCGGTGGAGGGGCCCATAACAAGACGCTGCTCTCGATGTTAGGGGAGCTGTTGCCGGAACAGAAGGTCATGACCTCCAAGGCGCTGGGCTTCGATGACGATGCCAAGGAAGCCGTGATTTTTGCGCTGCTGGGCAATGACTTCATGCTCGGCGTTCCTAACAATTTGCCAGCGGCAACCGGTGCGCGCAGGCCGACCGTTATGGGAAAGCTGGCGCTGCCATAG	MMFSPWKEGRPVIVVGLMSGTSLDGIDAAIVRIQGSGFEASVELLHYYSKPYEPELRQRLRDLCSEENSNSAAVCSMNAYLGYQFGAAVLEAVADAGMRIDEVDLVSSHGQTIWHQPVPEQGDPYSVSSTLQIGDISVIAKHTGKLTVGDFRPADMAVGGQGAPFAPYGDLILFRHPERGRLLQNIGGIGNCTALPAGADPSDVLAFDTGPGNMIMDAVAHMLTEGRLSYDEGGTWAARGYPDQVLLREMMAHPYFQAEPPKSTGRELFGHNYAVSFLEQARLRSLSDEDTMATATAFTAHSIADSYVNYVFPHHRMDEVIVTGGGAHNKTLLSMLGELLPEQKVMTSKALGFDDDAKEAVIFALLGNDFMLGVPNNLPAATGARRPTVMGKLALP				NA	NA	NA	NA	NA
AK002_05604	1179			hypothetical protein	ATGATAAAAGTCAATGTGCGAAGCGGCATTGATGTGCTGCCAGGCATCAAGCACGAGAAAATCACGGGTCGTCGCCTTGGCGTCATTACGAATCCGACGGGGCTCACGTCGGATTTTCGTTCATCTATCGAGGTAATTGCAAGCTTGTCCGAGTCGGAACTGACGGCTTTGTTCGCCTGTGAGCACGGGCTGCGCGGCCAGCTGCAGGCAGGCAAGCACGTGGATGACGAAGTGGATCCGGTATTCGGCGTGCCGGTGTACAGTCTGTACGGTTCGCGGCGCAAGCCGGATGCTGACATGCTGAAGAACGTAGACACCGTCATCTTCGACATTCAAGATCTTGGCGTGCGCTTTTATACGTATATGACGACGCTGCTGTATGTTATGGAGGCATGCGCCGAACATGGCAAGAGCCTCCTTGTCCTGGATCGGCCGAATCCGCTGGGCGGCGAGCGCTGCGAAGGAGGTTTCCTTAAGCCGGGGTATGAATCCATGGTGGGCGGATGGCACATTCCGATCCGCACCGGAATGACCATCGGCGAATTCGCGCGGATGGCCAATGACATGCGGGGAACCGGCTGCGATCTAGATGTCATCGGACTTGAAGGCTGGACGCGCGGCATGGAATATAACGACACGGGCTTGCCGTGGGTGCTGCCGTCGCCGAACATTCCTACGATGGATACGGTGCGGCTGTACAGCGGGACCTGTTTCTTCGAAGGGACCAATCTTTCGGAGGGCCGCGGGACGACCCGGCCGTTTGAATGGATCGGCGCTCCATGGGTCAATGGGGAGGAGCTGGCCCAGGCGTTCAACGCATACGGACTGCCCGGCGTCCATGCCCATTCCATGTACATGACCCCGACCTTCTCGAAGCATCAGGGCGAAGGCTGCAGCGGGGTCATGCTGTTTGTGACCCGTCCGGCAGAAGTAGAGGCTGTGCGCACAGGGCTTGTGCTGCTGCATCTTGTCAGCCGGTTGTACCCGGATCAGTTCCAGTGGCTTAGCCCGCCGGAAGGACGAAGCCGGTACTTCATTGATTTGCTGACGGGAAGCGAGGACGTCCGCCGGCACATCCACGAAGAAGCGGGACTCCAGCGTCTGGTTGCGGAGTGGGGCAAGGATGCGGAGCAGTGGAGAACGATGCGGGCTCCGTATCTGCTGTACGGGGAGGCGTAA	MIKVNVRSGIDVLPGIKHEKITGRRLGVITNPTGLTSDFRSSIEVIASLSESELTALFACEHGLRGQLQAGKHVDDEVDPVFGVPVYSLYGSRRKPDADMLKNVDTVIFDIQDLGVRFYTYMTTLLYVMEACAEHGKSLLVLDRPNPLGGERCEGGFLKPGYESMVGGWHIPIRTGMTIGEFARMANDMRGTGCDLDVIGLEGWTRGMEYNDTGLPWVLPSPNIPTMDTVRLYSGTCFFEGTNLSEGRGTTRPFEWIGAPWVNGEELAQAFNAYGLPGVHAHSMYMTPTFSKHQGEGCSGVMLFVTRPAEVEAVRTGLVLLHLVSRLYPDQFQWLSPPEGRSRYFIDLLTGSEDVRRHIHEEAGLQRLVAEWGKDAEQWRTMRAPYLLYGEA	PGPT0012175_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
AK002_05605	696			hypothetical protein	ATGCGCAAGCTGAATGATGTGTTAAAGAAGACCGGGGTTGAGATTTACCGTGAGATTACGGCGGTGGCCTTGTACAGCATGATTACCTCGCTGGTGCTCGTGACGGTGGTCATGTTCGTTCCGCTGTGGGCAGCGCTGGTGCTGCTGCCGGTTCTGTATATGCCGCTCTTTTATGGTGTTTGTTATGCCTATCACCGCAAGACGGAGCGGGGCAAGTCCAGGCTGAAGGACGTGTTTCAAGGTGCGCTGAAAGGGCTCGGACCCTCCGTTATAATGGGCTTTTTCTTCGTCGTGATGATATTGATCCTATGGTCCACCTGGTGGTATTACGGGGGAAAAGAAGGAATCGGCTACCTTGCGATCGGCGTGTTCCAAACCTATTTTGTCATCATGGCGCTCATCTCCCAATTCTACACCTTTCAGCTTGTCATTCAGGAAGGGATGGGCATCTTTAAAGCCATGGCGCATAGCGTCAAGCTGTTCCTGAAGTTTCCGGCCTATACGCTGGGCGCATGCTTCCAAGCCTTCTGCGTCGCCATTCCGCTGCTCGTCACGGTTGTTGGCTTTGGATTCTTATTTAATGGCATGTGGGCCATATACCAGCATAAGGTTACGTATAATGTACTGAATCCGGAAGAGGCCAAGCCGGTGGAAGACGGTGTGGTAACCTCCGAAGCGAGAGGTGTGAGCATATGA	MRKLNDVLKKTGVEIYREITAVALYSMITSLVLVTVVMFVPLWAALVLLPVLYMPLFYGVCYAYHRKTERGKSRLKDVFQGALKGLGPSVIMGFFFVVMILILWSTWWYYGGKEGIGYLAIGVFQTYFVIMALISQFYTFQLVIQEGMGIFKAMAHSVKLFLKFPAYTLGACFQAFCVAIPLLVTVVGFGFLFNGMWAIYQHKVTYNVLNPEEAKPVEDGVVTSEARGVSI				NA	NA	NA	NA	NA
AK002_05606	1107	msmX_2	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCACGCGTAGAATTCCGAAATATACGAAAAGAATTTGTAGACGACAACAAAGGGACGTTTACCGCTGTAGCGGGGTCGGACTTTGTGATCAATGATAAAGAGTTCGTGGTATTCGTCGGTCCGTCCGGCTGCGGCAAAACCACCTCGCTGCGCATGATTGCGGGACTTGAACGTCAAACGTCCGGCGACATCATCATCGGCGACCGGGTGGTCAACAATCTGCATCCGAAAGACCGCGACATCGCGATGGTGTTCCAGGATTATGCGCTGTATCCGCATATGACGATCCGCGAGAACCTCTCCTTCGGTTTGAAGAACCTGAAGAAGCCCAAGGCCTACATTGAGCAAAAGGTATCGCAGGCAGCCTCCATTCTCGGCCTGGAGTCGATGATCGACCGGAAGCCGCGCGAGCTGTCCGGCGGACAGCGTCAGCGCGTTGCGGTAGGGCGGGCGATCGTGCGCGACCCGCAGGTGTTCCTGTTTGACGAGCCGCTGTCGAACCTGGATGCGAAGCTTCGCGTGCAAATGCGGGTAGAGCTGTCCGAGCTGCACAAGCGTCTGGAAGCTACCATCGTATACGTTACGCATGATCAGGTTGAAGCGATGACGCTCGGTGAGCGGATCGTTGTAATGAATAACGGCATTATCCAGCAGATCGCCTCACCGACCGAGCTGTATGCGAATCCGCAGAATATGTTCGTGGCCGGCTTTATCGGATCCCCGCCGATGAACTTCATCGACGTGCAGAAGGAAGGAAATGTTCTCCGGATGGAAGGCGGGACATTCACCATTCCGGATTCGATGGCCGGTGCCCTAAGCAAATACGACAACAGGCATCTGATTCTGGGGATTCGTCCCGAGCATATCACCGGCGAGGATATGCCGGGCACAACCAATCTGAATTACAAGTATTCCACGAAGGTCCAGGTCGTTGAACATCTCGGCTCGGAGAATCTGGTGTACTTCCGCGTAGGCAACCGGACCGTGACCGCGAAGGTTCATCCGGAAACGACGGGTTATCCGGGCATGGACAAAACCTTCATTTTCAATTTCGATAAAGTGCATTTCTTCGATCCTGAGACGGAGCAGCGTATCGATTGGTAA	MARVEFRNIRKEFVDDNKGTFTAVAGSDFVINDKEFVVFVGPSGCGKTTSLRMIAGLERQTSGDIIIGDRVVNNLHPKDRDIAMVFQDYALYPHMTIRENLSFGLKNLKKPKAYIEQKVSQAASILGLESMIDRKPRELSGGQRQRVAVGRAIVRDPQVFLFDEPLSNLDAKLRVQMRVELSELHKRLEATIVYVTHDQVEAMTLGERIVVMNNGIIQQIASPTELYANPQNMFVAGFIGSPPMNFIDVQKEGNVLRMEGGTFTIPDSMAGALSKYDNRHLILGIRPEHITGEDMPGTTNLNYKYSTKVQVVEHLGSENLVYFRVGNRTVTAKVHPETTGYPGMDKTFIFNFDKVHFFDPETEQRIDW	PGPT0016310_2927	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLUCOSE|MANNOSE_TRANSPORT_I,PGPT0016310-msmX|msmK|malK|sugC|ggtA|msiK-K10112	NA	NA
AK002_05607	834	araQ_57	COG0395	L-arabinose transport system permease protein AraQ	ATGAAATCAAGATCAAAAGTGATCATGCTGATTGTGGCCTCGGTCATTCTGGTGGTATGGAGCGTTCTGACGATCATTCCGATGTACTGGATGCTGATCGGCTCTGTGCAGGACACCAAGTCAGCGGCATCGTTTATCCCGAAAATGATACCGGAGGTATTCTCCGTAGCCCCGTACGAGCGTTTTTTTGGCAAAACCGACGTCATGAGGTGGCTCTTTAACTCCTTATTGATCTCATCCATCCTGACGGTGACCAACGTATTCCTGGCTTCGCTCGCAGGGTATGCTTTTGCGAAGCTGAAGTTTCCGGGGAACAAAGCGGTATTCTGGATTTTGCTCAGCACGATGATGATCCCGGCGCAGGTGACGCTGATTCCGCTATACATTTTGATGATCGACGTATTTGATCTCGGGAATACATACACGGCGATTCTTCTTCCCGGAATCGTAAGCGTGGGCAACATTTTCTTGATGAAGCAGTACATGTCATCGCTGCCTACCTCTTTGATACATGCGGCGCGCATCGATGCTTGCGGCGAATTCGGCATCTTCTGGAAGGTCATTCTTCCGATGGCAAAGCCGGGTCTTGCCGTGCTTGCGATATTCACGTTCGTTGCATCATGGAATGATTTCTTCTGGCCCTTCCTCGTGACCAACTCGACGGAAATGAGAACGATTCAGGTCGGTCTTGCTTCCTTCGTCTATGCGGACACGACCGATTTCGGCGCACTTATGGCTGGAGCAACCGTCGCGGCACTGCCGATGATGATCCTGTTCTTCTCGCTTCAGCGCTATTTCCTGCAAGGCATCACCATTGGAGCCGTTAAAGGCTAG	MKSRSKVIMLIVASVILVVWSVLTIIPMYWMLIGSVQDTKSAASFIPKMIPEVFSVAPYERFFGKTDVMRWLFNSLLISSILTVTNVFLASLAGYAFAKLKFPGNKAVFWILLSTMMIPAQVTLIPLYILMIDVFDLGNTYTAILLPGIVSVGNIFLMKQYMSSLPTSLIHAARIDACGEFGIFWKVILPMAKPGLAVLAIFTFVASWNDFFWPFLVTNSTEMRTIQVGLASFVYADTTDFGALMAGATVAALPMMILFFSLQRYFLQGITIGAVKG	PGPT0016540_7058	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_05608	918	lacF_21		Lactose transport system permease protein LacF	ATGCAGACTGCCCCGGCGCAAGCCCGGCCATCACGTCCCCCCATGAAGGGGTACATACGAGAATATGGATGGGCGTATTTATTCATTCTGGCTCCCGTACTGTTGTTCTTGATATTCACGCTCTACCCTGTCGCGTCCGCTTTTCTGATGAGCTTTCAGGAATACAGCGTGATGGGCTCCGAATGGATTGGAGCAGAGAACTATACACGGATGGTACAGGATGAAGTGTTCTGGAAATCCATGAGGAATACGGTCATCTTCACGATCGGTACCGTTCCGGTCAACATTGTCATCACGTATGCATTATCCTTTTTTATTTTTCAGATGAAAAATAAATGGCAGACGTTCTTCAAGGCTACGATGTATTTGCCGGCCGTTGCCTCCGGCGTCACCATTTCGGTGGTATGGCTCGCGATCTACGATCCGACCCAAGCCGGGCTGCTGAACCGTTTCATCGGATTGTTCGGGTTCGACCCGGTCATATGGCTCGGCAAATCGAACACGGCGCTCTTTTCGCTCATTCTGATGAACTGGCTCGGTTCGCATGGCGCGGGCATTATTCTCTATTTGGCCGCCATGGGCGGGATTCCGAAATCGCTCTATGAAGCCGCGGACATCGACCATGCCAGCGGCTGGTCCAAATTCTGGCGAATTACGTGGCCGCTAATGAAACCGACCACACTATATCTGCTGGTGACGGGTGTCATTACGTCCTTCCAGGTGTTCATCTCGGTGTACCTGATGACGCAGGGCGGACCGAACTTCGCGACGACAACCATCGCCTATCTGATTTACAGCACGGCGTTCAATTTCTACGAATTCGGACTTGCGGCGGCGCAATCTTTTGTCCTGGCTGCCTTGATTATTGTCATTTCCATCATTCAATTCAAATACTTCTCGTCCGACGTGGAGTACTAA	MQTAPAQARPSRPPMKGYIREYGWAYLFILAPVLLFLIFTLYPVASAFLMSFQEYSVMGSEWIGAENYTRMVQDEVFWKSMRNTVIFTIGTVPVNIVITYALSFFIFQMKNKWQTFFKATMYLPAVASGVTISVVWLAIYDPTQAGLLNRFIGLFGFDPVIWLGKSNTALFSLILMNWLGSHGAGIILYLAAMGGIPKSLYEAADIDHASGWSKFWRITWPLMKPTTLYLLVTGVITSFQVFISVYLMTQGGPNFATTTIAYLIYSTAFNFYEFGLAAAQSFVLAALIIVISIIQFKYFSSDVEY	PGPT0016535_5260	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_05609	1395			hypothetical protein	ATGAAGAAAAAAGGTTGGCTTACATTGTTGGCTTCTTTGATGCTCGTGTTTACCGCGGCTTGCGGCGGTTCAGGCGGAGCGAAGGCACCGGAAGGCGGAAGCGGAACGGCTTCGGAAGGAAACGGCGAAGCTGCGCCGAAGCAGGACACGGTCGTTGTCTGGACTTATCCGGTACATGGTAAATACGAAGATGAATTGAAAGAGCATGTGGCGGATTTGAAGGAGAAATATCCGCATATTACCGTACAAACCGAAGTGCTCTCCTGGGCTGAAGGCCCGAAGAAGTTCGACGTCGCCTTGAATGCCGGCAACCCGCCTGACCTATACTTCCACGCGGTGGATGGAGCTTATGTGGATACGGGCCTGGCACTGGAACTGACCCCTTATATTACGGATGAAATCAAGAACGACTACCTGCCGGGAACGCTTGAGCTGGGTCAAATCCAGGGCAAGCAGTATGGTCTCCCGCTGTACCAATCCCTCTGGGCTTGGGGCGGCAACAAGAAGATTCTCGAAGAAGCAGGCATCGACTGGAAGGCTATTCAAGAGAACGGCTGGACTTGGACCGAGTTCAAGGCTGCTGCCGAGAAGCTGACCAAGAAACTTCCGAATGGCAATACGCAGTATGCGCTGGTGACGGACGGTACTTCCCTGGACTTCATGGAAATGCTGACACGCAGCAACGGCATGCCTGACGTTCTGAACGACAAGGGCGAGTTCCAATGGAATGACGAGCGGATTCTGGATACGATGACGTTCGTGTCCGATCTGATGAAAGCCGGACATCTGCCTGCCGAGACTGCCGCGATTACGCCGGCGAAACGGATGGACCTGTTCTATGCCGAGGAAGCCGCGATCGTGTCCAAGGCGATCCCTTACTATGACGTGATGCTGCAGAACCGCGCGAAGGATATTGACAGCGGTACGGTCCAAGGCGCGAAAATCGACTTCGTCCTGCTGCCGGTTCCGCATAATGACGGGGCTGAGCGCAAGACCTCCATGTTTGGCGAAGGCTACGTGGCGTTCAAACAGAAGAAGGATAAAGGCGAAGAGCATGCAAAGAATACGTTCCTGATCATGGAAGGACTGAGCGGCGCGAAAGCCGGTAATTCCGCGAATGAACTGGTGCTGCCTTTCGTACGCAAATCCCAAGCGGAGTTTTATGAAGGCAAAGGGCTCGGGACGGAATCTACTATTAAAGCAGCGGAAATTTTCGCGAACTTCAAAGAAATTCCGGTGACTTTGAATCTCGATGCGGATGCTTCGGGCAACCAGAAGAAATTCAAGGAGCAAGTGGTGAAGCCGAACATTCAAGCGCTGTTCTCGGGCGAGAAGACGCCGGAGCAGATCGCACAAGACTTCAAGGACAAAGGCAAACAAATTTTAGGACAGTAA	MKKKGWLTLLASLMLVFTAACGGSGGAKAPEGGSGTASEGNGEAAPKQDTVVVWTYPVHGKYEDELKEHVADLKEKYPHITVQTEVLSWAEGPKKFDVALNAGNPPDLYFHAVDGAYVDTGLALELTPYITDEIKNDYLPGTLELGQIQGKQYGLPLYQSLWAWGGNKKILEEAGIDWKAIQENGWTWTEFKAAAEKLTKKLPNGNTQYALVTDGTSLDFMEMLTRSNGMPDVLNDKGEFQWNDERILDTMTFVSDLMKAGHLPAETAAITPAKRMDLFYAEEAAIVSKAIPYYDVMLQNRAKDIDSGTVQGAKIDFVLLPVPHNDGAERKTSMFGEGYVAFKQKKDKGEEHAKNTFLIMEGLSGAKAGNSANELVLPFVRKSQAEFYEGKGLGTESTIKAAEIFANFKEIPVTLNLDADASGNQKKFKEQVVKPNIQALFSGEKTPEQIAQDFKDKGKQILGQ	PGPT0016545_1500	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_05610	837	ybbH_2	COG1737	putative HTH-type transcriptional regulator YbbH	ATGAACGGCGGATTGGTTCGATTGCGCGAGGTGTATGATTCATTAAATCCGTCCGAGCGCAAGGTTGCAGCCTTCATTTTGCAGGAGCCGGCAGAGATGATACAAATGTCGGTGGCGGATCTTGCTGTCCGAAGCGGCTCCAGTCAGGCAGCGATTGTGCGCCTGTGCAAAACGATGGGATTCAAAGGCTATCAGGATCTGAAACTGAAGGTAGCCGGAGACTTGCAGGAGCCATTAGCCACCGGATATCAGGATATCCGGCCCAATGACAGCATTTCTGCAATTATACAGAACGTCTCGAACAATAACATTCAATCGATTCGGGATACGATGAAGATTATGGAGGAAGGGATGGTGGAAGAGGCCGTTCTGGCCCTCGATCAGTCGAAGCGCATTTTCATGTTTGGGGTAGGGGCTTCCAATCTGATCGGGATGGATGCCCAACAGAAATTTTTGCGGATCAATAAGGTATGCATATCTTTTCCGGACCCTCATGTTCAGCTCACCTCGGCGGTGCTGCTGACTCCGGATGATGCGGCCGTATGCATTTCCTATTCCGGTGAAACGGACGAGGTGATCCGCGCAGCAGCCATTGCCAAGGAGAAGGGATGCAAGACGATTGGCATTACCAAATACGGGGATTCTACCTTGAGCCGATCGGTCGACATACCTTTGTACACCTCCTCGACGGAGAACGAGATTCGCAGTGGCGCGATGTCCTCTCGTATTACGCAGCTTAATCTTATCGATATTTTATATCTTGGCGTCGCCAGCCGGAATTACGAGAATTCAGTGAAATACCTGGATGAAAGCCGGCGAGCGATCAAGCGGTTGTAG	MNGGLVRLREVYDSLNPSERKVAAFILQEPAEMIQMSVADLAVRSGSSQAAIVRLCKTMGFKGYQDLKLKVAGDLQEPLATGYQDIRPNDSISAIIQNVSNNNIQSIRDTMKIMEEGMVEEAVLALDQSKRIFMFGVGASNLIGMDAQQKFLRINKVCISFPDPHVQLTSAVLLTPDDAAVCISYSGETDEVIRAAAIAKEKGCKTIGITKYGDSTLSRSVDIPLYTSSTENEIRSGAMSSRITQLNLIDILYLGVASRNYENSVKYLDESRRAIKRL	PGPT0017985_484	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337	NA	NA
AK002_05611	957	murK_2	COG2971	N-acetylmuramic acid/N-acetylglucosamine kinase	ATGGAAATTTTTATCGGTGTCGATGGCGGCGGTACGAAGACCGAAGCAACCGCTATCAATAGCGCTGGAGTAGTGTTGTCCCGTTTTACCGGAGGTTCCACCAATCCTTACATTGTAACATTCGATAAAGCGATGGAGGAACTCCAAACCGTGTTGGATGAGCTCCTGTCCCCCCTTTTTAATAAGTCGTTTTTATTAACATCAATATGTCTTGGTATGTCAGGTATAAGTTCGGTTGAGGAGCGGCAGCGTGTACAATCTCACCTTCGTTCCTACTTCCGGCAGCGGCAGCTCTCGTTACGTATTTACATGCGTTCGGAAGCCGAAATTTCATTGATGGCGGTACTGGGGCGTCAGCATGGAATACTCGCAATCTCAGGAACAGGCTCCAATACCTACGGCATCACCCAATCGGGAGACATCCACCGCGTCGGTGGTTGGGGACATCTTCTCGGAGATGAAGGCAGCGGTTATCAGATCGGACTTCAGACTCTGAAATCCGTGATCAAGAGCCATGAAGGCATAACGCCCCCCACCCTCATGAGCAGCCTGATCGTTGCAGCCTACCCGATCCGGCATATTACCGACCTCAAATCTTACATTTACCAGCCCGCTATAACGAAACAGGATATCGCCTCCTTCGCCCGCTGCTGCATCGAGGCAGCCGACGCCGGCGATGAAACGGCACTACGCATTATCAGGCAGCAGGCCGAAGAGCTGGCCGATACCACATGCGCGCTCATTCGACAGAACGCCGAATTCGCCGAGAGCGAGCTTGTGGGAATCGGCTCGATTTTCAAGCATTCACGATGGTTCCGGGAGACGTACACCCGCCTTATGCTTACACGTTACCCCCTGCTCCGTTTCCCTGAAGGAAACCGTGAGCGAACGCCCGCACAGGGCGGGGCCCTGTTGGCCTGCAAGCTATTTACTGACGGCGTCTCTGACTTGCTGTAG	MEIFIGVDGGGTKTEATAINSAGVVLSRFTGGSTNPYIVTFDKAMEELQTVLDELLSPLFNKSFLLTSICLGMSGISSVEERQRVQSHLRSYFRQRQLSLRIYMRSEAEISLMAVLGRQHGILAISGTGSNTYGITQSGDIHRVGGWGHLLGDEGSGYQIGLQTLKSVIKSHEGITPPTLMSSLIVAAYPIRHITDLKSYIYQPAITKQDIASFARCCIEAADAGDETALRIIRQQAEELADTTCALIRQNAEFAESELVGIGSIFKHSRWFRETYTRLMLTRYPLLRFPEGNRERTPAQGGALLACKLFTDGVSDLL				NA	NA	NA	NA	NA
AK002_05612	912	murQ	COG2103	N-acetylmuramic acid 6-phosphate etherase	ATGACGAATATTCTAAGTCAATTGACAACCGAACAGCCTCATGAAAATACCCAGAACATTGATCAGTTGAGCTCGGAACAAATCATGATCCTCATCAACAATGAGGATAGCCTGATCACCGATGCGATTCGCGAACTCATTCCTCTGATAGCCAGGGCGGCCGATCACGTCGTCGAAGCTTTCCAGAAGGGCGGCAGATTGTTTTACATCGGTGCGGGGACCAGCGGTCGTATCGGGATTCTGGACGCATCCGAGTGCCCGCCTACCTATGGAACGGACCCGTCCATGGTGCAGGGATTGATTGCCGGCGGCTTCAGGGCCGTCAAAGAGGCCATCGAAGGCGCTGAGGATAGCGAAGAGCTTGGCGAGCAGGATATCAATGAAAACGGTATCAACGAGAAGGACGTCGTTCTAGGCATCGCTGCAAGCGGACGCACGCCGTATGTCCTTGGCGCCATGAGACGCGCCAAGGAAAGAGGGGCCGTTGTTATCGGTCTGTGCAACAATTACGAATCGCCGATGCATCAGTATGCCGAATTCGTGATCGAAGCCGTCGTAGGCCCCGAGGTCATCATGGGCTCCACGCGCATGAAGGCCGGCACCTCTCAGAAGCTGATTCTGAACATGCTGACGACAACCGCCATGATTCGGATCGGCAAGGTTTACAAAAACCTGATGGTTGACCTCAACCCGTCGAACAATAAGCTGGTCCATCGCGCGAAGCGCATCATTACCCTGGCAACGGGAGCATCGGAGGAGGCCGTGGAGAAGGCATACCTTGAAGCCGGCGCCCATGTCAAAACCGCGATCGTGATGCTGCTTGCCAACGTCAGTGCCGCGGAAGCCTCCAAGCTTCTTGACGGTACCAGCGGGTTTGTGCGCAGCGCGATCGATATGAAAACAACGAAATAA	MTNILSQLTTEQPHENTQNIDQLSSEQIMILINNEDSLITDAIRELIPLIARAADHVVEAFQKGGRLFYIGAGTSGRIGILDASECPPTYGTDPSMVQGLIAGGFRAVKEAIEGAEDSEELGEQDINENGINEKDVVLGIAASGRTPYVLGAMRRAKERGAVVIGLCNNYESPMHQYAEFVIEAVVGPEVIMGSTRMKAGTSQKLILNMLTTTAMIRIGKVYKNLMVDLNPSNNKLVHRAKRIITLATGASEEAVEKAYLEAGAHVKTAIVMLLANVSAAEASKLLDGTSGFVRSAIDMKTTK	PGPT0019040_897	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0019040-murQ-K07106	NA	NA
AK002_05613	864	cpnA_2		Cyclopentanol dehydrogenase	ATGAATGACATGACAGGAAAGATCGTCATCGTAACGGGAGCCAACTCCGGCATGGGCCTGGCAACGACGTCGGAGCTGGCAAAAGGCGGAGCGCACGTGATTATGGCCTGCCGTAGTCAAGCCAGGGGCGAAGCGGCTCTTCGGCAGGCGCAGCAGGAGAGCGGCAGCTCGAACATCGAGCTGATGTCGCTGGATTTGGGGTCTTTTGACAGCATTAGGGCATTTGCTTCCGAATATAAGGCGAAATACGAGCAGCTTGATGTTCTGGTGAATAACGCCGGCGTGGTCACCATTCAGCGGGAACTGACGAAGGACGGATTCGAAGCGATGATCGGAGTCAACCATCTGGGGCATTTTTTGCTAACGAACGAGCTGCTGGAGCCCCTTCAGCGTGCCAGGCAGGGGAGGGTCGTGAACGTTTCCTCCGGAGCGCACAAGGTGGGCAGCATCCACTTTGATGATCCGAATCTTGGGAAGGGATTCAATGTGGCCAAGGGTTACGCGCAGTCCAAACTGGCTAACATCTTATTCACCAAAGAGCTGGCCCGTAGGCTGCAGCCGACAAGGATAACGGTTAATGCGCTTCATCCCGGCGCCGTCAGCACCAGCATCGGCGTGAACCGGGATACAGGCTTCGGCAAAGCCGTCCACAAGCTGCTTCGTCCGTTCTTCTTAACCCCGCTCGAAGGAGCCCGGACAGCGATTTACTTGGCGTCAAGCCCTGAAGTGGAGCATGTAACAGGGGAATATTACGTCAAATGCAAACCGGCCAAAACGACCGAGAAGGCAAGGGATCCAAAGCTGGCTGCGCGCCTGTGGGAATGGAGCGAACAACAGGTCGGCCGGGCATCGGACAAGGAGTGA	MNDMTGKIVIVTGANSGMGLATTSELAKGGAHVIMACRSQARGEAALRQAQQESGSSNIELMSLDLGSFDSIRAFASEYKAKYEQLDVLVNNAGVVTIQRELTKDGFEAMIGVNHLGHFLLTNELLEPLQRARQGRVVNVSSGAHKVGSIHFDDPNLGKGFNVAKGYAQSKLANILFTKELARRLQPTRITVNALHPGAVSTSIGVNRDTGFGKAVHKLLRPFFLTPLEGARTAIYLASSPEVEHVTGEYYVKCKPAKTTEKARDPKLAARLWEWSEQQVGRASDKE				NA	NA	NA	NA	NA
AK002_05614	963	tagO_1	COG0472	putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase	ATGCTCTATTTTGCAGCGTTTGTCATATCCATGGTGCTGGTGTTGGTATTGATTCCGCCATTTCGCAAACTTGCGATCAAGATTGATTTTGTGGACAAGCCAAGGCCGGACAGCGAGCGGAAAATACACCGCGAGCCGATACCGCTGACAGCGGGAGTCGCCATATTCATCGGATTTTTCATCACTTATTTTGCGCTTACAGGTACCATCTCAAGGGAAGCGGTAGGTATCTTTATCGGTAGCGCGTTGATTCTTGGGATCGGCCTCGTGGACGATTGGTATAAGTCCCAGGGCAAGGAGCTGGCTTCGCTGCCGAAGCTCATTGTACAGGTCAGCGCAGCCGTCGTAGTATACAGCTATGGCATCGCGTTCGAAGGATTCAACAATCCGTTTACGGGTCACTATATTAACTTGCCGGAATGGCTGCAGCTGATCTTAACGATTCTGTGGATCTTCGGCGTTACGACGGTGATTAACTTCTCGGACGGCATCGACGGGCTGGCAGGAGGGCTATCCGCCATATCCGGAGGTACGCTGTTTGTTGTCGCGATGACGATGGGCCGAGGCGAATCCGCCTTGCTCGCGGTCATACTCGTAGGAGCCGCGCTGGGATATTTAAGGTATAACAAGCCGCCGGCCAGAGTGTTCATGGGGGATGCCGGCGCTACCTTCCTCGGGTTCATCCTCGGGATCATTGCTCTGGACGGCGCGTTTAAGGGTGCGACCCTGGCGTCCTTGTTCGTACCCATCTTCGCGCTGGGCGTGCCGATCTTCGATAATATCATCGTGGTCATCCGCCGAATGCTTCAATCCAAGCCGATCTATCAGGCCGATGCCTCCCAAGCCCATTATCGTTTGCTGGCAACGGGGCTCAACCAGAAGCAGACGCTGGTATTTCTGTGCCTGCTGAACCTGTGCTTCGGACTGGCCGCGATCATACTCGCCATGAACGGCGGCGCTTGA	MLYFAAFVISMVLVLVLIPPFRKLAIKIDFVDKPRPDSERKIHREPIPLTAGVAIFIGFFITYFALTGTISREAVGIFIGSALILGIGLVDDWYKSQGKELASLPKLIVQVSAAVVVYSYGIAFEGFNNPFTGHYINLPEWLQLILTILWIFGVTTVINFSDGIDGLAGGLSAISGGTLFVVAMTMGRGESALLAVILVGAALGYLRYNKPPARVFMGDAGATFLGFILGIIALDGAFKGATLASLFVPIFALGVPIFDNIIVVIRRMLQSKPIYQADASQAHYRLLATGLNQKQTLVFLCLLNLCFGLAAIILAMNGGA	PGPT0015240_2676	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
AK002_05615	1302	pdp	COG0213	Pyrimidine-nucleoside phosphorylase	ATGAGAATGGTTGATTTAATTGCGAAGAAACGCGACGGCAAGGAACTGACAACAGAAGAGATCAATTTCTTTATCGACGGATATACCAAGGGAGACATTCCCGACTATCAGGTGAGCGCCATGAACATGGCGATTTATTTCCAGGACATGTCCGACCGGGAGCGGGCGGACTTGACGATGGCGATGGTAAACTCCGGCGAAACGATTGATCTGTCCGCAATTGAGGGAATCAAGGTCGATAAGCATTCCACCGGGGGCGTAGGCGACACGACGACGCTGGTGCTGGCTCCGCTCGTAGCGGCTCTGGATATTCCGGTAGCGAAGATGTCGGGACGCGGCCTCGGCCATACCGGAGGAACGATCGACAAGCTGGAATCCATCGAAGGCTTCCATGTGGAGATCAGCAAAGACGAATTTGTGAACCTTGTGAATCAACATAAAATCGCCGTCATCGGCCAAACCGGGAACCTCACGCCGGCGGACAAAAAACTGTATGCGCTCCGGGATGTGACGGCTACCGTCAATTCCATTCCGCTGATTGCAAGCTCCATCATGAGCAAGAAGATTGCCGCCGGCTCGGATGCGATTGTGCTGGACGTTAAAACCGGCGCAGGCGCGTTCATGAAAACGGTGGAGGATGCCAAGGAACTGGCACACGCCATGGTCAGCATCGGCAACAACGTCGGCCGCAAAACGATGGCGGTCATTTCCGATATGAGCCAACCGCTTGGGGCCGCGATCGGCAACTCGCTGGAAGTGCAGGAGGCGATCGATGCGCTTCGCGGCGAGGGTCCGAAGGATCTGGAAGAGCTGTGCCTGGCGCTGGGCAGACAGATGGTGTACCTGGCCCGGAAGGCGGACTCGCTCGAAGATGCCGAAGAGAAGCTAAAAGAGGTGATTCGCAACGGCAAGGCACTGGAGAAGTTCAAGGAATTCATCCAGAACCAGGGCGGAGATCCGTCCGTGGTGGATCATCCGGACCGTCTGCCGAAGGCACAGTATTTCATTGAGCTTCCCGCGCAGCAGGACGGCGTTGTCGCCGAGCTGGTAGCGGATGAGATCGGTACGGCGGCGATGCTGCTCGGGGCCGGCCGCGCGACGAAGGAATCCGAAATTGATTTGGCGGTAGGCCTGATGCTGAACAAGAAGGTCGGCGATACCGTGAAGAAAGGCGATTCCCTTGTCACGATCCATGCCAACCGCGAGAACGTGGACGACGTGAAGCAGAAGCTGTATGAAAGCATTCGAATCGCTGATCATGCGGATGCGCCTGTATTGATCTATGACATCGTGACGGAATAA	MRMVDLIAKKRDGKELTTEEINFFIDGYTKGDIPDYQVSAMNMAIYFQDMSDRERADLTMAMVNSGETIDLSAIEGIKVDKHSTGGVGDTTTLVLAPLVAALDIPVAKMSGRGLGHTGGTIDKLESIEGFHVEISKDEFVNLVNQHKIAVIGQTGNLTPADKKLYALRDVTATVNSIPLIASSIMSKKIAAGSDAIVLDVKTGAGAFMKTVEDAKELAHAMVSIGNNVGRKTMAVISDMSQPLGAAIGNSLEVQEAIDALRGEGPKDLEELCLALGRQMVYLARKADSLEDAEEKLKEVIRNGKALEKFKEFIQNQGGDPSVVDHPDRLPKAQYFIELPAQQDGVVAELVADEIGTAAMLLGAGRATKESEIDLAVGLMLNKKVGDTVKKGDSLVTIHANRENVDDVKQKLYESIRIADHADAPVLIYDIVTE	PGPT0021295_770	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021295-pdp|deoA-K00756	NA	NA
AK002_05616	708	deoD_2	COG0813	Purine nucleoside phosphorylase DeoD-type	ATGAGTACACATATTGGAGCGAAACCGGGAGATATCGCGGAGTCGATTCTGCTGCCAGGCGACCCGCTGCGGGCTAAATTCATTGCCGAGACGTATTTGGAGGACGTGACCTGCTACAACGAAGTGCGGGGGATGCTCGGATTTACGGGAACCTACAAAGGGAAACGCATTTCCGTGCAGGGTTCGGGCATGGGCGTGCCTTCCATCGGGATCTATGTCAATGAACTCATTCGGGAATATGGCGTCAAAAACCTGTTCCGCGTCGGAACCTGCGGCGCGATGCAGGAGCACGTCCGGGTGCGCGACGTCATTCTGGCCCAGGCCGCTTGCTCGGATTCCGGCATGAATCGTCACCACTTCAACGGTTATGATTTCTCCCCGATTGCCAGCTTCCCGCTGCTGCTCGGCGCGTATGAGCGTGGCAAGGAGAAAGGCCTGAAGATGCATGTCGGCAACGTATTCACGTCCGATGTATTCTACCGCGAGGACAAATCCGTGGTGGAGAAGCTGATGCAGCATGGCGTGCTCGGCGTGGAAATGGAGACGACGGCGCTCTACACGATCGCGGCACGATTCGGCGTGAATGCCTTGACGATCCTGACCGTGAGCGATCACTTGCTCACAGGGGAAGAGACTTCTTCCGAGGAGCGGCAAACGACGTTTAACGAGATGATGGAGGTCGCGCTGGATACGGCGATTTCGTTGTAA	MSTHIGAKPGDIAESILLPGDPLRAKFIAETYLEDVTCYNEVRGMLGFTGTYKGKRISVQGSGMGVPSIGIYVNELIREYGVKNLFRVGTCGAMQEHVRVRDVILAQAACSDSGMNRHHFNGYDFSPIASFPLLLGAYERGKEKGLKMHVGNVFTSDVFYREDKSVVEKLMQHGVLGVEMETTALYTIAARFGVNALTILTVSDHLLTGEETSSEERQTTFNEMMEVALDTAISL	PGPT0013385_1150	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784	NA	NA
AK002_05617	1179	deoB	COG1015	Phosphopentomutase	ATGGAACGTTTTGACCGAATTCACTTGATCGTATTGGACTCCGTTGGCATCGGGGAAGCACCGGATGCGGCTGATTTCGACGACATCGGCTCCGACACGCTGGGGCATATCGCCCGCGAATGCGGCGGGCTGAACATGCCGAACATGGCAGCGCTCGGGCTGTCCAACATCCGGGAGATCGAGGGAGTCCCTGCTGCGGATCAACCTCGGGCTTACTATACGAAGATGCAGGAAGCTTCGAATGGCAAAGACACCATGACAGGCCATTGGGAGATCATGGGCTTGTATATCGATACGCCATTTCGCGTATTCCCGGACGGGTTCCCCGACGAGCTGATTCAGCGCATCGAAGAGAAAACCGGACGGAAGGTCATCGGCAACAAGCCGGCCAGCGGAACGGAGATTATCGAAGAGCTTGGCGAAGAGCATGTAGAAACAGGGGCTTTGATCATCTATACCTCTGCCGATTCCGTGCTTCAAATCGCCGCTCATGAAGATGTGGTTCCTCTCAAGGAGCTGTACGAAATCTGCGAGTTCTGCCGCGAAATCACGCTGGAAGATCCGTATATGCTCGGCCGGATCATCGCCCGTCCTTTTATCGGCGAGGCGGGGAGCTTCAAGCGTACGGCGAATCGGCATGACTATGCCTTGAAGCCTTTCGGACGTACGACGATGAACGAGATGAAGGATGCCGACCTTGACGTCATCGCCCTCGGTAAAATCTCCGATATTTACGACGGGGAAGGCATTACGAAGGCAGTCAGAACCGTATCGAACATGGACGGCATGGACAAAATGGTGCAAACCCTGGATGAATCCTTCAAGGGGCTGAGCTTCCTGAATCTCGTGGATTTCGATGCCGTCTACGGACACCGCCGCGACCCGAAAGGATACGGCCAAGCGCTGGAGGATTACGATCGGCGCCTGCCGGAGGTATTCGAGAAAATGACGGAGAACGATCTCCTGATCATCACGGCCGACCACGGGAATGATCCTACTTACAAGGGCACGGACCATACGCGAGAATACGTGCCGCTGCTGGTATATTCCCCTCGCTTTGCGAAAGGCAAGGAACTGCCGCTTCGCAAGACCTTTGCCGACATCGGCGCCACGGTTGCCGACAACTTCGGCGTGAAGCTGCCGGAGCACGGAACCAGCTTTTTGAGTGATTTGAAATAA	MERFDRIHLIVLDSVGIGEAPDAADFDDIGSDTLGHIARECGGLNMPNMAALGLSNIREIEGVPAADQPRAYYTKMQEASNGKDTMTGHWEIMGLYIDTPFRVFPDGFPDELIQRIEEKTGRKVIGNKPASGTEIIEELGEEHVETGALIIYTSADSVLQIAAHEDVVPLKELYEICEFCREITLEDPYMLGRIIARPFIGEAGSFKRTANRHDYALKPFGRTTMNEMKDADLDVIALGKISDIYDGEGITKAVRTVSNMDGMDKMVQTLDESFKGLSFLNLVDFDAVYGHRRDPKGYGQALEDYDRRLPEVFEKMTENDLLIITADHGNDPTYKGTDHTREYVPLLVYSPRFAKGKELPLRKTFADIGATVADNFGVKLPEHGTSFLSDLK	PGPT0017440_1598	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839	NA	NA
AK002_05618	1179	nupC	COG1972	Nucleoside permease NupC	ATGAAATTTCTAATCGCCATACTAGGTTTACTGGTCGTATTCGGTCTTGCGTTCCTTATCAGCAATGATAAGCGCAACATTCGTTATCGTCCGCTGGCTGTCATGATTGTGCTGCAGCTGATCCTTGGATTCATACTGCTGAACACCAATGTCGGCGAGTATCTTGTCAAAGGGATAGCGAATACGTTTAAAGCGCTGCTTGATTACGCCGGAGCCGGAATCGGGTTTGTATTTGGCGGCTTTGCCATTGAAGGTGATGGTCCGTTCTTCTTAAACGTCCTGCTGCCAATCGTGTTTATTTCCGCGTTGATTGGTATACTTCAATATATTAAGGTACTGCCGTTTATCGTAAGATATATCGGCCTCGTCTTGAGTAAAGTCAACGGCATGGGTAAGCTGGAGTCTTACAATGCGGTAGCTTCCGCGATCCTGGGGCAATCCGAGGTGTTTATCTCGGTCAAAAAACAGATCGCCTTAATTCCGAAGCACCGCATGTATACGCTCTGCGCTTCCGCGATGTCCACGGTATCGATGTCGATCGTCGGCGCATACATGACCATGATCGAGCCGCGGTATGTGGTGACCGCGCTTGTATTGAACCTGTTTGGCGGATTTATCATTGCTTCCATCGTCAATCCCTACAAGGTGGAGAAGGAAGAGGATATTCTGGAGGTGCAGGAGGAGGAGAAGCAATCCTTCTTCGAAATGCTGGGCGAATACATTATGGATGGTTTCAAGGTTGCGATTACCGTTGCTGCGATGCTCCTCGGCTTCGTTGCTTTGATCGCAATGATCAACGGCATTTTTGATATTATTTTCGGAATCACCTTCCAGGAGCTGTTAGGTTACATCTTTGCTCCATTCGCTTTTGTGATGGGCGTGCCTTGGAAAGAGGCGGTGGATGCAGGCAGCATCATGGCTACCAAGCTGGTATCGAATGAGTTCGTCGCGATGCTTGATCTGGCCAACTTCACGAATATGTCCGAACGCACCGTAGGTATCGTATCGGTATTCCTGGTGTCCTTCGCCAACTTCTCCTCGATCGGCATCATTGCCGGCGCGGTCAAAGGCCTGAACGAGAAGCAGGGGAACGTGGTTGCCCGCTTCGGCCTAAAGCTGCTGTACGGGGCGACGCTGGTGAGCGTGCTGTCGGCCACCATTACCGGACTGTTCCTGTAA	MKFLIAILGLLVVFGLAFLISNDKRNIRYRPLAVMIVLQLILGFILLNTNVGEYLVKGIANTFKALLDYAGAGIGFVFGGFAIEGDGPFFLNVLLPIVFISALIGILQYIKVLPFIVRYIGLVLSKVNGMGKLESYNAVASAILGQSEVFISVKKQIALIPKHRMYTLCASAMSTVSMSIVGAYMTMIEPRYVVTALVLNLFGGFIIASIVNPYKVEKEEDILEVQEEEKQSFFEMLGEYIMDGFKVAITVAAMLLGFVALIAMINGIFDIIFGITFQELLGYIFAPFAFVMGVPWKEAVDAGSIMATKLVSNEFVAMLDLANFTNMSERTVGIVSVFLVSFANFSSIGIIAGAVKGLNEKQGNVVARFGLKLLYGATLVSVLSATITGLFL	PGPT0021065_592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK002_05619	666	deoC	COG0274	Deoxyribose-phosphate aldolase	ATGAATATAGCAGGAATGATCGACCACACGCTGTTGAAGGCGGATGCAACCCAGGCCGAGATCACGAAAATTACGGATGAGGCCAAAAAGTACGGATTTGCTTCGGTTTGCGTGAACCCGACTTGGGTATCCTACTGTGCTGAGCAGCTTGCGGGCACGAGCGTCAAAGTATGCACCGTTATCGGCTTCCCGCTGGGGGCTAACACGACGGCCGTAAAGGCTTTTGAAGCGAAGGATGCCATCGCTAACGGGGCTACGGAGGTGGATATGGTCATCAACATCGGGGCGCTGAAAGATCGGAACGATGAGCTGGTGCAGCAAGATATTCAGGCCGTCGTGGATGCAGCCAAGGGCAAAGCCCTGGTCAAGGTCATCATTGAGACAAGCCTTCTGACCGAAGAAGAGAAGGTGCGTGCGTGCCAGCTGTCCGTGAAAGCCGGAGCCGATTTTGTCAAAACCTCCACGGGATTCTCTACAGGCGGAGCTACTCCGGAGGATGTCGCCTTGATGCGCAAAACGGTCGGAGAAAACACGGGCGTTAAGGCTTCCGGCGGCGTGCGCAGCAAGGAAGACATGGATCGCATGATTGAAGCGGGCGCAACGCGTATCGGAGCCAGCTCCGGCGTGAAAATTATGGAGGGCGGCCAATCCAGCTCTTCCTACTAA	MNIAGMIDHTLLKADATQAEITKITDEAKKYGFASVCVNPTWVSYCAEQLAGTSVKVCTVIGFPLGANTTAVKAFEAKDAIANGATEVDMVINIGALKDRNDELVQQDIQAVVDAAKGKALVKVIIETSLLTEEEKVRACQLSVKAGADFVKTSTGFSTGGATPEDVALMRKTVGENTGVKASGGVRSKEDMDRMIEAGATRIGASSGVKIMEGGQSSSSY	PGPT0017445_3198	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
AK002_05620	936	deoR	COG2390	Deoxyribonucleoside regulator	ATGGATCAGGATAAACAGCGCCTCAGCATTGAGGCGGCAAGATTGTACTATATGTCGGATTACAGCCAGCAGGATATCGCCACGAGACTCGGCGTTTCCCGCCCTACGGTCTCCAGGCTTCTTCAGCACGCCAAGGAGCAGGGGTATGTGCAGATCAGCATCGTGGACCCTCTCGAGGACCTGGGCGCTTTGGCCGAAAGGGTGAAGAAGGCTTACAGTTTGGAACACGTGCTGGTGAGTTATTCTCCCGTCAACGAATACCGCGAAATCCAGAAGCATATCAGCAAAAAGGCAGCCGATTACCTGCATGAAACGGTCCAGGATGCGGATATCATCGGCGTAACCTGGGGAACGACCATGCATGCCGTTGCGCTTCAGCTGCAGCAGAAGCCCGTTCGGGGCGTCGAGGTCGTGCAGTTGAAGGGCGGCGTCAGCCATTCGCATGTGAACACATATGCCGCCGAGATCGTCAATCTGTTCGCCGAGGCGTACCACACAATGGCGAGATATTTGCCGCTGCCGGTCATCTTCGACACCACGGAGCTGAAGGAAATGGTGGAGAGGGACCGGCATATCCAGCGGATCATCCAATTAGGCAAACAAGCCAATATTGCCATGTTTACAGTGGGTACCGTTCATGAGGACGCGCTGCTGTTCCGGCTCGGTTATCTGAGCAAGGAAGAACAGAAGCTGCTGCAGCGGATCGGCGCGGGCGATATTTGCTCCCGGTTTTTCGATGCGGAGGGCAGGGTGTGCAGCCAGGATATTAACAATCGCACGGTCGGCATCGATTTGGATGATCTGCGGCATAAGGAGAAATCCATTCTCGTGGCTGGTGGGCAGCGCAAGGTGGAGGCCATCCGAGCTGCGCTGATCGGCAAGTATGCAAACATCCTGGTAACGGACCAGTTTACGGCGCAAGCCTTGCTTCCATGA	MDQDKQRLSIEAARLYYMSDYSQQDIATRLGVSRPTVSRLLQHAKEQGYVQISIVDPLEDLGALAERVKKAYSLEHVLVSYSPVNEYREIQKHISKKAADYLHETVQDADIIGVTWGTTMHAVALQLQQKPVRGVEVVQLKGGVSHSHVNTYAAEIVNLFAEAYHTMARYLPLPVIFDTTELKEMVERDRHIQRIIQLGKQANIAMFTVGTVHEDALLFRLGYLSKEEQKLLQRIGAGDICSRFFDAEGRVCSQDINNRTVGIDLDDLRHKEKSILVAGGQRKVEAIRAALIGKYANILVTDQFTAQALLP				NA	NA	NA	NA	NA
AK002_05621	735			hypothetical protein	TTGGCTACTATCAATGTAACGGTATGGAACGAATACCGGCACGAAAGACATAATGAACAGATCGCGAAGATTTACCCCGAAGGCATTCACCGGACGATTGCCGATTTTCTGGGAAAGGATGCACAGTTCGTCGTACGCACCGCCGTGCTGGATGATCCGGAACACGGGTTGACGGACGACGTACTCGCTTCAACGGATGTTCTGATCTGGTGGGGGCATGTCGCGCATAGCGAAGTACGGGATGATATCGTGGAAAAAGTGCGCCAGCGCGTATTGGACGGCATGGGGATCATCGTGCTGCATTCCGGCCACGGCTCGAAGATTTTCCAGCGCCTTCTCGGCACGAATACCGGCGCACTGAAATGGCGCGACGACGGCGAGAAGGAACGGTTGTGGGTCATCGATCCCGGCCATCCGATCGTCAGCGGGCTCGGTGAGTATATCGAGATTCCGCAGGAGGAAATGTACGGGGAGCGTTTTGAGATTCCGGCGCCGGATGAGCTGGTGTTTGTCTCCTGGTTCGAAGGCGGCGAGGTGTTCCGCAGCGGCTGCTGCTACAAGCGCGGACGCGGCAAGCTCTTCTATTTCAGACCGGGTCATGAAGCGTTCCCTACCTATCACCAGCCTGAAATTCAGCAGGTGATTGCCAATGCCGTGGCTTGGGCGGCACCGATTCAAGGTGCGAAGACGTCCTATGGCCGGGTATCTCCGCTCGAATACGTACAGCCGGTATAG	MATINVTVWNEYRHERHNEQIAKIYPEGIHRTIADFLGKDAQFVVRTAVLDDPEHGLTDDVLASTDVLIWWGHVAHSEVRDDIVEKVRQRVLDGMGIIVLHSGHGSKIFQRLLGTNTGALKWRDDGEKERLWVIDPGHPIVSGLGEYIEIPQEEMYGERFEIPAPDELVFVSWFEGGEVFRSGCCYKRGRGKLFYFRPGHEAFPTYHQPEIQQVIANAVAWAAPIQGAKTSYGRVSPLEYVQPV				NA	NA	NA	NA	NA
AK002_05622	888	rhaS_17		HTH-type transcriptional activator RhaS	GTGCTATCGATGAACGCTGACTATGTGCCTAGAATCAAACTGATGGGCTTCGTCTCCTATAAGAACCCCTGGATTCATTTCAAACGGAACACCCACGAGCATATTCTGTATTTCGTGAAGAGCGGCGAGCTTCATATGCGGGAGAACGGCGTATCCCATGTGCTCCGAAAAGGCGACATGCTGGTGCTCGAGCCGCATCTGGACCATGAGGGAACCCAGAAGCATCCCTGCGACTACTACTATATTCATTTTGAGCATCCCGATATTCAGCAGGCGCCCGAACGGCCCTTATCCCTGCTGGCCAAGCAGTGGATCATGAGCGAGAATCAGCCGGCAGGCAAGGATGACGGCAGGCCGCTGTACTTTCCGAAGACCTGCACGTTAACCCAGAGAAAAAGCCTTCATCACATGTACCATGCCCTCAGTGAAATGCTGCAGCTTTACAGAAGAAAGCACTTTAACCGCAGTTTGACCGCGCTCAAATTCATGGAAATGCTGATCGAGCTGTCCCGCGAAAGCCTGTTCGATGAACTGGAGAAGAACAGCCCACACACCAAGTCCTATATGAAAGTGCATGCGCTGCTCGACTACATCCACGAACATTATGCCGAGAAAATCACCAGCTCGGATATCGAACAGCGCTTCGAATGCAACTATGACTATATCAATCGGGTGTTTGCCAAGCTCACGGGCCATACGATCATGCGATATGTGAATCAGGTCCGGATCAATCATGCCAAAGAGTTAATCGAGGCCACCCATCTCAGCTTCGGGGAGATCGGATATCTGACCGGCCTGGATGATCCCTTTTATTTCAGCAAGGTGTTCAAAAAATACGTCGGCATGTCGCCGAACCAATACTATAAGCAGGTTCGCGACAAGGAATAA	MLSMNADYVPRIKLMGFVSYKNPWIHFKRNTHEHILYFVKSGELHMRENGVSHVLRKGDMLVLEPHLDHEGTQKHPCDYYYIHFEHPDIQQAPERPLSLLAKQWIMSENQPAGKDDGRPLYFPKTCTLTQRKSLHHMYHALSEMLQLYRRKHFNRSLTALKFMEMLIELSRESLFDELEKNSPHTKSYMKVHALLDYIHEHYAEKITSSDIEQRFECNYDYINRVFAKLTGHTIMRYVNQVRINHAKELIEATHLSFGEIGYLTGLDDPFYFSKVFKKYVGMSPNQYYKQVRDKE				NA	NA	NA	NA	NA
AK002_05623	666	rnhA	COG3341	Ribonuclease H	ATGGCAAAGCAAAAATATTACGTAGTCTGGGTAGGCAAAGTACCCGGAATTTATACAAGCTGGGGCGAGTGCCAGCAGCAGGTGAACCAATTTACAGGTGCGAAATTCAAGGCGTTCGAATCCCGAAGCGAAGCGGAACAGGCCTATGCGGCAGGGTATAAAAATTACTGGGGGCAGTCCGGAAGCGGACCAAGCAGCTCGGGCTCCAAGAGCAAGAGCTTTAAGCGCAGCAGCGCCTCCGCGGCCGAGGATCCGGGGGAGATTGATTATGACAGCATCTCCGTGGATGTGGGAACGCGGGGAAACCCGGGACCGGTGGAATATAAAGGCGTGGATACGCAGACGGGGGATGTTCTGTTCTCGTGCGGGCCGATCCAGAAGGGGACGAACAATCTCGGCGAGTTCCTGGCGATCGTCCATGCGCTGGCTTATTTGAAGAAAATCGGCAGCACCAAAACGGTGTACAGCGATTCCATGAATGCGCTCAAATGGCTGAAGCAGAAGAAGGTGGTCTCCACGCTGCCGCGCGACGCGTCAACCAAAGAGATATGGGATCTCGTGGACCGGGCCGAGCACTGGCTTCGAACCAATACATACGAGAACAAGGTGCTGAAATGGCAAACGAAGAGCTGGGGAGAGATTAAGGCAGATTACGGACGCAAATAA	MAKQKYYVVWVGKVPGIYTSWGECQQQVNQFTGAKFKAFESRSEAEQAYAAGYKNYWGQSGSGPSSSGSKSKSFKRSSASAAEDPGEIDYDSISVDVGTRGNPGPVEYKGVDTQTGDVLFSCGPIQKGTNNLGEFLAIVHALAYLKKIGSTKTVYSDSMNALKWLKQKKVVSTLPRDASTKEIWDLVDRAEHWLRTNTYENKVLKWQTKSWGEIKADYGRK				NA	NA	NA	NA	NA
AK002_05624	225			hypothetical protein	ATGGCCCGTACCAAAACGCAAAAAGCGCTCCGCAAAGCGGAACGCGCCGGCATATGGTCAGCCGTCTCGATGAGAAAGACCAACGAGGATTATGGCGCGCTGTCACAGCATGTGAGAGTGAAGCCGACGAAACAGGAACAATCGAATAAGGTCAAACATAGAAAGCGGATCGGAGACGATGGCGCTTTTTTTGTTGGTTTCGGAGGATGTGATATAGTACGCTAG	MARTKTQKALRKAERAGIWSAVSMRKTNEDYGALSQHVRVKPTKQEQSNKVKHRKRIGDDGAFFVGFGGCDIVR				NA	NA	NA	NA	NA
AK002_05625	669			hypothetical protein	ATGGGCCGGAACATGAAAAAACTACTACTATTAGGGTTGATCGTATTATCGGTTGCGGGAATGTCCGCTTGCGGCGGCTCGGGCTTGTCGGAGAACGAACGGGAGCAGATTGTGAACCAGGTCGAGAAGCTGGAGACGGCGGAATATAAGCTGCTGCATTTTCAAATGGATTATCCGGAATATCTGGCCGAGGTGGACGGGATTGTCAGCGAGTCTTACATGCAGGCTATGAGCGACCGGATTATTTTCGGATATAACGAGAAGGAATATCGTGCAAGCGACATGATGGGAATGTCCGCCGAAGAGTACGAGAAGCATAAGGAGCATATGCGGGGGCTGGTCAAATCAATGGGAATGAACGAAGAGAAGGCCGCGATTCGCATTTCGGACCCTTATGAGAGTGAACAAGGCGAGGAAGTGTTGGTATATGCATCGGAATCCAGGGAACTGAAAGGAAAAACGCTGACTCAAATGAACCGCACGTATTCCCTAGTTAAGAAGGAAGGGGCCTGGATCATCACCGACGTGGAACAGGATAAGGCCACGATCGGCAGCGATGAGACGGAGACGGACGCCGCGGCGAAGCTGGATGCACTGAAATACCGGACGCATGAAGGAGTGGAAGTACAATACCGGGATAAAATCCTCACGTATAAGGGATGGGAATAA	MGRNMKKLLLLGLIVLSVAGMSACGGSGLSENEREQIVNQVEKLETAEYKLLHFQMDYPEYLAEVDGIVSESYMQAMSDRIIFGYNEKEYRASDMMGMSAEEYEKHKEHMRGLVKSMGMNEEKAAIRISDPYESEQGEEVLVYASESRELKGKTLTQMNRTYSLVKKEGAWIITDVEQDKATIGSDETETDAAAKLDALKYRTHEGVEVQYRDKILTYKGWE				NA	NA	NA	NA	NA
AK002_05626	960			hypothetical protein	ATGAAACTGGAGCGGCTCATATCCATGATTTACATGCTGCTGAACAATGAGATTCTGTCCGCGTCAGCCTTGGCAGAGAAATATAACGTGTCCCAGCGAACCATCTACCGCGACATCGATGCCATCTGCGCCGCCGGCATTCCGGTCGTATCCTATCAAGGGGTAAACGGCGGATACGGCATTATGGAGCAATACAAGATGGATAAAAGCCTGCTCGGTTCCTACGATGTCAGCGCCCTGATCACCATCCTGCACAGCATGTCTACGGTGTTCGAGGATGAGCGGGCCCTGGATACGATTCAGCGCCTGCAGACCATTGACCGTTCCGCCAACCCCGCTTCGCAGGGATTGTCCATGGATATCGGGAGCTGGCGGTCGTACAACGAAATCCTTCGTCTTCTTCGCCGCGCCATCACGGACAGGCATGTGATCTCCTTTCAATACATAAGCGCCAAGAATGAACGCATTTACCGAAAAGTCGAGCCCTTGCGACTTATGTATAAATTCGGATCCTGGTACTTGTACGGCTTCTGCAGAACGAGGAACGATTACCGCGAATTCCGGATCTCGAGAATGTCGGAGCTGTCCCCCTCCGCCGAGCCCTTTATGCGCCAGCACTCCGAGGAGCATACGCACGGACCTCAGCTTCAAGAGCAGCATCCAGATGGGCGGAGCGAACGGCATAACTGGGAATCATCGCCCGATGCCGTAGAAGTCGTGCTGCACGTGTCCCCCGGAGCCCTGGCCAAAGCGATGGACCAATTCTATGACGTACAGCGGGAATTTCATGAAGACGGCTCGCTCCGTCTCACGTTCAAGGTCAATGATCCGGATTCCCGGTGGCTCTGGTCTACCCTGCTGAGCTTTGGCGAGGAGATCGAGATTGTGGAGCCGGCCGACTTAAGGATCCGCATGCAAGCCAAATTAGAAAAAATGCTGCAAGTGTACGCAAAAGTATGA	MKLERLISMIYMLLNNEILSASALAEKYNVSQRTIYRDIDAICAAGIPVVSYQGVNGGYGIMEQYKMDKSLLGSYDVSALITILHSMSTVFEDERALDTIQRLQTIDRSANPASQGLSMDIGSWRSYNEILRLLRRAITDRHVISFQYISAKNERIYRKVEPLRLMYKFGSWYLYGFCRTRNDYREFRISRMSELSPSAEPFMRQHSEEHTHGPQLQEQHPDGRSERHNWESSPDAVEVVLHVSPGALAKAMDQFYDVQREFHEDGSLRLTFKVNDPDSRWLWSTLLSFGEEIEIVEPADLRIRMQAKLEKMLQVYAKV				NA	NA	NA	NA	NA
AK002_05627	522			hypothetical protein	ATGAACTATCCTGTAAAAATGTATGAATACCATGTATGGGCCAACCAGGCCATATTCAACCGTCTGCTGGAACTTCCGGGCGAATTGTACAATCGGACCATCACGAGTATCTTTCCGACCGTATCGGAAGCGTTGATTCATATTTACACGGTGGATCTCGGTTGGATGAACATTTTGTCCGGGAAGGACATGGGCTCTGCATTGGCTGAGGCCTACCAGCTACGGGAAGAGCTTGAAGCGATTTCGCTGGAAGACCTGAACCTGCGGTTTATCGAATTGTCGGATCGATACGCTGCGTTTCTCCGCCAGCAGCCTGACCTGGAGCGGATGATCCGATTGGATAATCCTTATGCCGGCATCCGGGATACTCGTCTATCCGAGATCGTGCTGCATGTCGTGAACCACGGCACTTACCATCGTGGAAATATTGCCGCCATGCTGCGCCAGCTCGGGAGCTCCTCCGCGATGACCGATTACGCTTTTTTTTGGTACCAGAATAAACCGGAGCCCACCTTCGCCTGA	MNYPVKMYEYHVWANQAIFNRLLELPGELYNRTITSIFPTVSEALIHIYTVDLGWMNILSGKDMGSALAEAYQLREELEAISLEDLNLRFIELSDRYAAFLRQQPDLERMIRLDNPYAGIRDTRLSEIVLHVVNHGTYHRGNIAAMLRQLGSSSAMTDYAFFWYQNKPEPTFA				NA	NA	NA	NA	NA
AK002_05628	531			hypothetical protein	ATGATCTCGCTGTCGCTGATCGGCTCCATCATCGGCATCAATGTGGTCTATGTCTCGATTTTTTCGCTGCGGCTGATCCTGATGATCAAGGGCAGGAGAGGGATAGCTTCCCTTCTGGCCATGCTGGAGGTATTCGTGTACTTGCTCGGCCTCAATCTCGTCCTGCAAAATCTGGACAATCCCTTTAATATGGCGGCCTACTGCCTGGGCTTTGGCCTAGGCGTGTATGCCGGTAGCCGAATTGAGGAGTATCTGGCACTCGGATACATCGTGGTGCAGGTGATCGTCAATTCCGTTGAGACGAACCTGGCCATGAACCTGCGGGAGAAGGGATACGGCGTGACCGCTTGGGAAGCGGACGGCAAGGATGGCAAGCGGCTGGTGCTTCAAGTGCTCGTGAAACGGAAGAATGAGCGGCGGCTGATGGAGTCACTTTCCAAAATGTCGCCGCAAGCGTTCATTATCTCCCATGAACCGAAAAGCTTCAAAGGCGGCTTCTGGGTGCGATTGACGGAAGGTCGCAAATTGTAA	MISLSLIGSIIGINVVYVSIFSLRLILMIKGRRGIASLLAMLEVFVYLLGLNLVLQNLDNPFNMAAYCLGFGLGVYAGSRIEEYLALGYIVVQVIVNSVETNLAMNLREKGYGVTAWEADGKDGKRLVLQVLVKRKNERRLMESLSKMSPQAFIISHEPKSFKGGFWVRLTEGRKL				NA	NA	NA	NA	NA
AK002_05629	882	ectD_2		Ectoine dioxygenase	ATGAGTAAAAATCATGCGTCGGCCCTTCAGGAAAAAGAAATGGACGTCTACCCTTCAAGAGTGCATGCGGAGCCCCGGATCTTAAAAAGGCAGGATCCGGTCGTACATTCGGAGTGGACGCCGGATGCACCGCTAACACAGGAGCAATCCGACTTCTACGAGCGCAACGGATATTTATTTCTGGAAGGCTTCTTTGATCGGGAGGAGCTTTCGCGGTATCAGGAGGAGGCCCGCAGGCTGCAAATAACGGCACGGGAATCAGAGAAAGATGAAGTGATCCGGGAGCCCGGCGGAGACGAAGTGCGGTCGGTATTCGCGGTGCATGAGAGCGACGAAGTGTTCAAGAAGCTGTCCCAGCATCCTAGACTCCTGGCAATCATGGAATACCTCTTGGGAAGCGAGACGTATATCCATCAATCCCGAATTAATTACAAGCCGGGCTTTACGGGCAAGGAGTTCTACTGGCACTCCGATTTCGAAACGTGGCATGTCGAGGACGGCATGCCGCGCATGAGAGCGCTAAGCTGTTCCATTGCCCTGGAGGATAACTATCCTTATAACGGGCCGCTTATGGTGGTGCCTGGATCGCATAAGGAATTCGTCGCCTGCATCGGCCAAACGCCGGAGGATCATTTCAAGGATTCCCTGCGCAAGCAGGAGTACGGCGTTCCGGATCATGACAGCCTGACGCGGATGGTGAAGGAGGGCGGGATCGACACGCCGGTCGGCAAGGCGGGCTCGATCGTGATTTTTGACTGCAACATTATGCACGGCTCGAACAGCAACATCACCCCGATGCCGCGCAGCAATATATTCATGGTCTATAACAGCGTGGAGAACAAGGTCAAGCAGCCGTATTCGGGCCAGAAGCCGAGACCATAG	MSKNHASALQEKEMDVYPSRVHAEPRILKRQDPVVHSEWTPDAPLTQEQSDFYERNGYLFLEGFFDREELSRYQEEARRLQITARESEKDEVIREPGGDEVRSVFAVHESDEVFKKLSQHPRLLAIMEYLLGSETYIHQSRINYKPGFTGKEFYWHSDFETWHVEDGMPRMRALSCSIALEDNYPYNGPLMVVPGSHKEFVACIGQTPEDHFKDSLRKQEYGVPDHDSLTRMVKEGGIDTPVGKAGSIVIFDCNIMHGSNSNITPMPRSNIFMVYNSVENKVKQPYSGQKPRP	PGPT0014065_228	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014065-ectD-K10674	NA	NA
AK002_05630	393	ectC		L-ectoine synthase	ATGATCGTTAGACATTTGGAAGAAATCGTGGATACGAAAGACGACATCGATACAACGACATGGAATTCGAGAAGGCTTCTGCTGACCAAAGACGGCATGGGCTTTTCTCTTAACGACACCCTGATCAAGGCCGGAACGGAGACGCTGATCTGGTACAAAAACCACGTCGAGGCCGTGTACTGCATCGAGGGGGAGGGAGAAATCGAGGTTGTCGGCGGCGAGACCTATCCCATCACCCCTGGCATGATGTATGCGCTGGACGGACACGAGAAGCATTATTTGAGAGCCCGTTCGCAGATGCGGATGGTCTGCGTATTCAATCCGCCGCTAACCGGCGCCGAAGTTCACGATGAGGAAGGAACCTACCCGCTGCTTGCCCCCATTACGGACTAA	MIVRHLEEIVDTKDDIDTTTWNSRRLLLTKDGMGFSLNDTLIKAGTETLIWYKNHVEAVYCIEGEGEIEVVGGETYPITPGMMYALDGHEKHYLRARSQMRMVCVFNPPLTGAEVHDEEGTYPLLAPITD	PGPT0014060_508	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014060-ectC-K06720	NA	NA
AK002_05631	1293	ectB		Diaminobutyrate--2-oxoglutarate transaminase	ATGGACAACCAAGTCATGGAGAAACCGAAGCTTACCGTGTTTAACAAGCTGGAATCGGAAGTGAGAAGTTATTGCCGGAGCTTTCAGACGGTCTTTGACAAAGCCCGGAATGCCAAGCTGTGGGATACGCAGGGCAATGAATACATTGATTTTTTTGCCGGCGCCGGCGCCTTGAATTACGGGCACAACAATGAGAGGATTCGCGAGAAGCTGGTCGACTACATCCTGCAGGACGGCGTTACGCACAGTCTGGACATGGCTACGGGAGCGAAGGAAACGTTTCTGACCCGCTTTCAGGAGATTATCCTGAAGCCGCGCGGGTGGGATCACAAGGTGATGTTTCCCGGGCCGACCGGCACCAATGCCGTGGAGGCCGCGCTCAAAATCGCCAGAAAAGTGACGGGGCGCAGCACCGTTTTGTGTTTCACGAATGCCTTTCACGGCATGTCGCTGGGATCGCTGGCGGTGACCGGCAATGCCTTCAAGCGCCAGGGCGCCGGCGTGGATCTGAGCCACTCGGTATTTATGCCGTATGACGGTTACTTTGGCAGCGACGTGGATACGATGGCATATATGGAGAAGCTTCTGGATGATCCGGGAAGCGGCATTCCGCTGCCGGCAGCGGTCATCGTCGAGGCGGTGCAGGGGGAAGGCGGCTTGAACGCCGCCAGCAGCCAATGGCTGCAGAAGCTGGCGCGCATCTGCAAGGATAAGGGGATGCTGCTCATTCTGGACGATATCCAGATGGGCTGCGGCAGAACCGGTTCGTTCTTCAGCTTCGATGATGCGGGCATCGAGCCGGACATCGTGTGCCTCTCGAAATCGATCGGCGGCTTCGGCTTGCCGATGGCGATTACGCTGATCAAGCCGGAGATCGACATCTGGGAGCCGGGTGAGCATAACGGCACCTTCCGGGGCAACAATCTCGGATTCGTTGCCGCTGCCGAAGCGCTGAGTTATTGGAAGACGGAGGATTTTCAGCTCGATATCGGCATTCGCGAACATCGGATTCGCCAATCGCTCGATGACGTCGTGAGGGATTATCCCCGGCTTAAGGGCGAAATCCGCGGCAGGGGCATGATCCAGGGGGTAGCCTTTGATAAGCCGGAGCACGCAGGAAGGCTATCCGAAATCGCCTTTGAGCAAGGACTGATTATGGAAACGTCAGGACCGCATAGCGAAGTTGCCAAGCTGATGCCGCCGCTGACCATTGAAATGAACACACTGGCAGAGGGATTGGGGATTTTTGAGAACAGCATGAAACAATTAGCTGCAGAGGAGAGGTTGTCATGA	MDNQVMEKPKLTVFNKLESEVRSYCRSFQTVFDKARNAKLWDTQGNEYIDFFAGAGALNYGHNNERIREKLVDYILQDGVTHSLDMATGAKETFLTRFQEIILKPRGWDHKVMFPGPTGTNAVEAALKIARKVTGRSTVLCFTNAFHGMSLGSLAVTGNAFKRQGAGVDLSHSVFMPYDGYFGSDVDTMAYMEKLLDDPGSGIPLPAAVIVEAVQGEGGLNAASSQWLQKLARICKDKGMLLILDDIQMGCGRTGSFFSFDDAGIEPDIVCLSKSIGGFGLPMAITLIKPEIDIWEPGEHNGTFRGNNLGFVAAAEALSYWKTEDFQLDIGIREHRIRQSLDDVVRDYPRLKGEIRGRGMIQGVAFDKPEHAGRLSEIAFEQGLIMETSGPHSEVAKLMPPLTIEMNTLAEGLGIFENSMKQLAAEERLS	PGPT0014050_957	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836	NA	NA
AK002_05632	513	ectA		L-2,4-diaminobutyric acid acetyltransferase	ATGGCTGTGGATACCGGAACCGAAGTGGTTTACCGAAGACCGGAGGCGCGGGACGGCACCCGGGTATGGGAGCTCATACGCGATACCGGATCGCTTGATCTGAACTCGCCTTATTGCTACATGCTGCTAGGGGATTACTTCAACGATACCTGCATGATTGCGGAGCATGAAGGAGACATCGTCGGTTTTATCTCCGCTTTCCGTTCTCCGCGCAATCCGGAGGCGCTCTTTGTATGGCAGGTGGCGGTTGCAAGCTCCCACCGGAGGCAGGGGATCGCGAAGGCGATGCTTACCGGCCTCATGAACCAGAAGGCCTGCCATGGCGTCCGTTTCATTGAAACGACGGTATCGCCCAGCAATATGGCATCACGCCGATTGTTTCTCGGTTATGCCGAGGAGAAATCCATTCCGAGCACCGTAACGGTGGGTTACGGAGCAGAGATGTTTCCGGATGGAACGACACATGAAGATGAGCCGTTATTCGTGATTGGCCCCTTTTTCAATGACATTTAA	MAVDTGTEVVYRRPEARDGTRVWELIRDTGSLDLNSPYCYMLLGDYFNDTCMIAEHEGDIVGFISAFRSPRNPEALFVWQVAVASSHRRQGIAKAMLTGLMNQKACHGVRFIETTVSPSNMASRRLFLGYAEEKSIPSTVTVGYGAEMFPDGTTHEDEPLFVIGPFFNDI	PGPT0014055_422	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014055-ectA-K06718	NA	NA
AK002_05633	852	glnQ_3		Glutamine transport ATP-binding protein GlnQ	TTGAATGCCGTTGTAATCGATGAGCAGGCTGAAGAGGCGAAGAAGCCGCAGCGGGAAAGAAGCCCCGTTACGGGCTCACAGCCGATCGTGAAATATGCGGGCGTGACCAAGTCGTATGGCGACCTGCAGGTGCTGAAGGGCATCGATTTGGAGATGCAGCCTGGAGAAAAGGTGGCTGTGATCGGACCGAGCGGATCTGGCAAAACGACGATGGGCCGGATGCTGATGACGCTGGAAGAACCGACCGAGGGGACCATCGAGGTCGATGGCGAGCTGCTCTGGCATATGGAGGAGAAGGGCAAGCTGGTCAAGGCAAACGAAAAGCATCTGCATCGGATGCGGTGCAACGTCGGCATGGTCTTCCAGCACTTCAATCTGTTCCCGCACATGAATGTGCTTCGCAACGTGACGGAAGCCCCGCGCAAGGTGCTGGGGTTGTCCAAGGAGGAAGCGGAGGAGCGGGCCGTCTCGATGCTGGGCAAGGTCGGTTTGGCCGACAAGCTGAAGATGCACCCGTCCAATCTGTCGGGAGGCCAGAAGCAGCGCGTCGCCATCGCCAGAGCGCTGGTCATGCGGCCGAAGGTGATGGTGTTTGACGAGGTAACCTCGGCGCTGGATCCAGAGCTGGTCGGCGAGGTGCTGGAGGTGATCCGGGAAATCGCCGAAGAAGGCGAAATGGCCATGATGCTGATTACGCACGAGATGGATTTTGCGAAGGAAATCGCGGACCGGGTCATCTTCGGAGCCGACGGCAGGATCGTTGAGCAAGGAACACCCGAGGAAATATTCGATCATCCGAAGAGCGAGCGGCTGCAGAGCTTTCTGCAGCGGTTCCGCTCGAACGGAAATTAG	MNAVVIDEQAEEAKKPQRERSPVTGSQPIVKYAGVTKSYGDLQVLKGIDLEMQPGEKVAVIGPSGSGKTTMGRMLMTLEEPTEGTIEVDGELLWHMEEKGKLVKANEKHLHRMRCNVGMVFQHFNLFPHMNVLRNVTEAPRKVLGLSKEEAEERAVSMLGKVGLADKLKMHPSNLSGGQKQRVAIARALVMRPKVMVFDEVTSALDPELVGEVLEVIREIAEEGEMAMMLITHEMDFAKEIADRVIFGADGRIVEQGTPEEIFDHPKSERLQSFLQRFRSNGN	PGPT0020790_507	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020790-ABC_PA_A-K02028	NA	NA
AK002_05634	663	glnP_2	COG0765	Glutamine transport system permease protein GlnP	ATGTGGGATTGGAAATATGTGTTTGAAATACTGCCGCAGCTTCTGAGTGCATTAAAAATGACGGTATGGGTCACACTCTGTGCTTTTGTGGTGGCATTGATTATCGGGCTGCTGCTTGCCTTTGCCGCGCGGAGCAAATTTAAGCCCTTGTCGCTCATAACCAAAGGAATCATAGAATTTATTCGCAATACCCCCTTGCTGGTACAGGTGTTCTTCCTGTATTACAGCTTGCCGCTGCTGACGGGCATTTCGATTCCGGCCTTCTATGCGGGAGTCATCGGCCTGGGGCTGCATTACAGCACGTATCTGTCGGAGGTGTACCGTTCCGGCATTGAAGGGGTGCCGAAAGGACAGTGGGAAGCCGCAACCGCACTGAACTACACGAAATCCCAGACCTGGCGGAGCATTATACTGCCGCAAGCGGTACCGCCGATCATCCCGGTGCTGGGGAATTATTTGATTGTCATGTTTAAGGAAACGCCGATTCTATGCGCCATTACGCTGGTCGAGATGATGCTGACGGCCAAAAATATCGTGTCGCAATCATTTCGCGCTTTCGAACCATACACGCTGGTCGGGATTCTGTTCCTGATCATCAGTTATATCGCGTCGTTGCTGGTGCAAAGGCTGGAGAAGCGTTTGAATCTGCAGCGTGGAAAATAA	MWDWKYVFEILPQLLSALKMTVWVTLCAFVVALIIGLLLAFAARSKFKPLSLITKGIIEFIRNTPLLVQVFFLYYSLPLLTGISIPAFYAGVIGLGLHYSTYLSEVYRSGIEGVPKGQWEAATALNYTKSQTWRSIILPQAVPPIIPVLGNYLIVMFKETPILCAITLVEMMLTAKNIVSQSFRAFEPYTLVGILFLIISYIASLLVQRLEKRLNLQRGK	PGPT0020795_9032	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
AK002_05635	654	yecS	COG0765	L-cystine transport system permease protein YecS	ATGCCGAATTCTTGGATCGATTTTCTTCCGACGCTGCTCAAAGGAGCAGAGATCACGATTATCGTCGCGTTCTTTTCAGCCATCCTGGCTATCGTGATGTCCTTTGCAGCCGGATTGTGCCGGCTGTCGAAGCTGTGGATCGTCCGCACGGCGACGGTCGTGTACGTCGAAGTTTTTCGGGGAACCTCCTTGCTGGTGCAACTCTTCTGGTTGTATTTTGCCCTTCCATTCATCGGCATCGAGCTTCCGAAAATGCTGGCGGCGATTCTCGCGATCGGACTTAATTTCGGCGCATACGGCTCCGAGATTGTTCGCAGCGCGGTGCTGGCCGTTCCGAAAGGACAGTGGGAAGCTGCCGTGGCGCTTAATATGAGGCCTTGGCAGAGGTTGTGGAACGTTATACTGCCCCAAGCGTCCCTGCGAATGCTTCCCCCGTTTGGGAATCAGCTTGTGGAACTCATCAAATCCACCTCGCTCGTTTATTTCATCACGATGGCGGATTTAACGTATCAGGCGATGGTGCTCCGCAACAATTACATCTCCTGGACCACCGAGATTCTGGTGCTGCTGCTCCTCATGTATTTTGTCATTGCGACGCTCGTCTCGATGGCGGTTCGACTGCTGGAGCGCAAACTGACCGCGGGGAGGCTGTAG	MPNSWIDFLPTLLKGAEITIIVAFFSAILAIVMSFAAGLCRLSKLWIVRTATVVYVEVFRGTSLLVQLFWLYFALPFIGIELPKMLAAILAIGLNFGAYGSEIVRSAVLAVPKGQWEAAVALNMRPWQRLWNVILPQASLRMLPPFGNQLVELIKSTSLVYFITMADLTYQAMVLRNNYISWTTEILVLLLLMYFVIATLVSMAVRLLERKLTAGRL	PGPT0020795_10592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020795-ABC_PA_P-K02029	NA	NA
AK002_05636	855	glnH_2	COG0834	ABC transporter glutamine-binding protein GlnH	TTGAAGAAAGTGGTTGTGCTGGTGTTGTCCGTGATGATGGTGGTACTGCTCGCGGCTTGCGGCGACAAAGGAAGTACGCTGGATCGAGCCATAGAGCAGGGATATATCACCGTAGGGTTTGCGAACGAGAAGCCGTATGCCTACAAAGAAGCCAATGGGGAGCTCACGGGCGAGGCGGTTGAGATTGCCCGCGTTATTCTGGAGCGTCTTGGCATCAAGGAGATGAGGGGGGAGCTAACGGAATTCGGTTCGCTGGTCGCCGGATTGCAGGCCGATCGGTTTGATCTGATCACGGCAGGCATGTTCATTAATCCGGACCGCTGCTCTGCCGTCCTGTTCGCGAATCCGGAGTACAGCATCGGGGAAGCCCTTGCGGTAAAGCAAGGGAATCCGATGGAACTCGGAAGCTATGAGGACATTGCCAAGAATGAGCAGGCCAAGGTGGCTGTCATGACCGGCGCGGTCGAAATCGGCTACATGGAGAAGTCGGGCATTCCTGCGGACCGGATCGTACAGGTCCCTGACCAGGCTTCGGCGATCAGCGCCCTCCAGGCCGATCGGGTGCAGGCGATTACCATGACGGGGCCGTCCCTGCAGGCGATGCTGGATTCAGCCAGCGACGACAGCATCGAACGCGTGGCCGATTTCGAGCAGCCGGTCATCGACGGCGAAAGCGTTCGCGGTTACGGGGCTACGGCTTTCCGCCAAGCGGATACCGAGTTCCAGGAGGCTTATAATGCAGAGCTTGAAAAGATGAAGGAGTCGGGCGAGCTGCTGGAAATTTTGCAAGAGTTCGGGTTCACGGAAGAAGAGCTCCCGGGTGAGATGACGGCCGCTGCGCTCTGCGGGGAATAG	MKKVVVLVLSVMMVVLLAACGDKGSTLDRAIEQGYITVGFANEKPYAYKEANGELTGEAVEIARVILERLGIKEMRGELTEFGSLVAGLQADRFDLITAGMFINPDRCSAVLFANPEYSIGEALAVKQGNPMELGSYEDIAKNEQAKVAVMTGAVEIGYMEKSGIPADRIVQVPDQASAISALQADRVQAITMTGPSLQAMLDSASDDSIERVADFEQPVIDGESVRGYGATAFRQADTEFQEAYNAELEKMKESGELLEILQEFGFTEEELPGEMTAAALCGE	PGPT0020800_745	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_POLAR_AMINO_ACID_TRANSPORT,PGPT0020800-ABC_PA_S-K02030	NA	NA
AK002_05638	744	bacC_5		Dihydroanticapsin 7-dehydrogenase	ATGAGATTTGATTCCAAGGTTGTCATTGTGACGGGGGGCGCCAGCGGGATTGGCGAAGCGGCAGTCAGACTTTTTGCAAAAGAGGGAGCCAAGGTCGTTATCGCGGATTATTCCGACCAGGGCCAAGCGGTTTCCGACGAATTGAGAGGAGCCGGCTTTGAAGCGCTGTTCGTCAAAACGGATGTAACCCAAGAGCAGGAAGTCGCGAATATGGTGAATCAGACGGTACAGCATTTTGGCCGTGTCGATGTATTGTTCGCGAATGCAGGCATAGCCCATGATGCTCCTGCCCATCAGTTAACGATGGATAATTGGCAGAGAACGATTGATATTAATCTGACAGGGGTCTTCCTGTGCGATAAATATGTCATTCAGCAAATGCTGTCCCAAGGAACCGGAGGGGCGATCGTAAACTGCGGCTCGATCCATAGCCATGTCGGAAAAGCAGGGGTAACCGCCTATGCTTCGGCTAAGGGAGGCGTCAAGCTGTTAACCCAGTCGCTCAGCGCAGACTATGCCTCCAAAGGAATCCGAATCAATGCCGTGTGTCCGGGATATATCGATACGCCGCTGATCAAGGGAAGAACGGAAGCGATCACGCAGCACCTGGTCGGCCTTCATCCGATGGGCCGTTTGGGACAGCCGGAAGAAGTGGCCAAAGCCGTATTGTTCCTCGCCAGTGAAGATGCCTCCTTCATTACGGGCACGAGTCTGCTGGTGGATGGCGGCTATACCGCGGTATGA	MRFDSKVVIVTGGASGIGEAAVRLFAKEGAKVVIADYSDQGQAVSDELRGAGFEALFVKTDVTQEQEVANMVNQTVQHFGRVDVLFANAGIAHDAPAHQLTMDNWQRTIDINLTGVFLCDKYVIQQMLSQGTGGAIVNCGSIHSHVGKAGVTAYASAKGGVKLLTQSLSADYASKGIRINAVCPGYIDTPLIKGRTEAITQHLVGLHPMGRLGQPEEVAKAVLFLASEDASFITGTSLLVDGGYTAV	PGPT0003180_12401	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
AK002_05639	612			hypothetical protein	GTGATATCCATTGACCCGAATACCCAAAGCGAACGGGACACATACAAGCTGCTGATCGGAAGCGTCGTTCCGCGTCCGGTCGCTTTCGTTACGACATTATCGGCGGATGGCGTGCTGAATGCGGCCCCGTTCAGTTACTTTTCCATTGTGTCGAGCAATCCCCCTTTGCTGTCGGTTTCCGTTCAGCGAAAGAACGGTGCACCCAAGGATACGGCGAGAAATGCCATGCAGAGCGGCGAGCTTGTCATCCACATCGTGGACGAAGATACCGTTGCAGCCGTGAACGAAACGGCGGCGAACCTGCCTCCGGACGAAAGTGAGCTTGACCGAACCCGTTTAACCCCGGTCGTTAGTGACGTTGTTAAGGTTCCCGGCATTATGGAATCCAAGATTCGCATGGAATGCGTGCTGGAGCAGGTCGTCACGTTGGATGGTACGGATCAGCTGCCTGCCGCTGATCTATTGATTGCCCGCGTCGTCCGATTTCACGTGTCCGAGGAGCTCTACGAGCATGGCCGGATTGACGCATCCAAGTTGAAACCTGTGAGCCGCATGGCAGGAAATATCTATTCGACCCTGGGAGAGATGTTTACGATTGAGCGTCCGGTCTGA	MISIDPNTQSERDTYKLLIGSVVPRPVAFVTTLSADGVLNAAPFSYFSIVSSNPPLLSVSVQRKNGAPKDTARNAMQSGELVIHIVDEDTVAAVNETAANLPPDESELDRTRLTPVVSDVVKVPGIMESKIRMECVLEQVVTLDGTDQLPAADLLIARVVRFHVSEELYEHGRIDASKLKPVSRMAGNIYSTLGEMFTIERPV				NA	NA	NA	NA	NA
AK002_05640	954	mhqO	COG0346	Putative ring-cleaving dioxygenase MhqO	ATGGCATTACATACGGCAGGCATTCATCATATTACCGCTTATGCGCAGGATCCGCAGAAGAACGTTGATTTTTATACAGGCGTGCTAGGACTCAGAATGATAAAGAAGACCGTGAATTACGATGCGCCCGAGGTATATCATCTGTATTTCGGGGATGAAGGAGGACAGCCCGGAACGATCATCACTTTCTTCCCTTCCTCCGCTTCGCGAAGAGGGCTGCGTGGAGGAGGACAGGCAGGATATACGACCTTTGCCGTTCCTGTAGGGGCCCTGCCTTATTGGGAACAGCGGCTGCGGAGCTTTGGTGTTCCTGTCATGAAGGCTTTCCGGTTTAACGAACAATACCTTCAATTCTCCGATCGGGACGGACTTTCGCTAGAGTTGGTGGAGCGGGAAGGCGGTCCGAATAACGGCTGGTCCGTGGACGATATAACATCGGCTACAGCCATTAAGGGATTCGGCGGCGCGGTTCTGTTCAGCAGCAAATGGGAGGAGACGAAGAAGGCGCTGGAGAATGTCATGGGACTGACCTACATTGGAGAGGACGTCAATTATGCCCGGTTTCAAGCTGCGGGCCACTTCGGCAACGTGATTGATCTGCCGATGCGGGATATCCCTTTGGAAGCCGGAGGTGCCGGAACGACCCATCATATCGCATGGCGGGCTCAAGATGATGGGGAGCACGGCAAATGGCATGAATGGGTGAAGGAGCAGGGCTTTCGCCCTACGGATATCAGGAACCGTAACTATTTCAAAGCGTTATATTTCAGGGAACGTGGTGGGATCCTGTTTGAGATCGCAACCGATCCGCCCGGATTTACGGTGGACGAAGACCTGGACTCGCTGGGGGAACAATTAAAGCTTCCTGCCTGGTTCGAACCGGAGCGTGCCCGAATCGAGCAGGGGTTGGAGCCTATACAAGTCAAACATACAGGAGAGGGGCAACTCAAGTGA	MALHTAGIHHITAYAQDPQKNVDFYTGVLGLRMIKKTVNYDAPEVYHLYFGDEGGQPGTIITFFPSSASRRGLRGGGQAGYTTFAVPVGALPYWEQRLRSFGVPVMKAFRFNEQYLQFSDRDGLSLELVEREGGPNNGWSVDDITSATAIKGFGGAVLFSSKWEETKKALENVMGLTYIGEDVNYARFQAAGHFGNVIDLPMRDIPLEAGGAGTTHHIAWRAQDDGEHGKWHEWVKEQGFRPTDIRNRNYFKALYFRERGGILFEIATDPPGFTVDEDLDSLGEQLKLPAWFEPERARIEQGLEPIQVKHTGEGQLK	PGPT0028510_744	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
AK002_05641	1080		COG0628	Putative transport protein	TTGCTGAAAATGAACAAGTTTTTCAAATTGTGTCTTGCCGTGATCCTGGTGCTGACCATCATTTATTTGGGATCGCTGGTGGATTTTATATTCAGACCCGTACTTTCGTTCTTCTCCATCATCCTCGTGCCGTTAATGCTGTCGGGATTCTTCTATTACCTGCTCAGACCGCTGGTTGATCTCCTCGAAAAACGCAAGCTAAATCGCTCGCTGGCCATCCTGCTCCTGTATGTCGTGTTCGCGGGCATCCTTACCGGCTTTATCCTGGGGGTATGGCCATCGCTGCGCGATCAGATCGTGGCTCTCGTACAGAACGCTCCAGCCTTGTTTGCCAAGCTTGGCGAGCAGCTTCAGGAATTGGAGAATAACGGCTTTTTCCAGGACATTTTTCCGGAGAACGCCAACCCGCTTACACAGCTCACCGATTATTTGAATCAAGGCTTCACGTTCCTGACGAATTATATTATGAATCTGTTCTCGTTCGTGTCGAATTTTGCCATCGTATTGTTTACGTTTCCGATTCTCCTGTATTACATGTTGAAGGAAGGCGGGAAATTCGGGAAGATGGTGGTCAGCTTTTTGCCTGACCGATTCAAGGGCGAGGGAGCCTCGGTGCTGGATGAAATCAACAATGCACTCAAAGGCTTTATCGTAGGCCGGGTTCTCGTCAATTTGGCGCTGGGGGTTCTGATGTATATCGGATTCCTGATTATCGGCCTGCCTTATGCGCTGCTGTTGACGGTCGTGGCGGTCATCGCGAATTTCATACCGTTTATCGGCGCCATTCTATCCTCGATCCCGATCGTGATTATCGGCTTTATTCAGTCCCCGGGAACCGCGATCTGGTCCCTTGTCGTCATTCTGGCGGCCCAGCAGATTCAGGATAACCTGATTGGTCCGTATATCTTCGGCAAACAGCTGGCGATCCATCCCATAACGATCATTATCCTGGTGCTGGTGGGACAGGATCTTGGCGGGATTATCGGAATTCTGCTGATCGTACCAATCTATATGATTATTAAGATTATCGTTACCCGGGTGTATCAGCTGTTCTTTAAGGAGAAATGGCAAAAAGCTTAA	MLKMNKFFKLCLAVILVLTIIYLGSLVDFIFRPVLSFFSIILVPLMLSGFFYYLLRPLVDLLEKRKLNRSLAILLLYVVFAGILTGFILGVWPSLRDQIVALVQNAPALFAKLGEQLQELENNGFFQDIFPENANPLTQLTDYLNQGFTFLTNYIMNLFSFVSNFAIVLFTFPILLYYMLKEGGKFGKMVVSFLPDRFKGEGASVLDEINNALKGFIVGRVLVNLALGVLMYIGFLIIGLPYALLLTVVAVIANFIPFIGAILSSIPIVIIGFIQSPGTAIWSLVVILAAQQIQDNLIGPYIFGKQLAIHPITIIILVLVGQDLGGIIGILLIVPIYMIIKIIVTRVYQLFFKEKWQKA				NA	NA	NA	NA	NA
AK002_05642	1449	clsA_2	COG1502	Major cardiolipin synthase ClsA	ATGCATGTTACATCCATCATTCTTGGTCTGATCATCGTTCTGAATATCGTGTTCTCCATGTTCGTGGTTTTCAGGGAACGGCGGGATGCCGGCTCCACCTGGGCATGGCTGCTGGTGCTGTCCTTTATCCCGATTCTGGGCTTTGTGCTGTACTTGCTGTTCGCCCAGAATTTAAGAAGAATTCGTCTCTTTCATTGGGACGATCTGCAAAAAACCGGCATCGAGAAAGTATTGCTGTCCCAAATGGAAGGGATGAACAACGGCGAATACCCGTTTACCAATCAAGCGGCGGCGGACAACAGCGATTTGATCCATATGCATATCAACGAGAACCAGGCGATCCTTACGGACGACAACCATGTTGAAATTTTTACGGATGGACGCAGGAAGTTTGAACGGTTGTTTCAGGATATCGAGGAAGCCAAAGACTATATACATATTCAGTACTACATTATCCGCCGCGATGAGCTTGGCAAGAAGCTGATCTCCCTGTTGACCCAAAAGGCTAAGGAAGGCGTGAAGGTCCGGGTTCTATACGATGAGCTGGGCTCGCGTCAACTAACCAAAGGCTTCTTCAAGGCATTCCGCGAAGCCGGCGGAGAAGCCGAGGCCTTCTTCCCGTCCAAGCTGCGCTTCATTAACCTGCGGCTGAATTACCGGAATCACCGAAAGCTGGCGATCATCGACGGCAATATCGGGTATGTCGGCGGATTCAACGTCGGGGACGAGTACTTGGGCCTCAACTCCAGGTTTGGGTATTGGCGGGACACGCATCTGCGCATCCAAGGCGAGGCCGTTTATGCGATGCAGGTTCGCTTCATTCTGGACTGGAATCAGGCTTCGCATCATAACGATATCACTTACGAATCGAATCTGTTTCCCAAGATCAATTCGCCCGGCAATGTCGGAATTCAGATTGTTACCAGCGGTCCGGATTCCCGTTATGAACACATCAAGAACGGTTATATCAAAATGATTTCGTCCGCCAAGAAATCGATTCATATTCAGACGCCTTATTTTATCCCGGATGCCAGCCTCCTGGATGCACTGCGCATTGCGGCGCTTTCCGGCGTAGAGGTGCATCTGATGATTCCAGATAAACCGGATCATCCCTTCGTGTATTGGGCTACCTTATCTTATATCGGGGAAATGCTGGGTACCGGGGCTAATGTGTATCTCTACAATAATGGCTTTATTCATGCCAAGACGATCATCATCGATGAGAAGATTTCATCCGTGGGCACGGCGAATATCGATGTTCGAAGCTTCAAGCTGAATTTCGAAGTGAACGCATTCCTGTACGATGAGCATTTATCGAAACAGTTGACCCACATCTTCCACCAGGATCTGCGGGTATCCAGCCAGCTTACGATGAAGCAGTATCTGGAGCGTTCGCGGTGGATCAAGTTCAAGGAATCCATCTCCCGCCTGCTGTCGCCTATTCTATAG	MHVTSIILGLIIVLNIVFSMFVVFRERRDAGSTWAWLLVLSFIPILGFVLYLLFAQNLRRIRLFHWDDLQKTGIEKVLLSQMEGMNNGEYPFTNQAAADNSDLIHMHINENQAILTDDNHVEIFTDGRRKFERLFQDIEEAKDYIHIQYYIIRRDELGKKLISLLTQKAKEGVKVRVLYDELGSRQLTKGFFKAFREAGGEAEAFFPSKLRFINLRLNYRNHRKLAIIDGNIGYVGGFNVGDEYLGLNSRFGYWRDTHLRIQGEAVYAMQVRFILDWNQASHHNDITYESNLFPKINSPGNVGIQIVTSGPDSRYEHIKNGYIKMISSAKKSIHIQTPYFIPDASLLDALRIAALSGVEVHLMIPDKPDHPFVYWATLSYIGEMLGTGANVYLYNNGFIHAKTIIIDEKISSVGTANIDVRSFKLNFEVNAFLYDEHLSKQLTHIFHQDLRVSSQLTMKQYLERSRWIKFKESISRLLSPIL	PGPT0007725_2447	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
AK002_05643	405			hypothetical protein	GTGGCTAAACTGACACCGTATATTTTCTCTGAGGATGCAAAAGCGCAGGCTGAGTTTTATACCCAAGCACTGGGAGGGGAAATCTTATCCGTGCAAACCCATGGCGAGGTTCCCGGAACCAAGGAAGAATTGAAGGACAAGGTCATGCATCTGAGTCTGGTAGCCGGAGGAATCCCGATCTTTATGTCGGACTCGATCTTCCAAACCCTGGAGCGTGGGAACGGGATTCATCTGAGCCTGTCGTTTGAGAGCGATGCCGAAGCCCATGAAGCTTTTGACCGCTTGGCCGAGGGCGGCAAGGTGATTGATGCGCTGAAGACTCAATTCTGGGGAGCGCTGTTCGGGGTGCTGGAAGACAAGTTCGGCGTGTTATGGCAGGTCACGACGGAAGTTCAAGTCAATTAA	MAKLTPYIFSEDAKAQAEFYTQALGGEILSVQTHGEVPGTKEELKDKVMHLSLVAGGIPIFMSDSIFQTLERGNGIHLSLSFESDAEAHEAFDRLAEGGKVIDALKTQFWGALFGVLEDKFGVLWQVTTEVQVN	PGPT0030505_3114	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_05644	429			hypothetical protein	ATGCTCAATACGTATATCAAGGAATGCCTTTACTTCACAGCCAATCGCCTTAGCCGGGTCATTACCAAGATGGCCGAAGACGAGTTTGCCGCAAGCGGATTGTCGCCTACGTATGCATATCTGCTTATGGCTGTATACGAGAAGGAAGGGATCTCGCAGAAGGAATTAGGCGAAATTCTTCACCTCCAGCCATCCACCGTAACCCGACTGGTTGAGAAGCTGGCCGTTAAAGGGCTGGTATACAATCGGGTGGAAGGAAGGATGTCGCTGATCTATACGACCGATAAAGGAAAGGCTCTTGAGAAAGTAATACACGAGTGCTGGAACAATCTGCGTAGTCGATACGGAGAAATTTTAGGCAATGCCCAAGGGGATGAATTATCCCTGCGTCTATACGAGGTCAGCGATCGATTAGAGAATAAGGACTGA	MLNTYIKECLYFTANRLSRVITKMAEDEFAASGLSPTYAYLLMAVYEKEGISQKELGEILHLQPSTVTRLVEKLAVKGLVYNRVEGRMSLIYTTDKGKALEKVIHECWNNLRSRYGEILGNAQGDELSLRLYEVSDRLENKD	PGPT0013155_4802	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK002_05645	411			hypothetical protein	ATGGCATTAAAAATCGATAATATTTTTGTGAATCTTCCGGTTAAGGATCTGGAGAAAACGAAAGACTTTTTCTCGAAAATCGGTTTTGAGTTTAACGAGCAGTTTACGGATAAGAATGCGGCCTGCCTGGTCATAGGCGATAACATCTTTGCCATGCTGCTCACCGAGGATTATTTCAAGACGTTCACCAAGAAAGATCTGTCGAATGCGGCCAACACAACGGAAGTGATTCTGGCGCTGTCGGCAGAAAGCCGGGAGCAGGTGGATGACATCGTGAACGCTGCGCTGGCTGCTGGGGGATCGCCTTCCAACGACCCGGTGGATCACGGTTTTATGTACGGATGGAGCTTCCAGGATCCGGACGGACATCTATGGGAAGTCATGTACATGGATCAGAGCCAGGTCGAATAA	MALKIDNIFVNLPVKDLEKTKDFFSKIGFEFNEQFTDKNAACLVIGDNIFAMLLTEDYFKTFTKKDLSNAANTTEVILALSAESREQVDDIVNAALAAGGSPSNDPVDHGFMYGWSFQDPDGHLWEVMYMDQSQVE	PGPT0028555_1343	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
AK002_05646	726			hypothetical protein	ATGGAAATGGATCAGTGTTCTGTTTCTTCTTCAGAACGAACCTCTCGCAAGGATCAATGGATCCAGGAATTAAAGCAGAAGGTTTCCGTACTGCAGGAGAAGTTCCAGGCCGAGGATGACGAAGAGAGACAGTGGATGATACAGCGCTGCGATCAGCCGGAGATCATTGAATTGCTGAAGGAAATGACCGTCACGATGCTGCACGTGGTGGATGCGGTAGGCAGATTGGAGCCTGTTAACGGGATCACGATTTCCAAACAGTTCGGGATTCCGAAGGGCAGCGTCTCCAAAATAACCAAAAGATTGGTCTATAAAGAGATTCTCCATATGGAGAATCTGCCGGATAACAAAAAGGAAATTATATTTACGTTAACTCCTGCCGGAAGAGAGATCTTCAAACTGCATGGTGCGCTGCACAAGCAGATGGATCTCGGAATCAGCCGTTTCTTGCGGAGATACAGCGAGGATGAGCTGCGATTTTTGAATCGCAGCATGCAGGATACGATCGATGCTTCCTGGGTTAACTTTGATGACGGCGAGGATTCGAGCCTGAATCAAGGGTCCGAGGACCAACCCAAGACTGGGGGGGTTCCTTTATCGGTTTCAGGAGGTGAAACGGAGGAGATCGAGAGGATCCTGAGCATGCTCCGCAAGCTGGATTCCCGCAGCTTGAAGAGAGCGGAGGCCATTTTGACGGATGTGTTTTTCACGGAATTCGACGAATAA	MEMDQCSVSSSERTSRKDQWIQELKQKVSVLQEKFQAEDDEERQWMIQRCDQPEIIELLKEMTVTMLHVVDAVGRLEPVNGITISKQFGIPKGSVSKITKRLVYKEILHMENLPDNKKEIIFTLTPAGREIFKLHGALHKQMDLGISRFLRRYSEDELRFLNRSMQDTIDASWVNFDDGEDSSLNQGSEDQPKTGGVPLSVSGGETEEIERILSMLRKLDSRSLKRAEAILTDVFFTEFDE				NA	NA	NA	NA	NA
AK002_05647	618			hypothetical protein	ATGAGAGTCGTTATTGTGTTTGATCATCCCTATGGCGGAAAGGCGTCCGAAAATGTTGCCCATCGAAGAAGTTTTTCTGCTGCTTTGCTGTCGTCCGTCACAAAAGGTCTTGCGCAGGCGGGACACCAAATCGATCTGATCGATTTACATGAAGATGGCTTTGATCCCGTCATGTCGGCGGCTGATCTTGCTTCTTGGCGTCAGCAGCAATCCATGGATCCGCATGTTGCTGATTATCAGCAGCGATTGATGGCAGCAGATTATATCTTTTTTATCTTCCCGATCTGGTGGGAATCCATGCCTGCCATGACAAAAGGCTTCCTCGATAAGGTGTTTGCCAAGGGCATTTTGTACGATGAGCCTAAACCCGGCCGGCCCTTCGCGCACCATCTCCCCCATCTCAAGGGAGTGTACCTGCTTACCGTGATGAGCACGCCAAGTTGGGCCTACCGTTTATTTTTCGGTAATCCGATTACGAAGATCCTGTTTCGCGGGACCTTTCGGAAAATGGGATTTCATAAGCTGCGCTGGCTGAATTATACCGGCATGGAAAGACGTCCGCTGGAAGCGCGGATTCGGTTTCTGAACCAAACGCAGCTGCGTTTCAGCCGGCTATGA	MRVVIVFDHPYGGKASENVAHRRSFSAALLSSVTKGLAQAGHQIDLIDLHEDGFDPVMSAADLASWRQQQSMDPHVADYQQRLMAADYIFFIFPIWWESMPAMTKGFLDKVFAKGILYDEPKPGRPFAHHLPHLKGVYLLTVMSTPSWAYRLFFGNPITKILFRGTFRKMGFHKLRWLNYTGMERRPLEARIRFLNQTQLRFSRL	PGPT0009455_1142	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
AK002_05648	3708			hypothetical protein	GTGATACCCTTTATCACGACAAGACGCCCGAAATGGGTACTGTGTTTTTTGGCCCTTATTCTCATGTTTACCCCACTGCTTCATGCGCCTGCATCCTATGCAGCAGAAGGCGCATCTCCTTCAGAAATTACCGCAACGAGCTCCGGCATCGATTCGGTGACGGTAACAAGCTCGACCTATGGCTCCCAGGATCCGCTAGCACCGCAGAATCTGCGTATTGAAAGTGTCTCTCATAATATGGCGATATTTCAATGGGATTTTAAGTCGGATGAAGATGAAAACAATATTCAAGTGTGGAATGCGGATACAGACGGCTGGGTGGCATGGGGAAATTACTGGACCCGAGCCGTCACCGGATTGACACCCGAAACGACCTATAGGATATATATAACTTGGGATGGCGACGCGAAGAAGGCACACAAAAGTAATGTATTGGAATTCACCACAACTAAAGACGAAGCCGAATATAAGGACGCACCGTTAACACCCCCAAGCCATCTTCAAATTCAAGAGGTAACGGAAGATACGGTTACTTTGAATTGGGGATCAAGTCCGGGTGCTGAAGCTTACGATATATATGTCAATGGAGCATGGAAAGGCGGCACTTGGGAAAACTCCGTCACCACGGCTACCTATGGACCTTTGGAAGCAGGAGAGACGTACACTTTTAAAGTAGGTGCACAAAGAAACGCAAATGGAGCTTTGGAAGCATCGGCTAATAGTAATGCCGTTACCCTCAAGTGGGGGGAACTGGCTCAACCGCAAGGGTTACAGGTAATCACGGCTACACGATCTACGGTTTCACTGGGCTGGGCACCGGTGCCCGGGGCCACAAGCTATGATATTTATCAGGATGGAGCAAAGGTTGGTTCGAGTGGCGAGAGTCGGTACGTAGCTGTTGGACTTGAAGAAGGCAAGACCTATTCGTATAAGGTAGTGGGCCATAACAGCCTATGGACTTCGCCTGAAAGCGAATCAGTATCGGTAGTACCGGGCAGCAATTATAACAATATTTCGTACTACACCTCTTGGTCAGCTAGTACCAAAGATCGTAATTTTCATCCTGCTGAATTGGACATATCTCAATTAACTCACATTAACTACGCCTTCGCCGATATTTGCTGGAAAAAATTCGGGAGCGGGCCGAGAGCCTGCGAGGATCCTAATATTCCTGCACAGGATCGATACGTCCATGACGGAGAAATTGTGATTGGCGATCCGACATTCGATTTTCAAAATTTCCAAGCCTTCGAATCCGTCAAGGCCGCTAACCCCCACTTGAAGCTTATGATATCGGTAGGCGGCTGGTCCTGGTCCAATCATTTCTCCAACATGGCCAAGACCGAGGAAACACGCCGGGCGTTTGCGAATTCCGCGGTGGATTTCCTTCGAGAATACAAATTCGATGGTTTGGATATCGATTGGGAGTATCCTGTTGAAGGCGGGGAAGACGACAACTCCCGGGGACCGGAGGATACGGAAAACTTCACACTGTTAATGAAGACCGTTCGCGAGGCGCTGGATGCTGCCGGATCAGAAGACGGGGAGTACTATCTGTTGACGATTGCTTCCGGACAGGGCGATAATTTCGTTAAAAATGCCGATCTCGCGAATTCGGTGACCTATCTCGATTTCATCAGTATCATGACTTACGATTACAGCGGCAGCTGGGAGACGCTGGGCCATCATAATGCACCGCTGTTCTTTGACCAAAAGCATCCGAAAGCCGCTTCCTCCGCTCCGAGAAATCATGTGCTCGGCGGTTTGTTGGGCCATCTGAACGGCGGGGTGCCGACGCACAAGCTGATCGCCGGGGTGCCATATTACGGTAAGGGCTGGGATGATTGCCCGCCAACCGGCCAATATCAGACTTGCAAAGGCGGATCTGCCTTAAAGACATGGGAAGCGGGCGTTTTCGATTTCAGCGATCTCGAGAATAACTATATCGACAAGAACGGTTATAAGCGATACTGGAACGAATCCGCCAAAGTTCCATACCTGTACAATGAGCAAAATAAAGTTTTCATCACTTACAACGATAGGGACACCATGAAATATACGGCTTCCATCGTGAAATCGCTGGATATCGCAGGCGTCATGAGCTGGGATATCAGCGGCGACCGCAATAAGACGCTGACGACCCAACTCGTTCACGATTTGCCCATCAACGGCCAAGTCCATGCATCGGCACTCCCGGCTCCAGGGAATCTGTCCAAGGTAAGCGCCGATTCCGGCTCCATCCAGCTGAAATGGGATGCCGTGACGGGAGCAACGGGATATGAAGTGTACGTGAATCATGCGTTGTCCGGCTCGGTGGCAACGAACGGTTATACTGTGAAGGGCCTCAGCCCCCTAACGAATTACAAGATCCATGTACTTGCCGTGGATCGAACGGGAGATGAGATCAACCGCGTCTCCAGCGCTTCGAATCAGCTGAGCATCGCGACTTCGGGCAACGACTCCGGTGGCTCTGAAGGCGGAGGAGGCTCCGGCGGATCCGGTTCAACAACGCCATCGACGCCACAGCCGCCTAAAGGCAAGGATCAACTCGAAGCCAACGTTGTGCTTGAAGGAGATAAGGCTCTAGTTACCGTGCCTGCGGCTGCGGCAGTTAACAGCATTAACCATTCGGAATCCTCCAACTTCCAGCTCCATGCGGGTCCGGGCGCGAAGCAGGCGGTGCTGGAAATTCCGCAAGAAGTGATTGCGGCCATTGCGAAAAAAGGGGCCAAAGCCAGTCTGTCCGTTTTCCTAAACGGGACAGAATACCGGATCCCGGCTTCGCTGATCTCGGTTTCCGGGCCGGTGAGAGTCTCGATTGTGGCTCCAGACGATAAGGACGCAGCAAGCCTGGCCGCCTTGCTTCAAGGGAAAGAAACACTGGCGAGTTCGCTGCTGTTCAAGCTTGAGCAAGTACACGCGGATAAAACGGCAACCGAGCTGATACGCTTCGGGAAATTCCATGTCAGCGAGTTTGTTACCTTGGATGCGAAAAAGATAGATATAAAACGTGCGACCGGAGTGGTCTTTATACCGGGTACAAACGAGCTTCGATCCGTTCCGACGTTGTTTAAAGTGAATACGGATGGCACGGTGACCGTTGAAATCAAGAAAACCGGCAGCGGCATTTATGCGCTGCTACAGCAGGATATCCGGTTTAGTGATGCGATTCCTTCGTGGGCACGGGAAGACGTGGCGCAAGCTACGGCCAAAATGATCGTATCCGGAGAAAATAACGGTTCGTTCGGTGCGAATAAACACATTACCCGTGCCGAGATTATCTCCATCCTGGTGAAAGCGCTGGGTCTATTGCCTGACGACAAGGATTCCAGCTTTAAGGATGTGGATCCGAAATCCCGATATGCCAGAGAAATCGCGGCTGCCAAAGCTGCAGGATTGGTGAAGGGACGCACAGGCGATCTCTTTGATCCTAACAGCTTGATTACGCGCGAGGAATTAGCGGTTATTCTAAGCCATGTGCTGGAGTATGCCGGTAAGAAGAATGAAGCCGGCCAAGGCCTGTTAAACAAATTTAAAGATCACTCCAAGGTTTCGTCCTATGCGAAGTCGTCCGTCGCCTTCGTCGTGGAACAGAAGATTATGCAGGGGGTATCCGCTGCCAAGCTGGATCCGCAGTCTCATGTGACCAAAGCTCAAACGGTAGTAACCGTTATGAGATTGCTGCGTGCAGCGGAGTTATCGAATTAA	MIPFITTRRPKWVLCFLALILMFTPLLHAPASYAAEGASPSEITATSSGIDSVTVTSSTYGSQDPLAPQNLRIESVSHNMAIFQWDFKSDEDENNIQVWNADTDGWVAWGNYWTRAVTGLTPETTYRIYITWDGDAKKAHKSNVLEFTTTKDEAEYKDAPLTPPSHLQIQEVTEDTVTLNWGSSPGAEAYDIYVNGAWKGGTWENSVTTATYGPLEAGETYTFKVGAQRNANGALEASANSNAVTLKWGELAQPQGLQVITATRSTVSLGWAPVPGATSYDIYQDGAKVGSSGESRYVAVGLEEGKTYSYKVVGHNSLWTSPESESVSVVPGSNYNNISYYTSWSASTKDRNFHPAELDISQLTHINYAFADICWKKFGSGPRACEDPNIPAQDRYVHDGEIVIGDPTFDFQNFQAFESVKAANPHLKLMISVGGWSWSNHFSNMAKTEETRRAFANSAVDFLREYKFDGLDIDWEYPVEGGEDDNSRGPEDTENFTLLMKTVREALDAAGSEDGEYYLLTIASGQGDNFVKNADLANSVTYLDFISIMTYDYSGSWETLGHHNAPLFFDQKHPKAASSAPRNHVLGGLLGHLNGGVPTHKLIAGVPYYGKGWDDCPPTGQYQTCKGGSALKTWEAGVFDFSDLENNYIDKNGYKRYWNESAKVPYLYNEQNKVFITYNDRDTMKYTASIVKSLDIAGVMSWDISGDRNKTLTTQLVHDLPINGQVHASALPAPGNLSKVSADSGSIQLKWDAVTGATGYEVYVNHALSGSVATNGYTVKGLSPLTNYKIHVLAVDRTGDEINRVSSASNQLSIATSGNDSGGSEGGGGSGGSGSTTPSTPQPPKGKDQLEANVVLEGDKALVTVPAAAAVNSINHSESSNFQLHAGPGAKQAVLEIPQEVIAAIAKKGAKASLSVFLNGTEYRIPASLISVSGPVRVSIVAPDDKDAASLAALLQGKETLASSLLFKLEQVHADKTATELIRFGKFHVSEFVTLDAKKIDIKRATGVVFIPGTNELRSVPTLFKVNTDGTVTVEIKKTGSGIYALLQQDIRFSDAIPSWAREDVAQATAKMIVSGENNGSFGANKHITRAEIISILVKALGLLPDDKDSSFKDVDPKSRYAREIAAAKAAGLVKGRTGDLFDPNSLITREELAVILSHVLEYAGKKNEAGQGLLNKFKDHSKVSSYAKSSVAFVVEQKIMQGVSAAKLDPQSHVTKAQTVVTVMRLLRAAELSN	PGPT0012130_188	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK002_05649	279			hypothetical protein	GTGTATTGGTTTTCGGACCGGAGCTGCTGTACCCTGGAGGAAATCAGGGCCTATTTCGAGCACGCTTGGGATGTCATTCGAGATGAGGTGTACCGGGCAGAGGACGTGGTGTGGATTGCGACTGATGTACATTCGGCTGTCTGTGTTTATACTTATCACTACGAGGGGTATTTTCAGGGGGAATTCACGACCGGGAGCGGGAGAGCAACGAACGTATTCGTTCGAAATGCCGACGGCGCATGGAAATTAAAGCATGAGCATCTAAGTTCAATGGGATGA	MYWFSDRSCCTLEEIRAYFEHAWDVIRDEVYRAEDVVWIATDVHSAVCVYTYHYEGYFQGEFTTGSGRATNVFVRNADGAWKLKHEHLSSMG				NA	NA	NA	NA	NA
AK002_05650	360	adhR_3	COG0789	HTH-type transcriptional regulator AdhR	ATGAAAATAAACGAGGTTTCAAAATTAACGGGTCTGCCCATATCAACGTTGAGATTCTATGAACGAAAGAACCTAATTCCGGACACATTTGTTAAACGAGATGCAAATAATTATCGAATTTATTCCGAAGAGATTGTGGAGTTTCTAGATGATGTGAAGGTACTTTTATCGGTAGACTTTTCTATAGAAGAATTAAGTTTGTTAGTCAATCAACAACTGAACTTATCATACGAGGCAAAGACGAAAATGGTTGAACGAAAAATCAAAGAAATTGATGAGATTCAGAAGCGATTGAAAAAGTCGAAGACATTCTTGAATGCCGTCTTGGAAGGAAAGGCAAATTTTCAAACCAAGTGTTAG	MKINEVSKLTGLPISTLRFYERKNLIPDTFVKRDANNYRIYSEEIVEFLDDVKVLLSVDFSIEELSLLVNQQLNLSYEAKTKMVERKIKEIDEIQKRLKKSKTFLNAVLEGKANFQTKC	PGPT0004135_2208	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
AK002_05651	639	yodC_3	COG0778	Putative NAD(P)H nitroreductase YodC	ATGTTTAACCATATTCAAAATAACGATTTCGCCAATATCGTTATGGGCCGACGTTCTGTCCGTAATTATGATGAGAACTTTAAAATATCGAAAGAAGAGATGAGCGACATGATTTCGGAAGCCAGTTTGGCTCCATCCTCTGCAAATATGCAGCCTTGGCGTGTAATTGTAGTCGATACTCCGGAAGGAAAAGAAAAGCTAAGACCTCTTGTGAGGTTCAATACGTTACAGAATGATACTTCATCAGCCATGTTATTGATTTTTGGCGATACCCAGAGCTATTTATATGCTGAAGAAATCTACAATACAGCTGTGGAACAAGGAAAAATGCCGGCAGAAGTACGAGATCGTCAACTCGAAACCATTCTATCCCTGTTTCCGACTCTATCAAGAGAAATGAAAGTTGAAATTGCAAAAATCGATAGCAGCCTCTTTGCCATGCAGTTCATGTTAGTAGCTCGTGCGCATGGGTATGACACGAATCCAATGGCAGGCTTTGAAGCTGATCAGTTAGCAAAAGCATTCGATTTAGATGAAGAACGCTATGCTCCAGTCATGATTATTTCATTAGGAAAAGCCAAGGAAGATGGGCATGAGTCCGTTCGATTAGAGCCCGACAAGATTACATTCTGGAGATAA	MFNHIQNNDFANIVMGRRSVRNYDENFKISKEEMSDMISEASLAPSSANMQPWRVIVVDTPEGKEKLRPLVRFNTLQNDTSSAMLLIFGDTQSYLYAEEIYNTAVEQGKMPAEVRDRQLETILSLFPTLSREMKVEIAKIDSSLFAMQFMLVARAHGYDTNPMAGFEADQLAKAFDLDEERYAPVMIISLGKAKEDGHESVRLEPDKITFWR	PGPT0028511_33	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
AK002_05652	2979			hypothetical protein	GTGCCGGAATTTCCAACCCGAAACATACAGCAGCAGATGTACACGCGGGAGCGGCGAGGCATATTCCGCTCGGCCGAAGGTTTTGACACGGTGGCCCGTTCGTCCGGATTGGAGGCTTCCTTTATTAAAAAGGTGCTCCATCCCTTCTGCCAATACGAAGCGCCTGCCGAGCTGACGGCGCGCAGTGAACGGGACGCTGCGTCTTATCCGGCTGCCCTTCATCTGTTCCATACCGAATCAGGGGAAACGGTGCTGGGCCGAAGCGTGTTTCAGCCTGCGGATTTCACGGGGCTGCGCAGCGCCTTTTTTACGCATCATTACGTCGTTCCGGAAGGCTTCCATCGAGATGATCATAACGCTTACCGGACATGGCTTCAGGCCGCTTTTGCCGATCATTACGATATCGAAGAGGGCGTCGATCTGCCGCAGCTTCCTGCGATTCCGGTCCAGGCCGATTCCCGGGCCGCTGTCTCGTCCGAGAGGACGCCGGCCTTGCTGGAGGAGCTCGGGATCAACGAGAAAGTATTCAAGCAGTTGATCTATGCCTGCATATCCGCGGCTGCCGGGAAGAAAAAGGTATACATCGTTCTGGATGTCCCGGTGGAACAGTTGTCCGCGAAGGCGGAGCAGCTGCTCTTTGTGCTGTTTGGCCGATTGCCCTATGCGCTGCGCCGGGTGCTTGGATTCGTAACTTATGCCAAGGAGCCGCAGAGCAAGAAGGGGCTTCATCTCATGTTCGTGGAGAAGGGCAGCCTGCGCCTGAATGACCGGAGCATCGAGAAGGATTATTTGTTTGAGCTCGCAGCAGGCCGGGTCATCAATGCCGATCTGAAATGGTCCGAGCAGCCTTATCTTAATTTTGCTTGGGATACGCTGCTGGACCCGGATCGGTCCGAACGTTTTTTTGCCTTCGCCGAGCTAATGCTTGCGGACATGGAGCCGATACATCAAATCTCGCTGGACAGCTATGATGATTTATGCATGCTGTTCCAGATCGAAGAAGGCCATGAAGGCCTGTACCATGAGCATAAGCATGCCGTGCTGCGTGCTTCACTGCTCTATCTGCAGCCGGCAGGCGCCCTGGATGCGAAGCAACGTCTGGATCAGCTGTTTCTTGCCCTGTTTGCCAAGGAGTTCGAGCTCGTCAAAGGCGGGCATGTTCCGGATGCCGCGATCGCGGGATTCCTGAAGGATTATCATGGCATCAATCCCCGGCAGCATAACGATTGGATCGTGGAATATTTTATCCGCTCCTTAAATAATGCCTTATCGAAGCAGCGTCAGGATACGACCATGGCGATTTACGAGCTGCTGGAGGGCAGCCCGTCTCTAAGCCGAGCCTTTTATGCGAGGGTGCTGACCAGTCCGGGGCTGCCGGCGCTGATGTTCGATCCCTACATGAAAACGCGCATGAAGCAAGCGGCAACGCCTGCAGACCTCGTGGATTTGATCGGCTTGTGGGTTCGGAATCACCCTCTCCTGCTGGAGCAGGAGAATTATGTACGGCTTGCGGAAGCCCAACTTATCGATAAGCTTCAGCAGGATTCGGATCCGGTGAGAACGGTCAATGCCGTACTGGATCAATTGGATGCGATGGAACGCGATCCGCAAAAGGGAATCGGCCGTTATCAAGGCGGGCGTGCCTTTGCGGACCGGATGATCTATGCAGCCAATCTCTTTCTCTTGCGTGAGCTGGAGCCTGAGCAATTAAGCCAGAAGCAGCTGATGGATATCGGGTTCCTGCAAATGCCGAAGGAGTTCAAAGGCTGGGTAGAGCGGTTCGATTCCCGGATTCGGTCCAAAGCCGCGGTCATGCTGGCCCTTCACCAGTGGTCCGGCCATGAAGAGGTTAGAGCGGAAGTGCTGGCGGAACTCTCGGCAGAGGAACGGGAGCGCACCCAGCATATCATGCGGAAATGGCTGCATAATCATGTGGAGCCCTCCAATTTCGAGAGCATAACCTTGGCTTTCTGCACGGATATCAATTCCAGTGCGGTAGACTATCGGAGCTTGCTGGATTACTTGCACAGATACGGCAAGAGTCCGGACGTGGTATACCAATATATACAATGGTCTGCCGAGCAGCCGGTATTCGTTAGACCGCGGGGACTTGTTCCCGCTTATGCCGCCGCCATCATCGATTATTTCAAAATCCACGACCGCGAAGCCTTTAAAAATAAGGATTACGTAAAAACTTATTTCAGTTCGCCTGCCCCCATCCTCAAACCGGTGTATGCGCAGGTTAAGGCCGAGTTGGCTTCGCCGTTGGTGCGATGGTTTCGCCGGCATTCGCGGTTCGTAAAAATCACTTCTTCCTTGCTTGTGGTAATCGTTGTTGCTGGCGCTGCCTTCATGATGATCCAAAACGGCAAAGGTCCCGCGGACGGCGATGCCGATCCGAATCCGGCCGTTACGCCGCCGGTTACGGTACCGCCGGCTTCTTCCGAGTCCGTAGATGAGCAGCCTTTATTAACGGCGACGGTGGTGGAGGAAGGGGAGCAGGAGGGAAGCACCGAGCTGAATTTCCATTTTAAACAGCCGGCGGCTTGCCGGGATTTCAGTGTGGACAAATTACAGATTATAGGCAAGGATGGAAGCACGCTGCTTGAAGCGGTCAGTCCTGAATTATCGCGGGTGTGCGCGGAGGAAACCACAGGGGAAGCTGATGCTGCTGATTCGTCAGGATCCGAGACGGATTTATCCGGGAACCAAGCGAATCTGAATAGCGGGACAACAGAAGGGGAAAACACGTCTGATCCTGTTGAAGGTGAGGACGTGGGGTCCTCGGATAACGTTGGCGACGCTACGGCAAACCAGACTTACTCGAGTCAGGTCACCGTGAAGCTGGATCAGGCGCTTGATGTCTCCCTTGCCGAGAAGGTCGTTGTGGATGGCGCCTCGTATGAGCTGTCCGACGAAAGCGCGCTTTCGGAAGAGCAAGGGCAGGCTCCGGAGAATGAGACCGATGAAGGAGTTTAA	MPEFPTRNIQQQMYTRERRGIFRSAEGFDTVARSSGLEASFIKKVLHPFCQYEAPAELTARSERDAASYPAALHLFHTESGETVLGRSVFQPADFTGLRSAFFTHHYVVPEGFHRDDHNAYRTWLQAAFADHYDIEEGVDLPQLPAIPVQADSRAAVSSERTPALLEELGINEKVFKQLIYACISAAAGKKKVYIVLDVPVEQLSAKAEQLLFVLFGRLPYALRRVLGFVTYAKEPQSKKGLHLMFVEKGSLRLNDRSIEKDYLFELAAGRVINADLKWSEQPYLNFAWDTLLDPDRSERFFAFAELMLADMEPIHQISLDSYDDLCMLFQIEEGHEGLYHEHKHAVLRASLLYLQPAGALDAKQRLDQLFLALFAKEFELVKGGHVPDAAIAGFLKDYHGINPRQHNDWIVEYFIRSLNNALSKQRQDTTMAIYELLEGSPSLSRAFYARVLTSPGLPALMFDPYMKTRMKQAATPADLVDLIGLWVRNHPLLLEQENYVRLAEAQLIDKLQQDSDPVRTVNAVLDQLDAMERDPQKGIGRYQGGRAFADRMIYAANLFLLRELEPEQLSQKQLMDIGFLQMPKEFKGWVERFDSRIRSKAAVMLALHQWSGHEEVRAEVLAELSAEERERTQHIMRKWLHNHVEPSNFESITLAFCTDINSSAVDYRSLLDYLHRYGKSPDVVYQYIQWSAEQPVFVRPRGLVPAYAAAIIDYFKIHDREAFKNKDYVKTYFSSPAPILKPVYAQVKAELASPLVRWFRRHSRFVKITSSLLVVIVVAGAAFMMIQNGKGPADGDADPNPAVTPPVTVPPASSESVDEQPLLTATVVEEGEQEGSTELNFHFKQPAACRDFSVDKLQIIGKDGSTLLEAVSPELSRVCAEETTGEADAADSSGSETDLSGNQANLNSGTTEGENTSDPVEGEDVGSSDNVGDATANQTYSSQVTVKLDQALDVSLAEKVVVDGASYELSDESALSEEQGQAPENETDEGV				NA	NA	NA	NA	NA
AK002_05653	1260			hypothetical protein	ATGGGCATTTTTGATATATTCAAGAAAAAACCGGAGCCGGAGCCAAGGCCGCTGTTCTATGATATTGTCTGCCCTTACTGTTTCAGTAAGTTCGCTCCGAAGGAGGTTGTCTTCCGGGCTGCCCACGACCGCGAGGATGACGAGGATTATGCGCTTGGGGAAGATGAGGAGCTGAATCGGTACCGTGAACGCTTCGGGCTGGATTCGGTGTATGATATCGAAGCGATCATCCGTCCGAGCGACATCCCGGAGGAGCAGCACATTTATTCGGAGCACGTCCTGGTTGGATTGAATGACCGTTACGGCATCGTCACGCGCAGACGGTTATGCCCGAAATGCCACAATGAGCTGCCGGTAACTGCCGGGAAGGTGCCAAGCAACATTATCTCGATTATCGGTGCTTCGCAAGTGGGCAAATCGGTTTACATGACTTCGCTGATTCATACGCTGCAGCATACGACGGCAGATCATTTCGATGCGGCCTGCATGCCGCTGAATGCCGAGATCAGCCGCAAGTTCCGCACCGGCTATGAGGAGCCATTGTTTGAACGCGGGGATTTGCTGGCATCTACGCAGAAGGAGAAAATGCAGGAGCCTTTTATTTTCCAATTCGTGTTCAAGGATGAGTCGAAGCCGCCGTTGACGCTCGTATTTTTTGACGTGGCGGGCGAGGGCATGGTGGATGAGGATTATTTGGGACTGCACGGACAGCATATCAAGAATTCAGCGGGCATTCTGTTTATGGTGGATCCGCTCCAAATCCGCTCCATTCGGGAAAAAATCCGTTTGAAATTCGGCGATCAGCCCGGGGAGTGGGTATCCCAGTATGATGAGCCGCGGGATGTCGTGCTGACCATGTTCGGCGATTTCATCGCTTATGAGGACAAAGGCAAGACGGATATTCCAACCGCCGTCGTCTTGACCAAGAGCGACATGCTTCACGCGCTTAAGGATGAGGATGGCGAATACGTGAAGCTGAACAGCAATATTTTTAACAATGTGGTGCACCGCAAGTTTTTGAATTTGACCGAGTTCGAAAATATTGACGGCGAAATCCGCCGATTTATCGAAAAGGTCGATCGTCCGTTCAAAGGGACGATGGATGTGTACTTTTCGAATACCGCCTATTTTGCCGTGTCGGCGCTGGGCAGCAACCCTGTCGATCAGAAGCTGCAGAGCGTGGTCAGCCCGATTCGGGTGGATGAACCGTTCATCTGGCTTCTGTACAAGCTGAAGTACATTCAGGGGAGGGAGGACTAG	MGIFDIFKKKPEPEPRPLFYDIVCPYCFSKFAPKEVVFRAAHDREDDEDYALGEDEELNRYRERFGLDSVYDIEAIIRPSDIPEEQHIYSEHVLVGLNDRYGIVTRRRLCPKCHNELPVTAGKVPSNIISIIGASQVGKSVYMTSLIHTLQHTTADHFDAACMPLNAEISRKFRTGYEEPLFERGDLLASTQKEKMQEPFIFQFVFKDESKPPLTLVFFDVAGEGMVDEDYLGLHGQHIKNSAGILFMVDPLQIRSIREKIRLKFGDQPGEWVSQYDEPRDVVLTMFGDFIAYEDKGKTDIPTAVVLTKSDMLHALKDEDGEYVKLNSNIFNNVVHRKFLNLTEFENIDGEIRRFIEKVDRPFKGTMDVYFSNTAYFAVSALGSNPVDQKLQSVVSPIRVDEPFIWLLYKLKYIQGRED				NA	NA	NA	NA	NA
AK002_05654	642			hypothetical protein	ATGCGGTTTAAACATGCGGAGCCCGGAGAATGGGTCATTCAGGGATTAAGCTATCAACTAGACGATGGTTACTGCACGCTCCGCTGGAGCTGGCCGCCGGGTCTTCAAGCGGTATACATCCACCGTGCGATGGACGACGGATTCGGCCCGCCTGCCGGCGATTCGCAGCCAGGCGGGATGCGTCTATACACCCGTGACGAGTATAAGGCGAATAACGGGTACCGCGACCGGCTGGACGGGATCGGTCAGATCACGTACACGGTCTACGCCTTGTCTTCCGAAGACGGAGAGATGGCGTTAATCAGGCAGGAGGATGAAGCGAACCGCATTCGGTTCAGTACCGGCAAAGCCAAACTGGTCTACTCCATTCGCGAAAAGAGCCGCTGGCTGCAGCCCTATAAGACGATCGAAATCCAGGTGACGGCGGAGGCGCCGGTACCGAAGGAAGCTTTGTGTTACGTGAAGAAGCAGGGCGCTTATCCGGTCAACAAGGAAGACGGCATCTTGTACCCGTTCGTGACGGATTTTGCTGCCGGACGCAACGAATTGCCTGCGATCGAGGTAGGCAAGAACGATTACGTTCGCCTGTTTTTTACGGACGGCAAGAAATACGGACAACGATATGAGCTGGTGCACAGATAG	MRFKHAEPGEWVIQGLSYQLDDGYCTLRWSWPPGLQAVYIHRAMDDGFGPPAGDSQPGGMRLYTRDEYKANNGYRDRLDGIGQITYTVYALSSEDGEMALIRQEDEANRIRFSTGKAKLVYSIREKSRWLQPYKTIEIQVTAEAPVPKEALCYVKKQGAYPVNKEDGILYPFVTDFAAGRNELPAIEVGKNDYVRLFFTDGKKYGQRYELVHR				NA	NA	NA	NA	NA
AK002_05655	1266			hypothetical protein	GTGCAACGAAAATTAAACCCTCTCCTGCTGCTGCTTAGCCTGGTCGGTGGGGGACTCGGATTTGCCATTGGGGAGTTTTTGCTTCGCCAGTGGGGGACAGGGCTTCCTGTTATCGTGGTTACGGGGATTTATTTCGGGATTCTGGCCTTATGCATCGGCTTGGCCTGTTTAATCGCAGAACTGATCTCCCCCCGTTTGAGCGGAAGCTCATGGAGACAGCGGTACACGGGCACATCATGGAAGCTGCTGATTCCATCCACGTTGGTGGCCCTGTTCCTGCTTGGCATGCTGTTTGAATGGGTGTACCAGTTGAACCCGGGCAGCGCCAAGCCCGTGAAGGATATCGTGCTGGTCATTGACAATTCGGGCAGCATGAATGAGACGGACCCGAATCAGGACCGGTACACGGCAGCCAAAAATCTGATCAACCGAATGGATCGGGATAACCGCGTATCCGTGATAATGTTTGATCATGCAACAACGTTGCTGCAGCCGTTCACGCGCGTGAATAACCAAGAAACCAAGGATGAGATCATCGCGGAAATCGACGGTTTGGCAACGACCGATGGCGGTACGGACATCAGCCTTGCGTTGGAGGATACCATGTCGCATATCCAGGAAAGCCGGGATGCCGGCCGAAGCGCCATGGTCATCATGCTGTCGGACGGATTCAGCGAAACCGACCATGATCGTGTGCTTGCGGAGTACAAGCAGCAGCAAATCGCGGTAAATACGATTGGCCTCAGCCTGGTCAACCCGGACGGTGCCCAGCTGCTTCAGACGATTGCGGCGGAAACGGGCGGACAATATTACGACGTTCAGCATGCGGAGGATTTGTCATTCGTTTTCCAGAAAATCTATGACGACGTCGGAGACCGTTCGCTGTTGACGAAACGTACGGGCGCTATGGAAGACAGCGTGTATCATCAGATCGGAAGAATAACTGCGATGCTGCTCATCGGCGCCGCCATGGGTCTGGCCCTCGGCACGGTGTTCGACAATCGCCATCTTGCGCTGAGCTTCAGCATCGGCGGCGCGGTATCGGGCGTACTGGCAGGCGTGGTTCTGGAATACGGCCTCTCCGGCGAGGAAATCGGGGATGCCTCCGTTCGTCTGATCGCCTGCCTATTGCTTGCGGGGATCATCGCCTTGTTCACGCTGGTGATACCGGTTAAGGAGAGCAGCAAGATCATCTCCAACGTGCAGCGGCCGGGCCGAACGGGAAGAGGGCAGCGGCCAAATGATTCAACAAGCCGAGGATTTTAA	MQRKLNPLLLLLSLVGGGLGFAIGEFLLRQWGTGLPVIVVTGIYFGILALCIGLACLIAELISPRLSGSSWRQRYTGTSWKLLIPSTLVALFLLGMLFEWVYQLNPGSAKPVKDIVLVIDNSGSMNETDPNQDRYTAAKNLINRMDRDNRVSVIMFDHATTLLQPFTRVNNQETKDEIIAEIDGLATTDGGTDISLALEDTMSHIQESRDAGRSAMVIMLSDGFSETDHDRVLAEYKQQQIAVNTIGLSLVNPDGAQLLQTIAAETGGQYYDVQHAEDLSFVFQKIYDDVGDRSLLTKRTGAMEDSVYHQIGRITAMLLIGAAMGLALGTVFDNRHLALSFSIGGAVSGVLAGVVLEYGLSGEEIGDASVRLIACLLLAGIIALFTLVIPVKESSKIISNVQRPGRTGRGQRPNDSTSRGF	PGPT0014015_3323	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
AK002_05656	2385			hypothetical protein	ATGAGGGAGATTCTTCGCCAGTATGCTGCCGGCTATGCCAAGTCGGAAGAGCAGCTTACCTTGATGGAGGATGATCAGAGCAGCATCCACTATCCGGAGGTATACTTGTTCATTGGTGACAAGACAGCGTCTGCCATCGAACCGATCATGGAAATTCAGGACCGCAAATGGGATAACAGCGCCAGCGTCGTTTATTTTCATGTAGGAACGGACCGGAGTGAAGGACCGGAGCCCCAAGGCCCCGGACTCTCCGGCCGGCTTCACCGGTACCATCTGCAGCTGCCGGTGTCGGACGCAGCATCCAAATCGATGCGCAAGGAGCTGTACCAGAGCTTCTATCAGGACCCGCATCATCTATCCGGGTTGAATCAAGCGATTCGGAAGTTAAGCCACCATATTTCAGACTTTGGACGCAGCTACGCTTCGTTTGACCGGGTTCATCTGTCTGTCATTACACGGGTCGATGACCCGTTTAATGTATTTATCCCGGAAATTTCATTGCTGGCCGAATCCATCTTTCAGCAGTCGTTCAAGTCGGTGCAGATGGATTTGTACGCGCTCATTAATGAAAGGGAGCAGATTGAATCCTACGGCTATGCAAGCTCCGTAGGCGTTGCGTTCCTACGGGAATTGGAGCTGATGCAGAGCAGGGAGTACACCTTCTCCGCGCCGCTGCAGGTAACCGAGGACGGGCTGACGATTCCTGTCGTCCACCCGGCATCCGCATTATTTGATCTCGTCTATGTGCTGTCCGATAAGAATGAACGAGGCATCTCGGGTTACGCCGGCATGCAGGATATCTACGATATCATCTGCCACCTGGGCCTGCTGAAGAACCGGAAGCAGAAGGATGAAACCTATGACGGCATCCGAGGCATTTACAACAATACGTCATTCAAAAGCAATATCATGACCGAATCCGGCCGCCAAGGCTTTGTCTCCGCCGGCTTTGCCAGGGTGAAGAGGCCCAATGAGCCGATTGCCCTAACGGTCCTTTACCATCTGTGCCGCGGACTGCTGCGTCGCATGAAGGACAGGCCGGAGCCGGAGATTCATGAATGCCTGGCCTATTTCGGTCTCGACCCGGAGGCCGTAACGGCAAGAGCGAACCGGATGCTGCCGGACCCCGAGCATCTGGACGGTCTCAAGGGCATGATGTCGCATCCCGTCAGTTATGCCGAGCTGAAGCGAATGAATATTCGCGAGGCGGAAGAGGCGCTCTTCGGAGATGGCTGCCGGAAGTTTTTTCAAGGAAATTACGAGCTGGCGGCCCGAAAGAGACTGAGCGATATGAGCACCGCAGAAGAATTGCACGATGCGCTGCGCCGAACTTTGGCAACTCATTCGCAAATCGGGTGTTATCAAATTGCCGCGTGGACGAGTGATAAGGCCGGAGCGGGGATTTTGATTGAAGCGGTTCGGTCCCGGATTCGGGATCTCGGCAGCTTGCTTAAGACCGAGCAGGACGGATTAAACCGATATTATGAGGAAAGCGTTGAAAGCCAGCCGTTTAAGAAGCTTCCTTTTCGGGATAAACAGAATGTGCGCCATTTCATTCGGTATTTCGTGGGCGAGGTCTATCGACGCAAGTATGAGCTGCTGCAGCTGGAAACGGAGCTTGAGCTCTACAGGCTCTATGAGACGGAGCTTGAACGTATTCACCGTCAGTACAAGCAGCAGGCAGGCATGCTGGATCAGCTGGAGGCGGAGTTGATGGAGGCGGCCCGTTCCAGCATCCGTGCCGCAGACGATTATATCGGCCAGAACCTGATGGAGTATTACGGCCTCGTGACGGAGGAATTGATGCTGGAGCTGGAGAGCAAGCGCGGCGAAGGCGTGTTCTTCGAGGAACGGTATGTCGGCAATCTCTCCATCGTTATGCATGAAGGAATCGAACCGATCCTCTCGAACATGATCCGGGTCTGTCTGAGGGATCTATTGACGGCAGAGCCGTTCGTGCAGACCTTCGAGGAAGAACTGCTGCGGCGGGCGAACGTCACCATCGACTACGATAACAAGCAGGTGCTGGCCAAGGAAGACCTGTTTAAGGTGTTATACCGGATGCTGGAGGAGAACTCCGTTACGTTGGTCAGGCTGCTTGATTATACGCAGGAGCATCGATACGAGGAGAAATATTTCTTTGGCGATGCCGACAGCGAATTCGTCCGTTACGCGATCCATGTCGATGAAGCTTTACGGGTGTACAAGCTGGGCATCGTGCACGAGAAGCGCACAAGCGGGGTCGAGAAGCTGAACCTGATGGGAGGTTTCCATCTGGAGGATCTGATGTATTACCGGAATGGCAGAACCTACTACGAGACCTATACGGCAAACGGTTATGAATTTCATGGCATGGAACCGGCGCAGCTTCCCGAGCTGCGTTAG	MREILRQYAAGYAKSEEQLTLMEDDQSSIHYPEVYLFIGDKTASAIEPIMEIQDRKWDNSASVVYFHVGTDRSEGPEPQGPGLSGRLHRYHLQLPVSDAASKSMRKELYQSFYQDPHHLSGLNQAIRKLSHHISDFGRSYASFDRVHLSVITRVDDPFNVFIPEISLLAESIFQQSFKSVQMDLYALINEREQIESYGYASSVGVAFLRELELMQSREYTFSAPLQVTEDGLTIPVVHPASALFDLVYVLSDKNERGISGYAGMQDIYDIICHLGLLKNRKQKDETYDGIRGIYNNTSFKSNIMTESGRQGFVSAGFARVKRPNEPIALTVLYHLCRGLLRRMKDRPEPEIHECLAYFGLDPEAVTARANRMLPDPEHLDGLKGMMSHPVSYAELKRMNIREAEEALFGDGCRKFFQGNYELAARKRLSDMSTAEELHDALRRTLATHSQIGCYQIAAWTSDKAGAGILIEAVRSRIRDLGSLLKTEQDGLNRYYEESVESQPFKKLPFRDKQNVRHFIRYFVGEVYRRKYELLQLETELELYRLYETELERIHRQYKQQAGMLDQLEAELMEAARSSIRAADDYIGQNLMEYYGLVTEELMLELESKRGEGVFFEERYVGNLSIVMHEGIEPILSNMIRVCLRDLLTAEPFVQTFEEELLRRANVTIDYDNKQVLAKEDLFKVLYRMLEENSVTLVRLLDYTQEHRYEEKYFFGDADSEFVRYAIHVDEALRVYKLGIVHEKRTSGVEKLNLMGGFHLEDLMYYRNGRTYYETYTANGYEFHGMEPAQLPELR				NA	NA	NA	NA	NA
AK002_05657	3390			hypothetical protein	ATGAAACCGGTAGTTAGAGAACATATACAACAGCTTGACGTTTCACTCGGAGGCGGCATTGTCAGCGAGAAAATACGGGTGGATACCATCGACAATCCGATCCTCATCATCGGACTTGGAGGGACGGGGATCGATGCGCTGCTGCGCTTGAAATATCAGATTAACCGCCGTTTCAAGCTGCCGGAGGATCCATTGTCCAAGAAAAGAATGGACAAGCCGGATAACGTGGAGTTTCTGGCTTTTGAGACCAACGAACAGGATAAGAATAAGCGCTACAAGGGGATCGGACTGGATCCGATCAATGAATTCGTGCTTCTCTCCAATGCCGAGATCGGAGGCCTTCTCCAGAACCGCAGCATCCTGGAGCCTTACATTACGGATTGGCTGTCGCCCGAGCTGAGCATTACCGACGGCATGAACGGGGCCGCAGGCGTACGCCAGGCGGGCCGCTTGCTCTTGTTCACGAAGATTACCCAAGTGGTGCAGGCGATCGACAAGAAGATCAAAACGCTGTCGGTTGGCACGAACAAAAAGCTGATGGTCTTCCTGCTGACGGGGCTGTCCGGCGGTACGGGCAGCGGCTGCTTCTTGGACATCGCCTATATCGTCCGCGGCATTATCGAACGCGACCACGGCTCGGCAGGCATTGACCGCGTGAATACGCTCGGCTATCTGTTTACGCCGGATATCAATCTGGCGAACAAAAGCTTAAGCGAGCATACCCGCGAGTACATCAAGAAGAACGGTTACGCCGCGCTCAAAGAGCTGGACTACTGGATGAACGTGGATGCCAGAGGCGAACGGTTCAAGCAGCAGTACGGCAACATTCTGAACGTGAACTCTCCACTGCCTCCATTTAATCTATGTCATCTGATATCCGCTACGAATACGGAAGGCAAGCTGCTGGAGAATGCCTACGATTACTGCATGAACGTTACCGCAGAGAACATCACGAACTTCATGGCCAGCGAGGAAAAACAGTCCGGCGAAGAGTTTGCGATCCATGACTATATCAGCAACATCCGCACCAATATTGCGCAGATGAACAAGGCGTATCCTGCCAATTACGACTACAACATCATCGGCGCATCTTCGGCCGTGCTGCCTATTGAAGAGATGACGACGTATCTGGCATACCGCGTCTTCGGCAAAATGCAAACGATGTTCGAGAAAGCGCCGAGCCAGGAGGACGTCGAGAAATTTGCGAGCAAGCTGGGCATCGATCTGGATTCGATGACCAAGAACTTCGAATCCCGCGTACCGGAGCCGCTGCCCGGATACCAGAACAGCGAGCGGCTCAGCTACGCGAACGTGGTGAAGAACCAGGTCATTAATATGGACACGGAGCTGGAACAGAATTTTCTGGCCAGGGCCCGCGAGGAATACATCAAAGCGAAGAAGCAGCTGCCGGGCGAGATCGTGGCTCAGTTCAGCGATCAAATCCGCCGGATGTTCCTGCATCCGCAGCAAGGACCGTTTTACGTATCGCGGTTGATCTATACGGAGAAGGGCTTTAGCCTGCTGAAGATGCTGCTGTCCTACATCGAAGCGCTGCGAGAGAATCTGACCCGTATTCCGCGCGACATCGAGTCGGCCAGAGAACAGGCGATCGATCGTCTAGGCGATGCGAAGAGCGCTTTTGTCTCGAAGGATAAGAAGAAAAACATCTATATTGAAGCCAAAATCAACGAATATTGGCTGGAAGCGGATGTGGAACGCACCGAGCAGATGATTGAATTCTATGAGGATTTGTACGATCTGCTGAACCAGGAAAATAACCGGATTTACAGCGTATATACGGAGATTCTGAATGCGCTGAATTCGATTTTTGCCAAGAACGGCGACATTCTCGTGAACGGGGAAGAACAGCAGGATCATAAAGGGAACAAGACGTATTACTGGAACCTGGTCAGCGTGCCCGACATTTCCGATGTCATTAACAAAATCATGGATCAGAAGGATGTGGACGATCTCATCCGCGATTTCGCCCAGGAGCTGCTGAGTCATGCCAATCGTTGGACCCGGGAGCAGGAGATCGATGTCGTCCGTTCCATTTCGGAGTTTCTTACCGATAAATTCGGCGATCTGATCACCCGTTCGATGGAGGATTTCCTGGTCATGAAATTCGGGCAGGAGGATTCCATCGAAAAATTTGTCGAGCGCAACATCGCCAGCAAGCTGGATGACGAAGCTGTCCCGGTCTTCCATCTGAGCAACAGCGCAGGCAATCTGTACTTCCCTTCCTGGGGCTTCGTGTCCGTGCCTGTACAGGCTCCAAGTATTCTGAAAGGGATTCGCAATTATCAGAATAATTCGGTCGGGAAGTCTCACTTCACCGTGAAGGAGAGCGAAGTGAAGAACCGGATCTTCTGGCTGAATACGAAGAACGGCGTGCCGTTGTTCGTTTATACTCCGCTTAAGGTTTATGAGGAGAGCTACGAACGCACGATCATGGACAAGGAAGGCGTTGGGCGTCACTTGGTACAGACAGATCGCAACAATTGGACGTATCTGCCATCGCCGATTCCTGAAAAATCCTGGGGGGATACCTACGTCAATCCGCGGGTTCAGGACTACAATGCCCGGGTCCGTGCCGAATTTAACCAGGCGCTTGAGTTTAAGGTCGTTATCCAGAAGGACGTTGACCAGAATACGAGCAGCCGCTACGCGGTTGTGTTTACGAAGCCGTTTGACCTGAATGAGCTGCTTCGCGCTTATGATCTGCAGCTCGATAGTCCCAAGCCTAACCTTGGCGAAGTCAAACGGGCATGGACCGAGCTGAAGCGATTGATGAACGAAGGGCTGGAGCGGGTTGGCTCCAAGGATATTTTCAATAGCATCAACGAGGATATGGCCAAGGAAAATCTGATCCGTTCGCCGGAAATGATCCGCATCGTGCGGGAAGAGCTGAAGAAATATGCCGCCATCGCGGCCAAAATCACGGAATTCGAGCTCTTGATCAGCGATAATCAGAATGAAGAGAAATGGCTTGATCAATTCATTGAGGCGTTGTACACCGGGACGATCACCAAGAAGGGTGCGCTCTTCGTTTATGATCGCGATCCGGAGGAGGATTCCTGGGAGCCGTTTGCCAACCTGCTGAAAAGCGTGAACGACGTGGAGTATGAAGTCTACAAGCACTTCCGTCAGCTGGACGAGAAAAGCCGCAGCACGCTGCTTCGCAAATCCTCCCGCCGCGATCAGGAGCTGACCGCTTCCGAGGATATTACGCCGCTGCTCACGAAGCTGGGAGAATTGGCCGAACGGTTCCTGGAAACGCGCGACCGGCTCGAATACGAGAAGGTGGAGCTTGCGGACGGTGAAGAGCGATACCAGTTCTACAGACAGGTATCCTCGAAATTAAATGACATCCGAAGAAGGTTGAAATAG	MKPVVREHIQQLDVSLGGGIVSEKIRVDTIDNPILIIGLGGTGIDALLRLKYQINRRFKLPEDPLSKKRMDKPDNVEFLAFETNEQDKNKRYKGIGLDPINEFVLLSNAEIGGLLQNRSILEPYITDWLSPELSITDGMNGAAGVRQAGRLLLFTKITQVVQAIDKKIKTLSVGTNKKLMVFLLTGLSGGTGSGCFLDIAYIVRGIIERDHGSAGIDRVNTLGYLFTPDINLANKSLSEHTREYIKKNGYAALKELDYWMNVDARGERFKQQYGNILNVNSPLPPFNLCHLISATNTEGKLLENAYDYCMNVTAENITNFMASEEKQSGEEFAIHDYISNIRTNIAQMNKAYPANYDYNIIGASSAVLPIEEMTTYLAYRVFGKMQTMFEKAPSQEDVEKFASKLGIDLDSMTKNFESRVPEPLPGYQNSERLSYANVVKNQVINMDTELEQNFLARAREEYIKAKKQLPGEIVAQFSDQIRRMFLHPQQGPFYVSRLIYTEKGFSLLKMLLSYIEALRENLTRIPRDIESAREQAIDRLGDAKSAFVSKDKKKNIYIEAKINEYWLEADVERTEQMIEFYEDLYDLLNQENNRIYSVYTEILNALNSIFAKNGDILVNGEEQQDHKGNKTYYWNLVSVPDISDVINKIMDQKDVDDLIRDFAQELLSHANRWTREQEIDVVRSISEFLTDKFGDLITRSMEDFLVMKFGQEDSIEKFVERNIASKLDDEAVPVFHLSNSAGNLYFPSWGFVSVPVQAPSILKGIRNYQNNSVGKSHFTVKESEVKNRIFWLNTKNGVPLFVYTPLKVYEESYERTIMDKEGVGRHLVQTDRNNWTYLPSPIPEKSWGDTYVNPRVQDYNARVRAEFNQALEFKVVIQKDVDQNTSSRYAVVFTKPFDLNELLRAYDLQLDSPKPNLGEVKRAWTELKRLMNEGLERVGSKDIFNSINEDMAKENLIRSPEMIRIVREELKKYAAIAAKITEFELLISDNQNEEKWLDQFIEALYTGTITKKGALFVYDRDPEEDSWEPFANLLKSVNDVEYEVYKHFRQLDEKSRSTLLRKSSRRDQELTASEDITPLLTKLGELAERFLETRDRLEYEKVELADGEERYQFYRQVSSKLNDIRRRLK				NA	NA	NA	NA	NA
AK002_05658	1788			hypothetical protein	ATGCAACGTAAAAATAAATGGCTGCTCTCTCTGATGGCAGCGGTGCTGCTGATCATGACCTGGAGCGGAGGAGCCTTGCCTAAGGCAGCGGCTGCCTCCCAAGGCTCCAACATCGATGCCGTACTGGTGATGGATGCCAGCAATTCGATGAAAAATAGCGATCCGGAGCGGATTAGCGGCGAAGCGATGAAGATGTTCATCGACATGCTGGCGACAACCGGCGACAAGGTCGGCATCGTTTCCTATACCGACCGGATTCAGCGGGAGAAAGCCTTGCTTGAAATTCAGTCGGAGGCGGACAAAACCGCACTGAAGGAATTTATCGATCAGTTGGATCGCGGACCGTACACCGATATGTCCGTCGGTCTCGATGAAGCCGTAAAGGTGCTGAAGCAGGGGATGGACCCGGCCCATGCGCCGATGATCGTTGTTTTGGCCGACGGTAACAATGATCTGGACCCGAACACGGGCAGGACGAGCAAGGAAGCGTCAGAGCAGTTGGCCCAAGCCGTCAAGGAGGCCAAGGGAAGCGGTATTCCGATTTATACGATCGGACTCAATGCCGACGGGAAGCTGAACAAAGAAACGTTGGCTGAACTGGCCAACCAAACGGGGGGCAAATCCTTTACGACCAGTTCGGCGGATGACCTTCCGCAAATATTAAGCGAGATTTTTGCCAGCCACCAGCAGCTCAAGATCGTTCCGGTACAGTCGATTACCGGCAACGGAAGCTATCAGGAGGTTACGGTCCGTGTGCCGAATGCCAACGTATTGGAAGCGAATATTTCCATTATGTCCTCCAGTCCCGTGGACGTGAAGCTGGTTGATCCCGCCGGTGCTGAGCAGAGCATCCCTTCGGCTAGTGTGCTGCGCTCCACGTCCAATTCCTATTCGCTGCTCAAGCTGCTGAAGCCGCAGCAAGGCGACTGGAAGCTGCAGGTGAAGGGCGTATCGAAGGACAAAATCGACATCAACCTCGTGTTCAACTACGACCTGGAGCTGGCTATGGATCCTCCGCCATCTTCCAAGGTAAAGGCCGGGGATACGATTGACATTAACGCGTACCTCGTCAGCAATGGACAGAAGCTGCAGGACCAAGAACAGTACGGCAATATGACGGCCAAGCTGCTGATCAAGGACCTGGACACAATGGACGAGTCGGAGGTCGAACTAGAGAACAAAGAAGGCAGCTTTGTAGGGGATTACAAGATTCCGCAGAAGCATGACTACGAGCTGAGGGTGCGTGCGGAGGAGCAGAGCTTCTACCGTGAAAGCCTGCCTGTGAAGATAAGCGCAAAAGCGGCAGCCTCCGGTTCCGGTAACGGCGGGAAGGAGATGACCGAGGGCGAGGATGCGAAACCTTTTCCATTATGGCCCGTAATCATTGGCATTGCGGCGCTGCTCATTGTTGGAGCGGCAGCTTATTTCATTCTCGGCGCGATCAAGAAAGCGAACAAGGGCTTTGTCGGCCAAATCGTGATTGAGATCAGGGATGAGAACACCGGGGAGAAGACGTCCCCGCAATACAAGAAGCTGACTTCCTTCAAAGGGAAGTTTAATCTGCATCAGCTTCTGCAGCTTGCTCCGGAGCTCAAGGAAACGGAGAAAATCCTGTTCATGCCGGGCAAGAACGACCGCATTATACTTAAGAACCTTTCTTCAGCCGTCATCGAGAAGTCCGGACGGGCTCTGGATGCAACGAACGGGACGGAGCTGAAGAACGGAGACCGGCTGAGAGTTTCCCTTCAGCAGGCGGACAAAACGATATTATTTGAATATTTGGCTTAA	MQRKNKWLLSLMAAVLLIMTWSGGALPKAAAASQGSNIDAVLVMDASNSMKNSDPERISGEAMKMFIDMLATTGDKVGIVSYTDRIQREKALLEIQSEADKTALKEFIDQLDRGPYTDMSVGLDEAVKVLKQGMDPAHAPMIVVLADGNNDLDPNTGRTSKEASEQLAQAVKEAKGSGIPIYTIGLNADGKLNKETLAELANQTGGKSFTTSSADDLPQILSEIFASHQQLKIVPVQSITGNGSYQEVTVRVPNANVLEANISIMSSSPVDVKLVDPAGAEQSIPSASVLRSTSNSYSLLKLLKPQQGDWKLQVKGVSKDKIDINLVFNYDLELAMDPPPSSKVKAGDTIDINAYLVSNGQKLQDQEQYGNMTAKLLIKDLDTMDESEVELENKEGSFVGDYKIPQKHDYELRVRAEEQSFYRESLPVKISAKAAASGSGNGGKEMTEGEDAKPFPLWPVIIGIAALLIVGAAAYFILGAIKKANKGFVGQIVIEIRDENTGEKTSPQYKKLTSFKGKFNLHQLLQLAPELKETEKILFMPGKNDRIILKNLSSAVIEKSGRALDATNGTELKNGDRLRVSLQQADKTILFEYLA	PGPT0014015_1536	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
AK002_05659	153			hypothetical protein	ATGATTACATACGGATGTCTCGGGATTTTGTTTCTTTTTGTCATCATCAAGATCACGGCCTATTCCAAGCGTAAGAAGAACGCCCCGACGCCGGAGCAGCTGCAGCAAACTTTGCTTGAAGCGGCCAACTCCAAGAGGGAACAGCATGGATAA	MITYGCLGILFLFVIIKITAYSKRKKNAPTPEQLQQTLLEAANSKREQHG				NA	NA	NA	NA	NA
AK002_05660	936			hypothetical protein	ATGGATAAGAAAAAGCCGGTACAACTTCGCCCCTATTCTAAAACGAGATATGTCTACCAAAAGTTAAGGGTTTGCAAACATTGCCACAATTTCACGATTCTTTGGGAAGACAGCTGCGCTCACTGTAAACGCCAGACCCTGGTCCCCGTTATGGAACTTGCAGAGAAAATGGCCAAACGGTCCATGCAGAGCGATCGGCTTCTTTTCTACATTATAGGACTCTCCGCCGTGCTTCTCGGTCAGACCTTCTTGCAGATCGCGATCGCCTTTGCCTGCATGCTGATCCTGCTTGTATGGTTATGGCTGATCCAGCGGCGAATGCTGCATTCCGAGACCCTGCACGCGCTGGACAAGCTTATAAGAAGTCATCGAGAACAGATTCTGGATGGCCTCGATCTGAACAAAGCGACGGCCTCCGCCGCCATCAAGGAAGATGCTCAGCTAGGCTTTGAGATCGTCAGGGAAATTGCTTCCTTGGTCCGGAATGACCGGATCCGCCTGCAGCAGATCGTCCTTCTGCAAAGCTTCAGCCTCCGCAAGGATATGGATCTTGAACTCGAGCCCCTGCTTCTGGACGAGTTTGATCCGGACCTGGCCTCCTATATCGGGGAAATCGCCAAAATTAAACGCGAGCTGATCAACAGCAAAGCCATTCGGTACCTGCTCGATCATGAAGCTGACATTTTACGGATGGAGCATGGCAGGCAGATTATGATCGACGCTGCCGGAGCAGCGGTACGGAAGAAAAAATATATCGATACGTTTCCTGATTTCATTAGCCGCTACGCGGATGGATTGCCAAGGTACCGCTTCCTCCGCTTGTATCAGATCGTGCGCCGCAATCCCGGCTTGTCGTGGAACGGCCTTCGGGATCGGGTATCGGCGATTTATAATGAACATTACCGCTCGGACCCTGATTTTCAAAAATGGGATTAG	MDKKKPVQLRPYSKTRYVYQKLRVCKHCHNFTILWEDSCAHCKRQTLVPVMELAEKMAKRSMQSDRLLFYIIGLSAVLLGQTFLQIAIAFACMLILLVWLWLIQRRMLHSETLHALDKLIRSHREQILDGLDLNKATASAAIKEDAQLGFEIVREIASLVRNDRIRLQQIVLLQSFSLRKDMDLELEPLLLDEFDPDLASYIGEIAKIKRELINSKAIRYLLDHEADILRMEHGRQIMIDAAGAAVRKKKYIDTFPDFISRYADGLPRYRFLRLYQIVRRNPGLSWNGLRDRVSAIYNEHYRSDPDFQKWD				NA	NA	NA	NA	NA
AK002_05661	1917			hypothetical protein	ATGACGATGAAAAACACGCTAACCCTGCGAAATTTGTATCTTTTTTTATGTATAGTCCTTCTACTGCTGATCGGGTATAAGGGAATTCACATCTATCAAAAAATCGAGTCGATGGCGCAGGCCGAGTCGTTGTATGCCCAGAAAAAGCTCGTTCAGGCGGAAGAGTGGTATCAGAAGGCCCGGAATAACCGTTCCCTTCTATATAAAGAAGATCTGCTTGCTTCAAGGCTGCAAGAGCTTGCGCCCATTACGTCCATGAAGGAAAGTCTCTCCTCTCTTGATCATCGATTGAGCCAGGTCGGGGAGGCCGGCGATTTCTCCGGCTTCATGAACGTATATGCCGAATTGCTTGAGGTGGAGAAGAAATTCTCGGAACAACTGGGATCACACGCCTCGTATTACAACGAAATTGCGGCGTTCTATGGCATACCCGATGATGTGAAACGGACATTCCTGCAATTCATCGATTTGTTTACGCGCAGGGCCGACGAGCTGCTTGATGAGCAGCAGTACGAGGATAACAGCTTTAAATGGAATCTGCTTCGCATTCCGGATTCCTTCTACGGCAGCGAGAAACAGAAGGATGAGAAGCTGCTCCGCCTGTTCCAGCGATACGACGAGATGGTTTTGACCCGTCTGGCAGGGGCAGGGCAGTATGCCGACCTGTTGAATTGGTCGCAATCCATGGGTTCCGAGTATGCCAGCCGGTCGATATCGGCTGCCTGGTTGAACCGAAAGGCCGATGAACTTGTGTATGCCATGCTGCAAAGGGATGTGCAGCGGGAACAACCGGCCGTTTTTGCAGCTCACGCCTCAGGCTACAGACAGTACCTGGAACGGAACGAGCGGAAGAACGCGGAGATCATGGCGTATATTCAGAATGAGATCAACCGCTGGGTCGCAGCGGCCGATGGGATGGTACAAAGCCAGAACTACGAGGAAGCGGTCGCGCTCTATGTGGCCTTGTCGGGGTACCAGGATATGAGCGGTAAACTGCAAGCTGCCGAATTGGCCTGGACGATCCACGATCCGATTCGTTTGTTCCACATGGCCGGTCTGAAAGGCAGCTTCAGCTACGTCAGCGGAGGCGGCAATCGTTTCGGAGGATTGGCCTATGCCATAGGGGTCGACGAGGGGAGCATCATCTACTTAGCGGTCTTGGATGCCGATGAAACGGTGCAATTATTCCAAAACCACGATTACCCGTCCGATGTCGCGATCCATGAGGTTTCAGTCGAGGAATCGCTTAGCACCGAGAAGAATCCGGTCATCCTTGTGGAGGGCTCTGCGGGAACTGACTTGGTATTCTATTCAGCCTATGAAGCCAGAGATTCCAATCTGACGCCGCTGTTCCAATTTACGGCCGAAGGCTACCAGGTGCTGCCGGACAAATCTTTGCTGGTCACGAATCTGGAAGGAGTCAGTCCGGACGAGATCGCCATCTTTGAGCGTCAAGGAGACCAATACGGATTCACTGGGTATCAGGTTCAATATACCGACATCGATATCGCTAATATCGAGGGTTATCCGAATGAGAAAGTACGCTTCTCTGTCCATATCCCGCAAGGCGGCTATGGCGAAGTCATTGCCGAACGTAATGGGTACTATATCGTCTTAAGGGGAGACTTGGATTTCCCTGCGGGGAGCGCAACGCTAATCGGAACGTTCAATGGCGAGTATCAGCAGCTGGAGATCCCGGTAAGCAGCCAACCACCTGCGTCTCCGGACCCTGCCGAGCCGGAGACCGGACAAGTTGACGGAGATCTTCTGGATGAAACTGAGAATCCAAGCGATCCCGTCACTTCCGAGGAGATCAATCCGGATGATGTTCAACAAGACCATAGCGGAAGCAGCGAAAGCGCCACATCCGGTCAGATCACGAAGATGCCAGTCATTCAGGTGGAATCGATCGAGTAA	MTMKNTLTLRNLYLFLCIVLLLLIGYKGIHIYQKIESMAQAESLYAQKKLVQAEEWYQKARNNRSLLYKEDLLASRLQELAPITSMKESLSSLDHRLSQVGEAGDFSGFMNVYAELLEVEKKFSEQLGSHASYYNEIAAFYGIPDDVKRTFLQFIDLFTRRADELLDEQQYEDNSFKWNLLRIPDSFYGSEKQKDEKLLRLFQRYDEMVLTRLAGAGQYADLLNWSQSMGSEYASRSISAAWLNRKADELVYAMLQRDVQREQPAVFAAHASGYRQYLERNERKNAEIMAYIQNEINRWVAAADGMVQSQNYEEAVALYVALSGYQDMSGKLQAAELAWTIHDPIRLFHMAGLKGSFSYVSGGGNRFGGLAYAIGVDEGSIIYLAVLDADETVQLFQNHDYPSDVAIHEVSVEESLSTEKNPVILVEGSAGTDLVFYSAYEARDSNLTPLFQFTAEGYQVLPDKSLLVTNLEGVSPDEIAIFERQGDQYGFTGYQVQYTDIDIANIEGYPNEKVRFSVHIPQGGYGEVIAERNGYYIVLRGDLDFPAGSATLIGTFNGEYQQLEIPVSSQPPASPDPAEPETGQVDGDLLDETENPSDPVTSEEINPDDVQQDHSGSSESATSGQITKMPVIQVESIE				NA	NA	NA	NA	NA
AK002_05662	1833	glmS	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGTATTGTCGGATATATTGGAAATCAGAAAACGCAAGCGGTGTTGATCGAGGGATTGAGAAAGCTTGAGTATCGTGGATACGATTCAGCTGGGATTGCCGTCTTTACGAATGAAGGCCTGCGCGTTGCGAAGGCACAAGGACGTCTTGCCAATCTGGAGGAGCGACTGGAATCTGCACCACTGGTAGGGACTGCAGGTATCGGTCATACCCGCTGGGCAACCCATGGCCGTCCATCGGACGTGAATTCGCATCCGCATACGGACGAAAGCCAGAAGTTCTCCGTTGTTCATAACGGGATCGTTGAGAACTATCTGGAGCTGAAGGAAGAGCTGATCAGTCAAGGACACCAGTTTGCTTCGGAGACCGATACGGAAGTTATTTCCCATCTCATTGCCCGCGAATATGACGGGGATATCGTTAAGGCTGTGCAGAAGGCGATCTCTTACATGAGAGGCGCATTTGCCCTTGGCGTATTGACCGAGTATGAGCCGGATCGATTGGTAGCTGTACGTCAAGCAAGCCCGCTTATAATTGGTCTTGGCGAAGGAGAGAACTTCATCGGTTCTGATATTCCGGCTATTTTGAAATATACGCGTAACGTCTATATTCTCAACGATGGAGAGATGGCTCTGCTGACGGCAGATGCTGTCGAATTAATGACCATTGAGGGGAACTTTATTTCTCGGGAAATGATTCGTGTCGACTGGGATGCCGTTACAGCGGAAAAAGGCGGATTCGATCACTTCATGCTGAAGGAGATCCACGAGCAGCCAAAAGCATACCGGGATACGATGCTGGGCCGTGTGGATGAGAGCGGACGTAAAGTCGTCCTGCCGGAGTTGAAGCTGACACAGGAACAGATCAAGAACATTCGCAATGTTCAGATCGTCGCCTGCGGTACGGCTTACCATGCCGGGCTTGTGGGACGCAGCGTGATCGAAGAGATGGTGCGCATTCCGGTCGAAAATGATGTGGCGTCCGAGTACCGTTACCGTTCGCCGATCGTTACGCCGGAGACCCTTGTCATCGTAGTAAGCCAATCCGGCGAGACGGCTGATACCTTGGCTGCGCTTCGTGAAGCGCAAAGCCATGGCGCTCATGTCCTGGCCATCACGAACGTGGTAGGCAGCTCGATTGCCCGTGAAGCCAACGATGTGCTTGGCACCCTGGCTGGTCCGGAGATTGCCGTAGCTTCCACGAAGGCTTACACCTCGCAGTTGATCGCGTTCTATCTGTTTGGTCTGTATCTGGCACAAGTGCGCGGTACGATGACGGAAGACGCCGTTGCTGAAGTGATTGCAGCAATGGAAGCACTGCCTGAACAGGTAGAGTCCATGCTGACCAACGCGGAATCGATCAAGGGGTATGCCGAGCAGATTGCTGAGCATGAGAACCTGTTCTTCATCGGCCGCGGCCAAGACTACGCCGTGGCTCAGGAAGGCTCCCTCAAGCTGAAGGAGATCTCTTACATTCACTCCGAGGCTTATGCTGCCGGCGAACTGAAGCACGGTACGCTTGCCCTGATTGAAGAGGGAATTCCGGTCATTGCCTTGGCAACCCAAGAAACCGTACTTGAAAAAACGGTAAGCAATATCAAGGAAGTGAAGGCCCGCGGCGCGGAAGTGATGGCCATTACGCATGAAGAGCATGTGGCCGGCCTGCTGAAATCCGTGGATCAAGCCTTCGCCATTCCGAAGACCTTGCCGATCTTGACGGCAGCCTTGTCTGTCGTACCGCTGCAGCTGCTTGCCTACTACGCATCGCTTGCCCGTGGCAACGACGTGGATAAGCCGCGCAACCTGGCGAAGAGCGTAACGGTGGAGTAA	MCGIVGYIGNQKTQAVLIEGLRKLEYRGYDSAGIAVFTNEGLRVAKAQGRLANLEERLESAPLVGTAGIGHTRWATHGRPSDVNSHPHTDESQKFSVVHNGIVENYLELKEELISQGHQFASETDTEVISHLIAREYDGDIVKAVQKAISYMRGAFALGVLTEYEPDRLVAVRQASPLIIGLGEGENFIGSDIPAILKYTRNVYILNDGEMALLTADAVELMTIEGNFISREMIRVDWDAVTAEKGGFDHFMLKEIHEQPKAYRDTMLGRVDESGRKVVLPELKLTQEQIKNIRNVQIVACGTAYHAGLVGRSVIEEMVRIPVENDVASEYRYRSPIVTPETLVIVVSQSGETADTLAALREAQSHGAHVLAITNVVGSSIAREANDVLGTLAGPEIAVASTKAYTSQLIAFYLFGLYLAQVRGTMTEDAVAEVIAAMEALPEQVESMLTNAESIKGYAEQIAEHENLFFIGRGQDYAVAQEGSLKLKEISYIHSEAYAAGELKHGTLALIEEGIPVIALATQETVLEKTVSNIKEVKARGAEVMAITHEEHVAGLLKSVDQAFAIPKTLPILTAALSVVPLQLLAYYASLARGNDVDKPRNLAKSVTVE	PGPT0017630_2804	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
AK002_05664	1341	glmM	COG1109	Phosphoglucosamine mutase	ATGGGGAAATATTTTGGTACAGATGGAGTAAGAGGGGTTGCGAATCAAGAATTAACGGCGGAAATGGCTTACAGCATCGGCCGCTGCGGCGGCTATGTGCTTACGGGCGATAAAGAGAAGCCAACCGTCATCATCGGGATGGATACCCGGGTATCCGGCGCTATGCTGGAGTCGGCTCTGGTTGCAGGCCTGCTGTCCATTGGCGCACACGTCATTCGCCTTGGTGTCGTAAGTACGCCGGCGGTGGCTTATATTACAAGACTTTTGAAGGCTGATGCGGGCGTTATGATCTCGGCTTCGCATAACCCGGTGCAGGATAACGGCATCAAGTTCTTTGGTGGCGACGGCTTCAAGCTGTCAGATGAAACCGAGCTCAAGATTGAAGAGCTGATGGATGCGGAAACCGACAATCTGCCGCGACCGATCGGGGCTGATCTAGGTGAATTGCTGGTAGATAACGATTCTAAGTATAAATATCTGGAATATTTGAAAACGACGATCAGCAACCGGTTCGACGGCATGAAAATCGTGCTGGACTGTGCAAACGGGGCCGCATATGAGCTCGCTCCGAAGCTGTTCCGTGAATTGGGTGCGGATGTGATCACCATCGGCGCTGAGCCGAATGGCCTGAATATCAATGATCACTGCGGATCGACTCACCCGGAGAAACTCGTTGAGGCTGTACTCCAGCATGGCGCTGACCTCGGACTGGCTTTTGACGGAGATGCGGATCGCCTGATTGCCATCGATGCAAAAGGCGAGGAAGTGGACGGCGATTTCATCCTGTGCATTTGCGGGGACGCCATGAACCGTGCCGGCAAGCTGAAGGAAGGTACGATCGTTTCGACCGTGATGAGCAACATCGGTTTCTATAAAGCATGCGACAGCCTGAAGCTGAAGACGGCAAAAACGGCAGTCGGCGACCGCTACGTCATGGAAGAAATGCGCCGCGGCGGATACAACCTGGGTGGCGAGCAGTCGGGACATGTCATTTTCCTGGACCACAACACCACAGGAGACGGCATTCTGACCGGGATTCAATTGGTGGATACGCTGGTAGCCTCCGGCAAGCCGCTGCATGAGCTGAAGAGCAGCATGCGCAAGTATCCGCAAGTACTCGTTAATGTCCGAGTTGGCGATAAGAGCAAGTACCAAGGCAATACCGTTATCGAGTCTGCGATTGCTGAAGTTGAAGGCATTCTGGGGGATAACGGTCGTGTCCTGGTGCGCCCATCGGGAACGGAATCCCTCATTCGCGTCATGGCGGAAGGCCCGGACAAAGATGAGCTTGACCGTTATGTAACGCAGATTGCAGACGTGGTGAAGCGGGAATTGGCGTAA	MGKYFGTDGVRGVANQELTAEMAYSIGRCGGYVLTGDKEKPTVIIGMDTRVSGAMLESALVAGLLSIGAHVIRLGVVSTPAVAYITRLLKADAGVMISASHNPVQDNGIKFFGGDGFKLSDETELKIEELMDAETDNLPRPIGADLGELLVDNDSKYKYLEYLKTTISNRFDGMKIVLDCANGAAYELAPKLFRELGADVITIGAEPNGLNINDHCGSTHPEKLVEAVLQHGADLGLAFDGDADRLIAIDAKGEEVDGDFILCICGDAMNRAGKLKEGTIVSTVMSNIGFYKACDSLKLKTAKTAVGDRYVMEEMRRGGYNLGGEQSGHVIFLDHNTTGDGILTGIQLVDTLVASGKPLHELKSSMRKYPQVLVNVRVGDKSKYQGNTVIESAIAEVEGILGDNGRVLVRPSGTESLIRVMAEGPDKDELDRYVTQIADVVKRELA	PGPT0018950_2959	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0018950-glmM-K03431	NA	NA
AK002_05665	1485	cdaR	COG4856	CdaA regulatory protein CdaR	ATGGATAAATGGATCAAGAACAACACGGCAAGCAAACTCATTGCACTCGCTGTCAGCATTCTGTTATGGGCAATGGTTCATATGGACAGCGGAACGCCCGCACCGCCCACGACCTTTTATGATACCAAGATCATTGAAGGCGTTAAGATTCAAACCTATGGATTTGATGACGGCGAATATGTGCTAACCGGCATTGATCAAGATCGCGTGAATCTCGAGGTGCGGGGGAAGAAATCCAATATTTCGCTTTTGACCGACGAATATAAAGTAAAACTCGATCTGAGCAACGTCAAAGAACCGGGTACGCACACACTTCCCCTGACCTACTCCATCCCAAGCGGCGTGGAGATGGTATCGATGGAACCATCCGTTGTTACGGTGACCGTAGAGCCGAGAGTGTCGAAATCCGTGACGGTAAGTATTGGAACGAAGGGCGAGCCAGCTAAAGATTACCGGGCCGGAACGCCCGTGCTGATTGACCCAAGGCAAGTCACGGTTACCCTGCCGGAATCGTCGATGGCAAATTTAGGGCAGGTCAAAGGTAACGTGGAGCTTGATGGAGCCAAAGAGAAGATTACGGAGAAACGAGTCAAGCTAACAGCATATGATAAAGAAGGCGCCGAAATGGAGGATGCGGTCATTGAGCCTGCTACAGTAGCGGCTGAAGTACCGATTGAGCCTGCATTTGTCACGCTGCCGCTGGAGCTTCAATATACCGGGAGGCTGCCGGAAGGGTTCGTCTTATCCAAGGTAGAACAGAAGGTCAAAGAAGTGAAGCTGTTCGGTAGCAAAGAGGCACTGGCAGGAGCTGAGACCTATATCGAAGCCGCCATCAATCTGGGAGAAGTTAGAAATTCGGGAACAACAGTGCTTACGGCCGACTTGACGCCGCCTGAAGGTTTTGAGAAAATCGAGCCGAGCTCTGTAACGGTTGAAGTTACGGCTGTATCGCATGGAGAACGGGTGATTACCGGCATTCCGATCACGTTAAATGGAGTCGCCTCCGGTCTGGACGCCGTCATTACGGATCCAAAGACGAAGACGATCTCCCTGACGCTCACCGGTGCGCCTGACTTGCTTAATAGTCTGGAGCCGACGGATATTGGAGCTGAAGCGAACGCGACCGGCTTGAAAGCCGGCGTCCATGAAATTCCGCTGCAGATTACGCTGCCTAATTTCATCAACCGCACGGATCAGGATCGCCCTGTGATTAAGATAGAGCTCAAGGATAATTCGAAACCCGTGACAACGAACCCGGGTACTTCGAACAACGAGGGAACCGACAAAGACAAGCCTGATGTACCGGGAACCGGAACTGGCACTGGAACCGGAACAGGGACAGGCAATGATCATGGGGAGGATCCGGAGACGCCTCCCGCGAATGAGGGCACGGATAACTCCGGGTCAGGAGAAAACCCATCACATCCGCCGGGAGACGGATCAAGCGATGGAACAACGGGCACAGAAACATCCACTGATGGATAA	MDKWIKNNTASKLIALAVSILLWAMVHMDSGTPAPPTTFYDTKIIEGVKIQTYGFDDGEYVLTGIDQDRVNLEVRGKKSNISLLTDEYKVKLDLSNVKEPGTHTLPLTYSIPSGVEMVSMEPSVVTVTVEPRVSKSVTVSIGTKGEPAKDYRAGTPVLIDPRQVTVTLPESSMANLGQVKGNVELDGAKEKITEKRVKLTAYDKEGAEMEDAVIEPATVAAEVPIEPAFVTLPLELQYTGRLPEGFVLSKVEQKVKEVKLFGSKEALAGAETYIEAAINLGEVRNSGTTVLTADLTPPEGFEKIEPSSVTVEVTAVSHGERVITGIPITLNGVASGLDAVITDPKTKTISLTLTGAPDLLNSLEPTDIGAEANATGLKAGVHEIPLQITLPNFINRTDQDRPVIKIELKDNSKPVTTNPGTSNNEGTDKDKPDVPGTGTGTGTGTGTGNDHGEDPETPPANEGTDNSGSGENPSHPPGDGSSDGTTGTETSTDG				NA	NA	NA	NA	NA
AK002_05666	834	cdaA	COG1624	Cyclic di-AMP synthase CdaA	ATGGTGGAGTATTTCACAGATATGACCTGGGGTGAATCCATTAAAGATATCATCGATATCCTTATCGTTACTTATATAATATACCAAATGATTCTGCTCGTCCGCGGCACGCGGGCGGTCCAGCTGCTCAAAGGGATTTTGGTGCTGGTGGTCATCTGGGCGCTGAGCACCTGGTTTGATCTGTATACGCTCAAGTGGCTGATGAACCAGATCTTTACCTTTGGGGTGCTGGCGATCTTTATTATCTTCCAGCCTGAGCTCAGACGCGGTCTGGAACAGCTCGGCCGAGGCAAGCTGTTCGGGCGGACCGCGGATATTGACGAGGAAACGAATAAGTTAATCAGCGAAACCATTAAGGCCGTTAATTATTTGTCGCGGCGCAAAATCGGGGCGCTGATCGTGTTTGAGCGGACGACAGGCCTAAATGAATACGTAGAATCGGGAATTCCGATGGGATCGGTGATCAGCTCGGAATTATTCATCAACATTTTTATACCGAATACGCCTCTCCATGACGGAGCGGTCATTATTCAGAACGGCCAAATCGCGGCCGCTGGCTGTTATTTACCGCTATCGGAGAATCCTTTCATCAGTAAGGAACTGGGGACGCGGCACCGTGCCGCTATCGGAATCAGTGAAGTGGGGGATGCGATTTCGGTTGTCGTATCCGAGGAGACTGGGCAAGTATCGCTGGCCTTAAATGGACAAGTGGTTCGGGATATCAAGGAAGAGTCTCTGATATCGAAATTGTATGAGGAGCTCAGACCTGCCGCGTCCATCAAGGAGAAACGCACGTTCTTCTGGAAACGGAAGGGGGACGGCAGCAATGGATAA	MVEYFTDMTWGESIKDIIDILIVTYIIYQMILLVRGTRAVQLLKGILVLVVIWALSTWFDLYTLKWLMNQIFTFGVLAIFIIFQPELRRGLEQLGRGKLFGRTADIDEETNKLISETIKAVNYLSRRKIGALIVFERTTGLNEYVESGIPMGSVISSELFINIFIPNTPLHDGAVIIQNGQIAAAGCYLPLSENPFISKELGTRHRAAIGISEVGDAISVVVSEETGQVSLALNGQVVRDIKEESLISKLYEELRPAASIKEKRTFFWKRKGDGSNG				NA	NA	NA	NA	NA
AK002_05667	615	rsiW	COG5662	Anti-sigma-W factor RsiW	ATGGATTGCAAATTAGCCGTCTCTTTGATGCACGATTATCTGGATAATGACTTGTCCGACCCGCAGCAGCTAGAATTGCAGAAGCATTTGCTGGATTGTGCTGACTGTCGGAATTACTTCGAGAAGCTGGAGCATACCGATATGCTTCTTTTTTCCTTAACTCATCATGCGACCAAGCCATCCGATGATTTAACGGAACGTATAATGGGCATGCTGCCGCAGCCCAAGAAACAAAAAGCTTGGGTCAAATGGGTTAAGAATCATCCTGCGCTCACGGCTGCAGCTTTGTTTTTGGTCGTCATGCTCTTTAGCACGATCAGTTTCTGGAGTCAGGACACTCAGCTGGTTGTAAAGAGCGATGAATTCGAAAAGCTGGTGATTGAAGGGGATACGGTCATTATTCCACCGGATCAGATCATCACGGGAGATATTACGGTCGAGAACGGAAAGACTAAGGTTTACGGTCAGGTTAATGGCAATGTGACCGTTATCGACGGAGAATTATTTCAGGCTTCCACCGCGCATATAGCGGGTCAAGTGAAGGATATAGATAGAGCCATGGATTGGATATGGTATAAGATCTCCACTCTGTTTACAGATGCCGCTTACCGCTAG	MDCKLAVSLMHDYLDNDLSDPQQLELQKHLLDCADCRNYFEKLEHTDMLLFSLTHHATKPSDDLTERIMGMLPQPKKQKAWVKWVKNHPALTAAALFLVVMLFSTISFWSQDTQLVVKSDEFEKLVIEGDTVIIPPDQIITGDITVENGKTKVYGQVNGNVTVIDGELFQASTAHIAGQVKDIDRAMDWIWYKISTLFTDAAYR				NA	NA	NA	NA	NA
AK002_05668	567	sigW_9	COG1595	ECF RNA polymerase sigma factor SigW	GTGGACAATTTGGATGTAAGACTGGCAAAGCTGGCCCGAAAAGGGGACCAAAGGGCATTTGCCGAAATCGTAGAGCTTTATAAAGACAAGATTTTTCATTTGGCTTACCGGATGCTGAGCAACCGCCATGAGGCCGAGGATGTCGTCCAAGAGACTTTTTTGCGTGTTTACAAGAACCTTGACCGATATGACGAGAACCAGAAGTTCTCAACTTGGATATACCGAATTGGCACGAATCTAAGCATTGATCGGCTGCGCAAACGCAAGCCTTCTTTCTCGTTGGACGCCGACCTGAACGAAAGCGAAGGTATGGACGGCTACTCCCTGATCCCAAGCGATAACCGTACGCCTGAGAGCGAAATGCTGCTATCGGAAACGCAGCGCATTATCCATCAGGCCATTGACGGACTTCCTGCCAAGTACAAGACCATTATGATCTTAAGGTACATCCAGGATTTATCCCTGCAAGAGATCAGCGAGATTTTGGACCTGCCTGTAACAACGATCAAAACGCGTGTACATCGTGGACGCGAATTTTTGCGAAAAAAATTAGAGTACAAATTGTGA	MDNLDVRLAKLARKGDQRAFAEIVELYKDKIFHLAYRMLSNRHEAEDVVQETFLRVYKNLDRYDENQKFSTWIYRIGTNLSIDRLRKRKPSFSLDADLNESEGMDGYSLIPSDNRTPESEMLLSETQRIIHQAIDGLPAKYKTIMILRYIQDLSLQEISEILDLPVTTIKTRVHRGREFLRKKLEYKL	PGPT0014960_7980	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_05669	2787	ppc	COG2352	Phosphoenolpyruvate carboxylase	ATGACTGAACTTACAGTAACCGCAAAAAGCAATTCCAACAATCTGCTGCGGCGAGATGTACGGTTCCTTGGCAATATTCTTGGAGAAGTTCTTGTCCATCAAGGAGGCAATGAGCTTTTAGATATAGTTGAGAAAATTCGCGAAACGAGTAAATCGTTGCGATCCGTATTCCTGCCAGAATTGTTTGCAGATTTCAAAAGGATCATCAGCACGCTGGAACCCGACATTCGCCATCAGGTGATTCGCGCGTTTGCCATTTACTTTCAATTGGTTAACATCGCCGAACAGAATCATCGCATACGGCGTAAACGCGATTACGAGCGTTCCGCCGGGGAAAGTGTTCAACCAGGTTCCATCGAAAGTGCAGTCCAGGATTTGAAAGAGCGCAATATTACGTTTGAAGAAGTTCAAGAAATTCTCGAAAGTCTATCCCTTGAGCTGGTGATGACCGCTCATCCAACAGAAGCGATGCGTCGGGCTATTCTGGATATCCATAAACGGATAGCGGACGATGTGATGCAGCTGGACAATCCGACACTGACATTCCGCGAACGGGAGCAGCTTCGGGAGAAACTACTGAATGAAGTGATTACGCTATGGCAAACCGATGAGCTTCGTGACCGTAAACCTACTGTTCTGGATGAAGTCAGAAACGGTATGTATTATTTTCACGAAACCCTGTTTCACATTCTGCCAGAGGTTTATCAAGAACTGGAGCGCTGCCTAACTAAATATTATCCGGGTCACCATTGGCACGTTCCAACCTATTTGCGTTTCGGTTCGTGGATCGGTGGCGATCGGGACGGAAATCCTTCAGTGACGGCGGACGTAACATGGAGAACGCTTGAAATGCAGCGGAAGCTGGCGATTCGTGAATACCAACGGATTTTGCGTGAATTCATGAAATACCTGAGCTTCAGCTCGTCAATCGTTAACGTTTCGGATGAATTGCTTCAATCCATTGAAAAAGACCGCGAGCATGTCACACTGAAGAAGATGGAAATTTGGCACAATGAGAAAGAGCCTTATCGTGTAAAACTGGTATATATGCTGGCTAAAATGAGTCACATTCTGGATGAGAACATGACAGGCAGCGAGCGTTATCAGACCCCTGAGGAATTCATCGAGGATTTGAATATCATTGATCGAAGCCTGCGTTTCCATTTTGCTGACTACGTTGCAGACACCTATATTCAAAAGCTGATTCGCCAGGCGGAGTTGTTTGGTTTCCATACGGCAACGCTGGATATCAGACAGCATAGCCAAGAGCATGAGAATGCCATGGCCGAAATTCTGCGGAAAATGAACGTGACGCAGGACTATGCCCAATTGAGCGAGGACGAGAAGATCGAGCTGCTCAATAACTTGCTTAACGATCCGCGTCCATTGACTACGCCTTATCAAGAGTATAGCGACAGTACCGAGGAATGCCTCGAAGTATACCGTACCGTTTTCCGCGCGCAGCAGGAATTCGGCGTAAAATGCATCTCCAGTTATTTGATCAGTATGGCCGAGGGCGCAAGCGACATTCTGGAAGTGATGGTATTTGCCAAAGAAGTCGGTCTGTTCCGGAAGGATAACGACGGTTCCGTAATCGCTACGCTGCAGGCTGCGCCATTATTCGAGACGATTGACGATCTTCATGCCGCGCCGGATATCATGCGCAAGCTCTTCAGCCTGCCGATCTACCGTGAAGCGGTGAGTGCCATGAACGAACTGCAGGAGATCATGCTGGGTTACTCTGACAGCAACAAGGACGGCGGAGCCATTACGGCGAACTGGGAGCTCCAGGTAGCACTCAAAGAGATTACGGCCGTAGCCAATGAATACGGCATCAAGGTAAAATACTTCCATGGACGCGGCGGATCGCTTGGACGCGGCGGTATGCCTCTGAACCGCAGCATTTTGGCTCAGCCGGCATCGACCATTGCAGGCGGCATCAAAATCACGGAGCAGGGAGAGGTTATATCGTCCCGTTACTCCTTGAAGGGCATTGCCTACCGGAGTTTGGATCAGGCGACCTCAGCATTGATTACGGCTTCCCTGAATGCCCGTTACCCTGAAAAAGAATCGACCGAAAAAGAGTGGGAAGTGATTTCCTCCAGCATTTCGGCCGTTTCTCAGAAAAAATATCAGGATCTGATATTCCGCGATCCGGATTTCCTTACTTTCTTCAAGGAATCCACGCCGCTTCCTGAGGTGGGCGAGCTGAATATTGGTTCCCGACCTTCCAAGCGCAAGAACAGCGACCGTTTCGAGGACCTGAGAGCCATTCCTTGGGTGTTTGCATGGACGCAGAGCCGTTACCTGCTTCCGGCATGGTACGCGGCTGGTACGGGCTTACAGAGCTTCTACCAAGGCAAGGAAGAGAATATGAAGGTGCTTCAACAGATGTACACGAGCTATCCGTTCTTTACGTCCCTGATTGATACCCTTCAGATGGCACTTGCCAAGGCAGATCTAATCATCGCCAAGGAGTATTCCTTGATGACGAAGGATGATCAAGCCCGCGAGCGCATCTTCGGTTTGATTCAGGAAGAATTCAAATTGACGAAAGAGCTGGTTCTTAAGATTACAGGACAACAGGATATTCTGGATAACCAGCCGGTTCTGCAGGAATCGATAAGACTGCGCAACCCTTACGTGGATCCGCTCAGCTATCTGCAGGTTCAACTGCTTAACGAGTTGCGTGAACTAAGGGAGCAGGAGCAGGATGATCCGGATCTGCTTCGGGAAGTACTGCTGACCATCAACGGCATTGCCGCAGGGCTTCGCAATACAGGCTGA	MTELTVTAKSNSNNLLRRDVRFLGNILGEVLVHQGGNELLDIVEKIRETSKSLRSVFLPELFADFKRIISTLEPDIRHQVIRAFAIYFQLVNIAEQNHRIRRKRDYERSAGESVQPGSIESAVQDLKERNITFEEVQEILESLSLELVMTAHPTEAMRRAILDIHKRIADDVMQLDNPTLTFREREQLREKLLNEVITLWQTDELRDRKPTVLDEVRNGMYYFHETLFHILPEVYQELERCLTKYYPGHHWHVPTYLRFGSWIGGDRDGNPSVTADVTWRTLEMQRKLAIREYQRILREFMKYLSFSSSIVNVSDELLQSIEKDREHVTLKKMEIWHNEKEPYRVKLVYMLAKMSHILDENMTGSERYQTPEEFIEDLNIIDRSLRFHFADYVADTYIQKLIRQAELFGFHTATLDIRQHSQEHENAMAEILRKMNVTQDYAQLSEDEKIELLNNLLNDPRPLTTPYQEYSDSTEECLEVYRTVFRAQQEFGVKCISSYLISMAEGASDILEVMVFAKEVGLFRKDNDGSVIATLQAAPLFETIDDLHAAPDIMRKLFSLPIYREAVSAMNELQEIMLGYSDSNKDGGAITANWELQVALKEITAVANEYGIKVKYFHGRGGSLGRGGMPLNRSILAQPASTIAGGIKITEQGEVISSRYSLKGIAYRSLDQATSALITASLNARYPEKESTEKEWEVISSSISAVSQKKYQDLIFRDPDFLTFFKESTPLPEVGELNIGSRPSKRKNSDRFEDLRAIPWVFAWTQSRYLLPAWYAAGTGLQSFYQGKEENMKVLQQMYTSYPFFTSLIDTLQMALAKADLIIAKEYSLMTKDDQARERIFGLIQEEFKLTKELVLKITGQQDILDNQPVLQESIRLRNPYVDPLSYLQVQLLNELRELREQEQDDPDLLREVLLTINGIAAGLRNTG	PGPT0001165_1437	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
AK002_05687	231			hypothetical protein	ATGCTGGGAATGCTATTCAATGAGAAAGAGTGCAAAGAGCTTGATTATGTACTGCGAAAAGAACTGGATGAAATGCTGCTGGATTTGAGCGACCAACGATTGGACCAAAATATCAGGCAGGCGATCGCTAACCGATATAAAACGGTATTTCGCATGTATGCCCGGTTTGCCCCGCAGAAAGAACTCTCCAAATATGCGCGTAACGGGAAGTTTCCGCAAATCAAACATTAA	MLGMLFNEKECKELDYVLRKELDEMLLDLSDQRLDQNIRQAIANRYKTVFRMYARFAPQKELSKYARNGKFPQIKH				NA	NA	NA	NA	NA
AK002_05688	609			hypothetical protein	ATGTTACGTTTTAGCATTTTTCTTAGAGATTTAAGATCCATCCGGAAGGCATTGCTCTTGGCAGCCGTTTTATTCATAGCCGGAATCGCAGCGGGAGCAAGCTCAGAGGGATTTGAGCAATTCCTTCTGGGTCAGCTTCAGGGGCTGGGGGAGATTAGCCAGCAGCTAGGTTCCTCCGATCATCCGGAATGGAACTTTTTTGTGTTCATCTTTCTGAACAACAGCATTAAAAGCGTGCTGGTTATGTTTTCGGGCTTGCTGCTGGGAGTGATTCCATTTTTCTTCCTGGTCGTTAACGGCATGGTGATTGGTTTCCTGGTGAAAGTCGTGGGGGAGAGCGGAGAGAGTCTGTTCGATCTGATCGTGAAGGGGCTGCTGCCTCATGGCATCATTGAGATACCGGTCATTGTGATTGCCTGCGGGTACGGCCTGGCTTTTGGCGGGCTGGTATTGAGAAGCGTTGTGGCAACAGGGGAGCGCAGAAGCGGGATAGGCGCGGAGTGGCGCGGCTTTTGGCGGAAGCTGGGTACTGCTTCCTTATGGGTTGTCGTGCTGCTGCTCGTGGCCGCTATGATCGAAAGTACAATTACGTTGTGGCTGATGTCATAA	MLRFSIFLRDLRSIRKALLLAAVLFIAGIAAGASSEGFEQFLLGQLQGLGEISQQLGSSDHPEWNFFVFIFLNNSIKSVLVMFSGLLLGVIPFFFLVVNGMVIGFLVKVVGESGESLFDLIVKGLLPHGIIEIPVIVIACGYGLAFGGLVLRSVVATGERRSGIGAEWRGFWRKLGTASLWVVVLLLVAAMIESTITLWLMS	PGPT0024685_477	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
AK002_05689	804			hypothetical protein	ATGAATTCTTTTTATGTATTCAACGGCAGAAAGATTAAGCGGTTTTTCTTCGTTCTTGCCGCGGCGATCTTTGCAATCGGCGTTATTTATGTGGAGAGTGACAACATCTCGGTCTTCTCCGAGGACAACCCGTCAGCGATTTACAGCGTGTCTACGGACAAGAAACAGATTGCGTTGACCTTTGACATCAGCTGGGGCGAAAAACGCGCAGAGCCCATTTTACAGGCCTTAAAGGACAATGGAGTTCAAAAGGCAACCTTCTTCCTGTCTGCGCCATGGAGCAAAACGCATCCCGATATCGTGAATGCCATCAAGGAAAGCGGATATGAAATCGGGAGCCACGGCTTCAAGCACGACAATTACAGCACGCTCACCGACGAGGAAATACGCAAGCAAATTTCTTCGGCACACACTATTTTAACCGCAATGACCGGACAAGAACCCAAATTGATACGGATGCCGAACGGGGATTTTGACAAAAGAGTCCTCAGCATCGCCCAAAGCCTGAACTACACGGTGATCCAGTGGGATACCGACTCCAGGGATTGGAAGAACATCGGCGTGGAGAAAATCGTTGATCGCGTCGTCTCCAAAGCCCATCCGGGAGATATCGTGCTGATGCACGCCAGCGATTCGGTGAAGCAAACCCATGAAGCGCTGCCTCTCATCATCAAGGAACTTCGCAATCAAGGCTACGAGTTCGTCACGGTCACCGATCTGCTTCAACAGGGCAGCACCCAAGGCACCGAGGTCCGCGATCACGCTTCATTGCAGAAGAGCATCGAAGACGCAGGCGGTCTATGA	MNSFYVFNGRKIKRFFFVLAAAIFAIGVIYVESDNISVFSEDNPSAIYSVSTDKKQIALTFDISWGEKRAEPILQALKDNGVQKATFFLSAPWSKTHPDIVNAIKESGYEIGSHGFKHDNYSTLTDEEIRKQISSAHTILTAMTGQEPKLIRMPNGDFDKRVLSIAQSLNYTVIQWDTDSRDWKNIGVEKIVDRVVSKAHPGDIVLMHASDSVKQTHEALPLIIKELRNQGYEFVTVTDLLQQGSTQGTEVRDHASLQKSIEDAGGL	PGPT0012156_550	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-CHITINOLYTIC_ACTIVITIES,PGPT0012156-chitin_deacetylase-NA	NA	NA
AK002_05690	594			hypothetical protein	TTGAGCTTACGTAAGTGGTCCAAATTGTTTTTGAAAACGCTGCTCGTCGGGGCAGTGGCGGCATTGATCGTAGGTCTGATCCTGCAGTTGTTTAATGGCGCTATCGAGTTCACGGGAATGGCCGATTTATTGATATACCCGCTGATTTTGTTAGGCTCTGGGGCGCTGGTGAGCGTATACTCCCAGATGGGCTTTTTTGCATACCTGACGTTAAATTATATGGGGATTGGCATATTCCGAAGAAAGACTTGGCAATACATTCAGATTGTGTTGGCTGTACTGGCATTGCTTGAGCTGATGTTCTTCCGTACGTTTGTCGGCGGATCCACCAGCCTGCAGCAGGATTTGATTTTGGGTATCTCCATACTGGTCATTGCCATTGTCGTTGCTTACCTCAAAGTTAAGAGCACAAATGCCAACGCATGGATCCCGACGCTGTTCTTCATGATGGCCATTTCCATCGTTGAGATTATCGGCGTGCTGCAAATCGGAGTGAGCAATGCCACGATTTTTATGGTTGTACCGCTGCTGATCTGTAATGCATACCAGATTCTGACGCTTCATAAAGTTACACAAGACGAAAAAAAGAGCTAA	MSLRKWSKLFLKTLLVGAVAALIVGLILQLFNGAIEFTGMADLLIYPLILLGSGALVSVYSQMGFFAYLTLNYMGIGIFRRKTWQYIQIVLAVLALLELMFFRTFVGGSTSLQQDLILGISILVIAIVVAYLKVKSTNANAWIPTLFFMMAISIVEIIGVLQIGVSNATIFMVVPLLICNAYQILTLHKVTQDEKKS				NA	NA	NA	NA	NA
AK002_05691	708	gerD		Spore germination protein GerD	ATGAAGTGGCCGTTATTTCGTTTATGCATTATCGTCTTCGTTGCAGCCATGGTGCTTACCGCTTGTGGCGTAGAACAAAGCTCGTCCCCGCAGCTTGGCTATAAAGAAATCAAGTCTATGGTGGTCGACATTCTGAAAACCGACGAAGGCAAAAAAGCGGTGGAAGAAGCGATGGGGGGCGGAGCCGGCGGTTCCTCAGGCAGCGGAGGCTCAATGGGAATGCGAATGATGTCCGCCCAATCTGGCGATCAAATTCGGATGGCTGTTAAGGATACGCTGGTGTCGGATGAATATAAGAAGGAAATTGAGAAGATCATGACCGATCCGCAATTCGCCGGCGATTTTGCCAAAGCCATTAATTCCGAGAGCAAGCGGCTGCATATGCAGCTGATCAAGGACCCAACGTATCAAAAGGCTATTCAGGATATGTTAAAATCACCGGATGTGATGAAATCGTTTCTTGAATTGACCAATACGCCGGACTATCGCAAACAGTCCATGACCGTGATGCAGGAAGCTATGCAAAATCCACTGTTCCGCATGGAGGTTCTGGAACTGCTCAAAACGGTTGTGAAAGATGAACTTCAGCCTAAAGTGGAAAAGAAAAAACAAGGCGAGGAAAAAGGCCAAGAAGAGCAAGGCGGCGGTGGCGGTAGCAGTGAAAGTGGCGGCGGTGAAGAAGGCGGCGGCGATGGCGGCGGCGGTTAA	MKWPLFRLCIIVFVAAMVLTACGVEQSSSPQLGYKEIKSMVVDILKTDEGKKAVEEAMGGGAGGSSGSGGSMGMRMMSAQSGDQIRMAVKDTLVSDEYKKEIEKIMTDPQFAGDFAKAINSESKRLHMQLIKDPTYQKAIQDMLKSPDVMKSFLELTNTPDYRKQSMTVMQEAMQNPLFRMEVLELLKTVVKDELQPKVEKKKQGEEKGQEEQGGGGGSSESGGGEEGGGDGGGG	PGPT0025045_26	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025045-gerD-K06294	NA	NA
AK002_05692	1095	salA	COG0489	Iron-sulfur cluster carrier protein	ATGCTGACTAGAGAAACGGTACAGGAGATACTCCAGCCTTTACGTGATCCCGAAACCGGGAAGAGCCTGATGGAGCTCCAGCGTATTCGAGATATTGTAGTCAAGGAACGCACGGTTCGATTATCCGTGACGTACAGCAGCGAAGATGTACGCGCTTCCCTGGAAGCGCAGATCAGAGAAATTCTGGAGGCGATGGGGGCAGAGGATATTCATATCCGCATGCGTCCCCTGGACAATGCCTCAAACCAAGCGAACCGCGAGGAAGCCAACGATCGCGATAAGCTGACAAAAGGGCATGCTGCCGGCATGGAGCAGAATACGCTTCTAAGCGAACAATCCGGCATTCATTTCATTGCGATCGCAAGCGGCAAAGGCGGCGTCGGCAAATCCACCGTTACGGTGAATTTAGCCGCAGCTTTGGCCCGACAAGGGAAGAGGGTCGGTCTGATCGACGCGGATATTTACGGATTCAGCGTGCCGGACATGATGGGCATTGAGGAAGGGCCCTCCGTAACCGAAGACGGCGTCATTCACCCGGTTGAGCGCTTTGGCGTCAAGGTCATGTCGATGGGCTTCTTCATCCGTGAGAACAGTCCGGTGATTTGGCGCGGACCGATGCTTGGCAAAATGCTGCGTCAATTTTTCACCGATGTCGCTTGGGGGGATTTGGACTACATGCTGCTTGATCTGCCGCCAGGAACCGGTGACGTGGCGCTGGACGTGCATCAGATGATTCCGCAGAGCAAAGAGATCATCGTAACCACCCCGCATGCTACGGCGGCGTTTGTTGCCGCCAGAGCGGGTGCGATGGCCTTGCAGACCGATCATGAAATTCTGGGCGTCGTCGAGAACATGTCCTATTATGTCTGCTCCCATGGCGGAGAGAAGGATTATGTGTTTGGTCGTGGAGGCGGAGGCAAACTTGCCGAGACGCTTCATACGGAGCTTCTCGCGCAGCTTCCGTTGGGGGCCCCGGATAATCACCCTTCGGAGCCGGATTTCTCGCCATCGGTTTATAAACCGGGGACAGAGAGCGCTGCGATTTACGAGGAGATCGCCTCACGAATCGCGGCTAAACTTGAAGGACCCGTTTAA	MLTRETVQEILQPLRDPETGKSLMELQRIRDIVVKERTVRLSVTYSSEDVRASLEAQIREILEAMGAEDIHIRMRPLDNASNQANREEANDRDKLTKGHAAGMEQNTLLSEQSGIHFIAIASGKGGVGKSTVTVNLAAALARQGKRVGLIDADIYGFSVPDMMGIEEGPSVTEDGVIHPVERFGVKVMSMGFFIRENSPVIWRGPMLGKMLRQFFTDVAWGDLDYMLLDLPPGTGDVALDVHQMIPQSKEIIVTTPHATAAFVAARAGAMALQTDHEILGVVENMSYYVCSHGGEKDYVFGRGGGGKLAETLHTELLAQLPLGAPDNHPSEPDFSPSVYKPGTESAAIYEEIASRIAAKLEGPV				NA	NA	NA	NA	NA
AK002_05693	774	cwlD	COG0860	Germination-specific N-acetylmuramoyl-L-alanine amidase	ATGTCCAGGCGGAGAACGGACAAGGTTACGGTATGGATATCGTTGAAGAGAATCAAGCAAACCCTGATTGGTGCCGTACTACTGGCACTGCTCATTATCGTAGTGACGTACGAAATCCCCTCTGCCAAAACGTCCAATACCTGGAGCCTGCCGCTTGCCGGCAAAGTCATTGCCCTTGATGCAGGCCATGGCGGGCCAGACGGGGGAGCAGTAAGCCGCCAAGGCGTCATAGAGAAGGATGTAAACCTGGCCATCACCTTGTATCTGCGTGATTACTTGCAGCAGGCAGGCGCGCTTGTCATTATGACAAGAGAAGGAGATTACGACCTGGCGGCGGAAAGCACCAAGGGCTATTCCAAGCGGAAAACGGAAGACCTCAAACAACGCGTGCGGATGATTGAGGACAGCAAGGCCGACCTGTTTATCAGCATGCATCTGAACAGCATTCCGTCCAATCGGTGGAGAGGCGCGCAGACCTTTTTCCCGCCGAATAACGAGGACAGCAAGAAACTTGCCGAATTGATCCAGGCTGAAATTAGGCATAACCTGGAGAATACGCAGCGTCTGGCCAAAACGGACGATAAGATATATTTGCTCCAAGCCCTGCGCATGCCATCCGCCCTGGTCGAGGTTGGTTTCTTGTCCCACCCGCAGGAATCCGAATTGCTTCGGGACGAGAAATACCAGAGGAAGGTCGCAGCTTCCGTGTATAACGGCATTTTGCGGTATACCTCCGGAGAGTCCATCAGCGAGTCGTCACAAGCTGCAGAGTAA	MSRRRTDKVTVWISLKRIKQTLIGAVLLALLIIVVTYEIPSAKTSNTWSLPLAGKVIALDAGHGGPDGGAVSRQGVIEKDVNLAITLYLRDYLQQAGALVIMTREGDYDLAAESTKGYSKRKTEDLKQRVRMIEDSKADLFISMHLNSIPSNRWRGAQTFFPPNNEDSKKLAELIQAEIRHNLENTQRLAKTDDKIYLLQALRMPSALVEVGFLSHPQESELLRDEKYQRKVAASVYNGILRYTSGESISESSQAAE	PGPT0024160_6179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK002_05694	1170	sat	COG2046	Sulfate adenylyltransferase	ATGACAGCCATACTCCCTCATGGCGGTACGCTGGTGCAGCGGGTAGCCCAAGGAGAAGAACGTGAAGCTTTGTTGAAGCAGGTGGACACCTTTCATAAGATCCCCGTTAACGCCTGGAGCATTTCGGACTTGGATCTGATCGGGGTCGGAGCATTTTCGCCATTGCAGGGATTTCTGAACGAGCAGGACTATAAGTCCGTTGTTTCTAATATGCGTTTATCTGACGGAACGGTGTGGAGCATACCGGTTACCCTGGCCGTAGATAAAGACACGGCGGCGAAGCTCGTTGTCGGCGAGAAGGCGGCGCTTGTAGGCGAAGAAGACGGCGTCGTTTATGGCGTCATCGATGTTGAGAGCGTCTATAAGGTCGATCAGCAAGTCGAGGCTGTACAAGTATTCAAGACCGATGATCCGGAGCATCCAGGCGTGAAAAAGCTGTTGGAACGACCTGCGACGTATGTCGGAGGTCCGATTCAAGTATTGAATCGTCCGCAGCCGGAACGGTTTGGCGAGTTTTATTTTGATCCGGCTGAAACACGCGCGCATTTTAAAGCCAAGGGCTGGAATACGGTTGTCGGCTTTCAGACCCGAAATCCGGTCCACCGTGCACATGAGTACATTCAGAAAAGCGCAATGGAAATCGTAGATGCGCTATTCCTCAATCCGCTCGTGGGAGAGACCAAATCGGATGACGTTCCTGCCAACGTGCGGATGAAGAGCTACCTGACCTTGCTGGAGAACTATTACCCCGCGGATCGTACCTTCCTGGGCGTATTTCCGGCTGCCATGCGTTATGCGGGCCCAAGGGAAGCCATATTCCATGCCATGGTTCGTAAAAATTATGGATGCACTCATTTTATCGTGGGCCGGGATCACGCCGGAGTCGGCGACTACTACGGCACTTATGAGGCACAGGAAATTTTCAAGAATTTCACTGCGGAAGAGTTAGGCATTACCCCGCTGTTCTTCGAGCACAGCTTCTTCTGCACAACATGCGGAAACATGGCCTCGAGCAAAACATGCCCGCACCCTAAGGAGGACCATCTGACCTTGTCGGGAACGAAGGTTCGCGGCTTGCTTCGTGAGGGGCAGTGCCCGCCGCCGGAATTTACGCGCCCGGAAGTTGCGCAAGTATTGATCGAAGGCATGAAAGAGCAGATCACGGTATAA	MTAILPHGGTLVQRVAQGEEREALLKQVDTFHKIPVNAWSISDLDLIGVGAFSPLQGFLNEQDYKSVVSNMRLSDGTVWSIPVTLAVDKDTAAKLVVGEKAALVGEEDGVVYGVIDVESVYKVDQQVEAVQVFKTDDPEHPGVKKLLERPATYVGGPIQVLNRPQPERFGEFYFDPAETRAHFKAKGWNTVVGFQTRNPVHRAHEYIQKSAMEIVDALFLNPLVGETKSDDVPANVRMKSYLTLLENYYPADRTFLGVFPAAMRYAGPREAIFHAMVRKNYGCTHFIVGRDHAGVGDYYGTYEAQEIFKNFTAEELGITPLFFEHSFFCTTCGNMASSKTCPHPKEDHLTLSGTKVRGLLREGQCPPPEFTRPEVAQVLIEGMKEQITV	PGPT0002410_838	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002410-sat|met3-K00958	NA	NA
AK002_05695	693	cysH	COG0175	Phosphoadenosine phosphosulfate reductase	ATGAATTTGCTGGAGAAAGAAGATCTGATCAGAGTGCAAGCTGAAGAGCTTGAGCATGCATCGGCTGAGGAAGTCATCGAATTTGCAATCAAGACGTTTCCTAATATAACGTTTGCTTGCAGCTTTGGAGCAGAAGATGTGGTATTGGTCGATATGATTCAGAAGATCAGCCCGTCGACGGATATTTTTTATCTGGATACCGACTTTCATTTCAAGGAGACATACGAAACGCGGGATCGTATGGCAGAACGTTATGGCCTGGAATTTGTGCGCGTATCTCCGCTCATCACGCCGGAAGAGCAAGCGGCTCAGCATGGCGAAGCATTATGGAGCGTCAGCCCGAATGAGTGTTGCAACATCCGCAAGGTAGAGCCGTTGACCCGGATTCTGTCTCAATACGAGGCTTGGATTACAGGCATACGAAGAGATCAAGCCCCTACCCGGGCGAATACGAAGAAGATTGAATACGACACCAAGTTCGGTTTGGTGAAGTTCAATCCGATCGCGGGCTGGACGAGTGAGGATGTGTGGAATTATATCCGCACGAACGATATCATCTACAACCCGCTGCATGATCAGAACTATCCGAGCATTGGCTGCGAATATTGCACGCGGCAGGTCATGCCGGGAGAAGATCCACGTGCAGGACGCTGGTCCGGGCATGAGAAGACGGAGTGCGGGCTTCATAAATAA	MNLLEKEDLIRVQAEELEHASAEEVIEFAIKTFPNITFACSFGAEDVVLVDMIQKISPSTDIFYLDTDFHFKETYETRDRMAERYGLEFVRVSPLITPEEQAAQHGEALWSVSPNECCNIRKVEPLTRILSQYEAWITGIRRDQAPTRANTKKIEYDTKFGLVKFNPIAGWTSEDVWNYIRTNDIIYNPLHDQNYPSIGCEYCTRQVMPGEDPRAGRWSGHEKTECGLHK	PGPT0002785_3264	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
AK002_05696	1647	bmr3_4		Multidrug resistance protein 3	ATGGAGCATTTAACGCTTAAACGTAAAGTTTCGATTATGATCGCGATCATGGCTGCGATGTTCTTCGCAGCCATTAACCAGACGATAACAAGCACCGCGATGCCGCGGATTATCGCCATTCTTGATGGCATGGATTATTACACATGGACCATCAACATTTATTTGTTAACATCAACGATCGCAACCATACTGGTTGGCAAGCTGTCCGATATGTTCGGACGTAAGCCGTTTATACTGATAGGTATATTATTTTTCATGTTAGGAGCTTTTCTGACGGGTACTTCGACAGACGTGTATCAGTTTATTATTTATCGGGGTATTCAAGGTATAGGTGCCGGCATTATCCAATCGACGGCATTTATGTCGGTCGGGGACTTATTCCCGCCGCGGGAACGTGGTAAATGGATGGGCCTGATGACGGCCGTATTCGGTTTTTCCAGTGTCCTGGGCCCTACGCTTGGCGGTTACCTGGTCGATAACATTGAATGGCGCTGGTTATTCTGGATCTTCCTGCCGCTGGGCGTTGTCGCCTTTATCATGATCATGACATTGTTCCCTAAGGTCGAACGGAAAACCGGTCAATCCATCGATTATCTGGGTTCCTTATTCCTGACAACGGCGATTGTTCCGCTGTTGCTTGCGTTCTCTTGGGCAGGCACGGAATATCCTTGGGGATCGCCTGAAATTATCGGTCTCATAGCGGCTTCGGTCGTATCGGCCATCATCTTTATATTTGTTGAGACAAAAGCCAAGGAACCGGTTTTGCCGCTGAGTTTATTTAAGAACAGCGTCGTTACGGTTTCCAATCTGATTGGATTCATTATGAACTTCGGTTTGATGGGCGCGATGATTTACATCTCGTTCTACGTGCAGGGCGTACTTGGCATTTCGCCTACCTATGCCGGGTATGTAACGATTCCGATGTCGGTCTTCATGATGGGAATGAGCGCCGTCGTGGGCCAACTGATCGCGAAGAGCGGCAAGTACAAACGCTACGCGCTGCTTGGCGTACCGATCATGATTGTTGGCATGGGTATCATGGTATTCATGGATAATCTGTGGCTGACCGTGGTCAGTACCATCATTTTCGGTGTCGGACTTGGTTTGGGCATGCCGGTATTCTCGCTCGCCACGCAAAATGCGGTATCGCACAAAGAGCTTGGCGTAGCGACGGCTTCTTCCCAATTATTCCGTAATCTTGGCGGTACGATCGGTATCGCGGTTATGGGTACGGTTATGTCGAATAACCTGACGAAGAATTTGAAGGATGCACTTCAGTCGGAGAGCGCGCCTGACTTCAGCGCCTTGGATCCGCAGATGGCCCAGCAGATGCTATCGTTCGCGAATCCGCAGACGCTGATGAATAAGCCGTTGATCGAACAGACGCAAGCAAGCCTTCCTGCAGACGTGCAACCATTATTCCTGCAGATGATAGACAGCATTCGCGATGCGCTCGGAAATACGCTATCCATGGTATTCCTTACCGGGATGCTGGTGCTTGTGGTCGCATTGCTGCTCGTATTCTTCTTGAAGGAAATTCCGCTGCGGACAACGAATCAGGCATCGGCTCCCAAGTCCGAGGATTCGGAAGGAAAAAGTGCCGGTGCAGGCATGAGAGCCAAAGAGGTATCCGTAGCATCGGAGTAA	MEHLTLKRKVSIMIAIMAAMFFAAINQTITSTAMPRIIAILDGMDYYTWTINIYLLTSTIATILVGKLSDMFGRKPFILIGILFFMLGAFLTGTSTDVYQFIIYRGIQGIGAGIIQSTAFMSVGDLFPPRERGKWMGLMTAVFGFSSVLGPTLGGYLVDNIEWRWLFWIFLPLGVVAFIMIMTLFPKVERKTGQSIDYLGSLFLTTAIVPLLLAFSWAGTEYPWGSPEIIGLIAASVVSAIIFIFVETKAKEPVLPLSLFKNSVVTVSNLIGFIMNFGLMGAMIYISFYVQGVLGISPTYAGYVTIPMSVFMMGMSAVVGQLIAKSGKYKRYALLGVPIMIVGMGIMVFMDNLWLTVVSTIIFGVGLGLGMPVFSLATQNAVSHKELGVATASSQLFRNLGGTIGIAVMGTVMSNNLTKNLKDALQSESAPDFSALDPQMAQQMLSFANPQTLMNKPLIEQTQASLPADVQPLFLQMIDSIRDALGNTLSMVFLTGMLVLVVALLLVFFLKEIPLRTTNQASAPKSEDSEGKSAGAGMRAKEVSVASE				NA	NA	NA	NA	NA
AK002_05697	450			hypothetical protein	TTGGATCGCAATGAAGAGATTTTTAAGGTGTCGTCGATGTTCCGGGCCCTGCTGAAGAACATTTCTCAAGAATGGAACAAGTCGAGCGCCGGGAAATACAATTTAAGTTTCCCTCAATTTCAGGTGCTGTATGTATTAAAGATGAGAGGACCTCTAAAGGTTTCGGAGCTTGCTGAAGTTCTGTCTTTGACGCCGCCGGCTATAACCGGACTGACGGATAAATTGGTTGCAGAAGGGTATCTGCAGAAAGAACGCGCCGAGGATGACCGCAGAGTTGTCAACATCACGCTCTTGGAACCGGGGCTTGAGATCATTAAGAAAGTGAAGAAGGATCAAAAAGAAATGATCCAGGGATTTTTTGACTTCCTCTCTGAGGAAGACATTCAGCATTTAAGAAGAATCTTCTCCTTGATGCTGTCAAACATAGATAAAACCAATCACAACGGGTAG	MDRNEEIFKVSSMFRALLKNISQEWNKSSAGKYNLSFPQFQVLYVLKMRGPLKVSELAEVLSLTPPAITGLTDKLVAEGYLQKERAEDDRRVVNITLLEPGLEIIKKVKKDQKEMIQGFFDFLSEEDIQHLRRIFSLMLSNIDKTNHNG	PGPT0013155_2685	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK002_05698	393	rpsI	COG0103	30S ribosomal protein S9	ATGGCACAAGTACAATACTATGGGACAGGTCGTCGTAAACACTCGGTAGCACGTGTACGCCTCGTACCGGGTGAAGGACGCATTGTCATCAATAAACGTGATATCAATGAATATTTCGGTTTGGAAACACTCAAACTGATCGTTAAACAACCTTTGAATCTGACAGAAACACTGGGCAAATATGACGTGCTTGTCATCGCTCACGGTGGCGGCATCTCCGGTCAAGCTGGAGCAATCCGTCACGGTATCTCCCGTGCTCTTCTGAAAGCAGATCCTGAATTCCGTCCTTCTCTGAAAAGAGCTGGATTCCTGACTCGCGACCCTCGTATGAAAGAACGTAAGAAATACGGTCTTAAAGCAGCTCGTCGCGCGCCTCAGTTCTCCAAACGTTAA	MAQVQYYGTGRRKHSVARVRLVPGEGRIVINKRDINEYFGLETLKLIVKQPLNLTETLGKYDVLVIAHGGGISGQAGAIRHGISRALLKADPEFRPSLKRAGFLTRDPRMKERKKYGLKAARRAPQFSKR				NA	NA	NA	NA	NA
AK002_05699	438	rplM	COG0102	50S ribosomal protein L13	ATGCGTACCACCTATATGGCGAAGCCAAATGAAGTTGAGCGCAAATGGTACATCGTTGATGCCGAAGGCAAAACGCTTGGCCGTTTGGCAAGTGAAGTTGCGGCTCTGATCCGCGGCAAACATAAGCCTCAATTCACTCCACATGTTGACACAGGGGATTTCGTGGTTGTTATCAACGCCGAGAAAATCCACCTCACTGGCAAAAAGATGGAGAACAAGAAATATTATCGTCACTCCCTGCATCCAGGTGGATTGAAAGTAACTTCAGCTCAAGACCTGATTGCTAAATTCCCAGAGCGTGTAATCGAAAGTGCGGTTCACGGCATGCTTCCTAAAACTCGCATGGGCGAGAAAATGAAGCTGAGACTGAAAGCATACGCAGGCACGGCACATCCACATGAAGCACAAAAACCAGAAGTTTACGAACTTCGCGGTTAA	MRTTYMAKPNEVERKWYIVDAEGKTLGRLASEVAALIRGKHKPQFTPHVDTGDFVVVINAEKIHLTGKKMENKKYYRHSLHPGGLKVTSAQDLIAKFPERVIESAVHGMLPKTRMGEKMKLRLKAYAGTAHPHEAQKPEVYELRG				NA	NA	NA	NA	NA
AK002_05700	792	truA	COG0101	tRNA pseudouridine synthase A	ATGCGTAATCTTCTGATGAAGGTCAGTTACGACGGTACCGATTATAACGGCTTTCAGACCCAGCCCGGTGGCCACACGATTCAGGACTATTTGGAGGAAGCCATTCGCCGCTTGTCCGGAGAGCAGCTCAAGATTACGGCTTCCGGCCGGACAGATGCCGGGGTGCATGCCCGTGCCCAGGTATTTAATTTTTACACGGCTTCCCCCATTCCCGTGGAGCGTTGGTGCATGGCATTAAACACTTGGCTGCCGGAAGATATCGTGGTTTCGGATGCAATGGAGGTACCGATGGAATTCCATTCCCGCCATGCAGCGAAACGCAAAACCTATCGTTTTACCATCAATGCGAATCAATATCCGGATTTATTCAACCGGCGGTACCAGATCCATCATCATGGAAAGCTGGATATCGCAGCGATGGAGCAGGGACTTTCTCATCTGATCGGAACGCACGACTTTACGACGTTTGCGTCACGAAAGTCGACGAAGCCGTCCCATGTCCGTACGATTTTTGATGCTTGGATCGAGAAGGATACATCCATGTGCCGTCCGGACACCAGAGATCAAGGAATCATTCATACGTATGTATCCGGGAACGGGTTTCTGCAGCACATGGTCCGGATCATTATGGGAACGTTGATTGAGGTAGGGGAAGGCAAGCGCCATCCGGATGATATGAAGGTCATATTGGAAGCCCAAAATCGGGCAGCAGCCGGTCCAACAGCGATGGGCAAGGGTTTGATGTTATGGGAAGTGGATTACGATATCGCCGGCCAAGAGAAGCCGCAATGA	MRNLLMKVSYDGTDYNGFQTQPGGHTIQDYLEEAIRRLSGEQLKITASGRTDAGVHARAQVFNFYTASPIPVERWCMALNTWLPEDIVVSDAMEVPMEFHSRHAAKRKTYRFTINANQYPDLFNRRYQIHHHGKLDIAAMEQGLSHLIGTHDFTTFASRKSTKPSHVRTIFDAWIEKDTSMCRPDTRDQGIIHTYVSGNGFLQHMVRIIMGTLIEVGEGKRHPDDMKVILEAQNRAAAGPTAMGKGLMLWEVDYDIAGQEKPQ				NA	NA	NA	NA	NA
AK002_05701	366	rplQ		50S ribosomal protein L17	ATGGCATACCAAAAGTTGGGCCGCGATTCCAGTGCGCGTAAAGCGTTGTTCCGTGACCTGGTAACCGACCTTTTCTTATATGAGCGTATTCAAACGACTGAAGCCAAAGCGAAAGAAGTCCGTTCGATCGCTGAGAGACTGATCACAAAAGCAAAAAAAGGTGATCTTCACGCTCGTCGTCAAGTAGCTGCATTCGTGCGTCGTGAAACGGTTGACGGTGAACAAGATGCAATCCAAAAATTGTTCTCCGAAATCGCTCCTCGTTACGTAGAGCGTCCAGGCGGATACACGCGTATCCTGAAACTGGGTCCTCGTCGTGGTGACGCAGCTCCAATGGTTTATTTGGAACTGGTAGATCGCGCGTAA	MAYQKLGRDSSARKALFRDLVTDLFLYERIQTTEAKAKEVRSIAERLITKAKKGDLHARRQVAAFVRRETVDGEQDAIQKLFSEIAPRYVERPGGYTRILKLGPRRGDAAPMVYLELVDRA				NA	NA	NA	NA	NA
AK002_05702	945	rpoA	COG0202	DNA-directed RNA polymerase subunit alpha	GTGATTGAAATCGAAAAGCCGAAAATTGAGACCGTTGATGTCAATGAAGAAGGAACCTATGGGAAATTCGTTGTTGAGCCTCTAGAGAGAGGATATGGCACGACGCTGGGGAACTCGCTTCGCCGCATCTTGTTATCCTCACTCCCGGGTGCAGCCGTCACATCGATTCAAATCGATGGCGTGCTTCATGAATTCTCCACGATTCCGGGTGTCATGGAAGACGTGACCGAGGTCATCCTGAACCTGAAAGCTTTGTCTCTGAAAATTCATTCCGATGAAGAGAAAGTGTTCGAGATTGATGCGGAGGGTGAAGGGGTTGTTACTGCTGGTGACATCCGTGCGGATAGTGATGTGGAGATTCTGAATCCGGATCTTCATATTGCGACGCTGGGCCCTGGTGCAAGACTTCATATGCGTATTTTTGCCAGTCGCGGTCGTGGCTATGTCCAGGCGGATCGGAACAAACGCGATGACCAGCCTATCGGCGTCATTCCCGTCGATTCGATCTACACTCCGATTAGCCGTGTTAACTACGGCGTGGAAAATACGCGTGTTGGCCAAGTAACCAACTACGACAAACTGACGCTCGAAATTTGGACGGATGGCAGCATCCGCCCAGAAGAAGCCGTTAGTCTCGGCGCGAAAATCTTGACTGAGCATCTGTTCCTCTTCGTGGGTCTGACCGACGAAGCGAAGGATGCGGAGATCATGGTCGAGAAAGAAGAAGACAAGAAAGAAAAAGTGCTTGAAATGACGATCGAAGAGCTGGATCTTTCCGTTCGTTCCTACAACTGCTTGAAACGTGCCGGCATTAATACGGTACAAGAGCTGACTACGAAAACCGAAGAGGATATGATGAAAGTCCGGAACCTCGGACGCAAATCCTTGGAGGAAGTTCAAGAGAAGCTCGAAGAGTTGGGCCTGGGACTTCGTACGGAAGAATAG	MIEIEKPKIETVDVNEEGTYGKFVVEPLERGYGTTLGNSLRRILLSSLPGAAVTSIQIDGVLHEFSTIPGVMEDVTEVILNLKALSLKIHSDEEKVFEIDAEGEGVVTAGDIRADSDVEILNPDLHIATLGPGARLHMRIFASRGRGYVQADRNKRDDQPIGVIPVDSIYTPISRVNYGVENTRVGQVTNYDKLTLEIWTDGSIRPEEAVSLGAKILTEHLFLFVGLTDEAKDAEIMVEKEEDKKEKVLEMTIEELDLSVRSYNCLKRAGINTVQELTTKTEEDMMKVRNLGRKSLEEVQEKLEELGLGLRTEE				NA	NA	NA	NA	NA
AK002_05703	396	rpsK		30S ribosomal protein S11	ATGGCTAAACCAAAAAAAGTCGTACGTACTAAACGTCGTGACCGCAAAAATATTGAAAGTGGCGTGGCTCATATCCGCTCCACGTTCAACAATACAATCGTAACGATTACGGATCCTCACGGAAACGCGATTTCTTGGGCAAGCTCCGGCGGCCTTGGATTTAAAGGTTCCCGTAAGTCGACCCCGTTCGCTGCGCAAATGGCTGCTGAAACAGCTGCCAAAGCGGCTATGGAACACGGTATGAAAGCGGTGGAAGTCATGGTTAAAGGTCCTGGTGCTGGTCGTGAAGCAGCAATTCGTTCCCTGCAAGCAGCAGGTCTCGAAGTTAACCTGATCAAAGACGTAACACCAATTCCACATAACGGATGCCGCCCACCAAAACGTCGTCGCGTATAA	MAKPKKVVRTKRRDRKNIESGVAHIRSTFNNTIVTITDPHGNAISWASSGGLGFKGSRKSTPFAAQMAAETAAKAAMEHGMKAVEVMVKGPGAGREAAIRSLQAAGLEVNLIKDVTPIPHNGCRPPKRRRV				NA	NA	NA	NA	NA
AK002_05704	369	rpsM	COG0099	30S ribosomal protein S13	ATGGCTCGTATAGCTGGTGTGGATTTGCCACGTGACAAACGCGTTGAGATCGCCTTGACTTACATTTTCGGAATCGGTAAAACGACTTCCCAGAAAGTATTGAAAGAAACTGGAATCAATGCAGACACTCGTGTCCGTGATTTGACAGAAGATGAAGTCAGCAAATTGCGCGAAACGATCGATGGTATGGTTAAGGTAGAAGGTGACCTGCGTCGTGAAATTTCCTTAAATATTAAACGTCTCACGGAGATCGGCTGCTACCGCGGTATTCGTCACCGTCGTGGATTGCCTGTTCGTGGTCAACGTACTAAAACGAATGCTCGTACACGTAAAGGTCCTCGTCGTACCGTAGCGAACAAGAAGAAATAA	MARIAGVDLPRDKRVEIALTYIFGIGKTTSQKVLKETGINADTRVRDLTEDEVSKLRETIDGMVKVEGDLRREISLNIKRLTEIGCYRGIRHRRGLPVRGQRTKTNARTRKGPRRTVANKKK				NA	NA	NA	NA	NA
AK002_05705	216	infA	COG0361	Translation initiation factor IF-1	GTGGCTAAAGAAGATGTCATTGAAGTCGAAGGAACGGTCATCGAGCCGTTGCCGAATGCTACCTTTAAAGTCGAGCTGGAGAATGGTCACCAGATTCTCGCTCATGTTTCCGGAAAGCTGCGGATGCACTTTATCCGTATCCTTACAGGAGACAAAGTGGTTGTTCAACTCTCGCCGTACGATTTAACCAAGGGTCGTATCACGTACCGTAAATAG	MAKEDVIEVEGTVIEPLPNATFKVELENGHQILAHVSGKLRMHFIRILTGDKVVVQLSPYDLTKGRITYRK				NA	NA	NA	NA	NA
AK002_05706	312			hypothetical protein	ATGACATTGAATCATGAAATCACGCTTCAACCCGGTCAGATTGTTAAGATACTGAAGGGCAGAGATGCCGGACAGTATGCCGTTATCGTTTCGATTGAGGACAGCAGGTTCGTGTGGATCGCGGATGGGGACAAACGCAAGTTTGACGGGGCCAAGAAGAAGAATGTTCTTCATCTTGAACCTCAATCCTACATTAGCAGTGAAGTGGTAAACAGTTTGCAAGAAAGCGGTCGGGTTACAAACGGTAAACTGCGTTTCGCACTTGGCCAATTTGTATCCGATAAATCCAAGGCAGATCAGAAAGGAGACTAA	MTLNHEITLQPGQIVKILKGRDAGQYAVIVSIEDSRFVWIADGDKRKFDGAKKKNVLHLEPQSYISSEVVNSLQESGRVTNGKLRFALGQFVSDKSKADQKGD				NA	NA	NA	NA	NA
AK002_05707	753	map_4	COG0024	Methionine aminopeptidase 1	ATGATCATTTGTAAATCCGAAACGGAACTGAGCTTGATGAGAGAAGCAGGAAGGATCGTGGCGGAATGCCACAAGCTCCTTGCCGCTCATGTTGAACCGGGCATTACGACCGGGGAACTGGACCTTATGGCCGACAAGTTCATTCGAAGCCAAGGCGCTGTGCCATCTTTTAAAGGCTACAACGGATTTCCTTCCAGCATTTGCGCATCAGTCAACGAAGAATTGGTGCATGGATTTCCAGGCAAACGCAAATTGATCGAGGGCGATATCGTTACGTTTGATATCGGCGCGCAATACCAGGGTTACCATGGTGACTCGGCATGGACCTACGCTGTAGGAGAAATTTCCGAAGAGGCCCAGCGTTTGCTGGACGTTACGGAAGGATCGCTCTATGCTGGACTTGCGCTAGTCAAACCCGATGTCCGCTTGTTTACAATCTCTCATGCCATTCAGCGTCATATCGAGGATGCAGGTTTCTCTGTCGTCCGGGAGTACGTTGGTCATGGCGTGGGTACCGATCTGCATGAGGATCCGCAAATTCCGAACTATGGCATCCCTGACCGCGGACCAAGACTCAAACCGGGCATGGTGCTCGCGATCGAGCCGATGGTCAATACCGGGAAACGGAATGTCAAGACGCTGGAAGACAACTGGACGGTTGTAACGGTTGACGGCTCACTATGTGCTCACTTCGAGCATACGGTAGCAGTCACGCCGGATGGCATGGAAATTTTGACGAAGCTGCCGGAATAG	MIICKSETELSLMREAGRIVAECHKLLAAHVEPGITTGELDLMADKFIRSQGAVPSFKGYNGFPSSICASVNEELVHGFPGKRKLIEGDIVTFDIGAQYQGYHGDSAWTYAVGEISEEAQRLLDVTEGSLYAGLALVKPDVRLFTISHAIQRHIEDAGFSVVREYVGHGVGTDLHEDPQIPNYGIPDRGPRLKPGMVLAIEPMVNTGKRNVKTLEDNWTVVTVDGSLCAHFEHTVAVTPDGMEILTKLPE	PGPT0020010_8571	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
AK002_05708	645	adk		Adenylate kinase	GTGAACATCTTATTCATGGGTCCTCCTGGGGCAGGAAAAGGAACGCAAGCAGAAAACATCGTGAATGAATTCGGTATTCCTCATATTTCTACAGGCGATGCATTTCGTCTCGCGATTAAACAAGGAACTCCCATCGGGATCAAAGCGAAGGAATTCATGGATCAGGGTCTGCTGGTACCCGATGACGTAACGATTGGTATTGTGGAAGAGCGTCTGCAGCAGTCCGATTGCGAAAAAGGTTTTTTATTGGACGGCTTTCCAAGAACCCTTTCGCAAGCGGAAGCGCTGGATGACATCCTCGCCCGCTTGAATACGGGTCTCGATCACGTCATCAACCTGAAAGTGGATCGGGAAAAGCTTCTGGCCCGCCTAACCGGCCGCCGGATTTGCAAAAACTGCGGTTCGACTTATCATGTGATCTTTAATCCTCCTAAACAGGAAGGCATTTGTGATAAATGCGGCGGCGAATTGTACCAGCGCTCCGATGATAACGAAGAGAGCGTCGGCATTCGTTTAGACGAATATATCAACAAAACAGCACCACTCCTCACGTTTTATGAGAACAAAGGTCTTTTGCGTCAAATCGATGGTGATCAGGAAATCGACGCGGTTTCATCACAAATTGCGTCTATACTGAGAGGTTAA	MNILFMGPPGAGKGTQAENIVNEFGIPHISTGDAFRLAIKQGTPIGIKAKEFMDQGLLVPDDVTIGIVEERLQQSDCEKGFLLDGFPRTLSQAEALDDILARLNTGLDHVINLKVDREKLLARLTGRRICKNCGSTYHVIFNPPKQEGICDKCGGELYQRSDDNEESVGIRLDEYINKTAPLLTFYENKGLLRQIDGDQEIDAVSSQIASILRG	PGPT0009040_4901	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
AK002_05709	1299	secY		Protein translocase subunit SecY	ATGTTTAAGACCCTGAAAAATATATGGCGTGTGGATGACCTTCGCAAGCGTATTTTGTTCACCTTATTCGTTCTGATCATCTTCCGTATCGGATCCTTTGTACCGGTTCCCGGTGTTAACAAGGATGTCTTTACCCAGACGAATCAGGCAGGCAATGAGTTGTTCGGTCTTCTTAACACGTTCTCGGGGGGCGCGTTATCGCAGTTTTCGATCTTCGCCCTTTCGATATTTCCATATATTACTTCGTCCATTATCGTGCAGTTGCTGTCGATGGACGTCATTCCAAAGTTTGCGGAATGGAACAAACAAGGGGAACACGGGAAGAAGCAGTTGGCTCAAATTACTCGTTATGGTACGGTAATACTGGGTCTGATTCAGGCGTTCGGTATGTCCATCGGGTTTAACCGCCTGTATGGCGCCGAAATGGTTCCTGGAGCAACCTTTATCGACTTCGTCGTGATCGCGATCGTTCTTACTGCAGGTACATCATTCTTGATGTGGCTCGGCGAACAGATTACGGAACGCGGAATCGGTAACGGTATTTCGATCATTATCTTTGCAGGTATCGCTGCTGGTATTCCGATGCACATTCGGACAACGATTGAATCGAACTTCATTCAGGATGGTCAGGTCTTCATGAATATTCTGAAGGGTGTCATCATCCTCCTGATTTTGGTTCTGATCATTACCGGTGTTGTATTCATTCAGCAAGGTATCCGTAAAATTCCGGTTCAATACGCGAAGCGTGTTGTAGGAAACAAAATGTACGGCGGACAGAACACACACATTCCGCTCAAGATTAACGGAGCAGGCGTTATTCCGGTAATCTTTGCGATGTCATTGCTGCAGTTCCCGGTTATCCTGGCCAGCTTCTGGGCACACCAGAATTGGGCGAAATGGATTACGGCGAACCTGGCTTATGACAGCCCGCTTGGAATGGTACTGTATGTACTCATGATCATTGGTTTCACGTTCTTCTACACCTTCGTGCAGATGAATCCGAACCAAATGGCTGATAATATGAAGAAGAACGGCGGCTATGTGCCGGGCATTCGTCCTGGTAAAGCTACCGAGAAGTATCTGACACGGGTTATGACCCGTCTGACCATGACAGGAGCTCTGTTCCTGGCCGTGATCTCCGTACTTCCGGTGTTCTTCGGATCACTTGCAGGTCTTCCTCGTACGGTTCAGATTGGTGGTACGTCCCTCTTGATCGTCGTCGGTGTTGCACTGGATACGATGAAGCAGATCGAAAGCCAACTGATCAAACGTCATTACAAAGGTTTTATCAATAAATAG	MFKTLKNIWRVDDLRKRILFTLFVLIIFRIGSFVPVPGVNKDVFTQTNQAGNELFGLLNTFSGGALSQFSIFALSIFPYITSSIIVQLLSMDVIPKFAEWNKQGEHGKKQLAQITRYGTVILGLIQAFGMSIGFNRLYGAEMVPGATFIDFVVIAIVLTAGTSFLMWLGEQITERGIGNGISIIIFAGIAAGIPMHIRTTIESNFIQDGQVFMNILKGVIILLILVLIITGVVFIQQGIRKIPVQYAKRVVGNKMYGGQNTHIPLKINGAGVIPVIFAMSLLQFPVILASFWAHQNWAKWITANLAYDSPLGMVLYVLMIIGFTFFYTFVQMNPNQMADNMKKNGGYVPGIRPGKATEKYLTRVMTRLTMTGALFLAVISVLPVFFGSLAGLPRTVQIGGTSLLIVVGVALDTMKQIESQLIKRHYKGFINK	PGPT0025725_3792	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
AK002_05710	441	rplO		50S ribosomal protein L15	ATGAAGTTACATGAGCTGAGCCCAGCACCTGGATCCCGCAAAGAGCGCAAGCGCGTTGGACGCGGTACTAGTAGCGGTACGGGTAAAACGTCGGGTCGCGGTCACAAAGGACAAAACTCTCGTTCCGGCGGTGGTGTACGTCCAGGCTTCGAAGGTGGACAGAACCCATTGTATCGTCGTCTTCCGAAGCGCGGTTTCGTAAACCCAACTCGGAAAGAGTACGCGATTGTGAACATCGAAGAACTTAACAGCTTTGCAGCAGGTACTGAAGTGACTCCAGAAGTTTTGGTTGAGAGCGGTATTGTTAACAATACAAAGAGCGGAATCAAAATTCTTGGCAACGGTGAAGTTACCGTTTCTTTGACTGTAAAAGCTAATAAGTTTTCTCAATCTGCGGTAGAGAAGATCGAGGCTGCCGGCGGTAAAACCGAGGTGATCTAA	MKLHELSPAPGSRKERKRVGRGTSSGTGKTSGRGHKGQNSRSGGGVRPGFEGGQNPLYRRLPKRGFVNPTRKEYAIVNIEELNSFAAGTEVTPEVLVESGIVNNTKSGIKILGNGEVTVSLTVKANKFSQSAVEKIEAAGGKTEVI				NA	NA	NA	NA	NA
AK002_05711	186	rpmD	COG1841	50S ribosomal protein L30	ATGGCTAAACTTGAAATCACCCTCGTACGCAGCGTGATTGGTCGTCCAGAGGATCAGCGTGCAACCGTGAAAACACTCGGACTTCGCAAAATCAACCATTCCGTGGTTCAAAGCGACAATGCTGCAATTCGCGGAATGATCAAGAAAGTAAATCACCTGGTTTCTGTTAAAGAAATCGAAGGTTAA	MAKLEITLVRSVIGRPEDQRATVKTLGLRKINHSVVQSDNAAIRGMIKKVNHLVSVKEIEG				NA	NA	NA	NA	NA
AK002_05712	498	rpsE	COG0098	30S ribosomal protein S5	TTGCGTGTAGATCCTAACACTTTAGAACTGACTGAAAGAGTAGTAAACATTAACCGCGTTGCTAAAGTTGTAAAAGGCGGACGTCGCTTTAGCTTTAGCGCACTGGTAGTTGTCGGTGATGGCAAAGGTTGGGTAGGAGCAGGTATCGGTAAAGCAGGCGAAGTACCGGATGCAATCCGCAAAGGTATTGAAGATGCTAAGAAAAACCTGATTCACATTCCACTTGTTGGAACCACTATTCCTCACCTCGTAACAGGACACTTCGGAGCAGGCCGCGTATTGTTGAAGCCGGCATCTGAAGGTACTGGGGTTATCGCTGGCGGACCGGTTCGTGCAGTACTCGAGCTGGCTGGCGTAGGCGACATTTTGACAAAATCTCTAGGTTCTTCGAACTCCATGAACATGGTCAATGCGACTTTGGAAGGCTTGTCCCGCCTGAAGCGTGTTGAAGATGTTGCCAAGCTTCGCGGCAAATCCGTCGAAGAGCTGTTGGGTTAA	MRVDPNTLELTERVVNINRVAKVVKGGRRFSFSALVVVGDGKGWVGAGIGKAGEVPDAIRKGIEDAKKNLIHIPLVGTTIPHLVTGHFGAGRVLLKPASEGTGVIAGGPVRAVLELAGVGDILTKSLGSSNSMNMVNATLEGLSRLKRVEDVAKLRGKSVEELLG				NA	NA	NA	NA	NA
AK002_05713	369	rplR	COG0256	50S ribosomal protein L18	ATGATCACGAAACAAGACAAGAACAAAGCTCGTCTGAAAAGACACCTGCGTGTTCGTAAGAAAATCCAAGGCACTGCAGAACGTCCACGTCTGAACGTGTTCCGTTCTTCGAAACACATCTATGCTCAATTGATCGACGACGTGGCTGGCGTGACTTTGGCATCAGCTTCTACGCTGGACAAAGAACTGGTTAGCGACATCAAGAACGGCGGAAGCGTTGAATCCGCTCGTAAAGTCGGCGAACTCGTTGCAAAACGCGCAGCAGACAAAGGTTATAAATCGATCGTATTCGATCGTGGTGGATATTTGTACCATGGACGTATTCAAGCACTTGCAGAGGCAGCTCGCGAAGCAGGCCTTGAATTCTAA	MITKQDKNKARLKRHLRVRKKIQGTAERPRLNVFRSSKHIYAQLIDDVAGVTLASASTLDKELVSDIKNGGSVESARKVGELVAKRAADKGYKSIVFDRGGYLYHGRIQALAEAAREAGLEF				NA	NA	NA	NA	NA
AK002_05714	543	rplF	COG0097	50S ribosomal protein L6	ATGTCCCGTATTGGTCGTAAACCAATTGCTATTCCTAACGGTGTGGAAGTCACACTGGATAACACTGTAATCACTGTAAAAGGACCTAAAGGTACCTTGACTCGTGAATTGCATAAAGACATGCAAATTACAGTAGAAAACAACGAGATCAATGTTGTTCGTCCTTCCGACAACAAAACACATCGCTCTCTTCACGGCACGACCCGCAGCGTTGTCTCGAATATGGTCAACGGTGTAACTGAAGGATTCTCGAAAAACCTTGAGTTGGTGGGTGTCGGGTACCGTGCAAGCAAAACCGGAGATAAAATCGTTCTGAACGTGGGTTACTCCCACCCAGTTGAAATTACACCGGAAGCTGGTATCGAATTCGATGTACCGTCAAACACAAAAATCACCGTTCGCGGTATCGATAAAGAGCGCGTAGGTGCATACGCTGCTAAGATCCGTTCCGTACGTGAGCCTGAGCCTTATAAAGGTAAAGGGATTAAATACGAAGGTGAACGCATTATCCGTAAGGAAGGTAAAGCTGGTAAGAAGAAGTAA	MSRIGRKPIAIPNGVEVTLDNTVITVKGPKGTLTRELHKDMQITVENNEINVVRPSDNKTHRSLHGTTRSVVSNMVNGVTEGFSKNLELVGVGYRASKTGDKIVLNVGYSHPVEITPEAGIEFDVPSNTKITVRGIDKERVGAYAAKIRSVREPEPYKGKGIKYEGERIIRKEGKAGKKK				NA	NA	NA	NA	NA
AK002_05715	399	rpsH	COG0096	30S ribosomal protein S8	ATGACTATGTCCGATCCAATTGCAGATATGCTAACTCGTATTCGTAACGCGAACACGGTTCGCCACGAAACAGTAGAAATGCCTGCTTCGACGATGAAAAAACAAATCGCTGACATCTTGAAGCGTGAAGGCTTCATCCGTGATGCAGAGTTTGTGGAAGACAATAAACAAGGGATCATTCGTGTATTCCTGAAATATGGTTCCAACAACGAGCGCGTAATCACAGGTCTGAAAAGAATCAGCAAACCAGGTCTTCGCGTTTACACGAAGAGCAACGAAGTACCTCGCGTACTTGGTGGTTTGGGTATTGCGATCATCTCCACGTCTAAGGGAGTTATGACCGACAAAGAAGCTCGTCAATCCAAAGCTGGCGGAGAAGTTCTCTGCTACGTATGGTAA	MTMSDPIADMLTRIRNANTVRHETVEMPASTMKKQIADILKREGFIRDAEFVEDNKQGIIRVFLKYGSNNERVITGLKRISKPGLRVYTKSNEVPRVLGGLGIAIISTSKGVMTDKEARQSKAGGEVLCYVW				NA	NA	NA	NA	NA
AK002_05716	543	rplE		50S ribosomal protein L5	ATGGCAGCAAGAATGAAAGAGCGTTTTTTGAACGAAGTAACTCCTGCTCTGATGCAGAAGTTTAGCTATAAGACAGTAATGCAAGTACCAAAAATCGAGAAGGTTGTCATCAACATGGGTGTGGGTGACGCTGTAGCCAACTCGAAAGTGCTTGATTCCGCTGTGAACGACATGCAGCTGATTGCTGGTCAAAAACCGGTTATCACCCGTGCAAAGAAATCCATCGCGGGATTCAAACTGCGTGAGAACATGCCAATCGGTGTGAAGGTAACGCTGCGCGGTGAGCGTATGTACTACTTCCTCGACAAGCTGTTCAACGTTACACTCCCACGTGTACGTGACTTCCAAGGCGTGTCCACCAAAGCATTTGACGGACGCGGTAACTATACGCTCGGTCTGAAAGAGCAGCTCATTTTCCCTGAAATTGAGTATGACAAAGTGGATAAGGTTCGCGGTATGGACATCGTTATCGTAACGACTGCCAAAACCGACGAAGAATCCCGTGAACTGCTTGCTCAACTGGGCATGCCTTTCGCGAAATAA	MAARMKERFLNEVTPALMQKFSYKTVMQVPKIEKVVINMGVGDAVANSKVLDSAVNDMQLIAGQKPVITRAKKSIAGFKLRENMPIGVKVTLRGERMYYFLDKLFNVTLPRVRDFQGVSTKAFDGRGNYTLGLKEQLIFPEIEYDKVDKVRGMDIVIVTTAKTDEESRELLAQLGMPFAK				NA	NA	NA	NA	NA
AK002_05717	357	rplX	COG0198	50S ribosomal protein L24	ATGCCTAAAGTGAAAAAAGTTCTGGAATCCCATAGCAACAAACTGCACGTGAAAAAAGATGATACGGTTATCGTCATCAGCGGTAAAGACAAAGGCAAAAAAGGCCGTGTCATCGCAGCGTACCCTCGTGAAAATCGTGTTTTGGTTGAAGGTGTGAACATGATCAAGAAGCACCAGAAGCCAAACCAAATGAACCCACAAGGCGGTATCATCGAGAAGGAAGCTCCGATCCATGTATCGAACGTTATGCACGTTGATCCGAAGAGCGGAAAAGTAACTCGTATCGGTTACAAAGTACTGGACAACGGTAAAAAAGTTCGCGTAGCTAAAAGATCCGGAGAAGTTATCGATAAATAA	MPKVKKVLESHSNKLHVKKDDTVIVISGKDKGKKGRVIAAYPRENRVLVEGVNMIKKHQKPNQMNPQGGIIEKEAPIHVSNVMHVDPKSGKVTRIGYKVLDNGKKVRVAKRSGEVIDK				NA	NA	NA	NA	NA
AK002_05718	369	rplN	COG0093	50S ribosomal protein L14	ATGATTCAACCATTTACACGTTTAGCTGTTGCTGACAACTCCGGTGCGAAGGAACTGATGTGTATCCGCGTATTGGGTGGTACTGGTCGTCGTACAGCTCAAATCGGTGATTTGATCGTATGTTCCGTCAAACAAGCAACACCAGGCGGCGTTGTCAAAAAGGGTGATGTAGTAAGAGCGGTAGTCGTTCGCACGAAGCGTTCTGTACGTCGTAAAGACGGATCTTACATCTCATTTGACGAGAATGCAGCTGTTGTTGTTAAAGACGACAGAAGCCCACGCGGAACTCGTATTTTCGGACCAGTTGCTCGCGAACTTCGCGAAAGAGACTACATGAAAATCGTTTCCTTGGCTCCGGAAGTAATCTAA	MIQPFTRLAVADNSGAKELMCIRVLGGTGRRTAQIGDLIVCSVKQATPGGVVKKGDVVRAVVVRTKRSVRRKDGSYISFDENAAVVVKDDRSPRGTRIFGPVARELRERDYMKIVSLAPEVI				NA	NA	NA	NA	NA
AK002_05719	267	rpsQ	COG0186	30S ribosomal protein S17	ATGAGCGAAGAACGCAATGCTCGTAAAGTGCAAATCGGTAAAGTTGTCAGCGATAAAATGGATAAAACCATTGTTGTAGCTGTTGAAACTTATAAGAAGCATGACTTGTATCACAAACGCATTAAATACACGAAAAAATTTAAAGCGCATGATGAGAACAATCAAGCTCAAATCGGAGATACCGTTAAAATCATGGAAACTCGTCCTCTCTCCAAAGACAAGCGCTGGAGACTGGTAGAAGTGGTTGAAAAAGCGGTTATCATCTAA	MSEERNARKVQIGKVVSDKMDKTIVVAVETYKKHDLYHKRIKYTKKFKAHDENNQAQIGDTVKIMETRPLSKDKRWRLVEVVEKAVII				NA	NA	NA	NA	NA
AK002_05720	198	rpmC	COG0255	50S ribosomal protein L29	ATGAAAGCTAATGAACTGCGCAACTTAACCACTGCAGAAATCGAGCAAAAAATCGCCGGATTTAAAGAGGAACTCTTTAACCTCCGTTTTCAATTGGCCACTGGCCAGCTTGATAACCCGACTCGGATCCGTGACGTTCGCAAAGAAATAGCTCGTGCTAAAACCGTTATCCGTGAAAGAGAACTTGGGATTAGTTAA	MKANELRNLTTAEIEQKIAGFKEELFNLRFQLATGQLDNPTRIRDVRKEIARAKTVIRERELGIS				NA	NA	NA	NA	NA
AK002_05721	435	rplP	COG0197	50S ribosomal protein L16	ATGTTGGTACCAAAACGTGTAAAACACCGCAAACAACAGCGCGGCCATATGAGAGGCCAAGCGAAAGGCGGTACTGAACTGAACTTCGGCGAATTCGGTCTGCAAGCTACAGAACCAGGCTGGATCACGAACCGTCAGATCGAAGCTGCTCGTATCGCGATGACTCGTTACATCCGTCGTGGCGGTAAAGTATGGATCAAGATTTTCCCAGATAAGCCGATTACTCAAAAGCCTCTCGAAGTGCGGATGGGTAGCGGTAAAGGTAACGTTGAGAAATGGGTTGCCGTTGTAAAACCAGGCAAGATCATGTTTGAACTTGGAGGCGTGTCCGAGGAAATCGCCCGCGAAGCGATGCGTCTCGCCGCTCACAAGCTGCCTGTAAAAACGAAGTTTGTGAAACGAGAAGAAGTGGGTGGTGAAGCAAATGAAAGCTAA	MLVPKRVKHRKQQRGHMRGQAKGGTELNFGEFGLQATEPGWITNRQIEAARIAMTRYIRRGGKVWIKIFPDKPITQKPLEVRMGSGKGNVEKWVAVVKPGKIMFELGGVSEEIAREAMRLAAHKLPVKTKFVKREEVGGEANES				NA	NA	NA	NA	NA
AK002_05722	666	rpsC		30S ribosomal protein S3	GTGGGCCAAAAGGTAAATCCAGTAGGACTCCGTATCGGTATTATCCGTGATTGGGAATCCAAATGGTATGCAGGCAAAGATTTCGGTGATCTTTTGCTGGAAGACGTGAAAATCCGTGAATACCTGAAAAATAAATTGAAAGACTCCGCTGTATCCCGTATCGAAATCGAGAGAGCGGCTAATCGTGTGAACGTGACGATCCACACTGCGAAGCCAGGTATGGTTATCGGTAAAGGTGGTTCCGAAGTAGAAGTACTGCGCGGACAAGTGACTAAAATCGCCGGCGGTAAAAAAGTTCACATCAACATTTCTGAAATCAAAAACCCTGAACTGGACGCAATTCTTGTTGCTGAAAGCATTGCACAACAGCTGGAACGTCGTGTATCTTTCCGTCGTGCACTGAAACAAGCGATTCAAAGAACTATGCGCTCTGGAGCGAAAGGGATTAAAACATCGGTCAGCGGACGTCTTGGCGGAGCCGAGATTGCTCGTACGGAAGGCTACAGTGAAGGAACTGTTCCACTTCATACGCTTCGTGCAGACATCGACTATGGTACAGCAGAAGCGCATACGACTTACGGCCGTATCGGCGTGAAAGTATGGATCTATCGTGGAGAGGTTCTTCCTACGGCTAAGAAACAAGCTGCTCAGGAAGGAGGCAACTAA	MGQKVNPVGLRIGIIRDWESKWYAGKDFGDLLLEDVKIREYLKNKLKDSAVSRIEIERAANRVNVTIHTAKPGMVIGKGGSEVEVLRGQVTKIAGGKKVHINISEIKNPELDAILVAESIAQQLERRVSFRRALKQAIQRTMRSGAKGIKTSVSGRLGGAEIARTEGYSEGTVPLHTLRADIDYGTAEAHTTYGRIGVKVWIYRGEVLPTAKKQAAQEGGN				NA	NA	NA	NA	NA
AK002_05723	333	rplV	COG0091	50S ribosomal protein L22	ATGGAAGCAAAAGCACATGCTAGATCGATTCGTATTGCTCCTCGTAAAGCTCAACTCGTTGTTGACTTGATCCGCGGTAAGCAAGTGGGCGAAGCGATCGCAATTCTTCGTCACACTCCGAAAGCTGCATCTCCGGTTGTTGAGAAGCTTTTGAACTCGGCTATCGCAAACGCTGAGCATAACTACTCTTTGGATGTAACTAAATTGGTTGTGACGCAAGCTTATGTCAACCAGGGACCGACTATGAAACGTTTCCGCCCTCGTGCGATGGGACGTGCAAGCCGGATCAATAAACGCACCAGCCACATTACTTTGGTGGTAGCTGAAAAATAA	MEAKAHARSIRIAPRKAQLVVDLIRGKQVGEAIAILRHTPKAASPVVEKLLNSAIANAEHNYSLDVTKLVVTQAYVNQGPTMKRFRPRAMGRASRINKRTSHITLVVAEK				NA	NA	NA	NA	NA
AK002_05724	276	rpsS	COG0185	30S ribosomal protein S19	ATGAGCCGTAGTTTGAAAAAAGGACCTTTTATTGACGGATATCTGCTCAAAAAAGTGGAGGATATGAACGCCGCAAGCAAAAAGGCTGTGATCAAAACCTGGTCCCGCCGCTCCACTATTTTCCCGCAATTTATCGGTCACACGTTCGGTGTATACGATGGCCGTAAACATGTACCTGTATATGTAACTGAGGACATGGTAGGACACAAGTTGGGTGAGTTCGCTCCAACCCGTACTTACAAAGGTCATGAAGACGATAAGAAAACAAGAAGATAA	MSRSLKKGPFIDGYLLKKVEDMNAASKKAVIKTWSRRSTIFPQFIGHTFGVYDGRKHVPVYVTEDMVGHKLGEFAPTRTYKGHEDDKKTRR				NA	NA	NA	NA	NA
AK002_05725	831	rplB		50S ribosomal protein L2	GTGCCTATTAAAAAGTATAAACCGACATCCCCGGCTCGACGCAACATGTCCGTGTCGACTTTCGAAGAAATCACCACGAATCAGCCGGAGAAATCGTTGCTGGCTCCACTGAGCAAAACAGCTGGCCGCAACAACCAAGGTAAAATTACGGTTCGTCACCATGGCGGCGGACACAAACGTAAATACCGTATCATCGACTTCAAACGGAATAAAGACGGCATTCCAGGTCGCGTTGCTACAATCGAATACGACCCGAACCGTACTTCCAACATCGCTCTGATTCACTATGTAGATGGTGAAAAGCGTTATATCATCGCTCCTAAAGGTCTGAAAGTTGGAGACCAAGTAGTATCTGGAGTAGGTGCTGACATCAAGATCGGTAACGCGCTTCCTCTGGAAAACATTCCAGTAGGTACAGTTATCCACAACATCGAATTGAAACCAGGCAAAGGCGGACAATTGGTTCGTGCTGCTGGTACAGAAGCTCAGCTTCTCGGTAAAGAAGACAAGTACGTAACGGTTCGTCTTTCTTCCGGTGAAGTTCGCCGCATCCTGAAAGTTTGCCGTGCAACCATCGGTTCTGTGGGTAACCAAGACCATGAGTTGATCAAAATCGGTAAAGCAGGCCGCAGCCGCTGGCTCGGACAACGTCCTGAAGTACGCGGTGTCGTCATGAACCCTAACGATCACCCTCACGGTGGTGGTGAAGGCCGCGCTCCAATCGGACGTAAGTCTCCTATGTCTCCATGGGGTAAACCAACCCTTGGTGCCAAGACTCGTAAAAAAGGCAAAGCTTCTGACAAATATATCGTTCGCCGCCGCACGAAGTAA	MPIKKYKPTSPARRNMSVSTFEEITTNQPEKSLLAPLSKTAGRNNQGKITVRHHGGGHKRKYRIIDFKRNKDGIPGRVATIEYDPNRTSNIALIHYVDGEKRYIIAPKGLKVGDQVVSGVGADIKIGNALPLENIPVGTVIHNIELKPGKGGQLVRAAGTEAQLLGKEDKYVTVRLSSGEVRRILKVCRATIGSVGNQDHELIKIGKAGRSRWLGQRPEVRGVVMNPNDHPHGGGEGRAPIGRKSPMSPWGKPTLGAKTRKKGKASDKYIVRRRTK				NA	NA	NA	NA	NA
AK002_05726	294	rplW	COG0089	50S ribosomal protein L23	ATGAAAGACCCACGCGATATAATCAAGCGCCCGGTGATCACGGAACGTACGGCTGACTACATGGCAGAGCTGAAATATGCTTTTGAAGTGGATATCCGTGCTAACAAGACCGAGATCAAGCAAGCTGTCGAATCTATTTTTAAAGTAAAAGTATCGAACGTGAATACGATGCGTGTTCCTGCTAAACCAAAGCGTTACGGCCGTTATTCCGGTTACACAACCGAATGGAAAAAGGCAATCGTGACTTTGGCACCAGACAGCAAACCGCTCGAGTTCTTTGAATCGGTTGAATAA	MKDPRDIIKRPVITERTADYMAELKYAFEVDIRANKTEIKQAVESIFKVKVSNVNTMRVPAKPKRYGRYSGYTTEWKKAIVTLAPDSKPLEFFESVE				NA	NA	NA	NA	NA
AK002_05727	624	rplD		50S ribosomal protein L4	ATGCCTAAAGTAGCACTTTATAATGTCAGCGGTAGCCAGGTTGGCGAAGTAGAATTGAATGAAGCTGTATTCGGCATCGAGCCGAACGCACACGTACTGCACAGCGCAGTATTGCTGCAGCGCGCTTCCCTTCGTCGTGGTACCCACAAAGTAAAAGGACGTTCTGAAGTACGCGGCGGCGGACGTAAGCCTTGGAAACAAAAAGGTACCGGCCGTGCTCGTCAAGGTTCGATCCGTTCTCCACAATGGAAAGGCGGCGGCGTGGTATTTGGACCGACTCCGCGCAGCTACACGTTTAAACTTCCTAAGAAAGTTCGTCGTTTGGCTATCAAATCCGCTTTGTCTTCCAAAGTGATTGACAACGCAATTATCGTATTGGATCAACTGACGCTGAACACGCCGAAAACGAAAGAGTTTGCTAACATCCTTAGCAACCTGAAAGTAGGCCGTAAAGCTCTGATCGTTGCTCCAAGCTATGATGATAATGTAGCCCTTTCCGCACGCAATATTCCTGGTGTGAAATTCGTAGCGGCTGACGGCATTAATGTTCTTGACGTACTGTCGTACGATCAACTGATCATTACGAAGGAAGCAGTTCAGAAGGTAGAGGAGGTGCTCGCGTAA	MPKVALYNVSGSQVGEVELNEAVFGIEPNAHVLHSAVLLQRASLRRGTHKVKGRSEVRGGGRKPWKQKGTGRARQGSIRSPQWKGGGVVFGPTPRSYTFKLPKKVRRLAIKSALSSKVIDNAIIVLDQLTLNTPKTKEFANILSNLKVGRKALIVAPSYDDNVALSARNIPGVKFVAADGINVLDVLSYDQLIITKEAVQKVEEVLA				NA	NA	NA	NA	NA
AK002_05728	624	rplC	COG0087	50S ribosomal protein L3	ATGAAAGGTATCTTAGGTAGAAAGCTCGGAATGACTCAAGTATTTACCCCTGAGGGTGTTGTAATTCCTGTAACGGTTATCGAAGCAGGTCCTTGTGTTGTTCTTCAAAAGAAAGATCTGGAAAACGACGGATACGAAGCGATCCAAGTTGGTTTCTCCGATAAGAAAGAGAACAGATCTAACAAACCAGAAGCAGGCCATGCGAAAAAAGCAAACACTGCGCCTAAGCGCTACGTTCGCGAAATTCGCGGTGTTGACCTCGCGAGTGTCGAGGTTGGACAAGAGCTGAAGGCTGATGTCTTCGCAGAAGGCGAATTTGTTGACGTAACGGGTATTTCCAAAGGTAAAGGATTCCAAGGCGTAATCAAGCGTTGGGGCCAAAGCCGCGGACCAATGTCTCACGGTTCCCGTTATCACCGTAGACCAGGTTCCATGGGTTCGATCCAGGCAAACCGTGTTCCTAAAGGAAAGCGTCTGCCAGGTCACATGGGCAATGAGACAGTTACGATCCAAAAGCTCGAAGTTGTTAAAGTCGACGCAGAGCGTAACGTAATCCTTGTTAAAGGCTCCATTCCAGGGCCTAAAAAAGGTTTCGTTCAAATCAAAGAAACGGTGAAGAAATAA	MKGILGRKLGMTQVFTPEGVVIPVTVIEAGPCVVLQKKDLENDGYEAIQVGFSDKKENRSNKPEAGHAKKANTAPKRYVREIRGVDLASVEVGQELKADVFAEGEFVDVTGISKGKGFQGVIKRWGQSRGPMSHGSRYHRRPGSMGSIQANRVPKGKRLPGHMGNETVTIQKLEVVKVDAERNVILVKGSIPGPKKGFVQIKETVKK				NA	NA	NA	NA	NA
AK002_05729	309	rpsJ	COG0051	30S ribosomal protein S10	ATGGCAAAGCAAAAAATTCGTATTCGCTTGAAAGCATACGACCACAGAGTTCTTGATCAATCCGCTGAGAAAATTGTTGAGACAGCAAAACGTTCGGGTGCTGGTGTATCCGGTCCGATCCCGCTTCCAACTGAGAAACAAGTAATTACCATTCTCCGTGCGGTGCACAAGTATAAGGATTCTCGGGAACAGTTCGAAATGCGTACACATAAACGCTTGATCGACATCGTGAACCCGACTCCACAAACTGTGGATGCCTTGATGCGCTTGGACCTGCCGTCCGGTGTAGATATCGAAATCAAACTGTAA	MAKQKIRIRLKAYDHRVLDQSAEKIVETAKRSGAGVSGPIPLPTEKQVITILRAVHKYKDSREQFEMRTHKRLIDIVNPTPQTVDALMRLDLPSGVDIEIKL	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
AK002_05730	120			hypothetical protein	ATGATGAGCGCGGAGAAAGAAATGAAGCTGCTCTCCATGACGATCGGAAGCATCCGGGAAGCCACGTCCGAAGCTGCGGTTTCTGCCGAAAATTTCAAGGAAAGCACGGAGCGAATGTAA	MMSAEKEMKLLSMTIGSIREATSEAAVSAENFKESTERM	PGPT0015705_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015705-hemAT-K06595	NA	NA
AK002_05731	315	hemAT_2	COG0840	Heme-based aerotactic transducer HemAT	GTGAGTGTTCAGGAAATAGCCTCCCAGATCAAGCTGCTTTCCTTAAATGCCACCATTGAAGCAGCACGCGCCGGAGAGCATGGGAAAGGTTTTGCCGTTATAGCCCAAGAGGTAAGCCGCCTGTCGGAGGACACGAGGACGACCGTGAACCGAATTGCCGGTATCGTATCCAAGTCGAGAGCCAACACGACGGAAGTGGTAGAATCTATTAATCAGGTTCAACAGCTGACGAAGCAAGGGAAGAGACAATCCGAGGAATCCAGCAAGCTGTTCTCCAGCATTCTGATGTCGTACAGTCCAGTGCAGATCGAATGA	MSVQEIASQIKLLSLNATIEAARAGEHGKGFAVIAQEVSRLSEDTRTTVNRIAGIVSKSRANTTEVVESINQVQQLTKQGKRQSEESSKLFSSILMSYSPVQIE	PGPT0015705_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	METHYL-ACCEPTING_CHEMOTAXIS_PROTEINS,PGPT0015705-hemAT-K06595	NA	NA
AK002_05732	1191	tuf	COG0050	Elongation factor Tu	ATGGCAAAGGCTAAATACGAACGTACGAAACCCCATGTTAACATCGGTACTATCGGTCACGTTGACCATGGTAAAACAACTTTGACTGCTGCAATTACATCTGTATTGTCCAAAACTTACGGTGGCGCAGCAATGTCCTTCGATCAAATCGACAAAGCTCCAGAAGAGCGCGAACGCGGTATCACAATCTCTACTTCCCACGTAGAGTATGAAACTGATGCTCGTCACTATGCACACGTTGACTGCCCAGGTCACGCTGACTATGTTAAAAACATGATCACTGGTGCTGCTCAAATGGACGGAGCAATCCTGGTTGTATCCGCAGCTGACGGCCCAATGCCGCAAACTCGCGAGCACATCCTGTTGTCCCGCCAAGTAGGCGTTCCTTACATCGTTGTATTCTTGAACAAATGCGACATGGTTGAAGACGAAGAGCTCTTGGAATTGGTTGAAATGGAAGTTCGCGACCTTCTGAGCGAGTACGACTTCCCAGGCGACGACACTCCGATCACTCGTGGTTCCGCTCGTGAAGCTCTGCAAAACCCAGAAGGCGAATGGGCACAAAAAATCGTTGAAATGTTCAAAACAATCGACGAGTACATCCCATTGCCTGAGCGCGACACTGACAAGCCTTTCTTGATGCCTGTCGAGGACGTATTCTCCATCACTGGTCGTGGTACCGTTGCTACAGGTCGTGTAGAGCGTGGTACGATCAAAGTTGGTGACGAGATCGAAATCGTTGGTATCGCTGAAGAAACTAAAAAATCCGTTGTTACGGGCGTTGAAATGTTCCGTAAATTGCTGGATTCCGCACAAGCTGGTGACAACATCGGTGCATTGCTTCGTGGTGTTGAGCGTACTCAAATCGAGCGCGGTCAAGTACTTGCTAAGCCTGCTTCCGTTAAACCACACACTGAGTTCACAGCTCAAGTATACGTACTGAGCAAAGAAGAAGGCGGACGTCATAAGCCTTTCTTCACTGGCTACCGTCCACAGTTCTACTTCCGTACTACGGACGTAACTGGTGTGATCAACTTGCCAGAAGGTTCTGAAATGGTTATGCCTGGTGATAACATCACTGTAACGGTTAACCTGATCAGCCCAATCGCGATCGAAGAAGGAACTAAGTTCTCCATTCGTGAAGGCGGCCGTACCGTAGGTGCTGGTTCCGTTGCTTCCATCATTAAATAA	MAKAKYERTKPHVNIGTIGHVDHGKTTLTAAITSVLSKTYGGAAMSFDQIDKAPEERERGITISTSHVEYETDARHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLSRQVGVPYIVVFLNKCDMVEDEELLELVEMEVRDLLSEYDFPGDDTPITRGSAREALQNPEGEWAQKIVEMFKTIDEYIPLPERDTDKPFLMPVEDVFSITGRGTVATGRVERGTIKVGDEIEIVGIAEETKKSVVTGVEMFRKLLDSAQAGDNIGALLRGVERTQIERGQVLAKPASVKPHTEFTAQVYVLSKEEGGRHKPFFTGYRPQFYFRTTDVTGVINLPEGSEMVMPGDNITVTVNLISPIAIEEGTKFSIREGGRTVGAGSVASIIK	PGPT0015245_3653	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
AK002_05733	2082	fusA_1	COG0480	Elongation factor G	ATGGCGACAAGAGAGTTCTCCTTGAAAAATACACGTAATATCGGGATCATGGCGCATATTGACGCTGGTAAAACGACCACGACAGAGCGGATTTTGTTCTATACAGGCCGTACGCACAAAATCGGGGAAGTTCACGAGGGTGCAGCTACAATGGACTGGATGGAACAGGAGCAGGAGCGCGGTATCACGATTACGTCCGCTGCGACTACCGCTTCTTGGAAGGGTCATCGCGTTAATATTATCGACACCCCGGGGCACGTTGACTTCACAGTAGAAGTTGAACGTTCCCTTCGTGTATTGGATGGGGCAGTAGGTGTATTCAGTGCGAAAGAGGGCGTTGAACCTCAGTCGGAGACTGTTTGGAGACAAGCAGACCGTTACGGAGTTCCGCGGATCGCATACGTAAACAAAATGGATATTATCGGTGCCGACTACTTGAACGTAGTTAAAGATATGAGAGAGCGCCTGCAGGCGAATGCGGTAGCAATTCAGCTTCCGATCGGTGCAGAGAACGATTTCATTGGCATCATCGATATTATCGAGGAAAAAGCTTATATGTATAAGGATGACCTCGGTCAAAATATCGAAGAAACCGAAATTCCAGCAGAATTCAAGGATCAAGTGGAAGAGCTTCGCAACGAGTTGGTTGAGAAGGTAGCAGAACTTGACGAAGACTTGACAATGAAATATCTTGAAGGTGAAGAAATCACCATCGCTGAGTTGAAAGCTGCTCTGCGTAAAGGTGTTGTCGAAGTTAAGATCTTCCCGGTTATCTGTGGATCTTCTTACCGTAACAAAGGCGTTCAGTTGATGCTTGATGCCGTAATCGATTATTTGCCGGCTCCAACTGACGTTCCAGACATCAAGGGTACCCTTGAAGACGGAACTGAAGCTATTCGGCATTCTTCCGATGAGGAGCCGTTCTCGGCTTTGGCATTCAAAATCGCAACCGACCCTTACGTTGGTAAGCTGACATTCTTCCGCGTATATTCCGGCGTACTGCAATCCGGTTCTTACGTACTGAATGCAACAAAAGGCAAGCGTGAGCGCATTGGTCGTATCCTTCAAATGCATGCGAACAGCCGTCAAGAAATTTCCGAAGTATTTGCCGGAGATATCGCAGCTGCCGTAGGTTTGAAAGATACGGGCACAGGTGATACACTATGTGATGAGAAAAACCCGGTTATCCTGGAGTCCATGAACTTCCCTGATCCGGTTATCGAAATCGCAGTTGAGCCTAAAACAAAAGCTGACCAAGATAAAATGGGCGTGGCTCTCGGTAAGTTGACGGAAGAGGATCCAACTCTTCGTGCGCATACCGATGAAGAAACTGGCCAAACGATCTTGGCAGGTATGGGTGAGCTTCACTTGGACATCATCATTGACCGTATGCGTCGTGAGTTCAAGGTAGAAACCAACGTGGGTAAACCACAGGTAGCTTACCGCGAAACATTCCGTGCGCCAGCTCGCGTTGAAGGTAAATTCGTTCGTCAGTCCGGTGGTCGTGGTCAATACGGTCACGTATGGGTTGAGTTCGAACCTCTGGAACCTGGTAGCGGTAACCAATTCGACAGCAAGGTTGTCGGTGGTTCTGTACCAAGAGAATACATTGGTCCTGCACAACAAGGTATTGAAGAGCAAATGAAGAACGGTGTACTTGCCGGCTTCCCGCTTGTTGACGTTAAAGCAACCATCGTCGACGGTTCGTACCATGATGTTGACTCCAATGAAATGGCGTTTAAAATCGCTGGTTCCATGGCTCTGAAAGCAGCTAAAGACAAGTGTAAGCCTGTCCTGCTCGAGCCAATCATGAAAGTTGAAGTTACCGTGCCTGAGGAATACATGGGCGACGTAATGGGTATGCTGAACTCCCGCCGTGGACGTATCGAAGGTATGGACTCCCGTGGTGGTACTCAAATTATCCGTGCGAAAGTGCCTCTTTCCGAAATGTTCGGTTACTCCACTACCCTTCGCTCCGGTACACAAGGACGCGGCGTGTTCTCAATGGAACTCTCCCACTACGAAGAAGTTCCTAAGAATATCTCCGATGAAATTGTGTCCAAGATCAAAGGCGGAGAATAA	MATREFSLKNTRNIGIMAHIDAGKTTTTERILFYTGRTHKIGEVHEGAATMDWMEQEQERGITITSAATTASWKGHRVNIIDTPGHVDFTVEVERSLRVLDGAVGVFSAKEGVEPQSETVWRQADRYGVPRIAYVNKMDIIGADYLNVVKDMRERLQANAVAIQLPIGAENDFIGIIDIIEEKAYMYKDDLGQNIEETEIPAEFKDQVEELRNELVEKVAELDEDLTMKYLEGEEITIAELKAALRKGVVEVKIFPVICGSSYRNKGVQLMLDAVIDYLPAPTDVPDIKGTLEDGTEAIRHSSDEEPFSALAFKIATDPYVGKLTFFRVYSGVLQSGSYVLNATKGKRERIGRILQMHANSRQEISEVFAGDIAAAVGLKDTGTGDTLCDEKNPVILESMNFPDPVIEIAVEPKTKADQDKMGVALGKLTEEDPTLRAHTDEETGQTILAGMGELHLDIIIDRMRREFKVETNVGKPQVAYRETFRAPARVEGKFVRQSGGRGQYGHVWVEFEPLEPGSGNQFDSKVVGGSVPREYIGPAQQGIEEQMKNGVLAGFPLVDVKATIVDGSYHDVDSNEMAFKIAGSMALKAAKDKCKPVLLEPIMKVEVTVPEEYMGDVMGMLNSRRGRIEGMDSRGGTQIIRAKVPLSEMFGYSTTLRSGTQGRGVFSMELSHYEEVPKNISDEIVSKIKGGE				NA	NA	NA	NA	NA
AK002_05734	471	rpsG	COG0049	30S ribosomal protein S7	ATGCCACGCAAAGGTCCAGTAACTAAAAGAGACGTGCTGCCAGATCCGGTGTATAACAGCAAACTGGTAACTCGTCTGATCAACCGCATCATGTTGGATGGTAAAAGAGGTGTTGCTCAAAGCATCCTTTACAATTCGTTCAACATCATCAAGGAACGTACTGGTAATGATCCGATGGAAGTGTTTGAAGCAGCTATCAAGAACATCATGCCAGTATTGGAAGTTAAAGCTCGTCGTGTCGGCGGTGCTAACTACCAGGTTCCGATCGAAGTTAAACCAGAGAGACGTACATCCCTTGGATTACGTTGGCTCGTAAACTACTCCCGCAACCGCGGTGAGAAGACGATGGAAGAGCGTTTGGCGGCTGAGATCATCGACGCTTCCAACAACACAGGCGCTTCCGTTAAGAAACGCGAAGACACGCACAAAATGGCTGAAGCGAACAAAGCGTTTGCTCACTACCGTTGGTAG	MPRKGPVTKRDVLPDPVYNSKLVTRLINRIMLDGKRGVAQSILYNSFNIIKERTGNDPMEVFEAAIKNIMPVLEVKARRVGGANYQVPIEVKPERRTSLGLRWLVNYSRNRGEKTMEERLAAEIIDASNNTGASVKKREDTHKMAEANKAFAHYRW				NA	NA	NA	NA	NA
AK002_05735	420	rpsL	COG0048	30S ribosomal protein S12	ATGCCAACAATTAACCAACTGGTTCGCAAGGGCCGTCAAGCTAAAGTTTACAAATCGAAATCTCCAGCTCTTCAAAAAGGTTTTAACGCTTTGAAACGTGAGGAGACCGACTTGAGCGCTCCGCAAAAACGCGGTGTATGCACTCGTGTAGGCACGATGACGCCGAAAAAACCGAACTCCGCACTTCGTAAATATGCTCGTGTTCGCTTGACGAACCGCATTGAGGTGACGGCTTACATTCCGGGTATCGGACATAACTTGCAAGAGCACAGTGTTGTATTGGTTCGCGGTGGACGGGTAAAAGACCTTCCGGGTGTACGTTACCATATCGTTCGCGGCGCACTTGATACCGCTGGTGTAAACAACCGGATGCAAGCTCGTTCCAAATACGGCACGAAGCGTCCTAAAGCAAAAAGCTAA	MPTINQLVRKGRQAKVYKSKSPALQKGFNALKREETDLSAPQKRGVCTRVGTMTPKKPNSALRKYARVRLTNRIEVTAYIPGIGHNLQEHSVVLVRGGRVKDLPGVRYHIVRGALDTAGVNNRMQARSKYGTKRPKAKS				NA	NA	NA	NA	NA
AK002_05736	252	rplGB	COG1358	Ribosome-associated protein L7Ae-like protein	GTGTCTAATGATAAAGGATTACAGGATGCACACATCAAGATTGGCACCAAACAAACGATGAAGGCCGTTGAATCTGGTCTGGCCGCTGAGGTTTATGTGGCTGAAGATTGCGACCAGCGTTTGATTTCAAAAGTCGTATCCGAGTGTGATAAGAATGGCGTGCATATCAACTATGTACCCACGATGACAGAGCTTGGAGAAGCATGCGGTATTGAAGTCGGTGCAGCTATGGTAGCTGTCTTGAAATCATGA	MSNDKGLQDAHIKIGTKQTMKAVESGLAAEVYVAEDCDQRLISKVVSECDKNGVHINYVPTMTELGEACGIEVGAAMVAVLKS				NA	NA	NA	NA	NA
AK002_05737	3615	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	TTGTTGGACGTTAACAATTTTGAGTACATGAAAATCGGTCTTGCTTCACCGGAAAAAATCCGTTCTTGGTCTCGCGGAGAGGTGAAGAAGCCGGAAACGATTAACTACCGTACATTGAAGCCGGAGAAAGAAGGCCTCTTCTGTGAGCGTATTTTCGGTCCTCAGAAGGACTGGGAATGTCATTGCGGTAAGTATAAGCGTGTCCGTTATAAAGGAGTAGTCTGCGATCGCTGCGGCGTTGAAGTCACGCGCGCCAAAGTCCGCCGCGAACGGATGGGCCATATCGAGCTCGCAGCTCCTGTTTCGCACATTTGGTATTTCAAAGGCATTCCAAGCCGCATGGGTCTGGCTCTGGATATGTCCCCAAGATCTCTTGAGGAGATCATTTACTTCGCATCTTATGTTGTGACCGATCCAGGAGATACGCCGCTGGAGAAGAAGCAATTGCTGTCCGAGAAGGAATACCGCAGCTACCGTGAGAAGTATGGCTACGGCTTCCAAGCCGGCATGGGTGCTGAAGCGGTCAAGAAACTTCTTCAAGACATTGATATTGAGAAAGAGCTTGAATTCCTTAAGGAAGAACTGCGCACTGCACAAGGTCAGCGCCGCAACCGGGCGATCAAACGCCTGGAAGTGATTGAGGCGTTCCGCAACTCCGGCAACAATCCGGAATGGATGATCATGGATGTGCTGCCGGTCATTCCGCCGGAGCTTCGTCCGATGGTTCAACTTGATGGCGGACGTTTTGCGACTTCCGACTTGAACGATCTGTACCGCCGTGTTATTAACCGGAACAACCGTCTGAAAAGACTGCTGGATCTCGGCGCGCCGGATATCATTGTTCAAAACGAGAAGCGCATGCTGCAGGAAGCTGTCGATGCACTGATCGACAACGGCCGCCGCGGCCGTCCGGTAACAGGTCCGGGTAACCGTCCGCTTAAATCCCTCAGCCACATGCTGAAGGGTAAACAAGGACGTTTCCGTCAGAACTTGCTCGGTAAACGGGTTGACTACTCTGGTCGTTCCGTTATCGTCGTAGGTCCTTACCTGAAAATGTACCAATGCGGTCTGCCTAAGAAAATGGCGCTCGAGCTCTTCAAGCCGTTCGTGATGAAAGAGCTGGTCAACAAAGGTCTGGCACATAATATCAAGAGTGCGAAACGCAAAGTAGAACGTGTAAGTCCAGAAGTATGGGATGTGCTCGAGGAAGTCATTAAAGAGCATCCGGTTCTTCTGAACCGTGCACCGACGCTTCACAGACTCGGTATTCAAGCATTTGAACCGATTCTGGTTGAGGGCCATGCGATCCGTCTTCACCCGCTCGTATGTACGGCGTATAACGCTGACTTTGACGGTGACCAAATGGCGGTTCACGTTCCTTTGTCCGCTGAGGCTCAAGCTGAAGCACGTCTGTTGATGCTGGCATCGGGCAACATTTTGAACCCGAAAGACGGTAAGCCGGTTGTTACGCCGTCTCAGGATATGGTACTGGGTTCCTTCTATCTGACAATGGATAACAAGGAAGAGAAAGGTACCGGCATGATTCTGGGCAGCGTGAACGAAGCGGTTTCCGCTTATCAGCGTGAAGCAGCCGGTCTGCATGCACGCGTAGCGATTCCGGTTAAAGCCCTTGGCAAAACCAGCTTCACCGACAAACAGCAGGATGCGATTTTGATTACGACGATCGGCCGGATTATCTTTAACGAGATTTTCCCTGCCAGCTTCCCGTACATCAATGAAGCGACTCGTACGAACCTGCTGCAAGGCACGCCTGAGAAGTATTTCGTATACGAGAAGGGTGCAGATATTCAAAAAGTGATCCAGGAGCTGCCGGTCAGCGGAGCTGTTGGCAAAGAATACCTGGGTTCCATCATTGCACGCTGTTTTGAAACGTACCATACAACGGAAACCTCTGTGATTTTGGATAAAATCAAGCAGATCGGTTTCACATACTCTACCCGTGCAGGCGTAACCGTTGCGGTATCCGACGTTATCGTACCTGACGAGAAGAACGAAATTCTGAAAGAGTCCGACGAGAAGGTTAAAGTGGTAACGAACCAATATCGCCGCGGCTTGATCACGAACGAAGAACGTTATGACCGCGTTATCGACATCTGGTCCAAGACCAAAGACGATATTACGGATGTACTCATGAAGTCGATGGATCGCTTTAACTCCATCATGCTCATGGTGGATTCCAAGGCGCGGGGTAACAAATCGCAGATCACCCAGCTCGGTGGCATGCGGGGTCTGATGGCGAACCCGTCGGGCCGTATCATCGAACTCCCGATCAAATCGAACTTCCGTGAGGGACTGACGGTACTCGAGTACTTCCTGTCCACGCACGGTGCGCGTAAAGGTCTTGCCGATACAGCGCTTCGTACCGCTGACTCCGGTTACTTGACTCGTCGACTTGTCGACGTGGCCCAGGATGTCATCGTTCGCGAAGACGAGTGCAGCACGGATAAAGGCTTTATGGTTAGCCGTATTCAGGACGGCAAGGAAGTAATCGAGGATCTCTATGACCGTATCGAGGGACGTTATGCATTTGAAACCGTTCGTCATCCGGAAACCAAAGAGATCATCGTTAATCGCAACGAATTGATTGATTCCGACAAAGCTGAAGAGATCGTGGCGGCTGGTGTCGAGCAGCTTCAAATCCGTTCCATCTTGAGCTGCCGTGCACGTTATGGCGTCTGCAAAAAATGTTACGGTCGTAACCTGGCTACTGGTAAGCATGTTGAGATTGGTGAAGCGGTTGGTATTATCGCAGCCCAATCCATCGGCGAACCGGGAACGCAGCTCACGATGCGTACGTTCCACACAGGCGGCGTTGCCGGTGATGATATTACGCAAGGTCTTCCGCGTATCCAGGAGCTCTTTGAAGCCCGTAATCCTAAAGGTCAAGCGACCATTAGTGAGATCGACGGCGTGGTTAAAGAGATCCGCGAAACGAAGGACCGTCGTGAAATCGAAGTGCAAGGTGAAGCTGAGACTAAGGTCTACGCGGTTACCTACGGCTCTCGTCTGCGCGTAAGCGAAGGCAAGCACATTGAAGCCGGGGATGAACTGACCGATGGTTCCATTGATCCGAAGGAAATGCTTCGCATCAAGGGTATCCGTGGCGTGCAGAACTACATCCTTCAGGAAGTTCAACGCGTATACCGTAACCAAGGCGTAGAAATTAACGATAAACACGTTGAAGTTATGATCAGACAGATGCTGCGTAAATTCCGTATCGTGGATGCGGGGGATACGAACCTGCTGCCAGGCTCCTTCGTGGATATGCATGAATACGAAACAGCTAATAAAGACGCTATTCTTTCCGGGAAAGAACCAGCGGTTGCCAAACCGGTTCTCCTCGGTATTACGAAGGCATCTCTCGAAACCGATTCGTTCTTGTCAGCAGCCTCCTTCCAGGAGACAACTCGCGTGTTGACTGACGCTGCCATCAAGGGCAAAGTCGATCAGCTGCTTGGTCTGAAAGAGAATGTTATCATTGGTAAGCTGATCCCTGCAGGTACCGGTATGAACCGTTACCGCAGCGTGAAGTTCGAGGGACAGGACGATGTGAATGACGAAAGTCAGGAACTCGAAACAGCTTCTATAGATTAA	MLDVNNFEYMKIGLASPEKIRSWSRGEVKKPETINYRTLKPEKEGLFCERIFGPQKDWECHCGKYKRVRYKGVVCDRCGVEVTRAKVRRERMGHIELAAPVSHIWYFKGIPSRMGLALDMSPRSLEEIIYFASYVVTDPGDTPLEKKQLLSEKEYRSYREKYGYGFQAGMGAEAVKKLLQDIDIEKELEFLKEELRTAQGQRRNRAIKRLEVIEAFRNSGNNPEWMIMDVLPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPDIIVQNEKRMLQEAVDALIDNGRRGRPVTGPGNRPLKSLSHMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPYLKMYQCGLPKKMALELFKPFVMKELVNKGLAHNIKSAKRKVERVSPEVWDVLEEVIKEHPVLLNRAPTLHRLGIQAFEPILVEGHAIRLHPLVCTAYNADFDGDQMAVHVPLSAEAQAEARLLMLASGNILNPKDGKPVVTPSQDMVLGSFYLTMDNKEEKGTGMILGSVNEAVSAYQREAAGLHARVAIPVKALGKTSFTDKQQDAILITTIGRIIFNEIFPASFPYINEATRTNLLQGTPEKYFVYEKGADIQKVIQELPVSGAVGKEYLGSIIARCFETYHTTETSVILDKIKQIGFTYSTRAGVTVAVSDVIVPDEKNEILKESDEKVKVVTNQYRRGLITNEERYDRVIDIWSKTKDDITDVLMKSMDRFNSIMLMVDSKARGNKSQITQLGGMRGLMANPSGRIIELPIKSNFREGLTVLEYFLSTHGARKGLADTALRTADSGYLTRRLVDVAQDVIVREDECSTDKGFMVSRIQDGKEVIEDLYDRIEGRYAFETVRHPETKEIIVNRNELIDSDKAEEIVAAGVEQLQIRSILSCRARYGVCKKCYGRNLATGKHVEIGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQELFEARNPKGQATISEIDGVVKEIRETKDRREIEVQGEAETKVYAVTYGSRLRVSEGKHIEAGDELTDGSIDPKEMLRIKGIRGVQNYILQEVQRVYRNQGVEINDKHVEVMIRQMLRKFRIVDAGDTNLLPGSFVDMHEYETANKDAILSGKEPAVAKPVLLGITKASLETDSFLSAASFQETTRVLTDAAIKGKVDQLLGLKENVIIGKLIPAGTGMNRYRSVKFEGQDDVNDESQELETASID				NA	NA	NA	NA	NA
AK002_05738	3408	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	ATGTTCCAGGACATCTCGCCGATTCAGGATTTCACGGGCAATTTGGTGCTAGAGTTCATTGACTACAGCCTTGGAGAACCGAAATACACCGTCGATGACGCGAAAGAACGCGACGTTACTTATGCGGCGCCGCTCCGCGTGAAAGTCCGGCTCATTAACAAGGAGACCGGAGAGGTCAAGGAGCAGGAAGTGTTCATGGGAGACTTCCCGTTAATGACGGAAACCGGAACATTCATTATCAATGGTGCCGAACGGGTTATTGTCAGCCAGTTGGTTCGCTCTCCCAGCGTCTATTTCAGCACGAAAGTGGATAAAAACGGTAAGACGACGTACACTGCAACAGTTATCCCTAACCGCGGCGCTTGGCTGGAACTGGAGATGGACGCGAAGGACATTATTTATGTCCGGATCGACCGCACCCGTAAAATCCCTGTAACGGTGCTTTTACGTGCGCTTGGTTTTGGCACGGATGCCGAGATTTTGGATCTTCTGGGCAATGATGAATATATTCAAAATACGCTGGATAAAGACAACACGGACTCCACGGAAAAAGCGCTCATTGAAATCTATGAACGCCTTCGCCCGGGCGAGCCGCCAACACTGGAGAATGCGAAGAGCCTTCTCGTTGCCCGTTTCTTCGATCCGAAGCGTTATGATCTGGCTAACGTTGGTCGTTATAAGATCAACAAGAAGCTTCATATTAAGAACCGTCTCTTTAATCAACGTTTGGCAGAAAGTTTGATAGACATCGATACGGGTGAGATCGTTGCGGAAGCCGGTCAAACCGTAGACCGTCGTCTTTTGGACGAGATTATGCCTTACCTTGAGAAGAGCGTAGGCTTCAAGAATTATCATGTTACCGGCGGCGTGATGGACAGCGAGGATATCCCGCTGCAAACGATCGACGTATTCTCTCCGATCGAGGATGGGAAAGTCGTGAAAATCATCGCCAATGCAAATATCGATAAATCCGTAAAACATATTACGCAGGCGGATATCATCTCTTCCATCAGTTATTTCATTGACTTGCTGCATGGAATCGGCAACACGGATGATATCGATCACCTGGGTAATCGTCGATTGCGTTCCGTAGGCGAATTGCTTCAGAACCAGTTCCGTATCGGTTTGTCCCGGATGGAACGGGTTGTTCGTGAAAGAATGTCGATCCAGGACGCAAACGTGATTACGCCGCAGGCGCTGATCAACATCCGTCCGGTTATCGCATCGATTAAAGAGTTCTTCGGCAGCTCCCAGCTGTCTCAGTTCATGGATCAGACCAACCCGCTTGCGGAATTGACGCATAAACGTCGTCTGTCTGCTCTCGGACCGGGCGGTTTGACGCGTGAGCGTGCGGGCTTTGAAGTGCGGGACGTTCACCACAGTCACTATGGCCGTATGTGTCCGATCGAGACGCCGGAGGGACCGAACATCGGTCTGATCAACTCCTTGTCGACATTTGCGCGCATCAACGAGTATGGCTTCATTGAAGCTCCTTATCGTTGGGTGGATCCGAAGACCAGCAAAGTAACGGACCAAATCGATTACTTGACGGCAGACGAAGAGGATAACTACATCGTTGCCCAGGCGAACGCCGAACTCAACGAAGACGGTACCTTCGCTGACGAAATGGTAATCGTCCGTTATAACAAGCAATCCGACAACATCCTTCCGATGCCGAGCGACCGTGTAGACTACATGGACGTATCGCCTAAGCAGGTCGTGTCGGTTGCGACGGCGCTCATTCCGTTCCTCGAGAACGATGACTCCAACCGCGCGCTGATGGGATCGAACATGCAGCGGCAGGCTGTTCCGCTTCTTATTCCTAAGGCTCCGCTCGTCGGAACCGGGATGGAGCATAAGTCTGCGAAAGACTCCGGTGTATGTATTGTATCCAAATACGACGGGATTATTGAACGTTCATCCGCCAACGAAATCTGGCTCCGTCGCGTGGAAAATATCGACGGACAAGAAGTCAAAGGCGATATTGTTAAATATAAATTACACAAATTTATGCGTTCGAACCAAGGAACATGCATCAATCAGCGTCCAATCGTCAAGCGCGGCGATGTGATCAAAAAAGGTGACATCCTGGCGGACGGACCATCCACCGAGATGGGCGAATTGGCACTGGGCCGCAACGTTGTCGTTGCGTTCATGACTTGGGAAGGCTACAACTACGAGGATGCGATTCTTCTCTCCGAGAAGCTGGTCAAAGAGGACGTGTACACTTCGATCCATATCGAGGAGTACGAATCCGAGGCTCGTGACACGAAGCTCGGTCCGGAGGAAATTACGCGTGATATCCCTAACGTAGGGGAAGAAGCGCTCAAGAACCTTGATGAGCGCGGAATTATCCGCATCGGTGCCGAAATCAGCGCTGGCGACATTCTTGTTGGTAAGGTAACGCCTAAGGGAGTAACCGAGCTGACGGCAGAGGAACGTCTCTTGCATGCGATCTTCGGTGAGAAGGCTCGCGAAGTACGCGATACCTCGCTGCGCGTTCCTCACGGTAGTGACGGAATCATCGTGGATGTGAAGGTGTTTACGCGTGAAAACGGCGACGAGTTGCCGCCGGGCGTCAACCAATTGGTTCGCGTCTACATCGCACAGAAACGTAAAATCTCCGAAGGCGACAAAATGGCCGGACGTCACGGTAACAAAGGTGTCGTTGCCCGTATTTTGCCAGAAGAAGACATGCCGTTCCTGCCGGATGGCACGCCGGTTCAAGTTGTGTTGAACCCTCTGGGGGTTCCATCACGGATGAACATCGGTCAGGTGCTTGAGGTTCACTTGGGTATGGCTGCGCTCCAGCTCGGCATTCACGTGGCTTCACCAGTATTCGACGGTGCAAGCGAGTATGACGTGTTTGATACGATGGAAGAAGCAGGCATGCAGCGCAATGGTAAGACCGTGTTGTACGACGGACGGACGGGCGAACGTTTTGAACGTGAAGTTACCGTCGGCGTCATGCACATGATCAAGCTCGCGCACATGGTTGATGATAAAATTCACGCCCGTTCCACGGGACCATACTCCCTCGTTACGCAGCAGCCGCTGGGTGGTAAAGCCCAGTTCGGCGGACAGCGCTTCGGTGAGATGGAAGTATGGGCGCTTGAAGCTTACGGTGCTGCCTATACGCTGCAGGAAATTCTTACCGTCAAGTCCGATGACGTGGTCGGCCGGGTGAAAACCTACGAATCGATCGTCAAGGGCGAGAACGTTCCGGAACCGGGTGTTCCTGAATCGTTCAAGGTGTTGATTAAAGAGCTTCAGTCTCTCGGTATGGATGTTAAAATCCTGAGCGAGAACGAAGAGGAAATCGAGATGAAAGAACTCGATGACGAAGACGATGCTCAAGGTGATAAACTGAGCCTTAACTTGGAAGGCGCTGAAGTCGGAGTGGAATAA	MFQDISPIQDFTGNLVLEFIDYSLGEPKYTVDDAKERDVTYAAPLRVKVRLINKETGEVKEQEVFMGDFPLMTETGTFIINGAERVIVSQLVRSPSVYFSTKVDKNGKTTYTATVIPNRGAWLELEMDAKDIIYVRIDRTRKIPVTVLLRALGFGTDAEILDLLGNDEYIQNTLDKDNTDSTEKALIEIYERLRPGEPPTLENAKSLLVARFFDPKRYDLANVGRYKINKKLHIKNRLFNQRLAESLIDIDTGEIVAEAGQTVDRRLLDEIMPYLEKSVGFKNYHVTGGVMDSEDIPLQTIDVFSPIEDGKVVKIIANANIDKSVKHITQADIISSISYFIDLLHGIGNTDDIDHLGNRRLRSVGELLQNQFRIGLSRMERVVRERMSIQDANVITPQALINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSALGPGGLTRERAGFEVRDVHHSHYGRMCPIETPEGPNIGLINSLSTFARINEYGFIEAPYRWVDPKTSKVTDQIDYLTADEEDNYIVAQANAELNEDGTFADEMVIVRYNKQSDNILPMPSDRVDYMDVSPKQVVSVATALIPFLENDDSNRALMGSNMQRQAVPLLIPKAPLVGTGMEHKSAKDSGVCIVSKYDGIIERSSANEIWLRRVENIDGQEVKGDIVKYKLHKFMRSNQGTCINQRPIVKRGDVIKKGDILADGPSTEMGELALGRNVVVAFMTWEGYNYEDAILLSEKLVKEDVYTSIHIEEYESEARDTKLGPEEITRDIPNVGEEALKNLDERGIIRIGAEISAGDILVGKVTPKGVTELTAEERLLHAIFGEKAREVRDTSLRVPHGSDGIIVDVKVFTRENGDELPPGVNQLVRVYIAQKRKISEGDKMAGRHGNKGVVARILPEEDMPFLPDGTPVQVVLNPLGVPSRMNIGQVLEVHLGMAALQLGIHVASPVFDGASEYDVFDTMEEAGMQRNGKTVLYDGRTGERFEREVTVGVMHMIKLAHMVDDKIHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEILTVKSDDVVGRVKTYESIVKGENVPEPGVPESFKVLIKELQSLGMDVKILSENEEEIEMKELDDEDDAQGDKLSLNLEGAEVGVE				NA	NA	NA	NA	NA
AK002_05739	606	rsmC	COG2813	Ribosomal RNA small subunit methyltransferase C	ATGCCGAATCAACATTATTACTCAAACCAGCCGGAGATTGCTCATGATCGTAAGGAGCTAAAGACGGAACTTCGGGGGCAGTCATTTAGTTTGATCAGCGACGCCGGCGTATTCTCCAAGGGCGGCGTGGATTATGGCAGCAAGGTGTTAATAGACGCCATGGATTTTGGGCAGGATGCCCAGGTGCTGGACGTAGGGTGCGGGTACGGCCCGATCGGTCTAACGGCGGCAAGAATGGCCTCGCAAGGTCATGTGACGATGATCGACATCAATAGCCGCGCTGTCGAATTGGCCAAAGAGAATGCGAAGCGCAACGGTATAATCAACGTTACGATCTTAGAAAGCGACTTGTTTGAGGCGGTGAAGGATCAGCAATTTGATGTGGTTCTGACCAATCCGCCGATTCGTGCGGGGAAAGAAACGGTGCATGCCATATTCGAGGAATCATGGAAACATCTGCGCGAGAATGGACAGTTGTGGGTTGTGATTCAGAAGAAGCAGGGTGCGCCTTCGGCAAAAGCGAAGCTGGAGAGTTTATTCGACCAGGTTGAGGAAGTAACGAAGGATAAAGGGTACCGAATATTCAAAGCGACGAAATCTTCTTAA	MPNQHYYSNQPEIAHDRKELKTELRGQSFSLISDAGVFSKGGVDYGSKVLIDAMDFGQDAQVLDVGCGYGPIGLTAARMASQGHVTMIDINSRAVELAKENAKRNGIINVTILESDLFEAVKDQQFDVVLTNPPIRAGKETVHAIFEESWKHLRENGQLWVVIQKKQGAPSAKAKLESLFDQVEEVTKDKGYRIFKATKSS				NA	NA	NA	NA	NA
AK002_05740	363	rplL		50S ribosomal protein L7/L12	ATGAGCAAAGAGCAAATCTTGGAAGCAATTAAAGGTATGTCTGTTCTGGAACTGAACGATCTCGTAAAAGCAATCGAAGAAGAATTTGGTGTAACTGCTGCAGCTCCAGTAGCTGTTGTAGGTGGCGCTGGTGCAGCTGCTGAAGCAGAGCAATCCGAATTCGACGTAATCCTGACTAGCGCAGGCGCGTCCAAAATCAACGTAATCAAAGTGGTTCGCGAAATCACAGGTCTTGGCTTGAAAGAAGCAAAAGAACTGGTTGACAACGCTCCAAAACCATTGAAAGAAAAAGTAGCTAAAGAAGAAGCTGAAGCTGTTAAAGCTAAATTGGAAGAAGCAGGCGCATCCGTAGAAGTGAAGTAA	MSKEQILEAIKGMSVLELNDLVKAIEEEFGVTAAAPVAVVGGAGAAAEAEQSEFDVILTSAGASKINVIKVVREITGLGLKEAKELVDNAPKPLKEKVAKEEAEAVKAKLEEAGASVEVK				NA	NA	NA	NA	NA
AK002_05741	504	rplJ	COG0244	50S ribosomal protein L10	TTGGCAAACGCAAAAGTGATTCAAGCGAAACAAGAAGCGGTTGATGTCGTTGCTGCTAAGCTGCGCGAGAGCGTATCTACAGTAGTTGCTGACTATCGCGGACTGAACGTTGCGCAAGTAACTGAACTTCGTAAGCAGCTTCGTGAAGCTGGCGTCGAGTTCCAAGTACTGAAAAACACGCTGCTTCGCCGTGCAACTGCGGCAGCAGAGCTGACTGATCTGGACGAAGTCCTGACTGGTCCTACAGCTGTTGCTTTTGGTACCAATGACGCTGTCGCTCCAGCAAAAATCCTCAACGATTTTGCTAAGAAAAACGACGCGTTGAAATTGAAAGGCGGCGTAGTAGAAGGCCGTGTAATCGGAGAGAGCGAAATCAAAGCTCTGGCAGAACTTCCGTCCCGCGAAGGTCTCCTCTCCATGCTCCTCAGCGTGCTTCAAGCTCCAGTGCGCAACTTCGCGCTTGCAGTTAAAGCCGTTGCTGAGAAGGAAGAACAAGGCGCATAA	MANAKVIQAKQEAVDVVAAKLRESVSTVVADYRGLNVAQVTELRKQLREAGVEFQVLKNTLLRRATAAAELTDLDEVLTGPTAVAFGTNDAVAPAKILNDFAKKNDALKLKGGVVEGRVIGESEIKALAELPSREGLLSMLLSVLQAPVRNFALAVKAVAEKEEQGA				NA	NA	NA	NA	NA
AK002_05743	693	rplA	COG0081	50S ribosomal protein L1	ATGGCTAAACACGGTAAGAAATACGTTGAAGCTGCCAAGCTGATTGACAGCGAAGCAACTTATGAGCCTTTGGAAGCTGTGGAGCTTGTGAAGAAGGCTGCAACTGCCAAATTCGACGAAACTGTTGAAGCGGCTGTGCGTTTGGGCGTAGACCCGCGTAAACAAGACCAGGCTGTTCGTGGTGTTGTTGTCTTGCCTCACGGCACAGGTAAAACACAACGCGTTCTGGTATTTGCAAAAGGTGAAAAAGCGAAAGAGGCTGAAGCGGCTGGCGCTGATTTTGTTGGCGATCAGGACATGATCAACAAAATCCAACAAGGCTGGTTCGAGTTCGATGTCTGCGTAGCTACACCTGATATGATGAGTGAAGTCGGTAAACTTGGCCGTCTGCTCGGTGGTAAAGGCCTGATGCCTAACCCTAAAGCTGGTACGGTTACATTCGATGTTGCCAAGGCTGTTCAAGAAATCAAAGCCGGTAAAATCGAGTACCGTCTGGACAAAGCAGGTCAAATTCACGCGCCAATCGGTAAAGTGTCTTTCGATGCAGCTCAATTGAATGAGAACCTCAAAGCTCTCATCGATGCATTGAATCGTGCGAAACCAGCTGCTGCTAAAGGTGTATACCTGAAAGGTATCGCTGTTTCCTCGACGATGGGACCAAGCGCTCGCGTGAACACAACCGTTTACAGATAA	MAKHGKKYVEAAKLIDSEATYEPLEAVELVKKAATAKFDETVEAAVRLGVDPRKQDQAVRGVVVLPHGTGKTQRVLVFAKGEKAKEAEAAGADFVGDQDMINKIQQGWFEFDVCVATPDMMSEVGKLGRLLGGKGLMPNPKAGTVTFDVAKAVQEIKAGKIEYRLDKAGQIHAPIGKVSFDAAQLNENLKALIDALNRAKPAAAKGVYLKGIAVSSTMGPSARVNTTVYR				NA	NA	NA	NA	NA
AK002_05744	426	rplK	COG0080	50S ribosomal protein L11	ATGGCTAAGAAAGTTATCAAGATTGTGAAACTGCAAATTCCTGCAGGTAAAGCGAATCCGGCTCCTCCAGTAGGTCCTGCATTGGGTCAAGCGGGTGTCAACATCATGGCATTCTGTAAAGAATTCAACGCACGTACTGCTGATCAAGCTGGTCTGATCATTCCGGTTGAAATTTCGGTGTTTGAAGATCGTTCCTTTACGTTCATCACGAAAACTCCACCGGCTGCTGTTCTGCTTCGTGTGGCTGCTAAGATCGAAAAAGGATCCGGCGAGCCTAACAAGAAGAAGGTGGCTACCGTTAAGCGTGACGCTGTTCGTCAAATCGCTGAGCAAAAAATGCCTGACCTGAACGCTGCATCTGTTGAAGCTGCAATGAAGATGGTAGAAGGTACTGCCCGTAGTATGGGTATCACAATCGAAGACTAA	MAKKVIKIVKLQIPAGKANPAPPVGPALGQAGVNIMAFCKEFNARTADQAGLIIPVEISVFEDRSFTFITKTPPAAVLLRVAAKIEKGSGEPNKKKVATVKRDAVRQIAEQKMPDLNAASVEAAMKMVEGTARSMGITIED				NA	NA	NA	NA	NA
AK002_05745	534	nusG	COG0250	Transcription termination/antitermination protein NusG	ATGGAAAAAAGATGGTACGTAGTTCATACCTATTCTGGGTATGAGAATAAAGTCAAAGCCAATTTGGAAAAACGTGTCGAGTCCATGGGCATGGAGGACAAAATATTCCGCGTTCTTGTTCCGATGGAAGAAGAAATCGTAAACAAAGACGGCAAGAAAAAAACCGTCATGCGTAAAGTTTACCCGGGATATGTCTTGGTCGAAATGATTCAGACCGATGATTCTTGGTATGTTGTCCGCAATACGCCAGGAGTGACCGGTTTTGTTGGTTCGACAGGGTCCGGTTCTAAACCGACGCCTTTGCTTCCGGAAGAAGTGGAACAGATTCTGAAGCATATGGGCATGGAAGAGCCGAAACCGAAGATCGAATTCGACATCAAGGAATCCGTTCGTATCAAGGTTGGTCCTTTTGCGAATTTTGTGGGCTCCGTGGAAGAGATTTTGGCTGAAAAGAGCAAGTTGAAAGTTCACGTCAACATGTTTGGACGGGAAACCCCGCTGGAGTTGGATTATACTCAAGTGGAGAAGATTTGA	MEKRWYVVHTYSGYENKVKANLEKRVESMGMEDKIFRVLVPMEEEIVNKDGKKKTVMRKVYPGYVLVEMIQTDDSWYVVRNTPGVTGFVGSTGSGSKPTPLLPEEVEQILKHMGMEEPKPKIEFDIKESVRIKVGPFANFVGSVEEILAEKSKLKVHVNMFGRETPLELDYTQVEKI				NA	NA	NA	NA	NA
AK002_05746	192	secE		Protein translocase subunit SecE	GTGAAACGTGGTTTCAAGTCTCTGTTTTCCTTTTTCTCTGAAAGCTGGGCGGAACTTAAAAAAGTTCGCTGGCCCAATCGTAAAGAACTGACGAACTATACTCTCATTGTTCTAGGCACCATTGTGTTTGTCACGATTTATTTTTGGGTTGTAGACATCGGTATTTCCGCTGTGATCGAAGCGATAATTTAG	MKRGFKSLFSFFSESWAELKKVRWPNRKELTNYTLIVLGTIVFVTIYFWVVDIGISAVIEAII	PGPT0025715_3250	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
AK002_05747	645	sigH	COG1595	RNA polymerase sigma-H factor	TTGAGTGTGGACCTCAAGGAAGTCATGTTGTCAGGGTATGATGTGATAAGCGATGAAGACATTGTCGAGGCGGTCCGCGAGGGTGACAGCGGGGCGCTGGAGTATTTGATCAATAAGTACCGGAATTTTGTACGTGCTAAAGCCCGTTCCTATTTTCTGATTGGCGCCGACCGGGAGGATATCGTCCAGGAAGGCATGATCGGGCTGTACAAGGCAATTCGTGATTTTAAAGGGGATAAGCTGTCCTCGTTCAAGGCCTTTGCCGAGCTCTGCATTACCAGGCAGATCATTACGGCGATCAAGACCGCTACGAGACAGAAGCATATTCCGCTCAATTCGTATGTCTCTCTGGACAAGCCGATTTATGACGAGGATTCGGACCGTACGCTGCTGGATGTCATTTGCGGTACAGCGGTAAGCGATCCCGAGGAGCTGATCATCAATCAGGAGGAGTTTGTCGGCCTGGAAGACAAGATGTCAGAGATCTTAAGCGATCTGGAACGGAAAGTCTTGATGCTTTATTTGGACGGTCGTTCCTATCAAGAGATCGCGGTAGATTTGAGGCGTCACGTGAAATCGATTGACAATGCCCTCCAGCGGGTAAAGCGAAAGCTTGAGCGTTATCTGGAGGTCAGGGATAATTAA	MSVDLKEVMLSGYDVISDEDIVEAVREGDSGALEYLINKYRNFVRAKARSYFLIGADREDIVQEGMIGLYKAIRDFKGDKLSSFKAFAELCITRQIITAIKTATRQKHIPLNSYVSLDKPIYDEDSDRTLLDVICGTAVSDPEELIINQEEFVGLEDKMSEILSDLERKVLMLYLDGRSYQEIAVDLRRHVKSIDNALQRVKRKLERYLEVRDN	PGPT0014795_1826	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK002_05748	522	yacP	COG3688	putative protein YacP	ATGATGGCCGATTGGCGGGATGTGCTGCTGGTCGACGGTTATAACATGATCGGCGGCTGGCCGCATCTTGCGAAGCTTGCCAATAGCAGCATGCACGAAGCGCGGGACTTGCTGCTTGAGAAATTAGCGGATTACCAAGCGTATTCTGGGCTCAGAGTCGTGGTGATTTTTGACGCGTACCGGGTCCCAGGCTTGGGTAAATCCTACACGCAAGGCAAGGTGCAGGTGTTTTTTACGAAAGAGAAGGAAACCGCCGACGAGTGCATTGAGCGGCTGGTCGGCGAGTTTAGCCATCGACGGCGTAAAATTTATGTGGCGACCAGCGATTTAATCGAGCAGCACGTCATTTTTGCTAGGGGAGCACTCCGGCTGTCCGCCCGGGAATTGCTGAGCGAGGTCGAGCAGAGCGAGCGCGAAGTGAAGCAGAAGATTACGAAAGAGCATACCAAGAGCAGAAATACGCTTGACGGGAAGCTGCCGCCGGATGTGAGACAGGCGTTCGAGCGCTGGCGAAGGGAGTAG	MMADWRDVLLVDGYNMIGGWPHLAKLANSSMHEARDLLLEKLADYQAYSGLRVVVIFDAYRVPGLGKSYTQGKVQVFFTKEKETADECIERLVGEFSHRRRKIYVATSDLIEQHVIFARGALRLSARELLSEVEQSEREVKQKITKEHTKSRNTLDGKLPPDVRQAFERWRRE	PGPT0010355_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0010355-otrA|tetM|tetO-K18220	NA	NA
AK002_05749	771			Putative TrmH family tRNA/rRNA methyltransferase	ATGCAGGAGGAGACCTACATGATGCAAGAAGAGGAAGTAGTAGCCGGTAAGCACTCCGTCACGGAAGCGCTCAAATCCGGACGCACGATCAACAAAATATGGATTGCCGAAAACGCGCAAAAGCATCTGACCCTGCCGATCATCGCGGAAGCGAAGAAGCTGGGCATCGTCATTCAGCATGTGGACAAACGGAAGCTGGATCAGATGGTTCCGGGAGTCCAGCATCAAGGCGTGGTTGCCCAGGCGGCACCCTATGCTTATGTGGAAGTGGACGATTTGCTGAAGGCCGCGGAGGAAAAGGGCGAGCCGCCTTTCCTGCTGCTTCTGGACGAGATCGAGGATCCGCACAATCTCGGATCGATTCTCCGAACGGCCGACTGCACGGGCGCTCACGGCGTCATACTGCCTAAGCGCAGATCCGCGCAGGTAACGGCAACGGTATCCAAAACATCGGCCGGCGCGGTGGAGTATGTGCCTGTAGCCAGAGTGACCAATCTGGGCCAAACCATCGATCAGCTGAAGGAAATGGGCGTCTGGGTTGTCGGAACCGTGGTCGATGCCGTTCAGGAATTGTATGATACCGAGGTTTTTGACGGGCCGGTCGCCATCGTTATCGGCAATGAGAATAAAGGGATGGGGCGTCTGATCCGCGAGAAATGCGATGTGCTTGTGAAACTGCCGATGGCCGGAAAAATCAATTCGCTAAACGCCTCGGTTGCCGCAGGCGTCGTCATGTACGAAGTGCTTCGCCGTCGCCGCCTGCAAGGTTAG	MQEETYMMQEEEVVAGKHSVTEALKSGRTINKIWIAENAQKHLTLPIIAEAKKLGIVIQHVDKRKLDQMVPGVQHQGVVAQAAPYAYVEVDDLLKAAEEKGEPPFLLLLDEIEDPHNLGSILRTADCTGAHGVILPKRRSAQVTATVSKTSAGAVEYVPVARVTNLGQTIDQLKEMGVWVVGTVVDAVQELYDTEVFDGPVAIVIGNENKGMGRLIREKCDVLVKLPMAGKINSLNASVAAGVVMYEVLRRRRLQG				NA	NA	NA	NA	NA
AK002_05750	444	mrnC	COG1939	Mini-ribonuclease 3	ATGAGCGGGGATAAGCATCAGGATCCTGCAGTAGGCTGGTTTGATTTTCCGCCGTCGAAGCCGGCCCGTTTAATTCCGCCCATCGTGCTCGCTTACATCGGGGATGCCATTTATGAGTTGGCGGTGAGGCAGTTTCTGATATCACGGGCCAATCTCCGTCCCCATCACTTGCACCGTTCGGCCACGAGCTTCGTGTCGGCGAAGGCGCAGAGCAGGATATTGGCTTTTCTGGATCCGGAGCTGACGGAAGAAGAGCGCGATGTGGTGCGTCAGGGGCGCAATGCCAAATCAGGCAGCATACCGAAGAATGCCGACGTGCTGGAATATCGGCATGCAACGGCATTCGAGACGCTGGTTGGGTATTTATATTATGCGGGAGAGCAGGACCGTCTCCGAGAACTCATCGGAAAGAGCATCGAGTTTATCGAGGGGTCCGTTAAATAA	MSGDKHQDPAVGWFDFPPSKPARLIPPIVLAYIGDAIYELAVRQFLISRANLRPHHLHRSATSFVSAKAQSRILAFLDPELTEEERDVVRQGRNAKSGSIPKNADVLEYRHATAFETLVGYLYYAGEQDRLRELIGKSIEFIEGSVK				NA	NA	NA	NA	NA
AK002_05751	1407	cysS	COG0215	Cysteine--tRNA ligase	ATGGCACTGCAAATCTATAACACGCTAACCCGCATGAAAGAAACGTTTGTTGCCCAGGAACCCGGAAAGGTAAAGATCTACGTATGCGGTCCTACCGTGTACGACTATATCCATATCGGCAATGCCCGGCCGATGATTTTCTTCGACGTGGTTCGAGCGTACTTCGAGAATCAGGGCAACGACGTGAACTACGTGGTGAACTTCACGGATGTGGATGACAAAATGATTCGGAAAGCGGAGCAAACCGGGACGACGGTTCCGGAGGTTGCGGAGAAGTTCATCAACGCATATTACGAGGATTTGGACGGTCTCGGCATACCCAGAGCGACATTGAATCCGCGGGTAACGGACAATATGGAGAGCATCATCGAATTCATCCAGGAGCTTATTGACCGCGACTTTGCTTATGAGAACGGTGGAGACGTATTCTACCGGACCCGCAAGTTCGACGACTACGGTAAGCTGTCCCAGCAGAACCTCGATGAGCTGCAGTTCGGGATCCGGATCGAAGTGGATAAACGAAAGGAAAATCCGGAGGACTTCGTCCTGTGGAAAGCCGCGAAGCCGGGAGAGATCTACTGGAGCAGTCCATGGGGCGACGGCCGCCCGGGCTGGCATATCGAGTGCTCCGCCATGGCTCGCCGCTATCTCGGGGATACCTTGGATATCCACGGCGGCGGCCAGGATCTGCAGTTCCCGCACCATGAATGCGAAGTGGCGCAGTCCGAGGTATTGACGGGCAAACCGCTCGCGAACTATTGGATGCATAATGGATATATCCGCATCAACAACGAGAAAATGTCGAAATCGCTGGGCAACGGCGTATTGGTTAAGGAACTTCGCGAACAATATACGAAAGAAGCCGTGCGCTATTTCATGTTGTCCACCCACTACCGCAACCCGCTGAATTACAGCGACGAGGTGATGGAACAGGCGCAGAACAGCGTGGAACGCCTCGCGAATGCGGCGGCAAACGTCGAACATCGATTGGGCACGGCGATCGGCTCCAAGGACGATCAAGTCAGCCAGGACGTAGCCGACAAAATATCGGCCGTGCTTGTCGAATTTCACGAGAAAATGCAGGACGATTTCAACACGCCGGACGCCATCACCGCGATGTTCCAATGGGCTAGCGAGGCGAATCAGCTGCTGAAGGAAGCATCGATTCCTGCCGCGAATCTGCATGAAGTGCTGCGTGCTTTCAACGAAATGAACAGCGTGCTCCGCATCGTGAACACAGGTACGGATGAATTGCTGGATGAGGAAATCGAAGCGCTGATTGCCGAACGTGTCGAAGCCCGCAAGAATAAAAACTGGGCCCGAGCGGACGAAATCCGCGACAAGCTGGCGGACGAGGGCATCGTGCTGGAGGATACGGCGCAGGGCATGCGCTGGCGGCGTAAATGA	MALQIYNTLTRMKETFVAQEPGKVKIYVCGPTVYDYIHIGNARPMIFFDVVRAYFENQGNDVNYVVNFTDVDDKMIRKAEQTGTTVPEVAEKFINAYYEDLDGLGIPRATLNPRVTDNMESIIEFIQELIDRDFAYENGGDVFYRTRKFDDYGKLSQQNLDELQFGIRIEVDKRKENPEDFVLWKAAKPGEIYWSSPWGDGRPGWHIECSAMARRYLGDTLDIHGGGQDLQFPHHECEVAQSEVLTGKPLANYWMHNGYIRINNEKMSKSLGNGVLVKELREQYTKEAVRYFMLSTHYRNPLNYSDEVMEQAQNSVERLANAAANVEHRLGTAIGSKDDQVSQDVADKISAVLVEFHEKMQDDFNTPDAITAMFQWASEANQLLKEASIPAANLHEVLRAFNEMNSVLRIVNTGTDELLDEEIEALIAERVEARKNKNWARADEIRDKLADEGIVLEDTAQGMRWRRK	PGPT0002985_3467	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
AK002_05752	741	cysE	COG1045	Serine acetyltransferase	ATGGATGGCAAGCTGCATGCGCGATTGGAAGAGGGGAAAGAGGGAGCGTTCATGTTTAAACAGATGAAATCGGATATTCGGACAGTGTTCGAGAATGACCCGGCTGCCCGGGGACTTTTTGAAGTGGTATTCACCTACTCGGGACTTCACGCCCTGTGGGCGCACCGGGTGGCTCATGCATTATTCAAGCGGCGGTGGTATACGCTGGCACGGATCATATCTCAGATCAGCCGGTTTATGACAGGCATCGAGATTCATCCGGGCGCCCGTATCGGGAATCGGCTGTTCATCGACCATGGCATGGGGGTTGTCATTGGAGAGACCTGCGAGATCGGAGACGACGTGGTGATTTACCAGGGGGTGACCCTTGGGGGAACCGGTAAGGAAAAAGGCAAGCGGCATCCGACCATCGGCAACAACGTGGTCATCGGATCCGGAGCGAAAGTGCTAGGTTCTTTTACGATTGGGGATAACTGTAACATCGGATCCAATGCGGTCGTATTAAGGCCCGTGCCCCCGAACAGTACCGTTGTCGGCAATCCCGGCAAAGTCGTGAAACAGAACGGGGAGCGGGTGCGCGACCGGCTGGATCACACGAATCTGCCCGATCCGATTGTCGATACGCTCCGTTCGATGCAGAAGGAGATCTACCAGCTCCGGGCGGAACTGGATGAGAGCAAGGGAAGCTCGCATCAAGCGATGGTTTCCGAGGCTGTCGTGTCTTCGGCCAAGGAAGAATAG	MDGKLHARLEEGKEGAFMFKQMKSDIRTVFENDPAARGLFEVVFTYSGLHALWAHRVAHALFKRRWYTLARIISQISRFMTGIEIHPGARIGNRLFIDHGMGVVIGETCEIGDDVVIYQGVTLGGTGKEKGKRHPTIGNNVVIGSGAKVLGSFTIGDNCNIGSNAVVLRPVPPNSTVVGNPGKVVKQNGERVRDRLDHTNLPDPIVDTLRSMQKEIYQLRAELDESKGSSHQAMVSEAVVSSAKEE	PGPT0020265_3465	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
AK002_05753	1464	gltX		Glutamate--tRNA ligase	ATGACCGGAGAAGTCCGCGTGCGCTATGCACCGAGTCCAACGGGACATTTACATATCGGCAATGCCAGAACGGCATTATTCAATTATTTATTCGCCCGCAAGAACAACGGGAAATTCATTATCCGCATCGAAGATACGGATGTGAAACGCAACGTGGAAGGCGGCGAGCAGAGCCAGCTGAAGTACTTGAAGTGGCTGGGCATGGATTGGGACGAGAGCGTGGATGTCGGGGGCGAGTACGGACCTTATCGCCAGACCGAACGCCTTGATATTTATAAACAATATTGGCAGGACCTTCTGGATCGCGGGCTTGCTTACCGCTGCTACTGCACGGAGGAAGAGCTGGAGCAGGAGCGGGAAGAGCAGATGGCTCGGGGCGAAACGCCGCGCTATTCCGGAAAGCATCGCGATTTGACCGAAGAGCAGCGCCAGGCGCTTGAGGCTGAAGGCCGCGTGGCGAGCATCCGCTTCCGCGTGCCGGAAGACCGCGTCTACACCTTCGACGATATGGTGAAGGGCACGATTTCGTTTAACAGCAAAGAGACGGGCGACTTCGTCATCGTCAAAAAAGACGGCATTCCTACCTACAATTTTGCAGTAGCTTTGGATGATCATCTCATGAAGATCAGCCATGTGCTGCGCGGGGAGGATCATATCTCCAATACGCCGCGTCAGCTGATGATCTATGAAGCCTTCGGGTGGGAGCCCCCTCAGTTCGGGCATATGACCCTGATCGTGGGCGAGGATCACAAGAAGCTGAGCAAGCGCAACGAATCGATCATCCAGTTCATCGAGCAGTATGACCAGCTTGGTTATTTGCCTGAAGCGCTGTTCAACTTCATCTCGCTGCTGGGCTGGTCTCCGGAAGGGGAAGAGGAAGTGTTCTCCCAAGAGCAGCTGATCTCGATCTTCGATGAGCATCGCCTGTCCAAGAGCCCGGCGGTATTCGACACGAACAAGCTGGCTCATATGAATAACACGTACATTAAGAACGCGGATCCGGACCGGATCGCCGATTTGGCCATTCCGCATTTGCAGAAAGCCAGCCGTTTGCCGTCCGAGCTTACGGCCGAGCAGGAGGAATGGGCACGCGCGCTCGTGGCGCTCTATCAGGAGCAGATGACGGCGGCTTCGGATATCGTGGATCTGTCGGAAGTATTCTTCCGCACGCACCTGGAGCTGGATGCCGAGGGGATCGAAGTGATGGGCGGCGAGCAGGTGCCTGCCGTACTGTCCGCATTCCTGGCGAAGATCGAACAGTCCGATGAGTTTAACGCGCAGAAGATCGCTGCCATGATCAAGGAAGTCCAGAAGGAGACCGGGTTTAAGGGCAAACAGCTCTTCATGCCGATCCGCGTAGCCTTGACGGGACAAACCCATGGCCGCGACTTGAACCAGACGATCTGGCTGCTTGGCAGGGATCGCGTGCTTGACCGTTTGCGTTCCCAGATCAAAGGCGCATAA	MTGEVRVRYAPSPTGHLHIGNARTALFNYLFARKNNGKFIIRIEDTDVKRNVEGGEQSQLKYLKWLGMDWDESVDVGGEYGPYRQTERLDIYKQYWQDLLDRGLAYRCYCTEEELEQEREEQMARGETPRYSGKHRDLTEEQRQALEAEGRVASIRFRVPEDRVYTFDDMVKGTISFNSKETGDFVIVKKDGIPTYNFAVALDDHLMKISHVLRGEDHISNTPRQLMIYEAFGWEPPQFGHMTLIVGEDHKKLSKRNESIIQFIEQYDQLGYLPEALFNFISLLGWSPEGEEEVFSQEQLISIFDEHRLSKSPAVFDTNKLAHMNNTYIKNADPDRIADLAIPHLQKASRLPSELTAEQEEWARALVALYQEQMTAASDIVDLSEVFFRTHLELDAEGIEVMGGEQVPAVLSAFLAKIEQSDEFNAQKIAAMIKEVQKETGFKGKQLFMPIRVALTGQTHGRDLNQTIWLLGRDRVLDRLRSQIKGA	PGPT0008460_5259	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
AK002_05754	489	ispF	COG0245	2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase	ATGATTCGAGTAGGACAAGGGTTTGACGTACATCAGCTCGTAGAAGGAAGGCCGTGCATCATCGGAGGTGTCACGATTCCGCATGACAAAGGTCTGCTTGGGCACTCCGACGCCGACGTGCTGCTGCACGCCGTGACGGACGCGATCCTGGGGGCGCTGGGGCTTGGCGACATCGGACGCCATTTTCCCGATAACGATCCTGCCTTTAAAGACGCTGACAGCCTGAAGCTTTTGGAACAGGTATGGGTCATGGCGAAGGAACGCGGGTATAGACTGGGTAACATCGATTCCACGATTATTGCCCAGAAGCCGAAGATGGCGCCATACATTCCGCAAATGGCGGAAGTGATCGCCAAAGCGCTGGATGCCGAGGTGGATCAAGTGAACGTGAAGGCGACCACCACCGAGCAGCTCGGGTTTACCGGCAGGGGCGAAGGAATCGCCGCGCAGTCGGTTGTCTGCCTTGTAAAAGGTGTGCTATCATCTTGA	MIRVGQGFDVHQLVEGRPCIIGGVTIPHDKGLLGHSDADVLLHAVTDAILGALGLGDIGRHFPDNDPAFKDADSLKLLEQVWVMAKERGYRLGNIDSTIIAQKPKMAPYIPQMAEVIAKALDAEVDQVNVKATTTEQLGFTGRGEGIAAQSVVCLVKGVLSS	PGPT0007595_1196	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
AK002_05755	696	ispD	COG1211	2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase	ATGAGTAACTTCGGCGCCGTCATCGTAGCGGCGGGAAAAGGAACGAGGATGGGCACCCGGGAGAGCAAGCAGTACTTGGTTCTGGACGGTAAGCCCATTATCGTTCATACGCTTGAAGCATTCAGCCGGATACCATGGCTGCAGGAAATTGTGCTTGTAACGGGGATGGATGATGTTTCTCGCTGTCAGTTCTGGGTGCAGGAATATGGTTTGGATAAGGTGTCTGCCGTAATCCCGGGCGGAAGCGAGAGACAACAGTCCGTATATCAAGGCATCAAGCAAATCTCTTCAGAATGGGTAATGATACATGACGGCGTAAGGCCGTTCGTAACGCAAGAGGAAATTGAAGCCTGCCGCGATGCGGCGATCCGCGAAGGCGCCTCGGTACTCGGGGTTCCCGTGAAGGATACGATTAAGCAGGTGAACGGTGAGGGGCTGATTACAGGCACCCCGGACCGTCAAAGTCTGTGGGCCGTCCAGACCCCACAGGCTTTTCGTCTTTCCGACCTGCTGTCCGCGCATGAAGCTGCGGCGAAGGAGGGATTTGCCGGCACCGATGACGCCATGCTGATGGAGCAGGCAGGGCATCCGGTCACCGTGGTGGAGGGGAAATACAGCAACATCAAAATCACCACGCCGGAGGATCTGGAATATGCGGCTTTTTTACAGAAACGTAAGGGAGAGGACATGGAATGA	MSNFGAVIVAAGKGTRMGTRESKQYLVLDGKPIIVHTLEAFSRIPWLQEIVLVTGMDDVSRCQFWVQEYGLDKVSAVIPGGSERQQSVYQGIKQISSEWVMIHDGVRPFVTQEEIEACRDAAIREGASVLGVPVKDTIKQVNGEGLITGTPDRQSLWAVQTPQAFRLSDLLSAHEAAAKEGFAGTDDAMLMEQAGHPVTVVEGKYSNIKITTPEDLEYAAFLQKRKGEDME	PGPT0007590_2303	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007590-ispD-K00991	NA	NA
AK002_05756	1089	yacL	COG4956	putative PIN and TRAM-domain containing protein YacL	ATGTTAAAAAAAGCTATCTTAGCATTTACGGTATTATGCGGAGCATGGGGCGGGTATACGTTATATCATACAATGGAACGGTCTTTCTCAGGGCTCTCGCCTATGTTTGGACAAGGAATATTTGCAGCGGGAAGCGGAGCCTTCGCGGTGCTTGGAGGATTATTGTTTGGCATGATCGGCGTGCTGTCGGCGGATCGGGTAACGAGATGGCTGCACAGCCTGATCTCTTCGTTCTCTCGGATTCCGATGAATGAGCTGGCGGCGGGAACGGCAGGATTGTTAAGCGGCTTGCTGCTGTCTTTATTGCTCTCACCGGGGTTATCCTTGCTCGGACAAGCGGGGCAGCTGCTGCAGGTCGGCATCACGCTGCTCGGCGGCTACATCGGTTTACGCATTGGATTGGAGAAGAAGGATGAACTGGCTTCCCTATGGATGTCGGGGAAGTGGAGCCAAACCGCCGAACCGGAAGGTCGGCGCGTGGAGGAACATAAAATTCTGGATACAAGCGTCATTATTGATGGCAGGATCGCAGATATTTGCAAAACCGGATTTATTGAAGGAACGATTGTCATTCCCGAATTCGTTCTGGAGGAGCTTCAGCATATTGCGGATTCCTCGGATCTTCTAAAGCGAAATCGCGGCCGGCGCGGGCTTGATATCTTGAACAAAATCCAGAAGGAACTGGATGTTAAGGTGCTTATCTACGAAGGCGACTTTGAGGAGATATCCGAAGTGGACAGCAAGCTGGTGAAACTCGCCAAAGTGCTTCAAGGCAAAGTGGTCACGAATGATTTCAACTTGAACAAGGTTTGCGAGCTGCAGGGCGTGTCGGTGTTGAACATTAACGACCTGGCCAACGCGGTGAAGCCGGTGGTTCTGCCAGGAGAAGAAATTCTGGTGCAGATTATCAAGGATGGCAAAGAGCATGGTCAGGGCGTCGCATATCTGGATGACGGCACGATGATCGTAGTGGAGGGCGGACGCGAGTATATCGGCACGATGATGGAGGTGCTCGTTACCAGCGTACTGCAAACCTCGGCGGGCCGGATGATCTTCGCGAAACCAAAACTGTTGGAAAAAGCCCAGTAA	MLKKAILAFTVLCGAWGGYTLYHTMERSFSGLSPMFGQGIFAAGSGAFAVLGGLLFGMIGVLSADRVTRWLHSLISSFSRIPMNELAAGTAGLLSGLLLSLLLSPGLSLLGQAGQLLQVGITLLGGYIGLRIGLEKKDELASLWMSGKWSQTAEPEGRRVEEHKILDTSVIIDGRIADICKTGFIEGTIVIPEFVLEELQHIADSSDLLKRNRGRRGLDILNKIQKELDVKVLIYEGDFEEISEVDSKLVKLAKVLQGKVVTNDFNLNKVCELQGVSVLNINDLANAVKPVVLPGEEILVQIIKDGKEHGQGVAYLDDGTMIVVEGGREYIGTMMEVLVTSVLQTSAGRMIFAKPKLLEKAQ				NA	NA	NA	NA	NA
AK002_05757	396			hypothetical protein	ATGAGCGCTCCTAGTTTACAGGCTTTTCAGGACCAAGTTTCCGAATTGTTGCTCCGTCACCGCAGTCTCTTGGATGTTCTGTCTAAAAATGGTCAAAGCAATGCTTCAGTCAACCGGGCCGTCACAAAGGCCATCACAGAATGCGGATGCATCGAGCTCCACGCCACGAAGCAAACCTTCGATATCGGCGCTGATCTCGAATCAGCCCGGGAATTGGCAGGCACGCACGTCGAAGGCCATCTGTGCGAGAATTGCCGCGAAGCGGTAAGCACCGAGCTTGGCCGCAACCTATTTTATATGTCTGCCCTTGCGAATCTTCTGGACATTCAACTGGATGAGGTTGTTGTCAAGGAGTCGCAGAAATGCTCCACATTGGGTCTCTTCAACCTGTCGTAA	MSAPSLQAFQDQVSELLLRHRSLLDVLSKNGQSNASVNRAVTKAITECGCIELHATKQTFDIGADLESARELAGTHVEGHLCENCREAVSTELGRNLFYMSALANLLDIQLDEVVVKESQKCSTLGLFNLS				NA	NA	NA	NA	NA
AK002_05758	735			hypothetical protein	ATGACGAAATCAATTCCGAACATGTTTACTTTAGGTAATCTGTTTCTCGGAATGATTGGTATCATCTTGGCGACGGAAGGTCGAACGAGTATGGCTGCCATTATGATTATCATTGCCATGCTCCTTGACGGACTGGATGGTCGGGTAGCTCGGGCCTTGAATGCCCAAAGCGAATTCGGCAAGGAACTTGACTCCTTGTCCGATGTGATTTCATTTGGCGTAGCACCGGCACTTATTATGTATACCGTAGCGTTTACGGATATTAATACCGCATTGGCTTGGACAGTGACCGCCATATTTCCGATGTGCGGCGCACTGCGGCTTGCAAGATTCAATGTTCGTCCGGGCATCCCGGGATATTTTATCGGCCTGCCGATCCCCGCAGCGGGAGGCGTGCTCGCCACCCTGGCGTTGTTCCATGAAGAGATTACAGCACCTTATATGATTTTTGCCGTATTATTGCTTTCTTACCTTATGGTTAGCTCAGTCAAGTACCCGAATTTCAAAAAGATCGGCATTCCGAAAACCGCGATTAAATTTACGCCTTTGGTCATCATTGGCGCCGTGATGGTAGCCGTGTTCTTTCCGGAGCAGACTTCCATGCTGATCTTCGTGCCTTTGGTGTTGTATGCTGGTTACGGCTTGAAGCAGAATTTCCGCAGGCTGAACCGTAAAAACCGTCGCAAAAAAGATGACCGCAATTCCGATGAAGCCTATCAGTCTTCGGACCGATAA	MTKSIPNMFTLGNLFLGMIGIILATEGRTSMAAIMIIIAMLLDGLDGRVARALNAQSEFGKELDSLSDVISFGVAPALIMYTVAFTDINTALAWTVTAIFPMCGALRLARFNVRPGIPGYFIGLPIPAAGGVLATLALFHEEITAPYMIFAVLLLSYLMVSSVKYPNFKKIGIPKTAIKFTPLVIIGAVMVAVFFPEQTSMLIFVPLVLYAGYGLKQNFRRLNRKNRRKKDDRNSDEAYQSSDR	PGPT0007695_1349	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
AK002_05759	1077	disA		DNA integrity scanning protein DisA	GTGAAAGAAACGAGCCAACTGGACAAAATGAATGATTTGCTAAAGCTGGTAGCACCGGGAACGCCGTTTCGCGACGGACTGGAGAACGTGCTGCGGGCGAAGACGGGCGCCCTGATCGTTGTAGGCTACAGCCCGGAGGTAATGGAAGTTGTCGACGGCGGCTTCTCCATTAACTGCGATTTTTCGCCAAACTATTTATACGAGCTCGCTAAGATGGACGGCGCCATCATCTTGAGTGAAGACTTAAAACGAATCTTATATGCGAATACCCAGCTGATCCCGGATTCCTCGATCTCTTCCATCGAGACAGGAATACGGCACAGAACGGCGGAGCGGGTGGCGAAGCAGACGGGCAAGCTGGTTGTGTCCATCTCGCAGCGCCGTAACATTATTACGCTGTACCAAGGATCGCTGCGGTATGCATTGAAGGAAATCGGCGTCATCTTAACCAAGGCGAATCAGGCCATACAGACGCTGGAGCGATACCGCGTGGTGCTTAACCAATCGTTGACCAACCTCTCGGCATCCGAATTCGAAGAGCTGGTAACCATCCCGGAAGTCGTGAACGTCATACAGCGGGTGGAGATGGTGCTCCGCATCAAGAAGGAGATCAAGCGCTACATCAACGAGCTCGGTAACGAAGGCCGACTGATCAGCATGCAGATGGATGAGCTTGTGAGCAATATGGAGGAGGAGGCTTGGCTGCTGTATGCAGACTATGCCCGGGAGTACAGCGAGGAGAAGATCCGCGAGATCATTCTCGCGCTTAAGCGTTCAACGGATGAGGAGCTGCTGGACATTCATCATATCGTACGGCTTCTTGGATACCCGGCTTCCGCCGCTGCTTCGGAGGAAGAAATCCTGCCGCGCGGTTACCGGATTTTGAACAAAATCCCGCGTCTTCCGAATGTGATCATCCGCAACCTGGTGGACCAGTTCCATGACTTATCCAGCATTATGACCGCTTCCATCCATGAGCTGGATGAAGTAGACGGGATCGGCGAGGTTCGGGCACGCACCATCAAAGAAGGCTTGAAACGCTTGCAGGAACAAGTATTCATTGACAGACAAATCTAA	MKETSQLDKMNDLLKLVAPGTPFRDGLENVLRAKTGALIVVGYSPEVMEVVDGGFSINCDFSPNYLYELAKMDGAIILSEDLKRILYANTQLIPDSSISSIETGIRHRTAERVAKQTGKLVVSISQRRNIITLYQGSLRYALKEIGVILTKANQAIQTLERYRVVLNQSLTNLSASEFEELVTIPEVVNVIQRVEMVLRIKKEIKRYINELGNEGRLISMQMDELVSNMEEEAWLLYADYAREYSEEKIREIILALKRSTDEELLDIHHIVRLLGYPASAAASEEEILPRGYRILNKIPRLPNVIIRNLVDQFHDLSSIMTASIHELDEVDGIGEVRARTIKEGLKRLQEQVFIDRQI	PGPT0014770_367	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
AK002_05760	1368	radA	COG1066	DNA repair protein RadA	ATGGCAAAAACTAAGACGAAATTTTTCTGTACCGAATGCGGCTATGAAGCGCCCAAATGGTTCGGAAAATGTCCGGGCTGCCAATCATGGAATTCCATGGTAGAGGAGACCGAGACGGTAATCAAGACCCAGGGGATGAATTCCCCTCTTTTTCATAGTAAAGAAAAACCCCTTTCGATCATAAATATAGAAAGCGGTAAAGAACCCAGAATCCAGACGGGCATCGCGGAATTGAACCGCGTGCTCGGGGGCGGGCTGGTCCCGGGCTCGCTCGTGCTAGTCGGCGGCGATCCCGGCATCGGCAAATCCACGCTCCTGCTTCAAGCCTCCAACCGATTGGCCCAGAACGGCATTCGCGTTCTGTACATTTCCGGTGAGGAATCCGTGCGTCAGACCAAACTGCGCGCTGACCGGCTCGGGGCGCTGTCCCCGGAGCTGTTTGTCCTCTGCGAAACCAATCTGGAATCGATCGAGGAAGCCATTGAGAACGTACAGCCTGGCTTCGTTGTCATTGACTCCATTCAGACGGTTTACTTGCCTGAGGTAACCAGCGCGCCGGGCAGCGTATCCCAGGTTCGGGAATGCACGGCCCGCTTTATGAGGCTGGCGAAGGTGAAGGGCATTGCGACCGTTCTTGTCGGACATGTGACAAAAGAAGGCGCCATTGCAGGTCCAAGGATGCTGGAACACATGGTGGATTGTGTGCTTTATTTTGAGGGAGAGCGTCATCATACTTACCGCTTGCTTCGCGCGGTGAAGAATCGTTTCGGTTCGACCAATGAGATTGGCATTTTTGAGATGGGTGAGGATGGGCTTCGGGAAGTCGGGAATCCATCGGAGCTCTTTTTATCCGAACGGCCTTTGGGCGTAGCGGGTTCGACCGTAGTTGCAAGCATGGAGGGGACGCGCCCGGTTCTGGTAGAACTGCAGGCGCTCATCTCTACGACGCACTTTCCGTCACCGCGCCGGATGGGCACAGGGGTGGACCATCACCGCATGAACCTGATCATCGCCGTGCTGGAGAAACGGATGGGGATGTACCTGCAAACCCAAGACGCCTACCTGAACGTAGCGGGCGGCGTGAAGCTCGATGAACCTGCGGTGGATCTGGCCATAGCGGTCAGCATCGCATCCAGCTTCCGCGACATACCGACCAAGCCGTACGACGTTATTTTTGGCGAGGTGGGACTGACCGGCGAGGTTCGCGCCGTTTCAAGAGCGGAGCAGAGGGTAAGAGAAGCCGAGAAGCTGGGTTTTAAGCGCGTTCTCATGCCGGAGAAGAGTTTGAAGGGATGGAAGCATCCGAAAGGAATACAAATTATAGGAGTCAACACCGTTGCAGATGCATTAGCGGTTGCGTTAGATTAG	MAKTKTKFFCTECGYEAPKWFGKCPGCQSWNSMVEETETVIKTQGMNSPLFHSKEKPLSIINIESGKEPRIQTGIAELNRVLGGGLVPGSLVLVGGDPGIGKSTLLLQASNRLAQNGIRVLYISGEESVRQTKLRADRLGALSPELFVLCETNLESIEEAIENVQPGFVVIDSIQTVYLPEVTSAPGSVSQVRECTARFMRLAKVKGIATVLVGHVTKEGAIAGPRMLEHMVDCVLYFEGERHHTYRLLRAVKNRFGSTNEIGIFEMGEDGLREVGNPSELFLSERPLGVAGSTVVASMEGTRPVLVELQALISTTHFPSPRRMGTGVDHHRMNLIIAVLEKRMGMYLQTQDAYLNVAGGVKLDEPAVDLAIAVSIASSFRDIPTKPYDVIFGEVGLTGEVRAVSRAEQRVREAEKLGFKRVLMPEKSLKGWKHPKGIQIIGVNTVADALAVALD	PGPT0014905_2977	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
AK002_05761	246			hypothetical protein	ATGTATCAACCGAGCGGAGAGGACGGAATCGTTCTGAAGAAGCGACAGCGGTCGCCTTTAAATCCGGGAAACCACTTTGATTTCGATTCCAGTTTCCTGGTTTTAACAGCGATCGTAAGAACGATCCTGCAGCGAAGCGGATGGACAGGTTTTCAGTTAATATTCTGCGAAATTAACGCCCTTTTCTCCCTGGTTCCTTCAAATTTGAAACAATTCCATCTCATCCAGCGTAAAGTTTCCAATTAA	MYQPSGEDGIVLKKRQRSPLNPGNHFDFDSSFLVLTAIVRTILQRSGWTGFQLIFCEINALFSLVPSNLKQFHLIQRKVSN				NA	NA	NA	NA	NA
AK002_05762	2457	clpC	COG0542	Negative regulator of genetic competence ClpC/MecB	ATGATGTTTGGCAGATTTACGGAACGCGCACAAAAGGTGCTTGCATTGGCTCAGGAAGAAGCGGTACGCCTGGGTCACAACAATATCGGCACAGAACATATCCTGCTTGGACTTATTCGTGAGGGAGACGGCATTGCAGCCAAAGCGCTGATCGGACTTGGACTTGGTCTTGAGAAAATCCAGGACGAAGTGGAGACATTAATCGGACGCGGACAGGAGCAGCCAACCAACATTGCTTACACGCCTAGAGCGAAAAAAGTGATTGAGCTCTCCATGGACGAAGCCCGTAAGCTTGGCCATACCTATGTGGGAACCGAGCATATTCTGCTGGGGTTGATTCGCGAGGGCGAAGGGGTTGCGGCACGCGTGCTTAACAACCTGGGCATCAGCCTGAACAAAGCCCGTCAACAGGTGCTGCAGCTGCTGGGCAGCAGCGAAGCGGTGTCAAGCCATCATGGCACGCCGCAGAACGTGAGCACGCCTACACTGGACAGTCTCGCTCGGGATCTGACCGCCATTGCCAAGGAAGGCAATCTGGATCCGGTCATTGGCCGCAGCAAAGAAATCGAGCGCGTGATTCAGGTGCTCAGCCGCCGGACGAAGAACAACCCGGTACTGATCGGTGAACCGGGGGTAGGTAAGACGGCGATCGCGGAAGGCTTGGCACAGCGCATCATTAACAATGAAATTCCGGAGACGCTGCGCGACAAACGCGTGATGACGCTGGATATGGGCTCAGTCGTAGCGGGCACGAAATACCGCGGCGAGTTTGAGGACCGCCTGAAAAAAATCATGGATGAGATTCGTCAAGCCGGCAACATCATTCTGTTCATCGATGAGCTGCATACCTTGATCGGCGCAGGCGGAGCAGAAGGAGCCATTGACGCTTCCAACATCCTTAAGCCTTCATTGGCGCGCGGAGAGCTTCAGTGCATCGGGGCAACCACGCTGGACGAATACCGCAAATACATTGAAAAAGACGCTGCACTCGAGCGCCGCTTCCAACCGATCACGGTGGATCAACCGTCGCCGGAGGAAGCCATTCAGATCCTGTATGGACTGCGTGACCGTTACGAAGCGCATCACCGCGTGAAAATTACCGATGAAGCGATTGAACAGGCCGTGAAATTGTCCGACCGCTACATTACGGACCGCTTCCTGCCGGATAAAGCGATTGACCTGATTGACGAGGCCGGCTCGAAAGTTCGTCTTCATACGTATACCATACCGCCAAATCTGAAAGATCAGGAAGCGCATCTGGAGGACATCCGCAAGGAGAAAGACGCGGCCGTCCAAAGCCAGGAATTCGAGAAAGCGGCAGCGCTGCGCGATACGGAGCAGAAGCTTCGCGAGGAGCTCGAAGTCACGAAGAATCAATGGAAAGAAAAACAAGGACGTACCGATTCGGAGGTAACGCCGGAGGACATTGCCGACGTTGTCGCCAACTGGACCGGTATTCCCGTCAATAAACTGAAGGAAGAAGAGACAGAGCGTCTTCTGAATCTGGAAGAAATTCTTCACAGCCGCGTAATCGGCCAAGAGGAAGCCGTCAAAGCCGTCAGCCGTGCGGTTCGCCGGGCACGCGCAGGACTGAAGGATCCGAAGCGCCCAATGGGCTCCTTCATCTTCCTGGGCCCTACCGGGGTAGGTAAAACCGAGCTGGCACGAGCTCTTGCCGAGGCCATGTTCGGAGATGAGAATGCGGTCGTGCGAATCGACATGTCCGAGTACATGGAGAAGCATTCCACGTCGCGTCTCGTCGGAGCGCCTCCGGGATACGTCGGCTACGAGGAAGGTGGTCAGCTGACCGAGAAAGTGCGCCGCAAGCCGTATTCCGTTGTCCTTCTCGATGAAATCGAGAAGGCGCATCCTGAAGTGTTCAATATCCTGCTTCAAGTGCTGGAAGACGGACGCCTGACCGATTCGAAGGGCCGCGTGGTGGATTTCCGGAATACGCTGATCATCCTGACTTCCAACGTCGGGGCGGAAGCGATCAAGAAGAACTCCACGCTTGGATTTACCGCCGTGACGGATGCAGGCCGCGATTATAACAACATGAAAGGCAAAGTGATGGATGAGCTCAAGAAGAGCTTCCGTCCGGAGTTCTTGAACCGGATCGACGAGATCATCGTGTTCCACTCTCTGGAAGAGAAACACATTGCCGAAATCGTGACGCTGATGTCCGACGAGCTGCGTAAGCGCCTGAAAGAATTCGAGGTGCATTTCGAACTCACGGACAAGGCGAAGGCCTTCATAGCGAAGGAAGGATACGATCCGGCCTTCGGTGCCCGTCCGCTCCGCCGGGCTATCCAGAAGCACATCGAGGATCGCCTTTCCGAGGAACTGCTGAAAGGCAATGTGACCAAGGGCGACTCGCTTGTCATCGATGAAGCGAACGGCGAACTGGTTGTGAACAAAAGTGAAGGTGTAACGGCCGCATCGGCCGAAACGGAATAA	MMFGRFTERAQKVLALAQEEAVRLGHNNIGTEHILLGLIREGDGIAAKALIGLGLGLEKIQDEVETLIGRGQEQPTNIAYTPRAKKVIELSMDEARKLGHTYVGTEHILLGLIREGEGVAARVLNNLGISLNKARQQVLQLLGSSEAVSSHHGTPQNVSTPTLDSLARDLTAIAKEGNLDPVIGRSKEIERVIQVLSRRTKNNPVLIGEPGVGKTAIAEGLAQRIINNEIPETLRDKRVMTLDMGSVVAGTKYRGEFEDRLKKIMDEIRQAGNIILFIDELHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPITVDQPSPEEAIQILYGLRDRYEAHHRVKITDEAIEQAVKLSDRYITDRFLPDKAIDLIDEAGSKVRLHTYTIPPNLKDQEAHLEDIRKEKDAAVQSQEFEKAAALRDTEQKLREELEVTKNQWKEKQGRTDSEVTPEDIADVVANWTGIPVNKLKEEETERLLNLEEILHSRVIGQEEAVKAVSRAVRRARAGLKDPKRPMGSFIFLGPTGVGKTELARALAEAMFGDENAVVRIDMSEYMEKHSTSRLVGAPPGYVGYEEGGQLTEKVRRKPYSVVLLDEIEKAHPEVFNILLQVLEDGRLTDSKGRVVDFRNTLIILTSNVGAEAIKKNSTLGFTAVTDAGRDYNNMKGKVMDELKKSFRPEFLNRIDEIIVFHSLEEKHIAEIVTLMSDELRKRLKEFEVHFELTDKAKAFIAKEGYDPAFGARPLRRAIQKHIEDRLSEELLKGNVTKGDSLVIDEANGELVVNKSEGVTAASAETE	PGPT0014585_2522	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696	NA	NA
AK002_05763	1065	mcsB	COG3869	Protein-arginine kinase	ATGTCTAATCTCCGGTTTACCGATTCGGCGCTGAGCGAGTGGATGCGCGGGAACGGTCAGGATTCCGACATTGTCATCAGCACCCGCGTGAGGGTGGCGCGCAACCTGCAGCATCTTCCTTTCCCGCTGCTTGCAACGGATCAGCAGTCGGGAGAAGTGCTAGAGCGCCTGACCCATGTGTTAAAGGATAAGGAGGATTTGCAGGATTTCGGGCATTTGCATGTAATTAAATTAAGTGAGATTGATGAGCTGGATAAGAAGGTTCTCGTCGAGAAGCATCTGATCAGTCCCAATCTGGCAAATGAATCCCGAAACGGGGCCGTCATCCTTACCGAAGATGAATCCGTCAGCATTATGATCAATGAAGAGGATCACTTGCGCATACAGTGTCTGTATCCCGGATTCCAAGTTCGGGAGGCATGGAGCCGCGCGACGGCGCTGGATGATATTTTCGAATCCGAGATCGATTATGCTTTTGATGACAAACGCGGTTACCTAACGAGCTGTCCGACCAATGTCGGCACCGGCCTTCGCGCTTCGGTCATGATGCATCTGCCCGCGCTCGTCATGACGCAGCAGATCAATCGGATTCTCTCGGCCGTATCCCAGGTAGGCTTGACCGTTAGAGGAATTTACGGCGAGGGCAGCGAAGCTTTAGGCAACCTGTTTCAAATCTCGAATCAGATTACGCTCGGGCAAACCGAGTCGGAGATCATCGAGAATCTTCACAGCGTGGCCCTGCAGATCATCGAGCATGAGAAGAATGCCAGGGCGCGGCTCCTCAGTGAATCCAAGCTCCGTATTACGGACCGGGTCATGCGTTCATACGGCATCCTGTCCTATGCAGCGGTCATGGATTCCAAGGAAGCGGCTCAGCGCTTGTCCGATGTTCGGCTAGGCGTGGATCTCGGCCTGCTGGAAGGCCCGGAAATTCCGGTCATGAACGAGCTGAACGTGAAGACGCAGCCGGGATTTCTCCAGAAGACCTATGGAGAGGGCATGAATCCTTCCGAACGCGATATGTACAGGGCTAAGCTCATTCGGGAGACATTGGGCAACCGTTAA	MSNLRFTDSALSEWMRGNGQDSDIVISTRVRVARNLQHLPFPLLATDQQSGEVLERLTHVLKDKEDLQDFGHLHVIKLSEIDELDKKVLVEKHLISPNLANESRNGAVILTEDESVSIMINEEDHLRIQCLYPGFQVREAWSRATALDDIFESEIDYAFDDKRGYLTSCPTNVGTGLRASVMMHLPALVMTQQINRILSAVSQVGLTVRGIYGEGSEALGNLFQISNQITLGQTESEIIENLHSVALQIIEHEKNARARLLSESKLRITDRVMRSYGILSYAAVMDSKEAAQRLSDVRLGVDLGLLEGPEIPVMNELNVKTQPGFLQKTYGEGMNPSERDMYRAKLIRETLGNR	PGPT0014660_375	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014660-mcsB-K19405	NA	NA
AK002_05764	525	mcsA	COG3880	Protein-arginine kinase activator protein	ATGTTATGCCAAGAATGCGGTAAACGGCCGGCGACACTTCATTTCACCAAAATTGTGAACGGGGAGAAAACGGAGTTTCATTTTTGTGAAACTTGTGCCCGCGAAAAAGGGGAATTGATCCCCGGCACGTCGAATGGGTTTTCTATACACAGTTTGCTGTCAGGCCTGCTGGATCTGGATCCTTCAGGCAAGGGCCAGACCCCCGGTGCGAAAACGGCTCAGACGCTGCAATGCGAGGAATGCGGCATGACGTATTCCCAGTTCAGCAAGCTTGGTCGGTTCGGCTGCAGCTCGTGTTATAAATATTTCTCGGATCGATTGGATCCGTTGTTCAAGCGAGTCCATGGGGGAACCTCCCATGTGGGCAAAGTGCCGAAGCGTACCGGCGGCCGGATTCAGATCAAACGCCGGATCGATGAGCTTAAGAAGGAGCTTCAAATGAGGATCCTTCAGGAGGAATTTGAAGCGGCTGCCGAGATCCGGGACCAAATCCGTGAGCTGGAGCGTAACATTGCTCAGGGATAA	MLCQECGKRPATLHFTKIVNGEKTEFHFCETCAREKGELIPGTSNGFSIHSLLSGLLDLDPSGKGQTPGAKTAQTLQCEECGMTYSQFSKLGRFGCSSCYKYFSDRLDPLFKRVHGGTSHVGKVPKRTGGRIQIKRRIDELKKELQMRILQEEFEAAAEIRDQIRELERNIAQG	PGPT0014655_400	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014655-mcsA-K19411	NA	NA
AK002_05765	462	ctsr		Transcriptional regulator CtsR	ATGCGTAATATCTCTGATATTATCGAACAATACCTGAAGAGCATTTTGCAGGAAAGTCCGGAAGGAACCGTCGAAATTCAACGGAATGATTTGGCGGAGCAATTTTCTTGCGTTCCTTCCCAGATCAATTACGTGATCAGCACTCGGTTCACGCTGGAGAAGGGCTTTCTTGTCGAGAGCAAGCGCGGCGGGGGCGGATACATACGCATCCAGCGTATCGAGCTTCCCCAGCATACTGCACTCCAGCAGCACCTTCATCATACCATCGGCAGCATGATCGACCAGACGGTAGCGGAAGGCTTGATCTACCAGCTGGAGGAATCCCGGTTTTTGACGAAGCGGGAGGCCAGCCTGATGCGGGCCGCCGTTTCAAGGGAATGCCTGAATGTGAAGCTTCCTTATCGGGATGAGCTGCGCGCAAGGATTATGAAGGCGATGCTTATTTCTTTATTAGGTAAGTGA	MRNISDIIEQYLKSILQESPEGTVEIQRNDLAEQFSCVPSQINYVISTRFTLEKGFLVESKRGGGGYIRIQRIELPQHTALQQHLHHTIGSMIDQTVAEGLIYQLEESRFLTKREASLMRAAVSRECLNVKLPYRDELRARIMKAMLISLLGK	PGPT0014610_435	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014610-ctsR-K03708	NA	NA
AK002_05766	717	nagR	COG2188	HTH-type transcriptional repressor NagR	ATGTCGATCACGCGGAAGAACGGTCCATTATACTTGCAAATCAAGAAGATCATTAAAGATCGGATTCTGCATGGGGTATATCCACTTGGTTCCCATATTCCTTCCGAGCCGCAGCTGGAACAGGAATTTAACGTCAGCAAAATGACGGTTCGCAATGCGATCCAGGAATTGTACCAGGAAGGGTATGTAGAGAAGCGCAGCGGTGTGGGAACGATCGTGACCCGGAATACGTCCTTTTCCAAGCTGTCCAAGGGGAAGCTGTTTACCGAGATTTTGGTTGAAGAGGGCCACCAGATCCGGAAGCGCCATCTGAAGACGGAATGGGTGCACAATGAACCGGAAAGCGAATTGTTCCTGAAATTCGGTGAGCGGTGCCTGCTGATCGAACGGCTGTATTTGCTGGACGGGAGCCCGTTTATCTACTACACCCATTACGTATCGTCCCTGGTGGACATGGGGGAGGAGTTCGATTCAAGCGAACTGCCTTCCTTGTATGAACGTATCGAGGAGAGTCAAATCACGCTGGAGAATTTCCGGGACCGTTTCCTGGCGACCGTGGCTAATGAGGAGATTGCCTCGCTGCTGGATGTAAGCGCCGGAACCCCGTTACTGAAGCGGTTGAGATCCTCCTACGACCAGACGGGCAGCATCATTGAATACAGCATCGGGTACTACAATACGGAGTTACAGCATTATTTGATAAGTTATGATGCTTAA	MSITRKNGPLYLQIKKIIKDRILHGVYPLGSHIPSEPQLEQEFNVSKMTVRNAIQELYQEGYVEKRSGVGTIVTRNTSFSKLSKGKLFTEILVEEGHQIRKRHLKTEWVHNEPESELFLKFGERCLLIERLYLLDGSPFIYYTHYVSSLVDMGEEFDSSELPSLYERIEESQITLENFRDRFLATVANEEIASLLDVSAGTPLLKRLRSSYDQTGSIIEYSIGYYNTELQHYLISYDA				NA	NA	NA	NA	NA
AK002_05767	1017	iolC_2		5-dehydro-2-deoxygluconokinase	ATGCCTAAGACGATCGCTGCATTTGGCGAAGTGATGATGCGTCTTCAAGTACCCGGCTATGCTTCCTTGGCACAAGAGAGCCACCTGAACTACTCTTTTTCCGGGACGGGCGTCAACATCGCGTCGGCCGTGGCAAGGTTTGGCCATGACGGCTACCTCGTCAGCACGCTGCCGGACAACCCGCTTGGCGAAGCGGCGATCTCATATCTGCGCAAGCTTGGGATCGGCACATCGCTCATTAGCCGCGGCGGCAAATATGTCGGCATGTACTTCCTGGAGAATGGGTTTGGCGTTAGACCCGGTCGCGTGACCTATACGGATCGCTTAGGCAGCAGCTTTAATACCGCGGAGGATGCCATGTACGATTTCGATGCGATTGCAGAAAAGATCGACATGATCCATTTTTGCGGCATCACCCTTTCCATGAACGACACCGTGCGGGGCCAGATGAAGGTCTTGGCTCGCAAGGTCAAGCAAAGCGGCGGAACGGTTGTGTTCGACTGCAACTACCGTCCTTCCTTATGGGGCGCGGACCGCTACGATTTTGCCAAGCCGCACTACGAGGAAATGCTGTCTTTGGCGGATATCGTCTTCATGAACGAGAAGGATGCCATCCATATCCTTGGCATGGAAACAACCAGGGAGGATCGGCACGAACAGCTGCAGGAGTTGATTCCGAAGGTGGCGGCGAAGTATAATATTACGGTTGCGTCGGGTACCCACCGCAAGATCAACGGGGACAATACCCATTCCCTGCAAGGCTATCTTTACACGGATGGAGCGTTTCATTTTTCCAAAACGTTGACGTTCTCCGTCCATGACCGCATCGGGGCGGGCGATGCCTATGCCAGCGGTGTGATTCACGGGATCTCGGAGGGATATGAGCCGGGCCGGACGGTTGATTTTGCCGCAGCGGCGGCGATGCTTGCCCATACCGTAACGGGAGATACGCCGACGGCGAACGAACGCGAAGTGCTTCAGGCGATGAGTCATCATATGTCTGACGTGGAAAGGTAG	MPKTIAAFGEVMMRLQVPGYASLAQESHLNYSFSGTGVNIASAVARFGHDGYLVSTLPDNPLGEAAISYLRKLGIGTSLISRGGKYVGMYFLENGFGVRPGRVTYTDRLGSSFNTAEDAMYDFDAIAEKIDMIHFCGITLSMNDTVRGQMKVLARKVKQSGGTVVFDCNYRPSLWGADRYDFAKPHYEEMLSLADIVFMNEKDAIHILGMETTREDRHEQLQELIPKVAAKYNITVASGTHRKINGDNTHSLQGYLYTDGAFHFSKTLTFSVHDRIGAGDAYASGVIHGISEGYEPGRTVDFAAAAAMLAHTVTGDTPTANEREVLQAMSHHMSDVER	PGPT0018060_991	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
AK002_05768	756	dgaF		2-dehydro-3-deoxy-phosphogluconate aldolase	ATGGCAAACATGGAGAAACGTCTTTACAGAAACCGCGCGGCATTAAACGTTCTTGCAGGCAGCATTCAGAATGCGAAGGAAATATTCGAAGCTTCGGAAGGGCATGTTCTGGTCGGCGTATTGTCGAAAAATTACCCGAATGCGCAGGAAGCCGTCATGGCGATGAAGGAGTACGGAGCCGTCATCGAGGATGCCGTATCCATCGGCTTGGGTGCCGGCGATAACCGTCAAGCGGCGGTGGTCGCGGAGATCGTGAAGAGCTACCCGGGCACGCATATCAATCAGGTGTTTCCGGCGGTCGGTGCAACCCGAGCCAACCTGGACGGTGAAGAAAGCTGGATCAACAGCCTTGTGTCCCCTTCGGGACAAGTGGGCTACGTAAACATATCTACCGGACCGGTGAGCGCTGCCGGATCGGACAAAGCCATCGTCCCCGTAAAATCGGCAATCGCGCTTGTACGCGATATGGGCGGCAACGCACTGAAGTATTTCCCGATGCAGGGCTTGAAGCTTGAAGAGGAGTATCGTGCGGTAGCGAAGGCATGCGCGGAGGAAGGATTCGCGTTAGAGCCGACGGGCGGGATCGATAAAGAGAATTTCGAAGCCATCGTCCGCATCGCGTTCGAGGCAGGAGTACAGCAGGTCATTCCTCACGTATACTCCTCGATCATTGACTCGGCCAGCGGGGATACGATCATTAGCGATGTGCAAGAGCTGCACCTTAAGTTAAAAGCGCTGGTTGATCAATATGCCTAA	MANMEKRLYRNRAALNVLAGSIQNAKEIFEASEGHVLVGVLSKNYPNAQEAVMAMKEYGAVIEDAVSIGLGAGDNRQAAVVAEIVKSYPGTHINQVFPAVGATRANLDGEESWINSLVSPSGQVGYVNISTGPVSAAGSDKAIVPVKSAIALVRDMGGNALKYFPMQGLKLEEEYRAVAKACAEEGFALEPTGGIDKENFEAIVRIAFEAGVQQVIPHVYSSIIDSASGDTIISDVQELHLKLKALVDQYA	PGPT0002065_4	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_GLUCOSAMINE|GLUCOSAMINATE_DEGRADATION,PGPT0002065-dgaF-K17463	NA	NA
AK002_05769	1104	dgaE		D-glucosaminate-6-phosphate ammonia lyase	ATGGATCATTCATTACATGCTAAATACGGGTTGAAACGCGTGGTTAACGCCAGCGGGCGCATGAGCATTCTTGGCGTGTCGGCACCGACGGATACCGTCATGGAAGCCATGCGGATCGGTGGACAGAGTTACGTGGAAATCGCGGATCTGGTAGATAAAGCAGGCGATTACATGGCGCGCATTCTCGGTTCCGAAGCGGCGGTTGTCGTCAATTCGGCTTCCAGCGGCATCGCTCTATCCGTGGCTGGTATCGTCACCGAGGGCAATCGCAGGCGCAGTGACCGACTGCATCAGGAGCCGATTGCCAAGAACGAGATCATCCTGTTCAAGGGGCATAATGTGCAGTATGGAGCTCCCGTTGAAACGATGGTGTATCTCGGAGGCGGCAAGGTCGTAGAGGTAGGGTACGCCAACGAAGGGCGTAAGGAGCATATTGCAGAAGCGATAAATGAACGGACCGCTGCCATTTTATACGTGAAATCCCATCACTGCGTGCAGAAAAACATGATTTCGGTGGAAGAAGCGGCAGAAGTGGCCCAGGCACATGGAATACCGCTGATCGTGGATGCCGCTGCCGAGGAGGATATCCAGAAGTATGTGAAGTACGGAGATCTGGCTATTTACAGCGGTTCTAAGGCAATCGAAGGTCCGACCTCCGGTATAGTAGGCGGCAAGCGCCAATACGTGGAATGGGTGAAGGCGCAGCTGCATGGCATTGGGCGGAGCATGAAGGTGGGCAAGGAAACGACGTTTGGATTGCTTCAGGCGCTGGATGAGTATATGGTGAAGGAAGATAAGAGCGATTTGGAGAAGGCGGCACTCGAGGAAATGAAGTCCTTATCGAAATTGCCGGGTATTGAGGTTGCGATCGTGCAGGACGAAGCGGGAAGAACGATCTTCCGGGGACGCGTGAAGGTCAATGAGGAGGCGGCCGGGGTCAGCGCCAAATCCATGAACGATCAGCTGCGCGAAGGCGACATTGCGGTGTATACCCGGGATTACGGCGTACGCCAGGGGTATTTTGATATCGATCCTCGCTCGCTTTCCGGCGATGATTTGCGAGTCATTATAACAAGAATACAGCAGATTGCAGGGGGAAACTAA	MDHSLHAKYGLKRVVNASGRMSILGVSAPTDTVMEAMRIGGQSYVEIADLVDKAGDYMARILGSEAAVVVNSASSGIALSVAGIVTEGNRRRSDRLHQEPIAKNEIILFKGHNVQYGAPVETMVYLGGGKVVEVGYANEGRKEHIAEAINERTAAILYVKSHHCVQKNMISVEEAAEVAQAHGIPLIVDAAAEEDIQKYVKYGDLAIYSGSKAIEGPTSGIVGGKRQYVEWVKAQLHGIGRSMKVGKETTFGLLQALDEYMVKEDKSDLEKAALEEMKSLSKLPGIEVAIVQDEAGRTIFRGRVKVNEEAAGVSAKSMNDQLREGDIAVYTRDYGVRQGYFDIDPRSLSGDDLRVIITRIQQIAGGN	PGPT0004815_1724	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004815-selA-K01042	NA	NA
AK002_05770	1113		COG3964	Deacetylase	ATGAAGATTTTGGAACAGCGTTTTGTTTTGCGCAACGTACAGACGGTGCATGATGAGAAGCCTTTTGACATTGTCATGGAGAACGGGTTCATTACCGAAATAACGGATGCGGATACGGCATCGGGTGACAACGGTTTTGACGGTACGGGATTATATGTGTCCAGCGGCTGGATCGATATGCACGTCCATGCGGTCGCCAAGCTGGAGCCTTATGGCGATGCCATTGACGAGATCGGGGTTCAGCAAGGGGTCGCTACCATTATCGATGCAGGAAGCTGCGGCGCGGATACGATTGGAGAATTGGCAGCCGAGGTTGCCAGGGCCAAGACCAATGTGTTTGCATTTTTGAATATTTCCCATATTGGACTTCAGCGGATCGACGAGCTTTCCAGTTTGGAATGGATCGATCCTGAGAAGGCAGCAAAAGCGGTATTGACGTATCCCGACCTGATCATCGGGCTCAAGGCAAGAATCAGCAAAAGCGTAGTGAAGGACAATGGCGTAGAGCCGCTTCGACTCGCAAGGAAACTGTCCGGGAAAACGTCCCTGCCGCTGATGGTTCATATCGGATCAGGACCTCCTCCGATTGAAGAAGTGCTGGAGCTGCTTCAGAAGGATGACATTATCACTCATTATTTGAACGGGAAAGCCAACAATTTATTCGATTCGGACGGAAAGCCGATTCCTGCCCTGACAAAAGCGATTGCCCGCGGCGTTCATCTGGATGTCGGCCATGGTACGGCGAGCTTCTCGTTCCTGGTGGCTGAGTATGCGAAATCCCAGGGGATTAAGCCGGATACGATCAGCACCGATATTTATCGCGGCAATCGCATCCATGGTCCGGTGTACAGCCTGGCCAATGTCATGAGTAAGTTTCTGTATCTAGGATACGGCTTGCAGGAAGTGGTCGCTGCGGTAACGGACCATGCAGCAGCTTGGCTGGGCCGTCCGGAGCTGGGCCGAATCCAAGTCGGCGACGCTGCCCATTTGACGCTGTTCGCGGTGCGGCAGGGACCGATGAGTTTGACCGATTCCGAAGGGGAGACCCGAATCGCGGACCGATATATCGAAGCCAAAGGAGTGGTAGTCAATGGATCATTCATTACATGCTAA	MKILEQRFVLRNVQTVHDEKPFDIVMENGFITEITDADTASGDNGFDGTGLYVSSGWIDMHVHAVAKLEPYGDAIDEIGVQQGVATIIDAGSCGADTIGELAAEVARAKTNVFAFLNISHIGLQRIDELSSLEWIDPEKAAKAVLTYPDLIIGLKARISKSVVKDNGVEPLRLARKLSGKTSLPLMVHIGSGPPPIEEVLELLQKDDIITHYLNGKANNLFDSDGKPIPALTKAIARGVHLDVGHGTASFSFLVAEYAKSQGIKPDTISTDIYRGNRIHGPVYSLANVMSKFLYLGYGLQEVVAAVTDHAAAWLGRPELGRIQVGDAAHLTLFAVRQGPMSLTDSEGETRIADRYIEAKGVVVNGSFITC	PGPT0021145_5870	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
AK002_05771	747			hypothetical protein	ATGATGAGACTGCTGAAATACGACTGGAAGAGAAACTCGACCACGCTGCTCGGCGCCTTTGCGATTCTTCTTATCGTGCAGATCGCGATCACGGTGACGGGTTCGATAAGGGATTGGGAGCTAGGATTGAGTTTTGGTTTAAGCATGCTGGCTTACGGATCGGTAAGCGTCTTGCTGCTGGTTGTTACCAGCAAGAACTTCGACTATAACATCAAGGCATATCACCGGCGTCTGCTCCCCGTCCGTTCCGTCTGGAGCGTGGTTTCCTCCCTCATTCTGGCGTGCGCGAGTATACTGACGCTGTGTATACTGATGGCGCTGCATTTGTGGTACTATTGGAACGCTGCCGGCATCCCATGGGAAATGATCCGTTTTTCCGATTATCCTGTTATGTATTATGTTGGTCTCGCCCTGTTGACGGCATGGAAATTCATCTTCCTGATGATTACGATATTTTTTGCCATTGCCGTGGCCAACAGCATCACGAAGAAAGGCAGCGTATGGATCGGCATTCTGGTGTTCTTTGTATTGCATAATGTCCTGTCCTGGATCAGCCGGCTGTTCTTCGGAGAAGAGGCAGCATGGGTCGGGCCGATGGCGACCATTTCCTTCGAGAATGAGGCGGATTTTACCGTGTCTGCCGCGCAGTATACGTTAGCATGGGGGGCATTTGTTTTTGAGGTCATTGTGGCAGCCTTGATCCTATATGCTACGGTGTATCTCGTTGATCGGAAGGTTGAGGTTTAA	MMRLLKYDWKRNSTTLLGAFAILLIVQIAITVTGSIRDWELGLSFGLSMLAYGSVSVLLLVVTSKNFDYNIKAYHRRLLPVRSVWSVVSSLILACASILTLCILMALHLWYYWNAAGIPWEMIRFSDYPVMYYVGLALLTAWKFIFLMITIFFAIAVANSITKKGSVWIGILVFFVLHNVLSWISRLFFGEEAAWVGPMATISFENEADFTVSAAQYTLAWGAFVFEVIVAALILYATVYLVDRKVEV				NA	NA	NA	NA	NA
AK002_05772	705	yxlF_2	COG1131	putative ABC transporter ATP-binding protein YxlF	ATGGTGGAAAATCTGTTACAGGTACGAAGCGTGACCAAAACGTATGCCGGTAAACGCAGAGCGCTGCATGATGTCAATCTGGATATCAGCGGAGGCAAAATCATCGGCTTGCTGGGTACCAACGGCAGCGGCAAGAGCACGCTGATGAAGATTGCAGCCGGTTTGATCCAGCCTACGGCGGGTGCCGTTTACGTGAACGGCAAACCCGTGGGGCTGGAGACTAAAGCCAGCGTGTCCTTCATGCCGGACCGGCCGATGACGGAATCCTGGATGAAGGTCTCGGATGCGGTGGCGTACTTCAAGGATTTTTATGAGGATTTTAATGTAGAGAAGGCAAACAGAATGCTGGACTTCATGAATTTAAAGACCAATGATCGCATCAGCTCCCTGTCCAAAGGGATGAATGAGCGCCTGCAGTTAACGCTCGCATTGTCCCGCGAAGCGAAGCTGTATATGCTGGATGAACCCATCGGCGGGGTGGATCCCGTAGCCCGAGGAAAAATTTTGGATGCCATCGTTGAATTCTACAACGAGGACAGCAGCATCATGGTTTCGACCCATCTGGTCCGGGACATCGAACGGATATTTGATGAAGTGATCTTCATTCGCAACGGCGAGGTTGCCATGCATGACGAAGTGGAGAACATCCGCCTAAAACACGGAAAAAGCGTGGATGAGATGTTTAAAGAGGTGTATGCGGAATGA	MVENLLQVRSVTKTYAGKRRALHDVNLDISGGKIIGLLGTNGSGKSTLMKIAAGLIQPTAGAVYVNGKPVGLETKASVSFMPDRPMTESWMKVSDAVAYFKDFYEDFNVEKANRMLDFMNLKTNDRISSLSKGMNERLQLTLALSREAKLYMLDEPIGGVDPVARGKILDAIVEFYNEDSSIMVSTHLVRDIERIFDEVIFIRNGEVAMHDEVENIRLKHGKSVDEMFKEVYAE	PGPT0006725_26905	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05773	366	ytrA_3	COG1725	HTH-type transcriptional repressor YtrA	GTGAGTATCGAATTTGACAATAATCTGCCGATCTATTTACAGATCATGACGTATCTGAAGAAAGAAATCATCATCGGCAAACTTCTGCCCGGTGATAAAATCCCATCGGTTCGAGAATTAGCGAGTGAGCTTCAAATAAATCCAAACACGGTGCAGCGAACTTTTCAGGAATTGGAGCGTGAGGGTATTGTGGAGACGCGGCGGGGATTGGGCCGATACGTAACTAGCGAGGAATCGAAAATCATGGAAATCAAAAAAGAAATGGCCGGCGATCTGCTGGAACGGTTTATACGCGGCATGCAGGAACTCGGCTTTAAAGATCAGGATATCATTACGATCGTGGAAGATGCTGTGAAGCAGCCATGA	MSIEFDNNLPIYLQIMTYLKKEIIIGKLLPGDKIPSVRELASELQINPNTVQRTFQELEREGIVETRRGLGRYVTSEESKIMEIKKEMAGDLLERFIRGMQELGFKDQDIITIVEDAVKQP				NA	NA	NA	NA	NA
AK002_05774	759			hypothetical protein	TTGCGTAGCTTTGGAAATCTCGTCTGGAACGAATGGCTCAAAATGTTTAAGAAACGAAGCTTCTTCTTGCCATATGCGCTTTTGGCTGGAATGGTGATCTTCACGGCGTTCTTGCTCTTTAAATTTTCCGATGGCGGCAGCACCGGCTACGAATTTGCCCAGATCGCTGTAACCACCAAGGGAATGGGGCAAGTGCTGACCCTGCTTGCCATTGTTGTGACGGCAGGAGCCGTAGCGAAGGAACACAGCATGGGAACGATCAAATTGCTGCTTATACGCGCACAGAGCCGCACCAAAATTTTGGCATCGAAATATGTGGCCGTATTGATTTACATCTTAACACTGGTGGCCTTCATGTTTGCTGTAGCCGTGCTGACAGGACAAATTACGTTCGGCATGGATGTCGGCTCCGTTACGCTAGGCGATGTGCTCATTGGAGCGGTGAACAACCTGGTGTATACGATCGTTTATGTAACGCTGACCTTTATGGTAGGCATTCTAACGAGATCCACCGGTCCTGCGATCGGTATCGGCATGTTCATGGTCATTATGGAAAGCATGGTGGTACAGCTGCTTGCACGTTATTCCTGGTCCAAGTACCTGCTGTTCCTCAACGTGGATCTTTCCCTGTACAGCGGAGGCGCAAGCTCCCCGGTACCAGGCATGAGCTTAACGTTCTCAATTATTGTGCTCGCTGTATATCTCCTCTTGTTTCTTGCGACAGGCTTTGTTACGTTTAAAAAACGGGATGTCGCATAA	MRSFGNLVWNEWLKMFKKRSFFLPYALLAGMVIFTAFLLFKFSDGGSTGYEFAQIAVTTKGMGQVLTLLAIVVTAGAVAKEHSMGTIKLLLIRAQSRTKILASKYVAVLIYILTLVAFMFAVAVLTGQITFGMDVGSVTLGDVLIGAVNNLVYTIVYVTLTFMVGILTRSTGPAIGIGMFMVIMESMVVQLLARYSWSKYLLFLNVDLSLYSGGASSPVPGMSLTFSIIVLAVYLLLFLATGFVTFKKRDVA	PGPT0006730_20956	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK002_05775	1038	bcrA_9		Bacitracin transport ATP-binding protein BcrA	ATGAGCGGAAACGATTCAAATAAAATGACAACGAATATAGAGAACGCCTCAGGGGAATGGGTTGATGGAATCAGTGGATCGGCCTCCACCAATAGGAAAGATGCCAAGAAAGGGCCCGTCGTCCTTACCGTCAATCAGGTCACCAAGACGATTGGAAAGAAGAACATCGTCGACAAGCTATCCTTTGACATTCATCGTGGCGAAATCGTTGGTTTGCTTGGACCGAACGGCGCAGGCAAAACAACAACCATTCGTATGATTGTAGGGTTGATCGAAATGAGCCAAGGCGATGTACTGGTCAAGGGACACAGCATCAAGTCCGATTTCGTTCAAGCCGTCCGCCATATCGGGGGCATCATCGAGAATCCGGAATTTTACCCGTACATGAGCGGTTATGACAACCTGAGGCAGTACCAGCGAATGTCCGAGGGAGTGACAATCACAAGAATCATGGAGGTTGTCAAGCTTGTCGGGCTGCAGGACGCCATACACAAGAAGGTTCGTGCTTATTCCCTTGGTATGCGCCAACGATTAGGAATCGCGCAGGCGCTGCTCCACAATCCGTCCATCCTTATTCTCGATGAGCCGACGAACGGACTGGATCCTGCCGGTATTCGCGAGATGCGGGATTATTTGAAACAAATCGCCAGAGATGAGGGAATTGCCATTCTCGTATCCAGCCATCTGCTGTCGGAGATGGAGCTGATGTGCAGCCGCGTGGTGGTCATCCAGGAAGGCAAGTTTGTTACCGAGCGCTCAATTGGGGGGACGGTCGTGAATGAAGAGTTAACGACGGTAAGCCTCCGCGTGAATGATACGGCCATGGCGGAACAAACGGTTCAACATCTCAAAGGCATCACTCTGATCAATAACTCAGAGGAGGAGGGGATGATCACTCTTCAACTTCACGAAGAGGATATACCCACGCTGATCCAGTCACTGTGCGATGCACGCGTACGGATTTACCGGGTGGAAGAGATAAAATCATCACTTGAAGAAGAATTCTTGAAATGGACAGGAGGCAACCGCATTGCGTAG	MSGNDSNKMTTNIENASGEWVDGISGSASTNRKDAKKGPVVLTVNQVTKTIGKKNIVDKLSFDIHRGEIVGLLGPNGAGKTTTIRMIVGLIEMSQGDVLVKGHSIKSDFVQAVRHIGGIIENPEFYPYMSGYDNLRQYQRMSEGVTITRIMEVVKLVGLQDAIHKKVRAYSLGMRQRLGIAQALLHNPSILILDEPTNGLDPAGIREMRDYLKQIARDEGIAILVSSHLLSEMELMCSRVVVIQEGKFVTERSIGGTVVNEELTTVSLRVNDTAMAEQTVQHLKGITLINNSEEEGMITLQLHEEDIPTLIQSLCDARVRIYRVEEIKSSLEEEFLKWTGGNRIA	PGPT0006725_1571	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05780	1257	fsr		Fosmidomycin resistance protein	ATGGCAGACAAAAGCATCGCTCTCCAAAAGCCCAAAGATACTCCAAGTCCTGCGCATGGAGAGGCAAATCAGGCTACAGTATATAAAATTCTAATCGCCATCAGTTTCGTTCATTTGTTTAATGATTCGATTCAGTCCGTGATCCCTGCTATCTTCCCCATATTAAAGGATAATCTGCTGCTTACCTTTACGCAGATCGGTTGGATCTCCTTTGCCATTAATTTTACTTCATCCATCATTCAGCCGGTCATCGGGTACGCCGCGGATCGAAGACCGACACCGATTCTGCTTCCGATTGGGATGTGTTTTACCTTTGCAGGCGTATTCATTCTTGCATATGCACATACATATATCCTGGTTCTGTTCGCTGTCGTTCTGATCGGATTAGGCTCCGCTACCTTTCATCCTGAGGGAATGCGGGTCGCTCATATGGCTGCAGGCATGCGAAAAGGGTTGTCCCAATCGATCTTTCAAGTAGGGGGCAATGCCGGGCAGTCACTTGCTCCGCTTCTGACACGATACATTTTCATACCGTTCGGACAGTTTGGCGCGATTGGCTTCACCTTCGTTGCCGCGGCTGGTATCATCGTGCAATCCTATGTTGCCCATTGGTATCACGGGATGCTGAAAGCCGGTTACACGTTTAAAAAGAAAGCTGCCGGACGCATGCTTGATCCCGCTCGCCGCAAAAGCGTACGCAATGCCACGCTGGTTCTCGTCATTCTCGTGTTTATCCGCTCCTGGTATAGCGCAGCCATTAGCAGCTATTATGCCTTCTACCTCATGGATGCATACAAAATCACGATTGATAATGCTCAGATCTATATTTTTCTGTTTCTTGCATCCGGAGCCGTGGGCACCTTCTTCGGCGGTCCGCTGGCCGACCGCTTTGGCCGTCGCAACATGATCATGCTCTCCATGATCGGCACGGCGCCCATTGCGTTGATTCTTCCGTTCGCCTCCCCGTTCTGGGCGGCTGTATTGCTGCTGATCGGCGGGTTTGTTCTATTATCCAGTTTCTCGGTCACCGTTGTGTATGCCCAAATGCTGCATCCGGGTAATATCGGTACGGTATCCGGGCTGATCACCGGGTTTGCTTTTGGCATGGGCGGGGTCGGTTCGCTTGTGCTCGGTAATCTCGGGGATGCTTGGGGAATCGGCAATGTGATGATCGCCATCGGCTTCTTGCCGCTGCTTGGTCTGCTTGCCCTGCTTCTTCCGGGTGATGACAAGCTGGATCAGTGGTCAAGGGAATAG	MADKSIALQKPKDTPSPAHGEANQATVYKILIAISFVHLFNDSIQSVIPAIFPILKDNLLLTFTQIGWISFAINFTSSIIQPVIGYAADRRPTPILLPIGMCFTFAGVFILAYAHTYILVLFAVVLIGLGSATFHPEGMRVAHMAAGMRKGLSQSIFQVGGNAGQSLAPLLTRYIFIPFGQFGAIGFTFVAAAGIIVQSYVAHWYHGMLKAGYTFKKKAAGRMLDPARRKSVRNATLVLVILVFIRSWYSAAISSYYAFYLMDAYKITIDNAQIYIFLFLASGAVGTFFGGPLADRFGRRNMIMLSMIGTAPIALILPFASPFWAAVLLLIGGFVLLSSFSVTVVYAQMLHPGNIGTVSGLITGFAFGMGGVGSLVLGNLGDAWGIGNVMIAIGFLPLLGLLALLLPGDDKLDQWSRE				NA	NA	NA	NA	NA
AK002_05781	192			hypothetical protein	ATGAGATATAGAACAGTGTTCTATGCAACCATTGCCATCGTGCTATTTTTCGTTATGGTTTCTGTAGTGGGGAATCTGGTTGAGGGATCAGAAGCCGGAGCTATTCAGTTGAGCTTCGAGTGGGTGACTAAATACGTGCTCCCATGGATATTCCTATACTGGTTCATAAAACTCGTCAAAAAAATGAAATAA	MRYRTVFYATIAIVLFFVMVSVVGNLVEGSEAGAIQLSFEWVTKYVLPWIFLYWFIKLVKKMK				NA	NA	NA	NA	NA
AK002_05783	2013	ligA		DNA ligase	ATGGATTTCAAGGAAAAGATGGAGAAGCTCATTGCGGAGCTGAACAATTATAATTACCATTACTACACGCTGGATCAGCCGCTTGTAAGCGACAAGGAGTATGACGCCCTGTACGACCAGCTGGTAGCGTTGGAGGCAGAGACCGGAGTGACGCTCCCGGATTCTCCGACCCAGCGGGTGGGCGGGGAGATTCTGAAGGGTTTTGCCCCGCACCGCCATTTGGCTCCGTTATGGAGTCTCGATAAAGCCCAGAACATCGAGCAGCTCCGTACCTGGCATGATCGCGTGGTCAGGCTGGTCAATGACTATAATACGAAGAATCCCGGCAATCCTCTGCCGTCGCCTTGTTATGCACTGGAGCTGAAGTTTGACGGGCTGACGCTGAATCTGACCTATCAGGACGGCAAGCTGGTTCAAGCATCGACACGGGGCAACGGAACGGTAGGCGAGGGCATTTTGTCACAGGTGAAGACCATCAAGTCGGTGCCGATGACGATCCCGTACGCGGAAGGCACGATCGAAGTGCAGGGCGAGGGCATCATGAACCTGTCCGTGCTGGAACAATACAATCAAACCGCGGCCGAGCCGCTCAAGAACGCGCGTAATGCTGCCGCAGGAGCGCTTCGCAATCTGAATCCGAAGGTGACGGCCGAGCGTAAGCTGAACGCGTACTTTTATAATGTCGGCTACTCGGATGGAATCACTTTTGCCGACCACAAGGAAATGATGGACTTCCTGCGCGAGAATCGGCTGAAGGTCAACCCGTACATTTTCTATTTCGAGCAGTTTGATGATGTGATGGAGCAGCTGGCCGATATCGAGAAACGCCGTTCCGAGCTCGATTACCTCATTGACGGGGCGGTTGTGAAGGTGACCGATTTCCGCATCCGCGAGGCGCTTGGATATACCGACAAGTTCCCGCGCTGGGCGGTCGCTTACAAATTCGAAGCGGAAGAAACCACGACCGTGCTGCAGTCGGTTACCTGGAATGTGGGACGGACCGGAAAAATCACGCCATTAGCGCGTGTAGAGCCCGTTGAGCTGGCCGGAGTTACGGTGCAGAATTGTACGCTGAACAATATCGGGGATATTGAGCGTAAGAACCTCAAGTTCGCGCTGGGCTCGCGGGTCTTCATTCGCCGTTCGAATGACGTCATTCCCGAGATCCTCGGCAAAGTGACGGAGGAGCAGGATGGCGAAGAGATCCTGTATCCGGAACAGTGTCCATCCTGCGGATTTCCGCTGGAACAGCGCGGCGCCCACCTCTTCTGCAACAACAAGACGGGGTGCAAGCCGCAAATCGTGGCCCGGATCACGCATTTTGCTTCCAGGGATGCCATGGACATTGAAACATTCAGCGATAAAACCGCGATCCAGTTATACGACGAACTGGGCGTGAGAGAACCGGCGGATCTTTATACGCTGTCGTTTGAAAGCTTGCTGAAGCTGGAGCGCTTCGGCGAGAAAAAAGCCCAGAATCTGCTGGATGCCATCGAGAAGAGCAAGGAGCGGGATCTTGCATCGTTCCTATTTGCACTGGGCATACCGAATACCGGCAAATCCACAACCAAAATGCTGGCCGATCACTACCGTGATCTGAACCGCGTGATGGCCGCGACCGCGGAAGAATTGGTCGAGCTGCCGGACGTGGGCGGCATCGTGGCCGACAGCATCGCGGGATACTTCGCCGACCCGTTTGCCCAAGCGAGCATCCAGAAGATGCTCTCGCTAGGCGTCCAAGCGAAAGCGCCGGAAGCGCCGAAGCCGGTCAGCACGGATTCCTACTTCAGCGGCAAAACGGTCGTGCTTACAGGCACCCTCCATCTGCTGACCCGCGAAGAGGCAACCGAACGCTTGGAAGCGCTCGGGGCCAAAGTCACCGGCAGCGTGTCCAAGAAAACCGACCTTCTCATTGCAGGCGAAAAAGCCGGCAGCAAGCTGGCCAAAGCCCAGCAGCTCGGCATCGACATCCTGGAGGATGAAGAAGAGTTCGTGCGGTTGTTGAACGAATAA	MDFKEKMEKLIAELNNYNYHYYTLDQPLVSDKEYDALYDQLVALEAETGVTLPDSPTQRVGGEILKGFAPHRHLAPLWSLDKAQNIEQLRTWHDRVVRLVNDYNTKNPGNPLPSPCYALELKFDGLTLNLTYQDGKLVQASTRGNGTVGEGILSQVKTIKSVPMTIPYAEGTIEVQGEGIMNLSVLEQYNQTAAEPLKNARNAAAGALRNLNPKVTAERKLNAYFYNVGYSDGITFADHKEMMDFLRENRLKVNPYIFYFEQFDDVMEQLADIEKRRSELDYLIDGAVVKVTDFRIREALGYTDKFPRWAVAYKFEAEETTTVLQSVTWNVGRTGKITPLARVEPVELAGVTVQNCTLNNIGDIERKNLKFALGSRVFIRRSNDVIPEILGKVTEEQDGEEILYPEQCPSCGFPLEQRGAHLFCNNKTGCKPQIVARITHFASRDAMDIETFSDKTAIQLYDELGVREPADLYTLSFESLLKLERFGEKKAQNLLDAIEKSKERDLASFLFALGIPNTGKSTTKMLADHYRDLNRVMAATAEELVELPDVGGIVADSIAGYFADPFAQASIQKMLSLGVQAKAPEAPKPVSTDSYFSGKTVVLTGTLHLLTREEATERLEALGAKVTGSVSKKTDLLIAGEKAGSKLAKAQQLGIDILEDEEEFVRLLNE				NA	NA	NA	NA	NA
AK002_05784	2331	pcrA_2	COG0210	ATP-dependent DNA helicase PcrA	ATGCATTCCATTGACATACACGACGCCGTCAGACGTCTCAATCCGCAGCAGCGCCAGGCCGTTGAAGCAACCGACGGACCACTGCTCATTATGGCCGGAGCCGGTTCCGGCAAGACGCGGGTGCTGACGCACCGGATCGCGTACCTGATCGCCACGCGCAAAGCCGCACCATGGAGCATCCTGGCGATTACGTTTACGAATAAGGCAGCCCGCGAGATGCAGGAGCGGGTATCCAAGCTGGTCGGCCGGGAAGGCCAGGACATCTGGGTATCGACGTTCCACTCCATGTGCGTACGGATTTTGCGCAGAGACATTGAACGGATCGGCTTCACTTCGAACTTTAGTATTTTGGATTCGACAGACCAGTTGTCAGTTATTCGGAACGTGATGAAGCAGCACAACATCGATCCGAAGAAATTCGAGCCGAAGGCGATTCAAGCGGCCATGAGCGCCGCGAAGAATGAACTGATCTCCCCGCAGCAGTATGAACAGAAAGCCGGAGACTATTTTGAAACCCTTGTAGCCAAGGTTTACACCGAATACCAGAAACGCTTGAAGAGCAACAACTCGCTTGATTTCGACGATCTGATCATGACCACGATCCAGCTGTTTAAGGAAGTGCCGGAGGTTCTCGACTTCTACCAGCGCAAATTCCAGTACATCCACGTGGATGAGTATCAGGATACCAACCGGGCGCAGTACATGCTATGCCGCATGCTTGCGGACAGCCATCACCGCATTTGCGTTGTCGGGGACAGCGACCAGTCGATCTACCGCTGGCGCGGCGCGGATATCACGAACATCCTGAATTTTGAGCAGGATTACCCGGAGGCGCGCACGATTCTGCTGGAGCAGAATTACCGTTCGACAGCGAACATTTTGAACGCTGCCAACAATGTTATTGGCCTGAACACGGGCCGCAAGCCGAAGAATCTGTGGACCGAGCAGGGCGAAGGACCGAAGATCAAAGTGTTCCGTGGGGATACGGAGCATGATGAGGGGTATTTTGTCACCTCGGAAATTAGCAAGAACATCAAGGACGGCAAGAGCTATCAGGACCACGCGATTCTGTATCGGACCAACGCGCAGTCCCGGGTGATCGAGGAAATTCTGATCAAGTCGGATATTCCGTACCAGATCGTCGGCGGCATCAAGTTCTACGATCGCAAAGAGATCAAGGACATGCTTGCTTATCTGCGCCTGATTTCCAACCCGGACGACGATATCAGCTTGACGCGGATCATTAACGTGCCAAAAAGAAGCATCGGCGACACAACCGTCGCGAAGCTGGCTGCTGCAGCCGGAGAGCGGGGCATCTCGATCTTCCGCGTGCTGGAAATCGTGGACGACCTCGGTTTTGCCGGACGGACGCGCAATGCGCTGGTGGGCTTCTACGACATGATCGCCGCGCTCAGCCGAATGGTCGAGTTTCTGTCGGTGACCGAGCTTACGGAAAAAATTCTCGAGATGTCCGAGTACCGCCTCGAGCTGCAAAACGAGAATACTATCGAATCCAGATCCCGTCTCGAGAACATCGACGAGTTCCTGTCGGTGACGCAAGAGTTCGAGAAGAACAACGAGGATAAATCGCTCGTCTCCTTCCTCACGGATCTTGCGCTGATCGCGGACATCGACTCGATGAACGATGACGAAGAGGACCGCGACGATGCTGTCGTGCTCATGACCATGCACAGCGCCAAAGGCCTGGAGTTCCCGGTGGTATTCATCATCGGCATGGAGGAAGGGGTATTCCCGCACAGCCGTGCCTTTATGGATAACGAGGAGCTGGAAGAGGAACGACGGCTTGCATACGTAGGGATCACGCGCGCCGAGAAGCAGTTGTTCTTATCCTGTGCGCGCATGCGTACGCTCTTCGGCCGCACGACGGCGAACATGCCATCGCGATTCCTGGAGGAGATCCCGGAAGAGCTGAAGGAAGACACCCAGATGGCGCATGACCGCTACCGCCGAGGCGGCGGAAGCAATGTGGGCGGATCCTATGCGGGACGCGGCTTCGGCGGCGGTGGAGGCAGCAACTTTGGCGGCGGCCGCAGCGTGGACCTCTCCCTCAGCGGATCGACCGCTTCCGCGCAAGCCGCGCCGAAGAGCCGGGTGACGATGACAACCGGTGGGTCATCCCGTCCAGCGGCTGCCTCGGGCAGCGGCGATTTTAAGGCCGGCGACAAAGTCGCCCATGGCAAATGGGGGACCGGTACGATCGTAGCGGTGAAGGGCAGCGGCAACGACATGGAATTGCAGATTGCATTCCCGGCGCCTGTGGGCGTGAAACGCCTGCTTGCGGGCTTTGCGCCGATTACGAAGGTGGAATAA	MHSIDIHDAVRRLNPQQRQAVEATDGPLLIMAGAGSGKTRVLTHRIAYLIATRKAAPWSILAITFTNKAAREMQERVSKLVGREGQDIWVSTFHSMCVRILRRDIERIGFTSNFSILDSTDQLSVIRNVMKQHNIDPKKFEPKAIQAAMSAAKNELISPQQYEQKAGDYFETLVAKVYTEYQKRLKSNNSLDFDDLIMTTIQLFKEVPEVLDFYQRKFQYIHVDEYQDTNRAQYMLCRMLADSHHRICVVGDSDQSIYRWRGADITNILNFEQDYPEARTILLEQNYRSTANILNAANNVIGLNTGRKPKNLWTEQGEGPKIKVFRGDTEHDEGYFVTSEISKNIKDGKSYQDHAILYRTNAQSRVIEEILIKSDIPYQIVGGIKFYDRKEIKDMLAYLRLISNPDDDISLTRIINVPKRSIGDTTVAKLAAAAGERGISIFRVLEIVDDLGFAGRTRNALVGFYDMIAALSRMVEFLSVTELTEKILEMSEYRLELQNENTIESRSRLENIDEFLSVTQEFEKNNEDKSLVSFLTDLALIADIDSMNDDEEDRDDAVVLMTMHSAKGLEFPVVFIIGMEEGVFPHSRAFMDNEELEEERRLAYVGITRAEKQLFLSCARMRTLFGRTTANMPSRFLEEIPEELKEDTQMAHDRYRRGGGSNVGGSYAGRGFGGGGGSNFGGGRSVDLSLSGSTASAQAAPKSRVTMTTGGSSRPAAASGSGDFKAGDKVAHGKWGTGTIVAVKGSGNDMELQIAFPAPVGVKRLLAGFAPITKVE				NA	NA	NA	NA	NA
AK002_05785	690	pcrB	COG1646	Heptaprenylglyceryl phosphate synthase	TTGAAAGAGATGATACAATCCTGGAGGCATGTGTTTAAGCTGGACCCCGACAAGGAGATCGATGACGAGACCCTTGATGCGGTATGCTTGTCAGGAACCGATGCCATTATGGTTGGAGGCTCAACCGGAGTCACCTATGAAAATACCGTGGATCTGCTGTCCCGAGTTCGGCGTTACGAGCTGCCGTGCGTGCAGGAAGTATCCGATCTGGAAGCCGTTGTACCCGGATTTGATCTATATATGGTCCCGATGGTTATGAATACGCAGGATCCGACCTGGATCATGGGCCGGCATCGCGAGGGAATCGAACGCTACGGGTACATGATCCCGTGGGAGCTGGTCGTGACCGAAGGGTATATCGTGTTGAACGAGAACGCTGCGGTGGCGAAATTGACCGGTGCAGAGACTTCGATTGAAGCGAGCACGGCTGCCGCTTATGCCCAGATTGCGGACAAGCTGATGAATCTGCCGATCGTGTATCTGGAATACAGCGGCGCGTTCGGAGATATGGAAACGGTCCGCACGGTTCGAAGATCGCTGGATAATTCCCGTTTTTTCTACGGCGGCGGAATAACCAATGCCGAGCAGGCGATGGAGGCTGCAGCTATTTCGGATACGATCGTTGTGGGCAACGTGGTGTACGATCATTTGGAACAAGCGCTCGAAACGGTCAAGGCCGTGAAGGGCTGA	MKEMIQSWRHVFKLDPDKEIDDETLDAVCLSGTDAIMVGGSTGVTYENTVDLLSRVRRYELPCVQEVSDLEAVVPGFDLYMVPMVMNTQDPTWIMGRHREGIERYGYMIPWELVVTEGYIVLNENAAVAKLTGAETSIEASTAAAYAQIADKLMNLPIVYLEYSGAFGDMETVRTVRRSLDNSRFFYGGGITNAEQAMEAAAISDTIVVGNVVYDHLEQALETVKAVKG	PGPT0024385_217	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATE_SYNTHASE_ACTIVITY,PGPT0024385-pcrB-K07094	NA	NA
AK002_05786	882			hypothetical protein	ATGAAACGGATCGCAGCTGTCCTTCTATTATTTTCCGCCATTATGATACTGCTTCTGACCCATCTGGAAATGGAGGAGGAAGCGCCGCAAGGATTCGCGGCCTATCGCTTGATTGCCCATGCCATGGGAAGCATCGGCGAACAGCCCTATACGAATGCTTATGAAGCCATGGTTGTTAACTATGAGAAAGGCACCCGGGTATTCGAGATTGATTTGATGCTGACGGAGGATCGCAAAGTCGTAGCCAGGCATGAGTGGACGGAGAGCATGACGCAGCAGCTGGGTCAGAAGGAGAAGCTTCCGGACGATAAGCAGGCGGCCCGCTTAAGCCATGAGGAATTCATTAACACGCCGATTTTGGAACAATACCAGCCGATGGATATTGAGGGGATTATGGATATGATGGAGCGTCATCCCGATATCTACATCGTGACGGATACGAAGGAGCAGAAGGACCGGGATATACAGTATCTGTTCGCGGAGATCGTAAACGCTGCTAAAGAACGGGATCCGAAGCTTCTGGATCGGGTCGTCGTCCAAATTTACAATGAGCCGATGCTTGATATGGTTCAGGACATCTATCCGTTTCAATCGATTATATATACGCTGTATGCCACGCAGGACTCACCTGCTGAGATCACCGCTTTCGTACAGGAGAACCACATTGACGCGGTTACCATGCCGGAGTACAAGGTCAGCCCGAATTTCGTAGCCAAGCTAAGGCAAGCGGGAGCCGTGACCTATGTTCACACCATCAATGACACGAACACCGTGAACAATTATGAAAAATGGGGCGTGTACGGCGTCTACTCGGATCTGCTGACAGAGCCGGAACTGGAGCGGAACAGCCTGAGATTTATGATGACAAAGCGATTGGAGTAG	MKRIAAVLLLFSAIMILLLTHLEMEEEAPQGFAAYRLIAHAMGSIGEQPYTNAYEAMVVNYEKGTRVFEIDLMLTEDRKVVARHEWTESMTQQLGQKEKLPDDKQAARLSHEEFINTPILEQYQPMDIEGIMDMMERHPDIYIVTDTKEQKDRDIQYLFAEIVNAAKERDPKLLDRVVVQIYNEPMLDMVQDIYPFQSIIYTLYATQDSPAEITAFVQENHIDAVTMPEYKVSPNFVAKLRQAGAVTYVHTINDTNTVNNYEKWGVYGVYSDLLTEPELERNSLRFMMTKRLE	PGPT0018470_4255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_05787	606	tam_3		Trans-aconitate 2-methyltransferase	ATGGAAAACGCCAAGGTCCAGGATTTCATCGAAAGCAGCCAAGCGCAATGGGACGAAGAATACAGATCCCGCATGTGGGATTATTTATCGGACATCACGGAATATGCCAGATACTCGGTCGTGTGCGGATACATCCGAAAGTTTCTTGGGGAAGAGGGCATTCTGGATATGGGATGCGGGGCCGGCCTGTTGTATGACATGCTCTTGGACGATGAAAAATCGAATTATACCGGTGTAGACTTGTCCGAGGAAGCGATCAGAATCGCATCCGGCAAAACGTCTAGGAACTTATTTCAGCGCGCGGACATCAATCATTATGTTCCTCATAAAAGCTACGACGTCATCGTTTTTAATGAATCGCTGCAGTATGTGCCCAATACCGCTAGCAAGCTGTTGGAATATGCACGTTACCTGACCCCGGATGGCGTCATTATATCTTCCCTATATTCACATAAGAACACCCAGGATCCCGATTATCTCATGGTAGAGCATAAGATCGGCGAAATCGAAAGCTGTGATGGGTTTGACGTCGTAGATAAAGTCAGCGTGTTTAATCACAACGCAGGATTGAAATGGTATATTCACCTTTTGAAGGCCAAGAGCTAG	MENAKVQDFIESSQAQWDEEYRSRMWDYLSDITEYARYSVVCGYIRKFLGEEGILDMGCGAGLLYDMLLDDEKSNYTGVDLSEEAIRIASGKTSRNLFQRADINHYVPHKSYDVIVFNESLQYVPNTASKLLEYARYLTPDGVIISSLYSHKNTQDPDYLMVEHKIGEIESCDGFDVVDKVSVFNHNAGLKWYIHLLKAKS				NA	NA	NA	NA	NA
AK002_05788	156			hypothetical protein	ATGTCCGAAGTTTTTCTAGGCTATGTCACAAACTTACAGGAAGCGACAGCATTCGGTATCTCTACAAGAGGCGAGGGGGACTTGGTAAGCAGCTTTAGTCGAAATATGCTTCTAGGACAGGCAAATAAAAGACGCCATCCGGCTCATGCCAGATGA	MSEVFLGYVTNLQEATAFGISTRGEGDLVSSFSRNMLLGQANKRRHPAHAR				NA	NA	NA	NA	NA
AK002_05789	1401	wcaJ	COG2148	UDP-glucose:undecaprenyl-phosphate glucose-1-phosphate transferase	ATGATCCGCCAGAATCAGGGCTTTCTGACCAAATTGTATATGTTGACCGATTTTGCCTTTATCCAGTTGGCGTTTCTGCTCGCATGGTGGGTGAAATTCGAGAGCGGCTGGTTTCCCTATGAAGAGCCGCTACCTCTCGAAACCTATGCATTGTGGAGTCTGGTGTACGGCGCGGTTGCCGTGGTTGTCGGCATCATGATTACCTTGTACTCGCCGAAGCGGAAAAAGCGTTTTGCCGACGAGTTCATGAAGATCTTCCAGATGCATTTCATCGGGATGTTCATTCTCCTCAGTATTATGTTTTTTGTTAAAGAGGTGGATATCTCCCGTTGGTATCTCGCTATCTACATGATTTTCAACGTAGCATTCATTATCCTATACCGTTATTTCCTCAAGAAATCCCTCAAGCATTTTCGGGAAAAAGGCTACAACCGCCAATTCGTGCTCATCGTGGGTGCAGGGTCGCTGGGCAAGCGTTTCTTCAAAAACCTGAAGCAGTACCCGGAGCTTGGTTATGAAGTCATCGGTTTCTTGGATGATTACCAGCAGTGGGACGAGATCGAGGCGAGACGGCTTAAACCCATTTTGGGCTCGGTTGGCGATCTACATAAGGTGCTAAACGAAAAGCTTGTCGATGAGGTCGTACTGGCACTTCCTCTAAATGCGCACCACAAATATCCGGAGATCATTGCTGCGTGTGAAAAAGCAGGTGTCCGAACGCTAATTATTCCGGACTTTTTCGATTATCTCCCGGCACGGCCGGTGTTTGATAACTTTGCGGGCATGCCGATGATCAACGTTCGCGATATTCCACTGGACCTGGCGGCAAACCGACTGTTCAAGCGGGCGTTTGATATTGTATTCTCGTTAGTGGCCATCATCCTCACCCTGCCGGTGATGATCGGGATTTACCTCGGTGTCCGATTGACCTCCCGGGGACCGGTCATTTTCAAGCAGGAGCGGGTCGGGCTGAACCGCAGGAACTTTTATATGTATAAATTCCGTTCGATGAAGCCGCTGCCGGAAGGGGCGCCGGATACGGGCTGGACGGTGGAGAATGATCCGCGCCGCACCAAGTTCGGTTCTTTTCTCCGGAAGACGAGTCTGGATGAGCTGCCGCAGTTCTTTAATGTCCTGTTCGGACATATGAGCGTGGTGGGCCCAAGACCGGAACGACCTTATTACGTTGAACAGTTCAAAGAGGAGATTCCGAAGTACATGGTGAAACACCACGTACGCCCGGGCATCACGGGGTGGGCGCAGAGCAACGGCCTGCGCGGGGACACTTCGATTGAAGAGCGGATCAAGCACGATATTTTCTACATCGAGAATTGGTCCATTCTGTTTGATATTAAAATCATTCTGCGCACGATCCGCAACGGATTCAAAAACGCATACTGA	MIRQNQGFLTKLYMLTDFAFIQLAFLLAWWVKFESGWFPYEEPLPLETYALWSLVYGAVAVVVGIMITLYSPKRKKRFADEFMKIFQMHFIGMFILLSIMFFVKEVDISRWYLAIYMIFNVAFIILYRYFLKKSLKHFREKGYNRQFVLIVGAGSLGKRFFKNLKQYPELGYEVIGFLDDYQQWDEIEARRLKPILGSVGDLHKVLNEKLVDEVVLALPLNAHHKYPEIIAACEKAGVRTLIIPDFFDYLPARPVFDNFAGMPMINVRDIPLDLAANRLFKRAFDIVFSLVAIILTLPVMIGIYLGVRLTSRGPVIFKQERVGLNRRNFYMYKFRSMKPLPEGAPDTGWTVENDPRRTKFGSFLRKTSLDELPQFFNVLFGHMSVVGPRPERPYYVEQFKEEIPKYMVKHHVRPGITGWAQSNGLRGDTSIEERIKHDIFYIENWSILFDIKIILRTIRNGFKNAY	PGPT0023345_452	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_BIOSYNTHESIS,PGPT0023345-wcaJ-K03606	NA	NA
AK002_05790	912			hypothetical protein	ATGGATTTAAGCATTTTAATCGTGAACTACAATACCTGTCAGCTGACGGTGGACTGTTTGCGATCCGTGTTTGCATCGGAGACGGAATATACATATGAAGTGATTCTGATAGATAACAACTCGAAGGACGAGTCCGTTCAGACCATTCGAGAGTTATTTCCGCAGGTTAAGCTGATCGAGAACACGGAAAATACCGGCTTTGCCAAAGCCAACAATCAGGGGATGGAAGTGGCGGAAGGCCGCTATATGCTGCTGCTAAATTCCGACACGATTATCCAGCAGGATACGATCCAGACGATGGTCGCTTTTATGGACTACAATCCGATCATAGGCGCTTCCGGCTGCAAAATCGTCCTCCCGGACGGCTCGCTGGATAAGGCCTGCAAAAGAGGGTTCCCAACGCCTTCGGCGTCCTTCTATTATGCTTTTGGGCTCAGCAAGCTGTTCCCGAACAAGCCGGAGTTTAACCAGTATCAGCTGGGGTATTTGAATCCGGACGTAGAGTATCCGGTGGATTGTTTGGTCGGTGCGTTCATGCTGGTACGCCGCGAGACGATTGAGCAGGTGGGCGGGCTGGACGAGACGTTTTTTATGTACGGGGAGGATATCGACTGGTGCTATCGCATCAAGCAGGCGGGATGGGGCATTCACTATTATCCTCGGACGACGATTATCCATTATAAAGGCGGCAGCGCCCGGCGCCGGCCGTTCAAAATCATTTATGAGTTCCATAGGGCGATGATTCTTTTTCATCGGAAGCATTACCGGCAGAAATACAACATATTCGTTAATGGAGCCGTGTATGCGGGCGTTGCTTTAAAATTGCTCCTGTCCCTGCTCACGAACCGGCTTAAGCCCATTCGTCCAGCAACGATAACGCAATCTTCAGGTGGAGTGGAGGTGAAATCATGA	MDLSILIVNYNTCQLTVDCLRSVFASETEYTYEVILIDNNSKDESVQTIRELFPQVKLIENTENTGFAKANNQGMEVAEGRYMLLLNSDTIIQQDTIQTMVAFMDYNPIIGASGCKIVLPDGSLDKACKRGFPTPSASFYYAFGLSKLFPNKPEFNQYQLGYLNPDVEYPVDCLVGAFMLVRRETIEQVGGLDETFFMYGEDIDWCYRIKQAGWGIHYYPRTTIIHYKGGSARRRPFKIIYEFHRAMILFHRKHYRQKYNIFVNGAVYAGVALKLLLSLLTNRLKPIRPATITQSSGGVEVKS	PGPT0024205_595	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-ARABINOGALACTAN|LIPOARABINOMANNAN_REMODELLING	CE-REMODELLINGL-RHAMNOSYLTRANSFERASE_ACTIVITY,PGPT0024205-wbbL-K16870	NA	NA
AK002_05791	930			hypothetical protein	ATGAAAAAAGTGCAAGTATTGTTATCCGCCTACAACGGCGAACAATATATATCCGAGCAAATCCAGAGTATTCTCAATCAGACGCATGCTGCTGTCTCCATCCTGATAAGAGACGATGGATCGACTGATACAACGATGGAGCTTCTCGACCAATGGGTGACTACACACCCCGATAAGATCAAGCTCATAAAAGGAACGAATGTTGGCGTTGTGTCCAGTTTCTTTGAACTTCTGCGTGCTGCAGACGCTGAGGCTGATTATTATAGTTTTTGCGACCAGGATGACGTGTGGCTTGATCATAAGGTAGAGCATGCTATTGCCCGCCTGGACTCCTCTATCTATACGGAAGTGCCGGCGATGGTATTTACATCAACCTACCTTACGGATGACGAGTTAAATCGAAAAGGTGCATGGCCAAAGCCTCCTGCTCAGGAGCCCTCTTTCTTCAATGCGTTGTACGAAAATATTGCCATTGGCGCGACCATCACGATGAATCGATCAGCAAGAAACCTGTTTATAAATAGTAAATCGGTAGACAGTCAAAAGGTTCTTATGCACGATTGGTGGTTCTACGTGCTCGTTTCCGCATTTGGAACCGTAATCTACGATAACAAGCCATCCATGTTATACCGTCAGCACAATAATAATGTGGTAGGGGGCAGCAACTCCATCGTGGGTAAGCTGAAGAGCAAATGGACCAGTTTTAAAAGACATACAGGCAAAGACTTGCTGCATAAACAAGCAAGCGAGTTTGATCGAATCTATGGATCGCGATTGACTGGCGAACAGAAAGAGCAGCTGGATTTATTTCTTGCAACTCGAACAAGATTCATGGACAGATTACATTATGCACGCAAGAGCAAATTGTACAGACAATCCAAGGCGGAGAGTTTGTTGTTTAAGTTTTTTATTTTGATCGGGTTTATATGA	MKKVQVLLSAYNGEQYISEQIQSILNQTHAAVSILIRDDGSTDTTMELLDQWVTTHPDKIKLIKGTNVGVVSSFFELLRAADAEADYYSFCDQDDVWLDHKVEHAIARLDSSIYTEVPAMVFTSTYLTDDELNRKGAWPKPPAQEPSFFNALYENIAIGATITMNRSARNLFINSKSVDSQKVLMHDWWFYVLVSAFGTVIYDNKPSMLYRQHNNNVVGGSNSIVGKLKSKWTSFKRHTGKDLLHKQASEFDRIYGSRLTGEQKEQLDLFLATRTRFMDRLHYARKSKLYRQSKAESLLFKFFILIGFI				NA	NA	NA	NA	NA
AK002_05792	633	rfbD	COG1091	dTDP-4-dehydrorhamnose reductase	ATGGCTCTCGCTGCTGAAAAAATCGATGCCAAGATCGTATTTATTAGCACGGACTACGTTTTTAGTGGTACGAGTGAAAGGCCATATAACGAGTATGATTCTACCGACCCGCAAAGCGTTTATGGAAAGTCCAAGCTTGCAGGGGAACAGATGGTTCAATATTTTTGCTCTCGTTGGTTTATTGTGCGAACTTCATGGTTGTTCGGCCTGCATGGCAACAACTTTGTAAAAACGATGCTTCGTCTAGGACAAGAAAAACCGCTGTTAAAGGTGGTTAACGACCAAAAGGGTTCGCCCACCTACACGGTAGATCTGGCGCAGCTCTTGATAAACTTAATTTCCACTGAAAAATACGGTATATATCATGCCTCCAACAATGGTTCTTGTACTTGGTATGAGTTTACTAGCGCCATTTTTGAAGAGGCTCGTGAACAATTGGGACTTACCATAACCGCTGAATTGCAGCCTTGTACTACTGAAGAGTTTCCAAGACCCGCTCCACGTCCGGCCAATTCGGTCATGGATCATTTAGCTATCCGACTAAACCAATTTGAGGATTTGCCACATTGGCGTGAGGGGCTGAAGCAGTTTATGCTGGATATGAAGCAGCACCCTGAACTATACTTAAAATGA	MALAAEKIDAKIVFISTDYVFSGTSERPYNEYDSTDPQSVYGKSKLAGEQMVQYFCSRWFIVRTSWLFGLHGNNFVKTMLRLGQEKPLLKVVNDQKGSPTYTVDLAQLLINLISTEKYGIYHASNNGSCTWYEFTSAIFEEAREQLGLTITAELQPCTTEEFPRPAPRPANSVMDHLAIRLNQFEDLPHWREGLKQFMLDMKQHPELYLK	PGPT0022630_2046	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
AK002_05793	1023	rfbB	COG1088	dTDP-glucose 4,6-dehydratase	ATGAAACTTCTTATTACCGGTGGCGCCGGTTTTATCGGCAGTAACTTTATTTTATATATGATTCAGCAGCATCCGAATTACCAGATCATCAACATGGATGCACTTACGTATGCAGGCAACCTTGAAAACTTAAAATCCGTTCAAGACCACCCTAACTATTCTTTCGTGCAAGCAGATATAGCTGACAAACCAGCGGTGGACGCGATTTTCCAACAGGGTATCGATGTGGTTGTTAATTTCGCGGCAGAATCACACGTGGATCGCAGTATTCTGGAACCAGAGATCTTTGTGAACACCAATGTCATGGGGACACAGGTTCTTCTGGATGCGGCCAAAAAATATGGGGTGACTAAGTTTGTCCAAGTATCCACGGATGAAGTATATGGGTCCTTGGGCGAAACCGGTTTGTTTTCTGAAACGACGCCACTTGCACCGAATAGCCCGTATTCTGCCAGCAAAGCAGGCGGGGACCTGCTCGTAAGAGCTTACCATGAGACATTTGGTCTCCCGGTTAACATTACGCGCTGCTCGAACAATTACGGTCCATACCAATTCCCTGAGAAGCTGATCCCCCTGATTATTTCTCGTGCCCTACATGATGAATCCCTGCCGGTCTACGGCGATGGCCTCAATATCCGTGATTGGCTGTATGTCGAGGATCATTGCAGTGCGATCGATCTGGTTATTCACCAGGGGAAAATTGGTGAGGTCTATAATATTGGGGGCAACAATGAACGTACCAATCTGCATATTGTGCAAACAATCCTGAGGGAGCTTGGTAAGCCGGAATCACTGATCACTTACGTGACAGATCGTCCAGGTCATGATCGACGTTATGGCATTGATCCTACAAAAATCATGAATGAGCTGGGCTGGAAGCCCAAGCACAACTTCGAGACAGGCATTAAGGAAACGATTCAGTGGTATTTGAGCAACAAAGAGTGGTGGACTAGAATTCAATCCGGCGCATATCGTGATTATATGACCCAGCAGTATGGCAGCCGTTTGGGTGGGAACGGATGA	MKLLITGGAGFIGSNFILYMIQQHPNYQIINMDALTYAGNLENLKSVQDHPNYSFVQADIADKPAVDAIFQQGIDVVVNFAAESHVDRSILEPEIFVNTNVMGTQVLLDAAKKYGVTKFVQVSTDEVYGSLGETGLFSETTPLAPNSPYSASKAGGDLLVRAYHETFGLPVNITRCSNNYGPYQFPEKLIPLIISRALHDESLPVYGDGLNIRDWLYVEDHCSAIDLVIHQGKIGEVYNIGGNNERTNLHIVQTILRELGKPESLITYVTDRPGHDRRYGIDPTKIMNELGWKPKHNFETGIKETIQWYLSNKEWWTRIQSGAYRDYMTQQYGSRLGGNG	PGPT0022625_3365	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
AK002_05794	549	rfbC	COG1898	dTDP-4-dehydrorhamnose 3,5-epimerase	ATGAACGTAACTCCTTTAAAACTCACAGACGCTTTTGTACTTGAACCGGTGGTCCATGGCGATCACCGGGGTTTTTTTATGGAGAGTTACAACGATTCACTTTTTAAGCAGCATGGCATTGCCTATAACTTCATCCAAGACAACCAATCTTTATCCGCTGAAGCTGGGGTGCTGCGGGGACTTCATTATCAGCTCAACCCTAAGGCTCAAACCAAACTCATACGTGTCCTAACAGGTGCTATCTACGATGTCATCGTAGATATCAGAAAAAGCTCCCCTACCTTTGGTCAGTGGGTCGGTGTCATTTTGAGCGAGCATAACCATCGTCAGCTGCTTGTTCCTAAGGGCTTCGCACATGGTTTTTGTACGCTTGTACCCAATACCCAAGTCCTCTATAAAGTGGACGAATATTATTCCCCCGAGAATGACCGCGGCATATTATGGAATGATCCGGCTTTGGGGATCGATTGGCCAACGTCGAATCCGACATTGTCGGATAAAGACCAGCGGCACCCGCTGCTGAAAGACGCAGAGATGAATTTTGACTAG	MNVTPLKLTDAFVLEPVVHGDHRGFFMESYNDSLFKQHGIAYNFIQDNQSLSAEAGVLRGLHYQLNPKAQTKLIRVLTGAIYDVIVDIRKSSPTFGQWVGVILSEHNHRQLLVPKGFAHGFCTLVPNTQVLYKVDEYYSPENDRGILWNDPALGIDWPTSNPTLSDKDQRHPLLKDAEMNFD	PGPT0014300_2616	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
AK002_05795	744	rmlA_2	COG1209	Glucose-1-phosphate thymidylyltransferase	ATGAAATCCATCATCCTAGCCGGCGGAACAGGCTCACGCCTCTATCCCTTAACCAAAGTCACCAATAAACACCTTCTGCCAGTCGGGGCTTATCCAATGATCTTCCACCCGGTATATAAACTCCGCCAAGCAGGCCTTACAGACGTACTCATTGTGACGGGGAAGGACCACATGGGGGATGTAGTAAACCTATTAGGTAGCGGTAGCGAAATGGGGGTTTCCTTCACATATAAAGTGCAGGATGAAGCAGGAGGCATTGCTCAAGCGTTGAACCTTGCAGAGCAATTTGCAAATGGCGAATCAGTGGCGGTCATCCTCGGCGATAACGTGTTTGAGGATGATATCTCCACGTATGTGGCTAACTTTCAAAGCCAAATGTCCGGTGCCAAGATCCTAATCAAGGAAGTTCCTGATCCTAACCGTTTTGGTGTTCCAGAAATCCAAGGCAGCCAAATCATTTCCATTGAAGAAAAACCGGAACAGCCTAAGTCCAATTATGCTGTCACGGGAATATATATGTATGATGATACGGTTTTTGATATTATTAAGACATTGAAACCATCAGCTCGTGGCGAATTGGAAATCACAGACGTCAACAATGCATATATTGAACGAGGAGAGCTTACCTTTGATACGCTTCAAGGCTGGTGGACGGATGCGGGAACGCATGCGTCGCTCGCTCGGGCCAATGAGTTGGCTAGAGATGTTCGATTCGGTGATGATTTCGGAAAACTTAAACTGTAG	MKSIILAGGTGSRLYPLTKVTNKHLLPVGAYPMIFHPVYKLRQAGLTDVLIVTGKDHMGDVVNLLGSGSEMGVSFTYKVQDEAGGIAQALNLAEQFANGESVAVILGDNVFEDDISTYVANFQSQMSGAKILIKEVPDPNRFGVPEIQGSQIISIEEKPEQPKSNYAVTGIYMYDDTVFDIIKTLKPSARGELEITDVNNAYIERGELTFDTLQGWWTDAGTHASLARANELARDVRFGDDFGKLKL	PGPT0022600_4858	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
AK002_05796	588			hypothetical protein	ATGAAAATTAATGTTAGGAATTTCGCTTTGGCTCTATTTGTATCTCTAACGTTTTGTATATTTCCTAAAATTATTTTAGCAGATTCAAACGAAGATGTGACAATGAAAGTTACTTCTTCAAAAAATGAATACAGAAAGGAACTAACTGTAGATTTAACAGTACAATATATAAATCAGAAGTTATACAATAACAAAAATTTCGTATCTTATCACGTTTATGACAAAGAAGATAATGAATTATTGTGGGAAGGGAAAAGATTGCCTTTTACAATAGACAAGGAAGGCATTGCTAAATTAAACATAGATATTGATCTAAAAGCAGAGGTTGATTCGTTAGATGTAGATTTCGTTAAGATTAATTTTGATATTGTTGATGAATACAATGAATACTGGTATTCGACTAACGCCGATATCAATCTTTCATCGGATACCATTTTTGTGGATTTAAGTCTAGCCAAACGGTTGACTGGCACATTATCTTCAGCAATCTTCGAAACACCAGTTGTTTTTGGGATAAATCTTGTATGTTTTATACTCTTTATCTGCTTGTTACTTCGCCTTAAGAAGAGCGAAGTATTTAATTCTTGA	MKINVRNFALALFVSLTFCIFPKIILADSNEDVTMKVTSSKNEYRKELTVDLTVQYINQKLYNNKNFVSYHVYDKEDNELLWEGKRLPFTIDKEGIAKLNIDIDLKAEVDSLDVDFVKINFDIVDEYNEYWYSTNADINLSSDTIFVDLSLAKRLTGTLSSAIFETPVVFGINLVCFILFICLLLRLKKSEVFNS				NA	NA	NA	NA	NA
AK002_05797	1587			hypothetical protein	ATGAATGAAAGAAAAACAGGATTCTTTTTAGGATTTCAACCAGGAGTAAACCTATCTACAGAAGGGATAGGCCGACTGCTTGCATTTGTGTTAAAAGAGAGAGAAGAAGGAATTCATGATGAAATAGTTATTTTCTGCCCAAAGTGGCTAGTTAATCCTATACATGCACTATTAGAAGATAATAAAATTCCATTGGACAATTTTGAAATAGTGTCTACTACTAAGATACCATTAGGAATTAAATTCAAGGATTTCCTTTCTAATCGGCGGAAAAAGGAGAGTTTCAACCAAAGAAAATTTTTGAAATTAAAAGAAGCTTTAAAGTATTTTCTTAAGAAGTGTATTGCTAGTTTTTTTAATTCAACATCATGGTATAAAATTTTATTGGACGTGGCACTTCTTCTTTTAATGGGGATTGTTTTCTTTCCAGCAATATTGCTGTTATTTACATTATTCGTATTATATCACGGTATGAAATTTTCAATTAAAATGATTCAAAAAGCAACCCCTTTTATGTCAATGATTTATAAGATGAAAACATATATAGCAGCCGGGAAGAGCAGCATTTACTCCTCAGTGATAGATACTGAATTAATAAGAATCGTCCATTTGGTTAATAAACGCAAAGATATAGAAAAGTGTTTCATACCTACAATGATATGGCCACAAATAAGGGGTTTAAATTGCAAAAAAATTGTTGCAGCCCCTGACATAGTGTTTTATGATTTCCCTACTCAATTTTCAGGATTTGAAATAACCCATTCGAAAATCCGGGAAACGATTGATTCAGCTGATTTTTTTATTTGCTATAGTGAATTTGTTAAACAACATCATCTTATTGAGAAATGCGGGATTGAGTCGGAGAAGATAACTGTAATTAAACACGCTAATATAGATATGTTAGAACATATAAAATTACCCAAATCTATTCGAAAGTATTATTCACTAAAACAAAATGCAAAACATGTTATAGATAACTTTGTGTTTTCTAATTTCACTGACTCACATCCCTTATATAATATAGATTATGAGCAAATTGACTATGTAATCTACTCATCCCAATATAGGCCTCATAAGAATATTTTTAATTTAATCAAAGCCATTAGAATAATAAATTATGAAAATAGGAGAAATGTGAAATTGATAGTTACTGGGGATTTTCGAAGAGAACCAGCAATTACAGAATATATACGTAAATATCATTTAGAACATGATATTTTTATTTTTAATAATATTAGTTCAGAATTGTTAGCAGCTTTAAACTGTTTGGCTAAATGTGCAGTCAATCCAACCCTTTTTGAAGGGGGATTTCCGTTCACGTTTTCTGAAGCCTATTCGGTTGGAACCCCTTCAGTTATGAGTAGAATTCCTGTAGTGTTGGCTGAAATCAACAGTATTGATCTAAAAAAGAAGATGCTATTTGATCCATATAATCCACAATCTATTGCAGAGAGAATTATATGGGCTGTAGATAACGCAAGCGATTTGTATAAAGAGCAAGAAGAGCTATATCATCAGTTTAGCAATAGAGATTGGAAAACAGTTGCCACCGAGTATCATAAGGTGTTCAATCAATTAGTAGGGTGA	MNERKTGFFLGFQPGVNLSTEGIGRLLAFVLKEREEGIHDEIVIFCPKWLVNPIHALLEDNKIPLDNFEIVSTTKIPLGIKFKDFLSNRRKKESFNQRKFLKLKEALKYFLKKCIASFFNSTSWYKILLDVALLLLMGIVFFPAILLLFTLFVLYHGMKFSIKMIQKATPFMSMIYKMKTYIAAGKSSIYSSVIDTELIRIVHLVNKRKDIEKCFIPTMIWPQIRGLNCKKIVAAPDIVFYDFPTQFSGFEITHSKIRETIDSADFFICYSEFVKQHHLIEKCGIESEKITVIKHANIDMLEHIKLPKSIRKYYSLKQNAKHVIDNFVFSNFTDSHPLYNIDYEQIDYVIYSSQYRPHKNIFNLIKAIRIINYENRRNVKLIVTGDFRREPAITEYIRKYHLEHDIFIFNNISSELLAALNCLAKCAVNPTLFEGGFPFTFSEAYSVGTPSVMSRIPVVLAEINSIDLKKKMLFDPYNPQSIAERIIWAVDNASDLYKEQEELYHQFSNRDWKTVATEYHKVFNQLVG				NA	NA	NA	NA	NA
AK002_05798	2229			hypothetical protein	TTGAGAAAAAGAAGAATCCTTTGGCTTTTGAATCACGATACTTTAAGCAAATTTGAACTGCCATTGATTCGGGATTTAGGGTTTGAGATATTCACCCCGAAAATAGTCCCTAAAGCAATCTTACAGGCCAGTGGATCTGTAACATATGAATATGATCAAACTCTAACAATCCCGAAGGATGATTTATTAATTTTAAATCAGTATGATTTTCATTCGATAACTGACATGCCGCTTCATATAAGCAAGATATTAAACAAACATTTCGCTACAGCAATAACTTATACGGATAGTTCGTTTTTAATTCTAAAAAAATTAATTCAGGATTTTAACGGAATGATCTTCTTTAGAGCATTTGGTGTAGGTATAGAAAGATTCAAAAGTTATAGTGAATTGATAGATCATTTCTTTACGACTGAAGATAAGTTTAAATTAAAGCAGATAAAAAGTAGATTTTTATTTTCCCAATGTTATCCAAATCTAGCGGAGGTTGAAGAGAAACTATACTCGGATAAGGCAGTATATATGCCTCTAGGTCTTCCTCAGGGTTTCTATGACATACAGGAAGAATGGACAGGTTCTTGTAATCAGATATTATTTTTTTGTACTAGAATTAAGTATGACCCTCAAGCTGAGGAAGTTTACCAAGAATTTAAAAAGAACTTTAAAGGTTTTGATTATGTGATAGCTGGTAATCAACCTGTTCCAGTTGAAGATGAAAGGGTGACGGGGTACCTTGAGAGAGAGGAACTCAATAACCTATATAGAAATTGTAAAGTAATGTACTATCATTCAACAAATCCAAGGCATTTACACTATCATCCGTTAGAAGCAATGATAGCTGGTATGCCAGTTATCTATATGGATGGTGGGCTTCTAAGTTATTTAGGTGGTTACCGTCAGTCTGGGAGATGTAAGGATATACAAGAAGCCCGAATGAAAATTAAATCAATCCTGAATGGGGACACAGACTTAATAAACAAAATTAGACAAGACCAACAAGAAATCCTTACGAAATTCTCATATAACTTTAATAGAAGGCAGTGGGAGGAAAACTTTCTACCTCTTGTTACAGACATCGAGGCCAATACAGAAAAAAAAGAAAAGAAACTGGCTCTGTTTCTGCCTATTAATTTGGAAAGAGTGCATTTGGATGATTATCTTGAGTTAGTGGCATTATTAGCCAAAGGAATGGAAGAGTATCAACCAAACAATAACATCGTTCTTAATGTATATCGTAATAATTTTGATTTGAATTCAGACTTTAAGAGCCTTTTAAAAAAGAATATCTCTATAAGAGAATATGAATTGAAAACACTCTCAAACAAAGAGACAAAGGATGCCTTGTCATTAATCTTTAGAACCAAGAAACTTTGGAATGAGAAATATCTGGCACCAATCGATTATGCTCAGAATTTCATAGATACAGATTATTGGTGCTTTCTGAACCCAGATCTAGACCAGCGGATAGCTTCTATGAAGCCATACGGGATATATATCGATAACCTTGGTGATCGATACGAGGAATCAATAAATCCGATATATATATCCAATTTGAAAAATGCGTCATTTATAATTACTTGCTCTGATCAAACAAAAACAGATTTGATTAAGCATCTTGGAATAAATAAAGATATTATTTATACTATCCCATTTGTTTATTCAAAAGCTTTAGTTAGCGAGTCTACGTCAAAAGGAATATATACCTTAGTAGAAGTAGATATTGATAAGGAAGCGATAATTACTAGACTTCTGAATGATATTAGTGATTTCTATAGACTTTATGATACTAAAGAAAAATTTAAAATTATCCTTAATAGCTATAATAATACTCATTTAAATTTCCTTAATAGTTTATATGATTATATTAATAAATCAGACCTCCTAAAAAAGAACATAACTTTATATGTAGATTTACGAAATAATGAATATGATGCATTATATTCACAAGCGAATAATATTTATATTCCACATAATATCAAAAATATTAATTACAAATTAGTTAAAGCTTCTAACTATAGAAAGCCAATTATAGTTAATGATTATCCGTGCTATAGAGATATCGAAAATTTGTTGAACAGCAAGTTCAATTATATAAGTACAGTATCTAATAGTAACCCAGTTATTGAAATATTCAATAGAAAAATTAGGTTTGCTTCAATAATAGAGAAAAAAAACTCATGTTATGAAGATTCAAAAATGATCCGTAAGATATGGGAGAAACTTATATGA	MRKRRILWLLNHDTLSKFELPLIRDLGFEIFTPKIVPKAILQASGSVTYEYDQTLTIPKDDLLILNQYDFHSITDMPLHISKILNKHFATAITYTDSSFLILKKLIQDFNGMIFFRAFGVGIERFKSYSELIDHFFTTEDKFKLKQIKSRFLFSQCYPNLAEVEEKLYSDKAVYMPLGLPQGFYDIQEEWTGSCNQILFFCTRIKYDPQAEEVYQEFKKNFKGFDYVIAGNQPVPVEDERVTGYLEREELNNLYRNCKVMYYHSTNPRHLHYHPLEAMIAGMPVIYMDGGLLSYLGGYRQSGRCKDIQEARMKIKSILNGDTDLINKIRQDQQEILTKFSYNFNRRQWEENFLPLVTDIEANTEKKEKKLALFLPINLERVHLDDYLELVALLAKGMEEYQPNNNIVLNVYRNNFDLNSDFKSLLKKNISIREYELKTLSNKETKDALSLIFRTKKLWNEKYLAPIDYAQNFIDTDYWCFLNPDLDQRIASMKPYGIYIDNLGDRYEESINPIYISNLKNASFIITCSDQTKTDLIKHLGINKDIIYTIPFVYSKALVSESTSKGIYTLVEVDIDKEAIITRLLNDISDFYRLYDTKEKFKIILNSYNNTHLNFLNSLYDYINKSDLLKKNITLYVDLRNNEYDALYSQANNIYIPHNIKNINYKLVKASNYRKPIIVNDYPCYRDIENLLNSKFNYISTVSNSNPVIEIFNRKIRFASIIEKKNSCYEDSKMIRKIWEKLI				NA	NA	NA	NA	NA
AK002_05799	744	tagH	COG1134	Teichoic acids export ATP-binding protein TagH	ATGGAGAATTGTTATATTAAAATGGAGAACGTTGATCTCTTCTATCCTTCGCATATATATAATGCAACTACTCTAAAGCAAGAGGTATTCTCCTGGCTGAAACTTGAAAAGAAAAAAGAAAAACTTGATGATGTACATGCTCTGAAAGAGTTTACTCTGAAAATATCACAAGGCGAAAAAATAGGTATAATTGGGCATAACGGGGCTGGAAAGAGCACGTTATTAAAGACCATAGCTGGAATATATCCAATTAAGTCGGGCTTACGAGAAGTCAGGGGAGAGATAAGGTCTTTATTTGATTTGAGCCTAGGCTTTGATCTGGAATCAACAGGAAGAGAAAATATAATGTATAGAGGTTTGTTACTCGGTGAAACCCCCAGGAAGATTAAAGAAATGGAGCAAGAGATAATAGAATTTGCTGAGTTGGGTGAGTTTATCGATTACCCCATAAGATCATATTCTTCAGGTATGCTTGTACGTTTGGCCTTTGCTATTTCGACCTCAATACCCGGCGAGATATTATTACTTGACGAGGTAATAGCTGCTGGGGATGCCACATTTTATTTAAAGGCCAAGGAAAGAATGTCGGGACTTATGAGTAGGGCAAAGATTCTGGTGTTAGTCTCCCATGACTTATCGACTATAAGCGAAGTTTGCAATCGGGTCATACTTTTGAAACAAGGGAGAATAGTTAAAGATGGTTCACCAGATGAAGTTATACAATATTATCGTAATGGCGTATAA	MENCYIKMENVDLFYPSHIYNATTLKQEVFSWLKLEKKKEKLDDVHALKEFTLKISQGEKIGIIGHNGAGKSTLLKTIAGIYPIKSGLREVRGEIRSLFDLSLGFDLESTGRENIMYRGLLLGETPRKIKEMEQEIIEFAELGEFIDYPIRSYSSGMLVRLAFAISTSIPGEILLLDEVIAAGDATFYLKAKERMSGLMSRAKILVLVSHDLSTISEVCNRVILLKQGRIVKDGSPDEVIQYYRNGV	PGPT0023305_1790	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
AK002_05800	786			hypothetical protein	TTGCGTCAGTATATAGTTAAAATTTATCGTACTAGATATTTTTGGTCCCATCTAGTAAGAGCCGAGTTGAAGAATAAGTTCAGACGTTCGAAATTGGGAATATTGTGGACCTTTATGAATCCATTGTTGTTGACGCTTCTAATGTCTACGGTATTCGGAGTTGTTTTCAAAATGGAGTTTGCCGATTATGCTCCTTATGTGTTGTCAGGTTTGATCGTATGGGATCTTGTGAGTTCTTCATTTATTGGTGGAGGATACTCGATAATGTCTGGGGAGCAATATATACGTCAATTTAATCATCCTGTCATTATCTATACCTTAAAGTCAGCATTAGTTTCAACTATTTCATTTACTATAGCTATGGCCTCTTTGGGATTGTGGGTAGCAGTTACTAGTCCAGAAAACCTCATTTTAGGATTAGTAACTTTACCTTTAACCATCCTGCTTTATTTTTTTCTCTCTTGGGCAGTAACAACTATAGCAGGCTTTTTAAATGCAAAGTACCGGGATTATCCTCAGGTTACTGCATTAGTTATTCAAGCAGTTTGGTATGTATCCCCAGTATTCTTTAAAAAAGAAATGTTTAGCTCAAGCCCAGCATTGGAGAGTGCATTTTATTTCAACCCTATAACTCATATTTTGAATCTGATTCGTAATCCACTCTTATATGGAAAAATGCCGTCAATGAGTGATTATGTATTTACTATAGTTTCCTTTATGATTTTGAGTCTGTTTGCGATGAGATTATACAAAAAAAATAAAGATAAAGTCATATTCTATCTGTAA	MRQYIVKIYRTRYFWSHLVRAELKNKFRRSKLGILWTFMNPLLLTLLMSTVFGVVFKMEFADYAPYVLSGLIVWDLVSSSFIGGGYSIMSGEQYIRQFNHPVIIYTLKSALVSTISFTIAMASLGLWVAVTSPENLILGLVTLPLTILLYFFLSWAVTTIAGFLNAKYRDYPQVTALVIQAVWYVSPVFFKKEMFSSSPALESAFYFNPITHILNLIRNPLLYGKMPSMSDYVFTIVSFMILSLFAMRLYKKNKDKVIFYL	PGPT0023304_1083	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
AK002_05801	1119	per_2	COG0399	GDP-perosamine synthase	ATGAAAGCCGTAAAAAGAATACCGCTTGCAGGGCCTGTATTAAATGGTAACGAACGTAAATATGTACTTGATTGTATTGATACAGGATGGATCTCTGCAAACGGGAAATATGTAAATGAATTCGAGAGTACATTCGCAGATTTTTGTGGGGTTAAACATGCCATTTCGTGTGCAAACGGTACTGTAGCACTTCATTTGCCCCTTCTGGCATATGGAGTTGAACCAGGTGACGAAGTCATCATTCCGAGTTTCACGTATATAGCTACTGCTAATGCGATTAAGTATTGTGGAGCAAAACCAGTATTAGTAGATTCGGAAGAGAACACATGGAATATAGACCCAAATAAAATTGAAGAGAAAATCACTCCTAGAACCAAAGGGATTATCGTTGTGCACCTTTATGGACACCCTGTAGACATGGATCCAGTTATGGAAATAGCCAAGAAACATAATTTATTCGTAATCGAAGATGCTGCTGAAGCACATGGTGCAGAATATAGAGGAAAAGTCGTAGGATCAATTGGGCACGTGGGGACATTCAGTTTTTTTGGAAACAAAATTATCTCTACTGGTGAAGGTGGAATGATTACAACAAATGATAGCGAACTTGCAACTAAAATGAGACTGCTAAGGGGTCAAGGGATGGACCCTAATAAGCGATATTGGTTTAACGTAGTGGGATACAATTACCGTATGACTAATCTGCAAGCTGCTGTAGGCCTTGGCCAGCTAGAGAATATTAGATGGCATTTGGATCAAAGAAGAAGAGTCGCAAATGCCTACATTGAGAAGCTTTCTCCATACTCTAATCTACTTGAACTTCAACCTGAAATGGCTTGGGCTACGCACTCGTTTTGGATGGTATCCATTCTTTTAAGTGATCATGTTAAGAAAGAACGCGATGAAATTATGCAGTTATTGGAGGATGACGGAATTGAAACGCGACCGTTGTTCTACCCTATGCATCATTTACCTCCTTATTATGAAGATAGAGTATACCCTGTAGCTGATCGAGTTTCAGCCAGAGGGTTTAATATTCCTACCAATGCTACATTGACAGATGAAGATATTGAGTACATTTGTAACAGAGTAATTTTTCATTGCTCTAATAATATTTAG	MKAVKRIPLAGPVLNGNERKYVLDCIDTGWISANGKYVNEFESTFADFCGVKHAISCANGTVALHLPLLAYGVEPGDEVIIPSFTYIATANAIKYCGAKPVLVDSEENTWNIDPNKIEEKITPRTKGIIVVHLYGHPVDMDPVMEIAKKHNLFVIEDAAEAHGAEYRGKVVGSIGHVGTFSFFGNKIISTGEGGMITTNDSELATKMRLLRGQGMDPNKRYWFNVVGYNYRMTNLQAAVGLGQLENIRWHLDQRRRVANAYIEKLSPYSNLLELQPEMAWATHSFWMVSILLSDHVKKERDEIMQLLEDDGIETRPLFYPMHHLPPYYEDRVYPVADRVSARGFNIPTNATLTDEDIEYICNRVIFHCSNNI	PGPT0022785_1073	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010	NA	NA
AK002_05802	645	pglD	COG0110	UDP-N-acetylbacillosamine N-acetyltransferase	GTGTCTAAAAAAGTTTTGGTTGTCGGTGGTGGAGGTCATGCAAAAATCGTTATCGATATTTTGCAAGGGTATGATGAATGTTATGAGATTGTAGGCTTTACCTCTCAGACATCTGACATAGACAATATTTTAGGTGTTCCTTATCTTGGTGACGATTCTATAATCTCCAAACTTCACGGTGTAAACTGTTTTATTGTGGCTGTAGGAAATAACAAAATTCGGAAAAGTATCTATAAGAGATTAATACAGTTAGGATTGGAACCGATAAATGCTATTAGTAAATCATCATATGTGTCGCCCAACGCTCATATTGGTAAAGGTATTGTGGTTGTAGCGGGTGCTGTAATTAATCCATGCAGCACGATTCATGACAATGTGATCATCAATACCTTGACGGGAATTGACCACGATTGTGTAGTAGGGGCACACGCTCATATTGCTCCAGGCGCGTCGTTAGCAGGAGGAGTAAGGGTTGGAGAGGGAGCGTTTATCGGTATGAAAGCGAGTGTCGTACCAGAAAAAACAATTGGCGAATGGTCGATTATTGGATCAGGTGCCGTCGTTGTATCAGACATACCATCTGCTGTTACTGTAGTTGGCGTGCCTGCAAAAAAAATCTTAAAGCAGAAGGATGAATCAAAATGA	MSKKVLVVGGGGHAKIVIDILQGYDECYEIVGFTSQTSDIDNILGVPYLGDDSIISKLHGVNCFIVAVGNNKIRKSIYKRLIQLGLEPINAISKSSYVSPNAHIGKGIVVVAGAVINPCSTIHDNVIINTLTGIDHDCVVGAHAHIAPGASLAGGVRVGEGAFIGMKASVVPEKTIGEWSIIGSGAVVVSDIPSAVTVVGVPAKKILKQKDESK				NA	NA	NA	NA	NA
AK002_05803	843	rmd		GDP-6-deoxy-D-mannose reductase	TTGTCGCGATCTCAGCCTCAGAATAAAGATATTATATTTACCTCTTGTGATATTAATAACGCTGATCTAGTTAAAGCAACACTTGAACGAATAAAGCCTGATGAGATATATCATCTCTCAGGCGCTGCGTTCATACCGCATTCTTATGAGAAACCATTGGAGGCTTATCATACGATTGTTAATGGGACGTTGTCTTTATATGAAGGTATAAGAAAATTGGGTTTGGATTCCAAAATTCTCTACGTAGGATCTGCTGAAGTTTATGGTGAAGGTCTGAAACGTCCTTTTATTGAAACAGATCTTCTTCATCCCAGCAATCCGTATGCGGGCGCTAAAACATGTGCAGATATGATAAGCGAGCAATACTTTAGGACTTATGAAATGAATATCATCAGAACTCGTCCATTCAACCATACTGGGCCCGGTCAATCTTCTGACTTTGTTTGTTCCAGTTTTGCTATGCAAATTGCACAGCTTGAGAAACAAGGCGAGCAAGCAATCGGAGTTGGGAACATAGAAGTAAAAAGAGACTTCCTTGATGTGAGAGATGTTGTAAAAGCTTACCATGCATTAATGAAGAAGGGTACGATAGGAGAAGCGTATAACATTTGCTCTAATAATGCCATTCCTATATCTGAGATCCTAGAGTATCTTTTTTTTGCTAGTGACTTAGAGGAGTGGAATGTACAAGTAGATTTATTAAAAGTAAGAGAAAACGATGCATCAATAAGAGTCGGCAACAATTCCAAATTGATTTATGATACCAATTGGACTCCACAATTTAATTTAAAAGATACAATGAAAGATCTACTGGAGTATTGGCGTGAGCGCATAAGAAGTTAG	MSRSQPQNKDIIFTSCDINNADLVKATLERIKPDEIYHLSGAAFIPHSYEKPLEAYHTIVNGTLSLYEGIRKLGLDSKILYVGSAEVYGEGLKRPFIETDLLHPSNPYAGAKTCADMISEQYFRTYEMNIIRTRPFNHTGPGQSSDFVCSSFAMQIAQLEKQGEQAIGVGNIEVKRDFLDVRDVVKAYHALMKKGTIGEAYNICSNNAIPISEILEYLFFASDLEEWNVQVDLLKVRENDASIRVGNNSKLIYDTNWTPQFNLKDTMKDLLEYWRERIRS	PGPT0022780_216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GDP_D-RHAMNOSE|DEOXY_D_MANNOSE_MODIFICATION,PGPT0022780-rmd-K15856	NA	NA
AK002_05804	1002	gmd_2	COG1089	GDP-mannose 4,6-dehydratase	ATGACTAAAAATGCACTAATTACCGGTATTACTGGGCAAGATGGATCATATTTGGCGGACTTGCTGTTGGAAAAAGGGTACAAAGTGTATGGCTTGCGTAGAAGAACTAGTGTTCCAATCTTAGAGAATATTGAGCATATTCAAAATGAAATCGAGTTTATTGAAGGGGATTTGCTAGATTTAAGCTCACTTATACGAGCTGTTCAAATCTCTAATCCTGATGAGGTTTATAACTTAGGTGCGCAATCTTTTGTTGCAACATCATGGGACCAACCGATTCTAACAGGACAAGCGACAGCATTGAGTGTTACAAATATGTTGGAAGCAGTTCGCATAGTTAAGCCTGAAGCACGGTTCTATCAAGCGTCCAGCAGTGAGATGTTTGGAAAAGTTGTTGAAACTCCGCAAAAAGAAACCACACCATTCTATCCTAGAAGTCCATATGGTGTGGCCAAGGTGTATGGTCACTGGATGACTGTGAATTACCGTGAAAGCTATGATATGTTTGCTTGCTCGGGAATTTTGTTTAATCATGAGTCTCCTCGACGCGGAATTGAATTCGTTACGCGAAAAATAACGAATGCTGTTGCTCGTATAAAACTTGGGCTGCAGCAAGAATTGAGACTTGGAAACCTAGATGCCCTTAGGGATTGGGGATACGCAAAAGATTACGTCGAATGCATGTGGTTGATGTTACAGCAAGATACTGCAGATGATTATGTCATTGCAACTGGAGAAACTCATTCAGTTCGGGAGTTTTGTGAAATTGCTTTTGGATATGCTGGACTAGATTATCAAGATTTTGTGGTAACTGACCCTAAATTCTTTAGGGCTGCAGAGGTTGATTTACTGTTGGGCGATCCTTCCAAGGCAATTAACAAATTAGGCTGGAATCCTCAAAAAACGACGTTTAAAGAATTGGTTCAGCTAATGGTCGATAAGGATCTTGAAAGAATAGCAAGAACTACTAACTACAGCCAATCTAACGTACTAGGGAAGTGA	MTKNALITGITGQDGSYLADLLLEKGYKVYGLRRRTSVPILENIEHIQNEIEFIEGDLLDLSSLIRAVQISNPDEVYNLGAQSFVATSWDQPILTGQATALSVTNMLEAVRIVKPEARFYQASSSEMFGKVVETPQKETTPFYPRSPYGVAKVYGHWMTVNYRESYDMFACSGILFNHESPRRGIEFVTRKITNAVARIKLGLQQELRLGNLDALRDWGYAKDYVECMWLMLQQDTADDYVIATGETHSVREFCEIAFGYAGLDYQDFVVTDPKFFRAAEVDLLLGDPSKAINKLGWNPQKTTFKELVQLMVDKDLERIARTTNYSQSNVLGK	PGPT0022770_2689	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-COLANIC_ACID_RELATED_PROTEINS,PGPT0022770-gmd-K01711	NA	NA
AK002_05805	1080	algA_2	COG0662	Alginate biosynthesis protein AlgA	ATGACAACTACTTGTGTAATTATGGCCGGCGGTAAGGGCGAACGCTTTTGGCCAAAAAGTCGGACAAATTTACCGAAACAATTTTTGAATATATCGGGTAATAAGTCCATGATACAGCAGTGTATAGATCGCCTGAGGAAGTTTCTCCCAATTGAACAAGTCTTTGTCATTACCAATGAATTATATGCAGAGTTAATAAAGGCTCAAATTCCTACAATACCTGATGAGAACATCATCATTGAACCGGTAGGGCGCAATACTGCTTCTTGTGTTGGATTAGCCTCTATTATTATTGAAGAAAGATATCCCAATAGTTCAATGATAGTTCTTCCGTCGGATCATATTATCAAGGATGAGTATGAATTTATTAATATACTCAATACAGCTGTCTCAGTGGCAGAGGAAGGTGAAAAGAACCTAGTAACCCTTGGGATAAAACCTACCTATCCTGAAACGGGCTACGGATATATCGAAAGTATGGACGAAGCGGTTTCAGTTAACGGATTGAGTGTTCATAAAGTGAGGAAGTTTGTAGAGAAGCCTAGTATTGATAATGCCACATCCTATTTATCAGCTGGAAACTATTATTGGAATAGTGGGATTTTTGTTTGGAAGGTAGATGTCATACGTAATTATATCAAGGATCTCTTGCCTGAGATGCATGACATTTTAGAAACAATGAAGCTAGCTTTTCAAACAGAGGATAGAAATGAAGTTATAAAGGCAGAGTTTCACAAGATGCCGGATCAATCGATAGATTATGGCATCATGGAAAAAGCAACAGATATCTATGTAATTCCATGCGTCTTCGGTTGGGATGATGTTGGCAGCTGGACTGCACTCGAACGTATCAGCAGTCTTGATGATGGAGGGAATGTCATCAGAGGTAATACGCTCAATATTGATACAAAGGGTTGCATTATCGAGAGTAACGGCAAATTAATTGCCACACTAGGAATTGAAGATCTTATTATAGTTGAGACGGAGGATGTAACTCTCATCTGTAAAAAGGAAAAGGCTCAAGAGATAAAATCTCTAATAAAGGAACTTAAAGTCCAGAAGTTAGAGCAGTATTTATAG	MTTTCVIMAGGKGERFWPKSRTNLPKQFLNISGNKSMIQQCIDRLRKFLPIEQVFVITNELYAELIKAQIPTIPDENIIIEPVGRNTASCVGLASIIIEERYPNSSMIVLPSDHIIKDEYEFINILNTAVSVAEEGEKNLVTLGIKPTYPETGYGYIESMDEAVSVNGLSVHKVRKFVEKPSIDNATSYLSAGNYYWNSGIFVWKVDVIRNYIKDLLPEMHDILETMKLAFQTEDRNEVIKAEFHKMPDQSIDYGIMEKATDIYVIPCVFGWDDVGSWTALERISSLDDGGNVIRGNTLNIDTKGCIIESNGKLIATLGIEDLIIVETEDVTLICKKEKAQEIKSLIKELKVQKLEQYL	PGPT0022660_1653	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
AK002_05806	1335			hypothetical protein	ATGGGGCTAGAGATATGGAAAAGTATGATTTTTCAAGAAACAATGGTGGTGTTAAAAATAAAAAAAATTATAGTCCAAATGATCTATAAAGTAATTCGATTGCTAAAACCGTTATTAATGCTTCTCATCCCTGCCCATAAAAGAAAAGAATTAAAAAGAAAGTTTCTTTCTTTATCCTCAAGTTCTAGCAGGGAACGGACAATCGAGACACTCCAATATATAGACGGGATAAATCTCATAGGGTTTTCTCGGGCAGAGATGGGGATTGGCGAATCTTGTCGTATAGCTGCTAAAAGCATGGATGCGGCTGATATACCTTTTGGGATCATTAATTTTACTGGTACAAACAGTGCTAGAATGGGCGATACGACTTGGGTGCATAAGGAGATAACGAGCCCTATCTATAGCATAAACATTTTTCATATTAATGCTGAGCAGATGCCTGAATTAAATGTGGTGTATGGTGATTCATTTTTCAAAAATAGATATAATATAGGGGTTTGGCACTGGGAGTTACCGGATTTTCCAGATGAGTGGATAGAGAGTTTTCAATTTGTAGATGAAATATGGGCACCATCAACATTTGTTGCTGAATCAATATCACTTAAAAGTCCTGTTCCAGTGGTCAAAGTTCCTCATTCTATTGAAGTAAAAATCACTTCTCCAAGAACACGGTCTTATTATAATTTGCCAGAAGATGTTTTTTTGTTTCTCACCATGTATGATGTCCGAAGCTTTCAGGAACGTAAAAATCCTGAGGCTTCTGTACGATCTTTTCAACTAGCTTTTGAACCTGATAATATGTCAGTTGGTCTTGTTATTAAAGTTAATAGTTATAAAGCCAGTACGGGTGAAATGGATAAGTTAAACAAACTGATCCGTGATTATAAAAATATTTATATCATTGAGGAAACTTTGAGTAGAAACGACGTTAATGCACTTCTTTTGGCATCAGATTGTTTCATATCTTTACATAGAAGTGAAGGCTTTGGATTGGGACTGGCGGAAGCAATGTATCTTGGGAAGCCGGTTATCGGTACTAACTGGTCTTCTACCACAGACTTTATGAACTCTAACAATTCATGTCCTGTTGACTATAGATTGATTTCTGTAGGGGAAAACTATGGTCCGTATAAGGCTTATCAACAGTGGGCTGACCCTGACATTGAACAAGCAAGCGCGTATATGAAGAAGCTGGTTATTGACCCAGACTACTATCATAGTGTGGCTTCCCGAGGCGAAAAGTATATAAAACAGTACTATTCACCGAAATATATTGGTGAAATGATGAGCAGACGTATTAATTATATTCGTAAGTGGAGATTTGGGGGTTAA	MGLEIWKSMIFQETMVVLKIKKIIVQMIYKVIRLLKPLLMLLIPAHKRKELKRKFLSLSSSSSRERTIETLQYIDGINLIGFSRAEMGIGESCRIAAKSMDAADIPFGIINFTGTNSARMGDTTWVHKEITSPIYSINIFHINAEQMPELNVVYGDSFFKNRYNIGVWHWELPDFPDEWIESFQFVDEIWAPSTFVAESISLKSPVPVVKVPHSIEVKITSPRTRSYYNLPEDVFLFLTMYDVRSFQERKNPEASVRSFQLAFEPDNMSVGLVIKVNSYKASTGEMDKLNKLIRDYKNIYIIEETLSRNDVNALLLASDCFISLHRSEGFGLGLAEAMYLGKPVIGTNWSSTTDFMNSNNSCPVDYRLISVGENYGPYKAYQQWADPDIEQASAYMKKLVIDPDYYHSVASRGEKYIKQYYSPKYIGEMMSRRINYIRKWRFGG				NA	NA	NA	NA	NA
AK002_05807	2460			hypothetical protein	TTGTCGAATCCAGTATACGGTAAAAAAGCCGCCGCGTCGAGAAAAGGTGAGACGAGATCGGCTTTGTTTTGGGTGTTAATATCAGGAATTATACTGTTCCTCGCTTGGACGCCGTTTCAGACCGCTCTATTTAATGGGCAAATGTTAGAATTTGAGAAGCCAATTTTTTGGGCTGCTATCTTAGCATGTCTATTAATATTTCTCTGGGTTGCTCATTCCTATAAAAGCATCCAGTTAAAAGATCAAAGAGATTGGCTGGCTGTGGGTGTGCTTTTTCTTCCATTAACTTACATACTCTCGCTCATTAGCGCTGCCTCCCATGTTCTAGCCATTAATATGGTTATCATTAATTGTATTTATGCCATTATGTTTATCATTGGTCTGTACGTGCTCCGTGACAAGTTAGGGAATCGAATCATTCAAAATACAATTATGACTGTAGCATATCTAATTGTTGGATTCGGGTTGCTCCATTGGTTTGGACAGGGCAAGACTGCGGGTGCTATTGCAAAATGGTTTTCAAATACCGTTTTAAACGGTACGTACACCCATGCTGTCATGACTGATACTAACGGTCTTCGTCTGACTTCCGTATTCCAATACGCAAATACTTATGCAGCTTTTCTAATGGCATTCCTCTTCGCGGCAGTCTTTTTCGTTACTACATCTCGAAAATGGTACGGTCAAGCCTTTCATAGCTTCATGCTGGTACCCATAATTATTTCGCTGCTGCTGACGTTGTCTCGTGGCGGTCTCGTAATGTTACCTGTTGTGTTTGTTTTGTTACTCCTATTCCTGAAGCCAGCTAAACAATTATTATGGATCCTGTACTGCGGTATAGCAGGCGTGGTTTCGCTGGCTATATCTAAACCGGTTACTGAGCTAGGATTGAGTTTAAATGAAGCCTTCAGCGGCAGTGGTGCCCTTAAGGGCTGGGGCATTTTGCTTGGTGCGTCCGCTATTATAGGACTTCTCGGGTGGGTTATACAGAGTTTCATCGTTCCTAAACTTGAACAAGCTTTAAGCAGTTGGTCCTCGAGAAAGACATCTAACCTCTGGATTCCGCTTGGTTCCGTTATAATTGGAGGCCTGCTGATTCTCCTATTCATTGGTACTGGTTTGAAAAATATACTGCCGCAAAGCATTAGCGTCCGACTCGAGAATATTAACTTTAATCAGCACAGCGTTCTGGAACGTTTCACGTTCTATAAAGATGCCATGAAGGTGCTAGCTGACTATCCGATCATCGGAGCTGGTGGTGGTGCGTGGGCTTCACTTTATGAGCAGTACCAGAACAACCCGTATACAAGCCGTCAAGCGCATAACTTCTTTTTACAGTACTTGATTGAGGTCGGAATTGTCGGATTCGTGATCTTCATGTCGTTTATTCTGTATACTTTCTATAAGTATATTAGAGGTTATATTAAAGGCAGTGAAGAAGAGCGCAATAGTCACTTCCTTTATCTCATCATCGTCCTTTCCATTTTGATTCATAGTATTTTGGACTTTAACTTGAGTTACGTGTTTATGGGAATTCTTGTATTCCTGGGACTTGGCGGAATGGCTGCGGTAATGGATAATAAACCAATGAAAAAATGGAGCCTTAAAGATTCAACTGCAAGAGGTGCATATAGTATAATCGTCGGACTCTGCGCTATTCTCGTCATGATTACATCCATCCGATATGTACAAGCTGCAGACTCGGGAATGGAAGCACGTAGAGTCGTTCAGATTAGCACTTCCTTTGAGGAAATTAAAGCTCCCCTTGATAAAGACCTGAGCATACGCCCGAGCCATCCCGACTCGGTACTGCTAACCGCAGCACTGTATCAGAGCGTGTATAAGCAAAATCAAGATGAGAATTTTTATAACGCATCGGTTGCATTGCTTAACAAAGCATTAAAAGATGAGCCTTATAACAAATCCATGCTCAAGAGCCTAATCGAAAGTTATGAAATGAAACAGGAACCCGAACGGGCTTATGAAGTACTTATCAACAACGCTCATAAATTTAAATGGGACATCAATTGGTACGAACAGATCATCAATAAAGGATACGATCTGGGAACTAAAGCTCTCGGTACAGGTGATACGGAAGCGAAGGACAAATACTTCACGCAAGCAACTAAGGCTTTCACTGAGGTTCAAGCCGGCATTCAACACCTAGACACATTGCCTGAAGGCCAATTCCAAGGTAATCCTTTCGAAAACACACCCGACATGATTCTCCATGCGGGCAAAATGTACTTCATGATGAATCAACCGGAACAAGCGTCTGAAGCTCTTAAGATTGGCATACAAGAAGATCTCACCCAGACAACCCAACAGGAGATTGTACGTTGGTATCTGGCAGCATTACAAAAACAAAACTTGAGTGATGATGCCCTTATGGCGAAGCTAACCCAAGTTGATCCGAATGCGAAGCAAAATGTTCAACAGCTTGCTGATCTACAATTCTAA	MSNPVYGKKAAASRKGETRSALFWVLISGIILFLAWTPFQTALFNGQMLEFEKPIFWAAILACLLIFLWVAHSYKSIQLKDQRDWLAVGVLFLPLTYILSLISAASHVLAINMVIINCIYAIMFIIGLYVLRDKLGNRIIQNTIMTVAYLIVGFGLLHWFGQGKTAGAIAKWFSNTVLNGTYTHAVMTDTNGLRLTSVFQYANTYAAFLMAFLFAAVFFVTTSRKWYGQAFHSFMLVPIIISLLLTLSRGGLVMLPVVFVLLLLFLKPAKQLLWILYCGIAGVVSLAISKPVTELGLSLNEAFSGSGALKGWGILLGASAIIGLLGWVIQSFIVPKLEQALSSWSSRKTSNLWIPLGSVIIGGLLILLFIGTGLKNILPQSISVRLENINFNQHSVLERFTFYKDAMKVLADYPIIGAGGGAWASLYEQYQNNPYTSRQAHNFFLQYLIEVGIVGFVIFMSFILYTFYKYIRGYIKGSEEERNSHFLYLIIVLSILIHSILDFNLSYVFMGILVFLGLGGMAAVMDNKPMKKWSLKDSTARGAYSIIVGLCAILVMITSIRYVQAADSGMEARRVVQISTSFEEIKAPLDKDLSIRPSHPDSVLLTAALYQSVYKQNQDENFYNASVALLNKALKDEPYNKSMLKSLIESYEMKQEPERAYEVLINNAHKFKWDINWYEQIINKGYDLGTKALGTGDTEAKDKYFTQATKAFTEVQAGIQHLDTLPEGQFQGNPFENTPDMILHAGKMYFMMNQPEQASEALKIGIQEDLTQTTQQEIVRWYLAALQKQNLSDDALMAKLTQVDPNAKQNVQQLADLQF				NA	NA	NA	NA	NA
AK002_05808	873	gtaB_2	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGAACATTCGTAAAGCGATCATACCCGCTGCGGGGCTTGGTACGCGGTTCCTGCCAGCTACGAAAGCGATGCCTAAAGAAATGCTACCCATTGTGGACAAGCCGACCATACAATACATTATCGAAGAAGCGGTAGCTTCCGGTATCGAGGACATTATCATTGTAACTGGTAAGGGGAAGCGGGCGATTGAGGACCATTTTGATTCTTCCTTTGAGCTGGAACATAATTTAGCGGAGAAGGGTAAGTGGGGACTTCTCGAAGAAGTGCGTAAACCCTCAAACATGGCGGATATCCACTATATTCGGCAAAAAGAGCCCAAGGGGCTGGGCCATGCTATTTGGTGCGCACGCAAATTCATCGGGGACGAGCCGTTTGCTGTGCTGCTCGGCGACGACATCGTGGAGTCAGAAGTACCCTGCCTAAAACAGATGATGAAGGTCTACGACACCTACCAATCTACCATTGTGGGCGTTCAGCCCGTCGATTGGAACGAAGTCGATCGTTACGGGATCGTAGACGGATTTCAGAAATCAGACCGAATCTATGAAACATCGAGACTGGTGGAGAAGCCATCCCGTGCCGAGGCGCCTTCCAACCTGGCTATTATGGGCCGCTATATTTTACCGCCGGATATCTTCGACTTACTGGAGAATCAAGAGGTTGGGAAGAACGGAGAAATTCAGCTGACTGATGCGCTCTCCACCTTAGCTCATCGGAGTCCGATCTATGCATATCACTTTGACGGGATGCGCCATGATGTCGGCGAGAAGTTGGGTTTTATCGAAACCAGCATTCATTATGCATTGCAGCGGGAAGAGTTGAGAGATGATTTAATTGCTTATTTGAGTGGGGTTTTGGCGAAGGTCCAGTAA	MNIRKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIIEEAVASGIEDIIIVTGKGKRAIEDHFDSSFELEHNLAEKGKWGLLEEVRKPSNMADIHYIRQKEPKGLGHAIWCARKFIGDEPFAVLLGDDIVESEVPCLKQMMKVYDTYQSTIVGVQPVDWNEVDRYGIVDGFQKSDRIYETSRLVEKPSRAEAPSNLAIMGRYILPPDIFDLLENQEVGKNGEIQLTDALSTLAHRSPIYAYHFDGMRHDVGEKLGFIETSIHYALQREELRDDLIAYLSGVLAKVQ	PGPT0014875_4669	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0014875-gtaB|UGP2|galU|galF-K00963	NA	NA
AK002_05809	1047			hypothetical protein	ATGAAAGAGAGAGACGCCTATTTCGATAACCTCAAATTCATACTGATCCTGTTGGTGGTCGTGGGACATCTCATTGAGCCGTTTAACGGCGAAGCAGCGATGGGAGCGATCTATCAGTTCATTTACTCGTTTCATATGCCGTTGTTTATTTTTGCGGCCGGTTATTTCGCCAAGTGCATTCAATCCCCCAAACAATACGTCGGCCTGCTGTCGGGACTGGTCGTGCCGTATTTCATATTCGAGACGCTCTATACCCTGTTCGACTATTACATGCAAGGCTTGGATCGGCTCGATTTCACGTACTTTTACCCCAATTGGATCCTGTGGTTCCTGTTCAGCATGATGCTGTGGAAAATGCTTCTGCCGTACCTGCTGATGCTCAAATACCCGCTCGTCGTCTGTTTCGCGATGTCCATCATGCTCGGGTACTCGATCGATGTCGACTATTATGCAAGCATTTCGCGCACACTGTACTTCCTGCCCTTTTTTCTCATCGGATATGTTTTCAAAAGGGAATGGCTGGATGCCATCAAGACCCGGCCTTTTCAACTGCTATCGATCATCCTGCTCTCCGCCGGATTTGTCCTGCTGTACGTCATATCGCCGACCCTGCCATCTAACTGGTTCTACGGGGCGATGCCTTACCTGGAGTTTGGCTTGGACTCGTGGTATGCAGGCCTCTACCGTATGATCACCTACGCCTTCACCGTCATCATGGGACTATGCGTCCTCTCCCTCATTCCGAGGTCGGATACGCCCTTCACGGACCGTGGGGTGAATACCATGTACGTCTTTTTGCTTCACGGGTTCATCGTCAAAACGATGCAGCATCTGAGCTGGTTCGAAGCGTTCCGGTCCACGGGAGGCAAGCTGCTGCTGATTCTGCTCGGCGCAATCATAACCTGGCTGCTATCCTCATCCTGGATCAAACGCGGCTTCGGTTGGATCGTCGAGCCGAACGTCGGGTTTCTATTCCATTACCGATCCAAGCACCGCCATGAACGAGCTGAAACGAAGCGTTCCGACGCAAAAAGGAGTGATGCCTAA	MKERDAYFDNLKFILILLVVVGHLIEPFNGEAAMGAIYQFIYSFHMPLFIFAAGYFAKCIQSPKQYVGLLSGLVVPYFIFETLYTLFDYYMQGLDRLDFTYFYPNWILWFLFSMMLWKMLLPYLLMLKYPLVVCFAMSIMLGYSIDVDYYASISRTLYFLPFFLIGYVFKREWLDAIKTRPFQLLSIILLSAGFVLLYVISPTLPSNWFYGAMPYLEFGLDSWYAGLYRMITYAFTVIMGLCVLSLIPRSDTPFTDRGVNTMYVFLLHGFIVKTMQHLSWFEAFRSTGGKLLLILLGAIITWLLSSSWIKRGFGWIVEPNVGFLFHYRSKHRHERAETKRSDAKRSDA				NA	NA	NA	NA	NA
AK002_05810	2514			hypothetical protein	ATGGACACGAAAGCATTACGAAGAGAAGACGTGGAGCTGCTGGCGCCGGCAGGGGATTGGGATTGCATGCGGGCCGCGGTGGCGAACGGGGCGGACGCGATCTTTTTTGGGGTCGAAAAATTCAATGCGCGCGCACGGGCGAACAATTTCCGGATGGACGAGCTGTCCGAAATTATGGCCTTTTTGCACAGTTATGGGGTTAAGGGGTTCCTGACCTTCAATATACTCGTGTTCGAGAACGAACTGGAGGATGCCAAGGAGCTGATCGATGCATGCGTGGATGCAGGCGTCGACGCAGTGATCGTGCAGGATCTGGGTCTGGTCAAAATGATTCGTGAGATTTCTCCGGATTTCCCGATCCACGGCTCTACGCAGATGACGATTACGTCGCCGGAGGCCGTCGAGTTCACGAAGCCGTTTAACATGGAACGCGTTGTTCTAGGACGCGAGAACAATCTGAAGCAAATCCAGAAGATCGGGGAGCAGGCGAAGCTGCCGATGGAAGTATTCGTGCATGGTGCGCTATGCGTATCCTACTCGGGCCAATGCCTGACTTCCGAAATGTGGGGCGGCCGGTCCGCCAACCGCGGAGAGTGCGCGCAGGCCTGCCGTCTGCCGTACGATCTGATCGTGGATGGCGAGCAGAAGCCGATGGGCGACGTTGCCTACCTGCTCTCGCCAAAAGATCTGGCCGCGATCGATCTCATGCCGGAGCTGATTGAAGCGGGCGTGACCTCGTTCAAGATCGAGGGCCGTTTGAAGAGCCCGGAATACGTGGCTAACGTCGTGAGCAAGTACCGGAAGGCGATCGACCGGTATTTTGACGGCGAGGATGCGAGACCGAGCAAGGAAGAGGTGCGTGAGCTGCAGCAGAGCTTCTCCCGCGGCTTCACCCATGGTTTCCTGGATGGAACGAACAATAAAAAGCTGGTTGAAGGCACGTTCCCGAAAAGCCGCGGCGTGTACCTCGGCCGGGTGGAGCAGATTCTGCGCGACGGTGTCGTCTGCAAGCTGGATGCGCCGCTGAAGCGTGGGGATGGCATTGTGTTTGATGCCGGCGACCCAACGAAAAAAGAAGAAGGCGGACGCGTCTACGACGTGCGCCGCAAAGGCGTCAAGCTGGAGGGCGAGGCGCAGGAAGGCTGGATCGTCGATATCGTTCCCGGCCGGAGCGACGTGGACCTGCGCAAGCTGCATGTCGGCGACCGGATCTGGAAGACCAACGATCCGGCGCTGGATAAGCGCCTCCGTCAGACGTACGAGACGGAGAAGCCGTACCGGGTATTCCCGGTACATGTGCGCGTCAGCGGCCGTCCTGGACAGCCGCTGTCGACCTGGTGGACCGATGTGCAGAAAGGCACGACGGTCCAGGTGGATTCGGAGCTGGAACTGGAGATCGCCCAGAAGCGGCCGCTCAGCCAGGAGATCCTGGAGGAGCAGCTTGGCCGCCTGGGCGGAACGGTGTTCCAGCTTGAGGCACTCGACGTCGACCTGTACGGCGACGTCATCGTGCCGATTCGCGAGCTCAACAGCATCCGCCGCCGTGCGGTGGAGCTGCTCGCCGGCGAGCGGCCGAAGCCGCCCGTGTACGTGAAACGGGCGGTGTCGGTGTATGGCGATGCGGCTGTGCCCGCAGCGCCCGTGGCCCGCGGTGAGGCGAAGCTCACCGCGCTGTGCCGCAGCCTCCCGCAGGTGGAGGCTGCGCTTGAGGCCGGCGTCGAGATGATCTACGCCGACTTCGAGTTCATCAAGCAGTTCCCGGCAGCGGTGGAAGCCGTGCGTGCAGCCGGCAAACAGATTGCGCTGGCAACGCCGCGCATTCACATGCCGGGCGAGAACGGCTATCACAACAACATCCTGCGCCTCCAGCCGGACGCCGTGCTGGTGCGCAACACCGGTGCGCTGTATTTCTACCTGCGCCACCGGATGGAGAACCCGGGGGCGAAGCATCCTCGGCTGATCGGCGACTTCTCCCTGAACATTGCCAACCACAAGGCGGTTGATCTGTTCGTCGAAGCCGGATGCGACGCCGTCACGCCTTCCTATGACCTGAACATCCAGCAAATGGTGGATCTTCTGGGGAAGGCCGACACGTCCAAGATGGAGATCGTCATCCATCAGCATCTGCCGATGTTCCATACGGAACACTGCGTGTACTGTACGTTCCTCAGCGAAGGAACGGACTTCACGAACTGCGGTCGTCCGTGCGAAGAGAGCCGCGTGTCCCTGCAGGACCGGATCGGCATGTCCCATCCGGTACGGGTCGACGAAGGCTGCCGGAACACGGTGTACAATGCCATCGAGCAATCCGGCGCCGAGTACCTGGCGAACTTCATGGAGCTGGGCGTATCCAGCTACCGCGTGGAATTCCTCGAGGAAACGCCGGAGCAAGTCCACGAGGTTATCGATCTCTACAACCGCGCCTTGCGCGGCGAGATCAGCGGCACCCAAGTGTGGAAGAAGCTGAAGGCGACCAACCAGCTTGGCGTAACGCGGGGGCAGTTGGTGAAGTAA	MDTKALRREDVELLAPAGDWDCMRAAVANGADAIFFGVEKFNARARANNFRMDELSEIMAFLHSYGVKGFLTFNILVFENELEDAKELIDACVDAGVDAVIVQDLGLVKMIREISPDFPIHGSTQMTITSPEAVEFTKPFNMERVVLGRENNLKQIQKIGEQAKLPMEVFVHGALCVSYSGQCLTSEMWGGRSANRGECAQACRLPYDLIVDGEQKPMGDVAYLLSPKDLAAIDLMPELIEAGVTSFKIEGRLKSPEYVANVVSKYRKAIDRYFDGEDARPSKEEVRELQQSFSRGFTHGFLDGTNNKKLVEGTFPKSRGVYLGRVEQILRDGVVCKLDAPLKRGDGIVFDAGDPTKKEEGGRVYDVRRKGVKLEGEAQEGWIVDIVPGRSDVDLRKLHVGDRIWKTNDPALDKRLRQTYETEKPYRVFPVHVRVSGRPGQPLSTWWTDVQKGTTVQVDSELELEIAQKRPLSQEILEEQLGRLGGTVFQLEALDVDLYGDVIVPIRELNSIRRRAVELLAGERPKPPVYVKRAVSVYGDAAVPAAPVARGEAKLTALCRSLPQVEAALEAGVEMIYADFEFIKQFPAAVEAVRAAGKQIALATPRIHMPGENGYHNNILRLQPDAVLVRNTGALYFYLRHRMENPGAKHPRLIGDFSLNIANHKAVDLFVEAGCDAVTPSYDLNIQQMVDLLGKADTSKMEIVIHQHLPMFHTEHCVYCTFLSEGTDFTNCGRPCEESRVSLQDRIGMSHPVRVDEGCRNTVYNAIEQSGAEYLANFMELGVSSYRVEFLEETPEQVHEVIDLYNRALRGEISGTQVWKKLKATNQLGVTRGQLVK	PGPT0021005_249	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0021005-PUTATIVE_PROTEASE-K08303	NA	NA
AK002_05811	1098	yhaZ	COG4335	putative protein YhaZ	ATGAGAGAAACGCTGAAGGATCTATATTCGAATACATTGTTCCAGCAAGTGACGGACCGGCTGAAGGAGGCTTATCCGGCATTCGATGCGGACCGGTTCATGACGCTGATTCATAATGAAGCCTGGGAGCAGGAGGAGTTCAAGCAGCGCATCCGGCATATTACGCTGGCCTTAACGGACACGCTGCCTGCTTCTTACCCGGAAGCCGTCGGGATCCTGAAGCAGGTGGCTCCGCATTTCAGAGGCGTGGAATACGTGTTTTTTCCCGACTATGTCGAGGTGAACGGCATGGATGATCTGGAGACGTCGATGGAAGCTTTGGCGGTATTCACGCATTCTTCCACGGCGGAGTTTGCCGTCCGGCCTTTTATTATCCGGGACCAGGATCGGATGCTGGCCCAGATGATGGCATGGGCGCAGTCCGATGACGAGCATCTGCGCCGATTGGCGAGCGAAGGTTGCAGACCTCGTCTGCCATGGGCACCGCAGCTGCCGGCCCTGATCAAGGATCCGCGCCCGGCGCTGCCGATTCTGGAGCAGCTGAAAGAGGACTCCTCCTTGTATGTTAGAAAAAGCGTCGCCAATCACTTGAACGATATCTCCAAGGATCACCCGGAGCTTGTGCTGGAGATCGCCGCCAAGTGGTACGGCAAGCATCCGCTAACGGATTGGATCGTACGGCATGCGCTGCGTTCGCTGCTGCGAAAAGGGGATATCCGGGCACTGGCTATTTTCGGATACGAGGAGCTTGAGAAGCTGGAAGGACTGGAGGTGCGCGAGCTGCGCATCAAACGTTCCGTGATAACGATGGGGGACGATTTGGAGTTCGCTTTTCAGGTGGTCAACGAAACCGGCTATCCGATGGCGCTCCGCATTGATTACGAGATCGATTATATGAAGGCAAGCGGTAAGCTTGCGCCGAAACGCTATAAATGCTCGGACAAGATTTATGCGCCGGGATGCTGGAAGGTCGAGAAGAAGCAATCGTTTAAACCGATCTCCACCCGCCGTTTCTACTCCGGCGATCACCGCCTTCACATCGTCGTGAACGGCAAACGGTTGGCCAGCATGGATTTTGTGCTGGAGGGCGCGGAGTAA	MRETLKDLYSNTLFQQVTDRLKEAYPAFDADRFMTLIHNEAWEQEEFKQRIRHITLALTDTLPASYPEAVGILKQVAPHFRGVEYVFFPDYVEVNGMDDLETSMEALAVFTHSSTAEFAVRPFIIRDQDRMLAQMMAWAQSDDEHLRRLASEGCRPRLPWAPQLPALIKDPRPALPILEQLKEDSSLYVRKSVANHLNDISKDHPELVLEIAAKWYGKHPLTDWIVRHALRSLLRKGDIRALAIFGYEELEKLEGLEVRELRIKRSVITMGDDLEFAFQVVNETGYPMALRIDYEIDYMKASGKLAPKRYKCSDKIYAPGCWKVEKKQSFKPISTRRFYSGDHRLHIVVNGKRLASMDFVLEGAE				NA	NA	NA	NA	NA
AK002_05812	1209	sbnD_2		Staphyloferrin B transporter	ATGGAAAGTTGGAAAAAGAATTTATGGATACTATGGTTCGGCTCATTTATCGTTTCATCAAGCTTCTCGATGGTCATACCATTTCTCCCGCTTTTTCTGATTGAGCTCGGCGTTACCAAGCATACGGAATTGTGGTCGGGACTGCTGTTCAGTTCCGCTTTTTTTGCGGGCGCCTTGTCCTCTCCCTTCTGGGGAGCCGTCGGCGATAAATATGGACGCAAACCGATGATTATCCGCGCGGGGCTGGTGCTCTTTGTCATCTATGTACTGATGGCATTCGTCACGAACGAGTATCAAGTGCTGATTCTCCGCCTGCTGCAAGGCCTGCTCTCCGGCTTTATTCCGGGCGCGATCGCGATCGTAGGCACCAATACCCCCGAGAAAAAAGTCGGCTACGCCCTCTCCATGATGTCCACGGCCACCGCAACCGGCGGCATCATGGGCCCGATGATCGGAGGCACCCTGGCCTCCCTGTTCAGCAACCGGATGGCATTCGGATTGGCAGGGATGCTGTGCTTCGCAGCCACGCTGCTCGTCATATTCTGGGTCAAAGAAGAGAAATTCGTACCGAGCAAAGAGCGCGTCTCCGTCATGAACACGTTTAAGGTCGCCGGACACAACAAGGCGCTGATGACCGTGCTCATGCTTACGGTACTGACGCAGTTCTCCGTCATGACGATCGAGCCCGTCCTGCCGCTGTATATCGCTCAGATCGGCGGCTCTTCATCGCATACCTCGATGATTGCCGGCTTTGTGTTCTCCATCGTCGGGATCGCCAGCATCCTGTTTGCGGCCCGCTGGGGACGGCTGGCCGATAAAATCGGGTTCCAAAAGGTGCTGCTGATCGGCCTGCTCGCCAGCGGAATCGGATCGCTCGCCCAGATCCTGTTCAGCAACATTTGGGCATTCTCGGCCATCCGCTTTGCTTACGGCGCGTTCTTCTGTGCCGTATTCCCGGCACTTAACGGCCTTGTGGTCAAACATACGCCAAGCGAATTCCGCGGGCGCGCGTTCAGCCTCAACCAAACCGCCAACCAAATCGGCGGGATGGCCGGGCCGCTCGCGGGCGGCATGATCAGCGGCATCTTTAACATTCACTCGGTATTCTTAATGACAGGCATCCTAATGCTGATTACGACCGCCATTACGTATTGGACGATGCGGCCGTCGCGCGGGCAGCCTGTTGAAAAAGGCTCTCTTTCTTCATAA	MESWKKNLWILWFGSFIVSSSFSMVIPFLPLFLIELGVTKHTELWSGLLFSSAFFAGALSSPFWGAVGDKYGRKPMIIRAGLVLFVIYVLMAFVTNEYQVLILRLLQGLLSGFIPGAIAIVGTNTPEKKVGYALSMMSTATATGGIMGPMIGGTLASLFSNRMAFGLAGMLCFAATLLVIFWVKEEKFVPSKERVSVMNTFKVAGHNKALMTVLMLTVLTQFSVMTIEPVLPLYIAQIGGSSSHTSMIAGFVFSIVGIASILFAARWGRLADKIGFQKVLLIGLLASGIGSLAQILFSNIWAFSAIRFAYGAFFCAVFPALNGLVVKHTPSEFRGRAFSLNQTANQIGGMAGPLAGGMISGIFNIHSVFLMTGILMLITTAITYWTMRPSRGQPVEKGSLSS	PGPT0029185_766	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029185-mdtG-K08161	NA	NA
AK002_05813	2025	fusA_2	COG0480	Elongation factor G	ATGTTAAAATTAAAAAGTGAGAGCAAATGGATCATTCATGAAACCGGCTTGCAGAAGAGGGATAAGCGGATGAAAAAAACGATAGGCATGTTCGCCCACGTGGATGCGGGCAAGACCACGCTGGCGGAGCAATTGTTATATACGACCCATACGATTCAGGAGCGCGGCCGGGTGGATCACCAGAGCGCATATCTTGATCGTCATGACATTGAAAAAGAACGGGGCATTACCGTATTTGCCGATCAGGCGACCATGCATTTTAACGGTTCCACGTATTATTTAATCGATACGCCGGGTCACGTCGACTTCTCGCCGGAAATGGAGCGGGCCATACAAGTCATGGATGCCGCCGTTGTCGTCATCAGCGCCGTGGAAGGTGTCGAGGGGCATACGGAGACGGTGTGGCAGTTACTGCGCAAGCATGGCGTGCCGACGTTCCTGTTTATCAATAAAATCGATCGGGTAGGTGCAGACGTGCCGCGCGTGCTGGCGGAAATTCGCAGCGAGCTTGCCGAAGACGTCTGTTGGATCACCGAGGAGGATGTGCTGCAGGAAGGCCTGATGCAGTCTTCGCTCATTGAGTTTATCGCGGAGCGGGACGAGAAGCTGCTGGAGCTTTATATGGAAGAGGGATATGAGGTTTCGCGATGGCTGGATGCGATGATAGCAATGATGCGGAAGGGGGAGCTGTTTCCGTGCTTCAGCGGATCTGCCCTGCAGAACGTGGGCGTAACCCATTTCATGCATCAGTTGGATCTGCTGACGGTAACGGATTACGATCCCGAGGCGGCATTTGCCGGGAGGGCTTATAAGATTCGCCATGATGAACAGGGCGCCCGGCTGACCTATATCAAAGCCACTGGCGGCACGCTGCAGGTGCGGGATGAAATCACGTATGTCTCCGGAACGGAGACGATCACGGAGAAGGTGACGCATATCCGCTTGATCAATGGGGGACGGGCAGCCCCTGTCGACCGTGTGCATGCGGGCGACCTGTTTGCGGTTACCGGCATTTCCGCTGCGGCGGCAGGAGTCGGGATGGGGGCTCTTAGCGGCCGGACGGTGTACGAGCTGGTGCCGACGCTGAAGTCCAAGGTGCAATTCGAGTCCTCGATTCATCCCAAGGATATGCTGCGCTGCTTCCGGCTGCTGGATGCGGAGGATCCTTCCCTGTCCGTGCAGTGGGACGAGCCGGCACAGGCGATTCATATTCATGTGATGGGCATCATTCAGCTTGAAGTGCTGGAACGAATCGTGTTTGAGCGGTTCGGTTACCGTATTGCCTTCGGCGAGCCGGAGATTTTATATAAAGAGACCATAACGGAGGCTGTTGTGGGAAGCGGCCATTTTGAACCGCTGAAGCATTACGCGGAGGTGCACCTCCGGCTGGAGCCGGGAGAGCGGAACAGCGGCATCGTGTTTGCCAATGCGTGCCATCCCGATATGCTGCCGGTCAATTATCAGCATCTGGTTGCACAGCATGTTGGCGAGAGGGATCACCACGGGCTGCTTACAGGTTCGCCGGTCACTGATCTCAAGATTACACTGATAAAGGGACGGGCGCACAACAAGCACACGCATGGCGGCGATTTCAGGGAAGCCACGTATCGCTCTTTGCGTCAGGGGCTGGAGAAAGCAAGCAATCTGCTGTTGGAGCCATACTATCATTTCAAGGTAAAGGTGGATGCCGAGTTTATCGGACGGTTAATGTCGGATTTGACCCAGGCCAAAGCAAGCTTCGATCCTCCGGAAACGGTTGGAGACAAGGTGACGGTCACGGGATCGGCACCCGTATCCACCATGATGAAATATGGAATGGAATTAGCGGCGTACACCAAAGGAAGAGGTGCGATATCGCTGGTATACGGCGGATATGATCGGTGCCATAACGAGGAAGAGGTCATTGAACGCAAAGGATACGACAAGAACGCAGACCCGGAATACAGCTCCTCTTCGATATTCTGCGCCAAGGGCAGCGGTTATGCGGTGCCTTGGGATGAAGCGGATCGTCATATGCATGTGTGA	MLKLKSESKWIIHETGLQKRDKRMKKTIGMFAHVDAGKTTLAEQLLYTTHTIQERGRVDHQSAYLDRHDIEKERGITVFADQATMHFNGSTYYLIDTPGHVDFSPEMERAIQVMDAAVVVISAVEGVEGHTETVWQLLRKHGVPTFLFINKIDRVGADVPRVLAEIRSELAEDVCWITEEDVLQEGLMQSSLIEFIAERDEKLLELYMEEGYEVSRWLDAMIAMMRKGELFPCFSGSALQNVGVTHFMHQLDLLTVTDYDPEAAFAGRAYKIRHDEQGARLTYIKATGGTLQVRDEITYVSGTETITEKVTHIRLINGGRAAPVDRVHAGDLFAVTGISAAAAGVGMGALSGRTVYELVPTLKSKVQFESSIHPKDMLRCFRLLDAEDPSLSVQWDEPAQAIHIHVMGIIQLEVLERIVFERFGYRIAFGEPEILYKETITEAVVGSGHFEPLKHYAEVHLRLEPGERNSGIVFANACHPDMLPVNYQHLVAQHVGERDHHGLLTGSPVTDLKITLIKGRAHNKHTHGGDFREATYRSLRQGLEKASNLLLEPYYHFKVKVDAEFIGRLMSDLTQAKASFDPPETVGDKVTVTGSAPVSTMMKYGMELAAYTKGRGAISLVYGGYDRCHNEEEVIERKGYDKNADPEYSSSSIFCAKGSGYAVPWDEADRHMHV	PGPT0010355_334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0010355-otrA|tetM|tetO-K18220	NA	NA
AK002_05814	1932			hypothetical protein	ATGGACAAGAGAGAAAGAACGGAAACTAGCCGTCGCCTGCGGCAGGTGACAGCAGGGACCTTATCGGCGCTGATGTTATTTACGACGTTGTCGCTTCCCGTATGGGGAGACGAGGCGGTTGTGCCGGAGAAGCGCATACTGACCGTGCAAAACGGCAGCAGCACAGCCTCGGTCAATGGCACTTCCTACACGATTGCCAAGCCGCAGCTGAAGCAGGGTGTATTGATGGTACCGCTGGGCGTATTCAAGAAAGCGTTTGGCAGCGAGATCAGATTGGAGGGCGAGAACCGGATACGGCTGCTGCAAGGGCCGCATACGGTCGTGCTCGTCATGGACAACAAGACGGCATGGATCGACGGGAAAAAGGTGCAGCTGCCGGTAGAACCGACCATGGTGTCCGGTACGCTGATGGTGCCACTGCGCCCGGTTGCGGCGGGAATCGGCGCCAAGGTAAGCTCCTCCCAAGGCAAGCTGGCCATCAGCCTCATGGTCACGGATAAGGAAGAGAAGCAGGATGAAGGCGAAATCAACAACACGACCGGGAAGACCCGAATCGGGAACAGCTATTATGAATGGAGTTTGAATTATCCCTCCTGGATGATGGTTGGAAGAGGCACGGACGATGAGAGCGGTTCTGCTTTCAATGATGCTACGGGCCGCTATTACCTGGAGGTGCACGCATTCTCCCACAAGGTGAAGCTGAGTCCCGATGATCTGCTGGAACGGCTCCTGAAGGAAGTGGGCGACTCCGGTGATGTTGTGCTGCACCAAGAGACGGTCACAAGCGCAGCGGTTCCGTATGCCAGAGTGATCTCCCGCGATGTCGACGGCGTCTTGTGGGAAGGTCGGCAGTATTATGCCAACGACCGCGTCTATGAACTGTATTTTGCCGATGCCGAAGCGGTTCACTATAAAGATATGGACCAACACGCGAGCTTGCTGGGCTCTTTCAGAACAGCCTATCGGGCAGGAGACAAATCGGTAAAAGACGTATCCTCCATCGTGGATGGGTTCCGCGAGGCAGGAAACGAAGAATACGGTATTTGGTTCGGTATTCCGGCAGGCTGGGAAATCAACAACAAGGATATGTTATACGGCAGCGAAGGAGAGGGCTATCTGTCCGTCTCGGTGACATCCGCTCCAACGGGGGCCGATGGTACCCTCGCCGCTTGGGGGCAGCGCCTCAAAGACTGGCTGACGGAATCCTTCGTCGAGGAATCGTACGAATACGTCGGACTTACGCCTGTGGAGATTTCCGGCGTCAAAGGGCAGATTCAAGAGGTTCGGTACAACTTCGGGAATAAATGGATAACGGAATATGAAGTGATGGTCCAGAAGAACGGCTACCGCTATTATCTGGAGTATGCGATACCGGATGGGCAGGAAAGGACGGCTTCCAACTGGAAAAAGGTTCTCGAATCAATCGAGATCGATTACGATGTGGTGCCGGCAAATTTCGGCCGCATCGGCGAAGAGGGCTACCTGACCGATAAAACCCAGATGAGAAGCAAAAGCTCCGAGAGGTACCGCTATCATATCGATATTCCAAGGTACTGGGAGCCGCTGAACGATCAGTTCGAGCAGGGAATCGTGGAGTACGGCTTTGCCGGGGGCGGTTTTGAAATTACTGCCCAAAAGGATACAGCAGCTGAAGTCATCGTCAGCAATCTGAAACGGTATTATAACGAAGCCAGCGCGGCTTCGTCGGTGAAATTGCTGGGCGTCGATAAGATCACGTTTGCCGGCGTGCCTGCCGTGTCGTTCAAGGTGCATCAGGTGAAGAACGGCGTGGGTTATACGACCGAGGAAATCGTCTTTGAAAGCGGGGATATCGCGTACACGATCATGACAACGCTGAATGATGCCAATGCAACGGAAGTGCAGCAAGCGGCGCTGGCGCGCACGCTCTCCTCGTTTGAGCTGGTGAAATAA	MDKRERTETSRRLRQVTAGTLSALMLFTTLSLPVWGDEAVVPEKRILTVQNGSSTASVNGTSYTIAKPQLKQGVLMVPLGVFKKAFGSEIRLEGENRIRLLQGPHTVVLVMDNKTAWIDGKKVQLPVEPTMVSGTLMVPLRPVAAGIGAKVSSSQGKLAISLMVTDKEEKQDEGEINNTTGKTRIGNSYYEWSLNYPSWMMVGRGTDDESGSAFNDATGRYYLEVHAFSHKVKLSPDDLLERLLKEVGDSGDVVLHQETVTSAAVPYARVISRDVDGVLWEGRQYYANDRVYELYFADAEAVHYKDMDQHASLLGSFRTAYRAGDKSVKDVSSIVDGFREAGNEEYGIWFGIPAGWEINNKDMLYGSEGEGYLSVSVTSAPTGADGTLAAWGQRLKDWLTESFVEESYEYVGLTPVEISGVKGQIQEVRYNFGNKWITEYEVMVQKNGYRYYLEYAIPDGQERTASNWKKVLESIEIDYDVVPANFGRIGEEGYLTDKTQMRSKSSERYRYHIDIPRYWEPLNDQFEQGIVEYGFAGGGFEITAQKDTAAEVIVSNLKRYYNEASAASSVKLLGVDKITFAGVPAVSFKVHQVKNGVGYTTEEIVFESGDIAYTIMTTLNDANATEVQQAALARTLSSFELVK				NA	NA	NA	NA	NA
AK002_05815	1077			hypothetical protein	TTGAAAAACGTACAATGGCAAAAAAGATCCGCGGCCATGCTGCTGGGGACCGTCATTTTGGCAGGAAGCAGCGGCATGCTCACGCAGGCAGAGGTTGCGGATGCAGCAAGCGCGAAGCCTAAGAATACATATGAGCAAAACGAGGTGCCTCAAGTCATCAGCCGAATGTCGCCGTCGGTGGTCGGCATTATCGGGAAGGCCGCTCAAGGAAGCGGCGAAGTGGACGACAGATACAACCTGGCGCATGGCACAGGAGTCATCTGGAAGTCGGACGGCTGGATCGTGACGAACGCCCATGTGGTGGACGGGCTTACCGGAATCACGGTCGTGACCGCAGACGGCAAATCCTATAAAGCCAAGGGCGTATACAGCGATCCCAAGAGCGATATTGCGTTGGTCAATATCAATGCCAAGTCCCTGAAGCCGGCCAAATTTGCGGCAACAGCGCAGCATGCGCTAGTCGGGGAAACGGTTGTTGCCATTGGCACGCCGATCTCGTTCTCGCTGCGAAACTCGGCCTCGGTGGGCGTGGTTAGCGGGCTAAACCGGAGCGTAGACGGCTCTTATCGCCTGATTCAAACCGATACCGCCATTAACCCGGGCAACAGCGGGGGCCCGCTCGTCAACTTGAAGGGCGAGGTCATAGGAATCAACAGCAAGAAGTTCGCCGCCGTCGGCATTGAAAATATGGGCTTCTCCATACCTGCGGAAACGGTCCGCTACGTTGTTGGCCATTTATTGGAATTCGGCGAGGTGATTAGAGCCGGACTCGGATTGGAGCTGGAAGAGAGCTGGTCCGCCATCGTGGGTCTCCCTTCGGACGATCCGTTGACCGTTACGAAGGTGTTGTCCGAACAGGCCAAGCAGGCCGGCATTCAAGAGGATGACGTATTATATGCGATTAACGGCAAGCGCATTTATTCCGTTGTTGATATCAACGAACGGTTAAAGCCCTATATGCCCGGTCAGCAGGTTCAGCTGCTGATGCAGCGGGATGGGGATATCGTGAACGTAAAACTGACGCTCAGCCAGGACGGTAACGGAGCTGCTTCGTCAAGCGTTGGGGAGGCCGAGTAA	MKNVQWQKRSAAMLLGTVILAGSSGMLTQAEVADAASAKPKNTYEQNEVPQVISRMSPSVVGIIGKAAQGSGEVDDRYNLAHGTGVIWKSDGWIVTNAHVVDGLTGITVVTADGKSYKAKGVYSDPKSDIALVNINAKSLKPAKFAATAQHALVGETVVAIGTPISFSLRNSASVGVVSGLNRSVDGSYRLIQTDTAINPGNSGGPLVNLKGEVIGINSKKFAAVGIENMGFSIPAETVRYVVGHLLEFGEVIRAGLGLELEESWSAIVGLPSDDPLTVTKVLSEQAKQAGIQEDDVLYAINGKRIYSVVDINERLKPYMPGQQVQLLMQRDGDIVNVKLTLSQDGNGAASSSVGEAE	PGPT0015105_6397	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
AK002_05816	210			hypothetical protein	ATGATCCTTGCAGCAGCATCGGATGCGACCGCGACATTTAAGACATTTGACATTTTCATGATTTTGTTTACGATTCTGATCTTTGTTGGCGTGGTTCGCCTGTTGATGGCCCGTCAAAAAAATAAATTCGCAATCGCTTTCGGTCTCGTCAGCTTATTTGTGTTCTTGTATTCTGACTATGCCATGATTACAGGATGGTTTAACAATTAG	MILAAASDATATFKTFDIFMILFTILIFVGVVRLLMARQKNKFAIAFGLVSLFVFLYSDYAMITGWFNN				NA	NA	NA	NA	NA
AK002_05817	1578			hypothetical protein	ATGAAGAGGATCACCTGTTCCATTCTGATCGTTTTGGCAGCAAGTGCTTTATACATAAACTCAACCGACGGCGTACAGGCAGAGGTAGGGGTACCCGTTTCGGATCGCGTGCAGGCAGAGATGGGAGTATCCGTTACGGATGTGGAACACTTCGATGCACAGGAAGCCCTTACCCGATTAAATAAAGGGTTCCTTCCCCTAGACGGGCAGGGGGAGTCTAGCTCGACAGAGGCTATAAGCCGGCAGGATTTTGTCATATTTATCGTCGAAACGTTAAACCTGAATGCGGATAGTCCTCCGGATGTCATTACCTTTAAGGATGTGCCTAAGGATCATTATGCCTTCACGGCGATCGAAACTGCGGTTCAGGAAGGGCTGGTAAAAGGGGTCGGCAGCGGGAGATTCGGGCTTGGATTGCCGCTGACGCGTCAGGATATGGCTATGCTGTATCAAAGAGCTCTGCAAGGGATTTCCGATAAGATCGAATCTGGCGCGGAACCTTCACAGCAGGACTTACAGGAGGGATCTTCCGGCAACGATGCCAAGGAAGCTATGGCACTGGCCTTGGAATTAGGACTGTTTCGGGTATCCGGCATTGACGGTTTGAACCCCAAGGGTATCGTCACTCGGGAAGAAGCTGTCTGGGCTACAGCCAAATGGCTGGAATCCGTGGAGTCAATCGATTTGAATATTGACGTGGGCGAAACGGAAACACCGCAGAAAAGTCCTCTTCCGGTCATTCATGGCGTCGTTGCTAATTCATCGGGATCAACCTCGGCAACTCCTGTTCATTCCGGACCAACGCAAGCTCCGACAGAGACGGGACCTTCAGCTACCGTATCGGAGGCTTTGCCAGCAACGGCACCATCAGCTCCTAATGATCTGAGGTTCCACCATGTGAAGGGGCAGGCTCAATTAAGCTGGACGCATCAGCAGGGCGTATCCTACAATATCTATTCCAGCGGACAATCGGGAGCGGGGTATGCCTTATTAGCTGGCGGAGCGAATGTGAACGCAGGTTCTTATGCCATATCGGATGTACGTTTCCAAGAGCCCTCTTACTATGTGATCGAGGCTGTGAACAGCGTCGGCAATAGCGGTTACTCTAACGAAGTTTCGAGCCGCCCGAATAAAGTATCCGGCCTTCAGGCCATCCTAAATGAGGAAGATGAATCCATTGCTTTAACCTGGTCAGATGCACAGGAAGGCGTAACCTATCATGTATACTACACAGGACCCGACGGAGCTGGGGCGCGTTTGAACGATGAACCGTTAGAGAGTCCGGCCTATCTCATTCCGAATCTCCATATGCTGGCAGGTCTGCCCGGCCGGTATACGATCCATGTGTTCGCCGTGAACGAATGGCATATCCGCAGCGAACCGTCCAACGAGGTTGTTTTAAATGTCAAAAAGGACCCTAAGGATCGGATCACGATCATGGATCCTTCCGTGGCTTTGCCAAGCGAGGATCTGGCGGAGGAGGCGGTAACCGAGCAGGAGTCGGCTTCAGAGGAAGCAGAGGTGCAGGAGGAGTATGAGGATCCCTTTCTCGATCCAACCCGGGTACCTCTCGGATAA	MKRITCSILIVLAASALYINSTDGVQAEVGVPVSDRVQAEMGVSVTDVEHFDAQEALTRLNKGFLPLDGQGESSSTEAISRQDFVIFIVETLNLNADSPPDVITFKDVPKDHYAFTAIETAVQEGLVKGVGSGRFGLGLPLTRQDMAMLYQRALQGISDKIESGAEPSQQDLQEGSSGNDAKEAMALALELGLFRVSGIDGLNPKGIVTREEAVWATAKWLESVESIDLNIDVGETETPQKSPLPVIHGVVANSSGSTSATPVHSGPTQAPTETGPSATVSEALPATAPSAPNDLRFHHVKGQAQLSWTHQQGVSYNIYSSGQSGAGYALLAGGANVNAGSYAISDVRFQEPSYYVIEAVNSVGNSGYSNEVSSRPNKVSGLQAILNEEDESIALTWSDAQEGVTYHVYYTGPDGAGARLNDEPLESPAYLIPNLHMLAGLPGRYTIHVFAVNEWHIRSEPSNEVVLNVKKDPKDRITIMDPSVALPSEDLAEEAVTEQESASEEAEVQEEYEDPFLDPTRVPLG				NA	NA	NA	NA	NA
AK002_05818	2868	uvrA_5		UvrABC system protein A	TTGGCCAGTGAAAAAATTGTGATCAAAGGCGCCCGCGCACACAATCTGAAAAATATCGACGTCACGATACCGCGTGACAAGTTTGTCGTTCTGACGGGGCTTAGCGGCTCGGGCAAATCCTCCCTCGCATTCGATACGATTTATGCCGAGGGGCAGCGCCGTTACGTGGAATCCTTATCCGCTTATGCGCGCCAATTCCTCGGACAGATGGAGAAGCCGGATGTCGATTCCATTGAAGGCCTGTCGCCGGCGATATCGATTGACCAGAAAACCACGAGCCGTAATCCGCGTTCGACGGTAGGCACCGTGACGGAAATTTACGATTATTTGCGTCTGCTGTTCGCCCGGGTCGGACACCCGCACTGTCCGGAGCATGGAGTGGAGATTACCTCCCAGACAGTCGAGCAAATGGTAGACCGCATCATGCAGTATCCCGAGAAGACGAGACTGCAAATTCTCGCCCCGGTCATTTCCGGCCGCAAGGGCGAGCACAAGAATCTGTTTGCCGACATTGCGAAGCAGGGCTTCGTTCGGGTGCGCGTCGATGGGGAGCTTCGCGATCTGTCGGAGAACATCGAGCTCGAGAAGAATAAAAAGCATACGATCGAGGTGGTTGTGGACCGGATCGTGGTGAAGGATGATATCGAAGCACGCCTCGCCGATTCGATCGAAACGGCATTGAACCTGTCAGGCGGCCAGCTCCTGGTCGATATCATGGGTCAGGAGGAGCTGCGGTTCAGCTCCAACTTTGCCTGTCCGATCTGCGGCTTCAGCATGGAAGAGCTGACGCCGAGAATGTTCTCCTTCAATACGCCATTCGGTGCTTGCCCGGATTGCGACGGCTTGGGCGTGGAGATGATCGTGGATCCCGAACTGCTTGTGCCGGATATGAGCAAAAGCGTCGAGGAAGGCGCCTTTGCCGCATGGAGCGGGGGTACCTCCACGTATTATCCGCAGTTTCTGAAATCGGTCTGCGCGCATTTCGGCATTCCGCTGGACAAGCCGGTCAGTACCTTTAGCCAGGAACAGATGAATAAACTGTTGTACGGCACGGGCAAAGAGAAGGTTCACTTCCGTTATGAGAATGACTTCGGTCAGCGGAAGGAAGCGCACGTCACCTTCGAGGGCATCATTCCGAATCTGGAACGCCGCTACCGCGATACGAACTCCGAGGGCATACGCGAATACATCGAAGGCTATATGAGCAGCAAGCCGTGCGATGTGTGCAAAGGCCATCGTCTCCGCAAGGAAAGCCTAGCCGTTACGATCAATGATCGCAACATGGCCTATGTTACCAGCTTGTCGATCGGAGAATCCCTGAAGTTCTTCGATCATCTGGAGCTTAGCGAGAAAGAAAAACAGATTGCCAATCTCATTCTGAAGGAGATTCACAGCCGCCTGGGCTTCCTGGTTAATGTCGGGCTGGATTACCTGACCCTCAGCCGTTCGGCGGGAACGCTGTCCGGCGGCGAAGCGCAGCGGATCCGGTTAGCCACGCAGATCGGGTCGAGCCTCATGGGCGTGCTGTACATTCTGGACGAGCCCAGCATCGGGCTGCATCAGCGGGATAACGACCGCCTGATCTCGACGCTGGAGCATATGCGGAATTTGGGCAACACGCTGATTGTGGTCGAGCATGACGAAGACACGATGATGGCTGCGGACTATATCATCGATATCGGTCCGGGCGCAGGCATTCATGGCGGCCAGGTCATTGCGGAAGGAACCCCGAAGGAGATTATGAACGACCCCAACTCGCTGACGGGCCAATACCTGAGCGGCCGTAAGTTCATTCCGGTCAGCAGCAAGCGCCGCAAGACCGATGGACGCTGGCTGGAGATTAAAGGCGCGAAGGAAAACAATCTGAAAAATATTAACGTGAAAATTCCGATTGGCGTGTTCACGGCGGTAACGGGCGTATCCGGATCCGGCAAGTCGACGCTGGTCAACGAGATCCTGTACAAGACGCTTGCTCGGGATTTGAACAGGGCGAAGGTACGTCCGGGGCAATACCGTGAAATGAAAGGTCTGGAGCACATCGAGAAGGTCATCGACATCGATCAGTCTCCGATCGGCCGTACGCCGCGTTCCAACCCTGCAACCTATACAGGCGTCTTCGACGATATCCGGGATATCTATTCCCAGACGAATGAAGCGAAGATTCGCGGATACAAGAAAGGCCGCTTCAGCTTTAACGTGAAGGGCGGACGCTGCGAGGCCTGCCGCGGAGACGGCATTATCAAGATTGAGATGCACTTCCTGCCGGATATCTACGTGCCTTGCGAAGTGTGCAAGGGCAAGCGTTACAACCGCGAAACGCTGGAAGTCAAATATAAAGGCAAGAACATCGCCGAAGTCCTGGAGATGACGGTGGAGAATGCAACGGACTTCTTCCAGAACATTCCGAAAATTCACCGTAAGATGCAGACGCTGATGGATGTGGGCCTGGGCTACATTACGCTGGGTCAGCCTGCCACCACGCTGTCCGGCGGCGAGGCGCAGCGCGTGAAGCTGGCTTCCGAGCTATACCGTCGCAGCACAGGCAAAACGATGTATATCCTGGATGAGCCGACCACCGGCCTGCACGTGGACGATATCGATCGTCTGCTCGTCGTGCTTCACCGCCTGGTGGAATCCGGGGAGTCCGTCCTCGTCATCGAGCATAATCTCGATGTCATTAAGACAGCGGACTATCTGATCGACCTGGGTCCGGAGGGCGGCAGCGGCGGCGGTACCATTATCGCTACGGGAACGCCTGAGGATCTGGTCAAGGTGCCAGAGTCTTATACAGGCAAATATCTGAAGCCGATTCTGGAACGCGATACGAAGCGAACCGAGGAATTGAACAAGGTGGAAGCAGCCCGCTAA	MASEKIVIKGARAHNLKNIDVTIPRDKFVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMEKPDVDSIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARVGHPHCPEHGVEITSQTVEQMVDRIMQYPEKTRLQILAPVISGRKGEHKNLFADIAKQGFVRVRVDGELRDLSENIELEKNKKHTIEVVVDRIVVKDDIEARLADSIETALNLSGGQLLVDIMGQEELRFSSNFACPICGFSMEELTPRMFSFNTPFGACPDCDGLGVEMIVDPELLVPDMSKSVEEGAFAAWSGGTSTYYPQFLKSVCAHFGIPLDKPVSTFSQEQMNKLLYGTGKEKVHFRYENDFGQRKEAHVTFEGIIPNLERRYRDTNSEGIREYIEGYMSSKPCDVCKGHRLRKESLAVTINDRNMAYVTSLSIGESLKFFDHLELSEKEKQIANLILKEIHSRLGFLVNVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSSLMGVLYILDEPSIGLHQRDNDRLISTLEHMRNLGNTLIVVEHDEDTMMAADYIIDIGPGAGIHGGQVIAEGTPKEIMNDPNSLTGQYLSGRKFIPVSSKRRKTDGRWLEIKGAKENNLKNINVKIPIGVFTAVTGVSGSGKSTLVNEILYKTLARDLNRAKVRPGQYREMKGLEHIEKVIDIDQSPIGRTPRSNPATYTGVFDDIRDIYSQTNEAKIRGYKKGRFSFNVKGGRCEACRGDGIIKIEMHFLPDIYVPCEVCKGKRYNRETLEVKYKGKNIAEVLEMTVENATDFFQNIPKIHRKMQTLMDVGLGYITLGQPATTLSGGEAQRVKLASELYRRSTGKTMYILDEPTTGLHVDDIDRLLVVLHRLVESGESVLVIEHNLDVIKTADYLIDLGPEGGSGGGTIIATGTPEDLVKVPESYTGKYLKPILERDTKRTEELNKVEAAR	PGPT0014915_2614	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
AK002_05819	1992	uvrB	COG0556	UvrABC system protein B	ATGAGCGATTTAGTTGTCAGTACCAAATCCTTTGAGATCCAGTCTGAATTCCAGCCGCAGGGCGATCAGCCCACGGCTATTGATGCGTTGGTCGAAGGACTCCGCCAAGGGAAAAAACATCAGACGCTGCTAGGTGCAACAGGAACGGGTAAGACGTTTACGATCGCGCAGACAATCGCCAAGGTAAACCGTCCCACACTCGTCATCGCGCACAACAAGACGCTGGCTGCGCAGCTGGCCAGCGAGTTTAAGGAATTCTTCCCGAACAACTCGGTGGATTATTTCGTGAGTTATTACGATTACTATCAGCCGGAAGCCTACATTCCTTCCTCTGATACGTATATCGAGAAGGATTCCAGCATTAATGAAGAGATCGATAAGCTTCGCCACTCCGCCACGAGCTCGCTGTTCGAACGGCGCGACGTCATCATCGTGGCAAGCGTATCCTGCATATACGGTTTGGGTTCGCCGCACGAGTACGGGGAAATGCTGCTTTCGCTCCGGGTAGGCATGGAGAAGCCGCGCAACGAGATTCTGTCGCGGCTGGTCGATATCCAATACCAGCGGAACGATATCAACTTCGTGCGCGGCACGTTCCGCGTGCGCGGAGATGTCGTCGAGATCTTCCCGGCCTCGAAGGGAGAGCATGCCGTTCGCGTCGAGCTGTTCGGCGACGAAATCGAACGGATCACAGAGATCGATGTTTTGACGGGCGAGCTGGTTGGGGAACGCGAGCATATCGCCATCTTCCCGGCGTCTCACTTCGTCACCCGCGAAGAGACGATGCGGGTAGCGCTCGTGAATATCGAGCGCGAACTGGAAGAGCGCCTTGAACTGCTGCGCTCGGAAGGCAAGCTGCTGGAGGCTCAGCGACTGGAGCAGCGCACCCGTTACGACATCGAGATGATGAAGGAAGTCGGATTCTGCTCCGGGATCGAGAACTATTCGGGTCCCCTGACCTTCAGGGAGCCTGGGGCTACGCCATATACGCTTCTCGACTACTTCCCGGACGATATGCTGTTCGTCATTGACGAGTCGCACGTTACGCTGCCGCAAATCCGCGCGATGTACAACGGTGACCGGGCACGTAAAACGGTGCTGGTCGATCATGGCTTCCGCTTGCCGTCCGCGCTCGATAACCGGCCGCTGAAGTTCGAGGAATTCGAGGAGAAGGTGAACCAGATCATCTATGTATCGGCCACGCCGGGACCGTATGAGATGGAGCACTGCGATACGATGGTCGAACAGATCATCCGGCCGACAGGCCTGCTTGATCCGATCATCGACGTGCGCCCGACCGAAGGGCAGATCGATGACCTGATCGGCGAGATCCATGACCGCGTGGACCGGGACGAGCGCGTGCTCGTGACCACGCTCACGAAGAAAATGGCCGAGGATCTGACCGATTACCTGAAGGAAATCGGAATCAAGGTCCGTTACATGCACTCCGATATCAAGACGCTGGAGCGGATGCAGATCCTGCGCGATCTGCGGCTTGGTACATTCCACGTGCTGGTGGGTATTAACCTTCTACGGGAGGGACTCGACCTGCCGGAGGTTTCCCTCGTAGCGATTCTGGATGCGGACAAGGAAGGTTTCCTGCGCTCCGACCGCTCGCTTATCCAGACGATCGGACGGGCGGCCCGGAACTCGGAAGGCAAGGTTATCATGTACGGGGACAAGATCACCGATTCGATGGATCGGGCGATCAAGGAAACCGAGCGCCGCCGCAGCATCCAGGTTGCTTACAACGAGGAGCACGGCATCACGCCGCAGACGATCCGCAAGAAGGTCCGCGATGTCATCGAAGCGACGAAGGTCGCCGAGGGCAAGGCGGATTACCTGGCGGGCGAAGGACAGAAGATGTCGAAGAAAGAGCGTCAGAAGCTGATCCAACGCCTCGAGGCCGAGATGAAGGAAGCGGCGAAGAATTTGCAATTCGAGCGTGCGGCCGAGCTTCGTGACGCGCTGCTGGAACTGCAGGCCGAGTAA	MSDLVVSTKSFEIQSEFQPQGDQPTAIDALVEGLRQGKKHQTLLGATGTGKTFTIAQTIAKVNRPTLVIAHNKTLAAQLASEFKEFFPNNSVDYFVSYYDYYQPEAYIPSSDTYIEKDSSINEEIDKLRHSATSSLFERRDVIIVASVSCIYGLGSPHEYGEMLLSLRVGMEKPRNEILSRLVDIQYQRNDINFVRGTFRVRGDVVEIFPASKGEHAVRVELFGDEIERITEIDVLTGELVGEREHIAIFPASHFVTREETMRVALVNIERELEERLELLRSEGKLLEAQRLEQRTRYDIEMMKEVGFCSGIENYSGPLTFREPGATPYTLLDYFPDDMLFVIDESHVTLPQIRAMYNGDRARKTVLVDHGFRLPSALDNRPLKFEEFEEKVNQIIYVSATPGPYEMEHCDTMVEQIIRPTGLLDPIIDVRPTEGQIDDLIGEIHDRVDRDERVLVTTLTKKMAEDLTDYLKEIGIKVRYMHSDIKTLERMQILRDLRLGTFHVLVGINLLREGLDLPEVSLVAILDADKEGFLRSDRSLIQTIGRAARNSEGKVIMYGDKITDSMDRAIKETERRRSIQVAYNEEHGITPQTIRKKVRDVIEATKVAEGKADYLAGEGQKMSKKERQKLIQRLEAEMKEAAKNLQFERAAELRDALLELQAE	PGPT0014920_3996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
AK002_05820	795	pomA_2	COG1291	Chemotaxis protein PomA	ATGGATATTACGATTATTCTTGGCATTCTCGCCGGTCTGGCCGCGTTGATCGGAGGGTTTTTATGGGAAGGCGGGCATCTGAGCGGCCTGCTGCAAGGCGCGGCTGCGCTCATCGTATTCGGCGGGACCATCGCCGCCGTCATCGTCAGTTTCCCCGCCACCCGGCTCCGCACGATCCCCGCTGCGCTCAAGCTGGCCTTCGGCCGCAGCAACCGTTCGTCGGACGAGCTGATTGATGCCATCGTCGATATGTCGGTAACGGCCAGAAGAGACGGGGTGCTGGCGCTCGAGCGCATCTCGGCCGAACACGAGGATCCGTTCCTGCGGGAAGGCATGCAGATGGTCGTGGACGGCAACGACCCGGAAATGGTGCGTCAAATCCTGGAGCTCGATATCAATGCCGCCGAGCAGAAGCACGAAGGCTATGCCAAAATTTTCGAGTCCGCCGGGGGTTATGCCCCTACCATGGGGATCATCGGTACCGTCATGGGATTGATCCACGTGCTGGGCAGCCTGCAGGACCCGACCGGTCTCGGCCCGTCCATCGCTGTCGCGTTTACCGCCACTTTATACGGCGTCGCAAGTGCCAATATTATCTTTTTGCCCATTGCGTCCAAGATTAAAGCACGTTCCGAAGAAGAAATTGTAAAAATGGAGCTGCTGCTCGAAGGAATCATGGCCGTTCAGAACGGAGAGCACCCGCTGTTGGTTCGCAAAAAGCTAGCCTCCTTCGCTTCCGCAGGCACCACGGACATTCCGTCCTCAAGGGGGATCGCGCATGAGACAGCCGAATAG	MDITIILGILAGLAALIGGFLWEGGHLSGLLQGAAALIVFGGTIAAVIVSFPATRLRTIPAALKLAFGRSNRSSDELIDAIVDMSVTARRDGVLALERISAEHEDPFLREGMQMVVDGNDPEMVRQILELDINAAEQKHEGYAKIFESAGGYAPTMGIIGTVMGLIHVLGSLQDPTGLGPSIAVAFTATLYGVASANIIFLPIASKIKARSEEEIVKMELLLEGIMAVQNGEHPLLVRKKLASFASAGTTDIPSSRGIAHETAE	PGPT0015370_2088	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
AK002_05821	816	lafU	COG1360	Chemotaxis protein LafU	ATGAGACAGCCGAATAGACGGCGGCGTCAGCGCAAACAGGCCGAAGGCGAACAGCGCGACCGCTGGATGATTACTTATGCCGACCTGATTACGCTGCTTCTGATCTTTTTTGTTGTGATGTATGCCATGAGCCGGCTCGACACGGAAAAATACAAGCTCGTCACCCAATCCCTGCAGGCTACCTTCCAGAGCGGGGACAGCATCCTGGAGATGGGCTCGGGGATTACCGGCACTGCCGATACGGAGAACCATAAGAATCCTCCGCCGAAGCCTGCTGCCGATGAGGAAGGCGAGGACAAGGATACAGGGCAAGAACCCCTAACCGAGCGCGAGCTCGCTTTCCGTGCCCAGGAGGAAGAGCTGGCGAACTTTATGGGGCTAATTCAGAAATACGTGAAGGATAACCAGCTCGAAGAGGACATCTTCATCTCGGACGAGCCGCAGGGGATTGCCATTACGTTAAGCGACCGCTTCCTGTTCGATGTCGGCAAGGCCGAGCTTAAACCTGGAGCCGCTCCGGTTCTGGGCAAATTAGCCAGCCTGTTCGGCGATTTAAACACCACGGTGAGCATCGAGGGGCATACGGACAACGTGCCGATCGGCCGCTACTCCAGCTACAAGGACAACTGGGAGCTCTCCGGCGCCCGGGCGATGTCAGTACTGCGATTCTTCCTGGAGCACAGCAAGCTGGACCCGGGAGGCTTCCAGTATGCAGGCTATGCCGATACGAGGCCGGCCGCGGACAACGCGACCGCCGAAGGCAAGCAGAAGAACCGCCGAGTTGAAATCACGGTGTTGCGGCAGCTGAAGGAGTAG	MRQPNRRRRQRKQAEGEQRDRWMITYADLITLLLIFFVVMYAMSRLDTEKYKLVTQSLQATFQSGDSILEMGSGITGTADTENHKNPPPKPAADEEGEDKDTGQEPLTERELAFRAQEEELANFMGLIQKYVKDNQLEEDIFISDEPQGIAITLSDRFLFDVGKAELKPGAAPVLGKLASLFGDLNTTVSIEGHTDNVPIGRYSSYKDNWELSGARAMSVLRFFLEHSKLDPGGFQYAGYADTRPAADNATAEGKQKNRRVEITVLRQLKE	PGPT0015375_3530	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
AK002_05822	1164	lnrN_1	COG0842	Linearmycin resistance permease protein LnrN	ATGCATAGCTTAACCATTGCCTGGCATATGGTGAGACGCACGCTGGGACGAAAAAGAGGCTGGATCGTCTATCTGTTGGTTCCTTGCGTGGTCGTTACCTTGACGGTGTTCCTTCTGGGGCAGACCACGGCCGCGAGCATTCTGGTCTCTTACGTGAACGAGGATGATGGACCTGCAGGGCGGTACTTGATGAATGAACTGGAGCGAAGCGGCCAATACGTGCTCAAGGAGTCCGGGTCCGAGAATATGCTGAGGGAAGACCTGGTGGAGAATAAAAGCACGGTTGGCGTTTATATTCCGCAGGGGTTCAGCGACGGATTAATAGAAGGCCAACGGCCGGCGGTTAAAATATACGAAGTCTCCACCTCGGAGGCCTCGGTGATGATCCGAATGACGGCGGACTCCGCGGTTACGCGCCTAAGCGGTACGGCTGCCTTGATCCGGGAGACCTCGGAGCCGGACGCGGATCGTATGCCGGCGCTGCAAGAGGTGCTCAAGCAATCCGCGCTGAATCGGGTGGACACCGAAGTCACGGATTTGAATCTGTATGCGAAGCCGGGACTCTCGAACGTAACGGGATTTACCCTGATGTTCATGATGACCCTTATCTCCAGCGTGGTGTCGATGATGATTGATGACCGCAGGCAGCGAACGCTGTCCCGCATGTATACGGCGCCGGTGCGCGCCTATCAGATCGCTTTAGGTAATTTTCTGGGCAGCCTGGTGGTCGGCTCGCTGCAGGTGATCATCGTGCTCGTGCTCAGCCGGTATGTCCTTCGCTACGATTACGGAGTTCCGTTCATGCTGCATTTCCTTATTCTGATGGCCTTCATGCTCGTATCGTTAGGCGTGGCAAGCACGGTCGCCGGGCTGATCCGGAATGGGCAAAATGCGGCCATGATCAATTCCATGATCGTCACGCCGACCTGCATGCTGGGCGGGTGCTTCTGGCCGCTTGCCATCATGCCGGAGTTCATGCAGAAGATCGCTAATTTCATCCCGCAAAAATGGGCCATTGAGGCGGTGGAGACCGCGGCTACCGGAGGCACGTTATCCGATATCGCACTGCCGCTGGCCGTGCTGGGCCTGATGGCGGTCATTCTGCTGGCCGTCGGTTCCGCTGTGCTGCGGCCGAGCGAGAGCGGGGTTGGGCACGGCGCTTAA	MHSLTIAWHMVRRTLGRKRGWIVYLLVPCVVVTLTVFLLGQTTAASILVSYVNEDDGPAGRYLMNELERSGQYVLKESGSENMLREDLVENKSTVGVYIPQGFSDGLIEGQRPAVKIYEVSTSEASVMIRMTADSAVTRLSGTAALIRETSEPDADRMPALQEVLKQSALNRVDTEVTDLNLYAKPGLSNVTGFTLMFMMTLISSVVSMMIDDRRQRTLSRMYTAPVRAYQIALGNFLGSLVVGSLQVIIVLVLSRYVLRYDYGVPFMLHFLILMAFMLVSLGVASTVAGLIRNGQNAAMINSMIVTPTCMLGGCFWPLAIMPEFMQKIANFIPQKWAIEAVETAATGGTLSDIALPLAVLGLMAVILLAVGSAVLRPSESGVGHGA				NA	NA	NA	NA	NA
AK002_05823	1182	lnrN_2	COG0842	Linearmycin resistance permease protein LnrN	ATGAATACGATGATTATCGCCTGGTTCGAGCTGAAGCGGATGGCCACCAGCCGATCGGTGCTGATCAACCAATTTTTGCTGCCGCTGATCCTTATTTTCATATTGGGAAACGCGCTGTCGGGCTGGTTTGGTAATGATCAGGAATTTAAACAGCCATCGGTCCGCGTGGGGTTGGTGTTAGATGCCGAGGCTGGAGGACAGCTGCCGGGGAGCATGCAGGCACTGACCGGCTTGCCGGAAATTCAGGACCTATTGGAACCTGAGGTGGTATCCAGCCGCGAAGAAGCCGAAGAAAAGCTGCGCCGGGGCGAGGTCGATTACGCGGTGGTGGTTCCTGCTTCCTTTGATGAACGAATGAGCCAGGGAGCGGACGTGAAGCTTGAGCTGCTGCCTGGAAGAGACCGTGAACTAAACCTCGTGGCAGACACTGTCTTCAAGACCTTTATCGCCAATGCCAATCACAAACAGGCGGAGGTAGCCGTTATGGGCGGAGACCAAGTTCTTGCGGCCCAAGCGGCAGCGCCTGTCGATGCGTCGGACGGACCCAACGTTACGATCGGTCAGCTGAGCGAGAAAGGAGCGACGTACTCCGCAGCCCAATATTACGCAGCCTCCATGCTGATCATGTTCCTGTTGTATTCCGGCCTGATGGCCAGCAGCAGCCTGCTGGGCGAGCGGGAAAGCCGGACCCTGTATCGCTTGCAAAGCGCGCCCGTTAACCCCGGAACCGTGTTTGCCGGGAAAATTATCGGGTGCAGCCTGATCACGCTGGCACAGGCCGCCGCTATCGTCCTTGGATCCATGTGGCTGTACGGCGTCAAATGGGGGCCGCACCCCTTGCTGCTCATCATGGTCTGCGTATTGATCACGTTATCGTCCATGACCATAGCCACGTTCATTACCCTGGTCTCCTCAACGGCGGCAGGAGCCAGAGGGCTGATGCAGGCGATCATTATCGCCATGACGTTTGTCAGCGGAGGGTTCATGCCGCTGCCCGTGGAGTTCTTCCAGAAGCTCGGCGCCTTCACCGTTAACCATTGGGCAATGCAGAGCATGCTGCGGATGATGCTGGACAGCGACGTGCATTTGATTGTCACTTGCGTGGGCACGCTGGCGGCCATTACCGCGGCCCTGTCGGCTGCAGCCATGATTACGTACAGGAAGGTGGGATACCATGCATAG	MNTMIIAWFELKRMATSRSVLINQFLLPLILIFILGNALSGWFGNDQEFKQPSVRVGLVLDAEAGGQLPGSMQALTGLPEIQDLLEPEVVSSREEAEEKLRRGEVDYAVVVPASFDERMSQGADVKLELLPGRDRELNLVADTVFKTFIANANHKQAEVAVMGGDQVLAAQAAAPVDASDGPNVTIGQLSEKGATYSAAQYYAASMLIMFLLYSGLMASSSLLGERESRTLYRLQSAPVNPGTVFAGKIIGCSLITLAQAAAIVLGSMWLYGVKWGPHPLLLIMVCVLITLSSMTIATFITLVSSTAAGARGLMQAIIIAMTFVSGGFMPLPVEFFQKLGAFTVNHWAMQSMLRMMLDSDVHLIVTCVGTLAAITAALSAAAMITYRKVGYHA				NA	NA	NA	NA	NA
AK002_05824	948	lnrL_8	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGATGATGATGACGGTCTTTCTGGAGATGAAGGATGTCGTAAAACGATATGGTAGCAAGCTGTCGGTGGATCATATGAATCTGGAAGTGCACGAAGGCGAGATTTTTGGATTATTGGGACCGAACGGAGCTGGCAAGAGCACGTCCATCAATATGATCTGCGGCCTTCTGGCGAAGGATCAGGGCATCATCAAAGTAGACGGTATCTCCATCGAGGAGCAGCCGCTGGAAGTGAAACGGAGAATTGGGCTGGTGCCCCAGGATCTGGCGCTGTACGAAGAGATGCCGGCCTGGGACAATGTCGCTTTTTTCGCGAAATTGTACGGGCTGCGCGGCCAGCTGCTGAAGGAGCGGGTGGAGGAGGCGCTGGCGTTTGTCGGCCTGCAGGATCGGGCGAAAGAAAGGCCGTCCACCTTCTCCGGGGGGATGAAACGAAGACTGAATATTGCATGCTCGATTACGCATCGTCCGAAGCTGATTATTATGGATGAGCCGACGGTGGGGATTGATCCGCAGTCCCGGAATCATATCCTGGAATCGGTGAAGACGTTGAACCGCATGGGTTCTACCGTTATTTATACAAGTCATTACATGGAGGAAGTTGCCGCGATTAGCGACCGGGTGGCCATCATGGATCAAGGTCATGTTATCGCCTGCGGGACGCAGCAGGAGCTTCGGGCACGCGTGGCGCATGAGGAAAAAATCATTCTTACTGCTGATGGGATCACACCGGATCTGGTGGAGGAACTGACCATTCACCCGCGCGTTAGGCGCGTCGCGCAGAATGATAACGAGGTCGAGGTCTATGTACCGTCAGCTCAGGATGAGCTGCAGGATATTTTATTCATTTGCAGTAAACACCATACAACGCTTCGCTCTCTGCAGTGCGAGGAGCCGGGGCTTGAAACGCTGTTTCTCAGCCTGACCGGACGAACGCTTCGCGATTGA	MMMMTVFLEMKDVVKRYGSKLSVDHMNLEVHEGEIFGLLGPNGAGKSTSINMICGLLAKDQGIIKVDGISIEEQPLEVKRRIGLVPQDLALYEEMPAWDNVAFFAKLYGLRGQLLKERVEEALAFVGLQDRAKERPSTFSGGMKRRLNIACSITHRPKLIIMDEPTVGIDPQSRNHILESVKTLNRMGSTVIYTSHYMEEVAAISDRVAIMDQGHVIACGTQQELRARVAHEEKIILTADGITPDLVEELTIHPRVRRVAQNDNEVEVYVPSAQDELQDILFICSKHHTTLRSLQCEEPGLETLFLSLTGRTLRD	PGPT0006725_8672	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_05825	1260			hypothetical protein	GTGACGAAAGTCATCTCCTTGCCGAAAACATCCATGTGCTATAATGAAGCCAATCGTTTGAACGGTTTGACTTCACAATGGAAAAGGGTTGGATCGCACGTGACATCTCCACTTGCCTATCTCAGGTACGGCCTCATTCTCCTGCCCGCCGCAGCGGACATCTTTTTGCAGCGGCTCGACGATTACGGGGAGTATATGGTGTACATCCTGCTATTTCTGGCGATTGCGGTGCTGAGCCGCTTCCTGCCTTCGCCTGCTTACCGGAAAGCAGCCATACTGCTGGAAATCCCGTTGTCCCTATGGCTATGCCACCAATACGGCTTCATGATGGTATTCCTGTCCATATCCTCCCTATGCGTCTATTTGCCCTTGTTCGAGCGACCTGGCAGGCTGTGGCTGTCATTCGGTCACCTTGCACTGCTCAACATCGCGATTACCGGTTACGATGCGCTGCTGCATACGACAGCCAATCTGCTGTTTCTGTTCTTGGCTGTGACGTTCCACCGCATCCATGAAATGAACCAGAAGGAATTGGATCACATTCATTTATACGACGACCTGAAAAGACTGCATTTCCAGCAGGACGAGGCAGGCAGGCAGCTGCTGCAGTTCGCCCATCAGGTGGAAAGCGCGGCCCAGGCCGAGGAGCGTAACCGCATCTCCCGCCAGCTGCATGACGATATCGGCCATCGGCTGATTCGCGTCAAAATGATGATGGAAGCCGCTCTTCATATCGTGCCGCAGGATGCCGTCCGGGGCATGGATATGCTTCACCAAATCCGCGACCAGCTGGGGGAGAGCATGGAGCAGATGCGGACCGCCGTGAAACAGATGAATCCGTCAAGGCGGATCACGGACGATTATTCCCTGGATCGGCTGCTGGAGGAGACCGGCAGGGAGACCGGAATCGAGACCGAGCTTGTGCTGCAGGGGGTTCCTTATCCGCTTTATCCAAGCCAACAGGTGGTATTATACAAAAATGCCCGCGAAGCCATCACCAACGCCATACGCCACGGCGAGGCCAAGCAGGTCCAAATTTCTCTCCAGTACGGAGACGAGGAAGTTCGAATGGAGGTCTCCAACGATGGAACGGTCCAAGAGGAGGCGAACCCGATCGCTGCGGCAGACCGCCATGGCATCGGGATAAGCGGCATGCTCGAGCGAACCAAAGTGGTAGGAGGAACGCTGGAGGTAAGAAAATCCGTGCCTTTTACCGTCATCACCCGGCTGCCTGTCTACCGGAAGCGCGAGATTATGTAA	MTKVISLPKTSMCYNEANRLNGLTSQWKRVGSHVTSPLAYLRYGLILLPAAADIFLQRLDDYGEYMVYILLFLAIAVLSRFLPSPAYRKAAILLEIPLSLWLCHQYGFMMVFLSISSLCVYLPLFERPGRLWLSFGHLALLNIAITGYDALLHTTANLLFLFLAVTFHRIHEMNQKELDHIHLYDDLKRLHFQQDEAGRQLLQFAHQVESAAQAEERNRISRQLHDDIGHRLIRVKMMMEAALHIVPQDAVRGMDMLHQIRDQLGESMEQMRTAVKQMNPSRRITDDYSLDRLLEETGRETGIETELVLQGVPYPLYPSQQVVLYKNAREAITNAIRHGEAKQVQISLQYGDEEVRMEVSNDGTVQEEANPIAAADRHGIGISGMLERTKVVGGTLEVRKSVPFTVITRLPVYRKREIM				NA	NA	NA	NA	NA
AK002_05826	651	lnrK_5	COG2197	Transcriptional regulatory protein LnrK	ATGATATCCGTATTGATTGCAGATGATGACCCGTTCATTCGGGAAAGCTTGAAACTGTTGGTGGGGATGGATCCGGATATCGAAGTATCGGCTGTCGCGGAACACGGGGAGGAGGCTCTATCGTTATTGATGGACGGACTTCATGCCGACGTCGTGCTCATGGACATCCGGATGCCGGTATGCGACGGCGTGGAAGGAACCCGGCGTATTCGCGAGCGATACCCTGATGTACGGGTGTTGATGCTGACTACCTTCGATGACGATGATTATATCGTGGAGGCGCTGCGGAACGGGGCCAGCGGTTATCTGCTGAAGAACATTCCGCCCGATCGCATCATCCAGGGGATCAAAACGGTGCATGACGGTAACATGCTGATACATCCCGATATCGCCCGCAAGCTGACCGGCATGCTTCGTCCAACCCCGCAGCCAGTCCCGAGATCCGCTGAGTTGGAACAGTTCGGGCTCACCCCTGCCGAGAAAAAGGTCGTCGCCCTTATCGCGGAGGGCCTGTCCAATAAGGAAATTGCCGCGCAGCTTTACCTAAGCGAAGGCACCGTCAAAAACTACGTCACCGATATTCTGGGCAAGCTGAATCTTCGGGACCGGACGCAAATCGCTATCTTTTATTTAAAAAAGGTACAGGGCTAG	MISVLIADDDPFIRESLKLLVGMDPDIEVSAVAEHGEEALSLLMDGLHADVVLMDIRMPVCDGVEGTRRIRERYPDVRVLMLTTFDDDDYIVEALRNGASGYLLKNIPPDRIIQGIKTVHDGNMLIHPDIARKLTGMLRPTPQPVPRSAELEQFGLTPAEKKVVALIAEGLSNKEIAAQLYLSEGTVKNYVTDILGKLNLRDRTQIAIFYLKKVQG	PGPT0014870_625	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
AK002_05827	1323	minJ	COG0265	Cell division topological determinant MinJ	TTGGAGACATTGAAACAACTGCTGATGTATGGGATAGATGCAGGCATACAACTGCTGACGCAGCCCTTTTATTATATTTCGATTTTGTTTGTCATGCTGTTTTACCGAAGGCAGGTGTTGGTGGAGCGCAAGCTGTTCCATGTGAAGCTGCATTCCTGGGGATTGCAGACCTGGCGTACGTTTCTGGGGGGACTGGCGGCAGGCATCGGCGTGTCCATCGTGGTGGCCTTCTTGGGGATATCATTAAGCTTGGAAGCCATTATATGCATATGGGTGACTTCGCTGATCCTGATGCTGTTTCATATCCGGTACTTATGCTTTGCCTATTCCATCGGTCTGCTCGGGATCATTCAGTTTGTGTTGGGCTGGTTTCCGAATTGGCAGCCGGAAGGCTGGATTCATCAGGTAACGGCAACCATCCTTGGTTTGGACATTCCGGCCTTGCTGGCGTTGTCCGCCGTTCTGCATTTTGCTGAAGCTTTGCTGGTAAGGGTACAAGGGTCGGGATTTGCCACACCGCTGTTCCTGGAGGGCAAGCGCGGCAAGCTTGTCGGCGGCTATCATATGCAGAGCTTCTGGCCGCTGCCGTTGTTCCTGCTCGTTCCGGCGGTTGGCGGGGGCAGCGTGCTTCCGTGGACGCCGTTTTTCGGCGGCGATGCCTGGAGTGCGGGCTTTACTATGATGGCACTCCCGGTCGTGATCGGCTTCGGTGAGATGACGCAGAGCATGCTCCCGCAGGAGAAGGCAGGGATTACGTCGAAGCGTCTCATATTCTATGGGGCGATTGTGCTGGCATTGAGCCTGCTGGCCGAGTGGTGGTCGCCGCTTACCATTGCGGCCGCATTAGCGGCGCTGCTGCTGCATGAGGGCTTGGTATGGTACAGCAGATACGAGGAACAGCAGCGCAGCCCGATGTTTGTGCATCCGGTACGCGGATTACGCGTTCTCGCCGTGCTGCCGGACAGTCCGGCAAGCGAGCTCGGCATTTTGGCAGGGGAGACGATCCTCAAGGTGAACGGTAAGCTGATTCACAGCAAGGAGCAGTTGCACAGCGCCTTGCGCCAGAATCCGGCCTTCTGCAAGCTGGAGGTTCAGAACCATCAAGGGGAGAGCAAATTTCTGCAGCGCGCGATTTACGCAGGGGATCATCATCAGCTGGGTGCTATCGTGGCGCCCGACCCTAGGGATGGCATCGCGGTGGGGTTGAAGCCGGTAAGCTTGATCACGCTGCTGGCGAATAAACTTCATATTCGCAGCAAGCGGGGGGCTACCAGCAGCAAGACGTCCGGCGGTTCCGAAGAAGCCGGATTCCCTTCATCGTGA	METLKQLLMYGIDAGIQLLTQPFYYISILFVMLFYRRQVLVERKLFHVKLHSWGLQTWRTFLGGLAAGIGVSIVVAFLGISLSLEAIICIWVTSLILMLFHIRYLCFAYSIGLLGIIQFVLGWFPNWQPEGWIHQVTATILGLDIPALLALSAVLHFAEALLVRVQGSGFATPLFLEGKRGKLVGGYHMQSFWPLPLFLLVPAVGGGSVLPWTPFFGGDAWSAGFTMMALPVVIGFGEMTQSMLPQEKAGITSKRLIFYGAIVLALSLLAEWWSPLTIAAALAALLLHEGLVWYSRYEEQQRSPMFVHPVRGLRVLAVLPDSPASELGILAGETILKVNGKLIHSKEQLHSALRQNPAFCKLEVQNHQGESKFLQRAIYAGDHHQLGAIVAPDPRDGIAVGLKPVSLITLLANKLHIRSKRGATSSKTSGGSEEAGFPSS				NA	NA	NA	NA	NA
AK002_05828	1473	ctpB	COG0793	Carboxy-terminal processing protease CtpB	TTGCTGAAAAAACGAACGGCTGTCTTTCTGGTCATCGCTGCCATGCTGTGCGGCGGACTGTTAACGATGGCTTTGACCCAGCTGCCTGCTCCTAGTCAGACCGGAGACGGCGGCGAGGGATTGCTGGCCAGCATCGCGAACAGGAATGGACTGGAGCAGTCTGAAGCGAAGAAACTGGGGACAGCGATTGACCTCATCGAAAGCAATTATTACAAGGATATCGATCGGTCGAAGCTGATCGACGGCGCTATCAACGGGATGATGGAAGCGCTGGAAGATCCGTATTCCAACTATATGGGCAAAGAAACGGCGGCCCAGTTTGAAGAAAGCATTGAGGGCTCCTTCACGGGGATTGGCGCGGAAGTGTCCTCCGTTGACGGCAGCGTCGTCGTTGTATCCCCGATCAAGGGATCGCCTGCGGATAAAGCCGGCATTCGGGCCAAGGATACCATCCTTTCCGTCAATGGCGAATCCTTGCAGGGCCTTGAGCTGAATGCGGCCGTTAACAAGATTCGCGGTCCGAAGGGCTCCAAGGCCGTTCTTCAGATCAAGCGGGCAGGGTCCGAGCAGCCGATCGAGTATGTAATCGTTCGGGATGACGTCGATCTGGAAACCGTGTCGGCACGGATGGAGAAGGGCGGAATCGGCGTTATCGAGATTTCCCAATTCTCGCTGAATACGGGCGAACGCTTTAAGGAAGAGCTCAAGAAGCTGGAAAGCCAAGGCATGAAGGGACTGCTGATCGACGTCCGGAACAATCCCGGCGGCGTGCTGTCCGTTGTCATCGACATTGCAGAGCAGTTCGTGCCTAAAGGCGAGCTGATCGTTCAGGTCGAAGACAAGGATAAGAAGCGGGAGAAGCATCCTTCGGGTGGCGTGGCCAAATCGTACCCGATTACGGTGCTGATGAACAAGGGCAGCGCCAGCGCTTCCGAGATTTTGGCAGGCGCATTGCAGCAGTCCGCCGGAGCTACCCTGATGGGCGAGCACTCCTTCGGAAAAGGGACCGTGCAAACGAGCTTTGACAAGCAGTTTGGCGACGGAAGCCTGCTCAAGGTGACCATTGCGAAATGGCTGACGCCAAACGGCACCTGGATCCATGAGAAGGGAATCGAGCCGGATATTAAGGTGTCGCAGCCTGAATACTTTACCGTTGCGCCGATCGATAAGAAGAAAACCTATGCGTACGACACGAACAGCACGGATGTGAAGAACGCGCAGATTATGCTTGAAGCGGTTGGTTACGCGGCAGGACGCACGGATGGTTACTTCGACCGGAATACGGAGAAGGCGGTCAAGAGCTTCCAGAGCAAGCACAAGCTGAAAGCGGACGGCATCATTAACAGCGCTACAGCCGAGGCATTGGAAGCGGCATTGATCGAGAAGATTCAGGATCCGAAAGAGGATAACCAAATGAATCGCGGAATTGCCGAGGTTCGGAAGGAAATCGCCGCTAAGGCGTCGAACAAGTAA	MLKKRTAVFLVIAAMLCGGLLTMALTQLPAPSQTGDGGEGLLASIANRNGLEQSEAKKLGTAIDLIESNYYKDIDRSKLIDGAINGMMEALEDPYSNYMGKETAAQFEESIEGSFTGIGAEVSSVDGSVVVVSPIKGSPADKAGIRAKDTILSVNGESLQGLELNAAVNKIRGPKGSKAVLQIKRAGSEQPIEYVIVRDDVDLETVSARMEKGGIGVIEISQFSLNTGERFKEELKKLESQGMKGLLIDVRNNPGGVLSVVIDIAEQFVPKGELIVQVEDKDKKREKHPSGGVAKSYPITVLMNKGSASASEILAGALQQSAGATLMGEHSFGKGTVQTSFDKQFGDGSLLKVTIAKWLTPNGTWIHEKGIEPDIKVSQPEYFTVAPIDKKKTYAYDTNSTDVKNAQIMLEAVGYAAGRTDGYFDRNTEKAVKSFQSKHKLKADGIINSATAEALEAALIEKIQDPKEDNQMNRGIAEVRKEIAAKASNK	PGPT0015095_3362	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
AK002_05829	1269			hypothetical protein	TTGAAGAAAATCGCCGCAGGAGTAGCAGCCTTATTACTGGCCACTGTTATGATCCAACCGACCGTCGGACAAGCCGAGAAGAAGACCGCAGCCGATGTAGACAAAGAGCTGAGGGTGCTTCAGGAGCAGGTCAAGAAAGCGCGTGCGCAGAAGAGCAAGGCAGCGGATGATAAACAAGAAGCCCAGCATTATAAGAATAAAACGACGAAGAACCTGAAACTTGTGATGGAGCAAATCAGTATCGTCAGCAATGAATTGACCAAGATTTCCGTCAAGATCGAGGAGACGGAGGATTTGCTGAGAACAACGACCAAGGAGCTTGAAGCAGCGGAGGAGCGCATCGCATCCCGAGAGAAGCTGTTGGAATCCCGGATTCGCCTCATCTATATGGATGGGCAAGTATCGTATCTGGATGTGCTGCTCTCCGCAACCAGCTTCAGCGATTTTATTGAGCGTGCCGATTCCTTGAAGACCATCGTCGACCAGGACCAGGATTTGCTGGTGCAGCATAAGCAGGACAAGCTGCTGGTTATCGACAAGAAGAAAGAGCTTGAGGGGCAATATGCGACCGCCAAGGACCTGTACGGCCAGATGGAGGACCGCAAGAGCATCCTCAACGAGAAGGAACAGGAGAAGCGCGTTCTGCTGGCCCAGTACGATCAAGATATCGAGGATGCGGACATCCTGACCGAAGAGCAGGATAAAATGCTGGTTGCCCTGGCAAGCAAGCGTTCGGACCTGCAGAAGGAAAAGAATAAGCTTGCTGCCGAAGAAGCGGCCCGTAAAGCGGCGGCTGCCAAAGCGGCTGCGGCGAAGAGAGCGAAGGCGACAACCCTCGGCGGCAGCAAAGGCGGCGGCGGGTATACCGGCAACGGCGGACCGTTTGCGATACCGGTCTCCGGGGCCAGACTCTCCTCCGGTTACGGACCGCGCGTCCATCCGGTAACGGGCGAGGTTGGCAAGATGCACACGGGTCAGGATTTCGCCGTTCCGCAAGGGACAGAGATCCGGGCAGCCGAGAGCGGCACGGTCATCTTGGCCGAGTGGTGGAGCGGTTACGGAAACTGTGTTATTGTTGATCATGGGGGCGGCGTATGGACCTTGTATGGGCATATCCGCAACGGCGGCATTAAAGTCAGCGAAGGCGACAAGGTGTCCAGAGGGCAGAAGATTGCCGAAGTAGGCTCCACGGGTCAGAGCACGGGACCGCATCTCCATTTTGAGGTTCGGGTCAACGGATCGCCAGTGAATCCATCGCCTTATCTGTAA	MKKIAAGVAALLLATVMIQPTVGQAEKKTAADVDKELRVLQEQVKKARAQKSKAADDKQEAQHYKNKTTKNLKLVMEQISIVSNELTKISVKIEETEDLLRTTTKELEAAEERIASREKLLESRIRLIYMDGQVSYLDVLLSATSFSDFIERADSLKTIVDQDQDLLVQHKQDKLLVIDKKKELEGQYATAKDLYGQMEDRKSILNEKEQEKRVLLAQYDQDIEDADILTEEQDKMLVALASKRSDLQKEKNKLAAEEAARKAAAAKAAAAKRAKATTLGGSKGGGGYTGNGGPFAIPVSGARLSSGYGPRVHPVTGEVGKMHTGQDFAVPQGTEIRAAESGTVILAEWWSGYGNCVIVDHGGGVWTLYGHIRNGGIKVSEGDKVSRGQKIAEVGSTGQSTGPHLHFEVRVNGSPVNPSPYL	PGPT0023855_609	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MUREIN-ENDOPEPTIDASE_ACTIVITY|LIPOPROTEIN,PGPT0023855-envC-K22719	NA	NA
AK002_05830	909	ftsX	COG2177	Cell division protein FtsX	ATGAATTTTAGAACCTTCTTGCGGCACTTGCGGGAAGGGGCGAAGAGCGTTTTCCGGAATGGATGGATGTCGGTCGCATCGATTACGTCCATCGTGGTGTCATTATTTATACTGGGCGTTTTCATGCTGTTAGTCATGAATGTGAACGCATTAGCCGATAAAGCAGATAGCAATGTGCAAATCAATACGTACTTGAATCTCAATGTGGACGAGAAGCTGCGCGAAACCGTCAAAGGCGAGATCGAGGCCATGCCGGAAGTCAGCGCCATCAAATTCGTGTCCAAGGAAGAGGGCATGAAGGAGCTTGAAGAAAGCCTCGGCTCCGAATGGGTGGAAGGCTTCAGCGAAGCGGACCAGAATCCGCTACCGGACGCATTCGAGGTTTCCGTCATCGAACCGACCACGGTCGGCTTTGTTGCCGACAAGATTACCGCGCTGAACGAGAAGTATGCGGAAGAGCCGATCCTGCGCGTCAAGTACGGGGAGGGCACGGTAGAAACCTTGTTCAAGATTACGAAAACGGTGCGGAATATCGGCTTTATTTTCGTTGCGGGACTCGGCTTGATGTCCATGTTTCTGATTTCGAACACCATTCGGGTAACGATTTTGGCCCGTCGCCGCGAGATCGGCATCATGAAGCTTGTCGGCGCGACCAACAACTTCATTCGCTGGCCGTTCTTCGTGGAAGGAGCCATGATCGGCCTCCTGGGCTCGATCATTACGGTTACGCTGCTGTTTATAGGCTACAATCGCCTGTACGCCGCGTCGCAAACGGATTTGACGCTGGCGCAGAGCCTGATTCCATTGGGAGATCTGTGGCTGCTGCTCGGGACCATCATCGTGGCCCTTGGCATTGTCATTGGCATTTGGGGCAGCACCATGTCGATACGTAAATTTTTGAAAGTATAA	MNFRTFLRHLREGAKSVFRNGWMSVASITSIVVSLFILGVFMLLVMNVNALADKADSNVQINTYLNLNVDEKLRETVKGEIEAMPEVSAIKFVSKEEGMKELEESLGSEWVEGFSEADQNPLPDAFEVSVIEPTTVGFVADKITALNEKYAEEPILRVKYGEGTVETLFKITKTVRNIGFIFVAGLGLMSMFLISNTIRVTILARRREIGIMKLVGATNNFIRWPFFVEGAMIGLLGSIITVTLLFIGYNRLYAASQTDLTLAQSLIPLGDLWLLLGTIIVALGIVIGIWGSTMSIRKFLKV				NA	NA	NA	NA	NA
AK002_05831	738	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGGAAACTGTCGAAAGTATAATGGCTAATTATGGATTGGGAAGTGATGAAGTGATCGAAATGCAGGACGTATGGAAGACTTATCCGAGCGGCGCCCATGCGCTTCAAGGAGTTTCCGTTACCATTAACCGCAATGAATTCGTGTATGTTGTCGGACCGTCGGGTGCCGGCAAATCGACATTCATGAAACTTATCTATAGAGAAGAAGTGCCGACCAAAGGCCAAATTTCTGTTAACGGATTTAATATCGGGAAGCTGAAGCAGCGCAAAATCCCCTATGTTCGCCGAAATATCGGGGTTATTTTTCAGGACTATCGCCTGCTTCCCAAGCTGACTGCTTACGAAAATGTAGCTTTTGCCATGGAGGTTATCGAAGCGCCGCAGCGTCTCATCAAGAGACGGGTTATGGAGGTGCTGGATCTGGTTGGTCTGAAAGCCAAGGCGAACCGCGAGCCATCCCAGCTCTCCGGCGGGGAGCAGCAGCGGATCGCCATCGCCAGGGCGATCGTGAACAACCCGTCCGTCATTATTGCGGACGAGCCTACGGGCAACCTGGACCCCGAAACCTCATGGGGCATCATGCAGCTGCTGGACGAAATCAATTTCAGGGGAACCACCATCGTGATGGCTACCCACAACAGGGATATCGTGAACACGATGCGTAAGCGCGTACTTGCGATTGAGCACGGACAGATCGTCCGCGACCAGCAGAGAGGAGAGTACGGGTATGAATTTTAG	METVESIMANYGLGSDEVIEMQDVWKTYPSGAHALQGVSVTINRNEFVYVVGPSGAGKSTFMKLIYREEVPTKGQISVNGFNIGKLKQRKIPYVRRNIGVIFQDYRLLPKLTAYENVAFAMEVIEAPQRLIKRRVMEVLDLVGLKAKANREPSQLSGGEQQRIAIARAIVNNPSVIIADEPTGNLDPETSWGIMQLLDEINFRGTTIVMATHNRDIVNTMRKRVLAIEHGQIVRDQQRGEYGYEF	PGPT0013345_11830	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_05832	1437			hypothetical protein	ATGAAAAAAATTCATCTCGGTCTCATCATTGTCATCAGTTTCGCTCTTCTCCTCTCCGTCGGTTTCGGTTTATTGACGATGTACGCGAACCAAAAGGAGCTGCCGAAGGGAATGGTTCTCTCCGGCTGGCAGGTAGGGGGGCAGCCCGCCGACGAGGTTTTGTCCGAGCTGGAACAGCGGCTTCAAGCCATCACAAGCATCAAGGTGACGCTGGAGTCGGAGGCCCTGAAAGGGCACACGGAAAGCTTCAGTCTCCAAGAAGCCGGCGTTCGGTTCAGCGCAGCCGAATTCAAGGAAGCCATCGCCAAGCTGTCCGAAGGATCGCTATGGGAACAGGTTCTTTACCGGCGGCAGTTTCAGCTGGAATGGCATATATCCACGGAGTGGGATCGCGACGTATTGAAAGAGCGGTTAAACGAAGACTGGCAAAAAGAACGCTTTGGAGAGCCTGTCAATGCGGTACGAAGCATTTCCGATGACGATGTGGTCCGGTATACCCCGGAGAAAACCGCTTACCGCATCGATTGGGCTGCGTTCTATGAAGGGTTCAGCGCCGCGCTTCCGAACGAGTCCCACTTCATGGAACCGAATCCTGAAGAAGCTATTGCGGTGCAGCTGCCTCTTATCCGCCAAAAGCCTCCCGTTACCGTAAAGTCGCTGCAGGACGAGGGCATTGAGCGAAAAATCATTGAATTCTCCACCGGTCTCGGATCCAGCGGGCCCGGACGCGTACATAACGTGACCGCTGCCGCCAAAGCCGTGGACGGCATGATTCTGAAGCCCGGCGATGAGTTCAATTATGCTCATATCATAGATGTTGCGAAGAAGGAGTACGGTTTCAAAGAGGCTCCCGTCATCGTGAACGGCAAGCTGGTGCCTGGTATCGGGGGCGGGATCTGCCAGGTATCCAGCACGGTGTATCATGCCGCCCTGCTGATGGGGCTCGAGATCACCGAAAGGCGGAATCATTCCCTTCCGGTCAGCTATTTGCCCAAGGGGCAGGACGCCACCTTTGCCGAAGGGGCGATCAACTTTCGCTTCCGAAACAATACGGGCAAGCATCTGCTTATCCTGTCCGAGGTATCGCACGGCAATTTAACGCTGAAGATGTTCGGCACCTTCCCGGAGAATACGGAATACGAGCTGGTATCCACTACGATCGAAACCTTGCCGTCCCCGGAAAAGGTCATCCACAACAACTCGCTGCCGCCGGGATTGAAGCAGGTGGTTCAGAACGGAAAACCAGGTTATGTGGTAGAAACCTATCGAACCAAGAAAGTGAACGGGAAGGTCGTGGAGAACGTGAAAATATCCAAGGATACCTACCGTCCCCAGAACAGCATCGTTGCCATCAATCCGACCAACGAGGTCCCGCTGCCGGATGCGAATGAAATGCCCAAAGAGGAAGTCGTCGAGGACGGTATCAGCGCTCCGTAA	MKKIHLGLIIVISFALLLSVGFGLLTMYANQKELPKGMVLSGWQVGGQPADEVLSELEQRLQAITSIKVTLESEALKGHTESFSLQEAGVRFSAAEFKEAIAKLSEGSLWEQVLYRRQFQLEWHISTEWDRDVLKERLNEDWQKERFGEPVNAVRSISDDDVVRYTPEKTAYRIDWAAFYEGFSAALPNESHFMEPNPEEAIAVQLPLIRQKPPVTVKSLQDEGIERKIIEFSTGLGSSGPGRVHNVTAAAKAVDGMILKPGDEFNYAHIIDVAKKEYGFKEAPVIVNGKLVPGIGGGICQVSSTVYHAALLMGLEITERRNHSLPVSYLPKGQDATFAEGAINFRFRNNTGKHLLILSEVSHGNLTLKMFGTFPENTEYELVSTTIETLPSPEKVIHNNSLPPGLKQVVQNGKPGYVVETYRTKKVNGKVVENVKISKDTYRPQNSIVAINPTNEVPLPDANEMPKEEVVEDGISAP				NA	NA	NA	NA	NA
AK002_05833	741			hypothetical protein	ATGGTGCATAACGGAACAGTCGTAGAAAGACCCGGTGTTTCCATAACGGGTGACGGTGTCGTTGGCGGCGGTATTATCGGCAAGCTTCGGATAAACGGTGAAGGCGTCATTCATGGCGACACGGATTGCCATCTGCTACGCTGCAACGGGAGCGCGGTCATAAACGGAAGCCTGCTCGGAAGGCAGGCTAGAGTGAACGGCCATGTGAAGGTGTCTCATCATGTCCAGATGGAGCACGTCCGGGTGAATGGAAGCTTGGATGCCGGCGGAAGCGTTAGGATCAGCCGCATCGGAATCAATGGCGGCTTGAGCACGGGAGCCGATCTGTTCGCGGTCAAAGGCGTCGTGAACGGTACCTTGGATGTTGGCGGCAACCTGGAAGCCGAAGAGATGACGGTCCGCGGCATACTACGCGTGAGCGGGTCCGTGATAGCTCGGGAATTGACGCTGAGGCTCGTTACGCAAGCCTCGCGCGTCAACGAACTCCGAAGCCGCTCGGTCTTCGTAGCACCAACGTTGCTGGCCAAATGGTTCCGTTCCTCCCGGATCGGATATCTGAACGCCGAGCTGATTGAAGGCGAGGATATCACGCTGGAGAATACGAGAGCGGCCATGGTCAGGGGCAGGAAAGTCCATATCGGAAAGGGCTGCTCGATCGGCAGGGTGGAATATACAGAGACGTTCAGCGCAGATGCCCAGGCAGAAATCGGAAGCTATTATAAAATCGATGCACGGCATTAA	MVHNGTVVERPGVSITGDGVVGGGIIGKLRINGEGVIHGDTDCHLLRCNGSAVINGSLLGRQARVNGHVKVSHHVQMEHVRVNGSLDAGGSVRISRIGINGGLSTGADLFAVKGVVNGTLDVGGNLEAEEMTVRGILRVSGSVIARELTLRLVTQASRVNELRSRSVFVAPTLLAKWFRSSRIGYLNAELIEGEDITLENTRAAMVRGRKVHIGKGCSIGRVEYTETFSADAQAEIGSYYKIDARH				NA	NA	NA	NA	NA
AK002_05834	729			hypothetical protein	ATGATACCACATGACGATAAACTGTCCGATCTGAAGATTACGGGAACCGGCAGCTCAAGCGGCGGCCAATACGGCAAGGTGCGAATCGATGGTGCCGGTCAGGTGAATGGAGATCTGGACTGCCGGGAATTAACAGGCAACGGAACGATGAGTTTGAACGGCGACGTCGCTGCCGACAAGATTCGCGTGAACGGTTCGGGAACCGTTAAGGGGACGGTGGACGCGGAGGAGCTGCATGTAGCCGGCAGCCTGAGCGTGAAGAGAGGCGTGCGCAGCCGGTCCATTTTTATCGGGGGGCATTGCAGCATTCACGGTGATTCCGAATCGAAGAGGCTTGATGTAACCGGAAACCTGAGAAGCCATGGTGACGTGCGGAGTGAAACGGCCACGTTTCATGGGGGCTTCAAGATCGATGGCCGCCTGCATGTAGGAACAGCGGATATTCGGCTGTTGGGCCGCTGCCTTGCGCAGGAAATCGTCGGAGACCGGATCACGATCCGCAAAAAAGGAAAGCGTCTCTGGGAGATGCTGTCCCTGCCATTACGGGGAACGCGGCTGGAGGCACGCATTATTGAGGGCGATGTCCTGGATCTAGAGTATGTCGAAGCCGATATCGTTCGCGGCAACCGGGTGATTCTCGGCCCAGGTTGCGAGATTCGGCAAGTGGAATACCGGGATGAATTGACGCAGCACCCGGAAGCCCAGGTTAGAGCATCCCGGCGGTTTTAA	MIPHDDKLSDLKITGTGSSSGGQYGKVRIDGAGQVNGDLDCRELTGNGTMSLNGDVAADKIRVNGSGTVKGTVDAEELHVAGSLSVKRGVRSRSIFIGGHCSIHGDSESKRLDVTGNLRSHGDVRSETATFHGGFKIDGRLHVGTADIRLLGRCLAQEIVGDRITIRKKGKRLWEMLSLPLRGTRLEARIIEGDVLDLEYVEADIVRGNRVILGPGCEIRQVEYRDELTQHPEAQVRASRRF				NA	NA	NA	NA	NA
AK002_05835	774			hypothetical protein	ATGGCTCTTATGCAATGTCACTTTTACTCGGAGGTGCTCGGTCTCAGCACGTCCATGACCGTCATTCTCCCTCAGCAAACCTCTTCACAAATCGGCATGACGAATCATGCCAAAAGCGGTCTGCATCCGACGCTCTTCCTTCTGCACGGCCTGTCCGACGACGATTCCATCTGGCTGCGCAGAACCTCCATCGAACGCTACGTGGCCGAGATGGGCATTGCCGTCGTTATGCCGCAAGTGCATCGCAGCTTCTATACCGACATGGAATACGGCGGCAAATACTGGACCTTTATCAGCCAGGAGCTGCCGGCCATCGCCCGTTCCTTCTTCCCGTTATCCCACGCGAGGGAAGATAACTTCGTCGCCGGGTTGTCCATGGGCGGCTACGGGGCGTTCAAGCTTGCCCTTCGCTGTCCCGAATCCTTCGCCGCTGCTGCCAGCCTGTCGGGCGCGCTCGACATGGCGGGTCATATTAATAGGAACGAGGCTTTGTTTGAGCATCGTTTAGTCTACGGAGATCGGGACATTACCGGCACCGACAATGACCTGTTGTGGCTGCTTCAGGAAGTGGACCGCTCGGAGGGACCGAAACCGCTGCTGTATCAATGCTGCGGAACGGAAGACTTCCTCCACCAAGACAATCAAGCGTTCCGCAAAGCCTGCGAAGCAACCTCCCTGGATCTCACGTATCAGGAAGGGCCGGGCGGTCATGATTGGGGATATTGGGATACCCACATCCAGGATGTTCTGAAATGGCTTCCGTTGAAAGCCTGA	MALMQCHFYSEVLGLSTSMTVILPQQTSSQIGMTNHAKSGLHPTLFLLHGLSDDDSIWLRRTSIERYVAEMGIAVVMPQVHRSFYTDMEYGGKYWTFISQELPAIARSFFPLSHAREDNFVAGLSMGGYGAFKLALRCPESFAAAASLSGALDMAGHINRNEALFEHRLVYGDRDITGTDNDLLWLLQEVDRSEGPKPLLYQCCGTEDFLHQDNQAFRKACEATSLDLTYQEGPGGHDWGYWDTHIQDVLKWLPLKA	PGPT0020645_52	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_LYSINE_TRANSPORT,PGPT0020645-lysY-K17076	NA	NA
AK002_05836	1416	argH	COG0165	Argininosuccinate lyase	GTGAGCAAGTTATGGGGCGGACGCTTTACGAAGCAGACCAACGCATTGGTAGAGGAATATACGGCATCCATCGGTTTTGACAAGCAGCTGGCCGAGGAGGACATCCAGGGAAGCCTTGCGCATGTGTCCATGCTGGGCAAATGCGGCATCGTGCCGGCGGAGGACGTGGAGACGATCAAAGCCGGCTTGAACAAGGTGCTGGAGCGCATCCGTGAGGGCAGCATCGAGTTCTCCGTATCGGATGAGGATATCCATATGAACATCGAGAAGAATCTGATCGAGGAAATCGGACCTGTCGGCGGCAAGCTCCACACGGGCCGCAGCCGTAACGACCAGGTGGCAACGGACATGCACTTGTATTTGCGCAACCGCGTCGTGGCTTTGACCGGCATGCTGCACGAGCTGCAGACCGCGTTGATTGGGCAAGCCAAGGATAACCTGGATACGATTATTCCAGGGTATACGCATCTGCAGCGTGCGCAGCCGATTCTGTTCGCGCATCATCTGATGGCTTACGTGTCCATGTTCCAGCGGGATATCGACCGTCTGATCGACAGCTATAAGCGCATTAACGTGCTGCCGCTCGGGGCAGGCGCGCTTGCGGGCACAACGTTCCCGATCGACCGCCATTTCGTGGCCGAGCAGCTCGGTTTCGACGGCGTTTACGAGAACAGCCTGGATGCGGTCAGCGACCGCGACTTTATCCTGGAATTCCTCTCGGATGCTTCCATCATCATGATGCACTTGTCCCGCCTGAGCGAGGAGCTGGTGCTTTGGAGCAGCACCGAGTTCAACTTCGTCGAGCTGGATGATGCGTTCTGCACGGGCAGCAGCATTATGCCGCAGAAGAAGAACCCGGACGTGCCCGAGCTTGTCCGCGGCAAAACCGGGCGGGTATACGGCAACCTGATGGGTCTGCTCACCGTGCTGAAGTCGCTGCCGCTTGCTTATAACAAGGACATGCAGGAAGACAAAGAGGGCATGTTCGACACGGTGGCTACGCTGGAAGGCGCATTGCAGCTGTTCGCTCCGATGATTGCCACGATGAAGGTCAACAAAGGCCGCATGCGCGAAGCGGTGAACACCGACTTCTCGAATGCAACGGACATTGCGGACTTCCTGGTCGGCAAAGGTCTTCCGTTCCGCCAGGCGCACGAAGTGATCGGCAAGACCGTATTGTACTGCATCCAGAACAACAAATACCTGCTGGACCTGACGCTGGATGAATTCAAACAGTTCTCCGAGCTGTTCGACGACTCCATCTATGGCGTGCTTCAACCCGAGACGGTGGTCAATGCGCGTAACGTTTACGGCGGCACGGCAACCGAGCAGGTGAAAGCGGCGATCGACCGCAGCGTGCAGACCCTCCAGGTCACGGAAGAATGGCTGGGTCTCCGCCAGGGGAATGTAGAGTAA	MSKLWGGRFTKQTNALVEEYTASIGFDKQLAEEDIQGSLAHVSMLGKCGIVPAEDVETIKAGLNKVLERIREGSIEFSVSDEDIHMNIEKNLIEEIGPVGGKLHTGRSRNDQVATDMHLYLRNRVVALTGMLHELQTALIGQAKDNLDTIIPGYTHLQRAQPILFAHHLMAYVSMFQRDIDRLIDSYKRINVLPLGAGALAGTTFPIDRHFVAEQLGFDGVYENSLDAVSDRDFILEFLSDASIIMMHLSRLSEELVLWSSTEFNFVELDDAFCTGSSIMPQKKNPDVPELVRGKTGRVYGNLMGLLTVLKSLPLAYNKDMQEDKEGMFDTVATLEGALQLFAPMIATMKVNKGRMREAVNTDFSNATDIADFLVGKGLPFRQAHEVIGKTVLYCIQNNKYLLDLTLDEFKQFSELFDDSIYGVLQPETVVNARNVYGGTATEQVKAAIDRSVQTLQVTEEWLGLRQGNVE	PGPT0014242_80	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
AK002_05837	1233	argG	COG0137	Argininosuccinate synthase	ATGGCAAAACAAAAAATCGTACTGGCGTATTCCGGCGGTTTGGATACGTCTGTCATTCTGAAGTGGCTGAAAGAAACCTACGATGCGGAGATCATTGCCTTCACGGCCGATATCGGCCAGAAGGAAGAGCTGGACGGACTTGAGGAAAAAGCGCTGGCGACCGGCGCCTCCAAAGTATACATCGACGATCTGCGCGACGAATTTGCGAATGATTTCATCTTCCCGATGTTCCAGGCGGGTGCCATGTACGAAGGGCAGTACCTGCTCGGCACCAGCATCGCGCGTCCGTTGATCGCGAAACGCATGGTGGATATCGCACGTGCCGAAGGCGCGACGGCGATTGCGCACGGCGCTACGGGTAAAGGGAACGACCAGGTTCGTTTTGAGCTGGGCGTAGCCGGCTTGGCACCGGACATTGAAGTGATCGCGCCTTGGCGCATCGAGGAGTTCCGTAACTCCTTCCCGGGACGCGCGGAGATGATCGCTTACGCGGAAGCGCACGGCATTCCGGTAACGGCATCCGCTGCCAAATCCTACTCCATGGACCGCAACCTGCTCCATATCAGTTACGAGAGCGGCGTGCTGGAGGATCCTTGGTTTGATGCAAGCGCGGAGGACAGCAAGGATATGTACCTGCTCAGCGTATCGCCTGAGGATGCGCCGGATGAGGCGGAATACCTCGAGCTTACGTTCGAGCAAGGGAATGTCGTTGCGCTGAACGGCGAATCGATGAGCCCGCTGCAAGTGATGGAGAAGCTGAACGAGCTGGGCGGCAAGCACGGCATCGGTCGCGTGGATATGGTGGAGAACCGTTTTGTCGGCATGAAGAGCCGCGGCGTCTATGAGACACCGGGCGGCACGATCCTGTTCACCGCTCATCGCAAAATGGAGTCCATTACGATGGACCGTGAAGTGATGAACCTGCGCGACAGCCTGATTACCCGCTACAGCACCTTGGTTTATAACGGCTTCTGGTTTGCGCCGGAGCGTCTGGCATTGCAGGCGCTGGTGACCGAGAGCCAGAAGAACGTTACGGGTACGGTGCGCGTGAAGCTGTACAAAGGCAATGTGATCGGCGCAGGCGTGAAGAGTCCGGTAAGCCTGTACAACCCGGACATCGCCACGATGGAAGCCGATCCAACGCAAGCTTACGATCAAGGCGACGCTACCGGCTTTATCCGCTTGAACGCATTGCGTTTGAAAGTGGCATCCGGCGTGAATCAGAATCAATAA	MAKQKIVLAYSGGLDTSVILKWLKETYDAEIIAFTADIGQKEELDGLEEKALATGASKVYIDDLRDEFANDFIFPMFQAGAMYEGQYLLGTSIARPLIAKRMVDIARAEGATAIAHGATGKGNDQVRFELGVAGLAPDIEVIAPWRIEEFRNSFPGRAEMIAYAEAHGIPVTASAAKSYSMDRNLLHISYESGVLEDPWFDASAEDSKDMYLLSVSPEDAPDEAEYLELTFEQGNVVALNGESMSPLQVMEKLNELGGKHGIGRVDMVENRFVGMKSRGVYETPGGTILFTAHRKMESITMDREVMNLRDSLITRYSTLVYNGFWFAPERLALQALVTESQKNVTGTVRVKLYKGNVIGAGVKSPVSLYNPDIATMEADPTQAYDQGDATGFIRLNALRLKVASGVNQNQ	PGPT0020130_2006	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
AK002_05838	957	argF	COG0078	Ornithine carbamoyltransferase	ATGGCCGCTAGCGGACAATTGAAGGAATTAAGCCTGAAAGGGCGGGATATGATCGAGCTGGACGAATACTCGACGGAAGAGATTCAGTTCTTGCTCGATTCGGCAATCGAGATCAAGCGCAAGCAGAAGAACGGGGAAGTCTATCAGCCGCTGAAAGGCAAGACGATCGGCTTGATTTTTGAGAAGTCGTCCACGCGGACGCGGGTTTCGTTCGAGGCTGGGATGTTCCAGCTGGGCGGACATGCACTCTTTTTGAGCAAAAACGATATTCAGCTCGGACGCGGCGAGCCGATCAGCGATACGGCGCAGGTGATGTCTCGTTATCTGGACGGCCTGATGATTCGTACCTTCGGGCACGACAACGTGGTCAACCTGGCAAAATATGCTTCGATTCCGGTCATCAACGGCCTGAGCGACATGGCGCATCCATGTCAGGTGCTGGCTGATTTGCAGACGGTGCTGGAGCACAAGGGTAAGCTGAAAGGCCTCAAAATGGCCTTTATCGGCGATGGCAACAACATGGCGCATTCGCTCCTGATCGGCGGTGCCAAGATGGGCATGCATGTGGCCGTAGCCAGTCCGAAGGGCTATGAGGCGGATGCCAGCATTGTGAAGCTGAGCGAGAAAATCGCGGCGCAAACGGGCGGCAAAATCACGATCACCCAAGACCCGCTCGAAGCCGCGAAGGATGCGGACGTGATCTACACGGATGTATGGGCAAGCATGGGCTTTGAAGAGGAGCAGGCACAGCGGGAAGCCGCGTTTGCGGACTACCAGGTAAACGAAGAGCTGGTGAAAGCGGCAAAGCCGGATTACTTGTTCCTGCATTGCCTCCCGGCCCACCGCGGGGAAGAGGTCAGCGAAGGCGTGATCGACGGTGCCAATTCCGTCATTTTCGATCAGGCCGAGAACCGTCTCCATGCCCAGAAGGCTTTAATGGTTGCTTTGATGGCATAG	MAASGQLKELSLKGRDMIELDEYSTEEIQFLLDSAIEIKRKQKNGEVYQPLKGKTIGLIFEKSSTRTRVSFEAGMFQLGGHALFLSKNDIQLGRGEPISDTAQVMSRYLDGLMIRTFGHDNVVNLAKYASIPVINGLSDMAHPCQVLADLQTVLEHKGKLKGLKMAFIGDGNNMAHSLLIGGAKMGMHVAVASPKGYEADASIVKLSEKIAAQTGGKITITQDPLEAAKDADVIYTDVWASMGFEEEQAQREAAFADYQVNEELVKAAKPDYLFLHCLPAHRGEEVSEGVIDGANSVIFDQAENRLHAQKALMVALMA	PGPT0020080_2567	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020080-arcB|argF|argI-K00611	NA	NA
AK002_05839	1218	argD_2	COG4992	Acetylornithine aminotransferase	ATGGGAAAAGAAGCAGCAGGCGGTGTTAAAGCAGCTAATGAAAGCTCGTTGTTCCAAACGTACGCCAGATACCCAATCGCCCTGGTCAAAGGGGAAGGCAGCTGGCTATGGGATGATCAAGGTAACAAGTATCTTGATTTTATGGCCGGTCTGGCGGTAACGAATCTCGGCCATGCCCCGGTAAAAGTGAAAGAAAAGCTGAAGGCCCAGCTGGATGAATTGTGGCACGTCTCGAACCTGTTCCACATTCCGGGCCAGGAAAAAGCAGCCGAGCTGCTGACAGCCAACACCTGCGCGGATGCGGTCTTCTTCTGCAACAGCGGGGCCGAAGCGAACGAAGCGGCCATTAAGCTGGCACGCCGCTATCATCAGAAGGTGAAGGGAACGGGACGCTACGAAGTCATTACGTTTACCCAGTCCTTCCATGGTCGGACGCTGGCTACGCTGACGGCCACCGGCCAGGATAAGGTGAAGGAAGGCTTCCTTCCGCTTCCTGCAGGCTTCAAAAGCGTTCCCCTGCATGACCTTCCGGCGCTGGAAGCAGCCATTAACGACAATACCGCAGCCATCATGATCGAGATGGTGCAGGCGGAGGGCGGCGTGCATCCGGTGGAACCGGAATTCCTTCAAGCCGTCACCGCGCTGTGCAAGAAGCACGGACTGCTGCTGATCGTGGATGAGGTGCAAACGGGCATGGGCCGGACCGGCAAGCTGTTTGCGCACGAGCATTACGGCATTGAGCCGGACATTTTCACCGTGGCCAAAGGGCTCGGCTCCGGGTTCCCGGTCGGCGCGATGCTGGGCAAAGCTTACTTGCGCGAAGCCTTCACGGCAGGAAGCCATGCCACGACGTTTGGCGGCACGCCGATTGCCAGCGCCGTCATCCAGGCCACCATCGAGACGATGCTGGAGGACAACGTGCCGCAGCGCGCGGCCGAAGCCGGAGAATATTTGATGACGAAGCTGAATGAGAGCCTGGGAAATCATCCTTTTGTGAAGGCGATCCGGGGGAAAGGCCTGCTGATCGGCATCGAATGTGTCGAACCGGTTGGCGAGCTGGTGCTGAAAGGACAGAGCCGCGGGCTGCTCTTCGTAACGGCAGGACCAAACGTGATCCGGCTGCTTCCGAATCTGTACGTCACTAAAGAAGAGATCGACCAGGCAGTATCGATCGTTACGGAACTTATACATGAGCATACGGCGGTTAGCCAAGCATAA	MGKEAAGGVKAANESSLFQTYARYPIALVKGEGSWLWDDQGNKYLDFMAGLAVTNLGHAPVKVKEKLKAQLDELWHVSNLFHIPGQEKAAELLTANTCADAVFFCNSGAEANEAAIKLARRYHQKVKGTGRYEVITFTQSFHGRTLATLTATGQDKVKEGFLPLPAGFKSVPLHDLPALEAAINDNTAAIMIEMVQAEGGVHPVEPEFLQAVTALCKKHGLLLIVDEVQTGMGRTGKLFAHEHYGIEPDIFTVAKGLGSGFPVGAMLGKAYLREAFTAGSHATTFGGTPIASAVIQATIETMLEDNVPQRAAEAGEYLMTKLNESLGNHPFVKAIRGKGLLIGIECVEPVGELVLKGQSRGLLFVTAGPNVIRLLPNLYVTKEEIDQAVSIVTELIHEHTAVSQA	PGPT0014253_1026	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
AK002_05840	837	argB	COG0548	Acetylglutamate kinase	ATGAAGAGCACGATCGATCAAGAGAATTCGCAGCCGGTTCAAACCTCAAGCGCGGATACGTTTGTGATGAAATGCGGCGGCAGTACGCTCGCTGGGCTTCCTGACAGCTTCTTCGAGGATTTAAAGAATCTGCAGCAAAAGGGGGTTAACCCCGTTATCGTGCACGGCGGCGGTCCCGCAATTTCCGGCAACCTGGAGAAACTCGGCATCGAGACCGAGTTTGTGAACGGGCTGCGCAAGACGACGGAGGATGTGCTGGACGTCGTGGAGATGGTGCTCGCGGGCACCATCAATAAACAGATTGTACGACGGATTCAAAGCGTGGGCGGCTCTGCCATCGGCTTGTCCGGTTCGGACGGCGGGCTGATCGAGGCCAAACCGGTGACGAACCATGCGGAGGTTGGCTGGGTTGGCGACGTTACGTTGGTGAAGTCATCGATCCTGAGCGGCGTGTTGGAGATGGGGTACATGCCGGTGGTTGCGCCGATCGGCGTGGATCCATCCGGGCAGCGCTATAACATCAATGCCGATACGGCGGCTGGTGCCGTGGCTTCTCATCTGGGCGTTAACCGGATGATCGTTGTCACCGACGTGCCGGGGATCATGAAGGGATCGGGCGGCGAGAAGCGGGTGCTTCCGACCGTGACGGTGCAGGAGATCGAGGATATGATCGGAACGGGCGAAATCTATGGCGGCATGATACCGAAGGTAAGAGCAGCCATCAGCTGCATTCACGGCAAAGTGAGCGAGGTCGTCATCGTGGACGGAAGCGAGCCGAACGTGCTGAGCCGGGTGCTTGGAGGCGAAGTGCTGGGTACGCGTATCGTTCGGATGTAA	MKSTIDQENSQPVQTSSADTFVMKCGGSTLAGLPDSFFEDLKNLQQKGVNPVIVHGGGPAISGNLEKLGIETEFVNGLRKTTEDVLDVVEMVLAGTINKQIVRRIQSVGGSAIGLSGSDGGLIEAKPVTNHAEVGWVGDVTLVKSSILSGVLEMGYMPVVAPIGVDPSGQRYNINADTAAGAVASHLGVNRMIVVTDVPGIMKGSGGEKRVLPTVTVQEIEDMIGTGEIYGGMIPKVRAAISCIHGKVSEVVIVDGSEPNVLSRVLGGEVLGTRIVRM	PGPT0014249_2917	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
AK002_05841	1227	argJ		Arginine biosynthesis bifunctional protein ArgJ	ATGGGAGAGAATACGTTTGCGATTATCGATGGGGGCAGCATCGTAACGCCGCAAGGCTTCAAGGCTGCCGGGCTCCACTGTGGACTTAAGAAGACCGACCGTAACGACCTGGGCGTCATTGTATGCGATGTGCCTGCCGTGGCGGCTGCCGTCTATACGACGAACCTGTTCCAAGCGGCACCGCTGAAGGTAACGCGTGAAAGCTTGGAGGACGGCAAGCTTCGCGCGATTGTCGTGAACAGCGGGAATGCCAATGCCTGCACGGGCAAGCAGGGCGAAGAGGATGCTTACACCATGCGCGCCGATACGGCTGCGCAATTCGGCCTGGACGTGAACGATGTGGCCGTTGCTTCGACGGGTGTCATCGGAGAGCTGCTGAAGATGGACCGAGTATCCTCTGGTATTGCAGGCTTGCCTGCACGGCTCAGCGGCGAAAGCGAAGGGGCTGAAAGCTTCAGCCAAGCGATTTTGACAACCGATCTGGTAAAAAAGGAAGCCTGCGTTACCGTACAGGTTAACGGCACGAAGGTAACCATCGCCGGCACGGCGAAGGGATCGGGGATGATTCATCCGAACATGGCGACCATGCTCGGATTCATGACGACGGATGCGGTCATTGGTCAGGAAGCGCTGCAGCTGCTGCTGCGCCAAACGACCAACCTGACCTTTAATATGATTACGGTGGACGGCGATACAAGCACCAACGATATGCTGGTTGCGATGGCAAGCGGCCTGGCGGGGCATGACGTGTTAACGCCGGAGCATCCGGATTGGGATGCATTCGCAGCCGGCTTCCACTATGTGTGCCAGCAGCTGGCGAAGGCGATCGCACGTGACGGAGAGGGAGCTTCCCGCTTGATCGAGGTTCGCGTGGACGGCGCCGAAAGCGACGATGACGCGCAAGCGATCGCCAAGACGATCATCGGCTCCAGCCTGGTCAAATCGGCGGTGTTCGGTGCGGATGCCAACTGGGGACGGATCATTGCCGCTGTGGGCCGCGCAGGCCGTCCGGTCAATCCGGAGACGGTGGATATTGCCATTGGTCCGATTTCGGTGCTGGAGCAGTCAAGGCCCGTTGCTTTTGACGAAGATGCGGCGCTGGCTTACCTTCAAGGCGACACCGTGGATATCGACGTGAAGCTGCATATCGGCAGCGGGTCGGCTACGGCTTGGGGCTGTGATTTAACCTATGACTATGTCCGCATTAATGCGGCTTATCGTACTTAG	MGENTFAIIDGGSIVTPQGFKAAGLHCGLKKTDRNDLGVIVCDVPAVAAAVYTTNLFQAAPLKVTRESLEDGKLRAIVVNSGNANACTGKQGEEDAYTMRADTAAQFGLDVNDVAVASTGVIGELLKMDRVSSGIAGLPARLSGESEGAESFSQAILTTDLVKKEACVTVQVNGTKVTIAGTAKGSGMIHPNMATMLGFMTTDAVIGQEALQLLLRQTTNLTFNMITVDGDTSTNDMLVAMASGLAGHDVLTPEHPDWDAFAAGFHYVCQQLAKAIARDGEGASRLIEVRVDGAESDDDAQAIAKTIIGSSLVKSAVFGADANWGRIIAAVGRAGRPVNPETVDIAIGPISVLEQSRPVAFDEDAALAYLQGDTVDIDVKLHIGSGSATAWGCDLTYDYVRINAAYRT	PGPT0014244_1676	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
AK002_05842	1113	argC		N-acetyl-gamma-glutamyl-phosphate reductase	ATGAATGGGACCTTGCATAAGGTCCTTCAGCTGTTCCTTGGGGAGAGGGATGAGGATATGACGGACACAAACACAGTAAGAGTTGCTATTGTTGGATCTACCGGCTACGGTGGCGTGGAACTGATCCGCTTGCTGCAAGCGCACCCGCGCGTTGAGATTACATCGGTAATCTCTTCATCGACGGCAGGCGTACCGATATCGGACGGATTTCCGCATTTGACCAATATCATCACACGCAACCTGGATGGCGTTAACCCGGCTGAAATCGCCGAGGTGGCCGACTTGGTGTTTGCGGCTACGCCTTCGGGCGTCAGTGCCAAGCTGGTACCGGAGCTGCTGGATGCAGGCTTGAAGGTCATTGATCTCTCGGGCGATTTTCGCTTGAAAGATGGAGCCGTATATGAACAGTGGTATAAACACACGGCTCCGAGCGCGGAGCTGTTGGAAAAGGCCGTATACGGCCTGTGCGAAGTGTTTGGCGAAGAGGTCCGCGATGTGGATTTCATCTCCAATCCGGGCTGTTATCCGACCGCGACGCTGCTGGGCCTGATTCCGGCCATCAGCGCGGGCTGGATCGATGCTTCATCCCTTATAATCGACGCCAAATCCGGCGTGTCCGGTGCAGGACGGGGAACGAGCCTGATGACGCATTATGCCGAAATCAACGAGAACTTCAAAGCCTACAAGGTGAATAAGCATCAGCATATTCCCGAGGTCGAGCAGGTATTGACGCAGGTAGCGGGCGAACCGATCACGGTCACCTTTACGACGCATCTGGTACCGATGACGAGGGGGATCATGAGCACCATGTATGCCACGCTGAACGGTCCTTACACGGAAGAGGATTTCATTGAACTGTACCGCCAGTATTTCAAGGATCGTAAATTTGTGAGAATCCGCGACCTGGGCGTATGGCCTGCCACAAAAGAAGTCAGCGGGTCGAACTTCTGCGATATCGGATTTGCGGTGGATGCGCGTACGAACAGAGTGACCATTATATCGGTCATTGATAATGTGGTGAAGGGTGCGGCCGGGCAGGCGATCCAGAACCTGAATTTGATGATGGGATGGGAGGAGAGCCTCGGACTTTCGTTTACGCCGATTTATCCGTAA	MNGTLHKVLQLFLGERDEDMTDTNTVRVAIVGSTGYGGVELIRLLQAHPRVEITSVISSSTAGVPISDGFPHLTNIITRNLDGVNPAEIAEVADLVFAATPSGVSAKLVPELLDAGLKVIDLSGDFRLKDGAVYEQWYKHTAPSAELLEKAVYGLCEVFGEEVRDVDFISNPGCYPTATLLGLIPAISAGWIDASSLIIDAKSGVSGAGRGTSLMTHYAEINENFKAYKVNKHQHIPEVEQVLTQVAGEPITVTFTTHLVPMTRGIMSTMYATLNGPYTEEDFIELYRQYFKDRKFVRIRDLGVWPATKEVSGSNFCDIGFAVDARTNRVTIISVIDNVVKGAAGQAIQNLNLMMGWEESLGLSFTPIYP	PGPT0014251_661	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
AK002_05843	570			IS1595 family transposase ISSpgl1	ATGGAAATCGAACAGATCTACGGCAGTTTGCCGGTGCTGGAAACCGACCGCTTGCGCCTTCGCAGAGTATCGATGCAGGATGCCGATCACATGTATGCCTATGCCTCAGACGACGAGGTGGCGAAATACGTCACTTGGGAGACCCATCGCTCGATCGATGACAGCAAGCGGTTTATTCAATTCATACTGGCTCAGTATGCCAAGCATGATATTGCCCCGTGGGGGATCGAGCTGAAGGAGAGCGGGAGACTGGTCGGGACGGTTGATTTTGTATGGTGGAAGCCCGAGCAGCAGGCCGCGGAGATCGGTTATGTGCTGGCGCGGGATTGTTGGGGGCAAGGCATCATGACCGAAGCGGCCTCTGCGCTGCTCAAGCTTGGTTTCGGCCGTATGGAGCTTGTACGCGTGCAGGCTCGATGTTTGGTGGAGAATATCGGCTCTCAGCGCGTAATGGAGAAGATCGGCATGTCCTATGAGGGGACGGTGAGGAAGGGGATCAAGGTTAAGGGGCAGCATTGGGACCTCAAGCTCTATTCCATTCTGAAAGAAGAGTTCGATCCATCTCGATAG	MEIEQIYGSLPVLETDRLRLRRVSMQDADHMYAYASDDEVAKYVTWETHRSIDDSKRFIQFILAQYAKHDIAPWGIELKESGRLVGTVDFVWWKPEQQAAEIGYVLARDCWGQGIMTEAASALLKLGFGRMELVRVQARCLVENIGSQRVMEKIGMSYEGTVRKGIKVKGQHWDLKLYSILKEEFDPSR				NA	NA	NA	NA	NA
AK002_05844	543			hypothetical protein	ATGATATTCAAAAGAACGACGGGCCTATTATGTCTTCTCTTGCTGATGTGCCTAACGTGGCAGGCTCCTCATCCCAGTTTCGCTGCCGCTTCAACCACCCAAGCCAAAACCAAACCTGCGCCAATGTTAATCCTCAACAAAAACACGGCGGCTTATTTGAAAAAGGGAGTCATTCCAGGCTTTGGCGGCGTCCAATTCGGCATGACCCAAAATCAGATCGCCTCCAAATTGGGAAAACCTGTGAGTTCATTCTACCACTACGGCGGCGAGTTTTGGAAATTCAAAAATATTTCGTATGCCGGATTTAATTTCGAAAACCCTTATACAGGCTCTAACGGCATGTGGTGTTTGTTAATAGGTAAAGAAGGCTTGCCGAACCAAACCTTTGCAGACGTCAAAAAGCATTTAGGCAGCGCCTACGAAATGTATTATAACGACATGGAAGAGGCGTACGAGATGGTCTACACTTTCGGCAAGACCCGCATCTCCTTCATGGCGGACACCGCCAAGGCAAAGATTACGCTGGTTCAGATCAGTCGGTAA	MIFKRTTGLLCLLLLMCLTWQAPHPSFAAASTTQAKTKPAPMLILNKNTAAYLKKGVIPGFGGVQFGMTQNQIASKLGKPVSSFYHYGGEFWKFKNISYAGFNFENPYTGSNGMWCLLIGKEGLPNQTFADVKKHLGSAYEMYYNDMEEAYEMVYTFGKTRISFMADTAKAKITLVQISR				NA	NA	NA	NA	NA
AK002_05845	906			hypothetical protein	ATGGCGCAATCCGCTGGCAATCCATCGATCAACAAACGAAAAAGAGAACCCTTGATTCCGATCAACGGTCCGCTTCGGCAGACGGTGGACGCAATCTTTATTATCGTCGGCTCCTTTATTATGGCGCTGTCGTTTAATCTGTTTTTCCTGCCCAATCACATCGCCTCGGGCGGCGTGTCGGGTTTGTCCGTTCTTGCGCAAGCGTGGCTCGGCATTGAACCGGCCTTTACGCAGTGGGCGCTGAACATTCCGTTGTTCGTGCTTGGCTTTTGGCTGCTTGGACGCGACTACGGCATCCGCTCCCTGCTGGGAAGCGTGATTTTGCCGCTGTTCGTCTTTTTGACCAAGGACTGGCCGATTCCAACCTCTAACCCGCTTCTGGCATCGATTTATGGCGGTATCGGCGTCGGTATCGGCATGGGGCTGGTCTATCGCGGCAGGGGGTCAACCGGCGGATTGACCATCGTGGCGCAGCTCCTGCAAAAATACAGCGGCCTGAGCTTTTCCGTCTGCGTCGTACTGCTGGATGCGATCGTAATCTCGTCGGCAGCCCTCGTATTGTCGCTGGAGCAGGCGTTATACGCACTGATTGGATTATACGTAACAGGCAAAGTGATTGATGCCATTGAGCTGGGCCTTAGCTTTACCAAGGTGGCCTACATTATATCCGATCATACGGAGCCGATTACCAAGGCCATTCTCGAGGACCTTGACCGCGGATTAACCAAGCTGACCGCAGAGGGAGGCTACACGGGCGAACACCGGACGGTCCTGATGGTTGTTGTCGGACAGAGCGAAATTCCCCGTCTCAAAACGGTGGTCCAATCGGTGGATCCGAATGCCTTCGTCATCATTAGCAATGCCCATGAGGTATTGGGCGAAGGATTCCGCAATATTAAGGCGTAG	MAQSAGNPSINKRKREPLIPINGPLRQTVDAIFIIVGSFIMALSFNLFFLPNHIASGGVSGLSVLAQAWLGIEPAFTQWALNIPLFVLGFWLLGRDYGIRSLLGSVILPLFVFLTKDWPIPTSNPLLASIYGGIGVGIGMGLVYRGRGSTGGLTIVAQLLQKYSGLSFSVCVVLLDAIVISSAALVLSLEQALYALIGLYVTGKVIDAIELGLSFTKVAYIISDHTEPITKAILEDLDRGLTKLTAEGGYTGEHRTVLMVVVGQSEIPRLKTVVQSVDPNAFVIISNAHEVLGEGFRNIKA				NA	NA	NA	NA	NA
AK002_05846	1020	prfB		Peptide chain release factor 2	ATGATTGAGAATTTTGAAGAGAAGATGGCGGCTCCGGATTTCTGGGACGATAATGAGAAGGCTCAGGCGCTAATCGCCGAGATGAATGCCGTGAAGTCATCCGTGGATCAATATCAGAAGCTGCAGGCGGATTACGATGATGCCGTCGTGATGATCGAGCTGGCGGATGAAGAGGGCGATGACTCCCTTGCGGGAGAGATCGGTGAGACGATTAAGGACCTGGTTGGGCGTGTGGAGGAATTTGAGCTTCAGCTGCTGCTGAACCAGCCTTACGATAAAATGAATGCGATTCTTGAGCTGCATCCCGGCGCAGGTGGCACCGAGTCTCAAGACTGGGGACAAATGCTGCACCGCATGTACACGCGATGGGCCGAGAAGCGCGGCTTCAAGGTGGAGACGCTGGATTATCTTCCTGGCGATGAAGCGGGAATCAAAAGCGTAACCCTGTTGATCAAAGGCTTTAATGCTTACGGATATTTGAAGGCTGAAAAAGGGGTCCATCGACTGGTTCGGATCTCTCCGTTCGATTCTTCGGGCAGACGGCATACGTCCTTCGTGTCCTGTGACGTCGTTCCTGAGATTAACGATGAGGTTGAACTGGACATCCGCACGGAGGACCTGAAGATTGATACTTACCGTGCGAGCGGTGCCGGTGGTCAGCATATCAATACGACGGACTCGGCCGTACGGATCACTCACCTTCCAACGGGTGTGGTCGTAACCTGTCAGAATGAACGGTCCCAGATTAAGAACCGCGAGCGTGCAATGACCATGCTTCGTTCCAAGCTCTACGAGCGAAAGATCGAAGAACAGCAGAAGGAATTGGCGGAAATCCGCGGCGAGCAGTCCGACATCGCATGGGGCAGCCAGATTCGTTCGTATGTTTTCCATCCGTACAGCATGGTTAAAGACCATCGTACACAGGTGGAGACCGGTAATATTGGAGCCGTCATGGACGGGGATCTGGATGGATTTATCGACGGGTACTTGCGCAGCCAGATCAAGCAAGAAGTCGAGTAA	MIENFEEKMAAPDFWDDNEKAQALIAEMNAVKSSVDQYQKLQADYDDAVVMIELADEEGDDSLAGEIGETIKDLVGRVEEFELQLLLNQPYDKMNAILELHPGAGGTESQDWGQMLHRMYTRWAEKRGFKVETLDYLPGDEAGIKSVTLLIKGFNAYGYLKAEKGVHRLVRISPFDSSGRRHTSFVSCDVVPEINDEVELDIRTEDLKIDTYRASGAGGQHINTTDSAVRITHLPTGVVVTCQNERSQIKNRERAMTMLRSKLYERKIEEQQKELAEIRGEQSDIAWGSQIRSYVFHPYSMVKDHRTQVETGNIGAVMDGDLDGFIDGYLRSQIKQEVE				NA	NA	NA	NA	NA
AK002_05847	2514	secA	COG0653	Protein translocase subunit SecA	ATGCTAGGACTTGTCAAAAAGATTTTCGGCGACACCAACGAGCGTGATGTCAAACGTCTCATGAAGACGGTCGATGTAATCAACAAAATGGAACCGGATTTTGAGAAGCTCTCCGATGAGCAGCTGCAAGCCAAAACCGAGGAGTTCCGTGCGCGGATCGAGAAAGGTGAGACGCTGGAGGAATTGCTTCCCGAAGCGTTCGCGACAGTTCGTGAAGCTTCTAGACGGACACTCGGCAAGCGTCACTATGACGTGCAGCTGATCGGGGGAATGGCCCTCCACGAAGGCAGAATTGCAGAGATGAAGACCGGTGAAGGTAAAACCCTTGTAGGTACGCTGCCGGTTTACTTAAATGCCCTGCTTGGCAAAGGGGTTCACGTTGTAACGGTCAATGATTATCTGGCACAGCGTGACAGCCAAGAGATGGCGCAGATATATAACTTCCTGGGAATGACGGTCGGGGTTAACCTGAGCGGTATGGAGCACCCGGATAAACAGCAGGCCTATGCTTGCGATATTACGTATGGAACGAACAATGAGTTCGGCTTTGACTATCTGCGGGACAACATGGTCCTCTACAAAGAGCAGATGGTTCAGCGTCCGCTTTATTTCTGTATCATTGATGAAGTGGATTCGATTCTGGTTGACGAAGCGCGTACGCCGCTCATCATCTCGGGACAAGCTCAGAAATCGACCGAGCTGTATTTTGCAGCCGACCGGTTCGTGAAGCGTCTGACGGCCGAAGAGGATTATACGGTAGACATTAAGGTCAAATCCGTAGCCTTGACGGAGAAAGGCGTGGCGCTGGCGGAGCGTTCCTTCGGGATCGAAAACCTGTATGACCACAATCACGTAACATTAAACCACCACATTGTACAAGCGCTGAAAGCGAACGTGATCATGCGCCGCGATGTGGATTATGTTGTTACCGACGACGAAGTGGTCATCGTTGACGAATTTACGGGCCGTCTGATGGCTGGACGCCGCTACAGCGACGGTCTCCACCAGGCGATCGAAGCGAAGGAAGGCATTGAGGTTCAGAACGAGAGCATGACTCTCGCGACGATTACCTTCCAGAACTACTTCCGGATGTATCGCAAGCTGGCGGGCATGACCGGTACGGCGAAGACGGAGGAAGAAGAATTCAAGAAGATCTATGGTCTTGAAGTGCTTCAAATTCCTACGAACAAACCGAATCAGCGTGTCGACATGCCGGATGTGGTTTACAAGAGCGAAGATGGCAAGTTTAAGGCAGTAGTAGCCGAGATCGTGGAACGCCATAAGAAGAACCAGCCGATTCTGGTGGGTACGGTTTCCATCGAGAACTCCGAGCGTTTGTCTGAAATGCTGAAACGCAAAGGCGTCCAGCATAAAGTACTGAATGCGAAATACCATGCGGAGGAAGCGGAAATCATCTCGCGCGCCGGTCAGCCGGGATCGGTAACGATCGCGACGAACATGGCGGGACGCGGTACGGATATTTTGCTTGGCGAAGGCGTACAGGATATTGGCGGACTTCACATTATCGGTACCGAACGTCACGAATCGCGCCGGATCGATAACCAGCTGCGCGGCCGTGCCGGTCGTCAGGGTGACCCGGGGTCTACCCAGTTCTACCTGTCCCTCGGCGATGAGCTGATGAAGCGTTTTGGTACGGACAACGTGCTGAACATGATGGAGCGCCTTGGCTTCGAAGAAGATCAGCCGATCGAGAGCAAAATGATTACCCGTGCGGTTGAATCCGCGCAGAAGCGGGTAGAAGGCAACAACTTCGACATGCGTAAAGTCGTTCTCCAATACGATGACGTCATGAACCAGCAGCGCGAAATCATCTACAAGCAGCGCCGCGAGATCTTGGAATCCCAAGACATCAAGCAAATCGTGGTAGAGATGATCAAGCCGGTCATTGACCGCGTCGTGCAGGCGCATTGCAGCGATGACATTCCGGAGAACTGGGAACTACAGGAAGTGGCAGACTACGTGAACAGCAAGCTGCTGGACGAGGGTGCCGTTACCCGCGAGGATCTGTGGGGCAAAGAAGCCGAAGAGCTTACCGAGTATCTCTTCGATCGCGTGATGAAGAAATACGAAGAACGCGAGCAAGCCATCGGCGAAGAAATGGTACGCGAGTTCGAGAAGGTTATCGTGCTGCGCGCGGTAGACAGCAAGTGGATGGATCACATCGATGCGATGGACCAGCTGCGTCAAGGTATCCACCTCCGTGCATACGGCGGTACCGATCCGCTTCGCGAATACCAATTCGAAGGCTTCGAAATGTTTAATGCGATGATCGCTACGATCCAAGAAGAAGTGGCGACCTACATCATGAAGGCCCAAATCGCAACGAACCAGGAACGTCAAGCGGTTGTGGACGAGAACAAAGTCTCCACAAACAGCAGCAGCGAACCTGCCGAGAAGCGACCGGTCCAAGTGGCTGAACAGATCGGCCGGAACGATCCATGCCCTTGCGGCAGCGGCAAGAAGTACAAGCATTGCCATGGACAGAACGCGTAA	MLGLVKKIFGDTNERDVKRLMKTVDVINKMEPDFEKLSDEQLQAKTEEFRARIEKGETLEELLPEAFATVREASRRTLGKRHYDVQLIGGMALHEGRIAEMKTGEGKTLVGTLPVYLNALLGKGVHVVTVNDYLAQRDSQEMAQIYNFLGMTVGVNLSGMEHPDKQQAYACDITYGTNNEFGFDYLRDNMVLYKEQMVQRPLYFCIIDEVDSILVDEARTPLIISGQAQKSTELYFAADRFVKRLTAEEDYTVDIKVKSVALTEKGVALAERSFGIENLYDHNHVTLNHHIVQALKANVIMRRDVDYVVTDDEVVIVDEFTGRLMAGRRYSDGLHQAIEAKEGIEVQNESMTLATITFQNYFRMYRKLAGMTGTAKTEEEEFKKIYGLEVLQIPTNKPNQRVDMPDVVYKSEDGKFKAVVAEIVERHKKNQPILVGTVSIENSERLSEMLKRKGVQHKVLNAKYHAEEAEIISRAGQPGSVTIATNMAGRGTDILLGEGVQDIGGLHIIGTERHESRRIDNQLRGRAGRQGDPGSTQFYLSLGDELMKRFGTDNVLNMMERLGFEEDQPIESKMITRAVESAQKRVEGNNFDMRKVVLQYDDVMNQQREIIYKQRREILESQDIKQIVVEMIKPVIDRVVQAHCSDDIPENWELQEVADYVNSKLLDEGAVTREDLWGKEAEELTEYLFDRVMKKYEEREQAIGEEMVREFEKVIVLRAVDSKWMDHIDAMDQLRQGIHLRAYGGTDPLREYQFEGFEMFNAMIATIQEEVATYIMKAQIATNQERQAVVDENKVSTNSSSEPAEKRPVQVAEQIGRNDPCPCGSGKKYKHCHGQNA	PGPT0025735_4835	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
AK002_05848	567	yvyD	COG1544	Ribosome hibernation promotion factor	ATGCAATTCACTATCCGAGGTCAACAAATTGAAGTGACCGATGCTTTGAAGGACTATGTTGACAAGAAACTCAGCAGGCTAGATAAGTATTTTGATGCACCCCCCACCTCTGAAGGATACGTCACCCTGAGTGTCATTCGAGGATTGCACACGGTGGAAGTGACCATTCCGCTTACCGGTGTGGTACTTCGTGCGGAAGACCGAAGCGATGATATGTACGCTTCCATTGACGCCGTTGTGGACAAGTTGGAACGTCAGATTCGCAAGCACAAAACCAAGCTGAACCGCAAGATCAAGCAAGAGGGCGGACTGAAGACGCTCATTGCGGAGAACGGGGCAGCAGCCACCAGTCAGGTGGATGCCGAGCAAGTGGAGTATGACGAGGACGAATACGAAGTCGTCCGTACGAAACGTTTTACCATGAAGCCGATGGACGTGGAAGAAGCGATCCTGCAGATGAACATGGTAGGCCATAATTTCTTTGTATTTTCCAACATTGACACACAAGAAGTAAATGTCGTCTACAAGCGTGATGACGGCAAGTACGGATTGATCGAGCGGGACTAA	MQFTIRGQQIEVTDALKDYVDKKLSRLDKYFDAPPTSEGYVTLSVIRGLHTVEVTIPLTGVVLRAEDRSDDMYASIDAVVDKLERQIRKHKTKLNRKIKQEGGLKTLIAENGAAATSQVDAEQVEYDEDEYEVVRTKRFTMKPMDVEEAILQMNMVGHNFFVFSNIDTQEVNVVYKRDDGKYGLIERD				NA	NA	NA	NA	NA
AK002_05849	198	cspB_2		Cold shock protein CspB	ATGCAAGGTAAAGTGAAATGGTTCAACGCAGAGAAAGGTTATGGCTTCATCGAGACTGAGGACGGCGGCGACGTATTCGTACATTTCTCCGCGATCCAATCCGAGGGCTTCAAGACTCTGGAAGAAGGACAATCCGTAGAATTCGAGATCGTTGAAGGCGCTCGTGGCCCGCAAGCAGCTAACGTAATCAAATTATAA	MQGKVKWFNAEKGYGFIETEDGGDVFVHFSAIQSEGFKTLEEGQSVEFEIVEGARGPQAANVIKL	PGPT0014675_9943	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK002_05850	1209			hypothetical protein	ATGAAAAAGAGTATTGTCACATTGAAGCCACAATATATGAATGAGTTTCAATGTATTGGTAATGCATGTTCGGATACCTGTTGTTCAGGATGGAAAGTGAATATTGATAAGCAAACATACAAAAAATATAAAAAAATAAAAGATAGAGAAGTTGCCACTAAGATTGCAAATTATATTAAGAAAGAGAATACACTATCGACTGACAATGTTGCCTGTATCCAAACTAATGCAGGGGCTTGCGTCTTTCTTCATGATGGATTGTGTGAGATTCAACTTAAATATGGAGAGGAGTACTTATCAAAAACCTGCTTAACATATCCGAGGGTATTTAATATTGTGGATCAACAGGTAGAGCTTTCCGCGAATATGTCATGTCCCGAAACAGCAAGACTGGCATTATTAAACCAAGAGTTAATGCAGTTCGATGTAGTAGAAGAAATGCTGGATGTAAGGCATATAATTAAGCAAAGAATTGAAACCAAACAAAGTGTTTGGAACAGTTGCTTCTGGGAAATTAGAACATTTACTATCGAAATACTGCAAAATCGAAGCTACAGTGTTTCAGATCGTTTGATCTTTTTGGGACTTTTTTGTGAAAAGCTGGCTTCTGTTTCATCTAGTGAGAATCGTTCACAAATTGTTAATGTAGTGACTGAGTTCAGAATGCGATTAAATTCTTCTGACACAGTGAAAGAAATAAGTAAGCTTCCTCATGCGTATCATGTCCAGTTAAGTATTTTTAAAGAAATATTACAAACCCAAACCAACATTCAACACAACAGACTTCGGAATTATAATAATGAAGCATTACGAGCATTCGATTTTGAATCATCTGATAAGGATGCAATACTATCTAAATATACCAAAGGTTGTAACGAGTACTATGTGCCATTTGTAAATGAACATTCCTATATTCTCGAAAACTATCTGGTTAATCAAGTTTTCCATCGTTTATTCTTATTCAAGGAGGGTTCGAACATCCTTGAAGAATATCTTCGACTGGCGATATTGTTTAGTACAGTGAGATTCTATCTTCAAGGAGTAGCTGTATTTGAGAAAAAAATGACACCGGAGAAGGCAGTCGATATTATTCAGGCGTTTAGCAAATCAATTGAACATAGTTCGAGTTATTTAAATCTTCTTTCGAGTAAGATAATGAATACTAAAGTTGATAAATGGGCGTTTTTAATTACGCTATTAAAGCAATAA	MKKSIVTLKPQYMNEFQCIGNACSDTCCSGWKVNIDKQTYKKYKKIKDREVATKIANYIKKENTLSTDNVACIQTNAGACVFLHDGLCEIQLKYGEEYLSKTCLTYPRVFNIVDQQVELSANMSCPETARLALLNQELMQFDVVEEMLDVRHIIKQRIETKQSVWNSCFWEIRTFTIEILQNRSYSVSDRLIFLGLFCEKLASVSSSENRSQIVNVVTEFRMRLNSSDTVKEISKLPHAYHVQLSIFKEILQTQTNIQHNRLRNYNNEALRAFDFESSDKDAILSKYTKGCNEYYVPFVNEHSYILENYLVNQVFHRLFLFKEGSNILEEYLRLAILFSTVRFYLQGVAVFEKKMTPEKAVDIIQAFSKSIEHSSSYLNLLSSKIMNTKVDKWAFLITLLKQ	PGPT0015510_143	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015510-fliB-K18475	NA	NA
AK002_05851	1716	COQ3_3		Ubiquinone biosynthesis O-methyltransferase, mitochondrial	ATGTTAACAAGTATAGTCATATTGACCTATAATCAAATGGAATACACAAAGGAATGTATAGAAAGCATTCGGTCATACACAAATCCTGACAGCTATGAAATTATCATTGTCGATAATGCATCTGAAGATTCTACAAGAGAGTGGCTTCAAGGACAAAAAGATATTAGAACGATCTTAAATGAAGAGAATTTGGGATTTCCCAGGGGATGTAATCAGGGGATAGAAGCAGCAAGTGGGGACAACATCCTTTTACTAAATAATGATGTGGTAGTTACAAAAAACTGGTTGGAGAATATGCTCTCTGCTCTGTATAGTGAGGAGACTATCGGAGCTGTAAGTTGTGTAACAAATAGGTGTTCATACAATCAGACCGTACCGACAAATTACAGTACAATTAATGAAATGCAAAAATACGCAAGGAACTTCAACTCTCTGAATCCGGTGAAATGGGAAGAAAGATTAAAGTTGGTCGGTTTTTGCCTTTTAATACGGAGCAGTGTAATTCAAAAAGTGGGGCTTCTTGATGAACTCTTTACTCCAGGGAATTACGAAGATGACGATTACTCCATTAGAATTCGCCAAGCAGGATATAAGTTGTTGTTATGCAAAGATACATTTATTCACCATTATGGCAGTGTTTCATTTAAAGGCCGTGGTCAAGATCTAAGATATCAACAACTTCTAAATAAGAATAAGCAAAAGTTTCAAAAAAAGTGGGGGTTTGACGCCACCTATTCTCAGCATGTCAGAACTGAATTGTTAGATATGATTAAGGATCCAGTTGACACTTCTCTTCGCGTTTTAGAAGTAGGCTGCGCATGTGGAGGGACATTGTTAGGTATAAAGAATGTATATAAAAACAGCAGATTATATGGAATAGAGCTAAATAAATATAGTGCCGAAATAGCATCTTTAATTGCGGAAATGGTTGAGGCCGATGTGGAAAAGGATAGCTTGCCGTATCCTGAAGAATATTTCGATTACGTTATTTTTGCGGACGTCTTGGAGCATATGAGCGATCCCTGGGCAGCGTTAAAGAACATAAGAAGGCACTTGAAACCAGAAGGGAGAATTCTAATGAGTCTCCCTAATATCATGCACTATAGTGTAATCAGTAAGTTGATTATGGGGACTTGGGAGTATGAGGAATCCGGAATTTTAGATAAAACGCATTTAAGATTTTTTACAATGAAAGAAATTTACAAAATGGCTATCATGACAGGTTACGAGATTAGAAATATGAGTGGATCAACTCTGACAGAAACAAAGGAATCAGAAATCATCGTTAATCAATTTGCCGCAATGGGAAGCGAGGAAAGAAGAGAGCAATTCAAAACCTATCAATATATTGCTATATTGGAAAAGGACCCCATGCATGATGTATTAGAAAAATTGCTTGATCACCAGAATGAGCCACAAGTTATATTTGAGAAAGTTAAATGTTTTACATCAGAGAAACTGATCGAGAAAATCTCATTCATTTCAGATATTGCCCTTAAAGTTGAATTGTTGAATACTCTTGGTGTGGTTCAATTTCAAATGGGAAATTATGAAGAAGTACTTCCGTTTCTAGATAAAGCATATCAGATTGATTTAGCGAATATAGAAGTTGTATATAACATTGCTTACTTCCTTGAATATATCGGTGAAAAAGAGGAGGCTGTTCCTTTTAAAGAGATTTTGAAGAAATTAGCCCCAAGATCTACACTGACATGA	MLTSIVILTYNQMEYTKECIESIRSYTNPDSYEIIIVDNASEDSTREWLQGQKDIRTILNEENLGFPRGCNQGIEAASGDNILLLNNDVVVTKNWLENMLSALYSEETIGAVSCVTNRCSYNQTVPTNYSTINEMQKYARNFNSLNPVKWEERLKLVGFCLLIRSSVIQKVGLLDELFTPGNYEDDDYSIRIRQAGYKLLLCKDTFIHHYGSVSFKGRGQDLRYQQLLNKNKQKFQKKWGFDATYSQHVRTELLDMIKDPVDTSLRVLEVGCACGGTLLGIKNVYKNSRLYGIELNKYSAEIASLIAEMVEADVEKDSLPYPEEYFDYVIFADVLEHMSDPWAALKNIRRHLKPEGRILMSLPNIMHYSVISKLIMGTWEYEESGILDKTHLRFFTMKEIYKMAIMTGYEIRNMSGSTLTETKESEIIVNQFAAMGSEERREQFKTYQYIAILEKDPMHDVLEKLLDHQNEPQVIFEKVKCFTSEKLIEKISFISDIALKVELLNTLGVVQFQMGNYEEVLPFLDKAYQIDLANIEVVYNIAYFLEYIGEKEEAVPFKEILKKLAPRSTLT				NA	NA	NA	NA	NA
AK002_05852	3150			hypothetical protein	ATGCGTATTAAACAAAGGATCGCTGCAATATTAGTGATTATATTAACCATTTGCGGTCTTGGTGGCTTTGCTGCTCCAGCGGCAGCAGCTGATTACATTCAGGTTTCTCGACAAGTTACACCGGCAGAAATCACCACTGAAGAAGAGGCAACGGTTGAACTTACGATTCAAGGGACCCCACCTGTATCCGTTGTAAGACCGAATGATGTTATTCTGATTATCGATAAATCAGGCAGTATGGCAGGCGATAAGATTGTTGCCGCTAGAGACTCTGCTAAGGGTTTTATTGATCTGATGGATTTAAATGTCCATCGTGTAGGCATTGTGGATTATAGTTCGCAAAATAATGTGAAGACGTTTCCGCTGACAACGGATGCTAACACAGCCAAAACGTACGTTGATACGATTCAGGCGAGTGGCGGAACCGGAACAGGGTATGCCATTGATGCTGCTATTAATGAGTTAACAAAGGCACCGCGAGAAGGAGCACAGCCAGTTATTGTATTAATGACGGATGGAGATGCGACCGAACCAAGCGGTAATGCCTACCAATATGCTCTGGATAGAGCGACAGCCGCCAAAGACCAGGGGATCGTATTCTATACGATTGCATTATTAAATACGAATGATAATCCTGATACAAGCGGTCCCAATCAGCTTCTGACCAAAATGGCAACCACTTCATCTCATCATCACTTCGTGTTAGGTTCTGTCGGTCTAAGCGACATTTATGCGGCTATTGTAAAAGAAATCGGAATAGCAAGTGCTTATAATGTAAAAGTAACCGACTATGTGAACGACCAATTTGAAATTGTCCCTGACTCTTATCTACATAATATCCCGCAACCGACAGTATCAGGGAACGAGATCAGCTGGAGTTTCCTGGAACTCAAAAACAATACTTTGAAATTCACTTACAAAATTCGCCCGAAAGTACAACAGACTGGTAGCTTCTATGTATCAACCAATGCAGCCAACATAACCTACCAAGATTATGCCGGTGCCAACCGGAATAAGCTTATTCCGAATAAGTTGCTCAAAGTTAAGCTTCCTGCTCCAGTGATTACTTCCATTGTTGAACCGTCGGGTCATCCAACAGGTGGAAATGAAATTCAAATCAATGGAGATAAATTTGTAAGCGGCGCTAGAGTATTTTTTAATAGCACTGAGATAAAAGATGTAACATTTGTGGATACACAAAGTCTCAAGTTAATCGTTCCGGCAGGTAAGCAAGGAGAAGTAACCGTTAAAGTAATGAATCCGGATAGTCAATTTGCAACAAGCAGTTATCGGTATATTGCGAACCCTGAAGTAAAGAGTTATAGCCCTGTGGAAGGACCTGTCGAGGGAGGCACCAACGTTGTATTTAGCGGGAACTATTTCCTTTCCGGCGTTGTTGTTAATTTCGGGGATCAACCTGGTGTTGTCTCAACACAACGGACTGACTATTTAGTTGCTAAGACTCCGTCTGCAACGCAGGCTGGAGCCGTTGATATTACAATTACTAATCCGGATGGAACCACCCTGACAATTCCTTCTGGTTTTACTTACAAAGAAGCGGAGAAGCCAAAACTTCAAATTACAGCCGTTACTCCAAATACAGGTCTTCCAGCTGGTGGAGAAGCCATTTATATTAATGGTAAATTGATAGACCCATCTGTAAAGGTGTATTTTGGAGCAAATGAGGCAGTCGTAAAATCTTTCATTTCTGCGGACCGGATTCAGGTTGAGGCGCCTGCAGGGCAAGAAGGAACGGTAGATGTAAAAATCGTGAATCCGGATGGCCAGGAGGCTGTATTATCTCAGGCGTATACCTATGCCAAGCCTCAATACCCGGCTCCCGTTGTGAGTGGAATTACACCTAGTTCCGGTGAAACAACGGGTGGTAATACTGCTTACATTTCGGGTAGCGGATTCGTAAAAGGTGTACGAGTTTTGGTGAATAATGTTGAGGCAGTGGTTACTTCTACTACGGCCATTCGCTTGGCTGTTACAATTCCGGCTTCTTCTATAGAAGGTGCAGTTGATGTTAAGGTAGTAAATCCGGACGATAAAGAGGCGATCTTGCCATTAAGCTATACTTATATCTTACCTCCACCTCCTCCGGCACCGGTGTTAAATACAATTACACCAAACAGCGGTCCTTTAACAGGGAATACGACAGTGGTACTAAATGGTGAAAACTTTGTTAAGGATGCAGTGGTACTCTTTGATGACATTGAAATCCCGAGTACCTTTGTAAGCAATAAGCAATTGAAGATAGTTACCCCGACCTGGGCTCAAGCTGCCACTGTTCAAGTAAAAGTGAAGAATCCTAGTGGTCAGTTAACGAATGAAGATGTTACTTATTCTTATATTGAGCCTCAGCCTGAGCCTGTTGAAATCACAGTAGTAAATCCTAACTCAGGTCTAACAACAGGTGGTAATGTAGTATATCTGACAGGAACGAACTTTAAAAGAGGAATTGAGGTATTTTTTGGAGATTCTCCAGCTCAGGTCTATTCTTTTACAAGTGCAACCCGAATAAGCGTTTATGCGCCTGCGGCTTCATCGGTAGGGCAAGTGGATATAAAAGTCATAAACCCGGATAAAGGTACGTTTACTCTACCAGGAGCATACACATACACATTGGTTCAACCTACGATCACAAGCTTGACACCTGCAAACGGGCCAAAAGCAGGGGGAACTCATCTATACATTAATGGTGCCAATTTTGAGCCTTCAATGACTGTCACCATTGATGGAGCTGTAGTGCCGATTGATACGTATGTGAGCAACTCAAGAGTTAAGGTAATTACTCCGCCAAGTCCAACAGCAGGCACAGTACCACTTGTTGTTACATTAACTAATGGCGAAAGTGCTTCATCTACATTCACTTATGAAGAGCCGCCATTGGCTCCTGCACCAATTATTAAATCTTTGAACATTACCAGCGGTTCAGCTGCAGGAGGAAATACGGTTTATTTAAGTGGATCGAATTTCGTAAAAGGTGCCAAGGTTTACTTTAATGGAGTTGAATCAACTAAAGTAACCTTTACCTCTGCAATTCGTATGTCCGCTGTAGTTCCGGCAGGTACAGGGGTAGTCCAAGTTAAAGTAGTAAACCCTGATGGACAGGAAAGCAACACGCTCGATTACACATATAATTAA	MRIKQRIAAILVIILTICGLGGFAAPAAAADYIQVSRQVTPAEITTEEEATVELTIQGTPPVSVVRPNDVILIIDKSGSMAGDKIVAARDSAKGFIDLMDLNVHRVGIVDYSSQNNVKTFPLTTDANTAKTYVDTIQASGGTGTGYAIDAAINELTKAPREGAQPVIVLMTDGDATEPSGNAYQYALDRATAAKDQGIVFYTIALLNTNDNPDTSGPNQLLTKMATTSSHHHFVLGSVGLSDIYAAIVKEIGIASAYNVKVTDYVNDQFEIVPDSYLHNIPQPTVSGNEISWSFLELKNNTLKFTYKIRPKVQQTGSFYVSTNAANITYQDYAGANRNKLIPNKLLKVKLPAPVITSIVEPSGHPTGGNEIQINGDKFVSGARVFFNSTEIKDVTFVDTQSLKLIVPAGKQGEVTVKVMNPDSQFATSSYRYIANPEVKSYSPVEGPVEGGTNVVFSGNYFLSGVVVNFGDQPGVVSTQRTDYLVAKTPSATQAGAVDITITNPDGTTLTIPSGFTYKEAEKPKLQITAVTPNTGLPAGGEAIYINGKLIDPSVKVYFGANEAVVKSFISADRIQVEAPAGQEGTVDVKIVNPDGQEAVLSQAYTYAKPQYPAPVVSGITPSSGETTGGNTAYISGSGFVKGVRVLVNNVEAVVTSTTAIRLAVTIPASSIEGAVDVKVVNPDDKEAILPLSYTYILPPPPPAPVLNTITPNSGPLTGNTTVVLNGENFVKDAVVLFDDIEIPSTFVSNKQLKIVTPTWAQAATVQVKVKNPSGQLTNEDVTYSYIEPQPEPVEITVVNPNSGLTTGGNVVYLTGTNFKRGIEVFFGDSPAQVYSFTSATRISVYAPAASSVGQVDIKVINPDKGTFTLPGAYTYTLVQPTITSLTPANGPKAGGTHLYINGANFEPSMTVTIDGAVVPIDTYVSNSRVKVITPPSPTAGTVPLVVTLTNGESASSTFTYEEPPLAPAPIIKSLNITSGSAAGGNTVYLSGSNFVKGAKVYFNGVESTKVTFTSAIRMSAVVPAGTGVVQVKVVNPDGQESNTLDYTYN				NA	NA	NA	NA	NA
AK002_05853	369			hypothetical protein	ATGATGGACTCTCATAATTTGGTGGATACTGCCCAAGCATTGGTAGACTTCACAAAACAATATCTGATAGAGATTCAGTCTAATGAAGATTGGTCGTCTAAGTCAGACGAATTTATCTCCATACAGTCAAAGCTGGTCAAAGATTTTCATGATGCAGATTTCAATAGCCTGCCCGTACAAGAAAAAAAACAGGTTCAGGAATTATTCCGTGTCTGTTACCAGTTAGAATTGCAAATAAACCATGAGATTGCTAGGCAACATGGGATTGTCTCAAATCAGATCAGTCAATTGCGCAAAGGGAATAATTTCAAAAGTAAATATGAGGTATCTTCTCTCGGTTCAGGTATCATGTTTGATACTTACAAATAA	MMDSHNLVDTAQALVDFTKQYLIEIQSNEDWSSKSDEFISIQSKLVKDFHDADFNSLPVQEKKQVQELFRVCYQLELQINHEIARQHGIVSNQISQLRKGNNFKSKYEVSSLGSGIMFDTYK				NA	NA	NA	NA	NA
AK002_05854	372	fliS	COG1516	Flagellar secretion chaperone FliS	ATGCAGCAAGCAGTGAACCGATATTATGAGACACAAATAAAAACTGCTACACCCGAAGAACTGACGTTGATGCTTTATAACAGCTGTATTCGGTTTTTAAAGCAAGCGTATAATAGCGTGGAGAATAGAGACTATCAGAGTAAAAATTCATACGTCACAAAGGCAATTAACATTATTGATGAGCTGCATGCGACACTTAATATGAACTATGACATCTCTAAAAGTCTCGCTTCGTTGTACGAATATTTTAAGCAACGTTTAGTCCATGCAAGTATGCGGTTGGACTTGGAAGTTTTCCAGGAAATTATTGACTTGGTTACAGATCTCCGTGATACATGGCATGAGGCAATTAAGACGGTGAAGCAAAAATGA	MQQAVNRYYETQIKTATPEELTLMLYNSCIRFLKQAYNSVENRDYQSKNSYVTKAINIIDELHATLNMNYDISKSLASLYEYFKQRLVHASMRLDLEVFQEIIDLVTDLRDTWHEAIKTVKQK	PGPT0015620_2144	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
AK002_05855	366			hypothetical protein	ATGCAGGTTCCTAACTTACCATCAACTTCCTTGTCTCACAGCAATGCACAGGTTAAAGAACCATCATTTACCCCTAGCTATGTAGGGACTAGTTATCAGGATCTTCAGACGAAGAACAAGGTACAACCGTTGTCAGTTAGTGAGAAGGCAGTGCTGGATGCGATTAACAAAGTAAACAGAACTCTTGAAGGCACGCCACAACGGTATGAGTTTAAATTGCATGCATCAACTGGAGATCTGATTATCAAAATTTATAACAAAGAAACCAATGAAATCATCCGCGAGCTTCCTCCGGAGAAAATGATTGAATTGGTAGAGAAACTTCAGCAAATAGTAGTAGGCGCAATAATTGACGAAAAGAGGTAA	MQVPNLPSTSLSHSNAQVKEPSFTPSYVGTSYQDLQTKNKVQPLSVSEKAVLDAINKVNRTLEGTPQRYEFKLHASTGDLIIKIYNKETNEIIRELPPEKMIELVEKLQQIVVGAIIDEKR	PGPT0015440_733	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015440-flaG-K06603	NA	NA
AK002_05856	1509	fliD	COG1345	Flagellar hook-associated protein 2	ATGACTATTCGTATATCTGGGATGTCTTCCGGCATGGATATCGACCAATTAGTAGCCGATTTAATGAAAGCGGAAAGAATCCCGCTGACAAAAAAGACCCAAAAGAAGACTACCACTCAGTATAAAATGGATCTCTATAGGGATGTAAATGCTAAATTAATGGCCCTTCGGGATAATCTTAATAAAATGCGTTTTAGCGCCGACTTTTCCGGAGTCAAGGCAACTTCATCTAACGAAAATGCCGTGAAGGTAAGCGGAAGCAATCCGGGGAAAGTGACAACGACGATTGAAGTCAAAAATTTGGCGACTCAGGCGACTAAGAAGAGCACAGAAAAAATCACAAACGGCAGCGCTCTTGATTTAAGCAAATCTTTGGAGAATAATGCTGGGAATTTTCAAACTACCCCGACTCTGGACCCTTCATCTGGTGCTTCAAGCTTAGCGATGTCGATAAATGGTGTAGAAATCACATACAGCAAGGATGATACGCTTCAGAGCATCATTAATAAAATCAACCAATCGAGTGCCGGAGTTGCTTTGAGTTACGATTCTGCTGCAGACCAATTTGTTTTCCTATCCAGGGAAACCGGCAAGGCAGCTAAGATTGACGCACAGGATACGGAAGGGAATTTTCTGGCGGCCATCAAGATGGACAACAATGTCAGCGAAGGAAAGGATGCTAAGGTCGTAATCAACGGAATAGAATCTGACCGTTCAAGTAATTCGTTCACCCAAGATGGAGTTACTTATACCCTTTTACAGCAGACGTCATCAGCAGTTACAATTACGAATAATAGCGATACAGACGCAATAATCAACAAGATTAAGGAATTTGTCGGTATCTACAACGAGGCAATGACGTTAATCCAAAAATTAACCGATGAAAAAATCGCAAGGGGTTACGATCCATTAACAAGTGACCAGAAGAAGGAAATGAGCGAAGATGACATCAAGAATTGGGAGGTTATGGCTAAGCGAGGGCTGCTTAGAAATGACTCCCTACTGGAACCATTTGCTCGGACAATGCGTTCTTTTTTGTCCCAGGCTATTCCTGTCGACGGAACGACCAAAATTTCTCCAATGGATATCGGATTAGGAACAACAGCTTATGCAGGGAATGCAAAGGATTTTGCAGCTTCAGGTGGGAAAATCGTGTTGGATGAGGCTAAGTTAAGAAAAGCGATTGAAGCAAACCCTAACCAAGTAGAGACGATGTTCACACTGGCTTCCCCAACTGGTGGTGAAGAAGGATTATTCCAAAAAATGTATAAGCAGTTAAATGCGACGATTGGTGAAATCACCAAAAAGTCCGGCAGCATTGGTGGTTCTTATAACGATATCAGTTCAGAATTGGGTAAGCAATCCAGTAAAATGGAGCTGGAAATCAAAAGACTTGAAGATAAGCTTCTTAAGAAGGAAGACAATTATTACAAACAATTTGCAGCTATGGAAAAAGCAATGGCATACAGCAATAGCCAATTAAATTTCCTGATGCAAAATATGGGATAA	MTIRISGMSSGMDIDQLVADLMKAERIPLTKKTQKKTTTQYKMDLYRDVNAKLMALRDNLNKMRFSADFSGVKATSSNENAVKVSGSNPGKVTTTIEVKNLATQATKKSTEKITNGSALDLSKSLENNAGNFQTTPTLDPSSGASSLAMSINGVEITYSKDDTLQSIINKINQSSAGVALSYDSAADQFVFLSRETGKAAKIDAQDTEGNFLAAIKMDNNVSEGKDAKVVINGIESDRSSNSFTQDGVTYTLLQQTSSAVTITNNSDTDAIINKIKEFVGIYNEAMTLIQKLTDEKIARGYDPLTSDQKKEMSEDDIKNWEVMAKRGLLRNDSLLEPFARTMRSFLSQAIPVDGTTKISPMDIGLGTTAYAGNAKDFAASGGKIVLDEAKLRKAIEANPNQVETMFTLASPTGGEEGLFQKMYKQLNATIGEITKKSGSIGGSYNDISSELGKQSSKMELEIKRLEDKLLKKEDNYYKQFAAMEKAMAYSNSQLNFLMQNMG	PGPT0015200_1000	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
AK002_05857	1068			hypothetical protein	ATGAGAATATCGATATGCATGATCGTCAAAAATGAAGAACAATACATCGGTTCTTGTCTGCAGAGTCTTCCAGGCGACATTGAAATTGTTATCGTGGATACAGGTTCCACAGATCGAACAACCGGAATTGCCGAATCATATAGTAACGTTCGTTTATACCACTATACATGGGAAGAAGACTTTGCAAAGGCAAGAAATTACTGTCTCTCTAAGGCAACTGGCTCTCATATATTTGTGTTGGATGCGGATGAACGTTTTCAAAGGGGATCATACGAACAAATATTGAATTATGTGAAACAAAACTCACAAAAACCGGCTGCTATTATGATTCGGAATATCGACGACTCTCACGAGTTTACCCGAGTTCATCGTATGGTTCGGTTATTTCCTAATCATGAGAAATATAGATTCCATGGTCCTGTTCATGAAGTGTTATATAATGGTCAGTCGATGGCTTCATTTGAAATGGCCGAAATTATGATTGATCATTACGGTTACAATCGGTCAAACTATAAAGAGAAAAAATATGAATTGTATCTTTCGTTGTACCAAACGCAACTTCGGAAGAATTCAACAAACGGCTACATGTGGTACCAGCTGGGTAAGTTGCATGCTTCTGTCGACGAACTTGAAGGAGCATGTGAGGCATTTATTCAAGCCGTTAACTTCATGACTGCTCCAACTTTATCCCATGCTGCTATGGTTGTTGAATTCGCTAAAGTACTGCGTAAAGCCCAATTAATTGAGGATGCCATCCAACTGTTAGAAATCAACCAAAATCATTATTCCGATTACGCGGAATTATGGTTTCAGCTTGGTTTGCTATATATGGACGTTGGCCGAATGGAACTTATCCCGATTGCCTTTAAGCAGGCGATTCAAATTGGGGAGACTGGGAAATATGCGACAATCGAAGGTGCAGGTTCATTTCTTGCAGCCTATAACTTGGGCGTGTTTTACGAAGTAACCGGGAAAACAGAGGAAGCCTTAGTGTACTACAATATAGCTAAACCTTATGAGCCTGCGGTTCTTCGAGCTGATATTGTCAGTAGAGGAGTGATCGAATGA	MRISICMIVKNEEQYIGSCLQSLPGDIEIVIVDTGSTDRTTGIAESYSNVRLYHYTWEEDFAKARNYCLSKATGSHIFVLDADERFQRGSYEQILNYVKQNSQKPAAIMIRNIDDSHEFTRVHRMVRLFPNHEKYRFHGPVHEVLYNGQSMASFEMAEIMIDHYGYNRSNYKEKKYELYLSLYQTQLRKNSTNGYMWYQLGKLHASVDELEGACEAFIQAVNFMTAPTLSHAAMVVEFAKVLRKAQLIEDAIQLLEINQNHYSDYAELWFQLGLLYMDVGRMELIPIAFKQAIQIGETGKYATIEGAGSFLAAYNLGVFYEVTGKTEEALVYYNIAKPYEPAVLRADIVSRGVIE				NA	NA	NA	NA	NA
AK002_05858	804	hag_1	COG1344	Flagellin	ATGATTATCAACCACAATCTTAACGCGATGAACTCTCACCGCAACCTGTCTTTCAACAACATTCAACAAGGTAAATCTTCGGAGAAGCTATCTTCCGGTTACCGTGTAAACCGTGCTGCTGACGATGCTGCGGGCCTCTCGATTTCCGAGAAAATGCGTTCCCAAATCAAATCGATGAACCAGGGTATGCGTAACGCTCAAGACGGAGTTTCCCTTGTGCAAACTGCTGAGGGCGCTATGAACGAAATTTCTGACATGCTGACTCGCATGAAAGAACTGGCGACTCAAGGTTCTTCCAGCACGTACAATGCAAGTGACTTGGCAGCAATGGATGCCGAATATCAGGAACTGGCAACAGCAATCGGGGAAATCTCCACGAACGCTGAGTTCAACGGAATCAAGTTGCTAAGCAATACTGATACTCTAAACATCCAATTGGGTGGTACTGAAGCCGAGAAAGTTGAAATTGACATGAGTAAAGCAGACATCAGCGGACTTAATTTTGGTGGCCTGACTGATCAACCTACTGCTGTAGCTCAGCTTGCAGTAATTGATACAGCAATCGGAACTGTTAACGAAGCACGTTCCGCATTGGGTGCGTTCCAAAACCGTCTTGAGCACATGTACAACAACGTGGGTACAACTGCAGAGAATCTGCAAGCTGCGGAATCCCGTATCCGTGATACTGACATGGCTAAAGAAATGATGAACTACACGAAATTCAATATCTTGCAACAAGCTTCTACTGCTATGTTGGCTCAAGCTAACCAAGCCCCTCAAGGTGTACTGCAATTGTTGCGTTAA	MIINHNLNAMNSHRNLSFNNIQQGKSSEKLSSGYRVNRAADDAAGLSISEKMRSQIKSMNQGMRNAQDGVSLVQTAEGAMNEISDMLTRMKELATQGSSSTYNASDLAAMDAEYQELATAIGEISTNAEFNGIKLLSNTDTLNIQLGGTEAEKVEIDMSKADISGLNFGGLTDQPTAVAQLAVIDTAIGTVNEARSALGAFQNRLEHMYNNVGTTAENLQAAESRIRDTDMAKEMMNYTKFNILQQASTAMLAQANQAPQGVLQLLR	PGPT0015190_4993	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015190-fliC|laf1|lafA|fla1|hag-K02406	NA	NA
AK002_05859	225	csrA	COG1551	Translational regulator CsrA	ATGATGCTTGTACTGACAAGGAAGCGAGGGCAATCCATTCTCATTCAGAATGACATTGAGATTTATATCTCTTCTATAGAAGGAGATAGTGTGAAGATCGGTATTCGAGCGCCAGAAGATATTGTCATCTTAAGAAAGGAATTAGTGGAAGAAGTAAAAGCGAATAATATGGAAGCTACCAATGCCAAACTCGATCCTAGTCTTATAAAAAAAATAAAAAAATAA	MMLVLTRKRGQSILIQNDIEIYISSIEGDSVKIGIRAPEDIVILRKELVEEVKANNMEATNAKLDPSLIKKIKK	PGPT0015065_888	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ENVELOPE_STRESS_SIGNALLING,PGPT0015065-csrA|zfiA-K03563	NA	NA
AK002_05860	423	fliW	COG1699	Flagellar assembly factor FliW	ATGTTGGAGAAGTTCCATAACATGCAAATTTCATTTCAAGGAAATATTCTAGGTTTTAATCATTTAAATAGTTTTCGACTAGAGTCGATCGAGGGCACCCCGTTTGCTTACTTAAAGAGTGAAGAGGACGAGGATATTTCCTTTTTGACGGTAACTCCATTTCAGTGGTATCCGAATTATTCCATACAGTTAAATGAATCTATGAGGAGCACATTGCATTTGGATCAGGCAGAAGACGCTCTAATTCTGTGCATTGTAACAATGAAGGGAACATTGGAGGAGTCTACATTAAATCTTGTGGCACCACTAATTGTAAATGTTTTAAATGGTAAAGGAACTCAGTATGTTGTTCAGGAGAACAATGGTTATCGAACGAATGCTCCTTTGATTACGGATAAGTCAGATAGAATGGAGTTGAAATGA	MLEKFHNMQISFQGNILGFNHLNSFRLESIEGTPFAYLKSEEDEDISFLTVTPFQWYPNYSIQLNESMRSTLHLDQAEDALILCIVTMKGTLEESTLNLVAPLIVNVLNGKGTQYVVQENNGYRTNAPLITDKSDRMELK	PGPT0015630_658	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015630-fliW-K13626	NA	NA
AK002_05861	567	yviE		putative protein YviE	ATGAATCTACTGCGATTATCTATCCGGCAAACCTATGCTAATATAGGAATGGAATCTAGGCAGGGGCAGTTCCAAATGAAGTCCCCGCAGGGAGAGTTAAATGTTGAGACAACCCCTGCCGCGATGGAAGTACAAAGAGCACCTGCTGAATTGACTATTGATAGCTCAAAAGCATGGATGGCATTAGGCAAAGGAAATCATTTGGAGTGGTTGCAGATGGTTTACTCCCAAATGGATCAACAATTTCTGACGAATGTCTCTAGAATCGTGGACGAAGGTAACAGATTGGCTCAGTTTACTAAACCGGGAAATTCGATTGCAGATATAATGGCACAGAGAGTTCAGGAGAAACCGATCATAGAATACAATGGTACGGCTTCTAATGATAATGTTAGAGTTCAATATACACCTGTTGATCTACAAATGAGTTGGTCCTTGCATCAAACAAATGTAAATTATTCACCGCAACGTCCCGAGGTTGCTTATACCCCTGGTGGAGTAGACGTTTATATAAGAAATCAGAATAGCCTGAAAATTTGGGTTAGCGATTATGATCTATATGGTTGA	MNLLRLSIRQTYANIGMESRQGQFQMKSPQGELNVETTPAAMEVQRAPAELTIDSSKAWMALGKGNHLEWLQMVYSQMDQQFLTNVSRIVDEGNRLAQFTKPGNSIADIMAQRVQEKPIIEYNGTASNDNVRVQYTPVDLQMSWSLHQTNVNYSPQRPEVAYTPGGVDVYIRNQNSLKIWVSDYDLYG				NA	NA	NA	NA	NA
AK002_05862	897	hag_2	COG1344	Flagellin	ATGGCTTTACGCGTTACACCAGGTATGATGAACCTGCAAATGATCCGAAATATTAATACGAATTTAGTGAGAATGGACGGCAATATGAATGTGCTTTCCACAGGTATGAAGCTAAATAAGCCGTCTGATGATCCTGTCGGGATTACATATTCATTAAGATATCGAAGCGAACTGTCGTTTAATGAGCAGTTTCAGAAAAATGCGGACACGGCACTTTCATGGCTGGAATATACAGACACGGTGATAGGTCAAGTCAATGAAATTTCTCAGCGTGCCAACGAATTGATTGTTCAAGCAGTCAATGGTACTAATCCGCAAGAGGCATTAAATGCTGTGAATACGGAATTGAACCAGATTTACGAACAACTCGTATCTTTGGGTAACAGCAAATTTAATGACAAACATATCTTTAACGGACAGTTAACCGATCAGGCGCCTTATGATGAAGCACTCGCTCCTACACAAGTGACGGATACACACGGGATTACTTATAAATTTACCGAGGGGGCTTCGCTTACCATTAACGTTACAGGCCAAGACGTTTTTGGCGAGCCTACGGATCCGGATAATTTATTTGCAGTTCTGAAGAGAGTCCAGACTGCACTGAATACAAATGATAAAGCTGCTGCCCAAGCAGAGCTGGGCAATTTCTCCAGCAGAATTGCTAAGCTGAATGAAGCAAGGTCCGAGATTGGAGCCAAAACCAACCGGGTGGAACTTATAAGCCAGCGTCTGGGTGATCTTGAAATGAACCTTACCTCCATGCAAGCTAAAGTCGAGGATGCGGACTATGCTGAGACTATTATGAAGTTAAAACAAGATGAGAGCGTGTATCAAGCCTCGTTGGCCACAAGCGCTAAGATTATGCAGATCAGTCTCCTGGATTACCTCAGATAG	MALRVTPGMMNLQMIRNINTNLVRMDGNMNVLSTGMKLNKPSDDPVGITYSLRYRSELSFNEQFQKNADTALSWLEYTDTVIGQVNEISQRANELIVQAVNGTNPQEALNAVNTELNQIYEQLVSLGNSKFNDKHIFNGQLTDQAPYDEALAPTQVTDTHGITYKFTEGASLTINVTGQDVFGEPTDPDNLFAVLKRVQTALNTNDKAAAQAELGNFSSRIAKLNEARSEIGAKTNRVELISQRLGDLEMNLTSMQAKVEDADYAETIMKLKQDESVYQASLATSAKIMQISLLDYLR	PGPT0015505_2450	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
AK002_05863	1563	flgK	COG1256	Flagellar hook-associated protein 1	ATGGTATCTACATTTCACGGGATTGAAACCGCGAAGCGCAGCCTCTTTGCTCAGATGGCAGGCATGAACACGACCGGTCATAACATAGCAAATGCCAGCACTCCGGGGTACTCACGGCAAGTTGTAGGCTTGATCGCTTCACGTCCTCTGGCTATGCCAGGGATGTATAATCAGATATCTCCTGGCCAGCTGGGCACAGGTGTCGAAGTTAATTATATCAAACGTGTAAGAGATCAGTTTTTGGATCAACAATACTGGAACGCCAATCGCTCTCTTGGTGATTGGGAAGTACAAGCAGGAACGCTCTCTAAACTGGAAACGATTTTTAACGAACCCTCTGAGTCTGGGTTGACAACGGTTATCGATAACTTTTGGAAGGCTTGGTCTGAATTCAGCAAAGACCCTGAGAACGTAACTTCAAGAAAGATCGTCAGGGAAAATGCCTTAGCGATGGCAGAGGCCTTTAACGAAACCAGCAAGAAAATAACCGACATGCAGGCGGATTTGACTCAGGGCATTAACGTAAATGCAGATCATATCAATACACTGACAACTCAAGTGGCGCAGCTGAATTATGAGATTAACCGCATTGAAGGCTTTCGTGATAATGCCAATGATCTTAGGGATCAACGCGACCTCATCATTGATGAATTATCCCGTATGGCTAATGTAACTGTGGTGGAAGAAGAAACAGGATACCGGGTTACTGTGGGCGGGCTTGAATTAGTCGCCGGAGACGCTGCTGTCCCTGTTACTCCAGCTCAACTTGAGACGGCCTATGCAAGCAACGGGCTAAATAGCGGGGAACTATTCGGCATCATTAAATCCAGGGATGGTATCGTAAAAGATTACTTGGACCAATTGAACGAGCTGGCCAATACGATAGCTAACGGGGATGTGAGCATTACGATTCCAGCAGGCTCGGTACTTCCTGAAGGAACGGTATTAAATGGTGTAACCTATAGCGGCACTACAAGAACATTAACCGCGGATACGACGGTAACTGTCAAAGGCTTGAATGGACTTCATAAACTTGGGTATCTATTTACTTCACCTGCTCAGGCTGCCGGAGACTTCTTTAGCTCGAAGGATGGTGGGCCTATCACGGCTGCCTCATTTAGCGTTAATAATGCCATTGTCCAGGATCCTAATAAAATTGCTTCCTCACTGCGAGTTGTAGCTGGCCCTAATGGGGATGAAGTAGTGAAAGGTAATAATACGCTTGCTTTATTGATGTCTCAGCTTAGAGAACGGCCGTTTACATTTAACTCCATAGCAAGTAACAATGGTATAACGACAGGTACCGTAGACGATTACTACCGGGCTGTTATGGGGCAATTAGGCGTACAGAGCCGGGAGGCCTTAAGACAACAAGATAATAACCAGCTGCTAGTAGATCAGGTTGATTCCAGAAGACAATCGGTAAGCGGAGTTTCTTTAGATGAAGAGATGTCGAATTTGATCAAGTTGCAGCACTCTTATGGAGCTGCTTCCCGTTTTATGACCACTGTGGATCAAAACCTGGATAAGATCATTAACAGCATGGGCGTTGTAGGTAGATAG	MVSTFHGIETAKRSLFAQMAGMNTTGHNIANASTPGYSRQVVGLIASRPLAMPGMYNQISPGQLGTGVEVNYIKRVRDQFLDQQYWNANRSLGDWEVQAGTLSKLETIFNEPSESGLTTVIDNFWKAWSEFSKDPENVTSRKIVRENALAMAEAFNETSKKITDMQADLTQGINVNADHINTLTTQVAQLNYEINRIEGFRDNANDLRDQRDLIIDELSRMANVTVVEEETGYRVTVGGLELVAGDAAVPVTPAQLETAYASNGLNSGELFGIIKSRDGIVKDYLDQLNELANTIANGDVSITIPAGSVLPEGTVLNGVTYSGTTRTLTADTTVTVKGLNGLHKLGYLFTSPAQAAGDFFSSKDGGPITAASFSVNNAIVQDPNKIASSLRVVAGPNGDEVVKGNNTLALLMSQLRERPFTFNSIASNNGITTGTVDDYYRAVMGQLGVQSREALRQQDNNQLLVDQVDSRRQSVSGVSLDEEMSNLIKLQHSYGAASRFMTTVDQNLDKIINSMGVVGR	PGPT0015195_1933	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
AK002_05864	501	yvyG		putative protein YvyG	GTGAGTGTACAGAATGTCATTTTAGCAATGACGAAGTTAAATGATGTCCATCTTGAAATGATAGACGTCGGTAAAGAGAAACAACAGGCAATCATTGATAATGATTCGTCGAACTTGACTCGGCTGATGACGATTGAAAATCGGTTGTTAAGACAGATGAACGAACTGGAACAGCAGCGCGTGGAGCAAGTGGATTTTTTCCTGCAGGAAAAGGGAATACGTTCCCAATTGAGTCTAAGCGTAACCGAGCTATCGCGGCTTGTATTCGATCCGAACGAAAAGCAAGAGCTTATGCAAATCCGTGATAGCTTGCTGAGTAACGCCATGATATTAAAAAGGCAGAATGAATTAACGACCCAGTTGCTTGAGCAGTCTCTGCATTTTATTGACTTCTCTTTAAATATAATCGTTGGTGTGGATGAGGAAATGATTTATAAGAAGCCTACGGACACTCCACCGGCTCTTTCGAATAAAAACAATTTTTTTGATGCCAAAGCGTAA	MSVQNVILAMTKLNDVHLEMIDVGKEKQQAIIDNDSSNLTRLMTIENRLLRQMNELEQQRVEQVDFFLQEKGIRSQLSLSVTELSRLVFDPNEKQELMQIRDSLLSNAMILKRQNELTTQLLEQSLHFIDFSLNIIVGVDEEMIYKKPTDTPPALSNKNNFFDAKA				NA	NA	NA	NA	NA
AK002_05865	297			hypothetical protein	GTGAAGATTAACGAATCGGGACGTGTGAACGGCATCAATTCGTATCAACGGAATATTGAATCTCGGGAGATGCAGCATATCGATAAGAAGAAACGCCGCAAGGATGAAGTATCAATCTCCCCGGAGGCGATGGAACTGAGTGCACAGAGTAAAGTACAGGATCCGGAACGCGCGGAGAAGATCCAGCGTTTAAAGGAAGCTGTAACCAACGGCACATATGAAGTGCCGGTTGATCGTTTGGCAGACAAATTACTCCCGTATTTTCAATCCTACAATAAATCAGGTGAGTCCAAGTGA	MKINESGRVNGINSYQRNIESREMQHIDKKKRRKDEVSISPEAMELSAQSKVQDPERAEKIQRLKEAVTNGTYEVPVDRLADKLLPYFQSYNKSGESK	PGPT0015530_982	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398	NA	NA
AK002_05866	411			hypothetical protein	ATGAATTTGGGGAATTGCCCTCGGTGCGGCAAGTTATATACGGTGAATATTCGGGAAATGTGTCCTGAATGCATGAAAGTGATTGAGAAGGAATATGAGAAATGCGCAACCTTCCTGCGTGAGCAAAAAGGCGCAACCATCCATGAGGTATCTGAGGCTACGGAAGTATCCGTGCGGCAGATTACGAAGTTTATCAAGGAAGGCCGGATCTCGATTGCGAACGCGCCGAACCTGGCGTATCCTTGCGAAGTGTGCGGAACGTTGATTCGCGAGAGCAATATGTGCGAGTCCTGCCGGACCCGATTAACGAGGGAGCTAAGGCAGGCGGCTGCCGGCGACCAGGAACATCAGCCTGGGTCCCGCAAAGACAGAGAGACTTATAGTGCAGTCGATAAACTGCGCAAATACTAA	MNLGNCPRCGKLYTVNIREMCPECMKVIEKEYEKCATFLREQKGATIHEVSEATEVSVRQITKFIKEGRISIANAPNLAYPCEVCGTLIRESNMCESCRTRLTRELRQAAAGDQEHQPGSRKDRETYSAVDKLRKY				NA	NA	NA	NA	NA
AK002_05867	861			hypothetical protein	TTGATATCCAACGTCTTAAGCCAACTCCTCGGGCACATGCATCGTTTGCTAAAACCGATGGACGAGATCTGCCTCACTTGCGGAAAAATAGGCTCATGTAACCAGGAACTTCCGGGGATATGCCATGCCTGTTATCGGCAGATCCCATGGATTTTCAAACCCCGATGCTTGCGATGCGGGCGGGGAATCGGTTGTCCCGACTGTACTCGATTAGGCGTGAACGATCGGAGCTTTGTTTCGAATCGGAGTGCGGTAACCTATGACGCGCAGATGAGGGAGTGGCTGGCCCAATATAAATATAGGGGGAATGAGCGGTACGCGCCTCTTTTGGTCGAGATGATGCTGAGAGCCTTTACGATGTTTCATCGAGAAGCGAACGTCCGTCTGGGTGATCATCGTTTGCGGAACGCGCATAGTGTACCCTGGAGCATACATGCGGTTACTTCGGTTCCGGTCAGCCAGGAAAGGCTGCGGGAGAGGGGCTTCAATCAAGCGGAAGTGCTGGCAAAGGGGCTTGCGGCTAGCATAAAAACTTCTTATGTTCCGCTGCTGGAACGTGACCGTCACACGAATAAACAGAGTTTTAAGAGCCGGATGGACCGGCTAAAGGATATGGAGGGTGTTTTTGGCGCGTTACAGCAAGCACCCGAAGTGTTGTGGTCTATAAGTAAGAGGGGCGCAGCGAATACCGGTTCTCCAGAGGAGATATTACCGATCATGGGGCCACTTCGTATATTACTCGTCGATGATATTTATACCACCGGGAGTACGATTAACGCTTGCGCCCAGGTTTTGCGAGGATACGAATCCTTTTTGGAAATGCCCATCGAGATTTATAGTTTAACCTGGGCGCGCTCATAA	MISNVLSQLLGHMHRLLKPMDEICLTCGKIGSCNQELPGICHACYRQIPWIFKPRCLRCGRGIGCPDCTRLGVNDRSFVSNRSAVTYDAQMREWLAQYKYRGNERYAPLLVEMMLRAFTMFHREANVRLGDHRLRNAHSVPWSIHAVTSVPVSQERLRERGFNQAEVLAKGLAASIKTSYVPLLERDRHTNKQSFKSRMDRLKDMEGVFGALQQAPEVLWSISKRGAANTGSPEEILPIMGPLRILLVDDIYTTGSTINACAQVLRGYESFLEMPIEIYSLTWARS	PGPT0029435_22	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
AK002_05868	1902	mfd_2		Transcription-repair-coupling factor	ATGCAGATTGCCATTTATGCCATTCGAGAAGCAGAGAAATGGAATTGCTATCTCTCGCTGGATATGAGGGTGGATATTCAATGGTGGTGTGGAAGAATGAGTCAGGCGGATGAAAGGGCCGGTACACCGTTATTGGTGCTGCTGTCCTCTCGAGTACCACTGGGATGGGCCGTTGAAATCCAAGCGAGATTTCAGCCGATTCCAGACATGGATCGATGGGAGAGGCCAGATTGGCAGAGATATATGTATCAGGCATTAAGCTCGTTTTTACTGCAAGAGCCGGAGAGCAGTAGGTCGAAATGGAGCGCCTTGTTGCAGGAAATCCAATTGTTGGATGGGACTTATCTAAGTTCCCTGATCGAAAAGGGAGCCGTGCTAGTGGGCTGGGATGCCCTGGTGCAGCAGACGGAGCTGCTGATCGAGTGCATGGCAGGACGAGCCTTGCTTGCTGGCGAGGTCGAAGCATTGTTGGGGGAGGTTGCCGTGGGCACCGGCGACTGGCGCGCCGCGGCCCAGCTCGGCGTCCTGCTGGGCCGCCTGCGCTTGGAAGCGGGGCTGGCACAGCCCGCCCCGCGCAGAGGGCCCGGCTGGCTCCGCCGCCGGGCCATGGCCCCCCGCTGCCGGCGTTGCGGCAGCGAGGCCAAGAGCCGCACGGCATGCGCCGCGTGCGGCTCGGCGGCTTGCGCCTATTGCGAGGCTTGCCTCGCGATGGGGCGCAGCCGCGCTTGTGCCCTGCTGCTGCATGGCACAGCAGGGTCGGCCGTGCGGGGCACGGCCGGGGGTTCCCCCACCGCGGCCTTGGGCCGGTGGGGGCTTAGCGCAGCGCAGAGCGCCGCCGCTGGCGCTGCGCTGCGGTTTTTGGCGGAGCCGCCCGCAGGGGGCTCCGCGGTGGCCGCCGCCCGGTTTCTCATCTGGGCGGTGACCGGTGCCGGAAAGACCGAAATGATCTTTCCGCTGCTGCAGTCCATTTTGGATGCGGGCGGGTGCGTCTTGGTCGCCGCGCCAAGGCGGGATGTGGTGCTGGAGTTGGCACCTCGGTTATCGAAGGCTTATCCCGAGGAGACGGTGGTCACGTTATATGGCGGAAGTCCGGAGCGTTGGAAGCGGGGGAGCATCACGCTGGCAACGACGCATCAGCTGCTGCGATTCAGGGGAGCTTTTGATCTGGTCGTGATCGACGAGATTGATGCCTTTCCCTATCATAACGATCCGATGCTGGATTACGCGGCCAAGGGTGCTTGCAAACCAGGGGGGAAATATATCTATCTGTCAGCTACCCCGCCAACGCCTCTACAGCGCGAAGCAGCTGCTGGTCGGTTGCCACATGCGAAAGTTCCCGCACGCTTCCATGGTCATCCGTTACCCGTTCCTCAGAAACTGAAAATGTTTGCGGTGAGCCGCTGTCTTCAAGAAAAAAAGCTTTCCCCACTCCTGGTTCGCAGCCTGAGTGCCTCTCTGAGACGCGGAGCTCAAGTGTTCCTGTTCGTTTCCCGGATCAAGCATATTGATCCTATTCTGGAACTGCTCCGCAAGGCGATTGCCCATATGCCGATTGAAGGGACTTCATCCATCGACCCGGAGCGGGCGGGCAAAGTGATGTCCTTCCGAAACCGCGAGATTCGCTTGCTGGTGACAACAACCATTCTTGAACGCGGGGTAACGGTTCCCAAGAGCGATGTTTTTATTTTGGATGCAGATAGCGAGCTATTTGATGAAGCGGCCTTGATACAGATGGCCGGTCGTGCGGGCCGATCCAAGGATGATCCGGCAGGACGGGTAGTGTTTGCTGCGCCGCAATGGACCAGGTGCCAAAGCTCGGCAGTTCGGCAAATCAAGGCTATGAATCGAATCGCTGGTAAGGGTGGGTATTTACGACAAGTTCAAGAGGTGACGGGTAAATAG	MQIAIYAIREAEKWNCYLSLDMRVDIQWWCGRMSQADERAGTPLLVLLSSRVPLGWAVEIQARFQPIPDMDRWERPDWQRYMYQALSSFLLQEPESSRSKWSALLQEIQLLDGTYLSSLIEKGAVLVGWDALVQQTELLIECMAGRALLAGEVEALLGEVAVGTGDWRAAAQLGVLLGRLRLEAGLAQPAPRRGPGWLRRRAMAPRCRRCGSEAKSRTACAACGSAACAYCEACLAMGRSRACALLLHGTAGSAVRGTAGGSPTAALGRWGLSAAQSAAAGAALRFLAEPPAGGSAVAAARFLIWAVTGAGKTEMIFPLLQSILDAGGCVLVAAPRRDVVLELAPRLSKAYPEETVVTLYGGSPERWKRGSITLATTHQLLRFRGAFDLVVIDEIDAFPYHNDPMLDYAAKGACKPGGKYIYLSATPPTPLQREAAAGRLPHAKVPARFHGHPLPVPQKLKMFAVSRCLQEKKLSPLLVRSLSASLRRGAQVFLFVSRIKHIDPILELLRKAIAHMPIEGTSSIDPERAGKVMSFRNREIRLLVTTTILERGVTVPKSDVFILDADSELFDEAALIQMAGRAGRSKDDPAGRVVFAAPQWTRCQSSAVRQIKAMNRIAGKGGYLRQVQEVTGK	PGPT0029425_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029425-comFA-K02240	NA	NA
AK002_05869	423			hypothetical protein	ATGGTTGCCCAATTGCTGTGGATACTCGCGGTGTACGGGATCGCTGTTGCTCTGGTTCATATCGTGCATGCCCGTCATCTCCGAAGAGCTAGTGAAGGCACGGGGCGGCGCAGGCATTATGTGCTGATCACGTCCAACCATGAGCGGCAGGTGGAATGGTATTTGAGAGCCCTTTCCTGGTATGCCCTGCTGAGCGGGACGCGCGTGCGCGTCACCGTCCTTGATGACCAGTCGTATGATGATACGTTAAAGATTGTCAAGAGATTGACTCATTTGTCCGGAATTGAACTGGTATACGGGACTTGGAGATCCGGTGATCCGGCATCACAAGAAACGGATGTCGATCCGAATGAAGACGAAGTCATACGGGTCGATCTGAGAAACCCGATGGAGGCTGTTCAGATTCCATATGTACAGGGATAA	MVAQLLWILAVYGIAVALVHIVHARHLRRASEGTGRRRHYVLITSNHERQVEWYLRALSWYALLSGTRVRVTVLDDQSYDDTLKIVKRLTHLSGIELVYGTWRSGDPASQETDVDPNEDEVIRVDLRNPMEAVQIPYVQG				NA	NA	NA	NA	NA
AK002_05870	723	degU_2	COG2197	Transcriptional regulatory protein DegU	ATGGAACATTTGGAGAAAGAGAACACGATTATCAAAGTATTATTAGCGGATGACCACCAGCTGTTTAGGGAGGGTCTGAAACGCATACTGAATATGGAGGACGACATTGACGTGATCGGCGAATGCGGCGACGGCATTCAAGTGCTTGAGTTCTGCAACGAAGTGAAGCCGGATATCGTGCTGATGGACATCAACATGCCGACCGAAAACGGCGTTCAAGCGACCGAGAAACTACGTGAAATGTTTCCTGAGATCAAAGTTATTATTCTGTCGATTCATGACGACGAAAGTTATGTGTTTGAAACGCTCCGCAAGGGAGCGAACGGTTACCTCCTGAAGGATATGGAAGCCGAGTCACTGATTAATGCGATTCGTTCGGTACATGAGGGATATGCATTTATCCATCCGAAAGTAACGGGCAAGCTGATCCACCAGCTCCGCCGGATGACGTATGTAAACGAAGCAGGCGCGATGGCGGAGAGCGGTTCGCGTGAAGCTGGAGTCAAGTTTGTGGCAGGCGAGAACAACCCATTGACAAGGCGCGAAGCGGAAGTGCTTAGACTAATGGCCGAAGGCAAGAGCAACAAGATGATTGGGGAATACCTGTTCATTAGTGAAAAAACTGTAAAAAACCACGTCAGCAGCATCCTGCAGAAGATGGAAGTGGACGACCGTACGCAAGCGGTTATCAACTCGATCAAATATGGCTGGGTGACGTTGTAA	MEHLEKENTIIKVLLADDHQLFREGLKRILNMEDDIDVIGECGDGIQVLEFCNEVKPDIVLMDINMPTENGVQATEKLREMFPEIKVIILSIHDDESYVFETLRKGANGYLLKDMEAESLINAIRSVHEGYAFIHPKVTGKLIHQLRRMTYVNEAGAMAESGSREAGVKFVAGENNPLTRREAEVLRLMAEGKSNKMIGEYLFISEKTVKNHVSSILQKMEVDDRTQAVINSIKYGWVTL	PGPT0012750_49	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0012750-degU-K07692	NA	NA
AK002_05871	1155	degS		Signal transduction histidine-protein kinase/phosphatase DegS	GTGGATTATCAAGCCGATGCCATCGACCGTGTCATAAAAAATGCCATCAAAGTGATGGAGGACAGCAAATACCAAATGTTCGAAATATTGGAGGCGTCGCGGCAGGAGCTCGCGTCTCTCAATCATGAACTGCAGCGGACATTAAAAGAAACGACGGAAACCTTAGAGAAGGTGGATCAGTTGGAGCTGAACTACCGCCGTTCCCGGATCCGGCTGACCGAGGTCAGCCGGGATTTCGTCCGGTACAAGGAAGAGGACATCAAGCAGGCGTATGAGAAAGCAACGCAGCTTCAGCTTGACCTCATGATCTACCGGGAGAAGGAAATGTATCTGAAGGCTAGACGAGACGAGCTGCAGAAGCGGGTTCGCAATGTCGAGAACTCGGTGGAGCGCGCAGAATCGATCGGATCTCAGATGGGCGTGGTGTTGGAATACTTGTCCGGCGAGCTGGGCCAGGTATCCCGAATCATCGAATCTGCGAAGAACAGGCAGGTCATTGGACTCAAAATTATTCTGGCGCAGGAAGAGGAACGAAAGCGCATATCCAGAGAGATTCATGATGGACCTGCGCAATTGCTGGCGAATCTGGTTCTTAGGACGGAAATTGTAGAAAGAATGCTTGCAAAGCAGGAATTTAAGATGGTGCAGGACGAAATAGTAGATTTGAAGGGCCAGGTGCGTTCGAGCCTGGAGGAAATGCGAAAAGTCATCTTCAATCTGCGTCCAATGGCACTCGATGATCTAGGATTAATCCCCACACTGCGTAAATATGTGCATGATTATGAAGAGAAATCGAAAATCCGCACGATCTTCGAGACACGGGGGAAAGAGCATCGTCTCTCTTCTGCGATGGAGGCGGCCATCTACCGGTTGGTGCAGGAAGCACTTTCGAATGCTGCAAAACATGCTTACCCGACTTATGTGCTTGTTGAAATCACGTACCAGGCGCAATTGGTCAAAATCGTGGTACAGGACAATGGCCTGGGATTCAATGTCGATTTGCTGGAGCAGAAAAGCAAGGACCACTTTGGGTTAATTGGCATGCGGGAGAGGGTTGAGCTGCTCGAAGGGAGAATGGAGATCGATTCAGCCGAGAATCAAGGAACCAAGATCGTGATTCATATCCCGACGAACGTAGAAAAGAGAAAGGAGTAA	MDYQADAIDRVIKNAIKVMEDSKYQMFEILEASRQELASLNHELQRTLKETTETLEKVDQLELNYRRSRIRLTEVSRDFVRYKEEDIKQAYEKATQLQLDLMIYREKEMYLKARRDELQKRVRNVENSVERAESIGSQMGVVLEYLSGELGQVSRIIESAKNRQVIGLKIILAQEEERKRISREIHDGPAQLLANLVLRTEIVERMLAKQEFKMVQDEIVDLKGQVRSSLEEMRKVIFNLRPMALDDLGLIPTLRKYVHDYEEKSKIRTIFETRGKEHRLSSAMEAAIYRLVQEALSNAAKHAYPTYVLVEITYQAQLVKIVVQDNGLGFNVDLLEQKSKDHFGLIGMRERVELLEGRMEIDSAENQGTKIVIHIPTNVEKRKE	PGPT0014285_230	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014285-degS-K07777	NA	NA
AK002_05872	2703			hypothetical protein	ATGGTTAGTCAGGGGAAAACACTGAAGTCTGCAAAATCAGGCGTAGGCAAGAAATGGTTGATTATCACATTGGCCGGGGTCATCTGGGTGGGCCCTGTGCTGAGCAGCGGGATACCGGTGATAGGGAATCTATCAACTTCTTCGGTAGCATACGCGGCAACCACATCAGCGAAGAAGCTGGGTGAGGAAATCATTACGTCCGGCGCGGTTTTGATGAAGTATCAGTATATCAACAGTGCCGGCGCGAAATCGCTGGCGAATGTCATCCGGGTGGATCTCAACAACAAATATGTGAAGCTGGATGTCATGACAGGGCAAGGCAATCAATTTACTACAAGACAAAGCACGGGCGGAATGGCGAAGGAAAACGGTGCGGTAGCAGCGATCAACGGGGATTTCTTTAACACCGGCAGAGAAGGAGCGCCGATGGGCGCGCAAGTCTCGAATGGTCTTTTGATGTCTTCGCCTTCTGATCTTAAGGGCATGTATGCTTTTGCCGTAACGAATGATGGAAAGCCGATCCTGGACGAGTTTGCCTTTTCGGGAAGCATTACCTCTGAGAACGGAACTACATTCCCGCTGGCAGGCATGAACAAAACAGCATATACACCGGAAGGTACCGGATCGAATTACAGCCATGTGAACGCAGCTTATATATACACAAGTGCATGGAAGGCTCTGGAGCGTCCGAAAAACAGCTCAAGCACACCGACCGAAGTGATGGTGACCGACGGGGTCATTACGGATATTTCGGTGATGGCCGGAATACCTACGGCAGTTCCGGAAGGAAGCTACATTCTTCGTACGCATGGCGCCGCAGCCGAGTTCGTGAAGAACAACCTGGCCGTAGGCCAGAGGTTAGAAGCGGATTATGCGCTCGTATCGAAAAAGACCGGTCAAAAGCTGGATCCTACGAATCTGCAGATGATGATTGGCGGACATACGATACTGGTGGATAACGGCAAAGCGACGTCTTTTTCAAGAAACGTGAATGATCTTGGAGGCAATCGTGCGCGTACGGCGGTGGGTTACTCCAAAGACGGACGTTACGCCTACCTGATCGCCACGGAGAGCAACGATAACAGCAAAGGCATGACGCTGCAGCAGCTCCAGGATTTCATGACGAAGGTTGGCGTTTGGAAGGGAATGAACCTCGACGGCGGCGGATCGACAACGATGGTCAACCGACCGTTAGCCGAGATGAATACCCAGCTGACCTTCAACACGGAGTACGGAACGACGCAGCGAAGCATCGTTAATGCACTCGGCGTGTTCTCGACGGCACCTCAAGGCAGCTTGAAGGGCTTGAAGGTAAGCGGCAGCAACACACTGCTGATTGGGCAAATCGGCACGTATGAACTCAAGGGCTATGATACCTACTATAATCCGATTGAGGCTGGCTCGATTAAACCGACCTGGAAATCCAGCAATGGCAACCTTGCGGTTAACGGTCAGAGCATAAAAGCGACAAAGCCGGGCACATCGACCCTGACGGCGGTAAGCGGCAGCACGAAAGCGACGATGCAAGTCAAGGTACTGGGTGCGGATGATCTCGTTGCCTTGACTACAGGCGTTTCCAGTGCACCGCTGCAGGCTGGAACGAGCGTTTCCGTACCGGTAACCGCCGTAACGAGCAGCGGCCAAAGCTTGGAGGTTCCAAGCAGTGCGCTGAAATGGGAGTTTGTCGGATTCAAAGGCAGCGTCAAAGACGGCCGCCTGACCGTATCCTCCGTGAACAGCAATACGAAAGTCGGTTATGCCATCGCACGATATGACGGATTTAGCACAGTCGTTATTTTGTCGGCAGCAGGCGAGAGTACGTGGGAGAACTTCGAGAATGTGAATTACCCGGTGAAGTTCACGACCAACGTGCCTGCAGTTACCGGGACGGCAGCGATCCAAAATGGCAGCGGAACAAAGGCAACCTCCAAAGTCTTGAACCTAACCTATGATATGACAGGCGGGCTGGGACAAAAAATGTACGCTTATGCCGAGCTGAATGGCACGACAGGCAAAACGATTCCTGCACAGGCAACGTCGATGACGATTGACGTGGAGGGAGATAACAGCCTGAACTGGCTGCGTGCGGAGCTCAAGGACAATAACGGGAAAACCGTGTACGTCGATCTGGCTAAGGCGATTGATTGGAGCGGCTGGAAGACGCTGAGCATCGATTTGAGCGGATATAACATTGCGTTCCCGGCTCAGATGAAGCGGCTTTATGTCGTGAACGTGGAAGAGGGTCAGGACGAGCGTGCATTGACTGGGGCCGTGTCTTTTGACGATATTCGCTTCACGATGCCGTCCCTGTCAGGAAATGAAGGACTTCCAACCGGTAAAGCGGTCATGACCATTGGGCAAAAATCGCTCATGCTGAATGGTTCGAAAGTGGCAATCGATTCCGCGCCAATCCTGAAAAACGGAACGACCTATGTTCCGATTAAGCATGTGCTCGACGCCTTCGGCGGGCAAGCGACCTGGAACCAATCCGCGCAGCGGGTAGGCGTCCTGAGAGGCGGCATGCTCATGGAATTGACGGTAGGCAAAAAGGAATTCATCCTCAACGGTAAACGCAGTTCGGCGGCTGTGGCACCTATGGTTCAAGGCGGTAGGACTTTGGTCCCTCTTCGTCTCGTTTCCGAGCAATTAGGCCTTAAAGTAAAATGGGACAAGAACACGAAGACCGTTACGATCGAATCATGA	MVSQGKTLKSAKSGVGKKWLIITLAGVIWVGPVLSSGIPVIGNLSTSSVAYAATTSAKKLGEEIITSGAVLMKYQYINSAGAKSLANVIRVDLNNKYVKLDVMTGQGNQFTTRQSTGGMAKENGAVAAINGDFFNTGREGAPMGAQVSNGLLMSSPSDLKGMYAFAVTNDGKPILDEFAFSGSITSENGTTFPLAGMNKTAYTPEGTGSNYSHVNAAYIYTSAWKALERPKNSSSTPTEVMVTDGVITDISVMAGIPTAVPEGSYILRTHGAAAEFVKNNLAVGQRLEADYALVSKKTGQKLDPTNLQMMIGGHTILVDNGKATSFSRNVNDLGGNRARTAVGYSKDGRYAYLIATESNDNSKGMTLQQLQDFMTKVGVWKGMNLDGGGSTTMVNRPLAEMNTQLTFNTEYGTTQRSIVNALGVFSTAPQGSLKGLKVSGSNTLLIGQIGTYELKGYDTYYNPIEAGSIKPTWKSSNGNLAVNGQSIKATKPGTSTLTAVSGSTKATMQVKVLGADDLVALTTGVSSAPLQAGTSVSVPVTAVTSSGQSLEVPSSALKWEFVGFKGSVKDGRLTVSSVNSNTKVGYAIARYDGFSTVVILSAAGESTWENFENVNYPVKFTTNVPAVTGTAAIQNGSGTKATSKVLNLTYDMTGGLGQKMYAYAELNGTTGKTIPAQATSMTIDVEGDNSLNWLRAELKDNNGKTVYVDLAKAIDWSGWKTLSIDLSGYNIAFPAQMKRLYVVNVEEGQDERALTGAVSFDDIRFTMPSLSGNEGLPTGKAVMTIGQKSLMLNGSKVAIDSAPILKNGTTYVPIKHVLDAFGGQATWNQSAQRVGVLRGGMLMELTVGKKEFILNGKRSSAAVAPMVQGGRTLVPLRLVSEQLGLKVKWDKNTKTVTIES	PGPT0022155_4609	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
AK002_05873	1206	metK		S-adenosylmethionine synthase	ATGTCTTTAACAGGGCGACGTTTATTTACATCTGAGTCCGTAACTGAAGGACATCCGGATAAAATCTGTGACCAGATTTCTGATGCCGTACTCGATGCTTTTTTGGCTAACGATCCGAACGCACGCGTAGCTTGTGAAGTTTCCGTTGCGACTGGTCTTGTTTTGGTCATTGGTGAAATTAGCACTAAATCTGAATACGTGGATATTCCATCCATCGTACGCAATACCGTGAAGGAAATCGGGTATACCCGTGCAAAATACGGTTTTGATTCCAATACATGCGCGGTGTTGACATCGCTGAATGAGCAATCGGCCGATATTGCACAGGGGGTAAACGCTGCACTGGAGAATCGTGATCCTTCCCAAGTGGACAAGGAAACCGAGAACATCGGTGCTGGTGACCAAGGTCTGATGTTTGGTTTTGCAACCAACGAGACGCCAGAATTGATGCCTCTTCCAATTGCATTGTCTCACCGTATCGCTCGTCGTTTGTCCGAGGTTCGTAAAGACGGTACGCTGGATTACCTGCGTCCGGACGGTAAAACTCAGGTAACGATCGAGTATGACGGCAATACGCCGGTCCGCGTGGATACAATCGTGGTATCGACTCAACATGCCGAAGAAGCAACACTGGAGCAAATCCAGAAGGATATTAAAGAACAAGTTATTCTTCCTGTCGTACCGGCTGAATTGCTGGACGCAGAAACCAAATACTTCATCAACCCTACCGGACGTTTTGTTATCGGCGGTCCTCAAGGCGATGCTGGTCTGACAGGCCGCAAAATCATCGTGGACACCTATGGCGGCTACGCTCGTCATGGAGGCGGTGCATTCTCCGGTAAGGATCCTACAAAAGTCGACCGTTCCGCTGCTTACGCGGCGCGCTACGTGGCTAAAAACCTGGTTGCCGCAGGACTCGCGGACAAATGCGAAATCCAATTGGCTTACGCCATCGGTGTCGCTAACCCGGTGTCGATCAGTGTCGACACATATGGTACAGGTAAAGTGAGCGAAGAGAAGCTGGTTGAGCTTGTGCGCAACAACTTTGACCTGCGTCCGGCTGGAATCATCCGCATGCTGGATCTTCGTCGTCCGATCTACAAGCAAACGGCGGCGTACGGACATTTTGGACGTACCGACCTGGATCTGCCTTGGGAACGCGTTGACAAAGCCGAAACGCTGAAAGAACAAGCAGGGGTAAACTAG	MSLTGRRLFTSESVTEGHPDKICDQISDAVLDAFLANDPNARVACEVSVATGLVLVIGEISTKSEYVDIPSIVRNTVKEIGYTRAKYGFDSNTCAVLTSLNEQSADIAQGVNAALENRDPSQVDKETENIGAGDQGLMFGFATNETPELMPLPIALSHRIARRLSEVRKDGTLDYLRPDGKTQVTIEYDGNTPVRVDTIVVSTQHAEEATLEQIQKDIKEQVILPVVPAELLDAETKYFINPTGRFVIGGPQGDAGLTGRKIIVDTYGGYARHGGGAFSGKDPTKVDRSAAYAARYVAKNLVAAGLADKCEIQLAYAIGVANPVSISVDTYGTGKVSEEKLVELVRNNFDLRPAGIIRMLDLRRPIYKQTAAYGHFGRTDLDLPWERVDKAETLKEQAGVN	PGPT0020000_2031	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
AK002_05874	288	sasP-C		Small, acid-soluble spore protein C	ATGGCACGCAGCAGTCGTAATCGTCAAGTGGTTCCGGAGAGTCGTGAAATGCTGAAGCAAATGAAATACGAAATCGCAGCAGAGTTTGGATTACCGGTGGGATATGGCAGCAGCTCGTATGGAGCGGATACGGAATTCGGTTCTGAGCTTGGAGCCATCGGAGGAGGTTCCTCCAGTCGTCGTGCTGGATGGGGGCATCTGACATCCCGCGAGAACGGATCCGTTGGCGGAGAGATCACGAAGCGTTTGGTTCAGAACGCCGAGCAAAGCCTCTTCGGCAGACTGTAG	MARSSRNRQVVPESREMLKQMKYEIAAEFGLPVGYGSSSYGADTEFGSELGAIGGGSSSRRAGWGHLTSRENGSVGGEITKRLVQNAEQSLFGRL	PGPT0024860_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024860-SASP_A|sspA-K06418	NA	NA
AK002_05875	498			hypothetical protein	ATGAAAAAGTTCAAGTTAATAACTACAACAATTGTTCTAGGTCTTGTTTTTTATTTGGGCTCCATCCTCAACACCCCCGCCGACGGCGCCGGCACCACCCCCGGCACCACCGACGACCCGGTCGTCACCAAAAGCTACGTAGACCAACAAATCCAGCAAGCACTGAATGGCGGTGGTGGAGGGACCACCAACCCAACGAATCCTACGCAACCATCACAAGGGTCTGATGAAGTCAAGAACGTTGCGCTGAAACCTGGGAAGATTCTAATTGCCGACGCAGGAACGGAATTCATCGTGCGTTCAGGTAATGCTGTGATCTACACAGAAGTCGCTAGCGGCGTTGCGGACCTTACGGATGGTAAAGACCTGTTAAACGGCGAAACGGCGCCTAAGAACCATCTGCTTTCCTTCCCGCGTGAAGGTCGCGGTATTCAGGTGAAAGAAGGCCAGACAAGCAATCTGATTGTCATGGTGCGCGGCGGATACACCATTAAATAG	MKKFKLITTTIVLGLVFYLGSILNTPADGAGTTPGTTDDPVVTKSYVDQQIQQALNGGGGGTTNPTNPTQPSQGSDEVKNVALKPGKILIADAGTEFIVRSGNAVIYTEVASGVADLTDGKDLLNGETAPKNHLLSFPREGRGIQVKEGQTSNLIVMVRGGYTIK				NA	NA	NA	NA	NA
AK002_05876	3036			hypothetical protein	ATGAGTGATAAGAGCTACCAAATTAAAGAAAATAATCAAGTGATGATTCAAGGAGGAGAAAAAAAGGTTATGAAGAAAATTTTATCCGTAGCACTGTCTACAGCAATGGCATTCTCCATGTTTGCTTCTGTTGCATTCGGTGACGACGCACTCAACACTCAACAGAAATTTGATGTACTGAAAGAAAAAGGGATCTTCACTGGTTATCCAGACGGAACTGCTGGCCTGGACAAAGAAATGACTCGCGCTGAGTTCGCTAAAGTCCTGGTTGGTATCATGGGTCTTGAGCCAATCGAAGGCAAAGCATCTTTCAAAGACAAAAACTACAAAGCTGACAAATGGCCAGCTCCTTACGTAGAAGCAGTTTACGCTGCAGGTCTGATGGAAGGTAAAAACACAACGAAAATGATCTTCGACTTCAACGGTAAAATCACCGTTCAAGAAATGGCGAAGGTTCTCGTTACTGCACAAAAACTCGAAATCCCAACTGAAACGAACAACAACGCTTCTGACTGGGCTAAAGGTTATGTGCAAGCAGCAATCAACGCTGGTCTGGTAGACGCTAAAGCGAACCCTAAAGCGAACGCTTCCCGTTCCCAACTGGTTGACGTTGCTTACTCCATCTACCTGGCTCAACAAAAACCAGCTGTAGTTTCTTACAAGGTATCCGACAACGGACGTACTGTTGAGTTTACACTCGCTAACAGCGAAGTTGTAAAAGTGAACCTTGAGAAAGCATTGGTTCCTAACACAGATACGACTGTGGAATTCAAACACAACAACTACGATTACAAAGAAACTGTAAAATGGGTTGTAACTGATGCTTCTAAAGTTCAAAGTGTAGCGGCAAACAACCTGAAAGAAGTTGTAGTTACTTTTGATGGTGAAGTTGATAAAACAACTGCTGAAATCAAAGATAACTACAAGCTGAGCGGCGGTGTTGATGTAGAATCTGCAGTTTTGAACGATGCTAAAAATGCAGTTACATTGACTGTTAAAACTAAGCTGAACAACCAACAAAAATACAGCTTGAACGTTTCTGGTATCAAAGCTGGAACTAAAGTAATCTCTGTTTCCAACTATGAATTTGCTCCAGTTGACGTAGCGCTCCCAGAAGTGGTGAGTGTAACAGGTCTTGGAACTAAAGCGGTGAAAATCGTATTTAGTGAGCCGGTACAACAAACTTACACTGCTAGCTTCTTGCTGGATGGCAAAGGCTTCTACGGAAGCAGCCAGTATAACGGTCGCGAACTGATCATTAAGTCTGACCTGCCTGTAGGTGAGCACACGCTGACTGTTGAAGGTGTTACAGATTTCAATAACTTCAAGTCTTTGAAATCCGAGCACAAGTTCACAGTAGTTGAAGACACTACTGCTCCTACAATTGCTGAAGCTGTAGGTACGCTTGAGAAATTGACTCTGACGTTCAGTGAAGATGTTGACAGCGATACTGTTGTTAAAGAAAACATTTATCACCTGCGTGGAGCATCCAAAATCAAGCCGGATAGTGTTGTAAGAATTGCAGCTAACAAATATGAAGTTTACTTCAGTGCTGCGAATGCACTTCCTACTTATGCTACAAACATTTTTGTTGAAGGTGTGAAGGATTACTCCGGTAACCAAATCACTGAAACTTCTAAGCAAATTACTGCTACTGTTGACACAGAGCGTCCTCAAGTAGTTGATGCTCGCGTTAACCAAACGGATTCCAAACAATTGTTGATTACATTCAGTAAAGGTATTGCTGATAAGCAATCCTGGACTAAATTGATCACAGTTAAGGATAAAGATGGTAAAGTGCGTCCAGTTTCCAGTGCTAACCTGAAGACTGGTACTAACAATGTTCTGGAAGTGAATTTCTTCTCCGCATTGCCACAAGGAACTAATAGTCTGGAAGTTAAAGGTATCCGCGATAACACTGTGCTCGGTAATGTGTTGCTTGATTACACAACAACATTTACTGTAGGTGACACAGGCGCGCCTGAATTTGCAGGAGCTTCCTTCAAAATCGATAATGAAGCTCGCCGTGCAGTGATCTACTTTAACGAAGCTATGGATGTAGCATCTTTGACTAACCCTGCTAACTATTCCATCACTTTCGATGGTAAGGCAATTGCGCTTCCTAGCAACGCAGTTATCTCCGTAATCGAAAATGGTAAAGGTGTAGTTATTGATCTGCCAGTACAAATCAATGGCCGTGATGTAACGTCTGCTAATTGGACTGCAATTCGTGTTCAAGGTGTGAAAGACCTCGAAGGAAACTACCTGGAGAACTTTACTACTGGTGATATCCTTGTAGGCGATTATAACAAGCTTAATGCTTCTGCAACTTATGGTGACGGACACACTGGTGCACTCGTTTCCACTAAGAAAGTAGAAGTGAAAGTTGATCAAGCGGTTGAGCGTTTCGTAGGTCAAACTGGAGACGTTAAAGCTTATGTTGGTACAGACGAAGTTGCTGTTGCTAATGTAACTGCAAACAACTCTAACATCGTAACGGTTGAATTGGTTAACCCAATTTACACATCTACAGGTCTGACAGTTGTATTTAACGAAGCAGACTTCCGTACGGTTGCACAAAGCACTATTAAGCTGGGTCAAGCAGGTGCTCCTGTAACTGTAGGTACCTCAACTTATACTCTGAATGACAAAGTTGCTCCAGAAGTGAAGTTGGATGCAAACCAAACAACATTCAAAGTAGAAACTTCTGTAACTGGTGATACTTACACAGCAACTATTAACTTTACAGAAGCTCTTGAAGGAATCGATGAAAAACTTCTTGCTCAAGACTTTGTAGTAACACGTTTGACTGGAGCTACAAGCAATATTCCAGTTAAATCTTCAACTGGTACCCAAAAAGCATACTTTGAAGTCGTTAAAGTTGATGCCGATACTCTCCAAGTTGTGATTACTGACCCAACTGTAGAGAATGGCGAAGGACTTTACACAATCGGTATTCGCGAAGAGGCTAAATATATTCAAGACGTATTTGGTAATGCTGTTAAGGCATTCGAAGCTATCCGCACAGTTAAATAA	MSDKSYQIKENNQVMIQGGEKKVMKKILSVALSTAMAFSMFASVAFGDDALNTQQKFDVLKEKGIFTGYPDGTAGLDKEMTRAEFAKVLVGIMGLEPIEGKASFKDKNYKADKWPAPYVEAVYAAGLMEGKNTTKMIFDFNGKITVQEMAKVLVTAQKLEIPTETNNNASDWAKGYVQAAINAGLVDAKANPKANASRSQLVDVAYSIYLAQQKPAVVSYKVSDNGRTVEFTLANSEVVKVNLEKALVPNTDTTVEFKHNNYDYKETVKWVVTDASKVQSVAANNLKEVVVTFDGEVDKTTAEIKDNYKLSGGVDVESAVLNDAKNAVTLTVKTKLNNQQKYSLNVSGIKAGTKVISVSNYEFAPVDVALPEVVSVTGLGTKAVKIVFSEPVQQTYTASFLLDGKGFYGSSQYNGRELIIKSDLPVGEHTLTVEGVTDFNNFKSLKSEHKFTVVEDTTAPTIAEAVGTLEKLTLTFSEDVDSDTVVKENIYHLRGASKIKPDSVVRIAANKYEVYFSAANALPTYATNIFVEGVKDYSGNQITETSKQITATVDTERPQVVDARVNQTDSKQLLITFSKGIADKQSWTKLITVKDKDGKVRPVSSANLKTGTNNVLEVNFFSALPQGTNSLEVKGIRDNTVLGNVLLDYTTTFTVGDTGAPEFAGASFKIDNEARRAVIYFNEAMDVASLTNPANYSITFDGKAIALPSNAVISVIENGKGVVIDLPVQINGRDVTSANWTAIRVQGVKDLEGNYLENFTTGDILVGDYNKLNASATYGDGHTGALVSTKKVEVKVDQAVERFVGQTGDVKAYVGTDEVAVANVTANNSNIVTVELVNPIYTSTGLTVVFNEADFRTVAQSTIKLGQAGAPVTVGTSTYTLNDKVAPEVKLDANQTTFKVETSVTGDTYTATINFTEALEGIDEKLLAQDFVVTRLTGATSNIPVKSSTGTQKAYFEVVKVDADTLQVVITDPTVENGEGLYTIGIREEAKYIQDVFGNAVKAFEAIRTVK	PGPT0022155_3924	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
AK002_05877	345			hypothetical protein	ATGAAGCCGATATTATCAAAAGCGCAGCTCGACTACATGAAGGCGAAGACCAAGTTCGAGGAAAAAGCCAAAGTGATGGAGAAGAAGATTGAGCTGGCTCGTGCCACTCATGATGAGATAACTCAGGAAGTCATGGAGGGACTCGTTGTTGAGACAGGCTTTCATGATTCATTTAACGAAATGACAGCGGCTGAGAATGCGTTGATCCAATGGTCACACACTACAATTAAACATGATAAGACATATCGTACGAATAAAGCGGAGATCGATCAGATGTACAGCACGCTGCACAGCAATCCGGAGATGCGCGCGCGGATTATCCAGCTCGCTATGAAGATTCGCTAG	MKPILSKAQLDYMKAKTKFEEKAKVMEKKIELARATHDEITQEVMEGLVVETGFHDSFNEMTAAENALIQWSHTTIKHDKTYRTNKAEIDQMYSTLHSNPEMRARIIQLAMKIR				NA	NA	NA	NA	NA
AK002_05878	3699			hypothetical protein	GTGAACGACGCAACATCCAAAACGGACGCCAACGTCCGAATGATCAAGGAGGCACAACCGTTGAAGAAAAATTTCCGTACAATAGCAAGCCTGTTATTGGCCATTGCTATGTTCTTTTCCCTTATTCCGGCATTACCGGCTTCAGCTGCAAACGGAGCCTTGTTTTTTCACTTTTCCAATCTAAGTACGGATCCGAATTCTCCAACGCCGGAGAACCGGAGCTCGATTTCGGTTACGGGTACCTACAACGGCATTAACCCGAATACCATCTCGTATGAAATCAAACGGTTCGATGACACGACCACGGGCGGCACCGGCGTCAAGCCGATCCTGGACGAAGCAGCGAATACGTTCGAGTTCCTGAATGTGCAGTTGAATCAGGGAGTGAACAAAATCATCGTGTCCGGTATGAGCACGCAAGGCCAGCAGATGAGTGCTACGGCCTATGTGAAGTTCTCCGATGTACCGGCTGTTTACGAAGTAGCGCTCAGTGATGGACGCGTTCTGGAAGAGAATGCTTCCAAGCCGGTTGTCGTTACTACGCAGACCATCAGCATTTCCGTCAAAGCGACGAATGGATCCAAGGGTGTTACCGTCAATGGGCAGAGTATGTATGCCGGCGGCGGCGATACGTATTACTCCGCAGGGATCCTGCTGCAGAAGGGTGTCAACGATCTGGTGATCGTCGTGAACTCCGAATCGAAATCCCAGACCATCAATAGACAGGTCGTTTATCATCCGACAGGTTCCATAACTGTCAATCAACTGAAGATTGGCGGCACAAATATCGATGGACAGGCGGTTGTAACCGGTACGGTTAACGGCGTCATCTCCGGTTATGTGATCGTGGATGCTCCTCCGGCTGGTACCCCAGCGGTTCCCCCGATTCTTGAAGTTTCCGTATTTCAGGTAGGAGCCACAAATCCGATCACGACCTCGCCGGCAACCGTAGGTGCGGCAAGCTTGCTGGGCAATACCTTGATGTATCCTTTTACAACGACCGGCACTACCAGCATCACTCAGAGTGGGGATTATTTTGTACTCACTAAGGATTCTACCACGGGCTTTGATGTGAAGAATTCTTTTACTTACCGCGATGTCAATGCGCCTACCATCAAGCAGGTGTATCAATTGTACGGCGTAACGGAGAGCGGAGGAACAGTATCGGCTACCTCCCAATCTATTTTCCCAAGCAGTAACAACACCGTCCTGAATGAACTGCCGATCTATTTGATGGTCGATCAAGTGAACGCAGGCAATGTGGAGATTGAGTCCAGCAAGGGCGGCGGCACGATCGCCCAGAAGTTTACCTACAACGGCAACACGGTTTTCAAAATCACGAACCTGCCGACAGGTCAGCAAAATCTGATCATCAAGGTCAGCAATGGGTCGGGCGTTTCCGATACCAAAGTCATCCCGGTGACGTTCTTGTCTTCTTCTTATATTGATATTTTCAATTTGTACAACAACCAGGTATTTAAGAACAGCTCAGATTTCAACCAAGTGACAGGACGCATTGTCAACTACACAGGGACTACAGGACTTACGATTTCCCTGAACGGTAACACTCGCGATCTGAACGTGAACGGCAACGGAGAATTCAGCTTTACGGATACGACGTTCCTGCAGCTGATTCCAGGTCCGAATACGTTGGTGGTCGCCGACAAGAGCGGGAAAATCTCGACGAAGCTGACCCTGCTTTATTTTAGCGATACCCGTTCGGTTATCAAAAACATGATCCCATTCCCGGTTGGCTCTGCAACGGAATCCGATCCGGACGGATTGTTCAGAGAAACGGCTGAGAATGCTTATAACACATATGAAAAAGCTTTGGGTCTTCGCTTTGAAGTGGAATACACGGATGAGATTACGGTGAACCTCAGTCATCCGACGCCAACCATCTTTGCAGTCTTTACCAAAAACAACCAAAGTACCTGGACTCTCTCGGGCGGTGCCCTGAAGACCCAATTGGATCCCATTAATCCGGCGGATTACGACCGGTACTTTACCATTGTCAATGGCGCAAACTCCAGCTCGGCCCGCGTGGTGTTCAAAGAGCTCGCACTTCCAGAGGTTGGTTTGCAGGCAATCAGCATCGGATCGCGTTATCAGTCGGTTACAACAACCGATACCATCGAAATTACGCGCGAACGTGCACCTTACCAAGTGCTGTCTCCTAAGCTGCCGAACGAAGGCGTGCTGAAACAGAACTTTGTAGAGGTAAGCATCAAGGCTGAAGGTGCCGACGCCATTCTGATTGGCAAAACGCCAATGGTGAAATCCGAAATCAGCGATATTTTCCGTCTTGAGGTCAAAAACCTGAAAAACGGTAAAAACACCATCAAGTTCACGATCGAACAAGGCACCAAAAAGACAAACGGCCAATTCGTCGTAACGTACACCGACGATGGAACGGAAGGCTCCCAGTTTAAAACGAATATTTCGAAGTCCGGCAAAGTGTCCGTATTTAAAGGCGGCGTATCGCTGTCCTTGCCGAAAGGCACCGTGCTTCAGCAGGCGAAATCAAGCCCTACGGCTGAAGTGCCAACGATCAACCTGCTCGGCGAGCATGACATCCTGTTCGGCATTGCCAACCAGATCGATGGTCGTACGATTAAAGCCTATAACCGGATCGGCGAAATCGAGAACGGCGTGGAAATGGACGGACGCCTGTCCCTGATTCCAGGGGATAACAACAATGCGTTCCGTTTCACGCCGGCTGCGCATTTCGGATATTCTTCGCCTCTTTACTGGCTGGACGCAGGTTCGCTTAATGCCTACAGCAGCAACGTGGAAGACTTCAATGTAAAAGCGGCAACGCATCCGTACGCAAAAGGGCACGAATTCCATCAACGTTTGATTCCGCAGAACTGGATGGAGCTCTCCCAAAAAGGTACGATTACCTTGAAATACGATTCCGCGCTGGTGAATTCGGCTTCCAGCAACCTGGGCATCTGGTGGTACAACCCGTCCCAAGGAACCTGGATCAACATCGGCGGAAAAGTCGATGCCAAGAAGAAAACCGTTACCGCTCCATTCAAGGGCTTCGGTTACTACGCCGTTAAATCCTTGCGTTACAGCTATTCCGATGCGATCTCGCATAAGACGGCCCGCAACGATATCGAATTGATGCTGGCCAGAGGATACATGAAAGCGTCCAAGCAGGATGCGTTCGGCGTGTACGATCCGATGACTCGCGGCGAATTTGCTACGATTATCGTGAAGCTGCTGGATATTCCGTTGGATTACGACACCGACAAGAACAAGCTGACCTTTGATGACATTTATCAGGAAAGTGTCGTCAACAGCATGCAGTGGGATTACCGTTACATCGAGACGGCAGCCAGAAAAGGGATCATCCGCGGCATTGCGCCTCGAAGCTTTGCTCCGAATATGGAGCTGACCCGCGAGGAAGCAGCCAACATGATCGCACGCGCACTGAACCTGAAGATGGGTGAAATCGAAAAAGATAAAGCAGCGCTTCAGAAGCAATTCGAAGATGTGGGCAATATCAAGTCGAACTACTCCTACCCAGCCATTCTTGCCGTAAGCAAGGCCGGTATTCTGACCGGCGTTGCGAACAGCTTGAAGGAAGGCGAGAGAAAGCCGACTTACAATTTCAACCCGGATGCGGTGCTGAATCGTGCCGATACGGCAACCGTCGTTAAACGCATGATGAGCAAGCTGAAAATGCTGTAA	MNDATSKTDANVRMIKEAQPLKKNFRTIASLLLAIAMFFSLIPALPASAANGALFFHFSNLSTDPNSPTPENRSSISVTGTYNGINPNTISYEIKRFDDTTTGGTGVKPILDEAANTFEFLNVQLNQGVNKIIVSGMSTQGQQMSATAYVKFSDVPAVYEVALSDGRVLEENASKPVVVTTQTISISVKATNGSKGVTVNGQSMYAGGGDTYYSAGILLQKGVNDLVIVVNSESKSQTINRQVVYHPTGSITVNQLKIGGTNIDGQAVVTGTVNGVISGYVIVDAPPAGTPAVPPILEVSVFQVGATNPITTSPATVGAASLLGNTLMYPFTTTGTTSITQSGDYFVLTKDSTTGFDVKNSFTYRDVNAPTIKQVYQLYGVTESGGTVSATSQSIFPSSNNTVLNELPIYLMVDQVNAGNVEIESSKGGGTIAQKFTYNGNTVFKITNLPTGQQNLIIKVSNGSGVSDTKVIPVTFLSSSYIDIFNLYNNQVFKNSSDFNQVTGRIVNYTGTTGLTISLNGNTRDLNVNGNGEFSFTDTTFLQLIPGPNTLVVADKSGKISTKLTLLYFSDTRSVIKNMIPFPVGSATESDPDGLFRETAENAYNTYEKALGLRFEVEYTDEITVNLSHPTPTIFAVFTKNNQSTWTLSGGALKTQLDPINPADYDRYFTIVNGANSSSARVVFKELALPEVGLQAISIGSRYQSVTTTDTIEITRERAPYQVLSPKLPNEGVLKQNFVEVSIKAEGADAILIGKTPMVKSEISDIFRLEVKNLKNGKNTIKFTIEQGTKKTNGQFVVTYTDDGTEGSQFKTNISKSGKVSVFKGGVSLSLPKGTVLQQAKSSPTAEVPTINLLGEHDILFGIANQIDGRTIKAYNRIGEIENGVEMDGRLSLIPGDNNNAFRFTPAAHFGYSSPLYWLDAGSLNAYSSNVEDFNVKAATHPYAKGHEFHQRLIPQNWMELSQKGTITLKYDSALVNSASSNLGIWWYNPSQGTWINIGGKVDAKKKTVTAPFKGFGYYAVKSLRYSYSDAISHKTARNDIELMLARGYMKASKQDAFGVYDPMTRGEFATIIVKLLDIPLDYDTDKNKLTFDDIYQESVVNSMQWDYRYIETAARKGIIRGIAPRSFAPNMELTREEAANMIARALNLKMGEIEKDKAALQKQFEDVGNIKSNYSYPAILAVSKAGILTGVANSLKEGERKPTYNFNPDAVLNRADTATVVKRMMSKLKML				NA	NA	NA	NA	NA
AK002_05879	1125	tagO_2	COG0472	putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase	ATGTTAATGATATACATCATCGGGTTTATCGTATCGCTGGCGCTCGCTCTGCTCTTAACCCCGCTTGTAAAGAAGTTTGCGGTTAAGATTGGTGCCGTTGACGTTCCTAATGCCCGCAAGGTTCATACCCGGATCATGCCCCGACTCGGGGGACTCGGCATTTATCTGGCTTTTATTCTTGGACTGATTGCGGTTCTTCCTTTTTTGCCGGATAGCCTGTCGCCTCGTGATGCCAACTTCATGAAGGCATTTCTGATCGGCGGTTCCATGATCGTATTGATCGGAGCCTTGGATGATCGATTTGAACTTTCGGCCAAAGTGAAGTTTTTGGCTCAGATTGCAGCTGCCTGCGTGGTTGTATTCGGATTTAATATTACCGTGGACTTTGTAAATATACCGTTCCAGGACCGTTACTCCATGCTGGAGAGCTGGGTATCGATTCCGCTTACGATCTTCTGGATTGTCGGCGTAACGAACGCGATTAATTTGATTGACGGGCTTGACGGACTTGCAGCCGGCGTATCCGGCATTGCGATCGGCACGATCCTGGTCATGGCCGTCCTGATGGGCAACACGACCGTAGCCCTGCTCTGCCTGCTGCTCCTCGGCAGCATTATCGGTTTCCTGTTTTTCAACTTTCACCCGGCGAAGATTTTCATGGGGGATACGGGGTCGTTATTCCTTGGATTCAGTTTGGCCATGCTGTCCCTGCTTGGATTTAAGCAGATTGCGATTGTATCCTTTATTACGCCGCTGATCATTATCGGCGTTCCGCTGTCGGATACGTTCTTCGCGATCATTCGCCGCAAAATCCAGAAGAAACCGATCTTTGCTCCGGACAAGGGGCATCTGCATCACTGCCTGCGCGAGCTTGGATTCAGCCATCGCCAGACCGTGTTGATCATTTACGTCATTGCCGCGTTTTTCGGCGTATTGGCCGTCATTCAATCGTCGGCTGCCATGTATGAAGCGAACTGGGTGACGTTTGTGGTCATCTGCGTCATGATGTGTTTCATGCAGATCGGTGCCGAAGTCATCGGGCTGGTCGGCAAGACCAAACGGCCGATTCTCGGGCTGATTAACCGGATGCGGATGAAGGCAAATCCCGAAAGCCGCACCAAATAG	MLMIYIIGFIVSLALALLLTPLVKKFAVKIGAVDVPNARKVHTRIMPRLGGLGIYLAFILGLIAVLPFLPDSLSPRDANFMKAFLIGGSMIVLIGALDDRFELSAKVKFLAQIAAACVVVFGFNITVDFVNIPFQDRYSMLESWVSIPLTIFWIVGVTNAINLIDGLDGLAAGVSGIAIGTILVMAVLMGNTTVALLCLLLLGSIIGFLFFNFHPAKIFMGDTGSLFLGFSLAMLSLLGFKQIAIVSFITPLIIIGVPLSDTFFAIIRRKIQKKPIFAPDKGHLHHCLRELGFSHRQTVLIIYVIAAFFGVLAVIQSSAAMYEANWVTFVVICVMMCFMQIGAEVIGLVGKTKRPILGLINRMRMKANPESRTK	PGPT0015240_1104	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
AK002_05880	759	tagA	COG1922	N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGAAACAGACCTATCCATTTCCTACCGTATCGGTATTCGACATTCCGTTTTCCAAGCTAGGCATGAAAGATACGGTGAAATACCTGACCGAGGCTGTGCAGTCGGGGCAGCCCCACCATGTCATCACGGCGAATCCGATCATGGTGATGACGGCCGTCAACAATCCGGAGTATAAACGGATGATGCAAGGCGCCGAAATCATCGTTCCGGACGGCACCGGAATCGTCTGGGCCGCCGGTGTGGGCGGCGATCCGTTGGAGGGACGCGTAACCGGCTTCGAGCTTTTACATGAATTGTTGAAGGTCGGGGAAACCTATAGATGGAAGTTCTTTCTGCTGGGAACTACCGCCGAAGTGATTCAGGAAGCTGCCGAAAGGTTACAAATGCAATATCCGGCTGCAATTATATGCGGCTGCCGGGACGGTTTTTTTGGGCCTGATGAGGATGCTGCCGTCATCGAACAGATACGGGCGGCTTCACCGGATATTTTGTTTGTGGCGCGCGGTGCGGATAACCAGGAGCCTTGGATTGCCCAGCATAAACAGGCGCTCCAGGTTCCGGTGGTGATGGGCGTCGGGGGATCGTTCGATATTATCTCCGGCAAACTGAAGCGGGCACCGAAGGTGTTCCAAAAGCTGCGTCTCGAATGGTTTTATCGCCTTCTGAAGGAGCCTACCCGTTACAAAAGAATGCTTGCGCTGCCGAAATTCGTAGTGAAAGTGCTGCGCGAGAAAGAAAACGTAACGAAATCGAGCTAA	MKQTYPFPTVSVFDIPFSKLGMKDTVKYLTEAVQSGQPHHVITANPIMVMTAVNNPEYKRMMQGAEIIVPDGTGIVWAAGVGGDPLEGRVTGFELLHELLKVGETYRWKFFLLGTTAEVIQEAAERLQMQYPAAIICGCRDGFFGPDEDAAVIEQIRAASPDILFVARGADNQEPWIAQHKQALQVPVVMGVGGSFDIISGKLKRAPKVFQKLRLEWFYRLLKEPTRYKRMLALPKFVVKVLREKENVTKSS	PGPT0023455_1056	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023455-tagA|tarA-K05946	NA	NA
AK002_05881	1239			hypothetical protein	ATGGTCTCCACTTCTAAGACAATAGTCATTTCCGGATATTACGGATTTAAAAATAGCGGTGACGAAGCGGTGCTGAAATCGATTCTGACCGCATTAGAGCAGGAAGGACAGGCGGCGGGGGTCGATATCAACCCCGTTGTGCTTTCCATTGACCCGGAATGGACTTCGGCTGCCTACGGGGTTAAATCCGTTCATCGGATGAAGCTGGGCGAGGTTCGACAGGCGATCAAGGACAGCGACGGTTTGATCAGCGGCGGGGGAAGCCTGCTGCAGGATACTACCAGTCCGAAGACCATCCCTTATTATCTGGGCGTTCTCAAGATCGCGCAGTGGCTCGGTAAACCGACGTTTATTTATGCCCAGGGCGTTGGCCCGGTGAACCGTAAACTGTTTTATCCGATGATTCGCTCGATCTTCCGTAAATGCACGTATATCTCGGTGCGGGACATCCAGTCGGGCGAACTGCTTCAGTCCATGGGAATATCGGGGGAAGCCGTGCACGTCGTGCCGGACCCGGTGATGGGGTTGCCGCTGCCGGCCGGAGAGGGTATCCACAGGGATTCCCACCCGGGATCAGCATTGAAAGAGAATGAAGCTGCACCAGTTTCTTCTATAGAAGAGCAGCGCGAATCATTCGAAGAACCTGTAAAGCCATCCTCGTTATTAAGCGGAGACACGAAAGGCTCTCTGCCAGTCATCGGCATTTCGGTTCGGTATTGGCATCCGGAACGAAAAGAACTGAAGGCTGTAGCGGAAGGTTTAAAGGCATTGGCCGAACAACGACCGGTGCATCTTCGCTTTCTTCCTTTTCATCAGCCGGATGATATTGAGGCTTCGCAGTTTATAGCGGATGCCATGGGTGATGTTTCCAAGAATGGCTCTGTCTTGAGTTTTTACCGCGATGAGAAACAGCCGCAGGACATGCTGCGCGAGGTTAGCCGTTGTGATATGATATTGGGCATGCGTCTGCATAGCCTGATCTATGCAGCGAATCAGAGCGTGCCGCTGCTCGGAATTTCTTATGATCCGAAAATCAACCACTTCTTGAAGCGGCTTGGCAGCGAGCCTGTCGGAAGCACTGAATCCCTTGATCCGAGCGTACTAAAGGATCAGATGCTGAAGCTGTTGGACGATGCAGCGGCATGGAAGGCGGAGCATGGCGAGCAGATTGCCGTGCTGAAACGCGAGGCTGCCATGCCTGCACGCCACATTGCCCAATATTTACGCCATAGAGGATGA	MVSTSKTIVISGYYGFKNSGDEAVLKSILTALEQEGQAAGVDINPVVLSIDPEWTSAAYGVKSVHRMKLGEVRQAIKDSDGLISGGGSLLQDTTSPKTIPYYLGVLKIAQWLGKPTFIYAQGVGPVNRKLFYPMIRSIFRKCTYISVRDIQSGELLQSMGISGEAVHVVPDPVMGLPLPAGEGIHRDSHPGSALKENEAAPVSSIEEQRESFEEPVKPSSLLSGDTKGSLPVIGISVRYWHPERKELKAVAEGLKALAEQRPVHLRFLPFHQPDDIEASQFIADAMGDVSKNGSVLSFYRDEKQPQDMLREVSRCDMILGMRLHSLIYAANQSVPLLGISYDPKINHFLKRLGSEPVGSTESLDPSVLKDQMLKLLDDAAAWKAEHGEQIAVLKREAAMPARHIAQYLRHRG				NA	NA	NA	NA	NA
AK002_05882	2019			hypothetical protein	GTGGTTCAGAAATGGAAACGCTGGAACACGGCAGCCCGCAAGTGGCTGTGGATTCTGGTTGTTCTTGGCGTTGCAGCGGCCCTGCCTGTAGGTTATGACCGACTGCAAACAGAATCAACATCAAAGAACGTTGAGTTGGTGTTTGATTATCGGGATTTGTTGGATGTCGCGGTGTATCAATCCAAGCCGCAGGATTTTATATCCGAGCAGCTGGATCGCCTGAAAGAGGCCGGCGTGATCAGTATGGCGCTTTATGAAAGCACGCTGGACGAGCTGGCGAAATCGCGGCGGATATCGGTATATGACGGGCAGCAGGTCGCCGATCTGACAGGTACGACGGTCTCCCCGAACGAGAATTTTACGTATGTTGCATTCCTGAACGAGGAAAGCGCAGCTTTAATTAAACCCATCATTCAAGACACGTTCATGAGACTGGGGATTCCGGTAAGATCATGGCAGTTCGATCGCGCAGTGGACGGATTGGTGCTGGAAACCCCGCGTTCCAATGCCGTCATTAAACCGTTGTCTCCAGACCCGATTACGATCAGCATGCTGCGGGAGAAGGGCTTTAACATTGTGCCGCGTCTGTCGGACAGTCTTCCGTATGACCAGGCTTACATGGAGAAGCTGATGGCGTACTTCGCGGATAACGGCGTGAAACGCATTCTGTTTGAAGGGGATTCCGCCAGAGGTTTTAATGATCAAGCCGACATGAAAAGCCTGGATTCCTTTGGCCAGCTGTTGAACCAACATGGTATCGGCCTAGTTGCGATTGAGAATATCAAGCGTCCGCAAAAAGGCTTTACGAAACTTGCCTATTTAACGGATTACAACGTAACCCGTATTTATTCCTTAAGCGAGCGGGATGCTAATCTGGAGCCCGAGGTTATCGGGGACCGCTTTGCCCTGGCCTCCAAAGACCGTAACATTCGTATGTTCTATTTGAATGCAGAGCCGAGCCGGGATATGACCAAGGCTACCGTTACTCATCCGCTCGACAATCTGATTGACAGTTTGACCGGATCGGGCCAAGCCATCAAGCAGATCGAGGACAATGGATTTACCATGGGTCCTGCAGAGCCGTTTAAGGTAACCGACTCGTCCTTGCAGCGTTACTTCAAGCTTGGGGCAGTCGTCGGAGCCATCGCGTTGATTTCGCTCATGATTTCCTATTACATTCCGTTCTTGACGATTGCAGCCTTCCTGATCGGCCTCGTGGGTAGCGCGGGATTGTATGTTTTGAAGCCGACATTGCTTGAGCAGGCCTTGGCTTTATTTGCTGCGATCAGTGCCCCAACGGTTGCCGTCATATTGGCCATTCGCAAAGTTAATGAAACGCAGAAGAGCATTCCGGACATGAGCTCTGGCAGAAGAGTGACTCATTCGATCGTATTGCTGGTCAAGACCTCAATCCTGTCGCTTGCGGCCGTACCGATCGTTGTTGCGTTATTGAACAATGTGACCTATATGCTCGTGCTGGATCAGTTCCGTGGCGTGAGCTTGCTGGCCGCAGCTCCGATTGGGCTTATTGCGATTTACGTGGTTCTGTATCGCGGTGGGTCGACTTACAGCGCAATTCTGAAGTTGCTTAAAGCACCGATCTCACTGACATGGGTCATAGCAGCCGGTATTGTGGCCATCGTTGGCTGGTACTATCTCACCCGTACTGGTAATGCAGGCTCCGTATCTTCGATCGAAATGGCATTCCGTACATTCCTGGAAAATACGTTTGGCGTACGTCCGCGTAACAAGGAATTCTTGCTTGCTCATCCGATGATGGTACTCGGCGTGTTCCTGTCATTTAAATACCGTCATGCCGTATACCTTCTCATTATCGGCGTGATGGGACAGCTGTCGATGGTCGGAACATTCACGCATATTCACACGCCTCTCTATATTTCGGCGATTCGGGTGGTATTGGGCCTTGGACTCGGCCTGATCATCGGATTGATCGCGATATTGGTATGGCAAGTGGCAGAAAGGATCTGGAAACGATGGTCTCCACTTCTAAGACAATAG	MVQKWKRWNTAARKWLWILVVLGVAAALPVGYDRLQTESTSKNVELVFDYRDLLDVAVYQSKPQDFISEQLDRLKEAGVISMALYESTLDELAKSRRISVYDGQQVADLTGTTVSPNENFTYVAFLNEESAALIKPIIQDTFMRLGIPVRSWQFDRAVDGLVLETPRSNAVIKPLSPDPITISMLREKGFNIVPRLSDSLPYDQAYMEKLMAYFADNGVKRILFEGDSARGFNDQADMKSLDSFGQLLNQHGIGLVAIENIKRPQKGFTKLAYLTDYNVTRIYSLSERDANLEPEVIGDRFALASKDRNIRMFYLNAEPSRDMTKATVTHPLDNLIDSLTGSGQAIKQIEDNGFTMGPAEPFKVTDSSLQRYFKLGAVVGAIALISLMISYYIPFLTIAAFLIGLVGSAGLYVLKPTLLEQALALFAAISAPTVAVILAIRKVNETQKSIPDMSSGRRVTHSIVLLVKTSILSLAAVPIVVALLNNVTYMLVLDQFRGVSLLAAAPIGLIAIYVVLYRGGSTYSAILKLLKAPISLTWVIAAGIVAIVGWYYLTRTGNAGSVSSIEMAFRTFLENTFGVRPRNKEFLLAHPMMVLGVFLSFKYRHAVYLLIIGVMGQLSMVGTFTHIHTPLYISAIRVVLGLGLGLIIGLIAILVWQVAERIWKRWSPLLRQ				NA	NA	NA	NA	NA
AK002_05883	1719	pgcA		Phosphoglucomutase	ATGTCAGAGATGAGTCAGAGAACAATCGATACGGTACAGCGTTGGTTGAATGATCCTTATGTAGATGAGGAGACGAAACAGGAGCTGCGTTCACTCGAGCACGATGCCAAAGAGCTGGAGGAGCGTTTTTATCGTGATCTGGAATTTGGAACGGGCGGTCTGCGCGGCGTCATCGGTGCAGGCAGCAACCGGATTAATAAATATACGGTAGGTCGCGCAACGCAAGGCTTTGCGCAATATATTCTGGAGGCTCACGGCGATGCGGAAGGCAAGCCTTCCGTTGTCATTGCCCATGATTCCCGGCATTTCTCGCCGGAGTTTGCTTTGGAGGCTGCTTTGGTTCTGGCCGGCAATGGGATTGTAGCCAAGCTTTATACTTCCTTGCGTTCTACGCCGCAACTGTCATTCAGCGTGCGCCACTTGGGCGCTACCGGCGGGATTGTCATCACGGCAAGCCATAATCCGCCGGAATATAACGGCTATAAGGTGTACAACCGTGAAGGCGGCCAGCTGGTGCCGGACGAAGCGGAGAACGTGATTGCCCGGATTCAGGAGGTGGAATCTTTCTCCGCCGTGAAAAGGCTGTCGCAGGCGGATGCCGAGGCTCAGGGTCTGCTGGTTTGGCTGGGTGAAGCGGAGGACCAGGCTTTTGTGGATACGGTGACCGATGTCAGCGTGAATCGGGAGCTTATCGCGTCCAAGCTTGGCGAGGATTTTAGAATCGTATTCACGCCGCTGCACGGAACAGGGCAAGCCCCGGTCGAACGGGTGCTTCGGAGCATCGGCTTTAAGCATATCCATGTCGTTCCTGAGCAAGCACAGCCGGACGGCAACTTCTCCACCGTGAAATCTCCGAATCCGGAGGAACGGGAAGCGTTCACGCTTGCGATGAAGCTTGGCGAGGAAGTGGGAGCCGACATTTTGATTGGAACGGATCCGGACGCAGACCGCATGGGGGCCGTCGTGAAGAACGCTCAGGGCGAATATGTCGTGTTGACAGGCAATCAATCCGGCGCGATTATGATCCACTATTTGCTGGGTCAATTGAAAGCAGCGGGCAAGCTGCCTCATAACGGTGCCGTCATCAAGACCATCGTCACGAGCGAGATGGGAGCGGCGATTGCCGAGCATTATGGTGCCGCCGTGTTGAATACATTGACGGGCTTCAAGTACATTGGCGAGAAAATGACCCAGTTCGAGGAGTCCGGCAGCCATACGTATCTGTTCGGCTATGAGGAGAGTTACGGCTATTTGGCAGGCAACTATGCGCGCGATAAGGATGCCGTGCTGGCCTCGATGCTGATTTGCGAAGCAGCCGCCTACTATAAAGGACAAGGCAAGACGCTGTACGATGTGCTGCAGGAGCTTTACGAGCAGTTCGGTTATTTCCTCGAGACGCTGGAATCCCGGACGCTCAAAGGCAAGGATGGCGTTGCCCAGATTCAAGCCAAGATGTCCGATTGGCGCGACAATCCGCCCCAGAAGGTCGGAGGTGTATCGGTTAAGCAGGTCCTTGACTACGCAGAAGGCTTGGACGGATTACCGAAGGAAAACGTGTTAAAATATTTGCTGGAAGACGGTTCATGGTTCTGCCTGAGACCTTCGGGCACCGAGCCGAAGATCAAAGTATATTTTGCCGTGCGCGGTGAATCTCTCGCCGATGCGAAGGCCAAAATTCAATCGCTCTCGGATCAAGTCATGGCCCGGGTAGACGCTTAA	MSEMSQRTIDTVQRWLNDPYVDEETKQELRSLEHDAKELEERFYRDLEFGTGGLRGVIGAGSNRINKYTVGRATQGFAQYILEAHGDAEGKPSVVIAHDSRHFSPEFALEAALVLAGNGIVAKLYTSLRSTPQLSFSVRHLGATGGIVITASHNPPEYNGYKVYNREGGQLVPDEAENVIARIQEVESFSAVKRLSQADAEAQGLLVWLGEAEDQAFVDTVTDVSVNRELIASKLGEDFRIVFTPLHGTGQAPVERVLRSIGFKHIHVVPEQAQPDGNFSTVKSPNPEEREAFTLAMKLGEEVGADILIGTDPDADRMGAVVKNAQGEYVVLTGNQSGAIMIHYLLGQLKAAGKLPHNGAVIKTIVTSEMGAAIAEHYGAAVLNTLTGFKYIGEKMTQFEESGSHTYLFGYEESYGYLAGNYARDKDAVLASMLICEAAAYYKGQGKTLYDVLQELYEQFGYFLETLESRTLKGKDGVAQIQAKMSDWRDNPPQKVGGVSVKQVLDYAEGLDGLPKENVLKYLLEDGSWFCLRPSGTEPKIKVYFAVRGESLADAKAKIQSLSDQVMARVDA	PGPT0017710_1473	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
AK002_05884	432	fabZ	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGTTGAACATCAAACAGATCCAAGAGATTATTCCGCATCGTCCCCCGTTCTTGCTCGTCGATAAGATCGTGGAGATCGAGGATGGCAAACGGGCGGTCGGTATCAAGAACGTGACGATCAACGAACCGTTTTTTGTCGGGCATTTCCCTGAATATGCCGTTATGCCGGGAGTCCTGATTGTAGAAGCTTTGGCGCAAGTCGGCGCTGTGGCGATTCTCAACGTAGAGAGCAATCGGGGCAAGCTCGGCTTTTTGGCGGGCATTGACGGTTTCCGTTTCCGTGGACAAGTGGTGCCGGGAGATACGCTGCGCCTGGAAGTTGAGATCATTCGCCTGAAGGGCATGATCGGCAAAGGGAAAGCGACGGCAACGGTGGATGGACGCGTAGTGGCCGAGGGAGAAATTATGTTTGCTCTCGCGGATAAGGAGTAA	MLNIKQIQEIIPHRPPFLLVDKIVEIEDGKRAVGIKNVTINEPFFVGHFPEYAVMPGVLIVEALAQVGAVAILNVESNRGKLGFLAGIDGFRFRGQVVPGDTLRLEVEIIRLKGMIGKGKATATVDGRVVAEGEIMFALADKE	PGPT0008365_3387	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
AK002_05885	201			hypothetical protein	ATGAGTGAATCAAACGCCAAAAAACGCTCCAAGACATCCGGATGGAAAATCGCCGTCCGTATCATGATTCCTGTATTGCTCGTACTGGCATTATTCGGGGGCATGGTCTTCGGATATGTTGTCCTGGGGGATCAGGAGCTTAGTGAAGTGTTTGAATGGGGCACATGGAAGCATGTTTTTGATTTGATTTTCGCACCGTGA	MSESNAKKRSKTSGWKIAVRIMIPVLLVLALFGGMVFGYVVLGDQELSEVFEWGTWKHVFDLIFAP				NA	NA	NA	NA	NA
AK002_05886	828	flgG_2	COG4786	Flagellar basal-body rod protein FlgG	ATGAACAACTCGATGATAAGCGCCATGGTGTCGATGAATGCCCTCCAGCAGCGATTGGATGTCATTGCGGACAATATGGCAAACGTCAACACGGCTGGTTATAAGAAAAAGGAGGCATCCTTTGAGGATGTGCTGACTCAGGTTCAGGGCCATCATAAGGATTTCGACCGGACGGGCCGTGCGACGCCGCTTGGCTATACACTCGGGTACGGCATGAGATTATCTTCCGTTGTGCCAAACATGGAGCAGGGCGCCATGAAGGAAACCGGCAACCCGCTCGATCTGATGATTGACGGGCAAGCCATGTTTGCGGTTCAGGGTGACGGCGCGATCGGATATACCCGCGAAGGCGGATTCCATGTATCCCCGGACGCCCGTAATCCGAACAACCTGCTGCTGGTCAATTCACAAGGCTATCCTGTGCTTGACGTGAACGATAACCCGATCTCTCTTCCGGCCAAAGGGAAAGTTGCCATCAATGAGAGAGGTCAGATTATCGTGGAGACCCCAACGGGTGGCCGTACGGCTCCTTATGCTACCTTGAAGCTGGTTGAGCTTGAGCGTCCGGAGGGACTGGTCGCTGTAGGGGATAACCTGTTTGTCTTAGGGAACGGCTTAGCGGAAGGCGACGTATTCGATACGACGCCGCCTGCTCCGGGCGAGCCTCCTAAATCCAAGGTGCTTTCCGGATTTGTGGAGCAATCCAACGTGAACCTGACCGATGAATTGACCAAGATGATGGAAGTTCAGCGGGCCTACCAGCTGACGGCACGCGCGCTTAGTTCCAGCGATACCATGATGAACCTTGCCAACACAATGCGAGGGTAG	MNNSMISAMVSMNALQQRLDVIADNMANVNTAGYKKKEASFEDVLTQVQGHHKDFDRTGRATPLGYTLGYGMRLSSVVPNMEQGAMKETGNPLDLMIDGQAMFAVQGDGAIGYTREGGFHVSPDARNPNNLLLVNSQGYPVLDVNDNPISLPAKGKVAINERGQIIVETPTGGRTAPYATLKLVELERPEGLVAVGDNLFVLGNGLAEGDVFDTTPPAPGEPPKSKVLSGFVEQSNVNLTDELTKMMEVQRAYQLTARALSSSDTMMNLANTMRG	PGPT0015495_165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
AK002_05887	882	flgG_3	COG4786	Flagellar basal-body rod protein FlgG	TTGTTAAGAGGTCTTTATACAGCGGCTTCAGGGATGATGACCCAGGAGCAGCGACATAATACGGTGACGCAGAACATCGCCAACGTTAACACGACAGGCTATAAGGCAACGAACAGCGTACAGCGATCGTTCCCTGAAGTGCTGGTCTCGATGATCGGCGGCAACGAGTCGTCGAATGCGGGACGGAAGCTCGGCAAGTTCAACACCGGCGTATACGCGGAGGAGAGCATTTCGCTCTATACGGAAGGCGCGCTCCGGGAAACGAACAAGACAACGGACTTTGCGCTGGTATCCTCGTTCACGGTACAGAATCCGGCAACGGGCCAGGCTTATCCGTTTGATGCTTCGGGCAGATACGTGGATGAGAACGGCGAGGTGATTTACCGGCCGGAAGGATTTTTCACGGTTCAGAACGAGAACGGAGATGTCCGGTACACCCGCAACGGAAGCTTCCGGGTCAGCCCCGAAGGCAACCTGTTGAGCGAGAGCGGCTATCAGGTTCTGGATAACAATAACAGACCGATTGTATTGACAGGTCCGGCGAGTGACTTTACAGTGAATGAGCAAGGAGAAATCTTGGACGCCGCTGGCAGAGGGACGGGCATCATCCTCGGCGTCAGCATCGTGAGCCAGCCTCATGGACTGATTCGAGAAGGGCATGGCGTGTTCCGCATGGCCGATCCGGACGGTGAAGTGCGTTTTATGACGCCGGCCGATAACGGAGTGGTCCGTCAGGGATTCATCGAAGGATCCAACGTGGATCCAACGCAATCGATGGTGGAATTGACCGCTGCGCTGCGCGCGTATGAAACGAATCAGAAAATCGTTCAATATTACGACAGAACGCTGGAGAAGGCGGTCAATGAGATTGGCCGCGTCTAA	MLRGLYTAASGMMTQEQRHNTVTQNIANVNTTGYKATNSVQRSFPEVLVSMIGGNESSNAGRKLGKFNTGVYAEESISLYTEGALRETNKTTDFALVSSFTVQNPATGQAYPFDASGRYVDENGEVIYRPEGFFTVQNENGDVRYTRNGSFRVSPEGNLLSESGYQVLDNNNRPIVLTGPASDFTVNEQGEILDAAGRGTGIILGVSIVSQPHGLIREGHGVFRMADPDGEVRFMTPADNGVVRQGFIEGSNVDPTQSMVELTAALRAYETNQKIVQYYDRTLEKAVNEIGRV	PGPT0015490_48	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
AK002_05888	1002	mbl	COG1077	Cell shape-determining protein Mbl	ATGATGTTGAGCAAGGATATTGGAATCGATCTCGGAACGGCGAACGTGCTCATTCACGTAAAGGGGAAGGGGGTAGTGTTAGACGAACCTTCCGTTGTCACTATTGAGACCGACACCAAACGAGTCCTTGCCGTCGGTGAGGAAGCACGGCGCATGGTCGGGCGTACTCCCGGCAACATTACGGCGATCCGCCCGCTGAGGGACGGGGTCATCGCCGACTTCGAAATTACGGAAGCGATGCTGAAGTACTTTATTGATCGCGTGGGCGCGCGCAGTTGGCACAGCCGGCCCCGAATCCTGATCTGTGCACCGACGAACATTACTTCGGTGGAGCAGAAAGCGATCCGGGAAGCGGCTGAGCGCAGCGGCGCAAGGGATGTCTTCCTGGAAGAAGAACCGAAGGCGGCGGCAATCGGCGCAGGAATGGATATTTTCCAACCGAGCGGTAACATGGTCGTGGACATCGGGGGCGGCACCACGGATGTGGCCGTCCTGTCCATGGGCGATGTGGTCACCGCTTCTTCGATTAAAATGGCAGGGGACAAGTTCGACGAGGCGATCACGAAGTACGTGAAGCATAAATATAAATTGCTGATCGGGGAACGGACGGCAGAAGATTTGAAGATGGCGATCGGAACGGTTCGTCCGGGCGGCAGACAAGCTGAGATGGACATTCGCGGACGCGATATGGTATCGGGGTTGCCGTTTACCGTAACGGTGTCGTCAGAGGAAGTGCAGGAAGCCCTGTGGGATCCCGTGTCATCGATCGTGCTCGCAGCCAAATCCGTATTGGAGCGCACTCCGCCTGAGCTGTCGGCGGACATCATCGATCGCGGCGTCATTCTAACGGGCGGCGGCGCGCTGCTTCACGGATTGGACGAGCTGTTGACGGACGAGCTTCGGGTACCGGTGCTTGTCGCTGAAGATCCGATGCACTGTGTGGTTAAAGGAACGGGAATTATGCTGGATAATTTGGACAAGGTCGTTAAGAAAAAGTTCTAA	MMLSKDIGIDLGTANVLIHVKGKGVVLDEPSVVTIETDTKRVLAVGEEARRMVGRTPGNITAIRPLRDGVIADFEITEAMLKYFIDRVGARSWHSRPRILICAPTNITSVEQKAIREAAERSGARDVFLEEEPKAAAIGAGMDIFQPSGNMVVDIGGGTTDVAVLSMGDVVTASSIKMAGDKFDEAITKYVKHKYKLLIGERTAEDLKMAIGTVRPGGRQAEMDIRGRDMVSGLPFTVTVSSEEVQEALWDPVSSIVLAAKSVLERTPPELSADIIDRGVILTGGGALLHGLDELLTDELRVPVLVAEDPMHCVVKGTGIMLDNLDKVVKKKF	PGPT0027700_3840	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
AK002_05889	285	spoIIID		Stage III sporulation protein D	GTGCACGATTACATCAAAGAGCGGACCATTAAGATCGGACGCTGTATCGTGGAAACGAGGCATACGGTTCGAACTATAGCCAAAGAATTTGGCGTGTCGAAGAGCACGGTGCATAAGGACTTAACCGAACGTCTGCCGGAGATCAACCCGGACCTGGCGGATCAGGTAAAGCACATTCTCGAATACCACAAATCCATCCGCCATCTGAGAGGCGGAGAAGCTACCAAGATCAAGTACAAAAAAACCGGCAGCAACCGTGAACCGGTGGCCACGGCAAAATCCTGA	MHDYIKERTIKIGRCIVETRHTVRTIAKEFGVSKSTVHKDLTERLPEINPDLADQVKHILEYHKSIRHLRGGEATKIKYKKTGSNREPVATAKS	PGPT0024715_71	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024715-spoIIID-K06283	NA	NA
AK002_05890	741	spoIIQ	COG0739	Stage II sporulation protein Q	ATGAATGAACAGAACAAAAATAGTAAACCCCACGAAGAAACTCCTAAAACTGTGCAAGGAGATTCGGCGGTAACGTCATCTTCGTGGAAGAAAGCATTATCCAAACGGTGGGTGTTCCCGGCAGCATACTTAGCAGCAGCGGCAATTATACTAACCCTCGTGTGGGTCTACCAGGACGCCAGCCAAAAGACGCTGAACCCACAAGAGGAAGCAACAACCGTATCGGAATCGGTTCAAGGCTCGGAGAAGCCTGCTGCAACCGAAGGCAATGACGGAGAGGCTGTAGAAGTGACGGCTAATGCGCAAGCGATGATCTGGCCGGTAGCGGACGACGTGGCGGTGAGCATCGTCAAACCTTACTTTGACGAGACGAACCCGGAGACCCATCAAGAGGCGATGGTGCAATATAACGACACCTTCACGCCGAATCTAGGAATCGACTTGGCTGCCGCCGACGACACGATGTTCGAAGTCAGAGCCGCGCTTACGGGTAAAGTGACCCGGGTCGAGAATCATCCGGTCAACGGCAACGTCGTGGAGATTACCTCCGGCGATACGAAAACCGTGTACCAAAGCTTGAACGAAGTGAAAGTGAAGGAAGGCGCTGAAGTGAAGCAGGGCGATTCCATCGCGACGGCCGGACGCAGCGAGCTTGAGAAGGATCTCGGCAACCACGTGCACTTTGAAGTGTATGAGGGCGGGAAACTGGTCAACCCTGTGAGCGTGCTTCCGCAAAAATAA	MNEQNKNSKPHEETPKTVQGDSAVTSSSWKKALSKRWVFPAAYLAAAAIILTLVWVYQDASQKTLNPQEEATTVSESVQGSEKPAATEGNDGEAVEVTANAQAMIWPVADDVAVSIVKPYFDETNPETHQEAMVQYNDTFTPNLGIDLAAADDTMFEVRAALTGKVTRVENHPVNGNVVEITSGDTKTVYQSLNEVKVKEGAEVKQGDSIATAGRSELEKDLGNHVHFEVYEGGKLVNPVSVLPQK	PGPT0024695_175	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024695-spoIIQ-K06386	NA	NA
AK002_05891	1611			hypothetical protein	ATGAAAGATTCGAAGGTTCGGGTGAATGTGAGCACCCCAAGGAACAAACGAGCGGTCGATTCAAAAGACGTTTTGAAAGAAGGAAGTGCTGAGCCTTATCAGGTGCCGTCCGAAGGATCGGCGGCTCCCGTGTTAAAATGGAAATTTCCTGAGGGGCTTGAGAAGATAGGCGGGCTGACAGAAGAACAAAGCCGTCGTTCGATACCGGATACAGAGGACATGCAGGAAGGGCCGCGCGGGCACCGCGGCCCGGGGAGCAGGCCGGACGCCTTCGGCGAGTCCGGCCATGGCCCGCGGGCGGCACAGACGCCGCCGCCCGAACGCCCTGCCGGCGCGCCTGCGCATGGCGCCGCGCCAGCCCCCGGCGGGCCGGCGGCGATGCCGCAGGGCCCGCACTCCGCGGCCGAGCCGCAGCGCTTCGCGCAAGCGGCACCGGGCCGCGTGCCGCGCGGCGGCCGCACGTTCCGTGTGCGGCCTGCGCGTTGGGGGCGCCGCGGCTTTGCCGCGCGGCGCCCGGCCGCCGGGAAGCGGCGGGTGCGGGTGCACCCCGCCGTCTGGGCGGTGGCCGGGCTGCTGGCCTTGGCGCTGGCGCTGCCTCTGCTGGTGGTTGCCCCCGGCAACAATGCACCAGAGCCGCTGCCGCCCGGGCCGGCCCCGCTGCCTTCCGCCGAGCCGCAGGCGGCGGAAGAGCCCACGGTATCCGTCTACGTAACCAAGACGGATACCGTGGAGGAGCTGCCGCTGGAACAATACCTCGTCGGCGTCCTGGCCGCCGAGATGCCGGCGGAGTTCCAGCTGGAGGCGCTCAAGGCCCAGGCCATCGCGGCACGAACCTATATCGTGCAGCGGCTGGCGTCCGGCGACCGCAGCGGCGTGCCGGACGGCAAGGCCCTGGTGACCGACACGGTCAGTCACCAGGCTTATATCGCCCAAGGCGAGCTGACGAAGGAATGGCGTCGGCTGGGGAAGGAAGCCGAGCTGGCGAAGCTGCGGCAGGCCGTTAAGGAAACGGCGGGTGTGGTGATGACGTATGAAGGTAAGCCGATTACGGCTTCTTTTTTCTCCACCAGCAACGGGTATACCGAAAATTCAGAGGATTATTGGAAGAACGAGATTCCCTACCTGCGCAGCGTGGAGAGTCCATGGGATAAAGAGATTTCGCCCAAATACAAGACAACGGTCACGATGCCAAGGTCGGAGTTTATCGGGAAGCTTGGCCTGGCTGATGGAGCCGTACCGGTATCGGCAGGCGGGGATGGGGGTTCTTCTTTTTTGAAGGTGCTCTCGTATACGCAAGGCCATCGCATTGAAAGCGTGCGGGTCGGCGGCAAGAAGTTCACCGGTCGCGAGGTGAGAGAGAAGCTGGGGCTCCGGTCCAGCCAATTCACCCTTCATATGAAAGACGGAGAGATTGAGATTACGACCTACGGCAACGGCCACGGAGTCGGCATGAGCCAATACGGAGCAGAGGGCATGGCCCGCGAGGGATATGAAGCGAAAGCGATCCTGGAGCACTATTATACGAATATTTCTTTTGACAAAACTTCAAATCTTCTCTCTTTAAATACAAGTTCAAAAAATCGGTTTTTCAACACCGAGAAGGTTGAATAA	MKDSKVRVNVSTPRNKRAVDSKDVLKEGSAEPYQVPSEGSAAPVLKWKFPEGLEKIGGLTEEQSRRSIPDTEDMQEGPRGHRGPGSRPDAFGESGHGPRAAQTPPPERPAGAPAHGAAPAPGGPAAMPQGPHSAAEPQRFAQAAPGRVPRGGRTFRVRPARWGRRGFAARRPAAGKRRVRVHPAVWAVAGLLALALALPLLVVAPGNNAPEPLPPGPAPLPSAEPQAAEEPTVSVYVTKTDTVEELPLEQYLVGVLAAEMPAEFQLEALKAQAIAARTYIVQRLASGDRSGVPDGKALVTDTVSHQAYIAQGELTKEWRRLGKEAELAKLRQAVKETAGVVMTYEGKPITASFFSTSNGYTENSEDYWKNEIPYLRSVESPWDKEISPKYKTTVTMPRSEFIGKLGLADGAVPVSAGGDGGSSFLKVLSYTQGHRIESVRVGGKKFTGREVREKLGLRSSQFTLHMKDGEIEITTYGNGHGVGMSQYGAEGMAREGYEAKAILEHYYTNISFDKTSNLLSLNTSSKNRFFNTEKVE	PGPT0024670_193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381	NA	NA
AK002_05892	1350	murAA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1	ATGATGAGCAAATTTATCGTCCGCGGTGGCAAAAGACTGACCGGAAGCGTCAAAGTCAGCGGAGCAAAAAATTCAGTTCTTCCGATCATCGCTGCCTCTCTACTAGGGGAAGTTGGGGAAAGTGTTATTATTGACGCGCCTCCTCTTGACGATGTAATTACAATCAGCAAAGTATTGGAGTCGCTTGGTGCGGGCATTACATATCAGGATGAAGTGATACGTGTGAATGCAGAGCACATAACGACATGTGAAGCGCCTTATGAATGGGTGCGGAAGATGCGGGCGTCTTTTCTGGTCATGGGACCTTTATTGGCACGTTGTGGACGAACCCGGATTTCGCTTCCCGGGGGATGTGCTATCGGCACAAGACCCATCGATCAGCATCTAAAAGGATTTGAAGCTCTCGGGGCGGAAATCAGCCTCGGACAAGGATATATTGAAGCTAAGAGCAATGGCAGATTGCGCGGGGCAAAGGTCTATTTGGACGTTGCCAGCGTAGGTGCTACTGAAAATATTATGATGGCTGCCACATTGGCTGAAGGGACAACGGTTATCGAAAATGCGGCGAAAGAGCCGGAAATTGTCGATTTAGCGAACTACCTGAATGCGATGGGAGCCAAAGTTCGCGGTGCGGGCACGGGCGTGATCCGCATCGAAGGCGTTGAGAAGATGCATGGCGTGAAGCATAACGTGATTCCTGACCGGATCGAAGCAGGCACCTTCATGGCTGCTGCTGCGATTACCGGCGGGGACGTATACGTGGAAGGAGCCATTGCCGATCATCTCGGCCCTGTCATCTCCAAGATGGAGGAGATGGGGATCACCGTCGAGCCGGACGAGAACGGGATTCGCGTCATCGCTGACAAGCCGTTAAAGTCGGTGGATGTGAAAACCTTGCCTTACCCTGGATTCCCTACCGACATGCAATCCCAGATGATGGCGCTCTTGCTGGTGTCGGAAGGTACAAGTGTCGTGACCGAAACCGTATTTGAGAACCGCTTTATGCACGTGGACGAATTCCAGTTGATGAATGCGGAGATCAAGGTGGAGGGACGTTCTGCCATCGTGACCGGCGGCGCAAAGCTAAAAGGAGCCAAAGTAACGGCAACGGATCTGCGTGCAGGGGCCGCCTTGATTTTAGCCGGTCTTGTCTCTGAGGGGACTACCGAAGTTGGCGGCGTTCAGCATATTGATCGCGGTTATGTTCATTTGGCGGAGAAGCTGTCCGGACTAGGCGCGGATATCTGGCGTATTTCGACGGAGGAACCGAGCACGGAGAAGGTTTCGAAGAAGGCGGCAACTGAAGCAGAGGAAGCCAAATCTTTTAAAGTGCAGCCAACCTGGGTATAG	MMSKFIVRGGKRLTGSVKVSGAKNSVLPIIAASLLGEVGESVIIDAPPLDDVITISKVLESLGAGITYQDEVIRVNAEHITTCEAPYEWVRKMRASFLVMGPLLARCGRTRISLPGGCAIGTRPIDQHLKGFEALGAEISLGQGYIEAKSNGRLRGAKVYLDVASVGATENIMMAATLAEGTTVIENAAKEPEIVDLANYLNAMGAKVRGAGTGVIRIEGVEKMHGVKHNVIPDRIEAGTFMAAAAITGGDVYVEGAIADHLGPVISKMEEMGITVEPDENGIRVIADKPLKSVDVKTLPYPGFPTDMQSQMMALLLVSEGTSVVTETVFENRFMHVDEFQLMNAEIKVEGRSAIVTGGAKLKGAKVTATDLRAGAALILAGLVSEGTTEVGGVQHIDRGYVHLAEKLSGLGADIWRISTEEPSTEKVSKKAATEAEEAKSFKVQPTWV	PGPT0024090_528	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK002_05893	255			hypothetical protein	ATGAATCAGGATTTATCTAATTCAATCGGTGCCGTCGGTGTTAGCGGATTGATATCGATTGTTGTTTCACTGGTCTGTATCGCACTGGCTTGGTGGGCATTACAACAAGTAAAGCTGGATTTGGTTGTCCGTCATCCGAAAGGGCCGCAGGGAAAGCTGCTGCATTTGCTGCTGGCCGTGGTGCTTGGACGATTCGTTGCTGAATTCCTAATTGACTATATTACATGGAGTCAAATGATCCGATATATGTTTTAA	MNQDLSNSIGAVGVSGLISIVVSLVCIALAWWALQQVKLDLVVRHPKGPQGKLLHLLLAVVLGRFVAEFLIDYITWSQMIRYMF				NA	NA	NA	NA	NA
AK002_05894	111			hypothetical protein	ATGAAACTATATCCATTCCTGGTGTTTCATTGGTTCATGATTGCGATAAGAACAGCATTTTGGACTTCTGCTAATGGCGTGTTCCTGATCGTTTTTGGGCAATGTCGATAA	MKLYPFLVFHWFMIAIRTAFWTSANGVFLIVFGQCR				NA	NA	NA	NA	NA
AK002_05895	405	atpC	COG0355	ATP synthase epsilon chain	GTGAGCACCATTTTGTTGGAAATCGTAACGCCGGACCGCTTGGTTTACTCCGAGCAGGTGAACAGTGTTACGGTGCGTGGGGTCGAGGGAGAGCTGGGCATTTTGCCTGGTCATATTTCCTTCGTTACGCCGCTTCAAATAGCGCCAGTCTTTGTGAAGATCGGCAACGAGAGAACCCCGTTTGCGGTACAGGGCGGTTTCGTCGAAGTCCGCAAAGATAAGATTGTCGTCCTGGCGGAAAGCGCAGAGAGAGCGGGAGAAATCGATCTGGAGCGTGCGGAAGCCGCGAAGGAAAGAGCAGAGACTCGCCTGCATGCGAAGGGAAGACAAGATGAAGTTGACCATCGTCGCGCGGAATTGGCTCTGCAAAGAGCGATGAACCGGATTAAAGTGACGCGGAACTAA	MSTILLEIVTPDRLVYSEQVNSVTVRGVEGELGILPGHISFVTPLQIAPVFVKIGNERTPFAVQGGFVEVRKDKIVVLAESAERAGEIDLERAEAAKERAETRLHAKGRQDEVDHRRAELALQRAMNRIKVTRN	PGPT0014295_2514	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
AK002_05896	1401	atpD	COG0055	ATP synthase subunit beta	ATGAAAAAAGGACGCGTTGTCAGCATTACAGGTGCTGTAGTTGACATTGAATTTGAGCGCGGTCATCTTCCCGAGATTTTTAATGCTGTCAAGATTGAAGCTACGTTGGAAGGCGGCCGCTCGGTTGATTTGACTTTGGAAGTATCCAATCATTTGGGTGATAACCTGGTTCGTTGTATCGCGATGTCATCCACAGACGGTCTCGTTCGCGGTATCGAAGCTGTGGATTTGGGCAGACCAATCACGGTTCCTGTAGGTTCCGCTACACTCGGACGCGTATTTAACGTATTGGGTGAGCCGATCGATAATGCAGGTGCCGTAGTGTCCGAAGTTAATAACCCGATCCACCGTGAAGCTCCTGCATACGATGAACTCTCCACGCAAGCAGAAATGCTTGAAACGGGGATTAAAGTTATCGACCTGCTTGCTCCATACCAAAAAGGCGGTAAAATCGGTCTCTTTGGCGGTGCCGGCGTAGGTAAGACCGTTGCGATCCAGGAATTGATCAACAACATCGCTCAAGAACACGGCGGTATTTCCGTATTCGCCGGCGTAGGTGAGCGTACTCGTGAAGGTAATGACCTTTACCACGAGATGAGCGATTCCGGCGTTATCAACAAAACCGCGATGGTATTCGGTCAGATGAACGAGCCTCCGGGTGCCCGTCTTCGCGTAGCGTTGACCGGCTTGACGATGGCGGAATATTTCCGTGATCAAGAAGGTAAAGACGTGCTTCTCTTTATCGATAACATCTTCCGCTTTACTCAAGCGGGTTCCGAAGTATCCGCCCTCCTGGGACGTATGCCTTCCGCGGTAGGTTACCAGCCAACGCTGGCATCCGAAATGGGACGCTTGCAAGAGCGGATTACCTCCACGAAAAAAGGTTCTGTAACATCCATCCAGGCTATCTATGTACCGGCGGATGACTATACGGATCCGGCTCCTGCTACGACGTTTGCTCACTTGGATGCAACGACGAACCTGGAGCGTAAAATTTCCGAGATGGGTATCTATCCTGCGGTAGATCCGCTGGCATCCAGCTCCCGTATCTTGGCTCCAGAAATCGTTGGTGAAGAGCATTACAATGTAGCTCAAGGCGTTAAGAAAATTTTGGCTCGTTACAACGAGCTTCAAGATATCATTGCAATCCTCGGTATGGATGAGCTGAGCGAGGAAGATAAAGCGATCGTTGGACGTGCTCGTCGTGTTCAGCGTTTCCTTTCCCAGGCTTTCCACGTTGCCGAGCAGTTCAACGGCATTCCTGGTAAATATGTGCCGGTTAAAGAAACCGTACGCAGCTTTAAAGAGATCCTGGAAGGCAAGCACGACCACCTTCCGGAAGCCGCTTTCCTGTTCGTAGGTACGATTGAAGAGGCAGTTGAAAAAGCAAAAACATTGTAA	MKKGRVVSITGAVVDIEFERGHLPEIFNAVKIEATLEGGRSVDLTLEVSNHLGDNLVRCIAMSSTDGLVRGIEAVDLGRPITVPVGSATLGRVFNVLGEPIDNAGAVVSEVNNPIHREAPAYDELSTQAEMLETGIKVIDLLAPYQKGGKIGLFGGAGVGKTVAIQELINNIAQEHGGISVFAGVGERTREGNDLYHEMSDSGVINKTAMVFGQMNEPPGARLRVALTGLTMAEYFRDQEGKDVLLFIDNIFRFTQAGSEVSALLGRMPSAVGYQPTLASEMGRLQERITSTKKGSVTSIQAIYVPADDYTDPAPATTFAHLDATTNLERKISEMGIYPAVDPLASSSRILAPEIVGEEHYNVAQGVKKILARYNELQDIIAILGMDELSEEDKAIVGRARRVQRFLSQAFHVAEQFNGIPGKYVPVKETVRSFKEILEGKHDHLPEAAFLFVGTIEEAVEKAKTL	PGPT0014296_3309	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
AK002_05897	861	atpG	COG0224	ATP synthase gamma chain	ATGGCAAGAGGATTACGTGATATTAAGCGGCAGATCAAGAGTGTTCAGAACACAAGGCAGATCACCAAGGCGATGGAAATGGTTGCTGCTGCCAAGCTGAGAAGAGCTCAAGAGAAGGCGACCTCCGCGCTTCCATACTCCGAGAAGCTGAAAGAAGTGGTTGGCAGCATCGCTGCTGGAACCAAGGGAATCAGCCATCCGATGCTGGAGAAGCGCGAAGTGAAGAAAACCGGTTATCTGGTGATCACTTCAGACCGTGGTCTTGCTGGTGCTTCGAACTCCAATATTTTGCGTAAAGTATCGAATTTTATCGCAGAACGCCATCAGTCCAAGGACGAGTATTGCCTGTTTGTGATCGGACGTAAAGGACGGGATTATTTCCGCCGTCGTGGACTTCCGGTTGTGGAGGAGCTCACCGATTTATCCGACAGTCCGACCTATGCGGATATTAAGACCATCGCTAACGCGGCGGTTCACCAATACGAGCTGGGTCAGATCGATGAGTTATACCTGTGCTATAACCAATTCGTGAATGCCTTGACTCAGCTTCAGGAAATCTCCAAGCTTCTGCCGATGGAGAACATTGGCGGCGGGGAGAACCTGACTGGTTATGAGTATGAGCCGTCTCCGGAAGGCGTGCTGGAGGTTCTGCTTCCGAAATACGCGGAAACGCTGATTTTCAGCGCAATGCTCAATGCGAAGGCAAGTGAGCTTGGAGCGAAGATGACCGCGATGGGAGCAGCAACGAAGAATGCGAGCAAGTTGATCAACGAGTTGAACCTGACTTACAACCGTGCTCGTCAGGCTGCCATCACGCAGGAAATTTCCGAGATTGTGGGCGGAGCCAACGCTCAGCAATAA	MARGLRDIKRQIKSVQNTRQITKAMEMVAAAKLRRAQEKATSALPYSEKLKEVVGSIAAGTKGISHPMLEKREVKKTGYLVITSDRGLAGASNSNILRKVSNFIAERHQSKDEYCLFVIGRKGRDYFRRRGLPVVEELTDLSDSPTYADIKTIANAAVHQYELGQIDELYLCYNQFVNALTQLQEISKLLPMENIGGGENLTGYEYEPSPEGVLEVLLPKYAETLIFSAMLNAKASELGAKMTAMGAATKNASKLINELNLTYNRARQAAITQEISEIVGGANAQQ	PGPT0014297_4240	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
AK002_05898	1515	atpA	COG0056	ATP synthase subunit alpha	TTGAGTATCAGACCTGAAGAAATCAGTACTTTAATCAAAAGTCAAATTGAAGAATATAAATCCGATATCACTGTCTCTGAAGTAGGTACGGTAATTCAAGTAAGTGACGGTATTGCTCGCGTGTACGGCCTGGAGAACGCGATGTCCGGGGAACTTTTGGAGTTCCAAAACGGCGTGTTCGGTCTGGCGCTGAACCTTGAGGAGAGCAATGTCGGTGTCGTTATCCTGGGACCTTACTCCGAAATCAAGGAAGGCGATCAGGTAAAGCGTACAGGACGTATCATGGAGGTTCCTGTAGGGGAAGCTCTGCTTGGACGCGTCGTGAATCCGCTGGGTCAGCCGCTTGACGGCAAAGGCCCGATCGAAGCGACTGCATTCCGTCCGGTTGAGAGCAGTGCACCAGGCGTTATCGACCGTAAATCCGTTCATGAGCCGATGCAAACCGGTATTAAAGCAATCGACGCGATGGTACCTATCGGCCGCGGTCAGCGCGAGCTGATCATCGGTGACCGCCAAACAGGTAAAACCACCGTTGCCATCGATACAATCCTGAACCAAAAGGGCAGCGGCGTTAAATGTATTTATGTAGCCATCGGGCAAAAGCAGTCCACTGTAGCACAGGTTGTTGAAACTCTTCGCCGTCATGGCGCGCTGGAGTACACGATCGTTGTTACGGCTTCGGCTTCCGAGCCGGCTCCGCTGCAGTACATCGCTCCATACGCAGGCTGCGCAATGGGCGAGTACTTCATGTACAAAGGCGAGCATGCACTCATCATCTATGATGACTTGTCGAAGCAAGCTGCAGCATACCGTGAATTGTCCTTGCTCCTCCGTCGTCCTCCGGGTCGGGAAGCTTATCCGGGTGACGTTTTCTACCTGCATTCCCGTTTGCTGGAGCGTGCAGCGAAGCTCAACGATGAGCTTGGTGGTGGTTCATTAACCGCACTGCCATTTATTGAAACACAGGCTTCTGACGTATCTGCTTACATTCCAACCAACGTAATTTCCATTACGGATGGACAGATCTTCCTGGAGTCCGAGCTGTTCTACTCCGGACAACGCCCAGCGATTAACGTCGGTATTTCGGTATCCCGTGTCGGCGGTTCCGCGCAGATCAAGGCGATGAAAAAGGTTGCGGGCGGCATGAAGCTGGATCTTGCGCAATACCGCGAGCTCCAGGCGTTCTCCCAGTTCGGATCCGATCTGGACAAATCAACCTTGGCTCGTTTGAACCGTGGTGCAAGATTGATGGAAATCCTGAAACAGGGCGTAAACCAGCCGTTGTCCGTTGAACAACAAGTGGTTAGCTTGTACGCAGCCGTTAAAGGATATATCGATGATATCGAGGTTGCTGACGTGCGTCGTTTCGAGAGCGAGTTCCTCGCGTTTATTGGAAGCAATAAACCGGAAATTCTTCAATCCATTACGGATACGAAGGATTTGACGTCCGACAACGAAAACGCGTTGAAAGCGGCAATCGATCAATTTAAGAAGGGCTTTGCCGCTTCGGTTTAA	MSIRPEEISTLIKSQIEEYKSDITVSEVGTVIQVSDGIARVYGLENAMSGELLEFQNGVFGLALNLEESNVGVVILGPYSEIKEGDQVKRTGRIMEVPVGEALLGRVVNPLGQPLDGKGPIEATAFRPVESSAPGVIDRKSVHEPMQTGIKAIDAMVPIGRGQRELIIGDRQTGKTTVAIDTILNQKGSGVKCIYVAIGQKQSTVAQVVETLRRHGALEYTIVVTASASEPAPLQYIAPYAGCAMGEYFMYKGEHALIIYDDLSKQAAAYRELSLLLRRPPGREAYPGDVFYLHSRLLERAAKLNDELGGGSLTALPFIETQASDVSAYIPTNVISITDGQIFLESELFYSGQRPAINVGISVSRVGGSAQIKAMKKVAGGMKLDLAQYRELQAFSQFGSDLDKSTLARLNRGARLMEILKQGVNQPLSVEQQVVSLYAAVKGYIDDIEVADVRRFESEFLAFIGSNKPEILQSITDTKDLTSDNENALKAAIDQFKKGFAASV	PGPT0014298_3951	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
AK002_05899	546	atpH	COG0712	ATP synthase subunit delta	ATGAGCCAAAATACGGTAGCAGCCAAGCGGTATGCGCGGGCGCTGTTCGAAGTGGCGGCTCAGCAGCAGAAGGGTCTGGAAGTGGAAGAGGAATTGCGGGCTGTCGTGCATGCCATTGAAGGCGATGCCGACATCCAGAAATTCATCGCCACGCCGAATGTTCCCCAGTCCGTGAAAATGAACGTAATCAGCAAGGCGTTGGCAGGGAAGGTATCGCAGCCTGTATTGAACACGATCGAATTGCTTCTCGACAGAGGGCGTGCAGAGATGTTCGCAGAACTGCTGAACAGCTATGTGAAGATACAAGGTGCGAGCTTGGGATTGGCAGACGCCACTGTGTACTCCACCTACCCGCTTAGCGATCAGGAAAAAGAACAGGTTGCTTCGGAATTCGGACAGTTAGCACATCAGAAGATCCGCGTGACCAATGTTGTGGACGAAAGTTTGCTCGGCGGCCTGAAAGTTGTCATTGGCGACAAGCTGTATGACGGAAGCATTGCCGGGAAGCTGGAACGTCTCGAAAAGTCTTTTAATAGACGAGCATAG	MSQNTVAAKRYARALFEVAAQQQKGLEVEEELRAVVHAIEGDADIQKFIATPNVPQSVKMNVISKALAGKVSQPVLNTIELLLDRGRAEMFAELLNSYVKIQGASLGLADATVYSTYPLSDQEKEQVASEFGQLAHQKIRVTNVVDESLLGGLKVVIGDKLYDGSIAGKLERLEKSFNRRA	PGPT0014299_2364	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
AK002_05900	489	atpF		ATP synthase subunit b	ATGACAATTCTTTGGGAAAATATGGTAATCACTATTATCGCGTTTGTTATTCTTTACCTCTTGCTTCAAAAGTTTGCGTTCAGCAAATTGTTCGGCATCATGGAGCAGCGTCGTGAGCTGGTCATGAGCCAGATGAACGAAGCGGCACAGACCCGCCAGCAGGCGACTGCATATGTAGAAGAGCAGAAGAAGGCACTGGAGCAAGCGCGTCAAGATGCTCACGAAATCATCGAGCGTTCCAGACAAACTAGCAACAAACAAGCAGAGCAAATTATGGAACAAGCTAAGGAAGAGGCAATTCGCCTGAAATCCGAAGCTGTTCGTGATATCGAGAATGAGAAGAAGAAAGCGGTCGAAGAGCTTCGCAGCGAAATCGGCAGCGTTTCCGTGAAGATCGCGACCAAGCTGATCGAACGTGAAGTCAAGAATGACCAAGCTCAAGAAGAACTGGTGGATCAATACCTTAAAGAGGTAGGAGGCAGACCATGA	MTILWENMVITIIAFVILYLLLQKFAFSKLFGIMEQRRELVMSQMNEAAQTRQQATAYVEEQKKALEQARQDAHEIIERSRQTSNKQAEQIMEQAKEEAIRLKSEAVRDIENEKKKAVEELRSEIGSVSVKIATKLIEREVKNDQAQEELVDQYLKEVGGRP	PGPT0014301_3942	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
AK002_05901	213	atpE		ATP synthase subunit c	ATGGAATTTTTGGCAGCAGCTATTGCAGTAGGTCTGGGCGCCCTTGGCGCAGGTTTGGGTAACGGTATGATCGTAAGCAGAACAGTTGAGTCTATCGCTCGTCAACCAGAAGCACGTGGTCAATTGCAAACAACGATGTTTATCGGTGTTGGTATCGTAGAGGTTATTCCTTTGGCAGCTACTGTAATCGCGTTCTTGATCATGTTCTCTTAA	MEFLAAAIAVGLGALGAGLGNGMIVSRTVESIARQPEARGQLQTTMFIGVGIVEVIPLAATVIAFLIMFS	PGPT0014302_2995	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
AK002_05902	801	atpB		ATP synthase subunit a	TTGATCAGCGCTAACTTGGAAAGGGGTGAAAACAATTATATGCATGATTCACCGATTATCAAACTTGGCGGATTGAATATTGACCTATCGGCGGTCATAATGCTTCTTGTCACCTGTGTGGTGGTGTTCGTATTATGCCGGCTGGCGGTACGTAATCTATCTGTCGAAAACCCTTCCAAACTGCAAAACTTCATGGAATGGGTAGTGGAATTTGTGCAAGGCGTCGTAGCGAGTGCGATGGATCTGAAGAAAGGGAAAGCTTACATATCGTTGGGGCTTACTCTGATCCTGTTCATCTTTGTAGCCAACTTGCTAGGCTTGCCGTTCTCAATTATCACCGACTTGCCGGAGAACTTCACAGTCTTTGGTCAGCCAATCCTGGCTACACTCGGACTTGAACATGGCCACTATGCTCACGTATTGTGGTGGAAGTCGCCAACAGCGGACATTTCCGTTACGGCCGGTCTTGCGATCGTTGTATTCGTGCTCATGAACTACCTGGGCCTGAAGCTGAATCGCAAGCATTACCTGAAGCATTACATCGAACCGTTCCCGATCTTCCTGCCGCTCAATATCATTGAGAACCTGGCAAAACCTATCGCTCTGGCAATCCGGCTTTACGCCAACATTTTTGCCGGCGAGGTACTGATCACGGTGATTCTGAAAACCGGCTTCTGGGGCATTCCGTTCATGGCCGCATGGCAAGGTTTCAGTATCTTCATTGGTGCATTGCAGGCGTTTATCTTTACGATTTTGACAATGGTATACATCTCGCAAACGACGATTCACGAAGAGCATTGA	MISANLERGENNYMHDSPIIKLGGLNIDLSAVIMLLVTCVVVFVLCRLAVRNLSVENPSKLQNFMEWVVEFVQGVVASAMDLKKGKAYISLGLTLILFIFVANLLGLPFSIITDLPENFTVFGQPILATLGLEHGHYAHVLWWKSPTADISVTAGLAIVVFVLMNYLGLKLNRKHYLKHYIEPFPIFLPLNIIENLAKPIALAIRLYANIFAGEVLITVILKTGFWGIPFMAAWQGFSIFIGALQAFIFTILTMVYISQTTIHEEH	PGPT0014303_2035	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
AK002_05903	378			hypothetical protein	GTGAATGATTTGACTTCCATTGTGAACGCTGTATTTAGAGTATCGCTACTCTTATTGTCTGCCTTGTTTCTCGGATGGGCTCTCTATCCGGAATTCCGCCCGATTATTATGGGGTTGATCATGGGCATGGCGGCGGGCTTGTTTAATGTACGCTTCCTCTCCATGAAAGTGCAGCAGCTGGCGCAATTGGCTGTCGATCCGGAACCGAAAAAGTACAACTTCGGCTTCATTACGAGATTGTGCATCGGGCTTCTGATTGTGATCTTCGCCGTAAAACTCGAACAGGTATCCCTCGGCGGTGCAATCGCCGGTCTGTTCATACCCCAATTGTTGACCATTCCTGTCAGCATTGTGTTCAGTTTGAGAAACAATCATTGA	MNDLTSIVNAVFRVSLLLLSALFLGWALYPEFRPIIMGLIMGMAAGLFNVRFLSMKVQQLAQLAVDPEPKKYNFGFITRLCIGLLIVIFAVKLEQVSLGGAIAGLFIPQLLTIPVSIVFSLRNNH	PGPT0030480_1787	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK002_05904	231			hypothetical protein	ATGAAAAATCCGAAAAGTCAAGATAACCCTTGGTTGATAGCGCTATACATTAGCGGGGCGGGCGGTTTGCTTGCCGCTTACATTCTCATCGGTTTTTTTACCGGGCGATGGCTCATGAATCAATTGGACGGGCCCAGAGTGTGGCTTGCCATTGGTACGCTTTCGGGGCTCTTTGTAGGGATTTTGAATATCGCTCTTCTCATTAAAAAGTTTTTGGGGGCGCAGGCGTGA	MKNPKSQDNPWLIALYISGAGGLLAAYILIGFFTGRWLMNQLDGPRVWLAIGTLSGLFVGILNIALLIKKFLGAQA	PGPT0030480_3259	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK002_05905	1158	mnaA	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGTCAAAAGTGAAAGTGATGACGATATTTGGGGTCCGCCCCGAAGCGATCAAGATGGCGCCGCTTATTCTGGAACTTCAGCGCCATCCGGAGCATATCGAATCGGTGGTTTGTGTAACTGCGCAGCATCGGCAAATGCTGGATCAGGTGCTTGACGTGTTCAAGATTGTTCCGGACTATGACTTGGACGTGATGAAAGACCGTCAAACGCTGAACGAGATCACCGTACGCGTTCTGGAGGGGCTTGAGCCTGTCCTGCGCGAGGCCAAGCCGGATATCGTGCTGGTGCACGGCGACACGCTGACAACGTTCCTGGCCAGCTATGCGGCCTTCCTACAGCAAATTCAGGTCGGCCATGTAGAGGCGGGTCTTCGCACATGGAACAAGCTGAATCCTTATCCTGAAGAAATGAACCGTCAGTTGACCGGCGTGCTGGCCGATCTGCACTTTGCGCCGACGGACTGGTCTGCCCAGAATCTCCGCAAGGAGAACAAGCCGGAATCCCGTATTTACGTGACGGGCAACACCGCCACGGACGTGTTCCAGTATACGGTGCGGGAAGGATATACCCATCCGGTTCTGGATTGGGCACAGGGCAAGCGCCTGATCCTGATGACGGCGCACCGCCGCGAATCCCAAGGGGAGCCGCACCGTCAGATTTTTGAAGCGGTGAAGCGCATTGCCGACGAGTTCGAGGATATCGCCATCGTCTACCCTGTGCATCCGAGCCCTGCCGTCAAAGAGCCGGCTCACCGCATTTTGGGGAACCACCCGCGCATCAAGCTGATTGAACCGCTGGATGTCGTGGATATGAACAATATTTACACCCGTACGCATTTCATCATTACGGATTCGGGCGGCATGCAAGAGGAGGCTCCTTCCTTCGGCGTGCCGACGCTGGTGCTTCGGGACACGACGGAACGTCCGGAGGGCATTGAGGCCGGAACCCTGGAGCTGGTAGGCACCCAGGAAGAGAATGTGTACGAACGCATTAAGGCTCTGCTGACCGATCAGGAGCTTTATGACAAGATGAGCAAAGCCGCTAATCCTTACGGAGATGGACAGGCTTCCCAGCGAATTGTCAATGCGATTTTGCACCATTTTGGCATCCGGAAAGAGCGTCCTGAGGAATTTCACAGAATGTTCACAAAGGCATAG	MSKVKVMTIFGVRPEAIKMAPLILELQRHPEHIESVVCVTAQHRQMLDQVLDVFKIVPDYDLDVMKDRQTLNEITVRVLEGLEPVLREAKPDIVLVHGDTLTTFLASYAAFLQQIQVGHVEAGLRTWNKLNPYPEEMNRQLTGVLADLHFAPTDWSAQNLRKENKPESRIYVTGNTATDVFQYTVREGYTHPVLDWAQGKRLILMTAHRRESQGEPHRQIFEAVKRIADEFEDIAIVYPVHPSPAVKEPAHRILGNHPRIKLIEPLDVVDMNNIYTRTHFIITDSGGMQEEAPSFGVPTLVLRDTTERPEGIEAGTLELVGTQEENVYERIKALLTDQELYDKMSKAANPYGDGQASQRIVNAILHHFGIRKERPEEFHRMFTKA	PGPT0018905_538	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
AK002_05906	630	upp		Uracil phosphoribosyltransferase	ATGGGAAAATTGGTGATTTGTGATCACCCGTTGATTCAACACAAACTTACATTTATACGCGATATGCGGACTAACACAAAAGACTTTCGCGAATTGGTAGACGAAGTCGCGACTTTGATGGCTTATGAAATTACGCGGGAGGTTCCTCTTGAATCGATATCTGTTCAAACGCCGGTAGCCGAAACCCAAGGGAAAGTCATTTCCGGCCGGATGCTCGGCCTCGTGCCGATCCTGCGTGCGGGTCTTGGCATGCTGGACGGCGTGGTCAAGCTGCTTCCCGCTGCCAAGGTAGGGCATGTCGGATTGTTCCGCGACCCCGAAACGCTTCAGCCCGTGGAGTATTATACGAAGCTTCCAACCGACGTGACGGAGCGGGAATTGATCGTCATCGATCCGATGCTGGCAACGGGCGGATCGGCCATCGCTGCGATCGACGTGCTGAAGAAGCGCGGCTGCACCCAGATCAAGATGATGAATCTCGTGGCTGCGCCGGAAGGCGTAAAGGCCGTGCATGACGTCCATCCGGACGTGGATATTTACGTTGCTGCTCTGGATGAAGGGCTCAACGACCACGGCTACATCGTACCGGGCCTGGGTGATGCAGGAGATCGGCTGTACGGCACGAAATAA	MGKLVICDHPLIQHKLTFIRDMRTNTKDFRELVDEVATLMAYEITREVPLESISVQTPVAETQGKVISGRMLGLVPILRAGLGMLDGVVKLLPAAKVGHVGLFRDPETLQPVEYYTKLPTDVTERELIVIDPMLATGGSAIAAIDVLKKRGCTQIKMMNLVAAPEGVKAVHDVHPDVDIYVAALDEGLNDHGYIVPGLGDAGDRLYGTK	PGPT0021240_2695	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
AK002_05907	1251	glyA	COG0112	Serine hydroxymethyltransferase	ATGATGGAACATTTGCGGAAGAATGACCCGGCTGTATTGGAAGCGATGGATTTGGAACTGAAGCGTCAACGCAGCAACATTGAGCTGATTGCCTCCGAGAACATCGTCAGCGAAGCGGTTATGGAAGCCATGGGGACGGTGCTGACGAATAAATATGCGGAAGGCTACCCTGGCAAGCGTTATTACGGCGGCTGTGAGCGTGTGGATATCGTGGAGGATATCGCCCGTGACCGCGCGAAGGAATTGTTCGGTGCCGAGCATGCCAACGTTCAGCCGCACTCCGGCGCCCAAGCGAACATGGCGGTGTATTTGGCTGCGCTCAAGCCTGGAGATACCGTGCTCGGCATGAACCTGGCCCACGGCGGCCATTTGACTCACGGAAGCCCGGTTAACGCGTCAGGCCTTCTGTACAATTTCGTTGCGTACGGCGTGCAGGAAGATACGTTCCTTATCGATTACGACGAAGTCCGCAAAGCGGCTTTCAAACACCGTCCTCGTCTGATCGTGGCGGGTGCAAGTGCATATCCTCGCATCATTGATTTCGAGAAGCTTGCTGCCATCGCGAACGACGTAGGCGCATTGTTCATGGTCGATATGGCTCATATTGCCGGTCTCGTTGCCGCGGGTCTTCACCCGAATCCGGTTCCGCATGCCCATTTCGTAACCACCACGACGCACAAGACCCTTCGCGGCCCTCGCGGCGGCATGATTCTGTGCAAGAATGCATGGGCGCAGGCGATCGACAAAGCGGTATTCCCAGGCTCCCAGGGCGGACCGCTCATGCATGTCATTGCTTCCAAAGCCGTGGCACTTGGCGAAGCATTGGATCCATCCTTCAAGACGTATGCAGAGAACGTCGTGAAGAACGCGAAAGTGCTGGCTGACACCCTGATCGAGGAAGGACTGAACATCGTTTCCGGCGGAACCGATAACCATCTGATGCTGGTCGATACCCGCAATCTGGACATCACCGGCAAAGACGCAGAGAAGGTGCTGGATTCCATTGGAATTACCGTCAACAAGAACGCCATCCCGTTTGATCCGACGAGCCCGTTCGTCACGAGCGGTATCCGTATCGGTACGCCGGCGGTAACCTCCCGCGGCATGGATGAGCAGGCGATGGTGAAAATCGCGAAGATTATTGCCATGACCCTGAAGCAGCCTAAAGACGAGGCGACGCTGGAAAAAGCGGGCCGTTTGGTGGCTGAGCTTACGGATCAGTATCCTCTTTATGCCGAAATGAAATATTAA	MMEHLRKNDPAVLEAMDLELKRQRSNIELIASENIVSEAVMEAMGTVLTNKYAEGYPGKRYYGGCERVDIVEDIARDRAKELFGAEHANVQPHSGAQANMAVYLAALKPGDTVLGMNLAHGGHLTHGSPVNASGLLYNFVAYGVQEDTFLIDYDEVRKAAFKHRPRLIVAGASAYPRIIDFEKLAAIANDVGALFMVDMAHIAGLVAAGLHPNPVPHAHFVTTTTHKTLRGPRGGMILCKNAWAQAIDKAVFPGSQGGPLMHVIASKAVALGEALDPSFKTYAENVVKNAKVLADTLIEEGLNIVSGGTDNHLMLVDTRNLDITGKDAEKVLDSIGITVNKNAIPFDPTSPFVTSGIRIGTPAVTSRGMDEQAMVKIAKIIAMTLKQPKDEATLEKAGRLVAELTDQYPLYAEMKY	PGPT0008090_6017	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
AK002_05908	585			hypothetical protein	ATGACGGATATCTCCAAGGTTTCCTTGAGCGAACAGACGGCGCGGATCGTCCGCGAACTGGCCGAAGCTTCAGCCTTAGGACCGGGCAAGGTGCTGGTCATCGGAGCCAGCACCAGTGAAGTGGTCGGACGCCGGATCGGCACAGGCGGCGCTCTTGAAACGGCGCAGCAGCTTCTTCAGGGCATTGCCGAGGTTCAAGCGGAATTCGGCTTCGCTGTAGCCTATCAATGCTGTGAGCATTTGAACCGGGCGCTTGTCATGGAGCGGGGACTGCTCGAAGAGCTGCGCCTGACGGAAGTGGCGGCTGTACCGATTCCAGGGGCGGGAGGCTCCATGGCCTCGGCGGCGTATCGGAGTATGAAGGAGCCCTGCCTTGCGGAATCCATTGAGGCCCATGCGGGTGTCGATATCGGCGAGACGCTGATCGGCATGCATTTGCGGAGAGTGGCGGTTCCGTTCAGGCCGAGCGAGCGTTATATCGGCGATGCGCGCGTAACGGCGGCTTACACCCGGCCGAAGCTGATCGGCGGAGAACGCGCCGTGTACAGACTCGAGCAGCGGGATGATTTCACGCTGTGCGATTGA	MTDISKVSLSEQTARIVRELAEASALGPGKVLVIGASTSEVVGRRIGTGGALETAQQLLQGIAEVQAEFGFAVAYQCCEHLNRALVMERGLLEELRLTEVAAVPIPGAGGSMASAAYRSMKEPCLAESIEAHAGVDIGETLIGMHLRRVAVPFRPSERYIGDARVTAAYTRPKLIGGERAVYRLEQRDDFTLCD				NA	NA	NA	NA	NA
AK002_05909	465	ywlF	COG0698	Putative sugar phosphate isomerase YwlF	ATGAAAATTGCATTGGGTACCGATCATGCCGGCATTCGTCTGAAAGAGGAGATCGTGGAGGTCATTCGGGGTCTTGGACACGAGGTGGAGGATCTTGGCTGCGGCTGTTCCGATTCCGTGGATTATCCCGATTACGCGCTTCCGGTGTGCGAGAAGGTGGTCTCGGGTGAAGCGGATCGGGGCATTCTGATCTGCGGAACGGGAATCGGCATGAGCATTGCCGCCAACAAGGTGCCGGGCATCCGCTGCGCGCTGACGCATGATGTGTTTTCGGCCAAAGCCACGCGTGAGCATAATGACAGCAACGTGATTGCGCTGGGCGAGCGCGTCGTCGGTCCCGGGCTTGCTGCCGAGATCGTCAGCGCATGGCTGACAACGGATTTCAGCCAGGGCGAACGCCATGTCGGCCGCGTGAACAAGATCAAGGCCATCGAGGAGCGTTACCTGAAGAGCGAATCGCGATAG	MKIALGTDHAGIRLKEEIVEVIRGLGHEVEDLGCGCSDSVDYPDYALPVCEKVVSGEADRGILICGTGIGMSIAANKVPGIRCALTHDVFSAKATREHNDSNVIALGERVVGPGLAAEIVSAWLTTDFSQGERHVGRVNKIKAIEERYLKSESR	PGPT0017395_1111	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
AK002_05911	588	ywle		Protein-arginine-phosphatase	GTGAAAAATATATTGTTTGTCTGCACGGGGAATACCTGCCGCAGTCCGATGGCGGAAGGAATGCTGCGCAAGCTCGCCAAACAGCGGGGCATTCCGCTGGAAACGCAATCCGCCGGCGTCTCGGCCGTAGACGGCATGCCGGTATCCCGTCATGCGGAATCGATACTGCGGGACCAGGATATTCAAGATCGCTTGGTATCTAAGCCGCTGACCGCGAATCTGGTGGAATGGGCAGACCTGATTCTGACGCTGACCCAGTCGCATAAGCAGTATGCGATTCGGCAGTTCCCGCATGCCGCCGACAAGATGCACACGCTGAAGGAATTTGTGGAGGATGACCGGCGGGTGCTGGATGATCTGCGGGAGCAGGACAGCCTGTACGCAACGCTCGAGCTGGCCAGATCGCTGGGCCGCGATGTCAGCGACCGCGACCGGGAGCGTCTGATCGAGCTGCGCCAGCGAATTCCGAGCTTCGATATCTCCGATCCCTTCGGCGGCTCGCGGGAGGAATACGAGGCGACGGCGGCGGAGATTCGGACGGCGCTCTTCCGTCTGTTGGACAAGCTGGAAGCGGATCAGCATAAATAG	MKNILFVCTGNTCRSPMAEGMLRKLAKQRGIPLETQSAGVSAVDGMPVSRHAESILRDQDIQDRLVSKPLTANLVEWADLILTLTQSHKQYAIRQFPHAADKMHTLKEFVEDDRRVLDDLREQDSLYATLELARSLGRDVSDRDRERLIELRQRIPSFDISDPFGGSREEYEATAAEIRTALFRLLDKLEADQHK	PGPT0014530_3795	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
AK002_05912	564	mntP	COG1971	putative manganese efflux pump MntP	ATGTTGGAGGCGTCTGTCCAATCGGGACAGCTTGCGGCGATTCTGCTGATGGCGGTTGCACTCGGGCTAGACGCATTTTCGCTTGGTATCGGAGTCGGAATGAGAGGCGGCATGCGTTTAGGCCATATGCTGGGCATCAGCTTCATGATCGCGTTGTTTCACATGCTTATGCCGCTGGCCGGCTTGTTTGCCGGCCGCTATGTAGGCATGCTGCTGGGGCACGTCACAGGGTTTGCGGCAGGCGGGCTGCTCCTCCTGCTGGGCGGGCATATGCTGTATAATGCTTGGCGGGGCGGGGAAGGTCAGCGCATTCATCCTACCGCGTTCTTGGGCATGCTGTTGTTTTCGCTAAGCGTCAGCATCGACTCCTTCTCGGTAGGCGTTTCGCTCGGGATGTTCGTGGATGATGTGCTGCTGATCGTGATCTCCTTCGGCGTCGTGGGCGGTTTGCTGTCCATTCTCGGCCTGCTGCTCGGCCGTCAGGTGAGCAACAAGCTGGGAGAGTACGGCGAAATGCTGGGCGGACTGATTTTGATCATCTTTGGCGTGATGTTTATCTTTTGA	MLEASVQSGQLAAILLMAVALGLDAFSLGIGVGMRGGMRLGHMLGISFMIALFHMLMPLAGLFAGRYVGMLLGHVTGFAAGGLLLLLGGHMLYNAWRGGEGQRIHPTAFLGMLLFSLSVSIDSFSVGVSLGMFVDDVLLIVISFGVVGGLLSILGLLLGRQVSNKLGEYGEMLGGLILIIFGVMFIF	PGPT0004375_630	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004375-mntP-K23242	NA	NA
AK002_05913	1179	ywlC	COG0009	Threonylcarbamoyl-AMP synthase	ATGGAACAGAACGGGAATGACAAGGAACGCAATTTGCAGCGGGAACAAGGCTCCCGGAATGCTGCATCGAAACCAACCAAACTGTGGCATGTCTCGAGCTCCCTCTCCAAGGAGGGCCTCGGGTCGGAGAAGGAAGCGAAGCAGGCGCTGCACGAAGCAGGCCAGGTGCTTGCACAGGGCGGTACGGTGGCTTTTCCGACGGAAACGGTGTACGGACTTGGTGCTGACGCCGGCAATACGGAGGCGGTCGAGCGCATCTTCGCCGCCAAAGGTCGGCCGTCGGACAATCCATTGATCGTGCACATCTCGGAGCTGGCTCAGCTTGACGGCTTGGTCCAGCAGGTGAACGAGACGGAACGGGCGCTGATGGCGTCGTTCTGGCCCGGACCGCTGTCGCTGGTGCTGCCCGTGAAACCGGGCGCCGTATCGCCTCGCGTGACGGCCGGACTCGATACGGTTGCCGTGCGGATGCCGGATCACCGCGTGGCGCTGGCTCTGATCAGCGCCGCCGGTTGTCCGCTTGCCGCACCGAGCGCGAATCGCTCCGGCCGGCCAAGCCCGACGCTGGCCAGCCATGTGCTGGAGGATCTGGCGGGGGCGATCGACGGCGTGCTCGACGGCGGCCCGGCCGGGGTGGGCGTCGAGTCGACGGTGGTGCAGGTCGGCGATGACGGTGCCGTCACGGTGCTCCGCCCGGGCGGCGTCACGGCCGAGCAGCTTGCCGCGGTGGCGGCAAGCGTGCGTCAGGACCCGGCGCTGCAGCGCGCCGCCGGGGAGGCGGAGAGCCCGGCGCCGCGCTCGCCGGGCATGAAGTACACGCACTACGCACCGAAGGGTGCGATGTGCGTGGTGCAGGGCCCGCGTGCCGATACGGTGTCGGCACGCATCGCGGCCGAGCTCGAGGCGGCGGCCCGGCGCGGTGAGGTGACCGGCGTGCTGTCGTTCGACGAGCACATCGGTCACTACGCTGCGGACGTTGCCGTCTCGCTCGGCAGCCTGGCCGTGCCGGAGGAAGCGGCCCGCCGGCTGTACGCCGGCCTGCGCCGCTTCGATGAAGAAGGCGCGACCTTCATCCTGGCCGAAGCGTGCCCGGACCAGGGGCTTGGCGCAGCCGTCATGAACCGGCTGCTGAAGGCCGCGGGACATCACATCATCCACGTCCATGAAGATGCCGATTGA	MEQNGNDKERNLQREQGSRNAASKPTKLWHVSSSLSKEGLGSEKEAKQALHEAGQVLAQGGTVAFPTETVYGLGADAGNTEAVERIFAAKGRPSDNPLIVHISELAQLDGLVQQVNETERALMASFWPGPLSLVLPVKPGAVSPRVTAGLDTVAVRMPDHRVALALISAAGCPLAAPSANRSGRPSPTLASHVLEDLAGAIDGVLDGGPAGVGVESTVVQVGDDGAVTVLRPGGVTAEQLAAVAASVRQDPALQRAAGEAESPAPRSPGMKYTHYAPKGAMCVVQGPRADTVSARIAAELEAAARRGEVTGVLSFDEHIGHYAADVAVSLGSLAVPEEAARRLYAGLRRFDEEGATFILAEACPDQGLGAAVMNRLLKAAGHHIIHVHEDAD				NA	NA	NA	NA	NA
AK002_05914	696			hypothetical protein	ATGAAAAATTATAGTGAAACCCTCCGTATTATCGTAAAAAAAATGGTTGTGCTCTTATCCTGCATGTTTATGGTCATCATGGCTTGGGAGGGACAGCAGATCGATGCTTCCGTTGTCGGCGGTCCGATCCCTCAAGAATCGATACGGCTTCGCATTCTCGCGAATTCAGATAACCCGTCCGATCAGCTCGTCAAAAGAGAGATTCGTGACGCGGTCGTTGAGCAAATGCAGCTTTGGGTCCTGCAGCTGGAGAACCCGCAAAGCCTGGAAGACGCCAAGGCATTAACCCGGCAGCATCTTCCGGAAATCCGTCAGCTGGTGGGTGAAGAGCTGAGAAAAAGAGGAATCACTTACAATTACCATGTAGAACTTGGCGTCGTGCCGTTCCCGACCAAATTGTACGGGGGCACGGTGTATCCGGCGGGCGATTATGATGCGCTGCGGATTACGTTAGGCGAAGGCCAAGGACAAAACTGGTGGTGCGTCCTGTTCCCGCCGCTTTGCTTCATCGACGGCGGCAGCGGGGATGCGGCAGCCCAGCCTGTAGAGACGGGTATCCAAACGGTGTCCGCCGATGCGGGTGACGCTTCTCCGGAGGAAGCGCCGAAGAAGGCAAGCGAAAGCGAGCCGGAGGTCCGTTTCTTCCTGTGGGATATGTTTCTGGGCCTCTGGAATTGGGTGGCAAGCTTGTTCTAG	MKNYSETLRIIVKKMVVLLSCMFMVIMAWEGQQIDASVVGGPIPQESIRLRILANSDNPSDQLVKREIRDAVVEQMQLWVLQLENPQSLEDAKALTRQHLPEIRQLVGEELRKRGITYNYHVELGVVPFPTKLYGGTVYPAGDYDALRITLGEGQGQNWWCVLFPPLCFIDGGSGDAAAQPVETGIQTVSADAGDASPEEAPKKASESEPEVRFFLWDMFLGLWNWVASLF	PGPT0024700_166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024700-spoIIR-K06387	NA	NA
AK002_05915	1182	ftsW_3	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGCTTCAGAAATTCAAGAAGATGGATTACGTTATTGTTTTCGTACTGGTTTTGATGATGGGTATCAGCATTACGTCCATATACAGCACGACCGTCGACACCAAGTTCGAAGGCTCTCATATTCGCATGATTGCTTTTTACATTGTCGGCTTCATGGCTTTTTTCGGAATTAGCCTGCTGGATTACCGGTTATTGATTAAATATGCCAAATATATATACTTAGGCGGTTTAGCCGTGCTGGTCCTCGTGATGTTTATCGGTAAGGATATTAACGGCGCCCAAGGCTGGATTTACATTGGCAGTTTAAGTATACAGCCTGCTGAATTGTTCAAGCTGATCCTGATCATATTTCTTTCTTTTGTATTGGTGCGAAAAAACAAACCGCTGCTGTCCTTCTGGAAGGACGTCGTTCCGATCGGACTGTTGGCGTTCGTGCCTTTCGTGCTCGTCATGGCTCAGAATGACCTGGGGAACGCGCTTAGCTATGTCATCATTTTGCTGGGGCTGCTCTGGATCGGGAACGTCAAGTTCTCCCACGCGCTGATCGGGCTTGTGCTGGTGGCAGGAGTGGCCTTCGGCGGCGCCCAGGCTTACATTCATTATCATGATGAACTGCTGGAATCGAAAATACTGAAGCCGCACTGGGTGGAACGGATTGATCCGTGGCTGTATCCGGAGAAAGCGACCGCCAAGGCCAGCTATCATACAACGAATGCGAAGCTCGCCATCGCCTCCGGCGGGATGAGCGGCGAGGGTTACATGCAGGGGTCGTCGATCCAGTCGGGCCGGGTGCCTTATGCGTACTCCGACTCCATCTTCGTACAGATTGCCGAGGAGTTCGGTTTTATCGGTTCCTCCGTCCTGCTTCTGTTATATTTCATCCTGATCCATCGGCTGATCCTGATCTCCCTGGAATCCAGGGAGCGTGCGGGGCCGTTTCTAATCATAGGAATCGTGGCCATGTTTTTATATCAGATCTTCGAGAATATCGGGATGTTTATCGGCTTGATGCCGCTGACGGGGATTACGCTGCCCTTTATCAGTTACGGGGGGACGTCCCTTGTGATTAGTATGGCGAGTCTCGGGGTCGCCATGAGCGTCAAGCTGCATGGTCAGGAAGTGGAGGAAGATATGCCGGATCCGCATGCTTATCGCCCGGCGGCCGCTAAGCAGCAGGCTTAG	MLQKFKKMDYVIVFVLVLMMGISITSIYSTTVDTKFEGSHIRMIAFYIVGFMAFFGISLLDYRLLIKYAKYIYLGGLAVLVLVMFIGKDINGAQGWIYIGSLSIQPAELFKLILIIFLSFVLVRKNKPLLSFWKDVVPIGLLAFVPFVLVMAQNDLGNALSYVIILLGLLWIGNVKFSHALIGLVLVAGVAFGGAQAYIHYHDELLESKILKPHWVERIDPWLYPEKATAKASYHTTNAKLAIASGGMSGEGYMQGSSIQSGRVPYAYSDSIFVQIAEEFGFIGSSVLLLLYFILIHRLILISLESRERAGPFLIIGIVAMFLYQIFENIGMFIGLMPLTGITLPFISYGGTSLVISMASLGVAMSVKLHGQEVEEDMPDPHAYRPAAAKQQA				NA	NA	NA	NA	NA
AK002_05916	1188	mrdB_2	COG0772	Peptidoglycan glycosyltransferase MrdB	ATGCTTCAGAAGTTGAAGAAGATTGATTTTGTCATTGTGTTTGTACTGCTGATGCTGATGGTCGTCAGCATCACGTCGATATATAGCGCCACGTTAGACACCGCCGGGTTCGAGGGTCACCATATTAAAATGGCGGTATTTTATATCCTCGGCTTCGCGGCTTTTTTCGGACTTAGTTTGATTGATTATCGAATATGGAATAAATATGCGCTGCACATCTATATCGGAGGGTTAATCACGCTTTTGCTGCCTTCCTTCATCGGTCAAACCAAAAATAATGCCACGGGCTGGATCAATCTCGGCATCGTGGATATTCAGCCTGCCGAATTATTTAAGCTGGTATTGATCATATTTATTACCTATGTCCTTATTCGCAAGGACAAATCGAGGCTCTCTTTCTGGCGGGATATCGTACCGATTGGTTTTCTGACGTTCATTCCGTTTGCCATCGTCATGGTTCAGAATGACTTGGGGAACGGACTCAGTTACATTGTCATACTGCTCGGGTTGTTATGGATCGGCAACGTGAAATTTTCGCACGCGCTGATCGGGCTGCTGCTGGTAGCAGGCATTGCCTTTGGCGGAGCACAGGCCTATATCCACTTTCATGATGAAATTAAAGAATCGAAACTCATGGAGAGCCGCGGTCATTGGATGGAACGGATCGATCCATGGCTGGTGCCCGAGAAAGCTACCGCGAAGGCAAGTTATCATACGAACAATGCGAAGCTGGCTATTGCTTCAGGCGGCATGAGCGGAGAGGGGTACTTGGAAGGCAGCTCCGTGCAATCTTCGCGCGTACCGTATACGTATTCGGATTCGATTTTTGTGCAAATTGCGGAGGAATACGGCTTTATCGGCTCTTCCGTGCTGCTGCTGTTATATTTCATACTCATTCACAGGATGATCCTGATTTCGCTGGAAAGCCGGGAAAAAGCGGGTCCGTTTCTGATCATTGGCATCGTGGCCATGCTGCTGTACCAAATCTTTGAGAACATCGGCATGTTTATCGGCTTGATGCCTTTGACGGGAATCACCTTGCCCTTCATCAGTTACGGCGGAACGTCGCTCATCATTAATATGGCGTGCCTCGGGGTTGCCATGAGCGTGAAGCTGCACGGGCAGGAAGTGGAGGAGGATATGCCGAATCCGCAAACATACCGTCCCGCGCCAACCAAACAGGCTTAA	MLQKLKKIDFVIVFVLLMLMVVSITSIYSATLDTAGFEGHHIKMAVFYILGFAAFFGLSLIDYRIWNKYALHIYIGGLITLLLPSFIGQTKNNATGWINLGIVDIQPAELFKLVLIIFITYVLIRKDKSRLSFWRDIVPIGFLTFIPFAIVMVQNDLGNGLSYIVILLGLLWIGNVKFSHALIGLLLVAGIAFGGAQAYIHFHDEIKESKLMESRGHWMERIDPWLVPEKATAKASYHTNNAKLAIASGGMSGEGYLEGSSVQSSRVPYTYSDSIFVQIAEEYGFIGSSVLLLLYFILIHRMILISLESREKAGPFLIIGIVAMLLYQIFENIGMFIGLMPLTGITLPFISYGGTSLIINMACLGVAMSVKLHGQEVEEDMPNPQTYRPAPTKQA				NA	NA	NA	NA	NA
AK002_05917	891	prmC	COG2890	Release factor glutamine methyltransferase	TTGAAGCGGACGATATTTGAATTGACGCCGAAGCGCAGCATCAGGGAAGCCTTTGTGGAGGCTTCTTCTTTTTTAGACCGCATGCGGGTGATGGAGCCGCAGCGGAATGCGCAGCTGCTGCTGGAGCATGTGCTCGGACTGTCGGGAACCTCATATTACATGGCGCTCACGGATCCGTTTCCTGAGGGCCGCCGCCTCGCTTTGGAAGAAGCAATCACTCGCAAAGCGGAGGGCGTTCCGGCGCAGTACATTATCGGCGAACAGGAGTTTTACGGCCGGCCGTTCGACGTCACGCCGGCGGTTCTTATTCCGCGCCCCGAAACGGAGCTGCTCGTGGAAGCGGTGCTGAAGTACGGACAGGAGCTTACCCCGCGACCGGATGGAGGGCTGAAGGTCGTCGACATCGGCACCGGCAGCGGGGCCATCGCCATCACGTTGGCTTTGCAGTCAAAGGGATGGGATGTGTTTGCGAGCGATATTTCGCCCGATGCGCTGGAGGTTGCCGCGCGGAACGCGAAGAAGCTGGGCGCCCGGGTTGAGTTCCGGCAGGGAAACCTGCTGGAGCCGTTCGCCGGCATGGGGCCGGACATCCTCGTCTCCAATCCGCCGTACATTCCGGCGGAGGATATCGAGGAGCTGCAGCCGGAAGTCCGGGACTATGAACCGCGGACGGCTCTGGATGGCGGGCCGGACGGATTGAATCCGTACCGGATCATGATGGCGCAGCTGCCCTTGCTGTCGGCGCCGCCGCGCTTGATCGCTTTTGAGCTGGGCATGGGCCAGGCCGGGGATGTAGCAGAGCTGCTGCGTAAGGCAGGACACTGGGAGGAAATCGTCACGGTACCCGATTTGGCGGGGATTGACCGGCATGTTCTGGGAATTTTCCGTTAA	MKRTIFELTPKRSIREAFVEASSFLDRMRVMEPQRNAQLLLEHVLGLSGTSYYMALTDPFPEGRRLALEEAITRKAEGVPAQYIIGEQEFYGRPFDVTPAVLIPRPETELLVEAVLKYGQELTPRPDGGLKVVDIGTGSGAIAITLALQSKGWDVFASDISPDALEVAARNAKKLGARVEFRQGNLLEPFAGMGPDILVSNPPYIPAEDIEELQPEVRDYEPRTALDGGPDGLNPYRIMMAQLPLLSAPPRLIAFELGMGQAGDVAELLRKAGHWEEIVTVPDLAGIDRHVLGIFR				NA	NA	NA	NA	NA
AK002_05918	1068	prfA	COG0216	Peptide chain release factor 1	TTGTTGGACCGATTACAATCCCTTGCGGACCGTTATGAGAAGTTGAGCGAGCTGTTGTGCGATCCCGATGTCGCTAATGACTCCAAGAAGCTCAGGGATTATTCCAAAGAACAATCCGATTTACAGCCTGCTTATGAGGCTTATGTTGAATATAAAAACGTCATTGAAGAACTCGAAGCTGCCAAAACCATGCAGGGCGAAAAGATGGACGACGAGATGCGCGAAATGGTGAAAATGGAGATCGAGGAGCTCACCCAGCGCGAGCAAGAGCTGGCCGAAAGAATTCGGATTCTGCTGCTGCCGAAGGACCCGAACGACGATAAAAACGTCATTATCGAGATTCGCGGCGCAGCCGGGGGCGACGAGGCGGCACTGTTCGCTTCCGACCTGTACCGGATGTATACCCGTTATGCCGATACCCAGGGCTGGAAAGTTGAACTGATGGACGTCAACACCAACGATCTGGGCGGGTTCAAGGAAGTGATCTTCATGATCAACGGCCGCGGCGCTTACAGCAAAATGAAATTCGAGAGCGGGGCGCACCGCGTACAGCGTATTCCGACCACGGAATCCGGCGGCCGCATCCATACCTCCACCTCCACCGTGGCGGTTATGCCGGAGGCGGAAGAAGTGGACATCGAAATCCATGACAAGGATATTCGCGTGGACACCTTCTGCTCCAGTGGCGCAGGCGGTCAGTCCGTTAACACCACCAAGTCGGCGGTGCGCGTAACGCATATTCCGACCGGCATCGTGGCTACATGCCAGGACGGCAAATCGCAGAACTCCAACAAGGAGAAGGCGCTGCAGGTGCTTCGCGCCCGTATCTTCGATATGATGCGTCAAGAGGAAGAAGCGAAGTACGCCGGGGAGCGCAAGAGCAAAGTCGGCACCGGTGACCGCAGCGAGCGGATCCGGACGTACAACTTCCCGCAAAGCCGCGTGACCGATCATCGGATCGGACTTACCGTTCACAAGCTGGATCAAGTGATGAACGGGGAGATTGAAGAGATCGTTTCGGCGCTGACCCTGGCGGAGCAGGCTGAAATGATGGAAAAAGGAGTATAA	MLDRLQSLADRYEKLSELLCDPDVANDSKKLRDYSKEQSDLQPAYEAYVEYKNVIEELEAAKTMQGEKMDDEMREMVKMEIEELTQREQELAERIRILLLPKDPNDDKNVIIEIRGAAGGDEAALFASDLYRMYTRYADTQGWKVELMDVNTNDLGGFKEVIFMINGRGAYSKMKFESGAHRVQRIPTTESGGRIHTSTSTVAVMPEAEEVDIEIHDKDIRVDTFCSSGAGGQSVNTTKSAVRVTHIPTGIVATCQDGKSQNSNKEKALQVLRARIFDMMRQEEEAKYAGERKSKVGTGDRSERIRTYNFPQSRVTDHRIGLTVHKLDQVMNGEIEEIVSALTLAEQAEMMEKGV				NA	NA	NA	NA	NA
AK002_05919	1101	ychF	COG0012	Ribosome-binding ATPase YchF	ATGGCTTTAAAAGCTGGAATCGTCGGTTTGCCGAACGTCGGCAAATCTACATTGTTTAATGCGATTACGCAAGCGGGCGCCGAGTCGGCCAACTACCCGTTCTGTACGATTGATCCTAACGTCGGCGTCGTGGAAGTGCCGGATGAGCGCCTTGACAAATTGACGGAACTGGTTCAGCCGAACAAGACGGTGCCGACCGCTTTCGAATTCGTCGACATCGCCGGCCTGGTTCGCGGCGCGAGCAAAGGGGAAGGTCTTGGGAACAAGTTTCTGGCCCATATTCGGGAAGTGGATGCAATCGTTCATGTAGTCCGCTGCTTTGAAGACGAGAACATTACCCACGTTGACGGTAAAGTGAACCCGGTCAGCGACATCCAGACGATCAATCTGGAGCTGATACTTGCGGATCTCGACAGCGTCGAGAAGCGGATCGACCGTGCGAAGAAGAACATGAAGGGCGGCAACAAGCAGTATGCTCAGGAAGTGGAGCTGCTGGAGCGCCTGAAAGAAGCCCTATACAACGATCAGCCCGCACGCAGCGTGGAGCTGAGCGACGATGAGAAACTGATCGTGCGCGATTTGCACCTGCTGACGCTGAAGCCGGTATTATACGCGGCGAACCTGAGCGAAGACGGCGTTGCGGAAGCCGACAGCAATCCATACGTGCAGCAGGTTCGCGATTTCGCGGCCGTGGAGAACGCGATCGTGGTGCCGATCAGCGCGAAGGTTGAGGCTGAGATCGCCGAGCTAGAAGGCGAGGACAAAGCGATGTTCCTTGAGGAGCTGGGACTGGAAGAGTCCGGTTTGAACCGTCTGATCAAGGCGGCATACAGTCTTTTGGGATTGTATACCTACTTTACGGCCGGCGTGCAGGAAGTGCGTGCCTGGACGATCCGCAAGGGAACCAAAGCGCCGCAAGCGGCCGGCGTTATCCATACCGACTTCGAACGCGGCTTCATTCGTGCGGAAGTCGTCGCATACGATGACCTGGTTGCCGCTGGCTCGATGAACGGCGCGAAAGAGCGCGGACAGCTTCGTCTGGAGGGCAAAGAGTACGTCGTGAACGACGGCGACGTTATGCACTTCCGTTTTAACGTGTAA	MALKAGIVGLPNVGKSTLFNAITQAGAESANYPFCTIDPNVGVVEVPDERLDKLTELVQPNKTVPTAFEFVDIAGLVRGASKGEGLGNKFLAHIREVDAIVHVVRCFEDENITHVDGKVNPVSDIQTINLELILADLDSVEKRIDRAKKNMKGGNKQYAQEVELLERLKEALYNDQPARSVELSDDEKLIVRDLHLLTLKPVLYAANLSEDGVAEADSNPYVQQVRDFAAVENAIVVPISAKVEAEIAELEGEDKAMFLEELGLEESGLNRLIKAAYSLLGLYTYFTAGVQEVRAWTIRKGTKAPQAAGVIHTDFERGFIRAEVVAYDDLVAAGSMNGAKERGQLRLEGKEYVVNDGDVMHFRFNV				NA	NA	NA	NA	NA
AK002_05920	1113	fni	COG1304	Isopentenyl-diphosphate delta-isomerase	ATGAACTCAGAACATGAACAGACTGCGGGCAAACCTGCAACCGTTTCAGGCGGAGGATCAGGAAGATTTGGGGGCAGACTGATGCCGGAAGTGCCCACCGGCGAGCGGAAGATCGAGCATGTTCGATTATGCCTGGACGAAGAAGTGGGCTCCGTGGGGGTAACCACCGGCTTTGAACGTTACCGTTTTCGTCACGCCGCACTGCCGGAGATCGACTTTGGAGAGATTAAGCTGGACACGACGTTTCTTGATTTTTCCGTACGCACGCCATTTTTGATCAGCTCCATGACCGGTGGAAGCAAGGCCACCGGAGAGATCAATATGCGTCTTGCGGAAGCGGCGGAACGGCGCGGCTGGGCGCTTGGTGTCGGCTCCGTGCGGGCTGCGGTGGAGAAGGAGGAGCTTGCATCGACATTCCGCGTGCGCGAGAGCGCGCCGAGCGTGCCGGTGATCGCCAACCTAGGAGCGGTGCAGCTGAACTATGGCTTTGGCCTTGACGATTGTCAGCGGGCGGTGGATATCGCGGGTGCGGATATGCTGGTTCTCCATCTAAACGGGCTGCAAGAGGTGTTTCAGCCAGAAGGGAACACCCGGTTCGGCCGTCTGCTGGGGCGTATCGAGGATTTGTGCCGCACGCTTTCGATACCGGTCGGGATTAAAGAAGTGGGCTGGGGAATCGACGGCGAAACGGCGCGGTCTCTGCTGGACATCGGGGCGGCGTTCATCGATGTGGCCGGTGCGGGCGGCACCTCGTGGAGCCAGGTCGAGAAATTCCGCAGCCCGGATCCGGTTCGCCGCGCCGCGGCCGAGGCTTTTGCCGGGTGGGGCAATCCTACCGCGGACTGCATCGCGGAGGTGCGCGAAGCCGCGCCGGACTGTGCGCTGATCGGAAGCGGCGGGCTGCAAAGTGGCGTCGATGCGGCCAAAGCGCTTGCTCTGGGCGCCGATCTGGCAGGCTTTGGCCGCGGACTCCTGGGCTCGGCGGTCGATTCGGTTGAAGCGCTCGATCAGCGGCTTGCTCAGGTGGAGTTGGAGCTGCGGACGGCCATGTTCGGCATCGGCGCGGGGAATATCGAAGCCCTGAAGTCCACCAGGCGGCTGATTCGTGCCTAA	MNSEHEQTAGKPATVSGGGSGRFGGRLMPEVPTGERKIEHVRLCLDEEVGSVGVTTGFERYRFRHAALPEIDFGEIKLDTTFLDFSVRTPFLISSMTGGSKATGEINMRLAEAAERRGWALGVGSVRAAVEKEELASTFRVRESAPSVPVIANLGAVQLNYGFGLDDCQRAVDIAGADMLVLHLNGLQEVFQPEGNTRFGRLLGRIEDLCRTLSIPVGIKEVGWGIDGETARSLLDIGAAFIDVAGAGGTSWSQVEKFRSPDPVRRAAAEAFAGWGNPTADCIAEVREAAPDCALIGSGGLQSGVDAAKALALGADLAGFGRGLLGSAVDSVEALDQRLAQVELELRTAMFGIGAGNIEALKSTRRLIRA	PGPT0007530_136	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
AK002_05921	1545			hypothetical protein	TTGGACTTCCGCCATTTGTTCCTTAACCGCAATTCAACTAAACCACTTGCACCGGGTCCAGGCACGCAGCCCCTGCCAGAAAACCCTCATGCCAAAAGCTCACGAATGCGAAAAACAATATTCATGGGTCTTGTCCTTCTCATGCTATGGCTTATCGGCGTAATGATCTATCAGACTCATAAACCTCTTCCGAATGGAATCTCCTATGAAAGTCCAGTCTACCAAAGCGACGTGAGGATGTGGATCGACCTGACCTATCCCGGACCGGACGGCCAGCCTGTCCACGATCAAGAAATCGGACCGCGCATCGGCCAAATTATCGACGAATCGCGAAAATTCCTGGTGATCGATATGTTTCTGTTCAACGGATATGCCCATAAGGACCAAACATTCCCGAAAGTCAGCGAAGAGCTTGCCCGTCGCCTGGTTACCCATAAGAAGAACCATCCCGATATGGATATATTCTTTATCACCGACGAAGTGAATACCGGATACGGCTCCTATACGCCGCCGGAGCTCGAGTCCATGAAGGCAGCAGGCATTCATGTGATTGTAACCGATGTCGACCGGCTGCGGGACTCCACGCCCGCTTATTCCGCCGTATGGCGCACGTTCATTCAGTGGTTCGGCCAGTCCGGCAAAGGCACGCTCCCCAATCTGATGGCAACCGAAGCACCCGATATTACCGTTCGCTCCTATTTGAAGCTGCTGAATGTGAAAGCCAATCACCGCAAAGTCGTGATCAGCGAGAATACCGCGCTGGTGACTTCGGCCAACATGCACGACGCCAGCGCCTTCCACTCGAACATCGCCTTCGAAACGAGCGGGGACATCATCGGCGATATGCTTGCGGCGGAGCAAGCCGCCGTTAACCTTACAAGCCCGATCAAGCTGCCGGAATACGAGCCCGGCTCCAAGCCGGCGGTGCAGCCTTCGGGTCAACCCAACGGCGTCGATGTTCGTTATTTGACGGAAGGAAAAATCTATAAATATGTGCTGAAGGGCATTGAGCAGTCGCAGCCCGGGGACACGCTTTGGATGGGGATGTTCTACCTGGCCGACAGTAAAGTCATGGAACGGCTTCTGCAAGCCTCGGACCGAGGCGTTGATATCCGTCTCATTCTGGATCCGAACCAGAACGCCTTCGGCCGGGACAAAATCGGCATCCCCAACCGTCCGGCTGCAGCCGAGCTCATCCAGAAATCCCAAGGAAAAATATCCATTCGCTGGTACAACACCGGCACCGAACAGTACCATACCAAGCTCATGTACATTGCCAAACCGACAGGCAAATCGATTATTACCGGCGGGTCGACCAATTTCACCCAGCGGAATCTGGACGATCTGAATTTGGAGAACAATCTGTGGATCGCTGCCCCTCAGAATCATCCGCTCACCCGGGATTTGGACCGTTACTTTCATCGGATATGGTTCAACGAAGATGCCCAGTTCAGTCTGGACGTCGAAGCTTACTTGGGAAAAACCACATGGATGAAGGACATCCTGTTTAAATTGCAAAAAAGCTTGGGTTTCACTACCTTTTAA	MDFRHLFLNRNSTKPLAPGPGTQPLPENPHAKSSRMRKTIFMGLVLLMLWLIGVMIYQTHKPLPNGISYESPVYQSDVRMWIDLTYPGPDGQPVHDQEIGPRIGQIIDESRKFLVIDMFLFNGYAHKDQTFPKVSEELARRLVTHKKNHPDMDIFFITDEVNTGYGSYTPPELESMKAAGIHVIVTDVDRLRDSTPAYSAVWRTFIQWFGQSGKGTLPNLMATEAPDITVRSYLKLLNVKANHRKVVISENTALVTSANMHDASAFHSNIAFETSGDIIGDMLAAEQAAVNLTSPIKLPEYEPGSKPAVQPSGQPNGVDVRYLTEGKIYKYVLKGIEQSQPGDTLWMGMFYLADSKVMERLLQASDRGVDIRLILDPNQNAFGRDKIGIPNRPAAAELIQKSQGKISIRWYNTGTEQYHTKLMYIAKPTGKSIITGGSTNFTQRNLDDLNLENNLWIAAPQNHPLTRDLDRYFHRIWFNEDAQFSLDVEAYLGKTTWMKDILFKLQKSLGFTTF	PGPT0007725_864	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
AK002_05922	1503	ywiE	COG1502	putative cardiolipin synthase YwiE	ATGAGAAAGGGAATAGAGGCTGTACTGATCACCGCGCTATTGTTCGCGTTTTATTATTTTGGCATGCATTATTTCGGGAAGATGACAGGCACGGTTATCGGGATATTCTCTACGCTGACCGTCGTATCCATCGGATTCATGATTTTTATGGAGAATCGCCATCCTTCCAGCACAATGGCCTGGATTCTGCTGCTGGCGCTTGTCCCCATCGTCGGGCTCGTTTTTTATTTTTTGTTCGGACAGAACTATTTCAAACGGAGAAAATACGATAAAAAGGCGAGGAAGGACGGCCTGGTATACACCAGCGAGGTCCTGCGCAAGAACACCCCCGACGTCTCCTGCTTCAAGCCGGAAGTGCAGCAGCTGCTACAGCTGTCCACCCGGCTTGCGCGCACGCCGATATCGTTCTCAAGCGACACGAAGGTGCTGACCGATGGGGAAGAGACCTTTGCGGCATTGATTGCGGAGCTGGAGCAAGCGGCGCACCATATTCATATGGAATATTACATTTACCGCCCGGATGCGATCGGAACGCAGATCCAGGAAATTTTGATACGGAAGGCGAGGCAAGGGATTGCCGTGCGATTTATGGTAGACGCCGTCGGCAGCCTGCAGCTTCCGCCTTCCTTCCTGCAGGAGATGCGGGATGCGGGCGTGCAGGTGGCCGTGTTCGGCAGTCCCAAGACGATCTTCTTCACGAGCCGCGTGAATTACCGCAATCATCGCAAAATCGTCGTGATCGACGGCAGCGTCGGGTTCGTTGGCGGCTTGAATGTGGGAGACGAGTATTTAAGCCGCAGCAAAGCATTCGGTTTCTGGCGCGACACCCATATGCTTGTCCGGGGGGAAGCTGTCCGTACGCTTCAGGTTGTATTTTTGCAGGATTGGCAGTATATGACGGGGGAGCAGCCGAACGAGCCGATCTATTACTCCCCGGATTTGCTGGAGAACCGCAGCGGCGCCGTACAGATTATCGCAAGCGGTCCGGATAATGAACGAAGAGCCCTCAAGAACATTTTTTTCTCCATGATTGTGTCGGCTCGTAAGTCGGTGTGGCTGGCTACGCCTTATTTTATACCGGATGAGGACATTCTTACCGCGCTTAGGGTTGCCGCCTTATCGGGTCTTGACGTGCGTATTCTGTTTCCGTCAAAGCCGGACAAGTGGCTGCCCTTCCTCGCGTCCCATTCCTATTTCCCGGCCCTGCTGGATGTTGGGGTAAGGGTCTATGAGTACGAAAAAGGGTTCATGCACTCCAAGCTGCTGATCGTCGATGGCGAGGTGGCCACCATCGGCACGGCCAATATGGACATGCGGAGCTTCCATCTTAATTTTGAAGTCAATGCATTGCTCGTACACACGGACAGCGTAAGCAAGCTGGTATCCGATTTCGAGCATGACCTGGAATCCGCCATCGTGTACGACCGCCATCATACCCGCAAAAAGAGAATCATGACACGGCTGCTTGAATCCGCTGCCCGGCTGATGTCCCCCCTGTTGTAA	MRKGIEAVLITALLFAFYYFGMHYFGKMTGTVIGIFSTLTVVSIGFMIFMENRHPSSTMAWILLLALVPIVGLVFYFLFGQNYFKRRKYDKKARKDGLVYTSEVLRKNTPDVSCFKPEVQQLLQLSTRLARTPISFSSDTKVLTDGEETFAALIAELEQAAHHIHMEYYIYRPDAIGTQIQEILIRKARQGIAVRFMVDAVGSLQLPPSFLQEMRDAGVQVAVFGSPKTIFFTSRVNYRNHRKIVVIDGSVGFVGGLNVGDEYLSRSKAFGFWRDTHMLVRGEAVRTLQVVFLQDWQYMTGEQPNEPIYYSPDLLENRSGAVQIIASGPDNERRALKNIFFSMIVSARKSVWLATPYFIPDEDILTALRVAALSGLDVRILFPSKPDKWLPFLASHSYFPALLDVGVRVYEYEKGFMHSKLLIVDGEVATIGTANMDMRSFHLNFEVNALLVHTDSVSKLVSDFEHDLESAIVYDRHHTRKKRIMTRLLESAARLMSPLL	PGPT0007725_718	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_RELATED_GENES	CE-QSR-CARDIOLIPIN_SYNTHESIS,PGPT0007725-clsA_B|ybhO|ywiE-K06131	NA	NA
AK002_05923	597			hypothetical protein	ATGAGTGCCGCCGACATTAAACAGTCTGCTCTTGCCCACTTTGCCAAAAACGGTTACGAAGGGGCATCGCTAAAACATATCGCCGACGATTGCGGTATCAAGAAACCGTCGATATACGCCCATTTTTCGAGTAAGAAGGATTTGTTTCTGCAAGTGCTCCAGGACGTATTCCATCGTCAGGAGGAAATGATGGTAGCCTATTTCCTTGACCATTCCGATTGGCCCCTGGAGCAACAGCTGCACGGATTTCTTGAGAATCGTCTCCAAGCTTACCAAATGGATGACGAGGTCCAGTTCTTCATGCGGATGGCCTTCTTCCCGCCTAGCACGCTGTATGACGAAGTGATGGCGATGGTGTATCCGCTGCTGGATCAACAGGAGCAGAACCTGTCGAAGCTGCTTGCCGCGGGCTGCCCGGAGCAGGGTCGCATCATCCGTCATCCGCGCAATGCGGCGATAGCCTTTATGACCTTGGTGGACGGAATCCATCTGGAAACCGTATACGGCGGGGAAGAGCGGGCCTTGAGACGCCTTGCAGCTGCTTGGCCTGTGTATTGGTTAGGGGTAACGAAGCAAAGATATAACCACAAGAGTTAA	MSAADIKQSALAHFAKNGYEGASLKHIADDCGIKKPSIYAHFSSKKDLFLQVLQDVFHRQEEMMVAYFLDHSDWPLEQQLHGFLENRLQAYQMDDEVQFFMRMAFFPPSTLYDEVMAMVYPLLDQQEQNLSKLLAAGCPEQGRIIRHPRNAAIAFMTLVDGIHLETVYGGEERALRRLAAAWPVYWLGVTKQRYNHKS	PGPT0004136_357	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041	NA	NA
AK002_05924	342	gdnC_2	COG2076	putative guanidinium efflux system subunit GdnC	ATGAATCGCAACTGGGGTTATGTGCTGCTGGCTGGATTGGTTGAAATCATATGGGTGATGGGGTTGAAGCATTCCGCCAACATCTGGGAATGGCTTGGAACCTTGGCCGCCATCGCAGCGAGCTTCTATCTTATTATCGAGGCGGCCAAACGGCTTCCGGTCGGAACCGTATATGCCGTCTTTACGGGAATCGGCACCGCCGGGACGGTCGCGTCCGAGATGCTGTTCTTCGGAGAGCCGTTCAAACTGGTCAAGGTGCTTCTGATCTGCGTGCTGCTTGCCGGCGTCATCGGCCTTAAGCTTGTTACGGCTGATCACGCCGAACCGGAGGTGAATAAATAA	MNRNWGYVLLAGLVEIIWVMGLKHSANIWEWLGTLAAIAASFYLIIEAAKRLPVGTVYAVFTGIGTAGTVASEMLFFGEPFKLVKVLLICVLLAGVIGLKLVTADHAEPEVNK	PGPT0029165_223	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029165-ykkC-K18924	NA	NA
AK002_05925	315	gdnD_2	COG2076	putative guanidinium efflux system subunit GdnD	ATGGCTTGGATTGCGCTTATATTTGCCGGATTATTCGAAATCGGCGGCGTCATCGGCATCAAAGGCGTGTCGGATCGCAAAGGCTGGCGTTATGTACTGATTTTGGCCTTATCCTTCGCCGCCAGCTTCTCCCTCCTCTCCTACGCCATGACCGAGCTGCCCATGGGGACCGCTTATGCGATCTGGACGGGTATCGGAACGGCCGGCGGGGCCTTGACCGGCATGTTTCTGTTCGGGGAGCCCAAGGAATGGCGGAGAGTGCTGTTTATCGCCATGATCCTGTGTTCGGCCGTGGGCCTGAAATTGATCAGCTAA	MAWIALIFAGLFEIGGVIGIKGVSDRKGWRYVLILALSFAASFSLLSYAMTELPMGTAYAIWTGIGTAGGALTGMFLFGEPKEWRRVLFIAMILCSAVGLKLIS	PGPT0029170_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029170-ykkD-K18925	NA	NA
AK002_05926	954			hypothetical protein	TTGGCTGATAAAACGGCAGAAAAACGACAGCAAATTCTCATCACTGCGATGCAGCTGTTTTCCGCGAAGGGCTCTTCGGTTACCTCCATGCAGGAAATCGCCGAAGTATGCGGGATGTCGAAAGGCAGCCTCTATCTTCATTTCAAGTCCAAAGAGGAACTGGAAAAGAGCATTTACGAGCATATCGCAGGCCGGATTAAAGACGAGATTCTCCGGGTCGACCACGATCCGCTGCTTGCGCCAAAGGAACAGCTGCGTAAGCAGACGGAAGTGTTACTGATCCATTTTCTGGAGATCCGGGAATTTCTCCTGAAGCAGTTCCATGATCAGATGCCGGGAAAACCGCCTTTTGACAAGGAAAATATGCGGCAGGAGATGCTCGCTGCATTGCAGTGGTTTAACAATAAGCTTAAAACCATTTATGGACCGGACGTAGAGCCTTATACGATGGAGATTGGCATGTTCTTGGCCAGCATGCTGGGTTCGTATATCCGCTTTCTGTTCATGCCGGGATTTCATTTGAATGTGGGGATCACGGCAGATCACCAGATCCAGCTGCTCGATGATATCGTCGCCAGCATTCTTCGCAGACGGCCGGAGCCGCTGATCCCGATGGAGGCGATTGGCCAACTGGGACAATTATGCCAGACGGACGTTCGCAAACAGCGCCATCCGCTGATCGTCATTAAGGCAATGAAAAGCGAGCTGAAGAAGAGTCAGGCCGAGCCGGAGGATCGGGAGGATGCAATGGAGTCCCTCAATATTATGGAGAAAGAGCTGCTTGGCCTCCAGCCCAGCCGGGCCGTTCTGAAAGGAATGCTTGCTAACTTGGAGGGGATCGAGGAAATCGAAGCATTGTATACCGAGCTCAAAGGCACCATTTCGACTGTGCTTGAAAGCTATCTTACGCCCGGCGGCATGATGCAGGGGAATTCGTTCAAATTAGAGACATAG	MADKTAEKRQQILITAMQLFSAKGSSVTSMQEIAEVCGMSKGSLYLHFKSKEELEKSIYEHIAGRIKDEILRVDHDPLLAPKEQLRKQTEVLLIHFLEIREFLLKQFHDQMPGKPPFDKENMRQEMLAALQWFNNKLKTIYGPDVEPYTMEIGMFLASMLGSYIRFLFMPGFHLNVGITADHQIQLLDDIVASILRRRPEPLIPMEAIGQLGQLCQTDVRKQRHPLIVIKAMKSELKKSQAEPEDREDAMESLNIMEKELLGLQPSRAVLKGMLANLEGIEEIEALYTELKGTISTVLESYLTPGGMMQGNSFKLET				NA	NA	NA	NA	NA
AK002_05927	3228	mdtC		Multidrug resistance protein MdtC	ATGAAAGGAATTATCAATTTCTCGCTGCGCAACAAGTTTGCGATCTGGCTGCTGACCATCATCGTCAGCTTCGGTGGATTGTACGGCGGACTGACGATGAAGCAAGAAACCATTCCGGATATTAACGTTCCGTTCTTGAGTGTCACCGCCATCTATCCTGGTGCATCTCCCGAAGGCGTTGTGGAGGATGTAACCAAACCGCTCGAGACGAGACTCCGCAATATCGACGGCGTCAAAACCGTAACCTCCACTTCCATGGAGAATGCAGCGAATGTCATGGTTGAGTTTGATTATGGTAGTGATCTGGACAACGCTACGGCGGCTGTTCGCGAAGCCATCAACGAGGTAAAGCTGCCTGACGACGCCCAGAAACCTACCATATCCAAATTCAGCATGAGCTCCATGCCGGTTGTCTCGTTAAGCATTGCTAACAAGGACAACATGGAATTGGATGAATTGACTCGCATCACGGAGAATGACATCGTTCCCGAGCTGGAGGATTTGGACGGGGTTGCTTCCATCCAGGTAGCCGGTCAATTCGTGAATGAGGTACAGCTTAAGTTTAACCAGGACAAAATGAGCGAGCTTGGCCTGACCGAGGATACCGTCAAAGGTATCGTGCAAGGTTCGGCGCTGTACGCTCCGCTCGGCATGTTCGAGATGGAAAAGTCCCAAAAAGCCGTTGCCGTTGATGGCGGCATCATCGGCATCGACGATCTGAAGAATATCGCCATTCCGGTCATTCCAGGTGGCGGCGGGGCGGATGCGTCTGCCGGCGCCGGTGCTCCGAATGCCGGTGCAGGCCAGCAGCAACAGCCGCCTGGCGATGCTGCAGGGGCCGGTCAGCAAACCGTGCCCGGTGCTGGCGCTGAAGCTGCTGCCGGTGCCGGCGCTGGTGGACAAAATGGCGCTCCTGGTATGCCAACCGGCATTCCAACCGTCAAACTGAGCGAGATTGCCAACATTGAAGTGATCGGCTCCTCGGAATCCATCTCCCGTACCAACGGGAAGGAATCGATCGGTATTCAAATCGTAAAAGCAAACGATGCCAACACGGTTGACGTCGTAAACCAGGTCAAAGACAAGGCCGAAGAATTGAGAGGCCTGTATCCTGGCATGGATCTGACGATCATGCTGGACCAAGGCAAGCCGATTGAGGACTCTGTCCATACGATGCTTTCCAAGGCATTATTCGGTGCGTTGTTCGCCGTTCTGATCATTATGGTCTTCCTGCGCAACATCCGTTCGACGATTATTTCGATCATTTCGATCCCGCTGTCCTTGCTGATTGCGGTTCTGTGCCTGAAGCAAATGGATATCACCCTGAACATGATGTCGCTCGGCGCCATGACCGTTGCCATCGGCCGGGTTGTCGATGACTCCATCGTGGTTATCGAGAATATTTACCGGCGCATGTCCCTTTCGACCGAGAAATTGAAGGGCCGAGAGCTCATCAGCGCCGCTACGCGCGAAATGTTTGTGCCGATCATGTCCTCCACCATCGTGACCATCGCGGTATTCCTGCCGCTTACATTGGTCAGCGGCATGGTAGGAGAGCTGTTCATGCCGTTTGCATTGACGATGGTCTTTGCCCTGCTTGCTTCCCTGGTCGTGGCGATTACGCTCGTACCTGCCATGGCGCACAGCCTGTTCCGCAAAGGCTTGAAGAACACACATGATCATGAAGAGAAGCCGGGTGCCATGGCCCGCGGCTATCGCTCCATTTTGAAGTGGACCTTGAATCACAAAGCGATTACCTTCCTGGCAGCCATCGTGCTGCTCGTTGGAAGCTTGTTCTTGACCAAGTACCTGGGCGTAAGCTTTATTCCGGAACAGGAAGACAAATACGCGATGGTCACCTATTCACCTGAGCCTGGCGTAATGCTGGAGGATGTTGAGGATCGAGCCTTAAAAGCCGAGAAGCTGATCCTGGATCAACCAGGCGTGCAATCGATGCAATACTCCATCGGCGGAAGCAATCCGCTGGGCATGGGCTCCGCCAATTCAGGATTGTTCTACGTTATGTATGATCCGGACACGAAAAACTTCGAAGATGTCAAAAAGACGCTCATCGAAGATCTTGCCAAGGAAGTGCCGGACGGCACTTGGTCCAATATGGACATGGCAGCCGGCGGCTTTGGCGGCAGCCAACTGACGGTGAACGTCTTCGGCGACTCGCTGGAGCAGATCAAGCCGGTGGCCGATCAAATCGCAGAGCTTGCGAACAAGGATACCGCGACGTTTGAAAATGCGGAAACCAGCTTGTCCGAAGCGTTTGAGCAGTACACGCTGGTAGCCGATCAAGAGAAGCTCAGCTCACTGGGCCTGACGGCCGGACAGTTGGCCATGAAGCTGGCCCCGGTACGGGAACGTCCGGTCTTGACCGAAGTCAAGATCGAAGACAAAACCTACAATGTTTACATTGAAGCAGACAGCAAAACCTATAAGAGCATTAAGGAAATCGAGAACGAAACCGTGACCTCCCCGCTTGGCATCGAAGTACCGATCAAGGATGTGGCCAAGGTGGAAAAAGGAACCACTCCGGATTCCATTACGCGCATCGACGGTAAAATGGTTGTGAGTGTCACAGCCGACATCCTGTCCAGCGACGTAGGCTCGGCTTCGACCAACCTGGAGGCCGAAGTGAACAAGCTTGAGCTTCCAGACGGCGTGTCCGTCCAATTCGGAGGCGTCACCGAGCAAATTAACGAAACCTTCGGACAGCTCGGGCTCGCCATGCTGGCGGCCATCGCTATCGTATACTTTGTACTCGTGGTTACGTTTGGCGGGGGACTCGCTCCATTCGCCATCCTGTTCTCGCTGCCGTTCATTGTCATCGGCGCTATCATAGGCCTGCTCGTCACGGGCGAAACACTGAACGTGTCTGCACTGATGGGCGTGCTCATGCTGATCGGTATCGTTGTGACGAACGCGATCGTGTTGATCGACCGCGTGATCCATATGGAACGCGAAGGAATGAGCACTCGCGAAGCACTGCTCGAAGCCGGCGCTACCCGACTTCGTCCGATTCTGATGACGGCACTGGCAACCATCGGCGCGCTCCTGCCTCTCGTATTCGGCTGGGAGAGCAGCGCAGGCATTATCTCGAAAGGACTCGGCATCACGGTTATCGGCGGCTTGATCAGTTCCACGCTGCTGACGCTCGTGGTTGTACCGATCGTATACGAGTTCCTGATGAAGTTCAGCAAGAAAAGAATCGAGGATTAA	MKGIINFSLRNKFAIWLLTIIVSFGGLYGGLTMKQETIPDINVPFLSVTAIYPGASPEGVVEDVTKPLETRLRNIDGVKTVTSTSMENAANVMVEFDYGSDLDNATAAVREAINEVKLPDDAQKPTISKFSMSSMPVVSLSIANKDNMELDELTRITENDIVPELEDLDGVASIQVAGQFVNEVQLKFNQDKMSELGLTEDTVKGIVQGSALYAPLGMFEMEKSQKAVAVDGGIIGIDDLKNIAIPVIPGGGGADASAGAGAPNAGAGQQQQPPGDAAGAGQQTVPGAGAEAAAGAGAGGQNGAPGMPTGIPTVKLSEIANIEVIGSSESISRTNGKESIGIQIVKANDANTVDVVNQVKDKAEELRGLYPGMDLTIMLDQGKPIEDSVHTMLSKALFGALFAVLIIMVFLRNIRSTIISIISIPLSLLIAVLCLKQMDITLNMMSLGAMTVAIGRVVDDSIVVIENIYRRMSLSTEKLKGRELISAATREMFVPIMSSTIVTIAVFLPLTLVSGMVGELFMPFALTMVFALLASLVVAITLVPAMAHSLFRKGLKNTHDHEEKPGAMARGYRSILKWTLNHKAITFLAAIVLLVGSLFLTKYLGVSFIPEQEDKYAMVTYSPEPGVMLEDVEDRALKAEKLILDQPGVQSMQYSIGGSNPLGMGSANSGLFYVMYDPDTKNFEDVKKTLIEDLAKEVPDGTWSNMDMAAGGFGGSQLTVNVFGDSLEQIKPVADQIAELANKDTATFENAETSLSEAFEQYTLVADQEKLSSLGLTAGQLAMKLAPVRERPVLTEVKIEDKTYNVYIEADSKTYKSIKEIENETVTSPLGIEVPIKDVAKVEKGTTPDSITRIDGKMVVSVTADILSSDVGSASTNLEAEVNKLELPDGVSVQFGGVTEQINETFGQLGLAMLAAIAIVYFVLVVTFGGGLAPFAILFSLPFIVIGAIIGLLVTGETLNVSALMGVLMLIGIVVTNAIVLIDRVIHMEREGMSTREALLEAGATRLRPILMTALATIGALLPLVFGWESSAGIISKGLGITVIGGLISSTLLTLVVVPIVYEFLMKFSKKRIED	PGPT0016195_332	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
AK002_05928	678	torD		Chaperone protein TorD	ATGGCGATATCACCTGTTCAAACTTTGGAGGTGCCTGACGTCTGTCACAGGTGGCTTGAAAACCGGGGGACGGTATACGAGCTGCTGATTGATTTTTTGGGCAATTGGCCCAGCTTGTCTATGATTGCGGAATGGAGCCGCGGGAGCGGAATTAGCAAGGCTGCGGAGTGTTCGAAGGCCGGTACGGACCTGATGAAATATTTATGCGGACGCTCGCCTGAGGAATTGGTTCGGATTTGCGAATATGAGGGGGCGGAATACCGTCGGCTGCTTCAGCAGTCCAAACCTCGCCAGGCCGCGGAATCCCATTATACGAAGGATGGATGCGCTCAGGATTTGGCCGAGTGTTATGCATCCGCCGGTGTTGCCTTTAATAAACTGCATGGCGAAGCGGACGATCATATAGCCATTGAACTGGAATTTATGACGCTGCTTCATGACCGTATGCTGAACAATACGTATTGTGAAGATAGCATGTTGCAATTAATGGAGGTACAAGAGAAATTTCTGAAGGAGCATCTGTTGTCATGGGTGCCATCCCTCTGCAAGGATCTGAAGGGGTCCACGCAAAGCCCGCTATACCGGTCGTTATTCAGCCTGTTGGAGGAATTCCTCGCGCAGGATCTGAACATGCTGAAGACCTGGAAGCATTCCAAGGAAGCCATGCTGGTGCATTAG	MAISPVQTLEVPDVCHRWLENRGTVYELLIDFLGNWPSLSMIAEWSRGSGISKAAECSKAGTDLMKYLCGRSPEELVRICEYEGAEYRRLLQQSKPRQAAESHYTKDGCAQDLAECYASAGVAFNKLHGEADDHIAIELEFMTLLHDRMLNNTYCEDSMLQLMEVQEKFLKEHLLSWVPSLCKDLKGSTQSPLYRSLFSLLEEFLAQDLNMLKTWKHSKEAMLVH	PGPT0004865_285	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_SELENIUM_RESISTANCE	SELENIUM_RESISTANCE-SELENIUM_HOMEOSTASIS,PGPT0004865-dmsD|serD-K23349	NA	NA
AK002_05929	1005	moaA_3		GTP 3',8-cyclase	ATGATCGAACCGCTTAAAGATTCCTTCGGTCGTGTCCATGATTATATTCGAATCTCGGTGACGGATCGGTGCAATCTTCGTTGTGTATATTGTATGCCGGAAGAAGGGATGGAATTCCAACCTCACGATCAAATAATGAGCTATGAAGAGATCGCCGCGATCATGCGCGTTCTGGCCCCCATGGGCGTCTCCAAAGTACGCCTTACCGGCGGCGAGCCGCTTGTGCGCAAGGATCTGGAAACCTTGGTCCATAAGATTGCTTCCATTGAAGGAGTTCAAGATATATCCCTCACCACCAACGGGATCATGCTCCCATCCAAGGCCCGCCTGCTGAAGGAAGCGGGACTCACCCGCATCAACATCAGCCTGGATTCGCTCCAGGAAGAGCGTTACGCTCGCATCACGCGCGGCGGCCGGGTGCATAAAGTGCTGGAAGGCATTGAAGCCGCTTATGAAGCCGGCCTGAATCCGATCAAGCTGAACATGGTGTTAATGAAGGGCTTCAATGAGGACGAGATTCGCGACTTTATCGCCCTGACGCTTGATCGTCCCCTTCATGTCCGCTTTATTGAATACATGCCGATCGGCCAAGCATCCGATACCTGGCGGGATTCGTACCTGCCGCTGACCCGGGTATCCGAAGTGTGCCAAGAGGCCGGCTGGGCCATTCAAGAAGAGCAGGGCCCTTCCGGCAACGGTCCTTCGCGCAATATGAAGGTGGTTGGAGCAACGGGAACGTTCGGTTTGATCCATCCGGTCAGCGATCATTTCTGCGATTCCTGCAACCGGCTCAGGCTGACGGCCGACGGCCATATCAAGGCCTGCCTGTATTGGTCGGACGAATTTAACGTGCGCCGCGTCATCGATGACCCTTCGGCGGTGGCGAACCTGTTCCGCAAAGCGCTCGGCACCAAGCCGCTGAATCATGAAATGGCGCTCGCGCTGGAGAAAAAGGCCCAAAGCCATACTCCTACAGTCCGGCGCATGTCGCAGATCGGCGGATGA	MIEPLKDSFGRVHDYIRISVTDRCNLRCVYCMPEEGMEFQPHDQIMSYEEIAAIMRVLAPMGVSKVRLTGGEPLVRKDLETLVHKIASIEGVQDISLTTNGIMLPSKARLLKEAGLTRINISLDSLQEERYARITRGGRVHKVLEGIEAAYEAGLNPIKLNMVLMKGFNEDEIRDFIALTLDRPLHVRFIEYMPIGQASDTWRDSYLPLTRVSEVCQEAGWAIQEEQGPSGNGPSRNMKVVGATGTFGLIHPVSDHFCDSCNRLRLTADGHIKACLYWSDEFNVRRVIDDPSAVANLFRKALGTKPLNHEMALALEKKAQSHTPTVRRMSQIGG	PGPT0008410_2485	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
AK002_05930	645	mobA	COG0746	putative molybdenum cofactor guanylyltransferase	ATGAGCATTCAATCCCAAGATGTTCGTCTGCCATCGGGTCAAGTGACGGGCATCGCCCTTGCTGGAGGAGCCTCCCGGAGAATGGGGAAAAACAAGGCGCTGCTGCCCATGGAGGGGATGAGTCTGATTGAACGGACGGTCCACGCGCTGGACAAAGTCAGCGGACGGGTGATCCTGTCTACCAATGACCCGGGACCTTATCAATTCCTCGGCTTGGAATGCGTCCCCGATCTTTATGTCGGACAAGGTCCGATGGCGGGCCTCCACGCCGCCCTGAGGTCTTCCCGGAGCACGTGGAATCTGGTCGCAGCTTGCGATATGCCTTACATCCACGAGCGGTTTCTTCAGGGACTGCTGGATCTGGCGAATATGCAGGACACGGCCGATGCTATAATCCCGGTCGTGGAAGGTAGGATGCATCCGCTGCTGGCAGCGTATCGCAGAGAGGTCGCGGAAAGCCTTGAGCGCAGGCTGATCCGGGGGCAGCTCCGCATGGTGGAGTGGGTGCAGGAGCTGAATGCCGTCTTTGCGAATGAGGAGGAATTAGCGGAGGTGACTAGCCTTGATCCGCGCCGAATCTTATTTAACATGAATACGCCCGTGGATTACGAGGCCGCAGGCGGTCTGCTGAATACGGAAGAATGA	MSIQSQDVRLPSGQVTGIALAGGASRRMGKNKALLPMEGMSLIERTVHALDKVSGRVILSTNDPGPYQFLGLECVPDLYVGQGPMAGLHAALRSSRSTWNLVAACDMPYIHERFLQGLLDLANMQDTADAIIPVVEGRMHPLLAAYRREVAESLERRLIRGQLRMVEWVQELNAVFANEEELAEVTSLDPRRILFNMNTPVDYEAAGGLLNTEE				NA	NA	NA	NA	NA
AK002_05931	1236			hypothetical protein	TTGCGGAATATGGACAATGCTCAACCTTCGCTGACATCGCTCAAGCTGTTCAACTTCTTCATTTACGGAACCATGGTCATCTTCACCGGTTTCTTCCAGTTGTATTTGCAAGATATCGGCATGAGCAAAATCGAAATCGGCAGCCTGATGGCGATTGCGCCATTTGTGTCCATCTTCGCCAATCCGTTTTGGGGATTCTGGAGTGACCGGGCGGCCAACATCAAACGCGTGCTGCTGATCATGATGACCGGTACGCTGCTGCTGGTTCAGCTTGTTTTTCAGGCGAATACCTATGCAATGATATACATGACGATGATTTTCTTTTATTTTTTCCAGACGCCGATGTTCTCGCAGACGAATTCGCTGATTCTGACCTATATTGATGGAACCCAGCAAAAGTTCGGCTCGTTCCGGCTGTGGGGCTCGCTCGGATGGGCGCTGACGGCCATCGCTGCCGGGCCTGTCATCGACCGGCTCGGGTCGGGACGCATCGCCATCGTGTTCTCGATCATGCTGCTGGTGGCGGCCGTGTTCATGTTTACGCTGCCCTCCATTCAGAAAACGGCGGCCTCGGCATCGGTCAGCCTCAGGGGACTCAGCAGGCTGTTCCTGAATTCCTATTTTGTCTGGTTCATCCTGTTAGGCATCATGGTATCCATCCCGAACACGGCGAATAATACTTTTATGTCCCTGTACATTCTGGAGCTTGGCGGGTCCAAGCAGACGGTCGGCCTCGCCATCTTCTTCTCATCGATATTCGAAGTGCTGATCTTCATTCTGTTTGACCGCTTCCTGAAGCGGAAAATCAACGTCCTGGTCGGCTGCCTGACGATTGTCAGCCTGCTCTTCGCGCTCCGCTGGCTGCTTATGGCCGAAGCCAACAGCCCGCTGGAGGTCGCCTTCATCCAGCTGCTGCACTGCGTTACCTTCGGCGGCTACTTCTATGTCGGCGTTCAGCTGACGATGCTGTTTGTTCCGACGCCGTACCGCGCCTCCGGCCAAGCGATCTATACCTTAAGCTGGAGCGGCATATCCGGTGTCATCGGCGGCCTTGCCGGCGGCTGGATGTTCCAGAACTTCGGGGCGCAGGCCATGTACCGGACCGGTACGATGCTCGCCATCGTGGGTGCCATCGGCTTTGGCTGGATGTGGTACAACCTCCGCAAGCACGGATACCAGCCGCTGCACCCGGACGACCCCGAAGACGACGAGATCGAGGAGTACGCTGCGAGTTAG	MRNMDNAQPSLTSLKLFNFFIYGTMVIFTGFFQLYLQDIGMSKIEIGSLMAIAPFVSIFANPFWGFWSDRAANIKRVLLIMMTGTLLLVQLVFQANTYAMIYMTMIFFYFFQTPMFSQTNSLILTYIDGTQQKFGSFRLWGSLGWALTAIAAGPVIDRLGSGRIAIVFSIMLLVAAVFMFTLPSIQKTAASASVSLRGLSRLFLNSYFVWFILLGIMVSIPNTANNTFMSLYILELGGSKQTVGLAIFFSSIFEVLIFILFDRFLKRKINVLVGCLTIVSLLFALRWLLMAEANSPLEVAFIQLLHCVTFGGYFYVGVQLTMLFVPTPYRASGQAIYTLSWSGISGVIGGLAGGWMFQNFGAQAMYRTGTMLAIVGAIGFGWMWYNLRKHGYQPLHPDDPEDDEIEEYAAS	PGPT0028051_75	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-3-PHENYLPROPIONIC_ACID,PGPT0028051-hcaT-K05820	NA	NA
AK002_05932	1719	glnS_2	COG0008	Glutamine--tRNA ligase	TTGATCAACGTGGAGAACCATCGGGGCACCCCCTCCAATTTCATAAAGAATGTTATTACCGAAGACCTGAAGTCCGGTAAAGTCAAGGAGATCGTTACCCGTTTCCCGCCGGAGCCGAACGGTTACCTGCATATTGGACATGCCAAGGCCATTTGGATCAATTTTACGCTGGCCGATGAATTCGGCGGACGGACACACTTGCGGTTTGATGACACGAACCCGGTGAAGGAAGACATCGAGTTCGTGAACTCCATCAAGGAAGACGTGAAGTGGCTTGGCTTCGATTGGGAAGAGCTGCGGTTCGCGTCCGATTATTTTGAAGAGATGTACAACCGCGCGGTGCTGCTGATTAAGAAAGGGAAGGCTTACGTGGACGACCAGTCCGCTGACCAAATCCGCGAAACGCGCGGAACCTTGACCGAACCTGGACAGAACAGTCCATACCGGGACCGCAGCGTGGAAGAGAACCTGGATCTGTTCGAGCGGATGCGCAAAGGGGAATTCGCCAACGGTGAACGCGTGCTGCGCGCCAAGATCGATATGGCTTCCCCGAATATCAATCTGCGGGATCCGGTCATCTACCGGATCTCCCACGCGCATCATCACAATACAGGCGACAAGTGGTGCATCTATCCGATGTATGCTTTTGCCCATCCGCTGGAGGATGCCATTGAAGGGGTTACGCATTCCCTGTGCTCCCTGGAGTTTGAAGATCAGCGCCCGTTCTATGATTGGGTCGTGGCGGAATGCGAGATGGACAGCACGCCGCGTCAGTACGAATTCGGGCGTCTGAACGTGGCGCAGACGGTCACCAGCAAACGCAAGCTGAAGCAGCTCGTGGATGAGAACATCGTAGACGGCTGGGACGATCCGCGCATGCCGACGATCTCCGGACTTCGCCGTCTGGGCTATACGCCGGAAGCCATTCGTAATTTCGTGTTCGAGACGGGAATCTCGAAGGCTTACGGCACGGTCGACCGCCAAGTGATGGAGCACTTTATCCGTGAAGACCTGAAGCTGAAGGCGCCTCGCACGATGGCCGTGCTGGACCCGCTGAAGGTGGTCATTACGAACTATCCTGAAGGTCAGGTCGAATGGCTGGACGCCGAGAACAACACGGAGAACCCGGAGATGGGAATCCGCCAGATTCCGTTCTCGCGCGAGATTTACATCGAGCAAGAGGATTTCATGGAAGATCCGCCGAGCAAATATTTCCGCTTGTTCCCGGGCAATGAGGTCCGGTTGAAGCATGCGTATTTCATCAAGTGCACTGACGTGATCAAAGACGAGAACGGCAAGGTCGTCGAGATTCACTGCACGTACGATCCGGAGACGAAGAGCGGCAGCGGCTTTACCGGACGCAAGGTGAAAGGGACGATTCACTGGGTGGAGGCTACGCAGGCCGTGCCTGCCGAATTCCGTCTGTTCGAGCCGCTGTTCAAGGACGAAGACGAAGAAGCGGAATTGGTACCCGAGGTTGCAGGCGAAGCGGAGGAGGCTGCTGCCGAGAAGTCCTTCTTGGACGACATCAATCCGAATTCGCTGCAAATCGTGCAAGGCTTCGTAGAGCCGAATATGAAGGATGTTGCGCCGCAGGACAAGTTCCAGTTCTTCCGCCACGGATATTTCAACGTCGACTCGAAGTATTCGCAGCCAGGACGTCCGGTATTTAACCGCGTGGTTTCCCTGAAGAGCTCGTTCCAGCTTCCGAAGAACTGA	MINVENHRGTPSNFIKNVITEDLKSGKVKEIVTRFPPEPNGYLHIGHAKAIWINFTLADEFGGRTHLRFDDTNPVKEDIEFVNSIKEDVKWLGFDWEELRFASDYFEEMYNRAVLLIKKGKAYVDDQSADQIRETRGTLTEPGQNSPYRDRSVEENLDLFERMRKGEFANGERVLRAKIDMASPNINLRDPVIYRISHAHHHNTGDKWCIYPMYAFAHPLEDAIEGVTHSLCSLEFEDQRPFYDWVVAECEMDSTPRQYEFGRLNVAQTVTSKRKLKQLVDENIVDGWDDPRMPTISGLRRLGYTPEAIRNFVFETGISKAYGTVDRQVMEHFIREDLKLKAPRTMAVLDPLKVVITNYPEGQVEWLDAENNTENPEMGIRQIPFSREIYIEQEDFMEDPPSKYFRLFPGNEVRLKHAYFIKCTDVIKDENGKVVEIHCTYDPETKSGSGFTGRKVKGTIHWVEATQAVPAEFRLFEPLFKDEDEEAELVPEVAGEAEEAAAEKSFLDDINPNSLQIVQGFVEPNMKDVAPQDKFQFFRHGYFNVDSKYSQPGRPVFNRVVSLKSSFQLPKN				NA	NA	NA	NA	NA
AK002_05933	255			hypothetical protein	ATGAAGCCCAGCAAATTCCCAAAAGAACAGCGCGAACAGCTGATTGAATTGGTGCAGGAATACTTTGAAACGGAACGCGGCGAAACCCTCGGAAATCTGGCCGCAGAGAGTGTTCTTGATTTTTTCGTGGAGACCTTGGGGCCTCATCTATACAACCAAGCGCTCAGCGATTGCAGAACGGTTGTCAGCCAGCGCATGATTTCCCTGGAAGAAGATATTTACGCATTGGAGCAAAAAGTGAAGCGAACTCGTTAG	MKPSKFPKEQREQLIELVQEYFETERGETLGNLAAESVLDFFVETLGPHLYNQALSDCRTVVSQRMISLEEDIYALEQKVKRTR				NA	NA	NA	NA	NA
AK002_05934	549	ydaF_2	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGTTTGGATACACATTGGACGATCATGTTGAATTGCGCCCGCTTGCCATCGAACATGCACGGGCGATGTTCGAGATTACCGACCGGTCGCGCGACCGTCTCCGCAAGTGGCTTCCGTGGGTGGATGCCGTCACCGAGGTTAACGATACCCTCAACTATATCAAGGGTGCCATGAAGCAAGCAGCCGACAATGGCGGCTTCTCGGCGGGCATCTGGGTGCGCGAGGAGCTGGCGGGCACGATCTCGTTTCACGAGATCGATTGGAACAACCGCTCGGTCGGCATCGGCTACTGGCTGGATCAGCATTTTACGGGGCAAGGCCTGATGACAAGCGCATGCCGCGCGTTCACGGATCACGCACTGATGCGCATGGGCCTGAACCGGGTGGAGATTCGATGCGCAACGGCTAACCATCGGAGCCGGGCGATTCCGGAACGTCTGGGCTTTGTCCTTGAGGGGGTCATACGGGAAGCTGAGAAGCTGCCCCAAGGCTATGTCAACCATGCGGTTTACGGCATGATTCAGAGCGAATGGAAGCGGATGAGGTAG	MFGYTLDDHVELRPLAIEHARAMFEITDRSRDRLRKWLPWVDAVTEVNDTLNYIKGAMKQAADNGGFSAGIWVREELAGTISFHEIDWNNRSVGIGYWLDQHFTGQGLMTSACRAFTDHALMRMGLNRVEIRCATANHRSRAIPERLGFVLEGVIREAEKLPQGYVNHAVYGMIQSEWKRMR				NA	NA	NA	NA	NA
AK002_05935	660	yiiM	COG2258	Protein YiiM	ATGACCATGGGCATTGTATCGCTGAATGTGGGAAAGCCTGTAACGGTGGATTACCAGGGGAAGGACCTGTCTACCGGAATTTATAAGCAGCCTGTGGAAGGCTCCTTGTTTCTAAGTTCATTGAATTTCGAAGGGGACGGGCAAGCCGATCTCGTCAATCACGGCGGCTTGGATAAGGCGGTGTGCGCGTATCCTTCGGAGCATTATCCGTATTGGGAACGGTCCTTGGGCAAACCGATGCCGTATGCCGCATTCGGCGAAAATCTGACGCTGCGAGGGCTGCTGGAGGATGAAGTCTGCATCGGAGATGTATACCGGGTAGGGGAGGCGGTACTGCAGGTCAGCCAGCCCCGATATCCCTGCTTTAAGCTGTCGCAAAAGCATGGCGTCAAAGACATGCCGGCAAGGGTGCTGAACACGGGTTACAGCGGTTTTTATTTCCGCGTGCTCGAAGAAGGAAAGGTCAGCGCAGACTCCCCCGTTACCCGGCTTCATTCCCATGCTTCCGGCATCGCGGTGCTGGAAGTGCTTCGCATGATGAAGGACGGGCGAAAGGATGAACAAGGGCTTATGCGCATGCTGGAGATCGACGAACTCGCCTCAAGCTTGAAGTCGCAATTCGGGACATGGCTGGCGACCCTTCGAAGCCGTCAGGATTGA	MTMGIVSLNVGKPVTVDYQGKDLSTGIYKQPVEGSLFLSSLNFEGDGQADLVNHGGLDKAVCAYPSEHYPYWERSLGKPMPYAAFGENLTLRGLLEDEVCIGDVYRVGEAVLQVSQPRYPCFKLSQKHGVKDMPARVLNTGYSGFYFRVLEEGKVSADSPVTRLHSHASGIAVLEVLRMMKDGRKDEQGLMRMLEIDELASSLKSQFGTWLATLRSRQD				NA	NA	NA	NA	NA
AK002_05936	498			hypothetical protein	ATGAATACCCGTCAAGAGACAGTGACCATCCGTTTCTCGGAAATGAAGGATGCCGCTGCGCTTATGGAACTCGACGAACTGGTATGGGATCGCAATACGGCCCCGGAGCCCCTGAAATGGAGCTCACGGGACCATTATCTTCTGCAGTGCCCGCCAGGCACGCAGCTTGTTGCGCTGCATGAAGGGGAGCTGTGCGGTTACGTCGGCTTCCGTTCGCCTACGGGCCTTAACAGCAATCGCCATGTGCTCGAGCTGAACATCGCGGTCCACCCTGCCCATCAGCGGCAGGGCATCGGACAGCGGTTGATCGAGGCGGCGAAGGATATGGCGCGGGTGGAAGGCATTGCGAAGCTGAGGCTGCGGGTGCTGTCCAGCAATCCGGGCGCTCTCTCCTTTTACAGAAACTGCGGGTTTAAGGAAGAGGGGCGGCTGATTCGGGAGTTCTACGTGGATGGACGTTACGTTGATGATATTTTAATGTGTTACTTCTTATCATGA	MNTRQETVTIRFSEMKDAAALMELDELVWDRNTAPEPLKWSSRDHYLLQCPPGTQLVALHEGELCGYVGFRSPTGLNSNRHVLELNIAVHPAHQRQGIGQRLIEAAKDMARVEGIAKLRLRVLSSNPGALSFYRNCGFKEEGRLIREFYVDGRYVDDILMCYFLS				NA	NA	NA	NA	NA
AK002_05937	3378		COG3459	1,2-beta-oligoglucan phosphorylase	GTGACAGCCAATCATGTAATGAACGATGCGAAGGTTGTACTCCAGGCTGGAGAATTGACGTTTACCTTTTTGCCAAGCGGGGATCTTTATCAAGCTGCTTACGGCACGACGATGATCAATCAACTGCTCTCCAATCCGATTGACGGCGCCCTCAACAATTTGTTTCTGAGAATCCATACCGAAGACGGCATCGAGGCCGTTCCCATGCTCGGGGTGCATTCCCGAAGCGTGGTCACTCATGCGGATAACCGGATGATGTGGGAAGGCAGCGTCAAGGGAGTAGCCTATACGATACGGTTTACCCCAACGGATGCCGGCGCGTGGTTTTGGGACATCGAGCTCCAAGGGGGAGGAATACAAGCCGACGTCGTTTACGGGCAGGATATCGGGATTGCCCATCCGGGCGCCGTCCGAAACAATGAAGCGTACCTGTCCCAATACATCGACCATGCGGTATTCCGGCAGGAAGATCGGGGTTATGTCGTGTGCTCCCGCCAAAATCAGCCGCAGGGTGGCGTCTTCCCTTATCTTCAGCAGGGATCGCTGACATCGGCGGTCGGGTATGCCACGGACGGCTTTCAGTTCTTCGGTCTTTCCTATAAAGAGACGAATCGGGCAGAGGCCTTATTCAAAGAGAACCTCCCGAATGAGGTATATCAATACGAGTTTGCCTATACGGCTCTGCAGTCCCCTCGCGTAACGTTGAACGGGACGGCCCGGTTCGTATTCTACGGTTTGTTTAAGAAGGATCATCCGGATGCCGTCACTGCGCTCGAATACCAGGAGGAGCTCCAGGCCGCCTGGCAGCAGGCGGAAGCACGCCGTTTGACCGATACGGGCAATAAGCTGCCGCAGTTGGAACGTTCCGACCGCTTCGGCGAACCTCTGCAGACCGTGCCGCTGACGGCGGACGAACTGAACGCGCTGTATCCTGTGCGCCGCCAAGAGGAGCGAGACGGGGAAACGCTGCTTTCCTTCTTCACGGACACCTATGAGCATATCGTCTTGAAGGAGAAGGAGCTTCGCGTTGAGCGTCCGCATGGCCATATCTTGATGAGCGGCAACAACGTCAAGCTGGGCAGTCCGGTCATCACGACCACCTCCTACATGTATGGCGTGTTTAATTCCCAGCTGGTGACGGGGAACACGAACTTTAACAAAATGATGAGTCATGCGCGGAACGCGCTGAACGTGCCCAAGACTTCCGGGCAGCGGATCTATGTCGAGATGGACGGACAGTACCGCCTCTTAACGATGCCGTCAATGTTTGAGATCGGGTTTAATTATGTACGCTGGTATTACAAAACCGAAAACGACAAGCTGATCATCACGAACTTCACATCCGCCGCGGCGCCGGAGGTTACGCTTCAGGTCTGTTCCGAAAGCGGAAGAGCCTACCGTTATCTGGTGACCATGCAGATGACGATGGATGTCAACGAATATGAAGTGCCTTATCATGTGGTTCAGGAAGACGGCATCCTCACGTTCCGTGCCGATTCGGCTTCGCTGAGCGCGTCCGTGTACAAGGATCTGCATTATCGGCTTGGGGTGACGGGAGCCGATATGCAGGTGACGGATGAAACCTGTCTGGCAAGCTATGTCGCGCCGGGGAGCGCTTCCTTAACGGTGCTCGAGCTCGCCGAGAGTGCCGAGTGGGCCATGACGGTGCAGGGCAGCCTTGATACAGCGGATGCTCCAATCGAGGCGCGGAATGCGGATGAGGAGATTGCAAACTACCGTTCGTTTTACGCGTCCGTTATGAACGGGTTCCATCTGAGCTTGAACAACGGGCAGGATGACGGCCTATTCAAAGTCAATGCGCTTGCCTGGTGGTATACGCACAACATGCTCGTCCATTATTCGGTGCCGCACGGGTTGGAACAGTACGGCGGTGCGGCGTGGGGAACGCGCGATGTATGCCAGGGACCCGTGGAATACTTCATGGCCACGCATAAATACGAGCAGGTCCGCGATATCCTGCTTGAGGTGTATTCCCACCAATATGAGGATGACGGAAACTGGCCGCAGTGGTTCATGTTTGATAAGTATGCCCATATCCAGCAGGAAGAGAGCCACGGCGACATCATCGTATGGCCGCTGAAGGTGCTGGGCGATTATTTGGCCGTTACCAACGATTACAGCATCCTGGAGTCGGCCGTTCCTTACACGAGAAAGCACAGCTTCGATTTTACGGAGCGGATGTACACCGTGCTTGAACATGTGAAGAAGCAAATAGCCTATATTCAGGAGCATTTCCTACATGGTACCCATCTGTCTTCTTATGGGGACGGGGACTGGGACGATACGCTGCAGCCGGCTAACGCCCAGCTGAAGCAGTTCATGGTCAGCAGCTGGACGGTCGCCTTGACGTATCAGACCTTGAACCAGTTCTCCCGCGTCATGGAAAGCGTGGATCAAGCGTTGTCGGGTGCGATGGGGGAACTCGCGGAAGGAATTCAGCGGGATTTCAATACGTATATCCTGAACTCCGAAGTCATTCCGGGCTTTGTCTATATGGAGAGCAAGGAGCAGAGCAGGTTCCTGCTGCATCCTTCCGATGAGGAAACGGGGATCCAGTACCGCCTGCTGCCAATGACGCGCAGCATGATCAGCGAGCTGCTGACCCCGGAGCAGGCGGCCAGCCATTATGAGATTATCCGGGAGCAGCTGTTCTGTCCGGACGGCGTAAGGCTGATGAACCGCCCGGCGGTATATGCCGGCGGCGTCAGCACCCACTTTAAGCGGGCGGAGCAGGCGGCGAATTTCGGCCGGGAGGTTGGCCTTCAATATGTGCATGCCCATATCCGCTTTGTCGAAGCCATGGCCAAGCTCGGCAAGAGCAGCGAGGTTTGGAGCGGGCTTGAGCGCATCAATCCGATCGGCATCACTGAAGTGGTGCCGAATGCGGAGCTGCGCCAGAGCAATGCATATTTCAGCAGCTCGGACGGAAAGTTCAATACGCGCTACGAAGCCCAGGAATCGTTTGATGCGCTGCGCAGCGGAGACATACCTGTCAAAGGGGGATGGCGGATTTATTCCAGCGGTCCGGGGATCTACATGAACCAGCTGATCTCCAATGCGCTCGGCATCCGCGAAGCGGGAGGCGACCTGGTGATCGACCCGGTTCTGCCGAAGGCGCTGGATGGCTTGGAGTTCCAATTCAACTATGCCGGCGTTCCGGTAACATTCGTTTATCATATGGATGGCGCTGAGCAGACCCGTGTCACGATAAACGGGCAGGATGTATCCGCGAATACGGTCCAGAACCGCTACCGCTCGGGAGGCGTTCGCATCTCGGGCGACGATTTCAAGCGGTTGACCGGAAATGACGAACAAGGCTGCGTCGTGGATATTTACGGCGGCGTTCATGAACAGTAA	MTANHVMNDAKVVLQAGELTFTFLPSGDLYQAAYGTTMINQLLSNPIDGALNNLFLRIHTEDGIEAVPMLGVHSRSVVTHADNRMMWEGSVKGVAYTIRFTPTDAGAWFWDIELQGGGIQADVVYGQDIGIAHPGAVRNNEAYLSQYIDHAVFRQEDRGYVVCSRQNQPQGGVFPYLQQGSLTSAVGYATDGFQFFGLSYKETNRAEALFKENLPNEVYQYEFAYTALQSPRVTLNGTARFVFYGLFKKDHPDAVTALEYQEELQAAWQQAEARRLTDTGNKLPQLERSDRFGEPLQTVPLTADELNALYPVRRQEERDGETLLSFFTDTYEHIVLKEKELRVERPHGHILMSGNNVKLGSPVITTTSYMYGVFNSQLVTGNTNFNKMMSHARNALNVPKTSGQRIYVEMDGQYRLLTMPSMFEIGFNYVRWYYKTENDKLIITNFTSAAAPEVTLQVCSESGRAYRYLVTMQMTMDVNEYEVPYHVVQEDGILTFRADSASLSASVYKDLHYRLGVTGADMQVTDETCLASYVAPGSASLTVLELAESAEWAMTVQGSLDTADAPIEARNADEEIANYRSFYASVMNGFHLSLNNGQDDGLFKVNALAWWYTHNMLVHYSVPHGLEQYGGAAWGTRDVCQGPVEYFMATHKYEQVRDILLEVYSHQYEDDGNWPQWFMFDKYAHIQQEESHGDIIVWPLKVLGDYLAVTNDYSILESAVPYTRKHSFDFTERMYTVLEHVKKQIAYIQEHFLHGTHLSSYGDGDWDDTLQPANAQLKQFMVSSWTVALTYQTLNQFSRVMESVDQALSGAMGELAEGIQRDFNTYILNSEVIPGFVYMESKEQSRFLLHPSDEETGIQYRLLPMTRSMISELLTPEQAASHYEIIREQLFCPDGVRLMNRPAVYAGGVSTHFKRAEQAANFGREVGLQYVHAHIRFVEAMAKLGKSSEVWSGLERINPIGITEVVPNAELRQSNAYFSSSDGKFNTRYEAQESFDALRSGDIPVKGGWRIYSSGPGIYMNQLISNALGIREAGGDLVIDPVLPKALDGLEFQFNYAGVPVTFVYHMDGAEQTRVTINGQDVSANTVQNRYRSGGVRISGDDFKRLTGNDEQGCVVDIYGGVHEQ				NA	NA	NA	NA	NA
AK002_05938	2166			Beta-xylosidase	ATGGCAGATCAACAACTGACTTCTCTGGTCGAGCAGATGACGCTGGAGGAAAAAATTGCGCAGCTTATACAACTGGCCGTCCCTTTTTTCGAAGGAGCTCAAGAATCAGGGCAAATTACGGGTCCGATGGAGTCGCTGGGCATCACCGATGAGATCGTAAGCAATGCAGGCTCGGTACTGGGCTTGGCGGGGGCGGAGGAAGTGATAGCCGTCCAAGAAGCGCATATGCGCAAAAATCGATTAAAAATTCCGCTGCTCATGATGGCCGATATCGTACACGGCTTCAAAACGATCTTCCCGGTGCCGCTGGCCATGGGAAGCTCGTGGGACCCTGTCCTTGCGGAGCGGAGCGCAGAAATCGCCGCGCGCGAAGCCGCGGTATCCGGCCTCCACGTGACATTTGCGCCGATGGTGGACCTGGTGCGCGATCCGCGCTGGGGACGCGTGATGGAGTCGACCGGGGAAGATCCCTATCTGAACAGTGAATTTGCAAGAGCGTTTGTCAGAGGTTTTCAAGGCGACGACTTGAGCGGCGACGTAAATCGGCTGGCCGCGTGCGTGAAGCACTTTGCCGCCTATGGAGCCGGTGAAGGCGGCCGTGATTACAACACGGTGGACATGTCCGAGCGCCAGCTCCGGGAGTATTACTTGCCTGCGTACAAGGCCGCGCTGGATGAGGGGGCCTTGATGGTCATGACCGCCTTTAATACCGTCGATGGCATACCGGCTACAGGCAATAAGCGATTGATGCGCGATTTGCTGCGTCGCGAATGGGGATTTGACGGTGTGTTGATTTCCGACTGGGGAGCGGTCAAAGAGCTGATCCCTCACGGAGTTGCCGAGGACGAGGCAGAAGCAGCGTTAAGAGCCATCGAGGCTGGCGTGGACATCGAGATGATGACCTCCAGCTACGTGCATCATTTGCCGCAAATGGTACGCGATGGACGGGTGGATGAGAGCCTGATCGATGAAGCGGTGCTGCGTATTCTGTCATTGAAAAAGCGGCTTGGACTGTTCGAGCGTCCTGTGCGGGGAGCCGACCCGCAAACCGAACGGGAGATCGTGTTCTGCGAGGAGCACCGTCAGGCGGCCCGTGAAGCCGCGGCGAAATCCTGCGTGCTCCTGAAGAACGACTCCCTGCTGCCGCTCAGAGGCGGGCAGCGCGTAGCCTTGATCGGCCCGTTCGCTGCCAGCGGCGACATACTCGGCCCCTGGTCCTGGACAGGCTCTAAAGAAGATGCCGTCACGCTGGAGGAGGGACTGCGGTCCAAGCTGCCTTCCGGCGCGCTGACGGTGGCCGCGGGCTGCAGCGTGAGCGCTATGACCGGTCAGCAGCTGGAAGAGGCGATGAAAACCGCGAAGGAAGCCGATGTGATCGTACTGGCGCTGGGCGAGGATTCCGAGATGAGCGGCGAAGCCGGCAGCCGCGGGTTTATCACGCTGCCGCAGCCGCAGCTCGAATTGATCCGCCATTTGAAAACGCTGGGGAAGCCGATGGCAGCCGTCTTGTTCAACGGCCGCCCGCTGGATTTGCACGGCGTGCTGGATGAGGCCGATGCCGTGCTGGAAGCCTGGTTCCCGGGAAGCGAAGGCGGGGCGGCCATCGCTTCGCTGCTGACTGGCGAGATCAATCCTTCCGGCCGTCTCAGCATGTCGTTCCCTTATTCCGTCGGACAGGTGCCGGTCTATTACAACCATTATAATACCGGGCGGCCGAAGGGTGCGCCGGATGCGCAGGTGCGCTATGTATCGCAGTATTTGGACATTCCGAATGAGCCGCTGCTGCCCTTTGGATTCGGCCTAAGCTATACCGAATTCGAATACGGAAACATGGAGCTTTCAGCGGAAGAGATGTCTTCGGAACAGCCGCTTGAGATCAAAGTATCTGTCACGAATGCCGGCGATATGGCCGGGGAAGAAGTCGTCCAGCTGTACGTCCGCGACTGTTCCGGCGAGGTCGTCAGACCGGTCCGGGAACTGAAGGCCTTCCGCAAGGTGCTGCTGCAGCCGGGAGAACGGCAGGAAATCGCCTTTTCCCTGACCGAAGAACAGCTGCGGTATCACCATTCGGACCTGTCCTTCACGAGCGATGCCGGCGAGTTCGACCTCATGGTCGGAAGGAATAGCCGGGATACGGAGATCAGACGATTTCGGCTTCGGAAATAA	MADQQLTSLVEQMTLEEKIAQLIQLAVPFFEGAQESGQITGPMESLGITDEIVSNAGSVLGLAGAEEVIAVQEAHMRKNRLKIPLLMMADIVHGFKTIFPVPLAMGSSWDPVLAERSAEIAAREAAVSGLHVTFAPMVDLVRDPRWGRVMESTGEDPYLNSEFARAFVRGFQGDDLSGDVNRLAACVKHFAAYGAGEGGRDYNTVDMSERQLREYYLPAYKAALDEGALMVMTAFNTVDGIPATGNKRLMRDLLRREWGFDGVLISDWGAVKELIPHGVAEDEAEAALRAIEAGVDIEMMTSSYVHHLPQMVRDGRVDESLIDEAVLRILSLKKRLGLFERPVRGADPQTEREIVFCEEHRQAAREAAAKSCVLLKNDSLLPLRGGQRVALIGPFAASGDILGPWSWTGSKEDAVTLEEGLRSKLPSGALTVAAGCSVSAMTGQQLEEAMKTAKEADVIVLALGEDSEMSGEAGSRGFITLPQPQLELIRHLKTLGKPMAAVLFNGRPLDLHGVLDEADAVLEAWFPGSEGGAAIASLLTGEINPSGRLSMSFPYSVGQVPVYYNHYNTGRPKGAPDAQVRYVSQYLDIPNEPLLPFGFGLSYTEFEYGNMELSAEEMSSEQPLEIKVSVTNAGDMAGEEVVQLYVRDCSGEVVRPVRELKAFRKVLLQPGERQEIAFSLTEEQLRYHHSDLSFTSDAGEFDLMVGRNSRDTEIRRFRLRK	PGPT0019110_5632	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019110-bglX-K05349	NA	NA
AK002_05939	762			hypothetical protein	TTGGCATGGATCACGTGTGATTTTTATTCCGAAACACTGCAGCTGTCTACCGGCATCGAGGTTTTTATACCGCAAGCCGCGCTGATGCCATACGGTTCTTCTTCGAAGCTGCCGGTGCTTTATTTGCTTCACGGCCGAGGCGCGGACCAGACCGAATGGATGCGCAGATCGTCCATCGAGCGGTACGCCGAGGATAAAGGCATCGCACTCGTGATGCCGGGAGTCGGACGAAGCTATTATATGGACATGGCCAACGGCCCGTCTTACTTTACCTTCCTGAGCGAGGAGCTTCCGCGGCTGGTTCAGTCGTTCTTTCCGGTGTCCGGACGCAGGGAAGATACCTTTGTCGCCGGAATTTCCATGGGCGGGTATGGCGCATTTAAGCTGGCCATGAGTTATCCGGAGCGTTATGCGGCCGGCGCAAGCCTGTCGGGAGGGCTGGATCTCGCCAGCCGGGCTGCGGGACCGGGCTTCCAGGAGCACGAAATCCGTACCTTGTTCGGAAGCGTCGACCGATTGCGGGGAAGCCGGGACGACTTGCTGTATTTAGCCTCGGAATTCGCGGCATATGGGGGTAACAAACCGATGCTGTATCAGTGCTGCGGAACGGAAGACTTTTTATATCATGATAACCAAACGTTTAGACGATATGCGGACAGTCTGGGGATTCCGATGACATACGAGGAAGAGCCGGGCGGACATGAATGGGGATATTGGGACCGTAAAATTCAGCGTGTGCTGGATTGGCTGCCACTGCCCTGA	MAWITCDFYSETLQLSTGIEVFIPQAALMPYGSSSKLPVLYLLHGRGADQTEWMRRSSIERYAEDKGIALVMPGVGRSYYMDMANGPSYFTFLSEELPRLVQSFFPVSGRREDTFVAGISMGGYGAFKLAMSYPERYAAGASLSGGLDLASRAAGPGFQEHEIRTLFGSVDRLRGSRDDLLYLASEFAAYGGNKPMLYQCCGTEDFLYHDNQTFRRYADSLGIPMTYEEEPGGHEWGYWDRKIQRVLDWLPLP	PGPT0020645_52	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_LYSINE_TRANSPORT,PGPT0020645-lysY-K17076	NA	NA
AK002_05940	1002	rbsR_3	COG1609	Ribose operon repressor	ATGGCAACGATAAAAGATGTGGCAAAGCTCGCTGGAGTCGCCTTGTCGACGGCTTCATACGCGTTAAGCGGCGACAGCAGAGTGAGTTCCAAGACAAGATCAAAGGTGCTCGAGGCAGCAAGACAGCTGAATTATCGGAAGAACGGATTTGCCATGGATTTGAAGCGGAGCCGCACCAAGACAATCGCTCTAATTCTGACGGATTTATCCGGGCCCTATTATTCCGAGTTGATCCGAAGCGTACAGGAAGTTGCTTTGACCAACGGGTATGATCTGATAGCCTGCAGCTCGATGGGCGGCAGGGATTCGACGGCGGTTAAATTTTTGCGGGAGAAGAGGGCTGACGGCGCCATCATTCTCGCGCCCAATATTCGCGATGAAGTTCTGATCGAGACCTCCGGGCCTCAATTTCCGATCGTCGTGATGGATCGGCCGTTATGCAGCGAATTCCTGGTCAATGTGCTGGTCGACGGGGAGCAGGGAGGATACACGGCTACTCGTTACCTGCTGGAGAACGGACATCGGCACGTAGCCTATATTAGCGGGTCGTCGGACTCGTACGATAATCATTTGCGTTATCAAGGGTATTTAAGGGCACTAGCGGAGGCGGGGCTGGAAGAACAGTCGAAGTGGCGCCTCAGCGGCAACTTCGTACGCGAGGGCGGTTACAACGCCACCAAGATGATGATTATGCAGGGGTCGCTCCCTACGGCCGTATTTTACGGCAACGACGAGATGGCCATCGGAGGGCTGAAGGCATTCGAGGAAAGCGGAATTTCGGTGCCGGATGATGTGTCCGTCATCGGATTCGACGATATCCAATTAGCCGAATACGTGAATCCGCCGCTGACGACCATCAGACAGCCCAAGAGCGAAGCGGGATCGCTTGCAGCCCATCTGCTGTTTCAGATATTGGGCGGCGAATCCGTAAAGCAGTCGTACATGCTGACAACGGAAATGATGGAGCGTGCATCTGCAGGGAAGAGCAAAGTAGAAAGTTAA	MATIKDVAKLAGVALSTASYALSGDSRVSSKTRSKVLEAARQLNYRKNGFAMDLKRSRTKTIALILTDLSGPYYSELIRSVQEVALTNGYDLIACSSMGGRDSTAVKFLREKRADGAIILAPNIRDEVLIETSGPQFPIVVMDRPLCSEFLVNVLVDGEQGGYTATRYLLENGHRHVAYISGSSDSYDNHLRYQGYLRALAEAGLEEQSKWRLSGNFVREGGYNATKMMIMQGSLPTAVFYGNDEMAIGGLKAFEESGISVPDDVSVIGFDDIQLAEYVNPPLTTIRQPKSEAGSLAAHLLFQILGGESVKQSYMLTTEMMERASAGKSKVES	PGPT0017992_12981	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
AK002_05941	819	araQ_58	COG0395	L-arabinose transport system permease protein AraQ	ATGGCAGCGAAAAGAATAGAAAAGACGGTCATGACGGTGCTGCTCATTGCAGGGGGACTGCTGATGATGATTCCGTTTATCTGGATGATCACGTCCTCGTTCAAGCCGGAGAATGAATTTACGGCGGTTCCGCCGACGTTATTGCCCAAAGAATTTACCATGAAAAATTATGTGGACTTATTTACGAAGCTGGACTTTATGGTCTACCTTAAAAATACGCTTATTATTGTGTTCTGGTCATTTGTGGGTCTGTTCCTCAACGCGCTTGCAGGATATGCATTCGCCAAGTTTGAGTTTCCGGGCAACAAAAAATTGTTCTATCTCGTGCTCGCCACGATGATGATTCCGGGACAGGTGACCATGATTCCGGTGTATCTGCTGATTAACGCCATGGGCTTGACCAATACGATGGCGGGCATCGTGCTCCCCGGCTTGGTCGGCGCTTTCGGTATTTTCCTGTTCCGTCAGTTCATGTCGACGATCCCGACGGATCTGATCGAGGCATCAAGGCTGGATGGCGCGGGAGAGCTGCGGATTTTCTTCCGTTTGATCGTTCCGATCACGAAGCCGGTATTTGCGGTGCAGGGAATTTTGGCCTTCATCGGCGCTTGGAACAGCTTCCTGTGGCCTCTCATCATGGCTAACGACCAGAAGCTTTACACGCTTTCGGTAGGTTTGCAGCTTCTCAAAGGGCAGCACGGATCCGATTTCGGTCTGCAAATGGCAGGCGCTGCATTTATGGTTGTTCCGATCATCATCGTATTTTCTTTCTTCCAAAAACATATTATTGAAGGATATACGATCTCTGGCATGAAATAA	MAAKRIEKTVMTVLLIAGGLLMMIPFIWMITSSFKPENEFTAVPPTLLPKEFTMKNYVDLFTKLDFMVYLKNTLIIVFWSFVGLFLNALAGYAFAKFEFPGNKKLFYLVLATMMIPGQVTMIPVYLLINAMGLTNTMAGIVLPGLVGAFGIFLFRQFMSTIPTDLIEASRLDGAGELRIFFRLIVPITKPVFAVQGILAFIGAWNSFLWPLIMANDQKLYTLSVGLQLLKGQHGSDFGLQMAGAAFMVVPIIIVFSFFQKHIIEGYTISGMK	PGPT0016540_8778	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016540-ABC_MS_P1-K02026	NA	NA
AK002_05942	900	lacF_22		Lactose transport system permease protein LacF	TTGCAGAACTTTATCAAGCGCTTTAACCGCTATAAGTACCCTTATATGTTTATTGCGCCAGCGCTGGTGCTGCTTCTGACGTTCTCAATCATTCCGATCATCATTGCGCTTGTCATCAGCTTCACGAACATCGACCTGGCGGGTCTCGCCAATTACTCCAATATTGAAGCCGTCGGCTTCGATAACTTCATGAATGTATTTAAAGATCCGGTTTTCCTGAAATCCATGTTTAACACCATGTTCTATGTTATTATCGGAGTTCCGCTTGTCGTTATGCTGGCCATGGGCGCTGCATTGCTGCTTAACTATGGCACGGGATGGCTGTTCAAGACATTCCGCGTTGTTTATTACATGCCTTCGATTACGAATATTGTGGCGGTCGCGGTTGTATGGGGTTACCTCTATAACAGCCATTATGGCCTCTTTAACCATATGTTATCCTGGTTTGGTATTCCCGCGCAGCAGTGGCTGAATGATCCCACGCTTGCCAAGTTATCGCTGATCCTTCTGGCTGTATGGAAATCGATCGGTCTTAACATGATTATATTCCTTGCCGCCCTCCAGGGCATTCCGCGTTCCTATTATGAAGCGGCGGAGATCGATGGCGCGAGCAAGTGGAAGAAGCTTTTGTACATCACCGTTCCGCTGCTCAGCTTTGCGACCTTCTTTGTCACCATTACGACGCTGATCGGCTGGATTCAGTTCTTCGAAGAGCCGCTGGTGATGACCAAGGGCGGACCGCTGAATTCCACGATGTCGATGGCCCTCTTCATATACAACAATGGCTTCCAGCTCAGTAATTTCGGTTATGCGGCCGCAGGATCGTTTGTGCTCTTCTTCATTATCATTGTTGTGACGATCGCGCAATTCGCAGTCAAGAAAAAAGATGTCGAGTATTAA	MQNFIKRFNRYKYPYMFIAPALVLLLTFSIIPIIIALVISFTNIDLAGLANYSNIEAVGFDNFMNVFKDPVFLKSMFNTMFYVIIGVPLVVMLAMGAALLLNYGTGWLFKTFRVVYYMPSITNIVAVAVVWGYLYNSHYGLFNHMLSWFGIPAQQWLNDPTLAKLSLILLAVWKSIGLNMIIFLAALQGIPRSYYEAAEIDGASKWKKLLYITVPLLSFATFFVTITTLIGWIQFFEEPLVMTKGGPLNSTMSMALFIYNNGFQLSNFGYAAAGSFVLFFIIIVVTIAQFAVKKKDVEY	PGPT0016535_6393	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016535-ABC_MS_P-K02025	NA	NA
AK002_05943	1212			hypothetical protein	TTGCTGGTGTTCTCGGTCGTATTAGCCGGATGCTCGGGCGGGTCTGAGAAAGCAGACGGAGGCAGCGAAGGCGGCGGCAAGAAGGAACTGAAAGTCTGGTTGATGGGTGACGAAACGGACGAAACTTTGATTAAGCAATACGAAGAGAAGAATCCCGGCGTGAAGGTAAGCGTTCAATCCATTCCTTGGGGAAGCGCGCATGACAAGCTGTTGACGGCGGTTGCTTCGAAGAGCGGCCCGGACGTCGTGCAGATGGGTACAACCTGGATTCCTGAATTCGCGCAAGCCGGCGCTTTGCTTGACCTGACGCCGTACCTTGAGCAATATCCGAATTTGAAGCCGGAAAATTATTTCGACGGTGCCGTTCAAACGATGAGTTACGACGACAAGGTTGTCGGCATTCCGTGGTACGTGGAAACACGCGTATTGTTCTACCGCACCGATATTCTTGCTGAAGTAGGCTATCCTGAAGGTCCTAAGACTTGGGATGAGATGAAGGATGCCGGCCAGAAACTGGCAGCCAGAGGTAATGGCAATTACGCAATCACCATCGATGCCAAAGACATGAACTACCTGTCCATGTTTGCTTGGCAGAATGGAAGCGCTATGATCGACGAGAACCGCAAGCCTCATTTCAACGAGCCGGAATTCATGGGAGCCATGGAATACCTGAAGAGCTTCTACGACACAGGCATGACGCCGCTTGCGAGCGATTTGGATCTGTTTGCCGCATTTAAGGACGGACAGTTCCCGATGTTCATCAGCGGTCCTTGGATGATTCAAGGCGTGAAGGATAAAGCGCCTGAGATTGAGGGTAAATGGGCAACCACAACCCTTCCTGCAAAAGAAAACAACGCATCGTTCCTTGGCGGAGCTAACATGTCCGTATTCAGCAGCACCAAAAATGCAGATGAAGCCGTTAAATTCATCTCCTTCATGAGTGAACAAGAATCGCAGCTGACCAACTACGATGTATCCAAAAACTTGCCTGCCATTAAGAGCGCATGGGAAGACAAACGCTTTGAAGATCCGATCTTCGCTACATTCGGAAAACAGCTTGAGAACGCCAGACCTGTTCCGTTCATCAAAGAGTGGGATGCGGTTTCCCAAGAAGCCATCGGTGCCTTTGAAAGAATCACGGTGGGCGGTGCGGACATCAAGACCGAAATGGATCAGTTGAACGCGAAGGCTACCGAAATTCTATCCAAATAA	MLVFSVVLAGCSGGSEKADGGSEGGGKKELKVWLMGDETDETLIKQYEEKNPGVKVSVQSIPWGSAHDKLLTAVASKSGPDVVQMGTTWIPEFAQAGALLDLTPYLEQYPNLKPENYFDGAVQTMSYDDKVVGIPWYVETRVLFYRTDILAEVGYPEGPKTWDEMKDAGQKLAARGNGNYAITIDAKDMNYLSMFAWQNGSAMIDENRKPHFNEPEFMGAMEYLKSFYDTGMTPLASDLDLFAAFKDGQFPMFISGPWMIQGVKDKAPEIEGKWATTTLPAKENNASFLGGANMSVFSSTKNADEAVKFISFMSEQESQLTNYDVSKNLPAIKSAWEDKRFEDPIFATFGKQLENARPVPFIKEWDAVSQEAIGAFERITVGGADIKTEMDQLNAKATEILSK	PGPT0016545_10656	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MULTIPLE_SUGAR_TRANSPORT_III,PGPT0016545-ABC_MS_S-K02027	NA	NA
AK002_05944	1254			hypothetical protein	ATGAAATGGTTGGAGCAGTACCCTAAGGAAGTAAAAGGTTTTCTTGTTGCAAGTCTCGTTGCCTCCGCGGGCGGCTCCTTGATGTGGCCGCTGACAACGATGTACGTATTCGACGAGCTGGGACGCAGCATGCAGGATGCGGGCTTTGTCATCTTGATTCAGTCCATGGGGGGCATCGCGGGTCAGCTCCTTGGCGGCGCGTTATATCACCGAGTCGGGGTGAAGAGGCTGATCGTGGGCTCGCTCCTGCTGAATGCCCTCGGATTGTTCACCCTTCCGTTCATTAACGGATTATGGGGCTTGTTCATCGCGATGATGGGCTTCATCGGATTCTGCAACGCCGTATCGATGCCGGCCATCCAGGCCTTTATCGGCTTCCGGTTTGCCGATCGGCGGGGCGAATTGTTTAACGTCATCTATGTTGCCAATAATATCGGCGTAGCCTTTGGAACGGCCATGAGCGGGTTCCTGGCGGAGATATCGTATCATTTAAGCTTTGTCTTAAACGGCGTCACGTCCTTCGGCTTTGCGATTTTCTTCCTGTCTTACCTGACGAAGCTGGGCGGAACGGACGCGTCCCCCGGGTCGCATCATCCGAAGCCCAAGAGTCCGCTTCCGGCGGGGCCCGGCGCATGGGCACTGCTTGGGAACACCCGCATCTATCTCTTTATGGGACTGGGCTCGCTGTTCCTATGGTTCGGCAATTCCATCTGGAACACGGGCGTGTCTCCGTTTATCATCTCGGAGGGGATGTCCAAGACGGCTTACGGTTATTTGTGGACGCTGAACGGGATCCTGATCTTCGCCGCTCAGCCGCTGACCAATGCCATCAAGCGATGGGCGGCCCGCACGGAGAGCAGTCAGATGACCGCGAGCGCTTTGTTCTATCTGGCGGCTTATGTCGTGATCGTGGCGATGCACAGCTATCCGGGCATGATCCTTGCGATGGTGCTGGCGACATTGGGCGAAATGCTGATTTCGCCAGCGATCCCGGCTTTTATTTCGGAACGTGCGGGACAAGCCGCTCCGTTCTATATCGGCGTGACCGGCGGCATGGGAGCCGCTGGCCGGGTGATCGGGCCTTATGCCATGGGAACGATGTATGACGGCGGCGGACTGACCCCGGTGGCGTGGTTGGCCGCAGGAGTTGCCGTATTGTCATTCCTGTCGTTTGCGATGCATGCCCGGCTTAGCAGGGACAGGGGGCTGGGCCATGACAGTCATGACAAGAAGGAACGACATCTTAACGCTTAG	MKWLEQYPKEVKGFLVASLVASAGGSLMWPLTTMYVFDELGRSMQDAGFVILIQSMGGIAGQLLGGALYHRVGVKRLIVGSLLLNALGLFTLPFINGLWGLFIAMMGFIGFCNAVSMPAIQAFIGFRFADRRGELFNVIYVANNIGVAFGTAMSGFLAEISYHLSFVLNGVTSFGFAIFFLSYLTKLGGTDASPGSHHPKPKSPLPAGPGAWALLGNTRIYLFMGLGSLFLWFGNSIWNTGVSPFIISEGMSKTAYGYLWTLNGILIFAAQPLTNAIKRWAARTESSQMTASALFYLAAYVVIVAMHSYPGMILAMVLATLGEMLISPAIPAFISERAGQAAPFYIGVTGGMGAAGRVIGPYAMGTMYDGGGLTPVAWLAAGVAVLSFLSFAMHARLSRDRGLGHDSHDKKERHLNA				NA	NA	NA	NA	NA
AK002_05945	2079	dmsA	COG0243	Dimethyl sulfoxide reductase DmsA	ATGACTCAAGCGATGATTCATCAGGAAAACGGCGTATTTCCGGCGGTATGTCCGTTGGATTGTCCCGATACATGCGGCCTGCTGCTGCATAAAGAGAACGGAAAAATCGTCAAGGTGACCGGTAATCCGGAGCATCCGATTACGCAGGGAGCCATCTGCAATAAAGTCCGTAATATGGCACACCGGGTGTACCATCCGGAACGCGTGCTCTATCCGCTGCGAAGGGTAGGTCCCAAGGGAGAGGGCGCCTTCGAGCGGATCAGCTGGGACGAAGCCATTCAGGAGATTGCGGGACGCTATAAGGACTTGATTGAGGAATACGGCTCCGAGAGCATCCTGCCTTACAGCTTCTACGGCAATATGGGGATATTGAGCGTCGACGGCATGGACCGCAGATTCTTCAACAGGCTGGGTGCCAGCCGCCTGAAGCAGTCGATTTGCAATTCCGCGGGCAATGAGGGCTGGAAATCCGTGATGGGGTTTAATGGGGGAACCGTTCCGGAGGACACCGTACGAGCCGACGTCATCCTCGTCTGGGGCGGCAACATCGTCAGCACCAATATGCACCAGATGGTGATTGCAGAGAAAGCGCGCAAAGCCGGTGCCAAGGTCGTTGTGATCGATGTCCACAAGAACCAGACGGGGCAATGGGCCGACTGGTTCATTCCGCTGTATCCAGGCACGGATGCTGCGCTGGCCGTCGGGCTCATGCACATCATGTTCCGCGACGGCATGGTGAATGAGGAATTCCTCCGGAAGTATACGATTGGTCATGAAGCCTTGCGCGAGCACGTCAAAGAATACACGCCGGAGCACGTTTCTTCCATTACCGGCATCTCGATCGAGGATATCGAGAAATTGACCGAGCTCTACGGCCGGGCCGATACTTCCTACATCCATATCGGCAACGGTCTTCAGCATCACGACAACGGCGGCTTGACGGTGCGCAGCATCGCCGCGCTTCCCGCTTTGACCGGACAATGGCTGAAGCGGGGCGGAGGGGCTGCCAAGTCGAACGGCGGTTACAACAGCATGGATAGCGACGCGCTTGAGCGTCCCGATCTCCGGCCGAATCCCGAAGCGCGCACGATTAACATGAACCGGATCGGCGAAGCGCTTGCCATGACCGAACAGCCGATTAAGTCGCTCTTCGTTTATTGCAGCAATCCGCTGGTTGTGGCTCCCGATACCGAGCGGGTCAGGGAAGGGTTTGCACGGGAAGATCTGTTTACGGTTGTGCATGACCTGTTTATGACGGATACGGCCAAGTATGCCGATATCGTGCTCCCGGCAACCTCTTCGTTCGAGAATACGGACCTGTACGCTTCCTACTGGCATCAGTACGTTCAGCTGCAGGAGCCGGTCATTCCGGCACTTGGGGAGAGCAAGGGCAACGTAGAGCTGTTCTCCATGCTGGGACGGGCTATGGGATTCCAGGAACCGGCTTTTCATGAGACCGAGGAAGAGATGATGGCAAGAGCGCTCGACTTCCCGGATAACCCTTATCTAAACGGCGTCACGCTGGACAAGCTGAGGGAACACCGCCACGTGAAGCTGGACATGACGCCGCTTGAAACGTATCTGGACCGTTTGCCGACGCCTTCGGGACGCATCGAGTTATACTCTGCGAAGTTGGAGGAAGCAGGTCTACCGCCCCTTCCGACCTACGTGCCGCTGAAGGAAGGATACGACGGGGTAAGGCGCGGCCGCGGGCATCAATACCCGCTCATGTTCATTTCGCCGCCGAACCATAACTTCCTGAACTCGACCTTTGCGAACGTGGAGAAGCATCAGAAGCTGGAGAAGGAACCGGCCCTTCAGATTCACCCGGCGGATGCGGAGGAACGCGGGCTCCAGGACGGCGAGATGGTCATCGTATATAATGACCGCGGAACCTATGAAGTCCGGGCGAAGGTGACGGATAAAATGCTGCCGGGCACCGTAGTCAGCCAAGGCCTGTGGTGGGAAGGCGAGGGCCGCAAGCAGCGCGCCAACGCCCTTACGCCGGACAGGCTGTCCGACATGGGCGGAGGGGCTACCTTCTTCTCGACGGTAGTCGAGGTGAAGCGGAAGCAGTAA	MTQAMIHQENGVFPAVCPLDCPDTCGLLLHKENGKIVKVTGNPEHPITQGAICNKVRNMAHRVYHPERVLYPLRRVGPKGEGAFERISWDEAIQEIAGRYKDLIEEYGSESILPYSFYGNMGILSVDGMDRRFFNRLGASRLKQSICNSAGNEGWKSVMGFNGGTVPEDTVRADVILVWGGNIVSTNMHQMVIAEKARKAGAKVVVIDVHKNQTGQWADWFIPLYPGTDAALAVGLMHIMFRDGMVNEEFLRKYTIGHEALREHVKEYTPEHVSSITGISIEDIEKLTELYGRADTSYIHIGNGLQHHDNGGLTVRSIAALPALTGQWLKRGGGAAKSNGGYNSMDSDALERPDLRPNPEARTINMNRIGEALAMTEQPIKSLFVYCSNPLVVAPDTERVREGFAREDLFTVVHDLFMTDTAKYADIVLPATSSFENTDLYASYWHQYVQLQEPVIPALGESKGNVELFSMLGRAMGFQEPAFHETEEEMMARALDFPDNPYLNGVTLDKLREHRHVKLDMTPLETYLDRLPTPSGRIELYSAKLEEAGLPPLPTYVPLKEGYDGVRRGRGHQYPLMFISPPNHNFLNSTFANVEKHQKLEKEPALQIHPADAEERGLQDGEMVIVYNDRGTYEVRAKVTDKMLPGTVVSQGLWWEGEGRKQRANALTPDRLSDMGGGATFFSTVVEVKRKQ				NA	NA	NA	NA	NA
AK002_05947	1827	kimA	COG0531	Potassium transporter KimA	ATGTTATCCTCAATCAAGCGCTTCCTCATCGGAAGACCGCTTAAATCAACGGAATTAGGCGAACAAAAGCTGAATAAAACCAAGGCGCTGGCCATCCTGTCATCCGATGCGTTATCGTCCGTGGCCTATGGTCCGGAACAAATCCTCATTGTGTTGATGACCGTCGGGGCGGCTGCCTATTGGTATTCCATACCGATTGCCGTCGGCGTCCTGGTCTTATTGCTGGCACTTATCCTGTCGTACAGACAAATTATTTTCTCCTATCCGCACGGCGGCGGCGCATATGTCGTGTCCAAACGGAATTTGGGCATGTATCCGGGGCTGGTGGCCGGCGGTTCCTTGCTCGTGGACTATATCCTGACGGTTGCGGTCAGCGTGTCGGCCGGGACGGATGCGATCACGTCGGCTTTTCCGGAATTGCACGCCTATAATCTGCCGATCTCCATCGTGTTCGTTCTATGCTTGACCGTATTGAATTTAAGAGGGGTCACGGAGTCGGCCTCCATATTGGCTTATCCGGTTTACCTGTTCGTGCTTGCGTTATTCATCCTGATCGGGGTAGGGATATTCAACATTGCCACAGGCCATGCGTCTCCGGAGCTTCACACGCCGATCGGCACGCCCGTAGCCGGGCTGAGCTTGTTTCTGCTTCTACGCGCATTTGCCTCGGGCAGCTCCGCCCTGACCGGCGTGGAGGCGATTTCCAACGCCATTCCGAATTTCAAAGACCCGGCCCCGAATAACGCGGCCAAAACCTTGGTGGCGATGGGATCGCTGCTGGCCCTGTTATTTTCGGGCATCGTCTTCCTGGCTTATTACTATGGGGTCAGTCCCAGCGAACAAGTCACGGTCGTTTCCCAAATTGCCGAGCATACCTTCGGGCGAAATGCGCTTTATTACTTCATACAAGGAACAACGGCCTTAATTCTGATCCTCGCCGCCAACACCGGGTATTCCGCTTTTCCCCTGCTGGCCGTCAATCTGGCGAAGGATAAGTTCATTCCTAGAATGTTCACCGTCCGCGGCGACCGTCTGGGATATTCAAACGGAATCATTATTCTTGGATTTTTCTCCATTCTGCTGCTGCTGGCTTTTGAAGGCAAAACCGAGCATCTGATTCCGCTGTATGCCGTCGGCGTGTTTATCCCGTTTACCCTCTCCCAGACGGGGATGATGGTGAAATGGATCCGCGAAAAGCCCGAAGGCTGGATCGTCAAGCTGATCATTAACACCACCGGCGCATGCATCAGCTTTATCGTGACCATGATCTTTTTCTTTACGAAATTCGCCCAGGTGTGGACCGTCCTGATATTCCTGCCGCTGATCATCTGGATTTTCACCCGGATCCGCAAGCATTACGAGGCGGTAGCGGACCAGCTCCGGATTACGACCTGCGATCCGGTTAAGCCGATTGAGGGGAATGTCATCATCCTGCCTGTGGCAGGAATCACGCATGTGGTGGAGAACTCGCTGAATTACGCCAAATCGCTGGGAGCGGGCCAAATCATCGCGGTGTACGTGCCGTTCGAGCGGGAGGAGGAGGTCGCCTTCCAGGAAAAATGGAAAAAGTGGCAGCCGGACATCCGGCTGGTGACGCTGCACTCGCCTTATCGGAGCATCATTCAGCCGCTGACGAAATTCATCGATACCGTGCAGCGCAAGGCAAGCGAATCCGACTATCAGGTTACCGTCGTCATTCCGCAGTTCATCCCCAAGAAGGGCTGGCATAATTTCCTGCACAATCAATCCAGCCTGCTCATCCGGGCACATCTCCTGTATCGGAGAGACGTGATCATCACGACGGTTCCCTACCATTTAAAAAAATAG	MLSSIKRFLIGRPLKSTELGEQKLNKTKALAILSSDALSSVAYGPEQILIVLMTVGAAAYWYSIPIAVGVLVLLLALILSYRQIIFSYPHGGGAYVVSKRNLGMYPGLVAGGSLLVDYILTVAVSVSAGTDAITSAFPELHAYNLPISIVFVLCLTVLNLRGVTESASILAYPVYLFVLALFILIGVGIFNIATGHASPELHTPIGTPVAGLSLFLLLRAFASGSSALTGVEAISNAIPNFKDPAPNNAAKTLVAMGSLLALLFSGIVFLAYYYGVSPSEQVTVVSQIAEHTFGRNALYYFIQGTTALILILAANTGYSAFPLLAVNLAKDKFIPRMFTVRGDRLGYSNGIIILGFFSILLLLAFEGKTEHLIPLYAVGVFIPFTLSQTGMMVKWIREKPEGWIVKLIINTTGACISFIVTMIFFFTKFAQVWTVLIFLPLIIWIFTRIRKHYEAVADQLRITTCDPVKPIEGNVIILPVAGITHVVENSLNYAKSLGAGQIIAVYVPFEREEEVAFQEKWKKWQPDIRLVTLHSPYRSIIQPLTKFIDTVQRKASESDYQVTVVIPQFIPKKGWHNFLHNQSSLLIRAHLLYRRDVIITTVPYHLKK				NA	NA	NA	NA	NA
AK002_05948	861	focA_2	COG2116	putative formate transporter 1	ATGGCTTACCATAAACCTGAGCGCATTGCGGAGATTACCGTGGAGAACGGGGTGAAAAAAGCGCATAACTCCGCCATAAACGTGATGATATTAGGATTCCTTGCTGGGGCATTTATTGCGCTCGGCTTTTTGCTTGACATACGCGTGATTGCCGGAGCGTCTCCGGAATGGGGAGGGATTGCCGGTTTTGTAGGCGCGGCGGTATTCCCCGTCGGATTGATTCTTGTCCTGCTTGCAGGCGGGGAGCTGCTGACGGGCAACATGATGGCCGTGTCCTTGGCCAGATTCAAGAGACGAATTTCCACGAAGGAGATGATGCGGAATTTAGCGCTTGTCACGGTCAGCAATATGTTGGGAGCGTTATTCGTCGCTTACTTCTTCGGCCATGTGACCGGTCTGACAGGCAGCGGCGTTTACCTGGAGAAGCTGGTGGACATGGCAGGGCATAAGCTGGACGACAGCTTCCTGCAAGCCTTCTTGTCGGGCATTGGGTGCAACTGGCTCGTAGCCCTCGCCGTATGGCTGTCCTACGGATCGGATCAGATGAGCGGCAAAATTCTCGGGATCTGGTTTCCGACCATGGCGTTTGTCGCCATCGGGTTTCAGCACGTGGTGGCCAACATGTTTCTCATTCCGGCAGCGATTTTTGAAGGCTATTACAGCTGGGGCGAGTATCTGATGAACTTCATTCCGGTATGGCTGGGCAATTTCGTTGGCGGCGCGTTATTTGTGGGAGCGACATACGGAACCGTGTATTTAAAGAAGGAGAACCATGCCGCAGCCGCTCCGCTCGGCGAGCAGGGGCCTGCGCCATCGGCTAGCTCCCCTCAACAGGTTCATTCCGCGCAGAACGCTTCATAA	MAYHKPERIAEITVENGVKKAHNSAINVMILGFLAGAFIALGFLLDIRVIAGASPEWGGIAGFVGAAVFPVGLILVLLAGGELLTGNMMAVSLARFKRRISTKEMMRNLALVTVSNMLGALFVAYFFGHVTGLTGSGVYLEKLVDMAGHKLDDSFLQAFLSGIGCNWLVALAVWLSYGSDQMSGKILGIWFPTMAFVAIGFQHVVANMFLIPAAIFEGYYSWGEYLMNFIPVWLGNFVGGALFVGATYGTVYLKKENHAAAAPLGEQGPAPSASSPQQVHSAQNAS	PGPT0017240_197	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
AK002_05949	1248			hypothetical protein	ATGAAGCATTTGTTTGGCAACCGCGCGTTCGTGCTGTTGATGGTGTCTGATTTTATGCAAAATATCGGGATCTGGATCCGCAATATGGCGCTGTTGTTCTTCATTATGGAGCAGAGCAACCATGACCCGGTCGCCGTATCGCTGCTGACCGTGATTGAATACGCGCCGATCTTCGTGATTTCCATGATTGGCGGCGTACTGGCTGACCGTTGGCGTCCTAAGCGAACCATGATTTGGGGGGACATTTTAAGCTTCTTATCCATTCTGCTTATTTTGTTTGTTGTGTATGCGGGATATTGGCAGGCCGTGTTTGCGGTGACGCTGGTTTCGGCCGTCGTCTCGCAATTCTCGCAGCCATCGTCCATGAAGATCATCAAGCGGTGTTTGCCGGATGAGCATGTGCCCGCGGCCACGGCGTTATCCCAGACCTCGATGTCGCTGTTTATCATTTTGGGGCCTATGGTAGGCACGACGATTTATCAAGCATTTGGATTGCAGGCCTCTTTAATCAGCTTGCTGATTCTGTTCGGCGCTTCGGCGATCGTGTTGGCCTTTCTGCCTTCCACCGTGGACGAACCTTCCAAGGACTCGGAATCAGCCGGTTCGTTTGCAAAGGACATGAAGGCAGGCTTCACCTACATCGGTTCCAGCCGGCTGTTGAAGGTGCTGCTGGTGGTCTACGTTTTGTTGGCGCTGGGCAGCGGGCTCGTACAGCCGCTTGACATCTTCGTCATCACCGAGCGTCTCCAACTGGAGATGTCCAGCGTCCAGTGGTTCACTGCGCTTGAGGGCTTGGGCATGTTGATCGGCGGTGTGATCGCAGCGGTGATTGCGGGCAAAGTGAAAGGTTCCTACTTGCTGTTTGCGGGGCTGGCCTTCCTTGGACTCTCGACCTTTGTCGAGGTGCTGTCCCAGTGGCCGATCCTGACCGGCTCGATGCGCTTCGTCACCGGGGTGCTGATGGCCATGGCGCAGACGGTCCTGATGGCGGTGATGATGCAGCAGGTGGAAGAGAAATTCATCGGCCGGCTGAACGGCGTGATGACGCCGATATTTACCGGCATGCTGCTCATCGGCTCCGGGCTTACGGGATGGTATATGTCGGTCACCTCCATTGTCGTGGTGTATTTTACGGCAGGCGCGCTTTTCCTGCTGTCGTCGTTCATCAGCATGAAGCTGCCGATCGCCAAGGTGCCGGTGCAGGAAACGGAAGCCACTGTTAGGATGGAGACGGCGGCCAAGGCTTAA	MKHLFGNRAFVLLMVSDFMQNIGIWIRNMALLFFIMEQSNHDPVAVSLLTVIEYAPIFVISMIGGVLADRWRPKRTMIWGDILSFLSILLILFVVYAGYWQAVFAVTLVSAVVSQFSQPSSMKIIKRCLPDEHVPAATALSQTSMSLFIILGPMVGTTIYQAFGLQASLISLLILFGASAIVLAFLPSTVDEPSKDSESAGSFAKDMKAGFTYIGSSRLLKVLLVVYVLLALGSGLVQPLDIFVITERLQLEMSSVQWFTALEGLGMLIGGVIAAVIAGKVKGSYLLFAGLAFLGLSTFVEVLSQWPILTGSMRFVTGVLMAMAQTVLMAVMMQQVEEKFIGRLNGVMTPIFTGMLLIGSGLTGWYMSVTSIVVVYFTAGALFLLSSFISMKLPIAKVPVQETEATVRMETAAKA	PGPT0027965_959	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK002_05950	594	qacR_2		HTH-type transcriptional regulator QacR	ATGTCATCAGAAAAAGCGCAGCGAAAGCGGGATTTGATTCTGGATAAAGCCAAGGAGCTGTTCATTCAGCGCGGTTATGCGGCAACGTCGATGGATGAACTGGTCAAGTATACGGGGGCCAGCAAGGGAAGCATCTATTATCACTTTGAGAGCAAGGAAGATTTGTTTGTCAAGCTGCTGGCGAAGCAGAATCGGGAATGGATGGAAGCCTGGGACGACAAAAAAGCCGATTACGTCAGCTTTGAGGAGAAGCTTTACGGGATCGCGGATCACATGGTCGACGACTTTCAGAATCCGCTTACCAAAATCGCGGAGGAATTCTATATCAATCAGCCGGAAAATAAGACGATTGTGGGCGAAATGCTGGCCATCCTCCAAGGTCCGCGTACGCTCTACCGCGAAATTCTGGCAGAGGGAGCGGACGAGGGACGAATAGCGGCAGAGGATATCGACGAAATAGCCGTTATTTTCGGATCGCTTCTGGACGGGTTGTCGGTTTCGTACTACGAACGGTCCCAGGAGGAATCAAGACAGCTGTTCCGCAAGAGCGTAACGTACTTTTTGAACGGTGTGTTATCGGGTCAAGGCTCATAG	MSSEKAQRKRDLILDKAKELFIQRGYAATSMDELVKYTGASKGSIYYHFESKEDLFVKLLAKQNREWMEAWDDKKADYVSFEEKLYGIADHMVDDFQNPLTKIAEEFYINQPENKTIVGEMLAILQGPRTLYREILAEGADEGRIAAEDIDEIAVIFGSLLDGLSVSYYERSQEESRQLFRKSVTYFLNGVLSGQGS				NA	NA	NA	NA	NA
AK002_05951	594			hypothetical protein	ATGAATAAAAAAATAATGCTGGCCTCGGCTGTGTTGTTCTCCATGCTGCTGACGGCTGCTTGTTCCAACGATCAGGCGGACCCGCCGGCAGAGACTCCGCCGGCTGTCGTGGATAGCGGGGGAACGGATCAGACGGAGGCGTCGGAAGAGGAACCGCCGGCAGAACCATCCCAAGGGGAGGTTCAGCCTGCCGATGGAGAGACGAAACCGATCGACGAGCCTGCCGCTGTAGGCGATACGGTCGATTACCACGGCGCGGTCATCACGCTGAACGGCGTACGCGACTCCGAAGGCGACGAGTACCTGAAGCCCCAGCCCGGCCATACGTTTAAGGTGGTCGACATTACCGTGAAGAACAACGGTCAGGAGCCGTTGGTCATCTCTTCGGCACTGTCTTTTTCCATGACGGATTCAAGCGATCTTAACTATACGGTTCCTATTACGGATGACGTGAAGATGCTGGACGGCACCATTCCTCCGGGCGGCGAGCTGACGGGCGAGATTCCTTACGAGGTGAAGCAGGACGTTCAGGGGCTGCAGCTGAGTTACGGCGATCCGATGAAAGAAGGAAGAGCTATTTGGGCAGTGGAATAA	MNKKIMLASAVLFSMLLTAACSNDQADPPAETPPAVVDSGGTDQTEASEEEPPAEPSQGEVQPADGETKPIDEPAAVGDTVDYHGAVITLNGVRDSEGDEYLKPQPGHTFKVVDITVKNNGQEPLVISSALSFSMTDSSDLNYTVPITDDVKMLDGTIPPGGELTGEIPYEVKQDVQGLQLSYGDPMKEGRAIWAVE				NA	NA	NA	NA	NA
AK002_05952	1362	nox	COG0446	NADH oxidase	ATGAAAGTTGCAGTTATCGGTTGTACCCATGCAGGAACGTCCGCCATTGTGAATACCGCCAAACTTTATCCCGATGCACAGATTACCGTTTACGAACGCAATGATAACATCTCATTCCTGTCGTGCGGCATCGCGCTTTACGTCGGGGGCGTTGTGAAGGATCCGGACGGGTTGTTCTATTCTTCGCCGCAGAAACTCGACGAGCTTGGTGTCGAAACCAAGATGAAGCATGAGATCATCTCGGTGGATACGGACCGGAAAACCTTGAAGGTCCGCAATCAGGCCACGGAGGAAACGTTTGAAGATACCTATGACAAACTGATTGTTACCACCGGATCCTGGCCGATCGTACCGAAGCTTGAAGGCATCGATTTGAATAATATTTTGCTCTGCAAAAACTACGATCATTCCAACGCGATCATTGATAAAGCGCAAGGAGCGAAACATATTACCGTTGTCGGCGCCGGTTACATCGGCGTGGAGCTGGTGGAGGCCTTCCAACAGAACGGCAAGCAGGTCACTTTGATCGACAGTGCCGATCGGATTCTGAACAAATACCTGGATCCCGAGTTCAGCGGCAAGATCGAGGAATCGTTCCGTGAAAAAGGGATCGAGATGGCCATGGGGCAGACCGTGACATCCTTCCAAGGCCAGGATGGCAAGGTGAATAAGGTCATCACCGACAAAGGGGAGATCGACACGGATCTGGTCATTCTCTGCATCGGCTTCCGACCGAATACGGAGCTGCTGAAGGGACAAGTCGATATGCTGAAGAACGGCGCCATCGTTGTGGACCAATATATGCAAAGCAGCAAGCAGGACGTCTATGCAGCGGGCGATTGCTGCTCGGTGCTCTATAACCCGACGGGTAAAATGATGTACATTCCGCTGGCAACTAACGCTGTCCGGATGGGTACGCTCGTTGCACGGAATTTGGTGCAGCCCACAACGCCTTATATGGGAACCCAGGGTACGTCCGGATTGAAAATATACGAACACAACATTGCCTCGACGGGATTAACCGAGGGAGCGGCCAAGGATGAAGGTTTGAAGGTGGAGACGGTCACCATTACGGACCATTACCGTCCGGAGTTCATGCCTACCTTCGAGGAGGTTACGCTTAAGGTGGTGTATGAACAGGAAAGCCGCCGGATGCTCGGTGCACAGGTGATCTCGAAAGCGGATATGACGCAGTCCATCAACACCTTGTCGGTGTGCATCCAGAACCGCATGACGATCGACCAGCTGGCCTTCATCGATTTCTTCTTCCAGCCGCATTACAACAAGCCGTGGAATTTCCTTAACACGGCCGGCCTGGAGGCTCTGCCGGCGGTGGAGACCAAAGCGCCGGTGCACGCTTAA	MKVAVIGCTHAGTSAIVNTAKLYPDAQITVYERNDNISFLSCGIALYVGGVVKDPDGLFYSSPQKLDELGVETKMKHEIISVDTDRKTLKVRNQATEETFEDTYDKLIVTTGSWPIVPKLEGIDLNNILLCKNYDHSNAIIDKAQGAKHITVVGAGYIGVELVEAFQQNGKQVTLIDSADRILNKYLDPEFSGKIEESFREKGIEMAMGQTVTSFQGQDGKVNKVITDKGEIDTDLVILCIGFRPNTELLKGQVDMLKNGAIVVDQYMQSSKQDVYAAGDCCSVLYNPTGKMMYIPLATNAVRMGTLVARNLVQPTTPYMGTQGTSGLKIYEHNIASTGLTEGAAKDEGLKVETVTITDHYRPEFMPTFEEVTLKVVYEQESRRMLGAQVISKADMTQSINTLSVCIQNRMTIDQLAFIDFFFQPHYNKPWNFLNTAGLEALPAVETKAPVHA				NA	NA	NA	NA	NA
AK002_05953	636	yhfK_2	COG0702	putative sugar epimerase YhfK	ATGACAACCGTATTTGTTGCCGGAGCGCATGGAAATACCGGGAGACGGATCGCGAAGCTTCTCGCTGAGAAGGGGTATCAAGTCCGCGGCCTGATCCCCGATGAGATTCATAAACGGAAGATGGAGCAGGAGGGTGCCGAAGGAATTGTCGGTGATTTGACGCAGTCTTATTCCGATGGTTTAAGGGACGTTGACGCTGTCATCTGCGCAGTTGGCGCCGGTATAACGGAAGATCCGCAGGAGACGGATCATGTCGGCACCGTGAGACTGATCGAGCAGTGCGTGCTTCTAGGAATCGATCGCTTCATTATGATTAGCTGCATGGAGACCAAGCACCCGGAGCACTTCTCCGAACTGAAGCCCTATTTGCTTGCCAAACATAAAGCAGAGACCATTCTTGAAGAAAGTACGCTGACTCACACGATCATAAGGGCCGGCGAGTTAACGGATGACGCTCCTGCCGGCCGGGTTCAGGCACATCCCGATCTCCGGGAAACCGGATCCATATCCCGTCAAGATGTCGCTCAAGCAGCCGTGCTGTGTCTCTCCACGCCAGAGTCGGAACTTAAGGCGTTTGATCTGATTCAAGGCGATTACCCCATACAAGATGCCCTTAAGGGTCTTGCTTCGGGCTGA	MTTVFVAGAHGNTGRRIAKLLAEKGYQVRGLIPDEIHKRKMEQEGAEGIVGDLTQSYSDGLRDVDAVICAVGAGITEDPQETDHVGTVRLIEQCVLLGIDRFIMISCMETKHPEHFSELKPYLLAKHKAETILEESTLTHTIIRAGELTDDAPAGRVQAHPDLRETGSISRQDVAQAAVLCLSTPESELKAFDLIQGDYPIQDALKGLASG				NA	NA	NA	NA	NA
AK002_05954	480	gpx1		Hydroperoxy fatty acid reductase gpx1	ATGTCAGTTTATGAATATCATGCAACCAATACCAAGGGGCAGGAAGTCTCGCTCGATCAGTATTCGGGCAAGGTCTTGATCATCGCGAATACGGCAAGCCAATGCGGCCTTACGCCGCAATATGGAGAGCTTCAGCAGCTGTACGACCAATACGGCCAGCAAGGGCTTCAGGTTCTTGGCTTTCCGTGCAATCAGTTTGGCGGACAGGAGCCGGGTACGAGCGAAGAGGCCGAATCGTTCTGTCAATTGAACTATGGCGTGAACTTTCCGGTTTTCCAGAAGATTGACGTGAATGGGGAGCAGGCGCACCCGTTATTTCAGTATCTGAAATCGGAGCAGCCCGGACCGAATGAAGGCGGAGAGATCGCCTGGAATTTTACGAAGTTCCTGGTGGACCGCGAAGGCAAGGTGGTTCAGCGGTTTGAGCCGAAGGAATCGCCTGAATCCATGAAGGGCGCCATTGAATCCCTGCTGGGTTAA	MSVYEYHATNTKGQEVSLDQYSGKVLIIANTASQCGLTPQYGELQQLYDQYGQQGLQVLGFPCNQFGGQEPGTSEEAESFCQLNYGVNFPVFQKIDVNGEQAHPLFQYLKSEQPGPNEGGEIAWNFTKFLVDREGKVVQRFEPKESPESMKGAIESLLG	PGPT0013115_5121	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
AK002_05955	537			hypothetical protein	ATGAAATTATATCCCGAAATGTTTGTATCCCCCTGGCATCTCATCGTCGTTGTCCTGGCCCTGATTGCCTTCATCGGATTGATCAAAGGGGGGTATGACCGAAAGACCGTGCTTGGCAGCACAGGGCTATCGACGCTGGTTTTCTATTTTATTCTGACGATCCCCATTGGCCTGATCACCCAGGAATCGCTCTACAAAGAAGAAACGATGCTGACCGACCTGGATCAGAACTTTGAGGACAAGAAGGCAGATTCCCAGCTGCAGAGCTTGAAAGACTACGTCGTACTCCACGTTGGAGCCTATAAAAATGAGGAGGATGCCGACATCGTCGTCTATGCCGGCAACTATCATGAAAGCCAAACGTTCAACGGTCATATTACCTTGTTCGTGTACGACAAGAACGATGAGGAAGTCTTCACCGAGATGTACAGGGACATCACCCTCGCCCCCGGCGAGAAGAAGAAGCTGGACACCTCTTTTACCAGCCAGCCCATGGATACCTACAGGTACCGATACGAAACGCACCCCCAAATGTGA	MKLYPEMFVSPWHLIVVVLALIAFIGLIKGGYDRKTVLGSTGLSTLVFYFILTIPIGLITQESLYKEETMLTDLDQNFEDKKADSQLQSLKDYVVLHVGAYKNEEDADIVVYAGNYHESQTFNGHITLFVYDKNDEEVFTEMYRDITLAPGEKKKLDTSFTSQPMDTYRYRYETHPQM				NA	NA	NA	NA	NA
AK002_05956	1254			hypothetical protein	ATGTCTCTGGTGATTCATGAGCAGAGAAAACCCAAAATGCAGCCTTTTTATTGGGTGCTTACGTTCGAAATGCATGTGCTTGGTATTTTGCTGGGCCTGGCGTTTACGATTGGACCTTTGATTCTGCTGTACTTCTGGGCCAATGTCTGGACGTGGATGAGTCTGGCGGCTATACCCGCCGGTATCTTCATGGTGATTCGGCTATCCAAGAGTCTGAAAGGGCATATCTGGAATAATACGCATCTGGACGAGTATTTGTTATACGAAGACCACATTGAATATGAGCGATGGAATCCCGAGACGAAAGACTCCTTGAAGGGGAGCGTTCGAATCGGCGATGTAAAGGAAATATATTACGGGCGATATATTTTTCAATTCAGTTATGCCTATAAGAACAGCAAAATGACCGAGTCGTTGCCTATGGCGGAGTTAATGCCCATCATGTACCTTGTTGCTGGAGAAGGGCAGGCTGAACGGGCAGTCGCCGTTCCTTTCACGGATCCGATGGAGGCGAACCGCTGGCTGGAGGTCATCGGCAGACGAGGGATTCCTTTATACCTGACATCCGTCATCATCCAAGATCTGGGGGATGAATCGGTGGCGTCATTGCTTCGCGAGGACGAGGATTTAGAGCGTGCCGAATTTGACGGGAATATCGAGCGGCAATTCCGTCCGTATCTGGATCGCCTGGTACAGGAGAACGATGAGGAAGACAGGGAGCTGACGGAGGAGGAACTGGATCAGCTGGAATACGAGATGAAGCTCCTCGAATACGAAGAAGCGCTGCAAAAGCGTAGATCGGCTTTTCGTGGAACCGGTTTGCTTGCTTGGCTGGTTTTCCCGGTTCAGTTCGCCGTCGGTTTTTGGCTGACACGCCAGGCAGAGCTGGGTAACGCGGACCCGGAAAAACCGCTGTATCCCATTCTTCTTGTTGCGCTGTCGGCGATCCTGTTCTTCTTCTTGGTGAAATGGATGCGCTGGCTACAGATCATCATGTTCTCGCTGGTTACGTTTATATCGTTTATGTTTCTGGACTTCTCCGAGATCGAGACCGATCCTTCCTACCAAATGTCCAGCATGCTGCTTGCGATAGCCATGCTGTCGCTGCCTGCGGTTGCCCTCTTCTATTTGGGAATCCGGTATATGCGCAAAGGGCGGGATGCGAAGAATCTTCCGCCGACGCCGGGGCCGTATCAGTCTCTTCCGGAAACCGATAATCCGGGGTTCGAGTCTGGAGACCGGCTGTCAACCTAA	MSLVIHEQRKPKMQPFYWVLTFEMHVLGILLGLAFTIGPLILLYFWANVWTWMSLAAIPAGIFMVIRLSKSLKGHIWNNTHLDEYLLYEDHIEYERWNPETKDSLKGSVRIGDVKEIYYGRYIFQFSYAYKNSKMTESLPMAELMPIMYLVAGEGQAERAVAVPFTDPMEANRWLEVIGRRGIPLYLTSVIIQDLGDESVASLLREDEDLERAEFDGNIERQFRPYLDRLVQENDEEDRELTEEELDQLEYEMKLLEYEEALQKRRSAFRGTGLLAWLVFPVQFAVGFWLTRQAELGNADPEKPLYPILLVALSAILFFFLVKWMRWLQIIMFSLVTFISFMFLDFSEIETDPSYQMSSMLLAIAMLSLPAVALFYLGIRYMRKGRDAKNLPPTPGPYQSLPETDNPGFESGDRLST				NA	NA	NA	NA	NA
AK002_05957	351	yflH_2		putative protein YflH	ATGTCTGAACATAATCATGTGGTGAACAAGAACGGTGAGCTGGATGTGAGTAAGGTCGATGACGCTATGGACCGGATTGACGACAAGGAGAAGGAACGGATCCTGGCTGACTTCGATGCCTTTCAATCCTTTTTGAACAAACGAATTCAGCTTGCCGAGAGCATTGGTTTGAATGAAGAGCAGCTGGCGCAGGCGGCAGAGAAGGTAGCCGGATACCTCGCCGCAAACGAGGAGCCCCGCAATTCCGAGGAAAAACTTCTTCAGGAGTTATGGAAGGTCGGAACGCAAGCGGAGCGGCATCAGCTGGCTCATCTGCTGGTTAAGCTGGCTCAAAACCGTAAGGCTCCATAA	MSEHNHVVNKNGELDVSKVDDAMDRIDDKEKERILADFDAFQSFLNKRIQLAESIGLNEEQLAQAAEKVAGYLAANEEPRNSEEKLLQELWKVGTQAERHQLAHLLVKLAQNRKAP	PGPT0003182_55	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
AK002_05958	1587	cshA_2		DEAD-box ATP-dependent RNA helicase CshA	TTGCCGAACTTTCAACAGCTGGGCATTGACGAACAAAGAGTACGGAAACTGAAGGAGCAGGGAATTACGGAACCGACCCCGGTACAGCAAGAGAGCATTCCGCTGCTGCTGCAGGGAAAGGACGTCATTGCCCGGGCGAAGACCGGCACAGGCAAGACGCTGGCTTTCATGCTGCCGATACTGCAGCATATCGATCCCAAGCGGGCGTACCCGCAGGCGCTCATCATTGCGCCGACACGGGAACTGGCATTGCAAATTACGGAAGAAGCCAAGAAGCTGACGGCAGGAGAGCCGGACGGCATCAAAATCCTGGCCGTCTATGGCGGGCAGGACGTGGAGAAACAGCTGCGCAAGCTTGAAGGCGGACGCCAATTGATCATCGGCACGCCGGGCCGGCTGCTGGATCATTTGCGACGGGGCACGTTAGAGCTTGGCGGCGTGAAGCAGCTGGTGCTGGACGAAGCCGACCAGATGCTGCATATGGGCTTTCTGGATGAGGTGGAGGCGCTGATCCATGCGCTTCCGTATCGGCGCCAAACGATGCTCTTCTCGGCGACGATGCCTGCCGGCGTGAAGCAGCTTGCCGGCAATTATATGAATCAACCTGTCGATATCGTGATTAAGGGGGCTTCCCCGATCCCGCTGGAGCAGATCCAGCAGGTGGTGGTCGAGTGTACGGACCGTTCCAAACAGGATGCCTTACGTGCAATGATCGAAGAGCATAATCCCTTCCTCGCGATCATCTTCTGCCGGACGAAGCGCAGAGCCACCACGTTGAACGAGGCGCTGCTGGCCCATGGCTATCAATCGGACGAGCTGCATGGGGATCTGTCCCAGGCGAAACGGGAAGCGGTAATGAAGCGATTCCGGGAAGCCAAGCTGCAGCTGCTCGTTGCAACGGATGTTGCCGCAAGGGGGCTGGACGTCGAAGGCGTTACCCATGTCTTTAACTACGATATGCCCCATGATGTTGAAAGTTACATCCATCGTATCGGCCGGACCGGACGGGCGGGGGGGAGCGGTATGGCCATCACGTTTGCGGCCGGGAAAGACCTTAATGATCTGCAGCGCATCGAAGAAGGGATCTCCCAGCGGTTGAAGCGAGTACGCTATGACTCTGCCGCCGGAAGCCTTCGGGAAAGCTCTGGCAGCTCGGGCAGGGATACGGGCCGACCGAGAAAAGCAAGAAATGTCTCATCACTTGAATCCGATAATGAACGTGGTCAAGGCAGAAGCCGTTCCGATCGGGGCACGGGTTCCGGGCGCAGCCGCGGTAACGAGCAGGGTAGAGGAAGTGCAGGATCATCGCGCAGGGATGACCGCGGTTCGGGCCGGACAGGAGGCCGTACCGGAGAGGGTCGCGGACCATCGGCGGCTGGAGGCCGAGGCAGCGGCGGGCGTGACGGCGGTCGTGCAGGCGAGGGCCGTGGACAGCAAGCTGGAACACGAGGCAGCAGCCGCGGACCGTCCAGAACCGAGGGGCGGGGGAATCCCGCCGGCCGAGGCGGACAAGGCGGAACCCGGTCCTCCGAAGGCCGCGCTGCCAGAGGCCAGAGCGGTGGACGGCGCGGCGGCCGCAGCCGCTAG	MPNFQQLGIDEQRVRKLKEQGITEPTPVQQESIPLLLQGKDVIARAKTGTGKTLAFMLPILQHIDPKRAYPQALIIAPTRELALQITEEAKKLTAGEPDGIKILAVYGGQDVEKQLRKLEGGRQLIIGTPGRLLDHLRRGTLELGGVKQLVLDEADQMLHMGFLDEVEALIHALPYRRQTMLFSATMPAGVKQLAGNYMNQPVDIVIKGASPIPLEQIQQVVVECTDRSKQDALRAMIEEHNPFLAIIFCRTKRRATTLNEALLAHGYQSDELHGDLSQAKREAVMKRFREAKLQLLVATDVAARGLDVEGVTHVFNYDMPHDVESYIHRIGRTGRAGGSGMAITFAAGKDLNDLQRIEEGISQRLKRVRYDSAAGSLRESSGSSGRDTGRPRKARNVSSLESDNERGQGRSRSDRGTGSGRSRGNEQGRGSAGSSRRDDRGSGRTGGRTGEGRGPSAAGGRGSGGRDGGRAGEGRGQQAGTRGSSRGPSRTEGRGNPAGRGGQGGTRSSEGRAARGQSGGRRGGRSR				NA	NA	NA	NA	NA
AK002_05959	570			hypothetical protein	ATGCATATCCTACAGCTCATCCTGACAGCCTTGATCTTGATGATCCTATTCGGCCTTATCAATCTGATGATGAATTATATTTCAAGGCGCGACGGGGAGCCCATCGTTCCCTTCCGGAAGAAGCTGTGGCTTATTCCGCTGTTGTCGGCCTTTATCATTATGCCGTTGGAGCTCTTTTCCATGCTGTATGCCCAGTGGTTCCCCATGCCCGATCCTTCAGGGACAGGCGAAACGCTAGCCTATGACGGCCAAGGCGTGCTGCTCGGCTTTTCGCTTTTCGTCCTGGTTGGGTTCCTGATCTTCGAAGGTCTCATACATCCACTGGTCATCGCCCTGCTGCGGCTTCTGCTTCGCAAGGATACCTCCATTTATATGAAACAGGCAGTGACGGTCGTGACCGATACGCTGCTGCTGTACATAGCCTCTCTGATCGTGCCGGCCATTCCCGTGGAGGGCTGGCTGCAATCATTAGTCATCGCCGTATTTTTCCATCTCATAGAGTGGATCCTGATCGGTGTCCAGGCCTGGATGCAGCAGCGCAAACGGACAAGAGCCGAATCGGCAGGCTAG	MHILQLILTALILMILFGLINLMMNYISRRDGEPIVPFRKKLWLIPLLSAFIIMPLELFSMLYAQWFPMPDPSGTGETLAYDGQGVLLGFSLFVLVGFLIFEGLIHPLVIALLRLLLRKDTSIYMKQAVTVVTDTLLLYIASLIVPAIPVEGWLQSLVIAVFFHLIEWILIGVQAWMQQRKRTRAESAG				NA	NA	NA	NA	NA
AK002_05960	1671	ubiB		protein kinase UbiB	ATGGCGGTCCGAATTCGACATGCCGGACGTTACCGGGAAATCGCCATGGCGCTCATGCGTCATGGCTTTGGCTATATGGTGGAGGAGATGGGACTGTTTCATGTTCTGTCGCTGCCTGTCCGCTGGAGCTCCAAGGAGCAGCCGGAGACGATTACGCTTGGGGAACGCATTCGGCGAGTGCTGGAGGATCTGGGGCCTGCCTTTGTGAAGCTGGGCCAATTGGCGAGTACCCGATCGGACCTGCTGCCAGACCATATTATCCAGGAATTGGTCAAGCTGCAGGAACGGGTGCCTCCGTTCCCTTCCGCGAGCGCACGGGAGCTGATTGAACAAGAATGGGGCATGCCGATCGATGACGTGTTGAGTAAGTTTGAGGACAAGCCGCTGGCTGCCGCCTCAATCGGGCAGGTTCACGCCGGGAGGCTGAAGTCCGGAGAGCTTGTAGCGATCAAGGTTCAGCGTCCGGGCGTGGCCCGCATGATCGGCCGCGACTTGGAAATCCTGCGGGATTTAATTTCGATTGCCGAGCGCCATTGGGAATGGGTGAAGCAGTACCGCGTGGATCGGATCGTCGACGAGTTTGCCAGAGCGATGATGGCGGAGCTGGATTACAGCCATGAAGCCCGGAATGCGGAGAAGATCGCATCCCGGATGACGGAGCAGGAATTTGTCCATATCCCGCGGATTTATTGGGACTATACGTCATCGAAGGTGTTGATGATGGAGTATGCCGAGGGTCTTACCTTAAGCCGCAGGCAGGAGATTGTGGCCAAGGGGCATGATCTCAAGGCGATCGCCGAGCATCTAACCGACGGCATGCTGCAGCAGATTTTTATTGAGGGCTTCTTTCATGCCGACCCTCATCCGGGGAACCTGCTCGTCAGGGAGGACGGCAAGCTGGTCTTTCTGGATTTCGGTCTGGTGGGTCACCTCAGCGAAGATATGAAGGATCATCTGTCAGGACTCATTATTGCATTGATGCGGCGGAATTCGGAAGGGATGATCCGGGCGATTTCCAGAATGGGTTTGATTCCGGACGATTGCGATATGGATGCGCTGCGGTCGGATATGGACCGTCTGCGGGAAGAGTATTATGACGTGCCTTTTGCTCAAGTTCGCATCGGCAAGGCATTGACCGATCTGTTTGCCGTTGCCCAGCGGCACCGGATTATGCTGCCTCCGGATATGACGCTGCTTGGCAAATCATTGCTGACCCTGGAAGGGGTCATCGAGATGCTGGACCCGAACCTGAGCATTATCGATATGGCGGAGCCTTTTGGAAGGAAGCTGCTGAAGAAGCGGTACAATACCCGCCGGATCAGCAGGAAGGTGCTGGATGGGGTAGCGGGGCTTGCCGAGAGCTTGCTTGATCTGCCCGGACAAGCCCGGCAGCTGTCGGCTCTGATCAGCAAAGGAAAATTGCGGGTGGAGATCAGCGTTCCGGAACTGAAAACGCTGATGCGCAAGATGGATCAGATCAGTAACCGGCTGTCCTTCAGCATCGTCCTTCTGGCTTTCAGCATCATCATGGTAGGGCTCATTATCGGTTCGTCGCTCAGCCGGGAGCCGATGATGATATGGAGCTTCCCGGTGATTGAGGTCGGATTCATCGTAGCCCTGCTGATGGTGGCATGGCTGCTGTACGCCATATTCAAATCCGGCAGGTTCTAG	MAVRIRHAGRYREIAMALMRHGFGYMVEEMGLFHVLSLPVRWSSKEQPETITLGERIRRVLEDLGPAFVKLGQLASTRSDLLPDHIIQELVKLQERVPPFPSASARELIEQEWGMPIDDVLSKFEDKPLAAASIGQVHAGRLKSGELVAIKVQRPGVARMIGRDLEILRDLISIAERHWEWVKQYRVDRIVDEFARAMMAELDYSHEARNAEKIASRMTEQEFVHIPRIYWDYTSSKVLMMEYAEGLTLSRRQEIVAKGHDLKAIAEHLTDGMLQQIFIEGFFHADPHPGNLLVREDGKLVFLDFGLVGHLSEDMKDHLSGLIIALMRRNSEGMIRAISRMGLIPDDCDMDALRSDMDRLREEYYDVPFAQVRIGKALTDLFAVAQRHRIMLPPDMTLLGKSLLTLEGVIEMLDPNLSIIDMAEPFGRKLLKKRYNTRRISRKVLDGVAGLAESLLDLPGQARQLSALISKGKLRVEISVPELKTLMRKMDQISNRLSFSIVLLAFSIIMVGLIIGSSLSREPMMIWSFPVIEVGFIVALLMVAWLLYAIFKSGRF	PGPT0009520_794	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
AK002_05961	318			hypothetical protein	GTGAGTGATCTTTTTAAGAAAGCCATCTCGTTAGGATTGGGCCTTACCGTGGTCAGCAAGGAAAAAGTAGAGAAAATCGTGGATGATCTGGTCAAACGCGGGGAGCTGGCTCCTGCGGAATCCAAGGCGCTGGTGAACCGCCTCGTCGAGCGCGGCGAAGAGGAGCAATCCCAGATCAAGTCATATATTTATGAGCAGGTGCAGCGCGTGTTGTCCGATCTGGATGTTCCCAAAGAGAGCGATGTCGCCAGCCTGGAACAGCGCATTGCCGCTCTGGAGAAGAAGGTTGTAGAACTGGAAGGATCGCGGCAGGAATAG	MSDLFKKAISLGLGLTVVSKEKVEKIVDDLVKRGELAPAESKALVNRLVERGEEEQSQIKSYIYEQVQRVLSDLDVPKESDVASLEQRIAALEKKVVELEGSRQE				NA	NA	NA	NA	NA
AK002_05962	642	ykoJ	COG3212	putative protein YkoJ	ATGAACAAGAGAACATTGTGGGCAGGCGCGCTGTCCGTAGCAATCGCGGCAAGTGGAGTATACGGTTATAGCGCCGTGCAGGCTGCAGGATCAGGACAGACCACGCCGTCAGGAACCCAGGCAGCTGCCAAACAACAGAAGCAGCTCATTGGAATGGAAAAAGCCGAACAATTGGCACTCGCTGCTGCCAACGGTAAAGTGGAGGGCATTGACATTGACCGCAAAAAGGGCAAGCTGGTGTACGATGTTGAGATTCAGCAGAGCAACCGGGATGTCGATGTATGGATTGATGCCTACACAGGCAAATCCCTTGGCGTCATAGTAGATCGGGATGATGACGATGATGACCGTGACAGCATTCCGGGGAATCTGATCGGTGCCGGCAAGGCATCCGCGATCGCTGTCAAACACGTCAAGAGCGGTACAGCCGTAGAGGTTGATCTGGACCACGATGACGGCCGTTGGGTGTATGACGTCGAAGTGAAGACGGCCAAAGGCTCGTCCGAGGTGGAGGTTAACGCGGTCAGCGGCAAAGTGATCAAGGCAGAATACGAGAAATACGACGACCATGATGATGACGACCACGATGACCATGATGATTGGGACCATGATGATCACGATGATGATCACGATGACGATTAA	MNKRTLWAGALSVAIAASGVYGYSAVQAAGSGQTTPSGTQAAAKQQKQLIGMEKAEQLALAAANGKVEGIDIDRKKGKLVYDVEIQQSNRDVDVWIDAYTGKSLGVIVDRDDDDDDRDSIPGNLIGAGKASAIAVKHVKSGTAVEVDLDHDDGRWVYDVEVKTAKGSSEVEVNAVSGKVIKAEYEKYDDHDDDDHDDHDDWDHDDHDDDHDDD				NA	NA	NA	NA	NA
AK002_05963	627			hypothetical protein	ATGCGTAAAAAAGTGAGTGTGCTGCTGGGCGTCATTATCGTGGTGGCCGTCATGATCATCGTGAATGCGGTATGGAGTCCGTTTAATCGTTCGACGGAGGCAATGTCGCAGGAGGAAGCCGTAAGCGGAGTATTGAAGCAATATCCGGACGGTGAGATTACTAAGGCAACGCTGGATGGCGAGATGTACCGGATGGAGCTGGAGTCCAATTCCGGCAGGTATGAGATGACGGTGGATGCCCGTCAAGGCGATATCGTGTCCATCAAGCAGCTGGACAAAGCGCCAGCAAAGCCAGAGTCGGACCCCGGCGAAACCAAGCAGCCGGCCGACAATCCAAGCACGCCTCCTGCGGAGCCCGCCGAGAATGGCGAGAAGGGATCAGCGGATGGCGAAAGCGAAACTGCGGAGCCGCCTGCAACGATGATCACCAAAGAGTACGCGATCAAGCTTTCTTTAGAGAAGGTACCGGGAATGGTGGAAGACGTGGAATATCGCGAGAGCAAGAGCAGCCGTTATTATCTGGTCGAGATCGAGCGGGAAGACGGGCGCGAAGCGACCATTCAGGTCCACGCGATTACCGGCAAGATCATGACGGTGACTTGGGATGACGAGGATGACGATGAATAG	MRKKVSVLLGVIIVVAVMIIVNAVWSPFNRSTEAMSQEEAVSGVLKQYPDGEITKATLDGEMYRMELESNSGRYEMTVDARQGDIVSIKQLDKAPAKPESDPGETKQPADNPSTPPAEPAENGEKGSADGESETAEPPATMITKEYAIKLSLEKVPGMVEDVEYRESKSSRYYLVEIEREDGREATIQVHAITGKIMTVTWDDEDDDE				NA	NA	NA	NA	NA
AK002_05964	1353	arlS		Signal transduction histidine-protein kinase ArlS	ATGAAGCTGAGCAGCAAAATCCATCTCTATTCGTCGGTGCTGATGGCCGCCATCCTGATTGTCATGAACTTATCCGTGTATTACGTGTTCAGCAAAATGACGGTGGACAGCCAGCTGGAGCAGGCGGAAGCCGAGGCGGGAAGCATCGTCAGAAGCATAGCGCATTCTGCCGCGACCATTCCCATTGACGATCTGCTGCGAAGTTATGTCCCGGCTGACGGAAAGATTCAATTCGTCCCGGCTGACAGCAAGGCCAAGTCTCCTTACGTGACCTCTTCCGGCGAGGATATGGATGAGCTGAAGCTGCCTTATAACGCCAATAAGCAGGTCGAGCAGATCCGATATGAAGGAATGCGTTATGTGCTGGTGTCCCTGCCTGTCATTTGGAGCGACGGGGCGGTATACAACATCCAAATTTCCCGCAGCCTTGCCGCTACGATGGAGACGCTGCAGGTGCTGCGGATCGTGCTGGTGGCCGTAACCGCGATCGCTTTGGTGCCGGTGATCATTTCGACACGGATATTGGGGCGTTTAATCGTGCAGCCGATTACGGCCTTGATCCGTACGATGCGGGAGATTCGGCAGAGCGGACGGTTCCGTCGGATCGAGCTGAAGGAAACATCCAAGGATGAGCTGGTGGAGATGGGAGCTGCGTTCAACGACATGATCACGCTGCTGGAGAGCAACCATGCGAGGCAGGAACAATTCGTGTCCAACGCTTCCCATGAGTTAAAGACACCGCTCACCATCATCGAGAGTTACGCCAGTTTGTTGAAGCGGCGAGGCCTGGATCGGCCGGAGCTGTTCATGGAGTCCGTTGAAGCGATCCATTCGGAAGCGATCCGGATGAAGGAGATGACGGAGCAACTGCTGCTGCTTGCCCGCAACCAGGACCAATGGAAGGTCGAGATGAAGCAGGTGGATCTCGCGGCATTATCGGAGTCTTCCGCCCGTGCATTTCGCGATGCCTATAACCGGACGGTCGAGGTTGAAGCCGACGGCGAGGTTCTGGGCTGGACGGACAGCCGCAGGCTCAAGCAGCTCTTGTTCATTCTGCTGGATAATGCACGCAAATACAGTGACGAACATATCGTCATCCAGGTGGGCAGAAAGCCGTCGGAGGTATATATCCGGGTCGTCGACCGCGGAATCGGCATTGCCAAAGAGGAGCTGGAGCACGTCTTCGACCGTTTCTACCGGGTGGACGAAGCCCGTACCCGCCGGGGCGGGGGAGCCGGCCTTGGATTGTCGTTGGCTAAGGACATCGCGGAGGCCATCTCCGCTGAGCTGGAGCTGGAAAGCCTGCCCGGCGTGGGCACAACGGCCACCATTCGACTCCAAGCATCGAAATAA	MKLSSKIHLYSSVLMAAILIVMNLSVYYVFSKMTVDSQLEQAEAEAGSIVRSIAHSAATIPIDDLLRSYVPADGKIQFVPADSKAKSPYVTSSGEDMDELKLPYNANKQVEQIRYEGMRYVLVSLPVIWSDGAVYNIQISRSLAATMETLQVLRIVLVAVTAIALVPVIISTRILGRLIVQPITALIRTMREIRQSGRFRRIELKETSKDELVEMGAAFNDMITLLESNHARQEQFVSNASHELKTPLTIIESYASLLKRRGLDRPELFMESVEAIHSEAIRMKEMTEQLLLLARNQDQWKVEMKQVDLAALSESSARAFRDAYNRTVEVEADGEVLGWTDSRRLKQLLFILLDNARKYSDEHIVIQVGRKPSEVYIRVVDRGIGIAKEELEHVFDRFYRVDEARTRRGGGAGLGLSLAKDIAEAISAELELESLPGVGTTATIRLQASK				NA	NA	NA	NA	NA
AK002_05965	699	mprA_3	COG0745	Response regulator MprA	GTGAGCGGGAAGATACTAATTGTTGAGGATGAAGCGAAAATATCCCGTTTGCTTGAAATCGAGCTGGAGAGTGAAGGATACCAGGTCACCAAGGCGGATAACGGGCTGGATGCGCTTGAGGCATACCGCAGCCAGGAGGTGGATCTCATTCTGCTGGATGTCATGCTTCCGGGTATGAGCGGGATTGAGCTGCTGCGGCGGATTCGTGCCCATGATTCCCATACGGCCGTGCTGCTGCTTACGGCGAAGAGCTCCGTCGAAGATAAGGTATCGGGGCTGGATCTTGGAGCCAATGATTATATTACGAAGCCGTTTCAGATCGAAGAGCTGCTGGCCCGGATTCGTGCTGCGCTACGGCTTCAAGGAAAGCCTCTTCCGGAAGAGGAAGCGGCAGGGGAGTGGCTAACGGCCGCGGATTTGAAATTGAATGAAGGCACACGGGAAGTGATTCGCGACGGCAGAAGGATCGATCTGACGCCGCGTGAATTTGACTTGCTCGTCTATTTGCTGAAAAACAAGCGGCAGGTGCTGAACCGCGAGCAGATTCTTGCTGCCGTGTGGGGGTACGATTATTACGGCGATACCAACGTCGTTGATGTATACATACGTTACGTCCGCAAGAAAATCGATCATGGCGGCACGCAAGAGCTCATCCACACCGTTCGCGGCGTCGGCTACGTGCTGAAAGAAAACCCATGA	MSGKILIVEDEAKISRLLEIELESEGYQVTKADNGLDALEAYRSQEVDLILLDVMLPGMSGIELLRRIRAHDSHTAVLLLTAKSSVEDKVSGLDLGANDYITKPFQIEELLARIRAALRLQGKPLPEEEAAGEWLTAADLKLNEGTREVIRDGRRIDLTPREFDLLVYLLKNKRQVLNREQILAAVWGYDYYGDTNVVDVYIRYVRKKIDHGGTQELIHTVRGVGYVLKENP	PGPT0004105_1307	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
AK002_05966	639			hypothetical protein	ATGGATAAGAGAAAAGCATTGCTGCTCGGCAGCTACACGCACCCGAAGTTTCATCCGCTGCAAGGCATTGATAAACAGATCACGCATCTGCTGAACGACATGTTCACCGTGCAGTGCACGGAAAACCATAAAATGCTTCATGAAAGCAATCTCTACCCTTACGAGCTGTGCATCGCCTATAGCGACCTGTGGGACGAGCGGGTTTCGCCACGGCAGACCGCAGGCCTGCTGTCCTACGTAAGTGGAGGCGGCGGCTTGCTCGTGATTCATAATGGCGTTACCTTGGCAAACCGTTATGAGCTGGCGCAACTGATTGGCGCCCGTTTTGACGGGCACCCGCCGATGGAGAAGCTGTATTTCGTTCCGGGGGAGACCGATCACGATATTACGGAGGGCGTTGAGCCGTTTGTGCTGGACGAGGAGCCTTACAGGTTCGTATTCAGTCCGTTTACGGAAAAAACCGTGCTGCTGCATTATGAGTACGAAGGCAAGCAGTGGCCCGCCGCCTGGTGCCATACGTATGGCATTGGACGCGTGGTCTTCTTGATGCCGGGCCATCATGAGCCGTCCTTTCTCCAGCCTCAGCTGCGTTTAATGATTACGCAAGCGGCCAAGTGGGCGGCGCGCGTTCCGGGTTAA	MDKRKALLLGSYTHPKFHPLQGIDKQITHLLNDMFTVQCTENHKMLHESNLYPYELCIAYSDLWDERVSPRQTAGLLSYVSGGGGLLVIHNGVTLANRYELAQLIGARFDGHPPMEKLYFVPGETDHDITEGVEPFVLDEEPYRFVFSPFTEKTVLLHYEYEGKQWPAAWCHTYGIGRVVFLMPGHHEPSFLQPQLRLMITQAAKWAARVPG				NA	NA	NA	NA	NA
AK002_05967	816			hypothetical protein	ATGGCACAGCATATGAAAGATCGGGTTGTAGCCTTGGCAGGCCCGCGCAAAGCAGCGGACATGGCCAAGCTGGTGGAGAAGATGGGAGGCACGGCGGTGCTTCGCCCTGCGCAGGGGACGGTATTTTTGGATGATGAAGTGCTCCGGCGTTCCATCGAAGCTTGGCTCGAGGCGCCTGCGCCGTGGGCGATCTTTACGACGGGAATCGGCCTGGAGGCCATTTACGATACGGCCGAGCAGATGGGCCTGTTGGATACATTGAATGAAACGCTGGAGCGCACCTCGATTGCGGCAAGAGGGTACAAGACCGCGAATGCTCTGAAAAAGCGCGGTTTGGCACCGGTGGTCAGAGACGATGACGGCAGCACGTCCGGACTGATCCGGTCGCTTGCGCCGCATGACTTGTCGGGTCAACGCGTCATTTTGCAGCTGCATGGCGAGTCTGCGCCTAAGCTGGTCGATTGGCTTAAGCAACGGGGAGCGGAGGTGCAGCAGATCCTGCCGTATCAGCATATTCCGCCGCTGGAGGAGGATATTTCCCTGCTCGTTGATGAAATCGTTGGCGGCAAGGTTCATGCGGTTGCTTTTACAAGTGCGCCACAGTTTCGTTTTCTTGCGGATTATGCTCGTGCCCATGGCAAGCTGGAAGCTGTCCTGGAGGCGTTCCGCGGACCGGTCGTGGCGGCGGCTGTCGGCAAGGTGACGGCCCAGGGGCTCCGGGAGGAAGGCATTGAACGCATGGTGGTTCCCGAGGAAGAGCGAATGGGCAGCATGATGGTGACGCTTGGCCGTTATTTTGCTCAAAATCAAGAATAA	MAQHMKDRVVALAGPRKAADMAKLVEKMGGTAVLRPAQGTVFLDDEVLRRSIEAWLEAPAPWAIFTTGIGLEAIYDTAEQMGLLDTLNETLERTSIAARGYKTANALKKRGLAPVVRDDDGSTSGLIRSLAPHDLSGQRVILQLHGESAPKLVDWLKQRGAEVQQILPYQHIPPLEEDISLLVDEIVGGKVHAVAFTSAPQFRFLADYARAHGKLEAVLEAFRGPVVAAAVGKVTAQGLREEGIERMVVPEEERMGSMMVTLGRYFAQNQE	PGPT0003665_1233	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
AK002_05968	1461	katA_2	COG0753	Vegetative catalase	ATGGATAGATTGACAACCAACCAAGGTGCTCCCGTAGGAGATAACCAAAATTCCAAAACGGCGGGCCGCCGCGGACCGACACTGCTTGAGGATTATCATCTGATCGAAAAAATCGCCCACTTCGACCGTGAACGGATTCCGGAGCGCGTCGTTCATGCACGCGGAGCAGGTGCCCACGGCGTATTTGTGGTCGAGCATGACATGAAGCCGTATACCAAAGCGGCATTCCTGCAGGAAATCGGTCAGGAGACCCCCGTGTTCGTCCGGTTCTCCACGGTTATCCATGGAACCGGGTCGCCCGAAACGGCACGCGATCCGCGCGGCTTCGCCGTGAAGTTCTATACGGAGGAAGGAAACTATGACATTGTCGGCAATCATCTCCCGGTCTTCTTCATTCGGGACGCGATCAAATTCCCGGATATGGTGCATTCGTTGAAGCCTTCGCCGGAGAGCAATATTCAAGAGCCCGGCCGGTATTGGGATTTCATGACGCTGTCCCCGGAATCCACCCATATGATGACCTGGCTGTTCTCGGATCATGGCACGCCGGCGAACTATCGCGAGCTGGACGGCTTCAGCGTCCATGCGTTTAAGTGGGTGAACAGCGAAGGCCAAGTGACCTACATTAAATACAAATGGGAATCCGTGCAAGGCATCAACACGCTGAATGCAGACGAAGTGGGAGCGGTGCAGGGCAAGGACTTCAATCATGCCACCCGTGATCTTCGCGAACATATCGCTAACGGAAATTTCCCGAAATGGCGCCTGCAGGTGCAGCTGATGTCTCCGGAAGAAATGGATGATTTGTCCTTTGATCCCCTGGATCCGACCAAGACTTGGCCGGAGGACCGTTTTCCGTTCATAACCGTGGGTACGATGACCCTGAACCGTAACCCGCAGAATTTCTTCGCCGAGGTGGAGCAGGCGGCTTTCTCCCCAAGCGCATTGGTGCCTGGCATTGAGCCGTCCGAGGATAAATTGCTGCAGGGCCGGTTATTCTCTTACCCGGATACGCAGCGTCATCGACTGGGTGCCAATTATTTGCAGATCCCGATCAATTGCCCGTATGCCCCTGTGCGCAATCATCAACGCGACGGCTTGATGAACGTGAATCAAGATCCATCGCCGGTGAACTATGAACCGAACAGCTATACAACGGGCCCTGTGGAAGATCCGTCCGTTAATGAGAGCGAAGCTCCGCTAAGCGGTCATGTCGTTCGCCAGCGCATCGAGAAAACGGATGACTTCACCCAAGCCGGCGAGTTGTACCGTTCGTTTACGGAGCAGCAGAAGGATCATCTGCTTCGCAATCTGGTTGATGACCTGAGCCAGGTCAAATCCGACATCCAGCTCCGTGCCGTATGCAATTTTTACCGTGCAGACGCCGAATATGGCGCAAGACTTGCCGCAGGGCTTGGCGTAGACCTGAGCGGATTCATCCCGGCCGGTCAGCCGAAGTAA	MDRLTTNQGAPVGDNQNSKTAGRRGPTLLEDYHLIEKIAHFDRERIPERVVHARGAGAHGVFVVEHDMKPYTKAAFLQEIGQETPVFVRFSTVIHGTGSPETARDPRGFAVKFYTEEGNYDIVGNHLPVFFIRDAIKFPDMVHSLKPSPESNIQEPGRYWDFMTLSPESTHMMTWLFSDHGTPANYRELDGFSVHAFKWVNSEGQVTYIKYKWESVQGINTLNADEVGAVQGKDFNHATRDLREHIANGNFPKWRLQVQLMSPEEMDDLSFDPLDPTKTWPEDRFPFITVGTMTLNRNPQNFFAEVEQAAFSPSALVPGIEPSEDKLLQGRLFSYPDTQRHRLGANYLQIPINCPYAPVRNHQRDGLMNVNQDPSPVNYEPNSYTTGPVEDPSVNESEAPLSGHVVRQRIEKTDDFTQAGELYRSFTEQQKDHLLRNLVDDLSQVKSDIQLRAVCNFYRADAEYGARLAAGLGVDLSGFIPAGQPK	PGPT0014380_4505	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK002_05969	819			hypothetical protein	ATGTCAAATCAAACGGAAGAAATGACGGAGCTCGGAAAGGTCTATGCGTTTCCGGATTTCCAATCCGGCAATCTGTATGTGCGTCCCACGACGCCGATGGCGATTGGAGATGCTTGTCCCACCACGCTGCGGGCCGCATTGATCAGCCGTTCTCCGGGCCGCGTGAACGAAATGTTCATAACCTTGACGGAGAACTGCTTCGAGGTCATGATGTTCCGTAAATGGGAACCGCGACTGCAGTCCGCCCTGAACACGGGACTGATTATCGCCGACATGACGGGCTGCCGGAATATGGCGGCGTTCAACAAGGAGAAGGAGCTTCTGCTGCCGGAACATACTACGATTCCGATCTTGTATCTTGTAGGCGAGGAGCTCATGAGCAATGCAGGATCAAGCCTGTTGGATGAAGAGCTGATGGTATGGCCGGCCCGTTCCAAAGATACGATGATGTATCAGGTGCAGCGGACGATTCGCTTGTTCTCCCCGGCAGCGGGTTTGTCGGGTGGAGAAGAGGTCATGCGGGGCCTGATCTATAAAGATTTATCAATCGACCGGGATAAAATGACCATCCACCGGGGCAGCACCCCTATTCACTTGACCAAGACGGAGTATCATCTGCTGATGCTGCTGCTGGACAGCGAAGGGGCCGTATGCACGCGTGAGGACCTGATGTGCAAAATTTGGGATACCGATTTTATGGGCGGCAGCAACGTGGTGGACGTCCACATCAAAAGCTTGCGCAAAAAGCTGAACGACAACGCGGGTGCCCCGCGCTATATCGCAACGGTTAGAGGAGTGGGATACCGCCTGGCGGATTAA	MSNQTEEMTELGKVYAFPDFQSGNLYVRPTTPMAIGDACPTTLRAALISRSPGRVNEMFITLTENCFEVMMFRKWEPRLQSALNTGLIIADMTGCRNMAAFNKEKELLLPEHTTIPILYLVGEELMSNAGSSLLDEELMVWPARSKDTMMYQVQRTIRLFSPAAGLSGGEEVMRGLIYKDLSIDRDKMTIHRGSTPIHLTKTEYHLLMLLLDSEGAVCTREDLMCKIWDTDFMGGSNVVDVHIKSLRKKLNDNAGAPRYIATVRGVGYRLAD	PGPT0002665_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_05970	396	perR_2	COG0735	Transcriptional regulator PerR	TTGAAATCTTTAAATCTGACGACGCAACGCCAAGCGGTGTACGATGTCCTTCGGGAATCGCATGATCATCCGACTGCTGCGGATATCATGAACCGGCTGGTGGAGAAAGGATATAATCTCGCGTACGGGACCGTATATAATTCCCTGCGTTACTTGACGGATAAACAGCTGATCCGAGAATTGAAGCTGGGCGAGAGCGCGAGTCGATACGATGCCCGTACCGACGAGCACCAGCATATTATTTGTGAAGTCTGCGGCAAAGTGGACGAGGTCATGACGGAGGTGCCAGAGGATTGGGCTGCTACAGTAGCCAGTGAAACCAACTACGTTATCCATCATGCTCACGTCGTATTCGGGGGGGTGTGTCCAGAATGTCAAATCAAACGGAAGAAATGA	MKSLNLTTQRQAVYDVLRESHDHPTAADIMNRLVEKGYNLAYGTVYNSLRYLTDKQLIRELKLGESASRYDARTDEHQHIICEVCGKVDEVMTEVPEDWAATVASETNYVIHHAHVVFGGVCPECQIKRKK	PGPT0012945_1207	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012945-perR-K09825	NA	NA
AK002_05971	1011	dacA_2		D-alanyl-D-alanine carboxypeptidase DacA	ATGGAATCCATAACCAAGCATCCCCGCAAAGCACCTCCAGCCCCTGAAACATCCCGGCAGCAAACCGGCACGCTTCGGCATCAACGTGCGAACCGCCGCAAGGGACGCGCGAAATTAAGTCTGTTGCTGCTGCTGTTCGGCGTCATTCTGATAGGCGTGTTCATCGCGAGGGTATTTATCCCCCCTCCCATCAAAGCGAGCTCGGCCATCCTGATTCATGCGGACACGGGGCGCGTGCTCTATGCGATGCATGCCGATCTCCCCCTTCCTCCCGCAAGCATGTCCAAGATGATGACCGAGCTGCTGGTGCTGGAGGCTGTTCGTTCCGGGCAGCATGCCTGGGACGAGAACGTACCGGTCAGCCGATATGCCGCAGAGGTACCCGGTTCGGCCATCGGCATGCATGAAGGCGAACGTTACACGCTGAAGCAGCTGTTCGAAGCACTCATCATCCATTCCGCCAATGATGCGGCCGTTGCTATTGCGGAGCATCTCGGCGGGTCGGAGGCCCGATTCGTGGAGAGCATGAATATCCGGGCGAAGGAAATCGGCCTCTCAGACCGGACCGTATTCGCCAATGCTTCCGGTTTGCCTGCGGCCGACCTGGTTCCTTTTGCTGAAGCGGCCTCCGAAGGGGACACCGTCATGACGGCCCGGGACTCGGCCATGCTCGCCAGATGGCTGGTGAACAAACACCCGGATCTGCTTGAGGTAACCAGCCAGCGGGATTTGCCCGTCCCGCAGAAGGAGCTTTCCCTGCACACCACGAATCTGATGTTGCCCGGCGAGCCGCATGCTTACCAAGGCAATGACGGCTTCAAGACCGGGTATACGTCCTCGGCCGGATATTGCTTCACGGGAACCGCGTCACGGGGCGGAAACCGGCTGATTTCCGTCGTGATGGGAACCGGGGACGCCGATCAGCGGTTTACGGAAACCCGGAAGCTGATGGATTACGGATTCGATCGCCAAGGCATCCTTTCGAATCTCGTATCCGGCCTTTTTAAATAG	MESITKHPRKAPPAPETSRQQTGTLRHQRANRRKGRAKLSLLLLLFGVILIGVFIARVFIPPPIKASSAILIHADTGRVLYAMHADLPLPPASMSKMMTELLVLEAVRSGQHAWDENVPVSRYAAEVPGSAIGMHEGERYTLKQLFEALIIHSANDAAVAIAEHLGGSEARFVESMNIRAKEIGLSDRTVFANASGLPAADLVPFAEAASEGDTVMTARDSAMLARWLVNKHPDLLEVTSQRDLPVPQKELSLHTTNLMLPGEPHAYQGNDGFKTGYTSSAGYCFTGTASRGGNRLISVVMGTGDADQRFTETRKLMDYGFDRQGILSNLVSGLFK	PGPT0024040_5625	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK002_05972	696	srrA_4	COG0745	Transcriptional regulatory protein SrrA	ATGAGAAGCGTATTAATCGTAGATGACGATAAAGAAATATCCGGGTTGATCTCCATTTATTTGGAGAATGAGGGATACCGCGTAATCCAAGCCCACGACGGGGAAGAAGCGCTGCAGGCCATGACCTCGAACAACGGAATGATAGATCTCGTCATCCTGGACGTCATGATGCCCAAGCTGAACGGGATCGACACCTGCCGCAGAATCCGGGAAACCTCGGCCATTCCCATTCTGATGCTGAGCGCGAAGAGCGAGGATATGGATAAAATACTGGGGCTGATGACAGGCGCGGATGATTATATGATTAAACCGTTCAATCCGCTGGAACTGACGACACGCGTCAAAACGCTGCTGCGGCGCTCCACCCAGTACAACGTGGACCTTCACCAGGGGGACAGCGACCGGATCCGGATCGACGGGCTCGACATTAACCGGACAACGCATGAAGTAACGGCCAATGGCCATGCGATCTCCCTGACAGCCAGGGAATTCGAGATTTTGTACTTGCTTGCCCGTCAGCCGGGGAGAATCTTTAGCGCCGAGGATATCTTCCAGCAGGTCTGGAAGGAAAAATATTACGTCTCCAACAATACGGTCATGGTTCATATCAGCAACCTGCGGGACAAGCTCGAGAAGGAACTCGGTTATAAACTCATCCAAACGGTATGGGGCGTCGGGTACAAAATCCATGCGTAA	MRSVLIVDDDKEISGLISIYLENEGYRVIQAHDGEEALQAMTSNNGMIDLVILDVMMPKLNGIDTCRRIRETSAIPILMLSAKSEDMDKILGLMTGADDYMIKPFNPLELTTRVKTLLRRSTQYNVDLHQGDSDRIRIDGLDINRTTHEVTANGHAISLTAREFEILYLLARQPGRIFSAEDIFQQVWKEKYYVSNNTVMVHISNLRDKLEKELGYKLIQTVWGVGYKIHA	PGPT0028485_111	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-VANCOMYCIN_RESISTANCE,PGPT0028485-vanRC|vanRE|vanRG-K18349	NA	NA
AK002_05973	1098	rcsC_20		Sensor histidine kinase RcsC	ATGCGTAAGCTGCAGTGGAAGATCATCACGCTGTTCTTCGCCAGCGGTGCCTTGACCTTGTCCATATTGTTCATCGCACAGCAGATCATGCGATTGATCGGCCGGGAGTATTGGAAGGAGCCCTGGGTAGACACCCTTTTCAGAGTGGAACGCACGCTGTCGAGTTTCTTCGGCTTTCCGGTCGTCCCGACGATCATCGGCATCGTGCTGTTTATCTGCATGGTGCTTCTCTTAAGTCAAGGCACCATTCGCCAAATCAATCAATTGATGCAGGGGACGCAGCGTTTGGCGAAGGGCGAGTTGGACCAGGCGATCATCGTAAGCTCGAACGACGAGCTGGGCCAGATGGCCGTGCAAATCAATCAAATGGCCCAGCAGCTCAAGCTGTCGCTGGCAGAGGAGCGGATGGCGGTCCAGTCCAAAAACGAGCTCATCAGCAACGTATCGCATGATCTGCGCACCCCGCTCACCTCCATCATCGGGTACTTGCGGCTGGTCAACGAAGACCATTACAAGGATGAGGTCGAACTCCGCTATTACACCGATATCGCCTACGATAAATCGCTGCGTCTGGGCGGGCTCGTGAACGATTTGTTTGAGTACACCCGTATGGGTTATTCCCCGATTAACCGTGTGGACATCAATTTGGTTGAGCTGCTTGCCCAATTGGCCGTGGACTTTTCATTGACCGGGCAGCATGAAGGAGTGCAGGTCGTGTTTACGCCTGCCGTGGAGAAAATCATGATCTCCTCGGACGGTGATAAGCTGATGCGCACCTTCGAGAATCTGTTGTCCAATGCGGTAAGGCACGGACGGGAGGCCGGGCGTGTGGATTTAAAAGTATCGCAGGATCCCAAGTTTGCCATCGTGCAGGTGATCAATTACGGTCCTCCGATTCCCCAGCATGCCATCCCCCACTTGTTCGAGCGGTTTTACCGGGCAGATGAATCGCGTACCGATCAAACCGGCGGCTCGGGGCTTGGCTTGGCCATCGTAAAAACCATCGTCGATGCCCATCATGGCACGATCCAGGTGACCAGTACGACAGAGCTGACGATGTTCGAGGTTCGCCTACCATTGCAGGCCCCAGAAAATTAA	MRKLQWKIITLFFASGALTLSILFIAQQIMRLIGREYWKEPWVDTLFRVERTLSSFFGFPVVPTIIGIVLFICMVLLLSQGTIRQINQLMQGTQRLAKGELDQAIIVSSNDELGQMAVQINQMAQQLKLSLAEERMAVQSKNELISNVSHDLRTPLTSIIGYLRLVNEDHYKDEVELRYYTDIAYDKSLRLGGLVNDLFEYTRMGYSPINRVDINLVELLAQLAVDFSLTGQHEGVQVVFTPAVEKIMISSDGDKLMRTFENLLSNAVRHGREAGRVDLKVSQDPKFAIVQVINYGPPIPQHAIPHLFERFYRADESRTDQTGGSGLGLAIVKTIVDAHHGTIQVTSTTELTMFEVRLPLQAPEN				NA	NA	NA	NA	NA
AK002_05974	1113			hypothetical protein	ATGACTAATATACTATTTACCAACTTTTGTATATTTGTAACGTTCTTATACTTATCCGGACTGCTGTCCCAAAAATATGTCGCAGGTGTCGTGGCGCCCTCCTTCACCGTCAAGGTCAACGCCGGACTGCTCTTTGGCATCTATGGGATTATTTTGATGTACTACTCGTTCCCCATCGACCCGCGGTTTTTTGCCGATTTGCGGCATCTGGCCATTATGGTGATCGCCACCTACCTGGGATGGCTTCCGTCCTTGATTGCCGGCATGCTGATTGCACTCGGACGGCTAATCCTGTTCGGCATGTCCGCTTCCTCGGCCATTGCAGGAGCCGGCATGCTGCTGATCAGCGTCGTCTGCGGAATTCTCTCCCGCACCCATTGGAATCGTCTGAGCAAAATGCTGCTAATGAGCGTATCCAGCATGCTGGTCATCTTGTTCATTATGGGGATGAACATCCCGAACCACCAAAAGGTGTTTACCGTCTTCACGCAGCAGCTTGTCATATCGGTGCTGGCCACGGTGGTCATCTACATGCTGACCGAGTATATCAACACCTCGAATAAACTGTTCCTGCAGATGAAAAAGAACGCGGAAACGGATTACCTGACCAGCCTGCACAATTTGCGCCAGTTCGAGCAGCTGTTGTCGGAACGCTTCCTCGAAGCCCAGCATTTCAGCGAGCGGCTGGGTGTCCTGGTCGTGGACATCGATCATTTCAAACAAATAAACGACACCTACGGCCATGCGGCCGGAGATGTCGTTTTGCAGCAGCTCAGCAAAGTGCTGAGGGATCATTCCCGTTCTTTTGATGAGGTATCCCGCAACGGCGGGGAGGAATTCTCGGTGCTGGTCCCGGAAGCGACCATCGACGAGACGGCCGCGATCGCGGAACGAATCCGAGCCGCGGTAGAGGACCACGTCTTCACCCTCGAAGACGGAGCCAAGCTTCGAATCACCGTGTCCATCGGCGCTGCCGTGCATCCCGATACGATCCGGTCCAAAAATGCCAAGGAGCTGCTCCAGCAAGCGGACCGCGAGCTGTACCGCGCGAAGGAAAGCGGGCGCAACCGCGTATGCTCCGCACCCGAAATCAATGACCTGATTCTCTCCTAA	MTNILFTNFCIFVTFLYLSGLLSQKYVAGVVAPSFTVKVNAGLLFGIYGIILMYYSFPIDPRFFADLRHLAIMVIATYLGWLPSLIAGMLIALGRLILFGMSASSAIAGAGMLLISVVCGILSRTHWNRLSKMLLMSVSSMLVILFIMGMNIPNHQKVFTVFTQQLVISVLATVVIYMLTEYINTSNKLFLQMKKNAETDYLTSLHNLRQFEQLLSERFLEAQHFSERLGVLVVDIDHFKQINDTYGHAAGDVVLQQLSKVLRDHSRSFDEVSRNGGEEFSVLVPEATIDETAAIAERIRAAVEDHVFTLEDGAKLRITVSIGAAVHPDTIRSKNAKELLQQADRELYRAKESGRNRVCSAPEINDLILS				NA	NA	NA	NA	NA
AK002_05975	951	yajO_6	COG0667	1-deoxyxylulose-5-phosphate synthase YajO	ATGGAATTCAGAAGATTGGGCGGAAGCGGACTGAAGGTTAGCGATATCAGTCTCGGGAGCTGGCTGACCTACGGGGGATACGTGGAACGGGAAAATGCGGTCAAGTCGATTCAGACCGCCTATGGACTCGGCGTCAACTTTTTCGATACGGCGAACGTCTACGCTCAAGGAGCGGCCGAAGTCGTTGTGGGCGAGACGTTAAGGGCATTTCCGAGGGAATCCTATGTGCTGGCCACAAAGGTGTTTGGCAAGATGGGAGACGGACCGAATGATCAGGGGCTGTCACGCAAGCATATCAAAGAGCAGTGCGATGCCAGTCTGAAGCGGCTGGGCACCGATTACGTCGACATCTACTACTGCCATCGATATCATGAGGAAACGCCGCTTGAGGAGACGCTTCGCGCGCTGGATGATCTTGTCCGGCAAGGCAAGGTGCTCTATGTCGGCGTCAGCATGTGGACCGCAGCCCAGATGGAAGCGGCCTTGGCCGTTGCGGACCGGTATTTGCTGGACCGCATCGTGGTGAATCAGCCGCTGTACAACATGTTCGAGCGCAAGATCGAGGAGGAGATTATCCCGCTTGGCGAGAAGAAGGGGATTGGACAGGTCGTATACTCCCCGCTCGCTCAAGGGCTCCTGACCGGCAAGTACGCCTCGAAGCAGGACGTGCCGGAGAACAGCCGCGCGTCGAAGCTTGGAGCCGACCGGCTCAAAATAAACGAAGACCGCATACAGAAAGTACAGGCGCTGGGCCTTGTCGCAAGCGAGCTGGACATGACCGTCGGCCAATTGGCCTTGGCCTGGATTCTGCGCCAGAACAACGTAGCCAGCGCGCTGGTGGGCGCCAGCCGTCCGGAACAGGTGGAAGAGAACGTGAAGGCTTCCGGTATGAAATTGTCCTCGGATACGCTGGCTGCCATTGAGGACATCCTGAAGGCGGATCCGAATTAG	MEFRRLGGSGLKVSDISLGSWLTYGGYVERENAVKSIQTAYGLGVNFFDTANVYAQGAAEVVVGETLRAFPRESYVLATKVFGKMGDGPNDQGLSRKHIKEQCDASLKRLGTDYVDIYYCHRYHEETPLEETLRALDDLVRQGKVLYVGVSMWTAAQMEAALAVADRYLLDRIVVNQPLYNMFERKIEEEIIPLGEKKGIGQVVYSPLAQGLLTGKYASKQDVPENSRASKLGADRLKINEDRIQKVQALGLVASELDMTVGQLALAWILRQNNVASALVGASRPEQVEENVKASGMKLSSDTLAAIEDILKADPN	PGPT0008285_1827	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-HYDROXYACETONE_VOLATILE_BIOSYNTHESIS,PGPT0008285-yghZ-K19265	NA	NA
AK002_05976	1110			hypothetical protein	ATGAATGGCCTGAAACGAGGGCTGCTCTGTATCATGTGCTGCTCTTTTTTGTTTCTGTCGGGCTGCGAATTTCGGGATATCGATCTCAGGCTATTCGTAGTATCCATAGGCATCGATGTCTCGGAGAAAAATCCCGGGATGCACCGTTTTAGCTTCAAAATCGCCATTCCTTCGGGTGATCCGAAGACCGGGGACAAAAAGTCCCTGCTCATTACGCAGGAATCAACAAGTATTGCGGAGGCGATCCGGGAGGTCAAATCCAAGGTGGATAAGGAGCTTGACTTCGGACATTGCAAGGGTGTGATGTACGGCGAGGCTTTCGCGCGGACAGATATCAGCAAAATCCAGGACTGGACCGTTCGGAGACGGGACATGCAGCTGCTCATGTATCCGGCTGTTGCCGTACCTACCGCAGAAGCCGTATTGAAAGCGGAACCCCCTACGGAGCGGATCGCCGGGAACGCCATATTTCTGGCACTCAGCGAGGATGGCACCGAATCCCCTTTCATCACGAAGACCTATTCCTTCGATCTGAGCCGCCGAATGATGGAGGAGGGGGAGGACCCGGTTATGCCCGTCGTGGAAACGACTGAGGACGACGTTCTGAATATCGATAAGGTAGCCTTGATGGACAAGAACAAAGTGAAGTACATCCTGACCCGGGATGAAACCAGGCTGTATAATCTGCTGGACCTCCGGAATTTAAGCACGAATTTCGGAACGAAGATTGGCGGCAAGCTGCTTGAAGTGAACACGGACAGAACCCGGGCCAGATACAAGATCGTAACGGATAAACGGGGGGAAGAAACGATTGATTATAAGATAAGGATCACGGCGATATTGGAGGAGAAAGAGGATCCCGCGCAGCTGGATCCGAGGGATCTGGACAACATCGAAGCGCAATTCGGCAAGGAATTATCCCAAGCGGTCAAAAGCGTTCTGGAAAAAATTCAAAAAACAGGACTGGATCCGCTGGGTTTCGGCCTCCGGTATGGCGGCACGCATTGGAACAACCGGACGGAGATGGAGGAGTGGGCTGCCATTTATCCGCATGCCAAATTTAATGTATCGGTCAAGGTAAAAATAAAGTCTACCGGCTACAAACGCTAG	MNGLKRGLLCIMCCSFLFLSGCEFRDIDLRLFVVSIGIDVSEKNPGMHRFSFKIAIPSGDPKTGDKKSLLITQESTSIAEAIREVKSKVDKELDFGHCKGVMYGEAFARTDISKIQDWTVRRRDMQLLMYPAVAVPTAEAVLKAEPPTERIAGNAIFLALSEDGTESPFITKTYSFDLSRRMMEEGEDPVMPVVETTEDDVLNIDKVALMDKNKVKYILTRDETRLYNLLDLRNLSTNFGTKIGGKLLEVNTDRTRARYKIVTDKRGEETIDYKIRITAILEEKEDPAQLDPRDLDNIEAQFGKELSQAVKSVLEKIQKTGLDPLGFGLRYGGTHWNNRTEMEEWAAIYPHAKFNVSVKVKIKSTGYKR	PGPT0025040_174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
AK002_05977	1110			hypothetical protein	GTGGTTAGAAACAAATATTTTTATTACCTCTTCCTGCTCAACGCAACCATCAACCTGATTAATTATGTCCCCCGCATCTTGATTACGGATCGCTTTGACGGTGCGATGATGTCGATCCTCGTATCCATCCCGATCGGGACCCTGATTATGTTCGGCTTCATCAAACTGATTCAGAAATTTCCGGGACAAGGGCTGCCGGAGATTTTCCAATCGGTGATGCCGAAAGGGATATCCGGCATCCTGCTTGTGTTATACGGACTTGCGTGGTATTTCTCCAGCGTCATTACCTTGACCAGCTTCGTGGATATTACCAACCGTTACATCAGTCCGGACGTGTCTCCCTATATCGTTCTGATGGGCTTTCTGGTGGTTGTGGCGCTTAGCGCCAGGCTCGATTCCGAGTCGATTCTTTATGGGTTGGAGATGATTTTGTACATCACCGTTCCCCTGATTGCTTATATGTCATGGCGCGTCTTCAGCAATCCGTATTTCAGCTGGGATGCCGTGAGGCAGATCATTACCTATGCCTGGAATTTACCCAATTACGGGACGGTTGCGGCAGCAACCTATATTTTTACGGGGTACGTGAACATGGTGGTATTCAACCGGATCTTTCACCGATTCCGAGTCCGCCATATTTGGGCGATCGTGGTAGTCAGCATCCTGACCCTTCTCGTTTCGATGTTCGCGCCCATCGGGATATTGGGAGCCGCAGGAGCCGGAGGACACGTGTATCCGGCCTTTTCGACGATAGACGCACTCCGGATTCGTTATTTCATCGTTGAACGGATGATTTACGTCTTCTACGTGGCCTATATGTGCCTTTCCCTCGTGAATTCCATCATACACTGGCATGTCGGGAAGGAATTGATCCTGGGGGGCTTCGGTTTAACGGGGGATCAGGGCAAATCGATAGATAAAAAGCGAAAAATCGAATGGTGGGTCCTGTTGCTCTTTTCCCTTATCACCTTCGGAACGTCGTTAATTGTGAATCAATACATATTGAACGATATGGCGATCGTATTCCTGGATGTCCGGTTTGGGGGCGAGTTCCTGCTTATTGCCATGTTAATCTATGCGGTATGGAAGAAAAGGAGGAAGAGAGCATGA	MVRNKYFYYLFLLNATINLINYVPRILITDRFDGAMMSILVSIPIGTLIMFGFIKLIQKFPGQGLPEIFQSVMPKGISGILLVLYGLAWYFSSVITLTSFVDITNRYISPDVSPYIVLMGFLVVVALSARLDSESILYGLEMILYITVPLIAYMSWRVFSNPYFSWDAVRQIITYAWNLPNYGTVAAATYIFTGYVNMVVFNRIFHRFRVRHIWAIVVVSILTLLVSMFAPIGILGAAGAGGHVYPAFSTIDALRIRYFIVERMIYVFYVAYMCLSLVNSIIHWHVGKELILGGFGLTGDQGKSIDKKRKIEWWVLLLFSLITFGTSLIVNQYILNDMAIVFLDVRFGGEFLLIAMLIYAVWKKRRKRA	PGPT0025030_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025030-gerBB-K06292	NA	NA
AK002_05978	1362			hypothetical protein	ATGACCAGCGAACAGTATTTGAACGCGGACCAAGCCAAGAACTGCCTGAAGGAGCAGCTTAACCGCATCGGTGATATCGAGCAGCGCGAGCTGAAGAACGAGGCTGAGCACGCGCTGCTGGTCTATTTAAAGAGCATGTGCGATCCTGTCATGATCAACGATAATTTGATTAATCGCTTTTATGAGCTGAATTCCTTGGACTTATACGAGCAATTCATCCGCTCCTTTCCATCGAGCATGGAGCCGAAAGATGAACAGGAATTGCTCCGCAATATACTGAGGGGCTGCGTTGCCATATTCATACGGGACACCGTGCTTCTTTTTGACGCCGTCTTGGTTAATGCCAGTTTTATCCAACCCGCCAGTACGGAGAACGTCATCCAGGGACCCGATGATTCGTTTACGGAGAATATCGAGGTGAACCTGAACCTGGTTCGCCATCGATACCAAACCACCGACTTGAAGACGGAATTCATGACCGTCGGCAAAATATCGCAGACCCGGATCATCATTATGTACGATGCGCTCAAAGTCGAAGAAACGGTGCTGCAGGAGCTTAAAAAGCGACTGTCCGAGCTCAAAGCGGATATTGTGCAGTCGGCATCCGAAATCGAGAGACACACGATGCACCCCAAATTTCGGCTGTACCCGACGCTGATGCTGACCGAACGCCCAGACCGGACTGTCCTGAATATATCGCAGGGAAAGATCGCCGTGTTGATGGATTCAACGGGGTATGCCCTTCTGCTGCCGGCCATATTCAATGATTTCTTTACCGCGATGGACGATAAAATCCAGCTTCCTCCGATCGGCTGGTTTCTCAAGGCAGTTCGGTATATCGCCTTGTTTGTAACCGTGCTGATGCCAAGTCTGTACGTGGCATTCACTTCGTATAACCCGGAAATATTGAGGATGCAAGTTACGCTTCTCATTGCAGGAAGCCGGGCCACGGTACCGTACCCGTCCTTCTTCGAAGTGATCTTTATGCTGCTCGCGATGGAATTTCTGACGGAGGCCAGCGTTCGGCTGCCCAAAGCGATTGGCCAGACAGCAACCACGGTCGGGGGTCTCATTCTGGGAACCGCCGCTACGGAGGCCGGACTGGTCAGCAACATCATGATCATTCTGGTGTCCGCGGTTGCCATTACCAACTTCGTCATCCCGATCACGATGATGAGCTCCGGCATCCGCGTTACGAAGTATCTGTTCATCGTGCTTGCGACCTTCTTCGGCTTGGTTGGCATCGTGCTGGGTGTGGTGGCCATGATCATGTACCTCACGAGCCTACGGTCCTTCGGCAAACCTTACTTGAAGATGTTTGCCGTGGATCGGAACAAGAAAGGGGACCAGCGAAGTGGTTAG	MTSEQYLNADQAKNCLKEQLNRIGDIEQRELKNEAEHALLVYLKSMCDPVMINDNLINRFYELNSLDLYEQFIRSFPSSMEPKDEQELLRNILRGCVAIFIRDTVLLFDAVLVNASFIQPASTENVIQGPDDSFTENIEVNLNLVRHRYQTTDLKTEFMTVGKISQTRIIIMYDALKVEETVLQELKKRLSELKADIVQSASEIERHTMHPKFRLYPTLMLTERPDRTVLNISQGKIAVLMDSTGYALLLPAIFNDFFTAMDDKIQLPPIGWFLKAVRYIALFVTVLMPSLYVAFTSYNPEILRMQVTLLIAGSRATVPYPSFFEVIFMLLAMEFLTEASVRLPKAIGQTATTVGGLILGTAATEAGLVSNIMIILVSAVAITNFVIPITMMSSGIRVTKYLFIVLATFFGLVGIVLGVVAMIMYLTSLRSFGKPYLKMFAVDRNKKGDQRSG	PGPT0014780_301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014780-yfkQ-K06307	NA	NA
AK002_05979	1554	petC_2		Cytochrome b6-f complex iron-sulfur subunit	ATGAACCCATCCAATTCATCGCATCAGGAACTGCCGCAATTTCCGGAGTCGCTGTGGGTAGCGACAACCGAACTGCCTACCTTTTCCCGCTTGGCCGAAGATATTGAGACGGATGTGGCCGTAGTCGGGGCCGGTATAACCGGCATCACGACCGCTTATCTGCTAGCCAAGGCAGGCAAAGATGTCGTGCTGATCGAGGCAGGGCAAATCCTGAACGGGACCACCGGCCATACAACAGCCAAGGTCACGGCCCAGCATGGGCTGATTTATCATGAATTCCTGAATCATTTCGGGGATGAGAAGACAAGGCTCTATTACGAAGGGAATCGGGAAGCGATTGAATTCATTAGGGACATTGTTGGCGGAGACGAGGAGAAGTTTGGGCTAAAGCTGGAGGATGCCTATATTTACGCTCAAACGGAAGACAAATACCTCTCCAAGCTGGAGGACGAAATCAAAGCCTACGAGAAGCTCGGCATCCCGGGAGAATGGCAGGAAAGCCTTCCTCTGCCTATGTCCGTCCGTGGAGCGATCAAGATGCCGGGGCAATATCAGTTCCATCCCCTGCAATACCTTAAGCATCTGACGGAACAATTTCTGAAGCTTGGTGGACGAATCTATGAGAATACGACCATGGATGAAAAAGTCGAAACCGACGGACCGATCACACTGCTCACCAAACGGGGCGGCCACCGGATTACTTGCAACCACGCCGTATCCGCGTCTCATTTTCCGTTCTATGACGGGAAAGGGCTGTTCTTCACGCGGCTGCATGTGGAACGTTCCTATGCGGTTGCCGTCAAACCCGAAACCGCTTATCCCGGCGGGATGTTCCTGAGCGTGGATCAGCCGACCCGTTCCCTGCGGTCAGCTACCTATAACGGCGAGGAGTTGGTTATCGTCGGCGGCGAGAACCATCCGACGGGACGCAGCATCTGCACCCATCAGCATTACGAAAACCTGGAGCTTTTTTCAGGAAATCTGCTGGGCGCCTCCGCCATTCCTTATCGCTGGTCGACCCAGGACCTGATCACCCTGGACAACATGCCTTATATCGGGCCGATCACGTCCAATCAGGACCGGATCTTTGTCGCGACAGGCTTCCGGAAATGGGGGATGACAACGGGAACATTGGCCGCGAAGATCATTTGCGATCAAATACTGGAGAAGGATAACCGTTATGCCGACGTCTTTAGCCCGTCCCGCTTCAAGGCAGACCCGAGCATCAAAACGTTCGTCGCGCAAAATGCCATGGTTGCGAAGGATTTCGTTGCCGGCAAGTTCGAAATGGCCCACGCCGACATAACCGAGCTGAAGCCAGGCGAAGGCGCCGTCGTCCGCCATAACGGGCAGCGTGCCGGGGCCTACAAGGATGATCAAGGAAACCTCTATCTTGTGGATACCACCTGTACCCATCTCGGCTGCGAGGTGGAATGGAACGAGGGCGAACGCTCATGGGATTGCCCTTGCCACGGATCACGCTTCCGCCATAACGGCGAGGTGCTGGAAGGACCGGCTATTGAGCCGTTGAAGCAATTGGACCCGGAGAGCTGA	MNPSNSSHQELPQFPESLWVATTELPTFSRLAEDIETDVAVVGAGITGITTAYLLAKAGKDVVLIEAGQILNGTTGHTTAKVTAQHGLIYHEFLNHFGDEKTRLYYEGNREAIEFIRDIVGGDEEKFGLKLEDAYIYAQTEDKYLSKLEDEIKAYEKLGIPGEWQESLPLPMSVRGAIKMPGQYQFHPLQYLKHLTEQFLKLGGRIYENTTMDEKVETDGPITLLTKRGGHRITCNHAVSASHFPFYDGKGLFFTRLHVERSYAVAVKPETAYPGGMFLSVDQPTRSLRSATYNGEELVIVGGENHPTGRSICTHQHYENLELFSGNLLGASAIPYRWSTQDLITLDNMPYIGPITSNQDRIFVATGFRKWGMTTGTLAAKIICDQILEKDNRYADVFSPSRFKADPSIKTFVAQNAMVAKDFVAGKFEMAHADITELKPGEGAVVRHNGQRAGAYKDDQGNLYLVDTTCTHLGCEVEWNEGERSWDCPCHGSRFRHNGEVLEGPAIEPLKQLDPES				NA	NA	NA	NA	NA
AK002_05980	453			hypothetical protein	TTGAATAAGTCCGAACTGAACCGAATTACGCAAGAGCTTCTACGTCGGTCGGGCAGCAGTGTCACCGTGGAGATGGAGGCGTATTTTCCAGGGGGCCGGTTAATCGGCGGAAAATATGTGATGCATTCGCACAGCGTGACGATGTATACCGAAGTCATACGCCAGCAGTGCTTGCAGCTGTTTGGCACGCTTGAGCCGTTCCATGCCTATTTTACGGTGGTATTCGCACATGAGCTGGGCCATTCAATGGACATGACCCTGACGGAGCTGTGCGACCGGATGGATCGAACGGTGGATGAATGGGATCAGAGGCAGCTCGCGCTTCAAATCGAGGAAAATGCTTGGAATAACGCCATGCCTTGGATCCAGGATATCGATCCCGATTTCATACAGGTCATCGTGGATCAGTCGCTTGCGGCATACCGCGAGGAGCTGGCGCCGGAAATCGCTTAG	MNKSELNRITQELLRRSGSSVTVEMEAYFPGGRLIGGKYVMHSHSVTMYTEVIRQQCLQLFGTLEPFHAYFTVVFAHELGHSMDMTLTELCDRMDRTVDEWDQRQLALQIEENAWNNAMPWIQDIDPDFIQVIVDQSLAAYREELAPEIA				NA	NA	NA	NA	NA
AK002_05981	1875		COG1132	Fatty acid ABC transporter ATP-binding/permease protein	ATGAGTGAGAAGAAACGGGGAGGACATCCCCGGGGACCGGGCGGTCCCTTTGGCGGCGGCCCGCACGGGCCCGGGATGGCAGGGGAGAAAGCCAAGGACTTCAAAGGCACGTTTCGCCGGTTAACGCGATATCTCAAGCCGCATACCGGCAAGCTGCTGATCGTCTTGATCGCAGCTATCCTCAGTACGATATTCAGCATCGTGAGCCCGAAAATATTGGGGGATGCCACCACGATCCTGTTCAAAGGCTTCATGGCTAAGATGCAAGGCGTGCCGGGTGCCGGAATCGATTTTGACGCCATTCGGACGATTATGCTCTGGCTAGCAGGACTATATCTCTTAAGCTCGCTGTTTGCGTACATCCAGCAGTATGTCATGGCCGGCGTGGCCCAGCGCACCGTCTATGATTTGCGCAAGGACGTGTACAACAAACTCGGCCGATTGCCGCTGAAATATTTCGACGCCCGCACGCATGGGGAAACGCTGAGCCGGGTGACCAACGATATGGACAATATCAGCGGCACGCTTCAGCAGAGCTTGACCCAGATGATTACTTCCGTGGTGACGCTGGTCGGCGTCATCATCATGATGCTCACGATCAGCCCGCTGCTGACGTTGGTGGTCATCCTGACCCTGCCGCTCAGCGTGGTGGTGACCATTATGGTCGCCAAGCGCTCGCAGAAGCATTTTGTGGCTCAGCAGAAGCATTTGGGTGAGCTGAACGGACATGTGGAAGAAATGTACACGGGTCATAAAGTGGTGAAGGCCTTTGGCCGGGAACGACAGTCCATGGAGCAATTTGATGAGGTCAACGACAAACTCTACGATGCCGGTTGGAGAGCCCAATTTATATCGGGTACCATTATGCCACTGATGGGTTTTGTCGGAAATATCGGTTATGTGATTGTCAGTGTCGTCGGCGGGGTGTTGGTTACCCGCAGAGCGATTGAGATCGGGGACATTCAGGCATTCATCCAATATTCGCGCCAATTCACGCAGCCGATTACCCAGCTTGCGAATATCGCGAACGTCATTCAATCCACCATCGCATCGGCAGAGCGCGTATTTGAAGTGCTGGATGAGGAAGAGGAAGTGTCAGAGCATACAGCTCCGGCGGCGCTCAAGAAGCCGCTTGGCGATGTGTCTTTCGAGCATGTGAGCTTCGGCTATAAAGCGGACCAGCTTCTCATCGAAGATATGAATGTAGACGTGAAGCACGGGCAAACGGTCGCCATCGTCGGTCCGACCGGTGCAGGGAAGACCACGCTCATCAATCTGCTGATGCGGTTCTATGAGCTGAATCAGGGCAAGATTACGATAGACGGCACGGATATTACGGCTCTTCGGCGCAGTGAACTGCGCAGCCTGTTCGGGATGGTGCTGCAGGATACCTGGCTCTTTAACGGGACGATCCGGGATAATATCGGATACGGAAGGGAAGGCGCCACAGAACAAGAGATCATCCGGGCGGCGGAAGCGGCCCACGCGGATCATTTCATCCGGACGCTGCCGGAGGGCTATGATACCGTTCTGAACGAGGAAGCCTCTAATATATCGCAAGGGCAGAAACAGCTTCTGACGATTGCGCGGGCCATTCTCGCCAACCCGTCGATTCTCATCCTTGATGAAGCCACCAGCAGCGTGGATACGCGGACGGAGCTTTATATTCAGAAAGCGATGAATGAGCTGATGAAGGACCGGACCAGCTTTGTCATCGCGCATCGGTTGTCCACGATCCGGGATGCGGACCTGATTCTGGTCATGAACAAGGGCAGCATCATCGAGCAGGGAACCCATGAAGAGCTGCTGTCCCAAGGCGGCTTCTACGCGGACCTGTATAACAGCCAATTCAGCGAACAGCATGAAGCCGGATAA	MSEKKRGGHPRGPGGPFGGGPHGPGMAGEKAKDFKGTFRRLTRYLKPHTGKLLIVLIAAILSTIFSIVSPKILGDATTILFKGFMAKMQGVPGAGIDFDAIRTIMLWLAGLYLLSSLFAYIQQYVMAGVAQRTVYDLRKDVYNKLGRLPLKYFDARTHGETLSRVTNDMDNISGTLQQSLTQMITSVVTLVGVIIMMLTISPLLTLVVILTLPLSVVVTIMVAKRSQKHFVAQQKHLGELNGHVEEMYTGHKVVKAFGRERQSMEQFDEVNDKLYDAGWRAQFISGTIMPLMGFVGNIGYVIVSVVGGVLVTRRAIEIGDIQAFIQYSRQFTQPITQLANIANVIQSTIASAERVFEVLDEEEEVSEHTAPAALKKPLGDVSFEHVSFGYKADQLLIEDMNVDVKHGQTVAIVGPTGAGKTTLINLLMRFYELNQGKITIDGTDITALRRSELRSLFGMVLQDTWLFNGTIRDNIGYGREGATEQEIIRAAEAAHADHFIRTLPEGYDTVLNEEASNISQGQKQLLTIARAILANPSILILDEATSSVDTRTELYIQKAMNELMKDRTSFVIAHRLSTIRDADLILVMNKGSIIEQGTHEELLSQGGFYADLYNSQFSEQHEAG	PGPT0029030_969	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
AK002_05982	1728		COG1132	putative ABC transporter ATP-binding protein	TTGTTAAAGCTGTTTCACTATATGAAACCGTACCGGACAGCGGTCATTTTGGTCCTGCTGTTCACGTTTTTCCAGTGTCTGTCTGATCTGTACTTGCCTACCTTGATGGCGGACATCGTGGATATCGGCATCGTGAAGGGAGACGTCCCTTATATTTGGCGCGTGGGCGGCTTTATGCTGCTGGTTGCGGCGGGGGGCATGATTTGCTCAATAGCCGCGAGTTATCTCGCATCCAAATCGGCTACCGGATTCGGGAAGATTCTTCGCGGGCGCGTATTCTCCCATGTCGAGAATTTCACGCTGCAGGAGTTCGACAAGATCGGAACGGCCTCGCTGATTACCCGTACGACAAACGACATTACGCAGGTGCAGCAGGTTACGATCATGATCCTTCGCATGATGGCGATTGCGCCGATGATGTGTATCGGGGGCATCGTAATGGCCGTGTCGAGAGATCCCGGACTGACGACGGTGCTGTTGGTTGTCCTGCCGATTCTGGCACTCGCTATTTTCCTCATCGCCAAAAAAGGCATACCGCTCTTCAAAGCGATCCAGGTGAAGATCGATACGCTGAGCCGCGTGCTGCGGGAGAATCTGACCGGAATCCGGGTCATTCGCTCCTTTAACCGGATGGACCATGAAACGGTCCGCTTTAACGATGCGAACGAGGACCTGACGGCCACTTCGATCAAAGTCAATAAAATCATGGGGGCGATGATGCCGGTCATGATGCTGGTCATGAACTTTGCCACGCTGGCGATCGTCTGGTTCGGAGCCCACCGCATAGACGCCGAACATATGAAGGTCGGCGACCTCATGGCGTTTCTCCAATACGCGATGATGATCATGTTCTCGCTGATCATGCTATCCGTCATGTTTGTCATGATTCCGCGTGCGCAGGCATCGGCGGTCCGGATCAATGAAGTATTAAACATGATACCCGAGATCCATGATCCGAAACAGCCGCGCGATGCCGGCGTGTTGCAGGGATCGATCGAATTTCAGGATGTGACCTTCTATTACCCTGGCGCGGAGGAGCCTGCCATATCCGATATCTCCTTCCATGCCGGGCCGGGTGAAGTTACGGCGATCATCGGCGGAACCGGCTCGGGCAAATCCACCCTGATCAGCCTGATCCCGCGTTTCTATGATGTGACGTCGGGACGGATTCTCGTCAACGGTACCGATATCCGCGACATGATGCAGGAGGATCTGCGGAACCGGATCGGATTCGTGCCGCAGAAGGCGCTGCTCTTCACTGGCACCATCGCGGAGAATATCCGCTACGGCAAAGAGGATGCAACGGACGAGGAGATCCGGCATGCAGCGAAGGTTGCCCAGGCCGCCGACTTTATCTCCTCCATGGAAGGCGGTTACGATGCCGAGATTTCGCAGGGCGGCAGCAACGTATCCGGCGGCCAGAAGCAGCGGCTCTCGATTGCAAGGGCATTGGTTCGCAGACCCGAGATTTATGTGTTTGACGACAGCTTCTCGGCGCTGGATTTCAAGACGGACGCCAATCTTCGCGCAGCGCTTCGCGAGGAAACGACGGACGCCACCGTTCTGATCGTCGCTCAGCGGGTCAGCACCGTCATGGACGCCGATCGGATTATCGTGCTGGACGAGGGACGCATTGCCGGTATCGGCACGCATGAGGAGCTCATGGCTTCCAGCGATGTTTACCGCGAAATCGTCACCTCGCAGCTGTCAGAGGAGGAGATCGCATGA	MLKLFHYMKPYRTAVILVLLFTFFQCLSDLYLPTLMADIVDIGIVKGDVPYIWRVGGFMLLVAAGGMICSIAASYLASKSATGFGKILRGRVFSHVENFTLQEFDKIGTASLITRTTNDITQVQQVTIMILRMMAIAPMMCIGGIVMAVSRDPGLTTVLLVVLPILALAIFLIAKKGIPLFKAIQVKIDTLSRVLRENLTGIRVIRSFNRMDHETVRFNDANEDLTATSIKVNKIMGAMMPVMMLVMNFATLAIVWFGAHRIDAEHMKVGDLMAFLQYAMMIMFSLIMLSVMFVMIPRAQASAVRINEVLNMIPEIHDPKQPRDAGVLQGSIEFQDVTFYYPGAEEPAISDISFHAGPGEVTAIIGGTGSGKSTLISLIPRFYDVTSGRILVNGTDIRDMMQEDLRNRIGFVPQKALLFTGTIAENIRYGKEDATDEEIRHAAKVAQAADFISSMEGGYDAEISQGGSNVSGGQKQRLSIARALVRRPEIYVFDDSFSALDFKTDANLRAALREETTDATVLIVAQRVSTVMDADRIIVLDEGRIAGIGTHEELMASSDVYREIVTSQLSEEEIA	PGPT0029025_2179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029025-efrA-K18887	NA	NA
AK002_05983	561	slyA_3		Transcriptional regulator SlyA	ATGGCAGAGGATCAACATCCAGATTTACATAAAGAAATGAAAGGCAACGAGGACCAACATTCGCGGGAAGGACCATGCATGAAGGGCGGCAGGCGGGAGGACAGCGTCGCCGGCAGGCTCTTGTACAGCATACGCATGTTCCACAAGCAGGAGTGGGATCAGCACTTGATTTCAGGGTATACACCAGGTGAGATTCGCGTTCTGATGGGACTTAAACATCATATCGAGCCTGCTGGTCCCGGCATGAAAGTGTCCGAAATCAGCAGCATGATGAATGTTACGTCGCCGACGATCACGCAATTCATTAATGCACTGGAGAGCAAGGGGCTGGTGGAGCGGGTGATGGATGCCCAGGATCGGCGAGCGGTCCGAGTGCAGCTGACGGAGGAAGGGAACCGCGTTGTCCAGCAAACCTATCAGAACGTCAAGAACAGCTTTAACGAGCTGGTGGATTTCCTCGGGGAAGAGGACAGCGTCAAACTGACGGAGCTGCTGACGAAGGTATATCATTTTCATGAACAAAAACGCATATCGAACGAAACGACTTTTGACAACGAGTAG	MAEDQHPDLHKEMKGNEDQHSREGPCMKGGRREDSVAGRLLYSIRMFHKQEWDQHLISGYTPGEIRVLMGLKHHIEPAGPGMKVSEISSMMNVTSPTITQFINALESKGLVERVMDAQDRRAVRVQLTEEGNRVVQQTYQNVKNSFNELVDFLGEEDSVKLTELLTKVYHFHEQKRISNETTFDNE				NA	NA	NA	NA	NA
AK002_05984	1113	rsgA_4		Small ribosomal subunit biogenesis GTPase RsgA	TTGACTAAACAAGACATGACAACGTTGCAAGCCTATGGATGGAATGAACATTGGCGTTTGATGGCCGCTCAGATCCCGAAGCAGGACAAGGCGCTGGTGCCGGCCCGCATTACGGCCCAATTCTCGAAGCAGTATCGCATTATCACCCAAGAGGGTGAGCAGACGGCCATTGTCACAGGCAAGTATGAATACGAAGCGGGCAGCAAAAGCGACTTTCCCGCAGTCGGCGATTGGGTCATGGTGGAGCCGCTGCAGGGCGAATCCCGTGCCGTCATTCATCATCTGCTGCCCCGTCAATCCGCCGTCACGCGCAGGGAAGCAGGAAGCGTGCCGGATGAGCAGATCATTGCGGCCAACATGGATACCGTGTTTATCATTAACGCGCTCAACAAGGATTTTAATGTTCGCCGGATTGAACGCTATCTGATTGCGGTCTGGGAGAGCGGAGCCGCACCGGTCGTGCTGCTCACCAAGGCGGACCTATGCGAATCGCCGGAAGCGTACGTCGCGGAGGTAGAGGCTGTTGCTCCAGGCGTGCCGGTCCATGCGGTAAGCTCTTTGATGGATCAAGGAAAGGAGCAGCTTGGGGAGTATCTGGTGCAAGGGAAAACGGTTGCCATTACGGGTACCTCCGGTGCCGGCAAATCGACGCTGCTGAACTGGCTGTCCGGCCAGGAGATGCAGCGGGTTCAAGGGATACGCGAGGAGGACGCAAGAGGACGGCACACCACGACGCACCGGGAGCTGTTCGTGCTGCCGGGAGGCGCGATCATGGTGGATACGCCGGGCATGCGGGAGCTGCAGCTGTGGGATTCGGAGGAAGGGTTCGAGGCGACCTTCGCGGATATTTCCGCGCTGGCGCAGCAGTGCCGGTTCCATGATTGCCGGCATGAAACGGAGGCCGGCTGTGCGGTCCGGGAAGCGCTGCAGGATGGAACGCTGGATGCAAAGCGATATGCAAACTATAAGAAGACGGAGCGGGAGCTGGCCCATATCGCCCGCAAAGAGAGGGTAAGCACCCGCCGTCAAAACAAGAGCTCGGGCAAGTCGTCCCGCAAGAACGACCGAGGCCGCAAAGGGGTATATCAGCAGCAGCTGTACGATGATGAATAA	MTKQDMTTLQAYGWNEHWRLMAAQIPKQDKALVPARITAQFSKQYRIITQEGEQTAIVTGKYEYEAGSKSDFPAVGDWVMVEPLQGESRAVIHHLLPRQSAVTRREAGSVPDEQIIAANMDTVFIINALNKDFNVRRIERYLIAVWESGAAPVVLLTKADLCESPEAYVAEVEAVAPGVPVHAVSSLMDQGKEQLGEYLVQGKTVAITGTSGAGKSTLLNWLSGQEMQRVQGIREEDARGRHTTTHRELFVLPGGAIMVDTPGMRELQLWDSEEGFEATFADISALAQQCRFHDCRHETEAGCAVREALQDGTLDAKRYANYKKTERELAHIARKERVSTRRQNKSSGKSSRKNDRGRKGVYQQQLYDDE	PGPT0009020_459	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
AK002_05985	2289	dinG_3		3'-5' exonuclease DinG	ATGCCTCATACTATCCAAATATCCGTCAGGCCGCTGGTGGAATACGTCTTTCGCAGCGGCAGCATTACCTCGGGTTTTCGCACGGCGACATCCCTGACCGAGGGGACCCGTGCGCATCAACAGGTACAGCGCGACTATGGCGAGAATGATCAGAAGGAAGTTCAGCTTGAAGCGGAGATTCCTTACGAGGATCTGCTGTTTGTGGTGGAAGGCCGCTGCGACGGTCTGATTCAAGAGGAAGGGCGGATCATGATTGACGAGATCAAGTCGACCTCCGGCGATTTGGGCGAGATTACGGAGCACACGTACCCGGTTCATTGGGCACAGGCCAAAATGTATGCCTATATGTACGCGAGGTTGCATGAGATTCCGACGATGGCCGTGAGACTGACCTACTTCCAGGTCCCGAGCGGAGAGCGGAAGCAGTTCGTGCAGGAATGGAGCTTCGCTCAGCTGGAATCCTTTGTGCTCGAGGTTGTGGCGGCCTACGCGCCTTATGCCAACCTGCTGCGGGAGCATGGCGAGCGGAGGGACCGGAGCATCCGTGAACTGAAGTTTCCGTTTCCCGCCTACCGCGAGGGACAGCGAAAGCTGGCCGGAGCCGTGTATAAAAGCATCGGGGAAGGACGAAGATTGTTTGCCAAAGCCCCTACGGGCATCGGCAAAACCATATCCACGCTGTTTCCTTCGGTCAAAGCGATCGGCGAGGGCCTGTTGTCCCGGATTTTTTACCTGACGGCCAAGACGATTACCCGTACCACCGCGGAGGAAGCCATGGCGCGCATGGAGCGTCAAGGGCTCTGCATGCACACGGTCACGCTGACGGCGAAGGACAAGATCTGTTTCAGCGAAGCGGAAGGCTGCAGCCAGATGGGCTGCGCGTTCTCGGAGGGCTACTATGACCGGATTAATGACGCCATACTGGATTTGCTCTCGAATGAAACGTTGATCACGAGGCCGGTCGTCGAAGCGTATGCCCGCAAGCATACGGTGTGCCCGTTTGAATTCTCGCTGGATGCCGCGTACGCCGCCGATGCCGTCATCTGCGATTACAACTACGTATTCGACCCGCGCGTCTCCTTCAAGCGGATGCCGGAGGACGTGAAGAAGCGCAGCGTGCTGCTCATTGACGAGGCGCACAACCTGGTCGACCGGGCAAGGGGGATGTTCTCGGCCGAGCTGAATAAGTCCGCGTTCTTGGAGCTGCAAAGGGCGTACAAAGAGAGCAATCCCGGGCTTTACAACACGGCGAAGCGGGTGAATAACCGCTTTAAGGTGCTGCGCAAGGTCAGCGAGGAGGAAGAGCGAATCGTCGGGTCTCAGCAGCCGGAGATGATGGTCGAGCTGCTGGAGGATTTCTCGCTCCAGGCAGAGGCCGAACTGATGACCGGCAAGAGCGGGGATGAGGCCGATGCGCTTTTGGAATGCTATTTTGCCGTGCAGGGGTATCTGCGCATCTCCAAGCTGTATGACGACCGCTTTGTCACGTATGCGGAGATGAGCGGAAGCGAGGTGTTTCTCAAGCTGTTCTGCCTGGACCCCTCTTATTTGCTTCAGCAAGCGGGAAAAAACTACCGTTCCAGCGTATTCTTCTCGGCAACACTCATGCCGCTTGGATATTACCGCGACATGCTCGGAGCCGAGGAAGAGGATTACAGCCTCTCGATTCCCTCGCCCTTCTCCTCTGAGCAATTGGATGTTCGGATCTTGCCGTTATCGACGAGATTCAAGGATCGGGAGCGCAATAGCGAAGCCATCGTCCGGATGCTGAGTGCACTGGTTCAGGAAAAACCGGTGAATACCTTGATCTTTCTGCCGTCCTATCCCTACATGCAGGATATTCATGAGGCGTTTGCCAGAATGAACCCGGAAGCCCGTACCTTGCTCCAAGGGCATGGAATGAGCGAGGAGGAGCGGGAGGCGTTCCTGAATGCATTCCAGGCGGATGCGGAAGATCCGCTGATCGGATTTGCCGTGATGGGCGGTATTTTCTCCGAAGGCATCGATTTGAAGGGAGAACGGCTTTCGAGCGTGGTGGTCATCGGTGTAGGATTGCCGCAGCTTTCCTTCGAGAATGATATCATCAAGGATTATTTTGAACGTACCGGCAAGAGGGGATACGATTATGCCTACGTGTACCCCGGCATGAACAAAGTGCTGCAGGCCGGAGGACGCTTGATCCGATCGGAGCAGGACAGCGGGACGCTGACGCTCGTTGATGACCGCTTCCTGAATCGACAGTACGGGATGCTGCTGCCGGAGGAGTGGAGGCATTACAGGCGCATCTAA	MPHTIQISVRPLVEYVFRSGSITSGFRTATSLTEGTRAHQQVQRDYGENDQKEVQLEAEIPYEDLLFVVEGRCDGLIQEEGRIMIDEIKSTSGDLGEITEHTYPVHWAQAKMYAYMYARLHEIPTMAVRLTYFQVPSGERKQFVQEWSFAQLESFVLEVVAAYAPYANLLREHGERRDRSIRELKFPFPAYREGQRKLAGAVYKSIGEGRRLFAKAPTGIGKTISTLFPSVKAIGEGLLSRIFYLTAKTITRTTAEEAMARMERQGLCMHTVTLTAKDKICFSEAEGCSQMGCAFSEGYYDRINDAILDLLSNETLITRPVVEAYARKHTVCPFEFSLDAAYAADAVICDYNYVFDPRVSFKRMPEDVKKRSVLLIDEAHNLVDRARGMFSAELNKSAFLELQRAYKESNPGLYNTAKRVNNRFKVLRKVSEEEERIVGSQQPEMMVELLEDFSLQAEAELMTGKSGDEADALLECYFAVQGYLRISKLYDDRFVTYAEMSGSEVFLKLFCLDPSYLLQQAGKNYRSSVFFSATLMPLGYYRDMLGAEEEDYSLSIPSPFSSEQLDVRILPLSTRFKDRERNSEAIVRMLSALVQEKPVNTLIFLPSYPYMQDIHEAFARMNPEARTLLQGHGMSEEEREAFLNAFQADAEDPLIGFAVMGGIFSEGIDLKGERLSSVVVIGVGLPQLSFENDIIKDYFERTGKRGYDYAYVYPGMNKVLQAGGRLIRSEQDSGTLTLVDDRFLNRQYGMLLPEEWRHYRRI	PGPT0026940_4	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026940-cas4-K07464	NA	NA
AK002_05986	795	pdaA	COG0726	Peptidoglycan-N-acetylmuramic acid deacetylase PdaA	ATGAAGAAACGTGGTATCCTTCGGCCGGCCCTTATGCTTCTTGTGAGCTTGGCGGTAATGCTGTCCATCACCGGAGCGGCTTTGGCGGGCGGAAGCGGTCCGTTTCACTTTGGATTTAAGAAAAGCGTCAACGGCCAGCTGCCCTCGATCAACGAGGAGGGCTTCAAGGAGCTTCTGCAAAAATACGATGCTATCTTCATGGGAGATGCCGAGCAGAAGGAGCTTTATCTTACCTTTGATAACGGATACGAGAATGGGTATACCTCCCGTATTCTGGATACGCTTAAAGAGAAAAAGGTGCCCGCCACCTTTTTCGTGACCGGACATTATGTGAAGACACAGGAAGATCTGCTGAAACGGATGACGGCGGAAGGCCATATTATCGGCAACCATTCCTGGAATCATCCGGACGTGACCACGATCTCGGCAGAGAAGCTGACCGAGGAGCTGGAACGGGTGAAGAAGGAGGTTATGCGCATCACCGGCCAGCCGGACATGAAATATTTGCGCACGCCGCGCGGCATCTTCGATGAGCGGTCCCTGGCGACCAGCAAGCAGCTGGGGTACACCAATGTCTTCTGGTCGCTCGCGTATATGGATTGGGACGTAAAGTCCCAGCGCGGCGCGCAGTATGCTTACGATAAAGTGACCGCGCAGCTTCACCCCGGCGCCGTCATCCTGCTGCACTCCATCTCCAAGGACAACACGGAGGCGCTGGGACGGATCATTGACGAAGCAAGGAACCGGGGGTACGAGTTCAAGAGTTTGGATCAGATGCAGAAGAAAGCCCCGTAA	MKKRGILRPALMLLVSLAVMLSITGAALAGGSGPFHFGFKKSVNGQLPSINEEGFKELLQKYDAIFMGDAEQKELYLTFDNGYENGYTSRILDTLKEKKVPATFFVTGHYVKTQEDLLKRMTAEGHIIGNHSWNHPDVTTISAEKLTEELERVKKEVMRITGQPDMKYLRTPRGIFDERSLATSKQLGYTNVFWSLAYMDWDVKSQRGAQYAYDKVTAQLHPGAVILLHSISKDNTEALGRIIDEARNRGYEFKSLDQMQKKAP				NA	NA	NA	NA	NA
AK002_05987	1044	iolW_2	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolW	ATGGCAATACAAGCGGGGATCATCGGCTACGGCCTGTCCGGGTCGGTGTTTCATGCACCTATTCTTAGAAGCGTGCCGGATTACAGGGTGCACACGGTTGTATCATCGGATCCGGACAAGGTCCACCAGGATATGCCCGATACGGCCGTTGTCGACAGCGTGGATGAGCTCTTGTCCATTCCGGATATCGATGTTGTCATCATTACGAGTCCGAATGCAACGCATTATGAATATACCCGGTTAGCCATCGAGGCCGGAAAGCATGTGGTCGTCGAGAAGCCGTTTACCGTAACATCCGCCGAAGCGGACGAGCTGATTGATCTGGCCAAGCAGAAGGGCGTGCTGCTGACGGTGTACCACAACCGCCGCTGGGACAATGATTTTCTGACCGTCCGCAATCTGCTGGAGACGGGAGCCTTAGGCAAGCTTTCCATCTATCAGTCGCAGTTCTGCCGCTACCGTCCGGAAGTTCAGTCGGAGCGGTGGAGGGAGCAAGGGATTGCCGGATCCGGGATCTTGTATGACTTAGGTTCGCATTTGATCGATCAGGCGCTGTTCCTGTTCGGCCTGCCGGAGACGCTCTGGGCGGACTTGAGAACGGAGCGCAAAGGGGCCAAAGCCCATGATTATTTTCATCTGGTGCTGGGTTATAAGACGTTTCGCGTCATTCTGCATTCCGGTTCGCTGGTACGGCAGGCGGGGCCGAAATTCGAGCTGCATGGCGATAAGGGAAGCTTCCTGAAATATGGAACGGATCCGCAGGAAGGCCAGCTGAAGCAGGGCATGCATCCCGGGGACGCGGGCTGGGGCGAAGACCAGCCGGACCAATACGGGGAGCTGGCTACCGAGCTGAGCGGGCTGGCGGTGCAAGGGGAGATTGAGACGCTGCCGGGACGCTATCAAGCTTTTTACCAGGGATTGGCCGAAGCGATCCTTAAAGGAGGTTCGCTGCCTGTCCAGCCTGAAGAAGCCCGCAATGTCATTCGGATGATCGAATATGCGCTGCAGAGCCATCAGAAGGGCCGGTTGATCAAGATCACGTAA	MAIQAGIIGYGLSGSVFHAPILRSVPDYRVHTVVSSDPDKVHQDMPDTAVVDSVDELLSIPDIDVVIITSPNATHYEYTRLAIEAGKHVVVEKPFTVTSAEADELIDLAKQKGVLLTVYHNRRWDNDFLTVRNLLETGALGKLSIYQSQFCRYRPEVQSERWREQGIAGSGILYDLGSHLIDQALFLFGLPETLWADLRTERKGAKAHDYFHLVLGYKTFRVILHSGSLVRQAGPKFELHGDKGSFLKYGTDPQEGQLKQGMHPGDAGWGEDQPDQYGELATELSGLAVQGEIETLPGRYQAFYQGLAEAILKGGSLPVQPEEARNVIRMIEYALQSHQKGRLIKIT	PGPT0018530_458	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
AK002_05988	1623	katA_3	COG0753	Catalase	ATGAGTGGCCAAGATCATGATGCTAATAACGGAGTAAACCAAGAACGGGCGGGATACGCCGAGAATCGGGGCGAGACGGAGCGGGAGGATACGCTGACTAACCGGCAGGGCCATCCGATTTCGGATAATCAGAATGTGCGAACGGTTGGGAATCGGGGTCCGATGACCCTGGAGAACTATCATTTTTTGGAGAAAATCACGCATTTTGACCGCGAACGCATTCCGGAACGCGTCGTGCATGCCAGAGGTGCGGGAGCGCACGGATATTTCGAAGCCTATGGAAAAGTAGGCGACGAGCCGGTTTCGAAGTATACCCGGGCCAAGCTGTTCCAGGTCGAAGGCAAGCGCACGCCGGTATTTGTCAGGTTCTCAACCGTAATCCACGGTTCCGGCTCGCCTGAAACGCTTCGGGATCCGCGCGGGTTCGCCGTGAAATTCTACACCGAGGAAGGCAACTGGGATCTGGTCGGCAACAACCTGAAAATATTCTTTATCCGCGATCCGCTTAAATTTCCGGATATGGTCCATGCGTTCAAGCCGGATCCGGTATCCAACGTTCCGGGTCCCGTAGGCATGTTCGATTTTGTCTCCCGTTCCCCGGAAGCGACGCATATGATCACGTTTGTGTATTCCCCTTGGGGCATCCCCGCCAACTACCGCCAAATGCAGGGCTCCGGTGTGAATACATATAAATGGGTCAATGCAGAAGGCACCGGCGTGCTCGTCAAATATCATTGGGAGCCGCTGAAGCAGGGGATCAAGAATCTTACGCAAGAAGAAGCGAACAAGATTCAGGGCATGAATGACAGCCATGCGACGCAGGATCTGTACGAAGCCATTGAACGCGGGGATTACCCGGAGTGGGAGCTGTGCGTGCAGATTATGAGCGACGACGAGCATCCCGAGCTGGAATTCGATCCGCTGGATCCGACGAAGCTGTGGCCGGAGGATCAATTCCCGTTCCTGAAGGTAGGCAAAATGGTGCTGAACAAAAATCCGGAGAACTACTACAACGAAGTGGAGCAGGCGGCCTTCGGCACGGGCGTGCTGGTTGACGGGCTTGATTTCTCGGACGACAAGCTGCTGCAGGGGCGTACCTTCTCCTACTCGGATACCCAGCGGCACCGCGTAGGAACGAACTACCTGCAGCTGCCGATCAATGCGCCGAAGAAACGGGTCGCTACCAATCAGCGGGGCGGGCAGATGTCCTTTTTCGTGGATAAGGCGCCTGGTCAAAGCCCGCATGTGGATTACGAGCCGTCCATGACGGATGGGCTGGTGGAAGCATCGCAGACGGCGAAGCCGCATCAGCCGCATTACGATGCCAACCTCGTGCGGCAGAAGCTGGATCGCACGCTGGATTTCAAGCAGGCCGGGGATACGTACCGAGCGTTTGAGGATTGGGAGCGAAACGACCTGATCAACAACCTCGTGGGTGCGCTGATCCAATGCGATATCCGGATTCAAGACAAGATGGTGGAATATTTCACGAATGCGGACGAGGACTATGGGCGCCGCGTACGGGAAGGACTCGAGCAGGCAAGGAAGGGCTCGAACGAGACCGTCCGGGAGCAGGCCGTAGAGGATGCAGACCGTATGGGCCACGAGGCAGACCCTTATTAA	MSGQDHDANNGVNQERAGYAENRGETEREDTLTNRQGHPISDNQNVRTVGNRGPMTLENYHFLEKITHFDRERIPERVVHARGAGAHGYFEAYGKVGDEPVSKYTRAKLFQVEGKRTPVFVRFSTVIHGSGSPETLRDPRGFAVKFYTEEGNWDLVGNNLKIFFIRDPLKFPDMVHAFKPDPVSNVPGPVGMFDFVSRSPEATHMITFVYSPWGIPANYRQMQGSGVNTYKWVNAEGTGVLVKYHWEPLKQGIKNLTQEEANKIQGMNDSHATQDLYEAIERGDYPEWELCVQIMSDDEHPELEFDPLDPTKLWPEDQFPFLKVGKMVLNKNPENYYNEVEQAAFGTGVLVDGLDFSDDKLLQGRTFSYSDTQRHRVGTNYLQLPINAPKKRVATNQRGGQMSFFVDKAPGQSPHVDYEPSMTDGLVEASQTAKPHQPHYDANLVRQKLDRTLDFKQAGDTYRAFEDWERNDLINNLVGALIQCDIRIQDKMVEYFTNADEDYGRRVREGLEQARKGSNETVREQAVEDADRMGHEADPY	PGPT0014380_1985	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK002_05989	891	gltC_8		HTH-type transcriptional regulator GltC	ATGGACATACGGCACCTGGAGTATTTTCTTGAGGTCGCGAGGAACCAGAGCTTCACCAAGGCCGCAGAGAAGCTGTACATTACGCAGCCGACGATCAGCAAAACGATCCGCAACATGGAGGACGAGTGGGGCGTTACCTTGTTCTATCGTCAGGGCAAACGGATTGAGCTGACCGACGCCGGCCAAATCATGTATCAGCAAGCCCAGCAGATGGTCGAATCCTTCCAGCGGGTATCGGCCGAACTGGAAGATCTCATGAACCTGAAGCGCGGCCATCTGCGCATCGGGCTTCCGCCCATGGTGGGCTCAAGCTTTTTTCCGGAAGTAATCGGGCAGTTCCACCGGGAATATCCGAAGATTACCATTCAGCTGATCGAGGACGGCGCCAAGAAGGTGGAGGCGGACGTGGAGAGCGGCCAGACCGACATCGGCGTCGCCGTGCTGCCTGTCAATGAAGACGTATTCCATTATTATTCCTTCGTGAAAGAGAAGCTGAATCTGCTTCTGCATCCGTCCCATCGGTTGGCGGGAAGGGAGCATGTACATCTGAGTGAGCTTGCTGACGAGGCGTTTGTGTTGTTCCGCGAGGACTTTACGCTCCATGACCGGATTATCCGCGAGTGCGTCAGCGCCGGCTTCGAGCCGCGGGTGGTCTACGAAAGCTCGCAGTGGGATCTCATCAGCGGCATGGTTGCCGCCAATCTGGGGATCGCGCTGCTTCCCGAAACGATATGCAAAGAGATCGATTCTTCGCGCGTGACGATACTGCCGCTGGACAATCCATCGATCCCGTGGCAGCTCGGGATGATCTGGAGGAAGGACCGCTACCTGTCCTTTGCCGTCAGGGAATGGATCAGCTTTACGCGCTCCCTTCTGGGCGAGCATGAGTAA	MDIRHLEYFLEVARNQSFTKAAEKLYITQPTISKTIRNMEDEWGVTLFYRQGKRIELTDAGQIMYQQAQQMVESFQRVSAELEDLMNLKRGHLRIGLPPMVGSSFFPEVIGQFHREYPKITIQLIEDGAKKVEADVESGQTDIGVAVLPVNEDVFHYYSFVKEKLNLLLHPSHRLAGREHVHLSELADEAFVLFREDFTLHDRIIRECVSAGFEPRVVYESSQWDLISGMVAANLGIALLPETICKEIDSSRVTILPLDNPSIPWQLGMIWRKDRYLSFAVREWISFTRSLLGEHE				NA	NA	NA	NA	NA
AK002_05990	372	cidA	COG1380	Holin-like protein CidA	ATGGTCAACATGTTGAAAGGAACGCTTCAAGTGGCCGGTTTCATGCTTCTTTCCTTAGGGATGGATCAACTGGCCGCCTGGCTGAATATCGGAATTCCGGGCAGCATTCTCGGAATCGTTGTTGTGTTTATCCTTCTCGAAACCAAGATCCTCCGTCTGGAGTGGATCGAGCTCGGCGCCAATTGGCTTCTCGCCGAACTGCTGCTGTTCTTTATCCCCGCCGCGGTCGGGATCATGAAATATTTCCCGATGCTGGAGGCCGAAGGGCTCCAGATTCTGGCCGTTGTTTTGTTCAGCACCGTCATCGTGATGGTGAGCTCTGGGCTGACGGCCGGCTTCATCTCATCCAGAAAGGGGCGTAAAACGCCATGA	MVNMLKGTLQVAGFMLLSLGMDQLAAWLNIGIPGSILGIVVVFILLETKILRLEWIELGANWLLAELLLFFIPAAVGIMKYFPMLEAEGLQILAVVLFSTVIVMVSSGLTAGFISSRKGRKTP				NA	NA	NA	NA	NA
AK002_05991	690	cidB	COG1346	Holin-like protein CidB	ATGAATATCCTGCTGACCGTCATCCTCGGCCTGCTGTTAACGATCGGGATTTACGGGGGAGCCAAAAGGCTGTATCGCCGCCTGCCGAAGGTTTATTTATCGCCACTCCTGATCACGCCGGTGCTGATTGTTGTGATATTGACACAAACGGGCGTATCCTATGAATCATACAATGAAGGTGCGCAGTGGATCAGCAAGCTGCTCGGACCAGCCACGATCGCTTTTGCCGTGCCGCTGTACAAGAACTTCCAAACCTTGAAGAAACACGCGGCCGAGATTATGCTCAGCGTGCTGACGGGATCGGTGCTGGCGATGTTATCCTCCGCGTTTCTCGCAAAGTGGATGCACCTGAACAGCTCTCTGGCTACCAGCCTGGTGCCGCGCTCCATTACGACGCCTATCGCCATGAACGTATCCGAGGTGATCGGGGGCGTGCCGAACATGACCGCCGTCTTCGTCATTATGACCGGGATTCTCGGGTCCATGATCGGACCTGCCGTCATGCGGATCTTCCGGATCCGGGGCGATATCGCGAGAGGGGTTCTGTTTGGGACCAGCGCCCACGGAACCGGCACGTCCAAAGCATTCGAATTCAGTTCCCTCTCGGGAACCATATCCAGCATTTCGATGATCGTCGCCGCGCTCTTCACCCTCGGAACCGCACCGCTGATCATGTCCTTTCTTTATTAA	MNILLTVILGLLLTIGIYGGAKRLYRRLPKVYLSPLLITPVLIVVILTQTGVSYESYNEGAQWISKLLGPATIAFAVPLYKNFQTLKKHAAEIMLSVLTGSVLAMLSSAFLAKWMHLNSSLATSLVPRSITTPIAMNVSEVIGGVPNMTAVFVIMTGILGSMIGPAVMRIFRIRGDIARGVLFGTSAHGTGTSKAFEFSSLSGTISSISMIVAALFTLGTAPLIMSFLY				NA	NA	NA	NA	NA
AK002_05992	1860	ltaS2	COG1368	Lipoteichoic acid synthase 2	GTGTTCTCCACCTCGCGGTTTCGGTTAACGATTACGAAGCCATTTATATTTTTCTCTGTTATTATGCTGCTCAAAAGCTACCTGGCCTGGACGGTCATTTTTGATGATGTCATGCCATGGAAACCGCTGATTACGGAAATTCCTTTTATCTGGCTTGTGTTCAGCTTGATCGAATGGTTTGCTTCCAAGCGAAAGCTGACGGCCTATATGAGCGTTAACCTGCTGCTGACCGCCATCTTCTTTGCAGCCATTATGTATTATAAATATTACGGTGTCATCGTTACCTATCACGCGTTAGAGCAGGTGAACCAGGTAACGGCGGTAAGCAACAGCGTATTCTCCTTGATGGACCCTTACTATCTGCTGATCTTCACGGATATCATCGTGATGTTTGTTCTGTTGTGGCGCAGCAACCGCGTTAAAAATTGGAAGATTCGGCATGCGAAAAAGGAAAAACGCAAAATCATCCCGATTGTTTTTGTTGTCTCTTTAATGCTGTGCCTGTTCCAGATCATGCCGAACCGCGCAAGCATGAACGAAATCGTGAAGGCGCAGGAAATGGGGATTCTGAACTACGAGGCCTATACGATTTTCCAACAGGAGAATAAAGAGCTCGTGGATGCCAAAACCATTACCCAGGATAAAGTCAACGCATTGAAAGGCCTGGAAGCCTCGGATAAGGAGGCTCTCCTTACAGGTGTCGCCAAAGGGAAGAATCTGATCATCATCCAGATGGAGTCGTTCCAGAAGTTCTTGGTCGACCTCAAGATTGACGGCAAGGAAATTACGCCTAACATCAACAAGCTGGCCCGCGAGAGCAATTACTTTCCGAACTTCTACCAGAACGTCGGTCAAGGCAATACCTCGGATGCCGAGTTTGTTGTGAATACTTCCTTCTACATCCCGCCGCGGGGTGCGGCTACGCAGCATTATGCGGACAGGGTTCTGCCAAGCCTGCCGAGACTGCTGCAAGGGGAAGGATATGATACGGCAACCTTCCACACCAACGTCGTGGAGTTCTGGAACCGCGGAGAGCTGTACAAGGCGCTCGGTTTCAACCGTTATTACGATAAAGCGTTCTTCGGCGAAGACGATAAGCTGTTCTTCGGCGCCTCGGATGACGCCCTGTACTCCAAAACGGCTGCCGAGCTGAAGAAAATGAACGATGCCGGTAAACCTTTCTATACCCAGGTCATTTCCATGTCGGCTCACCATCCGTTCACGATTCCTGAGGATAAATATCGGATGACCCTGCCGGAGCGGTATGAAGGCACCTTCGTCGGCGACTACATCCGTGCCCAGAATTATGCCGATGACGCACTCGGCAAATTCATCGAGCAGCTGAAGAAAGACGGCGTATGGGATAACAGCTTGATCGTTCTTTACGGCGATCATCTTGGACTGCCGATTTACTCCCTGGACCACAAGGATAAAGAGCTGATGCACGAAATTTACGGCCGCGAATATACCTCCGGAGATATGATCAACATTCCGCTTATCATCCATGGCGAGGGAATTCAGCCTGAAATGAAGGAGCAGGTCGGCGGACAAATCGACCTCTTGCCGACGGTGTCCAACCTGCTTGGCGTATCGATCGACAATCAGCTTCATTTCGGCCAGGATCTGCTGAACCACACCGATAATAATTTGCTGCCGGAGCGGTATTATCTGCCTTCGGGTACGTTCATCAACAATACGACCCTGTACATTCCAGGCATCGGCTTTGAGGACGGAACCAAGCATCCGCTTCCGAATTCGGACGTGAAGAAGACTCAGGCTACCAAGGAAGAATTCGAACGCGCGCTCCAGCTGCTTCATCTGTCCGATAGTTATATCAGACAGCTGCCATACCATAAATAG	MFSTSRFRLTITKPFIFFSVIMLLKSYLAWTVIFDDVMPWKPLITEIPFIWLVFSLIEWFASKRKLTAYMSVNLLLTAIFFAAIMYYKYYGVIVTYHALEQVNQVTAVSNSVFSLMDPYYLLIFTDIIVMFVLLWRSNRVKNWKIRHAKKEKRKIIPIVFVVSLMLCLFQIMPNRASMNEIVKAQEMGILNYEAYTIFQQENKELVDAKTITQDKVNALKGLEASDKEALLTGVAKGKNLIIIQMESFQKFLVDLKIDGKEITPNINKLARESNYFPNFYQNVGQGNTSDAEFVVNTSFYIPPRGAATQHYADRVLPSLPRLLQGEGYDTATFHTNVVEFWNRGELYKALGFNRYYDKAFFGEDDKLFFGASDDALYSKTAAELKKMNDAGKPFYTQVISMSAHHPFTIPEDKYRMTLPERYEGTFVGDYIRAQNYADDALGKFIEQLKKDGVWDNSLIVLYGDHLGLPIYSLDHKDKELMHEIYGREYTSGDMINIPLIIHGEGIQPEMKEQVGGQIDLLPTVSNLLGVSIDNQLHFGQDLLNHTDNNLLPERYYLPSGTFINNTTLYIPGIGFEDGTKHPLPNSDVKKTQATKEEFERALQLLHLSDSYIRQLPYHK	PGPT0023375_1216	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
AK002_05993	333			hypothetical protein	TTGGACCCCATACGAAGGATAAACAGATGGATATGTTTAGCACTAGGCTTTCTGCTGATTGCTTCCGTTGCGCATGTTCCCCTGGTGGATATCACCGATTCCGCCGCGGCCACGCAGGGCATGGAAGCGTCTGAAGGCACTCTGCCCGCGCCGACGCCGGTACCCAAAAGTCCGGAACCCGTTCGGTTGATGCTGGAGTCGAAACGCCATGTGTCTCTGCTTTCCTTGCATAACGTTACATGCAACACGGATACCGATATGTTTCTCCTCCTCAAGCACATGCTGCTAGAACCTTTGAAGTTTCGATCGAATTATGTTGACAGCCATGCATAG	MDPIRRINRWICLALGFLLIASVAHVPLVDITDSAAATQGMEASEGTLPAPTPVPKSPEPVRLMLESKRHVSLLSLHNVTCNTDTDMFLLLKHMLLEPLKFRSNYVDSHA				NA	NA	NA	NA	NA
AK002_05994	1353			hypothetical protein	TTGGACGACAATATAGGCTTGAATTTATTCCTAGTCGCTGTACTTATCGCAGCTACCGCTTTTTTCGTTATGACGGAATTTGCTATCATAAGACTTCGTCCCAGCCGGGTAGACCAATTGGTGATGGAAGGGCGCAAAGGCGCTCTAGCCGTTAAAAAGGTAACTTCGAATCTCGACGGATATCTGTCCGCGTGTCAGCTTGGGATTACCATCACGGCGCTCGGTCTCGGTTGGCTCGGGGAACCGACCATCGAGAAGATCCTGCACCCGGTGTTTGACAGCCTTAGCATTCCTGCGGCTATCGCATCGCTGATTTCATTCCTGCTTGCATTTATTATCATGACTTACATTCACGTCGTTATCGGTGAACTTGCACCGAAAACGATTGCTATCAATAAAGCTGAAGCCGTGTCGTTCCTCTGCGCGACGCCGATCATATGGTTCAACCGGATTATGTACCCGTTCATCTGGCTCTTGAACGGATCGGCCAACAAGATCGTTCGCCTGTTCGGCATGCATCCGGCAAGTGAACATGAAGAGGCTCACTCGGAAGAAGAGCTCCGCATGATTCTCAGCGACAGCTATGAGAGCGGAAAGATCAACCAAGCCGAATACGGTTATGTAAGCCGAATTTTTGCTTTTGACGATATGCTTGCCAAAGAGATTATGGTACCTCGTACCGACATGATCTGTCTGTATGTTGACAAGCCGCTTGCCGCCAACCTGCAGATTATCAAGCGCGAGCAGTACACCCGGTTCCCGGTTGTCCGCGGAGACAAGGATCAGATCGTCGGCATGGTGAACACCAAACAGTTCTTCCTGGAGTTCGATGACAATTCCAATATCGACTTGACCAAGCTGATTCATCCGGCCATGACGGTATCCGAAGCGATCCCGATCAAGAAGCTGCTTCGAAAAATGCAGCAGGAAGGCACGCATATGGCCATCCTGATCGACGAATACGGCGGTACGTCCGGCATGATCACCATCGAGGATATTTTGGAGGAGATCGTCGGCGAAATCCGCGACGAATTCGACGAGGATGAAGAACGCGAGCTGACCCAGCCTGAGCCGAACCGCATCATCGCAGACGGCAAGGTATCCATTAACCGGATCAACGACCTGCTTCATACGGACCTGAGCACCGATGACCTGGATACGATCGGCGGCTGGCTGTACGGTCATAACTCCGAACTCGCCAAAGGCGATACGTGGAGTTACAATGACCTGACGTTCACCGTCATCGAGAAGAAGACCCACCGCTATACGAAGCTGCAAATCGTCAAAGAAACGCCTGAAGAAGCGGCGGAGGAAGCCTCTGCCGTTGCGGCAGCCAGCGAAAGCAACGAATAA	MDDNIGLNLFLVAVLIAATAFFVMTEFAIIRLRPSRVDQLVMEGRKGALAVKKVTSNLDGYLSACQLGITITALGLGWLGEPTIEKILHPVFDSLSIPAAIASLISFLLAFIIMTYIHVVIGELAPKTIAINKAEAVSFLCATPIIWFNRIMYPFIWLLNGSANKIVRLFGMHPASEHEEAHSEEELRMILSDSYESGKINQAEYGYVSRIFAFDDMLAKEIMVPRTDMICLYVDKPLAANLQIIKREQYTRFPVVRGDKDQIVGMVNTKQFFLEFDDNSNIDLTKLIHPAMTVSEAIPIKKLLRKMQQEGTHMAILIDEYGGTSGMITIEDILEEIVGEIRDEFDEDEERELTQPEPNRIIADGKVSINRINDLLHTDLSTDDLDTIGGWLYGHNSELAKGDTWSYNDLTFTVIEKKTHRYTKLQIVKETPEEAAEEASAVAAASESNE	PGPT0014011_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014011-mpfA|yhdP-NA	NA	NA
AK002_05995	1590			hypothetical protein	ATGAATCGTCAAATCGCCATCATCGGAAGCAGCGGCGGCAATCTGTACAATCTCGGCGGCAAAGACCCGCGCAAACTGCTGGAAGAGATATTGATGCAGCTCGATAGCGCCGGCCTGTCCTGCGGGGCCCTGCAGTTTATCGCTGCCCAGGTCTCCATGGACGCAGCCAAGGATACGACGCCTGCGGCTCTTTACAGCTGGAGCTCTTCCCAAGGAGAGCCCGTCATTGTCGCTGAAGGCACCCTTCAACAGGTCAATCAGGCGGCCGAGCGGCTGGACCGGGAGATTGCCGAGCAGATTGAACTCGGCGAAATTGACGGCATCATCGTCATGAGCGCCGACCCGGAGGGCAGCAATCGGCATGCCATTGAGGCGGCTGCCAAATTCCGCCTGCCGGTGACCGGTACGGGCGGAACCTCCATGGCCATCATCCAAACCAAAGGCGCGCATGTCATTGCGGCTTCGGGCACAACCGGAACCACCAACAGAACGCGCGCGGTCACCTTTGTCACTTCCCTCAGCAAGCATTGGCGGCTTACGTACCGGCCGGTCATCGGGAATGCGTCCGCAAATATCCATGCGGCGTCCGGCAGCTCATCTCCATGGCGAAGAATCAATATTCGGGGCATCATGATGGCGTCCCTCCCCGGTTTCATCGGCATGGCCCTGATCCTGGCGGTCAGCAAAATCCCGGGGTTATCTTCGTTGACCGAAGTGTTTGACCTGCTGATTAAAGCGCTGCCGGTCATCGTTGCGGTCATTGCGGCCAAACAGGTCTCCGAGTTGGACGAGGTGTCCATCGTGGCGGGCATCGTGGCAGGCGTTCTGTCCGTCGAAGGAGGCATTATCGGCGGCATCATCGGCGGGATCGGCGCAGGCATTATCGTCCATTACATATTCCGTCAATGCGTGGAGTGGCGTTTCCCCGCTACGACGGTCAACATTGTTGCCGGCGGCGTGTCGGGACTGATTGCCGGTTTGCTGGTCTACTTCCTCATTGCGCCGATTGCGCTGAGCGCAGGGCAAGGCATCCGCTTCCTGATCGAGACCCTTGTCTCCTGGAGCCCCGCCATGGCCGGATTGATTGCCGGCCTGCTGATCTGGCCCGCCATCATCGGCGGCGTCTATCATGCGGCCATCCTGCCGATTGTGCTGCTGGAGATGGAGACAACCAGCAACAGCTTCCTCGGCGCGGTCGATATGGTCGGCTTGGTGATGGTATCCGCAGGCATCACGCTAGCCAATATTATCGCTCCGCGGGATAAGGGAGAAGCCGCCGTCGCAGCCCCCGGATTCGCCATCAACATGGGATTTGGCACCTTCGTTGAAGCCGCCTATCCGTTCATGTTTTCGAACAAGCTTGTATTTGCCGGAGCGATTGCCTCGGCTGGACTTGGCGGCATGCTCGTCGGTTTGTTCGGGGTCCGGGGGACGGCCTATGTGCCCTCCTTCATCGGGCCCATTACATCGAATAACACAATGGGTTTCCTGATCTCGATGGCAGCCAGCCTGCTCTGTTCGTTCCTGATCACCTTCTTCGTTAACAAGCTGTCGGGCTACCGGGATGCCCGGAATACCGTGAGCATGTAA	MNRQIAIIGSSGGNLYNLGGKDPRKLLEEILMQLDSAGLSCGALQFIAAQVSMDAAKDTTPAALYSWSSSQGEPVIVAEGTLQQVNQAAERLDREIAEQIELGEIDGIIVMSADPEGSNRHAIEAAAKFRLPVTGTGGTSMAIIQTKGAHVIAASGTTGTTNRTRAVTFVTSLSKHWRLTYRPVIGNASANIHAASGSSSPWRRINIRGIMMASLPGFIGMALILAVSKIPGLSSLTEVFDLLIKALPVIVAVIAAKQVSELDEVSIVAGIVAGVLSVEGGIIGGIIGGIGAGIIVHYIFRQCVEWRFPATTVNIVAGGVSGLIAGLLVYFLIAPIALSAGQGIRFLIETLVSWSPAMAGLIAGLLIWPAIIGGVYHAAILPIVLLEMETTSNSFLGAVDMVGLVMVSAGITLANIIAPRDKGEAAVAAPGFAINMGFGTFVEAAYPFMFSNKLVFAGAIASAGLGGMLVGLFGVRGTAYVPSFIGPITSNNTMGFLISMAASLLCSFLITFFVNKLSGYRDARNTVSM				NA	NA	NA	NA	NA
AK002_05996	558			hypothetical protein	ATGACGATCGAGAAATTCAGAAGGATATCGCTCTTCGCGCTGACCAGCGTGCTGTTAGCCGCTTCCCTCATCTGGCAGGGCGAGCAAGCAGCCGCTAACAAAGCGGAAGGCTATTACGTAAACGTCGGCGGCACCCATATCAAGGACGTCCATGTTCGCAAAGGCAAGGCGTACGTTCCGCTCAAATCCTTAGCCGATGCAATGGGATACGAAATCTCTTATACGCTGCAGGAGGAGCTGGACAACTTCCATCAATATGACCTGAAAGCGGCAAGCGGTCCCCCGATATCGGTATGGGGAAACGACAGCTGGGGATATACGATCGTACGGCGGGCTACGCAAGAGATGAGCGTGAACGATATCGACATTTATAAACCGGCGAGGCTGTGTGCCGAAGAATCGGACCACTGCAAGCTGGACAAGAGCAAGTACGACGGTCCCCTGTTCATAAAGAACACCCTCTACGTCCCTGTCCGCGACATGGCCAAGGCCTTGAATCTAAAGCTGACCGTGACGAAGACGCCGAAAGGACGCAGTATCCAGCTGTCCCTGCATTAA	MTIEKFRRISLFALTSVLLAASLIWQGEQAAANKAEGYYVNVGGTHIKDVHVRKGKAYVPLKSLADAMGYEISYTLQEELDNFHQYDLKAASGPPISVWGNDSWGYTIVRRATQEMSVNDIDIYKPARLCAEESDHCKLDKSKYDGPLFIKNTLYVPVRDMAKALNLKLTVTKTPKGRSIQLSLH				NA	NA	NA	NA	NA
AK002_05997	1041			hypothetical protein	TTGAAGAAACATCAATGGATGGCTACGCTGCTCTCTCTGATATGCACCGGGCTCGGGATGTTTTATATCGGGACGCCGGGCATGATCATAGGCGGCATGCTGCTCATGGCGCTGCAGGGAGCGGCTTTGTTTATTTTTTTCATGACACTGGGATATTTGGGCTTGATTATCGGTCCGCTTGCTATTGGGCTTCATATTATAGGTTTGATCATACCGGTCATCTACTTCAGCTACCGATCGCCAAGGAAACCGATGTTCGACGAGAAGCGGCGGCGTCAGCTCGCCTCCCCTTGGAAAATCGTCGTGCGGACGATCATCGGACTTGCCTTGTTCGCAGGGTCGATTTACGCCGGGTACACCTGGGGATCCGCCCCGTTCATGAAGACGGCTGCGGAGAAACGCGAGGTTCAGGAAGCGGCGGAGTCCTATCTGGAACAGAAGTACAACGAACCCTTTAAGGTCACGGACGTGGATTATACCTGGGCCATAGGCTCGTATAATCTCACGGCCCATCCGGAGCAGGCGCCAGAGCTTGAATTTACGCTGAGCAGCAATGAAGCCAGCCCTCCCGTCATATCGAATGATACCTATCTGAACCAGCTCTGGGGACAGCAGCTGAGGGACCGGCTGAAACCTCTGCTGGATGAGCTTTATCCGGACCAGGCGTTTGGGGAGGCGTATGTCTTCGCCGGTGCCGACACGGTAGAGCGTGATTATAGCCAGCTGTCGAATAACGCCGATGGTGATGTCAGTCAGAACATAAGACTGATCGTATTCGCGGATTTGACGGCGGATAACTTGGCGCAGGAGAAGGAACGGGTGCTGGAGCTGATTCGGCGGCTGCCTTCGGTGACGGTGCCGGGGGAGACGGATCTTACCATCGATTATTATGCCGCGGATTTGAAGACGCCGGAGAGCGTGAAGAAGGTGGAGCAGGATATCGATTATATGAAGGGGAAAACCAGTACCTACAGCTTCAGGGTGTTCGACATTTCGGACATTACGTCCACGGATGACATCGAGATCCAAGGGCTGGAATGA	MKKHQWMATLLSLICTGLGMFYIGTPGMIIGGMLLMALQGAALFIFFMTLGYLGLIIGPLAIGLHIIGLIIPVIYFSYRSPRKPMFDEKRRRQLASPWKIVVRTIIGLALFAGSIYAGYTWGSAPFMKTAAEKREVQEAAESYLEQKYNEPFKVTDVDYTWAIGSYNLTAHPEQAPELEFTLSSNEASPPVISNDTYLNQLWGQQLRDRLKPLLDELYPDQAFGEAYVFAGADTVERDYSQLSNNADGDVSQNIRLIVFADLTADNLAQEKERVLELIRRLPSVTVPGETDLTIDYYAADLKTPESVKKVEQDIDYMKGKTSTYSFRVFDISDITSTDDIEIQGLE				NA	NA	NA	NA	NA
AK002_05998	1389	fumC		Fumarate hydratase class II	ATGGATTATCGTATTGAAAAGGATACCCTGGGTGAGATTAAAGTGCCTGCGGATAAGTTATGGGCAGCGCAGACACAGCGCAGTTCCGAGAATTTCCGGATTGGAACCGAAACGATGCCGAAGGAAATCATTCGGGCGTTCGCGATATTGAAGAAGAGCGCGGCCATCGTCAACGGCAAGCTCGGCAAGCTGGATGCAGATAAGGTGGATGCGATCACAACCGCGGCCGACGAGATCGTGGACGGCAAGTGGGATGAGCATTTTCCGCTGGTGGTTTGGCAGACCGGCAGCGGCACGCAGTCCAACATGAACGTGAACGAAGTCATTGCGAATCGGGCCAATCAGCTGCTCGAGCGAAAAGACAGCACGCTGCGCGTTCATCCCAACGATGACGTCAACAAATCCCAAAGCTCCAACGATACGTTTCCGACGGCGATGCACATGGCTGCGGTCGTGGCCATGGAAGATCAAGTGATGCCTGCGCTCCGCCGTTTGAAGAAAACGTTCGAGAAGAAAAGCGATGAATATAAGGACCTGATCAAAATCGGCCGTACGCACCTTCAGGATGCAACGCCGCTGACGCTCGGACAGGAAATCAGCGGCTGGCACCGGATGCTGGAGAAGTGCGAATTGATGCTGGCTTCGGCCGTAGAACCGCTGCGCGAGCTGGCTATTGGCGGCACCGCCGTGGGTACCGGCATTAACGCGCATCCGAAATTCGGAGAAATGACGGCGGCCGAAATCAGCCTGCAGATCGGAAAAAGCTACACCTCCGCCAGCAACAAGTTCCATTCGTTGACCAGCCATGACGAGATCGTATTTGCCCATGGGGCGCTGAAGGCGCTGGCTGCCGATCTGATGAAGATCGCCAACGACGTTCGCTGGCTTGCAAGCGGTCCCCGTTCCGGCATCGGCGAGCTCACGATCCCTGCCAACGAACCGGGAAGCTCCATCATGCCGGGGAAAGTAAATCCAACCCAGAGCGAAGCGCTGACGATGGTGGTCTGCCAAGTGATGGGCAACGATGCCACGATCGGTTTTGCGGCAAGCCAGGGCAATTTTGAGCTGAACGTCTTCAAGCCGGTCATCATTTATAACTTCTTGCAGTCCGTTCGTCTGCTGTCGGATGCCATGGATTCGTTCGACCAGAATTGCGCCATCGGCATCGAAGCCAATCTGGACGTGATCCGCGCGAACATGGAACGGTCGCTGATGCTGGTGACGGCGCTGAATCCGCATATCGGATACGAGAATGCCGCCGCCATCGCGAAACGTGCGCATCAAGAAGGGACAACGCTTCGCGAAGCGGCGCTGGCAAGCGGTCTGCTTAGCGGAGAGGATTTTGACCGGATCGTCCGTCCGGAAGAAATGATACATCCGAAGGAATAA	MDYRIEKDTLGEIKVPADKLWAAQTQRSSENFRIGTETMPKEIIRAFAILKKSAAIVNGKLGKLDADKVDAITTAADEIVDGKWDEHFPLVVWQTGSGTQSNMNVNEVIANRANQLLERKDSTLRVHPNDDVNKSQSSNDTFPTAMHMAAVVAMEDQVMPALRRLKKTFEKKSDEYKDLIKIGRTHLQDATPLTLGQEISGWHRMLEKCELMLASAVEPLRELAIGGTAVGTGINAHPKFGEMTAAEISLQIGKSYTSASNKFHSLTSHDEIVFAHGALKALAADLMKIANDVRWLASGPRSGIGELTIPANEPGSSIMPGKVNPTQSEALTMVVCQVMGNDATIGFAASQGNFELNVFKPVIIYNFLQSVRLLSDAMDSFDQNCAIGIEANLDVIRANMERSLMLVTALNPHIGYENAAAIAKRAHQEGTTLREAALASGLLSGEDFDRIVRPEEMIHPKE	PGPT0001650_3661	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
AK002_05999	1146			hypothetical protein	TTGCCCTCTTTTTCTTATAAGCCCGATAAAAGATCGGAATCCACGCGCCTTCTGGAAAGATGTAACATTAGTCTTAAGCAGGATCAAGGGTTCATTACAACGTTAGGGGTGTGGTATAGGGTGGATTCGAAACGGTTGGTGAACGTATTTCGTCATTTTGCCGAGCGGGAATGTCCGGGTTCCAGCGTGTTTTATGAGTATTTGGCCCGGCATATTGCCGATGATGAAGAGGTGCTGCAGGTCGCTGCGTTGGTTCCGTTCGGCCAGCCCGTGCCCAATATGCTGTTCGGTGCGGTTCAATACTTGCTGCTTCAGGGCGAGGGTCCGGAGCTGAGGGCGTATTACCCCGGCCTTGCGGAGCATCCGAAGGAGATGGCCTCCTGTTATCCCCATTTTCGGGCATTCGTGCTGGAGCATGAAGCAGCCATTATCGGGATCCTGAAGCACAAACGGGTACAGACGAACGAGGTCCGTCGCTGCGCGTACCTGTATCCGGTGTTCTGCTCCATTTATGACAAGGTCCGGAGGCCGCTTGCCCTGGTGGAGCTTGGAACGAGTGCCGGATTGCAGCTGCTGTGGGATCAATACAGTTATTCCTATGGAGGCACGGCGAGTTACGGCCTTACGGAATCGAAGGTGCGCATTACATCGGAGATCAGGGGTGACCGCAAGCCGTTCCTGCTGGACTCCAGTCCGCCGGTTGTTTACCGGATGGGGGTCGATCTGCATGTGAATGATGTACGGAATCCGGAGCATTTCATATGGCTGCGAGCTTTGATTTGGCCGGGCAATCACGATCGGGTGTCCATGCTGGAGCATGCGGCGGAGGCGTTGAAGCAGCAGTCAGACGTAAGTTTCCGGGAGGGGGATGGGACGGAGCTGCTGCCTGACATCGTGAAGGAGATTCCGGATGAGGCTGTGATCTGCGTGTTTCATACGCATGTTGCCAACCAAATTCCGGAGGCGTCCAAGCAAAGATTGCTGCGGCATCTGAGCGAGATAGGAAGCGAGCGCGATATTGTGCATGTCTACAACAATATGCAGGATGAGCAGCTCCATGCCGATTATATACTCGGAGGCGTGCCAAGCGAGTTTACGGCGGCACGCACGGATGGGCATGCGCGCTGGTTCGAGTGGCTGTTATAA	MPSFSYKPDKRSESTRLLERCNISLKQDQGFITTLGVWYRVDSKRLVNVFRHFAERECPGSSVFYEYLARHIADDEEVLQVAALVPFGQPVPNMLFGAVQYLLLQGEGPELRAYYPGLAEHPKEMASCYPHFRAFVLEHEAAIIGILKHKRVQTNEVRRCAYLYPVFCSIYDKVRRPLALVELGTSAGLQLLWDQYSYSYGGTASYGLTESKVRITSEIRGDRKPFLLDSSPPVVYRMGVDLHVNDVRNPEHFIWLRALIWPGNHDRVSMLEHAAEALKQQSDVSFREGDGTELLPDIVKEIPDEAVICVFHTHVANQIPEASKQRLLRHLSEIGSERDIVHVYNNMQDEQLHADYILGGVPSEFTAARTDGHARWFEWLL				NA	NA	NA	NA	NA
AK002_06000	1797		COG1132	putative ABC transporter ATP-binding/permease protein	ATGAAGCAGGAATCGTGGTTTCGACCCTATGTAACGGCAAATTTCTGGCGCTTTCTGCTCATTGTCACGCTGGGCGTGCTCACCATTTTGTTTGCCGGGATGCTGATGTTCACATCCGGTTATTTGATCTCCAAATCCGCCCTGCGTCCGGAAAACATTCTGATGGTGTACGTGCCGACCGTAGGGGTTCGCACCTTCGGCATCGGACGTGCGGTGATCCATTACGTGGAGCGCCTGGTGGGGCATGATACGATTCTTCGCATCCTGTCCCGCATAAGGCTACGGCTGTACCGGATTCTGGAACCGCAAGCCCTCCGTTTATCCTCCCGGTATCGCACCGGGGATCTGCTGGGGGTGCTCTCCGATGACATCGAGTATTTGCAGGACGTTTACATCCGAACCGTCTTTCCATCGATTGTTGCGCTTGTATTATATGCCGGGGTCATTCTGGCCGTCGGTCTGTTTGATCCGGCATTCGCCCTTCTGCTCGCGCTGTATATAGCGGTGCTGGTTCTGGTGCTGCCGCTGATCTCGCTGCTGCTCACCAAACGGAAGAATCGGGAAGTGAAACAGGCCCGCAGCCACCTCTACCGGAAGCTGACCGACGCGGTGCTGGGCATTCATGAATGGTACGTCAGCGGCCGGCAGGCGGAATTCTTGACCGGTTATGAGGCGGATGAAGCCGAGGTGGACCGGACCGACCGCTCGCTTAAGCGCTGGTCGCGCTTGCGTGCCTTTATCGGTCAAGGCGTGGTTGCCGTGACGGTGGTATCGGTGGTGTATTGGTCGGGACGGCAGTATGCGGACGGTTCGATCGACGTTACGCTGATCGCGGCTTTTGTGCTGGTTGTGTTCCCGTTGATGGATGCATTTCTGCCGGTGTCCGAAGCCGTTGAGCGGATTCCGCAGTACGGCCAATCGGTCGCAAGGCTTCGGGCGATTGAAGGCGCGGATGCCTCCGAAGCGCGGCATAACCTGCCGAAGATGCTGGATAAAGCAGAGGTCGAATCCGTCATAAGCCGCGGCGTTCATGTGAAGGCGGACGGCATCAGCTTCCGTTATGATCAGGAGGCAGACGGCCCATCGGGGCTGGAGCCATCCGGCGAGAACAGGGGATCTTCTGCATTAACCGATGTGTCGCTGGATATTGCTCCCGGCGCCAAGGTAGCTATCATCGGGCGCTCCGGTGCCGGCAAATCGACCCTGCTGCAGCTGATCCAGGGCGTGCTGGCGCCATCGGGAGGAAGCCTTACCCTAGGCGGCGTGGAGTCAGCGCGTTTCGGCGATGAGATCTCTTTCGTAATTTCGGTATTGAACCAGAGTCCGCACTTGTTCGACACAACGCTTGCGAACAATATTCGGCTTGGCTCCCCGGACGCCACGGAGGCTGAAATCCGGGACGCCGCCGCCATGGCACGGCTTGAACCGTTGGTAGCCTCCCTTCCGGAAGGACTTGGCACCCGCATGCAGGAAGCCGGGCAGCGTTTCTCCGGAGGAGAGCGCCAGCGCGTGGCTTTGGCCCGAATCCTGCTGCAGAAGACGCCCGTTGTCATTCTGGATGAGCCCACGGTCGGGCTGGATCCCAAAACCGAGCGGGAACTGCTGTCCACCATATTCGCCAGCCTGCAGGACCGCACCTTGATTTGGGTGACGCATCATCTGGTCGGCGTGGAGCGCATGGATGAGATCCTTTTCATGGAGAACGGCCGAATCGTAATGCGGGGCACTCACGATGAGCTGATGGAGCGATATCCGCGGTATCGGAACTTGTACCGTTTGGATCGTCCGGCGGTATAG	MKQESWFRPYVTANFWRFLLIVTLGVLTILFAGMLMFTSGYLISKSALRPENILMVYVPTVGVRTFGIGRAVIHYVERLVGHDTILRILSRIRLRLYRILEPQALRLSSRYRTGDLLGVLSDDIEYLQDVYIRTVFPSIVALVLYAGVILAVGLFDPAFALLLALYIAVLVLVLPLISLLLTKRKNREVKQARSHLYRKLTDAVLGIHEWYVSGRQAEFLTGYEADEAEVDRTDRSLKRWSRLRAFIGQGVVAVTVVSVVYWSGRQYADGSIDVTLIAAFVLVVFPLMDAFLPVSEAVERIPQYGQSVARLRAIEGADASEARHNLPKMLDKAEVESVISRGVHVKADGISFRYDQEADGPSGLEPSGENRGSSALTDVSLDIAPGAKVAIIGRSGAGKSTLLQLIQGVLAPSGGSLTLGGVESARFGDEISFVISVLNQSPHLFDTTLANNIRLGSPDATEAEIRDAAAMARLEPLVASLPEGLGTRMQEAGQRFSGGERQRVALARILLQKTPVVILDEPTVGLDPKTERELLSTIFASLQDRTLIWVTHHLVGVERMDEILFMENGRIVMRGTHDELMERYPRYRNLYRLDRPAV				NA	NA	NA	NA	NA
AK002_06001	1881	cydD_2	COG4988	ATP-binding/permease protein CydD	ATGGGAAAAGATCTGCTGGGATACAAAGGCGCCAAGACGGTATTCCTCCTTGTCGCCGTATGTGCCCTGGCACAGAGCATGGCCATCCTTCTGCAAGCCAAATGGCTGGCGGAAGCCGTATCCGCCCTGTTTGCGGGATCAACGCTGCAGGAGCAGGGGGAGACCATTGCCTTGTTCCTGCTTGCATTTCTGGCACGCCACGGGATCTCGGTCGTGCAGCAAGGAATCGCGCAGCGCTTTGCCGAGGAGACGGGCACGAGCCTGAGAAAGCAGCTGCTGGAGGAGCTGTTTCGGAACGGGCCGTCCTTTGTCCGGTCGGAAGGAACAGGCAATGTGGTTACGCTTGTGCTGGAGGGCATCGGCAAGTTCCGCAAATATGCGGAGCTGACCATACCTCGCATGATGGGGGCGGGCATTACCCCTGCCCTGGTGTGGCTGTACGTATTCATGACGGACCGGATCTCGGGCATTATTCTGCTGGTGACCATGCCGATCCTGATCGTGTTTCTCATCCTCGTGGGACTTGCCGCGAAAAAGCAGACCGAGCGGCAGCTGGATTCCTACCGGATGCTGTCCAATCATTTCGTGGATTCGCTGAGAGGGCTGACCACCCTGAAGTTTCTGGGACAGAGCCGCAAGCACGGCGCGAGCATACAGCAGGTCAGCGAGGGGTATCGTGCAGCTACCATGCGGACGCTGCGCGTGGCGTTTCTGTCCTCTTTTGCGCTGGATTTCTTTACGATGCTGTCCGTGGCGTCGGTTGCGGTAAACCTGGGTCTGCGCCTCATTAACGGCAGCCTGGAGCTGCTGCCCGCGCTGCTTATCCTGATCCTGGCACCGGAGTATTTCCTGCCGGTGCGCATGGTTGGAGCGGACTTTCACGCCACGCTGGACGGCAAGCAGGCAGGGGAAGCGATGCAATCCATCATCCGGGAAGCCCGGAAGGGGCATTCGGGCGGTAGCTCAAGTCCTGTTGCTGCGGAGGGTTCGACTAACAGCGAGGGTCCATTCGAGCCAACGGGAGCGCTTGAAGCCACGGCGGCAGAAACGATGGAACGAACCTCAACGGGCCTAACATTTAAAATTCAAAATAATTTCTCGGGTCTCAGCCGCAAGCCGCAGCCACCATTCCGATGGGAAAAGGACAGCGTGCTGGAGCTCTCCGGCATCGGCCTCAGACACGAAGAACAAGGGCCGGCTTCATTGGACGATGTTTCCTTCCGAATACCGGGACAACGCAGGATCGGCATCGTCGGGGAGAGCGGAGCCGGCAAATCCACGCTGATCGAGCTGTTAGGCGGATTCATGGCGCCAACCTCCGGAGCAATGGCGCTGAACGGTGTGAAGCTGGAGGAGTCGAACCGGCCCGAGTGGCGGTCGGAGGTCACTTACATGCCGCAGCAGCCGTATTTGTTCGGGGCAACCTTGGAGGAGAACGTGCGCTTTTATGCGCCGGAGGCGTCCAGAGCTCAAGTGGAAGCGGCGGTAAAGGCAGCCGGTCTGTCGGAGCTGGTAAAAAGCTTGCCGGGCGGCCTTGCGCAGATGATCGGCGGCGGCGGACGCGCTTTAAGCGGCGGCCAGGCACAGCGCGTGGCTTTGGCCAGGGCGCTGCTCGGCGGCCGGCAGGTTCTGCTGCTGGATGAGCCGACGGCGCATCTGGATATTGAGACGGAATATGAGCTGAAGGAGACGATGCTGTCCCTTTTTCAAGACAAGTGGATATTTCTAGCGACGCACAGGCTTCACTGGATGCAGGATATGGATTATATCATCGTTCTGCACCAGGGGCGCGTTGCGGAAACGGGCACCCATGAGGAGCTTATGGCACGACAAGGCGTCTATTACGGATTGATGACATCGCAGATGGAGGGAGTACAATGA	MGKDLLGYKGAKTVFLLVAVCALAQSMAILLQAKWLAEAVSALFAGSTLQEQGETIALFLLAFLARHGISVVQQGIAQRFAEETGTSLRKQLLEELFRNGPSFVRSEGTGNVVTLVLEGIGKFRKYAELTIPRMMGAGITPALVWLYVFMTDRISGIILLVTMPILIVFLILVGLAAKKQTERQLDSYRMLSNHFVDSLRGLTTLKFLGQSRKHGASIQQVSEGYRAATMRTLRVAFLSSFALDFFTMLSVASVAVNLGLRLINGSLELLPALLILILAPEYFLPVRMVGADFHATLDGKQAGEAMQSIIREARKGHSGGSSSPVAAEGSTNSEGPFEPTGALEATAAETMERTSTGLTFKIQNNFSGLSRKPQPPFRWEKDSVLELSGIGLRHEEQGPASLDDVSFRIPGQRRIGIVGESGAGKSTLIELLGGFMAPTSGAMALNGVKLEESNRPEWRSEVTYMPQQPYLFGATLEENVRFYAPEASRAQVEAAVKAAGLSELVKSLPGGLAQMIGGGGRALSGGQAQRVALARALLGGRQVLLLDEPTAHLDIETEYELKETMLSLFQDKWIFLATHRLHWMQDMDYIIVLHQGRVAETGTHEELMARQGVYYGLMTSQMEGVQ				NA	NA	NA	NA	NA
AK002_06002	1017	cydB	COG1294	Cytochrome bd-I ubiquinol oxidase subunit 2	ATGCTGTCTCTTAACGAACTGTGGTTTGTGCTCGTCGCCGTATTGTTTATCGGGTTCTTCTTCCTGGAGGGCTTCGATTTCGGAGTCGGGATGTCCACGCAGCTGCTGGCCAAAAACGATACCCAGCGCCGGGTGCTGATCAACTCGATCGGCCCGTTCTGGGACGCCAACGAGGTCTGGCTGCTGACGGCGGGCGGCGCGATGTTCGCGGCCTTCCCGAACTGGTATGCCACGCTGTTCAGCGGGTTCTACATTCCGCTTGTCTTTCTTCTGCTGGCCTTGATCGGGCGCGGCGTGGCATTTGAATTCCGCGGCAAGGTGGGCGATGTCCGCTGGAAACGGGTATGGGACGGAGCGATCTTCACCGGAAGCGTGCTTCCGCCATTCCTGCTCGGCGTTGTTTTTGCCTGCCTGATCCAGGGGCTCCCGATTAACGAAGAGATGCAGCTGCACGCCGGATTCTTCGATGTCGTGAATCTTTATACCATAGTCGGCGGGTTGACGATGGTGATGCTCTGCCTGCTGCATGGCTTGATGTTCACGACGCTGCGCACGCTGGGGGATCTCCAGGAACGGGCGCGCCGCATGGCCCGGAGACTCCTGATTCCTGTTGCGGCCCTGTTCGTGGCGTTCGGGGTGATGACGTATTTCATGACCGATATCTTCGAGAAGCGCGGGGTGGCGTTAACCGTCCTGCTTGTGCTGGCTCTGCTTGCATTCCTGCTGGGCGGATATTTCATGAACGTCAAGCGGGACGGCTGGGCTTTCGGGATGACCGGCGCGGTCATCGCACTCTTGGTCACGTCCGTGTTCGTGGGCTTGTTCCCGCGCGTGATGGTCAGCTCCATCAACGCTGCATTTGACCTGACCATTTATAATGCGGCCTCCGGACCGTATTCCCTCAAGATTATGACGATTGTGGCCGTATCGCTGCTGCCGTTTGTTTTAGGCTATCAAATTTGGAGTTACTTCGTTTTCCACAAACGGGTACATGAGAAGGAGCATCTGGAGTACTGA	MLSLNELWFVLVAVLFIGFFFLEGFDFGVGMSTQLLAKNDTQRRVLINSIGPFWDANEVWLLTAGGAMFAAFPNWYATLFSGFYIPLVFLLLALIGRGVAFEFRGKVGDVRWKRVWDGAIFTGSVLPPFLLGVVFACLIQGLPINEEMQLHAGFFDVVNLYTIVGGLTMVMLCLLHGLMFTTLRTLGDLQERARRMARRLLIPVAALFVAFGVMTYFMTDIFEKRGVALTVLLVLALLAFLLGGYFMNVKRDGWAFGMTGAVIALLVTSVFVGLFPRVMVSSINAAFDLTIYNAASGPYSLKIMTIVAVSLLPFVLGYQIWSYFVFHKRVHEKEHLEY	PGPT0026705_2759	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
AK002_06003	1404	cydA	COG1271	Cytochrome bd ubiquinol oxidase subunit 1	ATGGATCCGGTTATGCTGGCGCGAATTCAATTCGCATCGACAACCATTTTTCACTTTATTTTCGTACCGTTATCCATCGGATTGGCGTTTCTGATCGCCATCATGGAGACGATGTATGTTGTCAAGGGCCAGGAAGTCTACAAGAAAATGGCCAAGTTCTGGGGAAAGCTGTTCCTGATCAACTTTGCGGTCGGGGTTGTGACAGGGATTCTGCAGGAATTCCAGTTCGGGATGAACTGGTCGGATTACTCGCGCTTTGTCGGGGACGTGTTCGGCGCACCGCTTGCGATCGAAGCCCTGCTGGCGTTTTTCCTTGAGTCGACGTTTATCGGGCTGTGGATATTCGGGTGGGACCGGTTATCCAAGAAGGTCCATCTGCTCAGCATCTGGCTGGTATCCTTCGGCACCCTGATGTCCGCCTTCTGGATCCTGGCAGCGAACTCGTTCATGCAGCGTCCGGTCGGTTTTGAGATCAACAATGGACGGGCTGAGATGAACGATTTCTTCGCGCTGATCACGAACGGTCAGCTGCTGGTGGAATTCCCGCACACGATTTTCGGGGCGCTGGCAACCGGGGCTTTCCTGGTAGCGGGGGTAAGCGCGTATAAGCTGCTGAAGAAGCAGGATTTGGATTTCTTCAAAAAATCATTCCACATCGCCATCGTGGTGGGTCTCATCACCTCCATTCTGGTTGCGGTATTCGGCCACCAGCAAGCGCAGTATCTGGTGGATACGCAGCCGATGAAGATGGCCGCCGCCGAGAGCTTGTGGGAAACGAGCGACGATCCCGCGCCTTGGACGGTCATCGCCGCCATCGATCCGGATAAGCAGGAGAACACGATGGAGTTCAAAATCCCGTATTTGCTCAGCTTTTTGTCCTACAGCAAATTTTCCGGCGAAGTCATCGGAATGAAGGAGCTGCAAGCCCAATATGAGCAGGAATACGGTCCTGGAGACTATATTCCCCCGGTCCGCACCACCTTCTGGAGCTTCCGGATTATGGTGGCTGCCGGCAGCGTCATGATTCTGCTGGGATTGTACGGAGCGTGGCTGATGCTGCGCAAAAAAGTCGAGAAGGCCGGCAAATGGTTCCTCAGACTGATGCTGTTCGGCATTTCCCTGCCGTTCATCGCCAACACATCGGGATGGATCATGACGGAGATCGGACGCCAGCCTTGGACGGTATTCGGGCTGATCACCACGGAGAACAGCGTTTCGCCGAACGTAAGCGCAGGCTCGATCCTGTTCTCGCTTATCATGTTTACCGCCATTTATGCAGTGCTGGCAGCCGTGATGGCCTATCTGTTCATCAAAGTCATTAAGAAAGGACCGTATGCGGCGGAGGAAGACGATCACCACGCAAGCGATCCGTTTAATAAGGAGGACTACAATGCTGTCTCTTAA	MDPVMLARIQFASTTIFHFIFVPLSIGLAFLIAIMETMYVVKGQEVYKKMAKFWGKLFLINFAVGVVTGILQEFQFGMNWSDYSRFVGDVFGAPLAIEALLAFFLESTFIGLWIFGWDRLSKKVHLLSIWLVSFGTLMSAFWILAANSFMQRPVGFEINNGRAEMNDFFALITNGQLLVEFPHTIFGALATGAFLVAGVSAYKLLKKQDLDFFKKSFHIAIVVGLITSILVAVFGHQQAQYLVDTQPMKMAAAESLWETSDDPAPWTVIAAIDPDKQENTMEFKIPYLLSFLSYSKFSGEVIGMKELQAQYEQEYGPGDYIPPVRTTFWSFRIMVAAGSVMILLGLYGAWLMLRKKVEKAGKWFLRLMLFGISLPFIANTSGWIMTEIGRQPWTVFGLITTENSVSPNVSAGSILFSLIMFTAIYAVLAAVMAYLFIKVIKKGPYAAEEDDHHASDPFNKEDYNAVS	PGPT0026700_3394	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
AK002_06004	1803	ade	COG1001	Adenine deaminase	ATGAGTTCAATCCAGAGACAGAAACGATACGAGGTCAGCCGGCAGCTGGGGAAGGTTGCCATGGGACAAAAGCCAGCCGATCTGGTCATCAAAAACGGCACGCTGGTGAATGTGTTTACAGGTGAACTTCAGGAGCGGGTAGACGTGGCCATGGCGCATGGGCGCATCGCCTATATCGGCAGCGCCGATCATACGATCGGAGAGGGGACGCAGGTGATCGAAGCGAATGGGCGCTTCATCTCGCCGGGTCTGCTGGACGGTCATATGCATGTGGAAAGCACGATGCTGACCGTAACGGAGTTTGCCAAAGCGGCCATCGTTACGGGAACGACCGGGGTTTATATGGACCCCCATGAGATCGCCAACGTGTTCGGCATGGAAGGCGTGCGCTGGATGCACGAGGAAGGGCAGCAGCTGCCGATGAAGGTGTTCACCACCATTCCTTCCTGCGTACCGGCGACGTTCGATCTGGAAGATGCGGGGGCGCAGCTGGGCGTAGCCGATATCGAGGAAGGGCTGACCTGGCCCGGCGTCGCCGGGCTTGGCGAAGTGATGAACTTCCCGGGCGTCGTATACGGCGATCCGACCATGAGCGGAGAGATCGAAGCCACGCTGCGTGCCGGCAAGACGGTGACGGGGCATTTTCCGGCCGAGGACGACCGGATGCTTCAAGCCTATTTGGCAACCGGCGTCAGCTCCGATCATGAGACGGTAACGAGAGAGCAGGCTTTGGAAAAGGTTCGCCTTGGTATGCATCTGATGATCCGCGAAGGTTCGGCTTGGCAGGATGTGAAGGAAGTGATTAAGGTAGTAACGGAGGACAAGGTACGTACCGACAATATCTCCTTGGTCACGGATGATGTGTATCCGCAGACGCTGCTGCGGCTCGGCCATATGAACCATGTGGTCCGCCGCGCCATGGAGGAGGGCGTGGACCCGGTTACGGCGATCCAGATGGGCACGATCAACGTGGCTCGATATTTCGGCATGGACATGGAGCTCGGCAGCATTTCACCGGGCAAAACGGCTGATATTTTGCTCATTGACGATCTGAAGAGCATGGTGCCTTCGGTGGTGATCACGGACGGCGAAGTGGTCGCGGAGAACGGCCGCCTCGTGAAGGCGTTCCCGGCGTATTCGTATCCGGAAAAAGCCTTTCAGTCGGTTCGGCTGCAGCGTTCGCTTACCGCCGACGACTTTCTGCTGCGCAGCAAGTTCGATGCGGCGCGTACGGAAGTGAACGTGGTGCGCGTCATCGAGAACAGTGCCCGTACCGCCAAAATGACCGCGGTGCTCGCCGTGGAGCAGGGCGTCATCCAGCCGGACCTGGGCCAAGACGTGGTTCAGCTGGCATGCATCGAGCGCCACGGCGCTACCGGGCAGATCTCGCTCGGCTTTGCGAGCGGCTTCGGACTTCAATCCGGCGCGGTTGCTTCCACGGTGGCGCACGATAGCCACAACCTGCTCGTGATGGGCACGAATGCCGAGGATATGGCGCTTGCGGCGAACGAGCTGGCAGCATGCGGAGGCGGCATGATCGTGGTACAGAACGGCCAGGTGCTGGCGAAGGTGGCGATGCCGATTGCGGGCTTGCTGGCGGACCGACCGGTTGAGGTCGTGGCCGAGGAGGTCGCTGCCCTGGAGGAAGCCTGGAAACAGCTCGGCTGCTCCATCCATGCGCCGTTCATGACGTTCTCGCTCATTGCGCTGCCGGTGATTCCGGAGATCCGTATCACCAATCGCGGGATCGCGGACGTGACGGAATTCAAGCTCATCCAGACGGAGATCGGCGCGGTTCAATAA	MSSIQRQKRYEVSRQLGKVAMGQKPADLVIKNGTLVNVFTGELQERVDVAMAHGRIAYIGSADHTIGEGTQVIEANGRFISPGLLDGHMHVESTMLTVTEFAKAAIVTGTTGVYMDPHEIANVFGMEGVRWMHEEGQQLPMKVFTTIPSCVPATFDLEDAGAQLGVADIEEGLTWPGVAGLGEVMNFPGVVYGDPTMSGEIEATLRAGKTVTGHFPAEDDRMLQAYLATGVSSDHETVTREQALEKVRLGMHLMIREGSAWQDVKEVIKVVTEDKVRTDNISLVTDDVYPQTLLRLGHMNHVVRRAMEEGVDPVTAIQMGTINVARYFGMDMELGSISPGKTADILLIDDLKSMVPSVVITDGEVVAENGRLVKAFPAYSYPEKAFQSVRLQRSLTADDFLLRSKFDAARTEVNVVRVIENSARTAKMTAVLAVEQGVIQPDLGQDVVQLACIERHGATGQISLGFASGFGLQSGAVASTVAHDSHNLLVMGTNAEDMALAANELAACGGGMIVVQNGQVLAKVAMPIAGLLADRPVEVVAEEVAALEEAWKQLGCSIHAPFMTFSLIALPVIPEIRITNRGIADVTEFKLIQTEIGAVQ	PGPT0021510_312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
AK002_06006	579	azoR		FMN-dependent NADH-azoreductase	ATGAAAAAGGTTTTAATCATCCAAGGCAATCCCATTGAAAACAGCTATGGCCGTCACCTGGCGGAGGCCTATGCAAGGGGGGCGGGCGAATCCGGTGCGGAGGTGAGGAAGCTGGTGCTTGCGGAGATGGAGTTTGACCTGAACCTGTCCGGCGGTTATAAGGGCAAGCAACCGCTCGAACCCGATCTGCAAGAAGCGCAGGAGCTGATTGCCTGGGCGGACCATCTGGTGTTTGTGTATCCGAATTGGTGGGGCGGCATGCCGGCGCTGCTCAAAGGGTTCATCGATAGGGTTTTTCTGCCGGGATTCGCCTTTAAGTACCGCAGGAACTCGCCTTTGCCGGAGCAGCTGCTCAAAGGGAAGACGGCTCGTCTGATCGTCACGATGGATTCGCCGTACGTCTACTACCGATTCTATCTCGGACAGCCGGGACATCAGATGATGAAGCATTCCATTCTGAAGTTCTGCGGCGTGGGCACCGTCCGTGCCACGAACATTACCCAGCTTCGCAAAATGCCCGATACCGCAAGAAACCAATGGCTCGAGCGTGTGCAGAGAATGGGACGGAAATTGGCGTGA	MKKVLIIQGNPIENSYGRHLAEAYARGAGESGAEVRKLVLAEMEFDLNLSGGYKGKQPLEPDLQEAQELIAWADHLVFVYPNWWGGMPALLKGFIDRVFLPGFAFKYRRNSPLPEQLLKGKTARLIVTMDSPYVYYRFYLGQPGHQMMKHSILKFCGVGTVRATNITQLRKMPDTARNQWLERVQRMGRKLA	PGPT0009455_2129	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009455-kefF|nqo|ywrO-K00355	NA	NA
AK002_06007	549			hypothetical protein	TTGCAGGCAGCCATGAAGCTCTTTGCCGAGAAGGGCGTGGACGGCGTATCGGTGAAGGAAATCGGCGCGGCGGCAGGCGTGACGGATGCGGCGATTTATAAGCATTTTACGAATAAGGATGCCGTTGCCGCGGAGGCGTTCGACGAATATTGCGGCAGTTATACGCGCTTGGTGGATGAATATGCTACCCGGCCCGGACCGTTCCCGGAGAGGCTATCGGCTCTCGTAACCCGCGTACTGGAATCGTATGACGAGGATAAATACGGCTTGCTGCTATTGTCCCAGCATCACGAGCTGTTTACGGAGGTGGTCAAGAGCAGGGGGCGCCAACCGCTTGATGCTTTGGAGGATCTGCTCGAGCAAGCGGTGCTGCAGCGGGATATTCCGCCGCAGAATACGCGGTTAACCGCTATTCTGATCATCGGTGCATTCAGTCAGCTTGCGATATCCGCGATGCAGGGGGAGCTGGAAGAACCGCTGTCTCCGCTGGCACCTGAAGTAACGGCGCATTTATTGGCATTAACCGGTTTGGAAAAAGGTCAGGCGTGA	MQAAMKLFAEKGVDGVSVKEIGAAAGVTDAAIYKHFTNKDAVAAEAFDEYCGSYTRLVDEYATRPGPFPERLSALVTRVLESYDEDKYGLLLLSQHHELFTEVVKSRGRQPLDALEDLLEQAVLQRDIPPQNTRLTAILIIGAFSQLAISAMQGELEEPLSPLAPEVTAHLLALTGLEKGQA				NA	NA	NA	NA	NA
AK002_06008	1245			hypothetical protein	ATGGGTTCAACTTCGTTTCGGCAATTGACCGGCAATGCGCGGGGCTGCCTCGTTTACGAGCCGCTGTTTCTAATCCCTTACAGCATGTTCACGACGTACACCTCGATCTACATGTACCAACTCGGAGTTACGGAGACGGGAATCGGCTGGATTACCTCGATCGGTCTGCTTGTGCAGGTGCTGTCCTCGTTTCTCAGCGGGTATTTAACGGACCGTTTGGGCCGCAAAAAAGCGCTCCTTTACTTCGACGTGCTGAGCTGGAGCGTGGCCACGCTGCTCTGGGCAGTCTCCCAGAACTTCTGGTTTTTTGTGATCGCCGCCGTCATCAACGGCTTTCAGAAGGTGCCGCATACCGCCTTTTACTGCTTGCTGGTGGAGGATACGGCGCCGAAGGAGCGTACCTATGTCTTTACGCTGCTGCAGCTGATAAGCGTCATCGGCGGATTGTTTGCACCGCTCGGCGGGCTGCTGGTGTATCATTTCTCGCTTGTGCCCGGGGTGCGCATCATGTTCGTCCTTGCCTGCATCCTGATGACGATCCAGTTCATCGGACGCCATTATGCGACAAGGGAGACGGAGATCGGGTACCGCAAAATGAAGGAAACGAAGGCGATGGGCCTGCGGGAAGGGATGTCAGACTATGTCCAGGTGATGAAGAGCATGCTGGGAAATCCGCTGCTGCTAATGATCTTCGGCGTATATATCCTGTTTAATTTTCAGATGACGGTGAAGACAACCTACGTCTCCATCTTCATGGTGGAATATTTGCATTTGGGCAGCGGCCTGATCTCCGTTTTTCCAGCCTTCTCCTCCGTCATTATGCTGATATTCATGCGGTGGATCATGCCCCGGATCGGGGAGCGGCACGTGCACCGGACGATGGTATGGGGCTTTGTCATCTCGGTATTGTCCAATGTCATGCTGGTGTTTGCACCGCAAGGAGATCTGCTGGTACTGAGCCTGAGCACCGTCATTGCCGCATTCGGCACGATGATGACGTATCCGTATCTGGAGACGGCGGTGGCCAATGCCATCGACGACGAGAACCGCGCCAAAATATTCGCGCTGCTCCAGGTGCTCATCCTCATCGTCATTTCACCTTCCGGCATCATTGGCGGCTGGGCGTACGGCATCGATCCAAGAATTCCGTTCCTGCTTGTGGCCGGCGCATTTGTCATCAGCATTCCGCTCATGCTGCTGTACAGCAACAAGGTAAAGGCCGCTCCCATCGAAGCGGGGGTTTAG	MGSTSFRQLTGNARGCLVYEPLFLIPYSMFTTYTSIYMYQLGVTETGIGWITSIGLLVQVLSSFLSGYLTDRLGRKKALLYFDVLSWSVATLLWAVSQNFWFFVIAAVINGFQKVPHTAFYCLLVEDTAPKERTYVFTLLQLISVIGGLFAPLGGLLVYHFSLVPGVRIMFVLACILMTIQFIGRHYATRETEIGYRKMKETKAMGLREGMSDYVQVMKSMLGNPLLLMIFGVYILFNFQMTVKTTYVSIFMVEYLHLGSGLISVFPAFSSVIMLIFMRWIMPRIGERHVHRTMVWGFVISVLSNVMLVFAPQGDLLVLSLSTVIAAFGTMMTYPYLETAVANAIDDENRAKIFALLQVLILIVISPSGIIGGWAYGIDPRIPFLLVAGAFVISIPLMLLYSNKVKAAPIEAGV	PGPT0027875_531	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
AK002_06009	1773	sasA_28		Adaptive-response sensory-kinase SasA	ATGAGGCTGCGCAGAAGGCTCGCCTTCCATTTTACATACCAATTAATTGCATTCTCGGCGTTTATGTTTTGCTTTCTGATCGTGCTCTTATTCTTCCTGATCAAACATATCAGCGACGATGAGATCAAGCGCAACTTTCCGACAGGCGTCTTGAACAGCATCGTGACCGAGACGGTGACGGAGAATGGCGAGGTGCAGCTGGAGGAATATTGGAAGCTTCTGCTCCAGGAGAAGGATATGTGGCTTCAGGTGGTGGATATGGAGGGAAACGTGATTCACTCCACCAACACGGCTTCGGATGTTCCGTTGGCGTACTCGGTGAGCACCTTGCTTGAGATCAAGGAGAAGCGCCGCCTCGGCGAGTACACGATGGATTGGCAGATGGATCTGACCTATGAGGAGCCGCTATTGTTTCTGATCGGACGCATCGATGAGAGCTCGGATCATCTTCGGGAATGGGTCGTCCGTTATCAGGACGGCGGCAGAGTGAGGCCGGAGGATGAGGCTCCGCTTCGCCGCGATTTAGCCGGTCTGGGTGGATATTTGCATGTCATTGACCGGGAGGGCCGCGTTGTCCAAGCGATTGGGACGGGTTCCGACAACAAGGAAAGCTACCATCCGCTGGAGATCATCACCATGCAGGAGCAGCCTGGCACGTATTCCACGCATATCGCGGTCTACCGCGATGCGGTCAGCGGCAACACCTGGGTGTATCATACGCCGCAGGACGGGGTGCTGGAGAAACGGCCAATGATGAACGAGCTGATCCGCGTGGCGCTCTGGACGATGATCTGCGTGCTTGTGCTGTCGCTTGGAGTGGCGATATGGCATGGATACCGGTACAGCCGTCCGCTGCTGCTGTTTACCGGATGGTTCGAGCGGATGGGCAGGGGAGCGTACGAGGAAGTGCTGACGCCGAAGGACCGGAAGCGGGTCTTCCGCAAGAACGGGAAGCTCCGCACGCGTTACAGGCTGTACAAGGAAGTGATCCATTCCTTTTATAGGATGGCGGAGCAGCTGGCCGAAACCGAACGGGAACGGGAGCGGCTGGATCGAAATCGGGAAGAATGGATGTCCGGGATATCGCATGATTTGCGTACGCCGTTGTCTTCCATTCAAGGGTACGGCTATATGCTTGAGAATGCACCGCAGGATTGGAGCCAGGAGGAATTGCGGGAGATGGGGACCGTAATTCGGGAAAAAGGCGACTACATGCTGGAGCTGATCAACGATTTCTCGCTCGTCTTCCGTCTGAGAAGCGAAATCCGCCCTAAGGAGCGGACCCGGCTTGACCTGAATGAGCTGGTGCGCCGCTGCGTCCTGAAATACGTCAATGATGCCACGCTGGATGCGAATTTCAACTATATCGGCGGCGAAGAGGTGCTGCCCGTCGACGGCAATGCCAAGTGGCTGCAGCGGTTGATGGATAACCTGATCACGAATGCCGTGAAGCATAATCCGGATGGGGTTAACGTCGAGGTTCGGGTGGAGAGTCGCCCCGGCGGCGCGGCGATCGTGGTTGCGGATCAAGGCGTGGGGATGGACGAAGAGACCCGCTGCAATCTGTTCGAGCGTTACTACCGGGGAACGAATACCGAAGAGAGCATGGACGGCTCCGGACTCGGGATGAGCATCGCGAAGGCGATAGTCGAAGCGCATCGGGGGCGGGTAAGCGTCTGGTCGGAATTGGGGAGGGGAACCACCATTACCGTATTTTTGCCTGAGGCCGCTGCGCAAGAAGGCGAGGGGGCAAGTATGCGCGGGAAGGAGTAG	MRLRRRLAFHFTYQLIAFSAFMFCFLIVLLFFLIKHISDDEIKRNFPTGVLNSIVTETVTENGEVQLEEYWKLLLQEKDMWLQVVDMEGNVIHSTNTASDVPLAYSVSTLLEIKEKRRLGEYTMDWQMDLTYEEPLLFLIGRIDESSDHLREWVVRYQDGGRVRPEDEAPLRRDLAGLGGYLHVIDREGRVVQAIGTGSDNKESYHPLEIITMQEQPGTYSTHIAVYRDAVSGNTWVYHTPQDGVLEKRPMMNELIRVALWTMICVLVLSLGVAIWHGYRYSRPLLLFTGWFERMGRGAYEEVLTPKDRKRVFRKNGKLRTRYRLYKEVIHSFYRMAEQLAETERERERLDRNREEWMSGISHDLRTPLSSIQGYGYMLENAPQDWSQEELREMGTVIREKGDYMLELINDFSLVFRLRSEIRPKERTRLDLNELVRRCVLKYVNDATLDANFNYIGGEEVLPVDGNAKWLQRLMDNLITNAVKHNPDGVNVEVRVESRPGGAAIVVADQGVGMDEETRCNLFERYYRGTNTEESMDGSGLGMSIAKAIVEAHRGRVSVWSELGRGTTITVFLPEAAAQEGEGASMRGKE				NA	NA	NA	NA	NA
AK002_06010	720	regX3_5	COG0745	Sensory transduction protein regX3	ATGGATCAAACACGAATTCTAATCGTAGACGACGAACCTTCCATTGTGAAAATGCTGCAGATGGTGCTGCGCAAGGAAGGCTTTAACCGAATATACACGGCTTCCAGCTGCAAGGAAGCGCTCAGCGAAATCGCTGCGCACGGTGCGGATATCGTGCTGCTGGATGTCATGCTGCCGGACGGCACGGGATTTGACCTCTGTCCGCAGATCCGTTCCTATGGCAGTCCGCACATCCTGTTCCTGACGGCCAAGGCGTCGGATCTGGATGTGCTGACCGGTTTTGCGATGGGCGGGGACGATTATGTCACCAAGCCCTTTAATCCGCTGGAGATCGCTGCGAGGATCAAGGCGCGTCTGCGCCGGGGCGGATTTGGACCGGCGGCTGCGGCAGAGCAGCAGGCGATTCAGCGCGCATGGGATTTCGGCCGGTTCAAGGTCGACGAATCCGCAGGCGAGCTGACGGTGCTGGGAGAGCCCGTGCCTTGTCCGGCGCAGGTCTTTCAGCTGCTGCTGTATTTTTGCAAGCATCCCGGGGTCGTATTCTCCAAGTCGCAGCTGTACGAAGCGGTGTGGGGCATCGACGGGATGGGCGAGGACAACACCGTTATGGTGCATATCCGCCGCATCCGCGAGCGCATCGAGGAGGACCCGAGCAACCCGCAGTATCTGCTGACGGTCCGGGGACTTGGGTACAAGCTGGTCAAGGAGAAAGCGCGATGA	MDQTRILIVDDEPSIVKMLQMVLRKEGFNRIYTASSCKEALSEIAAHGADIVLLDVMLPDGTGFDLCPQIRSYGSPHILFLTAKASDLDVLTGFAMGGDDYVTKPFNPLEIAARIKARLRRGGFGPAAAAEQQAIQRAWDFGRFKVDESAGELTVLGEPVPCPAQVFQLLLYFCKHPGVVFSKSQLYEAVWGIDGMGEDNTVMVHIRRIRERIEEDPSNPQYLLTVRGLGYKLVKEKAR	PGPT0002675_87	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002675-regX3-K07776	NA	NA
AK002_06011	1230			hypothetical protein	ATGAATTCAAATAAACGTTCGACCGCCGTGGATGCAATCCGCGGCTTGAGCTTGCTCGGCATCCTGATGGCCAATATGCTTATTTTCCAGTACGGCATGTTCGGCAAAGACGAGCTGCATTTCTTCCAGCCCTCCACGCTGGACCTGATCAGCCATGACATGCTCAAGGTGTTCGTAGAGGGCAGCTTCATGCCTATCTTTACGTTCCTGTTCGGCTACAGCATGATCAAGATGCGGGAAAGCCTGATCGGCAAGGGGCTTAAATACGGGCGCAGCTTCTTCCGCAGGTCGGTTCTTCTGATCGTACTCGGCCTGCTGCATTCCATATTCATCTGGGAAGGCGATATTCTGCTGTTCTATGGGGGGATCGGCCTCTTCCTGGTGCTGTTTGTGAAACGGAAGGCCAAAACGATTTTGATCTGGGGCATTCTCTTGCTCGCGCTGATGGCCGTCTTGGGGTACGGCTCCATGGAGCCTGCGGCAGGCGAAGCGGAGCGCATGGAGAACTATGTGAAGCAGTCCATCGAAGTCTACGGCAGCGGCACGTATAGCGAGATCCTAAATTTCCGGTCAACCGAGGAAATGCCCATCGACCTCCCGGACTGGCTGATGCTGCTGGTGATCCTGATTGCCCCCCTGATGAGCGCGCCGATGTTCCTGTTCGGCATGGTCGCCGCGAAACGCGGGCGCTTCCTCCATCCGTCCATGGAGATCAGGCTGTATTTAAGATGGTCGCTGCTCATTCCGGTCGGGCTTGGACTGAAAACCGCAGGCGTTATGCTCGAATCCACGAACAACTGGAGCGGCGTCCTAATGATGCTCGGCGGCCCCCTGCTCGCACTGGGGTATCTCCACCTGTTCGCGTCCCTGTACGCCTTCTCGTCCAAACAATCGGTGGTGATTCGGGCGTTCGAAGCGGTGGGGCGAATGTCGTTAACGAACTATCTGACGCAAAGCGTTGTATGCGTATTGATATTTTACGGTTTCGGATTGGGCATGTTCGGCAAACTCGGCGTGCTGCAGGGAGCGCTGCTGGCGATCCTCATCTATGCCGTACTGGCAACGGCCAGCCTGCTCTGGTTGAAACGGTTCCGCAGCGGACCGGTTGAACGGCTGCTCCGTATAGGCACCTACTGGTCGTGGAGCGGAAGGGCAAAACCTAAAGCGGGAGCACCGGCTTCCGCCGTACCTGCGGCAGAGCTCTCGGCTGAAGGTCCCCCCGCGACCTGA	MNSNKRSTAVDAIRGLSLLGILMANMLIFQYGMFGKDELHFFQPSTLDLISHDMLKVFVEGSFMPIFTFLFGYSMIKMRESLIGKGLKYGRSFFRRSVLLIVLGLLHSIFIWEGDILLFYGGIGLFLVLFVKRKAKTILIWGILLLALMAVLGYGSMEPAAGEAERMENYVKQSIEVYGSGTYSEILNFRSTEEMPIDLPDWLMLLVILIAPLMSAPMFLFGMVAAKRGRFLHPSMEIRLYLRWSLLIPVGLGLKTAGVMLESTNNWSGVLMMLGGPLLALGYLHLFASLYAFSSKQSVVIRAFEAVGRMSLTNYLTQSVVCVLIFYGFGLGMFGKLGVLQGALLAILIYAVLATASLLWLKRFRSGPVERLLRIGTYWSWSGRAKPKAGAPASAVPAAELSAEGPPAT				NA	NA	NA	NA	NA
AK002_06012	306	isdG	COG2329	Heme-degrading monooxygenase	ATGCTGGTTGTTACAAACTCGATCAAGGTCAAACCGGGCTTCGGGCAAGAAATCACGCAGCGGTTCGCTGAAGCGAAGGGCGTTCAGGAAATTGAAGGGTTCGTGCGGATGGAAGTATGGCATGAAGCCAAGGAAGGCGCAGAGGCCGAGGAGCTGAAGGTCTCGACGGTATGGGAAGACGAGGAGGCGTTCAAGCGCTGGACTTCCAGCGAATCGTTCCGGCAATCCCACGGTCAGGGCCGCAACGAGAATATTTTGGGTGCATCCTTGAACAAATACGAGCTGCTGATCAGTCATAAGAAGTAA	MLVVTNSIKVKPGFGQEITQRFAEAKGVQEIEGFVRMEVWHEAKEGAEAEELKVSTVWEDEEAFKRWTSSESFRQSHGQGRNENILGASLNKYELLISHKK	PGPT0003630_304	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-HEMOPHORES-HEME|HEMIN_UTILISATION,PGPT0003630-hmoA-K07145	NA	NA
AK002_06013	462			hypothetical protein	ATGTCCAGTAAACTCGTATTGATCATGGTGGTGGGAATGCTCGTTGTTCTGGGTATCGCCGGCTGCAGCGGAATTTACGAGGAAACCGAATCTGCGGACCAACGACTGTATTCGGTCAAGAAATTGATGAAGCTGGATACAGCGAGGGTACAGGCCATTCAAGTCGTGTATGGGGATGGCACGCGGATGGTACTCGACCAGGAACAGGACATTGAGCCGATCATGAAGCGGGTGGATACCCTTCAAGCCAAACGGATGGCGGGTAACGAGGAACCGGGGTTCTTGTTCTTTATGGATGTCGTGCAGGGCGAGCAGCAGATTCGCGTGGCGAGCGAGTTTGAGGTGGATGGGGAGTCGTATATATTGGCAGGCCCGGAGCTCCCCGAACTGAACGCGTACATGGTGGAGCTGGGACGCTCCCATAACCCCGAATTGCTGCCGGGATTAACGTTTAACGAGTAA	MSSKLVLIMVVGMLVVLGIAGCSGIYEETESADQRLYSVKKLMKLDTARVQAIQVVYGDGTRMVLDQEQDIEPIMKRVDTLQAKRMAGNEEPGFLFFMDVVQGEQQIRVASEFEVDGESYILAGPELPELNAYMVELGRSHNPELLPGLTFNE				NA	NA	NA	NA	NA
AK002_06014	132			hypothetical protein	ATGGAAAGCACGCATGATTTCGTGGAAAAAATGAACGAGAACGCGGAGAAAGCCCGTCGCAACAAAGAGAATCACGGCAAAGGAACGCCAAGCGACAAGCTGCCAACCAAGCAGCACGGCACCAAGAAATAG	MESTHDFVEKMNENAEKARRNKENHGKGTPSDKLPTKQHGTKK				NA	NA	NA	NA	NA
AK002_06015	342			hypothetical protein	ATGAATCAAGAAGTAACGGATTACATGGCAGCCATCAGCGATACCTGGAAGGTCGAAGTCAGCGAGCAGCTTCGGGAGCTCGTGCACAGCACGATCCCGGACGCTACGGAACGGCTTCAATATAAAAAGCCGCATTTTCTGAAAAACGGAAAATACGCGGCGGTGATCAGCGTCGCGAAGAGCGCCGTGAGCTTTACGATTTTCAATGCGGAAGGGCTGGACTGGCCCGAGACGCTGTTCGAGGGGCCGCCTGAGCGAAAGACCATCAAAATATCGGCCGGGCAGCAGGTCGACTATGCTGCACTGGCTTCCTTGCTGAAGCAGGCGTCCGAAGGCCTGTAA	MNQEVTDYMAAISDTWKVEVSEQLRELVHSTIPDATERLQYKKPHFLKNGKYAAVISVAKSAVSFTIFNAEGLDWPETLFEGPPERKTIKISAGQQVDYAALASLLKQASEGL				NA	NA	NA	NA	NA
AK002_06016	399			hypothetical protein	ATGCAAGCACAAATGGTACCTTTTATTATTTCCGAGGATGCAAGAGGCCAGGCCGAATTCTACATGCAGGCGATTGGCGGAGAGATCGGTGTATTGACTACATTCAAAGACATGCCTGGAATACCGGAAGCCCATCAGGATAAAGTCATGCACATGTCGTTAACGCTGGCCGGCGGCAATCAGCTGATTCTCTCCGACGCTTTTCAAGAAACCGGCAAGAGCACGAGCATGGGGCTGGCCATCACGTTCGATCACGAGGAAGACGCCCGCGCTGCTTATCGCCGTCTCAGCGACGGGGGGACCGAGAAGTATCCTTTTGCCCTGCAGCCTTGGGGAGCCTATTACGGCGAAGTGGTAGATCGGTACGGCATGACTTGGCAGATGGTTCATCAGGCTTGA	MQAQMVPFIISEDARGQAEFYMQAIGGEIGVLTTFKDMPGIPEAHQDKVMHMSLTLAGGNQLILSDAFQETGKSTSMGLAITFDHEEDARAAYRRLSDGGTEKYPFALQPWGAYYGEVVDRYGMTWQMVHQA	PGPT0030505_3263	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_06017	1263			hypothetical protein	ATGTCGGCGGCCGATACCCATCGTACGATCGAGGCCATCTGGAGAATCGAATCTTCCAAAATCATTGCCTACCTGACCCGGATGGTCCGTGACATCAGCCTCGCTGAGGATCTGGCTCAGGATGCGCTCATTGCAGCGCTGGAACGGTGGCCGAATGACGGAATACCGGATAACCCCGGCGGATGGCTTATGACCGCGGCAAAGCGCAAAGCGCTGGACCTGCTGCGCCGGAATAAGGTGCGCGATCGGAAGTATGAGCTGTTGGGACGCGAAATGGATTCCCGGATGGATTCGGAAATGGAGGTGCCGGAGGCGGGAGAAGTGAACGACGATCTTCTGCGGCTGATCTTCATGACCTGCCATCCGGTTCTGTCCCCCGAGGCGCGAGTAGCCCTGACGCTGCGCCTGCTCGGCGGGTTGACGACAGCGGAGATCGCCCGCGCTTATCTTGTGCCGGAACCGACGATCGCGCAGCGAATCGTTCGTGCCAAACGGACGTTGTCCGCGACCCGGGTTGCATTCGAGATTCCCCAGGGAACCGAACTGAAGCCGCGATTAGCATCAGTCCTCGAGGTTATCTACCTCATGTTTAATGAGGGATACGCCGCCTCATCGGGCAGCCAGTGGATTCGTCCGCTGCTGTGCCAGGAAGCGCTTCGGATCGGACGGGTGCTGGCGGAGATCGCGCCGACGGAGGCCGAGGTGCACGGATTGGTCGCGTTGATGGAATTTCAGTCCTCCCGGTTCAAGTCACGGGTCAATGCGCAGGGCGAGCCTGTGCTGCTCATGGACCAGAATCGGGCATTATGGGATTATTTATTGATCCGGCGCGGTTTTGCCGCTCTGGAGCGAATCGAGCGGTTGGGCGGAATGACCGGGCCTTACGCTATTCAGGCAGCCATCTCCGCATGCCATGCCGGAGCGCCCAGTGCCGCAGAGACCGACTGGATTCGGATCTCCGCGCTGTATGAGGCATTGGCGCAGGTGTCTCCCTCGCCGATCGTGGAATTGAACCGGGCCGTGGCCCTTTCCATGGCTTTCGGCCCGGAGATCGGGCTTGAGATCGTGGACGTTTTGCGAGGCGAGCCTGCCTTGAAGGGGTATCATCTTCTCCCTAGCGTGAGGGGTGACATGCTCTTTAAGCTGGGTCGCATGGACGAAGCCTGCGCGGAGTTCAAGCTGGCCGCATCGCTGACGGATAATCAGAGGGAGCGGGCGCTGCTCCTTGACCGTGCGGCAGAATGCCTGCGAGCGGCCCCTTGA	MSAADTHRTIEAIWRIESSKIIAYLTRMVRDISLAEDLAQDALIAALERWPNDGIPDNPGGWLMTAAKRKALDLLRRNKVRDRKYELLGREMDSRMDSEMEVPEAGEVNDDLLRLIFMTCHPVLSPEARVALTLRLLGGLTTAEIARAYLVPEPTIAQRIVRAKRTLSATRVAFEIPQGTELKPRLASVLEVIYLMFNEGYAASSGSQWIRPLLCQEALRIGRVLAEIAPTEAEVHGLVALMEFQSSRFKSRVNAQGEPVLLMDQNRALWDYLLIRRGFAALERIERLGGMTGPYAIQAAISACHAGAPSAAETDWIRISALYEALAQVSPSPIVELNRAVALSMAFGPEIGLEIVDVLRGEPALKGYHLLPSVRGDMLFKLGRMDEACAEFKLAASLTDNQRERALLLDRAAECLRAAP	PGPT0014960_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_06018	432			hypothetical protein	ATGAGATTTATGATGATCGTGAAAGCAACCGAGGATTCCGAGGCAGGCGTGCTGCCAAGCGCAGAGCAATTGGATGCCATGATGAGGTACAACATGGAGCTGGCCAGGGCGGGCGTGCTGCTTGCTGCGGATGGGCTTCACCCAAGCTCGGGCGCCATCCGGATTTCTTATCCGGAGCCGGGAGGCAAGCCGAAAATCACCGATGGTCCCTTTACGGAAGCGAAGGAGCTGATCGCGGGGTATACCTTGATCGAAGTGAAAACGAGGGAAGAAGCGATCGAGTGGGCCAAACGCATGCCTGATCCGCACGGCTTCGGTGCGGGGCAGATCGAGCTCCGTCAGGTATTCGAACCGACAGAGCTAACGCAGGACCCGGAAGCGCAGGCCAAACAATATGAAATGCGCGAACACATCCAAAGGCAGAATCCGTAA	MRFMMIVKATEDSEAGVLPSAEQLDAMMRYNMELARAGVLLAADGLHPSSGAIRISYPEPGGKPKITDGPFTEAKELIAGYTLIEVKTREEAIEWAKRMPDPHGFGAGQIELRQVFEPTELTQDPEAQAKQYEMREHIQRQNP	PGPT0030505_38	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK002_06019	126			hypothetical protein	ATGATCCTAATCCAATCCCCTTCCTATGGCAGTCAGTCCATCCCATGGACTTCGCTAGGCTCCCTTGCCGAGCAAATCACGGCCTTCTACAAGCAGCCTTGCGATACGCCGCAGAAGGCACTATAA	MILIQSPSYGSQSIPWTSLGSLAEQITAFYKQPCDTPQKAL				NA	NA	NA	NA	NA
AK002_06020	555			hypothetical protein	ATGGACGCTAAGATCCCGAACCGGATCCATATTATCGGCTCCGTCGGCAGCGGCAAAACAACGCTTGCCCGGAAGCTGTCCGCCCAGCTTAACCTCCCCTATTACGAGCTCGACAATGTCGTATGGGAGCGGGCTGAGCCGGACGATATTAGAAGGTGTGAGGCAGATCGGGACGCGCTATTGCTAAGCATCGTGAACACGAATGGCTGGATCATCGAGGGCGCTCATCTGAAATGGGTCAGCCCCAGCTTCCGCCATGCGGATCTTATCGTTTTTCTGAACCCGTCTTACTCCACAATAACCTACCGGATCATCACAAGGTTCATCAAGCAGCGACTGCGACTTGAACAGGCGCACTATACCCCTACTTGGGACATGTTCAAAAAAATGTTCGAATGGAGCGCCGCCTATCAGCGGGAGGGCAGATATCAGATTCAGGACACGCTTGCGGATTATCCCGGCAAAGTGGTCGTCGTGAAGAGCCATGAACAACTCATGCAGGAGCTTAAGCAGGGGATCCCCTCCTTAGAACACCAAGAAAGGACCTCCGGTTAA	MDAKIPNRIHIIGSVGSGKTTLARKLSAQLNLPYYELDNVVWERAEPDDIRRCEADRDALLLSIVNTNGWIIEGAHLKWVSPSFRHADLIVFLNPSYSTITYRIITRFIKQRLRLEQAHYTPTWDMFKKMFEWSAAYQREGRYQIQDTLADYPGKVVVVKSHEQLMQELKQGIPSLEHQERTSG				NA	NA	NA	NA	NA
AK002_06021	915	cysK_2		Cysteine synthase	ATGGAGATCTATAATAGTGTGGTTGATATGATCGGTCAGACGCCAATGGTGAAACTTCGGCGGTTGGTGCCGGAAGGATCAGCAGACGTCTATGTAAAGCTTGAGAGATTCAATCCTTCCGGCAGCGTGAAGGACCGTGCGGCCTACAATCTGATTCATACCGCGGAGGAGCAGGGCCTGCTCCAACCGGGGGGCACCATTATCGAGCCGACGAGCGGGAATACCGGCATCGGCTTGGCGATGATTGCAGCCGCCAAGGGCTATCGGGCCATCTTGATTATGCCGGACAACATGTCCAAGGAACGGATTAATATCCTGAAGGCCTACGGTGCGGAGGTCGTGCTGACACCGAGCAGCGAACGCATGCCGGGCTCGATTGCCAAGGCGCTCGAGCTTAGGGAGCAGATTCCGGGCAGCTTCATTCCGCAGCAGTTCGAGAATGCGGCCAACCCGGACATTCACAGGGTGACGACAGCGCCGGAAATAATGGATCAGATGGAAGGGCGGCTGGATGCCTTCGTGGCGACGGCAGGAACGGGCGGCACCGTAACCGGAACCGGGGAAGAGCTGAGGAAGTCTCTGCCGAACCTGCATATCGCGGTGGTCGAGCCGCAGGGCTCGCCCGTGCTCTCCGGCGGACAGCCGGGACCGCACAAGCTCGTGGGCACAAGCCCGGGCTTCGTACCGAAGATTCTGAATACGGGCGTATATGACGAGATTATCCAGATCGCCGACGAGGATGCACTGCAGACCATCCGGCATTTGGCCCGTAAGGAAGGAATACTGGTAGGGCCATCCTCCGGCGCATCGGTATTCGCGGCCCTTCGCGTAGCGAAGCGGCTGGGGGAAGGGAAGCGGGTTGTCTGCATTGCCCCGGATACGGGAGAGCGGTATCTCAGCATGGATATTTTCTAA	MEIYNSVVDMIGQTPMVKLRRLVPEGSADVYVKLERFNPSGSVKDRAAYNLIHTAEEQGLLQPGGTIIEPTSGNTGIGLAMIAAAKGYRAILIMPDNMSKERINILKAYGAEVVLTPSSERMPGSIAKALELREQIPGSFIPQQFENAANPDIHRVTTAPEIMDQMEGRLDAFVATAGTGGTVTGTGEELRKSLPNLHIAVVEPQGSPVLSGGQPGPHKLVGTSPGFVPKILNTGVYDEIIQIADEDALQTIRHLARKEGILVGPSSGASVFAALRVAKRLGEGKRVVCIAPDTGERYLSMDIF	PGPT0002810_7242	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
AK002_06022	852			hypothetical protein	GTGAACATTCCGCTGATACTACCTGAAGACCAACCCGTCCTGCTGCTCGACCGGACCGATAATTTATCGCATCAGGACGTGCTGTATCATTTTGCGCTGGACGAGCTATTATGCAGGCTAACCGGAGAAGGCGGGCCCGCCATCTGCCATCTATGGCGGCATCCGCGCGCCTTTGTCATGGGCGTGCGCGACAGTCGTCTGCCCGAGGCGCCTCAAGGGGAAGCCAACCTTCGCTACCTCGGCTATGACACCGCCGTGCGCCATTCGGGCGGTGCCGCGGTACCCTTGGACGCCGGCGTGGTGAACCTGTCCCTCATCCTCCCCTTTTCCTCCGCCGGACCGGCGCCAGATTTTCATCAAGACTTTGAGATCATGGTGGAGCTCATCCGGGAAGCCCTCCGGGACACCGGGCAAATGGTGGATACCGGCGAGATCGCCGGCGCCTTCTGCCCCGGAACGTTTGATCTAAGCATCGGCGGCCTCAAATTTTGCGGTATTGCCCAGCGGCGGCAGCGGAAAGCCTTCATCATCCAGGCTTTCATCATTGCCGAGGGTTCGGGCAGCGAGCGCGCCCGACTGGTTCGTTCCTTCTATGATATCGCAGCTGAAGGAGCCGATCCCAAGCAGTACCCTCTGGTAGAGGCCGACAGCACGGCCAGCCTCGAAGAGCTGACCAACATCGGCAGCGGCTTCGAAGCAGTGCGCCAATTTACGTCAGCCGTCAAAAAAGTCATTCGAGGATGGCAAGCAGGCAAGGATTTGGCCGAAGCAGCTTCCAGGTTTACGATGCCTGGGGACGAGGATATCCGCTTTATGGCTGATCAGATGCGTCAGCGGTATAACCTTAATTAA	MNIPLILPEDQPVLLLDRTDNLSHQDVLYHFALDELLCRLTGEGGPAICHLWRHPRAFVMGVRDSRLPEAPQGEANLRYLGYDTAVRHSGGAAVPLDAGVVNLSLILPFSSAGPAPDFHQDFEIMVELIREALRDTGQMVDTGEIAGAFCPGTFDLSIGGLKFCGIAQRRQRKAFIIQAFIIAEGSGSERARLVRSFYDIAAEGADPKQYPLVEADSTASLEELTNIGSGFEAVRQFTSAVKKVIRGWQAGKDLAEAASRFTMPGDEDIRFMADQMRQRYNLN	PGPT0003940_96	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003940-lipL-K16869	NA	NA
AK002_06023	1638			hypothetical protein	TTGAATAAAACGATGGACCGCAAAACGTTTCTGTCTTATCTGGGTACGGGCGCAACCGCATTGGCAGCCGCTTCTGCAGGCTTAGGCGTATTGGAAGGAAAGGCTTCGGCCATGTCCGGAACCGCAAATCATCTGTTCGGATTCAAAACGAATCGGGTCAGCGGCTACTTCGAGCCAATCGAACCAACCAAAGCAGACCAGCTCGTCCTGCCTAAAAATTTTAAATATGATGTCATTGCGGCATTCGACGACGTAATCAATCCGGCTGGCGAAAAATTCGGCTCCGGCTGCGATTACAACGCATTTTTCCCGCTTAAGGGCTCCAATGTCCGCGGCCTCCTGGTCAACAATCATGAGTATTCCACCATCTTCTCGATCGGACCTGTGAAGGACGGGAAAATGACGGCGGATCAAATCCATAAAAACCTGTATTACCAAGGCATGTCGGTCATTGAGGTATACCGCGACGAGAAGGGCGTATGGAAAATGGACACCACCTCCACCCATGCCCGCCGCATCAACGGCTTCAGCAAATTCGATATCACCGGTCCGGCTAAGGGCATCCCTGCTTTGAAGGGCGCCACGACGGCAACCGGCACGTTTGCCAACTGCTCCGGCGGCGTGACGCTGTGGAACACGGTTTTATCTTGCGAGGAGAACTTCGAGGACACCGCGGCAGTCTCGAACCTTCCGGATACCCATTACGGCTGGGTGGTTGAGGTAGATCCGTTCGATAAATCCTTCTTGAAAAAGCATACCGCCCTCGGCAGATTCAATCATGAAAACACCGCCATGGGCCTTGCCGCAGACGGCCGGGTCGTTGTCTATATGGGCGACGACAAGAAGGATGCCTGCGTCTATAAATTCATCAGCAAGCACAAATACGATAAGAGCAAAGGGCGCGCCAACTCTGCGCTTCTGGAAGACGGAACCCTGTACGTCGCCAACCTCAAATCGGGTAAGTGGCAGCCGGTCACCCTTGAAGCCGTAGCCAAGGCCACTGCAGAAGATAAAGAGCTCCAGGCCAAATTCAAGTCCCAAGGTGACGTTGTGACTTACTGCCAGGAAGCTGCGCGTCTTGTCGGCGGAACGCCGACGGACCGTCCGGAAGACATCGAAATCTCGCCATTCGATAACACCGTGTTTGTCTGCCATACGAACAACGACAATCACGGCAACATCCATGGTCACATTACGCGTATCTTTGAAGCAGGCAACGATCTGGCCGCCATGGAGTTCGATTTCGAAATTTTTGCTGCCGGCGGACGCCAATCCGGATTCAGCTCGCCGGACAACCTGGCGTTCGACTCGAACGGCGACCTGTGGGTCGTGACGGACATCTCCAGCAGCAGCCAGAACAAAGGCGTTCACAAATCCTTTATGAACAACGGACTGTTCGTGATCCCAACAAGCGGGCCGGAACAAGGAACTGCGCTGCAATTCGCTTCCGGGCCGGTAGAGTCCGAGCTGACAGGCCCTTTCTTCACTCCCGACGAGCAGACGCTCTTCCTGTCCGTTCAACACCCGGGCGAGAATACGGAAGACCTCAGCAAACCAACCAGTACATGGCCTCACCGCTCCGGCGAAAAGATGGCACGCTGCGCAGTCGTGGCGATTAGCGGCTTCAAACTGGAATAA	MNKTMDRKTFLSYLGTGATALAAASAGLGVLEGKASAMSGTANHLFGFKTNRVSGYFEPIEPTKADQLVLPKNFKYDVIAAFDDVINPAGEKFGSGCDYNAFFPLKGSNVRGLLVNNHEYSTIFSIGPVKDGKMTADQIHKNLYYQGMSVIEVYRDEKGVWKMDTTSTHARRINGFSKFDITGPAKGIPALKGATTATGTFANCSGGVTLWNTVLSCEENFEDTAAVSNLPDTHYGWVVEVDPFDKSFLKKHTALGRFNHENTAMGLAADGRVVVYMGDDKKDACVYKFISKHKYDKSKGRANSALLEDGTLYVANLKSGKWQPVTLEAVAKATAEDKELQAKFKSQGDVVTYCQEAARLVGGTPTDRPEDIEISPFDNTVFVCHTNNDNHGNIHGHITRIFEAGNDLAAMEFDFEIFAAGGRQSGFSSPDNLAFDSNGDLWVVTDISSSSQNKGVHKSFMNNGLFVIPTSGPEQGTALQFASGPVESELTGPFFTPDEQTLFLSVQHPGENTEDLSKPTSTWPHRSGEKMARCAVVAISGFKLE				NA	NA	NA	NA	NA
AK002_06024	222	tatAd_4		Sec-independent protein translocase protein TatAd	ATGCCGTTTGGCAACATTGGAATCGGTGGTTTAATTCTTATTTTGATTATCGCACTCATCATATTCGGTCCCTCCAAGCTTCCCGAGCTCGGTCGCGCTTTCGGGCGAACCTTAAGCGAATTTAAGGGCGCAACCCGCGGCTTGATGAACGGAGAGGACGAGAATGGGAAAAAAGACGATGCTCCGCAGACTGCTGCAGCGGTCGATAAGCAGCACAGCTAA	MPFGNIGIGGLILILIIALIIFGPSKLPELGRAFGRTLSEFKGATRGLMNGEDENGKKDDAPQTAAAVDKQHS	PGPT0029290_3442	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
AK002_06025	789	tatC1_2	COG0805	Sec-independent protein translocase protein TatCd	ATGGGAAAAAAGACGATGCTCCGCAGACTGCTGCAGCGGTCGATAAGCAGCACAGCTAATCCGAACGACCAAAGCGCGATCGAGCATCTGGAAGAAATGCGGAAGCGCCTGATCCGCACGCTGATTGCGTTTCTGGTCGCGATGGTGGCCGCCTTCATCTACGTCGAGAAGATCTATCACTGGCTGGTACGCGGGATGGACGAGCAGCTCGTTCTGCTCGGTCCCTCCGAAGTGATGTGGGTGTATATGATCATTGCAGGCGTGGTGGCCGTTACCGTCACGCTTCCCATTGCCGCTTACCAAATATGGCGGTTCGTGCAGCCGGCGCTGCCGGACGGAACCCACCGCTCCGCCATGCTGCTCATTCCCGTCATCAGCGTGTTATTCATCGCCGGCATCTGCTTCGGATACTTCGTGCTGTTCCCGATGGTGCTGCAGTTCATGCAGCGCATGGCCGAAGGAGCCTTCCAAACGATGTATACCGCGCAAAAATACTTCACGTTCATGATTCATATGACCGTACCGTTCGGATTTCTGTTCGAAATGCCCGCCATCGTCGTTTTTCTGACGAAGCTCGGCATCGTGAATCCGCACCGGCTGGCCAAGATGCGCAAATCAGCCTACTTCCTGCTCTGCATCGTGGCCGTGACCATTACGCCGCCGGATATCATGTCCGATCTGATCGTGATCGTCCCGCTGTTCCTGCTGTACGAAATCAGCGTTTCGATCTCCAGATTCATCTATCGCAAGCAGCTGCAGCTAGCTCAAGCGGAGGGCAGCGCAACCTAA	MGKKTMLRRLLQRSISSTANPNDQSAIEHLEEMRKRLIRTLIAFLVAMVAAFIYVEKIYHWLVRGMDEQLVLLGPSEVMWVYMIIAGVVAVTVTLPIAAYQIWRFVQPALPDGTHRSAMLLIPVISVLFIAGICFGYFVLFPMVLQFMQRMAEGAFQTMYTAQKYFTFMIHMTVPFGFLFEMPAIVVFLTKLGIVNPHRLAKMRKSAYFLLCIVAVTITPPDIMSDLIVIVPLFLLYEISVSISRFIYRKQLQLAQAEGSAT	PGPT0029295_2929	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
AK002_06026	1578	mdlY		Mandelamide hydrolase	ATGATGAAAAAACAAACCAAGATATTCAAACGCGTGTTGTCCATGGCACTCCTGCTAGGATTGGCCATGAACAGCATAACCGCTGCGGCAGCTGAACGGTTTGCCTATGAGGAAATTACATTGAAGGAGCTTGAGAAGGGTTACGCGGAAGGAACGTTCAAGACCGAGGAGGTTGTGAAGGCCTACCTCGACCGGATCGGCATCTATGAATCCAATTACAATGCGTTCACCATGATGAATGCGGGCGCGCTTCAGGAAGCCCGCGAGGTTGACCGGCGCCGGTCGGCCGGCGAGAAGCTCGGCCCCCTTGCAGGTGTGCCGATTGTCATCAAGGAAGCCGTCGACGTCGCCGGCTTCCCGTCCACCTTCGGCTGGGCCCCGCTCAGCAAAGAGCTCGGCGGAATCGAGCTGATTCCGGAGAAGGACGCCCCCGTCGTTGCCCGCTTGAAGGCGGCTGGCGCCATTATACTGGGCAAGACCAATATCCCGGCATTCAGCTCCGACGGTACGCGCGCCAGCTCCAGCTGGGCTGGCGACACCTATAACGCCATCGATCGAAAGCTGGTTCCGGGCGCCAGCAGCTCCGGCACGGCGATGTCCATATCGGGCAACTTTGCCGTGCTCGGCATTGCCGAAGAAACCGGCGGATCGATCCAGAATCCGGCGGCTGCCCAAGCGCTGGTCGGCATCAAGCCAACCTTCGGATTGGTGCCGAATGCCGGGGTCGTGCCTCTCGCCGGAAGCACCAGAGACGTTGTCGGCCCGCATGCCCGTACGGTTCACGACGCCGCCGTCATGCTGGACGTCATCGCAGGCTATACGGCCGAGGATGCCAAGACCGTTGCATCGATCGGCAACATTCCCAAGAAAGGCTACACCTCCAAGCTGAATCCGTTGGCCCTCAAGAACAAACGCATCGGTCTCTATGGCCCGGGGTGGCTTGGCGAAGAGCTGACGGCGGAGACCCAGAAACTATATGACCGGGCCGTGAAGGAACTGGAGAGTCAGGGAGCCATCGTGGTTACCGATCCGTTCGCCGATACGGAATTCGCCGAATTCGCCAAGTCGTCAGGCTCCATCGGCATTGAATCGATCGTGTACGATATGGAGCAGTATCTGAAGCGCCTGGGTCCGAATGCCGCCATTCAGTCGGTGGATGAACTGATCGAGAAGACGGGCGAGACCCCATCGGCGCTCGCCAGGTACCCGGAAGCCTTGAGTAATCCTGGCGCCGTCCCTGATCTCTCAACATTCACGGATATCCGAACGAAGTATCTCCATATTTTTAACGACGTGCTGGATCAACACAAGCTGGATGCACTCGTCTTCCCTCAGATGTATAAGGAAACGCCGCTGCTTCACAGCGAAGACAAAATCGCCGACACTACCGTTCCCGAGATCAACATCGCGGGCGTTCCTCTCGTCACGGTGCCGGCTGGATATTATAAGAGCGGTTCTCCGTTCTCCATCGCCTTTGTCGGCAAAATGTGGAGCGAAGCCGACTTGCTCGGCATGGCCTACGACTACGAGCAGGCAACGAAGCATCGCGTTGCCACAACGCTTGTCGCCAAGCCTTAA	MMKKQTKIFKRVLSMALLLGLAMNSITAAAAERFAYEEITLKELEKGYAEGTFKTEEVVKAYLDRIGIYESNYNAFTMMNAGALQEAREVDRRRSAGEKLGPLAGVPIVIKEAVDVAGFPSTFGWAPLSKELGGIELIPEKDAPVVARLKAAGAIILGKTNIPAFSSDGTRASSSWAGDTYNAIDRKLVPGASSSGTAMSISGNFAVLGIAEETGGSIQNPAAAQALVGIKPTFGLVPNAGVVPLAGSTRDVVGPHARTVHDAAVMLDVIAGYTAEDAKTVASIGNIPKKGYTSKLNPLALKNKRIGLYGPGWLGEELTAETQKLYDRAVKELESQGAIVVTDPFADTEFAEFAKSSGSIGIESIVYDMEQYLKRLGPNAAIQSVDELIEKTGETPSALARYPEALSNPGAVPDLSTFTDIRTKYLHIFNDVLDQHKLDALVFPQMYKETPLLHSEDKIADTTVPEINIAGVPLVTVPAGYYKSGSPFSIAFVGKMWSEADLLGMAYDYEQATKHRVATTLVAKP	PGPT0006115_1669	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRP-DEPENDENT_PATHWAY_2,PGPT0006115-EC_3_5_1_4|amiE-K01426	NA	NA
AK002_06027	2298	rhaR_69		HTH-type transcriptional activator RhaR	ATGAAATGGAATCACTTCAAGTCCAAGCTTCTGCTTAAATACACACTGTCCTACATATCCATTTTCCTGATACCTCTTGTTATATTAACCATCATCATTTACCACAATGCCGTGGATACGCTCCGTTCCGAGATCGAGCAGACCAACGTCAATCAACTGACCCAGGCCAAAACCGTCATCGATGAGCGCATGAAGGAGCTGCAGGACATCGCGTTTCGGATTGCCTACGACGAGCAGCTGACCCGCTATTGGACCCACCATCCGTACTACAGCCGGGAATCCATCGGGGCCTTGGTCAAATACAAAGCCACTAGCTCCATCATCGATGAACTGTTCCTCTTCTTCCGCGGAGATAACAGCATTTACTCGTCTCAAGGCTTTGAGAACCTGAACGTCTTTACCGACCGCTACAAATTCAACAGCTGGAACGAAACGGAGATGGTCCGGGATTTAAACTCCGTTCAGATCCCGACCATGCGTCCGGCGGAACAAGTCGTGCAAGGGACCAAAACCCAGAATTCCATGCTGGCATACCTTGTGCCGATCGCACCCAACAATACGCCGGCTCACGGCACCGTCATGTACTTCATCCATGAATCCAATCTGACGGGATTGATCGACTCCATCCTCAGCGATTATCATGGGATGACTTATATTTTCGATAATTACGGACAAGTGCTGGCAGCCAATTACAAAGGCGAGACCATTACCGAGCAGGAGGTCAACGCGCTGTTCTCGCTTGAGCCGGGAACGCACAGCCTTTCGTTGAACCAGGAGCCCCATTCGGTTGTATCCGTCAAATCCGATGCGGGCTGGACTTACGTCACCGCGATGCCAAGCAACCAATTTTTCGGCCGCATCGTGCATATTCGCACTTTTATCGTTCTGGTATTCTCCTTCGTGGTGATGATGGGCACCATTCTGGCGATCATGCTGGCCCGCAGGCAATACCATCCGATTTCGGATTTGATGGAGTTCATTCGATTGAAGAATGATCCCGAACCGTCCACCCCCAGCAACGAGCTGGAATGGATCAAGAAGACGCTGCATGATTACAGCCAGCGCGTCGACCTTCAAGAGCCCTATGCGCGAAATCACATTCTGCTCATGCTGCTGAAGCACGGTCATACCGGGGAATTCCCCGCCGAGTATACGGAGAAGCTGGGCATCCGCTTCAGCCGATCCCACTATTTCGTCGTGACCATGGGCTGGGAGTCGCATGCCCTTCCCATCGGCGACAATCCGGAACGGCGGCCTGTCATGCAGCTGATGAACGATGTGGAGCTGACCGCTTTTTCCGCCTATGCTTATGGGGTGGAGCTGCCGCAGCCCGATCAGTTGGCCCTCATCGTCGGATTCGATGCGGAAACCGGCCATGAAGCGAGCCTTAACGCCCGCATGGAGCCCATCGCCCTGGCGCTGCAATCGATCGCGGCCGAGCACACGGGCGTCTCTCCCGCGATCGGGGTAGGCAACCGCTACAGCTATCCGGAACAGCTGAATCAGTCCTTCATCGAGGCAACGACCGCCCTGGAAGCATCCATGCTGCATGGACAGGGGAGCAGCACCTTCTTTAACGCTCTTTCAGGCTCCGGTGCGCAGGATTCCTCCTTCTGGGTCCCTAAGGATGTGCTGCTGAAGCTGGTACAAAGCTTGAAGCAGGGCAGCTACGACGTGGCGGTTCAGATGGTATCCACCGCATTGAATAACCTGAAGGCGGAAATGCCGTCCGTACCGCTGCTGCGCTGCATATGCTTTGATATTCTCAACACGATGCTGAAGACGGCTTCGGAGCTCGGCATCCATCATGTGGTCAATCAGCTGCCGCGCGTTACTTCCTATGACTCGCTGGAGGATTTGGAGAAGAAGCTGGCAGGCCTTGCCGCCGAAATCTGCGCCCATGTCGAGGCGAAGAGCGAGACGGAAGAAAGCTCCCTGATGGACGAAATCGTCGCTTACATCGATGCCAATTTCACGGATTATGACCTGAGTCTCGGCACGATTTCGTCCAAGTTCTCCATCTCCTCGTCGTATTTCAGCCGCTCCTTCAAAGAGAAGATCGGCATGAACTTTACGCAGTACATCTGGCAGAAACGGATGGACGAGGTCATCCGGCAGCTGCTCCACACATCCGACCCGTTAAAGGATATCATTACGCGGGTCGGTTACCTGGATACACCGAACTTCATCCGCAAATTCAAGAAAGAGACGGGTTACACGCCGGGCCAATACCGTAAAATGCACAGTCCCAACGCAGCCGATTCCACGGACGATGACGACGAGGAGTGCATCGGGTAA	MKWNHFKSKLLLKYTLSYISIFLIPLVILTIIIYHNAVDTLRSEIEQTNVNQLTQAKTVIDERMKELQDIAFRIAYDEQLTRYWTHHPYYSRESIGALVKYKATSSIIDELFLFFRGDNSIYSSQGFENLNVFTDRYKFNSWNETEMVRDLNSVQIPTMRPAEQVVQGTKTQNSMLAYLVPIAPNNTPAHGTVMYFIHESNLTGLIDSILSDYHGMTYIFDNYGQVLAANYKGETITEQEVNALFSLEPGTHSLSLNQEPHSVVSVKSDAGWTYVTAMPSNQFFGRIVHIRTFIVLVFSFVVMMGTILAIMLARRQYHPISDLMEFIRLKNDPEPSTPSNELEWIKKTLHDYSQRVDLQEPYARNHILLMLLKHGHTGEFPAEYTEKLGIRFSRSHYFVVTMGWESHALPIGDNPERRPVMQLMNDVELTAFSAYAYGVELPQPDQLALIVGFDAETGHEASLNARMEPIALALQSIAAEHTGVSPAIGVGNRYSYPEQLNQSFIEATTALEASMLHGQGSSTFFNALSGSGAQDSSFWVPKDVLLKLVQSLKQGSYDVAVQMVSTALNNLKAEMPSVPLLRCICFDILNTMLKTASELGIHHVVNQLPRVTSYDSLEDLEKKLAGLAAEICAHVEAKSETEESSLMDEIVAYIDANFTDYDLSLGTISSKFSISSSYFSRSFKEKIGMNFTQYIWQKRMDEVIRQLLHTSDPLKDIITRVGYLDTPNFIRKFKKETGYTPGQYRKMHSPNAADSTDDDDEECIG				NA	NA	NA	NA	NA
AK002_06028	1047	chiA1_1		Chitinase A1	ATGACGAAGTACATTGCGGCGGGATACGCCGTCGATTCGGCTCTTCCCGACATGACGCATGAGGATTTGACGAAGCTGACGCATCTGAACGTGGCCTTCGGCCATGTCAAGAACGATGAGATCACGACCGAGCATCTGAAGAATGGCGAGGTTGTCCGGAACATCAAACGGGATCACCCGGATCTTACGGTGCTGCTGTCCGTTGGCGGCTGGAGTGCGGGCGGTTTCTCGGAAGCCGCCTCAACTGAAGGGGGAAGGGGCCGCATGGCCGCATCCGCCATACGGGTGCTGGAGGAATACCCTTTTGACGGGATCGATCTGGACTGGGAATATCCTTGCTACGGGGAGGCCGGCATAGCGTCAAGTCCGGACGATAAACGGAATTTCACCCTGCTGCTCAAGACGATCCGGGAGGCTCTTGATGCCAAGGGCTCGCAAGACGGGCGTCACTACCTGCTTACGATAGCTGCAGGGGCCGACCAGTACTATGTAGACGGCACGGAGATGGCGGAGGTGCAGCAGTACCTGGATTTTGTGCAATTGATGACCTATGACATGCGCGGCGGGTTTCAGATCCTGACCGGGCATCATACGAATCTGTACACGCCCACCGGCGATCTGTTCCGAATCAGCACGGATGCTTCCGTGAACCTGTTCGTCCAAGCCGGCGTCCCGAAGGAGAAGATCGTCATCGGTGCCGCATTCTATTCCCGCGTATGGAATGAAGTGCCGGACCGGAACAACGGCCTTCACCAAATGGCCGGCAGCACGGGCGGTTATGGTCCGGCGTTCGCGGAGCTGGCTGCCGAGTACATCAACAAGAACGGCTACATCCGTTATTGGGATGAGGAGGCTTGTGCGCCGTATCTGTTTAATGGCACCAGCCTGATTTCTTATGACGATGAGGAATCGATTCAGTGCAAATGCCAATACGTGAAGGAGCAAGGCTTGGCCGGGATCATGTTCTGGGAATACGGATGCGACCCGACCCGTCGCCTGCTGACGGCCATGCATCAAGGACTTCAGAGCATCCCGGCCGGGAAATAG	MTKYIAAGYAVDSALPDMTHEDLTKLTHLNVAFGHVKNDEITTEHLKNGEVVRNIKRDHPDLTVLLSVGGWSAGGFSEAASTEGGRGRMAASAIRVLEEYPFDGIDLDWEYPCYGEAGIASSPDDKRNFTLLLKTIREALDAKGSQDGRHYLLTIAAGADQYYVDGTEMAEVQQYLDFVQLMTYDMRGGFQILTGHHTNLYTPTGDLFRISTDASVNLFVQAGVPKEKIVIGAAFYSRVWNEVPDRNNGLHQMAGSTGGYGPAFAELAAEYINKNGYIRYWDEEACAPYLFNGTSLISYDDEESIQCKCQYVKEQGLAGIMFWEYGCDPTRRLLTAMHQGLQSIPAGK	PGPT0012130_5177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK002_06029	2619			hypothetical protein	ATGACCAGCCAAACCATGGTGTTCTCGCTGGATTCGCAAACGCTGGAGCGGATCGAGCAGAAGTTTCAGGAGAAAATCGCTTTCGCGGAGGCCCGCAAGGATCAGCTGTTTCACGTATTTGAGCAGGAACTGACGGAAGAAGAGGCTTGGGCCTTGAAATATTTGTTTGCTTACATGCCGGTGAACGACTTGGCCGACTACGATGGTGCATTGTTCTTAAGCCATGTGCGCCAAGCCTTGGACATCCGTAAGCGCGTGCCTTGGGGCGAGCGTGTGCCGGATCATCTGTTCTTGCATTTTGTGCTTCCATATCGGGTCAATACGGAAAATATTGAGGATTTCCGCGGTATCCTTTACAACGAGCTGGCCGAACGGACGGCGCGGTTATCGATGGCAGACGCCATTCTGGAGACCAATTACTGGTGCCATGAGAAGGCCACCTACATCGGCAGCGATCTGCGAACGATTTCGCCGCTGACGTTGATCCGGAATGCGCGCGGACGCTGCGGCGAGGAGTCTACTTTGGCGGTGGCCGCGCTGCGAAGCATCGGCATTCCCGCGCGTCAGGTGTATACGCCGCGCTGGGCCCATTGCGACAGCAATCATGCCTGGGTGGAAGCATGGGCGGACGGCCAGTGGTATTACATCGGGGCATGCGAACCGGAAGCCCGATTGAACCAAGGTTGGTTCAGTCCACCGGCGCGCAGGGCCATGCTGATCAACACGCGAATTTTTGCCGATTACCCGGGGCCGGAGGATATTACCCTGAATGAGAAGGGATTTACGGAAATCAACTTGCTGGAGAACTATGCGCCGGCGCGTACCCTTGACGTGATCGTGAGGAACGAGCAGGGAGAGCCCGTATCCGGTGCAAGCGTCCGGTTTGAGCTGTACAATATGGCCGAATTTTATCCCATTGCCGAGATCAGGACCGATGAACGGGGAGTGGCTTCCTTCAAGACGGGTTATGGCGATCTCTTGATTCGCGCGGTCAGCGAAGGCAAGTGGAGCGAAATCTTATATAAGGCCAACGACAACGAACGTATTGAGCTTGTGCTTACTTCGTCCGAACAGCCGGCAGGAATCGTGGATTTCGATATGGTTCCTCCACCGGAAGGAGAAGGAGATGCCGCATCGGCGCTGCCGGAAGAGATCATCCGGGCTCATAACCGCCGTCTGGAGGAAGGGTCAAAGATCCGAACCGACTACGAGGGGACATTCCTGAGCGAGGAAAAGGCATTCGCGGTGGCCAAGACGCTAGGGCTGCCACCTGGACGGGTGTGGGACGTTCTGCAAAAAGCCAGGGGCAACAGCCGTGAAATCGCCGCTTTCCTGGAGGAGCGATCGGGCGAATATGGCGAGTGGCCGCTGCGGCTGCTGGAGTCGCTGAACGAAAAGGATTTGATTGATACCTTCCGGCAAACGCTGGATGATCATCTGATGGGCGCGATCTCCCGGCGCGGATCGTGGGATGAGGATACCTTCGTGAAGTACATCCTGTGCCCGCGGGTCTCTTATGAAATGCTGGTTCCGTATCGACGCGTATTCGACCATGCCTTTACGGCCGCGGAGGCAGAAGCGTTCAGGGAAAATCCATCGAAGCTTGCCGGTCATTTGGAGCAAGGCTATGCGTATCATGAAGATCTTCCCAACTTGAAGGGCAAGGGGAATCCGGCCGGCACGTACAGCCTGATGAAGGGAGACCAGCAGTCGCTGGATATTCTGTTCGTGGCGGTATGCCGCAGTCTGGGAATTCCTGCCCGGCTGCATCCGAGCGAGCAGAAGCCGCAGTACCTAGGTGATGGCGGTTGGGAAGATGCGGTATTCCGTCTGGCTTCCCATCGGAATCAGGAGGGATCAAGCTGGGGGATGCTGCAGCTCCTTAGGGACCCGAAGGTCTCGAAGGACGCGCCAACCGCATCCTATGCCGAGAATTTTACCTTCGCCCGCTTGGAAGATGGTGTGTACAAGACGCTGGTATACCCTTATGGCATGACCGATGTTTACGATGGGCCGTATGAGGTGGAGCCAGGTTCTTACCGCTTGACTTCGGGCGTCCGGCTGAAGGACGGAACGGTAAGCGTGCGCTTCACGTACTTTACCGTGCGAGCGGATGATACCGTAGAGGTAGCTCTGACTTATCGGGAAACGGCGGTCGACATTCCCGTGCTGGGCAAGCTCGAGACGGGCGGCGTTTTGACCCGGCTGGATGGAACCGGGGTCGTTCTGAAGGGGCTGTTGGGGTCAGAAGGAGCCGTCGCTGCCTGGATCGAACCGGAGCGGGAGCCGACCAAGCATCTGCTTCGCGAGCTGAGCGAGCTGGCTGAGCCGCTCAACAAGCTGGGATTGCCGATTGTGCTGGCAATCGGAGATGCGGAATGGACGGCTTCCTTTGATCCGGCCGGCTATCCCAAGCTGCCGGCACGCACGGTATTCGTGCGGGATTCCGGTTATGCTTCCTTATCGGGCTTCATCCCGGATCCTGCCGCGCATGAAGCCGGTTACCCTCATTTGTTCGTCCTGGACGGCCAGGACCAGATCCGTTATGCGGCTTCGGGATACAAGATCGGCACCGGGAAAGAAGCGCTGCAGATTGCAGCCGCGATATCACAACCCTAG	MTSQTMVFSLDSQTLERIEQKFQEKIAFAEARKDQLFHVFEQELTEEEAWALKYLFAYMPVNDLADYDGALFLSHVRQALDIRKRVPWGERVPDHLFLHFVLPYRVNTENIEDFRGILYNELAERTARLSMADAILETNYWCHEKATYIGSDLRTISPLTLIRNARGRCGEESTLAVAALRSIGIPARQVYTPRWAHCDSNHAWVEAWADGQWYYIGACEPEARLNQGWFSPPARRAMLINTRIFADYPGPEDITLNEKGFTEINLLENYAPARTLDVIVRNEQGEPVSGASVRFELYNMAEFYPIAEIRTDERGVASFKTGYGDLLIRAVSEGKWSEILYKANDNERIELVLTSSEQPAGIVDFDMVPPPEGEGDAASALPEEIIRAHNRRLEEGSKIRTDYEGTFLSEEKAFAVAKTLGLPPGRVWDVLQKARGNSREIAAFLEERSGEYGEWPLRLLESLNEKDLIDTFRQTLDDHLMGAISRRGSWDEDTFVKYILCPRVSYEMLVPYRRVFDHAFTAAEAEAFRENPSKLAGHLEQGYAYHEDLPNLKGKGNPAGTYSLMKGDQQSLDILFVAVCRSLGIPARLHPSEQKPQYLGDGGWEDAVFRLASHRNQEGSSWGMLQLLRDPKVSKDAPTASYAENFTFARLEDGVYKTLVYPYGMTDVYDGPYEVEPGSYRLTSGVRLKDGTVSVRFTYFTVRADDTVEVALTYRETAVDIPVLGKLETGGVLTRLDGTGVVLKGLLGSEGAVAAWIEPEREPTKHLLRELSELAEPLNKLGLPIVLAIGDAEWTASFDPAGYPKLPARTVFVRDSGYASLSGFIPDPAAHEAGYPHLFVLDGQDQIRYAASGYKIGTGKEALQIAAAISQP				NA	NA	NA	NA	NA
AK002_06030	1026			hypothetical protein	ATGAACAGAAGTGGAGTGCCGGAGCCGAGGATTGAGTATGCTCCCAAGCATTACATATGCAGGCGTGCGGGACAGCCGCTCGTGCTGGACGGGCGCGTGGATAAGGCATTCTGGGATGCGGCGGAATGGACCGACGATTTCGTTGATATCGAAGGGGATCTTCGCCCGAAGCCGGCCAAACGGACCCGGGTTAAAATGCTATGGGATGACGCCTATTTTTATTTTGCCGCCGAGCTGATCGAGGATCAGATTTGGGCGACCTTGACGGAACGCGATTCGGTTATTTTCTATGATAATGACTTTGAAATATTCATTGATCCGGACGGGGACAGCCATCAATATTACGAATTCGAGATCAACGCACTGAATACGGTATGGGACCTGCTGCTGGTGAAACCGTACCGGGATGGCGGGCCGCCGGTTAACGGCTGGGATATCAGCGGTCTCAAGACAGCGGTGTTTATCGATGGGGAGCTGAATCGGCCTGGCGCCGATAACCGGAAATGGAGCGTGGAGGTCGCGATTCCTTGGAACAGTCTGAAGGAATGCGCCGAAGACGGCCGCCCGCCGTTGCCGGGGGAGTTCTGGCGCGTCAACTTCTCGCGCGTCGAATGGCAGACCGAAGTGCAGGACGGGGAGTATCGCAAGGTGGTGAATCCGGAGACAGGCAAGCCTTTCCCGGAGGACAACTGGGTATGGTCGCCCATGGGCATCATCAATATGCATTATCCGGAGCTGTGGGGTTATGTCGTATTCGCCGACGGCGAGGAGGGGCATCAAGCGTTCACGCTTCCGGAAGACGAGCGGATCAAATGGGAGCTGCGCAGGCTCTATTACCGGCAGCGTAACCACTATGAAGCCCACGGTGAATTTGCGCGGGAAATGAAGGAGCTCATGGGCGAGGATTCGTGGAGCATCCAACCCGTGATTGAAACGACCCGCAGCCTGTTCCAGATGAGCGCGCCTTCTTCCGACGGCACGGCTCTGATCTGCATTCGGGAAGACGGAAAGCTATGGAGGGAGTGA	MNRSGVPEPRIEYAPKHYICRRAGQPLVLDGRVDKAFWDAAEWTDDFVDIEGDLRPKPAKRTRVKMLWDDAYFYFAAELIEDQIWATLTERDSVIFYDNDFEIFIDPDGDSHQYYEFEINALNTVWDLLLVKPYRDGGPPVNGWDISGLKTAVFIDGELNRPGADNRKWSVEVAIPWNSLKECAEDGRPPLPGEFWRVNFSRVEWQTEVQDGEYRKVVNPETGKPFPEDNWVWSPMGIINMHYPELWGYVVFADGEEGHQAFTLPEDERIKWELRRLYYRQRNHYEAHGEFAREMKELMGEDSWSIQPVIETTRSLFQMSAPSSDGTALICIREDGKLWRE				NA	NA	NA	NA	NA
AK002_06031	1287			hypothetical protein	ATGCGGAAATGGTTCGAAGAAGCCAAGCTGGGGATCTTCATTCACTACGGCATCTATGCCGTGGACGGGGTCTCGGAATCCTGGTCCTTCTATAACGGGAGGATCACGTACGACGAGTACATGAAGCAGCTGGACGGTTTTACGGCATCGAAATTCAATGCGGAGAAATGGGCGGACTTGATCGAGAAATCCGGCGCCCGTTATGCCGTGCTGACAACGAAGCACCATGACGGCGTTGCCCTGTGGGATACGCAGTACAGCGATCTCAACGTGGTCAAGCGGACTCCGGCCAATCGGGACATCGTGCGGGAGTATGCGGAAGCGATCAGGGAGAAGGGGATTCGCCTGGGCATGTATTTCTCCCTGATCGACTGGTCGCATCCGGATTATCCGAGCGTGTTCGAAGGAGGCAGGGTGCCGGAGGATCTCAGCGGCGTCAACCCGCACACCAGTCCCGTGGACGGCGTTCAGGATCAGGAGAAGTGGCAGAAATTCCTGGAGTTCAACAACAACCAGCTGCGGGAGATCCTGACGAATTACGGGAAGGTGGATCTGCTGTGGTTCGACGGCGATTGGGAACGCAGCGCCGAGCAGTGGAATCTGCCGGAGTTCAAGCATTATCTGCAATCCTTCAATCCGGATATCATCATCAACTCGCGGCTTCAGGGCCACGGCGATTATAAAACGCCGGAGCAGGGCATTCCGATCACGAGGCCGGAGGGACCGTGGGAATTTTGCACCACGATCAACACTTCATGGGGTTATGTGCCGACAGACCATAAATACAAATCATTAAACCAGATCATTCGGATGTTCTGCGACTGCATCTCCATGGGCGGCAATATGCTCTTGGATATCGGTCCCCGCGAGGACGGCACCATCGATCCAAGGCAGGAGGACATTCTGCTTGGGTTGGGAGCTTGGATCCGAACTCATGAGGAGGCCGTATTCGGAACGGGCGAAGGCATAATGACCCGCTATTATCTGGGAGGAAGCACGATCTCCGAGGATCGAAAGACATTGTACTTATTTGTCTATGACGACCCGAAGGAGAATGTGTGCATCAAGGGACTGTGCAATCCGATCAAGAAAATTACCGTGCTGCACTCGGGCAAAGAGCTTGAACATGAAATCCATGGAGGCGTGCCTTGGTTCAACATCCCGGGGACGACGTGGATCAAGATGACGCCGGAAGACACGCATGAGCAGGTGACTGTCCTTAAGCTGGAGTTTGACGAAGAGCTGGAGATGTACGGCGGCTCGGGAGCCGTCGTCACCCATAACTAA	MRKWFEEAKLGIFIHYGIYAVDGVSESWSFYNGRITYDEYMKQLDGFTASKFNAEKWADLIEKSGARYAVLTTKHHDGVALWDTQYSDLNVVKRTPANRDIVREYAEAIREKGIRLGMYFSLIDWSHPDYPSVFEGGRVPEDLSGVNPHTSPVDGVQDQEKWQKFLEFNNNQLREILTNYGKVDLLWFDGDWERSAEQWNLPEFKHYLQSFNPDIIINSRLQGHGDYKTPEQGIPITRPEGPWEFCTTINTSWGYVPTDHKYKSLNQIIRMFCDCISMGGNMLLDIGPREDGTIDPRQEDILLGLGAWIRTHEEAVFGTGEGIMTRYYLGGSTISEDRKTLYLFVYDDPKENVCIKGLCNPIKKITVLHSGKELEHEIHGGVPWFNIPGTTWIKMTPEDTHEQVTVLKLEFDEELEMYGGSGAVVTHN	PGPT0018775_2800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_06032	1386			hypothetical protein	ATGTCGGAGAACAAGCTGGTAGAGGAAGAGCAAGCGGTAGTGGAGCAGGGCGTGCATAATTTCAGCAGCGAGGACAAATGGGTCAAGCCGGAGGATCCGCTGCTCCTGGAGCGCCTGGAGTGGTTCAAGGACCAGAAGCTGGGCCTGATGATGCATTGGGGACCGTATTCCCAGCTGGGCCTGGTAGAATCATGGGCGCTCAGCGATAAAGACGCGGACTGGTCGCGTGACGGCATTGACTGGGATATCGATGCGGAGGAGCTTAAGCGGCAGTATTTCGATCTGAACAAGACGTTCAACCCGCTCCGCTTTCAGCCTGATCTATGGGCTGACCTGGCAGCGGATAACGGCTTCAAATATTTGAACTTTACGACCAAGCATCATGACGGGTTCTGCATGTGGGATACGCATACGACCGACTACCGCGTCACGGGACCGGACTGTCCGTTCCATACCCATAAGTACGCTGATATCACGAAGGAGCTATTCGATGCATTCCGTGCTAAAGGGCTCGGTATATCCGCCTATTTCTCCAAGGCCGACTGGCATACGCCGTACTACTGGGCGCCGGGAATGGAGGCGGGAAGCTTTACGTCTCGCGGACCCAGCTACGATCCGAAGAAATACCCATGGCTGTGGGAACAGTTCGTCCAGTTTACCCATGAGCAGATCATGGAATTGATGACCCGTTACGGCCGCATCGATGTGCTGTGGCTCGATGCGGGCTGGGTGAACGATTACCGGGACCAGAACATTCGATTGGGCGAAGCGGTGGAGAAGGCGCGCAAAATCCAGCCTTGGCTCCTCTCGGCGGACCGGACGGTCGGCGGGCCTTACGAGAATCTGATCACGCCGGAGCAGACCCTCCCTGAACGTGCTCTTCACGTGCCTTGGGAAAGCTGCATCACGATGGGAACCTCCTTCTCTTTCCGTTACGAAGATCGTTACAAATCGGTTCGTCAGCTCATCCATCTGCTGGTCGAGATCGTGGCCAAAGGCGGCAATCTCGCGCTGAACATAGGCCCGCAGCCGGATGGAAGACTGTCCGAGACGGCCATTTCAAGAATGAAGGGCATGGGCGCGTGGCTGAAGGTCTACGGAGAGGCCATCTATGGAACGCGTGTCTGCGAGCCGTATTCCTCCGGCGCGGTCCAGTTTACCCAAAAAGACGATACGACCTATGCCATCTATCTGTATCGTAATGAGCAAGAAGCCGCCCCTGAGGAGCTGTTCATTCCGATTCAGACGGCGTTCGGCCGCGTTGATCTGGTCGGGGGTCAGGAGGCACTGGATTATCGCCGCACGGACGATGGTGTCGCGGTCCGTCTTCCGGATCAGGAGCGTCAGGGAACGGCGCCGATCGCGCATGTACTGCGGTTTCGGTAA	MSENKLVEEEQAVVEQGVHNFSSEDKWVKPEDPLLLERLEWFKDQKLGLMMHWGPYSQLGLVESWALSDKDADWSRDGIDWDIDAEELKRQYFDLNKTFNPLRFQPDLWADLAADNGFKYLNFTTKHHDGFCMWDTHTTDYRVTGPDCPFHTHKYADITKELFDAFRAKGLGISAYFSKADWHTPYYWAPGMEAGSFTSRGPSYDPKKYPWLWEQFVQFTHEQIMELMTRYGRIDVLWLDAGWVNDYRDQNIRLGEAVEKARKIQPWLLSADRTVGGPYENLITPEQTLPERALHVPWESCITMGTSFSFRYEDRYKSVRQLIHLLVEIVAKGGNLALNIGPQPDGRLSETAISRMKGMGAWLKVYGEAIYGTRVCEPYSSGAVQFTQKDDTTYAIYLYRNEQEAAPEELFIPIQTAFGRVDLVGGQEALDYRRTDDGVAVRLPDQERQGTAPIAHVLRFR	PGPT0018775_2022	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FUCOSIDASE,PGPT0018775-fucA-K01206	NA	NA
AK002_06033	1608			hypothetical protein	ATGAAAAAGCTTCGTAAAGCATCATCCATTTTACTCTGCCTCACCCTCTCGGCATCACTGTTGGCCGCTTGCGGTTCCTCCAAAGGAGAAGGAGGGACGGCGTCTCCCGGGACGCCTAGCACGGAAGGCGTCAAAAAAGAAGGATTTCCGATCGTGGATGAACCGATCACGCTGAAGGTCATGTCACAGGACGCAGGTGTGGCGGACTGGAACACGATGCCGGTCCTCCAAGAAATGGAGAAATTAACAGGCATCAAACTGGAGTATCAGCTTTCGCCGATCGACAGCTTTGAAACGAAAAAGAATCTGGTGTTCGCGAGCGGTGACTTGCCGGATATGTTTTACGCGGCCGATCTGAAGCCTGCTGAGCAGGTAACCTACGGCAGCCAAGGCATCCTCATTCCGCTGGAGAAGTACATTGACGAAGGCTATGCACCGAACATCAAAAAGATATTGGATGAGAATCCGGATGTCCGCAAGTCCTTTACGACCCCGGACGGGCATATGTATGCGCTGCCGTTCGTCGACAAGGCCGCCGTATGGTACAGAGGCCCGATGTGGTACAACGGCAAGTTCCTAAAAGCGTTAAACGTGTCCGAACCTAAGACTACCGAGGAATTATATACGTTCTTGAAGCGCGTCAAGGAAGAAGATCCTAACGGAAACGGTAAGCAGGACGAGATTCCGCTGACTTCGGTGAAGCTGGATGACCTGCGCATGTACTTCTTCGGCTTCTGGGGCATGTACAACGAAGGCATCTATTCCGACAAGGACGGGAAAGTACACTATCCTTACCAAGAAGAAGGCTACAAGGGCTACCTGACGTTCATGAACCGTCTGTGGAAGGAAGAATTGCTGGATCATGAAACCTTCTCGCAAACGGGCGATCAGAAAAAAGCCAAGGGAGAAAACAACCAGCTGGCCTTGTTTAACGATTATCATGCGTACTTCACCCTGGGCGGCGAGCCTAGCAGCGAGCATCCGCTCATGACGCCGGTGAAGAGTGAAATCGCCGATTCTCCGGTATATGGCATGCATCCTGGCATGTCGGCAAGAGGCACATTCGCCATTTCAAGCAGCAACCCGAATCCGGAAGCTACCATGCGCTGGATCGATTACCTGTACAGCTATGAAGGCGCAACGCTGTTTAACCAAGGACCTGAAGGCACCCTGTGGAAATTCAAGGATGAGGCAAACCGCGTGAAAGAATGGCTCCCGGTACCAGGCGGCGGCGACCGTGAGGAATATCGCGGCAAAATCACGCCGAACTTCGGCATTCTGACGCCTGGCGTCAATGATCCGGAAGTTACGAAAGGTCTTCGCACCGAATTCGATGAGTGGATCGACCAGCAGAACCAAGAAAAGCTTGTGCCGATCGGTAAATCGCCGTTCCCTAACGTCTACTTGACGAATGAAGAGCAAAGCGAAGCTACCGCATTGTTGTCCGATTTGGAAACGTACGTGAAACAGATGGAAGCCAAATTCGTGACAGGCCAAGAGCCGCTTGAAAACTGGGATAAATATGTTGCACAAGTCAAGAAAATGGGCAGCGACCGTCTCGTCGAGCTGTATCAAGGCGCATACGACCGCTGGAACGCCGAGCAATAA	MKKLRKASSILLCLTLSASLLAACGSSKGEGGTASPGTPSTEGVKKEGFPIVDEPITLKVMSQDAGVADWNTMPVLQEMEKLTGIKLEYQLSPIDSFETKKNLVFASGDLPDMFYAADLKPAEQVTYGSQGILIPLEKYIDEGYAPNIKKILDENPDVRKSFTTPDGHMYALPFVDKAAVWYRGPMWYNGKFLKALNVSEPKTTEELYTFLKRVKEEDPNGNGKQDEIPLTSVKLDDLRMYFFGFWGMYNEGIYSDKDGKVHYPYQEEGYKGYLTFMNRLWKEELLDHETFSQTGDQKKAKGENNQLALFNDYHAYFTLGGEPSSEHPLMTPVKSEIADSPVYGMHPGMSARGTFAISSSNPNPEATMRWIDYLYSYEGATLFNQGPEGTLWKFKDEANRVKEWLPVPGGGDREEYRGKITPNFGILTPGVNDPEVTKGLRTEFDEWIDQQNQEKLVPIGKSPFPNVYLTNEEQSEATALLSDLETYVKQMEAKFVTGQEPLENWDKYVAQVKKMGSDRLVELYQGAYDRWNAEQ	PGPT0017245_1952	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_06034	909	dasC_10	COG0395	Diacetylchitobiose uptake system permease protein DasC	ATGTCATCCGCAGTTAAGGAAAGCAAAGGGGATAAAATATTCCTGCTATGCAACTACATCTATCTGACGATTGCACTGATCATCGTACTGTACCCGCTGCTGTACATTGTCAGTGCCTCCATCAGCGATCCGAAGTACGTAAGCTCAGGCGAAATGTGGCTGATCCCCAAAGGGATCACCTTCGACGGATATGCCCGCGTCTTTGAGAACGCCAATATATGGATCGGTTACAAGAACACGATTATTTATACGGTGATCGGCACGATCGTAAACCTCATTGTCACGCTGCCGGCAGCCTATGCGCTCAGCCGCTCGGACTTCGTGGGCAGGGGATTCTTCATGGCGATATTCCTGGTGACGATGTTCTTTGGCGGGGGGCTGGTTCCGAGCTACCTGCTTGTGAAGGATCTCGGCATGGTGAACAGCATGTGGGCGCTGATTCTTCCCGGAGCTGCATCGATCTGGAATATTATCGTGTCCCGGACATTCTTTCAATCCACCATTCCGAAGGAGCTGCAAGAAGCGGCCCATATCGATGGGTGTACCAACTTCCGGCTGTTCATCAAAATCGTTCTGCCGCTTTCGATGCCGATTATTGCGGTCATGGCCCTCTTCTACGGAGTCGGTCACTGGAACAGCTATTTCAGCGCGATGATTTATCTGAACGATGCGGCGAAGTATCCGCTGCAGCTCTTCCTGCGTCAAATCCTGGTGCTTCAGGAAATGGCGGCGCAGGGCGGCGGGGCGATTGATGCCTCCTCGGCGGCGGCGATGAATACCAAGGCGGAAATTGCCGCACTGGTCAAATATGCCGTCATTATCGTCGCAACCTTGCCAGTTATTGCCATCTATCCGTTTCTTCAGCGTTACTTTGTGCAGGGTGTTATGATTGGTTCCGTTAAGGGCTGA	MSSAVKESKGDKIFLLCNYIYLTIALIIVLYPLLYIVSASISDPKYVSSGEMWLIPKGITFDGYARVFENANIWIGYKNTIIYTVIGTIVNLIVTLPAAYALSRSDFVGRGFFMAIFLVTMFFGGGLVPSYLLVKDLGMVNSMWALILPGAASIWNIIVSRTFFQSTIPKELQEAAHIDGCTNFRLFIKIVLPLSMPIIAVMALFYGVGHWNSYFSAMIYLNDAAKYPLQLFLRQILVLQEMAAQGGGAIDASSAAAMNTKAEIAALVKYAVIIVATLPVIAIYPFLQRYFVQGVMIGSVKG	PGPT0017255_850	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_06035	972	yteP_68	COG4209	putative multiple-sugar transport system permease YteP	ATGCAGCAAAGTGGTAAGTCCGCCCTGTCGCCAAACTTATCGGTGAATACGATTCCGAATCGTAAAAAAAATACATTATGGAGGAGGATGATTCGAAACTGGGAGCTGTATTTGTTTATCGCCCCGGCATTTCTGTATTTTGTCATTTTCCATTATGGCCCGATGTACGGGATCCAGATCGCCTTCAAAAACTTCATCCCGACGTTGGGAATAACGGGAAGTCCGTGGGTCGGATTCGACCACTTCGAACGCTTCTTCAACTCTTATTACTTCTGGGACTTGCTCTGGAATACCCTCAGCATCAGCTTGTATGAGCTGGCGATCGGCTTTCCGCTTCCCATCATTCTGGCATTAGCCTTCAATGAAGTGAAGGATTCATTCTTCAAGCGTACGGTACAGACCGTCACGTATGCGCCGCATTTTATATCCGTTGTCGTTATGTCCGGCATGATCATTACCTTCTTGTCCCCTTCGTCGGGCATGATCGTTAATTTTGTGGAAATGCTCGGTTTCCAGCCGCCGCAATTCTTGACGGACCCTGCCTGGTTTAAGACCGTATACGTGCTGTCCGGCGTGTGGCAGAGTGCGGGCTGGGGTACCATCATCTATCTGGCCGCATTGTCGGGCGTCGATCCGCAGCTGCATGAGGCAGCCGTCGTGGACGGTGCGAGTCGGTTCAAGCGCATTCTGCACATCAATATTCCGGCGATCGTACCTACGATCACCATCCTGTTGATTCTGAATATGGGCAGCATTTTAGGAGTTGGATTCGAAAAAATCCTGCTGCTGCAAAACCCGCTGAACATGAGTTCTTCCGATGTCATCTCGACCTTCGTCTACCGGTCCGGTCTGGTCGATGCCCAGTACAGCTTCTCCACGGCCGTCGGATTGTTCAACTCGGTAATTAATGCGATACTGCTGATCGCGGTGAACCAAATTGCACGCCGCACCAGTGAAAACAGCCTGTGGTAG	MQQSGKSALSPNLSVNTIPNRKKNTLWRRMIRNWELYLFIAPAFLYFVIFHYGPMYGIQIAFKNFIPTLGITGSPWVGFDHFERFFNSYYFWDLLWNTLSISLYELAIGFPLPIILALAFNEVKDSFFKRTVQTVTYAPHFISVVVMSGMIITFLSPSSGMIVNFVEMLGFQPPQFLTDPAWFKTVYVLSGVWQSAGWGTIIYLAALSGVDPQLHEAAVVDGASRFKRILHINIPAIVPTITILLILNMGSILGVGFEKILLLQNPLNMSSSDVISTFVYRSGLVDAQYSFSTAVGLFNSVINAILLIAVNQIARRTSENSLW	PGPT0017250_659	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_06036	1035	chiA1_2		Chitinase A1	ATGCAGCCATCACCCTGGATTTTAGCCGGCTATGCAGGGCGCAAAGTCTTATCCGAGATCACGGCCGAAGATGCCCGGCGGCTCACTCACTTGAACATCGCTTTTGCCCATATCCAAGAAGACAAGATCACGTATACCGATTCGAACACCATTCATGAGATCCAACGCCTGAAATCCATCAATCCCGAACTAACCATATTGTTGTCCGTTGGCGGCTGGGGCTCCGACGGATTCTCGAAAGCGGCAGCCACGTCTGAAGGAAGACAAAGCGTGTGCGAATCGGCGATCAAGCTGCTGCAAGAGTTTCCCTTCGACGGCATTGACCTGGACTGGGAGTATCCATGCTACTCGATCGCCGGAACGGCGGCATCGCCAAACGACAAGGAGAACTTTACGCTGCTGCTAAAGGAGCTCCGGGAAACGCTGGATCAGTACGGGCGGGGCGAGACACACTATCTGCTCACGATCGCGGCCGGCGCCGATCAATATTATATCGACGGCACCGAAATCAATGACATCCACCCCTATCTCGACTTCATTCAGCTGATGACGTACGACATGCGCGGCGGATTCCAGACGATGACGGGCCACCACACCAATCTGTACACCTCCACCGGCGATCTGTTCCGAATCAGCGTCGATGCATCCGTCCGCCTGTTTACTCAGGCTGGTGTGCCGCGCGAAAAAATCGTGATCGGCGCCGGATTCTACTCCAGGAAGTGGAACAATGTGCCGGACGTGAACAACGGCTACCTCCAGGTCGCTCCCTCCTCCGGAGGTTACGGCCCGACCTATACCCAGCTCGCTGCCGAGTATTTAAGCAATCCTTCCTATAAGAGGTACTGGGACGACGAAGCCAAAGCGCCTTACTTGTTCGACGGCAGCAGCTTCATCACATACGATGACGCCGAATCCCTGACTCATAAATGCAAATACATACAGGAGCAGGGGCTGGCCGGCATCATGTTCTGGGAATACAGCTGCGATGCAACGCACAGCCTTTTGAATGCCATGCACAAAGCCTTTTATTCTTAA	MQPSPWILAGYAGRKVLSEITAEDARRLTHLNIAFAHIQEDKITYTDSNTIHEIQRLKSINPELTILLSVGGWGSDGFSKAAATSEGRQSVCESAIKLLQEFPFDGIDLDWEYPCYSIAGTAASPNDKENFTLLLKELRETLDQYGRGETHYLLTIAAGADQYYIDGTEINDIHPYLDFIQLMTYDMRGGFQTMTGHHTNLYTSTGDLFRISVDASVRLFTQAGVPREKIVIGAGFYSRKWNNVPDVNNGYLQVAPSSGGYGPTYTQLAAEYLSNPSYKRYWDDEAKAPYLFDGSSFITYDDAESLTHKCKYIQEQGLAGIMFWEYSCDATHSLLNAMHKAFYS	PGPT0012130_5233	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK002_06037	219			hypothetical protein	ATGAGAACATTTAATACCATCGCATTGCTGTTATTGATTATCGGAGGCATCAACTGGCTGCTCGTGGGTCTGTTTCAATACGACCTGGTCGCTGCATTGTTTGGTGGGCAGAGCTCTGTAGGCTCTCGCATCATCTATACGATTGTCGGACTGTGTGCACTGTACTCGATCCGCTTCTTCGGTGATGTTACGAATGACGACCGTTCAACAGCAAAGTAG	MRTFNTIALLLLIIGGINWLLVGLFQYDLVAALFGGQSSVGSRIIYTIVGLCALYSIRFFGDVTNDDRSTAK				NA	NA	NA	NA	NA
AK002_06038	897	cysL_3	COG0583	HTH-type transcriptional regulator CysL	GTGGATCAAGCACTGGAAGTATTCGTAGCCGTTGTAGACAAGGGGAATTTTACCCGCGCGGCCGAGGAACTGCTCATGACACAGCCGGCGGTAAGCCAGTATATCCAGGCGCTGGAGCGTTCCGTTGGCACCAAGCTGCTGGAGAGAACCAATAAATACGTCCGGCTTACGAAAGCGGGAGAGATCGTATACCATCATGCGAAGGACATTTTGGGCCTGTACACCCGCATGAATGCCCTTGTGGACGATTTGATGCATCGGGCAAGCGGCCATCTGTCCATCGGCTCCAGCTATACTTTCGGGGAGTACATGCTGCCGCATTTGATCGCATATATGAGGGAGCGTTATCCCTTGATCCGCCCGTCGATTACGATCGGGAACACCAAGGAGGTGGCGGAGATGATATTGCGACATGAGGCGGATATCGGGATCGTCGAGGGCGACTATCAGGATGAGAAGCTGCATATCGAGGCTTTCGCGGAGGATGAAATGGTGGTGATGGTCCCCCGTGACGGGCGGTACGACCATCTGCAGGAGGTGCCGCTGTCCGAGCTAGCGGATGAGACCTGGATTGTCAGGGAAGCCGGTTCGGGCACCCGCGAGGCAACAGAGCGGATGTTCTCCCGGTATCATGTTCATCCTAAGCATATCGTGGAGTTCGGAAGCACCCAGCTGATCAAGGAATCCGTGGAGGCAGGCCTTGGCGTCACGCTGTTGTCGAGGTGGGCGGTGCGCAAGGAGATTCGACTCGGAACGCTGCATATGCTGGTACCGGATGGCAAGCCGGTGGCGCGCCAGTTCTCATGGATTACGCAGAAGACGCCTTATCATACCAAGGCTGTTGAGATCCTTCTGGAGCTTCTGCGTCAACAGCGCGGATTTCCTAATGAAGTGTAG	MDQALEVFVAVVDKGNFTRAAEELLMTQPAVSQYIQALERSVGTKLLERTNKYVRLTKAGEIVYHHAKDILGLYTRMNALVDDLMHRASGHLSIGSSYTFGEYMLPHLIAYMRERYPLIRPSITIGNTKEVAEMILRHEADIGIVEGDYQDEKLHIEAFAEDEMVVMVPRDGRYDHLQEVPLSELADETWIVREAGSGTREATERMFSRYHVHPKHIVEFGSTQLIKESVEAGLGVTLLSRWAVRKEIRLGTLHMLVPDGKPVARQFSWITQKTPYHTKAVEILLELLRQQRGFPNEV				NA	NA	NA	NA	NA
AK002_06039	1044			hypothetical protein	ATGGCTGAACCCGCATATTCCAAATCTCAAGAGCATGTCCGTCGTCTGGTTCGATGGACGCAGCATTCGCTGCCCGCCGCCGCAGGCGGTATTGCCTTTACCTTTGTCATCGCCCTTACCGGTTACGGATTAGCCAGCGTGCCGGGCCTTGGCTATCTTGGCCAGCTAGCCTGGGCAATTCTGATCGCCGCTGTATACCGGCAGCTGCGCGGTTACCCGGAGAGACTGCGCATCGGGATCCAATTCACGGCCAAGCGTCTGCTGCGCCTAGCGATCATTCTATATGGCCTAAAGCTGAATATCGGCGTCGTATTCCAGCAAGGCTTGGGTTTAATGCTGAGAGATGTCATCAGCGTCGTATTTGCGATCGGGCTTACACTGCTGATTGCCAAATGGCTGAAGGCCGATATGTCCCTGTCCCTTCTGCTCGGGATTGGAACAGGTGTATGCGGCGCGGCGGCCATCGCCGCCGTGTCCCCGATCGTGAAAGCCAAGGAAAAGGACACCGCGCTTGGAGCAGGGCTTATTGCCTTTCTCGGAACCATCGTCGCGATCGGTTATACCCTCATCCAGCCGCTGCTTCCCTTATCGGATACCCAATACGGCGTCTGGTCGGGCGTAAGTCTTCATGAGATCGCCCATGTGGCACTCGCAGCCGCTCCGGCAGGCGAAGATGCTCTTGCCATCAGCCTGCTTGCCAAGCTTGGCCGCGTATTTCTGCTCGTGCCGCTCAGCATCGTGCTAATGGTCTGGATGAAGCGGACCGGACGTCTACAGAGCCAAACGCGGATGGAGTTTCCCTGGTTCCTGCTTGGCTTCATCGCAGCGAGCTTGCTGGGAAGCTGGGAATTTACCGGACAACCGATCATTCCCCTGCCGATCAAGGATACGATATCCCAGGCAGCCTCCTTCATCCTTGCCATGGCGATGGTGGGACTTGGCCTGAATGTCCACTTGAAGGACATACGCGGCGCCTGGCGGCCGCTGCTGGCCATGTCCATCACCACCGTGCTGCTGATCCTGCTGACTTATGCCATGGCATAA	MAEPAYSKSQEHVRRLVRWTQHSLPAAAGGIAFTFVIALTGYGLASVPGLGYLGQLAWAILIAAVYRQLRGYPERLRIGIQFTAKRLLRLAIILYGLKLNIGVVFQQGLGLMLRDVISVVFAIGLTLLIAKWLKADMSLSLLLGIGTGVCGAAAIAAVSPIVKAKEKDTALGAGLIAFLGTIVAIGYTLIQPLLPLSDTQYGVWSGVSLHEIAHVALAAAPAGEDALAISLLAKLGRVFLLVPLSIVLMVWMKRTGRLQSQTRMEFPWFLLGFIAASLLGSWEFTGQPIIPLPIKDTISQAASFILAMAMVGLGLNVHLKDIRGAWRPLLAMSITTVLLILLTYAMA				NA	NA	NA	NA	NA
AK002_06040	1470			Glucan 1,4-alpha-maltohexaosidase	ATGCAGCGAAATCATACGATTATGCAATTCTTCGAATGGCATGTGGCAGCCGACGGCTCCCACTGGAACCGGCTCAAGAACGCAGCGCCGGAGCTGAGCAAGGCAGGGATCGACGCGGTTTGGATTCCTCCGGTGACAAAGGCATCGTCCGCCGAGGACAATGGTTACGGCGTTTACGACCTGTATGATCTGGGAGAATTCGATCAGAAGGGAACGGTTCGCACGAAGTACGGAACCAAGCAGGAATTGGTCGATGCCATCGCGGCCTGCCAGAAGAACGGGATCGCGGTCTATGTGGATCTGGTGATGAACCATAAGGCGGGCGCCGATGAGACCGAGCGTTTCCGGGTGGTACAGGTCGACGAGATGGATCGGACCAAGGATATATCGAAGCCGTTCGAGATTGAGGGATGGACCAAATTCACGTTCCCCGGCCGGGGGAATCAATACTCTGACTTCCAATGGAACTTCACTCATTTCAATGGGACCGATTACGACGAAATCAACAAACGTTCCGGCATTTACCGCATCGTCGGCGAGAATAAATCGTGGAGCGACAAGGTGGATAATGAATTCGGCAATTACGACTACCTGATGTTTGCCAACATTGATTACAGCCATCCGGATGTGCGCAAGGAAATGATTGCATGGGGAAAATGGCTGGTGGATACGCTGCAATGCAGCGGATTCCGGCTGGATGCGATCAAGCACATCAATCATGACTTCATCAAAGAATTTGCGGCAGCCCTGAAAAAAAAGCGCGGCGATGATTTTTACATCGTGGGGGAGTTCTGGAACCCCGAGCTTCAAGACTGCCGGAATTTCCTGGATACGGTGGATTATAAAATCGATCTGTTCGACGTGTCTCTTCACTATAAACTCCAAGCGGCTTCGAAAGCCGGCCGCTCCTTCGATCTGCGGACGATTTTCGACGATACGCTCGTGCAATCACATCCGATGAATGCCGTCACGTTTGTGGACAATCACGATTCGCAGCCGCAGGAATCGCTGGAATCCTGGGTGGAGGATTGGTTCAAGCAGAGCGCTTATGCGTTGATTCTGCTGCGGAAGGACGGTTATCCTTCGGTCTTCTACGGCGATTATTACGGAATCGGCGGCGAGAACCCCATTCCCGGCAAACGGGAAGCGATTGATCCGTTGTTGTATGCCAGGGCGAATCGGGCGTACGGCGAGCAGGATGATTATTTTGACCACCCGAATACGATAGGTTGGGTCCGCCGCGGCATTCAGGAAATCGAGCACTCCGGCTGCGCGGTGGTCATCGCCAACGGCGAAGCCGGGGATAAGCGTATGTTTGTCGGCGAGCATCGCGCCGGAGAGGTATGGGTGGATCTGACCCGCACCCGGAAGGATCGCGTAACGATCGGCGAGGACGGCTTCGGGCTGTTCCCGGTGAACGGCGGCAGCGTGTCCGTCTGGGCTCACCCGGATAGCCCCGTAGAAGCGTGA	MQRNHTIMQFFEWHVAADGSHWNRLKNAAPELSKAGIDAVWIPPVTKASSAEDNGYGVYDLYDLGEFDQKGTVRTKYGTKQELVDAIAACQKNGIAVYVDLVMNHKAGADETERFRVVQVDEMDRTKDISKPFEIEGWTKFTFPGRGNQYSDFQWNFTHFNGTDYDEINKRSGIYRIVGENKSWSDKVDNEFGNYDYLMFANIDYSHPDVRKEMIAWGKWLVDTLQCSGFRLDAIKHINHDFIKEFAAALKKKRGDDFYIVGEFWNPELQDCRNFLDTVDYKIDLFDVSLHYKLQAASKAGRSFDLRTIFDDTLVQSHPMNAVTFVDNHDSQPQESLESWVEDWFKQSAYALILLRKDGYPSVFYGDYYGIGGENPIPGKREAIDPLLYARANRAYGEQDDYFDHPNTIGWVRRGIQEIEHSGCAVVIANGEAGDKRMFVGEHRAGEVWVDLTRTRKDRVTIGEDGFGLFPVNGGSVSVWAHPDSPVEA	PGPT0018575_2530	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-AMYLASE,PGPT0018575-amyA|malS-K01176	NA	NA
AK002_06041	900	gsiD_4	COG1173	Glutathione transport system permease protein GsiD	TTGAAGAACTTTCCTTTATGGATAGGCGGTATTTTGCTTGCTTTCTTTGTTTTCGTCATGCTGGCGGGGCCTTACATGCCCTTCATCGATAAGGATTTGAAGAATGAACCCTCCAGATGGGTGATGAAGGACGGGAAGCAGAAGCTGACCCTTCCGCCCTATAAGCCTTCCTCAAAGAATTGGCTTGGATCGGACAAGAGGGGGGTCGATAACCTGAGCAAGCTGGTTGTGACCGCCAAGGATACGATCCTGCTGGTGCTCGCGATTACGGCTGTCCGATATGCGATTGGGGTTCCCCTGGGATTGATTGCCCGCAAGAAAAAGGGGTTCACCCACCGGCTCATCACCTTTTGGAACCAGTTGTGCTCCTATTTGCCGCCGGTCTTTGCATCCGCGCTGCTGCTTGCGCTTCCGTTCTTTCTCTTCTCCCAGCAGCGGATGGGCTGGGCCATTCTGATTCTGGCTAGCGTCGAGGCCGGGCGAGTGGCCATCACGATTCAGCAGCAGGCCCACAAGATGGCAAGCGAGCCTTATATGGAGGCCGGAACCGCGTTAGGTCTTCGCACGAGGACGCTGACGAAGAATTACTATATCCCGGTCATGTTCCCCGAAGTGATCGTCAACTTCTGTTTGGATATGGGAAAGGTCATGCTCCTGCTCGGCCAGCTTGCGATCGTGAACATCTTCCTTGGTCATGAGTGGAAGGAAGTTAATTATTACGTCATGGAATTCGTGGAGACCGGGTATAACTGGGCGACGATTCTGTCCAAGCATCGGGCAGACATCTGGCTAGGGAAGTTCCAATTCGTGGTCTATCCGGCATTTGCCATGATGCTGCTGATCATCACGTTCAACCTGTTAGGCGAGGGTCTGCGCCGCCGTTTTCAGGTTAAGGGCTGA	MKNFPLWIGGILLAFFVFVMLAGPYMPFIDKDLKNEPSRWVMKDGKQKLTLPPYKPSSKNWLGSDKRGVDNLSKLVVTAKDTILLVLAITAVRYAIGVPLGLIARKKKGFTHRLITFWNQLCSYLPPVFASALLLALPFFLFSQQRMGWAILILASVEAGRVAITIQQQAHKMASEPYMEAGTALGLRTRTLTKNYYIPVMFPEVIVNFCLDMGKVMLLLGQLAIVNIFLGHEWKEVNYYVMEFVETGYNWATILSKHRADIWLGKFQFVVYPAFAMMLLIITFNLLGEGLRRRFQVKG	PGPT0004450_7775	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
AK002_06042	909			hypothetical protein	ATGAGATTAAAAACGCAAATGCTCAAAACGACGGTGACCAGCCTGCTGGCTTTTATGTTCATCGTCCTCATCGTCCTGGTTCCAAGGGATCTGAATCTGTCGCTGGACAGCAATTTATGGGTGACAAATTATTCCTTTGATCTGGGTGAGTATGTAACGCATATCCGGGATTATTTTGCAGCGGCGATTCAGAACGGGACGCTAGGGGAATCGCGATATAACGGCCAGTCTTCGGAAGCGGCCGCTTTCGGAGCCGTCGGCAAAAGCCTGCTCGTTATTGTATCCGCTTTATTCATAGGATTCGTGTTCGGCATTCTGAAGGGAGTCCTGGACTACAAATTGTCCAAGACCAAATTTAGCGCGCTGGGGCACTGGACGACATGGCTGTTCCAGTCCATTCCGGATTTTTTCCTGATGCTGATCGCACAGTGGGTGCTCATTAAGCATGTTCCGGCTATCCGTTATTTTGCGGTTGACGGCTGGGAGGCCTTCGTGCTGCCTTCGCTGCTTGTCTCGATTTACCCGATTTTCTTCATTGCCCGAATCACGTCGGCCTCGCTGCTCGCACAGGAAGGCAAGATGTACATACTGCTGGCTAAAGCCAAAGGTCTGAGCGACCGAAAGGTTGTCTACAAACATATGCTGCGCAACGGCATCGCGACCATCCTGACCCATCTTCCGGGCCTGCTTGTCTTCATCTTGTCCAACCTGCTCGTGGTGGAATATTACCGCAACTATCCAGGGGCGGCGTGGAGATTGTTTCTGGCACTGGATTTCAATACGTTCAGCGGCACCGGCGGCAATTATGAACCGGGTGTCATTATTTATATCGCATTTTCCTTCATGGTGCTGTTCATGATCGTCCAATGGATCAGTCATTCGGCACGCAAGTACTTTGATCCACGATAA	MRLKTQMLKTTVTSLLAFMFIVLIVLVPRDLNLSLDSNLWVTNYSFDLGEYVTHIRDYFAAAIQNGTLGESRYNGQSSEAAAFGAVGKSLLVIVSALFIGFVFGILKGVLDYKLSKTKFSALGHWTTWLFQSIPDFFLMLIAQWVLIKHVPAIRYFAVDGWEAFVLPSLLVSIYPIFFIARITSASLLAQEGKMYILLAKAKGLSDRKVVYKHMLRNGIATILTHLPGLLVFILSNLLVVEYYRNYPGAAWRLFLALDFNTFSGTGGNYEPGVIIYIAFSFMVLFMIVQWISHSARKYFDPR	PGPT0021020_2342	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0021020-oppB-K15581	NA	NA
AK002_06043	477	bsaA		Glutathione peroxidase BsaA	ATGTCGATCTATGAATATGAAGTAAAAACGATACGCGGCGAATCCCAAACGCTGGAATCTTATAAAGGCGATGTCATGCTGATCGTCAATACGGCGACCAAATGCGGCTTTGCCCCTCAATTCGACGGTCTGGAGAAGCTGCACCAAACCTACCGCGACCAGGGATTGGCCGTTCTCGGCTTCCCCAGCAGCCAATTCATGAATCAAGAGCTGGAGGAGGATGCCGCGATAGAAGAGGCCTGCAAGCTCAATCACGGCGTCACCTTCCCGCTGTTTTCCAAGATCGATGTGAACGGCACGAACGCTCATCCGCTTTACAAATACCTGACCAGTGAAGCCCCCGGCGCACTGGGCATCAAGGCGATCAAATGGAACTTCACCAAATTTCTGGTGGACCGCAGCGGCAAGGTGATCAAGCGCTTTGCACCGACGGACACTCCAGAGAAGATGGAAGAGGATATCAAGAAGCTGCTGTAA	MSIYEYEVKTIRGESQTLESYKGDVMLIVNTATKCGFAPQFDGLEKLHQTYRDQGLAVLGFPSSQFMNQELEEDAAIEEACKLNHGVTFPLFSKIDVNGTNAHPLYKYLTSEAPGALGIKAIKWNFTKFLVDRSGKVIKRFAPTDTPEKMEEDIKKLL	PGPT0013115_5388	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013115-bsaA|gpx|btuE-K00432	NA	NA
AK002_06044	1977	hypBA1		Non-reducing end beta-L-arabinofuranosidase	ATGATGACTCTTACTACGCGTTCAGCTGCCGTACCTCTTAAGCAAGTGAAACTGACCGACCCTTTCTGGTCGAGTTACATAGAACTGGTAAGGGAAGTGGTGATTCCCTACCAATACGAGGCCCTGCATGATCGGATCCCGGGCATTGAGCCGAGCCATGGCGTATCCAATTTTCGCATTGCTGCCGGCAGGGGCGAGGGTGAATACGGGGGCATGGTGTTTCAGGACAGCGATGTCGCCAAATGGCTTGAGGCCGCGGCTTATTCGCTGGCCACTCATCCGGATCCGAAGCTGGAAGAACAGGTGGATGAGCTGATTGATCTGGTTGCCGACGCCCAGCAGCCGGATGGCTATCTGAATACGTATTTTACGGTGAAGGAGCCGGAAAAACGCTGGACCAATCTGACGGACTGCCATGAGCTGTACTGCGCCGGTCATATGATTGAAGCCGGAGTTGCTCACTACAGGGCGACGGGCAAGCGGAAACTGCTGGACGTGGTGTGCCGCTTGGCGGATCATATCGATACCGTTTTTGGACCCGAAGATGGGAAAATCCATGGGTTTGACGGCCATCAGGAGATTGAGCTGGCCCTGGTGAAATTGTATGAGGTGACTCAAGAGCCGAGATATTTGAGCCTGAGCCAATATTTCATCGATGAGCGCGGGACGGAACCCCACTTCTTCCTCCAGGAGTGGGAACAGCGCGGGAAGAAATCCTTCTATCGCTCGGTGCTGCACGCTCCGCATTTGGCTTATCATCAGAGCCATCTGCCCGTTAGGGAGCAGAAGGAGGCCGTCGGGCACTCGGTCCGGGCCGTATATATGTACACGGCGATGGCGGATCTGGCCGCCAGAACGAAGGACCCGGCTCTGCTTGAGGCTTGCGATACCTTGTGGCGCAACATGGTCCATAAACAGATGTACATTACCGGAGGGATCGGCTCCACTCATCACGGCGAGGCGTTTACGACGGATTATGATCTCCCGAACGATACCGTATACTCGGAAACCTGCGCATCCATTGGGCTGATCTTTTTTGCCCAGCGCATGCTGCAGCTGTCGCCCAAATCGGAGTATGCGGACGTGATGGAGCGCGCGCTGTTTAACACGGTCATTGGCAGCATGGCTCAGGACGGGCGGCATTTCTTCTATGTAAACCCGCTTGAGGTATGGCCTGCGGCCTGCCGCCATAATCCGGGCAAGGCCCATGTGAAGCCGGTTCGGCCGGGATGGTTCGCCTGCGCCTGCTGCCCGCCGAACGTGGCAAGGCTGCTGTCATCGCTGGGCGAATACGTGTATACGATGAATGACGATACGCTGTATGCCCATCTCTACATCGGCGGCGAAGCGGAGGTGCGGTTCGGGGACGTGCCTGTGAAGGTAATGCAGAACAGCGCGCTGCCATGGGACGGGGACGTTACGCTTACGCTTCAGCCTGAGCAGGCTGTCGAGTGGACGGTGGCCCTTCGCATTCCGGATTGGTCGCGCGGCAAAGCCAGCTTGCGCGTGAACGGGCAAGAAATGAACGTGGAGGATATTACTCAAGACGGCTATGCTTGCGTGAAGAGAGTATGGGCGCCGGGAGACACCGTGGAGTTGGCATTCTCCATGGAGATCCATCAGGTCAGAGCCAATCCGAATATACGGGGGAATGCCGGCAAGGCCGCGATTCAGCGCGGGCCGCTCGTATATTGCCTGGAAAGCGTCGATCATGGAGTGCCTGTATCCTCGCTATCGCTCGCGGGCGATCCGAAGCTTCGTTCGCGATTTGATCCGAATCTTCTCGGCGGAGCGGTTGTCATTGAAGGGGCCGGGTGGCTTGAAGAGTCTGACGATTGGGGCGATGAGCAGTTGTATCGTGCTTCTCCCAAAAAGATGCTTCCCGCATCATTAAAGGCTATTCCCTATTATTTATGGGGCAACCGCGGCGAAAATGAAATGGCCGTCTGGGTGCGCGAGCTGCCGCGCACGTTATAA	MMTLTTRSAAVPLKQVKLTDPFWSSYIELVREVVIPYQYEALHDRIPGIEPSHGVSNFRIAAGRGEGEYGGMVFQDSDVAKWLEAAAYSLATHPDPKLEEQVDELIDLVADAQQPDGYLNTYFTVKEPEKRWTNLTDCHELYCAGHMIEAGVAHYRATGKRKLLDVVCRLADHIDTVFGPEDGKIHGFDGHQEIELALVKLYEVTQEPRYLSLSQYFIDERGTEPHFFLQEWEQRGKKSFYRSVLHAPHLAYHQSHLPVREQKEAVGHSVRAVYMYTAMADLAARTKDPALLEACDTLWRNMVHKQMYITGGIGSTHHGEAFTTDYDLPNDTVYSETCASIGLIFFAQRMLQLSPKSEYADVMERALFNTVIGSMAQDGRHFFYVNPLEVWPAACRHNPGKAHVKPVRPGWFACACCPPNVARLLSSLGEYVYTMNDDTLYAHLYIGGEAEVRFGDVPVKVMQNSALPWDGDVTLTLQPEQAVEWTVALRIPDWSRGKASLRVNGQEMNVEDITQDGYACVKRVWAPGDTVELAFSMEIHQVRANPNIRGNAGKAAIQRGPLVYCLESVDHGVPVSSLSLAGDPKLRSRFDPNLLGGAVVIEGAGWLEESDDWGDEQLYRASPKKMLPASLKAIPYYLWGNRGENEMAVWVRELPRTL	PGPT0019100_1035	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_ARABINAN_BREAKDOWN,PGPT0019100-hypBA-K09955	NA	NA
AK002_06045	825	rhaS_18		HTH-type transcriptional activator RhaS	ATGTCGGAACAAAGCGTGCTTTCCTTCCCCTCGCTGCCGCTGCCCTACTTCCTTGAATCCGGTAAAACGCACTACATGCCGGGCGAATCGCATCCGAACCGGAGAAACCTTGGCGTCTTCGACCTCATCCTCGTTCAACGCGGCTGCTTGTTTCTGGGCGAGGAGGACCTGCAATGGGCACTACGTGCCGGGGATATGGCCGTATTGATGCCGGACGCGCACCACTACGCTGTGCAAGAGTGCCGGGAGGAAACCTCCTTTTATTGGCTGCATTTTCAGTCGGCGGCACCGAGCACTGGCGATCATGCGACGATCTCACACAATATCAAGCTGCCCAGACAAGGTCATATCCCTTATCCGGAGCAAGCCTATCAGCTGTTCGATTCCTTGCACCTTCAGGCAACGGAGCCGAGATCTACGGCATTTTGGCGTGAGCAGACCCTGTTTATCGAGCTGCTGGAGCTGCTGGATCCGTCGCGGTCCGATCAGGAGCAATCACGGGTGCGCAAAGTCGCGGAGCAGGTGGAATCCTATATCAAAATGCATTACCGCGAGCCCATCAGCAACGCACGTTTATCGACTGACCTTCATTTCCACTACAATTACCTGACGCGCTGCATGAAGGCATCGCACGGCGTGACGCCAACGGAATACTTGCTGCAGTACCGCCTGGACCAGGCGAAGCGGCTGCTCCTGACCACCCAGTGGTCCATGGCGCGGATCGCGGAGCATGTGGGGTTTCAATATCCTCCCTATTTCTCCCGCCGCTTCTCCGCGCGTTTCGGCCTGTCGCCGCTGCAATTTCGAAAGCAGTACACGGAATAA	MSEQSVLSFPSLPLPYFLESGKTHYMPGESHPNRRNLGVFDLILVQRGCLFLGEEDLQWALRAGDMAVLMPDAHHYAVQECREETSFYWLHFQSAAPSTGDHATISHNIKLPRQGHIPYPEQAYQLFDSLHLQATEPRSTAFWREQTLFIELLELLDPSRSDQEQSRVRKVAEQVESYIKMHYREPISNARLSTDLHFHYNYLTRCMKASHGVTPTEYLLQYRLDQAKRLLLTTQWSMARIAEHVGFQYPPYFSRRFSARFGLSPLQFRKQYTE				NA	NA	NA	NA	NA
AK002_06046	402			hypothetical protein	ATGAAGAGTGTGACCCCGTTTTTAATGTTTCAGGGCAACGCGGAAGAAGCCATGAACCATTACATTTCCATAATTGAGGATTCCGAAATCATCAGCATTGCCCGTTATGGACCCAATCAGCCGGGAGCCGAGGGAAGCGTCATGCATGCGGCCTTTTCGTTGAAGGGACAAACGTTCATGTGCATCGACAGCAACGTGAAGCATGAGTTTACGTTCACGCCTTCCTTCTCCATCTATCTGACTTGCGAATCCGAAGCCGAGATCGAGAAGGTGTACGGTGCTTTGATCGATGGCGGAGGTGCGATGATGCCGCTGGATAACTATGGATTCAGCCAAAAGTTCGGCTGGATCGCGGACAAGTTCGGCGTATCCTGGCAGCTTAATCTGCCAAGCGAAGCGTAG	MKSVTPFLMFQGNAEEAMNHYISIIEDSEIISIARYGPNQPGAEGSVMHAAFSLKGQTFMCIDSNVKHEFTFTPSFSIYLTCESEAEIEKVYGALIDGGGAMMPLDNYGFSQKFGWIADKFGVSWQLNLPSEA				NA	NA	NA	NA	NA
AK002_06047	498			hypothetical protein	TTGGATAACGCCTCCACTACCACGCTGATCATGAAACGTCGATTTGAGGCAGCACCGGAAAGAGTATTTGATGCTTGGTTAAATCCCGACATGATGAGGAAATGGTTGTTTACGATGGAAACAACGAACAAAATCGCCCGCAACGACCCGCGCGTGGGCGGAAGCTGGGAGATTGTTGACGTGAGGGAAGGCAAGGAGTACCGGGCCATTGGAGAGTATCTGGTCATAGACCGGCCGCGCAAGCTGGTGCTCACCTTCAAGATGCCCCAGTTCAGCGACACCGTGGACCGCATTACGGTGGAGTTCAAAGCCGTGGACGCGGGATGCGAAATGACGTTCTCCCAGGAGATCGTTGTCCCTCATGAGGAAGACTGGACCGCAGAGGATATTGAAAAAGCGCTGACAGAATACCATGACCAAACCGAACATGGTTGGGGTTATATGTTTGAGGGGCTGAAGCAGCTGTTAGAGACAGGAACGATAAACTACCCATCTTAA	MDNASTTTLIMKRRFEAAPERVFDAWLNPDMMRKWLFTMETTNKIARNDPRVGGSWEIVDVREGKEYRAIGEYLVIDRPRKLVLTFKMPQFSDTVDRITVEFKAVDAGCEMTFSQEIVVPHEEDWTAEDIEKALTEYHDQTEHGWGYMFEGLKQLLETGTINYPS				NA	NA	NA	NA	NA
AK002_06048	345			hypothetical protein	ATGGTTGAACAAAATAATGAAGAACAACTGGATCAGATCTTCCATGCTCTAGCTGACCCGACCCGAAGAGAGATGGTGCGCATGATCGCATCGCAGGAATGGACGGTATCTGAGCTGGCTGAACCGTTTGACATGTCGCTTGCGGCAGCCTCCAAGCATATCAAGGTGCTGGAGCGCTCCGGCCTGCTCGAACGGTCCATCCATGGACGGACGCATACCTGTCGTCTGAATCCGGGCGTCATGTCAAGAGCGATGGAATGGCTGCGATTCTACGAACGATTCTGGAACCGACAATTTGATGCGCTTGAACGCGAGCTGAACAAAGCGAAGAGGGAGGAGCACTAG	MVEQNNEEQLDQIFHALADPTRREMVRMIASQEWTVSELAEPFDMSLAAASKHIKVLERSGLLERSIHGRTHTCRLNPGVMSRAMEWLRFYERFWNRQFDALERELNKAKREEH				NA	NA	NA	NA	NA
AK002_06049	735	gph_7		Phosphoglycolate phosphatase	ATGAAGACACCAACAGCACCGAAGGGGATCTTCTTCGATGTGGATGATACATTGTATGACCATCTGGCGCCTTTTCGCGAGGCCGTGCAGGAGATTGCCAGTCCCGATGAGGCGTTTCCTTATGAAGCCGCCTACCACCGGATGCGCTATTACAGCGACAAGCTGTCCGTCGAGCTGGGAGGAGCCGGAACGGCAGCTTACGGGGATGCGGTCGAGGATATGCGCAGACGCCGGTTCCAGTTAGCGCTGGCCGAATTCGGCGTACGACTGACTCTTGAGGAGGCCGAAGCGGTACAGCAGACGTATCTGGACCTGCAGTATAACATCACGATGTTTGAGGGCGCCCGGGAGCTTCTGATGAAACTGGCGGATGCCGGGCATGTCGTAGGCCTGATTACCAATGGCCCGGCCGAACACCAGATGAACAAAATCGCGGCGATGAAGCTGGGCGGCCTGATACCGGAGGATCGGCTATTCGTATCCGGTGCCGTCGGCTGGGACAAGCCCGATCCGCGGATCTTCCACCATGTGAACAGGCAGACCGGGACGAAGCCGGAGAACTCTTATTACGTCGGGGACTCATGGCGCAATGACGTGGTCGGAGCCCTGGCTGCAGGCTGGCATGTAATTTGGTTCAATCACCGGAGCGTGGGGCCGGAATCGGAGCATCGGCCGCAGCATACCGTTGCGAGTTACGGAGAGCTCGAGCGGCTGCTGGAAGAGATTATCGGATAA	MKTPTAPKGIFFDVDDTLYDHLAPFREAVQEIASPDEAFPYEAAYHRMRYYSDKLSVELGGAGTAAYGDAVEDMRRRRFQLALAEFGVRLTLEEAEAVQQTYLDLQYNITMFEGARELLMKLADAGHVVGLITNGPAEHQMNKIAAMKLGGLIPEDRLFVSGAVGWDKPDPRIFHHVNRQTGTKPENSYYVGDSWRNDVVGALAAGWHVIWFNHRSVGPESEHRPQHTVASYGELERLLEEIIG	PGPT0013410_53	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013410-yjjG-K08723	NA	NA
AK002_06050	882	COQ5_10		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGACCAAGGATATGACCGAAGTGTGGAGCAAGGATTTTGTTCCGGAGGGAAACCGTGCCAGCAACGTGGATCGTTTTACCGGCTTTGAGGATACCTACGACCAGCATCGCCCCGAAGCCCCCCAGGAGGTTGTCGCCCTGCTGACAGGGTATTTGGAACGCAAGCCCTCTGTCGTCGTCGACTTGGGATGCGGAACGGGGCTTTCCTCCTTTGCATGGAAAGACGCGGCGGATCAAGTCATCGGGGTTGAGCCGAATGATGATATGCGCGGCAAAGCCGTCGCCAAATTGCAAACGCTGGAACAGGAAGCACGCAGCAGCGGCGCGGATATCGCCGACATCAAGTTCGTCTCCGGCTATTCCAACCAATTGGCGCTGAAGGATCAGTCCGCCGACATCATCACCTGTTCCCAATCCTTTCACTGGATGGACCCGGCCAGCACATTGAAGGAGGTCTCCCGCGTTCTGCGTGACGAAGGGATATTCGCGGTATATGATTGCGATTGGCCGCCGAGCCTGACCTGGAAAGTGGAGCAAGCCTATCATGGGCTGATTGAACGGGCAGAGGCCATCATCGACGACCATGTGGAGCCTCAGGAGCAGGCCAATAAAGGAAATAAGAACGAGCATCTGAAGCATATCCGGGAAAGCGGACTGTTCCGGTTCTCCAAAGAGATCGTGTTCCACCATATGGAGCCGTTCACCGCCGACCGGTATACCGGCCTTGCCGTCAGCCAAGGCGGCATCCAGACCGTATTCAAGCTGAAACCAAACGAATTGAACGACAACATCGCGCAGTTCCATGCGCTGGTCGAGGAGCATTTCCAGGGGCGGACGCTTCCCGTGATGCTCAGCTACCGCATGCGGCTTGGCATTAAATAA	MTKDMTEVWSKDFVPEGNRASNVDRFTGFEDTYDQHRPEAPQEVVALLTGYLERKPSVVVDLGCGTGLSSFAWKDAADQVIGVEPNDDMRGKAVAKLQTLEQEARSSGADIADIKFVSGYSNQLALKDQSADIITCSQSFHWMDPASTLKEVSRVLRDEGIFAVYDCDWPPSLTWKVEQAYHGLIERAEAIIDDHVEPQEQANKGNKNEHLKHIRESGLFRFSKEIVFHHMEPFTADRYTGLAVSQGGIQTVFKLKPNELNDNIAQFHALVEEHFQGRTLPVMLSYRMRLGIK				NA	NA	NA	NA	NA
AK002_06051	1152	garK	COG1929	Glycerate 2-kinase	GTGATTGTACTGGCGCCCGATTCATTTAAAGAGAGCATGACTGCCAAAGAAGTCTGCGAAGCGATGGAAAGCGGCATCAAGAAGGGAAACCCGCATGTGACCTGTATCCATGTGCCCATGGCCGACGGCGGTGAGGGCACGATGCAATCGCTCGTTGACGCCACGGGCGGTACGGTACATACCGTAAAGGTGACGGGACCACTGGGTAATGAGGTGGAGGCATCCTACGGCATTTCGGGCGATGGCAGCACCGGAGTGCTGGAAATGGCCAGCGCAAGCGGGATTCATTTGGTCCCGCCGGCCCAGCGCAATCCGCTGGTGACAACAACCTATGGAACGGGCGAACTGATCAAGGCCTGTCTGGACCATGGCGTGAACCGACTGCTGATCGGCATTGGCGGCAGCGCGACAAACGATGGCGGAGCCGGGGTTGTTCAGGCGCTCGGCGGCAGACTGCTGGATGCGGAAGGGAAGGAGCTTGCTTTTGGTGGTGGGGAGCTCTGTCGTCTTGCAAGCTTTGACTTAAGCGGCTTGGATTCGCGGCTGCATCACGTCGAGGTCGAGGTCGCTTGCGATGTGACCAATCCCCTCTGCGGGAAGACGGGAGCCTCTCATGTATTTGGATCGCAAAAGGGGGCAACGCCGGAGATAATCGAGCAGCTGGATCGCAATCTTCGGAATTACGCCGGAGTGATCAAGCAGCAGTTAGGCAAAGATATCGCCGATTACCCCGGCGCCGGCGCGGCAGGCGGTCTTGGCGGGGGCCTTATGGTATTCCTGAACGGGACGCTGAAAAAGGGCATTGAACTGGTCATCGACTATACGGGACTTGAGGAGAAAGTGCGCATGGCGGATATGGTGTGGACCGGCGAAGGCGGGATGGACTTTCAGACGCAGTACGGCAAAACCCCGCTGGGTGTTGCGATGGTGGCGAAAAAGCACGGCAAGCCTGTTATCGCGCTTACCGGGCGGATCGGTGACGGAATCGACGTTCTGTATGATCAGGGGATAGACGCTATTTTTGGCATCGTGCCAGGCGCTGTTACGCTATCGGAGGCGCTTCACAACGGACGGCAGAACGTGGAGAGAACGTCGGAGAATATCATCCGGCTCATGACTTCCTTGTTTAGGAGTGAGTCGTCTAGGGAATAG	MIVLAPDSFKESMTAKEVCEAMESGIKKGNPHVTCIHVPMADGGEGTMQSLVDATGGTVHTVKVTGPLGNEVEASYGISGDGSTGVLEMASASGIHLVPPAQRNPLVTTTYGTGELIKACLDHGVNRLLIGIGGSATNDGGAGVVQALGGRLLDAEGKELAFGGGELCRLASFDLSGLDSRLHHVEVEVACDVTNPLCGKTGASHVFGSQKGATPEIIEQLDRNLRNYAGVIKQQLGKDIADYPGAGAAGGLGGGLMVFLNGTLKKGIELVIDYTGLEEKVRMADMVWTGEGGMDFQTQYGKTPLGVAMVAKKHGKPVIALTGRIGDGIDVLYDQGIDAIFGIVPGAVTLSEALHNGRQNVERTSENIIRLMTSLFRSESSRE	PGPT0018175_499	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
AK002_06052	1539	actP_1	COG4147	Cation/acetate symporter ActP	GTGAACATATCCGGCATCGTTTTTTTTCTGGCGATTGTGGTCGGCACGTTAATGATTACGTATTATGCCGCCAAGCGAACAACAAACACGAATGATTTCTATGCAGCGGGCAATCGCCTGAGCGGGCTGCAAAACGGCTTGGCCATTTCCGGTGACTATATGAGCGCGGCTTCCTTCCTTGGCATCGCGGGCTCCATTGCGGTGTACGGCTTCGACGGCTTCTTCTATTCGATCGGCTTCCTTGCCTCCTATGTGATCGTGCAGTACATCATCGCCGAGCCCCTTCATAACCTGGGCAGGTATACGATGGCGGATGCGGTGGCGGTCCGGTTCGGCGAGAAACGGCTTCGCGGATGCATCGCCGTCAATAACATGATGATCACCGTCTTCTATATGATCGCCCAGCTCGTCGGCGCCGGGTGGCTCGTCCATTTGCTGTTCGGGCTGGAGACGTCGCTCGCCATCGTGCTGGTCGGCGGCTTAATGACCGTCTACGTGACGTTTGGCGGCATGCTCGCGACTTCCTGGGTGCAGATCGTCAAATCCATTTTGCTGGTGAGCAGCACCTTTATCGTGAGCCTCATCGTGCTGGCAAGGTTCGATTGGGATCTGCTTGGTTTATTTGAATCCATGAAGAGGGCGACCCCATTGCAGGAGCGGTTTCTGATGGCGGGCAACATGTTTGACCATCCGCTGGACATGCTGTCGTTTAATATGGCGCTGGTGTTAGGGACAGCGGGACTGCCGCATATTATTGCACGCTTTTACACGGTAAGGGACCCGCGTACGGTCCGTGCTTCGGTCAGAACGGCGACGTTTACGATCGGCGTCTTTTACGCCATGACGATTTTTCTTGGCTTTGGGGCGGCTGCCTTCGTTGATTGGTCCATATTGTCCGAGCGGGTGGAGCTGGCGGCCCCGCTGCTCGCAAGCGAGCTGGGCGGCGAATTCCTAATGGCCTTTGTATCCGCCGTTGCCTTCGCTACGATACTGGCCGTGATCTCCGGGCTTGTGCTGACGGCCTCCTCGGCGTTTGCCCATGACGTCTACAGCAGCATCTTCCGCAGCGGACGGGCGACCGAGGCGCAGCAGATGAGGGTGGCCAAGCTTTCGGCCATCGTCGTTGGCGCGGCTTCGATCGTGCTTGCGCTCGGGGCGCAGACGCTGAACGTGGCGTTCCTCGTGTCGTTTGCTTTCGCGGTTGCCGCCTCGGCTAACCTGCCGGTGCTGCTGTTCACGCTATTTTGGCGAAGATTTAATACGCAAGGCGCCATATCGAGCATTACGGCCGGCCTCTCGTCTTCTTTGCTGCTCATGGCTGTCGGGCCCAATGTAATGGACCCTGTGGCAGGCTGGATTCGGGCGGAAGCGATCTTCCCGCTTAAGCATCCGGGCATCGTCTCCATTCCGATTGGGTTCGCCGGCGGCATCGTCGGCACTCTGCTATCGCGTAAACGGGGTTCGAGCGGCCATTTCGAGCATATGCAGGCCGTTGCCCATGTCGCGCCGGGTGAAAACCGTTCCCGCGAATTGGGGTGA	MNISGIVFFLAIVVGTLMITYYAAKRTTNTNDFYAAGNRLSGLQNGLAISGDYMSAASFLGIAGSIAVYGFDGFFYSIGFLASYVIVQYIIAEPLHNLGRYTMADAVAVRFGEKRLRGCIAVNNMMITVFYMIAQLVGAGWLVHLLFGLETSLAIVLVGGLMTVYVTFGGMLATSWVQIVKSILLVSSTFIVSLIVLARFDWDLLGLFESMKRATPLQERFLMAGNMFDHPLDMLSFNMALVLGTAGLPHIIARFYTVRDPRTVRASVRTATFTIGVFYAMTIFLGFGAAAFVDWSILSERVELAAPLLASELGGEFLMAFVSAVAFATILAVISGLVLTASSAFAHDVYSSIFRSGRATEAQQMRVAKLSAIVVGAASIVLALGAQTLNVAFLVSFAFAVAASANLPVLLFTLFWRRFNTQGAISSITAGLSSSLLLMAVGPNVMDPVAGWIRAEAIFPLKHPGIVSIPIGFAGGIVGTLLSRKRGSSGHFEHMQAVAHVAPGENRSRELG	PGPT0001400_3213	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
AK002_06053	1512	actP_2	COG4147	Cation/acetate symporter ActP	ATGGCTATTGCGTTGTTTTGCGGAATTGTACTGCTTACGCTGATCATTACGTATTACGCTGCCAAGAAAACGACCAACACGAGCGATTTCTATACGGCAGGCGGAGGACTCAAGGGCTGGCAGAACGGGACAGCCATTGCCGGCGACTATATGTCTGCGGCCTCCTTCCTCGGGATCGCAGGCTCGATCGCGTTAGTCGGCTTTGACGGCTTCTTCTACAGCATCGGTTTCCTCGTGGCTTACCTGGTGGTGCTGTACCTTGTCGCCGAGCCGCTGCGGAACCTCGGCAAGTATACAGTGGCGGACATGATTGCCGCCCGTTTCTCCGATAAGAAGGTGCGGGGCGTGGCAGCATTGAACACGATTTCCATCTCCATCTTCTACATGATCGCGCAGCTGGTTGGAGCGGGCGCGCTGATTAAGCTGTTGTTAGGCCTGGACTATGTCACGTCCGTATTGATTGTGGGCGTGCTCATGACCATCTACGTTGTCTTCGGCGGCATGCATGCGACAAGCTGGGTTCAAATCTCGAAAGCTGTGCTGCTCATGGCCGGCACGTTCATCATCTCGCTGATCGTATTCGCCAAATTCGATTTCAGCCTGACCCAGATGTTCCACCATATGAAGACGGCCACCCCGCTGCAGGAGGCCTTCCTGAACCCGGGGAATAAATACAAAATCCCGCTCGAGACGCTGTCCCTCAACCTTGCCCTGGTACTCGGCACGGCAGGTCTGCCGCATATTTTGACCCGTTTCTTTACCGTTAAGGATGCGAAGACGGCGCGCAGCTCCGTGGTATACGCCACCTGGATTATCGGCATCTTCTATGTGATGACGATCTTTCTCGGGTTCGGGGCAGCCGCCTTCGTAGGCGCGGCCGATATTACCGAGGTCGATAAAGCGGGCAACATGGCAGCGCCGCTCCTGGCCAAAGCGATCGGCGGCGATTTCCTGTTCGCGCTCATCTCGGCGGTTGCTTTCGCGACGATCCTCGCGGTGGTTACGGGGCTTGTGCTGTCCGCCGCATCGGCCTTCGCCCATGATTTCTACGGCCAAATCGTGCGCCGCGGCGAATCGTCCGAGAAGGAGCAGCTGAAGATGGCGCGCTACGCTTCGATCGGCGTATCCGTCGTCTCGATCCTGCTTGCGTTGTTCGCCCAGAAGATGAACGTGGCGTTTCTGGTCTCGCTGGCCTTCGCCGTTGCAGCCAGCGCGAATTTACCGGTCATTCTCTTCACAGTGTTCTGGAAGAGATTTAATACGACGGGCGCAGTCACAGGGATGCTGACGGGTTTGATCAGCACGGTGATTCTCGTGGCCCTTAGCCCGAATATATGGGATCCGGCCGGGAAAGCGATTTTGGTAGGCGATCCGATCTTCCCGATGAGCAACCCGGGCATCGTCTCCATTCCGCTTGGCTTCCTGGCAGCCTATGTCGGCACGCTGCTCTCTTCTTCCAAGGATGAGGCGAAGTATGCCGAAGTGTTGGTTAAAGCGAATACGGGCGCGTAA	MAIALFCGIVLLTLIITYYAAKKTTNTSDFYTAGGGLKGWQNGTAIAGDYMSAASFLGIAGSIALVGFDGFFYSIGFLVAYLVVLYLVAEPLRNLGKYTVADMIAARFSDKKVRGVAALNTISISIFYMIAQLVGAGALIKLLLGLDYVTSVLIVGVLMTIYVVFGGMHATSWVQISKAVLLMAGTFIISLIVFAKFDFSLTQMFHHMKTATPLQEAFLNPGNKYKIPLETLSLNLALVLGTAGLPHILTRFFTVKDAKTARSSVVYATWIIGIFYVMTIFLGFGAAAFVGAADITEVDKAGNMAAPLLAKAIGGDFLFALISAVAFATILAVVTGLVLSAASAFAHDFYGQIVRRGESSEKEQLKMARYASIGVSVVSILLALFAQKMNVAFLVSLAFAVAASANLPVILFTVFWKRFNTTGAVTGMLTGLISTVILVALSPNIWDPAGKAILVGDPIFPMSNPGIVSIPLGFLAAYVGTLLSSSKDEAKYAEVLVKANTGA	PGPT0001400_3332	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
AK002_06054	300			hypothetical protein	ATGGAAGAAAAAAGCTATACCGAAGTATGGCATTCCGAAAAATTCAAAACGCTGCTCTCCCGCAAGAAACGGTTCATTATTCCGATGACCGTCTTTTTTCTTCTGTTTTATTTTGCGCTGCCGATCCTTACTTCGTACACCGACGTGTTGAATCACCCGGCGATCGGCCCGATCACCTGGGCATGGGTATTTGCCTTCGCCCAATTCGTCATGACATGGGTTCTGTGCATTCTCTACTCCCGCAAGGCGGCCCAGTTTGACCGAATGGTAGACGATATCAAAAAGGATATGGGGGCGTAA	MEEKSYTEVWHSEKFKTLLSRKKRFIIPMTVFFLLFYFALPILTSYTDVLNHPAIGPITWAWVFAFAQFVMTWVLCILYSRKAAQFDRMVDDIKKDMGA				NA	NA	NA	NA	NA
AK002_06055	795	ypdB_3	COG3279	Transcriptional regulatory protein YpdB	GTGAAGCGAATTAAAACGATGATAGCGGAAGACGAACGATTGGCAAGGGAGGAGCTGGCTTACCTGCTGGAACAGGAGCCCGATATCGAGCTGCTTCCGCATGCCGCGAACGGACGGGAGCTGCTGGAGCTTGTCCCCTTGCGGCAGCCGGATGTCGTCTTTCTCGACGTTCATATGCCGGAGCTGGAAGGATTGCAGGCTGCGCGCATGCTGAAGGCCTCCCCGATCTCGCCCTTGATTGTGTTTACGACGGCCTACGACGAGTATGCCGTTGAAGCGTTTGGCCTGAACGCGATCGATTACCTGCTGAAGCCTTACAGCCATATGCGATTGAAGGAAACCCTGCAGCGAATTCGAAGCAGGATTCAGGAAGGGAAAGCCTTCCCGAAACAGGAGGCTCAAGATGCTATTCAGGCCGCTTCCTATCCATCCACGGAGGCTGCCGCCCGCAGCATGCGCGGCAAACTTCTGTTCGACGACGGGGATAAACATGTGCTGGTTGATCCCGAGACGATCCTGTACGCGGTGCGCGAGGAACGTGTCATTCGCGTATGGACGGCGGAAGGCCAGCGGATTACGATCAAAAGCACCCTGCAGGAGCTGGAGGAGAAGCTTGCGGGTTACTCATTCTTTCGCCCTCATCGCAGTTATCTGGTTAACGTGAACTGGATCGCGGAGCTCTCCCCTTGGCAGAATGGGGCTTATAATATCGTGCTGAAGGATGAGCAGCGGTCGATGATTCCATTGTCCCGGGAGGCTGCACGGGATTTGTTCCGGTTGCTTAGGGAGGTTTGA	MKRIKTMIAEDERLAREELAYLLEQEPDIELLPHAANGRELLELVPLRQPDVVFLDVHMPELEGLQAARMLKASPISPLIVFTTAYDEYAVEAFGLNAIDYLLKPYSHMRLKETLQRIRSRIQEGKAFPKQEAQDAIQAASYPSTEAAARSMRGKLLFDDGDKHVLVDPETILYAVREERVIRVWTAEGQRITIKSTLQELEEKLAGYSFFRPHRSYLVNVNWIAELSPWQNGAYNIVLKDEQRSMIPLSREAARDLFRLLREV				NA	NA	NA	NA	NA
AK002_06056	1767	ypdA_2	COG3275	Sensor histidine kinase YpdA	ATGCAGGAGCTGACGCTGCATTTGTTCGAACGGATGGGCATGCTGCTCATCCTGACTTTTATACTGACGAGAATTCCGCTGTTCCGCCAATTGCTGGACCGCAAAGAGATGTCCGGCATGCGGATGTTCATCTATTCCGGCCTATTCGGGCTCTTCGGCATCCTGGGGACCTATGCTGGCGTTGTCGTGGAGAACGGCGAGTCCAGTTCCTCCTTCTGGCTGATGCGGCTGACCGGGGAGCAGGCGCTGGCCCACTCTGCCCTGGTCGGGGTGGTGATCGGCGGACTGATCGGCGGTCCCCGCGTTGGCATCGGGGGCGGGCTCCTGGCAGGAGCCCACCTCCTGTATATCGGCGGTGCCACGGGGCTGGCAGGCGCAATCGCCGTGCCGTTAACGGGAGCGCTCGCAGGAGGCGTGGCCCGATTCTTCTCGCAGGAGCGGGTCATCTCGCCGGCGAAAGCGTTATTTGTCGGCATGTTCGCTCCGATCCTGCTCATGGGGATGATTTTGATCTGTGCGGATGAGCCGGATCGTGCAGTGGAACTGGTCAACCTGATCGGCCTGCCGATGGTGCTGACGAACAGCATCTCCATTGCAATCTTTACGACGATGCTGAGGGTCGCGCTCACCGAGGAGGAACGTGCAGCCGCGTATGAGACGGAGAAGGCATTCCATATCGCGGAATCGGCGCTCCCGCATCTGAAGCAGGGACTGACGTACCGTACGGCTCAGGCCGTGGCGGCCTTGCTGCTGCGAGAGCTGAAAACAGCGGCCGTCGCCATTACCGATACGGAGCGGTTCCTGGCCCATGCCGGCACAGCAAGCCGTACCCTTGATCCCGGAGAAGAGATCCAATCGGACTTGACCAAGAGCGTCATCGCGACCGGCGAGCTTCGGATCATCGAGAATGCGGAAGAGATCCAGCCCCGGCATCCGGCGCTCGGCGCCGCCATCCTTGTCCCGATCATAGAGGCAGGCCAGGTCGTGGGCGTCATTCAATTCTACTTCAAGCGGCCGGAGGATATCCGGCGCGTCGAGCTGGTGATGGCCCAGGGGCTGGGACAGCTGATTTCCTATCAGCTCGGGGCCACCGCACACGAGAAGATGAGCCATTTAATGAAAGAGGCGGAGCTCAAGCTGCTGCAGGCCCAGATCAATCCGCACTTTCTATTCAATACCCTCAATGCGATTCATTCGTTGATCCGCACCGATCCGCTGCTGGCACGACATGCGACGATGCAGCTGGGGGCGTTCATGCGCCTGAACGTCAAGGTCATGGCTTCCCGCAGAACGACCATTCGCGAGGAGATGGAGCTGTTGAATGCCTATCTGGACATTATACAGATCCGGTTCGAGGATCAGTTCACGTTTGAGTGCCGGCTCGATCCCGCGCTTGGCGAGCTTATGATTCCGCCGGCGACGCTGCAAATGCTGGTGGAGAACAGCATCAAGCACGGCCTGCGCGACAAAGCGAGCGGAGGCGTCATTCGGCTGACCCTAAGCCGGGCCGGTGATATGGCGGTTATTCAACTGCGGGACAACGGGATCGGCATTTCGCCGGAAGTGCTGGACAGCCTAGGCGATCAACCGATCATCGGCAGCGAGGGTACGGGAAACGGCATTTACAATATCAATCAGCGTTTAATCAGCATGTTTGGCAAGGAGGCCAGACTTATCGTGGAGAATCTTGCAGAGGGCGGCTGCAGCATATCCTTCAGCATCCCCTGCAGCTTGTCGGAAGGGAGCCGGTACCGTGAAGCGAATTAA	MQELTLHLFERMGMLLILTFILTRIPLFRQLLDRKEMSGMRMFIYSGLFGLFGILGTYAGVVVENGESSSSFWLMRLTGEQALAHSALVGVVIGGLIGGPRVGIGGGLLAGAHLLYIGGATGLAGAIAVPLTGALAGGVARFFSQERVISPAKALFVGMFAPILLMGMILICADEPDRAVELVNLIGLPMVLTNSISIAIFTTMLRVALTEEERAAAYETEKAFHIAESALPHLKQGLTYRTAQAVAALLLRELKTAAVAITDTERFLAHAGTASRTLDPGEEIQSDLTKSVIATGELRIIENAEEIQPRHPALGAAILVPIIEAGQVVGVIQFYFKRPEDIRRVELVMAQGLGQLISYQLGATAHEKMSHLMKEAELKLLQAQINPHFLFNTLNAIHSLIRTDPLLARHATMQLGAFMRLNVKVMASRRTTIREEMELLNAYLDIIQIRFEDQFTFECRLDPALGELMIPPATLQMLVENSIKHGLRDKASGGVIRLTLSRAGDMAVIQLRDNGIGISPEVLDSLGDQPIIGSEGTGNGIYNINQRLISMFGKEARLIVENLAEGGCSISFSIPCSLSEGSRYREAN				NA	NA	NA	NA	NA
AK002_06057	156			hypothetical protein	ATGACAACAAGTCAGAGCAAGGCATTTCCCGTCGGATTGGATCGCATGCCTCGCATAAAAACGGGTTCGCTTCGGGTTGTCGGGGTCCGGGCTTCAATGTTCAAGGTTACTGGTTTATCGGGCTATCGGGTTATCGACCATTTCCTTATGACCTGA	MTTSQSKAFPVGLDRMPRIKTGSLRVVGVRASMFKVTGLSGYRVIDHFLMT				NA	NA	NA	NA	NA
AK002_06058	447			hypothetical protein	ATGGTGGCAACCTTTTATATACAGCAGCTCATTACGAGTTTCGTTGCTTCGGCGGCATTCGGGATCATCTTTAACGTACCCAAAAAAGCACTGCTGCAGTGCGGGTTTGCCGGCATGGTGGGCTGGCTGCTCTACATCATGCTTCAGGATATGAGGGTTGAGCCGGTGACGGCCACGGTAGTCGCAGCATTTTGCGTGACGATGATCAGTCATTTTTTCGCCAAAAAATACAAAACTCCTATCATCGTGTTCAGCGTGTCGGGGATTATTCCGCTCGTACCGGGCGGTGTCGCCTATAATGCCCTTCGCCATGTGGCCCAGAATCAATTCGATCAGGCCGTCCAGCTGGGGGCCCAGGCGTTCATGATTTCAGGCGCCATCGCGCTGGGGTTGCTGCTGTCGGAGGTGACCAATCAGGTCATAAGGAAATGGTCGATAACCCGATAG	MVATFYIQQLITSFVASAAFGIIFNVPKKALLQCGFAGMVGWLLYIMLQDMRVEPVTATVVAAFCVTMISHFFAKKYKTPIIVFSVSGIIPLVPGGVAYNALRHVAQNQFDQAVQLGAQAFMISGAIALGLLLSEVTNQVIRKWSITR				NA	NA	NA	NA	NA
AK002_06059	756	yjjP	COG2966	Inner membrane protein YjjP	TTGAATGATTTGTTGAAGCGGGAGCATGACATTATCAAGGTCTGCTTGTTAGCAGGCAAAATCATGCTGCAGAGCGGCGCGGAGACCTATCGGGTCGAGGATACGATGATGCGGATCGCCGCGGCTTTTGGCGTGGAGAACAGCCACAGCTATATGACTCCGACGGGCATTATCTTCTCGGTGGAGGAGCCGCAGCATATTACGCGGCTTATTCGTATTTCGGATCGGACAACCAATCTCCATAAGATCGATCAGGTCAACAGCGTGTCCCGGAGCGTCAGTCTCGGCGAGCTGACGATGGAAGAGGCTTACCGGGCCCTGGAGCGAATCGAGCATGAGCAGGCCATTTATCCGACATGGGTGCTGATTCTACTGTCATCGATCGCAAGCGGGTGCTTTCTCATCATGTTTCGCGGCATCTGGCCGGATTTCGTACCGGCGGCCGTTGCGGGCGGCCTGGGCTTCTCCTGCTTCGTGTTCATGCATCGGGTCATTCCCGTCCGGTTCTTCGCCGAATTCTCGGGGGCGCTCGTCATCGGCATAACTTCCGTTTGGATGGTCAGATTCGGATTCGGCCATCAGCTGGATACGATCATCATCAGTTCCGTGATGCCGCTTGTACCGGGCTTGCTGATCACGAATGCCATTCGCGATCTGATGGCAGGGCATCTGATATCCGGCTTGTCCAAAGGGGCAGAGGCTTTTGTTACGTCCTTTGCCATCGGCGCGGGGATTGCGTTTACTTTGTCATTCTAA	MNDLLKREHDIIKVCLLAGKIMLQSGAETYRVEDTMMRIAAAFGVENSHSYMTPTGIIFSVEEPQHITRLIRISDRTTNLHKIDQVNSVSRSVSLGELTMEEAYRALERIEHEQAIYPTWVLILLSSIASGCFLIMFRGIWPDFVPAAVAGGLGFSCFVFMHRVIPVRFFAEFSGALVIGITSVWMVRFGFGHQLDTIIISSVMPLVPGLLITNAIRDLMAGHLISGLSKGAEAFVTSFAIGAGIAFTLSF				NA	NA	NA	NA	NA
AK002_06060	984	yhdN	COG0667	Aldo-keto reductase YhdN	ATGAATTACAGACAATTGGGAAATACGGAGCTTCACATTAGCGAGGTCAGCTTCGGAACATGGGCGATCGGAGGCTCATGGGGGCAGACCGATGATCATGAAGCATTGAAGGGATTGGATCGCGCCATCGGCGAGGGCGTAAACTTCTTCGATACGGCCGACGTCTATGGAGACGGGCATGCCGAGGATCTGCTCGCGCGCGCAACCAAAGGGAAGGAAGATACCGTGCATGTGGCCACCAAGTTTTGCCGCGCCGGTGATATTCATGATCTTCAGACCTATTCCGAAGCGTCGATCCGCCGTTATTGCGAGGGCAGTCTGAAGCGGCTGCAGCGGGAGCGGATTGATCTCTATCAGGTTCACTGTCCTCCCTTCGAAGTATTAAAGGACGGACGGGTGTTTGAAGTGCTGGACAAGCTGCAGGCCGAGGGGAAAATCCGGCATTACGGCGTCAGCGTGGAGACGGTGGAGGAAGGACTGTTCTGTCTTGGGGTACCAGGGGTGAGGTCCCTGCAGGTGATCTTCAATCTGTTCCGCCAAAAACCGCTGGCCCAGCTGCTCCCGAAGGCCAAAGCATCGGGCGTCGGCATCTTGGTGCGCTTGCCGCTCGCGAGCGGTTTGCTAACCGGAAAATTTACGGAGAGCACTACCTTCAGCGAGGGGGATCACCGGAATTTCAACGCCAACGGCGAGCAGTTTAACGTAGGCGAGACTTTTGCCGGCCTCCGATTCGAAAAGGGTGTCGAGCTCGCCAGAGAGCTCGCCTGGATTGCCGAGGGCCGAGGCGACATGGCCCGTGCATCCATGCGCTGGATTCTGGATTGCCCGGAGGTCACTGCCGTGATTCCCGGCTTCCGCAACGTCCGCCAGATCGAAGACAACCTGGGCACGCTGGACGTGCCTTCGTTCAGCATGGAGGAGAAAGAACGCCTTGCGCTTTTCTATCAGGAGCAGGTAGCCATGCACATCCGCGGCGCCTATTAA	MNYRQLGNTELHISEVSFGTWAIGGSWGQTDDHEALKGLDRAIGEGVNFFDTADVYGDGHAEDLLARATKGKEDTVHVATKFCRAGDIHDLQTYSEASIRRYCEGSLKRLQRERIDLYQVHCPPFEVLKDGRVFEVLDKLQAEGKIRHYGVSVETVEEGLFCLGVPGVRSLQVIFNLFRQKPLAQLLPKAKASGVGILVRLPLASGLLTGKFTESTTFSEGDHRNFNANGEQFNVGETFAGLRFEKGVELARELAWIAEGRGDMARASMRWILDCPEVTAVIPGFRNVRQIEDNLGTLDVPSFSMEEKERLALFYQEQVAMHIRGAY				NA	NA	NA	NA	NA
AK002_06061	525			hypothetical protein	ATGACCAACCTCATCCTGCTTTCATTTCTTCGCCAGCGTCCTATGCACGGATATGAAATCCAGCAGCTCATTCAGGCCAGCCGTATGGACCTGTGGACGAATATCCTGTCCGGTTCGATCTATTACGCGCTGAACAAGATGGAAAGCGAGGGGTTGATTGCAGCCACTGCCGAAGAGCGAACCGGCGCGAGACTCCGCAAAATTTACAGCATCACGGATGAAGGCGAGAAGCTGTTCCAGCAGATGATCCGCGAGACGTTGACGCTTCCCCCCCACACCGTTAAATCCGACTTTTCGCTCGGTTTGGTCTGGATCGAGAACATTCCGAAGGAAGAAGCGGTGGAATTGCTGGAGCAAAATCTTAAGCAAGTGGAGGAATCGCTGGCCCAGTGGCGTTCGGGCAAGGAAATCAAGGGCCAGTACGGCTTATCCAAGATCGCCCTTGCCACCTTCGATAATGCGATTTCGATTTTGGAACAAGACATCGCCTTTCTCCACAAGATCATTGCAATCGTTCAAGAATAA	MTNLILLSFLRQRPMHGYEIQQLIQASRMDLWTNILSGSIYYALNKMESEGLIAATAEERTGARLRKIYSITDEGEKLFQQMIRETLTLPPHTVKSDFSLGLVWIENIPKEEAVELLEQNLKQVEESLAQWRSGKEIKGQYGLSKIALATFDNAISILEQDIAFLHKIIAIVQE				NA	NA	NA	NA	NA
AK002_06062	1314	serS_2	COG0172	Serine--tRNA ligase	ATGTTAGATATGAAATGGATCCGGGAGAGCGCGGATCATCAGGAAGAATTGCAGCAGGTGGCTGACCGGAAAGGCATCGCCCTTTCGGTTGCCGAGCTTGTCAAGCTGGATGACCAGCGGCGTACGCTGCTGTTGGCCGTGGAAGCATTGCGCCAGAAGCGCAATGCGATCTCGCAAGAGATCAGTGACCTGGTGCGGCAAGGCAAACCAGATGAAGCGGAACGGCAAAAACAGCAGGTCAAAACCATCAATGATGAGCTAGGTCAGCAGGAAGCGTTATATCGGGAGGTTGACGAAGCTTATAACGAGCTGCTTATACTCGTGCCGAATATCGTGTCGCCGGACACGCCTGTGGGGGCCTCGGATGAGGACAATGTGGAGATCAGACGAGTCGGCGAGCTCCCCGTGTTTGATTATCAATTCAGGGACCATGTCACGCTCGGCGAGCTGCATCGCATGATCGACATTCCCCGTGGCGTCAAAACCGCAGGCACGCGCAGCTACTACCTGACCGGCATCGGCGCAATGCTCCACCGTGCCGTTCAGCAGCTTGCGGTGGATATGCTCGTCGCCAAGGGTTTCACCCTCATGGACGTGCCGTTGACGGTAAGGACGGAGGCCATGCAGCATACGGCCTTCTTCCCGCTCGGTCAGGATCAGGCCTTTCAAATTACGGAGCAAGATAAGTGGCTCGTCGGTACCTCGGAGGTGCCGTTGGTATCGTTCTATAGCGGTGAAGTTGTCGATGTAGCGGAGCCGATTCGCCTGGCAGCAGCGTCGCTCTGCTTCCGGAGCGAGGTTGGCTCGGGCGGTCGGGACGTCCATGGCCTCTATCGGGTGCACCAGTTCGCGAAGGTGGAGCAGGTCGTTCTTTGCGAAGCCAGCACGGAGGCCTCGGAGCTGCTTCTGCAAGAGATTACGGCCAATGCCGAGGAGCTGCTGCAGAAGCTCGAATTGCCTTACCGGGTCGTTGCCGTCTGTACCGGGGACATGTCGCAGAAAACGTACAAACAATACGACATCGAGACATGGATGCCAAGCCGCGGAGCTTATGGAGAGACCCACTCGTCGTCGAATCTGCTCGACTTCCAGGCGCGCCGCTCGAACATCCGCTACCGGGACGCGAAAGGCAAGCTGCGCTACTGCCACACCTTGAACAATACGGCCGTGGCTTCGCCGCGGATTCTTATCCCGCTGCTGGAGAACCATCAGCAGCCCGACGGCTCGATCCTCATTCCGAAGGCGCTCAGGCCTTACATGAACGGGATGGAGCGAATTGAGCTTCCGAACGGAACGGAGAACAGAACGGAATAA	MLDMKWIRESADHQEELQQVADRKGIALSVAELVKLDDQRRTLLLAVEALRQKRNAISQEISDLVRQGKPDEAERQKQQVKTINDELGQQEALYREVDEAYNELLILVPNIVSPDTPVGASDEDNVEIRRVGELPVFDYQFRDHVTLGELHRMIDIPRGVKTAGTRSYYLTGIGAMLHRAVQQLAVDMLVAKGFTLMDVPLTVRTEAMQHTAFFPLGQDQAFQITEQDKWLVGTSEVPLVSFYSGEVVDVAEPIRLAAASLCFRSEVGSGGRDVHGLYRVHQFAKVEQVVLCEASTEASELLLQEITANAEELLQKLELPYRVVAVCTGDMSQKTYKQYDIETWMPSRGAYGETHSSSNLLDFQARRSNIRYRDAKGKLRYCHTLNNTAVASPRILIPLLENHQQPDGSILIPKALRPYMNGMERIELPNGTENRTE				NA	NA	NA	NA	NA
AK002_06063	1038			hypothetical protein	ATGACAGAAGCAAATCTTGACCATACAGCGTCCAAAACGCTTCGCGATATCCCGATTTCCATCCTCGATCTGGCGCCGATTACAGCGGGCAGCACAGCTGCACAGTCGCTGCGGAATACGCTCGATCTCGCTCAACATGCCGAGAAGTGGGGTTATAACCGCTACTGGCTTGCCGAACATCACAACATGCCGGGGATCGCCAGCTCGGCCACTTCGGTGGTCATAGGCCATGTGGCCGGGGGCACCAGCAAGATTCGCGTCGGTTCCGGCGGCATTATGCTGCCGAACCATGCTCCGCTTGTCATTGCCGAACAGTTCGGCACCCTCGAATCCTTGTATCCCGGCCGGATCGATCTCGGTCTTGGCCGTGCGCCGGGTTCGGATCAGCTGACCTCCCGGGCGCTCCGCCGCGGCCCTGGCAGCGACGGCCAGGACTTCCCGGACCGCCTCGGCGAGCTGCGGAATTACTTCCAGCCTACCTCCGGCTCGTCCATGCGCATCCGGGCGATTCCGGGGGAAGGCCTGCATGTTCCGATCTGGCTGCTCGGCTCCAGCGGTTTCAGTGCGCAGCTGGCAGGGCAGCTGGGGCTTCCGTTCTCTTTTGCGAGCCACTTTGCTCCGGACTATCTAATGGCGGCGCTCGATCTGTACCGGACCAGCTTCCGCCCTTCATCCGAGCTGAGCCAGCCGTATGCCATGATCGGCGTGAACGTGATCTGCGCCGACACGGATGAGGAAGCGCAGCGCCTGGCTACCTCGCCGTACCAGCAGTTCCTGAACATCATCCGGGGCCGCACCGGCCAGCTGAGTCCGCCGGTGGACAGCATGGATGACCTGTGGAACCTGCAGGAGCAGGCCATCGTGAAGCGCCAGCTCAGTTTTTCCGCCATCGGCAGTCCCGCAACCGTCCGCGCGCAGCTGGAGCAGTTCCAGCAGTCGACGGACGCGGACGAAATCATTGTCGCGGCCGCGATCTATGATCATCAGGCGCGCCTCCGTTCATATGAGCTGCTGGCGGAAGCCGTCGGCATCAAATAA	MTEANLDHTASKTLRDIPISILDLAPITAGSTAAQSLRNTLDLAQHAEKWGYNRYWLAEHHNMPGIASSATSVVIGHVAGGTSKIRVGSGGIMLPNHAPLVIAEQFGTLESLYPGRIDLGLGRAPGSDQLTSRALRRGPGSDGQDFPDRLGELRNYFQPTSGSSMRIRAIPGEGLHVPIWLLGSSGFSAQLAGQLGLPFSFASHFAPDYLMAALDLYRTSFRPSSELSQPYAMIGVNVICADTDEEAQRLATSPYQQFLNIIRGRTGQLSPPVDSMDDLWNLQEQAIVKRQLSFSAIGSPATVRAQLEQFQQSTDADEIIVAAAIYDHQARLRSYELLAEAVGIK	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
AK002_06064	759	lvr_3		Levodione reductase	ATGTCCGATAACCAACAGATTGCTGTCATTACCGGCGCGGCCAGCGGGATCGGCAGAGCCACCAGCCTGAAATTGGCTGAGAACGGTGCCGCGGTTGTGCTCGTGGATTTCAACAAGGAAGCCGGCGAAGAGACGCTGCGCTTGATTAAGGAGCAAGGCGGAGAGGGAATCTTCGTGCAGGCGGATGTGACAAAAACCGAGGATGTTCAGAACTATGTGAACAAGGCGGTTGAAGCTTACGGCCGAATCGATTTCTTCTTCAACAATGCAGGTATCGTGCAGAAGTTCTCCATGCTGGACGATATCGACGAGAACGAATTTGACCGTCAAATGTCCGTGAATGTGAAGGGCGCTTTCCTTGGCATGAAGTATGTTTTGAAGGTCATGAAGGAACAGGGCAGCGGACATATCGTGAACACGGCTTCCACGGCGGGCATCCGCAGTGAACACAGTGCCGCCGCATATTCGGCAAGCAAGCACGCGGTTGTGGGCTTGACCAAGGCAGCTGCGTTGGAATACGTGAAGCAGGGCATTCGCGTGAACGCCATCTGCCCTGGCGGCGTTCAGACGCCGCTGACCGCAGCGGTGGCCAAGTCCTTCATGGAAGGCGGCTATGTGCCTGAGGAAGTGGGCAACATGCGGATGGGCCGTCCGGCTGAGGCGGACGAAATCGCAAACGTGGTTGCCTTCCTGGCTTCCCCGGGCTCCAGTTACATGACAGGCTCGCTGGTTACGATTGATGGCGGGCTGACGCTGTAA	MSDNQQIAVITGAASGIGRATSLKLAENGAAVVLVDFNKEAGEETLRLIKEQGGEGIFVQADVTKTEDVQNYVNKAVEAYGRIDFFFNNAGIVQKFSMLDDIDENEFDRQMSVNVKGAFLGMKYVLKVMKEQGSGHIVNTASTAGIRSEHSAAAYSASKHAVVGLTKAAALEYVKQGIRVNAICPGGVQTPLTAAVAKSFMEGGYVPEEVGNMRMGRPAEADEIANVVAFLASPGSSYMTGSLVTIDGGLTL	PGPT0003180_12148	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
AK002_06065	753	linX		2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase LinX	ATGGGGAGATTAGACAATAAAGTAGCGATTATTACGGGTGCGGCTGGAGGCATGGGTAAAGCTGATGCTCTTTTGTTTGTGCAAGAGGGGGCCAAGGTAGCGATTACGGACCTTCAGGAGGATAAAATCAAAGACGTCGTCGCTGAGATTGAAGCGCTCGGCGGCGAAGCGCTGGGGATCAAGCATAACGTTGCTTCCGAAGAAGATTGGGTCCGCGTCGTGGACGAAACGGTTCAAAAATTCGGCAAAATCGACATTCTGGTCAACAATGCCGGTGTCTCCAATGCAACGCCGTTCATGGATTTGACGGTCGAAGGCTGGGAGAAGACGATGTCGATCAACGTTACGAGCATATTCCTCGGCCAAAAATATGTCATTCCGCACATGATCGAAGCCGGCGGCGGTTCCATCGTCAACATCTCCTCCATTGCCGGCCTGACGGGCGGAAGCGGCGCCGGTCCTTACACGGCAAGCAAAGGCGCGGTACGCATGCTGACCAAAGCCACGGCCGTTGACTTTGCGAAGCATAACATCCGCTGCAACTCGGTACACCCGGGCTATATCGAAACGCCAATGACCGTGGATCTCTTCAAAGACGAAAAAATGATGCAGTGGTTCCAATCCCAGACGCCGTTGCCACGACTCGGCAAAGCGGAAGATATCGCGCGCGGCGTGCTGTTCTTGGCATCCGACGAGTCCTCTTACATTACGGGCGTCGAGCTGCCGATCGACGGCGGGTATTTCGCGAAGTAA	MGRLDNKVAIITGAAGGMGKADALLFVQEGAKVAITDLQEDKIKDVVAEIEALGGEALGIKHNVASEEDWVRVVDETVQKFGKIDILVNNAGVSNATPFMDLTVEGWEKTMSINVTSIFLGQKYVIPHMIEAGGGSIVNISSIAGLTGGSGAGPYTASKGAVRMLTKATAVDFAKHNIRCNSVHPGYIETPMTVDLFKDEKMMQWFQSQTPLPRLGKAEDIARGVLFLASDESSYITGVELPIDGGYFAK	PGPT0008190_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008190-budC-K18009	NA	NA
AK002_06066	432			hypothetical protein	ATGGTAGCCCGTCAGATGATGACGCTTGTGGCGAACTATGCCAAGATTCTGGACAATGATTTGACCGGCCCCCAGTATTACGTGCTTCAGACCTTGGCGTATGAGGGGCAGCAGACCAGCTCATATTTTGCCAATGCCCTGAATGTTACGCTGTCGGCTGTCACCAACTTGAGCAACAAGCTGGTAAGCAAGGGTTATATTGAACGGGTAGCGTCGAGCGAGGACAGGCGTCAAGTCTATCTTAGGATCACGGAGCAGGGACGCGAGGTGGAAGCCCGGATGATTGCGAAGTACCGTGAATTGAATGAAGGCTTATGGTCGGATTTCTCGGATCAGGAGATGGATGTCTTGATCGCTTCGTACGAGAAGATGATCGAGCATTTGCAGCTTAAGATCGGGCAGTCCCATATGGACAGCCAATCCAACGACTAA	MVARQMMTLVANYAKILDNDLTGPQYYVLQTLAYEGQQTSSYFANALNVTLSAVTNLSNKLVSKGYIERVASSEDRRQVYLRITEQGREVEARMIAKYRELNEGLWSDFSDQEMDVLIASYEKMIEHLQLKIGQSHMDSQSND	PGPT0013155_4680	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK002_06067	642		COG1010	Cobalt-factor III methyltransferase	TTGGCCATGCAAAAATTTGCTGTGACCCCCGGCTTTGAAGTGGGCGGAACGCTGTTCCGCCCGGATCAGCTGGCCGTATTGGGCTCCATCGTAGGCGAAGATGCCCGCATCGAGATGACAACCTTCAAGCAGCTGTACGTGGAGATGGATGAAGAGCGGGTGGAGGAAGCCAAGGCGAAGCTGGAAGCCGCCGGCCTTCAGGTACATCCCGCCGGCTTCGTCTCCAAGAGCCTGATTACCTGCAACTTTTGCCGGGGGGCGGAGGATTCGGGATTGGATATTGCCAAGATGCTGGATGAAGCCATCGCTGACCATCCCGTACCCAATCCGCTAAAGATCGGGTACGCAGGCTGCGCGCTTGGCACCAGCGAGCCGCTGCTGAAGGATATTGCCGTTATTAAGATGCGAAATACCTACGATATCTATGTAGGCGGGGAGCCGAGAGGCTTGAAGGCTTCGCTGGCGAAGCAGCTGCATGCGGATTTGACGCCGGAGCAGCTGGCTCCGATCATCTTGAAGCTGATCGCCATCTATCAGGAGCACGGCAAGAAAAAAGAGAAGTTCTCGCGTTTCGTTGAGCGCATGACACTGGATCATCTCCGCCAATCCACGGTGGCTGAGCGGATGGATACGGCAGGATGA	MAMQKFAVTPGFEVGGTLFRPDQLAVLGSIVGEDARIEMTTFKQLYVEMDEERVEEAKAKLEAAGLQVHPAGFVSKSLITCNFCRGAEDSGLDIAKMLDEAIADHPVPNPLKIGYAGCALGTSEPLLKDIAVIKMRNTYDIYVGGEPRGLKASLAKQLHADLTPEQLAPIILKLIAIYQEHGKKKEKFSRFVERMTLDHLRQSTVAERMDTAG	PGPT0004635_1073	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0004635-cbiH-K05934	NA	NA
AK002_06068	2433	copA_2	COG2217	Copper-exporting P-type ATPase	ATGGGAGCAGAAGCAACAATGGAACAGAAGAAAACATCGCTGCAGTTAACGGGTATGACATGTGCCGCCTGTGCGAATCGGATTGAGAAGGGCCTTAGCAAAATGGAGGGCGTCCAGGAAGCGAATGTGAATTTTGCGCTGGAAAAAGCGTCGGTTACATTTGATCCGAATGTGGTTACCGTCCAGCAGATGGAAGAGAAAATCGAAAAGCTGGGTTACGGAACAGCAAAGGAAACGGTGGACCTTCAGCTGATTGGCATGTACTGTGCTGCCTGTGCTACGAAAATCGAGAAAGTGGTTAGCCGGATGCCAGGCGTGAATCAGGCCAACGTCAATTTTGCACTGGAGACGGCCCGGGTGGAATTCAATCCCGCCGAGGTCAGCCTTAGCGATATTCAACAGCGCGTGGAGAAGCTCGGGTATCAGGCGGTTTCCAAACAGGAAACGCTTGATCAGGAAGGTCACCGCAAGGAGGCCATCACCAAGCAAAAGCGGAAGCTGCTCCTGTCGGCGATTCTGTCGCTGCCGCTGCTCTGGGCCATGGTAAGCCATTTCTCCTTCACCTCCTGGATCTGGATGCCGGATCTGTTCATGAACCCTTGGTTCCAGCTGATCCTGGCAACGCCGGTACAGTTTTTTATCGGGAAACAGTTCTATGTGGGAGCTTATAAGGCCCTCCGCAACAAAAGCGCCAATATGGACGTTCTGGTCGCACTCGGTACCTCGGCAGCCTATTTCTACAGTCTGTATTTAACGATCGATTGGGCCGCTGCCGGAGCAAACGCACACCATGGGCCTGAAATGTACTATGAAACTAGTGCGGTGCTGATCACGCTGGTCATTATGGGGAAACTGTTCGAATCCCTGGCCAAAGGCCGTACCTCGGAGGCCATTAAAACCCTGATGGGTCTTCAAGCCAAAACGGCACTGGTCGTTCGTGACGGTCAGGAGATGACCATCCCGGTGGAACAGGTCCTGGTGGGTGATTTAGTACTGGTAAAGCCGGGTGAGAAAATCCCGGTGGACGGTAAAGTCGTGGAGGGCACGTCGGCGGTAGATGAGTCAATGCTGACAGGTGAAAGCATTCCGGTTGAGAAAAAAGCGGGCGATGCTGTTATCGGCGCCACCATAAACAAGAACGGACGCTTGACTTTGGAAGCGACGAAAGTGGGTAAGGAGACCGCTCTAGCCCAAATTATCAAGGTGGTTGAGGAAGCGCAAGGCTCCAAAGCTCCGATTCAGCGGGTAGCTGATGTCATCTCCGGCATTTTCGTTCCGATCGTGGTCGGCATTGCAATTGCTGCCTTCCTCGTGTGGTACTTCTGGGTAACGCCTGGTAATTTCGCGCAATCGTTAGAAATTGCCATTGCGATCCTGGTTATTGCTTGTCCGTGTGCGCTGGGTCTGGCTACGCCGACCTCGATCATGGCGGGTTCGGGCCGAGCTGCAGAGCTGGGCGTTCTGTTCAAGGGCGGGGAGCATCTGGAGTCCACGCACAAAATCGACGCGATTATTCTGGACAAAACAGGAACGGTCACGAAAGGCAAGCCCGAGCTGACCGATGTGGAAGTCGATAACATCGATCAGGAGCTGTTCCTGCGTTTGGTCGGAGCTGCCGAGAAGAGCTCCGAGCATCCGCTTGCCGAAGCGATCGTGGCCGGGATTGAGGCGAAAGGGACGAAGCTTCCGACTGCCGAGCATTTTGAGGCGATTCCAGGCTACGGCATCCAGGCCAGCGTGGAAGGACACGAAGTTCTGGTCGGTACTCGCAAGCTGATGGCACTGCATAACGTGCCGGTCGATGCGGTCCTGGCCAGAATGTCGGAGCTGGAAACCGAGGGTAAGACCGCTATGCTTACCGCGGTAGACGGCCGATATGCCGGTCTTGTGGCCGTAGCGGATACCATCAAGGAGACGTCTAAGGCTGCTGTAGCAAGGCTGAAGCAAATGGGTATTGAAGTGATCATGATTACCGGCGACAACGAACGCACGGCTCAGGCCATTGCCAAGCAGGTTGGTATTGACCATGTGCTTGCCGAGGTACTGCCGGAGGGCAAAGCGGATGAAGTGAAGAAACTCCAGCAGCAGGGCAAGAAGGTCGCCATGGTCGGCGATGGCATTAACGATGCGCCAGCCCTTGCGGTTGCCGATATCGGCATGGCCATCGGCACAGGCACGGATGTGGCCATGGAAGCCGCCGACGTTACGCTGATGAAGGGCGACCTGAACAGCATTCCGGACGCCATCTACATGAGCCGCAAGACGATGAGCAACATCCGTCAGAACCTGTTCTGGGCCTTGGGCTACAATTCGCTCGGCATTCCGATTGCCGCCATCGGGCTGCTGGCGCCTTGGGTGGCCGGGGCTGCCATGGCACTTAGCTCCGTATCGGTCGTGCTGAATGCCCTTCGTCTGCAGCGGATGAAGGTATAA	MGAEATMEQKKTSLQLTGMTCAACANRIEKGLSKMEGVQEANVNFALEKASVTFDPNVVTVQQMEEKIEKLGYGTAKETVDLQLIGMYCAACATKIEKVVSRMPGVNQANVNFALETARVEFNPAEVSLSDIQQRVEKLGYQAVSKQETLDQEGHRKEAITKQKRKLLLSAILSLPLLWAMVSHFSFTSWIWMPDLFMNPWFQLILATPVQFFIGKQFYVGAYKALRNKSANMDVLVALGTSAAYFYSLYLTIDWAAAGANAHHGPEMYYETSAVLITLVIMGKLFESLAKGRTSEAIKTLMGLQAKTALVVRDGQEMTIPVEQVLVGDLVLVKPGEKIPVDGKVVEGTSAVDESMLTGESIPVEKKAGDAVIGATINKNGRLTLEATKVGKETALAQIIKVVEEAQGSKAPIQRVADVISGIFVPIVVGIAIAAFLVWYFWVTPGNFAQSLEIAIAILVIACPCALGLATPTSIMAGSGRAAELGVLFKGGEHLESTHKIDAIILDKTGTVTKGKPELTDVEVDNIDQELFLRLVGAAEKSSEHPLAEAIVAGIEAKGTKLPTAEHFEAIPGYGIQASVEGHEVLVGTRKLMALHNVPVDAVLARMSELETEGKTAMLTAVDGRYAGLVAVADTIKETSKAAVARLKQMGIEVIMITGDNERTAQAIAKQVGIDHVLAEVLPEGKADEVKKLQQQGKKVAMVGDGINDAPALAVADIGMAIGTGTDVAMEAADVTLMKGDLNSIPDAIYMSRKTMSNIRQNLFWALGYNSLGIPIAAIGLLAPWVAGAAMALSSVSVVLNALRLQRMKV	PGPT0004090_3575	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
AK002_06069	201	copZ_2		Copper chaperone CopZ	ATGGAACAGGTAACTATAAAAGTAGAAGGCATGTCCTGCATGCATTGCGTGAATTCCATCGAAGGAGCTTTAAAGAATGAGAACATCGAGGGACATGTGGATTTGAAGGCAGGCACGGTCTCCGTGAAATATGACGCAGGCAAAGTCAATTTGGATCAAATCAAAGAAATTATCGAGGAACAAGGATATAACGTAGTTTAA	MEQVTIKVEGMSCMHCVNSIEGALKNENIEGHVDLKAGTVSVKYDAGKVNLDQIKEIIEEQGYNVV	PGPT0004125_3389	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
AK002_06070	324	csoR	COG1937	Copper-sensing transcriptional repressor CsoR	ATGACAACCGAGAACCATGTACATGATGCATGCGCAGTAACCGGTGAACGGAAGAGCCATCATTCGGACAAAACGAAAAGCAATCTCATCAGCCGGTTGAACCGGATTGAAGGGCAGATCCGCGGCGTGAAGGGCTTAATTGAGAAGGATACGTACTGTGACGATGTGTTAAACCAGATTTCCTCGATCCAGTCGGCCTTGAACGGCGTCAGCAAATTGCTGCTCGAGCATCATATGAAGAGCTGTGTGGTGGAGCGCCTCCAGGAAGGCGACGATGAGGTCATTACCGAGCTGTTAACCACCATGAACAAGCTGATGAAGTAA	MTTENHVHDACAVTGERKSHHSDKTKSNLISRLNRIEGQIRGVKGLIEKDTYCDDVLNQISSIQSALNGVSKLLLEHHMKSCVVERLQEGDDEVITELLTTMNKLMK	PGPT0004175_669	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK002_06071	2079	aguA		Xylan alpha-(1->2)-glucuronosidase	TTGAACAGCACTTTATATCAAGCGTGGCTGCAGTATGCGCCCATTAAGGACCGGGAGCTTGCTGCCGTGTACAGCCGGCTGTTAGGCACCGTGGTTGCGGATCTGCAGCAGTCGCGGGTGGCTAACGCTGCGATCCAGGAACTGAGGAATGCATGTCGATCCATGCTCGGCGTCGTACCGTCCATCACATCCGAGGCTAAAGCTTCATCCTATCTCGAGGTGCGAATTCATGCGGAAGACGCCGAAGAGGGCACGGGAGAAATTGGGGAAGATTCCATGGGAGCAGGGAGAGCCCGGCTGGGCGCAGAGGGTTTTCGGCTGGAGCATTCTGGCCATGGGCAGCAGGAGAAGCTGATCCTGACCGCCGGATCCGGGAAAGGCGTGTTATACGGGGTGTTTCATTTATTGAGATTGCTGGCATCCCACCACACGTTGACCGGTCTGAACGTAACCGAGCAGCCTGTGAACGGATTGCGGATGATAAATCAATGGGATAATGCCGACGGCTCAGTTGAACGGGGATACTCGGGCAACTCGATTTTTTACGAAAACGGACGGTTCACCGAAAATCTGGATCGCATAAGAGACTACGCCCGTCTGTTAGCTTCCGTGGGCCTGAATGCCATCTCCATTAATAACGTCAATGTGCATGAAATCGAGACGAAGTTCATTACCGCGGAATATTTGCCGACGATTGCAAAGATCGCGGATATCTTCCGGGAATATGGCATTATGCTGTACCTGAGCATAAACTTCGCCGCTCCGCTGCATATCGGCGGCGTACCCACGTCGGACCCGCTGAACGAAGAGGTTCGGCAGTGGTGGAAGGATACGGCGGATGAGATCTACGATCATATACCGGACTTCGGCGGCTTTGTGGTCAAGGCGGATTCGGAGCACCGGCCGGGGCCGTTCGCCTATGGCAGAGACCACGCCGATGGCGCCAATATGCTGGCCGAAGCGCTGGAACCGCATGGCGGGCTTGTCATCTGGCGCTGCTTCGTTTACAACTGCATGCAGGATTGGCGGGACCGCAGCACGGACCGCGCGCGGGCGGCCTATGATCATTTTACCCCGCTGGACGGACGGTTTAAGGACAATGTGCTGCTGCAGATCAAGAACGGACCGATGGATTTCCAAGTACGGGAGCCGGTATCCCCGCTGTTCGGCAGCATGAAACAGACCAATCAGGTGCTGGAGTTCCAGATCGCCCAGGAATATACCGGACAGCAGCGCCACGTATGCTATTTGGTGCCGCAGTGGAAAGAGGTGCTGGATTTCGATACCTACGCGAACGGAACGGGGTCCGAGGTTAAGAAGATCGTGGACGGTTCGCTGCACGGCATGAAATACAGCGGGATCGCCGCCGTTTCCAACATCGGGAATGATGAGAATTGGACGGGTCACACCTTGGCGCAGGCGAATCTGTATGGATTCGGCCGGCTGGTCTGGAACCCGGATATGTCCGCCGAAGGGATTGCGGAGGAATGGACGAGGCTGACCTTCGGCAATGATGAGACGGTGGTCGCCGTGGTGTGCGGCATGCTGATGCAATCGTGGCCGATCTATGAAAGCTACACCTCGCCGCTCGGGGTAGGCTGGATGATTACGCCGCATACGCATTACGGACCGGATGTGGACGGTTATGAATATTCAAGGTGGGGCACCTACCATTTCGCGGATCGGGACGGTATTGGGGTGGACCGCACGGTGGCGACGGGCACGGGGTACACCGCACAGTATTTCGAGCCGAATGCGGCCCGATATGATGCGCTGGAGGATTGTCCTGAAGAGCTGCTGCTGTTCTTTCATCATGCGCCGTACTCGCATGTGCTGAAATCCGGTAAAACGGTGATTCAGCATATCTATGACACGCACTTCGAAGGTGCGGAAGCTGCGGCCGGGCTCTTGAAAGCATGGACATCGCTCGAAGGCAAGGTCGATCTGGAGCGTTTAACCCAAGTCACCGAACGGTTAGCTGACCAGGCCGAGCATGCCAAGCACTGGCGGGATGTGATCAATACGTATTTTTACCGCAAATCCGGCGTGCCGGATGCGCAGGGGCGAACGATTTATTAA	MNSTLYQAWLQYAPIKDRELAAVYSRLLGTVVADLQQSRVANAAIQELRNACRSMLGVVPSITSEAKASSYLEVRIHAEDAEEGTGEIGEDSMGAGRARLGAEGFRLEHSGHGQQEKLILTAGSGKGVLYGVFHLLRLLASHHTLTGLNVTEQPVNGLRMINQWDNADGSVERGYSGNSIFYENGRFTENLDRIRDYARLLASVGLNAISINNVNVHEIETKFITAEYLPTIAKIADIFREYGIMLYLSINFAAPLHIGGVPTSDPLNEEVRQWWKDTADEIYDHIPDFGGFVVKADSEHRPGPFAYGRDHADGANMLAEALEPHGGLVIWRCFVYNCMQDWRDRSTDRARAAYDHFTPLDGRFKDNVLLQIKNGPMDFQVREPVSPLFGSMKQTNQVLEFQIAQEYTGQQRHVCYLVPQWKEVLDFDTYANGTGSEVKKIVDGSLHGMKYSGIAAVSNIGNDENWTGHTLAQANLYGFGRLVWNPDMSAEGIAEEWTRLTFGNDETVVAVVCGMLMQSWPIYESYTSPLGVGWMITPHTHYGPDVDGYEYSRWGTYHFADRDGIGVDRTVATGTGYTAQYFEPNAARYDALEDCPEELLLFFHHAPYSHVLKSGKTVIQHIYDTHFEGAEAAAGLLKAWTSLEGKVDLERLTQVTERLADQAEHAKHWRDVINTYFYRKSGVPDAQGRTIY	PGPT0018635_321	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCURONIDASE,PGPT0018635-aguA-K01235	NA	NA
AK002_06072	1017	xynA		Endo-1,4-beta-xylanase	ATGTCCAACACGCAGCGAAGTGAACCCAGGCTTAAGGAAATGTTCGTGGATGACTTTCTCATCGGAGCGGCCGTGAATCCGAGGACGATCGAAACGCAGGAGGAATTGCTAGCGTACCATTTCAACAGCATTACGGCGGAAAATGAAATGAAGTTTGTCAGCGTGCACCCGGCAGAGGATACGTACACGTTCGAGGAGGCGGACCGGCTTGCCGCTTTCGCCCGCAAGCATGGCATGAAGATGCGCGGCCATACGCTGGTATGGCATAACCAAACGACCGACTGGCTGTTCGAGGACAAGAACGGGGGCCTGGTGGATAAAGCCACGCTGTACGAACGGCTAAAGTCGCATACCGACACGGTCGTGAAGCGGTACAAGGGCGATATTTACGCCTGGGACGTCGTGAATGAGGTAATCGCCGATGAAGGCGCCGAACTTCTTCGTCCGTCCAAATGGCTGGACATTGCGGGCCCCGACTTTATCTCCAAGGCATTCGAGTATGCGCATGAAGCCGATCCGTCAGCCCTCTTGTTCTATAACGATTACAATGAGTCCCATCCGAATAAACGGGACAAAATCTACACGCTGGTCAAGTCTTTGCTGGATCAAGGAACTCCTGTTCACGGCGTTGGCTTGCAGGCCCACTGGAATCTGTACGATCCGGATCTTGACGATATCCGGGCGGCGATCGAGAAGTACGCGTCGCTCGGCCTGCAGCTTCAACTCACGGAGCTTGATGTGTCGATGTTCCGGTTCGACGACAGGCGGAAGGATCTGACCGAGGCGCCGGAGGAGCTGCTGGAGGCTCAAGCGAAGCGGTATGAGGCGATGTTCGGCATATTGAAGGAATACCGGGATTATATTACGTCCGTGACCTTCTGGGGTGCTGCCGACGATTACACCTGGCTGGACAATTTCCCGGTACGGGGGCGGAAGAATTGGCCTTTCCTGTTCGATGAGCGGCATCAGCCGAAACCGGCGTTTCATCGCTTGGTGGAGCGTATGGTCAAAGTGTAA	MSNTQRSEPRLKEMFVDDFLIGAAVNPRTIETQEELLAYHFNSITAENEMKFVSVHPAEDTYTFEEADRLAAFARKHGMKMRGHTLVWHNQTTDWLFEDKNGGLVDKATLYERLKSHTDTVVKRYKGDIYAWDVVNEVIADEGAELLRPSKWLDIAGPDFISKAFEYAHEADPSALLFYNDYNESHPNKRDKIYTLVKSLLDQGTPVHGVGLQAHWNLYDPDLDDIRAAIEKYASLGLQLQLTELDVSMFRFDDRRKDLTEAPEELLEAQAKRYEAMFGILKEYRDYITSVTFWGAADDYTWLDNFPVRGRKNWPFLFDERHQPKPAFHRLVERMVKV	PGPT0018625_1726	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCANASE,PGPT0018625-xynY|xynZ|xynD|xynA-K01181	NA	NA
AK002_06073	936	araQ_59	COG0395	L-arabinose transport system permease protein AraQ	ATGGCGAAGATTTCAGATGCACCGCGAGCCCATGCCCGGTTCAAGTCTCCCGCGGACCGGTTATTCGATACCTTTAATATAGTCTTCATGATCTGTCTCATGATTGTCACGCTGTACCCGTTCATCAATACGCTCGCGGTTTCCTTCAACAATGCGACGGATTCGGTGAAAGGCGGCATATATTTATGGCCGCGGGATTTCACGTGGGAGAATTATAAATATGTATTTAACGAAGCCACGATATTCCACGCTACCTTCATCTCGGTTCTGCGTACGCTGATCGGCACGATCACTTCCGTATTCTGCTGTGCCATGGTGGCCTACACGATCAGCCGTCCGGAGTACGTGCTGCGCAAATTCGTGTCGATCGCCTTCATTTTGACCATGTATTTCAGCGGCGGTTTGATTCCGAACTTCCTGCTGATTCGCGAATTGGGCATGCTGGGCACCTTCTCGGTATACATCATTCCGGGCCTGATCGGCGTATTCAACGTCATCGTCATCCGCTCCTTCATCGAGGGATTGCCTGAGGGGATCCTGGAATCGGCCCGGATCGACGGCGCCGGCGAATTCACGACCTTCCTGAAAATCGTGCTTCCGCTGTGCGTGCCCGTGCTTGCCACGGTATCGCTGTTTACGGCGGTATCCCAATGGAACTCCTGGTTCGACGTATTCTTGTACAACTCCTCGTACGGCGAGCTTAGCACCCTGCAATACGAGCTGATGAAAATACTCCAGAATTCGAACTCCTCGCTGAATTCGGGCAACGATTATGCAAGCCAGTTTGCAAGCTCGGAAAGCGGCGCGAATCAGGTCACGCCGACCTCCATTCGGGCAACGATGACTATTGTGGCCAGCGTGCCGATCATTCTGGTATACCCGTTCCTGCAGAAATATTTCGTGCAAGGGATGACCCTTGGCGGGGTGAAAGGTTAA	MAKISDAPRAHARFKSPADRLFDTFNIVFMICLMIVTLYPFINTLAVSFNNATDSVKGGIYLWPRDFTWENYKYVFNEATIFHATFISVLRTLIGTITSVFCCAMVAYTISRPEYVLRKFVSIAFILTMYFSGGLIPNFLLIRELGMLGTFSVYIIPGLIGVFNVIVIRSFIEGLPEGILESARIDGAGEFTTFLKIVLPLCVPVLATVSLFTAVSQWNSWFDVFLYNSSYGELSTLQYELMKILQNSNSSLNSGNDYASQFASSESGANQVTPTSIRATMTIVASVPIILVYPFLQKYFVQGMTLGGVKG	PGPT0017255_299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_06074	1041	yteP_69	COG4209	putative multiple-sugar transport system permease YteP	GTGGATAAGGCGAACCCGATTGGACCTGCAGAGACCACGGCGCTAAGTGAAACGCCGGCGGTATCGAAAGGTTTCTTCAATAAACAACGAAAGAACGATACTGGTTTGAATCATAGACGGCCATCAGGCGAAAAGAGCTTCTTCCGGAAGCTGCTGCAGCAGAAGGCGCTTGTCTTCATGTCGATTCCTTTTTTGATATGGTTGTTTGTCTTTAAGTACCTGCCGCTGTGGGGCTGGACCATCGCGTTTCAGGATTTTAAACCGGCGAAGAAGATATTCGATCAGGAATGGGTAGGCCTGCAGCATTTTACCTTCCTGTTTCAGGACGAACACTTCCTCCGGGTCATGCGCAACACGCTCGCCATGAGTTTTATCAACCTTGTCTTAGGTTTTGTCACGGCGATTGTGTTAGCGATCCTGCTCAATGAACTGCGTAATTTGATGTTCAAACGGGTCGTGCAGACGATCAGTTATTTGCCCCATTTCATCTCTTGGGTTGTGGCTGCGAGCATTATTTCGACGGCCTTGTCCGCAGACGGCGGGATTATCAATGAACTCCTCATGTGGTTCGGGATTATTAAGGAACCGATCCTATGGCTTGGGGAAGGGGAATATTTCTGGGGAATACTCGGTGTTTCGGAAGTATGGAAGAATGTCGGCTGGAACACCATTATATATTTGGCGGCCATGACGATGATCGATCCCTCGCAGTACGAGGCGGCGGAAATCGATGGCGCCGGGCGCTTTCAACGGATCTGGAACATCACCTTGCCGGGTCTGAAACCGGTATTCATCATCCTGCTGATCATGAATATCGGCAACCTGCTCGAATCCGGTTTTGAACCGCAATACTTGCTTGGCAACGGCATGAACGTGGATTATTCCGAGAACCTGGATATTTTCGTGCTGAAATACGGTATTCAGATGGGCAACTTCTCGCTCTCGATTGCAGCCGGCATGTTCAAGACGGTCGTCAGCTTCATACTCTTGTTCACGGCTAACCATATCGCGAAGAGACTGGGCGAAGACCGATTGTTCTAA	MDKANPIGPAETTALSETPAVSKGFFNKQRKNDTGLNHRRPSGEKSFFRKLLQQKALVFMSIPFLIWLFVFKYLPLWGWTIAFQDFKPAKKIFDQEWVGLQHFTFLFQDEHFLRVMRNTLAMSFINLVLGFVTAIVLAILLNELRNLMFKRVVQTISYLPHFISWVVAASIISTALSADGGIINELLMWFGIIKEPILWLGEGEYFWGILGVSEVWKNVGWNTIIYLAAMTMIDPSQYEAAEIDGAGRFQRIWNITLPGLKPVFIILLIMNIGNLLESGFEPQYLLGNGMNVDYSENLDIFVLKYGIQMGNFSLSIAAGMFKTVVSFILLFTANHIAKRLGEDRLF	PGPT0017250_69	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_06075	1686			hypothetical protein	ATGAACAAGAAATTTTGGCTGAGCTGTCTGACCGTGGTTATGATGGTATCGCTTCTGGCAGCGTGCGGCGGCAGTAAAGAGGCAGCGGATAATACACCGGCAGCCGGCGGCGAAGGCGAGAAGAAAGAAGAGAAGGTCACCTTCACCTATTTCAACGCGGCAGCCGGTAAAGACAAAAATACGAACGAAACTACCATCGGTAAAATTTTCGAAGACCAAACCGGCGTGAATTTTAAAATGGAGCATTTGGTAGGAGACGAGAATACCAAGGTGGGAACCTTCATTGCCAGTAACGACTATCCCGATGTGATTGTGCCGGGGAGCTCGATCGATAAGCTGGTCGGGGCGGGCGCCTTCATTCCGCTCAATGACCTGATCGATAAGTACGGCCCTAACATCAAGCGGGTGTACGAGCCTTATTACAACCTGATGAAAGCCGAGGACGGCAACATCTACTTCCTGCCGCTGAGCGCGGTTGTAGGAGAGTACACGTCGGCTCCCAATATCGAGCAAGGAGCATTCTGGATCCAACGCCGCGTCCTGAAGGAAGCGGGTTATCCGAAAATCAAGACCTTCGACGAGTACCTGGCCCTGATTCGCGACTACGTGAAGAAACATCCGGAGGAAGGCTTGACCGGATATCTGGCGCTGACGACGCAGGATAAATTTTTTGCTCTGACCAATGCCCCGATGCATTTGGCCGGCTATCCGAACGATGGCGGGATCATCATCGACATGGAGACTCACGTAGCGAATGATTACGCGGACGACGACATTACGAAGCGGTACCTGCAAGAGCTGAACAAGCTGAATGCGGAGGGCCTGTTCGATAAATCCTCTTTCGTGGACAACTATGATCAATACCTTGCCAAACTGACTTCCGGTAAGGTGCTCGGCTTCTTCGATTATCGATGGCAGGTAGGCCAAGCGATGAACAACCTGCGCGAAACAGCCAATAAATCGGGTAACGACGATCTCGAATACATGGCGCTGCCGATCGTATACGATGAGAATACCAAGGATCAGTATCTGGATCCGCCATCCTTTGTGAACAACCGCGGCGTCGGGATCTCCGTCAGCGCGAAGGATCCGGAGCGCATTGTGAAGTATTTCAACAACCTGCTGACGGACGAGAACCAGATTCTGTCGAACTGGGGCATCAAGGACGAGACGTATTCCGTAGATGAGAACGGCCGCTTCTACCGTACGGAAGAGCAGATTGCACAGACCAATACGGAAGCCTTCCGCGAGTCGTTCGGCTTCAAGTACTTTGAATACAACTGGCCTCGTTACGGCAACGGTTCTACGCTTCCTGACGGTAATTCCGTGGGTGCGGGACGCCAGCCTGAGGTTGCCAAAATGTCCTACTCCGAACCGGACAAGACATTGCTTGAAGCATACGACATCGATTCCTTCTCGCAATTGTTTGCGGCACCGGACGACCGTCCATGGTACCCGGCTTGGAGCATTCCGATCGATCAGGGCTCGCCGGCCCAAATCTTCACGCAGAAGAAAAGCGATTTGCAGCGCAAATACTTCCCGAAACTGGTTCTTGCCAGCCCTGCGGAGTTTGACGGCATCTGGAACGAATACGTGGGCGAGTTCGGCAAGCTGGACGTGAAGGGATACGAGGATCTGATCACCGAGGAAGTAGCCAAGAAAATCGCAAATGCCCAAGGACAATAA	MNKKFWLSCLTVVMMVSLLAACGGSKEAADNTPAAGGEGEKKEEKVTFTYFNAAAGKDKNTNETTIGKIFEDQTGVNFKMEHLVGDENTKVGTFIASNDYPDVIVPGSSIDKLVGAGAFIPLNDLIDKYGPNIKRVYEPYYNLMKAEDGNIYFLPLSAVVGEYTSAPNIEQGAFWIQRRVLKEAGYPKIKTFDEYLALIRDYVKKHPEEGLTGYLALTTQDKFFALTNAPMHLAGYPNDGGIIIDMETHVANDYADDDITKRYLQELNKLNAEGLFDKSSFVDNYDQYLAKLTSGKVLGFFDYRWQVGQAMNNLRETANKSGNDDLEYMALPIVYDENTKDQYLDPPSFVNNRGVGISVSAKDPERIVKYFNNLLTDENQILSNWGIKDETYSVDENGRFYRTEEQIAQTNTEAFRESFGFKYFEYNWPRYGNGSTLPDGNSVGAGRQPEVAKMSYSEPDKTLLEAYDIDSFSQLFAAPDDRPWYPAWSIPIDQGSPAQIFTQKKSDLQRKYFPKLVLASPAEFDGIWNEYVGEFGKLDVKGYEDLITEEVAKKIANAQGQ	PGPT0017245_747	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_06076	1743			hypothetical protein	ATGAAGCCGAGCCTGAATAATGTCCGTCTGCGGGACAAGATGCTGCTGCTTTATTTCCTGGCCGTCTTTTTGCCGATCCTGATTACCAACCTCATCTTCTACAATGTGACGTCCGGCAGCGTAAGGGAGCAGCGGATCCAGGATATTACCGTAGCGCTTGAACAGATGAAGAACGAGTTCCGCCGTGAAGTCGAGGACGCCTTGGAGATCTCCTCGGTCTTCTACACGGACGTTCAATTGAACGAGATCGTGGAAACGGTGTACGATCATCCAGCCGATTATATCGAGGCTTATGATACTTATCTCCGCCGCATATTGAATTCGGGCAGCGCCGTATACAATTCGGTCAGCGAAATTACGGTGTATGTCGACAATCCGACCCTGCTGTATTCCGGCGGCATCAATTATATCGATGGCCAGGTGAAGGAAGAGGCTTGGTACAAGGCGATCGCGGGCAAGAACGTAACCCAGCCGATCGTGATGCGTACGGGCGAGAACGGCCAATTGGACAGCTTCAGCATCATCCGAAGCATGAATTATTTCAGCTCCCAGGATGACCACACGAAGTATCTCAAGATCGATATGCGGATGCCTTCGATCCGGCAGATCATGAGCAATCTGAATGTGCAGGGCAAAGTGTATCTGCTGAGCGGGGCAGGGAATATCGAATATACTACGGACCCGAAGGTCGATGTCACGCAGGGCGCTGTACCGTACAGCAGCATCGCGCATGGCGACAGGTTTCTGGAGTTTCATACCGATACGTTCACGACCAACAATCTGAACACCTGGACGATCATGGCGGTGACGCCGGAGGATGTGGTGCTGCGCGACGTGCATCAGTCCTTGCGGTTCGTCATTGTGCTGACCTGCCTGAATTTTCTGCTTCCGAGCCTGGTGATTGTTTGGATCAGCCGTTCCCTTAACGTACGACTTGTACGGATTCTCAAACATATGAAGAAGGTCAAGAACCAGAATTACGACACCATCCAAGAGGCTGAGGCACGTGACGAGATCGGTCAGCTGACGGGTGAATTCAACCGGATGACCTTGCAGCTCAAGAGCCTGATCAATGACGTGTACGTGGCGGATATCCAGAAGAAGAATTTGGAGCTGCAGCGGCGGCACGCGCAATTGAATGCGCTGCAGAGCCAGATTAATCCGCACTTCCTCTTTAATGCCCTGGAGACGATCCGCATGCGCAGCCTGATGAAGGATGAGGATGAGACGGCTAGGATCATTCATAATATGGCGAAGATCTTCCGCAATTCGCTCGTTTGGAAAAAAGACATGGTGACGCTCAAGGAGGAAGTGGAGTTCATCCATTGTTTCCTTGAAATCCAGAAGTACCGGTTTGGCGACAAAATCGATTATTCGGTTCATGCTCCAGCCGAAGAGGGTCAACTGCAAATACCGAAAATGGCCATCGTCACGTTTGTGGAGAATGCCAGCATTCACGGCATCGAGCCGCTCAAGCACGGGGGGCGCATTGAAGTTCGGGTTGTGCGCGAGGGCCAATCCCTGATCTGTACCATTCAGGATAACGGGGCAGGCATGCCCGCGGAGAAGGTGGAACGCATCTACCGTTATCTCGAGACCGAGGACGAGATGGGAGAGCGGATCGGCTTTCAGAATGTGATTTACCGGTTAAAGCTGTACTACGGCAGCCGGTTCCGGTTTGAAATTGACAGCTCGCCTGGACAGGGCACACGAGTCAAACTGTCCATTCCCATTGAAACATAA	MKPSLNNVRLRDKMLLLYFLAVFLPILITNLIFYNVTSGSVREQRIQDITVALEQMKNEFRREVEDALEISSVFYTDVQLNEIVETVYDHPADYIEAYDTYLRRILNSGSAVYNSVSEITVYVDNPTLLYSGGINYIDGQVKEEAWYKAIAGKNVTQPIVMRTGENGQLDSFSIIRSMNYFSSQDDHTKYLKIDMRMPSIRQIMSNLNVQGKVYLLSGAGNIEYTTDPKVDVTQGAVPYSSIAHGDRFLEFHTDTFTTNNLNTWTIMAVTPEDVVLRDVHQSLRFVIVLTCLNFLLPSLVIVWISRSLNVRLVRILKHMKKVKNQNYDTIQEAEARDEIGQLTGEFNRMTLQLKSLINDVYVADIQKKNLELQRRHAQLNALQSQINPHFLFNALETIRMRSLMKDEDETARIIHNMAKIFRNSLVWKKDMVTLKEEVEFIHCFLEIQKYRFGDKIDYSVHAPAEEGQLQIPKMAIVTFVENASIHGIEPLKHGGRIEVRVVREGQSLICTIQDNGAGMPAEKVERIYRYLETEDEMGERIGFQNVIYRLKLYYGSRFRFEIDSSPGQGTRVKLSIPIET				NA	NA	NA	NA	NA
AK002_06077	1602	rssB_20		Regulator of RpoS	GTGCAAGGGAACCGGGCGATATTGGTGGATGACGAGGTGTTTACGCGCAAAGGGCTCCTGAAGCTGATTGATTGGGAAGCCTGCGGCTTTCACATTGTGGAGGAGGCGGATAACGGGGAAGACGCGCTGGAACTGATTGAACGGCTTCGGCCGGATGTGGTCATCACCGATATCCGCATGCCGGTGCTGGATGGACTCGAGCTGATCAGACGCGTCGTCACGGACGATATCGTGAAGCCGTATTTCATTATTGTAAGCGGATACGATGACTTTAACTATGCCCAGCAGGCTGTCCGTTACGGGGTGCATGATTTCATTCTGAAACCGATTGACGAGACGGAATTCAGTCAGGCGCTGGTCCGGCTCAGCGAAAGGCTGGAGTTGGACCGCGAGGCACGCTCGCGGGAAGAGAAGCTGTTGTCGGGCGCCTTGATGGAATCGCTCATTATAGGGGAGGCGGATGAGAGTCTGCTGCAGGAATGGGAGCGGCGTCTTGAACTCCGGCCGGAAGACAGTCTGTTCTATGTCTTTGTCGAACGGAATGACCATCCGCCGGCTTCGGCTAACGACAATGACGGAGGCGACTTCAAGGACAGGGTGGAAACGGCCCTTCTTGCGATCTCGAATGGAGAACAGCCCTTCTATCTGCATGAGCACCGCAACCGCATCGGCATCATCGTTCCGATAAGCATCCTGCAATCGTTCCAGGGGTGTCAGCGTGGATTTGCTAGGCGCCTTCAGCAATCGCTCGCCGATTCGAAGCACGAAAGAATCTTCGTCTATTTTGGCCGGCCGGTTTCACGTCTGTCCCTCGTCCAGGATGCCTACGAAACGGCCAAGCAATCGCTCCTATACAAGTACATCTATGATGAGAGCGGCATCGTGATCCATGAAGACGCCGCGGTGCATGATCTGCAATACATCGGGCTGGAGGATCGTCTTTACCAGCAGCTGCTGGAGCAGATCGAGGAGCTGCATTTCGAGAAGCTGGAGGAGACGATTCGTTCGCTGTTCGAATCCTTCCAGGAGAAGCTGTATGCTCCCGAAGCTGTGAAGACGGCGATCAACCAATGCGTGCTGGGCGTGGTCCGTGTGCTCAGCAGCATGGACGGGGATCAAAGCCGGCTGTCCAGTCTCGAGCCGATGACCGAGTGGCATGACCGCAACTTGTCGCTTCAGGGGCTGAAGCGGTTGTTCACGGATTTTGCGATTGAGAGCGCGAACTATATCGGGCAGCTTCGCAAGGAACAGCACAAGGGCGGAATCCAGAAGATCCGGGCTTATATTGAGGCCCATTATCATGAGAATATCAGTCTGAAGGGCATTGCCGGGAAGTTTTACATGAACCCGGTTTACCTGGGTCAGCTGTTCAAAAAAGCGTACGGCATGTATTTTAATGATTTTTTGCTCCAGTTGCGCGTGAACGAAGCCAAGCGATTGCTGCGCCAGACGGATCTGCGCATCTATGAGGTGGCGGAGCGGGTCGGCTTCGGCAATCCGGACTATTTCGTGACGCAATTCGAGAAGATTGAGCGGATGACGCCAAGCGAGTACCGGAACCGCTTGATGAAGGAGGCCGCGTCCGAAGGGACGAATGCATGA	MQGNRAILVDDEVFTRKGLLKLIDWEACGFHIVEEADNGEDALELIERLRPDVVITDIRMPVLDGLELIRRVVTDDIVKPYFIIVSGYDDFNYAQQAVRYGVHDFILKPIDETEFSQALVRLSERLELDREARSREEKLLSGALMESLIIGEADESLLQEWERRLELRPEDSLFYVFVERNDHPPASANDNDGGDFKDRVETALLAISNGEQPFYLHEHRNRIGIIVPISILQSFQGCQRGFARRLQQSLADSKHERIFVYFGRPVSRLSLVQDAYETAKQSLLYKYIYDESGIVIHEDAAVHDLQYIGLEDRLYQQLLEQIEELHFEKLEETIRSLFESFQEKLYAPEAVKTAINQCVLGVVRVLSSMDGDQSRLSSLEPMTEWHDRNLSLQGLKRLFTDFAIESANYIGQLRKEQHKGGIQKIRAYIEAHYHENISLKGIAGKFYMNPVYLGQLFKKAYGMYFNDFLLQLRVNEAKRLLRQTDLRIYEVAERVGFGNPDYFVTQFEKIERMTPSEYRNRLMKEAASEGTNA				NA	NA	NA	NA	NA
AK002_06078	1404	uxaC_2	COG1904	Uronate isomerase	ATGAGCCGTTTGGACACGGAAAATCTGCTGCTGAACAGCAACAGCGCGAAGAAACTTTTTTATGATTATGCGGAAGGGATGCCGATATTCGATTACCACAACCATCTAAACCCGAAGGATATTGCCATCAACCGGCAGTTCGATAACCTGACGGAGCTATGGCTGGAGGGGGACCATTACAAATGGAGGGCGATGCGCTGGCTTGGCGTCGACGAAGAGCTGATTACAGGGAGCGCCAGTCCTGAAGCGAAGTTCATGGCCTGGGCGGAATGCGTTCCGCGATTGGTCGGCAATCCGCTTTATCACTGGACCCATCTGGAGTTGACCCGCTATTTCGGGATTCAAGAGCGGTTGACCGCAGAGAATGCCAAGGAGATCTGGGACGCTTGCAATGAGCAGCTGAAGGCCCCTGTCTTGCGGGCAGGCGGAATTTTGGAGAAATTCAAGGTCAACGTGGCCTGCACGACGGATGATCCCGTCGATTCGCTGGAGTTTCACCGGGCCATTCGGGATCAGGGGGAATTATCCACCGTCGTGGCCCCCGCATTCCGGCCGGATCGGGTGCTGGATATCATGAACGCGGACTTCTCCTCCTATGTACGGACGCTGGGAACAACGGCTGGTATAGCCGTGGACACCTATCAGGGATTGCTGGATGCCCTGCAGGGGCGGATCCAATATTTTCATGACCATGGCTGCCGCCTGTCGGATCACGGCTTTGGCGCTTTTCCTTATGAACAGGCCGACGTTAAAGAAGTTGCGGACATTTACGGCAAAGCCATCGGCGGCGGCAGCTTAACCCCGCTCGAGGAACGGAAATACCGCACCCATACCCTGCTCAAGCTGGGGGAGATGTATCATGCCAAGGGCTGGACCATGCAGCTGCACATTGGGGCGATTCGGAACAATAATGCGCGGATGTTCGCGAAGATCGGCAAGGACAGCGGGTATGACTCGATTCTCGATTTCCATCTGGCGGAAAGCCTGAACGGATTCCTGAGCAGGCTCGACAGGAACGATCAGCTGCCGAAAACCATTGTGTACAGCCTGTATTCCTCGCATTACGAAATGATCGCTACCACGATCGGAAACTTCCAGTCGGCCGGCGTCGAGGGCAAGCTTCAGCTCGGTTCCGCTTGGTGGTTCCACGATCAGAAGGAAGGGATGCTGAAGCAGCTCACCGCGTTGTCTTCCATGGGGCTGATCAGCACCTTTGTCGGCATGCTGACCGATTCCAGGAGCTTTATGTCGTTCCCGCGGCATGAATATTTCCGGAGAGTGCTGTGCCGCCTGTTCGGCGATTGGATCAAGGAAGGGGAACTGCCCGCGGATTATGAATATATCGGTGCCATCATCCAGGATATTTGCTACCACAATGCCGAGCGTTATTTTCAAATTCATTGA	MSRLDTENLLLNSNSAKKLFYDYAEGMPIFDYHNHLNPKDIAINRQFDNLTELWLEGDHYKWRAMRWLGVDEELITGSASPEAKFMAWAECVPRLVGNPLYHWTHLELTRYFGIQERLTAENAKEIWDACNEQLKAPVLRAGGILEKFKVNVACTTDDPVDSLEFHRAIRDQGELSTVVAPAFRPDRVLDIMNADFSSYVRTLGTTAGIAVDTYQGLLDALQGRIQYFHDHGCRLSDHGFGAFPYEQADVKEVADIYGKAIGGGSLTPLEERKYRTHTLLKLGEMYHAKGWTMQLHIGAIRNNNARMFAKIGKDSGYDSILDFHLAESLNGFLSRLDRNDQLPKTIVYSLYSSHYEMIATTIGNFQSAGVEGKLQLGSAWWFHDQKEGMLKQLTALSSMGLISTFVGMLTDSRSFMSFPRHEYFRRVLCRLFGDWIKEGELPADYEYIGAIIQDICYHNAERYFQIH	PGPT0018210_1217	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
AK002_06079	678	rspR_3	COG1802	HTH-type transcriptional repressor RspR	GTGGTAGAATCTTTGCGATTACAGCCAGGATCGGCCGGACATATCGTGTACTCCCGGCTGAAGCAGCAGATTGTCAGTCTCGAGCTGCCCCCGGGAACGGCTCTGTCCGAGAAGGAGGTTTCCCTTTCCTTCGAGGTCAGCCGGACGCCGGTGCGGGAAAGCTTCGTCCGATTGGCCCAGGAGGACCTTGTGGTTGTGCTTCCTCAGCGCGGCACGCGCGTCTCGCTCATCGATTCGGAGCTGGTCGAGGAAGCGCGCTTCATGCGCGAGCAGCTGGAGAAAGCTGTCGTCCGGCTTGCCTGCGAAAGCTTCCCCGAGGAGAAATTCGCCGAGCTGGAGCGAAATCTGTCCGAGCAGCGCGAGAGCATCGAGAAGCATGACGGCAAGCACATGTTTGAGCTGGATGAGGCCTTCCACCGTATTCTGTTCGAAGGCTGCCGCAAGGTCGGCACATGGAACGTGCTGCAGCAGATGAACGCTCATCTGAACCGGAGCCGGATGTTATGGCTGTCTGCCGATCCGAATTGGACTAACCTTTACGAGCAGCATCGGGAGATCGCGGACGCGATTTCGCGTCATGACGCCGATCACGCCGAACGGGAAATGCAGCAGCATCTCAGCCTGATTATCTCCAATCTGGCCGTGCTGAAAGAGACGCATCCCGATTATTTTAAATAA	MVESLRLQPGSAGHIVYSRLKQQIVSLELPPGTALSEKEVSLSFEVSRTPVRESFVRLAQEDLVVVLPQRGTRVSLIDSELVEEARFMREQLEKAVVRLACESFPEEKFAELERNLSEQRESIEKHDGKHMFELDEAFHRILFEGCRKVGTWNVLQQMNAHLNRSRMLWLSADPNWTNLYEQHREIADAISRHDADHAEREMQQHLSLIISNLAVLKETHPDYFK				NA	NA	NA	NA	NA
AK002_06080	1098	uxuA	COG1312	Mannonate dehydratase	ATGCGCATGGTATTCAGATGGTTCGGCGAGGGCAACGATACGGTCTCGCTGGATCAGATTAGACAAATCCCCGGCGTGGAGGGCATCGTATGGGCACTTCACGATATTCCCGTCGGCGAGGAATGGCCGATGGAGCGAATTGAGGAAATTGCGGACCAAGCCAAAGCGTACGGGCTTCATATTGACGTCGTGGAAAGCGTGAATGTGCACGAGGACATCAAACTCGGCCTTCCTTCCCGGGATCAGTACATAGCCAACTATATCCGGACGATTGAGAAATTGGGCCAGGTTGGCGTCAAAGTCATCTGCTACAATTTCATGCCGGTGTTCGATTGGGCTAGAACCGATCTTCATAAACAGACCCCTGATGGTTCGACGGCCCTCTTCTTCGAGAAGGCCAAAATCCACGGCATCGATCCGATGGAGCTGGTTCAGACGATCAACCGGAACAGCGCGCTCACCATGCCGGGTTGGGAGCCGGAGCGTTTGGCGCATCTGACCTCCTTGTTCGAAGCGTACCGCGGCGTTACCGAGGAGGACCTGTGGCGCAACCTCGAATATTTCTTAAGCGCCGTCATTCCGGCTGCCGAGAAGAACGGCATCCGAATGGCCATTCACCCGGATGATCCGCCTTGGCCGATCTTCGGCCTGCCGCGGGTCATCACCAGCCAGGAAAATCTCCGGAGATTCCTGCAGCTCTACGATAGCCCGGCGAACAGCCTGACCTTATGCAGCGGCTCGCTTGGCGCCAATCCGGACAATGACATCGTCTCCATGATCCATGAGTTCCACGACCGGATTCCGTTCGCGCATATCCGGAACGTACGCGTTTACGAGAACGGCGATTTCATCGAAACGTCCCATCGTACCGAGGACGGTACCGTCGATATTTCCGGCATTGTGCAGGCCTATCATGACAACGGTTTCACCGGATACGTAAGGCCCGATCACGGGCGGCATATCTGGGGCGAGCAGTGCCGTCCGGGTTACGGCCTGTATGACCGCGCCTTGGGCATCATGTATCTCTGGGGGCTGTGGGACGCTTACAGCCGGGAGCGTGCAGGAAGCGCAGCTCAGTTGAAGGAGGCTGTTCAATGA	MRMVFRWFGEGNDTVSLDQIRQIPGVEGIVWALHDIPVGEEWPMERIEEIADQAKAYGLHIDVVESVNVHEDIKLGLPSRDQYIANYIRTIEKLGQVGVKVICYNFMPVFDWARTDLHKQTPDGSTALFFEKAKIHGIDPMELVQTINRNSALTMPGWEPERLAHLTSLFEAYRGVTEEDLWRNLEYFLSAVIPAAEKNGIRMAIHPDDPPWPIFGLPRVITSQENLRRFLQLYDSPANSLTLCSGSLGANPDNDIVSMIHEFHDRIPFAHIRNVRVYENGDFIETSHRTEDGTVDISGIVQAYHDNGFTGYVRPDHGRHIWGEQCRPGYGLYDRALGIMYLWGLWDAYSRERAGSAAQLKEAVQ	PGPT0018270_1029	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018270-uxuA-K01686	NA	NA
AK002_06081	936	uxuB	COG1028	putative oxidoreductase UxuB	ATGAGTGAGGTAAATCAACATGCAGCGGGTACATCTGAACCCGGATCGAGTGGAGCTTCTCATGAATCCACGCCGCAAGGGACCCTATCCCTTCCCATTCATCCGTCATTAAACGGGAAGACGGTTGTCATTACGGGCGGCTCCGGGGTGCTGTGCCGGGCAATGGCTCTGGAGCTGGGTCGGCAAGGTGCCCGGGTCGCCGTCTTGAATCGTACGGCCGAGAAAGGGCAGCAGGTGGCCGATGAAATTACGGCTGCCGGCGGTACGGCGATTGCCGTTCCCTGCGATGTAACGGATGTGGACAGCGTCCGGCAAGCGGAAAAAGCTGTGCGCGAGTCTTTCGGACCCTGCGATATCCTGATCAACGGAGCCGGCGGCAACCGGAAAGACGCGAATACAACCAACGAGATTTTCCGTCCGGAAGATGTAGGGCAGCCCGATGTGACAACCTTCTTCGGGTTAAGCGTGCCGGGCTTCCGCAGCGTGTTCGATTTGAACTTCATCGGCACGCTGATACCGACGCAAATCTTCGCGGAAGGGATGCTGGGGCGTCCCGGGGCCGTCGTGCTGAATGTCTCGTCCATGAGCGCACCCAGCCCAATGACCAAGGTGCCGGCTTACAGCGCAGCCAAGGCGGCCATCAACAATTTCACGCAGTGGCTGTCCGTTCATCTCGCGGAATCGGGCATTCGCGTGAACGCGATCGCGCCGGGCTTCTTCCTGACCGAGCAGAACCGCAATCTGCTGACTCATAGCGACGGTTCATTAACCGAGCGCTCTCATAAAATCATCTCCCATACCCCCATGAGACGGTTCGGCGTGCCGGAGGACCTCCTGGGCACCCTGCTCTGGCTCGTGGACGATCAGACCTCCGGCTTCGTCACGGGAACGGTGATTCCCGTGGACGGCGGCTTCATGGCATATTCAGGCGTATAA	MSEVNQHAAGTSEPGSSGASHESTPQGTLSLPIHPSLNGKTVVITGGSGVLCRAMALELGRQGARVAVLNRTAEKGQQVADEITAAGGTAIAVPCDVTDVDSVRQAEKAVRESFGPCDILINGAGGNRKDANTTNEIFRPEDVGQPDVTTFFGLSVPGFRSVFDLNFIGTLIPTQIFAEGMLGRPGAVVLNVSSMSAPSPMTKVPAYSAAKAAINNFTQWLSVHLAESGIRVNAIAPGFFLTEQNRNLLTHSDGSLTERSHKIISHTPMRRFGVPEDLLGTLLWLVDDQTSGFVTGTVIPVDGGFMAYSGV	PGPT0018270_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GULONATE|FRUCTURONATE|MANNONATE_DEGRADATION,PGPT0018270-uxuA-K01686	NA	NA
AK002_06082	873	sigJ_4		ECF RNA polymerase sigma factor SigJ	ATGAGCACAGAGTCATCGTATAAAAGCTATCGATCCGCTCTTTTCTCGTTAGCTTACCGGATGCTGGGAAGTGTGATGGATGCGGAAGATATCGTCCAAGAGGCCTTCATCAGCTATAACCAATTGCCCCACCCGGAGGACATTCGCAATGAGAGAGCGTTTCTGTACAAAATCGTAACGAATCGCTGCTTGGATTTGCTGCGCTCTTCTGCCAAAAAGCGCGAGCTGTACGTCGGTCCCTGGCTGCCGGAACCCCTGATCGAGAATATGGAGTCAGAGACGGCCCCTTCTCTTATCGTAGAGCAGCAAGAGTCCATTTCTACAGCATACCTGCTGCTCCTTCAGCAGCTTAACGCGGTGGAAAGAGCCGTTTTTCTTCTCCGCGAGATTTTCCATTATTCCTATGACGAAATTGCTGAAATCCTGGGAAAAAGCAGTGCGAATTGCCGTCAAATCTTCCGCCGTGCTAAAGGCAGCATTCATTTTGATCCTGATCAGAGACCCTCGATCTCGGTGGCGGAGGCGCAGATCAAGGATTTTGTGGATTCCCTTTTACAGGGGAACACGAATAAGCTGCTGGAGCTGTTAAGCGAAAATGTCGTGCTCTACTCGGACGGCGGCGGTAAAGTCAGAGCGGCACAAATACCTGTGGTTGGAGTCCATAAAGTGATCCAATTGCATCTGAACCTGCTTAAAATGTATGAAGGACAATATGTGTACTCTTATCTTACCGTCAATGGTCTGCCGGGAATACGGATCCGGTTGGATCACGGTGTCCAATTTATTTATTCTTTTGCTTTTAAAAACAATCGGATCGAAACGATGTATACCGTGGCGAATCCGGATAAACTCAGACATATACAGCTGCCGTGA	MSTESSYKSYRSALFSLAYRMLGSVMDAEDIVQEAFISYNQLPHPEDIRNERAFLYKIVTNRCLDLLRSSAKKRELYVGPWLPEPLIENMESETAPSLIVEQQESISTAYLLLLQQLNAVERAVFLLREIFHYSYDEIAEILGKSSANCRQIFRRAKGSIHFDPDQRPSISVAEAQIKDFVDSLLQGNTNKLLELLSENVVLYSDGGGKVRAAQIPVVGVHKVIQLHLNLLKMYEGQYVYSYLTVNGLPGIRIRLDHGVQFIYSFAFKNNRIETMYTVANPDKLRHIQLP	PGPT0014960_1950	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_06083	1299			hypothetical protein	ATGCTACAATATGACGTTGCCGTTGTAGGTGGAGGCGTAGCGGGTTTAACAGCAGCAATCTATGCGGCGAGAGCCGGGAAGCAAACAATACTCGTTGAAAAGCAGGAACGTTTGGGGGGGCGGGCCATGACCCATAAGAAGAAGGGAGCCTACTTCAATCTGGGCGGGCATGCCTTATATCATGGAGATGCTCTTTCAACCTTTCGCGAATTAGGGCTCCAATTGCCGGGGGGTCAACCTTCTGTTGACGGGTACGGAATTTGGAAAGGGAAACTAAGTCCGTTACCCATGGGCGTGAAATCTCTATTCACCACCCCTCTATTATCCTGGAGGGGCAAAATGGAGCTCGGTGCTTGGCTTGCGAAATTAGGTAAACTGGATACGCAGTTGTACGACAAGATGAGTGTGCGCGAATGGATTGAAGGCAACGTGCAGGATCCCATGGTACGAAATTTATTCTATTCGCTATTGCGTACGGCGAGTTATGTGGTAGCTCCTGACCTGCAGGCGGCCGGTCCCGTACTGCAGCAGCTTAAGCACGCGCTGAAGGGGGTATTGTATCTGGATCGGGGCTGGGGGGCCATGGTCGATGAATTAAAACAAAAGGCTCTGGAGCACGGAGTTCAAATCGTAACGAAGAATAAAGTCATTTCGGTTGATCATTACGAGGGAAAGGTACGGCACGTCCTTTGCGGCGATGGCATGAAGATAGAAGCCAATCATATTATTCTTACCACGCCTCCAGCTGTCGCCCACGAACTGGTGCCCCATGCAGAAGAAACCGCTCTGCACACGTGGAAGGAGCAGGCGGTGGAAGTGACGGCGGCTTGCTTGGATGTAGCCCTGCGTCGTCTTCCGGAGCCGAAGCAGCAGTTTGTGTACGGCCTCGATCAAACCGTCTTTCTCTCGAATCAATCCCGAGCGGCTTACCTGAGCGAAGATGGCGCACAAGTCATAACCTTGATTAAGTATCAGGGCAAGGAGAAGGACGCAAGAAGGGATTTGCAGGAATTAGAAGGAACCTTGGATTTGGTTCAGCTGGGTTGGCGCGACGAGCTCGTTGCGAAACAATACCTTCCTAGCATCACGGTTTGCCACGATTTTATGCATGTGAAACGCCAGGAGAACCCGGGTCCAGCCGTCCCTGAAATCATCGGGTTATATGTAGCGGGAGAATGGGCAGCGCATGGCGAACTCTTGGTTGATGCTGCAACGGCAAGCGCCAAGCGGGCCGTACAGCATATACTCTCGCTTGAAAGTGAGGAAAGGACCCCGAATGAGCACAGAGTCATCGTATAA	MLQYDVAVVGGGVAGLTAAIYAARAGKQTILVEKQERLGGRAMTHKKKGAYFNLGGHALYHGDALSTFRELGLQLPGGQPSVDGYGIWKGKLSPLPMGVKSLFTTPLLSWRGKMELGAWLAKLGKLDTQLYDKMSVREWIEGNVQDPMVRNLFYSLLRTASYVVAPDLQAAGPVLQQLKHALKGVLYLDRGWGAMVDELKQKALEHGVQIVTKNKVISVDHYEGKVRHVLCGDGMKIEANHIILTTPPAVAHELVPHAEETALHTWKEQAVEVTAACLDVALRRLPEPKQQFVYGLDQTVFLSNQSRAAYLSEDGAQVITLIKYQGKEKDARRDLQELEGTLDLVQLGWRDELVAKQYLPSITVCHDFMHVKRQENPGPAVPEIIGLYVAGEWAAHGELLVDAATASAKRAVQHILSLESEERTPNEHRVIV				NA	NA	NA	NA	NA
AK002_06084	1317	licH_2	COG1486	putative 6-phospho-beta-glucosidase	GTGGCAGCAGGATTGAAGATAGCGGTCATCGGGGGAGGTTCCTCCTATACCCCGGAAATTGTAGAAGGTTTCATTCGCAATTATGAGCAAATGCCGATTCGCGAACTATGGTTCGTTGATATTGAAGAGGGCAAGCATAAGCTGGAGATCGTGGGCAATTTGGCTAAACGCATGGTCAAGGAGTCGGGTCTGCCGATCGAGGTTCATCTGACGCTGGATCGGAGGCAGGCGATTGCGGGTGCCGATTTCGTGACGACCCAGATGCGCGTTGGTTTGCTGGCGGCTCGCAAGCAGGATGAGCATATTCCGATCAAACACGGCGTCATCGGCCAGGAGACGACGGGGCCGGGAGGCATGCTGAAGGCGCTGCGCACGGTACCGGTGATTTTGGACATTTGCCGCGACATCGAAGAGTTGGCACCGAATGCGTGGATGCTGAACTTCACGAATCCGGCAGGCATCGTCACCGAGGCGGTCGCGAAGCACAGCAAGGTCAAATCCGTCGGCCTGTGCAACTCCCCGATTAACTTTCAGAAGTTCCTGGCGGCGGAGTACGGCGTGTCGGAGAGGGACGTTCTGGCCGAGTTTGTCGGGATCAACCATCTTCATTGGGTGACGTCGGCGATCGTCAACGGGGAAGAGAAAATGCCGGAGCTGCTGGACGGCGGAAAATCGTATACGGCGAAGAACGTGCCGACCTTCGGCTGGGACGCAGACTTTATCCGTTCGCTTGGGGCGGTTCCGACGTATTATCTTAAATATTTCTACATGACCGATACGATGTTCGCGGACATGAAGGCTTCGCTGGAGAAGGACGGAACCCGGGCGGACGTGGTCAGCCGGGTAGAAGAGGAGCTCTTCGAACTCTACAAGGACGAGAATTTAGCCGTGAAGCCGAAGCAGCTGGAGCAGCGCGGCGGCGCTTATTACTCCGAAGCGGCCGTCAACCTGATGACGTCCATTTATAATGACCGTCATGATATTCAGACGCTGAACGTTTCCAACGGCAATATCTACGATTTCCTGCCTGCGGACGCCAGCATCGAGATCAATTGCGTGGTTACGGGTCAAGGGCCCATACCGCTGGCGCCGCAAAAGGTTCCTTCCCGTGTGAAGGGACTGATGCATGCGGTGAAAGTGTACGAACAATTGACGATCGAAGCCGCCATTACGGGTGATCGCGGCATTGCGCTGCAGGCGCTGGTTCACCATCCGCTGGTGCCGTCCGTAACGGTAGCGAAGCAGCTGCTCGATGAAATGCTGGAGGCGAACAAAAAGTACTTGCCGGCTTTTTTTAAGCCGGAGGCCGTGGTGTAA	MAAGLKIAVIGGGSSYTPEIVEGFIRNYEQMPIRELWFVDIEEGKHKLEIVGNLAKRMVKESGLPIEVHLTLDRRQAIAGADFVTTQMRVGLLAARKQDEHIPIKHGVIGQETTGPGGMLKALRTVPVILDICRDIEELAPNAWMLNFTNPAGIVTEAVAKHSKVKSVGLCNSPINFQKFLAAEYGVSERDVLAEFVGINHLHWVTSAIVNGEEKMPELLDGGKSYTAKNVPTFGWDADFIRSLGAVPTYYLKYFYMTDTMFADMKASLEKDGTRADVVSRVEEELFELYKDENLAVKPKQLEQRGGAYYSEAAVNLMTSIYNDRHDIQTLNVSNGNIYDFLPADASIEINCVVTGQGPIPLAPQKVPSRVKGLMHAVKVYEQLTIEAAITGDRGIALQALVHHPLVPSVTVAKQLLDEMLEANKKYLPAFFKPEAVV	PGPT0019105_867	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CARRAGEENASE,PGPT0019105-celF|licH|chbF-K01222	NA	NA
AK002_06085	984	murK_3	COG2971	N-acetylmuramic acid/N-acetylglucosamine kinase	ATGAGTTTGTATCTGGGTGTGGATGCCGGCGGCAGCAAAACGCATGCCGTCATCTGCGATGAACAAGGGAATATCCTTGGCAAGGGAGCGTCCGGCAACGGCAATCACCAGATTCACCGTGAGCATGCGGCCCGTAACATTGAGGAGGCCTGCAACCGGGCGCTTCAAGAGGCTGGAGCTGCCAAGGAAGATATCAGTTATGCCTATTTCGGCCTGGCCGGAGCCGATCGGGAAGCCGATTACGAGATCCTGCGCCCGATGATCGGGGCACTTGGATATCCGAGACATGCTATCGCATGCGATACGATCATCGGGATGAGGGCAGGAACGAGCCGTCCGTATGGCGCCGCATTGATCTGCGGTACGGGCTTCAACAGCGCCGCCCGTAACCGTGCGGGGGAAGAGCTGCAGTATGGCGGCTTCGGTTTCTTGTACGGAGATGGATATGCGGGCGGATCAGGGTTTGCGACGCTGGCCTTCCGGGCGGTTATTCGAGCCTGGGATGAGCGGGGACCGGCAACCTTGTTGACGTCGCTCGTTCTGGAGCAGATGGGATATACGTCCGTCGAACCGATGTACGAGGATGTTCTCTACGGCAGGATGAAGGTTCCGCCAAGTTTGGTGAAGACGCTGTTTCAAGCGGCTGAAGCGGGCGACGAGGTGGCAACCTGGATCCTCGAGAACGAAGGCGAAGAGCTGGCCAATGCGGTATGTACGCTGATCCGGCGGCTGGACATGGAGGACGAAGCCTTCGACATCGTTTATATCGGCAGCGTGCTGAACAGGCCGAACAGCTCGATCCTGACGGATGCAGTCGAACGGATCGTTGCGGTCCGGGCACCCCATGCATCCTGCGTAAGGCTGACATCCGATCCGGTTTCCGGCGCGCTGCTGTGCGCGATGGATGCCGACGGTCATGCCGTTGATGTTGAGACGGAGGCCAAACTGAAAGCATTTACGTTTGAGCAGGTAACCACAGCCTGA	MSLYLGVDAGGSKTHAVICDEQGNILGKGASGNGNHQIHREHAARNIEEACNRALQEAGAAKEDISYAYFGLAGADREADYEILRPMIGALGYPRHAIACDTIIGMRAGTSRPYGAALICGTGFNSAARNRAGEELQYGGFGFLYGDGYAGGSGFATLAFRAVIRAWDERGPATLLTSLVLEQMGYTSVEPMYEDVLYGRMKVPPSLVKTLFQAAEAGDEVATWILENEGEELANAVCTLIRRLDMEDEAFDIVYIGSVLNRPNSSILTDAVERIVAVRAPHASCVRLTSDPVSGALLCAMDADGHAVDVETEAKLKAFTFEQVTTA				NA	NA	NA	NA	NA
AK002_06086	897	rclR	COG2207	RCS-specific HTH-type transcriptional activator RclR	GTGAATCGTCCGCAAAGCGTCGTTCCGGACGCCATAGATTTTACGAACGCTGCCTTTCCGTTTACCGCGTCGACCACGCACGGCATATTCGCCGGAGCCCAGCGCCTGCATTGGCATCATGCATTGGAGCTTAACTATATTCAGGGCGGAACCGGTTTTATTCTGATCAACGGGATGAAGCTCCCGTTTCGGCAGGGGGATATCATATTCATCAACAGCAATGATCTGCATCGCGCGTATGAGACCGATAACCTGGTCATGGACGTCATTATGTTCGAGCCTTCCCTGCTGTCCATCGATCTCAAGTTCGACCCGGACCTGATGGCTCCCTTCCGCTCGCTCGGAAACGTAGACAGGCAATCTCCGGTGCACGATGAACTGGCCCGGCTGCTTCGGCGCATGATGGAGGAGTATGAAGCCCGGGGGACCTCTTATATGAGCCTGATCCGTTCGGATCTCATTCGTTTCCTGAGCTTGGCGAACCGCCATCTGTCGTCTCCGGCTCAGGAGCACAGGCCGATCAAGGGCAGGGGGATGCACGCATTAAAAGAAGTCCTGCGCACGATGGAGCTTCATCTGGACTACGGCTGGACGCTGCAGGAGCTGTCGGATTTAACGCATCTGAGCCCTTCCCGGTTCAGCGCCCTGTTCCAGCAGGCCGTCGGAACCTCACCGCATCATTATCTGATCCAGCTGCGCTTGACCCATGCCGTGCACCTGCTGGAGACGACGGACCAGAAGATTATCGAGATCGCGGAAACCTGCGGGTTCCGGAATCTGTCCAATTTCAATCGTCTGTTCAAGCAGCATGTCGGGGCTTCGCCAAGCGAGATCCGGGAGCGCGCTTATGCAGGCAGTCCCATGATCCCCTCCGCCACGAGTTCCAAGAAACAGTAA	MNRPQSVVPDAIDFTNAAFPFTASTTHGIFAGAQRLHWHHALELNYIQGGTGFILINGMKLPFRQGDIIFINSNDLHRAYETDNLVMDVIMFEPSLLSIDLKFDPDLMAPFRSLGNVDRQSPVHDELARLLRRMMEEYEARGTSYMSLIRSDLIRFLSLANRHLSSPAQEHRPIKGRGMHALKEVLRTMELHLDYGWTLQELSDLTHLSPSRFSALFQQAVGTSPHHYLIQLRLTHAVHLLETTDQKIIEIAETCGFRNLSNFNRLFKQHVGASPSEIRERAYAGSPMIPSATSSKKQ				NA	NA	NA	NA	NA
AK002_06087	1077	ilvK	COG0115	Branched-chain-amino-acid aminotransferase 2	ATGACTTACGCGATATCCGTGGAATTAACGACCACCCCGAAGGAGAAGCCGAGCCATCATAAACAGGCTTTCGGCACGGTATTTACGGATCATATGTTTATTCTGGACTATGACGCCAGCAAAGGCTGGCACGACCCGCGCGTCGTCCCGTACCAGCCGATCGAACTTGACCCTGCCGCCAAAGTATTTCACTACGGCCAGACCGTATTCGAAGGCTTGAAGGCTTACCTGACGGAAGATCAGCGGATCCTCATGTTCCGCCCGAACAAAAATATTCAGCGGCTGAACCTGTCCAACCAGCGCCTGAGCATTCCGACATTGGATGAAGGGCTTGTGATGGAAGCGCTCAAGCAGCTCGTGCTTGTGGATCGCGACTGGATTCCTTCCGAGCCGGGCACATCGCTCTATATCCGTCCGTTTGTCATCGCAACCGAGCCCGTGCTCGGCGTAGCGCCGTCGCTGCAATACAAGTTCATGATCATCCTGTCGGTCGTCGGTTCGTATTATGCGGAAGGCATCAATCCGGTCAGCATCTACGTGGAGCCGAAATACGTGCGTGCGGTTGCCGGGGGCGTGGGTAATGCCAAGACGGCCGGCAACTATGCGGCAGGTTTGAAGGCGCAGGATGAAGCCACCCTCAAGGGATATTCGCAGGTGCTGTGGCTCGATGGCGTGCACCGCAAATATATCGAGGAAGTCGGCAGCATGAACGTGTTCTTCAAGATCGGCGATAAGGTGATAACGCCCGCGCTGAACGGAAGCATCCTGGATGGGGTTACCCGGAACTCCGTCATCCAGCTGCTGCAGCATTGGAACATCCCCGTGGAAGAGCGGGCCCTTTCCATCGACGAAATCGTGGAAGCTCACCGCAGCGGCTTGTTGACCGAGGCATTTGGCACCGGCACCGCAGCGGTGATATCGCCGATCGGTTCACTGGAATGGCAGGAGGAGCAATTGGTGATTGGCGAGGGAGCGACCGGCGAGCTTTCCAAACGCGTTTATGATGCCATCACGGGCATCCAGCTCGGAACCGTTGAGGATCCGTTCGGCTGGACGGTTGAGCTTCCGTTATCCTAA	MTYAISVELTTTPKEKPSHHKQAFGTVFTDHMFILDYDASKGWHDPRVVPYQPIELDPAAKVFHYGQTVFEGLKAYLTEDQRILMFRPNKNIQRLNLSNQRLSIPTLDEGLVMEALKQLVLVDRDWIPSEPGTSLYIRPFVIATEPVLGVAPSLQYKFMIILSVVGSYYAEGINPVSIYVEPKYVRAVAGGVGNAKTAGNYAAGLKAQDEATLKGYSQVLWLDGVHRKYIEEVGSMNVFFKIGDKVITPALNGSILDGVTRNSVIQLLQHWNIPVEERALSIDEIVEAHRSGLLTEAFGTGTAAVISPIGSLEWQEEQLVIGEGATGELSKRVYDAITGIQLGTVEDPFGWTVELPLS	PGPT0008860_2433	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
AK002_06088	891	gltC_9		HTH-type transcriptional regulator GltC	ATGGACATTCGGCAGCTGCGATATTTCCTGACGATCGCCCAGGAAGGACAGATCACGCGTGCGGCTAAACAGCTTAACATGGAGCAGCCTCCATTAAGCCGTCAGCTGAAGCTGATGGAGGAAGAACTCGGCGTGCTGCTGTTTGAACGCAGCGGCAAGCAGCTTCAGCTCACCCACGCAGGCGAGCTGCTGCAGAACAGGGCCGCCTCCCTGCTGAACCAATTCAATGAAACGCTGACCGAGGTGAAAGAGATCCACGCGGGAGTCCGCGGCATGCTCTCCATCGGTGCCGTCGTCTCCTGCATTTCGCTCCTGCCTCAGCGCATCCATATCTTCCGGCAGCAATATCCCGAGGTCACCTTCAAGATTCGGGAAGGCGACCACTCCCTGCTGGCCGATCAGCTCGACAAGCGCAATATCGAGCTCGCCGTGACCCGGCTTCCGTTCGAATCCAGCTTCGGGCCCGAGCGTTATGCCGTTCAGTCCCTGCCCTCCGACCCGTTCGTCGCGGTCATTCCAAGCAGCTGGGAGAGCATTGCCTCCCATTCGGAAATCTCGATGCGCGAGCTGGCGGAGTATCCGTTCCTGTCCTTAAAAACCGATCAGACGATCGGGATGCATGAGCGGGTCATTCAAGAATTCAAACGCGGCGAACTTGAACCGCGCGTCATATGCGAATGCTCCAGCGTTGCCATCATCGTCGCTTTGGTAGCCGAAGGCATTGGCGCCACCATTTTGCCCGAGTCGGTCATGTCCTCCTTCGCGATTCCCAACATCCGGACGCTGTCCATTACAAGCGCTGATTTCCAATCGGACGTGGGCATTGTTTGGCTCAGGGATCATGTCCTGTCCAATCGGGCCCGGCATTTTCTAGCTACCTTTATAGAATAA	MDIRQLRYFLTIAQEGQITRAAKQLNMEQPPLSRQLKLMEEELGVLLFERSGKQLQLTHAGELLQNRAASLLNQFNETLTEVKEIHAGVRGMLSIGAVVSCISLLPQRIHIFRQQYPEVTFKIREGDHSLLADQLDKRNIELAVTRLPFESSFGPERYAVQSLPSDPFVAVIPSSWESIASHSEISMRELAEYPFLSLKTDQTIGMHERVIQEFKRGELEPRVICECSSVAIIVALVAEGIGATILPESVMSSFAIPNIRTLSITSADFQSDVGIVWLRDHVLSNRARHFLATFIE	PGPT0019770_131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-SALICYLIC_ACID_RESISTANCE,PGPT0019770-bsdA-K21755	NA	NA
AK002_06089	819			hypothetical protein	ATGTTAACGAAGCTGATGCCACAGGACGAGGCGCTGTGCCGGGAAGAATTTATTCGGGATGAGGTATCGTACAACCTGATCCATCTCATTGCCGGGTCGCCGCAGCGTATAGGCCTGAAATCGCCGGACGGACGCATGATCTATGCGCAGTCGCCCCGCGGGAACGCCTGGTTATGGATATCCCGGGACGTTACCATGGATCGACGGCAGGCTCTGCTACGAGAACTGGTCAGCGAGCTGGGGGAAGCAGCCCTGCCGGGCGTGACGGGAGAACCGGGCGTGGCCGGGCAGTTCGCCAGCTGCTACGCAGAGGAGCGCCATGGAGCCTATCGTCATCAGATGACGATGGAGGCTTACCATGCCCCTGCCGTGAAGAGCCCTTATGGCGTCGAGGGGAAGATCAGAAGGGCCGCTAAGGAAGATACGCAGCAGGTGGCCCGGTTTCTGGTCGGATTCTCGGAGGATGCTTATGGAGTCCGAGCGAATGCGGCAAGCCAGGTCGAGGCAGCGCAGCGGCTCATCCGGGATGGAGGATTATATGTATGGACGGCCGGCAGCAAAACGGTATCGATGGCCAACATTGCGAACCGGTCGCCAAGGCACGGCCGCATCAACGCGGTGTACACGCCGAGGGAGGAACGAAAAAAAGGGTATGCCAGCGCATTGGTTGCAGACCTTGGATCTATCCTGCTGCAGGAGGGATTGGTTCCCATGCTGTACGCCGACCAGGCCAACCCGGACTCCAACCGGCTGTATCAACATGTCGGGTTTACCCGATGCGGGACGATTAGCGACCTCAAGTTTGTCCACAATGGATAA	MLTKLMPQDEALCREEFIRDEVSYNLIHLIAGSPQRIGLKSPDGRMIYAQSPRGNAWLWISRDVTMDRRQALLRELVSELGEAALPGVTGEPGVAGQFASCYAEERHGAYRHQMTMEAYHAPAVKSPYGVEGKIRRAAKEDTQQVARFLVGFSEDAYGVRANAASQVEAAQRLIRDGGLYVWTAGSKTVSMANIANRSPRHGRINAVYTPREERKKGYASALVADLGSILLQEGLVPMLYADQANPDSNRLYQHVGFTRCGTISDLKFVHNG				NA	NA	NA	NA	NA
AK002_06090	537			hypothetical protein	GTGAATATTGAGGTACGTTTATGCCCGAAGGAACAGTCATTTATTCTGCATAACATATATCCGCTGTACTTGCATGACATTGCTGAGATATGGGGGGTCCGTCCTAACCGGTTCGGTGTTTTTGAAAAAGAGGAAGTGCCGACCTTAAGCGAACAGAGCAAACAGCTCGATGTATGGTGGGAGCAGCCATCGGTTCTTTTTCCTTATCTGATCACCGTGGATGGCATAGCGGCGGGATTGGCCCTGGTGGCAACGACGCCATACATTCCATCGCCGAATATCCAGTACTATTTGAATGATTTTTTTGTGATTCGGACTTTTCGAAGACAAGGTGTAGCCCAACGAGCGGCTGAGCTTGTGTTCGATCATTTCCAAGGCGCATGGGAGCTTCAGACGAATCCGACCGAGCGCAATATGAGCACCCAGATTTTTTGGCGCAAAACGTTAAACACGTACACGGGCGGACGGTATACGGAGCATGATGGCGTCCATCCGGAGAAGGGGGATATGCTGGTCTTCCGTTTTAATAACAAATAA	MNIEVRLCPKEQSFILHNIYPLYLHDIAEIWGVRPNRFGVFEKEEVPTLSEQSKQLDVWWEQPSVLFPYLITVDGIAAGLALVATTPYIPSPNIQYYLNDFFVIRTFRRQGVAQRAAELVFDHFQGAWELQTNPTERNMSTQIFWRKTLNTYTGGRYTEHDGVHPEKGDMLVFRFNNK	PGPT0028640_8	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028640-aac6_I|aacA7-K18816	NA	NA
AK002_06091	942			hypothetical protein	ATGACAATAGCTAAGCCCAATGACGATTATACGCAAGTGATCCAAGAGATGCTGGAGATAGCCGGTAAGCACGGGGTGAATTTGAATTCCGAAGGCATTGAGATGAATGAATCCGGGATGGACTTTCTCGTTGGATTTGCGGAGGAGGCCAAGACCGGGGCAAGGTGGATCCTGCGTAAGCCGAGAAGAACGGATGTGCTGGACAGGGCGGATAATGAGGCGCGGGTCCTGAAGCTGATCCAGTCCCATCTGCCGGTCGACGTGCCGGATTGGCGCATATATACGCCGGAGCTCATCGCCTATCCGCTGCTCGGCGGGCAGCCTGCCGCTTCCGTCAGCATGGAAGGTTATGCTTTTAATATGGATGCCGAGAATCCGGGTGAGCCGTTCGTTCACTCCCTGGCTGAGGCTCTGGTCGCCCTGCATGGAATCGACCACGATGCAGCCCGAGCCGCAGGCCTGCGGGTAAAAAGCCCCCAAGAAGTTCGCGAGGAGACTGCCCGAAACATGGACGACATCAAGGGCCGCCTAGGCGTTTCCGAAACGCTCTGGGAGAGGTGGCAGAAGTGGCTGGGAGACGACTCCTACTGGCCAACGCATTCCGCGCTGATCCACGGAGATCTTCATCCGCCGCATATCCTGATTGATGAGCGCGTGCGGGTTACCGGGCTGCTGGATTGGACGGAGTCGGAGGTAGCCAGTCCCGCCAAAGATTTCGTGCTGTACTATGCCATATACGGCGAGGATAATCTTCGTGTCCTGTTGGAACGGTATGAACAAGCGGGAGGAGTGGTATGGCCGCGCATGTTCGACCATATTGTCGAGCAGCATGCGGCTTATCCCGTGCTGATCGCCCAGTTCGCGCTCCTCACGGGTCAGGAAGAATATATGACGATGGCGCGGAATGCGCTGGGCTTGACGGAGCAAGCTGGTTCGAATTAA	MTIAKPNDDYTQVIQEMLEIAGKHGVNLNSEGIEMNESGMDFLVGFAEEAKTGARWILRKPRRTDVLDRADNEARVLKLIQSHLPVDVPDWRIYTPELIAYPLLGGQPAASVSMEGYAFNMDAENPGEPFVHSLAEALVALHGIDHDAARAAGLRVKSPQEVREETARNMDDIKGRLGVSETLWERWQKWLGDDSYWPTHSALIHGDLHPPHILIDERVRVTGLLDWTESEVASPAKDFVLYYAIYGEDNLRVLLERYEQAGGVVWPRMFDHIVEQHAAYPVLIAQFALLTGQEEYMTMARNALGLTEQAGSN	PGPT0028010_182	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028010-mph-K06979	NA	NA
AK002_06092	294			hypothetical protein	ATGTTAACGATCAAAGAATACAGCGTCGAGCTGGTGAAGGACCCGTTTGGTATCCTGACCGGCAAACGCTTTGAGTTTGTATGCGATTTGGACGTGCCGGAGGATGACGAGCTCTATTCGGAGCATGGCGTCTACCTGCGAGTGATCTACCTGGATGATGAGGACGCTTCGCGTATCGTCAAATACGATTTCTATGAGCGCACAACGGATCAGTATCTGGATTTTGATATGGAGCCCGAGGAAGAGGAAGAACTCACGGCTTTTTGCAGGGAGCATTTGCAGGAAGAAGCCTAA	MLTIKEYSVELVKDPFGILTGKRFEFVCDLDVPEDDELYSEHGVYLRVIYLDDEDASRIVKYDFYERTTDQYLDFDMEPEEEEELTAFCREHLQEEA				NA	NA	NA	NA	NA
AK002_06093	630			hypothetical protein	GTGTCCCAAAAGGACCATCTGACCATCACGGTAGAGAAGGGCAAACAACGATTCTCCGTAACATCGCCTTTGGGCGGAGTAGGGCGGTTCGTCTTTGTAGTGAACGATCAGTTCACCAATGCACCCAACACCACGCAAATTGCCAGCGGCGCCGGTAAAAGCGGCGCAGCCGGCAACAACGCGGCCATCCAATCTCCGCATACGTACCAGCAGCAAAGCGTCGGGGCCGGCGGCATCGCCAAAAATCTAGGATTGAAAGATCCCAAGGATCATCCTGTCTCCAAGCATCACCCGAAACATCATGCCAAACATGGAAAGTTTAAACATCATCAAAAAGAAGTTGTGTTCGTCATCAACAAGCAGATCGTAAAACTTCCAAGGGGAAGCCGAAATGCGTCAGCAACGCAGATCGCCAGCGGCGCCGGCAAATACAGCACAGGCGGCACCAACTCGGCGATTGAAAGCCGCGGCACCAGACAGCAGCATGCCGTCGGCGGGGGCAGCGGCAGCAAAGCGATCAACAAAGACATCCAGCATCGCGACCGAAAATCCAAACACCACGACTGGAAGCCCGAATACCGCGATTGGAAATTCAAACAGGAACACGAAAAAAAGAAAAGATCGTATTAA	MSQKDHLTITVEKGKQRFSVTSPLGGVGRFVFVVNDQFTNAPNTTQIASGAGKSGAAGNNAAIQSPHTYQQQSVGAGGIAKNLGLKDPKDHPVSKHHPKHHAKHGKFKHHQKEVVFVINKQIVKLPRGSRNASATQIASGAGKYSTGGTNSAIESRGTRQQHAVGGGSGSKAINKDIQHRDRKSKHHDWKPEYRDWKFKQEHEKKKRSY				NA	NA	NA	NA	NA
AK002_06094	471			hypothetical protein	ATGCCGGAGATCCATCCAATCATCAAAAAGCTGCAGTACAAGGACCTCGGCCAGCCGGTGCTGATGCTTAACGCACCGCAGGCCTATCAAGAGGTCATCATCTCCCTGCAGGGAGATGTTCATACGGAGCCTGTGCAAGCACCTTACGACTTCGTGCAGGCCTTTGGGACAAGCAATGAAGAATTGCGGCGGCTGGCCGAGATTGCTGCCGGCTCCGTGGCGGACAACGGCCTGCTCTGGCTGTGTTACCCCAAGAAGACGTCCAAGACGTACAAGAACTCCGATTGCAGCCGGGAGAGCGTTGCGGGCATCCTTGCCGACGAAGGCTACGAGCCCGTTCGGCAGATCGCCATCGACGAGGATTGGTCCGCCTTGCGTTACCGCAAAGCGGAGCTGATCAAGACGATGACCCGATCGTTCGCCGCAACCGCGAAGGGGAAGGAACGGACCGGTCAAGAGGATGATAAATGA	MPEIHPIIKKLQYKDLGQPVLMLNAPQAYQEVIISLQGDVHTEPVQAPYDFVQAFGTSNEELRRLAEIAAGSVADNGLLWLCYPKKTSKTYKNSDCSRESVAGILADEGYEPVRQIAIDEDWSALRYRKAELIKTMTRSFAATAKGKERTGQEDDK				NA	NA	NA	NA	NA
AK002_06095	1062	rlmN_2		putative dual-specificity RNA methyltransferase RlmN	ATGAACAAACCATCCATTTATGGATTAACATTAGATCAGTTGACGGCTTGGCTAGGCGAGCGTGGACATAAGAAATTTCGGGCAACGCAGGTGTGGGAATGGCTGTATCGGAAGCGGGTTACGTCTTTTTCCGATATGACGGATGTGCATCCGGAATGTCTGCAGCTGCTCGAGGAACATTATACGATCCTGACCTTGGAGGAGCATACCAAGCAGGAGTCTCTGGACGGCACGGTTAAGTTTCTGTTCAAGCTGGTGGACGGCAACCTGATCGAGACCGTATTGATGCGGCATAAATTCGGATTGTCGGTGTGCGTGACCACACAGGTCGGGTGCAATATCGGCTGCAGCTTCTGCGCCAGCGGGTTGCTGAAGAAGAGCCGGGATTTGTCCGCAGCGGAAATCGTGGAGCAGGTCATGCAGGTTCAGCTTCACTTGGATCGGAGAGGCAGCAGCGAACGGGTCAGCCATCTCGTCGTGATGGGGATCGGGGAGCCGTTTGACAATTATGAGAACATGTCGGATTTCATCCGCGTGATCAAGGATCATAAAGGGCTTGCGATTGGCCCTCGTCATATTACGGTATCGACCAGCGGGCTGGCTAACAAAATCGTCGAGTTCGCGGACAGCGATCTGGGCGTGAACCTCGCGATTTCCCTGCATGCGCCGAACGACGAGATCCGGACCCGCATCATGAAGATCAACAAAGCGATTCCGATCGAGAAGCTGATGGCCGCGATTGATTACTATTTGGAAAAAACAAATCGCCGCATCACGCTGGAGTACATCCTGCTGAAGGATGTGAACGATCAGCGGGAGCATGCGCTCGAGCTGGCCGAGCTCGTGGGCGAGCGCCGCAATCTGGCGAACGTGAACCTCATTCCGTACAACCCGGTGGATGAGCACAGCCAGTACCAGCGCAGCACCAAAGAATCGATCACCGGGTTTTACGATACCTTAAAGAAACAGGGCATCAGCTGCAGCGTGCGGCTGGAGCATGGCACGGACATCGACGCAGCCTGCGGGCAGCTGCGCAGCAAGCAGATCAAGAAAGCTCAGTAA	MNKPSIYGLTLDQLTAWLGERGHKKFRATQVWEWLYRKRVTSFSDMTDVHPECLQLLEEHYTILTLEEHTKQESLDGTVKFLFKLVDGNLIETVLMRHKFGLSVCVTTQVGCNIGCSFCASGLLKKSRDLSAAEIVEQVMQVQLHLDRRGSSERVSHLVVMGIGEPFDNYENMSDFIRVIKDHKGLAIGPRHITVSTSGLANKIVEFADSDLGVNLAISLHAPNDEIRTRIMKINKAIPIEKLMAAIDYYLEKTNRRITLEYILLKDVNDQREHALELAELVGERRNLANVNLIPYNPVDEHSQYQRSTKESITGFYDTLKKQGISCSVRLEHGTDIDAACGQLRSKQIKKAQ				NA	NA	NA	NA	NA
AK002_06096	1482			hypothetical protein	ATGAATTCCAAAGGAAAAGCGCTGATTCTTGGTGGAGGCATAGCCGGACTATTCACCGCCAACGTGTTATCGAGGCATTATGAGGAGGTGGTCATCGCCGATCGGGATGAATTTCCCGCAGGTCCTGAGAATCGAGCCGGGACGCCGCAGGCTTATCATCCCCACCGTTTTCTTGAACGCGGCAAAATGATCGTTGAACGCTGGTTCCCCGGCATAACCGAGGAACTGCTTCAGCAGGGTGCTCACCCCCGAGCGCAAAAGTCCGTTAAAATGACCAACCGTTTCGGCACGCTGGAACTGCCTGATGAGCCCAATGCGGGATGCAGCCGATCCCTGCTGGAGTGGACCCTTCGCAGCAGAGTGGCTACGCTGCCAAACGTTACTCTCTTACCGAAACTGACAGCGCAACAATTGCTGTTTGACGCCGGCAAGAAGGCCGTTACCGGCGTTGTGTTCCGGGACAGAAGCGCTAAAGAGACGGCGCTCCTTCATATGAATGCGGATATCGTCGTGGATACAAGCGGTCGCGGGTCCAAGCTGGCTGATTGGCTGCAGGACCTCGGTTATGCGATACCGGAGGCTGAACGGCTGCACATCTCTCTTGGCTACAGCACGCGGCATTATAAGGTGCCTAAGGAAATCCATGCGGCGTGGAGCACCATTGTGAACGAAGGAGACCCCGCCCTCGGCATCGGCACGGCCGTCTTCAATCCGATCGAGAATCAGCTTGCGGAAATCGTGCTGTATCGAGCGGGAGGGGCATCTTATCCGACAACCGAAAGCGATCTGTACAATCAGGAAGCCCAAGATCTATTCGGACCCGCCATCGGAAACTTGCTTGAGCAGTTGGAGCCTGTCTCGAGTCCGCGGGGCTACCGGATCGAAGAGTGCGTGAGACAGCACTTCGAGGAGATGGAGGACTGGCCCTCCGGTCTTCTAGTGCTTGGCGATGCCTTCTGCAGCTTCGATCCGATATTCGGCCAAGGCATGACGGTGGCGGCCATCCAGGCAGATACGCTGGACCGCTGCTTGCAGTCTAAGCAGGAAGGAGTCCAGCTTGAACAGGGATTCGAGCGTTCGGCACTTCAGGAGATTCAATCCGCCATAGAACCTGCATGGTGGCTTAGTGCAGCAGCTGATCTAAGATGGGCAGGCGTGAAATACGAAGGACGCTTGTCCGCCCAAGGGTTTTCTTTTGCCCAGAGGCTGTTCGACATATGCCAGGAACTGGCTTACAGCCATCACGACATGGCCGTATTTGAGCAGTACATGATGGTCACCGGCCTGCTCGCTTCGCCTAATGATCTGTTTAATGCTAAAAGCATCGCCGCCATCGTGAATGCGGATTGTTCCGGACAGGGTAACGCTTGGCTCCATCAAGTGCTGGAAGAGGCCGGTGTGCCGCTGGAGGAGCTATTGGAACAGATCATCCCCGCTTTCAATACGGAATTCCTGCCCTTAACCATGGGATTGCCCGAATAA	MNSKGKALILGGGIAGLFTANVLSRHYEEVVIADRDEFPAGPENRAGTPQAYHPHRFLERGKMIVERWFPGITEELLQQGAHPRAQKSVKMTNRFGTLELPDEPNAGCSRSLLEWTLRSRVATLPNVTLLPKLTAQQLLFDAGKKAVTGVVFRDRSAKETALLHMNADIVVDTSGRGSKLADWLQDLGYAIPEAERLHISLGYSTRHYKVPKEIHAAWSTIVNEGDPALGIGTAVFNPIENQLAEIVLYRAGGASYPTTESDLYNQEAQDLFGPAIGNLLEQLEPVSSPRGYRIEECVRQHFEEMEDWPSGLLVLGDAFCSFDPIFGQGMTVAAIQADTLDRCLQSKQEGVQLEQGFERSALQEIQSAIEPAWWLSAAADLRWAGVKYEGRLSAQGFSFAQRLFDICQELAYSHHDMAVFEQYMMVTGLLASPNDLFNAKSIAAIVNADCSGQGNAWLHQVLEEAGVPLEELLEQIIPAFNTEFLPLTMGLPE				NA	NA	NA	NA	NA
AK002_06097	606	betI_7		HTH-type transcriptional regulator BetI	ATGGCCCCGTTAAATGAAGAACAACTGCATCAAATACGCGACGAACGAAAAGAACAAATCATGCGAGCAGCCATCAAAGTATTCTCAAAAAGAGGTATTTTCGGAACCAAAATGAGCATGATCGCCGCCGAAGCCGGAGTCAGTCACGGCCTGCTTTATCATTACTTCAAATCCAAAGACGAGTTGTTCATTACGCTCGTACAGTGGTCAATGGATGAGGCACGGCACGCGCTCTCCGACATCTATGACGTGCCCGGTACCCCTCTTGAGAAAATCACATTGCTGACCTCCATGATTCTTCAAGAGGACGATAATTCGCACTTCATGCTGATTCAGCAAGCACGCACCTCGGATGGCGTGCCGGAAGAGGCCAAACAGATAATCGAGAGCTATTCCATCCATGCCTTCGTGGATCAGCTCATGCCGCTGTTCGAAGCCGGACAGCAGGCAGGAGAGATCGCGGCTGGCGATCTGAGAGAACTGGCGGCCTGTTATTTATCCGTGCTGTCGGGATTAATGACGCTGAAGTCCCAGGAGGATCCGAGCTATGCGCCTCCCAGAGCGGAGCTGCTGCTGCGCATGCTTACGAACGGACAGGGAAAATAA	MAPLNEEQLHQIRDERKEQIMRAAIKVFSKRGIFGTKMSMIAAEAGVSHGLLYHYFKSKDELFITLVQWSMDEARHALSDIYDVPGTPLEKITLLTSMILQEDDNSHFMLIQQARTSDGVPEEAKQIIESYSIHAFVDQLMPLFEAGQQAGEIAAGDLRELAACYLSVLSGLMTLKSQEDPSYAPPRAELLLRMLTNGQGK				NA	NA	NA	NA	NA
AK002_06098	960	cpdA_4		3',5'-cyclic adenosine monophosphate phosphodiesterase CpdA	ATGAAGCCGATTCTTCGATTCGGAGACGATCATACCTTCAAGATCGTGCAGTTTACAGATATTCATTGGAAGAATGGGGAGCCGGAGGATCTGATGAGCCGGCGCTGCATGGAGACGGTGCTCGACCTGGAGCAGCCCGATCTGGTGGTGTTTACGGGCGATCTTATTTATTCCGGCGAAGCCGACACCGGTTATAGAAAGTGCCAGGATCCGGGGCAGGCCTTCAAGGATGCCGTGTCTGCGGTGGAGTCCCGCGGAATCCGCTGGGCCTTCGTATTCGGGAATCACGATACGGAGGGCGAGATCACGCGCGAAGAGCTGATGGATGTCGCCATGCAGCACGCTTATAACTGCGCAGAGCACGGCTCGCCGGATATTCATGGCGTAGGAAATTATACGCTGCCTTTATACGGCAGCAACGGAGAAGAGACGGCGGCCGTTTTGTACTTCTTCGACTCAGGGAGAGAGTCCGAACACCCTGCCGTTCCGGGGTACGATTGGATCCGGCGCGACCAGATCCGGTGGTATGAAATGGCGTCCCGGGCATACAGCGTCAAGCATCAGGGGAACCCGCTGCCGTCATTGGCTTTTTTTCATATCCCGCTGCCGGAGTATCGCGAGGTGTGGGAGCGGAAGACGTGTTATGGCAGCAAGTTTGAGAGGGTGTGTTGTCCGGAGGTGAATACCGGGCTGTTCGCGGCGATGCTCGAGCGAGGGGATGTGATGGGAACGTTCGCAGGACATGATCACATCAATGATTATTGGGGTGAACTGCACGGCATCCGCCTCTGCTACGGCAGAGCGACCGGGTATGGCACATATGGCCGTGAAGGCATGCTCCGGGGGGCAAGGGTCATTCGCCTGCATGAAGGAGAGCGGCAGTTCGACACTTGGATCACGCTGAGCGACGGCTCGCAGATCCGGGAGCAGGAGAAGCATGAACCCGGGACGTCTGACTGA	MKPILRFGDDHTFKIVQFTDIHWKNGEPEDLMSRRCMETVLDLEQPDLVVFTGDLIYSGEADTGYRKCQDPGQAFKDAVSAVESRGIRWAFVFGNHDTEGEITREELMDVAMQHAYNCAEHGSPDIHGVGNYTLPLYGSNGEETAAVLYFFDSGRESEHPAVPGYDWIRRDQIRWYEMASRAYSVKHQGNPLPSLAFFHIPLPEYREVWERKTCYGSKFERVCCPEVNTGLFAAMLERGDVMGTFAGHDHINDYWGELHGIRLCYGRATGYGTYGREGMLRGARVIRLHEGERQFDTWITLSDGSQIREQEKHEPGTSD				NA	NA	NA	NA	NA
AK002_06099	771	glcR_4	COG1349	HTH-type transcriptional repressor GlcR	ATGTCCGTAACCTATGAGGAGCGCAGAGGGAAGATTTTGAATCAATTAGAGCTTGAAGGCAAGGTGAAGGTCCACGCCTTGGCAGAACAGCTGGAGGTATCCGCCGAAACGATCCGGAGGGATTTGGACCGGTTAGAGAAAGAAGGCCAGCTGCGCAAGGTTTACGGCGGCGCCGTCAAATCGCGTTCCGGGCATATCGAGCCGTCCTTTACCAGTCGTTCCCAGACATGCGCGGAAGAAAAAGCCGCGATCGGCAAACTCGCCGCCTCCCTTGTCAAGGATGGCGAAACCGTTCTGCTTGATAACGGGACGACCACGATTGAGGTCATGCGCTATCTTAAGGACCGGCCTCATGTCACGGTCATCACCCATTCGCTGCCTATATTGAACCTCGCGATGGAGATGTTTCAGGGGAGGATTATTTTTATCGGCGGAGATATGGACCGGAACAAGCAAGCGTCAACCGGTCCTCTTACCGAAATGCTGCTGGAGCAGTTCAAGGTAAATAAAGCGTTTATCTCGGTTGGCGGGATCTCGTTAACCGATGGCATTACCGATTATGATCTGGACGAAGCCTACATCTCGCGAAAAATGCTTGCGCGTGCGGAGGAAGGCATCGTTCTCGCGGACCATACGAAGCTTGGGGTAACCACGTTCTCGAAGCTCGCCAAGCTGGATGATATCTCCATGGTCATCACGGATCAAGGATGTTCACGGGAATGGATGGATAATCTGTCCGCTCGCGGCATCGAAGTGCTCATAGGGCAATAG	MSVTYEERRGKILNQLELEGKVKVHALAEQLEVSAETIRRDLDRLEKEGQLRKVYGGAVKSRSGHIEPSFTSRSQTCAEEKAAIGKLAASLVKDGETVLLDNGTTTIEVMRYLKDRPHVTVITHSLPILNLAMEMFQGRIIFIGGDMDRNKQASTGPLTEMLLEQFKVNKAFISVGGISLTDGITDYDLDEAYISRKMLARAEEGIVLADHTKLGVTTFSKLAKLDDISMVITDQGCSREWMDNLSARGIEVLIGQ	PGPT0017590_349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK002_06100	852			hypothetical protein	ATGGAGCTGCTGTCACTGCTGCTGGTGCTGTCTTCCGGACTGACCCATGCCCTTTGGAATCTGTTTACGAAGCGAAGCATTCATAAATCGGTATTTCTGTGGTGCATCCACTCCGTCACGTTAGTCTTTCTGATGCCTTATTTTATCGTGGAGATGTCGGGGCTGCGGCTGGAACTGCCCGTTTACGGTCTTATGCTGCTGTCCATGACCATTCAAGGCTGCTATATCACGCTGCTCTCCAAAGCCTATACCCATGGCGACATGTCTCAAGTGTATCCGTTCATGCGGGGGCTTGGCGCCATGTTGACTTCGCTGTGCAGCCTCGTGTTGTTTCATGAACAATTAAGCACGGCAGGCTATATGGGGCTGAGTCTTATCATTTTTTCGCTGTTTGCTTTATCGGGTTTGAGGCTCAGGGGCCAATCCAGCGTAAACCCCAAAGCCTTGCTATATGCTTGTCTGGTCGGGCTTTGCATTTCCGGGTATACCCTGACCGACAAAGCCATTCTGGATGCAGGGGTCTCCCCCGTCTCGCTGATCCAGTTATCCAACATCAGTTACTTCATCGCCCTGGTCGTTCCCGTGGCGCTGTCCAGGCAGCTGAAACGGGAATGGTCGGTGAACTGGCGCACGATTCTGCTGGGCTCCATCCTGGCACCGGGTTCATATTTGCTGTTCCTGTTTGCCATGCGGCTCACCCCGCTTGCGCACATTGCGCCGGTCCGTGAAATCAGCACGGTGTTCGGCACCGTTCTGGGCATCATCGTGCTGCGCGAACAGCAAGGCTGGCGGCGAATCGTCATGTCGGCGCTTATCACGATAGGCATCATCACGATTGCCCTATGGGGGTAG	MELLSLLLVLSSGLTHALWNLFTKRSIHKSVFLWCIHSVTLVFLMPYFIVEMSGLRLELPVYGLMLLSMTIQGCYITLLSKAYTHGDMSQVYPFMRGLGAMLTSLCSLVLFHEQLSTAGYMGLSLIIFSLFALSGLRLRGQSSVNPKALLYACLVGLCISGYTLTDKAILDAGVSPVSLIQLSNISYFIALVVPVALSRQLKREWSVNWRTILLGSILAPGSYLLFLFAMRLTPLAHIAPVREISTVFGTVLGIIVLREQQGWRRIVMSALITIGIITIALWG				NA	NA	NA	NA	NA
AK002_06101	804			hypothetical protein	ATGGCTAACCGTGTCGTTATTCTTGGAATTGATGGAGCAGGGGGGTTCATTCAAAACGCGGATGCTCCGAATATTCACGCTCTGCTGAAGGCAGGAGCATACTCTTACGATGCACAGACCGTATATCCGAGCATTAGTGCCGAATGTTGGGGCTCGTTGTTATACGGCGTAAAACCGGATCGACATGGTCTTGATAATGACCGGGCGATTCACGGCAGTATTCCGGAGGACTTCCCCTATGCCTCGCTGTTCAAGCTGGCTCGCCGGCAATGGCCGGATGCCCCCTTGTCTGCATTCAGCTGCTGGGCACCGATCAACACGGGAATCATTGAGAATACGATTAACGTTCATATGGAATCCAAACCGGACCCCGAGCTGGCGGAGGCCATCGTCGATTATATTCATCAACAGCCCGATTTCAAGCTGATGTTCATTCAGCTGGATCACCCCGACGGCGCCGGCCACAAGCACGGATTCGGTACGGATCAGCAGCTGGAGCAAATTGCCGTAACCGATCAGTACGTAGGCATGATAGTCAAAGCACTCGATGGTCAGCGGCTGCTGGAAGACACCTGGATCCTTACGGTCACGGATCACGGCGGAGGAGGCGCACATCCTAACGATCACGGAAGCGATCACCCCATGGATATGACCATTACTTGGGGAATTACGGGCCCAGGCGTAAAGCCCGGCCTTATCGAAGCACCGATCAGCATCATGGACACGGCCGCCGTCATCGGTCAAGTACTGGGACTGCCCGCTCAGCCTTGCTGGGAGGGAAAAGTGCCTGAAGGCATACTCTAA	MANRVVILGIDGAGGFIQNADAPNIHALLKAGAYSYDAQTVYPSISAECWGSLLYGVKPDRHGLDNDRAIHGSIPEDFPYASLFKLARRQWPDAPLSAFSCWAPINTGIIENTINVHMESKPDPELAEAIVDYIHQQPDFKLMFIQLDHPDGAGHKHGFGTDQQLEQIAVTDQYVGMIVKALDGQRLLEDTWILTVTDHGGGGAHPNDHGSDHPMDMTITWGITGPGVKPGLIEAPISIMDTAAVIGQVLGLPAQPCWEGKVPEGIL				NA	NA	NA	NA	NA
AK002_06102	531	sttH		Streptothricin hydrolase	TTGAAGAAGAGCGCGCTGTTGGTCATTGATGTGCAGAATGAGATGTTTCAAGTAAATGATCCGGTGTACGAAGGAGATCGATTGCTCCACAATCTCAAGCAGCTGATCGCAAAAGCCAGAAGCGGCGGCATTCCTGTTATTTACATCCAGCATAATGACGAAGGGTTGATGGCAGGTTCGGAGGCGTGGAAGATTAATCCGGAGATCACGCCTGCGATGTCGGATACCGTCATTCAGAAGACAAGACCGGATTCCTTTTACCATACGACGCTTGAGGAGGAATTGAAGAGGCAGGGCATCGAGCATGTAATCCTTGCGGGCATGCAGAGCGAATTATGCGTGGATACCACCTGCCGGAGAGCATCCAGTTTGGGTTATGATGTCACGCTGGTGTCCGATGCCCACAGCACCTGGAACAATTCGGCGTTAACGGCGCAGCAGATCATCGATCACGTGAATGCAACGCTAAGATGGTTTGCGGACATCAAGACAACGGGAGAAGTCCTTTGTACAGAAGAAGCCGGCGCGTAA	MKKSALLVIDVQNEMFQVNDPVYEGDRLLHNLKQLIAKARSGGIPVIYIQHNDEGLMAGSEAWKINPEITPAMSDTVIQKTRPDSFYHTTLEEELKRQGIEHVILAGMQSELCVDTTCRRASSLGYDVTLVSDAHSTWNNSALTAQQIIDHVNATLRWFADIKTTGEVLCTEEAGA	PGPT0028650_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028650-aacA-K00663	NA	NA
AK002_06103	477		COG1846	putative HTH-type transcriptional regulator/GBAA_1941/BAS1801	ATGAAGCAATTGGGATTTCATCAGGAGAACCGGTTAGCCATGCTGTCATGGATTCGGATCACCCGATTTCAGCAGATCGGCAATCACATCTCGAATGAGTTTTTGCAGCCTTTCTGCATTACCGTTGCCCAATTCGACGTGCTGATCCAGGTCATGGCCCACCAACCTCTATCTCAGCAGGAGCTGGCCGAATATCTGTCCATCAGCGGCGGCGGCGTTTCCCACATGGTGAAGCGGCTGGAGAAGCTGGGCCTGATTGTCCGCAAGCAGGATTGGAAGGTGAAGTACATCTCGCTAACCGAGAAGGGACAAGCCTTGCTGGAAGAAATTATCCCGCTGCTGTCGGATTTTCAAACCTCCATGTTTGATGTTTTGGATGATCAAGAACTACAGCAGCTTTACAAGACCATGAGAAAGCTCCATCAGTATAACTTAAAGAAGTCGGCAAACCCTCGGATTAGCGTCAAAGAAGAGTAG	MKQLGFHQENRLAMLSWIRITRFQQIGNHISNEFLQPFCITVAQFDVLIQVMAHQPLSQQELAEYLSISGGGVSHMVKRLEKLGLIVRKQDWKVKYISLTEKGQALLEEIIPLLSDFQTSMFDVLDDQELQQLYKTMRKLHQYNLKKSANPRISVKEE				NA	NA	NA	NA	NA
AK002_06104	1095	araR_9	COG1609	Arabinose metabolism transcriptional repressor	ATGGAACAAATTCCACTATATCAACACATCGTCAACGCTCTAACAGCCAAGATTGAATCCGGGGAGCTTCAGGCTGGAGACCAGCTTCCGACCGAAGCCGAGATTTCGAAGGAATATAAGGTCAGCCGGATTACATCGAAGAGAGCGCTGAACGAGCTGGAGAATGCCAAGCTGATTTACCGGATCCAGGGCAAGGGGAGCTTCGTGAGCGACGCTAAGGCTGATCACCGTCCATTGAGCAAGACAGGCAAAGAGATTCTGCTGATTCTCCCGTTCGCCCATAATCCGGGACTCGGCGATTACGAGAAAGGCATCAACGAATATCTCGCAACGACCGACTATAGCTTGAACATTCAGTCCAATACGATTGTCGGGCAGCGCAAGCTGTTGGAGTCTGCGTTTCAAAGCGCCCATTCGGGATTGATCCTCTACCCGATAAGCAGCATCTCGGATCTTGGCATTCTGTATCAATATCACCTGGCAAAGTACCCGCTTGTGACGATGGACAAGTGCATTGAAGGCATCCCCTTCCTCTCGGTCGTCTCCGATAACTTTGGCGGCGGATACCAAGCCTCCAAACATCTGATCGAGAACAATCACAAAAAAATCGCCTTTATCTCCTCCTTGAAGGTAGAGAATTCCTCTTCCATCCGGGAGCGGTATTTCGGTTACTTGAAGGCTCTGTATGATTACAGCCTGATCGATTACAGCGTCAATGACTTGACCGACCGTTACTTAACCCATGACCACGACAACGGCAGAGAATACTATATTCAGTTTATTCAGTCCGTCGTGAACCAAGGAATCACGGGGATTGTGGCAGAGAATGACCTCATTGCGATCGAGATCATTCAAATCGCCAAGGAGTTGGGCTTGTCCGTTCCGGACGATTTCTCCGTGGTCGGTTTTGACGACATTCATCTCGCGAGCTTCGTTGAACCCAAGCTGACCACCATATCGCAGGACTTTGGACAGATGGGATATCAGGCTGCACGGAACCTCATATCCCTCATAGAGCACCCTCTGGAACACCCTCTTGAGAATGTGGTGATTCCCGTTCGGCTCATGGAACGCCAGACCGTGAAGAAGTTATAA	MEQIPLYQHIVNALTAKIESGELQAGDQLPTEAEISKEYKVSRITSKRALNELENAKLIYRIQGKGSFVSDAKADHRPLSKTGKEILLILPFAHNPGLGDYEKGINEYLATTDYSLNIQSNTIVGQRKLLESAFQSAHSGLILYPISSISDLGILYQYHLAKYPLVTMDKCIEGIPFLSVVSDNFGGGYQASKHLIENNHKKIAFISSLKVENSSSIRERYFGYLKALYDYSLIDYSVNDLTDRYLTHDHDNGREYYIQFIQSVVNQGITGIVAENDLIAIEIIQIAKELGLSVPDDFSVVGFDDIHLASFVEPKLTTISQDFGQMGYQAARNLISLIEHPLEHPLENVVIPVRLMERQTVKKL	PGPT0017490_332	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_ARABINOSE_METABOLISM,PGPT0017490-araR-K02103	NA	NA
AK002_06105	2193			hypothetical protein	ATGCTGAACTATGTCGATACCAGACAGGGCACCAACAATCAATATACCTTTTCCAACGGGAATGCACTCCCTTACACGGGTGTGCCGTTCGGTATGAACCACTATGTCGTGCAGACCAAAAACGAAGGAAGCTGGTTCTTCAACCCCAATGACCGCATCTTCCAAGGCATTCGCCTGACGCACCAGCCGAGTCCGTGGATGGGCGACTTCGCCCACTTCCTGATGACTCCGATCGCAGACGACAAAATCAGGGGCTCCGTCTTCACCTGCCAAAGCTCCTATCGACCGGAGGAAGCGATATTCAAGCCTTATTATCTCAAAGTGAAGCAGCAGCGCTACAACATCACCACGGAGCTGGTACCGAGCTGCTATGGCGCGTCGCTACGCATCAAATATAATTCCGGGCAGCAGGCTGGCCTCGTGCTAAACGTCCATAACCAAAGCGAGTTCCGGGTGGATGCTGCCCAGCGCAAAATTACCGGTTATGTCAGCAACTTCGCAGACTGTCACGATAAAGGATTCCGCATGTACGTGGCCATGAGCTTCAGCAAGGACATGGATCTCTCTGCGACCGGTTACTACGACGCCGAAGGCCAGTTCTTCCCGGAGATCGCTTTCGTCAATGCGGACCAGCATGTCGTCATTCGCTTCAAGGACTGTGAAAAGGGCACCCTGGATGTTAAGCTGGCGACCTCTTTCATCAGCCAGGAGCAAGCGGAGCTTAATCTGACGCGCGAGCTCGACACAACCTTGGACGAACAGAAAGAATTGGCGGCGGAAGCCTGGAATCATTACCTGAACAAAATCCGGGTCTCTCACTCGAACGAGGAATATATGCGCACTTTTTATACCTGCCTTTACCGCATGTTCTTGTTCCCGCAAAAATTCTATGAGCTCGATGCCAATATGGAGCCGGTTCATTACGACACAACGGCCCGATCCGTCAAGAAGGGCGTGCTCTATACCAATAACGGCTTCTGGGATACTTACAAAACCGTATATCCGCTCTATTCCATCATCGCGCCGAAGGAATATGAGGAGATGCTGGAAGGTTTCCTGAATTCTTACCGCGAGACCGGCTTCCTACCAAAATGGCTGTCCCCGGATGAGCGCGGACTGATGCCGGGCACGCTTATTGACGCGGTCATCGCGGATGCGGCGGCTAAGGGACTCGCCCAGCACCTGCTGCCGGAACTGCTGGAGGCCATGCTGACCGCAGCCACCACGCAGAGCGGACAGAATTGCTATGGACGTCAAGGAACGCTGGACTACATCAAGTACGGTTACGTTCCGAGCAGCTATCATGAGAGCGTAAACCATACGCTGGATTACGCATACAGCGACTACTGCATCAGCCGCGTGGCGGATGTGTTGGGCCGGTCGGACATAGCCGCGCAGTACAGACAAAGCGCGCTCAACTATCAGAATATTTTTGATGCGGAGACCGGCTTCATGCGGGCCAAGGATCAGAACGGCCAGTTCCGTCCGAATTTCAACGACACGAGCTGGGGACTCGATTATGCCGAGGGAAGCGCTTGGCAAACCAGCTTTGCCGTATTCCAGGATTTCCAGGGATTGATCGAAGCGTATGGTTCGAAAGAACGCTTTTTCGACAAAATTACCGAATTGTGCAACAAAGCGCCAGACTTCGACGTCCGGGGCTACGGCTTTGAAATTCATGAGATGAGCGAGATGGCCGCCATCGATTATGGCCAGCTGGCGATTTCCAACCAGCCGAGCTTCCATATTCCTTATCTGTTCAACTATGTAGGGCAGCCTGCATCATCCCAGGTGATCCTCAAACAGCTGATGTCGAACCTGTTCAACAGCGGCTTTGATGGTTTCCCTGGCGACGAGGATAACGGCAGCATGTCCGGCTGGTATGTGTTCAGCTCCATGGGCTTCTATCCGGTATGTCCGGGCAGCAATGAATATGTGCTCGGGATCCCGCTGTTCGACAGCGTGAGCATTGAGCTGCCTAACGGCAAACAGATGTTGATTCATACCGATAACAACAATCCGCAGTCCAATTTCGTGGCGAACGTGCAATTGGAAGGACAGGATTACACTAAACTGTACATTACGCATGAGGATATTCTGGCAGGCAAAACCCTCGATTTCCGTCTTGGATTGGCTCCAAGCTACCGTCATTACAGTGCGGAGGAACTGCCGTTCTCGATATCGAAGAAGTAA	MLNYVDTRQGTNNQYTFSNGNALPYTGVPFGMNHYVVQTKNEGSWFFNPNDRIFQGIRLTHQPSPWMGDFAHFLMTPIADDKIRGSVFTCQSSYRPEEAIFKPYYLKVKQQRYNITTELVPSCYGASLRIKYNSGQQAGLVLNVHNQSEFRVDAAQRKITGYVSNFADCHDKGFRMYVAMSFSKDMDLSATGYYDAEGQFFPEIAFVNADQHVVIRFKDCEKGTLDVKLATSFISQEQAELNLTRELDTTLDEQKELAAEAWNHYLNKIRVSHSNEEYMRTFYTCLYRMFLFPQKFYELDANMEPVHYDTTARSVKKGVLYTNNGFWDTYKTVYPLYSIIAPKEYEEMLEGFLNSYRETGFLPKWLSPDERGLMPGTLIDAVIADAAAKGLAQHLLPELLEAMLTAATTQSGQNCYGRQGTLDYIKYGYVPSSYHESVNHTLDYAYSDYCISRVADVLGRSDIAAQYRQSALNYQNIFDAETGFMRAKDQNGQFRPNFNDTSWGLDYAEGSAWQTSFAVFQDFQGLIEAYGSKERFFDKITELCNKAPDFDVRGYGFEIHEMSEMAAIDYGQLAISNQPSFHIPYLFNYVGQPASSQVILKQLMSNLFNSGFDGFPGDEDNGSMSGWYVFSSMGFYPVCPGSNEYVLGIPLFDSVSIELPNGKQMLIHTDNNNPQSNFVANVQLEGQDYTKLYITHEDILAGKTLDFRLGLAPSYRHYSAEELPFSISKK				NA	NA	NA	NA	NA
AK002_06106	1653	gerBA_7		Spore germination protein B1	GTGTCTTATATTCCGAAGTGGACGATTTTTTTCCAAGCCTTTCTGCTCTGCTTTGTCCCCGTCGTGATGCTGATGTTCGCCAAATGGTTTCACAAGTCTATCAATTCAAGCTTTTCCTTAAAGCCTAACATCCCCTCTTCACCCATGAGGGAGGATAGCGTTTCGCCGGACGCTCCCCTAACGGGACTTTACGATACGGACATCACGTCGGTTCGCCAAGCGATCGGCGGCAATGCGGACGTGGAATTCAGGGAATTTACGATACGGGGCACGCGAACGCGGGCGGTCGTCGTATATGTGGACGGATTGCTGGATAGCGACCTCATCGACACCCATCTGATAAGACCCCTCATGCTGGAGGGAGTTCCGGAAACGGAGCACGACAACTTCAATCGTTCGAGCGATGCCATCAAAGCCTACATCAGCAGCCAAATGCTGCCTGTATGCGAGATCAAGCATGTCCAACAATTATTGGATCTCGTACAAGCCGTTCTTGCAGGCACGCCCTGTTTATTGGTCGATGGGATGCAAGGAGCCTTTTTGGTGGGGTCGGCCAAGGGAAAAAGTAGAAACATAGAAGAACCTCTATCGGAAGCCCTTCTTCGGGGTCCCCGTGTCGGATTTACCGAGAGACTATCAGACAATACAGGCTTGCTAAGGCTTCATGGAAAAAATGAAAGTCTTCAGCTCACCCGATTCGAGGTCGGAAACCGGGTAAAAAAAGATCTGGTCGTCGCCTACATGAAGGATATCGCCGACCCCAAGCTGGTGGATGAAGTCGTTACGCGCATCCGGAAAATCGAAATCGACGACCCGCTTGAATCGGGATACATCGAGCAATTGATTGAAGAAAACGTCATGAGCCCTTTTCAGCAAATCCAAAATACCGAGAGACCGGACAGGGTCATCGGCGCTTTACTGGAGGGGCGGGTAGCCATCCTGCTTGACGGCACGCCCTACGCGTTAATCGTGCCGGTCACGTTCAGCATGCTGCTCCAATCTCCTGAAGACTATTACGAGAGATGGATATCGGGATCCTTTGTCCGCTTACTGCGCTTTCTCTCCGCCCTTCTGGCGCTGCTGGCACCCGCACTGTACATCTCGTTTATTTCGTTTCATCCCGGGCTGATACCTACCAAGCTGGCGTTGACCATTATCGAGACGAGGCAGGGCGTGCCCTTTCCCTCGATCATCGAAGCGCTCATCATGGAGATCGCCATTGAAATTTTGCGCGAGGCCGGGATCCGGCTGCCGAAACCCATTGGACCTGCGATGGGCATCGTAGGCGGTCTGATTATTGGCGATGCTGCCGTAAATGCCGGAATTGTCAGTCCGTTTCTCGTTATTGTCGTGGCCGTAACCGCAATCTCTTCCTTCACGATCCCGGTCTACAGCGCCGGCATTACACTGCGCGTCCTCCGATTTACCGCGATGTTCTTTGCGGCCGTGCTCGGGTTGTTCGGCGTCGTGATGTTCTTCCTTCTTCTGTGCTGTCATCTGGTCAGATTGAAGAGCTTTGGCGTGCCTTACGTAAGCCCCATGGTACCGTACGGCATCAACGACTTGAAAGATTTCCTCATCCGCTTCCCCTTGAAGGTGATGAAGAAACGTCCCCAGCTGTTAAAACCGCAGGATCCCGATCGCCGAAACTAA	MSYIPKWTIFFQAFLLCFVPVVMLMFAKWFHKSINSSFSLKPNIPSSPMREDSVSPDAPLTGLYDTDITSVRQAIGGNADVEFREFTIRGTRTRAVVVYVDGLLDSDLIDTHLIRPLMLEGVPETEHDNFNRSSDAIKAYISSQMLPVCEIKHVQQLLDLVQAVLAGTPCLLVDGMQGAFLVGSAKGKSRNIEEPLSEALLRGPRVGFTERLSDNTGLLRLHGKNESLQLTRFEVGNRVKKDLVVAYMKDIADPKLVDEVVTRIRKIEIDDPLESGYIEQLIEENVMSPFQQIQNTERPDRVIGALLEGRVAILLDGTPYALIVPVTFSMLLQSPEDYYERWISGSFVRLLRFLSALLALLAPALYISFISFHPGLIPTKLALTIIETRQGVPFPSIIEALIMEIAIEILREAGIRLPKPIGPAMGIVGGLIIGDAAVNAGIVSPFLVIVVAVTAISSFTIPVYSAGITLRVLRFTAMFFAAVLGLFGVVMFFLLLCCHLVRLKSFGVPYVSPMVPYGINDLKDFLIRFPLKVMKKRPQLLKPQDPDRRN	PGPT0025115_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310	NA	NA
AK002_06107	1110	yndE_5		Spore germination protein YndE	ATGAGCAGCTCCCGTTTACAGACCAAAGACCAAATTACCACTTCCCAGGCTGCCGTCATGATCATTAACTACATGCTGGGCGCCGGTATTCTCACGCTCCCGAGAACGACGGTAGAGGCTGCCAAAACCCCGGATGTATGGATATCCATTCTGATCTCCGGCATGATCATCATGCTGGTCGGATTCATCGTCGTGAGGCTAGCCCGCAGATTTCAGGGAAAAACCTTTTTTCAATTCGTGCCCGAAATCACCGGTAAATGGGTGGCCTTCCTGTTGAGCTTGCTGGTCATTGCGTATCTCATTACCATTTCTGCTTTTGAAATCCGGGTGATGGCGGAGGTTACGGGGCTATACCTGCTTGAGGGCACGCCCGTATGGATCATCGTGATGACGTTTATGTGGATCGGTCTGTATTTGACCACAGGGGGAATCAACTGCATCGCCAGATTGTACGAGATCATTTTGCCCATTACGCTGTTGTTCTTCATCATTGCAATTCTGCTGAGCAGCAGCATATTCGACATTAAAAATTTAAGGCCAGTGCTTGGCTCGGGCATCATGCCCGTGCTGCAAGGGATCAAACCCTCGCTGTTATCGTTCACCGGTTACGAGATCATGTTTGTTGCCATGGCATTCATGAAGTCGCCCAAGAAAGGCACCAAAGCTATGATCGTCGGCATTACGGTTCCCATGTTGATTTATTTGATCACCGTCATCATGGTCATTGGCGGGCTCTCCATTCATGGCGTACAGAAGAGAACCTGGCCCACGCTTGATTTAATGCGGAGTTTCGAGATGCAGGGCTTGATATTCGAGCGCTTTGAATCCCTGCTGCTTGTCATCTGGATCATGCAAATATTCTCGACCTTTACGGTCGCGCATTACGCGGCATCGTTAGGCCTCTCCCAGCTGATGAAGAAGAATATACGCCCCTTCCTCTTCATCATGCTGCCGGTCATCTTCCTGCTCGCCATGATCCCGAAAGATGTGTCGGAGACGTTCAAGCTGGGAGATACCGTAGGTTATATGTCGATTTATTTATTCGGAGGACTGCCACTCATCCTATTATTGATCAGCAAGGTCCGCAAGAAAGGGGGGAAGCCGAAATGA	MSSSRLQTKDQITTSQAAVMIINYMLGAGILTLPRTTVEAAKTPDVWISILISGMIIMLVGFIVVRLARRFQGKTFFQFVPEITGKWVAFLLSLLVIAYLITISAFEIRVMAEVTGLYLLEGTPVWIIVMTFMWIGLYLTTGGINCIARLYEIILPITLLFFIIAILLSSSIFDIKNLRPVLGSGIMPVLQGIKPSLLSFTGYEIMFVAMAFMKSPKKGTKAMIVGITVPMLIYLITVIMVIGGLSIHGVQKRTWPTLDLMRSFEMQGLIFERFESLLLVIWIMQIFSTFTVAHYAASLGLSQLMKKNIRPFLFIMLPVIFLLAMIPKDVSETFKLGDTVGYMSIYLFGGLPLILLLISKVRKKGGKPK	PGPT0025120_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311	NA	NA
AK002_06108	1206	gerBC_6		Spore germination protein B3	ATGAACAAATATTCCCGACATGTGTCGGTAGTAACGGCCAGCATCCTGATGCTGCTGACAACCGGCTGTTGGAGCAGCAACGAGATCGAGGATGTCAGCGTCTATGTAGGCTTAGGACTGGATGCAGCGAATGAATCCCGATTCGAACGGGAGATCAACAAACAAGGAGCGACCTACCCCAAAAGGAAAGTGCTGACGGCGACGGTCCAGATCGTACCCCCGATTACGGGAAAGAGTGAGAAACAAGGCGGATCCAGCTCGTCATTGCCAAGCAAGGCTTATCTGAATGAACAATTAACGGGGGATTCCCTCATTCAGATCTTCCGCCAATTTTCGTTGCGACGAGACCGTCCGCTGATCGGCCACCATCTGAAGGTCATCGTCGTGTCAAGCGAACTCGCCAAACGGTACAGCCTGGAACAGATCCTTGATTTTATTCTCCGGGATAATGATATTCGCCCCAGCTGCCTGGTAGTGGTGAGCCACCGGAGTGCACTTGAAGCGTTGAGCTCCACCGAACCCGGGGAGATCCCAGCTTTCTACTTGATGGGTCTTGTGGATAACCGCTATCGTTCCAACAAAATCCTTCCCCCGATGTCACTCATAAAGCTGGATAGCACCATGCAATCGGGAGAAAGCTTCCTGCTGCAAAATGTCGTTACCGCCGAAAGCGAGCATAAATTCTCGGGTGCTGCCATATTCAAAGGCAATACCAAAAAATTCATCGGGGAACTAAGCCAGTATGATCTGGAAGGCTTATCCTGGATCATGGAGGACGTGAAGGGAGGGGCACTGAAAACGTACGCTCATAAGACAGGACATACCGTTATTTATGAGCCCAAAAATTCCCACAGCACCATTATTCCCAAGGTTCAGGGAGACGAAATATCATTTCATATCAAAATTCGTTCAGAAGGCAGGTTAATCGAGGATTGGAGTTTTCCGGAGAAGCCCTCATCCGGGAAGTACATCAAGGAAATGCAGCAGGCATTTGAAGAAGAGGCCCGTAAACAAATCCAACAGGTTCTGGATAAAATGCAGCATGTCTATCATGTAGACGTAGGGGGCTTTGGCGATCAGATCCGAATCAAATATCCGAAACTATGGAAAAAAGTAGAAAAGGATTGGGACGAAACCTTTAGCCATATCCCCATTACGTATGAAGTCGACATGAAGATCACGGACTTCGGTTCCTCAACGGATTAA	MNKYSRHVSVVTASILMLLTTGCWSSNEIEDVSVYVGLGLDAANESRFEREINKQGATYPKRKVLTATVQIVPPITGKSEKQGGSSSSLPSKAYLNEQLTGDSLIQIFRQFSLRRDRPLIGHHLKVIVVSSELAKRYSLEQILDFILRDNDIRPSCLVVVSHRSALEALSSTEPGEIPAFYLMGLVDNRYRSNKILPPMSLIKLDSTMQSGESFLLQNVVTAESEHKFSGAAIFKGNTKKFIGELSQYDLEGLSWIMEDVKGGALKTYAHKTGHTVIYEPKNSHSTIIPKVQGDEISFHIKIRSEGRLIEDWSFPEKPSSGKYIKEMQQAFEEEARKQIQQVLDKMQHVYHVDVGGFGDQIRIKYPKLWKKVEKDWDETFSHIPITYEVDMKITDFGSSTD	PGPT0025125_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025125-yndF-K06312	NA	NA
AK002_06109	1416			hypothetical protein	ATGGGAATTCATTTAACCGCGATTCACTGGGTTTACCTGGCGTTTATCGTATTGATCATGACGCTGTTGATCCGGCGGCGCGATACGACGCTGGTTTGCATCACCGGTATATTTGCGCTTGGCATTCTGGCAACGGAGACGCTGAGCGGATCCGTCTCCGGTGTGTTTAACTCGTTCATCTTTGCGACCAAAGAGCTGATGGGCACGATCATGATTATTTCCATTATCGTGGCGATGAGCCGGGTCTTGATCAAGACGGGGATCAACGAGACGATGGTGGCCCCGTTAACCCGTTTTCTCCGTACTCCGGCTATGGCTTACTGGGGCATCGGCATCATCATGATGGTCACCTCTTTTTTCTTCTGGCCGTCACCGGCGGTGGCGTTAATCGGGGCGGTCCTGCTTCCCGTTGCCATCCGGGTCGGCTTGCCTGCCCTGGGAGCGGCCGTGGCGATGAATCTGTTCGGGCACGGCATCGCGCTATCGGGCGATTATATCATCCAAGGCGCGCCTAAATTGACTGCCGATGCAGCCGGATTGCCTGTATCCAGCGTCATGGCCGCGAGTGTGCCGCTCGTGATCGTGATGGGACTGGTAACGACCGTGGCGGCATTTTGGATGATGAAGAGAGATCAGCGTAATGGCAGCTGGAGGGATGGATTGGTCTCCATCAAAAGCACGGGGGACGCGCTGACCACGCGTACCGATGAGGATGATACCGTTGCCGCCATTTCGCCCGGCATGAAAAAATGGCTGGCCATTGCGATCCTGCTCCTGTTCGCGGCAGACGTCGCGGCCATGTTCATCTTGAAGCTGCAAGGCGGAGATGCGACGGCCCTGGTAGGCGGAACAGCCGTCCTGATCCTCGGCGTCATTGCGCTGGTCGCTCATCGCAACCGTGGTTTGGAGAAGGTCACCTCGTATTTGATCGAGGGCTTCATGTTCGGATTTAAGGTGTTCGGCCCCGTCATCCCCATTGCGGCTTTCTTTTATCTAGGGGATGCTGCGTTCAGCGAGCTGTTCGGTAAGGTGCTTCCGGACGCATCCCATGGGATCGTGAACGACCTGGGGGTTGCCCTTGCGAATGCGGTACCGCTGAATGGCGCGGTAGGTTCGGTGACGCTGACGATCACCGGTGCCATTACGGGTCTGGACGGTTCGGGCTTTTCCGGCATATCGCTCGCCGGCTCAATCGCGCAGCTGTTTGCTACGGCCATCGGTTCAGGGGCTGCTACCCTGACGGCGCTCGGCCAGGTTGCCGCCATCTGGGTAGGCGGCGGCACGCTCATTCCTTGGGCGTTGATCCCGGCTGCAGCCATCTGCGGAGTCAGCCCGTTTGAGCTGGCAAGACGGAATCTGAAGCCGGTGCTGCTGGGTCTTGCCGTTACCACAGTCGTTGCGATGTTTCTGGTGTAA	MGIHLTAIHWVYLAFIVLIMTLLIRRRDTTLVCITGIFALGILATETLSGSVSGVFNSFIFATKELMGTIMIISIIVAMSRVLIKTGINETMVAPLTRFLRTPAMAYWGIGIIMMVTSFFFWPSPAVALIGAVLLPVAIRVGLPALGAAVAMNLFGHGIALSGDYIIQGAPKLTADAAGLPVSSVMAASVPLVIVMGLVTTVAAFWMMKRDQRNGSWRDGLVSIKSTGDALTTRTDEDDTVAAISPGMKKWLAIAILLLFAADVAAMFILKLQGGDATALVGGTAVLILGVIALVAHRNRGLEKVTSYLIEGFMFGFKVFGPVIPIAAFFYLGDAAFSELFGKVLPDASHGIVNDLGVALANAVPLNGAVGSVTLTITGAITGLDGSGFSGISLAGSIAQLFATAIGSGAATLTALGQVAAIWVGGGTLIPWALIPAAAICGVSPFELARRNLKPVLLGLAVTTVVAMFLV				NA	NA	NA	NA	NA
AK002_06110	702	graR_4	COG0745	Response regulator protein GraR	ATGTATACCATTCTGATTGTGGAAGACGATGAACGAATCGCGGATAAACTAAGGTCGGCGATCTCCAAATATGATTTCAACGTACGGATCATCGAAGATTTCAACCGCGTGATGGACATTTTTGCGGAGACGATGCCGGATCTGGTTCTGCTGGACGTCAATCTGCCGAAATACGACGGATTCTACTGGTGCCGGCAAATCCGCACCCAATCCCACTGCCCGATCATCTTCATCTCGGCACGCGATAGCGGCATGGACCAGATCATGGCGCTCGAAAACGGGGCCGATGATTATATTACGAAGCCGTTTGACATGGAGCTTGTCCTGGCCAAAGTCCGCAGCCACCTGCGCCGCGCGGTCGGCGCCTATGCCTCCGGCCAGGAGGAGGAGCCTATCGTTGAAAGCGCCGGTCTCCTCCTGTATCCCGAGCGACTCCTCGTGACCTATGGAGACCGATCGGCCGAGTTAACCCAGAAGGAAGCTGCCCTGCTGACGATGCTCATGGAAAAATCTGGCCGCGTAGTCAGCCGCGAACGGCTCCTAGACCTCATGTGGGAAGATCAGCACTTCATTGACGACAATACGTTGAATGTTTATATAACGAGGGTTCGCCGCAAGCTTCGTGAACTCGGAGCCGGGGATCTCATCGAAACCGTCCGGGGAGCAGGCTACCGGTTCATGACAGGCAAGGAGACCCTATGA	MYTILIVEDDERIADKLRSAISKYDFNVRIIEDFNRVMDIFAETMPDLVLLDVNLPKYDGFYWCRQIRTQSHCPIIFISARDSGMDQIMALENGADDYITKPFDMELVLAKVRSHLRRAVGAYASGQEEEPIVESAGLLLYPERLLVTYGDRSAELTQKEAALLTMLMEKSGRVVSRERLLDLMWEDQHFIDDNTLNVYITRVRRKLRELGAGDLIETVRGAGYRFMTGKETL	PGPT0027850_95	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027850-yxdJ-K11634	NA	NA
AK002_06111	1008	graS_4		Sensor histidine kinase GraS	ATGAAACTTTTTTTGAGGGAGCACCTCCCGCTCATGCTGTTTTTTGCCGTTCAAATGCTGCTTGTCCCCCTGCTATACTGGCTTGCCGGTGAAGGCAGACCCTTTACTGTCGTGCTATACGGGGTACTGTTGAGCAGCGTCGTGCTGCTGGCCTATCTGGTGTACCGGTATCTCTCTCATCGCACGATGTACCAAGAGCTTTCCAGCCAGGAACTTTCGGAGGAGTTCTCCAATCCTCCTCTGGGCGATGCGCCGCTGCCGGAAGCGATCCACGAGCGGATCAGCCATTATGAACGCTTATACCGGGAACAGCTGCATCGGCATCAAAGCGGAACCGACCAGCATCTGGCCTTCGTCAACCGCTGGGTTCATCAGATGAAGACCCCGCTGTCGGTGATTCAATTAACGCTCGATGAAGTCGAAGAAGCACCCGCCGAACATATACGGGAAGAGCTTGAACGAATACGCAAAGGTCTCGAAATGGTGCTGTATACCGCACGCCTGGACCGGTTCGAGCAGGACTTTGCGGTAGAAGCCGTCGGACTCCGTGCCGCGGTCAGCGAATCCGTCGTGGAGAGCCGAAAGCTGTTCATTCGCAAAGGGATTACACCGGTGTTTCACATCGATGATCGGATCTCCGTCTACACGGATGCCAAATGGTTTCGATTTATGCTGGGTCAAATTCTGACAAACGCCGTGAACTACTCCGGCAGCCCCGGCAAGAAGATTCAATTCACTGCAGAAGAAGCAGGGAAACACATCAAGCTTCGTATCCGCGATGAGGGGATCGGCATTGCACCGGAGGACATCAACCGGGTATTCCATCCTTACTTCACCGGCGAGCGCGGCCGGCAATATCATGAATCCACCGGCATGGGCCTGTATCTAGTCCGTGAAATCGCCCATAAGCTTGACCATTCCGTCGAACTGGAATCCACGCTCGGTGAGGGAACGACCGTTACCTTAACGCTGCGTACTGCAGCAATCCAAGGCACATCTTATTCGTAG	MKLFLREHLPLMLFFAVQMLLVPLLYWLAGEGRPFTVVLYGVLLSSVVLLAYLVYRYLSHRTMYQELSSQELSEEFSNPPLGDAPLPEAIHERISHYERLYREQLHRHQSGTDQHLAFVNRWVHQMKTPLSVIQLTLDEVEEAPAEHIREELERIRKGLEMVLYTARLDRFEQDFAVEAVGLRAAVSESVVESRKLFIRKGITPVFHIDDRISVYTDAKWFRFMLGQILTNAVNYSGSPGKKIQFTAEEAGKHIKLRIRDEGIGIAPEDINRVFHPYFTGERGRQYHESTGMGLYLVREIAHKLDHSVELESTLGEGTTVTLTLRTAAIQGTSYS	PGPT0027855_79	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027855-yxdK-K11633	NA	NA
AK002_06112	771	yxdL_5	COG1136	ABC transporter ATP-binding protein YxdL	ATGGATATTCTTGAAGTAAAGGCTTTAAACAAAGTATATGCGGGCAAAGTGGCGACACAAGCTCTTACCGATATTCATCTCACGATCAAAGAAGGAGAATTCGTCGGCATCATGGGGCCGTCCGGCAGCGGCAAAACCACCCTGCTGAACATGGTATCCACTATCGACCGTCCAAGCTCGGGCGAGGTCAAGATCGGGGGCAGCAATCCTTACCAAATGAAAAAAAGCGAGCTCGCCCACTTCCGCCGGAGGCAGCTCGGCTTTGTATTCCAGGATTTCAATCTGCTCGACACGCTAACGGTTGCCGAGAATATCGTGCTCCCGCTTACGCTGGACCGCCGTCCGCTCAAGGACATGGAATCGCTGCTGCAGCAAACCGCTTCGCCGCTTGGCATTCGCGAAATTCTGAATAAACGCGTGTACGAAATTTCGGGGGGACAAAGGCAGCGCACCGCGATTGCCCGGGCGATCATCGGCTCGCCCCTGTTGCTGCTTGCGGATGAGCCTACGGGAGCGCTCGATTCCAACTCCTCTCGGATCGTGATGGAGTCGCTCTCCGAGATCAATGAGCGGGATCGTACCACTTTAATGCTGGTTACGCATGATCCCCTGGCCGCAAGCTATTGCAACCGCATCGTTTTTATTAAAGACGGCAAGCTTGCCGCCGAGATTCACCGCGGAGAGAACCGGCAGGCCTTTTTTCAAAAAATCATCGATACGCTATCGTTCTGGGGAGGGAATACAAGTGAGCTTTCCTCAATTCGCGTTTAA	MDILEVKALNKVYAGKVATQALTDIHLTIKEGEFVGIMGPSGSGKTTLLNMVSTIDRPSSGEVKIGGSNPYQMKKSELAHFRRRQLGFVFQDFNLLDTLTVAENIVLPLTLDRRPLKDMESLLQQTASPLGIREILNKRVYEISGGQRQRTAIARAIIGSPLLLLADEPTGALDSNSSRIVMESLSEINERDRTTLMLVTHDPLAASYCNRIVFIKDGKLAAEIHRGENRQAFFQKIIDTLSFWGGNTSELSSIRV	PGPT0013345_2533	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_06113	1932	yxdM_3		ABC transporter permease protein YxdM	GTGAGCTTTCCTCAATTCGCGTTTAATAACGTCCGGCGGAATGCTCGCCAATACTTCGCTTACCTGCTGAGCAGCTCATTCATGGTCATGATTTTCTTTACGTACGCGGTATTCATCTACCATCCGGCCATCGAGAATTCGCCCATGGGCGCGATGACGCGTACGGGAATGACAATTGCCACGGTGATCGTCTATGTGTTTGCCTTCTTGTTCGTGCTGTATTCGATCAGCGTATTCCTGAAGTCGAGAAATCGGGAATTCGGCATTCTGACGATTCTGGGAGCGGAAGCCAAGCAGATCAATTGGCTGATTTTCCTGGAGAACATTCTGATTGGCGCCATTGCCATCGTAACGGGCATCGCCAGCGGAATGCTGTTATCCAAGGTGTTCCTGCTCATCAGCACCAAGGTGATCGATATGGACGAGCTGCCGTTCTATTGGCCCGTCAAAGCGATGCTGCTGACCGCAGGTGCGTTCGCTGCGCTGTTTCTCGTCATTTCGCTTTTTACCTTATTATTTATCCGGAAGAATCAAGTTCTGGAGCTTCTCAAAGGCACCAGCAAGCCGAAAACCGAACCGAAAGCCAATCTGTTCCTGGCCCTCTTAGGCGTGGTGCTGCTTACCATCGGCTTTACCGTCCTTCGTGTTAAAGCGTTAGACCCTGCGGGATTGATAATTGCTGCGGCAACCGGAATTATGGGCACGTATTTCTTCTACTCCCAGCTATCCGTGTGGATTGTCCGCATGCTGCAGCGAAGTCGCAGGACCACCTGGAAAGGAACAAACCTGCTGTGGATTTCCGAGATGAGTTACAAGATTAAGGATAATGCCCGCATGCTGTTTCTGGTCACGGTTGTGGTAGCACTGGCTTCCATGAGCACCGGTTTCGTACTGGCCATGCAGAAATCGATCAAATCGGTATATTTGGATAACCCGTACGCGCTTAGCTACAGCTACTATAACAATGACGACGAGACTAAGGTGCAGGAAGAATTGGCCCTGATTGAAAATCGTCTGCAGACAGAAGGGCTGGAGTATAAACGGGCGGAGGTCGGAACCATCTACTATCGCTTGTCAGCGAATGGGGAGGACTCCTTACACATCATGCCGCAATCCCAATACGACCGTTTGGCTGCTATGTTGAATACTGAGCCGGCCGGGACACTCGGCAAGAATGAAGCCTTATTGGCGGAAACCCCGAATGCAGCGAAGAAGAGTAAAGGGAAGCAAACCGAAGCAGATATCGAACTATCCGGCCAGCCCTACTCCTTCATCTTGGAGAATCGCACAGACCGGATTGCGGCTTTGGTATATAGCGGCAGATTGCTGGTCGTTACGGACACCATGTTTGAAGAGCTGAGGGGCGGGAACAAAGAAAATGAAATCAGTGTGAGTCATACGTATCCGTTTATTCTTCCCGATTTCCAAGGACTCCCCGAGAAGGATGATCCCGAAACCAAGCTCGGCCTTGAGCTGTCGGAGTGGAACGGAAGTGCAATCAGAGAAGGTTATATAGAATCCAGGGCGGAGAACTATTACGTCAATAAACAGGGATTTTCGTTATTCAGCTTTATCGGGGTGTTTGTCGCACTGATCTTCTCGATCTCAACCGCAAGCTTCCTGTATTTCAAACTGCATACGGAGCTTTCGGCCGATCAGGCGATGTACCGTTCCCTGTCCAAGATCGGACTCAGCGTGCGCGAGATGAACATCTCCGCAACCATTCAGATTGCCGTGCTGTTCTTTATTCCCATCCTGGTTGCAGCCCTGCAGTCATTGGTCGTGCTCGACCCGATTCTAGGCTACCTGGATGTGCCGAATGTAAACGGACCTGTAATGGCAGCCTCATCGGCATTCTTAGCCGCCCAAATGATATATTTCCTGATCGCCAGAGCCCGTTATATTAAATCCGTGAACAGGATGATGGTGTGA	MSFPQFAFNNVRRNARQYFAYLLSSSFMVMIFFTYAVFIYHPAIENSPMGAMTRTGMTIATVIVYVFAFLFVLYSISVFLKSRNREFGILTILGAEAKQINWLIFLENILIGAIAIVTGIASGMLLSKVFLLISTKVIDMDELPFYWPVKAMLLTAGAFAALFLVISLFTLLFIRKNQVLELLKGTSKPKTEPKANLFLALLGVVLLTIGFTVLRVKALDPAGLIIAAATGIMGTYFFYSQLSVWIVRMLQRSRRTTWKGTNLLWISEMSYKIKDNARMLFLVTVVVALASMSTGFVLAMQKSIKSVYLDNPYALSYSYYNNDDETKVQEELALIENRLQTEGLEYKRAEVGTIYYRLSANGEDSLHIMPQSQYDRLAAMLNTEPAGTLGKNEALLAETPNAAKKSKGKQTEADIELSGQPYSFILENRTDRIAALVYSGRLLVVTDTMFEELRGGNKENEISVSHTYPFILPDFQGLPEKDDPETKLGLELSEWNGSAIREGYIESRAENYYVNKQGFSLFSFIGVFVALIFSISTASFLYFKLHTELSADQAMYRSLSKIGLSVREMNISATIQIAVLFFIPILVAALQSLVVLDPILGYLDVPNVNGPVMAASSAFLAAQMIYFLIARARYIKSVNRMMV	PGPT0027860_219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL_PEPTIDES,PGPT0027860-yxdL-K11636	NA	NA
AK002_06114	1095			hypothetical protein	GTGATCATGCATGCAGGACAACACGACGCCGCGACTCGGCATCGCCCTGCGCTTGAAAAGACACGCTTGCACTTTTTGGACCAATTCAGGGGGTTTGCCCTCCTTGGACTGCCGTTTGTCAACGTGTTGGGACTCTGGCTCATCCACGCACCCGAAACGGCAGCTGATTATTGGCTCCAGCGAGGACTTAACTTTTTTGTGGAAGCCCGATTTTATACCATCTTCACGTTCCTGTTCGGACTTGGATTCTACATGTTTCTATCACGAAGCGCTGCAACGGGTGGAAAGCCAAGACTTCGGCTGTATATTCGCCGGTTAGCGATTCTGGTGCTGATCGGCCTCATCCATCAGCAGTATCAATCGGGTGAAGCATTATTCTATTATGCGGTTGTTGGCCTGCTTGCGGTTCCTCTCTACTGGGCTCCGCGGAGGGTTAACCTTCTCATCGGATCGGCGGGGTTTGTTCTGGCGGCCGTTATGGGCGTCAAACTCCTCACCATCCCTTTCCTGATCGTGTTTGGTCTAGCTGCAGGCCAATATCGATTAATAGATGCGATCAACAAGGGATTAAGCTTACGCTCGTTGCGCATGATTTGGATACCGTCTCTGTTAGGAACGATTTTGGCCATCGGCGTCATGTGGCGGGTAGCGCCTTCCGAGCCGATGCCATCGTTTCTGTTCGAGGTAGCAGGCGAGTCGCCGTCACCAACCATGGAAGCCGCCTTCACTCTGGCACATATCGGGGTGGCGACAGGCCCTCTCGTATCCGTATTTTATCTAAGCTCTCTCTTAATGCTCGGGCGTACCCGCGTAGGTGCGAAGATGCTGCATCCGTTACAGGCATACGGACGCATGGCGCTTACCAACTACATTGGGCAAACCGTCATTCTGGTAGGCATTCAGCGCTTCATGCTGAACACCACACCGACGACTTATGTCGTGTCCACGTTCGTTTCCCTGGGAATTGTGTTCTTCCAGATCATAACCAGCCATCTGTGGATGCGTTGGTTCCAATACGGCCCTTTGGAATGGTTGTGGCGATGCGGCACCTATTGGACCCTCGTGCCGATTCGCAAACAAACAGGAGACCTTTAG	MIMHAGQHDAATRHRPALEKTRLHFLDQFRGFALLGLPFVNVLGLWLIHAPETAADYWLQRGLNFFVEARFYTIFTFLFGLGFYMFLSRSAATGGKPRLRLYIRRLAILVLIGLIHQQYQSGEALFYYAVVGLLAVPLYWAPRRVNLLIGSAGFVLAAVMGVKLLTIPFLIVFGLAAGQYRLIDAINKGLSLRSLRMIWIPSLLGTILAIGVMWRVAPSEPMPSFLFEVAGESPSPTMEAAFTLAHIGVATGPLVSVFYLSSLLMLGRTRVGAKMLHPLQAYGRMALTNYIGQTVILVGIQRFMLNTTPTTYVVSTFVSLGIVFFQIITSHLWMRWFQYGPLEWLWRCGTYWTLVPIRKQTGDL				NA	NA	NA	NA	NA
AK002_06115	1353	lysN_3	COG1167	2-aminoadipate transaminase	ATGGACACGAAGCACGAACAAATTGTTGCCCATATGATCCGTGAAGTGGAGAGGGGGCATATCCGATCAGGTCATAAGCTGCCATCGGTCAGAGCCTTGGCCAAAATGTTCTCCTGCAGTCCCAATACGGTCGTTCGTGCGTATCAGACCTTGGAGCGCGATGATGTCATCTACCCGGTGCCCAAGAGCGGTTACTATCTCGTGGAGGGGAAGGGCCCCGCCTCTGCGCGGACGGAAAGCGAGCCGATTGATTTCGCCTCAACGACGCCCCGGGGCGATTTTTTGCCGTTTCAGGAGATGGAGCACTGCCTGCGTAAGGCGATTTCCTTATACAAGGAGGAGCTGTTCGGTTACACCGATCCACAGGGGATCTTTTCGTTAAGGAACGAGCTGAGCAGGTATTTCCACGCACAGCAAATGTTTGCTAAACCTGATCAAATCGCTGTGGTGACCGGGGCTCAGCAGGCCTTCTCGATCCTGACGCGCATGCCTTTCCCGGGTGAGGGACGGGTGGTCCTGGTGGAGCAGCCGACGTATTTCGGTTTCTTGGCGGCGGCGCGCGTTGCAGGCTGCCCGGTGATCGGCATCCATCGGGATGAGCATGGCATCGACCTGGAGGTGCTGGAGTCTTATTTTCGCAGCGGACAGATTAAGCTGTTCTACACGGTGCCGCGATTCCTCAACCCGTTAGGCACCTCGTATTCGCTGGAGCAGAAGAGGCGTATCGCGGATCTCGCCCGGCAGTATGATGTCTATATCGTGGAGGACGATTATCTGGCGGACCTGGAGGTGGATTCGAAGGCGGACCCGTTGTACGCACTGGCTCAGTCGGACCATGTCATCTATGTCAAAAGCTTCTCGAAGACGATCCTGCCAGGCATTCGAATGGGCGCCGTCCTTCTTCCGGATCGGCTGTTGGATCCATTTATTAGGCATAAAAACGCCGCGGACATATCGTCGCCGATCCTCTCCCAAGGCGCGCTTGAACTTTATATCAAGAGCGGCATGTACAAGCGCCATGCAGCCCGCATCCGGGAGCATTACCGGGAGAAGATGCGCTATGCCATCGAGGTATGTGCCCGTGTCTTCGGCAGCGGCATTCACTATACGTGCCCCTCCTCCGGCGTGTTCATCACCATCCGGCTGCCCCAGTATGTAAAGGCATCCGCACTTCAGGATCGCTTGCTGCAGAGAGGTATCTCGGTTACGAACGTGGATCAACATCTGCTGCCTGAGAATCAGCGCAATGACCGGATTCGGTTATGTATCATCGGGGTGGAGAAACCCCGGATCGAGGCGGGTATGATTGTGATCGAGGAGGAAATACGGCGTTTAGAGCGGCGGATGAGGTAG	MDTKHEQIVAHMIREVERGHIRSGHKLPSVRALAKMFSCSPNTVVRAYQTLERDDVIYPVPKSGYYLVEGKGPASARTESEPIDFASTTPRGDFLPFQEMEHCLRKAISLYKEELFGYTDPQGIFSLRNELSRYFHAQQMFAKPDQIAVVTGAQQAFSILTRMPFPGEGRVVLVEQPTYFGFLAAARVAGCPVIGIHRDEHGIDLEVLESYFRSGQIKLFYTVPRFLNPLGTSYSLEQKRRIADLARQYDVYIVEDDYLADLEVDSKADPLYALAQSDHVIYVKSFSKTILPGIRMGAVLLPDRLLDPFIRHKNAADISSPILSQGALELYIKSGMYKRHAARIREHYREKMRYAIEVCARVFGSGIHYTCPSSGVFITIRLPQYVKASALQDRLLQRGISVTNVDQHLLPENQRNDRIRLCIIGVEKPRIEAGMIVIEEEIRRLERRMR				NA	NA	NA	NA	NA
AK002_06116	1257			hypothetical protein	ATGAAAAGAGACCGGGGTTATGCATGGGTCATTCTCATATTTCTATGGATGCTAGGGTTTGCGGCGGCCATCAGCCGGTTTGTCATGTCTTATTACCAGCACGAAATGGCAAGGGATTTAAGCGTCGACCTCACCTTTATCAGCTTCACCTGGTCCGTTAACATTGCCGTTGCCGCCATCTGTTCTCCGCTCGGCGGATGGTTGACCGATCGATACGGTCCCAAAAAAATGATGCTCCTGAATGCCCTGTTTGGCGTGATGTCCATGATGACCGTGCTTACGTTTCGTCATCCGGCGGGATTCTTCCTGGGGCTCGGGCTGCTCTCCGGCCTCTCCGGCATGGCTGCAAGTACAGGTTATGTCGTGGTCACAAGCTGGTTCAGCCGCCATAAAGCGAAGGCACTCATGATCATGACCAGCGCAAGCTCGCTCGGCCTGGCCATACTGACGCCTCTATTTGTCAGCAACCGGGACTGGCTCGATTGGACAACGGCATTCACTTTCACCTTATGGATCACGCTTGTATCCATACCGCTCACCTTGCTTATCATGAAAGAACGAAAGCGCGAAGAGCACGAAGCCGGCCCCTCCGCTGCTGAATCGCCCCCATCGGCTGGGAGGCCACGGATCCTTCCGATCGCCAAGGAGATGGTAACCAGCCGCACCGTACTTCTGGTGGTCTTCGCTTTGTTCACATGCGGCTTCGGCATGGGAACGGTTGAAATGCACCTGATGGCCATCCATCGCCATCATCAGATCAGTCCGGTAATGTTCACGTCCTCACTGAGTATTCTCGGTTTGCTTGAGCTGACAGGCGGACTGCTGTTTGCCTTCCTCCTGGACCGGATGTCGAGGAGTTTGGCCTTGTCCTTCCTGTACGTATTTCGAATCGTGGCCTTTATGGTGCTGTATCTGCACTTCAGCGCCTCTCCGATCCTCTTCTCGATCATCTTCGGAGCCAGCTATTTAGGAGCCATTCCTGGCGGTATTCTGGTAGCCGGCGAGGCCATGGGCCATCGCTCCGTTGGATTGCAGGCCGGAACGCTGCTTATTTTCCATCAGGCGGGCGCCGTTCTCGGCTCCTTCTCCGGCGGATTCCTGTATGACCTTACGAACAGCTACCAAGCGCTGATCGGGATCAACCTGATATTCAGCGCTCTGTCGGCCATGGGCTATTACCGGATTCATCGTGCGTCGAATCGAAGGCGTTCCGTTCCAGGTCAGCCGGGCGGCGCCAGCTTAAAAAAATCACTATAG	MKRDRGYAWVILIFLWMLGFAAAISRFVMSYYQHEMARDLSVDLTFISFTWSVNIAVAAICSPLGGWLTDRYGPKKMMLLNALFGVMSMMTVLTFRHPAGFFLGLGLLSGLSGMAASTGYVVVTSWFSRHKAKALMIMTSASSLGLAILTPLFVSNRDWLDWTTAFTFTLWITLVSIPLTLLIMKERKREEHEAGPSAAESPPSAGRPRILPIAKEMVTSRTVLLVVFALFTCGFGMGTVEMHLMAIHRHHQISPVMFTSSLSILGLLELTGGLLFAFLLDRMSRSLALSFLYVFRIVAFMVLYLHFSASPILFSIIFGASYLGAIPGGILVAGEAMGHRSVGLQAGTLLIFHQAGAVLGSFSGGFLYDLTNSYQALIGINLIFSALSAMGYYRIHRASNRRRSVPGQPGGASLKKSL				NA	NA	NA	NA	NA
AK002_06117	606	inhA		Isonitrile hydratase	ATGAAAATGGCTTTCATTCTATTCCATGGCATGACGGCCCTGGACCTGATCGGCTTCACCGAAGTCATGACCCGGCTTGCCCGCATCCGTCCCGAAGCGGATATATCCTGGGATTATTGCGCGCTGAGCACGCAAATTACCGATGATCGCGGATTGGCGTATGTCGTATCCCGGGTCAAACCGGATCTTTCGGAATACGATCTGGTCTTCGTGCCTGGCGGCTTTACCACGAGGGAGCTGAGGTACGACCCCGATGTGCTGACTTGGCTGCAGACCGCCCGGGAAGCCAAACATCTCGTATCCGTCTGCACCGGATCGCTGCTTCTGGGCGCGGCCGGCTTGCTGGAGGGCAAGCGTGCTACCACCAACGCTTCGGCTTACGAGCTGTTGACACCCTACTGCAAGGAAGTTGTTCAAGCACGCATTGTACAGGACGGCCGTCTCTTTACAGGCAGCGGAGTGTCATCGTCCATTGATCTCGGCTTATATCTGCTCGAAAGGCTAACCGATGCAGCGACGGCGGAACGGGTCCAGACGGATATGAGCTACCCCTATTACCGGGCGGGAACCTCATCCGCCCTATATCATGCGAAGACAGGCATGTGA	MKMAFILFHGMTALDLIGFTEVMTRLARIRPEADISWDYCALSTQITDDRGLAYVVSRVKPDLSEYDLVFVPGGFTTRELRYDPDVLTWLQTAREAKHLVSVCTGSLLLGAAGLLEGKRATTNASAYELLTPYCKEVVQARIVQDGRLFTGSGVSSSIDLGLYLLERLTDAATAERVQTDMSYPYYRAGTSSALYHAKTGM				NA	NA	NA	NA	NA
AK002_06118	807			hypothetical protein	TTGAAGAAGGGTGCGCTGATTGGAAAAGGCAGGAGTGCAGAGGTCTATGAATGGGGAGAGTCTCAGGCACTAAAGCTGTATTATGAAGGGTATCGCCCGGAATGGGTGACGTATGAGGCGGAGATAGGCCGCATCGTTGCGGAAGCGGGGGTTCCCGCCCCTTCCGTCTTTGACATGGTGGATATTGAAGGACGTACGGGGCTGGTGTATGAGCGGATTGCGGGCCCTTCGATGCTGCGTCAGGTTAAATCGGCACCGTTTCAGCTAACGAAGCGCGCCCGGGATATGGCGCAGCTCCATCATGCGACGCACAGCTGCACGACCAGCCTGCTGCCGCCGCAAAAAGAAAAGCTGGAACACGCCATTCTTGATGCAAGCGGCATCCTGCAGGAAAAAGCGCAGGCCATATGCAAGGTGCTGGATTCATTTCCGGAAGGCGATTCCATCTGCCATGGCGACTTTCACCCGGACAATGTGATCGTCGCGGAGAACGGATGCCGGGCGATTGACTGGAACAACGCCCATGTAGGTAACCCGCTATGCGACGTCGCCAGGACATCGCTCATGTTCCAATCGCCGTTTAACCCGGACGATCAGCCGGGCATCCTGGTGCTTCCGCTTCGGATGGCCCGCATGCTGTGGAATAAAGTATACCTGAACGAGTACTGCCGATTATCCCGTGCGAAGCTGGAGGATATCGACCGGTGGATGCTGCCCGTAGCGGCGGCCAGGCTGAGAGAGGATGTTCCCGGGGAAAGAGATTGGCTGCTCGGGTTGATTGATGACCGGCTCCGTGCTTATGCGTAA	MKKGALIGKGRSAEVYEWGESQALKLYYEGYRPEWVTYEAEIGRIVAEAGVPAPSVFDMVDIEGRTGLVYERIAGPSMLRQVKSAPFQLTKRARDMAQLHHATHSCTTSLLPPQKEKLEHAILDASGILQEKAQAICKVLDSFPEGDSICHGDFHPDNVIVAENGCRAIDWNNAHVGNPLCDVARTSLMFQSPFNPDDQPGILVLPLRMARMLWNKVYLNEYCRLSRAKLEDIDRWMLPVAAARLREDVPGERDWLLGLIDDRLRAYA				NA	NA	NA	NA	NA
AK002_06119	456			hypothetical protein	ATGAACGGAACGCACGAGGATCGCCAGGCGATCCTAAGATTATTCGATTCGCTGTCCAAGGCGTGGGGAGAAGGGAATGGCCGGGCTTATGCGGAATGCTTTACCGATGATGCGGATTACGTGACGTTTAGCGGACAGCACCTGAAGGGCCGCCAAGAGATCGATGAGGTTCATCAGAAGCTGTGGGACGGGGTGCTCCGCGACTCCACACTGGTAGCGGGACCGACCCCGACGCAGCTGCGTTTCCTGACCCCGGAGCTTGCGATAGCCCAGGCTACGGGAGCGGTGCAGCTCAGATTCCATAAGAAGCCGCCCACCGGCCGCTATTCCATTAATACCAACGTGCTGGTCAAAGTGAACGGGGAATGGAAGATATCGGCGTTTCATAACTGCAGGATTCAGAAGCCAGGCTGGATTCAGCGGATGATGATGCGTTCGAATTCAAAATCCAGCTGA	MNGTHEDRQAILRLFDSLSKAWGEGNGRAYAECFTDDADYVTFSGQHLKGRQEIDEVHQKLWDGVLRDSTLVAGPTPTQLRFLTPELAIAQATGAVQLRFHKKPPTGRYSINTNVLVKVNGEWKISAFHNCRIQKPGWIQRMMMRSNSKSS				NA	NA	NA	NA	NA
AK002_06120	831			hypothetical protein	ATGATGAAGATCAGCGTTTTTGCCAAGGTCAGCGGCCTTTCCATCAAAACATTGCGTTATTATGATGAGCTGGGCCTGTTAAGTCCGGCCCATGTTGATGAGCAAAGCGGATACCGTTACTATTCCGAGGAGCAGCTTCTGACCGTCAAGCGGATTGCCGCCTACAAGGAACAGGGGTTTACCTTGGAACAGCTCAAGCCTTTTTTTGCAGAGGATATAGGAACCGATGTCGTAAAGAACAAACTTGCGGATAAAATGACGGAGCTGCGACATGCGATGCAGACCCTCCAGCTGCAGCTGGATGAGGTGAACAGCAGAATGTCGCGCTTGGAGCCATCGGAAGCCGGTGATCCGGCAGGCTTCATCCGTATCCGGGAAGTCCCCTCCCAGCTCGCCGCTTCGATTCGCGACCAAGTCCCCCGCAGCCAGCTATGTCTCTTGCTTGATGAGATTACGAAATATGCGACCTCTTATGGAGAAGAGGAAGCTAGCCAGTTAACCATCCTTTGGCATGATCACGGCAGCGAGAATGCCGACATCGCCGACATCGAAGTCGCAATCCCCATAACCAGGGACATACCTGTTAATGGCCGTGTTCGTGTGGACTACCTGCCGATGCTTCAATCCGCCGCATCTCTTGTGCATCGTTGTGATCCGTACGGTTATAGCTGTCCTGTTGCACCCAAGCTCAAAGCATGGATTTCGTCCCAAGGCCTCGTTCAATCGGACCAGGAGCCGATCCGCGAAATCTATCTCACCTCGGATAAAGATATCTATGGCAAGAAGCGCCCCGCGGAATTGCTTATCCCCTTACAAGGTAACGCGTTGTAA	MMKISVFAKVSGLSIKTLRYYDELGLLSPAHVDEQSGYRYYSEEQLLTVKRIAAYKEQGFTLEQLKPFFAEDIGTDVVKNKLADKMTELRHAMQTLQLQLDEVNSRMSRLEPSEAGDPAGFIRIREVPSQLAASIRDQVPRSQLCLLLDEITKYATSYGEEEASQLTILWHDHGSENADIADIEVAIPITRDIPVNGRVRVDYLPMLQSAASLVHRCDPYGYSCPVAPKLKAWISSQGLVQSDQEPIREIYLTSDKDIYGKKRPAELLIPLQGNAL				NA	NA	NA	NA	NA
AK002_06121	765	fabG_13		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAACGATTGGAAAACAAAGTTGCATTGGTTACAGGCGGAAGCCGAGGAATCGGTAAAGGAATCGCGCTTCGGTTGGCGGAAGAAGGGGCACTGGTCGTTGTTCATTACGGAAACCGCCGGGATGCTGCGGATGAGGTTGTGCAGACCATACAGGTTCAAGGCGGGCAAGCTATCGCCTTAGGTGCTGGGCTGGAATCGGTACATGGAGCAAAGGGGCTTATTCATTCGCTGAAGGAGGAGCTGCTGCGTGTAACGGGGGACCAGCATTTTGATATTCTGGTGAATAACGCAGGCATCGGAACCTCAAAGACCTTTGAAGAGACGACCGAGGAGAGCTTCGACGAGCTGCTTGCCGTTAATGTAAAAGCACCGTTCTTCCTGGTCCAACAGGCTCTGCCGCTCCTGCGTAACGGCGGGCGCATCGTCAACATCTCCTCCGGTGTGACGCGTATCGCCTATCCGCATATTATGGCTTACAACATCACCAAGGGAGCCATCAATACGTTCACCTTGCACCTCGCCAAGCTGCTGGGTCCACGCGGGATCACGGTGAATGCGGTTCTTCCGGGCATCGTGGATACGGACGTGAATGCTGCATGGCTTCATACTCCGGAAGGGCAGCAGCATGCCGCAGAGATGTCCGCGCTTGGCCGAATCGGTCAGCCGTCGGATATTGCGGACGTCGTAGCGTTTCTGTTATCAAGTGACGGGCGCTGGGTCACGGGACAGATGGTCGATGCAACCGGCGGCTCTCATCTGTAA	MKRLENKVALVTGGSRGIGKGIALRLAEEGALVVVHYGNRRDAADEVVQTIQVQGGQAIALGAGLESVHGAKGLIHSLKEELLRVTGDQHFDILVNNAGIGTSKTFEETTEESFDELLAVNVKAPFFLVQQALPLLRNGGRIVNISSGVTRIAYPHIMAYNITKGAINTFTLHLAKLLGPRGITVNAVLPGIVDTDVNAAWLHTPEGQQHAAEMSALGRIGQPSDIADVVAFLLSSDGRWVTGQMVDATGGSHL	PGPT0003180_8318	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
AK002_06122	1575			hypothetical protein	GTGATCCAGTGGATTGAGGAAGCCCGGAAGGGCAGTGCCGAGGCTCAGGAAAGCTTGGTCCGGCATTTTACCGGCATGGCGCTGGCCGTGGCCTACGATAAGCTGCGGGACTCCCATTTGGCGGAGGACGCCGTGCAGGAGGCCTTTACGGAGGCCTTTGCGAATCTGCATAAGCTGCAGGATTCCCGGCGTTTTCCCGGATGGTTCAAAGTGATCGTGGAGCGGCAGTGTTACAGAGACTTGCGCCGCAAGCAATTGCAGACGTTACCGCTGCATGAGGTTGAGCTGCCGGCTGGAGAACAGCGTAGCTTGGAGGCGGTTGTGGAAAAGAGAGAGATGGTACGCCAGCTGCATGCCACGGTCGCCGACCTGCCACCCGGCATGCGGATAGCCGTGCAGCTTTATTATTTTCAAGGCTACAGCCTGCGGGAGATCTCGCAATATTTGGACGTTTCTTTGCCGGCTTTGAAGAAGCGACTCTTTGATGCCCGGCGGAAGCTGAAGAACGCGCTTCACGTAGCCGACTTTGTATCGGTGTTCACCGATCTGTATGAGGGAGGAAAACGCATGCTGCATATCGTTAACGGGGATTCGGTAGGGGATAAGCTGAAGCAAGGAAACATTCAAGGAGATATTCTGGTGTGGAGGGAGCTTTATTCGTTTGGTCCGGTCTATACGAAGATGGACGAGCCGGATCATCGGAGAACAAGAGCTCAGTATTTGGAGCAAACGCTGGGGATTCCGCAGAAGGAATATATCGGGACCTGCGAGTCGCAGGAGAGGAAGCTCCAGGATTTTCGAATATATGACGAAGTAGTGCTCTGGTTTGAGCATGATCTGTTTGACCAGACCATGCTGGCCTACTTGCTGCATTGGTTTAAGGAACAGTCACTGGGAAATACGAAGCTGAGTCTGCTGTGCATTGGCGCATACCCGGGCATCGAGCTTTTTCGCGGGCTGGGGCAGCTTAGCACGGAGCAGCTCGAGACTTTGTCGGGCACATGGCACGCGATTGGAGAAGAAGAGCTTATGCTGGGCAGCATGCTGTGGGAAGCCTATACCTCGGATCGGCCGGAGAAGCATCAGCGCATGCTGGAGTTGGATTCCTCGGCACTGCCTTTTGCGAGGGATGCGTTCGAGGCCCATCTGGCACGGCTGCCCTCTGTGAGCCATGGACTCGGGAATATCGAGCAGACGACGTTAGAAGCTGTAGCTGGCGGAATTCATACGCCTTATGAGTTATTTCGCACGGTAGGTGACCGGCTTCATACACTCGGAATGGGAGATCTGGAATTCTGGCACTATTTAAAGAAGATGACGGAGGGGCCGGATTCCTTGCTGGTTATCGATGGTACAGCGTCGTTTCCGGACTTCAAACTGGCTGTACCCCATTTTCAAGAGCGGGTGCTGCAAGTGACGAGTTTGGGGCATGAGGTGCTAGCGGGTAAGACCGACTATGCCTGCACCGGAACGATCGATAAATGGGTAGGAGGCTTGCAGGTAAGGGGGAAGGATCCGTTATGGCGCTGGAACCCGGAGGGGAAGACGGTTGTGCGGATAGCTGAAGCCGATTAA	MIQWIEEARKGSAEAQESLVRHFTGMALAVAYDKLRDSHLAEDAVQEAFTEAFANLHKLQDSRRFPGWFKVIVERQCYRDLRRKQLQTLPLHEVELPAGEQRSLEAVVEKREMVRQLHATVADLPPGMRIAVQLYYFQGYSLREISQYLDVSLPALKKRLFDARRKLKNALHVADFVSVFTDLYEGGKRMLHIVNGDSVGDKLKQGNIQGDILVWRELYSFGPVYTKMDEPDHRRTRAQYLEQTLGIPQKEYIGTCESQERKLQDFRIYDEVVLWFEHDLFDQTMLAYLLHWFKEQSLGNTKLSLLCIGAYPGIELFRGLGQLSTEQLETLSGTWHAIGEEELMLGSMLWEAYTSDRPEKHQRMLELDSSALPFARDAFEAHLARLPSVSHGLGNIEQTTLEAVAGGIHTPYELFRTVGDRLHTLGMGDLEFWHYLKKMTEGPDSLLVIDGTASFPDFKLAVPHFQERVLQVTSLGHEVLAGKTDYACTGTIDKWVGGLQVRGKDPLWRWNPEGKTVVRIAEAD				NA	NA	NA	NA	NA
AK002_06123	972			hypothetical protein	ATGAGCGATAAGGACAGAGCGATTCTTGGGGACGGATTATCCATACTGTCGCAGTGCAGAATGCTAACAGGGGATATTTGGCAGGCCCATTACGGAGCGGCCGCGATCGCGGGTTATTTTTTTGTCAAGGCAAACCATTTGCCCGGGAAGGTCGAGAAGGCCGTCGAGGCGGAGAACCAGAGGATGATCGCCAAGTATTTGCAGACGGGAACGGTGACAGGGGAAAGCGTGAGTGTGGAAAGTGCCGAATCAAGGATTCTTGCGGCCCTTGACGATACGATTGATGGGCTGCACTGGGTCGGGCACAATGTGATCTATGCTGCAATAAGCCTGGCTGCACTCCACGAGCTTGGAGGCGGTCTACGGCATGAAGCAGCCGATATCGCGGAATTAATTAGCTCTTTCGCGAAGACGATTCCGGGAAGGTCCTGGATCGGATATTCTGCAGCCGAGGTCAAACGGTTGACCCTGGATGAACTTGACGGAATATATGAAATAACGGACGGCAATCAGCTGTCAAATTTTATTTTGAATGAACTGGCCTCTTATTCGGTGATCTTCCGCGCAGAAGCCCATCATGACTTGATGGGGCATATGCTGACGTACTCGCATGCCTTAAACATCTTGTACGATCTTGGCCATCATGATTATTTCCACAGAGGCTTGCCGGGTCTGCTCAAAATCGTGAAGGTGCTCCGTGCCAGTCGCCAGCTGGACCCTGCAGAGCCGATCCGGCTTGTATCTCCGGTGGATCGGCTGCCACTCGTGGAGGCTCCAAGATCGGCGTGGCTGCCGCATCAGCCGGAGTATTGGGCGGGTATAGACGGGGATGTAATCGACTGGGACTTCGGCCATCTGTTTAAATTCCCGTTCAGTTTCTACCATCATTGGAACCGTGTTTCGGAGGCACCGGCGAAGGCCGTGGAGAATTTTCGATATATTATCCATCCGGTGCAGACGATCATTTCCTGA	MSDKDRAILGDGLSILSQCRMLTGDIWQAHYGAAAIAGYFFVKANHLPGKVEKAVEAENQRMIAKYLQTGTVTGESVSVESAESRILAALDDTIDGLHWVGHNVIYAAISLAALHELGGGLRHEAADIAELISSFAKTIPGRSWIGYSAAEVKRLTLDELDGIYEITDGNQLSNFILNELASYSVIFRAEAHHDLMGHMLTYSHALNILYDLGHHDYFHRGLPGLLKIVKVLRASRQLDPAEPIRLVSPVDRLPLVEAPRSAWLPHQPEYWAGIDGDVIDWDFGHLFKFPFSFYHHWNRVSEAPAKAVENFRYIIHPVQTIIS				NA	NA	NA	NA	NA
AK002_06125	984	trpS_2		Tryptophan--tRNA ligase	ATGCAACGATTATTGTCAGGCATCAAGCCGAGCGGAGATTTGAATATCGGCGGATATGGAGGTGCCCTCCGTCAATATGTGAAGCTGCAGCATGAGTATGAGTCCTATTTCTTCGTGCCGGATCTGCATGCGATCACGGTCTATCAGGACCCTGTGGAGCTGCACCAGCGCACGCGGGACATTGCCGCGCTGTACATTGCGTCGGGCATTGACCCCGATAAAGCGACGATCTTTCTGCAATCCCAGGTCCCCGCGCATGTAGAGCTCGGATGGTTGCTGGAGACGCAGGCCCATTTTGGTGAATTAAAGCGCATGACCCAATTCAAGGAGAAATCGGACGGAAAGGATACCGTGAGCTCCGCGTTGTTTACGTATCCGGTCCTGATGGCTGCCGATGTGCTGCTCTACCAGGCAACGCACGTGCCTGTCGGCGACGACCAGAAGCAGCATCTGGAACTGACCCGCGATGTGGCCGAGCGCTTCAACAACCGGTATGGCCGCACGTTTACGGTGCCTGAGCCGATCATCCAGGATATTGGCTCCCGCGTCATGGGGCTTGACGATCCGTCCAAGAAGATGAGCAAAAGCAACCCGAATAAGAACAGCTGCGTCCACATGATGGATACGCCGGAGGATATCCGCAAGAAGTTCTCCAGGGCCGTTACCGACTCCGATGGCCAGGTCCGGCATGACTGGGAGCATAAGCCGGCGGTCAGCAATCTGATCGAGATTTATTCCGTATTCTCCGAGGAAGCCATCTCCGTCATCGAGAAACGGTATGAAGGCCAAGGATACGGTACGTTCAAGAAGGAATTAGCCGAAGTGGTCATCGAGAAACTTCAACCGATCCAGGAGAGGTTCCATCAAATCGTGAATTCCTCCGAGCTTGATCGCATTTTGATGGACGGAGCGAAGCGGGCTTCCGATACCGCAGTCCCGACACTGCTTGCCGCCAAGAAAGCGATGGGATTGGTCATGTTCTGA	MQRLLSGIKPSGDLNIGGYGGALRQYVKLQHEYESYFFVPDLHAITVYQDPVELHQRTRDIAALYIASGIDPDKATIFLQSQVPAHVELGWLLETQAHFGELKRMTQFKEKSDGKDTVSSALFTYPVLMAADVLLYQATHVPVGDDQKQHLELTRDVAERFNNRYGRTFTVPEPIIQDIGSRVMGLDDPSKKMSKSNPNKNSCVHMMDTPEDIRKKFSRAVTDSDGQVRHDWEHKPAVSNLIEIYSVFSEEAISVIEKRYEGQGYGTFKKELAEVVIEKLQPIQERFHQIVNSSELDRILMDGAKRASDTAVPTLLAAKKAMGLVMF	PGPT0007120_6313	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
AK002_06126	1482			hypothetical protein	ATGAAAAAATTAGTGGTCGACGGACAACGATTCTTAAATGAAGACGGCGCTCAGGTGATCCTGAACGGCATCAATCTTGTATGCAAGGAGAAGGCAAAGGGATATGTAGAGCCCTGTGATGCAGCTCTGTTCGCCTGGTTCCGCGAACAAGGCTTTAACGTTATCCGTTTAGGTTTAATATGGGATGGAGTCGAGCCTGAGCCTGGCGTCTATGACGATGCGTATCTGAGCAGAATCAAGCAGCAGGTTGTATGGGCCGAGCAGAATGATCTCTATGTTTTTTTGGATATGCATCAGGATTTATACAGCGTGCACTATGGCGACGGGGCTCCCGCATGGGCCACTCTCTCCGATGACCTTCCCCATGTTACCGGACATATTTGGAGTGACGCTTACCTGGAAAGTCCGGCTGTGAACCGTGCTCTGGATCACTTCTGGCGGAATACATCCGCTTCCGACGGGATCGGACTGCAGGATCACTATGCAGCGATGTGGAAGCATGCGGCACAGTTCATGGCTGATTGTCCGAATATTATCGGTTATGACATGATGAACGAGCCGTACCCCGGAACAAGCGGACAGGAGGTGCTCGGCACCATCATTGCCGCATATGCGGGGCATGTGATGGGAATAGCCGACCCGAATATGGATCAGATAGCCGGACTGTGGTTTGACGAGGAAAAGAGGCTGGAGGTTCTTGCCGGGATGGCGGAGATGGATACGTACCGCAAACTCGTTGACAGCGCCAGAGAAGTATCGCAAATCTTCGAACGGGAGGTTCTCGCGCCCTTTTTCAACAAGACGGCGGCAGCCATTCGCGTCGTGTCCCCGGATGGATTCTTGATGCTGGAAACGAGCTATTTCTCGAACATGGGGATCGAGTCCGGCTTGCAGCTTGTACAGGATCCAGCCGGTCAAACCTTACACCAACAGGTGTTCGCACCGCACGGCTATGATCTGGTGGTCGATACGGAGCATTATGACATTTACAATCAGGATCGCGTCCAGCTGATTTTTGATGCCCATCGCAAGGTGCAGGAACGATTGAACGTGCCGGTTCTGGTTGGGGAATGGGGAGCCTTCTCCCACCATCCGGCAACCTTTCAGCTTTCCAGGCAGATCATTGCGATATTCGAACGGTATCTTTGGAGCAATACATACTGGTGCTGGTGTGACGGCTTCAAGGAAGCCCCATATGCCAAGGCGTTGAATCGCGCGTATCCGCAAGCGACAGCCGGCGTGCTCTCAGCATACCGTTATGATCATGATACCGGCAGTTTAAGTATAGATTTCGTTTCATCCGTTGGAGAGACTTTGATTTACCATCCCCATCTGGAGTCGATATCCAGGAGCGACGTGGCGGTTGCCGGTACGGACGCCTATCAAATCGAGCTGCGTGCTTTTCCGGATTCGAAGAGCGGCATCTTGGCGATCACCGTTCCTGATCAAGGGAATAAGATTACGGTTACGATAGGGAGATGA	MKKLVVDGQRFLNEDGAQVILNGINLVCKEKAKGYVEPCDAALFAWFREQGFNVIRLGLIWDGVEPEPGVYDDAYLSRIKQQVVWAEQNDLYVFLDMHQDLYSVHYGDGAPAWATLSDDLPHVTGHIWSDAYLESPAVNRALDHFWRNTSASDGIGLQDHYAAMWKHAAQFMADCPNIIGYDMMNEPYPGTSGQEVLGTIIAAYAGHVMGIADPNMDQIAGLWFDEEKRLEVLAGMAEMDTYRKLVDSAREVSQIFEREVLAPFFNKTAAAIRVVSPDGFLMLETSYFSNMGIESGLQLVQDPAGQTLHQQVFAPHGYDLVVDTEHYDIYNQDRVQLIFDAHRKVQERLNVPVLVGEWGAFSHHPATFQLSRQIIAIFERYLWSNTYWCWCDGFKEAPYAKALNRAYPQATAGVLSAYRYDHDTGSLSIDFVSSVGETLIYHPHLESISRSDVAVAGTDAYQIELRAFPDSKSGILAITVPDQGNKITVTIGR	PGPT0019280_129	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCCOSYLCERAMIDASE,PGPT0019280-EC_3_2_1_123|celC-K05991	NA	NA
AK002_06127	825			hypothetical protein	GTGAAGGAATCGGCGTTAAATTTGAATTTTACGATTGGCGAAGTGTCCAAAATTCTGGATATCCCGATCGATACCTTGCGTTATTACGATAAGATCGGACTCCTTCATTCCCGCAATCGGGACGCGAACAAGTACCGCTATTATGATCTTGAGCAGTTCGATTCACTTATCACGATTCGAATGCTGCGGGCCATGGATGTGTCGATCGAGCGAATCCAAGCGCTGCTTCGGGACAACAGCCTATACGCTATGCGCAGGCTGCTCTCCGACAAGCGGCAAGACATCGATCGCCAGCGGACTTATTTGAAACATTTGTCTCACAAGCTGGAAGTGTTGGATGTTCAGCTGCAACGGTTTGATAACACGGAGGTCATTGAGCTTGTACTAAGCCACCCGTGCTGGGTGCTTCTTACCGATTCTATCATGGAGAGCGCCGATCAAGGACTCGGGGGTAAAGTACAGGAACAGGTTCGCAGAATCAATGCCAGGGAATGGCTTGCATTCTGCCATACCATATCGATCGTGTCCCAAGATAACCTTAACGCAGGCCGTTATCACAATTACCTGTACAATGGCATTCTGTCCACCTTCCCGATGGAGGATGACTCTTCCGTCTTTCAGAGACTAGAGCCTCGCTACTGTGCCAGAAAATGCGTGATTATCGGCAGGGACGACTATGCCAAGATGGATGATCACTATGATCAGATGAAAGCTTTCATTCGCAATCGCGGATTACAGATCGCAGGCCATTCTCTTGAAGTCAATCTATATAACCAGTACGACAATCATTACATTGAAATTTACATTCCGGTAGAAGAACGGTAG	MKESALNLNFTIGEVSKILDIPIDTLRYYDKIGLLHSRNRDANKYRYYDLEQFDSLITIRMLRAMDVSIERIQALLRDNSLYAMRRLLSDKRQDIDRQRTYLKHLSHKLEVLDVQLQRFDNTEVIELVLSHPCWVLLTDSIMESADQGLGGKVQEQVRRINAREWLAFCHTISIVSQDNLNAGRYHNYLYNGILSTFPMEDDSSVFQRLEPRYCARKCVIIGRDDYAKMDDHYDQMKAFIRNRGLQIAGHSLEVNLYNQYDNHYIEIYIPVEER				NA	NA	NA	NA	NA
AK002_06128	1413	yjmB	COG2211	putative symporter YjmB	ATGTTAGGTAAAGCGCGAAGTGCCTTGCGGCAAGCCTTTCGCTTCACTGCTACCGGACTGACTCTAGGGGAGAAATGGCGCCTGGCTCTTCCTGGTCCGATCCTGTCAGTCGGGGGAGTGCTCATCCACAATGTGTTCTTGAAGTATTACACGGATATCATCGGTCTCAGTCCGAAGTATGTCGCTTGGGTGTATATTATCTATAACATCTGGAACGCGATCAACGACCCGGTGCTTGGCGTATGGATCGATCGAACGAGGCATCGCGCACAGCGTGGGAAATACGTCTATATCATGAGAGTGACGGTGCCGTTCATGATCGTTGCCTCCTTCCTCATGATGCTGTCTAATCCGGCATGGGATCAGTGGTTGATCTTTCTGCTGTATACCGGGCTGCTATTTATTTACGACACGGCTGCAACCGCTTACAGTATAGCCTATCAATCGTTTATGCTGATCGCGGCTCCAACCAAGGAGGAACGCATCGATGTTGGTGTGATCCAGAACTATTTATCCCAGGCGATGTCATTTCTGATCACCTTGATTCCGACGCTGCTGCTCGTTGGGGACGGAAAGCAGGAGGTTATCATCCCGATCTTCTCTGCCGTAATCGTGGCAGAAGCGATATTCTTCACCTGGGCCCTGAGGGGACTGAGAGAAGATGCGCAAATGTACGAATCGCTGGATAAGCAGCATATCGATACAAAAGAGGTTTACAAAGAAGCCTGGCAGATCATCAAATCCAGGCCTTTCCTCACCTTTATTATATTTACCATCGTCACCGGCCCCGTGTTTTTCTACTTTACGCCGTTTCTCTACTACATGGACAGCGTAGTGCAATCAACGGGTATCGAAGCTACCGTCATCGATGTGAGTACGCATGTGATCGCGCTCCTGTTCTTGCCGGTCATGGGATCTATCGTCAAAAAAAATGGAACGAAGAAGAGTGTATACCTGGGGACCATCTTCGTGGTGCTCGGATACGGCGGGATTTTTCTTGCTGACGACATATGGACCGCGGCGGCATCCTACGTTCTGATCGTTTTTGCTGTGAACTATCTTCGAACGGCAATATCTCCTGCCCCGGCGCTGCTCATCGACGAGAATGAACGCACGACCGGCGTGCGGAAAACCGGGCTGTTCAACGGATTGTTCTCGTTATTCACGGTCGCCTTCTCCAGCCTGCAAACGGTTATCTTCATTAATGTGATCGGGGCATACGGATATGACGGTCTTGCGGCGGAACAGTCCGAGTCCGCCATGCTCGGCATTCGGGTAGCAACCGGCTTGATTCCGCTGGCTGCTTTTCTCCTCGGATTAATTCCGCTGGCGTTGTACCCTTTTGATAAGAAAAAAGAGGATGACATCTCCGCGTTCAGCAATAATGCCAGAAGAGGGGGGGTGAAGATGTGA	MLGKARSALRQAFRFTATGLTLGEKWRLALPGPILSVGGVLIHNVFLKYYTDIIGLSPKYVAWVYIIYNIWNAINDPVLGVWIDRTRHRAQRGKYVYIMRVTVPFMIVASFLMMLSNPAWDQWLIFLLYTGLLFIYDTAATAYSIAYQSFMLIAAPTKEERIDVGVIQNYLSQAMSFLITLIPTLLLVGDGKQEVIIPIFSAVIVAEAIFFTWALRGLREDAQMYESLDKQHIDTKEVYKEAWQIIKSRPFLTFIIFTIVTGPVFFYFTPFLYYMDSVVQSTGIEATVIDVSTHVIALLFLPVMGSIVKKNGTKKSVYLGTIFVVLGYGGIFLADDIWTAAASYVLIVFAVNYLRTAISPAPALLIDENERTTGVRKTGLFNGLFSLFTVAFSSLQTVIFINVIGAYGYDGLAAEQSESAMLGIRVATGLIPLAAFLLGLIPLALYPFDKKKEDDISAFSNNARRGGVKM	PGPT0014410_2970	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-COLANIC_ACID_METABOLISM	CE-EPS-CAPSULAR_COLANIC_ACID_BIOSYNTHESIS,PGPT0014410-TC_GPH|yihO|xynP-K03292	NA	NA
AK002_06129	933	yteP_70	COG4209	putative multiple-sugar transport system permease YteP	ATGAAAACAATCGATCCACCCAGAAAACGCCGATCATTTCACATCCGTGATAATGTTCAGCCTTACCTGATAATGCTTCCCGTTCTGCTTCAAATTTTTATTTTCAGCTATATACCCATGTATGGACTTGTTATTGCGTTTCAGGATTATTTCCCAGGAAAACCGTTCTTCTCATTGACGGAAACGAACTGGGTTGGATTTAAGCATTTCATCAATTTTTTCAATGGGCCTTATTTTGGAAGGCTGATGCGGAACACGTTTTTGCTCAGTTTCTTTATTCTGGTGTTTGGCTTTTGGGTGCCTATTTTATTCTCATTATTGGTAAACGAACTGCGACATGGCTTCTTTAAGAAGTTTGTGCAAACAGCTAGTTACTTACCTCATTTTATTTCGAACGTCGTTGTAGCGGGTATGGTGTTGTCCTTTATCAATGTTGATGGCATCATAAACGTTATTATCAAAATGTTTGGAGGCACAGCAATTGCGTTAAACACGGAGCCGGCTTATTTCCCGGCCATATATACCATCGCTAGCATATGGAAGTCATTCGGCTGGAGCAGTATTTTGTATCTGGCAGCCATGTCTTCCGTTGATCCTCATTTATATGAAGCAGCCAAAATGGACGGGGCCAACCGCTTTAAACAAATGCTGCATATTTCGCTGCCATCCATTCGTCCAACCATCTTTATTTTGCTTATTTTCGCAGTCGGCGGTCTGTTTTCGGCCAATACCGAGTTTATTCTGTTGATATACAATCCAATAGTGTATGAAACAGCGGATGTTATTGGCACCTATTTGTACCGCGATGGCCTGCTTGGCGGTAATTTCAGCATGGGGACAGCAGTCGGACTATTTATATCGATTCTTAACTTCACGCTGCTGTATTTCGCAAACTCGCAAAGTCGAAAATTTGCAGATTTCGGCTTGTGGTAA	MKTIDPPRKRRSFHIRDNVQPYLIMLPVLLQIFIFSYIPMYGLVIAFQDYFPGKPFFSLTETNWVGFKHFINFFNGPYFGRLMRNTFLLSFFILVFGFWVPILFSLLVNELRHGFFKKFVQTASYLPHFISNVVVAGMVLSFINVDGIINVIIKMFGGTAIALNTEPAYFPAIYTIASIWKSFGWSSILYLAAMSSVDPHLYEAAKMDGANRFKQMLHISLPSIRPTIFILLIFAVGGLFSANTEFILLIYNPIVYETADVIGTYLYRDGLLGGNFSMGTAVGLFISILNFTLLYFANSQSRKFADFGLW	PGPT0017250_1917	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_06130	909	melC_19	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGGCCTTGGTACGTAGAAAACCGAACAAGATCAAGGAAGGCTCTGTCGTGGTCGACATCATCCTTCTAGTGATTGCGTTAATTCTCTGTATAATCACACTATATCCTTTTTATTTTGTCATTATCATGTCTATCAGTTCGCCTTCAGAAGTAGCGGCAATGAATGTCTTTTGGTTTCCTAAAGGCTTCAACCTCAGCTCTTATGAAGTGATTGTAAAAGATCTGAAAATGTGGTGGGCATATTCCAATACGTTGATTTACGTTGGAGTCGGTACCCTATTGAACTGCTTGATGGCTGTGTTGGGGGCTTACCCGTTAACCGTACGAAATCTAAAGGGGAGAAAATGGGTGGTCGCGTATCTGCTGATCCCTATGTATTTCGGGGGTGGCTTGATTCCTTCCTTCCTGCTGGTGAATAAACTAGGGTTGTACAATACGATGTTGGCGATCATTATACCTGGGATGGTCAGTATATGGAATATCATTTTAGTAAGAACGTTTTTCACCACAATTCCCGATGGACTAAAGGAATCTGCTTTTATCGATGGCGCTTCCCATCTGCAGCTGCTGTTTAAGATCATCATACCGATTTCCAAACCTATACTTGCGGTTATCGCTATTTATTCGATTGTCGGCATTTGGAACAGCTGGTTCGATGCGCTCGTATATTTGCCGAATGAGAAGCTTCATCCGCTGCAAATGTATTTATACCGAGTCATCGTGCAGCAGTCCGTGGATCTGAAGATGCTCTCGATGGAGGATACAAAAAATGCGGTAGCGAACATGCTGTCCAACATTCAACTAAAATATACAATCATCGTCTTTACAACGTTACCGGTCATTTTTACGTATCCATTCTTCCAAAAGTATTTCATCAAAGGAGCGCTTCTTGGTTCTTTGAAGGAATAG	MALVRRKPNKIKEGSVVVDIILLVIALILCIITLYPFYFVIIMSISSPSEVAAMNVFWFPKGFNLSSYEVIVKDLKMWWAYSNTLIYVGVGTLLNCLMAVLGAYPLTVRNLKGRKWVVAYLLIPMYFGGGLIPSFLLVNKLGLYNTMLAIIIPGMVSIWNIILVRTFFTTIPDGLKESAFIDGASHLQLLFKIIIPISKPILAVIAIYSIVGIWNSWFDALVYLPNEKLHPLQMYLYRVIVQQSVDLKMLSMEDTKNAVANMLSNIQLKYTIIVFTTLPVIFTYPFFQKYFIKGALLGSLKE	PGPT0017255_801	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_06131	1647			hypothetical protein	ATGAAACGTTGGAAAAGATCATTGATGTCCATCATGGTGGCAGTTCTTGTCATCGGGACCTTCACTGCATGCGGAAGCTCAGGCTCCAGTAATGGAAACGGTAATAAGGAGGAAGCTGGTGGCTCTGGTTCCGGCACAACAGCAAGCAAGCTTAAATTGCTGGGGCCAACCGGTAGCAACAAATACATCAAATTTGAAGACAGAGATAAATACCCTGTATGGAAGGAAATAGAGAAGATGATCCAGGATGCCAATTTGGATCTGGAATATGAACTGGTTCCAAATGAGCAATACAATGTAGTCATTCAGACGAGAATGGCGTCAGGTTCATCTCTACCTGGCATAGTCAACATTTCGGCTTTGGATAACACGACCGTGCTGAATTTGGCAAAGCAGGGTGTTCTGCTTGACCTGAAGCCACTGATTGAGAAGTATAGCAACGGCAACATTAAAAAAATGTATGATGAAGAATTCCCTTATGCTAAAAAAACGACAACCTCCCCTGACGGTAAGATGTACTGGTTCAGCAATCTGCATAAAAAAACATATCAGGACAAAGATCCGGCTCCGGTAGCTCGAACCGTGTTGATCCGCAAAGATTGGCTTGATAAGCTGAGTCTTCCGGTACCAACAAATGCTCAGGAATACTTAGAAACGTTAAAAGCGTTCAGAGATCAGGATGCCAACGGCAACGGTAATAAAGACGAAGTTCTGGTTTACGATACAGGTAAATTTGAGGACGCTATTGCTCAATGGTTCGGACTTGGCACAGACATTACAGCGGTTGATGTAGAAAATAAAAAAGTCGTTTCCCCATGGTACCAGGAAGGGATCAAGGATTACTTTCAATATATGCAGCAGCTCGTAAAAGAGGGGATTCTCGATACGAGCCTGGTTGGTGCGACCATCGAGCAAAGACAACAGAAAATGACGGAAAACAAAGTTGGTTCTGTAACCGACTACAATTTGGAAACCTTTTTAGAGCCGACCATCAATGGCGGAGGAGAGTTTCTCCCATTGATGCCACTCAGTGCAGTTGACAATATTACTCCAGCCGTACAGGTCGAACCGCCGTTCCTGGTATGGCAGAAATATGCAATTACCAAAGACTGCAAAGACGTGGAAGCAGCCATCCGATTTTTCGATATGATTTATTCGGACAAATATGCTGATCTTCTTTATTGGGGAATCGAAGGACAAACTTATAAAAAGGATAGCAACGGGGCGAAAGTGTTTATCGAGAATATATCGGACGAAGAAAGAGCCAAAACAGGTCAAACTCCAGGGATTAAGATATTCGGGGATACGGTGTTCCCTCGCGTTCAATTTGCTAACCTGGAATTCGAATTGTCCGGTGTATCCAAAGAAAAAGCCGATCATGAGCTGAATATACTCAAATACAAACCATACTTCGTTAATATGAACGGTAACTATCTGGCAATTCCGGATGAAAAGCAGCTTGAAACGAAAACAAAAATTTTAACGAACCTCAGGACTTATTCGGAAGAGCTCGCGACCAAGCTTATTCTAGGTCAAAAATCGCTCGACAATTGGGATGAATATATCTCCGAAATGAAAAAGTTAGGACTTGATGATTTAATTGCAATTGATCAGCAACTGCTTGACAGATATAACAGCATCCAGTAA	MKRWKRSLMSIMVAVLVIGTFTACGSSGSSNGNGNKEEAGGSGSGTTASKLKLLGPTGSNKYIKFEDRDKYPVWKEIEKMIQDANLDLEYELVPNEQYNVVIQTRMASGSSLPGIVNISALDNTTVLNLAKQGVLLDLKPLIEKYSNGNIKKMYDEEFPYAKKTTTSPDGKMYWFSNLHKKTYQDKDPAPVARTVLIRKDWLDKLSLPVPTNAQEYLETLKAFRDQDANGNGNKDEVLVYDTGKFEDAIAQWFGLGTDITAVDVENKKVVSPWYQEGIKDYFQYMQQLVKEGILDTSLVGATIEQRQQKMTENKVGSVTDYNLETFLEPTINGGGEFLPLMPLSAVDNITPAVQVEPPFLVWQKYAITKDCKDVEAAIRFFDMIYSDKYADLLYWGIEGQTYKKDSNGAKVFIENISDEERAKTGQTPGIKIFGDTVFPRVQFANLEFELSGVSKEKADHELNILKYKPYFVNMNGNYLAIPDEKQLETKTKILTNLRTYSEELATKLILGQKSLDNWDEYISEMKKLGLDDLIAIDQQLLDRYNSIQ	PGPT0017245_1556	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_06132	2238	rhaR_70		HTH-type transcriptional activator RhaR	TTGAGACATGGAAACTTTGGAAGTGGCACGTTTAGAAAGACCTTTTTGTCTTACACCGCAATCTTGCTGATTCCAATCATCGTGTTCAGCACCTTGAATGTACAGCGAAACATCCAGGAGGAACGGCAGCAGTTGCATGACAAGCACACCTCGGATGCCAACCGGATTGCAGCAGTCGTCGATAACAAAGTAAACGAGCTTAAAAATATGGGCAATCTGTTGAGCAGTGAATCATGGGTTAAGAAGATGATGCAAAATACGAATGTGTATGATAATGAGTTTGATTTGATAAGAATGCTAGAAATCCGCAAGAATTTCGAAAATTCAGTCAGCTCTTTGAATATTCTGTCTTTCGGGATGATTATGTTTCCGGAGAAAAAGCAGATTTTTTCTTCATGGGGGGCCTTTGCGGAAGATGATTTTTTCTCTGGCATCGCCGTATTTGATAACGACATTCGGCAAATGATCCAAAATACGACTCTTGAACAGCAGTATTTCAAGATTATGCCGCCGGTAACCGTGAAGTTGTGGGGAAACAACAAACGCGTGATCCCGATCTTTCAAAGCCTGGAGGTTGTAAATCATCCGCGGGGAGTGCTTGTATTATTTATTGATAGCGCTTACTTTACGGATTATATGCACCGTTTCGGAGGGATCGAATCCAAGGAAATTCTAATTACAACCCATGGAGAACCGATCTACAGACAGACCCGGGGTGTAGCCGTGGAGGGAGGTGAGGACCGTCAAAGCTATGAGTTTGTAGTGCCTTCGAAAGAAAGCGATCTGGAATATAAAATATCCTATATTAATACTAGTGTGATCGGTATTAATAATCTCTTCAGCTCGCTGCTGGCCATTTTAATTTCTGTCGCTATTGGTACCTTAATGGCCTTTTTGTTGGCCAAAATCAGTTATCGTCCGCTGGGAGCTTTGTTGAGTAAGCTGTCTGCATCGATCCGTTATGATGACGTCAAAGACAGCACGACCTTCGATTCCGAATACAATTACATCGAAAAGTCGTTTGACCGGCTGATCCATGAAAATGAAAAGCTTCAGCGATCGATGCAGGATTACGAAAAGGCCGCTAAATCCAACTTGTTCCAGCGCCTGCTCAAGGGTTATTTTACAGATGATCAGCAGATCAATGGATTAGAAAAATTCGGCATCGGTTATAACGATGAAATGTATTATTGCACATTGCTGATCAGCTTCCACGCCATTCGCGATATCTCTAATTACGATAGCTTACGCAAAATCGAAATGATGACGATTGTGATTGTCGAGAAAGTTATGAACCGGTACGGGTTTGATTATGAACTATTTGAAGTGACCAATGCGGATAAAGCGCTGATTTTATCCTCCGAGAGCATCTTCGGGCAGGAAGGCATTATGGAGCAAGTGGCCGTCAGCATTACGGCGGAGCTCGAGCAGACCTGCGGATTTCATCCTTATGTATTGTCAGGAACCGTTGAGGAAGGGCTTGTCGGTATCAGTAAATCGTATTATGCGGCCAATGAAAATCTGCAGTATATCTTGTTTTCGAGAGACCGTCTTCCCATATCACAAGAGGAAGCTGTCCAATCCATTGTCGACTATTATTATCCGACAGATTGGGAGGTGCAGCTAATTAATAATCTGAAGATCGGGAACCTGGATACATCGATGCAAATCCTGCACGAAATCAGTACCGAAAACGGAAAACGCAATTTGTCCAAAGCTAGTATGAACAATCTGGTTTCATTGTTAATGGAAACGATGTTGAGAGTATTATATGAGCTTAACCTCGATATAGGCATCTACTCCAAACAGTTTGCTAATCGAGTTAAAGGGGAAGATATCGGGGAGATGTGGAGCTATGTATATGAATTGGGAACCTTGATTTGCGAGCGGAACCGGTATTCCAACACATCATTGACAATTGAAGCAGGCAGCCAATTGCTGCAGTATGTCAACGAAAATTACACCAGCGCCGACATTTCGTTAAAGCAGCTCGCCGAAATATTTCAAATGTCGGTTTCCAAGGCATCCAAAATCTTCAAAGAAGTTTCCGGAATCAATTTTTATGATTATTTATGCCGGCTTCGTATGGAAATGGCTAAGGAGTTGTTGAGAGAAAGAAAATGCGGCATCGATGACATCGCCCGCCGTGTAGGCTATGAAAATGTATATTCCTTCAAACGCGCATTTGCCCGTTATGAAGGCATCAAGCCGGATGAATACATGGATTCGGCGATGTGA	MRHGNFGSGTFRKTFLSYTAILLIPIIVFSTLNVQRNIQEERQQLHDKHTSDANRIAAVVDNKVNELKNMGNLLSSESWVKKMMQNTNVYDNEFDLIRMLEIRKNFENSVSSLNILSFGMIMFPEKKQIFSSWGAFAEDDFFSGIAVFDNDIRQMIQNTTLEQQYFKIMPPVTVKLWGNNKRVIPIFQSLEVVNHPRGVLVLFIDSAYFTDYMHRFGGIESKEILITTHGEPIYRQTRGVAVEGGEDRQSYEFVVPSKESDLEYKISYINTSVIGINNLFSSLLAILISVAIGTLMAFLLAKISYRPLGALLSKLSASIRYDDVKDSTTFDSEYNYIEKSFDRLIHENEKLQRSMQDYEKAAKSNLFQRLLKGYFTDDQQINGLEKFGIGYNDEMYYCTLLISFHAIRDISNYDSLRKIEMMTIVIVEKVMNRYGFDYELFEVTNADKALILSSESIFGQEGIMEQVAVSITAELEQTCGFHPYVLSGTVEEGLVGISKSYYAANENLQYILFSRDRLPISQEEAVQSIVDYYYPTDWEVQLINNLKIGNLDTSMQILHEISTENGKRNLSKASMNNLVSLLMETMLRVLYELNLDIGIYSKQFANRVKGEDIGEMWSYVYELGTLICERNRYSNTSLTIEAGSQLLQYVNENYTSADISLKQLAEIFQMSVSKASKIFKEVSGINFYDYLCRLRMEMAKELLRERKCGIDDIARRVGYENVYSFKRAFARYEGIKPDEYMDSAM				NA	NA	NA	NA	NA
AK002_06133	1701			hypothetical protein	ATGAAATTTAGGCGAATCGGAAGCTATCTTCTATCTGCATTGCTGTTGACGGGCATTCTGCAGCCCGTTGCGCAAGCTGATTCATCGCAACCGCAGTTAGCATCGAACGGCAATAATGGAGGGAACGAAATGAATGTAGCGCTAGGCAAGCCTTATACTGTCTCGGAGCCGGCGAATGATCCCTACCCCGATACGGGCGGCGAATTGACCGACGGCGTACTGGCAAGCGACGACCCTGCCGACGAGGCATGGACCGGATTCTACAAAGGTTCCAGCCGAGTCATCACGATTGACCTTGGCAGCGATCAATCGGTCTCGTCCATTCGCGCTAACTTCTTGCAGATCCCATCCGCAAAGATTCAATATCCGAACGCGGTGTCGATCTATACCTCGAAAAACGGGAAAGACTGGACGGCGCTGAAGCATGCAGGGCCACCTGTGGCGTTCTGGATCGGTGTTAACCCTCCCCGATACACCTTCGAATGGGACGCTGTGAAAGACGGCGTTCCGGGGGGAGGAGATAATTCTTCGGCGGCCTTCTCCCGTTATGTTAAAGTCCGGTTTACGACCAAGGAATGGGTGCTTCTGGACGAAATTCAGGTCATAGGCCAGGACGGACATATCAAAGGTGCAACGGTTCCCCATGAGAAGGAACAATATCTGCAGCCTGGCGCCCAGACCGGCGGTATCTCCAATTTGGCTCTTTTGTATAATGGACATTACAATAAGGGATTAGGGGACTGGACAACGGAGAAACTGATTCCTTATCTCGCGCATGTAGATCAGAACGGAACGCCGACTGATTGGTTATTCGATGGCATTCTCTATCTGGGTCTCAGTTCGCCTGCTGGCCGTTCATTCGCCATGTCCTTTAACGGGTCCAATTGGGACGATTGGAAATGGTATTTGGATAAGACATTCGCCACCGACGGAGATCTGGATGCCTTGAACGTTGCAGTGGGAGAAGTAATGAAGGAGCTCGGCAAGCCGGGTGGTAAATCCACTGAAAAATACCCGGTGGTTCTTATGGTTCCCTACCCGGCTGAACCGCAGACTAATTTCGGAGACGTAGATGGCGACGGTATTACGGAGAACTTCAACGCCTCTCAAGTCGGTGCCGATGCTTCGCTCGCAAGCAAGAAGAAAGCGGTCGACTGGTATATCGATCAGTTGATCCAGCGCTGGGACGCGAAGGGTTACGATAATCTTAATCTTGCCGGATTATATTGGCTAAACGAAGAAGTAGCGCCGGACGGTACGAATGATGCACAGTTGATAAAACACGCGTCTAACATCGTTCATGACAACGACTTGTTATTCTACTGGATTCCACATCTGCGTGGCTATCAATTCTTCACATGGAAGGAATTAGGTTTTGATGCTGTGGCCTATCAGCCAAACTATTTCTTCCAAGCGGATAGTCCGCTGGATCGTATACGGGATGCGGCTGATTGGGCTAAATCACTCGGGATGGGGATGGAGATGGAGTTCGATGAGCGTATCCTGACAGATGCCAACTTCAGGCAGAAATATTATGACTATCTTAACGGTGCTATCCAATTCGATTATGCAAAGGATACTTTTAGAGCCTACTATCAAGGGAATGACACATTGCTCCAAGCGGCACGATCTGATGAACCGGCAGTTCGCGCCACCTATGATGACATGTACAAGTTCATAAAGGGCAAGTACAGACCTTAA	MKFRRIGSYLLSALLLTGILQPVAQADSSQPQLASNGNNGGNEMNVALGKPYTVSEPANDPYPDTGGELTDGVLASDDPADEAWTGFYKGSSRVITIDLGSDQSVSSIRANFLQIPSAKIQYPNAVSIYTSKNGKDWTALKHAGPPVAFWIGVNPPRYTFEWDAVKDGVPGGGDNSSAAFSRYVKVRFTTKEWVLLDEIQVIGQDGHIKGATVPHEKEQYLQPGAQTGGISNLALLYNGHYNKGLGDWTTEKLIPYLAHVDQNGTPTDWLFDGILYLGLSSPAGRSFAMSFNGSNWDDWKWYLDKTFATDGDLDALNVAVGEVMKELGKPGGKSTEKYPVVLMVPYPAEPQTNFGDVDGDGITENFNASQVGADASLASKKKAVDWYIDQLIQRWDAKGYDNLNLAGLYWLNEEVAPDGTNDAQLIKHASNIVHDNDLLFYWIPHLRGYQFFTWKELGFDAVAYQPNYFFQADSPLDRIRDAADWAKSLGMGMEMEFDERILTDANFRQKYYDYLNGAIQFDYAKDTFRAYYQGNDTLLQAARSDEPAVRATYDDMYKFIKGKYRP				NA	NA	NA	NA	NA
AK002_06134	1152	lnrN_3	COG0842	Linearmycin resistance permease protein LnrN	ATGTTGAAGGATATGCTTTGGCTCATTCGAAAGACGATATTGACCTCGTTGAAGGATTATAAAAATCTGCTGCTCGTTATTGCGCTTCCCATTGTCGGCATTCTGCTATCCACCTTAATCTACAAGGGCTCCGGAGATGCTTCCGTTACCCTCGGCATCGTGAATCACGATATCGAACAGAAGGTCACGCAAGATACGATCGATTTTGTTGCTCAATTGGAGCATACCGAGGCATCGGTCATTAGGGAATCGGAAGCGGATGACTTGGTTGTGTCGGGTGAGCTGGATGCGGTGCTGATCTTCCCCGAGGGGTTTGCTAAAGGCGTAATTCAGGGGACACCCGAGCCGGTCCGGATCGAATCGATTAAGGGCGCTCAGGTTACGGGGTATGTCAAATCGTATCTGAACGCGTACGTCCAGAATATTTCATCCATGGGGGTTATAGCGGGTGGCGACGCCGCCGCGTTTAACGAATTATACAGCGGTTATCGCGGTTCTACGTTTCAATTGTCCACGACTACCGTTGCGGATCAATCGGCCAATCATGATATGACCAACCGGACGATCGGTTACTTGGTTGTGTTCATGTTATTCTCCGCCGTGAATCTATCGGCATTGACGATCCGGGATCGCGAGAACCGTACGTACTATAGACTCTTATCGTCGCCTATTACGGCCCGCAGTTACGTCTTCTCGAATGCCATCGTGAACATCGTTCTGATGATGATCCAGATTGCGGCCACCTTGTTCGTCATGACCCGGTTCTTTCATATCGAGCCAGGCATTCCAATATGGCAGATGTTTCTGATTCTGTCGCTGTTCGCTCTGGTCGCGGTTAGTTTATCGCAGGTCATCGTCGCGTTCTCGGACAGCACCATGATGGCTAACGGAATCCAGACGATGGTGATCATGCCGACATCGCTGCTGGCGGGGTGTGTATTCCCGCTCTCCGTGATGCCGGAAGCAATTCAGCGAATCGCCGATTTCCTGCCGCAGTATTGGCTGCTCGATACGTTCGGCAAGCTTCAGCAAGGAAGCGGCCTGAACGACGTGATTCTGAACGTGGCGATTCTGCTGGCTTTTGCCTTGGCCTTATCGCTGATTGCAACCTACAAGTTCGCAAGAAATAGAGATACGCAGAGCTATATTTAA	MLKDMLWLIRKTILTSLKDYKNLLLVIALPIVGILLSTLIYKGSGDASVTLGIVNHDIEQKVTQDTIDFVAQLEHTEASVIRESEADDLVVSGELDAVLIFPEGFAKGVIQGTPEPVRIESIKGAQVTGYVKSYLNAYVQNISSMGVIAGGDAAAFNELYSGYRGSTFQLSTTTVADQSANHDMTNRTIGYLVVFMLFSAVNLSALTIRDRENRTYYRLLSSPITARSYVFSNAIVNIVLMMIQIAATLFVMTRFFHIEPGIPIWQMFLILSLFALVAVSLSQVIVAFSDSTMMANGIQTMVIMPTSLLAGCVFPLSVMPEAIQRIADFLPQYWLLDTFGKLQQGSGLNDVILNVAILLAFALALSLIATYKFARNRDTQSYI				NA	NA	NA	NA	NA
AK002_06135	1119	lnrM	COG0842	Linearmycin resistance permease protein LnrM	ATGAACGTACTGAGAATCGCGCTGAAGGAGATGAAGATCGTCCGGGAGCCGCAGATGCTGGTATTCATGCTGGCAACCCCGGTGCTGCTCATTCTGATCCTGGGGACGGCGCTTTCGAATGCTTTTAACGGGAGTACCACGATTGGAGACATTCGGGTGTTATACCATAACAACGGAGCAGAACCCGCGCTTACGGAGCAATGGCAGGCATTCATGCAGGAGGCGGAGCGCTCATCGGGCATCGTCTTTGATCAAGTCGAGGAAGGCATGGACGGAGGACAGGAAGTGAGAAACAACCGGTACACCGGTTACGTGGAGATGGACGGCCAAGGCATCCGTTATGAGGGAAACAGCCGCAGCAGCCTGGAGAACGGGATTGTGCAAGGGATGCTGTCCGCATTTACCGACCGGTACCGGCTGTCAGCCGAAGCCGCGAAGATCGATCCGGCATATGAGAGCAAGCCGCTTGTTGATGATGGAGGGAGCTATGTGCTGGAGTCTTCCATACAGGGAGCGAGGCAGCCGGGTTCGCTTGATTATTTTTCGATTGCGGTCACCACAATGATCATCCTGTACAGCGCCTTGACGGCAGGCGGACTCATCGATAGTGAGCGAAAGCGAAATACCGCACAGCGCCTACTGGCCTCACCAGTGACGAAAGCCGAGATTTTTGCCGGAAAAATAATAGGCACGCTCGCAATCAATGCCGTATTTGTCATCATCGTTGTGCTGATCAGCAAATATATGTTCAATGCCTATTGGGGAGAGCACCCCATCATGGTATTCCTGGTGTTGTTCACCGAGATCCTGTTTGCGCTCAGCCTCGGGCTCGGCATCAGTTATGTGCTGAAGGGAAATGCAGCCGGAGCTGTCATCATGGTCATTATTCAACTGGCTGCCTTCTTTGGCGGAGGGTATACGCCGGTTTCTAGCACAACGGGATTCATGAGGGAGGCTGCAACGTATTCTCCCTTGCATTGGTCCAATGAAGCGCTGCTGCAGCTCATTTATTCAGGCAGTGGATCGGCGGCCATGCAGGCGATGATGCTGAATATCGGTTTTTCCATCCTGCTGCTGGCCATAGCCATGATTTCGATGCGAAGAAGGGAGGGACTGTAA	MNVLRIALKEMKIVREPQMLVFMLATPVLLILILGTALSNAFNGSTTIGDIRVLYHNNGAEPALTEQWQAFMQEAERSSGIVFDQVEEGMDGGQEVRNNRYTGYVEMDGQGIRYEGNSRSSLENGIVQGMLSAFTDRYRLSAEAAKIDPAYESKPLVDDGGSYVLESSIQGARQPGSLDYFSIAVTTMIILYSALTAGGLIDSERKRNTAQRLLASPVTKAEIFAGKIIGTLAINAVFVIIVVLISKYMFNAYWGEHPIMVFLVLFTEILFALSLGLGISYVLKGNAAGAVIMVIIQLAAFFGGGYTPVSSTTGFMREAATYSPLHWSNEALLQLIYSGSGSAAMQAMMLNIGFSILLLAIAMISMRRREGL				NA	NA	NA	NA	NA
AK002_06136	936	lnrL_9	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGAACGTGCTGGAGATCAAAGGGCTCACGAAAAAGTTTGGGGATTTCATAGCGGTAGACCAGCTGTCGTTGAACATACGGGAAGGCGAGATTTTCGGCTTCCTGGGCGCGAACGGAGCAGGCAAGAGCACAACCATCAATATCATATCGTCGCTCATGCCCATGACCAAGGGAGAGGTTCATATCCTGGGCAAGAATCTGACGAAGCATCGAAGGTTCGCGAAGCAGCAGATCGGCGTGGTTCCGCAAGAGGTCGCGATTTACGAGGATCTGACCGCATATGAGAATGTTCATTTTTTTGCCGGATTATATGGATTGAGAGGGTCGGAGCTTAGGAGCAGGGCCGAAGAGGCGCTTGCCTTCGTCGGACTTAGCGACAAACATAAGATGTACCCGAAGAGCTTCTCCGGAGGCATGAAGAGACGACTGAATATCGCTTGCGCGATTGCCCACAGACCGAAGCTGATCATCATGGATGAGCCGACCGTCGGCATCGATCCCCAATCGAGGAACTATATCCTGAACTCGGTCAGGAAGCTGAACGAGATGGGCAGCACGATCCTGTACACGAGCCATTATATGGAGGAAGTGGAGGAGCTCTGCACTCGGATTGCCATCATCGACCACGGCAAGATCATAGCGGAGGGCACGAAGGCACAGCTGAAGGCCATTATTACGGACCAGAAGGATATCGGGATCGAAGTGCAAACGGCCGCCCATCTTGAAGCGAACAAGTTGAAGGAGATTGCAGGCGTCAAATCGGTTGAAGTGAAGGAGAATATCGTGCACATCAGCTCCGACGCAGGAGTCAATAACCTGAATAAAATCATTCAGCAATTCATGGCGCAAGGCATTGAAATTCGTTCCGTTCAAGCGTCCGAGCCGAATTTGGAAACGGTGTTCCTAACGCTGACCGGCAGGAGCCTTCGGGATTAG	MNVLEIKGLTKKFGDFIAVDQLSLNIREGEIFGFLGANGAGKSTTINIISSLMPMTKGEVHILGKNLTKHRRFAKQQIGVVPQEVAIYEDLTAYENVHFFAGLYGLRGSELRSRAEEALAFVGLSDKHKMYPKSFSGGMKRRLNIACAIAHRPKLIIMDEPTVGIDPQSRNYILNSVRKLNEMGSTILYTSHYMEEVEELCTRIAIIDHGKIIAEGTKAQLKAIITDQKDIGIEVQTAAHLEANKLKEIAGVKSVEVKENIVHISSDAGVNNLNKIIQQFMAQGIEIRSVQASEPNLETVFLTLTGRSLRD	PGPT0006725_8672	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK002_06137	1125	lnrJ_2		Sensor histidine kinase LnrJ	GTGAGCGAACGCCGAAACTATGCCGAACTGTGGGTCATCGGGTTCAAAAGCATGTTGTTCCTGTATGTGATCAGCCAGTCGTATGCCTCTGATCTTGCGATGACGCCATGGTATATCCTTGTCGTTCTTCTCTACCTGTCCGTGAATGTATCCGTCTATATTTTCAAGAGCCGAAGCATACAGCCGTACCTCATGCTTCTTGCGATTCTTGTTGCCATGGCTTCCTCATTCTACATCCATCCGCTGCTCCTCATACTGCTTCCCGTGAATCTGTACGAGCTGTTGTCGCTTTACGTTCGCAGGAGCTGGATGATCCTGATCCCCCTGCTGGTTCCAGCGCTTATCGTGCCTCAGGGGTTTGTTATGACCTATGTTTCTACATCCGTTCTATCCTATATTTATCTTACGATGCTCAGAACCTTTGTTAACCGAGCCGCATCCTACCAGGAGCAGAACGAGCAGATGCATCGTGAACTCGATCGGTTGACCCAGCGGCTGAGCGAAAATAATGAGTACATCCGGCAGTTTGAATATATGTTCAAGCTGGAAGAGCGAAACCGGCTGTCCCAGGAAATTCATGACAAGATCGGGCATTCCATGACGGGAGCGTTGATTCAGATGGAAGCGGCCAAGCGCTTGATGACATCGAATCCGGACAAGTCCGCCGAGCTGCTGCAAAATGCCATATCCATCTCTAAAGAAGGCATTGAGAGCATCAGGCTGGTTCTGAAGAACGTGAAGCCCCCAACGGAGCAGCTCGGCATCAACCGAATGCGTTTATTTCTGGAGGAGTTCTCCGCTCAGCACCCGATCAAGACCGTATTAACGCATGAGGGCAATATGGATGTGATTACGCCGCTTCAATGGAAAATCATTCAGGATAACACCCAGGAAGCGTTAACCAATACGATGAAGTATGCGAATGCAACGGCAGTCTCGTTACATATCGAAGTTCTGGGCACCATGATCAAGGCCAAGGTCAGCGACAACGGCAAGGGCATGCAGAAGGTAATCAAGGGTCTTGGGATTATAGGCATGGAGGAACGCGCCGCGGTCGTGAATGGAACCGTGATCGTGGATGGCTCGAGCGGCTTCTCGGTGACCACTCTAATTCCTTATAGCTAA	MSERRNYAELWVIGFKSMLFLYVISQSYASDLAMTPWYILVVLLYLSVNVSVYIFKSRSIQPYLMLLAILVAMASSFYIHPLLLILLPVNLYELLSLYVRRSWMILIPLLVPALIVPQGFVMTYVSTSVLSYIYLTMLRTFVNRAASYQEQNEQMHRELDRLTQRLSENNEYIRQFEYMFKLEERNRLSQEIHDKIGHSMTGALIQMEAAKRLMTSNPDKSAELLQNAISISKEGIESIRLVLKNVKPPTEQLGINRMRLFLEEFSAQHPIKTVLTHEGNMDVITPLQWKIIQDNTQEALTNTMKYANATAVSLHIEVLGTMIKAKVSDNGKGMQKVIKGLGIIGMEERAAVVNGTVIVDGSSGFSVTTLIPYS				NA	NA	NA	NA	NA
AK002_06138	654	lnrK_6	COG2197	Transcriptional regulatory protein LnrK	TTGAAGATTAAAGTGATCATTGCGGACGATAACTCATTTATCAGGGAAGGCATGAAGATCATTCTGGCGACGTTTGATGAGTTCGACGTGGTGGCGACCGTCGAAGACGGACAAGAAGCGGTCGCCTTTTGCGAAGCGCACGAAGTGGATGTGGCGCTGATGGATGTCCGGATGCCGAACCTGAATGGCGTTGAGGCCACGAAACAGCTCACGGAGCGTACGAAGACCAAGACGCTGATCTTAACGACCTTCGACGACGATGAATACATTACCGATGCGATCCTGAATGGCGCCAAGGGTTATCTGCTAAAGAATAACGACCCGGAACGGATTCGGGATGCGATCAAAACCGTGTACCACGGCCATCATGTGCTCCAGGACGTCGTACTGGATAAAATCAAATCCGGGCTGTCCCCCGGAAAGCCTGATAAGACAGACAAGGCAGACAAGTTCGACCGAAGCCTATTCACCGAAAGGGAACTGGATATTATGGCGCTCATTGCCAAAGGGCTGGCCAACAAGGAAATCTCGAAGAAGCTGTTTATTTCCGAAGGCACGATTGCCAATCACATCACTTCGGTTCTCAGCAAGACAGGTTTGGAGCATCGAACCCAGATTGCGATTTTTTATCTGACGGGAGAAGTGAATAAGTGA	MKIKVIIADDNSFIREGMKIILATFDEFDVVATVEDGQEAVAFCEAHEVDVALMDVRMPNLNGVEATKQLTERTKTKTLILTTFDDDEYITDAILNGAKGYLLKNNDPERIRDAIKTVYHGHHVLQDVVLDKIKSGLSPGKPDKTDKADKFDRSLFTERELDIMALIAKGLANKEISKKLFISEGTIANHITSVLSKTGLEHRTQIAIFYLTGEVNK				NA	NA	NA	NA	NA
AK002_06139	1179			hypothetical protein	ATGGGGTTTTTAAGACAAAAAATGCTGTGGATCGGCGCATTGGTTGTCCTTCTGGTGCTGGCAGTCTTCGGCGTAGCCATGATGGGGGCGATCGCGGGAGCGAAGCCGAAGGCGCTTCCCGTTGCGCTTGTCGCCTTGGATCAGCCGGTTGAGTTGCCAAGCGGCGAAACCCTCGCTGTCGGTGACATGATGAAAGGAATGCTGCAGGGAAACTCGCAGATGCCCATTCAGTGGGAGATCGTGATTTCGGAAGCGGAGGCAAGGGAAGGGCTCGACAGCCAGAAGTATTACGGTGCCCTCGTGCTGCCTGAGAACTTAAGCGCGGGTATCTTGTCGCTGCAGTCGCCTGCTCCGAAGCCCGCTGTGGTGCAGGTGCTGGTGAACGAGGGGATGAGCACGCAGGCATCCGCCGCGGTGAAGCAGATGCTCGGGCAAGCGATGAAGATGGCGGGAGCGGAGCTATCCAAGCAGGCATTGACCATGATCGGCACGCAGACGGATATGCTGCCGGTCACAACCGCGCAGGCCCTGCTGACCCCGTTCGAGGTCCACGAAGAAGTCGTTCATCCTGTGGGTGCTAACCACGCAAGCGGCAATGCGCCGGGGATGCTGGTACAGATTCTATGGATCGGCTGCCTGATCATTAGCGTATTCCTGTTCCAGGCGCTGCAGAAAGCAGTGGCTGAAGGCAGCGGCCGGGGAATCGCGATACTGCTGCAAGGTGCTGCCGGTTTGCTCCTGGCGGGTCTGACCTCCGGTTTTCTGGTATGGATGGCTTCCTCGTGGTATGGCATGGAGCTTGCGAACGGGGGCAGCGTATGGCTGATGCTGTGGCTGGCCGGTTCCGCTTTTTTCCTTCTACAGTCGACCTTGTTGAACTGGATCGGGCTACCGGCCATGGGCATCTTGGTGCTCCTGATGTTCTTCTCGATGCCGCTTCTCAATATGGCGCCGGAGTTTTTGCCCCAGGCAACGCAGGACTGGCTGTATTCCTGGACGCCGCTGCGCTTTGCCGCTTCCGCTCTCCGGGATGTGATGTATTTTGACGGATATGCTCCATCTTCTTCGCATTCCGCGGTAATGTGGTTTATAGCCGGAGGTTTTCTTGTTCTGCTGCTGGCCTCGACATTCAAGAAAGGGAGACGTTCAGACAAGAGAAAATCAATTGCCGCTTCTTAA	MGFLRQKMLWIGALVVLLVLAVFGVAMMGAIAGAKPKALPVALVALDQPVELPSGETLAVGDMMKGMLQGNSQMPIQWEIVISEAEAREGLDSQKYYGALVLPENLSAGILSLQSPAPKPAVVQVLVNEGMSTQASAAVKQMLGQAMKMAGAELSKQALTMIGTQTDMLPVTTAQALLTPFEVHEEVVHPVGANHASGNAPGMLVQILWIGCLIISVFLFQALQKAVAEGSGRGIAILLQGAAGLLLAGLTSGFLVWMASSWYGMELANGGSVWLMLWLAGSAFFLLQSTLLNWIGLPAMGILVLLMFFSMPLLNMAPEFLPQATQDWLYSWTPLRFAASALRDVMYFDGYAPSSSHSAVMWFIAGGFLVLLLASTFKKGRRSDKRKSIAAS				NA	NA	NA	NA	NA
AK002_06140	612			hypothetical protein	TTGACTAAAAAGGCGGATCGTAGGCAAGTCCGGACCAATCAGCTGCTGCGGCAAACCTTGTTCGAGCTTATGGGCGAAAAAAACATCAGCGCAATTACCGTCACCGATATCGCCAATCGCGCCAATATCAACCGCGGTACCTTCTATCTGCATTATCGGGATGTGCCGGATATGCTGGATAAGATCAAGGAAGAGGTGCTTCAGAAGATTGAGAAGATCGTGGTCCATATCGATCCCAGGGATTCCAGGGACTATGCGGAAAAGGGAGAGCCTTATCCGGCGTCAGAACAAATATTCGAAGAGCTCGTCCGGCACGCCGACTTCTTCAAGGCTATTGTCGGCCCGAATGGGGACATTTCCTTCGTTCGGCAATTCAGGGAGTTCATGAAGGAGCATATGTTTGCCAAGCATGCGTTCAGAATGCCCACAGGCGGGAATCAGATCATTCCAAGCGATTACCTGATCGCTTATATGATCTCCGCCAATATCGGCTTGGTCATACACTGGATCGAGTCCGGGATGAACAAGTCCGCAAGAGAGATGGGCATCATGATGACGCAGCTGATCAACTACGGCCCGTTGATCACTTCAGGGATTGTTCAAAAACCATAG	MTKKADRRQVRTNQLLRQTLFELMGEKNISAITVTDIANRANINRGTFYLHYRDVPDMLDKIKEEVLQKIEKIVVHIDPRDSRDYAEKGEPYPASEQIFEELVRHADFFKAIVGPNGDISFVRQFREFMKEHMFAKHAFRMPTGGNQIIPSDYLIAYMISANIGLVIHWIESGMNKSAREMGIMMTQLINYGPLITSGIVQKP				NA	NA	NA	NA	NA
AK002_06141	1050		COG0492	Ferredoxin--NADP reductase	ATGAGTGGGAATGAGATATTTGATGTAACGGTTATTGGCGGAGGACCAGCGGGATTGTATTCCGCTTTTTATAGTGGACTGCGTGGCATGAAGACCAAGATAATAGAATATCAGCCCATGCTTGGCGGGAAGGTTCACGTATATCCGGAGAAAATGATATGGGACGTCGGCGGATTGACGCCGATTCCAGGCGCGAAGCTGATCGAGCAAATGGTTCAGCAAGGCCTGACGTTCAATCCCGAAGTGCTGTTAAACGAGAAGGTTGAATCGATCGCCCGCAATGAGGAAGGACTGTTCGAATTACATACGGCGAATTCCGGCGTGCATCTGTCCAAAACGGTCATCGTGGCGGTCGGCGGAGGCATCTTGAATCCGCAGAAGCTGGAGATTGAAGGAGCCGAGCGGTTCGAAGTGTCGAACCTGAACTACACCGTGAAGTCCCTGCAGCATTTCAAGGGCAAAACCGTCATTGTGTCCGGCGGAGGGAATTCAGCCGTAGATTGGGCGAACGAGCTGGAGCCTGTGGCGAAGAAGGTCTACCTGGCCTATCGCAAGGACGAATTGTCAGGCCATGAAGCCCAGGTCGAGCAGCTGATGAACAGTAAGGCGACCTGCCATCTTAATACATCGATCACGAAGCTCATTGCTTCGGATAATCATGAGGTGATTGAGCGGGTAGAATTGACGAATAATGCGACAGGGGAAGTTTCCTATTTAGCCGTAGACGAGGTCATCATTAACCATGGCTATGAACGGGATATGTCGCTGCTGGAGAACAGCAACCTTGATATTCACCGGGTGGATGACTACTATATCGCGGGCAACGCAAGCTGTAATTCTTCCATACCGGGACTGTATGCTGCCGGCGACATCCTGCATTTTGACGGGAAGCTGCACCTGATTGCAGGCGCCTTCCAGGATGCCGCGAACGCGGTGAACAGCGCGAAGCAGTTCATTGAGCCTGATGCCAGGAAGTACGCGATGGTCTCTTCGCATAACGAAGTATTCAAGGAGCGCAATCGCGAATTAGTGAAGCAATTGATCAATTAG	MSGNEIFDVTVIGGGPAGLYSAFYSGLRGMKTKIIEYQPMLGGKVHVYPEKMIWDVGGLTPIPGAKLIEQMVQQGLTFNPEVLLNEKVESIARNEEGLFELHTANSGVHLSKTVIVAVGGGILNPQKLEIEGAERFEVSNLNYTVKSLQHFKGKTVIVSGGGNSAVDWANELEPVAKKVYLAYRKDELSGHEAQVEQLMNSKATCHLNTSITKLIASDNHEVIERVELTNNATGEVSYLAVDEVIINHGYERDMSLLENSNLDIHRVDDYYIAGNASCNSSIPGLYAAGDILHFDGKLHLIAGAFQDAANAVNSAKQFIEPDARKYAMVSSHNEVFKERNRELVKQLIN				NA	NA	NA	NA	NA
AK002_06142	876	yusV_2	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGATTCGCCTAAGTACAGATCGAATAAGCGTCGGTTATGGCGAGAATCTGATATTGAATCGTCTTAACGTAGATATTCCCGATAAAAGAATCACGACCATCATTGGGCCTAACGGCTGCGGCAAATCCACTCTTTTGAAGGCTGTTACCCGCATCATTCCTTATCAATCCGGGGCTGCCATTCTGGACGGGGAAGAAATCGCCAAGATGAACACCAAGCTTCTGGCGAAGAAGCTGGCCATTCTGCCCCAGACTCCGGAAGGGCCGGGCGGATTGACGGTCGGCGAACTCGTATCCTACGGGCGCTATCCCCATCAGCGCGGTTTTGGCCGCTTGACCAAACAGGATATGGACGTCATCGACTGGGCGCTGGAGGTTACCGGAACCCAGGATTATAAATACCGTTCGGTGGACGCTCTGTCCGGCGGACAGCGGCAGCGGGTATGGATTGCGATGGCACTCGCGCAGGAGACCGAAATGATCTTCCTCGACGAGCCGACCACGTATCTGGACATGGCGCATCAACTGGAGATTCTGGAACTGCTCGAGAGGCTCAATATCGAACAAGAGCGGACCATCGTCATGGTTCTGCACGATTTGAACCAAGCCGCACGATTCGCGGATTACATTATCGCGATGAAGGATGGAGATATCATTCAGGCCGGCGATCCGGAAGCCGTCATTTCGCACGAGGTATTAAAGAAAGTATTCCATATCGACGCAGAGATCGGCCGCGATCCGCGCACGGCGAAGCCGATCTGCATCACTTATAATCTATTAAAAGGGGAAAAAGAGGACATACTCAAAACGGCGGAGCATAACGACAACTACGAAGAAACTGCTCATCCCGTTTATCGTACTGCTGTTCATTCTTAG	MIRLSTDRISVGYGENLILNRLNVDIPDKRITTIIGPNGCGKSTLLKAVTRIIPYQSGAAILDGEEIAKMNTKLLAKKLAILPQTPEGPGGLTVGELVSYGRYPHQRGFGRLTKQDMDVIDWALEVTGTQDYKYRSVDALSGGQRQRVWIAMALAQETEMIFLDEPTTYLDMAHQLEILELLERLNIEQERTIVMVLHDLNQAARFADYIIAMKDGDIIQAGDPEAVISHEVLKKVFHIDAEIGRDPRTAKPICITYNLLKGEKEDILKTAEHNDNYEETAHPVYRTAVHS	PGPT0003760_479	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK002_06143	1551	ectT		Ectoine/hydroxyectoine transporter	GTGAAAGGAAGTTTACTGAAGAATATCGTGTTTTCGGTATCAGCTGTCATTATTGCCGTGCTGGCTATACTGGGAGCCGTTAAACCCGGCGCTTTTGGTGAAGTGGCAGGGTATCTGTACAGATTTACGACGAATACGTTCGGCTGGTTCTATTTGCTCTCGATCTTTGCGATTATCATATTTCTGATCTGGGTTGCGGCCAGCAAATACGGCACGATTCGCCTTGGCGGAGATAAGGAGAAGCCCGAGTATCCGTTCTTCACCTGGATCGGCATGCTGTTCTCCGCAGGATTTGGCGTGGGGCTGGTGTTTTGGGGCGTGGCTGAACCCATGAGTCACTTTTTTAAGACGCCCTTCGGAGGTGTCGAAGCACAAGGCGTAGACGCGGCACGCCTGGCTATGGGCTATTCCTTTTTTCACTGGGGGATCAGTCAATGGTCCGTGTTTGCCTTAGTCGGGCTTGTGATTGCGTTTCTACAGTTCCGCAAGCAGAAGGATGGGCTGGTGTCTACCGCGCTTGAGCCTGTTACCGGTTCAAGGCGCAGCGTGAAGAATATGATTGATATCCTGGCGGTCATTGCAACGGTCATGGGTATCGCTACTTCGATCGGACTCGGCGTTCTGCAAATGAGCGGCGGGTTGAATACCATTATGGGAATTAACAATGGCGTTGGATTGCAGTTATTGATGCTGGGGATTATTTTTGTCGCTTACATGATCTCGTCGACAACGGGACTGGACAAGGGGATTAAATACTTAAGCAACCTCAACCTTGCGATGGCGCTAGCCTTTTTATTGTTTGTGTTTATATGCGGACCCTCCGTATTCATCTTGGAGACGTTCACATTAGCGCTTGGCGACTACATTACGAATTTTGTCTCGTACAGTTTAAGGCTCCAACCCTATGCGGAAGGCACATGGGTACGGGAGTGGACGATATTCTACTGGGCGTGGGCGATTGCTTGGTCGCCGTATGTGGGAGCTTTTGTGGCAAGGGTATCCAAGGGAAGGACGGTTCGCGAATTCATTGTGGGCGTGATGGTTGTCCCCCCGGTCATTGCCTGTCTCTGGATCGCCGTGTTCGGCGGGACGGCCATCTGGTTTGACCTGCACGAGAACACCGGGATAGCCGCAGCTGTTAACGCGGATGTCACGTCGGCACTGTTCCAATTGTTCAACCAATTGCCATTCGCTTCCGTCATGAACGTGCTGGCGATCATCCTTATTCTGACGTTCCTGGTAACGTCCGCGGATTCGGCAACGTATATATTAGCCAGCATGACCACTTATGGCAGCTTGAACCCTCCCCAAACGGCAAAAATCGTGTGGGGCACGCTGATGGCAGCCATTGCCGGCGTCCTGCTGTATGCAGGTGGCCTTGAAGCCTTACAGACAGCTTCGCTGATTGCGGCATTGCCGTTCACCGTACTGCTGCTTCTGATGATCGTTGCGGTAGTGAAGCTGCTGAGCCGGGAGCCGATTCCGATTCGCAAGTCGGATTTGAAACGGTTTCGCCGTCTCGAAGAGGCTGCAAACCGTGGGAAGAAGTGA	MKGSLLKNIVFSVSAVIIAVLAILGAVKPGAFGEVAGYLYRFTTNTFGWFYLLSIFAIIIFLIWVAASKYGTIRLGGDKEKPEYPFFTWIGMLFSAGFGVGLVFWGVAEPMSHFFKTPFGGVEAQGVDAARLAMGYSFFHWGISQWSVFALVGLVIAFLQFRKQKDGLVSTALEPVTGSRRSVKNMIDILAVIATVMGIATSIGLGVLQMSGGLNTIMGINNGVGLQLLMLGIIFVAYMISSTTGLDKGIKYLSNLNLAMALAFLLFVFICGPSVFILETFTLALGDYITNFVSYSLRLQPYAEGTWVREWTIFYWAWAIAWSPYVGAFVARVSKGRTVREFIVGVMVVPPVIACLWIAVFGGTAIWFDLHENTGIAAAVNADVTSALFQLFNQLPFASVMNVLAIILILTFLVTSADSATYILASMTTYGSLNPPQTAKIVWGTLMAAIAGVLLYAGGLEALQTASLIAALPFTVLLLLMIVAVVKLLSREPIPIRKSDLKRFRRLEEAANRGKK	PGPT0013600_768	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK002_06144	342	yybR	COG1733	putative HTH-type transcriptional regulator YybR	ATGCCCTATCAGGATGAGAATTTCGGGTGTCCGGCTGAAGTCGGCCTGCACATGATTAGCGGAAAGTGGAAGCCTCGAATACTATATGAGCTGTTTCAGGAAACCCGCCGTTTCGGTGAGCTTCACCGGAGAATACCTGAAGTATCGCGGCACGTGCTGACCTTGCAATTACGGGAGTTGGAGGAGGACGGCATTGTGAAGCGGACCGTGTTTCATGAGCTGCCTCCCAAGGTAGAGTATTCGATCACGGAGTTTGGCCGACAGTTCGAAGCGGTGCTGAAGCAAATGGTCATTTTGGGCAAGCAGTATATCGGATCTCAACAAGATTTTAAGGAGAAGTAA	MPYQDENFGCPAEVGLHMISGKWKPRILYELFQETRRFGELHRRIPEVSRHVLTLQLRELEEDGIVKRTVFHELPPKVEYSITEFGRQFEAVLKQMVILGKQYIGSQQDFKEK				NA	NA	NA	NA	NA
AK002_06145	405			hypothetical protein	ATGAAACCATCAAATCCTTCAAAACCCGTATGGAAGCCGGAAGATATGAATGCAGCCTTTGCAGACGCGTATAATAGTGAGGATATCGATCAGCTGCTGGCACTGTATGAACCGAACAGCGTTCATGTCCACCGAAACGGAAGCCTGGAAATCGGAATCCATTCCTTCCGCCATACGTTGGAGGAGCTACTGCGGCTCAAAGGTACCATGGTCTCCACCAATGTATACTGTATCCCGTTTGAAAATATCGCTATGCTGCGTGCTCGGTTCACCCTGCAAACGACCGATCCGGATGGCCAACCGCTGGTGCTGCAAGGACATACCTCCGAGATCGTGAGACAACAGCCCGATGGAAGCTGGCTGTACATCGTGGACCATCCTTTCGGTTCGGATACATGGGGATGA	MKPSNPSKPVWKPEDMNAAFADAYNSEDIDQLLALYEPNSVHVHRNGSLEIGIHSFRHTLEELLRLKGTMVSTNVYCIPFENIAMLRARFTLQTTDPDGQPLVLQGHTSEIVRQQPDGSWLYIVDHPFGSDTWG				NA	NA	NA	NA	NA
AK002_06146	978	mhqA_2	COG0346	Putative ring-cleaving dioxygenase MhqA	ATGAACGGATTAAAAGGAATTCACCACGTAACAGCCATTACGAGCAGTGCCGAGAAGAACTACGAGTTCTTCACCTATGTGCTGGGCATGCGGCTCGTGAAGAAGACGGTTAACCAGGACGATATTCAGACCTACCACCTGTTCTTTGCGGATGACAAGGGCAGTGCAGGCACGGATATGACCTTCTTCGACTTCCCGGGTATTCCGAAGGGCAGACACGGTACGGACGAGATCTACAAAACCTCGTTCCGTGTTCCTAACGATGCAGCGCTGGACTATTGGGTCAAGCGATTTGATCGGATGGACGTGAAGCATCAAGGCATTCAAGAGTTATTCGGCAAAAAGACACTCGCTTTTGTTGATTTCGACGATCAGCAATATCAACTCATCTCCGACGAGAACAATGAAGGCGTGGCTTCGGGAACGCCTTGGCAGAAGGGGCCGATTCCCTTGGAGCATGCGATTACAGGACTTGGCCCGGTCTTTGTGCGGGTGTCCAATTTCGATCATTTCAAAGAAGTGATGGAGAAAGTGCTTCAGTTTAAGGAAATCGGCAAGGAAGGCTCACTTCATCTGTTTGAGGTAGGTGAGGGCGGCAATGGCGCGCAGGTCGTTGTCGAGTACAACGCCGTGCTCCCGCGGGCCCAGCAGGGCTTCGGTACCGTTCACCACGCGGCCTTCCGGGTAGAGGACCGTTCGGTGCTGGAGCACTGGATCAAGCGTCTGGACGACTTCCAATTCCATACGTCGGGCTTTGTCGACCGCTATTTCTTCCAGTCCCTGTACGCACGCGTCGCGCCGCAGATTCTGTTCGAGTTTGCCACCGACGGTCCGGGCTTCATGGGGGATGAGCCGTATGAAACGCTGGGCGAAAAATTGTCCCTGCCTCCATTCCTGGAGCCGAAGCGCGAGCAGATCGAGAGCATGGTACGCCCGATCGATACGGTGCGCAGCACGAAGGAATTCGTCAAGGAATGA	MNGLKGIHHVTAITSSAEKNYEFFTYVLGMRLVKKTVNQDDIQTYHLFFADDKGSAGTDMTFFDFPGIPKGRHGTDEIYKTSFRVPNDAALDYWVKRFDRMDVKHQGIQELFGKKTLAFVDFDDQQYQLISDENNEGVASGTPWQKGPIPLEHAITGLGPVFVRVSNFDHFKEVMEKVLQFKEIGKEGSLHLFEVGEGGNGAQVVVEYNAVLPRAQQGFGTVHHAAFRVEDRSVLEHWIKRLDDFQFHTSGFVDRYFFQSLYARVAPQILFEFATDGPGFMGDEPYETLGEKLSLPPFLEPKREQIESMVRPIDTVRSTKEFVKE	PGPT0028510_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
AK002_06147	519	def_2	COG0242	Peptide deformylase	ATGACGGTGAAACCTATTGTGCCATTCGGCGATCCCATCCTGCGCAAAATTGCCCGGCCGGTCGATTCCGTGAATGCCAGAGTATTAAAGATACTGGATGATATGGTCGAGACGCTGTACGACAGCGATGGGCGCGCCGGCCTTGCCGCACCGCAAATCGGCATTTTGCGAAGGCTTATTGTCATGGACTGCGGAGAAGGGCTGATCGAACTGATTAATCCTGAAATCGTGGAGATGGACGGGGAACAAATGGGCCCTGAAGCGTGCCTCTCTTATCCGGGCTACTACGGATACGTGAAGAGAGCCGACAAAGTGACGGTGAAGACATTGAACCGGCAAGGCGAGACGGTAATCCTGAAGGGCGAGGATTATCTGGCCAGATGCATGCAGCATGAGATTGATCACCTGAACGGCATTTTGTTTGTGGATCACGTTCGGGATGGATGGTTGTATCATGAGGAGACGCATCGACGCATCGAGCTGTTACCCGTCATTGGATTATCCAATACAGGCTCATAG	MTVKPIVPFGDPILRKIARPVDSVNARVLKILDDMVETLYDSDGRAGLAAPQIGILRRLIVMDCGEGLIELINPEIVEMDGEQMGPEACLSYPGYYGYVKRADKVTVKTLNRQGETVILKGEDYLARCMQHEIDHLNGILFVDHVRDGWLYHEETHRRIELLPVIGLSNTGS	PGPT0008125_24	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
AK002_06148	243			hypothetical protein	TTGCTCGAATGGATGTTACGTAACGTGATGGCAGAGAGAGGGATATGGTCGGGAGCGGCTTTGGCGCGGCTGATGAAAGAGAAGGCGGATTACAGCCTGTCGGCTGCTTCCATTAGCGCATTGCTGACGAACCAGCCCAAGCAGATGAAGGCAGAGACGTTAGATGCCCTTTGCACAACCTTAGAGTGTACTCCAAGTGACTTATGGGTGCATACACCTCCTTCCAAAACTAAGGGGGCTTAA	MLEWMLRNVMAERGIWSGAALARLMKEKADYSLSAASISALLTNQPKQMKAETLDALCTTLECTPSDLWVHTPPSKTKGA	PGPT0014940_347	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
AK002_06149	951			hypothetical protein	ATGAATATACCGCATACAAGCCGTGCCTATGCCGCCGCTTTGGGATATACGTCCATCATTGGTTTTTCGTTTATGTTCGTAAAGCTGGCGCTGATCCATGCTAACCCGCTGGATACGCTGGCGCACCGGTTTACCATTTCGTTCTTAGCCGCATCGCTGGGCCTCCTCATTGCCCGCAGAAAGGTCCCGATGGATCTGAAACGGCTGCTGGCCATCGTGCCGCTGGCCATATTCTATCCGTTCCTGTTCTTTACGCTGCAAACCTTCGGGTTAGTTTATACCAGTTCGGCCGAGGCCGGAATTATCCACGCTACCGTACCGATCTTTACGCTGCTCTTGGCGTCGCTGTTCTTGAAGGAGCGCTCCAGCTGGGCACAAAAGCTGTTTACCGTGTTGTCGGTGACAGGGATCATCTCCATCTTTGTGTTAAAAGGCGTGTCCTTCGAGCAATCGAGCACGCTCGGAATTGTGCTGATTTTGCTCTCTGCGCTATCCAATGCCGTTTACAGCGTGATGGCCCGCAGGATGACGCAGAAGCAGTCGGTACTGGATATCACCTTCATCATGTCGATGATCGGATTCGTGCTGTTTAACCTGATGTCGGTTGCTCAGCATGCAGCGCTAGGGACGCTCGTCCATTATTTTGACCCGTTTATGCACTCATCCTTCGTCTGGGCGGTTCTTTATCTCGGCGTCTTGTCCTCCCTGGGAACATCGCTCCTGTCCAACTATGCCTTGTCCCAGATCGAGGCTTCCCGGATGGGCATCTTTAACAATCTGGCTACCGTTGTCACGATTTTTGGAGGCGTCGCCTTCTTGAATGAAAAGCTGGCTTACTATCATGTCATCGGAGCAGCGCTCGTCATTGTCGGCGTGATCGGGACCAGCCTTGCAGGCAGAGCCAGGAACGCTAAGAAACGGCTGTCCCGGAACGAATCCAAGCCTGCTTAA	MNIPHTSRAYAAALGYTSIIGFSFMFVKLALIHANPLDTLAHRFTISFLAASLGLLIARRKVPMDLKRLLAIVPLAIFYPFLFFTLQTFGLVYTSSAEAGIIHATVPIFTLLLASLFLKERSSWAQKLFTVLSVTGIISIFVLKGVSFEQSSTLGIVLILLSALSNAVYSVMARRMTQKQSVLDITFIMSMIGFVLFNLMSVAQHAALGTLVHYFDPFMHSSFVWAVLYLGVLSSLGTSLLSNYALSQIEASRMGIFNNLATVVTIFGGVAFLNEKLAYYHVIGAALVIVGVIGTSLAGRARNAKKRLSRNESKPA				NA	NA	NA	NA	NA
AK002_06150	1611			hypothetical protein	ATGTGCATACATGACGAGGCTAAAATACCTATTTACAAACATTTCCTCCCTTCCCATAATAGAAATGAGCCTATGACCTGGGAGGGGACGAATATCAAAATGTATAAGAAGTTCAAATGGTTGACCGTACTCATTGCAGCCGTGTTGGTCGTTATGACAGGATGTCAGGCCGTCGGGGGACTGGATATCAACAAGGCGATGCTGACCAGTCTTGACGTGAAATCCAGCGAATCCAGCGCAAGTATTCGATTCGAGGTGGTGCCTTCGGACAAGGCCCTATCATCTGAAGATAAAGAAGCGATTGATCTTATTAATTCGTTATCCTTGAATATCGATCATGCCATCGTGGAGGATAGCAATACGGTGTCCATGCAAGGCAGCGTTCATTATTCGGACAAGAAGATTCCGCTTCATCTGTCCATGGATGCCAAGGGAATGGCGATTCAATTGGACGGCGCGAAACAGCCGTTCTATCTATCGATGGATACAACCGTTCCGGGATTGCCTGACACCAGCCAGTATGAGCAGGCGATTCAGGATGTCGTGAAGAAGGCGGCAGGACTCGTCCTGAAGCATTTCCCGAACCCGTCCAAAGTTTCGGTGAAGCCTGTCCAGGAGAAGGTGAACGGGGAGAGCTTGAACCTAACGCATCTTCAGATGGAGCTTACGGGCGAAGAGATTTTGAACATGGTTAAGCCTTTCGCCGAAAGTCTGCTTAAAGACGAAGCCGGCTTGAAGCAGGTGATCGGCGATGCTTATGACGCCATTTATCCGATGATAGCCACCATCGGCGAGGCCTACGGCGAAGACGTTGAACTCCTGCCGCAGGAATCCAAGGAAGAGGTCGTCGCGTCGCTCTACGAGATCGTGCATGGCGCGCTGACCGAATTCACGGAGAACTATGATGAACAGAAGGAGCAGTTATTGGAGGAGCTTCCGGGATCCGAAACCGTCTTCGGCAAGGATACGACCCTCAAACTGGACTATTACTTCGACGAGCAGCTGAATACGCGCAAGAATGCGCTGGAGCTGACCGTCGCGCTTCCGGCATCCGAGGACCTGCCATTGAAGGCCTTCAAGGTGTATTCCGAAGGTGAGGTCTGGAATATCGGCGGCGCAGTGAAAGCCAATAAGGTCGACACGTCCAAAGGCGTGCTGGACGTCCTGAATGATTCCGTGACGCCGGGTCAAGTGCTGCGGAACTTCGAGAAGGATTCCCTCATCTATAACGTGTTGAAGGATGATCTGCAAATTACGCAAAAGTTGATGTTCCTCAGTCCCGCGAGCGATGATTATGGATATGGTGTAATCAAGAAGAACAATCAAAGCTTCGTTCCGCTTCGTTACCTGGCAGATCAGCTGGATGCCGAAGTGAAGTGGAGCAAAGGCTCGAAGAGAATTATAGTTATCAATGATTTGACGGGAGAAGAAATCGTGGTAACCATAGGCTCCAAAAAAGCCAGCGTCGGCGGTAAAAACGTGACGCTGGCGGAAGCCCCATTCGTTCATAGTAACGGATCTACCTACGTTCCGCTCCGGTTTATGGCCGAAGCGCTCGGCGCAACGCTTCATCTCGAGGGCGACGGCTGGATTTCGGTCGAACGCGATTAA	MCIHDEAKIPIYKHFLPSHNRNEPMTWEGTNIKMYKKFKWLTVLIAAVLVVMTGCQAVGGLDINKAMLTSLDVKSSESSASIRFEVVPSDKALSSEDKEAIDLINSLSLNIDHAIVEDSNTVSMQGSVHYSDKKIPLHLSMDAKGMAIQLDGAKQPFYLSMDTTVPGLPDTSQYEQAIQDVVKKAAGLVLKHFPNPSKVSVKPVQEKVNGESLNLTHLQMELTGEEILNMVKPFAESLLKDEAGLKQVIGDAYDAIYPMIATIGEAYGEDVELLPQESKEEVVASLYEIVHGALTEFTENYDEQKEQLLEELPGSETVFGKDTTLKLDYYFDEQLNTRKNALELTVALPASEDLPLKAFKVYSEGEVWNIGGAVKANKVDTSKGVLDVLNDSVTPGQVLRNFEKDSLIYNVLKDDLQITQKLMFLSPASDDYGYGVIKKNNQSFVPLRYLADQLDAEVKWSKGSKRIIVINDLTGEEIVVTIGSKKASVGGKNVTLAEAPFVHSNGSTYVPLRFMAEALGATLHLEGDGWISVERD				NA	NA	NA	NA	NA
AK002_06151	702	graR_5	COG0745	Response regulator protein GraR	GTGGTGAATCTCTTGTTTAAAATTATGCTGATCGAAGACGACGTGACCCTGTTCCATGAAGTGCAGGAGCGTCTCTCGCAATGGTCATATGACGTTTATGGCGTCCGCGATTTCAGTGCCGTACTCCAGGAATTCACAGCGATTCAGCCCGACCTGGTCATTATCGACATCCAGCTGCCGAAGTTTGACGGGTTCCATTGGTGCCGAATGATTCGTTCCCACTCCAACGTCCCGATTATATTCCTGTCTTCCCGAGATCATCCCACCGATATGGTGATGTCCATGCAGCTGGGGGCGGATGATTTCATTCAGAAGCCGTTTCACTTCGATGTCCTGATTGCCAAAATCCAGGCCACCCTGCGCCGGGTATACAATTACAACACCGAGCGGACCGAGCTGAGAACATGGCGTGGAGCCACCGTCGAATTCGGCAAAAATACGATAAGCAGTCCTCAGGGCACGGCTGAACTGACAAAGAATGAAATGTTCATTCTGAAGATCCTCATGGAGCGCAAGAACCAGATCGTCAGCCGGGAGGATCTGATCAAGAGCTTATGGGACAACGAGCATTTTGTCAGCGATAATACGTTAACGGTCAACGTCAATCGTCTGCGCAAGAAGCTGGAGCCCTTGGGACTTGACCCTTACATCGAAACCAAGGTGGGACAAGGTTATATCGCAACGGAAGAGGTCCATGCATGA	MVNLLFKIMLIEDDVTLFHEVQERLSQWSYDVYGVRDFSAVLQEFTAIQPDLVIIDIQLPKFDGFHWCRMIRSHSNVPIIFLSSRDHPTDMVMSMQLGADDFIQKPFHFDVLIAKIQATLRRVYNYNTERTELRTWRGATVEFGKNTISSPQGTAELTKNEMFILKILMERKNQIVSREDLIKSLWDNEHFVSDNTLTVNVNRLRKKLEPLGLDPYIETKVGQGYIATEEVHA	PGPT0010230_14	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010230-bceR-K11630	NA	NA
AK002_06152	1005	graS_5		Sensor histidine kinase GraS	ATGATCATGGCCTACATCCGGGAACGGCTAAGCTGGATTCTGTTATTCGTGTTCTTGCAGCTGATGCTTCTGTTTATAGCCGCGGTGGACGCCCAAATCCCGTTCCTGCCCATCCTCTATATCGTGTTTCTGTCGACGCTGTTCTTCCTGGTGTTTCTGTTCGTCAGATACAACCGGGAAACCAAGTTCTACAAAAGTCTCCAGGCATGGGACGACACCTACGACTTAGCCGCCATCAGCGAGCCGGAGCACCCTTTTGAGGCGATTGCCATGGACATGCTCTCCCTGCAGACCGAGCGTTTCAAGAAGGAATCCTCCATTCGCCTGATGGAGATGCAAGGGGAGAAGGACGAGCTGTTATCCTGGATTCATGAAGTGAAAACGCCGCTCACCACGATGCAATTGATGATCGACCGCATGGAAGACGAAACGTTGAAAGCGCAGCTCCAGTATGAATGGCTCCGCATTCACCTGCTGCTTGACCAGCAGCTGCACCAGAAGCGCATCCCCTTTATTCAGAACGATCTGCTGATCGAGCTATCCGCACTTGAACCGATCATCTTTCAGGAAATACGTGCGCTCAAGTCCTGGTGCATGCAGAAAGGCATTGGGTTTGACGTTTCTCTTGAGGTAACGGAAGTGCTGAGCGACGCTAAATGGCTGGGCTTTATCATCCGCCAGCTGTTGACCAATGCGGTCAAATACAGCTCCGCTTCGGACATTCACATCGGGAGCGATCTCGTGGACGACCATGTCAGACTCATCATTCGGGATGCCGGACGCGGCATTGATCCAAAGGACATGCCCCGGATTTTCGATAAAGGCTTCACGTCCACCACCTCGCATCAGGATAGTGCTGCAACCGGCATGGGGCTCTATCTGACGAAAAAAGTAGCCGAGGCCTTGATGATCCGGATCCAGGTGGAATCAAAGCCGGGCATCGGCACAACCTTTACCTTGATCTTTCCGAAACGGAATGAATTCGTAAGCATTACCGGCATGTGA	MIMAYIRERLSWILLFVFLQLMLLFIAAVDAQIPFLPILYIVFLSTLFFLVFLFVRYNRETKFYKSLQAWDDTYDLAAISEPEHPFEAIAMDMLSLQTERFKKESSIRLMEMQGEKDELLSWIHEVKTPLTTMQLMIDRMEDETLKAQLQYEWLRIHLLLDQQLHQKRIPFIQNDLLIELSALEPIIFQEIRALKSWCMQKGIGFDVSLEVTEVLSDAKWLGFIIRQLLTNAVKYSSASDIHIGSDLVDDHVRLIIRDAGRGIDPKDMPRIFDKGFTSTTSHQDSAATGMGLYLTKKVAEALMIRIQVESKPGIGTTFTLIFPKRNEFVSITGM	PGPT0010225_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010225-bcsS-K11629	NA	NA
AK002_06153	762	bceA_2	COG1136	Bacitracin export ATP-binding protein BceA	TTGGCAATTCTTGAAGCAAACCAAATTCATAAAAGCTACGGCAACAAATTCAATAAACAGGAAGTGCTGAAGGGCATCGACATCCGCGTGGACAAAGGCGAATTCGTCAGCATCATGGGCGCTTCGGGCTCAGGGAAAACCACCCTGCTGAACGTGCTCTCCTCGATCGACAAAGTGAGCCTCGGCAGCATCAAAATCGAGGGCAAAGAGTTTACGGGCCTCAAGGAGAAGGAGCTGGCCGAGTTCCGGAAGCATCATCTCGGGTTTATTTTCCAGGAGTATAACCTGCTGGATACGCTGACCGTCAAAGAAAACGTCCTGCTGCCGCTCTCCATTAAGAAGGTATCCAAAAAAGAAGCCGATCAAAAATTCCAAAGAATCGCGACCGAGCTTGGCATCTACGAACTCAAGGATAAATATCCGAACCAAATCTCCGGAGGACAGAAGCAGCGGACCTCTGCCGCCCGGGCGTTCATCCATGATCCGAGCATTATTTTTGCCGATGAGCCGACAGGGGCGCTGGACTCGAAGTCCGCTTCCGATCTGTTGAACAAGCTAAGCGAATTAAATCAGAAGATCGACTCCACGATCATCATGGTTACCCATGATCCCGTGGCCGCCAGCTATTGCACCCGGGTGGTCTTCATTAAGGACGGACAGATCTACACCCAGCTGAATAAAGGCGAGCAATCCCGGCAGGCCTTCTTCAATGACATCATTAAGACTCAGGGCGTGCTAGGCGGTGTTCAGAATGAACATTAA	MAILEANQIHKSYGNKFNKQEVLKGIDIRVDKGEFVSIMGASGSGKTTLLNVLSSIDKVSLGSIKIEGKEFTGLKEKELAEFRKHHLGFIFQEYNLLDTLTVKENVLLPLSIKKVSKKEADQKFQRIATELGIYELKDKYPNQISGGQKQRTSAARAFIHDPSIIFADEPTGALDSKSASDLLNKLSELNQKIDSTIIMVTHDPVAASYCTRVVFIKDGQIYTQLNKGEQSRQAFFNDIIKTQGVLGGVQNEH	PGPT0010200_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010200-bceA|vraD-K11631	NA	NA
AK002_06154	1950	bceB_2	COG0577	Bacitracin export permease protein BceB	ATGAACATTAATTATCTGATCTACCGGAATTTGAAGAAGAATATCAAAAATTATTATCTGTATGTATTTGCGCTCATCTTCAGCGTGGGTCTGTACTTCGCGTTTGTCACGCTGCAGTATGATCCGGCGATGGATGAAGCGAAAGGCTCCCTTAAGGGAGCGGCTGCGCTTGGAGCCGCCTCCGTGCTGCTCGTGGCCATCGTGGCGATCTTCCTGCTGTATGCCAACACGATTTTCATCAAAAGGCGCAGCAAGGAGATCGGACTGTTTCAGCTCATCGGACTGACCAAGGGGAAGATCTTCCGGATCCTCAGTGCGGAGAACCTGATTCTGTACTTCGGCTCCATGGTCATCGGCATCTTTGCCGGCTTCGCGGCTTCGCGCTTAATCCTGATGATCCTGTTCAAGGTGACCGGCGTCGACACCGAAGCAGCCCTCTCCTTCTCGACCGAAGCGCTCATCCAGACCGTGATTGTATTTGCCGTCATCTATGTGCTGATCATGATCATGAATTATACGTTCATCAAAAGGCAGAGCATTCTCTCCCTCTTCCGCGCGGTATCGACGACCGAGAACCAAATTAAGAAAATGTCCTTCGCCGAAATGCTGTTCGGCCTGCTCGGCATCGGACTCATACTTCTTGGCTACTATGTGTCGACCAAGCTGTTCAGCGGAGATTTCACCACCATGAACGAGCTGTTCATGGCCATGATTCTTATCCTGGGGGCGGTGATCATCGGGACTTATCTGTTCTATAAAGGGTCGGTCAGCTTTATATTCAACGCGATCCGGAAGAGCAAGGGCGGTTACTTGTCCCTGAATAATGTGCTGTCCCTGTCCTCCATCATGTTCCGCATGAAATCGAACGCACTGCTGTTAACGATCATCACGACCGTGTCCGCACTCGCGATCGGACTGCTGTCTCTTAGTTATATTTCGTACTATTCCGCCGAGAAATCGGCCGAGCAGAGCGTGCCTAACCATTTTGCGGTAGCGGATCAGAAGGATATTTCCGCATTTATCCAGGCACTTACAGATGAAGATATCGAATTTAAGAAGACCGAACGGGACGTAATCCAGGTGAATGCGGACCTATCCGACATTATCGGGGCCAGCCTGGAGGTATCTGGGCAAGTGGATTCCAGCTCCATGATCATCCCGGTAATCAGTGATGCCAGCGTGAAGGGTAAGGATGTTTCCCCCGGTGAGACGCTGTTCACGGGGTACAGTGACGCGATCCAGCAATTCATGGCGATTCAGACCACAGGGGAAATTGAACTCATAAGCCCTAAACAAAGCTTTAAGCAGAAGCTGATCGGCTTGGACAAGGAAGCCTACGTATCCTATTATTATGCAAGCGGCGGGCTGCCGACAGCGATTGTGGACCAGACCGTATTTGATCAGCTGGTTCAGGATCTGGATCCGAAGATCCAGAAGAAAACCAATGTCTATCACGGCATCGATATTGTGGATCCAAACGCTGTGGATCAGGCCAATAAGATCTTTAAGAGCCTCGGCCTTAGCGAGGGAACAGGGAACCTCTCTCAGACGGAAATGGCTTTCAACCAGAAGAGCAATATGGGCTTGATGATGTTCATCGTGGGATTCCTGGGGCTTACCTTCCTGATTACTTCAGGATGCATCCTGTACTTCAAGCAGATGGACGAAGGTGAAGAGGAGAAGCCGAATTACACGATCCTTCGGAAACTGGGATTCACTCAAGGGAACCTGCTGACGGGGATTCAGATCAAGCAGCTGTTCAACTTCGGCATACCGCTGGTCGTCGGCTTGTCCCACAGTTACTTTGCCGTTAAATCCGGCTGGTTCTTCTTCGGAACCGAGCTGTGGCTGCCGATGGTTATGGTAATGCTCCTGTATACGGCGCTGTACTCCATATTCGGTTTGTTGTCGGTCATGTTCTATAAACGGGTAATTAAAGAAGCGTTATAA	MNINYLIYRNLKKNIKNYYLYVFALIFSVGLYFAFVTLQYDPAMDEAKGSLKGAAALGAASVLLVAIVAIFLLYANTIFIKRRSKEIGLFQLIGLTKGKIFRILSAENLILYFGSMVIGIFAGFAASRLILMILFKVTGVDTEAALSFSTEALIQTVIVFAVIYVLIMIMNYTFIKRQSILSLFRAVSTTENQIKKMSFAEMLFGLLGIGLILLGYYVSTKLFSGDFTTMNELFMAMILILGAVIIGTYLFYKGSVSFIFNAIRKSKGGYLSLNNVLSLSSIMFRMKSNALLLTIITTVSALAIGLLSLSYISYYSAEKSAEQSVPNHFAVADQKDISAFIQALTDEDIEFKKTERDVIQVNADLSDIIGASLEVSGQVDSSSMIIPVISDASVKGKDVSPGETLFTGYSDAIQQFMAIQTTGEIELISPKQSFKQKLIGLDKEAYVSYYYASGGLPTAIVDQTVFDQLVQDLDPKIQKKTNVYHGIDIVDPNAVDQANKIFKSLGLSEGTGNLSQTEMAFNQKSNMGLMMFIVGFLGLTFLITSGCILYFKQMDEGEEEKPNYTILRKLGFTQGNLLTGIQIKQLFNFGIPLVVGLSHSYFAVKSGWFFFGTELWLPMVMVMLLYTALYSIFGLLSVMFYKRVIKEAL	PGPT0010195_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010195-bceB|vraE-K11632	NA	NA
AK002_06155	486			hypothetical protein	ATGGCGCATGCAAATGATGTTCTAATGAATCAGCTGTTAGCGAACGCGAACGATCCCAGCTGGCACGTCCCGTTCCAGCAATCCGTGGAGCAACTGACGGAGGACGAAGCGTTCTGGACGCCGGCCAATGGCAGCCACAGCATTGCGGAGATCATACAGCATCTGCTGTATTGGAACGAAACGTGGCAGACGCGGTACCGCGAATCGCAGGTAGATGCCGTTCCTTCTATTGGAGACAACCATAATAGCTTCATGATTCCGGATAACGCGACTTTTGCCGAGTTAAGGGATCGGCTGCTTGAGGTTTTGCTGCAATGGCAGGAGCTGTTGTCGGCGGCCAAGCTTGAGCAGGAAGTGAACGGATTCCCAGTGCCGGCCAAGTGGTGGGAATTGGTGAGTAATGCGGCCACGCACAATGCTTATCATATCGGTCAAATCGTGTATATCCGGAAGCTGCAGAAGAGCTGCAGCCCGTTGGAATGGTAA	MAHANDVLMNQLLANANDPSWHVPFQQSVEQLTEDEAFWTPANGSHSIAEIIQHLLYWNETWQTRYRESQVDAVPSIGDNHNSFMIPDNATFAELRDRLLEVLLQWQELLSAAKLEQEVNGFPVPAKWWELVSNAATHNAYHIGQIVYIRKLQKSCSPLEW				NA	NA	NA	NA	NA
AK002_06156	402			hypothetical protein	ATGAACCAACGATTCTTCATCTGCCTGCTGCTCTCAGGCGGACTCCTTCTATTAAGCTCGGGAAGCAGCACAGCTTATGCAGGGCCGCAAGACAAGTCTAGAGAGCAGCAGCTTGAGAAGGCCATGCTGCAGCAGCTATACCCGGTAATCCGATCGTCCCTTCAGGACATATACAAGGAGTCGTATCCTGCCTTTGGCTGCGAACGGATTCTATCGATTAACGAGCGGACCACGATGAAAGAGGATAACCAACAGGCCAGTCCGGTTGATGCGGTGCACGGGGCAAGCTATTTTGAGATTACGGTGGGCCTATGCAAGGGAAGCGGGGAGAAGATCGAGCTGCGTTTCAAGAACGATACGCCAACGGCGCAGTATTATTTGGATTTGTTCCGTGTGAGGTAG	MNQRFFICLLLSGGLLLLSSGSSTAYAGPQDKSREQQLEKAMLQQLYPVIRSSLQDIYKESYPAFGCERILSINERTTMKEDNQQASPVDAVHGASYFEITVGLCKGSGEKIELRFKNDTPTAQYYLDLFRVR				NA	NA	NA	NA	NA
AK002_06157	1197	yhhS		putative MFS-type transporter YhhS	TTGTGGAGCAAGGACTTTTTGATTGTGTTCGGCGTCAATTTCCTGCTCTTTTTATGTTTTTATTTATTAGTGGTGATTATGTCCTCATATGCAAAGAATGAGTTTCACGCATCGACGGGAATGGCTGGCCTGGCTTCCAGCATTTTTGTCGTCGGCGCATTGATTGGGCGGTTGGTCGGAGGCAGCATCATCGAGCGGGTCGGCCGCAAAAAACTGCTGTTTACCGGTCTGATCGCCTTCAGCGTTCTCATCGGTTTATACTTTGTCGTAAACAGCTTGAGCGTGCTGCTCGTTGTTCGTTTCTTGCACGGTATCGCCTTCGCCCTTGCCTCAACGGCAACAGGCACGATTGCGGCCAGCCTGATTCCGAATTCGAGAAGAGGCGAAGGTACAGGTTACTATGGCGTAAGCATTATAATCGCTTCGGCAATTGGCCCTTTTATCGGTTTGATGATTAACGAGCATGCTTCGATGATGGCTAACTTTACGCTGTGCGGGGCGCTAGGGGTGCTTTCGCTGCTGTCGGCTTTCTTTATGAACATACCGAAACTGAAACTGACAGCGGAGCAGAAGAAGGATCTGCAAGGGTTGAAGCTATCCAACTTTATTGAGCCGAAGGCGGTGCCGATTTCGCTGGTCAGCTTTGTCATGGGGTTCGGGTATTCCAGCATTTTGACGTACCTGATGATTTTTGCCGGGCAGATCAGTCTGGCCCAAGTGGCGAGTTATTTCTTTATTGTCTATGCTATTGTGGTCATTCTGTCGAGACCGTTCACGGGTCGCTGGTTTGACCAGAGAGGGGCCAATGTGGTGATGTACCCGGCCATTCTATCGTTTGCGATCGGGATGGTTCTGCTCAGCCAAGCCCATCACGGCCTGACCTTGCTGCTCTCGGCCGTATTCGTCGGTCTGGGCTACGGCACGACGCAGTCCAGCGCTCAGGCCCTGGCTATTAAGCGTTCGCCGGCGCACCGGATCGGGCTTGCAACATCGACCTTTTATATTTTCGTGGACGTGGGCATCGGGTTCGGCCCCTTTATACTTGGCTTCCTGACGCCGCTTGTCGGCTTCCGAGGCATGTACGTCGCGATGGCGGTCCTGCTAGCTGCGGGAATCGCCCTCTATCATATACTGGTCGGGAAAAAAGAAAACGACGGGAACGACGGCCATGCGATCGTGCATTCATCAACGATTTAA	MWSKDFLIVFGVNFLLFLCFYLLVVIMSSYAKNEFHASTGMAGLASSIFVVGALIGRLVGGSIIERVGRKKLLFTGLIAFSVLIGLYFVVNSLSVLLVVRFLHGIAFALASTATGTIAASLIPNSRRGEGTGYYGVSIIIASAIGPFIGLMINEHASMMANFTLCGALGVLSLLSAFFMNIPKLKLTAEQKKDLQGLKLSNFIEPKAVPISLVSFVMGFGYSSILTYLMIFAGQISLAQVASYFFIVYAIVVILSRPFTGRWFDQRGANVVMYPAILSFAIGMVLLSQAHHGLTLLLSAVFVGLGYGTTQSSAQALAIKRSPAHRIGLATSTFYIFVDVGIGFGPFILGFLTPLVGFRGMYVAMAVLLAAGIALYHILVGKKENDGNDGHAIVHSSTI				NA	NA	NA	NA	NA
AK002_06158	429			putative HTH-type transcriptional regulator	ATGGACGCCCACAGACACTTTTTTCATAAATACTTTACGCTGTATCGCCCTTTCGTCAATGAGCTTAATCGTAAGCTCGAAGATTACAACCTGTATTATGCCCAGTGGTCCATCATGTACTATCTGGATTTTTATCAGTCGATGACTTTGGTGGAGCTGTCCAGAATGCTGTACGTGGAGAAGCCCACCGTCACCCGAACCGTGAACGCGCTGATCAAGCTGGAATATGTGGAGCAAATCCCGGTGCGCGATAAACGGGAGAAGCGCATTCAGCTATCCAAGGCCGGAGCCGACGTCTTCCTGCAAATTCGCAAGATATTTGACCAATATGAACAGGAGGTTATGGAAGGCGTTTCTGAAGAGGATCAAAATGCGGTCATTCGCGTGATGGAGACGGTCAGGGACAACATTATTAGAAAAGGTGATTAA	MDAHRHFFHKYFTLYRPFVNELNRKLEDYNLYYAQWSIMYYLDFYQSMTLVELSRMLYVEKPTVTRTVNALIKLEYVEQIPVRDKREKRIQLSKAGADVFLQIRKIFDQYEQEVMEGVSEEDQNAVIRVMETVRDNIIRKGD	PGPT0016255_1857	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
AK002_06159	1335		COG0277	L-gulono-1,4-lactone dehydrogenase	ATGAAGCAGATCCAGTGGTCGAATTGGTCGGGATCAGTACGAGCCTATCCAAGAACGGTGTTGTATCCTGCCTCTATTACGGAAGTCGAAAAAGTGGTCCGGATGTGCCGGCAGGAGGGCCGGCGGCTGCGAGTGGTCGGGTCAGGGCATTCGTTTACCCCCATTGCCGCATCCGAGGACTGCCTGATCTCCTTGGACAAGATGCAGGGCCTGGTCCATGTCGATGCTGAAGCCCGAACCGCCACCGTGTGGGCAGGGACGAAGCTGAAGCTGCTGGGCGAGCTGTTGTTTCAGCAGGGGCTGGCACAGGAGAACCTGGGGGATATTGATGTACAGTCCATTGCCGGCGCCATTAGTACAGGGACGCATGGTACGGGCCGGACTTTCGGAAATATATCCACGCAGGTTGTCGGATTGACGGTGGTCACCGGTACAGGCGAGGTGCTGGAGTGCAGCGGTGAGTCGCACCCCGATTGGTTCAAGGCGCTGCAGGTATCCTTAGGCACGCTCGGCATTATCGTGCAAGTGACATTGAGGCTTGAGCCGGCTTACAAAATCGAATATGAAAGCCGGAGAATACCGCTGGGCGAATGCTTGAAGCAGCAGGCGCAATTGGCGGAGGAGAATCGCCACTTCGAGTTTTATTGGTTCCCTTACGCAGAGCCGTGCCAGATCAAGCTGATGAACAAGACGGACCAAGAGGTGAAGGAGCATCGGATCAAGGATTATATCAGCGACGTGTTGGTGGAGAACACCCTCTTCGGGCTGATCTCGGAGCTGTGCCGCAAGCTGCCCAAAGCAAGCCCGTATGTCAGCCGCCTCTCGGCGTCGCAGGTTCCGCTGGGTCGCAAAGTGAATTACAGCCACCGGTTATTCGCGACCCGGCGGCTCGTTCGTTTCAACGAAATGGAGTACAACATTCCCGCAGAGTCAATGAATGCGGTCATTGAAGAAATGCGTGAGGAAATGTCGCGAAGCAAGTACCATGTGCATTTCCCCGTAGAATGCCGTTATGCCAAGGGCGATGATATTTGGTTAAGCCCCGCCTACGGCCGGGACTCCGCCTATATTGCGATCCATATGTACAAAGGCATGCCGCATGAAGATTACTTCAGTGCGATGGAGGGCATCTTCCTGCGGTACGGCGGCAGGCCGCATTGGGGGAAAATGCATCATCTTGAGGCTGCTCAATTGAAGGAGCTGTATCCCATGTGGGAAGCATTCCGCGCAGTGCGGCAAGAGCTGGACCCGGACGGTATCCTGCTGAGCGATTATATGGGCAGGCTGCTTGATGTATCCGGGCCCGTCCCAGATTCGTTCAGTGATATTGGATAG	MKQIQWSNWSGSVRAYPRTVLYPASITEVEKVVRMCRQEGRRLRVVGSGHSFTPIAASEDCLISLDKMQGLVHVDAEARTATVWAGTKLKLLGELLFQQGLAQENLGDIDVQSIAGAISTGTHGTGRTFGNISTQVVGLTVVTGTGEVLECSGESHPDWFKALQVSLGTLGIIVQVTLRLEPAYKIEYESRRIPLGECLKQQAQLAEENRHFEFYWFPYAEPCQIKLMNKTDQEVKEHRIKDYISDVLVENTLFGLISELCRKLPKASPYVSRLSASQVPLGRKVNYSHRLFATRRLVRFNEMEYNIPAESMNAVIEEMREEMSRSKYHVHFPVECRYAKGDDIWLSPAYGRDSAYIAIHMYKGMPHEDYFSAMEGIFLRYGGRPHWGKMHHLEAAQLKELYPMWEAFRAVRQELDPDGILLSDYMGRLLDVSGPVPDSFSDIG				NA	NA	NA	NA	NA
AK002_06160	1131			hypothetical protein	TTGGTGGATCTGGACATGCTGGACGACAATGCCGAAGCGATTGCACAGGCGGCGGGGGGGAAGAAGGTTCGGCTGGCCAGCAAGTCCATCCGCTCCGTGGACGTGCTGAACCGTCTCCTTCGTTCGAACCCGATCTTTCAGGGAATCATGTGTTATACGGCAGCGGAGGCCGTATTTCTGGCGGAACAGGGCTTTGACGATCTGCTGCTGGGATATCCGCAGTGGCAGCCGGAAGCCATTCGCTCCATCGTGAATTTGGTCGGCGAAGGCCGCAGCATTACCTTAATGGTGGACAGCGTGGAGCATGTCGAGCACATCGAACAGTTCGCCAAACAACAGCGGATCGCGATTCCGCTCTGCATTGATATGGATATGTCGGTCCAATATCCGGGTCTGCACTTCGGTGTATGGCGATCGCCCGTCCGTTCATGGGAGGGCATGTATCCTGTCGTAGAACGGATTATCCGCTCCCCGTGGCTTCGCCTGGACGGTATCATGGGGTACGAGGCGCAGGTAGCAGGCGTTGGGGATAACGCAGCCAAGAAGCGTATGAAGAACACCATGGTCCGGTGGCTGAAAAAACGCTCCATCGTTGAAGCGGCCAAGCGGAGGAAAGAAGCCGTTGAGCGGCTTGCCGCCATGGATCTTCGGCTCCGCTTCGTGAATGCAGGGGGAACCGGAAGTTTGGACAGCTCCCGGGAGGAAGCTTGGGTAACCGAAATTACGGCCGGATCAGGCTTCTATGCGCCGGGTCTGTTCGATCATTACGCCTCATTCCGTTATAAGCCGGCAGCGGCTTATGCGGTAGAGGTGGTTCGCATCCCGAAGGCAGGGATCGTGACCTGCATGGGAGGCGGCTACACGGCATCGGGTACGGCGGATAAGGATAAGCTGGCGATGCCTTACTTGCCTTCGGGATTGAAGCTGTTCTCGCTCGAAGGAGCCGGGGAAGTGCAGACGCCGCTGCGTTTGCCAACCCATGTGGAGCTTGGCCTGGGAGACCCGGTGTTCTTCCGCCATGCGAAGGCCGGCGAGCTGTGCGAGCGGTTCAAGGTGCTGTATGCGGTATCGAAAGGCCGCATCGTAGGCGAATATGCAACCTATCGCGGAATGGGGGAGTGTTTTCTATGA	MVDLDMLDDNAEAIAQAAGGKKVRLASKSIRSVDVLNRLLRSNPIFQGIMCYTAAEAVFLAEQGFDDLLLGYPQWQPEAIRSIVNLVGEGRSITLMVDSVEHVEHIEQFAKQQRIAIPLCIDMDMSVQYPGLHFGVWRSPVRSWEGMYPVVERIIRSPWLRLDGIMGYEAQVAGVGDNAAKKRMKNTMVRWLKKRSIVEAAKRRKEAVERLAAMDLRLRFVNAGGTGSLDSSREEAWVTEITAGSGFYAPGLFDHYASFRYKPAAAYAVEVVRIPKAGIVTCMGGGYTASGTADKDKLAMPYLPSGLKLFSLEGAGEVQTPLRLPTHVELGLGDPVFFRHAKAGELCERFKVLYAVSKGRIVGEYATYRGMGECFL				NA	NA	NA	NA	NA
AK002_06161	1284			hypothetical protein	GTGTTGAAGAAAAAACGGCTGTATTTTGCGGCAGCAATGATGCTCACCTTGAGTTTAGCGATCGCACCCGTCACGCAAGCGGCAGGCATCACGATGCAAGTCAACGGGATAACCAAGTCTTTGGATGTTGCCCCGGTTATGGTCAAAGGCAAAGTGCTGGTGCCCATTAAGCATGTAACCGAAATATTGGGCCTGTCCATTCGGTGGGATGCTTCTGCAAAGAAGATCACAGCCGTTCGAGGCGATGTCTCTGCCGAGCTGGTTCTGGGCAGTGATGTGGCTACGGTAAGAAAAGAAACTATCGTCACAAAAGTGAAGCTGGACCAGCCCGCCAAACTGCAGGATAACAGGGTGATGGTTCCGCTTCGTTTTTTGGCGGAAGTGTTTGAGGCCAAGGTGCAGTGGAACCAACAAAAACAGCTGGTTAGCATTGCGTATGGCAGTGGCGGGGGAACTCAGGAGCAGGGGCAGCCGGGTCCGGCCGGCCCGCAGGGTCCAAAAGGCGAACCTGGCGAAAAGGGCCCGCAGGGTCCACAGGGGCCTCAAGGGCCCCAAGGTCCGCAAGGTCCGTCCGGGTCTTCAGGATCTTCGGGCTCCCAAGGTCCAACTGGACCAGCAGGGCCATCCGGGCCTAAGGGCGATCCAGGCCCCACGGGATCCCCGGGTCCGAAAGGCGATAAAGGAGATCAAGGCGAACAAGGCCCGGCAGGTCCGCAGGGTGAAAAGGGGGATCAAGGGGATCCTGGACCTCAGGGAATCCAGGGCGATAAGGGCGACCTCGGCCCGGTAGGGCCACAAGGTCCGCAAGGGATACAAGGAGCTCAGGGACCCCAAGGCCCCGCAGGTCCAGCGGGGCCTGTTGGACCTGCGGGAGGGAGCTCCACAGGAACTTATGCATACGCAGGGAATACGTCGGGAGGCGTTATTCCAGTACTGCTCGGCGGGACCCCGGTTCAGCTGCCGGACAATCCGAAAGTAGCAGGAATCATGGCAGATGGAAGTTCAACATTGTTTACGGTTCATGAAACAGGGATTTACTATATTTCTTATACGATTAATTTAACGTCAGATTTGCTTATGGGCTCAAGGATTACTCGAAACGGTATCTCAATCATGCAGAGTGACGAAGCACCAATTAAATCGAAGTCGCATTTTCACGCCCAGTTTATAGAACAATTGAATGCAGGCGATATGCTTAATCTTCAATTGTATGGCGTATTAGGTGCTGCAACCCTTGCACAAGGCAACGGCGCTTCCCTAACCATCATCAAATTAGCCGATTAG	MLKKKRLYFAAAMMLTLSLAIAPVTQAAGITMQVNGITKSLDVAPVMVKGKVLVPIKHVTEILGLSIRWDASAKKITAVRGDVSAELVLGSDVATVRKETIVTKVKLDQPAKLQDNRVMVPLRFLAEVFEAKVQWNQQKQLVSIAYGSGGGTQEQGQPGPAGPQGPKGEPGEKGPQGPQGPQGPQGPQGPSGSSGSSGSQGPTGPAGPSGPKGDPGPTGSPGPKGDKGDQGEQGPAGPQGEKGDQGDPGPQGIQGDKGDLGPVGPQGPQGIQGAQGPQGPAGPAGPVGPAGGSSTGTYAYAGNTSGGVIPVLLGGTPVQLPDNPKVAGIMADGSSTLFTVHETGIYYISYTINLTSDLLMGSRITRNGISIMQSDEAPIKSKSHFHAQFIEQLNAGDMLNLQLYGVLGAATLAQGNGASLTIIKLAD				NA	NA	NA	NA	NA
AK002_06162	171			hypothetical protein	ATGAAACGACTTCATGATGCACCATTGCTGAAAGCCAAGCTGGAGCAATTTCAATTCGGAAGCATGCTGAATTTGGGCAATCCTGCGCCCTTTACCTTACAGCAATACGAGCCCGGCGAGATCATTCTGCATGAGGGTTTTGCTATGCAGTCCCTGTTGTTCTTCGTGTAA	MKRLHDAPLLKAKLEQFQFGSMLNLGNPAPFTLQQYEPGEIILHEGFAMQSLLFFV				NA	NA	NA	NA	NA
AK002_06163	516			hypothetical protein	GTGACCTCCAGCATCGAAACCGGCAAATCGCTGCTTCTGCGTTTTGGCCATCTCTTTTCCATCATCGGGGATATTGAATTGGTTCGAGACGTTCCTGTCCAATCCCAGATTGAAGCCGTTAACGAATGCCTGTTCATCGGGCTGTCGTTTGATTATATCAGGCAGCATGAAATGACGAACGCCCGCTTTACCTCCGCCTTGCTGGATCACCTGAGCTACAAACTCCAGACCTGCACGACCGCTTCCCGCATCAATCTGTTGGCTTCCATGGAGAACCGGTTTGCCAGCTACCTGATGTCCACCATGTCGCCTGGACCGGATCCTTCCTTCGGGATGGAGCTGAGAACCGACCATATCGGGGAGATTGCCAGCTTGCTTGGCACCACGCACCGACATTTGAATAGGGTAATGCATGCCTTCGCCCAAAAGGGGGTCCTGGAACGAAACGGACAGACTATCCGCATTCTGAACTGGCCAGCTCTGGAGCACGCCTCGAACGGCATCCGCTATGAGTAG	MTSSIETGKSLLLRFGHLFSIIGDIELVRDVPVQSQIEAVNECLFIGLSFDYIRQHEMTNARFTSALLDHLSYKLQTCTTASRINLLASMENRFASYLMSTMSPGPDPSFGMELRTDHIGEIASLLGTTHRHLNRVMHAFAQKGVLERNGQTIRILNWPALEHASNGIRYE	PGPT0001075_407	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001075-dnr-K21563	NA	NA
AK002_06164	489	sigM_6	COG1595	ECF RNA polymerase sigma factor SigM	GTGACGGATTTGCACCAGATCTACCATCAACACTTTCAAGACGTGTACCGGTTTCTGCAGTCGCTAAGCAGAGACGAGCATGTTGCGGAAGAACTCACGCAGGAGACGTTTTTCAAAGCACTGAAGCATATCGATTCGTTTCAAGGCACGTGCAAGCTGAGCGTGTGGCTATGCCAAATCGCTAAACATACATACTTCTCCTATCTTGATAAACAAAAGCGGTATGAGCCGGCCCCGCAGATCGACCACGGCAGCGGTCAGGATATCGCATGGAAAACCGTGGAAAGGGCTGAGGCTTTTCGCATCCATCAAATCCTGCACCGGATGGACGAGCCGTATAAAGAGGTGTTTACGCTGCGAGTGTTCGGGGAATTGTCGTTTGGCGAAATCAGCCGGCTGTTTGGAAAAACCGAGAGCTGGGCAAGAGTCACCTTCTTTCGAGCCAAGCAAAAAATCCAAAGCCTATACAAGGAGGGGAATCAATCGTGA	MTDLHQIYHQHFQDVYRFLQSLSRDEHVAEELTQETFFKALKHIDSFQGTCKLSVWLCQIAKHTYFSYLDKQKRYEPAPQIDHGSGQDIAWKTVERAEAFRIHQILHRMDEPYKEVFTLRVFGELSFGEISRLFGKTESWARVTFFRAKQKIQSLYKEGNQS	PGPT0014960_12090	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK002_06165	705			hypothetical protein	GTGAGCCGAATATCGTGCGAGATTATTCAGGATTTGCTGCCTTTGTACCATGATGATGTATGCAGCGCAGACACCAAAACCTTGGTAGAAGAGCATCTGGCGGATTGCCCGGCTTGCCGGGAGGTGCTGAGCCATATGAGCTCCCCGATGTCGCTGCCCACCCAAACGATGGAGCAAAACAAGGATGAGGGAGCCGCCTTGCGGCAAGTTGCGGCCCAGTGGTCGCGCACCAAATGGATCTCGTTTACCAAAGGTCTATTGATCAGCTGCTTAGCAGTCGGCCTCTTGTTCCTGGCATATGCGGGACTGTTCGAATGGAACATTACAAGCGTGCCGACCCGCGTGATGCAGGTATCCGATATCAGTCAGCTGAAGGATGGGCGCATTGCTTATCACGTGAAGATGACCGACGGCTATAATGTCAACCAAGCCAGCTACGATACGGATGAGGAAGGAAACTTCTATGTGACACCCAAGCGTCCCATCATCAAATCTAAAAAATTCGCGAATATGGGACTGTCCAATATGTACTATACGAACGATATTGAAGAGCGAAATGCCTACGAGAAGAGCTTTGGCGACGGCGTTCAGATCAAGGCCCTCTACTTGGGGACGCCGGATGACCGCGTTCTGATCTGGGAGCAAGGCATGGAGCTGCCACCGGCAAGCGAGTCTGTCGAGATGCAGTTCAGGAGCGGCGAGTAA	MSRISCEIIQDLLPLYHDDVCSADTKTLVEEHLADCPACREVLSHMSSPMSLPTQTMEQNKDEGAALRQVAAQWSRTKWISFTKGLLISCLAVGLLFLAYAGLFEWNITSVPTRVMQVSDISQLKDGRIAYHVKMTDGYNVNQASYDTDEEGNFYVTPKRPIIKSKKFANMGLSNMYYTNDIEERNAYEKSFGDGVQIKALYLGTPDDRVLIWEQGMELPPASESVEMQFRSGE				NA	NA	NA	NA	NA
AK002_06166	438			hypothetical protein	TTGCGGGTGGCCAGATATTTTGTGTTGTGGTTCGTCTTTATATTTCTGTTTACCGGTGCTGTCGTAGGCTTGGAGTATACCGAAGGATACAAGATCACGACGACGGAATATTTCGGCCTTCGTAATGCGGGTTTTGTTCTGATGATTATCCCGATTCTCATATCCTCGCTTCTATACCCGGTGATCGTGCTCCCTTTATCGTGGTTAATGGGCATGATTCGATGGGTCAGAGCTTCACTCATCCTGAATGCCCTGCTGTATGCCGTAATGTGGGCTGCGGCCGGAATCGTGCTGTTCTATGAAATCTATGATGATCGATTCATACAGGAATATGAACTTCATGTCAGCAACGCAGTCATGCTGTTTGGGGTTATCGGCTTGATCTACGGCTGGATCGAGCGGAAGGTTCGGCGTAATCATCCGGCCGACTTGGTGTAA	MRVARYFVLWFVFIFLFTGAVVGLEYTEGYKITTTEYFGLRNAGFVLMIIPILISSLLYPVIVLPLSWLMGMIRWVRASLILNALLYAVMWAAAGIVLFYEIYDDRFIQEYELHVSNAVMLFGVIGLIYGWIERKVRRNHPADLV				NA	NA	NA	NA	NA
AK002_06167	1062	fgd		F420-dependent glucose-6-phosphate dehydrogenase	ATGGAGATTGGGGTTAGCTCGTTCGTGGAGACGTGGCCGGATGTGAAGACCGGCGAAGTGATAAGCCATGCGCAGCGGCTGCGCGAGGTGGTTGAGGAAATCGTCCTGGCCGATCAGGTTGGATTGGATGTTTATGGCGTAGGGGAGCATCACCGCAAGGATTATGCAGCGTCTTCGCCTGCGGTCGTTCTTGCCGCGGCTGCGTCGCAGACGAAGTGGATTCGGCTGACCAGCGCGGTGACGGTGCTGTCTTCCGCGGATCCGGTACGGGTCTTTCAGGATTTTGCCACCTTGGACGCGATTTCGAACGGACGCGCGGAGATTATGGCCGGCAGGGGTTCGTTCATCGAATCGTTCCCGTTATTCGGCTATGATCTGAGTCATTATGACGAGCTGTTCGAGGAGAAGCTGGAGCTGCTGCTCAAAATACGCGAGTCGGAAAAAGTCACTTGGCAGGGCGAGCATCGCCCGGCGATCCATAACTTGGGCGTCTATCCGCGTCCGGTTCAGAACCCGCTGCCGGTGTGGATCGGAAGCGGAGGCAATTCGGAATCGGTCGTGCGGGCAGGCCTGCTCGGCCTCCCGCTGGTACTGGCGATTATCGGCGGCAGTCCCCTGCAGTTCGCGCCGCTGGTCAAGCTGTATAAAGAAGCGGCAGCTCATGCCGGTCATGATGTGTCAAAGCTGCCGATCGGCTCGCATTCCCACGGATTCATTGCGGAAGAAACCGAGCTGGCAGCGGACAAGTTCTTCCCTTCAACCCAAGCCAGCATGAACGTGCTGGGACGGGAGCGCGGCTGGGGGTACTATGACCGGGCAAGATTCGATGCGGCCCGAAGCTTCGAAGGTGCATTGTATGTAGGAGATCCTGAGACGGTGGCCGAGAAGATCATTCACCTGCGCAAGCATGTGGGCATTACCCGCTTTATGCTGCATGTGCCTGTGGGAACGATGCCTCACGACGAAGTCATGAGGGCCATCGAACTGCTGGGGACCGAAGTCGCCCCTTTGGTCCGCAAGGAAATCGACCGCTGGGAAGCGGCTGGTGAGCCTGCGGAGTAA	MEIGVSSFVETWPDVKTGEVISHAQRLREVVEEIVLADQVGLDVYGVGEHHRKDYAASSPAVVLAAAASQTKWIRLTSAVTVLSSADPVRVFQDFATLDAISNGRAEIMAGRGSFIESFPLFGYDLSHYDELFEEKLELLLKIRESEKVTWQGEHRPAIHNLGVYPRPVQNPLPVWIGSGGNSESVVRAGLLGLPLVLAIIGGSPLQFAPLVKLYKEAAAHAGHDVSKLPIGSHSHGFIAEETELAADKFFPSTQASMNVLGRERGWGYYDRARFDAARSFEGALYVGDPETVAEKIIHLRKHVGITRFMLHVPVGTMPHDEVMRAIELLGTEVAPLVRKEIDRWEAAGEPAE				NA	NA	NA	NA	NA
AK002_06168	510			hypothetical protein	ATGACAAGCAAAATGATTACACGGGTAGAAGGTCAAGTGATCGTACTGGAGCGCGTATTTAATGCACCAAGAGAGCTGGTATTCAAGGTGCTCACCGATGGAGAGCATCTGAAGCAGTGGTGGGGACCTCGCGGATGGGAAGTTACCGTATCCAACATGGATTTCCGTCCTGGCGGCCAATGGCATTACTGCATGAAGTGCATGGATCAGAATCAAGGGGATTTCTATGGTATGGAATCCTGGGGCAAATCGGTCTACCAGGAAATTGACGAGCCCGAGAAAATCGTCTACATCGACTATTTCTCGGATGCGGAAGGCAATATTGCGGAGGGAATGCCCGCAACCACGGTGACGATGACGTTTGAGAAAGTGGATGGAAAGACCAAGCTGGTCAATCGAGGGGTATATGAATCCGCGGAAGCGCTCCAAGCGGTATTGGATATGGGAATGGAAGAAGGCATTACCCAAACCTGGGATCGGTTGGAGGAATACTTGGCATCGAAACAATAA	MTSKMITRVEGQVIVLERVFNAPRELVFKVLTDGEHLKQWWGPRGWEVTVSNMDFRPGGQWHYCMKCMDQNQGDFYGMESWGKSVYQEIDEPEKIVYIDYFSDAEGNIAEGMPATTVTMTFEKVDGKTKLVNRGVYESAEALQAVLDMGMEEGITQTWDRLEEYLASKQ				NA	NA	NA	NA	NA
AK002_06169	330			hypothetical protein	ATGGAACTGACCACATTTAACGCATTAGCCGAACCAAGCCGTTTTCGCATCGTGAATCTCCTGCAGAAGGGGCCGCTTACGGTAGGGGAAATCGCCGAACGTCTTGACATTCGCCAGCCTCAAGCCTCGAAACATTTGAAGGTGCTGCTGGATGCCGGACTGGTCGAGGTGAGGGCGGATGCAAACCGACGGAATTACATGCTGCGGTCGGAGCCGTTTCAGGAATTGGACCGTTGGCTCGATAATTACCGCAGCATATGGAACGAACGGTTTGACAACTTGGATGATTACTTGGAGAAGCTTCAATCGGATATGAAGAAACAAGAATAA	MELTTFNALAEPSRFRIVNLLQKGPLTVGEIAERLDIRQPQASKHLKVLLDAGLVEVRADANRRNYMLRSEPFQELDRWLDNYRSIWNERFDNLDDYLEKLQSDMKKQE				NA	NA	NA	NA	NA
AK002_06170	357	uvrC_3		UvrABC system protein C	GTGATCCATATAACCATCCCTAAGCCGGACGTCACCATAACCAAGCAGGATGCTCCGGAACTGAGCCATATTTACGGATTTACGGATTTTCACCTGATTCCGAGAGACCGGGGCGGGATTTTCATGTTCTACAACAGCAAAGGGGAGCTTCTGTTCGTTGGCAAAGCAAGAAAGCTGAGACCGCGGATCAAGAAGCATTTTGAAGACAGCGTCTCCCCGATCAAGGAGCATCGGAACGAAGTGGCGAGCATCGAGGTTTGCGTCATTGAAGATGCCGTGCATAGAGAGATATATGAAACCTACATCATTAATGAATTCAAGGCCAAATACAATGTGGACAAGGTGTTCTTTCGATAA	MIHITIPKPDVTITKQDAPELSHIYGFTDFHLIPRDRGGIFMFYNSKGELLFVGKARKLRPRIKKHFEDSVSPIKEHRNEVASIEVCVIEDAVHREIYETYIINEFKAKYNVDKVFFR				NA	NA	NA	NA	NA
AK002_06171	312			hypothetical protein	ATGAGCATTCAATATCCCGGACACCAGGAGCAAACCTTATATCAAGCTGAACCCAGCATGAAGCACAGCATCAAATCGGTTCGCGATCATATCCACCATCTATGCAAGCAGCATGCGAACCAGCTGGTTCGCGTCGAAACGCTTGACGGCGATGTTTTTGAAGGTACGATCATGCATTGCGAAAAGGGAATTCTGTACTTGAGCATGCCCGGATACGGAAACCAGCGCGGCTTCGGTCCCAGTTACTATAATAATGTAATCCTGCCACTTGTCCTCTTCGAATTGCTTGTCATCACCTTGCTTTACATCTAG	MSIQYPGHQEQTLYQAEPSMKHSIKSVRDHIHHLCKQHANQLVRVETLDGDVFEGTIMHCEKGILYLSMPGYGNQRGFGPSYYNNVILPLVLFELLVITLLYI				NA	NA	NA	NA	NA
AK002_06172	291			hypothetical protein	ATGGCATTTATGCCGCCGCAAGGACCCCAGGGACCGATGCAAGGGCCCACTTCCCCGCCCCCAACATCTGTCCCCCAACAGCCTTTGGCCAGTACCTTCGCAGTTGATCCTGGAGCGATCAGGGGCTGTTTGTTCAGAAATACCTATATTTGGCCGACACGTGGACCCGGCTTCTGGTTTTTCCCGACTTTTGTTGGCCGCACCTCGGTTGCCGGCTTCCGCTGGACGGGATGGATGTGGGTATATTCAGGGCTCGACTTAAGAAGTATCGAGTCGTTCACCTGCTTCTGA	MAFMPPQGPQGPMQGPTSPPPTSVPQQPLASTFAVDPGAIRGCLFRNTYIWPTRGPGFWFFPTFVGRTSVAGFRWTGWMWVYSGLDLRSIESFTCF				NA	NA	NA	NA	NA
AK002_06173	1206	ydhP_3	COG2814	Inner membrane transport protein YdhP	ATGGATATTTCGCAACATGCCACTGGGGAAAAAAGCGGCAAAGAACCCTTTCCCATCTCTATACTCTCTCTCACCGTGGGTGCATTTGCCATTGGCATGACGGAGTTTGTCATTATGGGGATCCTCCCCAATGTAGCCGATGATCTGAATGTCAGCATCGCGTCTGCCGGGCAGCTGATTACGATGTATGCCCTCGGGGTAGCCGTAGGAGCCCCTATTCTGACCGTCCTTACTAACCAAATTCCGCAGAAAAAGCTGTTACTGCTGCTCATGGGCCTGTTCATCCTGGGCAACGGCATCTCGGTCTTCGCTCCGAACTATGCCGTTCTGATGGGCGCCCGGATGCTGACCGCGCTGACGCACGGGACCTTCTTCGGCGTGGGCGCTGTCATCGCATCCAATCTGGTGCGGCCGGACAAGCGTGCCGGAGCGGTGTCCATCATGATGGCAGGATTAACGATAGCCAATATCATCGGGGTTCCGATCGGTACCTTCATCGGCCAAACGATGGGCTGGCGCGCTTCATTCGGCGCGATTGCCATCATGGGCGTGTTGGCATTGATCGGCATCCTGATTTTCATACCTAAGATACGGCAGGAGCAAGCGACAAGCATCGTTCAGCAGATCACGGCCATCATTAGACCCCAGCTTCTTCTCTTCCTGCTGATTGGCGCGCTTGGCAATGCCGGCCTGTTCGCCGTCTTCACTTATATCGCGCCCCTGCTGATTGAGATCACGGGCTTTGCGGAACCCAGCGTCACCTGGATTCTGATCCTGTTCGGTATCGGCGTGACCGTCGGCAACATCGTAGGCGGCAGGCTGGCGGACTGGAAGCTGCTGCCCTCCATCCTGGGCGTTTACTTTGCGACGGCCGTCATTCTGACCATCCTCACGGTGACTATCCATCACCCGTTCACGGCTGTGCTGACCATCGTGCTGTGGGGAGCCGCCTCTTTCGCCGTTATGCCGGGAATGCAGGTGCGCGTGATGAGTCTGGCCCAATCCGCTCCTGCACTGGCCTCCACAGCAACCCATTCCGCAGGCAATCTCGGAAATGCGGCGGGCGCTTTTATCGGGGGATTGGTCATTACGCATCTAAGCTTAACGGCCCTGCCTTGGGTGGGCGCCGGATTGGTAGCGCTCGCCTTCATTCTGGGAGCAGCCTGCTATATGTATGAGCGCAAGGCCGTGACGGCTAATGCCTAA	MDISQHATGEKSGKEPFPISILSLTVGAFAIGMTEFVIMGILPNVADDLNVSIASAGQLITMYALGVAVGAPILTVLTNQIPQKKLLLLLMGLFILGNGISVFAPNYAVLMGARMLTALTHGTFFGVGAVIASNLVRPDKRAGAVSIMMAGLTIANIIGVPIGTFIGQTMGWRASFGAIAIMGVLALIGILIFIPKIRQEQATSIVQQITAIIRPQLLLFLLIGALGNAGLFAVFTYIAPLLIEITGFAEPSVTWILILFGIGVTVGNIVGGRLADWKLLPSILGVYFATAVILTILTVTIHHPFTAVLTIVLWGAASFAVMPGMQVRVMSLAQSAPALASTATHSAGNLGNAAGAFIGGLVITHLSLTALPWVGAGLVALAFILGAACYMYERKAVTANA	PGPT0028991_1530	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
AK002_06174	477	greA_2	COG0782	Transcription elongation factor GreA	ATGGCAGAAGAACTGATCTTGACCCAGGAGGGCTATGACAAACTCCAGGAGGAACTTGACGATCTCAAGTATGTAAAACGCAAAGAATTAGCGGAACGGATCAAGCTCGCGATCAGCTATGGTGACTTGAAGGAGAACAGCGAGTACCACTCGGCCAAGAACGACCAGGCGTTTATGGAAACGCGCATCATCATCCTGGAAAAAACGCTTAACAACGCCCGGATCGTCGACGCTAAGGATATCAGCTCGACGACGGTGAATGTCGGTTCGAACGTCGTCCTGAATGACATCGAGTTTTCGGAGAGGCTTGAATATCAGGTGGTCGGCCCGGCTGAAGCGGATGTGGCGAACAATAAAGTTTCTTATGAAAGCCCGCTCGGCAAAGCGCTGATGGGCAAAGCGGTAGGCGATAAAGTCCACGTGGAAGCGCCGATGGGCATCGTGAAGTACGAATTGCTGGAGATCAAGGCGTTGTAG	MAEELILTQEGYDKLQEELDDLKYVKRKELAERIKLAISYGDLKENSEYHSAKNDQAFMETRIIILEKTLNNARIVDAKDISSTTVNVGSNVVLNDIEFSERLEYQVVGPAEADVANNKVSYESPLGKALMGKAVGDKVHVEAPMGIVKYELLEIKAL	PGPT0030495_779	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
AK002_06175	1170	mtlD	COG0246	Mannitol-1-phosphate 5-dehydrogenase	ATGAAGGCAGTCCATTTCGGAGCGGGCAACATCGGACGCGGTTTTATAGGGCTCTTGCTGTCACAGGCCGGTTATGAGGTTTGTTTTGTCGACGTAAACGAAGAGCTGGTATCAGAGCTGAAGGCGCGCGGGGAGTATCCCGTAACCCTGGCCAGCGAAGGGCAGGAGACCACGGTGGTCAAAGGCATCACCGCTCTCAATAGCGCCTCGGAACCGGAAGCTGCCGCGCGTGCGGTAGCGGAAGCGGATCTCGTCACGACGGCGGTCGGCGTCAACATCCTCAAATTTATCGCCGGCACCATTGCCGAGGGGCTGAAGCTTCGGCTGCAAACGGGCTCGGCATCGCCGCTTCATATTATTGCATGCGAGAACGCCATCGGCGGCAGCTCGCAGCTGAAAGAGCATGTCTATGGGAAGCTTGATGACGAGACGAAGCGTAAGGCTGACCAGCTCGTGGCTTTCCCGGATGCGGCCGTAGACCGGATCGTGCCGCTGCAGCAGCATGAGGACCGTCTGAAGGTCGTGGTGGAGCCGTTCTATGAGTGGGCGGTGGATCGTTCGCAGATGTTTGAGGATTATGTCCCTGTTGAAGGCATACACTACGTGGACCGCCTGGAGCCATACATTGAACGCAAGCTGTTCACGGTGAATACCGGTCACTGCTCGGCTGCGTATGTAGGCTTTCTGAAAGGCTATGAGACGATCCAGGACGCCATGAAGGACGAAGCGGTTGCAGGCCATGTCCGCGCGGTGCTCGAGGAAACGGGAGCTGCGCTCATACACAAGCACGGCTTCGATCCTTCCGAGCACCAAGCGTACATTGACACCATCCTGGAGCGTTTTCGCAATCCCGCGCTGACCGACGAGGTGTCCCGCGTTGGCCGCTCCCCGATCCGGAAGCTGTCCCCGGGCGACCGTCTGGTTTCGCCGGCTATGTTGGCTTTCGAGAGCGGACTCGAGTATAAGAGCCTGGCAAAATCCATGGCGGCGGCCCTGCTGTTCGATGTTCCGGAAGATCCGGAAAGCGTGGAGCTGCAAGCCTCCGTCCGGGATATCGGCGTAAGCGACACGGCTTCCCAATATACCGGCATTGCCGGAGAGCATCCCATCATGGGCGAGCTGATGGAGCAGTATGAGGCCTTGAAGGCCGAGCTCGAAACGAATGCATAA	MKAVHFGAGNIGRGFIGLLLSQAGYEVCFVDVNEELVSELKARGEYPVTLASEGQETTVVKGITALNSASEPEAAARAVAEADLVTTAVGVNILKFIAGTIAEGLKLRLQTGSASPLHIIACENAIGGSSQLKEHVYGKLDDETKRKADQLVAFPDAAVDRIVPLQQHEDRLKVVVEPFYEWAVDRSQMFEDYVPVEGIHYVDRLEPYIERKLFTVNTGHCSAAYVGFLKGYETIQDAMKDEAVAGHVRAVLEETGAALIHKHGFDPSEHQAYIDTILERFRNPALTDEVSRVGRSPIRKLSPGDRLVSPAMLAFESGLEYKSLAKSMAAALLFDVPEDPESVELQASVRDIGVSDTASQYTGIAGEHPIMGELMEQYEALKAELETNA	PGPT0013700_140	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0013700-mtlD-K00009	NA	NA
AK002_06176	441	mtlF	COG2213	Mannitol-specific phosphotransferase enzyme IIA component	ATGAATAACATACTGTCCAAAGATAAAGTCGTACTGAACGCAAAGGCTGACAGCAAGAGCGAAGCCATTCGCATGGCGGGGAACCTGCTGGTGCAGGCAGGCCATGTATCGGCCGATTACGTGGATAAAATGCTCGAACGCGAAGAAATTGCGTCCACTTACATGGGCGGGGGACTTGCGATTCCCCATGGCACGAAAGAAGCAAAAGGTATGGTCATCTCCACGGGATTGTCGATCGTTCGCTTCCCGGAAGGCGTGGATTTCGGCGGAGACGAGCCGGCGTTCATCGTCATTGGCATCGCGGCTGCCGGCGGCGACCATATGGAGATTCTGACGAATGTGGCCATGATTTTCACGGATGACGAGAGCATTGAGAAGGTCATGAACGCTTCCAGCGAGGAGGAGATTCTGGCCATCTTCGAGGGAGGAATGGGCGCATGA	MNNILSKDKVVLNAKADSKSEAIRMAGNLLVQAGHVSADYVDKMLEREEIASTYMGGGLAIPHGTKEAKGMVISTGLSIVRFPEGVDFGGDEPAFIVIGIAAAGGDHMEILTNVAMIFTDDESIEKVMNASSEEEILAIFEGGMGA	PGPT0016940_202	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL_PTS_SYSTEM,PGPT0016940-cmtB-K02798	NA	NA
AK002_06177	2070	mtlR		Transcriptional regulator MtlR	ATGGATCTGGGACACATTACTGCCCGCCAGCGACAAATCCTTCTGCTCCTCATGAGCAGGACCGATGGCATGACGGCTGCAGAAATAGCCGCTGACGTTGGGGTCAGCGTCAGGACGGTTCACCGGGAAATGGAGGAGATCGAGAAAGACCTGCAAGGTACGGGCGTTGTGCTTCTCAAAAAGTCGGGAACGGGCATCCGGCTGGAAGAAGAGAAGCCCGAAGGGTTGTCCCTGCTGCGACGATCCCTGCTTGCGGGGAAGCCGGCCGATTATTCCGTGGAAGAACGCAAAATCCTCATGCTGTGCGCTTTGCTTGAGGCGGATGAGCCCATCAAATTGTTTGCTTTGGCCCATAGTTTGAAGGTAACCGTTCCGACTGTGAGCAATGATCTGGATGAGCTGGAGCCGTGGATGAAGCGGTTTAACCTGAAACTCATACGGCGCCGGGGCTACGGCATCGAAATCGACGGCGCGGAAGGCGTAAGGCGAAGGGCGATTGGCAGGCTCGCCGAGGAATATCTGGATTATTCCGATCTTGTCGGTGACGGATACAGCGACACGCGGGAACCGGTGACGGCCCGGCTGCTGTCCATGATCGATAAACCGGCTTTGCTGGATGTAGAGAAAACCTTGTGGGATATGAATTGGGATTGGACGGAGGATCTTAGCGAGAGTGCCTACACTTCGACGCTGATCGCGTTATCGGTTTCCGTAAACAGGATCAAGCGGGGACGGGGCATGGAAGCTGCCGATATCGCGGGATACCCTCCTTCCTCTGTTTCCGTCGAGGAGGCGCGAGATTTTGTTGGTCGCCTCGGCGAGAAACTGGAGATGATTTTCCCCGAATCTGAAATGATCTATATCGCCTATTTGTTTGAGGCGGCGAAGAACATGTCCGAGGTCAGCGAACTGGTTCATGCGGACGTGGAAATGGTGGAGATCGCCCATCGCCTGATCGAACGGGTTCAGGGGCGCACCGGCATTCCGTTCCAGGAGGACCGCACGCTGCGGGCAGGTCTGGTGGAGCACATCGGGGCTGCACTGAAACGGATTCGGGAAGGGACCCGGATCCGAAATCCGCTGCTCAGTCCGATTCGGAAGGATTATGAGGAATTGTTCGGGGTCGTCCGGCGCTCGGTCGACGAGCTGAAGCTGGATTTAAGCATCCCGGATGAAGAAATCGGGTTTCTGGTTATGCATTTCGGAGCATCGAGCGAACGGCTGAACCAGCCGGGACACCATCTGAAGGCCATCCTGGTATGCTCCAGCGGTCTCAGCTCCTCCAGGCTTCTCGGGACCCGGCTGAACAAGGAGATGCCGCAGATCGAGGTGCTCGGCAACGTATCGTGGTATGAAGCGGCGCGGATCCCGAAGGAGCAATACGATCTCATCATATCGACCATTGATCTGCCGCTGCCGAAGGATCGATATGTAAGATTAAGCCCGTTGCTGACGGCGGATGATAAAGAGGCGCTGCTTCGATTCATCCAGAGCACATCCTTCGAGCCGGCCAGCAGCAGGGCTGCAATCAGCCGAATCGAGGAAGATCGTAAAGCTGCATCTTTCGAGCGGCTCCGCATGCAGGCCGCCCTGATGAACGAAATCGTATCGCTTCTGGACGGCTTCCATGTCTACCATCTGGATAATCTTCAGAATGATTTGCAGGGCACTTTGAACGAGGCTTTGGCCAAGGTATATGAGCAAGGGGCTGTCCGTGATGCGGAGATGGTGAAGGAGCGCCTGCTTGAACGCGAACGGATGGGTACCCAGCTAATTCCCGACACGACGCTGGCTTTATTCCATACGCGAAGCCGCTATATCACCTGGCCTTCGCTGTCCTTGTTCAGGCTGGCGCATCGAGCGCCGCTTGAGGATGGGGCCCAGGCGGGCGTCATTCTGCTGATGCTGGCACCGAAGCAGCTCCCGAAGGAGAGCCTGGAGGTGCTCAGCGAAATCAGCGCCATGCTGCTTCGCTCCGAGCTGATCGAGCTGATGGAGCGGGGCGGCGAGGAAGAGATTCGATCCTATTTGGCGGAAGAGCTTCAGCATTTTTTCAATCACAGACCATAG	MDLGHITARQRQILLLLMSRTDGMTAAEIAADVGVSVRTVHREMEEIEKDLQGTGVVLLKKSGTGIRLEEEKPEGLSLLRRSLLAGKPADYSVEERKILMLCALLEADEPIKLFALAHSLKVTVPTVSNDLDELEPWMKRFNLKLIRRRGYGIEIDGAEGVRRRAIGRLAEEYLDYSDLVGDGYSDTREPVTARLLSMIDKPALLDVEKTLWDMNWDWTEDLSESAYTSTLIALSVSVNRIKRGRGMEAADIAGYPPSSVSVEEARDFVGRLGEKLEMIFPESEMIYIAYLFEAAKNMSEVSELVHADVEMVEIAHRLIERVQGRTGIPFQEDRTLRAGLVEHIGAALKRIREGTRIRNPLLSPIRKDYEELFGVVRRSVDELKLDLSIPDEEIGFLVMHFGASSERLNQPGHHLKAILVCSSGLSSSRLLGTRLNKEMPQIEVLGNVSWYEAARIPKEQYDLIISTIDLPLPKDRYVRLSPLLTADDKEALLRFIQSTSFEPASSRAAISRIEEDRKAASFERLRMQAALMNEIVSLLDGFHVYHLDNLQNDLQGTLNEALAKVYEQGAVRDAEMVKERLLERERMGTQLIPDTTLALFHTRSRYITWPSLSLFRLAHRAPLEDGAQAGVILLMLAPKQLPKESLEVLSEISAMLLRSELIELMERGGEEEIRSYLAEELQHFFNHRP				NA	NA	NA	NA	NA
AK002_06178	1434	mtlA		PTS system mannitol-specific EIICB component	ATGTCCAACGAGACAAATACAAACGCTTCCAAAGGCATTCGCGTAAGGGTTCAGCAGCTCGGCCGGCTCCTTAGCGGCATGGTGATGCCGAATATCGGTGCGTTTATCGCTTGGGGCCTGATTACGGCTCTGTTCATCCCAACCGGCTGGTTCCCGAACGAGAAGCTGGGAGCTCTGGTTGGTCCGATGATCACTTACCTGCTCCCGCTCTTGATCGGTTATACGGGCGGACAAATGATCCACGGCAAACGGGGCGCGGTTATCGGTGCGGTTGCCACGATCGGCGTTATCGTCGGAGCAGAGATTCCGATGTTCCTCGGTGCCATGATTGTCGGTCCTCTGGCAGCTTGGGTCTTGAAGCAGTTTGATAAGCTGATTGACGGCAAAATCAGATCGGGCTTTGAAATGCTGGTGAACAACTTCTCGCTGGGTATTATCGGCGGTGCGCTGACGCTGCTGGCCTACACCGGTATTGGTCCCCTTGTACAGGGCATTACCAAGGTGCTTTCAGCAGGCGTTGACGTGTTGGTCGATGCCAACCTGCTGCCGCTGGTTAATATTATCATTGAACCGGCGAAGGTCTTGTTCCTCAATAATGCGATCAACCACGGGATTTTCAGTCCACTCGCTACGGAGGAATCGGCGCGGATCGGCCAATCCGTTCTGTATATGCTGGAATCGAATCCGGGACCTGGATTGGGCATTCTCCTCGCCTTTTGGTTCTTCGGACGCGGTTCTGCCAGATCCTCCGCGCCAGGGGCGGTTGTGATTCACTTCCTGGGCGGTATCCATGAGATCTATTTCCCGTATATTTTGATGAAGCCGGTTCTCATTCTGGCCGCTATTGCGGGCGGCGTTGCCGGAACGTTCACCTTCCAGATTCTTGGGGCAGGACTCGTGGGACCTGCATCGCCGGGAAGTATCCTTGCTTATTTCGCCATGGCGCCTAAGGGCGGCCTGGTTCCGGTACTGGCCGGTGTCCTTGTTGCAACGATTGTCTCCTTTATCGTAGCAGTATTGCTGCTGAAAACGGGTAAACAAACAGAAGAAGAACCGAATTTGGAAGAAGCATCCGCCAAGATGAAAGAAATGAAAACCGGCGGCATGAACGACCAGGTGGCTCCGGCTTCCGCGGCTGTGGCCAATCTGGACAAAGAGAACGTGAATAAAATCGTGTTCGCTTGCGATGCCGGCATGGGCTCCAGCGCGATGGGCGCCTCGGTACTAAGAAAGAAACTGCAGCAAGCGGGCGTCAATATTACCGTTGTGAATTCGGCGGTAAGCGAAATCCCGGATGACGCGGATATCGTCATTACCCAGAAGACCCTCACCGAGCGTGCCATCGCGAAGAATCCGAATGCCGAGCATATCTCGATCGACAACTTCCTGAAGAGTCCGAGATATGACGAGCTGGTGGAACGACTCAAAGACTAA	MSNETNTNASKGIRVRVQQLGRLLSGMVMPNIGAFIAWGLITALFIPTGWFPNEKLGALVGPMITYLLPLLIGYTGGQMIHGKRGAVIGAVATIGVIVGAEIPMFLGAMIVGPLAAWVLKQFDKLIDGKIRSGFEMLVNNFSLGIIGGALTLLAYTGIGPLVQGITKVLSAGVDVLVDANLLPLVNIIIEPAKVLFLNNAINHGIFSPLATEESARIGQSVLYMLESNPGPGLGILLAFWFFGRGSARSSAPGAVVIHFLGGIHEIYFPYILMKPVLILAAIAGGVAGTFTFQILGAGLVGPASPGSILAYFAMAPKGGLVPVLAGVLVATIVSFIVAVLLLKTGKQTEEEPNLEEASAKMKEMKTGGMNDQVAPASAAVANLDKENVNKIVFACDAGMGSSAMGASVLRKKLQQAGVNITVVNSAVSEIPDDADIVITQKTLTERAIAKNPNAEHISIDNFLKSPRYDELVERLKD	PGPT0016945_897	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0016945-mtlA|cmtA-K02800	NA	NA
AK002_06179	459			hypothetical protein	ATGAACATACGAAGAAGAAATAACATGGGCCTGCCAATGCTCTCTATCATACTGCTGGCTTTGCTCGGCGTTCCCCGCGTCATTGCCCACGATTTGCAATGGGTCGATCCCCACGGGATCATCAACCGGCTGCTTGTCTTCATTCCCCCGATCGTCTGGATACTCTATGTACTCCGCAAACGGCATCACGTTCAACATCCTTTTCTGCCCTTAATGGCCATCGGAGCCGTCTATGGGCTCTTTCTTGGCATCACGCATCAGCTGTTATGGAATATGGCCTTCGAAACGCCGCCGGCTTTAGGGGGCAACCTGGCCGACCTCCCTGCAGCAGCCAGCGGCCTTTTGACCCGAGCTTTCGCCTTCATCAGCAGCATCGTGACCGGTACCGTCGTCGGCATCGTCTGCGGCATTGCTGCCACGGCGCTTCATCCGCTGGTGAAGGGAAGATCGAGAGGTTAA	MNIRRRNNMGLPMLSIILLALLGVPRVIAHDLQWVDPHGIINRLLVFIPPIVWILYVLRKRHHVQHPFLPLMAIGAVYGLFLGITHQLLWNMAFETPPALGGNLADLPAAASGLLTRAFAFISSIVTGTVVGIVCGIAATALHPLVKGRSRG				NA	NA	NA	NA	NA
AK002_06180	1623	ced1		Cellodextrinase	ATGGAGCACGTACAGCAAAAGGGTATTGCCGTTAACCAGTTAGGTTATCGGGGCCGGGACGCCAAGATTGCCGTCATTGCCGGTCAGGGCGGACGGTTTCGCATCGTCAATGCGCGAAATGGCGAGGTCGTTTGGCAGGGGCAGACGGCGCCTGCCATAGAGGATGCGTCCAGCGGGCAGACGGTAAGCAGAGGGGATTTTACGGTATGGGAAGCACCCGGTACCTATCGAATCGAGATGGAGGATGGGCAGTCGTCGGAAGCTTTTGTCATTGCCGACGATGTATATGAGGATGCCCACCGAGCAATTCTGAAAGCGTTTTATTATTTCCGGTGCGGGACAGCTTTGGATGAGCCGCATGCGGGGCCTTGGAAGCATGAAGCCTGCCATCTCACGCCGGCCATCGTTCATGGACATGAATCGCGGCGGGTGGATGCTTGGGGAGGATGGCATGATGCCGGGGATTATGGCAAGTACGTCGTGCCTGGCGCCAAAGCCGCCGCCGACTTGCTGCTGGCCTTCGAGCTGTACCCCGAAGCGTTTGCCCAGCCGCTGCCGCTGCCGGAAAGCGACGGCCGCATGCCGGATGTGCTGCATGAATGCCGGTATGAGCTGGATTGGCTGCAGCGCATGCAGGATGAGGAATCGGGGGGCGTGTTCCATAAGCTCACGACGCTGCAGTTTCCAGCGGGAGACGTCATGCCGGAGGACGATACGCTCCCGCTGTACTTGTCGCCGATCTCCGCAACGGCAACCGGCTGTTTTGCCGGTATCATGGCCATGTCGGCACGGATCTATTCTCCCTATGATGAGGCCTTCGCCGCGGGCTGCCTGAAGTCAGCGGTGCGGGCTTGGGCGTGGCTGGAGGAGCATCCCGACGAGCCGGGCTTCCGCAATCCGGCTGATATCGCTACGGGCGAATATGGCGATGGCCAGGATGCGGACGAACGGTACTGGGCAGCTGCAGAGTTATACCGTACAACGGGAGAAACGCTATATCATGAGGCGTTCCAAGCTTTAGCCAAGCAGGACTCCTTCGGAAAATACGAGCTGGGATGGGCGGACATGGGGGGGTACGGGACGTTTGCCTATCTGATGTCGGAGCAGGAAGAAGAGCCCGAGCTGGCGCAAGAATTGATGGCGGGCTTGCTGCGGCGTGCGAATAAGCTTGCTGCTGTCAGCGATCGGGACGGCTATGGCCTCTCGCTTCTGCCGGATCAATATATCTGGGGCAGCAATATGCTGGTCATGAACCACGCGATGCTCCTGCTGGTGGCGGGAAGACTGTCGGGTTCCGAAGACTATGAGCGGCATGTGCACGAGCATGTGCACTATGTATTCGGTGCGAACGTGATGGGGACAAGTTATGTTACCGGATATGGGGCGAGACCGATCCGACATCCCCATCACCGTCCTTCCGAAGGCGACGGCGTGGAGGAGCCGGTTCCGGGCCTCGTCTCCGGCGGTCCGAACAAGGGACTTCACGACGATTATGCGCGTGAGCACTTGGCCGGCAGGGCGCCCGCAGCCTCTTTTGCCGATGTGATGGAGAGCTATTCCACCAATGAGGTGGCTATTTATTGGAACTCGCCGGCCGTGTTCGTGCTGTCTCATTTTGTATAG	MEHVQQKGIAVNQLGYRGRDAKIAVIAGQGGRFRIVNARNGEVVWQGQTAPAIEDASSGQTVSRGDFTVWEAPGTYRIEMEDGQSSEAFVIADDVYEDAHRAILKAFYYFRCGTALDEPHAGPWKHEACHLTPAIVHGHESRRVDAWGGWHDAGDYGKYVVPGAKAAADLLLAFELYPEAFAQPLPLPESDGRMPDVLHECRYELDWLQRMQDEESGGVFHKLTTLQFPAGDVMPEDDTLPLYLSPISATATGCFAGIMAMSARIYSPYDEAFAAGCLKSAVRAWAWLEEHPDEPGFRNPADIATGEYGDGQDADERYWAAAELYRTTGETLYHEAFQALAKQDSFGKYELGWADMGGYGTFAYLMSEQEEEPELAQELMAGLLRRANKLAAVSDRDGYGLSLLPDQYIWGSNMLVMNHAMLLLVAGRLSGSEDYERHVHEHVHYVFGANVMGTSYVTGYGARPIRHPHHRPSEGDGVEEPVPGLVSGGPNKGLHDDYAREHLAGRAPAASFADVMESYSTNEVAIYWNSPAVFVLSHFV	PGPT0018620_2515	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
AK002_06181	690			hypothetical protein	ATGGACAAATCCTCCTTTTTGATGGTGGAGCGGGGAAATCCCTACGAGCGCGGAGACGTTATAGCTTTGACCAAACCGATCACGGTGCTTGGCCGCAAGGGCCAGCATTTTGATCCGGATATCGCGTTTGACAATATTTTTGTGTCCCGGCGGCATGCGGCGCTGCTGCATCGAAACGGGAAGTTCAGCATCAAGGATCTGAACAGCAAGCATGGCACCTTCGTAAATCAGGCACGGCTGGCCCCCCATGATGAAATACCCCTTCAGCATGGAGATACCATCGTGCTTGCGGGAGATCTGATCGTGCTGTCCTTCTCCATCCTCAGCATGGATGAGACGATGGACATTACCCCGCTGATCAAGCAGCTGGCGGCGGTTGAGGGCTCCGGCGGGCTTAAGCTGAATCCTTTCAAGCAGGAGCTGGTATACGGCGAGGACGTGTACGTTTTTTCGGAAAAAGAGTACAAGTGCATGGAGCTGCTCGTCAATCACCAAGGACAGTTCGTGTCCAAGGAGCAGCTCAAGGCATACGTCTGGCCCGAGCGAAGCTACGGGACGGACGAAGTGCCGGATGTGAGCTCGGAGGAGCTGAATGCGCTGATCTACCGGGTCCGCAAGAAGACAAGAGATATTTTGGCCATTGAGAGCATCCGCGGAAAAGGCTATATTTTGCAGTCGACGGCTGAATGA	MDKSSFLMVERGNPYERGDVIALTKPITVLGRKGQHFDPDIAFDNIFVSRRHAALLHRNGKFSIKDLNSKHGTFVNQARLAPHDEIPLQHGDTIVLAGDLIVLSFSILSMDETMDITPLIKQLAAVEGSGGLKLNPFKQELVYGEDVYVFSEKEYKCMELLVNHQGQFVSKEQLKAYVWPERSYGTDEVPDVSSEELNALIYRVRKKTRDILAIESIRGKGYILQSTAE	PGPT0003915_364	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-POLYMYXIN_RESISTANCE,PGPT0003915-pmrA-K07666	NA	NA
AK002_06182	987			hypothetical protein	ATGCGAAAACTAAAAAGATGGAAGAAAATCATGCTGTTTTTTGTTGTGCTGTTTGTATTTCTGTTCGTTAACAATTCATCTCTGTTCACCAAAGACCGTGACGGCGAGCCGCTTCTGCTGGCGCATCGCGGGCTTGGGCAGACCTTCACGATGGAAGGCATTAAAGCCGACACGTGTACCGCCTCCCGCATCTATGTGCCGGAGCACGCTTACCTGGAGAACACCATTCCGTCCATGAGAGCCGCCTTCGAGGCAGGCGCCGATATTGTGGAGCTGGATATCAAACCGACCAAAGACGGCCAGTTCGCCGTGTTCCATGACTGGACGCTGGAATGCCGCACCAACGTGGAGGGCTCGGTCAAGGATTATACCATGGACGAGCTGAAAAACATAGACATCGGGTACGGCTACACGGCCGACCAGGGAGCGACTTATCCTTTTCGGGGAAAGGGAGTCGGGCTGATTCCGTCGTTAGACGAGGTGTTGGAGGCATTCCCGGACGGCGCGTTTCTGATCCATATCAAAAGCACGGACCCTGAAGAGGGAAAACAATTGGCCGATTATCTGTCCGGTCTGCCGGTGAAGCGTCTTAGCCAGCTGACCGTTTACGGGGACGACCAGCCGATCCGCACGTTAAAATCGCAGCTCCCCTCGCTGCGCGTCATGTCCATGGATACGCTCAAGAGCTGTCTCGTATCCTACGCCGGGGCCGGCTGGAGCGGCTACCTTCCTTCGGTTTGCCGTAACACCCAGCTGCATATACCAGAGAAATATGCCCGTTATTTATGGGGATGGCCGGATAAATTCCTAAACCGGATGGACAGCATCAATACGCGGGTCATCCTCGTGGCCGGGGACGGCGGCTGGTCGGAGGGCTTCGACTCCGTAGCGGATTTGGAAAGGCTGCCGGACGACTACAGCGGCGGGATTTGGACGAACCGGGTCGACGTTATCGCCCCGGAGCTGACCATAAAGAAGACGGAATAA	MRKLKRWKKIMLFFVVLFVFLFVNNSSLFTKDRDGEPLLLAHRGLGQTFTMEGIKADTCTASRIYVPEHAYLENTIPSMRAAFEAGADIVELDIKPTKDGQFAVFHDWTLECRTNVEGSVKDYTMDELKNIDIGYGYTADQGATYPFRGKGVGLIPSLDEVLEAFPDGAFLIHIKSTDPEEGKQLADYLSGLPVKRLSQLTVYGDDQPIRTLKSQLPSLRVMSMDTLKSCLVSYAGAGWSGYLPSVCRNTQLHIPEKYARYLWGWPDKFLNRMDSINTRVILVAGDGGWSEGFDSVADLERLPDDYSGGIWTNRVDVIAPELTIKKTE	PGPT0018470_2848	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK002_06183	741			hypothetical protein	TTGGCCAGGGAAACAGAAAAAAAGGGAATGGCCTGGTTTAAGAATGCCCGCTCGAACCAGAACCAACCCGAGAAGAACAGCGCCGAACACCAGGAAATTGCCGTAACCATCGAAGAAGAGCCGGCATATTCCGCGGAGCCTGAACTGCCCGCCGCGGAGAGCAGCAAGCATCTTTTCTCCAAGGACAACCAGGACAAAATCGGCCTCGACGTCATCGTTTCGATCGAGAACATGCTGAAGGAGCGTCAATTGCTGTCCTATAAGAACAAGGGCCTGGAGGATCAGCTATTTACCGCCAACGAGACGATCAACCGGTATAAGCACGAACAGATCAAGCGCGATCAGCTGGTCCAGGAGAAGAACAAGGAAATCCGCGAGCTCGAGAACGTGCTGACCAACAAACAGATGAGTTACGACCAGCTATTGGAGGATTACAAGGAATACCAGCTGACATCGAACCTGGCGTACGAGAAGCTCTCCAACCAGCTGGAGACCGAAACCGCCAAGTACAACAAGCTCTACGAAGAGTCTAACAACACCCAATATCAGAGCATGCTCAAGATCAACGCTCTTGAAGAGAAGGTGCGCGAGCTGGAGATTGCAAACCAGAAGTATGCGGAGCAGTACCAGAACATTCTGGACGATAAAGCCAAGTTGATGCAGACCATCAATGATTTTACCGAGAAGATGTCCTTCTCCTTCTCGCCAAAAGCATCGGCTCCCAACACACCATCGGAATAA	MARETEKKGMAWFKNARSNQNQPEKNSAEHQEIAVTIEEEPAYSAEPELPAAESSKHLFSKDNQDKIGLDVIVSIENMLKERQLLSYKNKGLEDQLFTANETINRYKHEQIKRDQLVQEKNKEIRELENVLTNKQMSYDQLLEDYKEYQLTSNLAYEKLSNQLETETAKYNKLYEESNNTQYQSMLKINALEEKVRELEIANQKYAEQYQNILDDKAKLMQTINDFTEKMSFSFSPKASAPNTPSE				NA	NA	NA	NA	NA
AK002_06184	1281			hypothetical protein	ATGTCTGACTCCTATGGAAAAGTCATTGAGCTGCTGGCGATCGAGGGGGATACCGAGGCTTTCGCTCTGCGAATCAAGCTATCCTTCTCGGAATCGGCGGAGCTGTTGTGGTTAACCGATCATGAAACCATAGCGAATATAGCGACCGTGTCGGAATTTAACGGGGTTCACAAATACCGATTATCTTTACATACAACATGGGATGCCATCCAACAGCAATACATAGGCTCCATTACGCGTACATATCGTGACCATGGCGAGCGATTTTCATTTGCTTGCTCCGTTCACTTCAGGAACGAATTAGAGGCGATTAAAGCTATCCGGCATTTGGACGATGTATCTACCCTGTCCTTCCTGTCTGCGCCTCCATCCGAACCGGATCAGTCCGAAGAGGTGCAGACCGATGGAAATCGAAACGCCACGCGCTCTGCAAGGAAGCGGCATCGGCTTCCGCTTAAGCTGGCAAGCGCAACCTTGATGAGCTTGATTTTTGTAGTATTGCTAAGTTCATTTAATTACTCGTACCCGAGTGACATCCGGCATGAAGCTGCGATAACCGCCGCAGCGGAGGTTGAAACGGTCATCCAATTGCTTGCCGAGAACCGGAATGCGATGATCGCCAAACCTGTATCCGCCTCCGTGGAGAAGGAAGCTGATAGCAAACCGAGGAAGGAGATCAAGACTTCGGCTGCCGTTCCGCAGCTGGAGCTTAAGGATTTCATCTCCTACAGCATCCCCAAAGGGTATGTCGCCCTTACGTTCGATGACGGGCCATCCAAGCATTCCATAGATATCATGAACGTCTTGAAGAAACACGAGGTTGGCGGGACGTTCTTCTTTGTCGGCACCAATGTGAAAAAACATCCGGACTACGTCAAGGCCATCCATGCCAACGGGTACTCCGTCGGCAGCCATTCGATGACCCATAGCCAGATGCCAAGCCTTACTTATGAAGAACAAAAGGCGGAATTGACCCGGGCGGCCAATCTCATCGAGCATATTACGGGCGAGAAGCTGGTGCTCTTCCGTCCGCCTTACGGTGCCTTTGATGACCGGACCGAGGCGTTAAGCCTCCAGCAGGGCAATAAAGTGGTGCTCTGGAACCGGGATCCCGAGGATTGGCTGACCCGCGACGAGGATAAAATCCTGGACTATGTCCAGCACATCGAAGCTTCCGGCTCCATTATTCTCCTGCATGAATCCCAGGCGGTCGTGGATGCGTTACCGAAGATCATTAAGAGCCTGCAGGATCAAGGACTTACCATCGTCAGTCTGCAATAA	MSDSYGKVIELLAIEGDTEAFALRIKLSFSESAELLWLTDHETIANIATVSEFNGVHKYRLSLHTTWDAIQQQYIGSITRTYRDHGERFSFACSVHFRNELEAIKAIRHLDDVSTLSFLSAPPSEPDQSEEVQTDGNRNATRSARKRHRLPLKLASATLMSLIFVVLLSSFNYSYPSDIRHEAAITAAAEVETVIQLLAENRNAMIAKPVSASVEKEADSKPRKEIKTSAAVPQLELKDFISYSIPKGYVALTFDDGPSKHSIDIMNVLKKHEVGGTFFFVGTNVKKHPDYVKAIHANGYSVGSHSMTHSQMPSLTYEEQKAELTRAANLIEHITGEKLVLFRPPYGAFDDRTEALSLQQGNKVVLWNRDPEDWLTRDEDKILDYVQHIEASGSIILLHESQAVVDALPKIIKSLQDQGLTIVSLQ	PGPT0018645_740	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK002_06185	1107			hypothetical protein	ATGACAAACCGGATTCCAACGCGCAAGAAAGCCATTCTTGCAATCATCGTCGTTCTTGCCCTTGCCGGCATCGTCCTCTTAGCCTGCTGGATCATCCAGAACAAGGAGAGTCCTGATTTGACCGCAGCGTTCATTGAAGAGCATATGACAAACGATAACGGTACCATTGCCACCTACCTTAAACCCGCTGCTTCCGAGAATCCGGATATCGTTGCCGGTCGGGAAGCGTTATCCGAGTCGCTCGGGCTTTGGATGCAGACTGCCGCGGTATCCGGCAATCGAGCCCGGTTCGACGACAGCGTCCAGCTTCTTACCACCTATTTTCTTAATCAGGAGCAAGAGCCTTATATCCAATGGAAGCTCAGGCCGGACGGTCAATCCGAGGTCACAACCAATGCGCTGGGCGATGATCTGCGAATCCTCGATGCCCTGCTGAAGGCGTTCAATCGCTGGGGCGAGGAAGAATACCTTCAATTGGCAAAAAAGATCGGGTCTGCACTCCTTGCGGTTCAAACCGAAGGTTACCTCGTCGATTATCATGATTTTGCACGGGATGAATCCGCCGCCGCGTTAAGCCTGGTCTACGTTGACTTATCGGCACTGCGCGAAATGCATAATAACGGAATCCTATCCTCCCAGGATTATGAACGATATCGAAACCTGCTCGCTCATATGCCTTCGGACGGCGTTTTCTATCCCAAAACCTTTCACATCGGTACCGGCCAATATGAATACGACGCATCGGTCAATCTGATCGACCAATTGATCGTTGGCATCCATCTCGCCGAGATGAATCATCCGTCAACAGATCTTATAGCGTTCCTGAAGGGAGAATTCCGCCAGCATCAGCGGCTGGCAGGCCGCTACACCCGTAAAAGCCGCAAACCGGACGCGGATTACGAGTCGCCTGCCGTTTACGGCCTGGCCATCATTCTGGCGCTGCAAACCAAAGACCTCCCATGGGCGCAGCAGCTGCATGAACGCATGCTCCAACTCCGGGACCAGGATCCCGCTTACCCGGGGGGATACGTGTTTGACGGGAATACGCATGCTTTTGATAACCTGTTTCCCTTGCTGGCCGAGACGCTGTTCGAGCAATCCAAATGA	MTNRIPTRKKAILAIIVVLALAGIVLLACWIIQNKESPDLTAAFIEEHMTNDNGTIATYLKPAASENPDIVAGREALSESLGLWMQTAAVSGNRARFDDSVQLLTTYFLNQEQEPYIQWKLRPDGQSEVTTNALGDDLRILDALLKAFNRWGEEEYLQLAKKIGSALLAVQTEGYLVDYHDFARDESAAALSLVYVDLSALREMHNNGILSSQDYERYRNLLAHMPSDGVFYPKTFHIGTGQYEYDASVNLIDQLIVGIHLAEMNHPSTDLIAFLKGEFRQHQRLAGRYTRKSRKPDADYESPAVYGLAIILALQTKDLPWAQQLHERMLQLRDQDPAYPGGYVFDGNTHAFDNLFPLLAETLFEQSK				NA	NA	NA	NA	NA
AK002_06186	792			hypothetical protein	ATGGCCTTATGGTACAATGACAGGATGGGCTTGCTTCGTATAGAAGCTCCCCGAATAGGTGAAGAAAGCAGGTACAGCGTGGATATCATACTGTTTGCGGTTATTATATTCGTGGCGTCGATTCTCCAGACCAGTACCGGTTTTGGGTTCTCCATCCTGGCTACGCCGTTTCTCCTGTTGTTGTTCCGGCCCGCCGAGGCCATTCAGATTAATCTGATTCTATCGCTTGTCATATCGGCTGCCCTGATTGCCAAAATCCGCAAGGACATCGATTACGGCATCCTTAAACGATTGGTGATCGGAAGCGCGGCAGGTCTCCCTCTGGGCATCGTTGTTTTTTCGCTCATCGATATCGTCTATCTGAAGCTGGGCGTCAGTCTGATCATATTGGCACTGACCGTCATGCTGATGCTGAAGTTTAGAATAAACCAAAGTCGCGGCAGGGATTTGGCGGTGGGAGGACTCTCAGGTTCTCTAACGACGAGCATCGGCATGCCGGGTCCGCCCCTGCTGTTATATTTTTCGGGCACCGATACGCAGAAGGCCAAACTGAGAGGGACGACCCTGGCCTTCTATTTGTTCATCTACTCCCTGAGTTTGATCATTCAGGTGATCGTGGCGGGAACGTCCAAGACGGTCTGGGTATCAAGCGGAATGGCGCTGCCGCTGGTATTCATCGGGCTGTTTATCGGACAGCGTTTATTCAACGTCATCAACCAGCGCGTGTTTCAGATCTTTACCTATATCATTTTGATCTTTACCGGTGTGTATATGCTGATCGACAGCTTGTAA	MALWYNDRMGLLRIEAPRIGEESRYSVDIILFAVIIFVASILQTSTGFGFSILATPFLLLLFRPAEAIQINLILSLVISAALIAKIRKDIDYGILKRLVIGSAAGLPLGIVVFSLIDIVYLKLGVSLIILALTVMLMLKFRINQSRGRDLAVGGLSGSLTTSIGMPGPPLLLYFSGTDTQKAKLRGTTLAFYLFIYSLSLIIQVIVAGTSKTVWVSSGMALPLVFIGLFIGQRLFNVINQRVFQIFTYIILIFTGVYMLIDSL				NA	NA	NA	NA	NA
AK002_06187	342			hypothetical protein	ATGTCTACTTTGCCGAATTGCCCTAAATGTAATTCAGAATATACATATGAGGATGGGAACCTCCTGATTTGCCCCGAATGCGCTCATGAATGGACCCCGGGGTCCCAAGCGGAGCATGATGAAGATGCTAGGGTCATTAAAGACGCGAACGGAAATGTATTGGCCGACGGCGATTCCGTAACGGTAATCAAAGATCTTAAAGTAAAAGGCAGCTCATCCGTATTAAAAATAGGCACGAAAGTGAAAAATATACGTTTGGTTGACGGCGACCACGATATCGATTGCAAGATCGAAGGATTCGGGGCCATGAAATTGAAATCGGAATTCGTTAAAAAGAGTTAA	MSTLPNCPKCNSEYTYEDGNLLICPECAHEWTPGSQAEHDEDARVIKDANGNVLADGDSVTVIKDLKVKGSSSVLKIGTKVKNIRLVDGDHDIDCKIEGFGAMKLKSEFVKKS	PGPT0030500_1258	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030500-phnA|yjdM-K06193
AK002_06188	1017	fcl_2		GDP-L-fucose synthase	ATGAAAGCGTTGTTTATTGGAGGAACCGGAACGATCAGCACGGCGATTACGAAGCAGCTGCTGGAACAAGGTTGCGAGTTATACTTGCTCAATCGAGGGAACCGAAACGACACGTTGCCCGAGGGCGCACATATTTTGCAAGCCGATATTCATGACGAAGACCAAGTAGCGAAACTGATTGAGCATCTCGATTTTGATGCTGTAGCCGACTTTATTGCATTCGAGCCGGCCCATTTGGAGAGGGATTACCGCCTATTTGCAGGAAAAACCAAACAGTTCATCTTTATCAGCTCGGCTTCAGCCTATCAAACACCCCTATCCGATTATCGCATTACGGAAGGGACGCCTTTATCCAATCCATACTGGGCGTATTCCCGAAACAAAATAGCCTGCGAGGATTATCTGATGAAGCAGTATCGGGAGCATGGCTTCCCGGTGACCATTGTAAGGCCAAGCCATACGTACGATGAGCGGTCCATTCCGCTCGGCGTGCACGGCAGCCAGGGAAGCTGGCAGGTCGTGAAGCGCATGCTGGAGAATAAACCGGTCCTTATTCATGGAGACGGGACATCGCTGTGGACCCTGACGCATAACCGCGATTTTGCAAAAGGCTTCATCGGCCTGATGGGCAATATCCATGCCATCGGGGAGTCGGTGCATATTACCTCTGACGAGTCGCTCACCTGGAATCAAATTTATGAAATCATTGCGGATGCCCTTGGCGTACAGCTGAATGCGGTGCATGTCTCTTCCGAGTTCCTGGATGCTACCAGCACGCAGGATTTCCGCGGGTCGTTACTGGGAGACAAAGCGAATACGGTGGTGTTCGATAACAGCAAGCTGAAGCGGCTGGTCCCTGAATTCGTGGCAACCATCCGTGCCGATCAAGGGATCAAGCAGACCGTGGACTATATTTTAGCCCACCCGGAACATCAGCGGGAGGACGCAGAGTTTGATGCGTGGTGCGATAAGGTCATCTCCGCGCTGGAGAAGGCCAAGTCGATCATTACGGGGTAA	MKALFIGGTGTISTAITKQLLEQGCELYLLNRGNRNDTLPEGAHILQADIHDEDQVAKLIEHLDFDAVADFIAFEPAHLERDYRLFAGKTKQFIFISSASAYQTPLSDYRITEGTPLSNPYWAYSRNKIACEDYLMKQYREHGFPVTIVRPSHTYDERSIPLGVHGSQGSWQVVKRMLENKPVLIHGDGTSLWTLTHNRDFAKGFIGLMGNIHAIGESVHITSDESLTWNQIYEIIADALGVQLNAVHVSSEFLDATSTQDFRGSLLGDKANTVVFDNSKLKRLVPEFVATIRADQGIKQTVDYILAHPEHQREDAEFDAWCDKVISALEKAKSIITG				NA	NA	NA	NA	NA
AK002_06189	501			hypothetical protein	GTGGAAGTACATGTCAGATCATTTTTCGTGAATGATGATGGAGAGGTTCCCAACAATCCCGACCTGCCTGTCATTGTGTACAATGGGGTATTCGCGGATGACCCGAGCGGGTTGGAGGCAGCCTTTAAACGGCATCACTGGAGCGGCAGCTGGTCAGGCGGCGTATACGATTACCATCATTATCACAGCAATACGCACGAAGTCTTGGGCGTGCGGTCCGGAAGCGCGACCGTCCTTGTGGGCGGGGATGCAGGGGAGCGGTTGGAGCTTGCTACAGGTGACGTGATCGTCTTACCGGCGGGTACTGCACATATGAAGCTTACCAGTACGCCCGACTTCGAAGTGATTGGTGCCTATCCCGAAGGGAATACGCCGAACATGAGGGAGCGGAACCCGACGGATCGGACCCAGGCGATCAACGAAATCCAAAGCGTGCCTGTTCCGGATACGGATCCTGTCTTTGGAGAGGAAGGGCCCCTGCTGCATAAATGGGTGAAATAA	MEVHVRSFFVNDDGEVPNNPDLPVIVYNGVFADDPSGLEAAFKRHHWSGSWSGGVYDYHHYHSNTHEVLGVRSGSATVLVGGDAGERLELATGDVIVLPAGTAHMKLTSTPDFEVIGAYPEGNTPNMRERNPTDRTQAINEIQSVPVPDTDPVFGEEGPLLHKWVK				NA	NA	NA	NA	NA
AK002_06190	540			hypothetical protein	ATGAATACAAAGGAAGCATTGCAGCGCTTGGAAGAGACGGTGAAGGTTTATGTGCAGGAGCTGGATGGATTCAGTGAGGAGCAATTAAGATATAAGCCGGCAGAGGACGAGTGGTCGATCGGGCAAATGTACCAGCACTTGATTCAATCCGCACAGTATATGCATCTGCGTAACATCGACCAGTGCTTGAAGATGAATGGAGATGCGGCAGCTTCCCCGGCCGGAAAAACGGAGCAGGGAGCGGCAATATTCGAACAGGGCAGTTTCCCGCCCATCCGCATTCAGGTTCCACCGTCTCCACAGTATACGCCGGAACAGCCTGAAAGCAAAGAGCAGCTGGTTCAAGGCATGAACACCGTCCTCCATCGGATGAAAGAAACCGAACCGATGCTTGGAGAAGCATCCCTGAAGCATACCGTTTCCCACCCGCGGTTCGGAGGATTGCATGCCCAAGAGTGGTTTTTGCTTATCGAGATGCATTATCGTCATCATATTCGACAGCTGAATCGGTTGAAACAGGCGTTAGCGCAGCGGGTATGA	MNTKEALQRLEETVKVYVQELDGFSEEQLRYKPAEDEWSIGQMYQHLIQSAQYMHLRNIDQCLKMNGDAAASPAGKTEQGAAIFEQGSFPPIRIQVPPSPQYTPEQPESKEQLVQGMNTVLHRMKETEPMLGEASLKHTVSHPRFGGLHAQEWFLLIEMHYRHHIRQLNRLKQALAQRV				NA	NA	NA	NA	NA
AK002_06191	948			hypothetical protein	ATGAACAAGACCGATCGATTACTGGCCATCCTGCTTGAGCTGCAGCAGCGCAAGGTTATGCGGGCCGAAGATTTGGCATCCCTATTCGAAACGAGCGTCCGGACCATCTACCGGGATATTCAGGCTCTTAGCGAAGCAGGCGTACCCGTGATCGGAGCCCCCGGGCAAGGATACTCGTTAATGGAGGGGTACTTCCTGCCGCCCATCATGTTCACGGCGGAGGAAGCCGTGGCGCTGCTCATAGGAACGGATTTCGTCGAGCAGCGCTTTGACGCAGAATATGGCGAGAAGGCTAGGGCTTCCCGCAAGAAGATAGAGTCCATTCTGCCGGACCGTGTCCGCGCAGACGCTGCCCGGGTTCGAAAGACCATGCGGCTCCTTGCTCCCGGCAGCAAGGCAGCTTTAGGAGAAGAGGGGGATTATCTGGAATCGGTTCGTAGGGCCATACTTGAGGAACGGAAGCTAGAATTCCATTACGTGAAGAACATGCCGGATTCCAAAGGCAACCGAAAGAGCTTTCGCTCGGCGGCCCCTTATGGCTTGGCCTTTCTTCAAGGCTCATGGACATTGATTGCCTGGTGCGACCTCCGGCAAGGCATTCGCCATTTTCGGTTGTCCCGCATGAAGGATCTGACGATCCTTGAGGAGCGCTTTGAGATGCCGCCGGATTTTCATTTGGAGAATTATCGGCCACGGGATGACCGCAACCTGCTGGTACGGGTTCTGGCAAGTCATGGCATCGCGGATCGAGTAAAGGAAGCCGGCAACTATTATATGGAGACTTTAGAGGAATGCGAGGAAGGACTGCTTGTGAGCTTTCGCGTCCGCCGTCCGGAGGAGATCCTGCATTGGGTGCTGAGCTGGGGATCGGATGTCGTTGTGCTTGAACCCCAATCCTTCCGAGACCGAATCCGCGACGAAGCGGAGAAGATGTTTAAACGCTACTGA	MNKTDRLLAILLELQQRKVMRAEDLASLFETSVRTIYRDIQALSEAGVPVIGAPGQGYSLMEGYFLPPIMFTAEEAVALLIGTDFVEQRFDAEYGEKARASRKKIESILPDRVRADAARVRKTMRLLAPGSKAALGEEGDYLESVRRAILEERKLEFHYVKNMPDSKGNRKSFRSAAPYGLAFLQGSWTLIAWCDLRQGIRHFRLSRMKDLTILEERFEMPPDFHLENYRPRDDRNLLVRVLASHGIADRVKEAGNYYMETLEECEEGLLVSFRVRRPEEILHWVLSWGSDVVVLEPQSFRDRIRDEAEKMFKRY				NA	NA	NA	NA	NA
AK002_06192	750			hypothetical protein	ATGAACAGCAAGGAACGGTTTTCGAATCGCGTGGATTCGTACACGAAGTATCGCCCGAGTTATCCGCAGGAGGTCATGGATTATCTGTATGGCACGGTGGGACTGGATGGCGAGATCGCCGATATAGGCGCAGGGACGGGGATATTCACGAAGCTGCTGCTGAAACGGGGGAGTCATGTGACCGCCGTGGAGCCCAATCAGGCGATGCGGGAAGCCGCCGAGTCGGACCTTGGCGGCGAGCCCGGCTTCCGCATGGTTTCCGGTTCGGCCGAAATGACGGGACTGCCCGATCAATCGGTGGATCATATCGTGAGCGCCCAGGCTTTTCACTGGTTTGACCGTCATGCGGCCCAGGCGGAGTTTCGGCGGATTCTGAGGCCGGGCGGGAAGGTTGCCCTGATATGGAATTCCAGGCTCACGGAGGGAACGCCGTTCCTGGAGGCGTATGAGCAGTTGCTCCTTACCTATGGCACCGACTATAAAGAAGTGGACCAGAAGAATATTGGGCATGAAACGCTGGCGGCCTTTTTCCGATCAGGAGATATGAAGGAGGCGAAATTCTTCAATCGGCAGACATTCGATTATGAAGGCTTATGCGGCCGCCTTCACTCGTCATCTTATGCTCCCCTGCCCGGGCATCCGAACTACGAGCCGATGATGAAGGAGCTCCAAACCATCTATGAACGGAATGAGCAGGATGGCTGCGTGTTTTTTGACTACGAGACGAAGGTGTACTGGGGAGAGGTTTAA	MNSKERFSNRVDSYTKYRPSYPQEVMDYLYGTVGLDGEIADIGAGTGIFTKLLLKRGSHVTAVEPNQAMREAAESDLGGEPGFRMVSGSAEMTGLPDQSVDHIVSAQAFHWFDRHAAQAEFRRILRPGGKVALIWNSRLTEGTPFLEAYEQLLLTYGTDYKEVDQKNIGHETLAAFFRSGDMKEAKFFNRQTFDYEGLCGRLHSSSYAPLPGHPNYEPMMKELQTIYERNEQDGCVFFDYETKVYWGEV				NA	NA	NA	NA	NA
AK002_06193	537			hypothetical protein	ATGGTAGACGATCAATCGGTCTTTATATTGCTTACCAATACCGGAACGCTCTTTACGAAAGTCATTCAGGGCTATACGAGAGCGCCTTATAATCATGCCTCGATCTCCTTTAACCGGGAGCTGTCGGAGTTATATAGTTTTGGGAGGAAGAATCCGAACAATCCCCTGAACGGCGGGTTCGTGAAGGAGGATTTGAAGACGGGAACGTTCAGCAAGTACCCCAACACGACCTGCGTGATCTATGAGCTTCAGGTATCCGAACGCGACATCGCGAAAATGAAGCGGGTCCTGCAGGCTTTTATCCGAAAGGATAAAAAGTATTTCTATAACATATTGGGCGTCCTGGGCATCGCCCTGAAGGAACCGATCGAATTCAGCAATTCCTATTTCTGTTCGCAATTCGTGGCCGAGATTCTCCAGCGTTCCGGAGTAAGGTTATGGGATAAGCTGCCTGCCTTGGTGACGCCGGACGATTTTCGCCAAAGCGAGCGCCTGCAGTTGATATATGAAGGGAAGCTGAGCGAGTATGAGCCTTGA	MVDDQSVFILLTNTGTLFTKVIQGYTRAPYNHASISFNRELSELYSFGRKNPNNPLNGGFVKEDLKTGTFSKYPNTTCVIYELQVSERDIAKMKRVLQAFIRKDKKYFYNILGVLGIALKEPIEFSNSYFCSQFVAEILQRSGVRLWDKLPALVTPDDFRQSERLQLIYEGKLSEYEP				NA	NA	NA	NA	NA
AK002_06194	915			hypothetical protein	ATGGAAAGCTCGCTTTTAACCTTGATCCTTATATTCTCCGTCTTATCGGTCATCCAGCTCCTGTATTACGTGATGAGCAAGACGCAGCCGAATATCGACTATACCGAAGTAGGATTCCGCATCAAAACCTGGTGGGGCATGCTCGTCATCTTCTGTTTGGCGACCCTTTTGAATCCCGTTGTATCCCTGCTATCCCTTATGGTGCTGACCTTCTTTACGCTCAAAGAATATTTCTCGATGATCAAAACCCGGAAGGCCGACCGCCGTTTATTTCTGTGGGCTTATCTAACCATACCCGTCCAATTCTATTGGATCTATATCGAATGGTACGGGATGTTCATCGTGTTCATTCCAATCTATGTATTCTTGGTGCTGCCGCTTCCGCGGTTGATCAACAAGGGCACCGTCGGATTTATGCGCAGCGTCAGCTCGACCCAGTGGGGACTGATGCTCATGGTATTCGGTCTCAGCCACCTGGCCTATTTTCAGTTTGCCACGCCCCAGTATGGAGCTGGGCTCGTGCTGTTTCTCGTCGTCTTAACGCAGCTGAACGATGTGGTGCACACGATCGCTTCCCTCTATTTCGGCAAACGGAGAATCGTGCCGACATCGAACCCGAATCTCACTTGGGAAGGCTTTGCGTGCGCGTTTCTCGTTACCACCGGATGCTCCTATCTCATCTATCCCTATCTGACGCCGCTCAGCCCGACCTTTAGTCTCTTGTCCGGCATGCTGATCAGCCTCGCCGGCTTCTTCGGCAGCTTGACGGTTTCCGTGCTGAAGCGCGATTTATTAATCGGGGATGACGGACGATTCGATGCTTTGAAGAAAAGTTACCTGAGCCGCGTCGACAGCCTGACGTATACCTCGCCGATCTTTTTTCATTTCATCCGTTACTTTTACGATTTTATGTAG	MESSLLTLILIFSVLSVIQLLYYVMSKTQPNIDYTEVGFRIKTWWGMLVIFCLATLLNPVVSLLSLMVLTFFTLKEYFSMIKTRKADRRLFLWAYLTIPVQFYWIYIEWYGMFIVFIPIYVFLVLPLPRLINKGTVGFMRSVSSTQWGLMLMVFGLSHLAYFQFATPQYGAGLVLFLVVLTQLNDVVHTIASLYFGKRRIVPTSNPNLTWEGFACAFLVTTGCSYLIYPYLTPLSPTFSLLSGMLISLAGFFGSLTVSVLKRDLLIGDDGRFDALKKSYLSRVDSLTYTSPIFFHFIRYFYDFM	PGPT0007685_2005	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
AK002_06195	1026			hypothetical protein	ATGTACTTGGAAAGGATCGATCGATTAGCAATGGATGAACGATTGAATTATGCGCCATGCGGCTATGTCTCCATCACCCACGAAGGCATGGTGGCGGATGTCAACCAGACCTTCCTCGACATGATGGGGTATCGGCTGGAGGACGTGGTGCTTAAGCATTTTGAAGCTATGATGTCGACGGCGAACAAGCTTATATTCCACTCTTACTTCTATCCGCATATCAATCTGGACGGGCATGTGGAGGAGCTGTTTATCCGGCTGAAGAACAGCCGGGGGGAATCGGTACCGTTTATATTGAATGGACGCAAATTTGAGCGTGAAGGCCAGGAACGGCTGGACTGCGTATTGGTGCAGATGGGCAAACGCATTGATTATGAAATGGAGCTTCGGACGGCCAACAAGCAGATCGAGAAGGCTTATTGGGAGAAAGACCAGGCATTGGCCGAGCTGCAGCAGATCCATGCCGAGATTGAACGGAAGCAGACGGAGCTCATGGAGATTAACGAGGTTCTGTTGGAACTGTCGAATACCGACAAGCTGACCGGATTGAAGAACCGAAGATTCTTTCAGGAGAAGCTGGAAGAGCAGCTGATGCAGTATAACCATAACCGGATTCCGCTCTCGTTGTTCATCATCGACATTGATCATTTTAAGCGCGTGAACGATACTTGGGGACATGGGTATGGGGATGAGGTTCTGTTTAATGTAGCAACCATTCTGAAGACCCACGCCATCGAAGGGGAGACGGTGGCCCGCTATGGCGGAGAGGAGTTTGTCATGATCCTGCCGGAAACGGATGCGGAGAAGGCAAAGGCCGGCGCGGAGCGGTTACGGCGGGCAGTCCAGGATTTCAGCTGGAAAACGGGCAGCATGACGATCAGTATCGGCATTATCACGGCCACTCCGGACGCCAATGAAGCGACGCTCCTGCAAAAAGCGGATGAAGCCCTCTATGCCTCCAAGCAAAACGGACGAAACCGGGTTACCCATTATGAGGATTTGAGGCTCCAGGGATATTCGCCTTAA	MYLERIDRLAMDERLNYAPCGYVSITHEGMVADVNQTFLDMMGYRLEDVVLKHFEAMMSTANKLIFHSYFYPHINLDGHVEELFIRLKNSRGESVPFILNGRKFEREGQERLDCVLVQMGKRIDYEMELRTANKQIEKAYWEKDQALAELQQIHAEIERKQTELMEINEVLLELSNTDKLTGLKNRRFFQEKLEEQLMQYNHNRIPLSLFIIDIDHFKRVNDTWGHGYGDEVLFNVATILKTHAIEGETVARYGGEEFVMILPETDAEKAKAGAERLRRAVQDFSWKTGSMTISIGIITATPDANEATLLQKADEALYASKQNGRNRVTHYEDLRLQGYSP	PGPT0015900_1704	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
AK002_06196	816	rsbQ		Sigma factor SigB regulation protein RsbQ	ATGAATGAGGTTATTGCACGGAATCACGTGAAGGTGCTGGGGACAGGGGAGCGTACGCTCATGCTGGCGCACGGCTTCGGCTGCGACCAGAGCATGTGGAGATACATCCTGCCTGCCTTCGAACCGTTTTATCGTATCGTGCTGTTCGATTACGTGGGCTCGGGCGGTTCTAATTTGTCGGCGTATACATCGGAGAGGTACGGCAGCCTTCGCGGTTATGTGCAGGATGTGCTGGACATTGTGGAGGCGCTGGAGCTTCGGGACGTGATTTTTATAGGCCATTCGGTCAGCTCCATGATCGGGATGCTGGCATCGATCGAACGTCCGGAGTATTTCGCTCAATTAATCATGATCGGGCCATCTCCGCGATATCTGAATGATGACGGGTACGTCGGAGGATTTGATAAAAGCGATGTGACGGAGCTGCTGGATATGATGGAGATGAACTTTGCCGGATGGGCAAGCTTCCTCGCGCCGATCGCGATGAAGAACCCGGAGATGCCGAAGCTGACCCAAGAGCTGGAGCGCAGCTTTATTTCGGCGGATCCGGCGATTACGATGGAGTTCGCCGAGGTCACCTTTTTCTCGGACTGCAGGCAGGCGTTATCCCAAGCTACGGTTCCCTCGCTGATCCTGCAGTGTTCGGATGACAGCATCGTCCCTATTGCGGCAGGCGAGTATTTGCACAGTCATCTGGATAACAGCACGTTCCGCTTGATGGAGGCGAAGGGGCATTATCCGCATATCAGCCATCCCGAAGAGACGATTGCGTTGATACTTGACTATCTGAAATCTGAAGCAACATATACAGGCTAA	MNEVIARNHVKVLGTGERTLMLAHGFGCDQSMWRYILPAFEPFYRIVLFDYVGSGGSNLSAYTSERYGSLRGYVQDVLDIVEALELRDVIFIGHSVSSMIGMLASIERPEYFAQLIMIGPSPRYLNDDGYVGGFDKSDVTELLDMMEMNFAGWASFLAPIAMKNPEMPKLTQELERSFISADPAITMEFAEVTFFSDCRQALSQATVPSLILQCSDDSIVPIAAGEYLHSHLDNSTFRLMEAKGHYPHISHPEETIALILDYLKSEATYTG				NA	NA	NA	NA	NA
AK002_06197	1353			hypothetical protein	TTGCAGTACTTTTTTTATGGATTAGCCGGCGCGTTTCTCGTGTTTCAGGCCCTCTACACATTCATACCGCTGATGTGCAGCAAGGTGAAGAAACTGAATTCCGATCTCGCCGAAAAATCAATCACGGTGCTCGTCCCCGCTTACAACGAAGAACTGACGATCCGGAATTGCATCGATGCCATGGCGGGCTTGCGCTACAGCAACTATGAGATCATGATCATCAACGACGGCTCCAAGGACGGAACCTTATCCGCCCTAGACGAGCTCTTGGATTTGGAGCCGAGTGCCAGGACGGCCGACAGCATGCTGACCTATAAGCCAATAAAAGGATGCTATCGTTCCAATCGATACCGCCATATTTACGTTATCGATAAGATGAATGGCGGAAAAGCCGACTCGCTGAATGCCGGCATCGATTATGCCGTCTCCGACATCGTCATCACCCTGGATGCGGACAGCATGCTGGAAGCCGACTCGCTCAAGTATGTGAATCAATATTTTCACGATGACGATATCATTGCGCTGGGCGGTACGGTCAAAATCGTGCAGGGGGCCGTCCGGGACAAGAATGGTGCCATCGTCGAGAAGTTTCGCGGAAAAGGGCTCATCAAAAGCCAGATCATCAATTATACGCACGGCTTCTACGTCCGCAAGCTCACGCAATCGTATTTTAATTCGATCGTGGTAATTTCAGGTGCCTTTGGCGCCTTCTATAAAGAGGTTCTCGTTCATGTCGACGGCTTCCGCAGCACGGTGGGGGAGGATATCGACATTACCCTGAAAATCCATGAATACATCAAGGCCCATCGGCTGAAGAAAAAACTCGTCTACGCCCCGGAAGCGGTATGCTATACCGAATGCCCGGAGAATCTCCCGAACTTCTACAAACAGCGCATTCGCTGGCAGAAGGCCTTCATTGACTGCATCCTGATCTATTGGTCCAGGCTGTCCCGAAAGTTCAGCGTCAACGTGAGTCTGTTCTTTGCGATTGACGGATTTATGCTGGGGACGCTCTCGGCGTTTACCACGATATTTTATCTGGGACAGACGCTGGTTGTGGGCGGGAACCTATGGCATGCCATTATCTTTTTGCTGATGAGCGTGGTGCTGAATGCCGCGCAGGTCGTCATCTCTCTGTACTTATGCCGTAAATATGGCAGCACCTATGCGTTTAGCGATTACGTGAGGATGTTCCTGTTCAGCCAAGCGGAGCTGCTAACCTATCGGAATTTGCTGCTGTACATCAACATTGCGGGCACGTTCAAATATTTTGACAATGATGAGGGCTGGGGATTCGTGGAGCGCAAAGGCGTGGCCGCCATCAGCCAGAACATTGCCGCTGGATCGAACTAA	MQYFFYGLAGAFLVFQALYTFIPLMCSKVKKLNSDLAEKSITVLVPAYNEELTIRNCIDAMAGLRYSNYEIMIINDGSKDGTLSALDELLDLEPSARTADSMLTYKPIKGCYRSNRYRHIYVIDKMNGGKADSLNAGIDYAVSDIVITLDADSMLEADSLKYVNQYFHDDDIIALGGTVKIVQGAVRDKNGAIVEKFRGKGLIKSQIINYTHGFYVRKLTQSYFNSIVVISGAFGAFYKEVLVHVDGFRSTVGEDIDITLKIHEYIKAHRLKKKLVYAPEAVCYTECPENLPNFYKQRIRWQKAFIDCILIYWSRLSRKFSVNVSLFFAIDGFMLGTLSAFTTIFYLGQTLVVGGNLWHAIIFLLMSVVLNAAQVVISLYLCRKYGSTYAFSDYVRMFLFSQAELLTYRNLLLYINIAGTFKYFDNDEGWGFVERKGVAAISQNIAAGSN	PGPT0023485_269	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-POLY-N-ACETYL-GLUCOSAMINE_METABOLISM	CE-EPS-POLY-N_ACETYL-GLUCOSAMINE_BIOSYNTHESIS,PGPT0023485-pgaC|icaA-K11936	NA	NA
AK002_06198	1092	wecH	COG3274	O-acetyltransferase WecH	ATGGTTCCCAACAAACGAATTGTCTATGTCGATATTCTAAGAATTCTATCTATCGTAGCCGTCATTATCCTGCACTACACGGCGGAGGTGCTGACCAGCACGAATGATTTCCACTCCTCCTCATGGTGGATCAGCAATGGATTCAACTCCATCTCCCGCTTTGCCGTCCCGGTCTTCTTCATGATCAGCGGAGCGATGATTCTGCGGACGAAGATAACCTCCTACCGTGAGTTCTATACGAAGCGCGTCGTGCCGCTGCTCATCCCCCTCCTGACCTGGTCGCTAATCTACGGCTTGTACAATCAATACTATCTGATGCGAAGCAAGCTGAGTGCGTACGAGTTCATTATCGACTTCGGCTACCGGCTGCTGACCGACCGAAATTACGTCCATCTCTGGTTCCTATACGCTATTATTGCCATCTATATGACGGTGCCGCTGATCAGCAAATTCATCAAATCGTGCAGCGAGAAGGATCTGCGGTATTATCTGCTGCTCTGGTTCATCGTCAGCATCGCCTATCGTTTCATCTCGGATGCCGTCTTCCGCGCAACGGATCAATACATCAACATTCCGATCATGAACATCCCGTTCTTCATGGGATTTCTGGGTTATTTCATTCTGGGGTACTATCTCTTCCATTTCGAGCTGCCGCTTAAAGCCAAAAACATCCTGTACAATCTAGGCATCGTCTCGTTTTTTATCACGCCGGTTGCCACCTACTTCGTATCGCTGCGCAGCGGCGTACTGGATGAGATGTTCTATGGCAATTACTCCATCACCACGTTCTTCATGGCTGTCGGGTTGTTTATCTTCTTCAAGGAGAAGGAAGGCCAAATCAGCGATAAAATGAACCATAAAGTCCAGAAATTGATGAGCTCGCTCTCCCGGGCCAGCTTCAGCATCTACCTGATTCACCTGCTGGTTGAAATGATGCTATCCGGCCGAACGGAGGTTGAAGCCACGTTCCTGGAAGCCTCCCTTAGTCTGATCGTGAATATCACCATCATCTTCGCCATCAGCTACATCACCGTCAAGGTGCTGAACCTAAGCAAAACGGCAACCTACATTCTATTCGGCGGGCGAGGTTAA	MVPNKRIVYVDILRILSIVAVIILHYTAEVLTSTNDFHSSSWWISNGFNSISRFAVPVFFMISGAMILRTKITSYREFYTKRVVPLLIPLLTWSLIYGLYNQYYLMRSKLSAYEFIIDFGYRLLTDRNYVHLWFLYAIIAIYMTVPLISKFIKSCSEKDLRYYLLLWFIVSIAYRFISDAVFRATDQYINIPIMNIPFFMGFLGYFILGYYLFHFELPLKAKNILYNLGIVSFFITPVATYFVSLRSGVLDEMFYGNYSITTFFMAVGLFIFFKEKEGQISDKMNHKVQKLMSSLSRASFSIYLIHLLVEMMLSGRTEVEATFLEASLSLIVNITIIFAISYITVKVLNLSKTATYILFGGRG				NA	NA	NA	NA	NA
AK002_06199	1164			hypothetical protein	ATGAGAATAACGATATATACGAAAATATTCATTGTGGTGCTGCTTGCAGGCATGGGTCTTTACTTCTATCAGATCTCCGCGGCGGAGGAACGGAAAATCACGGCGGTCTACGTGGAGGCTTGGCAGGATTACCGAAATATCAAGCTATCGGAGAAAGGCGTGGACATTGCGTTTATCGCTTTTGCGAAGATCAAGGGAACGGAGCTCTACTTCCATGAAGACAGCACGACCAACAACCAGATCAAAGAAAACATCAAGCAGTTGAAGGCGGCGAATCCGAAGACCCAAATGGTGCTGGCCATAGGCGGCTACGGGGCAGACGGCTTCTCCGACGCTTCGTTGGACGGCAACCGGTACCTCTTCACCGAGAACATCATCAACCTGGTCAAGGAGCTGGACCTAGATGGCGTGGATATCGACTGGGAGTATCCGGCGTTCCATGCCTGGAACACGCAGAAGGCACGGCCGGAGGATACGAAGAATTTTACCAGTCTGATGAAGGAGCTGCGGGAGAAGCTGTACAGGCTGCCTCACAAGAACAAGAAGTATCTGCTGACCTTCGCTTCCGGAACGCAGGACTGGTACTTCCAGAACGTCGAGGTCAAAAAAGTGGAGAAATACGTGGATTTCATCAACGTCATGACCTACGACCTGACAGGCAAGTGGTCGGATACCACGGGCTTTAACTCCAATCTGTACGCGGACAGCCAGGGCAAATCCAAACACTCCGTTGACGGCATCATCTCCATGTACCTGGACCACGACATCGACGGCAGGAAGCTGCTGCTCGGCATCCCAGCCTACTCATACGGCTGGAAGAACGTGAAGGAAAACAAGGGTGCCAAGAACGGCCTGTTCGCTCCCGGAACGCCCATCGACATCGACAAGGTAAATCTCCATTATAAGCAGATCGAGAAAGCGTACCTGAATAAAAATGGCTTCAAGCGCTACTATGACAACAAAGCCAAGGCTGCCTACCTCTATGACGGCCATACCTTCATCAGTTACGAGGATCAGGAGGCCTTGAAGGAGAAGGTGAGCTACATCCAAAGCAAGAATCTCGCGGGCGCGATGGTCTGGCAGTATTCGCAGGATGCGGAGGACGGCATCGTGAACTATTTGAGTGAGCATTTGAACGAGCGTCAGCAAGCCGCCAAACGGTAA	MRITIYTKIFIVVLLAGMGLYFYQISAAEERKITAVYVEAWQDYRNIKLSEKGVDIAFIAFAKIKGTELYFHEDSTTNNQIKENIKQLKAANPKTQMVLAIGGYGADGFSDASLDGNRYLFTENIINLVKELDLDGVDIDWEYPAFHAWNTQKARPEDTKNFTSLMKELREKLYRLPHKNKKYLLTFASGTQDWYFQNVEVKKVEKYVDFINVMTYDLTGKWSDTTGFNSNLYADSQGKSKHSVDGIISMYLDHDIDGRKLLLGIPAYSYGWKNVKENKGAKNGLFAPGTPIDIDKVNLHYKQIEKAYLNKNGFKRYYDNKAKAAYLYDGHTFISYEDQEALKEKVSYIQSKNLAGAMVWQYSQDAEDGIVNYLSEHLNERQQAAKR	PGPT0012130_4330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CHITIN_DEGRADATION,PGPT0012130-chiA|chtA|chiI-K01183	NA	NA
AK002_06200	528			hypothetical protein	ATGAATTTTGATATCAAGGAAGCCGTTGAGATTCTGGAACGAACCCCCGTCACCTTGGAGCACATGTTATCCGGTTTATCGGATGGATGGCTTAGGAGCCATGAAGGGGAAGGCACCTGGAATGCGATGGAGGTGATCGAGCACCTTATCGAAGCTGAGCGGACCAACTGGATACCGCGGCTGGAGTTTTTGCTGCAGGAAGGGGAGGGTAAGCCGTTCCCGCCCTTTGACCGTTACGCCCACTTGAACGAGGCGGCGGAGCAATCCATCGATCAAAAACTGCAGGCGTTCAAGGCTATCCGTGCTCAAAATCTGGCTAAACTGAAGGTTCTGATGGATTCGGCGCCGGATTTCGAACGGACGGGTCTGCACCCGGCATTCGGCGTGGTGAAATTAAGAGAGCTGCTGTCGACGTGGGTGGTTCATGATTTAACGCATACGTCTCAAATTGTGCGGGTTTTGGCCGAGCGATACCGGCATGACGTGGGGCCATGGATCGAGTACTTGGGAATTCTAAAGAGACGATAA	MNFDIKEAVEILERTPVTLEHMLSGLSDGWLRSHEGEGTWNAMEVIEHLIEAERTNWIPRLEFLLQEGEGKPFPPFDRYAHLNEAAEQSIDQKLQAFKAIRAQNLAKLKVLMDSAPDFERTGLHPAFGVVKLRELLSTWVVHDLTHTSQIVRVLAERYRHDVGPWIEYLGILKRR				NA	NA	NA	NA	NA
AK002_06201	1137			hypothetical protein	ATGCAAGCTTATGCATTGCCTATTTTCATTGCGATCTCCGTATGTTTTTTATTAGCGTCCTTTCTGACGCTTCCTTGGGCCGTTTATCAGTATCGTAAACATGGGTACTTTAGCTTTTGGAGAACATTACTTATCTTAAGTTTTATCTTTTATGGATTAAGTGCTTTCTTTTTAGTGATTTTTCCACTCCCCAGTGCTCGGAATAATTGTGCTTCAATGGATCCCGGTACGATTCTCATTCAATATCGACCTTTTCAATTTATACGGGATATTCAGCGTGAAAGCGGATTTCATTGGACGAACCCTTCAAGTTATCTCCATTTGTTAACAACGCGGGCCTTTTATCAAATGTTTTTTAATGTTTTGCTTTTGTTTCCTTTAGGTGTGTTTCTGAGGTATTTTTTAAAGGTTAAAGCAAAATGGTTTCATGCTGCTCTTATTGGCTTTGGTGTTTCGCTTTTCTTTGAAATAACCCAACGAACCGCTTTGTTTGGCTTTTTTGAATGCCCCTATCGTATATTTGATGTAGATGATTTGTTGACGAATACGGTTGGGACTGTACTTGGCTTTATACTCGCTCCCATGTTTTTGGTGTTAATACCATCGCGGGAAACCCTTAGTGAGCAAAGCCACTTCTTTCACAACCAGAGAAAAGCAACCTTTGGTGCCCAAATCATGGAGGTTCTTCTAAATATTATGATTGCCAGAGTGATAACCAGCTTTATATTCGGGTTGCTGAAGAGTCGAGGATTATTTGTTGACGAGATCATCTTTGCCATTGTTTTCTTTGTGTTGATGGTCGTTATCCCTGTGATTTGGAAGGGAAATACGGTGGGCTCTAAGATCGTTCGCATGAGATTACTTCCGGAAAAGGGGAATTGGATAGGAAGCTTGAGCCGACGTTACGCCATTGTCTATTTGCCTTTATTTTGCTCAGCCTTATCGGAGATATTTTCTAATCATATGGGAGTGGATCTTCTAGCCAACCTTTTTGCAATTGGGGTGGTTTTCCTTACAGGTCTGTTATGGTTCTTTATCTTCTGCCATATCGTGATTAGATGGATCAAAAAGGACAAAGTTCTCTACTTTAATCGATACAGTCACATAGAGGCGGTTAGAATCACGGGTGAAAAGTGA	MQAYALPIFIAISVCFLLASFLTLPWAVYQYRKHGYFSFWRTLLILSFIFYGLSAFFLVIFPLPSARNNCASMDPGTILIQYRPFQFIRDIQRESGFHWTNPSSYLHLLTTRAFYQMFFNVLLLFPLGVFLRYFLKVKAKWFHAALIGFGVSLFFEITQRTALFGFFECPYRIFDVDDLLTNTVGTVLGFILAPMFLVLIPSRETLSEQSHFFHNQRKATFGAQIMEVLLNIMIARVITSFIFGLLKSRGLFVDEIIFAIVFFVLMVVIPVIWKGNTVGSKIVRMRLLPEKGNWIGSLSRRYAIVYLPLFCSALSEIFSNHMGVDLLANLFAIGVVFLTGLLWFFIFCHIVIRWIKKDKVLYFNRYSHIEAVRITGEK				NA	NA	NA	NA	NA
AK002_06202	402	adhR_4	COG0789	HTH-type transcriptional regulator AdhR	ATGGGAGAAACATTCTCCATCAAACAAGTGTCTGAACGAACCGGATTGACCGAGGATGCCATTCGCCATTACGAAAAAATCGGACTCCTCCCCTCTCCCAAAAGAAAGGATAACGGCCATCGTGTCTATCACATAGAGGATGCCGAAATTATGGAGTTGATCACATGCCTGAAGAAGACAGGAATGTCGCTGGAGGATATGAAAGCCTATGTGCATCTTCCCTTTAAGGAAAATATTCAATCCGTTCCGGAGCTGAATGCCATGCTCCAGAATTACCGTCAAAAAATTACCGGTCAGATTTCGGACCTGCAGCGCATTCTGCGGTTCATCGATGACAAGTTGAGCCAAAATCAGTCCCTGCTTAATCCCGACAAGGCGGCCAGCAAAGAATCTGAAGCATAG	MGETFSIKQVSERTGLTEDAIRHYEKIGLLPSPKRKDNGHRVYHIEDAEIMELITCLKKTGMSLEDMKAYVHLPFKENIQSVPELNAMLQNYRQKITGQISDLQRILRFIDDKLSQNQSLLNPDKAASKESEA	PGPT0004135_325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MexPQ-OpmE,PGPT0004135-cueR-K19591	NA	NA
AK002_06203	849	ped		(S)-1-Phenylethanol dehydrogenase	ATGACAGAGAAAAGAATGAATAACGTCGCCTTGATCACGGGCGCAAGCTCCGGCATTGGCTTGGAGCTAACCAAGCGATTGTTATCCGAAGGCTGGCAAGTCCTCGCTCTGATCCGTTCTGTCTTTCCAACGGACGATGCACGGATTCAAGATGCACTGCGATTGCGGCAGCTCAGAACGTACAAGGCTGATTTGTCGGATTTCACGGATCTCCATGCCTCATTGGATCAGATCAAGAAACACGAGAGTCATATTGACTTGCTGTTTAATAACGCAGGCGTCTCCTTCGGCGAATTGTCCTACTCTCAACAAGGGCGCGAGATGCATTTTGAAGTAAACTCTATCGTCCCCTATATCATCTTGATGGAACTGAAGGACCTTCTTGGGAAGGGCAGCTTCAAGACGGTAATCAATACGTCTTCGAATGCGTTGTTGTATCTCAAACAGTTCGATCACCGTACCTTGGCGTCCCCTGTCGGGTTCAAGAAGCTGATTGGGCCTTATGCTGCGAGCAAATTAGCCTTATCGTTGTGGACTCAGGAGATCGCCACTTCGATGCAGGCAGATGGCATTACGATCCGAAGCGTCTGTCCGGGAGGGAATAAAACAACCATGACCAAAAACGCCGGGATGCCAAAATTCATGATCCCGATCCGTAACCTGTTCTTCTCCCATCCCAGTGAAGGAGCTTCACGTCTGTATGAAGCAGCGCTAGGTCAATCCCGACAATCGACGGGGGCATTTCTCAACAAGGGTAAAGCAACGCCTTTGAAATTCTCAAGCCAAGGTGCAGAGCTGCTTAGCACGATCGAGCTAATCTATAAGCAGGAGTTTGCAGCCATATCTTAG	MTEKRMNNVALITGASSGIGLELTKRLLSEGWQVLALIRSVFPTDDARIQDALRLRQLRTYKADLSDFTDLHASLDQIKKHESHIDLLFNNAGVSFGELSYSQQGREMHFEVNSIVPYIILMELKDLLGKGSFKTVINTSSNALLYLKQFDHRTLASPVGFKKLIGPYAASKLALSLWTQEIATSMQADGITIRSVCPGGNKTTMTKNAGMPKFMIPIRNLFFSHPSEGASRLYEAALGQSRQSTGAFLNKGKATPLKFSSQGAELLSTIELIYKQEFAAIS				NA	NA	NA	NA	NA
AK002_06204	897			hypothetical protein	ATGCATGGCGGAGCGCAAAAGGTGGTCTATAAAATTCACTGTCGCAATGGATTTGCCTGCGTTCTGTATGTGTGGGATTTGACGAAGAATTATTTTCAGGAAGAAATAACGAACGAGCGTGTGCATGAACGATCCTTTGGCGGTCATTCGTTCGAAACCAATAACCGATGGTTAAGGAATCATGGTATTTCTACGCCTGCTCTATATGATCTTCACACGAGACAGGACCGTTACCCGTTTGACTATGCTCTTGTTGAATGTATTGAAGGACAGAAGGCAGAAGCTTACTTCCAAGATCCGGATCAACGGGCCCGGGATGAGGTCCTGGAACGGATAGGCAGCATGATCGAACGCATGCATGCAAACCACAGGCAGAGTTACGGAAAGCCCGATCAAAGCGGGAACCAACGGGAGCGATGCCATCTTGTACAGCTGGAAAATGCCAAGGAACAGCTGTCCTACATCGTCCTGCATAACGAGAGTATCCGGAAGAATCACAACAGACTGCTCACTGTGCTGCATGAACTGGAATCCAGGATAGATTCACGCAAGCGATATGGCTTTATCCACGGCGAGTTGGGACCCGACCATGTCCTGGTCACAGACCGTTTAGAGCCCTATCTCATTGATATTGAAGGTGCGCAATTCTTCGACATCGAGCATGAGCATACATTTCTGGAGCTGCGATTCGGGAAGCATTATCGGTATTTCCAACAAAACGGGCTTGATCCGAATCGGATGCTATTTTACCGTCTGCATCACTATATCTCATTAACCTCGGGCGGCTTGAAGCTTCTTCACCGAGGATTTCCGGATCAGGTCTTTGCTTCAAATTTGGCTGAATATCATGCGCGGAACACCCTGCGATTCATGGAGGAATGGCAGCTCGATAACTAG	MHGGAQKVVYKIHCRNGFACVLYVWDLTKNYFQEEITNERVHERSFGGHSFETNNRWLRNHGISTPALYDLHTRQDRYPFDYALVECIEGQKAEAYFQDPDQRARDEVLERIGSMIERMHANHRQSYGKPDQSGNQRERCHLVQLENAKEQLSYIVLHNESIRKNHNRLLTVLHELESRIDSRKRYGFIHGELGPDHVLVTDRLEPYLIDIEGAQFFDIEHEHTFLELRFGKHYRYFQQNGLDPNRMLFYRLHHYISLTSGGLKLLHRGFPDQVFASNLAEYHARNTLRFMEEWQLDN				NA	NA	NA	NA	NA
AK002_06205	1479	selO	COG0397	Protein adenylyltransferase SelO	ATGACCAACCGGAAAGCTTTGAACGATATAGGATGGAATTTTGACAATAGTTACGCGAAATTGCCGGAATCTTTTTTTACCAAGCAAGATCCTACGCCTGTGCGCTCGCCGGAGCTGATTGTTCTAAACGAACCGCTGGCAGCATCGTTGGGATTGGACGCCGATGCCCTGCAAAGCGCGGAAGGAGCGGCAATGCTTGCTGGCAACGAGATACCCGAGGGGGCCGAGCCGCTCGCCCAGGCATATGCCGGGCACCAATTCGGATATTTTACGATGCTGGGCGACGGCCGTGCGATTCTGTTGGGTGAACAAATCACGCCGCAGAAGGATCGCATGGATATTCAGCTCAAGGGCTCGGGCCGGACGCCGTATTCCCGGGGAGGCGATGGCCGGGCTGCCCTGGGTCCGATGCTGCGCGAGTATATTATCAGCGAAGCCATGCACGCGCTGGGCATTCCGACTACCCGCAGCCTGGCGGTTGTGGCGACCGGCCAGCCTGTCACCCGTGAAAGAGATTTGCCGGGCGCCATCCTGACCCGCGTGGCTGCAAGTCACGTGAGGGTGGGGACGTTTCAATACGTTAGGGGAGCGGGGACAACCGAGGATTTACGGGCTCTGGCCGATTACACTCTAAAGCGGCATTACCCGAAGGCAGACCTTGGAGACGGTGCCAACCGTTATCTGGTGTTGCTTCGGGAGGTCATCCAGCGTCAGGCGGTCCTGATCGCCAAATGGCAGCTTGTCGGTTTTATCCACGGGGTGATGAATACCGATAATATGACCCTCAGCGGCGAAACGATAGATTATGGGCCTTGCGCCTTCATGGATACCTTTGACCCGAATACGGTATTCAGCTCCATCGACTCTCAAGGCCGCTATGCCTATGTGAACCAACCGTATATTGCCGCTTGGAATCTCGCAAGATTGGCGGAAGCCTTGCTTCCGCTGCTGCATGAAGAGGAAGAGCAGGCAATCAAGCTGGCCGAGGGTGCGATTGGGTCCTTCACCGATCTGTATCACGAGCAGTGGCTTGCAGGCATGAGAGCCAAGCTGGGGATCTTCCATGAAGAGGAGGAGGACGAATCCCTGATCGAAGACCTGCTCAAGATGATGAAAAATCATCAGGCAGACTATACCAATACCTTCCGTGCGTTAACGTTTGACAAGCTGGAGGACACGCCTCTAAACGGCACGCCGGAATTAGCTTCCTGGTACGAGCGCTGGCAAGCAAGGCTTGGCCGCCAGCAGGAATCCAGGGACCAATCCCATCAGCTGATGCGCAGCAGCAATCCTGCGGTCATTCCACGGAACCACCGGGTGGAGGAAGCGCTGGAAGCCGCGGAGAACGAAGGGGACTACAGCGTGATGAAAGAGCTGCTGAACGTTCTGTCTAATCCATACGCGCATTCCCCGGAACAGGCGGAATATGCGATCGTGCCCGAGCGTTCCCGTCCTTACCGAACCTTCTGCGGCACGTAA	MTNRKALNDIGWNFDNSYAKLPESFFTKQDPTPVRSPELIVLNEPLAASLGLDADALQSAEGAAMLAGNEIPEGAEPLAQAYAGHQFGYFTMLGDGRAILLGEQITPQKDRMDIQLKGSGRTPYSRGGDGRAALGPMLREYIISEAMHALGIPTTRSLAVVATGQPVTRERDLPGAILTRVAASHVRVGTFQYVRGAGTTEDLRALADYTLKRHYPKADLGDGANRYLVLLREVIQRQAVLIAKWQLVGFIHGVMNTDNMTLSGETIDYGPCAFMDTFDPNTVFSSIDSQGRYAYVNQPYIAAWNLARLAEALLPLLHEEEEQAIKLAEGAIGSFTDLYHEQWLAGMRAKLGIFHEEEEDESLIEDLLKMMKNHQADYTNTFRALTFDKLEDTPLNGTPELASWYERWQARLGRQQESRDQSHQLMRSSNPAVIPRNHRVEEALEAAENEGDYSVMKELLNVLSNPYAHSPEQAEYAIVPERSRPYRTFCGT				NA	NA	NA	NA	NA
AK002_06206	741			hypothetical protein	TTGATAGGGCGCAGTGGAAATCCGACACTCAACGAAGATACCTTCGAGAAGAGTGGGTATTACAACAATCAAGAAACGATGACGATTGGCGGAACGGTGAACAAATCGTTCATGCTGCTCGCGCTGCTGATCGGGGCAGCGGTCATTTCTTGGGTTATGTTTTTTAACGGGTATGAGGTATTCCCGTTCATGATCGGCGGAGCGATCGGCGGTTTTGTCCTGGCGCTGATCATCAGCTTCGTGCCGAAGGCAGCACCGTATCTGGCGCCGATCTATGCGATCCTGGAAGGCTTCTTCCTGGGTGCACTATCCGCGCATTACGAATATCTGTACTATGGCATTACTTTGCAAGCGGCTTTACTGACGATGTGCATATTCCTGGGCATGCTGCTCGCATATAAGACAGGTTTGATCCGGGCCACGCCAGGCTTCAAAAAGGGGATTATCGCGGCAACGATCGGCATTGCGCTTGTCTACCTGTTTAGCATGGTTCTCGGCCTGTTCGGCGTAGCCGTTCCTTACCTGCATGACAGCACCCCGATCGGTATCGGAATTTCCGTTGTGATCATCATCATCGCCGCACTGAATTTCGTGCTGGATTTTAACTTTATCGAAGAGGGCGCTCAGCATGGAGCACCTAAGTATATGGAGTGGTACGGCTCGTTTGGTTTGCTGGTAACACTCGTCTGGCTGTACATCGAAATTATCCGGTTGCTGGCGAAGCTGGCGAATCGGGACTAA	MIGRSGNPTLNEDTFEKSGYYNNQETMTIGGTVNKSFMLLALLIGAAVISWVMFFNGYEVFPFMIGGAIGGFVLALIISFVPKAAPYLAPIYAILEGFFLGALSAHYEYLYYGITLQAALLTMCIFLGMLLAYKTGLIRATPGFKKGIIAATIGIALVYLFSMVLGLFGVAVPYLHDSTPIGIGISVVIIIIAALNFVLDFNFIEEGAQHGAPKYMEWYGSFGLLVTLVWLYIEIIRLLAKLANRD				NA	NA	NA	NA	NA
AK002_06207	873			hypothetical protein	ATGAATGAGGAGCTTTTGGAACAGCTGGAAGAGTGGCATGAAGAGGACGAATTTGAAGAAATCGTAGATGCGATTACGGAGATCCCGGAACAAGAGCGGGATTATGCGCTGATCAGCCATTTGGGCCGGGCGCTGAACAATCTCGAACGTTACGAAGAGGCGGTTGAGCAATTTCTGTCCATTCAGGAAGAGGGCAAGGACGATCCGCTGTGGCATTACCGCATTGGGCTCGCGTATTACTATTTGGACCGTTACGAAGATGCTCGGAGAGCGTTTGAAGTGGCCGATCATTTAGAACCTGGAGATGAGGATACGCTGGAGTTTCTGGAATGGATCCGGAACAAAACGGCTCCGAAGCCAGCAGAGAAGTCCAGTTCCGCCGTGTCTTATACGGATCCTGATGTACTGAATTTCTGGGATGACGACGCCCCGGAAGCTGACAAATACGTCTCGGCTCCGCCTACGGACGAGCTGATCGAATCCGTGGAGGAAACGCTGGTCTTCAAGCTGCCGGCATCTTATATTCAAGCCATGAAAATACATAACGGGGGTATTCCCCGAAACCGGAAATTCCCTATAGAGGGTGGAGCACAGGATTTTATTGAAATATCAGGTATTCTGGGAATCGGACGAGACAAGAAAAAATCCCTGTGCGGAAGCCTGGGCAGCCGCTTTATGATCGAGAACGGCGGGTATCCTGAGATTGGCGTGGTGATCTGCGATTGTCCGTCCCCGTCCGAGGTCGTGATGCTGGATTACCGTTCATCGGGGAACGATGGGGAGCCGGAGGTTATTCATGTGGACAAGGCCAGCGATTACAAGATCACCCGTCTTGCTGCGAACTTCGAGGCCTTCATTAGTGGATTGGAGTAA	MNEELLEQLEEWHEEDEFEEIVDAITEIPEQERDYALISHLGRALNNLERYEEAVEQFLSIQEEGKDDPLWHYRIGLAYYYLDRYEDARRAFEVADHLEPGDEDTLEFLEWIRNKTAPKPAEKSSSAVSYTDPDVLNFWDDDAPEADKYVSAPPTDELIESVEETLVFKLPASYIQAMKIHNGGIPRNRKFPIEGGAQDFIEISGILGIGRDKKKSLCGSLGSRFMIENGGYPEIGVVICDCPSPSEVVMLDYRSSGNDGEPEVIHVDKASDYKITRLAANFEAFISGLE				NA	NA	NA	NA	NA
AK002_06208	3303			hypothetical protein	ATGCATATTGTCAAGAAAATAGGGCTGTTATCTCTAATCGTATCTATTGTAGCTGGGCTGTTGTTTCTTAAGCCGACCGGTGTAGTCTATGCATCGTCTCCGACGGCCACGATCGTGGTTGCCGATACGACGCTATCGATTGGTGAAACTTCATTGGTAACGATCACGTTCTCGGAAGCGGTAACAGGCTTTACGCTAGCAGACCTGACGGTAGCGAATGGCACATTAAGCGGTTTGAGCTCGTCCGATGGTGGGGTCACATGGACGGCAACGTTAACACCAACTACTGGCATCACAGATGCATCCAACATCATCACGCTTGATAATACGGGCGTGGCCGATTTGGCGGGCAATGCGGGTACTGGTATCACCAGTTCCAACAATTACGCAATCGATACACGGAGGCCAATAGCTACTATTGTAGTTGCCGACACGGCGTTATCCATCGGCGAAACTTCAACGGTGACCATTACATTCTCGGAAGCGGTAATAGGCTTCACGAATGCAGATCTGACGGTGGCAAACGGTACGCTGAGTGCCGTGAGCTCGTCCGATGGTGGGATCACATGGACGGCGACGTTGACGCCAACTTCTGGCATCATAGATGCAACCAACATCATCACGCTTGATAATACGGGCGTGGCCGATTTGGCGGGCAATGCGGGTACTGGTACCACCAGTTCCAACAATTATGCGATTGATACGACACGGCTGACAGCCACGATCGTGGTTGCCGATACGACGCTATCGATTGGTGAAACTTCATTGGTAACGATCACGTTCTCGGAAGCAGTAACAGGCTTTACGCTAGCAGACCTGACAGTAGCGAATGGCACATTAAGCGGTTTGAGTACGTCCGACAATATCACCTATACGGCGACGTTAACGCCAGACACCGGCATCACAGATGCAACCAATATCATTACGCTCGACAATACGGGCGTACAGAATGCAGCAGGTAAAGCGGGTAAGGGTACCTCCGATTCGAACAATTACGCGATCGATACACAGCGGCCGACCGCTACCATTGTAGTTGCGGACACGGCGTTATCTATTGGCGAAACTTCAACGGTGACCATTACATTCTCGGAAGCGGTAATAGGCTTCACGAATGCAGATTTGACGGTGGCAAACGGTACGCTGAGTGCCGTGAGCTCGTCCGATGGTGGGATCACATGGACGGCGACGTTGACGCCAACTTCTGGCATCATAGATGCAACCAACATCATCACGCTTGATAATACGGGCGTGGCCGATTTGGCGGGCAATGCGGGTACTGGTATCACCAGTTCCAACAATTATGCGATTGATACGACACAGCAGCTGACAGCCACGATCGTGGTTGCCGATACGGCGCTATCGATTGGTGAAACTTCATTGGTAACGATCATGTTCTCGGAAGCGGTAACAGGCTTTACGCTAGCAGATCTGACAGTAGCGAATGGCACATTAAGCGGTTTGAGTACGTCCGATGGCGGGATCACATGGGCGGCGACGTTGACGCCAGTCCCTGGCATCACAGATGCAACCAATATCATTACGCTCGACAATACGGGCGTACAGAATGCAGCAGGTAAAGCGGGTAAGGGTACCTCCGATTCGAACAATTACGCGATCGATACACAGCGGCCGACCGCTACCATTGTAGTTGCGGACACGGCGTTATCTATTGGCGAAACTTCATTGGTGACCATTACATTCTCGGAAGCGGTTAGTGGCTTCGCCAACGGTGACCTGACGGTGGCAAACGGTGCGTTAAGCAGCGTAAGTTCAACTGACAACATGACATGGACAGCAACGCTCACGCCGAATTCCAATGTAGACTCGGCGACGAATACCATCACGCTTGATAACTCGGGGGTGACCGATTACGCAGGTAATGCGGGAGCAGGCTTGACGGAATCCAATTCGTACTCAGTGTTCACGGTGCCGGCATCTGCGGATTTAAGCAGTGTGACGTTATCGAACGGGACACTAAGCCCTGTCTTTGCTTCTGGAACAGAAGTGTACACGTCAAGCGTGCCTAATTCCGTTTCCTCGCTGACCGTAACCGCGACTGCACTCGATAGTCATGCCACGATGACGGTTAACGGTAATTTAGTAATAAGCGGGCAAACAAGTTCCAATATACTGCTGAACGTAGGATCCAATACGATTGTGATTGTTGTAACGGCAAGCGATCAATCGACGAGAACCTATACGATCACTGTGACCCGTGAGAATAGTTCCTCTACCGGTGGTGGTTCTTCTAATGGGGGAGGTTCATCCACTGACAGCGGTTCGTCTACGCCACCGGCTCTCATAGACAATACAGTTACATCATCCGATGGAAAAATCACGCTGCCAACAGGAAGACCTGGGTTGGTTAGCCTGGGGAAAGAAATCATCATTTCCATTCCGGCAGGCGCCACATCTCAGGAGCTGAAATTATCAATTGAGAAAATTCGAAATACCGAAGCTCTCTTAAAGAACAACGAGGTTTTGGCAAGCCCGGTGTTTGATGTTCTAACAAACGTCTCAGGGAACTTTAGCAAACCGGTGAAACTGACTCTAGCTTACGACGCTGCAAGCTTAAAGAGCGATCAAACGGCGGCCGTCTTTTATTTTGATGAAGTGAAAAAGGCATGGGTGAAAGTCGAGGGCGGCATGAAACAGGAGAATGATATATCCGTAGAGGTCAATCACTTTTCGAAGTATGCAGTACTCGTAGTAAATAAAGCCAACGGAATGCCCGTAGTCGACAAAACAACAGACCCGACAACGGAAATTTCCTTTACCGATATTTCCGGGCATTGGGCTGAAGTCAGCATTAAGGAAGCGGTACGTGAGGGTATCGTTGCGGGATATCCGGATGAAACGTTCAAGCCAGGCAACACCGTGACGCGTGCAGAGTTTTCCGTCATGCTGATGAAAGCGCTGAAGTCGACAGATGCTGGAGCGGAGTTGATATTCACAGATACAGCATGGATCGGGGATTGGGCTAAGAAGGCAGTTTCGCAGGCGGTCCAGGCTGGCATTATTCGAGGCTATCAGGATGGCTCTTTCCGTCCAAATGCAAAAATGACTCGCGCTGAGATGGCAGCAATGATTGCGAATGCGCTCGAGCTAACCAACAAGGACATCCCCACAACCTCTTTTTCAGATGACAAGGCAATTCCTGATTGGGCGAAAAGCTCTGTTGAAGCGCTGAAGGAACTTGGTATTGTTAAGGGAATAGGCGCAGGCGAGTTTAATCCAAGCGCTCAAACCACGAGAGCAGAGGCCGTAATCGTTCTGATGAACATGTTAGGTCTATCCAAATAA	MHIVKKIGLLSLIVSIVAGLLFLKPTGVVYASSPTATIVVADTTLSIGETSLVTITFSEAVTGFTLADLTVANGTLSGLSSSDGGVTWTATLTPTTGITDASNIITLDNTGVADLAGNAGTGITSSNNYAIDTRRPIATIVVADTALSIGETSTVTITFSEAVIGFTNADLTVANGTLSAVSSSDGGITWTATLTPTSGIIDATNIITLDNTGVADLAGNAGTGTTSSNNYAIDTTRLTATIVVADTTLSIGETSLVTITFSEAVTGFTLADLTVANGTLSGLSTSDNITYTATLTPDTGITDATNIITLDNTGVQNAAGKAGKGTSDSNNYAIDTQRPTATIVVADTALSIGETSTVTITFSEAVIGFTNADLTVANGTLSAVSSSDGGITWTATLTPTSGIIDATNIITLDNTGVADLAGNAGTGITSSNNYAIDTTQQLTATIVVADTALSIGETSLVTIMFSEAVTGFTLADLTVANGTLSGLSTSDGGITWAATLTPVPGITDATNIITLDNTGVQNAAGKAGKGTSDSNNYAIDTQRPTATIVVADTALSIGETSLVTITFSEAVSGFANGDLTVANGALSSVSSTDNMTWTATLTPNSNVDSATNTITLDNSGVTDYAGNAGAGLTESNSYSVFTVPASADLSSVTLSNGTLSPVFASGTEVYTSSVPNSVSSLTVTATALDSHATMTVNGNLVISGQTSSNILLNVGSNTIVIVVTASDQSTRTYTITVTRENSSSTGGGSSNGGGSSTDSGSSTPPALIDNTVTSSDGKITLPTGRPGLVSLGKEIIISIPAGATSQELKLSIEKIRNTEALLKNNEVLASPVFDVLTNVSGNFSKPVKLTLAYDAASLKSDQTAAVFYFDEVKKAWVKVEGGMKQENDISVEVNHFSKYAVLVVNKANGMPVVDKTTDPTTEISFTDISGHWAEVSIKEAVREGIVAGYPDETFKPGNTVTRAEFSVMLMKALKSTDAGAELIFTDTAWIGDWAKKAVSQAVQAGIIRGYQDGSFRPNAKMTRAEMAAMIANALELTNKDIPTTSFSDDKAIPDWAKSSVEALKELGIVKGIGAGEFNPSAQTTRAEAVIVLMNMLGLSK	PGPT0022155_4639	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
AK002_06209	438			hypothetical protein	ATGATGAACAGAAACCAAACATTGCGGGGATTTGCGACCATCAGTTACTGGGCAGATGATATGGAAGCGGCAAAGGCTTGGTATTCCGATCTGCTGGGTATGGGGCCATACTTCGAAAGGTCAGGTCCCGACGGGAAACTGGCTTACGCCGAATTTCGGATTGGAGACTACCAGCACGAGCTGGGTCTCATCGATCGCCGTTTTGCCCCTGAACAGCCAATGTCCGGCCCCGGCGGAGCGATCATGTACTGGCATGTCGATGATATAGAGGCCACCCTCGGCCGATTGAAATCCATGGGAGCCAAAGAATATGAACCGCTCACCCACCGTGGGGAAGGGTTCATCACGGCATCCGTCACCGATCCATTCGGCAACATACTTGGCATCATGTACAATGCTCATTACCTAGAGATACTGAATTCCGGAATGCAGGGGTAA	MMNRNQTLRGFATISYWADDMEAAKAWYSDLLGMGPYFERSGPDGKLAYAEFRIGDYQHELGLIDRRFAPEQPMSGPGGAIMYWHVDDIEATLGRLKSMGAKEYEPLTHRGEGFITASVTDPFGNILGIMYNAHYLEILNSGMQG				NA	NA	NA	NA	NA
AK002_06210	2061			hypothetical protein	ATGGTTGATGCAGAGAATGAATCGGATCGTCTCCCGAAAGCTTATCTAGCGACGGCCGCGAAGAATATCGAGCACCTTGGGTATACGTTCACCTATCCATTGCTGCACGCCGTGCGAACTTTATCCACAGAGCAGTTCGAAGCCCTCTATCAACCGCTGATTGACGATTTAAGGGTGATGGTAGGCGCGCATGTAAAATATGAGCCGATGTATCCCGCGTTCCCGATGCAGGTGATGGAGGAGAACGATGCGGAGCTGTACCTGAATGCCATCTATCATGATCTGACTTGGGATTTGCCTGCATATGAGCATGAGGAGAGACCTCCGCTGCAGGATGAAGTCAACCTGAAAACCATTGATCTGGGAAGCAAGGCGGATTTCTATGCCATAATACGCCAGCTGATCCAAGCTAAAGGCTCCATCTCCCCAACGGATAAAGAGGATATTGAGGCCGTTATTGAGCTTGTCGACCCCGAGGAACTGGATGTCATTCTCCCTCCCGAGATTCCATTCAAGGAGAATGCGGGATTCGTGGCAGCTGCGTTAATGAAGCATGACAAGGGGAACGTCGAGCGGATCGGGCGTTATTTCAAAACCGCAACCGATGTCCTTCGTCTGACGGTGGCTTGGTCAGGCGGAGATGTCAGTCTGGCTGAAGCCACCCGGTTTCGCAAATTTAAGCGGCGCGAAAGACGGCTGCTGCTGGGGTTGCTGGAACGCTGCCATCCGATAACGGAGGATATGCTCAGATTTAAGGACCGCTGGATTCGATTGGGCGAAATCCTCCATCCTTCCGAATATAAGCACCGGTATAAACGCTGCGAGGAAGCCTTTGATATTTTGCGGAATCACAAGCCCTTTACCACGTATAACGGGAGCGTCGAGCTTGCATTTCAGTACGACCAGGTCTGGAATTTGATCGATTTGTTAATGCAGCGTCCGGGCGAGTTTGCCCGCAGATTGGATCAGCTGCTGCGATCCACCGAACATACAGAGTATGTCGTTTTGGCGTTTGGCGAGGTGGCGAATCAAGTATCGACGCCGGTCTTGCTGCAAGTGAAGAATCATTTTGCCCGCCGACACGAACCTCAAGAGCTGCGCGTCTTTTTCCCGAAAGGAAATGTGGCTAAAGCCTTTGCCGTACCCCACACGCTTCCGGAGATCGATGAAGCGGCATGCCGAGACATCGTGCAGGTATGCGAGCAGGCGCTGGTCCAGCGGTTCGCCTCGCTGCCGCCCTTGGGGAAGGCCTATGTCGATAAGCGATTGAAGGATTATCATGTGCCGTTCTCGCAGAGATCGGCAAGCAAAGCCCTGCATACGTTGGTTCGGGGAAGCCGCGTGCCGATGGCGGAAGGGGATACCATCCGTTTCTTCAGCTGGTGGAAGGAAGGACGCGTGAACGGGGAGTCTACGGGCCGCGTGGATATTGACCTGTCCGCCGTCATGTATGATCACGACTGGCAGTACGTCGAGCATATTTCTTATACGAATCTGCGGTCCTCCCATTACAGGGCCGTGCACAGCGGGGATATCGTGTCAGCTCCTCAAGGGGCATGCGAATTCATTGATCTGCATATTCCAACCATCGTCCAATACGGCGGACGTTATATTGTGGCGACTCTTCATTCGTATACAAATCAACCGTACTGCAACCTGCCGGAGTGCTTCGTGGGCTGGATGATGCGGAAGAAACCCGGTTCCGGTGAAATATTCGAGCCCTCGACGGTGGCTAATAAAATCGATGTCGCCGCCGATACGCAGATCGCTATTCCCGTTATCCTGGATTTGGTGGAGCGTACGGTCATCTGGACCGATCTGTCCCTAACCAGACATCCACACTACTACAACAATGTAGAGGGGAATCAGAAGGGGATGGTCTTGATGGGCAAAGCCATGACAGCCCTGCGGAAGCCCGATCTGTACGATCTGTTCATGCTGCATGCCAAGGCAAGAGGAGAGTCCGTAGACCATGCGGAACAGGCGGAAACGATCTTCTCGGTGGAACATGGGGTGACCCCGTTCGATATCGAGCATATTATGGCGGATTATGTTGTGTAA	MVDAENESDRLPKAYLATAAKNIEHLGYTFTYPLLHAVRTLSTEQFEALYQPLIDDLRVMVGAHVKYEPMYPAFPMQVMEENDAELYLNAIYHDLTWDLPAYEHEERPPLQDEVNLKTIDLGSKADFYAIIRQLIQAKGSISPTDKEDIEAVIELVDPEELDVILPPEIPFKENAGFVAAALMKHDKGNVERIGRYFKTATDVLRLTVAWSGGDVSLAEATRFRKFKRRERRLLLGLLERCHPITEDMLRFKDRWIRLGEILHPSEYKHRYKRCEEAFDILRNHKPFTTYNGSVELAFQYDQVWNLIDLLMQRPGEFARRLDQLLRSTEHTEYVVLAFGEVANQVSTPVLLQVKNHFARRHEPQELRVFFPKGNVAKAFAVPHTLPEIDEAACRDIVQVCEQALVQRFASLPPLGKAYVDKRLKDYHVPFSQRSASKALHTLVRGSRVPMAEGDTIRFFSWWKEGRVNGESTGRVDIDLSAVMYDHDWQYVEHISYTNLRSSHYRAVHSGDIVSAPQGACEFIDLHIPTIVQYGGRYIVATLHSYTNQPYCNLPECFVGWMMRKKPGSGEIFEPSTVANKIDVAADTQIAIPVILDLVERTVIWTDLSLTRHPHYYNNVEGNQKGMVLMGKAMTALRKPDLYDLFMLHAKARGESVDHAEQAETIFSVEHGVTPFDIEHIMADYVV				NA	NA	NA	NA	NA
AK002_06211	636			hypothetical protein	ATGGAGAATTACGGTAATATTTTAGCTGAGCGCAAGGACTGTATACTGTATGAGGCCGGTCGAGGTCTATCTACAGGACAAAGTACGGGCTGGATCGGCGGCAATGCCCCGGCCTATTTCGACGACAAAGCGGATGCCATCCAAGAAGGTGACCTGGGCTATTACTTCTATTTAAGTCTTATTCATCCTTTCAAGCCCGCATCTATGATCTCTATTTTCATCCCTAATGACTATGAGAAATACATGGAGCACAATCAATATCCTGATTGCTCTATCAAGGTGATGGAACACCCAATGACCGACGAGAGCTTGAGCGATCGTTTTGCGCATCCGGGCCTGATCAAGCATCTTCTTTCGCATCGAGAGACATGCAGCGACCTCCATTCGATGGGTCAGTCTTTCCTAATCAAATTGGGCGGGAGCCCAAGATTGGTCCAAGATGAAGCTTATTATTCGGCCAAGCTGAGGGAGGAAGGATTCTCCTTTTTGTTTCAGGTGGACGAAGATGGGTATCCCGAGACACTGCTCCGAGAGGACAGCAGTTATCCTTTTGGCTTTGGAGCTCTGTACATTTACGCTAAAATCACCACGGATGACGTTCAGGACCCGGTAGCGGGCTTCTGGCAGTTCTCATGA	MENYGNILAERKDCILYEAGRGLSTGQSTGWIGGNAPAYFDDKADAIQEGDLGYYFYLSLIHPFKPASMISIFIPNDYEKYMEHNQYPDCSIKVMEHPMTDESLSDRFAHPGLIKHLLSHRETCSDLHSMGQSFLIKLGGSPRLVQDEAYYSAKLREEGFSFLFQVDEDGYPETLLREDSSYPFGFGALYIYAKITTDDVQDPVAGFWQFS				NA	NA	NA	NA	NA
AK002_06212	375			hypothetical protein	TTGACGACCCTTATTGTGATCATCGTCATTTTCTCACTGATCACGCCGTCCTTCTTCATCGCGAAATTCACCAAGGAATTACGGGCGAACAACAACCGAAACGTGCAGCGCAAGACGATTCTCGCGAGCGGTACGCCCGCTCAAGCACAGATCAACTCGATCCGGCAAACGAATGTGCAGGTTGACGATCAACCTGAAGTGTTGCTGGACCTAAGCGTCACCAAACCGGATGGCGGGACGATCCATACCGTCGTAAAGACCGTTATCCCGATCATAAGCATCCCCACGTTCCAACGAGGCAATATCATCGAAGTAAGGCATATGACCATAGACAATGAGTTGAAATTCGAGGTCGTAGGCGCCTATATACTTTGA	MTTLIVIIVIFSLITPSFFIAKFTKELRANNNRNVQRKTILASGTPAQAQINSIRQTNVQVDDQPEVLLDLSVTKPDGGTIHTVVKTVIPIISIPTFQRGNIIEVRHMTIDNELKFEVVGAYIL				NA	NA	NA	NA	NA
AK002_06213	1080			hypothetical protein	ATGATCGTTCTGAAAGATATCGGCAAATTCGAGGAACTGCCAGAGATCGCGATGCACATCTACCAAGGGAACATTCCGGCTTTGCAGGAGGCAATAACCGCAGGCTGGGATATCGAGGAGGGCATCGTACTAAGCAGATATACGACGGTAAGCCCGCTCGATCTGGCGTTGATCTCGCAGCGAGCGGATGTGGTGAAGCTGCTGGTCGAGCACGGCGTTAACCTGAATGTTCATCATAATTCGGCTTTTTTGCGAGCGGTGCGGTACGGCAAGGAAGATATCGTTCGTTATATCGCAGCGCAGGGCGCCGAGCTGGACAAACTCAATCAAACCGGGTCAGGCGCATATGAACAGGCCTATTACGGCAACAAAAAAAACATCCCGCTCATCCGGGAGCTGGGATTGGATCTCAAGCTGCATGGCAGCGCGGTGCTGCGCCAAGCCGTGTCGGACCATGATTATAAGACACTCGATTATCTGCTCGATCATGGGGCGGACATCAATTATAACCAGCCCGACATGGTCTATCCTTATCAAGCGACTCCGCTAACCGTGGCCACGCGGATGGGGAATCAACGCATGGTCAAGCATCTGATCGAGCGCGGCGCTGACGTGACATTGGCGGAAAAGGACGGCGAGCGGCCGTATACGATTGCGGTCGGCAATAAGGATACCATCCTGGCCGACTACTTGAAATCGCTGGAGCCGGCCGAGTTTCATAGCTTAGAGAATAAGAAGTATGCACTGAAAAAGTATAAATTGACCGATGAATTGGTCCGTTTTCTGACAGGAGACCAGCTGCGGCTTGAGCTGCCGGAGAATGAATATGAAATCAGGTATATCGACTTCTTTGCATTGACCGACACGATCGAGATGAAGGTCGGGCGCCAGAAGCTTCTGCGCCTGTCAGCCGACATTGACAATTACTCCGATCTGCAGCTTGTATGGAATCCGAAGAAAAAGGGCCTGATTGGTTGTTATGATGTGGAGCATCAGACGCACGCCGATCTATGCAGCTTTACCGAGTTCCTCGCGCAGCCTGAATCGTACCTCATCCGTTTTCTAGAGGGAGAGCTGTAA	MIVLKDIGKFEELPEIAMHIYQGNIPALQEAITAGWDIEEGIVLSRYTTVSPLDLALISQRADVVKLLVEHGVNLNVHHNSAFLRAVRYGKEDIVRYIAAQGAELDKLNQTGSGAYEQAYYGNKKNIPLIRELGLDLKLHGSAVLRQAVSDHDYKTLDYLLDHGADINYNQPDMVYPYQATPLTVATRMGNQRMVKHLIERGADVTLAEKDGERPYTIAVGNKDTILADYLKSLEPAEFHSLENKKYALKKYKLTDELVRFLTGDQLRLELPENEYEIRYIDFFALTDTIEMKVGRQKLLRLSADIDNYSDLQLVWNPKKKGLIGCYDVEHQTHADLCSFTEFLAQPESYLIRFLEGEL				NA	NA	NA	NA	NA
AK002_06214	567			hypothetical protein	ATGAAGCTGGCTTTTTCGCTGGATACACACGGAACGTGCGTAGGTCAATTAAGGGACGAGCTGCTGCCGTTAGAGGAAATGGCTGCCGCCTGGAAGTTTCCGTTCGATATCTTTGTTGTATTTCGCGTTTTGCCGGAAAGTTATGGCCGAATAACATCCAGACGTTTGGATAGCAGGGATCATACCCTCGACTTGGATATCAGTTTAAGTTATGAGCAGTACCAACGAATGTCCAAACATGAGCAGCGCGAGGCACTGGGGATGTATCTCTATGATTATTTGTCAGAGTCCGTTGCTAAACATAAAAAGCAAGCAGATGCGGAAACCCAAAAACAGCTGCTGGACCGGGTGAAAGAATGGATGCTCGAACACGGTTGGCTGCATGGAAAAATCCATCAGGCACGGGAGCTTCTGGCGCAGGACATCGACCTCTATGAAATCAGCCGAACGCTGCAAATGCCGCTGGAAGAAGTGGAATATACGTATCTCCGCATGAATGGCCATGAGCCTGCAGACGTTCATCCCGATAATATTGCAGCAGGAGAAGCCCCGCTTTATCCCTTGTAA	MKLAFSLDTHGTCVGQLRDELLPLEEMAAAWKFPFDIFVVFRVLPESYGRITSRRLDSRDHTLDLDISLSYEQYQRMSKHEQREALGMYLYDYLSESVAKHKKQADAETQKQLLDRVKEWMLEHGWLHGKIHQARELLAQDIDLYEISRTLQMPLEEVEYTYLRMNGHEPADVHPDNIAAGEAPLYPL				NA	NA	NA	NA	NA
AK002_06215	738			hypothetical protein	ATGTACATCGTATCGGGACCGAGGCCGCTGCCGAATGGCCGCAATCATATGTTTGGAAGAGAGGACGAGGAGGGTTATCCGCCGGGCTATGTCCGGTTCATGCAGCGCTTCGGTGAAGGGACATACCGCGGGTGGATGAATGTCCAGCTGCCGGATAGGGAGGTGCTGCAGCCTTTTGCCGAGTACGGGTTATGGGAGCATGACGATGACAGTCCCATTACCGAGCCGCAGATTGCAGAGTGTATCGCTATAGGCACAACGGTGGACGGTGATTTTCTGGCGGTGCATCCCCAGACGGCTCAGTTGCTCTGGCTGCCTCGGCATGCAGAGCATATACAGGCAATCTTGCTGCAGGTACAGGAGCAAAACGATGAAGGCCTGTACGCCGCGGTGCTGGATGAAATATACCGTCAGGTGTATGGAAGCAGCCAAGAGTTAGCCGTTTATTACGAACCGTGGACGGGTACGCGGAGCCATCTCTTTTTGCGTTTGCCGCCAGGAGAGGATCGGCCTTCGCTGCCCGAGCTGGCCGGTAGGTGTCAAGCGTCCTTTCCGCCGGATCTGTCCGTGGAAAACGAATACACGTGCAGCTTGTTCTACCGGGAACTGGGCGGATATGTACGATTCAATTATGCTTATCAGCAAGAGTTAGCCGTCTTCTATGAACAGGATGCAGGGCAGGCATTTGCCGTTATAGAGGCATGGCTTCTGTCGAAAGGGTGCGAAAGGATATCATAA	MYIVSGPRPLPNGRNHMFGREDEEGYPPGYVRFMQRFGEGTYRGWMNVQLPDREVLQPFAEYGLWEHDDDSPITEPQIAECIAIGTTVDGDFLAVHPQTAQLLWLPRHAEHIQAILLQVQEQNDEGLYAAVLDEIYRQVYGSSQELAVYYEPWTGTRSHLFLRLPPGEDRPSLPELAGRCQASFPPDLSVENEYTCSLFYRELGGYVRFNYAYQQELAVFYEQDAGQAFAVIEAWLLSKGCERIS				NA	NA	NA	NA	NA
AK002_06216	1137			hypothetical protein	ATGGAACAACGAACGGGCAGAATTCGCCTGCTGGATATTTTGCGGGGCTTCGCGATCCTGGGAACGCTCGGGACGAATATTTGGATCTTCGCGCATGCGGGGGATCTACGCTACATTACCACCTTTGATCACTCCGGCTGGTGGGCAGCGGACGACCTTCTCCGGTTGATCGTTTTGTTCCTGGTAAACGGGAAGCTGCTTGGACTGCTGACGATCATGTTCGGGGTCGGCCTGGAAATGAAGTACCGGCAGGCCAAGCGCAAAGGAAAGCCGTGGCCTGGCGTTTATTTATGGGCCGTTCTGTTTTTGATCCTCGAAGGCCTGCTGCATTTTATATTGGTCATGGAGTATGACATCTTGATGAGTTACGGGATTACCGCCATCATTGCAGCCTTTATCGTAAAGGGCGGCGACCGGCTCATCGCCCGTACGATGAACGTGATCGGCAGTATCTTTGCCATCGCGATCCTGGCCCTTGCGGGACTCATGCTGGCAAGCGGGGCCAGCGTATCGCTGGGCAGCTTTGACGATGTCGCTGCTCTCTATCAGGAAGGCACTTGGATCGAGCAGGTCCGGTACCGGCTGGCGAATTTCCTCCCGTTGCGTGCGGAGGCCATCCTCGTCATCCCGACAAACGTGTTTCTGTTCCTGCTAGGGGTTCGCTTCATGCGCTCGGGCGTATTCGCACCGGACGAGAACGGCAAAAGGCTGCGGAAAAGGCTATTCCAGCTGGGCGTATATGTCGGCGTGCCGCTCAACCTGCTCATATTCATTCCCGGCGGCGCTTTCGATCTTCCCGTGCGCTATCTGTTCGCCCCGCTGATGTCCATGGGGTATATAGCAATTTTAGCGAGAATGATACAATATACGAAGTGGGAATGGCTCTGGCGCCTTCTGGAGAATGTCGGAAAAATGTCGCTGAGCTGCTACGTGTTCCAAAACATCATGGCATCCGCTGTTTTCTACGGCTGGGGCCTAGGGCTTGCCGGCAGGCTGAATTCGGCCGCGATTATCGCCGTTTGGCTGCTAATCTCCGCACTTCAGCTCGGCATGGCGTCCCTGTGGCTTCGAGGCTTCAAGCTGGGGCCGATGGAGACCGTCCGCAAACAGGCGGTAGGTTTGTTCGAATCCAAATAG	MEQRTGRIRLLDILRGFAILGTLGTNIWIFAHAGDLRYITTFDHSGWWAADDLLRLIVLFLVNGKLLGLLTIMFGVGLEMKYRQAKRKGKPWPGVYLWAVLFLILEGLLHFILVMEYDILMSYGITAIIAAFIVKGGDRLIARTMNVIGSIFAIAILALAGLMLASGASVSLGSFDDVAALYQEGTWIEQVRYRLANFLPLRAEAILVIPTNVFLFLLGVRFMRSGVFAPDENGKRLRKRLFQLGVYVGVPLNLLIFIPGGAFDLPVRYLFAPLMSMGYIAILARMIQYTKWEWLWRLLENVGKMSLSCYVFQNIMASAVFYGWGLGLAGRLNSAAIIAVWLLISALQLGMASLWLRGFKLGPMETVRKQAVGLFESK				NA	NA	NA	NA	NA
AK002_06217	1122	desK_4	COG4585	Sensor histidine kinase DesK	ATGTTCTATAAGTTGTACCCGAGGGACCAAATCAAAAACTATTTGCTGATCGATATCATACTGACCGTATTCTTGTGCTATCGGGTCTTCAACTCGGATACGGCGCTGGGATTGTGGGGTACCCTTCTGGTGCTTCTGTTGTTCCTCGCATCGTTTTATGTTGCGCTGTGGCGTCGGGGCGGCTGGCTGCTGGCGGCTTCGCTGTCCGGCCTGTCGGCCATTGCGGTGTTCGGGGTGTATGCCGGGCCGAGCACCATGCTGTTCGGGATCATTTTCGCCGACTTGCTCGGTCGATCCAAGTCCAAGGCGCATATCGCCATCGGCAGCGCGGCCATTGCCCTGTCGTTCCTGCTCGTATTTGTCATCCGTCAGGAACCGCTGCTCGAAACGTCCAACGCCATTTACCTTCCGGTCATGATCATTCAGTCGGTATATCCGATCGTCATCTACATCAAGGAGAAAGCAAAAAGCCTGCAGGGGGAGCTGGATGAAGCCAACGAGCAGATCGCAAAGTATATCCAGCAGGAGGAGCGGCAGCGAATCGCCAGGGATCTCCACGATACCTTGGGGCAGACCCTCATGATGATCAAAATGAAGAGCGAGCTGGCAACGAAATGGGTGGATAAGGATCCGAGCCAGGCCAAACGGGAGTTAGGCGAGATTCTGGATACCTCCAGAACCGCCCTCAAGCAGGTGAGGGAGCTGGTATCCGATATGAAGTTCATCTCGTTGGCAAGCGAGCTGGAGCATTCGGCCAAGCTGCTGCATACGGCAGGAATTGCGCTGAGCATCGAGAATCCGGAGAAGCCCCCGCTGTTATCCAGCGTGGAAGAAACGATGCTGGCGCTCTGCGTCCGGGAAGCCATGACCAATATTATCAAGCATAGCCGGGCCAAGCGGTGCGCCGTCAAACTGGAAACGAAGGATCATGCCTTCGGGATCCATATCGCGGATGACGGCGTGGGGCTTGCGGGGCACGGCGGCGGAAACGGCCTCCCATCGATCATGGAGCGGATGAAGACGCTGGGCGGGTCCTCCGCCATCGACCCGTTGCCTCAGGGGGGCACTAAGGTGTACCTGAAACTCCCGCTTCGCCGGCATGAAAAGGAGGACGCTTCATGA	MFYKLYPRDQIKNYLLIDIILTVFLCYRVFNSDTALGLWGTLLVLLLFLASFYVALWRRGGWLLAASLSGLSAIAVFGVYAGPSTMLFGIIFADLLGRSKSKAHIAIGSAAIALSFLLVFVIRQEPLLETSNAIYLPVMIIQSVYPIVIYIKEKAKSLQGELDEANEQIAKYIQQEERQRIARDLHDTLGQTLMMIKMKSELATKWVDKDPSQAKRELGEILDTSRTALKQVRELVSDMKFISLASELEHSAKLLHTAGIALSIENPEKPPLLSSVEETMLALCVREAMTNIIKHSRAKRCAVKLETKDHAFGIHIADDGVGLAGHGGGNGLPSIMERMKTLGGSSAIDPLPQGGTKVYLKLPLRRHEKEDAS				NA	NA	NA	NA	NA
AK002_06218	606	desR_4	COG2197	Transcriptional regulatory protein DesR	ATGATTCGAATCGTCATTGCGGAAGATCAGCAAATGCTTCGCGGCGCATTCGCCTCACTGCTCAATTTCGAAGACGACATCGAGGTGGTGGCCGAGGTGCCGGACGGGCAGCGCGCCTGGGACGCAATTCGGCAGCATCAGCCGGATGTGTGCCTGCTCGACATCGAGATGCCTCATATTAACGGCCTGGAATTGGCCGAGACCATACGCCAAGCAGGCCAATCCTGCAAAATCATGATCGTCACGACCTTCGCACGTCCCGGTTATTTGCAAAAAGCGATGGATGCGCAGGTGGAGGGCTATCTGTTAAAGGACGAGCCCATCGATTTCTTGATTGAGGCCATCCGGCGGGTCATGAAGGGCGAGCGGGTCGTGAGCACCGACCTGGCGGCCGCGCTCTTCATGAAGGAGGAGAATCCCCTCAGCGAACGGGAAATCGAAATGCTCCGGTTAACCAAGCGAGGCATGACTACCGGCGACATCAGCAAAGCCTTGTTTCTGACAAGGGGAACCGTGCGCAACTACCTGTCCTCCGCCATCCAGAAGCTGGAGGCGGATTCCCGGCAGCAGGCCGTCACGATCGCGGAAGATAAAGGGTGGCTGTAA	MIRIVIAEDQQMLRGAFASLLNFEDDIEVVAEVPDGQRAWDAIRQHQPDVCLLDIEMPHINGLELAETIRQAGQSCKIMIVTTFARPGYLQKAMDAQVEGYLLKDEPIDFLIEAIRRVMKGERVVSTDLAAALFMKEENPLSEREIEMLRLTKRGMTTGDISKALFLTRGTVRNYLSSAIQKLEADSRQQAVTIAEDKGWL	PGPT0014870_183	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
AK002_06219	543			hypothetical protein	ATGAACGCTTTGACCCATACGACAGCCAGCGTGCCGTGGCAGCGATTGACGACAGCCTATGGAAGAGGCACAGATATTCCTCGGCTATTGGAAACACGACAATATAAAGAATTGGCCAGCCTGATCGAGCACCAAGGCACCCTGTGGCAGACGACGCCATGGGCCCTGCTTATGCTCCTGCGGGAGCTTGCCAAACAGAAACCGGAGCAGGTCTCTTCGGAGGAAATGGAGTTATACTTATCCGTAGCTTCAGCCATAACCGTGGAATATATGGATTCGCCACAAACGATTGGAACGATGGATAAAATGCTGGACGAAAGATACTTATGGCCGGAAGACGACGAAGAAGATGATTGGCGATGGGAAGAAGAGGAGCCCCCCGGTTATGAAGCGGAAATCTTCATCAGTTATTATTACTTCAGTTATATGCTGCTGCAGGAAGCGGCTCCTTTATTCAAAGCGATTATGAACGGTAACGGTCAGCATGCCGACATTATTTCGGAGCTGCTGGCACTGCTCGAGCCGGTAGATGCAGCTGAGTAG	MNALTHTTASVPWQRLTTAYGRGTDIPRLLETRQYKELASLIEHQGTLWQTTPWALLMLLRELAKQKPEQVSSEEMELYLSVASAITVEYMDSPQTIGTMDKMLDERYLWPEDDEEDDWRWEEEEPPGYEAEIFISYYYFSYMLLQEAAPLFKAIMNGNGQHADIISELLALLEPVDAAE				NA	NA	NA	NA	NA
AK002_06220	1509			hypothetical protein	ATGAGAGTTCTGGAAATGTTGTGGGTTGCAGCCTGCGTTGCGATGCTGATGATACTGTTGAGCCGTAACACAATAAACAGGAAGGCTGGCGTGATCGTCGGCATCGCTGGCGGTTCGCTGTTCGCCGTACAGCTGCTCGTTGAGGGATACAGGTGGCAGATGATTCCGGCCTACATCGTCACCGCTTTGCTCTTTATGTTGGTTCTGTTCAGACGCCGAACGGTCAAGAAACCGCTGCGGTACATGATATGGGGCCTTTCGGCCGTTTTGCTGGGCGTATCGGTTGCCTTATCGGCACTGCTGCCGGTTTTTCATTTACCGAAGCCTTCCGGGGAGTTTAGGGTGGGGACGGATACGTTCCATTTCGTTGATGCGGACCGTGAAGAAACGTTTACCGAACAAACAAGCGACAAACGGGAGCTTATCGTTCAGGTATGGTATCCGGCCGCGGAGTCTGACCAAGGCGCGGAAAAAGCTACGGTGTTTCCTAAGGATAAGAGACTGTTTCACACCTATATGCAAGCATATTCCGAATATCTGGGCCTTCCCGCGGCGGCGCTAGACTACTGGAAATACAGTCGGGCCAACGCATACGGCCATGCCGATTTGCGGCTGTCGGAGAATCCGTATCCGGTGGTGCTGTTGTCGCACGGCATGGGGGTCGGCAGAATTTTGCATTCGTCGCAGGCTGAACATCTTGCCAGCCACGGCTATATAGTATTTGCCATCGATCATACGTACAGCACGGCCGCCACCGCATTTCCCGACGGGCGCGTAACCGGTTTTCTTACGGAACAGTCCCAGGAGCGGTTATTCGAGGACAGCCGCGCTATTTTGAAGGTGTGGAATGAGGATATCTCCTTCGTCACGAATCAGTTGGAGAAGCTTCAATCAGGCGCCATCGCCAGCAAGTTTAAAGGAGCCTTGGATTTGGACAACATCGGCATGATGGGCCATTCCTTCGGCGGGGCCGCAGCCTTTGAAGCCGTTTATTCCAACCCGCGGATCAAAGCCGGCGTGAACATGGACGGGACGCTATTCGTAACGAAGGACCGGGATGACATGGAGAAACCGTTTATGTTCATGGAATCGGAGGATTTTATGAAGGTGAACGAACAGCAGGCGAAGTATCGCCAAACCCCTGCTACGGAAGCCGAGCTCCAAGCACTGGGATTAACCCGAGAACAATTCGGCATGATTCTGGCGAATCGGGAATTAGAGCTGAAGCTGATGGATCGCTTAATTCAACAGGGCCTAGGACGGACCCTTTATATCGAAGGCGCAGGGCACTATAATTTCACCGATCTTCAGCTGTATTCTCCGCTTACCCGCCTGACCGGCATGACCGGAAGCATGAATGGATCAAGGGGAGCCGAGATCGTCAACGCCTACGTGCTGGAATTCTTTAATCAGCATTTGCGCGGAATGGAGGAGAGTAAGCTTCTAACCGGTCCCTCGGAGGAATATCCGGAAGTGAAGTATCCGGACCGGGTGTCCCGCCCTCGATAG	MRVLEMLWVAACVAMLMILLSRNTINRKAGVIVGIAGGSLFAVQLLVEGYRWQMIPAYIVTALLFMLVLFRRRTVKKPLRYMIWGLSAVLLGVSVALSALLPVFHLPKPSGEFRVGTDTFHFVDADREETFTEQTSDKRELIVQVWYPAAESDQGAEKATVFPKDKRLFHTYMQAYSEYLGLPAAALDYWKYSRANAYGHADLRLSENPYPVVLLSHGMGVGRILHSSQAEHLASHGYIVFAIDHTYSTAATAFPDGRVTGFLTEQSQERLFEDSRAILKVWNEDISFVTNQLEKLQSGAIASKFKGALDLDNIGMMGHSFGGAAAFEAVYSNPRIKAGVNMDGTLFVTKDRDDMEKPFMFMESEDFMKVNEQQAKYRQTPATEAELQALGLTREQFGMILANRELELKLMDRLIQQGLGRTLYIEGAGHYNFTDLQLYSPLTRLTGMTGSMNGSRGAEIVNAYVLEFFNQHLRGMEESKLLTGPSEEYPEVKYPDRVSRPR				NA	NA	NA	NA	NA
AK002_06221	510			hypothetical protein	ATGACCCAGCATGATCTGGATCAGGTGCTTGAGGCGTATCGTACCTATTATCAGTATTTTACGGTGCAGGAACGGCCCGATTACCACCCTTTCTTTGTCTATTCTATTTCGATTGCTGAGGGCGATGAAAGCTCGGGATTCTTTGTCAGAAATGAAGGTGTCTCATTCCCCTACCGCGGACAGTGGGCAGAAGATGAATTACCCTATATCTTGCTCTCCCTTCCAAAGGGAATTCGAATCGATGCAGAGGATGAACGAGGAAAGCATTATCTATATGAGGATATTCGGGCACACCGGCCGTTAACGTATGTTTTTTTCGAAGAAATGGCAGCATCCATGAAAAAAATAACGAAGCCGCTTCGTTTCTCGATACAAGCCGCAGACGCTATGCAAGAGCAGAAGCCGGCTGTTCGCATAAGTCAACAAGCGGTGAATGATCTGATTGACTCGTGGATCGTTAAGAAATATGGGCTGGTTATGAACAACAAGAAGGACATATCAGGCACCTAA	MTQHDLDQVLEAYRTYYQYFTVQERPDYHPFFVYSISIAEGDESSGFFVRNEGVSFPYRGQWAEDELPYILLSLPKGIRIDAEDERGKHYLYEDIRAHRPLTYVFFEEMAASMKKITKPLRFSIQAADAMQEQKPAVRISQQAVNDLIDSWIVKKYGLVMNNKKDISGT				NA	NA	NA	NA	NA
AK002_06222	126			hypothetical protein	ATGGAGAGATTGGAAAACAGCGGATTTTATAAACTGAAATTTTTAATAACGCCGGAAGAATTCAACCAAATGTTGGCGCGCTTTGAGCAAAAGCAAGCCGAATTTCATCGTACGAACCATGCATGA	MERLENSGFYKLKFLITPEEFNQMLARFEQKQAEFHRTNHA				NA	NA	NA	NA	NA
AK002_06223	3135	rcsC_21		Sensor histidine kinase RcsC	TTGGCAAAGAGCCCACCAAGTCACCAAATAAAAAAGAGCCACATTTTATGGTTATTAGGATTACTCTTAGTGATTCTATCGAGTATGCGCATGCTGTGGGTGGAAGTGTTCCCTGATCAACAGCAGGTGACGATAAAGAAGGGGCATCTCGATTTGCGCGAATGGGATGCCGAAGAAGGCGGCATTCTGTTGCTTGACGGAGAGTGGGAGTTTTATCCCATGCAGTGGCTGCTGGATGGGAGCGGGCAGGATGCATCAGGCGGGCCGAAGCCGAAGCTGATTGCGGTTCCGGGGGGATGGAATCAAGCTCTGCATGGTAACGGCAAAGCGTCTCCATATGGATTTGCTTCCTATCGCCTGCGTATTCTAGTGAATCCCGAGGAGAAGCTGAATTATAGCATTCGCGTGCCTAGCGTACGTTCGTCGTCCGAATTATATGTCAATGGACGTTTGCTTGCCAAATCCGGGCAGGTGGCGGACACGAAGGAAGCCTATACGGCGAAGAACCTGCCGTATACTACAAGCTTTACGGCGGATGAGCACGGCGTCATCGAAATAGTGATTCAGGCGGCCAATTATGTGGATAGCCGAAGCAGCGGCATTGCCAGGTCCATTAAATTGGGTTCAGAGGAAGCCGTGGCCAAGGAAATGAAGCTCTCGGTTTCGATGCAAACGCTGGGAGCCGTTATCTTTCTTATGCATTCCGTTTATGCACTCATTTTATTTGTACTGGGGAATAGGGAAAAGAGGCTGCTGTATTTTTCCTTGCTGACCCTCTGCGTAACCCTTTCGAGCATATTGAGTACGGATGAGAAGCTGTTCCATCAATTTATATACATCAGCAGCGATTGGGATTTTCGGTTGTCCAATGCCGCCTTTATGATTGGATGCTATGCGTTGCTGGAATGCACGAATCATCGCGAACTCTCTTATTGGAACAGGATGTATCCCGTTTATGCCGTCATGATCTTAGGAACTGCCGGCATTACCTTGTTCTTGGCTCCGCCGCAGGTAATCATGCTTTTCCCGGTTTATTTTCTGCTGGGCTGCGTAACGGCCGTCATCACGATCATTGCAATCACCAAAACCGTAATCAAGGGCATCAAAGATCATTTGTTACTGCTTTTTTCGATGGTTGCGCTGGTCCATCATTTCCTGTGGGCGTTGTTCTTGCGGGAAAGCGCCTTAAGTGTTGCCCATTATCCGTTTGACCTGATCCTTTCGATGGGATGCTTGGCCGCTGTATGGTTTAAGGGTTATTTCAAGATGCATGCGAACACGAAAGAGATTGCCGCAACTTTGCAAAGAGTGAATGATCATAAGGATCAATTCCTGGCGAACACGTCCCATGAATTCAAAAATCCGCTGCACAGCATGCTTAACATGTCGCAATCCGTGTTGAACCGGGAACGGCCTTTGCTGCAGGATAGGAGTGTGAAAGAGCTTGAAACGATTCTGACCGTCGGACGTCGTCTAACACTAATATTAAACGATTTGATGGACGTCATGAGTCTGCGGGAGGGCAATCCGAGACTGCAGAAAAAAGCCGTATCGATCCAGCCCATTGTGACGGGGGTGATGGATATGCTGCAATTTAACGCGGAAGTGAAGTCGGTCAGCATCGTCAATCAGATCCCGGAGGATTTCCCTCCCGTCTTGGCGGACGAGAACCGGATGATTCAAGTCGTGTTCAATCTGCTGCATAATGCCGTAAAATATACGAATGAAGGGTACATTTCGATTCAAGCTTTTACAGAGGACGACAGAGCCTATATCGCGATTGCCGACACGGGGATCGGAATGGATGAAGCCATGCTGAAGCGCTTATTCCTTCCGTATGAGCAGGCGAGCGCCAGCGAGACCATGATCGAAGGCGGCTTTGGGTTAGGTCTAAGCATAAGCAAGCAACTCATTGAGCTTCATCGGGGTACGCTTGAGGCGGCCTCCGTTCCAGGGGAGGGCTCGAGATTTACGTTTTCGTTAAAGCTGGCAGGGCTCGAAACAGAGGAAGAGCAGCATGAATCTAACTCTAACGGACCGCCAACATTGCCGTCCATGCCGATGCAGGATACCATTGGGGCCGGACTGCAAAAAGAGGAGGTCTTCCCGCCAGCCGCGATACAAGGAGCTCTACCCGAAAGGAGAAGCAACCGGCCGCTCTTGCTCATCGTTGACGACGATCCCGTCAACCTTCAGGTGCTTGAAGCCATACTGCCGCCTGACGAATACGAGGTGACGATGGTAACAAGCGGTAAGGAAGCGCTGGCTGTACTGGATGCGAAGGCGTGGGATTTGGTCATCTCCGATATTATGATGCCGCAGATGTCCGGTTATGAGCTGACGCGGAGGATTCGCGAGCGGTTTACGCTCACGGAGCTCCCTGTGCTGCTGCTTACCGCGAGAAGCCAACCGAAAGACATCCAAAGCGGGTTTTTGGCGGGGGCCAACGATTATGTGACCAAGCCGGTGGAGGCCTTGGAAATCAGGTCGAGGATCGAGGCCTTAACAACGATTAAACGAACGGTCCGTGAGCAGCTTCGACTAGAAGCGGCATGGCTGCAAGCGCAAATCCAGCCACATTTTTTATTCAATGCATTAAATGCGGTGACGGCCCTAAGCGACGTTGATTTGGACAAGATGCGGAATCTGCTTGATGAGTTCAGCAACTTTCTGAGATATAAATTCAGATTCCAAGACACGGCTGGACTCGTTCCGATCGAGGAGGAGCTGAGCCTGGTGCGTTCGTATCTTTATATCGAGCAGGTTCGGTTTGCAGAGCGGCTGCAGGTGGTTTGGGAGGTAGATGACTGCGGAGCTTTGCAAATTCCGTTCCTTTCGATTCAGCCCTTGGTCGAAAATGCGATAAGACATGGCGTCATGAAGCGCACTTATGGGGGAACCCTACATATTCGAATTTCCGTCCATGCCGCGCATGCCGAGATAACCGTTGAGGACGATGGGATCGGAATGGATGAAGCTCAATTGCAGCGAATCCTGGAGAGATCAGCAAATCATCAGTCCGGGGTCGGATTGATCAATACGGACCAGCGATTAAAACGGCACTTCGGAACAGGACTTCATATTCAGAGCAGGTTAGGCGAAGGAACCCGGGTAACTTTCCATGCACGCATCTAA	MAKSPPSHQIKKSHILWLLGLLLVILSSMRMLWVEVFPDQQQVTIKKGHLDLREWDAEEGGILLLDGEWEFYPMQWLLDGSGQDASGGPKPKLIAVPGGWNQALHGNGKASPYGFASYRLRILVNPEEKLNYSIRVPSVRSSSELYVNGRLLAKSGQVADTKEAYTAKNLPYTTSFTADEHGVIEIVIQAANYVDSRSSGIARSIKLGSEEAVAKEMKLSVSMQTLGAVIFLMHSVYALILFVLGNREKRLLYFSLLTLCVTLSSILSTDEKLFHQFIYISSDWDFRLSNAAFMIGCYALLECTNHRELSYWNRMYPVYAVMILGTAGITLFLAPPQVIMLFPVYFLLGCVTAVITIIAITKTVIKGIKDHLLLLFSMVALVHHFLWALFLRESALSVAHYPFDLILSMGCLAAVWFKGYFKMHANTKEIAATLQRVNDHKDQFLANTSHEFKNPLHSMLNMSQSVLNRERPLLQDRSVKELETILTVGRRLTLILNDLMDVMSLREGNPRLQKKAVSIQPIVTGVMDMLQFNAEVKSVSIVNQIPEDFPPVLADENRMIQVVFNLLHNAVKYTNEGYISIQAFTEDDRAYIAIADTGIGMDEAMLKRLFLPYEQASASETMIEGGFGLGLSISKQLIELHRGTLEAASVPGEGSRFTFSLKLAGLETEEEQHESNSNGPPTLPSMPMQDTIGAGLQKEEVFPPAAIQGALPERRSNRPLLLIVDDDPVNLQVLEAILPPDEYEVTMVTSGKEALAVLDAKAWDLVISDIMMPQMSGYELTRRIRERFTLTELPVLLLTARSQPKDIQSGFLAGANDYVTKPVEALEIRSRIEALTTIKRTVREQLRLEAAWLQAQIQPHFLFNALNAVTALSDVDLDKMRNLLDEFSNFLRYKFRFQDTAGLVPIEEELSLVRSYLYIEQVRFAERLQVVWEVDDCGALQIPFLSIQPLVENAIRHGVMKRTYGGTLHIRISVHAAHAEITVEDDGIGMDEAQLQRILERSANHQSGVGLINTDQRLKRHFGTGLHIQSRLGEGTRVTFHARI				NA	NA	NA	NA	NA
AK002_06224	2781			hypothetical protein	ATGAAACGAATCAAACCGGATTATTACGCAAGTACCCAGTGGAAGCGCAGAATGGCGGCCTGGATGAGCACGGCGTTGCTTGCCGCATCCCTGACGGGCTTTGCCGGAGAAGCCGAAGCGGCCCAGCCGCATTCGTCGTATTGGTATCCGAACACGCTGCTGGAATGGTCACCGACCAAGGACAAGGATGCCCGTTTTAACCGGGGAACGGTGAAGCTGGAGGATGAGCGCATCCAAGGAAGCAAAGTAAACGGCAATGCCAAGGAAGAAGTGAAGGTGCTATCGATCGCTTCCATGTATCCGAGCACAAGCGGAGCTCCTTCCCAAGGCTCGGAGAAGTTCCATACCTATACGTTCAGCAATTGGCAGTATATCGACAAGCTGGTCATGTGGGGCGGCTCCGCAGGCGAAGGATTAATCGTTCCGCCAAGCAGCGACGTCATCGATGCGGCTCACAAGAATGGGGTTCCTGTTTTTGGAACCGTTTTCTTGCCGCAAACCGAGCACGGAGGCAAAATCCAGTGGCTGCATGATCTGTTAAAGCAGCGGGAGGACGGTTCTTTCCCGGTTGCGGATAAGCTGATCGAGGTAGCGACGTACTACGGCTTCGACGGCTGGTTCATCAATCAGGAAACGCAGGGCGGAACGCCGGAAGATGCCGCGAAGATGGCTGAGTTTCTGACTTACCTGCAGCAGAACCAAGCGCCCGGCATGGAAGTGATCTGGTACGATTCCATGATCGAGGAGGGACCGGTGAAGTGGCAGGGGGCTTTGACGGATAAGAACGAAATGTTCTTCCAACAGGGAAATCAGAGGGTTTCCGACAATATGTTCATCGATTTCCGCTGGCAGTTCAAAGACGAGAAGAACGGCCAATACGATTACATTACGCCGTTCTTGAACTCCCCGGCCAAAGCGGCGGAGCTTGGGCGCAGTCCGTATGATCTATATGCCGGGATCGACGTGGAGGCGAAGGGCTACGAAGGCAGGTTCAATTGGCCGGTTCTGTTCCCGGACGGGAAGAAAGCCACGACCTCTCTGGGCATTTACCGCCCGGATTGGGCGTACAACAGCTCCGAAACCCATGAGGAGTACATGAATAAGGAGCAGATTTTCTGGGTGGGACCCGGAATGAATCCGGCGAACACGTCACAACCCGAAGGGACCGATCCGCTTGCGTGGAGAGGGATTGCCCATGATGTCGTTGCAAAAACCGTGCTGACCGACTCCGAATTCGTCACCCATTTCAATACGGGCAACGGCCATTTGTTTGCGGTGGACGGCAAAGTGATGCGAAGCCGCGATTGGAGCAACCGGAGCCTGCAGGATATTTTGCCGACCTGGCGATGGATCACGGAGACTAACGGCCAAGGCGAGGCCCTGAAACCGGAATTTGATTTCGGCAAGTCCTATTACGGCGGCAGCTCGCTTCAAGTGGCGGGTGCCGTAAGCAAAGGTTCCTCCACCCATCTCAAGCTGTACAAGGCGAATATCCCGGTGGAAGCGACCACGGAAGTATCGCTCGTGTATGCCGACAATGCCAAGGACGCCAAGGTGAAGATCGGCTTGGCATTCTCCGATGCGCCGGATCGGTACGAATTTTTCGAGCCTGGCAAGTGGACCGTCATGGGCGCGAATCAGGATTGGAAGCAGGGAAGCGTCAAGCTGAACAAGTATAAAGGCCGCACGATTGCCGGAATCTCGCTTCAATTCGAGTCCGCGGCGGATCAGGCGGATTATCGGGCCAACATCGGCCGCCTGGCGGTTACGCAGGTGAACGACAAGGCGAAGAAACCGCACGCGGTGACCGATTTGAAGATAATCGAGAATGATTTCCGCGATGGAATTTATGGTGATGCGCGCTTGTCGTGGGAAGCGCCGAAACAGAATGAAGACGTTCTGTACTATCAGGTTTACCGCGTCCATCCGGACGGCAAGTACGAACTGATGGGCATGACGGGAAATACCGTTTATTACGTACCGGAAATGAAGCGTTCGCTTAAGGAGGAGGCAACCAAAATGGTTGTGATTCCGGTAAACCGCCACTACCAGCAAGGAAAAGCGGCATCCGCCAGCTTCGACTGGCCGGAATATCCGAAGCCGACGGCAGCCTTCAAGGCGGATAAAACCCTGATTGCGCCGGGAGAAACGGTGCAATTCACGGATCTTTCCTCGGAAGTGACGGAGTCCTGGAGCTGGAGCTTCCCTGGCGGGCAGCCGGCGTCCAGCACGGACCAGCATCCTAAAGTGACCTATCCCGAGGAAGGAACGTACGAGGTCACGCTGACCGCTAAAAATAGCGTTGGCGAGGATCGGATCCAGAAGAAGCTCATTACGGTAACCCGGGAAGCCGAGAACGGCGTCGGCAACCTCGCTCTTGGCAAAAGCGCGTCCGCATCCAGCTTCGTGAACGAGAAGGAAGCGCCGCCATTTGCAGTGGACGGCAATGCCGCCACCAAATGGTGTGCCGTCGGAGACGGGCCGCACTGGCTGACGGTAGACTTGGGAGCCGAGCACAAGGTCAGCGAATTCGTGATCAAGCACGCGGAAGCCGGAGGCGAGCCTGCCGCGTTCAACACGCGGGCCTTCTCCATTCAAGTAAGCTCGGACGGCAAGGCGTGGAAGGATGCCGTCTCGGTCAAAGACAACACGCAAGGGATCAGCAGCCATGCCATCGAACTTACCTCCGCACGGTACATGCGTCTTCAGATCGAGAAGGCGACACAGGGCGGTGACACAGCTGCACGGATTTACGATGTTGAAGTGCTGGGCTTGAAATAG	MKRIKPDYYASTQWKRRMAAWMSTALLAASLTGFAGEAEAAQPHSSYWYPNTLLEWSPTKDKDARFNRGTVKLEDERIQGSKVNGNAKEEVKVLSIASMYPSTSGAPSQGSEKFHTYTFSNWQYIDKLVMWGGSAGEGLIVPPSSDVIDAAHKNGVPVFGTVFLPQTEHGGKIQWLHDLLKQREDGSFPVADKLIEVATYYGFDGWFINQETQGGTPEDAAKMAEFLTYLQQNQAPGMEVIWYDSMIEEGPVKWQGALTDKNEMFFQQGNQRVSDNMFIDFRWQFKDEKNGQYDYITPFLNSPAKAAELGRSPYDLYAGIDVEAKGYEGRFNWPVLFPDGKKATTSLGIYRPDWAYNSSETHEEYMNKEQIFWVGPGMNPANTSQPEGTDPLAWRGIAHDVVAKTVLTDSEFVTHFNTGNGHLFAVDGKVMRSRDWSNRSLQDILPTWRWITETNGQGEALKPEFDFGKSYYGGSSLQVAGAVSKGSSTHLKLYKANIPVEATTEVSLVYADNAKDAKVKIGLAFSDAPDRYEFFEPGKWTVMGANQDWKQGSVKLNKYKGRTIAGISLQFESAADQADYRANIGRLAVTQVNDKAKKPHAVTDLKIIENDFRDGIYGDARLSWEAPKQNEDVLYYQVYRVHPDGKYELMGMTGNTVYYVPEMKRSLKEEATKMVVIPVNRHYQQGKAASASFDWPEYPKPTAAFKADKTLIAPGETVQFTDLSSEVTESWSWSFPGGQPASSTDQHPKVTYPEEGTYEVTLTAKNSVGEDRIQKKLITVTREAENGVGNLALGKSASASSFVNEKEAPPFAVDGNAATKWCAVGDGPHWLTVDLGAEHKVSEFVIKHAEAGGEPAAFNTRAFSIQVSSDGKAWKDAVSVKDNTQGISSHAIELTSARYMRLQIEKATQGGDTAARIYDVEVLGLK				NA	NA	NA	NA	NA
AK002_06225	1524			hypothetical protein	ATGTTTAAGAAGAAGATTTCTTTACTGTCCCTTGCTCTCGTGCTTCTGCTGACCGTTGTACTGTCGGCCTGCGGCAGCAAGGAAGGCGGCAGTAAGCCAAGTGAACCAGCGAAGGAAGAGGCGGCTGTTCAAAGCGACGGCACCATTGATGCCTCCAAACTGGATCCGGTCAAACTGAAAATGTACATGATCGGGCCAAATCAGAAAGACCTGCCTATGGTTCAAGAGGAAATCAATAAATATTTGACGGAAAAAATCAATGCAACGATCGAAATCAGCATGATCGACTGGGGCGATTACAGCCAGCGGATGCAGGTGATTACGAGCTCCGGCGAGAATTACGACATCGCCTTCACCAGCTCGTGGGCGTTCGATTACCTTCCAAATGCGGCAAAAGGCGCATTTAAGCCGCTGAACGACCTGCTCGATCAGTACGGAAAAGGCATTAAGGAAGTACTGGATCCCCGTTTCCTGGAAGGAACGAAGGTTAACGGCGTCAACTATGGCATCCCGGCCAACAAGGAACTGGCACAGCAGTTTGTATGGCGCTTCAACAAAAAGTATCTGGATAAGTACAACCTGGACATTTCCAAGGTGACCACGCTTGAAGATCTGGAACCGCTTCTCAAAACGATTAAAGAGAACGAGCCTGCGGAAATTACGCCGCTTGCCGTACCGAAAGGCTTTAAACCGTACATGCCGTTTGACTACCCGCTCGGCGATGAAATTCCGATCGGCATGTATCTGGACACCGAGGACTTTAAATTCGTGAATTTGCTGGATTCGCCTGAATTGAAATCGGCGCTTGAGACCATGCGCAAATACTATAAAGCGGGCTATGTGCGTGAGGACATTGCAACGCTGGACGGCATCGACAACATCAAAACCGGCAAATGGCTCGTGGACCGCGAAATTACGCAGCCATACGCAGAGCTTGGCTGGTCCAGAAACGCGGGCTATGACATCGTGACCAGACCGATGCATGATCCTGTCATTTACACCAGCTCCGCAGCAGGTTCGATGATGGCCATTTCTTCTTACTCCAAAAATTCGGAGCGGGCGATGATGTTCCTGAACCTGCTGAACACGGACGCGAAACTCCGGAACATGATTCAATACGGCTTGGAAGGAACGCACTACAAGAAGCTTGAAGAGCCGTATATCGAGGATATGCCTGCTATGCAGGAGAACTACGCGATGCCTGGTTTCGCGCTCGGCAACATGTTCCTGACGTACCTTCACGAAGGTGAACCGAAGGACAAATGGGAAGCATTCGAGAAATTTAATACCTCTGCTGTAGTAGCGCCTACGTTCGGCTTTAATTTCGACACGGCTCCGGTCAAAACGGAAGTCGCGGCCATCACGAACGTAGCCAAGGAATTTATTCCGGCGCTGTACACCGGCTCCGTCGATCCTGAAGAATATCTGCCAAAAGCTAAACAAAAGTTCCAGGATGCCGGCATCGACAAAGTGATCGCCGAAGCTCAAAAGCAATTCGATGAGTGGAAGGCTCAAAACAAGTAA	MFKKKISLLSLALVLLLTVVLSACGSKEGGSKPSEPAKEEAAVQSDGTIDASKLDPVKLKMYMIGPNQKDLPMVQEEINKYLTEKINATIEISMIDWGDYSQRMQVITSSGENYDIAFTSSWAFDYLPNAAKGAFKPLNDLLDQYGKGIKEVLDPRFLEGTKVNGVNYGIPANKELAQQFVWRFNKKYLDKYNLDISKVTTLEDLEPLLKTIKENEPAEITPLAVPKGFKPYMPFDYPLGDEIPIGMYLDTEDFKFVNLLDSPELKSALETMRKYYKAGYVREDIATLDGIDNIKTGKWLVDREITQPYAELGWSRNAGYDIVTRPMHDPVIYTSSAAGSMMAISSYSKNSERAMMFLNLLNTDAKLRNMIQYGLEGTHYKKLEEPYIEDMPAMQENYAMPGFALGNMFLTYLHEGEPKDKWEAFEKFNTSAVVAPTFGFNFDTAPVKTEVAAITNVAKEFIPALYTGSVDPEEYLPKAKQKFQDAGIDKVIAEAQKQFDEWKAQNK	PGPT0017245_2942	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017245-lplA-K17318	NA	NA
AK002_06226	948	araQ_60	COG0395	L-arabinose transport system permease protein AraQ	ATGTCGCAGCTATCAACGCAAACCGCCCGCCAGTCGGCCAAGCGTTCAAGGAAGAGAGACTATAATGCCATCTCCCCTTTGTGGAATACGATTTTCAATATCGTGATCGGGCTCTTCTCGTTCTCCTGTATCTTTCCGTTCCTATTTGTTATCATTATTTCCCTGACGGACGAACAGACGCTGGTCTTGGAAGGCTTTAGGCTGCTGCCGAGCCAGTTTAGCACGGCCGCGTACGAGTATATTTTCAAAACGGGAAGCGAATTGCTGTCCTCATTCGGCTTGACGCTCCTGGTCACGGTGCTGGGAACGCTGGTGAGTCTGGCGCTGGTTACGACCTATGCGTATGCCTTGTCCCGCCGAAACTTTGAATTTAGAGGGTTTTTCAGCTTTCTGGCGTTCTTCACCATGTTGTTCTCGGGCGGCATGGTACCGGGTTATATCGTGATGACCCAGTTCCTGCATCTGCAGAACACGATCTGGGCGCTGATCTTTCCGCTATCCTTGAGCGCGTTCTCCATCATCGTCATGAGAACCTTTTTTCAAACGACGATTCCGGATGAAATTATCGAGTCCGCCAAAATCGATGGCGCCGGCGAATTTCTGACCTTTATCCGTATCGTCCTGCCGGTCTCGCTGCCGGGGATCGCCACCATCGGCTTGTTCAGCTCATTGGGCTACTGGAACGACTGGTTTAACGCCTTGCTCTATTATAACAATCCGCAGGCAACGCCACCGCTGCAGTTCATGCTCATGCAGATCGAGAAGAACATGGACTTCCTGACGAAGAATGCGCAGAATATCGGCTCGTTCGATGTGGCCGCCGGCCTGCCGACGGAGACGGTAAGGATGGCGATGGTCGTATTGGCCACGCTGCCGATCGTCATGGCGTATCCGTTCTTCCAGCGGTATTTTGTCCAGGGTCTGACCGTAGGCTCGGTCAAAGGATAA	MSQLSTQTARQSAKRSRKRDYNAISPLWNTIFNIVIGLFSFSCIFPFLFVIIISLTDEQTLVLEGFRLLPSQFSTAAYEYIFKTGSELLSSFGLTLLVTVLGTLVSLALVTTYAYALSRRNFEFRGFFSFLAFFTMLFSGGMVPGYIVMTQFLHLQNTIWALIFPLSLSAFSIIVMRTFFQTTIPDEIIESAKIDGAGEFLTFIRIVLPVSLPGIATIGLFSSLGYWNDWFNALLYYNNPQATPPLQFMLMQIEKNMDFLTKNAQNIGSFDVAAGLPTETVRMAMVVLATLPIVMAYPFFQRYFVQGLTVGSVKG	PGPT0017255_160	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017255-lplC-K17320	NA	NA
AK002_06227	930	yteP_71	COG4209	putative multiple-sugar transport system permease YteP	ATGTCGGGGTTCATCAAAAAGGTTATACGCAACCGGTTCATGCTGCTGATGATACTGCCCGGAACCATTTGGTTTCTGATCTTTGCATACTTGCCCATGTTCGGTACCGTGCTCGCGTTTAAGGATTTCCGCATAAGCCCGGACGGTTTCTTCGCCAGCGTGTTCAACAGCGAATGGGTAGGATTCAAAAACTTCGAGTATCTGTTTACGACCAATGATGCCTACATCATTACGAGAAATACGATTCTTTATAACCTCGCTTTTATCATTCTGGGCCTGGTCATTGCGGTCGGGTTTGCGATCATGCTGAGCGAGCTTGTCAACAAGCGGACGGCCAAGGTATATCAGACCGGCATGTTTCTGCCGCATTTTTTGTCGTGGGTCATCATCAGTTATTTTGCGTTCACCTTTCTGAGCGTGGACAAAGGAACGCTGAACCAAATCATTACCTATTTCGGAGGAGAGCCGATCAGCTGGTATTCGGAAGCGAAGTATTGGCCCTTCATCATCATTTTTGTCGGCATCTGGAAAGGCGTAGGCTACAACAGCGTTATTTATCTTGCGGCTATCACAGGGATCGACAAGTCTTATTATGAAGCGGCCGTCATCGACGGCGCCAGCAAGTGGAAGCAGGTGCGGTACATCACCATTCCGCTGCTGAAGCCGCTCATGATCATCCTGACCATACTGGCAATCGGCGGCATTTTCCGTTCCGATTTCGGATTGTTCTACCAGCTTCCGAAGGATTCGGGCGCGCTGTACCCGGTTACGAACGTCATCGATACCTTCGTCTACCGCGGTCTGATCAACATGGGAGACATCGGCATGAGCACGGCAGCGGGCTTATACCAATCGTTTGTCGGACTGGTTCTGATTCTGGTTGCCAATTATATCGTTCGAAAAATCGAAAAAGATCATGCTATTTTTTAA	MSGFIKKVIRNRFMLLMILPGTIWFLIFAYLPMFGTVLAFKDFRISPDGFFASVFNSEWVGFKNFEYLFTTNDAYIITRNTILYNLAFIILGLVIAVGFAIMLSELVNKRTAKVYQTGMFLPHFLSWVIISYFAFTFLSVDKGTLNQIITYFGGEPISWYSEAKYWPFIIIFVGIWKGVGYNSVIYLAAITGIDKSYYEAAVIDGASKWKQVRYITIPLLKPLMIILTILAIGGIFRSDFGLFYQLPKDSGALYPVTNVIDTFVYRGLINMGDIGMSTAAGLYQSFVGLVLILVANYIVRKIEKDHAIF	PGPT0017250_1945	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_ALDOURONATE_TRANSPORT,PGPT0017250-lplB-K17319	NA	NA
AK002_06228	1551	rhaR_71		HTH-type transcriptional activator RhaR	ATGAGGAGCGTGTTTTTTGTTGATGATGAGCCTTTGATTGCTCAGGGATTGGCCACGATTGTGGATTGGCAGGAATACGATCTGCACGTGTCCGGTTCGGCCAACGATGGGCTGCAGGCGCTGGAGAAATTGAGGGAAGAGCCTGTGGATCTGCTGATCACGGATATTATGATGCCAAGAATGAACGGACTTGAACTCATCAAGAAGGTAAAAGCCATGCATCCCCGCACCAAGTTCATTGTGCTTAGCGGGTATGAGGAATTCGAATATGTGAAGATAGGGATCACGCTCGGCATCCAAAATTACATTCTGAAGCCGATCAACATTGAGGAGTTGGAGGCGACGATCAAGCATATCCGGGGCGATTGGGAACGCGAGGAGCTGAAGCGGTTTCGCTCCGAGGAGGATTGGAAGATTCTCCGCAGCAATATTTTGCAGCGATGGGTGAGTGGTGAAATCAAAAGCTCGGAGCTCAAGCAAAGAGCCGAGCTTCTCGGCATTCCACTGCATTATCCGTCTTACCAGGTTAACGTGCTGCGGCTCATATCCGACGAGCGCTCGGTATCCCAGCTCTTCCGCCTGACCAGCCTGGCGGATGAATGCTGCCAAGCTCTTTCGGAGGAGCTTGGGGCAGATCATGAGGTCATTTGTTTTCCCGATGCGGATGACGACATCGTTGTTTTGACGGCCTCGATGAAGGAGCGCAAGGATGCCGAGCGGGAGGGGACGCGAAGCGCCATGGCCAAGCTGCGGCAGCTGACTGGCTTGCGCATGTGGTGCGCCGAAGGTCATGCGGCTGTCCATGATTTTAAAGATATTCAGGAGAGCTACAGGTTAGCGAAAGGCCATTTCAACGCCTGCCTGATTGCAGGAGAGGAAGAGACCTTGTACCATCCGCCTGCGGAACCGGAATCCGATCCGGCATCTTCGCCGTCGGTTCGTCCCGATGCCTTCGCGAAGCTGCTGATCGAAGGCGATGTTTCGTCTTTGCAGGCCTACATCGAATCCGTTCTTGACGGCGGCAGCGGGGCGCAGACGGTACCCAGGGGAGCCTGCATGAATGCGGCTGTGCAACTGATGATAGCGGCAAAGGATGTGGAGAAAAGCCCCGACTACAGCGAGGTGTTCACGCCAATGCACCGGATCAATACGCTCCAGGGGCTCCGAAGCCATGTATGGCGCATTGTCGAGCGCAGCCTCCAGCGCCTGCAGGAAGCGGATCAGGGGTACAGCCTCCATGTGTCGTTCCTTGTGGAGCAGGTGCAGCACCATTATCCGGAAGAGCTATCCTTGAAGACGCTGAGCCAGCGGCTGCAGATGCATCCGAATTATTTGGGGCAGCTCTTTCAGCAGGAGGTCGGCGCAAGCTTTTCGGATTATTTGAACCAGTACCGCATCGAGAAAGCGACGCAGCTCCTGCTGCATACCGATCAGAAGACGGCGGATATCGCTTTCAGCGTAGGTTACACGGACAGCTCGTACTTTTACAGGCAATTCAAAAAATATACGGGCGTATCTCCAACCGAGATGAGGTCCATGTATCGGATTTAA	MRSVFFVDDEPLIAQGLATIVDWQEYDLHVSGSANDGLQALEKLREEPVDLLITDIMMPRMNGLELIKKVKAMHPRTKFIVLSGYEEFEYVKIGITLGIQNYILKPINIEELEATIKHIRGDWEREELKRFRSEEDWKILRSNILQRWVSGEIKSSELKQRAELLGIPLHYPSYQVNVLRLISDERSVSQLFRLTSLADECCQALSEELGADHEVICFPDADDDIVVLTASMKERKDAEREGTRSAMAKLRQLTGLRMWCAEGHAAVHDFKDIQESYRLAKGHFNACLIAGEEETLYHPPAEPESDPASSPSVRPDAFAKLLIEGDVSSLQAYIESVLDGGSGAQTVPRGACMNAAVQLMIAAKDVEKSPDYSEVFTPMHRINTLQGLRSHVWRIVERSLQRLQEADQGYSLHVSFLVEQVQHHYPEELSLKTLSQRLQMHPNYLGQLFQQEVGASFSDYLNQYRIEKATQLLLHTDQKTADIAFSVGYTDSSYFYRQFKKYTGVSPTEMRSMYRI				NA	NA	NA	NA	NA
AK002_06229	1863	spoIIAB_2		Anti-sigma F factor	GTGACCAATATAGAACAGGGTGTGTTACATATTTTCAGACTGCGCCAATTTTATTTAAACCATCTGAAGCGAAAGATGTTCAACAAAATCGTCGTGCTGTATTCGGCCGTCATGATCGTGCTGTTCGCGATTGCGGCGACCTTGGTCTATCAATACCAGACGCAGCGCATACTCCGCGAGGAGACGGATGCCAATCTCAAATCCGCGCATGTCCTGAATATCTATTTGAGCCGGCAGTATGAGAGCATCCAAAATATATTCCAGCAGATTTACGGCGACGCCACGCTGAGCGACGAGCTGATCTATTTTTTGAACAATGAATATGAAAGTTACCTCAAATACCGCCTGGATTTGTACACCAAGACGGGGGAGCAGCGTTTGCGGTCCTTCAATACCCTGCTGAAGAATTACCTGGAGCAGGAGCCCAGCGCCAAAAGCGTGTCCATCTACAGTTATCCGAACGATTTTTATATGCACATCAGCCGGACCAACCAGCAGCTGAATAATGAATCCGGTTCCAAAAGCAAGTGGGAGAACTGGTTCGCCCGCCGGGAGCAGCACAGCTGGGATACCATGCCGCTAAACGAGCTTTCAGGTTCAGCCGCAGGCTCCAGTGCAAGGTCCTATTCCTATTCGCGAGAGCTGAAGGACCCTTGGACCCTGGAACGGGTAGGCATGTTGAACGTGGAGTTCGACGCCCGGCAAATATCAACCTGGCTGGAGAGCAGAGCTTCGGTCAAAGGCCGGATCATGGTGTTGAACGCCCAGGGAACCGTGATTTACGACTCGGAGGATGTGTATTACGGTCAAACCTATCCCTACCGCTTGGAGCCGGAAAAAGCCGGAGACTGGGTGGAACTGGACGAACCCTCCAAAGTGAACATGTTGAATGTCGGGAATGCGGGCTTGTCAGTGGTGGGAATCGTGTCGAAATCCTCGATCGAGGAGAACACGGAGAGTTTGAGGACCGGACTGATCCTGGTCACGCTTGTGTTTATGGCGGCCAGCTTTGCGATTACGTTCACAATCGTTCGAAAATTCTCCAAAAAAGTGCAGCGGATCATCCGCTCAATGAACCGCATCGGCGAAGGCGATCTGTCGACGCGCATCCAGATGTCCGGCGAAGACGAGCTTCAGCAAATTTCCCGCCGGTTCAACGACATGGGCGACCGATTGGAGCAATACATCGATAAGATGTACACCTCGGAAATCAAGCAAAAAAACGCGGAGCTGGTTGCCCTGCAGTCGCAGATCAATCCCCATTTTTTATACAATACGCTGGAGTCTATTCGCATGAAGGCGTATTTCGTGGGGGCGAAGGAAGTGGGCCAAATGATATACAGCCTGTCGGTCATGTTCAAGAATATGGTGAAGAAGAGCACGATGGTTACCGTTGAAGAGGAGATCGATATGTGCTCGGTTTACCTCGACTTGTTCCGCATCCGCTATGAAGGGCGACTGGAGACGGAAATTGAGGTCGATCCGGAAATCCAAAACCTCAGCATTATCAAGCTGCTCGTCCAGCCGATCGTGGAAAACTATATCGTTCACGGATTCCGTCCGCTTGAGGACGATAATAAAATTTCAGTCTGTGCCCACGGGGCAGAGGACCGCGTCGTGATTACCGTCTCGGACAATGGAACGGGCATACCGGAGGAAAAGCTGATCCAGATCCGGCAGACGCTGGACAAGGTTCTCCAGCCTCCCGACAAGGGCTACCGTTCGATCGGGCTGATGAACGTGCATGAACGGATCGTTCTGAATTACGGAAGCGATTACGGAGTGACCATCCGCAGCACGGAGGGGCAGGGAACCGAGGTTCGCATGGAAATACCGAAGCTTCGCAAGGGGGAGACGACATGA	MTNIEQGVLHIFRLRQFYLNHLKRKMFNKIVVLYSAVMIVLFAIAATLVYQYQTQRILREETDANLKSAHVLNIYLSRQYESIQNIFQQIYGDATLSDELIYFLNNEYESYLKYRLDLYTKTGEQRLRSFNTLLKNYLEQEPSAKSVSIYSYPNDFYMHISRTNQQLNNESGSKSKWENWFARREQHSWDTMPLNELSGSAAGSSARSYSYSRELKDPWTLERVGMLNVEFDARQISTWLESRASVKGRIMVLNAQGTVIYDSEDVYYGQTYPYRLEPEKAGDWVELDEPSKVNMLNVGNAGLSVVGIVSKSSIEENTESLRTGLILVTLVFMAASFAITFTIVRKFSKKVQRIIRSMNRIGEGDLSTRIQMSGEDELQQISRRFNDMGDRLEQYIDKMYTSEIKQKNAELVALQSQINPHFLYNTLESIRMKAYFVGAKEVGQMIYSLSVMFKNMVKKSTMVTVEEEIDMCSVYLDLFRIRYEGRLETEIEVDPEIQNLSIIKLLVQPIVENYIVHGFRPLEDDNKISVCAHGAEDRVVITVSDNGTGIPEEKLIQIRQTLDKVLQPPDKGYRSIGLMNVHERIVLNYGSDYGVTIRSTEGQGTEVRMEIPKLRKGETT				NA	NA	NA	NA	NA
AK002_06230	1074			hypothetical protein	ATGAAACTTCAATTCCTATATAATGAATATCTCAATTTGAAATTCAATAGAGGATTACCGTCTACTCCGATAGGCGGCTTTGTATACGGCCTTCTTGAGGACGGTGGCGCTGAATTATTCTTTGCCGAGCGTAACGAAGAGGCTTTTGTGGAGTGGACGTATGAATTTCAGCCGAGGGACGCCCACTATGTTGCGAGCCCGGACTGGAAGCCTGTGCTGTCCGACTCTTTTGAACAGCTGGACGTCTATGATGAATTGGTATTCTATTATCTGCTGTTTACGATCAATGCAACGACGTCCATAGCCAAGACCAACCCGTACAATGCCATGAATGATTTCATGAAGAGCTATGGTTTCTTTCAGTTGTCTCAATTGAACGATGTCACCTGCTTGAACGAGGAACAAAGGCTGCAATTGAGAGACTTTTTCTTCTTTTTCTATCTTTACGCGCACCCGGTGAATGAGGAGACCCTCTATGCCTTTTCATTCCGCGGGCATGATTTGATCCATACGAAAACCAACATTCATGTTGAGCATTATGTAACTGCATATCACGATTACTACAGCGAGCATCTCGACAAGCACAAAGATCAAATATTCATTGCTCCCCCTGAAATCCAGGCATGCCAAGATCTTACGTTGGAGCTGTTAAGGTCCATCGAGGGCAAATCGGCCAAGCTGGAGATGCCACCGGAAGAAGGATTAGAGGCCCTACTGCGGCTGATCAATGACGCGGATGGTTTTATGCACATGCATTCGGTGGATAAAACGACGCTATTCGGGATCATGAGCGACTTTCTCTCGGACGCTCGCTCCACCCCTTACCGCGATCATTGCTTCCGTATGCTGCTTCAGAATTATGCCTGTTATGTCCTTTATTTTGAATTTGAGCAAATTCATCATTTGGTGGATTATTTTAAAGATACGCCGGTATGGTGCGAGAGAATGATTAATTCCCTTTTTACGGATGCTATCTTTATGCAGAAGATCCTGCGGCATCACCGGATCGATATTGCCGATTATACGAGTGTGATTGCGTTCTTTAATGAGGAAGCGCGGAGGATTTATTTGTAA	MKLQFLYNEYLNLKFNRGLPSTPIGGFVYGLLEDGGAELFFAERNEEAFVEWTYEFQPRDAHYVASPDWKPVLSDSFEQLDVYDELVFYYLLFTINATTSIAKTNPYNAMNDFMKSYGFFQLSQLNDVTCLNEEQRLQLRDFFFFFYLYAHPVNEETLYAFSFRGHDLIHTKTNIHVEHYVTAYHDYYSEHLDKHKDQIFIAPPEIQACQDLTLELLRSIEGKSAKLEMPPEEGLEALLRLINDADGFMHMHSVDKTTLFGIMSDFLSDARSTPYRDHCFRMLLQNYACYVLYFEFEQIHHLVDYFKDTPVWCERMINSLFTDAIFMQKILRHHRIDIADYTSVIAFFNEEARRIYL				NA	NA	NA	NA	NA
AK002_06231	636			hypothetical protein	ATGGAACCATTGCATGGACAGAAAGGAAGGAATGGCATGTCTACGGAAACGAATCCTCCCTGTGTCATTTTGCCCGAAGAGCAAGCGCCCGAAGATATGCAGCATTGCGAACGCTGCGAATTGTGCAGACAGCGGAATCGCGTCATCTGGGGGGAAGGCAATCCACAAGGCTCGCTGATGATGATCCTGGATAATCCGGGAGCCCGGGAGGACCGGGAGGGTAACCCGTTCTTGTGCGGGACCCGGGAAACCCTCCAACTCGGCATGAAGGAAGCGGGTATCGATATCCACTCGGTTTACGTCACTTATTTGCTGAAACGACGGCCAACCCGTGCTTACGATAAGCCTGCAACCCGAGCGGCATGCCTTCCGCATTTGCAGTCGCAGCTCCTTCAGAAGCAGCCGCTCGTACTATTTGGCTTTGGCAATGTCGTAGTCGAGGGATTATTCCCGCAGAAGGAGAATGCCACCGTCAAGGAGCTGCGGGGGAGCTGGCATGAATTTGAAGGAATCCCGATTGGCTTTACCTATCATCCACTGGCCGTTAGAAGAAGACCCAATTTGCTTAGGTTCTTTATCGAGGATTTGAAAGGTTTGAGGACGAAGTGGGAGGAGAGCGCAGGGAGGGGGACATAA	MEPLHGQKGRNGMSTETNPPCVILPEEQAPEDMQHCERCELCRQRNRVIWGEGNPQGSLMMILDNPGAREDREGNPFLCGTRETLQLGMKEAGIDIHSVYVTYLLKRRPTRAYDKPATRAACLPHLQSQLLQKQPLVLFGFGNVVVEGLFPQKENATVKELRGSWHEFEGIPIGFTYHPLAVRRRPNLLRFFIEDLKGLRTKWEESAGRGT				NA	NA	NA	NA	NA
AK002_06232	777	yokD_3	COG2746	SPbeta prophage-derived aminoglycoside N(3')-acetyltransferase-like protein YokD	ATGCACACATGGGAAAGCTTAATGAAGCAATTAGAGCAGTTGGGCATTGACGGAAAAGGGACCTTGTTGGTCCATTCTTCCATGAAGAGTATGGGGCCGGTCGAAGGCGGCGCGGACACGGTCCTCGATGCGCTGACAGCGTATATGAAAGAGGGGCTGCTGGTGCTGCCTACCCATACGTGGTCTTATATCAATGCGGATAATCCGAAATTTTACGTGGACCAATCCCCGTCCTGTGTCGGCATCCTGCCGGAGCTTTTTCGCAAACGCCCGGATGTGGTGCGTTCGCTGCACCCCACGCATTCCGTGGCGGCATTGGGTCTGGATGCCATCCCGTTCACAAACGACGATCATCGTTTCGACACGCCATGCGCTAGAGGATCCGCTTGGGGCAAGCTGCTTGACCGCAAGGCGACGATTTTGTTAGTGGGTGTCGATTTAAAGCGCAACACCTTTATTCATGGAGTCGAGGAGTGGGTGGACATTCCGGGCAGGCTAACGGATGGCCATGAGAAGTTGTACACGGTTTTACCGGATGGAACGGAAATCCCGGTGCCTTCCCGCAGACATTGCGGGTTGTCGTGGTCGGAGCATTTTTGGAAGGTTGATGAGGTCCTGGAAAGTCGGGGCGCGATGCATAAGGGGCATCTTGGCGATGCGGTTGTCCGGGTATGCGATGCGGCCGCGGTGGCCGATGTCATAACGGAAATGCTCAAGGACAATCCGGATTTGTTCTCGGATAATCATCCCTTGGACCATACCATGCCTTACGTTTAG	MHTWESLMKQLEQLGIDGKGTLLVHSSMKSMGPVEGGADTVLDALTAYMKEGLLVLPTHTWSYINADNPKFYVDQSPSCVGILPELFRKRPDVVRSLHPTHSVAALGLDAIPFTNDDHRFDTPCARGSAWGKLLDRKATILLVGVDLKRNTFIHGVEEWVDIPGRLTDGHEKLYTVLPDGTEIPVPSRRHCGLSWSEHFWKVDEVLESRGAMHKGHLGDAVVRVCDAAAVADVITEMLKDNPDLFSDNHPLDHTMPYV	PGPT0028625_601	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028625-aacC-K00662	NA	NA
AK002_06233	555			hypothetical protein	ATGCCTGAACATAAAAAAGTGGATCCACGAGCCGTTCGCTCCAAAAAGCTGCTGAAACAGGCCGTTTTTTCACTACTGGCCGACAATCTGGAAATCTCTCAATTGACCGTCCAAAAAATCGCAACCCGCGCAGAGCTAAATCGTGCCACGTTTTATTTGCATTATGAGGACATTAACGATTTACTGCGCCAGATCGTGCATGAGATCTTTGACGACCTGTCCATGAAAGTCGAGCCGTTATTACAAGTGAAGAGCAGAAACGAACGGGAGCAGCTGATTACATTTTTAAATTATTTTTATGAATACCGTAACATTTTCGCCGTGTTGGTTGAGCATACGGGCTTCAAAACCCACTTGTCGAACCTATTGAAAAACACGATAGAACAACGCAGAAACGCCAGAAACATCCATTCCACCAGTCGGGTTGCCTCCGTTGATATTGTGGCAGCATCGCTTCTGGGAATTATTATGTGGTGGATTAAGGATGGTACCGAGCATAGCGCTGAATACATTGCGGATCAGATTACCTTGATGTATAGAAGAAAGTATGTGTAA	MPEHKKVDPRAVRSKKLLKQAVFSLLADNLEISQLTVQKIATRAELNRATFYLHYEDINDLLRQIVHEIFDDLSMKVEPLLQVKSRNEREQLITFLNYFYEYRNIFAVLVEHTGFKTHLSNLLKNTIEQRRNARNIHSTSRVASVDIVAASLLGIIMWWIKDGTEHSAEYIADQITLMYRRKYV				NA	NA	NA	NA	NA
AK002_06234	1449	emrB_2		Multidrug export protein EmrB	ATGCAAGAAGACATAAAGAACATAAATAAAGGGATATTACTAACCATCTTAATCCTTGGTTGTTTCTTATCCACGCTCAATCAGACGCTGTTAAATGTCGCCTTAAGCAATCTAATGGATGTATTTGATGTCACGGCGGCCACCGTACAATGGATTTCAACGGGATTTATGCTGGTTAACGGGATATTGATTCCGATTACGGCCTATTTAATGAAACGCTTTACCACGCGGCAATTATTTATAAGCGCCATGGCGTTTTTATTAATCGGTTCAGCCATCTGCGCGGCGGCGCCAAGCTTTGTTGCGCTCTTGTTAGGACGGATGATCCAAGCGGCCGGTGCGGGAATTGTCATGCCGCTTATGATGAGTGTTGTGCTCGCCATCTTCCCCGTTGAAAAACGCGGCAGCGCTATGGGACTGCTGGGACTGGCCATGATTTTCGCGCCCGCCATCGGGCCGACGCTCTCGGGATTTATTGTCGAGTATCACTCTTGGCGGTGGTTATTTATCGGTCTCATCCCACTTGTCATCATGGTCATCGCATTGGCATTCAAGTATTTGGTCAATGTATCAGAAACGGCCAAGTCGAAGCTTGATGTGGGAAGCGTTTTTCTATCAACCGTCGGATTCGGCTTTATTTTATACGGCTTCAGCAGTGCAGGCAGTAAAGGCTGGGACGATGCCATGGTCATCCTGTCCTTAGGCATCGGGATCGTGGTCACGGCCATATTCTGTATCCGACAAGTCAGGTCCGATGATCCCCTGTTGAACCTGTCTGTCTTCAAAAACAAAATCTTTACGTTAACGTCCCTTATTAACGTATTAGTCACGATGTTGATGTACGCAGACATGATTTTACTGCCTATTTATCTGCAGGACGGTCGCGGTTTTACAGCATTCGATGCAGGACTGCTCTTATTGCCGGGTGCGGTCGTCAATGCGCTGATGTCACCCGTCACCGGCAGGTTATACGATCGTTTCGGTGCGAGGCCGCTGTTCATCATTGGTTTGCTGTTTATTATTCCATCCATGTGGGCGGTAACAGATTTATCTGAGTCGACCACGTATATGTATTTGATGCTTCGTACCATTGGCCTGCGGATCGGATTAAGCTTCATTACCATGCCGCTCAATACGGCCGGACTCAATGCGCTGCCTAAACACCTCGGTACGCACGGTACCGCGGTAAACAATACCGTTCGCCAAATTGCCGGCGCCATTGGTACTGCCGTCGTGATTACGATTTATACCGTGCAGGCGACCAGCCATGCAACTGATGTGATGCAGAACAATCCTACAACGACTGCTGAACTCCTTAAATCCCTTACATCCATTTTAGGGGCAAGCGACGCCTACTACTTTATGATGATTTTGGCCGTCATCGCGTTAGTTATCACATTATTTATGCCGATGAAAAGCAAAGCCAGGATCGAACAAAGGTCCGTTTGA	MQEDIKNINKGILLTILILGCFLSTLNQTLLNVALSNLMDVFDVTAATVQWISTGFMLVNGILIPITAYLMKRFTTRQLFISAMAFLLIGSAICAAAPSFVALLLGRMIQAAGAGIVMPLMMSVVLAIFPVEKRGSAMGLLGLAMIFAPAIGPTLSGFIVEYHSWRWLFIGLIPLVIMVIALAFKYLVNVSETAKSKLDVGSVFLSTVGFGFILYGFSSAGSKGWDDAMVILSLGIGIVVTAIFCIRQVRSDDPLLNLSVFKNKIFTLTSLINVLVTMLMYADMILLPIYLQDGRGFTAFDAGLLLLPGAVVNALMSPVTGRLYDRFGARPLFIIGLLFIIPSMWAVTDLSESTTYMYLMLRTIGLRIGLSFITMPLNTAGLNALPKHLGTHGTAVNNTVRQIAGAIGTAVVITIYTVQATSHATDVMQNNPTTTAELLKSLTSILGASDAYYFMMILAVIALVITLFMPMKSKARIEQRSV	PGPT0028570_843	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028570-lmrB-K18926	NA	NA
AK002_06235	579			Potassium channel	TTGAAAGCAAATCGGATGGAAGCATTCAGCGATGGCGTGTTGGCCATCATTATTACGATCATGGTGCTGGAATTCAAAGTGCCGGAAGGCCATGACTGGCATGCGCTAGTCGAATTAGGCCCAAAACTAGTTAGTTATATTTTCAGTTTCGTCTATGTCGGCATCTACTGGAACAATCATCATCACCTGCTGCATATGGTTCGAACGATGAACGGGCGGTTGATGTGGCTCAACTTGCTGCTGCTGTTCTGGCTATCCCTTGTGCCGTTCACGACAGCTTGGATGGGGGAAAGCCATTTTGCACCTACACCGACGGCGCTGTACGGGATCATTCTATTCTTAGCTGCGCTCTCGTACTGGCTGCTTCAGCGCATGATTATGAATCAGCATTCCGGAGATTCCCCATTCGCTGGAGCGATGGGCAAGGATGGAAAGGGGAAACTATCTCCTTTACTCTACTTGACGGCGGCCTTGACCGCCTATGTGAGTGTTTGGATATCCGGCTTCTTTTTTGTGCTTGTTGCCATAATCTGGTTCATGCCGGATAAGCGAATCGAGCACGCCTTGAGAAGCCACTAA	MKANRMEAFSDGVLAIIITIMVLEFKVPEGHDWHALVELGPKLVSYIFSFVYVGIYWNNHHHLLHMVRTMNGRLMWLNLLLLFWLSLVPFTTAWMGESHFAPTPTALYGIILFLAALSYWLLQRMIMNQHSGDSPFAGAMGKDGKGKLSPLLYLTAALTAYVSVWISGFFFVLVAIIWFMPDKRIEHALRSH				NA	NA	NA	NA	NA
AK002_06236	447			hypothetical protein	ATGACCATGGGCATAGGTGAGAATGAACTCATCGCTTCGCGCGACTACGATGTCCCGCAGGAGCTTGTGTATCGGGCATGGACAACCCCTGGTTTATTAGCAAAGTGGTGGGGGCCCAAAGGCTTCGAGAATACGTTTCACAAGTGCGATATGAGGCCGGGAGGTACGTGGAAGTTCACCATGCACGGACCGGATGGCGTGGATTATCCTAACCATAATGTCTTTGTTGAGTTCGTGCCGACGGAGCGGGTCGTGATTGATCATCTAAACGTTCACGAATTTCGGGTGACGGCTACCTTCGAGGTCTTCGATGGCCGGACCAGAGTCACCTTCCGTCAACGTTTCAAGAAAAAAGAGGATTTTGAAAAAGCTAAGCCTATCTGCATAGAAGCGAATGAACAGCAGCTTGACCGACTTGGCAAGGTGCTGGCGGAATGGGGCGACTAG	MTMGIGENELIASRDYDVPQELVYRAWTTPGLLAKWWGPKGFENTFHKCDMRPGGTWKFTMHGPDGVDYPNHNVFVEFVPTERVVIDHLNVHEFRVTATFEVFDGRTRVTFRQRFKKKEDFEKAKPICIEANEQQLDRLGKVLAEWGD				NA	NA	NA	NA	NA
AK002_06237	450			hypothetical protein	ATGAACGAACGATTCGTCAAGCATGGAACCTTCGTCGTAGAACGGGTTTATGCCGCTACACCGGAGCGGGTTTATCAAGCATGGGCCGACCCGATTGCTAAAGCCAAGTGGTTTTCGAAGCCGGAGATCTTCGATTTCCAGGTTGGGGGACGGGAGTACAGCCGCGGCGGGCCGCCGGAAGGGCCGGTCTTTACCTTCGATGCCAGCTACCAGGAGCTTGTTCCAGAGCAGCGTATTGTCTATACGTACACACTGGATTCAGGGGACGTACGCATCTCCGTCTCGGTCACAACGGTCGAGCTTATCAAGGTGGAGGGCGGTACGAAATTGATTTATACAGAGCAAGGCGCATTCTTTGACGGACATGATACGCCAGAAATACGGGAACACGGGACAAATATCATGTTGGACACACTGGGCAAGGTAGTAGAAGTGGAGGTAGGAACATGA	MNERFVKHGTFVVERVYAATPERVYQAWADPIAKAKWFSKPEIFDFQVGGREYSRGGPPEGPVFTFDASYQELVPEQRIVYTYTLDSGDVRISVSVTTVELIKVEGGTKLIYTEQGAFFDGHDTPEIREHGTNIMLDTLGKVVEVEVGT				NA	NA	NA	NA	NA
AK002_06238	507	nolA		Nodulation protein NolA	ATGAAGAGACATTGGAAGGTCGGGGATCTCGCCAAGCTGACGGGGCTTACCGTCCGAACCCTGCGGTTTTATGATCAAATCGGGTTGTTCTCTCCGTCGGGGCAAACGGAATCCGGCCACAGGCTGTACAATGAATCGGATTTGTCGCGTTTGCACCAGATATTATCGCTTAAGGAGCTGGGATTATCTCTGGAGGAGATTAAATCGGCCTTAAATGGCGGGCAGATTAGTCCGCTTGAGATCGTGGAACTGCAGATCGACCAAATCAAAGAACAGATTAAACTGCAGCAGAAACTATTGGAGCAGCTAAGATATGTATCCAAGCTTATGCAGGGCAAGGCGGAATTAACGGTTGAGGATTTCACGAGTCTCCTGCAGGCGATGAAGATGAGATTTGAGAAACCGGTCATTGAGCGGCAAACGGGTTGGGAGCGACATTTGGACCTGTTGGGAGATTTTCTTGCCGAAGAGAATGGAATTTCGAAACATAAGGAGGAAAATGAATGA	MKRHWKVGDLAKLTGLTVRTLRFYDQIGLFSPSGQTESGHRLYNESDLSRLHQILSLKELGLSLEEIKSALNGGQISPLEIVELQIDQIKEQIKLQQKLLEQLRYVSKLMQGKAELTVEDFTSLLQAMKMRFEKPVIERQTGWERHLDLLGDFLAEENGISKHKEENE				NA	NA	NA	NA	NA
AK002_06239	921			hypothetical protein	ATGGAAATCAACATTAGTGTATCTGCTCCGGTCATTTCGGCGAAACCGGTAGTTCTATCGGCCCCTGGGCGCGGCGAGGATCTGCAAATGCGAGTGTCTGCGCCCGCGGTAGGAAGTGAATTGCCTATTATTGTGTTTTCTCACGGCTTTGGCTGGTCGCTGGACGGCTACGGCCCATTGGCCGACTACTGGGCTGCTCACGGCTTCGTGGTCATTCAACCCACTCATCTCGACTCGAGGACGCTGAACCTTCCTCCTGAAGATCCCCGTACGCCACGGATCTGGCGTTTCCGAGTCGAGGACCTGAAGCGCATCCTCGATCAGCTTGATGTTATCGAAGCTTCCGTTCCCGGTCTTAGTGGGCGCCTCGATCGGAGCCGCATCGCCGCTGCCGGACACTCCTGGGGCGGTCAGACGGTGAGCATGCTGCTCGGCGCGCGAGTCCTCGATCACAACGGCGAGCCGGGAGAGGATATGTCCGACTCGCGCATCAAGGCGGGCGTGCTGCTTGCCACGACTGGCAAGGGTGGAGCTGACTTGAGTCCGTTCGCGGCTGAGCACTTTCCCTTCATGAATCCGAGTTTCGCGGAGATGAGCACGCCGACCCTTGTGGTGGCGGGGGACCATGACCAGTCCAGACTGTCCACTCGGGGGCCGGACTGGTTCACCGACCCGTACTTCCTGAGCCCGGGCAGCAAGAGCCTGCTCACTCTCTTCGGGGCAGAGCACTCACTCGGCGGGATCTCCGGTTATAGCGTCGCGGAGACGACGGATGAGAGCTCCGAACGAGTTGCCTTGATCCAGCGGCTCACGTTGGCCTACCTTCGCACCACGCTCGACCTTGAAGATTCCAGCTGGCCGGCAGCTTGTGCAGCTCTGGAAGAGAGCGCCATCCCGCTGGGGCGTATTGAGTCCAAGTAA	MEINISVSAPVISAKPVVLSAPGRGEDLQMRVSAPAVGSELPIIVFSHGFGWSLDGYGPLADYWAAHGFVVIQPTHLDSRTLNLPPEDPRTPRIWRFRVEDLKRILDQLDVIEASVPGLSGRLDRSRIAAAGHSWGGQTVSMLLGARVLDHNGEPGEDMSDSRIKAGVLLATTGKGGADLSPFAAEHFPFMNPSFAEMSTPTLVVAGDHDQSRLSTRGPDWFTDPYFLSPGSKSLLTLFGAEHSLGGISGYSVAETTDESSERVALIQRLTLAYLRTTLDLEDSSWPAACAALEESAIPLGRIESK				NA	NA	NA	NA	NA
AK002_06240	780			hypothetical protein	ATGAGCAAAACCAAAAAAATTCTTATCGCCGTTTCTTTCCTTGTATTGGTATTTTCGCTCGTCAATTTTTCGCGAGCTCTCTTGCGGGATTATGTGGAGCAGCAGAAAATCGAAGAGCTGGCAACTGCTTGGGAGGAAGGGTCGGACAAAGGCGGAGGGGCTGCATCCCCCTCCGTTTTGTTCAATAAGGCGAATGAGCCGGTCATGCTTCCCGAATTTCGAGAGCTTTACGAGAGGAACTCGGACATCGTCGGCTGGCTGAAGATGGACGGCACCCGAATTGAGTACCCGGTCATGCAGAATCCACAGGATGCGGATTACTATCTCAATCATGATTTCGATAAAAAGGAGAACAAAGGCGGCCTCCCCTTTTTGGACGCGCATAGCCGGACCAACGGTTCGGACATTGTGCTGATTCATGGCCATCACATGAAAAGCGGCTGGATGTTCAAAGATTTAATGAAGTACAAGAACGAAAGCTTTTACAAAGAGCATGCTGCGTTCCGGTTCAGCACGCTTTACGAACAGGAAGAGTATGAGATTGTTGCCGTCATTCTGTCACAAGTTTATCGCAAATCGGACGATGTTTTTAAATACTACCAGATTGAGAATGTAAGTACGCCCGCCGAGTTCGATTCGTATGTTCAGAACATCAAAAAACTCGCTCTTTATGACACAGGCGTAACAGCCCGGTATGGCGACAAGCTTATTGTACTGTCCACCTGCGAGTACTCGACCGAAAACGGCCGGTTAGCGGTGGTCGCCCGAAAGCGTTCATGA	MSKTKKILIAVSFLVLVFSLVNFSRALLRDYVEQQKIEELATAWEEGSDKGGGAASPSVLFNKANEPVMLPEFRELYERNSDIVGWLKMDGTRIEYPVMQNPQDADYYLNHDFDKKENKGGLPFLDAHSRTNGSDIVLIHGHHMKSGWMFKDLMKYKNESFYKEHAAFRFSTLYEQEEYEIVAVILSQVYRKSDDVFKYYQIENVSTPAEFDSYVQNIKKLALYDTGVTARYGDKLIVLSTCEYSTENGRLAVVARKRS	PGPT0024080_175	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024080-srtB-K08600	NA	NA
AK002_06241	6018			hypothetical protein	TTGAAACGAAAACGCAGCATTGGTAAAGCAATACTCTCTTTATGCTTGGCAATTATGCTTGTCTTGCAAACGGTGGCGCTCTCTGTCACTGCATATGCGGATAGCGCGCCAAGCGATTCCGGGGCAGCGGCTGTTAGCGAAGCCGATTTGCCGAGCGCGGACGAACCGCCGTCAGTAACTGAAGCGGTGTACGATGTGCCGAACAATTCCATAGTGATGACGGCAGCCCCGACGGACAAAACGGTGGTATTCATGGATGCCAATGCAACCTTTCCGCTTATGGTGACGCAGGGAACGGACATTGCTCCAGGCGGTACGATCCAGGGCCGACAGGCATTTACCCTTAAATCTGAGGGCCTCAAGGTGCCGGTGAATGGTGATGACGCTGATCCGACTAATGCGGATCCAGGTCTATACATTCAGAAGGGTGATTGGATCGAACTAAAAAGGGATGACTACTTCGCGGATGTGATATTGCCAACAGCTAACAAACCCTTAATGGCAACAACTGAAACGGGTCAGAAGCAGCTTGGCATCGCCCATTTCACCCCGGATAGCATCAAGATTGTATTTAATGGTGACGATTGGTTTTTTAACGGTATTGGACGTGCGGTTACCTTCGGTTTTGAAACCACGGCCAATTCGGATGTAACGGGCATGAATTACGGTGATACAAAGCCTATCTCGATTTTCGGGGGGGCGTATGAGCTATTAAACCCGGATGTAACAGCAGCGTATAGCATGACTTTAAGCTCGCCTGGAATGATCAGGTGGGATCAGTATGGCTATCGCGGAATTCAACCGGCACAATTCGTTGAAGGCGCAATTACTTGGGAGTCCCCTGTATCTGCATACGATCAGTTTGATAAAACAGTTAAATTGCCGTTAGACGGGAAGATATTTTACACAAATCCAGCTACTTATAATACCGGCTTTGGAAATGTCCGCGGTATCTATATGGAGGGTTCGTTCAAAGTAAACGACCAGAAGGTAACTCCGGTTATTGGGGCAGACGGATCGCTGACTTACACTTTTCCACAAGGGACAGGTCTAGATCCAAAGGTTGAATATAAAACATGGATTCCAAAGGAAGCCTATTATTACGAGTATCGAAACCCGCCTAGCAATCTTGGTCGCAGCCATCGGGATATGAATGGCAAAGTGGAACTGAGACAGGACAATAATACGTTGGCGCAGGCGAGTCAGGAGATTTCTTTTGCTCCCGACTGGATACAAGCATCGGGCTCTTATGACCATCCAAATGAAACCATTACATGGAAGGTCACGGTGAACCAATATAACAAAAAAGGGTTAAAAAACTTTACTATCACCAATGTATTGCCTGCTGGGCTGGAGTTTACCTCAGCTACATGGCAGACATGGGAGAATGGCGCTGCATCTGGAGAAACACCAATTACACCAGATTCTAACGGCGTTTATTCCTTTGGCGATGTTGACGGTAAAGTGGAACTAATCATTAAGTCTAAAGTACAAAGCGGTTCCAGCTTCAGAATCGACCCACGTGCTAACTGGAATTTGGATACACCAAGCAGTATTCAGAACAATGATGTAACTACCGGGAGATATCCTGTTGCAGTAACTGACGAGGCAACCATTACCGTCGGCGCGCACGCTTTTACAAAAACAGGCTCTATTTCGATAGAGGATTATAACTTGGGCGCCATCACGTGGACCGTTAATCTAACGCCGCAGTATGCCCTGTCAAATGCGACGGTATACGATGTGCTGGTGCATGACGGAGATTTGAGCGTCTTGGACAACGCTGTGGATAAAACCGGCGAAGTGAGCGCGGAAACAGTTGCTAAAATCAAAGAAAATGTAAATTCCGCGCAGCTTTGGAAGAAGTATCATGAGGGCACCTTGAAGACCAATGCAACCGGCCTGACCATGAAGGCTATTCCTTTAACCGTAGACGGTAAAGTGGTGGCGGATTTGATCAAGGTGACCGGATACACCGACAAAGCTGCATCCTTCAGCTTCCGTGCACTTGAGACGAACCCTGACATCCTCTTCAGGCAGGATATTAACGCAGGGAAAACAAGCTGGAATCGGGCTTTGCTCATTGACGGCGAAACCGTAAAACAAGCGCAAAACAGCACCAACCTGCATCTGCGTATGCTGAACAAGGATATGCTTTTTGCGTCAAAGCCATTGAAAGCTGATGGTACGCCTGAAAATGTTACTCCGAATCACGTTAGCAGTTACATTAGAAACGACAACAATGAGGCATGGACGATTTCTGCCTATGACAGGACAACCAAGACGGTCACATTCCGTTTAGGGGTAAATATGCCTGGATATAACACAGGGGAAATGGCTAAGGACGGCGGTAATCGAGTCATTAGCAATATCAAGCTAGTGGACACACTGCCCGAAGGCTGGGAATTCGTGCCGTTTTCTGAAGGTAAGGATTTTGAGCTTTGGAAAGGATATTCGGACAATGGTTCGGGTACAGAATATGGTGTTAGAAACGATGCCAAAACACTTATTGAACCAGGTACTAGTGCACATGTGGTGAGTTTCTCCCATAGCGGCAACGTAGGTACCTTCACCTTCTCCGAGCTGGAGAGCCCTTATGTCATTTTAGTAAAGGCTAGACCTTCCAATGCGGCTCTGGAGAAATATTTGGAGGAATACACCACGAACGGCACAGACAAGCAGGTGCTGTATAACAAAGCCGACCTTCATATGACATGGGGTGGGGTAGAAAAGGTCCTCACCGAACAGCGCAAAGTTATGGTGCCTATTCAGACTCTGGGCAAGTCGGTAACGAAGCCAGTTCCAGGCGTGCTGGAATGGACGGTGAACTATACCCCGCCATTCAACATGACGCAGGGTGTTTATTTGCAGGATACCCTAGGTGCAGGTATGAATCTGCGCTATGAAGAAAACGGAAAGCTTGTGCTGACAGCGCCTAGTATGGCAGTCTATCCTGCTAAACTGACTGCCAGCGGTGCTCTGGAACGAGAGGGCGCAGCACTGGACCTCAGCGACCCGAATGGTGAAGTTCAAGTAGAAGCTGCACCAGGCGCGGGAGGCACCACCGTTCTCATATTCAAAATGAAAGACCCTAATAAGTTTTACCAGTTTGTGTACCAAACCGAGGTTGACCCTTCTAAAGCGAAAGCTGGCGATAAAATGGGCAACGAGGTAAAGCTGATGGGCGATGATAAGCTGAAAACAGTCAGTGCCAAAAGTGAAAGCACGCTGGACAGTTCAGACGTAGCCGGCAGTTCAAGCTCCAATGCCCTGCTGCCCCTGAAAAAGGTAGATCCCGATGGCAATCCGCTAAAAGGCGTGGAGTTTACGCTCTATAAGAAAGACGACGGAACTCAAATCGCCAAAGGTACAACCGATAGCGGAGGGAAACTGAATCTGCTGTTCCCGGATCCGGGGTATTATGAGTTGAAGGAAACCTATATTGACACAAATACCTGGCTGCCGATCACCCATGTGTATCAGGTGTATGTAGGAAATACGCCAGGCAAGCCTATCTGGGTAGATGGCGTAAAAGTAACCTCCGATAATCCGCTGGTCGTGCCTACGCCGGCCCAAGGAATGCTGACCATCAGCAATAAGGTGGAAGGCAGCGGCAGCGATGCCTCCAAGGATTTTGAATACACCGTGACCTTCACCGGCGAAGGCAAGGACGGAGAGTACACCTATAAGAAGTCGGATAATACGTTTGGCACGATCAAGAGCGGAGGCAAGTTTACCCTCAAGCACGGGGAATCTGTGACGCTCCCGACGTTGCCTGCGGGTCTGGTCTATACCGTAACCGAGGCCGATTATACGACCGTTGACGGTTATATCACCACGCCGGGGACCAGAGAGCTGTCCGGCACAATCGAGAATAAAGGCGACCATAAGGCGGACTTCATCAATGAACGGACCGTCAACAAGCTGACCGTCAGCAATACGGTCATGGGCAACGGCGGCGACAAGACGAAGGCGTTCGAGTACACCGTCATCTTTGAAGAAGCAGGCAAGGATGGAAGCTACGCGTATACGAAGTCGGATGGAGCGACGAGTACACCGGGCACGATCAAGTCTGGCGAATCCTTCACACTTAAGGATGGAGAGACACTGGAAATTATGGATCTGCCTAAGGATCTGAAATACACGGTGACGCAGAAGGACTACACAACTGACGAATACGTGACCACGCCTAAGGAACGGCAGTATACCGGGGTCATGGTGGGGAAAGATGAAGCTGCCCCGTTTACGAATGTGCGAGTTATCGAAGGCAGCCTGCTTATCAGCAACACGGTTAAAGGCAAAGACGACGACAAGTCGAAGCCGTTCCAGTACACGCTCACCTTCACAGGCGAGGGATCGGACAAATCCTACGCCTATGAGAAATCGGACGGCAGCAAGGGAACAATCACGAGCGGAGACACCTTCGAGCTTACCGACGGCCAGACGCTTGTTGTGCAGGGACTCCCGACGTATCTTCAGTATGAGGTGACCCAGGATGATTATACGAAAGACGGCTATGTGACGGATCCTGAAAGTCTCGTTCACACAGGCACCATTCCGGAGAAAACATTGGCAGAGGCACACTTTGAAAATACTCGCCCGTATCTGGAAGGCGTGCTGCGTGACAACAACACAGGAGAAGTCATTCCGAATGCATCCATCACGGTGACCAATCTGAAGACAGGTGAGAAGCAGACGATTCAGACGAGTGAGAAGGGTGAATATTTCGTCCCTGCCGAGGCGGACACCGACTATACGATCACGTATACGAAGGTGTATACGGTAGGCGGAAAAGATGTGCCTATCGAGTTCACGCAAAAAGCAAATGTGGACGGCAACGTGAAAGACGAAACCGTTCCGGCGGTCATAACGGCGGTAGGGATCGTTCTGTTCAAGCAGTTGGATGGGACAACAGCGCTATTCAACGATTCGTTCACCAGCCAGATGCGTATCTATTTGAAGGACAAGGACGGCAATTATATTCAGGAGAACGGTCGTCCTAAGGCGTTCCCGCTGGCTTCGAACGGCACCTTCTCCATAGAAGACGAAGAGCTGAGCGCGCAGCAATACACCATGGAAGTTCGCTATCAAGCTGAAAACGGCGAGGAACTGCTCTTCAAAGTGACGCAGCTGGACGTGAAGGCTAACGGAGAGCTGAATATTTCCGAGGCATTGGTCGACCCTTACGGTACGGTTTATGATGAAACGACAGGAAATGCCACCACTGGCAAGAAAATTGCTGGAGCCAAAGTTACGCTGTATTATGCGGATACGCAGCGGAATAGAGATAACGGCCGCATTCCGGATACGAAAGTAACGCTCCCTCCGGTTCCGAATTTTGCGCCGCATGACAACAAGAGCCCGGAGCAGGATAGCGACGCCAATGGCTTCTATGCATACATGGTGTTTCCTGAGGCGGATTACTATCTGATCGTAACGAAGGACGGATACGAGACGCACAGGAGTGATACGATTTCTGTCGATTTTGACATTGTAAGGTACGACGTGCCAATGAAGCCAATCAACACTGGCGGCGGACCGGGCCCTGTTAACCCTACTCCAGAGCCGGAGAACCCAGGCCCTGTTAACCCAGCCCCAGAGCCGGGGAATCCAGGTCCTGTTAACCCAGCCCCAGAGCCGGGGAATCCAGGTCCTGTCAATCCTGCCCCAGAGCCGGAGAATCCAGGCCCTGTTAGCCCTGCACCAGAACCGGAGAATCCAGGCCCTGCTAACCCTGTTCCAGAGCCAGTAAATCCAGGACCTGTCAGCCCTGTTCCTGACCAGCCTGGTAATTCCGAGCCTGGCAGCGTCAACAATGGGAATAACAACGACAACGTGTCTGATGTAAGCGACTTGGCCGATAAGGGTTCGGGTAATGGAATTAACGAGCTGGACGATGCTCCGAAAACCGGGGACAACAGCGTATCGCCATTCTTCTATCTGGCTCTGGCGCTGATGTCCTTGATGACGATCGTGCTCTGTCTACTCGGTAACAAGAAGAAAGCGCACATCCAGTAG	MKRKRSIGKAILSLCLAIMLVLQTVALSVTAYADSAPSDSGAAAVSEADLPSADEPPSVTEAVYDVPNNSIVMTAAPTDKTVVFMDANATFPLMVTQGTDIAPGGTIQGRQAFTLKSEGLKVPVNGDDADPTNADPGLYIQKGDWIELKRDDYFADVILPTANKPLMATTETGQKQLGIAHFTPDSIKIVFNGDDWFFNGIGRAVTFGFETTANSDVTGMNYGDTKPISIFGGAYELLNPDVTAAYSMTLSSPGMIRWDQYGYRGIQPAQFVEGAITWESPVSAYDQFDKTVKLPLDGKIFYTNPATYNTGFGNVRGIYMEGSFKVNDQKVTPVIGADGSLTYTFPQGTGLDPKVEYKTWIPKEAYYYEYRNPPSNLGRSHRDMNGKVELRQDNNTLAQASQEISFAPDWIQASGSYDHPNETITWKVTVNQYNKKGLKNFTITNVLPAGLEFTSATWQTWENGAASGETPITPDSNGVYSFGDVDGKVELIIKSKVQSGSSFRIDPRANWNLDTPSSIQNNDVTTGRYPVAVTDEATITVGAHAFTKTGSISIEDYNLGAITWTVNLTPQYALSNATVYDVLVHDGDLSVLDNAVDKTGEVSAETVAKIKENVNSAQLWKKYHEGTLKTNATGLTMKAIPLTVDGKVVADLIKVTGYTDKAASFSFRALETNPDILFRQDINAGKTSWNRALLIDGETVKQAQNSTNLHLRMLNKDMLFASKPLKADGTPENVTPNHVSSYIRNDNNEAWTISAYDRTTKTVTFRLGVNMPGYNTGEMAKDGGNRVISNIKLVDTLPEGWEFVPFSEGKDFELWKGYSDNGSGTEYGVRNDAKTLIEPGTSAHVVSFSHSGNVGTFTFSELESPYVILVKARPSNAALEKYLEEYTTNGTDKQVLYNKADLHMTWGGVEKVLTEQRKVMVPIQTLGKSVTKPVPGVLEWTVNYTPPFNMTQGVYLQDTLGAGMNLRYEENGKLVLTAPSMAVYPAKLTASGALEREGAALDLSDPNGEVQVEAAPGAGGTTVLIFKMKDPNKFYQFVYQTEVDPSKAKAGDKMGNEVKLMGDDKLKTVSAKSESTLDSSDVAGSSSSNALLPLKKVDPDGNPLKGVEFTLYKKDDGTQIAKGTTDSGGKLNLLFPDPGYYELKETYIDTNTWLPITHVYQVYVGNTPGKPIWVDGVKVTSDNPLVVPTPAQGMLTISNKVEGSGSDASKDFEYTVTFTGEGKDGEYTYKKSDNTFGTIKSGGKFTLKHGESVTLPTLPAGLVYTVTEADYTTVDGYITTPGTRELSGTIENKGDHKADFINERTVNKLTVSNTVMGNGGDKTKAFEYTVIFEEAGKDGSYAYTKSDGATSTPGTIKSGESFTLKDGETLEIMDLPKDLKYTVTQKDYTTDEYVTTPKERQYTGVMVGKDEAAPFTNVRVIEGSLLISNTVKGKDDDKSKPFQYTLTFTGEGSDKSYAYEKSDGSKGTITSGDTFELTDGQTLVVQGLPTYLQYEVTQDDYTKDGYVTDPESLVHTGTIPEKTLAEAHFENTRPYLEGVLRDNNTGEVIPNASITVTNLKTGEKQTIQTSEKGEYFVPAEADTDYTITYTKVYTVGGKDVPIEFTQKANVDGNVKDETVPAVITAVGIVLFKQLDGTTALFNDSFTSQMRIYLKDKDGNYIQENGRPKAFPLASNGTFSIEDEELSAQQYTMEVRYQAENGEELLFKVTQLDVKANGELNISEALVDPYGTVYDETTGNATTGKKIAGAKVTLYYADTQRNRDNGRIPDTKVTLPPVPNFAPHDNKSPEQDSDANGFYAYMVFPEADYYLIVTKDGYETHRSDTISVDFDIVRYDVPMKPINTGGGPGPVNPTPEPENPGPVNPAPEPGNPGPVNPAPEPGNPGPVNPAPEPENPGPVSPAPEPENPGPANPVPEPVNPGPVSPVPDQPGNSEPGSVNNGNNNDNVSDVSDLADKGSGNGINELDDAPKTGDNSVSPFFYLALALMSLMTIVLCLLGNKKKAHIQ	PGPT0022155_1170	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
AK002_06242	6060			hypothetical protein	TTGAAGTCCCAAAGAGGAAGTCTGCCTTTTATTGTGATGGCTTGTTTTATTGCGGGGGTTGTTAGTCTGTGTTACGGCATGAATGTATTCGCGTCCTCAGATAAAGAAGAGGGTGTTTCTGAAAAAGACAGAGCTAAGTATTTAGGAACTTCACTGTTTAAAGGTCACATGCATTCCCATACTTCTCTCAGTGATGGGATATTGCTGCCTAATGATGCTTACCATTTTGTGAAAGGTAATACAGATTTTGATTTTTTTGCAGTGACGGAACACGACGTCACTTATGACATCAGTACGGGCAGTGATTTTATTACAGATGTTCAAGAATCTTATTCAGAAGAATACAAGCTGCTGCATGAGCAATCAGATGCTCACAATCGTGATCACGAATTTATTACGCTGCCTGGTACGGAAGTGACTTGGTATGATGAAGCAGGCCATATCAATTTATTTAATGCTCCATGGTTTGCAAGAACACATGGAGTAGGTGCGGACGGCACTTGGGGCTGGAGCGACATCAAATATGATCTGCCAACCTTTTACGCAAGACTTGCCCAAGATCCGAATGCGATTGCGCAATTTAATCATCCACGTTCGTCAGGAAATTGGAGTTTCAATGAATTTAAACACTATAACCGGGAAGTTGACAGAAACCTTAATCTGATCGAATACAAGTCCTCCAATGATTTTGCAATCTATACCAAAGCATTAGATCGAGGCTGGCATGTTTCTCCTGTGTTTGGCGGGGACGAGCACAAAGGAAATTGGGGAATGGTTCAGCCCCATGTGACCGGTATGTGGGGAAAAAAGCTTACTAGAGAAGGCCTTTACGAGGCGATGCGAAACCACCGCACCTATGTATCATTTGATCGCAACTTAGAAATGGCGGTTTCAGCCAAAGGTCAGATGATGGGGTCGATTCTTCCGGCCAAAACAAAGAAAATTAATCTCAAGATACAGATAAGTGACCCTGATGCTAACGATGTGTTGGATAAAGTCGTTGTTTACAAAAACAGCGGTGAAATCATCAAGGAGTACGGCAATATTGCCAGCAATCAATTTAATCAGGAAGTATCCTTAGCAAGTAAAGATGGGGACTACTTCCTCGTGAGAGCTTTCCAAGTGGACGGTGAAGAGGCTATAAGTGCTCCAATTTGGATTGGTGATGAAACGAGGGGCACGGTGCATGCGCCTGAAATTAAGGTTCATGGACAATATCCGGATACTATTAAGCTTGGGGATCAAGTAGAAGTGCTGGGCGCTTCGGCGACAGATCACAGCGGTCAATCTTTATCGGTGGAAGCCATCGTTCTAAATGATAAGGGAGAAGTAGCGGTTCAAAATCAGCATTTCAAGGTCAACATGTATGGAGAGTATTTCATTAAGTATGTAGCAACCGACGCTCAAGGAAATACGCGTGTTGAACTTATTCGAATCCTTGTTGATCAGCAAAATCTGGATGCCGAACAAATTTTAAATGAGTTTCAACCCATTGTTAATGTAGGTGGGAATGAACGTGAAGTAGGAATAAATGTAGTCACGGATAAGGCATTAGAGACGTCGTATGTTCAGTACAAACCTGAGTCCGAGACGACGTGGGACAATGCGGAAGTAGTACAAGCGGGAGTCTCTTATTTTCAAGTCGCGTATGGCGATACATTTGCAAAGAGTAACTATCGGGTGCTTGCAGCTCATGAAGCGAATGTAACAGAACTCGGCTTAGGGACTACGTATGACTATCGGTATGGAATGTCGCCGACTGGACCTTGGAGCGACAGTTATAGCTTTAGGACCGCACCAGCTTCAGAGGAAGCCGTTATGTATGTGATGGGGGATCTGGGAGTTCCGGATCGAAATCCGGAAAGCTTCCAGCTCTTTAACCATATGCTGGACGTTCTGCAGGAGAAAAATTCAAACGGGCAGACGGTGATTCAAGTCGGAGACTTGGTCGAGAATGGCGGCAATATGTACGCTTGGGATGATGTGTTTAACAACATTTACAACAACGATATGGGGCTAGTTTCTGCTCATATTGTCGGGGATCGTGAACATGCGACGGAACGGAAATTCGGGCCGTACTCCGGGTTTTTCAACCTGCCGAAGAACGGTGAGGGCACTTATCGGGAGACGAATTATTCGTTTGATTATGGCGATATGCACATTGCTGTTCTGAATTCCGTGGTGGATTTCGACAAACAGCTGTCATGGCTGGAAAAAGATTTGCGGGCAACCGACAAGAAGTGGAAAATCGTTATGGGACACTATCCTTATTATGGCGGTCAATCAGGCGATGAGACCGGTATGGACATGATGAGAGTGAAATTGTCTCAAGCCTTTGAACGGCTTGGTGTCAGTCTGTACATTGGCGGTCATGATCATGTGTATAAACGGACAACCATACGAAACGGTGTAAAAAATATATCGGAAGAAGCGATGAATCTAGGTACAACCTTTGTGACAGTTGGTTCATCAGGTCCAACGTTCAATGATAACAAATCGTTTGACTGGGATCATATCGTATATGATGAAAATAAGCAGACCGGTGTTGTTTTGGAATCAAACGATCAATCTCTCACGTTGAAAGCCTACAACAGCGACGGTGTTGAAATTGATTCATTTACGATTAAACAGCCTGCAAATTATATGAACTTAACAAGCGCAATAATAGAAAATAACGTCTTGAAGGGCGTTGGGGTCCTGAATTACCCGAGCTCGCCTGAACGTGTCACCGTTATCGGGGAAAAGCGCGATCATACAGGTGAACAGCTGCTGGAAACGGTAATTCAAGAAGCAACGCTGGAACACCTCGGACGTGAACAAATCATTTTATTTGATAATCCTCTTGCATTTGGCGATGAACATACGATCGTCGTAAAAGTAGTTAATAATCCAATCGATCAAGAGCCGTTAACGGAACCGTTAATCGCTAAAGAAGGAATGCTGGGCGATGGTTCGGAAGGCAACCCCTATCAAATTAAAAGTGCCAGTGGACTCAATAAAATGCATGAGTTCCCGGACAAACATTTTATTTTAGCTCAAGACATTGACGGTAAGGGCATGTTTTTTGAAGCCATTGGCGCGAGTGGCACGCCATTTACGGGTACGTTTGATGGGCAAGGGCATACGATTACAGGCGTTATAGTCTCCTCGGGCGGCGCGGGTCTCTTTGCTATTAATGAAGGGACGATTCGTAATGTAGGAATCACCCATGCTGACATTGATGTTCGCCGAAGTAATATTGGGATCCTGGTTGATCAGAATGATGGGATCGTAGAATATGCCTACAGTACCGGATCTATTCGAGGCAATTCTACCGTCGGCGGTCTTGTGGGCTACTCGAACGGTATCGTTAGAAACAGTTATTCAACAGCTCGAGTCCATGCACGAGGCAAGCAAGCCGGCGGCTTGATCGGGATTACGAATCGGGGGAGTACAACAGAACAGGTCTATGCAACCGGATCCGTAATAGCAGAAGAATCAAATGCCGGCGGCATCAGCGGATACGGATATAACCATACGGTCATTCGAAATAGCATGGCATTAAATCCATCTATTGTTACAGGTACTGCATCGAATCGAATTGTCGGCAGAGTTCTAGCAGGGGAGACGGCAACCTTAGTCAATAATTACGCCGATGAAAATATGTTTGTTAGCAGTGAGAACGTTACGGTGAATGATCCGAACAATGAGAAAGGACAGGGGGTCGGTGCAGAAACATTCACGAAGCCATCCTTTTTCATGGAGACTCTCGGTTGGGATTTTGATTCGATCTGGATCTGGAATGAAGATGCCAAACGTCCATTACTGCAAAGTAATTTGGAGAAAATTAACGAAGATCATATTCCAAAGCCGAAGCTTGATCGGAATGAAGATGGGTACTACATCATCCGTTCAATTCAAGAATTAAAGACGATATCCGAATTCCCAAATGAAAATTATATATTGGAGAATGATCTTGATTTTGAAGGGAAGCTATTTGAACCTTTATTCAAGGCGACGCCTTTCCTTGGCACTTTTGATGGGAACAATAAATCCTTAACTAACTTCACGTCAGAGTATGGCGGCTTATTTCATCTCAATGGCGGAATCATTAAAAACATAGCTATGGTAGATGCAAGCGTCACTGGCGGGAGTAATATCGGTATACTCGTTAACACGAACAACGGAACGGTAGAGAATAGTTATGTAACGGGCACAATCGAAGGCTCCAGCACCGTGGGCGGTCTAGCGGGTTATTCCAATGGCATCGTGAGAAACAGCTATTCTACGGCAGATGTAACGGCCCAGCTGAACCAAGCTGGTGGTCTAATCGGAATTACAAACTCAGGCAGCTTGACGGAAAACGTGTATGCATCCGGAGCCGTCCAGGCGCTTAGAAGCAACGCAGGCGGAGTGACTGGCTACGGTTATAATGATACGGTCGTTAGAAACGTGATTGCTCTTAACCCTTCCGTCGTGACGCCGACGATGGCGAACCGCGTGGTGGGACGAGTCCTTGCCGGGCATACCGCAACGCTTCAGAATAATTATGCGTTCGATGGCATGATTGTGGATAAAGAAGGCGAGAGTATTGCCGCTGCTGACAACAGAAAGGGTTTAGGGCTATCCCAGCAACAGGTTGAAGACCCTAACACGTATACCGATAGGCTGAACTGGGATGTTGAGTCGGTTTGGATGTGGAATGATGCTTTAAAGCGTCCGGTATTGATCAGTAACCCTGAAGAGGCAAGCGAGCCTGTCGTACCTTTGGAAAGAAATGAAGCCGGTTATTACCGAATCAAGTCCATTGCTGATCTGAATGTTATGGAAGCCTTCCCGGCAGAAAAGTATATTTTGGACAATGATTTGGATTACGCCGGACAACCGGCTGAGTCACTTTTTAAAGATGTTTCGTTCACCGGTGTTTTGGATGGCGGCGGGAAGAAAATAGTGAACTTTAATTCCTCGAGCGGTGGCTTAGTCCATCTTAATGGCGGAGTGATTAAAAATATAGCCATGATTGATGCCGGCGTCACTGGCGGGAGCAGAATTGGCATACTCGTCAACACGAACAATGGCGAGATAGAGAATAGTCTTTCAACAGGCTCCATTACAGGCTCCAGCACAGTCGGCGGTCTAGTGGGCTATTCCAATGGCATCGTAAGAAACAGCTATTCTACCGCGGATGTAACCGCTCAGGTAAGCCAGGCCGGTGGCCTAATCGGAATTACGAACTCGGGCAGCCTAACAGAAAACGTGTATGCGTCTGGAACCGTTCGGGCGATGACGAGCAATGCGGGCGGAGTAACTGGATACGGATACAATGATACGGTCGTCAAAAATGTCATTGCCCTGGACCCTTCGGTTACGGCGCCAACGATGGCTAACCGGGTGATGGGACGGGTTCTTGCCGGGCACACCGCCACGCTCGAAAATAATTATGCATTTGACGGCATGATTGTTGATAAAGAGGGTGTCGCTGAAGGAGCATTAACAACCCTTAAAGGATTAGGCCTATCTGAAACTGAAATAGAAACTCCATCCACCTATACAGACAGGTTAGGGTGGGACTTTAACGCAATTTGGAGATGGGACGGTATGGGTAAACGACCTGTTTTACAATCGGTATCAGAAGGCAACGAGGAAGAGCCCGTTAGCCTGATTGGGCTTGAGCTCGAGGGGCTGCTTACGCTGGTCGTTGGAGAGAGTGATCAAACGGTGACTACTGCCGTATACAGTGACGGAAGCCGCGAAAAGGTAGAGATAAACGTCATCTATACAAGCAGTGATCCAAGTATAGCGGAGATCAGTTCTAGCGGTGTAGTAACGGCGATTTCGGAAGGAACCGTACTCATCACGGCAGAGTATGATGGCTTGACTTCATCCTATGAGCTAACCTTGACTCAGAAGCAAATCGATATGGAGGGGGTCAACCAAGACATGGATTCGGAAGTCACGCTTCCGTTCACTTCTTCGGCTTTTGTCGGAACGGGGGAGTGGTGGAGCGCGAACCAGCCGCACCCTCCTGCCTTCATGGCGGAGGAAGCCATGAGATCGTTTGAACGGCACCATATGTATTAG	MKSQRGSLPFIVMACFIAGVVSLCYGMNVFASSDKEEGVSEKDRAKYLGTSLFKGHMHSHTSLSDGILLPNDAYHFVKGNTDFDFFAVTEHDVTYDISTGSDFITDVQESYSEEYKLLHEQSDAHNRDHEFITLPGTEVTWYDEAGHINLFNAPWFARTHGVGADGTWGWSDIKYDLPTFYARLAQDPNAIAQFNHPRSSGNWSFNEFKHYNREVDRNLNLIEYKSSNDFAIYTKALDRGWHVSPVFGGDEHKGNWGMVQPHVTGMWGKKLTREGLYEAMRNHRTYVSFDRNLEMAVSAKGQMMGSILPAKTKKINLKIQISDPDANDVLDKVVVYKNSGEIIKEYGNIASNQFNQEVSLASKDGDYFLVRAFQVDGEEAISAPIWIGDETRGTVHAPEIKVHGQYPDTIKLGDQVEVLGASATDHSGQSLSVEAIVLNDKGEVAVQNQHFKVNMYGEYFIKYVATDAQGNTRVELIRILVDQQNLDAEQILNEFQPIVNVGGNEREVGINVVTDKALETSYVQYKPESETTWDNAEVVQAGVSYFQVAYGDTFAKSNYRVLAAHEANVTELGLGTTYDYRYGMSPTGPWSDSYSFRTAPASEEAVMYVMGDLGVPDRNPESFQLFNHMLDVLQEKNSNGQTVIQVGDLVENGGNMYAWDDVFNNIYNNDMGLVSAHIVGDREHATERKFGPYSGFFNLPKNGEGTYRETNYSFDYGDMHIAVLNSVVDFDKQLSWLEKDLRATDKKWKIVMGHYPYYGGQSGDETGMDMMRVKLSQAFERLGVSLYIGGHDHVYKRTTIRNGVKNISEEAMNLGTTFVTVGSSGPTFNDNKSFDWDHIVYDENKQTGVVLESNDQSLTLKAYNSDGVEIDSFTIKQPANYMNLTSAIIENNVLKGVGVLNYPSSPERVTVIGEKRDHTGEQLLETVIQEATLEHLGREQIILFDNPLAFGDEHTIVVKVVNNPIDQEPLTEPLIAKEGMLGDGSEGNPYQIKSASGLNKMHEFPDKHFILAQDIDGKGMFFEAIGASGTPFTGTFDGQGHTITGVIVSSGGAGLFAINEGTIRNVGITHADIDVRRSNIGILVDQNDGIVEYAYSTGSIRGNSTVGGLVGYSNGIVRNSYSTARVHARGKQAGGLIGITNRGSTTEQVYATGSVIAEESNAGGISGYGYNHTVIRNSMALNPSIVTGTASNRIVGRVLAGETATLVNNYADENMFVSSENVTVNDPNNEKGQGVGAETFTKPSFFMETLGWDFDSIWIWNEDAKRPLLQSNLEKINEDHIPKPKLDRNEDGYYIIRSIQELKTISEFPNENYILENDLDFEGKLFEPLFKATPFLGTFDGNNKSLTNFTSEYGGLFHLNGGIIKNIAMVDASVTGGSNIGILVNTNNGTVENSYVTGTIEGSSTVGGLAGYSNGIVRNSYSTADVTAQLNQAGGLIGITNSGSLTENVYASGAVQALRSNAGGVTGYGYNDTVVRNVIALNPSVVTPTMANRVVGRVLAGHTATLQNNYAFDGMIVDKEGESIAAADNRKGLGLSQQQVEDPNTYTDRLNWDVESVWMWNDALKRPVLISNPEEASEPVVPLERNEAGYYRIKSIADLNVMEAFPAEKYILDNDLDYAGQPAESLFKDVSFTGVLDGGGKKIVNFNSSSGGLVHLNGGVIKNIAMIDAGVTGGSRIGILVNTNNGEIENSLSTGSITGSSTVGGLVGYSNGIVRNSYSTADVTAQVSQAGGLIGITNSGSLTENVYASGTVRAMTSNAGGVTGYGYNDTVVKNVIALDPSVTAPTMANRVMGRVLAGHTATLENNYAFDGMIVDKEGVAEGALTTLKGLGLSETEIETPSTYTDRLGWDFNAIWRWDGMGKRPVLQSVSEGNEEEPVSLIGLELEGLLTLVVGESDQTVTTAVYSDGSREKVEINVIYTSSDPSIAEISSSGVVTAISEGTVLITAEYDGLTSSYELTLTQKQIDMEGVNQDMDSEVTLPFTSSAFVGTGEWWSANQPHPPAFMAEEAMRSFERHHMY				NA	NA	NA	NA	NA
AK002_06243	1107			hypothetical protein	ATGACCGTTCAATCGAAAGAGATAAACTTAGATCAACTGGGCGGAACGATATACCCGGAGACAACAAATGGCGAAGAGTTGAGATGGCATTCTCCGCTGGAAGCGCCCTTTCACATCGCGGGCTTCCCTTGGCTTGCGCAGGATGGGATATACAGACGCCTGCCCTTGGCTTCCGAGGCGGTCTTGCCTCCCGCGGTTGATACGCTTGCTTATTGTACGGCAGGCGGGCAAATTCGCTTTCGCACCAATTCTTCAAGGTTGGTCATAAGGGTACGTCTTGCCGGACCGGCCAATATGTATCATATGCCGCCTACAGGGCAGTGCGGGGTTGACTGCTATCTTGGAGAGCCGGGAGAGCAGAGCTTTATCACCACGGCTAAATTCAAGCCAACGGAACGAGAATATGAATCACAGCTTTATCAGTGGGATACCAAAAAAGATGTGGCCGTCACCTTAAACTTGCCCCTCTATCAAGGGGTAGAAGAGGTGTGGATCGGTGTAGATAAGGATGCGGTCATAAGCGAAGCACCCGCCTATGCAAGCAGTAGACCCGTCATTATATATGGAACTTCGATTACGCAAGGGGGATGTGCCTCCCGGCCGGGTATGGCCTATTCTAATATTCTCAGCCGTATGATCCCGGTGGAGTTCGTCAATCTTGGTTTCTCGGGGAGTGGAAAGGGCGAGCCGGAGCTCGCGCATATCATGTCGGAAATCGATGATCCGGCGCTGTTCATTCTTGATTATGAAGGAAATACGGGAGAGGCCGGAAACATCGCACGAACGCTGCCTGCTTTCATCCAAATTTTGAGAGAGCGGCATCCTGAAGTTCCTATATTAGTAGTCTCTAGGATTTACACTGCCGAAGACCAGTTCTATACAGAGAGAAGGGGGCTTCATGATCGCCGCAGGCTGATTCAGATCGAGAATGTGGAACAGAGACAGACAGAAGGAGACCGTAATATCCATTTCGTTGACGGCTTTAAGCTGCTAGGCGATGATTTCATCAATGATTGTACGGTTGACGGAACGCATCCAACGGACCTCGGATTTTTGCGCATGGCACAATCGCTTGCACCTATCATTAAGCGATTGTTGCGACTGTGA	MTVQSKEINLDQLGGTIYPETTNGEELRWHSPLEAPFHIAGFPWLAQDGIYRRLPLASEAVLPPAVDTLAYCTAGGQIRFRTNSSRLVIRVRLAGPANMYHMPPTGQCGVDCYLGEPGEQSFITTAKFKPTEREYESQLYQWDTKKDVAVTLNLPLYQGVEEVWIGVDKDAVISEAPAYASSRPVIIYGTSITQGGCASRPGMAYSNILSRMIPVEFVNLGFSGSGKGEPELAHIMSEIDDPALFILDYEGNTGEAGNIARTLPAFIQILRERHPEVPILVVSRIYTAEDQFYTERRGLHDRRRLIQIENVEQRQTEGDRNIHFVDGFKLLGDDFINDCTVDGTHPTDLGFLRMAQSLAPIIKRLLRL				NA	NA	NA	NA	NA
AK002_06244	765	ycsE_2		5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YcsE	ATGAATACTGCAGAGCAAGTGAAGGCGAAATATAAGCTGATTGCATTGGATCTGGACGGGACGCTTCTGACGGATGAAAAGCACATTACGGAAGAGACCAAAAAGTGGCTTCAATATGCAGTAGATCACGGTGTTAAAGTCATGTTCTCCACCGGGAGAGGCTTGCAAACTGCCAAGGGCTTCTGGGATGAGCTTGGGCTCGATTCCCCCATGGTGCTGCTCAATGGAGCAGAGATTTGGGAGGGACCGGGCAGGCTTAAAAAGCGAGTCTTCCTCCCTCGGGACACGGTCCGCGATATGCACGCCATTGCTGCCAAGCGGGGCGAGTGGTACTGGGGCTACAGCGTGGAAAGCTTGACGGGCGACAAGGATTGGACGCCTGAGATGTTCGAACGGGATTGGATGAAATTCGGCATTGGCAGCAATGATCAACAGAGTCTCGCGGAAATTAAGGAAGAGCTGCTCAGTTGGGGCACGCTCGAGGTTACCCATTCGGCTCCTACTAATATGGAGATCTCAGTTAAAGGCATTACAAAGGAAAGCGGAGTGTGCGAGGTTTGTCAGACGCTGGGCTTCTCGATGTCCGATGTCATTGCTATGGGAGACAGTGATAATGACGCGAAGCTCCTGAAGGCGGCAGGTCTCGGTGTGGCGATGGCCAACGGTGAAGAGCATATCAAATCCATAGCGGACGTAATCACGGCTACCAACAACGAGAACGGCGTTGCTCAGGCGATTCGGAAGTATGTATTCCAGATGGAGTAA	MNTAEQVKAKYKLIALDLDGTLLTDEKHITEETKKWLQYAVDHGVKVMFSTGRGLQTAKGFWDELGLDSPMVLLNGAEIWEGPGRLKKRVFLPRDTVRDMHAIAAKRGEWYWGYSVESLTGDKDWTPEMFERDWMKFGIGSNDQQSLAEIKEELLSWGTLEVTHSAPTNMEISVKGITKESGVCEVCQTLGFSMSDVIAMGDSDNDAKLLKAAGLGVAMANGEEHIKSIADVITATNNENGVAQAIRKYVFQME	PGPT0008595_794	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
AK002_06245	837	ngcG_12	COG0395	Diacetylchitobiose uptake system permease protein NgcG	TTGAAGGAAAAACGAACGTTAATGGACATTGTGTGGCGTGTGGTGCTGTATGCCTGGTCGCTGACTATATTATTTCCTTTAATCTGGGTTATTTATGAATCGTTAAAAAGCAATCCTGAGTTTTTTAAAGATATATGGGCGCTGCCTGCGGAACTAAGATGGCAGAATTATTCGAAGGCTTGGAATCAATACGGTTTTGGGCAATCACTCTTAAATACCCTTTATTATGTTGGCGGAAGTCTGGTGCTTGGACTGTTCTTCACGACAATTAACGCCTATGCGCTTACTCGAATGCAGTTCAAAGGAAGAAAATTGATTTGGGGCTTGATTATGTTGTCCCTGTTCCTGCCGGGCATCAATGCGCTTGTACCCCAGTATGTCATTATGCGGGAACTGAGTTTGACCAATAGCTTGACCGGATTAATTCTTCTGTCCAGTCTGGGTGAAAGCGTGTTCTATCTTATGCTGCTCGGAGGGTTTATGAGCTCTTTGCCGATGGAGCTTGAGGAGAGCGCAACGATGGATGGCGCTACATTATTTCAAAAGTTTTGGCGTGTTATCGTTCCGTTGTCTACACCGGGAATTGTAACCGTTGGCGTATTCAAGTTCCTAGGGTACTATAACAATTTCTTAGCGCCGTTCATCTATTTGAGCGATCCCAAAAAATATCCTATTGCGGTGCAAATGTATTCTGCAAACAAGCAAATGGAGTTTACTGCGGATTGGGTGACTTTGTTTGCCGGTGTAACCATTGCGATGGTACCGTCCATTATTATTTATATCCTATTCCAAAAACTTCTGATGGAAGGCGCGACCATGGGGGCGGTGAAGGGATGA	MKEKRTLMDIVWRVVLYAWSLTILFPLIWVIYESLKSNPEFFKDIWALPAELRWQNYSKAWNQYGFGQSLLNTLYYVGGSLVLGLFFTTINAYALTRMQFKGRKLIWGLIMLSLFLPGINALVPQYVIMRELSLTNSLTGLILLSSLGESVFYLMLLGGFMSSLPMELEESATMDGATLFQKFWRVIVPLSTPGIVTVGVFKFLGYYNNFLAPFIYLSDPKKYPIAVQMYSANKQMEFTADWVTLFAGVTIAMVPSIIIYILFQKLLMEGATMGAVKG	PGPT0016425_267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016425-ngcG|ABC_NGC_P1-K10202	NA	NA
AK002_06246	951	ngcF_6	COG1175	Diacetylchitobiose uptake system permease protein NgcF	GTGTCTGATTCAACCGTTGTGACGACACTAAAGACCCCTATGCGCAAGCGCTTGGGTCTAGACAAAGCGAATACGCAGAAGTGGATATTTCTGTTCATAGCCATCGTGCCTCCCTTTGGCGGCTATTTGCTCTTTACGTTGTTTCCGAACATTTTATCCATTTATTATGCGATGCTCAATTGGGATGGGTTTACGGATGCAACGTTTGTCGGGCTGTCCAATTTCGTCACCGCATTCCAAGATAAATATGTGTGGCGTGCGCTTACCCACAACTTGATTTTTATGATAACCGTGCCTTTCTTTGTTATTGTCATCTCCCTGCTCCTTGCCTATTTAATTACCAATAAAACGTATAAAGAAAATAAATTTTTGAAGGTATTGTTTTTCTTTCCGAACGTGTTATCTACGGTCGTAGTCGCTCTCCTCTGGGCCTTCATTTATGACGGATCGTACGGTTTGCTGAATGGGATTCTAAAGTTCGTCGGAATTGATATGGGGAATTTCTATTGGCTGGGCAATGAAAGCACGGCGCTTGCCTCCATTATCCCGGCATGGGTTTGGGGCGGTGTCGGCTTGTACGTCATTATCTTTGCCAATGCGATGCTGGGAATTCCGAAGTCACTGTACGAGGCGGCGATTCTTGAAGGAGCCGGACATATGACACGCTTGTTTAAAATTACAATGCCGCTCGTTACGCCCATTATCCGCGTCAGCGCTTTATTCCTCGTCGTCGGCACGATGAAGGGCTTCGAAATCATCCTCATTATGACGAATGGGGGGCCATTCGGGTCGACGGATGTTATCGGCCTCTACATGTTTAACTTAGCTTTTGGCGTAGAGTATCGAAATTACGGCTACGCTTCCGCAGTCGGTATGATTCTGTTCGTCATTCTAGTAACAGCCAAGCTGTTAATCGATAAATTCGTGCCGAACAAAGGCTACGAGTATTAG	MSDSTVVTTLKTPMRKRLGLDKANTQKWIFLFIAIVPPFGGYLLFTLFPNILSIYYAMLNWDGFTDATFVGLSNFVTAFQDKYVWRALTHNLIFMITVPFFVIVISLLLAYLITNKTYKENKFLKVLFFFPNVLSTVVVALLWAFIYDGSYGLLNGILKFVGIDMGNFYWLGNESTALASIIPAWVWGGVGLYVIIFANAMLGIPKSLYEAAILEGAGHMTRLFKITMPLVTPIIRVSALFLVVGTMKGFEIILIMTNGGPFGSTDVIGLYMFNLAFGVEYRNYGYASAVGMILFVILVTAKLLIDKFVPNKGYEY	PGPT0016420_46	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016420-ngcF|ABC_NGC_P-K10201	NA	NA
AK002_06247	1473			hypothetical protein	ATGTTTAATGGGAAAATGAAACGATTCATGAGCACGGGTGTTGCAGCGGCATTATCTTTAGCCATGCTGGCTGGTTGCGGTGGAAACAGCGGAAAGAACGGGGCTAGTCCAAGTACTACTCCTGCTGGTTCGGATAAGCCGGGTGTATCTGCAGAAGTCGAAGTTTATGAGAATGGATTGCCGAAGAATGAGGAAGTAACGCTAAAGGTAGGTTTCTTTGTAGGAGGATATGGCCGGGAGTGGTTCGATTATGCAGTTGAATCGTTCACAGCCAAGTATCCCAATGTCAAAGTAGACATCACCGCTTCAGCTGATATGAAGACGATTCTTTCTACAAAAATCTCTGCAGGCAATGATAATGACATGTTTGATCTATTCAATACAGACCCGTCTGGAGGTATCATAGGGCTCGCTGAAGCCGGAAAGCTTGAACCCATGGATGACATTTGGGAATTCCCTCTTCCAGACGTACCGGACAAAAAGGTCAAGGATCTTATGATGCCAGGCATGTACGAGTCAACACCGCTGATCAATGGGAAAAGATATGAATTTACGACGGCGAGCAGCTTTGGCGGGTTGTTTTTTAACAAAAAGCTATTCGAGGAGCATGGCTGGAACCAAAACCCGAACACATGGGACGAATTTAAAACGCTTCTAGCAGACATTAAAGCGGATGGCATTGCTCCAATTACGTTCCCGGGCATTCATCCAAGCTACCATAACTGGGCTTTCGGAACGGCCAAAAATTTTGAGCTGGCTGATATCAATGGCCATGTCGATGAATTTATCGAGGATTATAGAACTTATGGTCTGCCGCAATACACAAATCCAGAGACGGTTGAAACCTGGACGCGCTTCTATGAGCTTGGCAAGCTAGGATATTTTGCAGAAGGACTCCCGGCATTGAACCATACGCAATCGCAAATGCAGGTTATTCAGGGGCAAGCTGCGATGGTATCGACAGGGACGCATGTCGAGAATGAGATGAAGGAAGCAACGCCTGAGGACTTCGACTGGGGCTTCATGGCTGTTCCTTTCAGAGATAACACGGATCAAACGCTTTGGATTCGAAGCGGAACTTCAAACTTCAATTATATCTGGGCAGCTAAGCCGGAACTGAACAAAAAGTGGGCCAAAGAATTGATCGCATGGCTGGTTACGCTGGAAAATCAACAATTTGCAGCCGAAAAAGCAGGTGCTTTGCCAATGCGCAAGGATTTGATGGAGGATCCTTCCAGGGCGGCTAACCTTTCCAGCTCTGCTCAATCTGTTCTGAAGTACATTGCAGACAATAATGCTCAGACTTTTAAAGCAAGCCGGTCTATCAACATTTCCGATCCGAATCTTGCTCAAGCAGAAAAATTAATGAATGAGAATATTGTGAAATTTGCTATGGGTATGCAGGATCCGAAACCGATTCTGGAGCAAGCCGAAGAGCTGCTGAAGAAAGCTCTAGAGGCTGAGAAGAAATAA	MFNGKMKRFMSTGVAAALSLAMLAGCGGNSGKNGASPSTTPAGSDKPGVSAEVEVYENGLPKNEEVTLKVGFFVGGYGREWFDYAVESFTAKYPNVKVDITASADMKTILSTKISAGNDNDMFDLFNTDPSGGIIGLAEAGKLEPMDDIWEFPLPDVPDKKVKDLMMPGMYESTPLINGKRYEFTTASSFGGLFFNKKLFEEHGWNQNPNTWDEFKTLLADIKADGIAPITFPGIHPSYHNWAFGTAKNFELADINGHVDEFIEDYRTYGLPQYTNPETVETWTRFYELGKLGYFAEGLPALNHTQSQMQVIQGQAAMVSTGTHVENEMKEATPEDFDWGFMAVPFRDNTDQTLWIRSGTSNFNYIWAAKPELNKKWAKELIAWLVTLENQQFAAEKAGALPMRKDLMEDPSRAANLSSSAQSVLKYIADNNAQTFKASRSINISDPNLAQAEKLMNENIVKFAMGMQDPKPILEQAEELLKKALEAEKK	PGPT0016415_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016415-ngcE|ABC_NGC_S-K10200	NA	NA
AK002_06248	585			hypothetical protein	ATGGTATGGATTGGATGGATAATTGCAATAGCAGCGATGACGGTGCTGACTTACATATGCTGGCTGCATGCAGTTATGTTACAACCTGGTAAAGCAGATGCACTTATTGTACTTGGCTATGTATCTAAAGACGGCCGAATACACCCTTTGCTTAAAGAAAGACTGGATGAAGCTTACAAACTATTTCGGCAGTATGGGCACAAATATATTATTGTATCGGGGGGAGCGGTTGGTTCACGTCGCTCGGAAGCGGAGCTGATGGAGAAGTACCTGGTTGAGAAGGGCGTCCCAGCAAAAAGAGTATTAAAAGAAGACAAGTCAAACAACACCGTTCAAAATTTGATCTTTAGCAAGCAATTGATGGAGCAGTACCATCTAAAATCTTTTGTTATCATAACCAATTTATTTCATGTCCGCCGCACGAAGTATATTATGCATCGTCTTGGCATAAAAGGCGGATTCTGCGCTAATCGAAGTCTTAGAAGCATCGTGGGATTCCAGCTTAAATTAACATTTCTGGAGATTCGGGCATTTCGATTAACTCTCCCCATTATTAAGAGGGTCATCAATGATCAAATCGATTGA	MVWIGWIIAIAAMTVLTYICWLHAVMLQPGKADALIVLGYVSKDGRIHPLLKERLDEAYKLFRQYGHKYIIVSGGAVGSRRSEAELMEKYLVEKGVPAKRVLKEDKSNNTVQNLIFSKQLMEQYHLKSFVIITNLFHVRRTKYIMHRLGIKGGFCANRSLRSIVGFQLKLTFLEIRAFRLTLPIIKRVINDQID				NA	NA	NA	NA	NA
AK002_06249	1176	nagC_5	COG1940	N-acetylglucosamine repressor	GTGAGTGATTCTGTTAAACAAACCAGCCATATGTTATTAAAATCAATAAATCAGCAGAAGGTTCTTTTTCTCATTTATTCAGAGGGGCCGATCTCTCGCGTAGAGCTTGCGGAAAAGACTGGGCTAAGCAGACAAACGGTAACCAATATCGTCAATCGCCTGTTGAAGGAAAAAATAATCGTGACAGGGGAGCTTATCGACTTGGAGGCAGGCAGCGGAAGGAAAAGAGTCGGCCTTCATATCAACAGCGGCCATTTTTATGCCATCGGGCTTGAGCTCGCCGGCAAATACATTCGCGGAAAAGTGTTCAACCTGCGTCAAGAAGCTGTCGCATCCGCAGAACGCACGAGCAACAAATATGGTTCTATAGATGTGCTGATGCAGCTGTTGCATGAAGTTATCGATGAGCTGCTCACCCAGGTGCCCAACACCTCCAAAGTAAAAGGGATCGGAATCAGTATGCAGGGCCTGGTCGATTCTCAGCATGGCATCGTTCTGCGGACACCCGGCATAGGCGTTCATCGCCTGCCGCTCAAGCAGCTGCTTGAAGACAAATATGTCATACCCGTGTATATCGAGAACGATGTCAATCTTCTCTCTGTCAACGAGAATATGAACGGCTGCTTGAAGGATTCCAATAACAATATCACCATCAAGTTTGATTATGGTACAGGCGGCGCGATCGTCCATGATAAACAAATTATTGCAGGATCAAGCTTTGTTGCAGGTGAATTCGGGCATTATAAAGGCTTCTATGGAGAAGATGCCTATCCATGCCATTGCGGCAGATCCGGATGCTTAACGACGCTGGCTTCCAGCAGCGGACTTAGTGTCTCCATCAAATGCACACTAGAGGAGTTCGCAGAAGGCATAAGAACAGGAGATCCTAAGTTCCTTGGTTTATACGAAAAAATTGTTGATGGCATCGCGATCGCCGTTACCAATATCATTACATTTATAAATCCAGACAGTCTGCTTATAACGGGCCGAGTCATTCATACCATCAGTCCCGAAATGTTCAATGAGATTAGAGCCAGGGTGATGCACCAGTTGCCTGTAACAGTTAATAACGTACAATTGATCTATCTTCATAACAAACCGGATGAAACCAAGCTTGCTGCCGGGTTAGTTATTAAACGCGCATTTGAAATACCGCTGGATACTTTATCTCTTTAA	MSDSVKQTSHMLLKSINQQKVLFLIYSEGPISRVELAEKTGLSRQTVTNIVNRLLKEKIIVTGELIDLEAGSGRKRVGLHINSGHFYAIGLELAGKYIRGKVFNLRQEAVASAERTSNKYGSIDVLMQLLHEVIDELLTQVPNTSKVKGIGISMQGLVDSQHGIVLRTPGIGVHRLPLKQLLEDKYVIPVYIENDVNLLSVNENMNGCLKDSNNNITIKFDYGTGGAIVHDKQIIAGSSFVAGEFGHYKGFYGEDAYPCHCGRSGCLTTLASSSGLSVSIKCTLEEFAEGIRTGDPKFLGLYEKIVDGIAIAVTNIITFINPDSLLITGRVIHTISPEMFNEIRARVMHQLPVTVNNVQLIYLHNKPDETKLAAGLVIKRAFEIPLDTLSL	PGPT0017991_426	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017991-mlc|dgsA|nagC_like-K15545	NA	NA
AK002_06250	777			hypothetical protein	ATGTTGAGAACAGAATCGCTGTTACAGCGGCTGGGCGAGATCGGCATGTCGCTCGAACGCAAAGGGGGAGCTCTTTTATTATTAGGAGTCGGTTCCGTTGGGGTCGAGACAGAACGGTTGGATGAATATTCGGATTTAGACTTCTTTGTCGTTGTAAAGCCCGGAGAGAAAAACAGATATATAGACCGGTTGGATTGGCTCGAGGACGTACACCCTCTTGCCTATTCGTTTAAGAATTCGGATATTGGCTACAAAGTACTGTTCGAGGACGGTATTTTCGGGGAATATGCTGTATTCGAGGAATGGGAGCTGGCGAACGCCACCTATACGGAAGGCCGGGTCATTTGGAAGGACCCCATGTATGCCAATACGGCAATCGCCAAACCTTCCAACCCGGTCCCCAGCCTAAAAGTGGATTCCTTGGACTTTCCTTTGAATGAAGCCTTAACAAATCTATACGTGGGGCTCGGTCGCTATGCTAGGGGAGAGCGTCTATCCGCGGCGAGGTTTGTTCAAGGATACGCAGTGGACAGGATTCTATCCGTGCTCCATCTGCTGGAGCAAGAGGTGGACTACTATCCCGACCCATTCGGCAACGAGAGGCGGTTAGAGAGGAGATACCCCCGTTTTGCGGAAATCATTGGAGACATGATACAGGGATACGATCATGTTCCCGAATCGGCACTTCGCATTTTAAATTTCATAGAAGAAGTGTATCCCGTCAATCGAAGGTTAAGCGATGAGATACGACGATTGGCTAATCTAACGCTGAGTTGA	MLRTESLLQRLGEIGMSLERKGGALLLLGVGSVGVETERLDEYSDLDFFVVVKPGEKNRYIDRLDWLEDVHPLAYSFKNSDIGYKVLFEDGIFGEYAVFEEWELANATYTEGRVIWKDPMYANTAIAKPSNPVPSLKVDSLDFPLNEALTNLYVGLGRYARGERLSAARFVQGYAVDRILSVLHLLEQEVDYYPDPFGNERRLERRYPRFAEIIGDMIQGYDHVPESALRILNFIEEVYPVNRRLSDEIRRLANLTLS	PGPT0027995_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027995-lnuB_F|lin-K18236	NA	NA
AK002_06251	552	ybiA	COG3236	N-glycosidase YbiA	ATGATTTACAATCTCGATGAGCTAAGAAAAGCTTATAACGAAGGAAAAACGTTCAAGTATATATTCTTTTGGGGCCATACGCCGCCTAAGGACGGGAGCGTCGACAAAAGCTGCTTCAGCCAGTGGTGGATGTGCCCGTTCACGGTAGAGGGAACGGAGTATTCCTGTGCCGAGCAGTTTATGATGGCCGAGAAGGCAAGGCTGTTCGGCGACAACGAAATGCTGGAGTCGATCCTTACGGCTAAGCATCCCAAGGTGATGAAGGCTTATGGGCGCGCGGTCCGAAACTTTGACAAGGATACTTGGGACAAGGAATGCTACGGCATCGTCAAAAGAGCCAGCTTGGCCAAGTTTTCGCAGAATCCGGAGCTCGGCGATTATCTCAAGTCGACGAAGAACCGCATCCTCGTCGAAGCCAGCCCGCGGGACCGCATATGGGGGATCGGCATGGGCCAGTCCAATCCGGATGCGGAGAATCCCGTGAAATGGCGGGGCCGAAACCTGCTGGGGTTCGCGCTGACCGAAGCGCGGGACGAATTGCTGCAGGGATAG	MIYNLDELRKAYNEGKTFKYIFFWGHTPPKDGSVDKSCFSQWWMCPFTVEGTEYSCAEQFMMAEKARLFGDNEMLESILTAKHPKVMKAYGRAVRNFDKDTWDKECYGIVKRASLAKFSQNPELGDYLKSTKNRILVEASPRDRIWGIGMGQSNPDAENPVKWRGRNLLGFALTEARDELLQG				NA	NA	NA	NA	NA
AK002_06252	885			hypothetical protein	ATGGATTTGTTGGATCGGAACGGGCTTACGGAACGCGAATTTTTGGAGCAGTACCGGGCAGGAGATTACGAGCGGCCTTCGGTGGCAGCCGATATGGTGATCTTCACGGTTACGGATGAGGAAGCTGACAGTTATCGGAAATTACCCGAAAAAGAGCTCCGCATCCTGCTCATCCGCCGGGGAGGTCACCCCTTCCTGGGTAAATGGGCGCTGCCTGGCGGCTTCGTCCAGCCGAGCGAGACGACTGAGCAGGCCGCTGCAAGGGAATTGCGTGAGGAAACCGGCGTGGACGACGTTTATTTGGAGCAGCTATATACGTTCAGCGATATCGGGCGAGATCCCCGAACCTGGGTGATGAGCTGCAGCTACATGGCTCTGATCAACAGCGACAAGTTGGAGCTTAGAGCGGGAGACGATGCGGCCGACGCTTCTTGGTTCAAGGTTTCCTATCGGCTGCTGCGGGAGCAGAAAGAGTTGATGGAGGACGGATACGTCAAGACGCTGGAGTATGAACTCAAGCTAAGCGGTGAAGAGGAGCTTTCGGCGGTCGTGGCCAGAACGTTGACCGTGAAGACGACATCGACTAGCACGGAGTATAAGATCGTATCGAATGACGGATTGGCCTTCGACCATGCAAAGATTATAGCATGCGCGATCGAGCGGCTGCGGGGAAAAGTGAATTATACCGATATTGCGCTGCACTTAATGCCAAAGCTTTTTACCTTGACGGAACTGCAGCAGGTTTATGAGGTCATTATGGATAAAGAGTTATTGAAGGCGGCCTTCCGGCGCAAGGTGGCCGATCTCGTGGCGGAGACCGATCATTACACCGAAAATGCTGGACATCGGCCATCCCGGTTGTATCGGAGAAAACTGGAGGATTAA	MDLLDRNGLTEREFLEQYRAGDYERPSVAADMVIFTVTDEEADSYRKLPEKELRILLIRRGGHPFLGKWALPGGFVQPSETTEQAAARELREETGVDDVYLEQLYTFSDIGRDPRTWVMSCSYMALINSDKLELRAGDDAADASWFKVSYRLLREQKELMEDGYVKTLEYELKLSGEEELSAVVARTLTVKTTSTSTEYKIVSNDGLAFDHAKIIACAIERLRGKVNYTDIALHLMPKLFTLTELQQVYEVIMDKELLKAAFRRKVADLVAETDHYTENAGHRPSRLYRRKLED				NA	NA	NA	NA	NA
AK002_06253	1011	nadR	COG1056	Trifunctional NAD biosynthesis/regulator protein NadR	ATGAAAACGCTCGGATTAACGCTGGGGAAGTTTGCCCCGCTGCATAAAGGGCATCAGTTCATGATCGAAACGGCGCTGCAAGAGGTCGATGAGTTGATCGTGGTCATTTATGAGACGACGGTCACTCCGATCCCGCTTCATATTCGGGCCAATTGGATTCGGGGGCTATACCCGGCAGTCCGGGTCATTGAAGCTTGGGACGGACCAGACGGGTATTCCGATGACAGAGAGCATGAGATTCGGGAAGAACGGTATATCCTCCGTTTACTGAACGGCGAGCAAGTCACGCATTTTTACTCGAGCGAATTTTACGGCAGGCATATGAGTCTCGCTTTGGGCTCGGTCGACCGGCGGGTCGATGAAGCCCGGGAGCGGGTTCCAATCTCTGCAACGATGATCCGTTCCGACCCATATAAATACAGGGAGTTCATAAGTGATATCGTGTACCGGGACTTAATCACGAAGGTGGTATTTGTCGGGGCGATGTCGACGGGGAAGTCGACGATCACCGAAGCGCTCGCAAGACGGTATAACACGACCTACGCGAGCGAATACGGGCGCGATTACTGGACCGAGCATCAGGTGGACCGCAGAATCGGCCTAGAGGCGTTCGATGAAATCGCAGTGGGTCATATCGAGCGTGAAGAGCAGGCTTTGCTTGCGGCGAATCGATTCCTGTTCGTTGATACCAATGCGATTACGACATATATGTTCTCCGTGGATTACCACGGCCGGGTCCCGGAGCTATTGACCCGAATTGCTCTGGAGAACGCGCAGCGCTACGATCTGTTCTTCTTGTGCGACGACGATATTCCTTACGACGATACGTGGGATCGAAGCGGGGATCAGAAGCGGCATGTTTTTCATAAACAGATCATCGCGGATTTGAAGGAGCGGCGAATTCCCTACATTACGCTGCGGGGGAGCTTGGAGGAACGCATGCGCAAGGTAGACGAGGTGCTGGCAAAGTTCGAGCCCTATCGAAACTATTTCGGGGAGCTGAACGGTTAG	MKTLGLTLGKFAPLHKGHQFMIETALQEVDELIVVIYETTVTPIPLHIRANWIRGLYPAVRVIEAWDGPDGYSDDREHEIREERYILRLLNGEQVTHFYSSEFYGRHMSLALGSVDRRVDEARERVPISATMIRSDPYKYREFISDIVYRDLITKVVFVGAMSTGKSTITEALARRYNTTYASEYGRDYWTEHQVDRRIGLEAFDEIAVGHIEREEQALLAANRFLFVDTNAITTYMFSVDYHGRVPELLTRIALENAQRYDLFFLCDDDIPYDDTWDRSGDQKRHVFHKQIIADLKERRIPYITLRGSLEERMRKVDEVLAKFEPYRNYFGELNG	PGPT0013390_555	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013390-nadR-K06211	NA	NA
AK002_06254	678	pnuC	COG3201	Nicotinamide riboside transporter PnuC	GTGAAGAAGGTTGCGAGTGGCTGGAACCTGTTCGAAATCGCGTGGTTGGCGCTGTTTACCTCGATTGCTGTCGGGTTTACGGTGATTTCAAAGGACTCTTTATTCGGATTTACCGTTTTTATTACCGGGGTGCTATGCGTGGTGCTTGCGGCGAAGGGCAACCTGATGAGCTATGTTTTCGGCATGTACAATACCGTCGGTTACGCTTATCTCGCCTATATTAACGGGTTGTTTGGAGAGGTCATGCTGAATCTGCTATTCTTCGTTCCGATGAACGTCATTGGCTTCTACATGTGGAAAAATAACCGCCAAGACGGCAAGCTGATCATGCGTCAAATGGAGCTTAGAGGTCTGCTTCTCGTTGGGGCGGTCTGCGTATTAGGCTGTTTGCTGCTGGGATATGGGCTTTCGTTCATCCCGGGACAGAACTCGCCTTACATCGATGCGACTACGACGGTGCTGTCCGTTGTAGCCACCTTCTTAATGGTCCGCAGATTCAAGGAGCAATGGCTGGTCTATATTGTATTGAATTTGTTTACGGTGCTGCTGTGGACGATTCGATTGCTGGAGGGCAGCAGCGAAGGCATGCTGATGATCGTCATGTGGTGCGCGTATTTGGTCAATGCGGTATACGGCTATTACAATTGGAACAAAGGGGCCAGGGAGGTGGCGGCATGA	MKKVASGWNLFEIAWLALFTSIAVGFTVISKDSLFGFTVFITGVLCVVLAAKGNLMSYVFGMYNTVGYAYLAYINGLFGEVMLNLLFFVPMNVIGFYMWKNNRQDGKLIMRQMELRGLLLVGAVCVLGCLLLGYGLSFIPGQNSPYIDATTTVLSVVATFLMVRRFKEQWLVYIVLNLFTVLLWTIRLLEGSSEGMLMIVMWCAYLVNAVYGYYNWNKGAREVAA				NA	NA	NA	NA	NA
AK002_06255	1107			hypothetical protein	TTGGAAGTAAAATCATCTCACTATTTTGCCCACGGCAACACTGCACGCGGGGCTCATTTCTTGTATAACTCCGCATTTGATGGGCTGAACAAGATTTTTGTCCTTACGGGGCCCCAAGGCACGGGGAAATCGAAGGTCATTCAAAGCTTGGCGGATAGCTTGCTGGATCAAGGCTTGCATGTGCAATGCTTCCACTCCCCTCTCCGTCCCGACGAATTGAATGGCATCATTTGTACGGAATTGAAGGTTGGTATTGTCGACGGGCGGGTCTGCAAGGGGATTTCGGATAGCCGGGCCGGGGAAGTCGTCTTTATCGATTTTGAGGAAGCATTCGATAACAGCCTTATTTCAACGGGAGACTTCATCACGATAGAAGAACTTAGAGGCAAGCTTGAGGACACTTATTCAAATGTGTATGAAACGTTCGCAACGGCACTACGGATTCATGACGAGTGGGAAAAATTTTATATCGATAACATGGATTTCTCGAAGGCCGACCAGATTGCGCAGGAGTTGGTTCAAGAATTATACGCCGGTCATGAAAGCGATACGCCAACCGCTCCGCGTCACTTATTTTTTGGAGCTGCGACTCCGAGGGGGGCATTCGATTTTATTCAAAGCTTGACCGCTCAGCTGGAAAGACGGATTTTCATCAAAGGAAGGGCGGGATCCGGCAAATCGACACTGCTGAAAAAGCTTGCCTCCGCTGCCGAACAGAAAGGAATCGACGTTCAAGTGTTTCATTGCGGCTTTGATCCGAACAGTTTGGATATGTTGATATTCCCGGAGCTTCGAACAGCGATCTTCGACAGTACCGCTCCGCATGAATACTTTCCCGATCGGGACGGGGATGAGATCCTAGATATGTATACACGGACTATAGCTCCTGGAACCGATGAAGCCCACGCTGCCGAAATAGCCGGTATCAAAGCACGCTATTCGGCAAAAATGAAAGAGGCCACCTCCCATCTGGCAGAAGCCGAAGCCATCGATTCTCAAATTAAGGCCTACTATGTTGCGGCCACCGATTTTTCGATCGTAGAGAAACTTCACCTGCAATTACAGTCCGAATTGAATGAACTGATCGGCTCCATTCAGCTTTCATAG	MEVKSSHYFAHGNTARGAHFLYNSAFDGLNKIFVLTGPQGTGKSKVIQSLADSLLDQGLHVQCFHSPLRPDELNGIICTELKVGIVDGRVCKGISDSRAGEVVFIDFEEAFDNSLISTGDFITIEELRGKLEDTYSNVYETFATALRIHDEWEKFYIDNMDFSKADQIAQELVQELYAGHESDTPTAPRHLFFGAATPRGAFDFIQSLTAQLERRIFIKGRAGSGKSTLLKKLASAAEQKGIDVQVFHCGFDPNSLDMLIFPELRTAIFDSTAPHEYFPDRDGDEILDMYTRTIAPGTDEAHAAEIAGIKARYSAKMKEATSHLAEAEAIDSQIKAYYVAATDFSIVEKLHLQLQSELNELIGSIQLS				NA	NA	NA	NA	NA
AK002_06256	783		COG1028	Glucose 1-dehydrogenase	ATGTCGACAAATGAAGGAAGATTCAGTGGTAAGGTTGCTTTGATTACAGGGGCAAGTCGTGGGATGGGGGCTGAAATAGCCAAAAAATTAGCTGCCGGCGGAGCGGAATTTATAGGCGTTCATTACGCCAGTAATAGGGATGCTGCATTAGAAGTTGTTGAAGAGATTAAGGCGCTGGGCTCAAAGGCTGTGGCTCTGGAAGCAGAATTAACCACTGGTATTTCCGGTGTAAAAAAGCTTTGGGCCGCATTTGAAGATGCTGTTCGCTCGGAAATCGGATCTGTGCAATTGGACATCTTAATCAATAACGCAGGTATTGCACCGGCCATTCCTTTTGAAGAAACGTCAATTGAAACGTTTGAAGATGTCATTAATGTTAATCTTAAAGCTCCATACTTTATTACTCAAGCAGCTGGTCCGTTTATACGGAACGGTGGACGAATCATTAACATTTCTACTGGCTTTACTCGTGTTGCCGGTCCAATGCATTCCATTTATTCGGCTTCCAAGGGAGCCATTGAGACACTTACTTTGGCATTAGCTCCACTTTATGCAGCAAAAGGTATTACTGTTAACGCAGTAAGGCCGGGAACTACGGCTACTGACATGAACAAGGATTGGCTCGCTAACCCAGAAGCTCATGCTGAAGCAGCTTCAATGTCTGCATTCGGGAGAGTTGGCACCACTAAAGACGTTGCTGATGTAGTTGCGTTTGTAGCATCTGAGGAGGCGCGATGGATCACGGGGCAATTTATTGATGCTACCGGAGGAACTAGGCTGTAA	MSTNEGRFSGKVALITGASRGMGAEIAKKLAAGGAEFIGVHYASNRDAALEVVEEIKALGSKAVALEAELTTGISGVKKLWAAFEDAVRSEIGSVQLDILINNAGIAPAIPFEETSIETFEDVINVNLKAPYFITQAAGPFIRNGGRIINISTGFTRVAGPMHSIYSASKGAIETLTLALAPLYAAKGITVNAVRPGTTATDMNKDWLANPEAHAEAASMSAFGRVGTTKDVADVVAFVASEEARWITGQFIDATGGTRL	PGPT0003180_6564	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
AK002_06257	612	comR_4		HTH-type transcriptional repressor ComR	ATGGGACGTAACCGCGAATTCGATGTGGATCAGGCATTGGACGCAGCGCTTTGCGTGTTTTGGCGCAAAGGCTACGAGGGCGCGTCGTACACTGACCTGACGCAGGCCACGGGTGTTGAACGCCCCGCGCTCTACTCGGCGTTTGGCAACAAGGAGGCATTGTTTCGCCGAGTTCTTGAGCGCTATTACGAGCACTATCATGATTTCTTCCCGGCGGCGCTGGAGCTGCCGACCTCGCGGGAGGTGGTCGCACACATCTTTCGCGGTGCGGCCGAATTGCAAACTCGTTACCCGGATCACAAGGGGTGTCTATATGTCCACGGTGACTTGGCTGGCTCGGACGATGCCGAACCTATTCGACGTGCACTGATCGATGCCCGTGCGGACGGAGAGGCTTCGCTGCGTGATCGTTTCGAGCGGGCAAAGCAGGAGGGAGATCTGCCGGAGACCGCAAACTGTGCTGCGCTAGCTGCATTCGTGATGGCTGTGCTCCACGGTATGGCCGTTCAAGCCAAGGCCGGCTTCAGCCGCAATATGCTAGAGGCTGTTGCCGAGCAGGCGCTCTCCACCTGGCCTGCCGGCAAATCCACTCCTTCCACAAAGTCTTCCTAA	MGRNREFDVDQALDAALCVFWRKGYEGASYTDLTQATGVERPALYSAFGNKEALFRRVLERYYEHYHDFFPAALELPTSREVVAHIFRGAAELQTRYPDHKGCLYVHGDLAGSDDAEPIRRALIDARADGEASLRDRFERAKQEGDLPETANCAALAAFVMAVLHGMAVQAKAGFSRNMLEAVAEQALSTWPAGKSTPSTKSS	PGPT0004136_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004136-comR|ycfQ-K22041	NA	NA
AK002_06258	552			Putative acetyltransferase	ATGACTGAAAAAGAAAAATCACATGCTGGCTTGTTGTACCAACCTAATGACCCAGAGCTTGTTGCGGACCGTGATGTCACTGTGAAGAAACTGTACGACTATAACAGTCTGCACCCACTGGAGCGCGATTTACGACGTGCCGCTATACGCGAATTGCTCGGTAAAGTCGGCGAAAATTGTGTTGTGCAGCAGCAGCTTTTTTGTACTTATGGGTATAATACCACGCTGGGCAATAATTGCTTCATTAATCTCAACTGCAAACTTATGGACAGCGGATTCATTACGATTGGAGACAACGTATTTATCGCCCCCAATGTTTGCATCATAACGGAGAATCACGCGATGGATGTGGAGCAACGTTTGGCGGGACTAGAATACACAGCTCCTGTCAAGATTGGCGACAATGTCTGGATCGGTGCTGGAGCCATCATATTGCCAGGCGTAACGATCGGCGCGAATAGTGTAATCGGTGCAGGCAGTGTTGTTACTAAGGATATTCCGCCGAACACTTTGGCTGTCGGCAACCCTTGTACGGCAATCCGCTCACTTTAA	MTEKEKSHAGLLYQPNDPELVADRDVTVKKLYDYNSLHPLERDLRRAAIRELLGKVGENCVVQQQLFCTYGYNTTLGNNCFINLNCKLMDSGFITIGDNVFIAPNVCIITENHAMDVEQRLAGLEYTAPVKIGDNVWIGAGAIILPGVTIGANSVIGAGSVVTKDIPPNTLAVGNPCTAIRSL	PGPT0018611_1880	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661	NA	NA
AK002_06259	480	rlmH	COG1576	Ribosomal RNA large subunit methyltransferase H	ATGAATATACAGATTGTATGCGTAGGCAAGTTGAAGGAGAAGTACCTGGTTCAGGGCATTGCGGAGTACAGCAAGCGTCTTGCGCCGTATGTGCGCCTGACCGTGCACGAGGTGCCGGATGAGAAGGCGCCGGAGAACATGAGTGAAGCGGAGATGCGTCAAGTGCAGGAGAAGGAGGGCGCCGGCATTCTCGGCCATATCAAGCCCGACACCCATGTCATCGCCCTGGCGATCGGCGGCCAGCTGTGGTCCAGCGAGGACCTGGCGGCCCATATGGACAAGCTGGGCACGTACGGGACCAGCAGCGTGGCTTTTGTCATCGGCGGCTCTAACGGCCTCTCCGAGGACGTCCTGAAGCGTGCCCAGACGAAGCTCAGCTTCGGACGGATGACCCTGCCGCACCAGTTGATGCGTCTGGTGCTGGTGGAGCAGATTTACCGGGCGGTGAAGATTAACCGGGGGGAACCGTATCATAAATAG	MNIQIVCVGKLKEKYLVQGIAEYSKRLAPYVRLTVHEVPDEKAPENMSEAEMRQVQEKEGAGILGHIKPDTHVIALAIGGQLWSSEDLAAHMDKLGTYGTSSVAFVIGGSNGLSEDVLKRAQTKLSFGRMTLPHQLMRLVLVEQIYRAVKINRGEPYHK				NA	NA	NA	NA	NA
AK002_06260	1134	yjiB	COG2124	Putative cytochrome P450 YjiB	GTGTTAAGCATGGAATGGAATAAGAACGGTTTACTTCCGCTGGAATGGTTCCGCCAGATGCGGACGGAATCTCCGGTGGCGGCCATTGATGGTGGCGGAGCCTGGAACGTATTTAAATACGAGGATGTCAAAGCGGTCTTCACGAATTACGAAGTGTTCTCTTCCCAGGGCTCCTCATCCTCCGATGACCCTATTGAATCCAGTGTGCTGCGGCAGGATCCGCCCAAGCACCGCCAGCTGCGCAAGCTGGTATCCCATGCTTTTACGCCTCGCATGATCGAATCGCTTGCCCCCAAGATCCAGGAGATCACGACCTCCCTGTTGGACGAAGCGGAGAAGAAGGGGAAGATGGATATCGTGGCTGATCTCGCAAGTCCGTTACCGATCACGGTGATCGCGGAAATGCTCGGCGTATCGATGGAGTATCGGGAACGGTTCAAGGCCTGGTCGGATGCTCTGGTGGGCGACAATCCCGATGCCTATTACCAATGCCAGCGCGAGATGAGCGAATACTTCTCCGAGATCGCAGAGGACCGTCGCCGGCATCCGCAGGACGATCTGATCACGAAGCTGGTCGAGGCCCGCATCGACAATGAACACCTGACCGAACTGGAGATTATCGGGTTCTGCATTCTCCTTCTCGTAGCCGGCAACGAAACGACGACCAACCTGATCTCTTCGGCCGTGCTCGCCTTCGACAGTCTGCCTGAGGTCCGTGCAGAGGTGCTTGGAGATTCAGCGCTGCTTCCTGGGGCCATCGAGGAAGTCTTCCGCTATTTCTCGCCCGTTCAGCTGATGTTCCGTAGCGTGAAGCAGGACACGGTGCTGCGGGGGCAGGAGCTGAAGCAGGGACAGTTCGTTTATATCTGGATGGCCTCTGCGAACCATGACGAGGATGTGTTCGATCAGCCGGATGTATTCAACATCCATCGGAATCCGAACCCTCACTTGGGTCTAGGCAGCGGCATCCACTACTGCATGGGCTCTCAGTTAGCCCGCATGGAGTCCCGAATCGCCCTCCAGACCTTGCTGGACCGTTACCCCGAATACCGTCGGGACCGCTCCGTAGAGCTGGCACGGATGGACAGCACGATGATGTTTGCCCTGAAAGAGCTGCCGGTCATTTTAAAATAG	MLSMEWNKNGLLPLEWFRQMRTESPVAAIDGGGAWNVFKYEDVKAVFTNYEVFSSQGSSSSDDPIESSVLRQDPPKHRQLRKLVSHAFTPRMIESLAPKIQEITTSLLDEAEKKGKMDIVADLASPLPITVIAEMLGVSMEYRERFKAWSDALVGDNPDAYYQCQREMSEYFSEIAEDRRRHPQDDLITKLVEARIDNEHLTELEIIGFCILLLVAGNETTTNLISSAVLAFDSLPEVRAEVLGDSALLPGAIEEVFRYFSPVQLMFRSVKQDTVLRGQELKQGQFVYIWMASANHDEDVFDQPDVFNIHRNPNPHLGLGSGIHYCMGSQLARMESRIALQTLLDRYPEYRRDRSVELARMDSTMMFALKELPVILK	PGPT0006735_51	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION	XENOBIOTIC_FATTY_ACID|VITAMIN|TERPENE_DEGRADATION-CYTOCHROME_P450,PGPT0006735-cpx|cyp109E1-K23138	NA	NA
AK002_06261	579	fadR_2		Fatty acid metabolism regulator protein	GTGAGCAAAGAAAAAATTATCCAAGCAGCCATTGAAGTATTCTCCGAGAACGGATACCACCGCGCAAGCATGGACGAGATTGCCGCCCGCGCCCAGGTTGCCAAGGGGACACTGTACTACAACTTCCCGGGCAAATCCCAGCTCTTCAAGACGGTGGTGAAGCAGGGCTTTGAGGATATCATGCAGCGGACGGAAGCGGATCTGAATTCCTCGCTGCCGATGAAGGAGAAGATTGAGCGGACGATTCGCCATCATCTGGATTTGTTTCTGGAATCCCGACATTTCTCGCATATCGTATTCAATGAGATTTCGAACGGTATCGAGCAGGATGTCCTGGATGAGTTAAAGGAGCTTAAGCGGAATTATTTAAGCTTTCTGGCCAGCATGATTGAGGAAGGACAGTGTGAGGAGAACCTGTGCCGTGCCGTGGATCCCAACCTGGCCGCTGCCAGCATCGTCGGTACGCTGGAGAGCACTTGCAATTACTACTTGAATCATCAAGATCGGTATTCGCGCCAGGATCTGGAACGGTTTGCATTCACGATGATTACCCAAGGCCTGTTTATATCGCTAGAATAA	MSKEKIIQAAIEVFSENGYHRASMDEIAARAQVAKGTLYYNFPGKSQLFKTVVKQGFEDIMQRTEADLNSSLPMKEKIERTIRHHLDLFLESRHFSHIVFNEISNGIEQDVLDELKELKRNYLSFLASMIEEGQCEENLCRAVDPNLAAASIVGTLESTCNYYLNHQDRYSRQDLERFAFTMITQGLFISLE				NA	NA	NA	NA	NA
AK002_06262	174			hypothetical protein	TTGAGTAAATCCAAGGGCAAGGGCGGAACAGGCAGAGGCACAGGCAAGAAAGGCTGGAGCCGATGGGATGCAAGCGCAAGAAGAGCCAAGAGTAAACCCAAACCTTATACCAGTAAAGGGACCAAGCAGGCAAACAATACAGAAGACGCCGGTAATCATAAGGGCACCCCATAA	MSKSKGKGGTGRGTGKKGWSRWDASARRAKSKPKPYTSKGTKQANNTEDAGNHKGTP				NA	NA	NA	NA	NA
AK002_06263	444			hypothetical protein	TTGGACAATCAAGAAGTTTTGACGGACATGCCGTCGAATTATGAGGAACTGAAAAGCTCCGCCAACCGAAACGCCAATTGGAGAGAACGCTTAAATGCCGTTGAAGAGCTGGGAAATTGGAAAAATCAGAAATCCATCGATATTTTGCTGCATAGACTGAATACGGATGCGGTTCACCAAGTGAGGGAGGCAGCCTATCATAAACTCCGGGCCTTTGGCGAGGACGTGCAGATGCCCGATAGACGTAAAGGTGAGCTGATGAAGGACGTTTCGAAGGTGCTCCTGCGCATCAAAAAAAGCCTTCCCCGTGACCACACGTATGAAGACTTCAAAGAGAAACTGAAGAAGATGAGAATCGACATCTACGATACGTACGAGGGCGACAAAGGGGAAGAATTCGACAGCTGGCTGGAGCAAACCTGGTCTTCACTGTTAAGAAGATAA	MDNQEVLTDMPSNYEELKSSANRNANWRERLNAVEELGNWKNQKSIDILLHRLNTDAVHQVREAAYHKLRAFGEDVQMPDRRKGELMKDVSKVLLRIKKSLPRDHTYEDFKEKLKKMRIDIYDTYEGDKGEEFDSWLEQTWSSLLRR				NA	NA	NA	NA	NA
AK002_06264	294			hypothetical protein	ATGTCGTTTGATGATCTGCTGAAGGAATTGCAAGGCCAAAAATCGGTACAGGAGGATCCAGATAACATCTCTCTGGAAAAGCTGTTCAATGAATCGTTTATGCGTAAGCATTCTTCCCATACCAGCTTTGGGGATTTTGTCGTAAAAGGCAACTTCCAAGTGGAAACGCACGAAGATATCGATAACATTCCGGACGAACTGTTTGACCGTCATGTTTCCAGAGAAACCGATTTCCCGGATTGGAAATCGATGCTGGAGCAGGCCAAAGCCGATCATGCGGCTGCCATGAAGTAA	MSFDDLLKELQGQKSVQEDPDNISLEKLFNESFMRKHSSHTSFGDFVVKGNFQVETHEDIDNIPDELFDRHVSRETDFPDWKSMLEQAKADHAAAMK				NA	NA	NA	NA	NA
AK002_06265	1047	der_3		GTPase Der	ATGGATGACTACGGAAAAGCTTGGGAAGAAGAGATCAAGCGGGCAGCCGATGAGGCCTACGAGAAGGAAATGGATGAAATCAACCGCCAGCTGAAGCAGGAAATCCTCATTGCGCTGATTGGCGACGTGAATACGGGCAAGTCTTCCACCATGAACCGGATCGTGGGCGAAGAGGTGGCCGGCGTCGGGGCCGAGCCCGGGGAAACGACGGTGATTCATCCGCACAAGTACAAGGACCATATATCCTTTATCGATACACCCGGACTGAATGATGTGAACACCGCCAATTCAGAGGTGACCTTGAATTACTATAAACAGGCGGATATCGTGCTGTTCTTTCTGAACGCTGCAGGCACCGTCTTCTCGGAGGCGGAGAAGAAGTCGTTTGAGAAAATTCAAAGCGTCAACTCGAACATTCTGATCGTGCTGAACAAAATCGACGCTGCGGATGAAATCGATCGCCTGGTGGCGCGTATCCGGAAGGAGACCGGAGGGCGCTATGAGGTTGTGCCGGTGTCCTCACGGACAGGCCAGAACATCGATCGGCTGCGGAGCAGCATTCTGGAGATACTTAAAAAAAAGTCTAAAGACATCCTCTTTGCCAAAAGCATCAAGGAAAAGTCGGCGACCGCCAACGGGTGGATCATCGGTGCCTCGATCTCGGCAGGAGCGGTAGGCGCATCCCCCATTCCGGGATCGGATATCATTCCGATTACCGGCATTCAAGTGAGTCTGCTTACCCGGCTTGCGGTGCTGTACAATAAGCCGATCAGCAAGGAGACGGCGAAGGAGCTCGTCATTGCCACGATATTCGGGAATATCGGGAAGAGCATTTTCCGGCAGATCGTGAAGGTGTTCCCTGGCGCGGGATCGGTCGCCGGAGCGACGGTAGCGGGTGCTACAACCTTGGCGCTTGGATATGCAGTGAAGTACGCTTACGAGCACAACATCGAGATCAATACGGCGAATATTACAAAGCTTTATAAGAAATTCAGAGAGAAGGCCGAGACAGGATCGGAATCGGAATCCAAGTCCGAGTCGAAGTAA	MDDYGKAWEEEIKRAADEAYEKEMDEINRQLKQEILIALIGDVNTGKSSTMNRIVGEEVAGVGAEPGETTVIHPHKYKDHISFIDTPGLNDVNTANSEVTLNYYKQADIVLFFLNAAGTVFSEAEKKSFEKIQSVNSNILIVLNKIDAADEIDRLVARIRKETGGRYEVVPVSSRTGQNIDRLRSSILEILKKKSKDILFAKSIKEKSATANGWIIGASISAGAVGASPIPGSDIIPITGIQVSLLTRLAVLYNKPISKETAKELVIATIFGNIGKSIFRQIVKVFPGAGSVAGATVAGATTLALGYAVKYAYEHNIEINTANITKLYKKFREKAETGSESESKSESK				NA	NA	NA	NA	NA
AK002_06266	168			hypothetical protein	ATGTACGTCGTATGCAAGGAACATGTGGAACTAGCGATCGAAAATTTCGTGGATGAATATGAGGATGCCCCGGATATTGTTGATCTGAAGGAGACCGAGTTTTCGGACTGGGACCCACCGGTGAAGTGCGCGGAGTGCGAGAAGCATGCTGAATTTTTAATTGTGTAA	MYVVCKEHVELAIENFVDEYEDAPDIVDLKETEFSDWDPPVKCAECEKHAEFLIV				NA	NA	NA	NA	NA
AK002_06267	1368			hypothetical protein	ATGGGATTGTTTGACGATGATTTCTATTCAACTAAAATTTCCAGACGGAGCAAAAATACCAGCGAGGACCGATCTGAGCGAACGAAGTGGCGGTCCACCCGCCGCAGGAAGGGTTTATCCACATTCCAGATTTCCGCGATCAGTTCCGTGTGCAGCGCCTTGATTGCGGTGATGTTGTTCAGCTTCATTACAGGTCATCCTGCGACGTCGTCACCGATTACCATGATCAATGGCAGTCATCAGCTGTCCACGTCGGATGGGGATCCTTATGAACGAATTATTAGCGCTGCCCAGAAGGTGCGTCCTGCGGTTGTCAGCGTATTGACGCATAAAGAGACTCCGCTGCCTGAAGAGGAAGGGGTAGAGGGTGAGGGGCTGGAAGAGGAATCCGGCACCCTGCCTGAGGAAGAGGGCGACTTCGAGCTTCCGGAAGGGTTCGACTTCGGCGATGATTTTGATTTCGGCGAAGATTTCGGCGGCTCGCAAGAGGATGCCCTTGGATCTGGCGTCATCTTCAAGAAACTCGAGGGCAAAGCCTTCGTGATAACGAATAACCATGTGGTGGAAGGCGCCGATTCCCTGGAGGTTGTGCTGGTAGGCGGCGAGAAGAAAAAAGCGACCTTGGTCGGCACGGACAACGTCAGCGATATTGCCGTTCTGTCGATTGACAGCAAAGGCATCGGCGAGGTTGCCGAGTTTGGGGACTCCTCCAAGCTTCGTCTCGGCGAAACGGTCATCGCCATCGGCAACCCGCTGGGTTTGGGCGATACGCTGACCTCCGGGATTGTCAGCTATACCAACCGCATCATTCCGGTATCCCTGAACCAGGACGGCATTTACGACTGGGAGCAGGAGGTCATCCAGACCGACGCAGCCATTAACGAGGGCAACAGCGGAGGCGCTTTGGTGGACCTGAACGGTAAAGTCATCGGCATCAACACGATGAAGATTGCCGACACCGGCGTCGAAGGACTCGGGTTCGCGATTCCGGTCAACGAAATTACGGAGGTTGTGACCGAGCTGATGCTGAAGGGGCATATTGCCCGCCCTTATCTCGGCGTATACACCGTCGACTTGAGTAATCCGTATGCTCCGCTGAGCAAAAAGGAGAAGGAAGATCTCAAGCTGCCGAAGACGGTAACCGAAGGCGTGGTCGTGCTGGATGCGCTTGGACCTGCGCTGGATGCCGGTCTGCAGCTGAACGACGTGATCGTGAAGCTGGATGGCAAACCGATTACAACGACGCTCGAGCTCCGCAAGCACCTGTACTACAACACGAAGGTGGGCGGAGACCTGAACGTGACCTTCTATCGTGACGGCAAGCTGCAGTCGCTGAAGGTCAAGCTGGAAGAGAAGCCTGGAGAATAA	MGLFDDDFYSTKISRRSKNTSEDRSERTKWRSTRRRKGLSTFQISAISSVCSALIAVMLFSFITGHPATSSPITMINGSHQLSTSDGDPYERIISAAQKVRPAVVSVLTHKETPLPEEEGVEGEGLEEESGTLPEEEGDFELPEGFDFGDDFDFGEDFGGSQEDALGSGVIFKKLEGKAFVITNNHVVEGADSLEVVLVGGEKKKATLVGTDNVSDIAVLSIDSKGIGEVAEFGDSSKLRLGETVIAIGNPLGLGDTLTSGIVSYTNRIIPVSLNQDGIYDWEQEVIQTDAAINEGNSGGALVDLNGKVIGINTMKIADTGVEGLGFAIPVNEITEVVTELMLKGHIARPYLGVYTVDLSNPYAPLSKKEKEDLKLPKTVTEGVVVLDALGPALDAGLQLNDVIVKLDGKPITTTLELRKHLYYNTKVGGDLNVTFYRDGKLQSLKVKLEEKPGE	PGPT0015105_4280	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
AK002_06268	264			hypothetical protein	ATGGCAAGAAGATCACGTCGGCACCGGAGTCCCGAAATGCAGCAGTTCATGACAAGCGTGATGCGAAACGAAGGCTATCAAGTCGACCCCCAGCGGCAGCAGGACGTCAAATATGAGGTGGCCAAATCACTCGGCTTGCCGTTGAAACCCGGCGACAATCGAGACCTGACCACCGAACAGGCAGGTAAAGTCGGCGGTGCCATCGGCGGTTCCATGGTTCGGGAAATGGTTCGTATGGCGCAAGAAAGCCTCAGCAAGCGTTAG	MARRSRRHRSPEMQQFMTSVMRNEGYQVDPQRQQDVKYEVAKSLGLPLKPGDNRDLTTEQAGKVGGAIGGSMVREMVRMAQESLSKR	PGPT0024875_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024875-sspD-K06421	NA	NA
AK002_06269	804	yycJ	COG1235	Putative metallo-hydrolase YycJ	ATGGGGATTTCATTTTCCGTGCTGTCGAGCGGCTCGACGGGCAATGCGACCATTGTCCGCAATGAGGATACGACACTGCTGATTGATGCGGGCCTAAGTGCAAGACGCATCGATGAGCTGTTGAAGGAACGCGAAATGATGGGAGAAGAAATCGACGGAATCCTGGTCACGCATGAGCATTCGGATCATATCCGGGGGCTTGGCGCGGTGGCGCGCAAATACAATCTGCCGATCTATGCGAATGAGAAGACGTGGGAAGCGATGAGCAAGTCGCTGGGCAAGATTGCGGAAGAGAACCGGATTGTGCTGGAGAGTCATGAGGTCAAGGATTTTGGCACGCTGCGGGTGGAGCCGTTTGAAATATCCCATGACGCTGCGGCACCGGTCGGTTACTGCTTCTATGACGGCGACGAGAAGCTCGGCGTTGCCACGGACCTCGGTTATGTCAGCGACAAGGTGAAGAAAGCGCTGGATGGATCGGATGTGCTGGTGCTGGAAGCCAATCACGATATCGAGATGCTCCGGATGGGACGGTATCCGTGGAATACCAAGCGCCGAATTCTCGGCGATATGGGGCATTTGTCGAATAATTCGGCAGGCGATGCTTTAAGCGAATTGCTGACGGGCGATACCAAACGGACGTATCTGGCCCATCTCAGCCTGGATCATAACATGATGGACCTGGCAAGAATGACCGTACGCGATACGATGGAAGACCGCGGCTGCTTCTTCAAGGACAGCGAATTTAAATTGTGCGATACGTATTATGACCGTCCGACCCCTTGGGATAAAGTCGGGGAATAG	MGISFSVLSSGSTGNATIVRNEDTTLLIDAGLSARRIDELLKEREMMGEEIDGILVTHEHSDHIRGLGAVARKYNLPIYANEKTWEAMSKSLGKIAEENRIVLESHEVKDFGTLRVEPFEISHDAAAPVGYCFYDGDEKLGVATDLGYVSDKVKKALDGSDVLVLEANHDIEMLRMGRYPWNTKRRILGDMGHLSNNSAGDALSELLTGDTKRTYLAHLSLDHNMMDLARMTVRDTMEDRGCFFKDSEFKLCDTYYDRPTPWDKVGE				NA	NA	NA	NA	NA
AK002_06270	750			hypothetical protein	ATGGATTGGGGCCGTGCCAAAAATGTTCTGATTTACGCGTTTTTGCTGCTTAATCTGGTGCTGGGCTATCAGCTCTGGATGGATTACCGCGAACAGGTCGGCTCCAATCTGGATTTCACCTCGCTTTCCGAGAGTACCCAGCAGGTGATGGAGGAGAATGGGATTCAATTGCTGAGTCCGATCCCGACGGAAACGCCGCAGCTGCCCAAAATTAATTATATCTACAGCGCGGAAGCCCAGGGAGAGCCCGTAGGGCTGGAGCAGCCGGTGGATACGAAGCTGATTTATGCCGATGAGAAGGAATTGCGGAATGCGCTGGAAGGCAAGATTGCGGATCTCGGGAACTACCGCCATGACGAGCCGTCAGACAAGGAGAATGTCTTCATATTCCGGCCGTTGGTGCAGAAGGAATGGCCGCTGTTTAACGTGGAGTTGGAGTTTATCCATGAAGCTCAGAAGATCCATGCGTTTCGCGAACCCGTATTCGAGATTCTGCCAAGCAGCGATATGGAGGAACAGAAGGTTCTCCCTGCATCGAAGGCCTTGGAAACCCTTATCGAACGTAATTTCATCCCGCCTGATTCGGCGGTGCGCGATATTCAGCTTGGTTATTATGGGCAGTTGTTTAATACAGAGGATCAGTTGGCAGCACCGACCTGGCGGTTTACGCTGGATCATGGCGAGATGATCTATGTACAAGGCATCAGCGGGGACGTGCTGACGCCAAAAAGCGATACGACAAAGGAGTAA	MDWGRAKNVLIYAFLLLNLVLGYQLWMDYREQVGSNLDFTSLSESTQQVMEENGIQLLSPIPTETPQLPKINYIYSAEAQGEPVGLEQPVDTKLIYADEKELRNALEGKIADLGNYRHDEPSDKENVFIFRPLVQKEWPLFNVELEFIHEAQKIHAFREPVFEILPSSDMEEQKVLPASKALETLIERNFIPPDSAVRDIQLGYYGQLFNTEDQLAAPTWRFTLDHGEMIYVQGISGDVLTPKSDTTKE				NA	NA	NA	NA	NA
AK002_06271	1275	yycH	COG4863	Two-component system WalR/WalK regulatory protein YycH	GTGAAGGAACGAATGAAGACCGTGCTGCTTGTCCTGTTGGTCGTTGGCAGCTTGGTACAGAGTTATGTGTTGATTTTCCGTTTTCCGGGCAGCGACTCGGTTGTGCAATCGAAGGACGCCTATATCCGAACCGAGGAGATGGGGCCGGAAGAGAAGCCCGAGAATCTGCTCTTTCCTGACAAAATGGTCATTCATCTGGGCGAAGACAAGCATACGGTGTTCTATCCGAACGATACGTTCTATAATCTCGTGTATAATCGGCTTAAAGGCCGAACCTTTGATAATTTCCAGCGGCGGATGGTCAGCAACATCGATTGGGCCAAGGTTCGCTCCGAGAATCGAGGCATTGAGCTGAGCTTTGATTCGGGCATTCCGGTAACGCTGCTCCAGAGAGTGATGCAGATCGTCCCGGACACCCTGTTTGAAGGGGAAAGCATCAACAAAATGTGGCTGTACAGCGTAGAAGGCGAAGCGAAGATCCATGTCATGTTTTTCAGTACGGAGGGCGATGTCGTCTATGAGGCCGCCCAGGCGGATTTGACCGTACAGGACGTGGATCAGCTGGTGGACTTCGGGCTGAGCTGGACGCCGTATAAGATGGTGGATGGCCGGTACTATACCCCCGAGAAGGAGCTGAATATGGTCAGCGTTGAGCTGCCGATCGGCGAATATACGGTTGATCAAATGCAGCGCAGCCTGTTCTTTGACCCGAGCATCACCCGTAACATCCGGGAAAAAGACGGCTCCGAAATATATACGGACAGTAAGCGGAGCCTCCAAGTAGACCAGGGGCAGAAATGGATCAGCTATACGGATCCGGCTGCACCGCCATCCGGAGAGAGCAGTCCCGGCAAGGATGTGCTGTCCGCTATCGATTTCGTGAATCAGCACGGAGGCTGGAATGGCACATACAGGCTGGCTAAAGCGGGTGAATCCGAGGATCGGACACTGGTAAAATTCCAGCAATATTACGGCGGATTCCCGATCCTGAATACGCCTGGCTTCCAATACGGCGTCATGGAATTGGATTTGCAGCAGGGAACGGTAACCTCCTATGAGCGCTCGCTGTTATATCTCGAGCCTGCCTCATTGAAGAAACAGATGGTAAAGCTTACGGGAGGCGAGGCCTTGGAAGCGAAACTGAAGCCTTACGAGGAGAGTGTGGTTACGGGTCTGGATCCCGCCTATTTGCCGGTGAGGACGGACGAAGGGCTGCTGCTGAAGCCGGTATGGGCTTTAGAGCTCCAGAACGGCTCGGTTGTCATACTCGAGTAA	MKERMKTVLLVLLVVGSLVQSYVLIFRFPGSDSVVQSKDAYIRTEEMGPEEKPENLLFPDKMVIHLGEDKHTVFYPNDTFYNLVYNRLKGRTFDNFQRRMVSNIDWAKVRSENRGIELSFDSGIPVTLLQRVMQIVPDTLFEGESINKMWLYSVEGEAKIHVMFFSTEGDVVYEAAQADLTVQDVDQLVDFGLSWTPYKMVDGRYYTPEKELNMVSVELPIGEYTVDQMQRSLFFDPSITRNIREKDGSEIYTDSKRSLQVDQGQKWISYTDPAAPPSGESSPGKDVLSAIDFVNQHGGWNGTYRLAKAGESEDRTLVKFQQYYGGFPILNTPGFQYGVMELDLQQGTVTSYERSLLYLEPASLKKQMVKLTGGEALEAKLKPYEESVVTGLDPAYLPVRTDEGLLLKPVWALELQNGSVVILE				NA	NA	NA	NA	NA
AK002_06272	1830	walK		Sensor histidine kinase WalK	ATGAAGTGGCTGTCCTTCTTCCGCACCATCCAGGCGAAGGTCATCATCATTTATGTCCTTCTCATTCTGATCGCAATGCAGCTGATCGGGGTGTATTTTGTGAGTGCGATGAAGAACTCGCTGACCAGCAACTTCACGAAGGACTTGCAGGAACGCGCAGAGCTGATGTCGGTTCTGGCGGCCAAAACCCTTGGCGGCGAGAATGATACGGAAGAGGATCCGATCGAGAGCCTGCGCGTCATGGTGAACAATCTGTTCAACCTGAACGGCGCCGAAATCCAGGTGCTGGATTCCACCGGGCGGGTGTTGACCACCTCGCTGCCCTCCCACGCCGATTATGTGAGCACCAAGAATACGCAGACGGTTGTCAGCCGGGCGCTGCAGGGAATACAGGATAATGAGGAGTACATCATCGACGATGATAATATCCGCAAAAAAGTGGTGGCCAAGCCCGTCATGTACAACGAGAAAATCGTCGGCGCGATATATATCGTAGCCAGCATGAGCGAGCTGTACAGCACGATGCAGCGGATCAACAATATTTTTATATCGGGGATTCTCTTGGCCCTCGGCTTGACCGCGGTGCTCGGCGTCATCCTGTCGCATACGATTACCCATCCGATCAAGGAGCTGACCAAACATGCGCGGGCTGTCGCGGACGGCCGGTTTACCGAGAAAACGCCGGTATTCGGCAGCGATGAGATCGGCCAGCTCAGCCAGGCGTTCAATTATATGACCAGCCGTCTGCGCGAAGCCCTCTCGCAGAACGAAGAGGAGAAGGAGAAGCTTGCTTCCATCCTGACGAATATGAGCGACGGCGTCATCGCAACCGACGAAGCGGGGCGTGTCATCCTGATGAACCGGCGCGCCGGCGAAATGCTGGGCGTGGAGGGGGAAGAGCTGGCAGGACACGATATCGTGTCCCTGCTGGGTCTGGAACAATCCGAATCCGAAGCTTTGGCGCGCGGCGAAGGCCATGATTCCAAGCTGCTTGAGATTACGCCGCGCGAGGGCGGTGAGCCGTTCATGATGCGCGTGACCTTCACGCCGATTCACCGGCGGGAGATCGGCATCACGGGCACGATTGCCGTGCTGCAGGACGTCACCGAGCAGGAGAAGCTGGAGGCATCCCGGCGGGAGTTCGTGGCGAATGTATCCCATGAGCTGCGCACGCCGCTGACAACCATCAAGAGTTATACCGAGGCGCTGGAGGATGGCGCACTGGAGGATAAACAGATGGGGCCGAGATTCGTCGGCGTCATCCAGAATGAGACCGGCCGGATGATCCGGCTGGTGACGGACCTGCTGCATTTGTCCCGGCTGGATTCCAAGGAGGCCGCTCTGCATAAGGAGCGGACGGACATCGTGGAAATGCTGGAGGATGTAGAGGACCGATTCTCTTTCCAAATGAAGCAAAAGCATATTCGTACCATTATCGAAGTGAAGCCGGGCGTATCCACGGCGATGCTGGACCGGGACGGCATTGACCAGGTTCTCGATAACCTGATATCCAACGCCCTTAAATATACGCCGGACGGTGGCACCATCACCATGGATGCAAGCATAACGGAGGAAGGCATGTTATCCTTATCCGTTAAGGATACCGGGATCGGTATTCCGAAGAAGGATCTGGACCGGATCTTTGAGCGCTTCTATCGGGTGGATAAAGCACGGACGCGCAATTTGGGCGGAACGGGCCTCGGTTTGTCCATTGCCCGGGAAATTGTCAGGGCACATGGAGGTTTCATTACGCTTCAATCTGAATTGGAGAAGGGCACCACGGTGACCTTTACCTTGCCCCTGGACGATGAGGGGAGGGTGTTAGCGTGA	MKWLSFFRTIQAKVIIIYVLLILIAMQLIGVYFVSAMKNSLTSNFTKDLQERAELMSVLAAKTLGGENDTEEDPIESLRVMVNNLFNLNGAEIQVLDSTGRVLTTSLPSHADYVSTKNTQTVVSRALQGIQDNEEYIIDDDNIRKKVVAKPVMYNEKIVGAIYIVASMSELYSTMQRINNIFISGILLALGLTAVLGVILSHTITHPIKELTKHARAVADGRFTEKTPVFGSDEIGQLSQAFNYMTSRLREALSQNEEEKEKLASILTNMSDGVIATDEAGRVILMNRRAGEMLGVEGEELAGHDIVSLLGLEQSESEALARGEGHDSKLLEITPREGGEPFMMRVTFTPIHRREIGITGTIAVLQDVTEQEKLEASRREFVANVSHELRTPLTTIKSYTEALEDGALEDKQMGPRFVGVIQNETGRMIRLVTDLLHLSRLDSKEAALHKERTDIVEMLEDVEDRFSFQMKQKHIRTIIEVKPGVSTAMLDRDGIDQVLDNLISNALKYTPDGGTITMDASITEEGMLSLSVKDTGIGIPKKDLDRIFERFYRVDKARTRNLGGTGLGLSIAREIVRAHGGFITLQSELEKGTTVTFTLPLDDEGRVLA	PGPT0013760_463	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013760-vicK|walK|yycG|micB-K07652	NA	NA
AK002_06273	744	walR_11	COG0745	Transcriptional regulatory protein WalR	GTGAACAGGAAGATGCAGGGAACCATTCTGGTGGTGGATGACGAACAGCCCATCGCCGATATTTTAAAGTTTAACTTGGAAAAAGAGGGCTATGAGGTCATCTGCGCCTTTGACGGCATTAGCGCCGTGGAGATTGCCCTCACGCAGCGGCCGGACTTGATGCTGCTTGATTTGATGCTGCCCGGCAAAGACGGAATGGACGTGTGCCGCGAGGTACGTGCCGCTAACCTGCAGATCCCGATCATCATGCTGACGGCGAAGGACGGAGAGATCGACAAGGTGCTTGGGCTTGAGCTCGGGGCGGATGATTACGTGACGAAGCCGTTCAGCACGAGAGAAATACTCGCACGCGTGAAGGCGCATCTGCGACGTCAGCAGAAGCCGGATAACTCGGCGGATAACACAGGCGGCACAAGTGCAGGCGGACAAGGCCTGCGGCTGTTTGAGCTGTTTATTGATACGGACATGTACATGGTATACAAAAGCGGGGAAGCGCTCGATCTGACGCACCGCGAATATGAATTGGTGTATTATTTGGCCCGTAATGCCGGCAAAGTGATGACTCGGGAACATTTGCTGCAGGCGGTATGGGGCTTTGAATACTTTGGCGATGTGCGGACCGTGGATGTGACGATTCGCCGACTTCGCGAGAAGATTGAAGAGAACCCGAGCAAACCGGAATACATCCTGACTCGGCGCGGACTGGGCTACCTGATGCGCAGCGCGAAAAACGGAGGCCTGTAA	MNRKMQGTILVVDDEQPIADILKFNLEKEGYEVICAFDGISAVEIALTQRPDLMLLDLMLPGKDGMDVCREVRAANLQIPIIMLTAKDGEIDKVLGLELGADDYVTKPFSTREILARVKAHLRRQQKPDNSADNTGGTSAGGQGLRLFELFIDTDMYMVYKSGEALDLTHREYELVYYLARNAGKVMTREHLLQAVWGFEYFGDVRTVDVTIRRLREKIEENPSKPEYILTRRGLGYLMRSAKNGGL	PGPT0013765_28	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK002_06274	1569			hypothetical protein	ATGAAAGGTTCTAAGGGGAAACGGTGGATGGACAGCATCTTGCGCAAGCAAGCGGCGGATCATTCTACCCTCAATCACAACTCAAATCAGGAGTCCCCGATGTCGTCGAATCCGCCAAAGCGGGGGTGGACATCACCGCGCAGATGGATTTGGATGTCGGCAGGGGTATTGCTCATAGCAGGATCGATATATACCGGCGGAAAAGCTTACGTGAACGCGAATACAATTCCGTTCTATCATGTGTATGTAGATGGGGAATCGATCGGTACCATTCAAGATGATGCCCAGCTTGCCCAGCTGCTGAAAGCGAAGCGGAAGGAATATCAGGAGAAGTATCCTGATGTGCCCATGGCGCTTCATACCGACGGCATCACCACGAAGGCCGACCGTTCCTATAAACCGGACGTGAACAGCGAGGAGACGCTTTCTAAGCTGGATGGCATGCTGACAGCATATGCCCGCGGCGTGGAGCTGAAGGTGGACGGCAAGACGGTGGCGATCGTGAAGGATCAACAGACGGCCAAGGCTGCCGTCGAAGCGGCTAAGCTGAAGTTCGCTCCGGCTGCTGCGCAGAAGGAGAAGACGCAGAAAGTCGCTTTCACGAAAACGTCCGCATCGGCATCGAGCCAGAAGAAGGATGACGCAAGCGGGCTCCAGTCCGTGGACATCAAGGAGAAGATTTCGCTTGCCAACACGAAGGCTGACCCGAACAAGGTGCTGGACGTGGAAGAAGCGGTCAAGGTGCTTACGGGCACGAAGGACAAGCCGGTGGTGTACACGGTAAAAGAGGGAGATACGATTTCCTCGATCGCGCAGCAATTTGGCATGAAGTCTGCTGATGTCATGGCGCTCAATCCCGGACTCGAAGAGAAATACGTTCAGATCGGGGCCGAGCTGCAGGTGACGAAGCCGGAAGCGCCGCTGACGGTCCGAACGGTGGAGACGGTGTCGGTGAAGCAGCCGAGCAAACCAGAGACGATTGTTCGCAAGAGCAGCGAGCTCCCGCTGGGCAAGCGGAAGGTCGTCCGTCCCGGACGGGACGGCGTGAAGACGGTGGATTACATCGTGATCAAAGAGAACGGCAAGGTTATCTCCAAGCAGTGGACAGGCCAACAGGTGGTTCAGGAATCCCTGCCGGAGGTTGTGTATAAAGGCACCAAGGTAGCACCGAAGAAAAAAGCGGCAGCGGTGACCCAGAAGTCCAGCGGCAGCATGTTCGCTTGGCCGGTGAGCGGGGCGCGCATTACGAGCTCCTTCGGACATCGCTGGGGAAGAAGCCATGAGGGCATTGATATGGTTGGCGGAAGCACCATTATGGCAGCGGCCTCCGGAAGAGTGGTCTTCGCGGGTCAGCAGAGCGGTTACGGCAACGTCGTCATTGTCGATCACGGCAATGGATATCGCACGCTGTACGGGCATATGAGCAAGATTTCCGTCGGCAACGGCCAGTCTGTTGGACAAGGGTCCAAGCTTGGCGTCATGGGTAATACGGGCCGTTCCACCGGAACGCATCTGCATTTCGAAGTGCAAAAAAATGGAGTTGCCCAAAATCCGATGAAATATCTGTAG	MKGSKGKRWMDSILRKQAADHSTLNHNSNQESPMSSNPPKRGWTSPRRWIWMSAGVLLIAGSIYTGGKAYVNANTIPFYHVYVDGESIGTIQDDAQLAQLLKAKRKEYQEKYPDVPMALHTDGITTKADRSYKPDVNSEETLSKLDGMLTAYARGVELKVDGKTVAIVKDQQTAKAAVEAAKLKFAPAAAQKEKTQKVAFTKTSASASSQKKDDASGLQSVDIKEKISLANTKADPNKVLDVEEAVKVLTGTKDKPVVYTVKEGDTISSIAQQFGMKSADVMALNPGLEEKYVQIGAELQVTKPEAPLTVRTVETVSVKQPSKPETIVRKSSELPLGKRKVVRPGRDGVKTVDYIVIKENGKVISKQWTGQQVVQESLPEVVYKGTKVAPKKKAAAVTQKSSGSMFAWPVSGARITSSFGHRWGRSHEGIDMVGGSTIMAAASGRVVFAGQQSGYGNVVIVDHGNGYRTLYGHMSKISVGNGQSVGQGSKLGVMGNTGRSTGTHLHFEVQKNGVAQNPMKYL				NA	NA	NA	NA	NA
AK002_06275	687			hypothetical protein	ATGAAGTGGATGAAATGGCTGCTAAAACTCAGCTTGACCGCCATCCTGGTGAGCACGCTTACGATTGTGACCACGGGCATCGTCGTCAATGCCTATATTCAATCGGTGTTATCCAGCTTTAACATTCAGCTGGAAGCGGAGCCGATGGGGGTGGGAGGTATTATGAAGTCCATGCTGGGCGTGGGCTCCGGCACCAAGCCGGATGCAGGCAGCGTCAATGCCGCGAAGGACAATCGCCAATTGGACGAAGATCTGGGCGCAGCGGACGATAAACCGGAATCGGAAGCCGGCACCGAAACGAATGGAGGGGCCAAGGAGGACGAAGAGACGAGTTCAGGATCAACGGGAACGTCAGGGGAGACTTCGAACGATGAAGAGGCACCGGATAATTCCCTGCCCGTCATGGGCACGAATACGACAGAGTCTGGCGGCTCCTCCCTGGAAGATCAGGAGATTGTCATGACACCGGGGGACATCGTGGACCGGAAGGACCGTTTGCCAACGGAGGAGAAGGAAGAGATTTTCACCATGCTGATGAACAAGCTGCCCCAATCGGAAATGCAGAAGATCTCCGAGGCGATGGAGGACGGTCTGACCGCTGCGGAGCTTGCGGATATCGAGCAGGGAATATCCAAATATTTGAATCCGGAAGAATTCGATAAACTGATCACCATGCTCAAAGAATAA	MKWMKWLLKLSLTAILVSTLTIVTTGIVVNAYIQSVLSSFNIQLEAEPMGVGGIMKSMLGVGSGTKPDAGSVNAAKDNRQLDEDLGAADDKPESEAGTETNGGAKEDEETSSGSTGTSGETSNDEEAPDNSLPVMGTNTTESGGSSLEDQEIVMTPGDIVDRKDRLPTEEKEEIFTMLMNKLPQSEMQKISEAMEDGLTAAELADIEQGISKYLNPEEFDKLITMLKE				NA	NA	NA	NA	NA
AK002_06276	678	hssR_4		Heme response regulator HssR	ATGATTCATATATTGATCGCAGATGACGACGCGCATATTCGAGAGCTCCTGCAATATCATCTTCAAAACGAAGGATACACAGTATTAACTGCATCTGACGGGGAAGAAGCTTCTGCCCTTTTGGCGGAAGAACAGGTTCACCTGGCTGTCGTGGATGTCATGATGCCGAACAAGGACGGGTATCAGCTCTGCGAAGAAATCCGGCGTTATTATGATGTTCCCGTCATTCTGCTGACCGCCAAGGATCAGCTTGTAGACAAAGAGAGAGGTTTTGCCGTAGGCACGGATGATTACTTAACCAAGCCGTTTGAACCAAGGGAGCTGCTGTTTCGAATCAAAGCCCTGCTGCGGCGGTATCAAATGGTCAGCGCAGACAAAATCCGTCTGAACGAAACAACCATCGACCGCAAAAGCTACGAGGTTCAAGGACACGGAAAGATACTGATGCTGCCGATGAAGGAGTTTGAGCTGCTCTCCCAGCTTGCGAGCTATCCGGACCGGACGTTCTCGCGCGAGGAGCTGATTCAGCTCATCTGGGGAACGGATTTTGACGGAGATGACCGGACCGTTGACGTTCATATCAAACGACTCCGGGAACGCTTCGCGGACCGACGCGGCGATTTCCGGATACGGACCATCCGGGGCGTAGGGTATAAATTGGAGGCGGCGCCGCAGTGA	MIHILIADDDAHIRELLQYHLQNEGYTVLTASDGEEASALLAEEQVHLAVVDVMMPNKDGYQLCEEIRRYYDVPVILLTAKDQLVDKERGFAVGTDDYLTKPFEPRELLFRIKALLRRYQMVSADKIRLNETTIDRKSYEVQGHGKILMLPMKEFELLSQLASYPDRTFSREELIQLIWGTDFDGDDRTVDVHIKRLRERFADRRGDFRIRTIRGVGYKLEAAPQ	PGPT0002665_1745	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK002_06277	1380	hssS_2		Heme sensor protein HssS	GTGAAAACCCTCTATTCGCGCATCGTCCTCACCACCATCGCCATCATGGTGATCAGCAGCTTGATTGCTTTTGTGCTGTCTAATCTGTACTACCAGTACAATCTCAAGCCCTTTAACGATCAGAAGGTCACCACCATGGCCAAGGATATCGGGGACTTTTATGACAGCCACCCGGAGACGGACATCCATGATTATCTCCATCACATCGGACAGCTCGGTTATCAATTCTATTTGGTAAACGATCAAGGCAAGGAGTGGTTCTATGGCGGCATGTTCCGTGAACAGGACCTTTCGCCCGAAACGGTGCGGCAGGTGCTGAACGGGAAGGTGTACCATGGCATCGCGGAGTTTCCGTCGGAGCTGTTCATCACCGGCTTTTTCGACAATGTCCTAAGCAACTCCATCGGCATCCCCATACAGGTAGAAGGCAGCCCTCTCGCACTCTTCATCAGGCCCGATATTACCGTCCAGTTCGGGGAGATGCGTATCTTCTTCTCCATCATCATGGTCATTGCCATCCTGCTGAGCATCCTGCTTGTCGGCATTATTACGCGCTATATCGTGAAACCGATCGTGAAGTTAACCGAGGCCACCCAGAGCGTGGCGCAGGGCCAATATGACATTAAGCTGAACGTTACCCGGCGGGACGAGCTGGGGCAGCTTGCGGACCATTTTTCCCAGATGGCTAAAGGGCTAGCGCAGTTGGAGCAGATGCGCCAAGAGTTTGTATCCAATGTCTCGCATGAAATCCAGTCGCCGCTGGCCTCCATTCAGGGCTTCTCGCAGACGCTGCAAACGAAGCGCTTGTCCGAGGAACAACAGCAGCATTACTTATCGATCATTGAGGCGGAGAGCCGCCGGATGTCCCAGCTCAGCAAACAGCTGCTTATGCTGGCGTCCCTGGATAAGGAAGAAAATATTCTCGATAAATCCACCTTCGACGTGGCCGAGCAAATCAAGCAGGTACTGTTCCACACCGAATGGAGCTGGCGCAGCAAAGATTTGACCATCGATATGTCGCTGCCGCCGACCTATGTCTATGGCGATCAACAACTGCTGCATCAGGTATGGACGAACCTCATCACCAACAGCATTAAATTCACCGCACCTGAAGGCGCCATCTCCCTGCGTGTGATCGAACACAACACACAATGCCGCATCGAGATCTCCGATACGGGCATTGGTATTCCGCCAGAGCACCTGCCCCACATCTTCAACCGGTTCTACCGCGTGGATGAGGCTCGCGACCGCTCCGAGGGCAGCAGCGGATTGGGTTTATCCATTACCCAGAAAATTGTCGAACTGCATGGCGGACGTATTGAAGTCACGAGTCAGCCTGGAAAGGGAACCACCTTCACCGTGATCCTCCCTCACGTATAA	MKTLYSRIVLTTIAIMVISSLIAFVLSNLYYQYNLKPFNDQKVTTMAKDIGDFYDSHPETDIHDYLHHIGQLGYQFYLVNDQGKEWFYGGMFREQDLSPETVRQVLNGKVYHGIAEFPSELFITGFFDNVLSNSIGIPIQVEGSPLALFIRPDITVQFGEMRIFFSIIMVIAILLSILLVGIITRYIVKPIVKLTEATQSVAQGQYDIKLNVTRRDELGQLADHFSQMAKGLAQLEQMRQEFVSNVSHEIQSPLASIQGFSQTLQTKRLSEEQQQHYLSIIEAESRRMSQLSKQLLMLASLDKEENILDKSTFDVAEQIKQVLFHTEWSWRSKDLTIDMSLPPTYVYGDQQLLHQVWTNLITNSIKFTAPEGAISLRVIEHNTQCRIEISDTGIGIPPEHLPHIFNRFYRVDEARDRSEGSSGLGLSITQKIVELHGGRIEVTSQPGKGTTFTVILPHV				NA	NA	NA	NA	NA
AK002_06278	1101		COG0577	putative ABC transporter permease	ATGTTTCTTGCACTGCGTGAACTTCAGCATGCGAAGCTGCGCTATCTGCTGATTGGCTTCATTATGGTTCTGATTGCCTGGCTCGTTCTTTTCGTCACGGGATTGGCCCAGGGACTCTCCTACGATAACGCCTCTTCCATACAAAATATGAAAGCCGACTACCTGGTGCTTCAGGAGGGATCCGATCATCGGATCAATCGTTCCGTACTAACCGGCGAGATCTGGAACGAAGTGCAGAGCCGCCCGGGTGGAAACCCGGCCACTCCGCTCGGCGTACACATGAACACCTTGACCAAGGAAGGCTCCGCAGCCAAATTCGATGCAGCTTTTTTTGCCATTGATGTGGAGAGCATGCTGGCACCCCGAGTCGTTGAAGGCACCATGATTAGCAATACGGATGCCGACCTTGTGATGGCCGACCGCTCCTTGAAAGAGGACGGGTACCGGCTGGGCGACCGGATCGTGGATCAGGCTACAGGCGCCACATTTACGATTGCGGCCTTTACGGAGGGACAATCCTTCAGTCATGCCCCGGTCATTCACATGAACTTTGAGGGATGGAAGACGCTTCAATCAAACCCGGCAAAGCTAGCGCCTATCTATAATGCCATCGCTTGGAGAGGAACTCCGGAACAGAAGGAGGCCTTGGCCCGGGACGTATCCGGCATCGAGATTATCACGAAAGAGGAAGCCCTGCAGGGAATTCCCGGTTTTCAGGAGGAGCAGGGTTCACTCATCATGATGATTGTGTTCCTGTTTGTGATCGCAGCCTTCGTGCTGGCCGTGTTCTTCTACGTCATGACGATTCAGAAAATGAATCAGTTCGGCGTCCTGAAAGCCATCGGCGCGGGGACCGGCTATCTGGTGAGGAGTCTGATCTTTCAGGTCCTGACCCTTACCATCGTCAGTCTTGCGATCAGCATCGGCCTGACGTACGGGGTTTCGCTCCTGTTGTCCGGCATCGTGCCCTTTTCGTTAACGCCTTCGGTCGTTCTGCTCTGTTCCTTGCTGTTCCTGGCGGTTTCCCTGATGGGATCGCTATTGTCGCTATATCGGGTCATCAAGATCGATGCAATCGAAGCTATCGGGAGGGCTGCATAA	MFLALRELQHAKLRYLLIGFIMVLIAWLVLFVTGLAQGLSYDNASSIQNMKADYLVLQEGSDHRINRSVLTGEIWNEVQSRPGGNPATPLGVHMNTLTKEGSAAKFDAAFFAIDVESMLAPRVVEGTMISNTDADLVMADRSLKEDGYRLGDRIVDQATGATFTIAAFTEGQSFSHAPVIHMNFEGWKTLQSNPAKLAPIYNAIAWRGTPEQKEALARDVSGIEIITKEEALQGIPGFQEEQGSLIMMIVFLFVIAAFVLAVFFYVMTIQKMNQFGVLKAIGAGTGYLVRSLIFQVLTLTIVSLAISIGLTYGVSLLLSGIVPFSLTPSVVLLCSLLFLAVSLMGSLLSLYRVIKIDAIEAIGRAA				NA	NA	NA	NA	NA
AK002_06279	699	hrtA		Putative hemin import ATP-binding protein HrtA	ATGACATCATCCAAGCTGTTGATGGATCAGGTGAGCAAAGAATTCGGTGACGGGGACACCTCCGTTAAAGTACTGGACAACATTTCGCTGGATATCAAGGGTGGGGAATTCGTCGCGGTGGTCGGACCTTCCGGTTCGGGCAAAAGCACCTTTCTCTCCATTGCAGGAGCACTGCTATCCCCTACCCGGGGACGAATATGGATGGGCGATCAGGAGGTCACCCGGCTCCCCGCCAAACAATTGAATCAGCTGCGGCTGCGCCATATCGGATTTGTCTTTCAATCCTCCAATCTCATTCCGTATCTGACGGTCCGGGATCAGCTGCTCTTGATGGCCAAGCTGGCAAACCAGCAAGGCCAGGAGCCGCAGCGGCGGGCAGATGATCTGCTTCACCGGTTGGGCCTGTCGCATCGAAAGTCTCGTTATCCCGAGAGCCTGTCCGGCGGCGAACGGCAGCGGGTTGCCATTGCCCGGGCATGGATGAACGATCCGGAGCTCATATTGGCAGACGAGCCGACGGCAAGTCTGGATTCCGAGCGCGGCCGGACGGTCGTTCAAATGCTCGCCGATGAGGTGAAGCTGCGCCGGAAAGCTGCTATCATGGTCACGCATGACAAGCGCATGCTGGATCTATGTGACCGGGTCGTCTATATCGAGGACGGCAAGCTGTCCGAACGGCCGCAGCCGATTGTGTTGTAG	MTSSKLLMDQVSKEFGDGDTSVKVLDNISLDIKGGEFVAVVGPSGSGKSTFLSIAGALLSPTRGRIWMGDQEVTRLPAKQLNQLRLRHIGFVFQSSNLIPYLTVRDQLLLMAKLANQQGQEPQRRADDLLHRLGLSHRKSRYPESLSGGERQRVAIARAWMNDPELILADEPTASLDSERGRTVVQMLADEVKLRRKAAIMVTHDKRMLDLCDRVVYIEDGKLSERPQPIVL	PGPT0013345_15477	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK002_06280	1290	purA_2	COG0104	Adenylosuccinate synthetase	ATGTCAACGGTAGTCGTTGTGGGAACACAATGGGGAGATGAAGGGAAAGGGAAAATCACGGATTATTTGGCGGAAAGCGCCGACGTGGTAGCCCGTTACCAAGGCGGCAACAATGCCGGCCACACCATTCTGATTGACGGTAAAAAATTCAAGCTTAGCTTGATTCCATCCGGAGTATTCTATAAAGACAAAACCTGTGTAATCGGTAACGGTATGGTCGTTAATCCGGCTGCACTCATTGAAGAGATTAATTATATTCATGATAACGGGTTCAGCACGGACAATCTGGTAATCAGCGATCGTGCTCATGTTATCATGCCTTATCATATGGTATTGGATGCTCTGGAAGAGGACCGCAAAGGTCCGAACAAAATCGGTACAACACGCAAGGGGATCGGCCCTTGTTACATGGATAAAGCGGCACGCAACGGCATCCGGATCGCAGATCTGATGGATGCGGAAGAGTTCGAATTGAAGCTTCGCCATCTAGTGAAGGAGAAGAACCAAGTGATTACCCAAGTGTACGGCGGGGAAGCGCTTGATGTTGAAGAGATTCTAACGCAATACCTGGAGTACGCCGAGGTTATTCGTAAATATGTGCGCGACACTTCCGTTGTCTTGAATGATGCCATCGATGAGAATCAAAAGGTATTGTTTGAAGGCGCTCAAGGCGTCATGCTGGATATCGACCAAGGTACGTACCCGTTTGTTACGTCTTCGAATCCTTCTGCAGGCGGCGTCTGCATCGGTTCCGGCGTTGGGCCGTCGAAGATTCAACAAGTCATCGGCGTGGCCAAATCCTATACGACGCGTGTAGGAGACGGACCATTCCCAACGGAGCTGGATAATGAAATCGGCGAATATATCCGTGAAAAAGGACATGAGTACGGCACGGTAACCGGGCGTGCTCGTCGCGTAGGCTGGTTCGACAGCGTAGTTGTGCGCCATGCCCGCCGCGTAAGCGGAATTACCGGCCTGTCCCTGAACTCGCTGGACGTGCTCAGCGGACTGGAGACCGTGAAGATCTGTACCGCATATAAATTTCGCGGTGAGGAGATTACGCACTACCCGGCCAGCTTGAAAATGTTAGCCGAATGCGAAGCCATCTATGAAGAGCTGCCAGGCTGGAGCGAAGACATTACCGGCGCGAAGACGCTGGAGGATCTGCCTGAGAACACTCGCCGTTATGTTGAGCGGGTATCCGAGCTGACCGGCATACCGATTGCCATCTTCTCCGTCGGCCGCAACCGGGAGCAGACGAATCAAGTGCTGCCGATTTACGAGAAGTAA	MSTVVVVGTQWGDEGKGKITDYLAESADVVARYQGGNNAGHTILIDGKKFKLSLIPSGVFYKDKTCVIGNGMVVNPAALIEEINYIHDNGFSTDNLVISDRAHVIMPYHMVLDALEEDRKGPNKIGTTRKGIGPCYMDKAARNGIRIADLMDAEEFELKLRHLVKEKNQVITQVYGGEALDVEEILTQYLEYAEVIRKYVRDTSVVLNDAIDENQKVLFEGAQGVMLDIDQGTYPFVTSSNPSAGGVCIGSGVGPSKIQQVIGVAKSYTTRVGDGPFPTELDNEIGEYIREKGHEYGTVTGRARRVGWFDSVVVRHARRVSGITGLSLNSLDVLSGLETVKICTAYKFRGEEITHYPASLKMLAECEAIYEELPGWSEDITGAKTLEDLPENTRRYVERVSELTGIPIAIFSVGRNREQTNQVLPIYEK	PGPT0020140_3689	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
AK002_06281	1365	dnaC_2	COG0305	Replicative DNA helicase	ATGGGAGGAGAACTCTATTTCGATCGGGTCCCCCCGCAGAACCTTGAGGCAGAGCAGGCCGTGCTGGGTGCCATTCTGCTGCAGAGTGAAGCGCTGATCACGGCGATGGAGCGGGTGCAGGCTGAGGACTTCTACGATAAATCACATCAGATGATTTATGAGGTCATGGTGCAGCTCGGGGAAGGCAATCAACCGATCGATCTGGTGACCCTTACATCTCTTCTGCAAGATAAAGGACAGCTGGAAGAGATCGGTGGAGTCAGCTATTTAGCGAAGCTGGCCCATGCCGTCCCGACGGCTGCGAACGTGGATTATTACGCCCAAATCATCGAAGAAAAATCGATGCTGCGGCGTTTGATCCGGACGGCAACGCAGATTGTCAGTGAAGGCTATACCGGAGGAGAAGATGTATCCGGTATGCTCAGCGAGGCGGAGCGCCGCATTCTGGAGATCTCCAATCGACGCACGGGCAGCGGGTTTATTGCGATCCGTGACGTGCTGATGGAAGTCTTCGAGAAGGTGGAGGTCCTTCATCAGAACCGGGGGAATACGACAGGAATTCCTTCCGGCTTTGTGGATCTGGACAAAATGACAAGCGGATTCCAGCGCAACGACTTGATTATCGTGGCGGCTCGTCCTTCCGTAGGTAAAACGGCCTTCGCACTGAATATCGCCCAGAACGTGGCCATTCGCGCCAAAGAAACGGTAGCCATCTTCAGTCTGGAGATGTCGGCGCCGCAGCTCGTTCAGCGTATGATTTGTGCCGAGGCTAACCTCGATGCGGGCGTGATGCGAAACGGCGACTTCAAAGGTGACGAGGATTGGTCCAAGCTCACGATGGGCATTGCCGCTCTATCCGAAGCGGAGATTTACATTGATGATACACCTGGCGTCACGGTAGCCGATATCCGTGCGAAATGCCGCCGTTTGAAAAAAGAGAAGGGGCTCGGCATGATTCTGATCGATTACCTCCAGCTCATTCATGGGCGAGGCAAGCCCGGAGAGAACCGGCAGCAGGAGGTATCCGAGATCTCGCGTACGCTCAAACAAATTGCCCGTGAGCTCGAAGTGCCGGTTATCGCGCTGTCACAGCTCAGCCGGGGCGTTGAGCAGCGTCAGGACAAGCGTCCGATGATGAGTGACCTGCGGGAATCCGGTTCGATCGAGCAGGATGCCGATATCGTTGCGTTCTTATACCGGGATGATTATTACAATCAGGAAACCGAGAAGAAGAATATCATCGAGATCATCATTGCCAAACAGCGTAATGGTCCAGTAGGCACAGTGGAATTGGTCTTCCTGAAGAACTTTAATAAATTCGTCAATTACGAGCGAACGCATGCCGATGCTTTTGCGGCCGGGTAA	MGGELYFDRVPPQNLEAEQAVLGAILLQSEALITAMERVQAEDFYDKSHQMIYEVMVQLGEGNQPIDLVTLTSLLQDKGQLEEIGGVSYLAKLAHAVPTAANVDYYAQIIEEKSMLRRLIRTATQIVSEGYTGGEDVSGMLSEAERRILEISNRRTGSGFIAIRDVLMEVFEKVEVLHQNRGNTTGIPSGFVDLDKMTSGFQRNDLIIVAARPSVGKTAFALNIAQNVAIRAKETVAIFSLEMSAPQLVQRMICAEANLDAGVMRNGDFKGDEDWSKLTMGIAALSEAEIYIDDTPGVTVADIRAKCRRLKKEKGLGMILIDYLQLIHGRGKPGENRQQEVSEISRTLKQIARELEVPVIALSQLSRGVEQRQDKRPMMSDLRESGSIEQDADIVAFLYRDDYYNQETEKKNIIEIIIAKQRNGPVGTVELVFLKNFNKFVNYERTHADAFAAG				NA	NA	NA	NA	NA
AK002_06282	444	rplI		50S ribosomal protein L9	ATGAAAGTCATTTTCATAAAAGATATGAAGGGTCAAGGCAAGAAAGGCGAAGTGAAGGAAGTTTCGGAAGGATATGCAACAAACTTCCTGATTCCGCGGGGAGTTGCTCGTCCGGCTACCGATGGGAACATGAAAACGCTGGAGCAGCAGCAGGCCTCCGAGGAGAAGCGCAAGGCTCAGGAGAAGGAAGAGGCGCAGGTCCTCGGCAAGAAGCTGGAAGAGATGACGGTGGTCCTGAAAGCCAAAGCTGGAGAGGGCGGTCGTCTGTTCGGCGCCATTACCAGCAAACAAATTGCGGAAGCATTGGCAGGACAGAAGATCAAAATCGATAAACGCAAAATTGAGCTTAGCGATCCGATCCGCAGCCTGGGCGTTACCCAGGTTCCGGTGAAGCTGCATCCTGACGTCAAGGCGACGCTCAAGGTTCAAATTACGGAGGAGTAA	MKVIFIKDMKGQGKKGEVKEVSEGYATNFLIPRGVARPATDGNMKTLEQQQASEEKRKAQEKEEAQVLGKKLEEMTVVLKAKAGEGGRLFGAITSKQIAEALAGQKIKIDKRKIELSDPIRSLGVTQVPVKLHPDVKATLKVQITEE				NA	NA	NA	NA	NA
AK002_06283	2001	gdpP	COG3887	Cyclic-di-AMP phosphodiesterase GdpP	ATGCCTAAATTTCTGCAGAAACGCTGGCACGGCTATCATACCGTCTGGGCGTTTGCGCTGGTGCTTCTGCTTGTTATTTTTCTGTCGTTCTACAATACGATTCTGGGGCTGGTCGGGCTGCTGCTTGCGGTGGTAGGCGGCTACGCGATGCTGAAGGCGGAGATGAAGTTTCGCCGCGAGCTGGTGGATTATATCGGAGATCTGTCGTTTCGGATTCAGCGGGTCGAGGGCGAAGCGGTCAGCGTGCTGCCATTTGGCATTGTGCTGTACAGCGAGGATAAGACCGTGGAATGGCATAACCGATTCGTAGTCAATATGTTTCCTCAACAGCCGCTGGTCGGCGCTTCATTGCAGGAATTGTTCCCCGAGCTGGTGACAGCGCTAAAGGAAATCCAGGAGAAGAAGGATAGCAAAGAGAAGCCGCCGAAGGAAATTCGGCTGGAGATTTCCCATGAGGATAAGTTCTATGGAGCTACGGTAATTCCGGATGAGCGACTCATTTATCTGGATGAGATCACCGAGCTGGCGGTCCTCAGGCAGCGGTACGAGGATGAGCGGCTGGCCTTGGGCATTATCATGATGGATAACATCGATGAGGCCTCGCAGGGGATGGATGATCAACAGCGAACGGCACTCATTGCAAAGGTCACCAGCGAGATTACGAATTGGGCCCGGGAGTTCAATGTCTACTTACGGAGGCTCTCCTCGGACCGTTATTTGATGATGCTGAACCACAGGTCGCTCGATGCGCTGGAGAACAGCCGTTTTCTCATTTTGGACGAAGTCCGGGAGATGACGGCCGATCTGAAGGTACCGCTTACGCTAAGCGTCGGTCTTGCCTTTGGTTCAGACGATATCACGGAGCTCGGGCAGCTTGCCCAATCCAGTTTGGATATGGCACTGGGCCGGGGCGGAGATCAGGCCGCTGTCAAAGCCGGCCAAAGGCTCTCCTTCTATGGCGGTAAATCCAACGCGGTAGAGAAACGAACGCGCGTAAGAGCGCGAGTCATTTCCCATGCGCTGCGCGATTTGATGCAGGAGAGCGACAAAGTGATCATCATGGGCCACAAGCTGCCGGATATGGACGTGGTCGGCGCTGCGATCGGCATCCTGAAAGCAGCCCAAATGTATAAAGTCGAGGCTTATATCGTGATGGAGGGAATGAATCCGTCCATTTCGAGGATTATGGAAGAGGTCCGCAAGGATGAAGCCTTGATGAGCCGATTCATCTCGACCGAACAATCGATGCAGATGATGACGGAGCACACGCTGCTCGTTGTCGTGGATACCCATAAAGCCTCCATGACGATGGAGCCGAGGCTGGTTCATCGCGCAAGCCGGGTGGTCGTGATGGATCATCACCGGCGCGGCGAAGAATTTATTAATGACGCTGTGCTGATCTATCTTGAGCCGTATGCCTCTTCAACCTGCGAGCTGGTGACGGAGGTGCTGCAGTATATTCACGACCGGGTATCCCTTACTCCGGTTGAGGCGACGGCATTGCTGGCAGGGATTACGGTGGATACCAAGCATTTTGCCCTCCACACGGGATCGAGAACGTTCGAGGCGGCCGGGTTCCTGCGGCGTCACGGAGCTGACACCATGATGATTCAGCGGGTGCTCAAGGAAGATCTGACAGAATTTATAGCGAAGGCAGAAATCGTGAAACATGCTAAAATGGTATTTGACCATATCGCTATCGCGGTGGCGAAGAGCGGGGAGCCCATGCCGCAGCTGCTCATCGCTCAAGTGGCGGATATGCTGCTGAATATGACGGATGTGCAGGCATCCTTTGTCATTAGCGAGCGCACCGACGGCAAGATTGGCATTAGCGCCCGTTCGATGGGCAAGATGAATGTTCAGATGATTATGGAACGTCTCGGGGGAGGCGGACATTTAACGAACGCCGCAGTACAACTGGATACGACGCCTGAGAAAGCCGAGGAGAAGTTGATGGAGGTACTGAAGGACATCGAAGCGAAAGAGGGGTTATTTGAATGA	MPKFLQKRWHGYHTVWAFALVLLLVIFLSFYNTILGLVGLLLAVVGGYAMLKAEMKFRRELVDYIGDLSFRIQRVEGEAVSVLPFGIVLYSEDKTVEWHNRFVVNMFPQQPLVGASLQELFPELVTALKEIQEKKDSKEKPPKEIRLEISHEDKFYGATVIPDERLIYLDEITELAVLRQRYEDERLALGIIMMDNIDEASQGMDDQQRTALIAKVTSEITNWAREFNVYLRRLSSDRYLMMLNHRSLDALENSRFLILDEVREMTADLKVPLTLSVGLAFGSDDITELGQLAQSSLDMALGRGGDQAAVKAGQRLSFYGGKSNAVEKRTRVRARVISHALRDLMQESDKVIIMGHKLPDMDVVGAAIGILKAAQMYKVEAYIVMEGMNPSISRIMEEVRKDEALMSRFISTEQSMQMMTEHTLLVVVDTHKASMTMEPRLVHRASRVVVMDHHRRGEEFINDAVLIYLEPYASSTCELVTEVLQYIHDRVSLTPVEATALLAGITVDTKHFALHTGSRTFEAAGFLRRHGADTMMIQRVLKEDLTEFIAKAEIVKHAKMVFDHIAIAVAKSGEPMPQLLIAQVADMLLNMTDVQASFVISERTDGKIGISARSMGKMNVQMIMERLGGGGHLTNAAVQLDTTPEKAEEKLMEVLKDIEAKEGLFE				NA	NA	NA	NA	NA
AK002_06284	918			hypothetical protein	TTGAAATTGCGCTGGACTACGGCGGTATGGAGCGTTGTATATTTGCTTCTGCTGCTATCACTACTCACACCCTTTTCGATCGTAACGGCTTTCTTGTTGGTTCTGCCGGTTGCGATTCTGTTTACGGCTTTGAATACAAAATCATTTATCATGCATGTGGTGCCGGTGTGGCTGATCGCGCTTCTGATTCATCCCATTTATTTACTGCTCGCGATCTATTTTGCGATTCCGGGGATCGTGATGGGGTATTTATACCGGAAACGGAAGGCAGCCATGCAGGTGTTGAAGTATGGCATGGCCGTCATGCTGGTGGAACTGCTTGTTCTGCTGATGATCAGCACGGCCTTCTTCCAATTGAATCTGTCGGAATATGTGGATGAGATCGTAAAGATGACGACCGCACCGCTTACCGAGATGGGGGTTGAAGGCGGCCTGGGCGGCCAGTTCCTTGGCACCGAACTCGATACACAACTCATTAAAGATCAAACGATGCGTTTGGTTCCGTTCGCGATGATTATCAGCTCGTTCCTTATGACGGTGGTCACGCATGCTTTGGCACGGCCCACCCTCAACAGCATGGGTTTATCCGTGCCGCGGCTGAAGCCGGCCAGAGAATGGATGCTCCCGCGTTCCCTGATCTGGTACTACCTGCTCATTTTCTTCATCAACATAGCAACCGTCAATTCGGACAATACCTTCATGAAGATGATAGTAGCCAACGCTACGCCATTGCTGCAGATCTGCTTCATGATTCAAGCGCTGAGCTTCTTCTATTATCTGGCACACGAGCGGAAGTGGCATCCCATCGCGCCGCTTTTGACGGCCATACCGATTGTTCTGTTCCCGCCGGCAATGATTATCGGAATCCTGGATCTGGCGTTCCCGCTTCGTCAGGCATTTAGTAAAAACAAAAGATAG	MKLRWTTAVWSVVYLLLLLSLLTPFSIVTAFLLVLPVAILFTALNTKSFIMHVVPVWLIALLIHPIYLLLAIYFAIPGIVMGYLYRKRKAAMQVLKYGMAVMLVELLVLLMISTAFFQLNLSEYVDEIVKMTTAPLTEMGVEGGLGGQFLGTELDTQLIKDQTMRLVPFAMIISSFLMTVVTHALARPTLNSMGLSVPRLKPAREWMLPRSLIWYYLLIFFINIATVNSDNTFMKMIVANATPLLQICFMIQALSFFYYLAHERKWHPIAPLLTAIPIVLFPPAMIIGILDLAFPLRQAFSKNKR				NA	NA	NA	NA	NA
AK002_06285	312			hypothetical protein	ATGCCAAATATGCCGAAGGACTTGGATGTAGCGAAACGCGCCAAAGTGATTGAATGGCTTAAAACCGAAGTAATTGATCATGTATCCCGGTTATTCAAAGCTCTATGGGAAGGCAGCACTACAAAGGTTGGAGACAGTTTGGCGAGCCTGATGATGAGCTCCTACATACTGGGCCGAAGGCTCGGCTTGACCTATCGGGATTTGGACGATCTCTTGTTGGAGAAATTGAAAAAGCATAAGCAGGAAGGACATCAGCTGGAAGATTGGTATCAGGATATTTCCGCGCTCGAAGAACATTTGCGTAAGAGGTGA	MPNMPKDLDVAKRAKVIEWLKTEVIDHVSRLFKALWEGSTTKVGDSLASLMMSSYILGRRLGLTYRDLDDLLLEKLKKHKQEGHQLEDWYQDISALEEHLRKR				NA	NA	NA	NA	NA
AK002_06286	435			hypothetical protein	ATGAATATCGCTTTTTTTCTATTACCGAAGCAGGAAGTGATTTGTTTAACGCTGGACTCCACGCTTAGGCAGACGCTGGAGCGGATGGAGTTTCACCGTTACACGGCGGTGCCCGTGCTGGATAAGAACGGTCAATATGCAGGCACCGTAACCGAAGGCGATCTGTTATGGCATATGAAGAACTCGGAAGGCAAAATCACTTTTGAGAACGCTTCGAAATTTTTGCTGAAGGATGTTCCGTTCCGCATGGATATCAAGCCAGTATCGATCGATGCCCGGATGGAGGATCTGATTAATTTGGCCAAGGTACAGAACTTTGTGCCTGTGGTGGACGACATGAACCGATTTATCGGGATTGTCCGCAGAAGCCTTATCATCGAGTACTGTGAACGCTTTGTTTCCAAGGAGACGATGGAATCCCAAGGGGCAACATAA	MNIAFFLLPKQEVICLTLDSTLRQTLERMEFHRYTAVPVLDKNGQYAGTVTEGDLLWHMKNSEGKITFENASKFLLKDVPFRMDIKPVSIDARMEDLINLAKVQNFVPVVDDMNRFIGIVRRSLIIEYCERFVSKETMESQGAT				NA	NA	NA	NA	NA
AK002_06287	987	tagU_5	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAAGAGGAAATCATTATATATTACGCTCGCTGTTGTCATATTGCTGGGCTCTTCCGCATTTCTGTTCAGAACGCAGCTTGCGGTCGTGGCATTTGATCTGTTTATGGCAAAGGACGTAGAGGAATCGTTACAGAAATCGTATAAGCCGCTCCAGAGCGACAAGACGCCTGAGCCGGTCGTACTCCAGAGCAAGCCGTTCTCGGTCATGCTGCTGGGAAGCGACCAACGGGAAGACGAGCCGGCCCGTTCGGACACGTTGATTTATGCGGTTGTGCGTCCCATGGAGTCGAAAGTGCTCCTAATCTCGGTACCGCGGGATACGTACGTCGATATTATCGGCAAGGACAAGAAAGACAAGATCAACCATGCGTTTGCATATGGCGGTCATCAAATGGCGAAAGATACGATGGAAGCATTTTTCGATGAGGAACTTGATTATTATGCCTCCATTAATTTTCAAGGTTTGAAGGATGTCGTTGACGCCCTTGGCGGCGTCGAGCTGCCGATCCGCAAGGATATCGTCAACAAAGGCAGGGATCATGAGAAGTTCACGATTGAAGCCAACAAACCGATTTACAATGGCGAGGAAGCCTTGAATTATGTCCGTTATCGTGAAGATAGCGACTTTAATCGGGCGAAGAGACAGCAAGTATTTTTGGATGTAGCGGCTAAGCGGGTCATGAAGCTGGATCAGATCGGCAAGGTGCCTGAACTGATCGAGATTATGGGAGATAATTTTCAGACCGATATGCAGCCTAAATTCATTATTGACCTGGCGAAGCAGATGCTGACCGGAGGCAAAGTGGATATGACCAGTTATACGATCATGGGAGAAGGCATGAAAATTAACGGCATCTATTATAATGAGGCCGACATGGAGGACGTGCAGGAAGCCCGCGATCTAATCGACAACTGGATGAACCCGGATACGCCGGCAGACCAGCTGCTGCAGCCTAAAGATGCAGAGAAACAGAAATTGCAATAA	MKRKSLYITLAVVILLGSSAFLFRTQLAVVAFDLFMAKDVEESLQKSYKPLQSDKTPEPVVLQSKPFSVMLLGSDQREDEPARSDTLIYAVVRPMESKVLLISVPRDTYVDIIGKDKKDKINHAFAYGGHQMAKDTMEAFFDEELDYYASINFQGLKDVVDALGGVELPIRKDIVNKGRDHEKFTIEANKPIYNGEEALNYVRYREDSDFNRAKRQQVFLDVAAKRVMKLDQIGKVPELIEIMGDNFQTDMQPKFIIDLAKQMLTGGKVDMTSYTIMGEGMKINGIYYNEADMEDVQEARDLIDNWMNPDTPADQLLQPKDAEKQKLQ	PGPT0023440_2611	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK002_06288	972	dacA_3		D-alanyl-D-alanine carboxypeptidase DacA	ATGAAAAAACGGTGGCTTTGGCTGGTCATGATGTTGCTAATTATCGTCCCCATAGGGGCGGTTGTCATAGGAAATATAGAACGAGCGGGGTTTAAACCGAAGGTCGACGCGCGAGCCGTCGTCTTAATGGATTTAAATACCGGGCGTATTTTGCTCAGCGAGAATGGCGATTTACCCTTACCGCCTGCTAGCATGTCCAAGCTGATGACCGAATTGGTTATCCTGGATGACATTAAGACCGGGAAGAGATCCTGGGACGATGAAGTCAAGATAAGCGATACCGCAAGCGATGTCAGAGGCGTTAAAATCGCCTTGAAGTCCGGCGAAATTTTGACGGTTCGCGAGTTGTTCCAGAGCATAACGGTTTATTCGGCCAATGATGCGTCCGTGGCGCTTGCCGAGCATTTTGCGGGCTCTGAGGAAGCGTTCGTCCGGAAGATGAATGCCAAGGCCAAAGAGATTGGCCTATCCAGCGCGACCCGTTTCGTGAACGCATCAGGAGTCGAGCAGGGCACCGCCAATGGTCATGCCTGGTCCTCGGATGGAGAAACGGTAATGACCGCAGAAGATACGGCTAAACTAGCCGCGCATCTCATTAGAAGCCACCCGGATATTCTTAGCACTTCCAGCAAAACGCAGACGAAGATAAGCGGACGCAATTTATATTTAAGCAACACCAATTGGATGCTGCCCTCGCTTGGCGGCCCCTATTCCTACGAAGGCACCGATGGATTAAAAGCAGGGTACACGGCGAATGCAGGGTACTGCTTTACGGGAACAGCCGAGAAGCAAGGCAGCCGGCTTATTGCCGTTGTCATGGGTACCGAATCCAAAGAAGCAAGGTTTGAAGAAACGCGAAAGCTGTTCGATTACGGATTTTCCAAGACCTTGACGTGGAGAGAGCGGCTGGACGACTGGTTCCAATATTCGGGAACCGCAGCCGCTCTTCAGCATGAGAACAGACCGGTTTAA	MKKRWLWLVMMLLIIVPIGAVVIGNIERAGFKPKVDARAVVLMDLNTGRILLSENGDLPLPPASMSKLMTELVILDDIKTGKRSWDDEVKISDTASDVRGVKIALKSGEILTVRELFQSITVYSANDASVALAEHFAGSEEAFVRKMNAKAKEIGLSSATRFVNASGVEQGTANGHAWSSDGETVMTAEDTAKLAAHLIRSHPDILSTSSKTQTKISGRNLYLSNTNWMLPSLGGPYSYEGTDGLKAGYTANAGYCFTGTAEKQGSRLIAVVMGTESKEARFEETRKLFDYGFSKTLTWRERLDDWFQYSGTAAALQHENRPV	PGPT0024040_5719	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK002_06289	966	oppF_5	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGTCAAGCACTGATCGAAATAGACGGTTTGAAGAAATACTTTCCCATCACCGGCGGCGTATTTCAACGAACCGTGGGCAATGTAAGGGCCGTTGACGGAGTCAGCTTTACCATCAACAAAGGGGAATCCTTTGGACTTGTAGGTGAATCCGGCTGCGGCAAGAGCACCATTGGACGAACCATTCTTCGATTGCTGGAAAAAACGGAAGGCAAAGTCATCTTCAATGGTACCGACATCCATTCCTTATCCAAGGAGAAGATGCGTGCCTTGCGTCCGAAGATGCAGATCGTATTCCAGGATCCATTCAGCTCGCTGAATCCAAGAATCAAAGTGGGCGAAGCCATCGGCGAAGCACTCATTGACCATGGGTTAGTTAATCGTAAGGAACTTAAAGACCGCGTGATTGAAACGCTGGAAATTTGCGGCCTTGCCGCCTATCATTACGATCGGTATCCGCATGAATTCTCCGGCGGTCAGCGTCAACGGATCGGGATTGCCCGCGCATTGATTCTGAATCCCGACTTTATCGTCGCGGATGAGCCGGTATCTGCACTGGATGTATCGATTCAAGCGCAAATCATCAACCTGCTGAGTGATTTGCAGCGCGAGAAGCAGCTGACTTACTTGTTCATTTCTCATGATCTCAGTGTTGTAGAGCATTTGTGCAACCGAATTGGGGTAATGTATCTGGGATCGATGGTAGAAATGGCAAGCAAGGAAGAGCTGTTCCGCAACCCGCTGCATCCTTATACGAAAGCATTGCTGTCTGCCGTGCCGGTACCGGATCCAACGCTGAAGCGCGATCGGATCGTACTGAAAGGCGACATTCCAAGCCCGGCGAACCCGCCTTCAGGCTGTAAATTCCACACACGCTGCCCGCTGGCTTCGGACCTGTGCAAACAGCAAGTGCCGGAATACCGCAACGTAGGTAATGATCACTTTGTTGCTTGTCACTACGCTTAA	MSQALIEIDGLKKYFPITGGVFQRTVGNVRAVDGVSFTINKGESFGLVGESGCGKSTIGRTILRLLEKTEGKVIFNGTDIHSLSKEKMRALRPKMQIVFQDPFSSLNPRIKVGEAIGEALIDHGLVNRKELKDRVIETLEICGLAAYHYDRYPHEFSGGQRQRIGIARALILNPDFIVADEPVSALDVSIQAQIINLLSDLQREKQLTYLFISHDLSVVEHLCNRIGVMYLGSMVEMASKEELFRNPLHPYTKALLSAVPVPDPTLKRDRIVLKGDIPSPANPPSGCKFHTRCPLASDLCKQQVPEYRNVGNDHFVACHYA	PGPT0004440_8202	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004440-ddpF-K02032	NA	NA
AK002_06290	975	oppD_6	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGCAAAAGAATTAGTAGAATTCCGCAATTTAAAAACGCATTTTCAAACCTCCGCAGGCACCGTGAAAGCCGTCGACGATGTAAGCTTCAAAATCCGTGAAGGTGAAACACTGTGCGTGGTGGGTGAGTCGGGCTGTGGCAAGAGCGTAACAGCCATGTCTCTTATGCGTTTGATCGATACGCCTCCGGTAGGGGGAGAAATCCTGTATGAAGGCAAGGACCTGCTGAAGATGAGCAAGCGCGAGATGAGCTTGATTCGCGGCAATGATATCGCCATGATCTTCCAGGAACCCATGACCTCGCTCAACCCGGTATTAACGATCGGGGAGCAGATTGTGGAGCCGATCCTGCTTCATCAACTCGTTAACCGTAAAGAAGCAAAACAACGCGCCATCGATCTGATTAATTTGGTTGGAATCCCGCGTGCGGAGAAGATTTTCGACTCTTATCCGCATGAACTCAGCGGCGGTATGCGCCAACGGATCATGATCGCGATTGCCCTCAGCTGTAATCCGAAGCTGCTGATCGCGGATGAGCCTACAACCGCGCTTGACGTTACGATTCAGGCCCAGATTTTGGATTTGATGCGAGACATTAAGGGTAAACTCAACACTTCGATTATGCTCATCACGCATGACCTTGGCGTTGTTGCCGAGATGGCGGATTATGTTGTCGTTATGTACGCAGGCAAAGTCATAGAAGAAGCTCCGGTCATCGAGCTGTTCAAACAGCCGAAGCATCCATATACCAAAGGTCTTCTGAAAGCGAAGCCGGTCATTAATCAGACGCAAGAACGTTTGTATTCGATTCCGGGACAAGTGCCTAACCCGGTAGATCTTGGAGACAACTGTCATTTCCATGATCGCTGCGAATTCTGCATGCAGATCTGCAAGGAGAAAACGCCTCCGCTCGGTACGGATCCTAACGGCCATAAGGTCGCTTGCTGGCTGTATGAAGAGGAGGGGAAAGCCTAA	MAKELVEFRNLKTHFQTSAGTVKAVDDVSFKIREGETLCVVGESGCGKSVTAMSLMRLIDTPPVGGEILYEGKDLLKMSKREMSLIRGNDIAMIFQEPMTSLNPVLTIGEQIVEPILLHQLVNRKEAKQRAIDLINLVGIPRAEKIFDSYPHELSGGMRQRIMIAIALSCNPKLLIADEPTTALDVTIQAQILDLMRDIKGKLNTSIMLITHDLGVVAEMADYVVVMYAGKVIEEAPVIELFKQPKHPYTKGLLKAKPVINQTQERLYSIPGQVPNPVDLGDNCHFHDRCEFCMQICKEKTPPLGTDPNGHKVACWLYEEEGKA	PGPT0004435_11523	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004435-ddpD-K02031	NA	NA
AK002_06291	924	oppC_3	COG1173	Oligopeptide transport system permease protein OppC	TTGTCCGCAGAGGCTGCACCATTAAAAACGAATCTACCAGTACCGAAGAAGCAGCCGGATTCCCCGTGGCGGATCGCTATTCGCCGTTTTTCCAGAAACCGTCTTGCTGTCATCGGACTTATCATAATCGTATTTATGTTTTTGCTGTGTTTTATTGGTCCATTGTTCTCGCCATATTCACTGTATGACTACAGTGTAAAAGATAAAAACTTGCCTCCAAGCGCCAAATATTGGCTAGGCACGGATAAGCTCGGCCGCGACGTTCTTCTGCGTATGATGCTTGCAGGCCGGATTTCCCTGACGGTCGGTCTTGTCGCAACTGGAATCTCGGTTATCGTGGGAGCGACGCTTGGCGCGCTGGCCGGGTTCTATCGGAAATGGGTCGATACTCTGATTATGCGTATTGCCGATATATTTATGGCGATCCCGACGCTCCCGATCCTGATCATTTTGGGTGCGGTGCTGTCAGACTTAAAGGTTGATCCTTCTGAGCGAATCTATTTCTTGATGTTGATTATAGGTATCTTAGGCTGGAGTGGAATTTCCCGCCTTGTACGCGGACAGATATTGACACTTCGTGAACAAGAGTTTATGCAGGCAACGGAAGCGCTGGGCCTTAAAGACCGACGCAAAATTTTCCGTCATCTGCTGCCGAATACAATTCCGATTATTATCGTATCCGCAACGCTTGGCGTAGCCGGAGCCATTATTTACGAATCAGCGTTAAGCTTCTTGGGAGTTGGGGTCGTTCCGCCAACACCTTCTTGGGGGAACATGATCTCGGCCGCAAACAGTTTGATTGATTTCCGTAAGCGGCCTTGGCTGTGGATACCGCCAGGCATGTGTATTCTTGTTACCGTAGTTGCAATCAACTTGATCGGTGACGGGCTTCGCGACGCACTTGACCCGAAAATGAAGAAGTAG	MSAEAAPLKTNLPVPKKQPDSPWRIAIRRFSRNRLAVIGLIIIVFMFLLCFIGPLFSPYSLYDYSVKDKNLPPSAKYWLGTDKLGRDVLLRMMLAGRISLTVGLVATGISVIVGATLGALAGFYRKWVDTLIMRIADIFMAIPTLPILIILGAVLSDLKVDPSERIYFLMLIIGILGWSGISRLVRGQILTLREQEFMQATEALGLKDRRKIFRHLLPNTIPIIIVSATLGVAGAIIYESALSFLGVGVVPPTPSWGNMISAANSLIDFRKRPWLWIPPGMCILVTVVAINLIGDGLRDALDPKMKK	PGPT0004450_5591	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004450-ddpC|appC-K02034	NA	NA
AK002_06292	963	gsiC_5	COG0601	Glutathione transport system permease protein GsiC	ATGAAGCAGTACATTATCCGGAGGCTGCTGCAGATTATCCCGACAATGATCGGGATTTCGATTATCATATTTGCAATATCAGCATTGGTTCCAGGTGACTATATCACTGCAGTGAATAACCCGACGATGACTGCTGAGAAGGCAGCTCAGCTTCGGGAAATTTATGGTTTAGATAAGCCGCCAGTAGAGCGTTATCTTACATGGGTCGGCAATATGCTGAAGGGTAATCTCGGAGATTCCCTTGTGCACAAACAACCTGTTACAACCGTTATGGGCAATTATGTATGGAACTCCTTTTTCATCGCTATTTTCAGTTTGATATTGAGTTGGATTATTGCTATTTTTGCCGGCGTATTCTCGGCTAAATTCCAGTATTCTTTATTCGATAAAATCATTACGCTATTAATCTTTTTATGTATGTCACTGCCCTCTTTCTTCATCGGACTTCTTCTCATCAAATTTTTAGCGTTGGATCTAGGGTGGTTCCCGGTTGGCGGTATGAAGACATCCGGAATGAATGGAAATACGTGGGAACAATTGGTTGATATCGCTTGGCATATGTTCTTGCCGGTTACGGTACTCACGATGCTTAGCACAGGCAGCTTGACGCGGTATTTCCGTACAAGCATGCTGGAAGTTATTCGTCAGGATTACATCCGGACGGCTCGTGCTAAGGGGTTGAAAGAACGTACGGTAATTTTCAAGCATGCTCTGCGTAATGCCATGCTTCCTGCGATCACCCTGATGGGCTTTGAGCTGCCAGCTTTGTTTGGCGGCGCCATCATCATGGAGAAAATTTTCATTTGGCCAGGGGTCGGTCAGGTTTATCTGGAATCGATCAATATGCGGGACTATCCGTTCATGCTTGGTTTCACGGTGTTCATATCCGTACTGACACTTCTGGGCAACCTGTTGTCTGACGTTCTGTATGGAACTGCAGATCCAAGAATTCGCTTAAAGTAG	MKQYIIRRLLQIIPTMIGISIIIFAISALVPGDYITAVNNPTMTAEKAAQLREIYGLDKPPVERYLTWVGNMLKGNLGDSLVHKQPVTTVMGNYVWNSFFIAIFSLILSWIIAIFAGVFSAKFQYSLFDKIITLLIFLCMSLPSFFIGLLLIKFLALDLGWFPVGGMKTSGMNGNTWEQLVDIAWHMFLPVTVLTMLSTGSLTRYFRTSMLEVIRQDYIRTARAKGLKERTVIFKHALRNAMLPAITLMGFELPALFGGAIIMEKIFIWPGVGQVYLESINMRDYPFMLGFTVFISVLTLLGNLLSDVLYGTADPRIRLK	PGPT0004445_8679	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004445-ddpB|appB-K02033	NA	NA
AK002_06293	1770	appA_3		Oligopeptide-binding protein AppA	ATGAAGAAAAGAATGTCACTCCTGCTGGCAATCATGCTTCTGGCCATCACGGTATTAGCAGCTTGCGGAGGCGGAGGAACAGCAGAACAGCCACCAAGTCAAGGGGATCAAACGGAGCAAACTCCACCAGCTGAAGGCGATGGCGAAGAAACTACAGAACCGCCAGCTGAATCTGGTGACGAAAGCCAAGGCTATTTTGAAGCTGAAGACCCATCTTTGAATCCAGCAACTGCATTGAATCGTAAAGACACGCTTGTTGTAGGTATGACTGCACCTAAAGGGGTATTTAACCCGTTCTACTGGCAGACTGCTTATGACAAATATGTCGTAGACGCTATCTTTGATTCTTTCTTCGCAGTTCAAGGCGACGGAACGTACCAGAACCGTTTGGCGGAAAGCGTAGAAGTCTCCGAGGATAAATTGAAGTACACGTTCAAATTGAAGCCAGGCGTGACGTATTCCGATGGCACTCCTGTTACTGTAAAAGACTATGCTTTTGCAATGAAAGTTTATCATGATTCCAGCTATGACGGCCAATCCGATCTGTTGTCCGTTCATATCAAAGGCGGTAAAGAGTACAACGAAGGCAAAGCTACCGATATCTCCGGTATTAAAGTCATCGACGACAATACCATTGAAATCGAAGTTACCGAAGCAAATGCAATGACCAAGGATAACCTCGGTACGGTTGCTTTTGCACCAGAAGCCTACTATGGCAAAGGTTACAAGCAAGGCAACCTGGAGTACATGAAAGATCTGCACGCTAAACCAATCGGAAGCGGTCAATATGTATTGAAGAGCTACTCCCCAGGTCAAGAGGTAGTACTCGAAGCTAACGCTAACTACTTCCTGGGCGCACCGAAAATCAAGAACGTTATTTACAAGACTACAACTGAAGAAACCAGATTGGCCATGTTCCAATCCGGCGAAATCGATATGGATATGGTTACCGTTAACGAAGACAACGTAGAAGAATTGAAGGGCATGGGCTTCCTGGACGTCAACATCTTCCCAACCAACGGTTACGGATATGTTGCCATGAACCACAATGATCCTAAATTCCAAGACGTTAAGGTTCGTCAAGCATTGATGTACGGTTTGAACCGTGCAGAAGTAGTAGAAATCATCTATGGTCCTTATGCGAACGTATTGAATATTCCGCAATCCAGCGTTTCCTGGGCTTACACGGACGAAGGCATTGAGCCGTACGATTTCGACATGGAAAAAGCGAAGCAGCTTCTTGATGAAGCAGGTTGGGTAGCCGGCGCAGACGGTACTCGCGAAAAAGACGGCAAGAAATTCGAAATTCATTTCTCTGCAACAGCTGACAACCCGGTTATCGATGCTCTGATTCCGGTTATGACGCAAAACTACCAAGAACTTGGCATCAAACTGACTGCTGAAACGTTGGATTTCAACGCTATCATGGATAAGAAGGACAAAGGCGAGTTCGAAATGTTCTTCGCGGCTTGGGGCTTGACTCCGGATCCGGATTCCACGGTTTACATTACAGATGGACAGCAGAACGATATCGGCTTCTCCAATCCAGATTACGATGCAGCTATGAAAAAAGGTCTGAACGCGTTTGATCTTGAAGAACGTAAAGCAGCTTACGCTGAAGCATATCAAGTGCTGAACCAAAACGTTCCGGATCTCTTGATCTATCAAAGACGCGATATGTGGGGTATTAACAGCAGAATCAACGGCATGGACATCACTCCATACAAAGACTTCACCATCGATCTCTATAAAGCCGAAATTCAACAATAA	MKKRMSLLLAIMLLAITVLAACGGGGTAEQPPSQGDQTEQTPPAEGDGEETTEPPAESGDESQGYFEAEDPSLNPATALNRKDTLVVGMTAPKGVFNPFYWQTAYDKYVVDAIFDSFFAVQGDGTYQNRLAESVEVSEDKLKYTFKLKPGVTYSDGTPVTVKDYAFAMKVYHDSSYDGQSDLLSVHIKGGKEYNEGKATDISGIKVIDDNTIEIEVTEANAMTKDNLGTVAFAPEAYYGKGYKQGNLEYMKDLHAKPIGSGQYVLKSYSPGQEVVLEANANYFLGAPKIKNVIYKTTTEETRLAMFQSGEIDMDMVTVNEDNVEELKGMGFLDVNIFPTNGYGYVAMNHNDPKFQDVKVRQALMYGLNRAEVVEIIYGPYANVLNIPQSSVSWAYTDEGIEPYDFDMEKAKQLLDEAGWVAGADGTREKDGKKFEIHFSATADNPVIDALIPVMTQNYQELGIKLTAETLDFNAIMDKKDKGEFEMFFAAWGLTPDPDSTVYITDGQQNDIGFSNPDYDAAMKKGLNAFDLEERKAAYAEAYQVLNQNVPDLLIYQRRDMWGINSRINGMDITPYKDFTIDLYKAEIQQ	PGPT0004430_2879	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-UNKNOWN_AI_PERCIPITATION-DPP-MEDIATED_PATHWAY,PGPT0004430-ddpA|ABC_PE_S-K02035	NA	NA
AK002_06294	93			hypothetical protein	ATGAAAGGCAATACCTCCAAACAGGCGTCATCTAATACGGAATTGAAGCTTACGGTTAGGATGAAATATTACATAAAAATGGGCTTTATCTAG	MKGNTSKQASSNTELKLTVRMKYYIKMGFI				NA	NA	NA	NA	NA
AK002_06295	675	yedK_2	COG2135	SOS response-associated protein YedK	ATGTGCAGAAGATTTTCGCTGTCCGCAGGGCTCGAAGAAGTGAATCAACGCTTTGGCATCCAACGGGTCATGTATTACTACAAGAGCCGGTACAACATTAGTCCTACCCAAACCATGCCGGTCATTGTACAGGAACAGGGGGAGCGGGTACTCGATGAGTATCGGTGGGGCTTGGTTCCATATTGGGGAAAAGACGCGGTCAATGCCGATATTACGACAGTTGATCAGAATCCCACTTATCGCAAAGCGATTGATACAAGACGCTGCGTTATACCTTGCAACGGACTATATTACTGGAGGACGGTTGGCAAACGGAGTTATGCCGTACGGACCGTGATCGGAGAGAATGAAATATTCGGTATGGCGGGCCTATACGAGACATGGCGGGATGCCAGGGGAAATGAAATGAGAACCTGCACGGTTCTGATGACGGATGCAAATGAAGCGATATCGGAGTTCGAAACACGGATGCCGGCAATCTTGTCGGAAGATAACATGGCCAAGTGGCTGGACCCGGAAATCCAGGGAAGGCATGCGGTTCATCCGCTGCTTCATACTTACCGCGGACAGATGCGCACATATCCGGTAACGCCTTTAGTGGCCGACGATACGCATGATCATCAGCAGTGCATTGAAGAAATGGATTTGAAGCTTGCCTGGGTGAAGAACCTGTAG	MCRRFSLSAGLEEVNQRFGIQRVMYYYKSRYNISPTQTMPVIVQEQGERVLDEYRWGLVPYWGKDAVNADITTVDQNPTYRKAIDTRRCVIPCNGLYYWRTVGKRSYAVRTVIGENEIFGMAGLYETWRDARGNEMRTCTVLMTDANEAISEFETRMPAILSEDNMAKWLDPEIQGRHAVHPLLHTYRGQMRTYPVTPLVADDTHDHQQCIEEMDLKLAWVKNL				NA	NA	NA	NA	NA
AK002_06296	132			hypothetical protein	ATGTACGCTTGTATCCCTGGAGAGGACATCATCAGATTGAAAAATTTCTGCAATTTTAATGTAATCGCATTATTAAATTTTCCTTACCGCACGGTCGTAACGATGTTCGTCTATCATGTTTGTACACGATAG	MYACIPGEDIIRLKNFCNFNVIALLNFPYRTVVTMFVYHVCTR				NA	NA	NA	NA	NA
AK002_06297	273			hypothetical protein	ATGGCTTTTAAACAAAGAGAAGGCGGAGACAACGACAAAAGACCGGCACGCCGCGGCGGCCGCAACAAGCGTCGTAAAGTATGTTTCTTCACTGTGAACAAAATTACTCACATTGACTATAAAGATACAGACCTGCTCAAGAAATTCATCAGCGAGCGCGGAAAAATCCTGCCTCGTCGTGTAACAGGTACTAGCGCTAAATATCAGCGTGCCCTGACGATTGCGATCAAACGCTCCCGTCAAATCGCATTGCTTCCATACACAACGGAGTAA	MAFKQREGGDNDKRPARRGGRNKRRKVCFFTVNKITHIDYKDTDLLKKFISERGKILPRRVTGTSAKYQRALTIAIKRSRQIALLPYTTE				NA	NA	NA	NA	NA
AK002_06298	495	ssbA	COG0629	Single-stranded DNA-binding protein A	TTGTTGAACCGTGTCATTTTGATTGGCCGACTGACTAAGGATCCCGAGCTGCGATATACTCCTTCAGGTGTTGCTGTAACGCAATTTACACTTGCTGTTGATCGTCCGTTTACTGGACAAGGCGGGGAGCGCGAAGCGGATTTCATTCCGGTCGTGACCTGGAGACAGCTTGCGGAGACTTGTGCGAACTATCTGCGCAAAGGCCGTCTGACGGCTGTAGAAGGACGCATTCAAGTGCGGAATTACGAGAATAACGAAGGTAAGCGTGTATACGTCACCGAAGTCATTGCCGATAATGTTCGCTTCTTGGAGTCAAACCGTGAAACAAGCGGTGGCGGAGGAAATCGTGAGGAATCATCGTTCAACGGAGGAAGCAACAGCAATAGCGGTGGCGGAAACCGGGGGAACAATAACTACTCGCGAAACAACAATCAGGATCCTTTTTCCGATGAAGGAAAACCGATCGATATTTCGGATGATGATTTGCCATTTTAA	MLNRVILIGRLTKDPELRYTPSGVAVTQFTLAVDRPFTGQGGEREADFIPVVTWRQLAETCANYLRKGRLTAVEGRIQVRNYENNEGKRVYVTEVIADNVRFLESNRETSGGGGNREESSFNGGSNSNSGGGNRGNNNYSRNNNQDPFSDEGKPIDISDDDLPF				NA	NA	NA	NA	NA
AK002_06299	285	rpsF	COG0360	30S ribosomal protein S6	ATGCGCAAATATGAAGTGATGTACATTATTCGTCCTGACATTGAACAAGAAGCTGTTCAAGCTGCAGTCGATAAATTCCAAGGCATCATCTCCAACGGCGGAGAAATTACAAAGCATGACGTAATGGGTAAACGCCGTCTTGCGTATGAGATCAAGAAATTCCGTGATGGCGTCTACGTTCTGGTAAACTTCAACGCAACACCTGAAGTTGTAGCTGAGCTTGAGCGTCTCATGAAGATTTCTGACGAAGTCATTCGTTATCTCATCACGAACGACGTTGCTTAA	MRKYEVMYIIRPDIEQEAVQAAVDKFQGIISNGGEITKHDVMGKRRLAYEIKKFRDGVYVLVNFNATPEVVAELERLMKISDEVIRYLITNDVA				NA	NA	NA	NA	NA
AK002_06300	195			hypothetical protein	ATGGGAGAACAGACCGAATTTCGTGCAGGCGACAAAGCGCCAAACAACGGCATTTATATGGAAGTTGGCGTTAGAGACCATATTATGGGCATCGAGAACCCGCGTCAAATTAAAATGAGCAAGGGCGACACCTTTCCTGAAACTCAAAATGATGATCGCGTATGGTTAAACAAGCGTCGGGTGCAGCCTAAGTAA	MGEQTEFRAGDKAPNNGIYMEVGVRDHIMGIENPRQIKMSKGDTFPETQNDDRVWLNKRRVQPK				NA	NA	NA	NA	NA
AK002_06302	222			hypothetical protein	ATGGAGCGCAAGGTTTTTCAGTTAGGGGATATCGTTCAGATGAAGAAGCCCCATCCTTGTGGAAATAATGAGATGGAGATTATTCGCATGGGGATGGATATTCGGATTAAATGCACGAAGTGTCAGCACAGCGTGTTGATCCCCCGTGTAAAGTTCGAGAAGAATATGAAGAAGGTTTTACGTTCGGCGGAGGAATCGGAAGGGGCAGGGGATACACCTTAA	MERKVFQLGDIVQMKKPHPCGNNEMEIIRMGMDIRIKCTKCQHSVLIPRVKFEKNMKKVLRSAEESEGAGDTP				NA	NA	NA	NA	NA
AK002_06303	903	ykuT	COG0668	putative MscS family protein YkuT	ATGAGGGGCTTTGGTTACTTGTCAGGGGAAACTACAGAAGATGGAGTAGACTTGCAAACGATAGCTGAGGAGGCAGAGGGCTTGAAAGATAAGATCTGGGGATGGCTAACGAATGAGGAGATGTGGATGAATATTCTGTCATCCGGCATTCGGGTAATCATCATATTTATTCTGACGCGTCTCGTTATCCGGGTTGTGTATAAAATGATTGATCAGTTTCTGCTCCGGCAGGAGAAGAGCCGAATCCAGGTGAACTCAAGACGCTTTGTCACGGTAGGGGAATTGTTAAAAAATGTAACGTCCGTCGTATGTAATTTTGTCATGATCTTAATCATTCTGTCGGAGTTCAACTTCAAGCTAGGACCGCTGTTGGCTGGTGCCGGTGTACTGGGTCTTGCCATCGGTTTCGGTGCACAGAGTTTGGTGAAGGACGTTATTACCGGATTCTTCATTATATTCGAGGATCAGTTCGCCGTAGGTGACGTGATCAAGAGCGGCGAGTACCGGGGAACGGTTGAAATGATCGGACTGCGCACATCGCGTGTCAGGGGTCTGAACGGGGAAACCTATATCATTCCGAACGGGATGATTACCAGCGTTACGAACTACTCTCTTTCCAACTCGCTCGCGATAGTGGATCTGCCTGTGAAGAACGATCAGCAGGTGAAGGATACGATAACATTGATTCAATCGGCACTTACGGGAATCATGGACCGCCGGCCCGAGGTGCAGCGTGCGCCGGATGTGCTTGGGATCCAATCTTTGACAACGTCGGAATATGTGGTTCGCATCGTAGCCGAGTGTAATCCAAATGCCAGGGAAGCAGTGGAACGCCAGATTTTTACCGATATCAAACAGGCCATTGAAGCACGCGAGCTGGGGCAAGAACGCGTTCAGGGTTGA	MRGFGYLSGETTEDGVDLQTIAEEAEGLKDKIWGWLTNEEMWMNILSSGIRVIIIFILTRLVIRVVYKMIDQFLLRQEKSRIQVNSRRFVTVGELLKNVTSVVCNFVMILIILSEFNFKLGPLLAGAGVLGLAIGFGAQSLVKDVITGFFIIFEDQFAVGDVIKSGEYRGTVEMIGLRTSRVRGLNGETYIIPNGMITSVTNYSLSNSLAIVDLPVKNDQQVKDTITLIQSALTGIMDRRPEVQRAPDVLGIQSLTTSEYVVRIVAECNPNAREAVERQIFTDIKQAIEARELGQERVQG	PGPT0013695_2046	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
AK002_06304	255			hypothetical protein	GTGGAAGGTGCGATGGTGATCGCCTTCGATTCTACCCAGCAGGCGCTGCGCGCAGAAATGCTGCTGGAGTATGCGGATATCGAAATAGATCTGTTCCCTACGCCGAAAGAGATCACGGCTGGCTGTGCATTATCGATTCAATTCCCCCCTGATGCGTTAAAGGAAGTTCAAGAGATCATCCGGCTGGAGCATGTGGAGATCCGGGGCATTTTTGTGCTTGATGACAACGAGAGGTATATCAACATCGAGGAGTAA	MEGAMVIAFDSTQQALRAEMLLEYADIEIDLFPTPKEITAGCALSIQFPPDALKEVQEIIRLEHVEIRGIFVLDDNERYINIEE				NA	NA	NA	NA	NA
AK002_06305	606			hypothetical protein	ATGAACCGTCTATCTAAAATCACGTCTCGCCCGGAGGCTTCCAGCTTAAAAATACCACACACGGACCCTAATATCCATTCTGCTATTATACATCGCTTGCTCTTTCATCTTTCCGACGCCCGTATTCAGCATCGGCCGCTTGTCATTGTCTGCATCGGCACCGACCGGTCCACCGGTGACTGCCTGGGGCCACTGGTCGGCACTTCACTTGCCCGCTACAACAGTCCGCTGTTCCATCTTTACGGGACGCTGGACGAGCCTGTCCACGCCATGAATCTCAAGGATACGCTGACCGCCATATATGAGAAATTCGATAACCCTTTTGTGATCGGGATTGACGCCTGCTTAGGCCAATCAACCAGCGTAGGCTCCATTCAGATCGCAGATGGCCCTCTTAAGCCTGGAGCCGGCGTACATAAAGAATTACCGCCGGTTGGCGATATCCACGTCACGGGAATCGTCAATGTCGGCGGCTTTATGGAATACTTCGTATTGCAGAACACTCGATTAAGCTTGGTCATGCGGTTATCTGACATTATTGCTACCTGCCTGTTTGCAGGGATCAAGGAGTGGAACCGTTCTTCCCTTCTTGCAGCGCAAGAGTAA	MNRLSKITSRPEASSLKIPHTDPNIHSAIIHRLLFHLSDARIQHRPLVIVCIGTDRSTGDCLGPLVGTSLARYNSPLFHLYGTLDEPVHAMNLKDTLTAIYEKFDNPFVIGIDACLGQSTSVGSIQIADGPLKPGAGVHKELPPVGDIHVTGIVNVGGFMEYFVLQNTRLSLVMRLSDIIATCLFAGIKEWNRSSLLAAQE				NA	NA	NA	NA	NA
AK002_06306	519			hypothetical protein	ATGTCTGAATTAAATGAATTGATCATGGAGCAGCTTCATTGGTTTGTCGTCGGAATGGTCATGATCATCTTGATCTTATGGATAACCTTAATTGTTCAAGGGGCAAAATTGCGCAAGATGAAGCGCAGATACGATGCGATGATGGCAGGCAGCGGGGTAGAAGATATCGAATCTCTGCTGGTCCAGTTGAAAATCCAAATGGATGAAATTGAAGAAGGGCATGCCAGTCATCAAAAAATGCTGGATTCCATCAACGGCAGCTTGAAAGGAATGAAATCCAAAGTTGGCATCGTCAGATATAATGCATTTGGCGAGCGGGGGAACGAAATGAGCTTCTCCCTGGCTATCCTGAGTGAGGAGGAGGAAGGAATCGTTCTGACCGGTCTGCATAACCGGGAGAGCTCCTATGTGTACGCCAAACCATTAAAGGATGGGCAATCCAAATATCCATTGTCTCCAGAAGAAAAGGAGGCCGTTACTCTTGCGCTGCAAGAAGGGAAGAACGGTTCCACTCCTTGA	MSELNELIMEQLHWFVVGMVMIILILWITLIVQGAKLRKMKRRYDAMMAGSGVEDIESLLVQLKIQMDEIEEGHASHQKMLDSINGSLKGMKSKVGIVRYNAFGERGNEMSFSLAILSEEEEGIVLTGLHNRESSYVYAKPLKDGQSKYPLSPEEKEAVTLALQEGKNGSTP				NA	NA	NA	NA	NA
AK002_06307	1149	csd		putative cysteine desulfurase	ATGGACCCGATCGTTTATCTGGATCATGCCGCGACTTCGTGGCCCAAGCCTCCTGAAGTGTTTGAGGCAATGAAGTGGGCCATGGAAGAGGCGGCTGCAAACCCGGGGCGAGGAAGTCACCGAATGGCGGTGAAGGCATCCCGTGTCCTTTATGGGACTCGGAAAACGTTGGCAGATTTGTTTGGAGTGAAGAACCCCAACGATATTGCGTTGACATCGAATACAACCGAAGCGCTTAATTTAGCCATCAAAGGGTGTTTGCGTGAGGGCGATCATGTCATTGCGACGATGATTGAGCATAATTCTGTGCGCAGGCCGCTTGAATATTTGAAGCGCACCCGGGGGATACAAGTAGACTATGTTCCCGTTGATGAGGAAGGTCAGCTTGATCTGCAACTAATCGAGGGAGCCTTTCGTTCTAATACTAGGCTTGTTGTGTGCAGTCATAGTTCCAATCTGCTTGGTTCCATTATTCCACTTGTTGAGATAGGAGAACTGGCGAAGAAGAAAGGGGCTATACTGCTCGTGGATGCTGCCCAAAGTGCCGGTATGCTGGATATTCATGTGGAGAAGATGCATGTGGGTATGCTGGCGTTCCCCGGGCATAAAGGGCTTCTGGGGCCACAAGGAACAGGGGGGCTGTATATCTCGCCTGATATTGATCTGGAACCATTGCTGCATGGAGGTACCGGCAGTCAATCGGAGGCTATTGAACAGCCGAAAGTGCGTCCGGATCGATATGAGGCAGGAACGCCGAATACGATTGGATATGCGGGATTGCAAGCGGGTGTGCAGAAGGTGCTTGAATGGACGCCACAGCGTATTTACCGGCATGAATGGGAATTAACGCAATATATGATGGAGGGCCTGCAAGAGGTGAGAGGCCTTCGTTTACTAGGTCCTGCTCTTGGAAAAGCACGGACAGGCATCGTGGCTTTTGTGTCTGAAAAATTCGACGCGTCCGAAATAGCTTTTCGACTGGACCGGGAATATGGGATTGCCGTGCGTGCCGGTTATCATTGTACACCGCTTGCCCATATGGCATCAGGAACGGAACATACGGGTGCAGTCAGAGCGAGCGTTGGGATTTCTACGAGCCGTGACGAAATCGAATTCATGCGAAAAGCGATCAAGGAAATTCACAGTTAA	MDPIVYLDHAATSWPKPPEVFEAMKWAMEEAAANPGRGSHRMAVKASRVLYGTRKTLADLFGVKNPNDIALTSNTTEALNLAIKGCLREGDHVIATMIEHNSVRRPLEYLKRTRGIQVDYVPVDEEGQLDLQLIEGAFRSNTRLVVCSHSSNLLGSIIPLVEIGELAKKKGAILLVDAAQSAGMLDIHVEKMHVGMLAFPGHKGLLGPQGTGGLYISPDIDLEPLLHGGTGSQSEAIEQPKVRPDRYEAGTPNTIGYAGLQAGVQKVLEWTPQRIYRHEWELTQYMMEGLQEVRGLRLLGPALGKARTGIVAFVSEKFDASEIAFRLDREYGIAVRAGYHCTPLAHMASGTEHTGAVRASVGISTSRDEIEFMRKAIKEIHS	PGPT0020195_4930	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
AK002_06308	840	spo0J	COG1475	Stage 0 sporulation protein J	ATGAGTAAACGTTTGGGAAAAGGGCTGGATGCGCTGATTCCATCTTTGTCTATTCATGATGATGACAAGGTAGTGGAGATTCCGCTCAGTCAATTGCGAGCGAATCCATATCAGCCGCGAAAGACTTTTAACGATGAGGCGATCCAGGAGCTGGCAGAATCGATCCGTCAGCATGGCGTGATTCAACCGATTATCGTCCGCAGCGTGCTGAAGGGTTATGAGATTATTGCCGGGGAACGAAGATTCCGGGCATCTCAATATTGCGGCAAAGCAACGATTCCGGCGGTGGTTCGTTCCTTCAGCGACCAACAAGTAATGGAAATCGCCCTCATTGAGAACTTGCAGCGCGAGAATCTGAACGCCATGGAGATTGCGGTAGCTTATCAAGGGCTCATGGAACAATTTTCCTTAACCCAAGAAGAGTTGTCATTGAAGGTCGGTAAATCTCGTTCCCATATCGCTAACTTTTTGCGATTGCTTTCATTACCAGAAGAAGTGAAGGAAAATGTTTCACGTGGAACATTGTCGATGGGACATGCCAGAGCAATCGTGGGAATTAAGGATCCGATTCTTGTTAAACAGCTGGCGAAACAATGCGTGGAGCAGGAATGGAGTGTTCGCGAATTGGAGGAAGCGGTTAAGAATCTGGACCGCAAACCAGCGGATAAAGCGAAGCCTAAGGTCAAGAATCGCGATCCTTATATCGATCATCTGGAAGAGGATCTTAGAGAACGATTTAAAACGACCGTCAAAATTAAGCACAATAAGGATAAAGGGAAGATTGAGCTTAATTATTATAGCAAGCAGGATTTGGAGCGGTTGTTGGAACTTCTTCAATAA	MSKRLGKGLDALIPSLSIHDDDKVVEIPLSQLRANPYQPRKTFNDEAIQELAESIRQHGVIQPIIVRSVLKGYEIIAGERRFRASQYCGKATIPAVVRSFSDQQVMEIALIENLQRENLNAMEIAVAYQGLMEQFSLTQEELSLKVGKSRSHIANFLRLLSLPEEVKENVSRGTLSMGHARAIVGIKDPILVKQLAKQCVEQEWSVRELEEAVKNLDRKPADKAKPKVKNRDPYIDHLEEDLRERFKTTVKIKHNKDKGKIELNYYSKQDLERLLELLQ	PGPT0014815_8172	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
AK002_06309	762	soj	COG1192	Sporulation initiation inhibitor protein Soj	GTGTCAAAGATAATTGCCATAGCAAATCAAAAGGGCGGTGTCGGCAAAACAACGACTTCCGTCAATCTGGGAGCTGGATTGGCTTCGCTAGGCAAACGGGTGCTTTTGGTGGATATAGACCCCCAAGGTAACACAACGAGTGGGGTTGGCATTAACAAAGCCGATGTTGCAAATTGCATTTACGATATTATCATCAATGAAGTACACCCGAAGGACGCCATCTGTGGGACTAATATCGAAGGTTTGGACATCATTCCGGCCACCATTCAATTGGCTGGCGCAGAGATTGAGCTTGTTCCTACGATTTCTCGTGAAGTACGATTGAAGAAATCACTCCAATTAGTCAAACCCCAGTATGATTATATTTTGATTGATTGTCCTCCATCGCTTGGCATTTTAACGATCAATTCATTGACCGCGGCCGATTCGGTCATCATCCCGATTCAATGTGAATATTACGCATTGGAAGGTTTGAGTCAGCTGCTGAATACGGTTCGCCTCGTTCAGAAACATCTGAATACTTCACTCAAGATAGAAGGCGTATTGCTGACGATGCTGGATGCGCGCACGAATCTGGGCATTCAGGTGATTGAAGAAGTGAAGAAGTATTTTCAGGAAAAAGTGTACAAAACGATTATCCCGAGAAATATTCGTTTGAGTGAGGCACCGTCTCATGGGCAGTCGATCATTACGTATGATCCCCGTTCAAAGGGAGCGGAAGTATACTTGGAGCTGGCAAAGGAAGTGATCTCTTATGAGTAA	MSKIIAIANQKGGVGKTTTSVNLGAGLASLGKRVLLVDIDPQGNTTSGVGINKADVANCIYDIIINEVHPKDAICGTNIEGLDIIPATIQLAGAEIELVPTISREVRLKKSLQLVKPQYDYILIDCPPSLGILTINSLTAADSVIIPIQCEYYALEGLSQLLNTVRLVQKHLNTSLKIEGVLLTMLDARTNLGIQVIEEVKKYFQEKVYKTIIPRNIRLSEAPSHGQSIITYDPRSKGAEVYLELAKEVISYE				NA	NA	NA	NA	NA
AK002_06310	819	noc	COG1475	Nucleoid occlusion protein	ATGAAAGAACAATTTTCGAGATTGTTTGGCTTAGCGGCAGAGCGGAACCAAGGGGATGAAGTGAAACAAATCCCGGTAAACGAGGTTGTCAGCAGCCCATACCAGCCACGGACGATTTTTGATGACGAGAAGATTGATGAGCTGCTTCAGACGATTAAAACCCATGGAGTTATTCAGCCTATCGTCGTTCGCGTCCGAAATGGCGTGTATGAGATCATTGCAGGGGAACGCCGCTGGCGTGCGGTTAAGAAGCTGGGTCTGGACACGATTCCGGCCATTGTTCGGGAGTTCAACGATTCACAAGCAGCCTCCATTGCGTTAATCGAGAATCTGCAGCGTGAAGGTCTTACCTCGATTGAAGAGGCAGTAGCTTACCAGAAGCTCATCGATCTTCACCAATTAACGCAGGAGAGCCTGGCACAGCGACTAGGCAAAAGCCAGTCCACGATTGCAAACAAGATTCGTTTGCTGCAGCTGCCGGAAGCAGCCAAAGTGGCTTTAATGGAACGCAAGGTGACGGAGCGTCACGCGCGTGCACTGCTTTCCTTGGATAATGAAGAAACCCAGCTTAAAGTGCTGGACGAAATCATTACCAAAGAACTGAATGTGAAACAGACGGAGGCGCGTATCGCCTTTTATAAAGAAGTAACGACAATGAAGAAGGCCAAGCGCATATCGTATAGTAAAGATGTTCGCCTGGCCCTGAATACGATTCGTCAATCGATTGATATGGTATCCGGTTCCGGTATGGCTATCAAAACAACGGAGAATGATCACGAAGATCACTATGAAATCGTTATAAAAATACCTAAACGTTAA	MKEQFSRLFGLAAERNQGDEVKQIPVNEVVSSPYQPRTIFDDEKIDELLQTIKTHGVIQPIVVRVRNGVYEIIAGERRWRAVKKLGLDTIPAIVREFNDSQAASIALIENLQREGLTSIEEAVAYQKLIDLHQLTQESLAQRLGKSQSTIANKIRLLQLPEAAKVALMERKVTERHARALLSLDNEETQLKVLDEIITKELNVKQTEARIAFYKEVTTMKKAKRISYSKDVRLALNTIRQSIDMVSGSGMAIKTTENDHEDHYEIVIKIPKR	PGPT0014815_8476	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
AK002_06311	723	rsmG	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGGACGACATTCAGAAAGCTTTTGTTGACCGGCTCGGCGAGCACGGGATCGCGATTGACGAGAAACAGCTTCATCAGTTTGAGATGTATTACGAAGTGCTGGTGGAGTGGAATGAGAAAATGAACTTAACCGGAATAACCGAACGGGAGCAGGTTTACACGAAGCATTTTTATGATTCGATTACGCTCGCCTTTTACGTGGATATGAACAAGATCGGCAATCTGGCGGATATCGGATCAGGTGCCGGCTTCCCGGGAATTCCGCTAAAAATCTGCTTTCCCCATCTCAAGCTGACGATTGTAGATTCGTTGAATAAACGGATTACGTTTCTGAAGCATGTTGCGGATACCCTCGGACTGTCCGAGGTTGAGTTGATCCATGGGCGCGCGGAAGAGGTTGCCCGCAAACATGGGTACCGTGACGGGTTCGACCTGGTAACGGCAAGAGCGGTAGCTCGAATGGCCGTATTGAATGAGTTCTGCCTGCCTTTCACGAAGGTAGGGGGACAATTCGCGGCGATGAAGGGCAGCGACCCTACGGAAGAGGTGAAGGAGGCGGCCCGCAGTTTGAAAGAGCTGAGAGGGGCGTTGAACAAGGTTTATTCGTTCTCTTTGCCTGTAGAGGAATCTGGCCGGCATATCGTGGTGATCGATAAAAAGGGAGCGACGCCTACCAAGTACCCTCGCAAGGCGGGTACGGCCAGCAAAACGCCGATCGTGTAA	MDDIQKAFVDRLGEHGIAIDEKQLHQFEMYYEVLVEWNEKMNLTGITEREQVYTKHFYDSITLAFYVDMNKIGNLADIGSGAGFPGIPLKICFPHLKLTIVDSLNKRITFLKHVADTLGLSEVELIHGRAEEVARKHGYRDGFDLVTARAVARMAVLNEFCLPFTKVGGQFAAMKGSDPTEEVKEAARSLKELRGALNKVYSFSLPVEESGRHIVVIDKKGATPTKYPRKAGTASKTPIV				NA	NA	NA	NA	NA
AK002_06312	1887	mnmG		tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGAGTTATATGGGTGGCACTTATGACGTGATTGTAGTCGGTGCGGGCCATGCCGGTTGCGAGGCTGCACTGGCTTCCGCGCGTATGGGTGCTGAAACGTTGATGGTTACCATCAACCTGGATATGGTTGCTTTTATGCCTTGTAACCCGTCCATTGGAGGTCCTGCCAAAGGACATGTCGTACGCGAAATCGACGCGCTGGGCGGAGAAATGGGCCGCAATATCGATAAAACCTTCATTCAAATGCGCATGTTGAATACGGGAAAAGGTCCGGCCGTCCACGCGCTGCGCGCTCAAGCGGATAAGTTTTCTTATCAGCATACGATGAAAGAAACGATGGAGAAGGAAGAGAAGCTTACCCTTCGTCAGGGCATGGTGGATCAGCTCATCGTGGAGGATGGCGTGTGCGTGGGGATCGTGACGCAGACGGGTACGGAATATCGCGCGAAAGCCGTTGTGCTGACTACCGGTACGTATTTGCGCGGTAAAGTCATTATGGGCGAACTCATGTATGAGAGCGGTCCAAACAATCAACAGCCTTCGGTAAAACTTGCGCATAACCTGCGTGAGCTTGGATTCGATCTTGTTCGCTTCAAAACAGGTACGCCGCCGCGGGTGCATAAGGATACGATAGATTTCTCCAAGACCGAAATTCAGCCTGGGGATGAGAATCCTAAGTTCTTCTCTTACGAAACGAAATCCTCCGACAATGAGCAGCTTCCTTGCTGGTTGACGTATACGTCGGTGGATACGCATAAGATCATCAATGACAACCTTCATCGCGCGCCGATGTTCTCTGGCGTTATAGAAGGAACGGGTCCGCGTTATTGCCCATCCATCGAGGACAAGATCGTTCGTTTTGCCGACAAGCCGAAACATCAGATTTTCCTGGAGCCTGAAGGTAAAAATACAAAAGAATACTATGTGCAAGGTCTATCCACCAGCATGCCTGAGGATGTTCAGCTTGCGGTGCTTCGTTCCATTCCCGGAATGGAGAAGGTAGAAATGATGCGTAACGGATATGCTATCGAGTATGATGCGATGGTGCCAACGCAACTGTGGCCGTCTTTGGAAACCAAGAAACTGCCGGGCCTGTTCACGGCCGGTCAGATCAATGGAACCTCGGGATATGAAGAGGCTGCTGGCCAAGGCATCATGGCGGGAATCAACGCGGCACGTAAAGTGCAGGGCAAAGAGCCCGTCATTCTGGATCGCTCCCAGGGGTATATTGGAGTGCTGATCGATGATCTGGTGACTAAAGGGACGAACGAGCCTTATCGTTTGCTTACCTCCCGTGCAGAATACCGTTTGCTGCTCCGTCATGACAATGCCGATCTGCGACTTACCGAAATCGGTCATGACATCGGACTGATCTCGGAAGAGCGTTATGCCAAATTCCTGCTGAAGAAGCAGCTCGTTGAGCAGGAGATCGAACGTCTTCGACAAACGAAGGTGAAGCCGGTTGAGGTGAATGCGATGCTGGAAGCCGCCGGGTCAGCACCGATCGTGGACGGAAGCAATATGCTGACCATTTTGCGTCGTCCGGAGATTACGTTTGCTATGGTGGAGTCGCTCTCGCCGTCTCCTTACGAGCTGGATGAGGAAATGAAGGAGCAAGTCGAAATCCAAATCAAATATGCGGGTTATATTGAGAAACAGCTGGGACATGTGGAAAAGCTGCAGAAGATGGAGAAGAAACGCATTCCGGAAGATATCGTATACGACGAGATCAACGGACTGGCCATGGAGGCTCGGCAGAAGCTGAACAAAATCCGCCCGATTTCCATCGGCCAGGCATCGCGCATTGCCGGCGTAACGCCAGCGGATATTTCGATACTTCTCGTTTACCTGGAGCATTATAACCGGGTAACCGCAGCGAAAGGATAA	MSYMGGTYDVIVVGAGHAGCEAALASARMGAETLMVTINLDMVAFMPCNPSIGGPAKGHVVREIDALGGEMGRNIDKTFIQMRMLNTGKGPAVHALRAQADKFSYQHTMKETMEKEEKLTLRQGMVDQLIVEDGVCVGIVTQTGTEYRAKAVVLTTGTYLRGKVIMGELMYESGPNNQQPSVKLAHNLRELGFDLVRFKTGTPPRVHKDTIDFSKTEIQPGDENPKFFSYETKSSDNEQLPCWLTYTSVDTHKIINDNLHRAPMFSGVIEGTGPRYCPSIEDKIVRFADKPKHQIFLEPEGKNTKEYYVQGLSTSMPEDVQLAVLRSIPGMEKVEMMRNGYAIEYDAMVPTQLWPSLETKKLPGLFTAGQINGTSGYEEAAGQGIMAGINAARKVQGKEPVILDRSQGYIGVLIDDLVTKGTNEPYRLLTSRAEYRLLLRHDNADLRLTEIGHDIGLISEERYAKFLLKKQLVEQEIERLRQTKVKPVEVNAMLEAAGSAPIVDGSNMLTILRRPEITFAMVESLSPSPYELDEEMKEQVEIQIKYAGYIEKQLGHVEKLQKMEKKRIPEDIVYDEINGLAMEARQKLNKIRPISIGQASRIAGVTPADISILLVYLEHYNRVTAAKG				NA	NA	NA	NA	NA
AK002_06313	1377	mnmE	COG0486	tRNA modification GTPase MnmE	ATGTTTAGCGATACGATTGCAGCCATTTCTACGGCAGTCGGTGAAGGCGGCATCGCGATTATTCGCGTCAGCGGGCCGGACTCCGTTCAGGAAGTGGAGCGTATATTCAAAAGTAAAAACAAGCTAACGCAGGTGGAGTCCCATACCGTTCATTACGGTCATATTGTGGATCCGAAAACGGGGGAAAACCTGGAAGAGGTACTCGTGACCGTCATGCGTGCCCCTCGTTCGTTCACGACCGAGGATGTCGTGGAGATCAGCGCCCATGGCGGCGTCATCTCCGTGAAGCGGGTCATGGACCTGCTGCTTCAATTAAACATCCGTTTGGCTGAGCCCGGAGAATTTACGAAGCGGGCCTTCTTAAATGGCCGGATTGACCTGTCTCAGGCCGAGGCCGTCATGGACCTGATCCGTTCGAAATCGGACCGTGCCTTCTCCGTCGCCCTCAAGCAGGTCGAAGGTACGTTATCCCGCAAAATCAACGAGCTGCGTCATATCCTGGTCGAAACGCTGGCCCATATTGAAGTGAATATCGATTATCCCGAGCATGACGTGGAGTCGCTCACTTCGGAATTCATTAAAGAGAAAAGCAAACTGGTGATGGGGGAAATCGATAAACTGCTCAAGACCGCGCAAGAAGGGAAAATTCTGCGGGAAGGGATTACGACTGCCATTGTCGGGCGTCCTAACGTGGGCAAATCCTCGCTTCTGAACACGCTGGCCCAGGATAATCGGGCGATTGTCACGGATATACCGGGCACGACTCGCGATGTGATTGAGGAATTTGTCACCATTAACAACATTCCGTTGAAGCTGCTGGATACCGCAGGCATTCGGGAGACAATGGATGTGGTGGAGCAGATCGGCGTGGAACGATCCAAGCATGCGGTAAACGAGGCGGATCTCATTCTGCTCGTGCTGAATGCCAGCGAACCGCTGCATCAGGACGAATTGGAATTGATGGAACAAATACGCGGTAGACAATGCATTGTCATTATGAATAAAATGGACTTACCGTCTAATCTCGATCTGGACATTCTACATCGGTATTATCCCGATGAATTGATCGTTCCGATGTCGGTGAAGGCGCAGGAGGGGATTGACCGGCTGGAAGAGGCCATATCGAACCTGTTCTTCAGCGGCCAGATTGAAGGCGGGGATTTGACTTATGTGAGCAACGTGCGGCATATCGCCTTGTTGAAGAAATCCAAGCAGTCCCTGCAGGATGCCTACGACGCGGCCGACCAGCTCATTCCGATCGATATGATTCAAATCGATGTGAGAATGGCCTGGGAACAGTTAAGCGAGATCCTGGGCGAAGCGGTTGGCGATTCGCTCATCGATCAAATTTTTTCACAGTTTTGCTTGGGTAAATAA	MFSDTIAAISTAVGEGGIAIIRVSGPDSVQEVERIFKSKNKLTQVESHTVHYGHIVDPKTGENLEEVLVTVMRAPRSFTTEDVVEISAHGGVISVKRVMDLLLQLNIRLAEPGEFTKRAFLNGRIDLSQAEAVMDLIRSKSDRAFSVALKQVEGTLSRKINELRHILVETLAHIEVNIDYPEHDVESLTSEFIKEKSKLVMGEIDKLLKTAQEGKILREGITTAIVGRPNVGKSSLLNTLAQDNRAIVTDIPGTTRDVIEEFVTINNIPLKLLDTAGIRETMDVVEQIGVERSKHAVNEADLILLVLNASEPLHQDELELMEQIRGRQCIVIMNKMDLPSNLDLDILHRYYPDELIVPMSVKAQEGIDRLEEAISNLFFSGQIEGGDLTYVSNVRHIALLKKSKQSLQDAYDAADQLIPIDMIQIDVRMAWEQLSEILGEAVGDSLIDQIFSQFCLGK				NA	NA	NA	NA	NA
AK002_06314	789			hypothetical protein	ATGAGTAAAATCGTCGCAACAGGAAAAACCATTGAAGATGCTGTCGCACAAGGGCTGGCCCGCTTGGGTGTAAGTCAAGACCGTGTATCGGTTCAAGTATTGAGTCAGCCATCAAGAGGATTCCTGGGCCTGTTCGGGGTCAAGGAAGCGAAAGTCGAACTAACGCTCCTGCCTGACGGCGCCGGCGGCGAACCATCTGTGAAGGAAGTTTCTCCTTCGGGTACGCAAGCTGTTCCGGCCAAAACGGTTCAGGTCTCTCATGCCTCCGTGGCGACGCAGGCAGCGCCTGCGGGCACCGCGATTGCCGAGAGCCCCGGAACAGCTTCCCTTGAAGGCAAGGACCCTTATCAGGAAGCCATCGCCTTTCTTATCGAAACTGGACAAGCCATGGGGCTTGATATCTCCGTTGAGATGGAGAAGGGAAAAGACTTTACGACGCTTCAAATTTCCGGAGCCGGACTCGGATTGATGATCGGCCGCCGGGGCCAGACGTTGGATGCACTTCAGTATTTGGCGAATATCGTAGCGAATCGGTACTCCGATAGTTATCTGCGCATCGTACTGGATGCCGAGAACTTCCGTGACCGCCGCAAGAAAACGCTGGAGGATCTGGCCGATCGATTGGCGGGACGGGTTCTGAAGACCCGCAAAGAGATTGTGCTTGAGCCTATGCCTGCTGCGGAGCGGAAGGTGATTCACGCCAAACTCCAGTCCCATGGAGCCGTGAAGACGTACAGCAAGGGCGAAGAGCCGAACCGGCGGGTTGTCATCACGCCCAAGTCGTCCTAA	MSKIVATGKTIEDAVAQGLARLGVSQDRVSVQVLSQPSRGFLGLFGVKEAKVELTLLPDGAGGEPSVKEVSPSGTQAVPAKTVQVSHASVATQAAPAGTAIAESPGTASLEGKDPYQEAIAFLIETGQAMGLDISVEMEKGKDFTTLQISGAGLGLMIGRRGQTLDALQYLANIVANRYSDSYLRIVLDAENFRDRRKKTLEDLADRLAGRVLKTRKEIVLEPMPAAERKVIHAKLQSHGAVKTYSKGEEPNRRVVITPKSS				NA	NA	NA	NA	NA
AK002_06315	891	yidC2	COG0706	Membrane protein insertase YidC 2	GTGTCGTTCATGAAGACAAGACGAGGAAAATGGTTCCTCCTCACCGCTGTAATACTCGCAGTGGCCGTTATATCAGGTTGTGCGCCTGGAGCTGACCAAACGCGTACCATTGAAGACTTGAAAAATGGAGGCTTTTGGCAGAGCAACGTTGTTTATTACTTTACATGGGCACTTGATACGTTTGCGACATGGTTTAACGGCGAATACGGATTGTCCGTACTCGTGATGGTGCTTATCGTCCGTACCTTGATTTTACCGCTGACTCTGAAACAGGTCAGAAGCTCGAAGGCAATGCAGGCCATCCAGCCTGAAATTCAGAAAATTCGCGAGAAATATAAAGATCAGCCTGAAAAAGTTCAAATGGAAACGATGAAGCTCTTCCAGGAGAATAAGGTTAATCCGATGGCGGGATGTTTGCCGCTGATCGTACAAATGCCGATATTTATCGCACTCTATCATTCGATTTACTATAACAATCTCCTTCGTGATCACGAATTCCTGTGGCTGCAATTAGGGCAACCGGACAAGTTGTTTATTTTGCCGGTACTTGCCGCTGCAACCACTTATTTCCAAACCAAAATGATGATGAAGATGAACCCGTCTCCGCAAATGGGGATGATGCAGTTCATGCTGTTCGTTTATCCGATTCTGATCTTTGTAATGTCCTTCCAGTTCCCATCCGCACTTCCGTTGTACTGGTTCTACAGTAACCTCTACACGATCGTGCAGAACTACTTCTTGTACCGCAACAATGACAAGGCTGCAGTCGTGGCAAGCGTTGCCAGCGCAACCGAAGGTCATAAGAGCAACAAGAGCGGTAACAAGGGCGGGAAGAAGAGTGGCAGCAAAGGCGGGAAAAAAGGTTCGAAGGGAGCCAAGAAGTCGAGATGA	MSFMKTRRGKWFLLTAVILAVAVISGCAPGADQTRTIEDLKNGGFWQSNVVYYFTWALDTFATWFNGEYGLSVLVMVLIVRTLILPLTLKQVRSSKAMQAIQPEIQKIREKYKDQPEKVQMETMKLFQENKVNPMAGCLPLIVQMPIFIALYHSIYYNNLLRDHEFLWLQLGQPDKLFILPVLAAATTYFQTKMMMKMNPSPQMGMMQFMLFVYPILIFVMSFQFPSALPLYWFYSNLYTIVQNYFLYRNNDKAAVVASVASATEGHKSNKSGNKGGKKSGSKGGKKGSKGAKKSR	PGPT0024530_5391	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
AK002_06316	351	rnpA	COG0594	Ribonuclease P protein component	GTGCATAGAAAACTTCGTTTACGGAACCGCGCTGATTTCAGCCGGGTATATCGACACGGAAAGTCCTTCGCCAATCATCAATTTGTTGTCTATTGGTCGCGCAAAAAAGAGGTAGAGCAGTTTCGCGTCGGCGTTTCGTGCAGCAAAAAGATCGGCAATGCGGTTGTCCGCAACCGGATGAGACGGCTGGTTAAAGAGATTGTCAGGCACCATCAGCACCAGATTATCGAGCATATCGACCTGATCTTTATCGTTCGAAAGGGAGCGCTCGACAAGTCCTATCAGGAGCTGGAGAAAAGCGTGCTTCATGTATTGAGGAAATCGTCCCTTTTGAAAGCGAAGAGGGGTTGA	MHRKLRLRNRADFSRVYRHGKSFANHQFVVYWSRKKEVEQFRVGVSCSKKIGNAVVRNRMRRLVKEIVRHHQHQIIEHIDLIFIVRKGALDKSYQELEKSVLHVLRKSSLLKAKRG				NA	NA	NA	NA	NA
AK002_06317	135	rpmH		50S ribosomal protein L34	ATGAGACCGACTTTCAAACCGAATGTAAGCAAACGCAAAAAGGTACACGGCTTCCGTAAAAGAATGAGCACGAAGAACGGACGCAAAGTATTGGCTAACCGCCGTCAAAAAGGCAGAAAAGTACTGAGCGCTTAA	MRPTFKPNVSKRKKVHGFRKRMSTKNGRKVLANRRQKGRKVLSA				NA	NA	NA	NA	NA
AK002_06318	900		COG1023	6-phosphogluconate dehydrogenase, NAD(+)-dependent, decarboxylating	ATGAAAATAGGCATGATCGGTCTGGGGAAAATGGGCCTCAACCTGGTTCAGAATCTGATTCATCATCAGCATCAGGTCGTAGCTTACGACTTAAATACGGAACTGGTCGCTCAAGCCGCCGAGTGCGGCGCGGAAGCTGCCGCATCCACCGAATTGCTCGTAGCTAAACTGGAGAAACCACGCATCGTTTGGATGATGGTGCCGGCCGGTAAGATCGTGGATTCGGTCATCGAATCGCTTACGCCCCTGCTCGAGTCCGGTGATATTTTGATTGACGGAGGCAATTCGCATTATAAAGATTCCATCGCCCGTGCAGCACGCCTGGCGGAACAAGGCATTCATTATTTCGATGCCGGCACTTCCGGCGGCATGGAAGGCGCGCATAATGGAGGCTGCTTCATGATTGGGGGCAACCGCGACGTATTTAGCGGCATCGAGCCCCTGTTTAAGGATATGGCTGTCGAGAACGGTTACTTGTATGCCGGTGAAAGCGGCAGCGGTCATTTTCTGAAGATGGTCCATAATGGCATCGAATACGGCATGATGCAGTCCATTGCGGAAGGTTTTGAAGTGTTGGAAAAGAGCGCGTTTGATTTTAACTACGAGGATGTCGCACGGGTATGGTCGAACGGCTCCGTCATTCGCAGCTGGCTCATGGAACTGACGCAAAACGCTTTTTCCAAGGATCCGAAGCTCGAAGGCATTAAAGGCGTGATGAAATCATCCGGCGAAGGCAAATGGACGGTGGAAACGGCACTCGAGGTTCAAGCCAGCGCGCCGGTCATCGCCATGTCGCTGTTCATGCGCTATCGCTCCCTTGACCAAGATACGTTCCACGGCAAAGTCGTTGCCGCGCTTCGCAATGAATTCGGCGGCCATGCCGTTGAGAAATCGGAATAA	MKIGMIGLGKMGLNLVQNLIHHQHQVVAYDLNTELVAQAAECGAEAAASTELLVAKLEKPRIVWMMVPAGKIVDSVIESLTPLLESGDILIDGGNSHYKDSIARAARLAEQGIHYFDAGTSGGMEGAHNGGCFMIGGNRDVFSGIEPLFKDMAVENGYLYAGESGSGHFLKMVHNGIEYGMMQSIAEGFEVLEKSAFDFNYEDVARVWSNGSVIRSWLMELTQNAFSKDPKLEGIKGVMKSSGEGKWTVETALEVQASAPVIAMSLFMRYRSLDQDTFHGKVVAALRNEFGGHAVEKSE	PGPT0017385_4456	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
AK002_06319	678	gntR		putative D-xylose utilization operon transcriptional repressor	ATGAAATTTCCCTCAACGTGGCTTCAGGGAGCCTCTCTCGGAGAGGCCATTGCCAGCGAACTGAGATTGCAGATTATCAGCGGCACCATCAAGCGCGGAGAAATCCTATCCGAGAACCGGATCGCGGGTGAATTCGGCACGAGCCGATCTCCTGTGCGGGAAGCGATGAAAACGCTGTCCAGCGAAGGTTTGATTCAATTGGAGCGCATGGGAGCCGTCGTCATGGGCTTATCCCTCAAGGAAGTCGAGGAATTATACGATGTCCGTTTTCTTATCGAGAGCTTTGTTCAAGGACATGTGTTTGCGAATCCGCAGCCGGAACTGATCCAGCATTTAAAGCAAATCGTCGATCGGATGGAGCTTGCCGCCAAACATCAGGATCCGGTGGAATTCTCCTATCAGGATTTGGCTTTTCATGAACGGATTATAACGGAAGCGAACCATAAACGAATTCTTCATCTGTGGAAGAGCATTCGCCCCATCGTGATCACGGTGATGCTCATTACGACGCGGCAGGTATTCGGTGGCGGGGGCGCCAAGGTTCGCTATGTCATGGACAAGCATCTTCAGCTTATCGCGGAGATGGAATCCCTGGATCCGGCACGGATCCAAACGGCGGTTCAGCATTACTTCGATGATTCCCGTCAGACGCTTCATCTTAGTTTTCCGGAGGGTTAA	MKFPSTWLQGASLGEAIASELRLQIISGTIKRGEILSENRIAGEFGTSRSPVREAMKTLSSEGLIQLERMGAVVMGLSLKEVEELYDVRFLIESFVQGHVFANPQPELIQHLKQIVDRMELAAKHQDPVEFSYQDLAFHERIITEANHKRILHLWKSIRPIVITVMLITTRQVFGGGGAKVRYVMDKHLQLIAEMESLDPARIQTAVQHYFDDSRQTLHLSFPEG				NA	NA	NA	NA	NA
AK002_06320	1362	gntT	COG2610	High-affinity gluconate transporter	ATGAATTCACTATTCGGTCTCAGTCATAACGCTACCTTAATGATCTGGACACTGCTGACGATCGTCTTCCTGATCGTGCTGATTTCCAAATATAAATGGAATCCTTTCGTTACCTTACTGATCTCCGCACTGATCCTCGGTCTATTGACGGGCATGCAGCCTGCGGATGTGATTACTTCGATAACCGGCGGTCTTGGCGGAACGCTCGGAACGATTGCGATCGTTATCGCCCTTGGTACCATGCTGGGTAAAATGATGGCCGAATCCGGCGGCGCCGAGCAAATCGCCACCACCCTCGTGGACCGCTTCGGCGAGAAGCGCGTCCACTGGGCCATGATGATCGTCGGCTTTATTGTCGGTATTCCCGTATTTTTCGAGGTTGGCGTCATCCTGCTGATTCCAATTGTGTTCACGGTTGCACGCAAAACGAAAATGTCCCTGCTGCACATCGGCATTCCGATTCTGGCCGGATTGTCCACCGTTCATGGGCTGGTGCCTCCGCATCCCGCTCCGATGATTGCCATTGAAGCTTATGATGCGGACCTCGGCATGACCATTCTCTATTCGTTCCTGGTCGGAATTCCTGCAGCGATACTCGCCGGCCCGGTATTCGGTAAATTTATCGGGAAACGGATTCGAACCGAACCGCCCGAAGAGCTGGCCGAGCAGTTTTCAAGCAAAGCGGAACGAGGCTTGCCAGGCTTCGGCATCACCTTGTTTACGATCCTGCTGCCGGTCATTCTGATGCTTATCGGATCCGCGGCCGATATTATCGATCCGGAGTCCACCAGCTTCATTTCCGTGTTCTGCAAATTTATCGGTCATGAAATCATTGCCCTGCTCATTGCTGCGGTCTTCTCCTTCTTCTCGCTTGGATTCGCCCGCGGCTTTAATAAACATGATCTTTCCCGCTTCACCAGTGAATGCCTCGCTCCGATCGCTTCGATTATTCTGATCATCGGTGCAGGCGGCGCTTTCAAGCAGGTTCTGATCAACAGCGGCGTCGGCAATGCCATCGCCGAAATTGCAACCGGCGCCAATATCAACGTGATTTTGTTCGCATGGCTTGTCGCGGCGCTCATTCGCATCGCAACCGGTTCTGCAACCGTAGCCATGACAACCGCCGCTGGAATCGTTGCTCCTGTGCTTGCGATGACGCCGGGCGCCAATGTGGAGCTAGTGGTGCTCGCTACCGGAGCAGGCTCCATCGTACTGTCCCACGTGAACGATGCCGGCTTCTGGATGGTAAAAGAATTCTTTAATATGACAGTAGCCCAGACGCTAAAATCCTGGACCGTGCTGGAAACGATTCTGTCCGTGACCGGGCTCGTGTTGGCTCTTGTTCTGAATGTAATTGTATAA	MNSLFGLSHNATLMIWTLLTIVFLIVLISKYKWNPFVTLLISALILGLLTGMQPADVITSITGGLGGTLGTIAIVIALGTMLGKMMAESGGAEQIATTLVDRFGEKRVHWAMMIVGFIVGIPVFFEVGVILLIPIVFTVARKTKMSLLHIGIPILAGLSTVHGLVPPHPAPMIAIEAYDADLGMTILYSFLVGIPAAILAGPVFGKFIGKRIRTEPPEELAEQFSSKAERGLPGFGITLFTILLPVILMLIGSAADIIDPESTSFISVFCKFIGHEIIALLIAAVFSFFSLGFARGFNKHDLSRFTSECLAPIASIILIIGAGGAFKQVLINSGVGNAIAEIATGANINVILFAWLVAALIRIATGSATVAMTTAAGIVAPVLAMTPGANVELVVLATGAGSIVLSHVNDAGFWMVKEFFNMTVAQTLKSWTVLETILSVTGLVLALVLNVIV	PGPT0001340_1489	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_GLUCONATE_TRANSPORT,PGPT0001340-TC_GNTP-K03299	NA	NA
AK002_06321	1548	xylB_2	COG1070	Xylulose kinase	TTGAGTACACATAACTATATGATCGGCGTCGATATCGGAACAACAAGCACCAAAGCGGTCCTTTTCAAGGAGAACGGTGAGGTCGTTGCCAAGGCCGGCGGCGAATATCCGCTGCTTACTCCGACGCCCTCTACGGCCGAACAAGACCCGGAACAAATCTTTCAAACCGTCATCGCCTCTGTTCAAGGCGTCATGACGCAGAGCGGCATCGATCCGGCTCAAGTGCTGTTCGTATCCTTTAGCGCAGCCATGCACAGCGTCATTGCCGTGGACAGCCAGGGCACCCCTCTGACCCGCTGCATTACCTGGGCGGACAATCGCAGTGCAGCCTGGTCGGCGAAGCTCAAAAAGGAACTTGGCGGCATGGAGCTGTACCTTAGAACCGGAACTCCGATACATCCCATGTCACCCGTAACCAAGCTGATGTGGATGCGCCATGAGCTGCCCTCCCTCTTTTCGCAAGCAGCCAAATTCATTTCGATCAAAGAATACGTTTATTTCAAGCTGTTCGGCCAATATGTCGTTGATCATTCCATTGCTTCCAGCACCGGGATGATGAACCTCGAGGCGTTGGCATGGGATCCGCAGGCGCTTGAGCTTGCCGGCATCACCGAGGACCATTTGTCGACCATCGTCCCTACTACACATATCATGGAGGGCTTAAAAGGCGAGTATGCCGCAGCCATGGGGCTCTCCGCCTCCACGCCGTTCGTGCTCGGCGCTGCCGACGGAGTTCTGTCGAACCTGGGCGTGAACGCCATCCAGCCGGGCGTCGTTGCGGCCACGATCGGTACGAGCGGCGCCATCCGTACGGTCGTCGACAAGCCGATGACCGATCCGAAAGGACGTATTTTCTGCTATGCATTGACGGAGAAGCATTGGGTCATCGGCGGCGCGGTCAATAATGGGGGCATGATTTTCCGCTGGGTTCGCGATGAATTTGCCGCCTCCGAGATCGAAACGGCCAAGCGTCTGGGCATCAATCCCTATGATGTGCTGACCAAAATCGCGGATCGTATTCCGCCCGGCTCGAACGGACTCCTATTCCACCCGTACCTGACGGGAGAACGCGCGCCGTTATGGGATCCGAATGCCCGCGGCTCGTTCTTTGGCTTAACCCTCAATCATAAAAAAGAGCATATGATCCGCTCCGTGCTGGAAGGCGTGATCTTTAATATGTATACCGTTCTGCTGGCGATGGAGGAACAAATCGGCCGGCCGGCCAAAATTCATGCCACCGGCGGTTTCGCCCGTTCACCGATCTGGCGACAGATGATGGCGGATATTTTTGACCAGCAGGTGATCGTGCCGGAAAGCTACGAGAGCTCTTGCCTTGGCGCAGTGGTCCTTGGACTGTACGCCACAGGCAGAGTGGAATCGCTCGATATCGTCGAGACGATGGTCGGCGGCACCCATGAACACCAGCCCGTGAAAGAAAGCGCCGATATTTATAAAGCGCTGCTGCCGATTTTTATCCGCATTTCCCGGAAGCTGGAGGAAGATTATGAGGCGATTACCGAATTCCAACGCCGATTCGAGAACGCATAA	MSTHNYMIGVDIGTTSTKAVLFKENGEVVAKAGGEYPLLTPTPSTAEQDPEQIFQTVIASVQGVMTQSGIDPAQVLFVSFSAAMHSVIAVDSQGTPLTRCITWADNRSAAWSAKLKKELGGMELYLRTGTPIHPMSPVTKLMWMRHELPSLFSQAAKFISIKEYVYFKLFGQYVVDHSIASSTGMMNLEALAWDPQALELAGITEDHLSTIVPTTHIMEGLKGEYAAAMGLSASTPFVLGAADGVLSNLGVNAIQPGVVAATIGTSGAIRTVVDKPMTDPKGRIFCYALTEKHWVIGGAVNNGGMIFRWVRDEFAASEIETAKRLGINPYDVLTKIADRIPPGSNGLLFHPYLTGERAPLWDPNARGSFFGLTLNHKKEHMIRSVLEGVIFNMYTVLLAMEEQIGRPAKIHATGGFARSPIWRQMMADIFDQQVIVPESYESSCLGAVVLGLYATGRVESLDIVETMVGGTHEHQPVKESADIYKALLPIFIRISRKLEEDYEAITEFQRRFENA				NA	NA	NA	NA	NA
AK002_06322	126			hypothetical protein	ATGTTGTTTTCTTCGATAATAGTCAGGGTGGCCCTGCTTCGAAGTTATAAACGTTCGTATATCTTAAAGAAAAGCCCGTTCTCGCTGGATCCGATCCATGCCGAAAACGGGCTTTTTTTGTCATAA	MLFSSIIVRVALLRSYKRSYILKKSPFSLDPIHAENGLFLS				NA	NA	NA	NA	NA
AK002_06323	735			hypothetical protein	ATGCGGACCGAAGGGAAGGGCTTGAGCTGGAGAAAAATAGGGGTGCTGCTTGCACTGGCCGCCCTATTGGTTCTGATCACGGTATGGGCTCAGAGCTATTATTCGAAGAAAGTGTTCCATATGGAAGACATTAAGTACTCGAAATATGCCGATTCGGGAAACGGGAACATCGAGTACAGAGGATCATTTGGCCGCGGGGAGCCAATCTATGTCCATGCCGGTGAAGAGGGGAATAGGGTTGAGATTGCCGGCGAAATATATGAAATACGGGCATATGGTCACGGATCGGGACATTCGGCATCATATGAAGTGATCTATCCTGACGGTAAAGTCTACCGCGTGGAACCGTTTGGAGACCGGAGCTTTCTTGCATACGACGAGAAGGGGGGGATGGTGATACCCGGCATGAGGTTCACGGACGGCAGCGGCCAAGTTTATCGATCCGATCCGGATGAGCCCCGCTATTTCCCCACGGAGCTGGCCAAGGCTGCTGACGAGCGGTTTCATGACCCGAATGGCAGCATAGGATTCTTTTTGTTGGCGCTCGGGATAGGGATCATGAACTGGAGCTTCTTCAGATATGAGCCTTTCCAGCGGTTTATGTTTCATATTTCGCCATCAAACTGGATGTATGATAATCCGGAGCCCAGCGACTTCTACTTCTTTATGTGCAAGGCAGGGGGGATTTTCGGTATGGGATTCTCATTGTGGATATTTTTTGCGCATGCATTATGA	MRTEGKGLSWRKIGVLLALAALLVLITVWAQSYYSKKVFHMEDIKYSKYADSGNGNIEYRGSFGRGEPIYVHAGEEGNRVEIAGEIYEIRAYGHGSGHSASYEVIYPDGKVYRVEPFGDRSFLAYDEKGGMVIPGMRFTDGSGQVYRSDPDEPRYFPTELAKAADERFHDPNGSIGFFLLALGIGIMNWSFFRYEPFQRFMFHISPSNWMYDNPEPSDFYFFMCKAGGIFGMGFSLWIFFAHAL				NA	NA	NA	NA	NA
AK002_06324	1347	dnaA	COG0593	Chromosomal replication initiator protein DnaA	TTGGAAAGCCATACTTCCGAATTATGGCAAGAAATATTATCGATCATACAAACCAAGCTGAGCAAACCGAGTTTTGACACTTGGTTTAAAGCTACCAAGGCATTGACCATTAACGATCACTCCGTCGTCATTTCCGCGCCGACAACGTTTGCTGTGGAATGGCTGGAGAGCCGATACACCAAGCTGGTTAGTGCAACCGTGCTGGAGGTGGTGGGCAAGCAGGTCGACGTTCGCTTCGTGATCGAAGAGACGAAGGCACATGAACCTGCTCCGCAGCAGCCCTCGCCGCCGCTTGAAATATCCGGTGAAGAAATTCAGTCCCATATGCTGAACCCGAAGTATACGTTTGACACATTTGTCATCGGCTCGGGCAACCGGTTCGCACATGCTGCCTCGCTCGCCGTTGCCGAAGCTCCGGCTAAGGCGTATAACCCGTTATTCCTATATGGTGGAGTAGGCCTTGGAAAAACGCACTTGATGCATGCCATCGGCCACTACATTTTGGAGCACAATCCCAGCAGCAAAGTCGTGTACATTTCCTCCGAGAAATTCACCAACGAGTTCATCAACTCCATTCGGGACAACCGCGCAGAAAGCTTCCGCAACAAGTACCGCAACGTTGATATTCTGCTCATTGACGATATCCAGTTCTTGGCCGGGAAAGAATCGACGCAGGAGGAATTTTTCCATACGTTTAACGCCCTGCATGAAGAGCGGAAGCAGATTATTATATCCAGTGACCGTCCCCCCAAGGAGATCCCGACGCTGGAAGAACGGCTCCGTTCCCGCTTCGAATGGGGATTGATCACCGACATTCAACCGCCGGATCTGGAGACTCGTATCGCCATCCTTCGCAAGAAGGCCAAGGCCGAGAATCTGGATATTCCGAACGAAGCCATGATGTATATCGCCAATCAGATCGATACGAACATTCGTGAGCTTGAAGGTGCCCTTATCCGTGTCGTCGCTTATTCCTCCCTGACCAATCAGGACGTTACAACGCATCTGGCAGCCGAAGCCTTGAAGGATATCATCCCGTCCAGCCGGCCGAGAATGATTACGATTCAGGATATCCAACAAAAGGTCGGCGAGTATTACAACCTGAGACTGGAAGACTTCAAAGCCCGCAAACGGACCAAAGCCGTCGCGTTTCCGCGGCAAATTGCCATGTACTTGTCCCGCGAATTAACCGACTATTCCCTTCCCAAGATCGGAGAGGCATTCGGAGGCCGGGATCATACCACTGTCATTCATGCCCATGAGAAGATTACACAATCTCTGAAAACGGACCAGGAGCTTTTCAAAGTGGTCAATAACATTACGGAGAAAATCAAAAATCCAACCTGA	MESHTSELWQEILSIIQTKLSKPSFDTWFKATKALTINDHSVVISAPTTFAVEWLESRYTKLVSATVLEVVGKQVDVRFVIEETKAHEPAPQQPSPPLEISGEEIQSHMLNPKYTFDTFVIGSGNRFAHAASLAVAEAPAKAYNPLFLYGGVGLGKTHLMHAIGHYILEHNPSSKVVYISSEKFTNEFINSIRDNRAESFRNKYRNVDILLIDDIQFLAGKESTQEEFFHTFNALHEERKQIIISSDRPPKEIPTLEERLRSRFEWGLITDIQPPDLETRIAILRKKAKAENLDIPNEAMMYIANQIDTNIRELEGALIRVVAYSSLTNQDVTTHLAAEALKDIIPSSRPRMITIQDIQQKVGEYYNLRLEDFKARKRTKAVAFPRQIAMYLSRELTDYSLPKIGEAFGGRDHTTVIHAHEKITQSLKTDQELFKVVNNITEKIKNPT	PGPT0014800_3998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
AK002_06325	117			hypothetical protein	ATGGAAATATCCGTATCGCTGGCCGTTAGCGTGACGCCCGAATACGTGACATCCAGTTTAATGCCGCTGAGGATCGGAATCGTGGTTCGGCTGGAGATCGCCTTCGATACGTGTTGA	MEISVSLAVSVTPEYVTSSLMPLRIGIVVRLEIAFDTC				NA	NA	NA	NA	NA
AK002_06326	315			hypothetical protein	TTGTTTGATCATGTTTTTCAACAGATCACCTGGCAAAGAAACGGTTTGGCTGCCCTCGATGTTAGGCAATACCGGGAATTCCTCCGGATCCAAGCCGACCATCTGGATTTCCGTGGCCCCCGAAGAAATAAAGGTCTGAAAGTTTTCTTTGACCTCCATCTGAATTTCCTGGGAAGGCAGTTTCTTGATGATTTCAACGAAGAATTTGGCTGGCAGCACAACGCTGCCAGGCTGCTCTACCTGAACGATGGTATGCTTCTCATCCTCCGCAGGAATAAACGATTGAATGGAAATATCCGTATCGCTGGCCGTTAG	MFDHVFQQITWQRNGLAALDVRQYREFLRIQADHLDFRGPRRNKGLKVFFDLHLNFLGRQFLDDFNEEFGWQHNAARLLYLNDGMLLILRRNKRLNGNIRIAGR				NA	NA	NA	NA	NA